/* * Runtime tracing API * * Copyright (C) 2000-2019 Willy Tarreau - w@1wt.eu * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation, version 2.1 * exclusively. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include struct list trace_sources = LIST_HEAD_INIT(trace_sources); THREAD_LOCAL struct buffer trace_buf = { }; /* allocates the trace buffers. Returns 0 in case of failure. It is safe to * call to call this function multiple times if the size changes. */ static int alloc_trace_buffers_per_thread() { chunk_init(&trace_buf, my_realloc2(trace_buf.area, global.tune.bufsize), global.tune.bufsize); return !!trace_buf.area; } static void free_trace_buffers_per_thread() { chunk_destroy(&trace_buf); } REGISTER_PER_THREAD_ALLOC(alloc_trace_buffers_per_thread); REGISTER_PER_THREAD_FREE(free_trace_buffers_per_thread); /* pick the lowest non-null argument with a non-null arg_def mask */ static inline const void *trace_pick_arg(uint32_t arg_def, const void *a1, const void *a2, const void *a3, const void *a4) { if (arg_def & 0x0000FFFF) { if ((arg_def & 0x000000FF) && a1) return a1; if ((arg_def & 0x0000FF00) && a2) return a2; } if (arg_def & 0xFFFF0000) { if ((arg_def & 0x00FF0000) && a3) return a3; if ((arg_def & 0xFF000000) && a4) return a4; } return NULL; } /* Reports whether the trace is enabled for the specified arguments, needs to enable * or disable tracking. It gets the same API as __trace() except for and * which are not used and were dropped, and plockptr which is an optional pointer to * the lockptr to be updated (or NULL) for tracking. The function returns: * 0 if the trace is not enabled for the module or these values * <0 if the trace matches some locking criteria but don't have the proper level. * In this case the interested caller might have to consider disabling tracking. * >0 if the trace is enabled for the given criteria. * In all cases, will only be set if non-null and if a locking criterion * matched. It will be up to the caller to enable tracking if desired. A casual * tester not interested in adjusting tracking (i.e. calling the function before * deciding so prepare a buffer to be dumped) will only need to pass 0 for plockptr * and check if the result is >0. */ int __trace_enabled(enum trace_level level, uint64_t mask, struct trace_source *src, const struct ist where, const char *func, const void *a1, const void *a2, const void *a3, const void *a4, const void **plockptr) { const struct listener *li = NULL; const struct proxy *fe = NULL; const struct proxy *be = NULL; const struct server *srv = NULL; const struct session *sess = NULL; const struct stream *strm = NULL; const struct connection *conn = NULL; const struct check *check = NULL; #ifdef USE_QUIC const struct quic_conn *qc = NULL; #endif const void *lockon_ptr = NULL; if (likely(src->state == TRACE_STATE_STOPPED)) return 0; /* check that at least one action is interested by this event */ if (((src->report_events | src->start_events | src->pause_events | src->stop_events) & mask) == 0) return 0; /* retrieve available information from the caller's arguments */ if (src->arg_def & TRC_ARGS_CONN) conn = trace_pick_arg(src->arg_def & TRC_ARGS_CONN, a1, a2, a3, a4); if (src->arg_def & TRC_ARGS_SESS) sess = trace_pick_arg(src->arg_def & TRC_ARGS_SESS, a1, a2, a3, a4); if (src->arg_def & TRC_ARGS_STRM) strm = trace_pick_arg(src->arg_def & TRC_ARGS_STRM, a1, a2, a3, a4); if (src->arg_def & TRC_ARGS_CHK) check = trace_pick_arg(src->arg_def & TRC_ARGS_CHK, a1, a2, a3, a4); #ifdef USE_QUIC if (src->arg_def & TRC_ARGS_QCON) qc = trace_pick_arg(src->arg_def & TRC_ARGS_QCON, a1, a2, a3, a4); #endif if (!sess && strm) sess = strm->sess; else if (!sess && conn && LIST_INLIST(&conn->session_list)) sess = conn->owner; else if (!sess && check) sess = check->sess; if (sess) { fe = sess->fe; li = sess->listener; } if (!li && conn) li = objt_listener(conn->target); if (li && !fe) fe = li->bind_conf->frontend; if (strm) { be = strm->be; srv = strm->srv_conn; } if (check) { srv = check->server; be = (srv ? srv->proxy : NULL); } if (!srv && conn) srv = objt_server(conn->target); if (srv && !be) be = srv->proxy; if (!be && conn) be = objt_proxy(conn->target); /* TODO: add handling of filters here, return if no match (not even update states) */ /* check if we need to start the trace now */ if (src->state == TRACE_STATE_WAITING) { if ((src->start_events & mask) == 0) return 0; /* TODO: add update of lockon+lockon_ptr here */ HA_ATOMIC_STORE(&src->state, TRACE_STATE_RUNNING); } /* we may want to lock on a particular object */ if (src->lockon != TRACE_LOCKON_NOTHING) { switch (src->lockon) { case TRACE_LOCKON_BACKEND: lockon_ptr = be; break; case TRACE_LOCKON_CONNECTION: lockon_ptr = conn; break; case TRACE_LOCKON_FRONTEND: lockon_ptr = fe; break; case TRACE_LOCKON_LISTENER: lockon_ptr = li; break; case TRACE_LOCKON_SERVER: lockon_ptr = srv; break; case TRACE_LOCKON_SESSION: lockon_ptr = sess; break; case TRACE_LOCKON_STREAM: lockon_ptr = strm; break; case TRACE_LOCKON_CHECK: lockon_ptr = check; break; case TRACE_LOCKON_THREAD: lockon_ptr = ti; break; #ifdef USE_QUIC case TRACE_LOCKON_QCON: lockon_ptr = qc; break; #endif case TRACE_LOCKON_ARG1: lockon_ptr = a1; break; case TRACE_LOCKON_ARG2: lockon_ptr = a2; break; case TRACE_LOCKON_ARG3: lockon_ptr = a3; break; case TRACE_LOCKON_ARG4: lockon_ptr = a4; break; default: break; // silence stupid gcc -Wswitch } if (src->lockon_ptr && src->lockon_ptr != lockon_ptr) return 0; if (*plockptr && !src->lockon_ptr && lockon_ptr && src->state == TRACE_STATE_RUNNING) *plockptr = lockon_ptr; } /* here the trace is running and is tracking a desired item */ if ((src->report_events & mask) == 0 || level > src->level) { /* tracking did match, and might have to be disabled */ return -1; } /* OK trace still enabled */ return 1; } /* write a message for the given trace source */ void __trace(enum trace_level level, uint64_t mask, struct trace_source *src, const struct ist where, const char *func, const void *a1, const void *a2, const void *a3, const void *a4, void (*cb)(enum trace_level level, uint64_t mask, const struct trace_source *src, const struct ist where, const struct ist func, const void *a1, const void *a2, const void *a3, const void *a4), const struct ist msg) { const void *lockon_ptr; struct ist ist_func = ist(func); char tnum[4]; struct ist line[12]; int words = 0; int ret; lockon_ptr = NULL; ret = __trace_enabled(level, mask, src, where, func, a1, a2, a3, a4, &lockon_ptr); if (lockon_ptr) HA_ATOMIC_STORE(&src->lockon_ptr, lockon_ptr); if (ret <= 0) { if (ret < 0) // may have to disable tracking goto end; return; } /* log the logging location truncated to 10 chars from the right so that * the line number and the end of the file name are there. */ line[words++] = ist("["); tnum[0] = '0' + tid / 10; tnum[1] = '0' + tid % 10; tnum[2] = '|'; tnum[3] = 0; line[words++] = ist(tnum); line[words++] = src->name; line[words++] = ist("|"); line[words++] = ist2("012345" + level, 1); // "0" to "5" line[words++] = ist("|"); line[words] = where; if (line[words].len > 13) { line[words].ptr += (line[words].len - 13); line[words].len = 13; } words++; line[words++] = ist("] "); if (isttest(ist_func)) { line[words++] = ist_func; line[words++] = ist("(): "); } if (!cb) cb = src->default_cb; if (cb && src->verbosity) { /* decode function passed, we want to pre-fill the * buffer with the message and let the decode function * do its job, possibly even overwriting it. */ b_reset(&trace_buf); b_istput(&trace_buf, msg); cb(level, mask, src, where, ist_func, a1, a2, a3, a4); line[words] = ist2(trace_buf.area, trace_buf.data); words++; } else { /* Note that here we could decide to print some args whose type * is known, when verbosity is above the quiet level, and even * to print the name and values of those which are declared for * lock-on. */ line[words++] = msg; } if (src->sink) sink_write(src->sink, line, words, 0, 0, NULL); end: /* check if we need to stop the trace now */ if ((src->stop_events & mask) != 0) { HA_ATOMIC_STORE(&src->lockon_ptr, NULL); HA_ATOMIC_STORE(&src->state, TRACE_STATE_STOPPED); } else if ((src->pause_events & mask) != 0) { HA_ATOMIC_STORE(&src->lockon_ptr, NULL); HA_ATOMIC_STORE(&src->state, TRACE_STATE_WAITING); } } /* this callback may be used when no output modification is desired */ void trace_no_cb(enum trace_level level, uint64_t mask, const struct trace_source *src, const struct ist where, const struct ist func, const void *a1, const void *a2, const void *a3, const void *a4) { /* do nothing */ } /* registers trace source . Modifies the list element! * The {start,pause,stop,report} events are not changed so the source may * preset them. */ void trace_register_source(struct trace_source *source) { source->lockon = TRACE_LOCKON_NOTHING; source->level = TRACE_LEVEL_USER; source->verbosity = 1; source->sink = NULL; source->state = TRACE_STATE_STOPPED; source->lockon_ptr = NULL; LIST_APPEND(&trace_sources, &source->source_link); } struct trace_source *trace_find_source(const char *name) { struct trace_source *src; const struct ist iname = ist(name); list_for_each_entry(src, &trace_sources, source_link) if (isteq(src->name, iname)) return src; return NULL; } const struct trace_event *trace_find_event(const struct trace_event *ev, const char *name) { for (; ev && ev->mask; ev++) if (strcmp(ev->name, name) == 0) return ev; return NULL; } /* parse the command, returns 1 if a message is returned, otherwise zero */ static int cli_parse_trace(char **args, char *payload, struct appctx *appctx, void *private) { struct trace_source *src; uint64_t *ev_ptr = NULL; if (!cli_has_level(appctx, ACCESS_LVL_OPER)) return 1; if (!*args[1]) { /* no arg => report the list of supported sources as a warning */ chunk_printf(&trash, "Supported trace sources and states (.=stopped, w=waiting, R=running) :\n" " [.] 0 : not a source, will immediately stop all traces\n" ); list_for_each_entry(src, &trace_sources, source_link) chunk_appendf(&trash, " [%c] %-10s : %s\n", trace_state_char(src->state), src->name.ptr, src->desc); trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } if (strcmp(args[1], "0") == 0) { /* emergency stop of all traces */ list_for_each_entry(src, &trace_sources, source_link) HA_ATOMIC_STORE(&src->state, TRACE_STATE_STOPPED); return cli_msg(appctx, LOG_NOTICE, "All traces now stopped"); } src = trace_find_source(args[1]); if (!src) return cli_err(appctx, "No such trace source"); if (!*args[2]) { return cli_msg(appctx, LOG_WARNING, "Supported commands:\n" " event : list/enable/disable source-specific event reporting\n" //" filter : list/enable/disable generic filters\n" " level : list/set trace reporting level\n" " lock : automatic lock on thread/connection/stream/...\n" " pause : pause and automatically restart after a specific event\n" " sink : list/set event sinks\n" " start : start immediately or after a specific event\n" " stop : stop immediately or after a specific event\n" " verbosity : list/set trace output verbosity\n" ); } else if ((strcmp(args[2], "event") == 0 && (ev_ptr = &src->report_events)) || (strcmp(args[2], "pause") == 0 && (ev_ptr = &src->pause_events)) || (strcmp(args[2], "start") == 0 && (ev_ptr = &src->start_events)) || (strcmp(args[2], "stop") == 0 && (ev_ptr = &src->stop_events))) { const struct trace_event *ev; const char *name = args[3]; int neg = 0; int i; /* skip prefix '!', '-', '+' and remind negation */ while (*name) { if (*name == '!' || *name == '-') neg = 1; else if (*name == '+') neg = 0; else break; name++; } if (!*name) { chunk_printf(&trash, "Supported events for source %s (+=enabled, -=disabled):\n", src->name.ptr); if (ev_ptr != &src->report_events) chunk_appendf(&trash, " - now : don't wait for events, immediately change the state\n"); chunk_appendf(&trash, " - none : disable all event types\n"); chunk_appendf(&trash, " - any : enable all event types\n"); for (i = 0; src->known_events && src->known_events[i].mask; i++) { chunk_appendf(&trash, " %c %-12s : %s\n", trace_event_char(*ev_ptr, src->known_events[i].mask), src->known_events[i].name, src->known_events[i].desc); } trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } if (strcmp(name, "now") == 0 && ev_ptr != &src->report_events) { HA_ATOMIC_STORE(ev_ptr, 0); if (ev_ptr == &src->pause_events) { HA_ATOMIC_STORE(&src->lockon_ptr, NULL); HA_ATOMIC_STORE(&src->state, TRACE_STATE_WAITING); } else if (ev_ptr == &src->start_events) { HA_ATOMIC_STORE(&src->state, TRACE_STATE_RUNNING); } else if (ev_ptr == &src->stop_events) { HA_ATOMIC_STORE(&src->lockon_ptr, NULL); HA_ATOMIC_STORE(&src->state, TRACE_STATE_STOPPED); } return 0; } if (strcmp(name, "none") == 0) HA_ATOMIC_STORE(ev_ptr, 0); else if (strcmp(name, "any") == 0) HA_ATOMIC_STORE(ev_ptr, ~0); else { ev = trace_find_event(src->known_events, name); if (!ev) return cli_err(appctx, "No such trace event"); if (!neg) HA_ATOMIC_OR(ev_ptr, ev->mask); else HA_ATOMIC_AND(ev_ptr, ~ev->mask); } } else if (strcmp(args[2], "sink") == 0) { const char *name = args[3]; struct sink *sink; if (!*name) { chunk_printf(&trash, "Supported sinks for source %s (*=current):\n", src->name.ptr); chunk_appendf(&trash, " %c none : no sink\n", src->sink ? ' ' : '*'); list_for_each_entry(sink, &sink_list, sink_list) { chunk_appendf(&trash, " %c %-10s : %s\n", src->sink == sink ? '*' : ' ', sink->name, sink->desc); } trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } if (strcmp(name, "none") == 0) sink = NULL; else { sink = sink_find(name); if (!sink) return cli_err(appctx, "No such sink"); } HA_ATOMIC_STORE(&src->sink, sink); } else if (strcmp(args[2], "level") == 0) { const char *name = args[3]; if (!*name) { chunk_printf(&trash, "Supported trace levels for source %s:\n", src->name.ptr); chunk_appendf(&trash, " %c error : report errors\n", src->level == TRACE_LEVEL_ERROR ? '*' : ' '); chunk_appendf(&trash, " %c user : also information useful to the end user\n", src->level == TRACE_LEVEL_USER ? '*' : ' '); chunk_appendf(&trash, " %c proto : also protocol-level updates\n", src->level == TRACE_LEVEL_PROTO ? '*' : ' '); chunk_appendf(&trash, " %c state : also report internal state changes\n", src->level == TRACE_LEVEL_STATE ? '*' : ' '); chunk_appendf(&trash, " %c data : also report data transfers\n", src->level == TRACE_LEVEL_DATA ? '*' : ' '); chunk_appendf(&trash, " %c developer : also report information useful only to the developer\n", src->level == TRACE_LEVEL_DEVELOPER ? '*' : ' '); trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } if (strcmp(name, "error") == 0) HA_ATOMIC_STORE(&src->level, TRACE_LEVEL_ERROR); else if (strcmp(name, "user") == 0) HA_ATOMIC_STORE(&src->level, TRACE_LEVEL_USER); else if (strcmp(name, "proto") == 0) HA_ATOMIC_STORE(&src->level, TRACE_LEVEL_PROTO); else if (strcmp(name, "state") == 0) HA_ATOMIC_STORE(&src->level, TRACE_LEVEL_STATE); else if (strcmp(name, "data") == 0) HA_ATOMIC_STORE(&src->level, TRACE_LEVEL_DATA); else if (strcmp(name, "developer") == 0) HA_ATOMIC_STORE(&src->level, TRACE_LEVEL_DEVELOPER); else return cli_err(appctx, "No such trace level"); } else if (strcmp(args[2], "lock") == 0) { const char *name = args[3]; if (!*name) { chunk_printf(&trash, "Supported lock-on criteria for source %s:\n", src->name.ptr); if (src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_STRM)) chunk_appendf(&trash, " %c backend : lock on the backend that started the trace\n", src->lockon == TRACE_LOCKON_BACKEND ? '*' : ' '); if (src->arg_def & TRC_ARGS_CHK) chunk_appendf(&trash, " %c check : lock on the check that started the trace\n", src->lockon == TRACE_LOCKON_CHECK ? '*' : ' '); if (src->arg_def & TRC_ARGS_CONN) chunk_appendf(&trash, " %c connection : lock on the connection that started the trace\n", src->lockon == TRACE_LOCKON_CONNECTION ? '*' : ' '); if (src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_SESS|TRC_ARGS_STRM)) chunk_appendf(&trash, " %c frontend : lock on the frontend that started the trace\n", src->lockon == TRACE_LOCKON_FRONTEND ? '*' : ' '); if (src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_SESS|TRC_ARGS_STRM)) chunk_appendf(&trash, " %c listener : lock on the listener that started the trace\n", src->lockon == TRACE_LOCKON_LISTENER ? '*' : ' '); chunk_appendf(&trash, " %c nothing : do not lock on anything\n", src->lockon == TRACE_LOCKON_NOTHING ? '*' : ' '); if (src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_STRM)) chunk_appendf(&trash, " %c server : lock on the server that started the trace\n", src->lockon == TRACE_LOCKON_SERVER ? '*' : ' '); if (src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_SESS|TRC_ARGS_STRM)) chunk_appendf(&trash, " %c session : lock on the session that started the trace\n", src->lockon == TRACE_LOCKON_SESSION ? '*' : ' '); if (src->arg_def & TRC_ARGS_STRM) chunk_appendf(&trash, " %c stream : lock on the stream that started the trace\n", src->lockon == TRACE_LOCKON_STREAM ? '*' : ' '); chunk_appendf(&trash, " %c thread : lock on the thread that started the trace\n", src->lockon == TRACE_LOCKON_THREAD ? '*' : ' '); if (src->lockon_args && src->lockon_args[0].name) chunk_appendf(&trash, " %c %-10s : %s\n", src->lockon == TRACE_LOCKON_ARG1 ? '*' : ' ', src->lockon_args[0].name, src->lockon_args[0].desc); if (src->lockon_args && src->lockon_args[1].name) chunk_appendf(&trash, " %c %-10s : %s\n", src->lockon == TRACE_LOCKON_ARG2 ? '*' : ' ', src->lockon_args[1].name, src->lockon_args[1].desc); if (src->lockon_args && src->lockon_args[2].name) chunk_appendf(&trash, " %c %-10s : %s\n", src->lockon == TRACE_LOCKON_ARG3 ? '*' : ' ', src->lockon_args[2].name, src->lockon_args[2].desc); if (src->lockon_args && src->lockon_args[3].name) chunk_appendf(&trash, " %c %-10s : %s\n", src->lockon == TRACE_LOCKON_ARG4 ? '*' : ' ', src->lockon_args[3].name, src->lockon_args[3].desc); trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } else if ((src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_STRM)) && strcmp(name, "backend") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_BACKEND); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & TRC_ARGS_CHK) && strcmp(name, "check") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_CHECK); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & TRC_ARGS_CONN) && strcmp(name, "connection") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_CONNECTION); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_SESS|TRC_ARGS_STRM)) && strcmp(name, "frontend") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_FRONTEND); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_SESS|TRC_ARGS_STRM)) && strcmp(name, "listener") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_LISTENER); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if (strcmp(name, "nothing") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_NOTHING); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_STRM)) && strcmp(name, "server") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_SERVER); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & (TRC_ARGS_CONN|TRC_ARGS_SESS|TRC_ARGS_STRM)) && strcmp(name, "session") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_SESSION); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if ((src->arg_def & TRC_ARGS_STRM) && strcmp(name, "stream") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_STREAM); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if (strcmp(name, "thread") == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_THREAD); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if (src->lockon_args && src->lockon_args[0].name && strcmp(name, src->lockon_args[0].name) == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_ARG1); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if (src->lockon_args && src->lockon_args[1].name && strcmp(name, src->lockon_args[1].name) == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_ARG2); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if (src->lockon_args && src->lockon_args[2].name && strcmp(name, src->lockon_args[2].name) == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_ARG3); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else if (src->lockon_args && src->lockon_args[3].name && strcmp(name, src->lockon_args[3].name) == 0) { HA_ATOMIC_STORE(&src->lockon, TRACE_LOCKON_ARG4); HA_ATOMIC_STORE(&src->lockon_ptr, NULL); } else return cli_err(appctx, "Unsupported lock-on criterion"); } else if (strcmp(args[2], "verbosity") == 0) { const char *name = args[3]; const struct name_desc *nd; if (!*name) { chunk_printf(&trash, "Supported trace verbosities for source %s:\n", src->name.ptr); chunk_appendf(&trash, " %c quiet : only report basic information with no decoding\n", src->verbosity == 0 ? '*' : ' '); if (!src->decoding || !src->decoding[0].name) { chunk_appendf(&trash, " %c default : report extra information when available\n", src->verbosity > 0 ? '*' : ' '); } else { for (nd = src->decoding; nd->name && nd->desc; nd++) chunk_appendf(&trash, " %c %-10s : %s\n", nd == (src->decoding + src->verbosity - 1) ? '*' : ' ', nd->name, nd->desc); } trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } if (strcmp(name, "quiet") == 0) HA_ATOMIC_STORE(&src->verbosity, 0); else if (!src->decoding || !src->decoding[0].name) { if (strcmp(name, "default") == 0) HA_ATOMIC_STORE(&src->verbosity, 1); else return cli_err(appctx, "No such verbosity level"); } else { for (nd = src->decoding; nd->name && nd->desc; nd++) if (strcmp(name, nd->name) == 0) break; if (!nd->name || !nd->desc) return cli_err(appctx, "No such verbosity level"); HA_ATOMIC_STORE(&src->verbosity, (nd - src->decoding) + 1); } } else return cli_err(appctx, "Unknown trace keyword"); return 0; } /* parse the command, returns 1 if a message is returned, otherwise zero */ static int cli_parse_show_trace(char **args, char *payload, struct appctx *appctx, void *private) { struct trace_source *src; const struct sink *sink; int i; args++; // make args[1] the 1st arg if (!*args[1]) { /* no arg => report the list of supported sources */ chunk_printf(&trash, "Supported trace sources and states (.=stopped, w=waiting, R=running) :\n" ); list_for_each_entry(src, &trace_sources, source_link) { sink = src->sink; chunk_appendf(&trash, " [%c] %-10s -> %s [drp %u] [%s]\n", trace_state_char(src->state), src->name.ptr, sink ? sink->name : "none", sink ? sink->ctx.dropped : 0, src->desc); } trash.area[trash.data] = 0; return cli_msg(appctx, LOG_INFO, trash.area); } if (!cli_has_level(appctx, ACCESS_LVL_OPER)) return 1; src = trace_find_source(args[1]); if (!src) return cli_err(appctx, "No such trace source"); sink = src->sink; chunk_printf(&trash, "Trace status for %s:\n", src->name.ptr); chunk_appendf(&trash, " - sink: %s [%u dropped]\n", sink ? sink->name : "none", sink ? sink->ctx.dropped : 0); chunk_appendf(&trash, " - event name : report start stop pause\n"); for (i = 0; src->known_events && src->known_events[i].mask; i++) { chunk_appendf(&trash, " %-12s : %c %c %c %c\n", src->known_events[i].name, trace_event_char(src->report_events, src->known_events[i].mask), trace_event_char(src->start_events, src->known_events[i].mask), trace_event_char(src->stop_events, src->known_events[i].mask), trace_event_char(src->pause_events, src->known_events[i].mask)); } trash.area[trash.data] = 0; return cli_msg(appctx, LOG_WARNING, trash.area); } static struct cli_kw_list cli_kws = {{ },{ { { "trace", NULL }, "trace [|0] [cmd [args...]] : manage live tracing (empty to list, 0 to stop all)", cli_parse_trace, NULL, NULL }, { { "show", "trace", NULL }, "show trace [] : show live tracing state", cli_parse_show_trace, NULL, NULL }, {{},} }}; INITCALL1(STG_REGISTER, cli_register_kw, &cli_kws); /* * Local variables: * c-indent-level: 8 * c-basic-offset: 8 * End: */