moonbridge

annotate moonbridge.c @ 191:ab12ecb399f1

Signal request body EOF in HTTP module
author jbe
date Fri Jun 19 19:35:23 2015 +0200 (2015-06-19)
parents ae23bcae95d1
children 05fd82e3cfb7
rev   line source
jbe@58 1
jbe@58 2 /*** Version ***/
jbe@58 3 #define MOONBR_VERSION_STRING "0.4.0"
jbe@58 4
jbe@0 5
jbe@0 6 /*** Compile-time configuration ***/
jbe@0 7
jbe@0 8 #define MOONBR_LUA_PANIC_BUG_WORKAROUND 1
jbe@0 9
jbe@0 10
jbe@0 11 /*** C preprocessor macros for portability support ***/
jbe@0 12
jbe@0 13 #ifndef __has_include
jbe@0 14 #define __has_include(x) 0
jbe@0 15 #endif
jbe@0 16
jbe@0 17
jbe@0 18 /*** Include directives for used system libraries ***/
jbe@0 19
jbe@0 20 #if defined(__linux__)
jbe@0 21 #define _GNU_SOURCE
jbe@0 22 #endif
jbe@0 23 #include <stdlib.h>
jbe@0 24 #include <stdint.h>
jbe@135 25 #include <string.h>
jbe@0 26 #include <errno.h>
jbe@135 27 #include <unistd.h>
jbe@135 28 #include <signal.h>
jbe@135 29 #include <sys/wait.h>
jbe@135 30 #include <sys/resource.h>
jbe@135 31 #include <poll.h>
jbe@136 32 #include <time.h>
jbe@0 33 #include <sys/time.h>
jbe@0 34 #include <sys/socket.h>
jbe@0 35 #include <sys/un.h>
jbe@0 36 #include <netinet/in.h>
jbe@125 37 #include <netdb.h>
jbe@125 38 #include <arpa/inet.h>
jbe@135 39 #include <getopt.h>
jbe@0 40 #include <sys/file.h>
jbe@135 41 #include <syslog.h>
jbe@0 42 #if defined(__FreeBSD__) || __has_include(<libutil.h>)
jbe@0 43 #include <libutil.h>
jbe@0 44 #endif
jbe@22 45 #if defined(__linux__) || __has_include(<bsd/stdio.h>)
jbe@22 46 #include <bsd/stdio.h>
jbe@22 47 #endif
jbe@0 48 #if defined(__linux__) || __has_include(<bsd/libutil.h>)
jbe@0 49 #include <bsd/libutil.h>
jbe@0 50 #endif
jbe@0 51 #if defined(__linux__) || __has_include(<bsd/unistd.h>)
jbe@0 52 #include <bsd/unistd.h>
jbe@0 53 #endif
jbe@0 54
jbe@0 55
jbe@0 56 /*** Fallback definitions for missing constants on some platforms ***/
jbe@0 57
jbe@0 58 /* INFTIM is used as timeout parameter for poll() */
jbe@0 59 #ifndef INFTIM
jbe@0 60 #define INFTIM -1
jbe@0 61 #endif
jbe@0 62
jbe@0 63
jbe@0 64 /*** Include directives for Lua ***/
jbe@0 65
jbe@0 66 #include <lua.h>
jbe@0 67 #include <lauxlib.h>
jbe@0 68 #include <lualib.h>
jbe@0 69
jbe@0 70
jbe@79 71 /*** Include directive for moonbridge_io library ***/
jbe@79 72
jbe@79 73 #include "moonbridge_io.h"
jbe@79 74
jbe@79 75
jbe@0 76 /*** Constants ***/
jbe@0 77
jbe@0 78 /* Backlog option for listen() call */
jbe@0 79 #define MOONBR_LISTEN_BACKLOG 1024
jbe@0 80
jbe@0 81 /* Maximum length of a timestamp used for strftime() */
jbe@0 82 #define MOONBR_LOG_MAXTIMELEN 40
jbe@0 83
jbe@0 84 /* Maximum length of a log message */
jbe@0 85 #define MOONBR_LOG_MAXMSGLEN 4095
jbe@0 86
jbe@0 87 /* Exitcodes passed to exit() call */
jbe@0 88 #define MOONBR_EXITCODE_GRACEFUL 0
jbe@0 89 #define MOONBR_EXITCODE_CMDLINEERROR 1
jbe@0 90 #define MOONBR_EXITCODE_ALREADYRUNNING 2
jbe@0 91 #define MOONBR_EXITCODE_STARTUPERROR 3
jbe@0 92 #define MOONBR_EXITCODE_RUNTIMEERROR 4
jbe@0 93
jbe@0 94 /* Maximum length of a line sent to stderr by child processes */
jbe@0 95 #define MOONBR_MAXERRORLINELEN 1024
jbe@0 96
jbe@0 97 /* Maximum length of an error string returned by strerror() */
jbe@0 98 #define MOONBR_MAXSTRERRORLEN 80
jbe@0 99
jbe@0 100 /* Status bytes exchanged between master and child processes */
jbe@124 101 #define MOONBR_STATUS_IDLE 'I'
jbe@124 102 #define MOONBR_COMMAND_CONNECT 'C'
jbe@124 103 #define MOONBR_COMMAND_TERMINATE 'T'
jbe@124 104 #define MOONBR_STATUS_GOODBYE 'B'
jbe@0 105
jbe@0 106 /* Constant file descriptors */
jbe@0 107 #define MOONBR_FD_STDERR 2
jbe@0 108 #define MOONBR_FD_CONTROL 3
jbe@0 109 #define MOONBR_FD_END 4
jbe@0 110
jbe@0 111 /* Return values of moonbr_try_destroy_worker() */
jbe@0 112 #define MOONBR_DESTROY_NONE 0
jbe@0 113 #define MOONBR_DESTROY_PREPARE 1
jbe@0 114 #define MOONBR_DESTROY_IDLE_OR_ASSIGNED 2
jbe@0 115
jbe@0 116
jbe@0 117 /*** Types ***/
jbe@0 118
jbe@0 119 /* Enum for 'moonbr_pstate' */
jbe@0 120 #define MOONBR_PSTATE_STARTUP 0
jbe@0 121 #define MOONBR_PSTATE_RUNNING 1
jbe@0 122 #define MOONBR_PSTATE_FORKED 2
jbe@0 123
jbe@0 124 /* Enum for 'proto' field of struct moonbr_listener */
jbe@127 125 #define MOONBR_PROTO_MAIN 1
jbe@127 126 #define MOONBR_PROTO_INTERVAL 2
jbe@127 127 #define MOONBR_PROTO_LOCAL 3
jbe@127 128 #define MOONBR_PROTO_TCP 4
jbe@0 129
jbe@0 130 /* Data structure for a pool's listener that can accept incoming connections */
jbe@0 131 struct moonbr_listener {
jbe@0 132 struct moonbr_pool *pool;
jbe@0 133 struct moonbr_listener *prev_listener; /* previous idle or(!) connected listener */
jbe@0 134 struct moonbr_listener *next_listener; /* next idle or(!) connected listener */
jbe@0 135 int proto;
jbe@0 136 union {
jbe@0 137 struct {
jbe@0 138 char *name; /* name of interval passed to 'connect' function as 'interval' field in table */
jbe@0 139 int strict; /* nonzero = runtime of 'connect' function does not delay interval */
jbe@0 140 struct timeval delay; /* interval between invocations of 'connect' function */
jbe@0 141 struct timeval wakeup; /* point in time of next invocation */
jbe@0 142 } interval;
jbe@0 143 struct {
jbe@125 144 union {
jbe@125 145 struct sockaddr addr_abstract;
jbe@125 146 struct sockaddr_un addr_un;
jbe@125 147 struct sockaddr_in addr_in;
jbe@125 148 struct sockaddr_in6 addr_in6;
jbe@125 149 } addr;
jbe@125 150 socklen_t addrlen;
jbe@125 151 } socket;
jbe@125 152 } type_specific;
jbe@125 153 union {
jbe@0 154 struct {
jbe@125 155 char ip[INET6_ADDRSTRLEN]; /* IP to listen on */
jbe@0 156 int port; /* port number to listen on (in host endianess) */
jbe@0 157 } tcp;
jbe@0 158 } proto_specific;
jbe@0 159 int listenfd; /* -1 = none */
jbe@0 160 int pollidx; /* -1 = none */
jbe@0 161 };
jbe@0 162
jbe@0 163 /* Data structure for a child process that is handling incoming connections */
jbe@0 164 struct moonbr_worker {
jbe@0 165 struct moonbr_pool *pool;
jbe@0 166 struct moonbr_worker *prev_worker;
jbe@0 167 struct moonbr_worker *next_worker;
jbe@0 168 struct moonbr_worker *prev_idle_worker;
jbe@0 169 struct moonbr_worker *next_idle_worker;
jbe@127 170 int main; /* nonzero = terminate Moonbridge when this worker dies */
jbe@0 171 int idle; /* nonzero = waiting for command from parent process */
jbe@0 172 int assigned; /* nonzero = currently handling a connection */
jbe@0 173 pid_t pid;
jbe@0 174 int controlfd; /* socket to send/receive control message to/from child process */
jbe@0 175 int errorfd; /* socket to receive error output from child process' stderr */
jbe@0 176 char *errorlinebuf; /* optional buffer for collecting stderr data from child process */
jbe@0 177 int errorlinelen; /* number of bytes stored in 'errorlinebuf' */
jbe@0 178 int errorlineovf; /* nonzero = line length overflow */
jbe@0 179 struct timeval idle_expiration; /* point in time until child process may stay in idle state */
jbe@0 180 struct moonbr_listener *restart_interval_listener; /* set while interval listener is assigned */
jbe@0 181 };
jbe@0 182
jbe@0 183 /* Data structure for a pool of workers and listeners */
jbe@0 184 struct moonbr_pool {
jbe@0 185 int poolnum; /* number of pool for log output */
jbe@0 186 struct moonbr_pool *next_pool; /* next entry in linked list starting with 'moonbr_first_pool' */
jbe@0 187 struct moonbr_worker *first_worker; /* first worker of pool */
jbe@0 188 struct moonbr_worker *last_worker; /* last worker of pool */
jbe@0 189 struct moonbr_worker *first_idle_worker; /* first idle worker of pool */
jbe@0 190 struct moonbr_worker *last_idle_worker; /* last idle worker of pool */
jbe@0 191 int idle_worker_count;
jbe@0 192 int unassigned_worker_count;
jbe@0 193 int total_worker_count;
jbe@0 194 int worker_count_stat; /* only needed for statistics */
jbe@0 195 int pre_fork; /* desired minimum number of unassigned workers */
jbe@0 196 int min_fork; /* desired minimum number of workers in total */
jbe@0 197 int max_fork; /* maximum number of workers */
jbe@0 198 struct timeval fork_delay; /* delay after each fork() until a fork may happen again */
jbe@0 199 struct timeval fork_wakeup; /* point in time when a fork may happen again (unless a worker terminates before) */
jbe@0 200 struct timeval fork_error_delay; /* delay between fork()s when an error during fork or preparation occurred */
jbe@0 201 struct timeval fork_error_wakeup; /* point in time when fork may happen again if an error in preparation occurred */
jbe@0 202 int use_fork_error_wakeup; /* nonzero = error in preparation occured; gets reset on next fork */
jbe@0 203 struct timeval exit_delay; /* delay for terminating excessive workers (unassigned_worker_count > pre_fork) */
jbe@0 204 struct timeval exit_wakeup; /* point in time when terminating an excessive worker */
jbe@0 205 struct timeval idle_timeout; /* delay before an idle worker is terminated */
jbe@0 206 size_t memory_limit; /* maximum bytes of memory that the Lua machine may allocate */
jbe@0 207 int listener_count; /* total number of listeners of pool (and size of 'listener' array at end of this struct) */
jbe@0 208 struct moonbr_listener *first_idle_listener; /* first listener that is idle (i.e. has no waiting connection) */
jbe@0 209 struct moonbr_listener *last_idle_listener; /* last listener that is idle (i.e. has no waiting connection) */
jbe@0 210 struct moonbr_listener *first_connected_listener; /* first listener that has a pending connection */
jbe@0 211 struct moonbr_listener *last_connected_listener; /* last listener that has a pending connection */
jbe@0 212 struct moonbr_listener listener[1]; /* static array of variable(!) size to contain 'listener' structures */
jbe@0 213 };
jbe@0 214
jbe@0 215 /* Enum for 'channel' field of struct moonbr_poll_worker */
jbe@0 216 #define MOONBR_POLL_WORKER_CONTROLCHANNEL 1
jbe@0 217 #define MOONBR_POLL_WORKER_ERRORCHANNEL 2
jbe@0 218
jbe@0 219 /* Structure to refer from 'moonbr_poll_worker_fds' entry to worker structure */
jbe@0 220 struct moonbr_poll_worker {
jbe@0 221 struct moonbr_worker *worker;
jbe@0 222 int channel; /* field indicating whether file descriptor is 'controlfd' or 'errorfd' */
jbe@0 223 };
jbe@0 224
jbe@0 225 /* Variable indicating that clean shutdown was requested */
jbe@0 226 static int moonbr_shutdown_in_progress = 0;
jbe@0 227
jbe@0 228
jbe@0 229 /*** Macros for Lua registry ***/
jbe@0 230
jbe@0 231 /* Lightuserdata keys for Lua registry to store 'prepare', 'connect', and 'finish' functions */
jbe@0 232 #define moonbr_luakey_prepare_func(pool) ((void *)(intptr_t)(pool) + 0)
jbe@0 233 #define moonbr_luakey_connect_func(pool) ((void *)(intptr_t)(pool) + 1)
jbe@0 234 #define moonbr_luakey_finish_func(pool) ((void *)(intptr_t)(pool) + 2)
jbe@0 235
jbe@0 236
jbe@0 237 /*** Global variables ***/
jbe@0 238
jbe@0 239 /* State of process execution */
jbe@0 240 static int moonbr_pstate = MOONBR_PSTATE_STARTUP;
jbe@0 241
jbe@0 242 /* Process ID of the main process */
jbe@0 243 static pid_t moonbr_masterpid;
jbe@0 244
jbe@0 245 /* Condition variables set by the signal handler */
jbe@0 246 static volatile sig_atomic_t moonbr_cond_poll = 0;
jbe@0 247 static volatile sig_atomic_t moonbr_cond_terminate = 0;
jbe@0 248 static volatile sig_atomic_t moonbr_cond_interrupt = 0;
jbe@0 249 static volatile sig_atomic_t moonbr_cond_child = 0;
jbe@0 250
jbe@0 251 /* Socket pair to denote signal delivery when signal handler was called just before poll() */
jbe@0 252 static int moonbr_poll_signalfds[2];
jbe@0 253 #define moonbr_poll_signalfd_read moonbr_poll_signalfds[0]
jbe@0 254 #define moonbr_poll_signalfd_write moonbr_poll_signalfds[1]
jbe@0 255
jbe@0 256 /* Global variables for pidfile and logging */
jbe@0 257 static struct pidfh *moonbr_pidfh = NULL;
jbe@0 258 static FILE *moonbr_logfile = NULL;
jbe@0 259 static int moonbr_use_syslog = 0;
jbe@0 260
jbe@0 261 /* First and last entry of linked list of all created pools during initialization */
jbe@0 262 static struct moonbr_pool *moonbr_first_pool = NULL;
jbe@0 263 static struct moonbr_pool *moonbr_last_pool = NULL;
jbe@0 264
jbe@0 265 /* Total count of pools */
jbe@0 266 static int moonbr_pool_count = 0;
jbe@0 267
jbe@0 268 /* Set to a nonzero value if dynamic part of 'moonbr_poll_fds' ('moonbr_poll_worker_fds') needs an update */
jbe@0 269 static int moonbr_poll_refresh_needed = 0;
jbe@0 270
jbe@0 271 /* Array passed to poll(), consisting of static part and dynamic part ('moonbr_poll_worker_fds') */
jbe@0 272 static struct pollfd *moonbr_poll_fds = NULL; /* the array */
jbe@0 273 static int moonbr_poll_fds_bufsize = 0; /* memory allocated for this number of elements */
jbe@0 274 static int moonbr_poll_fds_count = 0; /* total number of elements */
jbe@0 275 static int moonbr_poll_fds_static_count; /* number of elements in static part */
jbe@0 276
jbe@0 277 /* Dynamic part of 'moonbr_poll_fds' array */
jbe@0 278 #define moonbr_poll_worker_fds (moonbr_poll_fds+moonbr_poll_fds_static_count)
jbe@0 279
jbe@0 280 /* Additional information for dynamic part of 'moonbr_poll_fds' array */
jbe@0 281 struct moonbr_poll_worker *moonbr_poll_workers; /* the array */
jbe@0 282 static int moonbr_poll_workers_bufsize = 0; /* memory allocated for this number of elements */
jbe@0 283 static int moonbr_poll_worker_count = 0; /* number of elements in array */
jbe@0 284
jbe@0 285 /* Variable set to nonzero value to disallow further calls of 'listen' function */
jbe@0 286 static int moonbr_booted = 0;
jbe@0 287
jbe@0 288 /* Verbosity settings */
jbe@0 289 static int moonbr_debug = 0;
jbe@0 290 static int moonbr_stat = 0;
jbe@0 291
jbe@0 292 /* Memory consumption by Lua machine */
jbe@0 293 static size_t moonbr_memory_usage = 0;
jbe@0 294 static size_t moonbr_memory_limit = 0;
jbe@0 295
jbe@0 296
jbe@0 297 /*** Functions for signal handling ***/
jbe@0 298
jbe@0 299 /* Signal handler for master and child processes */
jbe@0 300 static void moonbr_signal(int sig) {
jbe@0 301 if (getpid() == moonbr_masterpid) {
jbe@0 302 /* master process */
jbe@0 303 switch (sig) {
jbe@0 304 case SIGHUP:
jbe@0 305 case SIGINT:
jbe@0 306 /* fast shutdown requested */
jbe@0 307 moonbr_cond_interrupt = 1;
jbe@0 308 break;
jbe@0 309 case SIGTERM:
jbe@0 310 /* clean shutdown requested */
jbe@0 311 moonbr_cond_terminate = 1;
jbe@0 312 break;
jbe@0 313 case SIGCHLD:
jbe@0 314 /* child process terminated */
jbe@0 315 moonbr_cond_child = 1;
jbe@0 316 break;
jbe@0 317 }
jbe@0 318 if (moonbr_cond_poll) {
jbe@0 319 /* avoid race condition if signal handler is invoked right before poll() */
jbe@0 320 char buf[1] = {0};
jbe@20 321 write(moonbr_poll_signalfd_write, buf, 1);
jbe@0 322 }
jbe@0 323 } else {
jbe@0 324 /* child process forwards certain signals to parent process */
jbe@0 325 switch (sig) {
jbe@0 326 case SIGHUP:
jbe@0 327 case SIGINT:
jbe@0 328 case SIGTERM:
jbe@0 329 kill(moonbr_masterpid, sig);
jbe@0 330 }
jbe@0 331 }
jbe@0 332 }
jbe@0 333
jbe@0 334 /* Initialize signal handling */
jbe@0 335 static void moonbr_signal_init(){
jbe@0 336 moonbr_masterpid = getpid();
jbe@0 337 signal(SIGHUP, moonbr_signal);
jbe@0 338 signal(SIGINT, moonbr_signal);
jbe@0 339 signal(SIGTERM, moonbr_signal);
jbe@0 340 signal(SIGCHLD, moonbr_signal);
jbe@0 341 }
jbe@0 342
jbe@0 343
jbe@0 344 /*** Functions for logging in master process ***/
jbe@0 345
jbe@0 346 /* Logs a pre-formatted message with given syslog() priority */
jbe@0 347 static void moonbr_log_msg(int priority, const char *msg) {
jbe@0 348 if (moonbr_logfile) {
jbe@0 349 /* logging to logfile desired (timestamp is prepended in that case) */
jbe@0 350 time_t now_time = 0;
jbe@0 351 struct tm now_tmstruct;
jbe@0 352 char timestr[MOONBR_LOG_MAXTIMELEN+1];
jbe@0 353 time(&now_time);
jbe@0 354 localtime_r(&now_time, &now_tmstruct);
jbe@0 355 if (!strftime(
jbe@0 356 timestr, MOONBR_LOG_MAXTIMELEN+1, "%Y-%m-%d %H:%M:%S %Z: ", &now_tmstruct
jbe@0 357 )) timestr[0] = 0;
jbe@0 358 fprintf(moonbr_logfile, "%s%s\n", timestr, msg);
jbe@0 359 }
jbe@0 360 if (moonbr_use_syslog) {
jbe@0 361 /* logging through syslog desired */
jbe@0 362 syslog(priority, "%s", msg);
jbe@0 363 }
jbe@0 364 }
jbe@0 365
jbe@0 366 /* Formats a message via vsnprintf() and logs it with given syslog() priority */
jbe@0 367 static void moonbr_log(int priority, const char *message, ...) {
jbe@0 368 char msgbuf[MOONBR_LOG_MAXMSGLEN+1]; /* buffer of static size to store formatted message */
jbe@0 369 int msglen; /* length of full message (may exceed MOONBR_LOG_MAXMSGLEN) */
jbe@0 370 {
jbe@0 371 /* pass variable arguments to vsnprintf() to format message */
jbe@0 372 va_list ap;
jbe@0 373 va_start(ap, message);
jbe@0 374 msglen = vsnprintf(msgbuf, MOONBR_LOG_MAXMSGLEN+1, message, ap);
jbe@0 375 va_end(ap);
jbe@0 376 }
jbe@0 377 {
jbe@0 378 /* split and log message line by line */
jbe@0 379 char *line = msgbuf;
jbe@0 380 while (1) {
jbe@0 381 char *endptr = strchr(line, '\n');
jbe@0 382 if (endptr) {
jbe@0 383 /* terminate string where newline character is found */
jbe@0 384 *endptr = 0;
jbe@0 385 } else if (line != msgbuf && msglen > MOONBR_LOG_MAXMSGLEN) {
jbe@0 386 /* break if line is incomplete and not the first line */
jbe@0 387 break;
jbe@0 388 }
jbe@0 389 moonbr_log_msg(priority, line);
jbe@0 390 if (!endptr) break; /* break if end of formatted message is reached */
jbe@0 391 line = endptr+1; /* otherwise continue with remaining message */
jbe@0 392 }
jbe@0 393 }
jbe@0 394 if (msglen > MOONBR_LOG_MAXMSGLEN) {
jbe@0 395 /* print warning if message was truncated */
jbe@0 396 moonbr_log_msg(priority, "Previous log message has been truncated due to excessive length");
jbe@0 397 }
jbe@0 398 }
jbe@0 399
jbe@0 400
jbe@0 401 /*** Termination function ***/
jbe@0 402
jbe@0 403 /* Kill all child processes, remove PID file (if existent), and exit master process with given exitcode */
jbe@0 404 static void moonbr_terminate(int exitcode) {
jbe@0 405 {
jbe@0 406 struct moonbr_pool *pool;
jbe@0 407 for (pool=moonbr_first_pool; pool; pool=pool->next_pool) {
jbe@0 408 {
jbe@0 409 struct moonbr_worker *worker;
jbe@0 410 for (worker=pool->first_worker; worker; worker=worker->next_worker) {
jbe@0 411 moonbr_log(LOG_INFO, "Sending SIGKILL to child with PID %i", (int)worker->pid);
jbe@0 412 if (kill(worker->pid, SIGKILL)) {
jbe@0 413 moonbr_log(LOG_ERR, "Error while killing child process: %s", strerror(errno));
jbe@0 414 }
jbe@0 415 }
jbe@0 416 }
jbe@0 417 {
jbe@0 418 int i;
jbe@0 419 for (i=0; i<pool->listener_count; i++) {
jbe@0 420 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 421 if (listener->proto == MOONBR_PROTO_LOCAL) {
jbe@125 422 moonbr_log(LOG_INFO, "Unlinking local socket \"%s\"", listener->type_specific.socket.addr.addr_un.sun_path);
jbe@125 423 if (unlink(listener->type_specific.socket.addr.addr_un.sun_path)) {
jbe@0 424 moonbr_log(LOG_ERR, "Error while unlinking local socket: %s", strerror(errno));
jbe@0 425 }
jbe@0 426 }
jbe@0 427 }
jbe@0 428 }
jbe@0 429 }
jbe@0 430 }
jbe@0 431 moonbr_log(exitcode ? LOG_ERR : LOG_NOTICE, "Terminating with exit code %i", exitcode);
jbe@0 432 if (moonbr_pidfh && pidfile_remove(moonbr_pidfh)) {
jbe@0 433 moonbr_log(LOG_ERR, "Error while removing PID file: %s", strerror(errno));
jbe@0 434 }
jbe@0 435 exit(exitcode);
jbe@0 436 }
jbe@0 437
jbe@0 438 /* Terminate with either MOONBR_EXITCODE_STARTUPERROR or MOONBR_EXITCODE_RUNTIMEERROR */
jbe@0 439 #define moonbr_terminate_error() \
jbe@0 440 moonbr_terminate( \
jbe@0 441 moonbr_pstate == MOONBR_PSTATE_STARTUP ? \
jbe@0 442 MOONBR_EXITCODE_STARTUPERROR : \
jbe@0 443 MOONBR_EXITCODE_RUNTIMEERROR \
jbe@0 444 )
jbe@0 445
jbe@0 446
jbe@0 447 /*** Helper functions ***/
jbe@0 448
jbe@0 449 /* Fills a 'struct timeval' structure with the current time (using CLOCK_MONOTONIC) */
jbe@0 450 static void moonbr_now(struct timeval *now) {
jbe@0 451 struct timespec ts = {0, };
jbe@0 452 if (clock_gettime(CLOCK_MONOTONIC, &ts)) {
jbe@0 453 moonbr_log(LOG_CRIT, "Error in clock_gettime() call: %s", strerror(errno));
jbe@0 454 moonbr_terminate_error();
jbe@0 455 }
jbe@0 456 *now = (struct timeval){ .tv_sec = ts.tv_sec, .tv_usec = ts.tv_nsec / 1000 };
jbe@0 457 }
jbe@0 458
jbe@0 459 /* Formats a 'struct timeval' value (not thread-safe) */
jbe@0 460 static char *moonbr_format_timeval(struct timeval *t) {
jbe@0 461 static char buf[32];
jbe@0 462 snprintf(buf, 32, "%ji.%06ji seconds", (intmax_t)t->tv_sec, (intmax_t)t->tv_usec);
jbe@0 463 return buf;
jbe@0 464 }
jbe@0 465
jbe@0 466
jbe@0 467 /*** Functions for pool creation and startup ***/
jbe@0 468
jbe@0 469 /* Creates a 'struct moonbr_pool' structure with a given number of listeners */
jbe@0 470 static struct moonbr_pool *moonbr_create_pool(int listener_count) {
jbe@0 471 struct moonbr_pool *pool;
jbe@0 472 pool = calloc(1,
jbe@0 473 sizeof(struct moonbr_pool) + /* size of 'struct moonbr_pool' with one listener */
jbe@0 474 (listener_count-1) * sizeof(struct moonbr_listener) /* size of extra listeners */
jbe@0 475 );
jbe@0 476 if (!pool) {
jbe@0 477 moonbr_log(LOG_CRIT, "Memory allocation error");
jbe@0 478 moonbr_terminate_error();
jbe@0 479 }
jbe@0 480 pool->listener_count = listener_count;
jbe@0 481 {
jbe@0 482 /* initialization of listeners */
jbe@0 483 int i;
jbe@0 484 for (i=0; i<listener_count; i++) {
jbe@0 485 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 486 listener->pool = pool;
jbe@0 487 listener->listenfd = -1;
jbe@0 488 listener->pollidx = -1;
jbe@0 489 }
jbe@0 490 }
jbe@0 491 return pool;
jbe@0 492 }
jbe@0 493
jbe@0 494 /* Destroys a 'struct moonbr_pool' structure before it has been started */
jbe@0 495 static void moonbr_destroy_pool(struct moonbr_pool *pool) {
jbe@0 496 int i;
jbe@0 497 for (i=0; i<pool->listener_count; i++) {
jbe@0 498 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 499 if (
jbe@0 500 listener->proto == MOONBR_PROTO_INTERVAL &&
jbe@125 501 listener->type_specific.interval.name
jbe@0 502 ) {
jbe@125 503 free(listener->type_specific.interval.name);
jbe@0 504 }
jbe@0 505 }
jbe@0 506 free(pool);
jbe@0 507 }
jbe@0 508
jbe@0 509 /* Starts a all listeners in a pool */
jbe@0 510 static int moonbr_start_pool(struct moonbr_pool *pool) {
jbe@0 511 moonbr_log(LOG_INFO, "Creating pool", pool->poolnum);
jbe@0 512 {
jbe@0 513 int i;
jbe@0 514 for (i=0; i<pool->listener_count; i++) {
jbe@0 515 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 516 switch (listener->proto) {
jbe@127 517 case MOONBR_PROTO_MAIN:
jbe@127 518 /* nothing to do here: starting main thread is performed in moonbr_run() function */
jbe@127 519 moonbr_log(LOG_INFO, "Adding main thread");
jbe@127 520 break;
jbe@0 521 case MOONBR_PROTO_INTERVAL:
jbe@17 522 /* nothing to do here: starting intervals is performed in moonbr_run() function */
jbe@125 523 if (!listener->type_specific.interval.name) {
jbe@0 524 moonbr_log(LOG_INFO, "Adding unnamed interval listener");
jbe@0 525 } else {
jbe@125 526 moonbr_log(LOG_INFO, "Adding interval listener \"%s\"", listener->type_specific.interval.name);
jbe@0 527 }
jbe@0 528 break;
jbe@0 529 case MOONBR_PROTO_LOCAL:
jbe@125 530 moonbr_log(LOG_INFO, "Adding local socket listener for path \"%s\"", listener->type_specific.socket.addr.addr_un.sun_path);
jbe@125 531 listener->listenfd = socket(PF_LOCAL, SOCK_STREAM|SOCK_CLOEXEC|SOCK_NONBLOCK, 0);
jbe@125 532 if (listener->listenfd == -1) goto moonbr_start_pool_error;
jbe@125 533 if (!unlink(listener->type_specific.socket.addr.addr_un.sun_path)) {
jbe@125 534 moonbr_log(LOG_WARNING, "Unlinked named socket \"%s\" prior to listening", listener->type_specific.socket.addr.addr_un.sun_path);
jbe@125 535 } else {
jbe@125 536 if (errno != ENOENT) {
jbe@125 537 moonbr_log(LOG_ERR, "Could not unlink named socket \"%s\" prior to listening: %s", listener->type_specific.socket.addr.addr_un.sun_path, strerror(errno));
jbe@125 538 }
jbe@125 539 }
jbe@125 540 if (
jbe@125 541 bind(listener->listenfd, &listener->type_specific.socket.addr.addr_abstract, listener->type_specific.socket.addrlen)
jbe@125 542 ) goto moonbr_start_pool_error;
jbe@125 543 if (listen(listener->listenfd, MOONBR_LISTEN_BACKLOG)) goto moonbr_start_pool_error;
jbe@125 544 break;
jbe@125 545 case MOONBR_PROTO_TCP:
jbe@125 546 moonbr_log(LOG_INFO, "Adding TCP listener on interface \"%s\", port %i", listener->proto_specific.tcp.ip, listener->proto_specific.tcp.port);
jbe@134 547 listener->listenfd = socket(listener->type_specific.socket.addr.addr_abstract.sa_family, SOCK_STREAM|SOCK_CLOEXEC|SOCK_NONBLOCK, 0); /* NOTE: not correctly using PF_* but AF_* constants here */
jbe@125 548 if (listener->listenfd == -1) goto moonbr_start_pool_error;
jbe@0 549 {
jbe@125 550 /* avoid "Address already in use" error when restarting service */
jbe@125 551 static const int reuseval = 1;
jbe@125 552 if (setsockopt(
jbe@125 553 listener->listenfd, SOL_SOCKET, SO_REUSEADDR, &reuseval, sizeof(reuseval)
jbe@125 554 )) goto moonbr_start_pool_error;
jbe@0 555 }
jbe@0 556 {
jbe@125 557 /* default to send TCP RST when process terminates unexpectedly */
jbe@125 558 static const struct linger lingerval = {
jbe@125 559 .l_onoff = 1,
jbe@125 560 .l_linger = 0
jbe@0 561 };
jbe@125 562 if (setsockopt(
jbe@125 563 listener->listenfd, SOL_SOCKET, SO_LINGER, &lingerval, sizeof(lingerval)
jbe@125 564 )) goto moonbr_start_pool_error;
jbe@0 565 }
jbe@125 566 if (
jbe@125 567 bind(listener->listenfd, &listener->type_specific.socket.addr.addr_abstract, listener->type_specific.socket.addrlen)
jbe@125 568 ) goto moonbr_start_pool_error;
jbe@125 569 if (listen(listener->listenfd, MOONBR_LISTEN_BACKLOG)) goto moonbr_start_pool_error;
jbe@0 570 break;
jbe@0 571 default:
jbe@0 572 moonbr_log(LOG_CRIT, "Internal error (should not happen): Unexpected value in listener.proto field");
jbe@0 573 moonbr_terminate_error();
jbe@0 574 }
jbe@0 575 }
jbe@0 576 goto moonbr_start_pool_ok;
jbe@0 577 moonbr_start_pool_error:
jbe@0 578 {
jbe@0 579 int j = i;
jbe@0 580 int errno2 = errno;
jbe@0 581 for (; i>=0; i--) {
jbe@0 582 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 583 if (listener->listenfd != -1) close(listener->listenfd);
jbe@0 584 }
jbe@0 585 errno = errno2;
jbe@0 586 return j;
jbe@0 587 }
jbe@0 588 }
jbe@0 589 moonbr_start_pool_ok:
jbe@0 590 pool->poolnum = ++moonbr_pool_count;
jbe@0 591 moonbr_log(LOG_INFO, "Pool #%i created", pool->poolnum);
jbe@0 592 if (moonbr_last_pool) moonbr_last_pool->next_pool = pool;
jbe@0 593 else moonbr_first_pool = pool;
jbe@0 594 moonbr_last_pool = pool;
jbe@0 595 return -1;
jbe@0 596 }
jbe@0 597
jbe@0 598
jbe@0 599 /*** Function to send data and a file descriptor to child process */
jbe@0 600
jbe@0 601 /* Sends control message of one bye plus optional file descriptor plus optional pointer to child process */
jbe@0 602 static void moonbr_send_control_message(struct moonbr_worker *worker, char status, int fd, void *ptr) {
jbe@0 603 {
jbe@0 604 struct iovec iovector = { .iov_base = &status, .iov_len = 1 }; /* carrying status byte */
jbe@0 605 char control_message_buffer[CMSG_SPACE(sizeof(int))] = {0, }; /* used to transfer file descriptor */
jbe@0 606 struct msghdr message = { .msg_iov = &iovector, .msg_iovlen = 1 }; /* data structure passed to sendmsg() call */
jbe@0 607 if (moonbr_debug) {
jbe@0 608 if (fd == -1) {
jbe@0 609 moonbr_log(LOG_DEBUG, "Sending control message \"%c\" to child process in pool #%i (PID %i)", (int)status, worker->pool->poolnum, (int)worker->pid);
jbe@0 610 } else {
jbe@0 611 moonbr_log(LOG_DEBUG, "Sending control message \"%c\" with file descriptor #%i to child process in pool #%i (PID %i)", (int)status, fd, worker->pool->poolnum, (int)worker->pid);
jbe@0 612 }
jbe@0 613 }
jbe@0 614 if (fd != -1) {
jbe@0 615 /* attach control message with file descriptor */
jbe@0 616 message.msg_control = control_message_buffer;
jbe@0 617 message.msg_controllen = CMSG_SPACE(sizeof(int));
jbe@0 618 {
jbe@0 619 struct cmsghdr *control_message = CMSG_FIRSTHDR(&message);
jbe@0 620 control_message->cmsg_level = SOL_SOCKET;
jbe@0 621 control_message->cmsg_type = SCM_RIGHTS;
jbe@0 622 control_message->cmsg_len = CMSG_LEN(sizeof(int));
jbe@18 623 memcpy(CMSG_DATA(control_message), &fd, sizeof(int));
jbe@0 624 }
jbe@0 625 }
jbe@0 626 while (sendmsg(worker->controlfd, &message, MSG_NOSIGNAL) < 0) {
jbe@0 627 if (errno == EPIPE) {
jbe@0 628 moonbr_log(LOG_ERR, "Error while communicating with idle child process in pool #%i (PID %i): %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 629 return; /* do not close socket; socket is closed when reading from it */
jbe@0 630 }
jbe@0 631 if (errno != EINTR) {
jbe@0 632 moonbr_log(LOG_CRIT, "Unexpected error while communicating with idle child process in pool #%i (PID %i): %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 633 moonbr_terminate_error();
jbe@0 634 }
jbe@0 635 }
jbe@0 636 }
jbe@0 637 if (ptr) {
jbe@0 638 char buf[sizeof(void *)];
jbe@0 639 char *pos = buf;
jbe@0 640 int len = sizeof(void *);
jbe@0 641 ssize_t written;
jbe@0 642 if (moonbr_debug) {
jbe@0 643 moonbr_log(LOG_DEBUG, "Sending memory pointer to child process in pool #%i (PID %i)", (int)status, worker->pool->poolnum, (int)worker->pid);
jbe@0 644 }
jbe@18 645 memcpy(buf, &ptr, sizeof(void *));
jbe@0 646 while (len) {
jbe@0 647 written = send(worker->controlfd, pos, len, MSG_NOSIGNAL);
jbe@0 648 if (written > 0) {
jbe@0 649 pos += written;
jbe@0 650 len -= written;
jbe@0 651 } else if (errno == EPIPE) {
jbe@0 652 moonbr_log(LOG_ERR, "Error while communicating with idle child process in pool #%i (PID %i): %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 653 return; /* do not close socket; socket is closed when reading from it */
jbe@0 654 } else if (errno != EINTR) {
jbe@0 655 moonbr_log(LOG_CRIT, "Unexpected error while communicating with idle child process in pool #%i (PID %i): %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 656 moonbr_terminate_error();
jbe@0 657 }
jbe@0 658 }
jbe@0 659 }
jbe@0 660 }
jbe@0 661
jbe@0 662
jbe@0 663 /*** Functions running in child process ***/
jbe@0 664
jbe@0 665 /* Logs an error in child process */
jbe@0 666 static void moonbr_child_log(const char *message) {
jbe@0 667 fprintf(stderr, "%s\n", message);
jbe@0 668 }
jbe@0 669
jbe@0 670 /* Logs a fatal error in child process and terminates process with error status */
jbe@0 671 static void moonbr_child_log_fatal(const char *message) {
jbe@0 672 moonbr_child_log(message);
jbe@0 673 exit(1);
jbe@0 674 }
jbe@0 675
jbe@0 676 /* Logs an error in child process while appending error string for global errno variable */
jbe@0 677 static void moonbr_child_log_errno(const char *message) {
jbe@0 678 char errmsg[MOONBR_MAXSTRERRORLEN];
jbe@20 679 strerror_r(errno, errmsg, MOONBR_MAXSTRERRORLEN); /* use thread-safe call in case child created threads */
jbe@0 680 fprintf(stderr, "%s: %s\n", message, errmsg);
jbe@0 681 }
jbe@0 682
jbe@0 683 /* Logs a fatal error in child process while appending error string for errno and terminating process */
jbe@0 684 static void moonbr_child_log_errno_fatal(const char *message) {
jbe@0 685 moonbr_child_log_errno(message);
jbe@0 686 exit(1);
jbe@0 687 }
jbe@0 688
jbe@0 689 /* Receives a control message consisting of one character plus an optional file descriptor from parent process */
jbe@0 690 static void moonbr_child_receive_control_message(int socketfd, char *status, int *fd) {
jbe@0 691 struct iovec iovector = { .iov_base = status, .iov_len = 1 }; /* reference to status byte variable */
jbe@0 692 char control_message_buffer[CMSG_SPACE(sizeof(int))] = {0, }; /* used to receive file descriptor */
jbe@0 693 struct msghdr message = { /* data structure passed to recvmsg() call */
jbe@0 694 .msg_iov = &iovector,
jbe@0 695 .msg_iovlen = 1,
jbe@0 696 .msg_control = control_message_buffer,
jbe@0 697 .msg_controllen = CMSG_SPACE(sizeof(int))
jbe@0 698 };
jbe@0 699 {
jbe@0 700 int received;
jbe@0 701 while ((received = recvmsg(socketfd, &message, MSG_CMSG_CLOEXEC)) < 0) {
jbe@0 702 if (errno != EINTR) {
jbe@0 703 moonbr_child_log_errno_fatal("Error while trying to receive connection socket from parent process");
jbe@0 704 }
jbe@0 705 }
jbe@0 706 if (!received) {
jbe@0 707 moonbr_child_log_fatal("Unexpected EOF while trying to receive connection socket from parent process");
jbe@0 708 }
jbe@0 709 }
jbe@0 710 {
jbe@0 711 struct cmsghdr *control_message = CMSG_FIRSTHDR(&message);
jbe@0 712 if (control_message) {
jbe@0 713 if (control_message->cmsg_level != SOL_SOCKET) {
jbe@0 714 moonbr_child_log_fatal("Received control message with cmsg_level not equal to SOL_SOCKET");
jbe@0 715 }
jbe@0 716 if (control_message->cmsg_type != SCM_RIGHTS) {
jbe@0 717 moonbr_child_log_fatal("Received control message with cmsg_type not equal to SCM_RIGHTS");
jbe@0 718 }
jbe@18 719 memcpy(fd, CMSG_DATA(control_message), sizeof(int));
jbe@0 720 } else {
jbe@0 721 *fd = -1;
jbe@0 722 }
jbe@0 723 }
jbe@0 724 }
jbe@0 725
jbe@0 726 /* Receives a pointer from parent process */
jbe@0 727 static void *moonbr_child_receive_pointer(int socketfd) {
jbe@0 728 char buf[sizeof(void *)];
jbe@0 729 char *pos = buf;
jbe@0 730 int len = sizeof(void *);
jbe@0 731 ssize_t bytes_read;
jbe@0 732 while (len) {
jbe@0 733 bytes_read = recv(socketfd, pos, len, 0);
jbe@0 734 if (bytes_read > 0) {
jbe@0 735 pos += bytes_read;
jbe@0 736 len -= bytes_read;
jbe@0 737 } else if (!bytes_read) {
jbe@0 738 moonbr_child_log_fatal("Unexpected EOF while trying to receive memory pointer from parent process");
jbe@0 739 } else if (errno != EINTR) {
jbe@0 740 moonbr_child_log_errno_fatal("Error while trying to receive memory pointer from parent process");
jbe@0 741 }
jbe@0 742 }
jbe@18 743 {
jbe@18 744 void *ptr; /* avoid breaking strict-aliasing rules */
jbe@18 745 memcpy(&ptr, buf, sizeof(void *));
jbe@18 746 return ptr;
jbe@18 747 }
jbe@0 748 }
jbe@0 749
jbe@0 750 /* Main function of child process to be called after fork() and file descriptor rearrangement */
jbe@0 751 void moonbr_child_run(struct moonbr_pool *pool, lua_State *L) {
jbe@0 752 char controlmsg;
jbe@88 753 int fd;
jbe@0 754 struct itimerval notimer = { { 0, }, { 0, } };
jbe@0 755 lua_rawgetp(L, LUA_REGISTRYINDEX, moonbr_luakey_prepare_func(pool));
jbe@0 756 if (lua_isnil(L, -1)) lua_pop(L, 1);
jbe@0 757 else if (lua_pcall(L, 0, 0, 1)) {
jbe@0 758 fprintf(stderr, "Error in \"prepare\" function: %s\n", lua_tostring(L, -1));
jbe@0 759 exit(1);
jbe@0 760 }
jbe@0 761 while (1) {
jbe@0 762 struct moonbr_listener *listener;
jbe@0 763 if (setitimer(ITIMER_REAL, &notimer, NULL)) {
jbe@0 764 moonbr_child_log_errno_fatal("Could not reset ITIMER_REAL via setitimer()");
jbe@0 765 }
jbe@0 766 controlmsg = MOONBR_STATUS_IDLE;
jbe@0 767 if (write(MOONBR_FD_CONTROL, &controlmsg, 1) <= 0) {
jbe@0 768 moonbr_child_log_errno_fatal("Error while sending ready message to parent process");
jbe@0 769 }
jbe@88 770 moonbr_child_receive_control_message(MOONBR_FD_CONTROL, &controlmsg, &fd);
jbe@0 771 if (!(
jbe@124 772 (controlmsg == MOONBR_COMMAND_TERMINATE && fd == -1) ||
jbe@124 773 (controlmsg == MOONBR_COMMAND_CONNECT)
jbe@0 774 )) {
jbe@0 775 moonbr_child_log_fatal("Received illegal control message from parent process");
jbe@0 776 }
jbe@0 777 if (controlmsg == MOONBR_COMMAND_TERMINATE) break;
jbe@0 778 listener = moonbr_child_receive_pointer(MOONBR_FD_CONTROL);
jbe@127 779 if (
jbe@127 780 listener->proto != MOONBR_PROTO_LOCAL &&
jbe@127 781 listener->proto != MOONBR_PROTO_TCP &&
jbe@127 782 fd >= 0
jbe@127 783 ) {
jbe@124 784 moonbr_child_log_fatal("Received unexpected file descriptor from parent process");
jbe@127 785 } else if (
jbe@127 786 listener->proto != MOONBR_PROTO_MAIN &&
jbe@127 787 listener->proto != MOONBR_PROTO_INTERVAL &&
jbe@127 788 fd < 0
jbe@127 789 ) {
jbe@124 790 moonbr_child_log_fatal("Missing file descriptor from parent process");
jbe@124 791 }
jbe@119 792 if (fd >= 0) moonbr_io_pushhandle(L, fd);
jbe@0 793 lua_rawgetp(L, LUA_REGISTRYINDEX, moonbr_luakey_connect_func(pool));
jbe@119 794 if (fd < 0) {
jbe@0 795 lua_newtable(L);
jbe@131 796 if (listener->proto == MOONBR_PROTO_MAIN) {
jbe@131 797 lua_pushboolean(L, 1);
jbe@131 798 lua_setfield(L, -2, "main");
jbe@131 799 } else if (listener->proto == MOONBR_PROTO_INTERVAL) {
jbe@131 800 lua_pushstring(L,
jbe@131 801 listener->type_specific.interval.name ?
jbe@131 802 listener->type_specific.interval.name : ""
jbe@131 803 );
jbe@131 804 lua_setfield(L, -2, "interval");
jbe@131 805 }
jbe@0 806 } else {
jbe@88 807 lua_pushvalue(L, -2);
jbe@0 808 }
jbe@0 809 if (lua_pcall(L, 1, 1, 1)) {
jbe@0 810 fprintf(stderr, "Error in \"connect\" function: %s\n", lua_tostring(L, -1));
jbe@0 811 exit(1);
jbe@0 812 }
jbe@119 813 if (fd >= 0) moonbr_io_closehandle(L, -2, 0); /* attemt clean close */
jbe@0 814 if (lua_type(L, -1) != LUA_TBOOLEAN || !lua_toboolean(L, -1)) break;
jbe@0 815 #ifdef MOONBR_LUA_PANIC_BUG_WORKAROUND
jbe@0 816 lua_settop(L, 2);
jbe@0 817 #else
jbe@0 818 lua_settop(L, 1);
jbe@0 819 #endif
jbe@0 820 }
jbe@0 821 controlmsg = MOONBR_STATUS_GOODBYE;
jbe@0 822 if (write(MOONBR_FD_CONTROL, &controlmsg, 1) <= 0) {
jbe@0 823 moonbr_child_log_errno_fatal("Error while sending goodbye message to parent process");
jbe@0 824 }
jbe@0 825 if (close(MOONBR_FD_CONTROL) && errno != EINTR) {
jbe@0 826 moonbr_child_log_errno("Error while closing control socket");
jbe@0 827 }
jbe@0 828 lua_rawgetp(L, LUA_REGISTRYINDEX, moonbr_luakey_finish_func(pool));
jbe@0 829 if (lua_isnil(L, -1)) lua_pop(L, 1);
jbe@0 830 else if (lua_pcall(L, 0, 0, 1)) {
jbe@0 831 fprintf(stderr, "Error in \"finish\" function: %s\n", lua_tostring(L, -1));
jbe@0 832 exit(1);
jbe@0 833 }
jbe@0 834 lua_close(L);
jbe@0 835 exit(0);
jbe@0 836 }
jbe@0 837
jbe@0 838
jbe@0 839 /*** Functions to spawn child process ***/
jbe@0 840
jbe@0 841 /* Helper function to send an error message to a file descriptor (not needing a file stream) */
jbe@0 842 static void moonbr_child_emergency_print(int fd, char *message) {
jbe@0 843 size_t len = strlen(message);
jbe@0 844 ssize_t written;
jbe@0 845 while (len) {
jbe@0 846 written = write(fd, message, len);
jbe@0 847 if (written > 0) {
jbe@0 848 message += written;
jbe@0 849 len -= written;
jbe@0 850 } else {
jbe@0 851 if (written != -1 || errno != EINTR) break;
jbe@0 852 }
jbe@0 853 }
jbe@0 854 }
jbe@0 855
jbe@0 856 /* Helper function to send an error message plus a text for errno to a file descriptor and terminate the process */
jbe@0 857 static void moonbr_child_emergency_error(int fd, char *message) {
jbe@0 858 int errno2 = errno;
jbe@0 859 moonbr_child_emergency_print(fd, message);
jbe@0 860 moonbr_child_emergency_print(fd, ": ");
jbe@0 861 moonbr_child_emergency_print(fd, strerror(errno2));
jbe@0 862 moonbr_child_emergency_print(fd, "\n");
jbe@0 863 exit(1);
jbe@0 864 }
jbe@0 865
jbe@0 866 /* Creates a child process and (in case of success) registers it in the 'struct moonbr_pool' structure */
jbe@0 867 static int moonbr_create_worker(struct moonbr_pool *pool, lua_State *L) {
jbe@0 868 struct moonbr_worker *worker;
jbe@0 869 worker = calloc(1, sizeof(struct moonbr_worker));
jbe@0 870 if (!worker) {
jbe@0 871 moonbr_log(LOG_CRIT, "Memory allocation error");
jbe@0 872 return -1;
jbe@0 873 }
jbe@0 874 worker->pool = pool;
jbe@0 875 {
jbe@0 876 int controlfds[2];
jbe@0 877 int errorfds[2];
jbe@0 878 if (socketpair(PF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, controlfds)) {
jbe@0 879 moonbr_log(LOG_ERR, "Could not create control socket pair for communcation with child process: %s", strerror(errno));
jbe@0 880 free(worker);
jbe@0 881 return -1;
jbe@0 882 }
jbe@0 883 if (socketpair(PF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0, errorfds)) {
jbe@0 884 moonbr_log(LOG_ERR, "Could not create socket pair to redirect stderr of child process: %s", strerror(errno));
jbe@0 885 close(controlfds[0]);
jbe@0 886 close(controlfds[1]);
jbe@0 887 free(worker);
jbe@0 888 return -1;
jbe@0 889 }
jbe@0 890 if (moonbr_logfile && fflush(moonbr_logfile)) {
jbe@0 891 moonbr_log(LOG_CRIT, "Could not flush log file prior to forking: %s", strerror(errno));
jbe@0 892 moonbr_terminate_error();
jbe@0 893 }
jbe@0 894 worker->pid = fork();
jbe@0 895 if (worker->pid == -1) {
jbe@0 896 moonbr_log(LOG_ERR, "Could not fork: %s", strerror(errno));
jbe@0 897 close(controlfds[0]);
jbe@0 898 close(controlfds[1]);
jbe@0 899 close(errorfds[0]);
jbe@0 900 close(errorfds[1]);
jbe@0 901 free(worker);
jbe@0 902 return -1;
jbe@0 903 } else if (!worker->pid) {
jbe@0 904 moonbr_pstate = MOONBR_PSTATE_FORKED;
jbe@0 905 #ifdef MOONBR_LUA_PANIC_BUG_WORKAROUND
jbe@0 906 lua_pushliteral(L, "Failed to pass error message due to bug in Lua panic handler (hint: not enough memory?)");
jbe@0 907 #endif
jbe@0 908 moonbr_memory_limit = pool->memory_limit;
jbe@0 909 if (moonbr_pidfh && pidfile_close(moonbr_pidfh)) {
jbe@0 910 moonbr_child_emergency_error(errorfds[1], "Could not close PID file in forked child process");
jbe@0 911 }
jbe@0 912 if (moonbr_logfile && moonbr_logfile != stderr && fclose(moonbr_logfile)) {
jbe@0 913 moonbr_child_emergency_error(errorfds[1], "Could not close log file in forked child process");
jbe@0 914 }
jbe@0 915 if (dup2(errorfds[1], MOONBR_FD_STDERR) == -1) {
jbe@0 916 moonbr_child_emergency_error(errorfds[1], "Could not duplicate socket to stderr file descriptor");
jbe@0 917 }
jbe@0 918 if (dup2(controlfds[1], MOONBR_FD_CONTROL) == -1) {
jbe@0 919 moonbr_child_emergency_error(errorfds[1], "Could not duplicate control socket");
jbe@0 920 }
jbe@0 921 closefrom(MOONBR_FD_END);
jbe@0 922 moonbr_child_run(pool, L);
jbe@0 923 }
jbe@0 924 if (moonbr_stat) {
jbe@0 925 moonbr_log(LOG_INFO, "Created new worker in pool #%i with PID %i", worker->pool->poolnum, (int)worker->pid);
jbe@0 926 }
jbe@0 927 worker->controlfd = controlfds[0];
jbe@0 928 worker->errorfd = errorfds[0];
jbe@0 929 if (close(controlfds[1]) && errno != EINTR) {
jbe@0 930 moonbr_log(LOG_CRIT, "Could not close opposite end of control file descriptor after forking");
jbe@0 931 moonbr_terminate_error();
jbe@0 932 }
jbe@0 933 if (close(errorfds[1]) && errno != EINTR) {
jbe@0 934 moonbr_log(LOG_CRIT, "Could not close opposite end of control file descriptor after forking");
jbe@0 935 moonbr_terminate_error();
jbe@0 936 }
jbe@0 937 }
jbe@0 938 worker->prev_worker = pool->last_worker;
jbe@0 939 if (worker->prev_worker) worker->prev_worker->next_worker = worker;
jbe@0 940 else pool->first_worker = worker;
jbe@0 941 pool->last_worker = worker;
jbe@0 942 pool->unassigned_worker_count++;
jbe@0 943 pool->total_worker_count++;
jbe@0 944 pool->worker_count_stat = 1;
jbe@0 945 moonbr_poll_refresh_needed = 1;
jbe@0 946 return 0; /* return zero only in case of success */
jbe@0 947 }
jbe@0 948
jbe@0 949
jbe@0 950 /*** Functions for queues of 'struct moonbr_listener' ***/
jbe@0 951
jbe@0 952 /* Appends a 'struct moonbr_listener' to the queue of idle listeners and registers it for poll() */
jbe@0 953 static void moonbr_add_idle_listener(struct moonbr_listener *listener) {
jbe@0 954 listener->prev_listener = listener->pool->last_idle_listener;
jbe@0 955 if (listener->prev_listener) listener->prev_listener->next_listener = listener;
jbe@0 956 else listener->pool->first_idle_listener = listener;
jbe@0 957 listener->pool->last_idle_listener = listener;
jbe@0 958 if (listener->pollidx != -1) moonbr_poll_fds[listener->pollidx].events |= POLLIN;
jbe@0 959 }
jbe@0 960
jbe@0 961 /* Removes a 'struct moonbr_listener' from the queue of idle listeners and unregisters it from poll() */
jbe@0 962 static void moonbr_remove_idle_listener(struct moonbr_listener *listener) {
jbe@0 963 if (listener->prev_listener) listener->prev_listener->next_listener = listener->next_listener;
jbe@0 964 else listener->pool->first_idle_listener = listener->next_listener;
jbe@0 965 if (listener->next_listener) listener->next_listener->prev_listener = listener->prev_listener;
jbe@0 966 else listener->pool->last_idle_listener = listener->prev_listener;
jbe@0 967 listener->prev_listener = NULL;
jbe@0 968 listener->next_listener = NULL;
jbe@0 969 if (listener->pollidx != -1) moonbr_poll_fds[listener->pollidx].events &= ~POLLIN;
jbe@0 970 }
jbe@0 971
jbe@0 972 /* Adds a listener to the queue of connected listeners (i.e. waiting to have their incoming connection accepted) */
jbe@0 973 static void moonbr_add_connected_listener(struct moonbr_listener *listener) {
jbe@0 974 listener->prev_listener = listener->pool->last_connected_listener;
jbe@0 975 if (listener->prev_listener) listener->prev_listener->next_listener = listener;
jbe@0 976 else listener->pool->first_connected_listener = listener;
jbe@0 977 listener->pool->last_connected_listener = listener;
jbe@0 978 }
jbe@0 979
jbe@0 980 /* Removes and returns the first connected listener in the queue */
jbe@0 981 static struct moonbr_listener *moonbr_pop_connected_listener(struct moonbr_pool *pool) {
jbe@0 982 struct moonbr_listener *listener = pool->first_connected_listener;
jbe@0 983 listener->pool->first_connected_listener = listener->next_listener;
jbe@0 984 if (listener->pool->first_connected_listener) listener->pool->first_connected_listener->prev_listener = NULL;
jbe@0 985 else listener->pool->last_connected_listener = NULL;
jbe@0 986 listener->next_listener = NULL;
jbe@0 987 return listener;
jbe@0 988 }
jbe@0 989
jbe@0 990
jbe@0 991 /*** Functions to handle polling ***/
jbe@0 992
jbe@0 993 /* Returns an index to a new initialized entry in moonbr_poll_fds[] */
jbe@0 994 int moonbr_poll_fds_nextindex() {
jbe@0 995 if (moonbr_poll_fds_count >= moonbr_poll_fds_bufsize) {
jbe@0 996 if (moonbr_poll_fds_bufsize) moonbr_poll_fds_bufsize *= 2;
jbe@0 997 else moonbr_poll_fds_bufsize = 1;
jbe@0 998 moonbr_poll_fds = realloc(
jbe@0 999 moonbr_poll_fds, moonbr_poll_fds_bufsize * sizeof(struct pollfd)
jbe@0 1000 );
jbe@0 1001 if (!moonbr_poll_fds) {
jbe@0 1002 moonbr_log(LOG_CRIT, "Memory allocation error");
jbe@0 1003 moonbr_terminate_error();
jbe@0 1004 }
jbe@0 1005 }
jbe@0 1006 moonbr_poll_fds[moonbr_poll_fds_count] = (struct pollfd){0, };
jbe@0 1007 return moonbr_poll_fds_count++;
jbe@0 1008 }
jbe@0 1009
jbe@0 1010 /* Returns an index to a new initialized entry in moonbr_poll_workers[] */
jbe@0 1011 int moonbr_poll_workers_nextindex() {
jbe@0 1012 if (moonbr_poll_worker_count >= moonbr_poll_workers_bufsize) {
jbe@0 1013 if (moonbr_poll_workers_bufsize) moonbr_poll_workers_bufsize *= 2;
jbe@0 1014 else moonbr_poll_workers_bufsize = 1;
jbe@0 1015 moonbr_poll_workers = realloc(
jbe@0 1016 moonbr_poll_workers, moonbr_poll_workers_bufsize * sizeof(struct moonbr_poll_worker)
jbe@0 1017 );
jbe@0 1018 if (!moonbr_poll_workers) {
jbe@0 1019 moonbr_log(LOG_CRIT, "Memory allocation error");
jbe@0 1020 moonbr_terminate_error();
jbe@0 1021 }
jbe@0 1022 }
jbe@0 1023 moonbr_poll_workers[moonbr_poll_worker_count] = (struct moonbr_poll_worker){0, };
jbe@0 1024 return moonbr_poll_worker_count++;
jbe@0 1025 }
jbe@0 1026
jbe@0 1027 /* Queues all listeners as idle, and initializes static part of moonbr_poll_fds[], which is passed to poll() */
jbe@0 1028 static void moonbr_poll_init() {
jbe@0 1029 if (socketpair(
jbe@0 1030 PF_LOCAL,
jbe@0 1031 SOCK_STREAM | SOCK_CLOEXEC | SOCK_NONBLOCK,
jbe@0 1032 0,
jbe@0 1033 moonbr_poll_signalfds
jbe@0 1034 )) {
jbe@0 1035 moonbr_log(LOG_CRIT, "Could not create socket pair for signal delivery during polling: %s", strerror(errno));
jbe@0 1036 moonbr_terminate_error();
jbe@0 1037 }
jbe@0 1038 {
jbe@0 1039 int j = moonbr_poll_fds_nextindex();
jbe@0 1040 struct pollfd *pollfd = &moonbr_poll_fds[j];
jbe@0 1041 pollfd->fd = moonbr_poll_signalfd_read;
jbe@0 1042 pollfd->events = POLLIN;
jbe@0 1043 }
jbe@0 1044 {
jbe@0 1045 struct moonbr_pool *pool;
jbe@0 1046 for (pool=moonbr_first_pool; pool; pool=pool->next_pool) {
jbe@0 1047 int i;
jbe@0 1048 for (i=0; i<pool->listener_count; i++) {
jbe@0 1049 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 1050 if (listener->listenfd != -1) {
jbe@0 1051 int j = moonbr_poll_fds_nextindex();
jbe@0 1052 listener->pollidx = j;
jbe@0 1053 moonbr_poll_fds[j].fd = listener->listenfd;
jbe@0 1054 }
jbe@0 1055 moonbr_add_idle_listener(listener);
jbe@0 1056 }
jbe@0 1057 }
jbe@0 1058 }
jbe@0 1059 moonbr_poll_fds_static_count = moonbr_poll_fds_count; /* remember size of static part of array */
jbe@0 1060 }
jbe@0 1061
jbe@0 1062 /* Disables polling of all listeners (required for clean shutdown) */
jbe@0 1063 static void moonbr_poll_shutdown() {
jbe@0 1064 int i;
jbe@0 1065 for (i=1; i<moonbr_poll_fds_static_count; i++) {
jbe@0 1066 moonbr_poll_fds[i].fd = -1;
jbe@0 1067 }
jbe@0 1068 }
jbe@0 1069
jbe@0 1070 /* (Re)builds dynamic part of moonbr_poll_fds[] array, and (re)builds moonbr_poll_workers[] array */
jbe@0 1071 static void moonbr_poll_refresh() {
jbe@0 1072 moonbr_poll_refresh_needed = 0;
jbe@0 1073 moonbr_poll_fds_count = moonbr_poll_fds_static_count;
jbe@0 1074 moonbr_poll_worker_count = 0;
jbe@0 1075 {
jbe@0 1076 struct moonbr_pool *pool;
jbe@0 1077 for (pool=moonbr_first_pool; pool; pool=pool->next_pool) {
jbe@0 1078 struct moonbr_worker *worker;
jbe@0 1079 for (worker=pool->first_worker; worker; worker=worker->next_worker) {
jbe@0 1080 if (worker->controlfd != -1) {
jbe@0 1081 int j = moonbr_poll_fds_nextindex();
jbe@0 1082 int k = moonbr_poll_workers_nextindex();
jbe@0 1083 struct pollfd *pollfd = &moonbr_poll_fds[j];
jbe@0 1084 struct moonbr_poll_worker *poll_worker = &moonbr_poll_workers[k];
jbe@0 1085 pollfd->fd = worker->controlfd;
jbe@0 1086 pollfd->events = POLLIN;
jbe@0 1087 poll_worker->channel = MOONBR_POLL_WORKER_CONTROLCHANNEL;
jbe@0 1088 poll_worker->worker = worker;
jbe@0 1089 }
jbe@0 1090 if (worker->errorfd != -1) {
jbe@0 1091 int j = moonbr_poll_fds_nextindex();
jbe@0 1092 int k = moonbr_poll_workers_nextindex();
jbe@0 1093 struct pollfd *pollfd = &moonbr_poll_fds[j];
jbe@0 1094 struct moonbr_poll_worker *poll_worker = &moonbr_poll_workers[k];
jbe@0 1095 pollfd->fd = worker->errorfd;
jbe@0 1096 pollfd->events = POLLIN;
jbe@0 1097 poll_worker->channel = MOONBR_POLL_WORKER_ERRORCHANNEL;
jbe@0 1098 poll_worker->worker = worker;
jbe@0 1099 }
jbe@0 1100 }
jbe@0 1101 }
jbe@0 1102 }
jbe@0 1103 }
jbe@0 1104
jbe@0 1105 /* resets socket and 'revents' field of moonbr_poll_fds[] for signal delivery just before poll() is called */
jbe@0 1106 static void moonbr_poll_reset_signal() {
jbe@0 1107 ssize_t readcount;
jbe@0 1108 char buf[1];
jbe@0 1109 moonbr_poll_fds[0].revents = 0;
jbe@0 1110 while ((readcount = read(moonbr_poll_signalfd_read, buf, 1)) < 0) {
jbe@0 1111 if (errno == EAGAIN) break;
jbe@0 1112 if (errno != EINTR) {
jbe@0 1113 moonbr_log(LOG_CRIT, "Error while reading from signal delivery socket: %s", strerror(errno));
jbe@0 1114 moonbr_terminate_error();
jbe@0 1115 }
jbe@0 1116 }
jbe@0 1117 if (!readcount) {
jbe@0 1118 moonbr_log(LOG_CRIT, "Unexpected EOF when reading from signal delivery socket: %s", strerror(errno));
jbe@0 1119 moonbr_terminate_error();
jbe@0 1120 }
jbe@0 1121 }
jbe@0 1122
jbe@0 1123
jbe@0 1124 /*** Shutdown initiation ***/
jbe@0 1125
jbe@0 1126 /* Sets global variable 'moonbr_shutdown_in_progress', closes listeners, and demands worker termination */
jbe@0 1127 static void moonbr_initiate_shutdown() {
jbe@0 1128 struct moonbr_pool *pool;
jbe@0 1129 int i;
jbe@0 1130 if (moonbr_shutdown_in_progress) {
jbe@0 1131 moonbr_log(LOG_NOTICE, "Shutdown already in progress");
jbe@0 1132 return;
jbe@0 1133 }
jbe@0 1134 moonbr_shutdown_in_progress = 1;
jbe@0 1135 moonbr_log(LOG_NOTICE, "Initiate shutdown");
jbe@0 1136 for (pool = moonbr_first_pool; pool; pool = pool->next_pool) {
jbe@0 1137 for (i=0; i<pool->listener_count; i++) {
jbe@0 1138 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 1139 if (listener->listenfd != -1) {
jbe@0 1140 if (close(listener->listenfd) && errno != EINTR) {
jbe@0 1141 moonbr_log(LOG_CRIT, "Could not close listening socket: %s", strerror(errno));
jbe@0 1142 moonbr_terminate_error();
jbe@0 1143 }
jbe@0 1144 }
jbe@0 1145 }
jbe@0 1146 }
jbe@0 1147 moonbr_poll_shutdown(); /* avoids loops due to error condition when polling closed listeners */
jbe@0 1148 }
jbe@0 1149
jbe@0 1150
jbe@128 1151 /*** Functions to handle previously created 'struct moonbr_worker' structures ***/
jbe@128 1152
jbe@128 1153 #define moonbr_try_destroy_worker_stat(str, field) \
jbe@128 1154 moonbr_log(LOG_INFO, "Resource usage in pool #%i for PID %i: " str " %li", worker->pool->poolnum, (int)worker->pid, (long)childusage.field);
jbe@128 1155
jbe@128 1156 /* Destroys a worker structure if socket connections have been closed and child process has terminated */
jbe@128 1157 static int moonbr_try_destroy_worker(struct moonbr_worker *worker) {
jbe@128 1158 if (worker->controlfd != -1 || worker->errorfd != -1) return MOONBR_DESTROY_NONE;
jbe@128 1159 {
jbe@128 1160 int childstatus;
jbe@128 1161 struct rusage childusage;
jbe@128 1162 {
jbe@128 1163 pid_t waitedpid;
jbe@128 1164 while (
jbe@128 1165 (waitedpid = wait4(worker->pid, &childstatus, WNOHANG, &childusage)) == -1
jbe@128 1166 ) {
jbe@128 1167 if (errno != EINTR) {
jbe@128 1168 moonbr_log(LOG_CRIT, "Error in wait4() call: %s", strerror(errno));
jbe@128 1169 moonbr_terminate_error();
jbe@128 1170 }
jbe@128 1171 }
jbe@128 1172 if (!waitedpid) return 0; /* return 0 if worker couldn't be destroyed */
jbe@128 1173 if (waitedpid != worker->pid) {
jbe@128 1174 moonbr_log(LOG_CRIT, "Wrong PID returned by wait4() call");
jbe@128 1175 moonbr_terminate_error();
jbe@128 1176 }
jbe@128 1177 }
jbe@128 1178 if (WIFEXITED(childstatus)) {
jbe@128 1179 if (WEXITSTATUS(childstatus) || moonbr_stat) {
jbe@128 1180 moonbr_log(
jbe@128 1181 WEXITSTATUS(childstatus) ? LOG_WARNING : LOG_INFO,
jbe@128 1182 "Child process in pool #%i with PID %i returned with exit code %i", worker->pool->poolnum, (int)worker->pid, WEXITSTATUS(childstatus)
jbe@128 1183 );
jbe@128 1184 }
jbe@128 1185 } else if (WIFSIGNALED(childstatus)) {
jbe@128 1186 if (WCOREDUMP(childstatus)) {
jbe@128 1187 moonbr_log(LOG_ERR, "Child process in pool #%i with PID %i died from signal %i (core dump was created)", worker->pool->poolnum, (int)worker->pid, WTERMSIG(childstatus));
jbe@128 1188 } else if (WTERMSIG(childstatus) == SIGALRM) {
jbe@128 1189 moonbr_log(LOG_WARNING, "Child process in pool #%i with PID %i exited prematurely due to timeout", worker->pool->poolnum, (int)worker->pid);
jbe@128 1190 } else {
jbe@128 1191 moonbr_log(LOG_ERR, "Child process in pool #%i with PID %i died from signal %i", worker->pool->poolnum, (int)worker->pid, WTERMSIG(childstatus));
jbe@128 1192 }
jbe@128 1193 } else {
jbe@128 1194 moonbr_log(LOG_CRIT, "Illegal exit status from child process in pool #%i with PID %i", worker->pool->poolnum, (int)worker->pid);
jbe@128 1195 moonbr_terminate_error();
jbe@128 1196 }
jbe@128 1197 if (moonbr_stat) {
jbe@128 1198 moonbr_log(LOG_INFO, "Resource usage in pool #%i for PID %i: user time %s", worker->pool->poolnum, (int)worker->pid, moonbr_format_timeval(&childusage.ru_utime));
jbe@128 1199 moonbr_log(LOG_INFO, "Resource usage in pool #%i for PID %i: system time %s", worker->pool->poolnum, (int)worker->pid, moonbr_format_timeval(&childusage.ru_stime));
jbe@128 1200 moonbr_try_destroy_worker_stat("max resident set size", ru_maxrss);
jbe@128 1201 moonbr_try_destroy_worker_stat("integral shared memory size", ru_ixrss);
jbe@128 1202 moonbr_try_destroy_worker_stat("integral unshared data", ru_idrss);
jbe@128 1203 moonbr_try_destroy_worker_stat("integral unshared stack", ru_isrss);
jbe@128 1204 moonbr_try_destroy_worker_stat("page replaims", ru_minflt);
jbe@128 1205 moonbr_try_destroy_worker_stat("page faults", ru_majflt);
jbe@128 1206 moonbr_try_destroy_worker_stat("swaps", ru_nswap);
jbe@128 1207 moonbr_try_destroy_worker_stat("block input operations", ru_inblock);
jbe@128 1208 moonbr_try_destroy_worker_stat("block output operations", ru_oublock);
jbe@128 1209 moonbr_try_destroy_worker_stat("messages sent", ru_msgsnd);
jbe@128 1210 moonbr_try_destroy_worker_stat("messages received", ru_msgrcv);
jbe@128 1211 moonbr_try_destroy_worker_stat("signals received", ru_nsignals);
jbe@128 1212 moonbr_try_destroy_worker_stat("voluntary context switches", ru_nvcsw);
jbe@128 1213 moonbr_try_destroy_worker_stat("involuntary context switches", ru_nivcsw);
jbe@128 1214 }
jbe@128 1215 }
jbe@128 1216 {
jbe@128 1217 int retval = (
jbe@128 1218 (worker->idle || worker->assigned) ?
jbe@128 1219 MOONBR_DESTROY_IDLE_OR_ASSIGNED :
jbe@128 1220 MOONBR_DESTROY_PREPARE
jbe@128 1221 );
jbe@128 1222 if (worker->main) moonbr_initiate_shutdown();
jbe@128 1223 if (worker->prev_worker) worker->prev_worker->next_worker = worker->next_worker;
jbe@128 1224 else worker->pool->first_worker = worker->next_worker;
jbe@128 1225 if (worker->next_worker) worker->next_worker->prev_worker = worker->prev_worker;
jbe@128 1226 else worker->pool->last_worker = worker->prev_worker;
jbe@128 1227 if (worker->idle) {
jbe@128 1228 if (worker->prev_idle_worker) worker->prev_idle_worker->next_idle_worker = worker->next_idle_worker;
jbe@128 1229 else worker->pool->first_idle_worker = worker->next_idle_worker;
jbe@128 1230 if (worker->next_idle_worker) worker->next_idle_worker->prev_idle_worker = worker->prev_idle_worker;
jbe@128 1231 else worker->pool->last_idle_worker = worker->prev_idle_worker;
jbe@128 1232 worker->pool->idle_worker_count--;
jbe@128 1233 }
jbe@128 1234 if (!worker->assigned) worker->pool->unassigned_worker_count--;
jbe@128 1235 worker->pool->total_worker_count--;
jbe@128 1236 worker->pool->worker_count_stat = 1;
jbe@128 1237 if (worker->errorlinebuf) free(worker->errorlinebuf);
jbe@128 1238 free(worker);
jbe@128 1239 return retval;
jbe@128 1240 }
jbe@128 1241 }
jbe@128 1242
jbe@128 1243 /* Marks a worker as idle and stores it in a queue, optionally setting 'idle_expiration' value */
jbe@128 1244 static void moonbr_add_idle_worker(struct moonbr_worker *worker) {
jbe@128 1245 worker->prev_idle_worker = worker->pool->last_idle_worker;
jbe@128 1246 if (worker->prev_idle_worker) worker->prev_idle_worker->next_idle_worker = worker;
jbe@128 1247 else worker->pool->first_idle_worker = worker;
jbe@128 1248 worker->pool->last_idle_worker = worker;
jbe@128 1249 worker->idle = 1;
jbe@128 1250 worker->pool->idle_worker_count++;
jbe@128 1251 if (worker->assigned) {
jbe@128 1252 worker->assigned = 0;
jbe@128 1253 worker->pool->unassigned_worker_count++;
jbe@128 1254 }
jbe@128 1255 worker->pool->worker_count_stat = 1;
jbe@128 1256 if (timerisset(&worker->pool->idle_timeout)) {
jbe@128 1257 struct timeval now;
jbe@128 1258 moonbr_now(&now);
jbe@128 1259 timeradd(&now, &worker->pool->idle_timeout, &worker->idle_expiration);
jbe@128 1260 }
jbe@128 1261 }
jbe@128 1262
jbe@128 1263 /* Pops a worker from the queue of idle workers (idle queue must not be empty) */
jbe@128 1264 static struct moonbr_worker *moonbr_pop_idle_worker(struct moonbr_pool *pool) {
jbe@128 1265 struct moonbr_worker *worker;
jbe@128 1266 worker = pool->first_idle_worker;
jbe@128 1267 pool->first_idle_worker = worker->next_idle_worker;
jbe@128 1268 if (pool->first_idle_worker) pool->first_idle_worker->prev_idle_worker = NULL;
jbe@128 1269 else pool->last_idle_worker = NULL;
jbe@128 1270 worker->next_idle_worker = NULL;
jbe@128 1271 worker->idle = 0;
jbe@128 1272 worker->pool->idle_worker_count--;
jbe@128 1273 worker->assigned = 1;
jbe@128 1274 worker->pool->unassigned_worker_count--;
jbe@128 1275 worker->pool->worker_count_stat = 1;
jbe@128 1276 return worker;
jbe@128 1277 }
jbe@128 1278
jbe@128 1279
jbe@0 1280 /*** Functions to communicate with child processes ***/
jbe@0 1281
jbe@0 1282 /* Tells child process to terminate */
jbe@0 1283 static void moonbr_terminate_idle_worker(struct moonbr_worker *worker) {
jbe@0 1284 moonbr_send_control_message(worker, MOONBR_COMMAND_TERMINATE, -1, NULL);
jbe@0 1285 }
jbe@0 1286
jbe@0 1287 /* Handles status messages from child process */
jbe@0 1288 static void moonbr_read_controlchannel(struct moonbr_worker *worker) {
jbe@0 1289 char controlmsg;
jbe@0 1290 {
jbe@0 1291 ssize_t bytes_read;
jbe@0 1292 while ((bytes_read = read(worker->controlfd, &controlmsg, 1)) <= 0) {
jbe@0 1293 if (bytes_read == 0 || errno == ECONNRESET) {
jbe@0 1294 moonbr_log(LOG_WARNING, "Child process in pool #%i with PID %i unexpectedly closed control socket", worker->pool->poolnum, (int)worker->pid);
jbe@0 1295 if (close(worker->controlfd) && errno != EINTR) {
jbe@0 1296 moonbr_log(LOG_CRIT, "Error while closing control socket to child process in pool #%i with PID %i: %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 1297 moonbr_terminate_error();
jbe@0 1298 }
jbe@0 1299 worker->controlfd = -1;
jbe@0 1300 moonbr_poll_refresh_needed = 1;
jbe@0 1301 return;
jbe@0 1302 }
jbe@0 1303 if (errno != EINTR) {
jbe@0 1304 moonbr_log(LOG_CRIT, "Unexpected error while reading control socket from child process in pool #%i with PID %i: %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 1305 moonbr_terminate_error();
jbe@0 1306 }
jbe@0 1307 }
jbe@0 1308 }
jbe@0 1309 if (worker->idle) {
jbe@0 1310 moonbr_log(LOG_CRIT, "Unexpected data from supposedly idle child process in pool #%i with PID %i", worker->pool->poolnum, (int)worker->pid);
jbe@0 1311 moonbr_terminate_error();
jbe@0 1312 }
jbe@0 1313 if (moonbr_debug) {
jbe@0 1314 moonbr_log(LOG_DEBUG, "Received control message from child in pool #%i with PID %i: \"%c\"", worker->pool->poolnum, (int)worker->pid, (int)controlmsg);
jbe@0 1315 }
jbe@0 1316 switch (controlmsg) {
jbe@0 1317 case MOONBR_STATUS_IDLE:
jbe@0 1318 if (moonbr_stat) {
jbe@0 1319 moonbr_log(LOG_INFO, "Child process in pool #%i with PID %i reports as idle", worker->pool->poolnum, (int)worker->pid);
jbe@0 1320 }
jbe@0 1321 moonbr_add_idle_worker(worker);
jbe@0 1322 break;
jbe@0 1323 case MOONBR_STATUS_GOODBYE:
jbe@0 1324 if (moonbr_stat) {
jbe@0 1325 moonbr_log(LOG_INFO, "Child process in pool #%i with PID %i announced termination", worker->pool->poolnum, (int)worker->pid);
jbe@0 1326 }
jbe@0 1327 if (close(worker->controlfd) && errno != EINTR) {
jbe@0 1328 moonbr_log(LOG_CRIT, "Error while closing control socket to child process in pool #%i with PID %i: %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 1329 moonbr_terminate_error();
jbe@0 1330 }
jbe@0 1331 worker->controlfd = -1;
jbe@0 1332 moonbr_poll_refresh_needed = 1;
jbe@0 1333 break;
jbe@0 1334 default:
jbe@0 1335 moonbr_log(LOG_CRIT, "Received illegal data (\"%c\") while reading control socket from child process in pool #%i with PID %i", (int)controlmsg, worker->pool->poolnum, (int)worker->pid);
jbe@0 1336 moonbr_terminate_error();
jbe@0 1337 }
jbe@0 1338 }
jbe@0 1339
jbe@0 1340 /* Handles stderr stream from child process */
jbe@0 1341 static void moonbr_read_errorchannel(struct moonbr_worker *worker) {
jbe@0 1342 char staticbuf[MOONBR_MAXERRORLINELEN+1];
jbe@0 1343 char *buf = worker->errorlinebuf;
jbe@0 1344 if (!buf) buf = staticbuf;
jbe@0 1345 {
jbe@0 1346 ssize_t bytes_read;
jbe@0 1347 while (
jbe@0 1348 (bytes_read = read(
jbe@0 1349 worker->errorfd,
jbe@0 1350 buf + worker->errorlinelen,
jbe@0 1351 MOONBR_MAXERRORLINELEN+1 - worker->errorlinelen
jbe@0 1352 )) <= 0
jbe@0 1353 ) {
jbe@0 1354 if (bytes_read == 0 || errno == ECONNRESET) {
jbe@0 1355 if (moonbr_debug) {
jbe@0 1356 moonbr_log(LOG_DEBUG, "Child process in pool #%i with PID %i closed stderr socket", worker->pool->poolnum, (int)worker->pid);
jbe@0 1357 }
jbe@0 1358 if (close(worker->errorfd) && errno != EINTR) {
jbe@0 1359 moonbr_log(LOG_CRIT, "Error while closing stderr socket to child process in pool #%i with PID %i: %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 1360 moonbr_terminate_error();
jbe@0 1361 }
jbe@0 1362 worker->errorfd = -1;
jbe@0 1363 moonbr_poll_refresh_needed = 1;
jbe@0 1364 break;
jbe@0 1365 }
jbe@0 1366 if (errno != EINTR) {
jbe@0 1367 moonbr_log(LOG_CRIT, "Unexpected error while reading stderr from child process in pool #%i with PID %i: %s", worker->pool->poolnum, (int)worker->pid, strerror(errno));
jbe@0 1368 moonbr_terminate_error();
jbe@0 1369 }
jbe@0 1370 }
jbe@0 1371 worker->errorlinelen += bytes_read;
jbe@0 1372 }
jbe@0 1373 {
jbe@0 1374 int i;
jbe@0 1375 for (i=0; i<worker->errorlinelen; i++) {
jbe@0 1376 if (buf[i] == '\n') buf[i] = 0;
jbe@0 1377 if (!buf[i]) {
jbe@0 1378 if (worker->errorlineovf) {
jbe@0 1379 worker->errorlineovf = 0;
jbe@0 1380 } else {
jbe@0 1381 moonbr_log(LOG_WARNING, "Error log from process in pool #%i with PID %i: %s", worker->pool->poolnum, (int)worker->pid, buf);
jbe@0 1382 }
jbe@0 1383 worker->errorlinelen -= i+1;
jbe@0 1384 memmove(buf, buf+i+1, worker->errorlinelen);
jbe@0 1385 i = -1;
jbe@0 1386 }
jbe@0 1387 }
jbe@0 1388 if (i > MOONBR_MAXERRORLINELEN) {
jbe@0 1389 buf[MOONBR_MAXERRORLINELEN] = 0;
jbe@0 1390 if (!worker->errorlineovf) {
jbe@0 1391 moonbr_log(LOG_WARNING, "Error log from process in pool #%i with PID %i (line has been truncated): %s", worker->pool->poolnum, (int)worker->pid, buf);
jbe@0 1392 }
jbe@0 1393 worker->errorlinelen = 0;
jbe@0 1394 worker->errorlineovf = 1;
jbe@0 1395 }
jbe@0 1396 }
jbe@0 1397 if (!worker->errorlinebuf && worker->errorlinelen) { /* allocate buffer on heap only if necessary */
jbe@0 1398 worker->errorlinebuf = malloc((MOONBR_MAXERRORLINELEN+1) * sizeof(char));
jbe@0 1399 if (!worker->errorlinebuf) {
jbe@0 1400 moonbr_log(LOG_CRIT, "Memory allocation error");
jbe@0 1401 moonbr_terminate_error();
jbe@0 1402 }
jbe@0 1403 memcpy(worker->errorlinebuf, staticbuf, worker->errorlinelen);
jbe@0 1404 }
jbe@0 1405 }
jbe@0 1406
jbe@0 1407
jbe@0 1408 /*** Handler for incoming connections ***/
jbe@0 1409
jbe@0 1410 /* Accepts one or more incoming connections on listener socket and passes it to worker(s) popped from idle queue */
jbe@0 1411 static void moonbr_connect(struct moonbr_pool *pool) {
jbe@0 1412 struct moonbr_listener *listener = moonbr_pop_connected_listener(pool);
jbe@0 1413 struct moonbr_worker *worker;
jbe@127 1414 if (listener->proto == MOONBR_PROTO_MAIN) {
jbe@127 1415 worker = moonbr_pop_idle_worker(pool);
jbe@127 1416 if (moonbr_stat) {
jbe@127 1417 moonbr_log(LOG_INFO, "Dispatching main thread of pool #%i to PID %i", listener->pool->poolnum, (int)worker->pid);
jbe@127 1418 }
jbe@127 1419 worker->main = 1;
jbe@127 1420 moonbr_send_control_message(worker, MOONBR_COMMAND_CONNECT, -1, listener);
jbe@127 1421 /* do not push listener to queue of idle listeners */
jbe@127 1422 } else if (listener->proto == MOONBR_PROTO_INTERVAL) {
jbe@0 1423 worker = moonbr_pop_idle_worker(pool);
jbe@0 1424 if (moonbr_stat) {
jbe@125 1425 moonbr_log(LOG_INFO, "Dispatching interval timer \"%s\" of pool #%i to PID %i", listener->type_specific.interval.name, listener->pool->poolnum, (int)worker->pid);
jbe@0 1426 }
jbe@0 1427 worker->restart_interval_listener = listener;
jbe@124 1428 moonbr_send_control_message(worker, MOONBR_COMMAND_CONNECT, -1, listener);
jbe@0 1429 /* do not push listener to queue of idle listeners yet */
jbe@125 1430 } else {
jbe@125 1431 int peerfd;
jbe@0 1432 do {
jbe@125 1433 peerfd = accept4(listener->listenfd, NULL, NULL, SOCK_CLOEXEC);
jbe@0 1434 if (peerfd == -1) {
jbe@0 1435 if (errno == EWOULDBLOCK) {
jbe@0 1436 break;
jbe@0 1437 } else if (errno == ECONNABORTED) {
jbe@125 1438 moonbr_log(LOG_WARNING, "Connection aborted before accepting it");
jbe@0 1439 break;
jbe@0 1440 } else if (errno != EINTR) {
jbe@0 1441 moonbr_log(LOG_ERR, "Could not accept socket connection: %s", strerror(errno));
jbe@0 1442 moonbr_terminate_error();
jbe@0 1443 }
jbe@0 1444 } else {
jbe@0 1445 worker = moonbr_pop_idle_worker(pool);
jbe@0 1446 if (moonbr_stat) {
jbe@125 1447 moonbr_log(LOG_INFO, "Dispatching connection for pool #%i to PID %i", listener->pool->poolnum, (int)worker->pid);
jbe@0 1448 }
jbe@124 1449 moonbr_send_control_message(worker, MOONBR_COMMAND_CONNECT, peerfd, listener);
jbe@0 1450 if (close(peerfd) && errno != EINTR) {
jbe@0 1451 moonbr_log(LOG_ERR, "Could not close incoming socket connection in parent process: %s", strerror(errno));
jbe@0 1452 moonbr_terminate_error();
jbe@0 1453 }
jbe@0 1454 }
jbe@0 1455 } while (pool->first_idle_worker);
jbe@0 1456 moonbr_add_idle_listener(listener);
jbe@0 1457 }
jbe@0 1458 }
jbe@0 1459
jbe@0 1460
jbe@0 1461 /*** Functions to initialize and restart interval timers ***/
jbe@0 1462
jbe@0 1463 /* Initializes all interval timers */
jbe@0 1464 static void moonbr_interval_initialize() {
jbe@0 1465 struct timeval now;
jbe@0 1466 struct moonbr_pool *pool;
jbe@0 1467 moonbr_now(&now);
jbe@0 1468 for (pool=moonbr_first_pool; pool; pool=pool->next_pool) {
jbe@0 1469 int i;
jbe@0 1470 for (i=0; i<pool->listener_count; i++) {
jbe@0 1471 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 1472 if (listener->proto == MOONBR_PROTO_INTERVAL) {
jbe@0 1473 timeradd(
jbe@0 1474 &now,
jbe@125 1475 &listener->type_specific.interval.delay,
jbe@125 1476 &listener->type_specific.interval.wakeup
jbe@0 1477 );
jbe@0 1478 }
jbe@0 1479 }
jbe@0 1480 }
jbe@0 1481 }
jbe@0 1482
jbe@0 1483 /* If necessary, restarts interval timers and queues interval listener as idle after a worker changed status */
jbe@0 1484 static void moonbr_interval_restart(
jbe@0 1485 struct moonbr_worker *worker,
jbe@0 1486 struct timeval *now /* passed to synchronize with moonbr_run() function */
jbe@0 1487 ) {
jbe@0 1488 struct moonbr_listener *listener = worker->restart_interval_listener;
jbe@0 1489 if (listener) {
jbe@0 1490 moonbr_add_idle_listener(listener);
jbe@0 1491 worker->restart_interval_listener = NULL;
jbe@125 1492 if (listener->type_specific.interval.strict) {
jbe@0 1493 timeradd(
jbe@125 1494 &listener->type_specific.interval.wakeup,
jbe@125 1495 &listener->type_specific.interval.delay,
jbe@125 1496 &listener->type_specific.interval.wakeup
jbe@0 1497 );
jbe@125 1498 if (timercmp(&listener->type_specific.interval.wakeup, now, <)) {
jbe@125 1499 listener->type_specific.interval.wakeup = *now;
jbe@0 1500 }
jbe@0 1501 } else {
jbe@0 1502 timeradd(
jbe@0 1503 now,
jbe@125 1504 &listener->type_specific.interval.delay,
jbe@125 1505 &listener->type_specific.interval.wakeup
jbe@0 1506 );
jbe@0 1507 }
jbe@0 1508 }
jbe@0 1509 }
jbe@0 1510
jbe@0 1511
jbe@0 1512 /*** Main loop and helper functions ***/
jbe@0 1513
jbe@0 1514 /* Stores the earliest required wakeup time in 'wait' variable */
jbe@0 1515 static void moonbr_calc_wait(struct timeval *wait, struct timeval *wakeup) {
jbe@0 1516 if (!timerisset(wait) || timercmp(wakeup, wait, <)) *wait = *wakeup;
jbe@0 1517 }
jbe@0 1518
jbe@0 1519 /* Main loop of Moonbridge system (including initialization of signal handlers and polling structures) */
jbe@0 1520 static void moonbr_run(lua_State *L) {
jbe@0 1521 struct timeval now;
jbe@0 1522 struct moonbr_pool *pool;
jbe@0 1523 struct moonbr_worker *worker;
jbe@0 1524 struct moonbr_worker *next_worker; /* needed when worker is removed during iteration of workers */
jbe@0 1525 struct moonbr_listener *listener;
jbe@0 1526 struct moonbr_listener *next_listener; /* needed when listener is removed during iteration of listeners */
jbe@0 1527 int i;
jbe@0 1528 moonbr_poll_init(); /* must be executed before moonbr_signal_init() */
jbe@0 1529 moonbr_signal_init();
jbe@0 1530 moonbr_interval_initialize();
jbe@0 1531 moonbr_pstate = MOONBR_PSTATE_RUNNING;
jbe@0 1532 while (1) {
jbe@0 1533 struct timeval wait = {0, }; /* point in time when premature wakeup of poll() is required */
jbe@0 1534 if (moonbr_cond_interrupt) {
jbe@0 1535 moonbr_log(LOG_WARNING, "Fast shutdown requested");
jbe@0 1536 moonbr_terminate(MOONBR_EXITCODE_GRACEFUL);
jbe@0 1537 }
jbe@0 1538 if (moonbr_cond_terminate) {
jbe@0 1539 moonbr_initiate_shutdown();
jbe@0 1540 moonbr_cond_terminate = 0;
jbe@0 1541 }
jbe@0 1542 moonbr_cond_child = 0; /* must not be reset between moonbr_try_destroy_worker() and poll() */
jbe@0 1543 moonbr_now(&now);
jbe@0 1544 for (pool=moonbr_first_pool; pool; pool=pool->next_pool) {
jbe@0 1545 int terminated_worker_count = 0; /* allows shortcut for new worker creation */
jbe@0 1546 /* terminate idle workers when expired */
jbe@0 1547 if (timerisset(&pool->idle_timeout)) {
jbe@0 1548 while ((worker = pool->first_idle_worker) != NULL) {
jbe@0 1549 if (timercmp(&worker->idle_expiration, &now, >)) break;
jbe@0 1550 moonbr_pop_idle_worker(pool);
jbe@0 1551 moonbr_terminate_idle_worker(worker);
jbe@0 1552 }
jbe@0 1553 }
jbe@0 1554 /* mark listeners as connected when incoming connection is pending */
jbe@0 1555 for (listener=pool->first_idle_listener; listener; listener=next_listener) {
jbe@0 1556 next_listener = listener->next_listener; /* extra variable necessary due to changing list */
jbe@0 1557 if (listener->pollidx != -1) {
jbe@0 1558 if (moonbr_poll_fds[listener->pollidx].revents) {
jbe@0 1559 moonbr_poll_fds[listener->pollidx].revents = 0;
jbe@0 1560 moonbr_remove_idle_listener(listener);
jbe@0 1561 moonbr_add_connected_listener(listener);
jbe@0 1562 }
jbe@127 1563 } else if (
jbe@127 1564 listener->proto != MOONBR_PROTO_INTERVAL ||
jbe@127 1565 !timercmp(&listener->type_specific.interval.wakeup, &now, >)
jbe@127 1566 ) {
jbe@127 1567 moonbr_remove_idle_listener(listener);
jbe@127 1568 moonbr_add_connected_listener(listener);
jbe@0 1569 }
jbe@0 1570 }
jbe@0 1571 /* process input from child processes */
jbe@0 1572 for (i=0; i<moonbr_poll_worker_count; i++) {
jbe@0 1573 if (moonbr_poll_worker_fds[i].revents) {
jbe@0 1574 moonbr_poll_worker_fds[i].revents = 0;
jbe@0 1575 struct moonbr_poll_worker *poll_worker = &moonbr_poll_workers[i];
jbe@0 1576 switch (poll_worker->channel) {
jbe@0 1577 case MOONBR_POLL_WORKER_CONTROLCHANNEL:
jbe@0 1578 moonbr_read_controlchannel(poll_worker->worker);
jbe@0 1579 moonbr_interval_restart(poll_worker->worker, &now);
jbe@0 1580 break;
jbe@0 1581 case MOONBR_POLL_WORKER_ERRORCHANNEL:
jbe@0 1582 moonbr_read_errorchannel(poll_worker->worker);
jbe@0 1583 break;
jbe@0 1584 }
jbe@0 1585 }
jbe@0 1586 }
jbe@0 1587 /* collect dead child processes */
jbe@0 1588 for (worker=pool->first_worker; worker; worker=next_worker) {
jbe@0 1589 next_worker = worker->next_worker; /* extra variable necessary due to changing list */
jbe@0 1590 switch (moonbr_try_destroy_worker(worker)) {
jbe@0 1591 case MOONBR_DESTROY_PREPARE:
jbe@0 1592 pool->use_fork_error_wakeup = 1;
jbe@0 1593 break;
jbe@0 1594 case MOONBR_DESTROY_IDLE_OR_ASSIGNED:
jbe@0 1595 terminated_worker_count++;
jbe@0 1596 break;
jbe@0 1597 }
jbe@0 1598 }
jbe@0 1599 if (!moonbr_shutdown_in_progress) {
jbe@130 1600 /* connect listeners with idle workers */
jbe@0 1601 while (pool->first_connected_listener && pool->first_idle_worker) {
jbe@0 1602 moonbr_connect(pool);
jbe@0 1603 }
jbe@130 1604 /* create new worker processes */
jbe@130 1605 while (
jbe@130 1606 pool->total_worker_count < pool->max_fork && (
jbe@130 1607 pool->unassigned_worker_count < pool->pre_fork ||
jbe@130 1608 pool->total_worker_count < pool->min_fork
jbe@130 1609 )
jbe@130 1610 ) {
jbe@130 1611 if (pool->use_fork_error_wakeup) {
jbe@130 1612 if (timercmp(&pool->fork_error_wakeup, &now, >)) {
jbe@130 1613 moonbr_calc_wait(&wait, &pool->fork_error_wakeup);
jbe@130 1614 break;
jbe@130 1615 }
jbe@130 1616 } else {
jbe@130 1617 if (terminated_worker_count) {
jbe@130 1618 terminated_worker_count--;
jbe@130 1619 } else if (timercmp(&pool->fork_wakeup, &now, >)) {
jbe@130 1620 moonbr_calc_wait(&wait, &pool->fork_wakeup);
jbe@130 1621 break;
jbe@130 1622 }
jbe@0 1623 }
jbe@130 1624 if (moonbr_create_worker(pool, L)) {
jbe@130 1625 /* on error, enforce error delay */
jbe@130 1626 timeradd(&now, &pool->fork_error_delay, &pool->fork_error_wakeup);
jbe@130 1627 pool->use_fork_error_wakeup = 1;
jbe@130 1628 moonbr_calc_wait(&wait, &pool->fork_error_wakeup);
jbe@130 1629 break;
jbe@130 1630 } else {
jbe@130 1631 /* normal fork delay on success */
jbe@130 1632 timeradd(&now, &pool->fork_delay, &pool->fork_wakeup);
jbe@130 1633 timeradd(&now, &pool->fork_error_delay, &pool->fork_error_wakeup);
jbe@130 1634 pool->use_fork_error_wakeup = 0; /* gets set later if error occures during preparation */
jbe@130 1635 }
jbe@130 1636 }
jbe@130 1637 /* terminate excessive worker processes */
jbe@130 1638 while (
jbe@130 1639 pool->total_worker_count > pool->min_fork &&
jbe@130 1640 pool->idle_worker_count > pool->pre_fork
jbe@130 1641 ) {
jbe@130 1642 if (timerisset(&pool->exit_wakeup)) {
jbe@130 1643 if (timercmp(&pool->exit_wakeup, &now, >)) {
jbe@130 1644 moonbr_calc_wait(&wait, &pool->exit_wakeup);
jbe@130 1645 break;
jbe@130 1646 }
jbe@130 1647 moonbr_terminate_idle_worker(moonbr_pop_idle_worker(pool));
jbe@130 1648 timeradd(&now, &pool->exit_delay, &pool->exit_wakeup);
jbe@130 1649 } else {
jbe@130 1650 timeradd(&now, &pool->exit_delay, &pool->exit_wakeup);
jbe@0 1651 break;
jbe@0 1652 }
jbe@0 1653 }
jbe@130 1654 if (!(
jbe@130 1655 pool->total_worker_count > pool->min_fork &&
jbe@130 1656 pool->idle_worker_count > pool->pre_fork
jbe@130 1657 )) {
jbe@130 1658 timerclear(&pool->exit_wakeup); /* timer gets restarted later when there are excessive workers */
jbe@0 1659 }
jbe@0 1660 }
jbe@0 1661 /* optionally output worker count stats */
jbe@0 1662 if (moonbr_stat && pool->worker_count_stat) {
jbe@0 1663 pool->worker_count_stat = 0;
jbe@0 1664 moonbr_log(
jbe@0 1665 LOG_INFO,
jbe@0 1666 "Worker count for pool #%i: %i idle, %i assigned, %i total",
jbe@0 1667 pool->poolnum, pool->idle_worker_count,
jbe@0 1668 pool->total_worker_count - pool->unassigned_worker_count,
jbe@0 1669 pool->total_worker_count);
jbe@0 1670 }
jbe@0 1671 /* calculate wakeup time for interval listeners */
jbe@0 1672 for (listener=pool->first_idle_listener; listener; listener=listener->next_listener) {
jbe@0 1673 if (listener->proto == MOONBR_PROTO_INTERVAL) {
jbe@125 1674 moonbr_calc_wait(&wait, &listener->type_specific.interval.wakeup);
jbe@0 1675 }
jbe@0 1676 }
jbe@0 1677 /* calculate wakeup time for idle workers (only first idle worker is significant) */
jbe@0 1678 if (timerisset(&pool->idle_timeout) && pool->first_idle_worker) {
jbe@0 1679 moonbr_calc_wait(&wait, &pool->first_idle_worker->idle_expiration);
jbe@0 1680 }
jbe@0 1681 }
jbe@130 1682 /* terminate idle workers in case of shutdown and check if shutdown is complete */
jbe@0 1683 if (moonbr_shutdown_in_progress) {
jbe@0 1684 for (pool=moonbr_first_pool; pool; pool=pool->next_pool) {
jbe@130 1685 if (pool->first_worker) {
jbe@130 1686 while (pool->idle_worker_count) {
jbe@130 1687 moonbr_terminate_idle_worker(moonbr_pop_idle_worker(pool));
jbe@130 1688 }
jbe@130 1689 break;
jbe@130 1690 }
jbe@0 1691 }
jbe@0 1692 if (!pool) {
jbe@0 1693 moonbr_log(LOG_INFO, "All worker threads have terminated");
jbe@0 1694 moonbr_terminate(MOONBR_EXITCODE_GRACEFUL);
jbe@0 1695 }
jbe@0 1696 }
jbe@0 1697 if (moonbr_poll_refresh_needed) moonbr_poll_refresh();
jbe@0 1698 moonbr_cond_poll = 1;
jbe@0 1699 if (!moonbr_cond_child && !moonbr_cond_terminate && !moonbr_cond_interrupt) {
jbe@0 1700 int timeout;
jbe@0 1701 if (timerisset(&wait)) {
jbe@0 1702 if (timercmp(&wait, &now, <)) {
jbe@0 1703 moonbr_log(LOG_CRIT, "Internal error (should not happen): Future is in the past");
jbe@0 1704 moonbr_terminate_error();
jbe@0 1705 }
jbe@0 1706 timersub(&wait, &now, &wait);
jbe@0 1707 timeout = wait.tv_sec * 1000 + wait.tv_usec / 1000;
jbe@0 1708 } else {
jbe@0 1709 timeout = INFTIM;
jbe@0 1710 }
jbe@0 1711 if (moonbr_debug) {
jbe@0 1712 moonbr_log(LOG_DEBUG, "Waiting for I/O");
jbe@0 1713 }
jbe@0 1714 poll(moonbr_poll_fds, moonbr_poll_fds_count, timeout);
jbe@0 1715 } else {
jbe@0 1716 if (moonbr_debug) {
jbe@0 1717 moonbr_log(LOG_DEBUG, "Do not wait for I/O");
jbe@0 1718 }
jbe@0 1719 }
jbe@0 1720 moonbr_cond_poll = 0;
jbe@0 1721 moonbr_poll_reset_signal();
jbe@0 1722 }
jbe@0 1723 }
jbe@0 1724
jbe@0 1725
jbe@0 1726 /*** Lua interface ***/
jbe@0 1727
jbe@0 1728 static int moonbr_lua_panic(lua_State *L) {
jbe@0 1729 const char *errmsg;
jbe@0 1730 errmsg = lua_tostring(L, -1);
jbe@0 1731 if (!errmsg) {
jbe@0 1732 if (lua_isnoneornil(L, -1)) errmsg = "(error message is nil)";
jbe@0 1733 else errmsg = "(error message is not a string)";
jbe@0 1734 }
jbe@0 1735 if (moonbr_pstate == MOONBR_PSTATE_FORKED) {
jbe@0 1736 fprintf(stderr, "Uncaught Lua error: %s\n", errmsg);
jbe@0 1737 exit(1);
jbe@0 1738 } else {
jbe@0 1739 moonbr_log(LOG_CRIT, "Uncaught Lua error: %s", errmsg);
jbe@0 1740 moonbr_terminate_error();
jbe@0 1741 }
jbe@0 1742 return 0;
jbe@0 1743 }
jbe@0 1744
jbe@0 1745 static int moonbr_addtraceback(lua_State *L) {
jbe@0 1746 luaL_traceback(L, L, luaL_tolstring(L, 1, NULL), 1);
jbe@0 1747 return 1;
jbe@0 1748 }
jbe@0 1749
jbe@0 1750 /* Memory allocator that allows limiting memory consumption */
jbe@0 1751 static void *moonbr_alloc (void *ud, void *ptr, size_t osize, size_t nsize) {
jbe@0 1752 (void)ud; /* not used */
jbe@0 1753 if (nsize == 0) {
jbe@0 1754 if (ptr) {
jbe@0 1755 moonbr_memory_usage -= osize;
jbe@0 1756 free(ptr);
jbe@0 1757 }
jbe@0 1758 return NULL;
jbe@0 1759 } else if (ptr) {
jbe@0 1760 if (
jbe@0 1761 moonbr_memory_limit &&
jbe@0 1762 nsize > osize &&
jbe@0 1763 moonbr_memory_usage + (nsize - osize) > moonbr_memory_limit
jbe@0 1764 ) {
jbe@0 1765 return NULL;
jbe@0 1766 } else {
jbe@0 1767 ptr = realloc(ptr, nsize);
jbe@0 1768 if (ptr) moonbr_memory_usage += nsize - osize;
jbe@0 1769 }
jbe@0 1770 } else {
jbe@0 1771 if (
jbe@0 1772 moonbr_memory_limit &&
jbe@0 1773 moonbr_memory_usage + nsize > moonbr_memory_limit
jbe@0 1774 ) {
jbe@0 1775 return NULL;
jbe@0 1776 } else {
jbe@0 1777 ptr = realloc(ptr, nsize);
jbe@0 1778 if (ptr) moonbr_memory_usage += nsize;
jbe@0 1779 }
jbe@0 1780 }
jbe@0 1781 return ptr;
jbe@0 1782 }
jbe@0 1783
jbe@66 1784 static int moonbr_lua_tonatural(lua_State *L, int idx) {
jbe@66 1785 int isnum;
jbe@66 1786 lua_Number n;
jbe@66 1787 n = lua_tonumberx(L, idx, &isnum);
jbe@66 1788 if (isnum && n>=0 && n<INT_MAX && (lua_Number)(int)n == n) return n;
jbe@66 1789 else return -1;
jbe@66 1790 }
jbe@66 1791
jbe@66 1792 static int moonbr_lua_totimeval(lua_State *L, int idx, struct timeval *value) {
jbe@66 1793 int isnum;
jbe@66 1794 lua_Number n;
jbe@66 1795 n = lua_tonumberx(L, idx, &isnum);
jbe@66 1796 if (isnum && n>=0 && n<=100000000) {
jbe@66 1797 value->tv_sec = n;
jbe@66 1798 value->tv_usec = 1e6 * (n - value->tv_sec);
jbe@66 1799 return 1;
jbe@66 1800 } else {
jbe@66 1801 return 0;
jbe@66 1802 }
jbe@66 1803 }
jbe@66 1804
jbe@0 1805 static int moonbr_timeout(lua_State *L) {
jbe@0 1806 struct itimerval oldval;
jbe@0 1807 if (lua_isnoneornil(L, 1) && lua_isnoneornil(L, 2)) {
jbe@0 1808 getitimer(ITIMER_REAL, &oldval);
jbe@0 1809 } else {
jbe@0 1810 struct itimerval newval = {};
jbe@39 1811 timerclear(&newval.it_interval);
jbe@39 1812 timerclear(&newval.it_value);
jbe@0 1813 if (lua_toboolean(L, 1)) {
jbe@0 1814 luaL_argcheck(
jbe@0 1815 L, moonbr_lua_totimeval(L, 1, &newval.it_value), 1,
jbe@0 1816 "interval in seconds expected"
jbe@0 1817 );
jbe@0 1818 }
jbe@0 1819 if (lua_isnoneornil(L, 2)) {
jbe@0 1820 if (setitimer(ITIMER_REAL, &newval, &oldval)) {
jbe@0 1821 moonbr_log(LOG_CRIT, "Could not set ITIMER_REAL via setitimer()");
jbe@0 1822 moonbr_terminate_error();
jbe@0 1823 }
jbe@0 1824 } else {
jbe@0 1825 getitimer(ITIMER_REAL, &oldval);
jbe@39 1826 if (!timerisset(&oldval.it_value)) {
jbe@39 1827 if (setitimer(ITIMER_REAL, &newval, NULL)) {
jbe@39 1828 moonbr_log(LOG_CRIT, "Could not set ITIMER_REAL via setitimer()");
jbe@39 1829 moonbr_terminate_error();
jbe@39 1830 }
jbe@39 1831 lua_call(L, lua_gettop(L) - 2, LUA_MULTRET);
jbe@39 1832 timerclear(&newval.it_value);
jbe@39 1833 if (setitimer(ITIMER_REAL, &newval, NULL)) {
jbe@39 1834 moonbr_log(LOG_CRIT, "Could not set ITIMER_REAL via setitimer()");
jbe@39 1835 moonbr_terminate_error();
jbe@39 1836 }
jbe@39 1837 } else if (timercmp(&newval.it_value, &oldval.it_value, <)) {
jbe@0 1838 struct itimerval remval;
jbe@0 1839 if (setitimer(ITIMER_REAL, &newval, NULL)) {
jbe@0 1840 moonbr_log(LOG_CRIT, "Could not set ITIMER_REAL via setitimer()");
jbe@0 1841 moonbr_terminate_error();
jbe@0 1842 }
jbe@0 1843 lua_call(L, lua_gettop(L) - 2, LUA_MULTRET);
jbe@0 1844 getitimer(ITIMER_REAL, &remval);
jbe@0 1845 timersub(&oldval.it_value, &newval.it_value, &newval.it_value);
jbe@0 1846 timeradd(&newval.it_value, &remval.it_value, &newval.it_value);
jbe@0 1847 if (setitimer(ITIMER_REAL, &newval, NULL)) {
jbe@0 1848 moonbr_log(LOG_CRIT, "Could not set ITIMER_REAL via setitimer()");
jbe@0 1849 moonbr_terminate_error();
jbe@0 1850 }
jbe@0 1851 } else {
jbe@0 1852 lua_call(L, lua_gettop(L) - 2, LUA_MULTRET);
jbe@0 1853 }
jbe@0 1854 return lua_gettop(L) - 1;
jbe@0 1855 }
jbe@0 1856 }
jbe@115 1857 lua_pushnumber(L, oldval.it_value.tv_sec + 1e-6 * oldval.it_value.tv_usec);
jbe@0 1858 return 1;
jbe@0 1859 }
jbe@0 1860
jbe@0 1861 #define moonbr_listen_init_pool_forkoption(luaname, cname, defval) { \
jbe@0 1862 lua_getfield(L, 2, luaname); \
jbe@0 1863 pool->cname = lua_isnil(L, -1) ? (defval) : moonbr_lua_tonatural(L, -1); \
jbe@0 1864 } while(0)
jbe@0 1865
jbe@0 1866 #define moonbr_listen_init_pool_timeoption(luaname, cname, defval, defvalu) ( \
jbe@0 1867 lua_getfield(L, 2, luaname), \
jbe@0 1868 lua_isnil(L, -1) ? ( \
jbe@0 1869 pool->cname.tv_sec = (defval), pool->cname.tv_usec = (defvalu), \
jbe@0 1870 1 \
jbe@0 1871 ) : ( \
jbe@0 1872 (lua_isboolean(L, -1) && !lua_toboolean(L, -1)) ? ( \
jbe@0 1873 pool->cname.tv_sec = 0, pool->cname.tv_usec = 0, \
jbe@0 1874 1 \
jbe@0 1875 ) : ( \
jbe@0 1876 moonbr_lua_totimeval(L, -1, &pool->cname) \
jbe@0 1877 ) \
jbe@0 1878 ) \
jbe@0 1879 )
jbe@0 1880
jbe@0 1881 static int moonbr_listen_init_pool(lua_State *L) {
jbe@0 1882 struct moonbr_pool *pool;
jbe@0 1883 const char *proto;
jbe@0 1884 int i;
jbe@127 1885 int dynamic = 0; /* nonzero = listeners exist which require dynamic worker creation */
jbe@0 1886 pool = lua_touserdata(L, 1);
jbe@0 1887 for (i=0; i<pool->listener_count; i++) {
jbe@0 1888 struct moonbr_listener *listener = &pool->listener[i];
jbe@0 1889 lua_settop(L, 2);
jbe@3 1890 #if LUA_VERSION_NUM >= 503
jbe@3 1891 lua_geti(L, 2, i+1);
jbe@3 1892 #else
jbe@0 1893 lua_pushinteger(L, i+1);
jbe@0 1894 lua_gettable(L, 2);
jbe@3 1895 #endif
jbe@0 1896 lua_getfield(L, 3, "proto");
jbe@0 1897 proto = lua_tostring(L, -1);
jbe@127 1898 if (proto && !strcmp(proto, "main")) {
jbe@127 1899 listener->proto = MOONBR_PROTO_MAIN;
jbe@127 1900 } else if (proto && !strcmp(proto, "interval")) {
jbe@127 1901 dynamic = 1;
jbe@0 1902 listener->proto = MOONBR_PROTO_INTERVAL;
jbe@0 1903 lua_getfield(L, 3, "name");
jbe@0 1904 {
jbe@0 1905 const char *name = lua_tostring(L, -1);
jbe@0 1906 if (name) {
jbe@125 1907 if (asprintf(&listener->type_specific.interval.name, "%s", name) < 0) {
jbe@0 1908 moonbr_log(LOG_CRIT, "Memory allocation_error");
jbe@0 1909 moonbr_terminate_error();
jbe@0 1910 }
jbe@0 1911 }
jbe@0 1912 }
jbe@0 1913 lua_getfield(L, 3, "delay");
jbe@0 1914 if (
jbe@125 1915 !moonbr_lua_totimeval(L, -1, &listener->type_specific.interval.delay) ||
jbe@125 1916 !timerisset(&listener->type_specific.interval.delay)
jbe@0 1917 ) {
jbe@0 1918 luaL_error(L, "No valid interval delay specified; use listen{{proto=\"interval\", delay=...}, ...}");
jbe@0 1919 }
jbe@0 1920 lua_getfield(L, 3, "strict");
jbe@0 1921 if (!lua_isnil(L, -1)) {
jbe@0 1922 if (lua_isboolean(L, -1)) {
jbe@125 1923 if (lua_toboolean(L, -1)) listener->type_specific.interval.strict = 1;
jbe@0 1924 } else {
jbe@0 1925 luaL_error(L, "Option \"strict\" must be a boolean if set; use listen{{proto=\"interval\", strict=true, ...}, ...}");
jbe@0 1926 }
jbe@0 1927 }
jbe@0 1928 } else if (proto && !strcmp(proto, "local")) {
jbe@125 1929 const char *path;
jbe@125 1930 const int path_maxlen = (
jbe@125 1931 sizeof(listener->type_specific.socket.addr.addr_un) -
jbe@125 1932 ((void *)listener->type_specific.socket.addr.addr_un.sun_path - (void *)&listener->type_specific.socket.addr.addr_un)
jbe@125 1933 ) - 1; /* one byte for termination */
jbe@127 1934 dynamic = 1;
jbe@0 1935 listener->proto = MOONBR_PROTO_LOCAL;
jbe@0 1936 lua_getfield(L, 3, "path");
jbe@125 1937 path = lua_tostring(L, -1);
jbe@125 1938 if (!path) {
jbe@125 1939 luaL_error(L, "No valid path specified for local socket; use listen{{proto=\"local\", path=...}, ...}");
jbe@125 1940 }
jbe@125 1941 if (strlen(path) > path_maxlen) {
jbe@125 1942 luaL_error(L, "Path name for local socket exceeded maximum length of %i characters", path_maxlen);
jbe@125 1943 }
jbe@125 1944 strcpy(listener->type_specific.socket.addr.addr_un.sun_path, path);
jbe@125 1945 } else if (proto && !strcmp(proto, "tcp")) {
jbe@125 1946 const char *host, *port;
jbe@125 1947 struct addrinfo hints = { 0, };
jbe@125 1948 struct addrinfo *res, *addrinfo;
jbe@125 1949 int errcode;
jbe@125 1950 const char *ip;
jbe@127 1951 dynamic = 1;
jbe@125 1952 lua_getfield(L, 3, "host");
jbe@125 1953 host = lua_isnil(L, -1) ? "::" : lua_tostring(L, -1);
jbe@125 1954 if (!host) {
jbe@125 1955 luaL_error(L, "No host specified; use listen{{proto=\"tcp\", host=...}, ...}");
jbe@125 1956 }
jbe@125 1957 lua_getfield(L, 3, "port");
jbe@125 1958 port = lua_tostring(L, -1);
jbe@125 1959 if (!port) {
jbe@125 1960 luaL_error(L, "No port specified; use listen{{proto=\"tcp\", host=...}, ...}");
jbe@125 1961 }
jbe@125 1962 hints.ai_family = AF_UNSPEC;
jbe@125 1963 hints.ai_socktype = SOCK_STREAM;
jbe@125 1964 hints.ai_protocol = IPPROTO_TCP;
jbe@125 1965 hints.ai_flags = AI_ADDRCONFIG | AI_PASSIVE;
jbe@125 1966 errcode = getaddrinfo(host, port, &hints, &res);
jbe@125 1967 if (errcode) {
jbe@125 1968 freeaddrinfo(res);
jbe@125 1969 if (errcode == EAI_SYSTEM) {
jbe@125 1970 char errmsg[MOONBR_MAXSTRERRORLEN];
jbe@125 1971 strerror_r(errno, errmsg, MOONBR_MAXSTRERRORLEN); /* use thread-safe call in case child created threads */
jbe@125 1972 luaL_error(L, "Could not resolve host: %s: %s", gai_strerror(errcode), errmsg);
jbe@125 1973 } else {
jbe@125 1974 luaL_error(L, "Could not resolve host: %s", gai_strerror(errcode));
jbe@0 1975 }
jbe@0 1976 }
jbe@125 1977 for (addrinfo=res; addrinfo; addrinfo=addrinfo->ai_next) {
jbe@125 1978 if (addrinfo->ai_family == AF_INET6) goto moonbr_listen_init_pool_found;
jbe@125 1979 }
jbe@125 1980 for (addrinfo=res; addrinfo; addrinfo=addrinfo->ai_next) {
jbe@125 1981 if (addrinfo->ai_family == AF_INET) goto moonbr_listen_init_pool_found;
jbe@0 1982 }
jbe@125 1983 addrinfo = res;
jbe@125 1984 moonbr_listen_init_pool_found:
jbe@125 1985 if (addrinfo->ai_addrlen > sizeof(listener->type_specific.socket.addr)) {
jbe@125 1986 moonbr_log(LOG_CRIT, "Size of ai_addrlen is unexpectedly big (should not happen)");
jbe@125 1987 moonbr_terminate_error();
jbe@0 1988 }
jbe@125 1989 memcpy(&listener->type_specific.socket.addr, addrinfo->ai_addr, addrinfo->ai_addrlen);
jbe@125 1990 listener->type_specific.socket.addrlen = addrinfo->ai_addrlen;
jbe@125 1991 switch (addrinfo->ai_family) {
jbe@125 1992 case AF_INET6:
jbe@125 1993 ip = inet_ntop(
jbe@125 1994 addrinfo->ai_family,
jbe@125 1995 &((struct sockaddr_in6 *)addrinfo->ai_addr)->sin6_addr,
jbe@125 1996 listener->proto_specific.tcp.ip,
jbe@125 1997 INET6_ADDRSTRLEN
jbe@125 1998 );
jbe@125 1999 if (!ip) {
jbe@125 2000 moonbr_log(LOG_CRIT, "System error in inet_ntop call: %s", strerror(errno));
jbe@125 2001 moonbr_terminate_error();
jbe@125 2002 }
jbe@125 2003 listener->proto_specific.tcp.port = ntohs(((struct sockaddr_in6 *)addrinfo->ai_addr)->sin6_port);
jbe@125 2004 break;
jbe@125 2005 case AF_INET:
jbe@125 2006 ip = inet_ntop(
jbe@125 2007 addrinfo->ai_family,
jbe@125 2008 &((struct sockaddr_in *)addrinfo->ai_addr)->sin_addr,
jbe@125 2009 listener->proto_specific.tcp.ip,
jbe@125 2010 INET6_ADDRSTRLEN
jbe@125 2011 );
jbe@125 2012 if (!ip) {
jbe@125 2013 moonbr_log(LOG_CRIT, "System error in inet_ntop call: %s", strerror(errno));
jbe@125 2014 moonbr_terminate_error();
jbe@125 2015 }
jbe@125 2016 listener->proto_specific.tcp.port = ntohs(((struct sockaddr_in *)addrinfo->ai_addr)->sin_port);
jbe@125 2017 break;
jbe@125 2018 default:
jbe@125 2019 strcpy(listener->proto_specific.tcp.ip, "unknown");
jbe@125 2020 listener->proto_specific.tcp.port = 0;
jbe@0 2021 }
jbe@125 2022 listener->proto = MOONBR_PROTO_TCP;
jbe@125 2023 } else if (proto) {
jbe@125 2024 luaL_error(L, "Unknown protocol \"%s\"", proto);
jbe@125 2025 } else {
jbe@125 2026 luaL_error(L, "No valid protocol specified; use listen{{proto=..., ...}, ...}");
jbe@0 2027 }
jbe@0 2028 }
jbe@0 2029 lua_settop(L, 2);
jbe@127 2030 if (dynamic) {
jbe@127 2031 moonbr_listen_init_pool_forkoption("pre_fork", pre_fork, 1);
jbe@127 2032 moonbr_listen_init_pool_forkoption("min_fork", min_fork, pool->pre_fork > 2 ? pool->pre_fork : 2);
jbe@127 2033 moonbr_listen_init_pool_forkoption("max_fork", max_fork, pool->min_fork > 16 ? pool->min_fork : 16);
jbe@127 2034 if (!moonbr_listen_init_pool_timeoption("fork_delay", fork_delay, 0, 250000)) {
jbe@127 2035 luaL_error(L, "Option \"fork_delay\" is expected to be a non-negative number");
jbe@127 2036 }
jbe@127 2037 if (!moonbr_listen_init_pool_timeoption("fork_error_delay", fork_error_delay, 2, 0)) {
jbe@127 2038 luaL_error(L, "Option \"fork_error_delay\" is expected to be a non-negative number");
jbe@127 2039 }
jbe@127 2040 if (!moonbr_listen_init_pool_timeoption("exit_delay", exit_delay, 60, 0)) {
jbe@127 2041 luaL_error(L, "Option \"exit_delay\" is expected to be a non-negative number");
jbe@127 2042 }
jbe@127 2043 if (timercmp(&pool->fork_error_delay, &pool->fork_delay, <)) {
jbe@127 2044 pool->fork_error_delay = pool->fork_delay;
jbe@127 2045 }
jbe@127 2046 if (!moonbr_listen_init_pool_timeoption("idle_timeout", idle_timeout, 0, 0)) {
jbe@127 2047 luaL_error(L, "Option \"idle_timeout\" is expected to be a non-negative number");
jbe@127 2048 }
jbe@127 2049 } else {
jbe@127 2050 pool->pre_fork = 0;
jbe@127 2051 pool->min_fork = pool->listener_count;
jbe@127 2052 pool->max_fork = pool->listener_count;
jbe@0 2053 }
jbe@0 2054 lua_getfield(L, 2, "memory_limit");
jbe@0 2055 if (!lua_isnil(L, -1)) {
jbe@0 2056 int isnum;
jbe@0 2057 lua_Number n;
jbe@0 2058 n = lua_tonumberx(L, -1, &isnum);
jbe@0 2059 if (n < 0 || !isnum) {
jbe@0 2060 luaL_error(L, "Option \"memory_limit\" is expected to be a non-negative number");
jbe@0 2061 }
jbe@0 2062 pool->memory_limit = n;
jbe@0 2063 }
jbe@0 2064 lua_settop(L, 2);
jbe@0 2065 lua_getfield(L, 2, "prepare");
jbe@0 2066 if (!lua_isnil(L, -1) && !lua_isfunction(L, -1)) {
jbe@0 2067 luaL_error(L, "Option \"prepare\" must be nil or a function");
jbe@0 2068 }
jbe@0 2069 lua_rawsetp(L, LUA_REGISTRYINDEX, moonbr_luakey_prepare_func(pool));
jbe@0 2070 lua_getfield(L, 2, "connect");
jbe@0 2071 if (!lua_isfunction(L, -1)) {
jbe@0 2072 luaL_error(L, "Option \"connect\" must be a function; use listen{{...}, {...}, connect=function(socket) ... end, ...}");
jbe@0 2073 }
jbe@0 2074 lua_rawsetp(L, LUA_REGISTRYINDEX, moonbr_luakey_connect_func(pool));
jbe@0 2075 lua_getfield(L, 2, "finish");
jbe@0 2076 if (!lua_isnil(L, -1) && !lua_isfunction(L, -1)) {
jbe@0 2077 luaL_error(L, "Option \"finish\" must be nil or a function");
jbe@0 2078 }
jbe@0 2079 lua_rawsetp(L, LUA_REGISTRYINDEX, moonbr_luakey_finish_func(pool));
jbe@0 2080 return 0;
jbe@0 2081 }
jbe@0 2082
jbe@0 2083 static int moonbr_listen(lua_State *L) {
jbe@0 2084 struct moonbr_pool *pool;
jbe@0 2085 lua_Integer listener_count;
jbe@0 2086 if (moonbr_booted) luaL_error(L, "Moonbridge bootup is already complete");
jbe@0 2087 luaL_checktype(L, 1, LUA_TTABLE);
jbe@0 2088 listener_count = luaL_len(L, 1);
jbe@0 2089 if (!listener_count) luaL_error(L, "No listen ports specified; use listen{{proto=..., port=...},...}");
jbe@0 2090 if (listener_count > 100) luaL_error(L, "Too many listeners");
jbe@0 2091 pool = moonbr_create_pool(listener_count);
jbe@0 2092 lua_pushcfunction(L, moonbr_listen_init_pool);
jbe@0 2093 lua_pushlightuserdata(L, pool);
jbe@0 2094 lua_pushvalue(L, 1);
jbe@0 2095 if (lua_pcall(L, 2, 0, 0)) goto moonbr_listen_error;
jbe@0 2096 {
jbe@0 2097 int i;
jbe@0 2098 i = moonbr_start_pool(pool);
jbe@0 2099 if (i >= 0) {
jbe@125 2100 lua_pushfstring(L, "Could not initialize listener #%d: %s", i+1, strerror(errno));
jbe@125 2101 moonbr_listen_error:
jbe@125 2102 moonbr_destroy_pool(pool);
jbe@125 2103 lua_pushnil(L);
jbe@125 2104 lua_rawsetp(L, LUA_REGISTRYINDEX, moonbr_luakey_prepare_func(pool));
jbe@125 2105 lua_pushnil(L);
jbe@125 2106 lua_rawsetp(L, LUA_REGISTRYINDEX, moonbr_luakey_connect_func(pool));
jbe@125 2107 lua_pushnil(L);
jbe@125 2108 lua_rawsetp(L, LUA_REGISTRYINDEX, moonbr_luakey_finish_func(pool));
jbe@125 2109 lua_error(L);
jbe@0 2110 }
jbe@0 2111 }
jbe@0 2112 return 0;
jbe@0 2113 }
jbe@0 2114
jbe@0 2115
jbe@9 2116 /*** Function to modify Lua's library path and/or cpath ***/
jbe@9 2117
jbe@9 2118 #if defined(MOONBR_LUA_PATH) || defined(MOONBR_LUA_CPATH)
jbe@9 2119 static void moonbr_modify_path(lua_State *L, char *key, char *value) {
jbe@9 2120 int stackbase;
jbe@9 2121 stackbase = lua_gettop(L);
jbe@9 2122 lua_getglobal(L, "package");
jbe@9 2123 lua_getfield(L, stackbase+1, key);
jbe@9 2124 {
jbe@9 2125 const char *current_str;
jbe@9 2126 size_t current_strlen;
jbe@9 2127 luaL_Buffer buf;
jbe@9 2128 current_str = lua_tolstring(L, stackbase+2, &current_strlen);
jbe@9 2129 luaL_buffinit(L, &buf);
jbe@9 2130 if (current_str) {
jbe@9 2131 lua_pushvalue(L, stackbase+2);
jbe@9 2132 luaL_addvalue(&buf);
jbe@9 2133 if (current_strlen && current_str[current_strlen-1] != ';') {
jbe@9 2134 luaL_addchar(&buf, ';');
jbe@9 2135 }
jbe@9 2136 }
jbe@9 2137 luaL_addstring(&buf, value);
jbe@9 2138 luaL_pushresult(&buf);
jbe@9 2139 }
jbe@9 2140 lua_setfield(L, stackbase+1, key);
jbe@9 2141 lua_settop(L, stackbase);
jbe@9 2142 }
jbe@9 2143 #endif
jbe@9 2144
jbe@9 2145
jbe@0 2146 /*** Main function and command line invokation ***/
jbe@0 2147
jbe@0 2148 static void moonbr_usage(int err, const char *cmd) {
jbe@0 2149 FILE *out;
jbe@0 2150 out = err ? stderr : stdout;
jbe@0 2151 if (!cmd) cmd = "moonbridge";
jbe@0 2152 fprintf(out, "Get this help message: %s {-h|--help}\n", cmd);
jbe@0 2153 fprintf(out, "Usage: %s \\\n", cmd);
jbe@0 2154 fprintf(out, " [-b|--background] \\\n");
jbe@0 2155 fprintf(out, " [-d|--debug] \\\n");
jbe@0 2156 fprintf(out, " [-f|--logfacility {DAEMON|USER|0|1|...|7}] \\\n");
jbe@0 2157 fprintf(out, " [-i|--logident <syslog ident> \\\n");
jbe@0 2158 fprintf(out, " [-l|--logfile <logfile>] \\\n");
jbe@0 2159 fprintf(out, " [-p|--pidfile <pidfile>] \\\n");
jbe@0 2160 fprintf(out, " [-s|--stats] \\\n");
jbe@2 2161 fprintf(out, " -- <Lua script> [<cmdline options for Lua script>]\n");
jbe@0 2162 exit(err);
jbe@0 2163 }
jbe@0 2164
jbe@0 2165 #define moonbr_usage_error() moonbr_usage(MOONBR_EXITCODE_CMDLINEERROR, argc ? argv[0] : NULL)
jbe@0 2166
jbe@0 2167 int main(int argc, char **argv) {
jbe@0 2168 {
jbe@0 2169 int daemonize = 0;
jbe@0 2170 int log_facility = LOG_USER;
jbe@0 2171 const char *log_ident = "moonbridge";
jbe@0 2172 const char *log_filename = NULL;
jbe@0 2173 const char *pid_filename = NULL;
jbe@0 2174 int option;
jbe@0 2175 struct option longopts[] = {
jbe@0 2176 { "background", no_argument, NULL, 'b' },
jbe@0 2177 { "debug", no_argument, NULL, 'd' },
jbe@0 2178 { "logfacility", required_argument, NULL, 'f' },
jbe@0 2179 { "help", no_argument, NULL, 'h' },
jbe@0 2180 { "logident", required_argument, NULL, 'i' },
jbe@0 2181 { "logfile", required_argument, NULL, 'l' },
jbe@0 2182 { "pidfile", required_argument, NULL, 'p' },
jbe@0 2183 { "stats", no_argument, NULL, 's' }
jbe@0 2184 };
jbe@0 2185 while ((option = getopt_long(argc, argv, "bdf:hi:l:p:s", longopts, NULL)) != -1) {
jbe@0 2186 switch (option) {
jbe@0 2187 case 'b':
jbe@0 2188 daemonize = 1;
jbe@0 2189 break;
jbe@0 2190 case 'd':
jbe@0 2191 moonbr_debug = 1;
jbe@0 2192 moonbr_stat = 1;
jbe@0 2193 break;
jbe@0 2194 case 'f':
jbe@0 2195 if (!strcmp(optarg, "DAEMON")) {
jbe@0 2196 log_facility = LOG_DAEMON;
jbe@0 2197 } else if (!strcmp(optarg, "USER")) {
jbe@0 2198 log_facility = LOG_USER;
jbe@0 2199 } else if (!strcmp(optarg, "0")) {
jbe@0 2200 log_facility = LOG_LOCAL0;
jbe@0 2201 } else if (!strcmp(optarg, "1")) {
jbe@0 2202 log_facility = LOG_LOCAL1;
jbe@0 2203 } else if (!strcmp(optarg, "2")) {
jbe@0 2204 log_facility = LOG_LOCAL2;
jbe@0 2205 } else if (!strcmp(optarg, "3")) {
jbe@0 2206 log_facility = LOG_LOCAL3;
jbe@0 2207 } else if (!strcmp(optarg, "4")) {
jbe@0 2208 log_facility = LOG_LOCAL4;
jbe@0 2209 } else if (!strcmp(optarg, "5")) {
jbe@0 2210 log_facility = LOG_LOCAL5;
jbe@0 2211 } else if (!strcmp(optarg, "6")) {
jbe@0 2212 log_facility = LOG_LOCAL6;
jbe@0 2213 } else if (!strcmp(optarg, "7")) {
jbe@0 2214 log_facility = LOG_LOCAL7;
jbe@0 2215 } else {
jbe@0 2216 moonbr_usage_error();
jbe@0 2217 }
jbe@0 2218 moonbr_use_syslog = 1;
jbe@0 2219 break;
jbe@0 2220 case 'h':
jbe@0 2221 moonbr_usage(MOONBR_EXITCODE_GRACEFUL, argv[0]);
jbe@0 2222 break;
jbe@0 2223 case 'i':
jbe@0 2224 log_ident = optarg;
jbe@0 2225 moonbr_use_syslog = 1;
jbe@0 2226 break;
jbe@0 2227 case 'l':
jbe@0 2228 log_filename = optarg;
jbe@0 2229 break;
jbe@0 2230 case 'p':
jbe@0 2231 pid_filename = optarg;
jbe@0 2232 break;
jbe@0 2233 case 's':
jbe@0 2234 moonbr_stat = 1;
jbe@0 2235 break;
jbe@0 2236 default:
jbe@0 2237 moonbr_usage_error();
jbe@0 2238 }
jbe@0 2239 }
jbe@2 2240 if (argc - optind < 1) moonbr_usage_error();
jbe@0 2241 if (pid_filename) {
jbe@0 2242 pid_t otherpid;
jbe@0 2243 while ((moonbr_pidfh = pidfile_open(pid_filename, 0644, &otherpid)) == NULL) {
jbe@0 2244 if (errno == EEXIST) {
jbe@0 2245 if (otherpid == -1) {
jbe@0 2246 fprintf(stderr, "PID file \"%s\" is already locked\n", pid_filename);
jbe@0 2247 } else {
jbe@0 2248 fprintf(stderr, "PID file \"%s\" is already locked by process with PID: %i\n", pid_filename, (int)otherpid);
jbe@0 2249 }
jbe@0 2250 exit(MOONBR_EXITCODE_ALREADYRUNNING);
jbe@0 2251 } else if (errno != EINTR) {
jbe@0 2252 fprintf(stderr, "Could not write PID file \"%s\": %s\n", pid_filename, strerror(errno));
jbe@0 2253 exit(MOONBR_EXITCODE_STARTUPERROR);
jbe@0 2254 }
jbe@0 2255 }
jbe@0 2256 }
jbe@0 2257 if (log_filename) {
jbe@0 2258 int logfd;
jbe@0 2259 while (
jbe@0 2260 ( logfd = flopen(
jbe@0 2261 log_filename,
jbe@0 2262 O_WRONLY|O_NONBLOCK|O_CREAT|O_APPEND|O_CLOEXEC,
jbe@0 2263 0640
jbe@0 2264 )
jbe@0 2265 ) < 0
jbe@0 2266 ) {
jbe@0 2267 if (errno == EWOULDBLOCK) {
jbe@0 2268 fprintf(stderr, "Logfile \"%s\" is locked\n", log_filename);
jbe@0 2269 exit(MOONBR_EXITCODE_ALREADYRUNNING);
jbe@0 2270 } else if (errno != EINTR) {
jbe@0 2271 fprintf(stderr, "Could not open logfile \"%s\": %s\n", log_filename, strerror(errno));
jbe@0 2272 exit(MOONBR_EXITCODE_STARTUPERROR);
jbe@0 2273 }
jbe@0 2274 }
jbe@0 2275 moonbr_logfile = fdopen(logfd, "a");
jbe@0 2276 if (!moonbr_logfile) {
jbe@0 2277 fprintf(stderr, "Could not open write stream to logfile \"%s\": %s\n", log_filename, strerror(errno));
jbe@0 2278 exit(MOONBR_EXITCODE_STARTUPERROR);
jbe@0 2279 }
jbe@0 2280 }
jbe@0 2281 if (daemonize == 0 && !moonbr_logfile) moonbr_logfile = stderr;
jbe@0 2282 if (moonbr_logfile) setlinebuf(moonbr_logfile);
jbe@0 2283 else moonbr_use_syslog = 1;
jbe@0 2284 if (moonbr_use_syslog) openlog(log_ident, LOG_NDELAY | LOG_PID, log_facility);
jbe@0 2285 if (daemonize) {
jbe@0 2286 if (daemon(1, 0)) {
jbe@0 2287 moonbr_log(LOG_ERR, "Could not daemonize moonbridge process");
jbe@0 2288 moonbr_terminate_error();
jbe@0 2289 }
jbe@0 2290 }
jbe@0 2291 }
jbe@0 2292 moonbr_log(LOG_NOTICE, "Starting moonbridge server");
jbe@0 2293 if (moonbr_pidfh && pidfile_write(moonbr_pidfh)) {
jbe@0 2294 moonbr_log(LOG_ERR, "Could not write pidfile (after locking)");
jbe@0 2295 }
jbe@0 2296 {
jbe@0 2297 lua_State *L;
jbe@0 2298 L = lua_newstate(moonbr_alloc, NULL);
jbe@0 2299 if (!L) {
jbe@0 2300 moonbr_log(LOG_CRIT, "Could not initialize Lua state");
jbe@0 2301 moonbr_terminate_error();
jbe@0 2302 }
jbe@0 2303 lua_atpanic(L, moonbr_lua_panic);
jbe@58 2304 lua_pushliteral(L, MOONBR_VERSION_STRING);
jbe@58 2305 lua_setglobal(L, "_MOONBRIDGE_VERSION");
jbe@0 2306 luaL_openlibs(L);
jbe@89 2307 luaL_requiref(L, "moonbridge_io", luaopen_moonbridge_io, 1);
jbe@89 2308 lua_pop(L, 1);
jbe@8 2309 #ifdef MOONBR_LUA_PATH
jbe@9 2310 moonbr_modify_path(L, "path", MOONBR_LUA_PATH);
jbe@9 2311 #endif
jbe@9 2312 #ifdef MOONBR_LUA_CPATH
jbe@9 2313 moonbr_modify_path(L, "cpath", MOONBR_LUA_CPATH);
jbe@8 2314 #endif
jbe@0 2315 lua_pushcfunction(L, moonbr_timeout);
jbe@0 2316 lua_setglobal(L, "timeout");
jbe@0 2317 lua_pushcfunction(L, moonbr_listen);
jbe@0 2318 lua_setglobal(L, "listen");
jbe@17 2319 lua_pushcfunction(L, moonbr_addtraceback); /* on stack position 1 */
jbe@2 2320 moonbr_log(LOG_INFO, "Loading \"%s\"", argv[optind]);
jbe@2 2321 if (luaL_loadfile(L, argv[optind])) {
jbe@2 2322 moonbr_log(LOG_ERR, "Error while loading \"%s\": %s", argv[optind], lua_tostring(L, -1));
jbe@2 2323 moonbr_terminate_error();
jbe@2 2324 }
jbe@2 2325 { int i; for (i=optind+1; i<argc; i++) lua_pushstring(L, argv[i]); }
jbe@2 2326 if (lua_pcall(L, argc-(optind+1), 0, 1)) {
jbe@2 2327 moonbr_log(LOG_ERR, "Error while executing \"%s\": %s", argv[optind], lua_tostring(L, -1));
jbe@2 2328 moonbr_terminate_error();
jbe@0 2329 }
jbe@6 2330 if (!moonbr_first_pool) {
jbe@6 2331 moonbr_log(LOG_WARNING, "No listener initialized.");
jbe@6 2332 moonbr_terminate_error();
jbe@6 2333 }
jbe@0 2334 lua_getglobal(L, "listen");
jbe@0 2335 lua_pushcfunction(L, moonbr_listen);
jbe@0 2336 if (lua_compare(L, -2, -1, LUA_OPEQ)) {
jbe@0 2337 lua_pushnil(L);
jbe@0 2338 lua_setglobal(L, "listen");
jbe@0 2339 }
jbe@0 2340 lua_settop(L, 1);
jbe@56 2341 lua_gc(L, LUA_GCCOLLECT, 0); // collect garbage before forking later
jbe@0 2342 moonbr_run(L);
jbe@0 2343 }
jbe@0 2344 return 0;
jbe@0 2345 }
jbe@0 2346

Impressum / About Us