/* * storage_file.c: file utility functions for FS storage backend * * Copyright (C) 2007-2011 Red Hat, Inc. * Copyright (C) 2007-2008 Daniel P. Berrange * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Author: Daniel P. Berrange */ #include #include "storage_file.h" #include #include #include #ifdef __linux__ # if HAVE_LINUX_MAGIC_H # include # endif # include #endif #include "dirname.h" #include "memory.h" #include "virterror_internal.h" #include "logging.h" #include "files.h" #define VIR_FROM_THIS VIR_FROM_STORAGE VIR_ENUM_IMPL(virStorageFileFormat, VIR_STORAGE_FILE_LAST, "raw", "dir", "bochs", "cloop", "cow", "dmg", "iso", "qcow", "qcow2", "qed", "vmdk", "vpc") enum lv_endian { LV_LITTLE_ENDIAN = 1, /* 1234 */ LV_BIG_ENDIAN /* 4321 */ }; enum { BACKING_STORE_OK, BACKING_STORE_INVALID, BACKING_STORE_ERROR, }; /* Either 'magic' or 'extension' *must* be provided */ struct FileTypeInfo { const char *magic; /* Optional string of file magic * to check at head of file */ const char *extension; /* Optional file extension to check */ enum lv_endian endian; /* Endianness of file format */ int versionOffset; /* Byte offset from start of file * where we find version number, * -1 to skip version test */ int versionNumber; /* Version number to validate */ int sizeOffset; /* Byte offset from start of file * where we find capacity info, * -1 to use st_size as capacity */ int sizeBytes; /* Number of bytes for size field */ int sizeMultiplier; /* A scaling factor if size is not in bytes */ /* Store a COW base image path (possibly relative), * or NULL if there is no COW base image, to RES; * return BACKING_STORE_* */ int qcowCryptOffset; /* Byte offset from start of file * where to find encryption mode, * -1 if encryption is not used */ int (*getBackingStore)(char **res, int *format, const unsigned char *buf, size_t buf_size); }; static int cowGetBackingStore(char **, int *, const unsigned char *, size_t); static int qcow1GetBackingStore(char **, int *, const unsigned char *, size_t); static int qcow2GetBackingStore(char **, int *, const unsigned char *, size_t); static int vmdk4GetBackingStore(char **, int *, const unsigned char *, size_t); static int qedGetBackingStore(char **, int *, const unsigned char *, size_t); #define QCOWX_HDR_VERSION (4) #define QCOWX_HDR_BACKING_FILE_OFFSET (QCOWX_HDR_VERSION+4) #define QCOWX_HDR_BACKING_FILE_SIZE (QCOWX_HDR_BACKING_FILE_OFFSET+8) #define QCOWX_HDR_IMAGE_SIZE (QCOWX_HDR_BACKING_FILE_SIZE+4+4) #define QCOW1_HDR_CRYPT (QCOWX_HDR_IMAGE_SIZE+8+1+1) #define QCOW2_HDR_CRYPT (QCOWX_HDR_IMAGE_SIZE+8) #define QCOW1_HDR_TOTAL_SIZE (QCOW1_HDR_CRYPT+4+8) #define QCOW2_HDR_TOTAL_SIZE (QCOW2_HDR_CRYPT+4+4+8+8+4+4+8) #define QCOW2_HDR_EXTENSION_END 0 #define QCOW2_HDR_EXTENSION_BACKING_FORMAT 0xE2792ACA #define QED_HDR_FEATURES_OFFSET (4+4+4+4) #define QED_HDR_IMAGE_SIZE (QED_HDR_FEATURES_OFFSET+8+8+8+8) #define QED_HDR_BACKING_FILE_OFFSET (QED_HDR_IMAGE_SIZE+8) #define QED_HDR_BACKING_FILE_SIZE (QED_HDR_BACKING_FILE_OFFSET+4) #define QED_F_BACKING_FILE 0x01 #define QED_F_BACKING_FORMAT_NO_PROBE 0x04 /* VMDK needs at least this to find backing store, * other formats need less */ #define STORAGE_MAX_HEAD (20*512) static struct FileTypeInfo const fileTypeInfo[] = { [VIR_STORAGE_FILE_RAW] = { NULL, NULL, LV_LITTLE_ENDIAN, -1, 0, 0, 0, 0, 0, NULL }, [VIR_STORAGE_FILE_DIR] = { NULL, NULL, LV_LITTLE_ENDIAN, -1, 0, 0, 0, 0, 0, NULL }, [VIR_STORAGE_FILE_BOCHS] = { /*"Bochs Virtual HD Image", */ /* Untested */ NULL, NULL, LV_LITTLE_ENDIAN, 64, 0x20000, 32+16+16+4+4+4+4+4, 8, 1, -1, NULL }, [VIR_STORAGE_FILE_CLOOP] = { /*"#!/bin/sh\n#V2.0 Format\nmodprobe cloop file=$0 && mount -r -t iso9660 /dev/cloop $1\n", */ /* Untested */ NULL, NULL, LV_LITTLE_ENDIAN, -1, 0, -1, 0, 0, -1, NULL }, [VIR_STORAGE_FILE_COW] = { "OOOM", NULL, LV_BIG_ENDIAN, 4, 2, 4+4+1024+4, 8, 1, -1, cowGetBackingStore }, [VIR_STORAGE_FILE_DMG] = { NULL, /* XXX QEMU says there's no magic for dmg, but we should check... */ ".dmg", 0, -1, 0, -1, 0, 0, -1, NULL }, [VIR_STORAGE_FILE_ISO] = { NULL, /* XXX there's probably some magic for iso we can validate too... */ ".iso", 0, -1, 0, -1, 0, 0, -1, NULL }, [VIR_STORAGE_FILE_QCOW] = { "QFI", NULL, LV_BIG_ENDIAN, 4, 1, QCOWX_HDR_IMAGE_SIZE, 8, 1, QCOW1_HDR_CRYPT, qcow1GetBackingStore, }, [VIR_STORAGE_FILE_QCOW2] = { "QFI", NULL, LV_BIG_ENDIAN, 4, 2, QCOWX_HDR_IMAGE_SIZE, 8, 1, QCOW2_HDR_CRYPT, qcow2GetBackingStore, }, [VIR_STORAGE_FILE_QED] = { /* http://wiki.qemu.org/Features/QED */ "QED\0", NULL, LV_LITTLE_ENDIAN, -1, -1, QED_HDR_IMAGE_SIZE, 8, 1, -1, qedGetBackingStore, }, [VIR_STORAGE_FILE_VMDK] = { "KDMV", NULL, LV_LITTLE_ENDIAN, 4, 1, 4+4+4, 8, 512, -1, vmdk4GetBackingStore }, [VIR_STORAGE_FILE_VPC] = { "conectix", NULL, LV_BIG_ENDIAN, 12, 0x10000, 8 + 4 + 4 + 8 + 4 + 4 + 2 + 2 + 4, 8, 1, -1, NULL }, }; verify(ARRAY_CARDINALITY(fileTypeInfo) == VIR_STORAGE_FILE_LAST); static int cowGetBackingStore(char **res, int *format, const unsigned char *buf, size_t buf_size) { #define COW_FILENAME_MAXLEN 1024 *res = NULL; *format = VIR_STORAGE_FILE_AUTO; if (buf_size < 4+4+ COW_FILENAME_MAXLEN) return BACKING_STORE_INVALID; if (buf[4+4] == '\0') /* cow_header_v2.backing_file[0] */ return BACKING_STORE_OK; *res = strndup ((const char*)buf + 4+4, COW_FILENAME_MAXLEN); if (*res == NULL) { virReportOOMError(); return BACKING_STORE_ERROR; } return BACKING_STORE_OK; } static int qcow2GetBackingStoreFormat(int *format, const unsigned char *buf, size_t buf_size, size_t extension_start, size_t extension_end) { size_t offset = extension_start; /* * The extensions take format of * * int32: magic * int32: length * byte[length]: payload * * Unknown extensions can be ignored by skipping * over "length" bytes in the data stream. */ while (offset < (buf_size-8) && offset < (extension_end-8)) { unsigned int magic = (buf[offset] << 24) + (buf[offset+1] << 16) + (buf[offset+2] << 8) + (buf[offset+3]); unsigned int len = (buf[offset+4] << 24) + (buf[offset+5] << 16) + (buf[offset+6] << 8) + (buf[offset+7]); offset += 8; if ((offset + len) < offset) break; if ((offset + len) > buf_size) break; switch (magic) { case QCOW2_HDR_EXTENSION_END: goto done; case QCOW2_HDR_EXTENSION_BACKING_FORMAT: if (buf[offset+len] != '\0') break; *format = virStorageFileFormatTypeFromString( ((const char *)buf)+offset); break; } offset += len; } done: return 0; } static int qcowXGetBackingStore(char **res, int *format, const unsigned char *buf, size_t buf_size, bool isQCow2) { unsigned long long offset; unsigned long size; *res = NULL; if (format) *format = VIR_STORAGE_FILE_AUTO; if (buf_size < QCOWX_HDR_BACKING_FILE_OFFSET+8+4) return BACKING_STORE_INVALID; offset = (((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET] << 56) | ((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET+1] << 48) | ((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET+2] << 40) | ((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET+3] << 32) | ((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET+4] << 24) | ((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET+5] << 16) | ((unsigned long long)buf[QCOWX_HDR_BACKING_FILE_OFFSET+6] << 8) | buf[QCOWX_HDR_BACKING_FILE_OFFSET+7]); /* QCowHeader.backing_file_offset */ if (offset > buf_size) return BACKING_STORE_INVALID; size = ((buf[QCOWX_HDR_BACKING_FILE_SIZE] << 24) | (buf[QCOWX_HDR_BACKING_FILE_SIZE+1] << 16) | (buf[QCOWX_HDR_BACKING_FILE_SIZE+2] << 8) | buf[QCOWX_HDR_BACKING_FILE_SIZE+3]); /* QCowHeader.backing_file_size */ if (size == 0) return BACKING_STORE_OK; if (offset + size > buf_size || offset + size < offset) return BACKING_STORE_INVALID; if (size + 1 == 0) return BACKING_STORE_INVALID; if (VIR_ALLOC_N(*res, size + 1) < 0) { virReportOOMError(); return BACKING_STORE_ERROR; } memcpy(*res, buf + offset, size); (*res)[size] = '\0'; /* * Traditionally QCow2 files had a layout of * * [header] * [backingStoreName] * * Although the backingStoreName typically followed * the header immediately, this was not required by * the format. By specifying a higher byte offset for * the backing file offset in the header, it was * possible to leave space between the header and * start of backingStore. * * This hack is now used to store extensions to the * qcow2 format: * * [header] * [extensions] * [backingStoreName] * * Thus the file region to search for extensions is * between the end of the header (QCOW2_HDR_TOTAL_SIZE) * and the start of the backingStoreName (offset) */ if (isQCow2) qcow2GetBackingStoreFormat(format, buf, buf_size, QCOW2_HDR_TOTAL_SIZE, offset); return BACKING_STORE_OK; } static int qcow1GetBackingStore(char **res, int *format, const unsigned char *buf, size_t buf_size) { /* QCow1 doesn't have the extensions capability * used to store backing format */ *format = VIR_STORAGE_FILE_AUTO; return qcowXGetBackingStore(res, NULL, buf, buf_size, false); } static int qcow2GetBackingStore(char **res, int *format, const unsigned char *buf, size_t buf_size) { return qcowXGetBackingStore(res, format, buf, buf_size, true); } static int vmdk4GetBackingStore(char **res, int *format, const unsigned char *buf, size_t buf_size) { static const char prefix[] = "parentFileNameHint=\""; char *desc, *start, *end; size_t len; int ret = BACKING_STORE_ERROR; if (VIR_ALLOC_N(desc, STORAGE_MAX_HEAD + 1) < 0) { virReportOOMError(); goto cleanup; } *res = NULL; /* * Technically this should have been VMDK, since * VMDK spec / VMWare impl only support VMDK backed * by VMDK. QEMU isn't following this though and * does probing on VMDK backing files, hence we set * AUTO */ *format = VIR_STORAGE_FILE_AUTO; if (buf_size <= 0x200) { ret = BACKING_STORE_INVALID; goto cleanup; } len = buf_size - 0x200; if (len > STORAGE_MAX_HEAD) len = STORAGE_MAX_HEAD; memcpy(desc, buf + 0x200, len); desc[len] = '\0'; start = strstr(desc, prefix); if (start == NULL) { ret = BACKING_STORE_OK; goto cleanup; } start += strlen(prefix); end = strchr(start, '"'); if (end == NULL) { ret = BACKING_STORE_INVALID; goto cleanup; } if (end == start) { ret = BACKING_STORE_OK; goto cleanup; } *end = '\0'; *res = strdup(start); if (*res == NULL) { virReportOOMError(); goto cleanup; } ret = BACKING_STORE_OK; cleanup: VIR_FREE(desc); return ret; } static unsigned long qedGetHeaderUL(const unsigned char *loc) { return ( ((unsigned long)loc[3] << 24) | ((unsigned long)loc[2] << 16) | ((unsigned long)loc[1] << 8) | ((unsigned long)loc[0] << 0)); } static unsigned long long qedGetHeaderULL(const unsigned char *loc) { return ( ((unsigned long long)loc[7] << 56) | ((unsigned long long)loc[6] << 48) | ((unsigned long long)loc[5] << 40) | ((unsigned long long)loc[4] << 32) | ((unsigned long long)loc[3] << 24) | ((unsigned long long)loc[2] << 16) | ((unsigned long long)loc[1] << 8) | ((unsigned long long)loc[0] << 0)); } static int qedGetBackingStore(char **res, int *format, const unsigned char *buf, size_t buf_size) { unsigned long long flags; unsigned long offset, size; *res = NULL; /* Check if this image has a backing file */ if (buf_size < QED_HDR_FEATURES_OFFSET+8) return BACKING_STORE_INVALID; flags = qedGetHeaderULL(buf + QED_HDR_FEATURES_OFFSET); if (!(flags & QED_F_BACKING_FILE)) return BACKING_STORE_OK; /* Parse the backing file */ if (buf_size < QED_HDR_BACKING_FILE_OFFSET+8) return BACKING_STORE_INVALID; offset = qedGetHeaderUL(buf + QED_HDR_BACKING_FILE_OFFSET); if (offset > buf_size) return BACKING_STORE_INVALID; size = qedGetHeaderUL(buf + QED_HDR_BACKING_FILE_SIZE); if (size == 0) return BACKING_STORE_OK; if (offset + size > buf_size || offset + size < offset) return BACKING_STORE_INVALID; if (VIR_ALLOC_N(*res, size + 1) < 0) { virReportOOMError(); return BACKING_STORE_ERROR; } memcpy(*res, buf + offset, size); (*res)[size] = '\0'; if (format) { if (flags & QED_F_BACKING_FORMAT_NO_PROBE) *format = virStorageFileFormatTypeFromString("raw"); else *format = VIR_STORAGE_FILE_AUTO_SAFE; } return BACKING_STORE_OK; } /** * Return an absolute path corresponding to PATH, which is absolute or relative * to the directory containing BASE_FILE, or NULL on error */ static char * absolutePathFromBaseFile(const char *base_file, const char *path) { char *res; size_t d_len = dir_len (base_file); /* If path is already absolute, or if dirname(base_file) is ".", just return a copy of path. */ if (*path == '/' || d_len == 0) return strdup(path); /* Ensure that the following cast-to-int is valid. */ if (d_len > INT_MAX) return NULL; virAsprintf(&res, "%.*s/%s", (int) d_len, base_file, path); return res; } static bool virStorageFileMatchesMagic(int format, unsigned char *buf, size_t buflen) { int mlen; if (fileTypeInfo[format].magic == NULL) return false; /* Validate magic data */ mlen = strlen(fileTypeInfo[format].magic); if (mlen > buflen) return false; if (memcmp(buf, fileTypeInfo[format].magic, mlen) != 0) return false; return true; } static bool virStorageFileMatchesExtension(int format, const char *path) { if (fileTypeInfo[format].extension == NULL) return false; if (virFileHasSuffix(path, fileTypeInfo[format].extension)) return true; return false; } static bool virStorageFileMatchesVersion(int format, unsigned char *buf, size_t buflen) { int version; /* Validate version number info */ if (fileTypeInfo[format].versionOffset == -1) return true; if ((fileTypeInfo[format].versionOffset + 4) > buflen) return false; if (fileTypeInfo[format].endian == LV_LITTLE_ENDIAN) { version = (buf[fileTypeInfo[format].versionOffset+3] << 24) | (buf[fileTypeInfo[format].versionOffset+2] << 16) | (buf[fileTypeInfo[format].versionOffset+1] << 8) | (buf[fileTypeInfo[format].versionOffset]); } else { version = (buf[fileTypeInfo[format].versionOffset] << 24) | (buf[fileTypeInfo[format].versionOffset+1] << 16) | (buf[fileTypeInfo[format].versionOffset+2] << 8) | (buf[fileTypeInfo[format].versionOffset+3]); } if (version != fileTypeInfo[format].versionNumber) return false; return true; } static bool virBackingStoreIsFile(const char *backing) { /* Backing store is a network block device */ if (STRPREFIX(backing, "nbd:")) return false; return true; } static int virStorageFileGetMetadataFromBuf(int format, const char *path, unsigned char *buf, size_t buflen, virStorageFileMetadata *meta) { /* XXX we should consider moving virStorageBackendUpdateVolInfo * code into this method, for non-magic files */ if (!fileTypeInfo[format].magic) { return 0; } /* Optionally extract capacity from file */ if (fileTypeInfo[format].sizeOffset != -1) { if ((fileTypeInfo[format].sizeOffset + 8) > buflen) return 1; if (fileTypeInfo[format].endian == LV_LITTLE_ENDIAN) { meta->capacity = ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+7] << 56) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+6] << 48) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+5] << 40) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+4] << 32) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+3] << 24) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+2] << 16) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+1] << 8) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset]); } else { meta->capacity = ((unsigned long long)buf[fileTypeInfo[format].sizeOffset] << 56) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+1] << 48) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+2] << 40) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+3] << 32) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+4] << 24) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+5] << 16) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+6] << 8) | ((unsigned long long)buf[fileTypeInfo[format].sizeOffset+7]); } /* Avoid unlikely, but theoretically possible overflow */ if (meta->capacity > (ULLONG_MAX / fileTypeInfo[format].sizeMultiplier)) return 1; meta->capacity *= fileTypeInfo[format].sizeMultiplier; } if (fileTypeInfo[format].qcowCryptOffset != -1) { int crypt_format; crypt_format = (buf[fileTypeInfo[format].qcowCryptOffset] << 24) | (buf[fileTypeInfo[format].qcowCryptOffset+1] << 16) | (buf[fileTypeInfo[format].qcowCryptOffset+2] << 8) | (buf[fileTypeInfo[format].qcowCryptOffset+3]); meta->encrypted = crypt_format != 0; } if (fileTypeInfo[format].getBackingStore != NULL) { char *backing; int backingFormat; int ret = fileTypeInfo[format].getBackingStore(&backing, &backingFormat, buf, buflen); if (ret == BACKING_STORE_INVALID) return 1; if (ret == BACKING_STORE_ERROR) return -1; meta->backingStoreIsFile = false; if (backing != NULL) { if (virBackingStoreIsFile(backing)) { meta->backingStoreIsFile = true; meta->backingStore = absolutePathFromBaseFile(path, backing); } else { meta->backingStore = strdup(backing); } VIR_FREE(backing); if (meta->backingStore == NULL) { virReportOOMError(); return -1; } meta->backingStoreFormat = backingFormat; } else { meta->backingStore = NULL; meta->backingStoreFormat = VIR_STORAGE_FILE_AUTO; } } return 0; } static int virStorageFileProbeFormatFromBuf(const char *path, unsigned char *buf, size_t buflen) { int format = VIR_STORAGE_FILE_RAW; int i; /* First check file magic */ for (i = 0 ; i < VIR_STORAGE_FILE_LAST ; i++) { if (virStorageFileMatchesMagic(i, buf, buflen) && virStorageFileMatchesVersion(i, buf, buflen)) { format = i; goto cleanup; } } /* No magic, so check file extension */ for (i = 0 ; i < VIR_STORAGE_FILE_LAST ; i++) { if (virStorageFileMatchesExtension(i, path)) { format = i; goto cleanup; } } cleanup: return format; } /** * virStorageFileProbeFormatFromFD: * * Probe for the format of 'fd' (which is an open file descriptor * pointing to 'path'), returning the detected disk format. * * Callers are advised never to trust the returned 'format' * unless it is listed as VIR_STORAGE_FILE_RAW, since a * malicious guest can turn a file into any other non-raw * format at will. * * Best option: Don't use this function */ int virStorageFileProbeFormatFromFD(const char *path, int fd) { unsigned char *head; ssize_t len = STORAGE_MAX_HEAD; int ret = -1; struct stat sb; if (fstat(fd, &sb) < 0) { virReportSystemError(errno, _("cannot stat file '%s'"), path); return -1; } /* No header to probe for directories */ if (S_ISDIR(sb.st_mode)) { return VIR_STORAGE_FILE_DIR; } if (VIR_ALLOC_N(head, len) < 0) { virReportOOMError(); return -1; } if (lseek(fd, 0, SEEK_SET) == (off_t)-1) { virReportSystemError(errno, _("cannot set to start of '%s'"), path); goto cleanup; } if ((len = read(fd, head, len)) < 0) { virReportSystemError(errno, _("cannot read header '%s'"), path); goto cleanup; } ret = virStorageFileProbeFormatFromBuf(path, head, len); cleanup: VIR_FREE(head); return ret; } /** * virStorageFileProbeFormat: * * Probe for the format of 'path', returning the detected * disk format. * * Callers are advised never to trust the returned 'format' * unless it is listed as VIR_STORAGE_FILE_RAW, since a * malicious guest can turn a raw file into any other non-raw * format at will. * * Best option: Don't use this function */ int virStorageFileProbeFormat(const char *path) { int fd, ret; if ((fd = open(path, O_RDONLY)) < 0) { virReportSystemError(errno, _("cannot open file '%s'"), path); return -1; } ret = virStorageFileProbeFormatFromFD(path, fd); VIR_FORCE_CLOSE(fd); return ret; } /** * virStorageFileGetMetadataFromFD: * * Extract metadata about the storage volume with the specified * image format. If image format is VIR_STORAGE_FILE_AUTO, it * will probe to automatically identify the format. * * Callers are advised never to use VIR_STORAGE_FILE_AUTO as a * format, since a malicious guest can turn a raw file into any * other non-raw format at will. * * If the returned meta.backingStoreFormat is VIR_STORAGE_FILE_AUTO * it indicates the image didn't specify an explicit format for its * backing store. Callers are advised against probing for the * backing store format in this case. */ int virStorageFileGetMetadataFromFD(const char *path, int fd, int format, virStorageFileMetadata *meta) { unsigned char *head = NULL; ssize_t len = STORAGE_MAX_HEAD; int ret = -1; struct stat sb; if (VIR_ALLOC_N(head, len) < 0) { virReportOOMError(); return -1; } memset(meta, 0, sizeof (*meta)); if (fstat(fd, &sb) < 0) { virReportSystemError(errno, _("cannot stat file '%s'"), path); return -1; } /* No header to probe for directories */ if (S_ISDIR(sb.st_mode)) { ret = 0; goto cleanup; } if (lseek(fd, 0, SEEK_SET) == (off_t)-1) { virReportSystemError(errno, _("cannot seek to start of '%s'"), path); goto cleanup; } if ((len = read(fd, head, len)) < 0) { virReportSystemError(errno, _("cannot read header '%s'"), path); goto cleanup; } if (format == VIR_STORAGE_FILE_AUTO) format = virStorageFileProbeFormatFromBuf(path, head, len); if (format < 0 || format >= VIR_STORAGE_FILE_LAST) { virReportSystemError(EINVAL, _("unknown storage file format %d"), format); goto cleanup; } ret = virStorageFileGetMetadataFromBuf(format, path, head, len, meta); cleanup: VIR_FREE(head); return ret; } /** * virStorageFileGetMetadata: * * Extract metadata about the storage volume with the specified * image format. If image format is VIR_STORAGE_FILE_AUTO, it * will probe to automatically identify the format. * * Callers are advised never to use VIR_STORAGE_FILE_AUTO as a * format, since a malicious guest can turn a raw file into any * other non-raw format at will. * * If the returned meta.backingStoreFormat is VIR_STORAGE_FILE_AUTO * it indicates the image didn't specify an explicit format for its * backing store. Callers are advised against probing for the * backing store format in this case. */ int virStorageFileGetMetadata(const char *path, int format, virStorageFileMetadata *meta) { int fd, ret; if ((fd = open(path, O_RDONLY)) < 0) { virReportSystemError(errno, _("cannot open file '%s'"), path); return -1; } ret = virStorageFileGetMetadataFromFD(path, fd, format, meta); VIR_FORCE_CLOSE(fd); return ret; } #ifdef __linux__ # ifndef NFS_SUPER_MAGIC # define NFS_SUPER_MAGIC 0x6969 # endif # ifndef OCFS2_SUPER_MAGIC # define OCFS2_SUPER_MAGIC 0x7461636f # endif # ifndef GFS2_MAGIC # define GFS2_MAGIC 0x01161970 # endif # ifndef AFS_FS_MAGIC # define AFS_FS_MAGIC 0x6B414653 # endif int virStorageFileIsSharedFSType(const char *path, int fstypes) { char *dirpath, *p; struct statfs sb; int statfs_ret; if ((dirpath = strdup(path)) == NULL) { virReportOOMError(); return -1; } do { /* Try less and less of the path until we get to a * directory we can stat. Even if we don't have 'x' * permission on any directory in the path on the NFS * server (assuming it's NFS), we will be able to stat the * mount point, and that will properly tell us if the * fstype is NFS. */ if ((p = strrchr(dirpath, '/')) == NULL) { virReportSystemError(EINVAL, _("Invalid relative path '%s'"), path); VIR_FREE(dirpath); return -1; } if (p == dirpath) *(p+1) = '\0'; else *p = '\0'; statfs_ret = statfs(dirpath, &sb); } while ((statfs_ret < 0) && (p != dirpath)); VIR_FREE(dirpath); if (statfs_ret < 0) { virReportSystemError(errno, _("cannot determine filesystem for '%s'"), path); return -1; } VIR_DEBUG("Check if path %s with FS magic %lld is shared", path, (long long int)sb.f_type); if ((fstypes & VIR_STORAGE_FILE_SHFS_NFS) && (sb.f_type == NFS_SUPER_MAGIC)) return 1; if ((fstypes & VIR_STORAGE_FILE_SHFS_GFS2) && (sb.f_type == GFS2_MAGIC)) return 1; if ((fstypes & VIR_STORAGE_FILE_SHFS_OCFS) && (sb.f_type == OCFS2_SUPER_MAGIC)) return 1; if ((fstypes & VIR_STORAGE_FILE_SHFS_AFS) && (sb.f_type == AFS_FS_MAGIC)) return 1; return 0; } #else int virStorageFileIsSharedFSType(const char *path ATTRIBUTE_UNUSED, int fstypes ATTRIBUTE_UNUSED) { /* XXX implement me :-) */ return 0; } #endif int virStorageFileIsSharedFS(const char *path) { return virStorageFileIsSharedFSType(path, VIR_STORAGE_FILE_SHFS_NFS | VIR_STORAGE_FILE_SHFS_GFS2 | VIR_STORAGE_FILE_SHFS_OCFS | VIR_STORAGE_FILE_SHFS_AFS); }