2 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
4 * @APPLE_LICENSE_HEADER_START@
6 * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved.
8 * This file contains Original Code and/or Modifications of Original Code
9 * as defined in and that are subject to the Apple Public Source License
10 * Version 2.0 (the 'License'). You may not use this file except in
11 * compliance with the License. Please obtain a copy of the License at
12 * http://www.opensource.apple.com/apsl/ and read it before using this
15 * The Original Code and all software distributed under the License are
16 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
17 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
18 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
20 * Please see the License for the specific language governing rights and
21 * limitations under the License.
23 * @APPLE_LICENSE_HEADER_END@
26 * @OSF_FREE_COPYRIGHT@
29 * @APPLE_FREE_COPYRIGHT@
33 * Author: Bill Angell, Apple
36 * exceptions and certain C functions write into a trace table which
37 * can be examined via the machine 'lt' command under kdb
41 #include <string.h> /* For strcpy() */
42 #include <mach/boolean.h>
43 #include <machine/db_machdep.h>
45 #include <ddb/db_access.h>
46 #include <ddb/db_lex.h>
47 #include <ddb/db_output.h>
48 #include <ddb/db_command.h>
49 #include <ddb/db_sym.h>
50 #include <ddb/db_task_thread.h>
51 #include <ddb/db_command.h> /* For db_option() */
52 #include <ddb/db_examine.h>
53 #include <ddb/db_expr.h>
54 #include <kern/thread.h>
55 #include <kern/task.h>
56 #include <mach/vm_param.h>
57 #include <mach/kmod.h>
58 #include <ppc/Firmware.h>
59 #include <ppc/low_trace.h>
60 #include <ppc/db_low_trace.h>
61 #include <ppc/mappings.h>
64 #include <ppc/savearea.h>
65 #include <ppc/vmachmon.h>
67 void db_dumppca(unsigned int ptegindex
);
68 void db_dumpmapping(struct mapping
*mp
); /* Dump out a mapping */
69 extern kmod_info_t
*kmod
; /* Find the kmods */
71 db_addr_t db_low_trace_prev
= 0;
74 * Print out the low level trace table:
76 * Displays the entry and 15 before it in newest to oldest order
80 * If entaddr is omitted, it starts with the most current
81 * If entaddr = 0, it starts with the most current and does the whole table
83 void db_low_trace(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
86 unsigned int tempx
, cnt
;
87 unsigned int xTraceCurr
, xTraceStart
, xTraceEnd
, cxltr
;
93 cnt
= 16; /* Default to 16 entries */
95 xTraceCurr
= trcWork
.traceCurr
; /* Transfer current pointer */
96 xTraceStart
= trcWork
.traceStart
; /* Transfer start of table */
97 xTraceEnd
= trcWork
.traceEnd
; /* Transfer end of table */
99 if(addr
== -1) cnt
= 0x7FFFFFFF; /* Max the count */
101 if(!addr
|| (addr
== -1)) {
102 addr
=xTraceCurr
-sizeof(LowTraceRecord
); /* Start at the newest */
103 if((unsigned int)addr
<xTraceStart
) addr
=xTraceEnd
-sizeof(LowTraceRecord
); /* Wrap low back to high */
106 if((unsigned int)addr
<xTraceStart
||(unsigned int)addr
>=xTraceEnd
) { /* In the table? */
107 db_printf("address not in low memory trace table\n"); /* Tell the fool */
108 return; /* Leave... */
111 if((unsigned int)addr
&0x0000007F) { /* Proper alignment? */
112 db_printf("address not aligned on trace entry boundary (0x80)\n"); /* Tell 'em */
113 return; /* Leave... */
116 xxltr
= addr
; /* Set the start */
117 cxltr
= ((xTraceCurr
== xTraceStart
? xTraceEnd
: xTraceCurr
) - sizeof(LowTraceRecord
)); /* Get address of newest entry */
119 db_low_trace_prev
= addr
; /* Starting point */
121 for(i
=0; i
< cnt
; i
++) { /* Dump the 16 (or all) entries */
123 ReadReal((addr64_t
)xxltr
, (unsigned int *)&xltr
); /* Get the first half */
124 ReadReal((addr64_t
)xxltr
+ 32, &(((unsigned int *)&xltr
)[8])); /* Get the second half */
125 ReadReal((addr64_t
)xxltr
+ 64, &(((unsigned int *)&xltr
)[16])); /* Get the second half */
126 ReadReal((addr64_t
)xxltr
+ 96, &(((unsigned int *)&xltr
)[24])); /* Get the second half */
128 db_printf("\n%s%08llX %1X %08X %08X - %04X\n", (xxltr
!= cxltr
? " " : "*"),
130 xltr
.LTR_cpu
, xltr
.LTR_timeHi
, xltr
.LTR_timeLo
,
131 (xltr
.LTR_excpt
& 0x8000 ? 0xFFFF : xltr
.LTR_excpt
* 64)); /* Print the first line */
133 db_printf(" DAR/DSR/CR: %016llX %08X %08X\n", xltr
.LTR_dar
, xltr
.LTR_dsisr
, xltr
.LTR_cr
);
135 db_printf(" SRR0/SRR1 %016llX %016llX\n", xltr
.LTR_srr0
, xltr
.LTR_srr1
);
136 db_printf(" LR/CTR %016llX %016llX\n", xltr
.LTR_lr
, xltr
.LTR_ctr
);
138 db_printf(" R0/R1/R2 %016llX %016llX %016llX\n", xltr
.LTR_r0
, xltr
.LTR_r1
, xltr
.LTR_r2
);
139 db_printf(" R3/R4/R5 %016llX %016llX %016llX\n", xltr
.LTR_r3
, xltr
.LTR_r4
, xltr
.LTR_r5
);
140 db_printf(" R6/sv/rsv %016llX %016llX %08X\n", xltr
.LTR_r6
, xltr
.LTR_save
, xltr
.LTR_rsvd0
);
142 if((cnt
!= 16) && (xxltr
== xTraceCurr
)) break; /* If whole table dump, exit when we hit start again... */
144 xxltr
-=sizeof(LowTraceRecord
); /* Back it on up */
145 if(xxltr
<xTraceStart
)
146 xxltr
=(xTraceEnd
-sizeof(LowTraceRecord
)); /* Wrap low back to high */
149 db_next
= (db_expr_t
)(xxltr
);
155 * Print out 256 bytes
160 void db_display_long(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
164 for(i
=0; i
<8; i
++) { /* Print 256 bytes */
165 db_printf("%016llX %08X %08X %08X %08X %08X %08X %08X %08X\n", addr
, /* Print a line */
166 ((unsigned long *)addr
)[0], ((unsigned long *)addr
)[1], ((unsigned long *)addr
)[2], ((unsigned long *)addr
)[3],
167 ((unsigned long *)addr
)[4], ((unsigned long *)addr
)[5], ((unsigned long *)addr
)[6], ((unsigned long *)addr
)[7]);
168 addr
=(db_expr_t
)(addr
+0x00000020); /* Point to next address */
175 unsigned char xtran
[256] = {
176 /* x0 x1 x2 x3 x4 x5 x6 x7 x8 x9 xA xB xC xD xE xF */
177 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* 0x */
178 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* 1x */
179 ' ', '!', '"', '#', '$', '%', '&',0x27, '(', ')', '*', '+', ',', '-', '.', '/', /* 2x */
180 '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ':', ';', '<', '=', '>', '?', /* 3x */
181 '@', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', /* 4x */
182 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', '[',0x5C, ']', '^', '_', /* 5x */
183 '`', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', /* 6x */
184 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '{', '|', '}', '~', '.', /* 7x */
185 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* 8x */
186 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* 9x */
187 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* Ax */
188 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* Bx */
189 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* Cx */
190 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* Dx */
191 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* Ex */
192 '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', '.', /* Fx */
196 * Print out 256 bytes in characters
201 void db_display_char(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
204 unsigned char xlt
[256], *xaddr
;
206 xaddr
= (unsigned char *)addr
;
209 for(i
= 0; i
< 8; i
++) { /* Print 256 bytes */
211 for(k
= 0; k
< 32; k
++) {
212 xlt
[j
] = xtran
[*xaddr
];
222 db_printf("%016llX %s\n", (addr64_t
)(xaddr
- 32), xlt
); /* Print a line */
225 db_next
= (db_expr_t
)xaddr
;
231 * Print out 256 bytes of real storage
233 * Displays the entry and 15 before it in newest to oldest order
237 void db_display_real(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
240 unsigned int xbuf
[8];
242 for(i
=0; i
<8; i
++) { /* Print 256 bytes */
243 ReadReal(addr
, &xbuf
[0]); /* Get the real storage data */
244 db_printf("%016llX %08X %08X %08X %08X %08X %08X %08X %08X\n", addr
, /* Print a line */
245 xbuf
[0], xbuf
[1], xbuf
[2], xbuf
[3],
246 xbuf
[4], xbuf
[5], xbuf
[6], xbuf
[7]);
247 addr
= addr
+ 0x00000020; /* Point to next address */
252 unsigned int dvspace
= 0;
255 * Print out virtual to real translation information
258 * dm vaddr [space] (defaults to last entered)
260 void db_display_mappings(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
268 if (db_expression(&xspace
)) { /* Get the address space requested */
269 if(xspace
>= maxAdrSp
) {
270 db_printf("requested address space (%llX) larger than max (%X)\n", xspace
, maxAdrSp
- 1);
273 dvspace
= xspace
; /* Get the space or set default */
276 db_printf("mapping information for %016llX in space %8X:\n", addr
, dvspace
);
278 pmap
= pmapTrans
[dvspace
].pmapVAddr
; /* Find the pmap address */
279 if(!pmap
) { /* The pmap is not in use */
280 db_printf("The space %X is not assigned to a pmap\n", dvspace
); /* Say we are wrong */
284 mp
= hw_find_map(pmap
, (addr64_t
)addr
, &lnextva
); /* Try to find the mapping for this address */
285 if((unsigned int)mp
== mapRtBadLk
) { /* Did we lock up ok? */
286 db_printf("Timeout locking physical entry for virtual address %016ll8X\n", addr
);
290 if(!mp
) { /* Did we find one? */
291 db_printf("Not mapped\n");
292 return; /* Didn't find any, return FALSE... */
295 mapping_drop_busy(mp
); /* The mapping shouldn't be changing */
297 db_dumpmapping(mp
); /* Dump it all out */
299 return; /* Tell them we did it */
305 * Print out hash table data
308 * dh vaddr [space] (defaults to last entered)
310 void db_display_hash(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
313 unsigned int seg
, vsid
, ptegindex
, htsize
;
315 addr64_t lnextva
, llva
, vpn
, esid
;
319 llva
= (addr64_t
)((unsigned int)addr
); /* Make sure we are 64-bit now */
321 s4bit
= !((per_proc_info
[0].pf
.Available
& pf64Bit
) == 0); /* Are we a big guy? */
322 if (db_expression(&xspace
)) { /* Get the address space requested */
323 if(xspace
>= maxAdrSp
) {
324 db_printf("requested address space (%llX) larger than max (%X)\n", xspace
, maxAdrSp
- 1);
327 dvspace
= xspace
; /* Get the space or set default */
330 pmap
= pmapTrans
[dvspace
].pmapVAddr
; /* Find the pmap address */
331 if(!pmap
) { /* The pmap is not in use */
332 db_printf("The space %X is not assigned to a pmap\n", dvspace
); /* Say we are wrong */
336 hash
= (uint64_t)pmap
->space
| ((uint64_t)pmap
->space
<< maxAdrSpb
) | ((uint64_t)pmap
->space
<< (2 * maxAdrSpb
)); /* Get hash value */
337 hash
= hash
& 0x0000001FFFFFFFFF; /* Make sure we stay within supported ranges */
339 esid
= ((llva
>> 14) & -maxAdrSp
) ^ hash
; /* Get ESID */
340 llva
= ((llva
>> 12) & 0xFFFF) ^ esid
; /* Get index into hash table */
342 if(s4bit
) htsize
= hash_table_size
>> 7; /* Get number of entries in hash table for 64-bit */
343 else htsize
= hash_table_size
>> 6; /* get number of entries in hash table for 32-bit */
345 ptegindex
= llva
& (htsize
- 1); /* Get the index to the pteg and pca */
346 db_dumppca(ptegindex
); /* dump the info */
348 return; /* Tell them we did it */
354 * Displays all of the in-use pmaps in the system.
358 void db_display_pmap(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
362 unsigned int v0
, v1
, st0
, st1
;
365 if(!have_addr
) pmap
= kernel_pmap
; /* Start at the beginning */
367 db_printf("PMAP (real) Next Prev Space Flags Ref spaceNum Resident Wired\n");
368 // xxxxxxxx rrrrrrrrrrrrrrrr xxxxxxxx pppppppp ssssssss cccccccc vvvvvvvv nnnnnnnn rrrrrrrr wwwwwwwww
369 while(1) { /* Do them all */
370 db_printf("%08X %016llX %08X %08X %08X %08X %08X %08X %08X %08X\n",
371 pmap
, (addr64_t
)pmap
^ pmap
->pmapvr
,
372 pmap
->pmap_link
.next
, pmap
->pmap_link
.prev
,
373 pmap
->space
, pmap
->pmapFlags
, pmap
->ref_count
, pmap
->spaceNum
,
374 pmap
->stats
.resident_count
,
375 pmap
->stats
.wired_count
);
377 db_printf("lists = %d, rand = %08X, visits = %016llX, searches = %08X\n",
378 pmap
->pmapCurLists
, pmap
->pmapRandNum
,
379 pmap
->pmapSearchVisits
, pmap
->pmapSearchCnt
);
381 db_printf("cctl = %08X, SCSubTag = %016llX\n",
382 pmap
->pmapCCtl
, pmap
->pmapSCSubTag
);
384 for(i
= 0; i
< 16; i
+=2) {
385 v0
= (pmap
->pmapCCtl
>> (31 - i
) & 1); /* Get high order bit */
386 v1
= (pmap
->pmapCCtl
>> (30 - i
) & 1); /* Get high order bit */
387 st0
= (pmap
->pmapSCSubTag
>> (60 - (4 * i
))) & 0xF; /* Get the sub-tag */
388 st1
= (pmap
->pmapSCSubTag
>> (56 - (4 * i
))) & 0xF; /* Get the sub-tag */
390 db_printf(" %01X %01X %016llX/%016llX %01X %01X %016llX/%016llX\n",
391 v0
, st0
, pmap
->pmapSegCache
[i
].sgcESID
, pmap
->pmapSegCache
[i
].sgcVSID
,
392 v1
, st1
, pmap
->pmapSegCache
[i
+1].sgcESID
, pmap
->pmapSegCache
[i
+1].sgcVSID
);
396 if(have_addr
) break; /* Do only one if address supplied */
397 pmap
= (pmap_t
)pmap
->pmap_link
.next
; /* Skip to the next */
398 if(pmap
== kernel_pmap
) break; /* We've wrapped, we're done */
405 * Checks the pmap skip lists
410 void db_check_pmaps(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
418 if(!have_addr
) pmap
= kernel_pmap
; /* If no map supplied, start with kernel */
420 while(1) { /* Do them all */
421 ret
= mapSkipListVerifyC(pmap
, &dumpa
); /* Check out the map */
422 if(!ret
) db_printf("Skiplists verified ok, pmap = %08X\n", pmap
);
424 db_printf("Verification failure at %08X, pmap = %08X\n", ret
, pmap
);
425 for(i
= 0; i
< 32; i
+= 4) {
426 db_printf("R%02d %016llX %016llX %016llX %016llX\n", i
,
427 dumpa
[i
], dumpa
[i
+ 1], dumpa
[i
+ 2], dumpa
[i
+ 3]);
430 if(have_addr
) break; /* Do only one if address supplied */
431 pmap
= (pmap_t
)pmap
->pmap_link
.next
; /* Skip to the next */
432 if(pmap
== kernel_pmap
) break; /* We've wrapped, we're done */
441 * Displays iokit junk
446 void db_piokjunk(void);
448 void db_display_iokit(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
456 * Prints out a mapping control block
460 void db_dumpmapping(struct mapping
*mp
) { /* Dump out a mapping */
465 db_printf("Dump of mapping block: %08X, pmap: %08X (%016llX)\n", mp
, pmapTrans
[mp
->mpSpace
].pmapVAddr
,
466 pmapTrans
[mp
->mpSpace
].pmapPAddr
); /* Header */
467 db_printf(" mpFlags: %08X\n", mp
->mpFlags
);
468 db_printf(" mpSpace: %04X\n", mp
->mpSpace
);
469 db_printf(" mpBSize: %04X\n", mp
->mpBSize
);
470 db_printf(" mpPte: %08X\n", mp
->mpPte
);
471 db_printf(" mpPAddr: %08X\n", mp
->mpPAddr
);
472 db_printf(" mpVAddr: %016llX\n", mp
->mpVAddr
);
473 db_printf(" mpAlias: %016llX\n", mp
->mpAlias
);
474 db_printf(" mpList00: %016llX\n", mp
->mpList0
);
476 for(i
= 1; i
< (mp
->mpFlags
& mpLists
); i
++) { /* Dump out secondary physical skip lists */
477 db_printf(" mpList%02d: %016llX\n", i
, mp
->mpList
[i
- 1]);
484 * Prints out a PTEG and PCA
488 void db_dumppca(unsigned int ptegindex
) {
490 addr64_t pteg
, pca
, llva
;
491 unsigned int xpteg
[32], xpca
[8], space
, hash
, pva
, seg
, api
, va
;
493 unsigned long long llslot
, llseg
, llhash
;
495 s4bit
= !((per_proc_info
[0].pf
.Available
& pf64Bit
) == 0); /* Are we a big guy? */
497 pteg
= hash_table_base
+ (ptegindex
<< 6); /* Point to the PTEG */
498 if(s4bit
) pteg
= hash_table_base
+ (ptegindex
<< 7); /* Point to the PTEG */
499 pca
= hash_table_base
- ((ptegindex
+ 1) * 4); /* Point to the PCA */
500 db_printf("PTEG = %016llX, PCA = %016llX (index = %08X)\n", pteg
, pca
, ptegindex
);
502 ReadReal(pteg
, &xpteg
[0]); /* Get first half of the pteg */
503 ReadReal(pteg
+ 0x20, &xpteg
[8]); /* Get second half of the pteg */
504 ReadReal(pca
, &xpca
[0]); /* Get pca */
506 db_printf("PCA: free = %02X, steal = %02X, auto = %02X, misc = %02X\n",
507 ((xpca
[0] >> 24) & 255), ((xpca
[0] >> 16) & 255), ((xpca
[0] >> 8) & 255), xpca
[0] & 255);
509 if(!s4bit
) { /* Little guy? */
511 for(i
= 0; i
< 16; i
+= 2) { /* Step through pteg */
512 db_printf("%08X %08X - ", xpteg
[i
], xpteg
[i
+ 1]); /* Dump the pteg slot */
514 if(xpteg
[i
] & 0x80000000) db_printf(" valid - "); /* Is it valid? */
515 else db_printf("invalid - "); /* Nope, invalid */
517 space
= (xpteg
[i
] >> 7) & (maxAdrSp
- 1); /* Extract the space */
518 hash
= space
| (space
<< maxAdrSpb
) | (space
<< (2 * maxAdrSpb
)); /* Get the hash */
519 pva
= ptegindex
^ hash
; /* Get part of the vaddr */
520 seg
= (xpteg
[i
] >> 7) ^ hash
; /* Get the segment number */
521 api
= (xpteg
[i
] & 0x3F); /* Get the API */
522 va
= ((seg
<< (28 - maxAdrSpb
)) & 0xF0000000) | (api
<< 22) | ((pva
<< 12) & 0x003FF000); /* Get the vaddr */
523 db_printf("va = %08X\n", va
);
527 ReadReal(pteg
+ 0x40, &xpteg
[16]); /* Get third half of the pteg */
528 ReadReal(pteg
+ 0x60, &xpteg
[24]); /* Get fourth half of the pteg */
530 for(i
= 0; i
< 32; i
+= 4) { /* Step through pteg */
531 db_printf("%08X%08X %08X%08X - ", xpteg
[i
], xpteg
[i
+ 1], xpteg
[i
+ 2], xpteg
[i
+ 3]); /* Dump the pteg slot */
533 if(xpteg
[i
+ 1] & 1) db_printf(" valid - "); /* Is it valid? */
534 else db_printf("invalid - "); /* Nope, invalid */
536 llslot
= ((long long)xpteg
[i
] << 32) | (long long)xpteg
[i
+ 1]; /* Make a long long version of this */
537 space
= (llslot
>> 12) & (maxAdrSp
- 1); /* Extract the space */
538 llhash
= (unsigned long long)space
| ((unsigned long long)space
<< maxAdrSpb
) | ((unsigned long long)space
<< (2 * maxAdrSpb
)); /* Get the hash */
539 llhash
= llhash
& 0x0000001FFFFFFFFF; /* Make sure we stay within supported ranges */
540 pva
= (unsigned long long)ptegindex
^ llhash
; /* Get part of the vaddr */
541 llseg
= (llslot
>> 12) ^ llhash
; /* Get the segment number */
542 api
= (llslot
>> 7) & 0x1F; /* Get the API */
543 llva
= ((llseg
<< (28 - maxAdrSpb
)) & 0xFFFFFFFFF0000000ULL
) | (api
<< 23) | ((pva
<< 12) & 0x007FF000); /* Get the vaddr */
544 db_printf("va = %016llX\n", llva
);
553 * Print out 256 bytes of virtual storage
556 * dv [entaddr] [space]
557 * address must be on 32-byte boundary. It will be rounded down if not
559 void db_display_virtual(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
561 int i
, size
, lines
, rlines
;
562 unsigned int xbuf
[8];
570 if (db_expression(&xspace
)) { /* Parse the space ID */
571 if(xspace
>= (1 << maxAdrSpb
)) { /* Check if they gave us a sane space number */
572 db_printf("Invalid space ID: %llX - max is %X\n", xspace
, (1 << maxAdrSpb
) - 1);
575 dvspace
= xspace
; /* Get the space or set default */
578 pmap
= (pmap_t
)pmapTrans
[dvspace
].pmapVAddr
; /* Find the pmap address */
579 if((unsigned int)pmap
== 0) { /* Is there actually a pmap here? */
580 db_printf("Address space not found: %X\n", dvspace
); /* Complain */
586 size
= 4096 - (addr
& 0x00000FFF); /* Bytes left on page */
587 lines
= size
/ 32; /* Number of lines in first or only part */
588 if(lines
> 8) lines
= 8;
590 if(rlines
< 0) lines
= 0;
592 db_printf("Dumping %016llX (pmap = %08X, space = %X); ", addr
, pmap
, dvspace
);
594 pnum
= pmap_find_phys(pmap
, (addr64_t
)addr
); /* Phynd the Physical */
595 if(!pnum
) { /* Did we find one? */
596 db_printf("Not mapped\n");
597 return; /* Didn't find any, return FALSE... */
600 pa
= (addr64_t
)(pnum
<< 12) | (addr64_t
)(addr
& 0xFFF); /* Get the physical address */
601 db_printf("phys = %016llX\n", pa
);
603 for(i
=0; i
<lines
; i
++) { /* Print n bytes */
604 ReadReal(pa
, &xbuf
[0]); /* Get the real storage data */
605 db_printf("%016llX %08X %08X %08X %08X %08X %08X %08X %08X\n", addr
, /* Print a line */
606 xbuf
[0], xbuf
[1], xbuf
[2], xbuf
[3],
607 xbuf
[4], xbuf
[5], xbuf
[6], xbuf
[7]);
608 addr
= (db_expr_t
)((unsigned int)addr
+ 0x00000020); /* Point to next address */
609 pa
= pa
+ 0x00000020; /* Point to next address */
615 db_printf("Dumping %016llX (pmap = %08X, space = %X); ", addr
, pmap
, dvspace
);
617 pnum
= pmap_find_phys(pmap
, (addr64_t
)((unsigned int)addr
)); /* Phynd the Physical */
618 if(!pnum
) { /* Did we find one? */
619 db_printf("Not mapped\n");
620 return; /* Didn't find any, return FALSE... */
623 pa
= (addr64_t
)(pnum
<< 12) | (addr64_t
)((unsigned int)addr
& 0xFFF); /* Get the physical address */
624 db_printf("phys = %016llX\n", pa
);
626 for(i
=0; i
<rlines
; i
++) { /* Print n bytes */
627 ReadReal(pa
, &xbuf
[0]); /* Get the real storage data */
628 db_printf("%016llX %08X %08X %08X %08X %08X %08X %08X %08X\n", addr
, /* Print a line */
629 xbuf
[0], xbuf
[1], xbuf
[2], xbuf
[3],
630 xbuf
[4], xbuf
[5], xbuf
[6], xbuf
[7]);
631 addr
= (db_expr_t
)(addr
+ 0x00000020); /* Point to next address */
632 pa
= pa
+ 0x00000020; /* Point to next address */
641 * Print out savearea stuff
649 void db_display_save(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
651 int i
, j
, totsaves
, tottasks
, taskact
, chainsize
, vmid
, didvmhead
;
652 processor_set_t pset
= &default_pset
;
656 vmmCntrlTable
*CTable
;
661 for(task
= (task_t
)pset
->tasks
.next
; task
!= (task_t
)&pset
->tasks
.next
; task
= (task_t
)task
->pset_tasks
.next
) { /* Go through the tasks */
662 taskact
= 0; /* Reset activation count */
663 db_printf("\nTask %4d @%08X:\n", tottasks
, task
); /* Show where we're at */
664 for(act
= (thread_act_t
)task
->threads
.next
; act
!= (thread_act_t
)&task
->threads
; act
= (thread_act_t
)act
->task_threads
.next
) { /* Go through activations */
665 db_printf(" Act %4d @%08X - p: %08X current context: %08X\n",
666 taskact
, act
, act
->mact
.pcb
, act
->mact
.curctx
);
668 save
= (savearea
*)act
->mact
.pcb
; /* Set the start of the normal chain */
671 db_printf(" General context - fp: %08X fl: %08X fc: %d vp: %08X vl: %08X vp: %d\n",
672 act
->mact
.facctx
.FPUsave
, act
->mact
.facctx
.FPUlevel
, act
->mact
.facctx
.FPUcpu
,
673 act
->mact
.facctx
.VMXsave
, act
->mact
.facctx
.VMXlevel
, act
->mact
.facctx
.VMXcpu
);
675 while(save
) { /* Do them all */
676 totsaves
++; /* Count savearea */
677 db_printf(" Norm %08X: %016llX %016llX - tot = %d\n", save
, save
->save_srr0
, save
->save_srr1
, totsaves
);
678 save
= (savearea
*)save
->save_hdr
.save_prev
; /* Next one */
679 if(chainsize
++ > chainmax
) { /* See if we might be in a loop */
680 db_printf(" Chain terminated by count (%d) before %08X\n", chainmax
, save
);
685 save
= (savearea
*)act
->mact
.facctx
.FPUsave
; /* Set the start of the floating point chain */
687 while(save
) { /* Do them all */
688 totsaves
++; /* Count savearea */
689 db_printf(" FPU %08X: %08X - tot = %d\n", save
, save
->save_hdr
.save_level
, totsaves
);
690 save
= (savearea
*)save
->save_hdr
.save_prev
; /* Next one */
691 if(chainsize
++ > chainmax
) { /* See if we might be in a loop */
692 db_printf(" Chain terminated by count (%d) before %08X\n", chainmax
, save
);
697 save
= (savearea
*)act
->mact
.facctx
.VMXsave
; /* Set the start of the floating point chain */
699 while(save
) { /* Do them all */
700 totsaves
++; /* Count savearea */
701 db_printf(" Vec %08X: %08X - tot = %d\n", save
, save
->save_hdr
.save_level
, totsaves
);
702 save
= (savearea
*)save
->save_hdr
.save_prev
; /* Next one */
703 if(chainsize
++ > chainmax
) { /* See if we might be in a loop */
704 db_printf(" Chain terminated by count (%d) before %08X\n", chainmax
, save
);
709 if(CTable
= act
->mact
.vmmControl
) { /* Are there virtual machines? */
711 for(vmid
= 0; vmid
< kVmmMaxContexts
; vmid
++) {
713 if(!(CTable
->vmmc
[vmid
].vmmFlags
& vmmInUse
)) continue; /* Skip if vm is not in use */
715 if(!CTable
->vmmc
[vmid
].vmmFacCtx
.FPUsave
&& !CTable
->vmmc
[vmid
].vmmFacCtx
.VMXsave
) continue; /* If neither types, skip this vm */
717 db_printf(" VMachine ID %3d - fp: %08X fl: %08X fc: %d vp: %08X vl: %08X vp: %d\n", vmid
, /* Title it */
718 CTable
->vmmc
[vmid
].vmmFacCtx
.FPUsave
, CTable
->vmmc
[vmid
].vmmFacCtx
.FPUlevel
, CTable
->vmmc
[vmid
].vmmFacCtx
.FPUcpu
,
719 CTable
->vmmc
[vmid
].vmmFacCtx
.VMXsave
, CTable
->vmmc
[vmid
].vmmFacCtx
.VMXlevel
, CTable
->vmmc
[vmid
].vmmFacCtx
.VMXcpu
722 save
= (savearea
*)CTable
->vmmc
[vmid
].vmmFacCtx
.FPUsave
; /* Set the start of the floating point chain */
724 while(save
) { /* Do them all */
725 totsaves
++; /* Count savearea */
726 db_printf(" FPU %08X: %08X - tot = %d\n", save
, save
->save_hdr
.save_level
, totsaves
);
727 save
= (savearea
*)save
->save_hdr
.save_prev
; /* Next one */
728 if(chainsize
++ > chainmax
) { /* See if we might be in a loop */
729 db_printf(" Chain terminated by count (%d) before %08X\n", chainmax
, save
);
734 save
= (savearea
*)CTable
->vmmc
[vmid
].vmmFacCtx
.VMXsave
; /* Set the start of the floating point chain */
736 while(save
) { /* Do them all */
737 totsaves
++; /* Count savearea */
738 db_printf(" Vec %08X: %08X - tot = %d\n", save
, save
->save_hdr
.save_level
, totsaves
);
739 save
= (savearea
*)save
->save_hdr
.save_prev
; /* Next one */
740 if(chainsize
++ > chainmax
) { /* See if we might be in a loop */
741 db_printf(" Chain terminated by count (%d) before %08X\n", chainmax
, save
);
752 db_printf("Total saveareas accounted for: %d\n", totsaves
);
757 * Print out extra registers
763 extern unsigned int dbfloats
[33][2];
764 extern unsigned int dbvecs
[33][4];
765 extern unsigned int dbspecrs
[80];
767 void db_display_xregs(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
771 stSpecrs(dbspecrs
); /* Save special registers */
772 db_printf("PIR: %08X\n", dbspecrs
[0]);
773 db_printf("PVR: %08X\n", dbspecrs
[1]);
774 db_printf("SDR1: %08X\n", dbspecrs
[22]);
775 db_printf("HID0: %08X\n", dbspecrs
[39]);
776 db_printf("HID1: %08X\n", dbspecrs
[40]);
777 db_printf("L2CR: %08X\n", dbspecrs
[41]);
778 db_printf("MSSCR0: %08X\n", dbspecrs
[42]);
779 db_printf("MSSCR1: %08X\n", dbspecrs
[43]);
780 db_printf("THRM1: %08X\n", dbspecrs
[44]);
781 db_printf("THRM2: %08X\n", dbspecrs
[45]);
782 db_printf("THRM3: %08X\n", dbspecrs
[46]);
783 db_printf("ICTC: %08X\n", dbspecrs
[47]);
784 db_printf("L2CR2: %08X\n", dbspecrs
[48]);
785 db_printf("DABR: %08X\n", dbspecrs
[49]);
788 db_printf("DBAT: %08X %08X %08X %08X\n", dbspecrs
[2], dbspecrs
[3], dbspecrs
[4], dbspecrs
[5]);
789 db_printf(" %08X %08X %08X %08X\n", dbspecrs
[6], dbspecrs
[7], dbspecrs
[8], dbspecrs
[9]);
790 db_printf("IBAT: %08X %08X %08X %08X\n", dbspecrs
[10], dbspecrs
[11], dbspecrs
[12], dbspecrs
[13]);
791 db_printf(" %08X %08X %08X %08X\n", dbspecrs
[14], dbspecrs
[15], dbspecrs
[16], dbspecrs
[17]);
792 db_printf("SPRG: %08X %08X %08X %08X\n", dbspecrs
[18], dbspecrs
[19], dbspecrs
[20], dbspecrs
[21]);
794 for(i
= 0; i
< 16; i
+= 8) { /* Print 8 at a time */
795 db_printf("SR%02d: %08X %08X %08X %08X %08X %08X %08X %08X\n", i
,
796 dbspecrs
[23+i
], dbspecrs
[24+i
], dbspecrs
[25+i
], dbspecrs
[26+i
],
797 dbspecrs
[27+i
], dbspecrs
[28+i
], dbspecrs
[29+i
], dbspecrs
[30+i
]);
802 stFloat(dbfloats
); /* Save floating point registers */
803 for(i
= 0; i
< 32; i
+= 4) { /* Print 4 at a time */
804 db_printf("F%02d: %08X %08X %08X %08X %08X %08X %08X %08X\n", i
,
805 dbfloats
[i
][0], dbfloats
[i
][1], dbfloats
[i
+1][0], dbfloats
[i
+1][1],
806 dbfloats
[i
+2][0], dbfloats
[i
+2][1], dbfloats
[i
+3][0], dbfloats
[i
+3][1]);
808 db_printf("FCR: %08X %08X\n", dbfloats
[32][0], dbfloats
[32][1]); /* Print FSCR */
810 if(!stVectors(dbvecs
)) return; /* Return if not Altivec capable */
814 for(i
= 0; i
< 32; i
+= 2) { /* Print 2 at a time */
815 db_printf("V%02d: %08X %08X %08X %08X %08X %08X %08X %08X\n", i
,
816 dbvecs
[i
][0], dbvecs
[i
][1], dbvecs
[i
][2], dbvecs
[i
][3],
817 dbvecs
[i
+1][0], dbvecs
[i
+1][1], dbvecs
[i
+1][2], dbvecs
[i
+1][3]);
819 db_printf("VCR: %08X %08X %08X %08X\n", dbvecs
[32][0], dbvecs
[32][1], dbvecs
[32][2], dbvecs
[32][3]); /* Print VSCR */
821 return; /* Tell them we did it */
827 * Check check mappings and hash table for consistency
831 void db_check_mappings(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
833 addr64_t pteg
, pca
, llva
, lnextva
;
834 unsigned int xpteg
[32], xpca
[8], space
, hash
, pva
, seg
, api
, va
, free
, free2
, xauto
, PTEGcnt
, wimgkk
, wimgxx
, slotoff
;
835 int i
, j
, fnderr
, slot
, slot2
, k
, s4bit
;
838 ppnum_t ppn
, pa
, aoff
;
839 unsigned long long llslot
, llseg
, llhash
;
841 s4bit
= 0; /* Assume dinky? */
842 if(per_proc_info
[0].pf
.Available
& pf64Bit
) s4bit
= 1; /* Are we a big guy? */
844 PTEGcnt
= hash_table_size
/ 64; /* Get the number of PTEGS */
845 if(s4bit
) PTEGcnt
= PTEGcnt
/ 2; /* PTEGs are twice as big */
847 pteg
= hash_table_base
; /* Start of hash table */
848 pca
= hash_table_base
- 4; /* Start of PCA */
850 for(i
= 0; i
< PTEGcnt
; i
++) { /* Step through them all */
854 ReadReal(pteg
, &xpteg
[0]); /* Get first half of the pteg */
855 ReadReal(pteg
+ 0x20, &xpteg
[8]); /* Get second half of the pteg */
856 if(s4bit
) { /* See if we need the other half */
857 ReadReal(pteg
+ 0x40, &xpteg
[16]); /* Get third half of the pteg */
858 ReadReal(pteg
+ 0x60, &xpteg
[24]); /* Get fourth half of the pteg */
860 ReadReal(pca
, &xpca
[0]); /* Get pca */
862 if(xpca
[0] & 0x00000001) { /* Is PCA locked? */
863 db_printf("Unexpected locked PCA\n"); /* Yeah, this may be bad */
864 fnderr
= 1; /* Remember to print the pca/pteg pair later */
869 for(j
= 0; j
< 7; j
++) { /* Search for duplicates */
870 slot
= j
* 2; /* Point to the slot */
871 if(s4bit
) slot
= slot
* 2; /* Adjust for bigger slots */
872 if(!(xpca
[0] & free
)) { /* Check more if slot is allocated */
873 for(k
= j
+ 1; k
< 8; k
++) { /* Search remaining slots */
874 slot2
= k
* 2; /* Point to the slot */
875 if(s4bit
) slot2
= slot2
* 2; /* Adjust for bigger slots */
876 if((xpteg
[slot
] == xpteg
[slot2
])
877 && (!s4bit
|| (xpteg
[slot
+ 1] == xpteg
[slot2
+ 1]))) { /* Do we have duplicates? */
878 db_printf("Duplicate tags in pteg, slot %d and slot %d\n", j
, k
);
883 free
= free
>> 1; /* Move slot over */
889 for(j
= 0; j
< 8; j
++) { /* Step through the slots */
891 slot
= j
* 2; /* Point to the slot */
892 if(s4bit
) slot
= slot
* 2; /* Hagfish? */
893 if(xpca
[0] & free
) { /* Check if marked free */
894 if((!s4bit
&& (xpteg
[slot
] & 0x80000000)) /* Is a supposedly free slot valid? */
895 || (s4bit
&& (xpteg
[slot
+ 1] & 1))) {
896 db_printf("Free slot still valid - %d\n", j
);
900 else { /* We have an in use slot here */
902 if(!(!s4bit
&& (xpteg
[slot
] & 0x80000000)) /* Is a supposedly in use slot valid? */
903 && !(s4bit
&& (xpteg
[slot
+ 1] & 1))) {
904 db_printf("Inuse slot not valid - %d\n", j
);
907 else { /* Slot is valid, check mapping */
908 if(!s4bit
) { /* Not Hagfish? */
909 space
= (xpteg
[slot
] >> 7) & (maxAdrSp
- 1); /* Extract the space */
910 hash
= space
| (space
<< maxAdrSpb
) | (space
<< (2 * maxAdrSpb
)); /* Get the hash */
911 pva
= i
^ hash
; /* Get part of the vaddr */
912 seg
= (xpteg
[slot
] >> 7) ^ hash
; /* Get the segment number */
913 api
= (xpteg
[slot
] & 0x3F); /* Get the API */
914 va
= ((seg
<< (28 - maxAdrSpb
)) & 0xF0000000) | (api
<< 22) | ((pva
<< 12) & 0x003FF000); /* Get the vaddr */
915 llva
= (addr64_t
)va
; /* Make this a long long */
916 wimgxx
= xpteg
[slot
+ 1] & 0x7F; /* Get the wimg and pp */
917 ppn
= xpteg
[slot
+ 1] >> 12; /* Get physical page number */
918 slotoff
= (i
* 64) + (j
* 8) | 1; /* Get offset to slot and valid bit */
920 else { /* Yes, Hagfish */
921 llslot
= ((long long)xpteg
[slot
] << 32) | (long long)xpteg
[slot
+ 1]; /* Make a long long version of this */
922 space
= (llslot
>> 12) & (maxAdrSp
- 1); /* Extract the space */
923 llhash
= (unsigned long long)space
| ((unsigned long long)space
<< maxAdrSpb
) | ((unsigned long long)space
<< (2 * maxAdrSpb
)); /* Get the hash */
924 llhash
= llhash
& 0x0000001FFFFFFFFF; /* Make sure we stay within supported ranges */
925 pva
= i
^ llhash
; /* Get part of the vaddr */
926 llseg
= ((llslot
>> 12) ^ llhash
); /* Get the segment number */
927 api
= (llslot
>> 7) & 0x1F; /* Get the API */
928 llva
= ((llseg
<< (28 - maxAdrSpb
)) & 0xFFFFFFFFF0000000ULL
) | (api
<< 23) | ((pva
<< 12) & 0x007FF000); /* Get the vaddr */
929 wimgxx
= xpteg
[slot
+ 3] & 0x7F; /* Get the wimg and pp */
930 ppn
= (xpteg
[slot
+ 2] << 20) | (xpteg
[slot
+ 3] >> 12); /* Get physical page number */
931 slotoff
= (i
* 128) + (j
* 16) | 1; /* Get offset to slot and valid bit */
934 pmap
= pmapTrans
[space
].pmapVAddr
; /* Find the pmap address */
935 if(!pmap
) { /* The pmap is not in use */
936 db_printf("The space %08X is not assigned to a pmap, slot = %d\n", space
, slot
); /* Say we are wrong */
941 mp
= hw_find_map(pmap
, llva
, &lnextva
); /* Try to find the mapping for this address */
942 // db_printf("%08X - %017llX\n", mp, llva);
943 if((unsigned int)mp
== mapRtBadLk
) { /* Did we lock up ok? */
944 db_printf("Timeout locking mapping for for virtual address %016ll8X, slot = %d\n", llva
, j
);
948 if(!mp
) { /* Did we find one? */
949 db_printf("Not mapped, slot = %d, va = %08X\n", j
, (unsigned int)llva
);
954 if((mp
->mpFlags
& 0xFF000000) > 0x01000000) { /* Is busy count too high? */
955 db_printf("Busy count too high, slot = %d\n", j
);
959 if(mp
->mpFlags
& mpBlock
) { /* Is this a block map? */
960 if(!(xpca
[0] & xauto
)) { /* Is it marked as such? */
961 db_printf("mapping marked as block, PCA is not, slot = %d\n", j
);
965 else { /* Is a block */
966 if(xpca
[0] & xauto
) { /* Is it marked as such? */
967 db_printf("mapping not marked as block, PCA is, slot = %d\n", j
);
970 if(mp
->mpPte
!= slotoff
) { /* See if mapping PTEG offset is us */
971 db_printf("mapping does not point to PTE, slot = %d\n", j
);
976 wimgkk
= (unsigned int)mp
->mpVAddr
; /* Get last half of vaddr where keys, etc are */
977 wimgkk
= (wimgkk
^ wimgxx
) & 0x7F; /* XOR to find differences from PTE */
978 if(wimgkk
) { /* See if key in PTE is what we want */
979 db_printf("key or WIMG does not match, slot = %d\n", j
);
983 aoff
= (ppnum_t
)((llva
>> 12) - (mp
->mpVAddr
>> 12)); /* Get the offset from vaddr */
984 pa
= aoff
+ mp
->mpPAddr
; /* Get the physical page number we expect */
985 if(pa
!= ppn
) { /* Is physical address expected? */
986 db_printf("Physical address does not match, slot = %d\n", j
);
990 mapping_drop_busy(mp
); /* We're done with the mapping */
1000 if(fnderr
)db_dumppca(i
); /* Print if error */
1002 pteg
= pteg
+ 64; /* Go to the next one */
1003 if(s4bit
) pteg
= pteg
+ 64; /* Hagfish? */
1004 pca
= pca
- 4; /* Go to the next one */
1013 * Displays all of the kmods in the system.
1017 void db_display_kmod(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
1020 unsigned int strt
, end
;
1022 kmd
= kmod
; /* Start at the start */
1024 db_printf("info addr start - end name ver\n");
1026 while(kmd
) { /* Dump 'em all */
1027 strt
= (unsigned int)kmd
->address
+ kmd
->hdr_size
; /* Get start of kmod text */
1028 end
= (unsigned int)kmd
->address
+ kmd
->size
; /* Get end of kmod */
1029 db_printf("%08X %08X %08X - %08X: %s, %s\n", kmd
, kmd
->address
, strt
, end
,
1030 kmd
->name
, kmd
->version
);
1031 kmd
= kmd
->next
; /* Step to it */
1042 unsigned char xxgpo
[36] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
1044 void db_gsnoop(db_expr_t addr
, int have_addr
, db_expr_t count
, char * modif
) {
1047 unsigned char *gp
, gpn
[36];
1050 gp
= (unsigned char *)0x8000005C;
1052 for(i
= 0; i
< ngpr
; i
++) gpn
[i
] = gp
[i
]; /* Copy 'em */
1054 for(i
= 0; i
< ngpr
; i
++) {
1055 db_printf("%02X ", gpn
[i
]);
1059 for(i
= 0; i
< ngpr
; i
++) {
1060 if(gpn
[i
] != xxgpo
[i
]) db_printf("^^ ");
1061 else db_printf(" ");
1065 for(i
= 0; i
< ngpr
; i
++) xxgpo
[i
] = gpn
[i
]; /* Save 'em */