diff options
Diffstat (limited to 'Documentation')
74 files changed, 5028 insertions, 4348 deletions
diff --git a/Documentation/ABI/testing/debugfs-kmemtrace b/Documentation/ABI/testing/debugfs-kmemtrace new file mode 100644 index 000000000000..5e6a92a02d85 --- /dev/null +++ b/Documentation/ABI/testing/debugfs-kmemtrace | |||
@@ -0,0 +1,71 @@ | |||
1 | What: /sys/kernel/debug/kmemtrace/ | ||
2 | Date: July 2008 | ||
3 | Contact: Eduard - Gabriel Munteanu <eduard.munteanu@linux360.ro> | ||
4 | Description: | ||
5 | |||
6 | In kmemtrace-enabled kernels, the following files are created: | ||
7 | |||
8 | /sys/kernel/debug/kmemtrace/ | ||
9 | cpu<n> (0400) Per-CPU tracing data, see below. (binary) | ||
10 | total_overruns (0400) Total number of bytes which were dropped from | ||
11 | cpu<n> files because of full buffer condition, | ||
12 | non-binary. (text) | ||
13 | abi_version (0400) Kernel's kmemtrace ABI version. (text) | ||
14 | |||
15 | Each per-CPU file should be read according to the relay interface. That is, | ||
16 | the reader should set affinity to that specific CPU and, as currently done by | ||
17 | the userspace application (though there are other methods), use poll() with | ||
18 | an infinite timeout before every read(). Otherwise, erroneous data may be | ||
19 | read. The binary data has the following _core_ format: | ||
20 | |||
21 | Event ID (1 byte) Unsigned integer, one of: | ||
22 | 0 - represents an allocation (KMEMTRACE_EVENT_ALLOC) | ||
23 | 1 - represents a freeing of previously allocated memory | ||
24 | (KMEMTRACE_EVENT_FREE) | ||
25 | Type ID (1 byte) Unsigned integer, one of: | ||
26 | 0 - this is a kmalloc() / kfree() | ||
27 | 1 - this is a kmem_cache_alloc() / kmem_cache_free() | ||
28 | 2 - this is a __get_free_pages() et al. | ||
29 | Event size (2 bytes) Unsigned integer representing the | ||
30 | size of this event. Used to extend | ||
31 | kmemtrace. Discard the bytes you | ||
32 | don't know about. | ||
33 | Sequence number (4 bytes) Signed integer used to reorder data | ||
34 | logged on SMP machines. Wraparound | ||
35 | must be taken into account, although | ||
36 | it is unlikely. | ||
37 | Caller address (8 bytes) Return address to the caller. | ||
38 | Pointer to mem (8 bytes) Pointer to target memory area. Can be | ||
39 | NULL, but not all such calls might be | ||
40 | recorded. | ||
41 | |||
42 | In case of KMEMTRACE_EVENT_ALLOC events, the next fields follow: | ||
43 | |||
44 | Requested bytes (8 bytes) Total number of requested bytes, | ||
45 | unsigned, must not be zero. | ||
46 | Allocated bytes (8 bytes) Total number of actually allocated | ||
47 | bytes, unsigned, must not be lower | ||
48 | than requested bytes. | ||
49 | Requested flags (4 bytes) GFP flags supplied by the caller. | ||
50 | Target CPU (4 bytes) Signed integer, valid for event id 1. | ||
51 | If equal to -1, target CPU is the same | ||
52 | as origin CPU, but the reverse might | ||
53 | not be true. | ||
54 | |||
55 | The data is made available in the same endianness the machine has. | ||
56 | |||
57 | Other event ids and type ids may be defined and added. Other fields may be | ||
58 | added by increasing event size, but see below for details. | ||
59 | Every modification to the ABI, including new id definitions, are followed | ||
60 | by bumping the ABI version by one. | ||
61 | |||
62 | Adding new data to the packet (features) is done at the end of the mandatory | ||
63 | data: | ||
64 | Feature size (2 byte) | ||
65 | Feature ID (1 byte) | ||
66 | Feature data (Feature size - 3 bytes) | ||
67 | |||
68 | |||
69 | Users: | ||
70 | kmemtrace-user - git://repo.or.cz/kmemtrace-user.git | ||
71 | |||
diff --git a/Documentation/ABI/testing/debugfs-pktcdvd b/Documentation/ABI/testing/debugfs-pktcdvd index bf9c16b64c34..cf11736acb76 100644 --- a/Documentation/ABI/testing/debugfs-pktcdvd +++ b/Documentation/ABI/testing/debugfs-pktcdvd | |||
@@ -1,4 +1,4 @@ | |||
1 | What: /debug/pktcdvd/pktcdvd[0-7] | 1 | What: /sys/kernel/debug/pktcdvd/pktcdvd[0-7] |
2 | Date: Oct. 2006 | 2 | Date: Oct. 2006 |
3 | KernelVersion: 2.6.20 | 3 | KernelVersion: 2.6.20 |
4 | Contact: Thomas Maier <balagi@justmail.de> | 4 | Contact: Thomas Maier <balagi@justmail.de> |
@@ -10,10 +10,10 @@ debugfs interface | |||
10 | The pktcdvd module (packet writing driver) creates | 10 | The pktcdvd module (packet writing driver) creates |
11 | these files in debugfs: | 11 | these files in debugfs: |
12 | 12 | ||
13 | /debug/pktcdvd/pktcdvd[0-7]/ | 13 | /sys/kernel/debug/pktcdvd/pktcdvd[0-7]/ |
14 | info (0444) Lots of driver statistics and infos. | 14 | info (0444) Lots of driver statistics and infos. |
15 | 15 | ||
16 | Example: | 16 | Example: |
17 | ------- | 17 | ------- |
18 | 18 | ||
19 | cat /debug/pktcdvd/pktcdvd0/info | 19 | cat /sys/kernel/debug/pktcdvd/pktcdvd0/info |
diff --git a/Documentation/ABI/testing/sysfs-firmware-acpi b/Documentation/ABI/testing/sysfs-firmware-acpi index e8ffc70ffe12..4f9ba3c2fca7 100644 --- a/Documentation/ABI/testing/sysfs-firmware-acpi +++ b/Documentation/ABI/testing/sysfs-firmware-acpi | |||
@@ -69,9 +69,13 @@ Description: | |||
69 | gpe1F: 0 invalid | 69 | gpe1F: 0 invalid |
70 | gpe_all: 1192 | 70 | gpe_all: 1192 |
71 | sci: 1194 | 71 | sci: 1194 |
72 | sci_not: 0 | ||
72 | 73 | ||
73 | sci - The total number of times the ACPI SCI | 74 | sci - The number of times the ACPI SCI |
74 | has claimed an interrupt. | 75 | has been called and claimed an interrupt. |
76 | |||
77 | sci_not - The number of times the ACPI SCI | ||
78 | has been called and NOT claimed an interrupt. | ||
75 | 79 | ||
76 | gpe_all - count of SCI caused by GPEs. | 80 | gpe_all - count of SCI caused by GPEs. |
77 | 81 | ||
diff --git a/Documentation/ABI/testing/sysfs-kernel-slab b/Documentation/ABI/testing/sysfs-kernel-slab new file mode 100644 index 000000000000..6dcf75e594fb --- /dev/null +++ b/Documentation/ABI/testing/sysfs-kernel-slab | |||
@@ -0,0 +1,479 @@ | |||
1 | What: /sys/kernel/slab | ||
2 | Date: May 2007 | ||
3 | KernelVersion: 2.6.22 | ||
4 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
5 | Christoph Lameter <cl@linux-foundation.org> | ||
6 | Description: | ||
7 | The /sys/kernel/slab directory contains a snapshot of the | ||
8 | internal state of the SLUB allocator for each cache. Certain | ||
9 | files may be modified to change the behavior of the cache (and | ||
10 | any cache it aliases, if any). | ||
11 | Users: kernel memory tuning tools | ||
12 | |||
13 | What: /sys/kernel/slab/cache/aliases | ||
14 | Date: May 2007 | ||
15 | KernelVersion: 2.6.22 | ||
16 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
17 | Christoph Lameter <cl@linux-foundation.org> | ||
18 | Description: | ||
19 | The aliases file is read-only and specifies how many caches | ||
20 | have merged into this cache. | ||
21 | |||
22 | What: /sys/kernel/slab/cache/align | ||
23 | Date: May 2007 | ||
24 | KernelVersion: 2.6.22 | ||
25 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
26 | Christoph Lameter <cl@linux-foundation.org> | ||
27 | Description: | ||
28 | The align file is read-only and specifies the cache's object | ||
29 | alignment in bytes. | ||
30 | |||
31 | What: /sys/kernel/slab/cache/alloc_calls | ||
32 | Date: May 2007 | ||
33 | KernelVersion: 2.6.22 | ||
34 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
35 | Christoph Lameter <cl@linux-foundation.org> | ||
36 | Description: | ||
37 | The alloc_calls file is read-only and lists the kernel code | ||
38 | locations from which allocations for this cache were performed. | ||
39 | The alloc_calls file only contains information if debugging is | ||
40 | enabled for that cache (see Documentation/vm/slub.txt). | ||
41 | |||
42 | What: /sys/kernel/slab/cache/alloc_fastpath | ||
43 | Date: February 2008 | ||
44 | KernelVersion: 2.6.25 | ||
45 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
46 | Christoph Lameter <cl@linux-foundation.org> | ||
47 | Description: | ||
48 | The alloc_fastpath file is read-only and specifies how many | ||
49 | objects have been allocated using the fast path. | ||
50 | Available when CONFIG_SLUB_STATS is enabled. | ||
51 | |||
52 | What: /sys/kernel/slab/cache/alloc_from_partial | ||
53 | Date: February 2008 | ||
54 | KernelVersion: 2.6.25 | ||
55 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
56 | Christoph Lameter <cl@linux-foundation.org> | ||
57 | Description: | ||
58 | The alloc_from_partial file is read-only and specifies how | ||
59 | many times a cpu slab has been full and it has been refilled | ||
60 | by using a slab from the list of partially used slabs. | ||
61 | Available when CONFIG_SLUB_STATS is enabled. | ||
62 | |||
63 | What: /sys/kernel/slab/cache/alloc_refill | ||
64 | Date: February 2008 | ||
65 | KernelVersion: 2.6.25 | ||
66 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
67 | Christoph Lameter <cl@linux-foundation.org> | ||
68 | Description: | ||
69 | The alloc_refill file is read-only and specifies how many | ||
70 | times the per-cpu freelist was empty but there were objects | ||
71 | available as the result of remote cpu frees. | ||
72 | Available when CONFIG_SLUB_STATS is enabled. | ||
73 | |||
74 | What: /sys/kernel/slab/cache/alloc_slab | ||
75 | Date: February 2008 | ||
76 | KernelVersion: 2.6.25 | ||
77 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
78 | Christoph Lameter <cl@linux-foundation.org> | ||
79 | Description: | ||
80 | The alloc_slab file is read-only and specifies how many times | ||
81 | a new slab had to be allocated from the page allocator. | ||
82 | Available when CONFIG_SLUB_STATS is enabled. | ||
83 | |||
84 | What: /sys/kernel/slab/cache/alloc_slowpath | ||
85 | Date: February 2008 | ||
86 | KernelVersion: 2.6.25 | ||
87 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
88 | Christoph Lameter <cl@linux-foundation.org> | ||
89 | Description: | ||
90 | The alloc_slowpath file is read-only and specifies how many | ||
91 | objects have been allocated using the slow path because of a | ||
92 | refill or allocation from a partial or new slab. | ||
93 | Available when CONFIG_SLUB_STATS is enabled. | ||
94 | |||
95 | What: /sys/kernel/slab/cache/cache_dma | ||
96 | Date: May 2007 | ||
97 | KernelVersion: 2.6.22 | ||
98 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
99 | Christoph Lameter <cl@linux-foundation.org> | ||
100 | Description: | ||
101 | The cache_dma file is read-only and specifies whether objects | ||
102 | are from ZONE_DMA. | ||
103 | Available when CONFIG_ZONE_DMA is enabled. | ||
104 | |||
105 | What: /sys/kernel/slab/cache/cpu_slabs | ||
106 | Date: May 2007 | ||
107 | KernelVersion: 2.6.22 | ||
108 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
109 | Christoph Lameter <cl@linux-foundation.org> | ||
110 | Description: | ||
111 | The cpu_slabs file is read-only and displays how many cpu slabs | ||
112 | are active and their NUMA locality. | ||
113 | |||
114 | What: /sys/kernel/slab/cache/cpuslab_flush | ||
115 | Date: April 2009 | ||
116 | KernelVersion: 2.6.31 | ||
117 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
118 | Christoph Lameter <cl@linux-foundation.org> | ||
119 | Description: | ||
120 | The file cpuslab_flush is read-only and specifies how many | ||
121 | times a cache's cpu slabs have been flushed as the result of | ||
122 | destroying or shrinking a cache, a cpu going offline, or as | ||
123 | the result of forcing an allocation from a certain node. | ||
124 | Available when CONFIG_SLUB_STATS is enabled. | ||
125 | |||
126 | What: /sys/kernel/slab/cache/ctor | ||
127 | Date: May 2007 | ||
128 | KernelVersion: 2.6.22 | ||
129 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
130 | Christoph Lameter <cl@linux-foundation.org> | ||
131 | Description: | ||
132 | The ctor file is read-only and specifies the cache's object | ||
133 | constructor function, which is invoked for each object when a | ||
134 | new slab is allocated. | ||
135 | |||
136 | What: /sys/kernel/slab/cache/deactivate_empty | ||
137 | Date: February 2008 | ||
138 | KernelVersion: 2.6.25 | ||
139 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
140 | Christoph Lameter <cl@linux-foundation.org> | ||
141 | Description: | ||
142 | The file deactivate_empty is read-only and specifies how many | ||
143 | times an empty cpu slab was deactivated. | ||
144 | Available when CONFIG_SLUB_STATS is enabled. | ||
145 | |||
146 | What: /sys/kernel/slab/cache/deactivate_full | ||
147 | Date: February 2008 | ||
148 | KernelVersion: 2.6.25 | ||
149 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
150 | Christoph Lameter <cl@linux-foundation.org> | ||
151 | Description: | ||
152 | The file deactivate_full is read-only and specifies how many | ||
153 | times a full cpu slab was deactivated. | ||
154 | Available when CONFIG_SLUB_STATS is enabled. | ||
155 | |||
156 | What: /sys/kernel/slab/cache/deactivate_remote_frees | ||
157 | Date: February 2008 | ||
158 | KernelVersion: 2.6.25 | ||
159 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
160 | Christoph Lameter <cl@linux-foundation.org> | ||
161 | Description: | ||
162 | The file deactivate_remote_frees is read-only and specifies how | ||
163 | many times a cpu slab has been deactivated and contained free | ||
164 | objects that were freed remotely. | ||
165 | Available when CONFIG_SLUB_STATS is enabled. | ||
166 | |||
167 | What: /sys/kernel/slab/cache/deactivate_to_head | ||
168 | Date: February 2008 | ||
169 | KernelVersion: 2.6.25 | ||
170 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
171 | Christoph Lameter <cl@linux-foundation.org> | ||
172 | Description: | ||
173 | The file deactivate_to_head is read-only and specifies how | ||
174 | many times a partial cpu slab was deactivated and added to the | ||
175 | head of its node's partial list. | ||
176 | Available when CONFIG_SLUB_STATS is enabled. | ||
177 | |||
178 | What: /sys/kernel/slab/cache/deactivate_to_tail | ||
179 | Date: February 2008 | ||
180 | KernelVersion: 2.6.25 | ||
181 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
182 | Christoph Lameter <cl@linux-foundation.org> | ||
183 | Description: | ||
184 | The file deactivate_to_tail is read-only and specifies how | ||
185 | many times a partial cpu slab was deactivated and added to the | ||
186 | tail of its node's partial list. | ||
187 | Available when CONFIG_SLUB_STATS is enabled. | ||
188 | |||
189 | What: /sys/kernel/slab/cache/destroy_by_rcu | ||
190 | Date: May 2007 | ||
191 | KernelVersion: 2.6.22 | ||
192 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
193 | Christoph Lameter <cl@linux-foundation.org> | ||
194 | Description: | ||
195 | The destroy_by_rcu file is read-only and specifies whether | ||
196 | slabs (not objects) are freed by rcu. | ||
197 | |||
198 | What: /sys/kernel/slab/cache/free_add_partial | ||
199 | Date: February 2008 | ||
200 | KernelVersion: 2.6.25 | ||
201 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
202 | Christoph Lameter <cl@linux-foundation.org> | ||
203 | Description: | ||
204 | The file free_add_partial is read-only and specifies how many | ||
205 | times an object has been freed in a full slab so that it had to | ||
206 | added to its node's partial list. | ||
207 | Available when CONFIG_SLUB_STATS is enabled. | ||
208 | |||
209 | What: /sys/kernel/slab/cache/free_calls | ||
210 | Date: May 2007 | ||
211 | KernelVersion: 2.6.22 | ||
212 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
213 | Christoph Lameter <cl@linux-foundation.org> | ||
214 | Description: | ||
215 | The free_calls file is read-only and lists the locations of | ||
216 | object frees if slab debugging is enabled (see | ||
217 | Documentation/vm/slub.txt). | ||
218 | |||
219 | What: /sys/kernel/slab/cache/free_fastpath | ||
220 | Date: February 2008 | ||
221 | KernelVersion: 2.6.25 | ||
222 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
223 | Christoph Lameter <cl@linux-foundation.org> | ||
224 | Description: | ||
225 | The free_fastpath file is read-only and specifies how many | ||
226 | objects have been freed using the fast path because it was an | ||
227 | object from the cpu slab. | ||
228 | Available when CONFIG_SLUB_STATS is enabled. | ||
229 | |||
230 | What: /sys/kernel/slab/cache/free_frozen | ||
231 | Date: February 2008 | ||
232 | KernelVersion: 2.6.25 | ||
233 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
234 | Christoph Lameter <cl@linux-foundation.org> | ||
235 | Description: | ||
236 | The free_frozen file is read-only and specifies how many | ||
237 | objects have been freed to a frozen slab (i.e. a remote cpu | ||
238 | slab). | ||
239 | Available when CONFIG_SLUB_STATS is enabled. | ||
240 | |||
241 | What: /sys/kernel/slab/cache/free_remove_partial | ||
242 | Date: February 2008 | ||
243 | KernelVersion: 2.6.25 | ||
244 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
245 | Christoph Lameter <cl@linux-foundation.org> | ||
246 | Description: | ||
247 | The file free_remove_partial is read-only and specifies how | ||
248 | many times an object has been freed to a now-empty slab so | ||
249 | that it had to be removed from its node's partial list. | ||
250 | Available when CONFIG_SLUB_STATS is enabled. | ||
251 | |||
252 | What: /sys/kernel/slab/cache/free_slab | ||
253 | Date: February 2008 | ||
254 | KernelVersion: 2.6.25 | ||
255 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
256 | Christoph Lameter <cl@linux-foundation.org> | ||
257 | Description: | ||
258 | The free_slab file is read-only and specifies how many times an | ||
259 | empty slab has been freed back to the page allocator. | ||
260 | Available when CONFIG_SLUB_STATS is enabled. | ||
261 | |||
262 | What: /sys/kernel/slab/cache/free_slowpath | ||
263 | Date: February 2008 | ||
264 | KernelVersion: 2.6.25 | ||
265 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
266 | Christoph Lameter <cl@linux-foundation.org> | ||
267 | Description: | ||
268 | The free_slowpath file is read-only and specifies how many | ||
269 | objects have been freed using the slow path (i.e. to a full or | ||
270 | partial slab). | ||
271 | Available when CONFIG_SLUB_STATS is enabled. | ||
272 | |||
273 | What: /sys/kernel/slab/cache/hwcache_align | ||
274 | Date: May 2007 | ||
275 | KernelVersion: 2.6.22 | ||
276 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
277 | Christoph Lameter <cl@linux-foundation.org> | ||
278 | Description: | ||
279 | The hwcache_align file is read-only and specifies whether | ||
280 | objects are aligned on cachelines. | ||
281 | |||
282 | What: /sys/kernel/slab/cache/min_partial | ||
283 | Date: February 2009 | ||
284 | KernelVersion: 2.6.30 | ||
285 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
286 | David Rientjes <rientjes@google.com> | ||
287 | Description: | ||
288 | The min_partial file specifies how many empty slabs shall | ||
289 | remain on a node's partial list to avoid the overhead of | ||
290 | allocating new slabs. Such slabs may be reclaimed by utilizing | ||
291 | the shrink file. | ||
292 | |||
293 | What: /sys/kernel/slab/cache/object_size | ||
294 | Date: May 2007 | ||
295 | KernelVersion: 2.6.22 | ||
296 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
297 | Christoph Lameter <cl@linux-foundation.org> | ||
298 | Description: | ||
299 | The object_size file is read-only and specifies the cache's | ||
300 | object size. | ||
301 | |||
302 | What: /sys/kernel/slab/cache/objects | ||
303 | Date: May 2007 | ||
304 | KernelVersion: 2.6.22 | ||
305 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
306 | Christoph Lameter <cl@linux-foundation.org> | ||
307 | Description: | ||
308 | The objects file is read-only and displays how many objects are | ||
309 | active and from which nodes they are from. | ||
310 | |||
311 | What: /sys/kernel/slab/cache/objects_partial | ||
312 | Date: April 2008 | ||
313 | KernelVersion: 2.6.26 | ||
314 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
315 | Christoph Lameter <cl@linux-foundation.org> | ||
316 | Description: | ||
317 | The objects_partial file is read-only and displays how many | ||
318 | objects are on partial slabs and from which nodes they are | ||
319 | from. | ||
320 | |||
321 | What: /sys/kernel/slab/cache/objs_per_slab | ||
322 | Date: May 2007 | ||
323 | KernelVersion: 2.6.22 | ||
324 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
325 | Christoph Lameter <cl@linux-foundation.org> | ||
326 | Description: | ||
327 | The file objs_per_slab is read-only and specifies how many | ||
328 | objects may be allocated from a single slab of the order | ||
329 | specified in /sys/kernel/slab/cache/order. | ||
330 | |||
331 | What: /sys/kernel/slab/cache/order | ||
332 | Date: May 2007 | ||
333 | KernelVersion: 2.6.22 | ||
334 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
335 | Christoph Lameter <cl@linux-foundation.org> | ||
336 | Description: | ||
337 | The order file specifies the page order at which new slabs are | ||
338 | allocated. It is writable and can be changed to increase the | ||
339 | number of objects per slab. If a slab cannot be allocated | ||
340 | because of fragmentation, SLUB will retry with the minimum order | ||
341 | possible depending on its characteristics. | ||
342 | |||
343 | What: /sys/kernel/slab/cache/order_fallback | ||
344 | Date: April 2008 | ||
345 | KernelVersion: 2.6.26 | ||
346 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
347 | Christoph Lameter <cl@linux-foundation.org> | ||
348 | Description: | ||
349 | The file order_fallback is read-only and specifies how many | ||
350 | times an allocation of a new slab has not been possible at the | ||
351 | cache's order and instead fallen back to its minimum possible | ||
352 | order. | ||
353 | Available when CONFIG_SLUB_STATS is enabled. | ||
354 | |||
355 | What: /sys/kernel/slab/cache/partial | ||
356 | Date: May 2007 | ||
357 | KernelVersion: 2.6.22 | ||
358 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
359 | Christoph Lameter <cl@linux-foundation.org> | ||
360 | Description: | ||
361 | The partial file is read-only and displays how long many | ||
362 | partial slabs there are and how long each node's list is. | ||
363 | |||
364 | What: /sys/kernel/slab/cache/poison | ||
365 | Date: May 2007 | ||
366 | KernelVersion: 2.6.22 | ||
367 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
368 | Christoph Lameter <cl@linux-foundation.org> | ||
369 | Description: | ||
370 | The poison file specifies whether objects should be poisoned | ||
371 | when a new slab is allocated. | ||
372 | |||
373 | What: /sys/kernel/slab/cache/reclaim_account | ||
374 | Date: May 2007 | ||
375 | KernelVersion: 2.6.22 | ||
376 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
377 | Christoph Lameter <cl@linux-foundation.org> | ||
378 | Description: | ||
379 | The reclaim_account file specifies whether the cache's objects | ||
380 | are reclaimable (and grouped by their mobility). | ||
381 | |||
382 | What: /sys/kernel/slab/cache/red_zone | ||
383 | Date: May 2007 | ||
384 | KernelVersion: 2.6.22 | ||
385 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
386 | Christoph Lameter <cl@linux-foundation.org> | ||
387 | Description: | ||
388 | The red_zone file specifies whether the cache's objects are red | ||
389 | zoned. | ||
390 | |||
391 | What: /sys/kernel/slab/cache/remote_node_defrag_ratio | ||
392 | Date: January 2008 | ||
393 | KernelVersion: 2.6.25 | ||
394 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
395 | Christoph Lameter <cl@linux-foundation.org> | ||
396 | Description: | ||
397 | The file remote_node_defrag_ratio specifies the percentage of | ||
398 | times SLUB will attempt to refill the cpu slab with a partial | ||
399 | slab from a remote node as opposed to allocating a new slab on | ||
400 | the local node. This reduces the amount of wasted memory over | ||
401 | the entire system but can be expensive. | ||
402 | Available when CONFIG_NUMA is enabled. | ||
403 | |||
404 | What: /sys/kernel/slab/cache/sanity_checks | ||
405 | Date: May 2007 | ||
406 | KernelVersion: 2.6.22 | ||
407 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
408 | Christoph Lameter <cl@linux-foundation.org> | ||
409 | Description: | ||
410 | The sanity_checks file specifies whether expensive checks | ||
411 | should be performed on free and, at minimum, enables double free | ||
412 | checks. Caches that enable sanity_checks cannot be merged with | ||
413 | caches that do not. | ||
414 | |||
415 | What: /sys/kernel/slab/cache/shrink | ||
416 | Date: May 2007 | ||
417 | KernelVersion: 2.6.22 | ||
418 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
419 | Christoph Lameter <cl@linux-foundation.org> | ||
420 | Description: | ||
421 | The shrink file is written when memory should be reclaimed from | ||
422 | a cache. Empty partial slabs are freed and the partial list is | ||
423 | sorted so the slabs with the fewest available objects are used | ||
424 | first. | ||
425 | |||
426 | What: /sys/kernel/slab/cache/slab_size | ||
427 | Date: May 2007 | ||
428 | KernelVersion: 2.6.22 | ||
429 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
430 | Christoph Lameter <cl@linux-foundation.org> | ||
431 | Description: | ||
432 | The slab_size file is read-only and specifies the object size | ||
433 | with metadata (debugging information and alignment) in bytes. | ||
434 | |||
435 | What: /sys/kernel/slab/cache/slabs | ||
436 | Date: May 2007 | ||
437 | KernelVersion: 2.6.22 | ||
438 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
439 | Christoph Lameter <cl@linux-foundation.org> | ||
440 | Description: | ||
441 | The slabs file is read-only and displays how long many slabs | ||
442 | there are (both cpu and partial) and from which nodes they are | ||
443 | from. | ||
444 | |||
445 | What: /sys/kernel/slab/cache/store_user | ||
446 | Date: May 2007 | ||
447 | KernelVersion: 2.6.22 | ||
448 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
449 | Christoph Lameter <cl@linux-foundation.org> | ||
450 | Description: | ||
451 | The store_user file specifies whether the location of | ||
452 | allocation or free should be tracked for a cache. | ||
453 | |||
454 | What: /sys/kernel/slab/cache/total_objects | ||
455 | Date: April 2008 | ||
456 | KernelVersion: 2.6.26 | ||
457 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
458 | Christoph Lameter <cl@linux-foundation.org> | ||
459 | Description: | ||
460 | The total_objects file is read-only and displays how many total | ||
461 | objects a cache has and from which nodes they are from. | ||
462 | |||
463 | What: /sys/kernel/slab/cache/trace | ||
464 | Date: May 2007 | ||
465 | KernelVersion: 2.6.22 | ||
466 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
467 | Christoph Lameter <cl@linux-foundation.org> | ||
468 | Description: | ||
469 | The trace file specifies whether object allocations and frees | ||
470 | should be traced. | ||
471 | |||
472 | What: /sys/kernel/slab/cache/validate | ||
473 | Date: May 2007 | ||
474 | KernelVersion: 2.6.22 | ||
475 | Contact: Pekka Enberg <penberg@cs.helsinki.fi>, | ||
476 | Christoph Lameter <cl@linux-foundation.org> | ||
477 | Description: | ||
478 | Writing to the validate file causes SLUB to traverse all of its | ||
479 | cache's objects and check the validity of metadata. | ||
diff --git a/Documentation/DMA-mapping.txt b/Documentation/DMA-mapping.txt index b2a4d6d244d9..01f24e94bdb6 100644 --- a/Documentation/DMA-mapping.txt +++ b/Documentation/DMA-mapping.txt | |||
@@ -136,7 +136,7 @@ exactly why. | |||
136 | The standard 32-bit addressing PCI device would do something like | 136 | The standard 32-bit addressing PCI device would do something like |
137 | this: | 137 | this: |
138 | 138 | ||
139 | if (pci_set_dma_mask(pdev, DMA_32BIT_MASK)) { | 139 | if (pci_set_dma_mask(pdev, DMA_BIT_MASK(32))) { |
140 | printk(KERN_WARNING | 140 | printk(KERN_WARNING |
141 | "mydev: No suitable DMA available.\n"); | 141 | "mydev: No suitable DMA available.\n"); |
142 | goto ignore_this_device; | 142 | goto ignore_this_device; |
@@ -155,9 +155,9 @@ all 64-bits when accessing streaming DMA: | |||
155 | 155 | ||
156 | int using_dac; | 156 | int using_dac; |
157 | 157 | ||
158 | if (!pci_set_dma_mask(pdev, DMA_64BIT_MASK)) { | 158 | if (!pci_set_dma_mask(pdev, DMA_BIT_MASK(64))) { |
159 | using_dac = 1; | 159 | using_dac = 1; |
160 | } else if (!pci_set_dma_mask(pdev, DMA_32BIT_MASK)) { | 160 | } else if (!pci_set_dma_mask(pdev, DMA_BIT_MASK(32))) { |
161 | using_dac = 0; | 161 | using_dac = 0; |
162 | } else { | 162 | } else { |
163 | printk(KERN_WARNING | 163 | printk(KERN_WARNING |
@@ -170,14 +170,14 @@ the case would look like this: | |||
170 | 170 | ||
171 | int using_dac, consistent_using_dac; | 171 | int using_dac, consistent_using_dac; |
172 | 172 | ||
173 | if (!pci_set_dma_mask(pdev, DMA_64BIT_MASK)) { | 173 | if (!pci_set_dma_mask(pdev, DMA_BIT_MASK(64))) { |
174 | using_dac = 1; | 174 | using_dac = 1; |
175 | consistent_using_dac = 1; | 175 | consistent_using_dac = 1; |
176 | pci_set_consistent_dma_mask(pdev, DMA_64BIT_MASK); | 176 | pci_set_consistent_dma_mask(pdev, DMA_BIT_MASK(64)); |
177 | } else if (!pci_set_dma_mask(pdev, DMA_32BIT_MASK)) { | 177 | } else if (!pci_set_dma_mask(pdev, DMA_BIT_MASK(32))) { |
178 | using_dac = 0; | 178 | using_dac = 0; |
179 | consistent_using_dac = 0; | 179 | consistent_using_dac = 0; |
180 | pci_set_consistent_dma_mask(pdev, DMA_32BIT_MASK); | 180 | pci_set_consistent_dma_mask(pdev, DMA_BIT_MASK(32)); |
181 | } else { | 181 | } else { |
182 | printk(KERN_WARNING | 182 | printk(KERN_WARNING |
183 | "mydev: No suitable DMA available.\n"); | 183 | "mydev: No suitable DMA available.\n"); |
@@ -192,7 +192,7 @@ check the return value from pci_set_consistent_dma_mask(). | |||
192 | Finally, if your device can only drive the low 24-bits of | 192 | Finally, if your device can only drive the low 24-bits of |
193 | address during PCI bus mastering you might do something like: | 193 | address during PCI bus mastering you might do something like: |
194 | 194 | ||
195 | if (pci_set_dma_mask(pdev, DMA_24BIT_MASK)) { | 195 | if (pci_set_dma_mask(pdev, DMA_BIT_MASK(24))) { |
196 | printk(KERN_WARNING | 196 | printk(KERN_WARNING |
197 | "mydev: 24-bit DMA addressing not available.\n"); | 197 | "mydev: 24-bit DMA addressing not available.\n"); |
198 | goto ignore_this_device; | 198 | goto ignore_this_device; |
@@ -213,7 +213,7 @@ most specific mask. | |||
213 | 213 | ||
214 | Here is pseudo-code showing how this might be done: | 214 | Here is pseudo-code showing how this might be done: |
215 | 215 | ||
216 | #define PLAYBACK_ADDRESS_BITS DMA_32BIT_MASK | 216 | #define PLAYBACK_ADDRESS_BITS DMA_BIT_MASK(32) |
217 | #define RECORD_ADDRESS_BITS 0x00ffffff | 217 | #define RECORD_ADDRESS_BITS 0x00ffffff |
218 | 218 | ||
219 | struct my_sound_card *card; | 219 | struct my_sound_card *card; |
diff --git a/Documentation/DocBook/Makefile b/Documentation/DocBook/Makefile index a3a83d38f96f..b1eb661e6302 100644 --- a/Documentation/DocBook/Makefile +++ b/Documentation/DocBook/Makefile | |||
@@ -31,7 +31,7 @@ PS_METHOD = $(prefer-db2x) | |||
31 | 31 | ||
32 | ### | 32 | ### |
33 | # The targets that may be used. | 33 | # The targets that may be used. |
34 | PHONY += xmldocs sgmldocs psdocs pdfdocs htmldocs mandocs installmandocs | 34 | PHONY += xmldocs sgmldocs psdocs pdfdocs htmldocs mandocs installmandocs cleandocs |
35 | 35 | ||
36 | BOOKS := $(addprefix $(obj)/,$(DOCBOOKS)) | 36 | BOOKS := $(addprefix $(obj)/,$(DOCBOOKS)) |
37 | xmldocs: $(BOOKS) | 37 | xmldocs: $(BOOKS) |
@@ -143,7 +143,8 @@ quiet_cmd_db2pdf = PDF $@ | |||
143 | $(call cmd,db2pdf) | 143 | $(call cmd,db2pdf) |
144 | 144 | ||
145 | 145 | ||
146 | main_idx = Documentation/DocBook/index.html | 146 | index = index.html |
147 | main_idx = Documentation/DocBook/$(index) | ||
147 | build_main_index = rm -rf $(main_idx) && \ | 148 | build_main_index = rm -rf $(main_idx) && \ |
148 | echo '<h1>Linux Kernel HTML Documentation</h1>' >> $(main_idx) && \ | 149 | echo '<h1>Linux Kernel HTML Documentation</h1>' >> $(main_idx) && \ |
149 | echo '<h2>Kernel Version: $(KERNELVERSION)</h2>' >> $(main_idx) && \ | 150 | echo '<h2>Kernel Version: $(KERNELVERSION)</h2>' >> $(main_idx) && \ |
@@ -213,11 +214,12 @@ silent_gen_xml = : | |||
213 | dochelp: | 214 | dochelp: |
214 | @echo ' Linux kernel internal documentation in different formats:' | 215 | @echo ' Linux kernel internal documentation in different formats:' |
215 | @echo ' htmldocs - HTML' | 216 | @echo ' htmldocs - HTML' |
216 | @echo ' installmandocs - install man pages generated by mandocs' | ||
217 | @echo ' mandocs - man pages' | ||
218 | @echo ' pdfdocs - PDF' | 217 | @echo ' pdfdocs - PDF' |
219 | @echo ' psdocs - Postscript' | 218 | @echo ' psdocs - Postscript' |
220 | @echo ' xmldocs - XML DocBook' | 219 | @echo ' xmldocs - XML DocBook' |
220 | @echo ' mandocs - man pages' | ||
221 | @echo ' installmandocs - install man pages generated by mandocs' | ||
222 | @echo ' cleandocs - clean all generated DocBook files' | ||
221 | 223 | ||
222 | ### | 224 | ### |
223 | # Temporary files left by various tools | 225 | # Temporary files left by various tools |
@@ -231,10 +233,14 @@ clean-files := $(DOCBOOKS) \ | |||
231 | $(patsubst %.xml, %.pdf, $(DOCBOOKS)) \ | 233 | $(patsubst %.xml, %.pdf, $(DOCBOOKS)) \ |
232 | $(patsubst %.xml, %.html, $(DOCBOOKS)) \ | 234 | $(patsubst %.xml, %.html, $(DOCBOOKS)) \ |
233 | $(patsubst %.xml, %.9, $(DOCBOOKS)) \ | 235 | $(patsubst %.xml, %.9, $(DOCBOOKS)) \ |
234 | $(C-procfs-example) | 236 | $(C-procfs-example) $(index) |
235 | 237 | ||
236 | clean-dirs := $(patsubst %.xml,%,$(DOCBOOKS)) man | 238 | clean-dirs := $(patsubst %.xml,%,$(DOCBOOKS)) man |
237 | 239 | ||
240 | cleandocs: | ||
241 | $(Q)rm -f $(call objectify, $(clean-files)) | ||
242 | $(Q)rm -rf $(call objectify, $(clean-dirs)) | ||
243 | |||
238 | # Declare the contents of the .PHONY variable as phony. We keep that | 244 | # Declare the contents of the .PHONY variable as phony. We keep that |
239 | # information in a variable se we can use it in if_changed and friends. | 245 | # information in a variable se we can use it in if_changed and friends. |
240 | 246 | ||
diff --git a/Documentation/DocBook/kernel-api.tmpl b/Documentation/DocBook/kernel-api.tmpl index 58c194572c76..44b3def961a2 100644 --- a/Documentation/DocBook/kernel-api.tmpl +++ b/Documentation/DocBook/kernel-api.tmpl | |||
@@ -190,16 +190,20 @@ X!Ekernel/module.c | |||
190 | !Edrivers/pci/pci.c | 190 | !Edrivers/pci/pci.c |
191 | !Edrivers/pci/pci-driver.c | 191 | !Edrivers/pci/pci-driver.c |
192 | !Edrivers/pci/remove.c | 192 | !Edrivers/pci/remove.c |
193 | !Edrivers/pci/pci-acpi.c | ||
194 | !Edrivers/pci/search.c | 193 | !Edrivers/pci/search.c |
195 | !Edrivers/pci/msi.c | 194 | !Edrivers/pci/msi.c |
196 | !Edrivers/pci/bus.c | 195 | !Edrivers/pci/bus.c |
196 | !Edrivers/pci/access.c | ||
197 | !Edrivers/pci/irq.c | ||
198 | !Edrivers/pci/htirq.c | ||
197 | <!-- FIXME: Removed for now since no structured comments in source | 199 | <!-- FIXME: Removed for now since no structured comments in source |
198 | X!Edrivers/pci/hotplug.c | 200 | X!Edrivers/pci/hotplug.c |
199 | --> | 201 | --> |
200 | !Edrivers/pci/probe.c | 202 | !Edrivers/pci/probe.c |
203 | !Edrivers/pci/slot.c | ||
201 | !Edrivers/pci/rom.c | 204 | !Edrivers/pci/rom.c |
202 | !Edrivers/pci/iov.c | 205 | !Edrivers/pci/iov.c |
206 | !Idrivers/pci/pci-sysfs.c | ||
203 | </sect1> | 207 | </sect1> |
204 | <sect1><title>PCI Hotplug Support Library</title> | 208 | <sect1><title>PCI Hotplug Support Library</title> |
205 | !Edrivers/pci/hotplug/pci_hotplug_core.c | 209 | !Edrivers/pci/hotplug/pci_hotplug_core.c |
@@ -259,7 +263,7 @@ X!Earch/x86/kernel/mca_32.c | |||
259 | !Eblock/blk-tag.c | 263 | !Eblock/blk-tag.c |
260 | !Iblock/blk-tag.c | 264 | !Iblock/blk-tag.c |
261 | !Eblock/blk-integrity.c | 265 | !Eblock/blk-integrity.c |
262 | !Iblock/blktrace.c | 266 | !Ikernel/trace/blktrace.c |
263 | !Iblock/genhd.c | 267 | !Iblock/genhd.c |
264 | !Eblock/genhd.c | 268 | !Eblock/genhd.c |
265 | </chapter> | 269 | </chapter> |
diff --git a/Documentation/DocBook/kgdb.tmpl b/Documentation/DocBook/kgdb.tmpl index 372dec20c8da..5cff41a5fa7c 100644 --- a/Documentation/DocBook/kgdb.tmpl +++ b/Documentation/DocBook/kgdb.tmpl | |||
@@ -281,7 +281,7 @@ | |||
281 | seriously wrong while debugging, it will most often be the case | 281 | seriously wrong while debugging, it will most often be the case |
282 | that you want to enable gdb to be verbose about its target | 282 | that you want to enable gdb to be verbose about its target |
283 | communications. You do this prior to issuing the <constant>target | 283 | communications. You do this prior to issuing the <constant>target |
284 | remote</constant> command by typing in: <constant>set remote debug 1</constant> | 284 | remote</constant> command by typing in: <constant>set debug remote 1</constant> |
285 | </para> | 285 | </para> |
286 | </chapter> | 286 | </chapter> |
287 | <chapter id="KGDBTestSuite"> | 287 | <chapter id="KGDBTestSuite"> |
diff --git a/Documentation/DocBook/writing-an-alsa-driver.tmpl b/Documentation/DocBook/writing-an-alsa-driver.tmpl index 46b08fef3744..7a2e0e98986a 100644 --- a/Documentation/DocBook/writing-an-alsa-driver.tmpl +++ b/Documentation/DocBook/writing-an-alsa-driver.tmpl | |||
@@ -1137,8 +1137,8 @@ | |||
1137 | if (err < 0) | 1137 | if (err < 0) |
1138 | return err; | 1138 | return err; |
1139 | /* check PCI availability (28bit DMA) */ | 1139 | /* check PCI availability (28bit DMA) */ |
1140 | if (pci_set_dma_mask(pci, DMA_28BIT_MASK) < 0 || | 1140 | if (pci_set_dma_mask(pci, DMA_BIT_MASK(28)) < 0 || |
1141 | pci_set_consistent_dma_mask(pci, DMA_28BIT_MASK) < 0) { | 1141 | pci_set_consistent_dma_mask(pci, DMA_BIT_MASK(28)) < 0) { |
1142 | printk(KERN_ERR "error to set 28bit mask DMA\n"); | 1142 | printk(KERN_ERR "error to set 28bit mask DMA\n"); |
1143 | pci_disable_device(pci); | 1143 | pci_disable_device(pci); |
1144 | return -ENXIO; | 1144 | return -ENXIO; |
@@ -1252,8 +1252,8 @@ | |||
1252 | err = pci_enable_device(pci); | 1252 | err = pci_enable_device(pci); |
1253 | if (err < 0) | 1253 | if (err < 0) |
1254 | return err; | 1254 | return err; |
1255 | if (pci_set_dma_mask(pci, DMA_28BIT_MASK) < 0 || | 1255 | if (pci_set_dma_mask(pci, DMA_BIT_MASK(28)) < 0 || |
1256 | pci_set_consistent_dma_mask(pci, DMA_28BIT_MASK) < 0) { | 1256 | pci_set_consistent_dma_mask(pci, DMA_BIT_MASK(28)) < 0) { |
1257 | printk(KERN_ERR "error to set 28bit mask DMA\n"); | 1257 | printk(KERN_ERR "error to set 28bit mask DMA\n"); |
1258 | pci_disable_device(pci); | 1258 | pci_disable_device(pci); |
1259 | return -ENXIO; | 1259 | return -ENXIO; |
diff --git a/Documentation/block/biodoc.txt b/Documentation/block/biodoc.txt index ecad6ee75705..6fab97ea7e6b 100644 --- a/Documentation/block/biodoc.txt +++ b/Documentation/block/biodoc.txt | |||
@@ -1040,23 +1040,21 @@ Front merges are handled by the binary trees in AS and deadline schedulers. | |||
1040 | iii. Plugging the queue to batch requests in anticipation of opportunities for | 1040 | iii. Plugging the queue to batch requests in anticipation of opportunities for |
1041 | merge/sort optimizations | 1041 | merge/sort optimizations |
1042 | 1042 | ||
1043 | This is just the same as in 2.4 so far, though per-device unplugging | ||
1044 | support is anticipated for 2.5. Also with a priority-based i/o scheduler, | ||
1045 | such decisions could be based on request priorities. | ||
1046 | |||
1047 | Plugging is an approach that the current i/o scheduling algorithm resorts to so | 1043 | Plugging is an approach that the current i/o scheduling algorithm resorts to so |
1048 | that it collects up enough requests in the queue to be able to take | 1044 | that it collects up enough requests in the queue to be able to take |
1049 | advantage of the sorting/merging logic in the elevator. If the | 1045 | advantage of the sorting/merging logic in the elevator. If the |
1050 | queue is empty when a request comes in, then it plugs the request queue | 1046 | queue is empty when a request comes in, then it plugs the request queue |
1051 | (sort of like plugging the bottom of a vessel to get fluid to build up) | 1047 | (sort of like plugging the bath tub of a vessel to get fluid to build up) |
1052 | till it fills up with a few more requests, before starting to service | 1048 | till it fills up with a few more requests, before starting to service |
1053 | the requests. This provides an opportunity to merge/sort the requests before | 1049 | the requests. This provides an opportunity to merge/sort the requests before |
1054 | passing them down to the device. There are various conditions when the queue is | 1050 | passing them down to the device. There are various conditions when the queue is |
1055 | unplugged (to open up the flow again), either through a scheduled task or | 1051 | unplugged (to open up the flow again), either through a scheduled task or |
1056 | could be on demand. For example wait_on_buffer sets the unplugging going | 1052 | could be on demand. For example wait_on_buffer sets the unplugging going |
1057 | (by running tq_disk) so the read gets satisfied soon. So in the read case, | 1053 | through sync_buffer() running blk_run_address_space(mapping). Or the caller |
1058 | the queue gets explicitly unplugged as part of waiting for completion, | 1054 | can do it explicity through blk_unplug(bdev). So in the read case, |
1059 | in fact all queues get unplugged as a side-effect. | 1055 | the queue gets explicitly unplugged as part of waiting for completion on that |
1056 | buffer. For page driven IO, the address space ->sync_page() takes care of | ||
1057 | doing the blk_run_address_space(). | ||
1060 | 1058 | ||
1061 | Aside: | 1059 | Aside: |
1062 | This is kind of controversial territory, as it's not clear if plugging is | 1060 | This is kind of controversial territory, as it's not clear if plugging is |
@@ -1067,11 +1065,6 @@ Aside: | |||
1067 | multi-page bios being queued in one shot, we may not need to wait to merge | 1065 | multi-page bios being queued in one shot, we may not need to wait to merge |
1068 | a big request from the broken up pieces coming by. | 1066 | a big request from the broken up pieces coming by. |
1069 | 1067 | ||
1070 | Per-queue granularity unplugging (still a Todo) may help reduce some of the | ||
1071 | concerns with just a single tq_disk flush approach. Something like | ||
1072 | blk_kick_queue() to unplug a specific queue (right away ?) | ||
1073 | or optionally, all queues, is in the plan. | ||
1074 | |||
1075 | 4.4 I/O contexts | 1068 | 4.4 I/O contexts |
1076 | I/O contexts provide a dynamically allocated per process data area. They may | 1069 | I/O contexts provide a dynamically allocated per process data area. They may |
1077 | be used in I/O schedulers, and in the block layer (could be used for IO statis, | 1070 | be used in I/O schedulers, and in the block layer (could be used for IO statis, |
diff --git a/Documentation/blockdev/00-INDEX b/Documentation/blockdev/00-INDEX index 86f054c47013..c08df56dd91b 100644 --- a/Documentation/blockdev/00-INDEX +++ b/Documentation/blockdev/00-INDEX | |||
@@ -8,6 +8,8 @@ cpqarray.txt | |||
8 | - info on using Compaq's SMART2 Intelligent Disk Array Controllers. | 8 | - info on using Compaq's SMART2 Intelligent Disk Array Controllers. |
9 | floppy.txt | 9 | floppy.txt |
10 | - notes and driver options for the floppy disk driver. | 10 | - notes and driver options for the floppy disk driver. |
11 | mflash.txt | ||
12 | - info on mGine m(g)flash driver for linux. | ||
11 | nbd.txt | 13 | nbd.txt |
12 | - info on a TCP implementation of a network block device. | 14 | - info on a TCP implementation of a network block device. |
13 | paride.txt | 15 | paride.txt |
diff --git a/Documentation/blockdev/mflash.txt b/Documentation/blockdev/mflash.txt new file mode 100644 index 000000000000..1f610ecf698a --- /dev/null +++ b/Documentation/blockdev/mflash.txt | |||
@@ -0,0 +1,84 @@ | |||
1 | This document describes m[g]flash support in linux. | ||
2 | |||
3 | Contents | ||
4 | 1. Overview | ||
5 | 2. Reserved area configuration | ||
6 | 3. Example of mflash platform driver registration | ||
7 | |||
8 | 1. Overview | ||
9 | |||
10 | Mflash and gflash are embedded flash drive. The only difference is mflash is | ||
11 | MCP(Multi Chip Package) device. These two device operate exactly same way. | ||
12 | So the rest mflash repersents mflash and gflash altogether. | ||
13 | |||
14 | Internally, mflash has nand flash and other hardware logics and supports | ||
15 | 2 different operation (ATA, IO) modes. ATA mode doesn't need any new | ||
16 | driver and currently works well under standard IDE subsystem. Actually it's | ||
17 | one chip SSD. IO mode is ATA-like custom mode for the host that doesn't have | ||
18 | IDE interface. | ||
19 | |||
20 | Followings are brief descriptions about IO mode. | ||
21 | A. IO mode based on ATA protocol and uses some custom command. (read confirm, | ||
22 | write confirm) | ||
23 | B. IO mode uses SRAM bus interface. | ||
24 | C. IO mode supports 4kB boot area, so host can boot from mflash. | ||
25 | |||
26 | 2. Reserved area configuration | ||
27 | If host boot from mflash, usually needs raw area for boot loader image. All of | ||
28 | the mflash's block device operation will be taken this value as start offset. | ||
29 | Note that boot loader's size of reserved area and kernel configuration value | ||
30 | must be same. | ||
31 | |||
32 | 3. Example of mflash platform driver registration | ||
33 | Working mflash is very straight forward. Adding platform device stuff to board | ||
34 | configuration file is all. Here is some pseudo example. | ||
35 | |||
36 | static struct mg_drv_data mflash_drv_data = { | ||
37 | /* If you want to polling driver set to 1 */ | ||
38 | .use_polling = 0, | ||
39 | /* device attribution */ | ||
40 | .dev_attr = MG_BOOT_DEV | ||
41 | }; | ||
42 | |||
43 | static struct resource mg_mflash_rsc[] = { | ||
44 | /* Base address of mflash */ | ||
45 | [0] = { | ||
46 | .start = 0x08000000, | ||
47 | .end = 0x08000000 + SZ_64K - 1, | ||
48 | .flags = IORESOURCE_MEM | ||
49 | }, | ||
50 | /* mflash interrupt pin */ | ||
51 | [1] = { | ||
52 | .start = IRQ_GPIO(84), | ||
53 | .end = IRQ_GPIO(84), | ||
54 | .flags = IORESOURCE_IRQ | ||
55 | }, | ||
56 | /* mflash reset pin */ | ||
57 | [2] = { | ||
58 | .start = 43, | ||
59 | .end = 43, | ||
60 | .name = MG_RST_PIN, | ||
61 | .flags = IORESOURCE_IO | ||
62 | }, | ||
63 | /* mflash reset-out pin | ||
64 | * If you use mflash as storage device (i.e. other than MG_BOOT_DEV), | ||
65 | * should assign this */ | ||
66 | [3] = { | ||
67 | .start = 51, | ||
68 | .end = 51, | ||
69 | .name = MG_RSTOUT_PIN, | ||
70 | .flags = IORESOURCE_IO | ||
71 | } | ||
72 | }; | ||
73 | |||
74 | static struct platform_device mflash_dev = { | ||
75 | .name = MG_DEV_NAME, | ||
76 | .id = -1, | ||
77 | .dev = { | ||
78 | .platform_data = &mflash_drv_data, | ||
79 | }, | ||
80 | .num_resources = ARRAY_SIZE(mg_mflash_rsc), | ||
81 | .resource = mg_mflash_rsc | ||
82 | }; | ||
83 | |||
84 | platform_device_register(&mflash_dev); | ||
diff --git a/Documentation/cgroups/cpuacct.txt b/Documentation/cgroups/cpuacct.txt index bb775fbe43d7..8b930946c52a 100644 --- a/Documentation/cgroups/cpuacct.txt +++ b/Documentation/cgroups/cpuacct.txt | |||
@@ -30,3 +30,21 @@ The above steps create a new group g1 and move the current shell | |||
30 | process (bash) into it. CPU time consumed by this bash and its children | 30 | process (bash) into it. CPU time consumed by this bash and its children |
31 | can be obtained from g1/cpuacct.usage and the same is accumulated in | 31 | can be obtained from g1/cpuacct.usage and the same is accumulated in |
32 | /cgroups/cpuacct.usage also. | 32 | /cgroups/cpuacct.usage also. |
33 | |||
34 | cpuacct.stat file lists a few statistics which further divide the | ||
35 | CPU time obtained by the cgroup into user and system times. Currently | ||
36 | the following statistics are supported: | ||
37 | |||
38 | user: Time spent by tasks of the cgroup in user mode. | ||
39 | system: Time spent by tasks of the cgroup in kernel mode. | ||
40 | |||
41 | user and system are in USER_HZ unit. | ||
42 | |||
43 | cpuacct controller uses percpu_counter interface to collect user and | ||
44 | system times. This has two side effects: | ||
45 | |||
46 | - It is theoretically possible to see wrong values for user and system times. | ||
47 | This is because percpu_counter_read() on 32bit systems isn't safe | ||
48 | against concurrent writes. | ||
49 | - It is possible to see slightly outdated values for user and system times | ||
50 | due to the batch processing nature of percpu_counter. | ||
diff --git a/Documentation/cgroups/memory.txt b/Documentation/cgroups/memory.txt index a98a7fe7aabb..1a608877b14e 100644 --- a/Documentation/cgroups/memory.txt +++ b/Documentation/cgroups/memory.txt | |||
@@ -6,15 +6,14 @@ used here with the memory controller that is used in hardware. | |||
6 | 6 | ||
7 | Salient features | 7 | Salient features |
8 | 8 | ||
9 | a. Enable control of both RSS (mapped) and Page Cache (unmapped) pages | 9 | a. Enable control of Anonymous, Page Cache (mapped and unmapped) and |
10 | Swap Cache memory pages. | ||
10 | b. The infrastructure allows easy addition of other types of memory to control | 11 | b. The infrastructure allows easy addition of other types of memory to control |
11 | c. Provides *zero overhead* for non memory controller users | 12 | c. Provides *zero overhead* for non memory controller users |
12 | d. Provides a double LRU: global memory pressure causes reclaim from the | 13 | d. Provides a double LRU: global memory pressure causes reclaim from the |
13 | global LRU; a cgroup on hitting a limit, reclaims from the per | 14 | global LRU; a cgroup on hitting a limit, reclaims from the per |
14 | cgroup LRU | 15 | cgroup LRU |
15 | 16 | ||
16 | NOTE: Swap Cache (unmapped) is not accounted now. | ||
17 | |||
18 | Benefits and Purpose of the memory controller | 17 | Benefits and Purpose of the memory controller |
19 | 18 | ||
20 | The memory controller isolates the memory behaviour of a group of tasks | 19 | The memory controller isolates the memory behaviour of a group of tasks |
@@ -290,34 +289,44 @@ will be charged as a new owner of it. | |||
290 | moved to the parent. If you want to avoid that, force_empty will be useful. | 289 | moved to the parent. If you want to avoid that, force_empty will be useful. |
291 | 290 | ||
292 | 5.2 stat file | 291 | 5.2 stat file |
293 | memory.stat file includes following statistics (now) | 292 | |
294 | cache - # of pages from page-cache and shmem. | 293 | memory.stat file includes following statistics |
295 | rss - # of pages from anonymous memory. | 294 | |
296 | pgpgin - # of event of charging | 295 | cache - # of bytes of page cache memory. |
297 | pgpgout - # of event of uncharging | 296 | rss - # of bytes of anonymous and swap cache memory. |
298 | active_anon - # of pages on active lru of anon, shmem. | 297 | pgpgin - # of pages paged in (equivalent to # of charging events). |
299 | inactive_anon - # of pages on active lru of anon, shmem | 298 | pgpgout - # of pages paged out (equivalent to # of uncharging events). |
300 | active_file - # of pages on active lru of file-cache | 299 | active_anon - # of bytes of anonymous and swap cache memory on active |
301 | inactive_file - # of pages on inactive lru of file cache | 300 | lru list. |
302 | unevictable - # of pages cannot be reclaimed.(mlocked etc) | 301 | inactive_anon - # of bytes of anonymous memory and swap cache memory on |
303 | 302 | inactive lru list. | |
304 | Below is depend on CONFIG_DEBUG_VM. | 303 | active_file - # of bytes of file-backed memory on active lru list. |
305 | inactive_ratio - VM internal parameter. (see mm/page_alloc.c) | 304 | inactive_file - # of bytes of file-backed memory on inactive lru list. |
306 | recent_rotated_anon - VM internal parameter. (see mm/vmscan.c) | 305 | unevictable - # of bytes of memory that cannot be reclaimed (mlocked etc). |
307 | recent_rotated_file - VM internal parameter. (see mm/vmscan.c) | 306 | |
308 | recent_scanned_anon - VM internal parameter. (see mm/vmscan.c) | 307 | The following additional stats are dependent on CONFIG_DEBUG_VM. |
309 | recent_scanned_file - VM internal parameter. (see mm/vmscan.c) | 308 | |
310 | 309 | inactive_ratio - VM internal parameter. (see mm/page_alloc.c) | |
311 | Memo: | 310 | recent_rotated_anon - VM internal parameter. (see mm/vmscan.c) |
311 | recent_rotated_file - VM internal parameter. (see mm/vmscan.c) | ||
312 | recent_scanned_anon - VM internal parameter. (see mm/vmscan.c) | ||
313 | recent_scanned_file - VM internal parameter. (see mm/vmscan.c) | ||
314 | |||
315 | Memo: | ||
312 | recent_rotated means recent frequency of lru rotation. | 316 | recent_rotated means recent frequency of lru rotation. |
313 | recent_scanned means recent # of scans to lru. | 317 | recent_scanned means recent # of scans to lru. |
314 | showing for better debug please see the code for meanings. | 318 | showing for better debug please see the code for meanings. |
315 | 319 | ||
320 | Note: | ||
321 | Only anonymous and swap cache memory is listed as part of 'rss' stat. | ||
322 | This should not be confused with the true 'resident set size' or the | ||
323 | amount of physical memory used by the cgroup. Per-cgroup rss | ||
324 | accounting is not done yet. | ||
316 | 325 | ||
317 | 5.3 swappiness | 326 | 5.3 swappiness |
318 | Similar to /proc/sys/vm/swappiness, but affecting a hierarchy of groups only. | 327 | Similar to /proc/sys/vm/swappiness, but affecting a hierarchy of groups only. |
319 | 328 | ||
320 | Following cgroup's swapiness can't be changed. | 329 | Following cgroups' swapiness can't be changed. |
321 | - root cgroup (uses /proc/sys/vm/swappiness). | 330 | - root cgroup (uses /proc/sys/vm/swappiness). |
322 | - a cgroup which uses hierarchy and it has child cgroup. | 331 | - a cgroup which uses hierarchy and it has child cgroup. |
323 | - a cgroup which uses hierarchy and not the root of hierarchy. | 332 | - a cgroup which uses hierarchy and not the root of hierarchy. |
diff --git a/Documentation/cgroups/resource_counter.txt b/Documentation/cgroups/resource_counter.txt index f196ac1d7d25..95b24d766eab 100644 --- a/Documentation/cgroups/resource_counter.txt +++ b/Documentation/cgroups/resource_counter.txt | |||
@@ -47,13 +47,18 @@ to work with it. | |||
47 | 47 | ||
48 | 2. Basic accounting routines | 48 | 2. Basic accounting routines |
49 | 49 | ||
50 | a. void res_counter_init(struct res_counter *rc) | 50 | a. void res_counter_init(struct res_counter *rc, |
51 | struct res_counter *rc_parent) | ||
51 | 52 | ||
52 | Initializes the resource counter. As usual, should be the first | 53 | Initializes the resource counter. As usual, should be the first |
53 | routine called for a new counter. | 54 | routine called for a new counter. |
54 | 55 | ||
55 | b. int res_counter_charge[_locked] | 56 | The struct res_counter *parent can be used to define a hierarchical |
56 | (struct res_counter *rc, unsigned long val) | 57 | child -> parent relationship directly in the res_counter structure, |
58 | NULL can be used to define no relationship. | ||
59 | |||
60 | c. int res_counter_charge(struct res_counter *rc, unsigned long val, | ||
61 | struct res_counter **limit_fail_at) | ||
57 | 62 | ||
58 | When a resource is about to be allocated it has to be accounted | 63 | When a resource is about to be allocated it has to be accounted |
59 | with the appropriate resource counter (controller should determine | 64 | with the appropriate resource counter (controller should determine |
@@ -67,15 +72,25 @@ to work with it. | |||
67 | * if the charging is performed first, then it should be uncharged | 72 | * if the charging is performed first, then it should be uncharged |
68 | on error path (if the one is called). | 73 | on error path (if the one is called). |
69 | 74 | ||
70 | c. void res_counter_uncharge[_locked] | 75 | If the charging fails and a hierarchical dependency exists, the |
76 | limit_fail_at parameter is set to the particular res_counter element | ||
77 | where the charging failed. | ||
78 | |||
79 | d. int res_counter_charge_locked | ||
80 | (struct res_counter *rc, unsigned long val) | ||
81 | |||
82 | The same as res_counter_charge(), but it must not acquire/release the | ||
83 | res_counter->lock internally (it must be called with res_counter->lock | ||
84 | held). | ||
85 | |||
86 | e. void res_counter_uncharge[_locked] | ||
71 | (struct res_counter *rc, unsigned long val) | 87 | (struct res_counter *rc, unsigned long val) |
72 | 88 | ||
73 | When a resource is released (freed) it should be de-accounted | 89 | When a resource is released (freed) it should be de-accounted |
74 | from the resource counter it was accounted to. This is called | 90 | from the resource counter it was accounted to. This is called |
75 | "uncharging". | 91 | "uncharging". |
76 | 92 | ||
77 | The _locked routines imply that the res_counter->lock is taken. | 93 | The _locked routines imply that the res_counter->lock is taken. |
78 | |||
79 | 94 | ||
80 | 2.1 Other accounting routines | 95 | 2.1 Other accounting routines |
81 | 96 | ||
diff --git a/Documentation/devices.txt b/Documentation/devices.txt index 327de1624759..53d64d382343 100644 --- a/Documentation/devices.txt +++ b/Documentation/devices.txt | |||
@@ -3,7 +3,7 @@ | |||
3 | 3 | ||
4 | Maintained by Alan Cox <device@lanana.org> | 4 | Maintained by Alan Cox <device@lanana.org> |
5 | 5 | ||
6 | Last revised: 29 November 2006 | 6 | Last revised: 6th April 2009 |
7 | 7 | ||
8 | This list is the Linux Device List, the official registry of allocated | 8 | This list is the Linux Device List, the official registry of allocated |
9 | device numbers and /dev directory nodes for the Linux operating | 9 | device numbers and /dev directory nodes for the Linux operating |
@@ -2797,6 +2797,10 @@ Your cooperation is appreciated. | |||
2797 | 206 = /dev/ttySC1 SC26xx serial port 1 | 2797 | 206 = /dev/ttySC1 SC26xx serial port 1 |
2798 | 207 = /dev/ttySC2 SC26xx serial port 2 | 2798 | 207 = /dev/ttySC2 SC26xx serial port 2 |
2799 | 208 = /dev/ttySC3 SC26xx serial port 3 | 2799 | 208 = /dev/ttySC3 SC26xx serial port 3 |
2800 | 209 = /dev/ttyMAX0 MAX3100 serial port 0 | ||
2801 | 210 = /dev/ttyMAX1 MAX3100 serial port 1 | ||
2802 | 211 = /dev/ttyMAX2 MAX3100 serial port 2 | ||
2803 | 212 = /dev/ttyMAX3 MAX3100 serial port 3 | ||
2800 | 2804 | ||
2801 | 205 char Low-density serial ports (alternate device) | 2805 | 205 char Low-density serial ports (alternate device) |
2802 | 0 = /dev/culu0 Callout device for ttyLU0 | 2806 | 0 = /dev/culu0 Callout device for ttyLU0 |
diff --git a/Documentation/driver-model/platform.txt b/Documentation/driver-model/platform.txt index 83009fdcbbc8..2e2c2ea90ceb 100644 --- a/Documentation/driver-model/platform.txt +++ b/Documentation/driver-model/platform.txt | |||
@@ -169,3 +169,62 @@ three different ways to find such a match: | |||
169 | be probed later if another device registers. (Which is OK, since | 169 | be probed later if another device registers. (Which is OK, since |
170 | this interface is only for use with non-hotpluggable devices.) | 170 | this interface is only for use with non-hotpluggable devices.) |
171 | 171 | ||
172 | |||
173 | Early Platform Devices and Drivers | ||
174 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
175 | The early platform interfaces provide platform data to platform device | ||
176 | drivers early on during the system boot. The code is built on top of the | ||
177 | early_param() command line parsing and can be executed very early on. | ||
178 | |||
179 | Example: "earlyprintk" class early serial console in 6 steps | ||
180 | |||
181 | 1. Registering early platform device data | ||
182 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
183 | The architecture code registers platform device data using the function | ||
184 | early_platform_add_devices(). In the case of early serial console this | ||
185 | should be hardware configuration for the serial port. Devices registered | ||
186 | at this point will later on be matched against early platform drivers. | ||
187 | |||
188 | 2. Parsing kernel command line | ||
189 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
190 | The architecture code calls parse_early_param() to parse the kernel | ||
191 | command line. This will execute all matching early_param() callbacks. | ||
192 | User specified early platform devices will be registered at this point. | ||
193 | For the early serial console case the user can specify port on the | ||
194 | kernel command line as "earlyprintk=serial.0" where "earlyprintk" is | ||
195 | the class string, "serial" is the name of the platfrom driver and | ||
196 | 0 is the platform device id. If the id is -1 then the dot and the | ||
197 | id can be omitted. | ||
198 | |||
199 | 3. Installing early platform drivers belonging to a certain class | ||
200 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
201 | The architecture code may optionally force registration of all early | ||
202 | platform drivers belonging to a certain class using the function | ||
203 | early_platform_driver_register_all(). User specified devices from | ||
204 | step 2 have priority over these. This step is omitted by the serial | ||
205 | driver example since the early serial driver code should be disabled | ||
206 | unless the user has specified port on the kernel command line. | ||
207 | |||
208 | 4. Early platform driver registration | ||
209 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
210 | Compiled-in platform drivers making use of early_platform_init() are | ||
211 | automatically registered during step 2 or 3. The serial driver example | ||
212 | should use early_platform_init("earlyprintk", &platform_driver). | ||
213 | |||
214 | 5. Probing of early platform drivers belonging to a certain class | ||
215 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
216 | The architecture code calls early_platform_driver_probe() to match | ||
217 | registered early platform devices associated with a certain class with | ||
218 | registered early platform drivers. Matched devices will get probed(). | ||
219 | This step can be executed at any point during the early boot. As soon | ||
220 | as possible may be good for the serial port case. | ||
221 | |||
222 | 6. Inside the early platform driver probe() | ||
223 | ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
224 | The driver code needs to take special care during early boot, especially | ||
225 | when it comes to memory allocation and interrupt registration. The code | ||
226 | in the probe() function can use is_early_platform_device() to check if | ||
227 | it is called at early platform device or at the regular platform device | ||
228 | time. The early serial driver performs register_console() at this point. | ||
229 | |||
230 | For further information, see <linux/platform_device.h>. | ||
diff --git a/Documentation/fb/uvesafb.txt b/Documentation/fb/uvesafb.txt index 7ac3c4078ff9..eefdd91d298a 100644 --- a/Documentation/fb/uvesafb.txt +++ b/Documentation/fb/uvesafb.txt | |||
@@ -59,7 +59,8 @@ Accepted options: | |||
59 | ypan Enable display panning using the VESA protected mode | 59 | ypan Enable display panning using the VESA protected mode |
60 | interface. The visible screen is just a window of the | 60 | interface. The visible screen is just a window of the |
61 | video memory, console scrolling is done by changing the | 61 | video memory, console scrolling is done by changing the |
62 | start of the window. Available on x86 only. | 62 | start of the window. This option is available on x86 |
63 | only and is the default option on that architecture. | ||
63 | 64 | ||
64 | ywrap Same as ypan, but assumes your gfx board can wrap-around | 65 | ywrap Same as ypan, but assumes your gfx board can wrap-around |
65 | the video memory (i.e. starts reading from top if it | 66 | the video memory (i.e. starts reading from top if it |
@@ -67,7 +68,7 @@ ywrap Same as ypan, but assumes your gfx board can wrap-around | |||
67 | Available on x86 only. | 68 | Available on x86 only. |
68 | 69 | ||
69 | redraw Scroll by redrawing the affected part of the screen, this | 70 | redraw Scroll by redrawing the affected part of the screen, this |
70 | is the safe (and slow) default. | 71 | is the default on non-x86. |
71 | 72 | ||
72 | (If you're using uvesafb as a module, the above three options are | 73 | (If you're using uvesafb as a module, the above three options are |
73 | used a parameter of the scroll option, e.g. scroll=ypan.) | 74 | used a parameter of the scroll option, e.g. scroll=ypan.) |
@@ -182,7 +183,7 @@ from the Video BIOS if you set pixclock to 0 in fb_var_screeninfo. | |||
182 | 183 | ||
183 | -- | 184 | -- |
184 | Michal Januszewski <spock@gentoo.org> | 185 | Michal Januszewski <spock@gentoo.org> |
185 | Last updated: 2007-06-16 | 186 | Last updated: 2009-03-30 |
186 | 187 | ||
187 | Documentation of the uvesafb options is loosely based on vesafb.txt. | 188 | Documentation of the uvesafb options is loosely based on vesafb.txt. |
188 | 189 | ||
diff --git a/Documentation/feature-removal-schedule.txt b/Documentation/feature-removal-schedule.txt index 39246fc11257..de491a3e2313 100644 --- a/Documentation/feature-removal-schedule.txt +++ b/Documentation/feature-removal-schedule.txt | |||
@@ -354,7 +354,8 @@ Who: Krzysztof Piotr Oledzki <ole@ans.pl> | |||
354 | 354 | ||
355 | --------------------------- | 355 | --------------------------- |
356 | 356 | ||
357 | What: i2c_attach_client(), i2c_detach_client(), i2c_driver->detach_client() | 357 | What: i2c_attach_client(), i2c_detach_client(), i2c_driver->detach_client(), |
358 | i2c_adapter->client_register(), i2c_adapter->client_unregister | ||
358 | When: 2.6.30 | 359 | When: 2.6.30 |
359 | Check: i2c_attach_client i2c_detach_client | 360 | Check: i2c_attach_client i2c_detach_client |
360 | Why: Deprecated by the new (standard) device driver binding model. Use | 361 | Why: Deprecated by the new (standard) device driver binding model. Use |
@@ -427,3 +428,12 @@ Why: In 2.6.27, the semantics of /sys/bus/pci/slots was redefined to | |||
427 | After a reasonable transition period, we will remove the legacy | 428 | After a reasonable transition period, we will remove the legacy |
428 | fakephp interface. | 429 | fakephp interface. |
429 | Who: Alex Chiang <achiang@hp.com> | 430 | Who: Alex Chiang <achiang@hp.com> |
431 | |||
432 | --------------------------- | ||
433 | |||
434 | What: i2c-voodoo3 driver | ||
435 | When: October 2009 | ||
436 | Why: Superseded by tdfxfb. I2C/DDC support used to live in a separate | ||
437 | driver but this caused driver conflicts. | ||
438 | Who: Jean Delvare <khali@linux-fr.org> | ||
439 | Krzysztof Helt <krzysztof.h1@wp.pl> | ||
diff --git a/Documentation/filesystems/00-INDEX b/Documentation/filesystems/00-INDEX index 52cd611277a3..8dd6db76171d 100644 --- a/Documentation/filesystems/00-INDEX +++ b/Documentation/filesystems/00-INDEX | |||
@@ -68,6 +68,8 @@ ncpfs.txt | |||
68 | - info on Novell Netware(tm) filesystem using NCP protocol. | 68 | - info on Novell Netware(tm) filesystem using NCP protocol. |
69 | nfsroot.txt | 69 | nfsroot.txt |
70 | - short guide on setting up a diskless box with NFS root filesystem. | 70 | - short guide on setting up a diskless box with NFS root filesystem. |
71 | nilfs2.txt | ||
72 | - info and mount options for the NILFS2 filesystem. | ||
71 | ntfs.txt | 73 | ntfs.txt |
72 | - info and mount options for the NTFS filesystem (Windows NT). | 74 | - info and mount options for the NTFS filesystem (Windows NT). |
73 | ocfs2.txt | 75 | ocfs2.txt |
diff --git a/Documentation/filesystems/Locking b/Documentation/filesystems/Locking index 76efe5b71d7d..3120f8dd2c31 100644 --- a/Documentation/filesystems/Locking +++ b/Documentation/filesystems/Locking | |||
@@ -512,16 +512,24 @@ locking rules: | |||
512 | BKL mmap_sem PageLocked(page) | 512 | BKL mmap_sem PageLocked(page) |
513 | open: no yes | 513 | open: no yes |
514 | close: no yes | 514 | close: no yes |
515 | fault: no yes | 515 | fault: no yes can return with page locked |
516 | page_mkwrite: no yes no | 516 | page_mkwrite: no yes can return with page locked |
517 | access: no yes | 517 | access: no yes |
518 | 518 | ||
519 | ->page_mkwrite() is called when a previously read-only page is | 519 | ->fault() is called when a previously not present pte is about |
520 | about to become writeable. The file system is responsible for | 520 | to be faulted in. The filesystem must find and return the page associated |
521 | protecting against truncate races. Once appropriate action has been | 521 | with the passed in "pgoff" in the vm_fault structure. If it is possible that |
522 | taking to lock out truncate, the page range should be verified to be | 522 | the page may be truncated and/or invalidated, then the filesystem must lock |
523 | within i_size. The page mapping should also be checked that it is not | 523 | the page, then ensure it is not already truncated (the page lock will block |
524 | NULL. | 524 | subsequent truncate), and then return with VM_FAULT_LOCKED, and the page |
525 | locked. The VM will unlock the page. | ||
526 | |||
527 | ->page_mkwrite() is called when a previously read-only pte is | ||
528 | about to become writeable. The filesystem again must ensure that there are | ||
529 | no truncate/invalidate races, and then return with the page locked. If | ||
530 | the page has been truncated, the filesystem should not look up a new page | ||
531 | like the ->fault() handler, but simply return with VM_FAULT_NOPAGE, which | ||
532 | will cause the VM to retry the fault. | ||
525 | 533 | ||
526 | ->access() is called when get_user_pages() fails in | 534 | ->access() is called when get_user_pages() fails in |
527 | acces_process_vm(), typically used to debug a process through | 535 | acces_process_vm(), typically used to debug a process through |
diff --git a/Documentation/filesystems/caching/cachefiles.txt b/Documentation/filesystems/caching/cachefiles.txt index c78a49b7bba6..748a1ae49e12 100644 --- a/Documentation/filesystems/caching/cachefiles.txt +++ b/Documentation/filesystems/caching/cachefiles.txt | |||
@@ -407,7 +407,7 @@ A NOTE ON SECURITY | |||
407 | ================== | 407 | ================== |
408 | 408 | ||
409 | CacheFiles makes use of the split security in the task_struct. It allocates | 409 | CacheFiles makes use of the split security in the task_struct. It allocates |
410 | its own task_security structure, and redirects current->act_as to point to it | 410 | its own task_security structure, and redirects current->cred to point to it |
411 | when it acts on behalf of another process, in that process's context. | 411 | when it acts on behalf of another process, in that process's context. |
412 | 412 | ||
413 | The reason it does this is that it calls vfs_mkdir() and suchlike rather than | 413 | The reason it does this is that it calls vfs_mkdir() and suchlike rather than |
@@ -429,9 +429,9 @@ This means it may lose signals or ptrace events for example, and affects what | |||
429 | the process looks like in /proc. | 429 | the process looks like in /proc. |
430 | 430 | ||
431 | So CacheFiles makes use of a logical split in the security between the | 431 | So CacheFiles makes use of a logical split in the security between the |
432 | objective security (task->sec) and the subjective security (task->act_as). The | 432 | objective security (task->real_cred) and the subjective security (task->cred). |
433 | objective security holds the intrinsic security properties of a process and is | 433 | The objective security holds the intrinsic security properties of a process and |
434 | never overridden. This is what appears in /proc, and is what is used when a | 434 | is never overridden. This is what appears in /proc, and is what is used when a |
435 | process is the target of an operation by some other process (SIGKILL for | 435 | process is the target of an operation by some other process (SIGKILL for |
436 | example). | 436 | example). |
437 | 437 | ||
diff --git a/Documentation/filesystems/knfsd-stats.txt b/Documentation/filesystems/knfsd-stats.txt new file mode 100644 index 000000000000..64ced5149d37 --- /dev/null +++ b/Documentation/filesystems/knfsd-stats.txt | |||
@@ -0,0 +1,159 @@ | |||
1 | |||
2 | Kernel NFS Server Statistics | ||
3 | ============================ | ||
4 | |||
5 | This document describes the format and semantics of the statistics | ||
6 | which the kernel NFS server makes available to userspace. These | ||
7 | statistics are available in several text form pseudo files, each of | ||
8 | which is described separately below. | ||
9 | |||
10 | In most cases you don't need to know these formats, as the nfsstat(8) | ||
11 | program from the nfs-utils distribution provides a helpful command-line | ||
12 | interface for extracting and printing them. | ||
13 | |||
14 | All the files described here are formatted as a sequence of text lines, | ||
15 | separated by newline '\n' characters. Lines beginning with a hash | ||
16 | '#' character are comments intended for humans and should be ignored | ||
17 | by parsing routines. All other lines contain a sequence of fields | ||
18 | separated by whitespace. | ||
19 | |||
20 | /proc/fs/nfsd/pool_stats | ||
21 | ------------------------ | ||
22 | |||
23 | This file is available in kernels from 2.6.30 onwards, if the | ||
24 | /proc/fs/nfsd filesystem is mounted (it almost always should be). | ||
25 | |||
26 | The first line is a comment which describes the fields present in | ||
27 | all the other lines. The other lines present the following data as | ||
28 | a sequence of unsigned decimal numeric fields. One line is shown | ||
29 | for each NFS thread pool. | ||
30 | |||
31 | All counters are 64 bits wide and wrap naturally. There is no way | ||
32 | to zero these counters, instead applications should do their own | ||
33 | rate conversion. | ||
34 | |||
35 | pool | ||
36 | The id number of the NFS thread pool to which this line applies. | ||
37 | This number does not change. | ||
38 | |||
39 | Thread pool ids are a contiguous set of small integers starting | ||
40 | at zero. The maximum value depends on the thread pool mode, but | ||
41 | currently cannot be larger than the number of CPUs in the system. | ||
42 | Note that in the default case there will be a single thread pool | ||
43 | which contains all the nfsd threads and all the CPUs in the system, | ||
44 | and thus this file will have a single line with a pool id of "0". | ||
45 | |||
46 | packets-arrived | ||
47 | Counts how many NFS packets have arrived. More precisely, this | ||
48 | is the number of times that the network stack has notified the | ||
49 | sunrpc server layer that new data may be available on a transport | ||
50 | (e.g. an NFS or UDP socket or an NFS/RDMA endpoint). | ||
51 | |||
52 | Depending on the NFS workload patterns and various network stack | ||
53 | effects (such as Large Receive Offload) which can combine packets | ||
54 | on the wire, this may be either more or less than the number | ||
55 | of NFS calls received (which statistic is available elsewhere). | ||
56 | However this is a more accurate and less workload-dependent measure | ||
57 | of how much CPU load is being placed on the sunrpc server layer | ||
58 | due to NFS network traffic. | ||
59 | |||
60 | sockets-enqueued | ||
61 | Counts how many times an NFS transport is enqueued to wait for | ||
62 | an nfsd thread to service it, i.e. no nfsd thread was considered | ||
63 | available. | ||
64 | |||
65 | The circumstance this statistic tracks indicates that there was NFS | ||
66 | network-facing work to be done but it couldn't be done immediately, | ||
67 | thus introducing a small delay in servicing NFS calls. The ideal | ||
68 | rate of change for this counter is zero; significantly non-zero | ||
69 | values may indicate a performance limitation. | ||
70 | |||
71 | This can happen either because there are too few nfsd threads in the | ||
72 | thread pool for the NFS workload (the workload is thread-limited), | ||
73 | or because the NFS workload needs more CPU time than is available in | ||
74 | the thread pool (the workload is CPU-limited). In the former case, | ||
75 | configuring more nfsd threads will probably improve the performance | ||
76 | of the NFS workload. In the latter case, the sunrpc server layer is | ||
77 | already choosing not to wake idle nfsd threads because there are too | ||
78 | many nfsd threads which want to run but cannot, so configuring more | ||
79 | nfsd threads will make no difference whatsoever. The overloads-avoided | ||
80 | statistic (see below) can be used to distinguish these cases. | ||
81 | |||
82 | threads-woken | ||
83 | Counts how many times an idle nfsd thread is woken to try to | ||
84 | receive some data from an NFS transport. | ||
85 | |||
86 | This statistic tracks the circumstance where incoming | ||
87 | network-facing NFS work is being handled quickly, which is a good | ||
88 | thing. The ideal rate of change for this counter will be close | ||
89 | to but less than the rate of change of the packets-arrived counter. | ||
90 | |||
91 | overloads-avoided | ||
92 | Counts how many times the sunrpc server layer chose not to wake an | ||
93 | nfsd thread, despite the presence of idle nfsd threads, because | ||
94 | too many nfsd threads had been recently woken but could not get | ||
95 | enough CPU time to actually run. | ||
96 | |||
97 | This statistic counts a circumstance where the sunrpc layer | ||
98 | heuristically avoids overloading the CPU scheduler with too many | ||
99 | runnable nfsd threads. The ideal rate of change for this counter | ||
100 | is zero. Significant non-zero values indicate that the workload | ||
101 | is CPU limited. Usually this is associated with heavy CPU usage | ||
102 | on all the CPUs in the nfsd thread pool. | ||
103 | |||
104 | If a sustained large overloads-avoided rate is detected on a pool, | ||
105 | the top(1) utility should be used to check for the following | ||
106 | pattern of CPU usage on all the CPUs associated with the given | ||
107 | nfsd thread pool. | ||
108 | |||
109 | - %us ~= 0 (as you're *NOT* running applications on your NFS server) | ||
110 | |||
111 | - %wa ~= 0 | ||
112 | |||
113 | - %id ~= 0 | ||
114 | |||
115 | - %sy + %hi + %si ~= 100 | ||
116 | |||
117 | If this pattern is seen, configuring more nfsd threads will *not* | ||
118 | improve the performance of the workload. If this patten is not | ||
119 | seen, then something more subtle is wrong. | ||
120 | |||
121 | threads-timedout | ||
122 | Counts how many times an nfsd thread triggered an idle timeout, | ||
123 | i.e. was not woken to handle any incoming network packets for | ||
124 | some time. | ||
125 | |||
126 | This statistic counts a circumstance where there are more nfsd | ||
127 | threads configured than can be used by the NFS workload. This is | ||
128 | a clue that the number of nfsd threads can be reduced without | ||
129 | affecting performance. Unfortunately, it's only a clue and not | ||
130 | a strong indication, for a couple of reasons: | ||
131 | |||
132 | - Currently the rate at which the counter is incremented is quite | ||
133 | slow; the idle timeout is 60 minutes. Unless the NFS workload | ||
134 | remains constant for hours at a time, this counter is unlikely | ||
135 | to be providing information that is still useful. | ||
136 | |||
137 | - It is usually a wise policy to provide some slack, | ||
138 | i.e. configure a few more nfsds than are currently needed, | ||
139 | to allow for future spikes in load. | ||
140 | |||
141 | |||
142 | Note that incoming packets on NFS transports will be dealt with in | ||
143 | one of three ways. An nfsd thread can be woken (threads-woken counts | ||
144 | this case), or the transport can be enqueued for later attention | ||
145 | (sockets-enqueued counts this case), or the packet can be temporarily | ||
146 | deferred because the transport is currently being used by an nfsd | ||
147 | thread. This last case is not very interesting and is not explicitly | ||
148 | counted, but can be inferred from the other counters thus: | ||
149 | |||
150 | packets-deferred = packets-arrived - ( sockets-enqueued + threads-woken ) | ||
151 | |||
152 | |||
153 | More | ||
154 | ---- | ||
155 | Descriptions of the other statistics file should go here. | ||
156 | |||
157 | |||
158 | Greg Banks <gnb@sgi.com> | ||
159 | 26 Mar 2009 | ||
diff --git a/Documentation/filesystems/nfs41-server.txt b/Documentation/filesystems/nfs41-server.txt new file mode 100644 index 000000000000..05d81cbcb2e1 --- /dev/null +++ b/Documentation/filesystems/nfs41-server.txt | |||
@@ -0,0 +1,161 @@ | |||
1 | NFSv4.1 Server Implementation | ||
2 | |||
3 | Server support for minorversion 1 can be controlled using the | ||
4 | /proc/fs/nfsd/versions control file. The string output returned | ||
5 | by reading this file will contain either "+4.1" or "-4.1" | ||
6 | correspondingly. | ||
7 | |||
8 | Currently, server support for minorversion 1 is disabled by default. | ||
9 | It can be enabled at run time by writing the string "+4.1" to | ||
10 | the /proc/fs/nfsd/versions control file. Note that to write this | ||
11 | control file, the nfsd service must be taken down. Use your user-mode | ||
12 | nfs-utils to set this up; see rpc.nfsd(8) | ||
13 | |||
14 | The NFSv4 minorversion 1 (NFSv4.1) implementation in nfsd is based | ||
15 | on the latest NFSv4.1 Internet Draft: | ||
16 | http://tools.ietf.org/html/draft-ietf-nfsv4-minorversion1-29 | ||
17 | |||
18 | From the many new features in NFSv4.1 the current implementation | ||
19 | focuses on the mandatory-to-implement NFSv4.1 Sessions, providing | ||
20 | "exactly once" semantics and better control and throttling of the | ||
21 | resources allocated for each client. | ||
22 | |||
23 | Other NFSv4.1 features, Parallel NFS operations in particular, | ||
24 | are still under development out of tree. | ||
25 | See http://wiki.linux-nfs.org/wiki/index.php/PNFS_prototype_design | ||
26 | for more information. | ||
27 | |||
28 | The table below, taken from the NFSv4.1 document, lists | ||
29 | the operations that are mandatory to implement (REQ), optional | ||
30 | (OPT), and NFSv4.0 operations that are required not to implement (MNI) | ||
31 | in minor version 1. The first column indicates the operations that | ||
32 | are not supported yet by the linux server implementation. | ||
33 | |||
34 | The OPTIONAL features identified and their abbreviations are as follows: | ||
35 | pNFS Parallel NFS | ||
36 | FDELG File Delegations | ||
37 | DDELG Directory Delegations | ||
38 | |||
39 | The following abbreviations indicate the linux server implementation status. | ||
40 | I Implemented NFSv4.1 operations. | ||
41 | NS Not Supported. | ||
42 | NS* unimplemented optional feature. | ||
43 | P pNFS features implemented out of tree. | ||
44 | PNS pNFS features that are not supported yet (out of tree). | ||
45 | |||
46 | Operations | ||
47 | |||
48 | +----------------------+------------+--------------+----------------+ | ||
49 | | Operation | REQ, REC, | Feature | Definition | | ||
50 | | | OPT, or | (REQ, REC, | | | ||
51 | | | MNI | or OPT) | | | ||
52 | +----------------------+------------+--------------+----------------+ | ||
53 | | ACCESS | REQ | | Section 18.1 | | ||
54 | NS | BACKCHANNEL_CTL | REQ | | Section 18.33 | | ||
55 | NS | BIND_CONN_TO_SESSION | REQ | | Section 18.34 | | ||
56 | | CLOSE | REQ | | Section 18.2 | | ||
57 | | COMMIT | REQ | | Section 18.3 | | ||
58 | | CREATE | REQ | | Section 18.4 | | ||
59 | I | CREATE_SESSION | REQ | | Section 18.36 | | ||
60 | NS*| DELEGPURGE | OPT | FDELG (REQ) | Section 18.5 | | ||
61 | | DELEGRETURN | OPT | FDELG, | Section 18.6 | | ||
62 | | | | DDELG, pNFS | | | ||
63 | | | | (REQ) | | | ||
64 | NS | DESTROY_CLIENTID | REQ | | Section 18.50 | | ||
65 | I | DESTROY_SESSION | REQ | | Section 18.37 | | ||
66 | I | EXCHANGE_ID | REQ | | Section 18.35 | | ||
67 | NS | FREE_STATEID | REQ | | Section 18.38 | | ||
68 | | GETATTR | REQ | | Section 18.7 | | ||
69 | P | GETDEVICEINFO | OPT | pNFS (REQ) | Section 18.40 | | ||
70 | P | GETDEVICELIST | OPT | pNFS (OPT) | Section 18.41 | | ||
71 | | GETFH | REQ | | Section 18.8 | | ||
72 | NS*| GET_DIR_DELEGATION | OPT | DDELG (REQ) | Section 18.39 | | ||
73 | P | LAYOUTCOMMIT | OPT | pNFS (REQ) | Section 18.42 | | ||
74 | P | LAYOUTGET | OPT | pNFS (REQ) | Section 18.43 | | ||
75 | P | LAYOUTRETURN | OPT | pNFS (REQ) | Section 18.44 | | ||
76 | | LINK | OPT | | Section 18.9 | | ||
77 | | LOCK | REQ | | Section 18.10 | | ||
78 | | LOCKT | REQ | | Section 18.11 | | ||
79 | | LOCKU | REQ | | Section 18.12 | | ||
80 | | LOOKUP | REQ | | Section 18.13 | | ||
81 | | LOOKUPP | REQ | | Section 18.14 | | ||
82 | | NVERIFY | REQ | | Section 18.15 | | ||
83 | | OPEN | REQ | | Section 18.16 | | ||
84 | NS*| OPENATTR | OPT | | Section 18.17 | | ||
85 | | OPEN_CONFIRM | MNI | | N/A | | ||
86 | | OPEN_DOWNGRADE | REQ | | Section 18.18 | | ||
87 | | PUTFH | REQ | | Section 18.19 | | ||
88 | | PUTPUBFH | REQ | | Section 18.20 | | ||
89 | | PUTROOTFH | REQ | | Section 18.21 | | ||
90 | | READ | REQ | | Section 18.22 | | ||
91 | | READDIR | REQ | | Section 18.23 | | ||
92 | | READLINK | OPT | | Section 18.24 | | ||
93 | NS | RECLAIM_COMPLETE | REQ | | Section 18.51 | | ||
94 | | RELEASE_LOCKOWNER | MNI | | N/A | | ||
95 | | REMOVE | REQ | | Section 18.25 | | ||
96 | | RENAME | REQ | | Section 18.26 | | ||
97 | | RENEW | MNI | | N/A | | ||
98 | | RESTOREFH | REQ | | Section 18.27 | | ||
99 | | SAVEFH | REQ | | Section 18.28 | | ||
100 | | SECINFO | REQ | | Section 18.29 | | ||
101 | NS | SECINFO_NO_NAME | REC | pNFS files | Section 18.45, | | ||
102 | | | | layout (REQ) | Section 13.12 | | ||
103 | I | SEQUENCE | REQ | | Section 18.46 | | ||
104 | | SETATTR | REQ | | Section 18.30 | | ||
105 | | SETCLIENTID | MNI | | N/A | | ||
106 | | SETCLIENTID_CONFIRM | MNI | | N/A | | ||
107 | NS | SET_SSV | REQ | | Section 18.47 | | ||
108 | NS | TEST_STATEID | REQ | | Section 18.48 | | ||
109 | | VERIFY | REQ | | Section 18.31 | | ||
110 | NS*| WANT_DELEGATION | OPT | FDELG (OPT) | Section 18.49 | | ||
111 | | WRITE | REQ | | Section 18.32 | | ||
112 | |||
113 | Callback Operations | ||
114 | |||
115 | +-------------------------+-----------+-------------+---------------+ | ||
116 | | Operation | REQ, REC, | Feature | Definition | | ||
117 | | | OPT, or | (REQ, REC, | | | ||
118 | | | MNI | or OPT) | | | ||
119 | +-------------------------+-----------+-------------+---------------+ | ||
120 | | CB_GETATTR | OPT | FDELG (REQ) | Section 20.1 | | ||
121 | P | CB_LAYOUTRECALL | OPT | pNFS (REQ) | Section 20.3 | | ||
122 | NS*| CB_NOTIFY | OPT | DDELG (REQ) | Section 20.4 | | ||
123 | P | CB_NOTIFY_DEVICEID | OPT | pNFS (OPT) | Section 20.12 | | ||
124 | NS*| CB_NOTIFY_LOCK | OPT | | Section 20.11 | | ||
125 | NS*| CB_PUSH_DELEG | OPT | FDELG (OPT) | Section 20.5 | | ||
126 | | CB_RECALL | OPT | FDELG, | Section 20.2 | | ||
127 | | | | DDELG, pNFS | | | ||
128 | | | | (REQ) | | | ||
129 | NS*| CB_RECALL_ANY | OPT | FDELG, | Section 20.6 | | ||
130 | | | | DDELG, pNFS | | | ||
131 | | | | (REQ) | | | ||
132 | NS | CB_RECALL_SLOT | REQ | | Section 20.8 | | ||
133 | NS*| CB_RECALLABLE_OBJ_AVAIL | OPT | DDELG, pNFS | Section 20.7 | | ||
134 | | | | (REQ) | | | ||
135 | I | CB_SEQUENCE | OPT | FDELG, | Section 20.9 | | ||
136 | | | | DDELG, pNFS | | | ||
137 | | | | (REQ) | | | ||
138 | NS*| CB_WANTS_CANCELLED | OPT | FDELG, | Section 20.10 | | ||
139 | | | | DDELG, pNFS | | | ||
140 | | | | (REQ) | | | ||
141 | +-------------------------+-----------+-------------+---------------+ | ||
142 | |||
143 | Implementation notes: | ||
144 | |||
145 | EXCHANGE_ID: | ||
146 | * only SP4_NONE state protection supported | ||
147 | * implementation ids are ignored | ||
148 | |||
149 | CREATE_SESSION: | ||
150 | * backchannel attributes are ignored | ||
151 | * backchannel security parameters are ignored | ||
152 | |||
153 | SEQUENCE: | ||
154 | * no support for dynamic slot table renegotiation (optional) | ||
155 | |||
156 | nfsv4.1 COMPOUND rules: | ||
157 | The following cases aren't supported yet: | ||
158 | * Enforcing of NFS4ERR_NOT_ONLY_OP for: BIND_CONN_TO_SESSION, CREATE_SESSION, | ||
159 | DESTROY_CLIENTID, DESTROY_SESSION, EXCHANGE_ID. | ||
160 | * DESTROY_SESSION MUST be the final operation in the COMPOUND request. | ||
161 | |||
diff --git a/Documentation/filesystems/nilfs2.txt b/Documentation/filesystems/nilfs2.txt new file mode 100644 index 000000000000..55c4300abfcb --- /dev/null +++ b/Documentation/filesystems/nilfs2.txt | |||
@@ -0,0 +1,200 @@ | |||
1 | NILFS2 | ||
2 | ------ | ||
3 | |||
4 | NILFS2 is a log-structured file system (LFS) supporting continuous | ||
5 | snapshotting. In addition to versioning capability of the entire file | ||
6 | system, users can even restore files mistakenly overwritten or | ||
7 | destroyed just a few seconds ago. Since NILFS2 can keep consistency | ||
8 | like conventional LFS, it achieves quick recovery after system | ||
9 | crashes. | ||
10 | |||
11 | NILFS2 creates a number of checkpoints every few seconds or per | ||
12 | synchronous write basis (unless there is no change). Users can select | ||
13 | significant versions among continuously created checkpoints, and can | ||
14 | change them into snapshots which will be preserved until they are | ||
15 | changed back to checkpoints. | ||
16 | |||
17 | There is no limit on the number of snapshots until the volume gets | ||
18 | full. Each snapshot is mountable as a read-only file system | ||
19 | concurrently with its writable mount, and this feature is convenient | ||
20 | for online backup. | ||
21 | |||
22 | The userland tools are included in nilfs-utils package, which is | ||
23 | available from the following download page. At least "mkfs.nilfs2", | ||
24 | "mount.nilfs2", "umount.nilfs2", and "nilfs_cleanerd" (so called | ||
25 | cleaner or garbage collector) are required. Details on the tools are | ||
26 | described in the man pages included in the package. | ||
27 | |||
28 | Project web page: http://www.nilfs.org/en/ | ||
29 | Download page: http://www.nilfs.org/en/download.html | ||
30 | Git tree web page: http://www.nilfs.org/git/ | ||
31 | NILFS mailing lists: http://www.nilfs.org/mailman/listinfo/users | ||
32 | |||
33 | Caveats | ||
34 | ======= | ||
35 | |||
36 | Features which NILFS2 does not support yet: | ||
37 | |||
38 | - atime | ||
39 | - extended attributes | ||
40 | - POSIX ACLs | ||
41 | - quotas | ||
42 | - writable snapshots | ||
43 | - remote backup (CDP) | ||
44 | - data integrity | ||
45 | - defragmentation | ||
46 | |||
47 | Mount options | ||
48 | ============= | ||
49 | |||
50 | NILFS2 supports the following mount options: | ||
51 | (*) == default | ||
52 | |||
53 | barrier=on(*) This enables/disables barriers. barrier=off disables | ||
54 | it, barrier=on enables it. | ||
55 | errors=continue(*) Keep going on a filesystem error. | ||
56 | errors=remount-ro Remount the filesystem read-only on an error. | ||
57 | errors=panic Panic and halt the machine if an error occurs. | ||
58 | cp=n Specify the checkpoint-number of the snapshot to be | ||
59 | mounted. Checkpoints and snapshots are listed by lscp | ||
60 | user command. Only the checkpoints marked as snapshot | ||
61 | are mountable with this option. Snapshot is read-only, | ||
62 | so a read-only mount option must be specified together. | ||
63 | order=relaxed(*) Apply relaxed order semantics that allows modified data | ||
64 | blocks to be written to disk without making a | ||
65 | checkpoint if no metadata update is going. This mode | ||
66 | is equivalent to the ordered data mode of the ext3 | ||
67 | filesystem except for the updates on data blocks still | ||
68 | conserve atomicity. This will improve synchronous | ||
69 | write performance for overwriting. | ||
70 | order=strict Apply strict in-order semantics that preserves sequence | ||
71 | of all file operations including overwriting of data | ||
72 | blocks. That means, it is guaranteed that no | ||
73 | overtaking of events occurs in the recovered file | ||
74 | system after a crash. | ||
75 | |||
76 | NILFS2 usage | ||
77 | ============ | ||
78 | |||
79 | To use nilfs2 as a local file system, simply: | ||
80 | |||
81 | # mkfs -t nilfs2 /dev/block_device | ||
82 | # mount -t nilfs2 /dev/block_device /dir | ||
83 | |||
84 | This will also invoke the cleaner through the mount helper program | ||
85 | (mount.nilfs2). | ||
86 | |||
87 | Checkpoints and snapshots are managed by the following commands. | ||
88 | Their manpages are included in the nilfs-utils package above. | ||
89 | |||
90 | lscp list checkpoints or snapshots. | ||
91 | mkcp make a checkpoint or a snapshot. | ||
92 | chcp change an existing checkpoint to a snapshot or vice versa. | ||
93 | rmcp invalidate specified checkpoint(s). | ||
94 | |||
95 | To mount a snapshot, | ||
96 | |||
97 | # mount -t nilfs2 -r -o cp=<cno> /dev/block_device /snap_dir | ||
98 | |||
99 | where <cno> is the checkpoint number of the snapshot. | ||
100 | |||
101 | To unmount the NILFS2 mount point or snapshot, simply: | ||
102 | |||
103 | # umount /dir | ||
104 | |||
105 | Then, the cleaner daemon is automatically shut down by the umount | ||
106 | helper program (umount.nilfs2). | ||
107 | |||
108 | Disk format | ||
109 | =========== | ||
110 | |||
111 | A nilfs2 volume is equally divided into a number of segments except | ||
112 | for the super block (SB) and segment #0. A segment is the container | ||
113 | of logs. Each log is composed of summary information blocks, payload | ||
114 | blocks, and an optional super root block (SR): | ||
115 | |||
116 | ______________________________________________________ | ||
117 | | |SB| | Segment | Segment | Segment | ... | Segment | | | ||
118 | |_|__|_|____0____|____1____|____2____|_____|____N____|_| | ||
119 | 0 +1K +4K +8M +16M +24M +(8MB x N) | ||
120 | . . (Typical offsets for 4KB-block) | ||
121 | . . | ||
122 | .______________________. | ||
123 | | log | log |... | log | | ||
124 | |__1__|__2__|____|__m__| | ||
125 | . . | ||
126 | . . | ||
127 | . . | ||
128 | .______________________________. | ||
129 | | Summary | Payload blocks |SR| | ||
130 | |_blocks__|_________________|__| | ||
131 | |||
132 | The payload blocks are organized per file, and each file consists of | ||
133 | data blocks and B-tree node blocks: | ||
134 | |||
135 | |<--- File-A --->|<--- File-B --->| | ||
136 | _______________________________________________________________ | ||
137 | | Data blocks | B-tree blocks | Data blocks | B-tree blocks | ... | ||
138 | _|_____________|_______________|_____________|_______________|_ | ||
139 | |||
140 | |||
141 | Since only the modified blocks are written in the log, it may have | ||
142 | files without data blocks or B-tree node blocks. | ||
143 | |||
144 | The organization of the blocks is recorded in the summary information | ||
145 | blocks, which contains a header structure (nilfs_segment_summary), per | ||
146 | file structures (nilfs_finfo), and per block structures (nilfs_binfo): | ||
147 | |||
148 | _________________________________________________________________________ | ||
149 | | Summary | finfo | binfo | ... | binfo | finfo | binfo | ... | binfo |... | ||
150 | |_blocks__|___A___|_(A,1)_|_____|(A,Na)_|___B___|_(B,1)_|_____|(B,Nb)_|___ | ||
151 | |||
152 | |||
153 | The logs include regular files, directory files, symbolic link files | ||
154 | and several meta data files. The mata data files are the files used | ||
155 | to maintain file system meta data. The current version of NILFS2 uses | ||
156 | the following meta data files: | ||
157 | |||
158 | 1) Inode file (ifile) -- Stores on-disk inodes | ||
159 | 2) Checkpoint file (cpfile) -- Stores checkpoints | ||
160 | 3) Segment usage file (sufile) -- Stores allocation state of segments | ||
161 | 4) Data address translation file -- Maps virtual block numbers to usual | ||
162 | (DAT) block numbers. This file serves to | ||
163 | make on-disk blocks relocatable. | ||
164 | |||
165 | The following figure shows a typical organization of the logs: | ||
166 | |||
167 | _________________________________________________________________________ | ||
168 | | Summary | regular file | file | ... | ifile | cpfile | sufile | DAT |SR| | ||
169 | |_blocks__|_or_directory_|_______|_____|_______|________|________|_____|__| | ||
170 | |||
171 | |||
172 | To stride over segment boundaries, this sequence of files may be split | ||
173 | into multiple logs. The sequence of logs that should be treated as | ||
174 | logically one log, is delimited with flags marked in the segment | ||
175 | summary. The recovery code of nilfs2 looks this boundary information | ||
176 | to ensure atomicity of updates. | ||
177 | |||
178 | The super root block is inserted for every checkpoints. It includes | ||
179 | three special inodes, inodes for the DAT, cpfile, and sufile. Inodes | ||
180 | of regular files, directories, symlinks and other special files, are | ||
181 | included in the ifile. The inode of ifile itself is included in the | ||
182 | corresponding checkpoint entry in the cpfile. Thus, the hierarchy | ||
183 | among NILFS2 files can be depicted as follows: | ||
184 | |||
185 | Super block (SB) | ||
186 | | | ||
187 | v | ||
188 | Super root block (the latest cno=xx) | ||
189 | |-- DAT | ||
190 | |-- sufile | ||
191 | `-- cpfile | ||
192 | |-- ifile (cno=c1) | ||
193 | |-- ifile (cno=c2) ---- file (ino=i1) | ||
194 | : : |-- file (ino=i2) | ||
195 | `-- ifile (cno=xx) |-- file (ino=i3) | ||
196 | : : | ||
197 | `-- file (ino=yy) | ||
198 | ( regular file, directory, or symlink ) | ||
199 | |||
200 | For detail on the format of each file, please see include/linux/nilfs2_fs.h. | ||
diff --git a/Documentation/filesystems/pohmelfs/design_notes.txt b/Documentation/filesystems/pohmelfs/design_notes.txt new file mode 100644 index 000000000000..dcf833587162 --- /dev/null +++ b/Documentation/filesystems/pohmelfs/design_notes.txt | |||
@@ -0,0 +1,71 @@ | |||
1 | POHMELFS: Parallel Optimized Host Message Exchange Layered File System. | ||
2 | |||
3 | Evgeniy Polyakov <zbr@ioremap.net> | ||
4 | |||
5 | Homepage: http://www.ioremap.net/projects/pohmelfs | ||
6 | |||
7 | POHMELFS first began as a network filesystem with coherent local data and | ||
8 | metadata caches but is now evolving into a parallel distributed filesystem. | ||
9 | |||
10 | Main features of this FS include: | ||
11 | * Locally coherent cache for data and metadata with (potentially) byte-range locks. | ||
12 | Since all Linux filesystems lock the whole inode during writing, algorithm | ||
13 | is very simple and does not use byte-ranges, although they are sent in | ||
14 | locking messages. | ||
15 | * Completely async processing of all events except creation of hard and symbolic | ||
16 | links, and rename events. | ||
17 | Object creation and data reading and writing are processed asynchronously. | ||
18 | * Flexible object architecture optimized for network processing. | ||
19 | Ability to create long paths to objects and remove arbitrarily huge | ||
20 | directories with a single network command. | ||
21 | (like removing the whole kernel tree via a single network command). | ||
22 | * Very high performance. | ||
23 | * Fast and scalable multithreaded userspace server. Being in userspace it works | ||
24 | with any underlying filesystem and still is much faster than async in-kernel NFS one. | ||
25 | * Client is able to switch between different servers (if one goes down, client | ||
26 | automatically reconnects to second and so on). | ||
27 | * Transactions support. Full failover for all operations. | ||
28 | Resending transactions to different servers on timeout or error. | ||
29 | * Read request (data read, directory listing, lookup requests) balancing between multiple servers. | ||
30 | * Write requests are replicated to multiple servers and completed only when all of them are acked. | ||
31 | * Ability to add and/or remove servers from the working set at run-time. | ||
32 | * Strong authentification and possible data encryption in network channel. | ||
33 | * Extended attributes support. | ||
34 | |||
35 | POHMELFS is based on transactions, which are potentially long-standing objects that live | ||
36 | in the client's memory. Each transaction contains all the information needed to process a given | ||
37 | command (or set of commands, which is frequently used during data writing: single transactions | ||
38 | can contain creation and data writing commands). Transactions are committed by all the servers | ||
39 | to which they are sent and, in case of failures, are eventually resent or dropped with an error. | ||
40 | For example, reading will return an error if no servers are available. | ||
41 | |||
42 | POHMELFS uses a asynchronous approach to data processing. Courtesy of transactions, it is | ||
43 | possible to detach replies from requests and, if the command requires data to be received, the | ||
44 | caller sleeps waiting for it. Thus, it is possible to issue multiple read commands to different | ||
45 | servers and async threads will pick up replies in parallel, find appropriate transactions in the | ||
46 | system and put the data where it belongs (like the page or inode cache). | ||
47 | |||
48 | The main feature of POHMELFS is writeback data and the metadata cache. | ||
49 | Only a few non-performance critical operations use the write-through cache and | ||
50 | are synchronous: hard and symbolic link creation, and object rename. Creation, | ||
51 | removal of objects and data writing are asynchronous and are sent to | ||
52 | the server during system writeback. Only one writer at a time is allowed for any | ||
53 | given inode, which is guarded by an appropriate locking protocol. | ||
54 | Because of this feature, POHMELFS is extremely fast at metadata intensive | ||
55 | workloads and can fully utilize the bandwidth to the servers when doing bulk | ||
56 | data transfers. | ||
57 | |||
58 | POHMELFS clients operate with a working set of servers and are capable of balancing read-only | ||
59 | operations (like lookups or directory listings) between them according to IO priorities. | ||
60 | Administrators can add or remove servers from the set at run-time via special commands (described | ||
61 | in Documentation/pohmelfs/info.txt file). Writes are replicated to all servers, which are connected | ||
62 | with write permission turned on. IO priority and permissions can be changed in run-time. | ||
63 | |||
64 | POHMELFS is capable of full data channel encryption and/or strong crypto hashing. | ||
65 | One can select any kernel supported cipher, encryption mode, hash type and operation mode | ||
66 | (hmac or digest). It is also possible to use both or neither (default). Crypto configuration | ||
67 | is checked during mount time and, if the server does not support it, appropriate capabilities | ||
68 | will be disabled or mount will fail (if 'crypto_fail_unsupported' mount option is specified). | ||
69 | Crypto performance heavily depends on the number of crypto threads, which asynchronously perform | ||
70 | crypto operations and send the resulting data to server or submit it up the stack. This number | ||
71 | can be controlled via a mount option. | ||
diff --git a/Documentation/filesystems/pohmelfs/info.txt b/Documentation/filesystems/pohmelfs/info.txt new file mode 100644 index 000000000000..db2e41393626 --- /dev/null +++ b/Documentation/filesystems/pohmelfs/info.txt | |||
@@ -0,0 +1,99 @@ | |||
1 | POHMELFS usage information. | ||
2 | |||
3 | Mount options. | ||
4 | All but index, number of crypto threads and maximum IO size can changed via remount. | ||
5 | |||
6 | idx=%u | ||
7 | Each mountpoint is associated with a special index via this option. | ||
8 | Administrator can add or remove servers from the given index, so all mounts, | ||
9 | which were attached to it, are updated. | ||
10 | Default it is 0. | ||
11 | |||
12 | trans_scan_timeout=%u | ||
13 | This timeout, expressed in milliseconds, specifies time to scan transaction | ||
14 | trees looking for stale requests, which have to be resent, or if number of | ||
15 | retries exceed specified limit, dropped with error. | ||
16 | Default is 5 seconds. | ||
17 | |||
18 | drop_scan_timeout=%u | ||
19 | Internal timeout, expressed in milliseconds, which specifies how frequently | ||
20 | inodes marked to be dropped are freed. It also specifies how frequently | ||
21 | the system checks that servers have to be added or removed from current working set. | ||
22 | Default is 1 second. | ||
23 | |||
24 | wait_on_page_timeout=%u | ||
25 | Number of milliseconds to wait for reply from remote server for data reading command. | ||
26 | If this timeout is exceeded, reading returns an error. | ||
27 | Default is 5 seconds. | ||
28 | |||
29 | trans_retries=%u | ||
30 | This is the number of times that a transaction will be resent to a server that did | ||
31 | not answer for the last @trans_scan_timeout milliseconds. | ||
32 | When the number of resends exceeds this limit, the transaction is completed with error. | ||
33 | Default is 5 resends. | ||
34 | |||
35 | crypto_thread_num=%u | ||
36 | Number of crypto processing threads. Threads are used both for RX and TX traffic. | ||
37 | Default is 2, or no threads if crypto operations are not supported. | ||
38 | |||
39 | trans_max_pages=%u | ||
40 | Maximum number of pages in a single transaction. This parameter also controls | ||
41 | the number of pages, allocated for crypto processing (each crypto thread has | ||
42 | pool of pages, the number of which is equal to 'trans_max_pages'. | ||
43 | Default is 100 pages. | ||
44 | |||
45 | crypto_fail_unsupported | ||
46 | If specified, mount will fail if the server does not support requested crypto operations. | ||
47 | By default mount will disable non-matching crypto operations. | ||
48 | |||
49 | mcache_timeout=%u | ||
50 | Maximum number of milliseconds to wait for the mcache objects to be processed. | ||
51 | Mcache includes locks (given lock should be granted by server), attributes (they should be | ||
52 | fully received in the given timeframe). | ||
53 | Default is 5 seconds. | ||
54 | |||
55 | Usage examples. | ||
56 | |||
57 | Add server server1.net:1025 into the working set with index $idx | ||
58 | with appropriate hash algorithm and key file and cipher algorithm, mode and key file: | ||
59 | $cfg A add -a server1.net -p 1025 -i $idx -K $hash_key -k $cipher_key | ||
60 | |||
61 | Mount filesystem with given index $idx to /mnt mountpoint. | ||
62 | Client will connect to all servers specified in the working set via previous command: | ||
63 | mount -t pohmel -o idx=$idx q /mnt | ||
64 | |||
65 | Change permissions to read-only (-I 1 option, '-I 2' - write-only, 3 - rw): | ||
66 | $cfg A modify -a server1.net -p 1025 -i $idx -I 1 | ||
67 | |||
68 | Change IO priority to 123 (node with the highest priority gets read requests). | ||
69 | $cfg A modify -a server1.net -p 1025 -i $idx -P 123 | ||
70 | |||
71 | One can check currect status of all connections in the mountstats file: | ||
72 | # cat /proc/$PID/mountstats | ||
73 | ... | ||
74 | device none mounted on /mnt with fstype pohmel | ||
75 | idx addr(:port) socket_type protocol active priority permissions | ||
76 | 0 server1.net:1026 1 6 1 250 1 | ||
77 | 0 server2.net:1025 1 6 1 123 3 | ||
78 | |||
79 | Server installation. | ||
80 | |||
81 | Creating a server, which listens at port 1025 and 0.0.0.0 address. | ||
82 | Working root directory (note, that server chroots there, so you have to have appropriate permissions) | ||
83 | is set to /mnt, server will negotiate hash/cipher with client, in case client requested it, there | ||
84 | are appropriate key files. | ||
85 | Number of working threads is set to 10. | ||
86 | |||
87 | # ./fserver -a 0.0.0.0 -p 1025 -r /mnt -w 10 -K hash_key -k cipher_key | ||
88 | |||
89 | -A 6 - listen on ipv6 address. Default: Disabled. | ||
90 | -r root - path to root directory. Default: /tmp. | ||
91 | -a addr - listen address. Default: 0.0.0.0. | ||
92 | -p port - listen port. Default: 1025. | ||
93 | -w workers - number of workers per connected client. Default: 1. | ||
94 | -K file - hash key size. Default: none. | ||
95 | -k file - cipher key size. Default: none. | ||
96 | -h - this help. | ||
97 | |||
98 | Number of worker threads specifies how many workers will be created for each client. | ||
99 | Bulk single-client transafers usually are better handled with smaller number (like 1-3). | ||
diff --git a/Documentation/filesystems/pohmelfs/network_protocol.txt b/Documentation/filesystems/pohmelfs/network_protocol.txt new file mode 100644 index 000000000000..40ea6c295afb --- /dev/null +++ b/Documentation/filesystems/pohmelfs/network_protocol.txt | |||
@@ -0,0 +1,227 @@ | |||
1 | POHMELFS network protocol. | ||
2 | |||
3 | Basic structure used in network communication is following command: | ||
4 | |||
5 | struct netfs_cmd | ||
6 | { | ||
7 | __u16 cmd; /* Command number */ | ||
8 | __u16 csize; /* Attached crypto information size */ | ||
9 | __u16 cpad; /* Attached padding size */ | ||
10 | __u16 ext; /* External flags */ | ||
11 | __u32 size; /* Size of the attached data */ | ||
12 | __u32 trans; /* Transaction id */ | ||
13 | __u64 id; /* Object ID to operate on. Used for feedback.*/ | ||
14 | __u64 start; /* Start of the object. */ | ||
15 | __u64 iv; /* IV sequence */ | ||
16 | __u8 data[0]; | ||
17 | }; | ||
18 | |||
19 | Commands can be embedded into transaction command (which in turn has own command), | ||
20 | so one can extend protocol as needed without breaking backward compatibility as long | ||
21 | as old commands are supported. All string lengths include tail 0 byte. | ||
22 | |||
23 | All commans are transfered over the network in big-endian. CPU endianess is used at the end peers. | ||
24 | |||
25 | @cmd - command number, which specifies command to be processed. Following | ||
26 | commands are used currently: | ||
27 | |||
28 | NETFS_READDIR = 1, /* Read directory for given inode number */ | ||
29 | NETFS_READ_PAGE, /* Read data page from the server */ | ||
30 | NETFS_WRITE_PAGE, /* Write data page to the server */ | ||
31 | NETFS_CREATE, /* Create directory entry */ | ||
32 | NETFS_REMOVE, /* Remove directory entry */ | ||
33 | NETFS_LOOKUP, /* Lookup single object */ | ||
34 | NETFS_LINK, /* Create a link */ | ||
35 | NETFS_TRANS, /* Transaction */ | ||
36 | NETFS_OPEN, /* Open intent */ | ||
37 | NETFS_INODE_INFO, /* Metadata cache coherency synchronization message */ | ||
38 | NETFS_PAGE_CACHE, /* Page cache invalidation message */ | ||
39 | NETFS_READ_PAGES, /* Read multiple contiguous pages in one go */ | ||
40 | NETFS_RENAME, /* Rename object */ | ||
41 | NETFS_CAPABILITIES, /* Capabilities of the client, for example supported crypto */ | ||
42 | NETFS_LOCK, /* Distributed lock message */ | ||
43 | NETFS_XATTR_SET, /* Set extended attribute */ | ||
44 | NETFS_XATTR_GET, /* Get extended attribute */ | ||
45 | |||
46 | @ext - external flags. Used by different commands to specify some extra arguments | ||
47 | like partial size of the embedded objects or creation flags. | ||
48 | |||
49 | @size - size of the attached data. For NETFS_READ_PAGE and NETFS_READ_PAGES no data is attached, | ||
50 | but size of the requested data is incorporated here. It does not include size of the command | ||
51 | header (struct netfs_cmd) itself. | ||
52 | |||
53 | @id - id of the object this command operates on. Each command can use it for own purpose. | ||
54 | |||
55 | @start - start of the object this command operates on. Each command can use it for own purpose. | ||
56 | |||
57 | @csize, @cpad - size and padding size of the (attached if needed) crypto information. | ||
58 | |||
59 | Command specifications. | ||
60 | |||
61 | @NETFS_READDIR | ||
62 | This command is used to sync content of the remote dir to the client. | ||
63 | |||
64 | @ext - length of the path to object. | ||
65 | @size - the same. | ||
66 | @id - local inode number of the directory to read. | ||
67 | @start - zero. | ||
68 | |||
69 | |||
70 | @NETFS_READ_PAGE | ||
71 | This command is used to read data from remote server. | ||
72 | Data size does not exceed local page cache size. | ||
73 | |||
74 | @id - inode number. | ||
75 | @start - first byte offset. | ||
76 | @size - number of bytes to read plus length of the path to object. | ||
77 | @ext - object path length. | ||
78 | |||
79 | |||
80 | @NETFS_CREATE | ||
81 | Used to create object. | ||
82 | It does not require that all directories on top of the object were | ||
83 | already created, it will create them automatically. Each object has | ||
84 | associated @netfs_path_entry data structure, which contains creation | ||
85 | mode (permissions and type) and length of the name as long as name itself. | ||
86 | |||
87 | @start - 0 | ||
88 | @size - size of the all data structures needed to create a path | ||
89 | @id - local inode number | ||
90 | @ext - 0 | ||
91 | |||
92 | |||
93 | @NETFS_REMOVE | ||
94 | Used to remove object. | ||
95 | |||
96 | @ext - length of the path to object. | ||
97 | @size - the same. | ||
98 | @id - local inode number. | ||
99 | @start - zero. | ||
100 | |||
101 | |||
102 | @NETFS_LOOKUP | ||
103 | Lookup information about object on server. | ||
104 | |||
105 | @ext - length of the path to object. | ||
106 | @size - the same. | ||
107 | @id - local inode number of the directory to look object in. | ||
108 | @start - local inode number of the object to look at. | ||
109 | |||
110 | |||
111 | @NETFS_LINK | ||
112 | Create hard of symlink. | ||
113 | Command is sent as "object_path|target_path". | ||
114 | |||
115 | @size - size of the above string. | ||
116 | @id - parent local inode number. | ||
117 | @start - 1 for symlink, 0 for hardlink. | ||
118 | @ext - size of the "object_path" above. | ||
119 | |||
120 | |||
121 | @NETFS_TRANS | ||
122 | Transaction header. | ||
123 | |||
124 | @size - incorporates all embedded command sizes including theirs header sizes. | ||
125 | @start - transaction generation number - unique id used to find transaction. | ||
126 | @ext - transaction flags. Unused at the moment. | ||
127 | @id - 0. | ||
128 | |||
129 | |||
130 | @NETFS_OPEN | ||
131 | Open intent for given transaction. | ||
132 | |||
133 | @id - local inode number. | ||
134 | @start - 0. | ||
135 | @size - path length to the object. | ||
136 | @ext - open flags (O_RDWR and so on). | ||
137 | |||
138 | |||
139 | @NETFS_INODE_INFO | ||
140 | Metadata update command. | ||
141 | It is sent to servers when attributes of the object are changed and received | ||
142 | when data or metadata were updated. It operates with the following structure: | ||
143 | |||
144 | struct netfs_inode_info | ||
145 | { | ||
146 | unsigned int mode; | ||
147 | unsigned int nlink; | ||
148 | unsigned int uid; | ||
149 | unsigned int gid; | ||
150 | unsigned int blocksize; | ||
151 | unsigned int padding; | ||
152 | __u64 ino; | ||
153 | __u64 blocks; | ||
154 | __u64 rdev; | ||
155 | __u64 size; | ||
156 | __u64 version; | ||
157 | }; | ||
158 | |||
159 | It effectively mirrors stat(2) returned data. | ||
160 | |||
161 | |||
162 | @ext - path length to the object. | ||
163 | @size - the same plus size of the netfs_inode_info structure. | ||
164 | @id - local inode number. | ||
165 | @start - 0. | ||
166 | |||
167 | |||
168 | @NETFS_PAGE_CACHE | ||
169 | Command is only received by clients. It contains information about | ||
170 | page to be marked as not up-to-date. | ||
171 | |||
172 | @id - client's inode number. | ||
173 | @start - last byte of the page to be invalidated. If it is not equal to | ||
174 | current inode size, it will be vmtruncated(). | ||
175 | @size - 0 | ||
176 | @ext - 0 | ||
177 | |||
178 | |||
179 | @NETFS_READ_PAGES | ||
180 | Used to read multiple contiguous pages in one go. | ||
181 | |||
182 | @start - first byte of the contiguous region to read. | ||
183 | @size - contains of two fields: lower 8 bits are used to represent page cache shift | ||
184 | used by client, another 3 bytes are used to get number of pages. | ||
185 | @id - local inode number. | ||
186 | @ext - path length to the object. | ||
187 | |||
188 | |||
189 | @NETFS_RENAME | ||
190 | Used to rename object. | ||
191 | Attached data is formed into following string: "old_path|new_path". | ||
192 | |||
193 | @id - local inode number. | ||
194 | @start - parent inode number. | ||
195 | @size - length of the above string. | ||
196 | @ext - length of the old path part. | ||
197 | |||
198 | |||
199 | @NETFS_CAPABILITIES | ||
200 | Used to exchange crypto capabilities with server. | ||
201 | If crypto capabilities are not supported by server, then client will disable it | ||
202 | or fail (if 'crypto_fail_unsupported' mount options was specified). | ||
203 | |||
204 | @id - superblock index. Used to specify crypto information for group of servers. | ||
205 | @size - size of the attached capabilities structure. | ||
206 | @start - 0. | ||
207 | @size - 0. | ||
208 | @scsize - 0. | ||
209 | |||
210 | @NETFS_LOCK | ||
211 | Used to send lock request/release messages. Although it sends byte range request | ||
212 | and is capable of flushing pages based on that, it is not used, since all Linux | ||
213 | filesystems lock the whole inode. | ||
214 | |||
215 | @id - lock generation number. | ||
216 | @start - start of the locked range. | ||
217 | @size - size of the locked range. | ||
218 | @ext - lock type: read/write. Not used actually. 15'th bit is used to determine, | ||
219 | if it is lock request (1) or release (0). | ||
220 | |||
221 | @NETFS_XATTR_SET | ||
222 | @NETFS_XATTR_GET | ||
223 | Used to set/get extended attributes for given inode. | ||
224 | @id - attribute generation number or xattr setting type | ||
225 | @start - size of the attribute (request or attached) | ||
226 | @size - name length, path len and data size for given attribute | ||
227 | @ext - path length for given object | ||
diff --git a/Documentation/filesystems/vfs.txt b/Documentation/filesystems/vfs.txt index deeeed0faa8f..f49eecf2e573 100644 --- a/Documentation/filesystems/vfs.txt +++ b/Documentation/filesystems/vfs.txt | |||
@@ -277,8 +277,7 @@ or bottom half). | |||
277 | unfreeze_fs: called when VFS is unlocking a filesystem and making it writable | 277 | unfreeze_fs: called when VFS is unlocking a filesystem and making it writable |
278 | again. | 278 | again. |
279 | 279 | ||
280 | statfs: called when the VFS needs to get filesystem statistics. This | 280 | statfs: called when the VFS needs to get filesystem statistics. |
281 | is called with the kernel lock held | ||
282 | 281 | ||
283 | remount_fs: called when the filesystem is remounted. This is called | 282 | remount_fs: called when the filesystem is remounted. This is called |
284 | with the kernel lock held | 283 | with the kernel lock held |
diff --git a/Documentation/hwmon/g760a b/Documentation/hwmon/g760a new file mode 100644 index 000000000000..e032eeb75629 --- /dev/null +++ b/Documentation/hwmon/g760a | |||
@@ -0,0 +1,36 @@ | |||
1 | Kernel driver g760a | ||
2 | =================== | ||
3 | |||
4 | Supported chips: | ||
5 | * Global Mixed-mode Technology Inc. G760A | ||
6 | Prefix: 'g760a' | ||
7 | Datasheet: Publicly available at the GMT website | ||
8 | http://www.gmt.com.tw/datasheet/g760a.pdf | ||
9 | |||
10 | Author: Herbert Valerio Riedel <hvr@gnu.org> | ||
11 | |||
12 | Description | ||
13 | ----------- | ||
14 | |||
15 | The GMT G760A Fan Speed PWM Controller is connected directly to a fan | ||
16 | and performs closed-loop control of the fan speed. | ||
17 | |||
18 | The fan speed is programmed by setting the period via 'pwm1' of two | ||
19 | consecutive speed pulses. The period is defined in terms of clock | ||
20 | cycle counts of an assumed 32kHz clock source. | ||
21 | |||
22 | Setting a period of 0 stops the fan; setting the period to 255 sets | ||
23 | fan to maximum speed. | ||
24 | |||
25 | The measured fan rotation speed returned via 'fan1_input' is derived | ||
26 | from the measured speed pulse period by assuming again a 32kHz clock | ||
27 | source and a 2 pulse-per-revolution fan. | ||
28 | |||
29 | The 'alarms' file provides access to the two alarm bits provided by | ||
30 | the G760A chip's status register: Bit 0 is set when the actual fan | ||
31 | speed differs more than 20% with respect to the programmed fan speed; | ||
32 | bit 1 is set when fan speed is below 1920 RPM. | ||
33 | |||
34 | The g760a driver will not update its values more frequently than every | ||
35 | other second; reading them more often will do no harm, but will return | ||
36 | 'old' values. | ||
diff --git a/Documentation/infiniband/ipoib.txt b/Documentation/infiniband/ipoib.txt index 864ff3283780..6d40f00b358c 100644 --- a/Documentation/infiniband/ipoib.txt +++ b/Documentation/infiniband/ipoib.txt | |||
@@ -24,6 +24,49 @@ Partitions and P_Keys | |||
24 | The P_Key for any interface is given by the "pkey" file, and the | 24 | The P_Key for any interface is given by the "pkey" file, and the |
25 | main interface for a subinterface is in "parent." | 25 | main interface for a subinterface is in "parent." |
26 | 26 | ||
27 | Datagram vs Connected modes | ||
28 | |||
29 | The IPoIB driver supports two modes of operation: datagram and | ||
30 | connected. The mode is set and read through an interface's | ||
31 | /sys/class/net/<intf name>/mode file. | ||
32 | |||
33 | In datagram mode, the IB UD (Unreliable Datagram) transport is used | ||
34 | and so the interface MTU has is equal to the IB L2 MTU minus the | ||
35 | IPoIB encapsulation header (4 bytes). For example, in a typical IB | ||
36 | fabric with a 2K MTU, the IPoIB MTU will be 2048 - 4 = 2044 bytes. | ||
37 | |||
38 | In connected mode, the IB RC (Reliable Connected) transport is used. | ||
39 | Connected mode is to takes advantage of the connected nature of the | ||
40 | IB transport and allows an MTU up to the maximal IP packet size of | ||
41 | 64K, which reduces the number of IP packets needed for handling | ||
42 | large UDP datagrams, TCP segments, etc and increases the performance | ||
43 | for large messages. | ||
44 | |||
45 | In connected mode, the interface's UD QP is still used for multicast | ||
46 | and communication with peers that don't support connected mode. In | ||
47 | this case, RX emulation of ICMP PMTU packets is used to cause the | ||
48 | networking stack to use the smaller UD MTU for these neighbours. | ||
49 | |||
50 | Stateless offloads | ||
51 | |||
52 | If the IB HW supports IPoIB stateless offloads, IPoIB advertises | ||
53 | TCP/IP checksum and/or Large Send (LSO) offloading capability to the | ||
54 | network stack. | ||
55 | |||
56 | Large Receive (LRO) offloading is also implemented and may be turned | ||
57 | on/off using ethtool calls. Currently LRO is supported only for | ||
58 | checksum offload capable devices. | ||
59 | |||
60 | Stateless offloads are supported only in datagram mode. | ||
61 | |||
62 | Interrupt moderation | ||
63 | |||
64 | If the underlying IB device supports CQ event moderation, one can | ||
65 | use ethtool to set interrupt mitigation parameters and thus reduce | ||
66 | the overhead incurred by handling interrupts. The main code path of | ||
67 | IPoIB doesn't use events for TX completion signaling so only RX | ||
68 | moderation is supported. | ||
69 | |||
27 | Debugging Information | 70 | Debugging Information |
28 | 71 | ||
29 | By compiling the IPoIB driver with CONFIG_INFINIBAND_IPOIB_DEBUG set | 72 | By compiling the IPoIB driver with CONFIG_INFINIBAND_IPOIB_DEBUG set |
@@ -55,3 +98,5 @@ References | |||
55 | http://ietf.org/rfc/rfc4391.txt | 98 | http://ietf.org/rfc/rfc4391.txt |
56 | IP over InfiniBand (IPoIB) Architecture (RFC 4392) | 99 | IP over InfiniBand (IPoIB) Architecture (RFC 4392) |
57 | http://ietf.org/rfc/rfc4392.txt | 100 | http://ietf.org/rfc/rfc4392.txt |
101 | IP over InfiniBand: Connected Mode (RFC 4755) | ||
102 | http://ietf.org/rfc/rfc4755.txt | ||
diff --git a/Documentation/input/bcm5974.txt b/Documentation/input/bcm5974.txt new file mode 100644 index 000000000000..5e22dcf6d48d --- /dev/null +++ b/Documentation/input/bcm5974.txt | |||
@@ -0,0 +1,65 @@ | |||
1 | BCM5974 Driver (bcm5974) | ||
2 | ------------------------ | ||
3 | Copyright (C) 2008-2009 Henrik Rydberg <rydberg@euromail.se> | ||
4 | |||
5 | The USB initialization and package decoding was made by Scott Shawcroft as | ||
6 | part of the touchd user-space driver project: | ||
7 | Copyright (C) 2008 Scott Shawcroft (scott.shawcroft@gmail.com) | ||
8 | |||
9 | The BCM5974 driver is based on the appletouch driver: | ||
10 | Copyright (C) 2001-2004 Greg Kroah-Hartman (greg@kroah.com) | ||
11 | Copyright (C) 2005 Johannes Berg (johannes@sipsolutions.net) | ||
12 | Copyright (C) 2005 Stelian Pop (stelian@popies.net) | ||
13 | Copyright (C) 2005 Frank Arnold (frank@scirocco-5v-turbo.de) | ||
14 | Copyright (C) 2005 Peter Osterlund (petero2@telia.com) | ||
15 | Copyright (C) 2005 Michael Hanselmann (linux-kernel@hansmi.ch) | ||
16 | Copyright (C) 2006 Nicolas Boichat (nicolas@boichat.ch) | ||
17 | |||
18 | This driver adds support for the multi-touch trackpad on the new Apple | ||
19 | Macbook Air and Macbook Pro laptops. It replaces the appletouch driver on | ||
20 | those computers, and integrates well with the synaptics driver of the Xorg | ||
21 | system. | ||
22 | |||
23 | Known to work on Macbook Air, Macbook Pro Penryn and the new unibody | ||
24 | Macbook 5 and Macbook Pro 5. | ||
25 | |||
26 | Usage | ||
27 | ----- | ||
28 | |||
29 | The driver loads automatically for the supported usb device ids, and | ||
30 | becomes available both as an event device (/dev/input/event*) and as a | ||
31 | mouse via the mousedev driver (/dev/input/mice). | ||
32 | |||
33 | USB Race | ||
34 | -------- | ||
35 | |||
36 | The Apple multi-touch trackpads report both mouse and keyboard events via | ||
37 | different interfaces of the same usb device. This creates a race condition | ||
38 | with the HID driver, which, if not told otherwise, will find the standard | ||
39 | HID mouse and keyboard, and claim the whole device. To remedy, the usb | ||
40 | product id must be listed in the mouse_ignore list of the hid driver. | ||
41 | |||
42 | Debug output | ||
43 | ------------ | ||
44 | |||
45 | To ease the development for new hardware version, verbose packet output can | ||
46 | be switched on with the debug kernel module parameter. The range [1-9] | ||
47 | yields different levels of verbosity. Example (as root): | ||
48 | |||
49 | echo -n 9 > /sys/module/bcm5974/parameters/debug | ||
50 | |||
51 | tail -f /var/log/debug | ||
52 | |||
53 | echo -n 0 > /sys/module/bcm5974/parameters/debug | ||
54 | |||
55 | Trivia | ||
56 | ------ | ||
57 | |||
58 | The driver was developed at the ubuntu forums in June 2008 [1], and now has | ||
59 | a more permanent home at bitmath.org [2]. | ||
60 | |||
61 | Links | ||
62 | ----- | ||
63 | |||
64 | [1] http://ubuntuforums.org/showthread.php?t=840040 | ||
65 | [2] http://http://bitmath.org/code/ | ||
diff --git a/Documentation/input/multi-touch-protocol.txt b/Documentation/input/multi-touch-protocol.txt new file mode 100644 index 000000000000..9f09557aea39 --- /dev/null +++ b/Documentation/input/multi-touch-protocol.txt | |||
@@ -0,0 +1,140 @@ | |||
1 | Multi-touch (MT) Protocol | ||
2 | ------------------------- | ||
3 | Copyright (C) 2009 Henrik Rydberg <rydberg@euromail.se> | ||
4 | |||
5 | |||
6 | Introduction | ||
7 | ------------ | ||
8 | |||
9 | In order to utilize the full power of the new multi-touch devices, a way to | ||
10 | report detailed finger data to user space is needed. This document | ||
11 | describes the multi-touch (MT) protocol which allows kernel drivers to | ||
12 | report details for an arbitrary number of fingers. | ||
13 | |||
14 | |||
15 | Usage | ||
16 | ----- | ||
17 | |||
18 | Anonymous finger details are sent sequentially as separate packets of ABS | ||
19 | events. Only the ABS_MT events are recognized as part of a finger | ||
20 | packet. The end of a packet is marked by calling the input_mt_sync() | ||
21 | function, which generates a SYN_MT_REPORT event. The end of multi-touch | ||
22 | transfer is marked by calling the usual input_sync() function. | ||
23 | |||
24 | A set of ABS_MT events with the desired properties is defined. The events | ||
25 | are divided into categories, to allow for partial implementation. The | ||
26 | minimum set consists of ABS_MT_TOUCH_MAJOR, ABS_MT_POSITION_X and | ||
27 | ABS_MT_POSITION_Y, which allows for multiple fingers to be tracked. If the | ||
28 | device supports it, the ABS_MT_WIDTH_MAJOR may be used to provide the size | ||
29 | of the approaching finger. Anisotropy and direction may be specified with | ||
30 | ABS_MT_TOUCH_MINOR, ABS_MT_WIDTH_MINOR and ABS_MT_ORIENTATION. Devices with | ||
31 | more granular information may specify general shapes as blobs, i.e., as a | ||
32 | sequence of rectangular shapes grouped together by an | ||
33 | ABS_MT_BLOB_ID. Finally, the ABS_MT_TOOL_TYPE may be used to specify | ||
34 | whether the touching tool is a finger or a pen or something else. | ||
35 | |||
36 | |||
37 | Event Semantics | ||
38 | --------------- | ||
39 | |||
40 | The word "contact" is used to describe a tool which is in direct contact | ||
41 | with the surface. A finger, a pen or a rubber all classify as contacts. | ||
42 | |||
43 | ABS_MT_TOUCH_MAJOR | ||
44 | |||
45 | The length of the major axis of the contact. The length should be given in | ||
46 | surface units. If the surface has an X times Y resolution, the largest | ||
47 | possible value of ABS_MT_TOUCH_MAJOR is sqrt(X^2 + Y^2), the diagonal. | ||
48 | |||
49 | ABS_MT_TOUCH_MINOR | ||
50 | |||
51 | The length, in surface units, of the minor axis of the contact. If the | ||
52 | contact is circular, this event can be omitted. | ||
53 | |||
54 | ABS_MT_WIDTH_MAJOR | ||
55 | |||
56 | The length, in surface units, of the major axis of the approaching | ||
57 | tool. This should be understood as the size of the tool itself. The | ||
58 | orientation of the contact and the approaching tool are assumed to be the | ||
59 | same. | ||
60 | |||
61 | ABS_MT_WIDTH_MINOR | ||
62 | |||
63 | The length, in surface units, of the minor axis of the approaching | ||
64 | tool. Omit if circular. | ||
65 | |||
66 | The above four values can be used to derive additional information about | ||
67 | the contact. The ratio ABS_MT_TOUCH_MAJOR / ABS_MT_WIDTH_MAJOR approximates | ||
68 | the notion of pressure. The fingers of the hand and the palm all have | ||
69 | different characteristic widths [1]. | ||
70 | |||
71 | ABS_MT_ORIENTATION | ||
72 | |||
73 | The orientation of the ellipse. The value should describe half a revolution | ||
74 | clockwise around the touch center. The scale of the value is arbitrary, but | ||
75 | zero should be returned for an ellipse aligned along the Y axis of the | ||
76 | surface. As an example, an index finger placed straight onto the axis could | ||
77 | return zero orientation, something negative when twisted to the left, and | ||
78 | something positive when twisted to the right. This value can be omitted if | ||
79 | the touching object is circular, or if the information is not available in | ||
80 | the kernel driver. | ||
81 | |||
82 | ABS_MT_POSITION_X | ||
83 | |||
84 | The surface X coordinate of the center of the touching ellipse. | ||
85 | |||
86 | ABS_MT_POSITION_Y | ||
87 | |||
88 | The surface Y coordinate of the center of the touching ellipse. | ||
89 | |||
90 | ABS_MT_TOOL_TYPE | ||
91 | |||
92 | The type of approaching tool. A lot of kernel drivers cannot distinguish | ||
93 | between different tool types, such as a finger or a pen. In such cases, the | ||
94 | event should be omitted. The protocol currently supports MT_TOOL_FINGER and | ||
95 | MT_TOOL_PEN [2]. | ||
96 | |||
97 | ABS_MT_BLOB_ID | ||
98 | |||
99 | The BLOB_ID groups several packets together into one arbitrarily shaped | ||
100 | contact. This is a low-level anonymous grouping, and should not be confused | ||
101 | with the high-level contactID, explained below. Most kernel drivers will | ||
102 | not have this capability, and can safely omit the event. | ||
103 | |||
104 | |||
105 | Finger Tracking | ||
106 | --------------- | ||
107 | |||
108 | The kernel driver should generate an arbitrary enumeration of the set of | ||
109 | anonymous contacts currently on the surface. The order in which the packets | ||
110 | appear in the event stream is not important. | ||
111 | |||
112 | The process of finger tracking, i.e., to assign a unique contactID to each | ||
113 | initiated contact on the surface, is left to user space; preferably the | ||
114 | multi-touch X driver [3]. In that driver, the contactID stays the same and | ||
115 | unique until the contact vanishes (when the finger leaves the surface). The | ||
116 | problem of assigning a set of anonymous fingers to a set of identified | ||
117 | fingers is a euclidian bipartite matching problem at each event update, and | ||
118 | relies on a sufficiently rapid update rate. | ||
119 | |||
120 | Notes | ||
121 | ----- | ||
122 | |||
123 | In order to stay compatible with existing applications, the data | ||
124 | reported in a finger packet must not be recognized as single-touch | ||
125 | events. In addition, all finger data must bypass input filtering, | ||
126 | since subsequent events of the same type refer to different fingers. | ||
127 | |||
128 | The first kernel driver to utilize the MT protocol is the bcm5974 driver, | ||
129 | where examples can be found. | ||
130 | |||
131 | [1] With the extension ABS_MT_APPROACH_X and ABS_MT_APPROACH_Y, the | ||
132 | difference between the contact position and the approaching tool position | ||
133 | could be used to derive tilt. | ||
134 | [2] The list can of course be extended. | ||
135 | [3] The multi-touch X driver is currently in the prototyping stage. At the | ||
136 | time of writing (April 2009), the MT protocol is not yet merged, and the | ||
137 | prototype implements finger matching, basic mouse support and two-finger | ||
138 | scrolling. The project aims at improving the quality of current multi-touch | ||
139 | functionality available in the synaptics X driver, and in addition | ||
140 | implement more advanced gestures. | ||
diff --git a/Documentation/input/rotary-encoder.txt b/Documentation/input/rotary-encoder.txt new file mode 100644 index 000000000000..435102a26d96 --- /dev/null +++ b/Documentation/input/rotary-encoder.txt | |||
@@ -0,0 +1,101 @@ | |||
1 | rotary-encoder - a generic driver for GPIO connected devices | ||
2 | Daniel Mack <daniel@caiaq.de>, Feb 2009 | ||
3 | |||
4 | 0. Function | ||
5 | ----------- | ||
6 | |||
7 | Rotary encoders are devices which are connected to the CPU or other | ||
8 | peripherals with two wires. The outputs are phase-shifted by 90 degrees | ||
9 | and by triggering on falling and rising edges, the turn direction can | ||
10 | be determined. | ||
11 | |||
12 | The phase diagram of these two outputs look like this: | ||
13 | |||
14 | _____ _____ _____ | ||
15 | | | | | | | | ||
16 | Channel A ____| |_____| |_____| |____ | ||
17 | |||
18 | : : : : : : : : : : : : | ||
19 | __ _____ _____ _____ | ||
20 | | | | | | | | | ||
21 | Channel B |_____| |_____| |_____| |__ | ||
22 | |||
23 | : : : : : : : : : : : : | ||
24 | Event a b c d a b c d a b c d | ||
25 | |||
26 | |<-------->| | ||
27 | one step | ||
28 | |||
29 | |||
30 | For more information, please see | ||
31 | http://en.wikipedia.org/wiki/Rotary_encoder | ||
32 | |||
33 | |||
34 | 1. Events / state machine | ||
35 | ------------------------- | ||
36 | |||
37 | a) Rising edge on channel A, channel B in low state | ||
38 | This state is used to recognize a clockwise turn | ||
39 | |||
40 | b) Rising edge on channel B, channel A in high state | ||
41 | When entering this state, the encoder is put into 'armed' state, | ||
42 | meaning that there it has seen half the way of a one-step transition. | ||
43 | |||
44 | c) Falling edge on channel A, channel B in high state | ||
45 | This state is used to recognize a counter-clockwise turn | ||
46 | |||
47 | d) Falling edge on channel B, channel A in low state | ||
48 | Parking position. If the encoder enters this state, a full transition | ||
49 | should have happend, unless it flipped back on half the way. The | ||
50 | 'armed' state tells us about that. | ||
51 | |||
52 | 2. Platform requirements | ||
53 | ------------------------ | ||
54 | |||
55 | As there is no hardware dependent call in this driver, the platform it is | ||
56 | used with must support gpiolib. Another requirement is that IRQs must be | ||
57 | able to fire on both edges. | ||
58 | |||
59 | |||
60 | 3. Board integration | ||
61 | -------------------- | ||
62 | |||
63 | To use this driver in your system, register a platform_device with the | ||
64 | name 'rotary-encoder' and associate the IRQs and some specific platform | ||
65 | data with it. | ||
66 | |||
67 | struct rotary_encoder_platform_data is declared in | ||
68 | include/linux/rotary-encoder.h and needs to be filled with the number of | ||
69 | steps the encoder has and can carry information about externally inverted | ||
70 | signals (because of used invertig buffer or other reasons). | ||
71 | |||
72 | Because GPIO to IRQ mapping is platform specific, this information must | ||
73 | be given in seperately to the driver. See the example below. | ||
74 | |||
75 | ---------<snip>--------- | ||
76 | |||
77 | /* board support file example */ | ||
78 | |||
79 | #include <linux/input.h> | ||
80 | #include <linux/rotary_encoder.h> | ||
81 | |||
82 | #define GPIO_ROTARY_A 1 | ||
83 | #define GPIO_ROTARY_B 2 | ||
84 | |||
85 | static struct rotary_encoder_platform_data my_rotary_encoder_info = { | ||
86 | .steps = 24, | ||
87 | .axis = ABS_X, | ||
88 | .gpio_a = GPIO_ROTARY_A, | ||
89 | .gpio_b = GPIO_ROTARY_B, | ||
90 | .inverted_a = 0, | ||
91 | .inverted_b = 0, | ||
92 | }; | ||
93 | |||
94 | static struct platform_device rotary_encoder_device = { | ||
95 | .name = "rotary-encoder", | ||
96 | .id = 0, | ||
97 | .dev = { | ||
98 | .platform_data = &my_rotary_encoder_info, | ||
99 | } | ||
100 | }; | ||
101 | |||
diff --git a/Documentation/isdn/00-INDEX b/Documentation/isdn/00-INDEX index 9fee5f2e5c62..5a2d69989a8c 100644 --- a/Documentation/isdn/00-INDEX +++ b/Documentation/isdn/00-INDEX | |||
@@ -2,8 +2,14 @@ | |||
2 | - this file (info on ISDN implementation for Linux) | 2 | - this file (info on ISDN implementation for Linux) |
3 | CREDITS | 3 | CREDITS |
4 | - list of the kind folks that brought you this stuff. | 4 | - list of the kind folks that brought you this stuff. |
5 | HiSax.cert | ||
6 | - information about the ITU approval certification of the HiSax driver. | ||
5 | INTERFACE | 7 | INTERFACE |
6 | - description of Linklevel and Hardwarelevel ISDN interface. | 8 | - description of isdn4linux Link Level and Hardware Level interfaces. |
9 | INTERFACE.fax | ||
10 | - description of the fax subinterface of isdn4linux. | ||
11 | INTERFACE.CAPI | ||
12 | - description of kernel CAPI Link Level to Hardware Level interface. | ||
7 | README | 13 | README |
8 | - general info on what you need and what to do for Linux ISDN. | 14 | - general info on what you need and what to do for Linux ISDN. |
9 | README.FAQ | 15 | README.FAQ |
@@ -12,6 +18,8 @@ README.audio | |||
12 | - info for running audio over ISDN. | 18 | - info for running audio over ISDN. |
13 | README.fax | 19 | README.fax |
14 | - info for using Fax over ISDN. | 20 | - info for using Fax over ISDN. |
21 | README.gigaset | ||
22 | - info on the drivers for Siemens Gigaset ISDN adapters. | ||
15 | README.icn | 23 | README.icn |
16 | - info on the ICN-ISDN-card and its driver. | 24 | - info on the ICN-ISDN-card and its driver. |
17 | README.HiSax | 25 | README.HiSax |
@@ -37,7 +45,8 @@ README.diversion | |||
37 | README.sc | 45 | README.sc |
38 | - info on driver for Spellcaster cards. | 46 | - info on driver for Spellcaster cards. |
39 | README.x25 | 47 | README.x25 |
40 | _ info for running X.25 over ISDN. | 48 | - info for running X.25 over ISDN. |
41 | README.hysdn | 49 | README.hysdn |
42 | - info on driver for Hypercope active HYSDN cards | 50 | - info on driver for Hypercope active HYSDN cards |
43 | 51 | README.mISDN | |
52 | - info on the Modular ISDN subsystem (mISDN). | ||
diff --git a/Documentation/isdn/INTERFACE.CAPI b/Documentation/isdn/INTERFACE.CAPI new file mode 100644 index 000000000000..786d619b36e5 --- /dev/null +++ b/Documentation/isdn/INTERFACE.CAPI | |||
@@ -0,0 +1,213 @@ | |||
1 | Kernel CAPI Interface to Hardware Drivers | ||
2 | ----------------------------------------- | ||
3 | |||
4 | 1. Overview | ||
5 | |||
6 | From the CAPI 2.0 specification: | ||
7 | COMMON-ISDN-API (CAPI) is an application programming interface standard used | ||
8 | to access ISDN equipment connected to basic rate interfaces (BRI) and primary | ||
9 | rate interfaces (PRI). | ||
10 | |||
11 | Kernel CAPI operates as a dispatching layer between CAPI applications and CAPI | ||
12 | hardware drivers. Hardware drivers register ISDN devices (controllers, in CAPI | ||
13 | lingo) with Kernel CAPI to indicate their readiness to provide their service | ||
14 | to CAPI applications. CAPI applications also register with Kernel CAPI, | ||
15 | requesting association with a CAPI device. Kernel CAPI then dispatches the | ||
16 | application registration to an available device, forwarding it to the | ||
17 | corresponding hardware driver. Kernel CAPI then forwards CAPI messages in both | ||
18 | directions between the application and the hardware driver. | ||
19 | |||
20 | Format and semantics of CAPI messages are specified in the CAPI 2.0 standard. | ||
21 | This standard is freely available from http://www.capi.org. | ||
22 | |||
23 | |||
24 | 2. Driver and Device Registration | ||
25 | |||
26 | CAPI drivers optionally register themselves with Kernel CAPI by calling the | ||
27 | Kernel CAPI function register_capi_driver() with a pointer to a struct | ||
28 | capi_driver. This structure must be filled with the name and revision of the | ||
29 | driver, and optionally a pointer to a callback function, add_card(). The | ||
30 | registration can be revoked by calling the function unregister_capi_driver() | ||
31 | with a pointer to the same struct capi_driver. | ||
32 | |||
33 | CAPI drivers must register each of the ISDN devices they control with Kernel | ||
34 | CAPI by calling the Kernel CAPI function attach_capi_ctr() with a pointer to a | ||
35 | struct capi_ctr before they can be used. This structure must be filled with | ||
36 | the names of the driver and controller, and a number of callback function | ||
37 | pointers which are subsequently used by Kernel CAPI for communicating with the | ||
38 | driver. The registration can be revoked by calling the function | ||
39 | detach_capi_ctr() with a pointer to the same struct capi_ctr. | ||
40 | |||
41 | Before the device can be actually used, the driver must fill in the device | ||
42 | information fields 'manu', 'version', 'profile' and 'serial' in the capi_ctr | ||
43 | structure of the device, and signal its readiness by calling capi_ctr_ready(). | ||
44 | From then on, Kernel CAPI may call the registered callback functions for the | ||
45 | device. | ||
46 | |||
47 | If the device becomes unusable for any reason (shutdown, disconnect ...), the | ||
48 | driver has to call capi_ctr_reseted(). This will prevent further calls to the | ||
49 | callback functions by Kernel CAPI. | ||
50 | |||
51 | |||
52 | 3. Application Registration and Communication | ||
53 | |||
54 | Kernel CAPI forwards registration requests from applications (calls to CAPI | ||
55 | operation CAPI_REGISTER) to an appropriate hardware driver by calling its | ||
56 | register_appl() callback function. A unique Application ID (ApplID, u16) is | ||
57 | allocated by Kernel CAPI and passed to register_appl() along with the | ||
58 | parameter structure provided by the application. This is analogous to the | ||
59 | open() operation on regular files or character devices. | ||
60 | |||
61 | After a successful return from register_appl(), CAPI messages from the | ||
62 | application may be passed to the driver for the device via calls to the | ||
63 | send_message() callback function. The CAPI message to send is stored in the | ||
64 | data portion of an skb. Conversely, the driver may call Kernel CAPI's | ||
65 | capi_ctr_handle_message() function to pass a received CAPI message to Kernel | ||
66 | CAPI for forwarding to an application, specifying its ApplID. | ||
67 | |||
68 | Deregistration requests (CAPI operation CAPI_RELEASE) from applications are | ||
69 | forwarded as calls to the release_appl() callback function, passing the same | ||
70 | ApplID as with register_appl(). After return from release_appl(), no CAPI | ||
71 | messages for that application may be passed to or from the device anymore. | ||
72 | |||
73 | |||
74 | 4. Data Structures | ||
75 | |||
76 | 4.1 struct capi_driver | ||
77 | |||
78 | This structure describes a Kernel CAPI driver itself. It is used in the | ||
79 | register_capi_driver() and unregister_capi_driver() functions, and contains | ||
80 | the following non-private fields, all to be set by the driver before calling | ||
81 | register_capi_driver(): | ||
82 | |||
83 | char name[32] | ||
84 | the name of the driver, as a zero-terminated ASCII string | ||
85 | char revision[32] | ||
86 | the revision number of the driver, as a zero-terminated ASCII string | ||
87 | int (*add_card)(struct capi_driver *driver, capicardparams *data) | ||
88 | a callback function pointer (may be NULL) | ||
89 | |||
90 | |||
91 | 4.2 struct capi_ctr | ||
92 | |||
93 | This structure describes an ISDN device (controller) handled by a Kernel CAPI | ||
94 | driver. After registration via the attach_capi_ctr() function it is passed to | ||
95 | all controller specific lower layer interface and callback functions to | ||
96 | identify the controller to operate on. | ||
97 | |||
98 | It contains the following non-private fields: | ||
99 | |||
100 | - to be set by the driver before calling attach_capi_ctr(): | ||
101 | |||
102 | struct module *owner | ||
103 | pointer to the driver module owning the device | ||
104 | |||
105 | void *driverdata | ||
106 | an opaque pointer to driver specific data, not touched by Kernel CAPI | ||
107 | |||
108 | char name[32] | ||
109 | the name of the controller, as a zero-terminated ASCII string | ||
110 | |||
111 | char *driver_name | ||
112 | the name of the driver, as a zero-terminated ASCII string | ||
113 | |||
114 | int (*load_firmware)(struct capi_ctr *ctrlr, capiloaddata *ldata) | ||
115 | (optional) pointer to a callback function for sending firmware and | ||
116 | configuration data to the device | ||
117 | |||
118 | void (*reset_ctr)(struct capi_ctr *ctrlr) | ||
119 | pointer to a callback function for performing a reset on the device, | ||
120 | releasing all registered applications | ||
121 | |||
122 | void (*register_appl)(struct capi_ctr *ctrlr, u16 applid, | ||
123 | capi_register_params *rparam) | ||
124 | void (*release_appl)(struct capi_ctr *ctrlr, u16 applid) | ||
125 | pointers to callback functions for registration and deregistration of | ||
126 | applications with the device | ||
127 | |||
128 | u16 (*send_message)(struct capi_ctr *ctrlr, struct sk_buff *skb) | ||
129 | pointer to a callback function for sending a CAPI message to the | ||
130 | device | ||
131 | |||
132 | char *(*procinfo)(struct capi_ctr *ctrlr) | ||
133 | pointer to a callback function returning the entry for the device in | ||
134 | the CAPI controller info table, /proc/capi/controller | ||
135 | |||
136 | read_proc_t *ctr_read_proc | ||
137 | pointer to the read_proc callback function for the device's proc file | ||
138 | system entry, /proc/capi/controllers/<n>; will be called with a | ||
139 | pointer to the device's capi_ctr structure as the last (data) argument | ||
140 | |||
141 | - to be filled in before calling capi_ctr_ready(): | ||
142 | |||
143 | u8 manu[CAPI_MANUFACTURER_LEN] | ||
144 | value to return for CAPI_GET_MANUFACTURER | ||
145 | |||
146 | capi_version version | ||
147 | value to return for CAPI_GET_VERSION | ||
148 | |||
149 | capi_profile profile | ||
150 | value to return for CAPI_GET_PROFILE | ||
151 | |||
152 | u8 serial[CAPI_SERIAL_LEN] | ||
153 | value to return for CAPI_GET_SERIAL | ||
154 | |||
155 | |||
156 | 5. Lower Layer Interface Functions | ||
157 | |||
158 | (declared in <linux/isdn/capilli.h>) | ||
159 | |||
160 | void register_capi_driver(struct capi_driver *drvr) | ||
161 | void unregister_capi_driver(struct capi_driver *drvr) | ||
162 | register/unregister a driver with Kernel CAPI | ||
163 | |||
164 | int attach_capi_ctr(struct capi_ctr *ctrlr) | ||
165 | int detach_capi_ctr(struct capi_ctr *ctrlr) | ||
166 | register/unregister a device (controller) with Kernel CAPI | ||
167 | |||
168 | void capi_ctr_ready(struct capi_ctr *ctrlr) | ||
169 | void capi_ctr_reseted(struct capi_ctr *ctrlr) | ||
170 | signal controller ready/not ready | ||
171 | |||
172 | void capi_ctr_suspend_output(struct capi_ctr *ctrlr) | ||
173 | void capi_ctr_resume_output(struct capi_ctr *ctrlr) | ||
174 | signal suspend/resume | ||
175 | |||
176 | void capi_ctr_handle_message(struct capi_ctr * ctrlr, u16 applid, | ||
177 | struct sk_buff *skb) | ||
178 | pass a received CAPI message to Kernel CAPI | ||
179 | for forwarding to the specified application | ||
180 | |||
181 | |||
182 | 6. Helper Functions and Macros | ||
183 | |||
184 | Library functions (from <linux/isdn/capilli.h>): | ||
185 | |||
186 | void capilib_new_ncci(struct list_head *head, u16 applid, | ||
187 | u32 ncci, u32 winsize) | ||
188 | void capilib_free_ncci(struct list_head *head, u16 applid, u32 ncci) | ||
189 | void capilib_release_appl(struct list_head *head, u16 applid) | ||
190 | void capilib_release(struct list_head *head) | ||
191 | void capilib_data_b3_conf(struct list_head *head, u16 applid, | ||
192 | u32 ncci, u16 msgid) | ||
193 | u16 capilib_data_b3_req(struct list_head *head, u16 applid, | ||
194 | u32 ncci, u16 msgid) | ||
195 | |||
196 | |||
197 | Macros to extract/set element values from/in a CAPI message header | ||
198 | (from <linux/isdn/capiutil.h>): | ||
199 | |||
200 | Get Macro Set Macro Element (Type) | ||
201 | |||
202 | CAPIMSG_LEN(m) CAPIMSG_SETLEN(m, len) Total Length (u16) | ||
203 | CAPIMSG_APPID(m) CAPIMSG_SETAPPID(m, applid) ApplID (u16) | ||
204 | CAPIMSG_COMMAND(m) CAPIMSG_SETCOMMAND(m,cmd) Command (u8) | ||
205 | CAPIMSG_SUBCOMMAND(m) CAPIMSG_SETSUBCOMMAND(m, cmd) Subcommand (u8) | ||
206 | CAPIMSG_CMD(m) - Command*256 | ||
207 | + Subcommand (u16) | ||
208 | CAPIMSG_MSGID(m) CAPIMSG_SETMSGID(m, msgid) Message Number (u16) | ||
209 | |||
210 | CAPIMSG_CONTROL(m) CAPIMSG_SETCONTROL(m, contr) Controller/PLCI/NCCI | ||
211 | (u32) | ||
212 | CAPIMSG_DATALEN(m) CAPIMSG_SETDATALEN(m, len) Data Length (u16) | ||
213 | |||
diff --git a/Documentation/isdn/README.gigaset b/Documentation/isdn/README.gigaset index 55b2852904a4..02c0e9341dd8 100644 --- a/Documentation/isdn/README.gigaset +++ b/Documentation/isdn/README.gigaset | |||
@@ -61,24 +61,28 @@ GigaSet 307x Device Driver | |||
61 | --------------------- | 61 | --------------------- |
62 | 2.1. Modules | 62 | 2.1. Modules |
63 | ------- | 63 | ------- |
64 | To get the device working, you have to load the proper kernel module. You | 64 | For the devices to work, the proper kernel modules have to be loaded. |
65 | can do this using | 65 | This normally happens automatically when the system detects the USB |
66 | modprobe modulename | 66 | device (base, M105) or when the line discipline is attached (M101). It |
67 | where modulename is ser_gigaset (M101), usb_gigaset (M105), or | 67 | can also be triggered manually using the modprobe(8) command, for example |
68 | bas_gigaset (direct USB connection to the base). | 68 | for troubleshooting or to pass module parameters. |
69 | 69 | ||
70 | The module ser_gigaset provides a serial line discipline N_GIGASET_M101 | 70 | The module ser_gigaset provides a serial line discipline N_GIGASET_M101 |
71 | which drives the device through the regular serial line driver. To use it, | 71 | which drives the device through the regular serial line driver. It must |
72 | run the Gigaset M101 daemon "gigasetm101d" (also available from | 72 | be attached to the serial line to which the M101 is connected with the |
73 | http://sourceforge.net/projects/gigaset307x/) with the device file of the | 73 | ldattach(8) command (requires util-linux-ng release 2.14 or later), for |
74 | RS232 port to the M101 as an argument, for example: | 74 | example: |
75 | gigasetm101d /dev/ttyS1 | 75 | ldattach GIGASET_M101 /dev/ttyS1 |
76 | This will open the device file, set its line discipline to N_GIGASET_M101, | 76 | This will open the device file, attach the line discipline to it, and |
77 | and then sleep in the background, keeping the device open so that the | 77 | then sleep in the background, keeping the device open so that the line |
78 | line discipline remains active. To deactivate it, kill the daemon, for | 78 | discipline remains active. To deactivate it, kill the daemon, for example |
79 | example with | 79 | with |
80 | killall gigasetm101d | 80 | killall ldattach |
81 | before disconnecting the device. | 81 | before disconnecting the device. To have this happen automatically at |
82 | system startup/shutdown on an LSB compatible system, create and activate | ||
83 | an appropriate LSB startup script /etc/init.d/gigaset. (The init name | ||
84 | 'gigaset' is officially assigned to this project by LANANA.) | ||
85 | Alternatively, just add the 'ldattach' command line to /etc/rc.local. | ||
82 | 86 | ||
83 | 2.2. Device nodes for user space programs | 87 | 2.2. Device nodes for user space programs |
84 | ------------------------------------ | 88 | ------------------------------------ |
@@ -194,10 +198,11 @@ GigaSet 307x Device Driver | |||
194 | operation (for wireless access to the base), but are needed for access | 198 | operation (for wireless access to the base), but are needed for access |
195 | to the M105's own configuration mode (registration to the base, baudrate | 199 | to the M105's own configuration mode (registration to the base, baudrate |
196 | and line format settings, device status queries) via the gigacontr | 200 | and line format settings, device status queries) via the gigacontr |
197 | utility. Their use is disabled in the driver by default for safety | 201 | utility. Their use is controlled by the kernel configuration option |
198 | reasons but can be enabled by setting the kernel configuration option | 202 | "Support for undocumented USB requests" (CONFIG_GIGASET_UNDOCREQ). If you |
199 | "Support for undocumented USB requests" (GIGASET_UNDOCREQ) to "Y" and | 203 | encounter error code -ENOTTY when trying to use some features of the |
200 | recompiling. | 204 | M105, try setting that option to "y" via 'make {x,menu}config' and |
205 | recompiling the driver. | ||
201 | 206 | ||
202 | 207 | ||
203 | 3. Troubleshooting | 208 | 3. Troubleshooting |
@@ -228,6 +233,13 @@ GigaSet 307x Device Driver | |||
228 | Solution: | 233 | Solution: |
229 | Select Unimodem mode for all DECT data adapters. (see section 2.4.) | 234 | Select Unimodem mode for all DECT data adapters. (see section 2.4.) |
230 | 235 | ||
236 | Problem: | ||
237 | You want to configure your USB DECT data adapter (M105) but gigacontr | ||
238 | reports an error: "/dev/ttyGU0: Inappropriate ioctl for device". | ||
239 | Solution: | ||
240 | Recompile the usb_gigaset driver with the kernel configuration option | ||
241 | CONFIG_GIGASET_UNDOCREQ set to 'y'. (see section 2.6.) | ||
242 | |||
231 | 3.2. Telling the driver to provide more information | 243 | 3.2. Telling the driver to provide more information |
232 | ---------------------------------------------- | 244 | ---------------------------------------------- |
233 | Building the driver with the "Gigaset debugging" kernel configuration | 245 | Building the driver with the "Gigaset debugging" kernel configuration |
diff --git a/Documentation/kbuild/makefiles.txt b/Documentation/kbuild/makefiles.txt index 51104f9194a5..d76cfd8712e1 100644 --- a/Documentation/kbuild/makefiles.txt +++ b/Documentation/kbuild/makefiles.txt | |||
@@ -40,10 +40,16 @@ This document describes the Linux kernel Makefiles. | |||
40 | --- 6.7 Custom kbuild commands | 40 | --- 6.7 Custom kbuild commands |
41 | --- 6.8 Preprocessing linker scripts | 41 | --- 6.8 Preprocessing linker scripts |
42 | 42 | ||
43 | === 7 Kbuild Variables | 43 | === 7 Kbuild syntax for exported headers |
44 | === 8 Makefile language | 44 | --- 7.1 header-y |
45 | === 9 Credits | 45 | --- 7.2 objhdr-y |
46 | === 10 TODO | 46 | --- 7.3 destination-y |
47 | --- 7.4 unifdef-y (deprecated) | ||
48 | |||
49 | === 8 Kbuild Variables | ||
50 | === 9 Makefile language | ||
51 | === 10 Credits | ||
52 | === 11 TODO | ||
47 | 53 | ||
48 | === 1 Overview | 54 | === 1 Overview |
49 | 55 | ||
@@ -310,6 +316,16 @@ more details, with real examples. | |||
310 | #arch/m68k/fpsp040/Makefile | 316 | #arch/m68k/fpsp040/Makefile |
311 | ldflags-y := -x | 317 | ldflags-y := -x |
312 | 318 | ||
319 | subdir-ccflags-y, subdir-asflags-y | ||
320 | The two flags listed above are similar to ccflags-y and as-falgs-y. | ||
321 | The difference is that the subdir- variants has effect for the kbuild | ||
322 | file where tey are present and all subdirectories. | ||
323 | Options specified using subdir-* are added to the commandline before | ||
324 | the options specified using the non-subdir variants. | ||
325 | |||
326 | Example: | ||
327 | subdir-ccflags-y := -Werror | ||
328 | |||
313 | CFLAGS_$@, AFLAGS_$@ | 329 | CFLAGS_$@, AFLAGS_$@ |
314 | 330 | ||
315 | CFLAGS_$@ and AFLAGS_$@ only apply to commands in current | 331 | CFLAGS_$@ and AFLAGS_$@ only apply to commands in current |
@@ -1143,8 +1159,69 @@ When kbuild executes, the following steps are followed (roughly): | |||
1143 | The kbuild infrastructure for *lds file are used in several | 1159 | The kbuild infrastructure for *lds file are used in several |
1144 | architecture-specific files. | 1160 | architecture-specific files. |
1145 | 1161 | ||
1162 | === 7 Kbuild syntax for exported headers | ||
1163 | |||
1164 | The kernel include a set of headers that is exported to userspace. | ||
1165 | Many headers can be exported as-is but other headers requires a | ||
1166 | minimal pre-processing before they are ready for user-space. | ||
1167 | The pre-processing does: | ||
1168 | - drop kernel specific annotations | ||
1169 | - drop include of compiler.h | ||
1170 | - drop all sections that is kernel internat (guarded by ifdef __KERNEL__) | ||
1171 | |||
1172 | Each relevant directory contain a file name "Kbuild" which specify the | ||
1173 | headers to be exported. | ||
1174 | See subsequent chapter for the syntax of the Kbuild file. | ||
1175 | |||
1176 | --- 7.1 header-y | ||
1177 | |||
1178 | header-y specify header files to be exported. | ||
1179 | |||
1180 | Example: | ||
1181 | #include/linux/Kbuild | ||
1182 | header-y += usb/ | ||
1183 | header-y += aio_abi.h | ||
1184 | |||
1185 | The convention is to list one file per line and | ||
1186 | preferably in alphabetic order. | ||
1187 | |||
1188 | header-y also specify which subdirectories to visit. | ||
1189 | A subdirectory is identified by a trailing '/' which | ||
1190 | can be seen in the example above for the usb subdirectory. | ||
1191 | |||
1192 | Subdirectories are visited before their parent directories. | ||
1193 | |||
1194 | --- 7.2 objhdr-y | ||
1195 | |||
1196 | objhdr-y specifies generated files to be exported. | ||
1197 | Generated files are special as they need to be looked | ||
1198 | up in another directory when doing 'make O=...' builds. | ||
1199 | |||
1200 | Example: | ||
1201 | #include/linux/Kbuild | ||
1202 | objhdr-y += version.h | ||
1203 | |||
1204 | --- 7.3 destination-y | ||
1205 | |||
1206 | When an architecture have a set of exported headers that needs to be | ||
1207 | exported to a different directory destination-y is used. | ||
1208 | destination-y specify the destination directory for all exported | ||
1209 | headers in the file where it is present. | ||
1210 | |||
1211 | Example: | ||
1212 | #arch/xtensa/platforms/s6105/include/platform/Kbuild | ||
1213 | destination-y := include/linux | ||
1214 | |||
1215 | In the example above all exported headers in the Kbuild file | ||
1216 | will be located in the directory "include/linux" when exported. | ||
1217 | |||
1218 | |||
1219 | --- 7.4 unifdef-y (deprecated) | ||
1220 | |||
1221 | unifdef-y is deprecated. A direct replacement is header-y. | ||
1222 | |||
1146 | 1223 | ||
1147 | === 7 Kbuild Variables | 1224 | === 8 Kbuild Variables |
1148 | 1225 | ||
1149 | The top Makefile exports the following variables: | 1226 | The top Makefile exports the following variables: |
1150 | 1227 | ||
@@ -1206,7 +1283,7 @@ The top Makefile exports the following variables: | |||
1206 | INSTALL_MOD_STRIP will used as the option(s) to the strip command. | 1283 | INSTALL_MOD_STRIP will used as the option(s) to the strip command. |
1207 | 1284 | ||
1208 | 1285 | ||
1209 | === 8 Makefile language | 1286 | === 9 Makefile language |
1210 | 1287 | ||
1211 | The kernel Makefiles are designed to be run with GNU Make. The Makefiles | 1288 | The kernel Makefiles are designed to be run with GNU Make. The Makefiles |
1212 | use only the documented features of GNU Make, but they do use many | 1289 | use only the documented features of GNU Make, but they do use many |
@@ -1225,14 +1302,14 @@ time the left-hand side is used. | |||
1225 | There are some cases where "=" is appropriate. Usually, though, ":=" | 1302 | There are some cases where "=" is appropriate. Usually, though, ":=" |
1226 | is the right choice. | 1303 | is the right choice. |
1227 | 1304 | ||
1228 | === 9 Credits | 1305 | === 10 Credits |
1229 | 1306 | ||
1230 | Original version made by Michael Elizabeth Chastain, <mailto:mec@shout.net> | 1307 | Original version made by Michael Elizabeth Chastain, <mailto:mec@shout.net> |
1231 | Updates by Kai Germaschewski <kai@tp1.ruhr-uni-bochum.de> | 1308 | Updates by Kai Germaschewski <kai@tp1.ruhr-uni-bochum.de> |
1232 | Updates by Sam Ravnborg <sam@ravnborg.org> | 1309 | Updates by Sam Ravnborg <sam@ravnborg.org> |
1233 | Language QA by Jan Engelhardt <jengelh@gmx.de> | 1310 | Language QA by Jan Engelhardt <jengelh@gmx.de> |
1234 | 1311 | ||
1235 | === 10 TODO | 1312 | === 11 TODO |
1236 | 1313 | ||
1237 | - Describe how kbuild supports shipped files with _shipped. | 1314 | - Describe how kbuild supports shipped files with _shipped. |
1238 | - Generating offset header files. | 1315 | - Generating offset header files. |
diff --git a/Documentation/kernel-doc-nano-HOWTO.txt b/Documentation/kernel-doc-nano-HOWTO.txt index 026ec7d57384..4d04572b6549 100644 --- a/Documentation/kernel-doc-nano-HOWTO.txt +++ b/Documentation/kernel-doc-nano-HOWTO.txt | |||
@@ -269,7 +269,10 @@ Use the argument mechanism to document members or constants. | |||
269 | 269 | ||
270 | Inside a struct description, you can use the "private:" and "public:" | 270 | Inside a struct description, you can use the "private:" and "public:" |
271 | comment tags. Structure fields that are inside a "private:" area | 271 | comment tags. Structure fields that are inside a "private:" area |
272 | are not listed in the generated output documentation. | 272 | are not listed in the generated output documentation. The "private:" |
273 | and "public:" tags must begin immediately following a "/*" comment | ||
274 | marker. They may optionally include comments between the ":" and the | ||
275 | ending "*/" marker. | ||
273 | 276 | ||
274 | Example: | 277 | Example: |
275 | 278 | ||
@@ -283,7 +286,7 @@ Example: | |||
283 | struct my_struct { | 286 | struct my_struct { |
284 | int a; | 287 | int a; |
285 | int b; | 288 | int b; |
286 | /* private: */ | 289 | /* private: internal use only */ |
287 | int c; | 290 | int c; |
288 | }; | 291 | }; |
289 | 292 | ||
diff --git a/Documentation/kernel-parameters.txt b/Documentation/kernel-parameters.txt index 421920897a37..e87bdbfbcc75 100644 --- a/Documentation/kernel-parameters.txt +++ b/Documentation/kernel-parameters.txt | |||
@@ -17,6 +17,12 @@ are specified on the kernel command line with the module name plus | |||
17 | 17 | ||
18 | usbcore.blinkenlights=1 | 18 | usbcore.blinkenlights=1 |
19 | 19 | ||
20 | Hyphens (dashes) and underscores are equivalent in parameter names, so | ||
21 | log_buf_len=1M print-fatal-signals=1 | ||
22 | can also be entered as | ||
23 | log-buf-len=1M print_fatal_signals=1 | ||
24 | |||
25 | |||
20 | This document may not be entirely up to date and comprehensive. The command | 26 | This document may not be entirely up to date and comprehensive. The command |
21 | "modinfo -p ${modulename}" shows a current list of all parameters of a loadable | 27 | "modinfo -p ${modulename}" shows a current list of all parameters of a loadable |
22 | module. Loadable modules, after being loaded into the running kernel, also | 28 | module. Loadable modules, after being loaded into the running kernel, also |
@@ -50,6 +56,7 @@ parameter is applicable: | |||
50 | ISAPNP ISA PnP code is enabled. | 56 | ISAPNP ISA PnP code is enabled. |
51 | ISDN Appropriate ISDN support is enabled. | 57 | ISDN Appropriate ISDN support is enabled. |
52 | JOY Appropriate joystick support is enabled. | 58 | JOY Appropriate joystick support is enabled. |
59 | KMEMTRACE kmemtrace is enabled. | ||
53 | LIBATA Libata driver is enabled | 60 | LIBATA Libata driver is enabled |
54 | LP Printer support is enabled. | 61 | LP Printer support is enabled. |
55 | LOOP Loopback device support is enabled. | 62 | LOOP Loopback device support is enabled. |
@@ -133,7 +140,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
133 | ./include/asm/setup.h as COMMAND_LINE_SIZE. | 140 | ./include/asm/setup.h as COMMAND_LINE_SIZE. |
134 | 141 | ||
135 | 142 | ||
136 | acpi= [HW,ACPI,X86-64,i386] | 143 | acpi= [HW,ACPI,X86] |
137 | Advanced Configuration and Power Interface | 144 | Advanced Configuration and Power Interface |
138 | Format: { force | off | ht | strict | noirq | rsdt } | 145 | Format: { force | off | ht | strict | noirq | rsdt } |
139 | force -- enable ACPI if default was off | 146 | force -- enable ACPI if default was off |
@@ -152,60 +159,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
152 | 1,0: use 1st APIC table | 159 | 1,0: use 1st APIC table |
153 | default: 0 | 160 | default: 0 |
154 | 161 | ||
155 | acpi_sleep= [HW,ACPI] Sleep options | ||
156 | Format: { s3_bios, s3_mode, s3_beep, s4_nohwsig, | ||
157 | old_ordering, s4_nonvs } | ||
158 | See Documentation/power/video.txt for information on | ||
159 | s3_bios and s3_mode. | ||
160 | s3_beep is for debugging; it makes the PC's speaker beep | ||
161 | as soon as the kernel's real-mode entry point is called. | ||
162 | s4_nohwsig prevents ACPI hardware signature from being | ||
163 | used during resume from hibernation. | ||
164 | old_ordering causes the ACPI 1.0 ordering of the _PTS | ||
165 | control method, with respect to putting devices into | ||
166 | low power states, to be enforced (the ACPI 2.0 ordering | ||
167 | of _PTS is used by default). | ||
168 | s4_nonvs prevents the kernel from saving/restoring the | ||
169 | ACPI NVS memory during hibernation. | ||
170 | |||
171 | acpi_sci= [HW,ACPI] ACPI System Control Interrupt trigger mode | ||
172 | Format: { level | edge | high | low } | ||
173 | |||
174 | acpi_irq_balance [HW,ACPI] | ||
175 | ACPI will balance active IRQs | ||
176 | default in APIC mode | ||
177 | |||
178 | acpi_irq_nobalance [HW,ACPI] | ||
179 | ACPI will not move active IRQs (default) | ||
180 | default in PIC mode | ||
181 | |||
182 | acpi_irq_pci= [HW,ACPI] If irq_balance, clear listed IRQs for | ||
183 | use by PCI | ||
184 | Format: <irq>,<irq>... | ||
185 | |||
186 | acpi_irq_isa= [HW,ACPI] If irq_balance, mark listed IRQs used by ISA | ||
187 | Format: <irq>,<irq>... | ||
188 | |||
189 | acpi_no_auto_ssdt [HW,ACPI] Disable automatic loading of SSDT | ||
190 | |||
191 | acpi_os_name= [HW,ACPI] Tell ACPI BIOS the name of the OS | ||
192 | Format: To spoof as Windows 98: ="Microsoft Windows" | ||
193 | |||
194 | acpi_osi= [HW,ACPI] Modify list of supported OS interface strings | ||
195 | acpi_osi="string1" # add string1 -- only one string | ||
196 | acpi_osi="!string2" # remove built-in string2 | ||
197 | acpi_osi= # disable all strings | ||
198 | |||
199 | acpi_serialize [HW,ACPI] force serialization of AML methods | ||
200 | |||
201 | acpi_skip_timer_override [HW,ACPI] | ||
202 | Recognize and ignore IRQ0/pin2 Interrupt Override. | ||
203 | For broken nForce2 BIOS resulting in XT-PIC timer. | ||
204 | acpi_use_timer_override [HW,ACPI] | ||
205 | Use timer override. For some broken Nvidia NF5 boards | ||
206 | that require a timer override, but don't have | ||
207 | HPET | ||
208 | |||
209 | acpi_backlight= [HW,ACPI] | 162 | acpi_backlight= [HW,ACPI] |
210 | acpi_backlight=vendor | 163 | acpi_backlight=vendor |
211 | acpi_backlight=video | 164 | acpi_backlight=video |
@@ -213,11 +166,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
213 | (e.g. thinkpad_acpi, sony_acpi, etc.) instead | 166 | (e.g. thinkpad_acpi, sony_acpi, etc.) instead |
214 | of the ACPI video.ko driver. | 167 | of the ACPI video.ko driver. |
215 | 168 | ||
216 | acpi_display_output= [HW,ACPI] | ||
217 | acpi_display_output=vendor | ||
218 | acpi_display_output=video | ||
219 | See above. | ||
220 | |||
221 | acpi.debug_layer= [HW,ACPI,ACPI_DEBUG] | 169 | acpi.debug_layer= [HW,ACPI,ACPI_DEBUG] |
222 | acpi.debug_level= [HW,ACPI,ACPI_DEBUG] | 170 | acpi.debug_level= [HW,ACPI,ACPI_DEBUG] |
223 | Format: <int> | 171 | Format: <int> |
@@ -246,6 +194,41 @@ and is between 256 and 4096 characters. It is defined in the file | |||
246 | unusable. The "log_buf_len" parameter may be useful | 194 | unusable. The "log_buf_len" parameter may be useful |
247 | if you need to capture more output. | 195 | if you need to capture more output. |
248 | 196 | ||
197 | acpi_display_output= [HW,ACPI] | ||
198 | acpi_display_output=vendor | ||
199 | acpi_display_output=video | ||
200 | See above. | ||
201 | |||
202 | acpi_irq_balance [HW,ACPI] | ||
203 | ACPI will balance active IRQs | ||
204 | default in APIC mode | ||
205 | |||
206 | acpi_irq_nobalance [HW,ACPI] | ||
207 | ACPI will not move active IRQs (default) | ||
208 | default in PIC mode | ||
209 | |||
210 | acpi_irq_isa= [HW,ACPI] If irq_balance, mark listed IRQs used by ISA | ||
211 | Format: <irq>,<irq>... | ||
212 | |||
213 | acpi_irq_pci= [HW,ACPI] If irq_balance, clear listed IRQs for | ||
214 | use by PCI | ||
215 | Format: <irq>,<irq>... | ||
216 | |||
217 | acpi_no_auto_ssdt [HW,ACPI] Disable automatic loading of SSDT | ||
218 | |||
219 | acpi_os_name= [HW,ACPI] Tell ACPI BIOS the name of the OS | ||
220 | Format: To spoof as Windows 98: ="Microsoft Windows" | ||
221 | |||
222 | acpi_osi= [HW,ACPI] Modify list of supported OS interface strings | ||
223 | acpi_osi="string1" # add string1 -- only one string | ||
224 | acpi_osi="!string2" # remove built-in string2 | ||
225 | acpi_osi= # disable all strings | ||
226 | |||
227 | acpi_pm_good [X86] | ||
228 | Override the pmtimer bug detection: force the kernel | ||
229 | to assume that this machine's pmtimer latches its value | ||
230 | and always returns good values. | ||
231 | |||
249 | acpi.power_nocheck= [HW,ACPI] | 232 | acpi.power_nocheck= [HW,ACPI] |
250 | Format: 1/0 enable/disable the check of power state. | 233 | Format: 1/0 enable/disable the check of power state. |
251 | On some bogus BIOS the _PSC object/_STA object of | 234 | On some bogus BIOS the _PSC object/_STA object of |
@@ -254,30 +237,57 @@ and is between 256 and 4096 characters. It is defined in the file | |||
254 | power state again in power transition. | 237 | power state again in power transition. |
255 | 1 : disable the power state check | 238 | 1 : disable the power state check |
256 | 239 | ||
257 | acpi_pm_good [X86-32,X86-64] | 240 | acpi_sci= [HW,ACPI] ACPI System Control Interrupt trigger mode |
258 | Override the pmtimer bug detection: force the kernel | 241 | Format: { level | edge | high | low } |
259 | to assume that this machine's pmtimer latches its value | ||
260 | and always returns good values. | ||
261 | 242 | ||
262 | agp= [AGP] | 243 | acpi_serialize [HW,ACPI] force serialization of AML methods |
263 | { off | try_unsupported } | ||
264 | off: disable AGP support | ||
265 | try_unsupported: try to drive unsupported chipsets | ||
266 | (may crash computer or cause data corruption) | ||
267 | 244 | ||
268 | enable_timer_pin_1 [i386,x86-64] | 245 | acpi_skip_timer_override [HW,ACPI] |
269 | Enable PIN 1 of APIC timer | 246 | Recognize and ignore IRQ0/pin2 Interrupt Override. |
270 | Can be useful to work around chipset bugs | 247 | For broken nForce2 BIOS resulting in XT-PIC timer. |
271 | (in particular on some ATI chipsets). | ||
272 | The kernel tries to set a reasonable default. | ||
273 | 248 | ||
274 | disable_timer_pin_1 [i386,x86-64] | 249 | acpi_sleep= [HW,ACPI] Sleep options |
275 | Disable PIN 1 of APIC timer | 250 | Format: { s3_bios, s3_mode, s3_beep, s4_nohwsig, |
276 | Can be useful to work around chipset bugs. | 251 | old_ordering, s4_nonvs } |
252 | See Documentation/power/video.txt for information on | ||
253 | s3_bios and s3_mode. | ||
254 | s3_beep is for debugging; it makes the PC's speaker beep | ||
255 | as soon as the kernel's real-mode entry point is called. | ||
256 | s4_nohwsig prevents ACPI hardware signature from being | ||
257 | used during resume from hibernation. | ||
258 | old_ordering causes the ACPI 1.0 ordering of the _PTS | ||
259 | control method, with respect to putting devices into | ||
260 | low power states, to be enforced (the ACPI 2.0 ordering | ||
261 | of _PTS is used by default). | ||
262 | s4_nonvs prevents the kernel from saving/restoring the | ||
263 | ACPI NVS memory during hibernation. | ||
264 | |||
265 | acpi_use_timer_override [HW,ACPI] | ||
266 | Use timer override. For some broken Nvidia NF5 boards | ||
267 | that require a timer override, but don't have HPET | ||
268 | |||
269 | acpi_enforce_resources= [ACPI] | ||
270 | { strict | lax | no } | ||
271 | Check for resource conflicts between native drivers | ||
272 | and ACPI OperationRegions (SystemIO and SystemMemory | ||
273 | only). IO ports and memory declared in ACPI might be | ||
274 | used by the ACPI subsystem in arbitrary AML code and | ||
275 | can interfere with legacy drivers. | ||
276 | strict (default): access to resources claimed by ACPI | ||
277 | is denied; legacy drivers trying to access reserved | ||
278 | resources will fail to bind to device using them. | ||
279 | lax: access to resources claimed by ACPI is allowed; | ||
280 | legacy drivers trying to access reserved resources | ||
281 | will bind successfully but a warning message is logged. | ||
282 | no: ACPI OperationRegions are not marked as reserved, | ||
283 | no further checks are performed. | ||
277 | 284 | ||
278 | ad1848= [HW,OSS] | 285 | ad1848= [HW,OSS] |
279 | Format: <io>,<irq>,<dma>,<dma2>,<type> | 286 | Format: <io>,<irq>,<dma>,<dma2>,<type> |
280 | 287 | ||
288 | add_efi_memmap [EFI; X86] Include EFI memory map in | ||
289 | kernel's map of available physical RAM. | ||
290 | |||
281 | advansys= [HW,SCSI] | 291 | advansys= [HW,SCSI] |
282 | See header of drivers/scsi/advansys.c. | 292 | See header of drivers/scsi/advansys.c. |
283 | 293 | ||
@@ -288,6 +298,12 @@ and is between 256 and 4096 characters. It is defined in the file | |||
288 | Format: <io>,<irq>,<dma>,<mss_io>,<mpu_io>,<mpu_irq> | 298 | Format: <io>,<irq>,<dma>,<mss_io>,<mpu_io>,<mpu_irq> |
289 | See also header of sound/oss/aedsp16.c. | 299 | See also header of sound/oss/aedsp16.c. |
290 | 300 | ||
301 | agp= [AGP] | ||
302 | { off | try_unsupported } | ||
303 | off: disable AGP support | ||
304 | try_unsupported: try to drive unsupported chipsets | ||
305 | (may crash computer or cause data corruption) | ||
306 | |||
291 | aha152x= [HW,SCSI] | 307 | aha152x= [HW,SCSI] |
292 | See Documentation/scsi/aha152x.txt. | 308 | See Documentation/scsi/aha152x.txt. |
293 | 309 | ||
@@ -335,7 +351,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
335 | not play well with APC CPU idle - disable it if you have | 351 | not play well with APC CPU idle - disable it if you have |
336 | APC and your system crashes randomly. | 352 | APC and your system crashes randomly. |
337 | 353 | ||
338 | apic= [APIC,i386] Advanced Programmable Interrupt Controller | 354 | apic= [APIC,X86-32] Advanced Programmable Interrupt Controller |
339 | Change the output verbosity whilst booting | 355 | Change the output verbosity whilst booting |
340 | Format: { quiet (default) | verbose | debug } | 356 | Format: { quiet (default) | verbose | debug } |
341 | Change the amount of debugging information output | 357 | Change the amount of debugging information output |
@@ -415,12 +431,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
415 | possible to determine what the correct size should be. | 431 | possible to determine what the correct size should be. |
416 | This option provides an override for these situations. | 432 | This option provides an override for these situations. |
417 | 433 | ||
418 | security= [SECURITY] Choose a security module to enable at boot. | ||
419 | If this boot parameter is not specified, only the first | ||
420 | security module asking for security registration will be | ||
421 | loaded. An invalid security module name will be treated | ||
422 | as if no module has been chosen. | ||
423 | |||
424 | capability.disable= | 434 | capability.disable= |
425 | [SECURITY] Disable capabilities. This would normally | 435 | [SECURITY] Disable capabilities. This would normally |
426 | be used only if an alternative security model is to be | 436 | be used only if an alternative security model is to be |
@@ -487,29 +497,11 @@ and is between 256 and 4096 characters. It is defined in the file | |||
487 | Also note the kernel might malfunction if you disable | 497 | Also note the kernel might malfunction if you disable |
488 | some critical bits. | 498 | some critical bits. |
489 | 499 | ||
490 | code_bytes [IA32/X86_64] How many bytes of object code to print | 500 | code_bytes [X86] How many bytes of object code to print |
491 | in an oops report. | 501 | in an oops report. |
492 | Range: 0 - 8192 | 502 | Range: 0 - 8192 |
493 | Default: 64 | 503 | Default: 64 |
494 | 504 | ||
495 | dma_debug=off If the kernel is compiled with DMA_API_DEBUG support | ||
496 | this option disables the debugging code at boot. | ||
497 | |||
498 | dma_debug_entries=<number> | ||
499 | This option allows to tune the number of preallocated | ||
500 | entries for DMA-API debugging code. One entry is | ||
501 | required per DMA-API allocation. Use this if the | ||
502 | DMA-API debugging code disables itself because the | ||
503 | architectural default is too low. | ||
504 | |||
505 | hpet= [X86-32,HPET] option to control HPET usage | ||
506 | Format: { enable (default) | disable | force | | ||
507 | verbose } | ||
508 | disable: disable HPET and use PIT instead | ||
509 | force: allow force enabled of undocumented chips (ICH4, | ||
510 | VIA, nVidia) | ||
511 | verbose: show contents of HPET registers during setup | ||
512 | |||
513 | com20020= [HW,NET] ARCnet - COM20020 chipset | 505 | com20020= [HW,NET] ARCnet - COM20020 chipset |
514 | Format: | 506 | Format: |
515 | <io>[,<irq>[,<nodeID>[,<backplane>[,<ckp>[,<timeout>]]]]] | 507 | <io>[,<irq>[,<nodeID>[,<backplane>[,<ckp>[,<timeout>]]]]] |
@@ -553,23 +545,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
553 | console=brl,ttyS0 | 545 | console=brl,ttyS0 |
554 | For now, only VisioBraille is supported. | 546 | For now, only VisioBraille is supported. |
555 | 547 | ||
556 | earlycon= [KNL] Output early console device and options. | ||
557 | uart[8250],io,<addr>[,options] | ||
558 | uart[8250],mmio,<addr>[,options] | ||
559 | Start an early, polled-mode console on the 8250/16550 | ||
560 | UART at the specified I/O port or MMIO address. | ||
561 | The options are the same as for ttyS, above. | ||
562 | |||
563 | no_console_suspend | ||
564 | [HW] Never suspend the console | ||
565 | Disable suspending of consoles during suspend and | ||
566 | hibernate operations. Once disabled, debugging | ||
567 | messages can reach various consoles while the rest | ||
568 | of the system is being put to sleep (ie, while | ||
569 | debugging driver suspend/resume hooks). This may | ||
570 | not work reliably with all consoles, but is known | ||
571 | to work with serial and VGA consoles. | ||
572 | |||
573 | coredump_filter= | 548 | coredump_filter= |
574 | [KNL] Change the default value for | 549 | [KNL] Change the default value for |
575 | /proc/<pid>/coredump_filter. | 550 | /proc/<pid>/coredump_filter. |
@@ -617,36 +592,22 @@ and is between 256 and 4096 characters. It is defined in the file | |||
617 | 592 | ||
618 | debug_objects [KNL] Enable object debugging | 593 | debug_objects [KNL] Enable object debugging |
619 | 594 | ||
595 | no_debug_objects | ||
596 | [KNL] Disable object debugging | ||
597 | |||
620 | debugpat [X86] Enable PAT debugging | 598 | debugpat [X86] Enable PAT debugging |
621 | 599 | ||
622 | decnet.addr= [HW,NET] | 600 | decnet.addr= [HW,NET] |
623 | Format: <area>[,<node>] | 601 | Format: <area>[,<node>] |
624 | See also Documentation/networking/decnet.txt. | 602 | See also Documentation/networking/decnet.txt. |
625 | 603 | ||
626 | vt.default_blu= [VT] | 604 | default_hugepagesz= |
627 | Format: <blue0>,<blue1>,<blue2>,...,<blue15> | 605 | [same as hugepagesz=] The size of the default |
628 | Change the default blue palette of the console. | 606 | HugeTLB page size. This is the size represented by |
629 | This is a 16-member array composed of values | 607 | the legacy /proc/ hugepages APIs, used for SHM, and |
630 | ranging from 0-255. | 608 | default size when mounting hugetlbfs filesystems. |
631 | 609 | Defaults to the default architecture's huge page size | |
632 | vt.default_grn= [VT] | 610 | if not specified. |
633 | Format: <green0>,<green1>,<green2>,...,<green15> | ||
634 | Change the default green palette of the console. | ||
635 | This is a 16-member array composed of values | ||
636 | ranging from 0-255. | ||
637 | |||
638 | vt.default_red= [VT] | ||
639 | Format: <red0>,<red1>,<red2>,...,<red15> | ||
640 | Change the default red palette of the console. | ||
641 | This is a 16-member array composed of values | ||
642 | ranging from 0-255. | ||
643 | |||
644 | vt.default_utf8= | ||
645 | [VT] | ||
646 | Format=<0|1> | ||
647 | Set system-wide default UTF-8 mode for all tty's. | ||
648 | Default is 1, i.e. UTF-8 mode is enabled for all | ||
649 | newly opened terminals. | ||
650 | 611 | ||
651 | dhash_entries= [KNL] | 612 | dhash_entries= [KNL] |
652 | Set number of hash buckets for dentry cache. | 613 | Set number of hash buckets for dentry cache. |
@@ -659,27 +620,9 @@ and is between 256 and 4096 characters. It is defined in the file | |||
659 | Documentation/serial/digiepca.txt. | 620 | Documentation/serial/digiepca.txt. |
660 | 621 | ||
661 | disable_mtrr_cleanup [X86] | 622 | disable_mtrr_cleanup [X86] |
662 | enable_mtrr_cleanup [X86] | ||
663 | The kernel tries to adjust MTRR layout from continuous | 623 | The kernel tries to adjust MTRR layout from continuous |
664 | to discrete, to make X server driver able to add WB | 624 | to discrete, to make X server driver able to add WB |
665 | entry later. This parameter enables/disables that. | 625 | entry later. This parameter disables that. |
666 | |||
667 | mtrr_chunk_size=nn[KMG] [X86] | ||
668 | used for mtrr cleanup. It is largest continous chunk | ||
669 | that could hold holes aka. UC entries. | ||
670 | |||
671 | mtrr_gran_size=nn[KMG] [X86] | ||
672 | Used for mtrr cleanup. It is granularity of mtrr block. | ||
673 | Default is 1. | ||
674 | Large value could prevent small alignment from | ||
675 | using up MTRRs. | ||
676 | |||
677 | mtrr_spare_reg_nr=n [X86] | ||
678 | Format: <integer> | ||
679 | Range: 0,7 : spare reg number | ||
680 | Default : 1 | ||
681 | Used for mtrr cleanup. It is spare mtrr entries number. | ||
682 | Set to 2 or more if your graphical card needs more. | ||
683 | 626 | ||
684 | disable_mtrr_trim [X86, Intel and AMD only] | 627 | disable_mtrr_trim [X86, Intel and AMD only] |
685 | By default the kernel will trim any uncacheable | 628 | By default the kernel will trim any uncacheable |
@@ -687,13 +630,39 @@ and is between 256 and 4096 characters. It is defined in the file | |||
687 | MTRR settings. This parameter disables that behavior, | 630 | MTRR settings. This parameter disables that behavior, |
688 | possibly causing your machine to run very slowly. | 631 | possibly causing your machine to run very slowly. |
689 | 632 | ||
633 | disable_timer_pin_1 [X86] | ||
634 | Disable PIN 1 of APIC timer | ||
635 | Can be useful to work around chipset bugs. | ||
636 | |||
690 | dmasound= [HW,OSS] Sound subsystem buffers | 637 | dmasound= [HW,OSS] Sound subsystem buffers |
691 | 638 | ||
639 | dma_debug=off If the kernel is compiled with DMA_API_DEBUG support, | ||
640 | this option disables the debugging code at boot. | ||
641 | |||
642 | dma_debug_entries=<number> | ||
643 | This option allows to tune the number of preallocated | ||
644 | entries for DMA-API debugging code. One entry is | ||
645 | required per DMA-API allocation. Use this if the | ||
646 | DMA-API debugging code disables itself because the | ||
647 | architectural default is too low. | ||
648 | |||
692 | dscc4.setup= [NET] | 649 | dscc4.setup= [NET] |
693 | 650 | ||
694 | dtc3181e= [HW,SCSI] | 651 | dtc3181e= [HW,SCSI] |
695 | 652 | ||
696 | earlyprintk= [X86-32,X86-64,SH,BLACKFIN] | 653 | dynamic_printk Enables pr_debug()/dev_dbg() calls if |
654 | CONFIG_DYNAMIC_PRINTK_DEBUG has been enabled. | ||
655 | These can also be switched on/off via | ||
656 | <debugfs>/dynamic_printk/modules | ||
657 | |||
658 | earlycon= [KNL] Output early console device and options. | ||
659 | uart[8250],io,<addr>[,options] | ||
660 | uart[8250],mmio,<addr>[,options] | ||
661 | Start an early, polled-mode console on the 8250/16550 | ||
662 | UART at the specified I/O port or MMIO address. | ||
663 | The options are the same as for ttyS, above. | ||
664 | |||
665 | earlyprintk= [X86,SH,BLACKFIN] | ||
697 | earlyprintk=vga | 666 | earlyprintk=vga |
698 | earlyprintk=serial[,ttySn[,baudrate]] | 667 | earlyprintk=serial[,ttySn[,baudrate]] |
699 | earlyprintk=dbgp | 668 | earlyprintk=dbgp |
@@ -728,12 +697,23 @@ and is between 256 and 4096 characters. It is defined in the file | |||
728 | See Documentation/block/as-iosched.txt and | 697 | See Documentation/block/as-iosched.txt and |
729 | Documentation/block/deadline-iosched.txt for details. | 698 | Documentation/block/deadline-iosched.txt for details. |
730 | 699 | ||
731 | elfcorehdr= [IA64,PPC,SH,X86-32,X86_64] | 700 | elfcorehdr= [IA64,PPC,SH,X86] |
732 | Specifies physical address of start of kernel core | 701 | Specifies physical address of start of kernel core |
733 | image elf header. Generally kexec loader will | 702 | image elf header. Generally kexec loader will |
734 | pass this option to capture kernel. | 703 | pass this option to capture kernel. |
735 | See Documentation/kdump/kdump.txt for details. | 704 | See Documentation/kdump/kdump.txt for details. |
736 | 705 | ||
706 | enable_mtrr_cleanup [X86] | ||
707 | The kernel tries to adjust MTRR layout from continuous | ||
708 | to discrete, to make X server driver able to add WB | ||
709 | entry later. This parameter enables that. | ||
710 | |||
711 | enable_timer_pin_1 [X86] | ||
712 | Enable PIN 1 of APIC timer | ||
713 | Can be useful to work around chipset bugs | ||
714 | (in particular on some ATI chipsets). | ||
715 | The kernel tries to set a reasonable default. | ||
716 | |||
737 | enforcing [SELINUX] Set initial enforcing status. | 717 | enforcing [SELINUX] Set initial enforcing status. |
738 | Format: {"0" | "1"} | 718 | Format: {"0" | "1"} |
739 | See security/selinux/Kconfig help text. | 719 | See security/selinux/Kconfig help text. |
@@ -801,7 +781,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
801 | 781 | ||
802 | hashdist= [KNL,NUMA] Large hashes allocated during boot | 782 | hashdist= [KNL,NUMA] Large hashes allocated during boot |
803 | are distributed across NUMA nodes. Defaults on | 783 | are distributed across NUMA nodes. Defaults on |
804 | for IA-64, off otherwise. | 784 | for 64bit NUMA, off otherwise. |
805 | Format: 0 | 1 (for off | on) | 785 | Format: 0 | 1 (for off | on) |
806 | 786 | ||
807 | hcl= [IA-64] SGI's Hardware Graph compatibility layer | 787 | hcl= [IA-64] SGI's Hardware Graph compatibility layer |
@@ -821,6 +801,16 @@ and is between 256 and 4096 characters. It is defined in the file | |||
821 | hisax= [HW,ISDN] | 801 | hisax= [HW,ISDN] |
822 | See Documentation/isdn/README.HiSax. | 802 | See Documentation/isdn/README.HiSax. |
823 | 803 | ||
804 | hlt [BUGS=ARM,SH] | ||
805 | |||
806 | hpet= [X86-32,HPET] option to control HPET usage | ||
807 | Format: { enable (default) | disable | force | | ||
808 | verbose } | ||
809 | disable: disable HPET and use PIT instead | ||
810 | force: allow force enabled of undocumented chips (ICH4, | ||
811 | VIA, nVidia) | ||
812 | verbose: show contents of HPET registers during setup | ||
813 | |||
824 | hugepages= [HW,X86-32,IA-64] HugeTLB pages to allocate at boot. | 814 | hugepages= [HW,X86-32,IA-64] HugeTLB pages to allocate at boot. |
825 | hugepagesz= [HW,IA-64,PPC,X86-64] The size of the HugeTLB pages. | 815 | hugepagesz= [HW,IA-64,PPC,X86-64] The size of the HugeTLB pages. |
826 | On x86-64 and powerpc, this option can be specified | 816 | On x86-64 and powerpc, this option can be specified |
@@ -830,15 +820,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
830 | (when the CPU supports the "pdpe1gb" cpuinfo flag) | 820 | (when the CPU supports the "pdpe1gb" cpuinfo flag) |
831 | Note that 1GB pages can only be allocated at boot time | 821 | Note that 1GB pages can only be allocated at boot time |
832 | using hugepages= and not freed afterwards. | 822 | using hugepages= and not freed afterwards. |
833 | default_hugepagesz= | ||
834 | [same as hugepagesz=] The size of the default | ||
835 | HugeTLB page size. This is the size represented by | ||
836 | the legacy /proc/ hugepages APIs, used for SHM, and | ||
837 | default size when mounting hugetlbfs filesystems. | ||
838 | Defaults to the default architecture's huge page size | ||
839 | if not specified. | ||
840 | |||
841 | hlt [BUGS=ARM,SH] | ||
842 | 823 | ||
843 | hvc_iucv= [S390] Number of z/VM IUCV hypervisor console (HVC) | 824 | hvc_iucv= [S390] Number of z/VM IUCV hypervisor console (HVC) |
844 | terminal devices. Valid values: 0..8 | 825 | terminal devices. Valid values: 0..8 |
@@ -899,6 +880,9 @@ and is between 256 and 4096 characters. It is defined in the file | |||
899 | idebus= [HW] (E)IDE subsystem - VLB/PCI bus speed | 880 | idebus= [HW] (E)IDE subsystem - VLB/PCI bus speed |
900 | See Documentation/ide/ide.txt. | 881 | See Documentation/ide/ide.txt. |
901 | 882 | ||
883 | ide-pci-generic.all-generic-ide [HW] (E)IDE subsystem | ||
884 | Claim all unknown PCI IDE storage controllers. | ||
885 | |||
902 | idle= [X86] | 886 | idle= [X86] |
903 | Format: idle=poll, idle=mwait, idle=halt, idle=nomwait | 887 | Format: idle=poll, idle=mwait, idle=halt, idle=nomwait |
904 | Poll forces a polling idle loop that can slightly | 888 | Poll forces a polling idle loop that can slightly |
@@ -914,9 +898,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
914 | In such case C2/C3 won't be used again. | 898 | In such case C2/C3 won't be used again. |
915 | idle=nomwait: Disable mwait for CPU C-states | 899 | idle=nomwait: Disable mwait for CPU C-states |
916 | 900 | ||
917 | ide-pci-generic.all-generic-ide [HW] (E)IDE subsystem | ||
918 | Claim all unknown PCI IDE storage controllers. | ||
919 | |||
920 | ignore_loglevel [KNL] | 901 | ignore_loglevel [KNL] |
921 | Ignore loglevel setting - this will print /all/ | 902 | Ignore loglevel setting - this will print /all/ |
922 | kernel messages to the console. Useful for debugging. | 903 | kernel messages to the console. Useful for debugging. |
@@ -950,25 +931,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
950 | inport.irq= [HW] Inport (ATI XL and Microsoft) busmouse driver | 931 | inport.irq= [HW] Inport (ATI XL and Microsoft) busmouse driver |
951 | Format: <irq> | 932 | Format: <irq> |
952 | 933 | ||
953 | inttest= [IA64] | ||
954 | |||
955 | iomem= Disable strict checking of access to MMIO memory | ||
956 | strict regions from userspace. | ||
957 | relaxed | ||
958 | |||
959 | iommu= [x86] | ||
960 | off | ||
961 | force | ||
962 | noforce | ||
963 | biomerge | ||
964 | panic | ||
965 | nopanic | ||
966 | merge | ||
967 | nomerge | ||
968 | forcesac | ||
969 | soft | ||
970 | |||
971 | |||
972 | intel_iommu= [DMAR] Intel IOMMU driver (DMAR) option | 934 | intel_iommu= [DMAR] Intel IOMMU driver (DMAR) option |
973 | on | 935 | on |
974 | Enable intel iommu driver. | 936 | Enable intel iommu driver. |
@@ -992,7 +954,29 @@ and is between 256 and 4096 characters. It is defined in the file | |||
992 | result in a hardware IOTLB flush operation as opposed | 954 | result in a hardware IOTLB flush operation as opposed |
993 | to batching them for performance. | 955 | to batching them for performance. |
994 | 956 | ||
995 | io_delay= [X86-32,X86-64] I/O delay method | 957 | inttest= [IA64] |
958 | |||
959 | iomem= Disable strict checking of access to MMIO memory | ||
960 | strict regions from userspace. | ||
961 | relaxed | ||
962 | |||
963 | iommu= [x86] | ||
964 | off | ||
965 | force | ||
966 | noforce | ||
967 | biomerge | ||
968 | panic | ||
969 | nopanic | ||
970 | merge | ||
971 | nomerge | ||
972 | forcesac | ||
973 | soft | ||
974 | |||
975 | io7= [HW] IO7 for Marvel based alpha systems | ||
976 | See comment before marvel_specify_io7 in | ||
977 | arch/alpha/kernel/core_marvel.c. | ||
978 | |||
979 | io_delay= [X86] I/O delay method | ||
996 | 0x80 | 980 | 0x80 |
997 | Standard port 0x80 based delay | 981 | Standard port 0x80 based delay |
998 | 0xed | 982 | 0xed |
@@ -1002,10 +986,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1002 | none | 986 | none |
1003 | No delay | 987 | No delay |
1004 | 988 | ||
1005 | io7= [HW] IO7 for Marvel based alpha systems | ||
1006 | See comment before marvel_specify_io7 in | ||
1007 | arch/alpha/kernel/core_marvel.c. | ||
1008 | |||
1009 | ip= [IP_PNP] | 989 | ip= [IP_PNP] |
1010 | See Documentation/filesystems/nfsroot.txt. | 990 | See Documentation/filesystems/nfsroot.txt. |
1011 | 991 | ||
@@ -1016,12 +996,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1016 | ips= [HW,SCSI] Adaptec / IBM ServeRAID controller | 996 | ips= [HW,SCSI] Adaptec / IBM ServeRAID controller |
1017 | See header of drivers/scsi/ips.c. | 997 | See header of drivers/scsi/ips.c. |
1018 | 998 | ||
1019 | ports= [IP_VS_FTP] IPVS ftp helper module | ||
1020 | Default is 21. | ||
1021 | Up to 8 (IP_VS_APP_MAX_PORTS) ports | ||
1022 | may be specified. | ||
1023 | Format: <port>,<port>.... | ||
1024 | |||
1025 | irqfixup [HW] | 999 | irqfixup [HW] |
1026 | When an interrupt is not handled search all handlers | 1000 | When an interrupt is not handled search all handlers |
1027 | for it. Intended to get systems with badly broken | 1001 | for it. Intended to get systems with badly broken |
@@ -1062,7 +1036,9 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1062 | js= [HW,JOY] Analog joystick | 1036 | js= [HW,JOY] Analog joystick |
1063 | See Documentation/input/joystick.txt. | 1037 | See Documentation/input/joystick.txt. |
1064 | 1038 | ||
1065 | kernelcore=nn[KMG] [KNL,X86-32,IA-64,PPC,X86-64] This parameter | 1039 | keepinitrd [HW,ARM] |
1040 | |||
1041 | kernelcore=nn[KMG] [KNL,X86,IA-64,PPC] This parameter | ||
1066 | specifies the amount of memory usable by the kernel | 1042 | specifies the amount of memory usable by the kernel |
1067 | for non-movable allocations. The requested amount is | 1043 | for non-movable allocations. The requested amount is |
1068 | spread evenly throughout all nodes in the system. The | 1044 | spread evenly throughout all nodes in the system. The |
@@ -1078,20 +1054,14 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1078 | use the HighMem zone if it exists, and the Normal | 1054 | use the HighMem zone if it exists, and the Normal |
1079 | zone if it does not. | 1055 | zone if it does not. |
1080 | 1056 | ||
1081 | movablecore=nn[KMG] [KNL,X86-32,IA-64,PPC,X86-64] This parameter | 1057 | kmemtrace.enable= [KNL,KMEMTRACE] Format: { yes | no } |
1082 | is similar to kernelcore except it specifies the | 1058 | Controls whether kmemtrace is enabled |
1083 | amount of memory used for migratable allocations. | 1059 | at boot-time. |
1084 | If both kernelcore and movablecore is specified, | ||
1085 | then kernelcore will be at *least* the specified | ||
1086 | value but may be more. If movablecore on its own | ||
1087 | is specified, the administrator must be careful | ||
1088 | that the amount of memory usable for all allocations | ||
1089 | is not too small. | ||
1090 | 1060 | ||
1091 | keepinitrd [HW,ARM] | 1061 | kmemtrace.subbufs=n [KNL,KMEMTRACE] Overrides the number of |
1092 | 1062 | subbufs kmemtrace's relay channel has. Set this | |
1093 | kstack=N [X86-32,X86-64] Print N words from the kernel stack | 1063 | higher than default (KMEMTRACE_N_SUBBUFS in code) if |
1094 | in oops dumps. | 1064 | you experience buffer overruns. |
1095 | 1065 | ||
1096 | kgdboc= [HW] kgdb over consoles. | 1066 | kgdboc= [HW] kgdb over consoles. |
1097 | Requires a tty driver that supports console polling. | 1067 | Requires a tty driver that supports console polling. |
@@ -1102,6 +1072,9 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1102 | Configure the RouterBoard 532 series on-chip | 1072 | Configure the RouterBoard 532 series on-chip |
1103 | Ethernet adapter MAC address. | 1073 | Ethernet adapter MAC address. |
1104 | 1074 | ||
1075 | kstack=N [X86] Print N words from the kernel stack | ||
1076 | in oops dumps. | ||
1077 | |||
1105 | l2cr= [PPC] | 1078 | l2cr= [PPC] |
1106 | 1079 | ||
1107 | l3cr= [PPC] | 1080 | l3cr= [PPC] |
@@ -1109,7 +1082,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1109 | lapic [X86-32,APIC] Enable the local APIC even if BIOS | 1082 | lapic [X86-32,APIC] Enable the local APIC even if BIOS |
1110 | disabled it. | 1083 | disabled it. |
1111 | 1084 | ||
1112 | lapic_timer_c2_ok [X86-32,x86-64,APIC] trust the local apic timer | 1085 | lapic_timer_c2_ok [X86,APIC] trust the local apic timer |
1113 | in C2 power state. | 1086 | in C2 power state. |
1114 | 1087 | ||
1115 | libata.dma= [LIBATA] DMA control | 1088 | libata.dma= [LIBATA] DMA control |
@@ -1247,9 +1220,8 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1247 | (machvec) in a generic kernel. | 1220 | (machvec) in a generic kernel. |
1248 | Example: machvec=hpzx1_swiotlb | 1221 | Example: machvec=hpzx1_swiotlb |
1249 | 1222 | ||
1250 | max_loop= [LOOP] Maximum number of loopback devices that can | 1223 | max_addr=nn[KMG] [KNL,BOOT,ia64] All physical memory greater |
1251 | be mounted | 1224 | than or equal to this physical address is ignored. |
1252 | Format: <1-256> | ||
1253 | 1225 | ||
1254 | maxcpus= [SMP] Maximum number of processors that an SMP kernel | 1226 | maxcpus= [SMP] Maximum number of processors that an SMP kernel |
1255 | should make use of. maxcpus=n : n >= 0 limits the | 1227 | should make use of. maxcpus=n : n >= 0 limits the |
@@ -1257,8 +1229,9 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1257 | it is equivalent to "nosmp", which also disables | 1229 | it is equivalent to "nosmp", which also disables |
1258 | the IO APIC. | 1230 | the IO APIC. |
1259 | 1231 | ||
1260 | max_addr=nn[KMG] [KNL,BOOT,ia64] All physical memory greater than | 1232 | max_loop= [LOOP] Maximum number of loopback devices that can |
1261 | or equal to this physical address is ignored. | 1233 | be mounted |
1234 | Format: <1-256> | ||
1262 | 1235 | ||
1263 | max_luns= [SCSI] Maximum number of LUNs to probe. | 1236 | max_luns= [SCSI] Maximum number of LUNs to probe. |
1264 | Should be between 1 and 2^32-1. | 1237 | Should be between 1 and 2^32-1. |
@@ -1294,7 +1267,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1294 | [KNL,SH] Allow user to override the default size for | 1267 | [KNL,SH] Allow user to override the default size for |
1295 | per-device physically contiguous DMA buffers. | 1268 | per-device physically contiguous DMA buffers. |
1296 | 1269 | ||
1297 | memmap=exactmap [KNL,X86-32,X86_64] Enable setting of an exact | 1270 | memmap=exactmap [KNL,X86] Enable setting of an exact |
1298 | E820 memory map, as specified by the user. | 1271 | E820 memory map, as specified by the user. |
1299 | Such memmap=exactmap lines can be constructed based on | 1272 | Such memmap=exactmap lines can be constructed based on |
1300 | BIOS output or other requirements. See the memmap=nn@ss | 1273 | BIOS output or other requirements. See the memmap=nn@ss |
@@ -1385,6 +1358,16 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1385 | mousedev.yres= [MOUSE] Vertical screen resolution, used for devices | 1358 | mousedev.yres= [MOUSE] Vertical screen resolution, used for devices |
1386 | reporting absolute coordinates, such as tablets | 1359 | reporting absolute coordinates, such as tablets |
1387 | 1360 | ||
1361 | movablecore=nn[KMG] [KNL,X86,IA-64,PPC] This parameter | ||
1362 | is similar to kernelcore except it specifies the | ||
1363 | amount of memory used for migratable allocations. | ||
1364 | If both kernelcore and movablecore is specified, | ||
1365 | then kernelcore will be at *least* the specified | ||
1366 | value but may be more. If movablecore on its own | ||
1367 | is specified, the administrator must be careful | ||
1368 | that the amount of memory usable for all allocations | ||
1369 | is not too small. | ||
1370 | |||
1388 | mpu401= [HW,OSS] | 1371 | mpu401= [HW,OSS] |
1389 | Format: <io>,<irq> | 1372 | Format: <io>,<irq> |
1390 | 1373 | ||
@@ -1406,6 +1389,23 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1406 | [HW] Make the MicroTouch USB driver use raw coordinates | 1389 | [HW] Make the MicroTouch USB driver use raw coordinates |
1407 | ('y', default) or cooked coordinates ('n') | 1390 | ('y', default) or cooked coordinates ('n') |
1408 | 1391 | ||
1392 | mtrr_chunk_size=nn[KMG] [X86] | ||
1393 | used for mtrr cleanup. It is largest continous chunk | ||
1394 | that could hold holes aka. UC entries. | ||
1395 | |||
1396 | mtrr_gran_size=nn[KMG] [X86] | ||
1397 | Used for mtrr cleanup. It is granularity of mtrr block. | ||
1398 | Default is 1. | ||
1399 | Large value could prevent small alignment from | ||
1400 | using up MTRRs. | ||
1401 | |||
1402 | mtrr_spare_reg_nr=n [X86] | ||
1403 | Format: <integer> | ||
1404 | Range: 0,7 : spare reg number | ||
1405 | Default : 1 | ||
1406 | Used for mtrr cleanup. It is spare mtrr entries number. | ||
1407 | Set to 2 or more if your graphical card needs more. | ||
1408 | |||
1409 | n2= [NET] SDL Inc. RISCom/N2 synchronous serial card | 1409 | n2= [NET] SDL Inc. RISCom/N2 synchronous serial card |
1410 | 1410 | ||
1411 | NCR_D700= [HW,SCSI] | 1411 | NCR_D700= [HW,SCSI] |
@@ -1460,17 +1460,19 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1460 | when a NMI is triggered. | 1460 | when a NMI is triggered. |
1461 | Format: [state][,regs][,debounce][,die] | 1461 | Format: [state][,regs][,debounce][,die] |
1462 | 1462 | ||
1463 | nmi_watchdog= [KNL,BUGS=X86-32,X86-64] Debugging features for SMP kernels | 1463 | nmi_watchdog= [KNL,BUGS=X86] Debugging features for SMP kernels |
1464 | Format: [panic,][num] | 1464 | Format: [panic,][num] |
1465 | Valid num: 0,1,2 | 1465 | Valid num: 0,1,2 |
1466 | 0 - turn nmi_watchdog off | 1466 | 0 - turn nmi_watchdog off |
1467 | 1 - use the IO-APIC timer for the NMI watchdog | 1467 | 1 - use the IO-APIC timer for the NMI watchdog |
1468 | 2 - use the local APIC for the NMI watchdog using | 1468 | 2 - use the local APIC for the NMI watchdog using |
1469 | a performance counter. Note: This will use one performance | 1469 | a performance counter. Note: This will use one |
1470 | counter and the local APIC's performance vector. | 1470 | performance counter and the local APIC's performance |
1471 | When panic is specified panic when an NMI watchdog timeout occurs. | 1471 | vector. |
1472 | This is useful when you use a panic=... timeout and need the box | 1472 | When panic is specified, panic when an NMI watchdog |
1473 | quickly up again. | 1473 | timeout occurs. |
1474 | This is useful when you use a panic=... timeout and | ||
1475 | need the box quickly up again. | ||
1474 | Instead of 1 and 2 it is possible to use the following | 1476 | Instead of 1 and 2 it is possible to use the following |
1475 | symbolic names: lapic and ioapic | 1477 | symbolic names: lapic and ioapic |
1476 | Example: nmi_watchdog=2 or nmi_watchdog=panic,lapic | 1478 | Example: nmi_watchdog=2 or nmi_watchdog=panic,lapic |
@@ -1479,6 +1481,16 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1479 | emulation library even if a 387 maths coprocessor | 1481 | emulation library even if a 387 maths coprocessor |
1480 | is present. | 1482 | is present. |
1481 | 1483 | ||
1484 | no_console_suspend | ||
1485 | [HW] Never suspend the console | ||
1486 | Disable suspending of consoles during suspend and | ||
1487 | hibernate operations. Once disabled, debugging | ||
1488 | messages can reach various consoles while the rest | ||
1489 | of the system is being put to sleep (ie, while | ||
1490 | debugging driver suspend/resume hooks). This may | ||
1491 | not work reliably with all consoles, but is known | ||
1492 | to work with serial and VGA consoles. | ||
1493 | |||
1482 | noaliencache [MM, NUMA, SLAB] Disables the allocation of alien | 1494 | noaliencache [MM, NUMA, SLAB] Disables the allocation of alien |
1483 | caches in the slab allocator. Saves per-node memory, | 1495 | caches in the slab allocator. Saves per-node memory, |
1484 | but will impact performance. | 1496 | but will impact performance. |
@@ -1493,17 +1505,19 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1493 | 1505 | ||
1494 | nocache [ARM] | 1506 | nocache [ARM] |
1495 | 1507 | ||
1508 | noclflush [BUGS=X86] Don't use the CLFLUSH instruction | ||
1509 | |||
1496 | nodelayacct [KNL] Disable per-task delay accounting | 1510 | nodelayacct [KNL] Disable per-task delay accounting |
1497 | 1511 | ||
1498 | nodisconnect [HW,SCSI,M68K] Disables SCSI disconnects. | 1512 | nodisconnect [HW,SCSI,M68K] Disables SCSI disconnects. |
1499 | 1513 | ||
1500 | nodsp [SH] Disable hardware DSP at boot time. | 1514 | nodsp [SH] Disable hardware DSP at boot time. |
1501 | 1515 | ||
1502 | noefi [X86-32,X86-64] Disable EFI runtime services support. | 1516 | noefi [X86] Disable EFI runtime services support. |
1503 | 1517 | ||
1504 | noexec [IA-64] | 1518 | noexec [IA-64] |
1505 | 1519 | ||
1506 | noexec [X86-32,X86-64] | 1520 | noexec [X86] |
1507 | On X86-32 available only on PAE configured kernels. | 1521 | On X86-32 available only on PAE configured kernels. |
1508 | noexec=on: enable non-executable mappings (default) | 1522 | noexec=on: enable non-executable mappings (default) |
1509 | noexec=off: disable non-executable mappings | 1523 | noexec=off: disable non-executable mappings |
@@ -1521,8 +1535,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1521 | register save and restore. The kernel will only save | 1535 | register save and restore. The kernel will only save |
1522 | legacy floating-point registers on task switch. | 1536 | legacy floating-point registers on task switch. |
1523 | 1537 | ||
1524 | noclflush [BUGS=X86] Don't use the CLFLUSH instruction | ||
1525 | |||
1526 | nohlt [BUGS=ARM,SH] Tells the kernel that the sleep(SH) or | 1538 | nohlt [BUGS=ARM,SH] Tells the kernel that the sleep(SH) or |
1527 | wfi(ARM) instruction doesn't work correctly and not to | 1539 | wfi(ARM) instruction doesn't work correctly and not to |
1528 | use it. This is also useful when using JTAG debugger. | 1540 | use it. This is also useful when using JTAG debugger. |
@@ -1546,10 +1558,12 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1546 | Valid arguments: on, off | 1558 | Valid arguments: on, off |
1547 | Default: on | 1559 | Default: on |
1548 | 1560 | ||
1561 | noiotrap [SH] Disables trapped I/O port accesses. | ||
1562 | |||
1549 | noirqdebug [X86-32] Disables the code which attempts to detect and | 1563 | noirqdebug [X86-32] Disables the code which attempts to detect and |
1550 | disable unhandled interrupt sources. | 1564 | disable unhandled interrupt sources. |
1551 | 1565 | ||
1552 | no_timer_check [X86-32,X86_64,APIC] Disables the code which tests for | 1566 | no_timer_check [X86,APIC] Disables the code which tests for |
1553 | broken timer IRQ sources. | 1567 | broken timer IRQ sources. |
1554 | 1568 | ||
1555 | noisapnp [ISAPNP] Disables ISA PnP code. | 1569 | noisapnp [ISAPNP] Disables ISA PnP code. |
@@ -1565,12 +1579,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1565 | 1579 | ||
1566 | nolapic_timer [X86-32,APIC] Do not use the local APIC timer. | 1580 | nolapic_timer [X86-32,APIC] Do not use the local APIC timer. |
1567 | 1581 | ||
1568 | nox2apic [X86-64,APIC] Do not enable x2APIC mode. | ||
1569 | |||
1570 | x2apic_phys [X86-64,APIC] Use x2apic physical mode instead of | ||
1571 | default x2apic cluster mode on platforms | ||
1572 | supporting x2apic. | ||
1573 | |||
1574 | noltlbs [PPC] Do not use large page/tlb entries for kernel | 1582 | noltlbs [PPC] Do not use large page/tlb entries for kernel |
1575 | lowmem mapping on PPC40x. | 1583 | lowmem mapping on PPC40x. |
1576 | 1584 | ||
@@ -1581,6 +1589,9 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1581 | nomfgpt [X86-32] Disable Multi-Function General Purpose | 1589 | nomfgpt [X86-32] Disable Multi-Function General Purpose |
1582 | Timer usage (for AMD Geode machines). | 1590 | Timer usage (for AMD Geode machines). |
1583 | 1591 | ||
1592 | norandmaps Don't use address space randomization. Equivalent to | ||
1593 | echo 0 > /proc/sys/kernel/randomize_va_space | ||
1594 | |||
1584 | noreplace-paravirt [X86-32,PV_OPS] Don't patch paravirt_ops | 1595 | noreplace-paravirt [X86-32,PV_OPS] Don't patch paravirt_ops |
1585 | 1596 | ||
1586 | noreplace-smp [X86-32,SMP] Don't replace SMP instructions | 1597 | noreplace-smp [X86-32,SMP] Don't replace SMP instructions |
@@ -1615,17 +1626,19 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1615 | 1626 | ||
1616 | nowb [ARM] | 1627 | nowb [ARM] |
1617 | 1628 | ||
1629 | nox2apic [X86-64,APIC] Do not enable x2APIC mode. | ||
1630 | |||
1618 | nptcg= [IA64] Override max number of concurrent global TLB | 1631 | nptcg= [IA64] Override max number of concurrent global TLB |
1619 | purges which is reported from either PAL_VM_SUMMARY or | 1632 | purges which is reported from either PAL_VM_SUMMARY or |
1620 | SAL PALO. | 1633 | SAL PALO. |
1621 | 1634 | ||
1635 | nr_uarts= [SERIAL] maximum number of UARTs to be registered. | ||
1636 | |||
1622 | numa_zonelist_order= [KNL, BOOT] Select zonelist order for NUMA. | 1637 | numa_zonelist_order= [KNL, BOOT] Select zonelist order for NUMA. |
1623 | one of ['zone', 'node', 'default'] can be specified | 1638 | one of ['zone', 'node', 'default'] can be specified |
1624 | This can be set from sysctl after boot. | 1639 | This can be set from sysctl after boot. |
1625 | See Documentation/sysctl/vm.txt for details. | 1640 | See Documentation/sysctl/vm.txt for details. |
1626 | 1641 | ||
1627 | nr_uarts= [SERIAL] maximum number of UARTs to be registered. | ||
1628 | |||
1629 | ohci1394_dma=early [HW] enable debugging via the ohci1394 driver. | 1642 | ohci1394_dma=early [HW] enable debugging via the ohci1394 driver. |
1630 | See Documentation/debugging-via-ohci1394.txt for more | 1643 | See Documentation/debugging-via-ohci1394.txt for more |
1631 | info. | 1644 | info. |
@@ -1716,7 +1729,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1716 | disable the use of PCIE advanced error reporting. | 1729 | disable the use of PCIE advanced error reporting. |
1717 | nodomains [PCI] Disable support for multiple PCI | 1730 | nodomains [PCI] Disable support for multiple PCI |
1718 | root domains (aka PCI segments, in ACPI-speak). | 1731 | root domains (aka PCI segments, in ACPI-speak). |
1719 | nommconf [X86-32,X86_64] Disable use of MMCONFIG for PCI | 1732 | nommconf [X86] Disable use of MMCONFIG for PCI |
1720 | Configuration | 1733 | Configuration |
1721 | nomsi [MSI] If the PCI_MSI kernel config parameter is | 1734 | nomsi [MSI] If the PCI_MSI kernel config parameter is |
1722 | enabled, this kernel boot option can be used to | 1735 | enabled, this kernel boot option can be used to |
@@ -1865,6 +1878,12 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1865 | autoconfiguration. | 1878 | autoconfiguration. |
1866 | Ranges are in pairs (memory base and size). | 1879 | Ranges are in pairs (memory base and size). |
1867 | 1880 | ||
1881 | ports= [IP_VS_FTP] IPVS ftp helper module | ||
1882 | Default is 21. | ||
1883 | Up to 8 (IP_VS_APP_MAX_PORTS) ports | ||
1884 | may be specified. | ||
1885 | Format: <port>,<port>.... | ||
1886 | |||
1868 | print-fatal-signals= | 1887 | print-fatal-signals= |
1869 | [KNL] debug: print fatal signals | 1888 | [KNL] debug: print fatal signals |
1870 | print-fatal-signals=1: print segfault info to | 1889 | print-fatal-signals=1: print segfault info to |
@@ -1874,6 +1893,14 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1874 | printk.time= Show timing data prefixed to each printk message line | 1893 | printk.time= Show timing data prefixed to each printk message line |
1875 | Format: <bool> (1/Y/y=enable, 0/N/n=disable) | 1894 | Format: <bool> (1/Y/y=enable, 0/N/n=disable) |
1876 | 1895 | ||
1896 | processor.max_cstate= [HW,ACPI] | ||
1897 | Limit processor to maximum C-state | ||
1898 | max_cstate=9 overrides any DMI blacklist limit. | ||
1899 | |||
1900 | processor.nocst [HW,ACPI] | ||
1901 | Ignore the _CST method to determine C-states, | ||
1902 | instead using the legacy FADT method | ||
1903 | |||
1877 | profile= [KNL] Enable kernel profiling via /proc/profile | 1904 | profile= [KNL] Enable kernel profiling via /proc/profile |
1878 | Format: [schedule,]<number> | 1905 | Format: [schedule,]<number> |
1879 | Param: "schedule" - profile schedule points. | 1906 | Param: "schedule" - profile schedule points. |
@@ -1883,14 +1910,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
1883 | Requires CONFIG_SCHEDSTATS | 1910 | Requires CONFIG_SCHEDSTATS |
1884 | Param: "kvm" - profile VM exits. | 1911 | Param: "kvm" - profile VM exits. |
1885 | 1912 | ||
1886 | processor.max_cstate= [HW,ACPI] | ||
1887 | Limit processor to maximum C-state | ||
1888 | max_cstate=9 overrides any DMI blacklist limit. | ||
1889 | |||
1890 | processor.nocst [HW,ACPI] | ||
1891 | Ignore the _CST method to determine C-states, | ||
1892 | instead using the legacy FADT method | ||
1893 | |||
1894 | prompt_ramdisk= [RAM] List of RAM disks to prompt for floppy disk | 1913 | prompt_ramdisk= [RAM] List of RAM disks to prompt for floppy disk |
1895 | before loading. | 1914 | before loading. |
1896 | See Documentation/blockdev/ramdisk.txt. | 1915 | See Documentation/blockdev/ramdisk.txt. |
@@ -2044,7 +2063,13 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2044 | allowing boot to proceed. none ignores them, expecting | 2063 | allowing boot to proceed. none ignores them, expecting |
2045 | user space to do the scan. | 2064 | user space to do the scan. |
2046 | 2065 | ||
2047 | selinux [SELINUX] Disable or enable SELinux at boot time. | 2066 | security= [SECURITY] Choose a security module to enable at boot. |
2067 | If this boot parameter is not specified, only the first | ||
2068 | security module asking for security registration will be | ||
2069 | loaded. An invalid security module name will be treated | ||
2070 | as if no module has been chosen. | ||
2071 | |||
2072 | selinux= [SELINUX] Disable or enable SELinux at boot time. | ||
2048 | Format: { "0" | "1" } | 2073 | Format: { "0" | "1" } |
2049 | See security/selinux/Kconfig help text. | 2074 | See security/selinux/Kconfig help text. |
2050 | 0 -- disable. | 2075 | 0 -- disable. |
@@ -2364,6 +2389,8 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2364 | 2389 | ||
2365 | tp720= [HW,PS2] | 2390 | tp720= [HW,PS2] |
2366 | 2391 | ||
2392 | trace_buf_size=nn[KMG] [ftrace] will set tracing buffer size. | ||
2393 | |||
2367 | trix= [HW,OSS] MediaTrix AudioTrix Pro | 2394 | trix= [HW,OSS] MediaTrix AudioTrix Pro |
2368 | Format: | 2395 | Format: |
2369 | <io>,<irq>,<dma>,<dma2>,<sb_io>,<sb_irq>,<sb_dma>,<mpu_io>,<mpu_irq> | 2396 | <io>,<irq>,<dma>,<dma2>,<sb_io>,<sb_irq>,<sb_dma>,<mpu_io>,<mpu_irq> |
@@ -2399,7 +2426,7 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2399 | reported either. | 2426 | reported either. |
2400 | 2427 | ||
2401 | unknown_nmi_panic | 2428 | unknown_nmi_panic |
2402 | [X86-32,X86-64] | 2429 | [X86] |
2403 | Set unknown_nmi_panic=1 early on boot. | 2430 | Set unknown_nmi_panic=1 early on boot. |
2404 | 2431 | ||
2405 | usbcore.autosuspend= | 2432 | usbcore.autosuspend= |
@@ -2466,15 +2493,12 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2466 | medium is write-protected). | 2493 | medium is write-protected). |
2467 | Example: quirks=0419:aaf5:rl,0421:0433:rc | 2494 | Example: quirks=0419:aaf5:rl,0421:0433:rc |
2468 | 2495 | ||
2469 | add_efi_memmap [EFI; x86-32,X86-64] Include EFI memory map in | 2496 | vdso= [X86,SH] |
2470 | kernel's map of available physical RAM. | ||
2471 | |||
2472 | vdso= [X86-32,SH,x86-64] | ||
2473 | vdso=2: enable compat VDSO (default with COMPAT_VDSO) | 2497 | vdso=2: enable compat VDSO (default with COMPAT_VDSO) |
2474 | vdso=1: enable VDSO (default) | 2498 | vdso=1: enable VDSO (default) |
2475 | vdso=0: disable VDSO mapping | 2499 | vdso=0: disable VDSO mapping |
2476 | 2500 | ||
2477 | vdso32= [X86-32,X86-64] | 2501 | vdso32= [X86] |
2478 | vdso32=2: enable compat VDSO (default with COMPAT_VDSO) | 2502 | vdso32=2: enable compat VDSO (default with COMPAT_VDSO) |
2479 | vdso32=1: enable 32-bit VDSO (default) | 2503 | vdso32=1: enable 32-bit VDSO (default) |
2480 | vdso32=0: disable 32-bit VDSO mapping | 2504 | vdso32=0: disable 32-bit VDSO mapping |
@@ -2507,6 +2531,31 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2507 | vmpoff= [KNL,S390] Perform z/VM CP command after power off. | 2531 | vmpoff= [KNL,S390] Perform z/VM CP command after power off. |
2508 | Format: <command> | 2532 | Format: <command> |
2509 | 2533 | ||
2534 | vt.default_blu= [VT] | ||
2535 | Format: <blue0>,<blue1>,<blue2>,...,<blue15> | ||
2536 | Change the default blue palette of the console. | ||
2537 | This is a 16-member array composed of values | ||
2538 | ranging from 0-255. | ||
2539 | |||
2540 | vt.default_grn= [VT] | ||
2541 | Format: <green0>,<green1>,<green2>,...,<green15> | ||
2542 | Change the default green palette of the console. | ||
2543 | This is a 16-member array composed of values | ||
2544 | ranging from 0-255. | ||
2545 | |||
2546 | vt.default_red= [VT] | ||
2547 | Format: <red0>,<red1>,<red2>,...,<red15> | ||
2548 | Change the default red palette of the console. | ||
2549 | This is a 16-member array composed of values | ||
2550 | ranging from 0-255. | ||
2551 | |||
2552 | vt.default_utf8= | ||
2553 | [VT] | ||
2554 | Format=<0|1> | ||
2555 | Set system-wide default UTF-8 mode for all tty's. | ||
2556 | Default is 1, i.e. UTF-8 mode is enabled for all | ||
2557 | newly opened terminals. | ||
2558 | |||
2510 | waveartist= [HW,OSS] | 2559 | waveartist= [HW,OSS] |
2511 | Format: <io>,<irq>,<dma>,<dma2> | 2560 | Format: <io>,<irq>,<dma>,<dma2> |
2512 | 2561 | ||
@@ -2519,6 +2568,10 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2519 | wdt= [WDT] Watchdog | 2568 | wdt= [WDT] Watchdog |
2520 | See Documentation/watchdog/wdt.txt. | 2569 | See Documentation/watchdog/wdt.txt. |
2521 | 2570 | ||
2571 | x2apic_phys [X86-64,APIC] Use x2apic physical mode instead of | ||
2572 | default x2apic cluster mode on platforms | ||
2573 | supporting x2apic. | ||
2574 | |||
2522 | xd= [HW,XT] Original XT pre-IDE (RLL encoded) disks. | 2575 | xd= [HW,XT] Original XT pre-IDE (RLL encoded) disks. |
2523 | xd_geo= See header of drivers/block/xd.c. | 2576 | xd_geo= See header of drivers/block/xd.c. |
2524 | 2577 | ||
@@ -2526,9 +2579,6 @@ and is between 256 and 4096 characters. It is defined in the file | |||
2526 | Format: | 2579 | Format: |
2527 | <irq>,<irq_mask>,<io>,<full_duplex>,<do_sound>,<lockup_hack>[,<irq2>[,<irq3>[,<irq4>]]] | 2580 | <irq>,<irq_mask>,<io>,<full_duplex>,<do_sound>,<lockup_hack>[,<irq2>[,<irq3>[,<irq4>]]] |
2528 | 2581 | ||
2529 | norandmaps Don't use address space randomization. Equivalent to | ||
2530 | echo 0 > /proc/sys/kernel/randomize_va_space | ||
2531 | |||
2532 | ______________________________________________________________________ | 2582 | ______________________________________________________________________ |
2533 | 2583 | ||
2534 | TODO: | 2584 | TODO: |
diff --git a/Documentation/kprobes.txt b/Documentation/kprobes.txt index 48b3de90eb1e..1e7a769a10f9 100644 --- a/Documentation/kprobes.txt +++ b/Documentation/kprobes.txt | |||
@@ -212,7 +212,9 @@ hit, Kprobes calls kp->pre_handler. After the probed instruction | |||
212 | is single-stepped, Kprobe calls kp->post_handler. If a fault | 212 | is single-stepped, Kprobe calls kp->post_handler. If a fault |
213 | occurs during execution of kp->pre_handler or kp->post_handler, | 213 | occurs during execution of kp->pre_handler or kp->post_handler, |
214 | or during single-stepping of the probed instruction, Kprobes calls | 214 | or during single-stepping of the probed instruction, Kprobes calls |
215 | kp->fault_handler. Any or all handlers can be NULL. | 215 | kp->fault_handler. Any or all handlers can be NULL. If kp->flags |
216 | is set KPROBE_FLAG_DISABLED, that kp will be registered but disabled, | ||
217 | so, it's handlers aren't hit until calling enable_kprobe(kp). | ||
216 | 218 | ||
217 | NOTE: | 219 | NOTE: |
218 | 1. With the introduction of the "symbol_name" field to struct kprobe, | 220 | 1. With the introduction of the "symbol_name" field to struct kprobe, |
@@ -363,6 +365,26 @@ probes) in the specified array, they clear the addr field of those | |||
363 | incorrect probes. However, other probes in the array are | 365 | incorrect probes. However, other probes in the array are |
364 | unregistered correctly. | 366 | unregistered correctly. |
365 | 367 | ||
368 | 4.7 disable_*probe | ||
369 | |||
370 | #include <linux/kprobes.h> | ||
371 | int disable_kprobe(struct kprobe *kp); | ||
372 | int disable_kretprobe(struct kretprobe *rp); | ||
373 | int disable_jprobe(struct jprobe *jp); | ||
374 | |||
375 | Temporarily disables the specified *probe. You can enable it again by using | ||
376 | enable_*probe(). You must specify the probe which has been registered. | ||
377 | |||
378 | 4.8 enable_*probe | ||
379 | |||
380 | #include <linux/kprobes.h> | ||
381 | int enable_kprobe(struct kprobe *kp); | ||
382 | int enable_kretprobe(struct kretprobe *rp); | ||
383 | int enable_jprobe(struct jprobe *jp); | ||
384 | |||
385 | Enables *probe which has been disabled by disable_*probe(). You must specify | ||
386 | the probe which has been registered. | ||
387 | |||
366 | 5. Kprobes Features and Limitations | 388 | 5. Kprobes Features and Limitations |
367 | 389 | ||
368 | Kprobes allows multiple probes at the same address. Currently, | 390 | Kprobes allows multiple probes at the same address. Currently, |
@@ -500,10 +522,14 @@ the probe. If the probed function belongs to a module, the module name | |||
500 | is also specified. Following columns show probe status. If the probe is on | 522 | is also specified. Following columns show probe status. If the probe is on |
501 | a virtual address that is no longer valid (module init sections, module | 523 | a virtual address that is no longer valid (module init sections, module |
502 | virtual addresses that correspond to modules that've been unloaded), | 524 | virtual addresses that correspond to modules that've been unloaded), |
503 | such probes are marked with [GONE]. | 525 | such probes are marked with [GONE]. If the probe is temporarily disabled, |
526 | such probes are marked with [DISABLED]. | ||
504 | 527 | ||
505 | /debug/kprobes/enabled: Turn kprobes ON/OFF | 528 | /debug/kprobes/enabled: Turn kprobes ON/OFF forcibly. |
506 | 529 | ||
507 | Provides a knob to globally turn registered kprobes ON or OFF. By default, | 530 | Provides a knob to globally and forcibly turn registered kprobes ON or OFF. |
508 | all kprobes are enabled. By echoing "0" to this file, all registered probes | 531 | By default, all kprobes are enabled. By echoing "0" to this file, all |
509 | will be disarmed, till such time a "1" is echoed to this file. | 532 | registered probes will be disarmed, till such time a "1" is echoed to this |
533 | file. Note that this knob just disarms and arms all kprobes and doesn't | ||
534 | change each probe's disabling state. This means that disabled kprobes (marked | ||
535 | [DISABLED]) will be not enabled if you turn ON all kprobes by this knob. | ||
diff --git a/Documentation/laptops/acer-wmi.txt b/Documentation/laptops/acer-wmi.txt index 2b3a6b5260bf..5ee2a02b3b40 100644 --- a/Documentation/laptops/acer-wmi.txt +++ b/Documentation/laptops/acer-wmi.txt | |||
@@ -1,9 +1,9 @@ | |||
1 | Acer Laptop WMI Extras Driver | 1 | Acer Laptop WMI Extras Driver |
2 | http://code.google.com/p/aceracpi | 2 | http://code.google.com/p/aceracpi |
3 | Version 0.2 | 3 | Version 0.3 |
4 | 18th August 2008 | 4 | 4th April 2009 |
5 | 5 | ||
6 | Copyright 2007-2008 Carlos Corbacho <carlos@strangeworlds.co.uk> | 6 | Copyright 2007-2009 Carlos Corbacho <carlos@strangeworlds.co.uk> |
7 | 7 | ||
8 | acer-wmi is a driver to allow you to control various parts of your Acer laptop | 8 | acer-wmi is a driver to allow you to control various parts of your Acer laptop |
9 | hardware under Linux which are exposed via ACPI-WMI. | 9 | hardware under Linux which are exposed via ACPI-WMI. |
@@ -36,6 +36,10 @@ not possible in kernel space from a 64 bit OS. | |||
36 | Supported Hardware | 36 | Supported Hardware |
37 | ****************** | 37 | ****************** |
38 | 38 | ||
39 | NOTE: The Acer Aspire One is not supported hardware. It cannot work with | ||
40 | acer-wmi until Acer fix their ACPI-WMI implementation on them, so has been | ||
41 | blacklisted until that happens. | ||
42 | |||
39 | Please see the website for the current list of known working hardare: | 43 | Please see the website for the current list of known working hardare: |
40 | 44 | ||
41 | http://code.google.com/p/aceracpi/wiki/SupportedHardware | 45 | http://code.google.com/p/aceracpi/wiki/SupportedHardware |
diff --git a/Documentation/laptops/thinkpad-acpi.txt b/Documentation/laptops/thinkpad-acpi.txt index 41bc99fa1884..e7e9a69069e1 100644 --- a/Documentation/laptops/thinkpad-acpi.txt +++ b/Documentation/laptops/thinkpad-acpi.txt | |||
@@ -1,7 +1,7 @@ | |||
1 | ThinkPad ACPI Extras Driver | 1 | ThinkPad ACPI Extras Driver |
2 | 2 | ||
3 | Version 0.22 | 3 | Version 0.23 |
4 | November 23rd, 2008 | 4 | April 10th, 2009 |
5 | 5 | ||
6 | Borislav Deianov <borislav@users.sf.net> | 6 | Borislav Deianov <borislav@users.sf.net> |
7 | Henrique de Moraes Holschuh <hmh@hmh.eng.br> | 7 | Henrique de Moraes Holschuh <hmh@hmh.eng.br> |
@@ -20,7 +20,8 @@ moved to the drivers/misc tree and renamed to thinkpad-acpi for kernel | |||
20 | kernel 2.6.29 and release 0.22. | 20 | kernel 2.6.29 and release 0.22. |
21 | 21 | ||
22 | The driver is named "thinkpad-acpi". In some places, like module | 22 | The driver is named "thinkpad-acpi". In some places, like module |
23 | names, "thinkpad_acpi" is used because of userspace issues. | 23 | names and log messages, "thinkpad_acpi" is used because of userspace |
24 | issues. | ||
24 | 25 | ||
25 | "tpacpi" is used as a shorthand where "thinkpad-acpi" would be too | 26 | "tpacpi" is used as a shorthand where "thinkpad-acpi" would be too |
26 | long due to length limitations on some Linux kernel versions. | 27 | long due to length limitations on some Linux kernel versions. |
@@ -37,7 +38,7 @@ detailed description): | |||
37 | - ThinkLight on and off | 38 | - ThinkLight on and off |
38 | - limited docking and undocking | 39 | - limited docking and undocking |
39 | - UltraBay eject | 40 | - UltraBay eject |
40 | - CMOS control | 41 | - CMOS/UCMS control |
41 | - LED control | 42 | - LED control |
42 | - ACPI sounds | 43 | - ACPI sounds |
43 | - temperature sensors | 44 | - temperature sensors |
@@ -46,6 +47,7 @@ detailed description): | |||
46 | - Volume control | 47 | - Volume control |
47 | - Fan control and monitoring: fan speed, fan enable/disable | 48 | - Fan control and monitoring: fan speed, fan enable/disable |
48 | - WAN enable and disable | 49 | - WAN enable and disable |
50 | - UWB enable and disable | ||
49 | 51 | ||
50 | A compatibility table by model and feature is maintained on the web | 52 | A compatibility table by model and feature is maintained on the web |
51 | site, http://ibm-acpi.sf.net/. I appreciate any success or failure | 53 | site, http://ibm-acpi.sf.net/. I appreciate any success or failure |
@@ -53,7 +55,7 @@ reports, especially if they add to or correct the compatibility table. | |||
53 | Please include the following information in your report: | 55 | Please include the following information in your report: |
54 | 56 | ||
55 | - ThinkPad model name | 57 | - ThinkPad model name |
56 | - a copy of your DSDT, from /proc/acpi/dsdt | 58 | - a copy of your ACPI tables, using the "acpidump" utility |
57 | - a copy of the output of dmidecode, with serial numbers | 59 | - a copy of the output of dmidecode, with serial numbers |
58 | and UUIDs masked off | 60 | and UUIDs masked off |
59 | - which driver features work and which don't | 61 | - which driver features work and which don't |
@@ -66,17 +68,18 @@ Installation | |||
66 | ------------ | 68 | ------------ |
67 | 69 | ||
68 | If you are compiling this driver as included in the Linux kernel | 70 | If you are compiling this driver as included in the Linux kernel |
69 | sources, simply enable the CONFIG_THINKPAD_ACPI option, and optionally | 71 | sources, look for the CONFIG_THINKPAD_ACPI Kconfig option. |
70 | enable the CONFIG_THINKPAD_ACPI_BAY option if you want the | 72 | It is located on the menu path: "Device Drivers" -> "X86 Platform |
71 | thinkpad-specific bay functionality. | 73 | Specific Device Drivers" -> "ThinkPad ACPI Laptop Extras". |
74 | |||
72 | 75 | ||
73 | Features | 76 | Features |
74 | -------- | 77 | -------- |
75 | 78 | ||
76 | The driver exports two different interfaces to userspace, which can be | 79 | The driver exports two different interfaces to userspace, which can be |
77 | used to access the features it provides. One is a legacy procfs-based | 80 | used to access the features it provides. One is a legacy procfs-based |
78 | interface, which will be removed at some time in the distant future. | 81 | interface, which will be removed at some time in the future. The other |
79 | The other is a new sysfs-based interface which is not complete yet. | 82 | is a new sysfs-based interface which is not complete yet. |
80 | 83 | ||
81 | The procfs interface creates the /proc/acpi/ibm directory. There is a | 84 | The procfs interface creates the /proc/acpi/ibm directory. There is a |
82 | file under that directory for each feature it supports. The procfs | 85 | file under that directory for each feature it supports. The procfs |
@@ -111,15 +114,17 @@ The version of thinkpad-acpi's sysfs interface is exported by the driver | |||
111 | as a driver attribute (see below). | 114 | as a driver attribute (see below). |
112 | 115 | ||
113 | Sysfs driver attributes are on the driver's sysfs attribute space, | 116 | Sysfs driver attributes are on the driver's sysfs attribute space, |
114 | for 2.6.23 this is /sys/bus/platform/drivers/thinkpad_acpi/ and | 117 | for 2.6.23+ this is /sys/bus/platform/drivers/thinkpad_acpi/ and |
115 | /sys/bus/platform/drivers/thinkpad_hwmon/ | 118 | /sys/bus/platform/drivers/thinkpad_hwmon/ |
116 | 119 | ||
117 | Sysfs device attributes are on the thinkpad_acpi device sysfs attribute | 120 | Sysfs device attributes are on the thinkpad_acpi device sysfs attribute |
118 | space, for 2.6.23 this is /sys/devices/platform/thinkpad_acpi/. | 121 | space, for 2.6.23+ this is /sys/devices/platform/thinkpad_acpi/. |
119 | 122 | ||
120 | Sysfs device attributes for the sensors and fan are on the | 123 | Sysfs device attributes for the sensors and fan are on the |
121 | thinkpad_hwmon device's sysfs attribute space, but you should locate it | 124 | thinkpad_hwmon device's sysfs attribute space, but you should locate it |
122 | looking for a hwmon device with the name attribute of "thinkpad". | 125 | looking for a hwmon device with the name attribute of "thinkpad", or |
126 | better yet, through libsensors. | ||
127 | |||
123 | 128 | ||
124 | Driver version | 129 | Driver version |
125 | -------------- | 130 | -------------- |
@@ -129,6 +134,7 @@ sysfs driver attribute: version | |||
129 | 134 | ||
130 | The driver name and version. No commands can be written to this file. | 135 | The driver name and version. No commands can be written to this file. |
131 | 136 | ||
137 | |||
132 | Sysfs interface version | 138 | Sysfs interface version |
133 | ----------------------- | 139 | ----------------------- |
134 | 140 | ||
@@ -160,6 +166,7 @@ expect that an attribute might not be there, and deal with it properly | |||
160 | (an attribute not being there *is* a valid way to make it clear that a | 166 | (an attribute not being there *is* a valid way to make it clear that a |
161 | feature is not available in sysfs). | 167 | feature is not available in sysfs). |
162 | 168 | ||
169 | |||
163 | Hot keys | 170 | Hot keys |
164 | -------- | 171 | -------- |
165 | 172 | ||
@@ -172,17 +179,14 @@ system. Enabling the hotkey functionality of thinkpad-acpi signals the | |||
172 | firmware that such a driver is present, and modifies how the ThinkPad | 179 | firmware that such a driver is present, and modifies how the ThinkPad |
173 | firmware will behave in many situations. | 180 | firmware will behave in many situations. |
174 | 181 | ||
175 | The driver enables the hot key feature automatically when loaded. The | 182 | The driver enables the HKEY ("hot key") event reporting automatically |
176 | feature can later be disabled and enabled back at runtime. The driver | 183 | when loaded, and disables it when it is removed. |
177 | will also restore the hot key feature to its previous state and mask | ||
178 | when it is unloaded. | ||
179 | 184 | ||
180 | When the hotkey feature is enabled and the hot key mask is set (see | 185 | The driver will report HKEY events in the following format: |
181 | below), the driver will report HKEY events in the following format: | ||
182 | 186 | ||
183 | ibm/hotkey HKEY 00000080 0000xxxx | 187 | ibm/hotkey HKEY 00000080 0000xxxx |
184 | 188 | ||
185 | Some of these events refer to hot key presses, but not all. | 189 | Some of these events refer to hot key presses, but not all of them. |
186 | 190 | ||
187 | The driver will generate events over the input layer for hot keys and | 191 | The driver will generate events over the input layer for hot keys and |
188 | radio switches, and over the ACPI netlink layer for other events. The | 192 | radio switches, and over the ACPI netlink layer for other events. The |
@@ -214,13 +218,17 @@ procfs notes: | |||
214 | 218 | ||
215 | The following commands can be written to the /proc/acpi/ibm/hotkey file: | 219 | The following commands can be written to the /proc/acpi/ibm/hotkey file: |
216 | 220 | ||
217 | echo enable > /proc/acpi/ibm/hotkey -- enable the hot keys feature | ||
218 | echo disable > /proc/acpi/ibm/hotkey -- disable the hot keys feature | ||
219 | echo 0xffffffff > /proc/acpi/ibm/hotkey -- enable all hot keys | 221 | echo 0xffffffff > /proc/acpi/ibm/hotkey -- enable all hot keys |
220 | echo 0 > /proc/acpi/ibm/hotkey -- disable all possible hot keys | 222 | echo 0 > /proc/acpi/ibm/hotkey -- disable all possible hot keys |
221 | ... any other 8-hex-digit mask ... | 223 | ... any other 8-hex-digit mask ... |
222 | echo reset > /proc/acpi/ibm/hotkey -- restore the original mask | 224 | echo reset > /proc/acpi/ibm/hotkey -- restore the original mask |
223 | 225 | ||
226 | The following commands have been deprecated and will cause the kernel | ||
227 | to log a warning: | ||
228 | |||
229 | echo enable > /proc/acpi/ibm/hotkey -- does nothing | ||
230 | echo disable > /proc/acpi/ibm/hotkey -- returns an error | ||
231 | |||
224 | The procfs interface does not support NVRAM polling control. So as to | 232 | The procfs interface does not support NVRAM polling control. So as to |
225 | maintain maximum bug-to-bug compatibility, it does not report any masks, | 233 | maintain maximum bug-to-bug compatibility, it does not report any masks, |
226 | nor does it allow one to manipulate the hot key mask when the firmware | 234 | nor does it allow one to manipulate the hot key mask when the firmware |
@@ -229,12 +237,9 @@ does not support masks at all, even if NVRAM polling is in use. | |||
229 | sysfs notes: | 237 | sysfs notes: |
230 | 238 | ||
231 | hotkey_bios_enabled: | 239 | hotkey_bios_enabled: |
232 | Returns the status of the hot keys feature when | 240 | DEPRECATED, WILL BE REMOVED SOON. |
233 | thinkpad-acpi was loaded. Upon module unload, the hot | ||
234 | key feature status will be restored to this value. | ||
235 | 241 | ||
236 | 0: hot keys were disabled | 242 | Returns 0. |
237 | 1: hot keys were enabled (unusual) | ||
238 | 243 | ||
239 | hotkey_bios_mask: | 244 | hotkey_bios_mask: |
240 | Returns the hot keys mask when thinkpad-acpi was loaded. | 245 | Returns the hot keys mask when thinkpad-acpi was loaded. |
@@ -242,13 +247,10 @@ sysfs notes: | |||
242 | to this value. | 247 | to this value. |
243 | 248 | ||
244 | hotkey_enable: | 249 | hotkey_enable: |
245 | Enables/disables the hot keys feature in the ACPI | 250 | DEPRECATED, WILL BE REMOVED SOON. |
246 | firmware, and reports current status of the hot keys | ||
247 | feature. Has no effect on the NVRAM hot key polling | ||
248 | functionality. | ||
249 | 251 | ||
250 | 0: disables the hot keys feature / feature disabled | 252 | 0: returns -EPERM |
251 | 1: enables the hot keys feature / feature enabled | 253 | 1: does nothing |
252 | 254 | ||
253 | hotkey_mask: | 255 | hotkey_mask: |
254 | bit mask to enable driver-handling (and depending on | 256 | bit mask to enable driver-handling (and depending on |
@@ -618,6 +620,7 @@ For Lenovo models *with* ACPI backlight control: | |||
618 | and map them to KEY_BRIGHTNESS_UP and KEY_BRIGHTNESS_DOWN. Process | 620 | and map them to KEY_BRIGHTNESS_UP and KEY_BRIGHTNESS_DOWN. Process |
619 | these keys on userspace somehow (e.g. by calling xbacklight). | 621 | these keys on userspace somehow (e.g. by calling xbacklight). |
620 | 622 | ||
623 | |||
621 | Bluetooth | 624 | Bluetooth |
622 | --------- | 625 | --------- |
623 | 626 | ||
@@ -628,6 +631,9 @@ sysfs rfkill class: switch "tpacpi_bluetooth_sw" | |||
628 | This feature shows the presence and current state of a ThinkPad | 631 | This feature shows the presence and current state of a ThinkPad |
629 | Bluetooth device in the internal ThinkPad CDC slot. | 632 | Bluetooth device in the internal ThinkPad CDC slot. |
630 | 633 | ||
634 | If the ThinkPad supports it, the Bluetooth state is stored in NVRAM, | ||
635 | so it is kept across reboots and power-off. | ||
636 | |||
631 | Procfs notes: | 637 | Procfs notes: |
632 | 638 | ||
633 | If Bluetooth is installed, the following commands can be used: | 639 | If Bluetooth is installed, the following commands can be used: |
@@ -652,6 +658,7 @@ Sysfs notes: | |||
652 | rfkill controller switch "tpacpi_bluetooth_sw": refer to | 658 | rfkill controller switch "tpacpi_bluetooth_sw": refer to |
653 | Documentation/rfkill.txt for details. | 659 | Documentation/rfkill.txt for details. |
654 | 660 | ||
661 | |||
655 | Video output control -- /proc/acpi/ibm/video | 662 | Video output control -- /proc/acpi/ibm/video |
656 | -------------------------------------------- | 663 | -------------------------------------------- |
657 | 664 | ||
@@ -693,11 +700,8 @@ Fn-F7 from working. This also disables the video output switching | |||
693 | features of this driver, as it uses the same ACPI methods as | 700 | features of this driver, as it uses the same ACPI methods as |
694 | Fn-F7. Video switching on the console should still work. | 701 | Fn-F7. Video switching on the console should still work. |
695 | 702 | ||
696 | UPDATE: There's now a patch for the X.org Radeon driver which | 703 | UPDATE: refer to https://bugs.freedesktop.org/show_bug.cgi?id=2000 |
697 | addresses this issue. Some people are reporting success with the patch | ||
698 | while others are still having problems. For more information: | ||
699 | 704 | ||
700 | https://bugs.freedesktop.org/show_bug.cgi?id=2000 | ||
701 | 705 | ||
702 | ThinkLight control | 706 | ThinkLight control |
703 | ------------------ | 707 | ------------------ |
@@ -720,10 +724,11 @@ The ThinkLight sysfs interface is documented by the LED class | |||
720 | documentation, in Documentation/leds-class.txt. The ThinkLight LED name | 724 | documentation, in Documentation/leds-class.txt. The ThinkLight LED name |
721 | is "tpacpi::thinklight". | 725 | is "tpacpi::thinklight". |
722 | 726 | ||
723 | Due to limitations in the sysfs LED class, if the status of the thinklight | 727 | Due to limitations in the sysfs LED class, if the status of the ThinkLight |
724 | cannot be read or if it is unknown, thinkpad-acpi will report it as "off". | 728 | cannot be read or if it is unknown, thinkpad-acpi will report it as "off". |
725 | It is impossible to know if the status returned through sysfs is valid. | 729 | It is impossible to know if the status returned through sysfs is valid. |
726 | 730 | ||
731 | |||
727 | Docking / undocking -- /proc/acpi/ibm/dock | 732 | Docking / undocking -- /proc/acpi/ibm/dock |
728 | ------------------------------------------ | 733 | ------------------------------------------ |
729 | 734 | ||
@@ -784,6 +789,7 @@ the only docking stations currently supported are the X-series | |||
784 | UltraBase docks and "dumb" port replicators like the Mini Dock (the | 789 | UltraBase docks and "dumb" port replicators like the Mini Dock (the |
785 | latter don't need any ACPI support, actually). | 790 | latter don't need any ACPI support, actually). |
786 | 791 | ||
792 | |||
787 | UltraBay eject -- /proc/acpi/ibm/bay | 793 | UltraBay eject -- /proc/acpi/ibm/bay |
788 | ------------------------------------ | 794 | ------------------------------------ |
789 | 795 | ||
@@ -847,8 +853,9 @@ supported. Use "eject2" instead of "eject" for the second bay. | |||
847 | Note: the UltraBay eject support on the 600e/x, A22p and A3x is | 853 | Note: the UltraBay eject support on the 600e/x, A22p and A3x is |
848 | EXPERIMENTAL and may not work as expected. USE WITH CAUTION! | 854 | EXPERIMENTAL and may not work as expected. USE WITH CAUTION! |
849 | 855 | ||
850 | CMOS control | 856 | |
851 | ------------ | 857 | CMOS/UCMS control |
858 | ----------------- | ||
852 | 859 | ||
853 | procfs: /proc/acpi/ibm/cmos | 860 | procfs: /proc/acpi/ibm/cmos |
854 | sysfs device attribute: cmos_command | 861 | sysfs device attribute: cmos_command |
@@ -882,6 +889,7 @@ The cmos command interface is prone to firmware split-brain problems, as | |||
882 | in newer ThinkPads it is just a compatibility layer. Do not use it, it is | 889 | in newer ThinkPads it is just a compatibility layer. Do not use it, it is |
883 | exported just as a debug tool. | 890 | exported just as a debug tool. |
884 | 891 | ||
892 | |||
885 | LED control | 893 | LED control |
886 | ----------- | 894 | ----------- |
887 | 895 | ||
@@ -893,6 +901,17 @@ some older ThinkPad models, it is possible to query the status of the | |||
893 | LED indicators as well. Newer ThinkPads cannot query the real status | 901 | LED indicators as well. Newer ThinkPads cannot query the real status |
894 | of the LED indicators. | 902 | of the LED indicators. |
895 | 903 | ||
904 | Because misuse of the LEDs could induce an unaware user to perform | ||
905 | dangerous actions (like undocking or ejecting a bay device while the | ||
906 | buses are still active), or mask an important alarm (such as a nearly | ||
907 | empty battery, or a broken battery), access to most LEDs is | ||
908 | restricted. | ||
909 | |||
910 | Unrestricted access to all LEDs requires that thinkpad-acpi be | ||
911 | compiled with the CONFIG_THINKPAD_ACPI_UNSAFE_LEDS option enabled. | ||
912 | Distributions must never enable this option. Individual users that | ||
913 | are aware of the consequences are welcome to enabling it. | ||
914 | |||
896 | procfs notes: | 915 | procfs notes: |
897 | 916 | ||
898 | The available commands are: | 917 | The available commands are: |
@@ -939,6 +958,7 @@ ThinkPad indicator LED should blink in hardware accelerated mode, use the | |||
939 | "timer" trigger, and leave the delay_on and delay_off parameters set to | 958 | "timer" trigger, and leave the delay_on and delay_off parameters set to |
940 | zero (to request hardware acceleration autodetection). | 959 | zero (to request hardware acceleration autodetection). |
941 | 960 | ||
961 | |||
942 | ACPI sounds -- /proc/acpi/ibm/beep | 962 | ACPI sounds -- /proc/acpi/ibm/beep |
943 | ---------------------------------- | 963 | ---------------------------------- |
944 | 964 | ||
@@ -968,6 +988,7 @@ X40: | |||
968 | 16 - one medium-pitched beep repeating constantly, stop with 17 | 988 | 16 - one medium-pitched beep repeating constantly, stop with 17 |
969 | 17 - stop 16 | 989 | 17 - stop 16 |
970 | 990 | ||
991 | |||
971 | Temperature sensors | 992 | Temperature sensors |
972 | ------------------- | 993 | ------------------- |
973 | 994 | ||
@@ -1115,6 +1136,7 @@ registers contain the current battery capacity, etc. If you experiment | |||
1115 | with this, do send me your results (including some complete dumps with | 1136 | with this, do send me your results (including some complete dumps with |
1116 | a description of the conditions when they were taken.) | 1137 | a description of the conditions when they were taken.) |
1117 | 1138 | ||
1139 | |||
1118 | LCD brightness control | 1140 | LCD brightness control |
1119 | ---------------------- | 1141 | ---------------------- |
1120 | 1142 | ||
@@ -1124,10 +1146,9 @@ sysfs backlight device "thinkpad_screen" | |||
1124 | This feature allows software control of the LCD brightness on ThinkPad | 1146 | This feature allows software control of the LCD brightness on ThinkPad |
1125 | models which don't have a hardware brightness slider. | 1147 | models which don't have a hardware brightness slider. |
1126 | 1148 | ||
1127 | It has some limitations: the LCD backlight cannot be actually turned on or | 1149 | It has some limitations: the LCD backlight cannot be actually turned |
1128 | off by this interface, and in many ThinkPad models, the "dim while on | 1150 | on or off by this interface, it just controls the backlight brightness |
1129 | battery" functionality will be enabled by the BIOS when this interface is | 1151 | level. |
1130 | used, and cannot be controlled. | ||
1131 | 1152 | ||
1132 | On IBM (and some of the earlier Lenovo) ThinkPads, the backlight control | 1153 | On IBM (and some of the earlier Lenovo) ThinkPads, the backlight control |
1133 | has eight brightness levels, ranging from 0 to 7. Some of the levels | 1154 | has eight brightness levels, ranging from 0 to 7. Some of the levels |
@@ -1136,10 +1157,15 @@ display backlight brightness control methods have 16 levels, ranging | |||
1136 | from 0 to 15. | 1157 | from 0 to 15. |
1137 | 1158 | ||
1138 | There are two interfaces to the firmware for direct brightness control, | 1159 | There are two interfaces to the firmware for direct brightness control, |
1139 | EC and CMOS. To select which one should be used, use the | 1160 | EC and UCMS (or CMOS). To select which one should be used, use the |
1140 | brightness_mode module parameter: brightness_mode=1 selects EC mode, | 1161 | brightness_mode module parameter: brightness_mode=1 selects EC mode, |
1141 | brightness_mode=2 selects CMOS mode, brightness_mode=3 selects both EC | 1162 | brightness_mode=2 selects UCMS mode, brightness_mode=3 selects EC |
1142 | and CMOS. The driver tries to auto-detect which interface to use. | 1163 | mode with NVRAM backing (so that brightness changes are remembered |
1164 | across shutdown/reboot). | ||
1165 | |||
1166 | The driver tries to select which interface to use from a table of | ||
1167 | defaults for each ThinkPad model. If it makes a wrong choice, please | ||
1168 | report this as a bug, so that we can fix it. | ||
1143 | 1169 | ||
1144 | When display backlight brightness controls are available through the | 1170 | When display backlight brightness controls are available through the |
1145 | standard ACPI interface, it is best to use it instead of this direct | 1171 | standard ACPI interface, it is best to use it instead of this direct |
@@ -1201,6 +1227,7 @@ WARNING: | |||
1201 | and maybe reduce the life of the backlight lamps by needlessly kicking | 1227 | and maybe reduce the life of the backlight lamps by needlessly kicking |
1202 | its level up and down at every change. | 1228 | its level up and down at every change. |
1203 | 1229 | ||
1230 | |||
1204 | Volume control -- /proc/acpi/ibm/volume | 1231 | Volume control -- /proc/acpi/ibm/volume |
1205 | --------------------------------------- | 1232 | --------------------------------------- |
1206 | 1233 | ||
@@ -1217,6 +1244,11 @@ distinct. The unmute the volume after the mute command, use either the | |||
1217 | up or down command (the level command will not unmute the volume). | 1244 | up or down command (the level command will not unmute the volume). |
1218 | The current volume level and mute state is shown in the file. | 1245 | The current volume level and mute state is shown in the file. |
1219 | 1246 | ||
1247 | The ALSA mixer interface to this feature is still missing, but patches | ||
1248 | to add it exist. That problem should be addressed in the not so | ||
1249 | distant future. | ||
1250 | |||
1251 | |||
1220 | Fan control and monitoring: fan speed, fan enable/disable | 1252 | Fan control and monitoring: fan speed, fan enable/disable |
1221 | --------------------------------------------------------- | 1253 | --------------------------------------------------------- |
1222 | 1254 | ||
@@ -1383,8 +1415,11 @@ procfs: /proc/acpi/ibm/wan | |||
1383 | sysfs device attribute: wwan_enable (deprecated) | 1415 | sysfs device attribute: wwan_enable (deprecated) |
1384 | sysfs rfkill class: switch "tpacpi_wwan_sw" | 1416 | sysfs rfkill class: switch "tpacpi_wwan_sw" |
1385 | 1417 | ||
1386 | This feature shows the presence and current state of a W-WAN (Sierra | 1418 | This feature shows the presence and current state of the built-in |
1387 | Wireless EV-DO) device. | 1419 | Wireless WAN device. |
1420 | |||
1421 | If the ThinkPad supports it, the WWAN state is stored in NVRAM, | ||
1422 | so it is kept across reboots and power-off. | ||
1388 | 1423 | ||
1389 | It was tested on a Lenovo ThinkPad X60. It should probably work on other | 1424 | It was tested on a Lenovo ThinkPad X60. It should probably work on other |
1390 | ThinkPad models which come with this module installed. | 1425 | ThinkPad models which come with this module installed. |
@@ -1413,6 +1448,7 @@ Sysfs notes: | |||
1413 | rfkill controller switch "tpacpi_wwan_sw": refer to | 1448 | rfkill controller switch "tpacpi_wwan_sw": refer to |
1414 | Documentation/rfkill.txt for details. | 1449 | Documentation/rfkill.txt for details. |
1415 | 1450 | ||
1451 | |||
1416 | EXPERIMENTAL: UWB | 1452 | EXPERIMENTAL: UWB |
1417 | ----------------- | 1453 | ----------------- |
1418 | 1454 | ||
@@ -1431,6 +1467,7 @@ Sysfs notes: | |||
1431 | rfkill controller switch "tpacpi_uwb_sw": refer to | 1467 | rfkill controller switch "tpacpi_uwb_sw": refer to |
1432 | Documentation/rfkill.txt for details. | 1468 | Documentation/rfkill.txt for details. |
1433 | 1469 | ||
1470 | |||
1434 | Multiple Commands, Module Parameters | 1471 | Multiple Commands, Module Parameters |
1435 | ------------------------------------ | 1472 | ------------------------------------ |
1436 | 1473 | ||
@@ -1445,6 +1482,7 @@ for example: | |||
1445 | 1482 | ||
1446 | modprobe thinkpad_acpi hotkey=enable,0xffff video=auto_disable | 1483 | modprobe thinkpad_acpi hotkey=enable,0xffff video=auto_disable |
1447 | 1484 | ||
1485 | |||
1448 | Enabling debugging output | 1486 | Enabling debugging output |
1449 | ------------------------- | 1487 | ------------------------- |
1450 | 1488 | ||
@@ -1457,8 +1495,15 @@ will enable all debugging output classes. It takes a bitmask, so | |||
1457 | to enable more than one output class, just add their values. | 1495 | to enable more than one output class, just add their values. |
1458 | 1496 | ||
1459 | Debug bitmask Description | 1497 | Debug bitmask Description |
1498 | 0x8000 Disclose PID of userspace programs | ||
1499 | accessing some functions of the driver | ||
1460 | 0x0001 Initialization and probing | 1500 | 0x0001 Initialization and probing |
1461 | 0x0002 Removal | 1501 | 0x0002 Removal |
1502 | 0x0004 RF Transmitter control (RFKILL) | ||
1503 | (bluetooth, WWAN, UWB...) | ||
1504 | 0x0008 HKEY event interface, hotkeys | ||
1505 | 0x0010 Fan control | ||
1506 | 0x0020 Backlight brightness | ||
1462 | 1507 | ||
1463 | There is also a kernel build option to enable more debugging | 1508 | There is also a kernel build option to enable more debugging |
1464 | information, which may be necessary to debug driver problems. | 1509 | information, which may be necessary to debug driver problems. |
@@ -1467,6 +1512,7 @@ The level of debugging information output by the driver can be changed | |||
1467 | at runtime through sysfs, using the driver attribute debug_level. The | 1512 | at runtime through sysfs, using the driver attribute debug_level. The |
1468 | attribute takes the same bitmask as the debug module parameter above. | 1513 | attribute takes the same bitmask as the debug module parameter above. |
1469 | 1514 | ||
1515 | |||
1470 | Force loading of module | 1516 | Force loading of module |
1471 | ----------------------- | 1517 | ----------------------- |
1472 | 1518 | ||
@@ -1505,3 +1551,7 @@ Sysfs interface changelog: | |||
1505 | 1551 | ||
1506 | 0x020200: Add poll()/select() support to the following attributes: | 1552 | 0x020200: Add poll()/select() support to the following attributes: |
1507 | hotkey_radio_sw, wakeup_hotunplug_complete, wakeup_reason | 1553 | hotkey_radio_sw, wakeup_hotunplug_complete, wakeup_reason |
1554 | |||
1555 | 0x020300: hotkey enable/disable support removed, attributes | ||
1556 | hotkey_bios_enabled and hotkey_enable deprecated and | ||
1557 | marked for removal. | ||
diff --git a/Documentation/lguest/.gitignore b/Documentation/lguest/.gitignore new file mode 100644 index 000000000000..115587fd5f65 --- /dev/null +++ b/Documentation/lguest/.gitignore | |||
@@ -0,0 +1 @@ | |||
lguest | |||
diff --git a/Documentation/lguest/lguest.txt b/Documentation/lguest/lguest.txt index 29510dc51510..28c747362f95 100644 --- a/Documentation/lguest/lguest.txt +++ b/Documentation/lguest/lguest.txt | |||
@@ -3,11 +3,11 @@ | |||
3 | /, /` - or, A Young Coder's Illustrated Hypervisor | 3 | /, /` - or, A Young Coder's Illustrated Hypervisor |
4 | \\"--\\ http://lguest.ozlabs.org | 4 | \\"--\\ http://lguest.ozlabs.org |
5 | 5 | ||
6 | Lguest is designed to be a minimal hypervisor for the Linux kernel, for | 6 | Lguest is designed to be a minimal 32-bit x86 hypervisor for the Linux kernel, |
7 | Linux developers and users to experiment with virtualization with the | 7 | for Linux developers and users to experiment with virtualization with the |
8 | minimum of complexity. Nonetheless, it should have sufficient | 8 | minimum of complexity. Nonetheless, it should have sufficient features to |
9 | features to make it useful for specific tasks, and, of course, you are | 9 | make it useful for specific tasks, and, of course, you are encouraged to fork |
10 | encouraged to fork and enhance it (see drivers/lguest/README). | 10 | and enhance it (see drivers/lguest/README). |
11 | 11 | ||
12 | Features: | 12 | Features: |
13 | 13 | ||
@@ -37,6 +37,7 @@ Running Lguest: | |||
37 | "Paravirtualized guest support" = Y | 37 | "Paravirtualized guest support" = Y |
38 | "Lguest guest support" = Y | 38 | "Lguest guest support" = Y |
39 | "High Memory Support" = off/4GB | 39 | "High Memory Support" = off/4GB |
40 | "PAE (Physical Address Extension) Support" = N | ||
40 | "Alignment value to which kernel should be aligned" = 0x100000 | 41 | "Alignment value to which kernel should be aligned" = 0x100000 |
41 | (CONFIG_PARAVIRT=y, CONFIG_LGUEST_GUEST=y, CONFIG_HIGHMEM64G=n and | 42 | (CONFIG_PARAVIRT=y, CONFIG_LGUEST_GUEST=y, CONFIG_HIGHMEM64G=n and |
42 | CONFIG_PHYSICAL_ALIGN=0x100000) | 43 | CONFIG_PHYSICAL_ALIGN=0x100000) |
diff --git a/Documentation/lockdep-design.txt b/Documentation/lockdep-design.txt index 938ea22f2cc0..e20d913d5914 100644 --- a/Documentation/lockdep-design.txt +++ b/Documentation/lockdep-design.txt | |||
@@ -54,9 +54,9 @@ locking error messages, inside curlies. A contrived example: | |||
54 | The bit position indicates STATE, STATE-read, for each of the states listed | 54 | The bit position indicates STATE, STATE-read, for each of the states listed |
55 | above, and the character displayed in each indicates: | 55 | above, and the character displayed in each indicates: |
56 | 56 | ||
57 | '.' acquired while irqs disabled | 57 | '.' acquired while irqs disabled and not in irq context |
58 | '+' acquired in irq context | 58 | '-' acquired in irq context |
59 | '-' acquired with irqs enabled | 59 | '+' acquired with irqs enabled |
60 | '?' acquired in irq context with irqs enabled. | 60 | '?' acquired in irq context with irqs enabled. |
61 | 61 | ||
62 | Unused mutexes cannot be part of the cause of an error. | 62 | Unused mutexes cannot be part of the cause of an error. |
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2909 | </g> | ||
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2911 | </svg> | ||
diff --git a/Documentation/logo.txt b/Documentation/logo.txt index a2e62445e28e..296f0f7f67eb 100644 --- a/Documentation/logo.txt +++ b/Documentation/logo.txt | |||
@@ -1,4 +1,13 @@ | |||
1 | Tux is taking a three month sabbatical to work as a barber, so Tuz is | 1 | This is the full-colour version of the currently unofficial Linux logo |
2 | standing in. He's taken pains to ensure you'll hardly notice. | 2 | ("currently unofficial" just means that there has been no paperwork and |
3 | that I have not really announced it yet). It was created by Larry Ewing, | ||
4 | and is freely usable as long as you acknowledge Larry as the original | ||
5 | artist. | ||
6 | |||
7 | Note that there are black-and-white versions of this available that | ||
8 | scale down to smaller sizes and are better for letterheads or whatever | ||
9 | you want to use it for: for the full range of logos take a look at | ||
10 | Larry's web-page: | ||
11 | |||
12 | http://www.isc.tamu.edu/~lewing/linux/ | ||
3 | 13 | ||
4 | Image by Andrew McGown and Josh Bush. Image is licensed CC BY-SA. | ||
diff --git a/Documentation/networking/bonding.txt b/Documentation/networking/bonding.txt index 5ede7473b425..08762750f121 100644 --- a/Documentation/networking/bonding.txt +++ b/Documentation/networking/bonding.txt | |||
@@ -1242,7 +1242,7 @@ monitoring is enabled, and vice-versa. | |||
1242 | To add ARP targets: | 1242 | To add ARP targets: |
1243 | # echo +192.168.0.100 > /sys/class/net/bond0/bonding/arp_ip_target | 1243 | # echo +192.168.0.100 > /sys/class/net/bond0/bonding/arp_ip_target |
1244 | # echo +192.168.0.101 > /sys/class/net/bond0/bonding/arp_ip_target | 1244 | # echo +192.168.0.101 > /sys/class/net/bond0/bonding/arp_ip_target |
1245 | NOTE: up to 10 target addresses may be specified. | 1245 | NOTE: up to 16 target addresses may be specified. |
1246 | 1246 | ||
1247 | To remove an ARP target: | 1247 | To remove an ARP target: |
1248 | # echo -192.168.0.100 > /sys/class/net/bond0/bonding/arp_ip_target | 1248 | # echo -192.168.0.100 > /sys/class/net/bond0/bonding/arp_ip_target |
diff --git a/Documentation/powerpc/booting-without-of.txt b/Documentation/powerpc/booting-without-of.txt index 0ab0230cbcb0..d16b7a1c3793 100644 --- a/Documentation/powerpc/booting-without-of.txt +++ b/Documentation/powerpc/booting-without-of.txt | |||
@@ -43,12 +43,11 @@ Table of Contents | |||
43 | 2) Representing devices without a current OF specification | 43 | 2) Representing devices without a current OF specification |
44 | a) PHY nodes | 44 | a) PHY nodes |
45 | b) Interrupt controllers | 45 | b) Interrupt controllers |
46 | c) CFI or JEDEC memory-mapped NOR flash | 46 | c) 4xx/Axon EMAC ethernet nodes |
47 | d) 4xx/Axon EMAC ethernet nodes | 47 | d) Xilinx IP cores |
48 | e) Xilinx IP cores | 48 | e) USB EHCI controllers |
49 | f) USB EHCI controllers | 49 | f) MDIO on GPIOs |
50 | g) MDIO on GPIOs | 50 | g) SPI busses |
51 | h) SPI busses | ||
52 | 51 | ||
53 | VII - Marvell Discovery mv64[345]6x System Controller chips | 52 | VII - Marvell Discovery mv64[345]6x System Controller chips |
54 | 1) The /system-controller node | 53 | 1) The /system-controller node |
@@ -999,7 +998,7 @@ compatibility. | |||
999 | translation of SOC addresses for memory mapped SOC registers. | 998 | translation of SOC addresses for memory mapped SOC registers. |
1000 | - bus-frequency: Contains the bus frequency for the SOC node. | 999 | - bus-frequency: Contains the bus frequency for the SOC node. |
1001 | Typically, the value of this field is filled in by the boot | 1000 | Typically, the value of this field is filled in by the boot |
1002 | loader. | 1001 | loader. |
1003 | 1002 | ||
1004 | 1003 | ||
1005 | Recommended properties: | 1004 | Recommended properties: |
@@ -1287,71 +1286,7 @@ platforms are moved over to use the flattened-device-tree model. | |||
1287 | device_type = "open-pic"; | 1286 | device_type = "open-pic"; |
1288 | }; | 1287 | }; |
1289 | 1288 | ||
1290 | c) CFI or JEDEC memory-mapped NOR flash | 1289 | c) 4xx/Axon EMAC ethernet nodes |
1291 | |||
1292 | Flash chips (Memory Technology Devices) are often used for solid state | ||
1293 | file systems on embedded devices. | ||
1294 | |||
1295 | - compatible : should contain the specific model of flash chip(s) | ||
1296 | used, if known, followed by either "cfi-flash" or "jedec-flash" | ||
1297 | - reg : Address range of the flash chip | ||
1298 | - bank-width : Width (in bytes) of the flash bank. Equal to the | ||
1299 | device width times the number of interleaved chips. | ||
1300 | - device-width : (optional) Width of a single flash chip. If | ||
1301 | omitted, assumed to be equal to 'bank-width'. | ||
1302 | - #address-cells, #size-cells : Must be present if the flash has | ||
1303 | sub-nodes representing partitions (see below). In this case | ||
1304 | both #address-cells and #size-cells must be equal to 1. | ||
1305 | |||
1306 | For JEDEC compatible devices, the following additional properties | ||
1307 | are defined: | ||
1308 | |||
1309 | - vendor-id : Contains the flash chip's vendor id (1 byte). | ||
1310 | - device-id : Contains the flash chip's device id (1 byte). | ||
1311 | |||
1312 | In addition to the information on the flash bank itself, the | ||
1313 | device tree may optionally contain additional information | ||
1314 | describing partitions of the flash address space. This can be | ||
1315 | used on platforms which have strong conventions about which | ||
1316 | portions of the flash are used for what purposes, but which don't | ||
1317 | use an on-flash partition table such as RedBoot. | ||
1318 | |||
1319 | Each partition is represented as a sub-node of the flash device. | ||
1320 | Each node's name represents the name of the corresponding | ||
1321 | partition of the flash device. | ||
1322 | |||
1323 | Flash partitions | ||
1324 | - reg : The partition's offset and size within the flash bank. | ||
1325 | - label : (optional) The label / name for this flash partition. | ||
1326 | If omitted, the label is taken from the node name (excluding | ||
1327 | the unit address). | ||
1328 | - read-only : (optional) This parameter, if present, is a hint to | ||
1329 | Linux that this flash partition should only be mounted | ||
1330 | read-only. This is usually used for flash partitions | ||
1331 | containing early-boot firmware images or data which should not | ||
1332 | be clobbered. | ||
1333 | |||
1334 | Example: | ||
1335 | |||
1336 | flash@ff000000 { | ||
1337 | compatible = "amd,am29lv128ml", "cfi-flash"; | ||
1338 | reg = <ff000000 01000000>; | ||
1339 | bank-width = <4>; | ||
1340 | device-width = <1>; | ||
1341 | #address-cells = <1>; | ||
1342 | #size-cells = <1>; | ||
1343 | fs@0 { | ||
1344 | label = "fs"; | ||
1345 | reg = <0 f80000>; | ||
1346 | }; | ||
1347 | firmware@f80000 { | ||
1348 | label ="firmware"; | ||
1349 | reg = <f80000 80000>; | ||
1350 | read-only; | ||
1351 | }; | ||
1352 | }; | ||
1353 | |||
1354 | d) 4xx/Axon EMAC ethernet nodes | ||
1355 | 1290 | ||
1356 | The EMAC ethernet controller in IBM and AMCC 4xx chips, and also | 1291 | The EMAC ethernet controller in IBM and AMCC 4xx chips, and also |
1357 | the Axon bridge. To operate this needs to interact with a ths | 1292 | the Axon bridge. To operate this needs to interact with a ths |
@@ -1499,7 +1434,7 @@ platforms are moved over to use the flattened-device-tree model. | |||
1499 | available. | 1434 | available. |
1500 | For Axon: 0x0000012a | 1435 | For Axon: 0x0000012a |
1501 | 1436 | ||
1502 | e) Xilinx IP cores | 1437 | d) Xilinx IP cores |
1503 | 1438 | ||
1504 | The Xilinx EDK toolchain ships with a set of IP cores (devices) for use | 1439 | The Xilinx EDK toolchain ships with a set of IP cores (devices) for use |
1505 | in Xilinx Spartan and Virtex FPGAs. The devices cover the whole range | 1440 | in Xilinx Spartan and Virtex FPGAs. The devices cover the whole range |
@@ -1761,7 +1696,7 @@ platforms are moved over to use the flattened-device-tree model. | |||
1761 | listed above, nodes for these devices should include a phy-handle | 1696 | listed above, nodes for these devices should include a phy-handle |
1762 | property, and may include other common network device properties | 1697 | property, and may include other common network device properties |
1763 | like local-mac-address. | 1698 | like local-mac-address. |
1764 | 1699 | ||
1765 | iv) Xilinx Uartlite | 1700 | iv) Xilinx Uartlite |
1766 | 1701 | ||
1767 | Xilinx uartlite devices are simple fixed speed serial ports. | 1702 | Xilinx uartlite devices are simple fixed speed serial ports. |
@@ -1793,7 +1728,7 @@ platforms are moved over to use the flattened-device-tree model. | |||
1793 | - reg-offset : A value of 3 is required | 1728 | - reg-offset : A value of 3 is required |
1794 | - reg-shift : A value of 2 is required | 1729 | - reg-shift : A value of 2 is required |
1795 | 1730 | ||
1796 | f) USB EHCI controllers | 1731 | e) USB EHCI controllers |
1797 | 1732 | ||
1798 | Required properties: | 1733 | Required properties: |
1799 | - compatible : should be "usb-ehci". | 1734 | - compatible : should be "usb-ehci". |
@@ -1819,7 +1754,7 @@ platforms are moved over to use the flattened-device-tree model. | |||
1819 | big-endian; | 1754 | big-endian; |
1820 | }; | 1755 | }; |
1821 | 1756 | ||
1822 | g) MDIO on GPIOs | 1757 | f) MDIO on GPIOs |
1823 | 1758 | ||
1824 | Currently defined compatibles: | 1759 | Currently defined compatibles: |
1825 | - virtual,gpio-mdio | 1760 | - virtual,gpio-mdio |
@@ -1839,7 +1774,7 @@ platforms are moved over to use the flattened-device-tree model. | |||
1839 | &qe_pio_c 6>; | 1774 | &qe_pio_c 6>; |
1840 | }; | 1775 | }; |
1841 | 1776 | ||
1842 | h) SPI (Serial Peripheral Interface) busses | 1777 | g) SPI (Serial Peripheral Interface) busses |
1843 | 1778 | ||
1844 | SPI busses can be described with a node for the SPI master device | 1779 | SPI busses can be described with a node for the SPI master device |
1845 | and a set of child nodes for each SPI slave on the bus. For this | 1780 | and a set of child nodes for each SPI slave on the bus. For this |
diff --git a/Documentation/powerpc/dts-bindings/fsl/i2c.txt b/Documentation/powerpc/dts-bindings/fsl/i2c.txt index d0ab33e21fe6..b6d2e21474f9 100644 --- a/Documentation/powerpc/dts-bindings/fsl/i2c.txt +++ b/Documentation/powerpc/dts-bindings/fsl/i2c.txt | |||
@@ -7,8 +7,10 @@ Required properties : | |||
7 | 7 | ||
8 | Recommended properties : | 8 | Recommended properties : |
9 | 9 | ||
10 | - compatible : Should be "fsl-i2c" for parts compatible with | 10 | - compatible : compatibility list with 2 entries, the first should |
11 | Freescale I2C specifications. | 11 | be "fsl,CHIP-i2c" where CHIP is the name of a compatible processor, |
12 | e.g. mpc8313, mpc8543, mpc8544, mpc5200 or mpc5200b. The second one | ||
13 | should be "fsl-i2c". | ||
12 | - interrupts : <a b> where a is the interrupt number and b is a | 14 | - interrupts : <a b> where a is the interrupt number and b is a |
13 | field that represents an encoding of the sense and level | 15 | field that represents an encoding of the sense and level |
14 | information for the interrupt. This should be encoded based on | 16 | information for the interrupt. This should be encoded based on |
@@ -16,17 +18,31 @@ Recommended properties : | |||
16 | controller you have. | 18 | controller you have. |
17 | - interrupt-parent : the phandle for the interrupt controller that | 19 | - interrupt-parent : the phandle for the interrupt controller that |
18 | services interrupts for this device. | 20 | services interrupts for this device. |
19 | - dfsrr : boolean; if defined, indicates that this I2C device has | 21 | - fsl,preserve-clocking : boolean; if defined, the clock settings |
20 | a digital filter sampling rate register | 22 | from the bootloader are preserved (not touched). |
21 | - fsl5200-clocking : boolean; if defined, indicated that this device | 23 | - clock-frequency : desired I2C bus clock frequency in Hz. |
22 | uses the FSL 5200 clocking mechanism. | 24 | |
23 | 25 | Examples : | |
24 | Example : | 26 | |
25 | i2c@3000 { | 27 | i2c@3d00 { |
26 | interrupt-parent = <40000>; | 28 | #address-cells = <1>; |
27 | interrupts = <1b 3>; | 29 | #size-cells = <0>; |
28 | reg = <3000 18>; | 30 | compatible = "fsl,mpc5200b-i2c","fsl,mpc5200-i2c","fsl-i2c"; |
29 | device_type = "i2c"; | 31 | cell-index = <0>; |
30 | compatible = "fsl-i2c"; | 32 | reg = <0x3d00 0x40>; |
31 | dfsrr; | 33 | interrupts = <2 15 0>; |
34 | interrupt-parent = <&mpc5200_pic>; | ||
35 | fsl,preserve-clocking; | ||
32 | }; | 36 | }; |
37 | |||
38 | i2c@3100 { | ||
39 | #address-cells = <1>; | ||
40 | #size-cells = <0>; | ||
41 | cell-index = <1>; | ||
42 | compatible = "fsl,mpc8544-i2c", "fsl-i2c"; | ||
43 | reg = <0x3100 0x100>; | ||
44 | interrupts = <43 2>; | ||
45 | interrupt-parent = <&mpic>; | ||
46 | clock-frequency = <400000>; | ||
47 | }; | ||
48 | |||
diff --git a/Documentation/powerpc/dts-bindings/fsl/upm-nand.txt b/Documentation/powerpc/dts-bindings/fsl/upm-nand.txt index 84a04d5eb8e6..a48b2cadc7f0 100644 --- a/Documentation/powerpc/dts-bindings/fsl/upm-nand.txt +++ b/Documentation/powerpc/dts-bindings/fsl/upm-nand.txt | |||
@@ -5,9 +5,21 @@ Required properties: | |||
5 | - reg : should specify localbus chip select and size used for the chip. | 5 | - reg : should specify localbus chip select and size used for the chip. |
6 | - fsl,upm-addr-offset : UPM pattern offset for the address latch. | 6 | - fsl,upm-addr-offset : UPM pattern offset for the address latch. |
7 | - fsl,upm-cmd-offset : UPM pattern offset for the command latch. | 7 | - fsl,upm-cmd-offset : UPM pattern offset for the command latch. |
8 | - gpios : may specify optional GPIO connected to the Ready-Not-Busy pin. | ||
9 | 8 | ||
10 | Example: | 9 | Optional properties: |
10 | - fsl,upm-wait-flags : add chip-dependent short delays after running the | ||
11 | UPM pattern (0x1), after writing a data byte (0x2) or after | ||
12 | writing out a buffer (0x4). | ||
13 | - fsl,upm-addr-line-cs-offsets : address offsets for multi-chip support. | ||
14 | The corresponding address lines are used to select the chip. | ||
15 | - gpios : may specify optional GPIOs connected to the Ready-Not-Busy pins | ||
16 | (R/B#). For multi-chip devices, "n" GPIO definitions are required | ||
17 | according to the number of chips. | ||
18 | - chip-delay : chip dependent delay for transfering data from array to | ||
19 | read registers (tR). Required if property "gpios" is not used | ||
20 | (R/B# pins not connected). | ||
21 | |||
22 | Examples: | ||
11 | 23 | ||
12 | upm@1,0 { | 24 | upm@1,0 { |
13 | compatible = "fsl,upm-nand"; | 25 | compatible = "fsl,upm-nand"; |
@@ -26,3 +38,26 @@ upm@1,0 { | |||
26 | }; | 38 | }; |
27 | }; | 39 | }; |
28 | }; | 40 | }; |
41 | |||
42 | upm@3,0 { | ||
43 | #address-cells = <0>; | ||
44 | #size-cells = <0>; | ||
45 | compatible = "tqc,tqm8548-upm-nand", "fsl,upm-nand"; | ||
46 | reg = <3 0x0 0x800>; | ||
47 | fsl,upm-addr-offset = <0x10>; | ||
48 | fsl,upm-cmd-offset = <0x08>; | ||
49 | /* Multi-chip NAND device */ | ||
50 | fsl,upm-addr-line-cs-offsets = <0x0 0x200>; | ||
51 | fsl,upm-wait-flags = <0x5>; | ||
52 | chip-delay = <25>; // in micro-seconds | ||
53 | |||
54 | nand@0 { | ||
55 | #address-cells = <1>; | ||
56 | #size-cells = <1>; | ||
57 | |||
58 | partition@0 { | ||
59 | label = "fs"; | ||
60 | reg = <0x00000000 0x10000000>; | ||
61 | }; | ||
62 | }; | ||
63 | }; | ||
diff --git a/Documentation/powerpc/dts-bindings/gpio/led.txt b/Documentation/powerpc/dts-bindings/gpio/led.txt index ff51f4c0fa9d..4fe14deedc0a 100644 --- a/Documentation/powerpc/dts-bindings/gpio/led.txt +++ b/Documentation/powerpc/dts-bindings/gpio/led.txt | |||
@@ -1,15 +1,43 @@ | |||
1 | LED connected to GPIO | 1 | LEDs connected to GPIO lines |
2 | 2 | ||
3 | Required properties: | 3 | Required properties: |
4 | - compatible : should be "gpio-led". | 4 | - compatible : should be "gpio-leds". |
5 | - label : (optional) the label for this LED. If omitted, the label is | 5 | |
6 | Each LED is represented as a sub-node of the gpio-leds device. Each | ||
7 | node's name represents the name of the corresponding LED. | ||
8 | |||
9 | LED sub-node properties: | ||
10 | - gpios : Should specify the LED's GPIO, see "Specifying GPIO information | ||
11 | for devices" in Documentation/powerpc/booting-without-of.txt. Active | ||
12 | low LEDs should be indicated using flags in the GPIO specifier. | ||
13 | - label : (optional) The label for this LED. If omitted, the label is | ||
6 | taken from the node name (excluding the unit address). | 14 | taken from the node name (excluding the unit address). |
7 | - gpios : should specify LED GPIO. | 15 | - linux,default-trigger : (optional) This parameter, if present, is a |
16 | string defining the trigger assigned to the LED. Current triggers are: | ||
17 | "backlight" - LED will act as a back-light, controlled by the framebuffer | ||
18 | system | ||
19 | "default-on" - LED will turn on | ||
20 | "heartbeat" - LED "double" flashes at a load average based rate | ||
21 | "ide-disk" - LED indicates disk activity | ||
22 | "timer" - LED flashes at a fixed, configurable rate | ||
8 | 23 | ||
9 | Example: | 24 | Examples: |
10 | 25 | ||
11 | led@0 { | 26 | leds { |
12 | compatible = "gpio-led"; | 27 | compatible = "gpio-leds"; |
13 | label = "hdd"; | 28 | hdd { |
14 | gpios = <&mcu_pio 0 1>; | 29 | label = "IDE Activity"; |
30 | gpios = <&mcu_pio 0 1>; /* Active low */ | ||
31 | linux,default-trigger = "ide-disk"; | ||
32 | }; | ||
15 | }; | 33 | }; |
34 | |||
35 | run-control { | ||
36 | compatible = "gpio-leds"; | ||
37 | red { | ||
38 | gpios = <&mpc8572 6 0>; | ||
39 | }; | ||
40 | green { | ||
41 | gpios = <&mpc8572 7 0>; | ||
42 | }; | ||
43 | } | ||
diff --git a/Documentation/powerpc/dts-bindings/mtd-physmap.txt b/Documentation/powerpc/dts-bindings/mtd-physmap.txt new file mode 100644 index 000000000000..667c9bde8699 --- /dev/null +++ b/Documentation/powerpc/dts-bindings/mtd-physmap.txt | |||
@@ -0,0 +1,80 @@ | |||
1 | CFI or JEDEC memory-mapped NOR flash | ||
2 | |||
3 | Flash chips (Memory Technology Devices) are often used for solid state | ||
4 | file systems on embedded devices. | ||
5 | |||
6 | - compatible : should contain the specific model of flash chip(s) | ||
7 | used, if known, followed by either "cfi-flash" or "jedec-flash" | ||
8 | - reg : Address range(s) of the flash chip(s) | ||
9 | It's possible to (optionally) define multiple "reg" tuples so that | ||
10 | non-identical NOR chips can be described in one flash node. | ||
11 | - bank-width : Width (in bytes) of the flash bank. Equal to the | ||
12 | device width times the number of interleaved chips. | ||
13 | - device-width : (optional) Width of a single flash chip. If | ||
14 | omitted, assumed to be equal to 'bank-width'. | ||
15 | - #address-cells, #size-cells : Must be present if the flash has | ||
16 | sub-nodes representing partitions (see below). In this case | ||
17 | both #address-cells and #size-cells must be equal to 1. | ||
18 | |||
19 | For JEDEC compatible devices, the following additional properties | ||
20 | are defined: | ||
21 | |||
22 | - vendor-id : Contains the flash chip's vendor id (1 byte). | ||
23 | - device-id : Contains the flash chip's device id (1 byte). | ||
24 | |||
25 | In addition to the information on the flash bank itself, the | ||
26 | device tree may optionally contain additional information | ||
27 | describing partitions of the flash address space. This can be | ||
28 | used on platforms which have strong conventions about which | ||
29 | portions of the flash are used for what purposes, but which don't | ||
30 | use an on-flash partition table such as RedBoot. | ||
31 | |||
32 | Each partition is represented as a sub-node of the flash device. | ||
33 | Each node's name represents the name of the corresponding | ||
34 | partition of the flash device. | ||
35 | |||
36 | Flash partitions | ||
37 | - reg : The partition's offset and size within the flash bank. | ||
38 | - label : (optional) The label / name for this flash partition. | ||
39 | If omitted, the label is taken from the node name (excluding | ||
40 | the unit address). | ||
41 | - read-only : (optional) This parameter, if present, is a hint to | ||
42 | Linux that this flash partition should only be mounted | ||
43 | read-only. This is usually used for flash partitions | ||
44 | containing early-boot firmware images or data which should not | ||
45 | be clobbered. | ||
46 | |||
47 | Example: | ||
48 | |||
49 | flash@ff000000 { | ||
50 | compatible = "amd,am29lv128ml", "cfi-flash"; | ||
51 | reg = <ff000000 01000000>; | ||
52 | bank-width = <4>; | ||
53 | device-width = <1>; | ||
54 | #address-cells = <1>; | ||
55 | #size-cells = <1>; | ||
56 | fs@0 { | ||
57 | label = "fs"; | ||
58 | reg = <0 f80000>; | ||
59 | }; | ||
60 | firmware@f80000 { | ||
61 | label ="firmware"; | ||
62 | reg = <f80000 80000>; | ||
63 | read-only; | ||
64 | }; | ||
65 | }; | ||
66 | |||
67 | Here an example with multiple "reg" tuples: | ||
68 | |||
69 | flash@f0000000,0 { | ||
70 | #address-cells = <1>; | ||
71 | #size-cells = <1>; | ||
72 | compatible = "intel,PC48F4400P0VB", "cfi-flash"; | ||
73 | reg = <0 0x00000000 0x02000000 | ||
74 | 0 0x02000000 0x02000000>; | ||
75 | bank-width = <2>; | ||
76 | partition@0 { | ||
77 | label = "test-part1"; | ||
78 | reg = <0 0x04000000>; | ||
79 | }; | ||
80 | }; | ||
diff --git a/Documentation/scsi/aacraid.txt b/Documentation/scsi/aacraid.txt index ddace3afc83b..30f643f611b2 100644 --- a/Documentation/scsi/aacraid.txt +++ b/Documentation/scsi/aacraid.txt | |||
@@ -60,17 +60,9 @@ Supported Cards/Chipsets | |||
60 | 9005:0285:9005:02d5 Adaptec ASR-2405 (Voodoo40 Lite) | 60 | 9005:0285:9005:02d5 Adaptec ASR-2405 (Voodoo40 Lite) |
61 | 9005:0285:9005:02d6 Adaptec ASR-2445 (Voodoo44 Lite) | 61 | 9005:0285:9005:02d6 Adaptec ASR-2445 (Voodoo44 Lite) |
62 | 9005:0285:9005:02d7 Adaptec ASR-2805 (Voodoo80 Lite) | 62 | 9005:0285:9005:02d7 Adaptec ASR-2805 (Voodoo80 Lite) |
63 | 9005:0285:9005:02d8 Adaptec 5405G (Voodoo40 PM) | 63 | 9005:0285:9005:02d8 Adaptec 5405Z (Voodoo40 BLBU) |
64 | 9005:0285:9005:02d9 Adaptec 5445G (Voodoo44 PM) | 64 | 9005:0285:9005:02d9 Adaptec 5445Z (Voodoo44 BLBU) |
65 | 9005:0285:9005:02da Adaptec 5805G (Voodoo80 PM) | 65 | 9005:0285:9005:02da Adaptec 5805Z (Voodoo80 BLBU) |
66 | 9005:0285:9005:02db Adaptec 5085G (Voodoo08 PM) | ||
67 | 9005:0285:9005:02dc Adaptec 51245G (Voodoo124 PM) | ||
68 | 9005:0285:9005:02dd Adaptec 51645G (Voodoo164 PM) | ||
69 | 9005:0285:9005:02de Adaptec 52445G (Voodoo244 PM) | ||
70 | 9005:0285:9005:02df Adaptec ASR-2045G (Voodoo04 Lite PM) | ||
71 | 9005:0285:9005:02e0 Adaptec ASR-2405G (Voodoo40 Lite PM) | ||
72 | 9005:0285:9005:02e1 Adaptec ASR-2445G (Voodoo44 Lite PM) | ||
73 | 9005:0285:9005:02e2 Adaptec ASR-2805G (Voodoo80 Lite PM) | ||
74 | 1011:0046:9005:0364 Adaptec 5400S (Mustang) | 66 | 1011:0046:9005:0364 Adaptec 5400S (Mustang) |
75 | 1011:0046:9005:0365 Adaptec 5400S (Mustang) | 67 | 1011:0046:9005:0365 Adaptec 5400S (Mustang) |
76 | 9005:0287:9005:0800 Adaptec Themisto (Jupiter) | 68 | 9005:0287:9005:0800 Adaptec Themisto (Jupiter) |
@@ -140,6 +132,7 @@ Deanna Bonds (non-DASD support, PAE fibs and 64 bit, | |||
140 | where fibs that go to the hardware are consistently called hw_fibs and | 132 | where fibs that go to the hardware are consistently called hw_fibs and |
141 | not just fibs like the name of the driver tracking structure) | 133 | not just fibs like the name of the driver tracking structure) |
142 | Mark Salyzyn <Mark_Salyzyn@adaptec.com> Fixed panic issues and added some new product ids for upcoming hbas. Performance tuning, card failover and bug mitigations. | 134 | Mark Salyzyn <Mark_Salyzyn@adaptec.com> Fixed panic issues and added some new product ids for upcoming hbas. Performance tuning, card failover and bug mitigations. |
135 | Achim Leubner <Achim_Leubner@adaptec.com> | ||
143 | 136 | ||
144 | Original Driver | 137 | Original Driver |
145 | ------------------------- | 138 | ------------------------- |
diff --git a/Documentation/sound/alsa/HD-Audio.txt b/Documentation/sound/alsa/HD-Audio.txt index c5948f2f9a25..88b7433d2f11 100644 --- a/Documentation/sound/alsa/HD-Audio.txt +++ b/Documentation/sound/alsa/HD-Audio.txt | |||
@@ -169,7 +169,7 @@ PCI SSID look-up. | |||
169 | What `model` option values are available depends on the codec chip. | 169 | What `model` option values are available depends on the codec chip. |
170 | Check your codec chip from the codec proc file (see "Codec Proc-File" | 170 | Check your codec chip from the codec proc file (see "Codec Proc-File" |
171 | section below). It will show the vendor/product name of your codec | 171 | section below). It will show the vendor/product name of your codec |
172 | chip. Then, see Documentation/sound/alsa/HD-Audio-Modelstxt file, | 172 | chip. Then, see Documentation/sound/alsa/HD-Audio-Models.txt file, |
173 | the section of HD-audio driver. You can find a list of codecs | 173 | the section of HD-audio driver. You can find a list of codecs |
174 | and `model` options belonging to each codec. For example, for Realtek | 174 | and `model` options belonging to each codec. For example, for Realtek |
175 | ALC262 codec chip, pass `model=ultra` for devices that are compatible | 175 | ALC262 codec chip, pass `model=ultra` for devices that are compatible |
@@ -177,7 +177,7 @@ with Samsung Q1 Ultra. | |||
177 | 177 | ||
178 | Thus, the first thing you can do for any brand-new, unsupported and | 178 | Thus, the first thing you can do for any brand-new, unsupported and |
179 | non-working HD-audio hardware is to check HD-audio codec and several | 179 | non-working HD-audio hardware is to check HD-audio codec and several |
180 | different `model` option values. If you have a luck, some of them | 180 | different `model` option values. If you have any luck, some of them |
181 | might suit with your device well. | 181 | might suit with your device well. |
182 | 182 | ||
183 | Some codecs such as ALC880 have a special model option `model=test`. | 183 | Some codecs such as ALC880 have a special model option `model=test`. |
diff --git a/Documentation/sound/alsa/soc/jack.txt b/Documentation/sound/alsa/soc/jack.txt new file mode 100644 index 000000000000..fcf82a417293 --- /dev/null +++ b/Documentation/sound/alsa/soc/jack.txt | |||
@@ -0,0 +1,71 @@ | |||
1 | ASoC jack detection | ||
2 | =================== | ||
3 | |||
4 | ALSA has a standard API for representing physical jacks to user space, | ||
5 | the kernel side of which can be seen in include/sound/jack.h. ASoC | ||
6 | provides a version of this API adding two additional features: | ||
7 | |||
8 | - It allows more than one jack detection method to work together on one | ||
9 | user visible jack. In embedded systems it is common for multiple | ||
10 | to be present on a single jack but handled by separate bits of | ||
11 | hardware. | ||
12 | |||
13 | - Integration with DAPM, allowing DAPM endpoints to be updated | ||
14 | automatically based on the detected jack status (eg, turning off the | ||
15 | headphone outputs if no headphones are present). | ||
16 | |||
17 | This is done by splitting the jacks up into three things working | ||
18 | together: the jack itself represented by a struct snd_soc_jack, sets of | ||
19 | snd_soc_jack_pins representing DAPM endpoints to update and blocks of | ||
20 | code providing jack reporting mechanisms. | ||
21 | |||
22 | For example, a system may have a stereo headset jack with two reporting | ||
23 | mechanisms, one for the headphone and one for the microphone. Some | ||
24 | systems won't be able to use their speaker output while a headphone is | ||
25 | connected and so will want to make sure to update both speaker and | ||
26 | headphone when the headphone jack status changes. | ||
27 | |||
28 | The jack - struct snd_soc_jack | ||
29 | ============================== | ||
30 | |||
31 | This represents a physical jack on the system and is what is visible to | ||
32 | user space. The jack itself is completely passive, it is set up by the | ||
33 | machine driver and updated by jack detection methods. | ||
34 | |||
35 | Jacks are created by the machine driver calling snd_soc_jack_new(). | ||
36 | |||
37 | snd_soc_jack_pin | ||
38 | ================ | ||
39 | |||
40 | These represent a DAPM pin to update depending on some of the status | ||
41 | bits supported by the jack. Each snd_soc_jack has zero or more of these | ||
42 | which are updated automatically. They are created by the machine driver | ||
43 | and associated with the jack using snd_soc_jack_add_pins(). The status | ||
44 | of the endpoint may configured to be the opposite of the jack status if | ||
45 | required (eg, enabling a built in microphone if a microphone is not | ||
46 | connected via a jack). | ||
47 | |||
48 | Jack detection methods | ||
49 | ====================== | ||
50 | |||
51 | Actual jack detection is done by code which is able to monitor some | ||
52 | input to the system and update a jack by calling snd_soc_jack_report(), | ||
53 | specifying a subset of bits to update. The jack detection code should | ||
54 | be set up by the machine driver, taking configuration for the jack to | ||
55 | update and the set of things to report when the jack is connected. | ||
56 | |||
57 | Often this is done based on the status of a GPIO - a handler for this is | ||
58 | provided by the snd_soc_jack_add_gpio() function. Other methods are | ||
59 | also available, for example integrated into CODECs. One example of | ||
60 | CODEC integrated jack detection can be see in the WM8350 driver. | ||
61 | |||
62 | Each jack may have multiple reporting mechanisms, though it will need at | ||
63 | least one to be useful. | ||
64 | |||
65 | Machine drivers | ||
66 | =============== | ||
67 | |||
68 | These are all hooked together by the machine driver depending on the | ||
69 | system hardware. The machine driver will set up the snd_soc_jack and | ||
70 | the list of pins to update then set up one or more jack detection | ||
71 | mechanisms to update that jack based on their current status. | ||
diff --git a/Documentation/sparse.txt b/Documentation/sparse.txt index 42f43fa59f24..34c76a55bc04 100644 --- a/Documentation/sparse.txt +++ b/Documentation/sparse.txt | |||
@@ -42,6 +42,14 @@ sure that bitwise types don't get mixed up (little-endian vs big-endian | |||
42 | vs cpu-endian vs whatever), and there the constant "0" really _is_ | 42 | vs cpu-endian vs whatever), and there the constant "0" really _is_ |
43 | special. | 43 | special. |
44 | 44 | ||
45 | __bitwise__ - to be used for relatively compact stuff (gfp_t, etc.) that | ||
46 | is mostly warning-free and is supposed to stay that way. Warnings will | ||
47 | be generated without __CHECK_ENDIAN__. | ||
48 | |||
49 | __bitwise - noisy stuff; in particular, __le*/__be* are that. We really | ||
50 | don't want to drown in noise unless we'd explicitly asked for it. | ||
51 | |||
52 | |||
45 | Getting sparse | 53 | Getting sparse |
46 | ~~~~~~~~~~~~~~ | 54 | ~~~~~~~~~~~~~~ |
47 | 55 | ||
diff --git a/Documentation/spi/spi-summary b/Documentation/spi/spi-summary index 0f5122eb282b..4a02d2508bc8 100644 --- a/Documentation/spi/spi-summary +++ b/Documentation/spi/spi-summary | |||
@@ -511,10 +511,16 @@ SPI MASTER METHODS | |||
511 | This sets up the device clock rate, SPI mode, and word sizes. | 511 | This sets up the device clock rate, SPI mode, and word sizes. |
512 | Drivers may change the defaults provided by board_info, and then | 512 | Drivers may change the defaults provided by board_info, and then |
513 | call spi_setup(spi) to invoke this routine. It may sleep. | 513 | call spi_setup(spi) to invoke this routine. It may sleep. |
514 | |||
514 | Unless each SPI slave has its own configuration registers, don't | 515 | Unless each SPI slave has its own configuration registers, don't |
515 | change them right away ... otherwise drivers could corrupt I/O | 516 | change them right away ... otherwise drivers could corrupt I/O |
516 | that's in progress for other SPI devices. | 517 | that's in progress for other SPI devices. |
517 | 518 | ||
519 | ** BUG ALERT: for some reason the first version of | ||
520 | ** many spi_master drivers seems to get this wrong. | ||
521 | ** When you code setup(), ASSUME that the controller | ||
522 | ** is actively processing transfers for another device. | ||
523 | |||
518 | master->transfer(struct spi_device *spi, struct spi_message *message) | 524 | master->transfer(struct spi_device *spi, struct spi_message *message) |
519 | This must not sleep. Its responsibility is arrange that the | 525 | This must not sleep. Its responsibility is arrange that the |
520 | transfer happens and its complete() callback is issued. The two | 526 | transfer happens and its complete() callback is issued. The two |
diff --git a/Documentation/sysctl/net.txt b/Documentation/sysctl/net.txt index a34d55b65441..df38ef046f8d 100644 --- a/Documentation/sysctl/net.txt +++ b/Documentation/sysctl/net.txt | |||
@@ -95,7 +95,7 @@ of struct cmsghdr structures with appended data. | |||
95 | 95 | ||
96 | There is only one file in this directory. | 96 | There is only one file in this directory. |
97 | unix_dgram_qlen limits the max number of datagrams queued in Unix domain | 97 | unix_dgram_qlen limits the max number of datagrams queued in Unix domain |
98 | socket's buffer. It will not take effect unless PF_UNIX flag is spicified. | 98 | socket's buffer. It will not take effect unless PF_UNIX flag is specified. |
99 | 99 | ||
100 | 100 | ||
101 | 3. /proc/sys/net/ipv4 - IPV4 settings | 101 | 3. /proc/sys/net/ipv4 - IPV4 settings |
diff --git a/Documentation/sysctl/vm.txt b/Documentation/sysctl/vm.txt index 3197fc83bc51..c302ddf629a0 100644 --- a/Documentation/sysctl/vm.txt +++ b/Documentation/sysctl/vm.txt | |||
@@ -88,6 +88,10 @@ will itself start writeback. | |||
88 | If dirty_bytes is written, dirty_ratio becomes a function of its value | 88 | If dirty_bytes is written, dirty_ratio becomes a function of its value |
89 | (dirty_bytes / the amount of dirtyable system memory). | 89 | (dirty_bytes / the amount of dirtyable system memory). |
90 | 90 | ||
91 | Note: the minimum value allowed for dirty_bytes is two pages (in bytes); any | ||
92 | value lower than this limit will be ignored and the old configuration will be | ||
93 | retained. | ||
94 | |||
91 | ============================================================== | 95 | ============================================================== |
92 | 96 | ||
93 | dirty_expire_centisecs | 97 | dirty_expire_centisecs |
diff --git a/Documentation/sysfs-rules.txt b/Documentation/sysfs-rules.txt index 6049a2a84dda..5d8bc2cd250c 100644 --- a/Documentation/sysfs-rules.txt +++ b/Documentation/sysfs-rules.txt | |||
@@ -113,7 +113,7 @@ versions of the sysfs interface. | |||
113 | "devices" directory at /sys/subsystem/<name>/devices. | 113 | "devices" directory at /sys/subsystem/<name>/devices. |
114 | 114 | ||
115 | If /sys/subsystem exists, /sys/bus, /sys/class and /sys/block can be | 115 | If /sys/subsystem exists, /sys/bus, /sys/class and /sys/block can be |
116 | ignored. If it does not exist, you have always to scan all three | 116 | ignored. If it does not exist, you always have to scan all three |
117 | places, as the kernel is free to move a subsystem from one place to | 117 | places, as the kernel is free to move a subsystem from one place to |
118 | the other, as long as the devices are still reachable by the same | 118 | the other, as long as the devices are still reachable by the same |
119 | subsystem name. | 119 | subsystem name. |
diff --git a/Documentation/sysrq.txt b/Documentation/sysrq.txt index afa2946892da..cf42b820ff9d 100644 --- a/Documentation/sysrq.txt +++ b/Documentation/sysrq.txt | |||
@@ -115,6 +115,8 @@ On all - write a character to /proc/sysrq-trigger. e.g.: | |||
115 | 115 | ||
116 | 'x' - Used by xmon interface on ppc/powerpc platforms. | 116 | 'x' - Used by xmon interface on ppc/powerpc platforms. |
117 | 117 | ||
118 | 'z' - Dump the ftrace buffer | ||
119 | |||
118 | '0'-'9' - Sets the console log level, controlling which kernel messages | 120 | '0'-'9' - Sets the console log level, controlling which kernel messages |
119 | will be printed to your console. ('0', for example would make | 121 | will be printed to your console. ('0', for example would make |
120 | it so that only emergency messages like PANICs or OOPSes would | 122 | it so that only emergency messages like PANICs or OOPSes would |
diff --git a/Documentation/tomoyo.txt b/Documentation/tomoyo.txt new file mode 100644 index 000000000000..b3a232cae7f8 --- /dev/null +++ b/Documentation/tomoyo.txt | |||
@@ -0,0 +1,55 @@ | |||
1 | --- What is TOMOYO? --- | ||
2 | |||
3 | TOMOYO is a name-based MAC extension (LSM module) for the Linux kernel. | ||
4 | |||
5 | LiveCD-based tutorials are available at | ||
6 | http://tomoyo.sourceforge.jp/en/1.6.x/1st-step/ubuntu8.04-live/ | ||
7 | http://tomoyo.sourceforge.jp/en/1.6.x/1st-step/centos5-live/ . | ||
8 | Though these tutorials use non-LSM version of TOMOYO, they are useful for you | ||
9 | to know what TOMOYO is. | ||
10 | |||
11 | --- How to enable TOMOYO? --- | ||
12 | |||
13 | Build the kernel with CONFIG_SECURITY_TOMOYO=y and pass "security=tomoyo" on | ||
14 | kernel's command line. | ||
15 | |||
16 | Please see http://tomoyo.sourceforge.jp/en/2.2.x/ for details. | ||
17 | |||
18 | --- Where is documentation? --- | ||
19 | |||
20 | User <-> Kernel interface documentation is available at | ||
21 | http://tomoyo.sourceforge.jp/en/2.2.x/policy-reference.html . | ||
22 | |||
23 | Materials we prepared for seminars and symposiums are available at | ||
24 | http://sourceforge.jp/projects/tomoyo/docs/?category_id=532&language_id=1 . | ||
25 | Below lists are chosen from three aspects. | ||
26 | |||
27 | What is TOMOYO? | ||
28 | TOMOYO Linux Overview | ||
29 | http://sourceforge.jp/projects/tomoyo/docs/lca2009-takeda.pdf | ||
30 | TOMOYO Linux: pragmatic and manageable security for Linux | ||
31 | http://sourceforge.jp/projects/tomoyo/docs/freedomhectaipei-tomoyo.pdf | ||
32 | TOMOYO Linux: A Practical Method to Understand and Protect Your Own Linux Box | ||
33 | http://sourceforge.jp/projects/tomoyo/docs/PacSec2007-en-no-demo.pdf | ||
34 | |||
35 | What can TOMOYO do? | ||
36 | Deep inside TOMOYO Linux | ||
37 | http://sourceforge.jp/projects/tomoyo/docs/lca2009-kumaneko.pdf | ||
38 | The role of "pathname based access control" in security. | ||
39 | http://sourceforge.jp/projects/tomoyo/docs/lfj2008-bof.pdf | ||
40 | |||
41 | History of TOMOYO? | ||
42 | Realities of Mainlining | ||
43 | http://sourceforge.jp/projects/tomoyo/docs/lfj2008.pdf | ||
44 | |||
45 | --- What is future plan? --- | ||
46 | |||
47 | We believe that inode based security and name based security are complementary | ||
48 | and both should be used together. But unfortunately, so far, we cannot enable | ||
49 | multiple LSM modules at the same time. We feel sorry that you have to give up | ||
50 | SELinux/SMACK/AppArmor etc. when you want to use TOMOYO. | ||
51 | |||
52 | We hope that LSM becomes stackable in future. Meanwhile, you can use non-LSM | ||
53 | version of TOMOYO, available at http://tomoyo.sourceforge.jp/en/1.6.x/ . | ||
54 | LSM version of TOMOYO is a subset of non-LSM version of TOMOYO. We are planning | ||
55 | to port non-LSM version's functionalities to LSM versions. | ||
diff --git a/Documentation/ftrace.txt b/Documentation/trace/ftrace.txt index 803b1318b13d..fd9a3e693813 100644 --- a/Documentation/ftrace.txt +++ b/Documentation/trace/ftrace.txt | |||
@@ -15,31 +15,31 @@ Introduction | |||
15 | 15 | ||
16 | Ftrace is an internal tracer designed to help out developers and | 16 | Ftrace is an internal tracer designed to help out developers and |
17 | designers of systems to find what is going on inside the kernel. | 17 | designers of systems to find what is going on inside the kernel. |
18 | It can be used for debugging or analyzing latencies and performance | 18 | It can be used for debugging or analyzing latencies and |
19 | issues that take place outside of user-space. | 19 | performance issues that take place outside of user-space. |
20 | 20 | ||
21 | Although ftrace is the function tracer, it also includes an | 21 | Although ftrace is the function tracer, it also includes an |
22 | infrastructure that allows for other types of tracing. Some of the | 22 | infrastructure that allows for other types of tracing. Some of |
23 | tracers that are currently in ftrace include a tracer to trace | 23 | the tracers that are currently in ftrace include a tracer to |
24 | context switches, the time it takes for a high priority task to | 24 | trace context switches, the time it takes for a high priority |
25 | run after it was woken up, the time interrupts are disabled, and | 25 | task to run after it was woken up, the time interrupts are |
26 | more (ftrace allows for tracer plugins, which means that the list of | 26 | disabled, and more (ftrace allows for tracer plugins, which |
27 | tracers can always grow). | 27 | means that the list of tracers can always grow). |
28 | 28 | ||
29 | 29 | ||
30 | The File System | 30 | The File System |
31 | --------------- | 31 | --------------- |
32 | 32 | ||
33 | Ftrace uses the debugfs file system to hold the control files as well | 33 | Ftrace uses the debugfs file system to hold the control files as |
34 | as the files to display output. | 34 | well as the files to display output. |
35 | 35 | ||
36 | To mount the debugfs system: | 36 | To mount the debugfs system: |
37 | 37 | ||
38 | # mkdir /debug | 38 | # mkdir /debug |
39 | # mount -t debugfs nodev /debug | 39 | # mount -t debugfs nodev /debug |
40 | 40 | ||
41 | (Note: it is more common to mount at /sys/kernel/debug, but for simplicity | 41 | ( Note: it is more common to mount at /sys/kernel/debug, but for |
42 | this document will use /debug) | 42 | simplicity this document will use /debug) |
43 | 43 | ||
44 | That's it! (assuming that you have ftrace configured into your kernel) | 44 | That's it! (assuming that you have ftrace configured into your kernel) |
45 | 45 | ||
@@ -50,90 +50,124 @@ of ftrace. Here is a list of some of the key files: | |||
50 | 50 | ||
51 | Note: all time values are in microseconds. | 51 | Note: all time values are in microseconds. |
52 | 52 | ||
53 | current_tracer: This is used to set or display the current tracer | 53 | current_tracer: |
54 | that is configured. | 54 | |
55 | 55 | This is used to set or display the current tracer | |
56 | available_tracers: This holds the different types of tracers that | 56 | that is configured. |
57 | have been compiled into the kernel. The tracers | 57 | |
58 | listed here can be configured by echoing their name | 58 | available_tracers: |
59 | into current_tracer. | 59 | |
60 | 60 | This holds the different types of tracers that | |
61 | tracing_enabled: This sets or displays whether the current_tracer | 61 | have been compiled into the kernel. The |
62 | is activated and tracing or not. Echo 0 into this | 62 | tracers listed here can be configured by |
63 | file to disable the tracer or 1 to enable it. | 63 | echoing their name into current_tracer. |
64 | 64 | ||
65 | trace: This file holds the output of the trace in a human readable | 65 | tracing_enabled: |
66 | format (described below). | 66 | |
67 | 67 | This sets or displays whether the current_tracer | |
68 | latency_trace: This file shows the same trace but the information | 68 | is activated and tracing or not. Echo 0 into this |
69 | is organized more to display possible latencies | 69 | file to disable the tracer or 1 to enable it. |
70 | in the system (described below). | 70 | |
71 | 71 | trace: | |
72 | trace_pipe: The output is the same as the "trace" file but this | 72 | |
73 | file is meant to be streamed with live tracing. | 73 | This file holds the output of the trace in a human |
74 | Reads from this file will block until new data | 74 | readable format (described below). |
75 | is retrieved. Unlike the "trace" and "latency_trace" | 75 | |
76 | files, this file is a consumer. This means reading | 76 | latency_trace: |
77 | from this file causes sequential reads to display | 77 | |
78 | more current data. Once data is read from this | 78 | This file shows the same trace but the information |
79 | file, it is consumed, and will not be read | 79 | is organized more to display possible latencies |
80 | again with a sequential read. The "trace" and | 80 | in the system (described below). |
81 | "latency_trace" files are static, and if the | 81 | |
82 | tracer is not adding more data, they will display | 82 | trace_pipe: |
83 | the same information every time they are read. | 83 | |
84 | 84 | The output is the same as the "trace" file but this | |
85 | trace_options: This file lets the user control the amount of data | 85 | file is meant to be streamed with live tracing. |
86 | that is displayed in one of the above output | 86 | Reads from this file will block until new data |
87 | files. | 87 | is retrieved. Unlike the "trace" and "latency_trace" |
88 | 88 | files, this file is a consumer. This means reading | |
89 | trace_max_latency: Some of the tracers record the max latency. | 89 | from this file causes sequential reads to display |
90 | For example, the time interrupts are disabled. | 90 | more current data. Once data is read from this |
91 | This time is saved in this file. The max trace | 91 | file, it is consumed, and will not be read |
92 | will also be stored, and displayed by either | 92 | again with a sequential read. The "trace" and |
93 | "trace" or "latency_trace". A new max trace will | 93 | "latency_trace" files are static, and if the |
94 | only be recorded if the latency is greater than | 94 | tracer is not adding more data, they will display |
95 | the value in this file. (in microseconds) | 95 | the same information every time they are read. |
96 | 96 | ||
97 | buffer_size_kb: This sets or displays the number of kilobytes each CPU | 97 | trace_options: |
98 | buffer can hold. The tracer buffers are the same size | 98 | |
99 | for each CPU. The displayed number is the size of the | 99 | This file lets the user control the amount of data |
100 | CPU buffer and not total size of all buffers. The | 100 | that is displayed in one of the above output |
101 | trace buffers are allocated in pages (blocks of memory | 101 | files. |
102 | that the kernel uses for allocation, usually 4 KB in size). | 102 | |
103 | If the last page allocated has room for more bytes | 103 | tracing_max_latency: |
104 | than requested, the rest of the page will be used, | 104 | |
105 | making the actual allocation bigger than requested. | 105 | Some of the tracers record the max latency. |
106 | (Note, the size may not be a multiple of the page size due | 106 | For example, the time interrupts are disabled. |
107 | to buffer managment overhead.) | 107 | This time is saved in this file. The max trace |
108 | 108 | will also be stored, and displayed by either | |
109 | This can only be updated when the current_tracer | 109 | "trace" or "latency_trace". A new max trace will |
110 | is set to "nop". | 110 | only be recorded if the latency is greater than |
111 | 111 | the value in this file. (in microseconds) | |
112 | tracing_cpumask: This is a mask that lets the user only trace | 112 | |
113 | on specified CPUS. The format is a hex string | 113 | buffer_size_kb: |
114 | representing the CPUS. | 114 | |
115 | 115 | This sets or displays the number of kilobytes each CPU | |
116 | set_ftrace_filter: When dynamic ftrace is configured in (see the | 116 | buffer can hold. The tracer buffers are the same size |
117 | section below "dynamic ftrace"), the code is dynamically | 117 | for each CPU. The displayed number is the size of the |
118 | modified (code text rewrite) to disable calling of the | 118 | CPU buffer and not total size of all buffers. The |
119 | function profiler (mcount). This lets tracing be configured | 119 | trace buffers are allocated in pages (blocks of memory |
120 | in with practically no overhead in performance. This also | 120 | that the kernel uses for allocation, usually 4 KB in size). |
121 | has a side effect of enabling or disabling specific functions | 121 | If the last page allocated has room for more bytes |
122 | to be traced. Echoing names of functions into this file | 122 | than requested, the rest of the page will be used, |
123 | will limit the trace to only those functions. | 123 | making the actual allocation bigger than requested. |
124 | 124 | ( Note, the size may not be a multiple of the page size | |
125 | set_ftrace_notrace: This has an effect opposite to that of | 125 | due to buffer managment overhead. ) |
126 | set_ftrace_filter. Any function that is added here will not | 126 | |
127 | be traced. If a function exists in both set_ftrace_filter | 127 | This can only be updated when the current_tracer |
128 | and set_ftrace_notrace, the function will _not_ be traced. | 128 | is set to "nop". |
129 | 129 | ||
130 | set_ftrace_pid: Have the function tracer only trace a single thread. | 130 | tracing_cpumask: |
131 | 131 | ||
132 | available_filter_functions: This lists the functions that ftrace | 132 | This is a mask that lets the user only trace |
133 | has processed and can trace. These are the function | 133 | on specified CPUS. The format is a hex string |
134 | names that you can pass to "set_ftrace_filter" or | 134 | representing the CPUS. |
135 | "set_ftrace_notrace". (See the section "dynamic ftrace" | 135 | |
136 | below for more details.) | 136 | set_ftrace_filter: |
137 | |||
138 | When dynamic ftrace is configured in (see the | ||
139 | section below "dynamic ftrace"), the code is dynamically | ||
140 | modified (code text rewrite) to disable calling of the | ||
141 | function profiler (mcount). This lets tracing be configured | ||
142 | in with practically no overhead in performance. This also | ||
143 | has a side effect of enabling or disabling specific functions | ||
144 | to be traced. Echoing names of functions into this file | ||
145 | will limit the trace to only those functions. | ||
146 | |||
147 | set_ftrace_notrace: | ||
148 | |||
149 | This has an effect opposite to that of | ||
150 | set_ftrace_filter. Any function that is added here will not | ||
151 | be traced. If a function exists in both set_ftrace_filter | ||
152 | and set_ftrace_notrace, the function will _not_ be traced. | ||
153 | |||
154 | set_ftrace_pid: | ||
155 | |||
156 | Have the function tracer only trace a single thread. | ||
157 | |||
158 | set_graph_function: | ||
159 | |||
160 | Set a "trigger" function where tracing should start | ||
161 | with the function graph tracer (See the section | ||
162 | "dynamic ftrace" for more details). | ||
163 | |||
164 | available_filter_functions: | ||
165 | |||
166 | This lists the functions that ftrace | ||
167 | has processed and can trace. These are the function | ||
168 | names that you can pass to "set_ftrace_filter" or | ||
169 | "set_ftrace_notrace". (See the section "dynamic ftrace" | ||
170 | below for more details.) | ||
137 | 171 | ||
138 | 172 | ||
139 | The Tracers | 173 | The Tracers |
@@ -141,36 +175,66 @@ The Tracers | |||
141 | 175 | ||
142 | Here is the list of current tracers that may be configured. | 176 | Here is the list of current tracers that may be configured. |
143 | 177 | ||
144 | function - function tracer that uses mcount to trace all functions. | 178 | "function" |
179 | |||
180 | Function call tracer to trace all kernel functions. | ||
181 | |||
182 | "function_graph_tracer" | ||
183 | |||
184 | Similar to the function tracer except that the | ||
185 | function tracer probes the functions on their entry | ||
186 | whereas the function graph tracer traces on both entry | ||
187 | and exit of the functions. It then provides the ability | ||
188 | to draw a graph of function calls similar to C code | ||
189 | source. | ||
145 | 190 | ||
146 | sched_switch - traces the context switches between tasks. | 191 | "sched_switch" |
147 | 192 | ||
148 | irqsoff - traces the areas that disable interrupts and saves | 193 | Traces the context switches and wakeups between tasks. |
149 | the trace with the longest max latency. | ||
150 | See tracing_max_latency. When a new max is recorded, | ||
151 | it replaces the old trace. It is best to view this | ||
152 | trace via the latency_trace file. | ||
153 | 194 | ||
154 | preemptoff - Similar to irqsoff but traces and records the amount of | 195 | "irqsoff" |
155 | time for which preemption is disabled. | ||
156 | 196 | ||
157 | preemptirqsoff - Similar to irqsoff and preemptoff, but traces and | 197 | Traces the areas that disable interrupts and saves |
158 | records the largest time for which irqs and/or preemption | 198 | the trace with the longest max latency. |
159 | is disabled. | 199 | See tracing_max_latency. When a new max is recorded, |
200 | it replaces the old trace. It is best to view this | ||
201 | trace via the latency_trace file. | ||
160 | 202 | ||
161 | wakeup - Traces and records the max latency that it takes for | 203 | "preemptoff" |
162 | the highest priority task to get scheduled after | ||
163 | it has been woken up. | ||
164 | 204 | ||
165 | nop - This is not a tracer. To remove all tracers from tracing | 205 | Similar to irqsoff but traces and records the amount of |
166 | simply echo "nop" into current_tracer. | 206 | time for which preemption is disabled. |
207 | |||
208 | "preemptirqsoff" | ||
209 | |||
210 | Similar to irqsoff and preemptoff, but traces and | ||
211 | records the largest time for which irqs and/or preemption | ||
212 | is disabled. | ||
213 | |||
214 | "wakeup" | ||
215 | |||
216 | Traces and records the max latency that it takes for | ||
217 | the highest priority task to get scheduled after | ||
218 | it has been woken up. | ||
219 | |||
220 | "hw-branch-tracer" | ||
221 | |||
222 | Uses the BTS CPU feature on x86 CPUs to traces all | ||
223 | branches executed. | ||
224 | |||
225 | "nop" | ||
226 | |||
227 | This is the "trace nothing" tracer. To remove all | ||
228 | tracers from tracing simply echo "nop" into | ||
229 | current_tracer. | ||
167 | 230 | ||
168 | 231 | ||
169 | Examples of using the tracer | 232 | Examples of using the tracer |
170 | ---------------------------- | 233 | ---------------------------- |
171 | 234 | ||
172 | Here are typical examples of using the tracers when controlling them only | 235 | Here are typical examples of using the tracers when controlling |
173 | with the debugfs interface (without using any user-land utilities). | 236 | them only with the debugfs interface (without using any |
237 | user-land utilities). | ||
174 | 238 | ||
175 | Output format: | 239 | Output format: |
176 | -------------- | 240 | -------------- |
@@ -187,16 +251,16 @@ Here is an example of the output format of the file "trace" | |||
187 | bash-4251 [01] 10152.583855: _atomic_dec_and_lock <-dput | 251 | bash-4251 [01] 10152.583855: _atomic_dec_and_lock <-dput |
188 | -------- | 252 | -------- |
189 | 253 | ||
190 | A header is printed with the tracer name that is represented by the trace. | 254 | A header is printed with the tracer name that is represented by |
191 | In this case the tracer is "function". Then a header showing the format. Task | 255 | the trace. In this case the tracer is "function". Then a header |
192 | name "bash", the task PID "4251", the CPU that it was running on | 256 | showing the format. Task name "bash", the task PID "4251", the |
193 | "01", the timestamp in <secs>.<usecs> format, the function name that was | 257 | CPU that it was running on "01", the timestamp in <secs>.<usecs> |
194 | traced "path_put" and the parent function that called this function | 258 | format, the function name that was traced "path_put" and the |
195 | "path_walk". The timestamp is the time at which the function was | 259 | parent function that called this function "path_walk". The |
196 | entered. | 260 | timestamp is the time at which the function was entered. |
197 | 261 | ||
198 | The sched_switch tracer also includes tracing of task wakeups and | 262 | The sched_switch tracer also includes tracing of task wakeups |
199 | context switches. | 263 | and context switches. |
200 | 264 | ||
201 | ksoftirqd/1-7 [01] 1453.070013: 7:115:R + 2916:115:S | 265 | ksoftirqd/1-7 [01] 1453.070013: 7:115:R + 2916:115:S |
202 | ksoftirqd/1-7 [01] 1453.070013: 7:115:R + 10:115:S | 266 | ksoftirqd/1-7 [01] 1453.070013: 7:115:R + 10:115:S |
@@ -205,8 +269,8 @@ context switches. | |||
205 | kondemand/1-2916 [01] 1453.070013: 2916:115:S ==> 7:115:R | 269 | kondemand/1-2916 [01] 1453.070013: 2916:115:S ==> 7:115:R |
206 | ksoftirqd/1-7 [01] 1453.070013: 7:115:S ==> 0:140:R | 270 | ksoftirqd/1-7 [01] 1453.070013: 7:115:S ==> 0:140:R |
207 | 271 | ||
208 | Wake ups are represented by a "+" and the context switches are shown as | 272 | Wake ups are represented by a "+" and the context switches are |
209 | "==>". The format is: | 273 | shown as "==>". The format is: |
210 | 274 | ||
211 | Context switches: | 275 | Context switches: |
212 | 276 | ||
@@ -220,19 +284,20 @@ Wake ups are represented by a "+" and the context switches are shown as | |||
220 | 284 | ||
221 | <pid>:<prio>:<state> + <pid>:<prio>:<state> | 285 | <pid>:<prio>:<state> + <pid>:<prio>:<state> |
222 | 286 | ||
223 | The prio is the internal kernel priority, which is the inverse of the | 287 | The prio is the internal kernel priority, which is the inverse |
224 | priority that is usually displayed by user-space tools. Zero represents | 288 | of the priority that is usually displayed by user-space tools. |
225 | the highest priority (99). Prio 100 starts the "nice" priorities with | 289 | Zero represents the highest priority (99). Prio 100 starts the |
226 | 100 being equal to nice -20 and 139 being nice 19. The prio "140" is | 290 | "nice" priorities with 100 being equal to nice -20 and 139 being |
227 | reserved for the idle task which is the lowest priority thread (pid 0). | 291 | nice 19. The prio "140" is reserved for the idle task which is |
292 | the lowest priority thread (pid 0). | ||
228 | 293 | ||
229 | 294 | ||
230 | Latency trace format | 295 | Latency trace format |
231 | -------------------- | 296 | -------------------- |
232 | 297 | ||
233 | For traces that display latency times, the latency_trace file gives | 298 | For traces that display latency times, the latency_trace file |
234 | somewhat more information to see why a latency happened. Here is a typical | 299 | gives somewhat more information to see why a latency happened. |
235 | trace. | 300 | Here is a typical trace. |
236 | 301 | ||
237 | # tracer: irqsoff | 302 | # tracer: irqsoff |
238 | # | 303 | # |
@@ -259,20 +324,20 @@ irqsoff latency trace v1.1.5 on 2.6.26-rc8 | |||
259 | <idle>-0 0d.s1 98us : trace_hardirqs_on (do_softirq) | 324 | <idle>-0 0d.s1 98us : trace_hardirqs_on (do_softirq) |
260 | 325 | ||
261 | 326 | ||
327 | This shows that the current tracer is "irqsoff" tracing the time | ||
328 | for which interrupts were disabled. It gives the trace version | ||
329 | and the version of the kernel upon which this was executed on | ||
330 | (2.6.26-rc8). Then it displays the max latency in microsecs (97 | ||
331 | us). The number of trace entries displayed and the total number | ||
332 | recorded (both are three: #3/3). The type of preemption that was | ||
333 | used (PREEMPT). VP, KP, SP, and HP are always zero and are | ||
334 | reserved for later use. #P is the number of online CPUS (#P:2). | ||
262 | 335 | ||
263 | This shows that the current tracer is "irqsoff" tracing the time for which | 336 | The task is the process that was running when the latency |
264 | interrupts were disabled. It gives the trace version and the version | 337 | occurred. (swapper pid: 0). |
265 | of the kernel upon which this was executed on (2.6.26-rc8). Then it displays | ||
266 | the max latency in microsecs (97 us). The number of trace entries displayed | ||
267 | and the total number recorded (both are three: #3/3). The type of | ||
268 | preemption that was used (PREEMPT). VP, KP, SP, and HP are always zero | ||
269 | and are reserved for later use. #P is the number of online CPUS (#P:2). | ||
270 | |||
271 | The task is the process that was running when the latency occurred. | ||
272 | (swapper pid: 0). | ||
273 | 338 | ||
274 | The start and stop (the functions in which the interrupts were disabled and | 339 | The start and stop (the functions in which the interrupts were |
275 | enabled respectively) that caused the latencies: | 340 | disabled and enabled respectively) that caused the latencies: |
276 | 341 | ||
277 | apic_timer_interrupt is where the interrupts were disabled. | 342 | apic_timer_interrupt is where the interrupts were disabled. |
278 | do_softirq is where they were enabled again. | 343 | do_softirq is where they were enabled again. |
@@ -308,12 +373,12 @@ The above is mostly meaningful for kernel developers. | |||
308 | latency_trace file is relative to the start of the trace. | 373 | latency_trace file is relative to the start of the trace. |
309 | 374 | ||
310 | delay: This is just to help catch your eye a bit better. And | 375 | delay: This is just to help catch your eye a bit better. And |
311 | needs to be fixed to be only relative to the same CPU. | 376 | needs to be fixed to be only relative to the same CPU. |
312 | The marks are determined by the difference between this | 377 | The marks are determined by the difference between this |
313 | current trace and the next trace. | 378 | current trace and the next trace. |
314 | '!' - greater than preempt_mark_thresh (default 100) | 379 | '!' - greater than preempt_mark_thresh (default 100) |
315 | '+' - greater than 1 microsecond | 380 | '+' - greater than 1 microsecond |
316 | ' ' - less than or equal to 1 microsecond. | 381 | ' ' - less than or equal to 1 microsecond. |
317 | 382 | ||
318 | The rest is the same as the 'trace' file. | 383 | The rest is the same as the 'trace' file. |
319 | 384 | ||
@@ -321,14 +386,15 @@ The above is mostly meaningful for kernel developers. | |||
321 | trace_options | 386 | trace_options |
322 | ------------- | 387 | ------------- |
323 | 388 | ||
324 | The trace_options file is used to control what gets printed in the trace | 389 | The trace_options file is used to control what gets printed in |
325 | output. To see what is available, simply cat the file: | 390 | the trace output. To see what is available, simply cat the file: |
326 | 391 | ||
327 | cat /debug/tracing/trace_options | 392 | cat /debug/tracing/trace_options |
328 | print-parent nosym-offset nosym-addr noverbose noraw nohex nobin \ | 393 | print-parent nosym-offset nosym-addr noverbose noraw nohex nobin \ |
329 | noblock nostacktrace nosched-tree nouserstacktrace nosym-userobj | 394 | noblock nostacktrace nosched-tree nouserstacktrace nosym-userobj |
330 | 395 | ||
331 | To disable one of the options, echo in the option prepended with "no". | 396 | To disable one of the options, echo in the option prepended with |
397 | "no". | ||
332 | 398 | ||
333 | echo noprint-parent > /debug/tracing/trace_options | 399 | echo noprint-parent > /debug/tracing/trace_options |
334 | 400 | ||
@@ -338,8 +404,8 @@ To enable an option, leave off the "no". | |||
338 | 404 | ||
339 | Here are the available options: | 405 | Here are the available options: |
340 | 406 | ||
341 | print-parent - On function traces, display the calling function | 407 | print-parent - On function traces, display the calling (parent) |
342 | as well as the function being traced. | 408 | function as well as the function being traced. |
343 | 409 | ||
344 | print-parent: | 410 | print-parent: |
345 | bash-4000 [01] 1477.606694: simple_strtoul <-strict_strtoul | 411 | bash-4000 [01] 1477.606694: simple_strtoul <-strict_strtoul |
@@ -348,15 +414,16 @@ Here are the available options: | |||
348 | bash-4000 [01] 1477.606694: simple_strtoul | 414 | bash-4000 [01] 1477.606694: simple_strtoul |
349 | 415 | ||
350 | 416 | ||
351 | sym-offset - Display not only the function name, but also the offset | 417 | sym-offset - Display not only the function name, but also the |
352 | in the function. For example, instead of seeing just | 418 | offset in the function. For example, instead of |
353 | "ktime_get", you will see "ktime_get+0xb/0x20". | 419 | seeing just "ktime_get", you will see |
420 | "ktime_get+0xb/0x20". | ||
354 | 421 | ||
355 | sym-offset: | 422 | sym-offset: |
356 | bash-4000 [01] 1477.606694: simple_strtoul+0x6/0xa0 | 423 | bash-4000 [01] 1477.606694: simple_strtoul+0x6/0xa0 |
357 | 424 | ||
358 | sym-addr - this will also display the function address as well as | 425 | sym-addr - this will also display the function address as well |
359 | the function name. | 426 | as the function name. |
360 | 427 | ||
361 | sym-addr: | 428 | sym-addr: |
362 | bash-4000 [01] 1477.606694: simple_strtoul <c0339346> | 429 | bash-4000 [01] 1477.606694: simple_strtoul <c0339346> |
@@ -366,35 +433,41 @@ Here are the available options: | |||
366 | bash 4000 1 0 00000000 00010a95 [58127d26] 1720.415ms \ | 433 | bash 4000 1 0 00000000 00010a95 [58127d26] 1720.415ms \ |
367 | (+0.000ms): simple_strtoul (strict_strtoul) | 434 | (+0.000ms): simple_strtoul (strict_strtoul) |
368 | 435 | ||
369 | raw - This will display raw numbers. This option is best for use with | 436 | raw - This will display raw numbers. This option is best for |
370 | user applications that can translate the raw numbers better than | 437 | use with user applications that can translate the raw |
371 | having it done in the kernel. | 438 | numbers better than having it done in the kernel. |
372 | 439 | ||
373 | hex - Similar to raw, but the numbers will be in a hexadecimal format. | 440 | hex - Similar to raw, but the numbers will be in a hexadecimal |
441 | format. | ||
374 | 442 | ||
375 | bin - This will print out the formats in raw binary. | 443 | bin - This will print out the formats in raw binary. |
376 | 444 | ||
377 | block - TBD (needs update) | 445 | block - TBD (needs update) |
378 | 446 | ||
379 | stacktrace - This is one of the options that changes the trace itself. | 447 | stacktrace - This is one of the options that changes the trace |
380 | When a trace is recorded, so is the stack of functions. | 448 | itself. When a trace is recorded, so is the stack |
381 | This allows for back traces of trace sites. | 449 | of functions. This allows for back traces of |
450 | trace sites. | ||
382 | 451 | ||
383 | userstacktrace - This option changes the trace. | 452 | userstacktrace - This option changes the trace. It records a |
384 | It records a stacktrace of the current userspace thread. | 453 | stacktrace of the current userspace thread. |
385 | 454 | ||
386 | sym-userobj - when user stacktrace are enabled, look up which object the | 455 | sym-userobj - when user stacktrace are enabled, look up which |
387 | address belongs to, and print a relative address | 456 | object the address belongs to, and print a |
388 | This is especially useful when ASLR is on, otherwise you don't | 457 | relative address. This is especially useful when |
389 | get a chance to resolve the address to object/file/line after the app is no | 458 | ASLR is on, otherwise you don't get a chance to |
390 | longer running | 459 | resolve the address to object/file/line after |
460 | the app is no longer running | ||
391 | 461 | ||
392 | The lookup is performed when you read trace,trace_pipe,latency_trace. Example: | 462 | The lookup is performed when you read |
463 | trace,trace_pipe,latency_trace. Example: | ||
393 | 464 | ||
394 | a.out-1623 [000] 40874.465068: /root/a.out[+0x480] <-/root/a.out[+0 | 465 | a.out-1623 [000] 40874.465068: /root/a.out[+0x480] <-/root/a.out[+0 |
395 | x494] <- /root/a.out[+0x4a8] <- /lib/libc-2.7.so[+0x1e1a6] | 466 | x494] <- /root/a.out[+0x4a8] <- /lib/libc-2.7.so[+0x1e1a6] |
396 | 467 | ||
397 | sched-tree - TBD (any users??) | 468 | sched-tree - trace all tasks that are on the runqueue, at |
469 | every scheduling event. Will add overhead if | ||
470 | there's a lot of tasks running at once. | ||
398 | 471 | ||
399 | 472 | ||
400 | sched_switch | 473 | sched_switch |
@@ -431,18 +504,19 @@ of how to use it. | |||
431 | [...] | 504 | [...] |
432 | 505 | ||
433 | 506 | ||
434 | As we have discussed previously about this format, the header shows | 507 | As we have discussed previously about this format, the header |
435 | the name of the trace and points to the options. The "FUNCTION" | 508 | shows the name of the trace and points to the options. The |
436 | is a misnomer since here it represents the wake ups and context | 509 | "FUNCTION" is a misnomer since here it represents the wake ups |
437 | switches. | 510 | and context switches. |
438 | 511 | ||
439 | The sched_switch file only lists the wake ups (represented with '+') | 512 | The sched_switch file only lists the wake ups (represented with |
440 | and context switches ('==>') with the previous task or current task | 513 | '+') and context switches ('==>') with the previous task or |
441 | first followed by the next task or task waking up. The format for both | 514 | current task first followed by the next task or task waking up. |
442 | of these is PID:KERNEL-PRIO:TASK-STATE. Remember that the KERNEL-PRIO | 515 | The format for both of these is PID:KERNEL-PRIO:TASK-STATE. |
443 | is the inverse of the actual priority with zero (0) being the highest | 516 | Remember that the KERNEL-PRIO is the inverse of the actual |
444 | priority and the nice values starting at 100 (nice -20). Below is | 517 | priority with zero (0) being the highest priority and the nice |
445 | a quick chart to map the kernel priority to user land priorities. | 518 | values starting at 100 (nice -20). Below is a quick chart to map |
519 | the kernel priority to user land priorities. | ||
446 | 520 | ||
447 | Kernel priority: 0 to 99 ==> user RT priority 99 to 0 | 521 | Kernel priority: 0 to 99 ==> user RT priority 99 to 0 |
448 | Kernel priority: 100 to 139 ==> user nice -20 to 19 | 522 | Kernel priority: 100 to 139 ==> user nice -20 to 19 |
@@ -463,10 +537,10 @@ The task states are: | |||
463 | ftrace_enabled | 537 | ftrace_enabled |
464 | -------------- | 538 | -------------- |
465 | 539 | ||
466 | The following tracers (listed below) give different output depending | 540 | The following tracers (listed below) give different output |
467 | on whether or not the sysctl ftrace_enabled is set. To set ftrace_enabled, | 541 | depending on whether or not the sysctl ftrace_enabled is set. To |
468 | one can either use the sysctl function or set it via the proc | 542 | set ftrace_enabled, one can either use the sysctl function or |
469 | file system interface. | 543 | set it via the proc file system interface. |
470 | 544 | ||
471 | sysctl kernel.ftrace_enabled=1 | 545 | sysctl kernel.ftrace_enabled=1 |
472 | 546 | ||
@@ -474,12 +548,12 @@ file system interface. | |||
474 | 548 | ||
475 | echo 1 > /proc/sys/kernel/ftrace_enabled | 549 | echo 1 > /proc/sys/kernel/ftrace_enabled |
476 | 550 | ||
477 | To disable ftrace_enabled simply replace the '1' with '0' in | 551 | To disable ftrace_enabled simply replace the '1' with '0' in the |
478 | the above commands. | 552 | above commands. |
479 | 553 | ||
480 | When ftrace_enabled is set the tracers will also record the functions | 554 | When ftrace_enabled is set the tracers will also record the |
481 | that are within the trace. The descriptions of the tracers | 555 | functions that are within the trace. The descriptions of the |
482 | will also show an example with ftrace enabled. | 556 | tracers will also show an example with ftrace enabled. |
483 | 557 | ||
484 | 558 | ||
485 | irqsoff | 559 | irqsoff |
@@ -487,17 +561,18 @@ irqsoff | |||
487 | 561 | ||
488 | When interrupts are disabled, the CPU can not react to any other | 562 | When interrupts are disabled, the CPU can not react to any other |
489 | external event (besides NMIs and SMIs). This prevents the timer | 563 | external event (besides NMIs and SMIs). This prevents the timer |
490 | interrupt from triggering or the mouse interrupt from letting the | 564 | interrupt from triggering or the mouse interrupt from letting |
491 | kernel know of a new mouse event. The result is a latency with the | 565 | the kernel know of a new mouse event. The result is a latency |
492 | reaction time. | 566 | with the reaction time. |
493 | 567 | ||
494 | The irqsoff tracer tracks the time for which interrupts are disabled. | 568 | The irqsoff tracer tracks the time for which interrupts are |
495 | When a new maximum latency is hit, the tracer saves the trace leading up | 569 | disabled. When a new maximum latency is hit, the tracer saves |
496 | to that latency point so that every time a new maximum is reached, the old | 570 | the trace leading up to that latency point so that every time a |
497 | saved trace is discarded and the new trace is saved. | 571 | new maximum is reached, the old saved trace is discarded and the |
572 | new trace is saved. | ||
498 | 573 | ||
499 | To reset the maximum, echo 0 into tracing_max_latency. Here is an | 574 | To reset the maximum, echo 0 into tracing_max_latency. Here is |
500 | example: | 575 | an example: |
501 | 576 | ||
502 | # echo irqsoff > /debug/tracing/current_tracer | 577 | # echo irqsoff > /debug/tracing/current_tracer |
503 | # echo 0 > /debug/tracing/tracing_max_latency | 578 | # echo 0 > /debug/tracing/tracing_max_latency |
@@ -532,10 +607,11 @@ irqsoff latency trace v1.1.5 on 2.6.26 | |||
532 | 607 | ||
533 | 608 | ||
534 | Here we see that that we had a latency of 12 microsecs (which is | 609 | Here we see that that we had a latency of 12 microsecs (which is |
535 | very good). The _write_lock_irq in sys_setpgid disabled interrupts. | 610 | very good). The _write_lock_irq in sys_setpgid disabled |
536 | The difference between the 12 and the displayed timestamp 14us occurred | 611 | interrupts. The difference between the 12 and the displayed |
537 | because the clock was incremented between the time of recording the max | 612 | timestamp 14us occurred because the clock was incremented |
538 | latency and the time of recording the function that had that latency. | 613 | between the time of recording the max latency and the time of |
614 | recording the function that had that latency. | ||
539 | 615 | ||
540 | Note the above example had ftrace_enabled not set. If we set the | 616 | Note the above example had ftrace_enabled not set. If we set the |
541 | ftrace_enabled, we get a much larger output: | 617 | ftrace_enabled, we get a much larger output: |
@@ -586,24 +662,24 @@ irqsoff latency trace v1.1.5 on 2.6.26-rc8 | |||
586 | 662 | ||
587 | 663 | ||
588 | Here we traced a 50 microsecond latency. But we also see all the | 664 | Here we traced a 50 microsecond latency. But we also see all the |
589 | functions that were called during that time. Note that by enabling | 665 | functions that were called during that time. Note that by |
590 | function tracing, we incur an added overhead. This overhead may | 666 | enabling function tracing, we incur an added overhead. This |
591 | extend the latency times. But nevertheless, this trace has provided | 667 | overhead may extend the latency times. But nevertheless, this |
592 | some very helpful debugging information. | 668 | trace has provided some very helpful debugging information. |
593 | 669 | ||
594 | 670 | ||
595 | preemptoff | 671 | preemptoff |
596 | ---------- | 672 | ---------- |
597 | 673 | ||
598 | When preemption is disabled, we may be able to receive interrupts but | 674 | When preemption is disabled, we may be able to receive |
599 | the task cannot be preempted and a higher priority task must wait | 675 | interrupts but the task cannot be preempted and a higher |
600 | for preemption to be enabled again before it can preempt a lower | 676 | priority task must wait for preemption to be enabled again |
601 | priority task. | 677 | before it can preempt a lower priority task. |
602 | 678 | ||
603 | The preemptoff tracer traces the places that disable preemption. | 679 | The preemptoff tracer traces the places that disable preemption. |
604 | Like the irqsoff tracer, it records the maximum latency for which preemption | 680 | Like the irqsoff tracer, it records the maximum latency for |
605 | was disabled. The control of preemptoff tracer is much like the irqsoff | 681 | which preemption was disabled. The control of preemptoff tracer |
606 | tracer. | 682 | is much like the irqsoff tracer. |
607 | 683 | ||
608 | # echo preemptoff > /debug/tracing/current_tracer | 684 | # echo preemptoff > /debug/tracing/current_tracer |
609 | # echo 0 > /debug/tracing/tracing_max_latency | 685 | # echo 0 > /debug/tracing/tracing_max_latency |
@@ -637,11 +713,12 @@ preemptoff latency trace v1.1.5 on 2.6.26-rc8 | |||
637 | sshd-4261 0d.s1 30us : trace_preempt_on (__do_softirq) | 713 | sshd-4261 0d.s1 30us : trace_preempt_on (__do_softirq) |
638 | 714 | ||
639 | 715 | ||
640 | This has some more changes. Preemption was disabled when an interrupt | 716 | This has some more changes. Preemption was disabled when an |
641 | came in (notice the 'h'), and was enabled while doing a softirq. | 717 | interrupt came in (notice the 'h'), and was enabled while doing |
642 | (notice the 's'). But we also see that interrupts have been disabled | 718 | a softirq. (notice the 's'). But we also see that interrupts |
643 | when entering the preempt off section and leaving it (the 'd'). | 719 | have been disabled when entering the preempt off section and |
644 | We do not know if interrupts were enabled in the mean time. | 720 | leaving it (the 'd'). We do not know if interrupts were enabled |
721 | in the mean time. | ||
645 | 722 | ||
646 | # tracer: preemptoff | 723 | # tracer: preemptoff |
647 | # | 724 | # |
@@ -700,28 +777,30 @@ preemptoff latency trace v1.1.5 on 2.6.26-rc8 | |||
700 | sshd-4261 0d.s1 64us : trace_preempt_on (__do_softirq) | 777 | sshd-4261 0d.s1 64us : trace_preempt_on (__do_softirq) |
701 | 778 | ||
702 | 779 | ||
703 | The above is an example of the preemptoff trace with ftrace_enabled | 780 | The above is an example of the preemptoff trace with |
704 | set. Here we see that interrupts were disabled the entire time. | 781 | ftrace_enabled set. Here we see that interrupts were disabled |
705 | The irq_enter code lets us know that we entered an interrupt 'h'. | 782 | the entire time. The irq_enter code lets us know that we entered |
706 | Before that, the functions being traced still show that it is not | 783 | an interrupt 'h'. Before that, the functions being traced still |
707 | in an interrupt, but we can see from the functions themselves that | 784 | show that it is not in an interrupt, but we can see from the |
708 | this is not the case. | 785 | functions themselves that this is not the case. |
709 | 786 | ||
710 | Notice that __do_softirq when called does not have a preempt_count. | 787 | Notice that __do_softirq when called does not have a |
711 | It may seem that we missed a preempt enabling. What really happened | 788 | preempt_count. It may seem that we missed a preempt enabling. |
712 | is that the preempt count is held on the thread's stack and we | 789 | What really happened is that the preempt count is held on the |
713 | switched to the softirq stack (4K stacks in effect). The code | 790 | thread's stack and we switched to the softirq stack (4K stacks |
714 | does not copy the preempt count, but because interrupts are disabled, | 791 | in effect). The code does not copy the preempt count, but |
715 | we do not need to worry about it. Having a tracer like this is good | 792 | because interrupts are disabled, we do not need to worry about |
716 | for letting people know what really happens inside the kernel. | 793 | it. Having a tracer like this is good for letting people know |
794 | what really happens inside the kernel. | ||
717 | 795 | ||
718 | 796 | ||
719 | preemptirqsoff | 797 | preemptirqsoff |
720 | -------------- | 798 | -------------- |
721 | 799 | ||
722 | Knowing the locations that have interrupts disabled or preemption | 800 | Knowing the locations that have interrupts disabled or |
723 | disabled for the longest times is helpful. But sometimes we would | 801 | preemption disabled for the longest times is helpful. But |
724 | like to know when either preemption and/or interrupts are disabled. | 802 | sometimes we would like to know when either preemption and/or |
803 | interrupts are disabled. | ||
725 | 804 | ||
726 | Consider the following code: | 805 | Consider the following code: |
727 | 806 | ||
@@ -741,11 +820,13 @@ The preemptoff tracer will record the total length of | |||
741 | call_function_with_irqs_and_preemption_off() and | 820 | call_function_with_irqs_and_preemption_off() and |
742 | call_function_with_preemption_off(). | 821 | call_function_with_preemption_off(). |
743 | 822 | ||
744 | But neither will trace the time that interrupts and/or preemption | 823 | But neither will trace the time that interrupts and/or |
745 | is disabled. This total time is the time that we can not schedule. | 824 | preemption is disabled. This total time is the time that we can |
746 | To record this time, use the preemptirqsoff tracer. | 825 | not schedule. To record this time, use the preemptirqsoff |
826 | tracer. | ||
747 | 827 | ||
748 | Again, using this trace is much like the irqsoff and preemptoff tracers. | 828 | Again, using this trace is much like the irqsoff and preemptoff |
829 | tracers. | ||
749 | 830 | ||
750 | # echo preemptirqsoff > /debug/tracing/current_tracer | 831 | # echo preemptirqsoff > /debug/tracing/current_tracer |
751 | # echo 0 > /debug/tracing/tracing_max_latency | 832 | # echo 0 > /debug/tracing/tracing_max_latency |
@@ -781,9 +862,10 @@ preemptirqsoff latency trace v1.1.5 on 2.6.26-rc8 | |||
781 | 862 | ||
782 | 863 | ||
783 | The trace_hardirqs_off_thunk is called from assembly on x86 when | 864 | The trace_hardirqs_off_thunk is called from assembly on x86 when |
784 | interrupts are disabled in the assembly code. Without the function | 865 | interrupts are disabled in the assembly code. Without the |
785 | tracing, we do not know if interrupts were enabled within the preemption | 866 | function tracing, we do not know if interrupts were enabled |
786 | points. We do see that it started with preemption enabled. | 867 | within the preemption points. We do see that it started with |
868 | preemption enabled. | ||
787 | 869 | ||
788 | Here is a trace with ftrace_enabled set: | 870 | Here is a trace with ftrace_enabled set: |
789 | 871 | ||
@@ -871,40 +953,42 @@ preemptirqsoff latency trace v1.1.5 on 2.6.26-rc8 | |||
871 | sshd-4261 0d.s1 105us : trace_preempt_on (__do_softirq) | 953 | sshd-4261 0d.s1 105us : trace_preempt_on (__do_softirq) |
872 | 954 | ||
873 | 955 | ||
874 | This is a very interesting trace. It started with the preemption of | 956 | This is a very interesting trace. It started with the preemption |
875 | the ls task. We see that the task had the "need_resched" bit set | 957 | of the ls task. We see that the task had the "need_resched" bit |
876 | via the 'N' in the trace. Interrupts were disabled before the spin_lock | 958 | set via the 'N' in the trace. Interrupts were disabled before |
877 | at the beginning of the trace. We see that a schedule took place to run | 959 | the spin_lock at the beginning of the trace. We see that a |
878 | sshd. When the interrupts were enabled, we took an interrupt. | 960 | schedule took place to run sshd. When the interrupts were |
879 | On return from the interrupt handler, the softirq ran. We took another | 961 | enabled, we took an interrupt. On return from the interrupt |
880 | interrupt while running the softirq as we see from the capital 'H'. | 962 | handler, the softirq ran. We took another interrupt while |
963 | running the softirq as we see from the capital 'H'. | ||
881 | 964 | ||
882 | 965 | ||
883 | wakeup | 966 | wakeup |
884 | ------ | 967 | ------ |
885 | 968 | ||
886 | In a Real-Time environment it is very important to know the wakeup | 969 | In a Real-Time environment it is very important to know the |
887 | time it takes for the highest priority task that is woken up to the | 970 | wakeup time it takes for the highest priority task that is woken |
888 | time that it executes. This is also known as "schedule latency". | 971 | up to the time that it executes. This is also known as "schedule |
889 | I stress the point that this is about RT tasks. It is also important | 972 | latency". I stress the point that this is about RT tasks. It is |
890 | to know the scheduling latency of non-RT tasks, but the average | 973 | also important to know the scheduling latency of non-RT tasks, |
891 | schedule latency is better for non-RT tasks. Tools like | 974 | but the average schedule latency is better for non-RT tasks. |
892 | LatencyTop are more appropriate for such measurements. | 975 | Tools like LatencyTop are more appropriate for such |
976 | measurements. | ||
893 | 977 | ||
894 | Real-Time environments are interested in the worst case latency. | 978 | Real-Time environments are interested in the worst case latency. |
895 | That is the longest latency it takes for something to happen, and | 979 | That is the longest latency it takes for something to happen, |
896 | not the average. We can have a very fast scheduler that may only | 980 | and not the average. We can have a very fast scheduler that may |
897 | have a large latency once in a while, but that would not work well | 981 | only have a large latency once in a while, but that would not |
898 | with Real-Time tasks. The wakeup tracer was designed to record | 982 | work well with Real-Time tasks. The wakeup tracer was designed |
899 | the worst case wakeups of RT tasks. Non-RT tasks are not recorded | 983 | to record the worst case wakeups of RT tasks. Non-RT tasks are |
900 | because the tracer only records one worst case and tracing non-RT | 984 | not recorded because the tracer only records one worst case and |
901 | tasks that are unpredictable will overwrite the worst case latency | 985 | tracing non-RT tasks that are unpredictable will overwrite the |
902 | of RT tasks. | 986 | worst case latency of RT tasks. |
903 | 987 | ||
904 | Since this tracer only deals with RT tasks, we will run this slightly | 988 | Since this tracer only deals with RT tasks, we will run this |
905 | differently than we did with the previous tracers. Instead of performing | 989 | slightly differently than we did with the previous tracers. |
906 | an 'ls', we will run 'sleep 1' under 'chrt' which changes the | 990 | Instead of performing an 'ls', we will run 'sleep 1' under |
907 | priority of the task. | 991 | 'chrt' which changes the priority of the task. |
908 | 992 | ||
909 | # echo wakeup > /debug/tracing/current_tracer | 993 | # echo wakeup > /debug/tracing/current_tracer |
910 | # echo 0 > /debug/tracing/tracing_max_latency | 994 | # echo 0 > /debug/tracing/tracing_max_latency |
@@ -934,17 +1018,16 @@ wakeup latency trace v1.1.5 on 2.6.26-rc8 | |||
934 | <idle>-0 1d..4 4us : schedule (cpu_idle) | 1018 | <idle>-0 1d..4 4us : schedule (cpu_idle) |
935 | 1019 | ||
936 | 1020 | ||
1021 | Running this on an idle system, we see that it only took 4 | ||
1022 | microseconds to perform the task switch. Note, since the trace | ||
1023 | marker in the schedule is before the actual "switch", we stop | ||
1024 | the tracing when the recorded task is about to schedule in. This | ||
1025 | may change if we add a new marker at the end of the scheduler. | ||
937 | 1026 | ||
938 | Running this on an idle system, we see that it only took 4 microseconds | 1027 | Notice that the recorded task is 'sleep' with the PID of 4901 |
939 | to perform the task switch. Note, since the trace marker in the | 1028 | and it has an rt_prio of 5. This priority is user-space priority |
940 | schedule is before the actual "switch", we stop the tracing when | 1029 | and not the internal kernel priority. The policy is 1 for |
941 | the recorded task is about to schedule in. This may change if | 1030 | SCHED_FIFO and 2 for SCHED_RR. |
942 | we add a new marker at the end of the scheduler. | ||
943 | |||
944 | Notice that the recorded task is 'sleep' with the PID of 4901 and it | ||
945 | has an rt_prio of 5. This priority is user-space priority and not | ||
946 | the internal kernel priority. The policy is 1 for SCHED_FIFO and 2 | ||
947 | for SCHED_RR. | ||
948 | 1031 | ||
949 | Doing the same with chrt -r 5 and ftrace_enabled set. | 1032 | Doing the same with chrt -r 5 and ftrace_enabled set. |
950 | 1033 | ||
@@ -1001,24 +1084,25 @@ ksoftirq-7 1d..6 49us : _spin_unlock (tracing_record_cmdline) | |||
1001 | ksoftirq-7 1d..6 49us : sub_preempt_count (_spin_unlock) | 1084 | ksoftirq-7 1d..6 49us : sub_preempt_count (_spin_unlock) |
1002 | ksoftirq-7 1d..4 50us : schedule (__cond_resched) | 1085 | ksoftirq-7 1d..4 50us : schedule (__cond_resched) |
1003 | 1086 | ||
1004 | The interrupt went off while running ksoftirqd. This task runs at | 1087 | The interrupt went off while running ksoftirqd. This task runs |
1005 | SCHED_OTHER. Why did not we see the 'N' set early? This may be | 1088 | at SCHED_OTHER. Why did not we see the 'N' set early? This may |
1006 | a harmless bug with x86_32 and 4K stacks. On x86_32 with 4K stacks | 1089 | be a harmless bug with x86_32 and 4K stacks. On x86_32 with 4K |
1007 | configured, the interrupt and softirq run with their own stack. | 1090 | stacks configured, the interrupt and softirq run with their own |
1008 | Some information is held on the top of the task's stack (need_resched | 1091 | stack. Some information is held on the top of the task's stack |
1009 | and preempt_count are both stored there). The setting of the NEED_RESCHED | 1092 | (need_resched and preempt_count are both stored there). The |
1010 | bit is done directly to the task's stack, but the reading of the | 1093 | setting of the NEED_RESCHED bit is done directly to the task's |
1011 | NEED_RESCHED is done by looking at the current stack, which in this case | 1094 | stack, but the reading of the NEED_RESCHED is done by looking at |
1012 | is the stack for the hard interrupt. This hides the fact that NEED_RESCHED | 1095 | the current stack, which in this case is the stack for the hard |
1013 | has been set. We do not see the 'N' until we switch back to the task's | 1096 | interrupt. This hides the fact that NEED_RESCHED has been set. |
1097 | We do not see the 'N' until we switch back to the task's | ||
1014 | assigned stack. | 1098 | assigned stack. |
1015 | 1099 | ||
1016 | function | 1100 | function |
1017 | -------- | 1101 | -------- |
1018 | 1102 | ||
1019 | This tracer is the function tracer. Enabling the function tracer | 1103 | This tracer is the function tracer. Enabling the function tracer |
1020 | can be done from the debug file system. Make sure the ftrace_enabled is | 1104 | can be done from the debug file system. Make sure the |
1021 | set; otherwise this tracer is a nop. | 1105 | ftrace_enabled is set; otherwise this tracer is a nop. |
1022 | 1106 | ||
1023 | # sysctl kernel.ftrace_enabled=1 | 1107 | # sysctl kernel.ftrace_enabled=1 |
1024 | # echo function > /debug/tracing/current_tracer | 1108 | # echo function > /debug/tracing/current_tracer |
@@ -1048,14 +1132,15 @@ set; otherwise this tracer is a nop. | |||
1048 | [...] | 1132 | [...] |
1049 | 1133 | ||
1050 | 1134 | ||
1051 | Note: function tracer uses ring buffers to store the above entries. | 1135 | Note: function tracer uses ring buffers to store the above |
1052 | The newest data may overwrite the oldest data. Sometimes using echo to | 1136 | entries. The newest data may overwrite the oldest data. |
1053 | stop the trace is not sufficient because the tracing could have overwritten | 1137 | Sometimes using echo to stop the trace is not sufficient because |
1054 | the data that you wanted to record. For this reason, it is sometimes better to | 1138 | the tracing could have overwritten the data that you wanted to |
1055 | disable tracing directly from a program. This allows you to stop the | 1139 | record. For this reason, it is sometimes better to disable |
1056 | tracing at the point that you hit the part that you are interested in. | 1140 | tracing directly from a program. This allows you to stop the |
1057 | To disable the tracing directly from a C program, something like following | 1141 | tracing at the point that you hit the part that you are |
1058 | code snippet can be used: | 1142 | interested in. To disable the tracing directly from a C program, |
1143 | something like following code snippet can be used: | ||
1059 | 1144 | ||
1060 | int trace_fd; | 1145 | int trace_fd; |
1061 | [...] | 1146 | [...] |
@@ -1070,10 +1155,10 @@ int main(int argc, char *argv[]) { | |||
1070 | } | 1155 | } |
1071 | 1156 | ||
1072 | Note: Here we hard coded the path name. The debugfs mount is not | 1157 | Note: Here we hard coded the path name. The debugfs mount is not |
1073 | guaranteed to be at /debug (and is more commonly at /sys/kernel/debug). | 1158 | guaranteed to be at /debug (and is more commonly at |
1074 | For simple one time traces, the above is sufficent. For anything else, | 1159 | /sys/kernel/debug). For simple one time traces, the above is |
1075 | a search through /proc/mounts may be needed to find where the debugfs | 1160 | sufficent. For anything else, a search through /proc/mounts may |
1076 | file-system is mounted. | 1161 | be needed to find where the debugfs file-system is mounted. |
1077 | 1162 | ||
1078 | 1163 | ||
1079 | Single thread tracing | 1164 | Single thread tracing |
@@ -1152,49 +1237,297 @@ int main (int argc, char **argv) | |||
1152 | return 0; | 1237 | return 0; |
1153 | } | 1238 | } |
1154 | 1239 | ||
1240 | |||
1241 | hw-branch-tracer (x86 only) | ||
1242 | --------------------------- | ||
1243 | |||
1244 | This tracer uses the x86 last branch tracing hardware feature to | ||
1245 | collect a branch trace on all cpus with relatively low overhead. | ||
1246 | |||
1247 | The tracer uses a fixed-size circular buffer per cpu and only | ||
1248 | traces ring 0 branches. The trace file dumps that buffer in the | ||
1249 | following format: | ||
1250 | |||
1251 | # tracer: hw-branch-tracer | ||
1252 | # | ||
1253 | # CPU# TO <- FROM | ||
1254 | 0 scheduler_tick+0xb5/0x1bf <- task_tick_idle+0x5/0x6 | ||
1255 | 2 run_posix_cpu_timers+0x2b/0x72a <- run_posix_cpu_timers+0x25/0x72a | ||
1256 | 0 scheduler_tick+0x139/0x1bf <- scheduler_tick+0xed/0x1bf | ||
1257 | 0 scheduler_tick+0x17c/0x1bf <- scheduler_tick+0x148/0x1bf | ||
1258 | 2 run_posix_cpu_timers+0x9e/0x72a <- run_posix_cpu_timers+0x5e/0x72a | ||
1259 | 0 scheduler_tick+0x1b6/0x1bf <- scheduler_tick+0x1aa/0x1bf | ||
1260 | |||
1261 | |||
1262 | The tracer may be used to dump the trace for the oops'ing cpu on | ||
1263 | a kernel oops into the system log. To enable this, | ||
1264 | ftrace_dump_on_oops must be set. To set ftrace_dump_on_oops, one | ||
1265 | can either use the sysctl function or set it via the proc system | ||
1266 | interface. | ||
1267 | |||
1268 | sysctl kernel.ftrace_dump_on_oops=1 | ||
1269 | |||
1270 | or | ||
1271 | |||
1272 | echo 1 > /proc/sys/kernel/ftrace_dump_on_oops | ||
1273 | |||
1274 | |||
1275 | Here's an example of such a dump after a null pointer | ||
1276 | dereference in a kernel module: | ||
1277 | |||
1278 | [57848.105921] BUG: unable to handle kernel NULL pointer dereference at 0000000000000000 | ||
1279 | [57848.106019] IP: [<ffffffffa0000006>] open+0x6/0x14 [oops] | ||
1280 | [57848.106019] PGD 2354e9067 PUD 2375e7067 PMD 0 | ||
1281 | [57848.106019] Oops: 0002 [#1] SMP | ||
1282 | [57848.106019] last sysfs file: /sys/devices/pci0000:00/0000:00:1e.0/0000:20:05.0/local_cpus | ||
1283 | [57848.106019] Dumping ftrace buffer: | ||
1284 | [57848.106019] --------------------------------- | ||
1285 | [...] | ||
1286 | [57848.106019] 0 chrdev_open+0xe6/0x165 <- cdev_put+0x23/0x24 | ||
1287 | [57848.106019] 0 chrdev_open+0x117/0x165 <- chrdev_open+0xfa/0x165 | ||
1288 | [57848.106019] 0 chrdev_open+0x120/0x165 <- chrdev_open+0x11c/0x165 | ||
1289 | [57848.106019] 0 chrdev_open+0x134/0x165 <- chrdev_open+0x12b/0x165 | ||
1290 | [57848.106019] 0 open+0x0/0x14 [oops] <- chrdev_open+0x144/0x165 | ||
1291 | [57848.106019] 0 page_fault+0x0/0x30 <- open+0x6/0x14 [oops] | ||
1292 | [57848.106019] 0 error_entry+0x0/0x5b <- page_fault+0x4/0x30 | ||
1293 | [57848.106019] 0 error_kernelspace+0x0/0x31 <- error_entry+0x59/0x5b | ||
1294 | [57848.106019] 0 error_sti+0x0/0x1 <- error_kernelspace+0x2d/0x31 | ||
1295 | [57848.106019] 0 page_fault+0x9/0x30 <- error_sti+0x0/0x1 | ||
1296 | [57848.106019] 0 do_page_fault+0x0/0x881 <- page_fault+0x1a/0x30 | ||
1297 | [...] | ||
1298 | [57848.106019] 0 do_page_fault+0x66b/0x881 <- is_prefetch+0x1ee/0x1f2 | ||
1299 | [57848.106019] 0 do_page_fault+0x6e0/0x881 <- do_page_fault+0x67a/0x881 | ||
1300 | [57848.106019] 0 oops_begin+0x0/0x96 <- do_page_fault+0x6e0/0x881 | ||
1301 | [57848.106019] 0 trace_hw_branch_oops+0x0/0x2d <- oops_begin+0x9/0x96 | ||
1302 | [...] | ||
1303 | [57848.106019] 0 ds_suspend_bts+0x2a/0xe3 <- ds_suspend_bts+0x1a/0xe3 | ||
1304 | [57848.106019] --------------------------------- | ||
1305 | [57848.106019] CPU 0 | ||
1306 | [57848.106019] Modules linked in: oops | ||
1307 | [57848.106019] Pid: 5542, comm: cat Tainted: G W 2.6.28 #23 | ||
1308 | [57848.106019] RIP: 0010:[<ffffffffa0000006>] [<ffffffffa0000006>] open+0x6/0x14 [oops] | ||
1309 | [57848.106019] RSP: 0018:ffff880235457d48 EFLAGS: 00010246 | ||
1310 | [...] | ||
1311 | |||
1312 | |||
1313 | function graph tracer | ||
1314 | --------------------------- | ||
1315 | |||
1316 | This tracer is similar to the function tracer except that it | ||
1317 | probes a function on its entry and its exit. This is done by | ||
1318 | using a dynamically allocated stack of return addresses in each | ||
1319 | task_struct. On function entry the tracer overwrites the return | ||
1320 | address of each function traced to set a custom probe. Thus the | ||
1321 | original return address is stored on the stack of return address | ||
1322 | in the task_struct. | ||
1323 | |||
1324 | Probing on both ends of a function leads to special features | ||
1325 | such as: | ||
1326 | |||
1327 | - measure of a function's time execution | ||
1328 | - having a reliable call stack to draw function calls graph | ||
1329 | |||
1330 | This tracer is useful in several situations: | ||
1331 | |||
1332 | - you want to find the reason of a strange kernel behavior and | ||
1333 | need to see what happens in detail on any areas (or specific | ||
1334 | ones). | ||
1335 | |||
1336 | - you are experiencing weird latencies but it's difficult to | ||
1337 | find its origin. | ||
1338 | |||
1339 | - you want to find quickly which path is taken by a specific | ||
1340 | function | ||
1341 | |||
1342 | - you just want to peek inside a working kernel and want to see | ||
1343 | what happens there. | ||
1344 | |||
1345 | # tracer: function_graph | ||
1346 | # | ||
1347 | # CPU DURATION FUNCTION CALLS | ||
1348 | # | | | | | | | | ||
1349 | |||
1350 | 0) | sys_open() { | ||
1351 | 0) | do_sys_open() { | ||
1352 | 0) | getname() { | ||
1353 | 0) | kmem_cache_alloc() { | ||
1354 | 0) 1.382 us | __might_sleep(); | ||
1355 | 0) 2.478 us | } | ||
1356 | 0) | strncpy_from_user() { | ||
1357 | 0) | might_fault() { | ||
1358 | 0) 1.389 us | __might_sleep(); | ||
1359 | 0) 2.553 us | } | ||
1360 | 0) 3.807 us | } | ||
1361 | 0) 7.876 us | } | ||
1362 | 0) | alloc_fd() { | ||
1363 | 0) 0.668 us | _spin_lock(); | ||
1364 | 0) 0.570 us | expand_files(); | ||
1365 | 0) 0.586 us | _spin_unlock(); | ||
1366 | |||
1367 | |||
1368 | There are several columns that can be dynamically | ||
1369 | enabled/disabled. You can use every combination of options you | ||
1370 | want, depending on your needs. | ||
1371 | |||
1372 | - The cpu number on which the function executed is default | ||
1373 | enabled. It is sometimes better to only trace one cpu (see | ||
1374 | tracing_cpu_mask file) or you might sometimes see unordered | ||
1375 | function calls while cpu tracing switch. | ||
1376 | |||
1377 | hide: echo nofuncgraph-cpu > /debug/tracing/trace_options | ||
1378 | show: echo funcgraph-cpu > /debug/tracing/trace_options | ||
1379 | |||
1380 | - The duration (function's time of execution) is displayed on | ||
1381 | the closing bracket line of a function or on the same line | ||
1382 | than the current function in case of a leaf one. It is default | ||
1383 | enabled. | ||
1384 | |||
1385 | hide: echo nofuncgraph-duration > /debug/tracing/trace_options | ||
1386 | show: echo funcgraph-duration > /debug/tracing/trace_options | ||
1387 | |||
1388 | - The overhead field precedes the duration field in case of | ||
1389 | reached duration thresholds. | ||
1390 | |||
1391 | hide: echo nofuncgraph-overhead > /debug/tracing/trace_options | ||
1392 | show: echo funcgraph-overhead > /debug/tracing/trace_options | ||
1393 | depends on: funcgraph-duration | ||
1394 | |||
1395 | ie: | ||
1396 | |||
1397 | 0) | up_write() { | ||
1398 | 0) 0.646 us | _spin_lock_irqsave(); | ||
1399 | 0) 0.684 us | _spin_unlock_irqrestore(); | ||
1400 | 0) 3.123 us | } | ||
1401 | 0) 0.548 us | fput(); | ||
1402 | 0) + 58.628 us | } | ||
1403 | |||
1404 | [...] | ||
1405 | |||
1406 | 0) | putname() { | ||
1407 | 0) | kmem_cache_free() { | ||
1408 | 0) 0.518 us | __phys_addr(); | ||
1409 | 0) 1.757 us | } | ||
1410 | 0) 2.861 us | } | ||
1411 | 0) ! 115.305 us | } | ||
1412 | 0) ! 116.402 us | } | ||
1413 | |||
1414 | + means that the function exceeded 10 usecs. | ||
1415 | ! means that the function exceeded 100 usecs. | ||
1416 | |||
1417 | |||
1418 | - The task/pid field displays the thread cmdline and pid which | ||
1419 | executed the function. It is default disabled. | ||
1420 | |||
1421 | hide: echo nofuncgraph-proc > /debug/tracing/trace_options | ||
1422 | show: echo funcgraph-proc > /debug/tracing/trace_options | ||
1423 | |||
1424 | ie: | ||
1425 | |||
1426 | # tracer: function_graph | ||
1427 | # | ||
1428 | # CPU TASK/PID DURATION FUNCTION CALLS | ||
1429 | # | | | | | | | | | | ||
1430 | 0) sh-4802 | | d_free() { | ||
1431 | 0) sh-4802 | | call_rcu() { | ||
1432 | 0) sh-4802 | | __call_rcu() { | ||
1433 | 0) sh-4802 | 0.616 us | rcu_process_gp_end(); | ||
1434 | 0) sh-4802 | 0.586 us | check_for_new_grace_period(); | ||
1435 | 0) sh-4802 | 2.899 us | } | ||
1436 | 0) sh-4802 | 4.040 us | } | ||
1437 | 0) sh-4802 | 5.151 us | } | ||
1438 | 0) sh-4802 | + 49.370 us | } | ||
1439 | |||
1440 | |||
1441 | - The absolute time field is an absolute timestamp given by the | ||
1442 | system clock since it started. A snapshot of this time is | ||
1443 | given on each entry/exit of functions | ||
1444 | |||
1445 | hide: echo nofuncgraph-abstime > /debug/tracing/trace_options | ||
1446 | show: echo funcgraph-abstime > /debug/tracing/trace_options | ||
1447 | |||
1448 | ie: | ||
1449 | |||
1450 | # | ||
1451 | # TIME CPU DURATION FUNCTION CALLS | ||
1452 | # | | | | | | | | | ||
1453 | 360.774522 | 1) 0.541 us | } | ||
1454 | 360.774522 | 1) 4.663 us | } | ||
1455 | 360.774523 | 1) 0.541 us | __wake_up_bit(); | ||
1456 | 360.774524 | 1) 6.796 us | } | ||
1457 | 360.774524 | 1) 7.952 us | } | ||
1458 | 360.774525 | 1) 9.063 us | } | ||
1459 | 360.774525 | 1) 0.615 us | journal_mark_dirty(); | ||
1460 | 360.774527 | 1) 0.578 us | __brelse(); | ||
1461 | 360.774528 | 1) | reiserfs_prepare_for_journal() { | ||
1462 | 360.774528 | 1) | unlock_buffer() { | ||
1463 | 360.774529 | 1) | wake_up_bit() { | ||
1464 | 360.774529 | 1) | bit_waitqueue() { | ||
1465 | 360.774530 | 1) 0.594 us | __phys_addr(); | ||
1466 | |||
1467 | |||
1468 | You can put some comments on specific functions by using | ||
1469 | trace_printk() For example, if you want to put a comment inside | ||
1470 | the __might_sleep() function, you just have to include | ||
1471 | <linux/ftrace.h> and call trace_printk() inside __might_sleep() | ||
1472 | |||
1473 | trace_printk("I'm a comment!\n") | ||
1474 | |||
1475 | will produce: | ||
1476 | |||
1477 | 1) | __might_sleep() { | ||
1478 | 1) | /* I'm a comment! */ | ||
1479 | 1) 1.449 us | } | ||
1480 | |||
1481 | |||
1482 | You might find other useful features for this tracer in the | ||
1483 | following "dynamic ftrace" section such as tracing only specific | ||
1484 | functions or tasks. | ||
1485 | |||
1155 | dynamic ftrace | 1486 | dynamic ftrace |
1156 | -------------- | 1487 | -------------- |
1157 | 1488 | ||
1158 | If CONFIG_DYNAMIC_FTRACE is set, the system will run with | 1489 | If CONFIG_DYNAMIC_FTRACE is set, the system will run with |
1159 | virtually no overhead when function tracing is disabled. The way | 1490 | virtually no overhead when function tracing is disabled. The way |
1160 | this works is the mcount function call (placed at the start of | 1491 | this works is the mcount function call (placed at the start of |
1161 | every kernel function, produced by the -pg switch in gcc), starts | 1492 | every kernel function, produced by the -pg switch in gcc), |
1162 | of pointing to a simple return. (Enabling FTRACE will include the | 1493 | starts of pointing to a simple return. (Enabling FTRACE will |
1163 | -pg switch in the compiling of the kernel.) | 1494 | include the -pg switch in the compiling of the kernel.) |
1164 | 1495 | ||
1165 | At compile time every C file object is run through the | 1496 | At compile time every C file object is run through the |
1166 | recordmcount.pl script (located in the scripts directory). This | 1497 | recordmcount.pl script (located in the scripts directory). This |
1167 | script will process the C object using objdump to find all the | 1498 | script will process the C object using objdump to find all the |
1168 | locations in the .text section that call mcount. (Note, only | 1499 | locations in the .text section that call mcount. (Note, only the |
1169 | the .text section is processed, since processing other sections | 1500 | .text section is processed, since processing other sections like |
1170 | like .init.text may cause races due to those sections being freed). | 1501 | .init.text may cause races due to those sections being freed). |
1171 | 1502 | ||
1172 | A new section called "__mcount_loc" is created that holds references | 1503 | A new section called "__mcount_loc" is created that holds |
1173 | to all the mcount call sites in the .text section. This section is | 1504 | references to all the mcount call sites in the .text section. |
1174 | compiled back into the original object. The final linker will add | 1505 | This section is compiled back into the original object. The |
1175 | all these references into a single table. | 1506 | final linker will add all these references into a single table. |
1176 | 1507 | ||
1177 | On boot up, before SMP is initialized, the dynamic ftrace code | 1508 | On boot up, before SMP is initialized, the dynamic ftrace code |
1178 | scans this table and updates all the locations into nops. It also | 1509 | scans this table and updates all the locations into nops. It |
1179 | records the locations, which are added to the available_filter_functions | 1510 | also records the locations, which are added to the |
1180 | list. Modules are processed as they are loaded and before they are | 1511 | available_filter_functions list. Modules are processed as they |
1181 | executed. When a module is unloaded, it also removes its functions from | 1512 | are loaded and before they are executed. When a module is |
1182 | the ftrace function list. This is automatic in the module unload | 1513 | unloaded, it also removes its functions from the ftrace function |
1183 | code, and the module author does not need to worry about it. | 1514 | list. This is automatic in the module unload code, and the |
1184 | 1515 | module author does not need to worry about it. | |
1185 | When tracing is enabled, kstop_machine is called to prevent races | 1516 | |
1186 | with the CPUS executing code being modified (which can cause the | 1517 | When tracing is enabled, kstop_machine is called to prevent |
1187 | CPU to do undesireable things), and the nops are patched back | 1518 | races with the CPUS executing code being modified (which can |
1188 | to calls. But this time, they do not call mcount (which is just | 1519 | cause the CPU to do undesireable things), and the nops are |
1189 | a function stub). They now call into the ftrace infrastructure. | 1520 | patched back to calls. But this time, they do not call mcount |
1521 | (which is just a function stub). They now call into the ftrace | ||
1522 | infrastructure. | ||
1190 | 1523 | ||
1191 | One special side-effect to the recording of the functions being | 1524 | One special side-effect to the recording of the functions being |
1192 | traced is that we can now selectively choose which functions we | 1525 | traced is that we can now selectively choose which functions we |
1193 | wish to trace and which ones we want the mcount calls to remain as | 1526 | wish to trace and which ones we want the mcount calls to remain |
1194 | nops. | 1527 | as nops. |
1195 | 1528 | ||
1196 | Two files are used, one for enabling and one for disabling the tracing | 1529 | Two files are used, one for enabling and one for disabling the |
1197 | of specified functions. They are: | 1530 | tracing of specified functions. They are: |
1198 | 1531 | ||
1199 | set_ftrace_filter | 1532 | set_ftrace_filter |
1200 | 1533 | ||
@@ -1202,8 +1535,8 @@ and | |||
1202 | 1535 | ||
1203 | set_ftrace_notrace | 1536 | set_ftrace_notrace |
1204 | 1537 | ||
1205 | A list of available functions that you can add to these files is listed | 1538 | A list of available functions that you can add to these files is |
1206 | in: | 1539 | listed in: |
1207 | 1540 | ||
1208 | available_filter_functions | 1541 | available_filter_functions |
1209 | 1542 | ||
@@ -1240,8 +1573,8 @@ hrtimer_interrupt | |||
1240 | sys_nanosleep | 1573 | sys_nanosleep |
1241 | 1574 | ||
1242 | 1575 | ||
1243 | Perhaps this is not enough. The filters also allow simple wild cards. | 1576 | Perhaps this is not enough. The filters also allow simple wild |
1244 | Only the following are currently available | 1577 | cards. Only the following are currently available |
1245 | 1578 | ||
1246 | <match>* - will match functions that begin with <match> | 1579 | <match>* - will match functions that begin with <match> |
1247 | *<match> - will match functions that end with <match> | 1580 | *<match> - will match functions that end with <match> |
@@ -1251,9 +1584,9 @@ These are the only wild cards which are supported. | |||
1251 | 1584 | ||
1252 | <match>*<match> will not work. | 1585 | <match>*<match> will not work. |
1253 | 1586 | ||
1254 | Note: It is better to use quotes to enclose the wild cards, otherwise | 1587 | Note: It is better to use quotes to enclose the wild cards, |
1255 | the shell may expand the parameters into names of files in the local | 1588 | otherwise the shell may expand the parameters into names |
1256 | directory. | 1589 | of files in the local directory. |
1257 | 1590 | ||
1258 | # echo 'hrtimer_*' > /debug/tracing/set_ftrace_filter | 1591 | # echo 'hrtimer_*' > /debug/tracing/set_ftrace_filter |
1259 | 1592 | ||
@@ -1299,7 +1632,8 @@ This is because the '>' and '>>' act just like they do in bash. | |||
1299 | To rewrite the filters, use '>' | 1632 | To rewrite the filters, use '>' |
1300 | To append to the filters, use '>>' | 1633 | To append to the filters, use '>>' |
1301 | 1634 | ||
1302 | To clear out a filter so that all functions will be recorded again: | 1635 | To clear out a filter so that all functions will be recorded |
1636 | again: | ||
1303 | 1637 | ||
1304 | # echo > /debug/tracing/set_ftrace_filter | 1638 | # echo > /debug/tracing/set_ftrace_filter |
1305 | # cat /debug/tracing/set_ftrace_filter | 1639 | # cat /debug/tracing/set_ftrace_filter |
@@ -1331,7 +1665,8 @@ hrtimer_get_res | |||
1331 | hrtimer_init_sleeper | 1665 | hrtimer_init_sleeper |
1332 | 1666 | ||
1333 | 1667 | ||
1334 | The set_ftrace_notrace prevents those functions from being traced. | 1668 | The set_ftrace_notrace prevents those functions from being |
1669 | traced. | ||
1335 | 1670 | ||
1336 | # echo '*preempt*' '*lock*' > /debug/tracing/set_ftrace_notrace | 1671 | # echo '*preempt*' '*lock*' > /debug/tracing/set_ftrace_notrace |
1337 | 1672 | ||
@@ -1353,13 +1688,75 @@ Produces: | |||
1353 | 1688 | ||
1354 | We can see that there's no more lock or preempt tracing. | 1689 | We can see that there's no more lock or preempt tracing. |
1355 | 1690 | ||
1691 | |||
1692 | Dynamic ftrace with the function graph tracer | ||
1693 | --------------------------------------------- | ||
1694 | |||
1695 | Although what has been explained above concerns both the | ||
1696 | function tracer and the function-graph-tracer, there are some | ||
1697 | special features only available in the function-graph tracer. | ||
1698 | |||
1699 | If you want to trace only one function and all of its children, | ||
1700 | you just have to echo its name into set_graph_function: | ||
1701 | |||
1702 | echo __do_fault > set_graph_function | ||
1703 | |||
1704 | will produce the following "expanded" trace of the __do_fault() | ||
1705 | function: | ||
1706 | |||
1707 | 0) | __do_fault() { | ||
1708 | 0) | filemap_fault() { | ||
1709 | 0) | find_lock_page() { | ||
1710 | 0) 0.804 us | find_get_page(); | ||
1711 | 0) | __might_sleep() { | ||
1712 | 0) 1.329 us | } | ||
1713 | 0) 3.904 us | } | ||
1714 | 0) 4.979 us | } | ||
1715 | 0) 0.653 us | _spin_lock(); | ||
1716 | 0) 0.578 us | page_add_file_rmap(); | ||
1717 | 0) 0.525 us | native_set_pte_at(); | ||
1718 | 0) 0.585 us | _spin_unlock(); | ||
1719 | 0) | unlock_page() { | ||
1720 | 0) 0.541 us | page_waitqueue(); | ||
1721 | 0) 0.639 us | __wake_up_bit(); | ||
1722 | 0) 2.786 us | } | ||
1723 | 0) + 14.237 us | } | ||
1724 | 0) | __do_fault() { | ||
1725 | 0) | filemap_fault() { | ||
1726 | 0) | find_lock_page() { | ||
1727 | 0) 0.698 us | find_get_page(); | ||
1728 | 0) | __might_sleep() { | ||
1729 | 0) 1.412 us | } | ||
1730 | 0) 3.950 us | } | ||
1731 | 0) 5.098 us | } | ||
1732 | 0) 0.631 us | _spin_lock(); | ||
1733 | 0) 0.571 us | page_add_file_rmap(); | ||
1734 | 0) 0.526 us | native_set_pte_at(); | ||
1735 | 0) 0.586 us | _spin_unlock(); | ||
1736 | 0) | unlock_page() { | ||
1737 | 0) 0.533 us | page_waitqueue(); | ||
1738 | 0) 0.638 us | __wake_up_bit(); | ||
1739 | 0) 2.793 us | } | ||
1740 | 0) + 14.012 us | } | ||
1741 | |||
1742 | You can also expand several functions at once: | ||
1743 | |||
1744 | echo sys_open > set_graph_function | ||
1745 | echo sys_close >> set_graph_function | ||
1746 | |||
1747 | Now if you want to go back to trace all functions you can clear | ||
1748 | this special filter via: | ||
1749 | |||
1750 | echo > set_graph_function | ||
1751 | |||
1752 | |||
1356 | trace_pipe | 1753 | trace_pipe |
1357 | ---------- | 1754 | ---------- |
1358 | 1755 | ||
1359 | The trace_pipe outputs the same content as the trace file, but the effect | 1756 | The trace_pipe outputs the same content as the trace file, but |
1360 | on the tracing is different. Every read from trace_pipe is consumed. | 1757 | the effect on the tracing is different. Every read from |
1361 | This means that subsequent reads will be different. The trace | 1758 | trace_pipe is consumed. This means that subsequent reads will be |
1362 | is live. | 1759 | different. The trace is live. |
1363 | 1760 | ||
1364 | # echo function > /debug/tracing/current_tracer | 1761 | # echo function > /debug/tracing/current_tracer |
1365 | # cat /debug/tracing/trace_pipe > /tmp/trace.out & | 1762 | # cat /debug/tracing/trace_pipe > /tmp/trace.out & |
@@ -1387,38 +1784,45 @@ is live. | |||
1387 | bash-4043 [00] 41.267111: select_task_rq_rt <-try_to_wake_up | 1784 | bash-4043 [00] 41.267111: select_task_rq_rt <-try_to_wake_up |
1388 | 1785 | ||
1389 | 1786 | ||
1390 | Note, reading the trace_pipe file will block until more input is added. | 1787 | Note, reading the trace_pipe file will block until more input is |
1391 | By changing the tracer, trace_pipe will issue an EOF. We needed | 1788 | added. By changing the tracer, trace_pipe will issue an EOF. We |
1392 | to set the function tracer _before_ we "cat" the trace_pipe file. | 1789 | needed to set the function tracer _before_ we "cat" the |
1790 | trace_pipe file. | ||
1393 | 1791 | ||
1394 | 1792 | ||
1395 | trace entries | 1793 | trace entries |
1396 | ------------- | 1794 | ------------- |
1397 | 1795 | ||
1398 | Having too much or not enough data can be troublesome in diagnosing | 1796 | Having too much or not enough data can be troublesome in |
1399 | an issue in the kernel. The file buffer_size_kb is used to modify | 1797 | diagnosing an issue in the kernel. The file buffer_size_kb is |
1400 | the size of the internal trace buffers. The number listed | 1798 | used to modify the size of the internal trace buffers. The |
1401 | is the number of entries that can be recorded per CPU. To know | 1799 | number listed is the number of entries that can be recorded per |
1402 | the full size, multiply the number of possible CPUS with the | 1800 | CPU. To know the full size, multiply the number of possible CPUS |
1403 | number of entries. | 1801 | with the number of entries. |
1404 | 1802 | ||
1405 | # cat /debug/tracing/buffer_size_kb | 1803 | # cat /debug/tracing/buffer_size_kb |
1406 | 1408 (units kilobytes) | 1804 | 1408 (units kilobytes) |
1407 | 1805 | ||
1408 | Note, to modify this, you must have tracing completely disabled. To do that, | 1806 | Note, to modify this, you must have tracing completely disabled. |
1409 | echo "nop" into the current_tracer. If the current_tracer is not set | 1807 | To do that, echo "nop" into the current_tracer. If the |
1410 | to "nop", an EINVAL error will be returned. | 1808 | current_tracer is not set to "nop", an EINVAL error will be |
1809 | returned. | ||
1411 | 1810 | ||
1412 | # echo nop > /debug/tracing/current_tracer | 1811 | # echo nop > /debug/tracing/current_tracer |
1413 | # echo 10000 > /debug/tracing/buffer_size_kb | 1812 | # echo 10000 > /debug/tracing/buffer_size_kb |
1414 | # cat /debug/tracing/buffer_size_kb | 1813 | # cat /debug/tracing/buffer_size_kb |
1415 | 10000 (units kilobytes) | 1814 | 10000 (units kilobytes) |
1416 | 1815 | ||
1417 | The number of pages which will be allocated is limited to a percentage | 1816 | The number of pages which will be allocated is limited to a |
1418 | of available memory. Allocating too much will produce an error. | 1817 | percentage of available memory. Allocating too much will produce |
1818 | an error. | ||
1419 | 1819 | ||
1420 | # echo 1000000000000 > /debug/tracing/buffer_size_kb | 1820 | # echo 1000000000000 > /debug/tracing/buffer_size_kb |
1421 | -bash: echo: write error: Cannot allocate memory | 1821 | -bash: echo: write error: Cannot allocate memory |
1422 | # cat /debug/tracing/buffer_size_kb | 1822 | # cat /debug/tracing/buffer_size_kb |
1423 | 85 | 1823 | 85 |
1424 | 1824 | ||
1825 | ----------- | ||
1826 | |||
1827 | More details can be found in the source code, in the | ||
1828 | kernel/tracing/*.c files. | ||
diff --git a/Documentation/trace/kmemtrace.txt b/Documentation/trace/kmemtrace.txt new file mode 100644 index 000000000000..a956d9b7f943 --- /dev/null +++ b/Documentation/trace/kmemtrace.txt | |||
@@ -0,0 +1,126 @@ | |||
1 | kmemtrace - Kernel Memory Tracer | ||
2 | |||
3 | by Eduard - Gabriel Munteanu | ||
4 | <eduard.munteanu@linux360.ro> | ||
5 | |||
6 | I. Introduction | ||
7 | =============== | ||
8 | |||
9 | kmemtrace helps kernel developers figure out two things: | ||
10 | 1) how different allocators (SLAB, SLUB etc.) perform | ||
11 | 2) how kernel code allocates memory and how much | ||
12 | |||
13 | To do this, we trace every allocation and export information to the userspace | ||
14 | through the relay interface. We export things such as the number of requested | ||
15 | bytes, the number of bytes actually allocated (i.e. including internal | ||
16 | fragmentation), whether this is a slab allocation or a plain kmalloc() and so | ||
17 | on. | ||
18 | |||
19 | The actual analysis is performed by a userspace tool (see section III for | ||
20 | details on where to get it from). It logs the data exported by the kernel, | ||
21 | processes it and (as of writing this) can provide the following information: | ||
22 | - the total amount of memory allocated and fragmentation per call-site | ||
23 | - the amount of memory allocated and fragmentation per allocation | ||
24 | - total memory allocated and fragmentation in the collected dataset | ||
25 | - number of cross-CPU allocation and frees (makes sense in NUMA environments) | ||
26 | |||
27 | Moreover, it can potentially find inconsistent and erroneous behavior in | ||
28 | kernel code, such as using slab free functions on kmalloc'ed memory or | ||
29 | allocating less memory than requested (but not truly failed allocations). | ||
30 | |||
31 | kmemtrace also makes provisions for tracing on some arch and analysing the | ||
32 | data on another. | ||
33 | |||
34 | II. Design and goals | ||
35 | ==================== | ||
36 | |||
37 | kmemtrace was designed to handle rather large amounts of data. Thus, it uses | ||
38 | the relay interface to export whatever is logged to userspace, which then | ||
39 | stores it. Analysis and reporting is done asynchronously, that is, after the | ||
40 | data is collected and stored. By design, it allows one to log and analyse | ||
41 | on different machines and different arches. | ||
42 | |||
43 | As of writing this, the ABI is not considered stable, though it might not | ||
44 | change much. However, no guarantees are made about compatibility yet. When | ||
45 | deemed stable, the ABI should still allow easy extension while maintaining | ||
46 | backward compatibility. This is described further in Documentation/ABI. | ||
47 | |||
48 | Summary of design goals: | ||
49 | - allow logging and analysis to be done across different machines | ||
50 | - be fast and anticipate usage in high-load environments (*) | ||
51 | - be reasonably extensible | ||
52 | - make it possible for GNU/Linux distributions to have kmemtrace | ||
53 | included in their repositories | ||
54 | |||
55 | (*) - one of the reasons Pekka Enberg's original userspace data analysis | ||
56 | tool's code was rewritten from Perl to C (although this is more than a | ||
57 | simple conversion) | ||
58 | |||
59 | |||
60 | III. Quick usage guide | ||
61 | ====================== | ||
62 | |||
63 | 1) Get a kernel that supports kmemtrace and build it accordingly (i.e. enable | ||
64 | CONFIG_KMEMTRACE). | ||
65 | |||
66 | 2) Get the userspace tool and build it: | ||
67 | $ git-clone git://repo.or.cz/kmemtrace-user.git # current repository | ||
68 | $ cd kmemtrace-user/ | ||
69 | $ ./autogen.sh | ||
70 | $ ./configure | ||
71 | $ make | ||
72 | |||
73 | 3) Boot the kmemtrace-enabled kernel if you haven't, preferably in the | ||
74 | 'single' runlevel (so that relay buffers don't fill up easily), and run | ||
75 | kmemtrace: | ||
76 | # '$' does not mean user, but root here. | ||
77 | $ mount -t debugfs none /sys/kernel/debug | ||
78 | $ mount -t proc none /proc | ||
79 | $ cd path/to/kmemtrace-user/ | ||
80 | $ ./kmemtraced | ||
81 | Wait a bit, then stop it with CTRL+C. | ||
82 | $ cat /sys/kernel/debug/kmemtrace/total_overruns # Check if we didn't | ||
83 | # overrun, should | ||
84 | # be zero. | ||
85 | $ (Optionally) [Run kmemtrace_check separately on each cpu[0-9]*.out file to | ||
86 | check its correctness] | ||
87 | $ ./kmemtrace-report | ||
88 | |||
89 | Now you should have a nice and short summary of how the allocator performs. | ||
90 | |||
91 | IV. FAQ and known issues | ||
92 | ======================== | ||
93 | |||
94 | Q: 'cat /sys/kernel/debug/kmemtrace/total_overruns' is non-zero, how do I fix | ||
95 | this? Should I worry? | ||
96 | A: If it's non-zero, this affects kmemtrace's accuracy, depending on how | ||
97 | large the number is. You can fix it by supplying a higher | ||
98 | 'kmemtrace.subbufs=N' kernel parameter. | ||
99 | --- | ||
100 | |||
101 | Q: kmemtrace_check reports errors, how do I fix this? Should I worry? | ||
102 | A: This is a bug and should be reported. It can occur for a variety of | ||
103 | reasons: | ||
104 | - possible bugs in relay code | ||
105 | - possible misuse of relay by kmemtrace | ||
106 | - timestamps being collected unorderly | ||
107 | Or you may fix it yourself and send us a patch. | ||
108 | --- | ||
109 | |||
110 | Q: kmemtrace_report shows many errors, how do I fix this? Should I worry? | ||
111 | A: This is a known issue and I'm working on it. These might be true errors | ||
112 | in kernel code, which may have inconsistent behavior (e.g. allocating memory | ||
113 | with kmem_cache_alloc() and freeing it with kfree()). Pekka Enberg pointed | ||
114 | out this behavior may work with SLAB, but may fail with other allocators. | ||
115 | |||
116 | It may also be due to lack of tracing in some unusual allocator functions. | ||
117 | |||
118 | We don't want bug reports regarding this issue yet. | ||
119 | --- | ||
120 | |||
121 | V. See also | ||
122 | =========== | ||
123 | |||
124 | Documentation/kernel-parameters.txt | ||
125 | Documentation/ABI/testing/debugfs-kmemtrace | ||
126 | |||
diff --git a/Documentation/tracers/mmiotrace.txt b/Documentation/trace/mmiotrace.txt index 5731c67abc55..5731c67abc55 100644 --- a/Documentation/tracers/mmiotrace.txt +++ b/Documentation/trace/mmiotrace.txt | |||
diff --git a/Documentation/tracepoints.txt b/Documentation/trace/tracepoints.txt index 6f0a044f5b5e..c0e1ceed75a4 100644 --- a/Documentation/tracepoints.txt +++ b/Documentation/trace/tracepoints.txt | |||
@@ -45,8 +45,8 @@ In include/trace/subsys.h : | |||
45 | #include <linux/tracepoint.h> | 45 | #include <linux/tracepoint.h> |
46 | 46 | ||
47 | DECLARE_TRACE(subsys_eventname, | 47 | DECLARE_TRACE(subsys_eventname, |
48 | TPPROTO(int firstarg, struct task_struct *p), | 48 | TP_PROTO(int firstarg, struct task_struct *p), |
49 | TPARGS(firstarg, p)); | 49 | TP_ARGS(firstarg, p)); |
50 | 50 | ||
51 | In subsys/file.c (where the tracing statement must be added) : | 51 | In subsys/file.c (where the tracing statement must be added) : |
52 | 52 | ||
@@ -66,10 +66,10 @@ Where : | |||
66 | - subsys is the name of your subsystem. | 66 | - subsys is the name of your subsystem. |
67 | - eventname is the name of the event to trace. | 67 | - eventname is the name of the event to trace. |
68 | 68 | ||
69 | - TPPROTO(int firstarg, struct task_struct *p) is the prototype of the | 69 | - TP_PROTO(int firstarg, struct task_struct *p) is the prototype of the |
70 | function called by this tracepoint. | 70 | function called by this tracepoint. |
71 | 71 | ||
72 | - TPARGS(firstarg, p) are the parameters names, same as found in the | 72 | - TP_ARGS(firstarg, p) are the parameters names, same as found in the |
73 | prototype. | 73 | prototype. |
74 | 74 | ||
75 | Connecting a function (probe) to a tracepoint is done by providing a | 75 | Connecting a function (probe) to a tracepoint is done by providing a |
@@ -103,13 +103,14 @@ used to export the defined tracepoints. | |||
103 | 103 | ||
104 | * Probe / tracepoint example | 104 | * Probe / tracepoint example |
105 | 105 | ||
106 | See the example provided in samples/tracepoints/src | 106 | See the example provided in samples/tracepoints |
107 | 107 | ||
108 | Compile them with your kernel. | 108 | Compile them with your kernel. They are built during 'make' (not |
109 | 'make modules') when CONFIG_SAMPLE_TRACEPOINTS=m. | ||
109 | 110 | ||
110 | Run, as root : | 111 | Run, as root : |
111 | modprobe tracepoint-example (insmod order is not important) | 112 | modprobe tracepoint-sample (insmod order is not important) |
112 | modprobe tracepoint-probe-example | 113 | modprobe tracepoint-probe-sample |
113 | cat /proc/tracepoint-example (returns an expected error) | 114 | cat /proc/tracepoint-sample (returns an expected error) |
114 | rmmod tracepoint-example tracepoint-probe-example | 115 | rmmod tracepoint-sample tracepoint-probe-sample |
115 | dmesg | 116 | dmesg |
diff --git a/Documentation/video4linux/pxa_camera.txt b/Documentation/video4linux/pxa_camera.txt new file mode 100644 index 000000000000..b1137f9a53eb --- /dev/null +++ b/Documentation/video4linux/pxa_camera.txt | |||
@@ -0,0 +1,125 @@ | |||
1 | PXA-Camera Host Driver | ||
2 | ====================== | ||
3 | |||
4 | Constraints | ||
5 | ----------- | ||
6 | a) Image size for YUV422P format | ||
7 | All YUV422P images are enforced to have width x height % 16 = 0. | ||
8 | This is due to DMA constraints, which transfers only planes of 8 byte | ||
9 | multiples. | ||
10 | |||
11 | |||
12 | Global video workflow | ||
13 | --------------------- | ||
14 | a) QCI stopped | ||
15 | Initialy, the QCI interface is stopped. | ||
16 | When a buffer is queued (pxa_videobuf_ops->buf_queue), the QCI starts. | ||
17 | |||
18 | b) QCI started | ||
19 | More buffers can be queued while the QCI is started without halting the | ||
20 | capture. The new buffers are "appended" at the tail of the DMA chain, and | ||
21 | smoothly captured one frame after the other. | ||
22 | |||
23 | Once a buffer is filled in the QCI interface, it is marked as "DONE" and | ||
24 | removed from the active buffers list. It can be then requeud or dequeued by | ||
25 | userland application. | ||
26 | |||
27 | Once the last buffer is filled in, the QCI interface stops. | ||
28 | |||
29 | |||
30 | DMA usage | ||
31 | --------- | ||
32 | a) DMA flow | ||
33 | - first buffer queued for capture | ||
34 | Once a first buffer is queued for capture, the QCI is started, but data | ||
35 | transfer is not started. On "End Of Frame" interrupt, the irq handler | ||
36 | starts the DMA chain. | ||
37 | - capture of one videobuffer | ||
38 | The DMA chain starts transfering data into videobuffer RAM pages. | ||
39 | When all pages are transfered, the DMA irq is raised on "ENDINTR" status | ||
40 | - finishing one videobuffer | ||
41 | The DMA irq handler marks the videobuffer as "done", and removes it from | ||
42 | the active running queue | ||
43 | Meanwhile, the next videobuffer (if there is one), is transfered by DMA | ||
44 | - finishing the last videobuffer | ||
45 | On the DMA irq of the last videobuffer, the QCI is stopped. | ||
46 | |||
47 | b) DMA prepared buffer will have this structure | ||
48 | |||
49 | +------------+-----+---------------+-----------------+ | ||
50 | | desc-sg[0] | ... | desc-sg[last] | finisher/linker | | ||
51 | +------------+-----+---------------+-----------------+ | ||
52 | |||
53 | This structure is pointed by dma->sg_cpu. | ||
54 | The descriptors are used as follows : | ||
55 | - desc-sg[i]: i-th descriptor, transfering the i-th sg | ||
56 | element to the video buffer scatter gather | ||
57 | - finisher: has ddadr=DADDR_STOP, dcmd=ENDIRQEN | ||
58 | - linker: has ddadr= desc-sg[0] of next video buffer, dcmd=0 | ||
59 | |||
60 | For the next schema, let's assume d0=desc-sg[0] .. dN=desc-sg[N], | ||
61 | "f" stands for finisher and "l" for linker. | ||
62 | A typical running chain is : | ||
63 | |||
64 | Videobuffer 1 Videobuffer 2 | ||
65 | +---------+----+---+ +----+----+----+---+ | ||
66 | | d0 | .. | dN | l | | d0 | .. | dN | f | | ||
67 | +---------+----+-|-+ ^----+----+----+---+ | ||
68 | | | | ||
69 | +----+ | ||
70 | |||
71 | After the chaining is finished, the chain looks like : | ||
72 | |||
73 | Videobuffer 1 Videobuffer 2 Videobuffer 3 | ||
74 | +---------+----+---+ +----+----+----+---+ +----+----+----+---+ | ||
75 | | d0 | .. | dN | l | | d0 | .. | dN | l | | d0 | .. | dN | f | | ||
76 | +---------+----+-|-+ ^----+----+----+-|-+ ^----+----+----+---+ | ||
77 | | | | | | ||
78 | +----+ +----+ | ||
79 | new_link | ||
80 | |||
81 | c) DMA hot chaining timeslice issue | ||
82 | |||
83 | As DMA chaining is done while DMA _is_ running, the linking may be done | ||
84 | while the DMA jumps from one Videobuffer to another. On the schema, that | ||
85 | would be a problem if the following sequence is encountered : | ||
86 | |||
87 | - DMA chain is Videobuffer1 + Videobuffer2 | ||
88 | - pxa_videobuf_queue() is called to queue Videobuffer3 | ||
89 | - DMA controller finishes Videobuffer2, and DMA stops | ||
90 | => | ||
91 | Videobuffer 1 Videobuffer 2 | ||
92 | +---------+----+---+ +----+----+----+---+ | ||
93 | | d0 | .. | dN | l | | d0 | .. | dN | f | | ||
94 | +---------+----+-|-+ ^----+----+----+-^-+ | ||
95 | | | | | ||
96 | +----+ +-- DMA DDADR loads DDADR_STOP | ||
97 | |||
98 | - pxa_dma_add_tail_buf() is called, the Videobuffer2 "finisher" is | ||
99 | replaced by a "linker" to Videobuffer3 (creation of new_link) | ||
100 | - pxa_videobuf_queue() finishes | ||
101 | - the DMA irq handler is called, which terminates Videobuffer2 | ||
102 | - Videobuffer3 capture is not scheduled on DMA chain (as it stopped !!!) | ||
103 | |||
104 | Videobuffer 1 Videobuffer 2 Videobuffer 3 | ||
105 | +---------+----+---+ +----+----+----+---+ +----+----+----+---+ | ||
106 | | d0 | .. | dN | l | | d0 | .. | dN | l | | d0 | .. | dN | f | | ||
107 | +---------+----+-|-+ ^----+----+----+-|-+ ^----+----+----+---+ | ||
108 | | | | | | ||
109 | +----+ +----+ | ||
110 | new_link | ||
111 | DMA DDADR still is DDADR_STOP | ||
112 | |||
113 | - pxa_camera_check_link_miss() is called | ||
114 | This checks if the DMA is finished and a buffer is still on the | ||
115 | pcdev->capture list. If that's the case, the capture will be restarted, | ||
116 | and Videobuffer3 is scheduled on DMA chain. | ||
117 | - the DMA irq handler finishes | ||
118 | |||
119 | Note: if DMA stops just after pxa_camera_check_link_miss() reads DDADR() | ||
120 | value, we have the guarantee that the DMA irq handler will be called back | ||
121 | when the DMA will finish the buffer, and pxa_camera_check_link_miss() will | ||
122 | be called again, to reschedule Videobuffer3. | ||
123 | |||
124 | -- | ||
125 | Author: Robert Jarzmik <robert.jarzmik@free.fr> | ||
diff --git a/Documentation/video4linux/v4l2-framework.txt b/Documentation/video4linux/v4l2-framework.txt index a31177390e55..854808b67fae 100644 --- a/Documentation/video4linux/v4l2-framework.txt +++ b/Documentation/video4linux/v4l2-framework.txt | |||
@@ -90,7 +90,7 @@ up before calling v4l2_device_register then it will be untouched. If dev is | |||
90 | NULL, then you *must* setup v4l2_dev->name before calling v4l2_device_register. | 90 | NULL, then you *must* setup v4l2_dev->name before calling v4l2_device_register. |
91 | 91 | ||
92 | The first 'dev' argument is normally the struct device pointer of a pci_dev, | 92 | The first 'dev' argument is normally the struct device pointer of a pci_dev, |
93 | usb_device or platform_device. It is rare for dev to be NULL, but it happens | 93 | usb_interface or platform_device. It is rare for dev to be NULL, but it happens |
94 | with ISA devices or when one device creates multiple PCI devices, thus making | 94 | with ISA devices or when one device creates multiple PCI devices, thus making |
95 | it impossible to associate v4l2_dev with a particular parent. | 95 | it impossible to associate v4l2_dev with a particular parent. |
96 | 96 | ||
@@ -351,17 +351,6 @@ And this to go from an i2c_client to a v4l2_subdev struct: | |||
351 | 351 | ||
352 | struct v4l2_subdev *sd = i2c_get_clientdata(client); | 352 | struct v4l2_subdev *sd = i2c_get_clientdata(client); |
353 | 353 | ||
354 | Finally you need to make a command function to make driver->command() | ||
355 | call the right subdev_ops functions: | ||
356 | |||
357 | static int subdev_command(struct i2c_client *client, unsigned cmd, void *arg) | ||
358 | { | ||
359 | return v4l2_subdev_command(i2c_get_clientdata(client), cmd, arg); | ||
360 | } | ||
361 | |||
362 | If driver->command is never used then you can leave this out. Eventually the | ||
363 | driver->command usage should be removed from v4l. | ||
364 | |||
365 | Make sure to call v4l2_device_unregister_subdev(sd) when the remove() callback | 354 | Make sure to call v4l2_device_unregister_subdev(sd) when the remove() callback |
366 | is called. This will unregister the sub-device from the bridge driver. It is | 355 | is called. This will unregister the sub-device from the bridge driver. It is |
367 | safe to call this even if the sub-device was never registered. | 356 | safe to call this even if the sub-device was never registered. |
@@ -375,14 +364,12 @@ from the remove() callback ensures that this is always done correctly. | |||
375 | 364 | ||
376 | The bridge driver also has some helper functions it can use: | 365 | The bridge driver also has some helper functions it can use: |
377 | 366 | ||
378 | struct v4l2_subdev *sd = v4l2_i2c_new_subdev(adapter, "module_foo", "chipid", 0x36); | 367 | struct v4l2_subdev *sd = v4l2_i2c_new_subdev(v4l2_dev, adapter, |
368 | "module_foo", "chipid", 0x36); | ||
379 | 369 | ||
380 | This loads the given module (can be NULL if no module needs to be loaded) and | 370 | This loads the given module (can be NULL if no module needs to be loaded) and |
381 | calls i2c_new_device() with the given i2c_adapter and chip/address arguments. | 371 | calls i2c_new_device() with the given i2c_adapter and chip/address arguments. |
382 | If all goes well, then it registers the subdev with the v4l2_device. It gets | 372 | If all goes well, then it registers the subdev with the v4l2_device. |
383 | the v4l2_device by calling i2c_get_adapdata(adapter), so you should make sure | ||
384 | to call i2c_set_adapdata(adapter, v4l2_device) when you setup the i2c_adapter | ||
385 | in your driver. | ||
386 | 373 | ||
387 | You can also use v4l2_i2c_new_probed_subdev() which is very similar to | 374 | You can also use v4l2_i2c_new_probed_subdev() which is very similar to |
388 | v4l2_i2c_new_subdev(), except that it has an array of possible I2C addresses | 375 | v4l2_i2c_new_subdev(), except that it has an array of possible I2C addresses |
diff --git a/Documentation/vm/00-INDEX b/Documentation/vm/00-INDEX index 2131b00b63f6..2f77ced35df7 100644 --- a/Documentation/vm/00-INDEX +++ b/Documentation/vm/00-INDEX | |||
@@ -1,5 +1,7 @@ | |||
1 | 00-INDEX | 1 | 00-INDEX |
2 | - this file. | 2 | - this file. |
3 | active_mm.txt | ||
4 | - An explanation from Linus about tsk->active_mm vs tsk->mm. | ||
3 | balance | 5 | balance |
4 | - various information on memory balancing. | 6 | - various information on memory balancing. |
5 | hugetlbpage.txt | 7 | hugetlbpage.txt |
diff --git a/Documentation/vm/active_mm.txt b/Documentation/vm/active_mm.txt new file mode 100644 index 000000000000..4ee1f643d897 --- /dev/null +++ b/Documentation/vm/active_mm.txt | |||
@@ -0,0 +1,83 @@ | |||
1 | List: linux-kernel | ||
2 | Subject: Re: active_mm | ||
3 | From: Linus Torvalds <torvalds () transmeta ! com> | ||
4 | Date: 1999-07-30 21:36:24 | ||
5 | |||
6 | Cc'd to linux-kernel, because I don't write explanations all that often, | ||
7 | and when I do I feel better about more people reading them. | ||
8 | |||
9 | On Fri, 30 Jul 1999, David Mosberger wrote: | ||
10 | > | ||
11 | > Is there a brief description someplace on how "mm" vs. "active_mm" in | ||
12 | > the task_struct are supposed to be used? (My apologies if this was | ||
13 | > discussed on the mailing lists---I just returned from vacation and | ||
14 | > wasn't able to follow linux-kernel for a while). | ||
15 | |||
16 | Basically, the new setup is: | ||
17 | |||
18 | - we have "real address spaces" and "anonymous address spaces". The | ||
19 | difference is that an anonymous address space doesn't care about the | ||
20 | user-level page tables at all, so when we do a context switch into an | ||
21 | anonymous address space we just leave the previous address space | ||
22 | active. | ||
23 | |||
24 | The obvious use for a "anonymous address space" is any thread that | ||
25 | doesn't need any user mappings - all kernel threads basically fall into | ||
26 | this category, but even "real" threads can temporarily say that for | ||
27 | some amount of time they are not going to be interested in user space, | ||
28 | and that the scheduler might as well try to avoid wasting time on | ||
29 | switching the VM state around. Currently only the old-style bdflush | ||
30 | sync does that. | ||
31 | |||
32 | - "tsk->mm" points to the "real address space". For an anonymous process, | ||
33 | tsk->mm will be NULL, for the logical reason that an anonymous process | ||
34 | really doesn't _have_ a real address space at all. | ||
35 | |||
36 | - however, we obviously need to keep track of which address space we | ||
37 | "stole" for such an anonymous user. For that, we have "tsk->active_mm", | ||
38 | which shows what the currently active address space is. | ||
39 | |||
40 | The rule is that for a process with a real address space (ie tsk->mm is | ||
41 | non-NULL) the active_mm obviously always has to be the same as the real | ||
42 | one. | ||
43 | |||
44 | For a anonymous process, tsk->mm == NULL, and tsk->active_mm is the | ||
45 | "borrowed" mm while the anonymous process is running. When the | ||
46 | anonymous process gets scheduled away, the borrowed address space is | ||
47 | returned and cleared. | ||
48 | |||
49 | To support all that, the "struct mm_struct" now has two counters: a | ||
50 | "mm_users" counter that is how many "real address space users" there are, | ||
51 | and a "mm_count" counter that is the number of "lazy" users (ie anonymous | ||
52 | users) plus one if there are any real users. | ||
53 | |||
54 | Usually there is at least one real user, but it could be that the real | ||
55 | user exited on another CPU while a lazy user was still active, so you do | ||
56 | actually get cases where you have a address space that is _only_ used by | ||
57 | lazy users. That is often a short-lived state, because once that thread | ||
58 | gets scheduled away in favour of a real thread, the "zombie" mm gets | ||
59 | released because "mm_users" becomes zero. | ||
60 | |||
61 | Also, a new rule is that _nobody_ ever has "init_mm" as a real MM any | ||
62 | more. "init_mm" should be considered just a "lazy context when no other | ||
63 | context is available", and in fact it is mainly used just at bootup when | ||
64 | no real VM has yet been created. So code that used to check | ||
65 | |||
66 | if (current->mm == &init_mm) | ||
67 | |||
68 | should generally just do | ||
69 | |||
70 | if (!current->mm) | ||
71 | |||
72 | instead (which makes more sense anyway - the test is basically one of "do | ||
73 | we have a user context", and is generally done by the page fault handler | ||
74 | and things like that). | ||
75 | |||
76 | Anyway, I put a pre-patch-2.3.13-1 on ftp.kernel.org just a moment ago, | ||
77 | because it slightly changes the interfaces to accomodate the alpha (who | ||
78 | would have thought it, but the alpha actually ends up having one of the | ||
79 | ugliest context switch codes - unlike the other architectures where the MM | ||
80 | and register state is separate, the alpha PALcode joins the two, and you | ||
81 | need to switch both together). | ||
82 | |||
83 | (From http://marc.info/?l=linux-kernel&m=93337278602211&w=2) | ||
diff --git a/Documentation/vm/unevictable-lru.txt b/Documentation/vm/unevictable-lru.txt index 0706a7282a8c..2d70d0d95108 100644 --- a/Documentation/vm/unevictable-lru.txt +++ b/Documentation/vm/unevictable-lru.txt | |||
@@ -1,588 +1,691 @@ | |||
1 | 1 | ============================== | |
2 | This document describes the Linux memory management "Unevictable LRU" | 2 | UNEVICTABLE LRU INFRASTRUCTURE |
3 | infrastructure and the use of this infrastructure to manage several types | 3 | ============================== |
4 | of "unevictable" pages. The document attempts to provide the overall | 4 | |
5 | rationale behind this mechanism and the rationale for some of the design | 5 | ======== |
6 | decisions that drove the implementation. The latter design rationale is | 6 | CONTENTS |
7 | discussed in the context of an implementation description. Admittedly, one | 7 | ======== |
8 | can obtain the implementation details--the "what does it do?"--by reading the | 8 | |
9 | code. One hopes that the descriptions below add value by provide the answer | 9 | (*) The Unevictable LRU |
10 | to "why does it do that?". | 10 | |
11 | 11 | - The unevictable page list. | |
12 | Unevictable LRU Infrastructure: | 12 | - Memory control group interaction. |
13 | 13 | - Marking address spaces unevictable. | |
14 | The Unevictable LRU adds an additional LRU list to track unevictable pages | 14 | - Detecting Unevictable Pages. |
15 | and to hide these pages from vmscan. This mechanism is based on a patch by | 15 | - vmscan's handling of unevictable pages. |
16 | Larry Woodman of Red Hat to address several scalability problems with page | 16 | |
17 | (*) mlock()'d pages. | ||
18 | |||
19 | - History. | ||
20 | - Basic management. | ||
21 | - mlock()/mlockall() system call handling. | ||
22 | - Filtering special vmas. | ||
23 | - munlock()/munlockall() system call handling. | ||
24 | - Migrating mlocked pages. | ||
25 | - mmap(MAP_LOCKED) system call handling. | ||
26 | - munmap()/exit()/exec() system call handling. | ||
27 | - try_to_unmap(). | ||
28 | - try_to_munlock() reverse map scan. | ||
29 | - Page reclaim in shrink_*_list(). | ||
30 | |||
31 | |||
32 | ============ | ||
33 | INTRODUCTION | ||
34 | ============ | ||
35 | |||
36 | This document describes the Linux memory manager's "Unevictable LRU" | ||
37 | infrastructure and the use of this to manage several types of "unevictable" | ||
38 | pages. | ||
39 | |||
40 | The document attempts to provide the overall rationale behind this mechanism | ||
41 | and the rationale for some of the design decisions that drove the | ||
42 | implementation. The latter design rationale is discussed in the context of an | ||
43 | implementation description. Admittedly, one can obtain the implementation | ||
44 | details - the "what does it do?" - by reading the code. One hopes that the | ||
45 | descriptions below add value by provide the answer to "why does it do that?". | ||
46 | |||
47 | |||
48 | =================== | ||
49 | THE UNEVICTABLE LRU | ||
50 | =================== | ||
51 | |||
52 | The Unevictable LRU facility adds an additional LRU list to track unevictable | ||
53 | pages and to hide these pages from vmscan. This mechanism is based on a patch | ||
54 | by Larry Woodman of Red Hat to address several scalability problems with page | ||
17 | reclaim in Linux. The problems have been observed at customer sites on large | 55 | reclaim in Linux. The problems have been observed at customer sites on large |
18 | memory x86_64 systems. For example, a non-numal x86_64 platform with 128GB | 56 | memory x86_64 systems. |
19 | of main memory will have over 32 million 4k pages in a single zone. When a | 57 | |
20 | large fraction of these pages are not evictable for any reason [see below], | 58 | To illustrate this with an example, a non-NUMA x86_64 platform with 128GB of |
21 | vmscan will spend a lot of time scanning the LRU lists looking for the small | 59 | main memory will have over 32 million 4k pages in a single zone. When a large |
22 | fraction of pages that are evictable. This can result in a situation where | 60 | fraction of these pages are not evictable for any reason [see below], vmscan |
23 | all cpus are spending 100% of their time in vmscan for hours or days on end, | 61 | will spend a lot of time scanning the LRU lists looking for the small fraction |
24 | with the system completely unresponsive. | 62 | of pages that are evictable. This can result in a situation where all CPUs are |
25 | 63 | spending 100% of their time in vmscan for hours or days on end, with the system | |
26 | The Unevictable LRU infrastructure addresses the following classes of | 64 | completely unresponsive. |
27 | unevictable pages: | 65 | |
28 | 66 | The unevictable list addresses the following classes of unevictable pages: | |
29 | + page owned by ramfs | 67 | |
30 | + page mapped into SHM_LOCKed shared memory regions | 68 | (*) Those owned by ramfs. |
31 | + page mapped into VM_LOCKED [mlock()ed] vmas | 69 | |
32 | 70 | (*) Those mapped into SHM_LOCK'd shared memory regions. | |
33 | The infrastructure might be able to handle other conditions that make pages | 71 | |
72 | (*) Those mapped into VM_LOCKED [mlock()ed] VMAs. | ||
73 | |||
74 | The infrastructure may also be able to handle other conditions that make pages | ||
34 | unevictable, either by definition or by circumstance, in the future. | 75 | unevictable, either by definition or by circumstance, in the future. |
35 | 76 | ||
36 | 77 | ||
37 | The Unevictable LRU List | 78 | THE UNEVICTABLE PAGE LIST |
79 | ------------------------- | ||
38 | 80 | ||
39 | The Unevictable LRU infrastructure consists of an additional, per-zone, LRU list | 81 | The Unevictable LRU infrastructure consists of an additional, per-zone, LRU list |
40 | called the "unevictable" list and an associated page flag, PG_unevictable, to | 82 | called the "unevictable" list and an associated page flag, PG_unevictable, to |
41 | indicate that the page is being managed on the unevictable list. The | 83 | indicate that the page is being managed on the unevictable list. |
42 | PG_unevictable flag is analogous to, and mutually exclusive with, the PG_active | 84 | |
43 | flag in that it indicates on which LRU list a page resides when PG_lru is set. | 85 | The PG_unevictable flag is analogous to, and mutually exclusive with, the |
44 | The unevictable LRU list is source configurable based on the UNEVICTABLE_LRU | 86 | PG_active flag in that it indicates on which LRU list a page resides when |
45 | Kconfig option. | 87 | PG_lru is set. The unevictable list is compile-time configurable based on the |
88 | UNEVICTABLE_LRU Kconfig option. | ||
46 | 89 | ||
47 | The Unevictable LRU infrastructure maintains unevictable pages on an additional | 90 | The Unevictable LRU infrastructure maintains unevictable pages on an additional |
48 | LRU list for a few reasons: | 91 | LRU list for a few reasons: |
49 | 92 | ||
50 | 1) We get to "treat unevictable pages just like we treat other pages in the | 93 | (1) We get to "treat unevictable pages just like we treat other pages in the |
51 | system, which means we get to use the same code to manipulate them, the | 94 | system - which means we get to use the same code to manipulate them, the |
52 | same code to isolate them (for migrate, etc.), the same code to keep track | 95 | same code to isolate them (for migrate, etc.), the same code to keep track |
53 | of the statistics, etc..." [Rik van Riel] | 96 | of the statistics, etc..." [Rik van Riel] |
97 | |||
98 | (2) We want to be able to migrate unevictable pages between nodes for memory | ||
99 | defragmentation, workload management and memory hotplug. The linux kernel | ||
100 | can only migrate pages that it can successfully isolate from the LRU | ||
101 | lists. If we were to maintain pages elsewhere than on an LRU-like list, | ||
102 | where they can be found by isolate_lru_page(), we would prevent their | ||
103 | migration, unless we reworked migration code to find the unevictable pages | ||
104 | itself. | ||
54 | 105 | ||
55 | 2) We want to be able to migrate unevictable pages between nodes--for memory | ||
56 | defragmentation, workload management and memory hotplug. The linux kernel | ||
57 | can only migrate pages that it can successfully isolate from the lru lists. | ||
58 | If we were to maintain pages elsewise than on an lru-like list, where they | ||
59 | can be found by isolate_lru_page(), we would prevent their migration, unless | ||
60 | we reworked migration code to find the unevictable pages. | ||
61 | 106 | ||
107 | The unevictable list does not differentiate between file-backed and anonymous, | ||
108 | swap-backed pages. This differentiation is only important while the pages are, | ||
109 | in fact, evictable. | ||
62 | 110 | ||
63 | The unevictable LRU list does not differentiate between file backed and swap | 111 | The unevictable list benefits from the "arrayification" of the per-zone LRU |
64 | backed [anon] pages. This differentiation is only important while the pages | 112 | lists and statistics originally proposed and posted by Christoph Lameter. |
65 | are, in fact, evictable. | ||
66 | 113 | ||
67 | The unevictable LRU list benefits from the "arrayification" of the per-zone | 114 | The unevictable list does not use the LRU pagevec mechanism. Rather, |
68 | LRU lists and statistics originally proposed and posted by Christoph Lameter. | 115 | unevictable pages are placed directly on the page's zone's unevictable list |
116 | under the zone lru_lock. This allows us to prevent the stranding of pages on | ||
117 | the unevictable list when one task has the page isolated from the LRU and other | ||
118 | tasks are changing the "evictability" state of the page. | ||
69 | 119 | ||
70 | The unevictable list does not use the lru pagevec mechanism. Rather, | ||
71 | unevictable pages are placed directly on the page's zone's unevictable | ||
72 | list under the zone lru_lock. The reason for this is to prevent stranding | ||
73 | of pages on the unevictable list when one task has the page isolated from the | ||
74 | lru and other tasks are changing the "evictability" state of the page. | ||
75 | 120 | ||
121 | MEMORY CONTROL GROUP INTERACTION | ||
122 | -------------------------------- | ||
76 | 123 | ||
77 | Unevictable LRU and Memory Controller Interaction | 124 | The unevictable LRU facility interacts with the memory control group [aka |
125 | memory controller; see Documentation/cgroups/memory.txt] by extending the | ||
126 | lru_list enum. | ||
127 | |||
128 | The memory controller data structure automatically gets a per-zone unevictable | ||
129 | list as a result of the "arrayification" of the per-zone LRU lists (one per | ||
130 | lru_list enum element). The memory controller tracks the movement of pages to | ||
131 | and from the unevictable list. | ||
78 | 132 | ||
79 | The memory controller data structure automatically gets a per zone unevictable | ||
80 | lru list as a result of the "arrayification" of the per-zone LRU lists. The | ||
81 | memory controller tracks the movement of pages to and from the unevictable list. | ||
82 | When a memory control group comes under memory pressure, the controller will | 133 | When a memory control group comes under memory pressure, the controller will |
83 | not attempt to reclaim pages on the unevictable list. This has a couple of | 134 | not attempt to reclaim pages on the unevictable list. This has a couple of |
84 | effects. Because the pages are "hidden" from reclaim on the unevictable list, | 135 | effects: |
85 | the reclaim process can be more efficient, dealing only with pages that have | 136 | |
86 | a chance of being reclaimed. On the other hand, if too many of the pages | 137 | (1) Because the pages are "hidden" from reclaim on the unevictable list, the |
87 | charged to the control group are unevictable, the evictable portion of the | 138 | reclaim process can be more efficient, dealing only with pages that have a |
88 | working set of the tasks in the control group may not fit into the available | 139 | chance of being reclaimed. |
89 | memory. This can cause the control group to thrash or to oom-kill tasks. | 140 | |
90 | 141 | (2) On the other hand, if too many of the pages charged to the control group | |
91 | 142 | are unevictable, the evictable portion of the working set of the tasks in | |
92 | Unevictable LRU: Detecting Unevictable Pages | 143 | the control group may not fit into the available memory. This can cause |
93 | 144 | the control group to thrash or to OOM-kill tasks. | |
94 | The function page_evictable(page, vma) in vmscan.c determines whether a | 145 | |
95 | page is evictable or not. For ramfs pages and pages in SHM_LOCKed regions, | 146 | |
96 | page_evictable() tests a new address space flag, AS_UNEVICTABLE, in the page's | 147 | MARKING ADDRESS SPACES UNEVICTABLE |
97 | address space using a wrapper function. Wrapper functions are used to set, | 148 | ---------------------------------- |
98 | clear and test the flag to reduce the requirement for #ifdef's throughout the | 149 | |
99 | source code. AS_UNEVICTABLE is set on ramfs inode/mapping when it is created. | 150 | For facilities such as ramfs none of the pages attached to the address space |
100 | This flag remains for the life of the inode. | 151 | may be evicted. To prevent eviction of any such pages, the AS_UNEVICTABLE |
101 | 152 | address space flag is provided, and this can be manipulated by a filesystem | |
102 | For shared memory regions, AS_UNEVICTABLE is set when an application | 153 | using a number of wrapper functions: |
103 | successfully SHM_LOCKs the region and is removed when the region is | 154 | |
104 | SHM_UNLOCKed. Note that shmctl(SHM_LOCK, ...) does not populate the page | 155 | (*) void mapping_set_unevictable(struct address_space *mapping); |
105 | tables for the region as does, for example, mlock(). So, we make no special | 156 | |
106 | effort to push any pages in the SHM_LOCKed region to the unevictable list. | 157 | Mark the address space as being completely unevictable. |
107 | Vmscan will do this when/if it encounters the pages during reclaim. On | 158 | |
108 | SHM_UNLOCK, shmctl() scans the pages in the region and "rescues" them from the | 159 | (*) void mapping_clear_unevictable(struct address_space *mapping); |
109 | unevictable list if no other condition keeps them unevictable. If a SHM_LOCKed | 160 | |
110 | region is destroyed, the pages are also "rescued" from the unevictable list in | 161 | Mark the address space as being evictable. |
111 | the process of freeing them. | 162 | |
112 | 163 | (*) int mapping_unevictable(struct address_space *mapping); | |
113 | page_evictable() detects mlock()ed pages by testing an additional page flag, | 164 | |
114 | PG_mlocked via the PageMlocked() wrapper. If the page is NOT mlocked, and a | 165 | Query the address space, and return true if it is completely |
115 | non-NULL vma is supplied, page_evictable() will check whether the vma is | 166 | unevictable. |
167 | |||
168 | These are currently used in two places in the kernel: | ||
169 | |||
170 | (1) By ramfs to mark the address spaces of its inodes when they are created, | ||
171 | and this mark remains for the life of the inode. | ||
172 | |||
173 | (2) By SYSV SHM to mark SHM_LOCK'd address spaces until SHM_UNLOCK is called. | ||
174 | |||
175 | Note that SHM_LOCK is not required to page in the locked pages if they're | ||
176 | swapped out; the application must touch the pages manually if it wants to | ||
177 | ensure they're in memory. | ||
178 | |||
179 | |||
180 | DETECTING UNEVICTABLE PAGES | ||
181 | --------------------------- | ||
182 | |||
183 | The function page_evictable() in vmscan.c determines whether a page is | ||
184 | evictable or not using the query function outlined above [see section "Marking | ||
185 | address spaces unevictable"] to check the AS_UNEVICTABLE flag. | ||
186 | |||
187 | For address spaces that are so marked after being populated (as SHM regions | ||
188 | might be), the lock action (eg: SHM_LOCK) can be lazy, and need not populate | ||
189 | the page tables for the region as does, for example, mlock(), nor need it make | ||
190 | any special effort to push any pages in the SHM_LOCK'd area to the unevictable | ||
191 | list. Instead, vmscan will do this if and when it encounters the pages during | ||
192 | a reclamation scan. | ||
193 | |||
194 | On an unlock action (such as SHM_UNLOCK), the unlocker (eg: shmctl()) must scan | ||
195 | the pages in the region and "rescue" them from the unevictable list if no other | ||
196 | condition is keeping them unevictable. If an unevictable region is destroyed, | ||
197 | the pages are also "rescued" from the unevictable list in the process of | ||
198 | freeing them. | ||
199 | |||
200 | page_evictable() also checks for mlocked pages by testing an additional page | ||
201 | flag, PG_mlocked (as wrapped by PageMlocked()). If the page is NOT mlocked, | ||
202 | and a non-NULL VMA is supplied, page_evictable() will check whether the VMA is | ||
116 | VM_LOCKED via is_mlocked_vma(). is_mlocked_vma() will SetPageMlocked() and | 203 | VM_LOCKED via is_mlocked_vma(). is_mlocked_vma() will SetPageMlocked() and |
117 | update the appropriate statistics if the vma is VM_LOCKED. This method allows | 204 | update the appropriate statistics if the vma is VM_LOCKED. This method allows |
118 | efficient "culling" of pages in the fault path that are being faulted in to | 205 | efficient "culling" of pages in the fault path that are being faulted in to |
119 | VM_LOCKED vmas. | 206 | VM_LOCKED VMAs. |
120 | 207 | ||
121 | 208 | ||
122 | Unevictable Pages and Vmscan [shrink_*_list()] | 209 | VMSCAN'S HANDLING OF UNEVICTABLE PAGES |
210 | -------------------------------------- | ||
123 | 211 | ||
124 | If unevictable pages are culled in the fault path, or moved to the unevictable | 212 | If unevictable pages are culled in the fault path, or moved to the unevictable |
125 | list at mlock() or mmap() time, vmscan will never encounter the pages until | 213 | list at mlock() or mmap() time, vmscan will not encounter the pages until they |
126 | they have become evictable again, for example, via munlock() and have been | 214 | have become evictable again (via munlock() for example) and have been "rescued" |
127 | "rescued" from the unevictable list. However, there may be situations where we | 215 | from the unevictable list. However, there may be situations where we decide, |
128 | decide, for the sake of expediency, to leave a unevictable page on one of the | 216 | for the sake of expediency, to leave a unevictable page on one of the regular |
129 | regular active/inactive LRU lists for vmscan to deal with. Vmscan checks for | 217 | active/inactive LRU lists for vmscan to deal with. vmscan checks for such |
130 | such pages in all of the shrink_{active|inactive|page}_list() functions and | 218 | pages in all of the shrink_{active|inactive|page}_list() functions and will |
131 | will "cull" such pages that it encounters--that is, it diverts those pages to | 219 | "cull" such pages that it encounters: that is, it diverts those pages to the |
132 | the unevictable list for the zone being scanned. | 220 | unevictable list for the zone being scanned. |
133 | 221 | ||
134 | There may be situations where a page is mapped into a VM_LOCKED vma, but the | 222 | There may be situations where a page is mapped into a VM_LOCKED VMA, but the |
135 | page is not marked as PageMlocked. Such pages will make it all the way to | 223 | page is not marked as PG_mlocked. Such pages will make it all the way to |
136 | shrink_page_list() where they will be detected when vmscan walks the reverse | 224 | shrink_page_list() where they will be detected when vmscan walks the reverse |
137 | map in try_to_unmap(). If try_to_unmap() returns SWAP_MLOCK, shrink_page_list() | 225 | map in try_to_unmap(). If try_to_unmap() returns SWAP_MLOCK, |
138 | will cull the page at that point. | 226 | shrink_page_list() will cull the page at that point. |
139 | 227 | ||
140 | To "cull" an unevictable page, vmscan simply puts the page back on the lru | 228 | To "cull" an unevictable page, vmscan simply puts the page back on the LRU list |
141 | list using putback_lru_page()--the inverse operation to isolate_lru_page()-- | 229 | using putback_lru_page() - the inverse operation to isolate_lru_page() - after |
142 | after dropping the page lock. Because the condition which makes the page | 230 | dropping the page lock. Because the condition which makes the page unevictable |
143 | unevictable may change once the page is unlocked, putback_lru_page() will | 231 | may change once the page is unlocked, putback_lru_page() will recheck the |
144 | recheck the unevictable state of a page that it places on the unevictable lru | 232 | unevictable state of a page that it places on the unevictable list. If the |
145 | list. If the page has become unevictable, putback_lru_page() removes it from | 233 | page has become unevictable, putback_lru_page() removes it from the list and |
146 | the list and retries, including the page_unevictable() test. Because such a | 234 | retries, including the page_unevictable() test. Because such a race is a rare |
147 | race is a rare event and movement of pages onto the unevictable list should be | 235 | event and movement of pages onto the unevictable list should be rare, these |
148 | rare, these extra evictabilty checks should not occur in the majority of calls | 236 | extra evictabilty checks should not occur in the majority of calls to |
149 | to putback_lru_page(). | 237 | putback_lru_page(). |
150 | 238 | ||
151 | 239 | ||
152 | Mlocked Page: Prior Work | 240 | ============= |
241 | MLOCKED PAGES | ||
242 | ============= | ||
153 | 243 | ||
154 | The "Unevictable Mlocked Pages" infrastructure is based on work originally | 244 | The unevictable page list is also useful for mlock(), in addition to ramfs and |
245 | SYSV SHM. Note that mlock() is only available in CONFIG_MMU=y situations; in | ||
246 | NOMMU situations, all mappings are effectively mlocked. | ||
247 | |||
248 | |||
249 | HISTORY | ||
250 | ------- | ||
251 | |||
252 | The "Unevictable mlocked Pages" infrastructure is based on work originally | ||
155 | posted by Nick Piggin in an RFC patch entitled "mm: mlocked pages off LRU". | 253 | posted by Nick Piggin in an RFC patch entitled "mm: mlocked pages off LRU". |
156 | Nick posted his patch as an alternative to a patch posted by Christoph | 254 | Nick posted his patch as an alternative to a patch posted by Christoph Lameter |
157 | Lameter to achieve the same objective--hiding mlocked pages from vmscan. | 255 | to achieve the same objective: hiding mlocked pages from vmscan. |
158 | In Nick's patch, he used one of the struct page lru list link fields as a count | 256 | |
159 | of VM_LOCKED vmas that map the page. This use of the link field for a count | 257 | In Nick's patch, he used one of the struct page LRU list link fields as a count |
160 | prevented the management of the pages on an LRU list. Thus, mlocked pages were | 258 | of VM_LOCKED VMAs that map the page. This use of the link field for a count |
161 | not migratable as isolate_lru_page() could not find them and the lru list link | 259 | prevented the management of the pages on an LRU list, and thus mlocked pages |
162 | field was not available to the migration subsystem. Nick resolved this by | 260 | were not migratable as isolate_lru_page() could not find them, and the LRU list |
163 | putting mlocked pages back on the lru list before attempting to isolate them, | 261 | link field was not available to the migration subsystem. |
164 | thus abandoning the count of VM_LOCKED vmas. When Nick's patch was integrated | 262 | |
165 | with the Unevictable LRU work, the count was replaced by walking the reverse | 263 | Nick resolved this by putting mlocked pages back on the lru list before |
166 | map to determine whether any VM_LOCKED vmas mapped the page. More on this | 264 | attempting to isolate them, thus abandoning the count of VM_LOCKED VMAs. When |
167 | below. | 265 | Nick's patch was integrated with the Unevictable LRU work, the count was |
168 | 266 | replaced by walking the reverse map to determine whether any VM_LOCKED VMAs | |
169 | 267 | mapped the page. More on this below. | |
170 | Mlocked Pages: Basic Management | 268 | |
171 | 269 | ||
172 | Mlocked pages--pages mapped into a VM_LOCKED vma--represent one class of | 270 | BASIC MANAGEMENT |
173 | unevictable pages. When such a page has been "noticed" by the memory | 271 | ---------------- |
174 | management subsystem, the page is marked with the PG_mlocked [PageMlocked()] | 272 | |
175 | flag. A PageMlocked() page will be placed on the unevictable LRU list when | 273 | mlocked pages - pages mapped into a VM_LOCKED VMA - are a class of unevictable |
176 | it is added to the LRU. Pages can be "noticed" by memory management in | 274 | pages. When such a page has been "noticed" by the memory management subsystem, |
177 | several places: | 275 | the page is marked with the PG_mlocked flag. This can be manipulated using the |
178 | 276 | PageMlocked() functions. | |
179 | 1) in the mlock()/mlockall() system call handlers. | 277 | |
180 | 2) in the mmap() system call handler when mmap()ing a region with the | 278 | A PG_mlocked page will be placed on the unevictable list when it is added to |
181 | MAP_LOCKED flag, or mmap()ing a region in a task that has called | 279 | the LRU. Such pages can be "noticed" by memory management in several places: |
182 | mlockall() with the MCL_FUTURE flag. Both of these conditions result | 280 | |
183 | in the VM_LOCKED flag being set for the vma. | 281 | (1) in the mlock()/mlockall() system call handlers; |
184 | 3) in the fault path, if mlocked pages are "culled" in the fault path, | 282 | |
185 | and when a VM_LOCKED stack segment is expanded. | 283 | (2) in the mmap() system call handler when mmapping a region with the |
186 | 4) as mentioned above, in vmscan:shrink_page_list() when attempting to | 284 | MAP_LOCKED flag; |
187 | reclaim a page in a VM_LOCKED vma via try_to_unmap(). | 285 | |
188 | 286 | (3) mmapping a region in a task that has called mlockall() with the MCL_FUTURE | |
189 | Mlocked pages become unlocked and rescued from the unevictable list when: | 287 | flag |
190 | 288 | ||
191 | 1) mapped in a range unlocked via the munlock()/munlockall() system calls. | 289 | (4) in the fault path, if mlocked pages are "culled" in the fault path, |
192 | 2) munmapped() out of the last VM_LOCKED vma that maps the page, including | 290 | and when a VM_LOCKED stack segment is expanded; or |
193 | unmapping at task exit. | 291 | |
194 | 3) when the page is truncated from the last VM_LOCKED vma of an mmap()ed file. | 292 | (5) as mentioned above, in vmscan:shrink_page_list() when attempting to |
195 | 4) before a page is COWed in a VM_LOCKED vma. | 293 | reclaim a page in a VM_LOCKED VMA via try_to_unmap() |
196 | 294 | ||
197 | 295 | all of which result in the VM_LOCKED flag being set for the VMA if it doesn't | |
198 | Mlocked Pages: mlock()/mlockall() System Call Handling | 296 | already have it set. |
297 | |||
298 | mlocked pages become unlocked and rescued from the unevictable list when: | ||
299 | |||
300 | (1) mapped in a range unlocked via the munlock()/munlockall() system calls; | ||
301 | |||
302 | (2) munmap()'d out of the last VM_LOCKED VMA that maps the page, including | ||
303 | unmapping at task exit; | ||
304 | |||
305 | (3) when the page is truncated from the last VM_LOCKED VMA of an mmapped file; | ||
306 | or | ||
307 | |||
308 | (4) before a page is COW'd in a VM_LOCKED VMA. | ||
309 | |||
310 | |||
311 | mlock()/mlockall() SYSTEM CALL HANDLING | ||
312 | --------------------------------------- | ||
199 | 313 | ||
200 | Both [do_]mlock() and [do_]mlockall() system call handlers call mlock_fixup() | 314 | Both [do_]mlock() and [do_]mlockall() system call handlers call mlock_fixup() |
201 | for each vma in the range specified by the call. In the case of mlockall(), | 315 | for each VMA in the range specified by the call. In the case of mlockall(), |
202 | this is the entire active address space of the task. Note that mlock_fixup() | 316 | this is the entire active address space of the task. Note that mlock_fixup() |
203 | is used for both mlock()ing and munlock()ing a range of memory. A call to | 317 | is used for both mlocking and munlocking a range of memory. A call to mlock() |
204 | mlock() an already VM_LOCKED vma, or to munlock() a vma that is not VM_LOCKED | 318 | an already VM_LOCKED VMA, or to munlock() a VMA that is not VM_LOCKED is |
205 | is treated as a no-op--mlock_fixup() simply returns. | 319 | treated as a no-op, and mlock_fixup() simply returns. |
206 | 320 | ||
207 | If the vma passes some filtering described in "Mlocked Pages: Filtering Vmas" | 321 | If the VMA passes some filtering as described in "Filtering Special Vmas" |
208 | below, mlock_fixup() will attempt to merge the vma with its neighbors or split | 322 | below, mlock_fixup() will attempt to merge the VMA with its neighbors or split |
209 | off a subset of the vma if the range does not cover the entire vma. Once the | 323 | off a subset of the VMA if the range does not cover the entire VMA. Once the |
210 | vma has been merged or split or neither, mlock_fixup() will call | 324 | VMA has been merged or split or neither, mlock_fixup() will call |
211 | __mlock_vma_pages_range() to fault in the pages via get_user_pages() and | 325 | __mlock_vma_pages_range() to fault in the pages via get_user_pages() and to |
212 | to mark the pages as mlocked via mlock_vma_page(). | 326 | mark the pages as mlocked via mlock_vma_page(). |
213 | 327 | ||
214 | Note that the vma being mlocked might be mapped with PROT_NONE. In this case, | 328 | Note that the VMA being mlocked might be mapped with PROT_NONE. In this case, |
215 | get_user_pages() will be unable to fault in the pages. That's OK. If pages | 329 | get_user_pages() will be unable to fault in the pages. That's okay. If pages |
216 | do end up getting faulted into this VM_LOCKED vma, we'll handle them in the | 330 | do end up getting faulted into this VM_LOCKED VMA, we'll handle them in the |
217 | fault path or in vmscan. | 331 | fault path or in vmscan. |
218 | 332 | ||
219 | Also note that a page returned by get_user_pages() could be truncated or | 333 | Also note that a page returned by get_user_pages() could be truncated or |
220 | migrated out from under us, while we're trying to mlock it. To detect | 334 | migrated out from under us, while we're trying to mlock it. To detect this, |
221 | this, __mlock_vma_pages_range() tests the page_mapping after acquiring | 335 | __mlock_vma_pages_range() checks page_mapping() after acquiring the page lock. |
222 | the page lock. If the page is still associated with its mapping, we'll | 336 | If the page is still associated with its mapping, we'll go ahead and call |
223 | go ahead and call mlock_vma_page(). If the mapping is gone, we just | 337 | mlock_vma_page(). If the mapping is gone, we just unlock the page and move on. |
224 | unlock the page and move on. Worse case, this results in page mapped | 338 | In the worst case, this will result in a page mapped in a VM_LOCKED VMA |
225 | in a VM_LOCKED vma remaining on a normal LRU list without being | 339 | remaining on a normal LRU list without being PageMlocked(). Again, vmscan will |
226 | PageMlocked(). Again, vmscan will detect and cull such pages. | 340 | detect and cull such pages. |
227 | 341 | ||
228 | mlock_vma_page(), called with the page locked [N.B., not "mlocked"], will | 342 | mlock_vma_page() will call TestSetPageMlocked() for each page returned by |
229 | TestSetPageMlocked() for each page returned by get_user_pages(). We use | 343 | get_user_pages(). We use TestSetPageMlocked() because the page might already |
230 | TestSetPageMlocked() because the page might already be mlocked by another | 344 | be mlocked by another task/VMA and we don't want to do extra work. We |
231 | task/vma and we don't want to do extra work. We especially do not want to | 345 | especially do not want to count an mlocked page more than once in the |
232 | count an mlocked page more than once in the statistics. If the page was | 346 | statistics. If the page was already mlocked, mlock_vma_page() need do nothing |
233 | already mlocked, mlock_vma_page() is done. | 347 | more. |
234 | 348 | ||
235 | If the page was NOT already mlocked, mlock_vma_page() attempts to isolate the | 349 | If the page was NOT already mlocked, mlock_vma_page() attempts to isolate the |
236 | page from the LRU, as it is likely on the appropriate active or inactive list | 350 | page from the LRU, as it is likely on the appropriate active or inactive list |
237 | at that time. If the isolate_lru_page() succeeds, mlock_vma_page() will | 351 | at that time. If the isolate_lru_page() succeeds, mlock_vma_page() will put |
238 | putback the page--putback_lru_page()--which will notice that the page is now | 352 | back the page - by calling putback_lru_page() - which will notice that the page |
239 | mlocked and divert the page to the zone's unevictable LRU list. If | 353 | is now mlocked and divert the page to the zone's unevictable list. If |
240 | mlock_vma_page() is unable to isolate the page from the LRU, vmscan will handle | 354 | mlock_vma_page() is unable to isolate the page from the LRU, vmscan will handle |
241 | it later if/when it attempts to reclaim the page. | 355 | it later if and when it attempts to reclaim the page. |
242 | 356 | ||
243 | 357 | ||
244 | Mlocked Pages: Filtering Special Vmas | 358 | FILTERING SPECIAL VMAS |
359 | ---------------------- | ||
245 | 360 | ||
246 | mlock_fixup() filters several classes of "special" vmas: | 361 | mlock_fixup() filters several classes of "special" VMAs: |
247 | 362 | ||
248 | 1) vmas with VM_IO|VM_PFNMAP set are skipped entirely. The pages behind | 363 | 1) VMAs with VM_IO or VM_PFNMAP set are skipped entirely. The pages behind |
249 | these mappings are inherently pinned, so we don't need to mark them as | 364 | these mappings are inherently pinned, so we don't need to mark them as |
250 | mlocked. In any case, most of the pages have no struct page in which to | 365 | mlocked. In any case, most of the pages have no struct page in which to so |
251 | so mark the page. Because of this, get_user_pages() will fail for these | 366 | mark the page. Because of this, get_user_pages() will fail for these VMAs, |
252 | vmas, so there is no sense in attempting to visit them. | 367 | so there is no sense in attempting to visit them. |
253 | 368 | ||
254 | 2) vmas mapping hugetlbfs page are already effectively pinned into memory. | 369 | 2) VMAs mapping hugetlbfs page are already effectively pinned into memory. We |
255 | We don't need nor want to mlock() these pages. However, to preserve the | 370 | neither need nor want to mlock() these pages. However, to preserve the |
256 | prior behavior of mlock()--before the unevictable/mlock changes-- | 371 | prior behavior of mlock() - before the unevictable/mlock changes - |
257 | mlock_fixup() will call make_pages_present() in the hugetlbfs vma range | 372 | mlock_fixup() will call make_pages_present() in the hugetlbfs VMA range to |
258 | to allocate the huge pages and populate the ptes. | 373 | allocate the huge pages and populate the ptes. |
259 | 374 | ||
260 | 3) vmas with VM_DONTEXPAND|VM_RESERVED are generally user space mappings of | 375 | 3) VMAs with VM_DONTEXPAND or VM_RESERVED are generally userspace mappings of |
261 | kernel pages, such as the vdso page, relay channel pages, etc. These pages | 376 | kernel pages, such as the VDSO page, relay channel pages, etc. These pages |
262 | are inherently unevictable and are not managed on the LRU lists. | 377 | are inherently unevictable and are not managed on the LRU lists. |
263 | mlock_fixup() treats these vmas the same as hugetlbfs vmas. It calls | 378 | mlock_fixup() treats these VMAs the same as hugetlbfs VMAs. It calls |
264 | make_pages_present() to populate the ptes. | 379 | make_pages_present() to populate the ptes. |
265 | 380 | ||
266 | Note that for all of these special vmas, mlock_fixup() does not set the | 381 | Note that for all of these special VMAs, mlock_fixup() does not set the |
267 | VM_LOCKED flag. Therefore, we won't have to deal with them later during | 382 | VM_LOCKED flag. Therefore, we won't have to deal with them later during |
268 | munlock() or munmap()--for example, at task exit. Neither does mlock_fixup() | 383 | munlock(), munmap() or task exit. Neither does mlock_fixup() account these |
269 | account these vmas against the task's "locked_vm". | 384 | VMAs against the task's "locked_vm". |
270 | 385 | ||
271 | Mlocked Pages: Downgrading the Mmap Semaphore. | 386 | |
272 | 387 | munlock()/munlockall() SYSTEM CALL HANDLING | |
273 | mlock_fixup() must be called with the mmap semaphore held for write, because | 388 | ------------------------------------------- |
274 | it may have to merge or split vmas. However, mlocking a large region of | 389 | |
275 | memory can take a long time--especially if vmscan must reclaim pages to | 390 | The munlock() and munlockall() system calls are handled by the same functions - |
276 | satisfy the regions requirements. Faulting in a large region with the mmap | 391 | do_mlock[all]() - as the mlock() and mlockall() system calls with the unlock vs |
277 | semaphore held for write can hold off other faults on the address space, in | 392 | lock operation indicated by an argument. So, these system calls are also |
278 | the case of a multi-threaded task. It can also hold off scans of the task's | 393 | handled by mlock_fixup(). Again, if called for an already munlocked VMA, |
279 | address space via /proc. While testing under heavy load, it was observed that | 394 | mlock_fixup() simply returns. Because of the VMA filtering discussed above, |
280 | the ps(1) command could be held off for many minutes while a large segment was | 395 | VM_LOCKED will not be set in any "special" VMAs. So, these VMAs will be |
281 | mlock()ed down. | ||
282 | |||
283 | To address this issue, and to make the system more responsive during mlock()ing | ||
284 | of large segments, mlock_fixup() downgrades the mmap semaphore to read mode | ||
285 | during the call to __mlock_vma_pages_range(). This works fine. However, the | ||
286 | callers of mlock_fixup() expect the semaphore to be returned in write mode. | ||
287 | So, mlock_fixup() "upgrades" the semphore to write mode. Linux does not | ||
288 | support an atomic upgrade_sem() call, so mlock_fixup() must drop the semaphore | ||
289 | and reacquire it in write mode. In a multi-threaded task, it is possible for | ||
290 | the task memory map to change while the semaphore is dropped. Therefore, | ||
291 | mlock_fixup() looks up the vma at the range start address after reacquiring | ||
292 | the semaphore in write mode and verifies that it still covers the original | ||
293 | range. If not, mlock_fixup() returns an error [-EAGAIN]. All callers of | ||
294 | mlock_fixup() have been changed to deal with this new error condition. | ||
295 | |||
296 | Note: when munlocking a region, all of the pages should already be resident-- | ||
297 | unless we have racing threads mlocking() and munlocking() regions. So, | ||
298 | unlocking should not have to wait for page allocations nor faults of any kind. | ||
299 | Therefore mlock_fixup() does not downgrade the semaphore for munlock(). | ||
300 | |||
301 | |||
302 | Mlocked Pages: munlock()/munlockall() System Call Handling | ||
303 | |||
304 | The munlock() and munlockall() system calls are handled by the same functions-- | ||
305 | do_mlock[all]()--as the mlock() and mlockall() system calls with the unlock | ||
306 | vs lock operation indicated by an argument. So, these system calls are also | ||
307 | handled by mlock_fixup(). Again, if called for an already munlock()ed vma, | ||
308 | mlock_fixup() simply returns. Because of the vma filtering discussed above, | ||
309 | VM_LOCKED will not be set in any "special" vmas. So, these vmas will be | ||
310 | ignored for munlock. | 396 | ignored for munlock. |
311 | 397 | ||
312 | If the vma is VM_LOCKED, mlock_fixup() again attempts to merge or split off | 398 | If the VMA is VM_LOCKED, mlock_fixup() again attempts to merge or split off the |
313 | the specified range. The range is then munlocked via the function | 399 | specified range. The range is then munlocked via the function |
314 | __mlock_vma_pages_range()--the same function used to mlock a vma range-- | 400 | __mlock_vma_pages_range() - the same function used to mlock a VMA range - |
315 | passing a flag to indicate that munlock() is being performed. | 401 | passing a flag to indicate that munlock() is being performed. |
316 | 402 | ||
317 | Because the vma access protections could have been changed to PROT_NONE after | 403 | Because the VMA access protections could have been changed to PROT_NONE after |
318 | faulting in and mlocking pages, get_user_pages() was unreliable for visiting | 404 | faulting in and mlocking pages, get_user_pages() was unreliable for visiting |
319 | these pages for munlocking. Because we don't want to leave pages mlocked(), | 405 | these pages for munlocking. Because we don't want to leave pages mlocked, |
320 | get_user_pages() was enhanced to accept a flag to ignore the permissions when | 406 | get_user_pages() was enhanced to accept a flag to ignore the permissions when |
321 | fetching the pages--all of which should be resident as a result of previous | 407 | fetching the pages - all of which should be resident as a result of previous |
322 | mlock()ing. | 408 | mlocking. |
323 | 409 | ||
324 | For munlock(), __mlock_vma_pages_range() unlocks individual pages by calling | 410 | For munlock(), __mlock_vma_pages_range() unlocks individual pages by calling |
325 | munlock_vma_page(). munlock_vma_page() unconditionally clears the PG_mlocked | 411 | munlock_vma_page(). munlock_vma_page() unconditionally clears the PG_mlocked |
326 | flag using TestClearPageMlocked(). As with mlock_vma_page(), munlock_vma_page() | 412 | flag using TestClearPageMlocked(). As with mlock_vma_page(), |
327 | use the Test*PageMlocked() function to handle the case where the page might | 413 | munlock_vma_page() use the Test*PageMlocked() function to handle the case where |
328 | have already been unlocked by another task. If the page was mlocked, | 414 | the page might have already been unlocked by another task. If the page was |
329 | munlock_vma_page() updates that zone statistics for the number of mlocked | 415 | mlocked, munlock_vma_page() updates that zone statistics for the number of |
330 | pages. Note, however, that at this point we haven't checked whether the page | 416 | mlocked pages. Note, however, that at this point we haven't checked whether |
331 | is mapped by other VM_LOCKED vmas. | 417 | the page is mapped by other VM_LOCKED VMAs. |
332 | 418 | ||
333 | We can't call try_to_munlock(), the function that walks the reverse map to check | 419 | We can't call try_to_munlock(), the function that walks the reverse map to |
334 | for other VM_LOCKED vmas, without first isolating the page from the LRU. | 420 | check for other VM_LOCKED VMAs, without first isolating the page from the LRU. |
335 | try_to_munlock() is a variant of try_to_unmap() and thus requires that the page | 421 | try_to_munlock() is a variant of try_to_unmap() and thus requires that the page |
336 | not be on an lru list. [More on these below.] However, the call to | 422 | not be on an LRU list [more on these below]. However, the call to |
337 | isolate_lru_page() could fail, in which case we couldn't try_to_munlock(). | 423 | isolate_lru_page() could fail, in which case we couldn't try_to_munlock(). So, |
338 | So, we go ahead and clear PG_mlocked up front, as this might be the only chance | 424 | we go ahead and clear PG_mlocked up front, as this might be the only chance we |
339 | we have. If we can successfully isolate the page, we go ahead and | 425 | have. If we can successfully isolate the page, we go ahead and |
340 | try_to_munlock(), which will restore the PG_mlocked flag and update the zone | 426 | try_to_munlock(), which will restore the PG_mlocked flag and update the zone |
341 | page statistics if it finds another vma holding the page mlocked. If we fail | 427 | page statistics if it finds another VMA holding the page mlocked. If we fail |
342 | to isolate the page, we'll have left a potentially mlocked page on the LRU. | 428 | to isolate the page, we'll have left a potentially mlocked page on the LRU. |
343 | This is fine, because we'll catch it later when/if vmscan tries to reclaim the | 429 | This is fine, because we'll catch it later if and if vmscan tries to reclaim |
344 | page. This should be relatively rare. | 430 | the page. This should be relatively rare. |
345 | 431 | ||
346 | Mlocked Pages: Migrating Them... | 432 | |
347 | 433 | MIGRATING MLOCKED PAGES | |
348 | A page that is being migrated has been isolated from the lru lists and is | 434 | ----------------------- |
349 | held locked across unmapping of the page, updating the page's mapping | 435 | |
350 | [address_space] entry and copying the contents and state, until the | 436 | A page that is being migrated has been isolated from the LRU lists and is held |
351 | page table entry has been replaced with an entry that refers to the new | 437 | locked across unmapping of the page, updating the page's address space entry |
352 | page. Linux supports migration of mlocked pages and other unevictable | 438 | and copying the contents and state, until the page table entry has been |
353 | pages. This involves simply moving the PageMlocked and PageUnevictable states | 439 | replaced with an entry that refers to the new page. Linux supports migration |
354 | from the old page to the new page. | 440 | of mlocked pages and other unevictable pages. This involves simply moving the |
355 | 441 | PG_mlocked and PG_unevictable states from the old page to the new page. | |
356 | Note that page migration can race with mlocking or munlocking of the same | 442 | |
357 | page. This has been discussed from the mlock/munlock perspective in the | 443 | Note that page migration can race with mlocking or munlocking of the same page. |
358 | respective sections above. Both processes [migration, m[un]locking], hold | 444 | This has been discussed from the mlock/munlock perspective in the respective |
359 | the page locked. This provides the first level of synchronization. Page | 445 | sections above. Both processes (migration and m[un]locking) hold the page |
360 | migration zeros out the page_mapping of the old page before unlocking it, | 446 | locked. This provides the first level of synchronization. Page migration |
361 | so m[un]lock can skip these pages by testing the page mapping under page | 447 | zeros out the page_mapping of the old page before unlocking it, so m[un]lock |
362 | lock. | 448 | can skip these pages by testing the page mapping under page lock. |
363 | 449 | ||
364 | When completing page migration, we place the new and old pages back onto the | 450 | To complete page migration, we place the new and old pages back onto the LRU |
365 | lru after dropping the page lock. The "unneeded" page--old page on success, | 451 | after dropping the page lock. The "unneeded" page - old page on success, new |
366 | new page on failure--will be freed when the reference count held by the | 452 | page on failure - will be freed when the reference count held by the migration |
367 | migration process is released. To ensure that we don't strand pages on the | 453 | process is released. To ensure that we don't strand pages on the unevictable |
368 | unevictable list because of a race between munlock and migration, page | 454 | list because of a race between munlock and migration, page migration uses the |
369 | migration uses the putback_lru_page() function to add migrated pages back to | 455 | putback_lru_page() function to add migrated pages back to the LRU. |
370 | the lru. | 456 | |
371 | 457 | ||
372 | 458 | mmap(MAP_LOCKED) SYSTEM CALL HANDLING | |
373 | Mlocked Pages: mmap(MAP_LOCKED) System Call Handling | 459 | ------------------------------------- |
374 | 460 | ||
375 | In addition the the mlock()/mlockall() system calls, an application can request | 461 | In addition the the mlock()/mlockall() system calls, an application can request |
376 | that a region of memory be mlocked using the MAP_LOCKED flag with the mmap() | 462 | that a region of memory be mlocked supplying the MAP_LOCKED flag to the mmap() |
377 | call. Furthermore, any mmap() call or brk() call that expands the heap by a | 463 | call. Furthermore, any mmap() call or brk() call that expands the heap by a |
378 | task that has previously called mlockall() with the MCL_FUTURE flag will result | 464 | task that has previously called mlockall() with the MCL_FUTURE flag will result |
379 | in the newly mapped memory being mlocked. Before the unevictable/mlock changes, | 465 | in the newly mapped memory being mlocked. Before the unevictable/mlock |
380 | the kernel simply called make_pages_present() to allocate pages and populate | 466 | changes, the kernel simply called make_pages_present() to allocate pages and |
381 | the page table. | 467 | populate the page table. |
382 | 468 | ||
383 | To mlock a range of memory under the unevictable/mlock infrastructure, the | 469 | To mlock a range of memory under the unevictable/mlock infrastructure, the |
384 | mmap() handler and task address space expansion functions call | 470 | mmap() handler and task address space expansion functions call |
385 | mlock_vma_pages_range() specifying the vma and the address range to mlock. | 471 | mlock_vma_pages_range() specifying the vma and the address range to mlock. |
386 | mlock_vma_pages_range() filters vmas like mlock_fixup(), as described above in | 472 | mlock_vma_pages_range() filters VMAs like mlock_fixup(), as described above in |
387 | "Mlocked Pages: Filtering Vmas". It will clear the VM_LOCKED flag, which will | 473 | "Filtering Special VMAs". It will clear the VM_LOCKED flag, which will have |
388 | have already been set by the caller, in filtered vmas. Thus these vma's need | 474 | already been set by the caller, in filtered VMAs. Thus these VMA's need not be |
389 | not be visited for munlock when the region is unmapped. | 475 | visited for munlock when the region is unmapped. |
390 | 476 | ||
391 | For "normal" vmas, mlock_vma_pages_range() calls __mlock_vma_pages_range() to | 477 | For "normal" VMAs, mlock_vma_pages_range() calls __mlock_vma_pages_range() to |
392 | fault/allocate the pages and mlock them. Again, like mlock_fixup(), | 478 | fault/allocate the pages and mlock them. Again, like mlock_fixup(), |
393 | mlock_vma_pages_range() downgrades the mmap semaphore to read mode before | 479 | mlock_vma_pages_range() downgrades the mmap semaphore to read mode before |
394 | attempting to fault/allocate and mlock the pages; and "upgrades" the semaphore | 480 | attempting to fault/allocate and mlock the pages and "upgrades" the semaphore |
395 | back to write mode before returning. | 481 | back to write mode before returning. |
396 | 482 | ||
397 | The callers of mlock_vma_pages_range() will have already added the memory | 483 | The callers of mlock_vma_pages_range() will have already added the memory range |
398 | range to be mlocked to the task's "locked_vm". To account for filtered vmas, | 484 | to be mlocked to the task's "locked_vm". To account for filtered VMAs, |
399 | mlock_vma_pages_range() returns the number of pages NOT mlocked. All of the | 485 | mlock_vma_pages_range() returns the number of pages NOT mlocked. All of the |
400 | callers then subtract a non-negative return value from the task's locked_vm. | 486 | callers then subtract a non-negative return value from the task's locked_vm. A |
401 | A negative return value represent an error--for example, from get_user_pages() | 487 | negative return value represent an error - for example, from get_user_pages() |
402 | attempting to fault in a vma with PROT_NONE access. In this case, we leave | 488 | attempting to fault in a VMA with PROT_NONE access. In this case, we leave the |
403 | the memory range accounted as locked_vm, as the protections could be changed | 489 | memory range accounted as locked_vm, as the protections could be changed later |
404 | later and pages allocated into that region. | 490 | and pages allocated into that region. |
405 | 491 | ||
406 | 492 | ||
407 | Mlocked Pages: munmap()/exit()/exec() System Call Handling | 493 | munmap()/exit()/exec() SYSTEM CALL HANDLING |
494 | ------------------------------------------- | ||
408 | 495 | ||
409 | When unmapping an mlocked region of memory, whether by an explicit call to | 496 | When unmapping an mlocked region of memory, whether by an explicit call to |
410 | munmap() or via an internal unmap from exit() or exec() processing, we must | 497 | munmap() or via an internal unmap from exit() or exec() processing, we must |
411 | munlock the pages if we're removing the last VM_LOCKED vma that maps the pages. | 498 | munlock the pages if we're removing the last VM_LOCKED VMA that maps the pages. |
412 | Before the unevictable/mlock changes, mlocking did not mark the pages in any | 499 | Before the unevictable/mlock changes, mlocking did not mark the pages in any |
413 | way, so unmapping them required no processing. | 500 | way, so unmapping them required no processing. |
414 | 501 | ||
415 | To munlock a range of memory under the unevictable/mlock infrastructure, the | 502 | To munlock a range of memory under the unevictable/mlock infrastructure, the |
416 | munmap() hander and task address space tear down function call | 503 | munmap() handler and task address space call tear down function |
417 | munlock_vma_pages_all(). The name reflects the observation that one always | 504 | munlock_vma_pages_all(). The name reflects the observation that one always |
418 | specifies the entire vma range when munlock()ing during unmap of a region. | 505 | specifies the entire VMA range when munlock()ing during unmap of a region. |
419 | Because of the vma filtering when mlocking() regions, only "normal" vmas that | 506 | Because of the VMA filtering when mlocking() regions, only "normal" VMAs that |
420 | actually contain mlocked pages will be passed to munlock_vma_pages_all(). | 507 | actually contain mlocked pages will be passed to munlock_vma_pages_all(). |
421 | 508 | ||
422 | munlock_vma_pages_all() clears the VM_LOCKED vma flag and, like mlock_fixup() | 509 | munlock_vma_pages_all() clears the VM_LOCKED VMA flag and, like mlock_fixup() |
423 | for the munlock case, calls __munlock_vma_pages_range() to walk the page table | 510 | for the munlock case, calls __munlock_vma_pages_range() to walk the page table |
424 | for the vma's memory range and munlock_vma_page() each resident page mapped by | 511 | for the VMA's memory range and munlock_vma_page() each resident page mapped by |
425 | the vma. This effectively munlocks the page, only if this is the last | 512 | the VMA. This effectively munlocks the page, only if this is the last |
426 | VM_LOCKED vma that maps the page. | 513 | VM_LOCKED VMA that maps the page. |
427 | |||
428 | 514 | ||
429 | Mlocked Page: try_to_unmap() | ||
430 | 515 | ||
431 | [Note: the code changes represented by this section are really quite small | 516 | try_to_unmap() |
432 | compared to the text to describe what happening and why, and to discuss the | 517 | -------------- |
433 | implications.] | ||
434 | 518 | ||
435 | Pages can, of course, be mapped into multiple vmas. Some of these vmas may | 519 | Pages can, of course, be mapped into multiple VMAs. Some of these VMAs may |
436 | have VM_LOCKED flag set. It is possible for a page mapped into one or more | 520 | have VM_LOCKED flag set. It is possible for a page mapped into one or more |
437 | VM_LOCKED vmas not to have the PG_mlocked flag set and therefore reside on one | 521 | VM_LOCKED VMAs not to have the PG_mlocked flag set and therefore reside on one |
438 | of the active or inactive LRU lists. This could happen if, for example, a | 522 | of the active or inactive LRU lists. This could happen if, for example, a task |
439 | task in the process of munlock()ing the page could not isolate the page from | 523 | in the process of munlocking the page could not isolate the page from the LRU. |
440 | the LRU. As a result, vmscan/shrink_page_list() might encounter such a page | 524 | As a result, vmscan/shrink_page_list() might encounter such a page as described |
441 | as described in "Unevictable Pages and Vmscan [shrink_*_list()]". To | 525 | in section "vmscan's handling of unevictable pages". To handle this situation, |
442 | handle this situation, try_to_unmap() has been enhanced to check for VM_LOCKED | 526 | try_to_unmap() checks for VM_LOCKED VMAs while it is walking a page's reverse |
443 | vmas while it is walking a page's reverse map. | 527 | map. |
444 | 528 | ||
445 | try_to_unmap() is always called, by either vmscan for reclaim or for page | 529 | try_to_unmap() is always called, by either vmscan for reclaim or for page |
446 | migration, with the argument page locked and isolated from the LRU. BUG_ON() | 530 | migration, with the argument page locked and isolated from the LRU. Separate |
447 | assertions enforce this requirement. Separate functions handle anonymous and | 531 | functions handle anonymous and mapped file pages, as these types of pages have |
448 | mapped file pages, as these types of pages have different reverse map | 532 | different reverse map mechanisms. |
449 | mechanisms. | 533 | |
450 | 534 | (*) try_to_unmap_anon() | |
451 | try_to_unmap_anon() | 535 | |
452 | 536 | To unmap anonymous pages, each VMA in the list anchored in the anon_vma | |
453 | To unmap anonymous pages, each vma in the list anchored in the anon_vma must be | 537 | must be visited - at least until a VM_LOCKED VMA is encountered. If the |
454 | visited--at least until a VM_LOCKED vma is encountered. If the page is being | 538 | page is being unmapped for migration, VM_LOCKED VMAs do not stop the |
455 | unmapped for migration, VM_LOCKED vmas do not stop the process because mlocked | 539 | process because mlocked pages are migratable. However, for reclaim, if |
456 | pages are migratable. However, for reclaim, if the page is mapped into a | 540 | the page is mapped into a VM_LOCKED VMA, the scan stops. |
457 | VM_LOCKED vma, the scan stops. try_to_unmap() attempts to acquire the mmap | 541 | |
458 | semphore of the mm_struct to which the vma belongs in read mode. If this is | 542 | try_to_unmap_anon() attempts to acquire in read mode the mmap semphore of |
459 | successful, try_to_unmap() will mlock the page via mlock_vma_page()--we | 543 | the mm_struct to which the VMA belongs. If this is successful, it will |
460 | wouldn't have gotten to try_to_unmap() if the page were already mlocked--and | 544 | mlock the page via mlock_vma_page() - we wouldn't have gotten to |
461 | will return SWAP_MLOCK, indicating that the page is unevictable. If the | 545 | try_to_unmap_anon() if the page were already mlocked - and will return |
462 | mmap semaphore cannot be acquired, we are not sure whether the page is really | 546 | SWAP_MLOCK, indicating that the page is unevictable. |
463 | unevictable or not. In this case, try_to_unmap() will return SWAP_AGAIN. | 547 | |
464 | 548 | If the mmap semaphore cannot be acquired, we are not sure whether the page | |
465 | try_to_unmap_file() -- linear mappings | 549 | is really unevictable or not. In this case, try_to_unmap_anon() will |
466 | 550 | return SWAP_AGAIN. | |
467 | Unmapping of a mapped file page works the same, except that the scan visits | 551 | |
468 | all vmas that maps the page's index/page offset in the page's mapping's | 552 | (*) try_to_unmap_file() - linear mappings |
469 | reverse map priority search tree. It must also visit each vma in the page's | 553 | |
470 | mapping's non-linear list, if the list is non-empty. As for anonymous pages, | 554 | Unmapping of a mapped file page works the same as for anonymous mappings, |
471 | on encountering a VM_LOCKED vma for a mapped file page, try_to_unmap() will | 555 | except that the scan visits all VMAs that map the page's index/page offset |
472 | attempt to acquire the associated mm_struct's mmap semaphore to mlock the page, | 556 | in the page's mapping's reverse map priority search tree. It also visits |
473 | returning SWAP_MLOCK if this is successful, and SWAP_AGAIN, if not. | 557 | each VMA in the page's mapping's non-linear list, if the list is |
474 | 558 | non-empty. | |
475 | try_to_unmap_file() -- non-linear mappings | 559 | |
476 | 560 | As for anonymous pages, on encountering a VM_LOCKED VMA for a mapped file | |
477 | If a page's mapping contains a non-empty non-linear mapping vma list, then | 561 | page, try_to_unmap_file() will attempt to acquire the associated |
478 | try_to_un{map|lock}() must also visit each vma in that list to determine | 562 | mm_struct's mmap semaphore to mlock the page, returning SWAP_MLOCK if this |
479 | whether the page is mapped in a VM_LOCKED vma. Again, the scan must visit | 563 | is successful, and SWAP_AGAIN, if not. |
480 | all vmas in the non-linear list to ensure that the pages is not/should not be | 564 | |
481 | mlocked. If a VM_LOCKED vma is found in the list, the scan could terminate. | 565 | (*) try_to_unmap_file() - non-linear mappings |
482 | However, there is no easy way to determine whether the page is actually mapped | 566 | |
483 | in a given vma--either for unmapping or testing whether the VM_LOCKED vma | 567 | If a page's mapping contains a non-empty non-linear mapping VMA list, then |
484 | actually pins the page. | 568 | try_to_un{map|lock}() must also visit each VMA in that list to determine |
485 | 569 | whether the page is mapped in a VM_LOCKED VMA. Again, the scan must visit | |
486 | So, try_to_unmap_file() handles non-linear mappings by scanning a certain | 570 | all VMAs in the non-linear list to ensure that the pages is not/should not |
487 | number of pages--a "cluster"--in each non-linear vma associated with the page's | 571 | be mlocked. |
488 | mapping, for each file mapped page that vmscan tries to unmap. If this happens | 572 | |
489 | to unmap the page we're trying to unmap, try_to_unmap() will notice this on | 573 | If a VM_LOCKED VMA is found in the list, the scan could terminate. |
490 | return--(page_mapcount(page) == 0)--and return SWAP_SUCCESS. Otherwise, it | 574 | However, there is no easy way to determine whether the page is actually |
491 | will return SWAP_AGAIN, causing vmscan to recirculate this page. We take | 575 | mapped in a given VMA - either for unmapping or testing whether the |
492 | advantage of the cluster scan in try_to_unmap_cluster() as follows: | 576 | VM_LOCKED VMA actually pins the page. |
493 | 577 | ||
494 | For each non-linear vma, try_to_unmap_cluster() attempts to acquire the mmap | 578 | try_to_unmap_file() handles non-linear mappings by scanning a certain |
495 | semaphore of the associated mm_struct for read without blocking. If this | 579 | number of pages - a "cluster" - in each non-linear VMA associated with the |
496 | attempt is successful and the vma is VM_LOCKED, try_to_unmap_cluster() will | 580 | page's mapping, for each file mapped page that vmscan tries to unmap. If |
497 | retain the mmap semaphore for the scan; otherwise it drops it here. Then, | 581 | this happens to unmap the page we're trying to unmap, try_to_unmap() will |
498 | for each page in the cluster, if we're holding the mmap semaphore for a locked | 582 | notice this on return (page_mapcount(page) will be 0) and return |
499 | vma, try_to_unmap_cluster() calls mlock_vma_page() to mlock the page. This | 583 | SWAP_SUCCESS. Otherwise, it will return SWAP_AGAIN, causing vmscan to |
500 | call is a no-op if the page is already locked, but will mlock any pages in | 584 | recirculate this page. We take advantage of the cluster scan in |
501 | the non-linear mapping that happen to be unlocked. If one of the pages so | 585 | try_to_unmap_cluster() as follows: |
502 | mlocked is the page passed in to try_to_unmap(), try_to_unmap_cluster() will | 586 | |
503 | return SWAP_MLOCK, rather than the default SWAP_AGAIN. This will allow vmscan | 587 | For each non-linear VMA, try_to_unmap_cluster() attempts to acquire the |
504 | to cull the page, rather than recirculating it on the inactive list. Again, | 588 | mmap semaphore of the associated mm_struct for read without blocking. |
505 | if try_to_unmap_cluster() cannot acquire the vma's mmap sem, it returns | 589 | |
506 | SWAP_AGAIN, indicating that the page is mapped by a VM_LOCKED vma, but | 590 | If this attempt is successful and the VMA is VM_LOCKED, |
507 | couldn't be mlocked. | 591 | try_to_unmap_cluster() will retain the mmap semaphore for the scan; |
508 | 592 | otherwise it drops it here. | |
509 | 593 | ||
510 | Mlocked pages: try_to_munlock() Reverse Map Scan | 594 | Then, for each page in the cluster, if we're holding the mmap semaphore |
511 | 595 | for a locked VMA, try_to_unmap_cluster() calls mlock_vma_page() to | |
512 | TODO/FIXME: a better name might be page_mlocked()--analogous to the | 596 | mlock the page. This call is a no-op if the page is already locked, |
513 | page_referenced() reverse map walker. | 597 | but will mlock any pages in the non-linear mapping that happen to be |
514 | 598 | unlocked. | |
515 | When munlock_vma_page()--see "Mlocked Pages: munlock()/munlockall() | 599 | |
516 | System Call Handling" above--tries to munlock a page, it needs to | 600 | If one of the pages so mlocked is the page passed in to try_to_unmap(), |
517 | determine whether or not the page is mapped by any VM_LOCKED vma, without | 601 | try_to_unmap_cluster() will return SWAP_MLOCK, rather than the default |
518 | actually attempting to unmap all ptes from the page. For this purpose, the | 602 | SWAP_AGAIN. This will allow vmscan to cull the page, rather than |
519 | unevictable/mlock infrastructure introduced a variant of try_to_unmap() called | 603 | recirculating it on the inactive list. |
520 | try_to_munlock(). | 604 | |
605 | Again, if try_to_unmap_cluster() cannot acquire the VMA's mmap sem, it | ||
606 | returns SWAP_AGAIN, indicating that the page is mapped by a VM_LOCKED | ||
607 | VMA, but couldn't be mlocked. | ||
608 | |||
609 | |||
610 | try_to_munlock() REVERSE MAP SCAN | ||
611 | --------------------------------- | ||
612 | |||
613 | [!] TODO/FIXME: a better name might be page_mlocked() - analogous to the | ||
614 | page_referenced() reverse map walker. | ||
615 | |||
616 | When munlock_vma_page() [see section "munlock()/munlockall() System Call | ||
617 | Handling" above] tries to munlock a page, it needs to determine whether or not | ||
618 | the page is mapped by any VM_LOCKED VMA without actually attempting to unmap | ||
619 | all PTEs from the page. For this purpose, the unevictable/mlock infrastructure | ||
620 | introduced a variant of try_to_unmap() called try_to_munlock(). | ||
521 | 621 | ||
522 | try_to_munlock() calls the same functions as try_to_unmap() for anonymous and | 622 | try_to_munlock() calls the same functions as try_to_unmap() for anonymous and |
523 | mapped file pages with an additional argument specifing unlock versus unmap | 623 | mapped file pages with an additional argument specifing unlock versus unmap |
524 | processing. Again, these functions walk the respective reverse maps looking | 624 | processing. Again, these functions walk the respective reverse maps looking |
525 | for VM_LOCKED vmas. When such a vma is found for anonymous pages and file | 625 | for VM_LOCKED VMAs. When such a VMA is found for anonymous pages and file |
526 | pages mapped in linear VMAs, as in the try_to_unmap() case, the functions | 626 | pages mapped in linear VMAs, as in the try_to_unmap() case, the functions |
527 | attempt to acquire the associated mmap semphore, mlock the page via | 627 | attempt to acquire the associated mmap semphore, mlock the page via |
528 | mlock_vma_page() and return SWAP_MLOCK. This effectively undoes the | 628 | mlock_vma_page() and return SWAP_MLOCK. This effectively undoes the |
529 | pre-clearing of the page's PG_mlocked done by munlock_vma_page. | 629 | pre-clearing of the page's PG_mlocked done by munlock_vma_page. |
530 | 630 | ||
531 | If try_to_unmap() is unable to acquire a VM_LOCKED vma's associated mmap | 631 | If try_to_unmap() is unable to acquire a VM_LOCKED VMA's associated mmap |
532 | semaphore, it will return SWAP_AGAIN. This will allow shrink_page_list() | 632 | semaphore, it will return SWAP_AGAIN. This will allow shrink_page_list() to |
533 | to recycle the page on the inactive list and hope that it has better luck | 633 | recycle the page on the inactive list and hope that it has better luck with the |
534 | with the page next time. | 634 | page next time. |
535 | 635 | ||
536 | For file pages mapped into non-linear vmas, the try_to_munlock() logic works | 636 | For file pages mapped into non-linear VMAs, the try_to_munlock() logic works |
537 | slightly differently. On encountering a VM_LOCKED non-linear vma that might | 637 | slightly differently. On encountering a VM_LOCKED non-linear VMA that might |
538 | map the page, try_to_munlock() returns SWAP_AGAIN without actually mlocking | 638 | map the page, try_to_munlock() returns SWAP_AGAIN without actually mlocking the |
539 | the page. munlock_vma_page() will just leave the page unlocked and let | 639 | page. munlock_vma_page() will just leave the page unlocked and let vmscan deal |
540 | vmscan deal with it--the usual fallback position. | 640 | with it - the usual fallback position. |
541 | 641 | ||
542 | Note that try_to_munlock()'s reverse map walk must visit every vma in a pages' | 642 | Note that try_to_munlock()'s reverse map walk must visit every VMA in a page's |
543 | reverse map to determine that a page is NOT mapped into any VM_LOCKED vma. | 643 | reverse map to determine that a page is NOT mapped into any VM_LOCKED VMA. |
544 | However, the scan can terminate when it encounters a VM_LOCKED vma and can | 644 | However, the scan can terminate when it encounters a VM_LOCKED VMA and can |
545 | successfully acquire the vma's mmap semphore for read and mlock the page. | 645 | successfully acquire the VMA's mmap semphore for read and mlock the page. |
546 | Although try_to_munlock() can be called many [very many!] times when | 646 | Although try_to_munlock() might be called a great many times when munlocking a |
547 | munlock()ing a large region or tearing down a large address space that has been | 647 | large region or tearing down a large address space that has been mlocked via |
548 | mlocked via mlockall(), overall this is a fairly rare event. | 648 | mlockall(), overall this is a fairly rare event. |
549 | 649 | ||
550 | Mlocked Page: Page Reclaim in shrink_*_list() | 650 | |
551 | 651 | PAGE RECLAIM IN shrink_*_list() | |
552 | shrink_active_list() culls any obviously unevictable pages--i.e., | 652 | ------------------------------- |
553 | !page_evictable(page, NULL)--diverting these to the unevictable lru | 653 | |
554 | list. However, shrink_active_list() only sees unevictable pages that | 654 | shrink_active_list() culls any obviously unevictable pages - i.e. |
555 | made it onto the active/inactive lru lists. Note that these pages do not | 655 | !page_evictable(page, NULL) - diverting these to the unevictable list. |
556 | have PageUnevictable set--otherwise, they would be on the unevictable list and | 656 | However, shrink_active_list() only sees unevictable pages that made it onto the |
557 | shrink_active_list would never see them. | 657 | active/inactive lru lists. Note that these pages do not have PageUnevictable |
658 | set - otherwise they would be on the unevictable list and shrink_active_list | ||
659 | would never see them. | ||
558 | 660 | ||
559 | Some examples of these unevictable pages on the LRU lists are: | 661 | Some examples of these unevictable pages on the LRU lists are: |
560 | 662 | ||
561 | 1) ramfs pages that have been placed on the lru lists when first allocated. | 663 | (1) ramfs pages that have been placed on the LRU lists when first allocated. |
664 | |||
665 | (2) SHM_LOCK'd shared memory pages. shmctl(SHM_LOCK) does not attempt to | ||
666 | allocate or fault in the pages in the shared memory region. This happens | ||
667 | when an application accesses the page the first time after SHM_LOCK'ing | ||
668 | the segment. | ||
562 | 669 | ||
563 | 2) SHM_LOCKed shared memory pages. shmctl(SHM_LOCK) does not attempt to | 670 | (3) mlocked pages that could not be isolated from the LRU and moved to the |
564 | allocate or fault in the pages in the shared memory region. This happens | 671 | unevictable list in mlock_vma_page(). |
565 | when an application accesses the page the first time after SHM_LOCKing | ||
566 | the segment. | ||
567 | 672 | ||
568 | 3) Mlocked pages that could not be isolated from the lru and moved to the | 673 | (4) Pages mapped into multiple VM_LOCKED VMAs, but try_to_munlock() couldn't |
569 | unevictable list in mlock_vma_page(). | 674 | acquire the VMA's mmap semaphore to test the flags and set PageMlocked. |
675 | munlock_vma_page() was forced to let the page back on to the normal LRU | ||
676 | list for vmscan to handle. | ||
570 | 677 | ||
571 | 3) Pages mapped into multiple VM_LOCKED vmas, but try_to_munlock() couldn't | 678 | shrink_inactive_list() also diverts any unevictable pages that it finds on the |
572 | acquire the vma's mmap semaphore to test the flags and set PageMlocked. | 679 | inactive lists to the appropriate zone's unevictable list. |
573 | munlock_vma_page() was forced to let the page back on to the normal | ||
574 | LRU list for vmscan to handle. | ||
575 | 680 | ||
576 | shrink_inactive_list() also culls any unevictable pages that it finds on | 681 | shrink_inactive_list() should only see SHM_LOCK'd pages that became SHM_LOCK'd |
577 | the inactive lists, again diverting them to the appropriate zone's unevictable | 682 | after shrink_active_list() had moved them to the inactive list, or pages mapped |
578 | lru list. shrink_inactive_list() should only see SHM_LOCKed pages that became | 683 | into VM_LOCKED VMAs that munlock_vma_page() couldn't isolate from the LRU to |
579 | SHM_LOCKed after shrink_active_list() had moved them to the inactive list, or | 684 | recheck via try_to_munlock(). shrink_inactive_list() won't notice the latter, |
580 | pages mapped into VM_LOCKED vmas that munlock_vma_page() couldn't isolate from | 685 | but will pass on to shrink_page_list(). |
581 | the lru to recheck via try_to_munlock(). shrink_inactive_list() won't notice | ||
582 | the latter, but will pass on to shrink_page_list(). | ||
583 | 686 | ||
584 | shrink_page_list() again culls obviously unevictable pages that it could | 687 | shrink_page_list() again culls obviously unevictable pages that it could |
585 | encounter for similar reason to shrink_inactive_list(). Pages mapped into | 688 | encounter for similar reason to shrink_inactive_list(). Pages mapped into |
586 | VM_LOCKED vmas but without PG_mlocked set will make it all the way to | 689 | VM_LOCKED VMAs but without PG_mlocked set will make it all the way to |
587 | try_to_unmap(). shrink_page_list() will divert them to the unevictable list | 690 | try_to_unmap(). shrink_page_list() will divert them to the unevictable list |
588 | when try_to_unmap() returns SWAP_MLOCK, as discussed above. | 691 | when try_to_unmap() returns SWAP_MLOCK, as discussed above. |