/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2021-2022 Aidan MacDonald * Copyright 2014 Ingenic Semiconductor Co.,Ltd * cscheng * sound/soc/ingenic/icodec/icdc_d3.c * ALSA SoC Audio driver -- ingenic internal codec (icdc_d3) driver * * 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 "x1000-codec.h" #include "audiohw.h" #include "pcm_sampr.h" #include "kernel.h" #include "x1000/aic.h" static const uint8_t fsel_to_hw[HW_NUM_FREQ] = { [0 ... HW_NUM_FREQ-1] = 0, HW_HAVE_8_([HW_FREQ_8] = 0,) HW_HAVE_11_([HW_FREQ_11] = 1,) HW_HAVE_12_([HW_FREQ_12] = 2,) HW_HAVE_16_([HW_FREQ_16] = 3,) HW_HAVE_22_([HW_FREQ_22] = 4,) HW_HAVE_24_([HW_FREQ_24] = 5,) HW_HAVE_32_([HW_FREQ_32] = 6,) HW_HAVE_44_([HW_FREQ_44] = 7,) HW_HAVE_48_([HW_FREQ_48] = 8,) HW_HAVE_88_([HW_FREQ_88] = 9,) HW_HAVE_96_([HW_FREQ_96] = 10,) HW_HAVE_176_([HW_FREQ_176] = 11,) HW_HAVE_192_([HW_FREQ_192] = 12,) }; void x1000_icodec_open(void) { /* Ingenic does not specify any timing constraints for reset, * let's do a 1ms delay for fun */ jz_writef(AIC_RGADW, ICRST(1)); mdelay(1); jz_writef(AIC_RGADW, ICRST(0)); /* Power-up and initial config sequence */ static const uint8_t init_config[] = { JZCODEC_CR_VIC, 0x03, /* ensure codec is powered off */ JZCODEC_CR_CK, 0x40, /* MCLK_DIV=1, SHUTDOWN_CLK=0, CRYSTAL=12Mhz */ JZCODEC_AICR_DAC, 0x13, /* ADWL=0 (16bit word length) * SLAVE=0 (i2s master mode) * SB_DAC=1 (power down DAC) * AUDIOIF=3 (i2s mode) */ JZCODEC_AICR_ADC, 0x13, /* ADWL=0 (16bit word length) * SB_ADC=1 (power down ADC) * AUDIOIF=3 (i2s mode) */ JZCODEC_CR_DAC, 0x91, /* DAC mute, power down */ JZCODEC_CR_DAC2, 0x38, /* DAC power down */ JZCODEC_CR_DMIC, 0x00, /* DMIC clock off */ JZCODEC_CR_MIC1, 0x30, /* MIC1 power down */ JZCODEC_CR_MIC2, 0x30, /* MIC2 power down */ JZCODEC_CR_ADC, 0x90, /* ADC mute, power down */ JZCODEC_ICR, 0x00, /* INT_FORM=0 (high level IRQ) */ JZCODEC_IMR, 0xff, /* Mask all interrupts */ JZCODEC_IMR2, 0xff, JZCODEC_IFR, 0xff, /* Clear all interrupt flags */ JZCODEC_IFR2, 0xff, }; for(size_t i = 0; i < ARRAYLEN(init_config); i += 2) x1000_icodec_write(init_config[i], init_config[i+1]); /* SB -> 0 (power up) */ x1000_icodec_write(JZCODEC_CR_VIC, 0x02); mdelay(250); /* Initial gain setting. Apparently we need to set one gain and * then set another after 10ms; afterward it can be changed freely. */ static const uint8_t gain_regs[] = { JZCODEC_GCR_DACL, JZCODEC_GCR_DACR, JZCODEC_GCR_DACL2, JZCODEC_GCR_DACR2, JZCODEC_GCR_MIC1, JZCODEC_GCR_MIC2, JZCODEC_GCR_ADCL, JZCODEC_GCR_ADCR, }; for(size_t i = 0; i < ARRAYLEN(gain_regs); ++i) x1000_icodec_write(gain_regs[i], 0); mdelay(10); for(size_t i = 0; i < ARRAYLEN(gain_regs); ++i) x1000_icodec_write(gain_regs[i], 1); /* SB_SLEEP -> 0 (exit sleep/standby mode) */ x1000_icodec_write(JZCODEC_CR_VIC, 0x00); mdelay(200); } void x1000_icodec_close(void) { /* SB_SLEEP -> 1 (enable sleep mode) */ x1000_icodec_write(JZCODEC_CR_VIC, 0x02); /* SB -> 1 (power down) */ x1000_icodec_write(JZCODEC_CR_VIC, 0x03); } /* * DAC configuration */ void x1000_icodec_dac_frequency(int fsel) { x1000_icodec_update(JZCODEC_FCR_DAC, 0x0f, fsel_to_hw[fsel]); } /* * ADC configuration */ void x1000_icodec_adc_enable(bool en) { x1000_icodec_update(JZCODEC_AICR_ADC, 0x10, en ? 0x00 : 0x10); x1000_icodec_update(JZCODEC_CR_ADC, 0x10, en ? 0x00 : 0x10); } void x1000_icodec_adc_mute(bool muted) { x1000_icodec_update(JZCODEC_CR_ADC, 0x80, muted ? 0x80 : 0x00); } void x1000_icodec_adc_mic_sel(int sel) { x1000_icodec_update(JZCODEC_CR_ADC, 0x40, sel == JZCODEC_MIC_SEL_DIGITAL ? 0x40 : 0x00); } void x1000_icodec_adc_frequency(int fsel) { x1000_icodec_update(JZCODEC_FCR_ADC, 0x0f, fsel_to_hw[fsel]); } void x1000_icodec_adc_highpass_filter(bool en) { x1000_icodec_update(JZCODEC_FCR_ADC, 0x40, en ? 0x40 : 0x00); } void x1000_icodec_adc_gain(int gain_dB) { if(gain_dB < X1000_ICODEC_ADC_GAIN_MIN) gain_dB = X1000_ICODEC_ADC_GAIN_MIN; else if(gain_dB > X1000_ICODEC_ADC_GAIN_MAX) gain_dB = X1000_ICODEC_ADC_GAIN_MAX; /* bit 7 = use the same gain for both channels */ x1000_icodec_write(JZCODEC_GCR_ADCL, 0x80 | gain_dB); } /* * MIC1 configuration */ void x1000_icodec_mic1_enable(bool en) { x1000_icodec_update(JZCODEC_CR_MIC1, 0x10, en ? 0x00 : 0x10); } void x1000_icodec_mic1_bias_enable(bool en) { x1000_icodec_update(JZCODEC_CR_MIC1, 0x20, en ? 0x00 : 0x20); } void x1000_icodec_mic1_configure(int settings) { x1000_icodec_update(JZCODEC_CR_MIC1, JZCODEC_MIC1_CONFIGURE_MASK, settings & JZCODEC_MIC1_CONFIGURE_MASK); } void x1000_icodec_mic1_gain(int gain_dB) { if(gain_dB < X1000_ICODEC_MIC_GAIN_MIN) gain_dB = X1000_ICODEC_MIC_GAIN_MIN; else if(gain_dB > X1000_ICODEC_MIC_GAIN_MAX) gain_dB = X1000_ICODEC_MIC_GAIN_MAX; x1000_icodec_write(JZCODEC_GCR_MIC1, gain_dB/X1000_ICODEC_MIC_GAIN_STEP); } /* * Mixer configuration */ void x1000_icodec_mixer_enable(bool en) { x1000_icodec_update(JZCODEC_CR_MIX, 0x80, en ? 0x80 : 0x00); } /* * Register access */ static int x1000_icodec_read_direct(int reg) { jz_writef(AIC_RGADW, ADDR(reg)); return jz_readf(AIC_RGDATA, DATA); } static void x1000_icodec_write_direct(int reg, int value) { jz_writef(AIC_RGADW, ADDR(reg), DATA(value)); jz_writef(AIC_RGADW, RGWR(1)); while(jz_readf(AIC_RGADW, RGWR)); } static void x1000_icodec_update_direct(int reg, int mask, int value) { int x = x1000_icodec_read_direct(reg) & ~mask; x |= value; x1000_icodec_write_direct(reg, x); } static int x1000_icodec_read_indirect(int c_reg, int index) { x1000_icodec_update_direct(c_reg, 0x7f, index & 0x3f); return x1000_icodec_read_direct(c_reg+1); } static void x1000_icodec_write_indirect(int c_reg, int index, int value) { /* NB: The X1000 programming manual says we should write the data * register first, but in fact the control register needs to be * written first (following Ingenic's Linux driver). */ x1000_icodec_update_direct(c_reg, 0x7f, 0x40 | (index & 0x3f)); x1000_icodec_write_direct(c_reg+1, value); } static void x1000_icodec_update_indirect(int c_reg, int index, int mask, int value) { int x = x1000_icodec_read_indirect(c_reg, index) & ~mask; x |= value; x1000_icodec_write_indirect(c_reg, index, x); } int x1000_icodec_read(int reg) { if(reg & JZCODEC_INDIRECT_BIT) return x1000_icodec_read_indirect(JZCODEC_INDIRECT_CREG(reg), JZCODEC_INDIRECT_INDEX(reg)); else return x1000_icodec_read_direct(reg); } void x1000_icodec_write(int reg, int value) { if(reg & JZCODEC_INDIRECT_BIT) return x1000_icodec_write_indirect(JZCODEC_INDIRECT_CREG(reg), JZCODEC_INDIRECT_INDEX(reg), value); else return x1000_icodec_write_direct(reg, value); } void x1000_icodec_update(int reg, int mask, int value) { if(reg & JZCODEC_INDIRECT_BIT) return x1000_icodec_update_indirect(JZCODEC_INDIRECT_CREG(reg), JZCODEC_INDIRECT_INDEX(reg), mask, value); else return x1000_icodec_update_direct(reg, mask, value); }