FreeCalypso > hg > fc-tourmaline
view src/cs/layer1/audio_cfile/l1audio_abb.c @ 27:1803a0bc5808
components/config_*: -DCTRACE for optional str2ind
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 16 Oct 2020 17:44:57 +0000 |
parents | 4e78acac3d88 |
children |
line wrap: on
line source
/* * l1audio_abb.c * * Control audio * * Filename l1audio_abb.c * Copyright 2003 (C) Texas Instruments * * Reference : S820, GACS001 (OMEGA) spec * */ #include "l1_macro.h" #include "l1_confg.h" #if (CODE_VERSION == NOT_SIMULATION) #if (defined _WINDOWS && (OP_RIV_AUDIO == 1)) #include "rv_general.h" #endif #if (CODE_VERSION == SIMULATION) #include <string.h> #include "l1_types.h" #include "sys_types.h" #include "l1_const.h" #include "l1_time.h" #if TESTMODE #include "l1tm_defty.h" #endif #if (AUDIO_TASK == 1) #include "l1audio_const.h" #include "l1audio_cust.h" #include "l1audio_defty.h" #endif #if (L1_GTT == 1) #include "l1gtt_const.h" #include "l1gtt_defty.h" #endif #if (L1_DYN_DSP_DWNLD == 1) #include "l1_dyn_dwl_const.h" #include "l1_dyn_dwl_defty.h" #endif #if (L1_MP3 == 1) #include "l1mp3_defty.h" #endif #if (L1_MIDI == 1) #include "l1midi_defty.h" #endif #if (L1_AAC == 1) #include "l1aac_defty.h" #endif #include "l1_defty.h" #include "l1_varex.h" #include "cust_os.h" #include "l1_msgty.h" #include <stdio.h> #include "sim_cfg.h" #include "sim_cons.h" #include "sim_def.h" #include "sim_var.h" #else #include <string.h> #if (defined _WINDOWS && (OP_RIV_AUDIO == 1)) #define BOOL_FLAG #endif // Triton Audio ON/OFF Changes #include "l1_types.h" #include "sys_types.h" #include "l1_const.h" #include "l1_time.h" #if TESTMODE #include "l1tm_defty.h" #endif #if (AUDIO_TASK == 1) #include "l1audio_const.h" #include "l1audio_cust.h" #include "l1audio_defty.h" #endif #if (L1_GTT == 1) #include "l1gtt_const.h" #include "l1gtt_defty.h" #endif #if (L1_DYN_DSP_DWNLD == 1) #include "l1_dyn_dwl_const.h" #include "l1_dyn_dwl_defty.h" #endif #if (L1_MP3 == 1) #include "l1mp3_defty.h" #endif #if (L1_MIDI == 1) #include "l1midi_defty.h" #endif #if (L1_AAC == 1) #include "l1aac_defty.h" #endif #if (RF_FAM == 61) #include "l1_rf61.h" #endif #include "l1_defty.h" #include "l1_varex.h" #include "l1_msgty.h" #if (OP_RIV_AUDIO == 0) #include "cust_os.h" #include "tpudrv.h" #endif #endif #include "abb.h" #include "l1audio_abb.h" #if (ANLG_FAM == 11) #include "types.h" #include "bspTwl3029_I2c.h" #include "bspTwl3029_Aud_Map.h" #include "bspTwl3029_Audio.h" #endif #if (CODE_VERSION == NOT_SIMULATION)&&(L1_AUDIO_MCU_ONOFF == 1)&&(CHIPSET == 15) void l1_audio_on_off_callback_fn(Uint8 callback_val); #endif #include "l1audio_abb.h" #if ((CODE_VERSION == NOT_SIMULATION)&&(L1_AUDIO_MCU_ONOFF == 1)&&(OP_L1_STANDALONE == 1)&&(CHIPSET == 12)) #include "nucleus.h" #endif #if (ANLG_FAM != 11) extern T_L1S_DSP_COM l1s_dsp_com; extern void l1_audio_lim_partial_update(); #define MAX_PGA_UL 24 #define MAX_PGA_DL 12 #define MAX_VOL_DL 249 static UWORD8 ABB_CurrentVolume = 0; // Uplink PGA gain is coded on 5 bits, corresponding to -12 dB to +12 dB in 1dB steps const UWORD8 ABB_uplink_PGA_gain[] = { 0x10, 0x17, 0x18, 0x19, 0x1A, 0x1B, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16 }; // Downlink volume: mute, -24dB to 0dB in 6dB steps const UWORD8 ABB_volume_control_gain[] = { 0x05, 0x03, 0x04, 0x00, 0x06, 0x02 }; /* * FreeCalypso: ABB_Read_DLGain() functions and the ABB_DL_volume_read_gain * and ABB_DL_PGA_read_gain constant tables it uses are new in the LoCosto * version of this module (even though the code seems to support classic * ABBs, not LoCosto/Triton) and do not appear in our TCS211 binary object. */ #define INCLUDE_ABB_READ_DLGAIN 0 #if INCLUDE_ABB_READ_DLGAIN // Downlink volume gain read in unsigned Q15 (in VBDCTRL) const WORD16 ABB_DL_volume_read_gain[] = { 0x2000 , // 0: -12 dB 0 , // 1: Mute 0x8000 , // 2: 0 dB 0x0800 , // 3: -24 dB 0x1000 , // 4: -18 dB 0 , // 5: Mute 0x4000 , // 6: -6 dB 0 , // 7: Mute }; // Downlink PGA gain read in unsigned Q15 (in VBDCTRL) const WORD16 ABB_DL_PGA_read_gain[] = { 0x4026 , // 0: - 6 dB 0x47FA , // 1: - 5 dB 0x50C3 , // 2: - 4 dB 0x5A9D , // 3: - 3 dB 0x65AC , // 4: - 2 dB 0x7214 , // 5: - 1 dB 0x8000 , // 6: 0 dB 0x8F9E , // 7: 1 dB 0xA124 , // 8: 2 dB 0xB4CE , // 9: 3 dB 0xCADD , // 10: 4 dB 0xE39E , // 11: 5 dB 0xFF64 , // 12: 6 dB 0x4026 , // 13: - 6 dB 0x4026 , // 14: - 6 dB 0x4026 , // 15: - 6 dB }; #endif /* INCLUDE_ABB_READ_DLGAIN */ // Downlink PGA gain is coded on 4 bits, corresponding to -6dB to 6dB in 1dB steps const UWORD8 ABB_downlink_PGA_gain[] = { 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C }; // Side tone level: mute, -23dB to +4dB in 3dB steps const UWORD8 ABB_sidetone_gain[] = { 0x08, 0x0D, 0x0C, 0x06, 0x02, 0x07, 0x03, 0x00, 0x04, 0x01, 0x05 }; /* * ABB_Audio_Config * * Configuration of VBCTRL1 register * */ void ABB_Audio_Config (UWORD16 data) { #if (ANLG_FAM == 1) l1s_dsp_com.dsp_ndb_ptr->d_vbctrl = ABB_L1_WRITE (VBCTRL, data); #elif ((ANLG_FAM == 2) || (ANLG_FAM == 3) ) l1s_dsp_com.dsp_ndb_ptr->d_vbctrl1 = ABB_L1_WRITE (VBCTRL1, data); #endif } /* * ABB_Audio_Config_2 * * Configuration of VBCTRL2 register * */ void ABB_Audio_Config_2 (UWORD16 data) { #if ((ANLG_FAM == 2) || (ANLG_FAM == 3)) l1s_dsp_com.dsp_ndb_ptr->d_vbctrl2 = ABB_L1_WRITE (VBCTRL2, data); #endif } /* * ABB_Audio_Control * * Configuration of VAUDCTRL register * */ void ABB_Audio_Control (UWORD16 data) { #if (ANLG_FAM == 3) l1s_dsp_com.dsp_ndb_ptr->d_vaud_cfg = ABB_L1_WRITE (VAUDCTRL, data); #endif } /* * ABB_Audio_On_Off * * Configuration of VAUOCTRL register * */ void ABB_Audio_On_Off (UWORD16 data) { #if (ANLG_FAM == 3) l1s_dsp_com.dsp_ndb_ptr->d_vauo_onoff = ABB_L1_WRITE (VAUOCTRL, data); #endif } /* * ABB_Audio_Volume * * Configuration of VAUSCTRL register * */ void ABB_Audio_Volume (UWORD16 data) { #if (ANLG_FAM == 3) l1s_dsp_com.dsp_ndb_ptr->d_vaus_vol = ABB_L1_WRITE (VAUSCTRL, data); #endif } /* * ABB_Audio_PLL * * Configuration of VAUDPLL register * */ void ABB_Audio_PLL (UWORD16 data) { #if (ANLG_FAM == 3) l1s_dsp_com.dsp_ndb_ptr->d_vaud_pll = ABB_L1_WRITE (VAUDPLL, data); #endif } /* * ABB_Audio_VBPop * * Configuration of VBPOP register * */ void ABB_Audio_VBPop (UWORD16 data) { #if (ANLG_FAM == 3) l1s_dsp_com.dsp_ndb_ptr->d_vbpop = ABB_L1_WRITE (VBPOP, data); #endif } /* * ABB_Audio_Delay_Init * * Configuration of the delay initialization for POP noise reduction * */ void ABB_Audio_Delay_Init (UWORD8 delay) { #if (ANLG_FAM == 3) l1s_dsp_com.dsp_ndb_ptr->d_vau_delay_init = delay; #endif } /* * ABB_CAL_UlVolume * * Uplink audio volume calibration * * Parameter : pga index - range 0..24 * * When this function is called the Mute bit of VBUCTRL is set to zero */ void ABB_CAL_UlVolume (UWORD8 pga_index) { UWORD16 index; API reg_state; index = pga_index; if (index > MAX_PGA_UL) index = MAX_PGA_UL; //clip //mask side tone gain and the mute settings reg_state = l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl &= 0xF800; l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl = reg_state | ABB_L1_WRITE ( VBUCTRL, ABB_uplink_PGA_gain[index]); } /* * ABB_CAL_DlVolume * * Downlink audio volume calibration * * Parameter : volume - range 0 to 255, pga - range 0-12 * */ void ABB_CAL_DlVolume (UWORD8 volume_index, UWORD8 pga_index) { UWORD16 volume, pga; // Remember current volume for subsequent mute commands ABB_CurrentVolume = volume_index; // Normalize volume (0 to 5) if (volume_index > MAX_VOL_DL) volume_index=MAX_VOL_DL; //clip if (volume_index) volume = (volume_index / 50) + 1; else volume = volume_index; if (pga_index > MAX_PGA_DL) pga_index=MAX_PGA_DL; //clip pga = pga_index; l1s_dsp_com.dsp_ndb_ptr->d_vbdctrl = ABB_L1_WRITE ( VBDCTRL, (ABB_volume_control_gain[volume] << 4) | (ABB_downlink_PGA_gain[pga]) ); #if (L1_LIMITER == 1) if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_LIM_ENABLE) l1_audio_lim_partial_update(); #endif } /* * ABB_DlVolume * * Control Downlink audio volume * * Parameter : volume - range 0 to 255 * */ void ABB_DlVolume (UWORD8 volume_index) { UWORD16 volume; API reg_state; // Remember current volume for subsequent mute commands ABB_CurrentVolume = volume_index; // Normalize volume (0 to 5) if (volume_index > MAX_VOL_DL) volume_index=MAX_VOL_DL; //clip if (volume_index) volume = (volume_index / 50) + 1; else volume = volume_index; //mask PGA setting determined during calibration phase reg_state = l1s_dsp_com.dsp_ndb_ptr->d_vbdctrl &= 0x03c0; l1s_dsp_com.dsp_ndb_ptr->d_vbdctrl = reg_state | ABB_L1_WRITE ( VBDCTRL, (ABB_volume_control_gain[volume] << 4)); #if (L1_LIMITER == 1) if (l1s_dsp_com.dsp_ndb_ptr->d_aqi_status & B_LIM_ENABLE) l1_audio_lim_partial_update(); #endif } /* * ABB_DlMute * * Mute downlink audio * * Parameter : Mute - On or Off * */ void ABB_DlMute (BOOL mute) { UWORD8 current_volume; if (mute) { /* * The current downlink volume must be memorized to avoid * having 0 as the new current volume. */ current_volume = ABB_CurrentVolume; ABB_DlVolume (0); ABB_CurrentVolume = current_volume; } else { ABB_DlVolume (ABB_CurrentVolume); } } /* * ABB_UlMute * * Mute uplink audio * * Parameter : Mute - On or Off * */ void ABB_UlMute (BOOL mute) { if (mute) { l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl |= ABB_L1_WRITE ( VBUCTRL, DXEN); } else { l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl &= 0x7fff; l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl |= 0x01; } } /* * ABB_SideTone * * Control audio sidetone * * Parameter : volume - range 0 to 255 * nominal is 175 (-5dB) * */ void ABB_SideTone (UWORD8 volume_index) { UWORD16 side_tone; API reg_state; // Normalize sidetone (0 to 10) side_tone = volume_index / 25; // mask uplink PGA gain and mute settings reg_state = l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl &= 0x87c0; l1s_dsp_com.dsp_ndb_ptr->d_vbuctrl = reg_state | ABB_L1_WRITE (VBUCTRL, (ABB_sidetone_gain[side_tone] << 5)); } #if INCLUDE_ABB_READ_DLGAIN /* * ABB_Read_DLVolume * * Returns the last controlled ABB DL gain in unsigned Q15 format * This value includes volume and PGA gain. * */ UWORD16 ABB_Read_DLGain() { UWORD16 volume_index; UWORD16 pga_index; // Read last programmed volume volume_index = (API)((l1s_dsp_com.dsp_ndb_ptr->d_vbdctrl >> 10) & 0x7); pga_index = (API)((l1s_dsp_com.dsp_ndb_ptr->d_vbdctrl >> 6) & 0xF); // Convert volume into gain (dB) return((ABB_DL_volume_read_gain[volume_index] * ABB_DL_PGA_read_gain[pga_index]) >> 15); } #endif /* INCLUDE_ABB_READ_DLGAIN */ #endif /* classic ABBs */ #if (ANLG_FAM == 11) // Downlink volume gain read in unsigned Q15 (in VBDCTRL) const WORD16 L1_audio_abb_DL_volume_read_gain[] = { (WORD16)0x2000 , // 0: -12 dB //omaps00090550 (WORD16)0x0000 , // 1: Mute //omaps00090550 (WORD16)0x8000 , // 2: 0 dB//omaps00090550 (WORD16)0x0800 , // 3: -24 dB//omaps00090550 (WORD16)0x1000 , // 4: -18 dB//omaps00090550 (WORD16)0x0000 , // 5: Mute//omaps00090550 (WORD16)0x4000 , // 6: -6 dB//omaps00090550 (WORD16)0x0000 , // 7: Mute//omaps00090550 }; // Downlink PGA gain read in unsigned Q15 (in VBDCTRL) const WORD16 L1_audio_abb_DL_PGA_read_gain[] = { (WORD16)0x4026 , // 0: - 6 dB//omaps00090550 (WORD16) 0x47FA , // 1: - 5 dB//omaps00090550 (WORD16)0x50C3 , // 2: - 4 dB//omaps00090550 (WORD16)0x5A9D , // 3: - 3 dB//omaps00090550 (WORD16)0x65AC , // 4: - 2 dB//omaps00090550 (WORD16)0x7214 , // 5: - 1 dB//omaps00090550 (WORD16)0x8000 , // 6: 0 dB//omaps00090550 (WORD16)0x8F9E , // 7: 1 dB//omaps00090550 (WORD16)0xA124 , // 8: 2 dB//omaps00090550 (WORD16)0xB4CE , // 9: 3 dB//omaps00090550 (WORD16)0xCADD , // 10: 4 dB//omaps00090550 (WORD16)0xE39E , // 11: 5 dB//omaps00090550 (WORD16)0xFF64 , // 12: 6 dB//omaps00090550 (WORD16)0x4026 , // 13: - 6 dB//omaps00090550 (WORD16)0x4026 , // 14: - 6 dB//omaps00090550 (WORD16)0x4026 , // 15: - 6 dB//omaps00090550 }; UWORD16 l1_audio_abb_Read_DLGain() { UWORD8 volume_index; UWORD8 pga_index; UWORD8 vdlgain; BspTwl3029_I2c_shadowRegRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_VDLGAIN_OFFSET, &vdlgain); volume_index = ((vdlgain & 0x70) >> 4); // bits 4-6 pga_index = (vdlgain & 0x0f) ; //bits 0-3 // Convert volume into gain (dB) return((L1_audio_abb_DL_volume_read_gain[volume_index] * L1_audio_abb_DL_PGA_read_gain[pga_index]) >> 15); } void ABB_Audio_On_Off (UWORD16 data) { } #endif // ANLG_FAM == 11 #endif // CODE_VERSION != SIMULATION // Triton Audio ON/OFF Changes #if (CODE_VERSION == SIMULATION)&&(L1_AUDIO_MCU_ONOFF == 1) void l1_audio_abb_ul_on_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_dl_on_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_ul_off_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_dl_off_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_ul_off_dl_off_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_ul_off_dl_on_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_ul_on_dl_off_req ( void(*callback_fn)(void) ) { callback_fn(); } void l1_audio_abb_ul_on_dl_on_req ( void(*callback_fn)(void) ) { callback_fn(); } #endif // SIMULATION && L1_AUDIO_MCU_ONOFF // Triton Audio ON/OFF Changes #if ((CODE_VERSION == NOT_SIMULATION)&&(L1_AUDIO_MCU_ONOFF == 1)&&(OP_L1_STANDALONE == 1)&&(CHIPSET == 12)) void(*cb_array[3])(void); SYS_UWORD16 vauoctrl_status; extern NU_TIMER l1_audio_abb_ul_timer; extern NU_TIMER l1_audio_abb_dl_timer; extern NU_TIMER l1_audio_abb_ul_dl_timer; void l1_audio_abb_ul_on_req ( void(*callback_fn)(void) ) { SYS_UWORD16 reg; reg = ABB_Read_Register_on_page(PAGE1, VBUCTRL); ABB_Write_Register_on_page(PAGE1, VBUCTRL, reg|0x0200); ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0002); cb_array[0]=callback_fn; NU_Control_Timer(&l1_audio_abb_ul_timer, NU_ENABLE_TIMER); } void l1_audio_abb_dl_on_req ( void(*callback_fn)(void) ) { vauoctrl_status = ABB_Read_Register_on_page(PAGE1, VAUOCTRL); ABB_Write_Register_on_page(PAGE1, VAUOCTRL, 0x0000); ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0008); cb_array[1]=callback_fn; NU_Control_Timer(&l1_audio_abb_dl_timer, NU_ENABLE_TIMER); } void l1_audio_abb_ul_off_req ( void(*callback_fn)(void) ) { ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0001); callback_fn(); } void l1_audio_abb_dl_off_req ( void(*callback_fn)(void) ) { ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0004); callback_fn(); } void l1_audio_abb_ul_off_dl_off_req ( void(*callback_fn)(void) ) { ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0001|0x0004); callback_fn(); } void l1_audio_abb_ul_off_dl_on_req ( void(*callback_fn)(void) ) { vauoctrl_status = ABB_Read_Register_on_page(PAGE1, VAUOCTRL); ABB_Write_Register_on_page(PAGE1, VAUOCTRL, 0x0000); ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0008|0x0001); cb_array[1]=callback_fn; NU_Control_Timer(&l1_audio_abb_dl_timer, NU_ENABLE_TIMER); } void l1_audio_abb_ul_on_dl_off_req ( void(*callback_fn)(void) ) { SYS_UWORD16 reg; reg = ABB_Read_Register_on_page(PAGE1, VBUCTRL); ABB_Write_Register_on_page(PAGE1, VBUCTRL, reg|0x0200); ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0002|0x0004); cb_array[0]=callback_fn; NU_Control_Timer(&l1_audio_abb_ul_timer, NU_ENABLE_TIMER); } void l1_audio_abb_ul_on_dl_on_req ( void(*callback_fn)(void) ) { SYS_UWORD16 reg; reg = ABB_Read_Register_on_page(PAGE1, VBUCTRL); vauoctrl_status = ABB_Read_Register_on_page(PAGE1, VAUOCTRL); ABB_Write_Register_on_page(PAGE1, VAUOCTRL, 0x0000); ABB_Write_Register_on_page(PAGE1, VBUCTRL, reg|0x0200); ABB_Write_Register_on_page(PAGE0, TOGBR1, 0x0002|0x0008); cb_array[2]=callback_fn; NU_Control_Timer(&l1_audio_abb_ul_dl_timer, NU_ENABLE_TIMER); } void l1_audio_abb_onoff_timer_expiry(UNSIGNED index) { L1_trace_string("ON OFF Timer Expiry\r\n"); switch(index) { case 0: { SYS_UWORD16 reg; reg = ABB_Read_Register_on_page(PAGE1, VBUCTRL); ABB_Write_Register_on_page(PAGE1, VBUCTRL, reg&0x01FF); cb_array[0](); } break; case 1: { ABB_Write_Register_on_page(PAGE1, VAUOCTRL, vauoctrl_status); cb_array[1](); } break; case 2: { SYS_UWORD16 reg; reg = ABB_Read_Register_on_page(PAGE1, VBUCTRL); ABB_Write_Register_on_page(PAGE1, VBUCTRL, reg&0x01FF); ABB_Write_Register_on_page(PAGE1, VAUOCTRL, vauoctrl_status); cb_array[2](); } break; default: { while(1); } break; } } #endif // SIMULATION && L1_AUDIO_MCU_ONOFF // Triton Audio ON/OFF Changes #if (CODE_VERSION == NOT_SIMULATION)&&(L1_AUDIO_MCU_ONOFF == 1)&&(CHIPSET == 15) void(*cb_array[3])(void); UWORD8 cb_index = 0; void l1_audio_abb_ul_on_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; bspTwl3029_audio_on_off_control (AUDIO_UPLINK_ON, AUDIO_DOWNLINK_NONE, ret, OUTEN_NONE); } void l1_audio_abb_dl_on_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; bspTwl3029_audio_on_off_control (AUDIO_UPLINK_NONE, AUDIO_DOWNLINK_ON, ret, OUTEN_NONE); } void l1_audio_abb_ul_off_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; bspTwl3029_audio_on_off_control (AUDIO_UPLINK_OFF, AUDIO_DOWNLINK_NONE, ret, OUTEN_NONE); } void l1_audio_abb_dl_off_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; // Configure the outen reg to 0 only when STEREOPATH_DRV_STATE is in IDLE STATE if(l1s.audio_state[L1S_STEREOPATH_DRV_STATE] == 0) { bspTwl3029_audio_on_off_control (AUDIO_UPLINK_NONE, AUDIO_DOWNLINK_OFF, ret, OUTEN_DISABLE); } else { bspTwl3029_audio_on_off_control (AUDIO_UPLINK_NONE, AUDIO_DOWNLINK_OFF, ret, OUTEN_ENABLE); } } void l1_audio_abb_ul_off_dl_off_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; // Configure the outen reg to 0 only when STEREOPATH_DRV_STATE is in IDLE STATE if(l1s.audio_state[L1S_STEREOPATH_DRV_STATE] == 0) { bspTwl3029_audio_on_off_control (AUDIO_UPLINK_OFF, AUDIO_DOWNLINK_OFF, ret, OUTEN_DISABLE); } else { bspTwl3029_audio_on_off_control (AUDIO_UPLINK_OFF, AUDIO_DOWNLINK_OFF, ret, OUTEN_ENABLE); } } void l1_audio_abb_ul_off_dl_on_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; bspTwl3029_audio_on_off_control (AUDIO_UPLINK_OFF, AUDIO_DOWNLINK_ON, ret, OUTEN_NONE); } void l1_audio_abb_ul_on_dl_off_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; // Configure the outen reg to 0 only when STEREOPATH_DRV_STATE is in IDLE STATE if(l1s.audio_state[L1S_STEREOPATH_DRV_STATE] == 0) { bspTwl3029_audio_on_off_control (AUDIO_UPLINK_ON, AUDIO_DOWNLINK_OFF, ret, OUTEN_DISABLE); } else { bspTwl3029_audio_on_off_control (AUDIO_UPLINK_ON, AUDIO_DOWNLINK_OFF, ret, OUTEN_ENABLE); } } void l1_audio_abb_ul_on_dl_on_req ( void(*callback_fn)(void) ) { T_AUDIO_ON_OFF_CONTROL_RETURN ret; cb_array[cb_index] = callback_fn; ret.audio_on_off_callback = l1_audio_on_off_callback_fn; ret.callback_val = cb_index; cb_index++; if(cb_index == 3)cb_index = 0; bspTwl3029_audio_on_off_control (AUDIO_UPLINK_ON, AUDIO_DOWNLINK_ON, ret, OUTEN_NONE); } void l1_audio_on_off_callback_fn(Uint8 callback_val) { cb_array[callback_val](); } #endif // SIMULATION && L1_AUDIO_MCU_ONOFF #if (AUDIO_DEBUG == 1) /*-------------------------------------------------------*/ /* l1_audio_regs_debug_read */ /*-------------------------------------------------------*/ /* Parameters : */ /* Return : */ /* */ /*-------------------------------------------------------*/ UWORD8 audio_reg_read_status; BspI2c_TransactionRequest audo_read_i2cIntTransArray[20]; BspTwl3029_I2C_RegData audio_regs[20]; UWORD8 audio_regs_cpy[20]; void l1_audio_reg_debug_read_callback(); void l1_audio_regs_debug_read() { BspTwl3029_I2C_RegisterInfo i2cRegArray[20]; BspTwl3029_I2C_RegisterInfo* i2cRegArrayPtr = i2cRegArray; BspTwl3029_I2C_Callback callback; BspTwl3029_I2C_CallbackPtr callbackPtr = &callback; callbackPtr->callbackFunc = (BspI2c_TransactionDoneCallback)l1_audio_reg_debug_read_callback; callbackPtr->callbackVal = (BspI2c_TransactionId)(1); callbackPtr->i2cTransArrayPtr = (Bsp_Twl3029_I2cTransReqArrayPtr)audo_read_i2cIntTransArray; if(audio_reg_read_status==0) { BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_PWRONSTATUS_OFFSET,&audio_regs[0],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL1_OFFSET,&audio_regs[1],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL2_OFFSET,&audio_regs[2],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL3_OFFSET,&audio_regs[3],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL4_OFFSET,&audio_regs[4],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL5_OFFSET,&audio_regs[5],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_CTRL6_OFFSET,&audio_regs[6],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_VULGAIN_OFFSET,&audio_regs[7],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_VDLGAIN_OFFSET,&audio_regs[8],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_OUTEN1_OFFSET,&audio_regs[9],i2cRegArrayPtr++); BspTwl3029_I2c_regQueRead(BSP_TWL3029_I2C_AUD, BSP_TWL_3029_MAP_AUDIO_OUTEN2_OFFSET,&audio_regs[10],i2cRegArrayPtr++); i2cRegArrayPtr = i2cRegArray; BspTwl3029_I2c_regInfoSend(i2cRegArrayPtr,11,callbackPtr, (BspI2c_TransactionRequest*)callbackPtr->i2cTransArrayPtr); } } void l1_audio_reg_debug_read_callback() { int i; audio_reg_read_status=1; for(i=0;i<20;i++) { audio_regs_cpy[i]=audio_regs[i]; } } #endif