blob: 13b5c5e86303cac31367d5e655e7035590bb13b4 [file] [log] [blame]
/*
* General logging functions.
*
* Copyright 2000-2008 Willy Tarreau <w@1wt.eu>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*
*/
#include <ctype.h>
#include <fcntl.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include <time.h>
#include <unistd.h>
#include <errno.h>
#include <sys/time.h>
#include <sys/uio.h>
#include <haproxy/api.h>
#include <haproxy/applet-t.h>
#include <haproxy/cfgparse.h>
#include <haproxy/cli.h>
#include <haproxy/fd.h>
#include <haproxy/frontend.h>
#include <haproxy/global.h>
#include <haproxy/http.h>
#include <haproxy/listener.h>
#include <haproxy/log.h>
#include <haproxy/proxy.h>
#include <haproxy/ring.h>
#include <haproxy/sample.h>
#include <haproxy/sink.h>
#include <haproxy/ssl_sock.h>
#include <haproxy/stream.h>
#include <haproxy/stream_interface.h>
#include <haproxy/time.h>
#include <haproxy/tools.h>
#include <haproxy/version.h>
/* global recv logs counter */
int cum_log_messages;
/* log forward proxy list */
struct proxy *cfg_log_forward;
struct log_fmt_st {
char *name;
};
static const struct log_fmt_st log_formats[LOG_FORMATS] = {
[LOG_FORMAT_LOCAL] = {
.name = "local",
},
[LOG_FORMAT_RFC3164] = {
.name = "rfc3164",
},
[LOG_FORMAT_RFC5424] = {
.name = "rfc5424",
},
[LOG_FORMAT_PRIO] = {
.name = "priority",
},
[LOG_FORMAT_SHORT] = {
.name = "short",
},
[LOG_FORMAT_TIMED] = {
.name = "timed",
},
[LOG_FORMAT_ISO] = {
.name = "iso",
},
[LOG_FORMAT_RAW] = {
.name = "raw",
},
};
/*
* This map is used with all the FD_* macros to check whether a particular bit
* is set or not. Each bit represents an ACSII code. ha_bit_set() sets those
* bytes which should be escaped. When ha_bit_test() returns non-zero, it means
* that the byte should be escaped. Be careful to always pass bytes from 0 to
* 255 exclusively to the macros.
*/
long rfc5424_escape_map[(256/8) / sizeof(long)];
long hdr_encode_map[(256/8) / sizeof(long)];
long url_encode_map[(256/8) / sizeof(long)];
long http_encode_map[(256/8) / sizeof(long)];
const char *log_facilities[NB_LOG_FACILITIES] = {
"kern", "user", "mail", "daemon",
"auth", "syslog", "lpr", "news",
"uucp", "cron", "auth2", "ftp",
"ntp", "audit", "alert", "cron2",
"local0", "local1", "local2", "local3",
"local4", "local5", "local6", "local7"
};
const char *log_levels[NB_LOG_LEVELS] = {
"emerg", "alert", "crit", "err",
"warning", "notice", "info", "debug"
};
const char sess_term_cond[16] = "-LcCsSPRIDKUIIII"; /* normal, Local, CliTo, CliErr, SrvTo, SrvErr, PxErr, Resource, Internal, Down, Killed, Up, -- */
const char sess_fin_state[8] = "-RCHDLQT"; /* cliRequest, srvConnect, srvHeader, Data, Last, Queue, Tarpit */
/* log_format */
struct logformat_type {
char *name;
int type;
int mode;
int lw; /* logwait bitsfield */
int (*config_callback)(struct logformat_node *node, struct proxy *curproxy);
const char *replace_by; /* new option to use instead of old one */
};
int prepare_addrsource(struct logformat_node *node, struct proxy *curproxy);
/* log_format variable names */
static const struct logformat_type logformat_keywords[] = {
{ "o", LOG_FMT_GLOBAL, PR_MODE_TCP, 0, NULL }, /* global option */
/* please keep these lines sorted ! */
{ "B", LOG_FMT_BYTES, PR_MODE_TCP, LW_BYTES, NULL }, /* bytes from server to client */
{ "CC", LOG_FMT_CCLIENT, PR_MODE_HTTP, LW_REQHDR, NULL }, /* client cookie */
{ "CS", LOG_FMT_CSERVER, PR_MODE_HTTP, LW_RSPHDR, NULL }, /* server cookie */
{ "H", LOG_FMT_HOSTNAME, PR_MODE_TCP, LW_INIT, NULL }, /* Hostname */
{ "ID", LOG_FMT_UNIQUEID, PR_MODE_TCP, LW_BYTES, NULL }, /* Unique ID */
{ "ST", LOG_FMT_STATUS, PR_MODE_TCP, LW_RESP, NULL }, /* status code */
{ "T", LOG_FMT_DATEGMT, PR_MODE_TCP, LW_INIT, NULL }, /* date GMT */
{ "Ta", LOG_FMT_Ta, PR_MODE_HTTP, LW_BYTES, NULL }, /* Time active (tr to end) */
{ "Tc", LOG_FMT_TC, PR_MODE_TCP, LW_BYTES, NULL }, /* Tc */
{ "Th", LOG_FMT_Th, PR_MODE_TCP, LW_BYTES, NULL }, /* Time handshake */
{ "Ti", LOG_FMT_Ti, PR_MODE_HTTP, LW_BYTES, NULL }, /* Time idle */
{ "Tl", LOG_FMT_DATELOCAL, PR_MODE_TCP, LW_INIT, NULL }, /* date local timezone */
{ "Tq", LOG_FMT_TQ, PR_MODE_HTTP, LW_BYTES, NULL }, /* Tq=Th+Ti+TR */
{ "Tr", LOG_FMT_Tr, PR_MODE_HTTP, LW_BYTES, NULL }, /* Tr */
{ "TR", LOG_FMT_TR, PR_MODE_HTTP, LW_BYTES, NULL }, /* Time to receive a valid request */
{ "Td", LOG_FMT_TD, PR_MODE_TCP, LW_BYTES, NULL }, /* Td = Tt - (Tq + Tw + Tc + Tr) */
{ "Ts", LOG_FMT_TS, PR_MODE_TCP, LW_INIT, NULL }, /* timestamp GMT */
{ "Tt", LOG_FMT_TT, PR_MODE_TCP, LW_BYTES, NULL }, /* Tt */
{ "Tu", LOG_FMT_TU, PR_MODE_TCP, LW_BYTES, NULL }, /* Tu = Tt -Ti */
{ "Tw", LOG_FMT_TW, PR_MODE_TCP, LW_BYTES, NULL }, /* Tw */
{ "U", LOG_FMT_BYTES_UP, PR_MODE_TCP, LW_BYTES, NULL }, /* bytes from client to server */
{ "ac", LOG_FMT_ACTCONN, PR_MODE_TCP, LW_BYTES, NULL }, /* actconn */
{ "b", LOG_FMT_BACKEND, PR_MODE_TCP, LW_INIT, NULL }, /* backend */
{ "bc", LOG_FMT_BECONN, PR_MODE_TCP, LW_BYTES, NULL }, /* beconn */
{ "bi", LOG_FMT_BACKENDIP, PR_MODE_TCP, LW_BCKIP, prepare_addrsource }, /* backend source ip */
{ "bp", LOG_FMT_BACKENDPORT, PR_MODE_TCP, LW_BCKIP, prepare_addrsource }, /* backend source port */
{ "bq", LOG_FMT_BCKQUEUE, PR_MODE_TCP, LW_BYTES, NULL }, /* backend_queue */
{ "ci", LOG_FMT_CLIENTIP, PR_MODE_TCP, LW_CLIP | LW_XPRT, NULL }, /* client ip */
{ "cp", LOG_FMT_CLIENTPORT, PR_MODE_TCP, LW_CLIP | LW_XPRT, NULL }, /* client port */
{ "f", LOG_FMT_FRONTEND, PR_MODE_TCP, LW_INIT, NULL }, /* frontend */
{ "fc", LOG_FMT_FECONN, PR_MODE_TCP, LW_BYTES, NULL }, /* feconn */
{ "fi", LOG_FMT_FRONTENDIP, PR_MODE_TCP, LW_FRTIP | LW_XPRT, NULL }, /* frontend ip */
{ "fp", LOG_FMT_FRONTENDPORT, PR_MODE_TCP, LW_FRTIP | LW_XPRT, NULL }, /* frontend port */
{ "ft", LOG_FMT_FRONTEND_XPRT, PR_MODE_TCP, LW_INIT, NULL }, /* frontend with transport mode */
{ "hr", LOG_FMT_HDRREQUEST, PR_MODE_TCP, LW_REQHDR, NULL }, /* header request */
{ "hrl", LOG_FMT_HDRREQUESTLIST, PR_MODE_TCP, LW_REQHDR, NULL }, /* header request list */
{ "hs", LOG_FMT_HDRRESPONS, PR_MODE_TCP, LW_RSPHDR, NULL }, /* header response */
{ "hsl", LOG_FMT_HDRRESPONSLIST, PR_MODE_TCP, LW_RSPHDR, NULL }, /* header response list */
{ "HM", LOG_FMT_HTTP_METHOD, PR_MODE_HTTP, LW_REQ, NULL }, /* HTTP method */
{ "HP", LOG_FMT_HTTP_PATH, PR_MODE_HTTP, LW_REQ, NULL }, /* HTTP relative or absolute path */
{ "HPO", LOG_FMT_HTTP_PATH_ONLY, PR_MODE_HTTP, LW_REQ, NULL }, /* HTTP path only (without host nor query string) */
{ "HQ", LOG_FMT_HTTP_QUERY, PR_MODE_HTTP, LW_REQ, NULL }, /* HTTP query */
{ "HU", LOG_FMT_HTTP_URI, PR_MODE_HTTP, LW_REQ, NULL }, /* HTTP full URI */
{ "HV", LOG_FMT_HTTP_VERSION, PR_MODE_HTTP, LW_REQ, NULL }, /* HTTP version */
{ "lc", LOG_FMT_LOGCNT, PR_MODE_TCP, LW_INIT, NULL }, /* log counter */
{ "ms", LOG_FMT_MS, PR_MODE_TCP, LW_INIT, NULL }, /* accept date millisecond */
{ "pid", LOG_FMT_PID, PR_MODE_TCP, LW_INIT, NULL }, /* log pid */
{ "r", LOG_FMT_REQ, PR_MODE_HTTP, LW_REQ, NULL }, /* request */
{ "rc", LOG_FMT_RETRIES, PR_MODE_TCP, LW_BYTES, NULL }, /* retries */
{ "rt", LOG_FMT_COUNTER, PR_MODE_TCP, LW_REQ, NULL }, /* request counter (HTTP or TCP session) */
{ "s", LOG_FMT_SERVER, PR_MODE_TCP, LW_SVID, NULL }, /* server */
{ "sc", LOG_FMT_SRVCONN, PR_MODE_TCP, LW_BYTES, NULL }, /* srv_conn */
{ "si", LOG_FMT_SERVERIP, PR_MODE_TCP, LW_SVIP, NULL }, /* server destination ip */
{ "sp", LOG_FMT_SERVERPORT, PR_MODE_TCP, LW_SVIP, NULL }, /* server destination port */
{ "sq", LOG_FMT_SRVQUEUE, PR_MODE_TCP, LW_BYTES, NULL }, /* srv_queue */
{ "sslc", LOG_FMT_SSL_CIPHER, PR_MODE_TCP, LW_XPRT, NULL }, /* client-side SSL ciphers */
{ "sslv", LOG_FMT_SSL_VERSION, PR_MODE_TCP, LW_XPRT, NULL }, /* client-side SSL protocol version */
{ "t", LOG_FMT_DATE, PR_MODE_TCP, LW_INIT, NULL }, /* date */
{ "tr", LOG_FMT_tr, PR_MODE_HTTP, LW_INIT, NULL }, /* date of start of request */
{ "trg",LOG_FMT_trg, PR_MODE_HTTP, LW_INIT, NULL }, /* date of start of request, GMT */
{ "trl",LOG_FMT_trl, PR_MODE_HTTP, LW_INIT, NULL }, /* date of start of request, local */
{ "ts", LOG_FMT_TERMSTATE, PR_MODE_TCP, LW_BYTES, NULL },/* termination state */
{ "tsc", LOG_FMT_TERMSTATE_CK, PR_MODE_TCP, LW_INIT, NULL },/* termination state */
/* The following tags are deprecated and will be removed soon */
{ "Bi", LOG_FMT_BACKENDIP, PR_MODE_TCP, LW_BCKIP, prepare_addrsource, "bi" }, /* backend source ip */
{ "Bp", LOG_FMT_BACKENDPORT, PR_MODE_TCP, LW_BCKIP, prepare_addrsource, "bp" }, /* backend source port */
{ "Ci", LOG_FMT_CLIENTIP, PR_MODE_TCP, LW_CLIP | LW_XPRT, NULL, "ci" }, /* client ip */
{ "Cp", LOG_FMT_CLIENTPORT, PR_MODE_TCP, LW_CLIP | LW_XPRT, NULL, "cp" }, /* client port */
{ "Fi", LOG_FMT_FRONTENDIP, PR_MODE_TCP, LW_FRTIP | LW_XPRT, NULL, "fi" }, /* frontend ip */
{ "Fp", LOG_FMT_FRONTENDPORT, PR_MODE_TCP, LW_FRTIP | LW_XPRT, NULL, "fp" }, /* frontend port */
{ "Si", LOG_FMT_SERVERIP, PR_MODE_TCP, LW_SVIP, NULL, "si" }, /* server destination ip */
{ "Sp", LOG_FMT_SERVERPORT, PR_MODE_TCP, LW_SVIP, NULL, "sp" }, /* server destination port */
{ "cc", LOG_FMT_CCLIENT, PR_MODE_HTTP, LW_REQHDR, NULL, "CC" }, /* client cookie */
{ "cs", LOG_FMT_CSERVER, PR_MODE_HTTP, LW_RSPHDR, NULL, "CS" }, /* server cookie */
{ "st", LOG_FMT_STATUS, PR_MODE_HTTP, LW_RESP, NULL, "ST" }, /* status code */
{ 0, 0, 0, 0, NULL }
};
char default_http_log_format[] = "%ci:%cp [%tr] %ft %b/%s %TR/%Tw/%Tc/%Tr/%Ta %ST %B %CC %CS %tsc %ac/%fc/%bc/%sc/%rc %sq/%bq %hr %hs %{+Q}r"; // default format
char clf_http_log_format[] = "%{+Q}o %{-Q}ci - - [%trg] %r %ST %B \"\" \"\" %cp %ms %ft %b %s %TR %Tw %Tc %Tr %Ta %tsc %ac %fc %bc %sc %rc %sq %bq %CC %CS %hrl %hsl";
char default_tcp_log_format[] = "%ci:%cp [%t] %ft %b/%s %Tw/%Tc/%Tt %B %ts %ac/%fc/%bc/%sc/%rc %sq/%bq";
char *log_format = NULL;
/* Default string used for structured-data part in RFC5424 formatted
* syslog messages.
*/
char default_rfc5424_sd_log_format[] = "- ";
/* total number of dropped logs */
unsigned int dropped_logs = 0;
/* This is a global syslog message buffer, common to all outgoing
* messages. It contains only the data part.
*/
THREAD_LOCAL char *logline = NULL;
/* A global syslog message buffer, common to all RFC5424 syslog messages.
* Currently, it is used for generating the structured-data part.
*/
THREAD_LOCAL char *logline_rfc5424 = NULL;
/* A global buffer used to store all startup alerts/warnings. It will then be
* retrieve on the CLI. */
static struct ring *startup_logs = NULL;
struct logformat_var_args {
char *name;
int mask;
};
struct logformat_var_args var_args_list[] = {
// global
{ "M", LOG_OPT_MANDATORY },
{ "Q", LOG_OPT_QUOTE },
{ "X", LOG_OPT_HEXA },
{ "E", LOG_OPT_ESC },
{ 0, 0 }
};
/* return the name of the directive used in the current proxy for which we're
* currently parsing a header, when it is known.
*/
static inline const char *fmt_directive(const struct proxy *curproxy)
{
switch (curproxy->conf.args.ctx) {
case ARGC_ACL:
return "acl";
case ARGC_STK:
return "stick";
case ARGC_TRK:
return "track-sc";
case ARGC_LOG:
return "log-format";
case ARGC_LOGSD:
return "log-format-sd";
case ARGC_HRQ:
return "http-request";
case ARGC_HRS:
return "http-response";
case ARGC_UIF:
return "unique-id-format";
case ARGC_RDR:
return "redirect";
case ARGC_CAP:
return "capture";
case ARGC_SRV:
return "server";
case ARGC_SPOE:
return "spoe-message";
case ARGC_UBK:
return "use_backend";
case ARGC_HERR:
return "http-error";
case ARGC_OT:
return "ot-scope";
default:
return "undefined(please report this bug)"; /* must never happen */
}
}
/*
* callback used to configure addr source retrieval
*/
int prepare_addrsource(struct logformat_node *node, struct proxy *curproxy)
{
curproxy->options2 |= PR_O2_SRC_ADDR;
return 0;
}
/*
* Parse args in a logformat_var. Returns 0 in error
* case, otherwise, it returns 1.
*/
int parse_logformat_var_args(char *args, struct logformat_node *node, char **err)
{
int i = 0;
int end = 0;
int flags = 0; // 1 = + 2 = -
char *sp = NULL; // start pointer
if (args == NULL) {
memprintf(err, "internal error: parse_logformat_var_args() expects non null 'args'");
return 0;
}
while (1) {
if (*args == '\0')
end = 1;
if (*args == '+') {
// add flag
sp = args + 1;
flags = 1;
}
if (*args == '-') {
// delete flag
sp = args + 1;
flags = 2;
}
if (*args == '\0' || *args == ',') {
*args = '\0';
for (i = 0; sp && var_args_list[i].name; i++) {
if (strcmp(sp, var_args_list[i].name) == 0) {
if (flags == 1) {
node->options |= var_args_list[i].mask;
break;
} else if (flags == 2) {
node->options &= ~var_args_list[i].mask;
break;
}
}
}
sp = NULL;
if (end)
break;
}
args++;
}
return 1;
}
/*
* Parse a variable '%varname' or '%{args}varname' in log-format. The caller
* must pass the args part in the <arg> pointer with its length in <arg_len>,
* and varname with its length in <var> and <var_len> respectively. <arg> is
* ignored when arg_len is 0. Neither <var> nor <var_len> may be null.
* Returns false in error case and err is filled, otherwise returns true.
*/
int parse_logformat_var(char *arg, int arg_len, char *var, int var_len, struct proxy *curproxy, struct list *list_format, int *defoptions, char **err)
{
int j;
struct logformat_node *node = NULL;
for (j = 0; logformat_keywords[j].name; j++) { // search a log type
if (strlen(logformat_keywords[j].name) == var_len &&
strncmp(var, logformat_keywords[j].name, var_len) == 0) {
if (logformat_keywords[j].mode != PR_MODE_HTTP || curproxy->mode == PR_MODE_HTTP) {
node = calloc(1, sizeof(*node));
if (!node) {
memprintf(err, "out of memory error");
goto error_free;
}
node->type = logformat_keywords[j].type;
node->options = *defoptions;
if (arg_len) {
node->arg = my_strndup(arg, arg_len);
if (!parse_logformat_var_args(node->arg, node, err))
goto error_free;
}
if (node->type == LOG_FMT_GLOBAL) {
*defoptions = node->options;
free(node->arg);
free(node);
} else {
if (logformat_keywords[j].config_callback &&
logformat_keywords[j].config_callback(node, curproxy) != 0) {
goto error_free;
}
curproxy->to_log |= logformat_keywords[j].lw;
LIST_APPEND(list_format, &node->list);
}
if (logformat_keywords[j].replace_by)
ha_warning("parsing [%s:%d] : deprecated variable '%s' in '%s', please replace it with '%s'.\n",
curproxy->conf.args.file, curproxy->conf.args.line,
logformat_keywords[j].name, fmt_directive(curproxy), logformat_keywords[j].replace_by);
return 1;
} else {
memprintf(err, "format variable '%s' is reserved for HTTP mode",
logformat_keywords[j].name);
goto error_free;
}
}
}
j = var[var_len];
var[var_len] = 0;
memprintf(err, "no such format variable '%s'. If you wanted to emit the '%%' character verbatim, you need to use '%%%%'", var);
var[var_len] = j;
error_free:
if (node) {
free(node->arg);
free(node);
}
return 0;
}
/*
* push to the logformat linked list
*
* start: start pointer
* end: end text pointer
* type: string type
* list_format: destination list
*
* LOG_TEXT: copy chars from start to end excluding end.
*
*/
int add_to_logformat_list(char *start, char *end, int type, struct list *list_format, char **err)
{
char *str;
if (type == LF_TEXT) { /* type text */
struct logformat_node *node = calloc(1, sizeof(*node));
if (!node) {
memprintf(err, "out of memory error");
return 0;
}
str = calloc(1, end - start + 1);
strncpy(str, start, end - start);
str[end - start] = '\0';
node->arg = str;
node->type = LOG_FMT_TEXT; // type string
LIST_APPEND(list_format, &node->list);
} else if (type == LF_SEPARATOR) {
struct logformat_node *node = calloc(1, sizeof(*node));
if (!node) {
memprintf(err, "out of memory error");
return 0;
}
node->type = LOG_FMT_SEPARATOR;
LIST_APPEND(list_format, &node->list);
}
return 1;
}
/*
* Parse the sample fetch expression <text> and add a node to <list_format> upon
* success. At the moment, sample converters are not yet supported but fetch arguments
* should work. The curpx->conf.args.ctx must be set by the caller. If an end pointer
* is passed in <endptr>, it will be updated with the pointer to the first character
* not part of the sample expression.
*
* In error case, the function returns 0, otherwise it returns 1.
*/
int add_sample_to_logformat_list(char *text, char *arg, int arg_len, struct proxy *curpx, struct list *list_format, int options, int cap, char **err, char **endptr)
{
char *cmd[2];
struct sample_expr *expr = NULL;
struct logformat_node *node = NULL;
int cmd_arg;
cmd[0] = text;
cmd[1] = "";
cmd_arg = 0;
expr = sample_parse_expr(cmd, &cmd_arg, curpx->conf.args.file, curpx->conf.args.line, err,
(curpx->cap & PR_CAP_DEF) ? NULL: &curpx->conf.args, endptr);
if (!expr) {
memprintf(err, "failed to parse sample expression <%s> : %s", text, *err);
goto error_free;
}
node = calloc(1, sizeof(*node));
if (!node) {
memprintf(err, "out of memory error");
goto error_free;
}
node->type = LOG_FMT_EXPR;
node->expr = expr;
node->options = options;
if (arg_len) {
node->arg = my_strndup(arg, arg_len);
if (!parse_logformat_var_args(node->arg, node, err))
goto error_free;
}
if (expr->fetch->val & cap & SMP_VAL_REQUEST)
node->options |= LOG_OPT_REQ_CAP; /* fetch method is request-compatible */
if (expr->fetch->val & cap & SMP_VAL_RESPONSE)
node->options |= LOG_OPT_RES_CAP; /* fetch method is response-compatible */
if (!(expr->fetch->val & cap)) {
memprintf(err, "sample fetch <%s> may not be reliably used here because it needs '%s' which is not available here",
text, sample_src_names(expr->fetch->use));
goto error_free;
}
if ((options & LOG_OPT_HTTP) && (expr->fetch->use & (SMP_USE_L6REQ|SMP_USE_L6RES))) {
ha_warning("parsing [%s:%d] : L6 sample fetch <%s> ignored in HTTP log-format string.\n",
curpx->conf.args.file, curpx->conf.args.line, text);
}
/* check if we need to allocate an http_txn struct for HTTP parsing */
/* Note, we may also need to set curpx->to_log with certain fetches */
curpx->http_needed |= !!(expr->fetch->use & SMP_USE_HTTP_ANY);
/* FIXME: temporary workaround for missing LW_XPRT and LW_REQ flags
* needed with some sample fetches (eg: ssl*). We always set it for
* now on, but this will leave with sample capabilities soon.
*/
curpx->to_log |= LW_XPRT;
if (curpx->http_needed)
curpx->to_log |= LW_REQ;
LIST_APPEND(list_format, &node->list);
return 1;
error_free:
release_sample_expr(expr);
if (node) {
free(node->arg);
free(node);
}
return 0;
}
/*
* Parse the log_format string and fill a linked list.
* Variable name are preceded by % and composed by characters [a-zA-Z0-9]* : %varname
* You can set arguments using { } : %{many arguments}varname.
* The curproxy->conf.args.ctx must be set by the caller.
*
* fmt: the string to parse
* curproxy: the proxy affected
* list_format: the destination list
* options: LOG_OPT_* to force on every node
* cap: all SMP_VAL_* flags supported by the consumer
*
* The function returns 1 in success case, otherwise, it returns 0 and err is filled.
*/
int parse_logformat_string(const char *fmt, struct proxy *curproxy, struct list *list_format, int options, int cap, char **err)
{
char *sp, *str, *backfmt; /* start pointer for text parts */
char *arg = NULL; /* start pointer for args */
char *var = NULL; /* start pointer for vars */
int arg_len = 0;
int var_len = 0;
int cformat; /* current token format */
int pformat; /* previous token format */
struct logformat_node *tmplf, *back;
sp = str = backfmt = strdup(fmt);
if (!str) {
memprintf(err, "out of memory error");
return 0;
}
curproxy->to_log |= LW_INIT;
/* flush the list first. */
list_for_each_entry_safe(tmplf, back, list_format, list) {
LIST_DELETE(&tmplf->list);
release_sample_expr(tmplf->expr);
free(tmplf->arg);
free(tmplf);
}
for (cformat = LF_INIT; cformat != LF_END; str++) {
pformat = cformat;
if (!*str)
cformat = LF_END; // preset it to save all states from doing this
/* The principle of the two-step state machine below is to first detect a change, and
* second have all common paths processed at one place. The common paths are the ones
* encountered in text areas (LF_INIT, LF_TEXT, LF_SEPARATOR) and at the end (LF_END).
* We use the common LF_INIT state to dispatch to the different final states.
*/
switch (pformat) {
case LF_STARTVAR: // text immediately following a '%'
arg = NULL; var = NULL;
arg_len = var_len = 0;
if (*str == '{') { // optional argument
cformat = LF_STARG;
arg = str + 1;
}
else if (*str == '[') {
cformat = LF_STEXPR;
var = str + 1; // store expr in variable name
}
else if (isalpha((unsigned char)*str)) { // variable name
cformat = LF_VAR;
var = str;
}
else if (*str == '%')
cformat = LF_TEXT; // convert this character to a literal (useful for '%')
else if (isdigit((unsigned char)*str) || *str == ' ' || *str == '\t') {
/* single '%' followed by blank or digit, send them both */
cformat = LF_TEXT;
pformat = LF_TEXT; /* finally we include the previous char as well */
sp = str - 1; /* send both the '%' and the current char */
memprintf(err, "unexpected variable name near '%c' at position %d line : '%s'. Maybe you want to write a single '%%', use the syntax '%%%%'",
*str, (int)(str - backfmt), fmt);
goto fail;
}
else
cformat = LF_INIT; // handle other cases of literals
break;
case LF_STARG: // text immediately following '%{'
if (*str == '}') { // end of arg
cformat = LF_EDARG;
arg_len = str - arg;
*str = 0; // used for reporting errors
}
break;
case LF_EDARG: // text immediately following '%{arg}'
if (*str == '[') {
cformat = LF_STEXPR;
var = str + 1; // store expr in variable name
break;
}
else if (isalnum((unsigned char)*str)) { // variable name
cformat = LF_VAR;
var = str;
break;
}
memprintf(err, "parse argument modifier without variable name near '%%{%s}'", arg);
goto fail;
case LF_STEXPR: // text immediately following '%['
/* the whole sample expression is parsed at once,
* returning the pointer to the first character not
* part of the expression, which MUST be the trailing
* angle bracket.
*/
if (!add_sample_to_logformat_list(var, arg, arg_len, curproxy, list_format, options, cap, err, &str))
goto fail;
if (*str == ']') {
// end of arg, go on with next state
cformat = pformat = LF_EDEXPR;
sp = str;
}
else {
char c = *str;
*str = 0;
if (isprint((unsigned char)c))
memprintf(err, "expected ']' after '%s', but found '%c'", var, c);
else
memprintf(err, "missing ']' after '%s'", var);
goto fail;
}
break;
case LF_VAR: // text part of a variable name
var_len = str - var;
if (!isalnum((unsigned char)*str))
cformat = LF_INIT; // not variable name anymore
break;
default: // LF_INIT, LF_TEXT, LF_SEPARATOR, LF_END, LF_EDEXPR
cformat = LF_INIT;
}
if (cformat == LF_INIT) { /* resynchronize state to text/sep/startvar */
switch (*str) {
case '%': cformat = LF_STARTVAR; break;
case 0 : cformat = LF_END; break;
case ' ':
if (options & LOG_OPT_MERGE_SPACES) {
cformat = LF_SEPARATOR;
break;
}
/* fall through */
default : cformat = LF_TEXT; break;
}
}
if (cformat != pformat || pformat == LF_SEPARATOR) {
switch (pformat) {
case LF_VAR:
if (!parse_logformat_var(arg, arg_len, var, var_len, curproxy, list_format, &options, err))
goto fail;
break;
case LF_TEXT:
case LF_SEPARATOR:
if (!add_to_logformat_list(sp, str, pformat, list_format, err))
goto fail;
break;
}
sp = str; /* new start of text at every state switch and at every separator */
}
}
if (pformat == LF_STARTVAR || pformat == LF_STARG || pformat == LF_STEXPR) {
memprintf(err, "truncated line after '%s'", var ? var : arg ? arg : "%");
goto fail;
}
free(backfmt);
return 1;
fail:
free(backfmt);
return 0;
}
/*
* Parse the first range of indexes from a string made of a list of comma separated
* ranges of indexes. Note that an index may be considered as a particular range
* with a high limit to the low limit.
*/
int get_logsrv_smp_range(unsigned int *low, unsigned int *high, char **arg, char **err)
{
char *end, *p;
*low = *high = 0;
p = *arg;
end = strchr(p, ',');
if (!end)
end = p + strlen(p);
*high = *low = read_uint((const char **)&p, end);
if (!*low || (p != end && *p != '-'))
goto err;
if (p == end)
goto done;
p++;
*high = read_uint((const char **)&p, end);
if (!*high || *high <= *low || p != end)
goto err;
done:
if (*end == ',')
end++;
*arg = end;
return 1;
err:
memprintf(err, "wrong sample range '%s'", *arg);
return 0;
}
/*
* Returns 1 if the range defined by <low> and <high> overlaps
* one of them in <rgs> array of ranges with <sz> the size of this
* array, 0 if not.
*/
int smp_log_ranges_overlap(struct smp_log_range *rgs, size_t sz,
unsigned int low, unsigned int high, char **err)
{
size_t i;
for (i = 0; i < sz; i++) {
if ((low >= rgs[i].low && low <= rgs[i].high) ||
(high >= rgs[i].low && high <= rgs[i].high)) {
memprintf(err, "ranges are overlapping");
return 1;
}
}
return 0;
}
int smp_log_range_cmp(const void *a, const void *b)
{
const struct smp_log_range *rg_a = a;
const struct smp_log_range *rg_b = b;
if (rg_a->high < rg_b->low)
return -1;
else if (rg_a->low > rg_b->high)
return 1;
return 0;
}
/*
* Parse "log" keyword and update <logsrvs> list accordingly.
*
* When <do_del> is set, it means the "no log" line was parsed, so all log
* servers in <logsrvs> are released.
*
* Otherwise, we try to parse the "log" line. First of all, when the list is not
* the global one, we look for the parameter "global". If we find it,
* global.logsrvs is copied. Else we parse each arguments.
*
* The function returns 1 in success case, otherwise, it returns 0 and err is
* filled.
*/
int parse_logsrv(char **args, struct list *logsrvs, int do_del, const char *file, int linenum, char **err)
{
struct smp_log_range *smp_rgs = NULL;
struct sockaddr_storage *sk;
struct protocol *proto;
struct logsrv *logsrv = NULL;
int port1, port2;
int cur_arg;
int fd;
/*
* "no log": delete previous herited or defined syslog
* servers.
*/
if (do_del) {
struct logsrv *back;
if (*(args[1]) != 0) {
memprintf(err, "'no log' does not expect arguments");
goto error;
}
list_for_each_entry_safe(logsrv, back, logsrvs, list) {
LIST_DELETE(&logsrv->list);
free(logsrv);
}
return 1;
}
/*
* "log global": copy global.logrsvs linked list to the end of logsrvs
* list. But first, we check (logsrvs != global.logsrvs).
*/
if (*(args[1]) && *(args[2]) == 0 && strcmp(args[1], "global") == 0) {
if (logsrvs == &global.logsrvs) {
memprintf(err, "'global' is not supported for a global syslog server");
goto error;
}
list_for_each_entry(logsrv, &global.logsrvs, list) {
struct logsrv *node;
list_for_each_entry(node, logsrvs, list) {
if (node->ref == logsrv)
goto skip_logsrv;
}
node = malloc(sizeof(*node));
if (!node) {
memprintf(err, "out of memory error");
goto error;
}
memcpy(node, logsrv, sizeof(struct logsrv));
node->ref = logsrv;
LIST_INIT(&node->list);
LIST_APPEND(logsrvs, &node->list);
node->conf.file = strdup(file);
node->conf.line = linenum;
skip_logsrv:
continue;
}
return 1;
}
/*
* "log <address> ...: parse a syslog server line
*/
if (*(args[1]) == 0 || *(args[2]) == 0) {
memprintf(err, "expects <address> and <facility> %s as arguments",
((logsrvs == &global.logsrvs) ? "" : "or global"));
goto error;
}
/* take care of "stdout" and "stderr" as regular aliases for fd@1 / fd@2 */
if (strcmp(args[1], "stdout") == 0)
args[1] = "fd@1";
else if (strcmp(args[1], "stderr") == 0)
args[1] = "fd@2";
logsrv = calloc(1, sizeof(*logsrv));
if (!logsrv) {
memprintf(err, "out of memory");
goto error;
}
logsrv->conf.file = strdup(file);
logsrv->conf.line = linenum;
/* skip address for now, it will be parsed at the end */
cur_arg = 2;
/* just after the address, a length may be specified */
logsrv->maxlen = MAX_SYSLOG_LEN;
if (strcmp(args[cur_arg], "len") == 0) {
int len = atoi(args[cur_arg+1]);
if (len < 80 || len > 65535) {
memprintf(err, "invalid log length '%s', must be between 80 and 65535",
args[cur_arg+1]);
goto error;
}
logsrv->maxlen = len;
cur_arg += 2;
}
if (logsrv->maxlen > global.max_syslog_len)
global.max_syslog_len = logsrv->maxlen;
/* after the length, a format may be specified */
if (strcmp(args[cur_arg], "format") == 0) {
logsrv->format = get_log_format(args[cur_arg+1]);
if (logsrv->format == LOG_FORMAT_UNSPEC) {
memprintf(err, "unknown log format '%s'", args[cur_arg+1]);
goto error;
}
cur_arg += 2;
}
if (strcmp(args[cur_arg], "sample") == 0) {
unsigned low, high;
char *p, *beg, *end, *smp_sz_str;
size_t smp_rgs_sz = 0, smp_sz = 0, new_smp_sz;
p = args[cur_arg+1];
smp_sz_str = strchr(p, ':');
if (!smp_sz_str) {
memprintf(err, "Missing sample size");
goto error;
}
*smp_sz_str++ = '\0';
end = p + strlen(p);
while (p != end) {
if (!get_logsrv_smp_range(&low, &high, &p, err))
goto error;
if (smp_rgs && smp_log_ranges_overlap(smp_rgs, smp_rgs_sz, low, high, err))
goto error;
smp_rgs = my_realloc2(smp_rgs, (smp_rgs_sz + 1) * sizeof *smp_rgs);
if (!smp_rgs) {
memprintf(err, "out of memory error");
goto error;
}
smp_rgs[smp_rgs_sz].low = low;
smp_rgs[smp_rgs_sz].high = high;
smp_rgs[smp_rgs_sz].sz = high - low + 1;
smp_rgs[smp_rgs_sz].curr_idx = 0;
if (smp_rgs[smp_rgs_sz].high > smp_sz)
smp_sz = smp_rgs[smp_rgs_sz].high;
smp_rgs_sz++;
}
if (smp_rgs == NULL) {
memprintf(err, "no sampling ranges given");
goto error;
}
beg = smp_sz_str;
end = beg + strlen(beg);
new_smp_sz = read_uint((const char **)&beg, end);
if (!new_smp_sz || beg != end) {
memprintf(err, "wrong sample size '%s' for sample range '%s'",
smp_sz_str, args[cur_arg+1]);
goto error;
}
if (new_smp_sz < smp_sz) {
memprintf(err, "sample size %zu should be greater or equal to "
"%zu the maximum of the high ranges limits",
new_smp_sz, smp_sz);
goto error;
}
smp_sz = new_smp_sz;
/* Let's order <smp_rgs> array. */
qsort(smp_rgs, smp_rgs_sz, sizeof(struct smp_log_range), smp_log_range_cmp);
logsrv->lb.smp_rgs = smp_rgs;
logsrv->lb.smp_rgs_sz = smp_rgs_sz;
logsrv->lb.smp_sz = smp_sz;
cur_arg += 2;
}
HA_SPIN_INIT(&logsrv->lock);
/* parse the facility */
logsrv->facility = get_log_facility(args[cur_arg]);
if (logsrv->facility < 0) {
memprintf(err, "unknown log facility '%s'", args[cur_arg]);
goto error;
}
cur_arg++;
/* parse the max syslog level (default: debug) */
logsrv->level = 7;
if (*(args[cur_arg])) {
logsrv->level = get_log_level(args[cur_arg]);
if (logsrv->level < 0) {
memprintf(err, "unknown optional log level '%s'", args[cur_arg]);
goto error;
}
cur_arg++;
}
/* parse the limit syslog level (default: emerg) */
logsrv->minlvl = 0;
if (*(args[cur_arg])) {
logsrv->minlvl = get_log_level(args[cur_arg]);
if (logsrv->minlvl < 0) {
memprintf(err, "unknown optional minimum log level '%s'", args[cur_arg]);
goto error;
}
cur_arg++;
}
/* Too many args */
if (*(args[cur_arg])) {
memprintf(err, "cannot handle unexpected argument '%s'", args[cur_arg]);
goto error;
}
/* now, back to the address */
logsrv->type = LOG_TARGET_DGRAM;
if (strncmp(args[1], "ring@", 5) == 0) {
logsrv->addr.ss_family = AF_UNSPEC;
logsrv->type = LOG_TARGET_BUFFER;
logsrv->sink = NULL;
logsrv->ring_name = strdup(args[1] + 5);
goto done;
}
sk = str2sa_range(args[1], NULL, &port1, &port2, &fd, &proto,
err, NULL, NULL,
PA_O_RESOLVE | PA_O_PORT_OK | PA_O_RAW_FD | PA_O_DGRAM | PA_O_STREAM | PA_O_DEFAULT_DGRAM);
if (!sk)
goto error;
if (fd != -1)
logsrv->type = LOG_TARGET_FD;
logsrv->addr = *sk;
if (sk->ss_family == AF_INET || sk->ss_family == AF_INET6) {
if (!port1)
set_host_port(&logsrv->addr, SYSLOG_PORT);
}
if (proto && proto->ctrl_type == SOCK_STREAM) {
static unsigned long ring_ids;
/* Implicit sink buffer will be
* initialized in post_check
*/
logsrv->type = LOG_TARGET_BUFFER;
logsrv->sink = NULL;
/* compute uniq name for the ring */
memprintf(&logsrv->ring_name, "ring#%lu", ++ring_ids);
}
done:
LIST_APPEND(logsrvs, &logsrv->list);
return 1;
error:
free(smp_rgs);
if (logsrv) {
free(logsrv->conf.file);
free(logsrv->ring_name);
}
free(logsrv);
return 0;
}
/* Generic function to display messages prefixed by a label */
static void print_message(const char *label, const char *fmt, va_list argp)
{
char *head, *msg;
char prefix[11]; // '[' + 8 chars + ']' + 0.
*prefix = '[';
strncpy(prefix + 1, label, sizeof(prefix) - 2);
msg = prefix + strlen(prefix);
*msg++ = ']';
while (msg < prefix + sizeof(prefix) - 1)
*msg++ = ' ';
*msg = 0;
head = msg = NULL;
memprintf(&head, "%s (%u) : ", prefix, (uint)getpid());
memvprintf(&msg, fmt, argp);
if (global.mode & MODE_STARTING) {
if (unlikely(!startup_logs))
startup_logs = ring_new(STARTUP_LOG_SIZE);
if (likely(startup_logs)) {
struct ist m[2];
m[0] = ist(head);
m[1] = ist(msg);
/* trim the trailing '\n' */
if (m[1].len > 0 && m[1].ptr[m[1].len - 1] == '\n')
m[1].len--;
ring_write(startup_logs, ~0, 0, 0, m, 2);
}
}
fprintf(stderr, "%s%s", head, msg);
fflush(stderr);
free(head);
free(msg);
}
/*
* Displays the message on stderr with the date and pid. Overrides the quiet
* mode during startup.
*/
void ha_alert(const char *fmt, ...)
{
va_list argp;
if (!(global.mode & MODE_QUIET) || (global.mode & (MODE_VERBOSE | MODE_STARTING))) {
if (!(warned & WARN_EXEC_PATH)) {
const char *path = get_exec_path();
warned |= WARN_EXEC_PATH;
ha_notice("haproxy version is %s\n", haproxy_version);
if (path)
ha_notice("path to executable is %s\n", path);
}
va_start(argp, fmt);
print_message("ALERT", fmt, argp);
va_end(argp);
}
}
/*
* Displays the message on stderr with the date and pid.
*/
void ha_warning(const char *fmt, ...)
{
va_list argp;
warned |= WARN_ANY;
if (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE)) {
va_start(argp, fmt);
print_message("WARNING", fmt, argp);
va_end(argp);
}
}
/*
* Variant of _ha_diag_warning with va_list.
* Use it only if MODE_DIAG has been previously checked.
*/
void _ha_vdiag_warning(const char *fmt, va_list argp)
{
print_message("DIAG", fmt, argp);
}
/*
* Output a diagnostic warning.
* Use it only if MODE_DIAG has been previously checked.
*/
void _ha_diag_warning(const char *fmt, ...)
{
va_list argp;
va_start(argp, fmt);
_ha_vdiag_warning(fmt, argp);
va_end(argp);
}
/*
* Output a diagnostic warning. Do nothing of MODE_DIAG is not on.
*/
void ha_diag_warning(const char *fmt, ...)
{
va_list argp;
if (global.mode & MODE_DIAG) {
va_start(argp, fmt);
_ha_vdiag_warning(fmt, argp);
va_end(argp);
}
}
/*
* Displays the message on stderr with the date and pid.
*/
void ha_notice(const char *fmt, ...)
{
va_list argp;
if (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE)) {
va_start(argp, fmt);
print_message("NOTICE", fmt, argp);
va_end(argp);
}
}
/*
* Displays the message on <out> only if quiet mode is not set.
*/
void qfprintf(FILE *out, const char *fmt, ...)
{
va_list argp;
if (!(global.mode & MODE_QUIET) || (global.mode & MODE_VERBOSE)) {
va_start(argp, fmt);
vfprintf(out, fmt, argp);
fflush(out);
va_end(argp);
}
}
/*
* returns log format, LOG_FORMAT_UNSPEC is return if not found.
*/
enum log_fmt get_log_format(const char *fmt)
{
enum log_fmt format;
format = LOG_FORMATS - 1;
while (format > 0 && log_formats[format].name
&& strcmp(log_formats[format].name, fmt) != 0)
format--;
/* Note: 0 is LOG_FORMAT_UNSPEC */
return format;
}
/*
* returns log level for <lev> or -1 if not found.
*/
int get_log_level(const char *lev)
{
int level;
level = NB_LOG_LEVELS - 1;
while (level >= 0 && strcmp(log_levels[level], lev) != 0)
level--;
return level;
}
/*
* returns log facility for <fac> or -1 if not found.
*/
int get_log_facility(const char *fac)
{
int facility;
facility = NB_LOG_FACILITIES - 1;
while (facility >= 0 && strcmp(log_facilities[facility], fac) != 0)
facility--;
return facility;
}
/*
* Encode the string.
*
* When using the +E log format option, it will try to escape '"\]'
* characters with '\' as prefix. The same prefix should not be used as
* <escape>.
*
* Return the address of the \0 character, or NULL on error
*/
static char *lf_encode_string(char *start, char *stop,
const char escape, const long *map,
const char *string,
struct logformat_node *node)
{
if (node->options & LOG_OPT_ESC) {
if (start < stop) {
stop--; /* reserve one byte for the final '\0' */
while (start < stop && *string != '\0') {
if (!ha_bit_test((unsigned char)(*string), map)) {
if (!ha_bit_test((unsigned char)(*string), rfc5424_escape_map))
*start++ = *string;
else {
if (start + 2 >= stop)
break;
*start++ = '\\';
*start++ = *string;
}
}
else {
if (start + 3 >= stop)
break;
*start++ = escape;
*start++ = hextab[(*string >> 4) & 15];
*start++ = hextab[*string & 15];
}
string++;
}
*start = '\0';
return start;
}
}
else {
return encode_string(start, stop, escape, map, string);
}
return NULL;
}
/*
* Encode the chunk.
*
* When using the +E log format option, it will try to escape '"\]'
* characters with '\' as prefix. The same prefix should not be used as
* <escape>.
*
* Return the address of the \0 character, or NULL on error
*/
static char *lf_encode_chunk(char *start, char *stop,
const char escape, const long *map,
const struct buffer *chunk,
struct logformat_node *node)
{
char *str, *end;
if (node->options & LOG_OPT_ESC) {
if (start < stop) {
str = chunk->area;
end = chunk->area + chunk->data;
stop--; /* reserve one byte for the final '\0' */
while (start < stop && str < end) {
if (!ha_bit_test((unsigned char)(*str), map)) {
if (!ha_bit_test((unsigned char)(*str), rfc5424_escape_map))
*start++ = *str;
else {
if (start + 2 >= stop)
break;
*start++ = '\\';
*start++ = *str;
}
}
else {
if (start + 3 >= stop)
break;
*start++ = escape;
*start++ = hextab[(*str >> 4) & 15];
*start++ = hextab[*str & 15];
}
str++;
}
*start = '\0';
return start;
}
}
else {
return encode_chunk(start, stop, escape, map, chunk);
}
return NULL;
}
/*
* Write a string in the log string
* Take cares of quote and escape options
*
* Return the address of the \0 character, or NULL on error
*/
char *lf_text_len(char *dst, const char *src, size_t len, size_t size, const struct logformat_node *node)
{
if (size < 2)
return NULL;
if (node->options & LOG_OPT_QUOTE) {
*(dst++) = '"';
size--;
}
if (src && len) {
/* escape_string and strlcpy2 will both try to add terminating NULL-byte
* to dst
*/
if (node->options & LOG_OPT_ESC) {
char *ret;
ret = escape_string(dst, dst + size, '\\', rfc5424_escape_map, src, src + len);
if (ret == NULL || *ret != '\0')
return NULL;
len = ret - dst;
}
else {
if (++len > size)
len = size;
len = strlcpy2(dst, src, len);
}
size -= len;
dst += len;
}
else if ((node->options & (LOG_OPT_QUOTE|LOG_OPT_MANDATORY)) == LOG_OPT_MANDATORY) {
if (size < 2)
return NULL;
*(dst++) = '-';
size -= 1;
}
if (node->options & LOG_OPT_QUOTE) {
if (size < 2)
return NULL;
*(dst++) = '"';
}
*dst = '\0';
return dst;
}
static inline char *lf_text(char *dst, const char *src, size_t size, const struct logformat_node *node)
{
return lf_text_len(dst, src, size, size, node);
}
/*
* Write a IP address to the log string
* +X option write in hexadecimal notation, most significant byte on the left
*/
char *lf_ip(char *dst, const struct sockaddr *sockaddr, size_t size, const struct logformat_node *node)
{
char *ret = dst;
int iret;
char pn[INET6_ADDRSTRLEN];
if (node->options & LOG_OPT_HEXA) {
unsigned char *addr = NULL;
switch (sockaddr->sa_family) {
case AF_INET:
addr = (unsigned char *)&((struct sockaddr_in *)sockaddr)->sin_addr.s_addr;
iret = snprintf(dst, size, "%02X%02X%02X%02X", addr[0], addr[1], addr[2], addr[3]);
break;
case AF_INET6:
addr = (unsigned char *)&((struct sockaddr_in6 *)sockaddr)->sin6_addr.s6_addr;
iret = snprintf(dst, size, "%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X",
addr[0], addr[1], addr[2], addr[3], addr[4], addr[5], addr[6], addr[7],
addr[8], addr[9], addr[10], addr[11], addr[12], addr[13], addr[14], addr[15]);
break;
default:
return NULL;
}
if (iret < 0 || iret >= size)
return NULL;
ret += iret;
} else {
addr_to_str((struct sockaddr_storage *)sockaddr, pn, sizeof(pn));
ret = lf_text(dst, pn, size, node);
if (ret == NULL)
return NULL;
}
return ret;
}
/*
* Write a port to the log
* +X option write in hexadecimal notation, most significant byte on the left
*/
char *lf_port(char *dst, const struct sockaddr *sockaddr, size_t size, const struct logformat_node *node)
{
char *ret = dst;
int iret;
if (node->options & LOG_OPT_HEXA) {
const unsigned char *port = (const unsigned char *)&((struct sockaddr_in *)sockaddr)->sin_port;
iret = snprintf(dst, size, "%02X%02X", port[0], port[1]);
if (iret < 0 || iret >= size)
return NULL;
ret += iret;
} else {
ret = ltoa_o(get_host_port((struct sockaddr_storage *)sockaddr), dst, size);
if (ret == NULL)
return NULL;
}
return ret;
}
/*
* This function sends the syslog message using a printf format string. It
* expects an LF-terminated message.
*/
void send_log(struct proxy *p, int level, const char *format, ...)
{
va_list argp;
int data_len;
if (level < 0 || format == NULL || logline == NULL)
return;
va_start(argp, format);
data_len = vsnprintf(logline, global.max_syslog_len, format, argp);
if (data_len < 0 || data_len > global.max_syslog_len)
data_len = global.max_syslog_len;
va_end(argp);
__send_log((p ? &p->logsrvs : NULL), (p ? &p->log_tag : NULL), level,
logline, data_len, default_rfc5424_sd_log_format, 2);
}
/*
* This function builds a log header of given format using given
* metadata, if format is set to LOF_FORMAT_UNSPEC, it tries
* to determine format based on given metadas. It is useful
* for log-forwarding to be able to forward any format without
* settings.
* This function returns a struct ist array of elements of the header
* nbelem is set to the number of available elements.
* This function returns currently a maximum of NB_LOG_HDR_IST_ELEMENTS
* elements.
*/
struct ist *build_log_header(enum log_fmt format, int level, int facility,
struct ist *metadata, size_t *nbelem)
{
static THREAD_LOCAL struct {
struct ist ist_vector[NB_LOG_HDR_MAX_ELEMENTS];
char timestamp_buffer[LOG_LEGACYTIME_LEN+1+1];
time_t cur_legacy_time;
char priority_buffer[6];
} hdr_ctx = { .priority_buffer = "<<<<>" };
struct tm logtime;
int len;
int fac_level = 0;
time_t time = date.tv_sec;
*nbelem = 0;
if (format == LOG_FORMAT_UNSPEC) {
format = LOG_FORMAT_RAW;
if (metadata) {
/* If a hostname is set, it appears we want to perform syslog
* because only rfc5427 or rfc3164 support an hostname.
*/
if (metadata[LOG_META_HOST].len) {
/* If a rfc5424 compliant timestamp is used we consider
* that output format is rfc5424, else legacy format
* is used as specified default for local logs
* in documentation.
*/
if ((metadata[LOG_META_TIME].len == 1 && metadata[LOG_META_TIME].ptr[0] == '-')
|| (metadata[LOG_META_TIME].len >= LOG_ISOTIME_MINLEN))
format = LOG_FORMAT_RFC5424;
else
format = LOG_FORMAT_RFC3164;
}
else if (metadata[LOG_META_TAG].len) {
/* Tag is present but no hostname, we should
* consider we try to emit a local log
* in legacy format (analog to RFC3164 but
* with stripped hostname).
*/
format = LOG_FORMAT_LOCAL;
}
else if (metadata[LOG_META_PRIO].len) {
/* the source seems a parsed message
* offering a valid level/prio prefix
* so we consider this format.
*/
format = LOG_FORMAT_PRIO;
}
}
}
/* prepare priority, stored into 1 single elem */
switch (format) {
case LOG_FORMAT_LOCAL:
case LOG_FORMAT_RFC3164:
case LOG_FORMAT_RFC5424:
case LOG_FORMAT_PRIO:
fac_level = facility << 3;
/* further format ignore the facility */
/* fall through */
case LOG_FORMAT_TIMED:
case LOG_FORMAT_SHORT:
fac_level += level;
hdr_ctx.ist_vector[*nbelem].ptr = &hdr_ctx.priority_buffer[3]; /* last digit of the log level */
do {
*hdr_ctx.ist_vector[*nbelem].ptr = '0' + fac_level % 10;
fac_level /= 10;
hdr_ctx.ist_vector[*nbelem].ptr--;
} while (fac_level && hdr_ctx.ist_vector[*nbelem].ptr > &hdr_ctx.priority_buffer[0]);
*hdr_ctx.ist_vector[*nbelem].ptr = '<';
hdr_ctx.ist_vector[(*nbelem)++].len = &hdr_ctx.priority_buffer[5] - hdr_ctx.ist_vector[0].ptr;
break;
case LOG_FORMAT_ISO:
case LOG_FORMAT_RAW:
break;
case LOG_FORMAT_UNSPEC:
case LOG_FORMATS:
ABORT_NOW();
}
/* prepare timestamp, stored into a max of 4 elems */
switch (format) {
case LOG_FORMAT_LOCAL:
case LOG_FORMAT_RFC3164:
/* rfc3164 ex: 'Jan 1 00:00:00 ' */
if (metadata && metadata[LOG_META_TIME].len == LOG_LEGACYTIME_LEN) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_TIME];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
/* time is set, break immediately */
break;
}
else if (metadata && metadata[LOG_META_TIME].len >= LOG_ISOTIME_MINLEN) {
int month;
char *timestamp = metadata[LOG_META_TIME].ptr;
/* iso time always begins like this: '1970-01-01T00:00:00' */
/* compute month */
month = 10*(timestamp[5] - '0') + (timestamp[6] - '0');
if (month)
month--;
if (month <= 11) {
/* builds log prefix ex: 'Jan 1 ' */
len = snprintf(hdr_ctx.timestamp_buffer, sizeof(hdr_ctx.timestamp_buffer),
"%s %c%c ", monthname[month],
timestamp[8] != '0' ? timestamp[8] : ' ',
timestamp[9]);
/* we reused the timestamp_buffer, signal that it does not
* contain local time anymore
*/
hdr_ctx.cur_legacy_time = 0;
if (len == 7) {
hdr_ctx.ist_vector[(*nbelem)++] = ist2(&hdr_ctx.timestamp_buffer[0], len);
/* adds 'HH:MM:SS' from iso time */
hdr_ctx.ist_vector[(*nbelem)++] = ist2(&timestamp[11], 8);
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
/* we successfully reuse iso time, we can break */
break;
}
}
/* Failed to reuse isotime time, fallback to local legacy time */
}
if (unlikely(time != hdr_ctx.cur_legacy_time)) {
/* re-builds timestamp from the current local time */
get_localtime(time, &logtime);
len = snprintf(hdr_ctx.timestamp_buffer, sizeof(hdr_ctx.timestamp_buffer),
"%s %2d %02d:%02d:%02d ",
monthname[logtime.tm_mon],
logtime.tm_mday, logtime.tm_hour, logtime.tm_min, logtime.tm_sec);
if (len != LOG_LEGACYTIME_LEN+1)
hdr_ctx.cur_legacy_time = 0;
else
hdr_ctx.cur_legacy_time = time;
}
if (likely(hdr_ctx.cur_legacy_time))
hdr_ctx.ist_vector[(*nbelem)++] = ist2(&hdr_ctx.timestamp_buffer[0], LOG_LEGACYTIME_LEN+1);
else
hdr_ctx.ist_vector[(*nbelem)++] = ist2("Jan 1 00:00:00 ", LOG_LEGACYTIME_LEN+1);
break;
case LOG_FORMAT_RFC5424:
/* adds rfc5425 version prefix */
hdr_ctx.ist_vector[(*nbelem)++] = ist2("1 ", 2);
if (metadata && metadata[LOG_META_TIME].len == 1 && metadata[LOG_META_TIME].ptr[0] == '-') {
/* submitted len is NILVALUE, it is a valid timestamp for rfc5425 */
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_TIME];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
break;
}
/* let continue as 'timed' and 'iso' format for usual timestamp */
/* fall through */
case LOG_FORMAT_TIMED:
case LOG_FORMAT_ISO:
/* ISO format ex: '1900:01:01T12:00:00.123456Z'
* '1900:01:01T14:00:00+02:00'
* '1900:01:01T10:00:00.123456-02:00'
*/
if (metadata && metadata[LOG_META_TIME].len >= LOG_ISOTIME_MINLEN) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_TIME];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
/* time is set, break immediately */
break;
}
else if (metadata && metadata[LOG_META_TIME].len == LOG_LEGACYTIME_LEN) {
int month;
char *timestamp = metadata[LOG_META_TIME].ptr;
for (month = 0; month < 12; month++)
if (!memcmp(monthname[month], timestamp, 3))
break;
if (month < 12) {
/* get local time to retrieve year */
get_localtime(time, &logtime);
/* year seems changed since log */
if (logtime.tm_mon < month)
logtime.tm_year--;
/* builds rfc5424 prefix ex: '1900-01-01T' */
len = snprintf(hdr_ctx.timestamp_buffer, sizeof(hdr_ctx.timestamp_buffer),
"%4d-%02d-%c%cT",
logtime.tm_year+1900, month+1,
timestamp[4] != ' ' ? timestamp[4] : '0',
timestamp[5]);
/* we reused the timestamp_buffer, signal that it does not
* contain local time anymore
*/
hdr_ctx.cur_legacy_time = 0;
if (len == 11) {
hdr_ctx.ist_vector[(*nbelem)++] = ist2(&hdr_ctx.timestamp_buffer[0], len);
/* adds HH:MM:SS from legacy timestamp */
hdr_ctx.ist_vector[(*nbelem)++] = ist2(&timestamp[7], 8);
/* skip secfraq because it is optional */
/* according to rfc: -00:00 means we don't know the timezone */
hdr_ctx.ist_vector[(*nbelem)++] = ist2("-00:00 ", 7);
/* we successfully reuse legacy time, we can break */
break;
}
}
/* Failed to reuse legacy time, fallback to local iso time */
}
hdr_ctx.ist_vector[(*nbelem)++] = ist2(timeofday_as_iso_us(1), LOG_ISOTIME_MAXLEN + 1);
break;
case LOG_FORMAT_PRIO:
case LOG_FORMAT_SHORT:
case LOG_FORMAT_RAW:
break;
case LOG_FORMAT_UNSPEC:
case LOG_FORMATS:
ABORT_NOW();
}
/* prepare other meta data, stored into a max of 10 elems */
switch (format) {
case LOG_FORMAT_RFC3164:
if (metadata && metadata[LOG_META_HOST].len) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_HOST];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
}
else /* the caller MUST fill the hostname, this field is mandatory */
hdr_ctx.ist_vector[(*nbelem)++] = ist2("localhost ", 10);
/* fall through */
case LOG_FORMAT_LOCAL:
if (!metadata || !metadata[LOG_META_TAG].len)
break;
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_TAG];
if (metadata[LOG_META_PID].len) {
hdr_ctx.ist_vector[(*nbelem)++] = ist2("[", 1);
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_PID];
hdr_ctx.ist_vector[(*nbelem)++] = ist2("]", 1);
}
hdr_ctx.ist_vector[(*nbelem)++] = ist2(": ", 2);
break;
case LOG_FORMAT_RFC5424:
if (metadata && metadata[LOG_META_HOST].len) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_HOST];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
}
else
hdr_ctx.ist_vector[(*nbelem)++] = ist2("- ", 2);
if (metadata && metadata[LOG_META_TAG].len) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_TAG];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
}
else
hdr_ctx.ist_vector[(*nbelem)++] = ist2("- ", 2);
if (metadata && metadata[LOG_META_PID].len) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_PID];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
}
else
hdr_ctx.ist_vector[(*nbelem)++] = ist2("- ", 2);
if (metadata && metadata[LOG_META_MSGID].len) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_MSGID];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
}
else
hdr_ctx.ist_vector[(*nbelem)++] = ist2("- ", 2);
if (metadata && metadata[LOG_META_STDATA].len) {
hdr_ctx.ist_vector[(*nbelem)++] = metadata[LOG_META_STDATA];
hdr_ctx.ist_vector[(*nbelem)++] = ist2(" ", 1);
}
else
hdr_ctx.ist_vector[(*nbelem)++] = ist2("- ", 2);
break;
case LOG_FORMAT_PRIO:
case LOG_FORMAT_SHORT:
case LOG_FORMAT_TIMED:
case LOG_FORMAT_ISO:
case LOG_FORMAT_RAW:
break;
case LOG_FORMAT_UNSPEC:
case LOG_FORMATS:
ABORT_NOW();
}
return hdr_ctx.ist_vector;
}
/*
* This function sends a syslog message to <logsrv>.
* The argument <metadata> MUST be an array of size
* LOG_META_FIELDS*sizeof(struct ist) containing data to build the header.
* It overrides the last byte of the message vector with an LF character.
* Does not return any error,
*/
static inline void __do_send_log(struct logsrv *logsrv, int nblogger, int level, int facility, struct ist *metadata, char *message, size_t size)
{
static THREAD_LOCAL struct iovec iovec[NB_LOG_HDR_MAX_ELEMENTS+1+1] = { }; /* header elements + message + LF */
static THREAD_LOCAL struct msghdr msghdr = {
//.msg_iov = iovec,
.msg_iovlen = NB_LOG_HDR_MAX_ELEMENTS+2
};
static THREAD_LOCAL int logfdunix = -1; /* syslog to AF_UNIX socket */
static THREAD_LOCAL int logfdinet = -1; /* syslog to AF_INET socket */
int *plogfd;
int sent;
size_t nbelem;
struct ist *msg_header = NULL;
msghdr.msg_iov = iovec;
/* historically some messages used to already contain the trailing LF
* or Zero. Let's remove all trailing LF or Zero
*/
while (size && (message[size-1] == '\n' || (message[size-1] == 0)))
size--;
if (logsrv->type == LOG_TARGET_BUFFER) {
plogfd = NULL;
goto send;
}
else if (logsrv->addr.ss_family == AF_CUST_EXISTING_FD) {
/* the socket's address is a file descriptor */
plogfd = (int *)&((struct sockaddr_in *)&logsrv->addr)->sin_addr.s_addr;
}
else if (logsrv->addr.ss_family == AF_UNIX)
plogfd = &logfdunix;
else
plogfd = &logfdinet;
if (plogfd && unlikely(*plogfd < 0)) {
/* socket not successfully initialized yet */
if ((*plogfd = socket(logsrv->addr.ss_family, SOCK_DGRAM,
(logsrv->addr.ss_family == AF_UNIX) ? 0 : IPPROTO_UDP)) < 0) {
static char once;
if (!once) {
once = 1; /* note: no need for atomic ops here */
ha_alert("socket() failed in logger #%d: %s (errno=%d)\n",
nblogger, strerror(errno), errno);
}
return;
} else {
/* we don't want to receive anything on this socket */
setsockopt(*plogfd, SOL_SOCKET, SO_RCVBUF, &zero, sizeof(zero));
/* does nothing under Linux, maybe needed for others */
shutdown(*plogfd, SHUT_RD);
fcntl(*plogfd, F_SETFD, fcntl(*plogfd, F_GETFD, FD_CLOEXEC) | FD_CLOEXEC);
}
}
msg_header = build_log_header(logsrv->format, level, facility, metadata, &nbelem);
send:
if (logsrv->type == LOG_TARGET_BUFFER) {
struct ist msg;
size_t maxlen = logsrv->maxlen;
msg = ist2(message, size);
if (msg.len > logsrv->maxlen)
msg.len = logsrv->maxlen;
/* make room for the final '\n' which may be forcefully inserted
* by tcp forwarder applet (sink_forward_io_handler)
*/
maxlen -= 1;
sent = sink_write(logsrv->sink, maxlen, &msg, 1, level, facility, metadata);
}
else if (logsrv->addr.ss_family == AF_CUST_EXISTING_FD) {
struct ist msg;
msg = ist2(message, size);
if (msg.len > logsrv->maxlen)
msg.len = logsrv->maxlen;
sent = fd_write_frag_line(*plogfd, logsrv->maxlen, msg_header, nbelem, &msg, 1, 1);
}
else {
int i = 0;
int totlen = logsrv->maxlen - 1; /* save space for the final '\n' */
for (i = 0 ; i < nbelem ; i++ ) {
iovec[i].iov_base = msg_header[i].ptr;
iovec[i].iov_len = msg_header[i].len;
if (totlen <= iovec[i].iov_len) {
iovec[i].iov_len = totlen;
totlen = 0;
break;
}
totlen -= iovec[i].iov_len;
}
if (totlen) {
iovec[i].iov_base = message;
iovec[i].iov_len = size;
if (totlen <= iovec[i].iov_len)
iovec[i].iov_len = totlen;
i++;
}
iovec[i].iov_base = "\n"; /* insert a \n at the end of the message */
iovec[i].iov_len = 1;
i++;
msghdr.msg_iovlen = i;
msghdr.msg_name = (struct sockaddr *)&logsrv->addr;
msghdr.msg_namelen = get_addr_len(&logsrv->addr);
sent = sendmsg(*plogfd, &msghdr, MSG_DONTWAIT | MSG_NOSIGNAL);
}
if (sent < 0) {
static char once;
if (errno == EAGAIN)
_HA_ATOMIC_INC(&dropped_logs);
else if (!once) {
once = 1; /* note: no need for atomic ops here */
ha_alert("sendmsg()/writev() failed in logger #%d: %s (errno=%d)\n",
nblogger, strerror(errno), errno);
}
}
}
/*
* This function sends a syslog message.
* It doesn't care about errors nor does it report them.
* The argument <metadata> MUST be an array of size
* LOG_META_FIELDS*sizeof(struct ist) containing
* data to build the header.
*/
void process_send_log(struct list *logsrvs, int level, int facility,
struct ist *metadata, char *message, size_t size)
{
struct logsrv *logsrv;
int nblogger;
/* Send log messages to syslog server. */
nblogger = 0;
list_for_each_entry(logsrv, logsrvs, list) {
int in_range = 1;
/* we can filter the level of the messages that are sent to each logger */
if (level > logsrv->level)
continue;
if (logsrv->lb.smp_rgs) {
struct smp_log_range *curr_rg;
HA_SPIN_LOCK(LOGSRV_LOCK, &logsrv->lock);
curr_rg = &logsrv->lb.smp_rgs[logsrv->lb.curr_rg];
in_range = in_smp_log_range(curr_rg, logsrv->lb.curr_idx);
if (in_range) {
/* Let's consume this range. */
curr_rg->curr_idx = (curr_rg->curr_idx + 1) % curr_rg->sz;
if (!curr_rg->curr_idx) {
/* If consumed, let's select the next range. */
logsrv->lb.curr_rg = (logsrv->lb.curr_rg + 1) % logsrv->lb.smp_rgs_sz;
}
}
logsrv->lb.curr_idx = (logsrv->lb.curr_idx + 1) % logsrv->lb.smp_sz;
HA_SPIN_UNLOCK(LOGSRV_LOCK, &logsrv->lock);
}
if (in_range)
__do_send_log(logsrv, ++nblogger, MAX(level, logsrv->minlvl),
(facility == -1) ? logsrv->facility : facility,
metadata, message, size);
}
}
/*
* This function sends a syslog message.
* It doesn't care about errors nor does it report them.
* The arguments <sd> and <sd_size> are used for the structured-data part
* in RFC5424 formatted syslog messages.
*/
void __send_log(struct list *logsrvs, struct buffer *tagb, int level,
char *message, size_t size, char *sd, size_t sd_size)
{
static THREAD_LOCAL pid_t curr_pid;
static THREAD_LOCAL char pidstr[16];
static THREAD_LOCAL struct ist metadata[LOG_META_FIELDS];
if (logsrvs == NULL) {
if (!LIST_ISEMPTY(&global.logsrvs)) {
logsrvs = &global.logsrvs;
}
}
if (!logsrvs || LIST_ISEMPTY(logsrvs))
return;
if (!metadata[LOG_META_HOST].len) {
if (global.log_send_hostname)
metadata[LOG_META_HOST] = ist2(global.log_send_hostname, strlen(global.log_send_hostname));
}
if (!tagb || !tagb->area)
tagb = &global.log_tag;
if (tagb)
metadata[LOG_META_TAG] = ist2(tagb->area, tagb->data);
if (unlikely(curr_pid != getpid()))
metadata[LOG_META_PID].len = 0;
if (!metadata[LOG_META_PID].len) {
curr_pid = getpid();
ltoa_o(curr_pid, pidstr, sizeof(pidstr));
metadata[LOG_META_PID] = ist2(pidstr, strlen(pidstr));
}
metadata[LOG_META_STDATA] = ist2(sd, sd_size);
/* Remove trailing space of structured data */
while (metadata[LOG_META_STDATA].len && metadata[LOG_META_STDATA].ptr[metadata[LOG_META_STDATA].len-1] == ' ')
metadata[LOG_META_STDATA].len--;
return process_send_log(logsrvs, level, -1, metadata, message, size);
}
const char sess_cookie[8] = "NIDVEOU7"; /* No cookie, Invalid cookie, cookie for a Down server, Valid cookie, Expired cookie, Old cookie, Unused, unknown */
const char sess_set_cookie[8] = "NPDIRU67"; /* No set-cookie, Set-cookie found and left unchanged (passive),
Set-cookie Deleted, Set-Cookie Inserted, Set-cookie Rewritten,
Set-cookie Updated, unknown, unknown */
/*
* try to write a character if there is enough space, or goto out
*/
#define LOGCHAR(x) do { \
if (tmplog < dst + maxsize - 1) { \
*(tmplog++) = (x); \
} else { \
goto out; \
} \
} while(0)
/* Initializes some log data at boot */
static void init_log()
{
char *tmp;
int i;
/* Initialize the escape map for the RFC5424 structured-data : '"\]'
* inside PARAM-VALUE should be escaped with '\' as prefix.
* See https://tools.ietf.org/html/rfc5424#section-6.3.3 for more
* details.
*/
memset(rfc5424_escape_map, 0, sizeof(rfc5424_escape_map));
tmp = "\"\\]";
while (*tmp) {
ha_bit_set(*tmp, rfc5424_escape_map);
tmp++;
}
/* initialize the log header encoding map : '{|}"#' should be encoded with
* '#' as prefix, as well as non-printable characters ( <32 or >= 127 ).
* URL encoding only requires '"', '#' to be encoded as well as non-
* printable characters above.
*/
memset(hdr_encode_map, 0, sizeof(hdr_encode_map));
memset(url_encode_map, 0, sizeof(url_encode_map));
for (i = 0; i < 32; i++) {
ha_bit_set(i, hdr_encode_map);
ha_bit_set(i, url_encode_map);
}
for (i = 127; i < 256; i++) {
ha_bit_set(i, hdr_encode_map);
ha_bit_set(i, url_encode_map);
}
tmp = "\"#{|}";
while (*tmp) {
ha_bit_set(*tmp, hdr_encode_map);
tmp++;
}
tmp = "\"#";
while (*tmp) {
ha_bit_set(*tmp, url_encode_map);
tmp++;
}
/* initialize the http header encoding map. The draft httpbis define the
* header content as:
*
* HTTP-message = start-line
* *( header-field CRLF )
* CRLF
* [ message-body ]
* header-field = field-name ":" OWS field-value OWS
* field-value = *( field-content / obs-fold )
* field-content = field-vchar [ 1*( SP / HTAB ) field-vchar ]
* obs-fold = CRLF 1*( SP / HTAB )
* field-vchar = VCHAR / obs-text
* VCHAR = %x21-7E
* obs-text = %x80-FF
*
* All the chars are encoded except "VCHAR", "obs-text", SP and HTAB.
* The encoded chars are form 0x00 to 0x08, 0x0a to 0x1f and 0x7f. The
* "obs-fold" is voluntarily forgotten because haproxy remove this.
*/
memset(http_encode_map, 0, sizeof(http_encode_map));
for (i = 0x00; i <= 0x08; i++)
ha_bit_set(i, http_encode_map);
for (i = 0x0a; i <= 0x1f; i++)
ha_bit_set(i, http_encode_map);
ha_bit_set(0x7f, http_encode_map);
}
INITCALL0(STG_PREPARE, init_log);
/* Initialize log buffers used for syslog messages */
int init_log_buffers()
{
logline = my_realloc2(logline, global.max_syslog_len + 1);
logline_rfc5424 = my_realloc2(logline_rfc5424, global.max_syslog_len + 1);
if (!logline || !logline_rfc5424)
return 0;
return 1;
}
/* Deinitialize log buffers used for syslog messages */
void deinit_log_buffers()
{
free(logline);
free(logline_rfc5424);
ring_free(_HA_ATOMIC_XCHG(&startup_logs, NULL));
logline = NULL;
logline_rfc5424 = NULL;
}
/* Builds a log line in <dst> based on <list_format>, and stops before reaching
* <maxsize> characters. Returns the size of the output string in characters,
* not counting the trailing zero which is always added if the resulting size
* is not zero. It requires a valid session and optionally a stream. If the
* stream is NULL, default values will be assumed for the stream part.
*/
int sess_build_logline(struct session *sess, struct stream *s, char *dst, size_t maxsize, struct list *list_format)
{
struct proxy *fe = sess->fe;
struct proxy *be;
struct http_txn *txn;
const struct strm_logs *logs;
struct connection *fe_conn, *be_conn;
unsigned int s_flags;
unsigned int uniq_id;
struct buffer chunk;
char *uri;
char *spc;
char *qmark;
char *end;
struct tm tm;
int t_request;
int hdr;
int last_isspace = 1;
int nspaces = 0;
char *tmplog;
char *ret;
int iret;
int status;
struct logformat_node *tmp;
struct timeval tv;
struct strm_logs tmp_strm_log;
struct ist path;
/* FIXME: let's limit ourselves to frontend logging for now. */
if (likely(s)) {
be = s->be;
txn = s->txn;
be_conn = cs_conn(objt_cs(s->si[1].end));
status = (txn ? txn->status : 0);
s_flags = s->flags;
uniq_id = s->uniq_id;
logs = &s->logs;
} else {
/* we have no stream so we first need to initialize a few
* things that are needed later. We do increment the request
* ID so that it's uniquely assigned to this request just as
* if the request had reached the point of being processed.
* A request error is reported as it's the only element we have
* here and which justifies emitting such a log.
*/
be = ((obj_type(sess->origin) == OBJ_TYPE_CHECK) ? __objt_check(sess->origin)->proxy : fe);
txn = NULL;
fe_conn = objt_conn(sess->origin);
be_conn = ((obj_type(sess->origin) == OBJ_TYPE_CHECK) ? cs_conn(__objt_check(sess->origin)->cs) : NULL);
status = 0;
s_flags = SF_ERR_PRXCOND | SF_FINST_R;
uniq_id = _HA_ATOMIC_FETCH_ADD(&global.req_count, 1);
/* prepare a valid log structure */
tmp_strm_log.tv_accept = sess->tv_accept;
tmp_strm_log.accept_date = sess->accept_date;
tmp_strm_log.t_handshake = sess->t_handshake;
tmp_strm_log.t_idle = (sess->t_idle >= 0 ? sess->t_idle : 0);
tv_zero(&tmp_strm_log.tv_request);
tmp_strm_log.t_queue = -1;
tmp_strm_log.t_connect = -1;
tmp_strm_log.t_data = -1;
tmp_strm_log.t_close = tv_ms_elapsed(&sess->tv_accept, &now);
tmp_strm_log.bytes_in = 0;
tmp_strm_log.bytes_out = 0;
tmp_strm_log.prx_queue_pos = 0;
tmp_strm_log.srv_queue_pos = 0;
logs = &tmp_strm_log;
if ((fe->mode == PR_MODE_HTTP) && fe_conn && fe_conn->mux && fe_conn->mux->ctl) {
enum mux_exit_status es = fe_conn->mux->ctl(fe_conn, MUX_EXIT_STATUS, NULL);
switch (es) {
case MUX_ES_SUCCESS:
break;
case MUX_ES_INVALID_ERR:
status = 400;
if ((fe_conn->flags & CO_FL_ERROR) || conn_xprt_read0_pending(fe_conn))
s_flags = SF_ERR_CLICL | SF_FINST_R;
else
s_flags = SF_ERR_PRXCOND | SF_FINST_R;
break;
case MUX_ES_TOUT_ERR:
status = 408;
s_flags = SF_ERR_CLITO | SF_FINST_R;
break;
case MUX_ES_NOTIMPL_ERR:
status = 501;
s_flags = SF_ERR_PRXCOND | SF_FINST_R;
break;
case MUX_ES_INTERNAL_ERR:
status = 500;
s_flags = SF_ERR_INTERNAL | SF_FINST_R;
break;
default:
break;
}
}
}
t_request = -1;
if (tv_isge(&logs->tv_request, &logs->tv_accept))
t_request = tv_ms_elapsed(&logs->tv_accept, &logs->tv_request);
tmplog = dst;
/* fill logbuffer */
if (LIST_ISEMPTY(list_format))
return 0;
list_for_each_entry(tmp, list_format, list) {
struct connection *conn;
const char *src = NULL;
struct sample *key;
const struct buffer empty = { };
switch (tmp->type) {
case LOG_FMT_SEPARATOR:
if (!last_isspace) {
LOGCHAR(' ');
last_isspace = 1;
}
break;
case LOG_FMT_TEXT: // text
src = tmp->arg;
iret = strlcpy2(tmplog, src, dst + maxsize - tmplog);
if (iret == 0)
goto out;
tmplog += iret;
last_isspace = 0;
break;
case LOG_FMT_EXPR: // sample expression, may be request or response
key = NULL;
if (tmp->options & LOG_OPT_REQ_CAP)
key = sample_fetch_as_type(be, sess, s, SMP_OPT_DIR_REQ|SMP_OPT_FINAL, tmp->expr, SMP_T_STR);
if (!key && (tmp->options & LOG_OPT_RES_CAP))
key = sample_fetch_as_type(be, sess, s, SMP_OPT_DIR_RES|SMP_OPT_FINAL, tmp->expr, SMP_T_STR);
if (tmp->options & LOG_OPT_HTTP)
ret = lf_encode_chunk(tmplog, dst + maxsize,
'%', http_encode_map, key ? &key->data.u.str : &empty, tmp);
else
ret = lf_text_len(tmplog,
key ? key->data.u.str.area : NULL,
key ? key->data.u.str.data : 0,
dst + maxsize - tmplog,
tmp);
if (ret == 0)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_CLIENTIP: // %ci
conn = objt_conn(sess->origin);
if (conn && conn_get_src(conn))
ret = lf_ip(tmplog, (struct sockaddr *)conn->src, dst + maxsize - tmplog, tmp);
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_CLIENTPORT: // %cp
conn = objt_conn(sess->origin);
if (conn && conn_get_src(conn)) {
if (conn->src->ss_family == AF_UNIX) {
ret = ltoa_o(sess->listener->luid, tmplog, dst + maxsize - tmplog);
} else {
ret = lf_port(tmplog, (struct sockaddr *)conn->src,
dst + maxsize - tmplog, tmp);
}
}
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_FRONTENDIP: // %fi
conn = objt_conn(sess->origin);
if (conn && conn_get_dst(conn)) {
ret = lf_ip(tmplog, (struct sockaddr *)conn->dst, dst + maxsize - tmplog, tmp);
}
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_FRONTENDPORT: // %fp
conn = objt_conn(sess->origin);
if (conn && conn_get_dst(conn)) {
if (conn->dst->ss_family == AF_UNIX)
ret = ltoa_o(sess->listener->luid, tmplog, dst + maxsize - tmplog);
else
ret = lf_port(tmplog, (struct sockaddr *)conn->dst, dst + maxsize - tmplog, tmp);
}
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_BACKENDIP: // %bi
if (be_conn && conn_get_src(be_conn))
ret = lf_ip(tmplog, (const struct sockaddr *)be_conn->src, dst + maxsize - tmplog, tmp);
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_BACKENDPORT: // %bp
if (be_conn && conn_get_src(be_conn))
ret = lf_port(tmplog, (struct sockaddr *)be_conn->src, dst + maxsize - tmplog, tmp);
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_SERVERIP: // %si
if (be_conn && conn_get_dst(be_conn))
ret = lf_ip(tmplog, (struct sockaddr *)be_conn->dst, dst + maxsize - tmplog, tmp);
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_SERVERPORT: // %sp
if (be_conn && conn_get_dst(be_conn))
ret = lf_port(tmplog, (struct sockaddr *)be_conn->dst, dst + maxsize - tmplog, tmp);
else
ret = lf_text_len(tmplog, NULL, 0, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_DATE: // %t = accept date
get_localtime(logs->accept_date.tv_sec, &tm);
ret = date2str_log(tmplog, &tm, &logs->accept_date, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_tr: // %tr = start of request date
/* Note that the timers are valid if we get here */
tv_ms_add(&tv, &logs->accept_date, logs->t_idle >= 0 ? logs->t_idle + logs->t_handshake : 0);
get_localtime(tv.tv_sec, &tm);
ret = date2str_log(tmplog, &tm, &tv, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_DATEGMT: // %T = accept date, GMT
get_gmtime(logs->accept_date.tv_sec, &tm);
ret = gmt2str_log(tmplog, &tm, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_trg: // %trg = start of request date, GMT
tv_ms_add(&tv, &logs->accept_date, logs->t_idle >= 0 ? logs->t_idle + logs->t_handshake : 0);
get_gmtime(tv.tv_sec, &tm);
ret = gmt2str_log(tmplog, &tm, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_DATELOCAL: // %Tl = accept date, local
get_localtime(logs->accept_date.tv_sec, &tm);
ret = localdate2str_log(tmplog, logs->accept_date.tv_sec, &tm, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_trl: // %trl = start of request date, local
tv_ms_add(&tv, &logs->accept_date, logs->t_idle >= 0 ? logs->t_idle + logs->t_handshake : 0);
get_localtime(tv.tv_sec, &tm);
ret = localdate2str_log(tmplog, tv.tv_sec, &tm, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TS: // %Ts
if (tmp->options & LOG_OPT_HEXA) {
iret = snprintf(tmplog, dst + maxsize - tmplog, "%04X", (unsigned int)logs->accept_date.tv_sec);
if (iret < 0 || iret >= dst + maxsize - tmplog)
goto out;
last_isspace = 0;
tmplog += iret;
} else {
ret = ltoa_o(logs->accept_date.tv_sec, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
}
break;
case LOG_FMT_MS: // %ms
if (tmp->options & LOG_OPT_HEXA) {
iret = snprintf(tmplog, dst + maxsize - tmplog, "%02X",(unsigned int)logs->accept_date.tv_usec/1000);
if (iret < 0 || iret >= dst + maxsize - tmplog)
goto out;
last_isspace = 0;
tmplog += iret;
} else {
if ((dst + maxsize - tmplog) < 4)
goto out;
ret = utoa_pad((unsigned int)logs->accept_date.tv_usec/1000,
tmplog, 4);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
}
break;
case LOG_FMT_FRONTEND: // %f
src = fe->id;
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_FRONTEND_XPRT: // %ft
src = fe->id;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
iret = strlcpy2(tmplog, src, dst + maxsize - tmplog);
if (iret == 0)
goto out;
tmplog += iret;
if (sess->listener && sess->listener->bind_conf->xprt == xprt_get(XPRT_SSL))
LOGCHAR('~');
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
#ifdef USE_OPENSSL
case LOG_FMT_SSL_CIPHER: // %sslc
src = NULL;
conn = objt_conn(sess->origin);
if (conn) {
src = ssl_sock_get_cipher_name(conn);
}
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_SSL_VERSION: // %sslv
src = NULL;
conn = objt_conn(sess->origin);
if (conn) {
src = ssl_sock_get_proto_version(conn);
}
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
#endif
case LOG_FMT_BACKEND: // %b
src = be->id;
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_SERVER: // %s
switch (obj_type(s ? s->target : sess->origin)) {
case OBJ_TYPE_SERVER:
src = __objt_server(s->target)->id;
break;
case OBJ_TYPE_APPLET:
src = __objt_applet(s->target)->name;
break;
case OBJ_TYPE_CHECK:
src = (__objt_check(sess->origin)->server
? __objt_check(sess->origin)->server->id
: "<NOSRV>");
break;
default:
src = "<NOSRV>";
break;
}
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_Th: // %Th = handshake time
ret = ltoa_o(logs->t_handshake, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_Ti: // %Ti = HTTP idle time
ret = ltoa_o(logs->t_idle, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TR: // %TR = HTTP request time
ret = ltoa_o((t_request >= 0) ? t_request - logs->t_idle - logs->t_handshake : -1,
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TQ: // %Tq = Th + Ti + TR
ret = ltoa_o(t_request, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TW: // %Tw
ret = ltoa_o((logs->t_queue >= 0) ? logs->t_queue - t_request : -1,
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TC: // %Tc
ret = ltoa_o((logs->t_connect >= 0) ? logs->t_connect - logs->t_queue : -1,
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_Tr: // %Tr
ret = ltoa_o((logs->t_data >= 0) ? logs->t_data - logs->t_connect : -1,
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TD: // %Td
if (be->mode == PR_MODE_HTTP)
ret = ltoa_o((logs->t_data >= 0) ? logs->t_close - logs->t_data : -1,
tmplog, dst + maxsize - tmplog);
else
ret = ltoa_o((logs->t_connect >= 0) ? logs->t_close - logs->t_connect : -1,
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_Ta: // %Ta = active time = Tt - Th - Ti
if (!(fe->to_log & LW_BYTES))
LOGCHAR('+');
ret = ltoa_o(logs->t_close - (logs->t_idle >= 0 ? logs->t_idle + logs->t_handshake : 0),
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TT: // %Tt = total time
if (!(fe->to_log & LW_BYTES))
LOGCHAR('+');
ret = ltoa_o(logs->t_close, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TU: // %Tu = total time seen by user = Tt - Ti
if (!(fe->to_log & LW_BYTES))
LOGCHAR('+');
ret = ltoa_o(logs->t_close - (logs->t_idle >= 0 ? logs->t_idle : 0),
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_STATUS: // %ST
ret = ltoa_o(status, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_BYTES: // %B
if (!(fe->to_log & LW_BYTES))
LOGCHAR('+');
ret = lltoa(logs->bytes_out, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_BYTES_UP: // %U
ret = lltoa(logs->bytes_in, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_CCLIENT: // %CC
src = txn ? txn->cli_cookie : NULL;
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_CSERVER: // %CS
src = txn ? txn->srv_cookie : NULL;
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_TERMSTATE: // %ts
LOGCHAR(sess_term_cond[(s_flags & SF_ERR_MASK) >> SF_ERR_SHIFT]);
LOGCHAR(sess_fin_state[(s_flags & SF_FINST_MASK) >> SF_FINST_SHIFT]);
*tmplog = '\0';
last_isspace = 0;
break;
case LOG_FMT_TERMSTATE_CK: // %tsc, same as TS with cookie state (for mode HTTP)
LOGCHAR(sess_term_cond[(s_flags & SF_ERR_MASK) >> SF_ERR_SHIFT]);
LOGCHAR(sess_fin_state[(s_flags & SF_FINST_MASK) >> SF_FINST_SHIFT]);
LOGCHAR((txn && (be->ck_opts & PR_CK_ANY)) ? sess_cookie[(txn->flags & TX_CK_MASK) >> TX_CK_SHIFT] : '-');
LOGCHAR((txn && (be->ck_opts & PR_CK_ANY)) ? sess_set_cookie[(txn->flags & TX_SCK_MASK) >> TX_SCK_SHIFT] : '-');
last_isspace = 0;
break;
case LOG_FMT_ACTCONN: // %ac
ret = ltoa_o(actconn, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_FECONN: // %fc
ret = ltoa_o(fe->feconn, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_BECONN: // %bc
ret = ltoa_o(be->beconn, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_SRVCONN: // %sc
switch (obj_type(s ? s->target : sess->origin)) {
case OBJ_TYPE_SERVER:
ret = ultoa_o(__objt_server(s->target)->cur_sess,
tmplog, dst + maxsize - tmplog);
break;
case OBJ_TYPE_CHECK:
ret = ultoa_o(__objt_check(sess->origin)->server
? __objt_check(sess->origin)->server->cur_sess
: 0, tmplog, dst + maxsize - tmplog);
break;
default:
ret = ultoa_o(0, tmplog, dst + maxsize - tmplog);
break;
}
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_RETRIES: // %rq
if (s_flags & SF_REDISP)
LOGCHAR('+');
ret = ltoa_o(((s && s->si[1].conn_retries > 0)
? (be->conn_retries - s->si[1].conn_retries)
: ((s && s->si[1].state != SI_ST_INI) ? be->conn_retries : 0)),
tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_SRVQUEUE: // %sq
ret = ltoa_o(logs->srv_queue_pos, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_BCKQUEUE: // %bq
ret = ltoa_o(logs->prx_queue_pos, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_HDRREQUEST: // %hr
/* request header */
if (fe->nb_req_cap && s && s->req_cap) {
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
LOGCHAR('{');
for (hdr = 0; hdr < fe->nb_req_cap; hdr++) {
if (hdr)
LOGCHAR('|');
if (s->req_cap[hdr] != NULL) {
ret = lf_encode_string(tmplog, dst + maxsize,
'#', hdr_encode_map, s->req_cap[hdr], tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
}
}
LOGCHAR('}');
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
}
break;
case LOG_FMT_HDRREQUESTLIST: // %hrl
/* request header list */
if (fe->nb_req_cap && s && s->req_cap) {
for (hdr = 0; hdr < fe->nb_req_cap; hdr++) {
if (hdr > 0)
LOGCHAR(' ');
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
if (s->req_cap[hdr] != NULL) {
ret = lf_encode_string(tmplog, dst + maxsize,
'#', hdr_encode_map, s->req_cap[hdr], tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
} else if (!(tmp->options & LOG_OPT_QUOTE))
LOGCHAR('-');
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
}
}
break;
case LOG_FMT_HDRRESPONS: // %hs
/* response header */
if (fe->nb_rsp_cap && s && s->res_cap) {
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
LOGCHAR('{');
for (hdr = 0; hdr < fe->nb_rsp_cap; hdr++) {
if (hdr)
LOGCHAR('|');
if (s->res_cap[hdr] != NULL) {
ret = lf_encode_string(tmplog, dst + maxsize,
'#', hdr_encode_map, s->res_cap[hdr], tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
}
}
LOGCHAR('}');
last_isspace = 0;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
}
break;
case LOG_FMT_HDRRESPONSLIST: // %hsl
/* response header list */
if (fe->nb_rsp_cap && s && s->res_cap) {
for (hdr = 0; hdr < fe->nb_rsp_cap; hdr++) {
if (hdr > 0)
LOGCHAR(' ');
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
if (s->res_cap[hdr] != NULL) {
ret = lf_encode_string(tmplog, dst + maxsize,
'#', hdr_encode_map, s->res_cap[hdr], tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
} else if (!(tmp->options & LOG_OPT_QUOTE))
LOGCHAR('-');
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
}
}
break;
case LOG_FMT_REQ: // %r
/* Request */
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
uri = txn && txn->uri ? txn->uri : "<BADREQ>";
ret = lf_encode_string(tmplog, dst + maxsize,
'#', url_encode_map, uri, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_HTTP_PATH: // %HP
uri = txn && txn->uri ? txn->uri : "<BADREQ>";
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
end = uri + strlen(uri);
// look for the first whitespace character
while (uri < end && !HTTP_IS_SPHT(*uri))
uri++;
// keep advancing past multiple spaces
while (uri < end && HTTP_IS_SPHT(*uri)) {
uri++; nspaces++;
}
// look for first space or question mark after url
spc = uri;
while (spc < end && *spc != '?' && !HTTP_IS_SPHT(*spc))
spc++;
if (!txn || !txn->uri || nspaces == 0) {
chunk.area = "<BADREQ>";
chunk.data = strlen("<BADREQ>");
} else {
chunk.area = uri;
chunk.data = spc - uri;
}
ret = lf_encode_chunk(tmplog, dst + maxsize, '#', url_encode_map, &chunk, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_HTTP_PATH_ONLY: // %HPO
uri = txn && txn->uri ? txn->uri : "<BADREQ>";
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
end = uri + strlen(uri);
// look for the first whitespace character
while (uri < end && !HTTP_IS_SPHT(*uri))
uri++;
// keep advancing past multiple spaces
while (uri < end && HTTP_IS_SPHT(*uri)) {
uri++; nspaces++;
}
// look for first space after url
spc = uri;
while (spc < end && !HTTP_IS_SPHT(*spc))
spc++;
path = ist2(uri, spc - uri);
// extract relative path without query params from url
path = iststop(http_get_path(path), '?');
if (!txn || !txn->uri || nspaces == 0) {
chunk.area = "<BADREQ>";
chunk.data = strlen("<BADREQ>");
} else {
chunk.area = path.ptr;
chunk.data = path.len;
}
ret = lf_encode_chunk(tmplog, dst + maxsize, '#', url_encode_map, &chunk, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_HTTP_QUERY: // %HQ
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
if (!txn || !txn->uri) {
chunk.area = "<BADREQ>";
chunk.data = strlen("<BADREQ>");
} else {
uri = txn->uri;
end = uri + strlen(uri);
// look for the first question mark
while (uri < end && *uri != '?')
uri++;
qmark = uri;
// look for first space or question mark after url
while (uri < end && !HTTP_IS_SPHT(*uri))
uri++;
chunk.area = qmark;
chunk.data = uri - qmark;
}
ret = lf_encode_chunk(tmplog, dst + maxsize, '#', url_encode_map, &chunk, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_HTTP_URI: // %HU
uri = txn && txn->uri ? txn->uri : "<BADREQ>";
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
end = uri + strlen(uri);
// look for the first whitespace character
while (uri < end && !HTTP_IS_SPHT(*uri))
uri++;
// keep advancing past multiple spaces
while (uri < end && HTTP_IS_SPHT(*uri)) {
uri++; nspaces++;
}
// look for first space after url
spc = uri;
while (spc < end && !HTTP_IS_SPHT(*spc))
spc++;
if (!txn || !txn->uri || nspaces == 0) {
chunk.area = "<BADREQ>";
chunk.data = strlen("<BADREQ>");
} else {
chunk.area = uri;
chunk.data = spc - uri;
}
ret = lf_encode_chunk(tmplog, dst + maxsize, '#', url_encode_map, &chunk, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_HTTP_METHOD: // %HM
uri = txn && txn->uri ? txn->uri : "<BADREQ>";
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
end = uri + strlen(uri);
// look for the first whitespace character
spc = uri;
while (spc < end && !HTTP_IS_SPHT(*spc))
spc++;
if (spc == end) { // odd case, we have txn->uri, but we only got a verb
chunk.area = "<BADREQ>";
chunk.data = strlen("<BADREQ>");
} else {
chunk.area = uri;
chunk.data = spc - uri;
}
ret = lf_encode_chunk(tmplog, dst + maxsize, '#', url_encode_map, &chunk, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_HTTP_VERSION: // %HV
uri = txn && txn->uri ? txn->uri : "<BADREQ>";
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
end = uri + strlen(uri);
// look for the first whitespace character
while (uri < end && !HTTP_IS_SPHT(*uri))
uri++;
// keep advancing past multiple spaces
while (uri < end && HTTP_IS_SPHT(*uri)) {
uri++; nspaces++;
}
// look for the next whitespace character
while (uri < end && !HTTP_IS_SPHT(*uri))
uri++;
// keep advancing past multiple spaces
while (uri < end && HTTP_IS_SPHT(*uri))
uri++;
if (!txn || !txn->uri || nspaces == 0) {
chunk.area = "<BADREQ>";
chunk.data = strlen("<BADREQ>");
} else if (uri == end) {
chunk.area = "HTTP/0.9";
chunk.data = strlen("HTTP/0.9");
} else {
chunk.area = uri;
chunk.data = end - uri;
}
ret = lf_encode_chunk(tmplog, dst + maxsize, '#', url_encode_map, &chunk, tmp);
if (ret == NULL || *ret != '\0')
goto out;
tmplog = ret;
if (tmp->options & LOG_OPT_QUOTE)
LOGCHAR('"');
last_isspace = 0;
break;
case LOG_FMT_COUNTER: // %rt
if (tmp->options & LOG_OPT_HEXA) {
iret = snprintf(tmplog, dst + maxsize - tmplog, "%04X", uniq_id);
if (iret < 0 || iret >= dst + maxsize - tmplog)
goto out;
last_isspace = 0;
tmplog += iret;
} else {
ret = ltoa_o(uniq_id, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
}
break;
case LOG_FMT_LOGCNT: // %lc
if (tmp->options & LOG_OPT_HEXA) {
iret = snprintf(tmplog, dst + maxsize - tmplog, "%04X", fe->log_count);
if (iret < 0 || iret >= dst + maxsize - tmplog)
goto out;
last_isspace = 0;
tmplog += iret;
} else {
ret = ultoa_o(fe->log_count, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
}
break;
case LOG_FMT_HOSTNAME: // %H
src = hostname;
ret = lf_text(tmplog, src, dst + maxsize - tmplog, tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
case LOG_FMT_PID: // %pid
if (tmp->options & LOG_OPT_HEXA) {
iret = snprintf(tmplog, dst + maxsize - tmplog, "%04X", pid);
if (iret < 0 || iret >= dst + maxsize - tmplog)
goto out;
last_isspace = 0;
tmplog += iret;
} else {
ret = ltoa_o(pid, tmplog, dst + maxsize - tmplog);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
}
break;
case LOG_FMT_UNIQUEID: // %ID
ret = NULL;
if (s)
ret = lf_text_len(tmplog, s->unique_id.ptr, s->unique_id.len, maxsize - (tmplog - dst), tmp);
else
ret = lf_text_len(tmplog, NULL, 0, maxsize - (tmplog - dst), tmp);
if (ret == NULL)
goto out;
tmplog = ret;
last_isspace = 0;
break;
}
}
out:
/* *tmplog is a unused character */
*tmplog = '\0';
return tmplog - dst;
}
/*
* send a log for the stream when we have enough info about it.
* Will not log if the frontend has no log defined.
*/
void strm_log(struct stream *s)
{
struct session *sess = s->sess;
int size, err, level;
int sd_size = 0;
/* if we don't want to log normal traffic, return now */
err = (s->flags & SF_REDISP) ||
((s->flags & SF_ERR_MASK) > SF_ERR_LOCAL) ||
(((s->flags & SF_ERR_MASK) == SF_ERR_NONE) &&
(s->si[1].conn_retries != s->be->conn_retries)) ||
((sess->fe->mode == PR_MODE_HTTP) && s->txn && s->txn->status >= 500);
if (!err && (sess->fe->options2 & PR_O2_NOLOGNORM))
return;
if (LIST_ISEMPTY(&sess->fe->logsrvs))
return;
if (s->logs.level) { /* loglevel was overridden */
if (s->logs.level == -1) {
s->logs.logwait = 0; /* logs disabled */
return;
}
level = s->logs.level - 1;
}
else {
level = LOG_INFO;
if (err && (sess->fe->options2 & PR_O2_LOGERRORS))
level = LOG_ERR;
}
/* if unique-id was not generated */
if (!isttest(s->unique_id) && !LIST_ISEMPTY(&sess->fe->format_unique_id)) {
stream_generate_unique_id(s, &sess->fe->format_unique_id);
}
if (!LIST_ISEMPTY(&sess->fe->logformat_sd)) {
sd_size = build_logline(s, logline_rfc5424, global.max_syslog_len,
&sess->fe->logformat_sd);
}
size = build_logline(s, logline, global.max_syslog_len, &sess->fe->logformat);
if (size > 0) {
_HA_ATOMIC_INC(&sess->fe->log_count);
__send_log(&sess->fe->logsrvs, &sess->fe->log_tag, level,
logline, size + 1, logline_rfc5424, sd_size);
s->logs.logwait = 0;
}
}
/*
* send a minimalist log for the session. Will not log if the frontend has no
* log defined. It is assumed that this is only used to report anomalies that
* cannot lead to the creation of a regular stream. Because of this the log
* level is LOG_INFO or LOG_ERR depending on the "log-separate-error" setting
* in the frontend. The caller must simply know that it should not call this
* function to report unimportant events. It is safe to call this function with
* sess==NULL (will not do anything).
*/
void sess_log(struct session *sess)
{
int size, level;
int sd_size = 0;
if (!sess)
return;
if (LIST_ISEMPTY(&sess->fe->logsrvs))
return;
level = LOG_INFO;
if (sess->fe->options2 & PR_O2_LOGERRORS)
level = LOG_ERR;
if (!LIST_ISEMPTY(&sess->fe->logformat_sd)) {
sd_size = sess_build_logline(sess, NULL,
logline_rfc5424, global.max_syslog_len,
&sess->fe->logformat_sd);
}
size = sess_build_logline(sess, NULL, logline, global.max_syslog_len, &sess->fe->logformat);
if (size > 0) {
_HA_ATOMIC_INC(&sess->fe->log_count);
__send_log(&sess->fe->logsrvs, &sess->fe->log_tag, level,
logline, size + 1, logline_rfc5424, sd_size);
}
}
void app_log(struct list *logsrvs, struct buffer *tag, int level, const char *format, ...)
{
va_list argp;
int data_len;
if (level < 0 || format == NULL || logline == NULL)
return;
va_start(argp, format);
data_len = vsnprintf(logline, global.max_syslog_len, format, argp);
if (data_len < 0 || data_len > global.max_syslog_len)
data_len = global.max_syslog_len;
va_end(argp);
__send_log(logsrvs, tag, level, logline, data_len, default_rfc5424_sd_log_format, 2);
}
/*
* This function parse a received log message <buf>, of size <buflen>
* it fills <level>, <facility> and <metadata> depending of the detected
* header format and message will point on remaining payload of <size>
*
* <metadata> must point on a preallocated array of LOG_META_FIELDS*sizeof(struct ist)
* struct ist len will be set to 0 if field is not found
* <level> and <facility> will be set to -1 if not found.
*/
void parse_log_message(char *buf, size_t buflen, int *level, int *facility,
struct ist *metadata, char **message, size_t *size)
{
char *p;
int fac_level = 0;
*level = *facility = -1;
*message = buf;
*size = buflen;
memset(metadata, 0, LOG_META_FIELDS*sizeof(struct ist));
p = buf;
if (*size < 2 || *p != '<')
return;
p++;
while (*p != '>') {
if (*p > '9' || *p < '0')
return;
fac_level = 10*fac_level + (*p - '0');
p++;
if ((p - buf) > buflen)
return;
}
*facility = fac_level >> 3;
*level = fac_level & 0x7;
p++;
metadata[LOG_META_PRIO] = ist2(buf, p - buf);
buflen -= p - buf;
buf = p;
*size = buflen;
*message = buf;
/* for rfc5424, prio is always followed by '1' and ' ' */
if ((*size > 2) && (p[0] == '1') && (p[1] == ' ')) {
/* format is always '1 TIMESTAMP HOSTNAME TAG PID MSGID STDATA '
* followed by message.
* Each header field can present NILVALUE: '-'
*/
p += 2;
*size -= 2;
/* timestamp is NILVALUE '-' */
if (*size > 2 && (p[0] == '-') && p[1] == ' ') {
metadata[LOG_META_TIME] = ist2(p, 1);
p++;
}
else if (*size > LOG_ISOTIME_MINLEN) {
metadata[LOG_META_TIME].ptr = p;
/* check if optional secfrac is present
* in timestamp.
* possible format are:
* ex: '1970-01-01T00:00:00.000000Z'
* '1970-01-01T00:00:00.000000+00:00'
* '1970-01-01T00:00:00.000000-00:00'
* '1970-01-01T00:00:00Z'
* '1970-01-01T00:00:00+00:00'
* '1970-01-01T00:00:00-00:00'
*/
p += 19;
if (*p == '.') {
p++;
if ((p - buf) >= buflen)
goto bad_format;
while (*p != 'Z' && *p != '+' && *p != '-') {
if ((unsigned char)(*p - '0') > 9)
goto bad_format;
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
}
if (*p == 'Z')
p++;
else
p += 6; /* case of '+00:00 or '-00:00' */
if ((p - buf) >= buflen || *p != ' ')
goto bad_format;
metadata[LOG_META_TIME].len = p - metadata[LOG_META_TIME].ptr;
}
else
goto bad_format;
p++;
if ((p - buf) >= buflen || *p == ' ')
goto bad_format;
metadata[LOG_META_HOST].ptr = p;
while (*p != ' ') {
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
metadata[LOG_META_HOST].len = p - metadata[LOG_META_HOST].ptr;
if (metadata[LOG_META_HOST].len == 1 && metadata[LOG_META_HOST].ptr[0] == '-')
metadata[LOG_META_HOST].len = 0;
p++;
if ((p - buf) >= buflen || *p == ' ')
goto bad_format;
metadata[LOG_META_TAG].ptr = p;
while (*p != ' ') {
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
metadata[LOG_META_TAG].len = p - metadata[LOG_META_TAG].ptr;
if (metadata[LOG_META_TAG].len == 1 && metadata[LOG_META_TAG].ptr[0] == '-')
metadata[LOG_META_TAG].len = 0;
p++;
if ((p - buf) >= buflen || *p == ' ')
goto bad_format;
metadata[LOG_META_PID].ptr = p;
while (*p != ' ') {
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
metadata[LOG_META_PID].len = p - metadata[LOG_META_PID].ptr;
if (metadata[LOG_META_PID].len == 1 && metadata[LOG_META_PID].ptr[0] == '-')
metadata[LOG_META_PID].len = 0;
p++;
if ((p - buf) >= buflen || *p == ' ')
goto bad_format;
metadata[LOG_META_MSGID].ptr = p;
while (*p != ' ') {
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
metadata[LOG_META_MSGID].len = p - metadata[LOG_META_MSGID].ptr;
if (metadata[LOG_META_MSGID].len == 1 && metadata[LOG_META_MSGID].ptr[0] == '-')
metadata[LOG_META_MSGID].len = 0;
p++;
if ((p - buf) >= buflen || *p == ' ')
goto bad_format;
/* structured data format is:
* ex:
* '[key1=value1 key2=value2][key3=value3]'
*
* space is invalid outside [] because
* considered as the end of structured data field
*/
metadata[LOG_META_STDATA].ptr = p;
if (*p == '[') {
int elem = 0;
while (1) {
if (elem) {
/* according to rfc this char is escaped in param values */
if (*p == ']' && *(p-1) != '\\')
elem = 0;
}
else {
if (*p == '[')
elem = 1;
else if (*p == ' ')
break;
else
goto bad_format;
}
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
}
else if (*p == '-') {
/* case of NILVALUE */
p++;
if ((p - buf) >= buflen || *p != ' ')
goto bad_format;
}
else
goto bad_format;
metadata[LOG_META_STDATA].len = p - metadata[LOG_META_STDATA].ptr;
if (metadata[LOG_META_STDATA].len == 1 && metadata[LOG_META_STDATA].ptr[0] == '-')
metadata[LOG_META_STDATA].len = 0;
p++;
buflen -= p - buf;
buf = p;
*size = buflen;
*message = p;
}
else if (*size > LOG_LEGACYTIME_LEN) {
int m;
/* supported header format according to rfc3164.
* ex:
* 'Jan 1 00:00:00 HOSTNAME TAG[PID]: '
* or 'Jan 1 00:00:00 HOSTNAME TAG: '
* or 'Jan 1 00:00:00 HOSTNAME '
* Note: HOSTNAME is mandatory, and day
* of month uses a single space prefix if
* less than 10 to ensure hour offset is
* always the same.
*/
/* Check month to see if it correspond to a rfc3164
* header ex 'Jan 1 00:00:00' */
for (m = 0; m < 12; m++)
if (!memcmp(monthname[m], p, 3))
break;
/* Month not found */
if (m == 12)
goto bad_format;
metadata[LOG_META_TIME] = ist2(p, LOG_LEGACYTIME_LEN);
p += LOG_LEGACYTIME_LEN;
if ((p - buf) >= buflen || *p != ' ')
goto bad_format;
p++;
if ((p - buf) >= buflen || *p == ' ')
goto bad_format;
metadata[LOG_META_HOST].ptr = p;
while (*p != ' ') {
p++;
if ((p - buf) >= buflen)
goto bad_format;
}
metadata[LOG_META_HOST].len = p - metadata[LOG_META_HOST].ptr;
/* TAG seems to no be mandatory */
p++;
buflen -= p - buf;
buf = p;
*size = buflen;
*message = buf;
if (!buflen)
return;
while (((p - buf) < buflen) && *p != ' ' && *p != ':')
p++;
/* a tag must present a trailing ':' */
if (((p - buf) >= buflen) || *p != ':')
return;
p++;
/* followed by a space */
if (((p - buf) >= buflen) || *p != ' ')
return;
/* rewind to parse tag and pid */
p = buf;
metadata[LOG_META_TAG].ptr = p;
/* we have the guarantee that ':' will be reach before size limit */
while (*p != ':') {
if (*p == '[') {
metadata[LOG_META_TAG].len = p - metadata[LOG_META_TAG].ptr;
metadata[LOG_META_PID].ptr = p + 1;
}
else if (*p == ']' && isttest(metadata[LOG_META_PID])) {
if (p[1] != ':')
return;
metadata[LOG_META_PID].len = p - metadata[LOG_META_PID].ptr;
}
p++;
}
if (!metadata[LOG_META_TAG].len)
metadata[LOG_META_TAG].len = p - metadata[LOG_META_TAG].ptr;
/* let pass ':' and ' ', we still have warranty size is large enough */
p += 2;
buflen -= p - buf;
buf = p;
*size = buflen;
*message = buf;
}
return;
bad_format:
/* bad syslog format, we reset all parsed syslog fields
* but priority is kept because we are able to re-build
* this message using LOF_FORMAT_PRIO.
*/
metadata[LOG_META_TIME].len = 0;
metadata[LOG_META_HOST].len = 0;
metadata[LOG_META_TAG].len = 0;
metadata[LOG_META_PID].len = 0;
metadata[LOG_META_MSGID].len = 0;
metadata[LOG_META_STDATA].len = 0;
return;
}
/*
* UDP syslog fd handler
*/
void syslog_fd_handler(int fd)
{
static THREAD_LOCAL struct ist metadata[LOG_META_FIELDS];
ssize_t ret = 0;
struct buffer *buf = get_trash_chunk();
size_t size;
char *message;
int level;
int facility;
struct listener *l = objt_listener(fdtab[fd].owner);
int max_accept;
if(!l)
ABORT_NOW();
if (fdtab[fd].state & FD_POLL_IN) {
if (!fd_recv_ready(fd))
return;
max_accept = l->maxaccept ? l->maxaccept : 1;
do {
/* Source address */
struct sockaddr_storage saddr = {0};
socklen_t saddrlen;
saddrlen = sizeof(saddr);
ret = recvfrom(fd, buf->area, buf->size, 0, (struct sockaddr *)&saddr, &saddrlen);
if (ret < 0) {
if (errno == EINTR)
continue;
if (errno == EAGAIN)
fd_cant_recv(fd);
goto out;
}
buf->data = ret;
/* update counters */
_HA_ATOMIC_INC(&cum_log_messages);
proxy_inc_fe_req_ctr(l, l->bind_conf->frontend);
parse_log_message(buf->area, buf->data, &level, &facility, metadata, &message, &size);
process_send_log(&l->bind_conf->frontend->logsrvs, level, facility, metadata, message, size);
} while (--max_accept);
}
out:
return;
}
/*
* IO Handler to handle message exchange with a syslog tcp client
*/
static void syslog_io_handler(struct appctx *appctx)
{
static THREAD_LOCAL struct ist metadata[LOG_META_FIELDS];
struct stream_interface *si = appctx->owner;
struct stream *s = si_strm(si);
struct proxy *frontend = strm_fe(s);
struct listener *l = strm_li(s);
struct buffer *buf = get_trash_chunk();
int max_accept;
int to_skip;
int facility;
int level;
char *message;
size_t size;
max_accept = l->maxaccept ? l->maxaccept : 1;
while (1) {
char c;
if (max_accept <= 0)
goto missing_budget;
max_accept--;
to_skip = co_getchar(si_oc(si), &c);
if (!to_skip)
goto missing_data;
else if (to_skip < 0)
goto cli_abort;
if (c == '<') {
/* rfc-6587, Non-Transparent-Framing: messages separated by
* a trailing LF or CR LF
*/
to_skip = co_getline(si_oc(si), buf->area, buf->size);
if (!to_skip)
goto missing_data;
else if (to_skip < 0)
goto cli_abort;
if (buf->area[to_skip - 1] != '\n')
goto parse_error;
buf->data = to_skip - 1;
/* according to rfc-6587, some devices adds CR before LF */
if (buf->data && buf->area[buf->data - 1] == '\r')
buf->data--;
}
else if ((unsigned char)(c - '1') <= 8) {
/* rfc-6587, Octet-Counting: message length in ASCII
* (first digit can not be ZERO), followed by a space
* and message length
*/
char *p = NULL;
int msglen;
to_skip = co_getword(si_oc(si), buf->area, buf->size, ' ');
if (!to_skip)
goto missing_data;
else if (to_skip < 0)
goto cli_abort;
if (buf->area[to_skip - 1] != ' ')
goto parse_error;
msglen = strtol(buf->area, &p, 10);
if (!msglen || p != &buf->area[to_skip - 1])
goto parse_error;
/* message seems too large */
if (msglen > buf->size)
goto parse_error;
msglen = co_getblk(si_oc(si), buf->area, msglen, to_skip);
if (!msglen)
goto missing_data;
else if (msglen < 0)
goto cli_abort;
buf->data = msglen;
to_skip += msglen;
}
else
goto parse_error;
co_skip(si_oc(si), to_skip);
/* update counters */
_HA_ATOMIC_INC(&cum_log_messages);
proxy_inc_fe_req_ctr(l, frontend);
parse_log_message(buf->area, buf->data, &level, &facility, metadata, &message, &size);
process_send_log(&frontend->logsrvs, level, facility, metadata, message, size);
}
missing_data:
/* we need more data to read */
si_oc(si)->flags |= CF_READ_DONTWAIT;
return;
missing_budget:
/* it may remain some stuff to do, let's retry later */
appctx_wakeup(appctx);
return;
parse_error:
if (l->counters)
_HA_ATOMIC_INC(&l->counters->failed_req);
_HA_ATOMIC_INC(&frontend->fe_counters.failed_req);
goto close;
cli_abort:
if (l->counters)
_HA_ATOMIC_INC(&l->counters->cli_aborts);
_HA_ATOMIC_INC(&frontend->fe_counters.cli_aborts);
close:
si_shutw(si);
si_shutr(si);
si_ic(si)->flags |= CF_READ_NULL;
return;
}
static struct applet syslog_applet = {
.obj_type = OBJ_TYPE_APPLET,
.name = "<SYSLOG>", /* used for logging */
.fct = syslog_io_handler,
.release = NULL,
};
/*
* Parse "log-forward" section and create corresponding sink buffer.
*
* The function returns 0 in success case, otherwise, it returns error
* flags.
*/
int cfg_parse_log_forward(const char *file, int linenum, char **args, int kwm)
{
int err_code = ERR_NONE;
struct proxy *px;
char *errmsg = NULL;
const char *err = NULL;
if (strcmp(args[0], "log-forward") == 0) {
if (!*args[1]) {
ha_alert("parsing [%s:%d] : missing name for log-forward section.\n", file, linenum);
err_code |= ERR_ALERT | ERR_ABORT;
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_ABORT;
goto out;
}
px = log_forward_by_name(args[1]);
if (px) {
ha_alert("Parsing [%s:%d]: log-forward section '%s' has the same name as another log-forward section declared at %s:%d.\n",
file, linenum, args[1], px->conf.file, px->conf.line);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
px = proxy_find_by_name(args[1], 0, 0);
if (px) {
ha_alert("Parsing [%s:%d]: log forward section '%s' has the same name as %s '%s' declared at %s:%d.\n",
file, linenum, args[1], proxy_type_str(px),
px->id, px->conf.file, px->conf.line);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
px = calloc(1, sizeof *px);
if (!px) {
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
init_new_proxy(px);
px->next = cfg_log_forward;
cfg_log_forward = px;
px->conf.file = strdup(file);
px->conf.line = linenum;
px->mode = PR_MODE_SYSLOG;
px->last_change = now.tv_sec;
px->cap = PR_CAP_FE;
px->maxconn = 10;
px->timeout.client = TICK_ETERNITY;
px->accept = frontend_accept;
px->default_target = &syslog_applet.obj_type;
px->id = strdup(args[1]);
}
else if (strcmp(args[0], "maxconn") == 0) { /* maxconn */
if (warnifnotcap(cfg_log_forward, PR_CAP_FE, file, linenum, args[0], " Maybe you want 'fullconn' instead ?"))
err_code |= ERR_WARN;
if (*(args[1]) == 0) {
ha_alert("parsing [%s:%d] : '%s' expects an integer argument.\n", file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
cfg_log_forward->maxconn = atol(args[1]);
if (alertif_too_many_args(1, file, linenum, args, &err_code))
goto out;
}
else if (strcmp(args[0], "backlog") == 0) { /* backlog */
if (warnifnotcap(cfg_log_forward, PR_CAP_FE, file, linenum, args[0], NULL))
err_code |= ERR_WARN;
if (*(args[1]) == 0) {
ha_alert("parsing [%s:%d] : '%s' expects an integer argument.\n", file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
cfg_log_forward->backlog = atol(args[1]);
if (alertif_too_many_args(1, file, linenum, args, &err_code))
goto out;
}
else if (strcmp(args[0], "bind") == 0) {
int cur_arg;
struct bind_conf *bind_conf;
struct bind_kw *kw;
struct listener *l;
cur_arg = 1;
bind_conf = bind_conf_alloc(cfg_log_forward, file, linenum,
NULL, xprt_get(XPRT_RAW));
if (!bind_conf) {
ha_alert("parsing [%s:%d] : out of memory error.", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (!str2listener(args[1], cfg_log_forward, 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_ALERT | ERR_FATAL;
goto out;
}
list_for_each_entry(l, &bind_conf->listeners, by_bind) {
l->maxaccept = global.tune.maxaccept ? global.tune.maxaccept : MAX_ACCEPT;
l->accept = session_accept_fd;
l->analysers |= cfg_log_forward->fe_req_ana;
l->default_target = cfg_log_forward->default_target;
global.maxsock++;
}
cur_arg++;
while (*args[cur_arg] && (kw = bind_find_kw(args[cur_arg]))) {
int ret;
ret = kw->parse(args, cur_arg, cfg_log_forward, bind_conf, &errmsg);
err_code |= ret;
if (ret) {
if (errmsg && *errmsg) {
indent_msg(&errmsg, 2);
ha_alert("parsing [%s:%d] : %s\n", file, linenum, errmsg);
}
else
ha_alert("parsing [%s:%d]: error encountered while processing '%s'\n",
file, linenum, args[cur_arg]);
if (ret & ERR_FATAL)
goto out;
}
cur_arg += 1 + kw->skip;
}
if (*args[cur_arg] != 0) {
const char *best = bind_find_best_kw(args[cur_arg]);
if (best)
ha_alert("parsing [%s:%d] : unknown keyword '%s' in '%s' section; did you mean '%s' maybe ?\n",
file, linenum, args[cur_arg], cursection, best);
else
ha_alert("parsing [%s:%d] : unknown keyword '%s' in '%s' section.\n",
file, linenum, args[cur_arg], cursection);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
}
else if (strcmp(args[0], "dgram-bind") == 0) {
int cur_arg;
struct bind_conf *bind_conf;
struct bind_kw *kw;
struct listener *l;
cur_arg = 1;
bind_conf = bind_conf_alloc(cfg_log_forward, file, linenum,
NULL, xprt_get(XPRT_RAW));
if (!bind_conf) {
ha_alert("parsing [%s:%d] : out of memory error.", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (!str2receiver(args[1], cfg_log_forward, 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_ALERT | ERR_FATAL;
goto out;
}
list_for_each_entry(l, &bind_conf->listeners, by_bind) {
/* the fact that the sockets are of type dgram is guaranteed by str2receiver() */
l->maxaccept = global.tune.maxaccept ? global.tune.maxaccept : MAX_ACCEPT;
l->rx.iocb = syslog_fd_handler;
global.maxsock++;
}
cur_arg++;
while (*args[cur_arg] && (kw = bind_find_kw(args[cur_arg]))) {
int ret;
ret = kw->parse(args, cur_arg, cfg_log_forward, bind_conf, &errmsg);
err_code |= ret;
if (ret) {
if (errmsg && *errmsg) {
indent_msg(&errmsg, 2);
ha_alert("parsing [%s:%d] : %s\n", file, linenum, errmsg);
}
else
ha_alert("parsing [%s:%d]: error encountered while processing '%s'\n",
file, linenum, args[cur_arg]);
if (ret & ERR_FATAL)
goto out;
}
cur_arg += 1 + kw->skip;
}
if (*args[cur_arg] != 0) {
const char *best = bind_find_best_kw(args[cur_arg]);
if (best)
ha_alert("parsing [%s:%d] : unknown keyword '%s' in '%s' section; did you mean '%s' maybe ?\n",
file, linenum, args[cur_arg], cursection, best);
else
ha_alert("parsing [%s:%d] : unknown keyword '%s' in '%s' section.\n",
file, linenum, args[cur_arg], cursection);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
}
else if (strcmp(args[0], "log") == 0) {
if (!parse_logsrv(args, &cfg_log_forward->logsrvs, (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], "timeout") == 0) {
const char *res;
unsigned timeout;
if (strcmp(args[1], "client") != 0) {
ha_alert("parsing [%s:%d] : unknown keyword '%s %s' in log-forward section.\n", file, linenum, args[0], args[1]);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
if (*args[2] == 0) {
ha_alert("parsing [%s:%d] : missing timeout client value.\n", file, linenum);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
res = parse_time_err(args[2], &timeout, TIME_UNIT_MS);
if (res == PARSE_TIME_OVER) {
memprintf(&errmsg, "timer overflow in argument '%s' to 'timeout client' (maximum value is 2147483647 ms or ~24.8 days)", args[2]);
}
else if (res == PARSE_TIME_UNDER) {
memprintf(&errmsg, "timer underflow in argument '%s' to 'timeout client' (minimum non-null value is 1 ms)", args[2]);
}
else if (res) {
memprintf(&errmsg, "unexpected character '%c' in 'timeout client'", *res);
}
if (res) {
ha_alert("parsing [%s:%d] : %s : %s\n", file, linenum, args[0], errmsg);
err_code |= ERR_ALERT | ERR_FATAL;
goto out;
}
cfg_log_forward->timeout.client = MS_TO_TICKS(timeout);
}
else {
ha_alert("parsing [%s:%d] : unknown keyword '%s' in log-forward section.\n", file, linenum, args[0]);
err_code |= ERR_ALERT | ERR_ABORT;
goto out;
}
out:
ha_free(&errmsg);
return err_code;
}
/* parse the "show startup-logs" command, returns 1 if a message is returned, otherwise zero */
static int cli_parse_show_startup_logs(char **args, char *payload, struct appctx *appctx, void *private)
{
if (!cli_has_level(appctx, ACCESS_LVL_OPER))
return 1;
if (!startup_logs)
return cli_msg(appctx, LOG_INFO, "\n"); // nothing to print
return ring_attach_cli(startup_logs, appctx);
}
/* register cli keywords */
static struct cli_kw_list cli_kws = {{ },{
{ { "show", "startup-logs", NULL }, "show startup-logs : report logs emitted during HAProxy startup", cli_parse_show_startup_logs, NULL, NULL },
{{},}
}};
INITCALL1(STG_REGISTER, cli_register_kw, &cli_kws);
/* config parsers for this section */
REGISTER_CONFIG_SECTION("log-forward", cfg_parse_log_forward, NULL);
REGISTER_PER_THREAD_ALLOC(init_log_buffers);
REGISTER_PER_THREAD_FREE(deinit_log_buffers);
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/