/* GStreamer * Copyright (C) <2009> Collabora Ltd * @author: Olivier Crete Nokia Inc * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_OSX #ifndef MSG_NOSIGNAL #define MSG_NOSIGNAL SO_NOSIGPIPE #endif #endif #include "shmpipe.h" #include #include #include #include #include #include #include #include #include #include #include #include "shmalloc.h" /* * The protocol over the pipe is in packets * * The defined types are: * type 1: new shm area * Area length * Size of path (followed by path) * * type 2: Close shm area: * No payload * * type 3: shm buffer * offset * bufsize * * type 4: ack buffer * offset * * Type 4 goes from the client to the server * The rest are from the server to the client * The client should never write in the SHM */ #define LISTEN_BACKLOG 10 enum { COMMAND_NEW_SHM_AREA = 1, COMMAND_CLOSE_SHM_AREA = 2, COMMAND_NEW_BUFFER = 3, COMMAND_ACK_BUFFER = 4 }; typedef struct _ShmArea ShmArea; struct _ShmArea { int id; int use_count; int shm_fd; char *shm_area_buf; size_t shm_area_len; char *shm_area_name; ShmAllocSpace *allocspace; ShmArea *next; }; struct _ShmBuffer { int use_count; ShmArea *shm_area; unsigned long offset; size_t size; ShmAllocBlock *ablock; ShmBuffer *next; int num_clients; int clients[0]; uint64_t tag; }; struct _ShmPipe { int main_socket; char *socket_path; int use_count; void *data; ShmArea *shm_area; int next_area_id; ShmBuffer *buffers; int num_clients; ShmClient *clients; mode_t perms; }; struct _ShmClient { int fd; ShmClient *next; }; struct _ShmBlock { ShmPipe *pipe; ShmArea *area; ShmAllocBlock *ablock; }; struct CommandBuffer { unsigned int type; int area_id; union { struct { size_t size; unsigned int path_size; /* Followed by path */ } new_shm_area; struct { unsigned long offset; unsigned long size; } buffer; struct { unsigned long offset; } ack_buffer; } payload; }; static ShmArea *sp_open_shm (char *path, int id, mode_t perms, size_t size); static void sp_close_shm (ShmArea * area); static int sp_shmbuf_dec (ShmPipe * self, ShmBuffer * buf, ShmBuffer * prev_buf, ShmClient * client); static void sp_shm_area_dec (ShmPipe * self, ShmArea * area); #define RETURN_ERROR(format, ...) do { \ fprintf (stderr, format, __VA_ARGS__); \ sp_close (self); \ return NULL; \ } while (0) ShmPipe * sp_writer_create (const char *path, size_t size, mode_t perms) { ShmPipe *self = spalloc_new (ShmPipe); int flags; struct sockaddr_un sock_un; int i = 0; memset (self, 0, sizeof (ShmPipe)); self->main_socket = socket (PF_UNIX, SOCK_STREAM, 0); self->use_count = 1; if (self->main_socket < 0) RETURN_ERROR ("Could not create socket (%d): %s\n", errno, strerror (errno)); flags = fcntl (self->main_socket, F_GETFL, 0); if (flags < 0) RETURN_ERROR ("fcntl(F_GETFL) failed (%d): %s\n", errno, strerror (errno)); if (fcntl (self->main_socket, F_SETFL, flags | O_NONBLOCK | FD_CLOEXEC) < 0) RETURN_ERROR ("fcntl(F_SETFL) failed (%d): %s\n", errno, strerror (errno)); sock_un.sun_family = AF_UNIX; strncpy (sock_un.sun_path, path, sizeof (sock_un.sun_path) - 1); while (bind (self->main_socket, (struct sockaddr *) &sock_un, sizeof (struct sockaddr_un)) < 0) { if (errno != EADDRINUSE) RETURN_ERROR ("bind() failed (%d): %s\n", errno, strerror (errno)); if (i > 256) RETURN_ERROR ("Could not find a free socket name for %s", path); snprintf (sock_un.sun_path, sizeof (sock_un.sun_path), "%s.%d", path, i); i++; } self->socket_path = strdup (sock_un.sun_path); if (listen (self->main_socket, LISTEN_BACKLOG) < 0) RETURN_ERROR ("listen() failed (%d): %s\n", errno, strerror (errno)); self->shm_area = sp_open_shm (NULL, ++self->next_area_id, perms, size); self->perms = perms; if (!self->shm_area) RETURN_ERROR ("Could not open shm area (%d): %s", errno, strerror (errno)); return self; } #undef RETURN_ERROR #define RETURN_ERROR(format, ...) do { \ fprintf (stderr, format, __VA_ARGS__); \ area->use_count--; \ sp_close_shm (area); \ return NULL; \ } while (0) /** * sp_open_shm: * @path: Path of the shm area for a reader, * NULL if this is a writer (then it will allocate its own path) * * Opens a ShmArea */ static ShmArea * sp_open_shm (char *path, int id, mode_t perms, size_t size) { ShmArea *area = spalloc_new (ShmArea); char tmppath[32]; int flags; int prot; int i = 0; memset (area, 0, sizeof (ShmArea)); area->use_count = 1; area->shm_area_len = size; if (path) flags = O_RDONLY; else #ifdef HAVE_OSX flags = O_RDWR | O_CREAT | O_EXCL; #else flags = O_RDWR | O_CREAT | O_TRUNC | O_EXCL; #endif area->shm_fd = -1; if (path) { area->shm_fd = shm_open (path, flags, perms); } else { do { snprintf (tmppath, sizeof (tmppath), "/shmpipe.%5d.%5d", getpid (), i++); area->shm_fd = shm_open (tmppath, flags, perms); } while (area->shm_fd < 0 && errno == EEXIST); } if (area->shm_fd < 0) RETURN_ERROR ("shm_open failed on %s (%d): %s\n", path ? path : tmppath, errno, strerror (errno)); if (!path) { area->shm_area_name = strdup (tmppath); if (ftruncate (area->shm_fd, size)) RETURN_ERROR ("Could not resize memory area to header size," " ftruncate failed (%d): %s\n", errno, strerror (errno)); prot = PROT_READ | PROT_WRITE; } else { prot = PROT_READ; } area->shm_area_buf = mmap (NULL, size, prot, MAP_SHARED, area->shm_fd, 0); if (area->shm_area_buf == MAP_FAILED) RETURN_ERROR ("mmap failed (%d): %s\n", errno, strerror (errno)); area->id = id; if (!path) area->allocspace = shm_alloc_space_new (area->shm_area_len); return area; } #undef RETURN_ERROR static void sp_close_shm (ShmArea * area) { assert (area->use_count == 0); if (area->allocspace) shm_alloc_space_free (area->allocspace); if (area->shm_area_buf != MAP_FAILED) munmap (area->shm_area_buf, area->shm_area_len); if (area->shm_fd >= 0) close (area->shm_fd); if (area->shm_area_name) { shm_unlink (area->shm_area_name); free (area->shm_area_name); } spalloc_free (ShmArea, area); } static void sp_shm_area_inc (ShmArea * area) { area->use_count++; } static void sp_shm_area_dec (ShmPipe * self, ShmArea * area) { assert (area->use_count > 0); area->use_count--; if (area->use_count == 0) { ShmArea *item = NULL; ShmArea *prev_item = NULL; for (item = self->shm_area; item; item = item->next) { if (item == area) { if (prev_item) prev_item->next = item->next; else self->shm_area = item->next; break; } prev_item = item; } assert (item); sp_close_shm (area); } } void * sp_get_data (ShmPipe * self) { return self->data; } void sp_set_data (ShmPipe * self, void *data) { self->data = data; } static void sp_inc (ShmPipe * self) { self->use_count++; } static void sp_dec (ShmPipe * self) { self->use_count--; if (self->use_count > 0) return; while (self->shm_area) sp_shm_area_dec (self, self->shm_area); spalloc_free (ShmPipe, self); } void sp_close (ShmPipe * self) { if (self->main_socket >= 0) close (self->main_socket); if (self->socket_path) { unlink (self->socket_path); free (self->socket_path); } while (self->clients) sp_writer_close_client (self, self->clients); sp_dec (self); } int sp_writer_setperms_shm (ShmPipe * self, mode_t perms) { int ret = 0; ShmArea *area; self->perms = perms; for (area = self->shm_area; area; area = area->next) ret |= fchmod (area->shm_fd, perms); return ret; } static int send_command (int fd, struct CommandBuffer *cb, unsigned short int type, int area_id) { cb->type = type; cb->area_id = area_id; if (send (fd, cb, sizeof (struct CommandBuffer), MSG_NOSIGNAL) != sizeof (struct CommandBuffer)) return 0; return 1; } int sp_writer_resize (ShmPipe * self, size_t size) { ShmArea *newarea; ShmArea *old_current; ShmClient *client; int c = 0; int pathlen; if (self->shm_area->shm_area_len == size) return 0; newarea = sp_open_shm (NULL, ++self->next_area_id, self->perms, size); if (!newarea) return -1; old_current = self->shm_area; newarea->next = self->shm_area; self->shm_area = newarea; pathlen = strlen (newarea->shm_area_name) + 1; for (client = self->clients; client; client = client->next) { struct CommandBuffer cb = { 0 }; if (!send_command (client->fd, &cb, COMMAND_CLOSE_SHM_AREA, old_current->id)) continue; cb.payload.new_shm_area.size = newarea->shm_area_len; cb.payload.new_shm_area.path_size = pathlen; if (!send_command (client->fd, &cb, COMMAND_NEW_SHM_AREA, newarea->id)) continue; if (send (client->fd, newarea->shm_area_name, pathlen, MSG_NOSIGNAL) != pathlen) continue; c++; } sp_shm_area_dec (self, old_current); return c; } ShmBlock * sp_writer_alloc_block (ShmPipe * self, size_t size) { ShmBlock *block; ShmAllocBlock *ablock = shm_alloc_space_alloc_block (self->shm_area->allocspace, size); if (!ablock) return NULL; block = spalloc_new (ShmBlock); sp_shm_area_inc (self->shm_area); block->pipe = self; block->area = self->shm_area; block->ablock = ablock; sp_inc (self); return block; } char * sp_writer_block_get_buf (ShmBlock * block) { return block->area->shm_area_buf + shm_alloc_space_alloc_block_get_offset (block->ablock); } ShmPipe * sp_writer_block_get_pipe (ShmBlock * block) { return block->pipe; } void sp_writer_free_block (ShmBlock * block) { shm_alloc_space_block_dec (block->ablock); sp_shm_area_dec (block->pipe, block->area); sp_dec (block->pipe); spalloc_free (ShmBlock, block); } /* Returns the number of client this has successfully been sent to */ int sp_writer_send_buf (ShmPipe * self, char *buf, size_t size, uint64_t tag) { ShmArea *area = NULL; unsigned long offset = 0; unsigned long bsize = size; ShmBuffer *sb; ShmClient *client = NULL; ShmAllocBlock *ablock = NULL; int i = 0; int c = 0; if (self->num_clients == 0) return 0; for (area = self->shm_area; area; area = area->next) { if (buf >= area->shm_area_buf && buf < (area->shm_area_buf + area->shm_area_len)) { offset = buf - area->shm_area_buf; ablock = shm_alloc_space_block_get (area->allocspace, offset); assert (ablock); break; } } if (!ablock) return -1; sb = spalloc_alloc (sizeof (ShmBuffer) + sizeof (int) * self->num_clients); memset (sb, 0, sizeof (ShmBuffer)); memset (sb->clients, -1, sizeof (int) * self->num_clients); sb->shm_area = area; sb->offset = offset; sb->size = size; sb->num_clients = self->num_clients; sb->ablock = ablock; sb->tag = tag; for (client = self->clients; client; client = client->next) { struct CommandBuffer cb = { 0 }; cb.payload.buffer.offset = offset; cb.payload.buffer.size = bsize; if (!send_command (client->fd, &cb, COMMAND_NEW_BUFFER, self->shm_area->id)) continue; sb->clients[i++] = client->fd; c++; } if (c == 0) { spalloc_free1 (sizeof (ShmBuffer) + sizeof (int) * sb->num_clients, sb); return 0; } sp_shm_area_inc (area); shm_alloc_space_block_inc (ablock); sb->use_count = c; sb->next = self->buffers; self->buffers = sb; return c; } static int recv_command (int fd, struct CommandBuffer *cb) { int retval; retval = recv (fd, cb, sizeof (struct CommandBuffer), MSG_DONTWAIT); if (retval == sizeof (struct CommandBuffer)) { return 1; } else { return 0; } } long int sp_client_recv (ShmPipe * self, char **buf) { char *area_name = NULL; ShmArea *newarea; ShmArea *area; struct CommandBuffer cb; int retval; if (!recv_command (self->main_socket, &cb)) return -1; switch (cb.type) { case COMMAND_NEW_SHM_AREA: assert (cb.payload.new_shm_area.path_size > 0); assert (cb.payload.new_shm_area.size > 0); area_name = malloc (cb.payload.new_shm_area.path_size); retval = recv (self->main_socket, area_name, cb.payload.new_shm_area.path_size, 0); if (retval != cb.payload.new_shm_area.path_size) { free (area_name); return -3; } newarea = sp_open_shm (area_name, cb.area_id, 0, cb.payload.new_shm_area.size); free (area_name); if (!newarea) return -4; newarea->next = self->shm_area; self->shm_area = newarea; break; case COMMAND_CLOSE_SHM_AREA: for (area = self->shm_area; area; area = area->next) { if (area->id == cb.area_id) { sp_shm_area_dec (self, area); break; } } break; case COMMAND_NEW_BUFFER: assert (buf); for (area = self->shm_area; area; area = area->next) { if (area->id == cb.area_id) { *buf = area->shm_area_buf + cb.payload.buffer.offset; sp_shm_area_inc (area); return cb.payload.buffer.size; } } return -23; default: return -99; } return 0; } int sp_writer_recv (ShmPipe * self, ShmClient * client) { ShmBuffer *buf = NULL, *prev_buf = NULL; struct CommandBuffer cb; if (!recv_command (client->fd, &cb)) return -1; switch (cb.type) { case COMMAND_ACK_BUFFER: for (buf = self->buffers; buf; buf = buf->next) { if (buf->shm_area->id == cb.area_id && buf->offset == cb.payload.ack_buffer.offset) { sp_shmbuf_dec (self, buf, prev_buf, client); break; } prev_buf = buf; } if (!buf) return -2; break; default: return -99; } return 0; } int sp_client_recv_finish (ShmPipe * self, char *buf) { ShmArea *shm_area = NULL; unsigned long offset; struct CommandBuffer cb = { 0 }; for (shm_area = self->shm_area; shm_area; shm_area = shm_area->next) { if (buf >= shm_area->shm_area_buf && buf < shm_area->shm_area_buf + shm_area->shm_area_len) break; } assert (shm_area); offset = buf - shm_area->shm_area_buf; sp_shm_area_dec (self, shm_area); cb.payload.ack_buffer.offset = offset; return send_command (self->main_socket, &cb, COMMAND_ACK_BUFFER, self->shm_area->id); } ShmPipe * sp_client_open (const char *path) { ShmPipe *self = spalloc_new (ShmPipe); struct sockaddr_un sock_un; memset (self, 0, sizeof (ShmPipe)); self->main_socket = socket (PF_UNIX, SOCK_STREAM, 0); self->use_count = 1; if (self->main_socket < 0) goto error; sock_un.sun_family = AF_UNIX; strncpy (sock_un.sun_path, path, sizeof (sock_un.sun_path) - 1); if (connect (self->main_socket, (struct sockaddr *) &sock_un, sizeof (struct sockaddr_un)) < 0) goto error; return self; error: sp_close (self); return NULL; } ShmClient * sp_writer_accept_client (ShmPipe * self) { ShmClient *client = NULL; int fd; struct CommandBuffer cb = { 0 }; int pathlen = strlen (self->shm_area->shm_area_name) + 1; fd = accept (self->main_socket, NULL, NULL); if (fd < 0) { fprintf (stderr, "Could not client connection"); return NULL; } cb.payload.new_shm_area.size = self->shm_area->shm_area_len; cb.payload.new_shm_area.path_size = pathlen; if (!send_command (fd, &cb, COMMAND_NEW_SHM_AREA, self->shm_area->id)) { fprintf (stderr, "Sending new shm area failed: %s", strerror (errno)); goto error; } if (send (fd, self->shm_area->shm_area_name, pathlen, MSG_NOSIGNAL) != pathlen) { fprintf (stderr, "Sending new shm area path failed: %s", strerror (errno)); goto error; } client = spalloc_new (ShmClient); client->fd = fd; /* Prepend ot linked list */ client->next = self->clients; self->clients = client; self->num_clients++; return client; error: close (fd); return NULL; } static int sp_shmbuf_dec (ShmPipe * self, ShmBuffer * buf, ShmBuffer * prev_buf, ShmClient * client) { int i; int had_client = 0; /** * Remove client from the list of buffer users. Here we make sure that * if a client closes connection but already decremented the use count * for this buffer, but other clients didn't have time to decrement * buffer will not be freed too early in sp_writer_close_client. */ for (i = 0; i < buf->num_clients; i++) { if (buf->clients[i] == client->fd) { buf->clients[i] = -1; had_client = 1; break; } } assert (had_client); buf->use_count--; if (buf->use_count == 0) { /* Remove from linked list */ if (prev_buf) prev_buf->next = buf->next; else self->buffers = buf->next; shm_alloc_space_block_dec (buf->ablock); sp_shm_area_dec (self, buf->shm_area); spalloc_free1 (sizeof (ShmBuffer) + sizeof (int) * buf->num_clients, buf); return 0; } return 1; } void sp_writer_close_client (ShmPipe * self, ShmClient * client) { ShmBuffer *buffer = NULL, *prev_buf = NULL; ShmClient *item = NULL, *prev_item = NULL; close (client->fd); again: for (buffer = self->buffers; buffer; buffer = buffer->next) { int i; for (i = 0; i < buffer->num_clients; i++) { if (buffer->clients[i] == client->fd) { if (!sp_shmbuf_dec (self, buffer, prev_buf, client)) goto again; break; } } prev_buf = buffer; } for (item = self->clients; item; item = item->next) { if (item == client) break; prev_item = item; } assert (item); if (prev_item) prev_item->next = client->next; else self->clients = client->next; self->num_clients--; spalloc_free (ShmClient, client); } int sp_get_fd (ShmPipe * self) { return self->main_socket; } int sp_writer_get_client_fd (ShmClient * client) { return client->fd; } int sp_writer_pending_writes (ShmPipe * self) { return (self->buffers != NULL); } const char * sp_writer_get_path (ShmPipe * pipe) { return pipe->socket_path; } ShmBuffer * sp_writer_get_pending_buffers (ShmPipe * self) { return self->buffers; } ShmBuffer * sp_writer_get_next_buffer (ShmBuffer * buffer) { return buffer->next; } uint64_t sp_writer_buf_get_tag (ShmBuffer * buffer) { return buffer->tag; }