mirror of
https://github.com/gtxaspec/wz_mini_hacks.git
synced 2024-11-22 13:37:19 +00:00
181 lines
5.0 KiB
C
181 lines
5.0 KiB
C
#define _GNU_SOURCE
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#include <dlfcn.h>
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#include <stdio.h>
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#include <string.h>
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#include <unistd.h>
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#include <stdint.h>
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#include <fcntl.h>
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#include <sys/ioctl.h>
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#include <sys/time.h>
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#include <tinyalsa/pcm.h>
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struct frames_st {
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void *buf;
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size_t length;
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};
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typedef int (* framecb)(struct frames_st *);
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static uint32_t (*real_local_sdk_audio_set_pcm_frame_callback)(int ch, void *callback);
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static void *audio_pcm_cb = NULL;
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static int AudioCaptureEnable = 0;
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static void *audio_pcm_cb1 = NULL;
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static int AudioCaptureEnable1 = 0;
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char *AudioCapture(int fd, char *tokenPtr) {
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char *p = strtok_r(NULL, " \t\r\n", &tokenPtr);
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if(!p) return AudioCaptureEnable ? "on" : "off";
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if(!strcmp(p, "on")) {
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AudioCaptureEnable = 1;
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fprintf(stderr, "[command] audio capute on\n", p);
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return "ok";
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}
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if(!strcmp(p, "on1")) {
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AudioCaptureEnable1 = 1;
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fprintf(stderr, "[command] audio capute on\n", p);
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return "ok";
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}
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if(!strcmp(p, "off")) {
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AudioCaptureEnable = 0;
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fprintf(stderr, "[command] audio capute off\n", p);
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return "ok";
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}
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if(!strcmp(p, "off1")) {
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AudioCaptureEnable1 = 0;
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fprintf(stderr, "[command] audio capute off\n", p);
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return "ok";
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}
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return "error";
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}
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//channel 0
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static uint32_t audio_pcm_capture(struct frames_st *frames) {
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static struct pcm *pcm = NULL;
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static int firstEntry = 0;
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uint32_t *buf = frames->buf;
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static int snd_rate = 16000;
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const char *productv2="/driver/sensor_jxf23.ko";
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//Change sample rate to 8000 if we are a V2 Camera
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if( access( productv2, F_OK ) == 0 ) {
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snd_rate = 8000;
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}
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if(!firstEntry) {
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firstEntry++;
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unsigned int card = 0;
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unsigned int device = 1;
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int flags = PCM_OUT | PCM_MMAP;
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const struct pcm_config config = {
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.channels = 1,
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.rate = snd_rate,
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.format = PCM_FORMAT_S16_LE,
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.period_size = 128,
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.period_count = 8,
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.start_threshold = 320,
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.silence_threshold = 0,
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.silence_size = 0,
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.stop_threshold = 320 * 4
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};
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pcm = pcm_open(card, device, flags, &config);
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if(pcm == NULL) {
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fprintf(stderr, "failed to allocate memory for PCM CH0\n");
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} else if(!pcm_is_ready(pcm)) {
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pcm_close(pcm);
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fprintf(stderr, "failed to open PCM CH0\n");
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}
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}
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if(pcm && AudioCaptureEnable) {
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int avail = pcm_mmap_avail(pcm);
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int delay = pcm_get_delay(pcm);
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int ready = pcm_is_ready(pcm);
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int err = pcm_writei(pcm, buf, pcm_bytes_to_frames(pcm, frames->length));
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if(err < 0) fprintf(stderr, "pcm_writei err=%d\n", err);
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}
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return ((framecb)audio_pcm_cb)(frames);
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}
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//channel1
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static uint32_t audio_pcm_capture1(struct frames_st *frames) {
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static struct pcm *pcm = NULL;
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static int firstEntry = 0;
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uint32_t *buf = frames->buf;
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if(!firstEntry) {
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firstEntry++;
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unsigned int card = 0;
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unsigned int device = 0;
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int flags = PCM_OUT | PCM_MMAP;
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const struct pcm_config config = {
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.channels = 1,
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.rate = 8000,
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.format = PCM_FORMAT_S16_LE,
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.period_size = 128,
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.period_count = 8,
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.start_threshold = 320,
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.silence_threshold = 0,
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.silence_size = 0,
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.stop_threshold = 320 * 4
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};
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pcm = pcm_open(card, device, flags, &config);
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if(pcm == NULL) {
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fprintf(stderr, "failed to allocate memory for PCM CH1\n");
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} else if(!pcm_is_ready(pcm)) {
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pcm_close(pcm);
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fprintf(stderr, "failed to open PCM CH1\n");
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}
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}
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if(pcm && AudioCaptureEnable1) {
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int avail = pcm_mmap_avail(pcm);
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int delay = pcm_get_delay(pcm);
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int ready = pcm_is_ready(pcm);
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int err = pcm_writei(pcm, buf, pcm_bytes_to_frames(pcm, frames->length));
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if(err < 0) fprintf(stderr, "pcm_writei err=%d\n", err);
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}
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return ((framecb)audio_pcm_cb1)(frames);
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}
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uint32_t local_sdk_audio_set_pcm_frame_callback(int ch, void *callback) {
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fprintf(stderr, "local_sdk_audio_set_pcm_frame_callback streamChId=%d, callback=0x%x\n", ch, callback);
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static int ch_count = 0;
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if( (ch == 0) && ch_count == 0) {
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audio_pcm_cb = callback;
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fprintf(stderr,"enc func injection CH0 save audio_pcm_cb=0x%x\n", audio_pcm_cb);
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callback = audio_pcm_capture;
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}
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if( (ch == 1) && ch_count == 1) {
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audio_pcm_cb1 = callback;
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fprintf(stderr,"enc func injection CH1 save audio_pcm_cb=0x%x\n", audio_pcm_cb1);
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callback = audio_pcm_capture1;
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}
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//if V2 here, we have to latch on to the same callback as CH0, since the V2's only have one audio callback
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const char *productv2="/driver/sensor_jxf23.ko";
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if( access( productv2, F_OK ) == 0 ) {
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if( (ch == 0) && ch_count == 1) {
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audio_pcm_cb1 = callback;
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fprintf(stderr,"enc func injection CH0 second callback for V2 save audio_pcm_cb=0x%x\n", audio_pcm_cb1);
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callback = audio_pcm_capture1;
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}
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}
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ch_count=ch_count+1;
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return real_local_sdk_audio_set_pcm_frame_callback(ch, callback);
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}
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static void __attribute ((constructor)) audio_callback_init(void) {
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real_local_sdk_audio_set_pcm_frame_callback = dlsym(dlopen("/system/lib/liblocalsdk.so", RTLD_LAZY), "local_sdk_audio_set_pcm_frame_callback");
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}
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