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authorCliff Wickman <cpw@sgi.com>2008-06-02 09:56:14 -0400
committerIngo Molnar <mingo@elte.hu>2008-07-08 06:23:22 -0400
commit1812924bb1823950c1dc95c478b71b037057356e (patch)
tree74ecf29e332a320d7850008ca4f8607dace88de6 /include/asm-x86/uv
parentd98b940ab29a245de84a1c138b866dcc29217601 (diff)
x86, SGI UV: TLB shootdown using broadcast assist unit
TLB shootdown for SGI UV. Depends on patch (in tip/x86/irq): x86-update-macros-used-by-uv-platform.patch Jack Steiner May 29 This patch provides the ability to flush TLB's in cpu's that are not on the local node. The hardware mechanism for distributing the flush messages is the UV's "broadcast assist unit". The hook to intercept TLB shootdown requests is a 2-line change to native_flush_tlb_others() (arch/x86/kernel/tlb_64.c). This code has been tested on a hardware simulator. The real hardware is not yet available. The shootdown statistics are provided through /proc/sgi_uv/ptc_statistics. The use of /sys was considered, but would have required the use of many /sys files. The debugfs was also considered, but these statistics should be available on an ongoing basis, not just for debugging. Issues to be fixed later: - The IRQ for the messaging interrupt is currently hardcoded as 200 (see UV_BAU_MESSAGE). It should be dynamically assigned in the future. - The use of appropriate udelay()'s is untested, as they are a problem in the simulator. Signed-off-by: Cliff Wickman <cpw@sgi.com> Signed-off-by: Ingo Molnar <mingo@elte.hu>
Diffstat (limited to 'include/asm-x86/uv')
-rw-r--r--include/asm-x86/uv/uv_bau.h331
1 files changed, 331 insertions, 0 deletions
diff --git a/include/asm-x86/uv/uv_bau.h b/include/asm-x86/uv/uv_bau.h
new file mode 100644
index 000000000000..f125f86c89ac
--- /dev/null
+++ b/include/asm-x86/uv/uv_bau.h
@@ -0,0 +1,331 @@
1/*
2 * This file is subject to the terms and conditions of the GNU General Public
3 * License. See the file "COPYING" in the main directory of this archive
4 * for more details.
5 *
6 * SGI UV Broadcast Assist Unit definitions
7 *
8 * Copyright (C) 2008 Silicon Graphics, Inc. All rights reserved.
9 */
10
11#ifndef __ASM_X86_UV_BAU__
12#define __ASM_X86_UV_BAU__
13
14#include <linux/bitmap.h>
15#define BITSPERBYTE 8
16
17/* Broadcast Assist Unit messaging structures */
18
19/*
20 * Selective Broadcast activations are induced by software action
21 * specifying a particular 8-descriptor "set" via a 6-bit index written
22 * to an MMR.
23 * Thus there are 64 unique 512-byte sets of SB descriptors - one set for
24 * each 6-bit index value. These descriptor sets are mapped in sequence
25 * starting with set 0 located at the address specified in the
26 * BAU_SB_DESCRIPTOR_BASE register, set 1 is located at BASE + 512,
27 * set 2 is at BASE + 2*512, set 3 at BASE + 3*512, and so on.
28 *
29 * We will use 31 sets, one for sending BAU messages from each of the 32
30 * cpu's on the node.
31 *
32 * TLB shootdown will use the first of the 8 descriptors of each set.
33 * Each of the descriptors is 64 bytes in size (8*64 = 512 bytes in a set).
34 */
35
36#define UV_ITEMS_PER_DESCRIPTOR 8
37#define UV_CPUS_PER_ACT_STATUS 32
38#define UV_ACT_STATUS_MASK 0x3
39#define UV_ACT_STATUS_SIZE 2
40#define UV_ACTIVATION_DESCRIPTOR_SIZE 32
41#define UV_DISTRIBUTION_SIZE 256
42#define UV_SW_ACK_NPENDING 8
43#define UV_BAU_MESSAGE 200 /* Messaging irq; see irq_64.h */
44 /* and include/asm-x86/hw_irq_64.h */
45 /* To be dynamically allocated in the future */
46#define UV_NET_ENDPOINT_INTD 0x38
47#define UV_DESC_BASE_PNODE_SHIFT 49 /* position of pnode (nasid>>1) in MMR */
48#define UV_PAYLOADQ_PNODE_SHIFT 49
49
50#define UV_PTC_BASENAME "sgi_uv/ptc_statistics"
51#define uv_physnodeaddr(x) ((__pa((unsigned long)(x)) & uv_mmask))
52
53/* bits in UVH_LB_BAU_SB_ACTIVATION_STATUS_0/1 */
54#define DESC_STATUS_IDLE 0
55#define DESC_STATUS_ACTIVE 1
56#define DESC_STATUS_DESTINATION_TIMEOUT 2
57#define DESC_STATUS_SOURCE_TIMEOUT 3
58
59/* source side threshholds at which message retries print a warning */
60#define SOURCE_TIMEOUT_LIMIT 20
61#define DESTINATION_TIMEOUT_LIMIT 20
62
63/* number of entries in the destination side payload queue */
64#define DESTINATION_PAYLOAD_QUEUE_SIZE 17
65/* number of destination side software ack resources */
66#define DESTINATION_NUM_RESOURCES 8
67#define MAX_CPUS_PER_NODE 32
68
69/* Distribution: 32 bytes (256 bits) (bytes 0-0x1f of descriptor) */
70/* If the 'multilevel' flag in the header portion of the descriptor
71 * has been set to 0, then endpoint multi-unicast mode is selected.
72 * The distribution specification (32 bytes) is interpreted as a 256-bit
73 * distribution vector. Adjacent bits correspond to consecutive even numbered
74 * nodeIDs. The result of adding the index of a given bit to the 15-bit
75 * 'base_dest_nodeid' field of the header corresponds to the
76 * destination nodeID associated with that specified bit. */
77struct bau_target_nodemask {
78 unsigned long bits[BITS_TO_LONGS(256)];
79};
80
81/* mask of cpu's on a node */
82/* (during initialization we need to check that unsigned long has
83 enough bits for max. cpu's per node) */
84struct bau_local_cpumask {
85 unsigned long bits;
86};
87
88/*
89 * Payload: 16 bytes (128 bits) (bytes 0x20-0x2f of descriptor)
90 * only 12 bytes (96 bits) of the payload area are usable.
91 * An additional 3 bytes (bits 27:4) of the header address are carried
92 * to the next bytes of the destination payload queue.
93 * And an additional 2 bytes of the header Suppl_A field are also
94 * carried to the destination payload queue.
95 * But the first byte of the Suppl_A becomes bits 127:120 (the 16th byte)
96 * of the destination payload queue, which is written by the hardware
97 * with the s/w ack resource bit vector.
98 * [ effective message contents (16 bytes (128 bits) maximum), not counting
99 * the s/w ack bit vector ]
100 */
101
102/* The payload is software-defined for INTD transactions */
103struct bau_msg_payload {
104 unsigned long address; /* signifies a page or all TLB's
105 of the cpu */
106 /* 64 bits */
107 unsigned short sending_cpu; /* filled in by sender */
108 /* 16 bits */
109 unsigned short acknowledge_count;/* filled in by destination */
110 /* 16 bits */
111 unsigned int reserved1:32; /* not usable */
112};
113
114
115/* Message header: 16 bytes (128 bits) (bytes 0x30-0x3f of descriptor) */
116/* see table 4.2.3.0.1 in broacast_assist spec. */
117struct bau_msg_header {
118 int dest_subnodeid:6; /* must be zero */
119 /* bits 5:0 */
120 int base_dest_nodeid:15; /* nasid>>1 (pnode) of first bit in node_map */
121 /* bits 20:6 */
122 int command:8; /* message type */
123 /* bits 28:21 */
124 /* 0x38: SN3net EndPoint Message */
125 int rsvd_1:3; /* must be zero */
126 /* bits 31:29 */
127 /* int will align on 32 bits */
128 int rsvd_2:9; /* must be zero */
129 /* bits 40:32 */
130 /* Suppl_A is 56-41 */
131 int payload_2a:8; /* becomes byte 16 of msg */
132 /* bits 48:41 */ /* not currently using */
133 int payload_2b:8; /* becomes byte 17 of msg */
134 /* bits 56:49 */ /* not currently using */
135 /* Address field (96:57) is never used as an
136 address (these are address bits 42:3) */
137 int rsvd_3:1; /* must be zero */
138 /* bit 57 */
139 /* address bits 27:4 are payload */
140 /* these 24 bits become bytes 12-14 of msg */
141 int replied_to:1; /* sent as 0 by the source to byte 12 */
142 /* bit 58 */
143
144 int payload_1a:5; /* not currently used */
145 /* bits 63:59 */
146 int payload_1b:8; /* not currently used */
147 /* bits 71:64 */
148 int payload_1c:8; /* not currently used */
149 /* bits 79:72 */
150 int payload_1d:2; /* not currently used */
151 /* bits 81:80 */
152
153 int rsvd_4:7; /* must be zero */
154 /* bits 88:82 */
155 int sw_ack_flag:1; /* software acknowledge flag */
156 /* bit 89 */
157 /* INTD trasactions at destination are to
158 wait for software acknowledge */
159 int rsvd_5:6; /* must be zero */
160 /* bits 95:90 */
161 int rsvd_6:5; /* must be zero */
162 /* bits 100:96 */
163 int int_both:1; /* if 1, interrupt both sockets on the blade */
164 /* bit 101*/
165 int fairness:3; /* usually zero */
166 /* bits 104:102 */
167 int multilevel:1; /* multi-level multicast format */
168 /* bit 105 */
169 /* 0 for TLB: endpoint multi-unicast messages */
170 int chaining:1; /* next descriptor is part of this activation*/
171 /* bit 106 */
172 int rsvd_7:21; /* must be zero */
173 /* bits 127:107 */
174};
175
176/* The format of the message to send, plus all accompanying control */
177/* Should be 64 bytes */
178struct bau_activation_descriptor {
179 struct bau_target_nodemask distribution;
180 /* message template, consisting of header and payload: */
181 struct bau_msg_header header;
182 struct bau_msg_payload payload;
183};
184/*
185 * -payload-- ---------header------
186 * bytes 0-11 bits 41-56 bits 58-81
187 * A B (2) C (3)
188 *
189 * A/B/C are moved to:
190 * A C B
191 * bytes 0-11 bytes 12-14 bytes 16-17 (byte 15 filled in by hw as vector)
192 * ------------payload queue-----------
193 */
194
195/*
196 * The payload queue on the destination side is an array of these.
197 * With BAU_MISC_CONTROL set for software acknowledge mode, the messages
198 * are 32 bytes (2 micropackets) (256 bits) in length, but contain only 17
199 * bytes of usable data, including the sw ack vector in byte 15 (bits 127:120)
200 * (12 bytes come from bau_msg_payload, 3 from payload_1, 2 from
201 * sw_ack_vector and payload_2)
202 * "Enabling Software Acknowledgment mode (see Section 4.3.3 Software
203 * Acknowledge Processing) also selects 32 byte (17 bytes usable) payload
204 * operation."
205 */
206struct bau_payload_queue_entry {
207 unsigned long address; /* signifies a page or all TLB's
208 of the cpu */
209 /* 64 bits, bytes 0-7 */
210
211 unsigned short sending_cpu; /* cpu that sent the message */
212 /* 16 bits, bytes 8-9 */
213
214 unsigned short acknowledge_count; /* filled in by destination */
215 /* 16 bits, bytes 10-11 */
216
217 unsigned short replied_to:1; /* sent as 0 by the source */
218 /* 1 bit */
219 unsigned short unused1:7; /* not currently using */
220 /* 7 bits: byte 12) */
221
222 unsigned char unused2[2]; /* not currently using */
223 /* bytes 13-14 */
224
225 unsigned char sw_ack_vector; /* filled in by the hardware */
226 /* byte 15 (bits 127:120) */
227
228 unsigned char unused4[3]; /* not currently using bytes 17-19 */
229 /* bytes 17-19 */
230
231 int number_of_cpus; /* filled in at destination */
232 /* 32 bits, bytes 20-23 (aligned) */
233
234 unsigned char unused5[8]; /* not using */
235 /* bytes 24-31 */
236};
237
238/* one for every slot in the destination payload queue */
239struct bau_msg_status {
240 struct bau_local_cpumask seen_by; /* map of cpu's */
241};
242
243/* one for every slot in the destination software ack resources */
244struct bau_sw_ack_status {
245 struct bau_payload_queue_entry *msg; /* associated message */
246 int watcher; /* cpu monitoring, or -1 */
247};
248
249/* one on every node and per-cpu; to locate the software tables */
250struct bau_control {
251 struct bau_activation_descriptor *descriptor_base;
252 struct bau_payload_queue_entry *bau_msg_head;
253 struct bau_payload_queue_entry *va_queue_first;
254 struct bau_payload_queue_entry *va_queue_last;
255 struct bau_msg_status *msg_statuses;
256 int *watching; /* pointer to array */
257};
258
259/*
260 * This structure is allocated per_cpu for UV TLB shootdown statistics.
261 */
262struct ptc_stats {
263 unsigned long ptc_i; /* number of IPI-style flushes */
264 unsigned long requestor; /* number of nodes this cpu sent to */
265 unsigned long requestee; /* times cpu was remotely requested */
266 unsigned long alltlb; /* times all tlb's on this cpu were flushed */
267 unsigned long onetlb; /* times just one tlb on this cpu was flushed */
268 unsigned long s_retry; /* retries on source side timeouts */
269 unsigned long d_retry; /* retries on destination side timeouts */
270 unsigned long sflush_ns;/* nanoseconds spent in uv_flush_tlb_others */
271 unsigned long dflush_ns;/* nanoseconds spent destination side */
272 unsigned long retriesok; /* successes on retries */
273 unsigned long nomsg; /* interrupts with no message */
274 unsigned long multmsg; /* interrupts with multiple messages */
275 unsigned long ntargeted;/* nodes targeted */
276};
277
278static inline int bau_node_isset(int node, struct bau_target_nodemask *dstp)
279{
280 return constant_test_bit(node, &dstp->bits[0]);
281}
282static inline void bau_node_set(int node, struct bau_target_nodemask *dstp)
283{
284 __set_bit(node, &dstp->bits[0]);
285}
286static inline void bau_nodes_clear(struct bau_target_nodemask *dstp, int nbits)
287{
288 bitmap_zero(&dstp->bits[0], nbits);
289}
290
291static inline void bau_cpubits_clear(struct bau_local_cpumask *dstp, int nbits)
292{
293 bitmap_zero(&dstp->bits, nbits);
294}
295
296/*
297 * atomic increment of a short integer
298 * (rather than using the __sync_add_and_fetch() intrinsic)
299 *
300 * returns the new value of the variable
301 */
302static inline short int atomic_inc_short(short int *v)
303{
304 asm volatile("movw $1, %%cx\n"
305 "lock ; xaddw %%cx, %0\n"
306 : "+m" (*v) /* outputs */
307 : : "%cx", "memory"); /* inputs : clobbereds */
308 return *v;
309}
310
311/*
312 * atomic OR of two long integers
313 * (rather than using the __sync_or_and_fetch() intrinsic)
314 */
315static inline void atomic_or_long(unsigned long *v1, unsigned long v2)
316{
317 asm volatile("movq %0, %%rax; lea %1, %%rdx\n"
318 "lock ; orq %%rax, %%rdx\n"
319 : "+m" (*v1) /* outputs */
320 : "m" (v1), "m" (v2) /* inputs */
321 : "memory"); /* clobbereds */
322}
323
324#define cpubit_isset(cpu, bau_local_cpumask) \
325 test_bit((cpu), (bau_local_cpumask).bits)
326
327int uv_flush_tlb_others(cpumask_t *, struct mm_struct *, unsigned long);
328void uv_bau_message_intr1(void);
329void uv_bau_timeout_intr1(void);
330
331#endif /* __ASM_X86_UV_BAU__ */