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authorLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-16 18:20:36 -0400
committerLinus Torvalds <torvalds@ppc970.osdl.org>2005-04-16 18:20:36 -0400
commit1da177e4c3f41524e886b7f1b8a0c1fc7321cac2 (patch)
tree0bba044c4ce775e45a88a51686b5d9f90697ea9d /Documentation/fujitsu/frv/features.txt
Linux-2.6.12-rc2v2.6.12-rc2
Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip!
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1 ===========================
2 FUJITSU FR-V LINUX FEATURES
3 ===========================
4
5This kernel port has a number of features of which the user should be aware:
6
7 (*) Linux and uClinux
8
9 The FR-V architecture port supports both normal MMU linux and uClinux out
10 of the same sources.
11
12
13 (*) CPU support
14
15 Support for the FR401, FR403, FR405, FR451 and FR555 CPUs should work with
16 the same uClinux kernel configuration.
17
18 In normal (MMU) Linux mode, only the FR451 CPU will work as that is the
19 only one with a suitably featured CPU.
20
21 The kernel is written and compiled with the assumption that only the
22 bottom 32 GR registers and no FR registers will be used by the kernel
23 itself, however all extra userspace registers will be saved on context
24 switch. Note that since most CPUs can't support lazy switching, no attempt
25 is made to do lazy register saving where that would be possible (FR555
26 only currently).
27
28
29 (*) Board support
30
31 The board on which the kernel will run can be configured on the "Processor
32 type and features" configuration tab.
33
34 Set the System to "MB93093-PDK" to boot from the MB93093 (FR403) PDK.
35
36 Set the System to "MB93091-VDK" to boot from the CB11, CB30, CB41, CB60,
37 CB70 or CB451 VDK boards. Set the Motherboard setting to "MB93090-MB00" to
38 boot with the standard ATA90590B VDK motherboard, and set it to "None" to
39 boot without any motherboard.
40
41
42 (*) Binary Formats
43
44 The only userspace binary format supported is FDPIC ELF. Normal ELF, FLAT
45 and AOUT binaries are not supported for this architecture.
46
47 FDPIC ELF supports shared library and program interpreter facilities.
48
49
50 (*) Scheduler Speed
51
52 The kernel scheduler runs at 100Hz irrespective of the clock speed on this
53 architecture. This value is set in asm/param.h (see the HZ macro defined
54 there).
55
56
57 (*) Normal (MMU) Linux Memory Layout.
58
59 See mmu-layout.txt in this directory for a description of the normal linux
60 memory layout
61
62 See include/asm-frv/mem-layout.h for constants pertaining to the memory
63 layout.
64
65 See include/asm-frv/mb-regs.h for the constants pertaining to the I/O bus
66 controller configuration.
67
68
69 (*) uClinux Memory Layout
70
71 The memory layout used by the uClinux kernel is as follows:
72
73 0x00000000 - 0x00000FFF Null pointer catch page
74 0x20000000 - 0x200FFFFF CS2# [PDK] FPGA
75 0xC0000000 - 0xCFFFFFFF SDRAM
76 0xC0000000 Base of Linux kernel image
77 0xE0000000 - 0xEFFFFFFF CS2# [VDK] SLBUS/PCI window
78 0xF0000000 - 0xF0FFFFFF CS5# MB93493 CSC area (DAV daughter board)
79 0xF1000000 - 0xF1FFFFFF CS7# [CB70/CB451] CPU-card PCMCIA port space
80 0xFC000000 - 0xFC0FFFFF CS1# [VDK] MB86943 config space
81 0xFC100000 - 0xFC1FFFFF CS6# [CB70/CB451] CPU-card DM9000 NIC space
82 0xFC100000 - 0xFC1FFFFF CS6# [PDK] AX88796 NIC space
83 0xFC200000 - 0xFC2FFFFF CS3# MB93493 CSR area (DAV daughter board)
84 0xFD000000 - 0xFDFFFFFF CS4# [CB70/CB451] CPU-card extra flash space
85 0xFE000000 - 0xFEFFFFFF Internal CPU peripherals
86 0xFF000000 - 0xFF1FFFFF CS0# Flash 1
87 0xFF200000 - 0xFF3FFFFF CS0# Flash 2
88 0xFFC00000 - 0xFFC0001F CS0# [VDK] FPGA
89
90 The kernel reads the size of the SDRAM from the memory bus controller
91 registers by default.
92
93 The kernel initialisation code (1) adjusts the SDRAM base addresses to
94 move the SDRAM to desired address, (2) moves the kernel image down to the
95 bottom of SDRAM, (3) adjusts the bus controller registers to move I/O
96 windows, and (4) rearranges the protection registers to protect all of
97 this.
98
99 The reasons for doing this are: (1) the page at address 0 should be
100 inaccessible so that NULL pointer errors can be caught; and (2) the bottom
101 three quarters are left unoccupied so that an FR-V CPU with an MMU can use
102 it for virtual userspace mappings.
103
104 See include/asm-frv/mem-layout.h for constants pertaining to the memory
105 layout.
106
107 See include/asm-frv/mb-regs.h for the constants pertaining to the I/O bus
108 controller configuration.
109
110
111 (*) uClinux Memory Protection
112
113 A DAMPR register is used to cover the entire region used for I/O
114 (0xE0000000 - 0xFFFFFFFF). This permits the kernel to make uncached
115 accesses to this region. Userspace is not permitted to access it.
116
117 The DAMPR/IAMPR protection registers not in use for any other purpose are
118 tiled over the top of the SDRAM such that:
119
120 (1) The core kernel image is covered by as small a tile as possible
121 granting only the kernel access to the underlying data, whilst
122 making sure no SDRAM is actually made unavailable by this approach.
123
124 (2) All other tiles are arranged to permit userspace access to the rest
125 of the SDRAM.
126
127 Barring point (1), there is nothing to protect kernel data against
128 userspace damage - but this is uClinux.
129
130
131 (*) Exceptions and Fixups
132
133 Since the FR40x and FR55x CPUs that do not have full MMUs generate
134 imprecise data error exceptions, there are currently no automatic fixup
135 services available in uClinux. This includes misaligned memory access
136 fixups.
137
138 Userspace EFAULT errors can be trapped by issuing a MEMBAR instruction and
139 forcing the fault to happen there.
140
141 On the FR451, however, data exceptions are mostly precise, and so
142 exception fixup handling is implemented as normal.
143
144
145 (*) Userspace Breakpoints
146
147 The ptrace() system call supports the following userspace debugging
148 features:
149
150 (1) Hardware assisted single step.
151
152 (2) Breakpoint via the FR-V "BREAK" instruction.
153
154 (3) Breakpoint via the FR-V "TIRA GR0, #1" instruction.
155
156 (4) Syscall entry/exit trap.
157
158 Each of the above generates a SIGTRAP.
159
160
161 (*) On-Chip Serial Ports
162
163 The FR-V on-chip serial ports are made available as ttyS0 and ttyS1. Note
164 that if the GDB stub is compiled in, ttyS1 will not actually be available
165 as it will be being used for the GDB stub.
166
167 These ports can be made by:
168
169 mknod /dev/ttyS0 c 4 64
170 mknod /dev/ttyS1 c 4 65
171
172
173 (*) Maskable Interrupts
174
175 Level 15 (Non-maskable) interrupts are dealt with by the GDB stub if
176 present, and cause a panic if not. If the GDB stub is present, ttyS1's
177 interrupts are rated at level 15.
178
179 All other interrupts are distributed over the set of available priorities
180 so that no IRQs are shared where possible. The arch interrupt handling
181 routines attempt to disentangle the various sources available through the
182 CPU's own multiplexor, and those on off-CPU peripherals.
183
184
185 (*) Accessing PCI Devices
186
187 Where PCI is available, care must be taken when dealing with drivers that
188 access PCI devices. PCI devices present their data in little-endian form,
189 but the CPU sees it in big-endian form. The macros in asm/io.h try to get
190 this right, but may not under all circumstances...
191
192
193 (*) Ax88796 Ethernet Driver
194
195 The MB93093 PDK board has an Ax88796 ethernet chipset (an NE2000 clone). A
196 driver has been written to deal specifically with this. The driver
197 provides MII services for the card.
198
199 The driver can be configured by running make xconfig, and going to:
200
201 (*) Network device support
202 - turn on "Network device support"
203 (*) Ethernet (10 or 100Mbit)
204 - turn on "Ethernet (10 or 100Mbit)"
205 - turn on "AX88796 NE2000 compatible chipset"
206
207 The driver can be found in:
208
209 drivers/net/ax88796.c
210 include/asm/ax88796.h
211
212
213 (*) WorkRAM Driver
214
215 This driver provides a character device that permits access to the WorkRAM
216 that can be found on the FR451 CPU. Each page is accessible through a
217 separate minor number, thereby permitting each page to have its own
218 filesystem permissions set on the device file.
219
220 The device files should be:
221
222 mknod /dev/frv/workram0 c 240 0
223 mknod /dev/frv/workram1 c 240 1
224 mknod /dev/frv/workram2 c 240 2
225 ...
226
227 The driver will not permit the opening of any device file that does not
228 correspond to at least a partial page of WorkRAM. So the first device file
229 is the only one available on the FR451. If any other CPU is detected, none
230 of the devices will be openable.
231
232 The devices can be accessed with read, write and llseek, and can also be
233 mmapped. If they're mmapped, they will only map at the appropriate
234 0x7e8nnnnn address on linux and at the 0xfe8nnnnn address on uClinux. If
235 MAP_FIXED is not specified, the appropriate address will be chosen anyway.
236
237 The mappings must be MAP_SHARED not MAP_PRIVATE, and must not be
238 PROT_EXEC. They must also start at file offset 0, and must not be longer
239 than one page in size.
240
241 This driver can be configured by running make xconfig, and going to:
242
243 (*) Character devices
244 - turn on "Fujitsu FR-V CPU WorkRAM support"
245
246
247 (*) Dynamic data cache write mode changing
248
249 It is possible to view and to change the data cache's write mode through
250 the /proc/sys/frv/cache-mode file while the kernel is running. There are
251 two modes available:
252
253 NAME MEANING
254 ===== ==========================================
255 wthru Data cache is in Write-Through mode
256 wback Data cache is in Write-Back/Copy-Back mode
257
258 To read the cache mode:
259
260 # cat /proc/sys/frv/cache-mode
261 wthru
262
263 To change the cache mode:
264
265 # echo wback >/proc/sys/frv/cache-mode
266 # cat /proc/sys/frv/cache-mode
267 wback
268
269
270 (*) MMU Context IDs and Pinning
271
272 On MMU Linux the CPU supports the concept of a context ID in its MMU to
273 make it more efficient (TLB entries are labelled with a context ID to link
274 them to specific tasks).
275
276 Normally once a context ID is allocated, it will remain affixed to a task
277 or CLONE_VM'd group of tasks for as long as it exists. However, since the
278 kernel is capable of supporting more tasks than there are possible ID
279 numbers, the kernel will pass context IDs from one task to another if
280 there are insufficient available.
281
282 The context ID currently in use by a task can be viewed in /proc:
283
284 # grep CXNR /proc/1/status
285 CXNR: 1
286
287 Note that kernel threads do not have a userspace context, and so will not
288 show a CXNR entry in that file.
289
290 Under some circumstances, however, it is desirable to pin a context ID on
291 a process such that the kernel won't pass it on. This can be done by
292 writing the process ID of the target process to a special file:
293
294 # echo 17 >/proc/sys/frv/pin-cxnr
295
296 Reading from the file will then show the context ID pinned.
297
298 # cat /proc/sys/frv/pin-cxnr
299 4
300
301 The context ID will remain pinned as long as any process is using that
302 context, i.e.: when the all the subscribing processes have exited or
303 exec'd; or when an unpinning request happens:
304
305 # echo 0 >/proc/sys/frv/pin-cxnr
306
307 When there isn't a pinned context, the file shows -1:
308
309 # cat /proc/sys/frv/pin-cxnr
310 -1