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#include <stdlib.h>
#include <assert.h>
#include <netinet/in.h>
#include "pstream.h"
#include "queue.h"
enum pa_pstream_descriptor_index {
PA_PSTREAM_DESCRIPTOR_LENGTH,
PA_PSTREAM_DESCRIPTOR_CHANNEL,
PA_PSTREAM_DESCRIPTOR_DELTA,
PA_PSTREAM_DESCRIPTOR_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 (1024*64)
struct item_info {
enum { PA_PSTREAM_ITEM_PACKET, PA_PSTREAM_ITEM_MEMBLOCK } type;
/* memblock info */
struct pa_memchunk chunk;
uint32_t channel;
int32_t delta;
/* packet info */
struct pa_packet *packet;
};
struct pa_pstream {
struct pa_mainloop_api *mainloop;
struct mainloop_source *mainloop_source;
struct pa_iochannel *io;
struct pa_queue *send_queue;
int dead;
void (*die_callback) (struct pa_pstream *p, void *userdad);
void *die_callback_userdata;
struct {
struct item_info* current;
pa_pstream_descriptor descriptor;
void *data;
size_t index;
} write;
void (*send_callback) (struct pa_pstream *p, void *userdata);
void *send_callback_userdata;
struct {
struct pa_memblock *memblock;
struct pa_packet *packet;
pa_pstream_descriptor descriptor;
void *data;
size_t index;
} read;
int (*recieve_packet_callback) (struct pa_pstream *p, struct pa_packet *packet, void *userdata);
void *recieve_packet_callback_userdata;
int (*recieve_memblock_callback) (struct pa_pstream *p, uint32_t channel, int32_t delta, struct pa_memchunk *chunk, void *userdata);
void *recieve_memblock_callback_userdata;
};
static void do_write(struct pa_pstream *p);
static void do_read(struct pa_pstream *p);
static void io_callback(struct pa_iochannel*io, void *userdata) {
struct pa_pstream *p = userdata;
assert(p && p->io == io);
p->mainloop->enable_fixed(p->mainloop, p->mainloop_source, 0);
do_write(p);
do_read(p);
}
static void fixed_callback(struct pa_mainloop_api *m, void *id, void*userdata) {
struct pa_pstream *p = userdata;
assert(p && p->mainloop_source == id && p->mainloop == m);
p->mainloop->enable_fixed(p->mainloop, p->mainloop_source, 0);
do_write(p);
do_read(p);
}
struct pa_pstream *pa_pstream_new(struct pa_mainloop_api *m, struct pa_iochannel *io) {
struct pa_pstream *p;
assert(io);
p = malloc(sizeof(struct pa_pstream));
assert(p);
p->io = io;
pa_iochannel_set_callback(io, io_callback, p);
p->dead = 0;
p->die_callback = NULL;
p->die_callback_userdata = NULL;
p->mainloop = m;
p->mainloop_source = m->source_fixed(m, fixed_callback, p);
m->enable_fixed(m, p->mainloop_source, 0);
p->send_queue = pa_queue_new();
assert(p->send_queue);
p->write.current = NULL;
p->write.index = 0;
p->read.memblock = NULL;
p->read.packet = NULL;
p->read.index = 0;
p->send_callback = NULL;
p->send_callback_userdata = NULL;
p->recieve_packet_callback = NULL;
p->recieve_packet_callback_userdata = NULL;
p->recieve_memblock_callback = NULL;
p->recieve_memblock_callback_userdata = NULL;
return p;
}
static void item_free(void *item, void *p) {
struct item_info *i = item;
assert(i);
if (i->type == PA_PSTREAM_ITEM_MEMBLOCK) {
assert(i->chunk.memblock);
pa_memblock_unref(i->chunk.memblock);
} else {
assert(i->type == PA_PSTREAM_ITEM_PACKET);
assert(i->packet);
pa_packet_unref(i->packet);
}
free(i);
}
void pa_pstream_free(struct pa_pstream *p) {
assert(p);
pa_iochannel_free(p->io);
pa_queue_free(p->send_queue, item_free, NULL);
if (p->write.current)
item_free(p->write.current, NULL);
if (p->read.memblock)
pa_memblock_unref(p->read.memblock);
if (p->read.packet)
pa_packet_unref(p->read.packet);
p->mainloop->cancel_fixed(p->mainloop, p->mainloop_source);
free(p);
}
void pa_pstream_set_send_callback(struct pa_pstream*p, void (*callback) (struct pa_pstream *p, void *userdata), void *userdata) {
assert(p && callback);
p->send_callback = callback;
p->send_callback_userdata = userdata;
}
void pa_pstream_send_packet(struct pa_pstream*p, struct pa_packet *packet) {
struct item_info *i;
assert(p && packet);
i = malloc(sizeof(struct item_info));
assert(i);
i->type = PA_PSTREAM_ITEM_PACKET;
i->packet = pa_packet_ref(packet);
pa_queue_push(p->send_queue, i);
p->mainloop->enable_fixed(p->mainloop, p->mainloop_source, 1);
}
void pa_pstream_send_memblock(struct pa_pstream*p, uint32_t channel, int32_t delta, struct pa_memchunk *chunk) {
struct item_info *i;
assert(p && channel != (uint32_t) -1 && chunk);
i = malloc(sizeof(struct item_info));
assert(i);
i->type = PA_PSTREAM_ITEM_MEMBLOCK;
i->chunk = *chunk;
i->channel = channel;
i->delta = delta;
pa_memblock_ref(i->chunk.memblock);
pa_queue_push(p->send_queue, i);
p->mainloop->enable_fixed(p->mainloop, p->mainloop_source, 1);
}
void pa_pstream_set_recieve_packet_callback(struct pa_pstream *p, int (*callback) (struct pa_pstream *p, struct pa_packet *packet, void *userdata), void *userdata) {
assert(p && callback);
p->recieve_packet_callback = callback;
p->recieve_packet_callback_userdata = userdata;
}
void pa_pstream_set_recieve_memblock_callback(struct pa_pstream *p, int (*callback) (struct pa_pstream *p, uint32_t channel, int32_t delta, struct pa_memchunk *chunk, void *userdata), void *userdata) {
assert(p && callback);
p->recieve_memblock_callback = callback;
p->recieve_memblock_callback_userdata = userdata;
}
static void prepare_next_write_item(struct pa_pstream *p) {
assert(p);
if (!(p->write.current = pa_queue_pop(p->send_queue)))
return;
p->write.index = 0;
if (p->write.current->type == PA_PSTREAM_ITEM_PACKET) {
assert(p->write.current->packet);
p->write.data = p->write.current->packet->data;
p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH] = htonl(p->write.current->packet->length);
p->write.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL] = htonl((uint32_t) -1);
p->write.descriptor[PA_PSTREAM_DESCRIPTOR_DELTA] = 0;
} else {
assert(p->write.current->type == PA_PSTREAM_ITEM_MEMBLOCK && p->write.current->chunk.memblock);
p->write.data = p->write.current->chunk.memblock->data + p->write.current->chunk.index;
p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH] = htonl(p->write.current->chunk.length);
p->write.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL] = htonl(p->write.current->channel);
p->write.descriptor[PA_PSTREAM_DESCRIPTOR_DELTA] = htonl(p->write.current->delta);
}
}
static void do_write(struct pa_pstream *p) {
void *d;
size_t l;
ssize_t r;
assert(p);
if (p->dead || !pa_iochannel_is_writable(p->io))
return;
if (!p->write.current)
prepare_next_write_item(p);
if (!p->write.current)
return;
assert(p->write.data);
if (p->write.index < PA_PSTREAM_DESCRIPTOR_SIZE) {
d = (void*) p->write.descriptor + p->write.index;
l = PA_PSTREAM_DESCRIPTOR_SIZE - p->write.index;
} else {
d = (void*) p->write.data + p->write.index - PA_PSTREAM_DESCRIPTOR_SIZE;
l = ntohl(p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) - (p->write.index - PA_PSTREAM_DESCRIPTOR_SIZE);
}
if ((r = pa_iochannel_write(p->io, d, l)) < 0)
goto die;
p->write.index += r;
if (p->write.index >= PA_PSTREAM_DESCRIPTOR_SIZE+ntohl(p->write.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH])) {
assert(p->write.current);
item_free(p->write.current, (void *) 1);
p->write.current = NULL;
if (p->send_callback && pa_queue_is_empty(p->send_queue))
p->send_callback(p, p->send_callback_userdata);
}
return;
die:
p->dead = 1;
if (p->die_callback)
p->die_callback(p, p->die_callback_userdata);
}
static void do_read(struct pa_pstream *p) {
void *d;
size_t l;
ssize_t r;
assert(p);
if (p->dead || !pa_iochannel_is_readable(p->io))
return;
if (p->read.index < PA_PSTREAM_DESCRIPTOR_SIZE) {
d = (void*) p->read.descriptor + p->read.index;
l = PA_PSTREAM_DESCRIPTOR_SIZE - p->read.index;
} else {
assert(p->read.data);
d = (void*) p->read.data + p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE;
l = ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) - (p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE);
}
if ((r = pa_iochannel_read(p->io, d, l)) <= 0)
goto die;
p->read.index += r;
if (p->read.index == PA_PSTREAM_DESCRIPTOR_SIZE) {
/* Reading of frame descriptor complete */
/* Frame size too large */
if (ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) > FRAME_SIZE_MAX)
goto die;
assert(!p->read.packet && !p->read.memblock);
if (ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL]) == (uint32_t) -1) {
/* Frame is a packet frame */
p->read.packet = pa_packet_new(ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]));
assert(p->read.packet);
p->read.data = p->read.packet->data;
} else {
/* Frame is a memblock frame */
p->read.memblock = pa_memblock_new(ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]));
assert(p->read.memblock);
p->read.data = p->read.memblock->data;
}
} 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 */
size_t l;
l = (p->read.index - r) < PA_PSTREAM_DESCRIPTOR_SIZE ? p->read.index - PA_PSTREAM_DESCRIPTOR_SIZE : (size_t) r;
if (l > 0) {
struct 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(p,
ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_CHANNEL]),
(int32_t) ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_DELTA]),
&chunk,
p->recieve_memblock_callback_userdata) < 0)
goto die;
}
}
/* Frame complete */
if (p->read.index >= ntohl(p->read.descriptor[PA_PSTREAM_DESCRIPTOR_LENGTH]) + PA_PSTREAM_DESCRIPTOR_SIZE) {
if (p->read.memblock) {
assert(!p->read.packet);
pa_memblock_unref(p->read.memblock);
p->read.memblock = NULL;
} else {
int r = 0;
assert(p->read.packet);
if (p->recieve_packet_callback)
r = p->recieve_packet_callback(p, p->read.packet, p->recieve_packet_callback_userdata);
pa_packet_unref(p->read.packet);
p->read.packet = NULL;
if (r < 0)
goto die;
}
p->read.index = 0;
}
}
return;
die:
p->dead = 1;
if (p->die_callback)
p->die_callback(p, p->die_callback_userdata);
}
void pa_pstream_set_die_callback(struct pa_pstream *p, void (*callback)(struct pa_pstream *p, void *userdata), void *userdata) {
assert(p && callback);
p->die_callback = callback;
p->die_callback_userdata = userdata;
}
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