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git01.mediatek.com / haproxy / 1c47f85292d60ce314a193b8aa792b04e1e2a0dc / . / src / proto_http.c
blob: d4e97641d47e048e110fe0656b2e281ff0bba52f [file] [log] [blame]
/*
* HTTP protocol analyzer
*
* Copyright 2000-2006 Willy Tarreau <w@1wt.eu>
*
* 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 <syslog.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <common/appsession.h>
#include <common/compat.h>
#include <common/config.h>
#include <common/memory.h>
#include <common/mini-clist.h>
#include <common/standard.h>
#include <common/time.h>
#include <common/uri_auth.h>
#include <common/version.h>
#include <types/capture.h>
#include <types/client.h>
#include <types/global.h>
#include <types/httperr.h>
#include <types/polling.h>
#include <types/proxy.h>
#include <types/server.h>
#include <proto/backend.h>
#include <proto/buffers.h>
#include <proto/fd.h>
#include <proto/log.h>
#include <proto/proto_http.h>
#include <proto/queue.h>
#include <proto/session.h>
#include <proto/task.h>
/* This is used by remote monitoring */
const char *HTTP_200 =
"HTTP/1.0 200 OK\r\n"
"Cache-Control: no-cache\r\n"
"Connection: close\r\n"
"Content-Type: text/html\r\n"
"\r\n"
"<html><body><h1>200 OK</h1>\nHAProxy: service ready.\n</body></html>\n";
/* Warning: this one is an sprintf() fmt string, with <realm> as its only argument */
const char *HTTP_401_fmt =
"HTTP/1.0 401 Unauthorized\r\n"
"Cache-Control: no-cache\r\n"
"Connection: close\r\n"
"Content-Type: text/html\r\n"
"WWW-Authenticate: Basic realm=\"%s\"\r\n"
"\r\n"
"<html><body><h1>401 Unauthorized</h1>\nYou need a valid user and password to access this content.\n</body></html>\n";
#ifdef DEBUG_FULL
static char *cli_stnames[5] = {"HDR", "DAT", "SHR", "SHW", "CLS" };
static char *srv_stnames[7] = {"IDL", "CON", "HDR", "DAT", "SHR", "SHW", "CLS" };
#endif
/*
* returns a message to the client ; the connection is shut down for read,
* and the request is cleared so that no server connection can be initiated.
* The client must be in a valid state for this (HEADER, DATA ...).
* Nothing is performed on the server side.
* The reply buffer doesn't need to be empty before this.
*/
void client_retnclose(struct session *s, int len, const char *msg)
{
FD_CLR(s->cli_fd, StaticReadEvent);
FD_SET(s->cli_fd, StaticWriteEvent);
tv_eternity(&s->crexpire);
if (s->proxy->clitimeout)
tv_delayfrom(&s->cwexpire, &now, s->proxy->clitimeout);
else
tv_eternity(&s->cwexpire);
shutdown(s->cli_fd, SHUT_RD);
s->cli_state = CL_STSHUTR;
buffer_flush(s->rep);
buffer_write(s->rep, msg, len);
s->req->l = 0;
}
/*
* returns a message into the rep buffer, and flushes the req buffer.
* The reply buffer doesn't need to be empty before this.
*/
void client_return(struct session *s, int len, const char *msg)
{
buffer_flush(s->rep);
buffer_write(s->rep, msg, len);
s->req->l = 0;
}
/* This function turns the server state into the SV_STCLOSE, and sets
* indicators accordingly. Note that if <status> is 0, no message is
* returned.
*/
void srv_close_with_err(struct session *t, int err, int finst,
int status, int msglen, char *msg)
{
t->srv_state = SV_STCLOSE;
if (status > 0) {
t->logs.status = status;
if (t->proxy->mode == PR_MODE_HTTP)
client_return(t, msglen, msg);
}
if (!(t->flags & SN_ERR_MASK))
t->flags |= err;
if (!(t->flags & SN_FINST_MASK))
t->flags |= finst;
}
/* Processes the client and server jobs of a session task, then
* puts it back to the wait queue in a clean state, or
* cleans up its resources if it must be deleted. Returns
* the time the task accepts to wait, or TIME_ETERNITY for
* infinity.
*/
int process_session(struct task *t)
{
struct session *s = t->context;
int fsm_resync = 0;
do {
fsm_resync = 0;
//fprintf(stderr,"before_cli:cli=%d, srv=%d\n", s->cli_state, s->srv_state);
fsm_resync |= process_cli(s);
//fprintf(stderr,"cli/srv:cli=%d, srv=%d\n", s->cli_state, s->srv_state);
fsm_resync |= process_srv(s);
//fprintf(stderr,"after_srv:cli=%d, srv=%d\n", s->cli_state, s->srv_state);
} while (fsm_resync);
if (s->cli_state != CL_STCLOSE || s->srv_state != SV_STCLOSE) {
struct timeval min1, min2;
s->res_cw = s->res_cr = s->res_sw = s->res_sr = RES_SILENT;
tv_min(&min1, &s->crexpire, &s->cwexpire);
tv_min(&min2, &s->srexpire, &s->swexpire);
tv_min(&min1, &min1, &s->cnexpire);
tv_min(&t->expire, &min1, &min2);
/* restore t to its place in the task list */
task_queue(t);
#ifdef DEBUG_FULL
/* DEBUG code : this should never ever happen, otherwise it indicates
* that a task still has something to do and will provoke a quick loop.
*/
if (tv_remain2(&now, &t->expire) <= 0)
exit(100);
#endif
return tv_remain2(&now, &t->expire); /* nothing more to do */
}
s->proxy->nbconn--;
actconn--;
if ((global.mode & MODE_DEBUG) && (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE))) {
int len;
len = sprintf(trash, "%08x:%s.closed[%04x:%04x]\n", s->uniq_id, s->proxy->id, (unsigned short)s->cli_fd, (unsigned short)s->srv_fd);
write(1, trash, len);
}
s->logs.t_close = tv_diff(&s->logs.tv_accept, &now);
if (s->rep != NULL)
s->logs.bytes = s->rep->total;
/* let's do a final log if we need it */
if (s->logs.logwait &&
!(s->flags & SN_MONITOR) &&
(!(s->proxy->options & PR_O_NULLNOLOG) || s->req->total))
sess_log(s);
/* the task MUST not be in the run queue anymore */
task_delete(t);
session_free(s);
task_free(t);
return TIME_ETERNITY; /* rest in peace for eternity */
}
/*
* FIXME: This should move to the HTTP_flow_analyzer code
*/
/*
* manages the client FSM and its socket. BTW, it also tries to handle the
* cookie. It returns 1 if a state has changed (and a resync may be needed),
* 0 else.
*/
int process_cli(struct session *t)
{
int s = t->srv_state;
int c = t->cli_state;
struct buffer *req = t->req;
struct buffer *rep = t->rep;
int method_checked = 0;
appsess *asession_temp = NULL;
appsess local_asession;
#ifdef DEBUG_FULL
fprintf(stderr,"process_cli: c=%s s=%s set(r,w)=%d,%d exp(r,w)=%d.%d,%d.%d\n",
cli_stnames[c], srv_stnames[s],
FD_ISSET(t->cli_fd, StaticReadEvent), FD_ISSET(t->cli_fd, StaticWriteEvent),
t->crexpire.tv_sec, t->crexpire.tv_usec,
t->cwexpire.tv_sec, t->cwexpire.tv_usec);
#endif
//fprintf(stderr,"process_cli: c=%d, s=%d, cr=%d, cw=%d, sr=%d, sw=%d\n", c, s,
//FD_ISSET(t->cli_fd, StaticReadEvent), FD_ISSET(t->cli_fd, StaticWriteEvent),
//FD_ISSET(t->srv_fd, StaticReadEvent), FD_ISSET(t->srv_fd, StaticWriteEvent)
//);
if (c == CL_STHEADERS) {
/* now parse the partial (or complete) headers */
while (req->lr < req->r) { /* this loop only sees one header at each iteration */
char *ptr;
int delete_header;
char *request_line = NULL;
ptr = req->lr;
/* look for the end of the current header */
while (ptr < req->r && *ptr != '\n' && *ptr != '\r')
ptr++;
if (ptr == req->h) { /* empty line, end of headers */
int line, len;
/*
* first, let's check that it's not a leading empty line, in
* which case we'll ignore and remove it (according to RFC2616).
*/
if (req->h == req->data) {
/* to get a complete header line, we need the ending \r\n, \n\r, \r or \n too */
if (ptr > req->r - 2) {
/* this is a partial header, let's wait for more to come */
req->lr = ptr;
break;
}
/* now we know that *ptr is either \r or \n,
* and that there are at least 1 char after it.
*/
if ((ptr[0] == ptr[1]) || (ptr[1] != '\r' && ptr[1] != '\n'))
req->lr = ptr + 1; /* \r\r, \n\n, \r[^\n], \n[^\r] */
else
req->lr = ptr + 2; /* \r\n or \n\r */
/* ignore empty leading lines */
buffer_replace2(req, req->h, req->lr, NULL, 0);
req->h = req->lr;
continue;
}
/* we can only get here after an end of headers */
/* we'll have something else to do here : add new headers ... */
if (t->flags & SN_CLDENY) {
/* no need to go further */
t->logs.status = 403;
t->logs.t_request = tv_diff(&t->logs.tv_accept, &now); /* let's log the request time */
client_retnclose(t, t->proxy->errmsg.len403, t->proxy->errmsg.msg403);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
/* Right now, we know that we have processed the entire headers
* and that unwanted requests have been filtered out. We can do
* whatever we want.
*/
/* check if the URI matches the monitor_uri. To speed-up the
* test, we include the leading and trailing spaces in the
* comparison.
*/
if ((t->proxy->monitor_uri_len != 0) &&
(t->req_line.len >= t->proxy->monitor_uri_len)) {
char *p = t->req_line.str;
int idx = 0;
/* skip the method so that we accept any method */
while (idx < t->req_line.len && p[idx] != ' ')
idx++;
p += idx;
if (t->req_line.len - idx >= t->proxy->monitor_uri_len &&
!memcmp(p, t->proxy->monitor_uri, t->proxy->monitor_uri_len)) {
/*
* We have found the monitor URI
*/
t->flags |= SN_MONITOR;
t->logs.status = 200;
client_retnclose(t, strlen(HTTP_200), HTTP_200);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
}
if (t->proxy->uri_auth != NULL
&& t->req_line.len >= t->proxy->uri_auth->uri_len + 4) { /* +4 for "GET /" */
if (!memcmp(t->req_line.str + 4,
t->proxy->uri_auth->uri_prefix, t->proxy->uri_auth->uri_len)
&& !memcmp(t->req_line.str, "GET ", 4)) {
struct user_auth *user;
int authenticated;
/* we are in front of a interceptable URI. Let's check
* if there's an authentication and if it's valid.
*/
user = t->proxy->uri_auth->users;
if (!user) {
/* no user auth required, it's OK */
authenticated = 1;
} else {
authenticated = 0;
/* a user list is defined, we have to check.
* skip 21 chars for "Authorization: Basic ".
*/
if (t->auth_hdr.len < 21 || memcmp(t->auth_hdr.str + 14, " Basic ", 7))
user = NULL;
while (user) {
if ((t->auth_hdr.len == user->user_len + 21)
&& !memcmp(t->auth_hdr.str+21, user->user_pwd, user->user_len)) {
authenticated = 1;
break;
}
user = user->next;
}
}
if (!authenticated) {
int msglen;
/* no need to go further */
msglen = sprintf(trash, HTTP_401_fmt, t->proxy->uri_auth->auth_realm);
t->logs.status = 401;
client_retnclose(t, msglen, trash);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
t->cli_state = CL_STSHUTR;
req->rlim = req->data + BUFSIZE; /* no more rewrite needed */
t->logs.t_request = tv_diff(&t->logs.tv_accept, &now);
t->data_source = DATA_SRC_STATS;
t->data_state = DATA_ST_INIT;
produce_content(t);
return 1;
}
}
for (line = 0; line < t->proxy->nb_reqadd; line++) {
len = sprintf(trash, "%s\r\n", t->proxy->req_add[line]);
buffer_replace2(req, req->h, req->h, trash, len);
}
if (t->proxy->options & PR_O_FWDFOR) {
if (t->cli_addr.ss_family == AF_INET) {
unsigned char *pn;
pn = (unsigned char *)&((struct sockaddr_in *)&t->cli_addr)->sin_addr;
len = sprintf(trash, "X-Forwarded-For: %d.%d.%d.%d\r\n",
pn[0], pn[1], pn[2], pn[3]);
buffer_replace2(req, req->h, req->h, trash, len);
}
else if (t->cli_addr.ss_family == AF_INET6) {
char pn[INET6_ADDRSTRLEN];
inet_ntop(AF_INET6,
(const void *)&((struct sockaddr_in6 *)(&t->cli_addr))->sin6_addr,
pn, sizeof(pn));
len = sprintf(trash, "X-Forwarded-For: %s\r\n", pn);
buffer_replace2(req, req->h, req->h, trash, len);
}
}
/* add a "connection: close" line if needed */
if (t->proxy->options & PR_O_HTTP_CLOSE)
buffer_replace2(req, req->h, req->h, "Connection: close\r\n", 19);
if (!memcmp(req->data, "POST ", 5)) {
/* this is a POST request, which is not cacheable by default */
t->flags |= SN_POST;
}
t->cli_state = CL_STDATA;
req->rlim = req->data + BUFSIZE; /* no more rewrite needed */
t->logs.t_request = tv_diff(&t->logs.tv_accept, &now);
/* FIXME: we'll set the client in a wait state while we try to
* connect to the server. Is this really needed ? wouldn't it be
* better to release the maximum of system buffers instead ?
* The solution is to enable the FD but set its time-out to
* eternity as long as the server-side does not enable data xfer.
* CL_STDATA also has to take care of this, which is done below.
*/
//FD_CLR(t->cli_fd, StaticReadEvent);
//tv_eternity(&t->crexpire);
/* FIXME: if we break here (as up to 1.1.23), having the client
* shutdown its connection can lead to an abort further.
* it's better to either return 1 or even jump directly to the
* data state which will save one schedule.
*/
//break;
if (!t->proxy->clitimeout ||
(t->srv_state < SV_STDATA && t->proxy->srvtimeout))
/* If the client has no timeout, or if the server is not ready yet,
* and we know for sure that it can expire, then it's cleaner to
* disable the timeout on the client side so that too low values
* cannot make the sessions abort too early.
*
* FIXME-20050705: the server needs a way to re-enable this time-out
* when it switches its state, otherwise a client can stay connected
* indefinitely. This now seems to be OK.
*/
tv_eternity(&t->crexpire);
goto process_data;
}
/* to get a complete header line, we need the ending \r\n, \n\r, \r or \n too */
if (ptr > req->r - 2) {
/* this is a partial header, let's wait for more to come */
req->lr = ptr;
break;
}
/* now we know that *ptr is either \r or \n,
* and that there are at least 1 char after it.
*/
if ((ptr[0] == ptr[1]) || (ptr[1] != '\r' && ptr[1] != '\n'))
req->lr = ptr + 1; /* \r\r, \n\n, \r[^\n], \n[^\r] */
else
req->lr = ptr + 2; /* \r\n or \n\r */
/*
* now we know that we have a full header ; we can do whatever
* we want with these pointers :
* req->h = beginning of header
* ptr = end of header (first \r or \n)
* req->lr = beginning of next line (next rep->h)
* req->r = end of data (not used at this stage)
*/
if (!method_checked && (t->proxy->appsession_name != NULL) &&
((memcmp(req->h, "GET ", 4) == 0) || (memcmp(req->h, "POST ", 4) == 0)) &&
((request_line = memchr(req->h, ';', req->lr - req->h)) != NULL)) {
/* skip ; */
request_line++;
/* look if we have a jsessionid */
if (strncasecmp(request_line, t->proxy->appsession_name, t->proxy->appsession_name_len) == 0) {
/* skip jsessionid= */
request_line += t->proxy->appsession_name_len + 1;
/* First try if we allready have an appsession */
asession_temp = &local_asession;
if ((asession_temp->sessid = pool_alloc_from(apools.sessid, apools.ses_msize)) == NULL) {
Alert("Not enough memory process_cli():asession_temp->sessid:calloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enough Memory process_cli():asession_temp->sessid:calloc().\n");
return 0;
}
/* Copy the sessionid */
memcpy(asession_temp->sessid, request_line, t->proxy->appsession_len);
asession_temp->sessid[t->proxy->appsession_len] = 0;
asession_temp->serverid = NULL;
/* only do insert, if lookup fails */
if (chtbl_lookup(&(t->proxy->htbl_proxy), (void *)&asession_temp)) {
if ((asession_temp = pool_alloc(appsess)) == NULL) {
Alert("Not enough memory process_cli():asession:calloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enough memory process_cli():asession:calloc().\n");
return 0;
}
asession_temp->sessid = local_asession.sessid;
asession_temp->serverid = local_asession.serverid;
chtbl_insert(&(t->proxy->htbl_proxy), (void *) asession_temp);
} /* end if (chtbl_lookup()) */
else {
/*free wasted memory;*/
pool_free_to(apools.sessid, local_asession.sessid);
}
tv_delayfrom(&asession_temp->expire, &now, t->proxy->appsession_timeout);
asession_temp->request_count++;
#if defined(DEBUG_HASH)
print_table(&(t->proxy->htbl_proxy));
#endif
if (asession_temp->serverid == NULL) {
Alert("Found Application Session without matching server.\n");
} else {
struct server *srv = t->proxy->srv;
while (srv) {
if (strcmp(srv->id, asession_temp->serverid) == 0) {
if (srv->state & SRV_RUNNING || t->proxy->options & PR_O_PERSIST) {
/* we found the server and it's usable */
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_VALID | SN_DIRECT | SN_ASSIGNED;
t->srv = srv;
break;
} else {
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_DOWN;
}
} /* end if (strcmp()) */
srv = srv->next;
}/* end while(srv) */
}/* end else of if (asession_temp->serverid == NULL) */
}/* end if (strncasecmp(request_line,t->proxy->appsession_name,apssesion_name_len) == 0) */
else {
//fprintf(stderr,">>>>>>>>>>>>>>>>>>>>>>NO SESSION\n");
}
method_checked = 1;
} /* end if (!method_checked ...) */
else{
//printf("No Methode-Header with Session-String\n");
}
if (t->logs.logwait & LW_REQ) {
/* we have a complete HTTP request that we must log */
int urilen;
if ((t->logs.uri = pool_alloc(requri)) == NULL) {
Alert("HTTP logging : out of memory.\n");
t->logs.status = 500;
client_retnclose(t, t->proxy->errmsg.len500, t->proxy->errmsg.msg500);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
urilen = ptr - req->h;
if (urilen >= REQURI_LEN)
urilen = REQURI_LEN - 1;
memcpy(t->logs.uri, req->h, urilen);
t->logs.uri[urilen] = 0;
if (!(t->logs.logwait &= ~LW_REQ))
sess_log(t);
}
else if (t->logs.logwait & LW_REQHDR) {
struct cap_hdr *h;
int len;
for (h = t->proxy->req_cap; h; h = h->next) {
if ((h->namelen + 2 <= ptr - req->h) &&
(req->h[h->namelen] == ':') &&
(strncasecmp(req->h, h->name, h->namelen) == 0)) {
if (t->req_cap[h->index] == NULL)
t->req_cap[h->index] = pool_alloc_from(h->pool, h->len + 1);
len = ptr - (req->h + h->namelen + 2);
if (len > h->len)
len = h->len;
memcpy(t->req_cap[h->index], req->h + h->namelen + 2, len);
t->req_cap[h->index][len]=0;
}
}
}
delete_header = 0;
if ((global.mode & MODE_DEBUG) && (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE))) {
int len, max;
len = sprintf(trash, "%08x:%s.clihdr[%04x:%04x]: ", t->uniq_id, t->proxy->id, (unsigned short)t->cli_fd, (unsigned short)t->srv_fd);
max = ptr - req->h;
UBOUND(max, sizeof(trash) - len - 1);
len += strlcpy2(trash + len, req->h, max + 1);
trash[len++] = '\n';
write(1, trash, len);
}
/* remove "connection: " if needed */
if (!delete_header && (t->proxy->options & PR_O_HTTP_CLOSE)
&& (strncasecmp(req->h, "Connection: ", 12) == 0)) {
delete_header = 1;
}
/* try headers regexps */
if (!delete_header && t->proxy->req_exp != NULL
&& !(t->flags & SN_CLDENY)) {
struct hdr_exp *exp;
char term;
term = *ptr;
*ptr = '\0';
exp = t->proxy->req_exp;
do {
if (regexec(exp->preg, req->h, MAX_MATCH, pmatch, 0) == 0) {
switch (exp->action) {
case ACT_ALLOW:
if (!(t->flags & SN_CLDENY))
t->flags |= SN_CLALLOW;
break;
case ACT_REPLACE:
if (!(t->flags & SN_CLDENY)) {
int len = exp_replace(trash, req->h, exp->replace, pmatch);
ptr += buffer_replace2(req, req->h, ptr, trash, len);
}
break;
case ACT_REMOVE:
if (!(t->flags & SN_CLDENY))
delete_header = 1;
break;
case ACT_DENY:
if (!(t->flags & SN_CLALLOW))
t->flags |= SN_CLDENY;
break;
case ACT_PASS: /* we simply don't deny this one */
break;
}
break;
}
} while ((exp = exp->next) != NULL);
*ptr = term; /* restore the string terminator */
}
/* Now look for cookies. Conforming to RFC2109, we have to support
* attributes whose name begin with a '$', and associate them with
* the right cookie, if we want to delete this cookie.
* So there are 3 cases for each cookie read :
* 1) it's a special attribute, beginning with a '$' : ignore it.
* 2) it's a server id cookie that we *MAY* want to delete : save
* some pointers on it (last semi-colon, beginning of cookie...)
* 3) it's an application cookie : we *MAY* have to delete a previous
* "special" cookie.
* At the end of loop, if a "special" cookie remains, we may have to
* remove it. If no application cookie persists in the header, we
* *MUST* delete it
*/
if (!delete_header &&
(t->proxy->cookie_name != NULL || t->proxy->capture_name != NULL || t->proxy->appsession_name !=NULL)
&& !(t->flags & SN_CLDENY) && (ptr >= req->h + 8)
&& (strncasecmp(req->h, "Cookie: ", 8) == 0)) {
char *p1, *p2, *p3, *p4;
char *del_colon, *del_cookie, *colon;
int app_cookies;
p1 = req->h + 8; /* first char after 'Cookie: ' */
colon = p1;
/* del_cookie == NULL => nothing to be deleted */
del_colon = del_cookie = NULL;
app_cookies = 0;
while (p1 < ptr) {
/* skip spaces and colons, but keep an eye on these ones */
while (p1 < ptr) {
if (*p1 == ';' || *p1 == ',')
colon = p1;
else if (!isspace((int)*p1))
break;
p1++;
}
if (p1 == ptr)
break;
/* p1 is at the beginning of the cookie name */
p2 = p1;
while (p2 < ptr && *p2 != '=')
p2++;
if (p2 == ptr)
break;
p3 = p2 + 1; /* skips the '=' sign */
if (p3 == ptr)
break;
p4 = p3;
while (p4 < ptr && !isspace((int)*p4) && *p4 != ';' && *p4 != ',')
p4++;
/* here, we have the cookie name between p1 and p2,
* and its value between p3 and p4.
* we can process it :
*
* Cookie: NAME=VALUE;
* | || || |
* | || || +--> p4
* | || |+-------> p3
* | || +--------> p2
* | |+------------> p1
* | +-------------> colon
* +--------------------> req->h
*/
if (*p1 == '$') {
/* skip this one */
}
else {
/* first, let's see if we want to capture it */
if (t->proxy->capture_name != NULL &&
t->logs.cli_cookie == NULL &&
(p4 - p1 >= t->proxy->capture_namelen) &&
memcmp(p1, t->proxy->capture_name, t->proxy->capture_namelen) == 0) {
int log_len = p4 - p1;
if ((t->logs.cli_cookie = pool_alloc(capture)) == NULL) {
Alert("HTTP logging : out of memory.\n");
} else {
if (log_len > t->proxy->capture_len)
log_len = t->proxy->capture_len;
memcpy(t->logs.cli_cookie, p1, log_len);
t->logs.cli_cookie[log_len] = 0;
}
}
if ((p2 - p1 == t->proxy->cookie_len) && (t->proxy->cookie_name != NULL) &&
(memcmp(p1, t->proxy->cookie_name, p2 - p1) == 0)) {
/* Cool... it's the right one */
struct server *srv = t->proxy->srv;
char *delim;
/* if we're in cookie prefix mode, we'll search the delimitor so that we
* have the server ID betweek p3 and delim, and the original cookie between
* delim+1 and p4. Otherwise, delim==p4 :
*
* Cookie: NAME=SRV~VALUE;
* | || || | |
* | || || | +--> p4
* | || || +--------> delim
* | || |+-----------> p3
* | || +------------> p2
* | |+----------------> p1
* | +-----------------> colon
* +------------------------> req->h
*/
if (t->proxy->options & PR_O_COOK_PFX) {
for (delim = p3; delim < p4; delim++)
if (*delim == COOKIE_DELIM)
break;
}
else
delim = p4;
/* Here, we'll look for the first running server which supports the cookie.
* This allows to share a same cookie between several servers, for example
* to dedicate backup servers to specific servers only.
* However, to prevent clients from sticking to cookie-less backup server
* when they have incidentely learned an empty cookie, we simply ignore
* empty cookies and mark them as invalid.
*/
if (delim == p3)
srv = NULL;
while (srv) {
if ((srv->cklen == delim - p3) && !memcmp(p3, srv->cookie, delim - p3)) {
if (srv->state & SRV_RUNNING || t->proxy->options & PR_O_PERSIST) {
/* we found the server and it's usable */
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_VALID | SN_DIRECT | SN_ASSIGNED;
t->srv = srv;
break;
} else {
/* we found a server, but it's down */
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_DOWN;
}
}
srv = srv->next;
}
if (!srv && !(t->flags & SN_CK_DOWN)) {
/* no server matched this cookie */
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_INVALID;
}
/* depending on the cookie mode, we may have to either :
* - delete the complete cookie if we're in insert+indirect mode, so that
* the server never sees it ;
* - remove the server id from the cookie value, and tag the cookie as an
* application cookie so that it does not get accidentely removed later,
* if we're in cookie prefix mode
*/
if ((t->proxy->options & PR_O_COOK_PFX) && (delim != p4)) {
buffer_replace2(req, p3, delim + 1, NULL, 0);
p4 -= (delim + 1 - p3);
ptr -= (delim + 1 - p3);
del_cookie = del_colon = NULL;
app_cookies++; /* protect the header from deletion */
}
else if (del_cookie == NULL &&
(t->proxy->options & (PR_O_COOK_INS | PR_O_COOK_IND)) == (PR_O_COOK_INS | PR_O_COOK_IND)) {
del_cookie = p1;
del_colon = colon;
}
} else {
/* now we know that we must keep this cookie since it's
* not ours. But if we wanted to delete our cookie
* earlier, we cannot remove the complete header, but we
* can remove the previous block itself.
*/
app_cookies++;
if (del_cookie != NULL) {
buffer_replace2(req, del_cookie, p1, NULL, 0);
p4 -= (p1 - del_cookie);
ptr -= (p1 - del_cookie);
del_cookie = del_colon = NULL;
}
}
if ((t->proxy->appsession_name != NULL) &&
(memcmp(p1, t->proxy->appsession_name, p2 - p1) == 0)) {
/* first, let's see if the cookie is our appcookie*/
/* Cool... it's the right one */
asession_temp = &local_asession;
if ((asession_temp->sessid = pool_alloc_from(apools.sessid, apools.ses_msize)) == NULL) {
Alert("Not enough memory process_cli():asession->sessid:malloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enough memory process_cli():asession->sessid:malloc().\n");
return 0;
}
memcpy(asession_temp->sessid, p3, t->proxy->appsession_len);
asession_temp->sessid[t->proxy->appsession_len] = 0;
asession_temp->serverid = NULL;
/* only do insert, if lookup fails */
if (chtbl_lookup(&(t->proxy->htbl_proxy), (void *) &asession_temp) != 0) {
if ((asession_temp = pool_alloc(appsess)) == NULL) {
Alert("Not enough memory process_cli():asession:calloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enough memory process_cli():asession:calloc().\n");
return 0;
}
asession_temp->sessid = local_asession.sessid;
asession_temp->serverid = local_asession.serverid;
chtbl_insert(&(t->proxy->htbl_proxy), (void *) asession_temp);
} else {
/* free wasted memory */
pool_free_to(apools.sessid, local_asession.sessid);
}
if (asession_temp->serverid == NULL) {
Alert("Found Application Session without matching server.\n");
} else {
struct server *srv = t->proxy->srv;
while (srv) {
if (strcmp(srv->id, asession_temp->serverid) == 0) {
if (srv->state & SRV_RUNNING || t->proxy->options & PR_O_PERSIST) {
/* we found the server and it's usable */
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_VALID | SN_DIRECT | SN_ASSIGNED;
t->srv = srv;
break;
} else {
t->flags &= ~SN_CK_MASK;
t->flags |= SN_CK_DOWN;
}
}
srv = srv->next;
}/* end while(srv) */
}/* end else if server == NULL */
tv_delayfrom(&asession_temp->expire, &now, t->proxy->appsession_timeout);
}/* end if ((t->proxy->appsession_name != NULL) ... */
}
/* we'll have to look for another cookie ... */
p1 = p4;
} /* while (p1 < ptr) */
/* There's no more cookie on this line.
* We may have marked the last one(s) for deletion.
* We must do this now in two ways :
* - if there is no app cookie, we simply delete the header ;
* - if there are app cookies, we must delete the end of the
* string properly, including the colon/semi-colon before
* the cookie name.
*/
if (del_cookie != NULL) {
if (app_cookies) {
buffer_replace2(req, del_colon, ptr, NULL, 0);
/* WARNING! <ptr> becomes invalid for now. If some code
* below needs to rely on it before the end of the global
* header loop, we need to correct it with this code :
*/
ptr = del_colon;
}
else
delete_header = 1;
}
} /* end of cookie processing on this header */
/* let's look if we have to delete this header */
if (delete_header && !(t->flags & SN_CLDENY)) {
buffer_replace2(req, req->h, req->lr, NULL, 0);
/* WARNING: ptr is not valid anymore, since the header may have
* been deleted or truncated ! */
} else {
/* try to catch the first line as the request */
if (t->req_line.len < 0) {
t->req_line.str = req->h;
t->req_line.len = ptr - req->h;
}
/* We might also need the 'Authorization: ' header */
if (t->auth_hdr.len < 0 &&
t->proxy->uri_auth != NULL &&
ptr > req->h + 15 &&
!strncasecmp("Authorization: ", req->h, 15)) {
t->auth_hdr.str = req->h;
t->auth_hdr.len = ptr - req->h;
}
}
req->h = req->lr;
} /* while (req->lr < req->r) */
/* end of header processing (even if incomplete) */
if ((req->l < req->rlim - req->data) && ! FD_ISSET(t->cli_fd, StaticReadEvent)) {
/* fd in StaticReadEvent was disabled, perhaps because of a previous buffer
* full. We cannot loop here since event_cli_read will disable it only if
* req->l == rlim-data
*/
FD_SET(t->cli_fd, StaticReadEvent);
if (t->proxy->clitimeout)
tv_delayfrom(&t->crexpire, &now, t->proxy->clitimeout);
else
tv_eternity(&t->crexpire);
}
/* Since we are in header mode, if there's no space left for headers, we
* won't be able to free more later, so the session will never terminate.
*/
if (req->l >= req->rlim - req->data) {
t->logs.status = 400;
client_retnclose(t, t->proxy->errmsg.len400, t->proxy->errmsg.msg400);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
else if (t->res_cr == RES_ERROR || t->res_cr == RES_NULL) {
/* read error, or last read : give up. */
tv_eternity(&t->crexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLICL;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
else if (tv_cmp2_ms(&t->crexpire, &now) <= 0) {
/* read timeout : give up with an error message.
*/
t->logs.status = 408;
client_retnclose(t, t->proxy->errmsg.len408, t->proxy->errmsg.msg408);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLITO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_R;
return 1;
}
return t->cli_state != CL_STHEADERS;
}
else if (c == CL_STDATA) {
process_data:
/* FIXME: this error handling is partly buggy because we always report
* a 'DATA' phase while we don't know if the server was in IDLE, CONN
* or HEADER phase. BTW, it's not logical to expire the client while
* we're waiting for the server to connect.
*/
/* read or write error */
if (t->res_cw == RES_ERROR || t->res_cr == RES_ERROR) {
tv_eternity(&t->crexpire);
tv_eternity(&t->cwexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLICL;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
/* last read, or end of server write */
else if (t->res_cr == RES_NULL || s == SV_STSHUTW || s == SV_STCLOSE) {
FD_CLR(t->cli_fd, StaticReadEvent);
tv_eternity(&t->crexpire);
shutdown(t->cli_fd, SHUT_RD);
t->cli_state = CL_STSHUTR;
return 1;
}
/* last server read and buffer empty */
else if ((s == SV_STSHUTR || s == SV_STCLOSE) && (rep->l == 0)) {
FD_CLR(t->cli_fd, StaticWriteEvent);
tv_eternity(&t->cwexpire);
shutdown(t->cli_fd, SHUT_WR);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->cli_fd, StaticReadEvent);
if (t->proxy->clitimeout)
tv_delayfrom(&t->crexpire, &now, t->proxy->clitimeout);
t->cli_state = CL_STSHUTW;
//fprintf(stderr,"%p:%s(%d), c=%d, s=%d\n", t, __FUNCTION__, __LINE__, t->cli_state, t->cli_state);
return 1;
}
/* read timeout */
else if (tv_cmp2_ms(&t->crexpire, &now) <= 0) {
FD_CLR(t->cli_fd, StaticReadEvent);
tv_eternity(&t->crexpire);
shutdown(t->cli_fd, SHUT_RD);
t->cli_state = CL_STSHUTR;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLITO;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
/* write timeout */
else if (tv_cmp2_ms(&t->cwexpire, &now) <= 0) {
FD_CLR(t->cli_fd, StaticWriteEvent);
tv_eternity(&t->cwexpire);
shutdown(t->cli_fd, SHUT_WR);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->cli_fd, StaticReadEvent);
if (t->proxy->clitimeout)
tv_delayfrom(&t->crexpire, &now, t->proxy->clitimeout);
t->cli_state = CL_STSHUTW;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLITO;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
if (req->l >= req->rlim - req->data) {
/* no room to read more data */
if (FD_ISSET(t->cli_fd, StaticReadEvent)) {
/* stop reading until we get some space */
FD_CLR(t->cli_fd, StaticReadEvent);
tv_eternity(&t->crexpire);
}
} else {
/* there's still some space in the buffer */
if (! FD_ISSET(t->cli_fd, StaticReadEvent)) {
FD_SET(t->cli_fd, StaticReadEvent);
if (!t->proxy->clitimeout ||
(t->srv_state < SV_STDATA && t->proxy->srvtimeout))
/* If the client has no timeout, or if the server not ready yet, and we
* know for sure that it can expire, then it's cleaner to disable the
* timeout on the client side so that too low values cannot make the
* sessions abort too early.
*/
tv_eternity(&t->crexpire);
else
tv_delayfrom(&t->crexpire, &now, t->proxy->clitimeout);
}
}
if ((rep->l == 0) ||
((s < SV_STDATA) /* FIXME: this may be optimized && (rep->w == rep->h)*/)) {
if (FD_ISSET(t->cli_fd, StaticWriteEvent)) {
FD_CLR(t->cli_fd, StaticWriteEvent); /* stop writing */
tv_eternity(&t->cwexpire);
}
} else {
/* buffer not empty */
if (! FD_ISSET(t->cli_fd, StaticWriteEvent)) {
FD_SET(t->cli_fd, StaticWriteEvent); /* restart writing */
if (t->proxy->clitimeout) {
tv_delayfrom(&t->cwexpire, &now, t->proxy->clitimeout);
/* FIXME: to prevent the client from expiring read timeouts during writes,
* we refresh it. */
t->crexpire = t->cwexpire;
}
else
tv_eternity(&t->cwexpire);
}
}
return 0; /* other cases change nothing */
}
else if (c == CL_STSHUTR) {
if (t->res_cw == RES_ERROR) {
tv_eternity(&t->cwexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLICL;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
else if ((s == SV_STSHUTR || s == SV_STCLOSE) && (rep->l == 0)
&& !(t->flags & SN_SELF_GEN)) {
tv_eternity(&t->cwexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
return 1;
}
else if (tv_cmp2_ms(&t->cwexpire, &now) <= 0) {
tv_eternity(&t->cwexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLITO;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
if (t->flags & SN_SELF_GEN) {
produce_content(t);
if (rep->l == 0) {
tv_eternity(&t->cwexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
return 1;
}
}
if ((rep->l == 0)
|| ((s == SV_STHEADERS) /* FIXME: this may be optimized && (rep->w == rep->h)*/)) {
if (FD_ISSET(t->cli_fd, StaticWriteEvent)) {
FD_CLR(t->cli_fd, StaticWriteEvent); /* stop writing */
tv_eternity(&t->cwexpire);
}
} else {
/* buffer not empty */
if (! FD_ISSET(t->cli_fd, StaticWriteEvent)) {
FD_SET(t->cli_fd, StaticWriteEvent); /* restart writing */
if (t->proxy->clitimeout) {
tv_delayfrom(&t->cwexpire, &now, t->proxy->clitimeout);
/* FIXME: to prevent the client from expiring read timeouts during writes,
* we refresh it. */
t->crexpire = t->cwexpire;
}
else
tv_eternity(&t->cwexpire);
}
}
return 0;
}
else if (c == CL_STSHUTW) {
if (t->res_cr == RES_ERROR) {
tv_eternity(&t->crexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLICL;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
else if (t->res_cr == RES_NULL || s == SV_STSHUTW || s == SV_STCLOSE) {
tv_eternity(&t->crexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
return 1;
}
else if (tv_cmp2_ms(&t->crexpire, &now) <= 0) {
tv_eternity(&t->crexpire);
fd_delete(t->cli_fd);
t->cli_state = CL_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_CLITO;
if (!(t->flags & SN_FINST_MASK)) {
if (t->pend_pos)
t->flags |= SN_FINST_Q;
else if (s == SV_STCONN)
t->flags |= SN_FINST_C;
else
t->flags |= SN_FINST_D;
}
return 1;
}
else if (req->l >= req->rlim - req->data) {
/* no room to read more data */
/* FIXME-20050705: is it possible for a client to maintain a session
* after the timeout by sending more data after it receives a close ?
*/
if (FD_ISSET(t->cli_fd, StaticReadEvent)) {
/* stop reading until we get some space */
FD_CLR(t->cli_fd, StaticReadEvent);
tv_eternity(&t->crexpire);
//fprintf(stderr,"%p:%s(%d), c=%d, s=%d\n", t, __FUNCTION__, __LINE__, t->cli_state, t->cli_state);
}
} else {
/* there's still some space in the buffer */
if (! FD_ISSET(t->cli_fd, StaticReadEvent)) {
FD_SET(t->cli_fd, StaticReadEvent);
if (t->proxy->clitimeout)
tv_delayfrom(&t->crexpire, &now, t->proxy->clitimeout);
else
tv_eternity(&t->crexpire);
//fprintf(stderr,"%p:%s(%d), c=%d, s=%d\n", t, __FUNCTION__, __LINE__, t->cli_state, t->cli_state);
}
}
return 0;
}
else { /* CL_STCLOSE: nothing to do */
if ((global.mode & MODE_DEBUG) && (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE))) {
int len;
len = sprintf(trash, "%08x:%s.clicls[%04x:%04x]\n", t->uniq_id, t->proxy->id, (unsigned short)t->cli_fd, (unsigned short)t->srv_fd);
write(1, trash, len);
}
return 0;
}
return 0;
}
/*
* manages the server FSM and its socket. It returns 1 if a state has changed
* (and a resync may be needed), 0 else.
*/
int process_srv(struct session *t)
{
int s = t->srv_state;
int c = t->cli_state;
struct buffer *req = t->req;
struct buffer *rep = t->rep;
appsess *asession_temp = NULL;
appsess local_asession;
int conn_err;
#ifdef DEBUG_FULL
fprintf(stderr,"process_srv: c=%s, s=%s\n", cli_stnames[c], srv_stnames[s]);
#endif
//fprintf(stderr,"process_srv: c=%d, s=%d, cr=%d, cw=%d, sr=%d, sw=%d\n", c, s,
//FD_ISSET(t->cli_fd, StaticReadEvent), FD_ISSET(t->cli_fd, StaticWriteEvent),
//FD_ISSET(t->srv_fd, StaticReadEvent), FD_ISSET(t->srv_fd, StaticWriteEvent)
//);
if (s == SV_STIDLE) {
if (c == CL_STHEADERS)
return 0; /* stay in idle, waiting for data to reach the client side */
else if (c == CL_STCLOSE || c == CL_STSHUTW ||
(c == CL_STSHUTR &&
(t->req->l == 0 || t->proxy->options & PR_O_ABRT_CLOSE))) { /* give up */
tv_eternity(&t->cnexpire);
if (t->pend_pos)
t->logs.t_queue = tv_diff(&t->logs.tv_accept, &now);
/* note that this must not return any error because it would be able to
* overwrite the client_retnclose() output.
*/
srv_close_with_err(t, SN_ERR_CLICL, t->pend_pos ? SN_FINST_Q : SN_FINST_C, 0, 0, NULL);
return 1;
}
else {
/* Right now, we will need to create a connection to the server.
* We might already have tried, and got a connection pending, in
* which case we will not do anything till it's pending. It's up
* to any other session to release it and wake us up again.
*/
if (t->pend_pos) {
if (tv_cmp2_ms(&t->cnexpire, &now) > 0)
return 0;
else {
/* we've been waiting too long here */
tv_eternity(&t->cnexpire);
t->logs.t_queue = tv_diff(&t->logs.tv_accept, &now);
srv_close_with_err(t, SN_ERR_SRVTO, SN_FINST_Q,
503, t->proxy->errmsg.len503, t->proxy->errmsg.msg503);
if (t->srv)
t->srv->failed_conns++;
t->proxy->failed_conns++;
return 1;
}
}
do {
/* first, get a connection */
if (srv_redispatch_connect(t))
return t->srv_state != SV_STIDLE;
/* try to (re-)connect to the server, and fail if we expire the
* number of retries.
*/
if (srv_retryable_connect(t)) {
t->logs.t_queue = tv_diff(&t->logs.tv_accept, &now);
return t->srv_state != SV_STIDLE;
}
} while (1);
}
}
else if (s == SV_STCONN) { /* connection in progress */
if (c == CL_STCLOSE || c == CL_STSHUTW ||
(c == CL_STSHUTR &&
(t->req->l == 0 || t->proxy->options & PR_O_ABRT_CLOSE))) { /* give up */
tv_eternity(&t->cnexpire);
fd_delete(t->srv_fd);
if (t->srv)
t->srv->cur_sess--;
/* note that this must not return any error because it would be able to
* overwrite the client_retnclose() output.
*/
srv_close_with_err(t, SN_ERR_CLICL, SN_FINST_C, 0, 0, NULL);
return 1;
}
if (t->res_sw == RES_SILENT && tv_cmp2_ms(&t->cnexpire, &now) > 0) {
//fprintf(stderr,"1: c=%d, s=%d, now=%d.%06d, exp=%d.%06d\n", c, s, now.tv_sec, now.tv_usec, t->cnexpire.tv_sec, t->cnexpire.tv_usec);
return 0; /* nothing changed */
}
else if (t->res_sw == RES_SILENT || t->res_sw == RES_ERROR) {
/* timeout, asynchronous connect error or first write error */
//fprintf(stderr,"2: c=%d, s=%d\n", c, s);
fd_delete(t->srv_fd);
if (t->srv)
t->srv->cur_sess--;
if (t->res_sw == RES_SILENT)
conn_err = SN_ERR_SRVTO; // it was a connect timeout.
else
conn_err = SN_ERR_SRVCL; // it was an asynchronous connect error.
/* ensure that we have enough retries left */
if (srv_count_retry_down(t, conn_err))
return 1;
do {
/* Now we will try to either reconnect to the same server or
* connect to another server. If the connection gets queued
* because all servers are saturated, then we will go back to
* the SV_STIDLE state.
*/
if (srv_retryable_connect(t)) {
t->logs.t_queue = tv_diff(&t->logs.tv_accept, &now);
return t->srv_state != SV_STCONN;
}
/* we need to redispatch the connection to another server */
if (srv_redispatch_connect(t))
return t->srv_state != SV_STCONN;
} while (1);
}
else { /* no error or write 0 */
t->logs.t_connect = tv_diff(&t->logs.tv_accept, &now);
//fprintf(stderr,"3: c=%d, s=%d\n", c, s);
if (req->l == 0) /* nothing to write */ {
FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
} else /* need the right to write */ {
FD_SET(t->srv_fd, StaticWriteEvent);
if (t->proxy->srvtimeout) {
tv_delayfrom(&t->swexpire, &now, t->proxy->srvtimeout);
/* FIXME: to prevent the server from expiring read timeouts during writes,
* we refresh it. */
t->srexpire = t->swexpire;
}
else
tv_eternity(&t->swexpire);
}
if (t->proxy->mode == PR_MODE_TCP) { /* let's allow immediate data connection in this case */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
else
tv_eternity(&t->srexpire);
t->srv_state = SV_STDATA;
if (t->srv)
t->srv->cum_sess++;
rep->rlim = rep->data + BUFSIZE; /* no rewrite needed */
/* if the user wants to log as soon as possible, without counting
bytes from the server, then this is the right moment. */
if (t->proxy->to_log && !(t->logs.logwait & LW_BYTES)) {
t->logs.t_close = t->logs.t_connect; /* to get a valid end date */
sess_log(t);
}
}
else {
t->srv_state = SV_STHEADERS;
if (t->srv)
t->srv->cum_sess++;
rep->rlim = rep->data + BUFSIZE - MAXREWRITE; /* rewrite needed */
}
tv_eternity(&t->cnexpire);
return 1;
}
}
else if (s == SV_STHEADERS) { /* receiving server headers */
/* now parse the partial (or complete) headers */
while (rep->lr < rep->r) { /* this loop only sees one header at each iteration */
char *ptr;
int delete_header;
ptr = rep->lr;
/* look for the end of the current header */
while (ptr < rep->r && *ptr != '\n' && *ptr != '\r')
ptr++;
if (ptr == rep->h) {
int line, len;
/* we can only get here after an end of headers */
/* first, we'll block if security checks have caught nasty things */
if (t->flags & SN_CACHEABLE) {
if ((t->flags & SN_CACHE_COOK) &&
(t->flags & SN_SCK_ANY) &&
(t->proxy->options & PR_O_CHK_CACHE)) {
/* we're in presence of a cacheable response containing
* a set-cookie header. We'll block it as requested by
* the 'checkcache' option, and send an alert.
*/
tv_eternity(&t->srexpire);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_secu++;
}
t->proxy->failed_secu++;
t->srv_state = SV_STCLOSE;
t->logs.status = 502;
client_return(t, t->proxy->errmsg.len502, t->proxy->errmsg.msg502);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_H;
Alert("Blocking cacheable cookie in response from instance %s, server %s.\n", t->proxy->id, t->srv->id);
send_log(t->proxy, LOG_ALERT, "Blocking cacheable cookie in response from instance %s, server %s.\n", t->proxy->id, t->srv->id);
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
}
/* next, we'll block if an 'rspideny' or 'rspdeny' filter matched */
if (t->flags & SN_SVDENY) {
tv_eternity(&t->srexpire);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_secu++;
}
t->proxy->failed_secu++;
t->srv_state = SV_STCLOSE;
t->logs.status = 502;
client_return(t, t->proxy->errmsg.len502, t->proxy->errmsg.msg502);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_PRXCOND;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_H;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
/* we'll have something else to do here : add new headers ... */
if ((t->srv) && !(t->flags & SN_DIRECT) && (t->proxy->options & PR_O_COOK_INS) &&
(!(t->proxy->options & PR_O_COOK_POST) || (t->flags & SN_POST))) {
/* the server is known, it's not the one the client requested, we have to
* insert a set-cookie here, except if we want to insert only on POST
* requests and this one isn't. Note that servers which don't have cookies
* (eg: some backup servers) will return a full cookie removal request.
*/
len = sprintf(trash, "Set-Cookie: %s=%s; path=/\r\n",
t->proxy->cookie_name,
t->srv->cookie ? t->srv->cookie : "; Expires=Thu, 01-Jan-1970 00:00:01 GMT");
t->flags |= SN_SCK_INSERTED;
/* Here, we will tell an eventual cache on the client side that we don't
* want it to cache this reply because HTTP/1.0 caches also cache cookies !
* Some caches understand the correct form: 'no-cache="set-cookie"', but
* others don't (eg: apache <= 1.3.26). So we use 'private' instead.
*/
if (t->proxy->options & PR_O_COOK_NOC)
//len += sprintf(newhdr + len, "Cache-control: no-cache=\"set-cookie\"\r\n");
len += sprintf(trash + len, "Cache-control: private\r\n");
if (rep->data + rep->l < rep->h)
/* The data has been stolen, we will crash cleanly instead of corrupting memory */
*(int *)0 = 0;
buffer_replace2(rep, rep->h, rep->h, trash, len);
}
/* headers to be added */
for (line = 0; line < t->proxy->nb_rspadd; line++) {
len = sprintf(trash, "%s\r\n", t->proxy->rsp_add[line]);
buffer_replace2(rep, rep->h, rep->h, trash, len);
}
/* add a "connection: close" line if needed */
if (t->proxy->options & PR_O_HTTP_CLOSE)
buffer_replace2(rep, rep->h, rep->h, "Connection: close\r\n", 19);
t->srv_state = SV_STDATA;
rep->rlim = rep->data + BUFSIZE; /* no more rewrite needed */
t->logs.t_data = tv_diff(&t->logs.tv_accept, &now);
/* client connection already closed or option 'httpclose' required :
* we close the server's outgoing connection right now.
*/
if ((req->l == 0) &&
(c == CL_STSHUTR || c == CL_STCLOSE || t->proxy->options & PR_O_FORCE_CLO)) {
FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
shutdown(t->srv_fd, SHUT_WR);
t->srv_state = SV_STSHUTW;
}
/* if the user wants to log as soon as possible, without counting
bytes from the server, then this is the right moment. */
if (t->proxy->to_log && !(t->logs.logwait & LW_BYTES)) {
t->logs.t_close = t->logs.t_data; /* to get a valid end date */
t->logs.bytes = rep->h - rep->data;
sess_log(t);
}
break;
}
/* to get a complete header line, we need the ending \r\n, \n\r, \r or \n too */
if (ptr > rep->r - 2) {
/* this is a partial header, let's wait for more to come */
rep->lr = ptr;
break;
}
// fprintf(stderr,"h=%p, ptr=%p, lr=%p, r=%p, *h=", rep->h, ptr, rep->lr, rep->r);
// write(2, rep->h, ptr - rep->h); fprintf(stderr,"\n");
/* now we know that *ptr is either \r or \n,
* and that there are at least 1 char after it.
*/
if ((ptr[0] == ptr[1]) || (ptr[1] != '\r' && ptr[1] != '\n'))
rep->lr = ptr + 1; /* \r\r, \n\n, \r[^\n], \n[^\r] */
else
rep->lr = ptr + 2; /* \r\n or \n\r */
/*
* now we know that we have a full header ; we can do whatever
* we want with these pointers :
* rep->h = beginning of header
* ptr = end of header (first \r or \n)
* rep->lr = beginning of next line (next rep->h)
* rep->r = end of data (not used at this stage)
*/
if (t->logs.status == -1) {
t->logs.logwait &= ~LW_RESP;
t->logs.status = atoi(rep->h + 9);
switch (t->logs.status) {
case 200:
case 203:
case 206:
case 300:
case 301:
case 410:
/* RFC2616 @13.4:
* "A response received with a status code of
* 200, 203, 206, 300, 301 or 410 MAY be stored
* by a cache (...) unless a cache-control
* directive prohibits caching."
*
* RFC2616 @9.5: POST method :
* "Responses to this method are not cacheable,
* unless the response includes appropriate
* Cache-Control or Expires header fields."
*/
if (!(t->flags & SN_POST) && (t->proxy->options & PR_O_CHK_CACHE))
t->flags |= SN_CACHEABLE | SN_CACHE_COOK;
break;
default:
break;
}
}
else if (t->logs.logwait & LW_RSPHDR) {
struct cap_hdr *h;
int len;
for (h = t->proxy->rsp_cap; h; h = h->next) {
if ((h->namelen + 2 <= ptr - rep->h) &&
(rep->h[h->namelen] == ':') &&
(strncasecmp(rep->h, h->name, h->namelen) == 0)) {
if (t->rsp_cap[h->index] == NULL)
t->rsp_cap[h->index] = pool_alloc_from(h->pool, h->len + 1);
len = ptr - (rep->h + h->namelen + 2);
if (len > h->len)
len = h->len;
memcpy(t->rsp_cap[h->index], rep->h + h->namelen + 2, len);
t->rsp_cap[h->index][len]=0;
}
}
}
delete_header = 0;
if ((global.mode & MODE_DEBUG) && (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE))) {
int len, max;
len = sprintf(trash, "%08x:%s.srvhdr[%04x:%04x]: ", t->uniq_id, t->proxy->id, (unsigned short)t->cli_fd, (unsigned short)t->srv_fd);
max = ptr - rep->h;
UBOUND(max, sizeof(trash) - len - 1);
len += strlcpy2(trash + len, rep->h, max + 1);
trash[len++] = '\n';
write(1, trash, len);
}
/* remove "connection: " if needed */
if (!delete_header && (t->proxy->options & PR_O_HTTP_CLOSE)
&& (strncasecmp(rep->h, "Connection: ", 12) == 0)) {
delete_header = 1;
}
/* try headers regexps */
if (!delete_header && t->proxy->rsp_exp != NULL
&& !(t->flags & SN_SVDENY)) {
struct hdr_exp *exp;
char term;
term = *ptr;
*ptr = '\0';
exp = t->proxy->rsp_exp;
do {
if (regexec(exp->preg, rep->h, MAX_MATCH, pmatch, 0) == 0) {
switch (exp->action) {
case ACT_ALLOW:
if (!(t->flags & SN_SVDENY))
t->flags |= SN_SVALLOW;
break;
case ACT_REPLACE:
if (!(t->flags & SN_SVDENY)) {
int len = exp_replace(trash, rep->h, exp->replace, pmatch);
ptr += buffer_replace2(rep, rep->h, ptr, trash, len);
}
break;
case ACT_REMOVE:
if (!(t->flags & SN_SVDENY))
delete_header = 1;
break;
case ACT_DENY:
if (!(t->flags & SN_SVALLOW))
t->flags |= SN_SVDENY;
break;
case ACT_PASS: /* we simply don't deny this one */
break;
}
break;
}
} while ((exp = exp->next) != NULL);
*ptr = term; /* restore the string terminator */
}
/* check for cache-control: or pragma: headers */
if (!delete_header && (t->flags & SN_CACHEABLE)) {
if (strncasecmp(rep->h, "Pragma: no-cache", 16) == 0)
t->flags &= ~SN_CACHEABLE & ~SN_CACHE_COOK;
else if (strncasecmp(rep->h, "Cache-control: ", 15) == 0) {
if (strncasecmp(rep->h + 15, "no-cache", 8) == 0) {
if (rep->h + 23 == ptr || rep->h[23] == ',')
t->flags &= ~SN_CACHEABLE & ~SN_CACHE_COOK;
else {
if (strncasecmp(rep->h + 23, "=\"set-cookie", 12) == 0
&& (rep->h[35] == '"' || rep->h[35] == ','))
t->flags &= ~SN_CACHE_COOK;
}
} else if ((strncasecmp(rep->h + 15, "private", 7) == 0 &&
(rep->h + 22 == ptr || rep->h[22] == ','))
|| (strncasecmp(rep->h + 15, "no-store", 8) == 0 &&
(rep->h + 23 == ptr || rep->h[23] == ','))) {
t->flags &= ~SN_CACHEABLE & ~SN_CACHE_COOK;
} else if (strncasecmp(rep->h + 15, "max-age=0", 9) == 0 &&
(rep->h + 24 == ptr || rep->h[24] == ',')) {
t->flags &= ~SN_CACHEABLE & ~SN_CACHE_COOK;
} else if (strncasecmp(rep->h + 15, "s-maxage=0", 10) == 0 &&
(rep->h + 25 == ptr || rep->h[25] == ',')) {
t->flags &= ~SN_CACHEABLE & ~SN_CACHE_COOK;
} else if (strncasecmp(rep->h + 15, "public", 6) == 0 &&
(rep->h + 21 == ptr || rep->h[21] == ',')) {
t->flags |= SN_CACHEABLE | SN_CACHE_COOK;
}
}
}
/* check for server cookies */
if (!delete_header /*&& (t->proxy->options & PR_O_COOK_ANY)*/
&& (t->proxy->cookie_name != NULL || t->proxy->capture_name != NULL || t->proxy->appsession_name !=NULL)
&& (strncasecmp(rep->h, "Set-Cookie: ", 12) == 0)) {
char *p1, *p2, *p3, *p4;
t->flags |= SN_SCK_ANY;
p1 = rep->h + 12; /* first char after 'Set-Cookie: ' */
while (p1 < ptr) { /* in fact, we'll break after the first cookie */
while (p1 < ptr && (isspace((int)*p1)))
p1++;
if (p1 == ptr || *p1 == ';') /* end of cookie */
break;
/* p1 is at the beginning of the cookie name */
p2 = p1;
while (p2 < ptr && *p2 != '=' && *p2 != ';')
p2++;
if (p2 == ptr || *p2 == ';') /* next cookie */
break;
p3 = p2 + 1; /* skips the '=' sign */
if (p3 == ptr)
break;
p4 = p3;
while (p4 < ptr && !isspace((int)*p4) && *p4 != ';')
p4++;
/* here, we have the cookie name between p1 and p2,
* and its value between p3 and p4.
* we can process it.
*/
/* first, let's see if we want to capture it */
if (t->proxy->capture_name != NULL &&
t->logs.srv_cookie == NULL &&
(p4 - p1 >= t->proxy->capture_namelen) &&
memcmp(p1, t->proxy->capture_name, t->proxy->capture_namelen) == 0) {
int log_len = p4 - p1;
if ((t->logs.srv_cookie = pool_alloc(capture)) == NULL) {
Alert("HTTP logging : out of memory.\n");
}
if (log_len > t->proxy->capture_len)
log_len = t->proxy->capture_len;
memcpy(t->logs.srv_cookie, p1, log_len);
t->logs.srv_cookie[log_len] = 0;
}
if ((p2 - p1 == t->proxy->cookie_len) && (t->proxy->cookie_name != NULL) &&
(memcmp(p1, t->proxy->cookie_name, p2 - p1) == 0)) {
/* Cool... it's the right one */
t->flags |= SN_SCK_SEEN;
/* If the cookie is in insert mode on a known server, we'll delete
* this occurrence because we'll insert another one later.
* We'll delete it too if the "indirect" option is set and we're in
* a direct access. */
if (((t->srv) && (t->proxy->options & PR_O_COOK_INS)) ||
((t->flags & SN_DIRECT) && (t->proxy->options & PR_O_COOK_IND))) {
/* this header must be deleted */
delete_header = 1;
t->flags |= SN_SCK_DELETED;
}
else if ((t->srv) && (t->proxy->options & PR_O_COOK_RW)) {
/* replace bytes p3->p4 with the cookie name associated
* with this server since we know it.
*/
buffer_replace2(rep, p3, p4, t->srv->cookie, t->srv->cklen);
t->flags |= SN_SCK_INSERTED | SN_SCK_DELETED;
}
else if ((t->srv) && (t->proxy->options & PR_O_COOK_PFX)) {
/* insert the cookie name associated with this server
* before existing cookie, and insert a delimitor between them..
*/
buffer_replace2(rep, p3, p3, t->srv->cookie, t->srv->cklen + 1);
p3[t->srv->cklen] = COOKIE_DELIM;
t->flags |= SN_SCK_INSERTED | SN_SCK_DELETED;
}
break;
}
/* first, let's see if the cookie is our appcookie*/
if ((t->proxy->appsession_name != NULL) &&
(memcmp(p1, t->proxy->appsession_name, p2 - p1) == 0)) {
/* Cool... it's the right one */
size_t server_id_len = strlen(t->srv->id) + 1;
asession_temp = &local_asession;
if ((asession_temp->sessid = pool_alloc_from(apools.sessid, apools.ses_msize)) == NULL) {
Alert("Not enought Memory process_srv():asession->sessid:malloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enought Memory process_srv():asession->sessid:malloc().\n");
}
memcpy(asession_temp->sessid, p3, t->proxy->appsession_len);
asession_temp->sessid[t->proxy->appsession_len] = 0;
asession_temp->serverid = NULL;
/* only do insert, if lookup fails */
if (chtbl_lookup(&(t->proxy->htbl_proxy), (void *) &asession_temp) != 0) {
if ((asession_temp = pool_alloc(appsess)) == NULL) {
Alert("Not enought Memory process_srv():asession:calloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enought Memory process_srv():asession:calloc().\n");
return 0;
}
asession_temp->sessid = local_asession.sessid;
asession_temp->serverid = local_asession.serverid;
chtbl_insert(&(t->proxy->htbl_proxy), (void *) asession_temp);
}/* end if (chtbl_lookup()) */
else {
/* free wasted memory */
pool_free_to(apools.sessid, local_asession.sessid);
} /* end else from if (chtbl_lookup()) */
if (asession_temp->serverid == NULL) {
if ((asession_temp->serverid = pool_alloc_from(apools.serverid, apools.ser_msize)) == NULL) {
Alert("Not enought Memory process_srv():asession->sessid:malloc().\n");
send_log(t->proxy, LOG_ALERT, "Not enought Memory process_srv():asession->sessid:malloc().\n");
}
asession_temp->serverid[0] = '\0';
}
if (asession_temp->serverid[0] == '\0')
memcpy(asession_temp->serverid,t->srv->id,server_id_len);
tv_delayfrom(&asession_temp->expire, &now, t->proxy->appsession_timeout);
#if defined(DEBUG_HASH)
print_table(&(t->proxy->htbl_proxy));
#endif
break;
}/* end if ((t->proxy->appsession_name != NULL) ... */
else {
// fprintf(stderr,"Ignoring unknown cookie : ");
// write(2, p1, p2-p1);
// fprintf(stderr," = ");
// write(2, p3, p4-p3);
// fprintf(stderr,"\n");
}
break; /* we don't want to loop again since there cannot be another cookie on the same line */
} /* we're now at the end of the cookie value */
} /* end of cookie processing */
/* check for any set-cookie in case we check for cacheability */
if (!delete_header && !(t->flags & SN_SCK_ANY) &&
(t->proxy->options & PR_O_CHK_CACHE) &&
(strncasecmp(rep->h, "Set-Cookie: ", 12) == 0)) {
t->flags |= SN_SCK_ANY;
}
/* let's look if we have to delete this header */
if (delete_header && !(t->flags & SN_SVDENY))
buffer_replace2(rep, rep->h, rep->lr, "", 0);
rep->h = rep->lr;
} /* while (rep->lr < rep->r) */
/* end of header processing (even if incomplete) */
if ((rep->l < rep->rlim - rep->data) && ! FD_ISSET(t->srv_fd, StaticReadEvent)) {
/* fd in StaticReadEvent was disabled, perhaps because of a previous buffer
* full. We cannot loop here since event_srv_read will disable it only if
* rep->l == rlim-data
*/
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
else
tv_eternity(&t->srexpire);
}
/* read error, write error */
if (t->res_sw == RES_ERROR || t->res_sr == RES_ERROR) {
tv_eternity(&t->srexpire);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_resp++;
}
t->proxy->failed_resp++;
t->srv_state = SV_STCLOSE;
t->logs.status = 502;
client_return(t, t->proxy->errmsg.len502, t->proxy->errmsg.msg502);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVCL;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_H;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
/* end of client write or end of server read.
* since we are in header mode, if there's no space left for headers, we
* won't be able to free more later, so the session will never terminate.
*/
else if (t->res_sr == RES_NULL || c == CL_STSHUTW || c == CL_STCLOSE || rep->l >= rep->rlim - rep->data) {
FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
shutdown(t->srv_fd, SHUT_RD);
t->srv_state = SV_STSHUTR;
//fprintf(stderr,"%p:%s(%d), c=%d, s=%d\n", t, __FUNCTION__, __LINE__, t->cli_state, t->cli_state);
return 1;
}
/* read timeout : return a 504 to the client.
*/
else if (FD_ISSET(t->srv_fd, StaticReadEvent) && tv_cmp2_ms(&t->srexpire, &now) <= 0) {
tv_eternity(&t->srexpire);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_resp++;
}
t->proxy->failed_resp++;
t->srv_state = SV_STCLOSE;
t->logs.status = 504;
client_return(t, t->proxy->errmsg.len504, t->proxy->errmsg.msg504);
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVTO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_H;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
/* last client read and buffer empty */
/* FIXME!!! here, we don't want to switch to SHUTW if the
* client shuts read too early, because we may still have
* some work to do on the headers.
* The side-effect is that if the client completely closes its
* connection during SV_STHEADER, the connection to the server
* is kept until a response comes back or the timeout is reached.
*/
else if ((/*c == CL_STSHUTR ||*/ c == CL_STCLOSE) && (req->l == 0)) {
FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
shutdown(t->srv_fd, SHUT_WR);
t->srv_state = SV_STSHUTW;
return 1;
}
/* write timeout */
/* FIXME!!! here, we don't want to switch to SHUTW if the
* client shuts read too early, because we may still have
* some work to do on the headers.
*/
else if (FD_ISSET(t->srv_fd, StaticWriteEvent) && tv_cmp2_ms(&t->swexpire, &now) <= 0) {
FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
shutdown(t->srv_fd, SHUT_WR);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
t->srv_state = SV_STSHUTW;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVTO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_H;
return 1;
}
if (req->l == 0) {
if (FD_ISSET(t->srv_fd, StaticWriteEvent)) {
FD_CLR(t->srv_fd, StaticWriteEvent); /* stop writing */
tv_eternity(&t->swexpire);
}
}
else { /* client buffer not empty */
if (! FD_ISSET(t->srv_fd, StaticWriteEvent)) {
FD_SET(t->srv_fd, StaticWriteEvent); /* restart writing */
if (t->proxy->srvtimeout) {
tv_delayfrom(&t->swexpire, &now, t->proxy->srvtimeout);
/* FIXME: to prevent the server from expiring read timeouts during writes,
* we refresh it. */
t->srexpire = t->swexpire;
}
else
tv_eternity(&t->swexpire);
}
}
/* be nice with the client side which would like to send a complete header
* FIXME: COMPLETELY BUGGY !!! not all headers may be processed because the client
* would read all remaining data at once ! The client should not write past rep->lr
* when the server is in header state.
*/
//return header_processed;
return t->srv_state != SV_STHEADERS;
}
else if (s == SV_STDATA) {
/* read or write error */
if (t->res_sw == RES_ERROR || t->res_sr == RES_ERROR) {
tv_eternity(&t->srexpire);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_resp++;
}
t->proxy->failed_resp++;
t->srv_state = SV_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVCL;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
/* last read, or end of client write */
else if (t->res_sr == RES_NULL || c == CL_STSHUTW || c == CL_STCLOSE) {
FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
shutdown(t->srv_fd, SHUT_RD);
t->srv_state = SV_STSHUTR;
//fprintf(stderr,"%p:%s(%d), c=%d, s=%d\n", t, __FUNCTION__, __LINE__, t->cli_state, t->cli_state);
return 1;
}
/* end of client read and no more data to send */
else if ((c == CL_STSHUTR || c == CL_STCLOSE) && (req->l == 0)) {
FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
shutdown(t->srv_fd, SHUT_WR);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
t->srv_state = SV_STSHUTW;
return 1;
}
/* read timeout */
else if (tv_cmp2_ms(&t->srexpire, &now) <= 0) {
FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
shutdown(t->srv_fd, SHUT_RD);
t->srv_state = SV_STSHUTR;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVTO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
return 1;
}
/* write timeout */
else if (tv_cmp2_ms(&t->swexpire, &now) <= 0) {
FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
shutdown(t->srv_fd, SHUT_WR);
/* We must ensure that the read part is still alive when switching
* to shutw */
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
t->srv_state = SV_STSHUTW;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVTO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
return 1;
}
/* recompute request time-outs */
if (req->l == 0) {
if (FD_ISSET(t->srv_fd, StaticWriteEvent)) {
FD_CLR(t->srv_fd, StaticWriteEvent); /* stop writing */
tv_eternity(&t->swexpire);
}
}
else { /* buffer not empty, there are still data to be transferred */
if (! FD_ISSET(t->srv_fd, StaticWriteEvent)) {
FD_SET(t->srv_fd, StaticWriteEvent); /* restart writing */
if (t->proxy->srvtimeout) {
tv_delayfrom(&t->swexpire, &now, t->proxy->srvtimeout);
/* FIXME: to prevent the server from expiring read timeouts during writes,
* we refresh it. */
t->srexpire = t->swexpire;
}
else
tv_eternity(&t->swexpire);
}
}
/* recompute response time-outs */
if (rep->l == BUFSIZE) { /* no room to read more data */
if (FD_ISSET(t->srv_fd, StaticReadEvent)) {
FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
}
}
else {
if (! FD_ISSET(t->srv_fd, StaticReadEvent)) {
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
else
tv_eternity(&t->srexpire);
}
}
return 0; /* other cases change nothing */
}
else if (s == SV_STSHUTR) {
if (t->res_sw == RES_ERROR) {
//FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_resp++;
}
t->proxy->failed_resp++;
//close(t->srv_fd);
t->srv_state = SV_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVCL;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
else if ((c == CL_STSHUTR || c == CL_STCLOSE) && (req->l == 0)) {
//FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv)
t->srv->cur_sess--;
//close(t->srv_fd);
t->srv_state = SV_STCLOSE;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
else if (tv_cmp2_ms(&t->swexpire, &now) <= 0) {
//FD_CLR(t->srv_fd, StaticWriteEvent);
tv_eternity(&t->swexpire);
fd_delete(t->srv_fd);
if (t->srv)
t->srv->cur_sess--;
//close(t->srv_fd);
t->srv_state = SV_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVTO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
else if (req->l == 0) {
if (FD_ISSET(t->srv_fd, StaticWriteEvent)) {
FD_CLR(t->srv_fd, StaticWriteEvent); /* stop writing */
tv_eternity(&t->swexpire);
}
}
else { /* buffer not empty */
if (! FD_ISSET(t->srv_fd, StaticWriteEvent)) {
FD_SET(t->srv_fd, StaticWriteEvent); /* restart writing */
if (t->proxy->srvtimeout) {
tv_delayfrom(&t->swexpire, &now, t->proxy->srvtimeout);
/* FIXME: to prevent the server from expiring read timeouts during writes,
* we refresh it. */
t->srexpire = t->swexpire;
}
else
tv_eternity(&t->swexpire);
}
}
return 0;
}
else if (s == SV_STSHUTW) {
if (t->res_sr == RES_ERROR) {
//FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
fd_delete(t->srv_fd);
if (t->srv) {
t->srv->cur_sess--;
t->srv->failed_resp++;
}
t->proxy->failed_resp++;
//close(t->srv_fd);
t->srv_state = SV_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVCL;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
else if (t->res_sr == RES_NULL || c == CL_STSHUTW || c == CL_STCLOSE) {
//FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
fd_delete(t->srv_fd);
if (t->srv)
t->srv->cur_sess--;
//close(t->srv_fd);
t->srv_state = SV_STCLOSE;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
else if (tv_cmp2_ms(&t->srexpire, &now) <= 0) {
//FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
fd_delete(t->srv_fd);
if (t->srv)
t->srv->cur_sess--;
//close(t->srv_fd);
t->srv_state = SV_STCLOSE;
if (!(t->flags & SN_ERR_MASK))
t->flags |= SN_ERR_SRVTO;
if (!(t->flags & SN_FINST_MASK))
t->flags |= SN_FINST_D;
/* We used to have a free connection slot. Since we'll never use it,
* we have to inform the server that it may be used by another session.
*/
if (may_dequeue_tasks(t->srv, t->proxy))
task_wakeup(&rq, t->srv->queue_mgt);
return 1;
}
else if (rep->l == BUFSIZE) { /* no room to read more data */
if (FD_ISSET(t->srv_fd, StaticReadEvent)) {
FD_CLR(t->srv_fd, StaticReadEvent);
tv_eternity(&t->srexpire);
}
}
else {
if (! FD_ISSET(t->srv_fd, StaticReadEvent)) {
FD_SET(t->srv_fd, StaticReadEvent);
if (t->proxy->srvtimeout)
tv_delayfrom(&t->srexpire, &now, t->proxy->srvtimeout);
else
tv_eternity(&t->srexpire);
}
}
return 0;
}
else { /* SV_STCLOSE : nothing to do */
if ((global.mode & MODE_DEBUG) && (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE))) {
int len;
len = sprintf(trash, "%08x:%s.srvcls[%04x:%04x]\n", t->uniq_id, t->proxy->id, (unsigned short)t->cli_fd, (unsigned short)t->srv_fd);
write(1, trash, len);
}
return 0;
}
return 0;
}
/*
* Produces data for the session <s> depending on its source. Expects to be
* called with s->cli_state == CL_STSHUTR. Right now, only statistics can be
* produced. It stops by itself by unsetting the SN_SELF_GEN flag from the
* session, which it uses to keep on being called when there is free space in
* the buffer, of simply by letting an empty buffer upon return. It returns 1
* if it changes the session state from CL_STSHUTR, otherwise 0.
*/
int produce_content(struct session *s)
{
struct buffer *rep = s->rep;
struct proxy *px;
struct server *sv;
int msglen;
if (s->data_source == DATA_SRC_NONE) {
s->flags &= ~SN_SELF_GEN;
return 1;
}
else if (s->data_source == DATA_SRC_STATS) {
msglen = 0;
if (s->data_state == DATA_ST_INIT) { /* the function had not been called yet */
unsigned int up;
s->flags |= SN_SELF_GEN; // more data will follow
/* send the start of the HTTP response */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"HTTP/1.0 200 OK\r\n"
"Cache-Control: no-cache\r\n"
"Connection: close\r\n"
"Content-Type: text/html\r\n"
"\r\n\r\n");
s->logs.status = 200;
client_retnclose(s, msglen, trash); // send the start of the response.
msglen = 0;
if (!(s->flags & SN_ERR_MASK)) // this is not really an error but it is
s->flags |= SN_ERR_PRXCOND; // to mark that it comes from the proxy
if (!(s->flags & SN_FINST_MASK))
s->flags |= SN_FINST_R;
/* WARNING! This must fit in the first buffer !!! */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<html><head><title>Statistics Report for " PRODUCT_NAME "</title>\n"
"<meta http-equiv=\"content-type\" content=\"text/html; charset=iso-8859-1\">\n"
"<style type=\"text/css\"><!--\n"
"body {"
" font-family: helvetica, arial;"
" font-size: 12px;"
" font-weight: normal;"
" color: black;"
" background: white;"
"}\n"
"td {"
" font-size: 12px;"
" align: center;"
"}\n"
"h1 {"
" font-size: xx-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"
"table.tbl { border-collapse: collapse; border-width: 1px; border-style: solid; border-color: gray;}\n"
"table.tbl td { border-width: 1px 1px 1px 1px; border-style: solid solid solid solid; border-color: gray; }\n"
"table.tbl th { border-width: 1px; border-style: solid solid solid solid; border-color: gray; }\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"
"-->"
"</style></head>");
if (buffer_write(rep, trash, msglen) != 0)
return 0;
msglen = 0;
up = (now.tv_sec - start_date.tv_sec);
/* WARNING! this has to fit the first packet too */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<body><h1>" PRODUCT_NAME "</h1>\n"
"<h2>Statistics Report for pid %d</h2>\n"
"<hr width=\"100%%\" class=\"hr\">\n"
"<h3>&gt; General process information</h3>\n"
"<table border=0><tr><td align=\"left\">\n"
"<p><b>pid = </b> %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<br>\n"
"<b>maxconn = </b> %d (current conns = %d)<br>\n"
"</td><td width=\"10%%\">\n"
"</td><td align=\"right\">\n"
"<table class=\"lgd\">"
"<tr><td bgcolor=\"#C0FFC0\">&nbsp;</td><td style=\"border-style: none;\">active UP </td>"
"<td bgcolor=\"#B0D0FF\">&nbsp;</td><td style=\"border-style: none;\">backup UP </td></tr>"
"<tr><td bgcolor=\"#FFFFA0\"></td><td style=\"border-style: none;\">active UP, going down </td>"
"<td bgcolor=\"#C060FF\"></td><td style=\"border-style: none;\">backup UP, going down </td></tr>"
"<tr><td bgcolor=\"#FFD020\"></td><td style=\"border-style: none;\">active DOWN, going up </td>"
"<td bgcolor=\"#FF80FF\"></td><td style=\"border-style: none;\">backup DOWN, going up </td></tr>"
"<tr><td bgcolor=\"#FF9090\"></td><td style=\"border-style: none;\">active or backup DOWN &nbsp;</td>"
"<td bgcolor=\"#E0E0E0\"></td><td style=\"border-style: none;\">not checked </td></tr>"
"</table>\n"
"</tr></table>\n"
"",
pid, 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,
actconn
);
if (buffer_write(rep, trash, msglen) != 0)
return 0;
msglen = 0;
s->data_state = DATA_ST_DATA;
memset(&s->data_ctx, 0, sizeof(s->data_ctx));
px = s->data_ctx.stats.px = proxy;
s->data_ctx.stats.px_st = DATA_ST_INIT;
}
while (s->data_ctx.stats.px) {
int dispatch_sess, dispatch_cum;
int failed_checks, down_trans;
int failed_secu, failed_conns, failed_resp;
if (s->data_ctx.stats.px_st == DATA_ST_INIT) {
/* we are on a new proxy */
px = s->data_ctx.stats.px;
/* skip the disabled proxies */
if (px->state == PR_STSTOPPED)
goto next_proxy;
if (s->proxy->uri_auth && s->proxy->uri_auth->scope) {
/* we have a limited scope, we have to check the proxy name */
struct stat_scope *scope;
int len;
len = strlen(px->id);
scope = s->proxy->uri_auth->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->proxy)
break;
scope = scope->next;
}
/* proxy name not found */
if (scope == NULL)
goto next_proxy;
}
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<h3>&gt; Proxy instance %s : "
"%d conns (maxconn=%d), %d queued (%d unassigned), %d total conns</h3>\n"
"",
px->id,
px->nbconn, px->maxconn, px->totpend, px->nbpend, px->cum_conn);
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<table cols=\"16\" class=\"tbl\">\n"
"<tr align=\"center\" bgcolor=\"#20C0C0\">"
"<th colspan=5>Server</th>"
"<th colspan=2>Queue</th>"
"<th colspan=4>Sessions</th>"
"<th colspan=5>Errors</th></tr>\n"
"<tr align=\"center\" bgcolor=\"#20C0C0\">"
"<th>Name</th><th>Weight</th><th>Status</th><th>Act.</th><th>Bck.</th>"
"<th>Curr.</th><th>Max.</th>"
"<th>Curr.</th><th>Max.</th><th>Limit</th><th>Cumul.</th>"
"<th>Conn.</th><th>Resp.</th><th>Sec.</th><th>Check</th><th>Down</th></tr>\n");
if (buffer_write(rep, trash, msglen) != 0)
return 0;
msglen = 0;
s->data_ctx.stats.sv = px->srv;
s->data_ctx.stats.px_st = DATA_ST_DATA;
}
px = s->data_ctx.stats.px;
/* stats.sv has been initialized above */
while (s->data_ctx.stats.sv != NULL) {
static char *act_tab_bg[5] = { /*down*/"#FF9090", /*rising*/"#FFD020", /*failing*/"#FFFFA0", /*up*/"#C0FFC0", /*unchecked*/"#E0E0E0" };
static char *bck_tab_bg[5] = { /*down*/"#FF9090", /*rising*/"#FF80ff", /*failing*/"#C060FF", /*up*/"#B0D0FF", /*unchecked*/"#E0E0E0" };
static char *srv_hlt_st[5] = { "DOWN", "DN %d/%d &uarr;", "UP %d/%d &darr;", "UP", "<i>no check</i>" };
int sv_state; /* 0=DOWN, 1=going up, 2=going down, 3=UP */
sv = s->data_ctx.stats.sv;
/* FIXME: produce some small strings for "UP/DOWN x/y &#xxxx;" */
if (!(sv->state & SRV_CHECKED))
sv_state = 4;
else if (sv->state & SRV_RUNNING)
if (sv->health == sv->rise + sv->fall - 1)
sv_state = 3; /* UP */
else
sv_state = 2; /* going down */
else
if (sv->health)
sv_state = 1; /* going up */
else
sv_state = 0; /* DOWN */
/* name, weight */
msglen += snprintf(trash, sizeof(trash),
"<tr align=center bgcolor=\"%s\"><td>%s</td><td>%d</td><td>",
(sv->state & SRV_BACKUP) ? bck_tab_bg[sv_state] : act_tab_bg[sv_state],
sv->id, sv->uweight+1);
/* status */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen, srv_hlt_st[sv_state],
(sv->state & SRV_RUNNING) ? (sv->health - sv->rise + 1) : (sv->health),
(sv->state & SRV_RUNNING) ? (sv->fall) : (sv->rise));
/* act, bck */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"</td><td>%s</td><td>%s</td>",
(sv->state & SRV_BACKUP) ? "-" : "Y",
(sv->state & SRV_BACKUP) ? "Y" : "-");
/* queue : current, max */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td>",
sv->nbpend, sv->nbpend_max);
/* sessions : current, max, limit, cumul */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td><td align=right>%s</td><td align=right>%d</td>",
sv->cur_sess, sv->cur_sess_max, sv->maxconn ? ultoa(sv->maxconn) : "-", sv->cum_sess);
/* errors : connect, response, security */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td><td align=right>%d</td>\n",
sv->failed_conns, sv->failed_resp, sv->failed_secu);
/* check failures : unique, fatal */
if (sv->state & SRV_CHECKED)
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td></tr>\n",
sv->failed_checks, sv->down_trans);
else
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>-</td><td align=right>-</td></tr>\n");
if (buffer_write(rep, trash, msglen) != 0)
return 0;
msglen = 0;
s->data_ctx.stats.sv = sv->next;
} /* while sv */
/* now we are past the last server, we'll dump information about the dispatcher */
/* We have to count down from the proxy to the servers to tell how
* many sessions are on the dispatcher, and how many checks have
* failed. We cannot count this during the servers dump because it
* might be interrupted multiple times.
*/
dispatch_sess = px->nbconn;
dispatch_cum = px->cum_conn;
failed_secu = px->failed_secu;
failed_conns = px->failed_conns;
failed_resp = px->failed_resp;
failed_checks = down_trans = 0;
sv = px->srv;
while (sv) {
dispatch_sess -= sv->cur_sess;
dispatch_cum -= sv->cum_sess;
failed_conns -= sv->failed_conns;
failed_resp -= sv->failed_resp;
failed_secu -= sv->failed_secu;
if (sv->state & SRV_CHECKED) {
failed_checks += sv->failed_checks;
down_trans += sv->down_trans;
}
sv = sv->next;
}
/* name, weight, status, act, bck */
msglen += snprintf(trash + msglen, sizeof(trash),
"<tr align=center bgcolor=\"#e8e8d0\">"
"<td>Dispatcher</td><td>-</td>"
"<td>%s</td><td>-</td><td>-</td>",
px->state == PR_STRUN ? "UP" : "DOWN");
/* queue : current, max */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td>",
px->nbpend, px->nbpend_max);
/* sessions : current, max, limit, cumul. */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td><td align=right>%d</td><td align=right>%d</td>",
dispatch_sess, px->nbconn_max, px->maxconn, dispatch_cum);
/* errors : connect, response, security */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td><td align=right>%d</td>\n",
failed_conns, failed_resp, failed_secu);
/* check failures : unique, fatal */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>-</td><td align=right>-</td></tr>\n");
/* now the summary for the whole proxy */
/* name, weight, status, act, bck */
msglen += snprintf(trash + msglen, sizeof(trash),
"<tr align=center style=\"color: #ffff80; background: #20C0C0;\">"
"<td><b>Total</b></td><td>-</td>"
"<td><b>%s</b></td><td><b>%d</b></td><td><b>%d</b></td>",
(px->state == PR_STRUN && ((px->srv == NULL) || px->srv_act || px->srv_bck)) ? "UP" : "DOWN",
px->srv_act, px->srv_bck);
/* queue : current, max */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right><b>%d</b></td><td align=right><b>%d</b></td>",
px->totpend, px->nbpend_max);
/* sessions : current, max, limit, cumul */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right><b>%d</b></td><td align=right><b>%d</b></td><td align=right><b>%d</b></td><td align=right><b>%d</b></td>",
px->nbconn, px->nbconn_max, px->maxconn, px->cum_conn);
/* errors : connect, response, security */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td><td align=right>%d</td>\n",
px->failed_conns, px->failed_resp, px->failed_secu);
/* check failures : unique, fatal */
msglen += snprintf(trash + msglen, sizeof(trash) - msglen,
"<td align=right>%d</td><td align=right>%d</td></tr>\n",
failed_checks, down_trans);
msglen += snprintf(trash + msglen, sizeof(trash) - msglen, "</table><p>\n");
if (buffer_write(rep, trash, msglen) != 0)
return 0;
msglen = 0;
s->data_ctx.stats.px_st = DATA_ST_INIT;
next_proxy:
s->data_ctx.stats.px = px->next;
} /* proxy loop */
/* here, we just have reached the sv == NULL and px == NULL */
s->flags &= ~SN_SELF_GEN;
return 1;
}
else {
/* unknown data source */
s->logs.status = 500;
client_retnclose(s, s->proxy->errmsg.len500, s->proxy->errmsg.msg500);
if (!(s->flags & SN_ERR_MASK))
s->flags |= SN_ERR_PRXCOND;
if (!(s->flags & SN_FINST_MASK))
s->flags |= SN_FINST_R;
s->flags &= SN_SELF_GEN;
return 1;
}
}
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/