/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include #include #include #include #include #include #include #include "sd-journal.h" #include "alloc-util.h" #include "catalog.h" #include "compress.h" #include "dirent-util.h" #include "env-file.h" #include "escape.h" #include "fd-util.h" #include "fileio.h" #include "format-util.h" #include "fs-util.h" #include "hashmap.h" #include "hostname-util.h" #include "id128-util.h" #include "inotify-util.h" #include "io-util.h" #include "journal-def.h" #include "journal-file.h" #include "journal-internal.h" #include "list.h" #include "lookup3.h" #include "nulstr-util.h" #include "origin-id.h" #include "path-util.h" #include "prioq.h" #include "process-util.h" #include "replace-var.h" #include "stat-util.h" #include "stdio-util.h" #include "string-util.h" #include "strv.h" #include "syslog-util.h" #define JOURNAL_FILES_RECHECK_USEC (2 * USEC_PER_SEC) /* The maximum size of variable values we'll expand in catalog entries. We bind this to PATH_MAX for now, as * we want to be able to show all officially valid paths at least */ #define REPLACE_VAR_MAX PATH_MAX #define DEFAULT_DATA_THRESHOLD (64*1024) DEFINE_PRIVATE_ORIGIN_ID_HELPERS(sd_journal, journal); static void remove_file_real(sd_journal *j, JournalFile *f); static int journal_file_read_tail_timestamp(sd_journal *j, JournalFile *f); static void journal_file_unlink_newest_by_bood_id(sd_journal *j, JournalFile *f); static int journal_put_error(sd_journal *j, int r, const char *path) { _cleanup_free_ char *copy = NULL; int k; /* Memorize an error we encountered, and store which * file/directory it was generated from. Note that we store * only *one* path per error code, as the error code is the * key into the hashmap, and the path is the value. This means * we keep track only of all error kinds, but not of all error * locations. This has the benefit that the hashmap cannot * grow beyond bounds. * * We return an error here only if we didn't manage to * memorize the real error. */ if (r >= 0) return r; if (path) { copy = strdup(path); if (!copy) return -ENOMEM; } k = hashmap_ensure_put(&j->errors, NULL, INT_TO_PTR(r), copy); if (k < 0) { if (k == -EEXIST) return 0; return k; } TAKE_PTR(copy); return 0; } static void detach_location(sd_journal *j) { JournalFile *f; assert(j); j->current_file = NULL; j->current_field = 0; ORDERED_HASHMAP_FOREACH(f, j->files) journal_file_reset_location(f); } static void init_location(Location *l, LocationType type, JournalFile *f, Object *o) { assert(l); assert(IN_SET(type, LOCATION_DISCRETE, LOCATION_SEEK)); assert(f); *l = (Location) { .type = type, .seqnum = le64toh(o->entry.seqnum), .seqnum_id = f->header->seqnum_id, .realtime = le64toh(o->entry.realtime), .monotonic = le64toh(o->entry.monotonic), .boot_id = o->entry.boot_id, .xor_hash = le64toh(o->entry.xor_hash), .seqnum_set = true, .realtime_set = true, .monotonic_set = true, .xor_hash_set = true, }; } static void set_location(sd_journal *j, JournalFile *f, Object *o) { assert(j); assert(f); assert(o); init_location(&j->current_location, LOCATION_DISCRETE, f, o); j->current_file = f; j->current_field = 0; /* Let f know its candidate entry was picked. */ assert(f->location_type == LOCATION_SEEK); f->location_type = LOCATION_DISCRETE; } static int match_is_valid(const void *data, size_t size) { const char *b = ASSERT_PTR(data); if (size < 2) return false; if (((char*) data)[0] == '_' && ((char*) data)[1] == '_') return false; for (const char *p = b; p < b + size; p++) { if (*p == '=') return p > b; if (*p == '_') continue; if (*p >= 'A' && *p <= 'Z') continue; if (ascii_isdigit(*p)) continue; return false; } return false; } static bool same_field(const void *_a, size_t s, const void *_b, size_t t) { const uint8_t *a = _a, *b = _b; for (size_t j = 0; j < s && j < t; j++) { if (a[j] != b[j]) return false; if (a[j] == '=') return true; } assert_not_reached(); } static Match *match_new(Match *p, MatchType t) { Match *m; m = new(Match, 1); if (!m) return NULL; *m = (Match) { .type = t, .parent = p, }; if (p) LIST_PREPEND(matches, p->matches, m); return m; } static Match *match_free(Match *m) { assert(m); while (m->matches) match_free(m->matches); if (m->parent) LIST_REMOVE(matches, m->parent->matches, m); free(m->data); return mfree(m); } static Match *match_free_if_empty(Match *m) { if (!m || m->matches) return m; return match_free(m); } _public_ int sd_journal_add_match(sd_journal *j, const void *data, size_t size) { Match *add_here = NULL, *m = NULL; uint64_t hash; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(data, -EINVAL); if (size == 0) size = strlen(data); assert_return(match_is_valid(data, size), -EINVAL); /* level 0: AND term * level 1: OR terms * level 2: AND terms * level 3: OR terms * level 4: concrete matches */ if (!j->level0) { j->level0 = match_new(NULL, MATCH_AND_TERM); if (!j->level0) return -ENOMEM; } if (!j->level1) { j->level1 = match_new(j->level0, MATCH_OR_TERM); if (!j->level1) return -ENOMEM; } if (!j->level2) { j->level2 = match_new(j->level1, MATCH_AND_TERM); if (!j->level2) return -ENOMEM; } assert(j->level0->type == MATCH_AND_TERM); assert(j->level1->type == MATCH_OR_TERM); assert(j->level2->type == MATCH_AND_TERM); /* Old-style Jenkins (unkeyed) hashing only here. We do not cover new-style siphash (keyed) hashing * here, since it's different for each file, and thus can't be pre-calculated in the Match object. */ hash = jenkins_hash64(data, size); LIST_FOREACH(matches, l3, j->level2->matches) { assert(l3->type == MATCH_OR_TERM); LIST_FOREACH(matches, l4, l3->matches) { assert(l4->type == MATCH_DISCRETE); /* Exactly the same match already? Then ignore * this addition */ if (l4->hash == hash && l4->size == size && memcmp(l4->data, data, size) == 0) return 0; /* Same field? Then let's add this to this OR term */ if (same_field(data, size, l4->data, l4->size)) { add_here = l3; break; } } if (add_here) break; } if (!add_here) { add_here = match_new(j->level2, MATCH_OR_TERM); if (!add_here) goto fail; } m = match_new(add_here, MATCH_DISCRETE); if (!m) goto fail; m->hash = hash; m->size = size; m->data = memdup(data, size); if (!m->data) goto fail; detach_location(j); return 0; fail: match_free(m); match_free_if_empty(add_here); j->level2 = match_free_if_empty(j->level2); j->level1 = match_free_if_empty(j->level1); j->level0 = match_free_if_empty(j->level0); return -ENOMEM; } _public_ int sd_journal_add_conjunction(sd_journal *j) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); if (!j->level0) return 0; if (!j->level1) return 0; if (!j->level1->matches) return 0; j->level1 = NULL; j->level2 = NULL; return 0; } _public_ int sd_journal_add_disjunction(sd_journal *j) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); if (!j->level0) return 0; if (!j->level1) return 0; if (!j->level2) return 0; if (!j->level2->matches) return 0; j->level2 = NULL; return 0; } static char *match_make_string(Match *m) { _cleanup_free_ char *p = NULL; bool enclose = false; if (!m) return strdup("none"); if (m->type == MATCH_DISCRETE) return cescape_length(m->data, m->size); LIST_FOREACH(matches, i, m->matches) { _cleanup_free_ char *t = NULL; t = match_make_string(i); if (!t) return NULL; if (p) { if (!strextend(&p, m->type == MATCH_OR_TERM ? " OR " : " AND ", t)) return NULL; enclose = true; } else p = TAKE_PTR(t); } if (enclose) return strjoin("(", p, ")"); return TAKE_PTR(p); } char *journal_make_match_string(sd_journal *j) { assert(j); return match_make_string(j->level0); } _public_ void sd_journal_flush_matches(sd_journal *j) { if (!j || journal_origin_changed(j)) return; if (j->level0) match_free(j->level0); j->level0 = j->level1 = j->level2 = NULL; detach_location(j); } static int journal_file_find_newest_for_boot_id( sd_journal *j, sd_id128_t id, JournalFile **ret) { JournalFile *prev = NULL; int r; assert(j); assert(ret); /* Before we use it, let's refresh the timestamp from the header, and reshuffle our prioq * accordingly. We do this only a bunch of times, to not be caught in some update loop. */ for (unsigned n_tries = 0;; n_tries++) { JournalFile *f; Prioq *q; q = hashmap_get(j->newest_by_boot_id, &id); if (!q) return log_debug_errno(SYNTHETIC_ERRNO(ENODATA), "Requested delta for boot ID %s, but we have no information about that boot ID.", SD_ID128_TO_STRING(id)); assert_se(f = prioq_peek(q)); /* we delete hashmap entries once the prioq is empty, so this must hold */ if (f == prev || n_tries >= 5) { /* This was already the best answer in the previous run, or we tried too often, use it */ *ret = f; return 0; } prev = f; /* Let's read the journal file's current timestamp once, before we return it, maybe it has changed. */ r = journal_file_read_tail_timestamp(j, f); if (r < 0) return log_debug_errno(r, "Failed to read tail timestamp while trying to find newest journal file for boot ID %s.", SD_ID128_TO_STRING(id)); /* Refreshing the timestamp we read might have reshuffled the prioq, hence let's check the * prioq again and only use the the information once we reached an equilibrium or hit a * limit */ } } static int compare_boot_ids(sd_journal *j, sd_id128_t a, sd_id128_t b) { JournalFile *x, *y; assert(j); /* Try to find the newest open journal file for the two boot ids */ if (journal_file_find_newest_for_boot_id(j, a, &x) < 0 || journal_file_find_newest_for_boot_id(j, b, &y) < 0) return 0; /* Only compare the boot id timestamps if they originate from the same machine. If they are from * different machines, then we timestamps of the boot ids might be as off as the timestamps on the * entries and hence not useful for comparing. */ if (!sd_id128_equal(x->newest_machine_id, y->newest_machine_id)) return 0; return CMP(x->newest_realtime_usec, y->newest_realtime_usec); } static int compare_with_location( sd_journal *j, const JournalFile *f, const Location *l, const JournalFile *current_file) { int r; assert(j); assert(f); assert(l); assert(f->location_type == LOCATION_SEEK); assert(IN_SET(l->type, LOCATION_DISCRETE, LOCATION_SEEK)); if (l->monotonic_set && sd_id128_equal(f->current_boot_id, l->boot_id) && l->realtime_set && f->current_realtime == l->realtime && l->xor_hash_set && f->current_xor_hash == l->xor_hash && l->seqnum_set && sd_id128_equal(f->header->seqnum_id, l->seqnum_id) && f->current_seqnum == l->seqnum && f != current_file) return 0; if (l->seqnum_set && sd_id128_equal(f->header->seqnum_id, l->seqnum_id)) { r = CMP(f->current_seqnum, l->seqnum); if (r != 0) return r; } if (l->monotonic_set) { /* If both arguments have the same boot ID, then we can compare the monotonic timestamps. If * they are distinct, then we might able to lookup the timestamps of those boot IDs (if they * are from the same machine) and order by that. */ if (sd_id128_equal(f->current_boot_id, l->boot_id)) r = CMP(f->current_monotonic, l->monotonic); else r = compare_boot_ids(j, f->current_boot_id, l->boot_id); if (r != 0) return r; } if (l->realtime_set) { r = CMP(f->current_realtime, l->realtime); if (r != 0) return r; } if (l->xor_hash_set) { r = CMP(f->current_xor_hash, l->xor_hash); if (r != 0) return r; } return 0; } static int next_for_match( sd_journal *j, Match *m, JournalFile *f, uint64_t after_offset, direction_t direction, Object **ret, uint64_t *offset) { int r; uint64_t np = 0; assert(j); assert(m); assert(f); if (m->type == MATCH_DISCRETE) { Object *d; uint64_t hash; /* If the keyed hash logic is used, we need to calculate the hash fresh per file. Otherwise * we can use what we pre-calculated. */ if (JOURNAL_HEADER_KEYED_HASH(f->header)) hash = journal_file_hash_data(f, m->data, m->size); else hash = m->hash; r = journal_file_find_data_object_with_hash(f, m->data, m->size, hash, &d, NULL); if (r <= 0) return r; return journal_file_move_to_entry_by_offset_for_data(f, d, after_offset, direction, ret, offset); } else if (m->type == MATCH_OR_TERM) { /* Find the earliest match beyond after_offset */ LIST_FOREACH(matches, i, m->matches) { uint64_t cp; r = next_for_match(j, i, f, after_offset, direction, NULL, &cp); if (r < 0) return r; else if (r > 0) { if (np == 0 || (direction == DIRECTION_DOWN ? cp < np : cp > np)) np = cp; } } if (np == 0) return 0; } else if (m->type == MATCH_AND_TERM) { Match *last_moved; /* Always jump to the next matching entry and repeat * this until we find an offset that matches for all * matches. */ if (!m->matches) return 0; r = next_for_match(j, m->matches, f, after_offset, direction, NULL, &np); if (r <= 0) return r; assert(direction == DIRECTION_DOWN ? np >= after_offset : np <= after_offset); last_moved = m->matches; LIST_LOOP_BUT_ONE(matches, i, m->matches, last_moved) { uint64_t cp; r = next_for_match(j, i, f, np, direction, NULL, &cp); if (r <= 0) return r; assert(direction == DIRECTION_DOWN ? cp >= np : cp <= np); if (direction == DIRECTION_DOWN ? cp > np : cp < np) { np = cp; last_moved = i; } } } assert(np > 0); if (ret) { r = journal_file_move_to_object(f, OBJECT_ENTRY, np, ret); if (r < 0) return r; } if (offset) *offset = np; return 1; } static int find_location_for_match( sd_journal *j, Match *m, JournalFile *f, direction_t direction, Object **ret, uint64_t *offset) { int r; assert(j); assert(m); assert(f); if (m->type == MATCH_DISCRETE) { Object *d; uint64_t dp, hash; if (JOURNAL_HEADER_KEYED_HASH(f->header)) hash = journal_file_hash_data(f, m->data, m->size); else hash = m->hash; r = journal_file_find_data_object_with_hash(f, m->data, m->size, hash, &d, &dp); if (r <= 0) return r; /* FIXME: missing: find by monotonic */ if (j->current_location.type == LOCATION_HEAD) return direction == DIRECTION_DOWN ? journal_file_next_entry_for_data(f, d, DIRECTION_DOWN, ret, offset) : 0; if (j->current_location.type == LOCATION_TAIL) return direction == DIRECTION_UP ? journal_file_next_entry_for_data(f, d, DIRECTION_UP, ret, offset) : 0; if (j->current_location.seqnum_set && sd_id128_equal(j->current_location.seqnum_id, f->header->seqnum_id)) return journal_file_move_to_entry_by_seqnum_for_data(f, d, j->current_location.seqnum, direction, ret, offset); if (j->current_location.monotonic_set) { r = journal_file_move_to_entry_by_monotonic_for_data(f, d, j->current_location.boot_id, j->current_location.monotonic, direction, ret, offset); if (r != -ENOENT) return r; /* The data object might have been invalidated. */ r = journal_file_move_to_object(f, OBJECT_DATA, dp, &d); if (r < 0) return r; } if (j->current_location.realtime_set) return journal_file_move_to_entry_by_realtime_for_data(f, d, j->current_location.realtime, direction, ret, offset); return journal_file_next_entry_for_data(f, d, direction, ret, offset); } else if (m->type == MATCH_OR_TERM) { uint64_t np = 0; /* Find the earliest match */ LIST_FOREACH(matches, i, m->matches) { uint64_t cp; r = find_location_for_match(j, i, f, direction, NULL, &cp); if (r < 0) return r; else if (r > 0) { if (np == 0 || (direction == DIRECTION_DOWN ? np > cp : np < cp)) np = cp; } } if (np == 0) return 0; if (ret) { r = journal_file_move_to_object(f, OBJECT_ENTRY, np, ret); if (r < 0) return r; } if (offset) *offset = np; return 1; } else { uint64_t np = 0; assert(m->type == MATCH_AND_TERM); /* First jump to the last match, and then find the * next one where all matches match */ if (!m->matches) return 0; LIST_FOREACH(matches, i, m->matches) { uint64_t cp; r = find_location_for_match(j, i, f, direction, NULL, &cp); if (r <= 0) return r; if (np == 0 || (direction == DIRECTION_DOWN ? cp > np : cp < np)) np = cp; } return next_for_match(j, m, f, np, direction, ret, offset); } } static int find_location_with_matches( sd_journal *j, JournalFile *f, direction_t direction, Object **ret, uint64_t *offset) { int r; assert(j); assert(f); assert(ret); assert(offset); if (!j->level0) { /* No matches is simple */ if (j->current_location.type == LOCATION_HEAD) return direction == DIRECTION_DOWN ? journal_file_next_entry(f, 0, DIRECTION_DOWN, ret, offset) : 0; if (j->current_location.type == LOCATION_TAIL) return direction == DIRECTION_UP ? journal_file_next_entry(f, 0, DIRECTION_UP, ret, offset) : 0; if (j->current_location.seqnum_set && sd_id128_equal(j->current_location.seqnum_id, f->header->seqnum_id)) return journal_file_move_to_entry_by_seqnum(f, j->current_location.seqnum, direction, ret, offset); if (j->current_location.monotonic_set) { r = journal_file_move_to_entry_by_monotonic(f, j->current_location.boot_id, j->current_location.monotonic, direction, ret, offset); if (r != -ENOENT) return r; } if (j->current_location.realtime_set) return journal_file_move_to_entry_by_realtime(f, j->current_location.realtime, direction, ret, offset); return journal_file_next_entry(f, 0, direction, ret, offset); } else return find_location_for_match(j, j->level0, f, direction, ret, offset); } static int next_with_matches( sd_journal *j, JournalFile *f, direction_t direction, Object **ret, uint64_t *offset) { assert(j); assert(f); assert(ret); assert(offset); /* No matches is easy. We simple advance the file * pointer by one. */ if (!j->level0) return journal_file_next_entry(f, f->current_offset, direction, ret, offset); /* If we have a match then we look for the next matching entry * with an offset at least one step larger */ return next_for_match(j, j->level0, f, direction == DIRECTION_DOWN ? f->current_offset + 1 : f->current_offset - 1, direction, ret, offset); } static int next_beyond_location(sd_journal *j, JournalFile *f, direction_t direction) { Object *c; uint64_t cp, n_entries; int r; assert(j); assert(f); (void) journal_file_read_tail_timestamp(j, f); n_entries = le64toh(f->header->n_entries); /* If we hit EOF before, we don't need to look into this file again * unless direction changed or new entries appeared. */ if (f->last_direction == direction && f->location_type == (direction == DIRECTION_DOWN ? LOCATION_TAIL : LOCATION_HEAD) && n_entries == f->last_n_entries) return 0; f->last_n_entries = n_entries; if (f->last_direction == direction && f->current_offset > 0) { /* LOCATION_SEEK here means we did the work in a previous * iteration and the current location already points to a * candidate entry. */ if (f->location_type != LOCATION_SEEK) { r = next_with_matches(j, f, direction, &c, &cp); if (r <= 0) return r; journal_file_save_location(f, c, cp); } } else { f->last_direction = direction; r = find_location_with_matches(j, f, direction, &c, &cp); if (r <= 0) return r; journal_file_save_location(f, c, cp); } /* OK, we found the spot, now let's advance until an entry * that is actually different from what we were previously * looking at. This is necessary to handle entries which exist * in two (or more) journal files, and which shall all be * suppressed but one. */ for (;;) { bool found; if (j->current_location.type == LOCATION_DISCRETE) { int k; k = compare_with_location(j, f, &j->current_location, j->current_file); found = direction == DIRECTION_DOWN ? k > 0 : k < 0; } else found = true; if (found) return 1; r = next_with_matches(j, f, direction, &c, &cp); if (r <= 0) return r; journal_file_save_location(f, c, cp); } } static int compare_locations(sd_journal *j, JournalFile *af, JournalFile *bf) { int r; assert(j); assert(af); assert(af->header); assert(bf); assert(bf->header); assert(af->location_type == LOCATION_SEEK); assert(bf->location_type == LOCATION_SEEK); /* If contents, timestamps and seqnum match, these entries are identical. */ if (sd_id128_equal(af->current_boot_id, bf->current_boot_id) && af->current_monotonic == bf->current_monotonic && af->current_realtime == bf->current_realtime && af->current_xor_hash == bf->current_xor_hash && sd_id128_equal(af->header->seqnum_id, bf->header->seqnum_id) && af->current_seqnum == bf->current_seqnum) return 0; if (sd_id128_equal(af->header->seqnum_id, bf->header->seqnum_id)) { /* If this is from the same seqnum source, compare seqnums */ r = CMP(af->current_seqnum, bf->current_seqnum); if (r != 0) return r; /* Wow! This is weird, different data but the same seqnums? Something is borked, but let's * make the best of it and compare by time. */ } if (sd_id128_equal(af->current_boot_id, bf->current_boot_id)) /* If the boot id matches, compare monotonic time */ r = CMP(af->current_monotonic, bf->current_monotonic); else /* If they don't match try to compare boot IDs */ r = compare_boot_ids(j, af->current_boot_id, bf->current_boot_id); if (r != 0) return r; /* Otherwise, compare UTC time */ r = CMP(af->current_realtime, bf->current_realtime); if (r != 0) return r; /* Finally, compare by contents */ return CMP(af->current_xor_hash, bf->current_xor_hash); } static int real_journal_next(sd_journal *j, direction_t direction) { JournalFile *new_file = NULL; unsigned n_files; const void **files; Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); r = iterated_cache_get(j->files_cache, NULL, &files, &n_files); if (r < 0) return r; for (unsigned i = 0; i < n_files; i++) { JournalFile *f = (JournalFile *)files[i]; bool found; r = next_beyond_location(j, f, direction); if (r < 0) { log_debug_errno(r, "Can't iterate through %s, ignoring: %m", f->path); remove_file_real(j, f); continue; } else if (r == 0) { f->location_type = direction == DIRECTION_DOWN ? LOCATION_TAIL : LOCATION_HEAD; continue; } if (!new_file) found = true; else { int k; k = compare_locations(j, f, new_file); found = direction == DIRECTION_DOWN ? k < 0 : k > 0; } if (found) new_file = f; } if (!new_file) return 0; r = journal_file_move_to_object(new_file, OBJECT_ENTRY, new_file->current_offset, &o); if (r < 0) return r; set_location(j, new_file, o); return 1; } _public_ int sd_journal_next(sd_journal *j) { return real_journal_next(j, DIRECTION_DOWN); } _public_ int sd_journal_previous(sd_journal *j) { return real_journal_next(j, DIRECTION_UP); } static int real_journal_next_skip(sd_journal *j, direction_t direction, uint64_t skip) { int c = 0, r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(skip <= INT_MAX, -ERANGE); if (skip == 0) { /* If this is not a discrete skip, then at least * resolve the current location */ if (j->current_location.type != LOCATION_DISCRETE) { r = real_journal_next(j, direction); if (r < 0) return r; } return 0; } do { r = real_journal_next(j, direction); if (r < 0) return r; if (r == 0) return c; skip--; c++; } while (skip > 0); return c; } _public_ int sd_journal_next_skip(sd_journal *j, uint64_t skip) { return real_journal_next_skip(j, DIRECTION_DOWN, skip); } _public_ int sd_journal_previous_skip(sd_journal *j, uint64_t skip) { return real_journal_next_skip(j, DIRECTION_UP, skip); } _public_ int sd_journal_get_cursor(sd_journal *j, char **cursor) { Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(cursor, -EINVAL); if (!j->current_file || j->current_file->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(j->current_file, OBJECT_ENTRY, j->current_file->current_offset, &o); if (r < 0) return r; if (asprintf(cursor, "s=%s;i=%"PRIx64";b=%s;m=%"PRIx64";t=%"PRIx64";x=%"PRIx64, SD_ID128_TO_STRING(j->current_file->header->seqnum_id), le64toh(o->entry.seqnum), SD_ID128_TO_STRING(o->entry.boot_id), le64toh(o->entry.monotonic), le64toh(o->entry.realtime), le64toh(o->entry.xor_hash)) < 0) return -ENOMEM; return 0; } _public_ int sd_journal_seek_cursor(sd_journal *j, const char *cursor) { unsigned long long seqnum, monotonic, realtime, xor_hash; bool seqnum_id_set = false, seqnum_set = false, boot_id_set = false, monotonic_set = false, realtime_set = false, xor_hash_set = false; sd_id128_t seqnum_id, boot_id; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(!isempty(cursor), -EINVAL); for (const char *p = cursor;;) { _cleanup_free_ char *word = NULL; r = extract_first_word(&p, &word, ";", EXTRACT_DONT_COALESCE_SEPARATORS); if (r < 0) return r; if (r == 0) break; if (word[0] == '\0' || word[1] != '=') return -EINVAL; switch (word[0]) { case 's': seqnum_id_set = true; r = sd_id128_from_string(word + 2, &seqnum_id); if (r < 0) return r; break; case 'i': seqnum_set = true; if (sscanf(word + 2, "%llx", &seqnum) != 1) return -EINVAL; break; case 'b': boot_id_set = true; r = sd_id128_from_string(word + 2, &boot_id); if (r < 0) return r; break; case 'm': monotonic_set = true; if (sscanf(word + 2, "%llx", &monotonic) != 1) return -EINVAL; break; case 't': realtime_set = true; if (sscanf(word + 2, "%llx", &realtime) != 1) return -EINVAL; break; case 'x': xor_hash_set = true; if (sscanf(word + 2, "%llx", &xor_hash) != 1) return -EINVAL; break; } } if ((!seqnum_set || !seqnum_id_set) && (!monotonic_set || !boot_id_set) && !realtime_set) return -EINVAL; detach_location(j); j->current_location = (Location) { .type = LOCATION_SEEK, }; if (realtime_set) { j->current_location.realtime = (uint64_t) realtime; j->current_location.realtime_set = true; } if (seqnum_set && seqnum_id_set) { j->current_location.seqnum = (uint64_t) seqnum; j->current_location.seqnum_id = seqnum_id; j->current_location.seqnum_set = true; } if (monotonic_set && boot_id_set) { j->current_location.monotonic = (uint64_t) monotonic; j->current_location.boot_id = boot_id; j->current_location.monotonic_set = true; } if (xor_hash_set) { j->current_location.xor_hash = (uint64_t) xor_hash; j->current_location.xor_hash_set = true; } return 0; } _public_ int sd_journal_test_cursor(sd_journal *j, const char *cursor) { int r; Object *o; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(!isempty(cursor), -EINVAL); if (!j->current_file || j->current_file->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(j->current_file, OBJECT_ENTRY, j->current_file->current_offset, &o); if (r < 0) return r; for (;;) { _cleanup_free_ char *item = NULL; unsigned long long ll; sd_id128_t id; int k = 0; r = extract_first_word(&cursor, &item, ";", EXTRACT_DONT_COALESCE_SEPARATORS); if (r < 0) return r; if (r == 0) break; if (strlen(item) < 2 || item[1] != '=') return -EINVAL; switch (item[0]) { case 's': k = sd_id128_from_string(item+2, &id); if (k < 0) return k; if (!sd_id128_equal(id, j->current_file->header->seqnum_id)) return 0; break; case 'i': if (sscanf(item+2, "%llx", &ll) != 1) return -EINVAL; if (ll != le64toh(o->entry.seqnum)) return 0; break; case 'b': k = sd_id128_from_string(item+2, &id); if (k < 0) return k; if (!sd_id128_equal(id, o->entry.boot_id)) return 0; break; case 'm': if (sscanf(item+2, "%llx", &ll) != 1) return -EINVAL; if (ll != le64toh(o->entry.monotonic)) return 0; break; case 't': if (sscanf(item+2, "%llx", &ll) != 1) return -EINVAL; if (ll != le64toh(o->entry.realtime)) return 0; break; case 'x': if (sscanf(item+2, "%llx", &ll) != 1) return -EINVAL; if (ll != le64toh(o->entry.xor_hash)) return 0; break; } } return 1; } _public_ int sd_journal_seek_monotonic_usec(sd_journal *j, sd_id128_t boot_id, uint64_t usec) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); detach_location(j); j->current_location = (Location) { .type = LOCATION_SEEK, .boot_id = boot_id, .monotonic = usec, .monotonic_set = true, }; return 0; } _public_ int sd_journal_seek_realtime_usec(sd_journal *j, uint64_t usec) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); detach_location(j); j->current_location = (Location) { .type = LOCATION_SEEK, .realtime = usec, .realtime_set = true, }; return 0; } _public_ int sd_journal_seek_head(sd_journal *j) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); detach_location(j); j->current_location = (Location) { .type = LOCATION_HEAD, }; return 0; } _public_ int sd_journal_seek_tail(sd_journal *j) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); detach_location(j); j->current_location = (Location) { .type = LOCATION_TAIL, }; return 0; } static void check_network(sd_journal *j, int fd) { assert(j); if (j->on_network) return; j->on_network = fd_is_network_fs(fd); } static bool file_has_type_prefix(const char *prefix, const char *filename) { const char *full, *tilded, *atted; full = strjoina(prefix, ".journal"); tilded = strjoina(full, "~"); atted = strjoina(prefix, "@"); return STR_IN_SET(filename, full, tilded) || startswith(filename, atted); } static bool file_type_wanted(int flags, const char *filename) { assert(filename); if (!endswith(filename, ".journal") && !endswith(filename, ".journal~")) return false; /* no flags set → every type is OK */ if (!(flags & (SD_JOURNAL_SYSTEM | SD_JOURNAL_CURRENT_USER))) return true; if (flags & SD_JOURNAL_SYSTEM && file_has_type_prefix("system", filename)) return true; if (flags & SD_JOURNAL_CURRENT_USER) { char prefix[5 + DECIMAL_STR_MAX(uid_t) + 1]; xsprintf(prefix, "user-"UID_FMT, getuid()); if (file_has_type_prefix(prefix, filename)) return true; } return false; } static bool path_has_prefix(sd_journal *j, const char *path, const char *prefix) { assert(j); assert(path); assert(prefix); if (j->toplevel_fd >= 0) return false; return path_startswith(path, prefix); } static void track_file_disposition(sd_journal *j, JournalFile *f) { assert(j); assert(f); if (!j->has_runtime_files && path_has_prefix(j, f->path, "/run")) j->has_runtime_files = true; else if (!j->has_persistent_files && path_has_prefix(j, f->path, "/var")) j->has_persistent_files = true; } static const char *skip_slash(const char *p) { if (!p) return NULL; while (*p == '/') p++; return p; } static int add_any_file( sd_journal *j, int fd, const char *path) { _cleanup_close_ int our_fd = -EBADF; JournalFile *f; struct stat st; int r; assert(j); assert(fd >= 0 || path); if (fd < 0) { assert(path); /* For gcc. */ if (j->toplevel_fd >= 0) /* If there's a top-level fd defined make the path relative, explicitly, since otherwise * openat() ignores the first argument. */ fd = our_fd = openat(j->toplevel_fd, skip_slash(path), O_RDONLY|O_CLOEXEC|O_NONBLOCK); else fd = our_fd = open(path, O_RDONLY|O_CLOEXEC|O_NONBLOCK); if (fd < 0) { r = log_debug_errno(errno, "Failed to open journal file %s: %m", path); goto error; } r = fd_nonblock(fd, false); if (r < 0) { r = log_debug_errno(errno, "Failed to turn off O_NONBLOCK for %s: %m", path); goto error; } } if (fstat(fd, &st) < 0) { r = log_debug_errno(errno, "Failed to fstat %s: %m", path ?: "fd"); goto error; } r = stat_verify_regular(&st); if (r < 0) { log_debug_errno(r, "Refusing to open %s: %m", path ?: "fd"); goto error; } if (path) { f = ordered_hashmap_get(j->files, path); if (f) { if (stat_inode_same(&f->last_stat, &st)) { /* We already track this file, under the same path and with the same * device/inode numbers, it's hence really the same. Mark this file as seen * in this generation. This is used to GC old files in process_q_overflow() * to detect journal files that are still there and discern them from those * which are gone. */ f->last_seen_generation = j->generation; (void) journal_file_read_tail_timestamp(j, f); return 0; } /* So we tracked a file under this name, but it has a different inode/device. In that * case, it got replaced (probably due to rotation?), let's drop it hence from our * list. */ remove_file_real(j, f); f = NULL; } } if (ordered_hashmap_size(j->files) >= JOURNAL_FILES_MAX) { r = log_debug_errno(SYNTHETIC_ERRNO(ETOOMANYREFS), "Too many open journal files, not adding %s.", path ?: "fd"); goto error; } r = journal_file_open(fd, path, O_RDONLY, 0, 0, 0, NULL, j->mmap, NULL, &f); if (r < 0) { log_debug_errno(r, "Failed to open journal file %s: %m", path ?: "from fd"); goto error; } /* journal_file_dump(f); */ /* journal_file_open() generates an replacement fname if necessary, so we can use f->path. */ r = ordered_hashmap_put(j->files, f->path, f); if (r < 0) { f->close_fd = false; /* Make sure journal_file_close() doesn't close the caller's fd * (or our own). The caller or we will do that ourselves. */ (void) journal_file_close(f); goto error; } TAKE_FD(our_fd); /* the fd is now owned by the JournalFile object */ f->last_seen_generation = j->generation; track_file_disposition(j, f); check_network(j, f->fd); (void) journal_file_read_tail_timestamp(j, f); j->current_invalidate_counter++; log_debug("File %s added.", f->path); return 0; error: (void) journal_put_error(j, r, path); /* path==NULL is OK. */ return r; } static int add_file_by_name( sd_journal *j, const char *prefix, const char *filename) { _cleanup_free_ char *path = NULL; assert(j); assert(prefix); assert(filename); if (j->no_new_files) return 0; if (!file_type_wanted(j->flags, filename)) return 0; path = path_join(prefix, filename); if (!path) return -ENOMEM; return add_any_file(j, -1, path); } static int remove_file_by_name( sd_journal *j, const char *prefix, const char *filename) { _cleanup_free_ char *path = NULL; JournalFile *f; assert(j); assert(prefix); assert(filename); path = path_join(prefix, filename); if (!path) return -ENOMEM; f = ordered_hashmap_get(j->files, path); if (!f) return 0; remove_file_real(j, f); return 1; } static void remove_file_real(sd_journal *j, JournalFile *f) { assert(j); assert(f); (void) ordered_hashmap_remove(j->files, f->path); log_debug("File %s removed.", f->path); if (j->current_file == f) { j->current_file = NULL; j->current_field = 0; } if (j->unique_file == f) { /* Jump to the next unique_file or NULL if that one was last */ j->unique_file = ordered_hashmap_next(j->files, j->unique_file->path); j->unique_offset = 0; if (!j->unique_file) j->unique_file_lost = true; } if (j->fields_file == f) { j->fields_file = ordered_hashmap_next(j->files, j->fields_file->path); j->fields_offset = 0; if (!j->fields_file) j->fields_file_lost = true; } journal_file_unlink_newest_by_bood_id(j, f); (void) journal_file_close(f); j->current_invalidate_counter++; } static int dirname_is_machine_id(const char *fn) { sd_id128_t id, machine; const char *e; int r; /* Returns true if the specified directory name matches the local machine ID */ r = sd_id128_get_machine(&machine); if (r < 0) return r; e = strchr(fn, '.'); if (e) { const char *k; /* Looks like it has a namespace suffix. Verify that. */ if (!log_namespace_name_valid(e + 1)) return false; k = strndupa_safe(fn, e - fn); r = sd_id128_from_string(k, &id); } else r = sd_id128_from_string(fn, &id); if (r < 0) return r; return sd_id128_equal(id, machine); } static int dirname_has_namespace(const char *fn, const char *namespace) { const char *e; /* Returns true if the specified directory name matches the specified namespace */ e = strchr(fn, '.'); if (e) { const char *k; if (!namespace) return false; if (!streq(e + 1, namespace)) return false; k = strndupa_safe(fn, e - fn); return id128_is_valid(k); } if (namespace) return false; return id128_is_valid(fn); } static bool dirent_is_journal_file(const struct dirent *de) { assert(de); /* Returns true if the specified directory entry looks like a journal file we might be interested in */ if (!IN_SET(de->d_type, DT_REG, DT_LNK, DT_UNKNOWN)) return false; return endswith(de->d_name, ".journal") || endswith(de->d_name, ".journal~"); } static bool dirent_is_journal_subdir(const struct dirent *de) { const char *e, *n; assert(de); /* returns true if the specified directory entry looks like a directory that might contain journal * files we might be interested in, i.e. is either a 128bit ID or a 128bit ID suffixed by a * namespace. */ if (!IN_SET(de->d_type, DT_DIR, DT_LNK, DT_UNKNOWN)) return false; e = strchr(de->d_name, '.'); if (!e) return id128_is_valid(de->d_name); /* No namespace */ n = strndupa_safe(de->d_name, e - de->d_name); if (!id128_is_valid(n)) return false; return log_namespace_name_valid(e + 1); } static int directory_open(sd_journal *j, const char *path, DIR **ret) { DIR *d; assert(j); assert(path); assert(ret); if (j->toplevel_fd < 0) d = opendir(path); else /* Open the specified directory relative to the toplevel fd. Enforce that the path specified is * relative, by dropping the initial slash */ d = xopendirat(j->toplevel_fd, skip_slash(path), 0); if (!d) return -errno; *ret = d; return 0; } static int add_directory(sd_journal *j, const char *prefix, const char *dirname); static void directory_enumerate(sd_journal *j, Directory *m, DIR *d) { assert(j); assert(m); assert(d); FOREACH_DIRENT_ALL(de, d, goto fail) { if (dirent_is_journal_file(de)) (void) add_file_by_name(j, m->path, de->d_name); if (m->is_root && dirent_is_journal_subdir(de)) (void) add_directory(j, m->path, de->d_name); } return; fail: log_debug_errno(errno, "Failed to enumerate directory %s, ignoring: %m", m->path); } static void directory_watch(sd_journal *j, Directory *m, int fd, uint32_t mask) { int r; assert(j); assert(m); assert(fd >= 0); /* Watch this directory if that's enabled and if it not being watched yet. */ if (m->wd > 0) /* Already have a watch? */ return; if (j->inotify_fd < 0) /* Not watching at all? */ return; m->wd = inotify_add_watch_fd(j->inotify_fd, fd, mask); if (m->wd < 0) { log_debug_errno(errno, "Failed to watch journal directory '%s', ignoring: %m", m->path); return; } r = hashmap_put(j->directories_by_wd, INT_TO_PTR(m->wd), m); if (r == -EEXIST) log_debug_errno(r, "Directory '%s' already being watched under a different path, ignoring: %m", m->path); if (r < 0) { log_debug_errno(r, "Failed to add watch for journal directory '%s' to hashmap, ignoring: %m", m->path); (void) inotify_rm_watch(j->inotify_fd, m->wd); m->wd = -1; } } static int add_directory( sd_journal *j, const char *prefix, const char *dirname) { _cleanup_free_ char *path = NULL; _cleanup_closedir_ DIR *d = NULL; Directory *m; int r, k; assert(j); assert(prefix); /* Adds a journal file directory to watch. If the directory is already tracked this updates the inotify watch * and reenumerates directory contents */ path = path_join(prefix, dirname); if (!path) { r = -ENOMEM; goto fail; } log_debug("Considering directory '%s'.", path); /* We consider everything local that is in a directory for the local machine ID, or that is stored in /run */ if ((j->flags & SD_JOURNAL_LOCAL_ONLY) && !((dirname && dirname_is_machine_id(dirname) > 0) || path_has_prefix(j, path, "/run"))) return 0; if (dirname && (!(FLAGS_SET(j->flags, SD_JOURNAL_ALL_NAMESPACES) || dirname_has_namespace(dirname, j->namespace) > 0 || (FLAGS_SET(j->flags, SD_JOURNAL_INCLUDE_DEFAULT_NAMESPACE) && dirname_has_namespace(dirname, NULL) > 0)))) return 0; r = directory_open(j, path, &d); if (r < 0) { log_debug_errno(r, "Failed to open directory '%s': %m", path); goto fail; } m = hashmap_get(j->directories_by_path, path); if (!m) { m = new(Directory, 1); if (!m) { r = -ENOMEM; goto fail; } *m = (Directory) { .is_root = false, .path = path, }; if (hashmap_put(j->directories_by_path, m->path, m) < 0) { free(m); r = -ENOMEM; goto fail; } path = NULL; /* avoid freeing in cleanup */ j->current_invalidate_counter++; log_debug("Directory %s added.", m->path); } else if (m->is_root) return 0; /* Don't 'downgrade' from root directory */ m->last_seen_generation = j->generation; directory_watch(j, m, dirfd(d), IN_CREATE|IN_MOVED_TO|IN_MODIFY|IN_ATTRIB|IN_DELETE| IN_DELETE_SELF|IN_MOVE_SELF|IN_UNMOUNT|IN_MOVED_FROM| IN_ONLYDIR); if (!j->no_new_files) directory_enumerate(j, m, d); check_network(j, dirfd(d)); return 0; fail: k = journal_put_error(j, r, path ?: prefix); if (k < 0) return k; return r; } static int add_root_directory(sd_journal *j, const char *p, bool missing_ok) { _cleanup_closedir_ DIR *d = NULL; Directory *m; int r, k; assert(j); /* Adds a root directory to our set of directories to use. If the root directory is already in the set, we * update the inotify logic, and renumerate the directory entries. This call may hence be called to initially * populate the set, as well as to update it later. */ if (p) { /* If there's a path specified, use it. */ log_debug("Considering root directory '%s'.", p); if ((j->flags & SD_JOURNAL_RUNTIME_ONLY) && !path_has_prefix(j, p, "/run")) return -EINVAL; if (j->prefix) p = strjoina(j->prefix, p); r = directory_open(j, p, &d); if (r == -ENOENT && missing_ok) return 0; if (r < 0) { log_debug_errno(r, "Failed to open root directory %s: %m", p); goto fail; } } else { _cleanup_close_ int dfd = -EBADF; /* If there's no path specified, then we use the top-level fd itself. We duplicate the fd here, since * opendir() will take possession of the fd, and close it, which we don't want. */ p = "."; /* store this as "." in the directories hashmap */ dfd = fcntl(j->toplevel_fd, F_DUPFD_CLOEXEC, 3); if (dfd < 0) { r = -errno; goto fail; } d = take_fdopendir(&dfd); if (!d) { r = -errno; goto fail; } rewinddir(d); } m = hashmap_get(j->directories_by_path, p); if (!m) { m = new0(Directory, 1); if (!m) { r = -ENOMEM; goto fail; } m->is_root = true; m->path = strdup(p); if (!m->path) { free(m); r = -ENOMEM; goto fail; } if (hashmap_put(j->directories_by_path, m->path, m) < 0) { free(m->path); free(m); r = -ENOMEM; goto fail; } j->current_invalidate_counter++; log_debug("Root directory %s added.", m->path); } else if (!m->is_root) return 0; directory_watch(j, m, dirfd(d), IN_CREATE|IN_MOVED_TO|IN_MODIFY|IN_ATTRIB|IN_DELETE| IN_ONLYDIR); if (!j->no_new_files) directory_enumerate(j, m, d); check_network(j, dirfd(d)); return 0; fail: k = journal_put_error(j, r, p); if (k < 0) return k; return r; } static void remove_directory(sd_journal *j, Directory *d) { assert(j); if (d->wd > 0) { hashmap_remove(j->directories_by_wd, INT_TO_PTR(d->wd)); if (j->inotify_fd >= 0) (void) inotify_rm_watch(j->inotify_fd, d->wd); } hashmap_remove(j->directories_by_path, d->path); if (d->is_root) log_debug("Root directory %s removed.", d->path); else log_debug("Directory %s removed.", d->path); free(d->path); free(d); } static int add_search_paths(sd_journal *j) { static const char search_paths[] = "/run/log/journal\0" "/var/log/journal\0"; assert(j); /* We ignore most errors here, since the idea is to only open * what's actually accessible, and ignore the rest. */ NULSTR_FOREACH(p, search_paths) (void) add_root_directory(j, p, true); if (!(j->flags & SD_JOURNAL_LOCAL_ONLY)) (void) add_root_directory(j, "/var/log/journal/remote", true); return 0; } static int add_current_paths(sd_journal *j) { JournalFile *f; assert(j); assert(j->no_new_files); /* Simply adds all directories for files we have open as directories. We don't expect errors here, so we * treat them as fatal. */ ORDERED_HASHMAP_FOREACH(f, j->files) { _cleanup_free_ char *dir = NULL; int r; r = path_extract_directory(f->path, &dir); if (r < 0) return r; r = add_directory(j, dir, NULL); if (r < 0) return r; } return 0; } static int allocate_inotify(sd_journal *j) { assert(j); if (j->inotify_fd < 0) { j->inotify_fd = inotify_init1(IN_NONBLOCK|IN_CLOEXEC); if (j->inotify_fd < 0) return -errno; } return hashmap_ensure_allocated(&j->directories_by_wd, NULL); } static sd_journal *journal_new(int flags, const char *path, const char *namespace) { _cleanup_(sd_journal_closep) sd_journal *j = NULL; j = new(sd_journal, 1); if (!j) return NULL; *j = (sd_journal) { .origin_id = origin_id_query(), .toplevel_fd = -EBADF, .inotify_fd = -EBADF, .flags = flags, .data_threshold = DEFAULT_DATA_THRESHOLD, }; if (path) { char *t; t = strdup(path); if (!t) return NULL; if (flags & SD_JOURNAL_OS_ROOT) j->prefix = t; else j->path = t; } if (namespace) { j->namespace = strdup(namespace); if (!j->namespace) return NULL; } j->files = ordered_hashmap_new(&path_hash_ops); if (!j->files) return NULL; j->files_cache = ordered_hashmap_iterated_cache_new(j->files); j->directories_by_path = hashmap_new(&path_hash_ops); j->mmap = mmap_cache_new(); if (!j->files_cache || !j->directories_by_path || !j->mmap) return NULL; return TAKE_PTR(j); } #define OPEN_ALLOWED_FLAGS \ (SD_JOURNAL_LOCAL_ONLY | \ SD_JOURNAL_RUNTIME_ONLY | \ SD_JOURNAL_SYSTEM | \ SD_JOURNAL_CURRENT_USER | \ SD_JOURNAL_ALL_NAMESPACES | \ SD_JOURNAL_INCLUDE_DEFAULT_NAMESPACE) _public_ int sd_journal_open_namespace(sd_journal **ret, const char *namespace, int flags) { _cleanup_(sd_journal_closep) sd_journal *j = NULL; int r; assert_return(ret, -EINVAL); assert_return((flags & ~OPEN_ALLOWED_FLAGS) == 0, -EINVAL); j = journal_new(flags, NULL, namespace); if (!j) return -ENOMEM; r = add_search_paths(j); if (r < 0) return r; *ret = TAKE_PTR(j); return 0; } _public_ int sd_journal_open(sd_journal **ret, int flags) { return sd_journal_open_namespace(ret, NULL, flags); } #define OPEN_CONTAINER_ALLOWED_FLAGS \ (SD_JOURNAL_LOCAL_ONLY | SD_JOURNAL_SYSTEM) _public_ int sd_journal_open_container(sd_journal **ret, const char *machine, int flags) { _cleanup_free_ char *root = NULL, *class = NULL; _cleanup_(sd_journal_closep) sd_journal *j = NULL; char *p; int r; /* This is deprecated, people should use machined's OpenMachineRootDirectory() call instead in * combination with sd_journal_open_directory_fd(). */ assert_return(machine, -EINVAL); assert_return(ret, -EINVAL); assert_return((flags & ~OPEN_CONTAINER_ALLOWED_FLAGS) == 0, -EINVAL); assert_return(hostname_is_valid(machine, 0), -EINVAL); p = strjoina("/run/systemd/machines/", machine); r = parse_env_file(NULL, p, "ROOT", &root, "CLASS", &class); if (r == -ENOENT) return -EHOSTDOWN; if (r < 0) return r; if (!root) return -ENODATA; if (!streq_ptr(class, "container")) return -EIO; j = journal_new(flags, root, NULL); if (!j) return -ENOMEM; r = add_search_paths(j); if (r < 0) return r; *ret = TAKE_PTR(j); return 0; } #define OPEN_DIRECTORY_ALLOWED_FLAGS \ (SD_JOURNAL_OS_ROOT | \ SD_JOURNAL_SYSTEM | SD_JOURNAL_CURRENT_USER ) _public_ int sd_journal_open_directory(sd_journal **ret, const char *path, int flags) { _cleanup_(sd_journal_closep) sd_journal *j = NULL; int r; assert_return(ret, -EINVAL); assert_return(path, -EINVAL); assert_return((flags & ~OPEN_DIRECTORY_ALLOWED_FLAGS) == 0, -EINVAL); j = journal_new(flags, path, NULL); if (!j) return -ENOMEM; if (flags & SD_JOURNAL_OS_ROOT) r = add_search_paths(j); else r = add_root_directory(j, path, false); if (r < 0) return r; *ret = TAKE_PTR(j); return 0; } _public_ int sd_journal_open_files(sd_journal **ret, const char **paths, int flags) { _cleanup_(sd_journal_closep) sd_journal *j = NULL; int r; assert_return(ret, -EINVAL); assert_return(flags == 0, -EINVAL); j = journal_new(flags, NULL, NULL); if (!j) return -ENOMEM; STRV_FOREACH(path, paths) { r = add_any_file(j, -1, *path); if (r < 0) return r; } j->no_new_files = true; *ret = TAKE_PTR(j); return 0; } #define OPEN_DIRECTORY_FD_ALLOWED_FLAGS \ (SD_JOURNAL_OS_ROOT | \ SD_JOURNAL_SYSTEM | SD_JOURNAL_CURRENT_USER ) _public_ int sd_journal_open_directory_fd(sd_journal **ret, int fd, int flags) { _cleanup_(sd_journal_closep) sd_journal *j = NULL; struct stat st; int r; assert_return(ret, -EINVAL); assert_return(fd >= 0, -EBADF); assert_return((flags & ~OPEN_DIRECTORY_FD_ALLOWED_FLAGS) == 0, -EINVAL); if (fstat(fd, &st) < 0) return -errno; if (!S_ISDIR(st.st_mode)) return -EBADFD; j = journal_new(flags, NULL, NULL); if (!j) return -ENOMEM; j->toplevel_fd = fd; if (flags & SD_JOURNAL_OS_ROOT) r = add_search_paths(j); else r = add_root_directory(j, NULL, false); if (r < 0) return r; *ret = TAKE_PTR(j); return 0; } _public_ int sd_journal_open_files_fd(sd_journal **ret, int fds[], unsigned n_fds, int flags) { JournalFile *f; _cleanup_(sd_journal_closep) sd_journal *j = NULL; int r; assert_return(ret, -EINVAL); assert_return(n_fds > 0, -EBADF); assert_return(flags == 0, -EINVAL); j = journal_new(flags, NULL, NULL); if (!j) return -ENOMEM; for (unsigned i = 0; i < n_fds; i++) { struct stat st; if (fds[i] < 0) { r = -EBADF; goto fail; } if (fstat(fds[i], &st) < 0) { r = -errno; goto fail; } r = stat_verify_regular(&st); if (r < 0) goto fail; r = add_any_file(j, fds[i], NULL); if (r < 0) goto fail; } j->no_new_files = true; j->no_inotify = true; *ret = TAKE_PTR(j); return 0; fail: /* If we fail, make sure we don't take possession of the files we managed to make use of successfully, and they * remain open */ ORDERED_HASHMAP_FOREACH(f, j->files) f->close_fd = false; return r; } _public_ void sd_journal_close(sd_journal *j) { Directory *d; Prioq *p; if (!j || journal_origin_changed(j)) return; while ((p = hashmap_first(j->newest_by_boot_id))) journal_file_unlink_newest_by_bood_id(j, prioq_peek(p)); hashmap_free(j->newest_by_boot_id); sd_journal_flush_matches(j); ordered_hashmap_free_with_destructor(j->files, journal_file_close); iterated_cache_free(j->files_cache); while ((d = hashmap_first(j->directories_by_path))) remove_directory(j, d); while ((d = hashmap_first(j->directories_by_wd))) remove_directory(j, d); hashmap_free(j->directories_by_path); hashmap_free(j->directories_by_wd); safe_close(j->inotify_fd); if (j->mmap) { mmap_cache_stats_log_debug(j->mmap); mmap_cache_unref(j->mmap); } hashmap_free_free(j->errors); free(j->path); free(j->prefix); free(j->namespace); free(j->unique_field); free(j->fields_buffer); free(j); } static void journal_file_unlink_newest_by_bood_id(sd_journal *j, JournalFile *f) { JournalFile *nf; Prioq *p; assert(j); assert(f); if (f->newest_boot_id_prioq_idx == PRIOQ_IDX_NULL) /* not linked currently, hence this is a NOP */ return; assert_se(p = hashmap_get(j->newest_by_boot_id, &f->newest_boot_id)); assert_se(prioq_remove(p, f, &f->newest_boot_id_prioq_idx) > 0); nf = prioq_peek(p); if (nf) /* There's still a member in the prioq? Then make sure the hashmap key now points to its * .newest_boot_id field (and not ours!). Not we only replace the memory of the key here, the * value of the key (and the data associated with it) remain the same. */ assert_se(hashmap_replace(j->newest_by_boot_id, &nf->newest_boot_id, p) >= 0); else { assert_se(hashmap_remove(j->newest_by_boot_id, &f->newest_boot_id) == p); prioq_free(p); } f->newest_boot_id_prioq_idx = PRIOQ_IDX_NULL; } static int journal_file_newest_monotonic_compare(const void *a, const void *b) { const JournalFile *x = a, *y = b; return -CMP(x->newest_monotonic_usec, y->newest_monotonic_usec); /* Invert order, we want newest first! */ } static int journal_file_reshuffle_newest_by_boot_id(sd_journal *j, JournalFile *f) { Prioq *p; int r; assert(j); assert(f); p = hashmap_get(j->newest_by_boot_id, &f->newest_boot_id); if (p) { /* There's already a priority queue for this boot ID */ if (f->newest_boot_id_prioq_idx == PRIOQ_IDX_NULL) { r = prioq_put(p, f, &f->newest_boot_id_prioq_idx); /* Insert if we aren't in there yet */ if (r < 0) return r; } else prioq_reshuffle(p, f, &f->newest_boot_id_prioq_idx); /* Reshuffle otherwise */ } else { _cleanup_(prioq_freep) Prioq *q = NULL; /* No priority queue yet, then allocate one */ assert(f->newest_boot_id_prioq_idx == PRIOQ_IDX_NULL); /* we can't be a member either */ q = prioq_new(journal_file_newest_monotonic_compare); if (!q) return -ENOMEM; r = prioq_put(q, f, &f->newest_boot_id_prioq_idx); if (r < 0) return r; r = hashmap_ensure_put(&j->newest_by_boot_id, &id128_hash_ops, &f->newest_boot_id, q); if (r < 0) { f->newest_boot_id_prioq_idx = PRIOQ_IDX_NULL; return r; } TAKE_PTR(q); } return 0; } static int journal_file_read_tail_timestamp(sd_journal *j, JournalFile *f) { uint64_t offset, mo, rt; sd_id128_t id; ObjectType type; Object *o; int r; assert(j); assert(f); assert(f->header); /* Tries to read the timestamp of the most recently written entry. */ r = journal_file_fstat(f); if (r < 0) return r; if (f->newest_mtime == timespec_load(&f->last_stat.st_mtim)) return 0; /* mtime didn't change since last time, don't bother */ if (JOURNAL_HEADER_CONTAINS(f->header, tail_entry_offset)) { offset = le64toh(READ_NOW(f->header->tail_entry_offset)); type = OBJECT_ENTRY; } else { offset = le64toh(READ_NOW(f->header->tail_object_offset)); type = OBJECT_UNUSED; } if (offset == 0) return -ENODATA; /* not a single object/entry, hence no tail timestamp */ /* Move to the last object in the journal file, in the hope it is an entry (which it usually will * be). If we lack the "tail_entry_offset" field in the header, we specify the type as OBJECT_UNUSED * here, since we cannot be sure what the last object will be, and want no noisy logging if it isn't * an entry. We instead check after figuring out the pointer. */ r = journal_file_move_to_object(f, type, offset, &o); if (r < 0) { log_debug_errno(r, "Failed to move to last object in journal file, ignoring: %m"); o = NULL; } if (o && o->object.type == OBJECT_ENTRY) { /* Yay, last object is an entry, let's use the data. */ id = o->entry.boot_id; mo = le64toh(o->entry.monotonic); rt = le64toh(o->entry.realtime); } else { /* So the object is not an entry or we couldn't access it? In that case, let's read the most * recent entry timestamps from the header. It's equally good. Unfortunately though, in old * versions of the journal the boot ID in the header doesn't have to match the monotonic * timestamp of the header. Let's check the header flag that indicates whether this strictly * matches first hence, before using the data. */ if (JOURNAL_HEADER_TAIL_ENTRY_BOOT_ID(f->header) && f->header->state == STATE_ARCHIVED) { mo = le64toh(f->header->tail_entry_monotonic); rt = le64toh(f->header->tail_entry_realtime); id = f->header->tail_entry_boot_id; /* Some superficial checking if what we read makes sense. Note that we only do this * when reading the timestamps from the Header object, but not when reading them from * the most recent entry object, because in that case journal_file_move_to_object() * already validated them. */ if (!VALID_MONOTONIC(mo) || !VALID_REALTIME(rt)) return -ENODATA; } else { /* Otherwise let's find the last entry manually (this possibly means traversing the * chain of entry arrays, till the end */ r = journal_file_next_entry(f, 0, DIRECTION_UP, &o, NULL); if (r < 0) return r; if (r == 0) return -ENODATA; id = o->entry.boot_id; mo = le64toh(o->entry.monotonic); rt = le64toh(o->entry.realtime); } } if (mo > rt) /* monotonic clock is further ahead than realtime? that's weird, refuse to use the data */ return -ENODATA; if (!sd_id128_equal(f->newest_boot_id, id)) journal_file_unlink_newest_by_bood_id(j, f); f->newest_boot_id = id; f->newest_monotonic_usec = mo; f->newest_realtime_usec = rt; f->newest_machine_id = f->header->machine_id; f->newest_mtime = timespec_load(&f->last_stat.st_mtim); r = journal_file_reshuffle_newest_by_boot_id(j, f); if (r < 0) return r; return 0; } _public_ int sd_journal_get_realtime_usec(sd_journal *j, uint64_t *ret) { JournalFile *f; Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); f = j->current_file; if (!f) return -EADDRNOTAVAIL; if (f->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; uint64_t t = le64toh(o->entry.realtime); if (!VALID_REALTIME(t)) return -EBADMSG; if (ret) *ret = t; return 0; } _public_ int sd_journal_get_monotonic_usec(sd_journal *j, uint64_t *ret, sd_id128_t *ret_boot_id) { JournalFile *f; Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); f = j->current_file; if (!f) return -EADDRNOTAVAIL; if (f->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; if (ret_boot_id) *ret_boot_id = o->entry.boot_id; else { sd_id128_t id; r = sd_id128_get_boot(&id); if (r < 0) return r; if (!sd_id128_equal(id, o->entry.boot_id)) return -ESTALE; } uint64_t t = le64toh(o->entry.monotonic); if (!VALID_MONOTONIC(t)) return -EBADMSG; if (ret) *ret = t; return 0; } _public_ int sd_journal_get_seqnum( sd_journal *j, uint64_t *ret_seqnum, sd_id128_t *ret_seqnum_id) { JournalFile *f; Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); f = j->current_file; if (!f) return -EADDRNOTAVAIL; if (f->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; if (ret_seqnum_id) *ret_seqnum_id = f->header->seqnum_id; if (ret_seqnum) *ret_seqnum = le64toh(o->entry.seqnum); return 0; } static bool field_is_valid(const char *field) { assert(field); if (isempty(field)) return false; if (startswith(field, "__")) return false; for (const char *p = field; *p; p++) { if (*p == '_') continue; if (*p >= 'A' && *p <= 'Z') continue; if (ascii_isdigit(*p)) continue; return false; } return true; } _public_ int sd_journal_get_data(sd_journal *j, const char *field, const void **data, size_t *size) { JournalFile *f; size_t field_length; Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(field, -EINVAL); assert_return(data, -EINVAL); assert_return(size, -EINVAL); assert_return(field_is_valid(field), -EINVAL); f = j->current_file; if (!f) return -EADDRNOTAVAIL; if (f->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; field_length = strlen(field); uint64_t n = journal_file_entry_n_items(f, o); for (uint64_t i = 0; i < n; i++) { uint64_t p; void *d; size_t l; p = journal_file_entry_item_object_offset(f, o, i); r = journal_file_data_payload(f, NULL, p, field, field_length, j->data_threshold, &d, &l); if (r == 0) goto next; if (IN_SET(r, -EADDRNOTAVAIL, -EBADMSG)) { log_debug_errno(r, "Entry item %"PRIu64" data object is bad, skipping over it: %m", i); goto next; } if (r < 0) return r; *data = d; *size = l; return 0; next: /* journal_file_data_payload() may clear or overwrite cached object. */ r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; } return -ENOENT; } _public_ int sd_journal_enumerate_data(sd_journal *j, const void **data, size_t *size) { JournalFile *f; Object *o; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(data, -EINVAL); assert_return(size, -EINVAL); f = j->current_file; if (!f) return -EADDRNOTAVAIL; if (f->current_offset <= 0) return -EADDRNOTAVAIL; r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; for (uint64_t n = journal_file_entry_n_items(f, o); j->current_field < n; j->current_field++) { uint64_t p; void *d; size_t l; p = journal_file_entry_item_object_offset(f, o, j->current_field); r = journal_file_data_payload(f, NULL, p, NULL, 0, j->data_threshold, &d, &l); if (IN_SET(r, -EADDRNOTAVAIL, -EBADMSG)) { log_debug_errno(r, "Entry item %"PRIu64" data object is bad, skipping over it: %m", j->current_field); goto next; } if (r < 0) return r; assert(r > 0); *data = d; *size = l; j->current_field++; return 1; next: /* journal_file_data_payload() may clear or overwrite cached object. */ r = journal_file_move_to_object(f, OBJECT_ENTRY, f->current_offset, &o); if (r < 0) return r; } return 0; } _public_ int sd_journal_enumerate_available_data(sd_journal *j, const void **data, size_t *size) { for (;;) { int r; r = sd_journal_enumerate_data(j, data, size); if (r >= 0) return r; if (!JOURNAL_ERRNO_IS_UNAVAILABLE_FIELD(r)) return r; j->current_field++; /* Try with the next field */ } } _public_ void sd_journal_restart_data(sd_journal *j) { if (!j || journal_origin_changed(j)) return; j->current_field = 0; } static int reiterate_all_paths(sd_journal *j) { assert(j); if (j->no_new_files) return add_current_paths(j); if (j->flags & SD_JOURNAL_OS_ROOT) return add_search_paths(j); if (j->toplevel_fd >= 0) return add_root_directory(j, NULL, false); if (j->path) return add_root_directory(j, j->path, true); return add_search_paths(j); } _public_ int sd_journal_get_fd(sd_journal *j) { int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); if (j->no_inotify) return -EMEDIUMTYPE; if (j->inotify_fd >= 0) return j->inotify_fd; r = allocate_inotify(j); if (r < 0) return r; log_debug("Reiterating files to get inotify watches established."); /* Iterate through all dirs again, to add them to the inotify */ r = reiterate_all_paths(j); if (r < 0) return r; return j->inotify_fd; } _public_ int sd_journal_get_events(sd_journal *j) { int fd; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); fd = sd_journal_get_fd(j); if (fd < 0) return fd; return POLLIN; } _public_ int sd_journal_get_timeout(sd_journal *j, uint64_t *timeout_usec) { int fd; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(timeout_usec, -EINVAL); fd = sd_journal_get_fd(j); if (fd < 0) return fd; if (!j->on_network) { *timeout_usec = UINT64_MAX; return 0; } /* If we are on the network we need to regularly check for * changes manually */ *timeout_usec = j->last_process_usec + JOURNAL_FILES_RECHECK_USEC; return 1; } static void process_q_overflow(sd_journal *j) { JournalFile *f; Directory *m; assert(j); /* When the inotify queue overruns we need to enumerate and re-validate all journal files to bring our list * back in sync with what's on disk. For this we pick a new generation counter value. It'll be assigned to all * journal files we encounter. All journal files and all directories that don't carry it after reenumeration * are subject for unloading. */ log_debug("Inotify queue overrun, reiterating everything."); j->generation++; (void) reiterate_all_paths(j); ORDERED_HASHMAP_FOREACH(f, j->files) { if (f->last_seen_generation == j->generation) continue; log_debug("File '%s' hasn't been seen in this enumeration, removing.", f->path); remove_file_real(j, f); } HASHMAP_FOREACH(m, j->directories_by_path) { if (m->last_seen_generation == j->generation) continue; if (m->is_root) /* Never GC root directories */ continue; log_debug("Directory '%s' hasn't been seen in this enumeration, removing.", f->path); remove_directory(j, m); } log_debug("Reiteration complete."); } static void process_inotify_event(sd_journal *j, const struct inotify_event *e) { Directory *d; assert(j); assert(e); if (e->mask & IN_Q_OVERFLOW) { process_q_overflow(j); return; } /* Is this a subdirectory we watch? */ d = hashmap_get(j->directories_by_wd, INT_TO_PTR(e->wd)); if (d) { if (!(e->mask & IN_ISDIR) && e->len > 0 && (endswith(e->name, ".journal") || endswith(e->name, ".journal~"))) { /* Event for a journal file */ if (e->mask & (IN_CREATE|IN_MOVED_TO|IN_MODIFY|IN_ATTRIB)) (void) add_file_by_name(j, d->path, e->name); else if (e->mask & (IN_DELETE|IN_MOVED_FROM|IN_UNMOUNT)) (void) remove_file_by_name(j, d->path, e->name); } else if (!d->is_root && e->len == 0) { /* Event for a subdirectory */ if (e->mask & (IN_DELETE_SELF|IN_MOVE_SELF|IN_UNMOUNT)) remove_directory(j, d); } else if (d->is_root && (e->mask & IN_ISDIR) && e->len > 0 && id128_is_valid(e->name)) { /* Event for root directory */ if (e->mask & (IN_CREATE|IN_MOVED_TO|IN_MODIFY|IN_ATTRIB)) (void) add_directory(j, d->path, e->name); } return; } if (e->mask & IN_IGNORED) return; log_debug("Unexpected inotify event."); } static int determine_change(sd_journal *j) { bool b; assert(j); b = j->current_invalidate_counter != j->last_invalidate_counter; j->last_invalidate_counter = j->current_invalidate_counter; return b ? SD_JOURNAL_INVALIDATE : SD_JOURNAL_APPEND; } _public_ int sd_journal_process(sd_journal *j) { bool got_something = false; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); if (j->inotify_fd < 0) /* We have no inotify fd yet? Then there's noting to process. */ return 0; j->last_process_usec = now(CLOCK_MONOTONIC); j->last_invalidate_counter = j->current_invalidate_counter; for (;;) { union inotify_event_buffer buffer; ssize_t l; l = read(j->inotify_fd, &buffer, sizeof(buffer)); if (l < 0) { if (ERRNO_IS_TRANSIENT(errno)) return got_something ? determine_change(j) : SD_JOURNAL_NOP; return -errno; } got_something = true; FOREACH_INOTIFY_EVENT(e, buffer, l) process_inotify_event(j, e); } } _public_ int sd_journal_wait(sd_journal *j, uint64_t timeout_usec) { int r; uint64_t t; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); if (j->inotify_fd < 0) { JournalFile *f; /* This is the first invocation, hence create the inotify watch */ r = sd_journal_get_fd(j); if (r < 0) return r; /* Server might have done some vacuuming while we weren't watching. Get rid of the deleted * files now so they don't stay around indefinitely. */ ORDERED_HASHMAP_FOREACH(f, j->files) { r = journal_file_fstat(f); if (r == -EIDRM) remove_file_real(j, f); else if (r < 0) log_debug_errno(r, "Failed to fstat() journal file '%s', ignoring: %m", f->path); } /* The journal might have changed since the context object was created and we weren't * watching before, hence don't wait for anything, and return immediately. */ return determine_change(j); } r = sd_journal_get_timeout(j, &t); if (r < 0) return r; if (t != UINT64_MAX) { t = usec_sub_unsigned(t, now(CLOCK_MONOTONIC)); if (timeout_usec == UINT64_MAX || timeout_usec > t) timeout_usec = t; } do { r = fd_wait_for_event(j->inotify_fd, POLLIN, timeout_usec); } while (r == -EINTR); if (r < 0) return r; return sd_journal_process(j); } _public_ int sd_journal_get_cutoff_realtime_usec(sd_journal *j, uint64_t *from, uint64_t *to) { JournalFile *f; bool first = true; uint64_t fmin = 0, tmax = 0; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(from || to, -EINVAL); assert_return(from != to, -EINVAL); ORDERED_HASHMAP_FOREACH(f, j->files) { usec_t fr, t; r = journal_file_get_cutoff_realtime_usec(f, &fr, &t); if (r == -ENOENT) continue; if (r < 0) return r; if (r == 0) continue; if (first) { fmin = fr; tmax = t; first = false; } else { fmin = MIN(fr, fmin); tmax = MAX(t, tmax); } } if (from) *from = fmin; if (to) *to = tmax; return first ? 0 : 1; } _public_ int sd_journal_get_cutoff_monotonic_usec( sd_journal *j, sd_id128_t boot_id, uint64_t *ret_from, uint64_t *ret_to) { uint64_t from = UINT64_MAX, to = UINT64_MAX; bool found = false; JournalFile *f; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(ret_from != ret_to, -EINVAL); ORDERED_HASHMAP_FOREACH(f, j->files) { usec_t ff, tt; r = journal_file_get_cutoff_monotonic_usec(f, boot_id, &ff, &tt); if (r == -ENOENT) continue; if (r < 0) return r; if (r == 0) continue; if (found) { from = MIN(ff, from); to = MAX(tt, to); } else { from = ff; to = tt; found = true; } } if (ret_from) *ret_from = from; if (ret_to) *ret_to = to; return found; } void journal_print_header(sd_journal *j) { JournalFile *f; bool newline = false; assert(j); ORDERED_HASHMAP_FOREACH(f, j->files) { if (newline) putchar('\n'); else newline = true; journal_file_print_header(f); } } _public_ int sd_journal_get_usage(sd_journal *j, uint64_t *ret) { JournalFile *f; uint64_t sum = 0; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(ret, -EINVAL); ORDERED_HASHMAP_FOREACH(f, j->files) { struct stat st; uint64_t b; if (fstat(f->fd, &st) < 0) return -errno; b = (uint64_t) st.st_blocks; if (b > UINT64_MAX / 512) return -EOVERFLOW; b *= 512; if (sum > UINT64_MAX - b) return -EOVERFLOW; sum += b; } *ret = sum; return 0; } _public_ int sd_journal_query_unique(sd_journal *j, const char *field) { int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(!isempty(field), -EINVAL); assert_return(field_is_valid(field), -EINVAL); r = free_and_strdup(&j->unique_field, field); if (r < 0) return r; j->unique_file = NULL; j->unique_offset = 0; j->unique_file_lost = false; return 0; } _public_ int sd_journal_enumerate_unique( sd_journal *j, const void **ret_data, size_t *ret_size) { size_t k; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(j->unique_field, -EINVAL); k = strlen(j->unique_field); if (!j->unique_file) { if (j->unique_file_lost) return 0; j->unique_file = ordered_hashmap_first(j->files); if (!j->unique_file) return 0; j->unique_offset = 0; } for (;;) { JournalFile *of; Object *o; void *odata; size_t ol; bool found; int r; /* Proceed to next data object in the field's linked list */ if (j->unique_offset == 0) { r = journal_file_find_field_object(j->unique_file, j->unique_field, k, &o, NULL); if (r < 0) return r; j->unique_offset = r > 0 ? le64toh(o->field.head_data_offset) : 0; } else { r = journal_file_move_to_object(j->unique_file, OBJECT_DATA, j->unique_offset, &o); if (r < 0) return r; j->unique_offset = le64toh(o->data.next_field_offset); } /* We reached the end of the list? Then start again, with the next file */ if (j->unique_offset == 0) { j->unique_file = ordered_hashmap_next(j->files, j->unique_file->path); if (!j->unique_file) return 0; continue; } /* We do not use OBJECT_DATA context here, but OBJECT_UNUSED * instead, so that we can look at this data object at the same * time as one on another file */ r = journal_file_move_to_object(j->unique_file, OBJECT_UNUSED, j->unique_offset, &o); if (r < 0) return r; /* Let's do the type check by hand, since we used 0 context above. */ if (o->object.type != OBJECT_DATA) return log_debug_errno(SYNTHETIC_ERRNO(EBADMSG), "%s:offset " OFSfmt ": object has type %d, expected %d", j->unique_file->path, j->unique_offset, o->object.type, OBJECT_DATA); r = journal_file_data_payload(j->unique_file, o, j->unique_offset, NULL, 0, j->data_threshold, &odata, &ol); if (r < 0) return r; /* Check if we have at least the field name and "=". */ if (ol <= k) return log_debug_errno(SYNTHETIC_ERRNO(EBADMSG), "%s:offset " OFSfmt ": object has size %zu, expected at least %zu", j->unique_file->path, j->unique_offset, ol, k + 1); if (memcmp(odata, j->unique_field, k) != 0 || ((const char*) odata)[k] != '=') return log_debug_errno(SYNTHETIC_ERRNO(EBADMSG), "%s:offset " OFSfmt ": object does not start with \"%s=\"", j->unique_file->path, j->unique_offset, j->unique_field); /* OK, now let's see if we already returned this data object by checking if it exists in the * earlier traversed files. */ found = false; ORDERED_HASHMAP_FOREACH(of, j->files) { if (of == j->unique_file) break; /* Skip this file it didn't have any fields indexed */ if (JOURNAL_HEADER_CONTAINS(of->header, n_fields) && le64toh(of->header->n_fields) <= 0) continue; /* We can reuse the hash from our current file only on old-style journal files * without keyed hashes. On new-style files we have to calculate the hash anew, to * take the per-file hash seed into consideration. */ if (!JOURNAL_HEADER_KEYED_HASH(j->unique_file->header) && !JOURNAL_HEADER_KEYED_HASH(of->header)) r = journal_file_find_data_object_with_hash(of, odata, ol, le64toh(o->data.hash), NULL, NULL); else r = journal_file_find_data_object(of, odata, ol, NULL, NULL); if (r < 0) return r; if (r > 0) { found = true; break; } } if (found) continue; *ret_data = odata; *ret_size = ol; return 1; } } _public_ int sd_journal_enumerate_available_unique(sd_journal *j, const void **data, size_t *size) { for (;;) { int r; r = sd_journal_enumerate_unique(j, data, size); if (r >= 0) return r; if (!JOURNAL_ERRNO_IS_UNAVAILABLE_FIELD(r)) return r; /* Try with the next field. sd_journal_enumerate_unique() modifies state, so on the next try * we will access the next field. */ } } _public_ void sd_journal_restart_unique(sd_journal *j) { if (!j || journal_origin_changed(j)) return; j->unique_file = NULL; j->unique_offset = 0; j->unique_file_lost = false; } _public_ int sd_journal_enumerate_fields(sd_journal *j, const char **field) { int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(field, -EINVAL); if (!j->fields_file) { if (j->fields_file_lost) return 0; j->fields_file = ordered_hashmap_first(j->files); if (!j->fields_file) return 0; j->fields_hash_table_index = 0; j->fields_offset = 0; } for (;;) { JournalFile *f, *of; uint64_t m; Object *o; size_t sz; bool found; f = j->fields_file; if (j->fields_offset == 0) { bool eof = false; /* We are not yet positioned at any field. Let's pick the first one */ r = journal_file_map_field_hash_table(f); if (r < 0) return r; m = le64toh(f->header->field_hash_table_size) / sizeof(HashItem); for (;;) { if (j->fields_hash_table_index >= m) { /* Reached the end of the hash table, go to the next file. */ eof = true; break; } j->fields_offset = le64toh(f->field_hash_table[j->fields_hash_table_index].head_hash_offset); if (j->fields_offset != 0) break; /* Empty hash table bucket, go to next one */ j->fields_hash_table_index++; } if (eof) { /* Proceed with next file */ j->fields_file = ordered_hashmap_next(j->files, f->path); if (!j->fields_file) { *field = NULL; return 0; } j->fields_offset = 0; j->fields_hash_table_index = 0; continue; } } else { /* We are already positioned at a field. If so, let's figure out the next field from it */ r = journal_file_move_to_object(f, OBJECT_FIELD, j->fields_offset, &o); if (r < 0) return r; j->fields_offset = le64toh(o->field.next_hash_offset); if (j->fields_offset == 0) { /* Reached the end of the hash table chain */ j->fields_hash_table_index++; continue; } } /* We use OBJECT_UNUSED here, so that the iterator below doesn't remove our mmap window */ r = journal_file_move_to_object(f, OBJECT_UNUSED, j->fields_offset, &o); if (r < 0) return r; /* Because we used OBJECT_UNUSED above, we need to do our type check manually */ if (o->object.type != OBJECT_FIELD) return log_debug_errno(SYNTHETIC_ERRNO(EBADMSG), "%s:offset " OFSfmt ": object has type %i, expected %i", f->path, j->fields_offset, o->object.type, OBJECT_FIELD); sz = le64toh(o->object.size) - offsetof(Object, field.payload); /* Let's see if we already returned this field name before. */ found = false; ORDERED_HASHMAP_FOREACH(of, j->files) { if (of == f) break; /* Skip this file it didn't have any fields indexed */ if (JOURNAL_HEADER_CONTAINS(of->header, n_fields) && le64toh(of->header->n_fields) <= 0) continue; if (!JOURNAL_HEADER_KEYED_HASH(f->header) && !JOURNAL_HEADER_KEYED_HASH(of->header)) r = journal_file_find_field_object_with_hash(of, o->field.payload, sz, le64toh(o->field.hash), NULL, NULL); else r = journal_file_find_field_object(of, o->field.payload, sz, NULL, NULL); if (r < 0) return r; if (r > 0) { found = true; break; } } if (found) continue; /* Check if this is really a valid string containing no NUL byte */ if (memchr(o->field.payload, 0, sz)) return -EBADMSG; if (j->data_threshold > 0 && sz > j->data_threshold) sz = j->data_threshold; if (!GREEDY_REALLOC(j->fields_buffer, sz + 1)) return -ENOMEM; memcpy(j->fields_buffer, o->field.payload, sz); j->fields_buffer[sz] = 0; if (!field_is_valid(j->fields_buffer)) return -EBADMSG; *field = j->fields_buffer; return 1; } } _public_ void sd_journal_restart_fields(sd_journal *j) { if (!j || journal_origin_changed(j)) return; j->fields_file = NULL; j->fields_hash_table_index = 0; j->fields_offset = 0; j->fields_file_lost = false; } _public_ int sd_journal_reliable_fd(sd_journal *j) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); return !j->on_network; } static char *lookup_field(const char *field, void *userdata) { sd_journal *j = ASSERT_PTR(userdata); const void *data; size_t size, d; int r; assert(field); r = sd_journal_get_data(j, field, &data, &size); if (r < 0 || size > REPLACE_VAR_MAX) return strdup(field); d = strlen(field) + 1; return strndup((const char*) data + d, size - d); } _public_ int sd_journal_get_catalog(sd_journal *j, char **ret) { const void *data; size_t size; sd_id128_t id; _cleanup_free_ char *text = NULL, *cid = NULL; char *t; int r; assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(ret, -EINVAL); r = sd_journal_get_data(j, "MESSAGE_ID", &data, &size); if (r < 0) return r; cid = strndup((const char*) data + 11, size - 11); if (!cid) return -ENOMEM; r = sd_id128_from_string(cid, &id); if (r < 0) return r; r = catalog_get(CATALOG_DATABASE, id, &text); if (r < 0) return r; t = replace_var(text, lookup_field, j); if (!t) return -ENOMEM; *ret = t; return 0; } _public_ int sd_journal_get_catalog_for_message_id(sd_id128_t id, char **ret) { assert_return(ret, -EINVAL); return catalog_get(CATALOG_DATABASE, id, ret); } _public_ int sd_journal_set_data_threshold(sd_journal *j, size_t sz) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); j->data_threshold = sz; return 0; } _public_ int sd_journal_get_data_threshold(sd_journal *j, size_t *sz) { assert_return(j, -EINVAL); assert_return(!journal_origin_changed(j), -ECHILD); assert_return(sz, -EINVAL); *sz = j->data_threshold; return 0; } _public_ int sd_journal_has_runtime_files(sd_journal *j) { assert_return(j, -EINVAL); return j->has_runtime_files; } _public_ int sd_journal_has_persistent_files(sd_journal *j) { assert_return(j, -EINVAL); return j->has_persistent_files; }