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haproxy/src/cfgparse.c
Aurelien DARRAGON 4194f756de MEDIUM: tree-wide: avoid manually initializing proxies 
In this patch we try to use the proxy API init functions as much as
possible to avoid code redundancy and prevent proxy initialization
errors. As such, we prefer using alloc_new_proxy() and setup_new_proxy()
instead of manually allocating the proxy pointer and performing the
base init ourselves.
2025-04-10 22:10:31 +02:00

4865 lines
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/*
* Configuration parser
*
* Copyright 2000-2011 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.
*
*/
/* This is to have crypt() and sched_setaffinity() defined on Linux */
#define _GNU_SOURCE
#ifdef USE_LIBCRYPT
#ifdef USE_CRYPT_H
/* some platforms such as Solaris need this */
#include <crypt.h>
#endif
#endif /* USE_LIBCRYPT */
#include <dirent.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <netdb.h>
#include <ctype.h>
#include <pwd.h>
#include <grp.h>
#include <errno.h>
#ifdef USE_CPU_AFFINITY
#include <sched.h>
#endif
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <haproxy/acl.h>
#include <haproxy/action.h>
#include <haproxy/api.h>
#include <haproxy/arg.h>
#include <haproxy/auth.h>
#include <haproxy/backend.h>
#include <haproxy/capture.h>
#include <haproxy/cfgcond.h>
#include <haproxy/cfgparse.h>
#include <haproxy/channel.h>
#include <haproxy/check.h>
#include <haproxy/chunk.h>
#include <haproxy/clock.h>
#ifdef USE_CPU_AFFINITY
#include <haproxy/cpuset.h>
#include <haproxy/cpu_topo.h>
#endif
#include <haproxy/connection.h>
#include <haproxy/errors.h>
#include <haproxy/filters.h>
#include <haproxy/frontend.h>
#include <haproxy/global.h>
#include <haproxy/http_ana.h>
#include <haproxy/http_rules.h>
#include <haproxy/lb_chash.h>
#include <haproxy/lb_fas.h>
#include <haproxy/lb_fwlc.h>
#include <haproxy/lb_fwrr.h>
#include <haproxy/lb_map.h>
#include <haproxy/lb_ss.h>
#include <haproxy/listener.h>
#include <haproxy/log.h>
#include <haproxy/sink.h>
#include <haproxy/mailers.h>
#include <haproxy/namespace.h>
#include <haproxy/quic_cc-t.h>
#include <haproxy/quic_sock.h>
#include <haproxy/quic_tune.h>
#include <haproxy/obj_type-t.h>
#include <haproxy/openssl-compat.h>
#include <haproxy/peers-t.h>
#include <haproxy/peers.h>
#include <haproxy/pool.h>
#include <haproxy/protocol.h>
#include <haproxy/proxy.h>
#include <haproxy/resolvers.h>
#include <haproxy/sample.h>
#include <haproxy/server.h>
#include <haproxy/session.h>
#include <haproxy/stats-t.h>
#include <haproxy/stick_table.h>
#include <haproxy/stream.h>
#include <haproxy/task.h>
#include <haproxy/tcp_rules.h>
#include <haproxy/tcpcheck.h>
#include <haproxy/thread.h>
#include <haproxy/tools.h>
#include <haproxy/uri_auth.h>
/* Used to chain configuration sections definitions. This list
* stores struct cfg_section
*/
struct list sections = LIST_HEAD_INIT(sections);
struct list postparsers = LIST_HEAD_INIT(postparsers);
extern struct proxy *mworker_proxy;
/* curproxy is only valid during parsing and will be NULL afterwards. */
struct proxy *curproxy = NULL;
char *cursection = NULL;
int cfg_maxpconn = 0; /* # of simultaneous connections per proxy (-N) */
int cfg_maxconn = 0; /* # of simultaneous connections, (-n) */
char *cfg_scope = NULL; /* the current scope during the configuration parsing */
int non_global_section_parsed = 0;
/* how to handle default paths */
static enum default_path_mode {
DEFAULT_PATH_CURRENT = 0, /* "current": paths are relative to CWD (this is the default) */
DEFAULT_PATH_CONFIG, /* "config": paths are relative to config file */
DEFAULT_PATH_PARENT, /* "parent": paths are relative to config file's ".." */
DEFAULT_PATH_ORIGIN, /* "origin": paths are relative to default_path_origin */
} default_path_mode;
char initial_cwd[PATH_MAX];
static char current_cwd[PATH_MAX];
/* List head of all known configuration keywords */
struct cfg_kw_list cfg_keywords = {
.list = LIST_HEAD_INIT(cfg_keywords.list)
};
/*
* converts <str> to a list of listeners which are dynamically allocated.
* The format is "{addr|'*'}:port[-end][,{addr|'*'}:port[-end]]*", where :
* - <addr> can be empty or "*" to indicate INADDR_ANY ;
* - <port> is a numerical port from 1 to 65535 ;
* - <end> indicates to use the range from <port> to <end> instead (inclusive).
* This can be repeated as many times as necessary, separated by a coma.
* Function returns 1 for success or 0 if error. In case of errors, if <err> is
* not NULL, it must be a valid pointer to either NULL or a freeable area that
* will be replaced with an error message.
*/
int str2listener(char *str, struct proxy *curproxy, struct bind_conf *bind_conf, const char *file, int line, char **err)
{
struct protocol *proto;
char *next, *dupstr;
int port, end;
next = dupstr = strdup(str);
while (next && *next) {
struct sockaddr_storage *ss2;
int fd = -1;
str = next;
/* 1) look for the end of the first address */
if ((next = strchr(str, ',')) != NULL) {
*next++ = 0;
}
ss2 = str2sa_range(str, NULL, &port, &end, &fd, &proto, NULL, err,
(curproxy == global.cli_fe || curproxy == mworker_proxy) ? NULL : global.unix_bind.prefix,
NULL, NULL, PA_O_RESOLVE | PA_O_PORT_OK | PA_O_PORT_MAND | PA_O_PORT_RANGE |
PA_O_SOCKET_FD | PA_O_STREAM | PA_O_XPRT);
if (!ss2)
goto fail;
if (ss2->ss_family == AF_CUST_RHTTP_SRV) {
/* Check if a previous non reverse HTTP present is
* already defined. If DGRAM or STREAM is set, this
* indicates that we are currently parsing the second
* or more address.
*/
if (bind_conf->options & (BC_O_USE_SOCK_DGRAM|BC_O_USE_SOCK_STREAM) &&
!(bind_conf->options & BC_O_REVERSE_HTTP)) {
memprintf(err, "Cannot mix reverse HTTP bind with others.\n");
goto fail;
}
bind_conf->rhttp_srvname = strdup(str + strlen("rhttp@"));
if (!bind_conf->rhttp_srvname) {
memprintf(err, "Cannot allocate reverse HTTP bind.\n");
goto fail;
}
bind_conf->options |= BC_O_REVERSE_HTTP;
}
else if (bind_conf->options & BC_O_REVERSE_HTTP) {
/* Standard address mixed with a previous reverse HTTP one. */
memprintf(err, "Cannot mix reverse HTTP bind with others.\n");
goto fail;
}
/* OK the address looks correct */
if (proto->proto_type == PROTO_TYPE_DGRAM)
bind_conf->options |= BC_O_USE_SOCK_DGRAM;
else
bind_conf->options |= BC_O_USE_SOCK_STREAM;
if (proto->xprt_type == PROTO_TYPE_DGRAM)
bind_conf->options |= BC_O_USE_XPRT_DGRAM;
else
bind_conf->options |= BC_O_USE_XPRT_STREAM;
if (!create_listeners(bind_conf, ss2, port, end, fd, proto, err)) {
memprintf(err, "%s for address '%s'.\n", *err, str);
goto fail;
}
} /* end while(next) */
free(dupstr);
return 1;
fail:
free(dupstr);
return 0;
}
/*
* converts <str> to a list of datagram-oriented listeners which are dynamically
* allocated.
* The format is "{addr|'*'}:port[-end][,{addr|'*'}:port[-end]]*", where :
* - <addr> can be empty or "*" to indicate INADDR_ANY ;
* - <port> is a numerical port from 1 to 65535 ;
* - <end> indicates to use the range from <port> to <end> instead (inclusive).
* This can be repeated as many times as necessary, separated by a coma.
* Function returns 1 for success or 0 if error. In case of errors, if <err> is
* not NULL, it must be a valid pointer to either NULL or a freeable area that
* will be replaced with an error message.
*/
int str2receiver(char *str, struct proxy *curproxy, struct bind_conf *bind_conf, const char *file, int line, char **err)
{
struct protocol *proto;
char *next, *dupstr;
int port, end;
next = dupstr = strdup(str);
while (next && *next) {
struct sockaddr_storage *ss2;
int fd = -1;
str = next;
/* 1) look for the end of the first address */
if ((next = strchr(str, ',')) != NULL) {
*next++ = 0;
}
ss2 = str2sa_range(str, NULL, &port, &end, &fd, &proto, NULL, err,
curproxy == global.cli_fe ? NULL : global.unix_bind.prefix,
NULL, NULL, PA_O_RESOLVE | PA_O_PORT_OK | PA_O_PORT_MAND | PA_O_PORT_RANGE |
PA_O_SOCKET_FD | PA_O_DGRAM | PA_O_XPRT);
if (!ss2)
goto fail;
/* OK the address looks correct */
if (!create_listeners(bind_conf, ss2, port, end, fd, proto, err)) {
memprintf(err, "%s for address '%s'.\n", *err, str);
goto fail;
}
} /* end while(next) */
free(dupstr);
return 1;
fail:
free(dupstr);
return 0;
}
/*
* Sends a warning if proxy <proxy> does not have at least one of the
* capabilities in <cap>. An optional <hint> may be added at the end
* of the warning to help the user. Returns 1 if a warning was emitted
* or 0 if the condition is valid.
*/
int warnifnotcap(struct proxy *proxy, int cap, const char *file, int line, const char *arg, const char *hint)
{
char *msg;
switch (cap) {
case PR_CAP_BE: msg = "no backend"; break;
case PR_CAP_FE: msg = "no frontend"; break;
case PR_CAP_BE|PR_CAP_FE: msg = "neither frontend nor backend"; break;
default: msg = "not enough"; break;
}
if (!(proxy->cap & cap)) {
ha_warning("parsing [%s:%d] : '%s' ignored because %s '%s' has %s capability.%s\n",
file, line, arg, proxy_type_str(proxy), proxy->id, msg, hint ? hint : "");
return 1;
}
return 0;
}
/*
* Sends an alert if proxy <proxy> does not have at least one of the
* capabilities in <cap>. An optional <hint> may be added at the end
* of the alert to help the user. Returns 1 if an alert was emitted
* or 0 if the condition is valid.
*/
int failifnotcap(struct proxy *proxy, int cap, const char *file, int line, const char *arg, const char *hint)
{
char *msg;
switch (cap) {
case PR_CAP_BE: msg = "no backend"; break;
case PR_CAP_FE: msg = "no frontend"; break;
case PR_CAP_BE|PR_CAP_FE: msg = "neither frontend nor backend"; break;
default: msg = "not enough"; break;
}
if (!(proxy->cap & cap)) {
ha_alert("parsing [%s:%d] : '%s' not allowed because %s '%s' has %s capability.%s\n",
file, line, arg, proxy_type_str(proxy), proxy->id, msg, hint ? hint : "");
return 1;
}
return 0;
}
/*
* Report an error in <msg> when there are too many arguments. This version is
* intended to be used by keyword parsers so that the message will be included
* into the general error message. The index is the current keyword in args.
* Return 0 if the number of argument is correct, otherwise build a message and
* return 1. Fill err_code with an ERR_ALERT and an ERR_FATAL if not null. The
* message may also be null, it will simply not be produced (useful to check only).
* <msg> and <err_code> are only affected on error.
*/
int too_many_args_idx(int maxarg, int index, char **args, char **msg, int *err_code)
{
int i;
if (!*args[index + maxarg + 1])
return 0;
if (msg) {
*msg = NULL;
memprintf(msg, "%s", args[0]);
for (i = 1; i <= index; i++)
memprintf(msg, "%s %s", *msg, args[i]);
memprintf(msg, "'%s' cannot handle unexpected argument '%s'.", *msg, args[index + maxarg + 1]);
}
if (err_code)
*err_code |= ERR_ALERT | ERR_FATAL;
return 1;
}
/*
* same as too_many_args_idx with a 0 index
*/
int too_many_args(int maxarg, char **args, char **msg, int *err_code)
{
return too_many_args_idx(maxarg, 0, args, msg, err_code);
}
/*
* Report a fatal Alert when there is too much arguments
* The index is the current keyword in args
* Return 0 if the number of argument is correct, otherwise emit an alert and return 1
* Fill err_code with an ERR_ALERT and an ERR_FATAL
*/
int alertif_too_many_args_idx(int maxarg, int index, const char *file, int linenum, char **args, int *err_code)
{
char *kw = NULL;
int i;
if (!*args[index + maxarg + 1])
return 0;
memprintf(&kw, "%s", args[0]);
for (i = 1; i <= index; i++) {
memprintf(&kw, "%s %s", kw, args[i]);
}
ha_alert("parsing [%s:%d] : '%s' cannot handle unexpected argument '%s'.\n", file, linenum, kw, args[index + maxarg + 1]);
free(kw);
*err_code |= ERR_ALERT | ERR_FATAL;
return 1;
}
/*
* same as alertif_too_many_args_idx with a 0 index
*/
int alertif_too_many_args(int maxarg, const char *file, int linenum, char **args, int *err_code)
{
return alertif_too_many_args_idx(maxarg, 0, file, linenum, args, err_code);
}
/* Report it if a request ACL condition uses some keywords that are incompatible
* with the place where the ACL is used. It returns either 0 or ERR_WARN so that
* its result can be or'ed with err_code. Note that <cond> may be NULL and then
* will be ignored.
*/
int warnif_cond_conflicts(const struct acl_cond *cond, unsigned int where, const char *file, int line)
{
const struct acl *acl;
const char *kw;
if (!cond)
return 0;
acl = acl_cond_conflicts(cond, where);
if (acl) {
if (acl->name && *acl->name)
ha_warning("parsing [%s:%d] : acl '%s' will never match because it only involves keywords that are incompatible with '%s'\n",
file, line, acl->name, sample_ckp_names(where));
else
ha_warning("parsing [%s:%d] : anonymous acl will never match because it uses keyword '%s' which is incompatible with '%s'\n",
file, line, LIST_ELEM(acl->expr.n, struct acl_expr *, list)->kw, sample_ckp_names(where));
return ERR_WARN;
}
if (!acl_cond_kw_conflicts(cond, where, &acl, &kw))
return 0;
if (acl->name && *acl->name)
ha_warning("parsing [%s:%d] : acl '%s' involves keywords '%s' which is incompatible with '%s'\n",
file, line, acl->name, kw, sample_ckp_names(where));
else
ha_warning("parsing [%s:%d] : anonymous acl involves keyword '%s' which is incompatible with '%s'\n",
file, line, kw, sample_ckp_names(where));
return ERR_WARN;
}
/* Report it if an ACL uses a L6 sample fetch from an HTTP proxy. It returns
* either 0 or ERR_WARN so that its result can be or'ed with err_code. Note that
* <cond> may be NULL and then will be ignored.
*/
int warnif_tcp_http_cond(const struct proxy *px, const struct acl_cond *cond)
{
if (!cond || px->mode != PR_MODE_HTTP)
return 0;
if (cond->use & (SMP_USE_L6REQ|SMP_USE_L6RES)) {
ha_warning("Proxy '%s': L6 sample fetches ignored on HTTP proxies (declared at %s:%d).\n",
px->id, cond->file, cond->line);
return ERR_WARN;
}
return 0;
}
/* try to find in <list> the word that looks closest to <word> by counting
* transitions between letters, digits and other characters. Will return the
* best matching word if found, otherwise NULL. An optional array of extra
* words to compare may be passed in <extra>, but it must then be terminated
* by a NULL entry. If unused it may be NULL.
*/
const char *cfg_find_best_match(const char *word, const struct list *list, int section, const char **extra)
{
uint8_t word_sig[1024]; // 0..25=letter, 26=digit, 27=other, 28=begin, 29=end
uint8_t list_sig[1024];
const struct cfg_kw_list *kwl;
int index;
const char *best_ptr = NULL;
int dist, best_dist = INT_MAX;
make_word_fingerprint(word_sig, word);
list_for_each_entry(kwl, list, list) {
for (index = 0; kwl->kw[index].kw != NULL; index++) {
if (kwl->kw[index].section != section)
continue;
make_word_fingerprint(list_sig, kwl->kw[index].kw);
dist = word_fingerprint_distance(word_sig, list_sig);
if (dist < best_dist) {
best_dist = dist;
best_ptr = kwl->kw[index].kw;
}
}
}
while (extra && *extra) {
make_word_fingerprint(list_sig, *extra);
dist = word_fingerprint_distance(word_sig, list_sig);
if (dist < best_dist) {
best_dist = dist;
best_ptr = *extra;
}
extra++;
}
if (best_dist > 2 * strlen(word) || (best_ptr && best_dist > 2 * strlen(best_ptr)))
best_ptr = NULL;
return best_ptr;
}
/* Parse a string representing a process number or a set of processes. It must
* be "all", "odd", "even", a number between 1 and <max> or a range with
* two such numbers delimited by a dash ('-'). On success, it returns
* 0. otherwise it returns 1 with an error message in <err>.
*
* Note: this function can also be used to parse a thread number or a set of
* threads.
*/
int parse_process_number(const char *arg, unsigned long *proc, int max, int *autoinc, char **err)
{
if (autoinc) {
*autoinc = 0;
if (strncmp(arg, "auto:", 5) == 0) {
arg += 5;
*autoinc = 1;
}
}
if (strcmp(arg, "all") == 0)
*proc |= ~0UL;
else if (strcmp(arg, "odd") == 0)
*proc |= ~0UL/3UL; /* 0x555....555 */
else if (strcmp(arg, "even") == 0)
*proc |= (~0UL/3UL) << 1; /* 0xAAA...AAA */
else {
const char *p, *dash = NULL;
unsigned int low, high;
for (p = arg; *p; p++) {
if (*p == '-' && !dash)
dash = p;
else if (!isdigit((unsigned char)*p)) {
memprintf(err, "'%s' is not a valid number/range.", arg);
return -1;
}
}
low = high = str2uic(arg);
if (dash)
high = ((!*(dash+1)) ? max : str2uic(dash + 1));
if (high < low) {
unsigned int swap = low;
low = high;
high = swap;
}
if (low < 1 || low > max || high > max) {
memprintf(err, "'%s' is not a valid number/range."
" It supports numbers from 1 to %d.\n",
arg, max);
return 1;
}
for (;low <= high; low++)
*proc |= 1UL << (low-1);
}
*proc &= ~0UL >> (LONGBITS - max);
return 0;
}
/* Allocate and initialize the frontend of a "peers" section found in
* file <file> at line <linenum> with <id> as ID.
* Return 0 if succeeded, -1 if not.
* Note that this function may be called from "default-server"
* or "peer" lines.
*/
static int init_peers_frontend(const char *file, int linenum,
const char *id, struct peers *peers)
{
struct proxy *p;
char *errmsg = NULL;
if (peers->peers_fe) {
p = peers->peers_fe;
goto out;
}
p = alloc_new_proxy(NULL, PR_CAP_FE | PR_CAP_BE, &errmsg);
if (!p) {
ha_alert("parsing [%s:%d] : %s\n", file, linenum, errmsg);
ha_free(&errmsg);
return -1;
}
peers_setup_frontend(p);
p->parent = peers;
/* Finally store this frontend. */
peers->peers_fe = p;
out:
if (id && !p->id)
p->id = strdup(id);
drop_file_name(&p->conf.file);
p->conf.args.file = p->conf.file = copy_file_name(file);
if (linenum != -1)
p->conf.args.line = p->conf.line = linenum;
return 0;
}
/* Only change ->file, ->line and ->arg struct bind_conf member values
* if already present.
*/
static struct bind_conf *bind_conf_uniq_alloc(struct proxy *p,
const char *file, int line,
const char *arg, struct xprt_ops *xprt)
{
struct bind_conf *bind_conf;
if (!LIST_ISEMPTY(&p->conf.bind)) {
bind_conf = LIST_ELEM((&p->conf.bind)->n, typeof(bind_conf), by_fe);
/*
* We keep bind_conf->file and bind_conf->line unchanged
* to make them available for error messages
*/
if (arg) {
free(bind_conf->arg);
bind_conf->arg = strdup(arg);
}
}
else {
bind_conf = bind_conf_alloc(p, file, line, arg, xprt);
}
return bind_conf;
}
/*
* Allocate a new struct peer parsed at line <linenum> in file <file>
* to be added to <peers>.
* Returns the new allocated structure if succeeded, NULL if not.
*/
static struct peer *cfg_peers_add_peer(struct peers *peers,
const char *file, int linenum,
const char *id, int local)
{
struct peer *p;
p = calloc(1, sizeof *p);
if (!p) {
ha_alert("parsing [%s:%d] : out of memory.\n", file, linenum);
return NULL;
}
/* the peers are linked backwards first */
peers->count++;
p->peers = peers;
p->next = peers->remote;
peers->remote = p;
p->conf.file = strdup(file);
p->conf.line = linenum;
p->last_change = ns_to_sec(now_ns);
HA_SPIN_INIT(&p->lock);
if (id)
p->id = strdup(id);
if (local) {
p->local = 1;
peers->local = p;
}
return p;
}
/*
* Parse a line in a <listen>, <frontend> or <backend> section.
* Returns the error code, 0 if OK, or any combination of :
* - ERR_ABORT: must abort ASAP
* - ERR_FATAL: we can continue parsing but not start the service
* - ERR_WARN: a warning has been emitted
* - ERR_ALERT: an alert has been emitted
* Only the two first ones can stop processing, the two others are just
* indicators.
*/
int cfg_parse_peers(const char *file, int linenum, char **args, int kwm)
{
static struct peers *curpeers = NULL;
static struct sockaddr_storage *bind_addr = NULL;
static int nb_shards = 0;
struct peer *newpeer = NULL;
const char *err;
struct bind_conf *bind_conf;
int err_code = 0;
char *errmsg = NULL;
static int bind_line, peer_line;
if (strcmp(args[0], "bind") == 0 || strcmp(args[0], "default-bind") == 0) {
int cur_arg;
struct bind_conf *bind_conf;
int ret;
cur_arg = 1;
if (init_peers_frontend(file, linenum, NULL, curpeers) != 0) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
bind_conf = bind_conf_uniq_alloc(curpeers->peers_fe, file, linenum,
args[1], xprt_get(XPRT_RAW));
if (!bind_conf) {
ha_alert("parsing [%s:%d] : '%s %s' : cannot allocate memory.\n", file, linenum, args[0], args[1]);
err_code |= ERR_FATAL;
goto out;
}
bind_conf->maxaccept = 1;
bind_conf->accept = session_accept_fd;
bind_conf->options |= BC_O_UNLIMITED; /* don't make the peers subject to global limits */
if (*args[0] == 'b') {
struct listener *l;
if (peer_line) {
ha_alert("parsing [%s:%d] : mixing \"peer\" and \"bind\" line is forbidden\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (!LIST_ISEMPTY(&bind_conf->listeners)) {
ha_alert("parsing [%s:%d] : One listener per \"peers\" section is authorized but another is already configured at [%s:%d].\n", file, linenum, bind_conf->file, bind_conf->line);
err_code |= ERR_FATAL;
}
if (!str2listener(args[1], curpeers->peers_fe, bind_conf, file, linenum, &errmsg)) {
if (errmsg && *errmsg) {
indent_msg(&errmsg, 2);
ha_alert("parsing [%s:%d] : '%s %s' : %s\n", file, linenum, args[0], args[1], errmsg);
}
else
ha_alert("parsing [%s:%d] : '%s %s' : error encountered while parsing listening address %s.\n",
file, linenum, args[0], args[1], args[1]);
err_code |= ERR_FATAL;
goto out;
}
/* Only one listener supported. Compare first listener
* against the last one. It must be the same one.
*/
if (bind_conf->listeners.n != bind_conf->listeners.p) {
ha_alert("parsing [%s:%d] : Only one listener per \"peers\" section is authorized. Multiple listening addresses or port range are not supported.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
/*
* Newly allocated listener is at the end of the list
*/
l = LIST_ELEM(bind_conf->listeners.p, typeof(l), by_bind);
bind_addr = &l->rx.addr;
global.maxsock++; /* for the listening socket */
bind_line = 1;
if (cfg_peers->local) {
/* Local peer already defined using "server" line has no
* address yet, we should update its server's addr:port
* settings
*/
newpeer = cfg_peers->local;
BUG_ON(!newpeer->srv);
newpeer->srv->addr = *bind_addr;
newpeer->srv->svc_port = get_host_port(bind_addr);
}
else {
/* This peer is local.
* Note that we do not set the peer ID. This latter is initialized
* when parsing "peer" or "server" line.
*/
newpeer = cfg_peers_add_peer(curpeers, file, linenum, NULL, 1);
if (!newpeer) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
}
cur_arg++;
}
ret = bind_parse_args_list(bind_conf, args, cur_arg, cursection, file, linenum);
err_code |= ret;
if (ret != 0)
goto out;
}
else if (strcmp(args[0], "default-server") == 0) {
if (init_peers_frontend(file, -1, NULL, curpeers) != 0) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
err_code |= parse_server(file, linenum, args, curpeers->peers_fe, NULL,
SRV_PARSE_DEFAULT_SERVER|SRV_PARSE_IN_PEER_SECTION|SRV_PARSE_INITIAL_RESOLVE);
}
else if (strcmp(args[0], "log") == 0) {
if (init_peers_frontend(file, linenum, NULL, curpeers) != 0) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
if (!parse_logger(args, &curpeers->peers_fe->loggers, (kwm == KWM_NO), file, linenum, &errmsg)) {
ha_alert("parsing [%s:%d] : %s : %s\n", file, linenum, args[0], errmsg);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
}
else if (strcmp(args[0], "peers") == 0) { /* new peers section */
/* Initialize these static variables when entering a new "peers" section*/
bind_line = peer_line = 0;
bind_addr = NULL;
if (!*args[1]) {
ha_alert("parsing [%s:%d] : missing name for peers section.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
if (alertif_too_many_args(1, file, linenum, args, &err_code)) {
err_code |= ERR_ABORT;
goto out;
}
err = invalid_char(args[1]);
if (err) {
ha_alert("parsing [%s:%d] : character '%c' is not permitted in '%s' name '%s'.\n",
file, linenum, *err, args[0], args[1]);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
for (curpeers = cfg_peers; curpeers != NULL; curpeers = curpeers->next) {
/*
* If there are two proxies with the same name only following
* combinations are allowed:
*/
if (strcmp(curpeers->id, args[1]) == 0) {
ha_alert("Parsing [%s:%d]: peers section '%s' has the same name as another peers section declared at %s:%d.\n",
file, linenum, args[1], curpeers->conf.file, curpeers->conf.line);
err_code |= ERR_ALERT | ERR_FATAL;
}
}
if ((curpeers = calloc(1, sizeof(*curpeers))) == NULL) {
ha_alert("parsing [%s:%d] : out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
curpeers->next = cfg_peers;
cfg_peers = curpeers;
curpeers->conf.file = strdup(file);
curpeers->conf.line = linenum;
curpeers->last_change = ns_to_sec(now_ns);
curpeers->id = strdup(args[1]);
curpeers->disabled = 0;
}
else if (strcmp(args[0], "peer") == 0 ||
strcmp(args[0], "server") == 0) { /* peer or server definition */
struct server *prev_srv;
int local_peer, peer;
int parse_addr = 0;
peer = *args[0] == 'p';
local_peer = strcmp(args[1], localpeer) == 0;
/* The local peer may have already partially been parsed on a "bind" line. */
if (*args[0] == 'p') {
if (bind_line) {
ha_alert("parsing [%s:%d] : mixing \"peer\" and \"bind\" line is forbidden\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
peer_line = 1;
}
if (cfg_peers->local && !cfg_peers->local->id && local_peer) {
/* The local peer has already been initialized on a "bind" line.
* Let's use it and store its ID.
*/
newpeer = cfg_peers->local;
newpeer->id = strdup(localpeer);
}
else {
if (local_peer && cfg_peers->local) {
ha_alert("parsing [%s:%d] : '%s %s' : local peer name already referenced at %s:%d. %s\n",
file, linenum, args[0], args[1],
curpeers->peers_fe->conf.file, curpeers->peers_fe->conf.line, cfg_peers->local->id);
err_code |= ERR_FATAL;
goto out;
}
newpeer = cfg_peers_add_peer(curpeers, file, linenum, args[1], local_peer);
if (!newpeer) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
}
/* Line number and peer ID are updated only if this peer is the local one. */
if (init_peers_frontend(file,
newpeer->local ? linenum: -1,
newpeer->local ? newpeer->id : NULL,
curpeers) != 0) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
/* This initializes curpeer->peers->peers_fe->srv.
* The server address is parsed only if we are parsing a "peer" line,
* or if we are parsing a "server" line and the current peer is not the local one.
*/
parse_addr = (peer || !local_peer) ? SRV_PARSE_PARSE_ADDR : 0;
prev_srv = curpeers->peers_fe->srv;
err_code |= parse_server(file, linenum, args, curpeers->peers_fe, NULL,
SRV_PARSE_IN_PEER_SECTION|parse_addr|SRV_PARSE_INITIAL_RESOLVE);
if (curpeers->peers_fe->srv == prev_srv) {
/* parse_server didn't add a server:
* Remove the newly allocated peer.
*/
struct peer *p;
/* while it is tolerated to have a "server" line without address, it isn't
* the case for a "peer" line
*/
if (peer) {
ha_warning("parsing [%s:%d] : '%s %s' : ignoring invalid peer definition (missing address:port)\n",
file, linenum, args[0], args[1]);
err_code |= ERR_WARN;
}
else {
ha_diag_warning("parsing [%s:%d] : '%s %s' : ignoring server (not a local peer, valid address:port is expected)\n",
file, linenum, args[0], args[1]);
}
p = curpeers->remote;
curpeers->remote = curpeers->remote->next;
free(p->id);
free(p);
if (local_peer) {
/* we only get there with incomplete "peer"
* line for local peer (missing address):
*
* reset curpeers and curpeers fields
* that are local peer related
*/
curpeers->local = NULL;
ha_free(&curpeers->peers_fe->id);
}
goto out;
}
if (!parse_addr && bind_addr) {
/* local peer declared using "server": has name but no
* address: we use the known "bind" line addr settings
* as implicit server's addr and port.
*/
curpeers->peers_fe->srv->addr = *bind_addr;
curpeers->peers_fe->srv->svc_port = get_host_port(bind_addr);
}
if (nb_shards && curpeers->peers_fe->srv->shard > nb_shards) {
ha_warning("parsing [%s:%d] : '%s %s' : %d peer shard greater value than %d shards value is ignored.\n",
file, linenum, args[0], args[1], curpeers->peers_fe->srv->shard, nb_shards);
curpeers->peers_fe->srv->shard = 0;
err_code |= ERR_WARN;
}
if (curpeers->peers_fe->srv->init_addr_methods || curpeers->peers_fe->srv->resolvers_id ||
curpeers->peers_fe->srv->do_check || curpeers->peers_fe->srv->do_agent) {
ha_warning("parsing [%s:%d] : '%s %s' : init_addr, resolvers, check and agent are ignored for peers.\n", file, linenum, args[0], args[1]);
err_code |= ERR_WARN;
}
HA_SPIN_INIT(&newpeer->lock);
newpeer->srv = curpeers->peers_fe->srv;
if (!newpeer->local)
goto out;
/* The lines above are reserved to "peer" lines. */
if (*args[0] == 's')
goto out;
bind_conf = bind_conf_uniq_alloc(curpeers->peers_fe, file, linenum, args[2], xprt_get(XPRT_RAW));
if (!bind_conf) {
ha_alert("parsing [%s:%d] : '%s %s' : Cannot allocate memory.\n", file, linenum, args[0], args[1]);
err_code |= ERR_FATAL;
goto out;
}
bind_conf->maxaccept = 1;
bind_conf->accept = session_accept_fd;
bind_conf->options |= BC_O_UNLIMITED; /* don't make the peers subject to global limits */
if (!LIST_ISEMPTY(&bind_conf->listeners)) {
ha_alert("parsing [%s:%d] : One listener per \"peers\" section is authorized but another is already configured at [%s:%d].\n", file, linenum, bind_conf->file, bind_conf->line);
err_code |= ERR_FATAL;
}
if (!str2listener(args[2], curpeers->peers_fe, bind_conf, file, linenum, &errmsg)) {
if (errmsg && *errmsg) {
indent_msg(&errmsg, 2);
ha_alert("parsing [%s:%d] : '%s %s' : %s\n", file, linenum, args[0], args[1], errmsg);
}
else
ha_alert("parsing [%s:%d] : '%s %s' : error encountered while parsing listening address %s.\n",
file, linenum, args[0], args[1], args[2]);
err_code |= ERR_FATAL;
goto out;
}
global.maxsock++; /* for the listening socket */
}
else if (strcmp(args[0], "shards") == 0) {
char *endptr;
if (!*args[1]) {
ha_alert("parsing [%s:%d] : '%s' : missing value\n", file, linenum, args[0]);
err_code |= ERR_FATAL;
goto out;
}
curpeers->nb_shards = strtol(args[1], &endptr, 10);
if (*endptr != '\0') {
ha_alert("parsing [%s:%d] : '%s' : expects an integer argument, found '%s'\n",
file, linenum, args[0], args[1]);
err_code |= ERR_FATAL;
goto out;
}
if (!curpeers->nb_shards) {
ha_alert("parsing [%s:%d] : '%s' : expects a strictly positive integer argument\n",
file, linenum, args[0]);
err_code |= ERR_FATAL;
goto out;
}
nb_shards = curpeers->nb_shards;
}
else if (strcmp(args[0], "table") == 0) {
struct stktable *t, *other;
char *id;
size_t prefix_len;
/* Line number and peer ID are updated only if this peer is the local one. */
if (init_peers_frontend(file, -1, NULL, curpeers) != 0) {
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
/* Build the stick-table name, concatenating the "peers" section name
* followed by a '/' character and the table name argument.
*/
chunk_reset(&trash);
if (!chunk_strcpy(&trash, curpeers->id)) {
ha_alert("parsing [%s:%d]: '%s %s' : stick-table name too long.\n",
file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
prefix_len = trash.data;
if (!chunk_memcat(&trash, "/", 1) || !chunk_strcat(&trash, args[1])) {
ha_alert("parsing [%s:%d]: '%s %s' : stick-table name too long.\n",
file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
t = calloc(1, sizeof *t);
id = strdup(trash.area);
if (!t || !id) {
ha_alert("parsing [%s:%d]: '%s %s' : memory allocation failed\n",
file, linenum, args[0], args[1]);
free(t);
free(id);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
other = stktable_find_by_name(trash.area);
if (other) {
ha_alert("parsing [%s:%d] : stick-table name '%s' conflicts with table declared in %s '%s' at %s:%d.\n",
file, linenum, args[1],
other->proxy ? proxy_cap_str(other->proxy->cap) : "peers",
other->proxy ? other->id : other->peers.p->id,
other->conf.file, other->conf.line);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
err_code |= parse_stick_table(file, linenum, args, t, id, id + prefix_len, curpeers);
if (err_code & ERR_FATAL) {
free(t);
free(id);
goto out;
}
stktable_store_name(t);
t->next = stktables_list;
stktables_list = t;
}
else if (strcmp(args[0], "disabled") == 0) { /* disables this peers section */
curpeers->disabled |= PR_FL_DISABLED;
}
else if (strcmp(args[0], "enabled") == 0) { /* enables this peers section (used to revert a disabled default) */
curpeers->disabled = 0;
}
else if (*args[0] != 0) {
struct peers_kw_list *pkwl;
int index;
int rc = -1;
list_for_each_entry(pkwl, &peers_keywords.list, list) {
for (index = 0; pkwl->kw[index].kw != NULL; index++) {
if (strcmp(pkwl->kw[index].kw, args[0]) == 0) {
rc = pkwl->kw[index].parse(args, curpeers, file, linenum, &errmsg);
if (rc < 0) {
ha_alert("parsing [%s:%d] : %s\n", file, linenum, errmsg);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
else if (rc > 0) {
ha_warning("parsing [%s:%d] : %s\n", file, linenum, errmsg);
err_code |= ERR_WARN;
goto out;
}
goto out;
}
}
}
ha_alert("parsing [%s:%d] : unknown keyword '%s' in '%s' section\n", file, linenum, args[0], cursection);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
out:
free(errmsg);
return err_code;
}
/*
* Parse a line in a <listen>, <frontend> or <backend> section.
* Returns the error code, 0 if OK, or any combination of :
* - ERR_ABORT: must abort ASAP
* - ERR_FATAL: we can continue parsing but not start the service
* - ERR_WARN: a warning has been emitted
* - ERR_ALERT: an alert has been emitted
* Only the two first ones can stop processing, the two others are just
* indicators.
*/
int cfg_parse_mailers(const char *file, int linenum, char **args, int kwm)
{
static struct mailers *curmailers = NULL;
struct mailer *newmailer = NULL;
const char *err;
int err_code = 0;
char *errmsg = NULL;
if (strcmp(args[0], "mailers") == 0) { /* new mailers section */
if (!*args[1]) {
ha_alert("parsing [%s:%d] : missing name for mailers section.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
err = invalid_char(args[1]);
if (err) {
ha_alert("parsing [%s:%d] : character '%c' is not permitted in '%s' name '%s'.\n",
file, linenum, *err, args[0], args[1]);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
for (curmailers = mailers; curmailers != NULL; curmailers = curmailers->next) {
/*
* If there are two proxies with the same name only following
* combinations are allowed:
*/
if (strcmp(curmailers->id, args[1]) == 0) {
ha_alert("Parsing [%s:%d]: mailers section '%s' has the same name as another mailers section declared at %s:%d.\n",
file, linenum, args[1], curmailers->conf.file, curmailers->conf.line);
err_code |= ERR_ALERT | ERR_FATAL;
}
}
if ((curmailers = calloc(1, sizeof(*curmailers))) == NULL) {
ha_alert("parsing [%s:%d] : out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
curmailers->next = mailers;
mailers = curmailers;
curmailers->conf.file = strdup(file);
curmailers->conf.line = linenum;
curmailers->id = strdup(args[1]);
curmailers->timeout.mail = DEF_MAILALERTTIME;/* XXX: Would like to Skip to the next alert, if any, ASAP.
* But need enough time so that timeouts don't occur
* during tcp procssing. For now just us an arbitrary default. */
}
else if (strcmp(args[0], "mailer") == 0) { /* mailer definition */
struct sockaddr_storage *sk;
int port1, port2;
struct protocol *proto;
if (!*args[2]) {
ha_alert("parsing [%s:%d] : '%s' expects <name> and <addr>[:<port>] as arguments.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
err = invalid_char(args[1]);
if (err) {
ha_alert("parsing [%s:%d] : character '%c' is not permitted in server name '%s'.\n",
file, linenum, *err, args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if ((newmailer = calloc(1, sizeof(*newmailer))) == NULL) {
ha_alert("parsing [%s:%d] : out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
/* the mailers are linked backwards first */
curmailers->count++;
newmailer->next = curmailers->mailer_list;
curmailers->mailer_list = newmailer;
newmailer->mailers = curmailers;
newmailer->conf.file = strdup(file);
newmailer->conf.line = linenum;
newmailer->id = strdup(args[1]);
sk = str2sa_range(args[2], NULL, &port1, &port2, NULL, &proto, NULL,
&errmsg, NULL, NULL, NULL,
PA_O_RESOLVE | PA_O_PORT_OK | PA_O_PORT_MAND | PA_O_STREAM | PA_O_XPRT | PA_O_CONNECT);
if (!sk) {
ha_alert("parsing [%s:%d] : '%s %s' : %s\n", file, linenum, args[0], args[1], errmsg);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (proto->sock_prot != IPPROTO_TCP) {
ha_alert("parsing [%s:%d] : '%s %s' : TCP not supported for this address family.\n",
file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
newmailer->addr = *sk;
newmailer->proto = proto;
newmailer->xprt = xprt_get(XPRT_RAW);
newmailer->sock_init_arg = NULL;
}
else if (strcmp(args[0], "timeout") == 0) {
if (!*args[1]) {
ha_alert("parsing [%s:%d] : '%s' expects 'mail' and <time> as arguments.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
else if (strcmp(args[1], "mail") == 0) {
const char *res;
unsigned int timeout_mail;
if (!*args[2]) {
ha_alert("parsing [%s:%d] : '%s %s' expects <time> as argument.\n",
file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
res = parse_time_err(args[2], &timeout_mail, TIME_UNIT_MS);
if (res == PARSE_TIME_OVER) {
ha_alert("parsing [%s:%d]: timer overflow in argument <%s> to <%s %s>, maximum value is 2147483647 ms (~24.8 days).\n",
file, linenum, args[2], args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
else if (res == PARSE_TIME_UNDER) {
ha_alert("parsing [%s:%d]: timer underflow in argument <%s> to <%s %s>, minimum non-null value is 1 ms.\n",
file, linenum, args[2], args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
else if (res) {
ha_alert("parsing [%s:%d]: unexpected character '%c' in argument to <%s %s>.\n",
file, linenum, *res, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
curmailers->timeout.mail = timeout_mail;
} else {
ha_alert("parsing [%s:%d] : '%s' expects 'mail' and <time> as arguments got '%s'.\n",
file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
}
else if (*args[0] != 0) {
ha_alert("parsing [%s:%d] : unknown keyword '%s' in '%s' section\n", file, linenum, args[0], cursection);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
out:
free(errmsg);
return err_code;
}
int
cfg_parse_netns(const char *file, int linenum, char **args, int kwm)
{
#ifdef USE_NS
const char *err;
const char *item = args[0];
if (strcmp(item, "namespace_list") == 0) {
return 0;
}
else if (strcmp(item, "namespace") == 0) {
size_t idx = 1;
const char *current;
while (*(current = args[idx++])) {
err = invalid_char(current);
if (err) {
ha_alert("parsing [%s:%d]: character '%c' is not permitted in '%s' name '%s'.\n",
file, linenum, *err, item, current);
return ERR_ALERT | ERR_FATAL;
}
if (netns_store_lookup(current, strlen(current))) {
ha_alert("parsing [%s:%d]: Namespace '%s' is already added.\n",
file, linenum, current);
return ERR_ALERT | ERR_FATAL;
}
if (!netns_store_insert(current)) {
ha_alert("parsing [%s:%d]: Cannot open namespace '%s'.\n",
file, linenum, current);
return ERR_ALERT | ERR_FATAL;
}
}
}
return 0;
#else
ha_alert("parsing [%s:%d]: namespace support is not compiled in.",
file, linenum);
return ERR_ALERT | ERR_FATAL;
#endif
}
int
cfg_parse_users(const char *file, int linenum, char **args, int kwm)
{
int err_code = 0;
const char *err;
if (strcmp(args[0], "userlist") == 0) { /* new userlist */
struct userlist *newul;
if (!*args[1]) {
ha_alert("parsing [%s:%d]: '%s' expects <name> as arguments.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (alertif_too_many_args(1, file, linenum, args, &err_code))
goto out;
err = invalid_char(args[1]);
if (err) {
ha_alert("parsing [%s:%d]: character '%c' is not permitted in '%s' name '%s'.\n",
file, linenum, *err, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
for (newul = userlist; newul; newul = newul->next)
if (strcmp(newul->name, args[1]) == 0) {
ha_warning("parsing [%s:%d]: ignoring duplicated userlist '%s'.\n",
file, linenum, args[1]);
err_code |= ERR_WARN;
goto out;
}
newul = calloc(1, sizeof(*newul));
if (!newul) {
ha_alert("parsing [%s:%d]: out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
newul->name = strdup(args[1]);
if (!newul->name) {
ha_alert("parsing [%s:%d]: out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
free(newul);
goto out;
}
newul->next = userlist;
userlist = newul;
} else if (strcmp(args[0], "group") == 0) { /* new group */
int cur_arg;
const char *err;
struct auth_groups *ag;
if (!*args[1]) {
ha_alert("parsing [%s:%d]: '%s' expects <name> as arguments.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
err = invalid_char(args[1]);
if (err) {
ha_alert("parsing [%s:%d]: character '%c' is not permitted in '%s' name '%s'.\n",
file, linenum, *err, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (!userlist)
goto out;
for (ag = userlist->groups; ag; ag = ag->next)
if (strcmp(ag->name, args[1]) == 0) {
ha_warning("parsing [%s:%d]: ignoring duplicated group '%s' in userlist '%s'.\n",
file, linenum, args[1], userlist->name);
err_code |= ERR_ALERT;
goto out;
}
ag = calloc(1, sizeof(*ag));
if (!ag) {
ha_alert("parsing [%s:%d]: out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
ag->name = strdup(args[1]);
if (!ag->name) {
ha_alert("parsing [%s:%d]: out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
free(ag);
goto out;
}
cur_arg = 2;
while (*args[cur_arg]) {
if (strcmp(args[cur_arg], "users") == 0) {
if (ag->groupusers) {
ha_alert("parsing [%s:%d]: 'users' option already defined in '%s' name '%s'.\n",
file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
free(ag->groupusers);
free(ag->name);
free(ag);
goto out;
}
ag->groupusers = strdup(args[cur_arg + 1]);
cur_arg += 2;
continue;
} else {
ha_alert("parsing [%s:%d]: '%s' only supports 'users' option.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
free(ag->groupusers);
free(ag->name);
free(ag);
goto out;
}
}
ag->next = userlist->groups;
userlist->groups = ag;
} else if (strcmp(args[0], "user") == 0) { /* new user */
struct auth_users *newuser;
int cur_arg;
if (!*args[1]) {
ha_alert("parsing [%s:%d]: '%s' expects <name> as arguments.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (!userlist)
goto out;
for (newuser = userlist->users; newuser; newuser = newuser->next)
if (strcmp(newuser->user, args[1]) == 0) {
ha_warning("parsing [%s:%d]: ignoring duplicated user '%s' in userlist '%s'.\n",
file, linenum, args[1], userlist->name);
err_code |= ERR_ALERT;
goto out;
}
newuser = calloc(1, sizeof(*newuser));
if (!newuser) {
ha_alert("parsing [%s:%d]: out of memory.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
newuser->user = strdup(args[1]);
newuser->next = userlist->users;
userlist->users = newuser;
cur_arg = 2;
while (*args[cur_arg]) {
if (strcmp(args[cur_arg], "password") == 0) {
#ifdef USE_LIBCRYPT
if (!crypt("", args[cur_arg + 1])) {
ha_alert("parsing [%s:%d]: the encrypted password used for user '%s' is not supported by crypt(3).\n",
file, linenum, newuser->user);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
#else
ha_warning("parsing [%s:%d]: no crypt(3) support compiled, encrypted passwords will not work.\n",
file, linenum);
err_code |= ERR_ALERT;
#endif
newuser->pass = strdup(args[cur_arg + 1]);
cur_arg += 2;
continue;
} else if (strcmp(args[cur_arg], "insecure-password") == 0) {
newuser->pass = strdup(args[cur_arg + 1]);
newuser->flags |= AU_O_INSECURE;
cur_arg += 2;
continue;
} else if (strcmp(args[cur_arg], "groups") == 0) {
newuser->u.groups_names = strdup(args[cur_arg + 1]);
cur_arg += 2;
continue;
} else {
ha_alert("parsing [%s:%d]: '%s' only supports 'password', 'insecure-password' and 'groups' options.\n",
file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
}
} else {
ha_alert("parsing [%s:%d]: unknown keyword '%s' in '%s' section\n", file, linenum, args[0], "users");
err_code |= ERR_ALERT | ERR_FATAL;
}
out:
return err_code;
}
int
cfg_parse_scope(const char *file, int linenum, char *line)
{
char *beg, *end, *scope = NULL;
int err_code = 0;
const char *err;
beg = line + 1;
end = strchr(beg, ']');
/* Detect end of scope declaration */
if (!end || end == beg) {
ha_alert("parsing [%s:%d] : empty scope name is forbidden.\n",
file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
/* Get scope name and check its validity */
scope = my_strndup(beg, end-beg);
err = invalid_char(scope);
if (err) {
ha_alert("parsing [%s:%d] : character '%c' is not permitted in a scope name.\n",
file, linenum, *err);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
/* Be sure to have a scope declaration alone on its line */
line = end+1;
while (isspace((unsigned char)*line))
line++;
if (*line && *line != '#' && *line != '\n' && *line != '\r') {
ha_alert("parsing [%s:%d] : character '%c' is not permitted after scope declaration.\n",
file, linenum, *line);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
/* We have a valid scope declaration, save it */
free(cfg_scope);
cfg_scope = scope;
scope = NULL;
out:
free(scope);
return err_code;
}
int
cfg_parse_track_sc_num(unsigned int *track_sc_num,
const char *arg, const char *end, char **errmsg)
{
const char *p;
unsigned int num;
p = arg;
num = read_uint64(&arg, end);
if (arg != end) {
memprintf(errmsg, "Wrong track-sc number '%s'", p);
return -1;
}
if (num >= global.tune.nb_stk_ctr) {
if (!global.tune.nb_stk_ctr)
memprintf(errmsg, "%u track-sc number not usable, stick-counters "
"are disabled by tune.stick-counters", num);
else
memprintf(errmsg, "%u track-sc number exceeding "
"%d (tune.stick-counters-1) value", num, global.tune.nb_stk_ctr - 1);
return -1;
}
*track_sc_num = num;
return 0;
}
/*
* Detect a global section after a non-global one and output a diagnostic
* warning.
*/
static void check_section_position(char *section_name, const char *file, int linenum)
{
if (strcmp(section_name, "global") == 0) {
if ((global.mode & MODE_DIAG) && non_global_section_parsed == 1)
_ha_diag_warning("parsing [%s:%d] : global section detected after a non-global one, the prevalence of their statements is unspecified\n", file, linenum);
}
else if (non_global_section_parsed == 0) {
non_global_section_parsed = 1;
}
}
/* apply the current default_path setting for config file <file>, and
* optionally replace the current path to <origin> if not NULL while the
* default-path mode is set to "origin". Errors are returned into an
* allocated string passed to <err> if it's not NULL. Returns 0 on failure
* or non-zero on success.
*/
static int cfg_apply_default_path(const char *file, const char *origin, char **err)
{
const char *beg, *end;
/* make path start at <beg> and end before <end>, and switch it to ""
* if no slash was passed.
*/
beg = file;
end = strrchr(beg, '/');
if (!end)
end = beg;
if (!*initial_cwd) {
if (getcwd(initial_cwd, sizeof(initial_cwd)) == NULL) {
if (err)
memprintf(err, "Impossible to retrieve startup directory name: %s", strerror(errno));
return 0;
}
}
else if (chdir(initial_cwd) == -1) {
if (err)
memprintf(err, "Impossible to get back to initial directory '%s': %s", initial_cwd, strerror(errno));
return 0;
}
/* OK now we're (back) to initial_cwd */
switch (default_path_mode) {
case DEFAULT_PATH_CURRENT:
/* current_cwd never set, nothing to do */
return 1;
case DEFAULT_PATH_ORIGIN:
/* current_cwd set in the config */
if (origin &&
snprintf(current_cwd, sizeof(current_cwd), "%s", origin) > sizeof(current_cwd)) {
if (err)
memprintf(err, "Absolute path too long: '%s'", origin);
return 0;
}
break;
case DEFAULT_PATH_CONFIG:
if (end - beg >= sizeof(current_cwd)) {
if (err)
memprintf(err, "Config file path too long, cannot use for relative paths: '%s'", file);
return 0;
}
memcpy(current_cwd, beg, end - beg);
current_cwd[end - beg] = 0;
break;
case DEFAULT_PATH_PARENT:
if (end - beg + 3 >= sizeof(current_cwd)) {
if (err)
memprintf(err, "Config file path too long, cannot use for relative paths: '%s'", file);
return 0;
}
memcpy(current_cwd, beg, end - beg);
if (end > beg)
memcpy(current_cwd + (end - beg), "/..\0", 4);
else
memcpy(current_cwd + (end - beg), "..\0", 3);
break;
}
if (*current_cwd && chdir(current_cwd) == -1) {
if (err)
memprintf(err, "Impossible to get back to directory '%s': %s", initial_cwd, strerror(errno));
return 0;
}
return 1;
}
/* parses a global "default-path" directive. */
static int cfg_parse_global_def_path(char **args, int section_type, struct proxy *curpx,
const struct proxy *defpx, const char *file, int line,
char **err)
{
int ret = -1;
/* "current", "config", "parent", "origin <path>" */
if (strcmp(args[1], "current") == 0)
default_path_mode = DEFAULT_PATH_CURRENT;
else if (strcmp(args[1], "config") == 0)
default_path_mode = DEFAULT_PATH_CONFIG;
else if (strcmp(args[1], "parent") == 0)
default_path_mode = DEFAULT_PATH_PARENT;
else if (strcmp(args[1], "origin") == 0)
default_path_mode = DEFAULT_PATH_ORIGIN;
else {
memprintf(err, "%s default-path mode '%s' for '%s', supported modes include 'current', 'config', 'parent', and 'origin'.", *args[1] ? "unsupported" : "missing", args[1], args[0]);
goto end;
}
if (default_path_mode == DEFAULT_PATH_ORIGIN) {
if (!*args[2]) {
memprintf(err, "'%s %s' expects a directory as an argument.", args[0], args[1]);
goto end;
}
if (!cfg_apply_default_path(file, args[2], err)) {
memprintf(err, "couldn't set '%s' to origin '%s': %s.", args[0], args[2], *err);
goto end;
}
}
else if (!cfg_apply_default_path(file, NULL, err)) {
memprintf(err, "couldn't set '%s' to '%s': %s.", args[0], args[1], *err);
goto end;
}
/* note that once applied, the path is immediately updated */
ret = 0;
end:
return ret;
}
/* append a copy of string <filename>, ptr to some allocated memory at the at
* the end of the list <li>.
* On failure : return 0 and <err> filled with an error message.
* The caller is responsible for freeing the <err> and <filename> copy
* memory area using free().
*/
int list_append_cfgfile(struct list *li, const char *filename, char **err)
{
struct cfgfile *entry = NULL;
entry = calloc(1, sizeof(*entry));
if (!entry) {
memprintf(err, "out of memory");
goto fail_entry;
}
entry->filename = strdup(filename);
if (!entry->filename) {
memprintf(err, "out of memory");
goto fail_entry_name;
}
LIST_APPEND(li, &entry->list);
return 1;
fail_entry_name:
free(entry->filename);
fail_entry:
free(entry);
return 0;
}
/* loads the content of the given file in memory. On success, returns the number
* of bytes successfully stored at *cfg_content until EOF. On error, emits
* alerts, performs needed clean-up routines and returns -1.
*/
ssize_t load_cfg_in_mem(char *filename, char **cfg_content)
{
size_t bytes_to_read = LINESIZE;
size_t chunk_size = 0;
size_t read_bytes = 0;
struct stat file_stat;
char *new_area;
size_t ret = 0;
FILE *f;
/* let's try to obtain the size, if regular file */
if (stat(filename, &file_stat) != 0) {
ha_alert("stat() failed for configuration file %s : %s\n",
filename, strerror(errno));
return -1;
}
if (file_stat.st_size > chunk_size)
bytes_to_read = file_stat.st_size;
if ((f = fopen(filename,"r")) == NULL) {
ha_alert("Could not open configuration file %s : %s\n",
filename, strerror(errno));
return -1;
}
*cfg_content = NULL;
while (1) {
if (!file_stat.st_size && ((read_bytes + bytes_to_read) > MAX_CFG_SIZE)) {
ha_alert("Loading %s: input is too large %ldMB, limited to %dMB. Exiting.\n",
filename, (long)(read_bytes + bytes_to_read)/(1024*1024),
MAX_CFG_SIZE/(1024*1024));
goto free_mem;
}
if (read_bytes + bytes_to_read > chunk_size) {
chunk_size = (read_bytes + bytes_to_read) * 2;
new_area = realloc(*cfg_content, chunk_size);
if (new_area == NULL) {
ha_alert("Loading %s: file too long, cannot allocate memory.\n",
filename);
goto free_mem;
}
*cfg_content = new_area;
}
bytes_to_read = chunk_size - read_bytes;
ret = fread(*cfg_content + read_bytes, sizeof(char), bytes_to_read, f);
read_bytes += ret;
if (!ret || feof(f) || ferror(f))
break;
}
fclose(f);
return read_bytes;
free_mem:
ha_free(cfg_content);
fclose(f);
return -1;
}
/*
* This function parses the configuration file given in the argument.
* Returns the error code, 0 if OK, -1 if we are run out of memory,
* or any combination of :
* - ERR_ABORT: must abort ASAP
* - ERR_FATAL: we can continue parsing but not start the service
* - ERR_WARN: a warning has been emitted
* - ERR_ALERT: an alert has been emitted
* Only the two first ones can stop processing, the two others are just
* indicators.
*/
int parse_cfg(const struct cfgfile *cfg)
{
char *thisline = NULL;
int linesize = LINESIZE;
int linenum = 0;
int err_code = 0;
struct cfg_section *cs = NULL, *pcs = NULL;
struct cfg_section *ics;
int readbytes = 0;
char *outline = NULL;
size_t outlen = 0;
size_t outlinesize = 0;
int fatal = 0;
int missing_lf = -1;
int nested_cond_lvl = 0;
enum nested_cond_state nested_conds[MAXNESTEDCONDS];
char *errmsg = NULL;
const char *cur_position = cfg->content;
char *file = cfg->filename;
global.cfg_curr_line = 0;
global.cfg_curr_file = file;
if ((thisline = malloc(sizeof(*thisline) * linesize)) == NULL) {
ha_alert("Out of memory trying to allocate a buffer for a configuration line.\n");
err_code = -1;
goto err;
}
/* change to the new dir if required */
if (!cfg_apply_default_path(file, NULL, &errmsg)) {
ha_alert("parsing [%s:%d]: failed to apply default-path: %s.\n", file, linenum, errmsg);
free(errmsg);
err_code = -1;
goto err;
}
next_line:
while (fgets_from_mem(thisline + readbytes, linesize - readbytes,
&cur_position, cfg->content + cfg->size)) {
int arg, kwm = KWM_STD;
char *end;
char *args[MAX_LINE_ARGS + 1];
char *line = thisline;
if (missing_lf != -1) {
ha_alert("parsing [%s:%d]: Stray NUL character at position %d.\n",
file, linenum, (missing_lf + 1));
err_code |= ERR_ALERT | ERR_FATAL;
missing_lf = -1;
break;
}
linenum++;
global.cfg_curr_line = linenum;
if (fatal >= 50) {
ha_alert("parsing [%s:%d]: too many fatal errors (%d), stopping now.\n", file, linenum, fatal);
break;
}
end = line + strlen(line);
if (end-line == linesize-1 && *(end-1) != '\n') {
/* Check if we reached the limit and the last char is not \n.
* Watch out for the last line without the terminating '\n'!
*/
char *newline;
int newlinesize = linesize * 2;
newline = realloc(thisline, sizeof(*thisline) * newlinesize);
if (newline == NULL) {
ha_alert("parsing [%s:%d]: line too long, cannot allocate memory.\n",
file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
linenum--;
continue;
}
readbytes = linesize - 1;
linesize = newlinesize;
thisline = newline;
linenum--;
continue;
}
readbytes = 0;
if (end > line && *(end-1) == '\n') {
/* kill trailing LF */
*(end - 1) = 0;
}
else {
/* mark this line as truncated */
missing_lf = end - line;
}
/* skip leading spaces */
while (isspace((unsigned char)*line))
line++;
if (*line == '[') {/* This is the beginning if a scope */
err_code |= cfg_parse_scope(file, linenum, line);
goto next_line;
}
while (1) {
uint32_t err;
const char *errptr;
arg = sizeof(args) / sizeof(*args);
outlen = outlinesize;
err = parse_line(line, outline, &outlen, args, &arg,
PARSE_OPT_ENV | PARSE_OPT_DQUOTE | PARSE_OPT_SQUOTE |
PARSE_OPT_BKSLASH | PARSE_OPT_SHARP | PARSE_OPT_WORD_EXPAND,
&errptr);
if (err & PARSE_ERR_QUOTE) {
size_t newpos = sanitize_for_printing(line, errptr - line, 80);
ha_alert("parsing [%s:%d]: unmatched quote at position %d:\n"
" %s\n %*s\n", file, linenum, (int)(errptr-thisline+1), line, (int)(newpos+1), "^");
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
goto next_line;
}
if (err & PARSE_ERR_BRACE) {
size_t newpos = sanitize_for_printing(line, errptr - line, 80);
ha_alert("parsing [%s:%d]: unmatched brace in environment variable name at position %d:\n"
" %s\n %*s\n", file, linenum, (int)(errptr-thisline+1), line, (int)(newpos+1), "^");
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
goto next_line;
}
if (err & PARSE_ERR_VARNAME) {
size_t newpos = sanitize_for_printing(line, errptr - line, 80);
ha_alert("parsing [%s:%d]: forbidden first char in environment variable name at position %d:\n"
" %s\n %*s\n", file, linenum, (int)(errptr-thisline+1), line, (int)(newpos+1), "^");
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
goto next_line;
}
if (err & PARSE_ERR_HEX) {
size_t newpos = sanitize_for_printing(line, errptr - line, 80);
ha_alert("parsing [%s:%d]: truncated or invalid hexadecimal sequence at position %d:\n"
" %s\n %*s\n", file, linenum, (int)(errptr-thisline+1), line, (int)(newpos+1), "^");
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
goto next_line;
}
if (err & PARSE_ERR_WRONG_EXPAND) {
size_t newpos = sanitize_for_printing(line, errptr - line, 80);
ha_alert("parsing [%s:%d]: truncated or invalid word expansion sequence at position %d:\n"
" %s\n %*s\n", file, linenum, (int)(errptr-thisline+1), line, (int)(newpos+1), "^");
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
goto next_line;
}
if (err & (PARSE_ERR_TOOLARGE|PARSE_ERR_OVERLAP)) {
outlinesize = (outlen + 1023) & -1024;
outline = my_realloc2(outline, outlinesize);
if (outline == NULL) {
ha_alert("parsing [%s:%d]: line too long, cannot allocate memory.\n",
file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
fatal++;
outlinesize = 0;
goto err;
}
/* try again */
continue;
}
if (err & PARSE_ERR_TOOMANY) {
/* only check this *after* being sure the output is allocated */
ha_alert("parsing [%s:%d]: too many words, truncating after word %d, position %ld: <%s>.\n",
file, linenum, MAX_LINE_ARGS, (long)(args[MAX_LINE_ARGS-1] - outline + 1), args[MAX_LINE_ARGS-1]);
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
goto next_line;
}
/* everything's OK */
break;
}
/* dump cfg */
if (global.mode & MODE_DUMP_CFG) {
if (args[0] != NULL) {
struct cfg_section *sect;
int is_sect = 0;
int i = 0;
uint32_t g_key = HA_ATOMIC_LOAD(&global.anon_key);
if (global.mode & MODE_DUMP_NB_L)
qfprintf(stdout, "%d\t", linenum);
/* if a word is in sections list, is_sect = 1 */
list_for_each_entry(sect, &sections, list) {
/* look for a section_name, but also a section_parser, because there might be
* only a post_section_parser */
if (strcmp(args[0], sect->section_name) == 0 &&
sect->section_parser) {
is_sect = 1;
break;
}
}
if (g_key == 0) {
/* no anonymizing needed, dump the config as-is (but without comments).
* Note: tabs were lost during tokenizing, so we reinsert for non-section
* keywords.
*/
if (!is_sect)
qfprintf(stdout, "\t");
for (i = 0; i < arg; i++) {
qfprintf(stdout, "%s ", args[i]);
}
qfprintf(stdout, "\n");
continue;
}
/* We're anonymizing */
if (is_sect) {
/* new sections are optionally followed by an identifier */
if (arg >= 2) {
qfprintf(stdout, "%s %s\n", args[0], HA_ANON_ID(g_key, args[1]));
}
else {
qfprintf(stdout, "%s\n", args[0]);
}
continue;
}
/* non-section keywords start indented */
qfprintf(stdout, "\t");
/* some keywords deserve special treatment */
if (!*args[0]) {
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "anonkey") == 0) {
qfprintf(stdout, "%s [...]\n", args[0]);
}
else if (strcmp(args[0], "maxconn") == 0) {
qfprintf(stdout, "%s %s\n", args[0], args[1]);
}
else if (strcmp(args[0], "stats") == 0 &&
(strcmp(args[1], "timeout") == 0 || strcmp(args[1], "maxconn") == 0)) {
qfprintf(stdout, "%s %s %s\n", args[0], args[1], args[2]);
}
else if (strcmp(args[0], "stats") == 0 && strcmp(args[1], "socket") == 0) {
qfprintf(stdout, "%s %s ", args[0], args[1]);
if (arg > 2) {
qfprintf(stdout, "%s ", hash_ipanon(g_key, args[2], 1));
if (arg > 3) {
qfprintf(stdout, "[...]\n");
}
else {
qfprintf(stdout, "\n");
}
}
else {
qfprintf(stdout, "\n");
}
}
else if (strcmp(args[0], "timeout") == 0) {
qfprintf(stdout, "%s %s %s\n", args[0], args[1], args[2]);
}
else if (strcmp(args[0], "mode") == 0) {
qfprintf(stdout, "%s %s\n", args[0], args[1]);
}
/* It concerns user in global section and in userlist */
else if (strcmp(args[0], "user") == 0) {
qfprintf(stdout, "%s %s ", args[0], HA_ANON_ID(g_key, args[1]));
if (arg > 2) {
qfprintf(stdout, "[...]\n");
}
else {
qfprintf(stdout, "\n");
}
}
else if (strcmp(args[0], "bind") == 0) {
qfprintf(stdout, "%s ", args[0]);
qfprintf(stdout, "%s ", hash_ipanon(g_key, args[1], 1));
if (arg > 2) {
qfprintf(stdout, "[...]\n");
}
else {
qfprintf(stdout, "\n");
}
}
else if (strcmp(args[0], "server") == 0) {
qfprintf(stdout, "%s %s ", args[0], HA_ANON_ID(g_key, args[1]));
if (arg > 2) {
qfprintf(stdout, "%s ", hash_ipanon(g_key, args[2], 1));
}
if (arg > 3) {
qfprintf(stdout, "[...]\n");
}
else {
qfprintf(stdout, "\n");
}
}
else if (strcmp(args[0], "redirect") == 0) {
qfprintf(stdout, "%s %s ", args[0], args[1]);
if (strcmp(args[1], "prefix") == 0 || strcmp(args[1], "location") == 0) {
qfprintf(stdout, "%s ", HA_ANON_PATH(g_key, args[2]));
}
else {
qfprintf(stdout, "%s ", args[2]);
}
if (arg > 3) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "acl") == 0) {
qfprintf(stdout, "%s %s %s ", args[0], HA_ANON_ID(g_key, args[1]), args[2]);
if (arg > 3) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "log") == 0) {
qfprintf(stdout, "log ");
if (strcmp(args[1], "global") == 0) {
qfprintf(stdout, "%s ", args[1]);
}
else {
qfprintf(stdout, "%s ", hash_ipanon(g_key, args[1], 1));
}
if (arg > 2) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "peer") == 0) {
qfprintf(stdout, "%s %s ", args[0], HA_ANON_ID(g_key, args[1]));
qfprintf(stdout, "%s ", hash_ipanon(g_key, args[2], 1));
if (arg > 3) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "use_backend") == 0) {
qfprintf(stdout, "%s %s ", args[0], HA_ANON_ID(g_key, args[1]));
if (arg > 2) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "default_backend") == 0) {
qfprintf(stdout, "%s %s\n", args[0], HA_ANON_ID(g_key, args[1]));
}
else if (strcmp(args[0], "source") == 0) {
qfprintf(stdout, "%s %s ", args[0], hash_ipanon(g_key, args[1], 1));
if (arg > 2) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "nameserver") == 0) {
qfprintf(stdout, "%s %s %s ", args[0],
HA_ANON_ID(g_key, args[1]), hash_ipanon(g_key, args[2], 1));
if (arg > 3) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "http-request") == 0) {
qfprintf(stdout, "%s %s ", args[0], args[1]);
if (arg > 2)
qfprintf(stdout, "[...]");
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "http-response") == 0) {
qfprintf(stdout, "%s %s ", args[0], args[1]);
if (arg > 2)
qfprintf(stdout, "[...]");
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "http-after-response") == 0) {
qfprintf(stdout, "%s %s ", args[0], args[1]);
if (arg > 2)
qfprintf(stdout, "[...]");
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "filter") == 0) {
qfprintf(stdout, "%s %s ", args[0], args[1]);
if (arg > 2)
qfprintf(stdout, "[...]");
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "errorfile") == 0) {
qfprintf(stdout, "%s %s %s\n", args[0], args[1], HA_ANON_PATH(g_key, args[2]));
}
else if (strcmp(args[0], "cookie") == 0) {
qfprintf(stdout, "%s %s ", args[0], HA_ANON_ID(g_key, args[1]));
if (arg > 2)
qfprintf(stdout, "%s ", args[2]);
if (arg > 3)
qfprintf(stdout, "[...]");
qfprintf(stdout, "\n");
}
else if (strcmp(args[0], "stats") == 0 && strcmp(args[1], "auth") == 0) {
qfprintf(stdout, "%s %s %s\n", args[0], args[1], HA_ANON_STR(g_key, args[2]));
}
else {
/* display up to 3 words and mask the rest which might be confidential */
for (i = 0; i < MIN(arg, 3); i++) {
qfprintf(stdout, "%s ", args[i]);
}
if (arg > 3) {
qfprintf(stdout, "[...]");
}
qfprintf(stdout, "\n");
}
}
continue;
}
/* end of config dump */
/* empty line */
if (!*args || !**args)
continue;
/* check for config macros */
if (*args[0] == '.') {
if (strcmp(args[0], ".if") == 0) {
const char *errptr = NULL;
char *errmsg = NULL;
int cond;
char *w;
/* remerge all words into a single expression */
for (w = *args; (w += strlen(w)) < outline + outlen - 1; *w = ' ')
;
nested_cond_lvl++;
if (nested_cond_lvl >= MAXNESTEDCONDS) {
ha_alert("parsing [%s:%d]: too many nested '.if', max is %d.\n", file, linenum, MAXNESTEDCONDS);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (nested_cond_lvl > 1 &&
(nested_conds[nested_cond_lvl - 1] == NESTED_COND_IF_DROP ||
nested_conds[nested_cond_lvl - 1] == NESTED_COND_IF_SKIP ||
nested_conds[nested_cond_lvl - 1] == NESTED_COND_ELIF_DROP ||
nested_conds[nested_cond_lvl - 1] == NESTED_COND_ELIF_SKIP ||
nested_conds[nested_cond_lvl - 1] == NESTED_COND_ELSE_DROP)) {
nested_conds[nested_cond_lvl] = NESTED_COND_IF_SKIP;
goto next_line;
}
cond = cfg_eval_condition(args + 1, &errmsg, &errptr);
if (cond < 0) {
size_t newpos = sanitize_for_printing(args[1], errptr - args[1], 76);
ha_alert("parsing [%s:%d]: %s in '.if' at position %d:\n .if %s\n %*s\n",
file, linenum, errmsg,
(int)(errptr-args[1]+1), args[1], (int)(newpos+5), "^");
free(errmsg);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (cond)
nested_conds[nested_cond_lvl] = NESTED_COND_IF_TAKE;
else
nested_conds[nested_cond_lvl] = NESTED_COND_IF_DROP;
goto next_line;
}
else if (strcmp(args[0], ".elif") == 0) {
const char *errptr = NULL;
char *errmsg = NULL;
int cond;
char *w;
/* remerge all words into a single expression */
for (w = *args; (w += strlen(w)) < outline + outlen - 1; *w = ' ')
;
if (!nested_cond_lvl) {
ha_alert("parsing [%s:%d]: lone '.elif' with no matching '.if'.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (nested_conds[nested_cond_lvl] == NESTED_COND_ELSE_TAKE ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELSE_DROP) {
ha_alert("parsing [%s:%d]: '.elif' after '.else' is not permitted.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (nested_conds[nested_cond_lvl] == NESTED_COND_IF_TAKE ||
nested_conds[nested_cond_lvl] == NESTED_COND_IF_SKIP ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELIF_TAKE ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELIF_SKIP) {
nested_conds[nested_cond_lvl] = NESTED_COND_ELIF_SKIP;
goto next_line;
}
cond = cfg_eval_condition(args + 1, &errmsg, &errptr);
if (cond < 0) {
size_t newpos = sanitize_for_printing(args[1], errptr - args[1], 74);
ha_alert("parsing [%s:%d]: %s in '.elif' at position %d:\n .elif %s\n %*s\n",
file, linenum, errmsg,
(int)(errptr-args[1]+1), args[1], (int)(newpos+7), "^");
free(errmsg);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (cond)
nested_conds[nested_cond_lvl] = NESTED_COND_ELIF_TAKE;
else
nested_conds[nested_cond_lvl] = NESTED_COND_ELIF_DROP;
goto next_line;
}
else if (strcmp(args[0], ".else") == 0) {
if (*args[1]) {
ha_alert("parsing [%s:%d]: Unexpected argument '%s' for '%s'.\n",
file, linenum, args[1], args[0]);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
break;
}
if (!nested_cond_lvl) {
ha_alert("parsing [%s:%d]: lone '.else' with no matching '.if'.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (nested_conds[nested_cond_lvl] == NESTED_COND_ELSE_TAKE ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELSE_DROP) {
ha_alert("parsing [%s:%d]: '.else' after '.else' is not permitted.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
if (nested_conds[nested_cond_lvl] == NESTED_COND_IF_TAKE ||
nested_conds[nested_cond_lvl] == NESTED_COND_IF_SKIP ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELIF_TAKE ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELIF_SKIP) {
nested_conds[nested_cond_lvl] = NESTED_COND_ELSE_DROP;
} else {
/* otherwise we take the "else" */
nested_conds[nested_cond_lvl] = NESTED_COND_ELSE_TAKE;
}
goto next_line;
}
else if (strcmp(args[0], ".endif") == 0) {
if (*args[1]) {
ha_alert("parsing [%s:%d]: Unexpected argument '%s' for '%s'.\n",
file, linenum, args[1], args[0]);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
break;
}
if (!nested_cond_lvl) {
ha_alert("parsing [%s:%d]: lone '.endif' with no matching '.if'.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
break;
}
nested_cond_lvl--;
goto next_line;
}
}
if (nested_cond_lvl &&
(nested_conds[nested_cond_lvl] == NESTED_COND_IF_DROP ||
nested_conds[nested_cond_lvl] == NESTED_COND_IF_SKIP ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELIF_DROP ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELIF_SKIP ||
nested_conds[nested_cond_lvl] == NESTED_COND_ELSE_DROP)) {
/* The current block is masked out by the conditions */
goto next_line;
}
/* .warning/.error/.notice/.diag */
if (*args[0] == '.' && !(global.mode & MODE_DISCOVERY)) {
if (strcmp(args[0], ".alert") == 0) {
if (*args[2]) {
ha_alert("parsing [%s:%d]: Unexpected argument '%s' for '%s'. Use quotes if the message should contain spaces.\n",
file, linenum, args[2], args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto next_line;
}
ha_alert("parsing [%s:%d]: '%s'.\n", file, linenum, args[1]);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
goto err;
}
else if (strcmp(args[0], ".warning") == 0) {
if (*args[2]) {
ha_alert("parsing [%s:%d]: Unexpected argument '%s' for '%s'. Use quotes if the message should contain spaces.\n",
file, linenum, args[2], args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto next_line;
}
ha_warning("parsing [%s:%d]: '%s'.\n", file, linenum, args[1]);
err_code |= ERR_WARN;
goto next_line;
}
else if (strcmp(args[0], ".notice") == 0) {
if (*args[2]) {
ha_alert("parsing [%s:%d]: Unexpected argument '%s' for '%s'. Use quotes if the message should contain spaces.\n",
file, linenum, args[2], args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto next_line;
}
ha_notice("parsing [%s:%d]: '%s'.\n", file, linenum, args[1]);
goto next_line;
}
else if (strcmp(args[0], ".diag") == 0) {
if (*args[2]) {
ha_alert("parsing [%s:%d]: Unexpected argument '%s' for '%s'. Use quotes if the message should contain spaces.\n",
file, linenum, args[2], args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto next_line;
}
ha_diag_warning("parsing [%s:%d]: '%s'.\n", file, linenum, args[1]);
goto next_line;
}
else {
ha_alert("parsing [%s:%d]: unknown directive '%s'.\n", file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
break;
}
}
/* check for keyword modifiers "no" and "default" */
if (strcmp(args[0], "no") == 0) {
char *tmp;
kwm = KWM_NO;
tmp = args[0];
for (arg=0; *args[arg+1]; arg++)
args[arg] = args[arg+1]; // shift args after inversion
*tmp = '\0'; // fix the next arg to \0
args[arg] = tmp;
}
else if (strcmp(args[0], "default") == 0) {
kwm = KWM_DEF;
for (arg=0; *args[arg+1]; arg++)
args[arg] = args[arg+1]; // shift args after inversion
}
if (kwm != KWM_STD && strcmp(args[0], "option") != 0 &&
strcmp(args[0], "log") != 0 && strcmp(args[0], "busy-polling") != 0 &&
strcmp(args[0], "set-dumpable") != 0 && strcmp(args[0], "strict-limits") != 0 &&
strcmp(args[0], "insecure-fork-wanted") != 0 &&
strcmp(args[0], "numa-cpu-mapping") != 0) {
ha_alert("parsing [%s:%d]: negation/default currently "
"supported only for options, log, busy-polling, "
"set-dumpable, strict-limits, insecure-fork-wanted "
"and numa-cpu-mapping.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
}
/* detect section start */
list_for_each_entry(ics, &sections, list) {
if (strcmp(args[0], ics->section_name) == 0 && ics->section_parser) {
cursection = ics->section_name;
pcs = cs;
cs = ics;
free(global.cfg_curr_section);
global.cfg_curr_section = strdup(*args[1] ? args[1] : args[0]);
check_section_position(args[0], file, linenum);
break;
}
}
if (pcs) {
struct cfg_section *psect;
int status;
/* look for every post_section_parser for the previous section name */
list_for_each_entry(psect, &sections, list) {
if (strcmp(pcs->section_name, psect->section_name) == 0 &&
psect->post_section_parser) {
/* don't call post_section_parser in MODE_DISCOVERY */
if (global.mode & MODE_DISCOVERY)
goto section_parser;
status = psect->post_section_parser();
err_code |= status;
if (status & ERR_FATAL)
fatal++;
if (err_code & ERR_ABORT)
goto err;
}
}
}
pcs = NULL;
section_parser:
if (!cs) {
/* ignore unknown section names during the first read in MODE_DISCOVERY */
if (global.mode & MODE_DISCOVERY)
continue;
ha_alert("parsing [%s:%d]: unknown keyword '%s' out of section.\n", file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
fatal++;
} else {
int status;
/* read only the "global" and "program" sections in MODE_DISCOVERY */
if (((global.mode & MODE_DISCOVERY) && (strcmp(cs->section_name, "global") != 0)
&& (strcmp(cs->section_name, "program") != 0)))
continue;
status = cs->section_parser(file, linenum, args, kwm);
err_code |= status;
if (status & ERR_FATAL)
fatal++;
if (err_code & ERR_ABORT)
goto err;
}
}
if (missing_lf != -1) {
ha_alert("parsing [%s:%d]: Missing LF on last line, file might have been truncated at position %d.\n",
file, linenum, (missing_lf + 1));
err_code |= ERR_ALERT | ERR_FATAL;
}
ha_free(&global.cfg_curr_section);
/* call post_section_parser of the last section when there is no more lines */
if (cs) {
struct cfg_section *psect;
int status;
/* don't call post_section_parser in MODE_DISCOVERY */
if (!(global.mode & MODE_DISCOVERY)) {
list_for_each_entry(psect, &sections, list) {
if (strcmp(cs->section_name, psect->section_name) == 0 &&
psect->post_section_parser) {
status = psect->post_section_parser();
if (status & ERR_FATAL)
fatal++;
err_code |= status;
if (err_code & ERR_ABORT)
goto err;
}
}
}
}
if (nested_cond_lvl) {
ha_alert("parsing [%s:%d]: non-terminated '.if' block.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL | ERR_ABORT;
}
err:
ha_free(&cfg_scope);
cursection = NULL;
free(thisline);
free(outline);
global.cfg_curr_line = 0;
global.cfg_curr_file = NULL;
return err_code;
}
/*
* Returns the error code, 0 if OK, or any combination of :
* - ERR_ABORT: must abort ASAP
* - ERR_FATAL: we can continue parsing but not start the service
* - ERR_WARN: a warning has been emitted
* - ERR_ALERT: an alert has been emitted
* Only the two first ones can stop processing, the two others are just
* indicators.
*/
int check_config_validity()
{
int cfgerr = 0;
struct proxy *init_proxies_list = NULL;
struct stktable *t;
struct server *newsrv = NULL;
struct mt_list back;
int err_code = 0;
unsigned int next_pxid = 1;
struct bind_conf *bind_conf;
char *err;
struct cfg_postparser *postparser;
struct resolvers *curr_resolvers = NULL;
int i;
bind_conf = NULL;
/*
* Now, check for the integrity of all that we have collected.
*/
if (!global.tune.max_http_hdr)
global.tune.max_http_hdr = MAX_HTTP_HDR;
if (!global.tune.cookie_len)
global.tune.cookie_len = CAPTURE_LEN;
if (!global.tune.requri_len)
global.tune.requri_len = REQURI_LEN;
if (!global.thread_limit)
global.thread_limit = MAX_THREADS;
#if defined(USE_THREAD)
if (thread_cpus_enabled_at_boot > global.thread_limit)
thread_cpus_enabled_at_boot = global.thread_limit;
#endif
if (global.nbthread > global.thread_limit) {
ha_warning("nbthread forced to a higher value (%d) than the configured thread-hard-limit (%d), enforcing the limit. "
"Please fix either value to remove this warning.\n",
global.nbthread, global.thread_limit);
global.nbthread = global.thread_limit;
}
/* in the worst case these were supposed to be set in thread_detect_count() */
BUG_ON(!global.nbthread);
BUG_ON(!global.nbtgroups);
if (thread_map_to_groups() < 0) {
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
pool_head_requri = create_pool("requri", global.tune.requri_len , MEM_F_SHARED);
pool_head_capture = create_pool("capture", global.tune.cookie_len, MEM_F_SHARED);
/* Post initialisation of the users and groups lists. */
err_code = userlist_postinit();
if (err_code != ERR_NONE)
goto out;
/* first, we will invert the proxy list order */
curproxy = NULL;
while (proxies_list) {
struct proxy *next;
next = proxies_list->next;
proxies_list->next = curproxy;
curproxy = proxies_list;
if (!next)
break;
proxies_list = next;
}
/* starting to initialize the main proxies list */
init_proxies_list = proxies_list;
init_proxies_list_stage1:
for (curproxy = init_proxies_list; curproxy; curproxy = curproxy->next) {
struct switching_rule *rule;
struct server_rule *srule;
struct sticking_rule *mrule;
struct logger *tmplogger;
unsigned int next_id;
if (!(curproxy->cap & PR_CAP_INT) && curproxy->uuid < 0) {
/* proxy ID not set, use automatic numbering with first
* spare entry starting with next_pxid. We don't assign
* numbers for internal proxies as they may depend on
* build or config options and we don't want them to
* possibly reuse existing IDs.
*/
next_pxid = get_next_id(&used_proxy_id, next_pxid);
curproxy->conf.id.key = curproxy->uuid = next_pxid;
eb32_insert(&used_proxy_id, &curproxy->conf.id);
}
if (curproxy->mode == PR_MODE_HTTP && global.tune.bufsize >= (256 << 20) && ONLY_ONCE()) {
ha_alert("global.tune.bufsize must be below 256 MB when HTTP is in use (current value = %d).\n",
global.tune.bufsize);
cfgerr++;
}
/* next IDs are shifted even if the proxy is disabled, this
* guarantees that a proxy that is temporarily disabled in the
* configuration doesn't cause a renumbering. Internal proxies
* that are not assigned a static ID must never shift the IDs
* either since they may appear in any order (Lua, logs, etc).
* The GLOBAL proxy that carries the stats socket has its ID
* forced to zero.
*/
if (curproxy->uuid >= 0)
next_pxid++;
if (curproxy->flags & PR_FL_DISABLED) {
/* ensure we don't keep listeners uselessly bound. We
* can't disable their listeners yet (fdtab not
* allocated yet) but let's skip them.
*/
if (curproxy->table) {
ha_free(&curproxy->table->peers.name);
curproxy->table->peers.p = NULL;
}
continue;
}
/* The current proxy is referencing a default proxy. We must
* finalize its config, but only once. If the default proxy is
* ready (PR_FL_READY) it means it was already fully configured.
*/
if (curproxy->defpx) {
if (!(curproxy->defpx->flags & PR_FL_READY)) {
/* check validity for 'tcp-request' layer 4/5/6/7 rules */
cfgerr += check_action_rules(&curproxy->defpx->tcp_req.l4_rules, curproxy->defpx, &err_code);
cfgerr += check_action_rules(&curproxy->defpx->tcp_req.l5_rules, curproxy->defpx, &err_code);
cfgerr += check_action_rules(&curproxy->defpx->tcp_req.inspect_rules, curproxy->defpx, &err_code);
cfgerr += check_action_rules(&curproxy->defpx->tcp_rep.inspect_rules, curproxy->defpx, &err_code);
cfgerr += check_action_rules(&curproxy->defpx->http_req_rules, curproxy->defpx, &err_code);
cfgerr += check_action_rules(&curproxy->defpx->http_res_rules, curproxy->defpx, &err_code);
cfgerr += check_action_rules(&curproxy->defpx->http_after_res_rules, curproxy->defpx, &err_code);
err = NULL;
i = smp_resolve_args(curproxy->defpx, &err);
cfgerr += i;
if (i) {
indent_msg(&err, 8);
ha_alert("%s%s\n", i > 1 ? "multiple argument resolution errors:" : "", err);
ha_free(&err);
}
else
cfgerr += acl_find_targets(curproxy->defpx);
/* default proxy is now ready. Set the right FE/BE capabilities */
curproxy->defpx->flags |= PR_FL_READY;
}
}
/* check and reduce the bind-proc of each listener */
list_for_each_entry(bind_conf, &curproxy->conf.bind, by_fe) {
int ret;
/* HTTP frontends with "h2" as ALPN/NPN will work in
* HTTP/2 and absolutely require buffers 16kB or larger.
*/
#ifdef USE_OPENSSL
/* no-alpn ? If so, it's the right moment to remove it */
if (bind_conf->ssl_conf.alpn_str && !bind_conf->ssl_conf.alpn_len) {
ha_free(&bind_conf->ssl_conf.alpn_str);
}
#ifdef TLSEXT_TYPE_application_layer_protocol_negotiation
else if (!bind_conf->ssl_conf.alpn_str && !bind_conf->ssl_conf.npn_str &&
((bind_conf->options & BC_O_USE_SSL) || bind_conf->xprt == xprt_get(XPRT_QUIC)) &&
curproxy->mode == PR_MODE_HTTP && global.tune.bufsize >= 16384) {
/* Neither ALPN nor NPN were explicitly set nor disabled, we're
* in HTTP mode with an SSL or QUIC listener, we can enable ALPN.
* Note that it's in binary form.
*/
if (bind_conf->xprt == xprt_get(XPRT_QUIC))
bind_conf->ssl_conf.alpn_str = strdup("\002h3");
else
bind_conf->ssl_conf.alpn_str = strdup("\002h2\010http/1.1");
if (!bind_conf->ssl_conf.alpn_str) {
ha_alert("Proxy '%s': out of memory while trying to allocate a default alpn string in 'bind %s' at [%s:%d].\n",
curproxy->id, bind_conf->arg, bind_conf->file, bind_conf->line);
cfgerr++;
err_code |= ERR_FATAL | ERR_ALERT;
goto out;
}
bind_conf->ssl_conf.alpn_len = strlen(bind_conf->ssl_conf.alpn_str);
}
#endif
if (curproxy->mode == PR_MODE_HTTP && global.tune.bufsize < 16384) {
#ifdef OPENSSL_NPN_NEGOTIATED
/* check NPN */
if (bind_conf->ssl_conf.npn_str && strstr(bind_conf->ssl_conf.npn_str, "\002h2")) {
ha_alert("HTTP frontend '%s' enables HTTP/2 via NPN at [%s:%d], so global.tune.bufsize must be at least 16384 bytes (%d now).\n",
curproxy->id, bind_conf->file, bind_conf->line, global.tune.bufsize);
cfgerr++;
}
#endif
#ifdef TLSEXT_TYPE_application_layer_protocol_negotiation
/* check ALPN */
if (bind_conf->ssl_conf.alpn_str && strstr(bind_conf->ssl_conf.alpn_str, "\002h2")) {
ha_alert("HTTP frontend '%s' enables HTTP/2 via ALPN at [%s:%d], so global.tune.bufsize must be at least 16384 bytes (%d now).\n",
curproxy->id, bind_conf->file, bind_conf->line, global.tune.bufsize);
cfgerr++;
}
#endif
} /* HTTP && bufsize < 16384 */
#endif
#ifdef USE_QUIC
if (bind_conf->xprt == xprt_get(XPRT_QUIC)) {
const struct quic_cc_algo *cc_algo = bind_conf->quic_cc_algo ?
bind_conf->quic_cc_algo : default_quic_cc_algo;
if (!(cc_algo->flags & QUIC_CC_ALGO_FL_OPT_PACING) &&
quic_tune.options & QUIC_TUNE_NO_PACING) {
ha_warning("Binding [%s:%d] for %s %s: using the selected congestion algorithm without pacing may cause slowdowns or high loss rates during transfers.\n",
bind_conf->file, bind_conf->line,
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
}
#endif /* USE_QUIC */
/* finish the bind setup */
ret = bind_complete_thread_setup(bind_conf, &err_code);
if (ret != 0) {
cfgerr += ret;
if (err_code & ERR_FATAL)
goto out;
}
if (bind_generate_guid(bind_conf)) {
cfgerr++;
err_code |= ERR_FATAL | ERR_ALERT;
goto out;
}
}
switch (curproxy->mode) {
case PR_MODE_TCP:
cfgerr += proxy_cfg_ensure_no_http(curproxy);
cfgerr += proxy_cfg_ensure_no_log(curproxy);
break;
case PR_MODE_HTTP:
cfgerr += proxy_cfg_ensure_no_log(curproxy);
curproxy->http_needed = 1;
break;
case PR_MODE_CLI:
cfgerr += proxy_cfg_ensure_no_http(curproxy);
cfgerr += proxy_cfg_ensure_no_log(curproxy);
break;
case PR_MODE_SYSLOG:
/* this mode is initialized as the classic tcp proxy */
cfgerr += proxy_cfg_ensure_no_http(curproxy);
break;
case PR_MODE_SPOP:
cfgerr += proxy_cfg_ensure_no_http(curproxy);
cfgerr += proxy_cfg_ensure_no_log(curproxy);
break;
case PR_MODE_PEERS:
case PR_MODES:
/* should not happen, bug gcc warn missing switch statement */
ha_alert("%s '%s' cannot initialize this proxy mode (peers) in this way. NOTE: PLEASE REPORT THIS TO DEVELOPERS AS YOU'RE NOT SUPPOSED TO BE ABLE TO CREATE A CONFIGURATION TRIGGERING THIS!\n",
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
break;
}
if (!(curproxy->cap & PR_CAP_INT) && (curproxy->cap & PR_CAP_FE) && LIST_ISEMPTY(&curproxy->conf.listeners)) {
ha_warning("%s '%s' has no 'bind' directive. Please declare it as a backend if this was intended.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (curproxy->cap & PR_CAP_BE) {
if (curproxy->lbprm.algo & BE_LB_KIND) {
if (curproxy->options & PR_O_TRANSP) {
ha_alert("%s '%s' cannot use both transparent and balance mode.\n",
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
}
#ifdef WE_DONT_SUPPORT_SERVERLESS_LISTENERS
else if (curproxy->srv == NULL) {
ha_alert("%s '%s' needs at least 1 server in balance mode.\n",
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
}
#endif
else if (curproxy->options & PR_O_DISPATCH) {
ha_warning("dispatch address of %s '%s' will be ignored in balance mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
}
else if (!(curproxy->options & (PR_O_TRANSP | PR_O_DISPATCH))) {
/* If no LB algo is set in a backend, and we're not in
* transparent mode, dispatch mode nor proxy mode, we
* want to use balance roundrobin by default.
*/
curproxy->lbprm.algo &= ~BE_LB_ALGO;
curproxy->lbprm.algo |= BE_LB_ALGO_RR;
}
}
if (curproxy->options & PR_O_DISPATCH)
curproxy->options &= ~PR_O_TRANSP;
else if (curproxy->options & PR_O_TRANSP)
curproxy->options &= ~PR_O_DISPATCH;
if ((curproxy->tcpcheck_rules.flags & TCPCHK_RULES_UNUSED_HTTP_RS)) {
ha_warning("%s '%s' uses http-check rules without 'option httpchk', so the rules are ignored.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if ((curproxy->options2 & PR_O2_CHK_ANY) == PR_O2_TCPCHK_CHK &&
(curproxy->tcpcheck_rules.flags & TCPCHK_RULES_PROTO_CHK) != TCPCHK_RULES_HTTP_CHK) {
if (curproxy->options & PR_O_DISABLE404) {
ha_warning("'%s' will be ignored for %s '%s' (requires 'option httpchk').\n",
"disable-on-404", proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
curproxy->options &= ~PR_O_DISABLE404;
}
if (curproxy->options2 & PR_O2_CHK_SNDST) {
ha_warning("'%s' will be ignored for %s '%s' (requires 'option httpchk').\n",
"send-state", proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
curproxy->options2 &= ~PR_O2_CHK_SNDST;
}
}
if ((curproxy->options2 & PR_O2_CHK_ANY) == PR_O2_EXT_CHK) {
if (!global.external_check) {
ha_alert("Proxy '%s' : '%s' unable to find required 'global.external-check'.\n",
curproxy->id, "option external-check");
cfgerr++;
}
if (!curproxy->check_command) {
ha_alert("Proxy '%s' : '%s' unable to find required 'external-check command'.\n",
curproxy->id, "option external-check");
cfgerr++;
}
if (!(global.tune.options & GTUNE_INSECURE_FORK)) {
ha_warning("Proxy '%s' : 'insecure-fork-wanted' not enabled in the global section, '%s' will likely fail.\n",
curproxy->id, "option external-check");
err_code |= ERR_WARN;
}
}
if (curproxy->email_alert.flags & PR_EMAIL_ALERT_SET) {
if (!(curproxy->email_alert.mailers.name && curproxy->email_alert.from && curproxy->email_alert.to)) {
ha_warning("'email-alert' will be ignored for %s '%s' (the presence any of "
"'email-alert from', 'email-alert level' 'email-alert mailers', "
"'email-alert myhostname', or 'email-alert to' "
"requires each of 'email-alert from', 'email-alert mailers' and 'email-alert to' "
"to be present).\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
free_email_alert(curproxy);
}
if (!curproxy->email_alert.myhostname)
curproxy->email_alert.myhostname = strdup(hostname);
}
if (curproxy->check_command) {
int clear = 0;
if ((curproxy->options2 & PR_O2_CHK_ANY) != PR_O2_EXT_CHK) {
ha_warning("'%s' will be ignored for %s '%s' (requires 'option external-check').\n",
"external-check command", proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
clear = 1;
}
if (curproxy->check_command[0] != '/' && !curproxy->check_path) {
ha_alert("Proxy '%s': '%s' does not have a leading '/' and 'external-check path' is not set.\n",
curproxy->id, "external-check command");
cfgerr++;
}
if (clear) {
ha_free(&curproxy->check_command);
}
}
if (curproxy->check_path) {
if ((curproxy->options2 & PR_O2_CHK_ANY) != PR_O2_EXT_CHK) {
ha_warning("'%s' will be ignored for %s '%s' (requires 'option external-check').\n",
"external-check path", proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
ha_free(&curproxy->check_path);
}
}
/* if a default backend was specified, let's find it */
if (curproxy->defbe.name) {
struct proxy *target;
target = proxy_be_by_name(curproxy->defbe.name);
if (!target) {
ha_alert("Proxy '%s': unable to find required default_backend: '%s'.\n",
curproxy->id, curproxy->defbe.name);
cfgerr++;
} else if (target == curproxy) {
ha_alert("Proxy '%s': loop detected for default_backend: '%s'.\n",
curproxy->id, curproxy->defbe.name);
cfgerr++;
} else if (target->mode != curproxy->mode &&
!(curproxy->mode == PR_MODE_TCP && target->mode == PR_MODE_HTTP)) {
ha_alert("%s %s '%s' (%s:%d) tries to use incompatible %s %s '%s' (%s:%d) as its default backend (see 'mode').\n",
proxy_mode_str(curproxy->mode), proxy_type_str(curproxy), curproxy->id,
curproxy->conf.file, curproxy->conf.line,
proxy_mode_str(target->mode), proxy_type_str(target), target->id,
target->conf.file, target->conf.line);
cfgerr++;
} else {
free(curproxy->defbe.name);
curproxy->defbe.be = target;
/* Emit a warning if this proxy also has some servers */
if (curproxy->srv) {
ha_warning("In proxy '%s', the 'default_backend' rule always has precedence over the servers, which will never be used.\n",
curproxy->id);
err_code |= ERR_WARN;
}
if (target->mode == PR_MODE_HTTP) {
/* at least one of the used backends will provoke an
* HTTP upgrade
*/
curproxy->options |= PR_O_HTTP_UPG;
}
}
}
/* find the target proxy for 'use_backend' rules */
list_for_each_entry(rule, &curproxy->switching_rules, list) {
struct proxy *target;
struct logformat_node *node;
char *pxname;
/* Try to parse the string as a log format expression. If the result
* of the parsing is only one entry containing a simple string, then
* it's a standard string corresponding to a static rule, thus the
* parsing is cancelled and be.name is restored to be resolved.
*/
pxname = rule->be.name;
lf_expr_init(&rule->be.expr);
curproxy->conf.args.ctx = ARGC_UBK;
curproxy->conf.args.file = rule->file;
curproxy->conf.args.line = rule->line;
err = NULL;
if (!parse_logformat_string(pxname, curproxy, &rule->be.expr, 0, SMP_VAL_FE_HRQ_HDR, &err)) {
ha_alert("Parsing [%s:%d]: failed to parse use_backend rule '%s' : %s.\n",
rule->file, rule->line, pxname, err);
free(err);
cfgerr++;
continue;
}
node = LIST_NEXT(&rule->be.expr.nodes.list, struct logformat_node *, list);
if (!lf_expr_isempty(&rule->be.expr)) {
if (node->type != LOG_FMT_TEXT || node->list.n != &rule->be.expr.nodes.list) {
rule->dynamic = 1;
free(pxname);
/* backend is not yet known so we cannot assume its type,
* thus we should consider that at least one of the used
* backends may provoke HTTP upgrade
*/
curproxy->options |= PR_O_HTTP_UPG;
continue;
}
/* Only one element in the list, a simple string: free the expression and
* fall back to static rule
*/
lf_expr_deinit(&rule->be.expr);
}
rule->dynamic = 0;
rule->be.name = pxname;
target = proxy_be_by_name(rule->be.name);
if (!target) {
ha_alert("Proxy '%s': unable to find required use_backend: '%s'.\n",
curproxy->id, rule->be.name);
cfgerr++;
} else if (target == curproxy) {
ha_alert("Proxy '%s': loop detected for use_backend: '%s'.\n",
curproxy->id, rule->be.name);
cfgerr++;
} else if (target->mode != curproxy->mode &&
!(curproxy->mode == PR_MODE_TCP && target->mode == PR_MODE_HTTP)) {
ha_alert("%s %s '%s' (%s:%d) tries to use incompatible %s %s '%s' (%s:%d) in a 'use_backend' rule (see 'mode').\n",
proxy_mode_str(curproxy->mode), proxy_type_str(curproxy), curproxy->id,
curproxy->conf.file, curproxy->conf.line,
proxy_mode_str(target->mode), proxy_type_str(target), target->id,
target->conf.file, target->conf.line);
cfgerr++;
} else {
ha_free(&rule->be.name);
rule->be.backend = target;
if (target->mode == PR_MODE_HTTP) {
/* at least one of the used backends will provoke an
* HTTP upgrade
*/
curproxy->options |= PR_O_HTTP_UPG;
}
}
err_code |= warnif_tcp_http_cond(curproxy, rule->cond);
}
/* find the target server for 'use_server' rules */
list_for_each_entry(srule, &curproxy->server_rules, list) {
struct server *target;
struct logformat_node *node;
char *server_name;
/* We try to parse the string as a log format expression. If the result of the parsing
* is only one entry containing a single string, then it's a standard string corresponding
* to a static rule, thus the parsing is cancelled and we fall back to setting srv.ptr.
*/
server_name = srule->srv.name;
lf_expr_init(&srule->expr);
curproxy->conf.args.ctx = ARGC_USRV;
err = NULL;
if (!parse_logformat_string(server_name, curproxy, &srule->expr, 0, SMP_VAL_FE_HRQ_HDR, &err)) {
ha_alert("Parsing [%s:%d]; use-server rule failed to parse log-format '%s' : %s.\n",
srule->file, srule->line, server_name, err);
free(err);
cfgerr++;
continue;
}
node = LIST_NEXT(&srule->expr.nodes.list, struct logformat_node *, list);
if (!lf_expr_isempty(&srule->expr)) {
if (node->type != LOG_FMT_TEXT || node->list.n != &srule->expr.nodes.list) {
srule->dynamic = 1;
free(server_name);
continue;
}
/* Only one element in the list, a simple string: free the expression and
* fall back to static rule
*/
lf_expr_deinit(&srule->expr);
}
srule->dynamic = 0;
srule->srv.name = server_name;
target = findserver(curproxy, srule->srv.name);
err_code |= warnif_tcp_http_cond(curproxy, srule->cond);
if (!target) {
ha_alert("%s '%s' : unable to find server '%s' referenced in a 'use-server' rule.\n",
proxy_type_str(curproxy), curproxy->id, srule->srv.name);
cfgerr++;
continue;
}
ha_free(&srule->srv.name);
srule->srv.ptr = target;
target->flags |= SRV_F_NON_PURGEABLE;
}
/* find the target table for 'stick' rules */
list_for_each_entry(mrule, &curproxy->sticking_rules, list) {
curproxy->be_req_ana |= AN_REQ_STICKING_RULES;
if (mrule->flags & STK_IS_STORE)
curproxy->be_rsp_ana |= AN_RES_STORE_RULES;
if (!resolve_stick_rule(curproxy, mrule))
cfgerr++;
err_code |= warnif_tcp_http_cond(curproxy, mrule->cond);
}
/* find the target table for 'store response' rules */
list_for_each_entry(mrule, &curproxy->storersp_rules, list) {
curproxy->be_rsp_ana |= AN_RES_STORE_RULES;
if (!resolve_stick_rule(curproxy, mrule))
cfgerr++;
}
/* check validity for 'tcp-request' layer 4/5/6/7 rules */
cfgerr += check_action_rules(&curproxy->tcp_req.l4_rules, curproxy, &err_code);
cfgerr += check_action_rules(&curproxy->tcp_req.l5_rules, curproxy, &err_code);
cfgerr += check_action_rules(&curproxy->tcp_req.inspect_rules, curproxy, &err_code);
cfgerr += check_action_rules(&curproxy->tcp_rep.inspect_rules, curproxy, &err_code);
cfgerr += check_action_rules(&curproxy->http_req_rules, curproxy, &err_code);
cfgerr += check_action_rules(&curproxy->http_res_rules, curproxy, &err_code);
cfgerr += check_action_rules(&curproxy->http_after_res_rules, curproxy, &err_code);
/* Warn is a switch-mode http is used on a TCP listener with servers but no backend */
if (!curproxy->defbe.name && LIST_ISEMPTY(&curproxy->switching_rules) && curproxy->srv) {
if ((curproxy->options & PR_O_HTTP_UPG) && curproxy->mode == PR_MODE_TCP)
ha_warning("Proxy '%s' : 'switch-mode http' configured for a %s %s with no backend. "
"Incoming connections upgraded to HTTP cannot be routed to TCP servers\n",
curproxy->id, proxy_mode_str(curproxy->mode), proxy_type_str(curproxy));
}
if (curproxy->table && curproxy->table->peers.name) {
struct peers *curpeers;
for (curpeers = cfg_peers; curpeers; curpeers = curpeers->next) {
if (strcmp(curpeers->id, curproxy->table->peers.name) == 0) {
ha_free(&curproxy->table->peers.name);
curproxy->table->peers.p = curpeers;
break;
}
}
if (!curpeers) {
ha_alert("Proxy '%s': unable to find sync peers '%s'.\n",
curproxy->id, curproxy->table->peers.name);
ha_free(&curproxy->table->peers.name);
curproxy->table->peers.p = NULL;
cfgerr++;
}
else if (curpeers->disabled) {
/* silently disable this peers section */
curproxy->table->peers.p = NULL;
}
else if (!curpeers->peers_fe) {
ha_alert("Proxy '%s': unable to find local peer '%s' in peers section '%s'.\n",
curproxy->id, localpeer, curpeers->id);
curproxy->table->peers.p = NULL;
cfgerr++;
}
}
if (curproxy->email_alert.mailers.name) {
struct mailers *curmailers = mailers;
for (curmailers = mailers; curmailers; curmailers = curmailers->next) {
if (strcmp(curmailers->id, curproxy->email_alert.mailers.name) == 0)
break;
}
if (!curmailers) {
ha_alert("Proxy '%s': unable to find mailers '%s'.\n",
curproxy->id, curproxy->email_alert.mailers.name);
free_email_alert(curproxy);
cfgerr++;
}
else {
err = NULL;
if (init_email_alert(curmailers, curproxy, &err)) {
ha_alert("Proxy '%s': %s.\n", curproxy->id, err);
free(err);
cfgerr++;
}
}
}
if (curproxy->uri_auth && !(curproxy->uri_auth->flags & STAT_F_CONVDONE) &&
!LIST_ISEMPTY(&curproxy->uri_auth->http_req_rules) &&
(curproxy->uri_auth->userlist || curproxy->uri_auth->auth_realm )) {
ha_alert("%s '%s': stats 'auth'/'realm' and 'http-request' can't be used at the same time.\n",
"proxy", curproxy->id);
cfgerr++;
goto out_uri_auth_compat;
}
if (curproxy->uri_auth && curproxy->uri_auth->userlist &&
(!(curproxy->uri_auth->flags & STAT_F_CONVDONE) ||
LIST_ISEMPTY(&curproxy->uri_auth->http_req_rules))) {
const char *uri_auth_compat_req[10];
struct act_rule *rule;
i = 0;
/* build the ACL condition from scratch. We're relying on anonymous ACLs for that */
uri_auth_compat_req[i++] = "auth";
if (curproxy->uri_auth->auth_realm) {
uri_auth_compat_req[i++] = "realm";
uri_auth_compat_req[i++] = curproxy->uri_auth->auth_realm;
}
uri_auth_compat_req[i++] = "unless";
uri_auth_compat_req[i++] = "{";
uri_auth_compat_req[i++] = "http_auth(.internal-stats-userlist)";
uri_auth_compat_req[i++] = "}";
uri_auth_compat_req[i++] = "";
rule = parse_http_req_cond(uri_auth_compat_req, "internal-stats-auth-compat", 0, curproxy);
if (!rule) {
cfgerr++;
break;
}
LIST_APPEND(&curproxy->uri_auth->http_req_rules, &rule->list);
if (curproxy->uri_auth->auth_realm) {
ha_free(&curproxy->uri_auth->auth_realm);
}
curproxy->uri_auth->flags |= STAT_F_CONVDONE;
}
out_uri_auth_compat:
/* check whether we have a logger that uses RFC5424 log format */
list_for_each_entry(tmplogger, &curproxy->loggers, list) {
if (tmplogger->format == LOG_FORMAT_RFC5424) {
if (!curproxy->logformat_sd.str) {
/* set the default logformat_sd_string */
curproxy->logformat_sd.str = default_rfc5424_sd_log_format;
}
break;
}
}
/* compile the log format */
if (!(curproxy->cap & PR_CAP_FE)) {
lf_expr_deinit(&curproxy->logformat);
lf_expr_deinit(&curproxy->logformat_sd);
}
if (curproxy->logformat.str) {
curproxy->conf.args.ctx = ARGC_LOG;
curproxy->conf.args.file = curproxy->logformat.conf.file;
curproxy->conf.args.line = curproxy->logformat.conf.line;
err = NULL;
if (!lf_expr_compile(&curproxy->logformat, &curproxy->conf.args,
LOG_OPT_MANDATORY|LOG_OPT_MERGE_SPACES,
SMP_VAL_FE_LOG_END, &err) ||
!lf_expr_postcheck(&curproxy->logformat, curproxy, &err)) {
ha_alert("Parsing [%s:%d]: failed to parse log-format : %s.\n",
curproxy->logformat.conf.file, curproxy->logformat.conf.line, err);
free(err);
cfgerr++;
}
curproxy->conf.args.file = NULL;
curproxy->conf.args.line = 0;
}
if (curproxy->logformat_sd.str) {
curproxy->conf.args.ctx = ARGC_LOGSD;
curproxy->conf.args.file = curproxy->logformat_sd.conf.file;
curproxy->conf.args.line = curproxy->logformat_sd.conf.line;
err = NULL;
if (!lf_expr_compile(&curproxy->logformat_sd, &curproxy->conf.args,
LOG_OPT_MANDATORY|LOG_OPT_MERGE_SPACES,
SMP_VAL_FE_LOG_END, &err) ||
!add_to_logformat_list(NULL, NULL, LF_SEPARATOR, &curproxy->logformat_sd, &err) ||
!lf_expr_postcheck(&curproxy->logformat_sd, curproxy, &err)) {
ha_alert("Parsing [%s:%d]: failed to parse log-format-sd : %s.\n",
curproxy->logformat_sd.conf.file, curproxy->logformat_sd.conf.line, err);
free(err);
cfgerr++;
}
curproxy->conf.args.file = NULL;
curproxy->conf.args.line = 0;
}
if (curproxy->format_unique_id.str) {
int where = 0;
curproxy->conf.args.ctx = ARGC_UIF;
curproxy->conf.args.file = curproxy->format_unique_id.conf.file;
curproxy->conf.args.line = curproxy->format_unique_id.conf.line;
err = NULL;
if (curproxy->cap & PR_CAP_FE)
where |= SMP_VAL_FE_HRQ_HDR;
if (curproxy->cap & PR_CAP_BE)
where |= SMP_VAL_BE_HRQ_HDR;
if (!lf_expr_compile(&curproxy->format_unique_id, &curproxy->conf.args,
LOG_OPT_HTTP|LOG_OPT_MERGE_SPACES, where, &err) ||
!lf_expr_postcheck(&curproxy->format_unique_id, curproxy, &err)) {
ha_alert("Parsing [%s:%d]: failed to parse unique-id : %s.\n",
curproxy->format_unique_id.conf.file, curproxy->format_unique_id.conf.line, err);
free(err);
cfgerr++;
}
curproxy->conf.args.file = NULL;
curproxy->conf.args.line = 0;
}
if (curproxy->logformat_error.str) {
curproxy->conf.args.ctx = ARGC_LOG;
curproxy->conf.args.file = curproxy->logformat_error.conf.file;
curproxy->conf.args.line = curproxy->logformat_error.conf.line;
err = NULL;
if (!lf_expr_compile(&curproxy->logformat_error, &curproxy->conf.args,
LOG_OPT_MANDATORY|LOG_OPT_MERGE_SPACES,
SMP_VAL_FE_LOG_END, &err) ||
!lf_expr_postcheck(&curproxy->logformat_error, curproxy, &err)) {
ha_alert("Parsing [%s:%d]: failed to parse error-log-format : %s.\n",
curproxy->logformat_error.conf.file, curproxy->logformat_error.conf.line, err);
free(err);
cfgerr++;
}
curproxy->conf.args.file = NULL;
curproxy->conf.args.line = 0;
}
/* "balance hash" needs to compile its expression
* (log backends will handle this in proxy log postcheck)
*/
if (curproxy->mode != PR_MODE_SYSLOG &&
(curproxy->lbprm.algo & BE_LB_ALGO) == BE_LB_ALGO_SMP) {
int idx = 0;
const char *args[] = {
curproxy->lbprm.arg_str,
NULL,
};
err = NULL;
curproxy->conf.args.ctx = ARGC_USRV; // same context as use_server.
curproxy->lbprm.expr =
sample_parse_expr((char **)args, &idx,
curproxy->conf.file, curproxy->conf.line,
&err, &curproxy->conf.args, NULL);
if (!curproxy->lbprm.expr) {
ha_alert("%s '%s' [%s:%d]: failed to parse 'balance hash' expression '%s' in : %s.\n",
proxy_type_str(curproxy), curproxy->id,
curproxy->conf.file, curproxy->conf.line,
curproxy->lbprm.arg_str, err);
ha_free(&err);
cfgerr++;
}
else if (!(curproxy->lbprm.expr->fetch->val & SMP_VAL_BE_SET_SRV)) {
ha_alert("%s '%s' [%s:%d]: error detected while parsing 'balance hash' expression '%s' "
"which requires information from %s, which is not available here.\n",
proxy_type_str(curproxy), curproxy->id,
curproxy->conf.file, curproxy->conf.line,
curproxy->lbprm.arg_str, sample_src_names(curproxy->lbprm.expr->fetch->use));
cfgerr++;
}
else if (curproxy->mode == PR_MODE_HTTP && (curproxy->lbprm.expr->fetch->use & SMP_USE_L6REQ)) {
ha_warning("%s '%s' [%s:%d]: L6 sample fetch <%s> will be ignored in 'balance hash' expression in HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id,
curproxy->conf.file, curproxy->conf.line,
curproxy->lbprm.arg_str);
}
else
curproxy->http_needed |= !!(curproxy->lbprm.expr->fetch->use & SMP_USE_HTTP_ANY);
}
/* only now we can check if some args remain unresolved.
* This must be done after the users and groups resolution.
*/
err = NULL;
i = smp_resolve_args(curproxy, &err);
cfgerr += i;
if (i) {
indent_msg(&err, 8);
ha_alert("%s%s\n", i > 1 ? "multiple argument resolution errors:" : "", err);
ha_free(&err);
} else
cfgerr += acl_find_targets(curproxy);
if (!(curproxy->cap & PR_CAP_INT) && (curproxy->mode == PR_MODE_TCP || curproxy->mode == PR_MODE_HTTP) &&
(((curproxy->cap & PR_CAP_FE) && !curproxy->timeout.client) ||
((curproxy->cap & PR_CAP_BE) && (curproxy->srv) &&
(!curproxy->timeout.connect ||
(!curproxy->timeout.server && (curproxy->mode == PR_MODE_HTTP || !curproxy->timeout.tunnel)))))) {
ha_warning("missing timeouts for %s '%s'.\n"
" | While not properly invalid, you will certainly encounter various problems\n"
" | with such a configuration. To fix this, please ensure that all following\n"
" | timeouts are set to a non-zero value: 'client', 'connect', 'server'.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
/* Historically, the tarpit and queue timeouts were inherited from contimeout.
* We must still support older configurations, so let's find out whether those
* parameters have been set or must be copied from contimeouts.
*/
if (!curproxy->timeout.tarpit)
curproxy->timeout.tarpit = curproxy->timeout.connect;
if ((curproxy->cap & PR_CAP_BE) && !curproxy->timeout.queue)
curproxy->timeout.queue = curproxy->timeout.connect;
if ((curproxy->tcpcheck_rules.flags & TCPCHK_RULES_UNUSED_TCP_RS)) {
ha_warning("%s '%s' uses tcp-check rules without 'option tcp-check', so the rules are ignored.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
/* ensure that cookie capture length is not too large */
if (curproxy->capture_len >= global.tune.cookie_len) {
ha_warning("truncating capture length to %d bytes for %s '%s'.\n",
global.tune.cookie_len - 1, proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
curproxy->capture_len = global.tune.cookie_len - 1;
}
/* The small pools required for the capture lists */
if (curproxy->nb_req_cap) {
curproxy->req_cap_pool = create_pool("ptrcap",
curproxy->nb_req_cap * sizeof(char *),
MEM_F_SHARED);
}
if (curproxy->nb_rsp_cap) {
curproxy->rsp_cap_pool = create_pool("ptrcap",
curproxy->nb_rsp_cap * sizeof(char *),
MEM_F_SHARED);
}
switch (curproxy->load_server_state_from_file) {
case PR_SRV_STATE_FILE_UNSPEC:
curproxy->load_server_state_from_file = PR_SRV_STATE_FILE_NONE;
break;
case PR_SRV_STATE_FILE_GLOBAL:
if (!global.server_state_file) {
ha_warning("backend '%s' configured to load server state file from global section 'server-state-file' directive. Unfortunately, 'server-state-file' is not set!\n",
curproxy->id);
err_code |= ERR_WARN;
}
break;
}
/* first, we will invert the servers list order */
newsrv = NULL;
while (curproxy->srv) {
struct server *next;
next = curproxy->srv->next;
curproxy->srv->next = newsrv;
newsrv = curproxy->srv;
if (!next)
break;
curproxy->srv = next;
}
/* Check that no server name conflicts. This causes trouble in the stats.
* We only emit a warning for the first conflict affecting each server,
* in order to avoid combinatory explosion if all servers have the same
* name. We do that only for servers which do not have an explicit ID,
* because these IDs were made also for distinguishing them and we don't
* want to annoy people who correctly manage them. Since servers names
* are stored in a tree before landing here, we simply have to check for
* the current server's duplicates to spot conflicts.
*/
for (newsrv = curproxy->srv; newsrv; newsrv = newsrv->next) {
struct server *other_srv;
/* Note: internal servers are not always registered and
* they do not conflict.
*/
if (!newsrv->conf.name.node.leaf_p)
continue;
for (other_srv = newsrv;
(other_srv = container_of_safe(ebpt_prev_dup(&other_srv->conf.name),
struct server, conf.name)); ) {
if (!newsrv->puid && !other_srv->puid) {
ha_alert("parsing [%s:%d] : %s '%s', another server named '%s' was already defined at line %d, please use distinct names.\n",
newsrv->conf.file, newsrv->conf.line,
proxy_type_str(curproxy), curproxy->id,
newsrv->id, other_srv->conf.line);
cfgerr++;
break;
}
ha_warning("parsing [%s:%d] : %s '%s', another server named '%s' was already defined at line %d. This is dangerous and will not be supported anymore in version 3.3. Please use distinct names.\n",
newsrv->conf.file, newsrv->conf.line,
proxy_type_str(curproxy), curproxy->id,
newsrv->id, other_srv->conf.line);
}
}
/* assign automatic UIDs to servers which don't have one yet */
next_id = 1;
newsrv = curproxy->srv;
while (newsrv != NULL) {
if (!newsrv->puid) {
/* server ID not set, use automatic numbering with first
* spare entry starting with next_svid.
*/
next_id = get_next_id(&curproxy->conf.used_server_id, next_id);
newsrv->conf.id.key = newsrv->puid = next_id;
eb32_insert(&curproxy->conf.used_server_id, &newsrv->conf.id);
}
next_id++;
newsrv = newsrv->next;
}
curproxy->lbprm.wmult = 1; /* default weight multiplier */
curproxy->lbprm.wdiv = 1; /* default weight divider */
/*
* If this server supports a maxconn parameter, it needs a dedicated
* tasks to fill the emptied slots when a connection leaves.
* Also, resolve deferred tracking dependency if needed.
*/
newsrv = curproxy->srv;
while (newsrv != NULL) {
set_usermsgs_ctx(newsrv->conf.file, newsrv->conf.line, &newsrv->obj_type);
srv_minmax_conn_apply(newsrv);
/* this will also properly set the transport layer for
* prod and checks
* if default-server have use_ssl, prerare ssl init
* without activating it */
if (newsrv->use_ssl == 1 || newsrv->check.use_ssl == 1 ||
(newsrv->proxy->options & PR_O_TCPCHK_SSL) ||
((newsrv->flags & SRV_F_DEFSRV_USE_SSL) && newsrv->use_ssl != 1)) {
if (xprt_get(XPRT_SSL) && xprt_get(XPRT_SSL)->prepare_srv)
cfgerr += xprt_get(XPRT_SSL)->prepare_srv(newsrv);
}
if ((newsrv->flags & SRV_F_FASTOPEN) &&
((curproxy->retry_type & (PR_RE_DISCONNECTED | PR_RE_TIMEOUT)) !=
(PR_RE_DISCONNECTED | PR_RE_TIMEOUT)))
ha_warning("server has tfo activated, the backend should be configured with at least 'conn-failure', 'empty-response' and 'response-timeout' or we wouldn't be able to retry the connection on failure.\n");
if (newsrv->trackit) {
if (srv_apply_track(newsrv, curproxy)) {
++cfgerr;
goto next_srv;
}
}
next_srv:
reset_usermsgs_ctx();
newsrv = newsrv->next;
}
/*
* Try to generate dynamic cookies for servers now.
* It couldn't be done earlier, since at the time we parsed
* the server line, we may not have known yet that we
* should use dynamic cookies, or the secret key may not
* have been provided yet.
*/
if (curproxy->ck_opts & PR_CK_DYNAMIC) {
newsrv = curproxy->srv;
while (newsrv != NULL) {
srv_set_dyncookie(newsrv);
newsrv = newsrv->next;
}
}
/* We have to initialize the server lookup mechanism depending
* on what LB algorithm was chosen.
*/
curproxy->lbprm.algo &= ~(BE_LB_LKUP | BE_LB_PROP_DYN);
switch (curproxy->lbprm.algo & BE_LB_KIND) {
case BE_LB_KIND_RR:
if ((curproxy->lbprm.algo & BE_LB_PARM) == BE_LB_RR_STATIC) {
curproxy->lbprm.algo |= BE_LB_LKUP_MAP;
init_server_map(curproxy);
} else if ((curproxy->lbprm.algo & BE_LB_PARM) == BE_LB_RR_RANDOM) {
curproxy->lbprm.algo |= BE_LB_LKUP_CHTREE | BE_LB_PROP_DYN;
if (chash_init_server_tree(curproxy) < 0) {
cfgerr++;
}
} else {
curproxy->lbprm.algo |= BE_LB_LKUP_RRTREE | BE_LB_PROP_DYN;
fwrr_init_server_groups(curproxy);
}
break;
case BE_LB_KIND_CB:
if ((curproxy->lbprm.algo & BE_LB_PARM) == BE_LB_CB_LC) {
curproxy->lbprm.algo |= BE_LB_LKUP_LCTREE | BE_LB_PROP_DYN;
fwlc_init_server_tree(curproxy);
} else {
curproxy->lbprm.algo |= BE_LB_LKUP_FSTREE | BE_LB_PROP_DYN;
fas_init_server_tree(curproxy);
}
break;
case BE_LB_KIND_HI:
if ((curproxy->lbprm.algo & BE_LB_HASH_TYPE) == BE_LB_HASH_CONS) {
curproxy->lbprm.algo |= BE_LB_LKUP_CHTREE | BE_LB_PROP_DYN;
if (chash_init_server_tree(curproxy) < 0) {
cfgerr++;
}
} else {
curproxy->lbprm.algo |= BE_LB_LKUP_MAP;
init_server_map(curproxy);
}
break;
case BE_LB_KIND_SA:
if ((curproxy->lbprm.algo & BE_LB_PARM) == BE_LB_SA_SS) {
curproxy->lbprm.algo |= BE_LB_PROP_DYN;
init_server_ss(curproxy);
}
break;
}
HA_RWLOCK_INIT(&curproxy->lbprm.lock);
if (curproxy->options & PR_O_LOGASAP)
curproxy->to_log &= ~LW_BYTES;
if (!(curproxy->cap & PR_CAP_INT) && (curproxy->mode == PR_MODE_TCP || curproxy->mode == PR_MODE_HTTP) &&
(curproxy->cap & PR_CAP_FE) && LIST_ISEMPTY(&curproxy->loggers) &&
(!lf_expr_isempty(&curproxy->logformat) || !lf_expr_isempty(&curproxy->logformat_sd))) {
ha_warning("log format ignored for %s '%s' since it has no log address.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (curproxy->mode != PR_MODE_HTTP && !(curproxy->options & PR_O_HTTP_UPG)) {
int optnum;
if (curproxy->uri_auth) {
ha_warning("'stats' statement ignored for %s '%s' as it requires HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
stats_uri_auth_drop(curproxy->uri_auth);
curproxy->uri_auth = NULL;
}
if (curproxy->capture_name) {
ha_warning("'capture' statement ignored for %s '%s' as it requires HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (isttest(curproxy->monitor_uri)) {
ha_warning("'monitor-uri' statement ignored for %s '%s' as it requires HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (!LIST_ISEMPTY(&curproxy->http_req_rules)) {
ha_warning("'http-request' rules ignored for %s '%s' as they require HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (!LIST_ISEMPTY(&curproxy->http_res_rules)) {
ha_warning("'http-response' rules ignored for %s '%s' as they require HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (!LIST_ISEMPTY(&curproxy->http_after_res_rules)) {
ha_warning("'http-after-response' rules ignored for %s '%s' as they require HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
if (!LIST_ISEMPTY(&curproxy->redirect_rules)) {
ha_warning("'redirect' rules ignored for %s '%s' as they require HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
}
for (optnum = 0; cfg_opts[optnum].name; optnum++) {
if (cfg_opts[optnum].mode == PR_MODE_HTTP &&
(curproxy->cap & cfg_opts[optnum].cap) &&
(curproxy->options & cfg_opts[optnum].val)) {
ha_warning("'option %s' ignored for %s '%s' as it requires HTTP mode.\n",
cfg_opts[optnum].name, proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
curproxy->options &= ~cfg_opts[optnum].val;
}
}
for (optnum = 0; cfg_opts2[optnum].name; optnum++) {
if (cfg_opts2[optnum].mode == PR_MODE_HTTP &&
(curproxy->cap & cfg_opts2[optnum].cap) &&
(curproxy->options2 & cfg_opts2[optnum].val)) {
ha_warning("'option %s' ignored for %s '%s' as it requires HTTP mode.\n",
cfg_opts2[optnum].name, proxy_type_str(curproxy), curproxy->id);
err_code |= ERR_WARN;
curproxy->options2 &= ~cfg_opts2[optnum].val;
}
}
#if defined(CONFIG_HAP_TRANSPARENT)
if (curproxy->conn_src.bind_hdr_occ) {
curproxy->conn_src.bind_hdr_occ = 0;
ha_warning("%s '%s' : ignoring use of header %s as source IP in non-HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id, curproxy->conn_src.bind_hdr_name);
err_code |= ERR_WARN;
}
#endif
}
/*
* ensure that we're not cross-dressing a TCP server into HTTP.
*/
newsrv = curproxy->srv;
while (newsrv != NULL) {
if ((curproxy->mode != PR_MODE_HTTP) && newsrv->rdr_len) {
ha_alert("%s '%s' : server cannot have cookie or redirect prefix in non-HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
}
if ((curproxy->mode != PR_MODE_HTTP) && newsrv->cklen) {
ha_warning("%s '%s' : ignoring cookie for server '%s' as HTTP mode is disabled.\n",
proxy_type_str(curproxy), curproxy->id, newsrv->id);
err_code |= ERR_WARN;
}
if ((newsrv->flags & SRV_F_MAPPORTS) && (curproxy->options2 & PR_O2_RDPC_PRST)) {
ha_warning("%s '%s' : RDP cookie persistence will not work for server '%s' because it lacks an explicit port number.\n",
proxy_type_str(curproxy), curproxy->id, newsrv->id);
err_code |= ERR_WARN;
}
#if defined(CONFIG_HAP_TRANSPARENT)
if (curproxy->mode != PR_MODE_HTTP && newsrv->conn_src.bind_hdr_occ) {
newsrv->conn_src.bind_hdr_occ = 0;
ha_warning("%s '%s' : server %s cannot use header %s as source IP in non-HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id, newsrv->id, newsrv->conn_src.bind_hdr_name);
err_code |= ERR_WARN;
}
#endif
if ((curproxy->mode != PR_MODE_HTTP) && (curproxy->options & PR_O_REUSE_MASK) != PR_O_REUSE_NEVR)
curproxy->options &= ~PR_O_REUSE_MASK;
if (curproxy->mode == PR_MODE_SPOP)
curproxy->options |= PR_O_REUSE_ALWS;
if ((curproxy->mode != PR_MODE_HTTP) && newsrv->flags & SRV_F_RHTTP) {
ha_alert("%s '%s' : server %s uses reverse HTTP addressing which can only be used with HTTP mode.\n",
proxy_type_str(curproxy), curproxy->id, newsrv->id);
cfgerr++;
err_code |= ERR_FATAL | ERR_ALERT;
goto out;
}
newsrv = newsrv->next;
}
/* Check filter configuration, if any */
cfgerr += flt_check(curproxy);
if (curproxy->cap & PR_CAP_FE) {
if (!curproxy->accept)
curproxy->accept = frontend_accept;
if (!LIST_ISEMPTY(&curproxy->tcp_req.inspect_rules) ||
(curproxy->defpx && !LIST_ISEMPTY(&curproxy->defpx->tcp_req.inspect_rules)))
curproxy->fe_req_ana |= AN_REQ_INSPECT_FE;
if (curproxy->mode == PR_MODE_HTTP) {
curproxy->fe_req_ana |= AN_REQ_WAIT_HTTP | AN_REQ_HTTP_PROCESS_FE;
curproxy->fe_rsp_ana |= AN_RES_WAIT_HTTP | AN_RES_HTTP_PROCESS_FE;
}
if (curproxy->mode == PR_MODE_CLI) {
curproxy->fe_req_ana |= AN_REQ_WAIT_CLI;
curproxy->fe_rsp_ana |= AN_RES_WAIT_CLI;
}
/* both TCP and HTTP must check switching rules */
curproxy->fe_req_ana |= AN_REQ_SWITCHING_RULES;
/* Add filters analyzers if needed */
if (!LIST_ISEMPTY(&curproxy->filter_configs)) {
curproxy->fe_req_ana |= AN_REQ_FLT_START_FE | AN_REQ_FLT_XFER_DATA | AN_REQ_FLT_END;
curproxy->fe_rsp_ana |= AN_RES_FLT_START_FE | AN_RES_FLT_XFER_DATA | AN_RES_FLT_END;
}
}
if (curproxy->cap & PR_CAP_BE) {
if (!LIST_ISEMPTY(&curproxy->tcp_req.inspect_rules) ||
(curproxy->defpx && !LIST_ISEMPTY(&curproxy->defpx->tcp_req.inspect_rules)))
curproxy->be_req_ana |= AN_REQ_INSPECT_BE;
if (!LIST_ISEMPTY(&curproxy->tcp_rep.inspect_rules) ||
(curproxy->defpx && !LIST_ISEMPTY(&curproxy->defpx->tcp_rep.inspect_rules)))
curproxy->be_rsp_ana |= AN_RES_INSPECT;
if (curproxy->mode == PR_MODE_HTTP) {
curproxy->be_req_ana |= AN_REQ_WAIT_HTTP | AN_REQ_HTTP_INNER | AN_REQ_HTTP_PROCESS_BE;
curproxy->be_rsp_ana |= AN_RES_WAIT_HTTP | AN_RES_HTTP_PROCESS_BE;
}
/* If the backend does requires RDP cookie persistence, we have to
* enable the corresponding analyser.
*/
if (curproxy->options2 & PR_O2_RDPC_PRST)
curproxy->be_req_ana |= AN_REQ_PRST_RDP_COOKIE;
/* Add filters analyzers if needed */
if (!LIST_ISEMPTY(&curproxy->filter_configs)) {
curproxy->be_req_ana |= AN_REQ_FLT_START_BE | AN_REQ_FLT_XFER_DATA | AN_REQ_FLT_END;
curproxy->be_rsp_ana |= AN_RES_FLT_START_BE | AN_RES_FLT_XFER_DATA | AN_RES_FLT_END;
}
}
/* Check the mux protocols, if any, for each listener and server
* attached to the current proxy */
list_for_each_entry(bind_conf, &curproxy->conf.bind, by_fe) {
int mode = conn_pr_mode_to_proto_mode(curproxy->mode);
const struct mux_proto_list *mux_ent;
if (bind_conf->xprt && bind_conf->xprt == xprt_get(XPRT_QUIC)) {
if (!bind_conf->mux_proto) {
/* No protocol was specified. If we're using QUIC at the transport
* layer, we'll instantiate it as a mux as well. If QUIC is not
* compiled in, this will remain NULL.
*/
bind_conf->mux_proto = get_mux_proto(ist("quic"));
}
if (bind_conf->options & BC_O_ACC_PROXY) {
ha_alert("Binding [%s:%d] for %s %s: QUIC protocol does not support PROXY protocol yet."
" 'accept-proxy' option cannot be used with a QUIC listener.\n",
bind_conf->file, bind_conf->line,
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
}
}
if (!bind_conf->mux_proto)
continue;
/* it is possible that an incorrect mux was referenced
* due to the proxy's mode not being taken into account
* on first pass. Let's adjust it now.
*/
mux_ent = conn_get_best_mux_entry(bind_conf->mux_proto->token, PROTO_SIDE_FE, mode);
if (!mux_ent || !isteq(mux_ent->token, bind_conf->mux_proto->token)) {
ha_alert("%s '%s' : MUX protocol '%.*s' is not usable for 'bind %s' at [%s:%d].\n",
proxy_type_str(curproxy), curproxy->id,
(int)bind_conf->mux_proto->token.len,
bind_conf->mux_proto->token.ptr,
bind_conf->arg, bind_conf->file, bind_conf->line);
cfgerr++;
} else {
if ((mux_ent->mux->flags & MX_FL_FRAMED) && !(bind_conf->options & BC_O_USE_SOCK_DGRAM)) {
ha_alert("%s '%s' : frame-based MUX protocol '%.*s' is incompatible with stream transport of 'bind %s' at [%s:%d].\n",
proxy_type_str(curproxy), curproxy->id,
(int)bind_conf->mux_proto->token.len,
bind_conf->mux_proto->token.ptr,
bind_conf->arg, bind_conf->file, bind_conf->line);
cfgerr++;
}
else if (!(mux_ent->mux->flags & MX_FL_FRAMED) && !(bind_conf->options & BC_O_USE_SOCK_STREAM)) {
ha_alert("%s '%s' : stream-based MUX protocol '%.*s' is incompatible with framed transport of 'bind %s' at [%s:%d].\n",
proxy_type_str(curproxy), curproxy->id,
(int)bind_conf->mux_proto->token.len,
bind_conf->mux_proto->token.ptr,
bind_conf->arg, bind_conf->file, bind_conf->line);
cfgerr++;
}
}
/* update the mux */
bind_conf->mux_proto = mux_ent;
}
for (newsrv = curproxy->srv; newsrv; newsrv = newsrv->next) {
int mode = conn_pr_mode_to_proto_mode(curproxy->mode);
const struct mux_proto_list *mux_ent;
if (!newsrv->mux_proto)
continue;
/* it is possible that an incorrect mux was referenced
* due to the proxy's mode not being taken into account
* on first pass. Let's adjust it now.
*/
mux_ent = conn_get_best_mux_entry(newsrv->mux_proto->token, PROTO_SIDE_BE, mode);
if (!mux_ent || !isteq(mux_ent->token, newsrv->mux_proto->token)) {
ha_alert("%s '%s' : MUX protocol '%.*s' is not usable for server '%s' at [%s:%d].\n",
proxy_type_str(curproxy), curproxy->id,
(int)newsrv->mux_proto->token.len,
newsrv->mux_proto->token.ptr,
newsrv->id, newsrv->conf.file, newsrv->conf.line);
cfgerr++;
}
/* update the mux */
newsrv->mux_proto = mux_ent;
}
/* Allocate default tcp-check rules for proxies without
* explicit rules.
*/
if (curproxy->cap & PR_CAP_BE) {
if (!(curproxy->options2 & PR_O2_CHK_ANY)) {
struct tcpcheck_ruleset *rs = NULL;
struct tcpcheck_rules *rules = &curproxy->tcpcheck_rules;
curproxy->options2 |= PR_O2_TCPCHK_CHK;
rs = find_tcpcheck_ruleset("*tcp-check");
if (!rs) {
rs = create_tcpcheck_ruleset("*tcp-check");
if (rs == NULL) {
ha_alert("config: %s '%s': out of memory.\n",
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
}
}
free_tcpcheck_vars(&rules->preset_vars);
rules->list = &rs->rules;
rules->flags = 0;
}
}
}
/*
* We have just initialized the main proxies list
* we must also configure the log-forward proxies list
*/
if (init_proxies_list == proxies_list) {
init_proxies_list = cfg_log_forward;
/* check if list is not null to avoid infinite loop */
if (init_proxies_list)
goto init_proxies_list_stage1;
}
if (init_proxies_list == cfg_log_forward) {
init_proxies_list = sink_proxies_list;
/* check if list is not null to avoid infinite loop */
if (init_proxies_list)
goto init_proxies_list_stage1;
}
/***********************************************************/
/* At this point, target names have already been resolved. */
/***********************************************************/
/* we must finish to initialize certain things on the servers */
MT_LIST_FOR_EACH_ENTRY_LOCKED(newsrv, &servers_list, global_list, back) {
/* initialize idle conns lists */
if (srv_init_per_thr(newsrv) == -1) {
ha_alert("parsing [%s:%d] : failed to allocate per-thread lists for server '%s'.\n",
newsrv->conf.file, newsrv->conf.line, newsrv->id);
cfgerr++;
continue;
}
if (newsrv->max_idle_conns != 0) {
newsrv->curr_idle_thr = calloc(global.nbthread, sizeof(*newsrv->curr_idle_thr));
if (!newsrv->curr_idle_thr) {
ha_alert("parsing [%s:%d] : failed to allocate idle connection tasks for server '%s'.\n",
newsrv->conf.file, newsrv->conf.line, newsrv->id);
cfgerr++;
continue;
}
}
}
idle_conn_task = task_new_anywhere();
if (!idle_conn_task) {
ha_alert("parsing : failed to allocate global idle connection task.\n");
cfgerr++;
}
else {
idle_conn_task->process = srv_cleanup_idle_conns;
idle_conn_task->context = NULL;
for (i = 0; i < global.nbthread; i++) {
idle_conns[i].cleanup_task = task_new_on(i);
if (!idle_conns[i].cleanup_task) {
ha_alert("parsing : failed to allocate idle connection tasks for thread '%d'.\n", i);
cfgerr++;
break;
}
idle_conns[i].cleanup_task->process = srv_cleanup_toremove_conns;
idle_conns[i].cleanup_task->context = NULL;
HA_SPIN_INIT(&idle_conns[i].idle_conns_lock);
MT_LIST_INIT(&idle_conns[i].toremove_conns);
}
}
/* perform the final checks before creating tasks */
/* starting to initialize the main proxies list */
init_proxies_list = proxies_list;
init_proxies_list_stage2:
for (curproxy = init_proxies_list; curproxy; curproxy = curproxy->next) {
struct listener *listener;
unsigned int next_id;
proxy_init_per_thr(curproxy);
/* Configure SSL for each bind line.
* Note: if configuration fails at some point, the ->ctx member
* remains NULL so that listeners can later detach.
*/
list_for_each_entry(bind_conf, &curproxy->conf.bind, by_fe) {
if (bind_conf->xprt->prepare_bind_conf &&
bind_conf->xprt->prepare_bind_conf(bind_conf) < 0)
cfgerr++;
bind_conf->analysers |= curproxy->fe_req_ana;
if (!bind_conf->maxaccept)
bind_conf->maxaccept = global.tune.maxaccept ? global.tune.maxaccept : MAX_ACCEPT;
bind_conf->accept = session_accept_fd;
if (curproxy->options & PR_O_TCP_NOLING)
bind_conf->options |= BC_O_NOLINGER;
/* smart accept mode is automatic in HTTP mode */
if ((curproxy->options2 & PR_O2_SMARTACC) ||
((curproxy->mode == PR_MODE_HTTP || (bind_conf->options & BC_O_USE_SSL)) &&
!(curproxy->no_options2 & PR_O2_SMARTACC)))
bind_conf->options |= BC_O_NOQUICKACK;
}
/* adjust this proxy's listeners */
bind_conf = NULL;
next_id = 1;
list_for_each_entry(listener, &curproxy->conf.listeners, by_fe) {
if (!listener->luid) {
/* listener ID not set, use automatic numbering with first
* spare entry starting with next_luid.
*/
if (listener->by_fe.p != &curproxy->conf.listeners) {
struct listener *prev_li = LIST_PREV(&listener->by_fe, typeof(prev_li), by_fe);
if (prev_li->luid)
next_id = prev_li->luid + 1;
}
next_id = get_next_id(&curproxy->conf.used_listener_id, next_id);
listener->conf.id.key = listener->luid = next_id;
eb32_insert(&curproxy->conf.used_listener_id, &listener->conf.id);
}
next_id++;
/* enable separate counters */
if (curproxy->options2 & PR_O2_SOCKSTAT) {
listener->counters = calloc(1, sizeof(*listener->counters));
if (!listener->name)
memprintf(&listener->name, "sock-%d", listener->luid);
}
#ifdef USE_QUIC
if (listener->bind_conf->xprt == xprt_get(XPRT_QUIC)) {
/* quic_conn are counted against maxconn. */
listener->bind_conf->options |= BC_O_XPRT_MAXCONN;
listener->rx.quic_curr_handshake = 0;
listener->rx.quic_curr_accept = 0;
# ifdef USE_QUIC_OPENSSL_COMPAT
/* store the last checked bind_conf in bind_conf */
if (!(global.tune.options & GTUNE_NO_QUIC) &&
!(global.tune.options & GTUNE_LIMITED_QUIC) &&
listener->bind_conf != bind_conf) {
bind_conf = listener->bind_conf;
ha_alert("Binding [%s:%d] for %s %s: this SSL library does not support the "
"QUIC protocol. A limited compatibility layer may be enabled using "
"the \"limited-quic\" global option if desired.\n",
listener->bind_conf->file, listener->bind_conf->line,
proxy_type_str(curproxy), curproxy->id);
cfgerr++;
}
# endif
li_init_per_thr(listener);
}
#endif
}
/* Release unused SSL configs */
list_for_each_entry(bind_conf, &curproxy->conf.bind, by_fe) {
if (!(bind_conf->options & BC_O_USE_SSL) && bind_conf->xprt->destroy_bind_conf)
bind_conf->xprt->destroy_bind_conf(bind_conf);
}
/* create the task associated with the proxy */
curproxy->task = task_new_anywhere();
if (curproxy->task) {
curproxy->task->context = curproxy;
curproxy->task->process = manage_proxy;
curproxy->flags |= PR_FL_READY;
} else {
ha_alert("Proxy '%s': no more memory when trying to allocate the management task\n",
curproxy->id);
cfgerr++;
}
}
/*
* We have just initialized the main proxies list
* we must also configure the log-forward proxies list
*/
if (init_proxies_list == proxies_list) {
init_proxies_list = cfg_log_forward;
/* check if list is not null to avoid infinite loop */
if (init_proxies_list)
goto init_proxies_list_stage2;
}
/*
* Recount currently required checks.
*/
for (curproxy=proxies_list; curproxy; curproxy=curproxy->next) {
int optnum;
for (optnum = 0; cfg_opts[optnum].name; optnum++)
if (curproxy->options & cfg_opts[optnum].val)
global.last_checks |= cfg_opts[optnum].checks;
for (optnum = 0; cfg_opts2[optnum].name; optnum++)
if (curproxy->options2 & cfg_opts2[optnum].val)
global.last_checks |= cfg_opts2[optnum].checks;
}
if (cfg_peers) {
struct peers *curpeers = cfg_peers, **last;
struct peer *p, *pb;
/* Remove all peers sections which don't have a valid listener,
* which are not used by any table, or which are bound to more
* than one process.
*/
last = &cfg_peers;
while (*last) {
struct peer *peer;
struct stktable *t;
curpeers = *last;
if (curpeers->disabled) {
/* the "disabled" keyword was present */
if (curpeers->peers_fe)
stop_proxy(curpeers->peers_fe);
curpeers->peers_fe = NULL;
}
else if (!curpeers->peers_fe || !curpeers->peers_fe->id) {
ha_warning("Removing incomplete section 'peers %s' (no peer named '%s').\n",
curpeers->id, localpeer);
if (curpeers->peers_fe)
stop_proxy(curpeers->peers_fe);
curpeers->peers_fe = NULL;
}
else {
/* Initializes the transport layer of the server part of all the peers belonging to
* <curpeers> section if required.
* Note that ->srv is used by the local peer of a new process to connect to the local peer
* of an old process.
*/
curpeers->peers_fe->flags |= PR_FL_READY;
p = curpeers->remote;
while (p) {
struct peer *other_peer;
for (other_peer = curpeers->remote; other_peer && other_peer != p; other_peer = other_peer->next) {
if (strcmp(other_peer->id, p->id) == 0) {
ha_alert("Peer section '%s' [%s:%d]: another peer named '%s' was already defined at line %s:%d, please use distinct names.\n",
curpeers->peers_fe->id,
p->conf.file, p->conf.line,
other_peer->id, other_peer->conf.file, other_peer->conf.line);
cfgerr++;
break;
}
}
if (p->srv) {
if (p->srv->use_ssl == 1 && xprt_get(XPRT_SSL) && xprt_get(XPRT_SSL)->prepare_srv)
cfgerr += xprt_get(XPRT_SSL)->prepare_srv(p->srv);
}
p = p->next;
}
/* Configure the SSL bindings of the local peer if required. */
if (!LIST_ISEMPTY(&curpeers->peers_fe->conf.bind)) {
struct list *l;
struct bind_conf *bind_conf;
int ret;
l = &curpeers->peers_fe->conf.bind;
bind_conf = LIST_ELEM(l->n, typeof(bind_conf), by_fe);
if (curpeers->local->srv) {
if (curpeers->local->srv->use_ssl == 1 && !(bind_conf->options & BC_O_USE_SSL)) {
ha_warning("Peers section '%s': local peer have a non-SSL listener and a SSL server configured at line %s:%d.\n",
curpeers->peers_fe->id, curpeers->local->conf.file, curpeers->local->conf.line);
}
else if (curpeers->local->srv->use_ssl != 1 && (bind_conf->options & BC_O_USE_SSL)) {
ha_warning("Peers section '%s': local peer have a SSL listener and a non-SSL server configured at line %s:%d.\n",
curpeers->peers_fe->id, curpeers->local->conf.file, curpeers->local->conf.line);
}
}
/* finish the bind setup */
ret = bind_complete_thread_setup(bind_conf, &err_code);
if (ret != 0) {
cfgerr += ret;
if (err_code & ERR_FATAL)
goto out;
}
if (bind_conf->xprt->prepare_bind_conf &&
bind_conf->xprt->prepare_bind_conf(bind_conf) < 0)
cfgerr++;
}
if (!peers_init_sync(curpeers) || !peers_alloc_dcache(curpeers)) {
ha_alert("Peers section '%s': out of memory, giving up on peers.\n",
curpeers->id);
cfgerr++;
break;
}
last = &curpeers->next;
/* Ignore the peer shard greater than the number of peer shard for this section.
* Also ignore the peer shard of the local peer.
*/
for (peer = curpeers->remote; peer; peer = peer->next) {
if (peer == curpeers->local) {
if (peer->srv->shard) {
ha_warning("Peers section '%s': shard ignored for '%s' local peer\n",
curpeers->id, peer->id);
peer->srv->shard = 0;
}
}
else if (peer->srv->shard > curpeers->nb_shards) {
ha_warning("Peers section '%s': shard ignored for '%s' local peer because "
"%d shard value is greater than the section number of shards (%d)\n",
curpeers->id, peer->id, peer->srv->shard, curpeers->nb_shards);
peer->srv->shard = 0;
}
}
continue;
}
/* clean what has been detected above */
p = curpeers->remote;
while (p) {
pb = p->next;
free(p->id);
free(p);
p = pb;
}
/* Destroy and unlink this curpeers section.
* Note: curpeers is backed up into *last.
*/
free(curpeers->id);
curpeers = curpeers->next;
/* Reset any refereance to this peers section in the list of stick-tables */
for (t = stktables_list; t; t = t->next) {
if (t->peers.p && t->peers.p == *last)
t->peers.p = NULL;
}
free(*last);
*last = curpeers;
}
}
for (t = stktables_list; t; t = t->next) {
if (t->proxy)
continue;
err = NULL;
if (!stktable_init(t, &err)) {
ha_alert("Parsing [%s:%d]: failed to initialize '%s' stick-table: %s.\n", t->conf.file, t->conf.line, t->id, err);
ha_free(&err);
cfgerr++;
}
}
/* initialize stick-tables on backend capable proxies. This must not
* be done earlier because the data size may be discovered while parsing
* other proxies.
*/
for (curproxy = proxies_list; curproxy; curproxy = curproxy->next) {
if ((curproxy->flags & PR_FL_DISABLED) || !curproxy->table)
continue;
err = NULL;
if (!stktable_init(curproxy->table, &err)) {
ha_alert("Proxy '%s': failed to initialize stick-table: %s.\n", curproxy->id, err);
ha_free(&err);
cfgerr++;
}
}
if (mailers) {
struct mailers *curmailers = mailers, **last;
struct mailer *m, *mb;
/* Remove all mailers sections which don't have a valid listener.
* This can happen when a mailers section is never referenced.
*/
last = &mailers;
while (*last) {
curmailers = *last;
if (curmailers->users) {
last = &curmailers->next;
continue;
}
ha_warning("Removing incomplete section 'mailers %s'.\n",
curmailers->id);
m = curmailers->mailer_list;
while (m) {
mb = m->next;
free(m->id);
free(m);
m = mb;
}
/* Destroy and unlink this curmailers section.
* Note: curmailers is backed up into *last.
*/
free(curmailers->id);
curmailers = curmailers->next;
free(*last);
*last = curmailers;
}
}
/* Update server_state_file_name to backend name if backend is supposed to use
* a server-state file locally defined and none has been provided */
for (curproxy = proxies_list; curproxy; curproxy = curproxy->next) {
if (curproxy->load_server_state_from_file == PR_SRV_STATE_FILE_LOCAL &&
curproxy->server_state_file_name == NULL)
curproxy->server_state_file_name = strdup(curproxy->id);
}
list_for_each_entry(curr_resolvers, &sec_resolvers, list) {
if (LIST_ISEMPTY(&curr_resolvers->nameservers)) {
ha_warning("resolvers '%s' [%s:%d] has no nameservers configured!\n",
curr_resolvers->id, curr_resolvers->conf.file,
curr_resolvers->conf.line);
err_code |= ERR_WARN;
}
}
list_for_each_entry(postparser, &postparsers, list) {
if (postparser->func)
cfgerr += postparser->func();
}
if (cfgerr > 0)
err_code |= ERR_ALERT | ERR_FATAL;
out:
return err_code;
}
/*
* Registers the CFG keyword list <kwl> as a list of valid keywords for next
* parsing sessions.
*/
void cfg_register_keywords(struct cfg_kw_list *kwl)
{
LIST_APPEND(&cfg_keywords.list, &kwl->list);
}
/*
* Unregisters the CFG keyword list <kwl> from the list of valid keywords.
*/
void cfg_unregister_keywords(struct cfg_kw_list *kwl)
{
LIST_DELETE(&kwl->list);
LIST_INIT(&kwl->list);
}
/* this function register new section in the haproxy configuration file.
* <section_name> is the name of this new section and <section_parser>
* is the called parser. If two section declaration have the same name,
* only the first declared is used.
*/
int cfg_register_section(char *section_name,
int (*section_parser)(const char *, int, char **, int),
int (*post_section_parser)())
{
struct cfg_section *cs;
if (section_parser) {
/* only checks if we register a section parser, not a post section callback */
list_for_each_entry(cs, &sections, list) {
if (strcmp(cs->section_name, section_name) == 0 && cs->section_parser) {
ha_alert("register section '%s': already registered.\n", section_name);
return 0;
}
}
}
cs = calloc(1, sizeof(*cs));
if (!cs) {
ha_alert("register section '%s': out of memory.\n", section_name);
return 0;
}
cs->section_name = section_name;
cs->section_parser = section_parser;
cs->post_section_parser = post_section_parser;
LIST_APPEND(&sections, &cs->list);
return 1;
}
/* this function register a new function which will be called once the haproxy
* configuration file has been parsed. It's useful to check dependencies
* between sections or to resolve items once everything is parsed.
*/
int cfg_register_postparser(char *name, int (*func)())
{
struct cfg_postparser *cp;
cp = calloc(1, sizeof(*cp));
if (!cp) {
ha_alert("register postparser '%s': out of memory.\n", name);
return 0;
}
cp->name = name;
cp->func = func;
LIST_APPEND(&postparsers, &cp->list);
return 1;
}
/*
* free all config section entries
*/
void cfg_unregister_sections(void)
{
struct cfg_section *cs, *ics;
list_for_each_entry_safe(cs, ics, &sections, list) {
LIST_DELETE(&cs->list);
free(cs);
}
}
void cfg_backup_sections(struct list *backup_sections)
{
struct cfg_section *cs, *ics;
list_for_each_entry_safe(cs, ics, &sections, list) {
LIST_DELETE(&cs->list);
LIST_APPEND(backup_sections, &cs->list);
}
}
void cfg_restore_sections(struct list *backup_sections)
{
struct cfg_section *cs, *ics;
list_for_each_entry_safe(cs, ics, backup_sections, list) {
LIST_DELETE(&cs->list);
LIST_APPEND(&sections, &cs->list);
}
}
/* dumps all registered keywords by section on stdout */
void cfg_dump_registered_keywords()
{
/* CFG_GLOBAL, CFG_LISTEN, CFG_USERLIST, CFG_PEERS, CFG_CRTLIST */
const char* sect_names[] = { "", "global", "listen", "userlist", "peers", "crt-list", 0 };
int section;
int index;
for (section = 1; sect_names[section]; section++) {
struct cfg_kw_list *kwl;
const struct cfg_keyword *kwp, *kwn;
printf("%s\n", sect_names[section]);
for (kwn = kwp = NULL;; kwp = kwn) {
list_for_each_entry(kwl, &cfg_keywords.list, list) {
for (index = 0; kwl->kw[index].kw != NULL; index++)
if (kwl->kw[index].section == section &&
strordered(kwp ? kwp->kw : NULL, kwl->kw[index].kw, kwn != kwp ? kwn->kw : NULL))
kwn = &kwl->kw[index];
}
if (kwn == kwp)
break;
printf("\t%s\n", kwn->kw);
}
if (section == CFG_LISTEN) {
/* there are plenty of other keywords there */
extern struct list tcp_req_conn_keywords, tcp_req_sess_keywords,
tcp_req_cont_keywords, tcp_res_cont_keywords;
extern struct bind_kw_list bind_keywords;
extern struct srv_kw_list srv_keywords;
struct bind_kw_list *bkwl;
struct srv_kw_list *skwl;
const struct bind_kw *bkwp, *bkwn;
const struct srv_kw *skwp, *skwn;
const struct cfg_opt *coptp, *coptn;
/* display the non-ssl keywords */
for (bkwn = bkwp = NULL;; bkwp = bkwn) {
list_for_each_entry(bkwl, &bind_keywords.list, list) {
if (strcmp(bkwl->scope, "SSL") == 0) /* skip SSL keywords */
continue;
for (index = 0; bkwl->kw[index].kw != NULL; index++) {
if (strordered(bkwp ? bkwp->kw : NULL,
bkwl->kw[index].kw,
bkwn != bkwp ? bkwn->kw : NULL))
bkwn = &bkwl->kw[index];
}
}
if (bkwn == bkwp)
break;
if (!bkwn->skip)
printf("\tbind <addr> %s\n", bkwn->kw);
else
printf("\tbind <addr> %s +%d\n", bkwn->kw, bkwn->skip);
}
#if defined(USE_OPENSSL)
/* displays the "ssl" keywords */
for (bkwn = bkwp = NULL;; bkwp = bkwn) {
list_for_each_entry(bkwl, &bind_keywords.list, list) {
if (strcmp(bkwl->scope, "SSL") != 0) /* skip non-SSL keywords */
continue;
for (index = 0; bkwl->kw[index].kw != NULL; index++) {
if (strordered(bkwp ? bkwp->kw : NULL,
bkwl->kw[index].kw,
bkwn != bkwp ? bkwn->kw : NULL))
bkwn = &bkwl->kw[index];
}
}
if (bkwn == bkwp)
break;
if (strcmp(bkwn->kw, "ssl") == 0) /* skip "bind <addr> ssl ssl" */
continue;
if (!bkwn->skip)
printf("\tbind <addr> ssl %s\n", bkwn->kw);
else
printf("\tbind <addr> ssl %s +%d\n", bkwn->kw, bkwn->skip);
}
#endif
for (skwn = skwp = NULL;; skwp = skwn) {
list_for_each_entry(skwl, &srv_keywords.list, list) {
for (index = 0; skwl->kw[index].kw != NULL; index++)
if (strordered(skwp ? skwp->kw : NULL,
skwl->kw[index].kw,
skwn != skwp ? skwn->kw : NULL))
skwn = &skwl->kw[index];
}
if (skwn == skwp)
break;
if (!skwn->skip)
printf("\tserver <name> <addr> %s\n", skwn->kw);
else
printf("\tserver <name> <addr> %s +%d\n", skwn->kw, skwn->skip);
}
for (coptn = coptp = NULL;; coptp = coptn) {
for (index = 0; cfg_opts[index].name; index++)
if (strordered(coptp ? coptp->name : NULL,
cfg_opts[index].name,
coptn != coptp ? coptn->name : NULL))
coptn = &cfg_opts[index];
for (index = 0; cfg_opts2[index].name; index++)
if (strordered(coptp ? coptp->name : NULL,
cfg_opts2[index].name,
coptn != coptp ? coptn->name : NULL))
coptn = &cfg_opts2[index];
if (coptn == coptp)
break;
printf("\toption %s [ ", coptn->name);
if (coptn->cap & PR_CAP_FE)
printf("FE ");
if (coptn->cap & PR_CAP_BE)
printf("BE ");
if (coptn->mode == PR_MODE_HTTP)
printf("HTTP ");
printf("]\n");
}
dump_act_rules(&tcp_req_conn_keywords, "\ttcp-request connection ");
dump_act_rules(&tcp_req_sess_keywords, "\ttcp-request session ");
dump_act_rules(&tcp_req_cont_keywords, "\ttcp-request content ");
dump_act_rules(&tcp_res_cont_keywords, "\ttcp-response content ");
dump_act_rules(&http_req_keywords.list, "\thttp-request ");
dump_act_rules(&http_res_keywords.list, "\thttp-response ");
dump_act_rules(&http_after_res_keywords.list, "\thttp-after-response ");
}
if (section == CFG_PEERS) {
struct peers_kw_list *pkwl;
const struct peers_keyword *pkwp, *pkwn;
for (pkwn = pkwp = NULL;; pkwp = pkwn) {
list_for_each_entry(pkwl, &peers_keywords.list, list) {
for (index = 0; pkwl->kw[index].kw != NULL; index++) {
if (strordered(pkwp ? pkwp->kw : NULL,
pkwl->kw[index].kw,
pkwn != pkwp ? pkwn->kw : NULL))
pkwn = &pkwl->kw[index];
}
}
if (pkwn == pkwp)
break;
printf("\t%s\n", pkwn->kw);
}
}
if (section == CFG_CRTLIST) {
/* displays the keyword available for the crt-lists */
extern struct ssl_crtlist_kw ssl_crtlist_kws[] __maybe_unused;
const struct ssl_crtlist_kw *sbkwp __maybe_unused, *sbkwn __maybe_unused;
#if defined(USE_OPENSSL)
for (sbkwn = sbkwp = NULL;; sbkwp = sbkwn) {
for (index = 0; ssl_crtlist_kws[index].kw != NULL; index++) {
if (strordered(sbkwp ? sbkwp->kw : NULL,
ssl_crtlist_kws[index].kw,
sbkwn != sbkwp ? sbkwn->kw : NULL))
sbkwn = &ssl_crtlist_kws[index];
}
if (sbkwn == sbkwp)
break;
if (!sbkwn->skip)
printf("\t%s\n", sbkwn->kw);
else
printf("\t%s +%d\n", sbkwn->kw, sbkwn->skip);
}
#endif
}
}
}
/* these are the config sections handled by default */
REGISTER_CONFIG_SECTION("listen", cfg_parse_listen, NULL);
REGISTER_CONFIG_SECTION("frontend", cfg_parse_listen, NULL);
REGISTER_CONFIG_SECTION("backend", cfg_parse_listen, NULL);
REGISTER_CONFIG_SECTION("defaults", cfg_parse_listen, NULL);
REGISTER_CONFIG_SECTION("global", cfg_parse_global, NULL);
REGISTER_CONFIG_SECTION("userlist", cfg_parse_users, NULL);
REGISTER_CONFIG_SECTION("peers", cfg_parse_peers, NULL);
REGISTER_CONFIG_SECTION("mailers", cfg_parse_mailers, NULL);
REGISTER_CONFIG_SECTION("namespace_list", cfg_parse_netns, NULL);
REGISTER_CONFIG_SECTION("traces", cfg_parse_traces, NULL);
static struct cfg_kw_list cfg_kws = {{ },{
{ CFG_GLOBAL, "default-path", cfg_parse_global_def_path },
{ /* END */ }
}};
INITCALL1(STG_REGISTER, cfg_register_keywords, &cfg_kws);
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/
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