/* * LibSylph -- E-Mail client library * Copyright (C) 1999-2012 Hiroyuki Yamamoto * * This library 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 2.1 of the License, or (at your option) any later version. * * This library 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 library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #ifdef G_OS_WIN32 # include # include #else # if HAVE_SYS_WAIT_H # include # endif # include # include # include # include # include # include # include #endif /* G_OS_WIN32 */ #include #include #include #include #include #include #include #include #if HAVE_SYS_SELECT_H # include #endif #include "socket.h" #if USE_SSL # include "ssl.h" #endif #include "utils.h" #define BUFFSIZE 8192 #ifdef G_OS_WIN32 #define SockDesc SOCKET #define SOCKET_IS_VALID(s) ((s) != INVALID_SOCKET) #else #define SockDesc gint #define SOCKET_IS_VALID(s) ((s) >= 0) #define INVALID_SOCKET (-1) #endif typedef gint (*SockAddrFunc) (GList *addr_list, gpointer data); typedef struct _SockConnectData SockConnectData; typedef struct _SockLookupData SockLookupData; typedef struct _SockAddrData SockAddrData; typedef struct _SockSource SockSource; struct _SockConnectData { gint id; gchar *hostname; gushort port; #ifdef G_OS_UNIX GList *addr_list; GList *cur_addr; SockLookupData *lookup_data; GIOChannel *channel; guint io_tag; #endif /* G_OS_UNIX */ #if USE_THREADS gint flag; GThread *thread; #endif /* G_OS_UNIX */ SockInfo *sock; SockConnectFunc func; gpointer data; }; struct _SockLookupData { gchar *hostname; pid_t child_pid; GIOChannel *channel; guint io_tag; SockAddrFunc func; gpointer data; }; struct _SockAddrData { gint family; gint socktype; gint protocol; gint addr_len; struct sockaddr *addr; }; struct _SockSource { GSource parent; SockInfo *sock; }; static guint io_timeout = 60; static GList *sock_connect_data_list = NULL; static GList *sock_list = NULL; static gboolean sock_prepare (GSource *source, gint *timeout); static gboolean sock_check (GSource *source); static gboolean sock_dispatch (GSource *source, GSourceFunc callback, gpointer user_data); GSourceFuncs sock_watch_funcs = { sock_prepare, sock_check, sock_dispatch, NULL }; static SockInfo *sock_find_from_fd (gint fd); static gint sock_connect_with_timeout (gint sock, const struct sockaddr *serv_addr, gint addrlen, guint timeout_secs); #ifndef INET6 static gint sock_info_connect_by_hostname (SockInfo *sock); #else #ifdef G_OS_WIN32 typedef int (*GetAddrInfoFunc) (const char *node, const char *service, const struct addrinfo *hints, struct addrinfo **res); typedef void (*FreeAddrInfoFunc) (struct addrinfo *res); static GetAddrInfoFunc getaddrinfo_func = NULL; static FreeAddrInfoFunc freeaddrinfo_func = NULL; #undef getaddrinfo #define getaddrinfo my_getaddrinfo #undef freeaddrinfo #define freeaddrinfo my_freeaddrinfo #endif static SockDesc sock_info_connect_by_getaddrinfo(SockInfo *sock); #endif #ifdef G_OS_UNIX static void sock_address_list_free (GList *addr_list); static gboolean sock_connect_async_cb (GIOChannel *source, GIOCondition condition, gpointer data); static gint sock_connect_async_get_address_info_cb (GList *addr_list, gpointer data); static gint sock_connect_address_list_async (SockConnectData *conn_data); static gboolean sock_get_address_info_async_cb (GIOChannel *source, GIOCondition condition, gpointer data); static SockLookupData *sock_get_address_info_async (const gchar *hostname, gushort port, SockAddrFunc func, gpointer data); static gint sock_get_address_info_async_cancel (SockLookupData *lookup_data); #endif /* G_OS_UNIX */ gint sock_init(void) { #ifdef G_OS_WIN32 WSADATA wsadata; gint result; result = WSAStartup(MAKEWORD(2, 2), &wsadata); if (result != NO_ERROR) { g_warning("WSAStartup() failed\n"); return -1; } #endif return 0; } gint sock_cleanup(void) { #ifdef G_OS_WIN32 WSACleanup(); #endif return 0; } gint sock_set_io_timeout(guint sec) { io_timeout = sec; return 0; } gint fd_connect_inet(gushort port) { SockDesc sock; struct sockaddr_in addr; sock = socket(AF_INET, SOCK_STREAM, 0); if (!SOCKET_IS_VALID(sock)) { #ifdef G_OS_WIN32 g_warning("fd_connect_inet(): socket() failed: %ld\n", WSAGetLastError()); #else perror("fd_connect_inet(): socket"); #endif return -1; } memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; addr.sin_port = htons(port); addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK); if (connect(sock, (struct sockaddr *)&addr, sizeof(addr)) < 0) { fd_close(sock); return -1; } return sock; } gint fd_open_inet(gushort port) { SockDesc sock; struct sockaddr_in addr; gint val; sock = socket(AF_INET, SOCK_STREAM, 0); if (!SOCKET_IS_VALID(sock)) { #ifdef G_OS_WIN32 g_warning("fd_open_inet(): socket() failed: %ld\n", WSAGetLastError()); #else perror("fd_open_inet(): socket"); #endif return -1; } val = 1; if (setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, (char *)&val, sizeof(val)) < 0) { perror("setsockopt"); fd_close(sock); return -1; } memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; addr.sin_port = htons(port); addr.sin_addr.s_addr = htonl(INADDR_LOOPBACK); if (bind(sock, (struct sockaddr *)&addr, sizeof(addr)) < 0) { perror("bind"); fd_close(sock); return -1; } if (listen(sock, 1) < 0) { perror("listen"); fd_close(sock); return -1; } return sock; } gint fd_connect_unix(const gchar *path) { #ifdef G_OS_UNIX gint sock; struct sockaddr_un addr; sock = socket(PF_UNIX, SOCK_STREAM, 0); if (sock < 0) { perror("fd_connect_unix(): socket"); return -1; } memset(&addr, 0, sizeof(addr)); addr.sun_family = AF_UNIX; strncpy(addr.sun_path, path, sizeof(addr.sun_path) - 1); if (connect(sock, (struct sockaddr *)&addr, sizeof(addr)) < 0) { fd_close(sock); return -1; } return sock; #else return -1; #endif } gint fd_open_unix(const gchar *path) { #ifdef G_OS_UNIX gint sock; struct sockaddr_un addr; gint val; sock = socket(PF_UNIX, SOCK_STREAM, 0); if (sock < 0) { perror("sock_open_unix(): socket"); return -1; } val = 1; if (setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &val, sizeof(val)) < 0) { perror("setsockopt"); fd_close(sock); return -1; } memset(&addr, 0, sizeof(addr)); addr.sun_family = AF_UNIX; strncpy(addr.sun_path, path, sizeof(addr.sun_path) - 1); if (bind(sock, (struct sockaddr *)&addr, sizeof(addr)) < 0) { perror("bind"); fd_close(sock); return -1; } if (listen(sock, 1) < 0) { perror("listen"); fd_close(sock); return -1; } return sock; #else return -1; #endif } gint fd_accept(gint sock) { struct sockaddr_in caddr; guint caddr_len; caddr_len = sizeof(caddr); return accept(sock, (struct sockaddr *)&caddr, &caddr_len); } SockInfo *sock_new(const gchar *hostname, gushort port) { SockInfo *sockinfo; sockinfo = g_new0(SockInfo, 1); sockinfo->sock = INVALID_SOCKET; sockinfo->sock_ch = NULL; sockinfo->hostname = g_strdup(hostname); sockinfo->port = port; sockinfo->state = CONN_READY; sockinfo->flags = 0; sockinfo->data = NULL; return sockinfo; } static SockInfo *sock_find_from_fd(gint fd) { GList *cur; for (cur = sock_list; cur != NULL; cur = cur->next) { if (((SockInfo *)cur->data)->sock == fd) return (SockInfo *)cur->data; } return NULL; } static gint set_nonblocking_mode(gint fd, gboolean nonblock) { #ifdef G_OS_WIN32 gulong val = nonblock ? 1 : 0; SockInfo *sock; if (!nonblock) WSAEventSelect(fd, NULL, 0); if (ioctlsocket(fd, FIONBIO, &val) == SOCKET_ERROR) { g_warning("set_nonblocking_mode(): ioctlsocket() failed: %ld\n", WSAGetLastError()); return -1; } sock = sock_find_from_fd(fd); if (sock) { if (nonblock) { SOCK_SET_FLAGS(sock->flags, SYL_SOCK_NONBLOCK); } else { SOCK_UNSET_FLAGS(sock->flags, SYL_SOCK_NONBLOCK); } } debug_print("set nonblocking mode to %d\n", nonblock); return 0; #else gint flags; flags = fcntl(fd, F_GETFL, 0); if (flags < 0) { perror("fcntl"); return -1; } if (nonblock) flags |= O_NONBLOCK; else flags &= ~O_NONBLOCK; return fcntl(fd, F_SETFL, flags); #endif } gint sock_set_nonblocking_mode(SockInfo *sock, gboolean nonblock) { gint ret; g_return_val_if_fail(sock != NULL, -1); ret = set_nonblocking_mode(sock->sock, nonblock); if (ret == 0) { if (nonblock) { SOCK_SET_FLAGS(sock->flags, SYL_SOCK_NONBLOCK); } else { SOCK_UNSET_FLAGS(sock->flags, SYL_SOCK_NONBLOCK); } } return ret; } static gboolean is_nonblocking_mode(gint fd) { #ifdef G_OS_WIN32 SockInfo *sock; sock = sock_find_from_fd(fd); if (sock) { return SOCK_IS_NONBLOCK(sock->flags); } return FALSE; #else gint flags; flags = fcntl(fd, F_GETFL, 0); if (flags < 0) { perror("fcntl"); return FALSE; } return ((flags & O_NONBLOCK) != 0); #endif } gboolean sock_is_nonblocking_mode(SockInfo *sock) { g_return_val_if_fail(sock != NULL, FALSE); #ifdef G_OS_WIN32 return SOCK_IS_NONBLOCK(sock->flags); #else return is_nonblocking_mode(sock->sock); #endif } gboolean sock_has_read_data(SockInfo *sock) { #ifdef G_OS_WIN32 gulong val; #if USE_SSL if (sock->ssl) return TRUE; #endif if (ioctlsocket(sock->sock, FIONREAD, &val) < 0) { g_warning("sock_has_read_data(): ioctlsocket() failed: %ld\n", WSAGetLastError()); return TRUE; } if (val == 0) return FALSE; else return TRUE; #else return TRUE; #endif } static gboolean sock_prepare(GSource *source, gint *timeout) { *timeout = 1; return FALSE; } static gboolean sock_check(GSource *source) { SockInfo *sock = ((SockSource *)source)->sock; struct timeval timeout = {0, 0}; fd_set fds; GIOCondition condition = sock->condition; #if USE_SSL if (sock->ssl) { if (condition & G_IO_IN) { if (SSL_pending(sock->ssl) > 0) return TRUE; if (SSL_want_write(sock->ssl)) condition |= G_IO_OUT; } if (condition & G_IO_OUT) { if (SSL_want_read(sock->ssl)) condition |= G_IO_IN; } } #endif FD_ZERO(&fds); FD_SET(sock->sock, &fds); select(sock->sock + 1, (condition & G_IO_IN) ? &fds : NULL, (condition & G_IO_OUT) ? &fds : NULL, NULL, &timeout); return FD_ISSET(sock->sock, &fds) != 0; } static gboolean sock_dispatch(GSource *source, GSourceFunc callback, gpointer user_data) { SockInfo *sock = ((SockSource *)source)->sock; return sock->callback(sock, sock->condition, sock->data); } static gboolean sock_watch_cb(GIOChannel *source, GIOCondition condition, gpointer data) { SockInfo *sock = (SockInfo *)data; if ((condition & sock->condition) == 0) return TRUE; return sock->callback(sock, sock->condition, sock->data); } guint sock_add_watch(SockInfo *sock, GIOCondition condition, SockFunc func, gpointer data) { sock->callback = func; sock->condition = condition; sock->data = data; #if USE_SSL if (sock->ssl) { GSource *source; source = g_source_new(&sock_watch_funcs, sizeof(SockSource)); ((SockSource *)source)->sock = sock; g_source_set_priority(source, G_PRIORITY_DEFAULT); g_source_set_can_recurse(source, FALSE); return g_source_attach(source, NULL); } #endif return g_io_add_watch(sock->sock_ch, condition, sock_watch_cb, sock); } guint sock_add_watch_poll(SockInfo *sock, GIOCondition condition, SockFunc func, gpointer data) { GSource *source; sock->callback = func; sock->condition = condition; sock->data = data; source = g_source_new(&sock_watch_funcs, sizeof(SockSource)); ((SockSource *)source)->sock = sock; g_source_set_priority(source, G_PRIORITY_DEFAULT); g_source_set_can_recurse(source, FALSE); return g_source_attach(source, NULL); } static gint fd_check_io(gint fd, GIOCondition cond) { struct timeval timeout; fd_set fds; SockInfo *sock; sock = sock_find_from_fd(fd); if (sock && !SOCK_IS_CHECK_IO(sock->flags)) return 0; timeout.tv_sec = io_timeout; timeout.tv_usec = 0; FD_ZERO(&fds); FD_SET(fd, &fds); if (cond == G_IO_IN) { select(fd + 1, &fds, NULL, NULL, io_timeout > 0 ? &timeout : NULL); } else { select(fd + 1, NULL, &fds, NULL, io_timeout > 0 ? &timeout : NULL); } if (FD_ISSET(fd, &fds)) { return 0; } else { g_warning("Socket IO timeout\n"); return -1; } } #if defined(G_OS_UNIX) && !defined(USE_THREADS) static sigjmp_buf jmpenv; static void timeout_handler(gint sig) { siglongjmp(jmpenv, 1); } #endif static gint sock_connect_with_timeout(gint sock, const struct sockaddr *serv_addr, gint addrlen, guint timeout_secs) { gint ret; #ifdef G_OS_WIN32 WSAEVENT hevent; gint err; DWORD dwret; WSANETWORKEVENTS events; errno = 0; hevent = WSACreateEvent(); if (hevent == WSA_INVALID_EVENT) return -1; ret = WSAEventSelect(sock, hevent, FD_CONNECT); if (ret == SOCKET_ERROR) { g_warning("sock_connect_with_timeout: WSAEventSelect"); WSACloseEvent(hevent); return -1; } ret = connect(sock, serv_addr, addrlen); if (ret == SOCKET_ERROR) { err = WSAGetLastError(); if (err != WSAEWOULDBLOCK) { g_warning("sock_connect_with_timeout: connect (%d)", err); ret = -1; goto end; } } dwret = WSAWaitForMultipleEvents(1, &hevent, FALSE, timeout_secs * 1000, FALSE); if (dwret == WSA_WAIT_TIMEOUT) { g_warning("sock_connect_with_timeout: timeout"); errno = WSAETIMEDOUT; ret = -1; goto end; } else if (dwret != WSA_WAIT_EVENT_0) { g_warning("sock_connect_with_timeout: WSAWaitForMultipleEvents (%d)", dwret); ret = -1; goto end; } ret = WSAEnumNetworkEvents(sock, hevent, &events); if (ret == SOCKET_ERROR) { g_warning("sock_connect_with_timeout: WSAEnumNetworkEvents (%d)", ret); ret = -1; goto end; } if ((events.lNetworkEvents & FD_CONNECT) && events.iErrorCode[FD_CONNECT_BIT] == 0) { ret = 0; errno = 0; } else ret = -1; end: WSAEventSelect(sock, NULL, 0); WSACloseEvent(hevent); set_nonblocking_mode(sock, FALSE); #else set_nonblocking_mode(sock, TRUE); ret = connect(sock, serv_addr, addrlen); if (ret < 0) { if (EINPROGRESS == errno) { fd_set fds; struct timeval tv; tv.tv_sec = timeout_secs; tv.tv_usec = 0; FD_ZERO(&fds); FD_SET(sock, &fds); do { ret = select(sock + 1, NULL, &fds, NULL, &tv); } while (ret < 0 && EINTR == errno); if (ret < 0) { perror("sock_connect_with_timeout: select"); return -1; } else if (ret == 0) { debug_print("sock_connect_with_timeout: timeout\n"); errno = ETIMEDOUT; return -1; } else { gint val; guint len; if (FD_ISSET(sock, &fds)) { ret = 0; } else { debug_print("sock_connect_with_timeout: fd not set\n"); return -1; } len = sizeof(val); if (getsockopt(sock, SOL_SOCKET, SO_ERROR, &val, &len) < 0) { perror("sock_connect_with_timeout: getsockopt"); return -1; } if (val != 0) { debug_print("sock_connect_with_timeout: getsockopt(SOL_SOCKET, SO_ERROR) returned error: %s\n", g_strerror(val)); return -1; } } } else { perror("sock_connect_with_timeout: connect"); return -1; } } set_nonblocking_mode(sock, FALSE); #endif return ret; } static void resolver_init(void) { #ifdef G_OS_UNIX static time_t resolv_conf_mtime = 0; GStatBuf s; if (g_stat("/etc/resolv.conf", &s) == 0 && s.st_mtime != resolv_conf_mtime) { debug_print("Reloading /etc/resolv.conf\n"); resolv_conf_mtime = s.st_mtime; res_init(); } #endif } struct hostent *my_gethostbyname(const gchar *hostname) { struct hostent *hp; #if defined(G_OS_UNIX) && !defined(USE_THREADS) void (*prev_handler)(gint); alarm(0); prev_handler = signal(SIGALRM, timeout_handler); if (sigsetjmp(jmpenv, 1)) { alarm(0); signal(SIGALRM, prev_handler); fprintf(stderr, "%s: host lookup timed out.\n", hostname); errno = 0; return NULL; } alarm(io_timeout); #endif if ((hp = gethostbyname(hostname)) == NULL) { #if defined(G_OS_UNIX) && !defined(USE_THREADS) alarm(0); signal(SIGALRM, prev_handler); #endif fprintf(stderr, "%s: unknown host.\n", hostname); errno = 0; return NULL; } #if defined(G_OS_UNIX) && !defined(USE_THREADS) alarm(0); signal(SIGALRM, prev_handler); #endif return hp; } static void sock_set_buffer_size(gint sock) { #ifdef G_OS_WIN32 gint val; guint len = sizeof(val); #define SOCK_BUFFSIZE 32768 getsockopt(sock, SOL_SOCKET, SO_SNDBUF, (char *)&val, &len); if (val < SOCK_BUFFSIZE) { val = SOCK_BUFFSIZE; setsockopt(sock, SOL_SOCKET, SO_SNDBUF, (char *)&val, len); } getsockopt(sock, SOL_SOCKET, SO_RCVBUF, (char *)&val, &len); if (val < SOCK_BUFFSIZE) { val = SOCK_BUFFSIZE; setsockopt(sock, SOL_SOCKET, SO_RCVBUF, (char *)&val, len); } getsockopt(sock, SOL_SOCKET, SO_SNDBUF, (char *)&val, &len); debug_print("SO_SNDBUF = %d\n", val); getsockopt(sock, SOL_SOCKET, SO_RCVBUF, (char *)&val, &len); debug_print("SO_RCVBUF = %d\n", val); #undef SOCK_BUFFSIZE #endif } #if !defined(INET6) || defined(G_OS_WIN32) static gint my_inet_aton(const gchar *hostname, struct in_addr *inp) { #if HAVE_INET_ATON return inet_aton(hostname, inp); #else #if HAVE_INET_ADDR guint32 inaddr; inaddr = inet_addr(hostname); if (inaddr != -1) { memcpy(inp, &inaddr, sizeof(inaddr)); return 1; } else return 0; #else return 0; #endif #endif /* HAVE_INET_ATON */ } #endif /* !defined(INET6) || defined(G_OS_WIN32) */ #ifndef INET6 static gint sock_info_connect_by_hostname(SockInfo *sock) { struct hostent *hp; struct sockaddr_in ad; gint ret; g_return_val_if_fail(sock != NULL, -1); g_return_val_if_fail(sock->hostname != NULL && sock->port > 0, -1); resolver_init(); memset(&ad, 0, sizeof(ad)); ad.sin_family = AF_INET; ad.sin_port = htons(sock->port); if (!my_inet_aton(sock->hostname, &ad.sin_addr)) { if ((hp = my_gethostbyname(sock->hostname)) == NULL) { fprintf(stderr, "%s: unknown host.\n", sock->hostname); errno = 0; sock->state = CONN_LOOKUPFAILED; return -1; } if (hp->h_length != 4 && hp->h_length != 8) { fprintf(stderr, "illegal address length received for host %s\n", sock->hostname); errno = 0; sock->state = CONN_LOOKUPFAILED; return -1; } memcpy(&ad.sin_addr, hp->h_addr, hp->h_length); } sock->state = CONN_LOOKUPSUCCESS; ret = sock_connect_with_timeout(sock->sock, (struct sockaddr *)&ad, sizeof(ad), io_timeout); if (ret < 0) sock->state = CONN_FAILED; else sock->state = CONN_ESTABLISHED; return ret; } #else /* INET6 */ #ifdef G_OS_WIN32 static gboolean win32_ipv6_supported(void) { static gboolean ipv6_checked = FALSE; HMODULE hmodule; if (ipv6_checked) return getaddrinfo_func != NULL; hmodule = GetModuleHandleA("ws2_32"); if (hmodule) { getaddrinfo_func = (GetAddrInfoFunc)GetProcAddress(hmodule, "getaddrinfo"); freeaddrinfo_func = (FreeAddrInfoFunc)GetProcAddress(hmodule, "freeaddrinfo"); if (!getaddrinfo_func || !freeaddrinfo_func) { getaddrinfo_func = NULL; freeaddrinfo_func = NULL; } } if (getaddrinfo_func) debug_print("ws2_32 has IPv6 functions.\n"); else debug_print("ws2_32 does not have IPv6 functions.\n"); ipv6_checked = TRUE; return getaddrinfo_func != NULL; } /* subset of getaddrinfo() */ static int my_getaddrinfo(const char *node, const char *service, const struct addrinfo *hintp, struct addrinfo **res) { struct addrinfo *ai; struct sockaddr_in addr, *paddr; struct addrinfo hints; gint port = 0; if (win32_ipv6_supported()) return getaddrinfo_func(node, service, hintp, res); if (!hintp) { memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET; hints.ai_socktype = SOCK_STREAM; } else memcpy(&hints, hintp, sizeof(hints)); if (hints.ai_family != AF_UNSPEC && hints.ai_family != AF_INET) return EAI_FAMILY; if (hints.ai_socktype == 0) hints.ai_socktype = SOCK_STREAM; if (hints.ai_protocol == 0) hints.ai_protocol = IPPROTO_TCP; if (hints.ai_socktype != SOCK_STREAM) return EAI_SOCKTYPE; if (hints.ai_protocol != IPPROTO_TCP) return EAI_SOCKTYPE; #if 0 if (!node && !service) return EAI_NONAME; #endif if (!node || !service) return EAI_NONAME; port = atoi(service); memset(&addr, 0, sizeof(addr)); addr.sin_family = AF_INET; addr.sin_port = htons(port); if (!my_inet_aton(node, &addr.sin_addr)) { struct hostent *hp; if ((hp = my_gethostbyname(node)) == NULL) { fprintf(stderr, "%s: unknown host.\n", node); errno = 0; return EAI_NONAME; } if (hp->h_length != 4 && hp->h_length != 8) { fprintf(stderr, "illegal address length received for host %s\n", node); errno = 0; return EAI_FAIL; } memcpy(&addr.sin_addr, hp->h_addr, hp->h_length); } ai = g_malloc0(sizeof(struct addrinfo)); paddr = g_malloc(sizeof(struct sockaddr_in)); memcpy(paddr, &addr, sizeof(struct sockaddr_in)); ai->ai_flags = 0; ai->ai_family = AF_INET; ai->ai_socktype = hints.ai_socktype; ai->ai_protocol = hints.ai_protocol; ai->ai_addrlen = sizeof(struct sockaddr_in); ai->ai_addr = (struct sockaddr *)paddr; ai->ai_canonname = NULL; ai->ai_next = NULL; *res = ai; return 0; } static void my_freeaddrinfo(struct addrinfo *res) { if (win32_ipv6_supported()) { freeaddrinfo_func(res); return; } if (res) { g_free(res->ai_addr); g_free(res); } } #endif static SockDesc sock_info_connect_by_getaddrinfo(SockInfo *sockinfo) { SockDesc sock = INVALID_SOCKET; gint gai_error; struct addrinfo hints, *res, *ai; gchar port_str[6]; g_return_val_if_fail(sockinfo != NULL, INVALID_SOCKET); g_return_val_if_fail(sockinfo->hostname != NULL && sockinfo->port > 0, INVALID_SOCKET); resolver_init(); memset(&hints, 0, sizeof(hints)); /* hints.ai_flags = AI_CANONNAME; */ hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; /* convert port from integer to string. */ g_snprintf(port_str, sizeof(port_str), "%d", sockinfo->port); if ((gai_error = getaddrinfo(sockinfo->hostname, port_str, &hints, &res)) != 0) { #ifdef G_OS_WIN32 fprintf(stderr, "getaddrinfo for %s:%s failed: errno: %d\n", sockinfo->hostname, port_str, gai_error); #else fprintf(stderr, "getaddrinfo for %s:%s failed: %s\n", sockinfo->hostname, port_str, gai_strerror(gai_error)); #endif debug_print("getaddrinfo failed\n"); sockinfo->state = CONN_LOOKUPFAILED; return INVALID_SOCKET; } for (ai = res; ai != NULL; ai = ai->ai_next) { sock = socket(ai->ai_family, ai->ai_socktype, ai->ai_protocol); if (!SOCKET_IS_VALID(sock)) continue; sock_set_buffer_size(sock); if (sock_connect_with_timeout (sock, ai->ai_addr, ai->ai_addrlen, io_timeout) == 0) break; fd_close(sock); } if (res != NULL) freeaddrinfo(res); if (ai == NULL) { sockinfo->state = CONN_FAILED; return INVALID_SOCKET; } sockinfo->state = CONN_ESTABLISHED; return sock; } #endif /* !INET6 */ SockInfo *sock_connect(const gchar *hostname, gushort port) { SockInfo *sockinfo; sockinfo = sock_new(hostname, port); if (sock_info_connect(sockinfo) < 0) { sock_close(sockinfo); return NULL; } return sockinfo; } gint sock_info_connect(SockInfo *sockinfo) { SockDesc sock; #ifndef INET6 gint ret; #endif g_return_val_if_fail(sockinfo != NULL, -1); g_return_val_if_fail(sockinfo->hostname != NULL && sockinfo->port > 0, -1); #ifdef INET6 sock = sock_info_connect_by_getaddrinfo(sockinfo); if (!SOCKET_IS_VALID(sock)) { return -1; } #else sock = socket(AF_INET, SOCK_STREAM, 0); if (!SOCKET_IS_VALID(sock)) { #ifdef G_OS_WIN32 g_warning("socket() failed: %ld\n", WSAGetLastError()); #else perror("socket"); #endif /* G_OS_WIN32 */ sockinfo->state = CONN_FAILED; return -1; } sock_set_buffer_size(sock); sockinfo->sock = sock; if ((ret = sock_info_connect_by_hostname(sockinfo)) < 0) { if (errno != 0) perror("connect"); fd_close(sock); sockinfo->sock = INVALID_SOCKET; return ret; } #endif /* INET6 */ sockinfo->sock = sock; sockinfo->sock_ch = g_io_channel_unix_new(sock); sockinfo->flags = SYL_SOCK_CHECK_IO; sock_list = g_list_prepend(sock_list, sockinfo); g_usleep(100000); return 0; } #ifdef G_OS_UNIX static void sock_address_list_free(GList *addr_list) { GList *cur; for (cur = addr_list; cur != NULL; cur = cur->next) { SockAddrData *addr_data = (SockAddrData *)cur->data; g_free(addr_data->addr); g_free(addr_data); } g_list_free(addr_list); } /* asynchronous TCP connection */ static gboolean sock_connect_async_cb(GIOChannel *source, GIOCondition condition, gpointer data) { SockConnectData *conn_data = (SockConnectData *)data; gint fd; gint val; guint len; SockInfo *sockinfo; fd = g_io_channel_unix_get_fd(source); conn_data->io_tag = 0; conn_data->channel = NULL; g_io_channel_unref(source); if (condition & (G_IO_ERR | G_IO_HUP | G_IO_NVAL)) { debug_print("sock_connect_async_cb: condition = %d\n", condition); fd_close(fd); sock_connect_address_list_async(conn_data); return FALSE; } len = sizeof(val); if (getsockopt(fd, SOL_SOCKET, SO_ERROR, &val, &len) < 0) { perror("getsockopt"); fd_close(fd); sock_connect_address_list_async(conn_data); return FALSE; } if (val != 0) { debug_print("getsockopt(SOL_SOCKET, SO_ERROR) returned error\n"); fd_close(fd); sock_connect_address_list_async(conn_data); return FALSE; } sockinfo = conn_data->sock; sockinfo->sock = fd; sockinfo->sock_ch = g_io_channel_unix_new(fd); sockinfo->state = CONN_ESTABLISHED; sockinfo->flags = SYL_SOCK_NONBLOCK; sock_list = g_list_prepend(sock_list, sockinfo); conn_data->func(sockinfo, conn_data->data); conn_data->sock = NULL; sock_connect_async_cancel(conn_data->id); return FALSE; } static gint sock_connect_async_get_address_info_cb(GList *addr_list, gpointer data) { SockConnectData *conn_data = (SockConnectData *)data; conn_data->addr_list = addr_list; conn_data->cur_addr = addr_list; conn_data->lookup_data = NULL; return sock_connect_address_list_async(conn_data); } gint sock_connect_async(const gchar *hostname, gushort port, SockConnectFunc func, gpointer data) { SockInfo *sock; gint ret; sock = sock_new(hostname, port); ret = sock_info_connect_async(sock, func, data); if (ret < 0) sock_close(sock); return ret; } gint sock_info_connect_async(SockInfo *sock, SockConnectFunc func, gpointer data) { static gint id = 1; SockConnectData *conn_data; g_return_val_if_fail(sock != NULL, -1); g_return_val_if_fail(sock->hostname != NULL && sock->port > 0, -1); conn_data = g_new0(SockConnectData, 1); conn_data->id = id++; conn_data->hostname = g_strdup(sock->hostname); conn_data->port = sock->port; conn_data->addr_list = NULL; conn_data->cur_addr = NULL; conn_data->io_tag = 0; conn_data->sock = sock; conn_data->func = func; conn_data->data = data; conn_data->lookup_data = sock_get_address_info_async (sock->hostname, sock->port, sock_connect_async_get_address_info_cb, conn_data); if (conn_data->lookup_data == NULL) { g_free(conn_data->hostname); g_free(conn_data); return -1; } sock_connect_data_list = g_list_append(sock_connect_data_list, conn_data); return conn_data->id; } gint sock_connect_async_cancel(gint id) { SockConnectData *conn_data = NULL; GList *cur; for (cur = sock_connect_data_list; cur != NULL; cur = cur->next) { if (((SockConnectData *)cur->data)->id == id) { conn_data = (SockConnectData *)cur->data; break; } } if (conn_data) { sock_connect_data_list = g_list_remove(sock_connect_data_list, conn_data); if (conn_data->lookup_data) sock_get_address_info_async_cancel (conn_data->lookup_data); if (conn_data->io_tag > 0) g_source_remove(conn_data->io_tag); if (conn_data->channel) { g_io_channel_shutdown(conn_data->channel, FALSE, NULL); g_io_channel_unref(conn_data->channel); } if (conn_data->sock) sock_close(conn_data->sock); sock_address_list_free(conn_data->addr_list); g_free(conn_data->hostname); g_free(conn_data); } else { g_warning("sock_connect_async_cancel: id %d not found.\n", id); return -1; } return 0; } static gint sock_connect_address_list_async(SockConnectData *conn_data) { SockAddrData *addr_data; gint sock = -1; if (conn_data->addr_list == NULL) { g_warning("sock_connect_address_list_async: " "DNS lookup for %s failed", conn_data->hostname); conn_data->sock->state = CONN_LOOKUPFAILED; conn_data->func(conn_data->sock, conn_data->data); sock_connect_async_cancel(conn_data->id); return -1; } for (; conn_data->cur_addr != NULL; conn_data->cur_addr = conn_data->cur_addr->next) { addr_data = (SockAddrData *)conn_data->cur_addr->data; if ((sock = socket(addr_data->family, addr_data->socktype, addr_data->protocol)) < 0) { perror("socket"); continue; } sock_set_buffer_size(sock); set_nonblocking_mode(sock, TRUE); if (connect(sock, addr_data->addr, addr_data->addr_len) < 0) { if (EINPROGRESS == errno) { break; } else { perror("connect"); fd_close(sock); } } else break; } if (conn_data->cur_addr == NULL) { g_warning("sock_connect_address_list_async: " "connection to %s:%d failed", conn_data->hostname, conn_data->port); conn_data->sock->state = CONN_FAILED; conn_data->func(conn_data->sock, conn_data->data); sock_connect_async_cancel(conn_data->id); return -1; } debug_print("sock_connect_address_list_async: waiting for connect\n"); conn_data->cur_addr = conn_data->cur_addr->next; conn_data->channel = g_io_channel_unix_new(sock); conn_data->io_tag = g_io_add_watch (conn_data->channel, G_IO_OUT | G_IO_ERR | G_IO_HUP | G_IO_NVAL, sock_connect_async_cb, conn_data); return 0; } static gint sock_kill_process(pid_t pid) { pid_t ret = (pid_t)-1; kill(pid, SIGKILL); while (ret == (pid_t)-1) { if ((ret = waitpid(pid, NULL, 0)) != pid) { if (ret == (pid_t)-1 && errno != EINTR) { perror("sock_kill_process(): waitpid"); break; } } } return (gint)pid; } /* asynchronous DNS lookup */ static gboolean sock_get_address_info_async_cb(GIOChannel *source, GIOCondition condition, gpointer data) { SockLookupData *lookup_data = (SockLookupData *)data; GList *addr_list = NULL; SockAddrData *addr_data; gsize bytes_read; gint ai_member[4]; struct sockaddr *addr; for (;;) { if (g_io_channel_read(source, (gchar *)ai_member, sizeof(ai_member), &bytes_read) != G_IO_ERROR_NONE) { g_warning("sock_get_address_info_async_cb: " "address length read error\n"); break; } if (bytes_read == 0 || bytes_read != sizeof(ai_member)) break; if (ai_member[0] == AF_UNSPEC) { g_warning("DNS lookup failed"); break; } addr = g_malloc(ai_member[3]); if (g_io_channel_read(source, (gchar *)addr, ai_member[3], &bytes_read) != G_IO_ERROR_NONE) { g_warning("sock_get_address_info_async_cb: " "address data read error\n"); g_free(addr); break; } if (bytes_read != ai_member[3]) { g_warning("sock_get_address_info_async_cb: " "incomplete address data\n"); g_free(addr); break; } addr_data = g_new0(SockAddrData, 1); addr_data->family = ai_member[0]; addr_data->socktype = ai_member[1]; addr_data->protocol = ai_member[2]; addr_data->addr_len = ai_member[3]; addr_data->addr = addr; addr_list = g_list_append(addr_list, addr_data); } g_io_channel_shutdown(source, FALSE, NULL); g_io_channel_unref(source); sock_kill_process(lookup_data->child_pid); lookup_data->func(addr_list, lookup_data->data); g_free(lookup_data->hostname); g_free(lookup_data); return FALSE; } static SockLookupData *sock_get_address_info_async(const gchar *hostname, gushort port, SockAddrFunc func, gpointer data) { SockLookupData *lookup_data = NULL; gint pipe_fds[2]; pid_t pid; resolver_init(); if (pipe(pipe_fds) < 0) { perror("pipe"); func(NULL, data); return NULL; } if ((pid = fork()) < 0) { perror("fork"); func(NULL, data); return NULL; } /* child process */ if (pid == 0) { #ifdef INET6 gint gai_err; struct addrinfo hints, *res, *ai; gchar port_str[6]; #else /* !INET6 */ struct hostent *hp; gchar **addr_list_p; struct sockaddr_in ad; #endif /* INET6 */ gint ai_member[4] = {AF_UNSPEC, 0, 0, 0}; close(pipe_fds[0]); #ifdef INET6 memset(&hints, 0, sizeof(hints)); /* hints.ai_flags = AI_CANONNAME; */ hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; g_snprintf(port_str, sizeof(port_str), "%d", port); gai_err = getaddrinfo(hostname, port_str, &hints, &res); if (gai_err != 0) { g_warning("getaddrinfo for %s:%s failed: %s", hostname, port_str, gai_strerror(gai_err)); fd_write_all(pipe_fds[1], (gchar *)ai_member, sizeof(ai_member)); close(pipe_fds[1]); _exit(1); } for (ai = res; ai != NULL; ai = ai->ai_next) { ai_member[0] = ai->ai_family; ai_member[1] = ai->ai_socktype; ai_member[2] = ai->ai_protocol; ai_member[3] = ai->ai_addrlen; fd_write_all(pipe_fds[1], (gchar *)ai_member, sizeof(ai_member)); fd_write_all(pipe_fds[1], (gchar *)ai->ai_addr, ai->ai_addrlen); } if (res != NULL) freeaddrinfo(res); #else /* !INET6 */ hp = my_gethostbyname(hostname); if (hp == NULL || hp->h_addrtype != AF_INET) { fd_write_all(pipe_fds[1], (gchar *)ai_member, sizeof(ai_member)); close(pipe_fds[1]); _exit(1); } ai_member[0] = AF_INET; ai_member[1] = SOCK_STREAM; ai_member[2] = IPPROTO_TCP; ai_member[3] = sizeof(ad); memset(&ad, 0, sizeof(ad)); ad.sin_family = AF_INET; ad.sin_port = htons(port); for (addr_list_p = hp->h_addr_list; *addr_list_p != NULL; addr_list_p++) { memcpy(&ad.sin_addr, *addr_list_p, hp->h_length); fd_write_all(pipe_fds[1], (gchar *)ai_member, sizeof(ai_member)); fd_write_all(pipe_fds[1], (gchar *)&ad, sizeof(ad)); } #endif /* INET6 */ close(pipe_fds[1]); _exit(0); } else { close(pipe_fds[1]); lookup_data = g_new0(SockLookupData, 1); lookup_data->hostname = g_strdup(hostname); lookup_data->child_pid = pid; lookup_data->func = func; lookup_data->data = data; lookup_data->channel = g_io_channel_unix_new(pipe_fds[0]); lookup_data->io_tag = g_io_add_watch (lookup_data->channel, G_IO_IN, sock_get_address_info_async_cb, lookup_data); } return lookup_data; } static gint sock_get_address_info_async_cancel(SockLookupData *lookup_data) { if (lookup_data->io_tag > 0) g_source_remove(lookup_data->io_tag); if (lookup_data->channel) { g_io_channel_shutdown(lookup_data->channel, FALSE, NULL); g_io_channel_unref(lookup_data->channel); } if (lookup_data->child_pid > 0) sock_kill_process(lookup_data->child_pid); g_free(lookup_data->hostname); g_free(lookup_data); return 0; } #endif /* G_OS_UNIX */ #if USE_THREADS static gpointer sock_connect_async_func(gpointer data) { SockConnectData *conn_data = (SockConnectData *)data; gint ret; ret = sock_info_connect(conn_data->sock); if (ret == 0) { debug_print("sock_connect_async_func: connected\n"); } else { if (conn_data->sock->state == CONN_LOOKUPFAILED) debug_print("sock_connect_async_func: DNS lookup failed\n"); else debug_print("sock_connect_async_func: connection failed\n"); } g_atomic_int_set(&conn_data->flag, 1); g_main_context_wakeup(NULL); debug_print("sock_connect_async_func: exit\n"); return GINT_TO_POINTER(ret); } gint sock_connect_async_thread(const gchar *hostname, gushort port) { SockInfo *sock; gint ret; sock = sock_new(hostname, port); ret = sock_info_connect_async_thread(sock); if (ret < 0) sock_close(sock); return ret; } gint sock_info_connect_async_thread(SockInfo *sock) { static gint id = 1; SockConnectData *data; g_return_val_if_fail(sock != NULL, -1); g_return_val_if_fail(sock->hostname != NULL && sock->port > 0, -1); data = g_new0(SockConnectData, 1); data->id = id++; data->hostname = g_strdup(sock->hostname); data->port = sock->port; data->flag = 0; data->sock = sock; data->thread = g_thread_create(sock_connect_async_func, data, TRUE, NULL); if (!data->thread) { g_free(data->hostname); g_free(data); return -1; } sock_connect_data_list = g_list_append(sock_connect_data_list, data); return data->id; } gint sock_connect_async_thread_wait(gint id, SockInfo **sock) { gint ret; *sock = NULL; ret = sock_info_connect_async_thread_wait(id, sock); if (ret < 0) { if (*sock) { sock_close(*sock); *sock = NULL; } } return ret; } gint sock_info_connect_async_thread_wait(gint id, SockInfo **sock) { SockConnectData *conn_data = NULL; GList *cur; gint ret; for (cur = sock_connect_data_list; cur != NULL; cur = cur->next) { if (((SockConnectData *)cur->data)->id == id) { conn_data = (SockConnectData *)cur->data; break; } } if (!conn_data) { g_warning("sock_info_connect_async_thread_wait: id %d not found.", id); return -1; } debug_print("sock_connect_async_thread_wait: waiting thread\n"); while (g_atomic_int_get(&conn_data->flag) == 0) event_loop_iterate(); ret = GPOINTER_TO_INT(g_thread_join(conn_data->thread)); debug_print("sock_info_connect_async_thread_wait: thread exited with status %d\n", ret); if (sock) *sock = conn_data->sock; sock_connect_data_list = g_list_remove(sock_connect_data_list, conn_data); g_free(conn_data->hostname); g_free(conn_data); return ret; } #endif /* USE_THREADS */ gint sock_printf(SockInfo *sock, const gchar *format, ...) { va_list args; gchar buf[BUFFSIZE]; va_start(args, format); g_vsnprintf(buf, sizeof(buf), format, args); va_end(args); return sock_write_all(sock, buf, strlen(buf)); } #ifdef G_OS_WIN32 static void sock_set_errno_from_last_error(gint error) { switch (error) { case WSAEWOULDBLOCK: errno = EAGAIN; break; default: debug_print("last error = %d\n", error); errno = 0; break; } } #endif gint sock_read(SockInfo *sock, gchar *buf, gint len) { g_return_val_if_fail(sock != NULL, -1); #if USE_SSL if (sock->ssl) return ssl_read(sock->ssl, buf, len); #endif return fd_read(sock->sock, buf, len); } gint fd_read(gint fd, gchar *buf, gint len) { #ifdef G_OS_WIN32 return fd_recv(fd, buf, len, 0); #else if (fd_check_io(fd, G_IO_IN) < 0) return -1; return read(fd, buf, len); #endif } #if USE_SSL gint ssl_read(SSL *ssl, gchar *buf, gint len) { gint err, ret; errno = 0; if (SSL_pending(ssl) == 0) { if (fd_check_io(SSL_get_rfd(ssl), G_IO_IN) < 0) return -1; } ret = SSL_read(ssl, buf, len); switch ((err = SSL_get_error(ssl, ret))) { case SSL_ERROR_NONE: return ret; case SSL_ERROR_WANT_READ: case SSL_ERROR_WANT_WRITE: errno = EAGAIN; return -1; case SSL_ERROR_ZERO_RETURN: return 0; default: g_warning("SSL_read() returned error %d, ret = %d\n", err, ret); if (ret == 0) return 0; #ifdef G_OS_WIN32 errno = EIO; #endif return -1; } } #endif gint sock_write(SockInfo *sock, const gchar *buf, gint len) { g_return_val_if_fail(sock != NULL, -1); #if USE_SSL if (sock->ssl) return ssl_write(sock->ssl, buf, len); #endif return fd_write(sock->sock, buf, len); } gint fd_write(gint fd, const gchar *buf, gint len) { #ifdef G_OS_WIN32 gint ret; #endif if (fd_check_io(fd, G_IO_OUT) < 0) return -1; #ifdef G_OS_WIN32 ret = send(fd, buf, len, 0); if (ret == SOCKET_ERROR) { gint err; err = WSAGetLastError(); sock_set_errno_from_last_error(err); if (err != WSAEWOULDBLOCK) g_warning("fd_write() failed with %d (errno = %d)\n", err, errno); } return ret; #else return write(fd, buf, len); #endif } #if USE_SSL gint ssl_write(SSL *ssl, const gchar *buf, gint len) { gint ret; ret = SSL_write(ssl, buf, len); switch (SSL_get_error(ssl, ret)) { case SSL_ERROR_NONE: return ret; case SSL_ERROR_WANT_READ: case SSL_ERROR_WANT_WRITE: errno = EAGAIN; return -1; default: return -1; } } #endif gint sock_write_all(SockInfo *sock, const gchar *buf, gint len) { g_return_val_if_fail(sock != NULL, -1); #if USE_SSL if (sock->ssl) return ssl_write_all(sock->ssl, buf, len); #endif return fd_write_all(sock->sock, buf, len); } gint fd_write_all(gint fd, const gchar *buf, gint len) { gint n, wrlen = 0; while (len) { n = fd_write(fd, buf, len); if (n <= 0) return -1; len -= n; wrlen += n; buf += n; } return wrlen; } #if USE_SSL gint ssl_write_all(SSL *ssl, const gchar *buf, gint len) { gint n, wrlen = 0; while (len) { n = ssl_write(ssl, buf, len); if (n <= 0) return -1; len -= n; wrlen += n; buf += n; } return wrlen; } #endif gint fd_recv(gint fd, gchar *buf, gint len, gint flags) { #ifdef G_OS_WIN32 gint ret; #endif if (fd_check_io(fd, G_IO_IN) < 0) return -1; #ifdef G_OS_WIN32 ret = recv(fd, buf, len, flags); if (ret == SOCKET_ERROR) { gint err; err = WSAGetLastError(); sock_set_errno_from_last_error(err); if (err != WSAEWOULDBLOCK) g_warning("fd_recv(): failed with %d (errno = %d)\n", err, errno); } return ret; #else return recv(fd, buf, len, flags); #endif } gint fd_gets(gint fd, gchar *buf, gint len) { gchar *newline, *bp = buf; gint n; if (--len < 1) return -1; do { if ((n = fd_recv(fd, bp, len, MSG_PEEK)) <= 0) return -1; if ((newline = memchr(bp, '\n', n)) != NULL) n = newline - bp + 1; if ((n = fd_read(fd, bp, n)) < 0) return -1; bp += n; len -= n; } while (!newline && len); *bp = '\0'; return bp - buf; } #if USE_SSL gint ssl_gets(SSL *ssl, gchar *buf, gint len) { gchar *newline, *bp = buf; gint n; if (--len < 1) return -1; do { if ((n = ssl_peek(ssl, bp, len)) <= 0) return -1; if ((newline = memchr(bp, '\n', n)) != NULL) n = newline - bp + 1; if ((n = ssl_read(ssl, bp, n)) < 0) return -1; bp += n; len -= n; } while (!newline && len); *bp = '\0'; return bp - buf; } #endif gint sock_gets(SockInfo *sock, gchar *buf, gint len) { g_return_val_if_fail(sock != NULL, -1); #if USE_SSL if (sock->ssl) return ssl_gets(sock->ssl, buf, len); #endif return fd_gets(sock->sock, buf, len); } gint fd_getline(gint fd, gchar **line) { gchar buf[BUFFSIZE]; gchar *str = NULL; gint len; gulong size = 0; gulong cur_offset = 0; while ((len = fd_gets(fd, buf, sizeof(buf))) > 0) { size += len; str = g_realloc(str, size + 1); memcpy(str + cur_offset, buf, len + 1); cur_offset += len; if (buf[len - 1] == '\n') break; } *line = str; if (!str) return -1; else return (gint)size; } #if USE_SSL gint ssl_getline(SSL *ssl, gchar **line) { gchar buf[BUFFSIZE]; gchar *str = NULL; gint len; gulong size = 0; gulong cur_offset = 0; while ((len = ssl_gets(ssl, buf, sizeof(buf))) > 0) { size += len; str = g_realloc(str, size + 1); memcpy(str + cur_offset, buf, len + 1); cur_offset += len; if (buf[len - 1] == '\n') break; } *line = str; if (!str) return -1; else return (gint)size; } #endif gint sock_getline(SockInfo *sock, gchar **line) { g_return_val_if_fail(sock != NULL, -1); g_return_val_if_fail(line != NULL, -1); #if USE_SSL if (sock->ssl) return ssl_getline(sock->ssl, line); #endif return fd_getline(sock->sock, line); } gint sock_puts(SockInfo *sock, const gchar *buf) { gint ret; if ((ret = sock_write_all(sock, buf, strlen(buf))) < 0) return ret; return sock_write_all(sock, "\r\n", 2); } /* peek at the socket data without actually reading it */ #if USE_SSL gint ssl_peek(SSL *ssl, gchar *buf, gint len) { gint err, ret; if (SSL_pending(ssl) == 0) { if (fd_check_io(SSL_get_rfd(ssl), G_IO_IN) < 0) return -1; } ret = SSL_peek(ssl, buf, len); switch ((err = SSL_get_error(ssl, ret))) { case SSL_ERROR_NONE: return ret; case SSL_ERROR_WANT_READ: case SSL_ERROR_WANT_WRITE: errno = EAGAIN; return -1; case SSL_ERROR_ZERO_RETURN: return 0; default: g_warning("SSL_peek() returned error %d, ret = %d\n", err, ret); if (ret == 0) return 0; return -1; } } #endif gint sock_peek(SockInfo *sock, gchar *buf, gint len) { g_return_val_if_fail(sock != NULL, -1); #if USE_SSL if (sock->ssl) return ssl_peek(sock->ssl, buf, len); #endif return fd_recv(sock->sock, buf, len, MSG_PEEK); } gint sock_close(SockInfo *sock) { GList *cur; if (!sock) return 0; debug_print("sock_close: %s:%u (%p)\n", sock->hostname ? sock->hostname : "(none)", sock->port, sock); #if USE_SSL if (sock->ssl) ssl_done_socket(sock); #endif if (sock->sock_ch) { g_io_channel_shutdown(sock->sock_ch, FALSE, NULL); g_io_channel_unref(sock->sock_ch); } for (cur = sock_list; cur != NULL; cur = cur->next) { if ((SockInfo *)cur->data == sock) { sock_list = g_list_remove(sock_list, sock); break; } } g_free(sock->hostname); g_free(sock); return 0; } gint fd_close(gint fd) { #ifdef G_OS_WIN32 return closesocket(fd); #else return close(fd); #endif }