/* * vmware_vmss.c * * Copyright (c) 2015 VMware, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * Author: Dyno Hongjun Fu */ #include "defs.h" #include "vmware_vmss.h" #define LOGPRX "vmw: " /* VMware only supports X86/X86_64 virtual machines. */ #define VMW_PAGE_SIZE (4096) #define VMW_PAGE_SHIFT (12) static vmssdata vmss = { 0 }; int is_vmware_vmss(char *filename) { struct cptdumpheader hdr; FILE *fp; if ((fp = fopen(filename, "r")) == NULL) { error(INFO, LOGPRX"Failed to open '%s': [Error %d] %s\n", filename, errno, strerror(errno)); return FALSE; } if (fread(&hdr, sizeof(cptdumpheader), 1, fp) != 1) { error(INFO, LOGPRX"Failed to read '%s': [Error %d] %s\n", filename, errno, strerror(errno)); fclose(fp); return FALSE; } fclose(fp); if (hdr.id != CPTDUMP_OLD_MAGIC_NUMBER && hdr.id != CPTDUMP_MAGIC_NUMBER && hdr.id != CPTDUMP_PARTIAL_MAGIC_NUMBER && hdr.id != CPTDUMP_RESTORED_MAGIC_NUMBER && hdr.id != CPTDUMP_NORESTORE_MAGIC_NUMBER) { if (CRASHDEBUG(1)) error(INFO, LOGPRX"Unrecognized .vmss file (magic %x).\n", hdr.id); return FALSE; } return TRUE; } int vmware_vmss_init(char *filename, FILE *ofp) { cptdumpheader hdr; cptgroupdesc *grps = NULL; unsigned grpsize; unsigned i; FILE *fp = NULL; int result = TRUE; if (!machine_type("X86") && !machine_type("X86_64")) { error(INFO, LOGPRX"Invalid or unsupported host architecture for .vmss file: %s\n", MACHINE_TYPE); result = FALSE; goto exit; } if ((fp = fopen(filename, "r")) == NULL) { error(INFO, LOGPRX"Failed to open '%s': %s [Error %d] %s\n", filename, errno, strerror(errno)); result = FALSE; goto exit; } if (fread(&hdr, sizeof(cptdumpheader), 1, fp) != 1) { error(INFO, LOGPRX"Failed to read '%s': %s [Error %d] %s\n", filename, errno, strerror(errno)); result = FALSE; goto exit; } DEBUG_PARSE_PRINT((ofp, LOGPRX"Header: id=%x version=%d numgroups=%d\n", hdr.id, hdr.version, hdr.numgroups)); vmss.cpt64bit = (hdr.id != CPTDUMP_OLD_MAGIC_NUMBER); DEBUG_PARSE_PRINT((ofp, LOGPRX"Checkpoint is %d-bit\n", vmss.cpt64bit ? 64 : 32)); if (!vmss.cpt64bit) { error(INFO, LOGPRX"Not implemented for 32-bit VMSS file!\n"); result = FALSE; goto exit; } grpsize = hdr.numgroups * sizeof (cptgroupdesc); grps = (cptgroupdesc *) malloc(grpsize * sizeof(cptgroupdesc)); if (grps == NULL) { error(INFO, LOGPRX"Failed to allocate memory! [Error %d] %s\n", errno, strerror(errno)); result = FALSE; goto exit; } if (fread(grps, sizeof(cptgroupdesc), grpsize, fp) != grpsize) { error(INFO, LOGPRX"Failed to read '%s': [Error %d] %s\n", filename, errno, strerror(errno)); result = FALSE; goto exit; } for (i = 0; i < hdr.numgroups; i++) { if (fseek(fp, grps[i].position, SEEK_SET) == -1) { error(INFO, LOGPRX"Bad offset of VMSS Group['%s'] in '%s' at %#llx.\n", grps[i].name, filename, (ulonglong)grps[i].position); continue; } DEBUG_PARSE_PRINT((ofp, LOGPRX"Group: %-20s offset=%#llx size=0x%#llx.\n", grps[i].name, (ulonglong)grps[i].position, (ulonglong)grps[i].size)); if (strcmp(grps[i].name, "memory") != 0) { continue; } for (;;) { uint16_t tag; char name[TAG_NAMELEN_MASK + 1]; unsigned nameLen; unsigned nindx; int idx[3]; unsigned j; int nextgroup = FALSE; if (fread(&tag, sizeof(tag), 1, fp) != 1) { error(INFO, LOGPRX"Cannot read tag.\n"); break; } if (tag == NULL_TAG) break; nameLen = TAG_NAMELEN(tag); if (fread(name, nameLen, 1, fp) != 1) { error(INFO, LOGPRX"Cannot read tag name.\n"); break; } name[nameLen] = 0; DEBUG_PARSE_PRINT((ofp, LOGPRX"\t Item %20s", name)); nindx = TAG_NINDX(tag); if (nindx > 3) { error(INFO, LOGPRX"Too many indexes %d (> 3).\n", nindx); break; } idx[0] = idx[1] = idx[2] = NO_INDEX; for (j= 0; j < nindx; j++) { if (fread(&idx[j], sizeof(idx[0]), 1, fp) != 1) { error(INFO, LOGPRX"Cannot read index.\n"); nextgroup = TRUE; break; } DEBUG_PARSE_PRINT((ofp, "[%d]", idx[j])); } if (nextgroup) break; if (IS_BLOCK_TAG(tag)) { uint64_t nbytes; uint64_t blockpos; uint64_t nbytesinmem; int compressed = IS_BLOCK_COMPRESSED_TAG(tag); uint16_t padsize; if (fread(&nbytes, sizeof(nbytes), 1, fp) != 1) { error(INFO, LOGPRX"Cannot read block size.\n"); break; } if (fread(&nbytesinmem, sizeof(nbytesinmem), 1, fp) != 1) { error(INFO, LOGPRX"Cannot read block memory size.\n"); break; } if (fread(&padsize, sizeof(padsize), 1, fp) != 1) { error(INFO, LOGPRX"Cannot read block padding size.\n"); break; } if ((blockpos = ftell(fp)) == -1) { error(INFO, LOGPRX"Cannot determine location within VMSS file.\n"); break; } blockpos += padsize; if (fseek(fp, blockpos + nbytes, SEEK_SET) == -1) { error(INFO, LOGPRX"Cannot seek past block at %#llx.\n", (ulonglong)(blockpos + nbytes)); break; } if (strcmp(name, "Memory") == 0) { /* The things that we really care about...*/ vmss.memoffset = blockpos; vmss.memsize = nbytesinmem; DEBUG_PARSE_PRINT((ofp, "\t=> %sBLOCK: position=%#llx size=%#llx memsize=%#llx\n", compressed ? "COMPRESSED " : "", (ulonglong)blockpos, (ulonglong)nbytes, (ulonglong)nbytesinmem)); if (compressed) { error(INFO, LOGPRX"Cannot handle compressed memory dump yet!\n"); result = FALSE; goto exit; } } } else { union { uint8_t val[TAG_VALSIZE_MASK]; uint32_t val32; } u; unsigned k; unsigned valsize = TAG_VALSIZE(tag); uint64_t blockpos = ftell(fp); DEBUG_PARSE_PRINT((ofp, "\t=> position=%#llx size=%#x: ", (ulonglong)blockpos, valsize)); if (fread(u.val, sizeof(u.val[0]), valsize, fp) != valsize) { error(INFO, LOGPRX"Cannot read item.\n"); break; } for (k = 0; k < valsize; k++) { /* Assume Little Endian */ DEBUG_PARSE_PRINT((ofp, "%02X", u.val[valsize - k - 1])); } if (strcmp(grps[i].name, "memory") == 0) { if (strcmp(name, "regionsCount") == 0) { vmss.regionscount = u.val32; } if (strcmp(name, "regionPageNum") == 0) { vmss.regions[idx[0]].startpagenum = u.val32; } if (strcmp(name, "regionPPN") == 0) { vmss.regions[idx[0]].startppn = u.val32; } if (strcmp(name, "regionSize") == 0) { vmss.regions[idx[0]].size = u.val32; } if (strcmp(name, "align_mask") == 0) { vmss.alignmask = u.val32; } } DEBUG_PARSE_PRINT((ofp, "\n")); } } } if (vmss.memsize == 0) { char *vmem_filename, *p; fprintf(ofp, LOGPRX"Memory dump is not part of this vmss file.\n"); fclose(fp); fp = NULL; fprintf(ofp, LOGPRX"Try to locate the companion vmem file ...\n"); /* check the companion vmem file */ vmem_filename = strdup(filename); p = vmem_filename + strlen(vmem_filename) - 4; if (strcmp(p, "vmss") != 0 && strcmp(p, "vmsn") != 0) { free(vmem_filename); result = FALSE; goto exit; } strcpy(p, "vmem"); if ((fp = fopen(vmem_filename, "r")) == NULL) { error(INFO, LOGPRX"%s: %s\n", vmem_filename, strerror(errno)); free(vmem_filename); result = FALSE; goto exit; } fseek(fp, 0L, SEEK_END); vmss.memsize = ftell(fp); fseek(fp, 0L, SEEK_SET); fprintf(ofp, LOGPRX"vmem file: %s\n\n", vmem_filename); free(vmem_filename); } vmss.dfp = fp; exit: if (grps) free(grps); if (!result && fp) fclose(fp); return result; } uint vmware_vmss_page_size(void) { return VMW_PAGE_SIZE; } int read_vmware_vmss(int fd, void *bufptr, int cnt, ulong addr, physaddr_t paddr) { uint64_t pos = paddr; if (vmss.regionscount > 0) { /* Memory is divided into regions and there are holes between them. */ uint32_t ppn = (uint32_t) (pos >> VMW_PAGE_SHIFT); int i; for (i = 0; i < vmss.regionscount; i++) { if (ppn < vmss.regions[i].startppn) break; /* skip holes. */ pos -= ((vmss.regions[i].startppn - vmss.regions[i].startpagenum) << VMW_PAGE_SHIFT); } } if (pos + cnt > vmss.memsize) { error(INFO, LOGPRX"Read beyond the end of file! paddr=%#lx cnt=%d\n", paddr, cnt); } pos += vmss.memoffset; if (fseek(vmss.dfp, pos, SEEK_SET) != 0) return SEEK_ERROR; if (fread(bufptr, 1, cnt, vmss.dfp) != cnt) return READ_ERROR; return cnt; } int write_vmware_vmss(int fd, void *bufptr, int cnt, ulong addr, physaddr_t paddr) { return SEEK_ERROR; }