/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include #include #include #include #include #include #include "sd-id128.h" #include "sd-journal.h" #include "alloc-util.h" #include "fd-util.h" #include "format-util.h" #include "glyph-util.h" #include "hashmap.h" #include "hostname-util.h" #include "id128-util.h" #include "io-util.h" #include "journal-internal.h" #include "journal-util.h" #include "json.h" #include "locale-util.h" #include "log.h" #include "logs-show.h" #include "macro.h" #include "namespace-util.h" #include "output-mode.h" #include "parse-util.h" #include "pretty-print.h" #include "process-util.h" #include "sparse-endian.h" #include "stdio-util.h" #include "string-table.h" #include "string-util.h" #include "strv.h" #include "terminal-util.h" #include "time-util.h" #include "utf8.h" #include "web-util.h" /* up to three lines (each up to 100 characters) or 300 characters, whichever is less */ #define PRINT_LINE_THRESHOLD 3 #define PRINT_CHAR_THRESHOLD 300 #define JSON_THRESHOLD 4096U static int print_catalog(FILE *f, sd_journal *j) { _cleanup_free_ char *t = NULL, *z = NULL; const char *newline, *prefix; int r; assert(j); r = sd_journal_get_catalog(j, &t); if (r == -ENOENT) return 0; if (r < 0) return log_error_errno(r, "Failed to find catalog entry: %m"); if (is_locale_utf8()) prefix = strjoina(special_glyph(SPECIAL_GLYPH_LIGHT_SHADE), special_glyph(SPECIAL_GLYPH_LIGHT_SHADE)); else prefix = "--"; newline = strjoina(ansi_normal(), "\n", ansi_grey(), prefix, ansi_normal(), " ", ansi_green()); z = strreplace(strstrip(t), "\n", newline); if (!z) return log_oom(); fprintf(f, "%s%s %s%s", ansi_grey(), prefix, ansi_normal(), ansi_green()); fputs(z, f); fprintf(f, "%s\n", ansi_normal()); return 1; } static int url_from_catalog(sd_journal *j, char **ret) { _cleanup_free_ char *t = NULL, *url = NULL; const char *weblink; int r; assert(j); assert(ret); r = sd_journal_get_catalog(j, &t); if (r == -ENOENT) goto notfound; if (r < 0) return log_error_errno(r, "Failed to find catalog entry: %m"); weblink = find_line_startswith(t, "Documentation:"); if (!weblink) goto notfound; /* Skip whitespace to value */ weblink += strspn(weblink, " \t"); /* Cut out till next whitespace/newline */ url = strdupcspn(weblink, WHITESPACE); if (!url) return log_oom(); if (!documentation_url_is_valid(url)) goto notfound; *ret = TAKE_PTR(url); return 1; notfound: *ret = NULL; return 0; } static int parse_field( const void *data, size_t length, const char *field, size_t field_len, char **target, size_t *target_len) { size_t nl; char *buf; assert(data); assert(field); assert(target); if (length < field_len) return 0; if (memcmp(data, field, field_len)) return 0; nl = length - field_len; buf = newdup_suffix0(char, (const char*) data + field_len, nl); if (!buf) return log_oom(); free_and_replace(*target, buf); if (target_len) *target_len = nl; return 1; } typedef struct ParseFieldVec { const char *field; size_t field_len; char **target; size_t *target_len; } ParseFieldVec; #define PARSE_FIELD_VEC_ENTRY(_field, _target, _target_len) { \ .field = _field, \ .field_len = strlen(_field), \ .target = _target, \ .target_len = _target_len \ } static int parse_fieldv( const void *data, size_t length, const ParseFieldVec *fields, size_t n_fields) { int r; for (size_t i = 0; i < n_fields; i++) { const ParseFieldVec *f = &fields[i]; r = parse_field(data, length, f->field, f->field_len, f->target, f->target_len); if (r < 0) return r; if (r > 0) break; } return 0; } static int field_set_test(const Set *fields, const char *name, size_t n) { char *s; if (!fields) return 1; s = strndupa_safe(name, n); return set_contains(fields, s); } static bool shall_print(const char *p, size_t l, OutputFlags flags) { assert(p); if (flags & OUTPUT_SHOW_ALL) return true; if (l >= PRINT_CHAR_THRESHOLD) return false; if (!utf8_is_printable(p, l)) return false; return true; } static bool print_multiline( FILE *f, unsigned prefix, unsigned n_columns, OutputFlags flags, int priority, bool audit, const char* message, size_t message_len, size_t highlight[2]) { const char *color_on = "", *color_off = "", *highlight_on = ""; const char *pos, *end; bool ellipsized = false; int line = 0; if (flags & OUTPUT_COLOR) { get_log_colors(priority, &color_on, &color_off, &highlight_on); if (audit && strempty(color_on)) { color_on = ANSI_BLUE; color_off = ANSI_NORMAL; } } /* A special case: make sure that we print a newline when the message is empty. */ if (message_len == 0) fputs("\n", f); for (pos = message; pos < message + message_len; pos = end + 1, line++) { bool tail_line; int len, indent = (line > 0) * prefix; for (end = pos; end < message + message_len && *end != '\n'; end++) ; len = end - pos; assert(len >= 0); /* We need to figure out when we are showing not-last line, *and* * will skip subsequent lines. In that case, we will put the dots * at the end of the line, instead of putting dots in the middle * or not at all. */ tail_line = line + 1 == PRINT_LINE_THRESHOLD || end + 1 >= message + PRINT_CHAR_THRESHOLD; if (flags & (OUTPUT_FULL_WIDTH | OUTPUT_SHOW_ALL) || (prefix + len + 1 < n_columns && !tail_line)) { if (highlight && (size_t) (pos - message) <= highlight[0] && highlight[0] < (size_t) len) { fprintf(f, "%*s%s%.*s", indent, "", color_on, (int) highlight[0], pos); fprintf(f, "%s%.*s", highlight_on, (int) (MIN((size_t) len, highlight[1]) - highlight[0]), pos + highlight[0]); if ((size_t) len > highlight[1]) fprintf(f, "%s%.*s", color_on, (int) (len - highlight[1]), pos + highlight[1]); fprintf(f, "%s\n", color_off); } else fprintf(f, "%*s%s%.*s%s\n", indent, "", color_on, len, pos, color_off); continue; } /* Beyond this point, ellipsization will happen. */ ellipsized = true; if (prefix < n_columns && n_columns - prefix >= 3) { if (n_columns - prefix > (unsigned) len + 3) fprintf(f, "%*s%s%.*s...%s\n", indent, "", color_on, len, pos, color_off); else { _cleanup_free_ char *e = NULL; e = ellipsize_mem(pos, len, n_columns - prefix, tail_line ? 100 : 90); if (!e) fprintf(f, "%*s%s%.*s%s\n", indent, "", color_on, len, pos, color_off); else fprintf(f, "%*s%s%s%s\n", indent, "", color_on, e, color_off); } } else fputs("...\n", f); if (tail_line) break; } return ellipsized; } static int output_timestamp_monotonic( FILE *f, OutputMode mode, const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id) { int written_chars = 0; assert(f); assert(display_ts); assert(boot_id); assert(previous_display_ts); assert(previous_boot_id); if (!VALID_MONOTONIC(display_ts->monotonic)) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "No valid monotonic timestamp available"); written_chars += fprintf(f, "[%5"PRI_USEC".%06"PRI_USEC, display_ts->monotonic / USEC_PER_SEC, display_ts->monotonic % USEC_PER_SEC); if (mode == OUTPUT_SHORT_DELTA) { uint64_t delta; bool reliable_ts = true; if (VALID_MONOTONIC(previous_display_ts->monotonic) && sd_id128_equal(*boot_id, *previous_boot_id)) delta = usec_sub_unsigned(display_ts->monotonic, previous_display_ts->monotonic); else if (VALID_REALTIME(display_ts->realtime) && VALID_REALTIME(previous_display_ts->realtime)) { delta = usec_sub_unsigned(display_ts->realtime, previous_display_ts->realtime); reliable_ts = false; } else { written_chars += fprintf(f, "%16s", ""); goto finish; } written_chars += fprintf(f, " <%5"PRI_USEC".%06"PRI_USEC"%s>", delta / USEC_PER_SEC, delta % USEC_PER_SEC, reliable_ts ? " " : "*"); } finish: written_chars += fprintf(f, "%s", "]"); return written_chars; } static int output_timestamp_realtime( FILE *f, sd_journal *j, OutputMode mode, OutputFlags flags, const dual_timestamp *display_ts) { char buf[CONST_MAX(FORMAT_TIMESTAMP_MAX, 64U)]; int r; assert(f); assert(j); assert(display_ts); if (!VALID_REALTIME(display_ts->realtime)) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "No valid realtime timestamp available"); if (IN_SET(mode, OUTPUT_SHORT_FULL, OUTPUT_WITH_UNIT)) { const char *k; if (flags & OUTPUT_UTC) k = format_timestamp_style(buf, sizeof(buf), display_ts->realtime, TIMESTAMP_UTC); else k = format_timestamp(buf, sizeof(buf), display_ts->realtime); if (!k) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Failed to format timestamp: %" PRIu64, display_ts->realtime); } else { struct tm tm; time_t t; t = (time_t) (display_ts->realtime / USEC_PER_SEC); switch (mode) { case OUTPUT_SHORT_UNIX: xsprintf(buf, "%10"PRI_TIME".%06"PRIu64, t, display_ts->realtime % USEC_PER_SEC); break; case OUTPUT_SHORT_ISO: if (strftime(buf, sizeof(buf), "%Y-%m-%dT%H:%M:%S%z", localtime_or_gmtime_r(&t, &tm, flags & OUTPUT_UTC)) <= 0) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Failed to format ISO time"); break; case OUTPUT_SHORT_ISO_PRECISE: { char usec[7]; /* No usec in strftime, so we leave space and copy over */ if (strftime(buf, sizeof(buf), "%Y-%m-%dT%H:%M:%S.xxxxxx%z", localtime_or_gmtime_r(&t, &tm, flags & OUTPUT_UTC)) <= 0) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Failed to format ISO-precise time"); xsprintf(usec, "%06"PRI_USEC, display_ts->realtime % USEC_PER_SEC); memcpy(buf + 20, usec, 6); break; } case OUTPUT_SHORT: case OUTPUT_SHORT_PRECISE: if (strftime(buf, sizeof(buf), "%b %d %H:%M:%S", localtime_or_gmtime_r(&t, &tm, flags & OUTPUT_UTC)) <= 0) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Failed to format syslog time"); if (mode == OUTPUT_SHORT_PRECISE) { size_t k; assert(sizeof(buf) > strlen(buf)); k = sizeof(buf) - strlen(buf); r = snprintf(buf + strlen(buf), k, ".%06"PRIu64, display_ts->realtime % USEC_PER_SEC); if (r <= 0 || (size_t) r >= k) /* too long? */ return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Failed to format precise time"); } break; default: assert_not_reached(); } } fputs(buf, f); return (int) strlen(buf); } static int output_short( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, const Set *output_fields, const size_t highlight[2], const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id) { int r; const void *data; size_t length, n = 0; _cleanup_free_ char *hostname = NULL, *identifier = NULL, *comm = NULL, *pid = NULL, *fake_pid = NULL, *message = NULL, *priority = NULL, *transport = NULL, *config_file = NULL, *unit = NULL, *user_unit = NULL, *documentation_url = NULL; size_t hostname_len = 0, identifier_len = 0, comm_len = 0, pid_len = 0, fake_pid_len = 0, message_len = 0, priority_len = 0, transport_len = 0, config_file_len = 0, unit_len = 0, user_unit_len = 0, documentation_url_len = 0; int p = LOG_INFO; bool ellipsized = false, audit; const ParseFieldVec fields[] = { PARSE_FIELD_VEC_ENTRY("_PID=", &pid, &pid_len), PARSE_FIELD_VEC_ENTRY("_COMM=", &comm, &comm_len), PARSE_FIELD_VEC_ENTRY("MESSAGE=", &message, &message_len), PARSE_FIELD_VEC_ENTRY("PRIORITY=", &priority, &priority_len), PARSE_FIELD_VEC_ENTRY("_TRANSPORT=", &transport, &transport_len), PARSE_FIELD_VEC_ENTRY("_HOSTNAME=", &hostname, &hostname_len), PARSE_FIELD_VEC_ENTRY("SYSLOG_PID=", &fake_pid, &fake_pid_len), PARSE_FIELD_VEC_ENTRY("SYSLOG_IDENTIFIER=", &identifier, &identifier_len), PARSE_FIELD_VEC_ENTRY("CONFIG_FILE=", &config_file, &config_file_len), PARSE_FIELD_VEC_ENTRY("_SYSTEMD_UNIT=", &unit, &unit_len), PARSE_FIELD_VEC_ENTRY("_SYSTEMD_USER_UNIT=", &user_unit, &user_unit_len), PARSE_FIELD_VEC_ENTRY("DOCUMENTATION=", &documentation_url, &documentation_url_len), }; size_t highlight_shifted[] = {highlight ? highlight[0] : 0, highlight ? highlight[1] : 0}; assert(f); assert(j); assert(display_ts); assert(boot_id); assert(previous_display_ts); assert(previous_boot_id); /* Set the threshold to one bigger than the actual print threshold, so that if the line is actually * longer than what we're willing to print, ellipsization will occur. This way we won't output a * misleading line without any indication of truncation. */ (void) sd_journal_set_data_threshold(j, flags & (OUTPUT_SHOW_ALL|OUTPUT_FULL_WIDTH) ? 0 : PRINT_CHAR_THRESHOLD + 1); JOURNAL_FOREACH_DATA_RETVAL(j, data, length, r) { r = parse_fieldv(data, length, fields, ELEMENTSOF(fields)); if (r < 0) return r; } if (IN_SET(r, -EBADMSG, -EADDRNOTAVAIL)) { log_debug_errno(r, "Skipping message we can't read: %m"); return 0; } if (r < 0) return log_error_errno(r, "Failed to get journal fields: %m"); if (!message) { log_debug("Skipping message without MESSAGE= field."); return 0; } if (!(flags & OUTPUT_SHOW_ALL)) strip_tab_ansi(&message, &message_len, highlight_shifted); if (flags & OUTPUT_TRUNCATE_NEWLINE) truncate_nl_full(message, &message_len); if (priority_len == 1 && *priority >= '0' && *priority <= '7') p = *priority - '0'; audit = streq_ptr(transport, "audit"); if (IN_SET(mode, OUTPUT_SHORT_MONOTONIC, OUTPUT_SHORT_DELTA)) r = output_timestamp_monotonic(f, mode, display_ts, boot_id, previous_display_ts, previous_boot_id); else r = output_timestamp_realtime(f, j, mode, flags, display_ts); if (r < 0) return r; n += r; if (flags & OUTPUT_NO_HOSTNAME) { /* Suppress display of the hostname if this is requested. */ hostname = mfree(hostname); hostname_len = 0; } if (hostname && shall_print(hostname, hostname_len, flags)) { fprintf(f, " %.*s", (int) hostname_len, hostname); n += hostname_len + 1; } if (mode == OUTPUT_WITH_UNIT && ((unit && shall_print(unit, unit_len, flags)) || (user_unit && shall_print(user_unit, user_unit_len, flags)))) { if (unit) { fprintf(f, " %.*s", (int) unit_len, unit); n += unit_len + 1; } if (user_unit) { if (unit) fprintf(f, "/%.*s", (int) user_unit_len, user_unit); else fprintf(f, " %.*s", (int) user_unit_len, user_unit); n += unit_len + 1; } } else if (identifier && shall_print(identifier, identifier_len, flags)) { fprintf(f, " %.*s", (int) identifier_len, identifier); n += identifier_len + 1; } else if (comm && shall_print(comm, comm_len, flags)) { fprintf(f, " %.*s", (int) comm_len, comm); n += comm_len + 1; } else fputs(" unknown", f); if (pid && shall_print(pid, pid_len, flags)) { fprintf(f, "[%.*s]", (int) pid_len, pid); n += pid_len + 2; } else if (fake_pid && shall_print(fake_pid, fake_pid_len, flags)) { fprintf(f, "[%.*s]", (int) fake_pid_len, fake_pid); n += fake_pid_len + 2; } fputs(": ", f); if (urlify_enabled()) { _cleanup_free_ char *c = NULL; /* Insert a hyperlink to a documentation URL before the message. Note that we don't make the * whole message a hyperlink, since otherwise the whole screen might end up being just * hyperlinks. Moreover, we want to be able to highlight parts of the message (such as the * config file, see below) hence let's keep the documentation URL link separate. */ if (documentation_url && shall_print(documentation_url, documentation_url_len, flags)) { c = strndup(documentation_url, documentation_url_len); if (!c) return log_oom(); if (!documentation_url_is_valid(c)) /* Eat up invalid links */ c = mfree(c); } if (!c) (void) url_from_catalog(j, &c); /* Acquire from catalog if not embedded in log message itself */ if (c) { _cleanup_free_ char *urlified = NULL; if (terminal_urlify(c, special_glyph(SPECIAL_GLYPH_EXTERNAL_LINK), &urlified) >= 0) { fputs(urlified, f); fputc(' ', f); } } } if (!(flags & OUTPUT_SHOW_ALL) && !utf8_is_printable(message, message_len)) fprintf(f, "[%s blob data]\n", FORMAT_BYTES(message_len)); else { /* URLify config_file string in message, if the message starts with it. * Skip URLification if the highlighted pattern overlaps. */ if (config_file && message_len >= config_file_len && memcmp(message, config_file, config_file_len) == 0 && (message_len == config_file_len || IN_SET(message[config_file_len], ':', ' ')) && (!highlight || highlight_shifted[0] == 0 || highlight_shifted[0] > config_file_len)) { _cleanup_free_ char *t = NULL, *urlified = NULL; t = strndup(config_file, config_file_len); if (t && terminal_urlify_path(t, NULL, &urlified) >= 0) { size_t urlified_len = strlen(urlified); size_t shift = urlified_len - config_file_len; char *joined; joined = realloc(urlified, message_len + shift); if (joined) { memcpy(joined + urlified_len, message + config_file_len, message_len - config_file_len); free_and_replace(message, joined); TAKE_PTR(urlified); message_len += shift; if (highlight) { highlight_shifted[0] += shift; highlight_shifted[1] += shift; } } } } ellipsized |= print_multiline(f, n + 2, n_columns, flags, p, audit, message, message_len, highlight_shifted); } if (flags & OUTPUT_CATALOG) (void) print_catalog(f, j); return ellipsized; } static int output_verbose( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, const Set *output_fields, const size_t highlight[2], const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id) { const void *data; size_t length; _cleanup_free_ char *cursor = NULL; char buf[FORMAT_TIMESTAMP_MAX + 7]; const char *timestamp; int r; assert(f); assert(j); assert(display_ts); assert(boot_id); assert(previous_display_ts); assert(previous_boot_id); (void) sd_journal_set_data_threshold(j, 0); if (!VALID_REALTIME(display_ts->realtime)) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "No valid realtime timestamp available"); r = sd_journal_get_cursor(j, &cursor); if (r < 0) return log_error_errno(r, "Failed to get cursor: %m"); timestamp = format_timestamp_style(buf, sizeof buf, display_ts->realtime, flags & OUTPUT_UTC ? TIMESTAMP_US_UTC : TIMESTAMP_US); fprintf(f, "%s%s%s %s[%s]%s\n", timestamp && (flags & OUTPUT_COLOR) ? ANSI_UNDERLINE : "", timestamp ?: "(no timestamp)", timestamp && (flags & OUTPUT_COLOR) ? ANSI_NORMAL : "", (flags & OUTPUT_COLOR) ? ANSI_GREY : "", cursor, (flags & OUTPUT_COLOR) ? ANSI_NORMAL : ""); JOURNAL_FOREACH_DATA_RETVAL(j, data, length, r) { _cleanup_free_ char *urlified = NULL; const char *on = "", *off = ""; const char *c, *p = NULL; size_t fieldlen, valuelen; c = memchr(data, '=', length); if (!c) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Invalid field."); fieldlen = c - (const char*) data; if (!journal_field_valid(data, fieldlen, true)) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Invalid field."); r = field_set_test(output_fields, data, fieldlen); if (r < 0) return r; if (r == 0) continue; valuelen = length - 1 - fieldlen; p = c + 1; if (flags & OUTPUT_COLOR) { if (startswith(data, "MESSAGE=")) { on = ANSI_HIGHLIGHT; off = ANSI_NORMAL; } else if (startswith(data, "CONFIG_FILE=")) { _cleanup_free_ char *u = NULL; u = memdup_suffix0(p, valuelen); if (!u) return log_oom(); if (terminal_urlify_path(u, NULL, &urlified) >= 0) { p = urlified; valuelen = strlen(urlified); } } else if (startswith(data, "_")) { /* Highlight trusted data as such */ on = ANSI_GREEN; off = ANSI_NORMAL; } } if ((flags & OUTPUT_SHOW_ALL) || (((length < PRINT_CHAR_THRESHOLD) || flags & OUTPUT_FULL_WIDTH) && utf8_is_printable(data, length))) { fprintf(f, " %s%.*s=", on, (int) fieldlen, (const char*)data); print_multiline(f, 4 + fieldlen + 1, 0, OUTPUT_FULL_WIDTH, 0, false, p, valuelen, NULL); fputs(off, f); } else fprintf(f, " %s%.*s=[%s blob data]%s\n", on, (int) (c - (const char*) data), (const char*) data, FORMAT_BYTES(length - (c - (const char *) data) - 1), off); } if (r < 0) return r; if (flags & OUTPUT_CATALOG) (void) print_catalog(f, j); return 0; } static int output_export( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, const Set *output_fields, const size_t highlight[2], const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id) { sd_id128_t journal_boot_id, seqnum_id; _cleanup_free_ char *cursor = NULL; usec_t monotonic, realtime; const void *data; uint64_t seqnum; size_t length; int r; assert(j); assert(display_ts); assert(boot_id); assert(previous_display_ts); assert(previous_boot_id); (void) sd_journal_set_data_threshold(j, 0); r = sd_journal_get_cursor(j, &cursor); if (r < 0) return log_error_errno(r, "Failed to get cursor: %m"); r = sd_journal_get_realtime_usec(j, &realtime); if (r < 0) return log_error_errno(r, "Failed to get realtime timestamp: %m"); r = sd_journal_get_monotonic_usec(j, &monotonic, &journal_boot_id); if (r < 0) return log_error_errno(r, "Failed to get monotonic timestamp: %m"); r = sd_journal_get_seqnum(j, &seqnum, &seqnum_id); if (r < 0) return log_error_errno(r, "Failed to get seqnum: %m"); fprintf(f, "__CURSOR=%s\n" "__REALTIME_TIMESTAMP=" USEC_FMT "\n" "__MONOTONIC_TIMESTAMP=" USEC_FMT "\n" "__SEQNUM=%" PRIu64 "\n" "__SEQNUM_ID=%s\n" "_BOOT_ID=%s\n", cursor, realtime, monotonic, seqnum, SD_ID128_TO_STRING(seqnum_id), SD_ID128_TO_STRING(journal_boot_id)); JOURNAL_FOREACH_DATA_RETVAL(j, data, length, r) { size_t fieldlen; const char *c; /* We already printed the boot id from the data in the header, hence let's suppress it here */ if (memory_startswith(data, length, "_BOOT_ID=")) continue; c = memchr(data, '=', length); if (!c) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Invalid field."); fieldlen = c - (const char*) data; if (!journal_field_valid(data, fieldlen, true)) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Invalid field."); r = field_set_test(output_fields, data, fieldlen); if (r < 0) return r; if (!r) continue; if (utf8_is_printable_newline(data, length, false)) fwrite(data, length, 1, f); else { uint64_t le64; fwrite(data, fieldlen, 1, f); fputc('\n', f); le64 = htole64(length - fieldlen - 1); fwrite(&le64, sizeof(le64), 1, f); fwrite(c + 1, length - fieldlen - 1, 1, f); } fputc('\n', f); } if (IN_SET(r, -EADDRNOTAVAIL, -EBADMSG)) { log_debug_errno(r, "Skipping message we can't read: %m"); return 0; } if (r < 0) return r; fputc('\n', f); return 0; } void json_escape( FILE *f, const char* p, size_t l, OutputFlags flags) { assert(f); assert(p); if (!(flags & OUTPUT_SHOW_ALL) && l >= JSON_THRESHOLD) fputs("null", f); else if (!(flags & OUTPUT_SHOW_ALL) && !utf8_is_printable(p, l)) { bool not_first = false; fputs("[ ", f); while (l > 0) { if (not_first) fprintf(f, ", %u", (uint8_t) *p); else { not_first = true; fprintf(f, "%u", (uint8_t) *p); } p++; l--; } fputs(" ]", f); } else { fputc('"', f); while (l > 0) { if (IN_SET(*p, '"', '\\')) { fputc('\\', f); fputc(*p, f); } else if (*p == '\n') fputs("\\n", f); else if ((uint8_t) *p < ' ') fprintf(f, "\\u%04x", (uint8_t) *p); else fputc(*p, f); p++; l--; } fputc('"', f); } } typedef struct JsonData { JsonVariant* name; JsonVariant* values; } JsonData; static JsonData* json_data_free(JsonData *d) { if (!d) return NULL; json_variant_unref(d->name); json_variant_unref(d->values); return mfree(d); } DEFINE_TRIVIAL_CLEANUP_FUNC(JsonData*, json_data_free); DEFINE_HASH_OPS_WITH_VALUE_DESTRUCTOR(json_data_hash_ops_free, char, string_hash_func, string_compare_func, JsonData, json_data_free); static int update_json_data( Hashmap *h, OutputFlags flags, const char *name, const void *value, size_t size) { _cleanup_(json_variant_unrefp) JsonVariant *v = NULL; JsonData *d; int r; assert(name); assert(value); if (size == SIZE_MAX) size = strlen(value); if (!(flags & OUTPUT_SHOW_ALL) && strlen(name) + 1 + size >= JSON_THRESHOLD) r = json_variant_new_null(&v); else if (utf8_is_printable(value, size)) r = json_variant_new_stringn(&v, value, size); else r = json_variant_new_array_bytes(&v, value, size); if (r < 0) return log_error_errno(r, "Failed to allocate JSON data: %m"); d = hashmap_get(h, name); if (d) { r = json_variant_append_array(&d->values, v); if (r < 0) return log_error_errno(r, "Failed to append JSON value into array: %m"); } else { _cleanup_(json_data_freep) JsonData *e = NULL; e = new0(JsonData, 1); if (!e) return log_oom(); r = json_variant_new_string(&e->name, name); if (r < 0) return log_error_errno(r, "Failed to allocate JSON name variant: %m"); r = json_variant_append_array(&e->values, v); if (r < 0) return log_error_errno(r, "Failed to create JSON value array: %m"); r = hashmap_put(h, json_variant_string(e->name), e); if (r < 0) return log_error_errno(r, "Failed to insert JSON data into hashmap: %m"); TAKE_PTR(e); } return 0; } static int update_json_data_split( Hashmap *h, OutputFlags flags, const Set *output_fields, const void *data, size_t size) { size_t fieldlen; const char *eq; char *name; assert(h); assert(data || size == 0); if (memory_startswith(data, size, "_BOOT_ID=")) return 0; eq = memchr(data, '=', MIN(size, JSON_THRESHOLD)); if (!eq) return 0; fieldlen = eq - (const char*) data; if (!journal_field_valid(data, fieldlen, true)) return log_error_errno(SYNTHETIC_ERRNO(EINVAL), "Invalid field."); name = strndupa_safe(data, fieldlen); if (output_fields && !set_contains(output_fields, name)) return 0; return update_json_data(h, flags, name, eq + 1, size - fieldlen - 1); } static int output_json( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, const Set *output_fields, const size_t highlight[2], const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id) { char usecbuf[CONST_MAX(DECIMAL_STR_MAX(usec_t), DECIMAL_STR_MAX(uint64_t))]; _cleanup_(json_variant_unrefp) JsonVariant *object = NULL; _cleanup_hashmap_free_ Hashmap *h = NULL; sd_id128_t journal_boot_id, seqnum_id; _cleanup_free_ char *cursor = NULL; usec_t realtime, monotonic; JsonVariant **array = NULL; JsonData *d; uint64_t seqnum; size_t n = 0; int r; assert(j); assert(display_ts); assert(boot_id); assert(previous_display_ts); assert(previous_boot_id); (void) sd_journal_set_data_threshold(j, flags & OUTPUT_SHOW_ALL ? 0 : JSON_THRESHOLD); r = sd_journal_get_cursor(j, &cursor); if (r < 0) return log_error_errno(r, "Failed to get cursor: %m"); r = sd_journal_get_realtime_usec(j, &realtime); if (r < 0) return log_error_errno(r, "Failed to get realtime timestamp: %m"); r = sd_journal_get_monotonic_usec(j, &monotonic, &journal_boot_id); if (r < 0) return log_error_errno(r, "Failed to get monotonic timestamp: %m"); r = sd_journal_get_seqnum(j, &seqnum, &seqnum_id); if (r < 0) return log_error_errno(r, "Failed to get seqnum: %m"); h = hashmap_new(&json_data_hash_ops_free); if (!h) return log_oom(); r = update_json_data(h, flags, "__CURSOR", cursor, SIZE_MAX); if (r < 0) return r; xsprintf(usecbuf, USEC_FMT, realtime); r = update_json_data(h, flags, "__REALTIME_TIMESTAMP", usecbuf, SIZE_MAX); if (r < 0) return r; xsprintf(usecbuf, USEC_FMT, monotonic); r = update_json_data(h, flags, "__MONOTONIC_TIMESTAMP", usecbuf, SIZE_MAX); if (r < 0) return r; r = update_json_data(h, flags, "_BOOT_ID", SD_ID128_TO_STRING(journal_boot_id), SIZE_MAX); if (r < 0) return r; xsprintf(usecbuf, USEC_FMT, seqnum); r = update_json_data(h, flags, "__SEQNUM", usecbuf, SIZE_MAX); if (r < 0) return r; r = update_json_data(h, flags, "__SEQNUM_ID", SD_ID128_TO_STRING(seqnum_id), SIZE_MAX); if (r < 0) return r; for (;;) { const void *data; size_t size; r = sd_journal_enumerate_data(j, &data, &size); if (IN_SET(r, -EBADMSG, -EADDRNOTAVAIL)) { log_debug_errno(r, "Skipping message we can't read: %m"); return 0; } if (r < 0) return log_error_errno(r, "Failed to read journal: %m"); if (r == 0) break; r = update_json_data_split(h, flags, output_fields, data, size); if (r < 0) return r; } array = new(JsonVariant*, hashmap_size(h)*2); if (!array) return log_oom(); CLEANUP_ARRAY(array, n, json_variant_unref_many); HASHMAP_FOREACH(d, h) { assert(json_variant_elements(d->values) > 0); array[n++] = json_variant_ref(d->name); if (json_variant_elements(d->values) == 1) array[n++] = json_variant_ref(json_variant_by_index(d->values, 0)); else array[n++] = json_variant_ref(d->values); } r = json_variant_new_object(&object, array, n); if (r < 0) return log_error_errno(r, "Failed to allocate JSON object: %m"); return json_variant_dump(object, output_mode_to_json_format_flags(mode) | (FLAGS_SET(flags, OUTPUT_COLOR) ? JSON_FORMAT_COLOR : 0), f, NULL); } static int output_cat_field( FILE *f, sd_journal *j, OutputFlags flags, int prio, const char *field, const size_t highlight[2]) { const char *color_on = "", *color_off = "", *highlight_on = ""; const void *data; size_t l, fl; int r; if (FLAGS_SET(flags, OUTPUT_COLOR)) get_log_colors(prio, &color_on, &color_off, &highlight_on); r = sd_journal_get_data(j, field, &data, &l); if (IN_SET(r, -EBADMSG, -EADDRNOTAVAIL)) { log_debug_errno(r, "Skipping message we can't read: %m"); return 0; } if (r == -ENOENT) /* An entry without the requested field */ return 0; if (r < 0) return log_error_errno(r, "Failed to get data: %m"); fl = strlen(field); assert(l >= fl + 1); assert(((char*) data)[fl] == '='); data = (const uint8_t*) data + fl + 1; l -= fl + 1; if (FLAGS_SET(flags, OUTPUT_COLOR)) { if (highlight) { assert(highlight[0] <= highlight[1]); assert(highlight[1] <= l); fputs(color_on, f); fwrite((const char*) data, 1, highlight[0], f); fputs(highlight_on, f); fwrite((const char*) data + highlight[0], 1, highlight[1] - highlight[0], f); fputs(color_on, f); fwrite((const char*) data + highlight[1], 1, l - highlight[1], f); fputs(color_off, f); } else { fputs(color_on, f); fwrite((const char*) data, 1, l, f); fputs(color_off, f); } } else fwrite((const char*) data, 1, l, f); fputc('\n', f); return 0; } static int output_cat( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, const Set *output_fields, const size_t highlight[2], const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id) { int r, prio = LOG_INFO; const char *field; assert(j); assert(f); assert(display_ts); assert(boot_id); assert(previous_display_ts); assert(previous_boot_id); (void) sd_journal_set_data_threshold(j, 0); if (FLAGS_SET(flags, OUTPUT_COLOR)) { const void *data; size_t l; /* Determine priority of this entry, so that we can color it nicely */ r = sd_journal_get_data(j, "PRIORITY", &data, &l); if (IN_SET(r, -EBADMSG, -EADDRNOTAVAIL)) { log_debug_errno(r, "Skipping message we can't read: %m"); return 0; } if (r < 0) { if (r != -ENOENT) return log_error_errno(r, "Failed to get data: %m"); /* An entry without PRIORITY */ } else if (l == 10 && memcmp(data, "PRIORITY=", 9) == 0) { char c = ((char*) data)[9]; if (c >= '0' && c <= '7') prio = c - '0'; } } if (set_isempty(output_fields)) return output_cat_field(f, j, flags, prio, "MESSAGE", highlight); SET_FOREACH(field, output_fields) { r = output_cat_field(f, j, flags, prio, field, streq(field, "MESSAGE") ? highlight : NULL); if (r < 0) return r; } return 0; } static int get_display_timestamp( sd_journal *j, dual_timestamp *ret_display_ts, sd_id128_t *ret_boot_id) { const void *data; _cleanup_free_ char *realtime = NULL, *monotonic = NULL; size_t length = 0, realtime_len = 0, monotonic_len = 0; const ParseFieldVec message_fields[] = { PARSE_FIELD_VEC_ENTRY("_SOURCE_REALTIME_TIMESTAMP=", &realtime, &realtime_len), PARSE_FIELD_VEC_ENTRY("_SOURCE_MONOTONIC_TIMESTAMP=", &monotonic, &monotonic_len), }; int r; bool realtime_good = false, monotonic_good = false, boot_id_good = false; assert(j); assert(ret_display_ts); assert(ret_boot_id); JOURNAL_FOREACH_DATA_RETVAL(j, data, length, r) { r = parse_fieldv(data, length, message_fields, ELEMENTSOF(message_fields)); if (r < 0) return r; if (realtime && monotonic) break; } if (r < 0) return r; if (realtime) realtime_good = safe_atou64(realtime, &ret_display_ts->realtime) >= 0; if (!realtime_good || !VALID_REALTIME(ret_display_ts->realtime)) realtime_good = sd_journal_get_realtime_usec(j, &ret_display_ts->realtime) >= 0; if (!realtime_good) ret_display_ts->realtime = USEC_INFINITY; if (monotonic) monotonic_good = safe_atou64(monotonic, &ret_display_ts->monotonic) >= 0; if (!monotonic_good || !VALID_MONOTONIC(ret_display_ts->monotonic)) monotonic_good = boot_id_good = sd_journal_get_monotonic_usec(j, &ret_display_ts->monotonic, ret_boot_id) >= 0; if (!monotonic_good) ret_display_ts->monotonic = USEC_INFINITY; if (!boot_id_good) boot_id_good = sd_journal_get_monotonic_usec(j, NULL, ret_boot_id) >= 0; if (!boot_id_good) *ret_boot_id = SD_ID128_NULL; /* Restart all data before */ sd_journal_restart_data(j); sd_journal_restart_unique(j); sd_journal_restart_fields(j); return 0; } typedef int (*output_func_t)( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, const Set *output_fields, const size_t highlight[2], const dual_timestamp *display_ts, const sd_id128_t *boot_id, const dual_timestamp *previous_display_ts, const sd_id128_t *previous_boot_id); static output_func_t output_funcs[_OUTPUT_MODE_MAX] = { [OUTPUT_SHORT] = output_short, [OUTPUT_SHORT_ISO] = output_short, [OUTPUT_SHORT_ISO_PRECISE] = output_short, [OUTPUT_SHORT_PRECISE] = output_short, [OUTPUT_SHORT_MONOTONIC] = output_short, [OUTPUT_SHORT_DELTA] = output_short, [OUTPUT_SHORT_UNIX] = output_short, [OUTPUT_SHORT_FULL] = output_short, [OUTPUT_VERBOSE] = output_verbose, [OUTPUT_EXPORT] = output_export, [OUTPUT_JSON] = output_json, [OUTPUT_JSON_PRETTY] = output_json, [OUTPUT_JSON_SSE] = output_json, [OUTPUT_JSON_SEQ] = output_json, [OUTPUT_CAT] = output_cat, [OUTPUT_WITH_UNIT] = output_short, }; int show_journal_entry( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, OutputFlags flags, Set *output_fields, const size_t highlight[2], bool *ellipsized, dual_timestamp *previous_display_ts, sd_id128_t *previous_boot_id) { dual_timestamp display_ts = DUAL_TIMESTAMP_NULL; sd_id128_t boot_id = SD_ID128_NULL; int r; assert(mode >= 0); assert(mode < _OUTPUT_MODE_MAX); assert(previous_display_ts); assert(previous_boot_id); if (n_columns <= 0) n_columns = columns(); r = get_display_timestamp(j, &display_ts, &boot_id); if (IN_SET(r, -EBADMSG, -EADDRNOTAVAIL)) { log_debug_errno(r, "Skipping message we can't read: %m"); return 0; } if (r < 0) return log_error_errno(r, "Failed to get journal fields: %m"); r = output_funcs[mode]( f, j, mode, n_columns, flags, output_fields, highlight, &display_ts, &boot_id, previous_display_ts, previous_boot_id); /* Store timestamp and boot ID for next iteration */ *previous_display_ts = display_ts; *previous_boot_id = boot_id; if (ellipsized && r > 0) *ellipsized = true; return r; } static int maybe_print_begin_newline(FILE *f, OutputFlags *flags) { assert(f); assert(flags); if (!(*flags & OUTPUT_BEGIN_NEWLINE)) return 0; /* Print a beginning new line if that's request, but only once * on the first line we print. */ fputc('\n', f); *flags &= ~OUTPUT_BEGIN_NEWLINE; return 0; } int show_journal( FILE *f, sd_journal *j, OutputMode mode, unsigned n_columns, usec_t not_before, unsigned how_many, OutputFlags flags, bool *ellipsized) { int r; unsigned line = 0; bool need_seek = false; int warn_cutoff = flags & OUTPUT_WARN_CUTOFF; dual_timestamp previous_display_ts = DUAL_TIMESTAMP_NULL; sd_id128_t previous_boot_id = SD_ID128_NULL; assert(j); assert(mode >= 0); assert(mode < _OUTPUT_MODE_MAX); if (how_many == UINT_MAX) need_seek = true; else { /* Seek to end */ r = sd_journal_seek_tail(j); if (r < 0) return log_error_errno(r, "Failed to seek to tail: %m"); r = sd_journal_previous_skip(j, how_many); if (r < 0) return log_error_errno(r, "Failed to skip previous: %m"); } for (;;) { usec_t usec; if (need_seek) { r = sd_journal_next(j); if (r < 0) return log_error_errno(r, "Failed to iterate through journal: %m"); } if (r == 0) break; need_seek = true; if (not_before > 0) { r = sd_journal_get_monotonic_usec(j, &usec, NULL); /* -ESTALE is returned if the timestamp is not from this boot */ if (r == -ESTALE) continue; if (r < 0) return log_error_errno(r, "Failed to get journal time: %m"); if (usec < not_before) continue; } line++; maybe_print_begin_newline(f, &flags); r = show_journal_entry( f, j, mode, n_columns, flags, /* output_fields= */ NULL, /* highlight= */ NULL, ellipsized, &previous_display_ts, &previous_boot_id); if (r < 0) return r; } if (warn_cutoff && line < how_many && not_before > 0) { sd_id128_t boot_id; usec_t cutoff = 0; /* Check whether the cutoff line is too early */ r = sd_id128_get_boot(&boot_id); if (r < 0) return log_error_errno(r, "Failed to get boot id: %m"); r = sd_journal_get_cutoff_monotonic_usec(j, boot_id, &cutoff, NULL); if (r < 0) return log_error_errno(r, "Failed to get journal cutoff time: %m"); if (r > 0 && not_before < cutoff) { maybe_print_begin_newline(f, &flags); /* If we logged *something* and no permission error happened, than we can reliably * emit the warning about rotation. If we didn't log anything and access errors * happened, emit hint about permissions. Otherwise, give a generic message, since we * can't diagnose the issue. */ bool noaccess = journal_access_blocked(j); if (line == 0 && noaccess) fprintf(f, "Warning: some journal files were not opened due to insufficient permissions.\n"); else if (!noaccess) fprintf(f, "Notice: journal has been rotated since unit was started, output may be incomplete.\n"); else fprintf(f, "Warning: journal has been rotated since unit was started and some journal " "files were not opened due to insufficient permissions, output may be incomplete.\n"); } warn_cutoff = false; } return 0; } int add_matches_for_unit(sd_journal *j, const char *unit) { const char *m1, *m2, *m3, *m4; int r; assert(j); assert(unit); m1 = strjoina("_SYSTEMD_UNIT=", unit); m2 = strjoina("COREDUMP_UNIT=", unit); m3 = strjoina("UNIT=", unit); m4 = strjoina("OBJECT_SYSTEMD_UNIT=", unit); (void)( /* Look for messages from the service itself */ (r = sd_journal_add_match(j, m1, 0)) || /* Look for coredumps of the service */ (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, "MESSAGE_ID=fc2e22bc6ee647b6b90729ab34a250b1", 0)) || (r = sd_journal_add_match(j, "_UID=0", 0)) || (r = sd_journal_add_match(j, m2, 0)) || /* Look for messages from PID 1 about this service */ (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, "_PID=1", 0)) || (r = sd_journal_add_match(j, m3, 0)) || /* Look for messages from authorized daemons about this service */ (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, "_UID=0", 0)) || (r = sd_journal_add_match(j, m4, 0)) ); if (r == 0 && endswith(unit, ".slice")) { const char *m5; m5 = strjoina("_SYSTEMD_SLICE=", unit); /* Show all messages belonging to a slice */ (void)( (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, m5, 0)) ); } return r; } int add_matches_for_user_unit(sd_journal *j, const char *unit, uid_t uid) { int r; char *m1, *m2, *m3, *m4; char muid[sizeof("_UID=") + DECIMAL_STR_MAX(uid_t)]; assert(j); assert(unit); m1 = strjoina("_SYSTEMD_USER_UNIT=", unit); m2 = strjoina("USER_UNIT=", unit); m3 = strjoina("COREDUMP_USER_UNIT=", unit); m4 = strjoina("OBJECT_SYSTEMD_USER_UNIT=", unit); sprintf(muid, "_UID="UID_FMT, uid); (void) ( /* Look for messages from the user service itself */ (r = sd_journal_add_match(j, m1, 0)) || (r = sd_journal_add_match(j, muid, 0)) || /* Look for messages from systemd about this service */ (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, m2, 0)) || (r = sd_journal_add_match(j, muid, 0)) || /* Look for coredumps of the service */ (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, m3, 0)) || (r = sd_journal_add_match(j, muid, 0)) || (r = sd_journal_add_match(j, "_UID=0", 0)) || /* Look for messages from authorized daemons about this service */ (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, m4, 0)) || (r = sd_journal_add_match(j, muid, 0)) || (r = sd_journal_add_match(j, "_UID=0", 0)) ); if (r == 0 && endswith(unit, ".slice")) { const char *m5; m5 = strjoina("_SYSTEMD_USER_SLICE=", unit); /* Show all messages belonging to a slice */ (void)( (r = sd_journal_add_disjunction(j)) || (r = sd_journal_add_match(j, m5, 0)) || (r = sd_journal_add_match(j, muid, 0)) ); } return r; } static int get_boot_id_for_machine(const char *machine, sd_id128_t *boot_id) { _cleanup_close_pair_ int pair[2] = PIPE_EBADF; _cleanup_close_ int pidnsfd = -EBADF, mntnsfd = -EBADF, rootfd = -EBADF; char buf[SD_ID128_UUID_STRING_MAX]; pid_t pid, child; ssize_t k; int r; assert(machine); assert(boot_id); r = container_get_leader(machine, &pid); if (r < 0) return r; r = namespace_open(pid, &pidnsfd, &mntnsfd, NULL, NULL, &rootfd); if (r < 0) return r; if (socketpair(AF_UNIX, SOCK_DGRAM, 0, pair) < 0) return -errno; r = namespace_fork("(sd-bootidns)", "(sd-bootid)", NULL, 0, FORK_RESET_SIGNALS|FORK_DEATHSIG, pidnsfd, mntnsfd, -1, -1, rootfd, &child); if (r < 0) return r; if (r == 0) { int fd; pair[0] = safe_close(pair[0]); fd = open("/proc/sys/kernel/random/boot_id", O_RDONLY|O_CLOEXEC|O_NOCTTY); if (fd < 0) _exit(EXIT_FAILURE); r = loop_read_exact(fd, buf, 36, false); safe_close(fd); if (r < 0) _exit(EXIT_FAILURE); k = send(pair[1], buf, 36, MSG_NOSIGNAL); if (k != 36) _exit(EXIT_FAILURE); _exit(EXIT_SUCCESS); } pair[1] = safe_close(pair[1]); r = wait_for_terminate_and_check("(sd-bootidns)", child, 0); if (r < 0) return r; if (r != EXIT_SUCCESS) return -EIO; k = recv(pair[0], buf, 36, 0); if (k != 36) return -EIO; buf[36] = 0; r = sd_id128_from_string(buf, boot_id); if (r < 0) return r; return 0; } int add_match_boot_id(sd_journal *j, sd_id128_t id) { char match[STRLEN("_BOOT_ID=") + SD_ID128_STRING_MAX]; assert(j); assert(!sd_id128_is_null(id)); sd_id128_to_string(id, stpcpy(match, "_BOOT_ID=")); return sd_journal_add_match(j, match, strlen(match)); } int add_match_this_boot(sd_journal *j, const char *machine) { sd_id128_t boot_id; int r; assert(j); if (machine) { r = get_boot_id_for_machine(machine, &boot_id); if (r < 0) return log_error_errno(r, "Failed to get boot id of container %s: %m", machine); } else { r = sd_id128_get_boot(&boot_id); if (r < 0) return log_error_errno(r, "Failed to get boot id: %m"); } r = add_match_boot_id(j, boot_id); if (r < 0) return log_error_errno(r, "Failed to add match: %m"); r = sd_journal_add_conjunction(j); if (r < 0) return log_error_errno(r, "Failed to add conjunction: %m"); return 0; } int show_journal_by_unit( FILE *f, const char *unit, const char *log_namespace, OutputMode mode, unsigned n_columns, usec_t not_before, unsigned how_many, uid_t uid, OutputFlags flags, int journal_open_flags, bool system_unit, bool *ellipsized) { _cleanup_(sd_journal_closep) sd_journal *j = NULL; int r; assert(mode >= 0); assert(mode < _OUTPUT_MODE_MAX); assert(unit); if (how_many <= 0) return 0; r = sd_journal_open_namespace(&j, log_namespace, journal_open_flags | SD_JOURNAL_INCLUDE_DEFAULT_NAMESPACE); if (r < 0) return log_error_errno(r, "Failed to open journal: %m"); if (system_unit) r = add_matches_for_unit(j, unit); else r = add_matches_for_user_unit(j, unit, uid); if (r < 0) return log_error_errno(r, "Failed to add unit matches: %m"); r = sd_journal_add_conjunction(j); if (r < 0) return log_error_errno(r, "Failed to add conjunction: %m"); r = add_match_this_boot(j, NULL); if (r < 0) return r; if (DEBUG_LOGGING) { _cleanup_free_ char *filter = NULL; filter = journal_make_match_string(j); if (!filter) return log_oom(); log_debug("Journal filter: %s", filter); } return show_journal(f, j, mode, n_columns, not_before, how_many, flags, ellipsized); }