// SPDX-License-Identifier: GPL-2.0+ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "aw883xx.h" #include "aw_bin_parse.h" #include "aw_pid_2049_reg.h" #include "aw_log.h" #define AW_FW_CHECK_PART (10) static int aw883xx_dev_i2c_writes(struct aw_device *aw_dev, uint8_t reg_addr, uint8_t *buf, uint16_t len) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_i2c_writes(aw883xx, reg_addr, buf, len); } static int aw883xx_dev_i2c_write(struct aw_device *aw_dev, uint8_t reg_addr, uint16_t reg_data) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_i2c_write(aw883xx, reg_addr, reg_data); } static int aw883xx_dev_i2c_read(struct aw_device *aw_dev, uint8_t reg_addr, uint16_t *reg_data) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_i2c_read(aw883xx, reg_addr, reg_data); } static int aw883xx_dev_reg_read(struct aw_device *aw_dev, uint8_t reg_addr, uint16_t *reg_data) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_reg_read(aw883xx, reg_addr, reg_data); } static int aw883xx_dev_reg_write(struct aw_device *aw_dev, uint8_t reg_addr, uint16_t reg_data) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_reg_write(aw883xx, reg_addr, reg_data); } static int aw883xx_dev_reg_write_bits(struct aw_device *aw_dev, uint8_t reg_addr, uint16_t mask, uint16_t reg_data) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_reg_write_bits(aw883xx, reg_addr, mask, reg_data); } static int aw883xx_dev_dsp_write(struct aw_device *aw_dev, uint16_t dsp_addr, uint32_t dsp_data, uint8_t data_type) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_dsp_write(aw883xx, dsp_addr, dsp_data, data_type); } static int aw883xx_dev_dsp_read(struct aw_device *aw_dev, uint16_t dsp_addr, uint32_t *dsp_data, uint8_t data_type) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_dsp_read(aw883xx, dsp_addr, dsp_data, data_type); } /****************************************************** * * aw883xx i2c write/read * ******************************************************/ /*[9 : 6]: -6DB ; [5 : 0]: -0.125DB real_value = value * 8 : 0.125db --> 1*/ static unsigned int aw_pid_2049_reg_val_to_db(unsigned int value) { return (((value >> AW_PID_2049_VOL_6DB_START) * AW_PID_2049_VOLUME_STEP_DB) + ((value & 0x3f) % AW_PID_2049_VOLUME_STEP_DB)); } /*[9 : 6]: -6DB ; [5 : 0]: -0.125DB reg_value = value / step << 6 + value % step ; step = 6 * 8*/ static uint16_t aw883xx_db_val_to_reg(uint16_t value) { return (((value / AW_PID_2049_VOLUME_STEP_DB) << AW_PID_2049_VOL_6DB_START) + (value % AW_PID_2049_VOLUME_STEP_DB)); } static int aw883xx_set_volume(struct aw883xx *aw883xx, uint16_t value) { uint16_t reg_value = 0; uint16_t real_value = aw883xx_db_val_to_reg(value); /* cal real value */ aw883xx_reg_read(aw883xx, AW_PID_2049_SYSCTRL2_REG, ®_value); aw_dev_dbg(aw883xx->dev, "value 0x%x , reg:0x%x", value, real_value); /*[15 : 6] volume*/ real_value = (real_value << AW_PID_2049_VOL_START_BIT) | (reg_value & AW_PID_2049_VOL_MASK); /* write value */ aw883xx_reg_write(aw883xx, AW_PID_2049_SYSCTRL2_REG, real_value); return 0; } static int aw883xx_get_volume(struct aw883xx *aw883xx, uint16_t *value) { uint16_t reg_value = 0; uint16_t real_value = 0; /* read value */ aw883xx_reg_read(aw883xx, AW_PID_2049_SYSCTRL2_REG, ®_value); /*[15 : 6] volume*/ real_value = reg_value >> AW_PID_2049_VOL_START_BIT; real_value = aw_pid_2049_reg_val_to_db(real_value); *value = real_value; return 0; } static int aw_pid_2049_set_volume(struct aw_device *aw_dev, uint16_t value) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_set_volume(aw883xx, value); } static int aw_pid_2049_get_volume(struct aw_device *aw_dev, uint16_t *value) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; return aw883xx_get_volume(aw883xx, value); } static void aw_pid_2049_i2s_tx_enable(struct aw_device *aw_dev, bool flag) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; aw_dev_dbg(aw883xx->dev, "enter"); if (flag) { aw883xx_reg_write_bits(aw883xx, AW_PID_2049_I2SCFG1_REG, AW_PID_2049_I2STXEN_MASK, AW_PID_2049_I2STXEN_ENABLE_VALUE); } else { aw883xx_reg_write_bits(aw883xx, AW_PID_2049_I2SCFG1_REG, AW_PID_2049_I2STXEN_MASK, AW_PID_2049_I2STXEN_DISABLE_VALUE); } } static void aw_pid_2049_set_cfg_f0_fs(struct aw_device *aw_dev, uint32_t *f0_fs) { uint16_t rate_data = 0; uint32_t fs = 0; struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; aw_dev_dbg(aw883xx->dev, "enter"); aw883xx_reg_read(aw883xx, AW_PID_2049_I2SCTRL_REG, &rate_data); switch (rate_data & (~AW_PID_2049_I2SSR_MASK)) { case AW_PID_2049_I2SSR_8_KHZ_VALUE: fs = 8000; break; case AW_PID_2049_I2SSR_16_KHZ_VALUE: fs = 16000; break; case AW_PID_2049_I2SSR_32_KHZ_VALUE: fs = 32000; break; case AW_PID_2049_I2SSR_44_KHZ_VALUE: fs = 44000; break; case AW_PID_2049_I2SSR_48_KHZ_VALUE: fs = 48000; break; case AW_PID_2049_I2SSR_96_KHZ_VALUE: fs = 96000; break; case AW_PID_2049_I2SSR_192KHZ_VALUE: fs = 192000; break; default: fs = 48000; aw_dev_err(aw883xx->dev, "rate can not support, use default 48k"); break; } aw_dev_dbg(aw883xx->dev, "get i2s fs:%d", fs); *f0_fs = fs / 8; aw883xx_dsp_write(aw883xx, AW_PID_2049_DSP_REG_CFGF0_FS, *f0_fs, AW_DSP_32_DATA); } static bool aw_pid_2049_check_rd_access(int reg) { if (reg >= AW_PID_2049_REG_MAX) return false; if (aw_pid_2049_reg_access[reg] & REG_RD_ACCESS) return true; else return false; } static bool aw_pid_2049_check_wr_access(int reg) { if (reg >= AW_PID_2049_REG_MAX) return false; if (aw_pid_2049_reg_access[reg] & REG_WR_ACCESS) return true; else return false; } static int aw_pid_2049_get_reg_num(void) { return AW_PID_2049_REG_MAX; } static int aw_pid_2049_get_hw_mon_st(struct aw_device *aw_dev, bool *is_enable, uint8_t *temp_flag) { int ret = 0; uint32_t vbat_en = 0; uint32_t temp_en = 0; uint32_t temp_switch = 0; struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; ret = aw883xx_dsp_read(aw883xx, AW_PID_2049_DSP_REG_CFG_MBMEC_GLBCFG, &vbat_en, AW_DSP_16_DATA); if (ret < 0) { aw_dev_err(aw883xx->dev, "read hardware monitor status failed"); return ret; } ret = aw883xx_dsp_read(aw883xx, AW_PID_2049_DSP_REG_TEMP_SWITCH, &temp_en, AW_DSP_16_DATA); if (ret < 0) { aw_dev_err(aw883xx->dev, "read hardware temp switch failed"); return ret; } temp_switch = temp_en; vbat_en &= (~AW_PID_2049_DSP_MONITOR_MASK); temp_en &= (~AW_PID_2049_DSP_TEMP_PEAK_MASK); temp_switch &= (~AW_PID_2049_DSP_TEMP_SEL_FLAG); if (vbat_en || temp_en) *is_enable = true; else *is_enable = false; if (temp_switch) *temp_flag = AW_EXTERNAL_TEMP; else *temp_flag = AW_INTERNAL_TEMP; return 0; } static int aw_pid_2049_cali_get_iv_st(struct aw_device *aw_dev) { struct aw883xx *aw883xx = (struct aw883xx *)aw_dev->private_data; int ret; uint16_t reg_data = 0; int i; aw_dev_info(aw_dev->dev, "enter"); for (i = 0; i < AW_GET_IV_CNT_MAX; i++) { ret = aw883xx_reg_read(aw883xx, AW_PID_2049_ASR1_REG, ®_data); if (ret < 0) { aw_dev_err(aw883xx->dev, "read 0x%x failed", AW_PID_2049_ASR1_REG); return ret; } reg_data &= (~AW_PID_2049_ReAbs_MASK); if (!reg_data) return 0; msleep(30); } aw_dev_err(aw883xx->dev, "IV data abnormal, please check"); return -EINVAL; } static int aw_pid_2049_dsp_fw_check(struct aw_device *aw_dev) { struct aw_prof_desc *set_prof_desc = NULL; struct aw_sec_data_desc *dsp_fw_desc = NULL; uint16_t base_addr = AW_PID_2049_DSP_FW_ADDR; uint16_t addr = base_addr; int ret, i; uint32_t dsp_val; uint16_t bin_val; aw_dev_info(aw_dev->dev, "enter"); ret = aw_dev_get_prof_data(aw_dev, aw_dev->cur_prof, &set_prof_desc); if (ret < 0) return ret; /*update reg*/ dsp_fw_desc = &set_prof_desc->sec_desc[AW_DATA_TYPE_DSP_FW]; for (i = 0; i < AW_FW_CHECK_PART; i++) { ret = aw883xx_dev_dsp_read(aw_dev, addr, &dsp_val, AW_DSP_16_DATA); if (ret < 0) { aw_dev_err(aw_dev->dev, "dsp read failed"); return ret; } bin_val = AW_GET_16_DATA(dsp_fw_desc->data[2 * (addr - base_addr)], dsp_fw_desc->data[2 * (addr - base_addr) + 1]); if (dsp_val != bin_val) { aw_dev_err(aw_dev->dev, "check failed, addr[0x%x], read[0x%x] != bindata[0x%x]", addr, dsp_val, bin_val); return -EINVAL; } addr += (dsp_fw_desc->len / 2) / AW_FW_CHECK_PART; if ((addr - base_addr) > dsp_fw_desc->len) { aw_dev_err(aw_dev->dev, "check failed, addr[0x%x] too large", addr); return -EINVAL; } } aw_dev_info(aw_dev->dev, "dsp fw check success"); return 0; } static int aw883xx_dev_init(struct aw883xx *aw883xx) { struct aw_device *aw_pa = NULL; aw_pa = devm_kzalloc(aw883xx->dev, sizeof(struct aw_device), GFP_KERNEL); if (aw_pa == NULL) { aw_dev_err(aw883xx->dev, "dev kalloc failed"); return -ENOMEM; } /*call aw device init func*/ aw_pa->acf = NULL; aw_pa->prof_info.prof_desc = NULL; aw_pa->prof_info.count = 0; aw_pa->prof_info.prof_type = AW_DEV_NONE_TYPE_ID; aw_pa->channel = 0; aw_pa->i2c_lock = &aw883xx->i2c_lock; aw_pa->i2c = aw883xx->i2c; aw_pa->fw_status = AW_DEV_FW_FAILED; aw_pa->fade_step = AW_PID_2049_VOLUME_STEP_DB; aw_pa->re_range.re_min_default = AW_RE_MIN; aw_pa->re_range.re_max_default = AW_RE_MAX; aw_pa->monitor_desc.hw_monitor_delay = AW_HW_MONITOR_DELAY; aw_pa->chip_id = aw883xx->chip_id; aw_pa->private_data = (void *)aw883xx; aw_pa->dev = aw883xx->dev; aw_pa->ops.aw_get_version = aw883xx_get_version; aw_pa->ops.aw_i2c_writes = aw883xx_dev_i2c_writes; aw_pa->ops.aw_i2c_write = aw883xx_dev_i2c_write; aw_pa->ops.aw_reg_write = aw883xx_dev_reg_write; aw_pa->ops.aw_reg_write_bits = aw883xx_dev_reg_write_bits; aw_pa->ops.aw_i2c_read = aw883xx_dev_i2c_read; aw_pa->ops.aw_reg_read = aw883xx_dev_reg_read; aw_pa->ops.aw_dsp_read = aw883xx_dev_dsp_read; aw_pa->ops.aw_dsp_write = aw883xx_dev_dsp_write; aw_pa->ops.aw_get_dev_num = aw883xx_get_dev_num; aw_pa->ops.aw_get_volume = aw_pid_2049_get_volume; aw_pa->ops.aw_set_volume = aw_pid_2049_set_volume; aw_pa->ops.aw_reg_val_to_db = aw_pid_2049_reg_val_to_db; aw_pa->ops.aw_check_rd_access = aw_pid_2049_check_rd_access; aw_pa->ops.aw_check_wr_access = aw_pid_2049_check_wr_access; aw_pa->ops.aw_get_reg_num = aw_pid_2049_get_reg_num; aw_pa->ops.aw_i2s_tx_enable = aw_pid_2049_i2s_tx_enable; aw_pa->ops.aw_get_hw_mon_st = aw_pid_2049_get_hw_mon_st; aw_pa->ops.aw_cali_svc_get_iv_st = aw_pid_2049_cali_get_iv_st; aw_pa->ops.aw_set_cfg_f0_fs = aw_pid_2049_set_cfg_f0_fs; aw_pa->ops.aw_dsp_fw_check = aw_pid_2049_dsp_fw_check; aw_pa->int_desc.mask_reg = AW_PID_2049_SYSINTM_REG; aw_pa->int_desc.mask_default = AW_PID_2049_SYSINTM_DEFAULT; aw_pa->int_desc.int_mask = AW_PID_2049_SYSINTM_DEFAULT; aw_pa->int_desc.st_reg = AW_PID_2049_SYSINT_REG; aw_pa->int_desc.intst_mask = AW_PID_2049_BIT_SYSINT_CHECK; aw_pa->pwd_desc.reg = AW_PID_2049_SYSCTRL_REG; aw_pa->pwd_desc.mask = AW_PID_2049_PWDN_MASK; aw_pa->pwd_desc.enable = AW_PID_2049_PWDN_POWER_DOWN_VALUE; aw_pa->pwd_desc.disable = AW_PID_2049_PWDN_WORKING_VALUE; aw_pa->mute_desc.reg = AW_PID_2049_SYSCTRL_REG; aw_pa->mute_desc.mask = AW_PID_2049_HMUTE_MASK; aw_pa->mute_desc.enable = AW_PID_2049_HMUTE_ENABLE_VALUE; aw_pa->mute_desc.disable = AW_PID_2049_HMUTE_DISABLE_VALUE; aw_pa->vcalb_desc.vcalb_dsp_reg = AW_PID_2049_DSP_REG_VCALB; aw_pa->vcalb_desc.data_type = AW_DSP_16_DATA; aw_pa->vcalb_desc.vcal_factor = AW_PID_2049_VCAL_FACTOR; aw_pa->vcalb_desc.cabl_base_value = AW_PID_2049_CABL_BASE_VALUE; aw_pa->vcalb_desc.vscal_factor = AW_PID_2049_VSCAL_FACTOR; aw_pa->vcalb_desc.iscal_factor = AW_PID_2049_ISCAL_FACTOR; aw_pa->vcalb_desc.vcalb_adj_shift = AW_PID_2049_VCALB_ADJ_FACTOR; aw_pa->vcalb_desc.icalk_value_factor = AW_PID_2049_ICABLK_FACTOR; aw_pa->vcalb_desc.icalk_reg = AW_PID_2049_EFRM2_REG; aw_pa->vcalb_desc.icalk_reg_mask = AW_PID_2049_EF_ISN_GESLP_MASK; aw_pa->vcalb_desc.icalk_sign_mask = AW_PID_2049_EF_ISN_GESLP_SIGN_MASK; aw_pa->vcalb_desc.icalk_neg_mask = AW_PID_2049_EF_ISN_GESLP_SIGN_NEG; aw_pa->vcalb_desc.vcalk_reg = AW_PID_2049_EFRH_REG; aw_pa->vcalb_desc.vcalk_reg_mask = AW_PID_2049_EF_VSN_GESLP_MASK; aw_pa->vcalb_desc.vcalk_sign_mask = AW_PID_2049_EF_VSN_GESLP_SIGN_MASK; aw_pa->vcalb_desc.vcalk_neg_mask = AW_PID_2049_EF_VSN_GESLP_SIGN_NEG; aw_pa->vcalb_desc.vcalk_value_factor = AW_PID_2049_VCABLK_FACTOR; aw_pa->vcalb_desc.vcalk_shift = AW_PID_2049_EF_VSENSE_GAIN_SHIFT; aw_pa->vcalb_desc.vcalb_vsense_reg = AW_PID_2049_I2SCFG3_REG; aw_pa->vcalb_desc.vcalk_vdsel_mask = AW_PID_2049_VDSEL_MASK; aw_pa->vcalb_desc.vcalk_value_factor_vsense_in = AW_PID_2049_VCABLK_FACTOR_DAC; aw_pa->vcalb_desc.vscal_factor_vsense_in = AW_PID_2049_VSCAL_FACTOR_DAC; aw_pa->vcalb_desc.vcalk_dac_shift = AW_PID_2049_EF_DAC_GESLP_SHIFT; aw_pa->vcalb_desc.vcalk_dac_mask = AW_PID_2049_EF_DAC_GESLP_SIGN_MASK; aw_pa->vcalb_desc.vcalk_dac_neg_mask = AW_PID_2049_EF_DAC_GESLP_SIGN_NEG; aw_pa->sysst_desc.reg = AW_PID_2049_SYSST_REG; aw_pa->sysst_desc.st_check = AW_PID_2049_BIT_SYSST_CHECK; aw_pa->sysst_desc.st_mask = AW_PID_2049_BIT_SYSST_CHECK_MASK; aw_pa->sysst_desc.pll_check = AW_PID_2049_BIT_PLL_CHECK; aw_pa->sysst_desc.dsp_check = AW_PID_2049_DSPS_NORMAL_VALUE; aw_pa->sysst_desc.dsp_mask = AW_PID_2049_DSPS_MASK; aw_pa->profctrl_desc.reg = AW_PID_2049_SYSCTRL_REG; aw_pa->profctrl_desc.mask = AW_PID_2049_RCV_MODE_MASK; aw_pa->profctrl_desc.rcv_mode_val = AW_PID_2049_RCV_MODE_RECEIVER_VALUE; aw_pa->volume_desc.reg = AW_PID_2049_SYSCTRL2_REG; aw_pa->volume_desc.mask = AW_PID_2049_VOL_MASK; aw_pa->volume_desc.shift = AW_PID_2049_VOL_START_BIT; aw_pa->volume_desc.mute_volume = AW_PID_2049_MUTE_VOL; aw_pa->dsp_en_desc.reg = AW_PID_2049_SYSCTRL_REG; aw_pa->dsp_en_desc.mask = AW_PID_2049_DSPBY_MASK; aw_pa->dsp_en_desc.enable = AW_PID_2049_DSPBY_WORKING_VALUE; aw_pa->dsp_en_desc.disable = AW_PID_2049_DSPBY_BYPASS_VALUE; aw_pa->memclk_desc.reg = AW_PID_2049_DBGCTRL_REG; aw_pa->memclk_desc.mask = AW_PID_2049_MEM_CLKSEL_MASK; aw_pa->memclk_desc.mcu_hclk = AW_PID_2049_MEM_CLKSEL_DAP_HCLK_VALUE; aw_pa->memclk_desc.osc_clk = AW_PID_2049_MEM_CLKSEL_OSC_CLK_VALUE; aw_pa->watch_dog_desc.reg = AW_PID_2049_WDT_REG; aw_pa->watch_dog_desc.mask = AW_PID_2049_WDT_CNT_MASK; aw_pa->dsp_mem_desc.dsp_madd_reg = AW_PID_2049_DSPMADD_REG; aw_pa->dsp_mem_desc.dsp_mdat_reg = AW_PID_2049_DSPMDAT_REG; aw_pa->dsp_mem_desc.dsp_cfg_base_addr = AW_PID_2049_DSP_CFG_ADDR; aw_pa->dsp_mem_desc.dsp_fw_base_addr = AW_PID_2049_DSP_FW_ADDR; aw_pa->voltage_desc.reg = AW_PID_2049_VBAT_REG; aw_pa->voltage_desc.vbat_range = AW_PID_2049_VBAT_RANGE; aw_pa->voltage_desc.int_bit = AW_PID_2049_INT_10BIT; aw_pa->temp_desc.reg = AW_PID_2049_TEMP_REG; aw_pa->temp_desc.sign_mask = AW_PID_2049_TEMP_SIGN_MASK; aw_pa->temp_desc.neg_mask = AW_PID_2049_TEMP_NEG_MASK; aw_pa->vmax_desc.dsp_reg = AW_PID_2049_DSP_REG_VMAX; aw_pa->vmax_desc.data_type = AW_DSP_16_DATA; aw_pa->ipeak_desc.reg = AW_PID_2049_SYSCTRL2_REG; aw_pa->ipeak_desc.mask = AW_PID_2049_BST_IPEAK_MASK; aw_pa->soft_rst.reg = AW_PID_2049_ID_REG; aw_pa->soft_rst.reg_value = AW_PID_2049_SOFT_RESET_VALUE; aw_pa->dsp_vol_desc.reg = AW_PID_2049_DSPCFG_REG; aw_pa->dsp_vol_desc.mask = AW_PID_2049_DSP_VOL_MASK; aw_pa->dsp_vol_desc.mute_st = AW_PID_2049_DSP_VOL_MUTE; aw_pa->dsp_vol_desc.noise_st = AW_PID_2049_DSP_VOL_NOISE_ST; aw_pa->amppd_desc.reg = AW_PID_2049_SYSCTRL_REG; aw_pa->amppd_desc.mask = AW_PID_2049_AMPPD_MASK; aw_pa->amppd_desc.enable = AW_PID_2049_AMPPD_POWER_DOWN_VALUE; aw_pa->amppd_desc.disable = AW_PID_2049_AMPPD_WORKING_VALUE; aw_pa->spkr_temp_desc.reg = AW_PID_2049_ASR2_REG; /*32-bit data types need bypass dsp*/ aw_pa->ra_desc.dsp_reg = AW_PID_2049_DSP_REG_CFG_ADPZ_RA; aw_pa->ra_desc.data_type = AW_DSP_32_DATA; /*32-bit data types need bypass dsp*/ aw_pa->cali_cfg_desc.actampth_reg = AW_PID_2049_DSP_REG_CFG_MBMEC_ACTAMPTH; aw_pa->cali_cfg_desc.actampth_data_type = AW_DSP_32_DATA; /*32-bit data types need bypass dsp*/ aw_pa->cali_cfg_desc.noiseampth_reg = AW_PID_2049_DSP_REG_CFG_MBMEC_NOISEAMPTH; aw_pa->cali_cfg_desc.noiseampth_data_type = AW_DSP_32_DATA; aw_pa->cali_cfg_desc.ustepn_reg = AW_PID_2049_DSP_REG_CFG_ADPZ_USTEPN; aw_pa->cali_cfg_desc.ustepn_data_type = AW_DSP_16_DATA; aw_pa->cali_cfg_desc.alphan_reg = AW_PID_2049_DSP_REG_CFG_RE_ALPHA; aw_pa->cali_cfg_desc.alphan_data_type = AW_DSP_16_DATA; /*32-bit data types need bypass dsp*/ aw_pa->adpz_re_desc.dsp_reg = AW_PID_2049_DSP_REG_CFG_ADPZ_RE; aw_pa->adpz_re_desc.data_type = AW_DSP_32_DATA; aw_pa->adpz_re_desc.shift = AW_PID_2049_DSP_RE_SHIFT; aw_pa->t0_desc.dsp_reg = AW_PID_2049_DSP_CFG_ADPZ_T0; aw_pa->t0_desc.data_type = AW_DSP_16_DATA; aw_pa->t0_desc.coilalpha_reg = AW_PID_2049_DSP_CFG_ADPZ_COILALPHA; aw_pa->t0_desc.coil_type = AW_DSP_16_DATA; aw_pa->ste_re_desc.shift = AW_PID_2049_DSP_REG_CALRE_SHIFT; aw_pa->ste_re_desc.dsp_reg = AW_PID_2049_DSP_REG_CALRE; aw_pa->ste_re_desc.data_type = AW_DSP_16_DATA; aw_pa->noise_desc.dsp_reg = AW_PID_2049_DSP_REG_CFG_MBMEC_GLBCFG; aw_pa->noise_desc.data_type = AW_DSP_16_DATA; aw_pa->noise_desc.mask = AW_PID_2049_DSP_REG_NOISE_MASK; aw_pa->f0_desc.dsp_reg = AW_PID_2049_DSP_REG_RESULT_F0; aw_pa->f0_desc.shift = AW_PID_2049_DSP_F0_SHIFT; aw_pa->f0_desc.data_type = AW_DSP_16_DATA; /*32-bit data types need bypass dsp*/ aw_pa->cfgf0_fs_desc.dsp_reg = AW_PID_2049_DSP_REG_CFGF0_FS; aw_pa->cfgf0_fs_desc.data_type = AW_DSP_32_DATA; aw_pa->q_desc.dsp_reg = AW_PID_2049_DSP_REG_RESULT_Q; aw_pa->q_desc.shift = AW_PID_2049_DSP_Q_SHIFT; aw_pa->q_desc.data_type = AW_DSP_16_DATA; /*32-bit data types need bypass dsp*/ aw_pa->dsp_crc_desc.dsp_reg = AW_PID_2049_DSP_REG_CRC_ADDR; aw_pa->dsp_crc_desc.data_type = AW_DSP_32_DATA; aw_pa->dsp_crc_desc.ctl_reg = AW_PID_2049_HAGCCFG7_REG; aw_pa->dsp_crc_desc.ctl_mask = AW_PID_2049_AGC_DSP_CTL_MASK; aw_pa->dsp_crc_desc.ctl_enable = AW_PID_2049_AGC_DSP_CTL_ENABLE_VALUE; aw_pa->dsp_crc_desc.ctl_disable = AW_PID_2049_AGC_DSP_CTL_DISABLE_VALUE; aw_pa->cco_mux_desc.reg = AW_PID_2049_PLLCTRL1_REG; aw_pa->cco_mux_desc.mask = AW_PID_2049_CCO_MUX_MASK; aw_pa->cco_mux_desc.divider = AW_PID_2049_CCO_MUX_DIVIDED_VALUE; aw_pa->cco_mux_desc.bypass = AW_PID_2049_CCO_MUX_BYPASS_VALUE; /*hw monitor temp reg*/ aw_pa->hw_temp_desc.dsp_reg = AW_PID_2049_DSP_REG_TEMP_ADDR; aw_pa->hw_temp_desc.data_type = AW_DSP_16_DATA; aw_pa->chansel_desc.rxchan_reg = AW_PID_2049_I2SCTRL_REG; aw_pa->chansel_desc.rxchan_mask = AW_PID_2049_CHSEL_MASK; aw_pa->chansel_desc.txchan_reg = AW_PID_2049_I2SCFG1_REG; aw_pa->chansel_desc.txchan_mask = AW_PID_2049_I2SCHS_MASK; aw_pa->chansel_desc.rx_left = AW_PID_2049_CHSEL_LEFT_VALUE; aw_pa->chansel_desc.rx_right = AW_PID_2049_CHSEL_RIGHT_VALUE; aw_pa->chansel_desc.tx_left = AW_PID_2049_I2SCHS_LEFT_VALUE; aw_pa->chansel_desc.tx_right = AW_PID_2049_I2SCHS_RIGHT_VALUE; aw_pa->tx_en_desc.tx_en_mask = AW_PID_2049_I2STXEN_MASK; aw_pa->tx_en_desc.tx_disable = AW_PID_2049_I2STXEN_DISABLE_VALUE; aw_pa->cali_delay_desc.dsp_reg = AW_PID_2049_DSP_CALI_F0_DELAY; aw_pa->cali_delay_desc.data_type = AW_DSP_16_DATA; aw_pa->dsp_st_desc.dsp_reg_s1 = AW_PID_2049_DSP_ST_S1; aw_pa->dsp_st_desc.dsp_reg_e1 = AW_PID_2049_DSP_ST_E1; aw_pa->dsp_st_desc.dsp_reg_s2 = AW_PID_2049_DSP_ST_S2; aw_pa->dsp_st_desc.dsp_reg_e2 = AW_PID_2049_DSP_ST_E2; aw_device_probe(aw_pa); aw883xx->aw_pa = aw_pa; return 0; } int aw883xx_init(struct aw883xx *aw883xx) { if (aw883xx->chip_id == AW883XX_PID_2049) { return aw883xx_dev_init(aw883xx); } else { aw_dev_err(aw883xx->dev, "unsupported device"); return -EINVAL; } }