/* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2011 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "lib.h" #include "config.h" #include "crc.h" #include "device.h" #include "str_list.h" #include "toolcontext.h" #include "lvm-file.h" #include "memlock.h" #include #include #include #include #include #include #include #include static const char *_config_source_names[] = { [CONFIG_UNDEFINED] = "undefined", [CONFIG_FILE] = "file", [CONFIG_MERGED_FILES] = "merged files", [CONFIG_STRING] = "string", [CONFIG_PROFILE_COMMAND] = "command profile", [CONFIG_PROFILE_METADATA] = "metadata profile", [CONFIG_FILE_SPECIAL] = "special purpose" }; struct config_file { off_t st_size; char *filename; int exists; int keep_open; struct device *dev; }; struct config_source { config_source_t type; struct timespec timestamp; union { struct config_file *file; struct config_file *profile; } source; struct cft_check_handle *check_handle; }; /* * Map each ID to respective definition of the configuration item. */ static struct cfg_def_item _cfg_def_items[CFG_COUNT + 1] = { #define cfg_section(id, name, parent, flags, since_version, deprecated_since_version, deprecation_comment, comment) {id, parent, name, CFG_TYPE_SECTION, {0}, flags, since_version, {0}, deprecated_since_version, deprecation_comment, comment}, #define cfg(id, name, parent, flags, type, default_value, since_version, unconfigured_value, deprecated_since_version, deprecation_comment, comment) {id, parent, name, type, {.v_##type = default_value}, flags, since_version, {.v_UNCONFIGURED = unconfigured_value}, deprecated_since_version, deprecation_comment, comment}, #define cfg_runtime(id, name, parent, flags, type, since_version, deprecated_since_version, deprecation_comment, comment) {id, parent, name, type, {.fn_##type = get_default_##id}, flags | CFG_DEFAULT_RUN_TIME, since_version, {.fn_UNCONFIGURED = get_default_unconfigured_##id}, deprecated_since_version, deprecation_comment, comment}, #define cfg_array(id, name, parent, flags, types, default_value, since_version, unconfigured_value, deprecated_since_version, deprecation_comment, comment) {id, parent, name, CFG_TYPE_ARRAY | types, {.v_CFG_TYPE_STRING = default_value}, flags, since_version, {.v_UNCONFIGURED = unconfigured_value}, deprecated_since_version, deprecation_comment, comment}, #define cfg_array_runtime(id, name, parent, flags, types, since_version, deprecated_since_version, deprecation_comment, comment) {id, parent, name, CFG_TYPE_ARRAY | types, {.fn_CFG_TYPE_STRING = get_default_##id}, flags | CFG_DEFAULT_RUN_TIME, since_version, {.fn_UNCONFIGURED = get_default_unconfigured_##id}, deprecated_since_version, deprecation_comment, comment}, #include "config_settings.h" #undef cfg_section #undef cfg #undef cfg_runtime #undef cfg_array #undef cfg_array_runtime }; config_source_t config_get_source_type(struct dm_config_tree *cft) { struct config_source *cs = dm_config_get_custom(cft); return cs ? cs->type : CONFIG_UNDEFINED; } static inline int _is_profile_based_config_source(config_source_t source) { return (source == CONFIG_PROFILE_COMMAND) || (source == CONFIG_PROFILE_METADATA); } static inline int _is_file_based_config_source(config_source_t source) { return (source == CONFIG_FILE) || (source == CONFIG_FILE_SPECIAL) || _is_profile_based_config_source(source); } /* * public interface */ struct dm_config_tree *config_open(config_source_t source, const char *filename, int keep_open) { struct dm_config_tree *cft = dm_config_create(); struct config_source *cs; struct config_file *cf; if (!cft) return NULL; if (!(cs = dm_pool_zalloc(cft->mem, sizeof(struct config_source)))) { log_error("Failed to allocate config source."); goto fail; } if (_is_file_based_config_source(source)) { if (!(cf = dm_pool_zalloc(cft->mem, sizeof(struct config_file)))) { log_error("Failed to allocate config file."); goto fail; } cf->keep_open = keep_open; if (filename && !(cf->filename = dm_pool_strdup(cft->mem, filename))) { log_error("Failed to duplicate filename."); goto fail; } cs->source.file = cf; } cs->type = source; dm_config_set_custom(cft, cs); return cft; fail: dm_config_destroy(cft); return NULL; } /* * Doesn't populate filename if the file is empty. */ int config_file_check(struct dm_config_tree *cft, const char **filename, struct stat *info) { struct config_source *cs = dm_config_get_custom(cft); struct config_file *cf; struct stat _info; if (!_is_file_based_config_source(cs->type)) { log_error(INTERNAL_ERROR "config_file_check: expected file, special file or " "profile config source, found %s config source.", _config_source_names[cs->type]); return 0; } if (!info) info = &_info; cf = cs->source.file; if (stat(cf->filename, info)) { log_sys_error("stat", cf->filename); cf->exists = 0; return 0; } if (!S_ISREG(info->st_mode)) { log_error("%s is not a regular file", cf->filename); cf->exists = 0; return 0; } lvm_stat_ctim(&cs->timestamp, info); cf->exists = 1; cf->st_size = info->st_size; if (info->st_size == 0) log_verbose("%s is empty", cf->filename); else if (filename) *filename = cf->filename; return 1; } /* * Return 1 if config files ought to be reloaded */ int config_file_changed(struct dm_config_tree *cft) { struct config_source *cs = dm_config_get_custom(cft); struct config_file *cf; struct stat info; struct timespec ts; if (cs->type != CONFIG_FILE) { log_error(INTERNAL_ERROR "config_file_changed: expected file config source, " "found %s config source.", _config_source_names[cs->type]); return 0; } cf = cs->source.file; if (!cf->filename) return 0; if (stat(cf->filename, &info) == -1) { /* Ignore a deleted config file: still use original data */ if (errno == ENOENT) { if (!cf->exists) return 0; log_very_verbose("Config file %s has disappeared!", cf->filename); goto reload; } log_sys_error("stat", cf->filename); log_error("Failed to reload configuration files"); return 0; } if (!S_ISREG(info.st_mode)) { log_error("Configuration file %s is not a regular file", cf->filename); goto reload; } /* Unchanged? */ lvm_stat_ctim(&ts, &info); if ((timespeccmp(&cs->timestamp, &ts, ==)) && cf->st_size == info.st_size) return 0; reload: log_verbose("Detected config file change to %s", cf->filename); return 1; } void config_destroy(struct dm_config_tree *cft) { struct config_source *cs; struct config_file *cf; if (!cft) return; cs = dm_config_get_custom(cft); if (_is_file_based_config_source(cs->type)) { cf = cs->source.file; if (cf && cf->dev) if (!dev_close(cf->dev)) stack; } dm_config_destroy(cft); } struct dm_config_tree *config_file_open_and_read(const char *config_file, config_source_t source, struct cmd_context *cmd) { struct dm_config_tree *cft; struct stat info; if (!(cft = config_open(source, config_file, 0))) { log_error("config_tree allocation failed"); return NULL; } /* Is there a config file? */ if (stat(config_file, &info) == -1) { /* Profile file must be present! */ if (errno == ENOENT && (!_is_profile_based_config_source(source))) return cft; log_sys_error("stat", config_file); goto bad; } log_very_verbose("Loading config file: %s", config_file); if (!config_file_read(cft)) { log_error("Failed to load config file %s", config_file); goto bad; } return cft; bad: config_destroy(cft); return NULL; } struct dm_config_tree *get_config_tree_by_source(struct cmd_context *cmd, config_source_t source) { struct dm_config_tree *cft = cmd->cft; struct config_source *cs; while (cft) { cs = dm_config_get_custom(cft); if (cs && cs->type == source) return cft; cft = cft->cascade; } return NULL; } /* * Returns config tree if it was removed. */ struct dm_config_tree *remove_config_tree_by_source(struct cmd_context *cmd, config_source_t source) { struct dm_config_tree *previous_cft = NULL; struct dm_config_tree *cft = cmd->cft; struct config_source *cs; while (cft) { cs = dm_config_get_custom(cft); if (cs && (cs->type == source)) { if (previous_cft) { previous_cft->cascade = cft->cascade; cmd->cft = previous_cft; } else cmd->cft = cft->cascade; cft->cascade = NULL; break; } previous_cft = cft; cft = cft->cascade; } return cft; } struct cft_check_handle *get_config_tree_check_handle(struct cmd_context *cmd, struct dm_config_tree *cft) { struct config_source *cs; if (!(cs = dm_config_get_custom(cft))) return NULL; if (cs->check_handle) goto out; /* * Attach config check handle to all config types but * CONFIG_FILE_SPECIAL - this one uses its own check * methods and the cft_check_handle is not applicable here. */ if (cs->type != CONFIG_FILE_SPECIAL) { if (!(cs->check_handle = dm_pool_zalloc(cft->mem, sizeof(*cs->check_handle)))) { log_error("Failed to allocate configuration check handle."); return NULL; } cs->check_handle->cft = cft; cs->check_handle->cmd = cmd; } out: return cs->check_handle; } int override_config_tree_from_string(struct cmd_context *cmd, const char *config_settings) { struct dm_config_tree *cft_new; struct config_source *cs = dm_config_get_custom(cmd->cft); /* * Follow this sequence: * CONFIG_STRING -> CONFIG_PROFILE_COMMAND -> CONFIG_PROFILE_METADATA -> CONFIG_FILE/CONFIG_MERGED_FILES */ if (cs->type == CONFIG_STRING) { log_error(INTERNAL_ERROR "override_config_tree_from_string: " "config cascade already contains a string config."); return 0; } if (!(cft_new = dm_config_from_string(config_settings))) { log_error("Failed to set overridden configuration entries."); return 0; } if (cmd->is_interactive && !config_force_check(cmd, CONFIG_STRING, cft_new)) { log_error("Ignoring invalid configuration string."); dm_config_destroy(cft_new); return_0; } if (!(cs = dm_pool_zalloc(cft_new->mem, sizeof(struct config_source)))) { log_error("Failed to allocate config source."); dm_config_destroy(cft_new); return 0; } cs->type = CONFIG_STRING; dm_config_set_custom(cft_new, cs); cmd->cft = dm_config_insert_cascaded_tree(cft_new, cmd->cft); return 1; } static int _override_config_tree_from_command_profile(struct cmd_context *cmd, struct profile *profile) { struct dm_config_tree *cft = cmd->cft, *cft_previous = NULL; struct config_source *cs = dm_config_get_custom(cft); if (cs->type == CONFIG_STRING) { cft_previous = cft; cft = cft->cascade; cs = dm_config_get_custom(cft); } if (cs->type == CONFIG_PROFILE_COMMAND) { log_error(INTERNAL_ERROR "_override_config_tree_from_command_profile: " "config cascade already contains a command profile config."); return 0; } if (cft_previous) dm_config_insert_cascaded_tree(cft_previous, profile->cft); else cmd->cft = profile->cft; dm_config_insert_cascaded_tree(profile->cft, cft); return 1; } static int _override_config_tree_from_metadata_profile(struct cmd_context *cmd, struct profile *profile) { struct dm_config_tree *cft = cmd->cft, *cft_previous = NULL; struct config_source *cs = dm_config_get_custom(cft); if (cs->type == CONFIG_STRING) { cft_previous = cft; cft = cft->cascade; } if (cs->type == CONFIG_PROFILE_COMMAND) { cft_previous = cft; cft = cft->cascade; } cs = dm_config_get_custom(cft); if (cs->type == CONFIG_PROFILE_METADATA) { log_error(INTERNAL_ERROR "_override_config_tree_from_metadata_profile: " "config cascade already contains a metadata profile config."); return 0; } if (cft_previous) dm_config_insert_cascaded_tree(cft_previous, profile->cft); else cmd->cft = profile->cft; dm_config_insert_cascaded_tree(profile->cft, cft); return 1; } int override_config_tree_from_profile(struct cmd_context *cmd, struct profile *profile) { /* * Follow this sequence: * CONFIG_STRING -> CONFIG_PROFILE_COMMAND -> CONFIG_PROFILE_METADATA -> CONFIG_FILE/CONFIG_MERGED_FILES */ if (!profile->cft && !load_profile(cmd, profile)) return_0; if (profile->source == CONFIG_PROFILE_COMMAND) return _override_config_tree_from_command_profile(cmd, profile); else if (profile->source == CONFIG_PROFILE_METADATA) return _override_config_tree_from_metadata_profile(cmd, profile); log_error(INTERNAL_ERROR "override_config_tree_from_profile: incorrect profile source type"); return 0; } /* * When checksum_only is set, the checksum of buffer is only matched * and function avoids parsing of mda into config tree which * remains unmodified and should not be used. */ int config_file_read_fd(struct dm_config_tree *cft, struct device *dev, off_t offset, size_t size, off_t offset2, size_t size2, checksum_fn_t checksum_fn, uint32_t checksum, int checksum_only, int no_dup_node_check) { char *fb, *fe; int r = 0; int use_mmap = 1; off_t mmap_offset = 0; char *buf = NULL; struct config_source *cs = dm_config_get_custom(cft); if (!_is_file_based_config_source(cs->type)) { log_error(INTERNAL_ERROR "config_file_read_fd: expected file, special file " "or profile config source, found %s config source.", _config_source_names[cs->type]); return 0; } /* Only use mmap with regular files */ if (!(dev->flags & DEV_REGULAR) || size2) use_mmap = 0; if (use_mmap) { mmap_offset = offset % lvm_getpagesize(); /* memory map the file */ fb = mmap((caddr_t) 0, size + mmap_offset, PROT_READ, MAP_PRIVATE, dev_fd(dev), offset - mmap_offset); if (fb == (caddr_t) (-1)) { log_sys_error("mmap", dev_name(dev)); goto out; } fb = fb + mmap_offset; } else { if (!(buf = dm_malloc(size + size2))) { log_error("Failed to allocate circular buffer."); return 0; } if (!dev_read_circular(dev, (uint64_t) offset, size, (uint64_t) offset2, size2, buf)) { goto out; } fb = buf; } if (checksum_fn && checksum != (checksum_fn(checksum_fn(INITIAL_CRC, (const uint8_t *)fb, size), (const uint8_t *)(fb + size), size2))) { log_error("%s: Checksum error", dev_name(dev)); goto out; } if (!checksum_only) { fe = fb + size + size2; if (no_dup_node_check) { if (!dm_config_parse_without_dup_node_check(cft, fb, fe)) goto_out; } else { if (!dm_config_parse(cft, fb, fe)) goto_out; } } r = 1; out: if (!use_mmap) dm_free(buf); else { /* unmap the file */ if (munmap(fb - mmap_offset, size + mmap_offset)) { log_sys_error("munmap", dev_name(dev)); r = 0; } } return r; } int config_file_read(struct dm_config_tree *cft) { const char *filename = NULL; struct config_source *cs = dm_config_get_custom(cft); struct config_file *cf; struct stat info; int r; if (!config_file_check(cft, &filename, &info)) return_0; /* Nothing to do. E.g. empty file. */ if (!filename) return 1; cf = cs->source.file; if (!cf->dev) { if (!(cf->dev = dev_create_file(filename, NULL, NULL, 1))) return_0; if (!dev_open_readonly_buffered(cf->dev)) { dev_destroy_file(cf->dev); cf->dev = NULL; return_0; } } r = config_file_read_fd(cft, cf->dev, 0, (size_t) info.st_size, 0, 0, (checksum_fn_t) NULL, 0, 0, 0); if (!cf->keep_open) { if (!dev_close(cf->dev)) stack; cf->dev = NULL; } return r; } struct timespec config_file_timestamp(struct dm_config_tree *cft) { struct config_source *cs = dm_config_get_custom(cft); return cs->timestamp; } #define cfg_def_get_item_p(id) (&_cfg_def_items[id]) #define cfg_def_get_default_unconfigured_value_hint(cmd,item) ((item->flags & CFG_DEFAULT_RUN_TIME) ? item->default_unconfigured_value.fn_UNCONFIGURED(cmd) : item->default_unconfigured_value.v_UNCONFIGURED) #define cfg_def_get_default_value_hint(cmd,item,type,profile) ((item->flags & CFG_DEFAULT_RUN_TIME) ? item->default_value.fn_##type(cmd,profile) : item->default_value.v_##type) #define cfg_def_get_default_value(cmd,item,type,profile) (item->flags & CFG_DEFAULT_UNDEFINED ? 0 : cfg_def_get_default_value_hint(cmd,item,type,profile)) static int _cfg_def_make_path(char *buf, size_t buf_size, int id, cfg_def_item_t *item, int xlate) { int variable = item->flags & CFG_NAME_VARIABLE; int parent_id = item->parent; int count, n; if (id == parent_id) { buf[0] = '\0'; return 0; } count = _cfg_def_make_path(buf, buf_size, parent_id, cfg_def_get_item_p(parent_id), xlate); if ((n = dm_snprintf(buf + count, buf_size - count, "%s%s%s%s", count ? "/" : "", xlate && variable ? "<" : "", !xlate && variable ? "#" : item->name, xlate && variable ? ">" : "")) < 0) { log_error(INTERNAL_ERROR "_cfg_def_make_path: supplied buffer too small for %s/%s", cfg_def_get_item_p(parent_id)->name, item->name); buf[0] = '\0'; return 0; } return count + n; } int config_def_get_path(char *buf, size_t buf_size, int id) { return _cfg_def_make_path(buf, buf_size, id, cfg_def_get_item_p(id), 0); } static void _get_type_name(char *buf, size_t buf_size, cfg_def_type_t type) { (void) dm_snprintf(buf, buf_size, "%s%s%s%s%s%s", (type & CFG_TYPE_ARRAY) ? ((type & ~CFG_TYPE_ARRAY) ? " array with values of type:" : " array") : "", (type & CFG_TYPE_SECTION) ? " section" : "", (type & CFG_TYPE_BOOL) ? " boolean" : "", (type & CFG_TYPE_INT) ? " integer" : "", (type & CFG_TYPE_FLOAT) ? " float" : "", (type & CFG_TYPE_STRING) ? " string" : ""); } static void _log_type_error(const char *path, cfg_def_type_t actual, cfg_def_type_t expected, int suppress_messages) { static char actual_type_name[128]; static char expected_type_name[128]; _get_type_name(actual_type_name, sizeof(actual_type_name), actual); _get_type_name(expected_type_name, sizeof(expected_type_name), expected); log_warn_suppress(suppress_messages, "WARNING: Configuration setting \"%s\" has invalid type. " "Found%s but expected%s.", path, actual_type_name, expected_type_name); } static struct dm_config_value *_get_def_array_values(struct cmd_context *cmd, struct dm_config_tree *cft, const cfg_def_item_t *def, uint32_t format_flags) { const char *def_enc_value; char *enc_value, *token, *p, *r; struct dm_config_value *array = NULL, *v = NULL, *oldv = NULL; def_enc_value = cfg_def_get_default_value(cmd, def, CFG_TYPE_ARRAY, NULL); if (!def_enc_value) { if (!(array = dm_config_create_value(cft))) { log_error("Failed to create default empty array for %s.", def->name); return NULL; } array->type = DM_CFG_EMPTY_ARRAY; dm_config_value_set_format_flags(array, format_flags); return array; } if (!(p = token = enc_value = dm_strdup(def_enc_value))) { log_error("_get_def_array_values: dm_strdup failed"); return NULL; } /* Proper value always starts with '#'. */ if (token[0] != '#') goto bad; while (token) { /* Move to type identifier. Error on no char. */ token++; if (!token[0]) goto bad; /* Move to the actual value and decode any "##" into "#". */ p = token + 1; while ((p = strchr(p, '#')) && p[1] == '#') { memmove(p, p + 1, strlen(p)); p++; } /* Separate the value out of the whole string. */ if (p) p[0] = '\0'; if (!(v = dm_config_create_value(cft))) { log_error("Failed to create default config array value for %s.", def->name); dm_free(enc_value); return NULL; } dm_config_value_set_format_flags(v, format_flags); if (oldv) oldv->next = v; if (!array) array = v; switch (toupper(token[0])) { case 'I': case 'B': v->v.i = strtoll(token + 1, &r, 10); if (*r) goto bad; v->type = DM_CFG_INT; break; case 'F': v->v.f = strtod(token + 1, &r); if (*r) goto bad; v->type = DM_CFG_FLOAT; break; case 'S': if (!(r = dm_pool_strdup(cft->mem, token + 1))) { dm_free(enc_value); log_error("Failed to duplicate token for default " "array value of %s.", def->name); return NULL; } v->v.str = r; v->type = DM_CFG_STRING; break; default: goto bad; } oldv = v; token = p; } dm_free(enc_value); return array; bad: log_error(INTERNAL_ERROR "Default array value malformed for \"%s\", " "value: \"%s\", token: \"%s\".", def->name, def->default_value.v_CFG_TYPE_STRING, token); dm_free(enc_value); return NULL; } static int _config_def_check_node_single_value(struct cft_check_handle *handle, const char *rp, const struct dm_config_value *v, const cfg_def_item_t *def) { /* Check empty array first if present. */ if (v->type == DM_CFG_EMPTY_ARRAY) { if (!(def->type & CFG_TYPE_ARRAY)) { _log_type_error(rp, CFG_TYPE_ARRAY, def->type, handle->suppress_messages); return 0; } if (!(def->flags & CFG_ALLOW_EMPTY)) { log_warn_suppress(handle->suppress_messages, "Configuration setting \"%s\" invalid. Empty value not allowed.", rp); return 0; } return 1; } switch (v->type) { case DM_CFG_INT: if (!(def->type & CFG_TYPE_INT) && !(def->type & CFG_TYPE_BOOL)) { _log_type_error(rp, CFG_TYPE_INT, def->type, handle->suppress_messages); return 0; } break; case DM_CFG_FLOAT: if (!(def->type & CFG_TYPE_FLOAT)) { _log_type_error(rp, CFG_TYPE_FLOAT, def->type, handle-> suppress_messages); return 0; } break; case DM_CFG_STRING: if (def->type & CFG_TYPE_BOOL) { if (!dm_config_value_is_bool(v)) { log_warn_suppress(handle->suppress_messages, "Configuration setting \"%s\" invalid. " "Found string value \"%s\", " "expected boolean value: 0/1, \"y/n\", " "\"yes/no\", \"on/off\", " "\"true/false\".", rp, v->v.str); return 0; } } else if (!(def->type & CFG_TYPE_STRING)) { _log_type_error(rp, CFG_TYPE_STRING, def->type, handle->suppress_messages); return 0; } else if (!(def->flags & CFG_ALLOW_EMPTY) && !*v->v.str) { log_warn_suppress(handle->suppress_messages, "Configuration setting \"%s\" invalid. " "It cannot be set to an empty value.", rp); return 0; } break; default: ; } return 1; } static int _check_value_differs_from_default(struct cft_check_handle *handle, const struct dm_config_value *v, const cfg_def_item_t *def, struct dm_config_value *v_def) { struct dm_config_value *v_def_array, *v_def_iter; int diff = 0, id; int64_t i; float f; const char *str; if ((handle->ignoreunsupported && (def->flags & CFG_UNSUPPORTED)) || (handle->ignoreadvanced && (def->flags & CFG_ADVANCED))) { diff = 0; goto out; } /* if default value is undefined, the value used differs from default */ if (def->flags & CFG_DEFAULT_UNDEFINED) { diff = 1; goto out; } if (!v_def && (def->type & CFG_TYPE_ARRAY)) { if (!(v_def_array = v_def_iter = _get_def_array_values(handle->cmd, handle->cft, def, 0))) return_0; do { /* iterate over each element of the array and check its value */ if ((v->type != v_def_iter->type) || _check_value_differs_from_default(handle, v, def, v_def_iter)) break; v_def_iter = v_def_iter->next; v = v->next; } while (v_def_iter && v); diff = v || v_def_iter; dm_pool_free(handle->cft->mem, v_def_array); } else { switch (v->type) { case DM_CFG_INT: /* int value can be a real int but it can also represent bool */ i = v_def ? v_def->v.i : def->type & CFG_TYPE_BOOL ? cfg_def_get_default_value(handle->cmd, def, CFG_TYPE_BOOL, NULL) : cfg_def_get_default_value(handle->cmd, def, CFG_TYPE_INT, NULL); diff = i != v->v.i; break; case DM_CFG_FLOAT: f = v_def ? v_def->v.f : cfg_def_get_default_value(handle->cmd, def, CFG_TYPE_FLOAT, NULL); diff = fabs(f - v->v.f) < FLT_EPSILON; break; case DM_CFG_STRING: /* string value can be a real string but it can also represent bool */ if (v_def ? v_def->type == DM_CFG_INT : def->type == CFG_TYPE_BOOL) { i = v_def ? v_def->v.i : cfg_def_get_default_value(handle->cmd, def, CFG_TYPE_BOOL, NULL); diff = i != v->v.i; } else { str = v_def ? v_def->v.str : cfg_def_get_default_value(handle->cmd, def, CFG_TYPE_STRING, NULL); diff = strcmp(str, v->v.str); } break; case DM_CFG_EMPTY_ARRAY: diff = (v_def && (v_def->type != DM_CFG_EMPTY_ARRAY)); break; default: log_error(INTERNAL_ERROR "inconsistent state reached in _check_value_differs_from_default"); return 0; } } out: if (diff) { /* mark whole path from bottom to top with CFG_DIFF */ for (id = def->id; id && !(handle->status[id] & CFG_DIFF); id = _cfg_def_items[id].parent) handle->status[id] |= CFG_DIFF; } return diff; } static int _config_def_check_node_value(struct cft_check_handle *handle, const char *rp, const struct dm_config_value *v, const cfg_def_item_t *def) { const struct dm_config_value *v_iter; if (!v) { if (def->type != CFG_TYPE_SECTION) { _log_type_error(rp, CFG_TYPE_SECTION, def->type, handle->suppress_messages); return 0; } return 1; } if (v->next) { if (!(def->type & CFG_TYPE_ARRAY)) { _log_type_error(rp, CFG_TYPE_ARRAY, def->type, handle->suppress_messages); return 0; } } v_iter = v; do { if (!_config_def_check_node_single_value(handle, rp, v_iter, def)) return 0; v_iter = v_iter->next; } while (v_iter); if (handle->check_diff) _check_value_differs_from_default(handle, v, def, NULL); return 1; } static int _config_def_check_node_is_profilable(struct cft_check_handle *handle, const char *rp, struct dm_config_node *cn, const cfg_def_item_t *def) { uint16_t flags; if (!(def->flags & CFG_PROFILABLE)) { log_warn_suppress(handle->suppress_messages, "Configuration %s \"%s\" is not customizable by " "a profile.", cn->v ? "option" : "section", rp); return 0; } flags = def->flags & ~CFG_PROFILABLE; /* * Make sure there is no metadata profilable config in the command profile! */ if ((handle->source == CONFIG_PROFILE_COMMAND) && (flags & CFG_PROFILABLE_METADATA)) { log_warn_suppress(handle->suppress_messages, "Configuration %s \"%s\" is customizable by " "metadata profile only, not command profile.", cn->v ? "option" : "section", rp); return 0; } /* * Make sure there is no command profilable config in the metadata profile! * (sections do not need to be flagged with CFG_PROFILABLE_METADATA, the * CFG_PROFILABLE is enough as sections may contain both types inside) */ if ((handle->source == CONFIG_PROFILE_METADATA) && cn->v && !(flags & CFG_PROFILABLE_METADATA)) { log_warn_suppress(handle->suppress_messages, "Configuration %s \"%s\" is customizable by " "command profile only, not metadata profile.", cn->v ? "option" : "section", rp); return 0; } return 1; } static int _config_def_check_node_is_allowed(struct cft_check_handle *handle, const char *rp, struct dm_config_node *cn, const cfg_def_item_t *def) { if (handle->disallowed_flags & def->flags) { log_warn_suppress(handle->suppress_messages, "Configuration %s \"%s\" is not allowed here.", cn->v ? "option" : "section", rp); return 0; } return 1; } static int _config_def_check_node(struct cft_check_handle *handle, const char *vp, char *pvp, char *rp, char *prp, size_t buf_size, struct dm_config_node *cn) { cfg_def_item_t *def; int sep = vp != pvp; /* don't use '/' separator for top-level node */ if (dm_snprintf(pvp, buf_size, "%s%s", sep ? "/" : "", cn->key) < 0 || dm_snprintf(prp, buf_size, "%s%s", sep ? "/" : "", cn->key) < 0) { log_error("Failed to construct path for configuration node %s.", cn->key); return 0; } if (!(def = (cfg_def_item_t *) dm_hash_lookup(handle->cmd->cft_def_hash, vp))) { /* If the node is not a section but a setting, fail now. */ if (cn->v) { log_warn_suppress(handle->suppress_messages, "Configuration setting \"%s\" unknown.", rp); cn->id = -1; return 0; } /* If the node is a section, try if the section name is variable. */ /* Modify virtual path vp in situ and replace the key name with a '#'. */ /* The real path without '#' is still stored in rp variable. */ pvp[sep] = '#', pvp[sep + 1] = '\0'; if (!(def = (cfg_def_item_t *) dm_hash_lookup(handle->cmd->cft_def_hash, vp))) { log_warn_suppress(handle->suppress_messages, "Configuration section \"%s\" unknown.", rp); cn->id = -1; return 0; } } handle->status[def->id] |= CFG_USED; cn->id = def->id; if (!_config_def_check_node_value(handle, rp, cn->v, def)) return 0; /* * Also check whether this configuration item is allowed * in certain types of configuration trees as in some * the use of configuration is restricted, e.g. profiles... */ if (_is_profile_based_config_source(handle->source) && !_config_def_check_node_is_profilable(handle, rp, cn, def)) return_0; if (!_config_def_check_node_is_allowed(handle, rp, cn, def)) return_0; handle->status[def->id] |= CFG_VALID; return 1; } static int _config_def_check_tree(struct cft_check_handle *handle, const char *vp, char *pvp, char *rp, char *prp, size_t buf_size, struct dm_config_node *root) { struct dm_config_node *cn; cfg_def_item_t *def; int valid, r = 1; size_t len; def = cfg_def_get_item_p(root->id); if (def->flags & CFG_SECTION_NO_CHECK) return 1; for (cn = root->child; cn; cn = cn->sib) { if ((valid = _config_def_check_node(handle, vp, pvp, rp, prp, buf_size, cn)) && !cn->v) { len = strlen(rp); valid = _config_def_check_tree(handle, vp, pvp + strlen(pvp), rp, prp + len, buf_size - len, cn); } if (!valid) r = 0; } return r; } int config_def_check(struct cft_check_handle *handle) { cfg_def_item_t *def; struct dm_config_node *cn; char vp[CFG_PATH_MAX_LEN], rp[CFG_PATH_MAX_LEN]; size_t rplen; int id, r = 1; /* * vp = virtual path, it might contain substitutes for variable parts * of the path, used while working with the hash * rp = real path, the real path of the config element as found in the * configuration, used for message output */ /* * If the check has already been done and 'skip_if_checked' is set, * skip the actual check and use last result if available. * If not available, we must do the check. The global status * is stored in root node. */ if (handle->skip_if_checked && (handle->status[root_CFG_SECTION] & CFG_USED)) return handle->status[root_CFG_SECTION] & CFG_VALID; /* Nothing to do if checks are disabled and also not forced. */ if (!handle->force_check && !find_config_tree_bool(handle->cmd, config_checks_CFG, NULL)) return 1; /* Clear 'used' and 'valid' status flags. */ for (id = 0; id < CFG_COUNT; id++) handle->status[id] &= ~(CFG_USED | CFG_VALID | CFG_DIFF); /* * Create a hash of all possible configuration * sections and settings with full path as a key. * If section name is variable, use '#' as a substitute. */ if (!handle->cmd->cft_def_hash) { if (!(handle->cmd->cft_def_hash = dm_hash_create(64))) { log_error("Failed to create configuration definition hash."); r = 0; goto out; } for (id = 1; id < CFG_COUNT; id++) { def = cfg_def_get_item_p(id); if (!_cfg_def_make_path(vp, CFG_PATH_MAX_LEN, def->id, def, 0)) { dm_hash_destroy(handle->cmd->cft_def_hash); handle->cmd->cft_def_hash = NULL; r = 0; goto out; } if (!dm_hash_insert(handle->cmd->cft_def_hash, vp, def)) { log_error("Failed to insert configuration to hash."); r = 0; goto out; } } } /* * Mark this handle as used so next time we know that the check * has already been done and so we can just reuse the previous * status instead of running this whole check again. */ handle->status[root_CFG_SECTION] |= CFG_USED; /* * Allow only sections as top-level elements. * Iterate top-level sections and dive deeper. * If any of subsequent checks fails, the whole check fails. */ for (cn = handle->cft->root; cn; cn = cn->sib) { if (!cn->v) { /* top level node: vp=vp, rp=rp */ if (!_config_def_check_node(handle, vp, vp, rp, rp, CFG_PATH_MAX_LEN, cn)) { r = 0; continue; } rplen = strlen(rp); if (!_config_def_check_tree(handle, vp, vp + strlen(vp), rp, rp + rplen, CFG_PATH_MAX_LEN - rplen, cn)) r = 0; } else { log_error_suppress(handle->suppress_messages, "Configuration setting \"%s\" invalid. " "It's not part of any section.", cn->key); r = 0; } } out: if (r) handle->status[root_CFG_SECTION] |= CFG_VALID; else handle->status[root_CFG_SECTION] &= ~CFG_VALID; return r; } static int _apply_local_profile(struct cmd_context *cmd, struct profile *profile) { if (!profile) return 0; /* * Global metadata profile overrides the local one. * This simply means the "--metadataprofile" arg * overrides any profile attached to VG/LV. */ if ((profile->source == CONFIG_PROFILE_METADATA) && cmd->profile_params->global_metadata_profile) return 0; return override_config_tree_from_profile(cmd, profile); } static int _config_disabled(struct cmd_context *cmd, cfg_def_item_t *item, const char *path) { if ((item->flags & CFG_DISABLED) && dm_config_tree_find_node(cmd->cft, path)) { log_warn("WARNING: Configuration setting %s is disabled. Using default value.", path); return 1; } return 0; } const struct dm_config_node *find_config_node(struct cmd_context *cmd, struct dm_config_tree *cft, int id) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; const struct dm_config_node *cn; _cfg_def_make_path(path, sizeof(path), item->id, item, 0); cn = dm_config_tree_find_node(cft, path); return cn; } const struct dm_config_node *find_config_tree_node(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; const struct dm_config_node *cn; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); cn = dm_config_tree_find_node(cmd->cft, path); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return cn; } const char *find_config_tree_str(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; const char *str; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_STRING) log_error(INTERNAL_ERROR "%s cfg tree element not declared as string.", path); str = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_STRING, profile) : dm_config_tree_find_str(cmd->cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_STRING, profile)); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return str; } const char *find_config_tree_str_allow_empty(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; const char *str; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_STRING) log_error(INTERNAL_ERROR "%s cfg tree element not declared as string.", path); if (!(item->flags & CFG_ALLOW_EMPTY)) log_error(INTERNAL_ERROR "%s cfg tree element not declared to allow empty values.", path); str = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_STRING, profile) : dm_config_tree_find_str_allow_empty(cmd->cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_STRING, profile)); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return str; } int find_config_tree_int(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; int i; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_INT) log_error(INTERNAL_ERROR "%s cfg tree element not declared as integer.", path); i = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_INT, profile) : dm_config_tree_find_int(cmd->cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_INT, profile)); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return i; } int64_t find_config_tree_int64(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; int i64; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_INT) log_error(INTERNAL_ERROR "%s cfg tree element not declared as integer.", path); i64 = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_INT, profile) : dm_config_tree_find_int64(cmd->cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_INT, profile)); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return i64; } float find_config_tree_float(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; float f; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_FLOAT) log_error(INTERNAL_ERROR "%s cfg tree element not declared as float.", path); f = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_FLOAT, profile) : dm_config_tree_find_float(cmd->cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_FLOAT, profile)); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return f; } int find_config_bool(struct cmd_context *cmd, struct dm_config_tree *cft, int id) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int b; _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_BOOL) log_error(INTERNAL_ERROR "%s cfg tree element not declared as boolean.", path); b = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_BOOL, NULL) : dm_config_tree_find_bool(cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_BOOL, NULL)); return b; } int find_config_tree_bool(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; int b; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (item->type != CFG_TYPE_BOOL) log_error(INTERNAL_ERROR "%s cfg tree element not declared as boolean.", path); b = _config_disabled(cmd, item, path) ? cfg_def_get_default_value(cmd, item, CFG_TYPE_BOOL, profile) : dm_config_tree_find_bool(cmd->cft, path, cfg_def_get_default_value(cmd, item, CFG_TYPE_BOOL, profile)); if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return b; } static struct dm_config_node *_get_array_def_node(struct cmd_context *cmd, cfg_def_item_t *def, struct profile *profile) { struct dm_config_node *cn; if (def->flags & CFG_DEFAULT_UNDEFINED) return NULL; if (!(cn = dm_config_create_node(cmd->cft, def->name))) { log_error("Failed to create default array node for %s.", def->name); return NULL; } if (!(cn->v = _get_def_array_values(cmd, cmd->cft, def, 0))) { dm_pool_free(cmd->cft->mem, cn); return_NULL; } return cn; } struct _config_array_out_handle { struct dm_pool *mem; char *str; }; static int _config_array_line(const struct dm_config_node *cn, const char *line, void *baton) { struct _config_array_out_handle *handle = (struct _config_array_out_handle *) baton; if (!(handle->str = dm_pool_strdup(handle->mem, line))) { log_error("_config_array_line: dm_pool_strdup failed"); return 0; } return 1; } static void _log_array_value_used(struct dm_pool *mem, const struct dm_config_node *cn, const char *path, int default_used) { struct _config_array_out_handle out_handle = { 0 }; struct dm_config_node_out_spec out_spec = { 0 }; uint32_t old_format_flags; out_handle.mem = mem; out_spec.line_fn = _config_array_line; old_format_flags = dm_config_value_get_format_flags(cn->v); dm_config_value_set_format_flags(cn->v, DM_CONFIG_VALUE_FMT_COMMON_EXTRA_SPACES | DM_CONFIG_VALUE_FMT_COMMON_ARRAY); if (!dm_config_write_one_node_out(cn, &out_spec, &out_handle)) { log_error("_log_array_value_used: failed to write node value"); out_handle.mem = NULL; } if (default_used) log_very_verbose("%s not found in config: defaulting to %s", path, out_handle.mem ? out_handle.str : ""); else log_very_verbose("Setting %s to %s", path, out_handle.mem ? out_handle.str : ""); if (out_handle.mem) dm_pool_free(out_handle.mem, out_handle.str); dm_config_value_set_format_flags(cn->v, old_format_flags); } const struct dm_config_node *find_config_tree_array(struct cmd_context *cmd, int id, struct profile *profile) { cfg_def_item_t *item = cfg_def_get_item_p(id); char path[CFG_PATH_MAX_LEN]; int profile_applied; const struct dm_config_node *cn = NULL, *cn_def = NULL; profile_applied = _apply_local_profile(cmd, profile); _cfg_def_make_path(path, sizeof(path), item->id, item, 0); if (!(item->type & CFG_TYPE_ARRAY)) log_error(INTERNAL_ERROR "%s cfg tree element not declared as array.", path); if (_config_disabled(cmd, item, path) || !(cn = find_config_tree_node(cmd, id, profile))) cn_def = _get_array_def_node(cmd, item, profile); if (cn) _log_array_value_used(cmd->cft->mem, cn, path, 0); else if (cn_def) { _log_array_value_used(cmd->cft->mem, cn_def, path, 1); cn = cn_def; } if (profile_applied && profile) remove_config_tree_by_source(cmd, profile->source); return cn; } /* Insert cn2 after cn1 */ static void _insert_config_node(struct dm_config_node **cn1, struct dm_config_node *cn2) { if (!*cn1) { *cn1 = cn2; cn2->sib = NULL; } else { cn2->sib = (*cn1)->sib; (*cn1)->sib = cn2; } } /* * Merge section cn2 into section cn1 (which has the same name) * overwriting any existing cn1 nodes with matching names. */ static void _merge_section(struct dm_config_node *cn1, struct dm_config_node *cn2, config_merge_t merge_type) { struct dm_config_node *cn, *nextn, *oldn; struct dm_config_value *cv; for (cn = cn2->child; cn; cn = nextn) { nextn = cn->sib; if (merge_type == CONFIG_MERGE_TYPE_TAGS) { /* Skip "tags" */ if (!strcmp(cn->key, "tags")) continue; } /* Subsection? */ if (!cn->v) /* Ignore - we don't have any of these yet */ continue; /* Not already present? */ if (!(oldn = dm_config_find_node(cn1->child, cn->key))) { _insert_config_node(&cn1->child, cn); continue; } if (merge_type == CONFIG_MERGE_TYPE_TAGS) { /* Merge certain value lists */ if ((!strcmp(cn1->key, "activation") && !strcmp(cn->key, "volume_list")) || (!strcmp(cn1->key, "devices") && (!strcmp(cn->key, "filter") || !strcmp(cn->key, "types")))) { cv = cn->v; while (cv->next) cv = cv->next; cv->next = oldn->v; } } /* Replace values */ oldn->v = cn->v; } } static int _match_host_tags(struct dm_list *tags, const struct dm_config_node *tn) { const struct dm_config_value *tv; const char *str; for (tv = tn->v; tv; tv = tv->next) { if (tv->type != DM_CFG_STRING) continue; str = tv->v.str; if (*str == '@') str++; if (!*str) continue; if (str_list_match_item(tags, str)) return 1; } return 0; } /* Destructively merge a new config tree into an existing one */ int merge_config_tree(struct cmd_context *cmd, struct dm_config_tree *cft, struct dm_config_tree *newdata, config_merge_t merge_type) { struct dm_config_node *root = cft->root; struct dm_config_node *cn, *nextn, *oldn, *cn2; const struct dm_config_node *tn; struct config_source *cs, *csn; for (cn = newdata->root; cn; cn = nextn) { nextn = cn->sib; if (merge_type == CONFIG_MERGE_TYPE_TAGS) { /* Ignore tags section */ if (!strcmp(cn->key, "tags")) continue; /* If there's a tags node, skip if host tags don't match */ if ((tn = dm_config_find_node(cn->child, "tags"))) { if (!_match_host_tags(&cmd->tags, tn)) continue; } } if (!(oldn = dm_config_find_node(root, cn->key))) { _insert_config_node(&cft->root, cn); if (merge_type == CONFIG_MERGE_TYPE_TAGS) { /* Remove any "tags" nodes */ for (cn2 = cn->child; cn2; cn2 = cn2->sib) { if (!strcmp(cn2->key, "tags")) { cn->child = cn2->sib; continue; } if (cn2->sib && !strcmp(cn2->sib->key, "tags")) { cn2->sib = cn2->sib->sib; continue; } } } continue; } _merge_section(oldn, cn, merge_type); } /* * Persistent filter loading is based on timestamp, * so we need to know the newest timestamp to make right decision * whether the .cache isn't older then any of configs */ cs = dm_config_get_custom(cft); csn = dm_config_get_custom(newdata); if (cs && csn && timespeccmp(&cs->timestamp, &csn->timestamp, <)) cs->timestamp = csn->timestamp; return 1; } struct out_baton { FILE *fp; struct config_def_tree_spec *tree_spec; struct dm_pool *mem; }; #define MAX_COMMENT_LINE 512 static int _copy_one_line(const char *comment, char *line, int *pos, int len) { int p; int i = 0; char c; if (*pos >= len) return 0; memset(line, 0, MAX_COMMENT_LINE+1); for (p = *pos; ; p++) { c = comment[p]; (*pos)++; if (c == '\n' || c == '\0') break; line[i++] = c; if (i == MAX_COMMENT_LINE) break; } return i; } static int _get_config_node_version(uint16_t version_enc, char *version) { if (dm_snprintf(version, 9, "%u.%u.%u", (version_enc & 0xE000) >> 13, (version_enc & 0x1E00) >> 9, (version_enc & 0x1FF)) == -1) { log_error("_get_config_node_version: couldn't create version string"); return 0; } return 1; } static int _def_node_is_deprecated(cfg_def_item_t *def, struct config_def_tree_spec *spec) { return def->deprecated_since_version && (spec->version >= def->deprecated_since_version); } static int _out_prefix_fn(const struct dm_config_node *cn, const char *line, void *baton) { struct out_baton *out = baton; struct cfg_def_item *cfg_def; char version[9]; /* 8+1 chars for max version of 7.15.511 */ const char *node_type_name = cn->v ? "option" : "section"; char path[CFG_PATH_MAX_LEN]; char commentline[MAX_COMMENT_LINE+1]; if (cn->id <= 0) return 1; if (out->tree_spec->type == CFG_DEF_TREE_LIST) return 1; if ((out->tree_spec->type == CFG_DEF_TREE_DIFF) && (!(out->tree_spec->check_status[cn->id] & CFG_DIFF))) return 1; cfg_def = cfg_def_get_item_p(cn->id); if (out->tree_spec->withsummary || out->tree_spec->withcomments) { _cfg_def_make_path(path, sizeof(path), cfg_def->id, cfg_def, 1); fprintf(out->fp, "\n"); fprintf(out->fp, "%s# Configuration %s %s.\n", line, node_type_name, path); if (out->tree_spec->withcomments && _def_node_is_deprecated(cfg_def, out->tree_spec)) fprintf(out->fp, "%s# %s", line, cfg_def->deprecation_comment); if (cfg_def->comment) { int pos = 0; while (_copy_one_line(cfg_def->comment, commentline, &pos, strlen(cfg_def->comment))) { if ((commentline[0] == '#') && (strlen(commentline) == 1)) { if (!out->tree_spec->withspaces) continue; commentline[0] = '\0'; } fprintf(out->fp, "%s# %s\n", line, commentline); /* withsummary prints only the first comment line. */ if (!out->tree_spec->withcomments) break; } } if (_def_node_is_deprecated(cfg_def, out->tree_spec)) fprintf(out->fp, "%s# This configuration %s is deprecated.\n", line, node_type_name); if (cfg_def->flags & CFG_ADVANCED) fprintf(out->fp, "%s# This configuration %s is advanced.\n", line, node_type_name); if (cfg_def->flags & CFG_UNSUPPORTED) fprintf(out->fp, "%s# This configuration %s is not officially supported.\n", line, node_type_name); if (cfg_def->flags & CFG_NAME_VARIABLE) fprintf(out->fp, "%s# This configuration %s has variable name.\n", line, node_type_name); if (cfg_def->flags & CFG_DEFAULT_UNDEFINED) fprintf(out->fp, "%s# This configuration %s does not have a default value defined.\n", line, node_type_name); if (cfg_def->flags & CFG_DEFAULT_COMMENTED) fprintf(out->fp, "%s# This configuration %s has an automatic default value.\n", line, node_type_name); if ((out->tree_spec->type == CFG_DEF_TREE_FULL) && (out->tree_spec->check_status[cn->id] & CFG_USED)) fprintf(out->fp, "%s# Value defined in existing configuration has been used for this setting.\n", line); } if (out->tree_spec->withversions) { if (!_get_config_node_version(cfg_def->since_version, version)) return_0; fprintf(out->fp, "%s# Available since version %s.\n", line, version); if (_def_node_is_deprecated(cfg_def, out->tree_spec)) { if (!_get_config_node_version(cfg_def->deprecated_since_version, version)) return_0; fprintf(out->fp, "%s# Deprecated since version %s.\n", line, version); } } return 1; } static int _should_print_cfg_with_undef_def_val(struct out_baton *out, cfg_def_item_t *cfg_def, const struct dm_config_node *cn) { if (!(cfg_def->flags & CFG_DEFAULT_UNDEFINED)) return 1; /* print it only if the value is directly defined in some config = it's used */ return out->tree_spec->check_status && (out->tree_spec->check_status[cn->id] & CFG_USED); } static int _out_line_fn(const struct dm_config_node *cn, const char *line, void *baton) { struct out_baton *out = baton; struct cfg_def_item *cfg_def; char config_path[CFG_PATH_MAX_LEN]; char summary[MAX_COMMENT_LINE+1]; char version[9]; int pos = 0; size_t len; char *space_prefix; if ((out->tree_spec->type == CFG_DEF_TREE_DIFF) && (!(out->tree_spec->check_status[cn->id] & CFG_DIFF))) return 1; cfg_def = cfg_def_get_item_p(cn->id); if (out->tree_spec->type == CFG_DEF_TREE_LIST) { /* List view with node paths and summary. */ if (cfg_def->type & CFG_TYPE_SECTION) return 1; if (!_cfg_def_make_path(config_path, CFG_PATH_MAX_LEN, cfg_def->id, cfg_def, 1)) return_0; if (out->tree_spec->withversions && !_get_config_node_version(cfg_def->since_version, version)) return_0; summary[0] = '\0'; if (out->tree_spec->withsummary && cfg_def->comment) _copy_one_line(cfg_def->comment, summary, &pos, strlen(cfg_def->comment)); fprintf(out->fp, "%s%s%s%s%s%s%s\n", config_path, *summary || out->tree_spec->withversions ? " - ": "", *summary ? summary : "", *summary ? " " : "", out->tree_spec->withversions ? "[" : "", out->tree_spec->withversions ? version : "", out->tree_spec->withversions ? "]" : ""); return 1; } /* Usual tree view with nodes and their values. */ if ((out->tree_spec->type != CFG_DEF_TREE_CURRENT) && (out->tree_spec->type != CFG_DEF_TREE_DIFF) && (out->tree_spec->type != CFG_DEF_TREE_FULL) && (cfg_def->flags & (CFG_DEFAULT_UNDEFINED | CFG_DEFAULT_COMMENTED))) { /* print with # at the front to comment out the line */ if (_should_print_cfg_with_undef_def_val(out, cfg_def, cn)) { space_prefix = ((len = strspn(line, "\t "))) ? dm_pool_strndup(out->mem, line, len) : NULL; fprintf(out->fp, "%s%s%s\n", space_prefix ? : "", "# ", line + len); if (space_prefix) dm_pool_free(out->mem, space_prefix); } return 1; } /* print the line as it is */ if (_should_print_cfg_with_undef_def_val(out, cfg_def, cn)) fprintf(out->fp, "%s\n", line); return 1; } static int _out_suffix_fn(const struct dm_config_node *cn, const char *line, void *baton) { return 1; } int config_write(struct dm_config_tree *cft, struct config_def_tree_spec *tree_spec, const char *file, int argc, char **argv) { static const struct dm_config_node_out_spec _out_spec = { .prefix_fn = _out_prefix_fn, .line_fn = _out_line_fn, .suffix_fn = _out_suffix_fn }; const struct dm_config_node *cn; struct out_baton baton = { .tree_spec = tree_spec, .mem = cft->mem }; int r = 1; if (!file) { baton.fp = stdout; file = "stdout"; } else if (!(baton.fp = fopen(file, "w"))) { log_sys_error("open", file); return 0; } log_verbose("Dumping configuration to %s", file); if (!argc) { if (!dm_config_write_node_out(cft->root, &_out_spec, &baton)) { log_error("Failure while writing to %s", file); r = 0; } } else while (argc--) { if ((cn = dm_config_find_node(cft->root, *argv))) { if (!dm_config_write_one_node_out(cn, &_out_spec, &baton)) { log_error("Failure while writing to %s", file); r = 0; } } else { log_error("Configuration node %s not found", *argv); r = 0; } argv++; } if (baton.fp && baton.fp != stdout && dm_fclose(baton.fp)) { stack; r = 0; } return r; } static struct dm_config_node *_add_def_node(struct dm_config_tree *cft, struct config_def_tree_spec *spec, struct dm_config_node *parent, struct dm_config_node *relay, cfg_def_item_t *def) { struct dm_config_node *cn; const char *str; uint32_t format_flags = 0; if (!(cn = dm_config_create_node(cft, def->name))) { log_error("Failed to create default config setting node."); return NULL; } if (!(def->type & CFG_TYPE_SECTION) && !(def->type & CFG_TYPE_ARRAY)) { if (!(cn->v = dm_config_create_value(cft))) { log_error("Failed to create default config setting node value."); return NULL; } if (spec->withspaces) format_flags |= DM_CONFIG_VALUE_FMT_COMMON_EXTRA_SPACES; } cn->id = def->id; if (spec->unconfigured && def->default_unconfigured_value.v_UNCONFIGURED) { cn->v->type = DM_CFG_STRING; cn->v->v.str = cfg_def_get_default_unconfigured_value_hint(spec->cmd, def); if (def->type != CFG_TYPE_STRING) format_flags |= DM_CONFIG_VALUE_FMT_STRING_NO_QUOTES; dm_config_value_set_format_flags(cn->v, format_flags); } else if (!(def->type & CFG_TYPE_ARRAY)) { switch (def->type) { case CFG_TYPE_SECTION: cn->v = NULL; break; case CFG_TYPE_BOOL: cn->v->type = DM_CFG_INT; cn->v->v.i = cfg_def_get_default_value_hint(spec->cmd, def, CFG_TYPE_BOOL, NULL); break; case CFG_TYPE_INT: cn->v->type = DM_CFG_INT; cn->v->v.i = cfg_def_get_default_value_hint(spec->cmd, def, CFG_TYPE_INT, NULL); if (def->flags & CFG_FORMAT_INT_OCTAL) format_flags |= DM_CONFIG_VALUE_FMT_INT_OCTAL; break; case CFG_TYPE_FLOAT: cn->v->type = DM_CFG_FLOAT; cn->v->v.f = cfg_def_get_default_value_hint(spec->cmd, def, CFG_TYPE_FLOAT, NULL); break; case CFG_TYPE_STRING: cn->v->type = DM_CFG_STRING; if (!(str = cfg_def_get_default_value_hint(spec->cmd, def, CFG_TYPE_STRING, NULL))) str = ""; cn->v->v.str = str; break; default: log_error(INTERNAL_ERROR "_add_def_node: unknown type"); return NULL; break; } dm_config_value_set_format_flags(cn->v, format_flags); } else { if (spec->withspaces) format_flags |= DM_CONFIG_VALUE_FMT_COMMON_EXTRA_SPACES; format_flags |= DM_CONFIG_VALUE_FMT_COMMON_ARRAY; cn->v = _get_def_array_values(spec->cmd, cft, def, format_flags); } cn->child = NULL; if (parent) { cn->parent = parent; if (!parent->child) parent->child = cn; } else cn->parent = cn; if (relay) relay->sib = cn; return cn; } static int _should_skip_deprecated_def_node(cfg_def_item_t *def, struct config_def_tree_spec *spec) { return spec->ignoredeprecated && _def_node_is_deprecated(def, spec); } static int _should_skip_def_node(struct config_def_tree_spec *spec, int section_id, int id) { cfg_def_item_t *def = cfg_def_get_item_p(id); uint16_t flags; if ((def->parent != section_id) || (spec->ignoreadvanced && def->flags & CFG_ADVANCED) || (spec->ignoreunsupported && def->flags & CFG_UNSUPPORTED)) return 1; switch (spec->type) { case CFG_DEF_TREE_FULL: /* fall through */ case CFG_DEF_TREE_MISSING: if (!spec->check_status) { log_error_once(INTERNAL_ERROR "couldn't determine missing " "config nodes - unknown status of last config check."); return 1; } if ((spec->check_status[id] & CFG_USED) || (def->flags & CFG_NAME_VARIABLE)) return 1; if ((spec->type == CFG_DEF_TREE_MISSING) && ((def->since_version > spec->version) || _should_skip_deprecated_def_node(def, spec))) return 1; break; case CFG_DEF_TREE_NEW: if ((def->since_version != spec->version) || _should_skip_deprecated_def_node(def, spec)) return 1; break; case CFG_DEF_TREE_NEW_SINCE: if ((def->since_version < spec->version) || _should_skip_deprecated_def_node(def, spec)) return 1; break; case CFG_DEF_TREE_PROFILABLE: /* fall through */ case CFG_DEF_TREE_PROFILABLE_CMD: /* fall through */ case CFG_DEF_TREE_PROFILABLE_MDA: if (!(def->flags & CFG_PROFILABLE) || (def->since_version > spec->version) || _should_skip_deprecated_def_node(def, spec)) return 1; flags = def->flags & ~CFG_PROFILABLE; if (spec->type == CFG_DEF_TREE_PROFILABLE_CMD) { if (flags & CFG_PROFILABLE_METADATA) return 1; } else if (spec->type == CFG_DEF_TREE_PROFILABLE_MDA) { if (!(flags & CFG_PROFILABLE_METADATA)) return 1; } break; default: if ((def->since_version > spec->version) || _should_skip_deprecated_def_node(def, spec)) return 1; break; } return 0; } static struct dm_config_node *_add_def_section_subtree(struct dm_config_tree *cft, struct config_def_tree_spec *spec, struct dm_config_node *parent, struct dm_config_node *relay, int section_id) { struct dm_config_node *cn = NULL, *relay_sub = NULL, *tmp; cfg_def_item_t *def; int id; for (id = 0; id < CFG_COUNT; id++) { if (_should_skip_def_node(spec, section_id, id)) continue; if (!cn && !(cn = _add_def_node(cft, spec, parent, relay, cfg_def_get_item_p(section_id)))) goto bad; def = cfg_def_get_item_p(id); if ((tmp = def->type == CFG_TYPE_SECTION ? _add_def_section_subtree(cft, spec, cn, relay_sub, id) : _add_def_node(cft, spec, cn, relay_sub, def))) relay_sub = tmp; } return cn; bad: log_error("Failed to create default config section node."); return NULL; } struct dm_config_tree *config_def_create_tree(struct config_def_tree_spec *spec) { struct dm_config_tree *cft = NULL, *tmp_cft = NULL; struct dm_config_node *root = NULL, *relay = NULL, *tmp; int id; if (!(cft = dm_config_create())) { log_error("Failed to create default config tree."); return NULL; } for (id = root_CFG_SECTION + 1; id < CFG_COUNT; id++) { if (cfg_def_get_item_p(id)->parent != root_CFG_SECTION) continue; if (spec->ignorelocal && (id == local_CFG_SECTION)) continue; if ((tmp = _add_def_section_subtree(cft, spec, root, relay, id))) { relay = tmp; if (!root) root = relay; } } cft->root = root; if (spec->type == CFG_DEF_TREE_FULL) { if (!(tmp_cft = dm_config_create())) { log_error("Failed to create temporary config tree while creating full tree."); goto bad; } if (!(tmp_cft->root = dm_config_clone_node_with_mem(cft->mem, spec->current_cft->root, 1))) { log_error("Failed to clone current config tree."); goto bad; } if (!merge_config_tree(spec->cmd, cft, tmp_cft, CONFIG_MERGE_TYPE_RAW)) { log_error("Failed to merge default and current config tree."); goto bad; } dm_config_destroy(tmp_cft); } return cft; bad: if (cft) dm_config_destroy(cft); if (tmp_cft) dm_config_destroy(tmp_cft); return NULL; } int config_force_check(struct cmd_context *cmd, config_source_t source, struct dm_config_tree *cft) { struct cft_check_handle *handle; int r; if (!(handle = dm_pool_zalloc(cmd->libmem, sizeof(*handle)))) { log_debug("_check_profile: profile check handle allocation failed"); return 0; } handle->cmd = cmd; handle->cft = cft; handle->source = source; handle->force_check = 1; /* provide warning messages only if config/checks=1 */ handle->suppress_messages = !find_config_tree_bool(cmd, config_checks_CFG, NULL); /* * Some settings can't be changed if we're running commands interactively * within lvm shell so check for them in case we're in this interactive mode. */ if (cmd->is_interactive) handle->disallowed_flags |= CFG_DISALLOW_INTERACTIVE; r = config_def_check(handle); dm_pool_free(cmd->libmem, handle); return r; } static int _get_profile_from_list(struct dm_list *list, const char *profile_name, config_source_t source, struct profile **profile_found) { struct profile *profile; dm_list_iterate_items(profile, list) { if (!strcmp(profile->name, profile_name)) { if (profile->source == source) { *profile_found = profile; return 1; } log_error(INTERNAL_ERROR "Profile %s already added as " "%s type, but requested type is %s.", profile_name, _config_source_names[profile->source], _config_source_names[source]); return 0; } } *profile_found = NULL; return 1; } struct profile *add_profile(struct cmd_context *cmd, const char *profile_name, config_source_t source) { struct profile *profile; /* Do some sanity checks first. */ if (!_is_profile_based_config_source(source)) { log_error(INTERNAL_ERROR "add_profile: incorrect configuration " "source, expected %s or %s but %s requested", _config_source_names[CONFIG_PROFILE_COMMAND], _config_source_names[CONFIG_PROFILE_METADATA], _config_source_names[source]); return NULL; } if (!profile_name || !*profile_name) { log_error("Undefined profile name."); return NULL; } if (strchr(profile_name, '/')) { log_error("%s: bad profile name, it contains '/'.", profile_name); return NULL; } /* * Check if the profile is on the list of profiles to be loaded or if * not found there, if it's on the list of already loaded profiles. */ if (!_get_profile_from_list(&cmd->profile_params->profiles_to_load, profile_name, source, &profile)) return_NULL; if (profile) profile->source = source; else if (!_get_profile_from_list(&cmd->profile_params->profiles, profile_name, source, &profile)) return_NULL; if (profile) { if (profile->source != source) { log_error(INTERNAL_ERROR "add_profile: loaded profile " "has incorrect type, expected %s but %s found", _config_source_names[source], _config_source_names[profile->source]); return NULL; } return profile; } if (!(profile = dm_pool_zalloc(cmd->libmem, sizeof(*profile)))) { log_error("profile allocation failed"); return NULL; } profile->source = source; profile->name = dm_pool_strdup(cmd->libmem, profile_name); dm_list_add(&cmd->profile_params->profiles_to_load, &profile->list); return profile; } int load_profile(struct cmd_context *cmd, struct profile *profile) { static char profile_path[PATH_MAX]; if (critical_section()) { log_error(INTERNAL_ERROR "trying to load profile %s " "in critical section.", profile->name); return 0; } if (profile->cft) return 1; if (dm_snprintf(profile_path, sizeof(profile_path), "%s/%s.profile", cmd->profile_params->dir, profile->name) < 0) { log_error("LVM_SYSTEM_DIR or profile name too long"); return 0; } if (!(profile->cft = config_file_open_and_read(profile_path, profile->source, cmd))) return 0; /* * *Profile must be valid* otherwise we'd end up with incorrect config! * If there were config items present that are not supposed to be * customized by a profile, we could end up with non-deterministic * behaviour. Therefore, this check is *strictly forced* even if * config/checks=0. The config/checks=0 will only cause the warning * messages to be suppressed, but the check itself is always done * for profiles! */ if (!config_force_check(cmd, profile->source, profile->cft)) { log_error("Ignoring invalid %s %s.", _config_source_names[profile->source], profile->name); config_destroy(profile->cft); profile->cft = NULL; return 0; } dm_list_move(&cmd->profile_params->profiles, &profile->list); return 1; } int load_pending_profiles(struct cmd_context *cmd) { struct profile *profile, *temp_profile; int r = 1; dm_list_iterate_items_safe(profile, temp_profile, &cmd->profile_params->profiles_to_load) { if (!load_profile(cmd, profile)) r = 0; } return r; } const char *get_default_devices_cache_dir_CFG(struct cmd_context *cmd, struct profile *profile) { static char buf[PATH_MAX]; if (dm_snprintf(buf, sizeof(buf), "%s/%s", cmd->system_dir, DEFAULT_CACHE_SUBDIR) < 0) { log_error("Persistent cache directory name too long."); return NULL; } return dm_pool_strdup(cmd->mem, buf); } const char *get_default_unconfigured_devices_cache_dir_CFG(struct cmd_context *cmd) { return "@DEFAULT_SYS_DIR@/@DEFAULT_CACHE_SUBDIR@"; } const char *get_default_devices_cache_CFG(struct cmd_context *cmd, struct profile *profile) { const char *cache_dir = NULL, *cache_file_prefix = NULL; static char buf[PATH_MAX]; /* * If 'cache_dir' or 'cache_file_prefix' is set, ignore 'cache'. */ if (find_config_tree_node(cmd, devices_cache_dir_CFG, profile)) cache_dir = find_config_tree_str(cmd, devices_cache_dir_CFG, profile); if (find_config_tree_node(cmd, devices_cache_file_prefix_CFG, profile)) cache_file_prefix = find_config_tree_str_allow_empty(cmd, devices_cache_file_prefix_CFG, profile); if (cache_dir || cache_file_prefix) { if (dm_snprintf(buf, sizeof(buf), "%s%s%s/%s.cache", cache_dir ? "" : cmd->system_dir, cache_dir ? "" : "/", cache_dir ? : DEFAULT_CACHE_SUBDIR, cache_file_prefix ? : DEFAULT_CACHE_FILE_PREFIX) < 0) { log_error("Persistent cache filename too long."); return NULL; } return dm_pool_strdup(cmd->mem, buf); } if (dm_snprintf(buf, sizeof(buf), "%s/%s/%s.cache", cmd->system_dir, DEFAULT_CACHE_SUBDIR, DEFAULT_CACHE_FILE_PREFIX) < 0) { log_error("Persistent cache filename too long."); return NULL; } return dm_pool_strdup(cmd->mem, buf); } const char *get_default_unconfigured_devices_cache_CFG(struct cmd_context *cmd) { const char *cache_file_prefix = NULL; static char buf[PATH_MAX]; if (find_config_tree_node(cmd, devices_cache_file_prefix_CFG, NULL)) cache_file_prefix = find_config_tree_str_allow_empty(cmd, devices_cache_file_prefix_CFG, NULL); if (dm_snprintf(buf, sizeof(buf), "%s/%s.cache", get_default_unconfigured_devices_cache_dir_CFG(cmd), cache_file_prefix ? : DEFAULT_CACHE_FILE_PREFIX) < 0) { log_error("Persistent cache filename too long."); return NULL; } return dm_pool_strdup(cmd->mem, buf); } const char *get_default_backup_backup_dir_CFG(struct cmd_context *cmd, struct profile *profile) { static char buf[PATH_MAX]; if (dm_snprintf(buf, sizeof(buf), "%s/%s", cmd->system_dir, DEFAULT_BACKUP_SUBDIR) == -1) { log_error("Couldn't create default backup path '%s/%s'.", cmd->system_dir, DEFAULT_BACKUP_SUBDIR); return NULL; } return dm_pool_strdup(cmd->mem, buf); } const char *get_default_unconfigured_backup_backup_dir_CFG(struct cmd_context *cmd) { return "@DEFAULT_SYS_DIR@/@DEFAULT_BACKUP_SUBDIR@"; } const char *get_default_backup_archive_dir_CFG(struct cmd_context *cmd, struct profile *profile) { static char buf[PATH_MAX]; if (dm_snprintf (buf, sizeof(buf), "%s/%s", cmd->system_dir, DEFAULT_ARCHIVE_SUBDIR) == -1) { log_error("Couldn't create default archive path '%s/%s'.", cmd->system_dir, DEFAULT_ARCHIVE_SUBDIR); return NULL; } return dm_pool_strdup(cmd->mem, buf); } const char *get_default_unconfigured_backup_archive_dir_CFG(struct cmd_context *cmd) { return "@DEFAULT_SYS_DIR@/@DEFAULT_ARCHIVE_SUBDIR@"; } const char *get_default_config_profile_dir_CFG(struct cmd_context *cmd, struct profile *profile) { static char buf[PATH_MAX]; if (dm_snprintf(buf, sizeof(buf), "%s/%s", cmd->system_dir, DEFAULT_PROFILE_SUBDIR) == -1) { log_error("Couldn't create default profile path '%s/%s'.", cmd->system_dir, DEFAULT_PROFILE_SUBDIR); return NULL; } return dm_pool_strdup(cmd->mem, buf); } const char *get_default_unconfigured_config_profile_dir_CFG(struct cmd_context *cmd) { return "@DEFAULT_SYS_DIR@/@DEFAULT_PROFILE_SUBDIR@"; } const char *get_default_activation_mirror_image_fault_policy_CFG(struct cmd_context *cmd, struct profile *profile) { return find_config_tree_str(cmd, activation_mirror_device_fault_policy_CFG, profile); } int get_default_allocation_thin_pool_chunk_size_CFG(struct cmd_context *cmd, struct profile *profile) { const char *str; uint32_t chunk_size; if (!(str = find_config_tree_str(cmd, allocation_thin_pool_chunk_size_policy_CFG, profile))) { log_error(INTERNAL_ERROR "Cannot find configuration."); return 0; } if (!strcasecmp(str, "generic")) chunk_size = DEFAULT_THIN_POOL_CHUNK_SIZE * 2; else if (!strcasecmp(str, "performance")) chunk_size = DEFAULT_THIN_POOL_CHUNK_SIZE_PERFORMANCE * 2; else { log_error("Thin pool chunk size calculation policy \"%s\" is unrecognised.", str); return 0; } return (int) chunk_size; } int get_default_allocation_cache_pool_chunk_size_CFG(struct cmd_context *cmd, struct profile *profile) { return DEFAULT_CACHE_POOL_CHUNK_SIZE * 2; } uint64_t get_default_allocation_cache_pool_max_chunks_CFG(struct cmd_context *cmd, struct profile *profile) { static int _warn_max_chunks = 0; /* * TODO: In future may depend on the cache target version, * newer targets may scale better. */ uint64_t default_max_chunks = DEFAULT_CACHE_POOL_MAX_CHUNKS; uint64_t max_chunks = find_config_tree_int(cmd, allocation_cache_pool_max_chunks_CFG, profile); if (!max_chunks) max_chunks = default_max_chunks; else if (max_chunks > default_max_chunks) /* Still warn the user when the value is tweaked above recommended level */ /* Maybe drop to log_verbose... */ log_warn_suppress(_warn_max_chunks++, "WARNING: Configured cache_pool_max_chunks value " FMTu64 " is higher then recommended " FMTu64 ".", max_chunks, default_max_chunks); return max_chunks; }