Simulated the CD changer of a Saab to implement a bluetooth connection to the car stereo. Control of playback device (phone) with steering wheel buttons. Needs a RN52 bluetooth transciever and a CAN transiever. So far only audio playback and control via steering wheel buttons implemented. Hands free calling planned.
main.cpp
- Committer:
- petter
- Date:
- 2016-01-15
- Revision:
- 9:9a4c81493a3d
- Parent:
- 8:beb6c399490a
- Child:
- 11:74844f6ca8cf
File content as of revision 9:9a4c81493a3d:
// Inspired from BlueSaab // Project/Hardware: http://bluesaab.blogspot.com/ // Code: https://github.com/kveilands/SAAB-CDC/tree/master/SAAB-CDC // I-Bus information from http://pikkupossu.1g.fi/tomi/projects/i-bus/i-bus.html #include "mbed.h" #include "CDC.h" #include "RN52.h" CDC cdc; RN52 rn52; RN52_RESULT res; Serial pc(USBTX, USBRX); // tx, rx void handle_pc_input(); void handle_cdc_input(); void handle_bt_input(); int main() { printf("Petters BT CDC-emulator\r\n"); printf("Initializing\r\n"); cdc.init(); rn52.init(); printf("Starting loop\r\n"); while(1) { handle_pc_input(); handle_cdc_input(); handle_bt_input(); } } void handle_pc_input() { //Debug connection to PC if(pc.readable()) { switch (pc.getc()) { case 'p': if(rn52.toggle_play()) { printf("play/pause\r\n"); } break; case 'v': printf("volume up\r\n"); rn52.maxvolume(); break; case 'n': printf("next track\r\n"); rn52.next_track(); break; case 'q': printf("getting status\r\n"); rn52.get_status(&res); printf("%s\r\n", res.response); break; case 't': rn52.get_caller_id(&res); printf("%s\r\n", res.response); break; } } } void handle_cdc_input() { switch (cdc.get_cmd()) { case IBUS_DOORS_LOCKED: //Goto sleep break; case IBUS_DOORS_UNLOCKED: //wake up break; case IBUS_NEXT: rn52.toggle_play(); break; case IBUS_CDC_ON: rn52.connect(); break; case IBUS_CDC_OFF: rn52.disconnect(); break; case IBUS_SKIP_FW: rn52.next_track(); break; case IBUS_SKIP_BW: rn52.prev_track(); break; case IBUS_SET: rn52.connect(); break; case IBUS_CLEAR: break; } } void handle_bt_input() { if(rn52.check_event(&res)) { switch (res.event) { case RN52_CALLER_ID_EVENT: //printf("Caller ID event\r\n"); break; case RN52_TRACK_CHANGE_EVENT: cdc.reset_elapsed_time(); /* printf("Track change event\r\n"); printf("title: %s\r\n", res.title); printf("artist: %s\r\n", res.artist); printf("album: %s\r\n", res.album); printf("genre: %s\r\n", res.genre); printf("duration: %i\r\n", res.duration); printf("track_count: %i\r\n", res.track_count); printf("track_number: %i\r\n", res.track_number); */ cdc.display(res.title, 2); cdc.set_track((char)res.track_number); break; case RN52_OTHER_EVENT: //no specific event occured, check connection status switch(res.connection) { case RN52_CONNECTABLE_DISCOVERABLE: //printf("Waiting for connection\r\n"); cdc.display("BT REDO", 2); break; case RN52_CONNECTED: //printf("Connected\r\n"); cdc.display("BT ANSLUTEN", 2); rn52.maxvolume(); break; case RN52_AUDIO_STREAMING: //printf("Streaming\r\n"); cdc.display(res.title, 2); cdc.start_elapsed_time(); break; } if(res.connection != RN52_AUDIO_STREAMING) { cdc.stop_elapsed_time(); } } } }