#define _GNU_SOURCE #include "resolver.h" #include #include #include #include #include #include #include #include #include #include #define SIG_BREAK SIGUSR1 #ifdef __APPLE__ static const char *sem_name="/tpws_resolver"; #endif TAILQ_HEAD(resolve_tailhead, resolve_item); typedef struct { int fd_signal_pipe; sem_t *sem; #ifndef __APPLE__ sem_t _sem; #endif struct resolve_tailhead resolve_list; pthread_mutex_t resolve_list_lock; int threads; pthread_t *thread; bool bInit, bStop; } t_resolver; static t_resolver resolver = { .bInit = false }; #define rlist_lock pthread_mutex_lock(&resolver.resolve_list_lock) #define rlist_unlock pthread_mutex_unlock(&resolver.resolve_list_lock) static void resolver_clear_list(void) { struct resolve_item *ri; for (;;) { ri = TAILQ_FIRST(&resolver.resolve_list); if (!ri) break; TAILQ_REMOVE(&resolver.resolve_list, ri, next); free(ri); } } int resolver_thread_count(void) { return resolver.bInit ? resolver.threads : 0; } static void *resolver_thread(void *arg) { int r; sigset_t signal_mask; sigemptyset(&signal_mask); sigaddset(&signal_mask, SIG_BREAK); //printf("resolver_thread %d start\n",syscall(SYS_gettid)); for(;;) { if (resolver.bStop) break; r = sem_wait(resolver.sem); if (resolver.bStop) break; if (r) { if (errno!=EINTR) { perror("sem_wait (resolver_thread)"); break; // fatal err } } else { struct resolve_item *ri; ssize_t wr; rlist_lock; ri = TAILQ_FIRST(&resolver.resolve_list); if (ri) TAILQ_REMOVE(&resolver.resolve_list, ri, next); rlist_unlock; if (ri) { struct addrinfo *ai,hints; char sport[6]; //printf("THREAD %d GOT JOB %s\n", syscall(SYS_gettid), ri->dom); snprintf(sport,sizeof(sport),"%u",ri->port); memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_socktype = SOCK_STREAM; // unfortunately getaddrinfo cannot be interrupted with a signal. we cannot cancel a query ri->ga_res = getaddrinfo(ri->dom,sport,&hints,&ai); if (!ri->ga_res) { memcpy(&ri->ss, ai->ai_addr, ai->ai_addrlen); freeaddrinfo(ai); } //printf("THREAD %d END JOB %s FIRST=%p\n", syscall(SYS_gettid), ri->dom, TAILQ_FIRST(&resolver.resolve_list)); // never interrupt this pthread_sigmask(SIG_BLOCK, &signal_mask, NULL); wr = write(resolver.fd_signal_pipe,&ri,sizeof(void*)); if (wr<0) { free(ri); perror("write resolve_pipe"); } else if (wr!=sizeof(void*)) { // partial pointer write is FATAL. in any case it will cause pointer corruption and coredump free(ri); fprintf(stderr,"write resolve_pipe : not full write\n"); exit(1000); } pthread_sigmask(SIG_UNBLOCK, &signal_mask, NULL); } } } //printf("resolver_thread %d exit\n",syscall(SYS_gettid)); return NULL; } static void sigbreak(int sig) { } bool resolver_init(int threads, int fd_signal_pipe) { int t; struct sigaction action; if (threads<1 || resolver.bInit) return false; memset(&resolver,0,sizeof(resolver)); resolver.bInit = true; #ifdef __APPLE__ // MacOS does not support unnamed semaphores char sn[64]; snprintf(sn,sizeof(sn),"%s_%d",sem_name,getpid()); resolver.sem = sem_open(sn,O_CREAT,0600,0); if (resolver.sem==SEM_FAILED) { perror("sem_open"); return false; } // unlink immediately to remove tails sem_unlink(sn); #else if (sem_init(&resolver._sem,0,0)==-1) { perror("sem_init"); return false; } resolver.sem = &resolver._sem; #endif if (pthread_mutex_init(&resolver.resolve_list_lock, NULL)) return false; resolver.bStop = false; resolver.fd_signal_pipe = fd_signal_pipe; TAILQ_INIT(&resolver.resolve_list); // start as many threads as we can up to specified number resolver.thread = malloc(sizeof(pthread_t)*threads); if (!resolver.thread) goto ex1; memset(&action,0,sizeof(action)); action.sa_handler = sigbreak; sigaction(SIG_BREAK, &action, NULL); for(t=0, resolver.threads=threads ; tdom,dom,sizeof(ri->dom)); ri->dom[sizeof(ri->dom)-1] = 0; ri->port = port; ri->ptr = ptr; rlist_lock; TAILQ_INSERT_TAIL(&resolver.resolve_list, ri, next); rlist_unlock; if (sem_post(resolver.sem)<0) { perror("resolver_queue sem_post"); free(ri); return NULL; } return ri; }