/* * Copyright (c) 2021 Calvin Rose and contributors. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #ifndef JANET_AMALG #include "features.h" #include #include "util.h" #endif #ifdef JANET_NET #include #ifdef JANET_WINDOWS #include #include #include #include #pragma comment (lib, "Ws2_32.lib") #pragma comment (lib, "Mswsock.lib") #pragma comment (lib, "Advapi32.lib") #else #include #include #include #include #include #include #include #include #include #include #include #endif const JanetAbstractType janet_address_type = { "core/socket-address", JANET_ATEND_NAME }; #ifdef JANET_WINDOWS #define JSOCKCLOSE(x) closesocket((SOCKET) x) #define JSOCKDEFAULT INVALID_SOCKET #define JSOCKVALID(x) ((x) != INVALID_SOCKET) #define JSock SOCKET #define JSOCKFLAGS 0 #else #define JSOCKCLOSE(x) close(x) #define JSOCKDEFAULT 0 #define JSOCKVALID(x) ((x) >= 0) #define JSock int #ifdef SOCK_CLOEXEC #define JSOCKFLAGS SOCK_CLOEXEC #else #define JSOCKFLAGS 0 #endif #endif static JanetStream *make_stream(JSock handle, uint32_t flags); /* We pass this flag to all send calls to prevent sigpipe */ #ifndef MSG_NOSIGNAL #define MSG_NOSIGNAL 0 #endif /* Make sure a socket doesn't block */ static void janet_net_socknoblock(JSock s) { #ifdef JANET_WINDOWS unsigned long arg = 1; ioctlsocket(s, FIONBIO, &arg); #else #if !defined(SOCK_CLOEXEC) && defined(O_CLOEXEC) int extra = O_CLOEXEC; #else int extra = 0; #endif fcntl(s, F_SETFL, fcntl(s, F_GETFL, 0) | O_NONBLOCK | extra); #ifdef SO_NOSIGPIPE int enable = 1; setsockopt(s, SOL_SOCKET, SO_NOSIGPIPE, &enable, sizeof(int)); #endif #endif } /* State machine for accepting connections. */ #ifdef JANET_WINDOWS typedef struct { JanetListenerState head; WSAOVERLAPPED overlapped; JanetFunction *function; JanetStream *lstream; JanetStream *astream; char buf[1024]; } NetStateAccept; static int net_sched_accept_impl(NetStateAccept *state, Janet *err); JanetAsyncStatus net_machine_accept(JanetListenerState *s, JanetAsyncEvent event) { NetStateAccept *state = (NetStateAccept *)s; switch (event) { default: break; case JANET_ASYNC_EVENT_MARK: { if (state->lstream) janet_mark(janet_wrap_abstract(state->lstream)); if (state->astream) janet_mark(janet_wrap_abstract(state->astream)); if (state->function) janet_mark(janet_wrap_abstract(state->function)); break; } case JANET_ASYNC_EVENT_CLOSE: janet_schedule(s->fiber, janet_wrap_nil()); return JANET_ASYNC_STATUS_DONE; case JANET_ASYNC_EVENT_COMPLETE: { int seconds; int bytes = sizeof(seconds); if (NO_ERROR != getsockopt((SOCKET) state->astream->handle, SOL_SOCKET, SO_CONNECT_TIME, (char *)&seconds, &bytes)) { janet_cancel(s->fiber, janet_cstringv("failed to accept connection")); return JANET_ASYNC_STATUS_DONE; } if (NO_ERROR != setsockopt((SOCKET) state->astream->handle, SOL_SOCKET, SO_UPDATE_ACCEPT_CONTEXT, (char *) & (state->lstream->handle), sizeof(SOCKET))) { janet_cancel(s->fiber, janet_cstringv("failed to accept connection")); return JANET_ASYNC_STATUS_DONE; } Janet streamv = janet_wrap_abstract(state->astream); if (state->function) { /* Schedule worker */ JanetFiber *fiber = janet_fiber(state->function, 64, 1, &streamv); fiber->supervisor_channel = s->fiber->supervisor_channel; janet_schedule(fiber, janet_wrap_nil()); /* Now listen again for next connection */ Janet err; if (net_sched_accept_impl(state, &err)) { janet_cancel(s->fiber, err); return JANET_ASYNC_STATUS_DONE; } } else { janet_schedule(s->fiber, streamv); return JANET_ASYNC_STATUS_DONE; } } } return JANET_ASYNC_STATUS_NOT_DONE; } JANET_NO_RETURN static void janet_sched_accept(JanetStream *stream, JanetFunction *fun) { Janet err; SOCKET lsock = (SOCKET) stream->handle; JanetListenerState *s = janet_listen(stream, net_machine_accept, JANET_ASYNC_LISTEN_READ, sizeof(NetStateAccept), NULL); NetStateAccept *state = (NetStateAccept *)s; memset(&state->overlapped, 0, sizeof(WSAOVERLAPPED)); memset(&state->buf, 0, 1024); state->function = fun; state->lstream = stream; s->tag = &state->overlapped; if (net_sched_accept_impl(state, &err)) janet_panicv(err); janet_await(); } static int net_sched_accept_impl(NetStateAccept *state, Janet *err) { SOCKET lsock = (SOCKET) state->lstream->handle; SOCKET asock = WSASocketW(AF_INET, SOCK_STREAM, IPPROTO_TCP, NULL, 0, WSA_FLAG_OVERLAPPED); if (asock == INVALID_SOCKET) { *err = janet_ev_lasterr(); return 1; } JanetStream *astream = make_stream(asock, JANET_STREAM_READABLE | JANET_STREAM_WRITABLE); state->astream = astream; int socksize = sizeof(SOCKADDR_STORAGE) + 16; if (FALSE == AcceptEx(lsock, asock, state->buf, 0, socksize, socksize, NULL, &state->overlapped)) { int code = WSAGetLastError(); if (code == WSA_IO_PENDING) return 0; /* indicates io is happening async */ *err = janet_ev_lasterr(); return 1; } return 0; } #else typedef struct { JanetListenerState head; JanetFunction *function; } NetStateAccept; JanetAsyncStatus net_machine_accept(JanetListenerState *s, JanetAsyncEvent event) { NetStateAccept *state = (NetStateAccept *)s; switch (event) { default: break; case JANET_ASYNC_EVENT_MARK: { if (state->function) janet_mark(janet_wrap_function(state->function)); break; } case JANET_ASYNC_EVENT_CLOSE: janet_schedule(s->fiber, janet_wrap_nil()); return JANET_ASYNC_STATUS_DONE; case JANET_ASYNC_EVENT_READ: { JSock connfd = accept(s->stream->handle, NULL, NULL); if (JSOCKVALID(connfd)) { janet_net_socknoblock(connfd); JanetStream *stream = make_stream(connfd, JANET_STREAM_READABLE | JANET_STREAM_WRITABLE); Janet streamv = janet_wrap_abstract(stream); if (state->function) { JanetFiber *fiber = janet_fiber(state->function, 64, 1, &streamv); fiber->supervisor_channel = s->fiber->supervisor_channel; janet_schedule(fiber, janet_wrap_nil()); } else { janet_schedule(s->fiber, streamv); return JANET_ASYNC_STATUS_DONE; } } break; } } return JANET_ASYNC_STATUS_NOT_DONE; } JANET_NO_RETURN static void janet_sched_accept(JanetStream *stream, JanetFunction *fun) { NetStateAccept *state = (NetStateAccept *) janet_listen(stream, net_machine_accept, JANET_ASYNC_LISTEN_READ, sizeof(NetStateAccept), NULL); state->function = fun; janet_await(); } #endif /* Adress info */ static int janet_get_sockettype(Janet *argv, int32_t argc, int32_t n) { JanetKeyword stype = janet_optkeyword(argv, argc, n, NULL); int socktype = SOCK_DGRAM; if ((NULL == stype) || !janet_cstrcmp(stype, "stream")) { socktype = SOCK_STREAM; } else if (janet_cstrcmp(stype, "datagram")) { janet_panicf("expected socket type as :stream or :datagram, got %v", argv[n]); } return socktype; } /* Needs argc >= offset + 2 */ /* For unix paths, just rertuns a single sockaddr and sets *is_unix to 1, otherwise 0 */ static struct addrinfo *janet_get_addrinfo(Janet *argv, int32_t offset, int socktype, int passive, int *is_unix) { /* Unix socket support - not yet supported on windows. */ #ifndef JANET_WINDOWS if (janet_keyeq(argv[offset], "unix")) { const char *path = janet_getcstring(argv, offset + 1); struct sockaddr_un *saddr = janet_calloc(1, sizeof(struct sockaddr_un)); if (saddr == NULL) { JANET_OUT_OF_MEMORY; } saddr->sun_family = AF_UNIX; size_t path_size = sizeof(saddr->sun_path); #ifdef JANET_LINUX if (path[0] == '@') { saddr->sun_path[0] = '\0'; snprintf(saddr->sun_path + 1, path_size - 1, "%s", path + 1); } else #endif { snprintf(saddr->sun_path, path_size, "%s", path); } *is_unix = 1; return (struct addrinfo *) saddr; } #endif /* Get host and port */ const char *host = janet_getcstring(argv, offset); const char *port; if (janet_checkint(argv[offset + 1])) { port = (const char *)janet_to_string(argv[offset + 1]); } else { port = janet_optcstring(argv, offset + 2, offset + 1, NULL); } /* getaddrinfo */ struct addrinfo *ai = NULL; struct addrinfo hints; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = socktype; hints.ai_flags = passive ? AI_PASSIVE : 0; int status = getaddrinfo(host, port, &hints, &ai); if (status) { janet_panicf("could not get address info: %s", gai_strerror(status)); } *is_unix = 0; return ai; } /* * C Funs */ JANET_CORE_FN(cfun_net_sockaddr, "(net/address host port &opt type)", "Look up the connection information for a given hostname, port, and connection type. Returns " "a handle that can be used to send datagrams over network without establishing a connection. " "On Posix platforms, you can use :unix for host to connect to a unix domain socket, where the name is " "given in the port argument. On Linux, abstract " "unix domain sockets are specified with a leading '@' character in port.") { janet_arity(argc, 2, 4); int socktype = janet_get_sockettype(argv, argc, 2); int is_unix = 0; int make_arr = (argc >= 3 && janet_truthy(argv[3])); struct addrinfo *ai = janet_get_addrinfo(argv, 0, socktype, 0, &is_unix); #ifndef JANET_WINDOWS /* no unix domain socket support on windows yet */ if (is_unix) { void *abst = janet_abstract(&janet_address_type, sizeof(struct sockaddr_un)); memcpy(abst, ai, sizeof(struct sockaddr_un)); Janet ret = janet_wrap_abstract(abst); return make_arr ? janet_wrap_array(janet_array_n(&ret, 1)) : ret; } #endif if (make_arr) { /* Select all */ JanetArray *arr = janet_array(10); struct addrinfo *iter = ai; while (NULL != iter) { void *abst = janet_abstract(&janet_address_type, iter->ai_addrlen); memcpy(abst, iter->ai_addr, iter->ai_addrlen); janet_array_push(arr, janet_wrap_abstract(abst)); iter = iter->ai_next; } freeaddrinfo(ai); return janet_wrap_array(arr); } else { /* Select first */ if (NULL == ai) { janet_panic("no data for given address"); } void *abst = janet_abstract(&janet_address_type, ai->ai_addrlen); memcpy(abst, ai->ai_addr, ai->ai_addrlen); freeaddrinfo(ai); return janet_wrap_abstract(abst); } } JANET_CORE_FN(cfun_net_connect, "(net/connect host port &opt type)", "Open a connection to communicate with a server. Returns a duplex stream " "that can be used to communicate with the server. Type is an optional keyword " "to specify a connection type, either :stream or :datagram. The default is :stream. ") { janet_arity(argc, 2, 3); int socktype = janet_get_sockettype(argv, argc, 2); int is_unix = 0; struct addrinfo *ai = janet_get_addrinfo(argv, 0, socktype, 0, &is_unix); /* Create socket */ JSock sock = JSOCKDEFAULT; void *addr = NULL; socklen_t addrlen = 0; #ifndef JANET_WINDOWS if (is_unix) { sock = socket(AF_UNIX, socktype | JSOCKFLAGS, 0); if (!JSOCKVALID(sock)) { janet_panicf("could not create socket: %V", janet_ev_lasterr()); } addr = (void *) ai; addrlen = sizeof(struct sockaddr_un); } else #endif { struct addrinfo *rp = NULL; for (rp = ai; rp != NULL; rp = rp->ai_next) { #ifdef JANET_WINDOWS sock = WSASocketW(rp->ai_family, rp->ai_socktype | JSOCKFLAGS, rp->ai_protocol, NULL, 0, WSA_FLAG_OVERLAPPED); #else sock = socket(rp->ai_family, rp->ai_socktype | JSOCKFLAGS, rp->ai_protocol); #endif if (JSOCKVALID(sock)) { addr = rp->ai_addr; addrlen = (socklen_t) rp->ai_addrlen; break; } } if (NULL == addr) { freeaddrinfo(ai); janet_panicf("could not create socket: %V", janet_ev_lasterr()); } } /* Connect to socket */ #ifdef JANET_WINDOWS int status = WSAConnect(sock, addr, addrlen, NULL, NULL, NULL, NULL); freeaddrinfo(ai); #else int status = connect(sock, addr, addrlen); if (is_unix) { janet_free(ai); } else { freeaddrinfo(ai); } #endif if (status == -1) { JSOCKCLOSE(sock); janet_panicf("could not connect to socket: %V", janet_ev_lasterr()); } /* Set up the socket for non-blocking IO after connect - TODO - non-blocking connect? */ janet_net_socknoblock(sock); /* Wrap socket in abstract type JanetStream */ JanetStream *stream = make_stream(sock, JANET_STREAM_READABLE | JANET_STREAM_WRITABLE); return janet_wrap_abstract(stream); } static const char *serverify_socket(JSock sfd) { /* Set various socket options */ int enable = 1; if (setsockopt(sfd, SOL_SOCKET, SO_REUSEADDR, (char *) &enable, sizeof(int)) < 0) { return "setsockopt(SO_REUSEADDR) failed"; } #ifdef SO_REUSEPORT if (setsockopt(sfd, SOL_SOCKET, SO_REUSEPORT, &enable, sizeof(int)) < 0) { return "setsockopt(SO_REUSEPORT) failed"; } #endif janet_net_socknoblock(sfd); return NULL; } #ifdef JANET_WINDOWS #define JANET_SHUTDOWN_RW SD_BOTH #define JANET_SHUTDOWN_R SD_RECEIVE #define JANET_SHUTDOWN_W SD_SEND #else #define JANET_SHUTDOWN_RW SHUT_RDWR #define JANET_SHUTDOWN_R SHUT_RD #define JANET_SHUTDOWN_W SHUT_WR #endif JANET_CORE_FN(cfun_net_shutdown, "(net/shutdown stream &opt mode)", "Stop communication on this socket in a graceful manner, either in both directions or just " "reading/writing from the stream. The `mode` parameter controls which communication to stop on the socket. " "\n\n* `:wr` is the default and prevents both reading new data from the socket and writing new data to the socket.\n" "* `:r` disables reading new data from the socket.\n" "* `:w` disable writing data to the socket.\n\n" "Returns the original socket.") { janet_arity(argc, 1, 2); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_SOCKET); int shutdown_type = JANET_SHUTDOWN_RW; if (argc == 2) { const uint8_t *kw = janet_getkeyword(argv, 1); if (0 == janet_cstrcmp(kw, "rw")) { shutdown_type = JANET_SHUTDOWN_RW; } else if (0 == janet_cstrcmp(kw, "r")) { shutdown_type = JANET_SHUTDOWN_R; } else if (0 == janet_cstrcmp(kw, "w")) { shutdown_type = JANET_SHUTDOWN_W; } else { janet_panicf("unexpected keyword %v", argv[1]); } } int status; #ifdef JANET_WINDOWS status = shutdown((SOCKET) stream->handle, shutdown_type); #else do { status = shutdown(stream->handle, shutdown_type); } while (status == -1 && errno == EINTR); #endif if (status) { janet_panicf("could not shutdown socket: %V", janet_ev_lasterr()); } return argv[0]; } JANET_CORE_FN(cfun_net_listen, "(net/listen host port &opt type)", "Creates a server. Returns a new stream that is neither readable nor " "writeable. Use net/accept or net/accept-loop be to handle connections and start the server. " "The type parameter specifies the type of network connection, either " "a :stream (usually tcp), or :datagram (usually udp). If not specified, the default is " ":stream. The host and port arguments are the same as in net/address.") { janet_arity(argc, 2, 3); /* Get host, port, and handler*/ int socktype = janet_get_sockettype(argv, argc, 2); int is_unix = 0; struct addrinfo *ai = janet_get_addrinfo(argv, 0, socktype, 1, &is_unix); JSock sfd = JSOCKDEFAULT; #ifndef JANET_WINDOWS if (is_unix) { sfd = socket(AF_UNIX, socktype | JSOCKFLAGS, 0); if (!JSOCKVALID(sfd)) { janet_free(ai); janet_panicf("could not create socket: %V", janet_ev_lasterr()); } const char *err = serverify_socket(sfd); if (NULL != err || bind(sfd, (struct sockaddr *)ai, sizeof(struct sockaddr_un))) { JSOCKCLOSE(sfd); janet_free(ai); if (err) { janet_panic(err); } else { janet_panicf("could not bind socket: %V", janet_ev_lasterr()); } } janet_free(ai); } else #endif { /* Check all addrinfos in a loop for the first that we can bind to. */ struct addrinfo *rp = NULL; for (rp = ai; rp != NULL; rp = rp->ai_next) { #ifdef JANET_WINDOWS sfd = WSASocketW(rp->ai_family, rp->ai_socktype | JSOCKFLAGS, rp->ai_protocol, NULL, 0, WSA_FLAG_OVERLAPPED); #else sfd = socket(rp->ai_family, rp->ai_socktype | JSOCKFLAGS, rp->ai_protocol); #endif if (!JSOCKVALID(sfd)) continue; const char *err = serverify_socket(sfd); if (NULL != err) { JSOCKCLOSE(sfd); continue; } /* Bind */ if (bind(sfd, rp->ai_addr, (int) rp->ai_addrlen) == 0) break; JSOCKCLOSE(sfd); } freeaddrinfo(ai); if (NULL == rp) { janet_panic("could not bind to any sockets"); } } if (socktype == SOCK_DGRAM) { /* Datagram server (UDP) */ JanetStream *stream = make_stream(sfd, JANET_STREAM_UDPSERVER | JANET_STREAM_READABLE); return janet_wrap_abstract(stream); } else { /* Stream server (TCP) */ /* listen */ int status = listen(sfd, 1024); if (status) { JSOCKCLOSE(sfd); janet_panicf("could not listen on file descriptor: %V", janet_ev_lasterr()); } /* Put sfd on our loop */ JanetStream *stream = make_stream(sfd, JANET_STREAM_ACCEPTABLE); return janet_wrap_abstract(stream); } } #define SO_MAX(a, b) (((a) > (b))? (a) : (b)) #define SA_PORT_NONE (&(in_port_t){ 0 }) #define SO_MIN(a, b) (((a) < (b))? (a) : (b)) #ifndef JANET_WINDOWS #define SA_ADDRSTRLEN SO_MAX(INET6_ADDRSTRLEN, (sizeof ((struct sockaddr_un *)0)->sun_path) + 1) #else #define SA_ADDRSTRLEN (INET6_ADDRSTRLEN + 1) #endif #define sa_ntoa(sa) sa_ntoa_((char [SA_ADDRSTRLEN]){ 0 }, SA_ADDRSTRLEN, (sa)) #define sa_family(...) sa_family(__VA_ARGS__) #define sa_port(...) sa_port(__VA_ARGS__) #ifdef JANET_WINDOWS typedef short sa_family_t; typedef unsigned short in_port_t; #endif union sockaddr_arg { struct sockaddr *sa; const struct sockaddr *c_sa; struct sockaddr_storage *ss; struct sockaddr_storage *c_ss; struct sockaddr_in *sin; struct sockaddr_in *c_sin; struct sockaddr_in6 *sin6; struct sockaddr_in6 *c_sin6; #ifndef JANET_WINDOWS struct sockaddr_un *sun; #endif struct sockaddr_un *c_sun; union sockaddr_any *any; union sockaddr_any *c_any; void *ptr; void *c_ptr; }; union sockaddr_any { struct sockaddr sa; struct sockaddr_storage ss; struct sockaddr_in sin; struct sockaddr_in6 sin6; #ifndef JANET_WINDOWS struct sockaddr_un sun; #endif }; static inline union sockaddr_arg sockaddr_ref(void *arg) { return (union sockaddr_arg) { arg }; } static inline sa_family_t *(sa_family)(void *arg) { return &sockaddr_ref(arg).sa->sa_family; } static inline in_port_t *(sa_port)(void *arg, const in_port_t *def, int *error) { switch (*sa_family(arg)) { case AF_INET: return &sockaddr_ref(arg).sin->sin_port; case AF_INET6: return &sockaddr_ref(arg).sin6->sin6_port; default: if (error) *error = EAFNOSUPPORT; return (in_port_t *)def; } } size_t janet_socket_strlcpy(char *dst, const char *src, size_t lim) { char *d = dst; char *e = &dst[lim]; const char *s = src; if (d < e) { do { if ('\0' == (*d++ = *s++)) return s - src - 1; } while (d < e); d[-1] = '\0'; } while (*s++ != '\0') ;; return s - src - 1; } char *sa_ntop(char *dst, size_t lim, const void *src, const char *def, int *_error) { union sockaddr_any *any = (void *)src; const char *unspec = "0.0.0.0"; char text[SA_ADDRSTRLEN]; int error; switch (*sa_family(&any->sa)) { case AF_INET: unspec = "0.0.0.0"; if (!inet_ntop(AF_INET, &any->sin.sin_addr, text, sizeof text)) goto syerr; break; case AF_INET6: unspec = "::"; if (!inet_ntop(AF_INET6, &any->sin6.sin6_addr, text, sizeof text)) goto syerr; break; #ifndef JANET_WINDOWS case AF_UNIX: unspec = "/nonexistent"; memset(text, 0, sizeof text); memcpy(text, any->sun.sun_path, SO_MIN(sizeof text - 1, sizeof any->sun.sun_path)); break; #endif default: error = EAFNOSUPPORT; goto error; } if (janet_socket_strlcpy(dst, text, lim) >= lim) { error = ENOSPC; goto error; } return dst; syerr: error = errno; error: if (_error) *_error = error; /* * NOTE: Always write something in case caller ignores errors, such * as when caller is using the sa_ntoa() macro. */ safe_memcpy(dst, (def) ? def : unspec, lim); return (char *)def; } static inline char *sa_ntoa_(char *dst, size_t lim, const void *src) { return sa_ntop(dst, lim, src, NULL, &(int) { 0 }), dst; } static Janet janet_so_getname(const struct sockaddr_storage *ss, socklen_t slen) { uint8_t *hn = NULL; uint16_t hp = 0; size_t plen = SA_ADDRSTRLEN; switch (ss->ss_family) { case AF_INET: /* fall through */ case AF_INET6: /* hn = hostname, hp = hostport */ hn = (uint8_t *)sa_ntoa(ss); hp = ntohs(*sa_port((void *)ss, SA_PORT_NONE, NULL)); break; #ifndef JANET_WINDOWS case AF_UNIX: /* support nameless sockets, linux-ism */ if (slen > offsetof(struct sockaddr_un, sun_path)) { struct sockaddr_un *sun = (struct sockaddr_un *)ss; char *pe = (char *)sun + SO_MIN(sizeof * sun, slen); size_t plen; while (pe > sun->sun_path && pe[-1] == '\0') --pe; if ((plen = pe - sun->sun_path) > 0) { hn = (uint8_t *)sun->sun_path; } else { hn = (uint8_t *)"@"; plen = 1; } } else { hn = (uint8_t *)"@"; plen = 1; } break; #endif default: hn = (uint8_t *)""; plen = 0; break; } Janet name[2]; int32_t len = 1; name[0] = janet_wrap_string(janet_cstring((const char *)hn)); if (hp > 0) { len++; name[1] = janet_wrap_integer(hp); } return janet_wrap_tuple(janet_tuple_n(name, len)); } JANET_CORE_FN(cfun_net_getsockname, "(net/localname stream)", "Gets the local address and port in a tuple in that order.") { janet_arity(argc, 1, 1); JanetStream *js = janet_getabstract(argv, 0, &janet_stream_type); struct sockaddr_storage ss; socklen_t slen = sizeof ss; memset(&ss, 0, slen); int error; if (0 != (error = getsockname(js->handle, (struct sockaddr *) &ss, &slen))) janet_panicf("Failed to get peername on fd %d, error: %s", js->handle, janet_ev_lasterr()); return janet_so_getname(&ss, slen); } JANET_CORE_FN(cfun_net_getpeername, "(net/peername stream)", "Gets the remote peer's address and port in a tuple in that order.") { janet_arity(argc, 1, 1); JanetStream *js = janet_getabstract(argv, 0, &janet_stream_type); struct sockaddr_storage ss; socklen_t slen = sizeof ss; memset(&ss, 0, slen); int error; if (0 != (error = getpeername(js->handle, (struct sockaddr *)&ss, &slen))) { janet_panicf("Failed to get peername on fd %d, error: %s", js->handle, janet_ev_lasterr()); } return janet_so_getname(&ss, slen); } JANET_CORE_FN(cfun_stream_accept_loop, "(net/accept-loop stream handler)", "Shorthand for running a server stream that will continuously accept new connections. " "Blocks the current fiber until the stream is closed, and will return the stream.") { janet_fixarity(argc, 2); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_ACCEPTABLE | JANET_STREAM_SOCKET); JanetFunction *fun = janet_getfunction(argv, 1); janet_sched_accept(stream, fun); } JANET_CORE_FN(cfun_stream_accept, "(net/accept stream &opt timeout)", "Get the next connection on a server stream. This would usually be called in a loop in a dedicated fiber. " "Takes an optional timeout in seconds, after which will return nil. " "Returns a new duplex stream which represents a connection to the client.") { janet_arity(argc, 1, 2); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_ACCEPTABLE | JANET_STREAM_SOCKET); double to = janet_optnumber(argv, argc, 1, INFINITY); if (to != INFINITY) janet_addtimeout(to); janet_sched_accept(stream, NULL); } JANET_CORE_FN(cfun_stream_read, "(net/read stream nbytes &opt buf timeout)", "Read up to n bytes from a stream, suspending the current fiber until the bytes are available. " "`n` can also be the keyword `:all` to read into the buffer until end of stream. " "If less than n bytes are available (and more than 0), will push those bytes and return early. " "Takes an optional timeout in seconds, after which will return nil. " "Returns a buffer with up to n more bytes in it, or raises an error if the read failed.") { janet_arity(argc, 2, 4); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_READABLE | JANET_STREAM_SOCKET); JanetBuffer *buffer = janet_optbuffer(argv, argc, 2, 10); double to = janet_optnumber(argv, argc, 3, INFINITY); if (janet_keyeq(argv[1], "all")) { if (to != INFINITY) janet_addtimeout(to); janet_ev_recvchunk(stream, buffer, INT32_MAX, MSG_NOSIGNAL); } else { int32_t n = janet_getnat(argv, 1); if (to != INFINITY) janet_addtimeout(to); janet_ev_recv(stream, buffer, n, MSG_NOSIGNAL); } janet_await(); } JANET_CORE_FN(cfun_stream_chunk, "(net/chunk stream nbytes &opt buf timeout)", "Same a net/read, but will wait for all n bytes to arrive rather than return early. " "Takes an optional timeout in seconds, after which will return nil.") { janet_arity(argc, 2, 4); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_READABLE | JANET_STREAM_SOCKET); int32_t n = janet_getnat(argv, 1); JanetBuffer *buffer = janet_optbuffer(argv, argc, 2, 10); double to = janet_optnumber(argv, argc, 3, INFINITY); if (to != INFINITY) janet_addtimeout(to); janet_ev_recvchunk(stream, buffer, n, MSG_NOSIGNAL); janet_await(); } JANET_CORE_FN(cfun_stream_recv_from, "(net/recv-from stream nbytes buf &opt timoeut)", "Receives data from a server stream and puts it into a buffer. Returns the socket-address the " "packet came from. Takes an optional timeout in seconds, after which will return nil.") { janet_arity(argc, 3, 4); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_UDPSERVER | JANET_STREAM_SOCKET); int32_t n = janet_getnat(argv, 1); JanetBuffer *buffer = janet_getbuffer(argv, 2); double to = janet_optnumber(argv, argc, 3, INFINITY); if (to != INFINITY) janet_addtimeout(to); janet_ev_recvfrom(stream, buffer, n, MSG_NOSIGNAL); janet_await(); } JANET_CORE_FN(cfun_stream_write, "(net/write stream data &opt timeout)", "Write data to a stream, suspending the current fiber until the write " "completes. Takes an optional timeout in seconds, after which will return nil. " "Returns nil, or raises an error if the write failed.") { janet_arity(argc, 2, 3); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_WRITABLE | JANET_STREAM_SOCKET); double to = janet_optnumber(argv, argc, 2, INFINITY); if (janet_checktype(argv[1], JANET_BUFFER)) { if (to != INFINITY) janet_addtimeout(to); janet_ev_send_buffer(stream, janet_getbuffer(argv, 1), MSG_NOSIGNAL); } else { JanetByteView bytes = janet_getbytes(argv, 1); if (to != INFINITY) janet_addtimeout(to); janet_ev_send_string(stream, bytes.bytes, MSG_NOSIGNAL); } janet_await(); } JANET_CORE_FN(cfun_stream_send_to, "(net/send-to stream dest data &opt timeout)", "Writes a datagram to a server stream. dest is a the destination address of the packet. " "Takes an optional timeout in seconds, after which will return nil. " "Returns stream.") { janet_arity(argc, 3, 4); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_UDPSERVER | JANET_STREAM_SOCKET); void *dest = janet_getabstract(argv, 1, &janet_address_type); double to = janet_optnumber(argv, argc, 3, INFINITY); if (janet_checktype(argv[2], JANET_BUFFER)) { if (to != INFINITY) janet_addtimeout(to); janet_ev_sendto_buffer(stream, janet_getbuffer(argv, 2), dest, MSG_NOSIGNAL); } else { JanetByteView bytes = janet_getbytes(argv, 2); if (to != INFINITY) janet_addtimeout(to); janet_ev_sendto_string(stream, bytes.bytes, dest, MSG_NOSIGNAL); } janet_await(); } JANET_CORE_FN(cfun_stream_flush, "(net/flush stream)", "Make sure that a stream is not buffering any data. This temporarily disables Nagle's algorithm. " "Use this to make sure data is sent without delay. Returns stream.") { janet_fixarity(argc, 1); JanetStream *stream = janet_getabstract(argv, 0, &janet_stream_type); janet_stream_flags(stream, JANET_STREAM_WRITABLE | JANET_STREAM_SOCKET); /* Toggle no delay flag */ int flag = 1; setsockopt((JSock) stream->handle, IPPROTO_TCP, TCP_NODELAY, (char *) &flag, sizeof(int)); flag = 0; setsockopt((JSock) stream->handle, IPPROTO_TCP, TCP_NODELAY, (char *) &flag, sizeof(int)); return argv[0]; } static const JanetMethod net_stream_methods[] = { {"chunk", cfun_stream_chunk}, {"close", janet_cfun_stream_close}, {"read", cfun_stream_read}, {"write", cfun_stream_write}, {"flush", cfun_stream_flush}, {"accept", cfun_stream_accept}, {"accept-loop", cfun_stream_accept_loop}, {"send-to", cfun_stream_send_to}, {"recv-from", cfun_stream_recv_from}, {"evread", janet_cfun_stream_read}, {"evchunk", janet_cfun_stream_chunk}, {"evwrite", janet_cfun_stream_write}, {"shutdown", cfun_net_shutdown}, {NULL, NULL} }; static JanetStream *make_stream(JSock handle, uint32_t flags) { return janet_stream((JanetHandle) handle, flags | JANET_STREAM_SOCKET, net_stream_methods); } void janet_lib_net(JanetTable *env) { JanetRegExt net_cfuns[] = { JANET_CORE_REG("net/address", cfun_net_sockaddr), JANET_CORE_REG("net/listen", cfun_net_listen), JANET_CORE_REG("net/accept", cfun_stream_accept), JANET_CORE_REG("net/accept-loop", cfun_stream_accept_loop), JANET_CORE_REG("net/read", cfun_stream_read), JANET_CORE_REG("net/chunk", cfun_stream_chunk), JANET_CORE_REG("net/write", cfun_stream_write), JANET_CORE_REG("net/send-to", cfun_stream_send_to), JANET_CORE_REG("net/recv-from", cfun_stream_recv_from), JANET_CORE_REG("net/flush", cfun_stream_flush), JANET_CORE_REG("net/connect", cfun_net_connect), JANET_CORE_REG("net/shutdown", cfun_net_shutdown), JANET_CORE_REG("net/peername", cfun_net_getpeername), JANET_CORE_REG("net/localname", cfun_net_getsockname), JANET_REG_END }; janet_core_cfuns_ext(env, NULL, net_cfuns); } void janet_net_init(void) { #ifdef JANET_WINDOWS WSADATA wsaData; janet_assert(!WSAStartup(MAKEWORD(2, 2), &wsaData), "could not start winsock"); #endif } void janet_net_deinit(void) { #ifdef JANET_WINDOWS WSACleanup(); #endif } #endif