blob: 5eb5a76c8451a5141aa0bd19ab350aae9a6b0680 [file] [log] [blame]
/*
* Health-checks functions.
*
* Copyright 2000-2009 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 <assert.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <arpa/inet.h>
#include <common/chunk.h>
#include <common/compat.h>
#include <common/config.h>
#include <common/mini-clist.h>
#include <common/standard.h>
#include <common/time.h>
#include <types/global.h>
#ifdef USE_OPENSSL
#include <types/ssl_sock.h>
#include <proto/ssl_sock.h>
#endif /* USE_OPENSSL */
#include <proto/backend.h>
#include <proto/checks.h>
#include <proto/dumpstats.h>
#include <proto/fd.h>
#include <proto/log.h>
#include <proto/queue.h>
#include <proto/port_range.h>
#include <proto/proto_http.h>
#include <proto/proto_tcp.h>
#include <proto/protocol.h>
#include <proto/proxy.h>
#include <proto/raw_sock.h>
#include <proto/server.h>
#include <proto/session.h>
#include <proto/stream_interface.h>
#include <proto/task.h>
static int httpchk_expect(struct server *s, int done);
static int tcpcheck_get_step_id(struct server *);
static void tcpcheck_main(struct connection *);
static const struct check_status check_statuses[HCHK_STATUS_SIZE] = {
[HCHK_STATUS_UNKNOWN] = { CHK_RES_UNKNOWN, "UNK", "Unknown" },
[HCHK_STATUS_INI] = { CHK_RES_UNKNOWN, "INI", "Initializing" },
[HCHK_STATUS_START] = { /* SPECIAL STATUS*/ },
[HCHK_STATUS_HANA] = { CHK_RES_FAILED, "HANA", "Health analyze" },
[HCHK_STATUS_SOCKERR] = { CHK_RES_FAILED, "SOCKERR", "Socket error" },
[HCHK_STATUS_L4OK] = { CHK_RES_PASSED, "L4OK", "Layer4 check passed" },
[HCHK_STATUS_L4TOUT] = { CHK_RES_FAILED, "L4TOUT", "Layer4 timeout" },
[HCHK_STATUS_L4CON] = { CHK_RES_FAILED, "L4CON", "Layer4 connection problem" },
[HCHK_STATUS_L6OK] = { CHK_RES_PASSED, "L6OK", "Layer6 check passed" },
[HCHK_STATUS_L6TOUT] = { CHK_RES_FAILED, "L6TOUT", "Layer6 timeout" },
[HCHK_STATUS_L6RSP] = { CHK_RES_FAILED, "L6RSP", "Layer6 invalid response" },
[HCHK_STATUS_L7TOUT] = { CHK_RES_FAILED, "L7TOUT", "Layer7 timeout" },
[HCHK_STATUS_L7RSP] = { CHK_RES_FAILED, "L7RSP", "Layer7 invalid response" },
[HCHK_STATUS_L57DATA] = { /* DUMMY STATUS */ },
[HCHK_STATUS_L7OKD] = { CHK_RES_PASSED, "L7OK", "Layer7 check passed" },
[HCHK_STATUS_L7OKCD] = { CHK_RES_CONDPASS, "L7OKC", "Layer7 check conditionally passed" },
[HCHK_STATUS_L7STS] = { CHK_RES_FAILED, "L7STS", "Layer7 wrong status" },
};
static const struct analyze_status analyze_statuses[HANA_STATUS_SIZE] = { /* 0: ignore, 1: error, 2: OK */
[HANA_STATUS_UNKNOWN] = { "Unknown", { 0, 0 }},
[HANA_STATUS_L4_OK] = { "L4 successful connection", { 2, 0 }},
[HANA_STATUS_L4_ERR] = { "L4 unsuccessful connection", { 1, 1 }},
[HANA_STATUS_HTTP_OK] = { "Correct http response", { 0, 2 }},
[HANA_STATUS_HTTP_STS] = { "Wrong http response", { 0, 1 }},
[HANA_STATUS_HTTP_HDRRSP] = { "Invalid http response (headers)", { 0, 1 }},
[HANA_STATUS_HTTP_RSP] = { "Invalid http response", { 0, 1 }},
[HANA_STATUS_HTTP_READ_ERROR] = { "Read error (http)", { 0, 1 }},
[HANA_STATUS_HTTP_READ_TIMEOUT] = { "Read timeout (http)", { 0, 1 }},
[HANA_STATUS_HTTP_BROKEN_PIPE] = { "Close from server (http)", { 0, 1 }},
};
/*
* Convert check_status code to description
*/
const char *get_check_status_description(short check_status) {
const char *desc;
if (check_status < HCHK_STATUS_SIZE)
desc = check_statuses[check_status].desc;
else
desc = NULL;
if (desc && *desc)
return desc;
else
return check_statuses[HCHK_STATUS_UNKNOWN].desc;
}
/*
* Convert check_status code to short info
*/
const char *get_check_status_info(short check_status) {
const char *info;
if (check_status < HCHK_STATUS_SIZE)
info = check_statuses[check_status].info;
else
info = NULL;
if (info && *info)
return info;
else
return check_statuses[HCHK_STATUS_UNKNOWN].info;
}
const char *get_analyze_status(short analyze_status) {
const char *desc;
if (analyze_status < HANA_STATUS_SIZE)
desc = analyze_statuses[analyze_status].desc;
else
desc = NULL;
if (desc && *desc)
return desc;
else
return analyze_statuses[HANA_STATUS_UNKNOWN].desc;
}
static void server_status_printf(struct chunk *msg, struct server *s, struct check *check, int xferred) {
if (s->track)
chunk_appendf(msg, " via %s/%s",
s->track->proxy->id, s->track->id);
if (check) {
chunk_appendf(msg, ", reason: %s", get_check_status_description(check->status));
if (check->status >= HCHK_STATUS_L57DATA)
chunk_appendf(msg, ", code: %d", check->code);
if (*check->desc) {
struct chunk src;
chunk_appendf(msg, ", info: \"");
chunk_initlen(&src, check->desc, 0, strlen(check->desc));
chunk_asciiencode(msg, &src, '"');
chunk_appendf(msg, "\"");
}
if (check->duration >= 0)
chunk_appendf(msg, ", check duration: %ldms", check->duration);
}
if (xferred >= 0) {
if (!(s->state & SRV_RUNNING))
chunk_appendf(msg, ". %d active and %d backup servers left.%s"
" %d sessions active, %d requeued, %d remaining in queue",
s->proxy->srv_act, s->proxy->srv_bck,
(s->proxy->srv_bck && !s->proxy->srv_act) ? " Running on backup." : "",
s->cur_sess, xferred, s->nbpend);
else
chunk_appendf(msg, ". %d active and %d backup servers online.%s"
" %d sessions requeued, %d total in queue",
s->proxy->srv_act, s->proxy->srv_bck,
(s->proxy->srv_bck && !s->proxy->srv_act) ? " Running on backup." : "",
xferred, s->nbpend);
}
}
/*
* Set check->status, update check->duration and fill check->result with
* an adequate CHK_RES_* value.
*
* Show information in logs about failed health check if server is UP
* or succeeded health checks if server is DOWN.
*/
static void set_server_check_status(struct check *check, short status, const char *desc)
{
struct server *s = check->server;
if (status == HCHK_STATUS_START) {
check->result = CHK_RES_UNKNOWN; /* no result yet */
check->desc[0] = '\0';
check->start = now;
return;
}
if (!check->status)
return;
if (desc && *desc) {
strncpy(check->desc, desc, HCHK_DESC_LEN-1);
check->desc[HCHK_DESC_LEN-1] = '\0';
} else
check->desc[0] = '\0';
check->status = status;
if (check_statuses[status].result)
check->result = check_statuses[status].result;
if (status == HCHK_STATUS_HANA)
check->duration = -1;
else if (!tv_iszero(&check->start)) {
/* set_server_check_status() may be called more than once */
check->duration = tv_ms_elapsed(&check->start, &now);
tv_zero(&check->start);
}
/* Failure to connect to the agent as a secondary check should not
* cause the server to be marked down. So only log status changes
* for HCHK_STATUS_* statuses */
if ((check->state & CHK_ST_AGENT) && check->status < HCHK_STATUS_L7TOUT)
return;
if (s->proxy->options2 & PR_O2_LOGHCHKS &&
(((check->health != 0) && (check->result == CHK_RES_FAILED)) ||
(((check->health != check->rise + check->fall - 1) ||
(!s->uweight && !(s->state & SRV_DRAIN)) ||
(s->uweight && (s->state & SRV_DRAIN))) &&
(check->result >= CHK_RES_PASSED)) ||
((s->state & SRV_GOINGDOWN) && (check->result != CHK_RES_CONDPASS)) ||
(!(s->state & SRV_GOINGDOWN) && (check->result == CHK_RES_CONDPASS)))) {
int health, rise, fall, state;
chunk_reset(&trash);
/* FIXME begin: calculate local version of the health/rise/fall/state */
health = check->health;
rise = check->rise;
fall = check->fall;
state = s->state;
switch (check->result) {
case CHK_RES_FAILED:
if (health > rise) {
health--; /* still good */
} else {
if (health == rise)
state &= ~(SRV_RUNNING | SRV_GOINGDOWN);
health = 0;
}
break;
case CHK_RES_PASSED:
case CHK_RES_CONDPASS:
if (health < rise + fall - 1) {
health++; /* was bad, stays for a while */
if (health == rise)
state |= SRV_RUNNING;
if (health >= rise)
health = rise + fall - 1; /* OK now */
}
/* clear consecutive_errors if observing is enabled */
if (s->onerror)
s->consecutive_errors = 0;
break;
default:
break;
}
chunk_appendf(&trash,
"Health check for %sserver %s/%s %s%s",
s->state & SRV_BACKUP ? "backup " : "",
s->proxy->id, s->id,
(check->result == CHK_RES_CONDPASS) ? "conditionally ":"",
(check->result >= CHK_RES_PASSED) ? "succeeded":"failed");
server_status_printf(&trash, s, check, -1);
chunk_appendf(&trash, ", status: %d/%d %s",
(state & SRV_RUNNING) ? (health - rise + 1) : (health),
(state & SRV_RUNNING) ? (fall) : (rise),
(state & SRV_RUNNING)?(s->eweight?"UP":"DRAIN"):"DOWN");
Warning("%s.\n", trash.str);
send_log(s->proxy, LOG_NOTICE, "%s.\n", trash.str);
}
}
/* sends a log message when a backend goes down, and also sets last
* change date.
*/
static void set_backend_down(struct proxy *be)
{
be->last_change = now.tv_sec;
be->down_trans++;
Alert("%s '%s' has no server available!\n", proxy_type_str(be), be->id);
send_log(be, LOG_EMERG, "%s %s has no server available!\n", proxy_type_str(be), be->id);
}
/* Redistribute pending connections when a server goes down. The number of
* connections redistributed is returned.
*/
static int redistribute_pending(struct server *s)
{
struct pendconn *pc, *pc_bck, *pc_end;
int xferred = 0;
FOREACH_ITEM_SAFE(pc, pc_bck, &s->pendconns, pc_end, struct pendconn *, list) {
struct session *sess = pc->sess;
if ((sess->be->options & (PR_O_REDISP|PR_O_PERSIST)) == PR_O_REDISP &&
!(sess->flags & SN_FORCE_PRST)) {
/* The REDISP option was specified. We will ignore
* cookie and force to balance or use the dispatcher.
*/
/* it's left to the dispatcher to choose a server */
sess->flags &= ~(SN_DIRECT | SN_ASSIGNED | SN_ADDR_SET);
pendconn_free(pc);
task_wakeup(sess->task, TASK_WOKEN_RES);
xferred++;
}
}
return xferred;
}
/* Check for pending connections at the backend, and assign some of them to
* the server coming up. The server's weight is checked before being assigned
* connections it may not be able to handle. The total number of transferred
* connections is returned.
*/
static int check_for_pending(struct server *s)
{
int xferred;
if (!s->eweight)
return 0;
for (xferred = 0; !s->maxconn || xferred < srv_dynamic_maxconn(s); xferred++) {
struct session *sess;
struct pendconn *p;
p = pendconn_from_px(s->proxy);
if (!p)
break;
p->sess->target = &s->obj_type;
sess = p->sess;
pendconn_free(p);
task_wakeup(sess->task, TASK_WOKEN_RES);
}
return xferred;
}
/* Shutdown all connections of a server. The caller must pass a termination
* code in <why>, which must be one of SN_ERR_* indicating the reason for the
* shutdown.
*/
static void shutdown_sessions(struct server *srv, int why)
{
struct session *session, *session_bck;
list_for_each_entry_safe(session, session_bck, &srv->actconns, by_srv)
if (session->srv_conn == srv)
session_shutdown(session, why);
}
/* Shutdown all connections of all backup servers of a proxy. The caller must
* pass a termination code in <why>, which must be one of SN_ERR_* indicating
* the reason for the shutdown.
*/
static void shutdown_backup_sessions(struct proxy *px, int why)
{
struct server *srv;
for (srv = px->srv; srv != NULL; srv = srv->next)
if (srv->state & SRV_BACKUP)
shutdown_sessions(srv, why);
}
/* Sets server <s> down, notifies by all available means, recounts the
* remaining servers on the proxy and transfers queued sessions whenever
* possible to other servers. It automatically recomputes the number of
* servers, but not the map.
*/
void set_server_down(struct check *check)
{
struct server *s = check->server;
struct server *srv;
int xferred;
if (s->state & SRV_MAINTAIN) {
check->health = check->rise;
}
if ((s->state & SRV_RUNNING && check->health == check->rise) || s->track) {
int srv_was_paused = s->state & SRV_GOINGDOWN;
int prev_srv_count = s->proxy->srv_bck + s->proxy->srv_act;
s->last_change = now.tv_sec;
s->state &= ~(SRV_RUNNING | SRV_GOINGDOWN);
if (s->proxy->lbprm.set_server_status_down)
s->proxy->lbprm.set_server_status_down(s);
if (s->onmarkeddown & HANA_ONMARKEDDOWN_SHUTDOWNSESSIONS)
shutdown_sessions(s, SN_ERR_DOWN);
/* we might have sessions queued on this server and waiting for
* a connection. Those which are redispatchable will be queued
* to another server or to the proxy itself.
*/
xferred = redistribute_pending(s);
chunk_reset(&trash);
if (s->state & SRV_MAINTAIN) {
chunk_appendf(&trash,
"%sServer %s/%s is DOWN for maintenance", s->state & SRV_BACKUP ? "Backup " : "",
s->proxy->id, s->id);
} else {
chunk_appendf(&trash,
"%sServer %s/%s is DOWN", s->state & SRV_BACKUP ? "Backup " : "",
s->proxy->id, s->id);
server_status_printf(&trash, s,
((!s->track && !(s->proxy->options2 & PR_O2_LOGHCHKS)) ? check : 0),
xferred);
}
Warning("%s.\n", trash.str);
/* we don't send an alert if the server was previously paused */
if (srv_was_paused)
send_log(s->proxy, LOG_NOTICE, "%s.\n", trash.str);
else
send_log(s->proxy, LOG_ALERT, "%s.\n", trash.str);
if (prev_srv_count && s->proxy->srv_bck == 0 && s->proxy->srv_act == 0)
set_backend_down(s->proxy);
s->counters.down_trans++;
for (srv = s->trackers; srv; srv = srv->tracknext)
if (!(srv->state & SRV_MAINTAIN))
/* Only notify tracking servers that are not already in maintenance. */
set_server_down(&srv->check);
}
check->health = 0; /* failure */
}
void set_server_up(struct check *check) {
struct server *s = check->server;
struct server *srv;
int xferred;
unsigned int old_state = s->state;
if (s->state & SRV_MAINTAIN) {
check->health = check->rise;
}
if (s->track ||
((s->check.state & CHK_ST_ENABLED) && (s->check.health == s->check.rise) &&
(s->agent.health >= s->agent.rise || !(s->agent.state & CHK_ST_ENABLED))) ||
((s->agent.state & CHK_ST_ENABLED) && (s->agent.health == s->agent.rise) &&
(s->check.health >= s->check.rise || !(s->check.state & CHK_ST_ENABLED))) ||
(!(s->agent.state & CHK_ST_ENABLED) && !(s->check.state & CHK_ST_ENABLED))) {
if (s->proxy->srv_bck == 0 && s->proxy->srv_act == 0) {
if (s->proxy->last_change < now.tv_sec) // ignore negative times
s->proxy->down_time += now.tv_sec - s->proxy->last_change;
s->proxy->last_change = now.tv_sec;
}
if (s->last_change < now.tv_sec) // ignore negative times
s->down_time += now.tv_sec - s->last_change;
s->last_change = now.tv_sec;
s->state |= SRV_RUNNING;
s->state &= ~SRV_MAINTAIN;
s->check.state &= ~CHK_ST_PAUSED;
if (s->slowstart > 0) {
s->state |= SRV_WARMINGUP;
task_schedule(s->warmup, tick_add(now_ms, MS_TO_TICKS(MAX(1000, s->slowstart / 20))));
}
server_recalc_eweight(s);
/* If the server is set with "on-marked-up shutdown-backup-sessions",
* and it's not a backup server and its effective weight is > 0,
* then it can accept new connections, so we shut down all sessions
* on all backup servers.
*/
if ((s->onmarkedup & HANA_ONMARKEDUP_SHUTDOWNBACKUPSESSIONS) &&
!(s->state & SRV_BACKUP) && s->eweight)
shutdown_backup_sessions(s->proxy, SN_ERR_UP);
/* check if we can handle some connections queued at the proxy. We
* will take as many as we can handle.
*/
xferred = check_for_pending(s);
chunk_reset(&trash);
if (old_state & SRV_MAINTAIN) {
chunk_appendf(&trash,
"%sServer %s/%s is UP (leaving maintenance)", s->state & SRV_BACKUP ? "Backup " : "",
s->proxy->id, s->id);
} else {
chunk_appendf(&trash,
"%sServer %s/%s is UP", s->state & SRV_BACKUP ? "Backup " : "",
s->proxy->id, s->id);
server_status_printf(&trash, s,
((!s->track && !(s->proxy->options2 & PR_O2_LOGHCHKS)) ? check : NULL),
xferred);
}
Warning("%s.\n", trash.str);
send_log(s->proxy, LOG_NOTICE, "%s.\n", trash.str);
for (srv = s->trackers; srv; srv = srv->tracknext)
if (!(srv->state & SRV_MAINTAIN))
/* Only notify tracking servers if they're not in maintenance. */
set_server_up(&srv->check);
}
if (check->health >= check->rise)
check->health = check->rise + check->fall - 1; /* OK now */
}
static void set_server_disabled(struct check *check) {
struct server *s = check->server;
struct server *srv;
int xferred;
s->state |= SRV_GOINGDOWN;
if (s->proxy->lbprm.set_server_status_down)
s->proxy->lbprm.set_server_status_down(s);
/* we might have sessions queued on this server and waiting for
* a connection. Those which are redispatchable will be queued
* to another server or to the proxy itself.
*/
xferred = redistribute_pending(s);
chunk_reset(&trash);
chunk_appendf(&trash,
"Load-balancing on %sServer %s/%s is disabled",
s->state & SRV_BACKUP ? "Backup " : "",
s->proxy->id, s->id);
server_status_printf(&trash, s,
((!s->track && !(s->proxy->options2 & PR_O2_LOGHCHKS)) ? check : NULL),
xferred);
Warning("%s.\n", trash.str);
send_log(s->proxy, LOG_NOTICE, "%s.\n", trash.str);
if (!s->proxy->srv_bck && !s->proxy->srv_act)
set_backend_down(s->proxy);
for (srv = s->trackers; srv; srv = srv->tracknext)
set_server_disabled(&srv->check);
}
static void set_server_enabled(struct check *check) {
struct server *s = check->server;
struct server *srv;
int xferred;
s->state &= ~SRV_GOINGDOWN;
if (s->proxy->lbprm.set_server_status_up)
s->proxy->lbprm.set_server_status_up(s);
/* check if we can handle some connections queued at the proxy. We
* will take as many as we can handle.
*/
xferred = check_for_pending(s);
chunk_reset(&trash);
chunk_appendf(&trash,
"Load-balancing on %sServer %s/%s is enabled again",
s->state & SRV_BACKUP ? "Backup " : "",
s->proxy->id, s->id);
server_status_printf(&trash, s,
((!s->track && !(s->proxy->options2 & PR_O2_LOGHCHKS)) ? check : NULL),
xferred);
Warning("%s.\n", trash.str);
send_log(s->proxy, LOG_NOTICE, "%s.\n", trash.str);
for (srv = s->trackers; srv; srv = srv->tracknext)
set_server_enabled(&srv->check);
}
static void check_failed(struct check *check)
{
struct server *s = check->server;
/* The agent secondary check should only cause a server to be marked
* as down if check->status is HCHK_STATUS_L7STS, which indicates
* that the agent returned "fail", "stopped" or "down".
* The implication here is that failure to connect to the agent
* as a secondary check should not cause the server to be marked
* down. */
if ((check->state & CHK_ST_AGENT) && check->status != HCHK_STATUS_L7STS)
return;
if (check->health > check->rise) {
check->health--; /* still good */
s->counters.failed_checks++;
}
else
set_server_down(check);
}
/* note: use health_adjust() only, which first checks that the observe mode is
* enabled.
*/
void __health_adjust(struct server *s, short status)
{
int failed;
int expire;
if (s->observe >= HANA_OBS_SIZE)
return;
if (status >= HANA_STATUS_SIZE || !analyze_statuses[status].desc)
return;
switch (analyze_statuses[status].lr[s->observe - 1]) {
case 1:
failed = 1;
break;
case 2:
failed = 0;
break;
default:
return;
}
if (!failed) {
/* good: clear consecutive_errors */
s->consecutive_errors = 0;
return;
}
s->consecutive_errors++;
if (s->consecutive_errors < s->consecutive_errors_limit)
return;
chunk_printf(&trash, "Detected %d consecutive errors, last one was: %s",
s->consecutive_errors, get_analyze_status(status));
switch (s->onerror) {
case HANA_ONERR_FASTINTER:
/* force fastinter - nothing to do here as all modes force it */
break;
case HANA_ONERR_SUDDTH:
/* simulate a pre-fatal failed health check */
if (s->check.health > s->check.rise)
s->check.health = s->check.rise + 1;
/* no break - fall through */
case HANA_ONERR_FAILCHK:
/* simulate a failed health check */
set_server_check_status(&s->check, HCHK_STATUS_HANA, trash.str);
check_failed(&s->check);
break;
case HANA_ONERR_MARKDWN:
/* mark server down */
s->check.health = s->check.rise;
set_server_check_status(&s->check, HCHK_STATUS_HANA, trash.str);
set_server_down(&s->check);
break;
default:
/* write a warning? */
break;
}
s->consecutive_errors = 0;
s->counters.failed_hana++;
if (s->check.fastinter) {
expire = tick_add(now_ms, MS_TO_TICKS(s->check.fastinter));
if (s->check.task->expire > expire) {
s->check.task->expire = expire;
/* requeue check task with new expire */
task_queue(s->check.task);
}
}
}
static int httpchk_build_status_header(struct server *s, char *buffer, int size)
{
int sv_state;
int ratio;
int hlen = 0;
const char *srv_hlt_st[7] = { "DOWN", "DOWN %d/%d",
"UP %d/%d", "UP",
"NOLB %d/%d", "NOLB",
"no check" };
memcpy(buffer + hlen, "X-Haproxy-Server-State: ", 24);
hlen += 24;
if (!(s->check.state & CHK_ST_ENABLED))
sv_state = 6;
else if (s->state & SRV_RUNNING) {
if (s->check.health == s->check.rise + s->check.fall - 1)
sv_state = 3; /* UP */
else
sv_state = 2; /* going down */
if (s->state & SRV_GOINGDOWN)
sv_state += 2;
} else {
if (s->check.health)
sv_state = 1; /* going up */
else
sv_state = 0; /* DOWN */
}
hlen += snprintf(buffer + hlen, size - hlen,
srv_hlt_st[sv_state],
(s->state & SRV_RUNNING) ? (s->check.health - s->check.rise + 1) : (s->check.health),
(s->state & SRV_RUNNING) ? (s->check.fall) : (s->check.rise));
hlen += snprintf(buffer + hlen, size - hlen, "; name=%s/%s; node=%s; weight=%d/%d; scur=%d/%d; qcur=%d",
s->proxy->id, s->id,
global.node,
(s->eweight * s->proxy->lbprm.wmult + s->proxy->lbprm.wdiv - 1) / s->proxy->lbprm.wdiv,
(s->proxy->lbprm.tot_weight * s->proxy->lbprm.wmult + s->proxy->lbprm.wdiv - 1) / s->proxy->lbprm.wdiv,
s->cur_sess, s->proxy->beconn - s->proxy->nbpend,
s->nbpend);
if ((s->state & SRV_WARMINGUP) &&
now.tv_sec < s->last_change + s->slowstart &&
now.tv_sec >= s->last_change) {
ratio = MAX(1, 100 * (now.tv_sec - s->last_change) / s->slowstart);
hlen += snprintf(buffer + hlen, size - hlen, "; throttle=%d%%", ratio);
}
buffer[hlen++] = '\r';
buffer[hlen++] = '\n';
return hlen;
}
/* Check the connection. If an error has already been reported or the socket is
* closed, keep errno intact as it is supposed to contain the valid error code.
* If no error is reported, check the socket's error queue using getsockopt().
* Warning, this must be done only once when returning from poll, and never
* after an I/O error was attempted, otherwise the error queue might contain
* inconsistent errors. If an error is detected, the CO_FL_ERROR is set on the
* socket. Returns non-zero if an error was reported, zero if everything is
* clean (including a properly closed socket).
*/
static int retrieve_errno_from_socket(struct connection *conn)
{
int skerr;
socklen_t lskerr = sizeof(skerr);
if (conn->flags & CO_FL_ERROR && ((errno && errno != EAGAIN) || !conn->ctrl))
return 1;
if (!conn_ctrl_ready(conn))
return 0;
if (getsockopt(conn->t.sock.fd, SOL_SOCKET, SO_ERROR, &skerr, &lskerr) == 0)
errno = skerr;
if (errno == EAGAIN)
errno = 0;
if (!errno) {
/* we could not retrieve an error, that does not mean there is
* none. Just don't change anything and only report the prior
* error if any.
*/
if (conn->flags & CO_FL_ERROR)
return 1;
else
return 0;
}
conn->flags |= CO_FL_ERROR | CO_FL_SOCK_WR_SH | CO_FL_SOCK_RD_SH;
return 1;
}
/* Try to collect as much information as possible on the connection status,
* and adjust the server status accordingly. It may make use of <errno_bck>
* if non-null when the caller is absolutely certain of its validity (eg:
* checked just after a syscall). If the caller doesn't have a valid errno,
* it can pass zero, and retrieve_errno_from_socket() will be called to try
* to extract errno from the socket. If no error is reported, it will consider
* the <expired> flag. This is intended to be used when a connection error was
* reported in conn->flags or when a timeout was reported in <expired>. The
* function takes care of not updating a server status which was already set.
* All situations where at least one of <expired> or CO_FL_ERROR are set
* produce a status.
*/
static void chk_report_conn_err(struct connection *conn, int errno_bck, int expired)
{
struct check *check = conn->owner;
const char *err_msg;
struct chunk *chk;
if (check->result != CHK_RES_UNKNOWN)
return;
errno = errno_bck;
if (!errno || errno == EAGAIN)
retrieve_errno_from_socket(conn);
if (!(conn->flags & CO_FL_ERROR) && !expired)
return;
/* we'll try to build a meaningful error message depending on the
* context of the error possibly present in conn->err_code, and the
* socket error possibly collected above. This is useful to know the
* exact step of the L6 layer (eg: SSL handshake).
*/
chk = get_trash_chunk();
if (check->type == PR_O2_TCPCHK_CHK) {
chunk_printf(chk, " at step %d of tcp-check", tcpcheck_get_step_id(check->server));
/* we were looking for a string */
if (check->current_step && check->current_step->action == TCPCHK_ACT_CONNECT) {
chunk_appendf(chk, " (connect)");
}
else if (check->current_step && check->current_step->action == TCPCHK_ACT_EXPECT) {
if (check->current_step->string)
chunk_appendf(chk, " (string '%s')", check->current_step->string);
else if (check->current_step->expect_regex)
chunk_appendf(chk, " (expect regex)");
}
else if (check->current_step && check->current_step->action == TCPCHK_ACT_SEND) {
chunk_appendf(chk, " (send)");
}
}
if (conn->err_code) {
if (errno && errno != EAGAIN)
chunk_printf(&trash, "%s (%s)%s", conn_err_code_str(conn), strerror(errno), chk->str);
else
chunk_printf(&trash, "%s%s", conn_err_code_str(conn), chk->str);
err_msg = trash.str;
}
else {
if (errno && errno != EAGAIN) {
chunk_printf(&trash, "%s%s", strerror(errno), chk->str);
err_msg = trash.str;
}
else {
err_msg = chk->str;
}
}
if ((conn->flags & (CO_FL_CONNECTED|CO_FL_WAIT_L4_CONN)) == CO_FL_WAIT_L4_CONN) {
/* L4 not established (yet) */
if (conn->flags & CO_FL_ERROR)
set_server_check_status(check, HCHK_STATUS_L4CON, err_msg);
else if (expired)
set_server_check_status(check, HCHK_STATUS_L4TOUT, err_msg);
}
else if ((conn->flags & (CO_FL_CONNECTED|CO_FL_WAIT_L6_CONN)) == CO_FL_WAIT_L6_CONN) {
/* L6 not established (yet) */
if (conn->flags & CO_FL_ERROR)
set_server_check_status(check, HCHK_STATUS_L6RSP, err_msg);
else if (expired)
set_server_check_status(check, HCHK_STATUS_L6TOUT, err_msg);
}
else if (conn->flags & CO_FL_ERROR) {
/* I/O error after connection was established and before we could diagnose */
set_server_check_status(check, HCHK_STATUS_SOCKERR, err_msg);
}
else if (expired) {
/* connection established but expired check */
if (check->type == PR_O2_SSL3_CHK)
set_server_check_status(check, HCHK_STATUS_L6TOUT, err_msg);
else /* HTTP, SMTP, ... */
set_server_check_status(check, HCHK_STATUS_L7TOUT, err_msg);
}
return;
}
/*
* This function is used only for server health-checks. It handles
* the connection acknowledgement. If the proxy requires L7 health-checks,
* it sends the request. In other cases, it calls set_server_check_status()
* to set check->status, check->duration and check->result.
*/
static void event_srv_chk_w(struct connection *conn)
{
struct check *check = conn->owner;
struct server *s = check->server;
struct task *t = check->task;
if (unlikely(check->result == CHK_RES_FAILED))
goto out_wakeup;
if (conn->flags & CO_FL_HANDSHAKE)
return;
if (retrieve_errno_from_socket(conn)) {
chk_report_conn_err(conn, errno, 0);
__conn_data_stop_both(conn);
goto out_wakeup;
}
if (conn->flags & (CO_FL_SOCK_WR_SH | CO_FL_DATA_WR_SH)) {
/* if the output is closed, we can't do anything */
conn->flags |= CO_FL_ERROR;
chk_report_conn_err(conn, 0, 0);
goto out_wakeup;
}
/* here, we know that the connection is established. That's enough for
* a pure TCP check.
*/
if (!check->type)
goto out_wakeup;
if (check->type == PR_O2_TCPCHK_CHK) {
tcpcheck_main(conn);
return;
}
if (check->bo->o) {
conn->xprt->snd_buf(conn, check->bo, 0);
if (conn->flags & CO_FL_ERROR) {
chk_report_conn_err(conn, errno, 0);
__conn_data_stop_both(conn);
goto out_wakeup;
}
if (check->bo->o)
return;
}
/* full request sent, we allow up to <timeout.check> if nonzero for a response */
if (s->proxy->timeout.check) {
t->expire = tick_add_ifset(now_ms, s->proxy->timeout.check);
task_queue(t);
}
goto out_nowake;
out_wakeup:
task_wakeup(t, TASK_WOKEN_IO);
out_nowake:
__conn_data_stop_send(conn); /* nothing more to write */
}
/*
* This function is used only for server health-checks. It handles the server's
* reply to an HTTP request, SSL HELLO or MySQL client Auth. It calls
* set_server_check_status() to update check->status, check->duration
* and check->result.
* The set_server_check_status function is called with HCHK_STATUS_L7OKD if
* an HTTP server replies HTTP 2xx or 3xx (valid responses), if an SMTP server
* returns 2xx, HCHK_STATUS_L6OK if an SSL server returns at least 5 bytes in
* response to an SSL HELLO (the principle is that this is enough to
* distinguish between an SSL server and a pure TCP relay). All other cases will
* call it with a proper error status like HCHK_STATUS_L7STS, HCHK_STATUS_L6RSP,
* etc.
*/
static void event_srv_chk_r(struct connection *conn)
{
struct check *check = conn->owner;
struct server *s = check->server;
struct task *t = check->task;
char *desc;
int done;
unsigned short msglen;
if (unlikely(check->result == CHK_RES_FAILED))
goto out_wakeup;
if (conn->flags & CO_FL_HANDSHAKE)
return;
if (check->type == PR_O2_TCPCHK_CHK) {
tcpcheck_main(conn);
return;
}
/* Warning! Linux returns EAGAIN on SO_ERROR if data are still available
* but the connection was closed on the remote end. Fortunately, recv still
* works correctly and we don't need to do the getsockopt() on linux.
*/
/* Set buffer to point to the end of the data already read, and check
* that there is free space remaining. If the buffer is full, proceed
* with running the checks without attempting another socket read.
*/
done = 0;
conn->xprt->rcv_buf(conn, check->bi, check->bi->size);
if (conn->flags & (CO_FL_ERROR | CO_FL_SOCK_RD_SH | CO_FL_DATA_RD_SH)) {
done = 1;
if ((conn->flags & CO_FL_ERROR) && !check->bi->i) {
/* Report network errors only if we got no other data. Otherwise
* we'll let the upper layers decide whether the response is OK
* or not. It is very common that an RST sent by the server is
* reported as an error just after the last data chunk.
*/
chk_report_conn_err(conn, errno, 0);
goto out_wakeup;
}
}
/* Intermediate or complete response received.
* Terminate string in check->bi->data buffer.
*/
if (check->bi->i < check->bi->size)
check->bi->data[check->bi->i] = '\0';
else {
check->bi->data[check->bi->i - 1] = '\0';
done = 1; /* buffer full, don't wait for more data */
}
/* Run the checks... */
switch (check->type) {
case PR_O2_HTTP_CHK:
if (!done && check->bi->i < strlen("HTTP/1.0 000\r"))
goto wait_more_data;
/* Check if the server speaks HTTP 1.X */
if ((check->bi->i < strlen("HTTP/1.0 000\r")) ||
(memcmp(check->bi->data, "HTTP/1.", 7) != 0 ||
(*(check->bi->data + 12) != ' ' && *(check->bi->data + 12) != '\r')) ||
!isdigit((unsigned char) *(check->bi->data + 9)) || !isdigit((unsigned char) *(check->bi->data + 10)) ||
!isdigit((unsigned char) *(check->bi->data + 11))) {
cut_crlf(check->bi->data);
set_server_check_status(check, HCHK_STATUS_L7RSP, check->bi->data);
goto out_wakeup;
}
check->code = str2uic(check->bi->data + 9);
desc = ltrim(check->bi->data + 12, ' ');
if ((s->proxy->options & PR_O_DISABLE404) &&
(s->state & SRV_RUNNING) && (check->code == 404)) {
/* 404 may be accepted as "stopping" only if the server was up */
cut_crlf(desc);
set_server_check_status(check, HCHK_STATUS_L7OKCD, desc);
}
else if (s->proxy->options2 & PR_O2_EXP_TYPE) {
/* Run content verification check... We know we have at least 13 chars */
if (!httpchk_expect(s, done))
goto wait_more_data;
}
/* check the reply : HTTP/1.X 2xx and 3xx are OK */
else if (*(check->bi->data + 9) == '2' || *(check->bi->data + 9) == '3') {
cut_crlf(desc);
set_server_check_status(check, HCHK_STATUS_L7OKD, desc);
}
else {
cut_crlf(desc);
set_server_check_status(check, HCHK_STATUS_L7STS, desc);
}
break;
case PR_O2_SSL3_CHK:
if (!done && check->bi->i < 5)
goto wait_more_data;
/* Check for SSLv3 alert or handshake */
if ((check->bi->i >= 5) && (*check->bi->data == 0x15 || *check->bi->data == 0x16))
set_server_check_status(check, HCHK_STATUS_L6OK, NULL);
else
set_server_check_status(check, HCHK_STATUS_L6RSP, NULL);
break;
case PR_O2_SMTP_CHK:
if (!done && check->bi->i < strlen("000\r"))
goto wait_more_data;
/* Check if the server speaks SMTP */
if ((check->bi->i < strlen("000\r")) ||
(*(check->bi->data + 3) != ' ' && *(check->bi->data + 3) != '\r') ||
!isdigit((unsigned char) *check->bi->data) || !isdigit((unsigned char) *(check->bi->data + 1)) ||
!isdigit((unsigned char) *(check->bi->data + 2))) {
cut_crlf(check->bi->data);
set_server_check_status(check, HCHK_STATUS_L7RSP, check->bi->data);
goto out_wakeup;
}
check->code = str2uic(check->bi->data);
desc = ltrim(check->bi->data + 3, ' ');
cut_crlf(desc);
/* Check for SMTP code 2xx (should be 250) */
if (*check->bi->data == '2')
set_server_check_status(check, HCHK_STATUS_L7OKD, desc);
else
set_server_check_status(check, HCHK_STATUS_L7STS, desc);
break;
case PR_O2_LB_AGENT_CHK: {
short status = HCHK_STATUS_L7RSP;
const char *desc = "Unknown feedback string";
const char *down_cmd = NULL;
int disabled;
char *p;
/* get a complete line first */
p = check->bi->data;
while (*p && *p != '\n' && *p != '\r')
p++;
if (!*p) {
if (!done)
goto wait_more_data;
/* at least inform the admin that the agent is mis-behaving */
set_server_check_status(check, check->status, "Ignoring incomplete line from agent");
break;
}
*p = 0;
/*
* The agent may have been disabled after a check was
* initialised. If so, ignore weight changes and drain
* settings from the agent. Note that the setting is
* always present in the state of the agent the server,
* regardless of if the agent is being run as a primary or
* secondary check. That is, regardless of if the check
* parameter of this function is the agent or check field
* of the server.
*/
disabled = !(check->server->agent.state & CHK_ST_ENABLED);
if (strchr(check->bi->data, '%')) {
if (disabled)
break;
desc = server_parse_weight_change_request(s, check->bi->data);
if (!desc) {
status = HCHK_STATUS_L7OKD;
desc = check->bi->data;
}
} else if (!strcasecmp(check->bi->data, "drain")) {
if (disabled)
break;
desc = server_parse_weight_change_request(s, "0%");
if (!desc) {
desc = "drain";
status = HCHK_STATUS_L7OKD;
}
} else if (!strncasecmp(check->bi->data, "down", strlen("down"))) {
down_cmd = "down";
} else if (!strncasecmp(check->bi->data, "stopped", strlen("stopped"))) {
down_cmd = "stopped";
} else if (!strncasecmp(check->bi->data, "fail", strlen("fail"))) {
down_cmd = "fail";
}
if (down_cmd) {
const char *end = check->bi->data + strlen(down_cmd);
/*
* The command keyword must terminated the string or
* be followed by a blank.
*/
if (end[0] == '\0' || end[0] == ' ' || end[0] == '\t') {
status = HCHK_STATUS_L7STS;
desc = check->bi->data;
}
}
set_server_check_status(check, status, desc);
set_server_drain_state(check->server);
break;
}
case PR_O2_PGSQL_CHK:
if (!done && check->bi->i < 9)
goto wait_more_data;
if (check->bi->data[0] == 'R') {
set_server_check_status(check, HCHK_STATUS_L7OKD, "PostgreSQL server is ok");
}
else {
if ((check->bi->data[0] == 'E') && (check->bi->data[5]!=0) && (check->bi->data[6]!=0))
desc = &check->bi->data[6];
else
desc = "PostgreSQL unknown error";
set_server_check_status(check, HCHK_STATUS_L7STS, desc);
}
break;
case PR_O2_REDIS_CHK:
if (!done && check->bi->i < 7)
goto wait_more_data;
if (strcmp(check->bi->data, "+PONG\r\n") == 0) {
set_server_check_status(check, HCHK_STATUS_L7OKD, "Redis server is ok");
}
else {
set_server_check_status(check, HCHK_STATUS_L7STS, check->bi->data);
}
break;
case PR_O2_MYSQL_CHK:
if (!done && check->bi->i < 5)
goto wait_more_data;
if (s->proxy->check_len == 0) { // old mode
if (*(check->bi->data + 4) != '\xff') {
/* We set the MySQL Version in description for information purpose
* FIXME : it can be cool to use MySQL Version for other purpose,
* like mark as down old MySQL server.
*/
if (check->bi->i > 51) {
desc = ltrim(check->bi->data + 5, ' ');
set_server_check_status(check, HCHK_STATUS_L7OKD, desc);
}
else {
if (!done)
goto wait_more_data;
/* it seems we have a OK packet but without a valid length,
* it must be a protocol error
*/
set_server_check_status(check, HCHK_STATUS_L7RSP, check->bi->data);
}
}
else {
/* An error message is attached in the Error packet */
desc = ltrim(check->bi->data + 7, ' ');
set_server_check_status(check, HCHK_STATUS_L7STS, desc);
}
} else {
unsigned int first_packet_len = ((unsigned int) *check->bi->data) +
(((unsigned int) *(check->bi->data + 1)) << 8) +
(((unsigned int) *(check->bi->data + 2)) << 16);
if (check->bi->i == first_packet_len + 4) {
/* MySQL Error packet always begin with field_count = 0xff */
if (*(check->bi->data + 4) != '\xff') {
/* We have only one MySQL packet and it is a Handshake Initialization packet
* but we need to have a second packet to know if it is alright
*/
if (!done && check->bi->i < first_packet_len + 5)
goto wait_more_data;
}
else {
/* We have only one packet and it is an Error packet,
* an error message is attached, so we can display it
*/
desc = &check->bi->data[7];
//Warning("onlyoneERR: %s\n", desc);
set_server_check_status(check, HCHK_STATUS_L7STS, desc);
}
} else if (check->bi->i > first_packet_len + 4) {
unsigned int second_packet_len = ((unsigned int) *(check->bi->data + first_packet_len + 4)) +
(((unsigned int) *(check->bi->data + first_packet_len + 5)) << 8) +
(((unsigned int) *(check->bi->data + first_packet_len + 6)) << 16);
if (check->bi->i == first_packet_len + 4 + second_packet_len + 4 ) {
/* We have 2 packets and that's good */
/* Check if the second packet is a MySQL Error packet or not */
if (*(check->bi->data + first_packet_len + 8) != '\xff') {
/* No error packet */
/* We set the MySQL Version in description for information purpose */
desc = &check->bi->data[5];
//Warning("2packetOK: %s\n", desc);
set_server_check_status(check, HCHK_STATUS_L7OKD, desc);
}
else {
/* An error message is attached in the Error packet
* so we can display it ! :)
*/
desc = &check->bi->data[first_packet_len+11];
//Warning("2packetERR: %s\n", desc);
set_server_check_status(check, HCHK_STATUS_L7STS, desc);
}
}
}
else {
if (!done)
goto wait_more_data;
/* it seems we have a Handshake Initialization packet but without a valid length,
* it must be a protocol error
*/
desc = &check->bi->data[5];
//Warning("protoerr: %s\n", desc);
set_server_check_status(check, HCHK_STATUS_L7RSP, desc);
}
}
break;
case PR_O2_LDAP_CHK:
if (!done && check->bi->i < 14)
goto wait_more_data;
/* Check if the server speaks LDAP (ASN.1/BER)
* http://en.wikipedia.org/wiki/Basic_Encoding_Rules
* http://tools.ietf.org/html/rfc4511
*/
/* http://tools.ietf.org/html/rfc4511#section-4.1.1
* LDAPMessage: 0x30: SEQUENCE
*/
if ((check->bi->i < 14) || (*(check->bi->data) != '\x30')) {
set_server_check_status(check, HCHK_STATUS_L7RSP, "Not LDAPv3 protocol");
}
else {
/* size of LDAPMessage */
msglen = (*(check->bi->data + 1) & 0x80) ? (*(check->bi->data + 1) & 0x7f) : 0;
/* http://tools.ietf.org/html/rfc4511#section-4.2.2
* messageID: 0x02 0x01 0x01: INTEGER 1
* protocolOp: 0x61: bindResponse
*/
if ((msglen > 2) ||
(memcmp(check->bi->data + 2 + msglen, "\x02\x01\x01\x61", 4) != 0)) {
set_server_check_status(check, HCHK_STATUS_L7RSP, "Not LDAPv3 protocol");
goto out_wakeup;
}
/* size of bindResponse */
msglen += (*(check->bi->data + msglen + 6) & 0x80) ? (*(check->bi->data + msglen + 6) & 0x7f) : 0;
/* http://tools.ietf.org/html/rfc4511#section-4.1.9
* ldapResult: 0x0a 0x01: ENUMERATION
*/
if ((msglen > 4) ||
(memcmp(check->bi->data + 7 + msglen, "\x0a\x01", 2) != 0)) {
set_server_check_status(check, HCHK_STATUS_L7RSP, "Not LDAPv3 protocol");
goto out_wakeup;
}
/* http://tools.ietf.org/html/rfc4511#section-4.1.9
* resultCode
*/
check->code = *(check->bi->data + msglen + 9);
if (check->code) {
set_server_check_status(check, HCHK_STATUS_L7STS, "See RFC: http://tools.ietf.org/html/rfc4511#section-4.1.9");
} else {
set_server_check_status(check, HCHK_STATUS_L7OKD, "Success");
}
}
break;
default:
/* for other checks (eg: pure TCP), delegate to the main task */
break;
} /* switch */
out_wakeup:
/* collect possible new errors */
if (conn->flags & CO_FL_ERROR)
chk_report_conn_err(conn, 0, 0);
/* Reset the check buffer... */
*check->bi->data = '\0';
check->bi->i = 0;
/* Close the connection... We absolutely want to perform a hard close
* and reset the connection if some data are pending, otherwise we end
* up with many TIME_WAITs and eat all the source port range quickly.
* To avoid sending RSTs all the time, we first try to drain pending
* data.
*/
if (conn->xprt && conn->xprt->shutw)
conn->xprt->shutw(conn, 0);
/* OK, let's not stay here forever */
if (check->result == CHK_RES_FAILED)
conn->flags |= CO_FL_ERROR;
__conn_data_stop_both(conn);
task_wakeup(t, TASK_WOKEN_IO);
return;
wait_more_data:
__conn_data_want_recv(conn);
}
/*
* This function is used only for server health-checks. It handles connection
* status updates including errors. If necessary, it wakes the check task up.
* It always returns 0.
*/
static int wake_srv_chk(struct connection *conn)
{
struct check *check = conn->owner;
if (unlikely(conn->flags & CO_FL_ERROR)) {
/* We may get error reports bypassing the I/O handlers, typically
* the case when sending a pure TCP check which fails, then the I/O
* handlers above are not called. This is completely handled by the
* main processing task so let's simply wake it up. If we get here,
* we expect errno to still be valid.
*/
chk_report_conn_err(conn, errno, 0);
__conn_data_stop_both(conn);
task_wakeup(check->task, TASK_WOKEN_IO);
}
else if (!(conn->flags & (CO_FL_DATA_RD_ENA|CO_FL_DATA_WR_ENA|CO_FL_HANDSHAKE))) {
/* we may get here if only a connection probe was required : we
* don't have any data to send nor anything expected in response,
* so the completion of the connection establishment is enough.
*/
task_wakeup(check->task, TASK_WOKEN_IO);
}
if (check->result != CHK_RES_UNKNOWN) {
/* We're here because nobody wants to handle the error, so we
* sure want to abort the hard way.
*/
conn_drain(conn);
conn_force_close(conn);
}
return 0;
}
struct data_cb check_conn_cb = {
.recv = event_srv_chk_r,
.send = event_srv_chk_w,
.wake = wake_srv_chk,
};
/*
* updates the server's weight during a warmup stage. Once the final weight is
* reached, the task automatically stops. Note that any server status change
* must have updated s->last_change accordingly.
*/
static struct task *server_warmup(struct task *t)
{
struct server *s = t->context;
/* by default, plan on stopping the task */
t->expire = TICK_ETERNITY;
if ((s->state & (SRV_RUNNING|SRV_WARMINGUP|SRV_MAINTAIN)) != (SRV_RUNNING|SRV_WARMINGUP))
return t;
server_recalc_eweight(s);
/* probably that we can refill this server with a bit more connections */
check_for_pending(s);
/* get back there in 1 second or 1/20th of the slowstart interval,
* whichever is greater, resulting in small 5% steps.
*/
if (s->state & SRV_WARMINGUP)
t->expire = tick_add(now_ms, MS_TO_TICKS(MAX(1000, s->slowstart / 20)));
return t;
}
/*
* manages a server health-check. Returns
* the time the task accepts to wait, or TIME_ETERNITY for infinity.
*/
static struct task *process_chk(struct task *t)
{
struct check *check = t->context;
struct server *s = check->server;
struct connection *conn = check->conn;
struct protocol *proto;
int rv;
int ret;
int expired = tick_is_expired(t->expire, now_ms);
if (!(check->state & CHK_ST_INPROGRESS)) {
/* no check currently running */
if (!expired) /* woke up too early */
return t;
/* we don't send any health-checks when the proxy is
* stopped, the server should not be checked or the check
* is disabled.
*/
if (((check->state & (CHK_ST_ENABLED | CHK_ST_PAUSED)) != CHK_ST_ENABLED) ||
s->proxy->state == PR_STSTOPPED)
goto reschedule;
/* we'll initiate a new check */
set_server_check_status(check, HCHK_STATUS_START, NULL);
check->state |= CHK_ST_INPROGRESS;
check->bi->p = check->bi->data;
check->bi->i = 0;
check->bo->p = check->bo->data;
check->bo->o = 0;
/* tcpcheck send/expect initialisation */
if (check->type == PR_O2_TCPCHK_CHK)
check->current_step = NULL;
/* prepare the check buffer.
* This should not be used if check is the secondary agent check
* of a server as s->proxy->check_req will relate to the
* configuration of the primary check. Similarly, tcp-check uses
* its own strings.
*/
if (check->type && check->type != PR_O2_TCPCHK_CHK && !(check->state & CHK_ST_AGENT)) {
bo_putblk(check->bo, s->proxy->check_req, s->proxy->check_len);
/* we want to check if this host replies to HTTP or SSLv3 requests
* so we'll send the request, and won't wake the checker up now.
*/
if ((check->type) == PR_O2_SSL3_CHK) {
/* SSL requires that we put Unix time in the request */
int gmt_time = htonl(date.tv_sec);
memcpy(check->bo->data + 11, &gmt_time, 4);
}
else if ((check->type) == PR_O2_HTTP_CHK) {
if (s->proxy->options2 & PR_O2_CHK_SNDST)
bo_putblk(check->bo, trash.str, httpchk_build_status_header(s, trash.str, trash.size));
bo_putstr(check->bo, "\r\n");
*check->bo->p = '\0'; /* to make gdb output easier to read */
}
}
/* prepare a new connection */
conn_init(conn);
conn_prepare(conn, s->check_common.proto, s->check_common.xprt);
conn_attach(conn, check, &check_conn_cb);
conn->target = &s->obj_type;
/* no client address */
clear_addr(&conn->addr.from);
if (is_addr(&s->check_common.addr)) {
/* we'll connect to the check addr specified on the server */
conn->addr.to = s->check_common.addr;
proto = s->check_common.proto;
}
else {
/* we'll connect to the addr on the server */
conn->addr.to = s->addr;
proto = s->proto;
}
if (check->port) {
set_host_port(&conn->addr.to, check->port);
}
if (check->type == PR_O2_TCPCHK_CHK) {
struct tcpcheck_rule *r = (struct tcpcheck_rule *) s->proxy->tcpcheck_rules.n;
/* if first step is a 'connect', then tcpcheck_main must run it */
if (r->action == TCPCHK_ACT_CONNECT) {
tcpcheck_main(conn);
return t;
}
}
/* It can return one of :
* - SN_ERR_NONE if everything's OK
* - SN_ERR_SRVTO if there are no more servers
* - SN_ERR_SRVCL if the connection was refused by the server
* - SN_ERR_PRXCOND if the connection has been limited by the proxy (maxconn)
* - SN_ERR_RESOURCE if a system resource is lacking (eg: fd limits, ports, ...)
* - SN_ERR_INTERNAL for any other purely internal errors
* Additionnally, in the case of SN_ERR_RESOURCE, an emergency log will be emitted.
* Note that we try to prevent the network stack from sending the ACK during the
* connect() when a pure TCP check is used (without PROXY protocol).
*/
ret = SN_ERR_INTERNAL;
if (proto->connect)
ret = proto->connect(conn, check->type, (check->type) ? 0 : 2);
conn->flags |= CO_FL_WAKE_DATA;
if (s->check.send_proxy) {
conn->send_proxy_ofs = 1;
conn->flags |= CO_FL_SEND_PROXY;
}
switch (ret) {
case SN_ERR_NONE:
/* we allow up to min(inter, timeout.connect) for a connection
* to establish but only when timeout.check is set
* as it may be to short for a full check otherwise
*/
t->expire = tick_add(now_ms, MS_TO_TICKS(check->inter));
if (s->proxy->timeout.check && s->proxy->timeout.connect) {
int t_con = tick_add(now_ms, s->proxy->timeout.connect);
t->expire = tick_first(t->expire, t_con);
}
if (check->type)
conn_data_want_recv(conn); /* prepare for reading a possible reply */
goto reschedule;
case SN_ERR_SRVTO: /* ETIMEDOUT */
case SN_ERR_SRVCL: /* ECONNREFUSED, ENETUNREACH, ... */
conn->flags |= CO_FL_ERROR;
chk_report_conn_err(conn, errno, 0);
break;
case SN_ERR_PRXCOND:
case SN_ERR_RESOURCE:
case SN_ERR_INTERNAL:
conn->flags |= CO_FL_ERROR;
chk_report_conn_err(conn, 0, 0);
break;
}
/* here, we have seen a synchronous error, no fd was allocated */
check->state &= ~CHK_ST_INPROGRESS;
check_failed(check);
/* we allow up to min(inter, timeout.connect) for a connection
* to establish but only when timeout.check is set
* as it may be to short for a full check otherwise
*/
while (tick_is_expired(t->expire, now_ms)) {
int t_con;
t_con = tick_add(t->expire, s->proxy->timeout.connect);
t->expire = tick_add(t->expire, MS_TO_TICKS(check->inter));
if (s->proxy->timeout.check)
t->expire = tick_first(t->expire, t_con);
}
}
else {
/* there was a test running.
* First, let's check whether there was an uncaught error,
* which can happen on connect timeout or error.
*/
if (s->check.result == CHK_RES_UNKNOWN) {
/* good connection is enough for pure TCP check */
if ((conn->flags & CO_FL_CONNECTED) && !check->type) {
if (check->use_ssl)
set_server_check_status(check, HCHK_STATUS_L6OK, NULL);
else
set_server_check_status(check, HCHK_STATUS_L4OK, NULL);
}
else if ((conn->flags & CO_FL_ERROR) || expired) {
chk_report_conn_err(conn, 0, expired);
}
else
goto out_wait; /* timeout not reached, wait again */
}
/* check complete or aborted */
if (conn->xprt) {
/* The check was aborted and the connection was not yet closed.
* This can happen upon timeout, or when an external event such
* as a failed response coupled with "observe layer7" caused the
* server state to be suddenly changed.
*/
conn_drain(conn);
conn_force_close(conn);
}
if (check->result == CHK_RES_FAILED) /* a failure or timeout detected */
check_failed(check);
else { /* check was OK */
/* we may have to add/remove this server from the LB group */
if ((s->state & SRV_RUNNING) && (s->proxy->options & PR_O_DISABLE404)) {
if ((s->state & SRV_GOINGDOWN) && (check->result != CHK_RES_CONDPASS))
set_server_enabled(check);
else if (!(s->state & SRV_GOINGDOWN) && (check->result == CHK_RES_CONDPASS))
set_server_disabled(check);
}
if (!(s->state & SRV_MAINTAIN) &&
check->health < check->rise + check->fall - 1) {
check->health++; /* was bad, stays for a while */
set_server_up(check);
}
}
check->state &= ~CHK_ST_INPROGRESS;
rv = 0;
if (global.spread_checks > 0) {
rv = srv_getinter(check) * global.spread_checks / 100;
rv -= (int) (2 * rv * (rand() / (RAND_MAX + 1.0)));
}
t->expire = tick_add(now_ms, MS_TO_TICKS(srv_getinter(check) + rv));
}
reschedule:
while (tick_is_expired(t->expire, now_ms))
t->expire = tick_add(t->expire, MS_TO_TICKS(check->inter));
out_wait:
return t;
}
static int start_check_task(struct check *check, int mininter,
int nbcheck, int srvpos)
{
struct task *t;
/* task for the check */
if ((t = task_new()) == NULL) {
Alert("Starting [%s:%s] check: out of memory.\n",
check->server->proxy->id, check->server->id);
return 0;
}
check->task = t;
t->process = process_chk;
t->context = check;
if (mininter < srv_getinter(check))
mininter = srv_getinter(check);
if (global.max_spread_checks && mininter > global.max_spread_checks)
mininter = global.max_spread_checks;
/* check this every ms */
t->expire = tick_add(now_ms, MS_TO_TICKS(mininter * srvpos / nbcheck));
check->start = now;
task_queue(t);
return 1;
}
/*
* Start health-check.
* Returns 0 if OK, -1 if error, and prints the error in this case.
*/
int start_checks() {
struct proxy *px;
struct server *s;
struct task *t;
int nbcheck=0, mininter=0, srvpos=0;
/* 1- count the checkers to run simultaneously.
* We also determine the minimum interval among all of those which
* have an interval larger than SRV_CHK_INTER_THRES. This interval
* will be used to spread their start-up date. Those which have
* a shorter interval will start independently and will not dictate
* too short an interval for all others.
*/
for (px = proxy; px; px = px->next) {
for (s = px->srv; s; s = s->next) {
if (s->slowstart) {
if ((t = task_new()) == NULL) {
Alert("Starting [%s:%s] check: out of memory.\n", px->id, s->id);
return -1;
}
/* We need a warmup task that will be called when the server
* state switches from down to up.
*/
s->warmup = t;
t->process = server_warmup;
t->context = s;
t->expire = TICK_ETERNITY;
}
if (s->check.state & CHK_ST_CONFIGURED) {
nbcheck++;
if ((srv_getinter(&s->check) >= SRV_CHK_INTER_THRES) &&
(!mininter || mininter > srv_getinter(&s->check)))
mininter = srv_getinter(&s->check);
}
if (s->agent.state & CHK_ST_CONFIGURED) {
nbcheck++;
if ((srv_getinter(&s->agent) >= SRV_CHK_INTER_THRES) &&
(!mininter || mininter > srv_getinter(&s->agent)))
mininter = srv_getinter(&s->agent);
}
}
}
if (!nbcheck)
return 0;
srand((unsigned)time(NULL));
/*
* 2- start them as far as possible from each others. For this, we will
* start them after their interval set to the min interval divided by
* the number of servers, weighted by the server's position in the list.
*/
for (px = proxy; px; px = px->next) {
for (s = px->srv; s; s = s->next) {
/* A task for the main check */
if (s->check.state & CHK_ST_CONFIGURED) {
if (!start_check_task(&s->check, mininter, nbcheck, srvpos))
return -1;
srvpos++;
}
/* A task for a auxiliary agent check */
if (s->agent.state & CHK_ST_CONFIGURED) {
if (!start_check_task(&s->agent, mininter, nbcheck, srvpos)) {
return -1;
}
srvpos++;
}
}
}
return 0;
}
/*
* Perform content verification check on data in s->check.buffer buffer.
* The buffer MUST be terminated by a null byte before calling this function.
* Sets server status appropriately. The caller is responsible for ensuring
* that the buffer contains at least 13 characters. If <done> is zero, we may
* return 0 to indicate that data is required to decide of a match.
*/
static int httpchk_expect(struct server *s, int done)
{
static char status_msg[] = "HTTP status check returned code <000>";
char status_code[] = "000";
char *contentptr;
int crlf;
int ret;
switch (s->proxy->options2 & PR_O2_EXP_TYPE) {
case PR_O2_EXP_STS:
case PR_O2_EXP_RSTS:
memcpy(status_code, s->check.bi->data + 9, 3);
memcpy(status_msg + strlen(status_msg) - 4, s->check.bi->data + 9, 3);
if ((s->proxy->options2 & PR_O2_EXP_TYPE) == PR_O2_EXP_STS)
ret = strncmp(s->proxy->expect_str, status_code, 3) == 0;
else
ret = regexec(s->proxy->expect_regex, status_code, MAX_MATCH, pmatch, 0) == 0;
/* we necessarily have the response, so there are no partial failures */
if (s->proxy->options2 & PR_O2_EXP_INV)
ret = !ret;
set_server_check_status(&s->check, ret ? HCHK_STATUS_L7OKD : HCHK_STATUS_L7STS, status_msg);
break;
case PR_O2_EXP_STR:
case PR_O2_EXP_RSTR:
/* very simple response parser: ignore CR and only count consecutive LFs,
* stop with contentptr pointing to first char after the double CRLF or
* to '\0' if crlf < 2.
*/
crlf = 0;
for (contentptr = s->check.bi->data; *contentptr; contentptr++) {
if (crlf >= 2)
break;
if (*contentptr == '\r')
continue;
else if (*contentptr == '\n')
crlf++;
else
crlf = 0;
}
/* Check that response contains a body... */
if (crlf < 2) {
if (!done)
return 0;
set_server_check_status(&s->check, HCHK_STATUS_L7RSP,
"HTTP content check could not find a response body");
return 1;
}
/* Check that response body is not empty... */
if (*contentptr == '\0') {
if (!done)
return 0;
set_server_check_status(&s->check, HCHK_STATUS_L7RSP,
"HTTP content check found empty response body");
return 1;
}
/* Check the response content against the supplied string
* or regex... */
if ((s->proxy->options2 & PR_O2_EXP_TYPE) == PR_O2_EXP_STR)
ret = strstr(contentptr, s->proxy->expect_str) != NULL;
else
ret = regexec(s->proxy->expect_regex, contentptr, MAX_MATCH, pmatch, 0) == 0;
/* if we don't match, we may need to wait more */
if (!ret && !done)
return 0;
if (ret) {
/* content matched */
if (s->proxy->options2 & PR_O2_EXP_INV)
set_server_check_status(&s->check, HCHK_STATUS_L7RSP,
"HTTP check matched unwanted content");
else
set_server_check_status(&s->check, HCHK_STATUS_L7OKD,
"HTTP content check matched");
}
else {
if (s->proxy->options2 & PR_O2_EXP_INV)
set_server_check_status(&s->check, HCHK_STATUS_L7OKD,
"HTTP check did not match unwanted content");
else
set_server_check_status(&s->check, HCHK_STATUS_L7RSP,
"HTTP content check did not match");
}
break;
}
return 1;
}
/*
* return the id of a step in a send/expect session
*/
static int tcpcheck_get_step_id(struct server *s)
{
struct tcpcheck_rule *cur = NULL, *next = NULL;
int i = 0;
cur = s->check.last_started_step;
/* no step => first step */
if (cur == NULL)
return 1;
/* increment i until current step */
list_for_each_entry(next, &s->proxy->tcpcheck_rules, list) {
if (next->list.p == &cur->list)
break;
++i;
}
return i;
}
static void tcpcheck_main(struct connection *conn)
{
char *contentptr;
unsigned int contentlen;
struct list *head = NULL;
struct tcpcheck_rule *cur = NULL;
int done = 0, ret = 0;
struct check *check = conn->owner;
struct server *s = check->server;
struct task *t = check->task;
/*
* don't do anything until the connection is established but if we're running
* first step which must be a connect
*/
if (check->current_step && (!(conn->flags & CO_FL_CONNECTED))) {
/* update expire time, should be done by process_chk */
/* we allow up to min(inter, timeout.connect) for a connection
* to establish but only when timeout.check is set
* as it may be to short for a full check otherwise
*/
while (tick_is_expired(t->expire, now_ms)) {
int t_con;
t_con = tick_add(t->expire, s->proxy->timeout.connect);
t->expire = tick_add(t->expire, MS_TO_TICKS(check->inter));
if (s->proxy->timeout.check)
t->expire = tick_first(t->expire, t_con);
}
return;
}
/* here, we know that the connection is established */
if (check->result != CHK_RES_UNKNOWN)
goto out_end_tcpcheck;
/* head is be the first element of the double chained list */
head = &s->proxy->tcpcheck_rules;
/* no step means first step
* initialisation */
if (check->current_step == NULL) {
check->bo->p = check->bo->data;
check->bo->o = 0;
check->bi->p = check->bi->data;
check->bi->i = 0;
cur = check->current_step = LIST_ELEM(head->n, struct tcpcheck_rule *, list);
t->expire = tick_add(now_ms, MS_TO_TICKS(check->inter));
if (s->proxy->timeout.check)
t->expire = tick_add_ifset(now_ms, s->proxy->timeout.check);
}
/* keep on processing step */
else {
cur = check->current_step;
}
if (conn->flags & CO_FL_HANDSHAKE)
return;
/* It's only the rules which will enable send/recv */
__conn_data_stop_both(conn);
while (1) {
/* we have to try to flush the output buffer before reading, at the end,
* or if we're about to send a string that does not fit in the remaining space.
*/
if (check->bo->o &&
(&cur->list == head ||
check->current_step->action != TCPCHK_ACT_SEND ||
check->current_step->string_len >= buffer_total_space(check->bo))) {
if (conn->xprt->snd_buf(conn, check->bo, 0) <= 0) {
if (conn->flags & CO_FL_ERROR) {
chk_report_conn_err(conn, errno, 0);
__conn_data_stop_both(conn);
goto out_end_tcpcheck;
}
goto out_need_io;
}
}
/* did we reach the end ? If so, let's check that everything was sent */
if (&cur->list == head) {
if (check->bo->o)
goto out_need_io;
break;
}
if (check->current_step->action == TCPCHK_ACT_CONNECT) {
struct protocol *proto;
struct xprt_ops *xprt;
/* mark the step as started */
check->last_started_step = check->current_step;
/* first, shut existing connection */
conn_force_close(conn);
/* prepare new connection */
/* initialization */
conn_init(conn);
conn_attach(conn, check, &check_conn_cb);
conn->target = &s->obj_type;
/* no client address */
clear_addr(&conn->addr.from);
if (is_addr(&s->check_common.addr)) {
/* we'll connect to the check addr specified on the server */
conn->addr.to = s->check_common.addr;
proto = s->check_common.proto;
}
else {
/* we'll connect to the addr on the server */
conn->addr.to = s->addr;
proto = s->proto;
}
/* port */
if (check->current_step->port)
set_host_port(&conn->addr.to, check->current_step->port);
else if (check->port)
set_host_port(&conn->addr.to, check->port);
#ifdef USE_OPENSSL
if (check->current_step->conn_opts & TCPCHK_OPT_SSL) {
xprt = &ssl_sock;
}
else {
xprt = &raw_sock;
}
#else /* USE_OPENSSL */
xprt = &raw_sock;
#endif /* USE_OPENSSL */
conn_prepare(conn, proto, xprt);
ret = SN_ERR_INTERNAL;
if (proto->connect)
ret = proto->connect(conn, check->type, (check->type) ? 0 : 2);
conn->flags |= CO_FL_WAKE_DATA;
if (check->current_step->conn_opts & TCPCHK_OPT_SEND_PROXY) {
conn->send_proxy_ofs = 1;
conn->flags |= CO_FL_SEND_PROXY;
}
/* It can return one of :
* - SN_ERR_NONE if everything's OK
* - SN_ERR_SRVTO if there are no more servers
* - SN_ERR_SRVCL if the connection was refused by the server
* - SN_ERR_PRXCOND if the connection has been limited by the proxy (maxconn)
* - SN_ERR_RESOURCE if a system resource is lacking (eg: fd limits, ports, ...)
* - SN_ERR_INTERNAL for any other purely internal errors
* Additionnally, in the case of SN_ERR_RESOURCE, an emergency log will be emitted.
* Note that we try to prevent the network stack from sending the ACK during the
* connect() when a pure TCP check is used (without PROXY protocol).
*/
switch (ret) {
case SN_ERR_NONE:
/* we allow up to min(inter, timeout.connect) for a connection
* to establish but only when timeout.check is set
* as it may be to short for a full check otherwise
*/
t->expire = tick_add(now_ms, MS_TO_TICKS(check->inter));
if (s->proxy->timeout.check && s->proxy->timeout.connect) {
int t_con = tick_add(now_ms, s->proxy->timeout.connect);
t->expire = tick_first(t->expire, t_con);
}
break;
case SN_ERR_SRVTO: /* ETIMEDOUT */
case SN_ERR_SRVCL: /* ECONNREFUSED, ENETUNREACH, ... */
chunk_printf(&trash, "TCPCHK error establishing connection at step %d: %s",
tcpcheck_get_step_id(s), strerror(errno));
set_server_check_status(check, HCHK_STATUS_L4CON, trash.str);
goto out_end_tcpcheck;
case SN_ERR_PRXCOND:
case SN_ERR_RESOURCE:
case SN_ERR_INTERNAL:
chunk_printf(&trash, "TCPCHK error establishing connection at step %d",
tcpcheck_get_step_id(s));
set_server_check_status(check, HCHK_STATUS_SOCKERR, trash.str);
goto out_end_tcpcheck;
}
/* allow next rule */
cur = (struct tcpcheck_rule *)cur->list.n;
check->current_step = cur;
/* don't do anything until the connection is established */
if (!(conn->flags & CO_FL_CONNECTED)) {
/* update expire time, should be done by process_chk */
/* we allow up to min(inter, timeout.connect) for a connection
* to establish but only when timeout.check is set
* as it may be to short for a full check otherwise
*/
while (tick_is_expired(t->expire, now_ms)) {
int t_con;
t_con = tick_add(t->expire, s->proxy->timeout.connect);
t->expire = tick_add(t->expire, MS_TO_TICKS(check->inter));
if (s->proxy->timeout.check)
t->expire = tick_first(t->expire, t_con);
}
return;
}
} /* end 'connect' */
else if (check->current_step->action == TCPCHK_ACT_SEND) {
/* mark the step as started */
check->last_started_step = check->current_step;
/* reset the read buffer */
if (*check->bi->data != '\0') {
*check->bi->data = '\0';
check->bi->i = 0;
}
if (conn->flags & (CO_FL_SOCK_WR_SH | CO_FL_DATA_WR_SH)) {
conn->flags |= CO_FL_ERROR;
chk_report_conn_err(conn, 0, 0);
goto out_end_tcpcheck;
}
if (check->current_step->string_len >= check->bo->size) {
chunk_printf(&trash, "tcp-check send : string too large (%d) for buffer size (%d) at step %d",
check->current_step->string_len, check->bo->size,
tcpcheck_get_step_id(s));
set_server_check_status(check, HCHK_STATUS_L7RSP, trash.str);
goto out_end_tcpcheck;
}
/* do not try to send if there is no space */
if (check->current_step->string_len >= buffer_total_space(check->bo))
continue;
bo_putblk(check->bo, check->current_step->string, check->current_step->string_len);
*check->bo->p = '\0'; /* to make gdb output easier to read */
/* go to next rule and try to send */
cur = (struct tcpcheck_rule *)cur->list.n;
check->current_step = cur;
} /* end 'send' */
else if (check->current_step->action == TCPCHK_ACT_EXPECT) {
if (unlikely(check->result == CHK_RES_FAILED))
goto out_end_tcpcheck;
if (conn->xprt->rcv_buf(conn, check->bi, check->bi->size) <= 0) {
if (conn->flags & (CO_FL_ERROR | CO_FL_SOCK_RD_SH | CO_FL_DATA_RD_SH)) {
done = 1;
if ((conn->flags & CO_FL_ERROR) && !check->bi->i) {
/* Report network errors only if we got no other data. Otherwise
* we'll let the upper layers decide whether the response is OK
* or not. It is very common that an RST sent by the server is
* reported as an error just after the last data chunk.
*/
chk_report_conn_err(conn, errno, 0);
goto out_end_tcpcheck;
}
}
else
goto out_need_io;
}
/* mark the step as started */
check->last_started_step = check->current_step;
/* Intermediate or complete response received.
* Terminate string in check->bi->data buffer.
*/
if (check->bi->i < check->bi->size) {
check->bi->data[check->bi->i] = '\0';
}
else {
check->bi->data[check->bi->i - 1] = '\0';
done = 1; /* buffer full, don't wait for more data */
}
contentptr = check->bi->data;
contentlen = check->bi->i;
/* Check that response body is not empty... */
if (*contentptr == '\0') {
if (!done)
continue;
/* empty response */
chunk_printf(&trash, "TCPCHK got an empty response at step %d",
tcpcheck_get_step_id(s));
set_server_check_status(check, HCHK_STATUS_L7RSP, trash.str);
goto out_end_tcpcheck;
}
if (!done && (cur->string != NULL) && (check->bi->i < cur->string_len) )
continue; /* try to read more */
tcpcheck_expect:
if (cur->string != NULL)
ret = my_memmem(contentptr, contentlen, cur->string, cur->string_len) != NULL;
else if (cur->expect_regex != NULL)
ret = regexec(cur->expect_regex, contentptr, MAX_MATCH, pmatch, 0) == 0;
if (!ret && !done)
continue; /* try to read more */
/* matched */
if (ret) {
/* matched but we did not want to => ERROR */
if (cur->inverse) {
/* we were looking for a string */
if (cur->string != NULL) {
chunk_printf(&trash, "TCPCHK matched unwanted content '%s' at step %d",
cur->string, tcpcheck_get_step_id(s));
}
else {
/* we were looking for a regex */
chunk_printf(&trash, "TCPCHK matched unwanted content (regex) at step %d",
tcpcheck_get_step_id(s));
}
set_server_check_status(check, HCHK_STATUS_L7RSP, trash.str);
goto out_end_tcpcheck;
}
/* matched and was supposed to => OK, next step */
else {
cur = (struct tcpcheck_rule*)cur->list.n;
check->current_step = cur;
if (check->current_step->action == TCPCHK_ACT_EXPECT)
goto tcpcheck_expect;
__conn_data_stop_recv(conn);
}
}
else {
/* not matched */
/* not matched and was not supposed to => OK, next step */
if (cur->inverse) {
cur = (struct tcpcheck_rule*)cur->list.n;
check->current_step = cur;
if (check->current_step->action == TCPCHK_ACT_EXPECT)
goto tcpcheck_expect;
__conn_data_stop_recv(conn);
}
/* not matched but was supposed to => ERROR */
else {
/* we were looking for a string */
if (cur->string != NULL) {
chunk_printf(&trash, "TCPCHK did not match content '%s' at step %d",
cur->string, tcpcheck_get_step_id(s));
}
else {
/* we were looking for a regex */
chunk_printf(&trash, "TCPCHK did not match content (regex) at step %d",
tcpcheck_get_step_id(s));
}
set_server_check_status(check, HCHK_STATUS_L7RSP, trash.str);
goto out_end_tcpcheck;
}
}
} /* end expect */
} /* end loop over double chained step list */
set_server_check_status(check, HCHK_STATUS_L7OKD, "(tcp-check)");
goto out_end_tcpcheck;
out_need_io:
if (check->bo->o)
__conn_data_want_send(conn);
if (check->current_step->action == TCPCHK_ACT_EXPECT)
__conn_data_want_recv(conn);
return;
out_end_tcpcheck:
/* collect possible new errors */
if (conn->flags & CO_FL_ERROR)
chk_report_conn_err(conn, 0, 0);
/* cleanup before leaving */
check->current_step = NULL;
if (check->result == CHK_RES_FAILED)
conn->flags |= CO_FL_ERROR;
__conn_data_stop_both(conn);
return;
}
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/