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view gsm-fw/L1/audio_include/l1audio_const.h @ 730:af82698f039e
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author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Sat, 04 Oct 2014 23:30:42 +0000 |
parents | 45bf440cc677 |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * L1AUDIO_CONST.H * * Filename l1audio_const.h * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ #if (AUDIO_TASK == 1) // DRC API base address #define C_DRC_API_BASE_ADDRESS 0x161E //---------------------------------------- // LAYER 1 Synchronous audio process name. //---------------------------------------- #define NBR_AUDIO_MANAGER 37 // Number of L1S audio managers #define L1S_KEYBEEP_STATE 0 // l1s_keybeep_manager() #define L1S_TONE_STATE 1 // l1s_tone_manager() #define L1S_MELODY0_STATE 2 // l1s_melody0_manager() #define L1S_MELODY1_STATE 3 // l1s_melody1_manager() #define L1S_VM_PLAY_STATE 4 // l1s_vm_play_manager() #define L1S_VM_RECORD_STATE 5 // l1s_vm_record_manager() #define L1S_TONE_UL_STATE 6 // l1s_tone_ul_manager() #define L1S_SR_ENROLL_STATE 7 // l1s_sr_enroll_manager() #define L1S_SR_UPDATE_STATE 8 // l1s_sr_update_manager() #define L1S_SR_RECO_STATE 9 // l1s_sr_reco_manager() #define L1S_SR_PROCESSING_STATE 10 // l1s_sr_processing_manager() #define L1S_SR_SPEECH_STATE 11 // l1s_sr_speech_manager() #define L1S_AEC_STATE 12 // l1s_aec_manager() #define L1S_AUDIO_MODE_STATE 13 // l1s_audio_mode_manager() #define L1S_MELODY0_E2_STATE 14 // l1s_melody0_e2_manager() #define L1S_MELODY1_E2_STATE 15 // l1s_melody1_e2_manager() #define L1S_VM_AMR_PLAY_STATE 16 // l1s_vm_amr_play_manager() #define L1S_VM_AMR_RECORD_STATE 17 // l1s_vm_amr_record_manager() #define L1S_CPORT_STATE 18 // l1s_cport_manager() #define L1S_AUDIO_ONOFF_STATE 19 // l1s_audio_onoff_manager() #define L1S_STEREOPATH_DRV_STATE 20 // l1s_stereopath_drv_manager() #define L1S_MP3_STATE 21 // l1s_mp3_manager() #define L1S_ANR_STATE 22 // l1s_anr_manager() #define L1S_IIR_STATE 23 // l1s_iir_manager() #define L1S_LIMITER_STATE 24 // l1s_limiter_manager() #define L1S_ES_STATE 25 // l1s_es_manager() #define L1S_MIDI_STATE 26 // l1s_midi_manager() #define L1S_AGC_UL_STATE 27 // l1s_agc_ul_manager() #define L1S_AGC_DL_STATE 28 // l1s_agc_dl_manager() #define L1S_WCM_STATE 29 // l1s_wcm_manager() #define L1S_DRC_STATE 30 // l1s_drc_manager() #if (L1_AAC == 1) //added from e-sample for AAC #define L1S_AAC_STATE 31 // l1s_aac_manager() #endif #if (L1_AUDIO_MCU_ONOFF == 1) #define L1S_AUDIO_UL_ONOFF_STATE 32 // l1s_audio_ul_onoff_manager() #define L1S_AUDIO_DL_ONOFF_STATE 33 // l1s_audio_dl_onoff_manager() #endif #define L1S_PCM_DOWNLOAD_STATE 34 // l1s_pcm_download_manager() #define L1S_PCM_UPLOAD_STATE 35 // l1s_pcm_upload_manager() #define L1S_FIR_STATE 36 // l1s_fir_manager() //---------------------------------------- // MCU<->DSP communication bit field. //---------------------------------------- // bit in d_tch_mode for audio features #define B_VOICE_MEMO_DTX (TRUE_L << 5) #if (DSP >= 34) #define B_VM_VOCODER_SELECT (TRUE_L << 6) #endif // bits in d_toneskb_status #define B_TONE (TRUE_L << 0) // Indicate if the DSP tone task is running #define B_KEYBEEP (TRUE_L << 1) // Indicate if the DSP Keybeep task is running #define B_VM_RECORD_ON_GOING (TRUE_L << 2) // Indicate if the DSP recording speech task is running #define B_VM_PLAY_ON_GOING (TRUE_L << 3) // Indicate if the DSP playing task is running #define B_VM_AMR_RECORD_ON_GOING (TRUE_L << 2) // Indicate if the DSP recording speech amr task is running #define B_VM_AMR_PLAY_ON_GOING (TRUE_L << 3) // Indicate if the DSP playing amr task is running #define B_SR_ENROLL_TASK (TRUE_L << 4) // Indicate if the DSP enroll task is running #define B_SR_UPDATE_TASK (TRUE_L << 5) // Indicate if the DSP update task is running #define B_SR_RECO_TASK (TRUE_L << 6) // Indicate if the DSP reco task is running #define B_SR_PROCESSING_TASK (TRUE_L << 7) // Indicate if the DSP processing task is running #define B_SR_ALIGNMENT_TASK (TRUE_L << 8) // Indicate if the DSP alignment task is running #define B_IT_COM_REQ (TRUE_L << 9) // Indicate that the DSP requests an IT com for the next TDMA #define B_AUDIO_ON_STATUS (TRUE_L << 14) // Set to 1 if DSP doesn'tpower OFF audio ABB if no DSP audio activity #if(L1_PCM_EXTRACTION) #define B_PCM_UPLOAD_ON_GOING (TRUE_L << 4) #define B_PCM_DOWNLOAD_ON_GOING (TRUE_L << 5) #endif // bits in d_toneskb_init #define B_VM_RECORD_START (TRUE_L << 2) // Start the DSP voice memo recording task #define B_VM_RECORD_STOP (TRUE_L << 3) // Stop the DSP voice memo recording task #define B_VM_PLAY_START (TRUE_L << 4) // Start the DSP voice memo playing task #define B_VM_PLAY_STOP (TRUE_L << 5) // Stop the DSP voice memo playing task #define B_VM_TONE_UL (TRUE_L << 6) // Generate the tone on the UL path #define B_VM_AMR_RECORD_START (TRUE_L << 2)// Start the DSP voice memo amr recording task #define B_VM_AMR_RECORD_STOP (TRUE_L << 3)// Stop the DSP voice memo amr recording task #define B_VM_AMR_PLAY_START (TRUE_L << 4)// Start the DSP voice memo amr playing task #define B_VM_AMR_PLAY_STOP (TRUE_L << 5)// Stop the DSP voice memo amr playing task #define B_SR_ENROLL (TRUE_L << 7) // Start the DSP speech reco enroll task #define B_SR_UPDATE (TRUE_L << 8) // Start the DSP speech reco update task #define B_SR_RECO (TRUE_L << 9) // Start the DSP speech reco task #define B_SR_PROCESSING (TRUE_L << 10) // Start the DSP speech reco processing task #define B_SR_STOP (TRUE_L << 11) // Stop the current DSP speech reco task #define B_MELO (TRUE_L << 13) // Start the DSP melody module if it's not started #define B_AUDIO_ON_START (TRUE_L << 14) // Use to start ABB audio and to not stop it when // no audio activity on DSP side #define B_AUDIO_OFF_STOP (TRUE_L << 15) // Use to stop ABB audio when no audio activity #if(L1_PCM_EXTRACTION) #define B_PCM_UPLOAD_START (TRUE_L << 7) #define B_PCM_UPLOAD_STOP (TRUE_L << 8) #define B_PCM_DOWNLOAD_START (TRUE_L << 9) #define B_PCM_DOWNLOAD_STOP (TRUE_L << 10) #endif #if (L1_CPORT == 1) //---------------------------------------- // C_PORT constant. //---------------------------------------- #define CPORT_READ_FLAG_OFFSET 11 // offset in configuration field of the "read register" bit #define CPORT_REG_NB_OFFSET 12 // offset in configuration field of the register number #define CPORT_READ_MASK 0xF800 // mask to get the read flag and the read reg id in the d_cport_status field // write register defines #define CPORT_W_NONE 0 // do not write anything #define CPORT_W_CTRL 1 // write CTRL, set bit 0 of configuration to 1 #define CPORT_W_CPCFR1 1 << 1 // write CPCFR1, set bit 1 of configuration to 1 #define CPORT_W_CPCFR2 1 << 2 // write CPCFR2, set bit 2 of configuration to 1 #define CPORT_W_CPCFR3 1 << 3 // write CPCFR3, set bit 3 of configuration to 1 #define CPORT_W_CPCFR4 1 << 4 // write CPCFR4, set bit 4 of configuration to 1 #define CPORT_W_CPTCTL 1 << 5 // write CPTCTL, set bit 5 of configuration to 1 #define CPORT_W_CPTTADDR 1 << 6 // write CPTTADDR, set bit 6 of configuration to 1 #define CPORT_W_CPTDAT 1 << 7 // write CPTDAT, set bit 7 of configuration to 1 #define CPORT_W_CPTVS 1 << 8 // write CPTVS, set bit 8 of configuration to 1 // read register defines #define CPORT_R_NONE 0 // do not read anything // for each of the following defines, set read flag (bit 11) to 1 and set reg_nb (bits 12..15) #define CPORT_R_CTRL (0 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPCFR1 (1 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPCFR2 (2 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPCFR3 (3 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPCFR4 (4 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPTCTL (5 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPTTADDR (6 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPTDAT (7 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_CPTVS (8 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #define CPORT_R_STATUS (9 << CPORT_REG_NB_OFFSET) | (1 << CPORT_READ_FLAG_OFFSET) #endif #if (MELODY_E1) //---------------------------------------- // Melody constant. //---------------------------------------- // Word to indicate that the oscillator must be stopped ASAP #define SC_END_OSCILLATOR_MASK 0xfffe // Description of the ml_ocscil_x field (x= 0...SC_NUMBER_OSCILLATOR) #define SC_MELO_OSCILLATOR_USED_MASK 0xff00 #define SC_MELO_OSCILLATOR_USED_SHIFT SC_NUMBER_OSCILLATOR // Description of the ml_time_offset field #define SC_MELO_TIME_OFFSET_MASK 0x00ff #define SC_MELO_TIME_OFFSET_SHIFT 0 // Description of the ml_load1 bit #define SC_MELO_LOAD1_MASK 0x0010 #define SC_MELO_LOAD1_SHIFT 4 // Description of the ml_load2 bit #define SC_MELO_LOAD2_MASK 0x0020 #define SC_MELO_LOAD2_SHIFT 5 // Description of the ml_synchro bit #define SC_MELO_SYNCHRO_MASK 0x0001 #define SC_MELO_SYNCHRO_SHIFT 0 // Description of the ml_length field #define SC_MELO_LENGTH_MASK 0xffc0 #define SC_MELO_LENGTH_SHIFT 6 #endif // MELODY_E1 #if (VOICE_MEMO) || (SPEECH_RECO) //---------------------------------------- // Voice memo constant. //---------------------------------------- // Communication DSP<->MCU via the a_du_x buffer: // Mask for the bit to indicate: // in VM play: if the DSP requests a new block // in VM record: if the DSP has a new block #define B_BLOCK_READY (TRUE_L<<10) // Mask for the bit of the a_du_x buffer to indicate if the block is the speech or noise #define B_VM_SPEECH (TRUE_L<<15) // Size of the a_du_x buffer when the sample is a noise: #define SC_VM_NOISE_SAMPLE 1 // Size of the a_du_x buffer when the sample is a speech: #define SC_VM_SPEECH_SAMPLE 20 #endif // VOICE_MEMO || SPEECH_RECO #if (L1_PCM_EXTRACTION) #define B_PCM_DOWNLOAD_READY (TRUE_L << 0) #define B_PCM_UPLOAD_READY (TRUE_L << 0) #define SC_PCM_DOWNLOAD_SAMPLE 160 #define SC_PCM_UPLOAD_SAMPLE 160 #define B_PCM_UPLOAD_ERROR (TRUE_L << 0) #define B_PCM_DOWNLOAD_ERROR (TRUE_L << 1) #endif /* L1_PCM_EXTRACTION */ #if (L1_VOICE_MEMO_AMR) //---------------------------------------- // Voice memo amr constant. //---------------------------------------- #define SC_VM_AMR_HEADER_SIZE 1 // Communication DSP<->MCU via the a_du_x buffer: #define SC_RX_TX_TYPE_MASK (7<<3) // Communication DSP<->MCU via d_amms_ul_voc and b_amms_channel_type #define SC_CHAN_TYPE_MASK 7 // RX_TYPE or TX_TYPE (See 06.93) #define SC_VM_AMR_RXTX_SPEECH_GOOD (0<<3) #define SC_VM_AMR_RXTX_SPEECH_DEGRADED (1<<3) #define SC_VM_AMR_RXTX_ONSET (2<<3) #define SC_VM_AMR_RXTX_SPEECH_BAD (3<<3) #define SC_VM_AMR_RXTX_SID_FIRST (4<<3) #define SC_VM_AMR_RXTX_SID_UPDATE (5<<3) #define SC_VM_AMR_RXTX_SID_BAD (6<<3) #define SC_VM_AMR_RXTX_NO_DATA (7<<3) // sample type for ONSET insertion in NO_SPEECH to SPEECH transition #define SC_VM_AMR_SPEECH 0 #define SC_VM_AMR_NOISE 1 #define SC_VM_AMR_NO_DATA 2 #define SC_VM_AMR_ONSET 3 // Speech channel type #define SC_VM_AMR_SPEECH_475 0 #define SC_VM_AMR_SPEECH_515 1 #define SC_VM_AMR_SPEECH_59 2 #define SC_VM_AMR_SPEECH_67 3 #define SC_VM_AMR_SPEECH_74 4 #define SC_VM_AMR_SPEECH_795 5 #define SC_VM_AMR_SPEECH_102 6 #define SC_VM_AMR_SPEECH_122 7 // Size of data bits in the a_du_x buffer when the sample is SPEECH // a_du_x buffer contains header + 2 non-used words after header + data_bits => recorded size is DATA_SIZE + 1 #define SC_VM_AMR_SPEECH_475_DATA_SIZE 12 #define SC_VM_AMR_SPEECH_515_DATA_SIZE 13 #define SC_VM_AMR_SPEECH_59_DATA_SIZE 15 #define SC_VM_AMR_SPEECH_67_DATA_SIZE 17 #define SC_VM_AMR_SPEECH_74_DATA_SIZE 19 #define SC_VM_AMR_SPEECH_795_DATA_SIZE 20 #define SC_VM_AMR_SPEECH_102_DATA_SIZE 26 #define SC_VM_AMR_SPEECH_122_DATA_SIZE 31 // Size of the a_du_x buffer when the sample is SID_FIRST: #define SC_VM_AMR_SID_FIRST_DATA_SIZE 5 // Size of the a_du_x buffer when the sample is SID_UPDATE: #define SC_VM_AMR_SID_UPDATE_DATA_SIZE 5 // Size of the a_du_x buffer when the sample is SID_BAD: #define SC_VM_AMR_SID_BAD_DATA_SIZE 5 // Size of the a_du_x buffer when the sample is NO_DATA: #define SC_VM_AMR_NO_DATA_DATA_SIZE 0 // Size of the a_du_x buffer when the sample is ONSET: #define SC_VM_AMR_ONSET_DATA_SIZE 0 #endif // L1_VOICE_MEMO_AMR #if (SPEECH_RECO) //---------------------------------------- // Speech recognition constant. //---------------------------------------- // d_sr_status bit field #define B_BAD_ACQUISITION (TRUE_L << 8) #define B_GOOD_ACQUISITION (TRUE_L << 9) #define B_BAD_UPDATE (TRUE_L << 10) #define B_GOOD_UPDATE (TRUE_L << 11) // d_sr_status VAD indication #define SC_SR_WORD_MASK 0x00FF #define SC_SR_WORD_SEARCHING 0 #define SC_SR_WORD_BEGINNING 1 #define SC_SR_WORD_ON_GOING 2 #define SC_SR_WORD_ENDING 3 #define SC_SR_WORD_DONE 4 #endif // SPEECH_RECO #if (L1_AEC == 1) #define B_AEC_ACK (TRUE_L << 0) // Bit set by the MCU to indicate a new AEC settings and // clear by the DSP to confirm the new settings. #if (L1_NEW_AEC) #define B_AEC_VISIBILITY (TRUE_L << 9) // Bit set by the MCU to have internal output values of AEC copied in API #define SC_AEC_VISIBILITY_SHIFT (9) #endif #endif #if (W_A_DSP_SR_BGD) #define C_BGD_RECOGN 5 // TEMPORARY: DSP Background recognition task code (also used for bitmaps). #define C_BGD_ALIGN 6 // TEMPORARY: DSP Background alignement // bits in d_gsm_bgd_mgt - background task management #define B_DSPBGD_RECO 1 // start of reco in dsp background #define B_DSPBGD_UPD 2 // start of alignement update in dsp background #endif #if (AUDIO_MODE) #define B_GSM_ONLY ((TRUE_L << 13) | (TRUE_L << 11)) // GSM normal mode #define B_BT_CORDLESS (TRUE_L << 12) // Bluetooth cordless mode #define B_BT_HEADSET (TRUE_L << 14) // Bluetooth headset mode #endif #define SC_AUDIO_MCU_API_BEGIN_ADDRESS (0xFFD00000) // Start address of the API memory in MCU side #define SC_AUDIO_DSP_API_BEGIN_ADDRESS (0x0800) // Start address o fthe API memory in DSP side #if (MELODY_E2) // Number of oscillator available in the melody E2 #define SC_MELODY_E2_NUMBER_OF_OSCILLATOR (16) // Code of extension for data=time #define SC_TIME_CODE_OF_EXTENSION (1) // Position of the GlobalTimeFactor parameter #define SC_MELODY_E2_GLOBALTIMEFACTOR_MASK (0xFF) #define SC_MELODY_E2_GLOBALTIMEFACTOR_SHIFT (0) // Position of the Number of instrument parameter #define SC_MELODY_E2_NUMBEROFINSTRUMENT_MASK (0xFF) #define SC_MELODY_E2_NUMBEROFINSTRUMENT_SHIFT (0) // Position of the extension flag #define SC_MELODY_E2_EXTENSION_FLAG_MASK (0x80) #define SC_MELODY_E2_EXTENSION_FLAG_SHIFT (7) // Position of the code of extension #define SC_MELODY_E2_CODE_OF_EXTENSION_MASK (0x70) #define SC_MELODY_E2_CODE_OF_EXTENSION_SHIFT (4) // Position of data time #define SC_MELODY_E2_DATA_TIME_MSB_MASK (0x07) #define SC_MELODY_E2_DATA_TIME_MSB_SHIFT (0) // Position of data time #define SC_MELODY_E2_DATA_TIME_LSB_MASK (0xFF00) #define SC_MELODY_E2_DATA_TIME_LSB_SHIFT (8) // Position of the Delta Time #define SC_MELODY_E2_DELTA_TIME_MASK (0x7F) #define SC_MELODY_E2_DELTA_TIME_SHIFT (0) // Mask of the semaphore #define SC_MELODY_E2_SEMAPHORE_MASK (0x0001) // Maximum size of the header of the melody E2 #define SC_MELODY_E2_MAXIMUM_HEADER_SIZE (3 + SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT) // Maximum number of extension #define SC_MELODY_E2_MAXIMUM_NUMBER_OF_EXTENSION (2) #endif // MELODY_E2 // Selection of the melody format #define NO_MELODY_SELECTED (0) #define MELODY_E0_SELECTED (1) #define MELODY_E1_SELECTED (2) #define MELODY_E2_SELECTED (3) #if (L1_STEREOPATH == 1) // configuration #define AUDIO_SP_SELF_CONF 0 #define AUDIO_SP_MIDI_CONF 1 #define AUDIO_SP_MP3_CONF 2 #define AUDIO_SP_EXTAUDIO_CONF 3 #if (ANALOG == 3) // sampling frequency #define AUDIO_SP_FREQ_8 7 #define AUDIO_SP_FREQ_11 6 #define AUDIO_SP_FREQ_16 5 #define AUDIO_SP_FREQ_22 4 #define AUDIO_SP_FREQ_32 3 #define AUDIO_SP_FREQ_44 2 #define AUDIO_SP_FREQ_48 0 #endif #if (ANALOG == 11 || CODE_VERSION == SIMULATION) // sampling frequency index for Triton. This would be set in the //SRW[0:3] bits of the CTRL5 register. #define AUDIO_SP_FREQ_8 0 #define AUDIO_SP_FREQ_11 1 #define AUDIO_SP_FREQ_12 2 #define AUDIO_SP_FREQ_16 3 #define AUDIO_SP_FREQ_22 4 #define AUDIO_SP_FREQ_24 5 #define AUDIO_SP_FREQ_32 6 #define AUDIO_SP_FREQ_44 7 #define AUDIO_SP_FREQ_48 8 #endif // DMA allocation #define AUDIO_SP_DMA_ALLOC_MCU 0 #define AUDIO_SP_DMA_ALLOC_DSP 1 // Data type #define AUDIO_SP_DATA_S8 0 #define AUDIO_SP_DATA_S16 1 #define AUDIO_SP_DATA_S32 2 // Source port #define AUDIO_SP_SOURCE_IMIF 0 #define AUDIO_SP_SOURCE_API 2 #if (CHIPSET == 15) //In Locosto, EMIF is also a source port for the audio #define AUDIO_SP_SOURCE_EMIF 4 #endif // output type #define AUDIO_SP_MONO_OUTPUT 0 #define AUDIO_SP_STEREO_OUTPUT 1 // feature identifier #define AUDIO_SP_MIDI_ID 0 #define AUDIO_SP_EXT_AUDIO_ID 1 #define AUDIO_SP_MP3_ID 2 #define AUDIO_SP_TESTS_ID 3 #if (L1_AAC == 1) #define AUDIO_SP_AAC_ID 4 //added for AAC #endif // Pattern #define AUDIO_SP_SILENCE_PATTERN 0 #define AUDIO_SP_SINUS1_PATTERN 1 #define AUDIO_SP_SINUS2_PATTERN 2 #define AUDIO_SP_SINUS3_PATTERN 3 #endif #endif // AUDIO_TASK #if (DSP == 17) || (DSP == 32) #define B_FIR_START (TRUE_L << 0) // Bit set by the MCU to start the FIR task for the DSP code 32 and 17. #endif #define B_FIR_LOOP (TRUE_L << 1) // Bit set by the MCU to close the loop between the audio UL and DL path. // This features is used to find the FIR coefficient. /*************************************/ /* ACOUSTIC interface */ /*************************************/ /* Control values */ /*----------------*/ #define B_ANR_ENABLE (TRUE_L << 0) #define B_ANR_DISABLE (TRUE_L << 1) #define B_ANR_FULL_UPDATE (TRUE_L << 2) #define B_IIR_ENABLE (TRUE_L << 0) #define B_IIR_DISABLE (TRUE_L << 1) #define B_IIR_FULL_UPDATE (TRUE_L << 2) #define B_AGC_ENABLE (TRUE_L << 0) #define B_AGC_DISABLE (TRUE_L << 1) #define B_AGC_FULL_UPDATE (TRUE_L << 2) #define B_WCM_ENABLE (TRUE_L << 0) #define B_WCM_DISABLE (TRUE_L << 1) #define B_WCM_FULL_UPDATE (TRUE_L << 2) #if (L1_DRC == 1) #define DRC_LPF_LENGTH 17 #define DRC_BPF_LENGTH 17 #endif #define B_DRC_ENABLE (TRUE_L << 0) #define B_DRC_DISABLE (TRUE_L << 1) #define B_DRC_FULL_UPDATE (TRUE_L << 2) #define B_LIM_ENABLE (TRUE_L << 0) #define B_LIM_DISABLE (TRUE_L << 1) #define B_LIM_FULL_UPDATE (TRUE_L << 2) #define B_LIM_UPDATE (TRUE_L << 3) #define B_ES_ENABLE (TRUE_L << 0) #define B_ES_DISABLE (TRUE_L << 1) #define B_ES_FULL_UPDATE (TRUE_L << 2) #if (L1_IIR == 2) #define IIR_4X_ORDER_OF_SECTION 2 #define IIR_4X_FIR_MAX_LENGTH 40 #endif #if (L1_WCM == 1) #define WCM_1X_GAIN_TABLE_LENGTH 16 #endif /* d_aqi_status bits */ /*-------------------*/ #if (DSP == 38) || (DSP == 39) #define B_DRC_DL_STATE (TRUE_L << 3) #define B_IIR_DL_STATE (TRUE_L << 4) #define B_LIM_STATE (TRUE_L << 5) #define B_AGC_DL_STATE (TRUE_L << 6) #define B_AEC_STATE (TRUE_L << 11) #define B_ANR_UL_STATE (TRUE_L << 12) #define B_ES_STATE (TRUE_L << 13) #define B_AGC_UL_STATE (TRUE_L << 14) #else #define B_IIR_STATE (TRUE_L << 4) #define B_LIM_STATE (TRUE_L << 5) #define B_ANR_STATE (TRUE_L << 12) #define B_ES_STATE (TRUE_L << 13) #endif /* d_audio_apps_status bits */ /*-------------------*/ #if (DSP == 38) || (DSP == 39) #define B_WCM_STATE (TRUE_L << 0) #endif /*****************/ /* ANR constants */ /*****************/ #if (L1_ANR == 1) #define C_ANR_VAD_THR 0x1333 #define C_ANR_GAMMA_SLOW 0x7F1B #define C_ANR_GAMMA_FAST 0x75C3 #define C_ANR_GAMMA_GAIN_SLOW 28836 #define C_ANR_GAMMA_GAIN_FAST 32113 #define C_ANR_THR2 0x01E0 #define C_ANR_THR4 0x03DE #define C_ANR_THR5 0x012C #define C_ANR_MEAN_RATIO_THR1 10000 #define C_ANR_MEAN_RATIO_THR2 6000 #define C_ANR_MEAN_RATIO_THR3 5000 #define C_ANR_MEAN_RATIO_THR4 4000 #endif #if (L1_ES == 1) /*******************/ /* ES constants */ /*******************/ // ES custom mode #define ES_CUSTOM_PARAM 0xFF // ES mode definition #define B_ES_UL (0x1 << 0) // ES UL enable #define B_ES_DL (0x1 << 1) // ES DL enable #define B_ES_CNG (0x1 << 2) // CNG enable #define B_ES_NSF (0x1 << 3) // NSF enable #define B_ES_ALS_UL (0x1 << 4) // ALS UL enable #define B_ES_ALS_DL (0x1 << 5) // ALS DL enable // ES parameter values #define C_ES_GAIN_DL_OFF 0x0 #define C_ES_GAIN_UL_1_OFF 0x0 #define C_ES_GAIN_UL_2_OFF 0x0 #define C_ES_TCL_M23DB 0x005E // ref. -23dB #define C_ES_TCL_M6DB 0x0176 // ref. -6dB #define C_ES_TCL_M3DB 0x02EA // ref. -6dB #define C_ES_TCL_0DB 0x05D1 // ref. 0dB #define C_ES_TCL_4DB 0x0E9D // ref. 4dB #define C_ES_TCL_6DB 0x1729 // ref. 6dB #define C_ES_TCL_10DB 0x3A2F // ref. 10dB #define C_ES_TCL_12DB 0x5C36 // ref. 12dB #define C_ES_TCL_B3_FE_LS 0x0004 // ref. -10dB #define C_ES_TCL_B3_DT_LS 0x0001 // ref. -16dB #define C_ES_TCL_B3_FE_NS 0x000F // ref. -10dB #define C_ES_TCL_B3_DT_NS 0x0004 // ref. -16dB #define C_ES_TCL_B3_NE 0x000F // ref. 0dB #define C_ES_TCL_FE_0 0x05D1 // ref. 0dB #define C_ES_TCL_DT_0 0x05D1 // ref. 0dB #define C_ES_TCL_NE_0 0x05D1 // ref. 0dB #define C_ES_TCL_LOUD 0x00BF // ref. 70dB #define C_ES_SW_CNT 5 // ref. switching time 100ms #define C_ES_DT_CNT 5 // ref. double-talk time 100ms #define C_ES_HG_CNT_1 8 // ref. hangover time 150ms, A_S(IDLE) = -3dB #define C_ES_HG_CNT_1A 8 // ref. hangover time 150ms, A_S(IDLE) = -3dB #define C_ES_HG_CNT_2A 10 // ref. hangover time 200ms, A_S(IDLE) = -3dB #define C_ES_HG_CNT_2B 13 // ref. hangover time 250ms, A_S(IDLE) = -3dB #define C_ES_HG_CNT_2C 13 // ref. hangover time 250ms, A_S(IDLE) = -3dB #define C_ES_HG_CNT_2C_IDLE 13 // ref. hangover time 250ms, A_S(IDLE) = -3dB #define C_ES_HG_CNT_3 20 // ref. hangover time 400ms #define C_ES_ATT_LIN_0DB 0x7fff // ref. 0dB #define C_ES_ATT_LIN_3DB 0x5A9D // ref. -3dB #define C_ES_ATT_LIN_5DB 0x47FA // ref. -5dB #define C_ES_ATT_LIN_6DB 0x4026 // ref. -6dB #define C_ES_ATT_LIN_8DB 0x32F4 // ref. -8dB #define C_ES_ATT_LIN_9DB 0x2D6A // ref. -9dB #define C_ES_ATT_LIN_10DB 0x2879 // ref. -10dB #define C_ES_ATT_LIN_12DB 0x2026 // ref. -12dB #define C_ES_ATT_LIN_15DB 0x16C2 // ref. -15dB #define C_ES_ATT_LIN_16DB 0x1449 // ref. -16dB #define C_ES_ATT_LIN_19DB 0x0E5D // ref. -19dB #define C_ES_ATT_LIN_21DB 0x0B68 // ref. -21dB #define C_ES_ATT_LIN_24DB 0x0813 // ref. -24dB #define C_ES_ATT_LIN_36DB 0x0207 // ref. -36dB #define C_ES_ATT_LIN_48DB 0x0082 // ref. -48dB #define C_ES_ATT_LIN_66DB 0x0010 // ref. -56dB #endif // L1_ES #if(L1_EXT_AUDIO_MGT == 1) #define AUDIO_EXT_MIDI_BUFFER_SIZE 2640 #endif