/*** This file is part of PulseAudio. Copyright 2004-2006 Lennart Poettering Copyright 2006 Pierre Ossman for Cendio AB PulseAudio 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. PulseAudio 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 PulseAudio; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. ***/ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #ifdef HAVE_SYS_UN_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif #include #include #include #include #include #include #include #include #include #include "pstream.h" /* We piggyback information if audio data blocks are stored in SHM on the seek mode */ #define PA_FLAG_SHMDATA 0x80000000LU #define PA_FLAG_SHMRELEASE 0x40000000LU #define PA_FLAG_SHMREVOKE 0xC0000000LU #define PA_FLAG_SHMMASK 0xFF000000LU #define PA_FLAG_SEEKMASK 0x000000FFLU /* The sequence descriptor header consists of 5 32bit integers: */ enum { PA_PSTREAM_DESCRIPTOR_LENGTH, PA_PSTREAM_DESCRIPTOR_CHANNEL, PA_PSTREAM_DESCRIPTOR_OFFSET_HI, PA_PSTREAM_DESCRIPTOR_OFFSET_LO, PA_PSTREAM_DESCRIPTOR_FLAGS, PA_PSTREAM_DESCRIPTOR_MAX }; /* If we have an SHM block, this info follows the descriptor */ enum { PA_PSTREAM_SHM_BLOCKID, PA_PSTREAM_SHM_SHMID, PA_PSTREAM_SHM_INDEX, PA_PSTREAM_SHM_LENGTH, PA_PSTREAM_SHM_MAX }; typedef uint32_t pa_pstream_descriptor[PA_PSTREAM_DESCRIPTOR_MAX]; #define PA_PSTREAM_DESCRIPTOR_SIZE (PA_PSTREAM_DESCRIPTOR_MAX*sizeof(uint32_t)) #define FRAME_SIZE_MAX_ALLOW PA_SCACHE_ENTRY_SIZE_MAX /* allow uploading a single sample in one frame at max */ PA_STATIC_FLIST_DECLARE(items, 0, pa_xfree); struct item_info { enum { PA_PSTREAM_ITEM_PACKET, PA_PSTREAM_ITEM_MEMBLOCK, PA_PSTREAM_ITEM_SHMRELEASE, PA_PSTREAM_ITEM_SHMREVOKE } type; /* packet info */ pa_packet *packet; #ifdef HAVE_CREDS pa_bool_t with_creds; pa_creds creds; #endif /* memblock info */ pa_memchunk chunk; uint32_t channel; int64_t offset; pa_seek_mode_t seek_mode; /* release/revoke info */ uint32_t block_id; }; struct pa_pstream { PA_REFCNT_DECLARE; pa_mainloop_api *mainloop; pa_defer_event *defer_event; pa_iochannel *io; pa_queue *send_queue; pa_bool_t dead; struct { pa_pstream_descriptor descriptor; struct item_info* current; uint32_t shm_info[PA_PSTREAM_SHM_MAX]; void *data; size_t index; pa_memchunk memchunk; } write; struct { pa_pstream_descriptor descriptor; pa_memblock *memblock; pa_packet *packet; uint32_t shm_info[PA_PSTREAM_SHM_MAX]; void *data; size_t index; } read; pa_bool_t use_shm; pa_memimport *import; pa_memexport *export; pa_pstream_packet_cb_t recieve_packet_callback; void *recieve_packet_callback_userdata; pa_pstream_memblock_cb_t recieve_memblock_callback; void *recieve_memblock_callback_userdata; pa_pstream_notify_cb_t drain_callback; void *drain_callback_userdata; pa_pstream_notify_cb_t die_callback; void *die_callback_userdata; pa_pstream_block_id_cb_t revoke_callback; void *revoke_callback_userdata; pa_pstream_block_id_cb_t release_callback; void *release_callback_userdata; pa_mempool *mempool; #ifdef HAVE_CREDS pa_creds read_creds, write_creds; pa_bool_t read_creds_valid, send_creds_now; #endif }; static int do_write(pa_pstream *p); static int do_read(pa_pstream *p); static void do_something(pa_pstream *p) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); pa_pstream_ref(p); p->mainloop->defer_enable(p->defer_event, 0); if (!p->dead && pa_iochannel_is_readable(p->io)) { if (do_read(p) < 0) goto fail; } else if (!p->dead && pa_iochannel_is_hungup(p->io)) goto fail; if (!p->dead && pa_iochannel_is_writable(p->io)) { if (do_write(p) < 0) goto fail; } pa_pstream_unref(p); return; fail: if (p->die_callback) p->die_callback(p, p->die_callback_userdata); pa_pstream_unlink(p); pa_pstream_unref(p); } static void io_callback(pa_iochannel*io, void *userdata) { pa_pstream *p = userdata; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); pa_assert(p->io == io); do_something(p); } static void defer_callback(pa_mainloop_api *m, pa_defer_event *e, void*userdata) { pa_pstream *p = userdata; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); pa_assert(p->defer_event == e); pa_assert(p->mainloop == m); do_something(p); } static void memimport_release_cb(pa_memimport *i, uint32_t block_id, void *userdata); pa_pstream *pa_pstream_new(pa_mainloop_api *m, pa_iochannel *io, pa_mempool *pool) { pa_pstream *p; pa_assert(m); pa_assert(io); pa_assert(pool); p = pa_xnew(pa_pstream, 1); PA_REFCNT_INIT(p); p->io = io; pa_iochannel_set_callback(io, io_callback, p); p->dead = FALSE; p->mainloop = m; p->defer_event = m->defer_new(m, defer_callback, p); m->defer_enable(p->defer_event, 0); p->send_queue = pa_queue_new(); p->write.current = NULL; p->write.index = 0; pa_memchunk_reset(&p->write.memchunk); p->read.memblock = NULL; p->read.packet = NULL; p->read.index = 0; p->recieve_packet_callback = NULL; p->recieve_packet_callback_userdata = NULL; p->recieve_memblock_callback = NULL; p->recieve_memblock_callback_userdata = NULL; p->drain_callback = NULL; p->drain_callback_userdata = NULL; p->die_callback = NULL; p->die_callback_userdata = NULL; p->revoke_callback = NULL; p->revoke_callback_userdata = NULL; p->release_callback = NULL; p->release_callback_userdata = NULL; p->mempool = pool; p->use_shm = FALSE; p->export = NULL; /* We do importing unconditionally */ p->import = pa_memimport_new(p->mempool, memimport_release_cb, p); pa_iochannel_socket_set_rcvbuf(io, pa_mempool_block_size_max(p->mempool)); pa_iochannel_socket_set_sndbuf(io, pa_mempool_block_size_max(p->mempool)); #ifdef HAVE_CREDS p->send_creds_now = FALSE; p->read_creds_valid = FALSE; #endif return p; } static void item_free(void *item, void *q) { struct item_info *i = item; pa_assert(i); if (i->type == PA_PSTREAM_ITEM_MEMBLOCK) { pa_assert(i->chunk.memblock); pa_memblock_unref(i->chunk.memblock); } else if (i->type == PA_PSTREAM_ITEM_PACKET) { pa_assert(i->packet); pa_packet_unref(i->packet); } if (pa_flist_push(PA_STATIC_FLIST_GET(items), i) < 0) pa_xfree(i); } static void pstream_free(pa_pstream *p) { pa_assert(p); pa_pstream_unlink(p); pa_queue_free(p->send_queue, item_free, NULL); if (p->write.current) item_free(p->write.current, NULL); if (p->write.memchunk.memblock) pa_memblock_unref(p->write.memchunk.memblock); if (p->read.memblock) pa_memblock_unref(p->read.memblock); if (p->read.packet) pa_packet_unref(p->read.packet); pa_xfree(p); } void pa_pstream_send_packet(pa_pstream*p, pa_packet *packet, const pa_creds *creds) { struct item_info *i; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); pa_assert(packet); if (p->dead) return; if (!(i = pa_flist_pop(PA_STATIC_FLIST_GET(items)))) i = pa_xnew(struct item_info, 1); i->type = PA_PSTREAM_ITEM_PACKET; i->packet = pa_packet_ref(packet); #ifdef HAVE_CREDS if ((i->with_creds = !!creds)) i->creds = *creds; #endif pa_queue_push(p->send_queue, i); p->mainloop->defer_enable(p->defer_event, 1); } void pa_pstream_send_memblock(pa_pstream*p, uint32_t channel, int64_t offset, pa_seek_mode_t seek_mode, const pa_memchunk *chunk) { size_t length, idx; size_t bsm; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); pa_assert(channel != (uint32_t) -1); pa_assert(chunk); if (p->dead) return; idx = 0; length = chunk->length; bsm = pa_mempool_block_size_max(p->mempool); while (length > 0) { struct item_info *i; size_t n; if (!(i = pa_flist_pop(PA_STATIC_FLIST_GET(items)))) i = pa_xnew(struct item_info, 1); i->type = PA_PSTREAM_ITEM_MEMBLOCK; n = PA_MIN(length, bsm); i->chunk.index = chunk->index + idx; i->chunk.length = n; i->chunk.memblock = pa_memblock_ref(chunk->memblock); i->channel = channel; i->offset = offset; i->seek_mode = seek_mode; #ifdef HAVE_CREDS i->with_creds = FALSE; #endif pa_queue_push(p->send_queue, i); idx += n; length -= n; } p->mainloop->defer_enable(p->defer_event, 1); } void pa_pstream_send_release(pa_pstream *p, uint32_t block_id) { struct item_info *item; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (p->dead) return; /* pa_log("Releasing block %u", block_id); */ if (!(item = pa_flist_pop(PA_STATIC_FLIST_GET(items)))) item = pa_xnew(struct item_info, 1); item->type = PA_PSTREAM_ITEM_SHMRELEASE; item->block_id = block_id; #ifdef HAVE_CREDS item->with_creds = FALSE; #endif pa_queue_push(p->send_queue, item); p->mainloop->defer_enable(p->defer_event, 1); } /* might be called from thread context */ static void memimport_release_cb(pa_memimport *i, uint32_t block_id, void *userdata) { pa_pstream *p = userdata; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (p->dead) return; if (p->release_callback) p->release_callback(p, block_id, p->release_callback_userdata); else pa_pstream_send_release(p, block_id); } void pa_pstream_send_revoke(pa_pstream *p, uint32_t block_id) { struct item_info *item; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (p->dead) return; /* pa_log("Revoking block %u", block_id); */ if (!(item = pa_flist_pop(PA_STATIC_FLIST_GET(items)))) item = pa_xnew(struct item_info, 1); item->type = PA_PSTREAM_ITEM_SHMREVOKE; item->block_id = block_id; #ifdef HAVE_CREDS item->with_creds = FALSE; #endif pa_queue_push(p->send_queue, item); p->mainloop->defer_enable(p->defer_event, 1); } /* might be called from thread context */ static void memexport_revoke_cb(pa_memexport *e, uint32_t block_id, void *userdata) { pa_pstream *p = userdata; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (p->revoke_callback) p->revoke_callback(p, block_id, p->revoke_callback_userdata); else pa_pstream_send_revoke(p, block_id); } static void prepare_next_write_item(pa_pstream *p) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->write.current = pa_queue_pop(p->send_queue); if (!p->write.current) return; p->write.index = 0; p->write.data = NULL; pa_memchunk_reset(&p->write.memchunk); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH] = 0; p->write.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL] = htonl((uint32_t) -1); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI] = 0; p->write.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_LO] = 0; p->write.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS] = 0; if (p->write.current->type == PA_PSTREAM_ITEM_PACKET) { pa_assert(p->write.current->packet); p->write.data = p->write.current->packet->data; p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH] = htonl((uint32_t) p->write.current->packet->length); } else if (p->write.current->type == PA_PSTREAM_ITEM_SHMRELEASE) { p->write.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS] = htonl(PA_FLAG_SHMRELEASE); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI] = htonl(p->write.current->block_id); } else if (p->write.current->type == PA_PSTREAM_ITEM_SHMREVOKE) { p->write.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS] = htonl(PA_FLAG_SHMREVOKE); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI] = htonl(p->write.current->block_id); } else { uint32_t flags; pa_bool_t send_payload = TRUE; pa_assert(p->write.current->type == PA_PSTREAM_ITEM_MEMBLOCK); pa_assert(p->write.current->chunk.memblock); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL] = htonl(p->write.current->channel); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI] = htonl((uint32_t) (((uint64_t) p->write.current->offset) >> 32)); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_LO] = htonl((uint32_t) ((uint64_t) p->write.current->offset)); flags = (uint32_t) (p->write.current->seek_mode & PA_FLAG_SEEKMASK); if (p->use_shm) { uint32_t block_id, shm_id; size_t offset, length; pa_assert(p->export); if (pa_memexport_put(p->export, p->write.current->chunk.memblock, &block_id, &shm_id, &offset, &length) >= 0) { flags |= PA_FLAG_SHMDATA; send_payload = FALSE; p->write.shm_info[PA_PSTREAM_SHM_BLOCKID] = htonl(block_id); p->write.shm_info[PA_PSTREAM_SHM_SHMID] = htonl(shm_id); p->write.shm_info[PA_PSTREAM_SHM_INDEX] = htonl((uint32_t) (offset + p->write.current->chunk.index)); p->write.shm_info[PA_PSTREAM_SHM_LENGTH] = htonl((uint32_t) p->write.current->chunk.length); p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH] = htonl(sizeof(p->write.shm_info)); p->write.data = p->write.shm_info; } /* else */ /* pa_log_warn("Failed to export memory block."); */ } if (send_payload) { p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH] = htonl((uint32_t) p->write.current->chunk.length); p->write.memchunk = p->write.current->chunk; pa_memblock_ref(p->write.memchunk.memblock); p->write.data = NULL; } p->write.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS] = htonl(flags); } #ifdef HAVE_CREDS if ((p->send_creds_now = p->write.current->with_creds)) p->write_creds = p->write.current->creds; #endif } static int do_write(pa_pstream *p) { void *d; size_t l; ssize_t r; pa_memblock *release_memblock = NULL; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (!p->write.current) prepare_next_write_item(p); if (!p->write.current) return 0; if (p->write.index < PA_PSTREAM_DESCRIPTOR_SIZE) { d = (uint8_t*) p->write.descriptor + p->write.index; l = PA_PSTREAM_DESCRIPTOR_SIZE - p->write.index; } else { pa_assert(p->write.data || p->write.memchunk.memblock); if (p->write.data) d = p->write.data; else { d = (uint8_t*) pa_memblock_acquire(p->write.memchunk.memblock) + p->write.memchunk.index; release_memblock = p->write.memchunk.memblock; } d = (uint8_t*) d + p->write.index - PA_PSTREAM_DESCRIPTOR_SIZE; l = ntohl(p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) - (p->write.index - PA_PSTREAM_DESCRIPTOR_SIZE); } pa_assert(l > 0); #ifdef HAVE_CREDS if (p->send_creds_now) { if ((r = pa_iochannel_write_with_creds(p->io, d, l, &p->write_creds)) < 0) goto fail; p->send_creds_now = FALSE; } else #endif if ((r = pa_iochannel_write(p->io, d, l)) < 0) goto fail; if (release_memblock) pa_memblock_release(release_memblock); p->write.index += (size_t) r; if (p->write.index >= PA_PSTREAM_DESCRIPTOR_SIZE + ntohl(p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH])) { pa_assert(p->write.current); item_free(p->write.current, NULL); p->write.current = NULL; if (p->write.memchunk.memblock) pa_memblock_unref(p->write.memchunk.memblock); pa_memchunk_reset(&p->write.memchunk); if (p->drain_callback && !pa_pstream_is_pending(p)) p->drain_callback(p, p->drain_callback_userdata); } return 0; fail: if (release_memblock) pa_memblock_release(release_memblock); return -1; } static int do_read(pa_pstream *p) { void *d; size_t l; ssize_t r; pa_memblock *release_memblock = NULL; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (p->read.index < PA_PSTREAM_DESCRIPTOR_SIZE) { d = (uint8_t*) p->read.descriptor + p->read.index; l = PA_PSTREAM_DESCRIPTOR_SIZE - p->read.index; } else { pa_assert(p->read.data || p->read.memblock); if (p->read.data) d = p->read.data; else { d = pa_memblock_acquire(p->read.memblock); release_memblock = p->read.memblock; } d = (uint8_t*) d + p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE; l = ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) - (p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE); } #ifdef HAVE_CREDS { pa_bool_t b = 0; if ((r = pa_iochannel_read_with_creds(p->io, d, l, &p->read_creds, &b)) <= 0) goto fail; p->read_creds_valid = p->read_creds_valid || b; } #else if ((r = pa_iochannel_read(p->io, d, l)) <= 0) goto fail; #endif if (release_memblock) pa_memblock_release(release_memblock); p->read.index += (size_t) r; if (p->read.index == PA_PSTREAM_DESCRIPTOR_SIZE) { uint32_t flags, length, channel; /* Reading of frame descriptor complete */ flags = ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS]); if (!p->use_shm && (flags & PA_FLAG_SHMMASK) != 0) { pa_log_warn("Received SHM frame on a socket where SHM is disabled."); return -1; } if (flags == PA_FLAG_SHMRELEASE) { /* This is a SHM memblock release frame with no payload */ /* pa_log("Got release frame for %u", ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI])); */ pa_assert(p->export); pa_memexport_process_release(p->export, ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI])); goto frame_done; } else if (flags == PA_FLAG_SHMREVOKE) { /* This is a SHM memblock revoke frame with no payload */ /* pa_log("Got revoke frame for %u", ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI])); */ pa_assert(p->import); pa_memimport_process_revoke(p->import, ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI])); goto frame_done; } length = ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]); if (length > FRAME_SIZE_MAX_ALLOW || length <= 0) { pa_log_warn("Received invalid frame size: %lu", (unsigned long) length); return -1; } pa_assert(!p->read.packet && !p->read.memblock); channel = ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL]); if (channel == (uint32_t) -1) { if (flags != 0) { pa_log_warn("Received packet frame with invalid flags value."); return -1; } /* Frame is a packet frame */ p->read.packet = pa_packet_new(length); p->read.data = p->read.packet->data; } else { if ((flags & PA_FLAG_SEEKMASK) > PA_SEEK_RELATIVE_END) { pa_log_warn("Received memblock frame with invalid seek mode."); return -1; } if ((flags & PA_FLAG_SHMMASK) == PA_FLAG_SHMDATA) { if (length != sizeof(p->read.shm_info)) { pa_log_warn("Received SHM memblock frame with Invalid frame length."); return -1; } /* Frame is a memblock frame referencing an SHM memblock */ p->read.data = p->read.shm_info; } else if ((flags & PA_FLAG_SHMMASK) == 0) { /* Frame is a memblock frame */ p->read.memblock = pa_memblock_new(p->mempool, length); p->read.data = NULL; } else { pa_log_warn("Received memblock frame with invalid flags value."); return -1; } } } else if (p->read.index > PA_PSTREAM_DESCRIPTOR_SIZE) { /* Frame payload available */ if (p->read.memblock && p->recieve_memblock_callback) { /* Is this memblock data? Than pass it to the user */ l = (p->read.index - (size_t) r) < PA_PSTREAM_DESCRIPTOR_SIZE ? (size_t) (p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE) : (size_t) r; if (l > 0) { pa_memchunk chunk; chunk.memblock = p->read.memblock; chunk.index = p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE - l; chunk.length = l; if (p->recieve_memblock_callback) { int64_t offset; offset = (int64_t) ( (((uint64_t) ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI])) << 32) | (((uint64_t) ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_LO])))); p->recieve_memblock_callback( p, ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL]), offset, ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS]) & PA_FLAG_SEEKMASK, &chunk, p->recieve_memblock_callback_userdata); } /* Drop seek info for following callbacks */ p->read.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS] = p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI] = p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_LO] = 0; } } /* Frame complete */ if (p->read.index >= ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) + PA_PSTREAM_DESCRIPTOR_SIZE) { if (p->read.memblock) { /* This was a memblock frame. We can unref the memblock now */ pa_memblock_unref(p->read.memblock); } else if (p->read.packet) { if (p->recieve_packet_callback) #ifdef HAVE_CREDS p->recieve_packet_callback(p, p->read.packet, p->read_creds_valid ? &p->read_creds : NULL, p->recieve_packet_callback_userdata); #else p->recieve_packet_callback(p, p->read.packet, NULL, p->recieve_packet_callback_userdata); #endif pa_packet_unref(p->read.packet); } else { pa_memblock *b; pa_assert((ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS]) & PA_FLAG_SHMMASK) == PA_FLAG_SHMDATA); pa_assert(p->import); if (!(b = pa_memimport_get(p->import, ntohl(p->read.shm_info[PA_PSTREAM_SHM_BLOCKID]), ntohl(p->read.shm_info[PA_PSTREAM_SHM_SHMID]), ntohl(p->read.shm_info[PA_PSTREAM_SHM_INDEX]), ntohl(p->read.shm_info[PA_PSTREAM_SHM_LENGTH])))) { if (pa_log_ratelimit(PA_LOG_DEBUG)) pa_log_debug("Failed to import memory block."); } if (p->recieve_memblock_callback) { int64_t offset; pa_memchunk chunk; chunk.memblock = b; chunk.index = 0; chunk.length = b ? pa_memblock_get_length(b) : ntohl(p->read.shm_info[PA_PSTREAM_SHM_LENGTH]); offset = (int64_t) ( (((uint64_t) ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_HI])) << 32) | (((uint64_t) ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_OFFSET_LO])))); p->recieve_memblock_callback( p, ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL]), offset, ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_FLAGS]) & PA_FLAG_SEEKMASK, &chunk, p->recieve_memblock_callback_userdata); } if (b) pa_memblock_unref(b); } goto frame_done; } } return 0; frame_done: p->read.memblock = NULL; p->read.packet = NULL; p->read.index = 0; p->read.data = NULL; #ifdef HAVE_CREDS p->read_creds_valid = FALSE; #endif return 0; fail: if (release_memblock) pa_memblock_release(release_memblock); return -1; } void pa_pstream_set_die_callback(pa_pstream *p, pa_pstream_notify_cb_t cb, void *userdata) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->die_callback = cb; p->die_callback_userdata = userdata; } void pa_pstream_set_drain_callback(pa_pstream *p, pa_pstream_notify_cb_t cb, void *userdata) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->drain_callback = cb; p->drain_callback_userdata = userdata; } void pa_pstream_set_recieve_packet_callback(pa_pstream *p, pa_pstream_packet_cb_t cb, void *userdata) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->recieve_packet_callback = cb; p->recieve_packet_callback_userdata = userdata; } void pa_pstream_set_recieve_memblock_callback(pa_pstream *p, pa_pstream_memblock_cb_t cb, void *userdata) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->recieve_memblock_callback = cb; p->recieve_memblock_callback_userdata = userdata; } void pa_pstream_set_release_callback(pa_pstream *p, pa_pstream_block_id_cb_t cb, void *userdata) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->release_callback = cb; p->release_callback_userdata = userdata; } void pa_pstream_set_revoke_callback(pa_pstream *p, pa_pstream_block_id_cb_t cb, void *userdata) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->release_callback = cb; p->release_callback_userdata = userdata; } pa_bool_t pa_pstream_is_pending(pa_pstream *p) { pa_bool_t b; pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (p->dead) b = FALSE; else b = p->write.current || !pa_queue_isempty(p->send_queue); return b; } void pa_pstream_unref(pa_pstream*p) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); if (PA_REFCNT_DEC(p) <= 0) pstream_free(p); } pa_pstream* pa_pstream_ref(pa_pstream*p) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); PA_REFCNT_INC(p); return p; } void pa_pstream_unlink(pa_pstream *p) { pa_assert(p); if (p->dead) return; p->dead = TRUE; if (p->import) { pa_memimport_free(p->import); p->import = NULL; } if (p->export) { pa_memexport_free(p->export); p->export = NULL; } if (p->io) { pa_iochannel_free(p->io); p->io = NULL; } if (p->defer_event) { p->mainloop->defer_free(p->defer_event); p->defer_event = NULL; } p->die_callback = NULL; p->drain_callback = NULL; p->recieve_packet_callback = NULL; p->recieve_memblock_callback = NULL; } void pa_pstream_enable_shm(pa_pstream *p, pa_bool_t enable) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); p->use_shm = enable; if (enable) { if (!p->export) p->export = pa_memexport_new(p->mempool, memexport_revoke_cb, p); } else { if (p->export) { pa_memexport_free(p->export); p->export = NULL; } } } pa_bool_t pa_pstream_get_shm(pa_pstream *p) { pa_assert(p); pa_assert(PA_REFCNT_VALUE(p) > 0); return p->use_shm; }