/* * Copyright (C) 2014 BlueKitchen GmbH * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holders nor the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * 4. Any redistribution, use, or modification is done solely for * personal benefit and not for any commercial purpose or for * monetary gain. * * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * Please inquire about commercial licensing options at * contact@bluekitchen-gmbh.com * */ // ***************************************************************************** // // HFG HF state machine tests // // ***************************************************************************** #include "btstack-config.h" #include #include #include #include #include "CppUTest/TestHarness.h" #include "CppUTest/CommandLineTestRunner.h" #include "hci_cmds.h" #include "btstack_run_loop.h" #include "classic/sdp_util.h" #include "hci.h" #include "l2cap.h" #include "classic/rfcomm.h" #include "classic/sdp.h" #include "classic/sdp_parser.h" #include "btstack_debug.h" #include "classic/hfp_hf.h" #include "mock.h" #include "test_sequences.h" const uint8_t rfcomm_channel_nr = 1; static bd_addr_t device_addr = {0xD8,0xBb,0x2C,0xDf,0xF1,0x08}; static uint8_t codecs[2] = {1,2}; static uint16_t indicators[1] = {0x01}; static uint8_t service_level_connection_established = 0; static uint8_t codecs_connection_established = 0; static uint8_t audio_connection_established = 0; static uint8_t start_ringing = 0; static uint8_t stop_ringing = 0; static uint8_t call_termiated = 0; static int supported_features_with_codec_negotiation = 438; static uint16_t handle = -1; char * get_next_hfp_hf_command(){ return get_next_hfp_command(0,2); } int has_more_hfp_hf_commands(){ return has_more_hfp_commands(0,2); } static void user_command(char cmd){ switch (cmd){ case '#': case '-': case '+': case '*': printf("DTMF Code: %c\n", cmd); hfp_hf_send_dtmf_code(device_addr, cmd); break; case 'a': printf("Establish Service level connection to device with Bluetooth address %s...\n", bd_addr_to_str(device_addr)); hfp_hf_establish_service_level_connection(device_addr); break; case 'A': printf("Release Service level connection.\n"); hfp_hf_release_service_level_connection(device_addr); break; case 'b': printf("Establish Audio connection to device with Bluetooth address %s...\n", bd_addr_to_str(device_addr)); hfp_hf_establish_audio_connection(device_addr); break; case 'B': printf("Release Audio service level connection.\n"); hfp_hf_release_audio_connection(device_addr); break; case 'C': printf("Enable registration status update for all AG indicators.\n"); hfp_hf_enable_status_update_for_all_ag_indicators(device_addr); case 'c': printf("Disable registration status update for all AG indicators.\n"); hfp_hf_disable_status_update_for_all_ag_indicators(device_addr); break; case 'D': printf("Set HFP AG registration status update for individual indicators (0111111).\n"); hfp_hf_set_status_update_for_individual_ag_indicators(device_addr, 63); break; case 'd': printf("Query network operator.\n"); hfp_hf_query_operator_selection(device_addr); break; case 'E': printf("Enable reporting of the extended AG error result code.\n"); hfp_hf_enable_report_extended_audio_gateway_error_result_code(device_addr); break; case 'e': printf("Disable reporting of the extended AG error result code.\n"); hfp_hf_disable_report_extended_audio_gateway_error_result_code(device_addr); break; case 'f': printf("Answer incoming call.\n"); hfp_hf_answer_incoming_call(device_addr); break; case 'F': printf("Hangup call.\n"); hfp_hf_terminate_call(device_addr); break; case 'G': printf("Reject call.\n"); hfp_hf_reject_call(device_addr); break; case 'g': printf("Query operator.\n"); hfp_hf_query_operator_selection(device_addr); break; case 't': printf("Terminate HCI connection.\n"); gap_disconnect(handle); break; case 'i': printf("Dial 1234567\n"); hfp_hf_dial_number(device_addr, (char *)"1234567"); break; case 'I': printf("Dial 7654321\n"); hfp_hf_dial_number(device_addr, (char *)"7654321"); break; case 'j': printf("Dial #1\n"); hfp_hf_dial_memory(device_addr, (char *)"1"); break; case 'J': printf("Dial #99\n"); hfp_hf_dial_memory(device_addr, (char *)"99"); break; case 'k': printf("Deactivate call waiting notification\n"); hfp_hf_deactivate_call_waiting_notification(device_addr); break; case 'K': printf("Activate call waiting notification\n"); hfp_hf_activate_call_waiting_notification(device_addr); break; case 'l': printf("Deactivate calling line notification\n"); hfp_hf_deactivate_calling_line_notification(device_addr); break; case 'L': printf("Activate calling line notification\n"); hfp_hf_activate_calling_line_notification(device_addr); break; case 'm': printf("Deactivate echo canceling and noise reduction\n"); hfp_hf_deactivate_echo_canceling_and_noise_reduction(device_addr); break; case 'M': printf("Activate echo canceling and noise reduction\n"); hfp_hf_activate_echo_canceling_and_noise_reduction(device_addr); break; case 'n': printf("Deactivate voice recognition\n"); hfp_hf_deactivate_voice_recognition_notification(device_addr); break; case 'N': printf("Activate voice recognition\n"); hfp_hf_activate_voice_recognition_notification(device_addr); break; case 'o': printf("Set speaker gain to 0 (minimum)\n"); hfp_hf_set_speaker_gain(device_addr, 0); break; case 'O': printf("Set speaker gain to 9 (default)\n"); hfp_hf_set_speaker_gain(device_addr, 9); break; case 'p': printf("Set speaker gain to 12 (higher)\n"); hfp_hf_set_speaker_gain(device_addr, 12); break; case 'P': printf("Set speaker gain to 15 (maximum)\n"); hfp_hf_set_speaker_gain(device_addr, 15); break; case 'q': printf("Set microphone gain to 0\n"); hfp_hf_set_microphone_gain(device_addr, 0); break; case 'Q': printf("Set microphone gain to 9\n"); hfp_hf_set_microphone_gain(device_addr, 9); break; case 's': printf("Set microphone gain to 12\n"); hfp_hf_set_microphone_gain(device_addr, 12); break; case 'S': printf("Set microphone gain to 15\n"); hfp_hf_set_microphone_gain(device_addr, 15); break; case 'u': printf("Send 'user busy' (Three-Way Call 0)\n"); hfp_hf_user_busy(device_addr); break; case 'U': printf("End active call and accept waiting/held call (Three-Way Call 1)\n"); hfp_hf_end_active_and_accept_other(device_addr); break; case 'v': printf("Swap active call and hold/waiting call (Three-Way Call 2)\n"); hfp_hf_swap_calls(device_addr); break; case 'V': printf("Join hold call (Three-Way Call 3)\n"); hfp_hf_join_held_call(device_addr); break; case 'w': printf("Connect calls (Three-Way Call 4)\n"); hfp_hf_connect_calls(device_addr); break; case 'W': printf("Redial\n"); hfp_hf_redial_last_number(device_addr); break; case 'x': printf("Request phone number for voice tag\n"); hfp_hf_request_phone_number_for_voice_tag(device_addr); break; case 'X': printf("Query current call status\n"); hfp_hf_query_current_call_status(device_addr); break; case 'y': printf("Release call with index 2\n"); hfp_hf_release_call_with_index(device_addr, 2); break; case 'Y': printf("Private consulation with call 2\n"); hfp_hf_private_consultation_with_call(device_addr, 2); break; case '[': printf("Query Response and Hold status (RHH ?)\n"); hfp_hf_rrh_query_status(device_addr); break; case ']': printf("Place call in a response and held state (RHH 0)\n"); hfp_hf_rrh_hold_call(device_addr); break; case '{': printf("Accept held call (RHH 1)\n"); hfp_hf_rrh_accept_held_call(device_addr); break; case '}': printf("Reject held call (RHH 2)\n"); hfp_hf_rrh_reject_held_call(device_addr); break; case '?': printf("Query Subscriber Number\n"); hfp_hf_query_subscriber_number(device_addr); break; case '!': printf("Update HF indicator with assigned number 1 (HFI)\n"); hfp_hf_set_hf_indicator(device_addr, 1, 1); break; default: printf("HF: undefined user command\n"); break; } } void simulate_test_sequence(hfp_test_item_t * test_item){ char ** test_steps = test_item->test; printf("\nSimulate test sequence: \"%s\" [%d steps]\n", test_item->name, test_item->len); int i = 0; int previous_step = -1; while ( i < test_item->len){ previous_step++; CHECK_EQUAL(i >= previous_step, 1); char * expected_cmd = test_steps[i]; int expected_cmd_len = strlen(expected_cmd); printf("\nStep %d, %s \n", i, expected_cmd); if (strncmp(expected_cmd, "USER:", 5) == 0){ user_command(expected_cmd[5]); while (has_more_hfp_hf_commands()){ // empty rfcomm payload buffer get_next_hfp_hf_command(); } i++; } else if (strncmp(expected_cmd, "AT+BAC=", 7) == 0){ int parsed_codecs[2]; uint8_t new_codecs[2]; sscanf(&expected_cmd[7],"%d,%d", &parsed_codecs[0], &parsed_codecs[1]); new_codecs[0] = parsed_codecs[0]; new_codecs[1] = parsed_codecs[1]; hfp_hf_set_codecs((uint8_t*)new_codecs, 2); while (has_more_hfp_hf_commands()){ // empty rfcomm payload buffer get_next_hfp_hf_command(); } i++; } else if (strncmp(expected_cmd, "AT+BRSF=", 8) == 0 ){ int supported_features = 0; sscanf(&expected_cmd[8],"%d", &supported_features); printf("Call hfp_hf_init with SF %d\n", supported_features); hfp_hf_release_service_level_connection(device_addr); hfp_hf_init(rfcomm_channel_nr, supported_features, indicators, sizeof(indicators)/sizeof(uint16_t), 1); user_command('a'); while (has_more_hfp_hf_commands()){ // empty rfcomm payload buffer get_next_hfp_hf_command(); } i++; } else if (strncmp(expected_cmd, "AT+BCC", 6) == 0){ user_command('b'); while (has_more_hfp_hf_commands()){ // empty rfcomm payload buffer get_next_hfp_hf_command(); } i++; } else if (strncmp(expected_cmd, "AT", 2) == 0){ printf("\n---> NEXT STEP expect from HF: %s\n", expected_cmd); while (has_more_hfp_hf_commands()){ char * ag_cmd = get_next_hfp_hf_command(); printf("HF response verify %s == %s[%d]\n", expected_cmd, ag_cmd, expected_cmd_len); int equal_cmds = strncmp(ag_cmd, expected_cmd, expected_cmd_len) == 0; if (!equal_cmds){ printf("\nError: Expected:'%s', but got:'%s'\n", expected_cmd, ag_cmd); CHECK_EQUAL(equal_cmds,1); return; } printf("Verified: '%s'\n", expected_cmd); i++; if (i < test_item->len){ expected_cmd = test_steps[i]; expected_cmd_len = strlen(expected_cmd); } } } else { //printf("\n---> NEXT STEP receive from AG: '%s'\n", expected_cmd); inject_hfp_command_to_hf((uint8_t*)expected_cmd, strlen(expected_cmd)); i++; } } } void packet_handler(uint8_t * event, uint16_t event_size){ if (event[0] != HCI_EVENT_HFP_META) return; if (event[3] && event[2] != HFP_SUBEVENT_EXTENDED_AUDIO_GATEWAY_ERROR && event[2] != HFP_SUBEVENT_NUMBER_FOR_VOICE_TAG && event[2] != HFP_SUBEVENT_SPEAKER_VOLUME && event[2] != HFP_SUBEVENT_MICROPHONE_VOLUME){ printf("ERROR, status: %u\n", event[3]); return; } switch (event[2]) { case HFP_SUBEVENT_SERVICE_LEVEL_CONNECTION_ESTABLISHED: printf("\n** SLC established **\n\n"); service_level_connection_established = 1; codecs_connection_established = 0; audio_connection_established = 0; break; case HFP_SUBEVENT_CODECS_CONNECTION_COMPLETE: printf("\n** CC established **\n\n"); codecs_connection_established = 1; audio_connection_established = 0; break; case HFP_SUBEVENT_SERVICE_LEVEL_CONNECTION_RELEASED: printf("\n** SLC released **\n\n"); service_level_connection_established = 0; break; case HFP_SUBEVENT_AUDIO_CONNECTION_ESTABLISHED: printf("\n** AC established **\n\n"); audio_connection_established = 1; break; case HFP_SUBEVENT_AUDIO_CONNECTION_RELEASED: printf("\n** AC released **\n\n"); audio_connection_established = 0; break; case HFP_SUBEVENT_START_RINGINIG: printf("\n** Start ringing **\n\n"); start_ringing = 1; break; case HFP_SUBEVENT_STOP_RINGINIG: printf("\n** Stop ringing **\n\n"); stop_ringing = 1; start_ringing = 0; break; case HFP_SUBEVENT_CALL_TERMINATED: call_termiated = 1; break; case HFP_SUBEVENT_COMPLETE: printf("HFP AG HFP_SUBEVENT_COMPLETE.\n"); break; case HFP_SUBEVENT_AG_INDICATOR_STATUS_CHANGED: printf("AG_INDICATOR_STATUS_CHANGED, AG indicator '%s' (index: %d) to: %d\n", (const char*) &event[6], event[4], event[5]); break; case HFP_SUBEVENT_NETWORK_OPERATOR_CHANGED: printf("NETWORK_OPERATOR_CHANGED, operator mode: %d, format: %d, name: %s\n", event[4], event[5], (char *) &event[6]); break; case HFP_SUBEVENT_EXTENDED_AUDIO_GATEWAY_ERROR: if (event[4]) printf("EXTENDED_AUDIO_GATEWAY_ERROR_REPORT, status : %d\n", event[3]); break; case HFP_SUBEVENT_RING: printf("** Ring **\n"); break; case HFP_SUBEVENT_NUMBER_FOR_VOICE_TAG: printf("Phone number for voice tag: %s\n", (const char *) &event[3]); break; case HFP_SUBEVENT_SPEAKER_VOLUME: printf("Speaker volume: %u\n", event[3]); break; case HFP_SUBEVENT_MICROPHONE_VOLUME: printf("Microphone volume: %u\n", event[3]); break; default: printf("event not handled %u\n", event[2]); break; } } TEST_GROUP(HFPClient){ void setup(void){ service_level_connection_established = 0; codecs_connection_established = 0; audio_connection_established = 0; start_ringing = 0; stop_ringing = 0; call_termiated = 0; hfp_hf_init(rfcomm_channel_nr, supported_features_with_codec_negotiation, indicators, sizeof(indicators)/sizeof(uint16_t), 1); hfp_hf_set_codecs(codecs, sizeof(codecs)); } void teardown(void){ hfp_hf_release_audio_connection(device_addr); hfp_hf_release_service_level_connection(device_addr); service_level_connection_established = 0; codecs_connection_established = 0; audio_connection_established = 0; } }; TEST(HFPClient, PTSRHHTests){ for (int i = 0; i < hfp_pts_hf_rhh_tests_size(); i++){ setup(); simulate_test_sequence(&hfp_pts_hf_rhh_tests()[i]); teardown(); } } TEST(HFPClient, PTSECCTests){ for (int i = 0; i < hfp_pts_hf_ecc_tests_size(); i++){ setup(); simulate_test_sequence(&hfp_pts_hf_ecc_tests()[i]); teardown(); } } TEST(HFPClient, PTSECSTests){ for (int i = 0; i < hfp_pts_hf_ecs_tests_size(); i++){ setup(); simulate_test_sequence(&hfp_pts_hf_ecs_tests()[i]); teardown(); } } TEST(HFPClient, PTSTWCTests){ for (int i = 0; i < hfp_pts_hf_twc_tests_size(); i++){ setup(); simulate_test_sequence(&hfp_pts_hf_twc_tests()[i]); teardown(); } } TEST(HFPClient, PTSATATests){ for (int i = 0; i < hfp_pts_hf_ata_tests_size(); i++){ setup(); simulate_test_sequence(&hfp_pts_hf_ata_tests()[i]); teardown(); } } TEST(HFPClient, PTSSLCTests){ for (int i = 0; i < hfp_pts_hf_slc_tests_size(); i++){ setup(); simulate_test_sequence(&hfp_pts_hf_slc_tests()[i]); teardown(); } } int main (int argc, const char * argv[]){ hfp_hf_register_packet_handler(packet_handler); return CommandLineTestRunner::RunAllTests(argc, argv); }