#include #include #include #include #include #include #include #include #include #include #include #include #define MAX_NUM_THRS 256 static int g_num_thrs = 2; static hio_svc_htts_t* g_htts[MAX_NUM_THRS]; static int g_htts_no = 0; static pthread_mutex_t g_htts_mutex = PTHREAD_MUTEX_INITIALIZER; static int g_dev_type4 = HIO_DEV_SCK_TCP4; static int g_dev_type6 = HIO_DEV_SCK_TCP6; static int print_qparam (hio_bcs_t* key, hio_bcs_t* val, void* ctx) { key->len = hio_perdec_http_bcs(key, key->ptr, HIO_NULL); val->len = hio_perdec_http_bcs(val, val->ptr, HIO_NULL); fprintf ((FILE*)ctx, "\t[%.*s] = [%.*s]\n", (int)key->len, key->ptr, (int)val->len, val->ptr); return 0; } static void on_htts_thr_request (hio_svc_htts_t* htts, hio_dev_thr_iopair_t* iop, hio_svc_htts_thr_func_info_t* tfi, void* ctx) { FILE* fp; int i; if (tfi->req_method != HIO_HTTP_GET) { write (iop->wfd, "Status: 405\r\n\r\n", 15); /* method not allowed */ return; } fp = fdopen(iop->wfd, "w"); if (!fp) { write (iop->wfd, "Status: 500\r\n\r\n", 15); /* internal server error */ return; } fprintf (fp, "Status: %d\r\n", HIO_HTTP_STATUS_OK); fprintf (fp, "Content-Type: text/html\r\n\r\n"); fprintf (fp, "request path = %s\n", tfi->req_path); if (tfi->req_param) { fprintf (fp, "request params:\n"); hio_scan_http_qparam (tfi->req_param, print_qparam, fp); } for (i = 0; i < 100; i++) fprintf (fp, "%d * %d => %d\n", i, i, i * i); /* invalid iop->wfd to mark that this function closed this file descriptor. * no invalidation will lead to double closes on the same file descriptor. */ iop->wfd = HIO_SYSHND_INVALID; fclose (fp); } static void on_htts_thr2_request (hio_svc_htts_t* htts, hio_dev_thr_iopair_t* iop, hio_svc_htts_thr_func_info_t* tfi, void* ctx) { FILE* fp, * sf; if (tfi->req_method != HIO_HTTP_GET) { write (iop->wfd, "Status: 405\r\n\r\n", 15); /* method not allowed */ return; } fp = fdopen(iop->wfd, "w"); if (!fp) { write (iop->wfd, "Status: 500\r\n\r\n", 15); /* internal server error */ return; } sf = fopen(&tfi->req_path[5], "r"); if (!sf) { fprintf (fp, "Status: %d\r\n\r\n", HIO_HTTP_STATUS_NOT_FOUND); } else { char buf[4096]; fprintf (fp, "Status: %d\r\n", HIO_HTTP_STATUS_OK); fprintf (fp, "Content-Type: text/html\r\n\r\n"); /* echo back the posted data */ while (1) { ssize_t n = read(iop->rfd, buf, sizeof(buf)); if (n <= 0) break; fwrite (buf, 1, n, fp); } /* output the file contents */ while (!feof(sf) && !ferror(sf)) { size_t n; n = fread(buf, 1, sizeof(buf), sf); if (n > 0) fwrite (buf, 1, n, fp); } fclose (sf); } /* invalid iop->wfd to mark that this function closed this file descriptor. * no invalidation will lead to double closes on the same file descriptor. * the hio library attempt to close it if it's not INVALID after this handler. */ iop->wfd = HIO_SYSHND_INVALID; fclose (fp); } /* ========================================================================= */ int process_http_request (hio_svc_htts_t* htts, hio_dev_sck_t* csck, hio_htre_t* req) { hio_t* hio = hio_svc_htts_gethio(htts); // hio_svc_htts_cli_t* cli = hio_dev_sck_getxtn(csck); // hio_http_method_t mth; /* percent-decode the query path to the original buffer * since i'm not going to need it in the original form * any more. once it's decoded in the peek mode, * the decoded query path is made available in the * non-peek mode as well */ HIO_DEBUG2 (hio, "[RAW-REQ] %s %s\n", hio_htre_getqmethodname(req), hio_htre_getqpath(req)); hio_htre_perdecqpath(req); /* TODO: proper request logging */ HIO_DEBUG2 (hio, "[REQ] %s %s\n", hio_htre_getqmethodname(req), hio_htre_getqpath(req)); #if 0 hio_printf (HIO_T("================================\n")); hio_printf (HIO_T("[%lu] %hs REQUEST ==> [%hs] version[%d.%d %hs] method[%hs]\n"), (unsigned long)time(NULL), (peek? HIO_MT("PEEK"): HIO_MT("HANDLE")), hio_htre_getqpath(req), hio_htre_getmajorversion(req), hio_htre_getminorversion(req), hio_htre_getverstr(req), hio_htre_getqmethodname(req) ); if (hio_htre_getqparam(req)) hio_printf (HIO_T("PARAMS ==> [%hs]\n"), hio_htre_getqparam(req)); hio_htb_walk (&req->hdrtab, walk, HIO_NULL); if (hio_htre_getcontentlen(req) > 0) { hio_printf (HIO_T("CONTENT [%.*S]\n"), (int)hio_htre_getcontentlen(req), hio_htre_getcontentptr(req)); } #endif // mth = hio_htre_getqmethodtype(req); /* determine what to do once the header fields are all received. * i don't want to delay this until the contents are received. * if you don't like this behavior, you must implement your own * callback function for request handling. */ #if 0 /* TODO support X-HTTP-Method-Override */ if (data.method == HIO_HTTP_POST) { tmp = hio_htre_getheaderval(req, HIO_MT("X-HTTP-Method-Override")); if (tmp) { /*while (tmp->next) tmp = tmp->next;*/ /* get the last value */ data.method = hio_mbstohttpmethod (tmp->ptr); } } #endif #if 0 if (mth == HIO_HTTP_CONNECT) { /* CONNECT method must not have content set. * however, arrange to discard it if so. * * NOTE: CONNECT is implemented to ignore many headers like * 'Expect: 100-continue' and 'Connection: keep-alive'. */ hio_htre_discardcontent (req); } else { /* this part can be checked in actual hio_svc_htts_doXXX() functions. * some doXXX handlers may not require length for POST. * it may be able to simply accept till EOF? or treat as if CONTENT_LENGTH is 0*/ if (mth == HIO_HTTP_POST && !(req->flags & (HIO_HTRE_ATTR_LENGTH | HIO_HTRE_ATTR_CHUNKED))) { /* POST without Content-Length nor not chunked */ hio_htre_discardcontent (req); /* 411 Length Required - can't keep alive. Force disconnect */ req->flags &= ~HIO_HTRE_ATTR_KEEPALIVE; /* to cause sendstatus() to close */ if (hio_svc_htts_sendstatus(htts, csck, req, HIO_HTTP_STATUS_LENGTH_REQUIRED, HIO_NULL) <= -1) goto oops; } else #endif { const hio_bch_t* qpath = hio_htre_getqpath(req); int x; if (hio_comp_bcstr_limited(qpath, "/thr/", 5, 1) == 0) x = hio_svc_htts_dothr(htts, csck, req, on_htts_thr_request, HIO_NULL, 0, HIO_NULL); else if (hio_comp_bcstr_limited(qpath, "/thr2/", 6, 1) == 0) x = hio_svc_htts_dothr(htts, csck, req, on_htts_thr2_request, HIO_NULL, 0, HIO_NULL); else if (hio_comp_bcstr_limited(qpath, "/txt/", 5, 1) == 0) x = hio_svc_htts_dotxt(htts, csck, req, HIO_HTTP_STATUS_OK, "text/plain", qpath, 0, HIO_NULL); else if (hio_comp_bcstr_limited(qpath, "/cgi/", 5, 1) == 0) x = hio_svc_htts_docgi(htts, csck, req, "", qpath + 4, 0, HIO_NULL); else if (hio_comp_bcstr_limited(qpath, "/fcgi/", 5, 1) == 0) { hio_skad_t fcgis_addr; hio_bcstrtoskad(hio, "127.0.0.1:9000", &fcgis_addr); x = hio_svc_htts_dofcgi(htts, csck, req, &fcgis_addr, "", qpath + 5, 0, HIO_NULL); } else x = hio_svc_htts_dofile(htts, csck, req, "", qpath, "text/plain", 0, HIO_NULL, HIO_NULL); if (x <= -1) goto oops; } #if 0 } #endif return 0; oops: hio_dev_sck_halt (csck); return -1; } void* thr_func (void* arg) { hio_t* hio = HIO_NULL; hio_svc_htts_t* htts = HIO_NULL; hio_dev_sck_bind_t htts_bind_info[2]; int htts_no = -1; hio = hio_open(HIO_NULL, 0, HIO_NULL, HIO_FEATURE_ALL, 512, HIO_NULL); if (!hio) { printf ("Cannot open hio\n"); goto oops; } hio_setoption (hio, HIO_LOG_TARGET_BCSTR, "/dev/stderr"); memset (&htts_bind_info, 0, HIO_SIZEOF(htts_bind_info)); hio_skad_init_for_qx (&htts_bind_info[0].localaddr); /* QX socket device */ hio_bcstrtoskad (hio, "0.0.0.0:9988", &htts_bind_info[1].localaddr); htts_bind_info[1].options = HIO_DEV_SCK_BIND_REUSEADDR | HIO_DEV_SCK_BIND_REUSEPORT | HIO_DEV_SCK_BIND_IGNERR; #if 0 htts_bind_info[1].options |= HIO_DEV_SCK_BIND_SSL; htts_bind_info[1].ssl_certfile = "localhost.crt"; htts_bind_info[1].ssl_keyfile = "localhost.key"; #endif htts = hio_svc_htts_start(hio, 0, htts_bind_info, HIO_COUNTOF(htts_bind_info), process_http_request, HIO_NULL); if (!htts) { printf ("Unable to start htts\n"); goto oops; } pthread_mutex_lock (&g_htts_mutex); htts_no = g_htts_no; g_htts[htts_no] = htts; g_htts_no = (g_htts_no + 1) % g_num_thrs; pthread_mutex_unlock (&g_htts_mutex); hio_loop (hio); oops: pthread_mutex_lock (&g_htts_mutex); if (htts) { hio_svc_htts_stop (htts); g_htts[htts_no] = HIO_NULL; } pthread_mutex_unlock (&g_htts_mutex); if (hio) hio_close (hio); pthread_exit (HIO_NULL); return HIO_NULL; } /* ========================================================================= */ static void tcp_sck_on_disconnect (hio_dev_sck_t* tcp) { switch (HIO_DEV_SCK_GET_PROGRESS(tcp)) { case HIO_DEV_SCK_CONNECTING: HIO_INFO1 (tcp->hio, "OUTGOING SESSION DISCONNECTED - FAILED TO CONNECT (%d) TO REMOTE SERVER\n", (int)tcp->hnd); break; case HIO_DEV_SCK_CONNECTING_SSL: HIO_INFO1 (tcp->hio, "OUTGOING SESSION DISCONNECTED - FAILED TO SSL-CONNECT (%d) TO REMOTE SERVER\n", (int)tcp->hnd); break; case HIO_DEV_SCK_LISTENING: HIO_INFO1 (tcp->hio, "SHUTTING DOWN THE SERVER SOCKET(%d)...\n", (int)tcp->hnd); break; case HIO_DEV_SCK_CONNECTED: HIO_INFO1 (tcp->hio, "OUTGOING CLIENT CONNECTION GOT TORN DOWN(%d).......\n", (int)tcp->hnd); break; case HIO_DEV_SCK_ACCEPTING_SSL: HIO_INFO1 (tcp->hio, "INCOMING SSL-ACCEPT GOT DISCONNECTED(%d) ....\n", (int)tcp->hnd); break; case HIO_DEV_SCK_ACCEPTED: HIO_INFO1 (tcp->hio, "INCOMING CLIENT BEING SERVED GOT DISCONNECTED(%d).......\n", (int)tcp->hnd); break; default: HIO_INFO2 (tcp->hio, "SOCKET DEVICE DISCONNECTED (%d - %x)\n", (int)tcp->hnd, (unsigned int)tcp->state); break; } } static void tcp_sck_on_connect (hio_dev_sck_t* tcp) { hio_bch_t buf1[128], buf2[128]; hio_skadtobcstr (tcp->hio, &tcp->localaddr, buf1, HIO_COUNTOF(buf1), HIO_SKAD_TO_BCSTR_ADDR | HIO_SKAD_TO_BCSTR_PORT); hio_skadtobcstr (tcp->hio, &tcp->remoteaddr, buf2, HIO_COUNTOF(buf2), HIO_SKAD_TO_BCSTR_ADDR | HIO_SKAD_TO_BCSTR_PORT); if (tcp->state & HIO_DEV_SCK_CONNECTED) { HIO_INFO3 (tcp->hio, "DEVICE connected to a remote server... LOCAL %hs REMOTE %hs SCK: %d\n", buf1, buf2, tcp->hnd); } else if (tcp->state & HIO_DEV_SCK_ACCEPTED) { /* TODO: pass it to distributor??? */ /* THIS PART WON'T BE CALLED FOR tcp_sck_on_raw_accept.. */ } } static hio_tmridx_t xx_tmridx; static int try_to_accept (hio_dev_sck_t* sck, hio_dev_sck_qxmsg_t* qxmsg, int in_mq); typedef struct xx_mq_t xx_mq_t; struct xx_mq_t { xx_mq_t* q_next; xx_mq_t* q_prev; hio_dev_sck_qxmsg_t msg; }; #define XX_MQ_INIT(mq) ((mq)->q_next = (mq)->q_prev = (mq)) #define XX_MQ_TAIL(mq) ((mq)->q_prev) #define XX_MQ_HEAD(mq) ((mq)->q_next) #define XX_MQ_IS_EMPTY(mq) (XX_MQ_HEAD(mq) == (mq)) #define XX_MQ_IS_NODE(mq,x) ((mq) != (x)) #define XX_MQ_IS_HEAD(mq,x) (XX_MQ_HEAD(mq) == (x)) #define XX_MQ_IS_TAIL(mq,x) (XX_MQ_TAIL(mq) == (x)) #define XX_MQ_NEXT(x) ((x)->q_next) #define XX_MQ_PREV(x) ((x)->q_prev) #define XX_MQ_LINK(p,x,n) HIO_Q_LINK((hio_q_t*)p,(hio_q_t*)x,(hio_q_t*)n) #define XX_MQ_UNLINK(x) HIO_Q_UNLINK((hio_q_t*)x) #define XX_MQ_REPL(o,n) HIO_Q_REPL(o,n); #define XX_MQ_ENQ(mq,x) XX_MQ_LINK(XX_MQ_TAIL(mq), (hio_q_t*)x, mq) #define XX_MQ_DEQ(mq) XX_MQ_UNLINK(XX_MQ_HEAD(mq)) static xx_mq_t xx_mq; static void enable_accept (hio_t* hio, const hio_ntime_t* now, hio_tmrjob_t* job) { hio_dev_sck_t* rdev = (hio_dev_sck_t*)job->ctx; while (!XX_MQ_IS_EMPTY(&xx_mq)) { xx_mq_t* mq; mq = XX_MQ_HEAD(&xx_mq); if (try_to_accept(rdev, &mq->msg, 1) == 0) return; /* EAGAIN situation */ XX_MQ_UNLINK (mq); hio_freemem (hio, mq); } assert (XX_MQ_IS_EMPTY(&xx_mq)); if (hio_dev_sck_read(rdev, 1) <= -1) // it's a disaster if this fails. the acceptor will get stalled if it happens { printf ("DISASTER.... UNABLE TO ENABLE READ ON ACCEPTOR\n"); } } static int try_to_accept (hio_dev_sck_t* sck, hio_dev_sck_qxmsg_t* qxmsg, int in_mq) { hio_t* hio = sck->hio; hio_svc_htts_t* htts; pthread_mutex_lock (&g_htts_mutex); htts = g_htts[g_htts_no]; g_htts_no = (g_htts_no + 1) % g_num_thrs; pthread_mutex_unlock (&g_htts_mutex); /* 0: index to the QX socket device (see the the first binding address to hi_svc_htts_start) */ if (hio_svc_htts_writetosidechan(htts, 0, qxmsg, HIO_SIZEOF(*qxmsg)) <= -1) { hio_bch_t buf[128]; if (errno == EAGAIN) { //printf ("sidechannel retrying %s\n", strerror(errno)); if (hio_dev_sck_read(sck, 0) <= -1) goto sidechan_write_error; if (!in_mq) { xx_mq_t* mq; mq = hio_allocmem(hio, HIO_SIZEOF(*mq)); if (HIO_UNLIKELY(!mq)) goto sidechan_write_error; mq->msg = *qxmsg; XX_MQ_ENQ (&xx_mq, mq); } if (xx_tmridx == HIO_TMRIDX_INVALID) hio_schedtmrjobat (hio, HIO_NULL, enable_accept, &xx_tmridx, sck); return 0; /* enqueued for later writing */ } else { const char* msg; sidechan_write_error: //printf ("sidechannel write error errno=%d strerror=%s\n", errno, strerror(errno)); hio_skadtobcstr (hio, &qxmsg->remoteaddr, buf, HIO_COUNTOF(buf), HIO_SKAD_TO_BCSTR_ADDR | HIO_SKAD_TO_BCSTR_PORT); HIO_INFO2 (hio, "unable to handle the accepted connection %ld from %hs\n", (long int)qxmsg->syshnd, buf); msg = "HTTP/1.0 503 Service unavailable\r\nConnection: close\r\nContent-Length: 0\r\n\r\n"; write (qxmsg->syshnd, msg, strlen(msg)); printf ("close %d\n", qxmsg->syshnd); close (qxmsg->syshnd); return -1; /* failed to accept */ } } /************************************ { static int sc = 0; printf ("sc => %d\n", sc++); } ************************************/ return 1; /* full success */ } static void tcp_sck_on_raw_accept (hio_dev_sck_t* sck, hio_syshnd_t syshnd, hio_skad_t* remoteaddr) { /*hio_t* hio = sck->hio;*/ /* inform the worker of this accepted syshnd */ hio_dev_sck_qxmsg_t qxmsg; memset (&qxmsg, 0, HIO_SIZEOF(qxmsg)); qxmsg.cmd = HIO_DEV_SCK_QXMSG_NEWCONN; qxmsg.scktype = sck->type; qxmsg.syshnd = syshnd; qxmsg.remoteaddr = *remoteaddr; try_to_accept (sck, &qxmsg, 0); } static int tcp_sck_on_write (hio_dev_sck_t* sck, hio_iolen_t wrlen, void* wrctx, const hio_skad_t* dstaddr) { /* won't be invoked if tcp. * invokde if sctp_sp */ //printf ("wrote back chan %d\n", hio_skad_chan(dstaddr)); return 0; } static int tcp_sck_on_read (hio_dev_sck_t* sck, const void* buf, hio_iolen_t len, const hio_skad_t* srcaddr) { /* won't be invoked * invokde if sctp_sp */ #if 0 hio_iovec_t iov; /* the code here is invoked on a seqpacket socket. .. this part not ready. will rewrite if the core support is done */ printf ("[%.*s] chan %d\n", (int)len, buf, hio_skad_chan(srcaddr)); iov.iov_ptr = buf; iov.iov_len = len; hio_skad_set_scope_id (srcaddr, 3); hio_dev_sck_writev (sck, &iov, 1, HIO_NULL, srcaddr); #endif return 0; } static int add_listener (hio_t* hio, hio_bch_t* addrstr) { hio_dev_sck_make_t mi; hio_dev_sck_t* tcp; hio_dev_sck_bind_t bi; hio_dev_sck_listen_t li; int f; memset (&bi, 0, HIO_SIZEOF(bi)); if (hio_bcstrtoskad(hio, addrstr, &bi.localaddr) <= -1) { HIO_INFO1 (hio, "invalid listening address - %hs\n", addrstr); return -1; } bi.options = HIO_DEV_SCK_BIND_REUSEADDR /*| HIO_DEV_SCK_BIND_REUSEPORT |*/; bi.options |= HIO_DEV_SCK_BIND_IGNERR; #if defined(USE_SSL) bi.options |= HIO_DEV_SCK_BIND_SSL; bi.ssl_certfile = "localhost.crt"; bi.ssl_keyfile = "localhost.key"; #endif memset (&mi, 0, HIO_SIZEOF(mi)); f = hio_skad_get_family(&bi.localaddr); if (f == HIO_AF_INET) mi.type = g_dev_type4; else if (f == HIO_AF_INET6) mi.type = g_dev_type6; else if (f == HIO_AF_UNIX) mi.type = HIO_DEV_SCK_UNIX; else { HIO_INFO1 (hio, "unsupported address type - %hs\n", addrstr); return -1; } mi.options = HIO_DEV_SCK_MAKE_LENIENT; mi.on_write = tcp_sck_on_write; mi.on_read = tcp_sck_on_read; mi.on_connect = tcp_sck_on_connect; /* this is invoked on a client accept as well */ mi.on_disconnect = tcp_sck_on_disconnect; mi.on_raw_accept = tcp_sck_on_raw_accept; tcp = hio_dev_sck_make(hio, 0, &mi); if (!tcp) { HIO_INFO2 (hio, "Cannot make tcp for %hs - %js\n", addrstr, hio_geterrmsg(hio)); return -1; } if (hio_dev_sck_bind(tcp, &bi) <= -1) { HIO_INFO2 (hio, "tcp hio_dev_sck_bind() failed with %hs - %js\n", addrstr, hio_geterrmsg(hio)); return -1; } memset (&li, 0, HIO_SIZEOF(li)); li.backlogs = 4096; HIO_INIT_NTIME (&li.accept_tmout, 5, 1); if (hio_dev_sck_listen(tcp, &li) <= -1) { HIO_INFO2 (hio, "tcp hio_dev_sck_listen() failed on %hs - %js\n", addrstr, hio_geterrmsg(hio)); return -1; } else { hio_skad_t skad; hio_bch_t buf[HIO_SKAD_IP_STRLEN + 1]; hio_dev_sck_getsockaddr (tcp, &skad); hio_skadtobcstr (hio, &skad, buf, HIO_COUNTOF(buf), HIO_SKAD_TO_BCSTR_ADDR | HIO_SKAD_TO_BCSTR_PORT); HIO_INFO1 (hio, "main listener on %hs\n", buf); } return 0; } static hio_t* g_hio = HIO_NULL; static void handle_sigint (int sig) { if (g_hio) hio_stop (g_hio, HIO_STOPREQ_TERMINATION); } int main (int argc, char* argv[]) { hio_t* hio = HIO_NULL; pthread_t t[MAX_NUM_THRS]; hio_oow_t i; struct sigaction sigact; int xret = -1; // TODO: use getopt() or something similar for (i = 1; i < argc; ) { if (strcmp(argv[i], "-s") == 0) { i++; g_dev_type4 = HIO_DEV_SCK_SCTP4; g_dev_type6 = HIO_DEV_SCK_SCTP6; } else if (strcmp(argv[i], "-ss") == 0) { i++; g_dev_type4 = HIO_DEV_SCK_SCTP4_SP; g_dev_type6 = HIO_DEV_SCK_SCTP6_SP; } else if (strcmp(argv[i], "-t") == 0) { i++; if (i < argc) { g_num_thrs = atoi(argv[i]); if (g_num_thrs < 1 || g_num_thrs > MAX_NUM_THRS) { printf ("Error: %s not allowed for -t\n", argv[i]); return -1; } i++; } else { g_num_thrs = 2; } } else { printf ("Error: invalid argument %s\n", argv[i]); return -1; } } memset (&sigact, 0, HIO_SIZEOF(sigact)); sigact.sa_handler = SIG_IGN; sigaction (SIGPIPE, &sigact, HIO_NULL); memset (&sigact, 0, HIO_SIZEOF(sigact)); sigact.sa_handler = handle_sigint; sigaction (SIGINT, &sigact, HIO_NULL); XX_MQ_INIT (&xx_mq); xx_tmridx = HIO_TMRIDX_INVALID; hio = hio_open(HIO_NULL, 0, HIO_NULL, HIO_FEATURE_ALL, 512, HIO_NULL); if (!hio) { printf ("Cannot open hio\n"); goto oops; } hio_setoption (hio, HIO_LOG_TARGET_BCSTR, "/dev/stderr"); g_hio = hio; for (i = 0; i < g_num_thrs; i++) pthread_create (&t[i], HIO_NULL, thr_func, hio); sleep (1); /* TODO: use pthread_cond_wait()/pthread_cond_signal() or a varialble to see if all threads are up */ /* TODO: wait until all threads are ready to serve... */ if (add_listener(hio, "[::]:9987") <= -1 && add_listener(hio, "0.0.0.0:9987") <= -1) goto oops; /* as long as 1 listener is alive */ /* add a unix socket listener. * don't check for an error to continue without it in case it fails. */ unlink ("t06.sck"); add_listener(hio, "@t06.sck"); { hio_skad_t skad; hio_bcstrtoskad(hio, "[::]:3547", &skad); hio_svc_dhcs_start (hio, &skad, 1); } hio_loop (hio); xret = 0; oops: memset (&sigact, 0, HIO_SIZEOF(sigact)); sigact.sa_handler = SIG_IGN; sigaction (SIGINT, &sigact, HIO_NULL); pthread_mutex_lock (&g_htts_mutex); for (i = 0; i < g_num_thrs; i++) { if (g_htts[i]) hio_stop (hio_svc_htts_gethio(g_htts[i]), HIO_STOPREQ_TERMINATION); } pthread_mutex_unlock (&g_htts_mutex); for (i = 0; i < g_num_thrs; i++) { pthread_join (t[i], HIO_NULL); } if (hio) hio_close (hio); return xret; }