/******************************************************************************* * Copyright (C) 2018 Cadence Design Systems, Inc. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to use this Software with Cadence processor cores only and * not with any other processors and platforms, 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. ******************************************************************************/ #define MODULE_TAG UTEST #include "xaf-utils-test.h" #include "audio/xa_vorbis_dec_api.h" #include "audio/xa-audio-decoder-api.h" #include "xa_playback.h" #define PRINT_USAGE do { fprintf(stderr, "\nUsage: %s \n", argv[0]); \ fprintf(stderr, " Only .ogg and .pcm files are supported. \n"); \ fprintf(stderr, " Playback is configured @ 48kHz, 2 ch, 16 bits pcm. \n"); \ fprintf(stderr, " pcm output is written to dec-out.pcm, by default. \n\n"); \ } while(0) #define NUM_COMP_IN_GRAPH 1 void *p_input, *p_output; pthread_t dec_thread; FILE *fp, *ofp=NULL; xaf_info_t comp_info; void *pb_handle = NULL; unsigned int card = 0; unsigned int device = 0; unsigned int period_size = 1024; unsigned int period_count = 4; /* ...playback format */ xaf_format_t pb_format; int g_pthread_exit_code=0x12345678; void thread_exit_handler(int sig) { /* ...unused arg */ (void) sig; pthread_exit(0); } static int vorbis_setup(void *p_decoder) { int param[2]; /* 1: Raw decode, 0: Ogg decode */ param[0] = XA_VORBISDEC_CONFIG_PARAM_RAW_VORBIS_FILE_MODE; param[1] = 0; XF_CHK_API(xaf_comp_set_config(p_decoder, 1, ¶m[0])); return 0; } static int pcm_setup(void *p_pcm) { int param[6]; param[0] = XA_CODEC_CONFIG_PARAM_SAMPLE_RATE; param[1] = pb_format.sample_rate; param[2] = XA_CODEC_CONFIG_PARAM_CHANNELS; param[3] = pb_format.channels; param[4] = XA_CODEC_CONFIG_PARAM_PCM_WIDTH; param[5] = pb_format.pcm_width; XF_CHK_API(xaf_comp_set_config(p_pcm, 3, ¶m[0])); return 0; } static int consume_output(void *p_buf, int buf_length, void *p_output) { XAF_CHK_PTR(p_buf); XAF_CHK_PTR(p_output); #if !defined BOARD FILE *fp = p_output; fwrite(p_buf, 1, buf_length, fp); if (xa_playback_buf(pb_handle, p_buf, buf_length)) { TRACE(ERROR, _b("Playback Failed \n")); return -1; } #else #endif return 0; } static int read_input(void *p_buf, int buf_length, int *read_length, void *p_input) { XAF_CHK_PTR(p_buf); XAF_CHK_PTR(read_length); XAF_CHK_PTR(p_input); #if !defined BOARD FILE *fp = p_input; *read_length = fread(p_buf, 1, buf_length, fp); #else #endif return 0; } static int comp_process_entry(void *arg) { void *p_comp; xaf_comp_status comp_status; int input_over, read_length; void *pg_pthread_exit_code = (void*)&g_pthread_exit_code; XAF_CHK_PTR(arg); XAF_CHK_PTR(p_input); XAF_CHK_PTR(p_output); p_comp = arg; input_over = 0; XF_CHK_API(xaf_comp_process(NULL, p_comp, NULL, 0, XAF_EXEC_FLAG)); while (1) { XF_CHK_API(xaf_comp_get_status(NULL, p_comp, &comp_status, &comp_info)); if (comp_status == XAF_EXEC_DONE) break; if (comp_status == XAF_NEED_INPUT && !input_over) { void *p_buf = (void *)comp_info.buf; int size = comp_info.length; XF_CHK_API(read_input(p_buf, size, &read_length, p_input)); if (read_length) XF_CHK_API(xaf_comp_process(NULL, p_comp, (void *)comp_info.buf, read_length, XAF_INPUT_READY_FLAG)); else { XF_CHK_API(xaf_comp_process(NULL, p_comp, NULL, 0, XAF_INPUT_OVER_FLAG)); input_over = 1; } } if (comp_status == XAF_OUTPUT_READY) { void *p_buf = (void *)comp_info.buf; int size = comp_info.length; XF_CHK_API(consume_output(p_buf, size, p_output)); XF_CHK_API(xaf_comp_process(NULL, p_comp, (void *)comp_info.buf, comp_info.length, XAF_NEED_OUTPUT_FLAG)); } } pthread_exit(pg_pthread_exit_code); return 0; } int main(int argc, const char **argv) { void *p_adev = NULL; void *p_decoder; mem_obj_t* mem_handle; int num_comp = NUM_COMP_IN_GRAPH; xaf_comp_status dec_status; void *dec_inbuf[2]; int buf_length = XAF_INBUF_SIZE; int read_length; int i; xf_id_t dec_id; int (*dec_setup)(void *p_comp); const char *ext; int pthread_error; void *pthread_exit_code; struct sigaction actions; memset(&actions, 0, sizeof(actions)); sigemptyset(&actions.sa_mask); actions.sa_flags = 0; actions.sa_handler = thread_exit_handler; sigaction(SIGUSR1,&actions,NULL); /* ...initialize playback format */ pb_format.sample_rate = 48000; pb_format.channels = 2; pb_format.pcm_width = 16; audio_frmwk_buf_size = 0; //unused audio_comp_buf_size = 0; //unused print_banner("\'Audio decoder(PCM/Ogg-Vorbis)\'"); /* ...initialize tracing facility */ TRACE_INIT("Xtensa Audio Framework - Sample Application"); #if !defined BOARD /* ...check input arguments */ if (argc != 2) { TRACE(ERROR, _b("Usage: ./xaf-test \n")); PRINT_USAGE; return 0; } ext = strrchr(argv[1], '.'); if (!ext) { PRINT_USAGE; return 0; } ext++; if (!strcmp(ext, "pcm")) { dec_id = "audio-decoder/pcm"; dec_setup = pcm_setup; } else if (!strcmp(ext, "ogg")) { dec_id = "audio-decoder/vorbis"; dec_setup = vorbis_setup; } else { TRACE(ERROR, _x("Unknown Decoder Extension '%s'"), ext); PRINT_USAGE; exit(-1); } /* ...open file */ if ((fp = fopen(argv[1], "rb")) == NULL) { TRACE(ERROR, _x("Failed to open '%s': %d"), argv[1], errno); exit(-1); } if ((ofp = fopen("/data/dec-out.pcm", "wb")) == NULL) { TRACE(ERROR, _x("Failed to open '%s': %d"), "/data/dec-out.pcm", errno); exit(-1); } p_input = fp; p_output = ofp; #endif mem_handle = mem_init(); //initialize memory handler XF_CHK_API(xaf_adev_open(&p_adev, audio_frmwk_buf_size, audio_comp_buf_size, mem_malloc, mem_free)); /* ...create decoder component */ XF_CHK_API(xaf_comp_create(p_adev, &p_decoder, dec_id, 2, 1, &dec_inbuf[0], XAF_DECODER)); XF_CHK_API(dec_setup(p_decoder)); /* ...start decoder component */ XF_CHK_API(xaf_comp_process(p_adev, p_decoder, NULL, 0, XAF_START_FLAG)); /* ...feed input to decoder component */ for (i=0; i<2; i++) { XF_CHK_API(read_input(dec_inbuf[i], buf_length, &read_length, p_input)); if (read_length) XF_CHK_API(xaf_comp_process(p_adev, p_decoder, dec_inbuf[i], read_length, XAF_INPUT_READY_FLAG)); else break; } /* ...initialization loop */ while (1) { XF_CHK_API(xaf_comp_get_status(p_adev, p_decoder, &dec_status, &comp_info)); if (dec_status == XAF_INIT_DONE || dec_status == XAF_EXEC_DONE) { pb_handle = xa_playback_open(card, device, pb_format.channels, pb_format.sample_rate, pb_format.pcm_width, period_size, period_count); if (!pb_handle) { TRACE(ERROR, _x("Playback open error\n")); return -1; } break; } if (dec_status == XAF_NEED_INPUT) { void *p_buf = (void *) comp_info.buf; int size = comp_info.length; XF_CHK_API(read_input(p_buf, size, &read_length, p_input)); if (read_length) XF_CHK_API(xaf_comp_process(p_adev, p_decoder, p_buf, read_length, XAF_INPUT_READY_FLAG)); else break; } } if (dec_status != XAF_INIT_DONE) { TRACE(ERROR, _x("Failed to init")); exit(-1); } pthread_create(&dec_thread, 0, (void *(*)(void *))&comp_process_entry, p_decoder); pthread_error = pthread_join(dec_thread, (void **) &pthread_exit_code); if(pthread_error) { TRACE(ERROR, _b("decode thread join error:%x\n"), pthread_error); } /* ...exec done, clean-up */ XF_CHK_API(xaf_comp_delete(p_decoder)); xa_playback_close(pb_handle); XF_CHK_API(xaf_adev_close(p_adev, 0 /*unused*/)); if (fp) fclose(fp); if (ofp) fclose(ofp); mem_exit(); XF_CHK_API(print_mem_mcps_info(mem_handle, num_comp)); return 0; }