/* * vi: set autoindent tabstop=4 shiftwidth=4 : * * Copyright (c) 2002-2006 MontaVista Software, Inc. * Copyright (c) 2006-2009 Red Hat, Inc. * * All rights reserved. * * Author: Steven Dake (sdake@redhat.com) * * This software licensed under BSD license, the text of which follows: * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * - Neither the name of the MontaVista Software, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if _POSIX_THREAD_PROCESS_SHARED > 0 #include #else #include #endif #include "util.h" struct ipc_instance { int fd; struct control_buffer *control_buffer; char *request_buffer; char *response_buffer; char *dispatch_buffer; size_t control_size; size_t request_size; size_t response_size; size_t dispatch_size; uid_t euid; pthread_mutex_t mutex; }; void ipc_hdb_destructor (void *context); DECLARE_HDB_DATABASE(ipc_hdb,ipc_hdb_destructor); #if defined(COROSYNC_LINUX) || defined(COROSYNC_SOLARIS) #define COROSYNC_SUN_LEN(a) sizeof(*(a)) #else #define COROSYNC_SUN_LEN(a) SUN_LEN(a) #endif #ifdef SO_NOSIGPIPE static void socket_nosigpipe(int s) { int on = 1; setsockopt(s, SOL_SOCKET, SO_NOSIGPIPE, (void *)&on, sizeof(on)); } #endif #ifndef MSG_NOSIGNAL #define MSG_NOSIGNAL 0 #endif static inline int shared_mem_dispatch_bytes_left (struct ipc_instance *context) { unsigned int n_read; unsigned int n_write; unsigned int bytes_left; n_read = context->control_buffer->read; n_write = context->control_buffer->write; if (n_read <= n_write) { bytes_left = context->dispatch_size - n_write + n_read; } else { bytes_left = n_read - n_write; } return (bytes_left); } static cs_error_t socket_send ( int s, void *msg, size_t len) { cs_error_t res = CS_OK; int result; struct msghdr msg_send; struct iovec iov_send; char *rbuf = msg; int processed = 0; msg_send.msg_iov = &iov_send; msg_send.msg_iovlen = 1; msg_send.msg_name = 0; msg_send.msg_namelen = 0; #if !defined(COROSYNC_SOLARIS) msg_send.msg_control = 0; msg_send.msg_controllen = 0; msg_send.msg_flags = 0; #else msg_send.msg_accrights = NULL; msg_send.msg_accrightslen = 0; #endif retry_send: iov_send.iov_base = &rbuf[processed]; iov_send.iov_len = len - processed; result = sendmsg (s, &msg_send, MSG_NOSIGNAL); if (result == -1) { switch (errno) { case EINTR: res = CS_ERR_TRY_AGAIN; goto res_exit; case EAGAIN: goto retry_send; break; default: res = CS_ERR_LIBRARY; goto res_exit; } } processed += result; if (processed != len) { goto retry_send; } return (CS_OK); res_exit: return (res); } static cs_error_t socket_recv ( int s, void *msg, size_t len) { cs_error_t res = CS_OK; int result; struct msghdr msg_recv; struct iovec iov_recv; char *rbuf = msg; int processed = 0; msg_recv.msg_iov = &iov_recv; msg_recv.msg_iovlen = 1; msg_recv.msg_name = 0; msg_recv.msg_namelen = 0; #if !defined (COROSYNC_SOLARIS) msg_recv.msg_control = 0; msg_recv.msg_controllen = 0; msg_recv.msg_flags = 0; #else msg_recv.msg_accrights = NULL; msg_recv.msg_accrightslen = 0; #endif retry_recv: iov_recv.iov_base = (void *)&rbuf[processed]; iov_recv.iov_len = len - processed; result = recvmsg (s, &msg_recv, MSG_NOSIGNAL|MSG_WAITALL); if (result == -1) { switch (errno) { case EINTR: res = CS_ERR_TRY_AGAIN; goto res_exit; case EAGAIN: goto retry_recv; break; default: res = CS_ERR_LIBRARY; goto res_exit; } } #if defined(COROSYNC_SOLARIS) || defined(COROSYNC_BSD) || defined(COROSYNC_DARWIN) /* On many OS poll never return POLLHUP or POLLERR. * EOF is detected when recvmsg return 0. */ if (result == 0) { res = CS_ERR_LIBRARY; goto res_exit; } #endif processed += result; if (processed != len) { goto retry_recv; } assert (processed == len); res_exit: return (res); } static int priv_change_send (struct ipc_instance *ipc_instance) { #if _POSIX_THREAD_PROCESS_SHARED < 1 char buf_req; mar_req_priv_change req_priv_change; unsigned int res; req_priv_change.euid = geteuid(); /* * Don't resend request unless euid has changed */ if (ipc_instance->euid == req_priv_change.euid) { return (0); } req_priv_change.egid = getegid(); buf_req = MESSAGE_REQ_CHANGE_EUID; res = socket_send (ipc_instance->fd, &buf_req, 1); if (res == -1) { return (-1); } res = socket_send (ipc_instance->fd, &req_priv_change, sizeof (req_priv_change)); if (res == -1) { return (-1); } ipc_instance->euid = req_priv_change.euid; #else ipc_instance = NULL; #endif return (0); } static int circular_memory_map (char *path, const char *file, void **buf, size_t bytes) { int32_t fd; void *addr_orig; void *addr; int32_t res; int32_t i; int32_t written; char *buffer; long page_size; snprintf (path, PATH_MAX, "/dev/shm/%s", file); fd = mkstemp (path); if (fd == -1) { snprintf (path, PATH_MAX, LOCALSTATEDIR "/run/%s", file); fd = mkstemp (path); if (fd == -1) { return (-1); } } res = ftruncate (fd, bytes); if (res == -1) { goto error_close_unlink; } page_size = sysconf(_SC_PAGESIZE); buffer = malloc (page_size); if (buffer == NULL) { goto error_close_unlink; } memset (buffer, 0, page_size); for (i = 0; i < (bytes / page_size); i++) { retry_write: written = write (fd, buffer, page_size); if (written == -1 && errno == EINTR) { goto retry_write; } if (written != page_size) { free (buffer); goto error_close_unlink; } } free (buffer); addr_orig = mmap (NULL, bytes << 1, PROT_NONE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (addr_orig == MAP_FAILED) { goto error_close_unlink; } addr = mmap (addr_orig, bytes, PROT_READ | PROT_WRITE, MAP_FIXED | MAP_SHARED, fd, 0); if (addr != addr_orig) { goto error_close_unlink; } #ifdef COROSYNC_BSD madvise(addr_orig, bytes, MADV_NOSYNC); #endif addr = mmap (((char *)addr_orig) + bytes, bytes, PROT_READ | PROT_WRITE, MAP_FIXED | MAP_SHARED, fd, 0); if (addr == MAP_FAILED) { goto error_close_unlink; } #ifdef COROSYNC_BSD madvise(((char *)addr_orig) + bytes, bytes, MADV_NOSYNC); #endif res = close (fd); if (res) { return (-1); } *buf = addr_orig; return (0); error_close_unlink: close (fd); unlink(path); return (-1); } static void memory_unmap (void *addr, size_t bytes) { (void)munmap (addr, bytes); } void ipc_hdb_destructor (void *context ) { struct ipc_instance *ipc_instance = (struct ipc_instance *)context; /* * << 1 (or multiplied by 2) because this is a wrapped memory buffer */ memory_unmap (ipc_instance->control_buffer, ipc_instance->control_size); memory_unmap (ipc_instance->request_buffer, ipc_instance->request_size); memory_unmap (ipc_instance->response_buffer, ipc_instance->response_size); memory_unmap (ipc_instance->dispatch_buffer, (ipc_instance->dispatch_size) << 1); } static int memory_map (char *path, const char *file, void **buf, size_t bytes) { int32_t fd; void *addr_orig; void *addr; int32_t res; char *buffer; int32_t i; int32_t written; long page_size; snprintf (path, PATH_MAX, "/dev/shm/%s", file); fd = mkstemp (path); if (fd == -1) { snprintf (path, PATH_MAX, LOCALSTATEDIR "/run/%s", file); fd = mkstemp (path); if (fd == -1) { return (-1); } } res = ftruncate (fd, bytes); if (res == -1) { goto error_close_unlink; } page_size = sysconf(_SC_PAGESIZE); buffer = malloc (page_size); if (buffer == NULL) { goto error_close_unlink; } memset (buffer, 0, page_size); for (i = 0; i < (bytes / page_size); i++) { retry_write: written = write (fd, buffer, page_size); if (written == -1 && errno == EINTR) { goto retry_write; } if (written != page_size) { free (buffer); goto error_close_unlink; } } free (buffer); addr_orig = mmap (NULL, bytes, PROT_NONE, MAP_ANONYMOUS | MAP_PRIVATE, -1, 0); if (addr_orig == MAP_FAILED) { goto error_close_unlink; } addr = mmap (addr_orig, bytes, PROT_READ | PROT_WRITE, MAP_FIXED | MAP_SHARED, fd, 0); if (addr != addr_orig) { goto error_close_unlink; } #ifdef COROSYNC_BSD madvise(addr_orig, bytes, MADV_NOSYNC); #endif res = close (fd); if (res) { return (-1); } *buf = addr_orig; return 0; error_close_unlink: close (fd); unlink(path); return -1; } static cs_error_t msg_send ( struct ipc_instance *ipc_instance, const struct iovec *iov, unsigned int iov_len) { int i; int res; int req_buffer_idx = 0; for (i = 0; i < iov_len; i++) { if ((req_buffer_idx + iov[i].iov_len) > ipc_instance->request_size) { return (CS_ERR_INVALID_PARAM); } memcpy (&ipc_instance->request_buffer[req_buffer_idx], iov[i].iov_base, iov[i].iov_len); req_buffer_idx += iov[i].iov_len; } /* * Signal semaphore #3 and #0 indicting a new message from client * to server request queue */ res = ipc_sem_post (ipc_instance->control_buffer, SEMAPHORE_REQUEST); if (res != CS_OK) { return (CS_ERR_LIBRARY); } res = ipc_sem_post (ipc_instance->control_buffer, SEMAPHORE_REQUEST_OR_FLUSH_OR_EXIT); if (res != CS_OK) { return (CS_ERR_LIBRARY); } return (CS_OK); } static cs_error_t reply_receive ( struct ipc_instance *ipc_instance, void *res_msg, size_t res_len) { coroipc_response_header_t *response_header; cs_error_t res; retry_ipc_sem_wait: res = ipc_sem_wait (ipc_instance->control_buffer, SEMAPHORE_RESPONSE, ipc_instance->fd); if (res != CS_OK) { if (res == CS_ERR_TRY_AGAIN) { priv_change_send (ipc_instance); goto retry_ipc_sem_wait; } else { return (res); } } response_header = (coroipc_response_header_t *)ipc_instance->response_buffer; if (response_header->error == CS_ERR_TRY_AGAIN) { return (CS_ERR_TRY_AGAIN); } memcpy (res_msg, ipc_instance->response_buffer, res_len); return (CS_OK); } static cs_error_t reply_receive_in_buf ( struct ipc_instance *ipc_instance, void **res_msg) { cs_error_t res; retry_ipc_sem_wait: res = ipc_sem_wait (ipc_instance->control_buffer, SEMAPHORE_RESPONSE, ipc_instance->fd); if (res != CS_OK) { if (res == CS_ERR_TRY_AGAIN) { priv_change_send (ipc_instance); goto retry_ipc_sem_wait; } else { return (res); } } *res_msg = (char *)ipc_instance->response_buffer; return (CS_OK); } /* * External API */ cs_error_t coroipcc_service_connect ( const char *socket_name, unsigned int service, size_t request_size, size_t response_size, size_t dispatch_size, hdb_handle_t *handle) { int request_fd; struct sockaddr_un address; cs_error_t res; struct ipc_instance *ipc_instance; #if _POSIX_THREAD_PROCESS_SHARED < 1 key_t semkey = 0; union semun semun; #endif int sys_res; mar_req_setup_t req_setup; mar_res_setup_t res_setup; char control_map_path[PATH_MAX]; char request_map_path[PATH_MAX]; char response_map_path[PATH_MAX]; char dispatch_map_path[PATH_MAX]; res = hdb_error_to_cs (hdb_handle_create (&ipc_hdb, sizeof (struct ipc_instance), handle)); if (res != CS_OK) { return (res); } res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, *handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } res_setup.error = CS_ERR_LIBRARY; #if defined(COROSYNC_SOLARIS) request_fd = socket (PF_UNIX, SOCK_STREAM, 0); #else request_fd = socket (PF_LOCAL, SOCK_STREAM, 0); #endif if (request_fd == -1) { return (CS_ERR_LIBRARY); } #ifdef SO_NOSIGPIPE socket_nosigpipe (request_fd); #endif memset (&address, 0, sizeof (struct sockaddr_un)); address.sun_family = AF_UNIX; #if defined(COROSYNC_BSD) || defined(COROSYNC_DARWIN) address.sun_len = SUN_LEN(&address); #endif #if defined(COROSYNC_LINUX) sprintf (address.sun_path + 1, "%s", socket_name); #else sprintf (address.sun_path, "%s/%s", SOCKETDIR, socket_name); #endif sys_res = connect (request_fd, (struct sockaddr *)&address, COROSYNC_SUN_LEN(&address)); if (sys_res == -1) { res = CS_ERR_TRY_AGAIN; goto error_connect; } sys_res = memory_map ( control_map_path, "control_buffer-XXXXXX", (void *)&ipc_instance->control_buffer, 8192); if (sys_res == -1) { res = CS_ERR_LIBRARY; goto error_connect; } sys_res = memory_map ( request_map_path, "request_buffer-XXXXXX", (void *)&ipc_instance->request_buffer, request_size); if (sys_res == -1) { res = CS_ERR_LIBRARY; goto error_request_buffer; } sys_res = memory_map ( response_map_path, "response_buffer-XXXXXX", (void *)&ipc_instance->response_buffer, response_size); if (sys_res == -1) { res = CS_ERR_LIBRARY; goto error_response_buffer; } sys_res = circular_memory_map ( dispatch_map_path, "dispatch_buffer-XXXXXX", (void *)&ipc_instance->dispatch_buffer, dispatch_size); if (sys_res == -1) { res = CS_ERR_LIBRARY; goto error_dispatch_buffer; } #if _POSIX_THREAD_PROCESS_SHARED > 0 sem_init (&ipc_instance->control_buffer->sem_request_or_flush_or_exit, 1, 0); sem_init (&ipc_instance->control_buffer->sem_request, 1, 0); sem_init (&ipc_instance->control_buffer->sem_response, 1, 0); sem_init (&ipc_instance->control_buffer->sem_dispatch, 1, 0); #else { int i; /* * Allocate a semaphore segment */ while (1) { semkey = random(); ipc_instance->euid = geteuid (); if ((ipc_instance->control_buffer->semid = semget (semkey, 4, IPC_CREAT|IPC_EXCL|0600)) != -1) { break; } /* * EACCESS can be returned as non root user when opening a different * users semaphore. * * EEXIST can happen when we are a root or nonroot user opening * an existing shared memory segment for which we have access */ if (errno != EEXIST && errno != EACCES) { res = CS_ERR_LIBRARY; goto error_exit; } } for (i = 0; i < 4; i++) { semun.val = 0; sys_res = semctl (ipc_instance->control_buffer->semid, i, SETVAL, semun); if (sys_res != 0) { res = CS_ERR_LIBRARY; goto error_exit; } } } #endif /* * Initialize IPC setup message */ req_setup.service = service; strcpy (req_setup.control_file, control_map_path); strcpy (req_setup.request_file, request_map_path); strcpy (req_setup.response_file, response_map_path); strcpy (req_setup.dispatch_file, dispatch_map_path); req_setup.control_size = 8192; req_setup.request_size = request_size; req_setup.response_size = response_size; req_setup.dispatch_size = dispatch_size; #if _POSIX_THREAD_PROCESS_SHARED < 1 req_setup.semkey = semkey; #endif res = socket_send (request_fd, &req_setup, sizeof (mar_req_setup_t)); if (res != CS_OK) { goto error_exit; } res = socket_recv (request_fd, &res_setup, sizeof (mar_res_setup_t)); if (res != CS_OK) { goto error_exit; } ipc_instance->fd = request_fd; if (res_setup.error == CS_ERR_TRY_AGAIN) { res = res_setup.error; goto error_exit; } ipc_instance->control_size = 8192; ipc_instance->request_size = request_size; ipc_instance->response_size = response_size; ipc_instance->dispatch_size = dispatch_size; pthread_mutex_init (&ipc_instance->mutex, NULL); hdb_handle_put (&ipc_hdb, *handle); return (res_setup.error); error_exit: #if _POSIX_THREAD_PROCESS_SHARED < 1 if (ipc_instance->control_buffer->semid > 0) semctl (ipc_instance->control_buffer->semid, 0, IPC_RMID); #endif memory_unmap (ipc_instance->dispatch_buffer, dispatch_size); error_dispatch_buffer: memory_unmap (ipc_instance->response_buffer, response_size); error_response_buffer: memory_unmap (ipc_instance->request_buffer, request_size); error_request_buffer: memory_unmap (ipc_instance->control_buffer, 8192); error_connect: close (request_fd); hdb_handle_destroy (&ipc_hdb, *handle); hdb_handle_put (&ipc_hdb, *handle); return (res); } cs_error_t coroipcc_service_disconnect ( hdb_handle_t handle) { cs_error_t res; struct ipc_instance *ipc_instance; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } shutdown (ipc_instance->fd, SHUT_RDWR); close (ipc_instance->fd); hdb_handle_destroy (&ipc_hdb, handle); hdb_handle_put (&ipc_hdb, handle); return (CS_OK); } cs_error_t coroipcc_dispatch_flow_control_get ( hdb_handle_t handle, unsigned int *flow_control_state) { struct ipc_instance *ipc_instance; cs_error_t res; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } *flow_control_state = ipc_instance->control_buffer->flow_control_enabled; hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_fd_get ( hdb_handle_t handle, int *fd) { struct ipc_instance *ipc_instance; cs_error_t res; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } *fd = ipc_instance->fd; hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_dispatch_get ( hdb_handle_t handle, void **data, int timeout) { struct pollfd ufds; int poll_events; char buf; struct ipc_instance *ipc_instance; char *data_addr; cs_error_t error = CS_OK; int res; error = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (error != CS_OK) { return (error); } *data = NULL; ufds.fd = ipc_instance->fd; ufds.events = POLLIN; ufds.revents = 0; poll_events = poll (&ufds, 1, timeout); if (poll_events == -1 && errno == EINTR) { error = CS_ERR_TRY_AGAIN; goto error_put; } else if (poll_events == -1) { error = CS_ERR_LIBRARY; goto error_put; } else if (poll_events == 0) { error = CS_ERR_TRY_AGAIN; goto error_put; } if (poll_events == 1 && (ufds.revents & (POLLERR|POLLHUP))) { error = CS_ERR_LIBRARY; goto error_put; } error = socket_recv (ipc_instance->fd, &buf, 1); assert (error == CS_OK); if (shared_mem_dispatch_bytes_left (ipc_instance) > 500000) { /* * Notify coroipcs to flush any pending dispatch messages */ res = ipc_sem_post (ipc_instance->control_buffer, SEMAPHORE_REQUEST_OR_FLUSH_OR_EXIT); if (res != CS_OK) { error = CS_ERR_LIBRARY; goto error_put; } } data_addr = ipc_instance->dispatch_buffer; data_addr = &data_addr[ipc_instance->control_buffer->read]; *data = (void *)data_addr; return (CS_OK); error_put: hdb_handle_put (&ipc_hdb, handle); return (error); } cs_error_t coroipcc_dispatch_put (hdb_handle_t handle) { coroipc_response_header_t *header; struct ipc_instance *ipc_instance; cs_error_t res; char *addr; unsigned int read_idx; res = hdb_error_to_cs (hdb_handle_get_always (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } retry_ipc_sem_wait: res = ipc_sem_wait (ipc_instance->control_buffer, SEMAPHORE_DISPATCH, ipc_instance->fd); if (res != CS_OK) { if (res == CS_ERR_TRY_AGAIN) { priv_change_send (ipc_instance); goto retry_ipc_sem_wait; } else { goto error_exit; } } addr = ipc_instance->dispatch_buffer; read_idx = ipc_instance->control_buffer->read; header = (coroipc_response_header_t *) &addr[read_idx]; ipc_instance->control_buffer->read = (read_idx + header->size) % ipc_instance->dispatch_size; /* * Put from dispatch get and also from this call's get */ res = CS_OK; error_exit: hdb_handle_put (&ipc_hdb, handle); hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_msg_send_reply_receive ( hdb_handle_t handle, const struct iovec *iov, unsigned int iov_len, void *res_msg, size_t res_len) { cs_error_t res; struct ipc_instance *ipc_instance; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } pthread_mutex_lock (&ipc_instance->mutex); res = msg_send (ipc_instance, iov, iov_len); if (res != CS_OK) { goto error_exit; } res = reply_receive (ipc_instance, res_msg, res_len); error_exit: pthread_mutex_unlock (&ipc_instance->mutex); hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_msg_send_reply_receive_in_buf_get ( hdb_handle_t handle, const struct iovec *iov, unsigned int iov_len, void **res_msg) { unsigned int res; struct ipc_instance *ipc_instance; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } pthread_mutex_lock (&ipc_instance->mutex); res = msg_send (ipc_instance, iov, iov_len); if (res != CS_OK) { goto error_exit; } res = reply_receive_in_buf (ipc_instance, res_msg); error_exit: pthread_mutex_unlock (&ipc_instance->mutex); return (res); } cs_error_t coroipcc_msg_send_reply_receive_in_buf_put ( hdb_handle_t handle) { unsigned int res; struct ipc_instance *ipc_instance; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } hdb_handle_put (&ipc_hdb, handle); hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_zcb_alloc ( hdb_handle_t handle, void **buffer, size_t size, size_t header_size) { struct ipc_instance *ipc_instance; void *buf = NULL; char path[128]; unsigned int res; mar_req_coroipcc_zc_alloc_t req_coroipcc_zc_alloc; coroipc_response_header_t res_coroipcs_zc_alloc; size_t map_size; struct iovec iovec; struct coroipcs_zc_header *hdr; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } map_size = size + header_size + sizeof (struct coroipcs_zc_header); res = memory_map (path, "corosync_zerocopy-XXXXXX", &buf, map_size); assert (res != -1); req_coroipcc_zc_alloc.header.size = sizeof (mar_req_coroipcc_zc_alloc_t); req_coroipcc_zc_alloc.header.id = ZC_ALLOC_HEADER; req_coroipcc_zc_alloc.map_size = map_size; strcpy (req_coroipcc_zc_alloc.path_to_file, path); iovec.iov_base = (void *)&req_coroipcc_zc_alloc; iovec.iov_len = sizeof (mar_req_coroipcc_zc_alloc_t); res = coroipcc_msg_send_reply_receive ( handle, &iovec, 1, &res_coroipcs_zc_alloc, sizeof (coroipc_response_header_t)); hdr = (struct coroipcs_zc_header *)buf; hdr->map_size = map_size; *buffer = ((char *)buf) + sizeof (struct coroipcs_zc_header); hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_zcb_free ( hdb_handle_t handle, void *buffer) { struct ipc_instance *ipc_instance; mar_req_coroipcc_zc_free_t req_coroipcc_zc_free; coroipc_response_header_t res_coroipcs_zc_free; struct iovec iovec; unsigned int res; struct coroipcs_zc_header *header = (struct coroipcs_zc_header *)((char *)buffer - sizeof (struct coroipcs_zc_header)); res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } req_coroipcc_zc_free.header.size = sizeof (mar_req_coroipcc_zc_free_t); req_coroipcc_zc_free.header.id = ZC_FREE_HEADER; req_coroipcc_zc_free.map_size = header->map_size; req_coroipcc_zc_free.server_address = header->server_address; iovec.iov_base = (void *)&req_coroipcc_zc_free; iovec.iov_len = sizeof (mar_req_coroipcc_zc_free_t); res = coroipcc_msg_send_reply_receive ( handle, &iovec, 1, &res_coroipcs_zc_free, sizeof (coroipc_response_header_t)); munmap ((void *)header, header->map_size); hdb_handle_put (&ipc_hdb, handle); return (res); } cs_error_t coroipcc_zcb_msg_send_reply_receive ( hdb_handle_t handle, void *msg, void *res_msg, size_t res_len) { struct ipc_instance *ipc_instance; mar_req_coroipcc_zc_execute_t req_coroipcc_zc_execute; struct coroipcs_zc_header *hdr; struct iovec iovec; cs_error_t res; res = hdb_error_to_cs (hdb_handle_get (&ipc_hdb, handle, (void **)&ipc_instance)); if (res != CS_OK) { return (res); } hdr = (struct coroipcs_zc_header *)(((char *)msg) - sizeof (struct coroipcs_zc_header)); req_coroipcc_zc_execute.header.size = sizeof (mar_req_coroipcc_zc_execute_t); req_coroipcc_zc_execute.header.id = ZC_EXECUTE_HEADER; req_coroipcc_zc_execute.server_address = hdr->server_address; iovec.iov_base = (void *)&req_coroipcc_zc_execute; iovec.iov_len = sizeof (mar_req_coroipcc_zc_execute_t); res = coroipcc_msg_send_reply_receive ( handle, &iovec, 1, res_msg, res_len); hdb_handle_put (&ipc_hdb, handle); return (res); }