rt-thread/bsp/stm32_radio/netbuffer.c

354 lines
8.9 KiB
C

#include <rthw.h>
#include <rtthread.h>
#include "netbuffer.h"
#include "player_ui.h"
#define MP3_DECODE_MP_CNT 2
#define MP3_DECODE_MP_SZ 2560
static rt_uint8_t mempool[(MP3_DECODE_MP_SZ * 2 + 4)* 2]; // 5k x 2
static struct rt_mempool _mp;
static rt_bool_t is_inited = RT_FALSE;
rt_size_t sbuf_get_size()
{
return MP3_DECODE_MP_SZ * 2;
}
void sbuf_init()
{
rt_mp_init(&_mp, "mp3", &mempool[0], sizeof(mempool), MP3_DECODE_MP_SZ * 2);
}
void* sbuf_alloc()
{
if (is_inited == RT_FALSE)
{
sbuf_init();
is_inited = RT_TRUE;
}
return (rt_uint16_t*)rt_mp_alloc(&_mp, RT_WAITING_FOREVER);
}
void sbuf_release(void* ptr)
{
rt_mp_free(ptr);
}
#if STM32_EXT_SRAM
/* netbuf worker stat */
#define NETBUF_STAT_FREE 0
#define NETBUF_STAT_BUFFERING 1
#define NETBUF_STAT_BUSY 2
#define NETBUF_STAT_STOPPING 3
#define NETBUF_STAT_STOPPED 4
/* net buffer module */
struct net_buffer
{
/* read index and save index in the buffer */
rt_size_t read_index, save_index;
/* buffer data and size of buffer */
rt_uint8_t* buffer_data;
rt_size_t data_length;
rt_size_t size;
/* buffer ready water mater */
rt_uint32_t ready_wm, resume_wm;
rt_bool_t is_wait_ready, is_wait_resume;
rt_sem_t wait_ready, wait_resume;
/* netbuf worker stat */
rt_uint8_t stat;
};
struct net_buffer_job
{
rt_size_t (*fetch)(rt_uint8_t* ptr, rt_size_t len, void* parameter);
void (*close)(void* parameter);
void* parameter;
};
static struct net_buffer _netbuf;
static rt_mq_t _netbuf_mq = RT_NULL;
rt_size_t net_buf_read(rt_uint8_t* buffer, rt_size_t length)
{
rt_size_t data_length, read_index;
rt_uint32_t level;
data_length = _netbuf.data_length;
if ((data_length == 0) &&
(_netbuf.stat != NETBUF_STAT_STOPPED && _netbuf.stat != NETBUF_STAT_STOPPING))
{
/* set stat */
_netbuf.stat = NETBUF_STAT_BUFFERING;
rt_kprintf("stat -> buffering\n");
/* buffer is not ready. */
_netbuf.is_wait_ready = RT_TRUE;
rt_kprintf("wait ready, data len: %d, stat %d\n", data_length, _netbuf.stat);
/* set buffer status to buffering */
player_set_buffer_status(RT_TRUE);
rt_sem_take(_netbuf.wait_ready, RT_WAITING_FOREVER);
}
if ((data_length <= _netbuf.ready_wm) &&
(_netbuf.stat == NETBUF_STAT_BUFFERING))
{
/* buffer is not ready. */
_netbuf.is_wait_ready = RT_TRUE;
rt_kprintf("wait ready, data len: %d, stat %d\n", data_length, _netbuf.stat);
rt_sem_take(_netbuf.wait_ready, RT_WAITING_FOREVER);
}
/* get read and save index */
read_index = _netbuf.read_index;
/* re-get data legnth */
data_length = _netbuf.data_length;
/* set the length */
if (length > data_length) length = data_length;
// rt_kprintf("data len: %d, read idx %d\n", data_length, read_index);
if (data_length > 0)
{
/* copy buffer */
if (_netbuf.size - read_index > length)
{
rt_memcpy(buffer, &_netbuf.buffer_data[read_index],
length);
_netbuf.read_index += length;
}
else
{
rt_memcpy(buffer, &_netbuf.buffer_data[read_index],
_netbuf.size - read_index);
rt_memcpy(&buffer[_netbuf.size - read_index],
&_netbuf.buffer_data[0],
length - (_netbuf.size - read_index));
_netbuf.read_index = length - (_netbuf.size - read_index);
}
level = rt_hw_interrupt_disable();
_netbuf.data_length -= length;
data_length = _netbuf.data_length;
if ((_netbuf.is_wait_resume == RT_TRUE) && data_length < _netbuf.resume_wm)
{
_netbuf.is_wait_resume = RT_FALSE;
rt_hw_interrupt_enable(level);
rt_kprintf("resume netbuf worker\n");
rt_sem_release(_netbuf.wait_resume);
}
else
{
rt_hw_interrupt_enable(level);
}
}
return length;
}
void net_buf_add_job(rt_size_t (*fetch)(rt_uint8_t* ptr, rt_size_t len, void* parameter),
void (*close)(void* parameter),
void* parameter)
{
struct net_buffer_job job;
job.fetch = fetch;
job.close = close;
job.parameter = parameter;
rt_mq_send(_netbuf_mq, (void*)&job, sizeof(struct net_buffer_job));
}
void net_buf_stop_job()
{
rt_uint32_t level;
level = rt_hw_interrupt_disable();
_netbuf.stat = NETBUF_STAT_STOPPING;
rt_kprintf("stat -> stopping\n");
rt_hw_interrupt_enable(level);
}
static void net_buf_do_stop(struct net_buffer_job* job)
{
/* source closed */
job->close(job->parameter);
_netbuf.stat = NETBUF_STAT_STOPPED;
rt_kprintf("stat -> stopped\n");
if (_netbuf.is_wait_ready == RT_TRUE)
{
/* resume the wait for buffer task */
_netbuf.is_wait_ready = RT_FALSE;
rt_sem_release(_netbuf.wait_ready);
}
rt_kprintf("job done, stat %d\n", _netbuf.stat);
}
#define NETBUF_BLOCK_SIZE 4096
static void net_buf_do_job(struct net_buffer_job* job)
{
rt_uint32_t level;
rt_size_t read_length, data_length;
rt_uint8_t *ptr;
ptr = rt_malloc(NETBUF_BLOCK_SIZE);
while (1)
{
if (_netbuf.stat == NETBUF_STAT_STOPPING)
{
net_buf_do_stop(job);
break;
}
/* fetch data buffer */
read_length = job->fetch(ptr, NETBUF_BLOCK_SIZE, job->parameter);
if (read_length <= 0)
{
net_buf_do_stop(job);
break;
}
else
{
/* got data length in the buffer */
data_length = _netbuf.data_length;
/* check avaible buffer to save */
if ((_netbuf.size - data_length) < read_length)
{
rt_err_t result;
_netbuf.is_wait_resume = RT_TRUE;
rt_kprintf("netbuf suspend, avaible room %d\n", data_length);
result = rt_sem_take(_netbuf.wait_resume, RT_WAITING_FOREVER);
if (result != RT_EOK)
{
/* stop net buffer worker */
net_buf_do_stop(job);
break;
}
}
/* there are free space to fetch data */
if ((_netbuf.size - _netbuf.save_index) < read_length)
{
rt_memcpy(&_netbuf.buffer_data[_netbuf.save_index],
ptr, _netbuf.size - _netbuf.save_index);
rt_memcpy(&_netbuf.buffer_data[0],
ptr + (_netbuf.size - _netbuf.save_index),
read_length - (_netbuf.size - _netbuf.save_index));
/* move save index */
_netbuf.save_index = read_length - (_netbuf.size - _netbuf.save_index);
}
else
{
rt_memcpy(&_netbuf.buffer_data[_netbuf.save_index],
ptr, read_length);
/* move save index */
_netbuf.save_index += read_length;
if (_netbuf.save_index >= _netbuf.size) _netbuf.save_index = 0;
}
level = rt_hw_interrupt_disable();
_netbuf.data_length += read_length;
data_length = _netbuf.data_length;
rt_hw_interrupt_enable(level);
}
// rt_kprintf("buffering ... %d %c\n", (data_length * 100) / _netbuf.size, '%');
/* set buffer position */
player_set_position(data_length);
if ((_netbuf.stat == NETBUF_STAT_BUFFERING) && (data_length >= _netbuf.ready_wm))
{
_netbuf.stat = NETBUF_STAT_BUSY;
rt_kprintf("stat -> busy\n");
/* notify the thread for waitting buffer ready */
rt_kprintf("resume wait buffer\n");
if (_netbuf.is_wait_ready == RT_TRUE)
{
_netbuf.is_wait_ready = RT_FALSE;
/* set buffer status to playing */
player_set_buffer_status(RT_FALSE);
rt_sem_release(_netbuf.wait_ready);
}
}
}
/* release fetch buffer */
rt_free(ptr);
}
static void net_buf_thread_entry(void* parameter)
{
rt_err_t result;
struct net_buffer_job job;
while (1)
{
/* get a job */
result = rt_mq_recv(_netbuf_mq, (void*)&job, sizeof(struct net_buffer_job), RT_WAITING_FOREVER);
if (result == RT_EOK)
{
_netbuf.stat = NETBUF_STAT_BUFFERING;
rt_kprintf("stat -> buffering\n");
/* perform the job */
net_buf_do_job(&job);
}
}
}
void net_buf_init(rt_size_t size)
{
rt_thread_t tid;
/* init net buffer structure */
_netbuf.read_index = _netbuf.save_index = 0;
_netbuf.size = size; /* net buffer size */
/* allocate buffer */
_netbuf.buffer_data = rt_malloc(_netbuf.size);
_netbuf.data_length = 0;
/* set ready and resume water mater */
_netbuf.ready_wm = _netbuf.size * 90/100;
_netbuf.resume_wm = _netbuf.size * 80/100;
/* set init stat */
_netbuf.stat = NETBUF_STAT_FREE;
rt_kprintf("stat -> free\n");
_netbuf.wait_ready = rt_sem_create("nready", 0, RT_IPC_FLAG_FIFO);
_netbuf.wait_resume = rt_sem_create("nresum", 0, RT_IPC_FLAG_FIFO);
_netbuf.is_wait_ready = RT_FALSE;
_netbuf.is_wait_resume = RT_FALSE;
/* crate message queue */
_netbuf_mq = rt_mq_create("njob", sizeof(struct net_buffer_job),
4, RT_IPC_FLAG_FIFO);
/* create net buffer thread */
tid = rt_thread_create("nbuf",
net_buf_thread_entry, RT_NULL,
1024, 22, 5);
if (tid != RT_NULL)
rt_thread_startup(tid);
}
#endif