xref: /openbmc/qemu/contrib/elf2dmp/main.c (revision 2e1cacfb)
1 /*
2  * Copyright (c) 2018 Virtuozzo International GmbH
3  *
4  * This work is licensed under the terms of the GNU GPL, version 2 or later.
5  *
6  */
7 
8 #include "qemu/osdep.h"
9 #include "qemu/bitops.h"
10 
11 #include "err.h"
12 #include "addrspace.h"
13 #include "pe.h"
14 #include "pdb.h"
15 #include "kdbg.h"
16 #include "download.h"
17 #include "qemu/win_dump_defs.h"
18 
19 #define SYM_URL_BASE    "https://msdl.microsoft.com/download/symbols/"
20 #define PDB_NAME    "ntkrnlmp.pdb"
21 #define PE_NAME     "ntoskrnl.exe"
22 
23 #define INITIAL_MXCSR   0x1f80
24 #define MAX_NUMBER_OF_RUNS  42
25 
26 typedef struct idt_desc {
27     uint16_t offset1;   /* offset bits 0..15 */
28     uint16_t selector;
29     uint8_t ist;
30     uint8_t type_attr;
31     uint16_t offset2;   /* offset bits 16..31 */
32     uint32_t offset3;   /* offset bits 32..63 */
33     uint32_t rsrvd;
34 } __attribute__ ((packed)) idt_desc_t;
35 
36 static uint64_t idt_desc_addr(idt_desc_t desc)
37 {
38     return (uint64_t)desc.offset1 | ((uint64_t)desc.offset2 << 16) |
39           ((uint64_t)desc.offset3 << 32);
40 }
41 
42 static const uint64_t SharedUserData = 0xfffff78000000000;
43 
44 #define KUSD_OFFSET_SUITE_MASK 0x2d0
45 #define KUSD_OFFSET_PRODUCT_TYPE 0x264
46 
47 #define SYM_RESOLVE(base, r, s) ((s = pdb_resolve(base, r, #s)),\
48     s ? printf(#s" = 0x%016"PRIx64"\n", s) :\
49     eprintf("Failed to resolve "#s"\n"), s)
50 
51 /*
52  * Decoding algorithm can be found in Volatility project
53  */
54 static void kdbg_decode(uint64_t *dst, uint64_t *src, size_t size,
55         uint64_t kwn, uint64_t kwa, uint64_t kdbe)
56 {
57     size_t i;
58     assert(size % sizeof(uint64_t) == 0);
59     for (i = 0; i < size / sizeof(uint64_t); i++) {
60         uint64_t block;
61 
62         block = src[i];
63         block = rol64(block ^ kwn, kwn);
64         block = __builtin_bswap64(block ^ kdbe) ^ kwa;
65         dst[i] = block;
66     }
67 }
68 
69 static KDDEBUGGER_DATA64 *get_kdbg(uint64_t KernBase, struct pdb_reader *pdb,
70         struct va_space *vs, uint64_t KdDebuggerDataBlock)
71 {
72     const char OwnerTag[4] = "KDBG";
73     KDDEBUGGER_DATA64 *kdbg = NULL;
74     DBGKD_DEBUG_DATA_HEADER64 kdbg_hdr;
75     bool decode = false;
76     uint64_t kwn, kwa, KdpDataBlockEncoded;
77 
78     if (!va_space_rw(vs,
79                      KdDebuggerDataBlock + offsetof(KDDEBUGGER_DATA64, Header),
80                      &kdbg_hdr, sizeof(kdbg_hdr), 0)) {
81         eprintf("Failed to extract KDBG header\n");
82         return NULL;
83     }
84 
85     if (memcmp(&kdbg_hdr.OwnerTag, OwnerTag, sizeof(OwnerTag))) {
86         uint64_t KiWaitNever, KiWaitAlways;
87 
88         decode = true;
89 
90         if (!SYM_RESOLVE(KernBase, pdb, KiWaitNever) ||
91                 !SYM_RESOLVE(KernBase, pdb, KiWaitAlways) ||
92                 !SYM_RESOLVE(KernBase, pdb, KdpDataBlockEncoded)) {
93             return NULL;
94         }
95 
96         if (!va_space_rw(vs, KiWaitNever, &kwn, sizeof(kwn), 0) ||
97             !va_space_rw(vs, KiWaitAlways, &kwa, sizeof(kwa), 0)) {
98             return NULL;
99         }
100 
101         printf("[KiWaitNever] = 0x%016"PRIx64"\n", kwn);
102         printf("[KiWaitAlways] = 0x%016"PRIx64"\n", kwa);
103 
104         /*
105          * If KDBG header can be decoded, KDBG size is available
106          * and entire KDBG can be decoded.
107          */
108         printf("Decoding KDBG header...\n");
109         kdbg_decode((uint64_t *)&kdbg_hdr, (uint64_t *)&kdbg_hdr,
110                 sizeof(kdbg_hdr), kwn, kwa, KdpDataBlockEncoded);
111 
112         printf("Owner tag is \'%.4s\'\n", (char *)&kdbg_hdr.OwnerTag);
113         if (memcmp(&kdbg_hdr.OwnerTag, OwnerTag, sizeof(OwnerTag))) {
114             eprintf("Failed to decode KDBG header\n");
115             return NULL;
116         }
117     }
118 
119     kdbg = g_malloc(kdbg_hdr.Size);
120 
121     if (!va_space_rw(vs, KdDebuggerDataBlock, kdbg, kdbg_hdr.Size, 0)) {
122         eprintf("Failed to extract entire KDBG\n");
123         g_free(kdbg);
124         return NULL;
125     }
126 
127     if (!decode) {
128         return kdbg;
129     }
130 
131     printf("Decoding KdDebuggerDataBlock...\n");
132     kdbg_decode((uint64_t *)kdbg, (uint64_t *)kdbg, kdbg_hdr.Size,
133                 kwn, kwa, KdpDataBlockEncoded);
134 
135     va_space_rw(vs, KdDebuggerDataBlock, kdbg, kdbg_hdr.Size, 1);
136 
137     return kdbg;
138 }
139 
140 static void win_context_init_from_qemu_cpu_state(WinContext64 *ctx,
141         QEMUCPUState *s)
142 {
143     WinContext64 win_ctx = (WinContext64){
144         .ContextFlags = WIN_CTX_X64 | WIN_CTX_INT | WIN_CTX_SEG | WIN_CTX_CTL,
145         .MxCsr = INITIAL_MXCSR,
146 
147         .SegCs = s->cs.selector,
148         .SegSs = s->ss.selector,
149         .SegDs = s->ds.selector,
150         .SegEs = s->es.selector,
151         .SegFs = s->fs.selector,
152         .SegGs = s->gs.selector,
153         .EFlags = (uint32_t)s->rflags,
154 
155         .Rax = s->rax,
156         .Rbx = s->rbx,
157         .Rcx = s->rcx,
158         .Rdx = s->rdx,
159         .Rsp = s->rsp,
160         .Rbp = s->rbp,
161         .Rsi = s->rsi,
162         .Rdi = s->rdi,
163         .R8  = s->r8,
164         .R9  = s->r9,
165         .R10 = s->r10,
166         .R11 = s->r11,
167         .R12 = s->r12,
168         .R13 = s->r13,
169         .R14 = s->r14,
170         .R15 = s->r15,
171 
172         .Rip = s->rip,
173         .FltSave = {
174             .MxCsr = INITIAL_MXCSR,
175         },
176     };
177 
178     *ctx = win_ctx;
179 }
180 
181 /*
182  * Finds paging-structure hierarchy base,
183  * if previously set doesn't give access to kernel structures
184  */
185 static bool fix_dtb(struct va_space *vs, QEMU_Elf *qe)
186 {
187     /*
188      * Firstly, test previously set DTB.
189      */
190     if (va_space_resolve(vs, SharedUserData)) {
191         return true;
192     }
193 
194     /*
195      * Secondly, find CPU which run system task.
196      */
197     size_t i;
198     for (i = 0; i < qe->state_nr; i++) {
199         QEMUCPUState *s = qe->state[i];
200 
201         if (is_system(s)) {
202             va_space_set_dtb(vs, s->cr[3]);
203             printf("DTB 0x%016"PRIx64" has been found from CPU #%zu"
204                     " as system task CR3\n", vs->dtb, i);
205             return va_space_resolve(vs, SharedUserData);
206         }
207     }
208 
209     /*
210      * Thirdly, use KERNEL_GS_BASE from CPU #0 as PRCB address and
211      * CR3 as [Prcb+0x7000]
212      */
213     if (qe->has_kernel_gs_base) {
214         QEMUCPUState *s = qe->state[0];
215         uint64_t Prcb = s->kernel_gs_base;
216         uint64_t *cr3 = va_space_resolve(vs, Prcb + 0x7000);
217 
218         if (!cr3) {
219             return false;
220         }
221 
222         va_space_set_dtb(vs, *cr3);
223         printf("DirectoryTableBase = 0x%016"PRIx64" has been found from CPU #0"
224                 " as interrupt handling CR3\n", vs->dtb);
225         return va_space_resolve(vs, SharedUserData);
226     }
227 
228     return true;
229 }
230 
231 static void try_merge_runs(struct pa_space *ps,
232         WinDumpPhyMemDesc64 *PhysicalMemoryBlock)
233 {
234     unsigned int merge_cnt = 0, run_idx = 0;
235 
236     PhysicalMemoryBlock->NumberOfRuns = 0;
237 
238     for (size_t idx = 0; idx < ps->block_nr; idx++) {
239         struct pa_block *blk = ps->block + idx;
240         struct pa_block *next = blk + 1;
241 
242         PhysicalMemoryBlock->NumberOfPages += blk->size / ELF2DMP_PAGE_SIZE;
243 
244         if (idx + 1 != ps->block_nr && blk->paddr + blk->size == next->paddr) {
245             printf("Block #%zu 0x%"PRIx64"+:0x%"PRIx64" and %u previous will be"
246                     " merged\n", idx, blk->paddr, blk->size, merge_cnt);
247             merge_cnt++;
248         } else {
249             struct pa_block *first_merged = blk - merge_cnt;
250 
251             printf("Block #%zu 0x%"PRIx64"+:0x%"PRIx64" and %u previous will be"
252                     " merged to 0x%"PRIx64"+:0x%"PRIx64" (run #%u)\n",
253                     idx, blk->paddr, blk->size, merge_cnt, first_merged->paddr,
254                     blk->paddr + blk->size - first_merged->paddr, run_idx);
255             PhysicalMemoryBlock->Run[run_idx] = (WinDumpPhyMemRun64) {
256                 .BasePage = first_merged->paddr / ELF2DMP_PAGE_SIZE,
257                 .PageCount = (blk->paddr + blk->size - first_merged->paddr) /
258                         ELF2DMP_PAGE_SIZE,
259             };
260             PhysicalMemoryBlock->NumberOfRuns++;
261             run_idx++;
262             merge_cnt = 0;
263         }
264     }
265 }
266 
267 static bool fill_header(WinDumpHeader64 *hdr, struct pa_space *ps,
268                         struct va_space *vs, uint64_t KdDebuggerDataBlock,
269                         KDDEBUGGER_DATA64 *kdbg, uint64_t KdVersionBlock,
270                         int nr_cpus)
271 {
272     uint32_t *suite_mask = va_space_resolve(vs, SharedUserData +
273             KUSD_OFFSET_SUITE_MASK);
274     int32_t *product_type = va_space_resolve(vs, SharedUserData +
275             KUSD_OFFSET_PRODUCT_TYPE);
276     DBGKD_GET_VERSION64 kvb;
277     WinDumpHeader64 h;
278 
279     QEMU_BUILD_BUG_ON(KUSD_OFFSET_SUITE_MASK >= ELF2DMP_PAGE_SIZE);
280     QEMU_BUILD_BUG_ON(KUSD_OFFSET_PRODUCT_TYPE >= ELF2DMP_PAGE_SIZE);
281 
282     if (!suite_mask || !product_type) {
283         return false;
284     }
285 
286     if (!va_space_rw(vs, KdVersionBlock, &kvb, sizeof(kvb), 0)) {
287         eprintf("Failed to extract KdVersionBlock\n");
288         return false;
289     }
290 
291     h = (WinDumpHeader64) {
292         .Signature = "PAGE",
293         .ValidDump = "DU64",
294         .MajorVersion = kvb.MajorVersion,
295         .MinorVersion = kvb.MinorVersion,
296         .DirectoryTableBase = vs->dtb,
297         .PfnDatabase = kdbg->MmPfnDatabase,
298         .PsLoadedModuleList = kdbg->PsLoadedModuleList,
299         .PsActiveProcessHead = kdbg->PsActiveProcessHead,
300         .MachineImageType = kvb.MachineType,
301         .NumberProcessors = nr_cpus,
302         .BugcheckCode = LIVE_SYSTEM_DUMP,
303         .KdDebuggerDataBlock = KdDebuggerDataBlock,
304         .DumpType = 1,
305         .Comment = "Hello from elf2dmp!",
306         .SuiteMask = *suite_mask,
307         .ProductType = *product_type,
308         .SecondaryDataState = kvb.KdSecondaryVersion,
309         .PhysicalMemoryBlock = (WinDumpPhyMemDesc64) {
310             .NumberOfRuns = ps->block_nr,
311         },
312         .RequiredDumpSpace = sizeof(h),
313     };
314 
315     if (h.PhysicalMemoryBlock.NumberOfRuns <= MAX_NUMBER_OF_RUNS) {
316         for (size_t idx = 0; idx < ps->block_nr; idx++) {
317             h.PhysicalMemoryBlock.NumberOfPages +=
318                     ps->block[idx].size / ELF2DMP_PAGE_SIZE;
319             h.PhysicalMemoryBlock.Run[idx] = (WinDumpPhyMemRun64) {
320                 .BasePage = ps->block[idx].paddr / ELF2DMP_PAGE_SIZE,
321                 .PageCount = ps->block[idx].size / ELF2DMP_PAGE_SIZE,
322             };
323         }
324     } else {
325         try_merge_runs(ps, &h.PhysicalMemoryBlock);
326     }
327 
328     h.RequiredDumpSpace +=
329             h.PhysicalMemoryBlock.NumberOfPages << ELF2DMP_PAGE_BITS;
330 
331     *hdr = h;
332 
333     return true;
334 }
335 
336 /*
337  * fill_context() continues even if it fails to fill contexts of some CPUs.
338  * A dump may still contain valuable information even if it lacks contexts of
339  * some CPUs due to dump corruption or a failure before starting CPUs.
340  */
341 static void fill_context(KDDEBUGGER_DATA64 *kdbg,
342                          struct va_space *vs, QEMU_Elf *qe)
343 {
344     int i;
345 
346     for (i = 0; i < qe->state_nr; i++) {
347         uint64_t Prcb;
348         uint64_t Context;
349         WinContext64 ctx;
350         QEMUCPUState *s = qe->state[i];
351 
352         if (!va_space_rw(vs, kdbg->KiProcessorBlock + sizeof(Prcb) * i,
353                          &Prcb, sizeof(Prcb), 0)) {
354             eprintf("Failed to read CPU #%d PRCB location\n", i);
355             continue;
356         }
357 
358         if (!Prcb) {
359             eprintf("Context for CPU #%d is missing\n", i);
360             continue;
361         }
362 
363         if (!va_space_rw(vs, Prcb + kdbg->OffsetPrcbContext,
364                          &Context, sizeof(Context), 0)) {
365             eprintf("Failed to read CPU #%d ContextFrame location\n", i);
366             continue;
367         }
368 
369         printf("Filling context for CPU #%d...\n", i);
370         win_context_init_from_qemu_cpu_state(&ctx, s);
371 
372         if (!va_space_rw(vs, Context, &ctx, sizeof(ctx), 1)) {
373             eprintf("Failed to fill CPU #%d context\n", i);
374             continue;
375         }
376     }
377 }
378 
379 static bool pe_get_data_dir_entry(uint64_t base, void *start_addr, int idx,
380                                   void *entry, size_t size, struct va_space *vs)
381 {
382     const char e_magic[2] = "MZ";
383     const char Signature[4] = "PE\0\0";
384     IMAGE_DOS_HEADER *dos_hdr = start_addr;
385     IMAGE_NT_HEADERS64 nt_hdrs;
386     IMAGE_FILE_HEADER *file_hdr = &nt_hdrs.FileHeader;
387     IMAGE_OPTIONAL_HEADER64 *opt_hdr = &nt_hdrs.OptionalHeader;
388     IMAGE_DATA_DIRECTORY *data_dir = nt_hdrs.OptionalHeader.DataDirectory;
389 
390     QEMU_BUILD_BUG_ON(sizeof(*dos_hdr) >= ELF2DMP_PAGE_SIZE);
391 
392     if (memcmp(&dos_hdr->e_magic, e_magic, sizeof(e_magic))) {
393         return false;
394     }
395 
396     if (!va_space_rw(vs, base + dos_hdr->e_lfanew,
397                      &nt_hdrs, sizeof(nt_hdrs), 0)) {
398         return false;
399     }
400 
401     if (memcmp(&nt_hdrs.Signature, Signature, sizeof(Signature)) ||
402             file_hdr->Machine != 0x8664 || opt_hdr->Magic != 0x020b) {
403         return false;
404     }
405 
406     if (!va_space_rw(vs, base + data_dir[idx].VirtualAddress, entry, size, 0)) {
407         return false;
408     }
409 
410     printf("Data directory entry #%d: RVA = 0x%08"PRIx32"\n", idx,
411             (uint32_t)data_dir[idx].VirtualAddress);
412 
413     return true;
414 }
415 
416 static bool write_dump(struct pa_space *ps,
417                        WinDumpHeader64 *hdr, const char *name)
418 {
419     FILE *dmp_file = fopen(name, "wb");
420     size_t i;
421 
422     if (!dmp_file) {
423         eprintf("Failed to open output file \'%s\'\n", name);
424         return false;
425     }
426 
427     printf("Writing header to file...\n");
428 
429     if (fwrite(hdr, sizeof(*hdr), 1, dmp_file) != 1) {
430         eprintf("Failed to write dump header\n");
431         fclose(dmp_file);
432         return false;
433     }
434 
435     for (i = 0; i < ps->block_nr; i++) {
436         struct pa_block *b = &ps->block[i];
437 
438         printf("Writing block #%zu/%zu of %"PRIu64" bytes to file...\n", i,
439                 ps->block_nr, b->size);
440         if (fwrite(b->addr, b->size, 1, dmp_file) != 1) {
441             eprintf("Failed to write block\n");
442             fclose(dmp_file);
443             return false;
444         }
445     }
446 
447     return !fclose(dmp_file);
448 }
449 
450 static bool pe_check_pdb_name(uint64_t base, void *start_addr,
451         struct va_space *vs, OMFSignatureRSDS *rsds)
452 {
453     const char sign_rsds[4] = "RSDS";
454     IMAGE_DEBUG_DIRECTORY debug_dir;
455     char pdb_name[sizeof(PDB_NAME)];
456 
457     if (!pe_get_data_dir_entry(base, start_addr, IMAGE_FILE_DEBUG_DIRECTORY,
458                                &debug_dir, sizeof(debug_dir), vs)) {
459         eprintf("Failed to get Debug Directory\n");
460         return false;
461     }
462 
463     if (debug_dir.Type != IMAGE_DEBUG_TYPE_CODEVIEW) {
464         eprintf("Debug Directory type is not CodeView\n");
465         return false;
466     }
467 
468     if (!va_space_rw(vs, base + debug_dir.AddressOfRawData,
469                      rsds, sizeof(*rsds), 0)) {
470         eprintf("Failed to resolve OMFSignatureRSDS\n");
471         return false;
472     }
473 
474     if (memcmp(&rsds->Signature, sign_rsds, sizeof(sign_rsds))) {
475         eprintf("CodeView signature is \'%.4s\', \'%.4s\' expected\n",
476                 rsds->Signature, sign_rsds);
477         return false;
478     }
479 
480     if (debug_dir.SizeOfData - sizeof(*rsds) != sizeof(PDB_NAME)) {
481         eprintf("PDB name size doesn't match\n");
482         return false;
483     }
484 
485     if (!va_space_rw(vs, base + debug_dir.AddressOfRawData +
486                      offsetof(OMFSignatureRSDS, name),
487                      pdb_name, sizeof(PDB_NAME), 0)) {
488         eprintf("Failed to resolve PDB name\n");
489         return false;
490     }
491 
492     printf("PDB name is \'%s\', \'%s\' expected\n", pdb_name, PDB_NAME);
493 
494     return !strcmp(pdb_name, PDB_NAME);
495 }
496 
497 static void pe_get_pdb_symstore_hash(OMFSignatureRSDS *rsds, char *hash)
498 {
499     sprintf(hash, "%.08x%.04x%.04x%.02x%.02x", rsds->guid.a, rsds->guid.b,
500             rsds->guid.c, rsds->guid.d[0], rsds->guid.d[1]);
501     hash += 20;
502     for (unsigned int i = 0; i < 6; i++, hash += 2) {
503         sprintf(hash, "%.02x", rsds->guid.e[i]);
504     }
505 
506     sprintf(hash, "%.01x", rsds->age);
507 }
508 
509 int main(int argc, char *argv[])
510 {
511     int err = 1;
512     QEMU_Elf qemu_elf;
513     struct pa_space ps;
514     struct va_space vs;
515     QEMUCPUState *state;
516     idt_desc_t first_idt_desc;
517     uint64_t KernBase;
518     void *nt_start_addr = NULL;
519     WinDumpHeader64 header;
520     char pdb_hash[34];
521     char pdb_url[] = SYM_URL_BASE PDB_NAME
522         "/0123456789ABCDEF0123456789ABCDEFx/" PDB_NAME;
523     struct pdb_reader pdb;
524     uint64_t KdDebuggerDataBlock;
525     KDDEBUGGER_DATA64 *kdbg;
526     uint64_t KdVersionBlock;
527     bool kernel_found = false;
528     OMFSignatureRSDS rsds;
529 
530     if (argc != 3) {
531         eprintf("usage:\n\t%s elf_file dmp_file\n", argv[0]);
532         return 1;
533     }
534 
535     if (!QEMU_Elf_init(&qemu_elf, argv[1])) {
536         eprintf("Failed to initialize QEMU ELF dump\n");
537         return 1;
538     }
539 
540     pa_space_create(&ps, &qemu_elf);
541 
542     state = qemu_elf.state[0];
543     printf("CPU #0 CR3 is 0x%016"PRIx64"\n", state->cr[3]);
544 
545     va_space_create(&vs, &ps, state->cr[3]);
546     if (!fix_dtb(&vs, &qemu_elf)) {
547         eprintf("Failed to find paging base\n");
548         goto out_ps;
549     }
550 
551     printf("CPU #0 IDT is at 0x%016"PRIx64"\n", state->idt.base);
552 
553     if (!va_space_rw(&vs, state->idt.base,
554                      &first_idt_desc, sizeof(first_idt_desc), 0)) {
555         eprintf("Failed to get CPU #0 IDT[0]\n");
556         goto out_ps;
557     }
558     printf("CPU #0 IDT[0] -> 0x%016"PRIx64"\n", idt_desc_addr(first_idt_desc));
559 
560     KernBase = idt_desc_addr(first_idt_desc) & ~(ELF2DMP_PAGE_SIZE - 1);
561     printf("Searching kernel downwards from 0x%016"PRIx64"...\n", KernBase);
562 
563     for (; KernBase >= 0xfffff78000000000; KernBase -= ELF2DMP_PAGE_SIZE) {
564         nt_start_addr = va_space_resolve(&vs, KernBase);
565         if (!nt_start_addr) {
566             continue;
567         }
568 
569         if (*(uint16_t *)nt_start_addr == 0x5a4d) { /* MZ */
570             printf("Checking candidate KernBase = 0x%016"PRIx64"\n", KernBase);
571             if (pe_check_pdb_name(KernBase, nt_start_addr, &vs, &rsds)) {
572                 kernel_found = true;
573                 break;
574             }
575         }
576     }
577 
578     if (!kernel_found) {
579         eprintf("Failed to find NT kernel image\n");
580         goto out_ps;
581     }
582 
583     printf("KernBase = 0x%016"PRIx64", signature is \'%.2s\'\n", KernBase,
584             (char *)nt_start_addr);
585 
586     pe_get_pdb_symstore_hash(&rsds, pdb_hash);
587 
588     sprintf(pdb_url, "%s%s/%s/%s", SYM_URL_BASE, PDB_NAME, pdb_hash, PDB_NAME);
589     printf("PDB URL is %s\n", pdb_url);
590 
591     if (!download_url(PDB_NAME, pdb_url)) {
592         eprintf("Failed to download PDB file\n");
593         goto out_ps;
594     }
595 
596     if (!pdb_init_from_file(PDB_NAME, &pdb)) {
597         eprintf("Failed to initialize PDB reader\n");
598         goto out_pdb_file;
599     }
600 
601     if (!SYM_RESOLVE(KernBase, &pdb, KdDebuggerDataBlock) ||
602             !SYM_RESOLVE(KernBase, &pdb, KdVersionBlock)) {
603         goto out_pdb;
604     }
605 
606     kdbg = get_kdbg(KernBase, &pdb, &vs, KdDebuggerDataBlock);
607     if (!kdbg) {
608         goto out_pdb;
609     }
610 
611     if (!fill_header(&header, &ps, &vs, KdDebuggerDataBlock, kdbg,
612                      KdVersionBlock, qemu_elf.state_nr)) {
613         goto out_kdbg;
614     }
615 
616     fill_context(kdbg, &vs, &qemu_elf);
617 
618     if (!write_dump(&ps, &header, argv[2])) {
619         eprintf("Failed to save dump\n");
620         goto out_kdbg;
621     }
622 
623     err = 0;
624 
625 out_kdbg:
626     g_free(kdbg);
627 out_pdb:
628     pdb_exit(&pdb);
629 out_pdb_file:
630     unlink(PDB_NAME);
631 out_ps:
632     pa_space_destroy(&ps);
633     QEMU_Elf_exit(&qemu_elf);
634 
635     return err;
636 }
637