/* * poll.c - poll wrapper * * This file is part of the SSH Library * * Copyright (c) 2009-2013 by Andreas Schneider * Copyright (c) 2003-2013 by Aris Adamantiadis * Copyright (c) 2009 Aleksandar Kanchev * * The SSH 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. * * The SSH 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 the SSH Library; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, * MA 02111-1307, USA. */ #include "config.h" #include #include #include "libssh/priv.h" #include "libssh/libssh.h" #include "libssh/poll.h" #include "libssh/socket.h" #include "libssh/session.h" #include "libssh/misc.h" #ifdef WITH_SERVER #include "libssh/server.h" #endif #ifndef SSH_POLL_CTX_CHUNK #define SSH_POLL_CTX_CHUNK 5 #endif /** * @defgroup libssh_poll The SSH poll functions. * @ingroup libssh * * Add a generic way to handle sockets asynchronously. * * It's based on poll objects, each of which store a socket, its events and a * callback, which gets called whenever an event is set. The poll objects are * attached to a poll context, which should be allocated on per thread basis. * * Polling the poll context will poll all the attached poll objects and call * their callbacks (handlers) if any of the socket events are set. This should * be done within the main loop of an application. * * @{ */ struct ssh_poll_handle_struct { ssh_poll_ctx ctx; ssh_session session; union { socket_t fd; size_t idx; } x; short events; int lock; ssh_poll_callback cb; void *cb_data; }; struct ssh_poll_ctx_struct { ssh_poll_handle *pollptrs; ssh_pollfd_t *pollfds; size_t polls_allocated; size_t polls_used; size_t chunk_size; }; #ifdef HAVE_POLL #include void ssh_poll_init(void) { return; } void ssh_poll_cleanup(void) { return; } int ssh_poll(ssh_pollfd_t *fds, nfds_t nfds, int timeout) { return poll((struct pollfd *) fds, nfds, timeout); } #else /* HAVE_POLL */ typedef int (*poll_fn)(ssh_pollfd_t *, nfds_t, int); static poll_fn ssh_poll_emu; #include #include #ifdef _WIN32 #ifndef STRICT #define STRICT #endif /* STRICT */ #include #include #include #else /* _WIN32 */ #include #include # ifdef HAVE_SYS_TIME_H # include # endif #endif /* _WIN32 */ #ifdef HAVE_UNISTD_H #include #endif static bool bsd_socket_not_connected(int sock_err) { switch (sock_err) { #ifdef _WIN32 case WSAENOTCONN: #else case ENOTCONN: #endif return true; default: return false; } return false; } static bool bsd_socket_reset(int sock_err) { switch (sock_err) { #ifdef _WIN32 case WSAECONNABORTED: case WSAECONNRESET: case WSAENETRESET: case WSAESHUTDOWN: case WSAECONNREFUSED: case WSAETIMEDOUT: #else case ECONNABORTED: case ECONNRESET: case ENETRESET: case ESHUTDOWN: #endif return true; default: return false; } return false; } static short bsd_socket_compute_revents(int fd, short events) { int save_errno = errno; int sock_errno = errno; char data[64] = {0}; short revents = 0; int flags = MSG_PEEK; int ret; #ifdef MSG_NOSIGNAL flags |= MSG_NOSIGNAL; #endif /* support for POLLHUP */ #ifdef _WIN32 WSASetLastError(0); #endif ret = recv(fd, data, 64, flags); errno = save_errno; #ifdef _WIN32 sock_errno = WSAGetLastError(); WSASetLastError(0); #endif if (ret > 0 || bsd_socket_not_connected(sock_errno)) { revents = (POLLIN | POLLRDNORM) & events; } else if (ret == 0 || bsd_socket_reset(sock_errno)) { errno = sock_errno; revents = POLLHUP; } else { revents = POLLERR; } return revents; } /* * This is a poll(2)-emulation using select for systems not providing a native * poll implementation. * * Keep in mind that select is terribly inefficient. The interface is simply not * meant to be used with maximum descriptor value greater, say, 32 or so. With * a value as high as 1024 on Linux you'll pay dearly in every single call. * poll() will be orders of magnitude faster. */ static int bsd_poll(ssh_pollfd_t *fds, nfds_t nfds, int timeout) { fd_set readfds, writefds, exceptfds; struct timeval tv, *ptv = NULL; socket_t max_fd; int rc; nfds_t i; if (fds == NULL) { errno = EFAULT; return -1; } ZERO_STRUCT(readfds); FD_ZERO(&readfds); ZERO_STRUCT(writefds); FD_ZERO(&writefds); ZERO_STRUCT(exceptfds); FD_ZERO(&exceptfds); /* compute fd_sets and find largest descriptor */ for (rc = -1, max_fd = 0, i = 0; i < nfds; i++) { if (fds[i].fd == SSH_INVALID_SOCKET) { continue; } #ifndef _WIN32 if (fds[i].fd >= FD_SETSIZE) { rc = -1; break; } #endif if (fds[i].events & (POLLIN | POLLRDNORM)) { FD_SET (fds[i].fd, &readfds); } if (fds[i].events & (POLLOUT | POLLWRNORM | POLLWRBAND)) { FD_SET (fds[i].fd, &writefds); } if (fds[i].events & (POLLPRI | POLLRDBAND)) { FD_SET (fds[i].fd, &exceptfds); } if (fds[i].fd > max_fd && (fds[i].events & (POLLIN | POLLOUT | POLLPRI | POLLRDNORM | POLLRDBAND | POLLWRNORM | POLLWRBAND))) { max_fd = fds[i].fd; rc = 0; } } if (max_fd == SSH_INVALID_SOCKET || rc == -1) { errno = EINVAL; return -1; } if (timeout < 0) { ptv = NULL; } else { ptv = &tv; if (timeout == 0) { tv.tv_sec = 0; tv.tv_usec = 0; } else { tv.tv_sec = timeout / 1000; tv.tv_usec = (timeout % 1000) * 1000; } } rc = select(max_fd + 1, &readfds, &writefds, &exceptfds, ptv); if (rc < 0) { return -1; } /* A timeout occured */ if (rc == 0) { return 0; } for (rc = 0, i = 0; i < nfds; i++) { if (fds[i].fd >= 0) { fds[i].revents = 0; if (FD_ISSET(fds[i].fd, &readfds)) { fds[i].revents = bsd_socket_compute_revents(fds[i].fd, fds[i].events); } if (FD_ISSET(fds[i].fd, &writefds)) { fds[i].revents |= fds[i].events & (POLLOUT | POLLWRNORM | POLLWRBAND); } if (FD_ISSET(fds[i].fd, &exceptfds)) { fds[i].revents |= fds[i].events & (POLLPRI | POLLRDBAND); } if (fds[i].revents != 0) { rc++; } } else { fds[i].revents = POLLNVAL; } } return rc; } void ssh_poll_init(void) { ssh_poll_emu = bsd_poll; } void ssh_poll_cleanup(void) { ssh_poll_emu = bsd_poll; } int ssh_poll(ssh_pollfd_t *fds, nfds_t nfds, int timeout) { return (ssh_poll_emu)(fds, nfds, timeout); } #endif /* HAVE_POLL */ /** * @brief Allocate a new poll object, which could be used within a poll context. * * @param fd Socket that will be polled. * @param events Poll events that will be monitored for the socket. i.e. * POLLIN, POLLPRI, POLLOUT * @param cb Function to be called if any of the events are set. * The prototype of cb is: * int (*ssh_poll_callback)(ssh_poll_handle p, socket_t fd, * int revents, void *userdata); * @param userdata Userdata to be passed to the callback function. NULL if * not needed. * * @return A new poll object, NULL on error */ ssh_poll_handle ssh_poll_new(socket_t fd, short events, ssh_poll_callback cb, void *userdata) { ssh_poll_handle p; p = malloc(sizeof(struct ssh_poll_handle_struct)); if (p == NULL) { return NULL; } ZERO_STRUCTP(p); p->x.fd = fd; p->events = events; p->cb = cb; p->cb_data = userdata; return p; } /** * @brief Free a poll object. * * @param p Pointer to an already allocated poll object. */ void ssh_poll_free(ssh_poll_handle p) { if(p->ctx != NULL){ ssh_poll_ctx_remove(p->ctx,p); p->ctx=NULL; } SAFE_FREE(p); } /** * @brief Get the poll context of a poll object. * * @param p Pointer to an already allocated poll object. * * @return Poll context or NULL if the poll object isn't attached. */ ssh_poll_ctx ssh_poll_get_ctx(ssh_poll_handle p) { return p->ctx; } /** * @brief Get the events of a poll object. * * @param p Pointer to an already allocated poll object. * * @return Poll events. */ short ssh_poll_get_events(ssh_poll_handle p) { return p->events; } /** * @brief Set the events of a poll object. The events will also be propagated * to an associated poll context. * * @param p Pointer to an already allocated poll object. * @param events Poll events. */ void ssh_poll_set_events(ssh_poll_handle p, short events) { p->events = events; if (p->ctx != NULL && !p->lock) { p->ctx->pollfds[p->x.idx].events = events; } } /** * @brief Set the file descriptor of a poll object. The FD will also be propagated * to an associated poll context. * * @param p Pointer to an already allocated poll object. * @param fd New file descriptor. */ void ssh_poll_set_fd(ssh_poll_handle p, socket_t fd) { if (p->ctx != NULL) { p->ctx->pollfds[p->x.idx].fd = fd; } else { p->x.fd = fd; } } /** * @brief Add extra events to a poll object. Duplicates are ignored. * The events will also be propagated to an associated poll context. * * @param p Pointer to an already allocated poll object. * @param events Poll events. */ void ssh_poll_add_events(ssh_poll_handle p, short events) { ssh_poll_set_events(p, ssh_poll_get_events(p) | events); } /** * @brief Remove events from a poll object. Non-existent are ignored. * The events will also be propagated to an associated poll context. * * @param p Pointer to an already allocated poll object. * @param events Poll events. */ void ssh_poll_remove_events(ssh_poll_handle p, short events) { ssh_poll_set_events(p, ssh_poll_get_events(p) & ~events); } /** * @brief Get the raw socket of a poll object. * * @param p Pointer to an already allocated poll object. * * @return Raw socket. */ socket_t ssh_poll_get_fd(ssh_poll_handle p) { if (p->ctx != NULL) { return p->ctx->pollfds[p->x.idx].fd; } return p->x.fd; } /** * @brief Set the callback of a poll object. * * @param p Pointer to an already allocated poll object. * @param cb Function to be called if any of the events are set. * @param userdata Userdata to be passed to the callback function. NULL if * not needed. */ void ssh_poll_set_callback(ssh_poll_handle p, ssh_poll_callback cb, void *userdata) { if (cb != NULL) { p->cb = cb; p->cb_data = userdata; } } /** * @brief Create a new poll context. It could be associated with many poll object * which are going to be polled at the same time as the poll context. You * would need a single poll context per thread. * * @param chunk_size The size of the memory chunk that will be allocated, when * more memory is needed. This is for efficiency reasons, * i.e. don't allocate memory for each new poll object, but * for the next 5. Set it to 0 if you want to use the * library's default value. */ ssh_poll_ctx ssh_poll_ctx_new(size_t chunk_size) { ssh_poll_ctx ctx; ctx = malloc(sizeof(struct ssh_poll_ctx_struct)); if (ctx == NULL) { return NULL; } ZERO_STRUCTP(ctx); if (chunk_size == 0) { chunk_size = SSH_POLL_CTX_CHUNK; } ctx->chunk_size = chunk_size; return ctx; } /** * @brief Free a poll context. * * @param ctx Pointer to an already allocated poll context. */ void ssh_poll_ctx_free(ssh_poll_ctx ctx) { if (ctx->polls_allocated > 0) { while (ctx->polls_used > 0){ ssh_poll_handle p = ctx->pollptrs[0]; /* * The free function calls ssh_poll_ctx_remove() and decrements * ctx->polls_used */ ssh_poll_free(p); } SAFE_FREE(ctx->pollptrs); SAFE_FREE(ctx->pollfds); } SAFE_FREE(ctx); } static int ssh_poll_ctx_resize(ssh_poll_ctx ctx, size_t new_size) { ssh_poll_handle *pollptrs; ssh_pollfd_t *pollfds; pollptrs = realloc(ctx->pollptrs, sizeof(ssh_poll_handle) * new_size); if (pollptrs == NULL) { return -1; } ctx->pollptrs = pollptrs; pollfds = realloc(ctx->pollfds, sizeof(ssh_pollfd_t) * new_size); if (pollfds == NULL) { pollptrs = realloc(ctx->pollptrs, sizeof(ssh_poll_handle) * ctx->polls_allocated); if (pollptrs == NULL) { return -1; } ctx->pollptrs = pollptrs; return -1; } ctx->pollfds = pollfds; ctx->polls_allocated = new_size; return 0; } /** * @brief Add a poll object to a poll context. * * @param ctx Pointer to an already allocated poll context. * @param p Pointer to an already allocated poll object. * * @return 0 on success, < 0 on error */ int ssh_poll_ctx_add(ssh_poll_ctx ctx, ssh_poll_handle p) { socket_t fd; if (p->ctx != NULL) { /* already attached to a context */ return -1; } if (ctx->polls_used == ctx->polls_allocated && ssh_poll_ctx_resize(ctx, ctx->polls_allocated + ctx->chunk_size) < 0) { return -1; } fd = p->x.fd; p->x.idx = ctx->polls_used++; ctx->pollptrs[p->x.idx] = p; ctx->pollfds[p->x.idx].fd = fd; ctx->pollfds[p->x.idx].events = p->events; ctx->pollfds[p->x.idx].revents = 0; p->ctx = ctx; return 0; } /** * @brief Add a socket object to a poll context. * * @param ctx Pointer to an already allocated poll context. * @param s A SSH socket handle * * @return 0 on success, < 0 on error */ int ssh_poll_ctx_add_socket (ssh_poll_ctx ctx, ssh_socket s) { ssh_poll_handle p; int ret; p = ssh_socket_get_poll_handle(s); if (p == NULL) { return -1; } ret = ssh_poll_ctx_add(ctx,p); return ret; } /** * @brief Remove a poll object from a poll context. * * @param ctx Pointer to an already allocated poll context. * @param p Pointer to an already allocated poll object. */ void ssh_poll_ctx_remove(ssh_poll_ctx ctx, ssh_poll_handle p) { size_t i; i = p->x.idx; p->x.fd = ctx->pollfds[i].fd; p->ctx = NULL; ctx->polls_used--; /* fill the empty poll slot with the last one */ if (ctx->polls_used > 0 && ctx->polls_used != i) { ctx->pollfds[i] = ctx->pollfds[ctx->polls_used]; ctx->pollptrs[i] = ctx->pollptrs[ctx->polls_used]; ctx->pollptrs[i]->x.idx = i; } /* this will always leave at least chunk_size polls allocated */ if (ctx->polls_allocated - ctx->polls_used > ctx->chunk_size) { ssh_poll_ctx_resize(ctx, ctx->polls_allocated - ctx->chunk_size); } } /** * @brief Poll all the sockets associated through a poll object with a * poll context. If any of the events are set after the poll, the * call back function of the socket will be called. * This function should be called once within the programs main loop. * * @param ctx Pointer to an already allocated poll context. * @param timeout An upper limit on the time for which ssh_poll_ctx() will * block, in milliseconds. Specifying a negative value * means an infinite timeout. This parameter is passed to * the poll() function. * @returns SSH_OK No error. * SSH_ERROR Error happened during the poll. * SSH_AGAIN Timeout occured */ int ssh_poll_ctx_dopoll(ssh_poll_ctx ctx, int timeout) { int rc; size_t i, used; ssh_poll_handle p; socket_t fd; int revents; struct ssh_timestamp ts; if (ctx->polls_used == 0) { return SSH_ERROR; } ssh_timestamp_init(&ts); do { int tm = ssh_timeout_update(&ts, timeout); rc = ssh_poll(ctx->pollfds, ctx->polls_used, tm); } while (rc == -1 && errno == EINTR); if (rc < 0) { return SSH_ERROR; } if (rc == 0) { return SSH_AGAIN; } used = ctx->polls_used; for (i = 0; i < used && rc > 0; ) { if (!ctx->pollfds[i].revents || ctx->pollptrs[i]->lock) { i++; } else { int ret; p = ctx->pollptrs[i]; fd = ctx->pollfds[i].fd; revents = ctx->pollfds[i].revents; /* avoid having any event caught during callback */ ctx->pollfds[i].events = 0; p->lock = 1; if (p->cb && (ret = p->cb(p, fd, revents, p->cb_data)) < 0) { if (ret == -2) { return -1; } /* the poll was removed, reload the used counter and start again */ used = ctx->polls_used; i = 0; } else { ctx->pollfds[i].revents = 0; ctx->pollfds[i].events = p->events; p->lock = 0; i++; } rc--; } } return rc; } /** * @internal * @brief gets the default poll structure for the current session, * when used in blocking mode. * @param session SSH session * @returns the default ssh_poll_ctx */ ssh_poll_ctx ssh_poll_get_default_ctx(ssh_session session){ if(session->default_poll_ctx != NULL) return session->default_poll_ctx; /* 2 is enough for the default one */ session->default_poll_ctx = ssh_poll_ctx_new(2); return session->default_poll_ctx; } /* public event API */ struct ssh_event_fd_wrapper { ssh_event_callback cb; void * userdata; }; struct ssh_event_struct { ssh_poll_ctx ctx; #ifdef WITH_SERVER struct ssh_list *sessions; #endif }; /** * @brief Create a new event context. It could be associated with many * ssh_session objects and socket fd which are going to be polled at the * same time as the event context. You would need a single event context * per thread. * * @return The ssh_event object on success, NULL on failure. */ ssh_event ssh_event_new(void) { ssh_event event; event = malloc(sizeof(struct ssh_event_struct)); if (event == NULL) { return NULL; } ZERO_STRUCTP(event); event->ctx = ssh_poll_ctx_new(2); if(event->ctx == NULL) { free(event); return NULL; } #ifdef WITH_SERVER event->sessions = ssh_list_new(); if(event->sessions == NULL) { ssh_poll_ctx_free(event->ctx); free(event); return NULL; } #endif return event; } static int ssh_event_fd_wrapper_callback(ssh_poll_handle p, socket_t fd, int revents, void *userdata) { struct ssh_event_fd_wrapper *pw = (struct ssh_event_fd_wrapper *)userdata; (void)p; if(pw->cb != NULL) { return pw->cb(fd, revents, pw->userdata); } return 0; } /** * @brief Add a fd to the event and assign it a callback, * when used in blocking mode. * @param event The ssh_event * @param fd Socket that will be polled. * @param events Poll events that will be monitored for the socket. i.e. * POLLIN, POLLPRI, POLLOUT * @param cb Function to be called if any of the events are set. * The prototype of cb is: * int (*ssh_event_callback)(socket_t fd, int revents, * void *userdata); * @param userdata Userdata to be passed to the callback function. NULL if * not needed. * * @returns SSH_OK on success * SSH_ERROR on failure */ int ssh_event_add_fd(ssh_event event, socket_t fd, short events, ssh_event_callback cb, void *userdata) { ssh_poll_handle p; struct ssh_event_fd_wrapper *pw; if(event == NULL || event->ctx == NULL || cb == NULL || fd == SSH_INVALID_SOCKET) { return SSH_ERROR; } pw = malloc(sizeof(struct ssh_event_fd_wrapper)); if(pw == NULL) { return SSH_ERROR; } pw->cb = cb; pw->userdata = userdata; /* pw is freed by ssh_event_remove_fd */ p = ssh_poll_new(fd, events, ssh_event_fd_wrapper_callback, pw); if(p == NULL) { free(pw); return SSH_ERROR; } if(ssh_poll_ctx_add(event->ctx, p) < 0) { free(pw); ssh_poll_free(p); return SSH_ERROR; } return SSH_OK; } /** * @brief Add a poll handle to the event. * * @param event the ssh_event * * @param p the poll handle * * @returns SSH_OK on success * SSH_ERROR on failure */ int ssh_event_add_poll(ssh_event event, ssh_poll_handle p) { return ssh_poll_ctx_add(event->ctx, p); } /** * @brief remove a poll handle to the event. * * @param event the ssh_event * * @param p the poll handle */ void ssh_event_remove_poll(ssh_event event, ssh_poll_handle p) { ssh_poll_ctx_remove(event->ctx,p); } /** * @brief remove the poll handle from session and assign them to a event, * when used in blocking mode. * * @param event The ssh_event object * @param session The session to add to the event. * * @returns SSH_OK on success * SSH_ERROR on failure */ int ssh_event_add_session(ssh_event event, ssh_session session) { ssh_poll_handle p; #ifdef WITH_SERVER struct ssh_iterator *iterator; #endif if(event == NULL || event->ctx == NULL || session == NULL) { return SSH_ERROR; } if(session->default_poll_ctx == NULL) { return SSH_ERROR; } while (session->default_poll_ctx->polls_used > 0) { p = session->default_poll_ctx->pollptrs[0]; /* * ssh_poll_ctx_remove() decrements * session->default_poll_ctx->polls_used */ ssh_poll_ctx_remove(session->default_poll_ctx, p); ssh_poll_ctx_add(event->ctx, p); /* associate the pollhandler with a session so we can put it back * at ssh_event_free() */ p->session = session; } #ifdef WITH_SERVER iterator = ssh_list_get_iterator(event->sessions); while(iterator != NULL) { if((ssh_session)iterator->data == session) { /* allow only one instance of this session */ return SSH_OK; } iterator = iterator->next; } if(ssh_list_append(event->sessions, session) == SSH_ERROR) { return SSH_ERROR; } #endif return SSH_OK; } /** * @brief Add a connector to the SSH event loop * * @param[in] event The SSH event loop * * @param[in] connector The connector object * * @return SSH_OK * * @return SSH_ERROR in case of error */ int ssh_event_add_connector(ssh_event event, ssh_connector connector){ return ssh_connector_set_event(connector, event); } /** * @brief Poll all the sockets and sessions associated through an event object.i * * If any of the events are set after the poll, the call back functions of the * sessions or sockets will be called. * This function should be called once within the programs main loop. * * @param event The ssh_event object to poll. * * @param timeout An upper limit on the time for which the poll will * block, in milliseconds. Specifying a negative value * means an infinite timeout. This parameter is passed to * the poll() function. * @returns SSH_OK on success. * SSH_ERROR Error happened during the poll. * SSH_AGAIN Timeout occured */ int ssh_event_dopoll(ssh_event event, int timeout) { int rc; if(event == NULL || event->ctx == NULL) { return SSH_ERROR; } rc = ssh_poll_ctx_dopoll(event->ctx, timeout); return rc; } /** * @brief Remove a socket fd from an event context. * * @param event The ssh_event object. * @param fd The fd to remove. * * @returns SSH_OK on success * SSH_ERROR on failure */ int ssh_event_remove_fd(ssh_event event, socket_t fd) { register size_t i, used; int rc = SSH_ERROR; if(event == NULL || event->ctx == NULL) { return SSH_ERROR; } used = event->ctx->polls_used; for (i = 0; i < used; i++) { if(fd == event->ctx->pollfds[i].fd) { ssh_poll_handle p = event->ctx->pollptrs[i]; if (p->session != NULL){ /* we cannot free that handle, it's owned by its session */ continue; } if (p->cb == ssh_event_fd_wrapper_callback) { struct ssh_event_fd_wrapper *pw = p->cb_data; SAFE_FREE(pw); } /* * The free function calls ssh_poll_ctx_remove() and decrements * event->ctx->polls_used. */ ssh_poll_free(p); rc = SSH_OK; /* restart the loop */ used = event->ctx->polls_used; i = 0; } } return rc; } /** * @brief Remove a session object from an event context. * * @param event The ssh_event object. * @param session The session to remove. * * @returns SSH_OK on success * SSH_ERROR on failure */ int ssh_event_remove_session(ssh_event event, ssh_session session) { ssh_poll_handle p; register size_t i, used; int rc = SSH_ERROR; #ifdef WITH_SERVER struct ssh_iterator *iterator; #endif if(event == NULL || event->ctx == NULL || session == NULL) { return SSH_ERROR; } used = event->ctx->polls_used; for(i = 0; i < used; i++) { p = event->ctx->pollptrs[i]; if(p->session == session){ /* * ssh_poll_ctx_remove() decrements * event->ctx->polls_used */ ssh_poll_ctx_remove(event->ctx, p); p->session = NULL; ssh_poll_ctx_add(session->default_poll_ctx, p); rc = SSH_OK; /* * Restart the loop! * A session can initially have two pollhandlers. */ used = event->ctx->polls_used; i = 0; } } #ifdef WITH_SERVER iterator = ssh_list_get_iterator(event->sessions); while(iterator != NULL) { if((ssh_session)iterator->data == session) { ssh_list_remove(event->sessions, iterator); /* there should be only one instance of this session */ break; } iterator = iterator->next; } #endif return rc; } /** @brief Remove a connector from an event context * @param[in] event The ssh_event object. * @param[in] connector connector object to remove * @return SSH_OK on success * @return SSH_ERROR on failure */ int ssh_event_remove_connector(ssh_event event, ssh_connector connector){ (void)event; return ssh_connector_remove_event(connector); } /** * @brief Free an event context. * * @param event The ssh_event object to free. * Note: you have to manually remove sessions and socket * fds before freeing the event object. * */ void ssh_event_free(ssh_event event) { size_t used, i; ssh_poll_handle p; if(event == NULL) { return; } if (event->ctx != NULL) { used = event->ctx->polls_used; for(i = 0; i < used; i++) { p = event->ctx->pollptrs[i]; if (p->session != NULL) { ssh_poll_ctx_remove(event->ctx, p); ssh_poll_ctx_add(p->session->default_poll_ctx, p); p->session = NULL; used = 0; } } ssh_poll_ctx_free(event->ctx); } #ifdef WITH_SERVER if(event->sessions != NULL) { ssh_list_free(event->sessions); } #endif free(event); } /** @} */