#include "lib_acl.h" #include #include #include typedef struct { ACL_SOCKET fd; int i; } IPC_CTX; typedef struct { ACL_AIO *aio; ACL_MSGIO *mio; ACL_VSTREAM *stream; int n; int stop; acl_pthread_t tid; } IPC; typedef struct { IPC *ipc; ACL_MSGIO *local_mio; ACL_VSTREAM *local_stream; } IPC_CLIENT; #define MSG_IPC_ACCEPT 100 #define MSG_IPC_STOP 101 #if 0 #define USE_IPC_SYNC #endif static ACL_MSGIO *__ipc_listener = NULL; static IPC_CLIENT *__ipc_clients = NULL; static ACL_AIO *__aio_listener = NULL; static char __ipc_addr[256]; static int msg_ipc_stop(int msg_type acl_unused, ACL_MSGIO *mio acl_unused, const ACL_MSGIO_INFO *info acl_unused, void *arg) { IPC *ipc = (IPC*) arg; ipc->stop = 1; printf("close now(%s)\n", acl_last_serror()); return (0); } static int msg_ipc_accept(int msg_type acl_unused, ACL_MSGIO *mio acl_unused, const ACL_MSGIO_INFO *info, void *arg) { IPC *ipc = (IPC*) arg; IPC_CTX ctx; memcpy(&ctx, acl_vstring_str(info->body.buf), ACL_VSTRING_LEN(info->body.buf)); if (ipc->n % 10000 == 0) printf("tid: %ld, fd: %d\n", (long) acl_pthread_self(), ctx.fd); ipc->n++; return (0); } #ifdef USE_IPC_SYNC static int service_sync_loop_read(ACL_MSGIO *mio) { ACL_VSTREAM *vstream = acl_msgio_vstream(mio); int i = 0; acl_non_blocking(ACL_VSTREAM_SOCK(vstream), ACL_BLOCKING); while (1) { char buf[256]; int ret = acl_vstream_read(vstream, buf, sizeof(buf)); if (ret == ACL_VSTREAM_EOF) { printf("tid: %ld, read error(%s)\n", acl_pthread_self(), acl_last_serror()); return (0); } if (0 && i++ % 10000 == 0) printf("tid: %ld, i: %d\n", acl_pthread_self(), i); } return (i); } #endif static void *service_thread(void *arg) { IPC *ipc = (IPC*) arg; ACL_MSGIO *mio = ipc->mio; ACL_AIO *aio = acl_msgio_aio(mio); acl_tcp_set_rcvbuf(ACL_VSTREAM_SOCK(acl_msgio_vstream(mio)), 1024000); #ifdef USE_IPC_SYNC service_sync_loop_read(mio); return (NULL); #endif /* 进入事件循环 */ while (1) { acl_aio_loop(aio); if (ipc->stop) { printf("tid: %ld, stop now, n: %d\n", (long) acl_pthread_self(), ipc->n); break; } } return (NULL); } static void init(int nthread) { acl_pthread_attr_t attr; int i; acl_init(); __ipc_clients = (IPC_CLIENT*) acl_mycalloc(nthread, sizeof(IPC_CLIENT)); acl_pthread_attr_init(&attr); acl_pthread_attr_setdetachstate(&attr, 0); __aio_listener = acl_aio_create(ACL_EVENT_SELECT); __ipc_listener = acl_msgio_listen(__aio_listener, NULL); assert(__ipc_listener); acl_msgio_addr(__ipc_listener, __ipc_addr, sizeof(__ipc_addr)); printf("listening on: %s\n", __ipc_addr); for (i = 0; i < nthread; i++) { __ipc_clients[i].ipc = (IPC*) acl_mycalloc(1, sizeof(IPC)); __ipc_clients[i].ipc->aio = acl_aio_create(ACL_EVENT_SELECT); __ipc_clients[i].ipc->mio = acl_msgio_connect(__ipc_clients[i].ipc->aio, __ipc_addr, 0); /* acl_msgio_set_noblock(__ipc_clients[i].ipc->aio, __ipc_clients[i].ipc->mio); */ acl_msgio_reg(__ipc_clients[i].ipc->mio, MSG_IPC_ACCEPT, msg_ipc_accept, __ipc_clients[i].ipc); acl_msgio_reg(__ipc_clients[i].ipc->mio, MSG_IPC_STOP, msg_ipc_stop, __ipc_clients[i].ipc); acl_msgio_reg(__ipc_clients[i].ipc->mio, ACL_MSGIO_EXCEPT, msg_ipc_stop, __ipc_clients[i].ipc); acl_pthread_create(&__ipc_clients[i].ipc->tid, &attr, service_thread, __ipc_clients[i].ipc); __ipc_clients[i].local_mio = acl_msgio_accept(__ipc_listener); assert(__ipc_clients[i].local_mio); __ipc_clients[i].local_stream = acl_msgio_vstream(__ipc_clients[i].local_mio); acl_non_blocking(ACL_VSTREAM_SOCK(__ipc_clients[i].local_stream), ACL_NON_BLOCKING); acl_tcp_set_sndbuf(ACL_VSTREAM_SOCK(__ipc_clients[i].local_stream), 1024000); acl_tcp_set_nodelay(ACL_VSTREAM_SOCK(__ipc_clients[i].local_stream)); } } static void run(int nthread, int nloop) { int i, ret; IPC_CTX ctx; time_t begin = time(NULL); for (i = 0; i < nloop; i++) { memset(&ctx, 0, sizeof(ctx)); ctx.fd = i; #ifdef USE_IPC_SYNC acl_vstream_write(__ipc_clients[i % nthread].local_stream, &ctx, sizeof(IPC_CTX)); #else ret = acl_msgio_send(__ipc_clients[i % nthread].local_mio, MSG_IPC_ACCEPT, &ctx, sizeof(IPC_CTX)); if (ret < 0) break; #endif if (i % 10000 == 0) printf("run(tid=%ld): i=%d\n", (long) acl_pthread_self(), i); } for (i = 0; i < nthread; i++) { memset(&ctx, 0, sizeof(ctx)); ctx.fd = -1; acl_msgio_send(__ipc_clients[i].local_mio, MSG_IPC_STOP, &ctx, sizeof(IPC_CTX)); } for (i = 0; i < nthread; i++) acl_pthread_join(__ipc_clients[i].ipc->tid, NULL); for (i = 0; i < nthread; i++) acl_msgio_close(__ipc_clients[i].local_mio); acl_myfree(__ipc_clients); printf(">>>time cost: %ld\n", time(NULL) - begin); } static void usage(const char *procname) { printf("usage: %s -h [help] -c nthreads -n nloop\n", procname); } int main(int argc, char *argv[]) { int nthread = 2, nloop = 1000000, ch; acl_msg_stdout_enable(1); while ((ch = getopt(argc, argv, "hc:n:")) > 0) { switch (ch) { case 'h': usage(argv[0]); return (0); case 'n': nloop = atoi(optarg); break; case 'c': nthread = atoi(optarg); break; default: break; } } if (nthread <= 0) nthread = 2; if (nloop <= 0) nloop = 1000; init(nthread); run(nthread, nloop); return (0); }