/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ //well, linux or cygwin (windows with posix emulation layer), anyway... #include "quakedef.h" #ifdef MULTITHREAD #include #include /* Thread creation calls */ typedef void *(*pfunction_t)(void *); static pthread_t mainthread; void Sys_ThreadsInit(void) { mainthread = pthread_self(); } qboolean Sys_IsThread(void *thread) { return pthread_equal(pthread_self(), *(pthread_t*)thread); } qboolean Sys_IsMainThread(void) { return Sys_IsThread(&mainthread); } void Sys_ThreadAbort(void) { pthread_exit(NULL); } void *Sys_CreateThread(char *name, int (*func)(void *), void *args, int priority, int stacksize) { pthread_t *thread; pthread_attr_t attr; thread = (pthread_t *)malloc(sizeof(pthread_t)); if (!thread) return NULL; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE); if (stacksize < PTHREAD_STACK_MIN*2) stacksize = PTHREAD_STACK_MIN*2; pthread_attr_setstacksize(&attr, stacksize); if (pthread_create(thread, &attr, (pfunction_t)func, args)) { free(thread); thread = NULL; } pthread_attr_destroy(&attr); return (void *)thread; } void Sys_WaitOnThread(void *thread) { int err; err = pthread_join(*(pthread_t *)thread, NULL); if (err) printf("pthread_join(%p) failed, error %s\n", thread, strerror(err)); free(thread); } /* Mutex calls */ void *Sys_CreateMutex(void) { pthread_mutex_t *mutex = (pthread_mutex_t *)malloc(sizeof(pthread_mutex_t)); if (mutex && !pthread_mutex_init(mutex, NULL)) return mutex; return NULL; } qboolean Sys_TryLockMutex(void *mutex) { return !pthread_mutex_trylock(mutex); } qboolean Sys_LockMutex(void *mutex) { return !pthread_mutex_lock(mutex); } qboolean Sys_UnlockMutex(void *mutex) { return !pthread_mutex_unlock(mutex); } void Sys_DestroyMutex(void *mutex) { pthread_mutex_destroy(mutex); free(mutex); } /* Conditional wait calls */ typedef struct condvar_s { pthread_mutex_t *mutex; pthread_cond_t *cond; } condvar_t; void *Sys_CreateConditional(void) { condvar_t *condv; pthread_mutex_t *mutex; pthread_cond_t *cond; condv = (condvar_t *)malloc(sizeof(condvar_t)); if (!condv) return NULL; mutex = (pthread_mutex_t *)malloc(sizeof(pthread_mutex_t)); if (!mutex) return NULL; cond = (pthread_cond_t *)malloc(sizeof(pthread_cond_t)); if (!cond) return NULL; if (!pthread_mutex_init(mutex, NULL)) { if (!pthread_cond_init(cond, NULL)) { condv->cond = cond; condv->mutex = mutex; return (void *)condv; } else pthread_mutex_destroy(mutex); } free(cond); free(mutex); free(condv); return NULL; } qboolean Sys_LockConditional(void *condv) { return !pthread_mutex_lock(((condvar_t *)condv)->mutex); } qboolean Sys_UnlockConditional(void *condv) { return !pthread_mutex_unlock(((condvar_t *)condv)->mutex); } qboolean Sys_ConditionWait(void *condv) { return !pthread_cond_wait(((condvar_t *)condv)->cond, ((condvar_t *)condv)->mutex); } qboolean Sys_ConditionSignal(void *condv) { return !pthread_cond_signal(((condvar_t *)condv)->cond); } qboolean Sys_ConditionBroadcast(void *condv) { return !pthread_cond_broadcast(((condvar_t *)condv)->cond); } void Sys_DestroyConditional(void *condv) { condvar_t *cv = (condvar_t *)condv; pthread_cond_destroy(cv->cond); pthread_mutex_destroy(cv->mutex); free(cv->cond); free(cv->mutex); free(cv); } #endif void Sys_Sleep (double seconds) { struct timespec ts; ts.tv_sec = (time_t)seconds; seconds -= ts.tv_sec; ts.tv_nsec = seconds * 1000000000.0; nanosleep(&ts, NULL); } #ifdef SUBSERVERS #include #include #include #include #include #define STDIN 0 #define STDOUT 1 #define STDERR 2 typedef struct slaveserver_s { pubsubserver_t pub; int inpipe; int outpipe; pid_t pid; //so we don't end up with zombie processes qbyte inbuffer[2048]; int inbufsize; } linsubserver_t; static void Sys_InstructSlave(pubsubserver_t *ps, sizebuf_t *cmd) { //FIXME: this is blocking. this is bad if the target is also blocking while trying to write to us. //FIXME: merge buffering logic with SSV_InstructMaster, and allow for failure if full linsubserver_t *s = (linsubserver_t*)ps; if (s->outpipe == -1) return; //it already died. cmd->data[0] = cmd->cursize & 0xff; cmd->data[1] = (cmd->cursize>>8) & 0xff; write(s->outpipe, cmd->data, cmd->cursize); } static int Sys_SubServerRead(pubsubserver_t *ps) { linsubserver_t *s = (linsubserver_t*)ps; if (s->inbufsize < sizeof(s->inbuffer) && s->inpipe != -1) { ssize_t avail = read(s->inpipe, s->inbuffer+s->inbufsize, sizeof(s->inbuffer)-s->inbufsize); if (!avail) { //eof close(s->inpipe); close(s->outpipe); Con_Printf("%i:%s has died\n", s->pub.id, s->pub.name); s->inpipe = -1; s->outpipe = -1; waitpid(s->pid, NULL, 0); } else if (avail < 0) { int e = errno; if (e == EAGAIN || e == EWOULDBLOCK) ; else perror("subserver read"); } else s->inbufsize += avail; } if(s->inbufsize >= 2) { unsigned short len = s->inbuffer[0] | (s->inbuffer[1]<<8); if (s->inbufsize >= len && len>=2) { memcpy(net_message.data, s->inbuffer+2, len-2); net_message.cursize = len-2; memmove(s->inbuffer, s->inbuffer+len, s->inbufsize - len); s->inbufsize -= len; MSG_BeginReading (msg_nullnetprim); return 1; } } else if (s->inpipe == -1) return -1; return 0; } #ifdef SQL #include "sv_sql.h" #endif pubsubserver_t *Sys_ForkServer(void) { #ifdef SERVERONLY // extern jmp_buf host_abort; int toslave[2]; int tomaster[2]; linsubserver_t *ctx; pid_t pid; //make sure we're fully synced, so that workers can't mess up Cvar_Set(Cvar_FindVar("worker_count"), "0"); COM_WorkerFullSync(); DL_DeThread(); #ifdef SQL SQL_KillServers(); //FIXME: this is bad... #endif //FIXME: we should probably use posix_atfork for those. pipe(toslave); pipe(tomaster); //make the reads non-blocking. fcntl(toslave[1], F_SETFL, fcntl(toslave[1], F_GETFL, 0)|O_NONBLOCK); fcntl(tomaster[0], F_SETFL, fcntl(tomaster[0], F_GETFL, 0)|O_NONBLOCK); pid = fork(); if (!pid) { //this is the child dup2(toslave[0], STDIN); close(toslave[1]); close(toslave[0]); dup2(tomaster[1], STDOUT); isClusterSlave = true; FS_UnloadPackFiles(); //these handles got wiped. make sure they're all properly wiped before loading new handles. NET_Shutdown(); FS_ReloadPackFiles(); return NULL; //lets hope the caller can cope. //jump out into the main work loop // longjmp(host_abort, 1); // exit(0); //err... } else { //this is the parent close(toslave[0]); close(tomaster[1]); if (pid == -1) { //fork failed. make sure everything is destroyed. close(toslave[1]); close(tomaster[0]); return NULL; } Con_DPrintf("Forked new server node\n"); ctx = Z_Malloc(sizeof(*ctx)); } #else int toslave[2]; int tomaster[2]; char exename[MAX_OSPATH]; posix_spawn_file_actions_t action; linsubserver_t *ctx; char *argv[64]; int argc = 0; argv[argc++] = exename; argv[argc++] = "-clusterslave"; argc += FS_GetManifestArgv(argv+argc, countof(argv)-argc-1); argv[argc++] = NULL; #if 0 strcpy(exename, "/bin/ls"); args[1] = NULL; #elif 0 strcpy(exename, "/tmp/ftedbg/fteqw.sv"); #else memset(exename, 0, sizeof(exename)); //having problems with valgrind being stupid. if (readlink("/proc/self/exe", exename, sizeof(exename)-1) <= 0) return NULL; #endif Con_DPrintf("Execing %s\n", exename); ctx = Z_Malloc(sizeof(*ctx)); pipe(toslave); pipe(tomaster); //make the reads non-blocking. fcntl(toslave[1], F_SETFL, fcntl(toslave[1], F_GETFL, 0)|O_NONBLOCK); fcntl(tomaster[0], F_SETFL, fcntl(tomaster[0], F_GETFL, 0)|O_NONBLOCK); posix_spawn_file_actions_init(&action); posix_spawn_file_actions_addclose(&action, toslave[1]); posix_spawn_file_actions_addclose(&action, tomaster[0]); posix_spawn_file_actions_adddup2(&action, toslave[0], STDIN); posix_spawn_file_actions_adddup2(&action, tomaster[1], STDOUT); // posix_spawn_file_actions_adddup2(&action, tomaster[1], STDERR); posix_spawn_file_actions_addclose(&action, toslave[0]); posix_spawn_file_actions_addclose(&action, tomaster[1]); posix_spawn(&ctx->pid, exename, &action, NULL, argv, NULL); #endif ctx->inpipe = tomaster[0]; close(tomaster[1]); close(toslave[0]); ctx->outpipe = toslave[1]; ctx->pub.funcs.InstructSlave = Sys_InstructSlave; ctx->pub.funcs.SubServerRead = Sys_SubServerRead; return &ctx->pub; } void SSV_InstructMaster(sizebuf_t *cmd) { cmd->data[0] = cmd->cursize & 0xff; cmd->data[1] = (cmd->cursize>>8) & 0xff; write(STDOUT, cmd->data, cmd->cursize); //FIXME: handle partial writes. } void SSV_CheckFromMaster(void) { static char inbuffer[1024]; static int inbufsize; for(;;) { if(inbufsize >= 2) { unsigned short len = inbuffer[0] | (inbuffer[1]<<8); if (inbufsize >= len && len>=2) { memcpy(net_message.data, inbuffer+2, len-2); net_message.cursize = len-2; memmove(inbuffer, inbuffer+len, inbufsize - len); inbufsize -= len; MSG_BeginReading (msg_nullnetprim); SSV_ReadFromControlServer(); continue; //keep trying to handle it } } if (inbufsize == sizeof(inbuffer)) { //fatal: we can't easily recover from this. SV_FinalMessage("Cluster message too large\n"); Cmd_ExecuteString("quit force", RESTRICT_LOCAL); break; } { ssize_t avail = read(STDIN, inbuffer+inbufsize, sizeof(inbuffer)-inbufsize); if (!avail) { //eof SV_FinalMessage("Cluster shut down\n"); Cmd_ExecuteString("quit force", RESTRICT_LOCAL); break; } else if (avail < 0) { int e = errno; if (e == EAGAIN || e == EWOULDBLOCK) ; else perror("master read"); break; } else inbufsize += avail; } } } #endif