/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Driver for AS3514 and compatible audio codec * * Copyright (c) 2007 Daniel Ankers * Copyright (c) 2007 Christian Gmeiner * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "cpu.h" #include "debug.h" #include "system.h" #include "audio.h" #include "sound.h" #include "audiohw.h" #include "i2s.h" #include "ascodec.h" /* * This drivers supports: * as3514 , as used in the PP targets * as3515 , as used in the as3525 targets * as3543 , as used in the as3525v2 targets */ #if CONFIG_CPU == AS3525 /* AMS Sansas based on the AS3525 use the LINE2 input for the analog radio signal instead of LINE1 */ #define AS3514_LINE_IN_R AS3514_LINE_IN2_R #define AS3514_LINE_IN_L AS3514_LINE_IN2_L #define ADC_R_ADCMUX_LINE_IN ADC_R_ADCMUX_LINE_IN2 #define AUDIOSET1_LIN_on AUDIOSET1_LIN2_on #elif CONFIG_CPU == AS3525v2 /* There is only 1 pair of registers on AS3543, the line input is selectable in LINE_IN_R register */ #define AS3514_LINE_IN_R AS3514_LINE_IN1_R #define AS3514_LINE_IN_L AS3514_LINE_IN1_L #define ADC_R_ADCMUX_LINE_IN ADC_R_ADCMUX_LINE_IN2 #define AUDIOSET1_LIN_on AUDIOSET1_LIN1_on #else /* PP use line1 */ #define AS3514_LINE_IN_R AS3514_LINE_IN1_R #define AS3514_LINE_IN_L AS3514_LINE_IN1_L #define ADC_R_ADCMUX_LINE_IN ADC_R_ADCMUX_LINE_IN1 #define AUDIOSET1_LIN_on AUDIOSET1_LIN1_on #endif const struct sound_settings_info audiohw_settings[] = { [SOUND_VOLUME] = {"dB", 0, 1, VOLUME_MIN/10, 6, -25}, /* HAVE_SW_TONE_CONTROLS */ [SOUND_BASS] = {"dB", 0, 1, -24, 24, 0}, [SOUND_TREBLE] = {"dB", 0, 1, -24, 24, 0}, [SOUND_BALANCE] = {"%", 0, 1,-100, 100, 0}, [SOUND_CHANNELS] = {"", 0, 1, 0, 5, 0}, [SOUND_STEREO_WIDTH] = {"%", 0, 5, 0, 250, 100}, #ifdef HAVE_RECORDING [SOUND_MIC_GAIN] = {"dB", 1, 1, 0, 39, 23}, [SOUND_LEFT_GAIN] = {"dB", 1, 1, 0, 31, 23}, [SOUND_RIGHT_GAIN] = {"dB", 1, 1, 0, 31, 23}, #endif }; /* Shadow registers */ static uint8_t as3514_regs[AS3514_NUM_AUDIO_REGS]; /* 8-bit registers */ /* * little helper method to set register values. * With the help of as3514_regs, we minimize i2c * traffic. */ static void as3514_write(unsigned int reg, unsigned int value) { ascodec_write(reg, value); if (reg < AS3514_NUM_AUDIO_REGS) as3514_regs[reg] = value; } /* Helpers to set/clear bits */ static void as3514_set(unsigned int reg, unsigned int bits) { as3514_write(reg, as3514_regs[reg] | bits); } static void as3514_clear(unsigned int reg, unsigned int bits) { as3514_write(reg, as3514_regs[reg] & ~bits); } static void as3514_write_masked(unsigned int reg, unsigned int bits, unsigned int mask) { as3514_write(reg, (as3514_regs[reg] & ~mask) | (bits & mask)); } /* convert tenth of dB volume to master volume register value */ int tenthdb2master(int db) { /* +6 to -73.5dB (or -81.0 dB) in 1.5dB steps == 53 (or 58) levels */ if (db < VOLUME_MIN) { return 0x0; } else if (db > VOLUME_MAX) { return (VOLUME_MAX-VOLUME_MIN)/15; } else { return((db-VOLUME_MIN)/15); /* VOLUME_MIN is negative */ } } int sound_val2phys(int setting, int value) { switch(setting) { #if defined(HAVE_RECORDING) case SOUND_LEFT_GAIN: case SOUND_RIGHT_GAIN: case SOUND_MIC_GAIN: return (value - 23) * 15; #endif default: return value; } } /* * Initialise the PP I2C and I2S. */ void audiohw_preinit(void) { /* read all reg values */ ascodec_readbytes(0x0, AS3514_NUM_AUDIO_REGS, as3514_regs); #ifdef HAVE_AS3543 as3514_write(AS3514_AUDIOSET1, AUDIOSET1_DAC_on | AUDIOSET1_DAC_GAIN_on); as3514_write(AS3514_AUDIOSET2, AUDIOSET2_HPH_QUALITY_LOW_POWER); /* common ground on, delay playback unmuting when inserting headphones */ as3514_write(AS3514_AUDIOSET3, AUDIOSET3_HPCM_on | AUDIOSET3_HP_LONGSTART); as3514_write(AS3543_DAC_IF, AS3543_DAC_INT_PLL); /* Select Line 2 for FM radio */ as3514_set(AS3514_LINE_IN1_R, LINE_IN_R_LINE_SELECT); /* Output SUM of microphone/line/DAC */ as3514_write(AS3514_HPH_OUT_R, HPH_OUT_R_HEADPHONES | HPH_OUT_R_HP_OUT_SUM); #else /* as3514/as3515 */ /* Set ADC off, mixer on, DAC on, line out off, line in off, mic off */ /* Turn on SUM, DAC */ as3514_write(AS3514_AUDIOSET1, AUDIOSET1_DAC_on | AUDIOSET1_SUM_on); /* Set BIAS on, DITH off, AGC off, IBR_DAC max reduction, LSP_LP on, IBR_LSP max reduction (50%), taken from c200v2 OF */ as3514_write(AS3514_AUDIOSET2, AUDIOSET2_IBR_LSP_50 | AUDIOSET2_LSP_LP | AUDIOSET2_IBR_DAC_50 | AUDIOSET2_AGC_off | AUDIOSET2_DITH_off ); /* Mute and disable speaker */ as3514_write(AS3514_LSP_OUT_R, LSP_OUT_R_SP_OVC_TO_256MS | 0x00); as3514_write(AS3514_LSP_OUT_L, LSP_OUT_L_SP_MUTE | 0x00); #ifdef PHILIPS_SA9200 /* LRCK 8-23kHz (there are audible clicks while reading the ADC otherwise) */ as3514_write(AS3514_PLLMODE, PLLMODE_LRCK_8_23); #else /* LRCK 24-48kHz */ as3514_write(AS3514_PLLMODE, PLLMODE_LRCK_24_48); #endif /* PHILIPS_SA9200 */ /* Set headphone over-current to 0, Min volume */ as3514_write(AS3514_HPH_OUT_R, HPH_OUT_R_HP_OVC_TO_0MS | 0x00); /* AMS Sansas based on the AS3525 need HPCM enabled, otherwise they output the L-R signal on both L and R headphone outputs instead of normal stereo. Turning it off saves a little power on targets that don't need it. */ #if (CONFIG_CPU == AS3525) /* Set HPCM on, ZCU off, reduce bias current, settings taken from c200v2 OF */ as3514_write(AS3514_AUDIOSET3, AUDIOSET3_IBR_HPH | AUDIOSET3_ZCU_off); #else /* TODO: check if AS3525 settings save power on e200v1 or as3525v2 */ /* Set HPCM off, ZCU on */ as3514_write(AS3514_AUDIOSET3, AUDIOSET3_HPCM_off); #endif /* CONFIG_CPU == AS3525 */ /* M2_Sup_off */ as3514_set(AS3514_MIC2_L, MIC2_L_M2_SUP_off); #endif /* HAVE_AS3543 */ /* registers identical on as3514/as3515 and as3543 */ /* M1_Sup_off */ as3514_set(AS3514_MIC1_L, MIC1_L_M1_SUP_off); /* Headphone ON, MUTE, Min volume */ as3514_write(AS3514_HPH_OUT_L, HPH_OUT_L_HP_ON | HPH_OUT_L_HP_MUTE | 0x00); /* DAC_Mute_off */ as3514_set(AS3514_DAC_L, DAC_L_DAC_MUTE_off); } static void audiohw_mute(bool mute) { if (mute) { as3514_set(AS3514_HPH_OUT_L, HPH_OUT_L_HP_MUTE); } else { as3514_clear(AS3514_HPH_OUT_L, HPH_OUT_L_HP_MUTE); } } void audiohw_postinit(void) { /* wait until outputs have stabilized */ sleep(HZ/4); #ifdef CPU_PP ascodec_suppressor_on(false); #endif audiohw_mute(false); } void audiohw_set_master_vol(int vol_l, int vol_r) { unsigned int hph_r, hph_l; unsigned int mix_l, mix_r; if (vol_l == 0 && vol_r == 0) { audiohw_mute(true); return; } /* We combine the mixer/DAC channel volume range with the headphone volume range - keep first stage as loud as possible */ /*AS3543 mixer can go a little louder then the as3514, although * it might be possible to go louder on the as3514 as well */ #if CONFIG_CPU == AS3525v2 #define MIXER_MAX_VOLUME 0x1b #else /* lets leave the AS3514 alone until its better tested*/ #define MIXER_MAX_VOLUME 0x16 #endif if (vol_r <= MIXER_MAX_VOLUME) { mix_r = vol_r; hph_r = 0; } else { mix_r = MIXER_MAX_VOLUME; hph_r = vol_r - MIXER_MAX_VOLUME; } if (vol_l <= MIXER_MAX_VOLUME) { mix_l = vol_l; hph_l = 0; } else { mix_l = MIXER_MAX_VOLUME; hph_l = vol_l - MIXER_MAX_VOLUME; } as3514_write_masked(AS3514_DAC_R, mix_r, AS3514_VOL_MASK); as3514_write_masked(AS3514_DAC_L, mix_l, AS3514_VOL_MASK); #if defined(HAVE_RECORDING) || defined(HAVE_FMRADIO_IN) as3514_write_masked(AS3514_LINE_IN_R, mix_r, AS3514_VOL_MASK); as3514_write_masked(AS3514_LINE_IN_L, mix_l, AS3514_VOL_MASK); #endif as3514_write_masked(AS3514_HPH_OUT_R, hph_r, AS3514_VOL_MASK); as3514_write_masked(AS3514_HPH_OUT_L, hph_l, AS3514_VOL_MASK); audiohw_mute(false); } #if 0 /* unused */ void audiohw_set_lineout_vol(int vol_l, int vol_r) { #ifdef HAVE_AS3543 /* line out volume is set in the same registers */ audiohw_set_master_vol(vol_l, vol_r); #else as3514_write_masked(AS3514_LINE_OUT_R, vol_r, AS3514_VOL_MASK); as3514_write_masked(AS3514_LINE_OUT_L, vol_l, AS3514_VOL_MASK); #endif } #endif /* Nice shutdown of AS3514 audio codec */ void audiohw_close(void) { /* mute headphones */ audiohw_mute(true); #ifdef CPU_PP ascodec_suppressor_on(true); #endif /* turn on common */ as3514_clear(AS3514_AUDIOSET3, AUDIOSET3_HPCM_off); /* turn off everything */ as3514_clear(AS3514_HPH_OUT_L, HPH_OUT_L_HP_ON); as3514_write(AS3514_AUDIOSET1, 0x0); /* Allow caps to discharge */ sleep(HZ/4); } void audiohw_set_frequency(int fsel) { #if defined(SANSA_E200) || defined(SANSA_C200) if ((unsigned)fsel >= HW_NUM_FREQ) fsel = HW_FREQ_DEFAULT; as3514_write(AS3514_PLLMODE, hw_freq_sampr[fsel] < 24000 ? PLLMODE_LRCK_8_23 : PLLMODE_LRCK_24_48); audiohw_set_sampr_dividers(fsel); #endif (void)fsel; } #if defined(HAVE_RECORDING) void audiohw_enable_recording(bool source_mic) { if (source_mic) { /* ADCmux = Stereo Microphone */ as3514_write_masked(AS3514_ADC_R, ADC_R_ADCMUX_ST_MIC, ADC_R_ADCMUX); /* MIC1_on, others off */ as3514_write_masked(AS3514_AUDIOSET1, AUDIOSET1_MIC1_on, AUDIOSET1_INPUT_MASK); #if CONFIG_CPU == AS3525v2 /* XXX: why is the microphone supply not needed on other models ?? */ /* Enable supply */ as3514_clear(AS3514_MIC1_L, MIC1_L_M1_SUP_off); #endif /* M1_AGC_off */ as3514_clear(AS3514_MIC1_R, MIC1_R_M1_AGC_off); } else { /* ADCmux = Line_IN1 or Line_IN2 */ as3514_write_masked(AS3514_ADC_R, ADC_R_ADCMUX_LINE_IN, ADC_R_ADCMUX); /* LIN1_or LIN2 on, rest off */ as3514_write_masked(AS3514_AUDIOSET1, AUDIOSET1_LIN_on, AUDIOSET1_INPUT_MASK); #if CONFIG_CPU == AS3525v2 /* Disable supply */ as3514_set(AS3514_MIC1_L, MIC1_L_M1_SUP_off); #endif } /* ADC_Mute_off */ as3514_set(AS3514_ADC_L, ADC_L_ADC_MUTE_off); /* ADC_on */ as3514_set(AS3514_AUDIOSET1, AUDIOSET1_ADC_on); } void audiohw_disable_recording(void) { /* ADC_Mute_on */ as3514_clear(AS3514_ADC_L, ADC_L_ADC_MUTE_off); /* ADC_off, all input sources off */ as3514_clear(AS3514_AUDIOSET1, AUDIOSET1_ADC_on | AUDIOSET1_INPUT_MASK); } /** * Set recording volume * * Line in : 0 .. 23 .. 31 => Volume -34.5 .. +00.0 .. +12.0 dB * Mic (left): 0 .. 23 .. 39 => * Volume -34.5 .. +00.0 .. +24.0 dB * */ void audiohw_set_recvol(int left, int right, int type) { switch (type) { case AUDIO_GAIN_MIC: { /* Combine MIC gains seamlessly with ADC levels */ unsigned int mic1_r; if (left >= 36) { /* M1_Gain = +40db, ADR_Vol = +7.5dB .. +12.0 dB => +19.5 dB .. +24.0 dB */ left -= 8; mic1_r = MIC1_R_M1_GAIN_40DB; } else if (left >= 32) { /* M1_Gain = +34db, ADR_Vol = +7.5dB .. +12.0 dB => +13.5 dB .. +18.0 dB */ left -= 4; mic1_r = MIC1_R_M1_GAIN_34DB; } else { /* M1_Gain = +28db, ADR_Vol = -34.5dB .. +12.0 dB => -34.5 dB .. +12.0 dB */ mic1_r = MIC1_R_M1_GAIN_28DB; } right = left; as3514_write_masked(AS3514_MIC1_R, mic1_r, MIC1_R_M1_GAIN); break; } case AUDIO_GAIN_LINEIN: break; default: return; } as3514_write_masked(AS3514_ADC_R, right, AS3514_VOL_MASK); as3514_write_masked(AS3514_ADC_L, left, AS3514_VOL_MASK); } #endif /* HAVE_RECORDING */ #if defined(HAVE_RECORDING) || defined(HAVE_FMRADIO_IN) /** * Enable line in analog monitoring * */ void audiohw_set_monitor(bool enable) { if (enable) { /* select either LIN1 or LIN2 */ as3514_write_masked(AS3514_AUDIOSET1, AUDIOSET1_LIN_on, AUDIOSET1_LIN1_on | AUDIOSET1_LIN2_on); as3514_set(AS3514_LINE_IN_R, LINE_IN1_R_LI1R_MUTE_off); as3514_set(AS3514_LINE_IN_L, LINE_IN1_L_LI1L_MUTE_off); } else { /* turn off both LIN1 and LIN2 (if present) */ as3514_clear(AS3514_LINE_IN1_R, LINE_IN1_R_LI1R_MUTE_off); as3514_clear(AS3514_LINE_IN1_L, LINE_IN1_L_LI1L_MUTE_off); #ifndef HAVE_AS3543 as3514_clear(AS3514_LINE_IN2_R, LINE_IN2_R_LI2R_MUTE_off); as3514_clear(AS3514_LINE_IN2_L, LINE_IN2_L_LI2L_MUTE_off); #endif as3514_clear(AS3514_AUDIOSET1, AUDIOSET1_LIN1_on | AUDIOSET1_LIN2_on); } } #endif /* HAVE_RECORDING || HAVE_FMRADIO_IN */