/* Copyright (c) 2009-2012 250bpm s.r.o. Copyright (c) 2007-2011 iMatix Corporation Copyright (c) 2007-2011 Other contributors as noted in the AUTHORS file This file is part of Crossroads I/O project. Crossroads I/O is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Crossroads 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #include "platform.hpp" #if defined XS_HAVE_WINDOWS #include "windows.hpp" #else #include #endif #include #include #include #include #include "socket_base.hpp" #include "stdint.hpp" #include "config.hpp" #include "likely.hpp" #include "upoll.hpp" #include "ctx.hpp" #include "err.hpp" #include "msg.hpp" #include "fd.hpp" #if defined XS_HAVE_OPENPGM #define __PGM_WININT_H__ #include #endif // Compile time check whether msg_t fits into xs_msg_t. typedef char check_msg_t_size [sizeof (xs::msg_t) == sizeof (xs_msg_t) ? 1 : -1]; void xs_version (int *major_, int *minor_, int *patch_) { *major_ = XS_VERSION_MAJOR; *minor_ = XS_VERSION_MINOR; *patch_ = XS_VERSION_PATCH; } const char *xs_strerror (int errnum_) { return xs::errno_to_string (errnum_); } void *xs_init (int io_threads_) { // We need at least one I/O thread to run the monitor object in. if (io_threads_ < 1) { errno = EINVAL; return NULL; } #if defined XS_HAVE_OPENPGM // Init PGM transport. Ensure threading and timer are enabled. Find PGM // protocol ID. Note that if you want to use gettimeofday and sleep for // openPGM timing, set environment variables PGM_TIMER to "GTOD" and // PGM_SLEEP to "USLEEP". pgm_error_t *pgm_error = NULL; const bool ok = pgm_init (&pgm_error); if (ok != TRUE) { // Invalid parameters don't set pgm_error_t xs_assert (pgm_error != NULL); if (pgm_error->domain == PGM_ERROR_DOMAIN_TIME && ( pgm_error->code == PGM_ERROR_FAILED)) { // Failed to access RTC or HPET device. pgm_error_free (pgm_error); errno = EINVAL; return NULL; } // PGM_ERROR_DOMAIN_ENGINE: WSAStartup errors or missing WSARecvMsg. xs_assert (false); } #endif #ifdef XS_HAVE_WINDOWS // Intialise Windows sockets. Note that WSAStartup can be called multiple // times given that WSACleanup will be called for each WSAStartup. // We do this before the ctx constructor since its embedded mailbox_t // object needs Winsock to be up and running. WORD version_requested = MAKEWORD (2, 2); WSADATA wsa_data; int rc = WSAStartup (version_requested, &wsa_data); xs_assert (rc == 0); xs_assert (LOBYTE (wsa_data.wVersion) == 2 && HIBYTE (wsa_data.wVersion) == 2); #endif // Create the context. xs::ctx_t *ctx = new (std::nothrow) xs::ctx_t ((uint32_t) io_threads_); alloc_assert (ctx); return (void*) ctx; } int xs_term (void *ctx_) { if (!ctx_ || !((xs::ctx_t*) ctx_)->check_tag ()) { errno = EFAULT; return -1; } int rc = ((xs::ctx_t*) ctx_)->terminate (); int en = errno; #ifdef XS_HAVE_WINDOWS // On Windows, uninitialise socket layer. rc = WSACleanup (); wsa_assert (rc != SOCKET_ERROR); #endif #if defined XS_HAVE_OPENPGM // Shut down the OpenPGM library. if (pgm_shutdown () != TRUE) xs_assert (false); #endif errno = en; return rc; } int xs_setctxopt (void *ctx_, int option_, const void *optval_, size_t optvallen_) { if (!ctx_ || !((xs::ctx_t*) ctx_)->check_tag ()) { errno = EFAULT; return -1; } return ((xs::ctx_t*) ctx_)->setctxopt (option_, optval_, optvallen_); } void *xs_socket (void *ctx_, int type_) { if (!ctx_ || !((xs::ctx_t*) ctx_)->check_tag ()) { errno = EFAULT; return NULL; } return (void*) (((xs::ctx_t*) ctx_)->create_socket (type_)); } int xs_close (void *s_) { if (!s_ || !((xs::socket_base_t*) s_)->check_tag ()) { errno = ENOTSOCK; return -1; } ((xs::socket_base_t*) s_)->close (); return 0; } int xs_setsockopt (void *s_, int option_, const void *optval_, size_t optvallen_) { xs::socket_base_t *s = (xs::socket_base_t*) s_; if (!s || !s->check_tag ()) { errno = ENOTSOCK; return -1; } int rc = s->setsockopt (option_, optval_, optvallen_); return rc; } int xs_getsockopt (void *s_, int option_, void *optval_, size_t *optvallen_) { xs::socket_base_t *s = (xs::socket_base_t*) s_; if (!s || !s->check_tag ()) { errno = ENOTSOCK; return -1; } int rc = s->getsockopt (option_, optval_, optvallen_); return rc; } int xs_bind (void *s_, const char *addr_) { xs::socket_base_t *s = (xs::socket_base_t*) s_; if (!s || !s->check_tag ()) { errno = ENOTSOCK; return -1; } int rc = s->bind (addr_); return rc; } int xs_connect (void *s_, const char *addr_) { xs::socket_base_t *s = (xs::socket_base_t*) s_; if (!s || !s->check_tag ()) { errno = ENOTSOCK; return -1; } int rc = s->connect (addr_); return rc; } int xs_send (void *s_, const void *buf_, size_t len_, int flags_) { xs_msg_t msg; int rc = xs_msg_init_size (&msg, len_); if (rc != 0) return -1; memcpy (xs_msg_data (&msg), buf_, len_); rc = xs_sendmsg (s_, &msg, flags_); if (unlikely (rc < 0)) { int err = errno; int rc2 = xs_msg_close (&msg); errno_assert (rc2 == 0); errno = err; return -1; } // Note the optimisation here. We don't close the msg object as it is // empty anyway. This may change when implementation of xs_msg_t changes. return rc; } int xs_recv (void *s_, void *buf_, size_t len_, int flags_) { xs_msg_t msg; int rc = xs_msg_init (&msg); errno_assert (rc == 0); int nbytes = xs_recvmsg (s_, &msg, flags_); if (unlikely (nbytes < 0)) { int err = errno; rc = xs_msg_close (&msg); errno_assert (rc == 0); errno = err; return -1; } // At the moment an oversized message is silently truncated. // TODO: Build in a notification mechanism to report the overflows. size_t to_copy = size_t (nbytes) < len_ ? size_t (nbytes) : len_; memcpy (buf_, xs_msg_data (&msg), to_copy); rc = xs_msg_close (&msg); errno_assert (rc == 0); return nbytes; } int xs_sendmsg (void *s_, xs_msg_t *msg_, int flags_) { xs::socket_base_t *s = (xs::socket_base_t*) s_; if (!s || !s->check_tag ()) { errno = ENOTSOCK; return -1; } int sz = (int) xs_msg_size (msg_); int rc = s->send ((xs::msg_t*) msg_, flags_); if (unlikely (rc < 0)) return -1; return sz; } int xs_recvmsg (void *s_, xs_msg_t *msg_, int flags_) { xs::socket_base_t *s = (xs::socket_base_t*) s_; if (!s || !s->check_tag ()) { errno = ENOTSOCK; return -1; } int rc = s->recv ((xs::msg_t*) msg_, flags_); if (unlikely (rc < 0)) return -1; return (int) xs_msg_size (msg_); } int xs_msg_init (xs_msg_t *msg_) { return ((xs::msg_t*) msg_)->init (); } int xs_msg_init_size (xs_msg_t *msg_, size_t size_) { return ((xs::msg_t*) msg_)->init_size (size_); } int xs_msg_init_data (xs_msg_t *msg_, void *data_, size_t size_, xs_free_fn *ffn_, void *hint_) { return ((xs::msg_t*) msg_)->init_data (data_, size_, ffn_, hint_); } int xs_msg_close (xs_msg_t *msg_) { return ((xs::msg_t*) msg_)->close (); } int xs_msg_move (xs_msg_t *dest_, xs_msg_t *src_) { return ((xs::msg_t*) dest_)->move (*(xs::msg_t*) src_); } int xs_msg_copy (xs_msg_t *dest_, xs_msg_t *src_) { return ((xs::msg_t*) dest_)->copy (*(xs::msg_t*) src_); } void *xs_msg_data (xs_msg_t *msg_) { return ((xs::msg_t*) msg_)->data (); } size_t xs_msg_size (xs_msg_t *msg_) { return ((xs::msg_t*) msg_)->size (); } int xs_getmsgopt (xs_msg_t *msg_, int option_, void *optval_, size_t *optvallen_) { switch (option_) { case XS_MORE: if (*optvallen_ < sizeof (int)) { errno = EINVAL; return -1; } *((int*) optval_) = (((xs::msg_t*) msg_)->flags () & xs::msg_t::more) ? 1 : 0; *optvallen_ = sizeof (int); return 0; default: errno = EINVAL; return -1; } } int xs_poll (xs_pollitem_t *items_, int nitems_, long timeout_) { return xs::upoll (items_, nitems_, timeout_); } int xs_errno () { return errno; }