/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include #include "alloc-util.h" #include "conf-files.h" #include "env-util.h" #include "fd-util.h" #include "fileio.h" #include "fs-util.h" #include "hwdb-internal.h" #include "hwdb-util.h" #include "label-util.h" #include "mkdir-label.h" #include "nulstr-util.h" #include "path-util.h" #include "sort-util.h" #include "strbuf.h" #include "string-util.h" #include "strv.h" #include "tmpfile-util.h" static const char* const conf_file_dirs[] = { "/etc/udev/hwdb.d", UDEVLIBEXECDIR "/hwdb.d", NULL }; /* * Generic udev properties, key-value database based on modalias strings. * Uses a Patricia/radix trie to index all matches for efficient lookup. */ /* in-memory trie objects */ struct trie { struct trie_node *root; struct strbuf *strings; size_t nodes_count; size_t children_count; size_t values_count; }; struct trie_node { /* prefix, common part for all children of this node */ size_t prefix_off; /* sorted array of pointers to children nodes */ struct trie_child_entry *children; uint8_t children_count; /* sorted array of key-value pairs */ struct trie_value_entry *values; size_t values_count; }; /* children array item with char (0-255) index */ struct trie_child_entry { uint8_t c; struct trie_node *child; }; /* value array item with key-value pairs */ struct trie_value_entry { size_t key_off; size_t value_off; size_t filename_off; uint32_t line_number; uint16_t file_priority; }; static int trie_children_cmp(const struct trie_child_entry *a, const struct trie_child_entry *b) { return CMP(a->c, b->c); } static int node_add_child(struct trie *trie, struct trie_node *node, struct trie_node *node_child, uint8_t c) { /* extend array, add new entry, sort for bisection */ if (!GREEDY_REALLOC(node->children, node->children_count + 1)) return -ENOMEM; trie->children_count++; node->children[node->children_count++] = (struct trie_child_entry) { .c = c, .child = node_child, }; typesafe_qsort(node->children, node->children_count, trie_children_cmp); trie->nodes_count++; return 0; } static struct trie_node *node_lookup(const struct trie_node *node, uint8_t c) { struct trie_child_entry *child; struct trie_child_entry search; search.c = c; child = typesafe_bsearch(&search, node->children, node->children_count, trie_children_cmp); if (child) return child->child; return NULL; } static void trie_node_cleanup(struct trie_node *node) { if (!node) return; for (size_t i = 0; i < node->children_count; i++) trie_node_cleanup(node->children[i].child); free(node->children); free(node->values); free(node); } static struct trie* trie_free(struct trie *trie) { if (!trie) return NULL; trie_node_cleanup(trie->root); strbuf_free(trie->strings); return mfree(trie); } DEFINE_TRIVIAL_CLEANUP_FUNC(struct trie*, trie_free); static int trie_values_cmp(const struct trie_value_entry *a, const struct trie_value_entry *b, struct trie *trie) { return strcmp(trie->strings->buf + a->key_off, trie->strings->buf + b->key_off); } static int trie_node_add_value(struct trie *trie, struct trie_node *node, const char *key, const char *value, const char *filename, uint16_t file_priority, uint32_t line_number, bool compat) { ssize_t k, v, fn = 0; k = strbuf_add_string(trie->strings, key); if (k < 0) return k; v = strbuf_add_string(trie->strings, value); if (v < 0) return v; if (!compat) { fn = strbuf_add_string(trie->strings, filename); if (fn < 0) return fn; } if (node->values_count) { struct trie_value_entry search = { .key_off = k, .value_off = v, }, *val; val = typesafe_bsearch_r(&search, node->values, node->values_count, trie_values_cmp, trie); if (val) { /* At this point we have 2 identical properties on the same match-string. * Since we process files in order, we just replace the previous value. */ val->value_off = v; val->filename_off = fn; val->file_priority = file_priority; val->line_number = line_number; return 0; } } /* extend array, add new entry, sort for bisection */ if (!GREEDY_REALLOC(node->values, node->values_count + 1)) return -ENOMEM; trie->values_count++; node->values[node->values_count++] = (struct trie_value_entry) { .key_off = k, .value_off = v, .filename_off = fn, .file_priority = file_priority, .line_number = line_number, }; typesafe_qsort_r(node->values, node->values_count, trie_values_cmp, trie); return 0; } static int trie_insert(struct trie *trie, struct trie_node *node, const char *search, const char *key, const char *value, const char *filename, uint16_t file_priority, uint32_t line_number, bool compat) { int r = 0; for (size_t i = 0;; i++) { size_t p; char c; struct trie_node *child; for (p = 0; (c = trie->strings->buf[node->prefix_off + p]); p++) { _cleanup_free_ struct trie_node *new_child = NULL; _cleanup_free_ char *s = NULL; ssize_t off; if (c == search[i + p]) continue; /* split node */ new_child = new(struct trie_node, 1); if (!new_child) return -ENOMEM; /* move values from parent to child */ *new_child = (struct trie_node) { .prefix_off = node->prefix_off + p+1, .children = node->children, .children_count = node->children_count, .values = node->values, .values_count = node->values_count, }; /* update parent; use strdup() because the source gets realloc()d */ s = strndup(trie->strings->buf + node->prefix_off, p); if (!s) return -ENOMEM; off = strbuf_add_string_full(trie->strings, s, p); if (off < 0) return off; *node = (struct trie_node) { .prefix_off = off, }; r = node_add_child(trie, node, new_child, c); if (r < 0) return r; new_child = NULL; /* avoid cleanup */ break; } i += p; c = search[i]; if (c == '\0') return trie_node_add_value(trie, node, key, value, filename, file_priority, line_number, compat); child = node_lookup(node, c); if (!child) { _cleanup_free_ struct trie_node *new_child = NULL; ssize_t off; /* new child */ new_child = new(struct trie_node, 1); if (!new_child) return -ENOMEM; off = strbuf_add_string(trie->strings, search + i+1); if (off < 0) return off; *new_child = (struct trie_node) { .prefix_off = off, }; r = node_add_child(trie, node, new_child, c); if (r < 0) return r; child = TAKE_PTR(new_child); return trie_node_add_value(trie, child, key, value, filename, file_priority, line_number, compat); } node = child; } } struct trie_f { struct trie *trie; uint64_t strings_off; uint64_t nodes_count; uint64_t children_count; uint64_t values_count; }; /* calculate the storage space for the nodes, children arrays, value arrays */ static void trie_store_nodes_size(struct trie_f *trie, struct trie_node *node, bool compat) { for (uint64_t i = 0; i < node->children_count; i++) trie_store_nodes_size(trie, node->children[i].child, compat); trie->strings_off += sizeof(struct trie_node_f); for (uint64_t i = 0; i < node->children_count; i++) trie->strings_off += sizeof(struct trie_child_entry_f); for (uint64_t i = 0; i < node->values_count; i++) trie->strings_off += compat ? sizeof(struct trie_value_entry_f) : sizeof(struct trie_value_entry2_f); } static int64_t trie_store_nodes(struct trie_f *trie, FILE *f, struct trie_node *node, bool compat) { _cleanup_free_ struct trie_child_entry_f *children = NULL; int64_t node_off; assert(trie); assert(f); assert(node); if (node->children_count) { children = new(struct trie_child_entry_f, node->children_count); if (!children) return -ENOMEM; } /* post-order recursion */ for (uint64_t i = 0; i < node->children_count; i++) { int64_t child_off; child_off = trie_store_nodes(trie, f, node->children[i].child, compat); if (child_off < 0) return child_off; children[i] = (struct trie_child_entry_f) { .c = node->children[i].c, .child_off = htole64(child_off), }; } struct trie_node_f n = { .prefix_off = htole64(trie->strings_off + node->prefix_off), .children_count = node->children_count, .values_count = htole64(node->values_count), }; /* write node */ node_off = ftello(f); fwrite(&n, sizeof(struct trie_node_f), 1, f); trie->nodes_count++; /* append children array */ if (node->children_count) { fwrite(children, sizeof(struct trie_child_entry_f), node->children_count, f); trie->children_count += node->children_count; } /* append values array */ for (uint64_t i = 0; i < node->values_count; i++) { struct trie_value_entry2_f v = { .key_off = htole64(trie->strings_off + node->values[i].key_off), .value_off = htole64(trie->strings_off + node->values[i].value_off), .filename_off = htole64(trie->strings_off + node->values[i].filename_off), .line_number = htole32(node->values[i].line_number), .file_priority = htole16(node->values[i].file_priority), }; fwrite(&v, compat ? sizeof(struct trie_value_entry_f) : sizeof(struct trie_value_entry2_f), 1, f); } trie->values_count += node->values_count; return node_off; } static int trie_store(struct trie *trie, const char *filename, bool compat) { struct trie_f t = { .trie = trie, .strings_off = sizeof(struct trie_header_f), }; _cleanup_(unlink_and_freep) char *filename_tmp = NULL; _cleanup_fclose_ FILE *f = NULL; int64_t pos, root_off, size; int r; assert(trie); assert(filename); /* calculate size of header, nodes, children entries, value entries */ trie_store_nodes_size(&t, trie->root, compat); r = fopen_tmpfile_linkable(filename, O_WRONLY|O_CLOEXEC, &filename_tmp, &f); if (r < 0) return r; if (fchmod(fileno(f), 0444) < 0) return -errno; struct trie_header_f h = { .signature = HWDB_SIG, .tool_version = htole64(PROJECT_VERSION), .header_size = htole64(sizeof(struct trie_header_f)), .node_size = htole64(sizeof(struct trie_node_f)), .child_entry_size = htole64(sizeof(struct trie_child_entry_f)), .value_entry_size = htole64(compat ? sizeof(struct trie_value_entry_f) : sizeof(struct trie_value_entry2_f)), }; /* write nodes */ if (fseeko(f, sizeof(struct trie_header_f), SEEK_SET) < 0) return -errno; root_off = trie_store_nodes(&t, f, trie->root, compat); h.nodes_root_off = htole64(root_off); pos = ftello(f); h.nodes_len = htole64(pos - sizeof(struct trie_header_f)); /* write string buffer */ fwrite(trie->strings->buf, trie->strings->len, 1, f); h.strings_len = htole64(trie->strings->len); /* write header */ size = ftello(f); h.file_size = htole64(size); if (fseeko(f, 0, SEEK_SET) < 0) return -errno; fwrite(&h, sizeof(struct trie_header_f), 1, f); r = flink_tmpfile(f, filename_tmp, filename, LINK_TMPFILE_REPLACE|LINK_TMPFILE_SYNC); if (r < 0) return r; /* write succeeded */ log_debug("=== trie on-disk ==="); log_debug("size: %8"PRIi64" bytes", size); log_debug("header: %8zu bytes", sizeof(struct trie_header_f)); log_debug("nodes: %8"PRIu64" bytes (%8"PRIu64")", t.nodes_count * sizeof(struct trie_node_f), t.nodes_count); log_debug("child pointers: %8"PRIu64" bytes (%8"PRIu64")", t.children_count * sizeof(struct trie_child_entry_f), t.children_count); log_debug("value pointers: %8"PRIu64" bytes (%8"PRIu64")", t.values_count * (compat ? sizeof(struct trie_value_entry_f) : sizeof(struct trie_value_entry2_f)), t.values_count); log_debug("string store: %8zu bytes", trie->strings->len); log_debug("strings start: %8"PRIu64, t.strings_off); return 0; } static int insert_data(struct trie *trie, char **match_list, char *line, const char *filename, uint16_t file_priority, uint32_t line_number, bool compat) { char *value; assert(line[0] == ' '); value = strchr(line, '='); if (!value) return log_syntax(NULL, LOG_WARNING, filename, line_number, SYNTHETIC_ERRNO(EINVAL), "Key-value pair expected but got \"%s\", ignoring.", line); value[0] = '\0'; value++; /* Replace multiple leading spaces by a single space */ while (isblank(line[0]) && isblank(line[1])) line++; if (isempty(line + 1)) return log_syntax(NULL, LOG_WARNING, filename, line_number, SYNTHETIC_ERRNO(EINVAL), "Empty key in \"%s=%s\", ignoring.", line, value); STRV_FOREACH(entry, match_list) trie_insert(trie, trie->root, *entry, line, value, filename, file_priority, line_number, compat); return 0; } static int import_file(struct trie *trie, const char *filename, uint16_t file_priority, bool compat) { enum { HW_NONE, HW_MATCH, HW_DATA, } state = HW_NONE; _cleanup_fclose_ FILE *f = NULL; _cleanup_strv_free_ char **match_list = NULL; uint32_t line_number = 0; int r, err; f = fopen(filename, "re"); if (!f) return -errno; for (;;) { _cleanup_free_ char *line = NULL; size_t len; char *pos; r = read_line_full(f, LONG_LINE_MAX, READ_LINE_NOT_A_TTY, &line); if (r < 0) return r; if (r == 0) break; line_number++; /* comment line */ if (line[0] == '#') continue; /* strip trailing comment */ pos = strchr(line, '#'); if (pos) pos[0] = '\0'; /* strip trailing whitespace */ len = strlen(line); while (len > 0 && isspace(line[len-1])) len--; line[len] = '\0'; switch (state) { case HW_NONE: if (len == 0) break; if (line[0] == ' ') { r = log_syntax(NULL, LOG_WARNING, filename, line_number, SYNTHETIC_ERRNO(EINVAL), "Match expected but got indented property \"%s\", ignoring line.", line); break; } /* start of record, first match */ state = HW_MATCH; err = strv_extend(&match_list, line); if (err < 0) return err; break; case HW_MATCH: if (len == 0) { r = log_syntax(NULL, LOG_WARNING, filename, line_number, SYNTHETIC_ERRNO(EINVAL), "Property expected, ignoring record with no properties."); state = HW_NONE; match_list = strv_free(match_list); break; } if (line[0] != ' ') { /* another match */ err = strv_extend(&match_list, line); if (err < 0) return err; break; } /* first data */ state = HW_DATA; err = insert_data(trie, match_list, line, filename, file_priority, line_number, compat); if (err < 0) r = err; break; case HW_DATA: if (len == 0) { /* end of record */ state = HW_NONE; match_list = strv_free(match_list); break; } if (line[0] != ' ') { r = log_syntax(NULL, LOG_WARNING, filename, line_number, SYNTHETIC_ERRNO(EINVAL), "Property or empty line expected, got \"%s\", ignoring record.", line); state = HW_NONE; match_list = strv_free(match_list); break; } err = insert_data(trie, match_list, line, filename, file_priority, line_number, compat); if (err < 0) r = err; break; }; } if (state == HW_MATCH) log_syntax(NULL, LOG_WARNING, filename, line_number, 0, "Property expected, ignoring record with no properties."); return r; } int hwdb_update(const char *root, const char *hwdb_bin_dir, bool strict, bool compat) { _cleanup_free_ char *hwdb_bin = NULL; _cleanup_(trie_freep) struct trie *trie = NULL; _cleanup_strv_free_ char **files = NULL; uint16_t file_priority = 1; int r = 0, err; /* The argument 'compat' controls the format version of database. If false, then hwdb.bin will be * created with additional information such that priority, line number, and filename of database * source. If true, then hwdb.bin will be created without the information. systemd-hwdb command * should set the argument false, and 'udevadm hwdb' command should set it true. */ hwdb_bin = path_join(root, hwdb_bin_dir ?: "/etc/udev", "hwdb.bin"); if (!hwdb_bin) return -ENOMEM; trie = new0(struct trie, 1); if (!trie) return -ENOMEM; /* string store */ trie->strings = strbuf_new(); if (!trie->strings) return -ENOMEM; /* index */ trie->root = new0(struct trie_node, 1); if (!trie->root) return -ENOMEM; trie->nodes_count++; err = conf_files_list_strv(&files, ".hwdb", root, 0, conf_file_dirs); if (err < 0) return log_error_errno(err, "Failed to enumerate hwdb files: %m"); if (strv_isempty(files)) { if (unlink(hwdb_bin) < 0) { if (errno != ENOENT) return log_error_errno(errno, "Failed to remove compiled hwdb database %s: %m", hwdb_bin); log_info("No hwdb files found, skipping."); } else log_info("No hwdb files found, compiled hwdb database %s removed.", hwdb_bin); return 0; } STRV_FOREACH(f, files) { log_debug("Reading file \"%s\"", *f); err = import_file(trie, *f, file_priority++, compat); if (err < 0 && strict) r = err; } strbuf_complete(trie->strings); log_debug("=== trie in-memory ==="); log_debug("nodes: %8zu bytes (%8zu)", trie->nodes_count * sizeof(struct trie_node), trie->nodes_count); log_debug("children arrays: %8zu bytes (%8zu)", trie->children_count * sizeof(struct trie_child_entry), trie->children_count); log_debug("values arrays: %8zu bytes (%8zu)", trie->values_count * sizeof(struct trie_value_entry), trie->values_count); log_debug("strings: %8zu bytes", trie->strings->len); log_debug("strings incoming: %8zu bytes (%8zu)", trie->strings->in_len, trie->strings->in_count); log_debug("strings dedup'ed: %8zu bytes (%8zu)", trie->strings->dedup_len, trie->strings->dedup_count); (void) mkdir_parents_label(hwdb_bin, 0755); err = trie_store(trie, hwdb_bin, compat); if (err < 0) return log_error_errno(err, "Failed to write database %s: %m", hwdb_bin); err = label_fix(hwdb_bin, 0); if (err < 0) return err; return r; } int hwdb_query(const char *modalias, const char *root) { _cleanup_(sd_hwdb_unrefp) sd_hwdb *hwdb = NULL; const char *key, *value; int r; assert(modalias); if (!isempty(root)) NULSTR_FOREACH(p, HWDB_BIN_PATHS) { _cleanup_free_ char *hwdb_bin = NULL; hwdb_bin = path_join(root, p); if (!hwdb_bin) return -ENOMEM; r = sd_hwdb_new_from_path(hwdb_bin, &hwdb); if (r >= 0) break; } else r = sd_hwdb_new(&hwdb); if (r < 0) return r; SD_HWDB_FOREACH_PROPERTY(hwdb, modalias, key, value) printf("%s=%s\n", key, value); return 0; } bool hwdb_should_reload(sd_hwdb *hwdb) { bool found = false; struct stat st; if (!hwdb) return false; if (!hwdb->f) return false; /* if hwdb.bin doesn't exist anywhere, we need to update */ NULSTR_FOREACH(p, HWDB_BIN_PATHS) if (stat(p, &st) >= 0) { found = true; break; } if (!found) return true; if (timespec_load(&hwdb->st.st_mtim) != timespec_load(&st.st_mtim)) return true; return false; } int hwdb_bypass(void) { int r; r = getenv_bool("SYSTEMD_HWDB_UPDATE_BYPASS"); if (r < 0 && r != -ENXIO) log_debug_errno(r, "Failed to parse $SYSTEMD_HWDB_UPDATE_BYPASS, assuming no."); if (r <= 0) return false; log_debug("$SYSTEMD_HWDB_UPDATE_BYPASS is enabled, skipping execution."); return true; }