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git01.mediatek.com / haproxy / e6060c5d877e78cfab04cca4f603340540206994 / . / src / cli.c
blob: 6625a093d39cff584e8195d1b5eadcdc2e82f6a4 [file] [log] [blame]
/*
* Functions dedicated to statistics output and the stats socket
*
* Copyright 2000-2012 Willy Tarreau <w@1wt.eu>
* Copyright 2007-2009 Krzysztof Piotr Oledzki <ole@ans.pl>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*
*/
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <pwd.h>
#include <grp.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <net/if.h>
#include <common/cfgparse.h>
#include <common/compat.h>
#include <common/config.h>
#include <common/debug.h>
#include <common/memory.h>
#include <common/mini-clist.h>
#include <common/standard.h>
#include <common/ticks.h>
#include <common/time.h>
#include <common/uri_auth.h>
#include <common/version.h>
#include <common/base64.h>
#include <types/applet.h>
#include <types/cli.h>
#include <types/global.h>
#include <types/dns.h>
#include <types/stats.h>
#include <proto/backend.h>
#include <proto/channel.h>
#include <proto/checks.h>
#include <proto/compression.h>
#include <proto/stats.h>
#include <proto/fd.h>
#include <proto/freq_ctr.h>
#include <proto/frontend.h>
#include <proto/log.h>
#include <proto/pattern.h>
#include <proto/pipe.h>
#include <proto/listener.h>
#include <proto/map.h>
#include <proto/proxy.h>
#include <proto/sample.h>
#include <proto/session.h>
#include <proto/stream.h>
#include <proto/server.h>
#include <proto/stream_interface.h>
#include <proto/task.h>
#include <proto/proto_udp.h>
static struct applet cli_applet;
static const char stats_sock_usage_msg[] =
"Unknown command. Please enter one of the following commands only :\n"
" help : this message\n"
" prompt : toggle interactive mode with prompt\n"
" quit : disconnect\n"
"";
static const char stats_permission_denied_msg[] =
"Permission denied\n"
"";
static THREAD_LOCAL char *dynamic_usage_msg = NULL;
/* List head of cli keywords */
static struct cli_kw_list cli_keywords = {
.list = LIST_HEAD_INIT(cli_keywords.list)
};
extern const char *stat_status_codes[];
char *cli_gen_usage_msg()
{
struct cli_kw_list *kw_list;
struct cli_kw *kw;
struct chunk *tmp = get_trash_chunk();
struct chunk out;
free(dynamic_usage_msg);
dynamic_usage_msg = NULL;
if (LIST_ISEMPTY(&cli_keywords.list))
return NULL;
chunk_reset(tmp);
chunk_strcat(tmp, stats_sock_usage_msg);
list_for_each_entry(kw_list, &cli_keywords.list, list) {
kw = &kw_list->kw[0];
while (kw->usage) {
chunk_appendf(tmp, " %s\n", kw->usage);
kw++;
}
}
chunk_init(&out, NULL, 0);
chunk_dup(&out, tmp);
dynamic_usage_msg = out.str;
return dynamic_usage_msg;
}
struct cli_kw* cli_find_kw(char **args)
{
struct cli_kw_list *kw_list;
struct cli_kw *kw;/* current cli_kw */
char **tmp_args;
const char **tmp_str_kw;
int found = 0;
if (LIST_ISEMPTY(&cli_keywords.list))
return NULL;
list_for_each_entry(kw_list, &cli_keywords.list, list) {
kw = &kw_list->kw[0];
while (*kw->str_kw) {
tmp_args = args;
tmp_str_kw = kw->str_kw;
while (*tmp_str_kw) {
if (strcmp(*tmp_str_kw, *tmp_args) == 0) {
found = 1;
} else {
found = 0;
break;
}
tmp_args++;
tmp_str_kw++;
}
if (found)
return (kw);
kw++;
}
}
return NULL;
}
void cli_register_kw(struct cli_kw_list *kw_list)
{
LIST_ADDQ(&cli_keywords.list, &kw_list->list);
}
/* allocate a new stats frontend named <name>, and return it
* (or NULL in case of lack of memory).
*/
static struct proxy *alloc_stats_fe(const char *name, const char *file, int line)
{
struct proxy *fe;
fe = calloc(1, sizeof(*fe));
if (!fe)
return NULL;
init_new_proxy(fe);
fe->next = proxy;
proxy = fe;
fe->last_change = now.tv_sec;
fe->id = strdup("GLOBAL");
fe->cap = PR_CAP_FE;
fe->maxconn = 10; /* default to 10 concurrent connections */
fe->timeout.client = MS_TO_TICKS(10000); /* default timeout of 10 seconds */
fe->conf.file = strdup(file);
fe->conf.line = line;
fe->accept = frontend_accept;
fe->default_target = &cli_applet.obj_type;
/* the stats frontend is the only one able to assign ID #0 */
fe->conf.id.key = fe->uuid = 0;
eb32_insert(&used_proxy_id, &fe->conf.id);
return fe;
}
/* This function parses a "stats" statement in the "global" section. It returns
* -1 if there is any error, otherwise zero. If it returns -1, it will write an
* error message into the <err> buffer which will be preallocated. The trailing
* '\n' must not be written. The function must be called with <args> pointing to
* the first word after "stats".
*/
static int stats_parse_global(char **args, int section_type, struct proxy *curpx,
struct proxy *defpx, const char *file, int line,
char **err)
{
struct bind_conf *bind_conf;
struct listener *l;
if (!strcmp(args[1], "socket")) {
int cur_arg;
if (*args[2] == 0) {
memprintf(err, "'%s %s' in global section expects an address or a path to a UNIX socket", args[0], args[1]);
return -1;
}
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
bind_conf = bind_conf_alloc(global.stats_fe, file, line, args[2], xprt_get(XPRT_RAW));
bind_conf->level &= ~ACCESS_LVL_MASK;
bind_conf->level |= ACCESS_LVL_OPER; /* default access level */
if (!str2listener(args[2], global.stats_fe, bind_conf, file, line, err)) {
memprintf(err, "parsing [%s:%d] : '%s %s' : %s\n",
file, line, args[0], args[1], err && *err ? *err : "error");
return -1;
}
cur_arg = 3;
while (*args[cur_arg]) {
static int bind_dumped;
struct bind_kw *kw;
kw = bind_find_kw(args[cur_arg]);
if (kw) {
if (!kw->parse) {
memprintf(err, "'%s %s' : '%s' option is not implemented in this version (check build options).",
args[0], args[1], args[cur_arg]);
return -1;
}
if (kw->parse(args, cur_arg, global.stats_fe, bind_conf, err) != 0) {
if (err && *err)
memprintf(err, "'%s %s' : '%s'", args[0], args[1], *err);
else
memprintf(err, "'%s %s' : error encountered while processing '%s'",
args[0], args[1], args[cur_arg]);
return -1;
}
cur_arg += 1 + kw->skip;
continue;
}
if (!bind_dumped) {
bind_dump_kws(err);
indent_msg(err, 4);
bind_dumped = 1;
}
memprintf(err, "'%s %s' : unknown keyword '%s'.%s%s",
args[0], args[1], args[cur_arg],
err && *err ? " Registered keywords :" : "", err && *err ? *err : "");
return -1;
}
list_for_each_entry(l, &bind_conf->listeners, by_bind) {
l->maxconn = global.stats_fe->maxconn;
l->backlog = global.stats_fe->backlog;
l->accept = session_accept_fd;
l->default_target = global.stats_fe->default_target;
l->options |= LI_O_UNLIMITED; /* don't make the peers subject to global limits */
l->nice = -64; /* we want to boost priority for local stats */
global.maxsock += l->maxconn;
}
}
else if (!strcmp(args[1], "timeout")) {
unsigned timeout;
const char *res = parse_time_err(args[2], &timeout, TIME_UNIT_MS);
if (res) {
memprintf(err, "'%s %s' : unexpected character '%c'", args[0], args[1], *res);
return -1;
}
if (!timeout) {
memprintf(err, "'%s %s' expects a positive value", args[0], args[1]);
return -1;
}
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
global.stats_fe->timeout.client = MS_TO_TICKS(timeout);
}
else if (!strcmp(args[1], "maxconn")) {
int maxconn = atol(args[2]);
if (maxconn <= 0) {
memprintf(err, "'%s %s' expects a positive value", args[0], args[1]);
return -1;
}
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
global.stats_fe->maxconn = maxconn;
}
else if (!strcmp(args[1], "bind-process")) { /* enable the socket only on some processes */
int cur_arg = 2;
unsigned long set = 0;
if (!global.stats_fe) {
if ((global.stats_fe = alloc_stats_fe("GLOBAL", file, line)) == NULL) {
memprintf(err, "'%s %s' : out of memory trying to allocate a frontend", args[0], args[1]);
return -1;
}
}
while (*args[cur_arg]) {
unsigned int low, high;
if (strcmp(args[cur_arg], "all") == 0) {
set = 0;
break;
}
else if (strcmp(args[cur_arg], "odd") == 0) {
set |= ~0UL/3UL; /* 0x555....555 */
}
else if (strcmp(args[cur_arg], "even") == 0) {
set |= (~0UL/3UL) << 1; /* 0xAAA...AAA */
}
else if (isdigit((int)*args[cur_arg])) {
char *dash = strchr(args[cur_arg], '-');
low = high = str2uic(args[cur_arg]);
if (dash)
high = str2uic(dash + 1);
if (high < low) {
unsigned int swap = low;
low = high;
high = swap;
}
if (low < 1 || high > LONGBITS) {
memprintf(err, "'%s %s' supports process numbers from 1 to %d.\n",
args[0], args[1], LONGBITS);
return -1;
}
while (low <= high)
set |= 1UL << (low++ - 1);
}
else {
memprintf(err,
"'%s %s' expects 'all', 'odd', 'even', or a list of process ranges with numbers from 1 to %d.\n",
args[0], args[1], LONGBITS);
return -1;
}
cur_arg++;
}
global.stats_fe->bind_proc = set;
}
else {
memprintf(err, "'%s' only supports 'socket', 'maxconn', 'bind-process' and 'timeout' (got '%s')", args[0], args[1]);
return -1;
}
return 0;
}
/* Verifies that the CLI at least has a level at least as high as <level>
* (typically ACCESS_LVL_ADMIN). Returns 1 if OK, otherwise 0. In case of
* failure, an error message is prepared and the appctx's state is adjusted
* to print it so that a return 1 is enough to abort any processing.
*/
int cli_has_level(struct appctx *appctx, int level)
{
struct stream_interface *si = appctx->owner;
struct stream *s = si_strm(si);
if ((strm_li(s)->bind_conf->level & ACCESS_LVL_MASK) < level) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = stats_permission_denied_msg;
appctx->st0 = CLI_ST_PRINT;
return 0;
}
return 1;
}
/* Returns severity_output for the current session if set, or default for the socket */
static int cli_get_severity_output(struct appctx *appctx)
{
if (appctx->cli_severity_output)
return appctx->cli_severity_output;
return strm_li(si_strm(appctx->owner))->bind_conf->severity_output;
}
/* Processes the CLI interpreter on the stats socket. This function is called
* from the CLI's IO handler running in an appctx context. The function returns 1
* if the request was understood, otherwise zero. It is called with appctx->st0
* set to CLI_ST_GETREQ and presets ->st2 to 0 so that parsers don't have to do
* it. It will possilbly leave st0 to CLI_ST_CALLBACK if the keyword needs to
* have its own I/O handler called again. Most of the time, parsers will only
* set st0 to CLI_ST_PRINT and put their message to be displayed into cli.msg.
* If a keyword parser is NULL and an I/O handler is declared, the I/O handler
* will automatically be used.
*/
static int cli_parse_request(struct appctx *appctx, char *line)
{
char *args[MAX_STATS_ARGS + 1];
struct cli_kw *kw;
int arg;
int i, j;
while (isspace((unsigned char)*line))
line++;
arg = 0;
args[arg] = line;
while (*line && arg < MAX_STATS_ARGS) {
if (*line == '\\') {
line++;
if (*line == '\0')
break;
}
else if (isspace((unsigned char)*line)) {
*line++ = '\0';
while (isspace((unsigned char)*line))
line++;
args[++arg] = line;
continue;
}
line++;
}
while (++arg <= MAX_STATS_ARGS)
args[arg] = line;
/* unescape '\' */
arg = 0;
while (*args[arg] != '\0') {
j = 0;
for (i=0; args[arg][i] != '\0'; i++) {
if (args[arg][i] == '\\') {
if (args[arg][i+1] == '\\')
i++;
else
continue;
}
args[arg][j] = args[arg][i];
j++;
}
args[arg][j] = '\0';
arg++;
}
appctx->st2 = 0;
memset(&appctx->ctx.cli, 0, sizeof(appctx->ctx.cli));
kw = cli_find_kw(args);
if (!kw)
return 0;
appctx->io_handler = kw->io_handler;
appctx->io_release = kw->io_release;
/* kw->parse could set its own io_handler or ip_release handler */
if ((!kw->parse || kw->parse(args, appctx, kw->private) == 0) && appctx->io_handler) {
appctx->st0 = CLI_ST_CALLBACK;
}
return 1;
}
/* prepends then outputs the argument msg with a syslog-type severity depending on severity_output value */
static int cli_output_msg(struct channel *chn, const char *msg, int severity, int severity_output)
{
struct chunk *tmp;
if (likely(severity_output == CLI_SEVERITY_NONE))
return ci_putblk(chn, msg, strlen(msg));
tmp = get_trash_chunk();
chunk_reset(tmp);
if (severity < 0 || severity > 7) {
Warning("socket command feedback with invalid severity %d", severity);
chunk_printf(tmp, "[%d]: ", severity);
}
else {
switch (severity_output) {
case CLI_SEVERITY_NUMBER:
chunk_printf(tmp, "[%d]: ", severity);
break;
case CLI_SEVERITY_STRING:
chunk_printf(tmp, "[%s]: ", log_levels[severity]);
break;
default:
Warning("Unrecognized severity output %d", severity_output);
}
}
chunk_appendf(tmp, "%s", msg);
return ci_putblk(chn, tmp->str, strlen(tmp->str));
}
/* This I/O handler runs as an applet embedded in a stream interface. It is
* used to processes I/O from/to the stats unix socket. The system relies on a
* state machine handling requests and various responses. We read a request,
* then we process it and send the response, and we possibly display a prompt.
* Then we can read again. The state is stored in appctx->st0 and is one of the
* CLI_ST_* constants. appctx->st1 is used to indicate whether prompt is enabled
* or not.
*/
static void cli_io_handler(struct appctx *appctx)
{
struct stream_interface *si = appctx->owner;
struct channel *req = si_oc(si);
struct channel *res = si_ic(si);
struct bind_conf *bind_conf = strm_li(si_strm(si))->bind_conf;
int reql;
int len;
if (unlikely(si->state == SI_ST_DIS || si->state == SI_ST_CLO))
goto out;
/* Check if the input buffer is avalaible. */
if (res->buf->size == 0) {
si_applet_cant_put(si);
goto out;
}
while (1) {
if (appctx->st0 == CLI_ST_INIT) {
/* Stats output not initialized yet */
memset(&appctx->ctx.stats, 0, sizeof(appctx->ctx.stats));
/* reset severity to default at init */
appctx->cli_severity_output = bind_conf->severity_output;
appctx->st0 = CLI_ST_GETREQ;
}
else if (appctx->st0 == CLI_ST_END) {
/* Let's close for real now. We just close the request
* side, the conditions below will complete if needed.
*/
si_shutw(si);
break;
}
else if (appctx->st0 == CLI_ST_GETREQ) {
/* ensure we have some output room left in the event we
* would want to return some info right after parsing.
*/
if (buffer_almost_full(si_ib(si))) {
si_applet_cant_put(si);
break;
}
reql = co_getline(si_oc(si), trash.str, trash.size);
if (reql <= 0) { /* closed or EOL not found */
if (reql == 0)
break;
appctx->st0 = CLI_ST_END;
continue;
}
/* seek for a possible unescaped semi-colon. If we find
* one, we replace it with an LF and skip only this part.
*/
for (len = 0; len < reql; len++) {
if (trash.str[len] == '\\') {
len++;
continue;
}
if (trash.str[len] == ';') {
trash.str[len] = '\n';
reql = len + 1;
break;
}
}
/* now it is time to check that we have a full line,
* remove the trailing \n and possibly \r, then cut the
* line.
*/
len = reql - 1;
if (trash.str[len] != '\n') {
appctx->st0 = CLI_ST_END;
continue;
}
if (len && trash.str[len-1] == '\r')
len--;
trash.str[len] = '\0';
appctx->st0 = CLI_ST_PROMPT;
if (len) {
if (strcmp(trash.str, "quit") == 0) {
appctx->st0 = CLI_ST_END;
continue;
}
else if (strcmp(trash.str, "prompt") == 0)
appctx->st1 = !appctx->st1;
else if (strcmp(trash.str, "help") == 0 ||
!cli_parse_request(appctx, trash.str)) {
cli_gen_usage_msg();
if (dynamic_usage_msg) {
appctx->ctx.cli.severity = LOG_INFO;
appctx->ctx.cli.msg = dynamic_usage_msg;
}
else {
appctx->ctx.cli.severity = LOG_INFO;
appctx->ctx.cli.msg = stats_sock_usage_msg;
}
appctx->st0 = CLI_ST_PRINT;
}
/* NB: stats_sock_parse_request() may have put
* another CLI_ST_O_* into appctx->st0.
*/
}
else if (!appctx->st1) {
/* if prompt is disabled, print help on empty lines,
* so that the user at least knows how to enable
* prompt and find help.
*/
cli_gen_usage_msg();
if (dynamic_usage_msg) {
appctx->ctx.cli.severity = LOG_INFO;
appctx->ctx.cli.msg = dynamic_usage_msg;
}
else {
appctx->ctx.cli.severity = LOG_INFO;
appctx->ctx.cli.msg = stats_sock_usage_msg;
}
appctx->st0 = CLI_ST_PRINT;
}
/* re-adjust req buffer */
co_skip(si_oc(si), reql);
req->flags |= CF_READ_DONTWAIT; /* we plan to read small requests */
}
else { /* output functions */
switch (appctx->st0) {
case CLI_ST_PROMPT:
break;
case CLI_ST_PRINT:
if (cli_output_msg(res, appctx->ctx.cli.msg, appctx->ctx.cli.severity,
cli_get_severity_output(appctx)) != -1)
appctx->st0 = CLI_ST_PROMPT;
else
si_applet_cant_put(si);
break;
case CLI_ST_PRINT_FREE:
if (cli_output_msg(res, appctx->ctx.cli.err, LOG_ERR, cli_get_severity_output(appctx)) != -1) {
free(appctx->ctx.cli.err);
appctx->st0 = CLI_ST_PROMPT;
}
else
si_applet_cant_put(si);
break;
case CLI_ST_CALLBACK: /* use custom pointer */
if (appctx->io_handler)
if (appctx->io_handler(appctx)) {
appctx->st0 = CLI_ST_PROMPT;
if (appctx->io_release) {
appctx->io_release(appctx);
appctx->io_release = NULL;
}
}
break;
default: /* abnormal state */
si->flags |= SI_FL_ERR;
break;
}
/* The post-command prompt is either LF alone or LF + '> ' in interactive mode */
if (appctx->st0 == CLI_ST_PROMPT) {
if (ci_putstr(si_ic(si), appctx->st1 ? "\n> " : "\n") != -1)
appctx->st0 = CLI_ST_GETREQ;
else
si_applet_cant_put(si);
}
/* If the output functions are still there, it means they require more room. */
if (appctx->st0 >= CLI_ST_OUTPUT)
break;
/* Now we close the output if one of the writers did so,
* or if we're not in interactive mode and the request
* buffer is empty. This still allows pipelined requests
* to be sent in non-interactive mode.
*/
if ((res->flags & (CF_SHUTW|CF_SHUTW_NOW)) || (!appctx->st1 && !req->buf->o)) {
appctx->st0 = CLI_ST_END;
continue;
}
/* switch state back to GETREQ to read next requests */
appctx->st0 = CLI_ST_GETREQ;
}
}
if ((res->flags & CF_SHUTR) && (si->state == SI_ST_EST)) {
DPRINTF(stderr, "%s@%d: si to buf closed. req=%08x, res=%08x, st=%d\n",
__FUNCTION__, __LINE__, req->flags, res->flags, si->state);
/* Other side has closed, let's abort if we have no more processing to do
* and nothing more to consume. This is comparable to a broken pipe, so
* we forward the close to the request side so that it flows upstream to
* the client.
*/
si_shutw(si);
}
if ((req->flags & CF_SHUTW) && (si->state == SI_ST_EST) && (appctx->st0 < CLI_ST_OUTPUT)) {
DPRINTF(stderr, "%s@%d: buf to si closed. req=%08x, res=%08x, st=%d\n",
__FUNCTION__, __LINE__, req->flags, res->flags, si->state);
/* We have no more processing to do, and nothing more to send, and
* the client side has closed. So we'll forward this state downstream
* on the response buffer.
*/
si_shutr(si);
res->flags |= CF_READ_NULL;
}
out:
DPRINTF(stderr, "%s@%d: st=%d, rqf=%x, rpf=%x, rqh=%d, rqs=%d, rh=%d, rs=%d\n",
__FUNCTION__, __LINE__,
si->state, req->flags, res->flags, req->buf->i, req->buf->o, res->buf->i, res->buf->o);
}
/* This is called when the stream interface is closed. For instance, upon an
* external abort, we won't call the i/o handler anymore so we may need to
* remove back references to the stream currently being dumped.
*/
static void cli_release_handler(struct appctx *appctx)
{
if (appctx->io_release) {
appctx->io_release(appctx);
appctx->io_release = NULL;
}
else if (appctx->st0 == CLI_ST_PRINT_FREE) {
free(appctx->ctx.cli.err);
appctx->ctx.cli.err = NULL;
}
}
/* This function dumps all environmnent variables to the buffer. It returns 0
* if the output buffer is full and it needs to be called again, otherwise
* non-zero. Dumps only one entry if st2 == STAT_ST_END. It uses cli.p0 as the
* pointer to the current variable.
*/
static int cli_io_handler_show_env(struct appctx *appctx)
{
struct stream_interface *si = appctx->owner;
char **var = appctx->ctx.cli.p0;
if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW)))
return 1;
chunk_reset(&trash);
/* we have two inner loops here, one for the proxy, the other one for
* the buffer.
*/
while (*var) {
chunk_printf(&trash, "%s\n", *var);
if (ci_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
if (appctx->st2 == STAT_ST_END)
break;
var++;
appctx->ctx.cli.p0 = var;
}
/* dump complete */
return 1;
}
/* This function dumps all file descriptors states (or the requested one) to
* the buffer. It returns 0 if the output buffer is full and it needs to be
* called again, otherwise non-zero. Dumps only one entry if st2 == STAT_ST_END.
* It uses cli.i0 as the fd number to restart from.
*/
static int cli_io_handler_show_fd(struct appctx *appctx)
{
struct stream_interface *si = appctx->owner;
int fd = appctx->ctx.cli.i0;
if (unlikely(si_ic(si)->flags & (CF_WRITE_ERROR|CF_SHUTW)))
return 1;
chunk_reset(&trash);
/* we have two inner loops here, one for the proxy, the other one for
* the buffer.
*/
while (fd < maxfd) {
struct fdtab fdt;
struct listener *li = NULL;
struct server *sv = NULL;
struct proxy *px = NULL;
uint32_t conn_flags = 0;
fdt = fdtab[fd];
if (!fdt.owner)
goto skip; // closed
if (fdt.iocb == conn_fd_handler) {
conn_flags = ((struct connection *)fdt.owner)->flags;
li = objt_listener(((struct connection *)fdt.owner)->target);
sv = objt_server(((struct connection *)fdt.owner)->target);
px = objt_proxy(((struct connection *)fdt.owner)->target);
}
else if (fdt.iocb == listener_accept)
li = fdt.owner;
chunk_printf(&trash,
" %5d : st=0x%02x(R:%c%c%c W:%c%c%c) ev=0x%02x(%c%c%c%c%c) [%c%c%c%c] cache=%u owner=%p iocb=%p(%s) tmask=0x%lx",
fd,
fdt.state,
(fdt.state & FD_EV_POLLED_R) ? 'P' : 'p',
(fdt.state & FD_EV_READY_R) ? 'R' : 'r',
(fdt.state & FD_EV_ACTIVE_R) ? 'A' : 'a',
(fdt.state & FD_EV_POLLED_W) ? 'P' : 'p',
(fdt.state & FD_EV_READY_W) ? 'R' : 'r',
(fdt.state & FD_EV_ACTIVE_W) ? 'A' : 'a',
fdt.ev,
(fdt.ev & FD_POLL_HUP) ? 'H' : 'h',
(fdt.ev & FD_POLL_ERR) ? 'E' : 'e',
(fdt.ev & FD_POLL_OUT) ? 'O' : 'o',
(fdt.ev & FD_POLL_PRI) ? 'P' : 'p',
(fdt.ev & FD_POLL_IN) ? 'I' : 'i',
fdt.new ? 'N' : 'n',
fdt.updated ? 'U' : 'u',
fdt.linger_risk ? 'L' : 'l',
fdt.cloned ? 'C' : 'c',
fdt.cache,
fdt.owner,
fdt.iocb,
(fdt.iocb == conn_fd_handler) ? "conn_fd_handler" :
(fdt.iocb == dgram_fd_handler) ? "dgram_fd_handler" :
(fdt.iocb == listener_accept) ? "listener_accept" :
"unknown",
fdt.thread_mask);
if (fdt.iocb == conn_fd_handler) {
chunk_appendf(&trash, " cflg=0x%08x", conn_flags);
if (px)
chunk_appendf(&trash, " px=%s", px->id);
else if (sv)
chunk_appendf(&trash, " sv=%s/%s", sv->id, sv->proxy->id);
else if (li)
chunk_appendf(&trash, " fe=%s", li->bind_conf->frontend->id);
}
else if (fdt.iocb == listener_accept) {
chunk_appendf(&trash, " l.st=%s fe=%s",
listener_state_str(li),
li->bind_conf->frontend->id);
}
chunk_appendf(&trash, "\n");
if (ci_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
skip:
if (appctx->st2 == STAT_ST_END)
break;
fd++;
appctx->ctx.cli.i0 = fd;
}
/* dump complete */
return 1;
}
/*
* CLI IO handler for `show cli sockets`.
* Uses ctx.cli.p0 to store the restart pointer.
*/
static int cli_io_handler_show_cli_sock(struct appctx *appctx)
{
struct bind_conf *bind_conf;
struct stream_interface *si = appctx->owner;
chunk_reset(&trash);
switch (appctx->st2) {
case STAT_ST_INIT:
chunk_printf(&trash, "# socket lvl processes\n");
if (ci_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
appctx->st2 = STAT_ST_LIST;
case STAT_ST_LIST:
if (global.stats_fe) {
list_for_each_entry(bind_conf, &global.stats_fe->conf.bind, by_fe) {
struct listener *l;
/*
* get the latest dumped node in appctx->ctx.cli.p0
* if the current node is the first of the list
*/
if (appctx->ctx.cli.p0 &&
&bind_conf->by_fe == (&global.stats_fe->conf.bind)->n) {
/* change the current node to the latest dumped and continue the loop */
bind_conf = LIST_ELEM(appctx->ctx.cli.p0, typeof(bind_conf), by_fe);
continue;
}
list_for_each_entry(l, &bind_conf->listeners, by_bind) {
char addr[46];
char port[6];
if (l->addr.ss_family == AF_UNIX) {
const struct sockaddr_un *un;
un = (struct sockaddr_un *)&l->addr;
chunk_appendf(&trash, "%s ", un->sun_path);
} else if (l->addr.ss_family == AF_INET) {
addr_to_str(&l->addr, addr, sizeof(addr));
port_to_str(&l->addr, port, sizeof(port));
chunk_appendf(&trash, "%s:%s ", addr, port);
} else if (l->addr.ss_family == AF_INET6) {
addr_to_str(&l->addr, addr, sizeof(addr));
port_to_str(&l->addr, port, sizeof(port));
chunk_appendf(&trash, "[%s]:%s ", addr, port);
} else
continue;
if ((bind_conf->level & ACCESS_LVL_MASK) == ACCESS_LVL_ADMIN)
chunk_appendf(&trash, "admin ");
else if ((bind_conf->level & ACCESS_LVL_MASK) == ACCESS_LVL_OPER)
chunk_appendf(&trash, "operator ");
else if ((bind_conf->level & ACCESS_LVL_MASK) == ACCESS_LVL_USER)
chunk_appendf(&trash, "user ");
else
chunk_appendf(&trash, " ");
if (bind_conf->bind_proc != 0) {
int pos;
for (pos = 0; pos < 8 * sizeof(bind_conf->bind_proc); pos++) {
if (bind_conf->bind_proc & (1UL << pos)) {
chunk_appendf(&trash, "%d,", pos+1);
}
}
/* replace the latest comma by a newline */
trash.str[trash.len-1] = '\n';
} else {
chunk_appendf(&trash, "all\n");
}
if (ci_putchk(si_ic(si), &trash) == -1) {
si_applet_cant_put(si);
return 0;
}
}
appctx->ctx.cli.p0 = &bind_conf->by_fe; /* store the latest list node dumped */
}
}
default:
appctx->st2 = STAT_ST_FIN;
return 1;
}
}
/* parse a "show env" CLI request. Returns 0 if it needs to continue, 1 if it
* wants to stop here. It puts the variable to be dumped into cli.p0 if a single
* variable is requested otherwise puts environ there.
*/
static int cli_parse_show_env(char **args, struct appctx *appctx, void *private)
{
extern char **environ;
char **var;
if (!cli_has_level(appctx, ACCESS_LVL_OPER))
return 1;
var = environ;
if (*args[2]) {
int len = strlen(args[2]);
for (; *var; var++) {
if (strncmp(*var, args[2], len) == 0 &&
(*var)[len] == '=')
break;
}
if (!*var) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Variable not found\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
appctx->st2 = STAT_ST_END;
}
appctx->ctx.cli.p0 = var;
return 0;
}
/* parse a "show fd" CLI request. Returns 0 if it needs to continue, 1 if it
* wants to stop here. It puts the FD number into cli.i0 if a specific FD is
* requested and sets st2 to STAT_ST_END, otherwise leaves 0 in i0.
*/
static int cli_parse_show_fd(char **args, struct appctx *appctx, void *private)
{
if (!cli_has_level(appctx, ACCESS_LVL_OPER))
return 1;
appctx->ctx.cli.i0 = 0;
if (*args[2]) {
appctx->ctx.cli.i0 = atoi(args[2]);
appctx->st2 = STAT_ST_END;
}
return 0;
}
/* parse a "set timeout" CLI request. It always returns 1. */
static int cli_parse_set_timeout(char **args, struct appctx *appctx, void *private)
{
struct stream_interface *si = appctx->owner;
struct stream *s = si_strm(si);
if (strcmp(args[2], "cli") == 0) {
unsigned timeout;
const char *res;
if (!*args[3]) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
res = parse_time_err(args[3], &timeout, TIME_UNIT_S);
if (res || timeout < 1) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Invalid timeout value.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
s->req.rto = s->res.wto = 1 + MS_TO_TICKS(timeout*1000);
task_wakeup(s->task, TASK_WOKEN_MSG); // recompute timeouts
return 1;
}
else {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "'set timeout' only supports 'cli'.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
}
/* parse a "set maxconn global" command. It always returns 1. */
static int cli_parse_set_maxconn_global(char **args, struct appctx *appctx, void *private)
{
int v;
if (!cli_has_level(appctx, ACCESS_LVL_ADMIN))
return 1;
if (!*args[3]) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
v = atoi(args[3]);
if (v > global.hardmaxconn) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
/* check for unlimited values */
if (v <= 0)
v = global.hardmaxconn;
global.maxconn = v;
/* Dequeues all of the listeners waiting for a resource */
if (!LIST_ISEMPTY(&global_listener_queue))
dequeue_all_listeners(&global_listener_queue);
return 1;
}
static int set_severity_output(int *target, char *argument)
{
if (!strcmp(argument, "none")) {
*target = CLI_SEVERITY_NONE;
return 1;
}
else if (!strcmp(argument, "number")) {
*target = CLI_SEVERITY_NUMBER;
return 1;
}
else if (!strcmp(argument, "string")) {
*target = CLI_SEVERITY_STRING;
return 1;
}
return 0;
}
/* parse a "set severity-output" command. */
static int cli_parse_set_severity_output(char **args, struct appctx *appctx, void *private)
{
if (*args[2] && set_severity_output(&appctx->cli_severity_output, args[2]))
return 0;
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "one of 'none', 'number', 'string' is a required argument";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
int cli_parse_default(char **args, struct appctx *appctx, void *private)
{
return 0;
}
/* parse a "set rate-limit" command. It always returns 1. */
static int cli_parse_set_ratelimit(char **args, struct appctx *appctx, void *private)
{
int v;
int *res;
int mul = 1;
if (!cli_has_level(appctx, ACCESS_LVL_ADMIN))
return 1;
if (strcmp(args[2], "connections") == 0 && strcmp(args[3], "global") == 0)
res = &global.cps_lim;
else if (strcmp(args[2], "sessions") == 0 && strcmp(args[3], "global") == 0)
res = &global.sps_lim;
#ifdef USE_OPENSSL
else if (strcmp(args[2], "ssl-sessions") == 0 && strcmp(args[3], "global") == 0)
res = &global.ssl_lim;
#endif
else if (strcmp(args[2], "http-compression") == 0 && strcmp(args[3], "global") == 0) {
res = &global.comp_rate_lim;
mul = 1024;
}
else {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg =
"'set rate-limit' only supports :\n"
" - 'connections global' to set the per-process maximum connection rate\n"
" - 'sessions global' to set the per-process maximum session rate\n"
#ifdef USE_OPENSSL
" - 'ssl-session global' to set the per-process maximum SSL session rate\n"
#endif
" - 'http-compression global' to set the per-process maximum compression speed in kB/s\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
if (!*args[4]) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Expects an integer value.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
v = atoi(args[4]);
if (v < 0) {
appctx->ctx.cli.severity = LOG_ERR;
appctx->ctx.cli.msg = "Value out of range.\n";
appctx->st0 = CLI_ST_PRINT;
return 1;
}
*res = v * mul;
/* Dequeues all of the listeners waiting for a resource */
if (!LIST_ISEMPTY(&global_listener_queue))
dequeue_all_listeners(&global_listener_queue);
return 1;
}
/* parse the "expose-fd" argument on the bind lines */
static int bind_parse_expose_fd(char **args, int cur_arg, struct proxy *px, struct bind_conf *conf, char **err)
{
if (!*args[cur_arg + 1]) {
memprintf(err, "'%s' : missing fd type", args[cur_arg]);
return ERR_ALERT | ERR_FATAL;
}
if (!strcmp(args[cur_arg+1], "listeners")) {
conf->level |= ACCESS_FD_LISTENERS;
} else {
memprintf(err, "'%s' only supports 'listeners' (got '%s')",
args[cur_arg], args[cur_arg+1]);
return ERR_ALERT | ERR_FATAL;
}
return 0;
}
/* parse the "level" argument on the bind lines */
static int bind_parse_level(char **args, int cur_arg, struct proxy *px, struct bind_conf *conf, char **err)
{
if (!*args[cur_arg + 1]) {
memprintf(err, "'%s' : missing level", args[cur_arg]);
return ERR_ALERT | ERR_FATAL;
}
if (!strcmp(args[cur_arg+1], "user")) {
conf->level &= ~ACCESS_LVL_MASK;
conf->level |= ACCESS_LVL_USER;
} else if (!strcmp(args[cur_arg+1], "operator")) {
conf->level &= ~ACCESS_LVL_MASK;
conf->level |= ACCESS_LVL_OPER;
} else if (!strcmp(args[cur_arg+1], "admin")) {
conf->level &= ~ACCESS_LVL_MASK;
conf->level |= ACCESS_LVL_ADMIN;
} else {
memprintf(err, "'%s' only supports 'user', 'operator', and 'admin' (got '%s')",
args[cur_arg], args[cur_arg+1]);
return ERR_ALERT | ERR_FATAL;
}
return 0;
}
static int bind_parse_severity_output(char **args, int cur_arg, struct proxy *px, struct bind_conf *conf, char **err)
{
if (!*args[cur_arg + 1]) {
memprintf(err, "'%s' : missing severity format", args[cur_arg]);
return ERR_ALERT | ERR_FATAL;
}
if (set_severity_output(&conf->severity_output, args[cur_arg+1]))
return 0;
else {
memprintf(err, "'%s' only supports 'none', 'number', and 'string' (got '%s')",
args[cur_arg], args[cur_arg+1]);
return ERR_ALERT | ERR_FATAL;
}
}
/* Send all the bound sockets, always returns 1 */
static int _getsocks(char **args, struct appctx *appctx, void *private)
{
char *cmsgbuf = NULL;
unsigned char *tmpbuf = NULL;
struct cmsghdr *cmsg;
struct stream_interface *si = appctx->owner;
struct stream *s = si_strm(si);
struct connection *remote = cs_conn(objt_cs(si_opposite(si)->end));
struct msghdr msghdr;
struct iovec iov;
struct timeval tv = { .tv_sec = 1, .tv_usec = 0 };
int *tmpfd;
int tot_fd_nb = 0;
struct proxy *px;
int i = 0;
int fd = remote->handle.fd;
int curoff = 0;
int old_fcntl;
int ret;
/* Temporary set the FD in blocking mode, that will make our life easier */
old_fcntl = fcntl(fd, F_GETFL);
if (old_fcntl < 0) {
Warning("Couldn't get the flags for the unix socket\n");
goto out;
}
cmsgbuf = malloc(CMSG_SPACE(sizeof(int) * MAX_SEND_FD));
if (!cmsgbuf) {
Warning("Failed to allocate memory to send sockets\n");
goto out;
}
if (fcntl(fd, F_SETFL, old_fcntl &~ O_NONBLOCK) == -1) {
Warning("Cannot make the unix socket blocking\n");
goto out;
}
setsockopt(fd, SOL_SOCKET, SO_RCVTIMEO, (void *)&tv, sizeof(tv));
iov.iov_base = &tot_fd_nb;
iov.iov_len = sizeof(tot_fd_nb);
if (!(strm_li(s)->bind_conf->level & ACCESS_FD_LISTENERS))
goto out;
memset(&msghdr, 0, sizeof(msghdr));
/*
* First, calculates the total number of FD, so that we can let
* the caller know how much he should expects.
*/
px = proxy;
while (px) {
struct listener *l;
list_for_each_entry(l, &px->conf.listeners, by_fe) {
/* Only transfer IPv4/IPv6/UNIX sockets */
if (l->state >= LI_ZOMBIE &&
(l->proto->sock_family == AF_INET ||
l->proto->sock_family == AF_INET6 ||
l->proto->sock_family == AF_UNIX))
tot_fd_nb++;
}
px = px->next;
}
if (tot_fd_nb == 0)
goto out;
/* First send the total number of file descriptors, so that the
* receiving end knows what to expect.
*/
msghdr.msg_iov = &iov;
msghdr.msg_iovlen = 1;
ret = sendmsg(fd, &msghdr, 0);
if (ret != sizeof(tot_fd_nb)) {
Warning("Failed to send the number of sockets to send\n");
goto out;
}
/* Now send the fds */
msghdr.msg_control = cmsgbuf;
msghdr.msg_controllen = CMSG_SPACE(sizeof(int) * MAX_SEND_FD);
cmsg = CMSG_FIRSTHDR(&msghdr);
cmsg->cmsg_len = CMSG_LEN(MAX_SEND_FD * sizeof(int));
cmsg->cmsg_level = SOL_SOCKET;
cmsg->cmsg_type = SCM_RIGHTS;
tmpfd = (int *)CMSG_DATA(cmsg);
px = proxy;
/* For each socket, e message is sent, containing the following :
* Size of the namespace name (or 0 if none), as an unsigned char.
* The namespace name, if any
* Size of the interface name (or 0 if none), as an unsigned char
* The interface name, if any
* Listener options, as an int.
*/
/* We will send sockets MAX_SEND_FD per MAX_SEND_FD, allocate a
* buffer big enough to store the socket informations.
*/
tmpbuf = malloc(MAX_SEND_FD * (1 + MAXPATHLEN + 1 + IFNAMSIZ + sizeof(int)));
if (tmpbuf == NULL) {
Warning("Failed to allocate memory to transfer socket informations\n");
goto out;
}
iov.iov_base = tmpbuf;
while (px) {
struct listener *l;
list_for_each_entry(l, &px->conf.listeners, by_fe) {
int ret;
/* Only transfer IPv4/IPv6 sockets */
if (l->state >= LI_ZOMBIE &&
(l->proto->sock_family == AF_INET ||
l->proto->sock_family == AF_INET6 ||
l->proto->sock_family == AF_UNIX)) {
memcpy(&tmpfd[i % MAX_SEND_FD], &l->fd, sizeof(l->fd));
if (!l->netns)
tmpbuf[curoff++] = 0;
#ifdef CONFIG_HAP_NS
else {
char *name = l->netns->node.key;
unsigned char len = l->netns->name_len;
tmpbuf[curoff++] = len;
memcpy(tmpbuf + curoff, name, len);
curoff += len;
}
#endif
if (l->interface) {
unsigned char len = strlen(l->interface);
tmpbuf[curoff++] = len;
memcpy(tmpbuf + curoff, l->interface, len);
curoff += len;
} else
tmpbuf[curoff++] = 0;
memcpy(tmpbuf + curoff, &l->options,
sizeof(l->options));
curoff += sizeof(l->options);
i++;
} else
continue;
if ((!(i % MAX_SEND_FD))) {
iov.iov_len = curoff;
if (sendmsg(fd, &msghdr, 0) != curoff) {
Warning("Failed to transfer sockets\n");
printf("errno %d\n", errno);
goto out;
}
/* Wait for an ack */
do {
ret = recv(fd, &tot_fd_nb,
sizeof(tot_fd_nb), 0);
} while (ret == -1 && errno == EINTR);
if (ret <= 0) {
Warning("Unexpected error while transferring sockets\n");
goto out;
}
curoff = 0;
}
}
px = px->next;
}
if (i % MAX_SEND_FD) {
iov.iov_len = curoff;
cmsg->cmsg_len = CMSG_LEN((i % MAX_SEND_FD) * sizeof(int));
msghdr.msg_controllen = CMSG_SPACE(sizeof(int) * (i % MAX_SEND_FD));
if (sendmsg(fd, &msghdr, 0) != curoff) {
Warning("Failed to transfer sockets\n");
goto out;
}
}
out:
if (old_fcntl >= 0 && fcntl(fd, F_SETFL, old_fcntl) == -1) {
Warning("Cannot make the unix socket non-blocking\n");
goto out;
}
appctx->st0 = CLI_ST_END;
free(cmsgbuf);
free(tmpbuf);
return 1;
}
static struct applet cli_applet = {
.obj_type = OBJ_TYPE_APPLET,
.name = "<CLI>", /* used for logging */
.fct = cli_io_handler,
.release = cli_release_handler,
};
/* register cli keywords */
static struct cli_kw_list cli_kws = {{ },{
{ { "set", "maxconn", "global", NULL }, "set maxconn global : change the per-process maxconn setting", cli_parse_set_maxconn_global, NULL },
{ { "set", "rate-limit", NULL }, "set rate-limit : change a rate limiting value", cli_parse_set_ratelimit, NULL },
{ { "set", "severity-output", NULL }, "set severity-output [none|number|string] : set presence of severity level in feedback information", cli_parse_set_severity_output, NULL, NULL },
{ { "set", "timeout", NULL }, "set timeout : change a timeout setting", cli_parse_set_timeout, NULL, NULL },
{ { "show", "env", NULL }, "show env [var] : dump environment variables known to the process", cli_parse_show_env, cli_io_handler_show_env, NULL },
{ { "show", "cli", "sockets", NULL }, "show cli sockets : dump list of cli sockets", cli_parse_default, cli_io_handler_show_cli_sock, NULL },
{ { "show", "fd", NULL }, "show fd [num] : dump list of file descriptors in use", cli_parse_show_fd, cli_io_handler_show_fd, NULL },
{ { "_getsocks", NULL }, NULL, _getsocks, NULL },
{{},}
}};
static struct cfg_kw_list cfg_kws = {ILH, {
{ CFG_GLOBAL, "stats", stats_parse_global },
{ 0, NULL, NULL },
}};
static struct bind_kw_list bind_kws = { "STAT", { }, {
{ "level", bind_parse_level, 1 }, /* set the unix socket admin level */
{ "expose-fd", bind_parse_expose_fd, 1 }, /* set the unix socket expose fd rights */
{ "severity-output", bind_parse_severity_output, 1 }, /* set the severity output format */
{ NULL, NULL, 0 },
}};
__attribute__((constructor))
static void __dumpstats_module_init(void)
{
cfg_register_keywords(&cfg_kws);
cli_register_kw(&cli_kws);
bind_register_keywords(&bind_kws);
}
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/