/* audiotest.c - native audio test application * * Based on native pcm test application platform/system/extras/sound/playwav.c * * Copyright (C) 2008 The Android Open Source Project * Copyright (c) 2009-2012 The Linux Foundation. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include "audiotest_def.h" #include "audiotest_cases.h" #define AUDIOTEST_DEFAULT_ID 65523 const char *help_txt = "After running audio_test without arguments, one can find audio_test file in /tmp\n\ Test case is ran by writting a command string into this file\n\ Format of command string depends on the test case you intend to run\n\ Quit audio_test app: type echo \"quit\" > /tmp/audio_test\n\ If there are test cases still in executing stage, audio_test exits upon \n\ all test cases finishes. \n\ Audio_test app supports concurrency. If one wishes to issue playback \n\ control command to a particular test case(e.g play mp3), one must specify \n\ an id by giving argument -id=xxx (e.g 123 must be a number) so audio_test \n\ knows how to dispatch control command to a particular test case. \n\ Issue control command: echo \"control_cmd -id=xxx -cmd=xxx\" > /tmp/audio_test \n\ command can be pause, flush, and etc. \n\ Format of command string is test case specific. Run audio_test -format test_case \n\ to see the format of command string for the desired test case. \n"; char cmdstr[256]; int ionfd; #define AUDIOTEST_MAX_TH_CXT 10 /* Maximum number of thread context */ struct audiotest_thread_context thread_context[AUDIOTEST_MAX_TH_CXT]; pthread_mutex_t audiotest_mutex = PTHREAD_MUTEX_INITIALIZER; struct audiotest_thread_context* get_free_context(void) { unsigned char i; struct audiotest_thread_context *ret_val = NULL; pthread_mutex_lock(&audiotest_mutex); for (i=0; i < AUDIOTEST_MAX_TH_CXT; i++) { if (thread_context[i].used == false) { thread_context[i].used = true; ret_val = &thread_context[i]; break; } } pthread_mutex_unlock(&audiotest_mutex); if (i == AUDIOTEST_MAX_TH_CXT) { fprintf(stderr, "%s : no free context struct\n", __FUNCTION__); } return ret_val; } void free_context(struct audiotest_thread_context *context) { unsigned char i; pthread_mutex_lock(&audiotest_mutex); for (i=0; i < AUDIOTEST_MAX_TH_CXT; i++) { if (&thread_context[i] == context) { thread_context[i].used = false; thread_context[i].cxt_id = AUDIOTEST_DEFAULT_ID; thread_context[i].config.private_data = NULL; break; } } pthread_mutex_unlock(&audiotest_mutex); } struct audiotest_thread_context* find_context(int id) { unsigned char i; struct audiotest_thread_context *ret_val = NULL; pthread_mutex_lock(&audiotest_mutex); for (i=0; i < AUDIOTEST_MAX_TH_CXT; i++) { if (thread_context[i].cxt_id == id) { ret_val = &thread_context[i]; break; } } pthread_mutex_unlock(&audiotest_mutex); return ret_val; } void wait_child_threads(void) { unsigned char i; for (i=0; i < AUDIOTEST_MAX_TH_CXT; i++) { if (thread_context[i].used == true) pthread_join(thread_context[i].thread, NULL); } } /* Index by test module ID */ pb_control_func audiotest_pb_controllers[AUDIOTEST_MAX_TEST_MOD] = { pcm_play_control_handler, pcm_rec_control_handler, mp3_play_control_handler, aac_play_control_handler, aac_rec_control_handler, amrnb_play_control_handler, amrnb_rec_control_handler, qcp_play_control_handler, NULL, wma_play_control_handler, voicememo_control_handler, profile_control_handler, amrwb_play_control_handler, wmapro_play_control_handler, #ifdef AUDIOV2 adpcm_play_control_handler, voiceenc_control_handler, NULL, fm_play_control_handler, lpa_play_control_handler, sbc_rec_control_handler, #if defined(TARGET_USES_QCOM_MM_AUDIO) && defined(QDSP6V2) mvs_lp_test_control_handler, #else NULL, #endif #else #ifdef AUDIO7X27A NULL,voiceenc_control_handler, NULL, fm_play_control_handler, NULL, NULL, NULL, #else NULL, NULL, NULL, NULL, NULL, NULL, NULL, #endif #endif }; int pb_control_read_params(void) { char *token; int ret_val = 0, id = 0; struct audiotest_thread_context *context; /* Look for ID and cmd */ token = strtok(NULL, " "); if ((token != NULL) && (!memcmp(token,"-id=", (sizeof("-id=") -1)))) { id = atoi(&token[sizeof("-id=") - 1]); printf("Context id =%d\n", id); if (((context = find_context(id)) != NULL) && (audiotest_pb_controllers[context->type] != NULL)) { /* Call control function of test module */ ret_val = audiotest_pb_controllers[context->type]( context->config.private_data); } else { ret_val = -1; } } else { ret_val = -1; } return ret_val; } struct audiotest_case_type { const char *case_str; case_hd_func case_hd; case_help_menu help_menu; case_deinit deinit; }; struct audiotest_case_type audiotest_case_list[] = { { "playmp3", mp3play_read_params, mp3play_help_menu, NULL }, { "playpcm", pcmplay_read_params, pcmplay_help_menu, NULL }, #ifdef AUDIOV2 { "playadpcm", adpcmplay_read_params, adpcmplay_help_menu, NULL }, { "playlpa", lpaplay_read_params, lpaplay_help_menu, NULL }, #endif { "recpcm", pcmrec_read_params, pcmrec_help_menu, NULL }, { "playaac", aacplay_read_params, aacplay_help_menu, NULL }, { "recaac", aacrec_read_params, aacrec_help_menu, NULL }, { "playamrnb", amrnbplay_read_params, amrnbplay_help_menu, NULL }, { "playamrwb", amrwbplay_read_params, amrwbplay_help_menu, NULL }, { "recamrnb", amrnbrec_read_params, amrnbrec_help_menu, NULL }, { "playqcp", qcpplay_read_params, qcpplay_help_menu, NULL }, { "control_cmd", pb_control_read_params, NULL, NULL }, { "playwma", wmaplay_read_params, wmaplay_help_menu, NULL } , { "playwmapro", wmaproplay_read_params, wmaproplay_help_menu, NULL } , { "voicememo", voicememo_read_params, voicememo_help_menu, NULL } , { "profile", profile_read_params, profile_help_menu, NULL } , { "sndsetdev", sndsetdev_read_params, sndsetdev_help_menu, NULL }, #ifdef AUDIO7X27A { "voiceenc", voiceenc_read_params, voiceenc_help_menu, NULL } , { "playfm", fm_play_read_params, fm_play_help_menu, NULL } , #endif #ifdef AUDIOV2 { "voiceenc", voiceenc_read_params, voiceenc_help_menu, NULL } , #if defined(TARGET_USES_QCOM_MM_AUDIO) { "devctl", devctl_read_params, devctl_help_menu, NULL }, #ifdef QDSP6V2 { "mvstest", mvstest_read_params, mvstest_help_menu, NULL } , { "hdmi_ac3",hdmi_ac3_read_params,hdmi_ac3_help_menu, NULL }, { "hdmi_dts",hdmi_dts_read_params,hdmi_dts_help_menu, NULL }, #endif #endif { "playfm", fm_play_read_params, fm_play_help_menu, NULL }, { "recsbc", sbcrec_read_params, sbcrec_help_menu, NULL } , #endif }; #define AUDIOTEST_MAX_NUM_CASES \ (sizeof(audiotest_case_list) / sizeof(struct audiotest_case_type)) void audiotest_case_deinit(void) { unsigned char i; for (i=0; i < AUDIOTEST_MAX_NUM_CASES; i++) { if (audiotest_case_list[i].deinit != NULL) { audiotest_case_list[i].deinit(); } } } void audiotest_cmd_svr(void) { const char *exit_str = "quit"; int fd; ssize_t read_count; char *token; #ifdef _ANDROID_ if (mknod("/data/audio_test", S_IFIFO | 0666, 0) == 0) { fd = open("/data/audio_test", O_RDONLY); #else if (mknod("/tmp/audio_test", S_IFIFO | 0666, 0) == 0) { fd = open("/tmp/audio_test", O_RDONLY); #endif #if defined(TARGET_USES_QCOM_MM_AUDIO) && defined(AUDIOV2) audiotest_init_devmgr(); #endif ionfd = -1; ionfd = open("/dev/ion", O_RDONLY | O_DSYNC); if (ionfd < 0) { fprintf(stderr, "/dev/ion open failed \n"); return; } while (1) { cmdstr[0] = '\0'; read_count = read(fd, cmdstr, 255); if (read_count == 0) { /* end of stream */ usleep(500000); } else if (read_count < 0) { fprintf(stderr, "audio_test: error reading cmd\n"); break; } else { cmdstr[read_count-1] = ' '; cmdstr[read_count] = '\0'; /* make last byte zero to terminate sucessfully */ printf("%s\n", cmdstr); token = strtok(cmdstr, " "); if (!strcmp(token, exit_str)) { break; /* given command to quit */ } else { unsigned char i; for (i=0; i < AUDIOTEST_MAX_NUM_CASES; i++) { if ((!strcmp(token, audiotest_case_list[i].case_str)) && (audiotest_case_list[i].case_hd != NULL)) { audiotest_case_list[i].case_hd(); break; } } if (i == AUDIOTEST_MAX_NUM_CASES) { fprintf(stderr, "audio_test: cmd not found\n"); } } } }; printf("audio_test: exit server mode\n"); close(fd); #ifdef _ANDROID_ remove("/data/audio_test"); #else remove("/tmp/audio_test"); #endif #if defined(TARGET_USES_QCOM_MM_AUDIO) && defined(AUDIOV2) audiotest_deinit_devmgr(); #endif wait_child_threads(); audiotest_case_deinit(); close(ionfd); } else { fprintf(stderr, "audio_test: Failed to create server\n"); } } void print_help_menu(void) { unsigned char i; printf("%s\n", help_txt); printf("list of test cases:\n"); for (i=0; i < AUDIOTEST_MAX_NUM_CASES; i++) { printf("%s\n", audiotest_case_list[i].case_str); } } void printf_format_menu(char *case_name) { unsigned char i; for (i=0; i < AUDIOTEST_MAX_NUM_CASES; i++) { if ((!strcmp(case_name, audiotest_case_list[i].case_str)) && (audiotest_case_list[i].help_menu != NULL)) { audiotest_case_list[i].help_menu(); break; } } if (i == AUDIOTEST_MAX_NUM_CASES) { fprintf(stderr, "audio_test: test case does not exist\n"); } } int main(int argc, char **argv) { argc--; argv++; if (argc > 0) { if (!strcmp(argv[0], "-help")) { print_help_menu(); } else if ((!strcmp(argv[0], "-format")) && (argc > 1)) { printf_format_menu(argv[1]); } } else { unsigned int i; for (i=0; i < AUDIOTEST_MAX_TH_CXT; i++) { thread_context[i].used = false; thread_context[i].cxt_id = AUDIOTEST_DEFAULT_ID; } audiotest_cmd_svr(); } return 0; }