/* * SPDX-FileCopyrightText: 2021 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ // The HAL layer for I2S (common part) #include "soc/soc.h" #include "soc/soc_caps.h" #include "hal/i2s_hal.h" /** * @brief Calculate the closest sample rate clock configuration. * clock relationship: * Fmclk = bck_div*fbck = fsclk/(mclk_div+b/a) * * @param clk_cfg I2S clock configuration(input) * @param cal Point to `i2s_ll_mclk_div_t` structure(output). */ static void i2s_hal_mclk_div_decimal_cal(i2s_hal_clock_cfg_t *clk_cfg, i2s_ll_mclk_div_t *cal) { int ma = 0; int mb = 0; cal->mclk_div = clk_cfg->mclk_div; cal->a = 1; cal->b = 0; uint32_t freq_diff = abs(clk_cfg->sclk - clk_cfg->mclk * cal->mclk_div); if (!freq_diff) { return; } float decimal = freq_diff / (float)clk_cfg->mclk; // Carry bit if the decimal is greater than 1.0 - 1.0 / (63.0 * 2) = 125.0 / 126.0 if (decimal > 125.0 / 126.0) { cal->mclk_div++; return; } uint32_t min = ~0; for (int a = 2; a <= I2S_LL_MCLK_DIVIDER_MAX; a++) { // Calculate the closest 'b' in this loop, no need to loop 'b' to seek the closest value int b = (int)(a * (freq_diff / (double)clk_cfg->mclk) + 0.5); ma = freq_diff * a; mb = clk_cfg->mclk * b; if (ma == mb) { cal->a = a; cal->b = b; return; } if (abs((mb - ma)) < min) { cal->a = a; cal->b = b; min = abs(mb - ma); } } } void i2s_hal_set_clock_src(i2s_hal_context_t *hal, i2s_clock_src_t sel) { i2s_ll_tx_clk_set_src(hal->dev, sel); i2s_ll_rx_clk_set_src(hal->dev, sel); } void i2s_hal_tx_clock_config(i2s_hal_context_t *hal, i2s_hal_clock_cfg_t *clk_cfg) { i2s_ll_mclk_div_t mclk_set; i2s_hal_mclk_div_decimal_cal(clk_cfg, &mclk_set); i2s_ll_tx_set_clk(hal->dev, &mclk_set); i2s_ll_tx_set_bck_div_num(hal->dev, clk_cfg->bclk_div); } void i2s_hal_rx_clock_config(i2s_hal_context_t *hal, i2s_hal_clock_cfg_t *clk_cfg) { i2s_ll_mclk_div_t mclk_set; i2s_hal_mclk_div_decimal_cal(clk_cfg, &mclk_set); i2s_ll_rx_set_clk(hal->dev, &mclk_set); i2s_ll_rx_set_bck_div_num(hal->dev, clk_cfg->bclk_div); } void i2s_hal_enable_master_fd_mode(i2s_hal_context_t *hal) { i2s_ll_tx_set_slave_mod(hal->dev, false); //TX master i2s_ll_rx_set_slave_mod(hal->dev, true); //RX Slave } void i2s_hal_enable_slave_fd_mode(i2s_hal_context_t *hal) { i2s_ll_tx_set_slave_mod(hal->dev, true); //TX Slave i2s_ll_rx_set_slave_mod(hal->dev, true); //RX Slave } void i2s_hal_init(i2s_hal_context_t *hal, int i2s_num) { /* Get hardware instance */ hal->dev = I2S_LL_GET_HW(i2s_num); } #if SOC_I2S_SUPPORTS_PDM_TX void i2s_hal_tx_set_pdm_mode_default(i2s_hal_context_t *hal, uint32_t sample_rate) { /* enable pdm tx mode */ i2s_ll_tx_enable_pdm(hal->dev, true); #if SOC_I2S_SUPPORTS_TDM i2s_ll_tx_enable_clock(hal->dev); i2s_ll_tx_clk_set_src(hal->dev, I2S_CLK_D2CLK); // Set I2S_CLK_D2CLK as default i2s_ll_mclk_use_tx_clk(hal->dev); /* Still need to enable the first 2 TDM channel mask to get the correct number of frame */ i2s_ll_tx_set_active_chan_mask(hal->dev, I2S_TDM_ACTIVE_CH0 | I2S_TDM_ACTIVE_CH1); #else i2s_ll_tx_force_enable_fifo_mod(hal->dev, true); #endif /* set pdm tx default presacle */ i2s_ll_tx_set_pdm_prescale(hal->dev, 0); /* set pdm tx default sacle of high pass filter */ i2s_ll_tx_set_pdm_hp_scale(hal->dev, I2S_PDM_SIG_SCALING_MUL_1); /* set pdm tx default sacle of low pass filter */ i2s_ll_tx_set_pdm_lp_scale(hal->dev, I2S_PDM_SIG_SCALING_MUL_1); /* set pdm tx default sacle of sinc filter */ i2s_ll_tx_set_pdm_sinc_scale(hal->dev, I2S_PDM_SIG_SCALING_MUL_1); /* set pdm tx default sacle of sigma-delta filter */ i2s_ll_tx_set_pdm_sd_scale(hal->dev, I2S_PDM_SIG_SCALING_MUL_1); /* set pdm tx sample rate */ i2s_ll_tx_set_pdm_fpfs(hal->dev, 960, sample_rate / 100); #if SOC_I2S_SUPPORTS_PDM_CODEC /* enable pdm high pass filter */ i2s_ll_tx_enable_pdm_hp_filter(hal->dev, true); /* set pdm tx high pass filter parameters */ i2s_ll_tx_set_pdm_hp_filter_param0(hal->dev, 6); i2s_ll_tx_set_pdm_hp_filter_param5(hal->dev, 7); /* enable pdm sigma-delta codec */ i2s_ll_tx_enable_pdm_sd_codec(hal->dev, true); /* set pdm tx sigma-delta codec dither */ i2s_ll_tx_set_pdm_sd_dither(hal->dev, 0); i2s_ll_tx_set_pdm_sd_dither2(hal->dev, 0); #endif // SOC_I2S_SUPPORTS_PDM_CODEC } #endif // SOC_I2S_SUPPORTS_PDM_TX #if SOC_I2S_SUPPORTS_PDM_RX void i2s_hal_rx_set_pdm_mode_default(i2s_hal_context_t *hal) { /* enable pdm rx mode */ i2s_ll_rx_enable_pdm(hal->dev, true); /* set pdm rx downsample number */ i2s_ll_rx_set_pdm_dsr(hal->dev, I2S_PDM_DSR_8S); #if SOC_I2S_SUPPORTS_TDM i2s_ll_rx_enable_clock(hal->dev); i2s_ll_rx_clk_set_src(hal->dev, I2S_CLK_D2CLK); // Set I2S_CLK_D2CLK as default i2s_ll_mclk_use_rx_clk(hal->dev); /* Still need to enable the first 2 TDM channel mask to get the correct number of frame */ i2s_ll_rx_set_active_chan_mask(hal->dev, I2S_TDM_ACTIVE_CH0 | I2S_TDM_ACTIVE_CH1); #else i2s_ll_rx_force_enable_fifo_mod(hal->dev, true); #endif } #endif // SOC_I2S_SUPPORTS_PDM_RX void i2s_hal_tx_set_common_mode(i2s_hal_context_t *hal, const i2s_hal_config_t *hal_cfg) { /* Disable PDM tx mode and enable TDM mode (if support) */ i2s_ll_tx_enable_pdm(hal->dev, false); #if SOC_I2S_SUPPORTS_TDM i2s_ll_tx_enable_clock(hal->dev); i2s_ll_tx_clk_set_src(hal->dev, I2S_CLK_D2CLK); // Set I2S_CLK_D2CLK as default i2s_ll_mclk_use_tx_clk(hal->dev); i2s_ll_tx_set_active_chan_mask(hal->dev, hal_cfg->chan_mask); // In TDM mode(more than 2 channels), the ws polarity should be high first. if (hal_cfg->total_chan > 2) { i2s_ll_tx_set_ws_idle_pol(hal->dev, true); } i2s_ll_tx_enable_left_align(hal->dev, hal_cfg->left_align); i2s_ll_tx_enable_big_endian(hal->dev, hal_cfg->big_edin); i2s_ll_tx_set_bit_order(hal->dev, hal_cfg->bit_order_msb); i2s_ll_tx_set_skip_mask(hal->dev, hal_cfg->skip_msk); #else i2s_ll_tx_enable_msb_right(hal->dev, false); i2s_ll_tx_enable_right_first(hal->dev, false); i2s_ll_tx_force_enable_fifo_mod(hal->dev, true); #endif } void i2s_hal_rx_set_common_mode(i2s_hal_context_t *hal, const i2s_hal_config_t *hal_cfg) { /* Disable PDM rx mode and enable TDM rx mode (if support)*/ i2s_ll_rx_enable_pdm(hal->dev, false); #if SOC_I2S_SUPPORTS_TDM i2s_ll_rx_enable_clock(hal->dev); i2s_ll_rx_clk_set_src(hal->dev, I2S_CLK_D2CLK); // Set I2S_CLK_D2CLK as default i2s_ll_mclk_use_rx_clk(hal->dev); i2s_ll_rx_set_active_chan_mask(hal->dev, hal_cfg->chan_mask); // In TDM mode(more than 2 channels), the ws polarity should be high first. if (hal_cfg->total_chan > 2) { i2s_ll_rx_set_ws_idle_pol(hal->dev, true); } i2s_ll_rx_enable_left_align(hal->dev, hal_cfg->left_align); i2s_ll_rx_enable_big_endian(hal->dev, hal_cfg->big_edin); i2s_ll_rx_set_bit_order(hal->dev, hal_cfg->bit_order_msb); #else i2s_ll_rx_enable_msb_right(hal->dev, false); i2s_ll_rx_enable_right_first(hal->dev, false); i2s_ll_rx_force_enable_fifo_mod(hal->dev, true); #endif } static uint32_t i2s_hal_get_ws_bit(i2s_comm_format_t fmt, uint32_t chan_num, uint32_t chan_bits) { switch (fmt) { case I2S_COMM_FORMAT_STAND_MSB: return chan_num * chan_bits / 2; case I2S_COMM_FORMAT_STAND_PCM_SHORT: return 1; case I2S_COMM_FORMAT_STAND_PCM_LONG: return chan_bits; default: //I2S_COMM_FORMAT_STAND_I2S return chan_num * chan_bits / 2; } } void i2s_hal_tx_set_channel_style(i2s_hal_context_t *hal, const i2s_hal_config_t *hal_cfg) { uint32_t chan_num = 2; uint32_t chan_bits = hal_cfg->chan_bits; uint32_t data_bits = hal_cfg->sample_bits; bool is_mono = (hal_cfg->chan_fmt == I2S_CHANNEL_FMT_ONLY_RIGHT) || (hal_cfg->chan_fmt == I2S_CHANNEL_FMT_ONLY_LEFT); /* Set channel number and valid data bits */ #if SOC_I2S_SUPPORTS_TDM chan_num = hal_cfg->total_chan; i2s_ll_tx_set_chan_num(hal->dev, chan_num); #endif i2s_ll_tx_set_sample_bit(hal->dev, chan_bits, data_bits); i2s_ll_tx_enable_mono_mode(hal->dev, is_mono); /* Set communication format */ bool shift_en = hal_cfg->comm_fmt == I2S_COMM_FORMAT_STAND_I2S ? true : false; uint32_t ws_width = i2s_hal_get_ws_bit(hal_cfg->comm_fmt, chan_num, chan_bits); i2s_ll_tx_enable_msb_shift(hal->dev, shift_en); i2s_ll_tx_set_ws_width(hal->dev, ws_width); #if SOC_I2S_SUPPORTS_TDM i2s_ll_tx_set_half_sample_bit(hal->dev, chan_num * chan_bits / 2); #endif } void i2s_hal_rx_set_channel_style(i2s_hal_context_t *hal, const i2s_hal_config_t *hal_cfg) { uint32_t chan_num = 2; uint32_t chan_bits = hal_cfg->chan_bits; uint32_t data_bits = hal_cfg->sample_bits; bool is_mono = (hal_cfg->chan_fmt == I2S_CHANNEL_FMT_ONLY_RIGHT) || (hal_cfg->chan_fmt == I2S_CHANNEL_FMT_ONLY_LEFT); #if SOC_I2S_SUPPORTS_TDM chan_num = hal_cfg->total_chan; i2s_ll_rx_set_chan_num(hal->dev, chan_num); #endif i2s_ll_rx_set_sample_bit(hal->dev, chan_bits, data_bits); i2s_ll_rx_enable_mono_mode(hal->dev, is_mono); /* Set communication format */ bool shift_en = hal_cfg->comm_fmt == I2S_COMM_FORMAT_STAND_I2S ? true : false; uint32_t ws_width = i2s_hal_get_ws_bit(hal_cfg->comm_fmt, chan_num, chan_bits); i2s_ll_rx_enable_msb_shift(hal->dev, shift_en); i2s_ll_rx_set_ws_width(hal->dev, ws_width); #if SOC_I2S_SUPPORTS_TDM i2s_ll_rx_set_half_sample_bit(hal->dev, chan_num * chan_bits / 2); #endif } void i2s_hal_config_param(i2s_hal_context_t *hal, const i2s_hal_config_t *hal_cfg) { #if SOC_I2S_SUPPORTS_ADC if (hal_cfg->mode & I2S_MODE_ADC_BUILT_IN) { /* In ADC built-in mode, we need to call i2s_set_adc_mode to initialize the specific ADC channel. * In the current stage, we only support ADC1 and single channel mode. * In default data mode, the ADC data is in 12-bit resolution mode. */ i2s_ll_enable_builtin_adc(hal->dev, true); return; } i2s_ll_enable_builtin_adc(hal->dev, false); #endif #if SOC_I2S_SUPPORTS_DAC if (hal_cfg->mode & I2S_MODE_DAC_BUILT_IN) { i2s_ll_enable_builtin_dac(hal->dev, true); return; } i2s_ll_enable_builtin_dac(hal->dev, false); #endif /* Set configurations for TX mode */ if (hal_cfg->mode & I2S_MODE_TX) { i2s_ll_tx_stop(hal->dev); i2s_ll_tx_reset(hal->dev); i2s_ll_tx_set_slave_mod(hal->dev, (hal_cfg->mode & I2S_MODE_SLAVE) != 0); //TX Slave #if SOC_I2S_SUPPORTS_PDM_TX if (hal_cfg->mode & I2S_MODE_PDM) { /* Set tx pdm mode */ i2s_hal_tx_set_pdm_mode_default(hal, hal_cfg->sample_rate); } else #endif { /* Set tx common mode */ i2s_hal_tx_set_common_mode(hal, hal_cfg); } i2s_hal_tx_set_channel_style(hal, hal_cfg); } /* Set configurations for RX mode */ if (hal_cfg->mode & I2S_MODE_RX) { i2s_ll_rx_stop(hal->dev); i2s_ll_rx_reset(hal->dev); i2s_ll_rx_set_slave_mod(hal->dev, (hal_cfg->mode & I2S_MODE_SLAVE) != 0); //RX Slave #if SOC_I2S_SUPPORTS_PDM_RX if (hal_cfg->mode & I2S_MODE_PDM) { /* Set rx pdm mode */ i2s_hal_rx_set_pdm_mode_default(hal); } else #endif { /* Set rx common mode */ i2s_hal_rx_set_common_mode(hal, hal_cfg); } i2s_hal_rx_set_channel_style(hal, hal_cfg); } /* Set configurations for full-duplex mode */ if ((hal_cfg->mode & I2S_MODE_RX) && (hal_cfg->mode & I2S_MODE_TX)) { i2s_ll_share_bck_ws(hal->dev, true); if (hal_cfg->mode & I2S_MODE_MASTER) { i2s_hal_enable_master_fd_mode(hal); } else { i2s_hal_enable_slave_fd_mode(hal); } } } void i2s_hal_start_tx(i2s_hal_context_t *hal) { #if SOC_I2S_SUPPORTS_TDM i2s_ll_tx_enable_clock(hal->dev); #endif i2s_ll_tx_start(hal->dev); } void i2s_hal_start_rx(i2s_hal_context_t *hal) { #if SOC_I2S_SUPPORTS_TDM i2s_ll_rx_enable_clock(hal->dev); #endif i2s_ll_rx_start(hal->dev); } void i2s_hal_stop_tx(i2s_hal_context_t *hal) { i2s_ll_tx_stop(hal->dev); #if SOC_I2S_SUPPORTS_TDM i2s_ll_tx_disable_clock(hal->dev); #endif } void i2s_hal_stop_rx(i2s_hal_context_t *hal) { i2s_ll_rx_stop(hal->dev); #if SOC_I2S_SUPPORTS_TDM i2s_ll_rx_disable_clock(hal->dev); #endif }