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git01.mediatek.com / haproxy / 8e0bb0ae16599f89be3f0937c00976ef28ec7f25 / . / src / dumpstats.c
blob: 6525939a5477e196efb6ecad9ff0656dd54cdd54 [file] [log] [blame]
/*
* Functions dedicated to statistics output and the stats socket
*
* Copyright 2000-2012 Willy Tarreau <w@1wt.eu>
* Copyright 2007-2009 Krzysztof Piotr Oledzki <ole@ans.pl>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*
*/
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <pwd.h>
#include <grp.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <common/cfgparse.h>
#include <common/compat.h>
#include <common/config.h>
#include <common/debug.h>
#include <common/memory.h>
#include <common/mini-clist.h>
#include <common/standard.h>
#include <common/ticks.h>
#include <common/time.h>
#include <common/uri_auth.h>
#include <common/version.h>
#include <common/base64.h>
#include <types/applet.h>
#include <types/global.h>
#include <types/dns.h>
#include <proto/backend.h>
#include <proto/channel.h>
#include <proto/checks.h>
#include <proto/compression.h>
#include <proto/dumpstats.h>
#include <proto/fd.h>
#include <proto/freq_ctr.h>
#include <proto/frontend.h>
#include <proto/log.h>
#include <proto/pattern.h>
#include <proto/pipe.h>
#include <proto/listener.h>
#include <proto/map.h>
#include <proto/proto_http.h>
#include <proto/proto_uxst.h>
#include <proto/proxy.h>
#include <proto/sample.h>
#include <proto/session.h>
#include <proto/stream.h>
#include <proto/server.h>
#include <proto/raw_sock.h>
#include <proto/stream_interface.h>
#include <proto/task.h>
#ifdef USE_OPENSSL
#include <proto/ssl_sock.h>
#include <types/ssl_sock.h>
#endif
/* These are the field names for each INF_* field position. Please pay attention
* to always use the exact same name except that the strings for new names must
* be lower case or CamelCase while the enum entries must be upper case.
*/
const char *info_field_names[INF_TOTAL_FIELDS] = {
[INF_NAME] = "Name",
[INF_VERSION] = "Version",
[INF_RELEASE_DATE] = "Release_date",
[INF_NBPROC] = "Nbproc",
[INF_PROCESS_NUM] = "Process_num",
[INF_PID] = "Pid",
[INF_UPTIME] = "Uptime",
[INF_UPTIME_SEC] = "Uptime_sec",
[INF_MEMMAX_MB] = "Memmax_MB",
[INF_POOL_ALLOC_MB] = "PoolAlloc_MB",
[INF_POOL_USED_MB] = "PoolUsed_MB",
[INF_POOL_FAILED] = "PoolFailed",
[INF_ULIMIT_N] = "Ulimit-n",
[INF_MAXSOCK] = "Maxsock",
[INF_MAXCONN] = "Maxconn",
[INF_HARD_MAXCONN] = "Hard_maxconn",
[INF_CURR_CONN] = "CurrConns",
[INF_CUM_CONN] = "CumConns",
[INF_CUM_REQ] = "CumReq",
[INF_MAX_SSL_CONNS] = "MaxSslConns",
[INF_CURR_SSL_CONNS] = "CurrSslConns",
[INF_CUM_SSL_CONNS] = "CumSslConns",
[INF_MAXPIPES] = "Maxpipes",
[INF_PIPES_USED] = "PipesUsed",
[INF_PIPES_FREE] = "PipesFree",
[INF_CONN_RATE] = "ConnRate",
[INF_CONN_RATE_LIMIT] = "ConnRateLimit",
[INF_MAX_CONN_RATE] = "MaxConnRate",
[INF_SESS_RATE] = "SessRate",
[INF_SESS_RATE_LIMIT] = "SessRateLimit",
[INF_MAX_SESS_RATE] = "MaxSessRate",
[INF_SSL_RATE] = "SslRate",
[INF_SSL_RATE_LIMIT] = "SslRateLimit",
[INF_MAX_SSL_RATE] = "MaxSslRate",
[INF_SSL_FRONTEND_KEY_RATE] = "SslFrontendKeyRate",
[INF_SSL_FRONTEND_MAX_KEY_RATE] = "SslFrontendMaxKeyRate",
[INF_SSL_FRONTEND_SESSION_REUSE_PCT] = "SslFrontendSessionReuse_pct",
[INF_SSL_BACKEND_KEY_RATE] = "SslBackendKeyRate",
[INF_SSL_BACKEND_MAX_KEY_RATE] = "SslBackendMaxKeyRate",
[INF_SSL_CACHE_LOOKUPS] = "SslCacheLookups",
[INF_SSL_CACHE_MISSES] = "SslCacheMisses",
[INF_COMPRESS_BPS_IN] = "CompressBpsIn",
[INF_COMPRESS_BPS_OUT] = "CompressBpsOut",
[INF_COMPRESS_BPS_RATE_LIM] = "CompressBpsRateLim",
[INF_ZLIB_MEM_USAGE] = "ZlibMemUsage",
[INF_MAX_ZLIB_MEM_USAGE] = "MaxZlibMemUsage",
[INF_TASKS] = "Tasks",
[INF_RUN_QUEUE] = "Run_queue",
[INF_IDLE_PCT] = "Idle_pct",
[INF_NODE] = "node",
[INF_DESCRIPTION] = "description",
};
/* one line of stats */
static struct field info[INF_TOTAL_FIELDS];
/* These are the field names for each ST_F_* field position. Please pay attention
* to always use the exact same name except that the strings must be lower case
* while the enum entries must be upper case.
*/
const char *stat_field_names[ST_F_TOTAL_FIELDS] = {
[ST_F_PXNAME] = "pxname",
[ST_F_SVNAME] = "svname",
[ST_F_QCUR] = "qcur",
[ST_F_QMAX] = "qmax",
[ST_F_SCUR] = "scur",
[ST_F_SMAX] = "smax",
[ST_F_SLIM] = "slim",
[ST_F_STOT] = "stot",
[ST_F_BIN] = "bin",
[ST_F_BOUT] = "bout",
[ST_F_DREQ] = "dreq",
[ST_F_DRESP] = "dresp",
[ST_F_EREQ] = "ereq",
[ST_F_ECON] = "econ",
[ST_F_ERESP] = "eresp",
[ST_F_WRETR] = "wretr",
[ST_F_WREDIS] = "wredis",
[ST_F_STATUS] = "status",
[ST_F_WEIGHT] = "weight",
[ST_F_ACT] = "act",
[ST_F_BCK] = "bck",
[ST_F_CHKFAIL] = "chkfail",
[ST_F_CHKDOWN] = "chkdown",
[ST_F_LASTCHG] = "lastchg",
[ST_F_DOWNTIME] = "downtime",
[ST_F_QLIMIT] = "qlimit",
[ST_F_PID] = "pid",
[ST_F_IID] = "iid",
[ST_F_SID] = "sid",
[ST_F_THROTTLE] = "throttle",
[ST_F_LBTOT] = "lbtot",
[ST_F_TRACKED] = "tracked",
[ST_F_TYPE] = "type",
[ST_F_RATE] = "rate",
[ST_F_RATE_LIM] = "rate_lim",
[ST_F_RATE_MAX] = "rate_max",
[ST_F_CHECK_STATUS] = "check_status",
[ST_F_CHECK_CODE] = "check_code",
[ST_F_CHECK_DURATION] = "check_duration",
[ST_F_HRSP_1XX] = "hrsp_1xx",
[ST_F_HRSP_2XX] = "hrsp_2xx",
[ST_F_HRSP_3XX] = "hrsp_3xx",
[ST_F_HRSP_4XX] = "hrsp_4xx",
[ST_F_HRSP_5XX] = "hrsp_5xx",
[ST_F_HRSP_OTHER] = "hrsp_other",
[ST_F_HANAFAIL] = "hanafail",
[ST_F_REQ_RATE] = "req_rate",
[ST_F_REQ_RATE_MAX] = "req_rate_max",
[ST_F_REQ_TOT] = "req_tot",
[ST_F_CLI_ABRT] = "cli_abrt",
[ST_F_SRV_ABRT] = "srv_abrt",
[ST_F_COMP_IN] = "comp_in",
[ST_F_COMP_OUT] = "comp_out",
[ST_F_COMP_BYP] = "comp_byp",
[ST_F_COMP_RSP] = "comp_rsp",
[ST_F_LASTSESS] = "lastsess",
[ST_F_LAST_CHK] = "last_chk",
[ST_F_LAST_AGT] = "last_agt",
[ST_F_QTIME] = "qtime",
[ST_F_CTIME] = "ctime",
[ST_F_RTIME] = "rtime",
[ST_F_TTIME] = "ttime",
[ST_F_AGENT_STATUS] = "agent_status",
[ST_F_AGENT_CODE] = "agent_code",
[ST_F_AGENT_DURATION] = "agent_duration",
[ST_F_CHECK_DESC] = "check_desc",
[ST_F_AGENT_DESC] = "agent_desc",
[ST_F_CHECK_RISE] = "check_rise",
[ST_F_CHECK_FALL] = "check_fall",
[ST_F_CHECK_HEALTH] = "check_health",
[ST_F_AGENT_RISE] = "agent_rise",
[ST_F_AGENT_FALL] = "agent_fall",
[ST_F_AGENT_HEALTH] = "agent_health",
[ST_F_ADDR] = "addr",
[ST_F_COOKIE] = "cookie",
[ST_F_MODE] = "mode",
[ST_F_ALGO] = "algo",
[ST_F_CONN_RATE] = "conn_rate",
[ST_F_CONN_RATE_MAX] = "conn_rate_max",
[ST_F_CONN_TOT] = "conn_tot",
[ST_F_INTERCEPTED] = "intercepted",
[ST_F_DCON] = "dcon",
[ST_F_DSES] = "dses",
};
/* one line of stats */
static struct field stats[ST_F_TOTAL_FIELDS];
static int stats_dump_backend_to_buffer(struct stream_interface *si);
static int stats_dump_env_to_buffer(struct stream_interface *si);
static int stats_dump_info_to_buffer(struct stream_interface *si);
static int stats_dump_servers_state_to_buffer(struct stream_interface *si);
static int stats_dump_pools_to_buffer(struct stream_interface *si);
static int stats_dump_full_sess_to_buffer(struct stream_interface *si, struct stream *sess);
static int stats_dump_sess_to_buffer(struct stream_interface *si);
static int stats_dump_errors_to_buffer(struct stream_interface *si);
static int stats_table_request(struct stream_interface *si, int show);
static int stats_dump_proxy_to_buffer(struct stream_interface *si, struct proxy *px, struct uri_auth *uri);
static int stats_dump_stat_to_buffer(struct stream_interface *si, struct uri_auth *uri);
static int stats_dump_resolvers_to_buffer(struct stream_interface *si);
static int stats_pats_list(struct stream_interface *si);
static int stats_pat_list(struct stream_interface *si);
static int stats_map_lookup(struct stream_interface *si);
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
static int stats_tlskeys_list(struct stream_interface *si);
#endif
static void cli_release_handler(struct appctx *appctx);
static int dump_servers_state(struct stream_interface *si, struct chunk *buf);
/*
* cli_io_handler()
* -> stats_dump_sess_to_buffer() // "show sess"
* -> stats_dump_errors_to_buffer() // "show errors"
* -> stats_dump_info_to_buffer() // "show info"
* -> stats_dump_backend_to_buffer() // "show backend"
* -> stats_dump_servers_state_to_buffer() // "show servers state [<backend name>]"
* -> stats_dump_stat_to_buffer() // "show stat"
* -> stats_dump_resolvers_to_buffer() // "show stat resolvers <id>"
* -> stats_dump_csv_header()
* -> stats_dump_proxy_to_buffer()
* -> stats_dump_fe_stats()
* -> stats_dump_li_stats()
* -> stats_dump_sv_stats()
* -> stats_dump_be_stats()
*
* http_stats_io_handler()
* -> stats_dump_stat_to_buffer() // same as above, but used for CSV or HTML
* -> stats_dump_csv_header() // emits the CSV headers (same as above)
* -> stats_dump_html_head() // emits the HTML headers
* -> stats_dump_html_info() // emits the equivalent of "show info" at the top
* -> stats_dump_proxy_to_buffer() // same as above, valid for CSV and HTML
* -> stats_dump_html_px_hdr()
* -> stats_dump_fe_stats()
* -> stats_dump_li_stats()
* -> stats_dump_sv_stats()
* -> stats_dump_be_stats()
* -> stats_dump_html_px_end()
* -> stats_dump_html_end() // emits HTML trailer
*/
static struct applet cli_applet;
static const char stats_sock_usage_msg[] =
"Unknown command. Please enter one of the following commands only :\n"
" clear counters : clear max statistics counters (add 'all' for all counters)\n"
" clear table : remove an entry from a table\n"
" help : this message\n"
" prompt : toggle interactive mode with prompt\n"
" quit : disconnect\n"
" show backend : list backends in the current running config\n"
" show env [var] : dump environment variables known to the process\n"
" show info : report information about the running process\n"
" show pools : report information about the memory pools usage\n"
" show stat : report counters for each proxy and server\n"
" show stat resolvers [id]: dumps counters from all resolvers section and\n"
" associated name servers\n"
" show errors : report last request and response errors for each proxy\n"
" show sess [id] : report the list of current sessions or dump this session\n"
" show table [id]: report table usage stats or dump this table's contents\n"
" show servers state [id]: dump volatile server information (for backend <id>)\n"
" get weight : report a server's current weight\n"
" set weight : change a server's weight\n"
" set server : change a server's state, weight or address\n"
" set table [id] : update or create a table entry's data\n"
" set timeout : change a timeout setting\n"
" set maxconn : change a maxconn setting\n"
" set rate-limit : change a rate limiting value\n"
" disable : put a server or frontend in maintenance mode\n"
" enable : re-enable a server or frontend which is in maintenance mode\n"
" shutdown : kill a session or a frontend (eg:to release listening ports)\n"
" show acl [id] : report available acls or dump an acl's contents\n"
" get acl : reports the patterns matching a sample for an ACL\n"
" add acl : add acl entry\n"
" del acl : delete acl entry\n"
" clear acl <id> : clear the content of this acl\n"
" show map [id] : report available maps or dump a map's contents\n"
" get map : reports the keys and values matching a sample for a map\n"
" set map : modify map entry\n"
" add map : add map entry\n"
" del map : delete map entry\n"
" clear map <id> : clear the content of this map\n"
" set ssl <stmt> : set statement for ssl\n"
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
" show tls-keys [id|*]: show tls keys references or dump tls ticket keys when id specified\n"
#endif
"";
static const char stats_permission_denied_msg[] =
"Permission denied\n"
"";
static char *dynamic_usage_msg = NULL;
/* List head of cli keywords */
struct cli_kw_list cli_keywords = {
.list = LIST_HEAD_INIT(cli_keywords.list)
};
extern const char *stat_status_codes[];
char *cli_gen_usage_msg()
{
struct cli_kw_list *kw_list;
struct cli_kw *kw;
struct chunk *tmp = get_trash_chunk();
struct chunk out;
free(dynamic_usage_msg);
dynamic_usage_msg = NULL;
if (LIST_ISEMPTY(&cli_keywords.list))
return NULL;
chunk_reset(tmp);
chunk_strcat(tmp, stats_sock_usage_msg);
list_for_each_entry(kw_list, &cli_keywords.list, list) {
kw = &kw_list->kw[0];
while (kw->usage) {
chunk_appendf(tmp, " %s\n", kw->usage);
kw++;
}
}
chunk_init(&out, NULL, 0);
chunk_dup(&out, tmp);
dynamic_usage_msg = out.str;
return dynamic_usage_msg;
}
struct cli_kw* cli_find_kw(char **args)
{
struct cli_kw_list *kw_list;
struct cli_kw *kw;/* current cli_kw */
char **tmp_args;
const char **tmp_str_kw;
int found = 0;
if (LIST_ISEMPTY(&cli_keywords.list))
return NULL;
list_for_each_entry(kw_list, &cli_keywords.list, list) {
kw = &kw_list->kw[0];
while (*kw->str_kw) {
tmp_args = args;
tmp_str_kw = kw->str_kw;
while (*tmp_str_kw) {
if (strcmp(*tmp_str_kw, *tmp_args) == 0) {
found = 1;
} else {
found = 0;
break;
}
tmp_args++;
tmp_str_kw++;
}
if (found)
return (kw);
kw++;
}
}
return NULL;
}
void cli_register_kw(struct cli_kw_list *kw_list)
{
LIST_ADDQ(&cli_keywords.list, &kw_list->list);
}
/* allocate a new stats frontend named <name>, and return it
* (or NULL in case of lack of memory).
*/
static struct proxy *alloc_stats_fe(const char *name, const char *file, int line)
{
struct proxy *fe;
fe = calloc(1, sizeof(*fe));
if (!fe)
return NULL;
init_new_proxy(fe);
fe->next = proxy;
proxy = fe;
fe->last_change = now.tv_sec;
fe->id = strdup("GLOBAL");
fe->cap = PR_CAP_FE;
fe->maxconn = 10; /* default to 10 concurrent connections */
fe->timeout.client = MS_TO_TICKS(10000); /* default timeout of 10 seconds */
fe->conf.file = strdup(file);
fe->conf.line = line;
fe->accept = frontend_accept;
fe->default_target = &cli_applet.obj_type;
/* the stats frontend is the only one able to assign ID #0 */
fe->conf.id.key = fe->uuid = 0;
eb32_insert(&used_proxy_id, &fe->conf.id);
return fe;
}
/* This function parses a "stats" statement in the "global" section. It returns
* -1 if there is any error, otherwise zero. If it returns -1, it will write an
* error message into the <err> buffer which will be preallocated. The trailing
* '\n' must not be written. The function must be called with <args> pointing to
* the first word after "stats".
*/
static int stats_parse_global(char **args, int section_type, struct proxy *curpx,
struct proxy *defpx, const char *file, int line,
char **err)
{
struct bind_conf *bind_conf;
struct listener *l;
if (!strcmp(args[1], "socket")) {
int cur_arg;
if (*args[2] == 0) {
memprintf(err, "'%s %s' in global section expects an address or a path to a UNIX socket", args[0], args[1]);
return -1;
}
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
bind_conf = bind_conf_alloc(&global.stats_fe->conf.bind, file, line, args[2]);
bind_conf->level = ACCESS_LVL_OPER; /* default access level */
if (!str2listener(args[2], global.stats_fe, bind_conf, file, line, err)) {
memprintf(err, "parsing [%s:%d] : '%s %s' : %s\n",
file, line, args[0], args[1], err && *err ? *err : "error");
return -1;
}
cur_arg = 3;
while (*args[cur_arg]) {
static int bind_dumped;
struct bind_kw *kw;
kw = bind_find_kw(args[cur_arg]);
if (kw) {
if (!kw->parse) {
memprintf(err, "'%s %s' : '%s' option is not implemented in this version (check build options).",
args[0], args[1], args[cur_arg]);
return -1;
}
if (kw->parse(args, cur_arg, global.stats_fe, bind_conf, err) != 0) {
if (err && *err)
memprintf(err, "'%s %s' : '%s'", args[0], args[1], *err);
else
memprintf(err, "'%s %s' : error encountered while processing '%s'",
args[0], args[1], args[cur_arg]);
return -1;
}
cur_arg += 1 + kw->skip;
continue;
}
if (!bind_dumped) {
bind_dump_kws(err);
indent_msg(err, 4);
bind_dumped = 1;
}
memprintf(err, "'%s %s' : unknown keyword '%s'.%s%s",
args[0], args[1], args[cur_arg],
err && *err ? " Registered keywords :" : "", err && *err ? *err : "");
return -1;
}
list_for_each_entry(l, &bind_conf->listeners, by_bind) {
l->maxconn = global.stats_fe->maxconn;
l->backlog = global.stats_fe->backlog;
l->accept = session_accept_fd;
l->handler = process_stream;
l->default_target = global.stats_fe->default_target;
l->options |= LI_O_UNLIMITED; /* don't make the peers subject to global limits */
l->nice = -64; /* we want to boost priority for local stats */
global.maxsock += l->maxconn;
}
}
else if (!strcmp(args[1], "timeout")) {
unsigned timeout;
const char *res = parse_time_err(args[2], &timeout, TIME_UNIT_MS);
if (res) {
memprintf(err, "'%s %s' : unexpected character '%c'", args[0], args[1], *res);
return -1;
}
if (!timeout) {
memprintf(err, "'%s %s' expects a positive value", args[0], args[1]);
return -1;
}
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
global.stats_fe->timeout.client = MS_TO_TICKS(timeout);
}
else if (!strcmp(args[1], "maxconn")) {
int maxconn = atol(args[2]);
if (maxconn <= 0) {
memprintf(err, "'%s %s' expects a positive value", args[0], args[1]);
return -1;
}
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
global.stats_fe->maxconn = maxconn;
}
else if (!strcmp(args[1], "bind-process")) { /* enable the socket only on some processes */
int cur_arg = 2;
unsigned long set = 0;
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
while (*args[cur_arg]) {
unsigned int low, high;
if (strcmp(args[cur_arg], "all") == 0) {
set = 0;
break;
}
else if (strcmp(args[cur_arg], "odd") == 0) {
set |= ~0UL/3UL; /* 0x555....555 */
}
else if (strcmp(args[cur_arg], "even") == 0) {
set |= (~0UL/3UL) << 1; /* 0xAAA...AAA */
}
else if (isdigit((int)*args[cur_arg])) {
char *dash = strchr(args[cur_arg], '-');
low = high = str2uic(args[cur_arg]);
if (dash)
high = str2uic(dash + 1);
if (high < low) {
unsigned int swap = low;
low = high;
high = swap;
}
if (low < 1 || high > LONGBITS) {
memprintf(err, "'%s %s' supports process numbers from 1 to %d.\n",
args[0], args[1], LONGBITS);
return -1;
}
while (low <= high)
set |= 1UL << (low++ - 1);
}
else {
memprintf(err,
"'%s %s' expects 'all', 'odd', 'even', or a list of process ranges with numbers from 1 to %d.\n",
args[0], args[1], LONGBITS);
return -1;
}
cur_arg++;
}
global.stats_fe->bind_proc = set;
}
else {
memprintf(err, "'%s' only supports 'socket', 'maxconn', 'bind-process' and 'timeout' (got '%s')", args[0], args[1]);
return -1;
}
return 0;
}
/* Dumps the stats CSV header to the trash buffer which. The caller is responsible
* for clearing it if needed.
* NOTE: Some tools happen to rely on the field position instead of its name,
* so please only append new fields at the end, never in the middle.
*/
static void stats_dump_csv_header()
{
int field;
chunk_appendf(&trash, "# ");
for (field = 0; field < ST_F_TOTAL_FIELDS; field++)
chunk_appendf(&trash, "%s,", stat_field_names[field]);
chunk_appendf(&trash, "\n");
}
/* print a string of text buffer to <out>. The format is :
* Non-printable chars \t, \n, \r and \e are * encoded in C format.
* Other non-printable chars are encoded "\xHH". Space, '\', and '=' are also escaped.
* Print stopped if null char or <bsize> is reached, or if no more place in the chunk.
*/
static int dump_text(struct chunk *out, const char *buf, int bsize)
{
unsigned char c;
int ptr = 0;
while (buf[ptr] && ptr < bsize) {
c = buf[ptr];
if (isprint(c) && isascii(c) && c != '\\' && c != ' ' && c != '=') {
if (out->len > out->size - 1)
break;
out->str[out->len++] = c;
}
else if (c == '\t' || c == '\n' || c == '\r' || c == '\e' || c == '\\' || c == ' ' || c == '=') {
if (out->len > out->size - 2)
break;
out->str[out->len++] = '\\';
switch (c) {
case ' ': c = ' '; break;
case '\t': c = 't'; break;
case '\n': c = 'n'; break;
case '\r': c = 'r'; break;
case '\e': c = 'e'; break;
case '\\': c = '\\'; break;
case '=': c = '='; break;
}
out->str[out->len++] = c;
}
else {
if (out->len > out->size - 4)
break;
out->str[out->len++] = '\\';
out->str[out->len++] = 'x';
out->str[out->len++] = hextab[(c >> 4) & 0xF];
out->str[out->len++] = hextab[c & 0xF];
}
ptr++;
}
return ptr;
}
/* print a buffer in hexa.
* Print stopped if <bsize> is reached, or if no more place in the chunk.
*/
static int dump_binary(struct chunk *out, const char *buf, int bsize)
{
unsigned char c;
int ptr = 0;
while (ptr < bsize) {
c = buf[ptr];
if (out->len > out->size - 2)
break;
out->str[out->len++] = hextab[(c >> 4) & 0xF];
out->str[out->len++] = hextab[c & 0xF];
ptr++;
}
return ptr;
}
/* Dump the status of a table to a stream interface's
* read buffer. It returns 0 if the output buffer is full
* and needs to be called again, otherwise non-zero.
*/
static int stats_dump_table_head_to_buffer(struct chunk *msg, struct stream_interface *si,
struct proxy *proxy, struct proxy *target)
{
struct stream *s = si_strm(si);
chunk_appendf(msg, "# table: %s, type: %s, size:%d, used:%d\n",
proxy->id, stktable_types[proxy->table.type].kw, proxy->table.size, proxy->table.current);
/* any other information should be dumped here */
if (target && strm_li(s)->bind_conf->level < ACCESS_LVL_OPER)
chunk_appendf(msg, "# contents not dumped due to insufficient privileges\n");
if (bi_putchk(si_ic(si), msg) == -1) {
si_applet_cant_put(si);
return 0;
}
return 1;
}
/* Dump the a table entry to a stream interface's
* read buffer. It returns 0 if the output buffer is full
* and needs to be called again, otherwise non-zero.
*/
static int stats_dump_table_entry_to_buffer(struct chunk *msg, struct stream_interface *si,
struct proxy *proxy, struct stksess *entry)
{
int dt;
chunk_appendf(msg, "%p:", entry);
if (proxy->table.type == SMP_T_IPV4) {
char addr[INET_ADDRSTRLEN];
inet_ntop(AF_INET, (const void *)&entry->key.key, addr, sizeof(addr));
chunk_appendf(msg, " key=%s", addr);
}
else if (proxy->table.type == SMP_T_IPV6) {
char addr[INET6_ADDRSTRLEN];
inet_ntop(AF_INET6, (const void *)&entry->key.key, addr, sizeof(addr));
chunk_appendf(msg, " key=%s", addr);
}
else if (proxy->table.type == SMP_T_SINT) {
chunk_appendf(msg, " key=%u", *(unsigned int *)entry->key.key);
}
else if (proxy->table.type == SMP_T_STR) {
chunk_appendf(msg, " key=");
dump_text(msg, (const char *)entry->key.key, proxy->table.key_size);
}
else {
chunk_appendf(msg, " key=");
dump_binary(msg, (const char *)entry->key.key, proxy->table.key_size);
}
chunk_appendf(msg, " use=%d exp=%d", entry->ref_cnt - 1, tick_remain(now_ms, entry->expire));
for (dt = 0; dt < STKTABLE_DATA_TYPES; dt++) {
void *ptr;
if (proxy->table.data_ofs[dt] == 0)
continue;
if (stktable_data_types[dt].arg_type == ARG_T_DELAY)
chunk_appendf(msg, " %s(%d)=", stktable_data_types[dt].name, proxy->table.data_arg[dt].u);
else
chunk_appendf(msg, " %s=", stktable_data_types[dt].name);
ptr = stktable_data_ptr(&proxy->table, entry, dt);
switch (stktable_data_types[dt].std_type) {
case STD_T_SINT:
chunk_appendf(msg, "%d", stktable_data_cast(ptr, std_t_sint));
break;
case STD_T_UINT:
chunk_appendf(msg, "%u", stktable_data_cast(ptr, std_t_uint));
break;
case STD_T_ULL:
chunk_appendf(msg, "%lld", stktable_data_cast(ptr, std_t_ull));
break;
case STD_T_FRQP:
chunk_appendf(msg, "%d",
read_freq_ctr_period(&stktable_data_cast(ptr, std_t_frqp),
proxy->table.data_arg[dt].u));
break;
}
}
chunk_appendf(msg, "\n");
if (bi_putchk(si_ic(si), msg) == -1) {
si_applet_cant_put(si);
return 0;
}
return 1;
}
static void stats_sock_table_key_request(struct stream_interface *si, char **args, int action)
{
struct stream *s = si_strm(si);
struct appctx *appctx = __objt_appctx(si->end);
struct proxy *px = appctx->ctx.table.target;
struct stksess *ts;
uint32_t uint32_key;
unsigned char ip6_key[sizeof(struct in6_addr)];
long long value;
int data_type;
int cur_arg;
void *ptr;
struct freq_ctr_period *frqp;
appctx->st0 = STAT_CLI_OUTPUT;
if (!*args[4]) {
appctx->ctx.cli.msg = "Key value expected\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
switch (px->table.type) {
case SMP_T_IPV4:
uint32_key = htonl(inetaddr_host(args[4]));
static_table_key->key = &uint32_key;
break;
case SMP_T_IPV6:
inet_pton(AF_INET6, args[4], ip6_key);
static_table_key->key = &ip6_key;
break;
case SMP_T_SINT:
{
char *endptr;
unsigned long val;
errno = 0;
val = strtoul(args[4], &endptr, 10);
if ((errno == ERANGE && val == ULONG_MAX) ||
(errno != 0 && val == 0) || endptr == args[4] ||
val > 0xffffffff) {
appctx->ctx.cli.msg = "Invalid key\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
uint32_key = (uint32_t) val;
static_table_key->key = &uint32_key;
break;
}
break;
case SMP_T_STR:
static_table_key->key = args[4];
static_table_key->key_len = strlen(args[4]);
break;
default:
switch (action) {
case STAT_CLI_O_TAB:
appctx->ctx.cli.msg = "Showing keys from tables of type other than ip, ipv6, string and integer is not supported\n";
break;
case STAT_CLI_O_CLR:
appctx->ctx.cli.msg = "Removing keys from ip tables of type other than ip, ipv6, string and integer is not supported\n";
break;
default:
appctx->ctx.cli.msg = "Unknown action\n";
break;
}
appctx->st0 = STAT_CLI_PRINT;
return;
}
/* check permissions */
if (strm_li(s)->bind_conf->level < ACCESS_LVL_OPER) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return;
}
ts = stktable_lookup_key(&px->table, static_table_key);
switch (action) {
case STAT_CLI_O_TAB:
if (!ts)
return;
chunk_reset(&trash);
if (!stats_dump_table_head_to_buffer(&trash, si, px, px))
return;
stats_dump_table_entry_to_buffer(&trash, si, px, ts);
return;
case STAT_CLI_O_CLR:
if (!ts)
return;
if (ts->ref_cnt) {
/* don't delete an entry which is currently referenced */
appctx->ctx.cli.msg = "Entry currently in use, cannot remove\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
stksess_kill(&px->table, ts);
break;
case STAT_CLI_O_SET:
if (ts)
stktable_touch(&px->table, ts, 1);
else {
ts = stksess_new(&px->table, static_table_key);
if (!ts) {
/* don't delete an entry which is currently referenced */
appctx->ctx.cli.msg = "Unable to allocate a new entry\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
stktable_store(&px->table, ts, 1);
}
for (cur_arg = 5; *args[cur_arg]; cur_arg += 2) {
if (strncmp(args[cur_arg], "data.", 5) != 0) {
appctx->ctx.cli.msg = "\"data.<type>\" followed by a value expected\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
data_type = stktable_get_data_type(args[cur_arg] + 5);
if (data_type < 0) {
appctx->ctx.cli.msg = "Unknown data type\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
if (!px->table.data_ofs[data_type]) {
appctx->ctx.cli.msg = "Data type not stored in this table\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
if (!*args[cur_arg+1] || strl2llrc(args[cur_arg+1], strlen(args[cur_arg+1]), &value) != 0) {
appctx->ctx.cli.msg = "Require a valid integer value to store\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
ptr = stktable_data_ptr(&px->table, ts, data_type);
switch (stktable_data_types[data_type].std_type) {
case STD_T_SINT:
stktable_data_cast(ptr, std_t_sint) = value;
break;
case STD_T_UINT:
stktable_data_cast(ptr, std_t_uint) = value;
break;
case STD_T_ULL:
stktable_data_cast(ptr, std_t_ull) = value;
break;
case STD_T_FRQP:
/* We set both the current and previous values. That way
* the reported frequency is stable during all the period
* then slowly fades out. This allows external tools to
* push measures without having to update them too often.
*/
frqp = &stktable_data_cast(ptr, std_t_frqp);
frqp->curr_tick = now_ms;
frqp->prev_ctr = 0;
frqp->curr_ctr = value;
break;
}
}
break;
default:
appctx->ctx.cli.msg = "Unknown action\n";
appctx->st0 = STAT_CLI_PRINT;
break;
}
}
static void stats_sock_table_data_request(struct stream_interface *si, char **args, int action)
{
struct appctx *appctx = __objt_appctx(si->end);
if (action != STAT_CLI_O_TAB && action != STAT_CLI_O_CLR) {
appctx->ctx.cli.msg = "content-based lookup is only supported with the \"show\" and \"clear\" actions";
appctx->st0 = STAT_CLI_PRINT;
return;
}
/* condition on stored data value */
appctx->ctx.table.data_type = stktable_get_data_type(args[3] + 5);
if (appctx->ctx.table.data_type < 0) {
appctx->ctx.cli.msg = "Unknown data type\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
if (!((struct proxy *)appctx->ctx.table.target)->table.data_ofs[appctx->ctx.table.data_type]) {
appctx->ctx.cli.msg = "Data type not stored in this table\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
appctx->ctx.table.data_op = get_std_op(args[4]);
if (appctx->ctx.table.data_op < 0) {
appctx->ctx.cli.msg = "Require and operator among \"eq\", \"ne\", \"le\", \"ge\", \"lt\", \"gt\"\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
if (!*args[5] || strl2llrc(args[5], strlen(args[5]), &appctx->ctx.table.value) != 0) {
appctx->ctx.cli.msg = "Require a valid integer value to compare against\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
}
static void stats_sock_table_request(struct stream_interface *si, char **args, int action)
{
struct appctx *appctx = __objt_appctx(si->end);
appctx->ctx.table.data_type = -1;
appctx->st2 = STAT_ST_INIT;
appctx->ctx.table.target = NULL;
appctx->ctx.table.proxy = NULL;
appctx->ctx.table.entry = NULL;
appctx->st0 = action;
if (*args[2]) {
appctx->ctx.table.target = proxy_tbl_by_name(args[2]);
if (!appctx->ctx.table.target) {
appctx->ctx.cli.msg = "No such table\n";
appctx->st0 = STAT_CLI_PRINT;
return;
}
}
else {
if (action != STAT_CLI_O_TAB)
goto err_args;
return;
}
if (strcmp(args[3], "key") == 0)
stats_sock_table_key_request(si, args, action);
else if (strncmp(args[3], "data.", 5) == 0)
stats_sock_table_data_request(si, args, action);
else if (*args[3])
goto err_args;
return;
err_args:
switch (action) {
case STAT_CLI_O_TAB:
appctx->ctx.cli.msg = "Optional argument only supports \"data.<store_data_type>\" <operator> <value> and key <key>\n";
break;
case STAT_CLI_O_CLR:
appctx->ctx.cli.msg = "Required arguments: <table> \"data.<store_data_type>\" <operator> <value> or <table> key <key>\n";
break;
default:
appctx->ctx.cli.msg = "Unknown action\n";
break;
}
appctx->st0 = STAT_CLI_PRINT;
}
/* Expects to find a frontend named <arg> and returns it, otherwise displays various
* adequate error messages and returns NULL. This function also expects the stream
* level to be admin.
*/
static struct proxy *expect_frontend_admin(struct stream *s, struct stream_interface *si, const char *arg)
{
struct appctx *appctx = __objt_appctx(si->end);
struct proxy *px;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
if (!*arg) {
appctx->ctx.cli.msg = "A frontend name is expected.\n";
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
px = proxy_fe_by_name(arg);
if (!px) {
appctx->ctx.cli.msg = "No such frontend.\n";
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
return px;
}
/* Expects to find a backend and a server in <arg> under the form <backend>/<server>,
* and returns the pointer to the server. Otherwise, display adequate error messages
* and returns NULL. This function also expects the stream level to be admin. Note:
* the <arg> is modified to remove the '/'.
*/
static struct server *expect_server_admin(struct stream *s, struct stream_interface *si, char *arg)
{
struct appctx *appctx = __objt_appctx(si->end);
struct proxy *px;
struct server *sv;
char *line;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
/* split "backend/server" and make <line> point to server */
for (line = arg; *line; line++)
if (*line == '/') {
*line++ = '\0';
break;
}
if (!*line || !*arg) {
appctx->ctx.cli.msg = "Require 'backend/server'.\n";
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
if (!get_backend_server(arg, line, &px, &sv)) {
appctx->ctx.cli.msg = px ? "No such server.\n" : "No such backend.\n";
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
if (px->state == PR_STSTOPPED) {
appctx->ctx.cli.msg = "Proxy is disabled.\n";
appctx->st0 = STAT_CLI_PRINT;
return NULL;
}
return sv;
}
/* This function is used with TLS ticket keys management. It permits to browse
* each reference. The variable <getnext> must contain the current node,
* <end> point to the root node.
*/
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
static inline
struct tls_keys_ref *tlskeys_list_get_next(struct tls_keys_ref *getnext, struct list *end)
{
struct tls_keys_ref *ref = getnext;
while (1) {
/* Get next list entry. */
ref = LIST_NEXT(&ref->list, struct tls_keys_ref *, list);
/* If the entry is the last of the list, return NULL. */
if (&ref->list == end)
return NULL;
return ref;
}
}
static inline
struct tls_keys_ref *tlskeys_ref_lookup_ref(const char *reference)
{
int id;
char *error;
/* If the reference starts by a '#', this is numeric id. */
if (reference[0] == '#') {
/* Try to convert the numeric id. If the conversion fails, the lookup fails. */
id = strtol(reference + 1, &error, 10);
if (*error != '\0')
return NULL;
/* Perform the unique id lookup. */
return tlskeys_ref_lookupid(id);
}
/* Perform the string lookup. */
return tlskeys_ref_lookup(reference);
}
#endif
/* This function is used with map and acl management. It permits to browse
* each reference. The variable <getnext> must contain the current node,
* <end> point to the root node and the <flags> permit to filter required
* nodes.
*/
static inline
struct pat_ref *pat_list_get_next(struct pat_ref *getnext, struct list *end,
unsigned int flags)
{
struct pat_ref *ref = getnext;
while (1) {
/* Get next list entry. */
ref = LIST_NEXT(&ref->list, struct pat_ref *, list);
/* If the entry is the last of the list, return NULL. */
if (&ref->list == end)
return NULL;
/* If the entry match the flag, return it. */
if (ref->flags & flags)
return ref;
}
}
static inline
struct pat_ref *pat_ref_lookup_ref(const char *reference)
{
int id;
char *error;
/* If the reference starts by a '#', this is numeric id. */
if (reference[0] == '#') {
/* Try to convert the numeric id. If the conversion fails, the lookup fails. */
id = strtol(reference + 1, &error, 10);
if (*error != '\0')
return NULL;
/* Perform the unique id lookup. */
return pat_ref_lookupid(id);
}
/* Perform the string lookup. */
return pat_ref_lookup(reference);
}
/* This function is used with map and acl management. It permits to browse
* each reference.
*/
static inline
struct pattern_expr *pat_expr_get_next(struct pattern_expr *getnext, struct list *end)
{
struct pattern_expr *expr;
expr = LIST_NEXT(&getnext->list, struct pattern_expr *, list);
if (&expr->list == end)
return NULL;
return expr;
}
/* Processes the stats interpreter on the statistics socket. This function is
* called from an applet running in a stream interface. The function returns 1
* if the request was understood, otherwise zero. It sets appctx->st0 to a value
* designating the function which will have to process the request, which can
* also be the print function to display the return message set into cli.msg.
*/
static int stats_sock_parse_request(struct stream_interface *si, char *line)
{
struct stream *s = si_strm(si);
struct appctx *appctx = __objt_appctx(si->end);
char *args[MAX_STATS_ARGS + 1];
struct cli_kw *kw;
int arg;
int i, j;
while (isspace((unsigned char)*line))
line++;
arg = 0;
args[arg] = line;
while (*line && arg < MAX_STATS_ARGS) {
if (*line == '\\') {
line++;
if (*line == '\0')
break;
}
else if (isspace((unsigned char)*line)) {
*line++ = '\0';
while (isspace((unsigned char)*line))
line++;
args[++arg] = line;
continue;
}
line++;
}
while (++arg <= MAX_STATS_ARGS)
args[arg] = line;
/* remove \ */
arg = 0;
while (*args[arg] != '\0') {
j = 0;
for (i=0; args[arg][i] != '\0'; i++) {
if (args[arg][i] == '\\')
continue;
args[arg][j] = args[arg][i];
j++;
}
args[arg][j] = '\0';
arg++;
}
appctx->ctx.stats.scope_str = 0;
appctx->ctx.stats.scope_len = 0;
appctx->ctx.stats.flags = 0;
if ((kw = cli_find_kw(args))) {
if (kw->parse) {
if (kw->parse(args, appctx, kw->private) == 0 && kw->io_handler) {
appctx->st0 = STAT_CLI_O_CUSTOM;
appctx->io_handler = kw->io_handler;
appctx->io_release = kw->io_release;
}
}
} else if (strcmp(args[0], "show") == 0) {
if (strcmp(args[1], "backend") == 0) {
appctx->ctx.be.px = NULL;
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_BACKEND;
}
else if (strcmp(args[1], "env") == 0) {
extern char **environ;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_OPER) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
appctx->ctx.env.var = environ;
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_ENV; // stats_dump_env_to_buffer
if (*args[2]) {
int len = strlen(args[2]);
for (; *appctx->ctx.env.var; appctx->ctx.env.var++) {
if (strncmp(*appctx->ctx.env.var, args[2], len) == 0 &&
(*appctx->ctx.env.var)[len] == '=')
break;
}
if (!*appctx->ctx.env.var) {
appctx->ctx.cli.msg = "Variable not found\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
appctx->st2 = STAT_ST_END;
}
}
else if (strcmp(args[1], "stat") == 0) {
if (strcmp(args[2], "resolvers") == 0) {
struct dns_resolvers *presolvers;
if (*args[3]) {
appctx->ctx.resolvers.ptr = NULL;
list_for_each_entry(presolvers, &dns_resolvers, list) {
if (strcmp(presolvers->id, args[3]) == 0) {
appctx->ctx.resolvers.ptr = presolvers;
break;
}
}
if (appctx->ctx.resolvers.ptr == NULL) {
appctx->ctx.cli.msg = "Can't find that resolvers section\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_RESOLVERS;
return 1;
}
else if (*args[2] && *args[3] && *args[4]) {
appctx->ctx.stats.flags |= STAT_BOUND;
appctx->ctx.stats.iid = atoi(args[2]);
appctx->ctx.stats.type = atoi(args[3]);
appctx->ctx.stats.sid = atoi(args[4]);
if (strcmp(args[5], "typed") == 0)
appctx->ctx.stats.flags |= STAT_FMT_TYPED;
}
else if (strcmp(args[2], "typed") == 0)
appctx->ctx.stats.flags |= STAT_FMT_TYPED;
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_STAT; // stats_dump_stat_to_buffer
}
else if (strcmp(args[1], "info") == 0) {
if (strcmp(args[2], "typed") == 0)
appctx->ctx.stats.flags |= STAT_FMT_TYPED;
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_INFO; // stats_dump_info_to_buffer
}
else if (strcmp(args[1], "servers") == 0 && strcmp(args[2], "state") == 0) {
appctx->ctx.server_state.iid = 0;
appctx->ctx.server_state.px = NULL;
appctx->ctx.server_state.sv = NULL;
/* check if a backend name has been provided */
if (*args[3]) {
/* read server state from local file */
appctx->ctx.server_state.px = proxy_be_by_name(args[3]);
if (!appctx->ctx.server_state.px) {
appctx->ctx.cli.msg = "Can't find backend.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
appctx->ctx.server_state.iid = appctx->ctx.server_state.px->uuid;
}
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_SERVERS_STATE; // stats_dump_servers_state_to_buffer
return 1;
}
else if (strcmp(args[1], "pools") == 0) {
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_POOLS; // stats_dump_pools_to_buffer
}
else if (strcmp(args[1], "sess") == 0) {
appctx->st2 = STAT_ST_INIT;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_OPER) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (*args[2] && strcmp(args[2], "all") == 0)
appctx->ctx.sess.target = (void *)-1;
else if (*args[2])
appctx->ctx.sess.target = (void *)strtoul(args[2], NULL, 0);
else
appctx->ctx.sess.target = NULL;
appctx->ctx.sess.section = 0; /* start with stream status */
appctx->ctx.sess.pos = 0;
appctx->st0 = STAT_CLI_O_SESS; // stats_dump_sess_to_buffer
}
else if (strcmp(args[1], "errors") == 0) {
if (strm_li(s)->bind_conf->level < ACCESS_LVL_OPER) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (*args[2])
appctx->ctx.errors.iid = atoi(args[2]);
else
appctx->ctx.errors.iid = -1;
appctx->ctx.errors.px = NULL;
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_ERR; // stats_dump_errors_to_buffer
}
else if (strcmp(args[1], "table") == 0) {
stats_sock_table_request(si, args, STAT_CLI_O_TAB);
}
else if (strcmp(args[1], "tls-keys") == 0) {
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
appctx->ctx.tlskeys.dump_all = 0;
/* no parameter, shows only file list */
if (!*args[2]) {
appctx->ctx.tlskeys.dump_all = 1;
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_TLSK;
return 1;
}
if (args[2][0] == '*') {
/* list every TLS ticket keys */
appctx->ctx.tlskeys.ref = NULL;
appctx->ctx.tlskeys.dump_all = 1;
} else {
appctx->ctx.tlskeys.ref = tlskeys_ref_lookup_ref(args[2]);
if(!appctx->ctx.tlskeys.ref) {
appctx->ctx.cli.msg = "'show tls-keys' unable to locate referenced filename\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_TLSK_ENT;
#else
appctx->ctx.cli.msg = "HAProxy was compiled against a version of OpenSSL "
"that doesn't support specifying TLS ticket keys\n";
appctx->st0 = STAT_CLI_PRINT;
#endif
return 1;
}
else if (strcmp(args[1], "map") == 0 ||
strcmp(args[1], "acl") == 0) {
/* Set ACL or MAP flags. */
if (args[1][0] == 'm')
appctx->ctx.map.display_flags = PAT_REF_MAP;
else
appctx->ctx.map.display_flags = PAT_REF_ACL;
/* no parameter: display all map available */
if (!*args[2]) {
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_PATS;
return 1;
}
/* lookup into the refs and check the map flag */
appctx->ctx.map.ref = pat_ref_lookup_ref(args[2]);
if (!appctx->ctx.map.ref ||
!(appctx->ctx.map.ref->flags & appctx->ctx.map.display_flags)) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
appctx->ctx.cli.msg = "Unknown map identifier. Please use #<id> or <file>.\n";
else
appctx->ctx.cli.msg = "Unknown ACL identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_PAT;
}
else { /* neither "stat" nor "info" nor "sess" nor "errors" nor "table" */
return 0;
}
}
else if (strcmp(args[0], "clear") == 0) {
if (strcmp(args[1], "counters") == 0) {
struct proxy *px;
struct server *sv;
struct listener *li;
int clrall = 0;
if (strcmp(args[2], "all") == 0)
clrall = 1;
/* check permissions */
if (strm_li(s)->bind_conf->level < ACCESS_LVL_OPER ||
(clrall && strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN)) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
for (px = proxy; px; px = px->next) {
if (clrall) {
memset(&px->be_counters, 0, sizeof(px->be_counters));
memset(&px->fe_counters, 0, sizeof(px->fe_counters));
}
else {
px->be_counters.conn_max = 0;
px->be_counters.p.http.rps_max = 0;
px->be_counters.sps_max = 0;
px->be_counters.cps_max = 0;
px->be_counters.nbpend_max = 0;
px->fe_counters.conn_max = 0;
px->fe_counters.p.http.rps_max = 0;
px->fe_counters.sps_max = 0;
px->fe_counters.cps_max = 0;
px->fe_counters.nbpend_max = 0;
}
for (sv = px->srv; sv; sv = sv->next)
if (clrall)
memset(&sv->counters, 0, sizeof(sv->counters));
else {
sv->counters.cur_sess_max = 0;
sv->counters.nbpend_max = 0;
sv->counters.sps_max = 0;
}
list_for_each_entry(li, &px->conf.listeners, by_fe)
if (li->counters) {
if (clrall)
memset(li->counters, 0, sizeof(*li->counters));
else
li->counters->conn_max = 0;
}
}
global.cps_max = 0;
global.sps_max = 0;
return 1;
}
else if (strcmp(args[1], "table") == 0) {
stats_sock_table_request(si, args, STAT_CLI_O_CLR);
/* end of processing */
return 1;
}
else if (strcmp(args[1], "map") == 0 || strcmp(args[1], "acl") == 0) {
/* Set ACL or MAP flags. */
if (args[1][0] == 'm')
appctx->ctx.map.display_flags = PAT_REF_MAP;
else
appctx->ctx.map.display_flags = PAT_REF_ACL;
/* no parameter */
if (!*args[2]) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
appctx->ctx.cli.msg = "Missing map identifier.\n";
else
appctx->ctx.cli.msg = "Missing ACL identifier.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* lookup into the refs and check the map flag */
appctx->ctx.map.ref = pat_ref_lookup_ref(args[2]);
if (!appctx->ctx.map.ref ||
!(appctx->ctx.map.ref->flags & appctx->ctx.map.display_flags)) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
appctx->ctx.cli.msg = "Unknown map identifier. Please use #<id> or <file>.\n";
else
appctx->ctx.cli.msg = "Unknown ACL identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Clear all. */
pat_ref_prune(appctx->ctx.map.ref);
/* return response */
appctx->st0 = STAT_CLI_PROMPT;
return 1;
}
else {
/* unknown "clear" argument */
return 0;
}
}
else if (strcmp(args[0], "get") == 0) {
if (strcmp(args[1], "weight") == 0) {
struct proxy *px;
struct server *sv;
/* split "backend/server" and make <line> point to server */
for (line = args[2]; *line; line++)
if (*line == '/') {
*line++ = '\0';
break;
}
if (!*line) {
appctx->ctx.cli.msg = "Require 'backend/server'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!get_backend_server(args[2], line, &px, &sv)) {
appctx->ctx.cli.msg = px ? "No such server.\n" : "No such backend.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* return server's effective weight at the moment */
snprintf(trash.str, trash.size, "%d (initial %d)\n", sv->uweight, sv->iweight);
if (bi_putstr(si_ic(si), trash.str) == -1)
si_applet_cant_put(si);
return 1;
}
else if (strcmp(args[1], "map") == 0 || strcmp(args[1], "acl") == 0) {
/* Set flags. */
if (args[1][0] == 'm')
appctx->ctx.map.display_flags = PAT_REF_MAP;
else
appctx->ctx.map.display_flags = PAT_REF_ACL;
/* No parameter. */
if (!*args[2] || !*args[3]) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
appctx->ctx.cli.msg = "Missing map identifier and/or key.\n";
else
appctx->ctx.cli.msg = "Missing ACL identifier and/or key.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* lookup into the maps */
appctx->ctx.map.ref = pat_ref_lookup_ref(args[2]);
if (!appctx->ctx.map.ref) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
appctx->ctx.cli.msg = "Unknown map identifier. Please use #<id> or <file>.\n";
else
appctx->ctx.cli.msg = "Unknown ACL identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* copy input string. The string must be allocated because
* it may be used over multiple iterations. It's released
* at the end and upon abort anyway.
*/
appctx->ctx.map.chunk.len = strlen(args[3]);
appctx->ctx.map.chunk.size = appctx->ctx.map.chunk.len + 1;
appctx->ctx.map.chunk.str = strdup(args[3]);
if (!appctx->ctx.map.chunk.str) {
appctx->ctx.cli.msg = "Out of memory error.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* prepare response */
appctx->st2 = STAT_ST_INIT;
appctx->st0 = STAT_CLI_O_MLOOK;
}
else { /* not "get weight" */
return 0;
}
}
else if (strcmp(args[0], "set") == 0) {
if (strcmp(args[1], "weight") == 0) {
struct server *sv;
const char *warning;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
warning = server_parse_weight_change_request(sv, args[3]);
if (warning) {
appctx->ctx.cli.msg = warning;
appctx->st0 = STAT_CLI_PRINT;
}
return 1;
}
else if (strcmp(args[1], "server") == 0) {
struct server *sv;
const char *warning;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
if (strcmp(args[3], "weight") == 0) {
warning = server_parse_weight_change_request(sv, args[4]);
if (warning) {
appctx->ctx.cli.msg = warning;
appctx->st0 = STAT_CLI_PRINT;
}
}
else if (strcmp(args[3], "state") == 0) {
if (strcmp(args[4], "ready") == 0)
srv_adm_set_ready(sv);
else if (strcmp(args[4], "drain") == 0)
srv_adm_set_drain(sv);
else if (strcmp(args[4], "maint") == 0)
srv_adm_set_maint(sv);
else {
appctx->ctx.cli.msg = "'set server <srv> state' expects 'ready', 'drain' and 'maint'.\n";
appctx->st0 = STAT_CLI_PRINT;
}
}
else if (strcmp(args[3], "health") == 0) {
if (sv->track) {
appctx->ctx.cli.msg = "cannot change health on a tracking server.\n";
appctx->st0 = STAT_CLI_PRINT;
}
else if (strcmp(args[4], "up") == 0) {
sv->check.health = sv->check.rise + sv->check.fall - 1;
srv_set_running(sv, "changed from CLI");
}
else if (strcmp(args[4], "stopping") == 0) {
sv->check.health = sv->check.rise + sv->check.fall - 1;
srv_set_stopping(sv, "changed from CLI");
}
else if (strcmp(args[4], "down") == 0) {
sv->check.health = 0;
srv_set_stopped(sv, "changed from CLI");
}
else {
appctx->ctx.cli.msg = "'set server <srv> health' expects 'up', 'stopping', or 'down'.\n";
appctx->st0 = STAT_CLI_PRINT;
}
}
else if (strcmp(args[3], "agent") == 0) {
if (!(sv->agent.state & CHK_ST_ENABLED)) {
appctx->ctx.cli.msg = "agent checks are not enabled on this server.\n";
appctx->st0 = STAT_CLI_PRINT;
}
else if (strcmp(args[4], "up") == 0) {
sv->agent.health = sv->agent.rise + sv->agent.fall - 1;
srv_set_running(sv, "changed from CLI");
}
else if (strcmp(args[4], "down") == 0) {
sv->agent.health = 0;
srv_set_stopped(sv, "changed from CLI");
}
else {
appctx->ctx.cli.msg = "'set server <srv> agent' expects 'up' or 'down'.\n";
appctx->st0 = STAT_CLI_PRINT;
}
}
else if (strcmp(args[3], "check-port") == 0) {
int i = 0;
if (strl2irc(args[4], strlen(args[4]), &i) != 0) {
appctx->ctx.cli.msg = "'set server <srv> check-port' expects an integer as argument.\n";
appctx->st0 = STAT_CLI_PRINT;
}
if ((i < 0) || (i > 65535)) {
appctx->ctx.cli.msg = "provided port is not valid.\n";
appctx->st0 = STAT_CLI_PRINT;
}
/* prevent the update of port to 0 if MAPPORTS are in use */
if ((sv->flags & SRV_F_MAPPORTS) && (i == 0)) {
appctx->ctx.cli.msg = "can't unset 'port' since MAPPORTS is in use.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
sv->check.port = i;
appctx->ctx.cli.msg = "health check port updated.\n";
appctx->st0 = STAT_CLI_PRINT;
}
else if (strcmp(args[3], "addr") == 0) {
char *addr = NULL;
char *port = NULL;
if (strlen(args[4]) == 0) {
appctx->ctx.cli.msg = "set server <b>/<s> addr requires an address and optionally a port.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
else {
addr = args[4];
}
if (strcmp(args[5], "port") == 0) {
port = args[6];
}
warning = update_server_addr_port(sv, addr, port, "stats socket command");
if (warning) {
appctx->ctx.cli.msg = warning;
appctx->st0 = STAT_CLI_PRINT;
}
srv_clr_admin_flag(sv, SRV_ADMF_RMAINT);
}
else {
appctx->ctx.cli.msg = "'set server <srv>' only supports 'agent', 'health', 'state', 'weight', 'addr' and 'check-port'.\n";
appctx->st0 = STAT_CLI_PRINT;
}
return 1;
}
else if (strcmp(args[1], "timeout") == 0) {
if (strcmp(args[2], "cli") == 0) {
unsigned timeout;
const char *res;
if (!*args[3]) {
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
res = parse_time_err(args[3], &timeout, TIME_UNIT_S);
if (res || timeout < 1) {
appctx->ctx.cli.msg = "Invalid timeout value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
s->req.rto = s->res.wto = 1 + MS_TO_TICKS(timeout*1000);
task_wakeup(s->task, TASK_WOKEN_MSG); // recompute timeouts
return 1;
}
else {
appctx->ctx.cli.msg = "'set timeout' only supports 'cli'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[1], "maxconn") == 0) {
if (strcmp(args[2], "frontend") == 0) {
struct proxy *px;
struct listener *l;
int v;
px = expect_frontend_admin(s, si, args[3]);
if (!px)
return 1;
if (!*args[4]) {
appctx->ctx.cli.msg = "Integer value expected.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
v = atoi(args[4]);
if (v < 0) {
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* OK, the value is fine, so we assign it to the proxy and to all of
* its listeners. The blocked ones will be dequeued.
*/
px->maxconn = v;
list_for_each_entry(l, &px->conf.listeners, by_fe) {
l->maxconn = v;
if (l->state == LI_FULL)
resume_listener(l);
}
if (px->maxconn > px->feconn && !LIST_ISEMPTY(&px->listener_queue))
dequeue_all_listeners(&px->listener_queue);
return 1;
}
else if (strcmp(args[2], "server") == 0) {
struct server *sv;
const char *warning;
sv = expect_server_admin(s, si, args[3]);
if (!sv)
return 1;
warning = server_parse_maxconn_change_request(sv, args[4]);
if (warning) {
appctx->ctx.cli.msg = warning;
appctx->st0 = STAT_CLI_PRINT;
}
return 1;
}
else if (strcmp(args[2], "global") == 0) {
int v;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!*args[3]) {
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
v = atoi(args[3]);
if (v > global.hardmaxconn) {
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* check for unlimited values */
if (v <= 0)
v = global.hardmaxconn;
global.maxconn = v;
/* Dequeues all of the listeners waiting for a resource */
if (!LIST_ISEMPTY(&global_listener_queue))
dequeue_all_listeners(&global_listener_queue);
return 1;
}
else {
appctx->ctx.cli.msg = "'set maxconn' only supports 'frontend', 'server', and 'global'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[1], "rate-limit") == 0) {
if (strcmp(args[2], "connections") == 0) {
if (strcmp(args[3], "global") == 0) {
int v;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!*args[4]) {
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
v = atoi(args[4]);
if (v < 0) {
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
global.cps_lim = v;
/* Dequeues all of the listeners waiting for a resource */
if (!LIST_ISEMPTY(&global_listener_queue))
dequeue_all_listeners(&global_listener_queue);
return 1;
}
else {
appctx->ctx.cli.msg = "'set rate-limit connections' only supports 'global'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[2], "sessions") == 0) {
if (strcmp(args[3], "global") == 0) {
int v;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!*args[4]) {
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
v = atoi(args[4]);
if (v < 0) {
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
global.sps_lim = v;
/* Dequeues all of the listeners waiting for a resource */
if (!LIST_ISEMPTY(&global_listener_queue))
dequeue_all_listeners(&global_listener_queue);
return 1;
}
else {
appctx->ctx.cli.msg = "'set rate-limit sessions' only supports 'global'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
#ifdef USE_OPENSSL
else if (strcmp(args[2], "ssl-sessions") == 0) {
if (strcmp(args[3], "global") == 0) {
int v;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!*args[4]) {
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
v = atoi(args[4]);
if (v < 0) {
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
global.ssl_lim = v;
/* Dequeues all of the listeners waiting for a resource */
if (!LIST_ISEMPTY(&global_listener_queue))
dequeue_all_listeners(&global_listener_queue);
return 1;
}
else {
appctx->ctx.cli.msg = "'set rate-limit ssl-sessions' only supports 'global'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
#endif
else if (strcmp(args[2], "http-compression") == 0) {
if (strcmp(args[3], "global") == 0) {
int v;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!*args[4]) {
appctx->ctx.cli.msg = "Expects a maximum input byte rate in kB/s.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
v = atoi(args[4]);
global.comp_rate_lim = v * 1024; /* Kilo to bytes. */
}
else {
appctx->ctx.cli.msg = "'set rate-limit http-compression' only supports 'global'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else {
appctx->ctx.cli.msg = "'set rate-limit' supports 'connections', 'sessions', 'ssl-sessions', and 'http-compression'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[1], "table") == 0) {
stats_sock_table_request(si, args, STAT_CLI_O_SET);
}
else if (strcmp(args[1], "map") == 0) {
char *err;
/* Set flags. */
appctx->ctx.map.display_flags = PAT_REF_MAP;
/* Expect three parameters: map name, key and new value. */
if (!*args[2] || !*args[3] || !*args[4]) {
appctx->ctx.cli.msg = "'set map' expects three parameters: map identifier, key and value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Lookup the reference in the maps. */
appctx->ctx.map.ref = pat_ref_lookup_ref(args[2]);
if (!appctx->ctx.map.ref) {
appctx->ctx.cli.msg = "Unknown map identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* If the entry identifier start with a '#', it is considered as
* pointer id
*/
if (args[3][0] == '#' && args[3][1] == '0' && args[3][2] == 'x') {
struct pat_ref_elt *ref;
long long int conv;
char *error;
/* Convert argument to integer value. */
conv = strtoll(&args[3][1], &error, 16);
if (*error != '\0') {
appctx->ctx.cli.msg = "Malformed identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Convert and check integer to pointer. */
ref = (struct pat_ref_elt *)(long)conv;
if ((long long int)(long)ref != conv) {
appctx->ctx.cli.msg = "Malformed identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Try to delete the entry. */
err = NULL;
if (!pat_ref_set_by_id(appctx->ctx.map.ref, ref, args[4], &err)) {
if (err)
memprintf(&err, "%s.\n", err);
appctx->ctx.cli.err = err;
appctx->st0 = STAT_CLI_PRINT_FREE;
return 1;
}
}
else {
/* Else, use the entry identifier as pattern
* string, and update the value.
*/
err = NULL;
if (!pat_ref_set(appctx->ctx.map.ref, args[3], args[4], &err)) {
if (err)
memprintf(&err, "%s.\n", err);
appctx->ctx.cli.err = err;
appctx->st0 = STAT_CLI_PRINT_FREE;
return 1;
}
}
/* The set is done, send message. */
appctx->st0 = STAT_CLI_PROMPT;
return 1;
}
#ifdef USE_OPENSSL
else if (strcmp(args[1], "ssl") == 0) {
if (strcmp(args[2], "ocsp-response") == 0) {
#if (defined SSL_CTRL_SET_TLSEXT_STATUS_REQ_CB && !defined OPENSSL_NO_OCSP)
char *err = NULL;
/* Expect one parameter: the new response in base64 encoding */
if (!*args[3]) {
appctx->ctx.cli.msg = "'set ssl ocsp-response' expects response in base64 encoding.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
trash.len = base64dec(args[3], strlen(args[3]), trash.str, trash.size);
if (trash.len < 0) {
appctx->ctx.cli.msg = "'set ssl ocsp-response' received invalid base64 encoded response.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (ssl_sock_update_ocsp_response(&trash, &err)) {
if (err) {
memprintf(&err, "%s.\n", err);
appctx->ctx.cli.err = err;
appctx->st0 = STAT_CLI_PRINT_FREE;
}
return 1;
}
appctx->ctx.cli.msg = "OCSP Response updated!";
appctx->st0 = STAT_CLI_PRINT;
return 1;
#else
appctx->ctx.cli.msg = "HAProxy was compiled against a version of OpenSSL that doesn't support OCSP stapling.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
#endif
}
else if (strcmp(args[2], "tls-key") == 0) {
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
/* Expect two parameters: the filename and the new new TLS key in encoding */
if (!*args[3] || !*args[4]) {
appctx->ctx.cli.msg = "'set ssl tls-key' expects a filename and the new TLS key in base64 encoding.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
appctx->ctx.tlskeys.ref = tlskeys_ref_lookup_ref(args[3]);
if(!appctx->ctx.tlskeys.ref) {
appctx->ctx.cli.msg = "'set ssl tls-key' unable to locate referenced filename\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
trash.len = base64dec(args[4], strlen(args[4]), trash.str, trash.size);
if (trash.len != sizeof(struct tls_sess_key)) {
appctx->ctx.cli.msg = "'set ssl tls-key' received invalid base64 encoded TLS key.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
memcpy(appctx->ctx.tlskeys.ref->tlskeys + ((appctx->ctx.tlskeys.ref->tls_ticket_enc_index + 2) % TLS_TICKETS_NO), trash.str, trash.len);
appctx->ctx.tlskeys.ref->tls_ticket_enc_index = (appctx->ctx.tlskeys.ref->tls_ticket_enc_index + 1) % TLS_TICKETS_NO;
appctx->ctx.cli.msg = "TLS ticket key updated!";
appctx->st0 = STAT_CLI_PRINT;
return 1;
#else
appctx->ctx.cli.msg = "HAProxy was compiled against a version of OpenSSL "
"that doesn't support specifying TLS ticket keys\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
#endif
}
else {
appctx->ctx.cli.msg = "'set ssl' only supports 'ocsp-response'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
#endif
else { /* unknown "set" parameter */
return 0;
}
}
else if (strcmp(args[0], "enable") == 0) {
if (strcmp(args[1], "agent") == 0) {
struct server *sv;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
if (!(sv->agent.state & CHK_ST_CONFIGURED)) {
appctx->ctx.cli.msg = "Agent was not configured on this server, cannot enable.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
sv->agent.state |= CHK_ST_ENABLED;
return 1;
}
else if (strcmp(args[1], "health") == 0) {
struct server *sv;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
if (!(sv->check.state & CHK_ST_CONFIGURED)) {
appctx->ctx.cli.msg = "Health checks are not configured on this server, cannot enable.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
sv->check.state |= CHK_ST_ENABLED;
return 1;
}
else if (strcmp(args[1], "server") == 0) {
struct server *sv;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
srv_adm_set_ready(sv);
return 1;
}
else if (strcmp(args[1], "frontend") == 0) {
struct proxy *px;
px = expect_frontend_admin(s, si, args[2]);
if (!px)
return 1;
if (px->state == PR_STSTOPPED) {
appctx->ctx.cli.msg = "Frontend was previously shut down, cannot enable.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (px->state != PR_STPAUSED) {
appctx->ctx.cli.msg = "Frontend is already enabled.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!resume_proxy(px)) {
appctx->ctx.cli.msg = "Failed to resume frontend, check logs for precise cause (port conflict?).\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
return 1;
}
else { /* unknown "enable" parameter */
appctx->ctx.cli.msg = "'enable' only supports 'agent', 'frontend', 'health', and 'server'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[0], "disable") == 0) {
if (strcmp(args[1], "agent") == 0) {
struct server *sv;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
sv->agent.state &= ~CHK_ST_ENABLED;
return 1;
}
else if (strcmp(args[1], "health") == 0) {
struct server *sv;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
sv->check.state &= ~CHK_ST_ENABLED;
return 1;
}
else if (strcmp(args[1], "server") == 0) {
struct server *sv;
sv = expect_server_admin(s, si, args[2]);
if (!sv)
return 1;
srv_adm_set_maint(sv);
return 1;
}
else if (strcmp(args[1], "frontend") == 0) {
struct proxy *px;
px = expect_frontend_admin(s, si, args[2]);
if (!px)
return 1;
if (px->state == PR_STSTOPPED) {
appctx->ctx.cli.msg = "Frontend was previously shut down, cannot disable.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (px->state == PR_STPAUSED) {
appctx->ctx.cli.msg = "Frontend is already disabled.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!pause_proxy(px)) {
appctx->ctx.cli.msg = "Failed to pause frontend, check logs for precise cause.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
return 1;
}
else { /* unknown "disable" parameter */
appctx->ctx.cli.msg = "'disable' only supports 'agent', 'frontend', 'health', and 'server'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[0], "shutdown") == 0) {
if (strcmp(args[1], "frontend") == 0) {
struct proxy *px;
px = expect_frontend_admin(s, si, args[2]);
if (!px)
return 1;
if (px->state == PR_STSTOPPED) {
appctx->ctx.cli.msg = "Frontend was already shut down.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
Warning("Proxy %s stopped (FE: %lld conns, BE: %lld conns).\n",
px->id, px->fe_counters.cum_conn, px->be_counters.cum_conn);
send_log(px, LOG_WARNING, "Proxy %s stopped (FE: %lld conns, BE: %lld conns).\n",
px->id, px->fe_counters.cum_conn, px->be_counters.cum_conn);
stop_proxy(px);
return 1;
}
else if (strcmp(args[1], "session") == 0) {
struct stream *sess, *ptr;
if (strm_li(s)->bind_conf->level < ACCESS_LVL_ADMIN) {
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
if (!*args[2]) {
appctx->ctx.cli.msg = "Session pointer expected (use 'show sess').\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
ptr = (void *)strtoul(args[2], NULL, 0);
/* first, look for the requested stream in the stream table */
list_for_each_entry(sess, &streams, list) {
if (sess == ptr)
break;
}
/* do we have the stream ? */
if (sess != ptr) {
appctx->ctx.cli.msg = "No such session (use 'show sess').\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
stream_shutdown(sess, SF_ERR_KILLED);
return 1;
}
else if (strcmp(args[1], "sessions") == 0) {
if (strcmp(args[2], "server") == 0) {
struct server *sv;
struct stream *sess, *sess_bck;
sv = expect_server_admin(s, si, args[3]);
if (!sv)
return 1;
/* kill all the stream that are on this server */
list_for_each_entry_safe(sess, sess_bck, &sv->actconns, by_srv)
if (sess->srv_conn == sv)
stream_shutdown(sess, SF_ERR_KILLED);
return 1;
}
else {
appctx->ctx.cli.msg = "'shutdown sessions' only supports 'server'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else { /* unknown "disable" parameter */
appctx->ctx.cli.msg = "'shutdown' only supports 'frontend', 'session' and 'sessions'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[0], "del") == 0) {
if (strcmp(args[1], "map") == 0 || strcmp(args[1], "acl") == 0) {
if (args[1][0] == 'm')
appctx->ctx.map.display_flags = PAT_REF_MAP;
else
appctx->ctx.map.display_flags = PAT_REF_ACL;
/* Expect two parameters: map name and key. */
if (appctx->ctx.map.display_flags == PAT_REF_MAP) {
if (!*args[2] || !*args[3]) {
appctx->ctx.cli.msg = "This command expects two parameters: map identifier and key.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else {
if (!*args[2] || !*args[3]) {
appctx->ctx.cli.msg = "This command expects two parameters: ACL identifier and key.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
/* Lookup the reference in the maps. */
appctx->ctx.map.ref = pat_ref_lookup_ref(args[2]);
if (!appctx->ctx.map.ref ||
!(appctx->ctx.map.ref->flags & appctx->ctx.map.display_flags)) {
appctx->ctx.cli.msg = "Unknown map identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* If the entry identifier start with a '#', it is considered as
* pointer id
*/
if (args[3][0] == '#' && args[3][1] == '0' && args[3][2] == 'x') {
struct pat_ref_elt *ref;
long long int conv;
char *error;
/* Convert argument to integer value. */
conv = strtoll(&args[3][1], &error, 16);
if (*error != '\0') {
appctx->ctx.cli.msg = "Malformed identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Convert and check integer to pointer. */
ref = (struct pat_ref_elt *)(long)conv;
if ((long long int)(long)ref != conv) {
appctx->ctx.cli.msg = "Malformed identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Try to delete the entry. */
if (!pat_ref_delete_by_id(appctx->ctx.map.ref, ref)) {
/* The entry is not found, send message. */
appctx->ctx.cli.msg = "Key not found.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else {
/* Else, use the entry identifier as pattern
* string and try to delete the entry.
*/
if (!pat_ref_delete(appctx->ctx.map.ref, args[3])) {
/* The entry is not found, send message. */
appctx->ctx.cli.msg = "Key not found.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
/* The deletion is done, send message. */
appctx->st0 = STAT_CLI_PROMPT;
return 1;
}
else { /* unknown "del" parameter */
appctx->ctx.cli.msg = "'del' only supports 'map' or 'acl'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else if (strcmp(args[0], "add") == 0) {
if (strcmp(args[1], "map") == 0 ||
strcmp(args[1], "acl") == 0) {
int ret;
char *err;
/* Set flags. */
if (args[1][0] == 'm')
appctx->ctx.map.display_flags = PAT_REF_MAP;
else
appctx->ctx.map.display_flags = PAT_REF_ACL;
/* If the keywork is "map", we expect three parameters, if it
* is "acl", we expect only two parameters
*/
if (appctx->ctx.map.display_flags == PAT_REF_MAP) {
if (!*args[2] || !*args[3] || !*args[4]) {
appctx->ctx.cli.msg = "'add map' expects three parameters: map identifier, key and value.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else {
if (!*args[2] || !*args[3]) {
appctx->ctx.cli.msg = "'add acl' expects two parameters: ACL identifier and pattern.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
/* Lookup for the reference. */
appctx->ctx.map.ref = pat_ref_lookup_ref(args[2]);
if (!appctx->ctx.map.ref) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
appctx->ctx.cli.msg = "Unknown map identifier. Please use #<id> or <file>.\n";
else
appctx->ctx.cli.msg = "Unknown ACL identifier. Please use #<id> or <file>.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* The command "add acl" is prohibited if the reference
* use samples.
*/
if ((appctx->ctx.map.display_flags & PAT_REF_ACL) &&
(appctx->ctx.map.ref->flags & PAT_REF_SMP)) {
appctx->ctx.cli.msg = "This ACL is shared with a map containing samples. "
"You must use the command 'add map' to add values.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
/* Add value. */
err = NULL;
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
ret = pat_ref_add(appctx->ctx.map.ref, args[3], args[4], &err);
else
ret = pat_ref_add(appctx->ctx.map.ref, args[3], NULL, &err);
if (!ret) {
if (err)
memprintf(&err, "%s.\n", err);
appctx->ctx.cli.err = err;
appctx->st0 = STAT_CLI_PRINT_FREE;
return 1;
}
/* The add is done, send message. */
appctx->st0 = STAT_CLI_PROMPT;
return 1;
}
else { /* unknown "del" parameter */
appctx->ctx.cli.msg = "'add' only supports 'map'.\n";
appctx->st0 = STAT_CLI_PRINT;
return 1;
}
}
else { /* not "show" nor "clear" nor "get" nor "set" nor "enable" nor "disable" */
return 0;
}
return 1;
}
/* This I/O handler runs as an applet embedded in a stream interface. It is
* used to processes I/O from/to the stats unix socket. The system relies on a
* state machine handling requests and various responses. We read a request,
* then we process it and send the response, and we possibly display a prompt.
* Then we can read again. The state is stored in appctx->st0 and is one of the
* STAT_CLI_* constants. appctx->st1 is used to indicate whether prompt is enabled
* or not.
*/
static void cli_io_handler(struct appctx *appctx)
{
struct stream_interface *si = appctx->owner;
struct channel *req = si_oc(si);
struct channel *res = si_ic(si);
int reql;
int len;
if (unlikely(si->state == SI_ST_DIS || si->state == SI_ST_CLO))
goto out;
while (1) {
if (appctx->st0 == STAT_CLI_INIT) {
/* Stats output not initialized yet */
memset(&appctx->ctx.stats, 0, sizeof(appctx->ctx.stats));
appctx->st0 = STAT_CLI_GETREQ;
}
else if (appctx->st0 == STAT_CLI_END) {
/* Let's close for real now. We just close the request
* side, the conditions below will complete if needed.
*/
si_shutw(si);
break;
}
else if (appctx->st0 == STAT_CLI_GETREQ) {
/* ensure we have some output room left in the event we
* would want to return some info right after parsing.
*/
if (buffer_almost_full(si_ib(si))) {
si_applet_cant_put(si);
break;
}
reql = bo_getline(si_oc(si), trash.str, trash.size);
if (reql <= 0) { /* closed or EOL not found */
if (reql == 0)
break;
appctx->st0 = STAT_CLI_END;
continue;
}
/* seek for a possible unescaped semi-colon. If we find
* one, we replace it with an LF and skip only this part.
*/
for (len = 0; len < reql; len++) {
if (trash.str[len] == '\\') {
len++;
continue;
}
if (trash.str[len] == ';') {
trash.str[len] = '\n';
reql = len + 1;
break;
}
}
/* now it is time to check that we have a full line,
* remove the trailing \n and possibly \r, then cut the
* line.
*/
len = reql - 1;
if (trash.str[len] != '\n') {
appctx->st0 = STAT_CLI_END;
continue;
}
if (len && trash.str[len-1] == '\r')
len--;
trash.str[len] = '\0';
appctx->st0 = STAT_CLI_PROMPT;
if (len) {
if (strcmp(trash.str, "quit") == 0) {
appctx->st0 = STAT_CLI_END;
continue;
}
else if (strcmp(trash.str, "prompt") == 0)
appctx->st1 = !appctx->st1;
else if (strcmp(trash.str, "help") == 0 ||
!stats_sock_parse_request(si, trash.str)) {
cli_gen_usage_msg();
if (dynamic_usage_msg)
appctx->ctx.cli.msg = dynamic_usage_msg;
else
appctx->ctx.cli.msg = stats_sock_usage_msg;
appctx->st0 = STAT_CLI_PRINT;
}
/* NB: stats_sock_parse_request() may have put
* another STAT_CLI_O_* into appctx->st0.
*/
}
else if (!appctx->st1) {
/* if prompt is disabled, print help on empty lines,
* so that the user at least knows how to enable
* prompt and find help.
*/
cli_gen_usage_msg();
if (dynamic_usage_msg)
appctx->ctx.cli.msg = dynamic_usage_msg;
else
appctx->ctx.cli.msg = stats_sock_usage_msg;
appctx->st0 = STAT_CLI_PRINT;
}
/* re-adjust req buffer */
bo_skip(si_oc(si), reql);
req->flags |= CF_READ_DONTWAIT; /* we plan to read small requests */
}
else { /* output functions */
switch (appctx->st0) {
case STAT_CLI_PROMPT:
break;
case STAT_CLI_PRINT:
if (bi_putstr(si_ic(si), appctx->ctx.cli.msg) != -1)
appctx->st0 = STAT_CLI_PROMPT;
else
si_applet_cant_put(si);
break;
case STAT_CLI_PRINT_FREE:
if (bi_putstr(si_ic(si), appctx->ctx.cli.err) != -1) {
free(appctx->ctx.cli.err);
appctx->st0 = STAT_CLI_PROMPT;
}
else
si_applet_cant_put(si);
break;
case STAT_CLI_O_BACKEND:
if (stats_dump_backend_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_INFO:
if (stats_dump_info_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_SERVERS_STATE:
if (stats_dump_servers_state_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_STAT:
if (stats_dump_stat_to_buffer(si, NULL))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_RESOLVERS:
if (stats_dump_resolvers_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_SESS:
if (stats_dump_sess_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_ERR: /* errors dump */
if (stats_dump_errors_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_TAB:
case STAT_CLI_O_CLR:
if (stats_table_request(si, appctx->st0))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_PATS:
if (stats_pats_list(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_PAT:
if (stats_pat_list(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_MLOOK:
if (stats_map_lookup(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_POOLS:
if (stats_dump_pools_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
case STAT_CLI_O_TLSK:
if (stats_tlskeys_list(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_TLSK_ENT:
if (stats_tlskeys_list(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
#endif
case STAT_CLI_O_ENV: /* environment dump */
if (stats_dump_env_to_buffer(si))
appctx->st0 = STAT_CLI_PROMPT;
break;
case STAT_CLI_O_CUSTOM: /* use custom pointer */
if (appctx->io_handler)
if (appctx->io_handler(appctx)) {
appctx->st0 = STAT_CLI_PROMPT;
if (appctx->io_release) {
appctx->io_release(appctx);
appctx->io_release = NULL;
}
}
break;
default: /* abnormal state */
si->flags |= SI_FL_ERR;
break;
}
/* The post-command prompt is either LF alone or LF + '> ' in interactive mode */
if (appctx->st0 == STAT_CLI_PROMPT) {
if (bi_putstr(si_ic(si), appctx->st1 ? "\n> " : "\n") != -1)
appctx->st0 = STAT_CLI_GETREQ;
else
si_applet_cant_put(si);
}
/* If the output functions are still there, it means they require more room. */
if (appctx->st0 >= STAT_CLI_OUTPUT)
break;
/* Now we close the output if one of the writers did so,
* or if we're not in interactive mode and the request
* buffer is empty. This still allows pipelined requests
* to be sent in non-interactive mode.
*/
if ((res->flags & (CF_SHUTW|CF_SHUTW_NOW)) || (!appctx->st1 && !req->buf->o)) {
appctx->st0 = STAT_CLI_END;
continue;
}
/* switch state back to GETREQ to read next requests */
appctx->st0 = STAT_CLI_GETREQ;
}
}
if ((res->flags & CF_SHUTR) && (si->state == SI_ST_EST)) {
DPRINTF(stderr, "%s@%d: si to buf closed. req=%08x, res=%08x, st=%d\n",
__FUNCTION__, __LINE__, req->flags, res->flags, si->state);
/* Other side has closed, let's abort if we have no more processing to do
* and nothing more to consume. This is comparable to a broken pipe, so
* we forward the close to the request side so that it flows upstream to
* the client.
*/
si_shutw(si);
}
if ((req->flags & CF_SHUTW) && (si->state == SI_ST_EST) && (appctx->st0 < STAT_CLI_OUTPUT)) {
DPRINTF(stderr, "%s@%d: buf to si closed. req=%08x, res=%08x, st=%d\n",
__FUNCTION__, __LINE__, req->flags, res->flags, si->state);
/* We have no more processing to do, and nothing more to send, and
* the client side has closed. So we'll forward this state downstream
* on the response buffer.
*/
si_shutr(si);
res->flags |= CF_READ_NULL;
}
out:
DPRINTF(stderr, "%s@%d: st=%d, rqf=%x, rpf=%x, rqh=%d, rqs=%d, rh=%d, rs=%d\n",
__FUNCTION__, __LINE__,
si->state, req->flags, res->flags, req->buf->i, req->buf->o, res->buf->i, res->buf->o);
}
/* Emits a stats field without any surrounding element and properly encoded to
* resist CSV output. Returns non-zero on success, 0 if the buffer is full.
*/
int stats_emit_raw_data_field(struct chunk *out, const struct field *f)
{
switch (field_format(f, 0)) {
case FF_EMPTY: return 1;
case FF_S32: return chunk_appendf(out, "%d", f->u.s32);
case FF_U32: return chunk_appendf(out, "%u", f->u.u32);
case FF_S64: return chunk_appendf(out, "%lld", (long long)f->u.s64);
case FF_U64: return chunk_appendf(out, "%llu", (unsigned long long)f->u.u64);
case FF_STR: return csv_enc_append(field_str(f, 0), 1, out) != NULL;
default: return chunk_appendf(out, "[INCORRECT_FIELD_TYPE_%08x]", f->type);
}
}
/* Emits a stats field prefixed with its type. No CSV encoding is prepared, the
* output is supposed to be used on its own line. Returns non-zero on success, 0
* if the buffer is full.
*/
int stats_emit_typed_data_field(struct chunk *out, const struct field *f)
{
switch (field_format(f, 0)) {
case FF_EMPTY: return 1;
case FF_S32: return chunk_appendf(out, "s32:%d", f->u.s32);
case FF_U32: return chunk_appendf(out, "u32:%u", f->u.u32);
case FF_S64: return chunk_appendf(out, "s64:%lld", (long long)f->u.s64);
case FF_U64: return chunk_appendf(out, "u64:%llu", (unsigned long long)f->u.u64);
case FF_STR: return chunk_appendf(out, "str:%s", field_str(f, 0));
default: return chunk_appendf(out, "%08x:?", f->type);
}
}
/* Emits an encoding of the field type on 3 characters followed by a delimiter.
* Returns non-zero on success, 0 if the buffer is full.
*/
int stats_emit_field_tags(struct chunk *out, const struct field *f, char delim)
{
char origin, nature, scope;
switch (field_origin(f, 0)) {
case FO_METRIC: origin = 'M'; break;
case FO_STATUS: origin = 'S'; break;
case FO_KEY: origin = 'K'; break;
case FO_CONFIG: origin = 'C'; break;
case FO_PRODUCT: origin = 'P'; break;
default: origin = '?'; break;
}
switch (field_nature(f, 0)) {
case FN_GAUGE: nature = 'G'; break;
case FN_LIMIT: nature = 'L'; break;
case FN_MIN: nature = 'm'; break;
case FN_MAX: nature = 'M'; break;
case FN_RATE: nature = 'R'; break;
case FN_COUNTER: nature = 'C'; break;
case FN_DURATION: nature = 'D'; break;
case FN_AGE: nature = 'A'; break;
case FN_TIME: nature = 'T'; break;
case FN_NAME: nature = 'N'; break;
case FN_OUTPUT: nature = 'O'; break;
case FN_AVG: nature = 'a'; break;
default: nature = '?'; break;
}
switch (field_scope(f, 0)) {
case FS_PROCESS: scope = 'P'; break;
case FS_SERVICE: scope = 'S'; break;
case FS_SYSTEM: scope = 's'; break;
case FS_CLUSTER: scope = 'C'; break;
default: scope = '?'; break;
}
return chunk_appendf(out, "%c%c%c%c", origin, nature, scope, delim);
}
/* Dump all fields from <info> into <out> using the "show info" format (name: value) */
static int stats_dump_info_fields(struct chunk *out, const struct field *info)
{
int field;
for (field = 0; field < INF_TOTAL_FIELDS; field++) {
if (!field_format(info, field))
continue;
if (!chunk_appendf(out, "%s: ", info_field_names[field]))
return 0;
if (!stats_emit_raw_data_field(out, &info[field]))
return 0;
if (!chunk_strcat(out, "\n"))
return 0;
}
return 1;
}
/* Dump all fields from <info> into <out> using the "show info typed" format */
static int stats_dump_typed_info_fields(struct chunk *out, const struct field *info)
{
int field;
for (field = 0; field < INF_TOTAL_FIELDS; field++) {
if (!field_format(info, field))
continue;
if (!chunk_appendf(out, "%d.%s.%u:", field, info_field_names[field], info[INF_PROCESS_NUM].u.u32))
return 0;
if (!stats_emit_field_tags(out, &info[field], ':'))
return 0;
if (!stats_emit_typed_data_field(out, &info[field]))
return 0;
if (!chunk_strcat(out, "\n"))
return 0;
}
return 1;
}
/* Fill <info> with HAProxy global info. <info> is preallocated
* array of length <len>. The length of the aray must be
* INF_TOTAL_FIELDS. If this length is less then this value, the
* function returns 0, otherwise, it returns 1.
*/
int stats_fill_info(struct field *info, int len)
{
unsigned int up = (now.tv_sec - start_date.tv_sec);
struct chunk *out = get_trash_chunk();
#ifdef USE_OPENSSL
int ssl_sess_rate = read_freq_ctr(&global.ssl_per_sec);
int ssl_key_rate = read_freq_ctr(&global.ssl_fe_keys_per_sec);
int ssl_reuse = 0;
if (ssl_key_rate < ssl_sess_rate) {
/* count the ssl reuse ratio and avoid overflows in both directions */
ssl_reuse = 100 - (100 * ssl_key_rate + (ssl_sess_rate - 1) / 2) / ssl_sess_rate;
}
#endif
if (len < INF_TOTAL_FIELDS)
return 0;
chunk_reset(out);
memset(info, 0, sizeof(*info) * len);
info[INF_NAME] = mkf_str(FO_PRODUCT|FN_OUTPUT|FS_SERVICE, PRODUCT_NAME);
info[INF_VERSION] = mkf_str(FO_PRODUCT|FN_OUTPUT|FS_SERVICE, HAPROXY_VERSION);
info[INF_RELEASE_DATE] = mkf_str(FO_PRODUCT|FN_OUTPUT|FS_SERVICE, HAPROXY_DATE);
info[INF_NBPROC] = mkf_u32(FO_CONFIG|FS_SERVICE, global.nbproc);
info[INF_PROCESS_NUM] = mkf_u32(FO_KEY, relative_pid);
info[INF_PID] = mkf_u32(FO_STATUS, pid);
info[INF_UPTIME] = mkf_str(FN_DURATION, chunk_newstr(out));
chunk_appendf(out, "%ud %uh%02um%02us", up / 86400, (up % 86400) / 3600, (up % 3600) / 60, (up % 60));
info[INF_UPTIME_SEC] = mkf_u32(FN_DURATION, up);
info[INF_MEMMAX_MB] = mkf_u32(FO_CONFIG|FN_LIMIT, global.rlimit_memmax);
info[INF_POOL_ALLOC_MB] = mkf_u32(0, (unsigned)(pool_total_allocated() / 1048576L));
info[INF_POOL_USED_MB] = mkf_u32(0, (unsigned)(pool_total_used() / 1048576L));
info[INF_POOL_FAILED] = mkf_u32(FN_COUNTER, pool_total_failures());
info[INF_ULIMIT_N] = mkf_u32(FO_CONFIG|FN_LIMIT, global.rlimit_nofile);
info[INF_MAXSOCK] = mkf_u32(FO_CONFIG|FN_LIMIT, global.maxsock);
info[INF_MAXCONN] = mkf_u32(FO_CONFIG|FN_LIMIT, global.maxconn);
info[INF_HARD_MAXCONN] = mkf_u32(FO_CONFIG|FN_LIMIT, global.hardmaxconn);
info[INF_CURR_CONN] = mkf_u32(0, actconn);
info[INF_CUM_CONN] = mkf_u32(FN_COUNTER, totalconn);
info[INF_CUM_REQ] = mkf_u32(FN_COUNTER, global.req_count);
#ifdef USE_OPENSSL
info[INF_MAX_SSL_CONNS] = mkf_u32(FN_MAX, global.maxsslconn);
info[INF_CURR_SSL_CONNS] = mkf_u32(0, sslconns);
info[INF_CUM_SSL_CONNS] = mkf_u32(FN_COUNTER, totalsslconns);
#endif
info[INF_MAXPIPES] = mkf_u32(FO_CONFIG|FN_LIMIT, global.maxpipes);
info[INF_PIPES_USED] = mkf_u32(0, pipes_used);
info[INF_PIPES_FREE] = mkf_u32(0, pipes_free);
info[INF_CONN_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&global.conn_per_sec));
info[INF_CONN_RATE_LIMIT] = mkf_u32(FO_CONFIG|FN_LIMIT, global.cps_lim);
info[INF_MAX_CONN_RATE] = mkf_u32(FN_MAX, global.cps_max);
info[INF_SESS_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&global.sess_per_sec));
info[INF_SESS_RATE_LIMIT] = mkf_u32(FO_CONFIG|FN_LIMIT, global.sps_lim);
info[INF_MAX_SESS_RATE] = mkf_u32(FN_RATE, global.sps_max);
#ifdef USE_OPENSSL
info[INF_SSL_RATE] = mkf_u32(FN_RATE, ssl_sess_rate);
info[INF_SSL_RATE_LIMIT] = mkf_u32(FO_CONFIG|FN_LIMIT, global.ssl_lim);
info[INF_MAX_SSL_RATE] = mkf_u32(FN_MAX, global.ssl_max);
info[INF_SSL_FRONTEND_KEY_RATE] = mkf_u32(0, ssl_key_rate);
info[INF_SSL_FRONTEND_MAX_KEY_RATE] = mkf_u32(FN_MAX, global.ssl_fe_keys_max);
info[INF_SSL_FRONTEND_SESSION_REUSE_PCT] = mkf_u32(0, ssl_reuse);
info[INF_SSL_BACKEND_KEY_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&global.ssl_be_keys_per_sec));
info[INF_SSL_BACKEND_MAX_KEY_RATE] = mkf_u32(FN_MAX, global.ssl_be_keys_max);
info[INF_SSL_CACHE_LOOKUPS] = mkf_u32(FN_COUNTER, global.shctx_lookups);
info[INF_SSL_CACHE_MISSES] = mkf_u32(FN_COUNTER, global.shctx_misses);
#endif
info[INF_COMPRESS_BPS_IN] = mkf_u32(FN_RATE, read_freq_ctr(&global.comp_bps_in));
info[INF_COMPRESS_BPS_OUT] = mkf_u32(FN_RATE, read_freq_ctr(&global.comp_bps_out));
info[INF_COMPRESS_BPS_RATE_LIM] = mkf_u32(FO_CONFIG|FN_LIMIT, global.comp_rate_lim);
#ifdef USE_ZLIB
info[INF_ZLIB_MEM_USAGE] = mkf_u32(0, zlib_used_memory);
info[INF_MAX_ZLIB_MEM_USAGE] = mkf_u32(FO_CONFIG|FN_LIMIT, global.maxzlibmem);
#endif
info[INF_TASKS] = mkf_u32(0, nb_tasks_cur);
info[INF_RUN_QUEUE] = mkf_u32(0, run_queue_cur);
info[INF_IDLE_PCT] = mkf_u32(FN_AVG, idle_pct);
info[INF_NODE] = mkf_str(FO_CONFIG|FN_OUTPUT|FS_SERVICE, global.node);
if (global.desc)
info[INF_DESCRIPTION] = mkf_str(FO_CONFIG|FN_OUTPUT|FS_SERVICE, global.desc);
return 1;
}
/* This function dumps information onto the stream interface's read buffer.
* It returns 0 as long as it does not complete, non-zero upon completion.
* No state is used.
*/
static int stats_dump_info_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
if (!stats_fill_info(info, INF_TOTAL_FIELDS))
return 0;
chunk_reset(&trash);
if (appctx->ctx.stats.flags & STAT_FMT_TYPED)
stats_dump_typed_info_fields(&trash, info);
else
stats_dump_info_fields(&trash, info);
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
return 1;
}
/* dumps server state information into <buf> for all the servers found in <backend>
* These information are all the parameters which may change during HAProxy runtime.
* By default, we only export to the last known server state file format.
* These information can be used at next startup to recover same level of server state.
*/
static int dump_servers_state(struct stream_interface *si, struct chunk *buf)
{
struct appctx *appctx = __objt_appctx(si->end);
struct server *srv;
char srv_addr[INET6_ADDRSTRLEN + 1];
time_t srv_time_since_last_change;
int bk_f_forced_id, srv_f_forced_id;
/* we don't want to report any state if the backend is not enabled on this process */
if (appctx->ctx.server_state.px->bind_proc && !(appctx->ctx.server_state.px->bind_proc & (1UL << (relative_pid - 1))))
return 1;
if (!appctx->ctx.server_state.sv)
appctx->ctx.server_state.sv = appctx->ctx.server_state.px->srv;
for (; appctx->ctx.server_state.sv != NULL; appctx->ctx.server_state.sv = srv->next) {
srv = appctx->ctx.server_state.sv;
srv_addr[0] = '\0';
switch (srv->addr.ss_family) {
case AF_INET:
inet_ntop(srv->addr.ss_family, &((struct sockaddr_in *)&srv->addr)->sin_addr,
srv_addr, INET_ADDRSTRLEN + 1);
break;
case AF_INET6:
inet_ntop(srv->addr.ss_family, &((struct sockaddr_in6 *)&srv->addr)->sin6_addr,
srv_addr, INET6_ADDRSTRLEN + 1);
break;
}
srv_time_since_last_change = now.tv_sec - srv->last_change;
bk_f_forced_id = appctx->ctx.server_state.px->options & PR_O_FORCED_ID ? 1 : 0;
srv_f_forced_id = srv->flags & SRV_F_FORCED_ID ? 1 : 0;
chunk_appendf(buf,
"%d %s "
"%d %s %s "
"%d %d %d %d %ld "
"%d %d %d %d %d "
"%d %d"
"\n",
appctx->ctx.server_state.px->uuid, appctx->ctx.server_state.px->id,
srv->puid, srv->id, srv_addr,
srv->state, srv->admin, srv->uweight, srv->iweight, (long int)srv_time_since_last_change,
srv->check.status, srv->check.result, srv->check.health, srv->check.state, srv->agent.state,
bk_f_forced_id, srv_f_forced_id);
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
return 1;
}
/* Parses backend list and simply report backend names */
static int stats_dump_backend_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
extern struct proxy *proxy;
struct proxy *curproxy;
chunk_reset(&trash);
if (!appctx->ctx.be.px) {
chunk_printf(&trash, "# name\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->ctx.be.px = proxy;
}
for (; appctx->ctx.be.px != NULL; appctx->ctx.be.px = curproxy->next) {
curproxy = appctx->ctx.be.px;
/* looking for backends only */
if (!(curproxy->cap & PR_CAP_BE))
continue;
/* we don't want to list a backend which is bound to this process */
if (curproxy->bind_proc && !(curproxy->bind_proc & (1UL << (relative_pid - 1))))
continue;
chunk_appendf(&trash, "%s\n", curproxy->id);
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
return 1;
}
/* Parses backend list or simply use backend name provided by the user to return
* states of servers to stdout.
*/
static int stats_dump_servers_state_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
extern struct proxy *proxy;
struct proxy *curproxy;
chunk_reset(&trash);
if (appctx->st2 == STAT_ST_INIT) {
if (!appctx->ctx.server_state.px)
appctx->ctx.server_state.px = proxy;
appctx->st2 = STAT_ST_HEAD;
}
if (appctx->st2 == STAT_ST_HEAD) {
chunk_printf(&trash, "%d\n# %s\n", SRV_STATE_FILE_VERSION, SRV_STATE_FILE_FIELD_NAMES);
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->st2 = STAT_ST_INFO;
}
/* STAT_ST_INFO */
for (; appctx->ctx.server_state.px != NULL; appctx->ctx.server_state.px = curproxy->next) {
curproxy = appctx->ctx.server_state.px;
/* servers are only in backends */
if (curproxy->cap & PR_CAP_BE) {
if (!dump_servers_state(si, &trash))
return 0;
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
/* only the selected proxy is dumped */
if (appctx->ctx.server_state.iid)
break;
}
return 1;
}
/* This function dumps memory usage information onto the stream interface's
* read buffer. It returns 0 as long as it does not complete, non-zero upon
* completion. No state is used.
*/
static int stats_dump_pools_to_buffer(struct stream_interface *si)
{
dump_pools_to_trash();
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
return 1;
}
/* Dump all fields from <stats> into <out> using CSV format */
static int stats_dump_fields_csv(struct chunk *out, const struct field *stats)
{
int field;
for (field = 0; field < ST_F_TOTAL_FIELDS; field++) {
if (!stats_emit_raw_data_field(out, &stats[field]))
return 0;
if (!chunk_strcat(out, ","))
return 0;
}
chunk_strcat(out, "\n");
return 1;
}
/* Dump all fields from <stats> into <out> using a typed "field:desc:type:value" format */
static int stats_dump_fields_typed(struct chunk *out, const struct field *stats)
{
int field;
for (field = 0; field < ST_F_TOTAL_FIELDS; field++) {
if (!stats[field].type)
continue;
chunk_appendf(out, "%c.%u.%u.%d.%s.%u:",
stats[ST_F_TYPE].u.u32 == STATS_TYPE_FE ? 'F' :
stats[ST_F_TYPE].u.u32 == STATS_TYPE_BE ? 'B' :
stats[ST_F_TYPE].u.u32 == STATS_TYPE_SO ? 'L' :
stats[ST_F_TYPE].u.u32 == STATS_TYPE_SV ? 'S' :
'?',
stats[ST_F_IID].u.u32, stats[ST_F_SID].u.u32,
field, stat_field_names[field], stats[ST_F_PID].u.u32);
if (!stats_emit_field_tags(out, &stats[field], ':'))
return 0;
if (!stats_emit_typed_data_field(out, &stats[field]))
return 0;
if (!chunk_strcat(out, "\n"))
return 0;
}
return 1;
}
/* Dump all fields from <stats> into <out> using the HTML format. A column is
* reserved for the checkbox is ST_SHOWADMIN is set in <flags>. Some extra info
* are provided if ST_SHLGNDS is present in <flags>.
*/
static int stats_dump_fields_html(struct chunk *out, const struct field *stats, unsigned int flags)
{
struct chunk src;
if (stats[ST_F_TYPE].u.u32 == STATS_TYPE_FE) {
chunk_appendf(out,
/* name, queue */
"<tr class=\"frontend\">");
if (flags & ST_SHOWADMIN) {
/* Column sub-heading for Enable or Disable server */
chunk_appendf(out, "<td></td>");
}
chunk_appendf(out,
"<td class=ac>"
"<a name=\"%s/Frontend\"></a>"
"<a class=lfsb href=\"#%s/Frontend\">Frontend</a></td>"
"<td colspan=3></td>"
"",
field_str(stats, ST_F_PXNAME), field_str(stats, ST_F_PXNAME));
chunk_appendf(out,
/* sessions rate : current */
"<td><u>%s<div class=tips><table class=det>"
"<tr><th>Current connection rate:</th><td>%s/s</td></tr>"
"<tr><th>Current session rate:</th><td>%s/s</td></tr>"
"",
U2H(stats[ST_F_RATE].u.u32),
U2H(stats[ST_F_CONN_RATE].u.u32),
U2H(stats[ST_F_RATE].u.u32));
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0)
chunk_appendf(out,
"<tr><th>Current request rate:</th><td>%s/s</td></tr>",
U2H(stats[ST_F_REQ_RATE].u.u32));
chunk_appendf(out,
"</table></div></u></td>"
/* sessions rate : max */
"<td><u>%s<div class=tips><table class=det>"
"<tr><th>Max connection rate:</th><td>%s/s</td></tr>"
"<tr><th>Max session rate:</th><td>%s/s</td></tr>"
"",
U2H(stats[ST_F_RATE_MAX].u.u32),
U2H(stats[ST_F_CONN_RATE_MAX].u.u32),
U2H(stats[ST_F_RATE_MAX].u.u32));
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0)
chunk_appendf(out,
"<tr><th>Max request rate:</th><td>%s/s</td></tr>",
U2H(stats[ST_F_REQ_RATE_MAX].u.u32));
chunk_appendf(out,
"</table></div></u></td>"
/* sessions rate : limit */
"<td>%s</td>",
LIM2A(stats[ST_F_RATE_LIM].u.u32, "-"));
chunk_appendf(out,
/* sessions: current, max, limit, total */
"<td>%s</td><td>%s</td><td>%s</td>"
"<td><u>%s<div class=tips><table class=det>"
"<tr><th>Cum. connections:</th><td>%s</td></tr>"
"<tr><th>Cum. sessions:</th><td>%s</td></tr>"
"",
U2H(stats[ST_F_SCUR].u.u32), U2H(stats[ST_F_SMAX].u.u32), U2H(stats[ST_F_SLIM].u.u32),
U2H(stats[ST_F_STOT].u.u64),
U2H(stats[ST_F_CONN_TOT].u.u64),
U2H(stats[ST_F_STOT].u.u64));
/* http response (via hover): 1xx, 2xx, 3xx, 4xx, 5xx, other */
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0) {
chunk_appendf(out,
"<tr><th>Cum. HTTP requests:</th><td>%s</td></tr>"
"<tr><th>- HTTP 1xx responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 2xx responses:</th><td>%s</td></tr>"
"<tr><th>&nbsp;&nbsp;Compressed 2xx:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- HTTP 3xx responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 4xx responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 5xx responses:</th><td>%s</td></tr>"
"<tr><th>- other responses:</th><td>%s</td></tr>"
"<tr><th>Intercepted requests:</th><td>%s</td></tr>"
"",
U2H(stats[ST_F_REQ_TOT].u.u64),
U2H(stats[ST_F_HRSP_1XX].u.u64),
U2H(stats[ST_F_HRSP_2XX].u.u64),
U2H(stats[ST_F_COMP_RSP].u.u64),
stats[ST_F_HRSP_2XX].u.u64 ?
(int)(100 * stats[ST_F_COMP_RSP].u.u64 / stats[ST_F_HRSP_2XX].u.u64) : 0,
U2H(stats[ST_F_HRSP_3XX].u.u64),
U2H(stats[ST_F_HRSP_4XX].u.u64),
U2H(stats[ST_F_HRSP_5XX].u.u64),
U2H(stats[ST_F_HRSP_OTHER].u.u64),
U2H(stats[ST_F_INTERCEPTED].u.u64));
}
chunk_appendf(out,
"</table></div></u></td>"
/* sessions: lbtot, lastsess */
"<td></td><td></td>"
/* bytes : in */
"<td>%s</td>"
"",
U2H(stats[ST_F_BIN].u.u64));
chunk_appendf(out,
/* bytes:out + compression stats (via hover): comp_in, comp_out, comp_byp */
"<td>%s%s<div class=tips><table class=det>"
"<tr><th>Response bytes in:</th><td>%s</td></tr>"
"<tr><th>Compression in:</th><td>%s</td></tr>"
"<tr><th>Compression out:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>Compression bypass:</th><td>%s</td></tr>"
"<tr><th>Total bytes saved:</th><td>%s</td><td>(%d%%)</td></tr>"
"</table></div>%s</td>",
(stats[ST_F_COMP_IN].u.u64 || stats[ST_F_COMP_BYP].u.u64) ? "<u>":"",
U2H(stats[ST_F_BOUT].u.u64),
U2H(stats[ST_F_BOUT].u.u64),
U2H(stats[ST_F_COMP_IN].u.u64),
U2H(stats[ST_F_COMP_OUT].u.u64),
stats[ST_F_COMP_IN].u.u64 ? (int)(stats[ST_F_COMP_OUT].u.u64 * 100 / stats[ST_F_COMP_IN].u.u64) : 0,
U2H(stats[ST_F_COMP_BYP].u.u64),
U2H(stats[ST_F_COMP_IN].u.u64 - stats[ST_F_COMP_OUT].u.u64),
stats[ST_F_BOUT].u.u64 ? (int)((stats[ST_F_COMP_IN].u.u64 - stats[ST_F_COMP_OUT].u.u64) * 100 / stats[ST_F_BOUT].u.u64) : 0,
(stats[ST_F_COMP_IN].u.u64 || stats[ST_F_COMP_BYP].u.u64) ? "</u>":"");
chunk_appendf(out,
/* denied: req, resp */
"<td>%s</td><td>%s</td>"
/* errors : request, connect, response */
"<td>%s</td><td></td><td></td>"
/* warnings: retries, redispatches */
"<td></td><td></td>"
/* server status : reflect frontend status */
"<td class=ac>%s</td>"
/* rest of server: nothing */
"<td class=ac colspan=8></td></tr>"
"",
U2H(stats[ST_F_DREQ].u.u64), U2H(stats[ST_F_DRESP].u.u64),
U2H(stats[ST_F_EREQ].u.u64),
field_str(stats, ST_F_STATUS));
}
else if (stats[ST_F_TYPE].u.u32 == STATS_TYPE_SO) {
chunk_appendf(out, "<tr class=socket>");
if (flags & ST_SHOWADMIN) {
/* Column sub-heading for Enable or Disable server */
chunk_appendf(out, "<td></td>");
}
chunk_appendf(out,
/* frontend name, listener name */
"<td class=ac><a name=\"%s/+%s\"></a>%s"
"<a class=lfsb href=\"#%s/+%s\">%s</a>"
"",
field_str(stats, ST_F_PXNAME), field_str(stats, ST_F_SVNAME),
(flags & ST_SHLGNDS)?"<u>":"",
field_str(stats, ST_F_PXNAME), field_str(stats, ST_F_SVNAME), field_str(stats, ST_F_SVNAME));
if (flags & ST_SHLGNDS) {
chunk_appendf(out, "<div class=tips>");
if (isdigit(*field_str(stats, ST_F_ADDR)))
chunk_appendf(out, "IPv4: %s, ", field_str(stats, ST_F_ADDR));
else if (*field_str(stats, ST_F_ADDR) == '[')
chunk_appendf(out, "IPv6: %s, ", field_str(stats, ST_F_ADDR));
else if (*field_str(stats, ST_F_ADDR))
chunk_appendf(out, "%s, ", field_str(stats, ST_F_ADDR));
/* id */
chunk_appendf(out, "id: %d</div>", stats[ST_F_SID].u.u32);
}
chunk_appendf(out,
/* queue */
"%s</td><td colspan=3></td>"
/* sessions rate: current, max, limit */
"<td colspan=3>&nbsp;</td>"
/* sessions: current, max, limit, total, lbtot, lastsess */
"<td>%s</td><td>%s</td><td>%s</td>"
"<td>%s</td><td>&nbsp;</td><td>&nbsp;</td>"
/* bytes: in, out */
"<td>%s</td><td>%s</td>"
"",
(flags & ST_SHLGNDS)?"</u>":"",
U2H(stats[ST_F_SCUR].u.u32), U2H(stats[ST_F_SMAX].u.u32), U2H(stats[ST_F_SLIM].u.u32),
U2H(stats[ST_F_STOT].u.u64), U2H(stats[ST_F_BIN].u.u64), U2H(stats[ST_F_BOUT].u.u64));
chunk_appendf(out,
/* denied: req, resp */
"<td>%s</td><td>%s</td>"
/* errors: request, connect, response */
"<td>%s</td><td></td><td></td>"
/* warnings: retries, redispatches */
"<td></td><td></td>"
/* server status: reflect listener status */
"<td class=ac>%s</td>"
/* rest of server: nothing */
"<td class=ac colspan=8></td></tr>"
"",
U2H(stats[ST_F_DREQ].u.u64), U2H(stats[ST_F_DRESP].u.u64),
U2H(stats[ST_F_EREQ].u.u64),
field_str(stats, ST_F_STATUS));
}
else if (stats[ST_F_TYPE].u.u32 == STATS_TYPE_SV) {
const char *style;
/* determine the style to use depending on the server's state,
* its health and weight. There isn't a 1-to-1 mapping between
* state and styles for the cases where the server is (still)
* up. The reason is that we don't want to report nolb and
* drain with the same color.
*/
if (strcmp(field_str(stats, ST_F_STATUS), "DOWN") == 0 ||
strcmp(field_str(stats, ST_F_STATUS), "DOWN (agent)") == 0) {
style = "down";
}
else if (strcmp(field_str(stats, ST_F_STATUS), "DOWN ") == 0) {
style = "going_up";
}
else if (strcmp(field_str(stats, ST_F_STATUS), "NOLB ") == 0) {
style = "going_down";
}
else if (strcmp(field_str(stats, ST_F_STATUS), "NOLB") == 0) {
style = "nolb";
}
else if (strcmp(field_str(stats, ST_F_STATUS), "no check") == 0) {
style = "no_check";
}
else if (!stats[ST_F_CHKFAIL].type ||
stats[ST_F_CHECK_HEALTH].u.u32 == stats[ST_F_CHECK_RISE].u.u32 + stats[ST_F_CHECK_FALL].u.u32 - 1) {
/* no check or max health = UP */
if (stats[ST_F_WEIGHT].u.u32)
style = "up";
else
style = "draining";
}
else {
style = "going_down";
}
if (memcmp(field_str(stats, ST_F_STATUS), "MAINT", 5) == 0)
chunk_appendf(out, "<tr class=\"maintain\">");
else
chunk_appendf(out,
"<tr class=\"%s_%s\">",
(stats[ST_F_BCK].u.u32) ? "backup" : "active", style);
if (flags & ST_SHOWADMIN)
chunk_appendf(out,
"<td><input type=\"checkbox\" name=\"s\" value=\"%s\"></td>",
field_str(stats, ST_F_SVNAME));
chunk_appendf(out,
"<td class=ac><a name=\"%s/%s\"></a>%s"
"<a class=lfsb href=\"#%s/%s\">%s</a>"
"",
field_str(stats, ST_F_PXNAME), field_str(stats, ST_F_SVNAME),
(flags & ST_SHLGNDS) ? "<u>" : "",
field_str(stats, ST_F_PXNAME), field_str(stats, ST_F_SVNAME), field_str(stats, ST_F_SVNAME));
if (flags & ST_SHLGNDS) {
chunk_appendf(out, "<div class=tips>");
if (isdigit(*field_str(stats, ST_F_ADDR)))
chunk_appendf(out, "IPv4: %s, ", field_str(stats, ST_F_ADDR));
else if (*field_str(stats, ST_F_ADDR) == '[')
chunk_appendf(out, "IPv6: %s, ", field_str(stats, ST_F_ADDR));
else if (*field_str(stats, ST_F_ADDR))
chunk_appendf(out, "%s, ", field_str(stats, ST_F_ADDR));
/* id */
chunk_appendf(out, "id: %d", stats[ST_F_SID].u.u32);
/* cookie */
if (stats[ST_F_COOKIE].type) {
chunk_appendf(out, ", cookie: '");
chunk_initstr(&src, field_str(stats, ST_F_COOKIE));
chunk_htmlencode(out, &src);
chunk_appendf(out, "'");
}
chunk_appendf(out, "</div>");
}
chunk_appendf(out,
/* queue : current, max, limit */
"%s</td><td>%s</td><td>%s</td><td>%s</td>"
/* sessions rate : current, max, limit */
"<td>%s</td><td>%s</td><td></td>"
"",
(flags & ST_SHLGNDS) ? "</u>" : "",
U2H(stats[ST_F_QCUR].u.u32), U2H(stats[ST_F_QMAX].u.u32), LIM2A(stats[ST_F_QLIMIT].u.u32, "-"),
U2H(stats[ST_F_RATE].u.u32), U2H(stats[ST_F_RATE_MAX].u.u32));
chunk_appendf(out,
/* sessions: current, max, limit, total */
"<td>%s</td><td>%s</td><td>%s</td>"
"<td><u>%s<div class=tips><table class=det>"
"<tr><th>Cum. sessions:</th><td>%s</td></tr>"
"",
U2H(stats[ST_F_SCUR].u.u32), U2H(stats[ST_F_SMAX].u.u32), LIM2A(stats[ST_F_SLIM].u.u32, "-"),
U2H(stats[ST_F_STOT].u.u64),
U2H(stats[ST_F_STOT].u.u64));
/* http response (via hover): 1xx, 2xx, 3xx, 4xx, 5xx, other */
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0) {
unsigned long long tot;
tot = stats[ST_F_HRSP_OTHER].u.u64;
tot += stats[ST_F_HRSP_1XX].u.u64;
tot += stats[ST_F_HRSP_2XX].u.u64;
tot += stats[ST_F_HRSP_3XX].u.u64;
tot += stats[ST_F_HRSP_4XX].u.u64;
tot += stats[ST_F_HRSP_5XX].u.u64;
chunk_appendf(out,
"<tr><th>Cum. HTTP responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 1xx responses:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- HTTP 2xx responses:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- HTTP 3xx responses:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- HTTP 4xx responses:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- HTTP 5xx responses:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- other responses:</th><td>%s</td><td>(%d%%)</td></tr>"
"",
U2H(tot),
U2H(stats[ST_F_HRSP_1XX].u.u64), tot ? (int)(100 * stats[ST_F_HRSP_1XX].u.u64 / tot) : 0,
U2H(stats[ST_F_HRSP_2XX].u.u64), tot ? (int)(100 * stats[ST_F_HRSP_2XX].u.u64 / tot) : 0,
U2H(stats[ST_F_HRSP_3XX].u.u64), tot ? (int)(100 * stats[ST_F_HRSP_3XX].u.u64 / tot) : 0,
U2H(stats[ST_F_HRSP_4XX].u.u64), tot ? (int)(100 * stats[ST_F_HRSP_4XX].u.u64 / tot) : 0,
U2H(stats[ST_F_HRSP_5XX].u.u64), tot ? (int)(100 * stats[ST_F_HRSP_5XX].u.u64 / tot) : 0,
U2H(stats[ST_F_HRSP_OTHER].u.u64), tot ? (int)(100 * stats[ST_F_HRSP_OTHER].u.u64 / tot) : 0);
}
chunk_appendf(out, "<tr><th colspan=3>Avg over last 1024 success. conn.</th></tr>");
chunk_appendf(out, "<tr><th>- Queue time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_QTIME].u.u32));
chunk_appendf(out, "<tr><th>- Connect time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_CTIME].u.u32));
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0)
chunk_appendf(out, "<tr><th>- Response time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_RTIME].u.u32));
chunk_appendf(out, "<tr><th>- Total time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_TTIME].u.u32));
chunk_appendf(out,
"</table></div></u></td>"
/* sessions: lbtot, last */
"<td>%s</td><td>%s</td>",
U2H(stats[ST_F_LBTOT].u.u64),
human_time(stats[ST_F_LASTSESS].u.s32, 1));
chunk_appendf(out,
/* bytes : in, out */
"<td>%s</td><td>%s</td>"
/* denied: req, resp */
"<td></td><td>%s</td>"
/* errors : request, connect */
"<td></td><td>%s</td>"
/* errors : response */
"<td><u>%s<div class=tips>Connection resets during transfers: %lld client, %lld server</div></u></td>"
/* warnings: retries, redispatches */
"<td>%lld</td><td>%lld</td>"
"",
U2H(stats[ST_F_BIN].u.u64), U2H(stats[ST_F_BOUT].u.u64),
U2H(stats[ST_F_DRESP].u.u64),
U2H(stats[ST_F_ECON].u.u64),
U2H(stats[ST_F_ERESP].u.u64),
(long long)stats[ST_F_CLI_ABRT].u.u64,
(long long)stats[ST_F_SRV_ABRT].u.u64,
(long long)stats[ST_F_WRETR].u.u64,
(long long)stats[ST_F_WREDIS].u.u64);
/* status, last change */
chunk_appendf(out, "<td class=ac>");
/* FIXME!!!!
* LASTCHG should contain the last change for *this* server and must be computed
* properly above, as was done below, ie: this server if maint, otherwise ref server
* if tracking. Note that ref is either local or remote depending on tracking.
*/
if (memcmp(field_str(stats, ST_F_STATUS), "MAINT", 5) == 0) {
chunk_appendf(out, "%s MAINT", human_time(stats[ST_F_LASTCHG].u.u32, 1));
}
else if (memcmp(field_str(stats, ST_F_STATUS), "no check", 5) == 0) {
chunk_strcat(out, "<i>no check</i>");
}
else {
chunk_appendf(out, "%s %s", human_time(stats[ST_F_LASTCHG].u.u32, 1), field_str(stats, ST_F_STATUS));
if (memcmp(field_str(stats, ST_F_STATUS), "DOWN", 4) == 0) {
if (stats[ST_F_CHECK_HEALTH].u.u32)
chunk_strcat(out, " &uarr;");
}
else if (stats[ST_F_CHECK_HEALTH].u.u32 < stats[ST_F_CHECK_RISE].u.u32 + stats[ST_F_CHECK_FALL].u.u32 - 1)
chunk_strcat(out, " &darr;");
}
if (memcmp(field_str(stats, ST_F_STATUS), "DOWN", 4) == 0 &&
stats[ST_F_AGENT_STATUS].type && !stats[ST_F_AGENT_HEALTH].u.u32) {
chunk_appendf(out,
"</td><td class=ac><u> %s",
field_str(stats, ST_F_AGENT_STATUS));
if (stats[ST_F_AGENT_CODE].type)
chunk_appendf(out, "/%d", stats[ST_F_AGENT_CODE].u.u32);
if (stats[ST_F_AGENT_DURATION].type)
chunk_appendf(out, " in %lums", (long)stats[ST_F_AGENT_DURATION].u.u64);
chunk_appendf(out, "<div class=tips>%s", field_str(stats, ST_F_AGENT_DESC));
if (*field_str(stats, ST_F_LAST_AGT)) {
chunk_appendf(out, ": ");
chunk_initstr(&src, field_str(stats, ST_F_LAST_AGT));
chunk_htmlencode(out, &src);
}
chunk_appendf(out, "</div></u>");
}
else if (stats[ST_F_CHECK_STATUS].type) {
chunk_appendf(out,
"</td><td class=ac><u> %s",
field_str(stats, ST_F_CHECK_STATUS));
if (stats[ST_F_CHECK_CODE].type)
chunk_appendf(out, "/%d", stats[ST_F_CHECK_CODE].u.u32);
if (stats[ST_F_CHECK_DURATION].type)
chunk_appendf(out, " in %lums", (long)stats[ST_F_CHECK_DURATION].u.u64);
chunk_appendf(out, "<div class=tips>%s", field_str(stats, ST_F_CHECK_DESC));
if (*field_str(stats, ST_F_LAST_CHK)) {
chunk_appendf(out, ": ");
chunk_initstr(&src, field_str(stats, ST_F_LAST_CHK));
chunk_htmlencode(out, &src);
}
chunk_appendf(out, "</div></u>");
}
else
chunk_appendf(out, "</td><td>");
chunk_appendf(out,
/* weight */
"</td><td class=ac>%d</td>"
/* act, bck */
"<td class=ac>%s</td><td class=ac>%s</td>"
"",
stats[ST_F_WEIGHT].u.u32,
stats[ST_F_BCK].u.u32 ? "-" : "Y",
stats[ST_F_BCK].u.u32 ? "Y" : "-");
/* check failures: unique, fatal, down time */
if (strcmp(field_str(stats, ST_F_STATUS), "MAINT (resolution)") == 0) {
chunk_appendf(out, "<td class=ac colspan=3>resolution</td>");
}
else if (stats[ST_F_CHKFAIL].type) {
chunk_appendf(out, "<td><u>%lld", (long long)stats[ST_F_CHKFAIL].u.u64);
if (stats[ST_F_HANAFAIL].type)
chunk_appendf(out, "/%lld", (long long)stats[ST_F_HANAFAIL].u.u64);
chunk_appendf(out,
"<div class=tips>Failed Health Checks%s</div></u></td>"
"<td>%lld</td><td>%s</td>"
"",
stats[ST_F_HANAFAIL].type ? "/Health Analyses" : "",
(long long)stats[ST_F_CHKDOWN].u.u64, human_time(stats[ST_F_DOWNTIME].u.u32, 1));
}
else if (strcmp(field_str(stats, ST_F_STATUS), "MAINT") != 0 && field_format(stats, ST_F_TRACKED) == FF_STR) {
/* tracking a server (hence inherited maint would appear as "MAINT (via...)" */
chunk_appendf(out,
"<td class=ac colspan=3><a class=lfsb href=\"#%s\">via %s</a></td>",
field_str(stats, ST_F_TRACKED), field_str(stats, ST_F_TRACKED));
}
else
chunk_appendf(out, "<td colspan=3></td>");
/* throttle */
if (stats[ST_F_THROTTLE].type)
chunk_appendf(out, "<td class=ac>%d %%</td></tr>\n", stats[ST_F_THROTTLE].u.u32);
else
chunk_appendf(out, "<td class=ac>-</td></tr>\n");
}
else if (stats[ST_F_TYPE].u.u32 == STATS_TYPE_BE) {
chunk_appendf(out, "<tr class=\"backend\">");
if (flags & ST_SHOWADMIN) {
/* Column sub-heading for Enable or Disable server */
chunk_appendf(out, "<td></td>");
}
chunk_appendf(out,
"<td class=ac>"
/* name */
"%s<a name=\"%s/Backend\"></a>"
"<a class=lfsb href=\"#%s/Backend\">Backend</a>"
"",
(flags & ST_SHLGNDS)?"<u>":"",
field_str(stats, ST_F_PXNAME), field_str(stats, ST_F_PXNAME));
if (flags & ST_SHLGNDS) {
/* balancing */
chunk_appendf(out, "<div class=tips>balancing: %s",
field_str(stats, ST_F_ALGO));
/* cookie */
if (stats[ST_F_COOKIE].type) {
chunk_appendf(out, ", cookie: '");
chunk_initstr(&src, field_str(stats, ST_F_COOKIE));
chunk_htmlencode(out, &src);
chunk_appendf(out, "'");
}
chunk_appendf(out, "</div>");
}
chunk_appendf(out,
"%s</td>"
/* queue : current, max */
"<td>%s</td><td>%s</td><td></td>"
/* sessions rate : current, max, limit */
"<td>%s</td><td>%s</td><td></td>"
"",
(flags & ST_SHLGNDS)?"</u>":"",
U2H(stats[ST_F_QCUR].u.u32), U2H(stats[ST_F_QMAX].u.u32),
U2H(stats[ST_F_RATE].u.u32), U2H(stats[ST_F_RATE_MAX].u.u32));
chunk_appendf(out,
/* sessions: current, max, limit, total */
"<td>%s</td><td>%s</td><td>%s</td>"
"<td><u>%s<div class=tips><table class=det>"
"<tr><th>Cum. sessions:</th><td>%s</td></tr>"
"",
U2H(stats[ST_F_SCUR].u.u32), U2H(stats[ST_F_SCUR].u.u32), U2H(stats[ST_F_SLIM].u.u32),
U2H(stats[ST_F_STOT].u.u64),
U2H(stats[ST_F_STOT].u.u64));
/* http response (via hover): 1xx, 2xx, 3xx, 4xx, 5xx, other */
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0) {
chunk_appendf(out,
"<tr><th>Cum. HTTP requests:</th><td>%s</td></tr>"
"<tr><th>- HTTP 1xx responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 2xx responses:</th><td>%s</td></tr>"
"<tr><th>&nbsp;&nbsp;Compressed 2xx:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>- HTTP 3xx responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 4xx responses:</th><td>%s</td></tr>"
"<tr><th>- HTTP 5xx responses:</th><td>%s</td></tr>"
"<tr><th>- other responses:</th><td>%s</td></tr>"
"<tr><th>Intercepted requests:</th><td>%s</td></tr>"
"<tr><th colspan=3>Avg over last 1024 success. conn.</th></tr>"
"",
U2H(stats[ST_F_REQ_TOT].u.u64),
U2H(stats[ST_F_HRSP_1XX].u.u64),
U2H(stats[ST_F_HRSP_2XX].u.u64),
U2H(stats[ST_F_COMP_RSP].u.u64),
stats[ST_F_HRSP_2XX].u.u64 ?
(int)(100 * stats[ST_F_COMP_RSP].u.u64 / stats[ST_F_HRSP_2XX].u.u64) : 0,
U2H(stats[ST_F_HRSP_3XX].u.u64),
U2H(stats[ST_F_HRSP_4XX].u.u64),
U2H(stats[ST_F_HRSP_5XX].u.u64),
U2H(stats[ST_F_HRSP_OTHER].u.u64),
U2H(stats[ST_F_INTERCEPTED].u.u64));
}
chunk_appendf(out, "<tr><th>- Queue time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_QTIME].u.u32));
chunk_appendf(out, "<tr><th>- Connect time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_CTIME].u.u32));
if (strcmp(field_str(stats, ST_F_MODE), "http") == 0)
chunk_appendf(out, "<tr><th>- Response time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_RTIME].u.u32));
chunk_appendf(out, "<tr><th>- Total time:</th><td>%s</td><td>ms</td></tr>", U2H(stats[ST_F_TTIME].u.u32));
chunk_appendf(out,
"</table></div></u></td>"
/* sessions: lbtot, last */
"<td>%s</td><td>%s</td>"
/* bytes: in */
"<td>%s</td>"
"",
U2H(stats[ST_F_LBTOT].u.u64),
human_time(stats[ST_F_LASTSESS].u.s32, 1),
U2H(stats[ST_F_BIN].u.u64));
chunk_appendf(out,
/* bytes:out + compression stats (via hover): comp_in, comp_out, comp_byp */
"<td>%s%s<div class=tips><table class=det>"
"<tr><th>Response bytes in:</th><td>%s</td></tr>"
"<tr><th>Compression in:</th><td>%s</td></tr>"
"<tr><th>Compression out:</th><td>%s</td><td>(%d%%)</td></tr>"
"<tr><th>Compression bypass:</th><td>%s</td></tr>"
"<tr><th>Total bytes saved:</th><td>%s</td><td>(%d%%)</td></tr>"
"</table></div>%s</td>",
(stats[ST_F_COMP_IN].u.u64 || stats[ST_F_COMP_BYP].u.u64) ? "<u>":"",
U2H(stats[ST_F_BOUT].u.u64),
U2H(stats[ST_F_BOUT].u.u64),
U2H(stats[ST_F_COMP_IN].u.u64),
U2H(stats[ST_F_COMP_OUT].u.u64),
stats[ST_F_COMP_IN].u.u64 ? (int)(stats[ST_F_COMP_OUT].u.u64 * 100 / stats[ST_F_COMP_IN].u.u64) : 0,
U2H(stats[ST_F_COMP_BYP].u.u64),
U2H(stats[ST_F_COMP_IN].u.u64 - stats[ST_F_COMP_OUT].u.u64),
stats[ST_F_BOUT].u.u64 ? (int)((stats[ST_F_COMP_IN].u.u64 - stats[ST_F_COMP_OUT].u.u64) * 100 / stats[ST_F_BOUT].u.u64) : 0,
(stats[ST_F_COMP_IN].u.u64 || stats[ST_F_COMP_BYP].u.u64) ? "</u>":"");
chunk_appendf(out,
/* denied: req, resp */
"<td>%s</td><td>%s</td>"
/* errors : request, connect */
"<td></td><td>%s</td>"
/* errors : response */
"<td><u>%s<div class=tips>Connection resets during transfers: %lld client, %lld server</div></u></td>"
/* warnings: retries, redispatches */
"<td>%lld</td><td>%lld</td>"
/* backend status: reflect backend status (up/down): we display UP
* if the backend has known working servers or if it has no server at
* all (eg: for stats). Then we display the total weight, number of
* active and backups. */
"<td class=ac>%s %s</td><td class=ac>&nbsp;</td><td class=ac>%d</td>"
"<td class=ac>%d</td><td class=ac>%d</td>"
"",
U2H(stats[ST_F_DREQ].u.u64), U2H(stats[ST_F_DRESP].u.u64),
U2H(stats[ST_F_ECON].u.u64),
U2H(stats[ST_F_ERESP].u.u64),
(long long)stats[ST_F_CLI_ABRT].u.u64,
(long long)stats[ST_F_SRV_ABRT].u.u64,
(long long)stats[ST_F_WRETR].u.u64, (long long)stats[ST_F_WREDIS].u.u64,
human_time(stats[ST_F_LASTCHG].u.u32, 1),
strcmp(field_str(stats, ST_F_STATUS), "DOWN") ? field_str(stats, ST_F_STATUS) : "<font color=\"red\"><b>DOWN</b></font>",
stats[ST_F_WEIGHT].u.u32,
stats[ST_F_ACT].u.u32, stats[ST_F_BCK].u.u32);
chunk_appendf(out,
/* rest of backend: nothing, down transitions, total downtime, throttle */
"<td class=ac>&nbsp;</td><td>%d</td>"
"<td>%s</td>"
"<td></td>"
"</tr>",
stats[ST_F_CHKDOWN].u.u32,
stats[ST_F_DOWNTIME].type ? human_time(stats[ST_F_DOWNTIME].u.u32, 1) : "&nbsp;");
}
return 1;
}
static int stats_dump_one_line(const struct field *stats, unsigned int flags, struct proxy *px, struct appctx *appctx)
{
if ((px->cap & PR_CAP_BE) && px->srv && (appctx->ctx.stats.flags & STAT_ADMIN))
flags |= ST_SHOWADMIN;
if (appctx->ctx.stats.flags & STAT_FMT_HTML)
return stats_dump_fields_html(&trash, stats, flags);
else if (appctx->ctx.stats.flags & STAT_FMT_TYPED)
return stats_dump_fields_typed(&trash, stats);
else
return stats_dump_fields_csv(&trash, stats);
}
/* Fill <stats> with the frontend statistics. <stats> is
* preallocated array of length <len>. The length of the array
* must be at least ST_F_TOTAL_FIELDS. If this length is less then
* this value, the function returns 0, otherwise, it returns 1.
*/
int stats_fill_fe_stats(struct proxy *px, struct field *stats, int len)
{
if (len < ST_F_TOTAL_FIELDS)
return 0;
memset(stats, 0, sizeof(*stats) * len);
stats[ST_F_PXNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, px->id);
stats[ST_F_SVNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, "FRONTEND");
stats[ST_F_MODE] = mkf_str(FO_CONFIG|FS_SERVICE, proxy_mode_str(px->mode));
stats[ST_F_SCUR] = mkf_u32(0, px->feconn);
stats[ST_F_SMAX] = mkf_u32(FN_MAX, px->fe_counters.conn_max);
stats[ST_F_SLIM] = mkf_u32(FO_CONFIG|FN_LIMIT, px->maxconn);
stats[ST_F_STOT] = mkf_u64(FN_COUNTER, px->fe_counters.cum_sess);
stats[ST_F_BIN] = mkf_u64(FN_COUNTER, px->fe_counters.bytes_in);
stats[ST_F_BOUT] = mkf_u64(FN_COUNTER, px->fe_counters.bytes_out);
stats[ST_F_DREQ] = mkf_u64(FN_COUNTER, px->fe_counters.denied_req);
stats[ST_F_DRESP] = mkf_u64(FN_COUNTER, px->fe_counters.denied_resp);
stats[ST_F_EREQ] = mkf_u64(FN_COUNTER, px->fe_counters.failed_req);
stats[ST_F_DCON] = mkf_u64(FN_COUNTER, px->fe_counters.denied_conn);
stats[ST_F_DSES] = mkf_u64(FN_COUNTER, px->fe_counters.denied_sess);
stats[ST_F_STATUS] = mkf_str(FO_STATUS, px->state == PR_STREADY ? "OPEN" : px->state == PR_STFULL ? "FULL" : "STOP");
stats[ST_F_PID] = mkf_u32(FO_KEY, relative_pid);
stats[ST_F_IID] = mkf_u32(FO_KEY|FS_SERVICE, px->uuid);
stats[ST_F_SID] = mkf_u32(FO_KEY|FS_SERVICE, 0);
stats[ST_F_TYPE] = mkf_u32(FO_CONFIG|FS_SERVICE, STATS_TYPE_FE);
stats[ST_F_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&px->fe_sess_per_sec));
stats[ST_F_RATE_LIM] = mkf_u32(FO_CONFIG|FN_LIMIT, px->fe_sps_lim);
stats[ST_F_RATE_MAX] = mkf_u32(FN_MAX, px->fe_counters.sps_max);
/* http response: 1xx, 2xx, 3xx, 4xx, 5xx, other */
if (px->mode == PR_MODE_HTTP) {
stats[ST_F_HRSP_1XX] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.rsp[1]);
stats[ST_F_HRSP_2XX] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.rsp[2]);
stats[ST_F_HRSP_3XX] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.rsp[3]);
stats[ST_F_HRSP_4XX] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.rsp[4]);
stats[ST_F_HRSP_5XX] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.rsp[5]);
stats[ST_F_HRSP_OTHER] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.rsp[0]);
stats[ST_F_INTERCEPTED] = mkf_u64(FN_COUNTER, px->fe_counters.intercepted_req);
}
/* requests : req_rate, req_rate_max, req_tot, */
stats[ST_F_REQ_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&px->fe_req_per_sec));
stats[ST_F_REQ_RATE_MAX] = mkf_u32(FN_MAX, px->fe_counters.p.http.rps_max);
stats[ST_F_REQ_TOT] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.cum_req);
/* compression: in, out, bypassed, responses */
stats[ST_F_COMP_IN] = mkf_u64(FN_COUNTER, px->fe_counters.comp_in);
stats[ST_F_COMP_OUT] = mkf_u64(FN_COUNTER, px->fe_counters.comp_out);
stats[ST_F_COMP_BYP] = mkf_u64(FN_COUNTER, px->fe_counters.comp_byp);
stats[ST_F_COMP_RSP] = mkf_u64(FN_COUNTER, px->fe_counters.p.http.comp_rsp);
/* connections : conn_rate, conn_rate_max, conn_tot, conn_max */
stats[ST_F_CONN_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&px->fe_conn_per_sec));
stats[ST_F_CONN_RATE_MAX] = mkf_u32(FN_MAX, px->fe_counters.cps_max);
stats[ST_F_CONN_TOT] = mkf_u64(FN_COUNTER, px->fe_counters.cum_conn);
return 1;
}
/* Dumps a frontend's line to the trash for the current proxy <px> and uses
* the state from stream interface <si>. The caller is responsible for clearing
* the trash if needed. Returns non-zero if it emits anything, zero otherwise.
*/
static int stats_dump_fe_stats(struct stream_interface *si, struct proxy *px)
{
struct appctx *appctx = __objt_appctx(si->end);
if (!(px->cap & PR_CAP_FE))
return 0;
if ((appctx->ctx.stats.flags & STAT_BOUND) && !(appctx->ctx.stats.type & (1 << STATS_TYPE_FE)))
return 0;
if (!stats_fill_fe_stats(px, stats, ST_F_TOTAL_FIELDS))
return 0;
return stats_dump_one_line(stats, 0, px, appctx);
}
/* Fill <stats> with the listener statistics. <stats> is
* preallocated array of length <len>. The length of the array
* must be at least ST_F_TOTAL_FIELDS. If this length is less
* then this value, the function returns 0, otherwise, it
* returns 1. <flags> can take the value ST_SHLGNDS.
*/
int stats_fill_li_stats(struct proxy *px, struct listener *l, int flags,
struct field *stats, int len)
{
struct chunk *out = get_trash_chunk();
if (len < ST_F_TOTAL_FIELDS)
return 0;
if (!l->counters)
return 0;
chunk_reset(out);
memset(stats, 0, sizeof(*stats) * len);
stats[ST_F_PXNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, px->id);
stats[ST_F_SVNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, l->name);
stats[ST_F_MODE] = mkf_str(FO_CONFIG|FS_SERVICE, proxy_mode_str(px->mode));
stats[ST_F_SCUR] = mkf_u32(0, l->nbconn);
stats[ST_F_SMAX] = mkf_u32(FN_MAX, l->counters->conn_max);
stats[ST_F_SLIM] = mkf_u32(FO_CONFIG|FN_LIMIT, l->maxconn);
stats[ST_F_STOT] = mkf_u64(FN_COUNTER, l->counters->cum_conn);
stats[ST_F_BIN] = mkf_u64(FN_COUNTER, l->counters->bytes_in);
stats[ST_F_BOUT] = mkf_u64(FN_COUNTER, l->counters->bytes_out);
stats[ST_F_DREQ] = mkf_u64(FN_COUNTER, l->counters->denied_req);
stats[ST_F_DRESP] = mkf_u64(FN_COUNTER, l->counters->denied_resp);
stats[ST_F_EREQ] = mkf_u64(FN_COUNTER, l->counters->failed_req);
stats[ST_F_DCON] = mkf_u64(FN_COUNTER, l->counters->denied_conn);
stats[ST_F_DSES] = mkf_u64(FN_COUNTER, l->counters->denied_sess);
stats[ST_F_STATUS] = mkf_str(FO_STATUS, (l->nbconn < l->maxconn) ? (l->state == LI_LIMITED) ? "WAITING" : "OPEN" : "FULL");
stats[ST_F_PID] = mkf_u32(FO_KEY, relative_pid);
stats[ST_F_IID] = mkf_u32(FO_KEY|FS_SERVICE, px->uuid);
stats[ST_F_SID] = mkf_u32(FO_KEY|FS_SERVICE, l->luid);
stats[ST_F_TYPE] = mkf_u32(FO_CONFIG|FS_SERVICE, STATS_TYPE_SO);
if (flags & ST_SHLGNDS) {
char str[INET6_ADDRSTRLEN];
int port;
port = get_host_port(&l->addr);
switch (addr_to_str(&l->addr, str, sizeof(str))) {
case AF_INET:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, chunk_newstr(out));
chunk_appendf(out, "%s:%d", str, port);
break;
case AF_INET6:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, chunk_newstr(out));
chunk_appendf(out, "[%s]:%d", str, port);
break;
case AF_UNIX:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, "unix");
break;
case -1:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, chunk_newstr(out));
chunk_strcat(out, strerror(errno));
break;
default: /* address family not supported */
break;
}
}
return 1;
}
/* Dumps a line for listener <l> and proxy <px> to the trash and uses the state
* from stream interface <si>, and stats flags <flags>. The caller is responsible
* for clearing the trash if needed. Returns non-zero if it emits anything, zero
* otherwise.
*/
static int stats_dump_li_stats(struct stream_interface *si, struct proxy *px, struct listener *l, int flags)
{
struct appctx *appctx = __objt_appctx(si->end);
if (!stats_fill_li_stats(px, l, flags, stats, ST_F_TOTAL_FIELDS))
return 0;
return stats_dump_one_line(stats, flags, px, appctx);
}
enum srv_stats_state {
SRV_STATS_STATE_DOWN = 0,
SRV_STATS_STATE_DOWN_AGENT,
SRV_STATS_STATE_GOING_UP,
SRV_STATS_STATE_UP_GOING_DOWN,
SRV_STATS_STATE_UP,
SRV_STATS_STATE_NOLB_GOING_DOWN,
SRV_STATS_STATE_NOLB,
SRV_STATS_STATE_DRAIN_GOING_DOWN,
SRV_STATS_STATE_DRAIN,
SRV_STATS_STATE_DRAIN_AGENT,
SRV_STATS_STATE_NO_CHECK,
SRV_STATS_STATE_COUNT, /* Must be last */
};
static const char *srv_hlt_st[SRV_STATS_STATE_COUNT] = {
[SRV_STATS_STATE_DOWN] = "DOWN",
[SRV_STATS_STATE_DOWN_AGENT] = "DOWN (agent)",
[SRV_STATS_STATE_GOING_UP] = "DOWN %d/%d",
[SRV_STATS_STATE_UP_GOING_DOWN] = "UP %d/%d",
[SRV_STATS_STATE_UP] = "UP",
[SRV_STATS_STATE_NOLB_GOING_DOWN] = "NOLB %d/%d",
[SRV_STATS_STATE_NOLB] = "NOLB",
[SRV_STATS_STATE_DRAIN_GOING_DOWN] = "DRAIN %d/%d",
[SRV_STATS_STATE_DRAIN] = "DRAIN",
[SRV_STATS_STATE_DRAIN_AGENT] = "DRAIN (agent)",
[SRV_STATS_STATE_NO_CHECK] = "no check"
};
/* Fill <stats> with the server statistics. <stats> is
* preallocated array of length <len>. The length of the array
* must be at least ST_F_TOTAL_FIELDS. If this length is less
* then this value, the function returns 0, otherwise, it
* returns 1. <flags> can take the value ST_SHLGNDS.
*/
int stats_fill_sv_stats(struct proxy *px, struct server *sv, int flags,
struct field *stats, int len)
{
struct server *via, *ref;
char str[INET6_ADDRSTRLEN];
struct chunk *out = get_trash_chunk();
enum srv_stats_state state;
char *fld_status;
if (len < ST_F_TOTAL_FIELDS)
return 0;
memset(stats, 0, sizeof(*stats) * len);
/* we have "via" which is the tracked server as described in the configuration,
* and "ref" which is the checked server and the end of the chain.
*/
via = sv->track ? sv->track : sv;
ref = via;
while (ref->track)
ref = ref->track;
if (sv->state == SRV_ST_RUNNING || sv->state == SRV_ST_STARTING) {
if ((ref->check.state & CHK_ST_ENABLED) &&
(ref->check.health < ref->check.rise + ref->check.fall - 1)) {
state = SRV_STATS_STATE_UP_GOING_DOWN;
} else {
state = SRV_STATS_STATE_UP;
}
if (sv->admin & SRV_ADMF_DRAIN) {
if (ref->agent.state & CHK_ST_ENABLED)
state = SRV_STATS_STATE_DRAIN_AGENT;
else if (state == SRV_STATS_STATE_UP_GOING_DOWN)
state = SRV_STATS_STATE_DRAIN_GOING_DOWN;
else
state = SRV_STATS_STATE_DRAIN;
}
if (state == SRV_STATS_STATE_UP && !(ref->check.state & CHK_ST_ENABLED)) {
state = SRV_STATS_STATE_NO_CHECK;
}
}
else if (sv->state == SRV_ST_STOPPING) {
if ((!(sv->check.state & CHK_ST_ENABLED) && !sv->track) ||
(ref->check.health == ref->check.rise + ref->check.fall - 1)) {
state = SRV_STATS_STATE_NOLB;
} else {
state = SRV_STATS_STATE_NOLB_GOING_DOWN;
}
}
else { /* stopped */
if ((ref->agent.state & CHK_ST_ENABLED) && !ref->agent.health) {
state = SRV_STATS_STATE_DOWN_AGENT;
} else if ((ref->check.state & CHK_ST_ENABLED) && !ref->check.health) {
state = SRV_STATS_STATE_DOWN; /* DOWN */
} else if ((ref->agent.state & CHK_ST_ENABLED) || (ref->check.state & CHK_ST_ENABLED)) {
state = SRV_STATS_STATE_GOING_UP;
} else {
state = SRV_STATS_STATE_DOWN; /* DOWN, unchecked */
}
}
chunk_reset(out);
stats[ST_F_PXNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, px->id);
stats[ST_F_SVNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, sv->id);
stats[ST_F_MODE] = mkf_str(FO_CONFIG|FS_SERVICE, proxy_mode_str(px->mode));
stats[ST_F_QCUR] = mkf_u32(0, sv->nbpend);
stats[ST_F_QMAX] = mkf_u32(FN_MAX, sv->counters.nbpend_max);
stats[ST_F_SCUR] = mkf_u32(0, sv->cur_sess);
stats[ST_F_SMAX] = mkf_u32(FN_MAX, sv->counters.cur_sess_max);
if (sv->maxconn)
stats[ST_F_SLIM] = mkf_u32(FO_CONFIG|FN_LIMIT, sv->maxconn);
stats[ST_F_STOT] = mkf_u64(FN_COUNTER, sv->counters.cum_sess);
stats[ST_F_BIN] = mkf_u64(FN_COUNTER, sv->counters.bytes_in);
stats[ST_F_BOUT] = mkf_u64(FN_COUNTER, sv->counters.bytes_out);
stats[ST_F_DRESP] = mkf_u64(FN_COUNTER, sv->counters.failed_secu);
stats[ST_F_ECON] = mkf_u64(FN_COUNTER, sv->counters.failed_conns);
stats[ST_F_ERESP] = mkf_u64(FN_COUNTER, sv->counters.failed_resp);
stats[ST_F_WRETR] = mkf_u64(FN_COUNTER, sv->counters.retries);
stats[ST_F_WREDIS] = mkf_u64(FN_COUNTER, sv->counters.redispatches);
/* status */
fld_status = chunk_newstr(out);
if (sv->admin & SRV_ADMF_RMAINT)
chunk_appendf(out, "MAINT (resolution)");
else if (sv->admin & SRV_ADMF_IMAINT)
chunk_appendf(out, "MAINT (via %s/%s)", via->proxy->id, via->id);
else if (sv->admin & SRV_ADMF_MAINT)
chunk_appendf(out, "MAINT");
else
chunk_appendf(out,
srv_hlt_st[state],
(ref->state != SRV_ST_STOPPED) ? (ref->check.health - ref->check.rise + 1) : (ref->check.health),
(ref->state != SRV_ST_STOPPED) ? (ref->check.fall) : (ref->check.rise));
stats[ST_F_STATUS] = mkf_str(FO_STATUS, fld_status);
stats[ST_F_LASTCHG] = mkf_u32(FN_AGE, now.tv_sec - sv->last_change);
stats[ST_F_WEIGHT] = mkf_u32(FN_AVG, (sv->eweight * px->lbprm.wmult + px->lbprm.wdiv - 1) / px->lbprm.wdiv);
stats[ST_F_ACT] = mkf_u32(FO_STATUS, (sv->flags & SRV_F_BACKUP) ? 0 : 1);
stats[ST_F_BCK] = mkf_u32(FO_STATUS, (sv->flags & SRV_F_BACKUP) ? 1 : 0);
/* check failures: unique, fatal; last change, total downtime */
if (sv->check.state & CHK_ST_ENABLED) {
stats[ST_F_CHKFAIL] = mkf_u64(FN_COUNTER, sv->counters.failed_checks);
stats[ST_F_CHKDOWN] = mkf_u64(FN_COUNTER, sv->counters.down_trans);
stats[ST_F_DOWNTIME] = mkf_u32(FN_COUNTER, srv_downtime(sv));
}
if (sv->maxqueue)
stats[ST_F_QLIMIT] = mkf_u32(FO_CONFIG|FS_SERVICE, sv->maxqueue);
stats[ST_F_PID] = mkf_u32(FO_KEY, relative_pid);
stats[ST_F_IID] = mkf_u32(FO_KEY|FS_SERVICE, px->uuid);
stats[ST_F_SID] = mkf_u32(FO_KEY|FS_SERVICE, sv->puid);
if (sv->state == SRV_ST_STARTING && !server_is_draining(sv))
stats[ST_F_THROTTLE] = mkf_u32(FN_AVG, server_throttle_rate(sv));
stats[ST_F_LBTOT] = mkf_u64(FN_COUNTER, sv->counters.cum_lbconn);
if (sv->track) {
char *fld_track = chunk_newstr(out);
chunk_appendf(out, "%s/%s", sv->track->proxy->id, sv->track->id);
stats[ST_F_TRACKED] = mkf_str(FO_CONFIG|FN_NAME|FS_SERVICE, fld_track);
}
stats[ST_F_TYPE] = mkf_u32(FO_CONFIG|FS_SERVICE, STATS_TYPE_SV);
stats[ST_F_RATE] = mkf_u32(FN_RATE, read_freq_ctr(&sv->sess_per_sec));
stats[ST_F_RATE_MAX] = mkf_u32(FN_MAX, sv->counters.sps_max);
if ((sv->check.state & (CHK_ST_ENABLED|CHK_ST_PAUSED)) == CHK_ST_ENABLED) {
const char *fld_chksts;
fld_chksts = chunk_newstr(out);
chunk_strcat(out, "* "); // for check in progress
chunk_strcat(out, get_check_status_info(sv->check.status));
if (!(sv->check.state & CHK_ST_INPROGRESS))
fld_chksts += 2; // skip "* "
stats[ST_F_CHECK_STATUS] = mkf_str(FN_OUTPUT, fld_chksts);
if (sv->check.status >= HCHK_STATUS_L57DATA)
stats[ST_F_CHECK_CODE] = mkf_u32(FN_OUTPUT, sv->check.code);
if (sv->check.status >= HCHK_STATUS_CHECKED)
stats[ST_F_CHECK_DURATION] = mkf_u64(FN_DURATION, sv->check.duration);
stats[ST_F_CHECK_DESC] = mkf_str(FN_OUTPUT, get_check_status_description(sv->check.status));
stats[ST_F_LAST_CHK] = mkf_str(FN_OUTPUT, sv->check.desc);
stats[ST_F_CHECK_RISE] = mkf_u32(FO_CONFIG|FS_SERVICE, ref->check.rise);
stats[ST_F_CHECK_FALL] = mkf_u32(FO_CONFIG|FS_SERVICE, ref->check.fall);
stats[ST_F_CHECK_HEALTH] = mkf_u32(FO_CONFIG|FS_SERVICE, ref->check.health);
}
if ((sv->agent.state & (CHK_ST_ENABLED|CHK_ST_PAUSED)) == CHK_ST_ENABLED) {
const char *fld_chksts;
fld_chksts = chunk_newstr(out);
chunk_strcat(out, "* "); // for check in progress
chunk_strcat(out, get_check_status_info(sv->agent.status));
if (!(sv->agent.state & CHK_ST_INPROGRESS))
fld_chksts += 2; // skip "* "
stats[ST_F_AGENT_STATUS] = mkf_str(FN_OUTPUT, fld_chksts);
if (sv->agent.status >= HCHK_STATUS_L57DATA)
stats[ST_F_AGENT_CODE] = mkf_u32(FN_OUTPUT, sv->agent.code);
if (sv->agent.status >= HCHK_STATUS_CHECKED)
stats[ST_F_AGENT_DURATION] = mkf_u64(FN_DURATION, sv->agent.duration);
stats[ST_F_AGENT_DESC] = mkf_str(FN_OUTPUT, get_check_status_description(sv->agent.status));
stats[ST_F_LAST_AGT] = mkf_str(FN_OUTPUT, sv->agent.desc);
stats[ST_F_AGENT_RISE] = mkf_u32(FO_CONFIG|FS_SERVICE, sv->agent.rise);
stats[ST_F_AGENT_FALL] = mkf_u32(FO_CONFIG|FS_SERVICE, sv->agent.fall);
stats[ST_F_AGENT_HEALTH] = mkf_u32(FO_CONFIG|FS_SERVICE, sv->agent.health);
}
/* http response: 1xx, 2xx, 3xx, 4xx, 5xx, other */
if (px->mode == PR_MODE_HTTP) {
stats[ST_F_HRSP_1XX] = mkf_u64(FN_COUNTER, sv->counters.p.http.rsp[1]);
stats[ST_F_HRSP_2XX] = mkf_u64(FN_COUNTER, sv->counters.p.http.rsp[2]);
stats[ST_F_HRSP_3XX] = mkf_u64(FN_COUNTER, sv->counters.p.http.rsp[3]);
stats[ST_F_HRSP_4XX] = mkf_u64(FN_COUNTER, sv->counters.p.http.rsp[4]);
stats[ST_F_HRSP_5XX] = mkf_u64(FN_COUNTER, sv->counters.p.http.rsp[5]);
stats[ST_F_HRSP_OTHER] = mkf_u64(FN_COUNTER, sv->counters.p.http.rsp[0]);
}
if (ref->observe)
stats[ST_F_HANAFAIL] = mkf_u64(FN_COUNTER, sv->counters.failed_hana);
stats[ST_F_CLI_ABRT] = mkf_u64(FN_COUNTER, sv->counters.cli_aborts);
stats[ST_F_SRV_ABRT] = mkf_u64(FN_COUNTER, sv->counters.srv_aborts);
stats[ST_F_LASTSESS] = mkf_s32(FN_AGE, srv_lastsession(sv));
stats[ST_F_QTIME] = mkf_u32(FN_AVG, swrate_avg(sv->counters.q_time, TIME_STATS_SAMPLES));
stats[ST_F_CTIME] = mkf_u32(FN_AVG, swrate_avg(sv->counters.c_time, TIME_STATS_SAMPLES));
stats[ST_F_RTIME] = mkf_u32(FN_AVG, swrate_avg(sv->counters.d_time, TIME_STATS_SAMPLES));
stats[ST_F_TTIME] = mkf_u32(FN_AVG, swrate_avg(sv->counters.t_time, TIME_STATS_SAMPLES));
if (flags & ST_SHLGNDS) {
switch (addr_to_str(&sv->addr, str, sizeof(str))) {
case AF_INET:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, chunk_newstr(out));
chunk_appendf(out, "%s:%d", str, get_host_port(&sv->addr));
break;
case AF_INET6:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, chunk_newstr(out));
chunk_appendf(out, "[%s]:%d", str, get_host_port(&sv->addr));
break;
case AF_UNIX:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, "unix");
break;
case -1:
stats[ST_F_ADDR] = mkf_str(FO_CONFIG|FS_SERVICE, chunk_newstr(out));
chunk_strcat(out, strerror(errno));
break;
default: /* address family not supported */
break;
}
if (sv->cookie)
stats[ST_F_COOKIE] = mkf_str(FO_CONFIG|FN_NAME|FS_SERVICE, sv->cookie);
}
return 1;
}
/* Dumps a line for server <sv> and proxy <px> to the trash and uses the state
* from stream interface <si>, stats flags <flags>, and server state <state>.
* The caller is responsible for clearing the trash if needed. Returns non-zero
* if it emits anything, zero otherwise.
*/
static int stats_dump_sv_stats(struct stream_interface *si, struct proxy *px, int flags, struct server *sv)
{
struct appctx *appctx = __objt_appctx(si->end);
if (!stats_fill_sv_stats(px, sv, flags, stats, ST_F_TOTAL_FIELDS))
return 0;
return stats_dump_one_line(stats, flags, px, appctx);
}
/* Fill <stats> with the backend statistics. <stats> is
* preallocated array of length <len>. The length of the array
* must be at least ST_F_TOTAL_FIELDS. If this length is less
* then this value, the function returns 0, otherwise, it
* returns 1. <flags> can take the value ST_SHLGNDS.
*/
int stats_fill_be_stats(struct proxy *px, int flags, struct field *stats, int len)
{
if (len < ST_F_TOTAL_FIELDS)
return 0;
memset(stats, 0, sizeof(*stats) * len);
stats[ST_F_PXNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, px->id);
stats[ST_F_SVNAME] = mkf_str(FO_KEY|FN_NAME|FS_SERVICE, "BACKEND");
stats[ST_F_MODE] = mkf_str(FO_CONFIG|FS_SERVICE, proxy_mode_str(px->mode));
stats[ST_F_QCUR] = mkf_u32(0, px->nbpend);
stats[ST_F_QMAX] = mkf_u32(FN_MAX, px->be_counters.nbpend_max);
stats[ST_F_SCUR] = mkf_u32(FO_CONFIG|FN_LIMIT, px->beconn);
stats[ST_F_SMAX] = mkf_u32(FN_MAX, px->be_counters.conn_max);
stats[ST_F_SLIM] = mkf_u32(FO_CONFIG|FN_LIMIT, px->fullconn);
stats[ST_F_STOT] = mkf_u64(FN_COUNTER, px->be_counters.cum_conn);
stats[ST_F_BIN] = mkf_u64(FN_COUNTER, px->be_counters.bytes_in);
stats[ST_F_BOUT] = mkf_u64(FN_COUNTER, px->be_counters.bytes_out);
stats[ST_F_DREQ] = mkf_u64(FN_COUNTER, px->be_counters.denied_req);
stats[ST_F_DRESP] = mkf_u64(FN_COUNTER, px->be_counters.denied_resp);
stats[ST_F_ECON] = mkf_u64(FN_COUNTER, px->be_counters.failed_conns);
stats[ST_F_ERESP] = mkf_u64(FN_COUNTER, px->be_counters.failed_resp);
stats[ST_F_WRETR] = mkf_u64(FN_COUNTER, px->be_counters.retries);
stats[ST_F_WREDIS] = mkf_u64(FN_COUNTER, px->be_counters.redispatches);
stats[ST_F_STATUS] = mkf_str(FO_STATUS, (px->lbprm.tot_weight > 0 || !px->srv) ? "UP" : "DOWN");
stats[ST_F_WEIGHT] = mkf_u32(FN_AVG, (px->lbprm.tot_weight * px->lbprm.wmult + px->lbprm.wdiv - 1) / px->lbprm.wdiv);
stats[ST_F_ACT] = mkf_u32(0, px->srv_act);
stats[ST_F_BCK] = mkf_u32(0, px->srv_bck);
stats[ST_F_CHKDOWN] = mkf_u64(FN_COUNTER, px->down_trans);
stats[ST_F_LASTCHG] = mkf_u32(FN_AGE, now.tv_sec - px->last_change);
if (px->srv)
stats[ST_F_DOWNTIME] = mkf_u32(FN_COUNTER, be_downtime(px));
stats[ST_F_PID] = mkf_u32(FO_KEY, relative_pid);
stats[ST_F_IID] = mkf_u32(FO_KEY|FS_SERVICE, px->uuid);
stats[ST_F_SID] = mkf_u32(FO_KEY|FS_SERVICE, 0);
stats[ST_F_LBTOT] = mkf_u64(FN_COUNTER, px->be_counters.cum_lbconn);
stats[ST_F_TYPE] = mkf_u32(FO_CONFIG|FS_SERVICE, STATS_TYPE_BE);
stats[ST_F_RATE] = mkf_u32(0, read_freq_ctr(&px->be_sess_per_sec));
stats[ST_F_RATE_MAX] = mkf_u32(0, px->be_counters.sps_max);
if (flags & ST_SHLGNDS) {
if (px->cookie_name)
stats[ST_F_COOKIE] = mkf_str(FO_CONFIG|FN_NAME|FS_SERVICE, px->cookie_name);
stats[ST_F_ALGO] = mkf_str(FO_CONFIG|FS_SERVICE, backend_lb_algo_str(px->lbprm.algo & BE_LB_ALGO));
}
/* http response: 1xx, 2xx, 3xx, 4xx, 5xx, other */
if (px->mode == PR_MODE_HTTP) {
stats[ST_F_REQ_TOT] = mkf_u64(FN_COUNTER, px->be_counters.p.http.cum_req);
stats[ST_F_HRSP_1XX] = mkf_u64(FN_COUNTER, px->be_counters.p.http.rsp[1]);
stats[ST_F_HRSP_2XX] = mkf_u64(FN_COUNTER, px->be_counters.p.http.rsp[2]);
stats[ST_F_HRSP_3XX] = mkf_u64(FN_COUNTER, px->be_counters.p.http.rsp[3]);
stats[ST_F_HRSP_4XX] = mkf_u64(FN_COUNTER, px->be_counters.p.http.rsp[4]);
stats[ST_F_HRSP_5XX] = mkf_u64(FN_COUNTER, px->be_counters.p.http.rsp[5]);
stats[ST_F_HRSP_OTHER] = mkf_u64(FN_COUNTER, px->be_counters.p.http.rsp[0]);
stats[ST_F_INTERCEPTED] = mkf_u64(FN_COUNTER, px->be_counters.intercepted_req);
}
stats[ST_F_CLI_ABRT] = mkf_u64(FN_COUNTER, px->be_counters.cli_aborts);
stats[ST_F_SRV_ABRT] = mkf_u64(FN_COUNTER, px->be_counters.srv_aborts);
/* compression: in, out, bypassed, responses */
stats[ST_F_COMP_IN] = mkf_u64(FN_COUNTER, px->be_counters.comp_in);
stats[ST_F_COMP_OUT] = mkf_u64(FN_COUNTER, px->be_counters.comp_out);
stats[ST_F_COMP_BYP] = mkf_u64(FN_COUNTER, px->be_counters.comp_byp);
stats[ST_F_COMP_RSP] = mkf_u64(FN_COUNTER, px->be_counters.p.http.comp_rsp);
stats[ST_F_LASTSESS] = mkf_s32(FN_AGE, be_lastsession(px));
stats[ST_F_QTIME] = mkf_u32(FN_AVG, swrate_avg(px->be_counters.q_time, TIME_STATS_SAMPLES));
stats[ST_F_CTIME] = mkf_u32(FN_AVG, swrate_avg(px->be_counters.c_time, TIME_STATS_SAMPLES));
stats[ST_F_RTIME] = mkf_u32(FN_AVG, swrate_avg(px->be_counters.d_time, TIME_STATS_SAMPLES));
stats[ST_F_TTIME] = mkf_u32(FN_AVG, swrate_avg(px->be_counters.t_time, TIME_STATS_SAMPLES));
return 1;
}
/* Dumps a line for backend <px> to the trash for and uses the state from stream
* interface <si> and stats flags <flags>. The caller is responsible for clearing
* the trash if needed. Returns non-zero if it emits anything, zero otherwise.
*/
static int stats_dump_be_stats(struct stream_interface *si, struct proxy *px, int flags)
{
struct appctx *appctx = __objt_appctx(si->end);
if (!(px->cap & PR_CAP_BE))
return 0;
if ((appctx->ctx.stats.flags & STAT_BOUND) && !(appctx->ctx.stats.type & (1 << STATS_TYPE_BE)))
return 0;
if (!stats_fill_be_stats(px, flags, stats, ST_F_TOTAL_FIELDS))
return 0;
return stats_dump_one_line(stats, flags, px, appctx);
}
/* Dumps the HTML table header for proxy <px> to the trash for and uses the state from
* stream interface <si> and per-uri parameters <uri>. The caller is responsible
* for clearing the trash if needed.
*/
static void stats_dump_html_px_hdr(struct stream_interface *si, struct proxy *px, struct uri_auth *uri)
{
struct appctx *appctx = __objt_appctx(si->end);
char scope_txt[STAT_SCOPE_TXT_MAXLEN + sizeof STAT_SCOPE_PATTERN];
if (px->cap & PR_CAP_BE && px->srv && (appctx->ctx.stats.flags & STAT_ADMIN)) {
/* A form to enable/disable this proxy servers */
/* scope_txt = search pattern + search query, appctx->ctx.stats.scope_len is always <= STAT_SCOPE_TXT_MAXLEN */
scope_txt[0] = 0;
if (appctx->ctx.stats.scope_len) {
strcpy(scope_txt, STAT_SCOPE_PATTERN);
memcpy(scope_txt + strlen(STAT_SCOPE_PATTERN), bo_ptr(si_ob(si)) + appctx->ctx.stats.scope_str, appctx->ctx.stats.scope_len);
scope_txt[strlen(STAT_SCOPE_PATTERN) + appctx->ctx.stats.scope_len] = 0;
}
chunk_appendf(&trash,
"<form method=\"post\">");
}
/* print a new table */
chunk_appendf(&trash,
"<table class=\"tbl\" width=\"100%%\">\n"
"<tr class=\"titre\">"
"<th class=\"pxname\" width=\"10%%\">");
chunk_appendf(&trash,
"<a name=\"%s\"></a>%s"
"<a class=px href=\"#%s\">%s</a>",
px->id,
(uri->flags & ST_SHLGNDS) ? "<u>":"",
px->id, px->id);
if (uri->flags & ST_SHLGNDS) {
/* cap, mode, id */
chunk_appendf(&trash, "<div class=tips>cap: %s, mode: %s, id: %d",
proxy_cap_str(px->cap), proxy_mode_str(px->mode),
px->uuid);
chunk_appendf(&trash, "</div>");
}
chunk_appendf(&trash,
"%s</th>"
"<th class=\"%s\" width=\"90%%\">%s</th>"
"</tr>\n"
"</table>\n"
"<table class=\"tbl\" width=\"100%%\">\n"
"<tr class=\"titre\">",
(uri->flags & ST_SHLGNDS) ? "</u>":"",
px->desc ? "desc" : "empty", px->desc ? px->desc : "");
if ((px->cap & PR_CAP_BE) && px->srv && (appctx->ctx.stats.flags & STAT_ADMIN)) {
/* Column heading for Enable or Disable server */
chunk_appendf(&trash, "<th rowspan=2 width=1></th>");
}
chunk_appendf(&trash,
"<th rowspan=2></th>"
"<th colspan=3>Queue</th>"
"<th colspan=3>Session rate</th><th colspan=6>Sessions</th>"
"<th colspan=2>Bytes</th><th colspan=2>Denied</th>"
"<th colspan=3>Errors</th><th colspan=2>Warnings</th>"
"<th colspan=9>Server</th>"
"</tr>\n"
"<tr class=\"titre\">"
"<th>Cur</th><th>Max</th><th>Limit</th>"
"<th>Cur</th><th>Max</th><th>Limit</th><th>Cur</th><th>Max</th>"
"<th>Limit</th><th>Total</th><th>LbTot</th><th>Last</th><th>In</th><th>Out</th>"
"<th>Req</th><th>Resp</th><th>Req</th><th>Conn</th>"
"<th>Resp</th><th>Retr</th><th>Redis</th>"
"<th>Status</th><th>LastChk</th><th>Wght</th><th>Act</th>"
"<th>Bck</th><th>Chk</th><th>Dwn</th><th>Dwntme</th>"
"<th>Thrtle</th>\n"
"</tr>");
}
/* Dumps the HTML table trailer for proxy <px> to the trash for and uses the state from
* stream interface <si>. The caller is responsible for clearing the trash if needed.
*/
static void stats_dump_html_px_end(struct stream_interface *si, struct proxy *px)
{
struct appctx *appctx = __objt_appctx(si->end);
chunk_appendf(&trash, "</table>");
if ((px->cap & PR_CAP_BE) && px->srv && (appctx->ctx.stats.flags & STAT_ADMIN)) {
/* close the form used to enable/disable this proxy servers */
chunk_appendf(&trash,
"Choose the action to perform on the checked servers : "
"<select name=action>"
"<option value=\"\"></option>"
"<option value=\"ready\">Set state to READY</option>"
"<option value=\"drain\">Set state to DRAIN</option>"
"<option value=\"maint\">Set state to MAINT</option>"
"<option value=\"dhlth\">Health: disable checks</option>"
"<option value=\"ehlth\">Health: enable checks</option>"
"<option value=\"hrunn\">Health: force UP</option>"
"<option value=\"hnolb\">Health: force NOLB</option>"
"<option value=\"hdown\">Health: force DOWN</option>"
"<option value=\"dagent\">Agent: disable checks</option>"
"<option value=\"eagent\">Agent: enable checks</option>"
"<option value=\"arunn\">Agent: force UP</option>"
"<option value=\"adown\">Agent: force DOWN</option>"
"<option value=\"shutdown\">Kill Sessions</option>"
"</select>"
"<input type=\"hidden\" name=\"b\" value=\"#%d\">"
"&nbsp;<input type=\"submit\" value=\"Apply\">"
"</form>",
px->uuid);
}
chunk_appendf(&trash, "<p>\n");
}
/*
* Dumps statistics for a proxy. The output is sent to the stream interface's
* input buffer. Returns 0 if it had to stop dumping data because of lack of
* buffer space, or non-zero if everything completed. This function is used
* both by the CLI and the HTTP entry points, and is able to dump the output
* in HTML or CSV formats. If the later, <uri> must be NULL.
*/
static int stats_dump_proxy_to_buffer(struct stream_interface *si, struct proxy *px, struct uri_auth *uri)
{
struct appctx *appctx = __objt_appctx(si->end);
struct stream *s = si_strm(si);
struct channel *rep = si_ic(si);
struct server *sv, *svs; /* server and server-state, server-state=server or server->track */
struct listener *l;
unsigned int flags;
if (uri)
flags = uri->flags;
else if (strm_li(s)->bind_conf->level >= ACCESS_LVL_OPER)
flags = ST_SHLGNDS | ST_SHNODE | ST_SHDESC;
else
flags = ST_SHNODE | ST_SHDESC;
chunk_reset(&trash);
switch (appctx->ctx.stats.px_st) {
case STAT_PX_ST_INIT:
/* we are on a new proxy */
if (uri && uri->scope) {
/* we have a limited scope, we have to check the proxy name */
struct stat_scope *scope;
int len;
len = strlen(px->id);
scope = uri->scope;
while (scope) {
/* match exact proxy name */
if (scope->px_len == len && !memcmp(px->id, scope->px_id, len))
break;
/* match '.' which means 'self' proxy */
if (!strcmp(scope->px_id, ".") && px == s->be)
break;
scope = scope->next;
}
/* proxy name not found : don't dump anything */
if (scope == NULL)
return 1;
}
/* if the user has requested a limited output and the proxy
* name does not match, skip it.
*/
if (appctx->ctx.stats.scope_len &&
strnistr(px->id, strlen(px->id), bo_ptr(si_ob(si)) + appctx->ctx.stats.scope_str, appctx->ctx.stats.scope_len) == NULL)
return 1;
if ((appctx->ctx.stats.flags & STAT_BOUND) &&
(appctx->ctx.stats.iid != -1) &&
(px->uuid != appctx->ctx.stats.iid))
return 1;
appctx->ctx.stats.px_st = STAT_PX_ST_TH;
/* fall through */
case STAT_PX_ST_TH:
if (appctx->ctx.stats.flags & STAT_FMT_HTML) {
stats_dump_html_px_hdr(si, px, uri);
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->ctx.stats.px_st = STAT_PX_ST_FE;
/* fall through */
case STAT_PX_ST_FE:
/* print the frontend */
if (stats_dump_fe_stats(si, px)) {
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->ctx.stats.l = px->conf.listeners.n;
appctx->ctx.stats.px_st = STAT_PX_ST_LI;
/* fall through */
case STAT_PX_ST_LI:
/* stats.l has been initialized above */
for (; appctx->ctx.stats.l != &px->conf.listeners; appctx->ctx.stats.l = l->by_fe.n) {
if (buffer_almost_full(rep->buf)) {
si_applet_cant_put(si);
return 0;
}
l = LIST_ELEM(appctx->ctx.stats.l, struct listener *, by_fe);
if (!l->counters)
continue;
if (appctx->ctx.stats.flags & STAT_BOUND) {
if (!(appctx->ctx.stats.type & (1 << STATS_TYPE_SO)))
break;
if (appctx->ctx.stats.sid != -1 && l->luid != appctx->ctx.stats.sid)
continue;
}
/* print the frontend */
if (stats_dump_li_stats(si, px, l, flags)) {
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
}
appctx->ctx.stats.sv = px->srv; /* may be NULL */
appctx->ctx.stats.px_st = STAT_PX_ST_SV;
/* fall through */
case STAT_PX_ST_SV:
/* stats.sv has been initialized above */
for (; appctx->ctx.stats.sv != NULL; appctx->ctx.stats.sv = sv->next) {
if (buffer_almost_full(rep->buf)) {
si_applet_cant_put(si);
return 0;
}
sv = appctx->ctx.stats.sv;
if (appctx->ctx.stats.flags & STAT_BOUND) {
if (!(appctx->ctx.stats.type & (1 << STATS_TYPE_SV)))
break;
if (appctx->ctx.stats.sid != -1 && sv->puid != appctx->ctx.stats.sid)
continue;
}
svs = sv;
while (svs->track)
svs = svs->track;
/* do not report servers which are DOWN and not changing state */
if ((appctx->ctx.stats.flags & STAT_HIDE_DOWN) &&
((sv->admin & SRV_ADMF_MAINT) || /* server is in maintenance */
(sv->state == SRV_ST_STOPPED && /* server is down */
(!((svs->agent.state | svs->check.state) & CHK_ST_ENABLED) ||
((svs->agent.state & CHK_ST_ENABLED) && !svs->agent.health) ||
((svs->check.state & CHK_ST_ENABLED) && !svs->check.health))))) {
continue;
}
if (stats_dump_sv_stats(si, px, flags, sv)) {
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
} /* for sv */
appctx->ctx.stats.px_st = STAT_PX_ST_BE;
/* fall through */
case STAT_PX_ST_BE:
/* print the backend */
if (stats_dump_be_stats(si, px, flags)) {
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->ctx.stats.px_st = STAT_PX_ST_END;
/* fall through */
case STAT_PX_ST_END:
if (appctx->ctx.stats.flags & STAT_FMT_HTML) {
stats_dump_html_px_end(si, px);
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->ctx.stats.px_st = STAT_PX_ST_FIN;
/* fall through */
case STAT_PX_ST_FIN:
return 1;
default:
/* unknown state, we should put an abort() here ! */
return 1;
}
}
/* Dumps the HTTP stats head block to the trash for and uses the per-uri
* parameters <uri>. The caller is responsible for clearing the trash if needed.
*/
static void stats_dump_html_head(struct uri_auth *uri)
{
/* WARNING! This must fit in the first buffer !!! */
chunk_appendf(&trash,
"<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01 Transitional//EN\"\n"
"\"http://www.w3.org/TR/html4/loose.dtd\">\n"
"<html><head><title>Statistics Report for " PRODUCT_NAME "%s%s</title>\n"
"<meta http-equiv=\"content-type\" content=\"text/html; charset=iso-8859-1\">\n"
"<style type=\"text/css\"><!--\n"
"body {"
" font-family: arial, helvetica, sans-serif;"
" font-size: 12px;"
" font-weight: normal;"
" color: black;"
" background: white;"
"}\n"
"th,td {"
" font-size: 10px;"
"}\n"
"h1 {"
" font-size: x-large;"
" margin-bottom: 0.5em;"
"}\n"
"h2 {"
" font-family: helvetica, arial;"
" font-size: x-large;"
" font-weight: bold;"
" font-style: italic;"
" color: #6020a0;"
" margin-top: 0em;"
" margin-bottom: 0em;"
"}\n"
"h3 {"
" font-family: helvetica, arial;"
" font-size: 16px;"
" font-weight: bold;"
" color: #b00040;"
" background: #e8e8d0;"
" margin-top: 0em;"
" margin-bottom: 0em;"
"}\n"
"li {"
" margin-top: 0.25em;"
" margin-right: 2em;"
"}\n"
".hr {margin-top: 0.25em;"
" border-color: black;"
" border-bottom-style: solid;"
"}\n"
".titre {background: #20D0D0;color: #000000; font-weight: bold; text-align: center;}\n"
".total {background: #20D0D0;color: #ffff80;}\n"
".frontend {background: #e8e8d0;}\n"
".socket {background: #d0d0d0;}\n"
".backend {background: #e8e8d0;}\n"
".active_down {background: #ff9090;}\n"
".active_going_up {background: #ffd020;}\n"
".active_going_down {background: #ffffa0;}\n"
".active_up {background: #c0ffc0;}\n"
".active_nolb {background: #20a0ff;}\n"
".active_draining {background: #20a0FF;}\n"
".active_no_check {background: #e0e0e0;}\n"
".backup_down {background: #ff9090;}\n"
".backup_going_up {background: #ff80ff;}\n"
".backup_going_down {background: #c060ff;}\n"
".backup_up {background: #b0d0ff;}\n"
".backup_nolb {background: #90b0e0;}\n"
".backup_draining {background: #cc9900;}\n"
".backup_no_check {background: #e0e0e0;}\n"
".maintain {background: #c07820;}\n"
".rls {letter-spacing: 0.2em; margin-right: 1px;}\n" /* right letter spacing (used for grouping digits) */
"\n"
"a.px:link {color: #ffff40; text-decoration: none;}"
"a.px:visited {color: #ffff40; text-decoration: none;}"
"a.px:hover {color: #ffffff; text-decoration: none;}"
"a.lfsb:link {color: #000000; text-decoration: none;}"
"a.lfsb:visited {color: #000000; text-decoration: none;}"
"a.lfsb:hover {color: #505050; text-decoration: none;}"
"\n"
"table.tbl { border-collapse: collapse; border-style: none;}\n"
"table.tbl td { text-align: right; border-width: 1px 1px 1px 1px; border-style: solid solid solid solid; padding: 2px 3px; border-color: gray; white-space: nowrap;}\n"
"table.tbl td.ac { text-align: center;}\n"
"table.tbl th { border-width: 1px; border-style: solid solid solid solid; border-color: gray;}\n"
"table.tbl th.pxname { background: #b00040; color: #ffff40; font-weight: bold; border-style: solid solid none solid; padding: 2px 3px; white-space: nowrap;}\n"
"table.tbl th.empty { border-style: none; empty-cells: hide; background: white;}\n"
"table.tbl th.desc { background: white; border-style: solid solid none solid; text-align: left; padding: 2px 3px;}\n"
"\n"
"table.lgd { border-collapse: collapse; border-width: 1px; border-style: none none none solid; border-color: black;}\n"
"table.lgd td { border-width: 1px; border-style: solid solid solid solid; border-color: gray; padding: 2px;}\n"
"table.lgd td.noborder { border-style: none; padding: 2px; white-space: nowrap;}\n"
"table.det { border-collapse: collapse; border-style: none; }\n"
"table.det th { text-align: left; border-width: 0px; padding: 0px 1px 0px 0px; font-style:normal;font-size:11px;font-weight:bold;font-family: sans-serif;}\n"
"table.det td { text-align: right; border-width: 0px; padding: 0px 0px 0px 4px; white-space: nowrap; font-style:normal;font-size:11px;font-weight:normal;}\n"
"u {text-decoration:none; border-bottom: 1px dotted black;}\n"
"div.tips {\n"
" display:block;\n"
" visibility:hidden;\n"
" z-index:2147483647;\n"
" position:absolute;\n"
" padding:2px 4px 3px;\n"
" background:#f0f060; color:#000000;\n"
" border:1px solid #7040c0;\n"
" white-space:nowrap;\n"
" font-style:normal;font-size:11px;font-weight:normal;\n"
" -moz-border-radius:3px;-webkit-border-radius:3px;border-radius:3px;\n"
" -moz-box-shadow:gray 2px 2px 3px;-webkit-box-shadow:gray 2px 2px 3px;box-shadow:gray 2px 2px 3px;\n"
"}\n"
"u:hover div.tips {visibility:visible;}\n"
"-->\n"
"</style></head>\n",
(uri->flags & ST_SHNODE) ? " on " : "",
(uri->flags & ST_SHNODE) ? (uri->node ? uri->node : global.node) : ""
);
}
/* Dumps the HTML stats information block to the trash for and uses the state from
* stream interface <si> and per-uri parameters <uri>. The caller is responsible
* for clearing the trash if needed.
*/
static void stats_dump_html_info(struct stream_interface *si, struct uri_auth *uri)
{
struct appctx *appctx = __objt_appctx(si->end);
unsigned int up = (now.tv_sec - start_date.tv_sec);
char scope_txt[STAT_SCOPE_TXT_MAXLEN + sizeof STAT_SCOPE_PATTERN];
/* WARNING! this has to fit the first packet too.
* We are around 3.5 kB, add adding entries will
* become tricky if we want to support 4kB buffers !
*/
chunk_appendf(&trash,
"<body><h1><a href=\"" PRODUCT_URL "\" style=\"text-decoration: none;\">"
PRODUCT_NAME "%s</a></h1>\n"
"<h2>Statistics Report for pid %d%s%s%s%s</h2>\n"
"<hr width=\"100%%\" class=\"hr\">\n"
"<h3>&gt; General process information</h3>\n"
"<table border=0><tr><td align=\"left\" nowrap width=\"1%%\">\n"
"<p><b>pid = </b> %d (process #%d, nbproc = %d)<br>\n"
"<b>uptime = </b> %dd %dh%02dm%02ds<br>\n"
"<b>system limits:</b> memmax = %s%s; ulimit-n = %d<br>\n"
"<b>maxsock = </b> %d; <b>maxconn = </b> %d; <b>maxpipes = </b> %d<br>\n"
"current conns = %d; current pipes = %d/%d; conn rate = %d/sec<br>\n"
"Running tasks: %d/%d; idle = %d %%<br>\n"
"</td><td align=\"center\" nowrap>\n"
"<table class=\"lgd\"><tr>\n"
"<td class=\"active_up\">&nbsp;</td><td class=\"noborder\">active UP </td>"
"<td class=\"backup_up\">&nbsp;</td><td class=\"noborder\">backup UP </td>"
"</tr><tr>\n"
"<td class=\"active_going_down\"></td><td class=\"noborder\">active UP, going down </td>"
"<td class=\"backup_going_down\"></td><td class=\"noborder\">backup UP, going down </td>"
"</tr><tr>\n"
"<td class=\"active_going_up\"></td><td class=\"noborder\">active DOWN, going up </td>"
"<td class=\"backup_going_up\"></td><td class=\"noborder\">backup DOWN, going up </td>"
"</tr><tr>\n"
"<td class=\"active_down\"></td><td class=\"noborder\">active or backup DOWN &nbsp;</td>"
"<td class=\"active_no_check\"></td><td class=\"noborder\">not checked </td>"
"</tr><tr>\n"
"<td class=\"maintain\"></td><td class=\"noborder\" colspan=\"3\">active or backup DOWN for maintenance (MAINT) &nbsp;</td>"
"</tr><tr>\n"
"<td class=\"active_draining\"></td><td class=\"noborder\" colspan=\"3\">active or backup SOFT STOPPED for maintenance &nbsp;</td>"
"</tr></table>\n"
"Note: \"NOLB\"/\"DRAIN\" = UP with load-balancing disabled."
"</td>"
"<td align=\"left\" valign=\"top\" nowrap width=\"1%%\">"
"<b>Display option:</b><ul style=\"margin-top: 0.25em;\">"
"",
(uri->flags & ST_HIDEVER) ? "" : (STATS_VERSION_STRING),
pid, (uri->flags & ST_SHNODE) ? " on " : "",
(uri->flags & ST_SHNODE) ? (uri->node ? uri->node : global.node) : "",
(uri->flags & ST_SHDESC) ? ": " : "",
(uri->flags & ST_SHDESC) ? (uri->desc ? uri->desc : global.desc) : "",
pid, relative_pid, global.nbproc,
up / 86400, (up % 86400) / 3600,
(up % 3600) / 60, (up % 60),
global.rlimit_memmax ? ultoa(global.rlimit_memmax) : "unlimited",
global.rlimit_memmax ? " MB" : "",
global.rlimit_nofile,
global.maxsock, global.maxconn, global.maxpipes,
actconn, pipes_used, pipes_used+pipes_free, read_freq_ctr(&global.conn_per_sec),
run_queue_cur, nb_tasks_cur, idle_pct
);
/* scope_txt = search query, appctx->ctx.stats.scope_len is always <= STAT_SCOPE_TXT_MAXLEN */
memcpy(scope_txt, bo_ptr(si_ob(si)) + appctx->ctx.stats.scope_str, appctx->ctx.stats.scope_len);
scope_txt[appctx->ctx.stats.scope_len] = '\0';
chunk_appendf(&trash,
"<li><form method=\"GET\">Scope : <input value=\"%s\" name=\"" STAT_SCOPE_INPUT_NAME "\" size=\"8\" maxlength=\"%d\" tabindex=\"1\"/></form>\n",
(appctx->ctx.stats.scope_len > 0) ? scope_txt : "",
STAT_SCOPE_TXT_MAXLEN);
/* scope_txt = search pattern + search query, appctx->ctx.stats.scope_len is always <= STAT_SCOPE_TXT_MAXLEN */
scope_txt[0] = 0;
if (appctx->ctx.stats.scope_len) {
strcpy(scope_txt, STAT_SCOPE_PATTERN);
memcpy(scope_txt + strlen(STAT_SCOPE_PATTERN), bo_ptr(si_ob(si)) + appctx->ctx.stats.scope_str, appctx->ctx.stats.scope_len);
scope_txt[strlen(STAT_SCOPE_PATTERN) + appctx->ctx.stats.scope_len] = 0;
}
if (appctx->ctx.stats.flags & STAT_HIDE_DOWN)
chunk_appendf(&trash,
"<li><a href=\"%s%s%s%s\">Show all servers</a><br>\n",
uri->uri_prefix,
"",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
else
chunk_appendf(&trash,
"<li><a href=\"%s%s%s%s\">Hide 'DOWN' servers</a><br>\n",
uri->uri_prefix,
";up",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
if (uri->refresh > 0) {
if (appctx->ctx.stats.flags & STAT_NO_REFRESH)
chunk_appendf(&trash,
"<li><a href=\"%s%s%s%s\">Enable refresh</a><br>\n",
uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
"",
scope_txt);
else
chunk_appendf(&trash,
"<li><a href=\"%s%s%s%s\">Disable refresh</a><br>\n",
uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
";norefresh",
scope_txt);
}
chunk_appendf(&trash,
"<li><a href=\"%s%s%s%s\">Refresh now</a><br>\n",
uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
chunk_appendf(&trash,
"<li><a href=\"%s;csv%s%s\">CSV export</a><br>\n",
uri->uri_prefix,
(uri->refresh > 0) ? ";norefresh" : "",
scope_txt);
chunk_appendf(&trash,
"</ul></td>"
"<td align=\"left\" valign=\"top\" nowrap width=\"1%%\">"
"<b>External resources:</b><ul style=\"margin-top: 0.25em;\">\n"
"<li><a href=\"" PRODUCT_URL "\">Primary site</a><br>\n"
"<li><a href=\"" PRODUCT_URL_UPD "\">Updates (v" PRODUCT_BRANCH ")</a><br>\n"
"<li><a href=\"" PRODUCT_URL_DOC "\">Online manual</a><br>\n"
"</ul>"
"</td>"
"</tr></table>\n"
""
);
if (appctx->ctx.stats.st_code) {
switch (appctx->ctx.stats.st_code) {
case STAT_STATUS_DONE:
chunk_appendf(&trash,
"<p><div class=active_up>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"Action processed successfully."
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
break;
case STAT_STATUS_NONE:
chunk_appendf(&trash,
"<p><div class=active_going_down>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"Nothing has changed."
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
break;
case STAT_STATUS_PART:
chunk_appendf(&trash,
"<p><div class=active_going_down>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"Action partially processed.<br>"
"Some server names are probably unknown or ambiguous (duplicated names in the backend)."
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
break;
case STAT_STATUS_ERRP:
chunk_appendf(&trash,
"<p><div class=active_down>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"Action not processed because of invalid parameters."
"<ul>"
"<li>The action is maybe unknown.</li>"
"<li>The backend name is probably unknown or ambiguous (duplicated names).</li>"
"<li>Some server names are probably unknown or ambiguous (duplicated names in the backend).</li>"
"</ul>"
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
break;
case STAT_STATUS_EXCD:
chunk_appendf(&trash,
"<p><div class=active_down>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"<b>Action not processed : the buffer couldn't store all the data.<br>"
"You should retry with less servers at a time.</b>"
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
break;
case STAT_STATUS_DENY:
chunk_appendf(&trash,
"<p><div class=active_down>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"<b>Action denied.</b>"
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
break;
default:
chunk_appendf(&trash,
"<p><div class=active_no_check>"
"<a class=lfsb href=\"%s%s%s%s\" title=\"Remove this message\">[X]</a> "
"Unexpected result."
"</div>\n", uri->uri_prefix,
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
}
chunk_appendf(&trash, "<p>\n");
}
}
/* Dumps the HTML stats trailer block to the trash. The caller is responsible
* for clearing the trash if needed.
*/
static void stats_dump_html_end()
{
chunk_appendf(&trash, "</body></html>\n");
}
/* This function dumps statistics onto the stream interface's read buffer in
* either CSV or HTML format. <uri> contains some HTML-specific parameters that
* are ignored for CSV format (hence <uri> may be NULL there). It returns 0 if
* it had to stop writing data and an I/O is needed, 1 if the dump is finished
* and the stream must be closed, or -1 in case of any error. This function is
* used by both the CLI and the HTTP handlers.
*/
static int stats_dump_stat_to_buffer(struct stream_interface *si, struct uri_auth *uri)
{
struct appctx *appctx = __objt_appctx(si->end);
struct channel *rep = si_ic(si);
struct proxy *px;
chunk_reset(&trash);
switch (appctx->st2) {
case STAT_ST_INIT:
appctx->st2 = STAT_ST_HEAD; /* let's start producing data */
/* fall through */
case STAT_ST_HEAD:
if (appctx->ctx.stats.flags & STAT_FMT_HTML)
stats_dump_html_head(uri);
else if (!(appctx->ctx.stats.flags & STAT_FMT_TYPED))
stats_dump_csv_header();
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->st2 = STAT_ST_INFO;
/* fall through */
case STAT_ST_INFO:
if (appctx->ctx.stats.flags & STAT_FMT_HTML) {
stats_dump_html_info(si, uri);
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->ctx.stats.px = proxy;
appctx->ctx.stats.px_st = STAT_PX_ST_INIT;
appctx->st2 = STAT_ST_LIST;
/* fall through */
case STAT_ST_LIST:
/* dump proxies */
while (appctx->ctx.stats.px) {
if (buffer_almost_full(rep->buf)) {
si_applet_cant_put(si);
return 0;
}
px = appctx->ctx.stats.px;
/* skip the disabled proxies, global frontend and non-networked ones */
if (px->state != PR_STSTOPPED && px->uuid > 0 && (px->cap & (PR_CAP_FE | PR_CAP_BE)))
if (stats_dump_proxy_to_buffer(si, px, uri) == 0)
return 0;
appctx->ctx.stats.px = px->next;
appctx->ctx.stats.px_st = STAT_PX_ST_INIT;
}
/* here, we just have reached the last proxy */
appctx->st2 = STAT_ST_END;
/* fall through */
case STAT_ST_END:
if (appctx->ctx.stats.flags & STAT_FMT_HTML) {
stats_dump_html_end();
if (bi_putchk(rep, &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
case STAT_ST_FIN:
return 1;
default:
/* unknown state ! */
appctx->st2 = STAT_ST_FIN;
return -1;
}
}
/* We reached the stats page through a POST request. The appctx is
* expected to have already been allocated by the caller.
* Parse the posted data and enable/disable servers if necessary.
* Returns 1 if request was parsed or zero if it needs more data.
*/
static int stats_process_http_post(struct stream_interface *si)
{
struct stream *s = si_strm(si);
struct appctx *appctx = objt_appctx(si->end);
struct proxy *px = NULL;
struct server *sv = NULL;
char key[LINESIZE];
int action = ST_ADM_ACTION_NONE;
int reprocess = 0;
int total_servers = 0;
int altered_servers = 0;
char *first_param, *cur_param, *next_param, *end_params;
char *st_cur_param = NULL;
char *st_next_param = NULL;
struct chunk *temp;
int reql;
temp = get_trash_chunk();
if (temp->size < s->txn->req.body_len) {
/* too large request */
appctx->ctx.stats.st_code = STAT_STATUS_EXCD;
goto out;
}
reql = bo_getblk(si_oc(si), temp->str, s->txn->req.body_len, s->txn->req.eoh + 2);
if (reql <= 0) {
/* we need more data */
appctx->ctx.stats.st_code = STAT_STATUS_NONE;
return 0;
}
first_param = temp->str;
end_params = temp->str + reql;
cur_param = next_param = end_params;
*end_params = '\0';
appctx->ctx.stats.st_code = STAT_STATUS_NONE;
/*
* Parse the parameters in reverse order to only store the last value.
* From the html form, the backend and the action are at the end.
*/
while (cur_param > first_param) {
char *value;
int poffset, plen;
cur_param--;
if ((*cur_param == '&') || (cur_param == first_param)) {
reprocess_servers:
/* Parse the key */
poffset = (cur_param != first_param ? 1 : 0);
plen = next_param - cur_param + (cur_param == first_param ? 1 : 0);
if ((plen > 0) && (plen <= sizeof(key))) {
strncpy(key, cur_param + poffset, plen);
key[plen - 1] = '\0';
} else {
appctx->ctx.stats.st_code = STAT_STATUS_EXCD;
goto out;
}
/* Parse the value */
value = key;
while (*value != '\0' && *value != '=') {
value++;
}
if (*value == '=') {
/* Ok, a value is found, we can mark the end of the key */
*value++ = '\0';
}
if (url_decode(key) < 0 || url_decode(value) < 0)
break;
/* Now we can check the key to see what to do */
if (!px && (strcmp(key, "b") == 0)) {
if ((px = proxy_be_by_name(value)) == NULL) {
/* the backend name is unknown or ambiguous (duplicate names) */
appctx->ctx.stats.st_code = STAT_STATUS_ERRP;
goto out;
}
}
else if (!action && (strcmp(key, "action") == 0)) {
if (strcmp(value, "ready") == 0) {
action = ST_ADM_ACTION_READY;
}
else if (strcmp(value, "drain") == 0) {
action = ST_ADM_ACTION_DRAIN;
}
else if (strcmp(value, "maint") == 0) {
action = ST_ADM_ACTION_MAINT;
}
else if (strcmp(value, "shutdown") == 0) {
action = ST_ADM_ACTION_SHUTDOWN;
}
else if (strcmp(value, "dhlth") == 0) {
action = ST_ADM_ACTION_DHLTH;
}
else if (strcmp(value, "ehlth") == 0) {
action = ST_ADM_ACTION_EHLTH;
}
else if (strcmp(value, "hrunn") == 0) {
action = ST_ADM_ACTION_HRUNN;
}
else if (strcmp(value, "hnolb") == 0) {
action = ST_ADM_ACTION_HNOLB;
}
else if (strcmp(value, "hdown") == 0) {
action = ST_ADM_ACTION_HDOWN;
}
else if (strcmp(value, "dagent") == 0) {
action = ST_ADM_ACTION_DAGENT;
}
else if (strcmp(value, "eagent") == 0) {
action = ST_ADM_ACTION_EAGENT;
}
else if (strcmp(value, "arunn") == 0) {
action = ST_ADM_ACTION_ARUNN;
}
else if (strcmp(value, "adown") == 0) {
action = ST_ADM_ACTION_ADOWN;
}
/* else these are the old supported methods */
else if (strcmp(value, "disable") == 0) {
action = ST_ADM_ACTION_DISABLE;
}
else if (strcmp(value, "enable") == 0) {
action = ST_ADM_ACTION_ENABLE;
}
else if (strcmp(value, "stop") == 0) {
action = ST_ADM_ACTION_STOP;
}
else if (strcmp(value, "start") == 0) {
action = ST_ADM_ACTION_START;
}
else {
appctx->ctx.stats.st_code = STAT_STATUS_ERRP;
goto out;
}
}
else if (strcmp(key, "s") == 0) {
if (!(px && action)) {
/*
* Indicates that we'll need to reprocess the parameters
* as soon as backend and action are known
*/
if (!reprocess) {
st_cur_param = cur_param;
st_next_param = next_param;
}
reprocess = 1;
}
else if ((sv = findserver(px, value)) != NULL) {
switch (action) {
case ST_ADM_ACTION_DISABLE:
if (!(sv->admin & SRV_ADMF_FMAINT)) {
altered_servers++;
total_servers++;
srv_set_admin_flag(sv, SRV_ADMF_FMAINT, "'disable' on stats page");
}
break;
case ST_ADM_ACTION_ENABLE:
if (sv->admin & SRV_ADMF_FMAINT) {
altered_servers++;
total_servers++;
srv_clr_admin_flag(sv, SRV_ADMF_FMAINT);
}
break;
case ST_ADM_ACTION_STOP:
if (!(sv->admin & SRV_ADMF_FDRAIN)) {
srv_set_admin_flag(sv, SRV_ADMF_FDRAIN, "'stop' on stats page");
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_START:
if (sv->admin & SRV_ADMF_FDRAIN) {
srv_clr_admin_flag(sv, SRV_ADMF_FDRAIN);
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_DHLTH:
if (sv->check.state & CHK_ST_CONFIGURED) {
sv->check.state &= ~CHK_ST_ENABLED;
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_EHLTH:
if (sv->check.state & CHK_ST_CONFIGURED) {
sv->check.state |= CHK_ST_ENABLED;
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_HRUNN:
if (!(sv->track)) {
sv->check.health = sv->check.rise + sv->check.fall - 1;
srv_set_running(sv, "changed from Web interface");
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_HNOLB:
if (!(sv->track)) {
sv->check.health = sv->check.rise + sv->check.fall - 1;
srv_set_stopping(sv, "changed from Web interface");
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_HDOWN:
if (!(sv->track)) {
sv->check.health = 0;
srv_set_stopped(sv, "changed from Web interface");
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_DAGENT:
if (sv->agent.state & CHK_ST_CONFIGURED) {
sv->agent.state &= ~CHK_ST_ENABLED;
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_EAGENT:
if (sv->agent.state & CHK_ST_CONFIGURED) {
sv->agent.state |= CHK_ST_ENABLED;
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_ARUNN:
if (sv->agent.state & CHK_ST_ENABLED) {
sv->agent.health = sv->agent.rise + sv->agent.fall - 1;
srv_set_running(sv, "changed from Web interface");
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_ADOWN:
if (sv->agent.state & CHK_ST_ENABLED) {
sv->agent.health = 0;
srv_set_stopped(sv, "changed from Web interface");
altered_servers++;
total_servers++;
}
break;
case ST_ADM_ACTION_READY:
srv_adm_set_ready(sv);
altered_servers++;
total_servers++;
break;
case ST_ADM_ACTION_DRAIN:
srv_adm_set_drain(sv);
altered_servers++;
total_servers++;
break;
case ST_ADM_ACTION_MAINT:
srv_adm_set_maint(sv);
altered_servers++;
total_servers++;
break;
case ST_ADM_ACTION_SHUTDOWN:
if (px->state != PR_STSTOPPED) {
struct stream *sess, *sess_bck;
list_for_each_entry_safe(sess, sess_bck, &sv->actconns, by_srv)
if (sess->srv_conn == sv)
stream_shutdown(sess, SF_ERR_KILLED);
altered_servers++;
total_servers++;
}
break;
}
} else {
/* the server name is unknown or ambiguous (duplicate names) */
total_servers++;
}
}
if (reprocess && px && action) {
/* Now, we know the backend and the action chosen by the user.
* We can safely restart from the first server parameter
* to reprocess them
*/
cur_param = st_cur_param;
next_param = st_next_param;
reprocess = 0;
goto reprocess_servers;
}
next_param = cur_param;
}
}
if (total_servers == 0) {
appctx->ctx.stats.st_code = STAT_STATUS_NONE;
}
else if (altered_servers == 0) {
appctx->ctx.stats.st_code = STAT_STATUS_ERRP;
}
else if (altered_servers == total_servers) {
appctx->ctx.stats.st_code = STAT_STATUS_DONE;
}
else {
appctx->ctx.stats.st_code = STAT_STATUS_PART;
}
out:
return 1;
}
static int stats_send_http_headers(struct stream_interface *si)
{
struct stream *s = si_strm(si);
struct uri_auth *uri = s->be->uri_auth;
struct appctx *appctx = objt_appctx(si->end);
chunk_printf(&trash,
"HTTP/1.1 200 OK\r\n"
"Cache-Control: no-cache\r\n"
"Connection: close\r\n"
"Content-Type: %s\r\n",
(appctx->ctx.stats.flags & STAT_FMT_HTML) ? "text/html" : "text/plain");
if (uri->refresh > 0 && !(appctx->ctx.stats.flags & STAT_NO_REFRESH))
chunk_appendf(&trash, "Refresh: %d\r\n",
uri->refresh);
/* we don't send the CRLF in chunked mode, it will be sent with the first chunk's size */
if (appctx->ctx.stats.flags & STAT_CHUNKED)
chunk_appendf(&trash, "Transfer-Encoding: chunked\r\n");
else
chunk_appendf(&trash, "\r\n");
s->txn->status = 200;
s->logs.tv_request = now;
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
return 1;
}
static int stats_send_http_redirect(struct stream_interface *si)
{
char scope_txt[STAT_SCOPE_TXT_MAXLEN + sizeof STAT_SCOPE_PATTERN];
struct stream *s = si_strm(si);
struct uri_auth *uri = s->be->uri_auth;
struct appctx *appctx = objt_appctx(si->end);
/* scope_txt = search pattern + search query, appctx->ctx.stats.scope_len is always <= STAT_SCOPE_TXT_MAXLEN */
scope_txt[0] = 0;
if (appctx->ctx.stats.scope_len) {
strcpy(scope_txt, STAT_SCOPE_PATTERN);
memcpy(scope_txt + strlen(STAT_SCOPE_PATTERN), bo_ptr(si_ob(si)) + appctx->ctx.stats.scope_str, appctx->ctx.stats.scope_len);
scope_txt[strlen(STAT_SCOPE_PATTERN) + appctx->ctx.stats.scope_len] = 0;
}
/* We don't want to land on the posted stats page because a refresh will
* repost the data. We don't want this to happen on accident so we redirect
* the browse to the stats page with a GET.
*/
chunk_printf(&trash,
"HTTP/1.1 303 See Other\r\n"
"Cache-Control: no-cache\r\n"
"Content-Type: text/plain\r\n"
"Connection: close\r\n"
"Location: %s;st=%s%s%s%s\r\n"
"Content-length: 0\r\n"
"\r\n",
uri->uri_prefix,
((appctx->ctx.stats.st_code > STAT_STATUS_INIT) &&
(appctx->ctx.stats.st_code < STAT_STATUS_SIZE) &&
stat_status_codes[appctx->ctx.stats.st_code]) ?
stat_status_codes[appctx->ctx.stats.st_code] :
stat_status_codes[STAT_STATUS_UNKN],
(appctx->ctx.stats.flags & STAT_HIDE_DOWN) ? ";up" : "",
(appctx->ctx.stats.flags & STAT_NO_REFRESH) ? ";norefresh" : "",
scope_txt);
s->txn->status = 303;
s->logs.tv_request = now;
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
return 1;
}
/* This I/O handler runs as an applet embedded in a stream interface. It is
* used to send HTTP stats over a TCP socket. The mechanism is very simple.
* appctx->st0 contains the operation in progress (dump, done). The handler
* automatically unregisters itself once transfer is complete.
*/
static void http_stats_io_handler(struct appctx *appctx)
{
struct stream_interface *si = appctx->owner;
struct stream *s = si_strm(si);
struct channel *req = si_oc(si);
struct channel *res = si_ic(si);
if (unlikely(si->state == SI_ST_DIS || si->state == SI_ST_CLO))
goto out;
/* check that the output is not closed */
if (res->flags & (CF_SHUTW|CF_SHUTW_NOW))
appctx->st0 = STAT_HTTP_DONE;
/* all states are processed in sequence */
if (appctx->st0 == STAT_HTTP_HEAD) {
if (stats_send_http_headers(si)) {
if (s->txn->meth == HTTP_METH_HEAD)
appctx->st0 = STAT_HTTP_DONE;
else
appctx->st0 = STAT_HTTP_DUMP;
}
}
if (appctx->st0 == STAT_HTTP_DUMP) {
unsigned int prev_len = si_ib(si)->i;
unsigned int data_len;
unsigned int last_len;
unsigned int last_fwd = 0;
if (appctx->ctx.stats.flags & STAT_CHUNKED) {
/* One difficulty we're facing is that we must prevent
* the input data from being automatically forwarded to
* the output area. For this, we temporarily disable
* forwarding on the channel.
*/
last_fwd = si_ic(si)->to_forward;
si_ic(si)->to_forward = 0;
chunk_printf(&trash, "\r\n000000\r\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
si_ic(si)->to_forward = last_fwd;
goto out;
}
}
data_len = si_ib(si)->i;
if (stats_dump_stat_to_buffer(si, s->be->uri_auth))
appctx->st0 = STAT_HTTP_DONE;
last_len = si_ib(si)->i;
/* Now we must either adjust or remove the chunk size. This is
* not easy because the chunk size might wrap at the end of the
* buffer, so we pretend we have nothing in the buffer, we write
* the size, then restore the buffer's contents. Note that we can
* only do that because no forwarding is scheduled on the stats
* applet.
*/
if (appctx->ctx.stats.flags & STAT_CHUNKED) {
si_ic(si)->total -= (last_len - prev_len);
si_ib(si)->i -= (last_len - prev_len);
if (last_len != data_len) {
chunk_printf(&trash, "\r\n%06x\r\n", (last_len - data_len));
if (bi_putchk(si_ic(si), &trash) == -1)
si_applet_cant_put(si);
si_ic(si)->total += (last_len - data_len);
si_ib(si)->i += (last_len - data_len);
}
/* now re-enable forwarding */
channel_forward(si_ic(si), last_fwd);
}
}
if (appctx->st0 == STAT_HTTP_POST) {
if (stats_process_http_post(si))
appctx->st0 = STAT_HTTP_LAST;
else if (si_oc(si)->flags & CF_SHUTR)
appctx->st0 = STAT_HTTP_DONE;
}
if (appctx->st0 == STAT_HTTP_LAST) {
if (stats_send_http_redirect(si))
appctx->st0 = STAT_HTTP_DONE;
}
if (appctx->st0 == STAT_HTTP_DONE) {
if (appctx->ctx.stats.flags & STAT_CHUNKED) {
chunk_printf(&trash, "\r\n0\r\n\r\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
goto out;
}
}
/* eat the whole request */
bo_skip(si_oc(si), si_ob(si)->o);
res->flags |= CF_READ_NULL;
si_shutr(si);
}
if ((res->flags & CF_SHUTR) && (si->state == SI_ST_EST))
si_shutw(si);
if (appctx->st0 == STAT_HTTP_DONE) {
if ((req->flags & CF_SHUTW) && (si->state == SI_ST_EST)) {
si_shutr(si);
res->flags |= CF_READ_NULL;
}
}
out:
/* just to make gcc happy */ ;
}
static inline const char *get_conn_ctrl_name(const struct connection *conn)
{
if (!conn_ctrl_ready(conn))
return "NONE";
return conn->ctrl->name;
}
static inline const char *get_conn_xprt_name(const struct connection *conn)
{
static char ptr[19];
if (!conn_xprt_ready(conn))
return "NONE";
if (conn->xprt == &raw_sock)
return "RAW";
#ifdef USE_OPENSSL
if (conn->xprt == &ssl_sock)
return "SSL";
#endif
snprintf(ptr, sizeof(ptr), "%p", conn->xprt);
return ptr;
}
static inline const char *get_conn_data_name(const struct connection *conn)
{
static char ptr[19];
if (!conn->data)
return "NONE";
if (conn->data == &sess_conn_cb)
return "SESS";
if (conn->data == &si_conn_cb)
return "STRM";
if (conn->data == &check_conn_cb)
return "CHCK";
snprintf(ptr, sizeof(ptr), "%p", conn->data);
return ptr;
}
/* This function dumps a complete stream state onto the stream interface's
* read buffer. The stream has to be set in sess->target. It returns
* 0 if the output buffer is full and it needs to be called again, otherwise
* non-zero. It is designed to be called from stats_dump_sess_to_buffer() below.
*/
static int stats_dump_full_sess_to_buffer(struct stream_interface *si, struct stream *sess)
{
struct appctx *appctx = __objt_appctx(si->end);
struct tm tm;
extern const char *monthname[12];
char pn[INET6_ADDRSTRLEN];
struct connection *conn;
struct appctx *tmpctx;
chunk_reset(&trash);
if (appctx->ctx.sess.section > 0 && appctx->ctx.sess.uid != sess->uniq_id) {
/* stream changed, no need to go any further */
chunk_appendf(&trash, " *** session terminated while we were watching it ***\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->ctx.sess.uid = 0;
appctx->ctx.sess.section = 0;
return 1;
}
switch (appctx->ctx.sess.section) {
case 0: /* main status of the stream */
appctx->ctx.sess.uid = sess->uniq_id;
appctx->ctx.sess.section = 1;
/* fall through */
case 1:
get_localtime(sess->logs.accept_date.tv_sec, &tm);
chunk_appendf(&trash,
"%p: [%02d/%s/%04d:%02d:%02d:%02d.%06d] id=%u proto=%s",
sess,
tm.tm_mday, monthname[tm.tm_mon], tm.tm_year+1900,
tm.tm_hour, tm.tm_min, tm.tm_sec, (int)(sess->logs.accept_date.tv_usec),
sess->uniq_id,
strm_li(sess) ? strm_li(sess)->proto->name : "?");
conn = objt_conn(strm_orig(sess));
switch (conn ? addr_to_str(&conn->addr.from, pn, sizeof(pn)) : AF_UNSPEC) {
case AF_INET:
case AF_INET6:
chunk_appendf(&trash, " source=%s:%d\n",
pn, get_host_port(&conn->addr.from));
break;
case AF_UNIX:
chunk_appendf(&trash, " source=unix:%d\n", strm_li(sess)->luid);
break;
default:
/* no more information to print right now */
chunk_appendf(&trash, "\n");
break;
}
chunk_appendf(&trash,
" flags=0x%x, conn_retries=%d, srv_conn=%p, pend_pos=%p\n",
sess->flags, sess->si[1].conn_retries, sess->srv_conn, sess->pend_pos);
chunk_appendf(&trash,
" frontend=%s (id=%u mode=%s), listener=%s (id=%u)",
strm_fe(sess)->id, strm_fe(sess)->uuid, strm_fe(sess)->mode ? "http" : "tcp",
strm_li(sess) ? strm_li(sess)->name ? strm_li(sess)->name : "?" : "?",
strm_li(sess) ? strm_li(sess)->luid : 0);
if (conn)
conn_get_to_addr(conn);
switch (conn ? addr_to_str(&conn->addr.to, pn, sizeof(pn)) : AF_UNSPEC) {
case AF_INET:
case AF_INET6:
chunk_appendf(&trash, " addr=%s:%d\n",
pn, get_host_port(&conn->addr.to));
break;
case AF_UNIX:
chunk_appendf(&trash, " addr=unix:%d\n", strm_li(sess)->luid);
break;
default:
/* no more information to print right now */
chunk_appendf(&trash, "\n");
break;
}
if (sess->be->cap & PR_CAP_BE)
chunk_appendf(&trash,
" backend=%s (id=%u mode=%s)",
sess->be->id,
sess->be->uuid, sess->be->mode ? "http" : "tcp");
else
chunk_appendf(&trash, " backend=<NONE> (id=-1 mode=-)");
conn = objt_conn(sess->si[1].end);
if (conn)
conn_get_from_addr(conn);
switch (conn ? addr_to_str(&conn->addr.from, pn, sizeof(pn)) : AF_UNSPEC) {
case AF_INET:
case AF_INET6:
chunk_appendf(&trash, " addr=%s:%d\n",
pn, get_host_port(&conn->addr.from));
break;
case AF_UNIX:
chunk_appendf(&trash, " addr=unix\n");
break;
default:
/* no more information to print right now */
chunk_appendf(&trash, "\n");
break;
}
if (sess->be->cap & PR_CAP_BE)
chunk_appendf(&trash,
" server=%s (id=%u)",
objt_server(sess->target) ? objt_server(sess->target)->id : "<none>",
objt_server(sess->target) ? objt_server(sess->target)->puid : 0);
else
chunk_appendf(&trash, " server=<NONE> (id=-1)");
if (conn)
conn_get_to_addr(conn);
switch (conn ? addr_to_str(&conn->addr.to, pn, sizeof(pn)) : AF_UNSPEC) {
case AF_INET:
case AF_INET6:
chunk_appendf(&trash, " addr=%s:%d\n",
pn, get_host_port(&conn->addr.to));
break;
case AF_UNIX:
chunk_appendf(&trash, " addr=unix\n");
break;
default:
/* no more information to print right now */
chunk_appendf(&trash, "\n");
break;
}
chunk_appendf(&trash,
" task=%p (state=0x%02x nice=%d calls=%d exp=%s%s",
sess->task,
sess->task->state,
sess->task->nice, sess->task->calls,
sess->task->expire ?
tick_is_expired(sess->task->expire, now_ms) ? "<PAST>" :
human_time(TICKS_TO_MS(sess->task->expire - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>",
task_in_rq(sess->task) ? ", running" : "");
chunk_appendf(&trash,
" age=%s)\n",
human_time(now.tv_sec - sess->logs.accept_date.tv_sec, 1));
if (sess->txn)
chunk_appendf(&trash,
" txn=%p flags=0x%x meth=%d status=%d req.st=%s rsp.st=%s waiting=%d\n",
sess->txn, sess->txn->flags, sess->txn->meth, sess->txn->status,
http_msg_state_str(sess->txn->req.msg_state), http_msg_state_str(sess->txn->rsp.msg_state), !LIST_ISEMPTY(&sess->buffer_wait));
chunk_appendf(&trash,
" si[0]=%p (state=%s flags=0x%02x endp0=%s:%p exp=%s, et=0x%03x)\n",
&sess->si[0],
si_state_str(sess->si[0].state),
sess->si[0].flags,
obj_type_name(sess->si[0].end),
obj_base_ptr(sess->si[0].end),
sess->si[0].exp ?
tick_is_expired(sess->si[0].exp, now_ms) ? "<PAST>" :
human_time(TICKS_TO_MS(sess->si[0].exp - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>",
sess->si[0].err_type);
chunk_appendf(&trash,
" si[1]=%p (state=%s flags=0x%02x endp1=%s:%p exp=%s, et=0x%03x)\n",
&sess->si[1],
si_state_str(sess->si[1].state),
sess->si[1].flags,
obj_type_name(sess->si[1].end),
obj_base_ptr(sess->si[1].end),
sess->si[1].exp ?
tick_is_expired(sess->si[1].exp, now_ms) ? "<PAST>" :
human_time(TICKS_TO_MS(sess->si[1].exp - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>",
sess->si[1].err_type);
if ((conn = objt_conn(sess->si[0].end)) != NULL) {
chunk_appendf(&trash,
" co0=%p ctrl=%s xprt=%s data=%s target=%s:%p\n",
conn,
get_conn_ctrl_name(conn),
get_conn_xprt_name(conn),
get_conn_data_name(conn),
obj_type_name(conn->target),
obj_base_ptr(conn->target));
chunk_appendf(&trash, " flags=0x%08x", conn->flags);
if (conn->t.sock.fd >= 0) {
chunk_appendf(&trash, " fd=%d fd.state=%02x fd.cache=%d updt=%d\n",
conn->t.sock.fd, fdtab[conn->t.sock.fd].state,
fdtab[conn->t.sock.fd].cache, fdtab[conn->t.sock.fd].updated);
}
else
chunk_appendf(&trash, " fd=<dead>\n");
}
else if ((tmpctx = objt_appctx(sess->si[0].end)) != NULL) {
chunk_appendf(&trash,
" app0=%p st0=%d st1=%d st2=%d applet=%s\n",
tmpctx,
tmpctx->st0,
tmpctx->st1,
tmpctx->st2,
tmpctx->applet->name);
}
if ((conn = objt_conn(sess->si[1].end)) != NULL) {
chunk_appendf(&trash,
" co1=%p ctrl=%s xprt=%s data=%s target=%s:%p\n",
conn,
get_conn_ctrl_name(conn),
get_conn_xprt_name(conn),
get_conn_data_name(conn),
obj_type_name(conn->target),
obj_base_ptr(conn->target));
chunk_appendf(&trash, " flags=0x%08x", conn->flags);
if (conn->t.sock.fd >= 0) {
chunk_appendf(&trash, " fd=%d fd.state=%02x fd.cache=%d updt=%d\n",
conn->t.sock.fd, fdtab[conn->t.sock.fd].state,
fdtab[conn->t.sock.fd].cache, fdtab[conn->t.sock.fd].updated);
}
else
chunk_appendf(&trash, " fd=<dead>\n");
}
else if ((tmpctx = objt_appctx(sess->si[1].end)) != NULL) {
chunk_appendf(&trash,
" app1=%p st0=%d st1=%d st2=%d applet=%s\n",
tmpctx,
tmpctx->st0,
tmpctx->st1,
tmpctx->st2,
tmpctx->applet->name);
}
chunk_appendf(&trash,
" req=%p (f=0x%06x an=0x%x pipe=%d tofwd=%d total=%lld)\n"
" an_exp=%s",
&sess->req,
sess->req.flags, sess->req.analysers,
sess->req.pipe ? sess->req.pipe->data : 0,
sess->req.to_forward, sess->req.total,
sess->req.analyse_exp ?
human_time(TICKS_TO_MS(sess->req.analyse_exp - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>");
chunk_appendf(&trash,
" rex=%s",
sess->req.rex ?
human_time(TICKS_TO_MS(sess->req.rex - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>");
chunk_appendf(&trash,
" wex=%s\n"
" buf=%p data=%p o=%d p=%d req.next=%d i=%d size=%d\n",
sess->req.wex ?
human_time(TICKS_TO_MS(sess->req.wex - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>",
sess->req.buf,
sess->req.buf->data, sess->req.buf->o,
(int)(sess->req.buf->p - sess->req.buf->data),
sess->txn ? sess->txn->req.next : 0, sess->req.buf->i,
sess->req.buf->size);
chunk_appendf(&trash,
" res=%p (f=0x%06x an=0x%x pipe=%d tofwd=%d total=%lld)\n"
" an_exp=%s",
&sess->res,
sess->res.flags, sess->res.analysers,
sess->res.pipe ? sess->res.pipe->data : 0,
sess->res.to_forward, sess->res.total,
sess->res.analyse_exp ?
human_time(TICKS_TO_MS(sess->res.analyse_exp - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>");
chunk_appendf(&trash,
" rex=%s",
sess->res.rex ?
human_time(TICKS_TO_MS(sess->res.rex - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>");
chunk_appendf(&trash,
" wex=%s\n"
" buf=%p data=%p o=%d p=%d rsp.next=%d i=%d size=%d\n",
sess->res.wex ?
human_time(TICKS_TO_MS(sess->res.wex - now_ms),
TICKS_TO_MS(1000)) : "<NEVER>",
sess->res.buf,
sess->res.buf->data, sess->res.buf->o,
(int)(sess->res.buf->p - sess->res.buf->data),
sess->txn ? sess->txn->rsp.next : 0, sess->res.buf->i,
sess->res.buf->size);
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
/* use other states to dump the contents */
}
/* end of dump */
appctx->ctx.sess.uid = 0;
appctx->ctx.sess.section = 0;
return 1;
}
#if (defined SSL_CTRL_SET_TLSEXT_TICKET_KEY_CB && TLS_TICKETS_NO > 0)
static int stats_tlskeys_list(struct stream_interface *si) {
struct appctx *appctx = __objt_appctx(si->end);
switch (appctx->st2) {
case STAT_ST_INIT:
/* Display the column headers. If the message cannot be sent,
* quit the fucntion with returning 0. The function is called
* later and restart at the state "STAT_ST_INIT".
*/
chunk_reset(&trash);
if (appctx->st0 == STAT_CLI_O_TLSK_ENT)
chunk_appendf(&trash, "# id secret\n");
else
chunk_appendf(&trash, "# id (file)\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->ctx.tlskeys.dump_keys_index = 0;
/* Now, we start the browsing of the references lists.
* Note that the following call to LIST_ELEM return bad pointer. The only
* available field of this pointer is <list>. It is used with the function
* tlskeys_list_get_next() for retruning the first available entry
*/
if (appctx->ctx.tlskeys.ref == NULL) {
appctx->ctx.tlskeys.ref = LIST_ELEM(&tlskeys_reference, struct tls_keys_ref *, list);
appctx->ctx.tlskeys.ref = tlskeys_list_get_next(appctx->ctx.tlskeys.ref, &tlskeys_reference);
}
appctx->st2 = STAT_ST_LIST;
/* fall through */
case STAT_ST_LIST:
while (appctx->ctx.tlskeys.ref) {
int head = appctx->ctx.tlskeys.ref->tls_ticket_enc_index;
chunk_reset(&trash);
if (appctx->st0 == STAT_CLI_O_TLSK_ENT && appctx->ctx.tlskeys.dump_keys_index == 0)
chunk_appendf(&trash, "# ");
if (appctx->ctx.tlskeys.dump_keys_index == 0)
chunk_appendf(&trash, "%d (%s)\n", appctx->ctx.tlskeys.ref->unique_id,
appctx->ctx.tlskeys.ref->filename);
if (appctx->st0 == STAT_CLI_O_TLSK_ENT) {
while (appctx->ctx.tlskeys.dump_keys_index < TLS_TICKETS_NO) {
struct chunk *t2 = get_trash_chunk();
chunk_reset(t2);
/* should never fail here because we dump only a key in the t2 buffer */
t2->len = a2base64((char *)(appctx->ctx.tlskeys.ref->tlskeys + (head + 2 + appctx->ctx.tlskeys.dump_keys_index) % TLS_TICKETS_NO),
sizeof(struct tls_sess_key), t2->str, t2->size);
chunk_appendf(&trash, "%d.%d %s\n", appctx->ctx.tlskeys.ref->unique_id, appctx->ctx.tlskeys.dump_keys_index, t2->str);
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this stream. We add ourselves into
* this stream's users so that it can remove us upon termination.
*/
si_applet_cant_put(si);
return 0;
}
appctx->ctx.tlskeys.dump_keys_index++;
}
appctx->ctx.tlskeys.dump_keys_index = 0;
}
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this stream. We add ourselves into
* this stream's users so that it can remove us upon termination.
*/
si_applet_cant_put(si);
return 0;
}
if (appctx->ctx.tlskeys.dump_all == 0) /* don't display everything if not necessary */
break;
/* get next list entry and check the end of the list */
appctx->ctx.tlskeys.ref = tlskeys_list_get_next(appctx->ctx.tlskeys.ref, &tlskeys_reference);
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
default:
appctx->st2 = STAT_ST_FIN;
return 1;
}
return 0;
}
#endif
static int stats_pats_list(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
switch (appctx->st2) {
case STAT_ST_INIT:
/* Display the column headers. If the message cannot be sent,
* quit the fucntion with returning 0. The function is called
* later and restart at the state "STAT_ST_INIT".
*/
chunk_reset(&trash);
chunk_appendf(&trash, "# id (file) description\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
/* Now, we start the browsing of the references lists.
* Note that the following call to LIST_ELEM return bad pointer. The only
* available field of this pointer is <list>. It is used with the function
* pat_list_get_next() for retruning the first available entry
*/
appctx->ctx.map.ref = LIST_ELEM(&pattern_reference, struct pat_ref *, list);
appctx->ctx.map.ref = pat_list_get_next(appctx->ctx.map.ref, &pattern_reference,
appctx->ctx.map.display_flags);
appctx->st2 = STAT_ST_LIST;
/* fall through */
case STAT_ST_LIST:
while (appctx->ctx.map.ref) {
chunk_reset(&trash);
/* Build messages. If the reference is used by another category than
* the listed categorie, display the information in the massage.
*/
chunk_appendf(&trash, "%d (%s) %s\n", appctx->ctx.map.ref->unique_id,
appctx->ctx.map.ref->reference ? appctx->ctx.map.ref->reference : "",
appctx->ctx.map.ref->display);
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this stream. We add ourselves into
* this stream's users so that it can remove us upon termination.
*/
si_applet_cant_put(si);
return 0;
}
/* get next list entry and check the end of the list */
appctx->ctx.map.ref = pat_list_get_next(appctx->ctx.map.ref, &pattern_reference,
appctx->ctx.map.display_flags);
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
default:
appctx->st2 = STAT_ST_FIN;
return 1;
}
return 0;
}
static int stats_map_lookup(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
struct sample sample;
struct pattern *pat;
int match_method;
switch (appctx->st2) {
case STAT_ST_INIT:
/* Init to the first entry. The list cannot be change */
appctx->ctx.map.expr = LIST_ELEM(&appctx->ctx.map.ref->pat, struct pattern_expr *, list);
appctx->ctx.map.expr = pat_expr_get_next(appctx->ctx.map.expr, &appctx->ctx.map.ref->pat);
appctx->st2 = STAT_ST_LIST;
/* fall through */
case STAT_ST_LIST:
/* for each lookup type */
while (appctx->ctx.map.expr) {
/* initialise chunk to build new message */
chunk_reset(&trash);
/* execute pattern matching */
sample.data.type = SMP_T_STR;
sample.flags = SMP_F_CONST;
sample.data.u.str.len = appctx->ctx.map.chunk.len;
sample.data.u.str.str = appctx->ctx.map.chunk.str;
if (appctx->ctx.map.expr->pat_head->match &&
sample_convert(&sample, appctx->ctx.map.expr->pat_head->expect_type))
pat = appctx->ctx.map.expr->pat_head->match(&sample, appctx->ctx.map.expr, 1);
else
pat = NULL;
/* build return message: set type of match */
for (match_method=0; match_method<PAT_MATCH_NUM; match_method++)
if (appctx->ctx.map.expr->pat_head->match == pat_match_fcts[match_method])
break;
if (match_method >= PAT_MATCH_NUM)
chunk_appendf(&trash, "type=unknown(%p)", appctx->ctx.map.expr->pat_head->match);
else
chunk_appendf(&trash, "type=%s", pat_match_names[match_method]);
/* case sensitive */
if (appctx->ctx.map.expr->mflags & PAT_MF_IGNORE_CASE)
chunk_appendf(&trash, ", case=insensitive");
else
chunk_appendf(&trash, ", case=sensitive");
/* Display no match, and set default value */
if (!pat) {
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
chunk_appendf(&trash, ", found=no");
else
chunk_appendf(&trash, ", match=no");
}
/* Display match and match info */
else {
/* display match */
if (appctx->ctx.map.display_flags == PAT_REF_MAP)
chunk_appendf(&trash, ", found=yes");
else
chunk_appendf(&trash, ", match=yes");
/* display index mode */
if (pat->sflags & PAT_SF_TREE)
chunk_appendf(&trash, ", idx=tree");
else
chunk_appendf(&trash, ", idx=list");
/* display pattern */
if (appctx->ctx.map.display_flags == PAT_REF_MAP) {
if (pat->ref && pat->ref->pattern)
chunk_appendf(&trash, ", key=\"%s\"", pat->ref->pattern);
else
chunk_appendf(&trash, ", key=unknown");
}
else {
if (pat->ref && pat->ref->pattern)
chunk_appendf(&trash, ", pattern=\"%s\"", pat->ref->pattern);
else
chunk_appendf(&trash, ", pattern=unknown");
}
/* display return value */
if (appctx->ctx.map.display_flags == PAT_REF_MAP) {
if (pat->data && pat->ref && pat->ref->sample)
chunk_appendf(&trash, ", value=\"%s\", type=\"%s\"", pat->ref->sample,
smp_to_type[pat->data->type]);
else
chunk_appendf(&trash, ", value=none");
}
}
chunk_appendf(&trash, "\n");
/* display response */
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this stream. We add ourselves into
* this stream's users so that it can remove us upon termination.
*/
si_applet_cant_put(si);
return 0;
}
/* get next entry */
appctx->ctx.map.expr = pat_expr_get_next(appctx->ctx.map.expr,
&appctx->ctx.map.ref->pat);
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
default:
appctx->st2 = STAT_ST_FIN;
free(appctx->ctx.map.chunk.str);
return 1;
}
}
static int stats_pat_list(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
switch (appctx->st2) {
case STAT_ST_INIT:
/* Init to the first entry. The list cannot be change */
appctx->ctx.map.elt = LIST_NEXT(&appctx->ctx.map.ref->head,
struct pat_ref_elt *, list);
if (&appctx->ctx.map.elt->list == &appctx->ctx.map.ref->head)
appctx->ctx.map.elt = NULL;
appctx->st2 = STAT_ST_LIST;
/* fall through */
case STAT_ST_LIST:
while (appctx->ctx.map.elt) {
chunk_reset(&trash);
/* build messages */
if (appctx->ctx.map.elt->sample)
chunk_appendf(&trash, "%p %s %s\n",
appctx->ctx.map.elt, appctx->ctx.map.elt->pattern,
appctx->ctx.map.elt->sample);
else
chunk_appendf(&trash, "%p %s\n",
appctx->ctx.map.elt, appctx->ctx.map.elt->pattern);
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this stream. We add ourselves into
* this stream's users so that it can remove us upon termination.
*/
si_applet_cant_put(si);
return 0;
}
/* get next list entry and check the end of the list */
appctx->ctx.map.elt = LIST_NEXT(&appctx->ctx.map.elt->list,
struct pat_ref_elt *, list);
if (&appctx->ctx.map.elt->list == &appctx->ctx.map.ref->head)
break;
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
default:
appctx->st2 = STAT_ST_FIN;
return 1;
}
}
/* This function dumps all streams' states onto the stream interface's
* read buffer. It returns 0 if the output buffer is full and it needs
* to be called again, otherwise non-zero. It is designed to be called
* from stats_dump_sess_to_buffer() below.
*/
static int stats_dump_sess_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
struct connection *conn;
if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW))) {
/* If we're forced to shut down, we might have to remove our
* reference to the last stream being dumped.
*/
if (appctx->st2 == STAT_ST_LIST) {
if (!LIST_ISEMPTY(&appctx->ctx.sess.bref.users)) {
LIST_DEL(&appctx->ctx.sess.bref.users);
LIST_INIT(&appctx->ctx.sess.bref.users);
}
}
return 1;
}
chunk_reset(&trash);
switch (appctx->st2) {
case STAT_ST_INIT:
/* the function had not been called yet, let's prepare the
* buffer for a response. We initialize the current stream
* pointer to the first in the global list. When a target
* stream is being destroyed, it is responsible for updating
* this pointer. We know we have reached the end when this
* pointer points back to the head of the streams list.
*/
LIST_INIT(&appctx->ctx.sess.bref.users);
appctx->ctx.sess.bref.ref = streams.n;
appctx->st2 = STAT_ST_LIST;
/* fall through */
case STAT_ST_LIST:
/* first, let's detach the back-ref from a possible previous stream */
if (!LIST_ISEMPTY(&appctx->ctx.sess.bref.users)) {
LIST_DEL(&appctx->ctx.sess.bref.users);
LIST_INIT(&appctx->ctx.sess.bref.users);
}
/* and start from where we stopped */
while (appctx->ctx.sess.bref.ref != &streams) {
char pn[INET6_ADDRSTRLEN];
struct stream *curr_sess;
curr_sess = LIST_ELEM(appctx->ctx.sess.bref.ref, struct stream *, list);
if (appctx->ctx.sess.target) {
if (appctx->ctx.sess.target != (void *)-1 && appctx->ctx.sess.target != curr_sess)
goto next_sess;
LIST_ADDQ(&curr_sess->back_refs, &appctx->ctx.sess.bref.users);
/* call the proper dump() function and return if we're missing space */
if (!stats_dump_full_sess_to_buffer(si, curr_sess))
return 0;
/* stream dump complete */
LIST_DEL(&appctx->ctx.sess.bref.users);
LIST_INIT(&appctx->ctx.sess.bref.users);
if (appctx->ctx.sess.target != (void *)-1) {
appctx->ctx.sess.target = NULL;
break;
}
else
goto next_sess;
}
chunk_appendf(&trash,
"%p: proto=%s",
curr_sess,
strm_li(curr_sess) ? strm_li(curr_sess)->proto->name : "?");
conn = objt_conn(strm_orig(curr_sess));
switch (conn ? addr_to_str(&conn->addr.from, pn, sizeof(pn)) : AF_UNSPEC) {
case AF_INET:
case AF_INET6:
chunk_appendf(&trash,
" src=%s:%d fe=%s be=%s srv=%s",
pn,
get_host_port(&conn->addr.from),
strm_fe(curr_sess)->id,
(curr_sess->be->cap & PR_CAP_BE) ? curr_sess->be->id : "<NONE>",
objt_server(curr_sess->target) ? objt_server(curr_sess->target)->id : "<none>"
);
break;
case AF_UNIX:
chunk_appendf(&trash,
" src=unix:%d fe=%s be=%s srv=%s",
strm_li(curr_sess)->luid,
strm_fe(curr_sess)->id,
(curr_sess->be->cap & PR_CAP_BE) ? curr_sess->be->id : "<NONE>",
objt_server(curr_sess->target) ? objt_server(curr_sess->target)->id : "<none>"
);
break;
}
chunk_appendf(&trash,
" ts=%02x age=%s calls=%d",
curr_sess->task->state,
human_time(now.tv_sec - curr_sess->logs.tv_accept.tv_sec, 1),
curr_sess->task->calls);
chunk_appendf(&trash,
" rq[f=%06xh,i=%d,an=%02xh,rx=%s",
curr_sess->req.flags,
curr_sess->req.buf->i,
curr_sess->req.analysers,
curr_sess->req.rex ?
human_time(TICKS_TO_MS(curr_sess->req.rex - now_ms),
TICKS_TO_MS(1000)) : "");
chunk_appendf(&trash,
",wx=%s",
curr_sess->req.wex ?
human_time(TICKS_TO_MS(curr_sess->req.wex - now_ms),
TICKS_TO_MS(1000)) : "");
chunk_appendf(&trash,
",ax=%s]",
curr_sess->req.analyse_exp ?
human_time(TICKS_TO_MS(curr_sess->req.analyse_exp - now_ms),
TICKS_TO_MS(1000)) : "");
chunk_appendf(&trash,
" rp[f=%06xh,i=%d,an=%02xh,rx=%s",
curr_sess->res.flags,
curr_sess->res.buf->i,
curr_sess->res.analysers,
curr_sess->res.rex ?
human_time(TICKS_TO_MS(curr_sess->res.rex - now_ms),
TICKS_TO_MS(1000)) : "");
chunk_appendf(&trash,
",wx=%s",
curr_sess->res.wex ?
human_time(TICKS_TO_MS(curr_sess->res.wex - now_ms),
TICKS_TO_MS(1000)) : "");
chunk_appendf(&trash,
",ax=%s]",
curr_sess->res.analyse_exp ?
human_time(TICKS_TO_MS(curr_sess->res.analyse_exp - now_ms),
TICKS_TO_MS(1000)) : "");
conn = objt_conn(curr_sess->si[0].end);
chunk_appendf(&trash,
" s0=[%d,%1xh,fd=%d,ex=%s]",
curr_sess->si[0].state,
curr_sess->si[0].flags,
(conn && conn->t.sock.fd >= 0) ? conn->t.sock.fd : -1,
curr_sess->si[0].exp ?
human_time(TICKS_TO_MS(curr_sess->si[0].exp - now_ms),
TICKS_TO_MS(1000)) : "");
conn = objt_conn(curr_sess->si[1].end);
chunk_appendf(&trash,
" s1=[%d,%1xh,fd=%d,ex=%s]",
curr_sess->si[1].state,
curr_sess->si[1].flags,
(conn && conn->t.sock.fd >= 0) ? conn->t.sock.fd : -1,
curr_sess->si[1].exp ?
human_time(TICKS_TO_MS(curr_sess->si[1].exp - now_ms),
TICKS_TO_MS(1000)) : "");
chunk_appendf(&trash,
" exp=%s",
curr_sess->task->expire ?
human_time(TICKS_TO_MS(curr_sess->task->expire - now_ms),
TICKS_TO_MS(1000)) : "");
if (task_in_rq(curr_sess->task))
chunk_appendf(&trash, " run(nice=%d)", curr_sess->task->nice);
chunk_appendf(&trash, "\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this stream. We add ourselves into
* this stream's users so that it can remove us upon termination.
*/
si_applet_cant_put(si);
LIST_ADDQ(&curr_sess->back_refs, &appctx->ctx.sess.bref.users);
return 0;
}
next_sess:
appctx->ctx.sess.bref.ref = curr_sess->list.n;
}
if (appctx->ctx.sess.target && appctx->ctx.sess.target != (void *)-1) {
/* specified stream not found */
if (appctx->ctx.sess.section > 0)
chunk_appendf(&trash, " *** session terminated while we were watching it ***\n");
else
chunk_appendf(&trash, "Session not found.\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->ctx.sess.target = NULL;
appctx->ctx.sess.uid = 0;
return 1;
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
default:
appctx->st2 = STAT_ST_FIN;
return 1;
}
}
/* This is called when the stream interface is closed. For instance, upon an
* external abort, we won't call the i/o handler anymore so we may need to
* remove back references to the stream currently being dumped.
*/
static void cli_release_handler(struct appctx *appctx)
{
if (appctx->io_release) {
appctx->io_release(appctx);
appctx->io_release = NULL;
}
if (appctx->st0 == STAT_CLI_O_SESS && appctx->st2 == STAT_ST_LIST) {
if (!LIST_ISEMPTY(&appctx->ctx.sess.bref.users))
LIST_DEL(&appctx->ctx.sess.bref.users);
}
else if ((appctx->st0 == STAT_CLI_O_TAB || appctx->st0 == STAT_CLI_O_CLR) &&
appctx->st2 == STAT_ST_LIST) {
appctx->ctx.table.entry->ref_cnt--;
stksess_kill_if_expired(&appctx->ctx.table.proxy->table, appctx->ctx.table.entry);
}
else if (appctx->st0 == STAT_CLI_PRINT_FREE) {
free(appctx->ctx.cli.err);
appctx->ctx.cli.err = NULL;
}
else if (appctx->st0 == STAT_CLI_O_MLOOK) {
free(appctx->ctx.map.chunk.str);
appctx->ctx.map.chunk.str = NULL;
}
}
/* This function is used to either dump tables states (when action is set
* to STAT_CLI_O_TAB) or clear tables (when action is STAT_CLI_O_CLR).
* It returns 0 if the output buffer is full and it needs to be called
* again, otherwise non-zero.
*/
static int stats_table_request(struct stream_interface *si, int action)
{
struct appctx *appctx = __objt_appctx(si->end);
struct stream *s = si_strm(si);
struct ebmb_node *eb;
int dt;
int skip_entry;
int show = action == STAT_CLI_O_TAB;
/*
* We have 3 possible states in appctx->st2 :
* - STAT_ST_INIT : the first call
* - STAT_ST_INFO : the proxy pointer points to the next table to
* dump, the entry pointer is NULL ;
* - STAT_ST_LIST : the proxy pointer points to the current table
* and the entry pointer points to the next entry to be dumped,
* and the refcount on the next entry is held ;
* - STAT_ST_END : nothing left to dump, the buffer may contain some
* data though.
*/
if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW))) {
/* in case of abort, remove any refcount we might have set on an entry */
if (appctx->st2 == STAT_ST_LIST) {
appctx->ctx.table.entry->ref_cnt--;
stksess_kill_if_expired(&appctx->ctx.table.proxy->table, appctx->ctx.table.entry);
}
return 1;
}
chunk_reset(&trash);
while (appctx->st2 != STAT_ST_FIN) {
switch (appctx->st2) {
case STAT_ST_INIT:
appctx->ctx.table.proxy = appctx->ctx.table.target;
if (!appctx->ctx.table.proxy)
appctx->ctx.table.proxy = proxy;
appctx->ctx.table.entry = NULL;
appctx->st2 = STAT_ST_INFO;
break;
case STAT_ST_INFO:
if (!appctx->ctx.table.proxy ||
(appctx->ctx.table.target &&
appctx->ctx.table.proxy != appctx->ctx.table.target)) {
appctx->st2 = STAT_ST_END;
break;
}
if (appctx->ctx.table.proxy->table.size) {
if (show && !stats_dump_table_head_to_buffer(&trash, si, appctx->ctx.table.proxy,
appctx->ctx.table.target))
return 0;
if (appctx->ctx.table.target &&
strm_li(s)->bind_conf->level >= ACCESS_LVL_OPER) {
/* dump entries only if table explicitly requested */
eb = ebmb_first(&appctx->ctx.table.proxy->table.keys);
if (eb) {
appctx->ctx.table.entry = ebmb_entry(eb, struct stksess, key);
appctx->ctx.table.entry->ref_cnt++;
appctx->st2 = STAT_ST_LIST;
break;
}
}
}
appctx->ctx.table.proxy = appctx->ctx.table.proxy->next;
break;
case STAT_ST_LIST:
skip_entry = 0;
if (appctx->ctx.table.data_type >= 0) {
/* we're filtering on some data contents */
void *ptr;
long long data;
dt = appctx->ctx.table.data_type;
ptr = stktable_data_ptr(&appctx->ctx.table.proxy->table,
appctx->ctx.table.entry,
dt);
data = 0;
switch (stktable_data_types[dt].std_type) {
case STD_T_SINT:
data = stktable_data_cast(ptr, std_t_sint);
break;
case STD_T_UINT:
data = stktable_data_cast(ptr, std_t_uint);
break;
case STD_T_ULL:
data = stktable_data_cast(ptr, std_t_ull);
break;
case STD_T_FRQP:
data = read_freq_ctr_period(&stktable_data_cast(ptr, std_t_frqp),
appctx->ctx.table.proxy->table.data_arg[dt].u);
break;
}
/* skip the entry if the data does not match the test and the value */
if ((data < appctx->ctx.table.value &&
(appctx->ctx.table.data_op == STD_OP_EQ ||
appctx->ctx.table.data_op == STD_OP_GT ||
appctx->ctx.table.data_op == STD_OP_GE)) ||
(data == appctx->ctx.table.value &&
(appctx->ctx.table.data_op == STD_OP_NE ||
appctx->ctx.table.data_op == STD_OP_GT ||
appctx->ctx.table.data_op == STD_OP_LT)) ||
(data > appctx->ctx.table.value &&
(appctx->ctx.table.data_op == STD_OP_EQ ||
appctx->ctx.table.data_op == STD_OP_LT ||
appctx->ctx.table.data_op == STD_OP_LE)))
skip_entry = 1;
}
if (show && !skip_entry &&
!stats_dump_table_entry_to_buffer(&trash, si, appctx->ctx.table.proxy,
appctx->ctx.table.entry))
return 0;
appctx->ctx.table.entry->ref_cnt--;
eb = ebmb_next(&appctx->ctx.table.entry->key);
if (eb) {
struct stksess *old = appctx->ctx.table.entry;
appctx->ctx.table.entry = ebmb_entry(eb, struct stksess, key);
if (show)
stksess_kill_if_expired(&appctx->ctx.table.proxy->table, old);
else if (!skip_entry && !appctx->ctx.table.entry->ref_cnt)
stksess_kill(&appctx->ctx.table.proxy->table, old);
appctx->ctx.table.entry->ref_cnt++;
break;
}
if (show)
stksess_kill_if_expired(&appctx->ctx.table.proxy->table, appctx->ctx.table.entry);
else if (!skip_entry && !appctx->ctx.table.entry->ref_cnt)
stksess_kill(&appctx->ctx.table.proxy->table, appctx->ctx.table.entry);
appctx->ctx.table.proxy = appctx->ctx.table.proxy->next;
appctx->st2 = STAT_ST_INFO;
break;
case STAT_ST_END:
appctx->st2 = STAT_ST_FIN;
break;
}
}
return 1;
}
/* print a line of text buffer (limited to 70 bytes) to <out>. The format is :
* <2 spaces> <offset=5 digits> <space or plus> <space> <70 chars max> <\n>
* which is 60 chars per line. Non-printable chars \t, \n, \r and \e are
* encoded in C format. Other non-printable chars are encoded "\xHH". Original
* lines are respected within the limit of 70 output chars. Lines that are
* continuation of a previous truncated line begin with "+" instead of " "
* after the offset. The new pointer is returned.
*/
static int dump_text_line(struct chunk *out, const char *buf, int bsize, int len,
int *line, int ptr)
{
int end;
unsigned char c;
end = out->len + 80;
if (end > out->size)
return ptr;
chunk_appendf(out, " %05d%c ", ptr, (ptr == *line) ? ' ' : '+');
while (ptr < len && ptr < bsize) {
c = buf[ptr];
if (isprint(c) && isascii(c) && c != '\\') {
if (out->len > end - 2)
break;
out->str[out->len++] = c;
} else if (c == '\t' || c == '\n' || c == '\r' || c == '\e' || c == '\\') {
if (out->len > end - 3)
break;
out->str[out->len++] = '\\';
switch (c) {
case '\t': c = 't'; break;
case '\n': c = 'n'; break;
case '\r': c = 'r'; break;
case '\e': c = 'e'; break;
case '\\': c = '\\'; break;
}
out->str[out->len++] = c;
} else {
if (out->len > end - 5)
break;
out->str[out->len++] = '\\';
out->str[out->len++] = 'x';
out->str[out->len++] = hextab[(c >> 4) & 0xF];
out->str[out->len++] = hextab[c & 0xF];
}
if (buf[ptr++] == '\n') {
/* we had a line break, let's return now */
out->str[out->len++] = '\n';
*line = ptr;
return ptr;
}
}
/* we have an incomplete line, we return it as-is */
out->str[out->len++] = '\n';
return ptr;
}
/* This function dumps counters from all resolvers section and associated name servers.
* It returns 0 if the output buffer is full and it needs
* to be called again, otherwise non-zero.
*/
static int stats_dump_resolvers_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
struct dns_resolvers *presolvers;
struct dns_nameserver *pnameserver;
chunk_reset(&trash);
switch (appctx->st2) {
case STAT_ST_INIT:
appctx->st2 = STAT_ST_LIST; /* let's start producing data */
/* fall through */
case STAT_ST_LIST:
if (LIST_ISEMPTY(&dns_resolvers)) {
chunk_appendf(&trash, "No resolvers found\n");
}
else {
list_for_each_entry(presolvers, &dns_resolvers, list) {
if (appctx->ctx.resolvers.ptr != NULL && appctx->ctx.resolvers.ptr != presolvers)
continue;
chunk_appendf(&trash, "Resolvers section %s\n", presolvers->id);
list_for_each_entry(pnameserver, &presolvers->nameserver_list, list) {
chunk_appendf(&trash, " nameserver %s:\n", pnameserver->id);
chunk_appendf(&trash, " sent: %ld\n", pnameserver->counters.sent);
chunk_appendf(&trash, " valid: %ld\n", pnameserver->counters.valid);
chunk_appendf(&trash, " update: %ld\n", pnameserver->counters.update);
chunk_appendf(&trash, " cname: %ld\n", pnameserver->counters.cname);
chunk_appendf(&trash, " cname_error: %ld\n", pnameserver->counters.cname_error);
chunk_appendf(&trash, " any_err: %ld\n", pnameserver->counters.any_err);
chunk_appendf(&trash, " nx: %ld\n", pnameserver->counters.nx);
chunk_appendf(&trash, " timeout: %ld\n", pnameserver->counters.timeout);
chunk_appendf(&trash, " refused: %ld\n", pnameserver->counters.refused);
chunk_appendf(&trash, " other: %ld\n", pnameserver->counters.other);
chunk_appendf(&trash, " invalid: %ld\n", pnameserver->counters.invalid);
chunk_appendf(&trash, " too_big: %ld\n", pnameserver->counters.too_big);
chunk_appendf(&trash, " truncated: %ld\n", pnameserver->counters.truncated);
chunk_appendf(&trash, " outdated: %ld\n", pnameserver->counters.outdated);
}
}
}
/* display response */
if (bi_putchk(si_ic(si), &trash) == -1) {
/* let's try again later from this session. We add ourselves into
* this session's users so that it can remove us upon termination.
*/
si->flags |= SI_FL_WAIT_ROOM;
return 0;
}
appctx->st2 = STAT_ST_FIN;
/* fall through */
default:
appctx->st2 = STAT_ST_FIN;
return 1;
}
}
/* This function dumps all captured errors onto the stream interface's
* read buffer. It returns 0 if the output buffer is full and it needs
* to be called again, otherwise non-zero.
*/
static int stats_dump_errors_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
extern const char *monthname[12];
if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW)))
return 1;
chunk_reset(&trash);
if (!appctx->ctx.errors.px) {
/* the function had not been called yet, let's prepare the
* buffer for a response.
*/
struct tm tm;
get_localtime(date.tv_sec, &tm);
chunk_appendf(&trash, "Total events captured on [%02d/%s/%04d:%02d:%02d:%02d.%03d] : %u\n",
tm.tm_mday, monthname[tm.tm_mon], tm.tm_year+1900,
tm.tm_hour, tm.tm_min, tm.tm_sec, (int)(date.tv_usec/1000),
error_snapshot_id);
if (bi_putchk(si_ic(si), &trash) == -1) {
/* Socket buffer full. Let's try again later from the same point */
si_applet_cant_put(si);
return 0;
}
appctx->ctx.errors.px = proxy;
appctx->ctx.errors.buf = 0;
appctx->ctx.errors.bol = 0;
appctx->ctx.errors.ptr = -1;
}
/* we have two inner loops here, one for the proxy, the other one for
* the buffer.
*/
while (appctx->ctx.errors.px) {
struct error_snapshot *es;
if (appctx->ctx.errors.buf == 0)
es = &appctx->ctx.errors.px->invalid_req;
else
es = &appctx->ctx.errors.px->invalid_rep;
if (!es->when.tv_sec)
goto next;
if (appctx->ctx.errors.iid >= 0 &&
appctx->ctx.errors.px->uuid != appctx->ctx.errors.iid &&
es->oe->uuid != appctx->ctx.errors.iid)
goto next;
if (appctx->ctx.errors.ptr < 0) {
/* just print headers now */
char pn[INET6_ADDRSTRLEN];
struct tm tm;
int port;
get_localtime(es->when.tv_sec, &tm);
chunk_appendf(&trash, " \n[%02d/%s/%04d:%02d:%02d:%02d.%03d]",
tm.tm_mday, monthname[tm.tm_mon], tm.tm_year+1900,
tm.tm_hour, tm.tm_min, tm.tm_sec, (int)(es->when.tv_usec/1000));
switch (addr_to_str(&es->src, pn, sizeof(pn))) {
case AF_INET:
case AF_INET6:
port = get_host_port(&es->src);
break;
default:
port = 0;
}
switch (appctx->ctx.errors.buf) {
case 0:
chunk_appendf(&trash,
" frontend %s (#%d): invalid request\n"
" backend %s (#%d)",
appctx->ctx.errors.px->id, appctx->ctx.errors.px->uuid,
(es->oe->cap & PR_CAP_BE) ? es->oe->id : "<NONE>",
(es->oe->cap & PR_CAP_BE) ? es->oe->uuid : -1);
break;
case 1:
chunk_appendf(&trash,
" backend %s (#%d): invalid response\n"
" frontend %s (#%d)",
appctx->ctx.errors.px->id, appctx->ctx.errors.px->uuid,
es->oe->id, es->oe->uuid);
break;
}
chunk_appendf(&trash,
", server %s (#%d), event #%u\n"
" src %s:%d, session #%d, session flags 0x%08x\n"
" HTTP msg state %d, msg flags 0x%08x, tx flags 0x%08x\n"
" HTTP chunk len %lld bytes, HTTP body len %lld bytes\n"
" buffer flags 0x%08x, out %d bytes, total %lld bytes\n"
" pending %d bytes, wrapping at %d, error at position %d:\n \n",
es->srv ? es->srv->id : "<NONE>", es->srv ? es->srv->puid : -1,
es->ev_id,
pn, port, es->sid, es->s_flags,
es->state, es->m_flags, es->t_flags,
es->m_clen, es->m_blen,
es->b_flags, es->b_out, es->b_tot,
es->len, es->b_wrap, es->pos);
if (bi_putchk(si_ic(si), &trash) == -1) {
/* Socket buffer full. Let's try again later from the same point */
si_applet_cant_put(si);
return 0;
}
appctx->ctx.errors.ptr = 0;
appctx->ctx.errors.sid = es->sid;
}
if (appctx->ctx.errors.sid != es->sid) {
/* the snapshot changed while we were dumping it */
chunk_appendf(&trash,
" WARNING! update detected on this snapshot, dump interrupted. Please re-check!\n");
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
goto next;
}
/* OK, ptr >= 0, so we have to dump the current line */
while (es->buf && appctx->ctx.errors.ptr < es->len && appctx->ctx.errors.ptr < global.tune.bufsize) {
int newptr;
int newline;
newline = appctx->ctx.errors.bol;
newptr = dump_text_line(&trash, es->buf, global.tune.bufsize, es->len, &newline, appctx->ctx.errors.ptr);
if (newptr == appctx->ctx.errors.ptr)
return 0;
if (bi_putchk(si_ic(si), &trash) == -1) {
/* Socket buffer full. Let's try again later from the same point */
si_applet_cant_put(si);
return 0;
}
appctx->ctx.errors.ptr = newptr;
appctx->ctx.errors.bol = newline;
};
next:
appctx->ctx.errors.bol = 0;
appctx->ctx.errors.ptr = -1;
appctx->ctx.errors.buf++;
if (appctx->ctx.errors.buf > 1) {
appctx->ctx.errors.buf = 0;
appctx->ctx.errors.px = appctx->ctx.errors.px->next;
}
}
/* dump complete */
return 1;
}
/* This function dumps all environmnent variables to the buffer. It returns 0
* if the output buffer is full and it needs to be called again, otherwise
* non-zero. Dumps only one entry if st2 == STAT_ST_END.
*/
static int stats_dump_env_to_buffer(struct stream_interface *si)
{
struct appctx *appctx = __objt_appctx(si->end);
if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW)))
return 1;
chunk_reset(&trash);
/* we have two inner loops here, one for the proxy, the other one for
* the buffer.
*/
while (*appctx->ctx.env.var) {
chunk_printf(&trash, "%s\n", *appctx->ctx.env.var);
if (bi_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
if (appctx->st2 == STAT_ST_END)
break;
appctx->ctx.env.var++;
}
/* dump complete */
return 1;
}
/* parse the "level" argument on the bind lines */
static int bind_parse_level(char **args, int cur_arg, struct proxy *px, struct bind_conf *conf, char **err)
{
if (!*args[cur_arg + 1]) {
memprintf(err, "'%s' : missing level", args[cur_arg]);
return ERR_ALERT | ERR_FATAL;
}
if (!strcmp(args[cur_arg+1], "user"))
conf->level = ACCESS_LVL_USER;
else if (!strcmp(args[cur_arg+1], "operator"))
conf->level = ACCESS_LVL_OPER;
else if (!strcmp(args[cur_arg+1], "admin"))
conf->level = ACCESS_LVL_ADMIN;
else {
memprintf(err, "'%s' only supports 'user', 'operator', and 'admin' (got '%s')",
args[cur_arg], args[cur_arg+1]);
return ERR_ALERT | ERR_FATAL;
}
return 0;
}
struct applet http_stats_applet = {
.obj_type = OBJ_TYPE_APPLET,
.name = "<STATS>", /* used for logging */
.fct = http_stats_io_handler,
.release = NULL,
};
static struct applet cli_applet = {
.obj_type = OBJ_TYPE_APPLET,
.name = "<CLI>", /* used for logging */
.fct = cli_io_handler,
.release = cli_release_handler,
};
static struct cfg_kw_list cfg_kws = {ILH, {
{ CFG_GLOBAL, "stats", stats_parse_global },
{ 0, NULL, NULL },
}};
static struct bind_kw_list bind_kws = { "STAT", { }, {
{ "level", bind_parse_level, 1 }, /* set the unix socket admin level */
{ NULL, NULL, 0 },
}};
__attribute__((constructor))
static void __dumpstats_module_init(void)
{
cfg_register_keywords(&cfg_kws);
bind_register_keywords(&bind_kws);
}
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/