/* * volume_id - reads volume label and uuid * * Copyright (C) 2005-2007 Kay Sievers * * 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 version 2 of the License. */ #ifndef _GNU_SOURCE #define _GNU_SOURCE 1 #endif #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include #include #include #include #include #include "libvolume_id.h" #include "util.h" #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) struct prober { volume_id_probe_fn_t prober; const char *name[4]; }; static const struct prober prober_raid[] = { { volume_id_probe_linux_raid, { "linux_raid", } }, { volume_id_probe_ddf_raid, { "ddf_raid", } }, { volume_id_probe_intel_software_raid, { "isw_raid", } }, { volume_id_probe_lsi_mega_raid, { "lsi_mega_raid", } }, { volume_id_probe_via_raid, { "via_raid", } }, { volume_id_probe_silicon_medley_raid, { "silicon_medley_raid", } }, { volume_id_probe_nvidia_raid, { "nvidia_raid", } }, { volume_id_probe_promise_fasttrack_raid, { "promise_fasttrack_raid", } }, { volume_id_probe_highpoint_45x_raid, { "highpoint_raid", } }, { volume_id_probe_adaptec_raid, { "adaptec_raid", } }, { volume_id_probe_jmicron_raid, { "jmicron_raid", } }, { volume_id_probe_lvm1, { "lvm1", } }, { volume_id_probe_lvm2, { "lvm2", } }, { volume_id_probe_highpoint_37x_raid, { "highpoint_raid", } }, }; static const struct prober prober_filesystem[] = { { volume_id_probe_vfat, { "vfat", } }, { volume_id_probe_linux_swap, { "swap", } }, { volume_id_probe_luks, { "luks", } }, { volume_id_probe_xfs, { "xfs", } }, { volume_id_probe_ext, { "ext2", "ext3", "jbd", } }, { volume_id_probe_reiserfs, { "reiserfs", "reiser4", } }, { volume_id_probe_jfs, { "jfs", } }, { volume_id_probe_udf, { "udf", } }, { volume_id_probe_iso9660, { "iso9660", } }, { volume_id_probe_hfs_hfsplus, { "hfs", "hfsplus", } }, { volume_id_probe_ufs, { "ufs", } }, { volume_id_probe_ntfs, { "ntfs", } }, { volume_id_probe_cramfs, { "cramfs", } }, { volume_id_probe_romfs, { "romfs", } }, { volume_id_probe_hpfs, { "hpfs", } }, { volume_id_probe_sysv, { "sysv", "xenix", } }, { volume_id_probe_minix, { "minix", } }, { volume_id_probe_gfs, { "gfs", } }, { volume_id_probe_gfs2, { "gfs2", } }, { volume_id_probe_ocfs1, { "ocfs1", } }, { volume_id_probe_ocfs2, { "ocfs2", } }, { volume_id_probe_vxfs, { "vxfs", } }, { volume_id_probe_squashfs, { "squashfs", } }, { volume_id_probe_netware, { "netware", } }, { volume_id_probe_oracleasm, { "oracleasm", } }, }; /* the user can overwrite this log function */ static void default_log(int priority, const char *file, int line, const char *format, ...) { return; } volume_id_log_fn_t volume_id_log_fn = default_log; /** * volume_id_get_prober_by_type: * @type: Type string. * * Lookup the probing function for a specific type. * * Returns: The probing function for the given type, #NULL otherwise. **/ const volume_id_probe_fn_t *volume_id_get_prober_by_type(const char *type) { unsigned int p, n; if (type == NULL) return NULL; for (p = 0; p < ARRAY_SIZE(prober_raid); p++) for (n = 0; prober_raid[p].name[n] != NULL; n++) if (strcmp(type, prober_raid[p].name[n]) == 0) return &prober_raid[p].prober; for (p = 0; p < ARRAY_SIZE(prober_filesystem); p++) for (n = 0; prober_filesystem[p].name[n] != NULL; n++) if (strcmp(type, prober_filesystem[p].name[n]) == 0) return &prober_filesystem[p].prober; return NULL; } /** * volume_id_get_label: * @id: Probing context. * @label: Label string. Must not be freed by the caller. * * Get the label string after a successful probe. Unicode * is translated to UTF-8. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_label(struct volume_id *id, const char **label) { if (id == NULL) return 0; if (label == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *label = id->label; return 1; } /** * volume_id_get_label_raw: * @id: Probing context. * @label: Label byte array. Must not be freed by the caller. * @len: Length of raw label byte array. * * Get the raw label byte array after a successful probe. It may * contain undecoded multibyte character streams. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_label_raw(struct volume_id *id, const uint8_t **label, size_t *len) { if (id == NULL) return 0; if (label == NULL) return 0; if (len == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *label = id->label_raw; *len = id->label_raw_len; return 1; } /** * volume_id_get_uuid: * @id: Probing context. * @uuid: UUID string. Must not be freed by the caller. * * Get the raw UUID string after a successful probe. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_uuid(struct volume_id *id, const char **uuid) { if (id == NULL) return 0; if (uuid == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *uuid = id->uuid; return 1; } /** * volume_id_get_uuid_raw: * @id: Probing context. * @uuid: UUID byte array. Must not be freed by the caller. * @len: Length of raw UUID byte array. * * Get the raw UUID byte array after a successful probe. It may * contain unconverted endianes values. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_uuid_raw(struct volume_id *id, const uint8_t **uuid, size_t *len) { if (id == NULL) return 0; if (uuid == NULL) return 0; if (len == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *uuid = id->uuid_raw; *len = id->uuid_raw_len; return 1; } /** * volume_id_get_usage: * @id: Probing context. * @usage: Usage string. Must not be freed by the caller. * * Get the usage string after a successful probe. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_usage(struct volume_id *id, const char **usage) { if (id == NULL) return 0; if (usage == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *usage = id->usage; return 1; } /** * volume_id_get_type: * @id: Probing context * @type: Type string. Must not be freed by the caller. * * Get the type string after a successful probe. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_type(struct volume_id *id, const char **type) { if (id == NULL) return 0; if (type == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *type = id->type; return 1; } /** * volume_id_get_type_version: * @id: Probing context. * @type_version: Type version string. Must not be freed by the caller. * * Get the Type version string after a successful probe. * * Returns: 1 if the value was set, 0 otherwise. **/ int volume_id_get_type_version(struct volume_id *id, const char **type_version) { if (id == NULL) return 0; if (type_version == NULL) return 0; if (id->usage_id == VOLUME_ID_UNUSED) return 0; *type_version = id->type_version; return 1; } static int needs_encoding(const char c) { if ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || strchr(ALLOWED_CHARS, c)) return 0; return 1; } /** * volume_id_encode_string: * @str: Input string to be encoded. * @str_enc: Target string to store the encoded input. * @len: Location to store the encoded string. The target string, * which may be four times as long as the input string. * * Encode all potentially unsafe characters of a string to the * corresponding hex value prefixed by '\x'. * * Returns: 1 if the entire string was copied, 0 otherwise. **/ int volume_id_encode_string(const char *str, char *str_enc, size_t len) { size_t i, j; if (str == NULL || str_enc == NULL || len == 0) return 0; str_enc[0] = '\0'; for (i = 0, j = 0; str[i] != '\0'; i++) { int seqlen; seqlen = volume_id_utf8_encoded_valid_unichar(&str[i]); if (seqlen > 1) { memcpy(&str_enc[j], &str[i], seqlen); j += seqlen; i += (seqlen-1); } else if (str[i] == '\\' || needs_encoding(str[i])) { sprintf(&str_enc[j], "\\x%02x", (unsigned char) str[i]); j += 4; } else { str_enc[j] = str[i]; j++; } if (j+3 >= len) goto err; } str_enc[j] = '\0'; return 1; err: return 0; } /* run only once into a timeout for unreadable devices */ static int device_is_readable(struct volume_id *id, uint64_t off) { if (volume_id_get_buffer(id, off, 0x200) != NULL) return 1; return 0; } /** * volume_id_probe_raid: * @id: Probing context. * @off: Probing offset relative to the start of the device. * @size: Total size of the device. * * Probe device for all known raid signatures. * * Returns: 0 on successful probe, otherwise negative value. **/ int volume_id_probe_raid(struct volume_id *id, uint64_t off, uint64_t size) { unsigned int i; if (id == NULL) return -EINVAL; if (!device_is_readable(id, off)) return -1; info("probing at offset 0x%llx, size 0x%llx\n", (unsigned long long) off, (unsigned long long) size); for (i = 0; i < ARRAY_SIZE(prober_raid); i++) if (prober_raid[i].prober(id, off, size) == 0) goto found; return -1; found: /* If recognized, we free the allocated buffers */ volume_id_free_buffer(id); return 0; } /** * volume_id_probe_filesystem: * @id: Probing context. * @off: Probing offset relative to the start of the device. * @size: Total size of the device. * * Probe device for all known filesystem signatures. * * Returns: 0 on successful probe, otherwise negative value. **/ int volume_id_probe_filesystem(struct volume_id *id, uint64_t off, uint64_t size) { unsigned int i; if (id == NULL) return -EINVAL; if (!device_is_readable(id, off)) return -1; info("probing at offset 0x%llx, size 0x%llx\n", (unsigned long long) off, (unsigned long long) size); for (i = 0; i < ARRAY_SIZE(prober_filesystem); i++) if (prober_filesystem[i].prober(id, off, size) == 0) goto found; return -1; found: /* If recognized, we free the allocated buffers */ volume_id_free_buffer(id); return 0; } /** * volume_id_probe_all: * @id: Probing context. * @off: Probing offset relative to the start of the device. * @size: Total size of the device. * * Probe device for all known raid and filesystem signatures. * * Returns: 0 on successful probe, otherwise negative value. **/ int volume_id_probe_all(struct volume_id *id, uint64_t off, uint64_t size) { if (id == NULL) return -EINVAL; if (!device_is_readable(id, off)) return -1; /* probe for raid first, because fs probes may be successful on raid members */ if (volume_id_probe_raid(id, off, size) == 0) return 0; if (volume_id_probe_filesystem(id, off, size) == 0) return 0; return -1; } /** * volume_id_probe_raid: * @all_probers_fn: prober function to called for all known probing routines. * @id: Context passed to prober function. * @off: Offset value passed to prober function. * @size: Size value passed to prober function. * @data: Arbitrary data passed to the prober function. * * Run a custom function for all known probing routines. **/ void volume_id_all_probers(all_probers_fn_t all_probers_fn, struct volume_id *id, uint64_t off, uint64_t size, void *data) { unsigned int i; if (all_probers_fn == NULL) return; for (i = 0; i < ARRAY_SIZE(prober_raid); i++) if (all_probers_fn(prober_raid[i].prober, id, off, size, data) != 0) goto out; for (i = 0; i < ARRAY_SIZE(prober_filesystem); i++) if (all_probers_fn(prober_filesystem[i].prober, id, off, size, data) != 0) goto out; out: return; } /** * volume_id_open_fd: * @id: Probing context. * @fd: Open file descriptor of device to read from. * * Create the context for probing. * * Returns: Probing context, or #NULL on failure. **/ struct volume_id *volume_id_open_fd(int fd) { struct volume_id *id; id = malloc(sizeof(struct volume_id)); if (id == NULL) return NULL; memset(id, 0x00, sizeof(struct volume_id)); id->fd = fd; return id; } struct volume_id *volume_id_open_node(const char *path) { struct volume_id *id; int fd; fd = open(path, O_RDONLY); if (fd < 0) { dbg("unable to open '%s'\n", path); return NULL; } id = volume_id_open_fd(fd); if (id == NULL) return NULL; /* close fd on device close */ id->fd_close = 1; return id; } /** * volume_id_close: * @id: Probing context. * * Release probing context and free all associated data. */ void volume_id_close(struct volume_id *id) { if (id == NULL) return; if (id->fd_close != 0) close(id->fd); volume_id_free_buffer(id); free(id); }