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// SPDX-License-Identifier: GPL-2.0
//
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// cs35l41-lib.c -- CS35L41 Common functions for HDA and ASoC Audio drivers
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//
// Copyright 2017-2021 Cirrus Logic, Inc.
//
// Author: David Rhodes <david.rhodes@cirrus.com>
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// Author: Lucas Tanure <lucas.tanure@cirrus.com>
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# include <linux/dev_printk.h>
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# include <linux/module.h>
# include <linux/regmap.h>
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# include <linux/regulator/consumer.h>
# include <linux/slab.h>
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# include <linux/firmware/cirrus/wmfw.h>
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# include <sound/cs35l41.h>
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# define CS35L41_FIRMWARE_OLD_VERSION 0x001C00 /* v0.28.0 */
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static const struct reg_default cs35l41_reg [ ] = {
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{ CS35L41_PWR_CTRL1 , 0x00000000 } ,
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{ CS35L41_PWR_CTRL2 , 0x00000000 } ,
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{ CS35L41_PWR_CTRL3 , 0x01000010 } ,
{ CS35L41_GPIO_PAD_CONTROL , 0x00000000 } ,
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{ CS35L41_GLOBAL_CLK_CTRL , 0x00000003 } ,
{ CS35L41_TST_FS_MON0 , 0x00020016 } ,
{ CS35L41_BSTCVRT_COEFF , 0x00002424 } ,
{ CS35L41_BSTCVRT_SLOPE_LBST , 0x00007500 } ,
{ CS35L41_BSTCVRT_PEAK_CUR , 0x0000004A } ,
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{ CS35L41_SP_ENABLES , 0x00000000 } ,
{ CS35L41_SP_RATE_CTRL , 0x00000028 } ,
{ CS35L41_SP_FORMAT , 0x18180200 } ,
{ CS35L41_SP_HIZ_CTRL , 0x00000002 } ,
{ CS35L41_SP_FRAME_TX_SLOT , 0x03020100 } ,
{ CS35L41_SP_FRAME_RX_SLOT , 0x00000100 } ,
{ CS35L41_SP_TX_WL , 0x00000018 } ,
{ CS35L41_SP_RX_WL , 0x00000018 } ,
{ CS35L41_DAC_PCM1_SRC , 0x00000008 } ,
{ CS35L41_ASP_TX1_SRC , 0x00000018 } ,
{ CS35L41_ASP_TX2_SRC , 0x00000019 } ,
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{ CS35L41_ASP_TX3_SRC , 0x00000000 } ,
{ CS35L41_ASP_TX4_SRC , 0x00000000 } ,
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{ CS35L41_DSP1_RX1_SRC , 0x00000008 } ,
{ CS35L41_DSP1_RX2_SRC , 0x00000009 } ,
{ CS35L41_DSP1_RX3_SRC , 0x00000018 } ,
{ CS35L41_DSP1_RX4_SRC , 0x00000019 } ,
{ CS35L41_DSP1_RX5_SRC , 0x00000020 } ,
{ CS35L41_DSP1_RX6_SRC , 0x00000021 } ,
{ CS35L41_DSP1_RX7_SRC , 0x0000003A } ,
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{ CS35L41_DSP1_RX8_SRC , 0x0000003B } ,
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{ CS35L41_NGATE1_SRC , 0x00000008 } ,
{ CS35L41_NGATE2_SRC , 0x00000009 } ,
{ CS35L41_AMP_DIG_VOL_CTRL , 0x00008000 } ,
{ CS35L41_CLASSH_CFG , 0x000B0405 } ,
{ CS35L41_WKFET_CFG , 0x00000111 } ,
{ CS35L41_NG_CFG , 0x00000033 } ,
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{ CS35L41_AMP_GAIN_CTRL , 0x00000000 } ,
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{ CS35L41_IRQ1_MASK1 , 0xFFFFFFFF } ,
{ CS35L41_IRQ1_MASK2 , 0xFFFFFFFF } ,
{ CS35L41_IRQ1_MASK3 , 0xFFFF87FF } ,
{ CS35L41_IRQ1_MASK4 , 0xFEFFFFFF } ,
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{ CS35L41_GPIO1_CTRL1 , 0x81000001 } ,
{ CS35L41_GPIO2_CTRL1 , 0x81000001 } ,
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{ CS35L41_MIXER_NGATE_CFG , 0x00000000 } ,
{ CS35L41_MIXER_NGATE_CH1_CFG , 0x00000303 } ,
{ CS35L41_MIXER_NGATE_CH2_CFG , 0x00000303 } ,
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{ CS35L41_DSP1_CCM_CORE_CTRL , 0x00000101 } ,
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} ;
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static bool cs35l41_readable_reg ( struct device * dev , unsigned int reg )
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{
switch ( reg ) {
case CS35L41_DEVID :
case CS35L41_REVID :
case CS35L41_FABID :
case CS35L41_RELID :
case CS35L41_OTPID :
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case CS35L41_SFT_RESET :
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case CS35L41_TEST_KEY_CTL :
case CS35L41_USER_KEY_CTL :
case CS35L41_OTP_CTRL0 :
case CS35L41_OTP_CTRL3 :
case CS35L41_OTP_CTRL4 :
case CS35L41_OTP_CTRL5 :
case CS35L41_OTP_CTRL6 :
case CS35L41_OTP_CTRL7 :
case CS35L41_OTP_CTRL8 :
case CS35L41_PWR_CTRL1 :
case CS35L41_PWR_CTRL2 :
case CS35L41_PWR_CTRL3 :
case CS35L41_CTRL_OVRRIDE :
case CS35L41_AMP_OUT_MUTE :
case CS35L41_PROTECT_REL_ERR_IGN :
case CS35L41_GPIO_PAD_CONTROL :
case CS35L41_JTAG_CONTROL :
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case CS35L41_PWRMGT_CTL :
case CS35L41_WAKESRC_CTL :
case CS35L41_PWRMGT_STS :
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case CS35L41_PLL_CLK_CTRL :
case CS35L41_DSP_CLK_CTRL :
case CS35L41_GLOBAL_CLK_CTRL :
case CS35L41_DATA_FS_SEL :
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case CS35L41_TST_FS_MON0 :
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case CS35L41_MDSYNC_EN :
case CS35L41_MDSYNC_TX_ID :
case CS35L41_MDSYNC_PWR_CTRL :
case CS35L41_MDSYNC_DATA_TX :
case CS35L41_MDSYNC_TX_STATUS :
case CS35L41_MDSYNC_DATA_RX :
case CS35L41_MDSYNC_RX_STATUS :
case CS35L41_MDSYNC_ERR_STATUS :
case CS35L41_MDSYNC_SYNC_PTE2 :
case CS35L41_MDSYNC_SYNC_PTE3 :
case CS35L41_MDSYNC_SYNC_MSM_STATUS :
case CS35L41_BSTCVRT_VCTRL1 :
case CS35L41_BSTCVRT_VCTRL2 :
case CS35L41_BSTCVRT_PEAK_CUR :
case CS35L41_BSTCVRT_SFT_RAMP :
case CS35L41_BSTCVRT_COEFF :
case CS35L41_BSTCVRT_SLOPE_LBST :
case CS35L41_BSTCVRT_SW_FREQ :
case CS35L41_BSTCVRT_DCM_CTRL :
case CS35L41_BSTCVRT_DCM_MODE_FORCE :
case CS35L41_BSTCVRT_OVERVOLT_CTRL :
case CS35L41_VI_VOL_POL :
case CS35L41_DTEMP_WARN_THLD :
case CS35L41_DTEMP_CFG :
case CS35L41_DTEMP_EN :
case CS35L41_VPVBST_FS_SEL :
case CS35L41_SP_ENABLES :
case CS35L41_SP_RATE_CTRL :
case CS35L41_SP_FORMAT :
case CS35L41_SP_HIZ_CTRL :
case CS35L41_SP_FRAME_TX_SLOT :
case CS35L41_SP_FRAME_RX_SLOT :
case CS35L41_SP_TX_WL :
case CS35L41_SP_RX_WL :
case CS35L41_DAC_PCM1_SRC :
case CS35L41_ASP_TX1_SRC :
case CS35L41_ASP_TX2_SRC :
case CS35L41_ASP_TX3_SRC :
case CS35L41_ASP_TX4_SRC :
case CS35L41_DSP1_RX1_SRC :
case CS35L41_DSP1_RX2_SRC :
case CS35L41_DSP1_RX3_SRC :
case CS35L41_DSP1_RX4_SRC :
case CS35L41_DSP1_RX5_SRC :
case CS35L41_DSP1_RX6_SRC :
case CS35L41_DSP1_RX7_SRC :
case CS35L41_DSP1_RX8_SRC :
case CS35L41_NGATE1_SRC :
case CS35L41_NGATE2_SRC :
case CS35L41_AMP_DIG_VOL_CTRL :
case CS35L41_VPBR_CFG :
case CS35L41_VBBR_CFG :
case CS35L41_VPBR_STATUS :
case CS35L41_VBBR_STATUS :
case CS35L41_OVERTEMP_CFG :
case CS35L41_AMP_ERR_VOL :
case CS35L41_VOL_STATUS_TO_DSP :
case CS35L41_CLASSH_CFG :
case CS35L41_WKFET_CFG :
case CS35L41_NG_CFG :
case CS35L41_AMP_GAIN_CTRL :
case CS35L41_DAC_MSM_CFG :
case CS35L41_IRQ1_CFG :
case CS35L41_IRQ1_STATUS :
case CS35L41_IRQ1_STATUS1 :
case CS35L41_IRQ1_STATUS2 :
case CS35L41_IRQ1_STATUS3 :
case CS35L41_IRQ1_STATUS4 :
case CS35L41_IRQ1_RAW_STATUS1 :
case CS35L41_IRQ1_RAW_STATUS2 :
case CS35L41_IRQ1_RAW_STATUS3 :
case CS35L41_IRQ1_RAW_STATUS4 :
case CS35L41_IRQ1_MASK1 :
case CS35L41_IRQ1_MASK2 :
case CS35L41_IRQ1_MASK3 :
case CS35L41_IRQ1_MASK4 :
case CS35L41_IRQ1_FRC1 :
case CS35L41_IRQ1_FRC2 :
case CS35L41_IRQ1_FRC3 :
case CS35L41_IRQ1_FRC4 :
case CS35L41_IRQ1_EDGE1 :
case CS35L41_IRQ1_EDGE4 :
case CS35L41_IRQ1_POL1 :
case CS35L41_IRQ1_POL2 :
case CS35L41_IRQ1_POL3 :
case CS35L41_IRQ1_POL4 :
case CS35L41_IRQ1_DB3 :
case CS35L41_IRQ2_CFG :
case CS35L41_IRQ2_STATUS :
case CS35L41_IRQ2_STATUS1 :
case CS35L41_IRQ2_STATUS2 :
case CS35L41_IRQ2_STATUS3 :
case CS35L41_IRQ2_STATUS4 :
case CS35L41_IRQ2_RAW_STATUS1 :
case CS35L41_IRQ2_RAW_STATUS2 :
case CS35L41_IRQ2_RAW_STATUS3 :
case CS35L41_IRQ2_RAW_STATUS4 :
case CS35L41_IRQ2_MASK1 :
case CS35L41_IRQ2_MASK2 :
case CS35L41_IRQ2_MASK3 :
case CS35L41_IRQ2_MASK4 :
case CS35L41_IRQ2_FRC1 :
case CS35L41_IRQ2_FRC2 :
case CS35L41_IRQ2_FRC3 :
case CS35L41_IRQ2_FRC4 :
case CS35L41_IRQ2_EDGE1 :
case CS35L41_IRQ2_EDGE4 :
case CS35L41_IRQ2_POL1 :
case CS35L41_IRQ2_POL2 :
case CS35L41_IRQ2_POL3 :
case CS35L41_IRQ2_POL4 :
case CS35L41_IRQ2_DB3 :
case CS35L41_GPIO_STATUS1 :
case CS35L41_GPIO1_CTRL1 :
case CS35L41_GPIO2_CTRL1 :
case CS35L41_MIXER_NGATE_CFG :
case CS35L41_MIXER_NGATE_CH1_CFG :
case CS35L41_MIXER_NGATE_CH2_CFG :
case CS35L41_DSP_MBOX_1 . . . CS35L41_DSP_VIRT2_MBOX_8 :
case CS35L41_CLOCK_DETECT_1 :
case CS35L41_DIE_STS1 :
case CS35L41_DIE_STS2 :
case CS35L41_TEMP_CAL1 :
case CS35L41_TEMP_CAL2 :
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case CS35L41_DSP1_TIMESTAMP_COUNT :
case CS35L41_DSP1_SYS_ID :
case CS35L41_DSP1_SYS_VERSION :
case CS35L41_DSP1_SYS_CORE_ID :
case CS35L41_DSP1_SYS_AHB_ADDR :
case CS35L41_DSP1_SYS_XSRAM_SIZE :
case CS35L41_DSP1_SYS_YSRAM_SIZE :
case CS35L41_DSP1_SYS_PSRAM_SIZE :
case CS35L41_DSP1_SYS_PM_BOOT_SIZE :
case CS35L41_DSP1_SYS_FEATURES :
case CS35L41_DSP1_SYS_FIR_FILTERS :
case CS35L41_DSP1_SYS_LMS_FILTERS :
case CS35L41_DSP1_SYS_XM_BANK_SIZE :
case CS35L41_DSP1_SYS_YM_BANK_SIZE :
case CS35L41_DSP1_SYS_PM_BANK_SIZE :
case CS35L41_DSP1_RX1_RATE :
case CS35L41_DSP1_RX2_RATE :
case CS35L41_DSP1_RX3_RATE :
case CS35L41_DSP1_RX4_RATE :
case CS35L41_DSP1_RX5_RATE :
case CS35L41_DSP1_RX6_RATE :
case CS35L41_DSP1_RX7_RATE :
case CS35L41_DSP1_RX8_RATE :
case CS35L41_DSP1_TX1_RATE :
case CS35L41_DSP1_TX2_RATE :
case CS35L41_DSP1_TX3_RATE :
case CS35L41_DSP1_TX4_RATE :
case CS35L41_DSP1_TX5_RATE :
case CS35L41_DSP1_TX6_RATE :
case CS35L41_DSP1_TX7_RATE :
case CS35L41_DSP1_TX8_RATE :
case CS35L41_DSP1_SCRATCH1 :
case CS35L41_DSP1_SCRATCH2 :
case CS35L41_DSP1_SCRATCH3 :
case CS35L41_DSP1_SCRATCH4 :
case CS35L41_DSP1_CCM_CORE_CTRL :
case CS35L41_DSP1_CCM_CLK_OVERRIDE :
case CS35L41_DSP1_XM_MSTR_EN :
case CS35L41_DSP1_XM_CORE_PRI :
case CS35L41_DSP1_XM_AHB_PACK_PL_PRI :
case CS35L41_DSP1_XM_AHB_UP_PL_PRI :
case CS35L41_DSP1_XM_ACCEL_PL0_PRI :
case CS35L41_DSP1_XM_NPL0_PRI :
case CS35L41_DSP1_YM_MSTR_EN :
case CS35L41_DSP1_YM_CORE_PRI :
case CS35L41_DSP1_YM_AHB_PACK_PL_PRI :
case CS35L41_DSP1_YM_AHB_UP_PL_PRI :
case CS35L41_DSP1_YM_ACCEL_PL0_PRI :
case CS35L41_DSP1_YM_NPL0_PRI :
case CS35L41_DSP1_MPU_XM_ACCESS0 :
case CS35L41_DSP1_MPU_YM_ACCESS0 :
case CS35L41_DSP1_MPU_WNDW_ACCESS0 :
case CS35L41_DSP1_MPU_XREG_ACCESS0 :
case CS35L41_DSP1_MPU_YREG_ACCESS0 :
case CS35L41_DSP1_MPU_XM_ACCESS1 :
case CS35L41_DSP1_MPU_YM_ACCESS1 :
case CS35L41_DSP1_MPU_WNDW_ACCESS1 :
case CS35L41_DSP1_MPU_XREG_ACCESS1 :
case CS35L41_DSP1_MPU_YREG_ACCESS1 :
case CS35L41_DSP1_MPU_XM_ACCESS2 :
case CS35L41_DSP1_MPU_YM_ACCESS2 :
case CS35L41_DSP1_MPU_WNDW_ACCESS2 :
case CS35L41_DSP1_MPU_XREG_ACCESS2 :
case CS35L41_DSP1_MPU_YREG_ACCESS2 :
case CS35L41_DSP1_MPU_XM_ACCESS3 :
case CS35L41_DSP1_MPU_YM_ACCESS3 :
case CS35L41_DSP1_MPU_WNDW_ACCESS3 :
case CS35L41_DSP1_MPU_XREG_ACCESS3 :
case CS35L41_DSP1_MPU_YREG_ACCESS3 :
case CS35L41_DSP1_MPU_XM_VIO_ADDR :
case CS35L41_DSP1_MPU_XM_VIO_STATUS :
case CS35L41_DSP1_MPU_YM_VIO_ADDR :
case CS35L41_DSP1_MPU_YM_VIO_STATUS :
case CS35L41_DSP1_MPU_PM_VIO_ADDR :
case CS35L41_DSP1_MPU_PM_VIO_STATUS :
case CS35L41_DSP1_MPU_LOCK_CONFIG :
case CS35L41_DSP1_MPU_WDT_RST_CTRL :
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case CS35L41_OTP_TRIM_1 :
case CS35L41_OTP_TRIM_2 :
case CS35L41_OTP_TRIM_3 :
case CS35L41_OTP_TRIM_4 :
case CS35L41_OTP_TRIM_5 :
case CS35L41_OTP_TRIM_6 :
case CS35L41_OTP_TRIM_7 :
case CS35L41_OTP_TRIM_8 :
case CS35L41_OTP_TRIM_9 :
case CS35L41_OTP_TRIM_10 :
case CS35L41_OTP_TRIM_11 :
case CS35L41_OTP_TRIM_12 :
case CS35L41_OTP_TRIM_13 :
case CS35L41_OTP_TRIM_14 :
case CS35L41_OTP_TRIM_15 :
case CS35L41_OTP_TRIM_16 :
case CS35L41_OTP_TRIM_17 :
case CS35L41_OTP_TRIM_18 :
case CS35L41_OTP_TRIM_19 :
case CS35L41_OTP_TRIM_20 :
case CS35L41_OTP_TRIM_21 :
case CS35L41_OTP_TRIM_22 :
case CS35L41_OTP_TRIM_23 :
case CS35L41_OTP_TRIM_24 :
case CS35L41_OTP_TRIM_25 :
case CS35L41_OTP_TRIM_26 :
case CS35L41_OTP_TRIM_27 :
case CS35L41_OTP_TRIM_28 :
case CS35L41_OTP_TRIM_29 :
case CS35L41_OTP_TRIM_30 :
case CS35L41_OTP_TRIM_31 :
case CS35L41_OTP_TRIM_32 :
case CS35L41_OTP_TRIM_33 :
case CS35L41_OTP_TRIM_34 :
case CS35L41_OTP_TRIM_35 :
case CS35L41_OTP_TRIM_36 :
case CS35L41_OTP_MEM0 . . . CS35L41_OTP_MEM31 :
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case CS35L41_DSP1_XMEM_PACK_0 . . . CS35L41_DSP1_XMEM_PACK_3068 :
case CS35L41_DSP1_XMEM_UNPACK32_0 . . . CS35L41_DSP1_XMEM_UNPACK32_2046 :
case CS35L41_DSP1_XMEM_UNPACK24_0 . . . CS35L41_DSP1_XMEM_UNPACK24_4093 :
case CS35L41_DSP1_YMEM_PACK_0 . . . CS35L41_DSP1_YMEM_PACK_1532 :
case CS35L41_DSP1_YMEM_UNPACK32_0 . . . CS35L41_DSP1_YMEM_UNPACK32_1022 :
case CS35L41_DSP1_YMEM_UNPACK24_0 . . . CS35L41_DSP1_YMEM_UNPACK24_2045 :
case CS35L41_DSP1_PMEM_0 . . . CS35L41_DSP1_PMEM_5114 :
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/*test regs*/
case CS35L41_PLL_OVR :
case CS35L41_BST_TEST_DUTY :
case CS35L41_DIGPWM_IOCTRL :
return true ;
default :
return false ;
}
}
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static bool cs35l41_precious_reg ( struct device * dev , unsigned int reg )
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{
switch ( reg ) {
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case CS35L41_TEST_KEY_CTL :
case CS35L41_USER_KEY_CTL :
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case CS35L41_OTP_MEM0 . . . CS35L41_OTP_MEM31 :
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case CS35L41_TST_FS_MON0 :
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case CS35L41_DSP1_XMEM_PACK_0 . . . CS35L41_DSP1_XMEM_PACK_3068 :
case CS35L41_DSP1_YMEM_PACK_0 . . . CS35L41_DSP1_YMEM_PACK_1532 :
case CS35L41_DSP1_PMEM_0 . . . CS35L41_DSP1_PMEM_5114 :
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return true ;
default :
return false ;
}
}
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static bool cs35l41_volatile_reg ( struct device * dev , unsigned int reg )
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{
switch ( reg ) {
case CS35L41_DEVID :
case CS35L41_SFT_RESET :
case CS35L41_FABID :
case CS35L41_REVID :
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case CS35L41_OTPID :
case CS35L41_TEST_KEY_CTL :
case CS35L41_USER_KEY_CTL :
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case CS35L41_PWRMGT_CTL :
case CS35L41_WAKESRC_CTL :
case CS35L41_PWRMGT_STS :
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case CS35L41_DTEMP_EN :
case CS35L41_IRQ1_STATUS :
case CS35L41_IRQ1_STATUS1 :
case CS35L41_IRQ1_STATUS2 :
case CS35L41_IRQ1_STATUS3 :
case CS35L41_IRQ1_STATUS4 :
case CS35L41_IRQ1_RAW_STATUS1 :
case CS35L41_IRQ1_RAW_STATUS2 :
case CS35L41_IRQ1_RAW_STATUS3 :
case CS35L41_IRQ1_RAW_STATUS4 :
case CS35L41_IRQ2_STATUS :
case CS35L41_IRQ2_STATUS1 :
case CS35L41_IRQ2_STATUS2 :
case CS35L41_IRQ2_STATUS3 :
case CS35L41_IRQ2_STATUS4 :
case CS35L41_IRQ2_RAW_STATUS1 :
case CS35L41_IRQ2_RAW_STATUS2 :
case CS35L41_IRQ2_RAW_STATUS3 :
case CS35L41_IRQ2_RAW_STATUS4 :
case CS35L41_GPIO_STATUS1 :
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case CS35L41_DSP_MBOX_1 . . . CS35L41_DSP_VIRT2_MBOX_8 :
case CS35L41_DSP1_XMEM_PACK_0 . . . CS35L41_DSP1_XMEM_PACK_3068 :
case CS35L41_DSP1_XMEM_UNPACK32_0 . . . CS35L41_DSP1_XMEM_UNPACK32_2046 :
case CS35L41_DSP1_XMEM_UNPACK24_0 . . . CS35L41_DSP1_XMEM_UNPACK24_4093 :
case CS35L41_DSP1_YMEM_PACK_0 . . . CS35L41_DSP1_YMEM_PACK_1532 :
case CS35L41_DSP1_YMEM_UNPACK32_0 . . . CS35L41_DSP1_YMEM_UNPACK32_1022 :
case CS35L41_DSP1_YMEM_UNPACK24_0 . . . CS35L41_DSP1_YMEM_UNPACK24_2045 :
case CS35L41_DSP1_PMEM_0 . . . CS35L41_DSP1_PMEM_5114 :
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case CS35L41_DSP1_SCRATCH1 :
case CS35L41_DSP1_SCRATCH2 :
case CS35L41_DSP1_SCRATCH3 :
case CS35L41_DSP1_SCRATCH4 :
case CS35L41_DSP1_CCM_CLK_OVERRIDE . . . CS35L41_DSP1_WDT_STATUS :
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case CS35L41_OTP_MEM0 . . . CS35L41_OTP_MEM31 :
return true ;
default :
return false ;
}
}
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static const struct cs35l41_otp_packed_element_t otp_map_1 [ ] = {
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/* addr shift size */
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{ 0x00002030 , 0 , 4 } , /*TRIM_OSC_FREQ_TRIM*/
{ 0x00002030 , 7 , 1 } , /*TRIM_OSC_TRIM_DONE*/
{ 0x0000208c , 24 , 6 } , /*TST_DIGREG_VREF_TRIM*/
{ 0x00002090 , 14 , 4 } , /*TST_REF_TRIM*/
{ 0x00002090 , 10 , 4 } , /*TST_REF_TEMPCO_TRIM*/
{ 0x0000300C , 11 , 4 } , /*PLL_LDOA_TST_VREF_TRIM*/
{ 0x0000394C , 23 , 2 } , /*BST_ATEST_CM_VOFF*/
{ 0x00003950 , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET*/
{ 0x00003950 , 8 , 7 } , /*BST_ATRIM_IADC_GAIN1*/
{ 0x00003950 , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET1*/
{ 0x00003950 , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN1*/
{ 0x00003954 , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET2*/
{ 0x00003954 , 8 , 7 } , /*BST_ATRIM_IADC_GAIN2*/
{ 0x00003954 , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET2*/
{ 0x00003954 , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN2*/
{ 0x00003958 , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET3*/
{ 0x00003958 , 8 , 7 } , /*BST_ATRIM_IADC_GAIN3*/
{ 0x00003958 , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET3*/
{ 0x00003958 , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN3*/
{ 0x0000395C , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET4*/
{ 0x0000395C , 8 , 7 } , /*BST_ATRIM_IADC_GAIN4*/
{ 0x0000395C , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET4*/
{ 0x0000395C , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN4*/
{ 0x0000416C , 0 , 8 } , /*VMON_GAIN_OTP_VAL*/
{ 0x00004160 , 0 , 7 } , /*VMON_OFFSET_OTP_VAL*/
{ 0x0000416C , 8 , 8 } , /*IMON_GAIN_OTP_VAL*/
{ 0x00004160 , 16 , 10 } , /*IMON_OFFSET_OTP_VAL*/
{ 0x0000416C , 16 , 12 } , /*VMON_CM_GAIN_OTP_VAL*/
{ 0x0000416C , 28 , 1 } , /*VMON_CM_GAIN_SIGN_OTP_VAL*/
{ 0x00004170 , 0 , 6 } , /*IMON_CAL_TEMPCO_OTP_VAL*/
{ 0x00004170 , 6 , 1 } , /*IMON_CAL_TEMPCO_SIGN_OTP*/
{ 0x00004170 , 8 , 6 } , /*IMON_CAL_TEMPCO2_OTP_VAL*/
{ 0x00004170 , 14 , 1 } , /*IMON_CAL_TEMPCO2_DN_UPB_OTP_VAL*/
{ 0x00004170 , 16 , 9 } , /*IMON_CAL_TEMPCO_TBASE_OTP_VAL*/
{ 0x00004360 , 0 , 5 } , /*TEMP_GAIN_OTP_VAL*/
{ 0x00004360 , 6 , 9 } , /*TEMP_OFFSET_OTP_VAL*/
{ 0x00004448 , 0 , 8 } , /*VP_SARADC_OFFSET*/
{ 0x00004448 , 8 , 8 } , /*VP_GAIN_INDEX*/
{ 0x00004448 , 16 , 8 } , /*VBST_SARADC_OFFSET*/
{ 0x00004448 , 24 , 8 } , /*VBST_GAIN_INDEX*/
{ 0x0000444C , 0 , 3 } , /*ANA_SELINVREF*/
{ 0x00006E30 , 0 , 5 } , /*GAIN_ERR_COEFF_0*/
{ 0x00006E30 , 8 , 5 } , /*GAIN_ERR_COEFF_1*/
{ 0x00006E30 , 16 , 5 } , /*GAIN_ERR_COEFF_2*/
{ 0x00006E30 , 24 , 5 } , /*GAIN_ERR_COEFF_3*/
{ 0x00006E34 , 0 , 5 } , /*GAIN_ERR_COEFF_4*/
{ 0x00006E34 , 8 , 5 } , /*GAIN_ERR_COEFF_5*/
{ 0x00006E34 , 16 , 5 } , /*GAIN_ERR_COEFF_6*/
{ 0x00006E34 , 24 , 5 } , /*GAIN_ERR_COEFF_7*/
{ 0x00006E38 , 0 , 5 } , /*GAIN_ERR_COEFF_8*/
{ 0x00006E38 , 8 , 5 } , /*GAIN_ERR_COEFF_9*/
{ 0x00006E38 , 16 , 5 } , /*GAIN_ERR_COEFF_10*/
{ 0x00006E38 , 24 , 5 } , /*GAIN_ERR_COEFF_11*/
{ 0x00006E3C , 0 , 5 } , /*GAIN_ERR_COEFF_12*/
{ 0x00006E3C , 8 , 5 } , /*GAIN_ERR_COEFF_13*/
{ 0x00006E3C , 16 , 5 } , /*GAIN_ERR_COEFF_14*/
{ 0x00006E3C , 24 , 5 } , /*GAIN_ERR_COEFF_15*/
{ 0x00006E40 , 0 , 5 } , /*GAIN_ERR_COEFF_16*/
{ 0x00006E40 , 8 , 5 } , /*GAIN_ERR_COEFF_17*/
{ 0x00006E40 , 16 , 5 } , /*GAIN_ERR_COEFF_18*/
{ 0x00006E40 , 24 , 5 } , /*GAIN_ERR_COEFF_19*/
{ 0x00006E44 , 0 , 5 } , /*GAIN_ERR_COEFF_20*/
{ 0x00006E48 , 0 , 10 } , /*VOFF_GAIN_0*/
{ 0x00006E48 , 10 , 10 } , /*VOFF_GAIN_1*/
{ 0x00006E48 , 20 , 10 } , /*VOFF_GAIN_2*/
{ 0x00006E4C , 0 , 10 } , /*VOFF_GAIN_3*/
{ 0x00006E4C , 10 , 10 } , /*VOFF_GAIN_4*/
{ 0x00006E4C , 20 , 10 } , /*VOFF_GAIN_5*/
{ 0x00006E50 , 0 , 10 } , /*VOFF_GAIN_6*/
{ 0x00006E50 , 10 , 10 } , /*VOFF_GAIN_7*/
{ 0x00006E50 , 20 , 10 } , /*VOFF_GAIN_8*/
{ 0x00006E54 , 0 , 10 } , /*VOFF_GAIN_9*/
{ 0x00006E54 , 10 , 10 } , /*VOFF_GAIN_10*/
{ 0x00006E54 , 20 , 10 } , /*VOFF_GAIN_11*/
{ 0x00006E58 , 0 , 10 } , /*VOFF_GAIN_12*/
{ 0x00006E58 , 10 , 10 } , /*VOFF_GAIN_13*/
{ 0x00006E58 , 20 , 10 } , /*VOFF_GAIN_14*/
{ 0x00006E5C , 0 , 10 } , /*VOFF_GAIN_15*/
{ 0x00006E5C , 10 , 10 } , /*VOFF_GAIN_16*/
{ 0x00006E5C , 20 , 10 } , /*VOFF_GAIN_17*/
{ 0x00006E60 , 0 , 10 } , /*VOFF_GAIN_18*/
{ 0x00006E60 , 10 , 10 } , /*VOFF_GAIN_19*/
{ 0x00006E60 , 20 , 10 } , /*VOFF_GAIN_20*/
{ 0x00006E64 , 0 , 10 } , /*VOFF_INT1*/
{ 0x00007418 , 7 , 5 } , /*DS_SPK_INT1_CAP_TRIM*/
{ 0x0000741C , 0 , 5 } , /*DS_SPK_INT2_CAP_TRIM*/
{ 0x0000741C , 11 , 4 } , /*DS_SPK_LPF_CAP_TRIM*/
{ 0x0000741C , 19 , 4 } , /*DS_SPK_QUAN_CAP_TRIM*/
{ 0x00007434 , 17 , 1 } , /*FORCE_CAL*/
{ 0x00007434 , 18 , 7 } , /*CAL_OVERRIDE*/
{ 0x00007068 , 0 , 9 } , /*MODIX*/
{ 0x0000410C , 7 , 1 } , /*VIMON_DLY_NOT_COMB*/
{ 0x0000400C , 0 , 7 } , /*VIMON_DLY*/
{ 0x00000000 , 0 , 1 } , /*extra bit*/
{ 0x00017040 , 0 , 8 } , /*X_COORDINATE*/
{ 0x00017040 , 8 , 8 } , /*Y_COORDINATE*/
{ 0x00017040 , 16 , 8 } , /*WAFER_ID*/
{ 0x00017040 , 24 , 8 } , /*DVS*/
{ 0x00017044 , 0 , 24 } , /*LOT_NUMBER*/
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} ;
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static const struct cs35l41_otp_packed_element_t otp_map_2 [ ] = {
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/* addr shift size */
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{ 0x00002030 , 0 , 4 } , /*TRIM_OSC_FREQ_TRIM*/
{ 0x00002030 , 7 , 1 } , /*TRIM_OSC_TRIM_DONE*/
{ 0x0000208c , 24 , 6 } , /*TST_DIGREG_VREF_TRIM*/
{ 0x00002090 , 14 , 4 } , /*TST_REF_TRIM*/
{ 0x00002090 , 10 , 4 } , /*TST_REF_TEMPCO_TRIM*/
{ 0x0000300C , 11 , 4 } , /*PLL_LDOA_TST_VREF_TRIM*/
{ 0x0000394C , 23 , 2 } , /*BST_ATEST_CM_VOFF*/
{ 0x00003950 , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET*/
{ 0x00003950 , 8 , 7 } , /*BST_ATRIM_IADC_GAIN1*/
{ 0x00003950 , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET1*/
{ 0x00003950 , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN1*/
{ 0x00003954 , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET2*/
{ 0x00003954 , 8 , 7 } , /*BST_ATRIM_IADC_GAIN2*/
{ 0x00003954 , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET2*/
{ 0x00003954 , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN2*/
{ 0x00003958 , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET3*/
{ 0x00003958 , 8 , 7 } , /*BST_ATRIM_IADC_GAIN3*/
{ 0x00003958 , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET3*/
{ 0x00003958 , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN3*/
{ 0x0000395C , 0 , 7 } , /*BST_ATRIM_IADC_OFFSET4*/
{ 0x0000395C , 8 , 7 } , /*BST_ATRIM_IADC_GAIN4*/
{ 0x0000395C , 16 , 8 } , /*BST_ATRIM_IPKCOMP_OFFSET4*/
{ 0x0000395C , 24 , 8 } , /*BST_ATRIM_IPKCOMP_GAIN4*/
{ 0x0000416C , 0 , 8 } , /*VMON_GAIN_OTP_VAL*/
{ 0x00004160 , 0 , 7 } , /*VMON_OFFSET_OTP_VAL*/
{ 0x0000416C , 8 , 8 } , /*IMON_GAIN_OTP_VAL*/
{ 0x00004160 , 16 , 10 } , /*IMON_OFFSET_OTP_VAL*/
{ 0x0000416C , 16 , 12 } , /*VMON_CM_GAIN_OTP_VAL*/
{ 0x0000416C , 28 , 1 } , /*VMON_CM_GAIN_SIGN_OTP_VAL*/
{ 0x00004170 , 0 , 6 } , /*IMON_CAL_TEMPCO_OTP_VAL*/
{ 0x00004170 , 6 , 1 } , /*IMON_CAL_TEMPCO_SIGN_OTP*/
{ 0x00004170 , 8 , 6 } , /*IMON_CAL_TEMPCO2_OTP_VAL*/
{ 0x00004170 , 14 , 1 } , /*IMON_CAL_TEMPCO2_DN_UPB_OTP_VAL*/
{ 0x00004170 , 16 , 9 } , /*IMON_CAL_TEMPCO_TBASE_OTP_VAL*/
{ 0x00004360 , 0 , 5 } , /*TEMP_GAIN_OTP_VAL*/
{ 0x00004360 , 6 , 9 } , /*TEMP_OFFSET_OTP_VAL*/
{ 0x00004448 , 0 , 8 } , /*VP_SARADC_OFFSET*/
{ 0x00004448 , 8 , 8 } , /*VP_GAIN_INDEX*/
{ 0x00004448 , 16 , 8 } , /*VBST_SARADC_OFFSET*/
{ 0x00004448 , 24 , 8 } , /*VBST_GAIN_INDEX*/
{ 0x0000444C , 0 , 3 } , /*ANA_SELINVREF*/
{ 0x00006E30 , 0 , 5 } , /*GAIN_ERR_COEFF_0*/
{ 0x00006E30 , 8 , 5 } , /*GAIN_ERR_COEFF_1*/
{ 0x00006E30 , 16 , 5 } , /*GAIN_ERR_COEFF_2*/
{ 0x00006E30 , 24 , 5 } , /*GAIN_ERR_COEFF_3*/
{ 0x00006E34 , 0 , 5 } , /*GAIN_ERR_COEFF_4*/
{ 0x00006E34 , 8 , 5 } , /*GAIN_ERR_COEFF_5*/
{ 0x00006E34 , 16 , 5 } , /*GAIN_ERR_COEFF_6*/
{ 0x00006E34 , 24 , 5 } , /*GAIN_ERR_COEFF_7*/
{ 0x00006E38 , 0 , 5 } , /*GAIN_ERR_COEFF_8*/
{ 0x00006E38 , 8 , 5 } , /*GAIN_ERR_COEFF_9*/
{ 0x00006E38 , 16 , 5 } , /*GAIN_ERR_COEFF_10*/
{ 0x00006E38 , 24 , 5 } , /*GAIN_ERR_COEFF_11*/
{ 0x00006E3C , 0 , 5 } , /*GAIN_ERR_COEFF_12*/
{ 0x00006E3C , 8 , 5 } , /*GAIN_ERR_COEFF_13*/
{ 0x00006E3C , 16 , 5 } , /*GAIN_ERR_COEFF_14*/
{ 0x00006E3C , 24 , 5 } , /*GAIN_ERR_COEFF_15*/
{ 0x00006E40 , 0 , 5 } , /*GAIN_ERR_COEFF_16*/
{ 0x00006E40 , 8 , 5 } , /*GAIN_ERR_COEFF_17*/
{ 0x00006E40 , 16 , 5 } , /*GAIN_ERR_COEFF_18*/
{ 0x00006E40 , 24 , 5 } , /*GAIN_ERR_COEFF_19*/
{ 0x00006E44 , 0 , 5 } , /*GAIN_ERR_COEFF_20*/
{ 0x00006E48 , 0 , 10 } , /*VOFF_GAIN_0*/
{ 0x00006E48 , 10 , 10 } , /*VOFF_GAIN_1*/
{ 0x00006E48 , 20 , 10 } , /*VOFF_GAIN_2*/
{ 0x00006E4C , 0 , 10 } , /*VOFF_GAIN_3*/
{ 0x00006E4C , 10 , 10 } , /*VOFF_GAIN_4*/
{ 0x00006E4C , 20 , 10 } , /*VOFF_GAIN_5*/
{ 0x00006E50 , 0 , 10 } , /*VOFF_GAIN_6*/
{ 0x00006E50 , 10 , 10 } , /*VOFF_GAIN_7*/
{ 0x00006E50 , 20 , 10 } , /*VOFF_GAIN_8*/
{ 0x00006E54 , 0 , 10 } , /*VOFF_GAIN_9*/
{ 0x00006E54 , 10 , 10 } , /*VOFF_GAIN_10*/
{ 0x00006E54 , 20 , 10 } , /*VOFF_GAIN_11*/
{ 0x00006E58 , 0 , 10 } , /*VOFF_GAIN_12*/
{ 0x00006E58 , 10 , 10 } , /*VOFF_GAIN_13*/
{ 0x00006E58 , 20 , 10 } , /*VOFF_GAIN_14*/
{ 0x00006E5C , 0 , 10 } , /*VOFF_GAIN_15*/
{ 0x00006E5C , 10 , 10 } , /*VOFF_GAIN_16*/
{ 0x00006E5C , 20 , 10 } , /*VOFF_GAIN_17*/
{ 0x00006E60 , 0 , 10 } , /*VOFF_GAIN_18*/
{ 0x00006E60 , 10 , 10 } , /*VOFF_GAIN_19*/
{ 0x00006E60 , 20 , 10 } , /*VOFF_GAIN_20*/
{ 0x00006E64 , 0 , 10 } , /*VOFF_INT1*/
{ 0x00007418 , 7 , 5 } , /*DS_SPK_INT1_CAP_TRIM*/
{ 0x0000741C , 0 , 5 } , /*DS_SPK_INT2_CAP_TRIM*/
{ 0x0000741C , 11 , 4 } , /*DS_SPK_LPF_CAP_TRIM*/
{ 0x0000741C , 19 , 4 } , /*DS_SPK_QUAN_CAP_TRIM*/
{ 0x00007434 , 17 , 1 } , /*FORCE_CAL*/
{ 0x00007434 , 18 , 7 } , /*CAL_OVERRIDE*/
{ 0x00007068 , 0 , 9 } , /*MODIX*/
{ 0x0000410C , 7 , 1 } , /*VIMON_DLY_NOT_COMB*/
{ 0x0000400C , 0 , 7 } , /*VIMON_DLY*/
{ 0x00004000 , 11 , 1 } , /*VMON_POL*/
{ 0x00017040 , 0 , 8 } , /*X_COORDINATE*/
{ 0x00017040 , 8 , 8 } , /*Y_COORDINATE*/
{ 0x00017040 , 16 , 8 } , /*WAFER_ID*/
{ 0x00017040 , 24 , 8 } , /*DVS*/
{ 0x00017044 , 0 , 24 } , /*LOT_NUMBER*/
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} ;
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static const struct reg_sequence cs35l41_reva0_errata_patch [ ] = {
{ 0x00003854 , 0x05180240 } ,
{ CS35L41_VIMON_SPKMON_RESYNC , 0x00000000 } ,
{ 0x00004310 , 0x00000000 } ,
{ CS35L41_VPVBST_FS_SEL , 0x00000000 } ,
{ CS35L41_OTP_TRIM_30 , 0x9091A1C8 } ,
{ 0x00003014 , 0x0200EE0E } ,
{ CS35L41_BSTCVRT_DCM_CTRL , 0x00000051 } ,
{ 0x00000054 , 0x00000004 } ,
{ CS35L41_IRQ1_DB3 , 0x00000000 } ,
{ CS35L41_IRQ2_DB3 , 0x00000000 } ,
{ CS35L41_DSP1_YM_ACCEL_PL0_PRI , 0x00000000 } ,
{ CS35L41_DSP1_XM_ACCEL_PL0_PRI , 0x00000000 } ,
{ CS35L41_PWR_CTRL2 , 0x00000000 } ,
{ CS35L41_AMP_GAIN_CTRL , 0x00000000 } ,
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{ CS35L41_ASP_TX3_SRC , 0x00000000 } ,
{ CS35L41_ASP_TX4_SRC , 0x00000000 } ,
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} ;
static const struct reg_sequence cs35l41_revb0_errata_patch [ ] = {
{ CS35L41_VIMON_SPKMON_RESYNC , 0x00000000 } ,
{ 0x00004310 , 0x00000000 } ,
{ CS35L41_VPVBST_FS_SEL , 0x00000000 } ,
{ CS35L41_BSTCVRT_DCM_CTRL , 0x00000051 } ,
{ CS35L41_DSP1_YM_ACCEL_PL0_PRI , 0x00000000 } ,
{ CS35L41_DSP1_XM_ACCEL_PL0_PRI , 0x00000000 } ,
{ CS35L41_PWR_CTRL2 , 0x00000000 } ,
{ CS35L41_AMP_GAIN_CTRL , 0x00000000 } ,
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{ CS35L41_ASP_TX3_SRC , 0x00000000 } ,
{ CS35L41_ASP_TX4_SRC , 0x00000000 } ,
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} ;
static const struct reg_sequence cs35l41_revb2_errata_patch [ ] = {
{ CS35L41_VIMON_SPKMON_RESYNC , 0x00000000 } ,
{ 0x00004310 , 0x00000000 } ,
{ CS35L41_VPVBST_FS_SEL , 0x00000000 } ,
{ CS35L41_BSTCVRT_DCM_CTRL , 0x00000051 } ,
{ CS35L41_DSP1_YM_ACCEL_PL0_PRI , 0x00000000 } ,
{ CS35L41_DSP1_XM_ACCEL_PL0_PRI , 0x00000000 } ,
{ CS35L41_PWR_CTRL2 , 0x00000000 } ,
{ CS35L41_AMP_GAIN_CTRL , 0x00000000 } ,
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{ CS35L41_ASP_TX3_SRC , 0x00000000 } ,
{ CS35L41_ASP_TX4_SRC , 0x00000000 } ,
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} ;
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static const struct reg_sequence cs35l41_fs_errata_patch [ ] = {
{ CS35L41_DSP1_RX1_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX2_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX3_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX4_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX5_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX6_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX7_RATE , 0x00000001 } ,
{ CS35L41_DSP1_RX8_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX1_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX2_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX3_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX4_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX5_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX6_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX7_RATE , 0x00000001 } ,
{ CS35L41_DSP1_TX8_RATE , 0x00000001 } ,
} ;
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static const struct cs35l41_otp_map_element_t cs35l41_otp_map_map [ ] = {
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{
. id = 0x01 ,
. map = otp_map_1 ,
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. num_elements = ARRAY_SIZE ( otp_map_1 ) ,
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. bit_offset = 16 ,
. word_offset = 2 ,
} ,
{
. id = 0x02 ,
. map = otp_map_2 ,
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. num_elements = ARRAY_SIZE ( otp_map_2 ) ,
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. bit_offset = 16 ,
. word_offset = 2 ,
} ,
{
. id = 0x03 ,
. map = otp_map_2 ,
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. num_elements = ARRAY_SIZE ( otp_map_2 ) ,
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. bit_offset = 16 ,
. word_offset = 2 ,
} ,
{
. id = 0x06 ,
. map = otp_map_2 ,
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. num_elements = ARRAY_SIZE ( otp_map_2 ) ,
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. bit_offset = 16 ,
. word_offset = 2 ,
} ,
{
. id = 0x08 ,
. map = otp_map_1 ,
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. num_elements = ARRAY_SIZE ( otp_map_1 ) ,
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. bit_offset = 16 ,
. word_offset = 2 ,
} ,
} ;
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struct regmap_config cs35l41_regmap_i2c = {
. reg_bits = 32 ,
. val_bits = 32 ,
. reg_stride = CS35L41_REGSTRIDE ,
. reg_format_endian = REGMAP_ENDIAN_BIG ,
. val_format_endian = REGMAP_ENDIAN_BIG ,
. max_register = CS35L41_LASTREG ,
. reg_defaults = cs35l41_reg ,
. num_reg_defaults = ARRAY_SIZE ( cs35l41_reg ) ,
. volatile_reg = cs35l41_volatile_reg ,
. readable_reg = cs35l41_readable_reg ,
. precious_reg = cs35l41_precious_reg ,
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. cache_type = REGCACHE_MAPLE ,
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} ;
EXPORT_SYMBOL_GPL ( cs35l41_regmap_i2c ) ;
struct regmap_config cs35l41_regmap_spi = {
. reg_bits = 32 ,
. val_bits = 32 ,
. pad_bits = 16 ,
. reg_stride = CS35L41_REGSTRIDE ,
. reg_format_endian = REGMAP_ENDIAN_BIG ,
. val_format_endian = REGMAP_ENDIAN_BIG ,
. max_register = CS35L41_LASTREG ,
. reg_defaults = cs35l41_reg ,
. num_reg_defaults = ARRAY_SIZE ( cs35l41_reg ) ,
. volatile_reg = cs35l41_volatile_reg ,
. readable_reg = cs35l41_readable_reg ,
. precious_reg = cs35l41_precious_reg ,
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. cache_type = REGCACHE_MAPLE ,
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} ;
EXPORT_SYMBOL_GPL ( cs35l41_regmap_spi ) ;
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static const struct cs35l41_otp_map_element_t * cs35l41_find_otp_map ( u32 otp_id )
{
int i ;
for ( i = 0 ; i < ARRAY_SIZE ( cs35l41_otp_map_map ) ; i + + ) {
if ( cs35l41_otp_map_map [ i ] . id = = otp_id )
return & cs35l41_otp_map_map [ i ] ;
}
return NULL ;
}
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int cs35l41_test_key_unlock ( struct device * dev , struct regmap * regmap )
{
static const struct reg_sequence unlock [ ] = {
{ CS35L41_TEST_KEY_CTL , 0x00000055 } ,
{ CS35L41_TEST_KEY_CTL , 0x000000AA } ,
} ;
int ret ;
ret = regmap_multi_reg_write ( regmap , unlock , ARRAY_SIZE ( unlock ) ) ;
if ( ret )
dev_err ( dev , " Failed to unlock test key: %d \n " , ret ) ;
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_test_key_unlock ) ;
int cs35l41_test_key_lock ( struct device * dev , struct regmap * regmap )
{
static const struct reg_sequence unlock [ ] = {
{ CS35L41_TEST_KEY_CTL , 0x000000CC } ,
{ CS35L41_TEST_KEY_CTL , 0x00000033 } ,
} ;
int ret ;
ret = regmap_multi_reg_write ( regmap , unlock , ARRAY_SIZE ( unlock ) ) ;
if ( ret )
dev_err ( dev , " Failed to lock test key: %d \n " , ret ) ;
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_test_key_lock ) ;
/* Must be called with the TEST_KEY unlocked */
2021-12-17 14:57:00 +03:00
int cs35l41_otp_unpack ( struct device * dev , struct regmap * regmap )
{
const struct cs35l41_otp_map_element_t * otp_map_match ;
const struct cs35l41_otp_packed_element_t * otp_map ;
int bit_offset , word_offset , ret , i ;
unsigned int bit_sum = 8 ;
u32 otp_val , otp_id_reg ;
u32 * otp_mem ;
otp_mem = kmalloc_array ( CS35L41_OTP_SIZE_WORDS , sizeof ( * otp_mem ) , GFP_KERNEL ) ;
if ( ! otp_mem )
return - ENOMEM ;
ret = regmap_read ( regmap , CS35L41_OTPID , & otp_id_reg ) ;
if ( ret ) {
dev_err ( dev , " Read OTP ID failed: %d \n " , ret ) ;
goto err_otp_unpack ;
}
otp_map_match = cs35l41_find_otp_map ( otp_id_reg ) ;
if ( ! otp_map_match ) {
dev_err ( dev , " OTP Map matching ID %d not found \n " , otp_id_reg ) ;
ret = - EINVAL ;
goto err_otp_unpack ;
}
ret = regmap_bulk_read ( regmap , CS35L41_OTP_MEM0 , otp_mem , CS35L41_OTP_SIZE_WORDS ) ;
if ( ret ) {
dev_err ( dev , " Read OTP Mem failed: %d \n " , ret ) ;
goto err_otp_unpack ;
}
otp_map = otp_map_match - > map ;
bit_offset = otp_map_match - > bit_offset ;
word_offset = otp_map_match - > word_offset ;
for ( i = 0 ; i < otp_map_match - > num_elements ; i + + ) {
2022-03-28 15:35:34 +03:00
dev_dbg ( dev , " bitoffset= %d, word_offset=%d, bit_sum mod 32=%d, otp_map[i].size = %u \n " ,
2022-03-24 11:18:38 +03:00
bit_offset , word_offset , bit_sum % 32 , otp_map [ i ] . size ) ;
2021-12-17 14:57:00 +03:00
if ( bit_offset + otp_map [ i ] . size - 1 > = 32 ) {
otp_val = ( otp_mem [ word_offset ] &
GENMASK ( 31 , bit_offset ) ) > > bit_offset ;
otp_val | = ( otp_mem [ + + word_offset ] &
GENMASK ( bit_offset + otp_map [ i ] . size - 33 , 0 ) ) < <
( 32 - bit_offset ) ;
bit_offset + = otp_map [ i ] . size - 32 ;
ASoC: cs35l41: Fix a shift-out-of-bounds warning found by UBSAN
We enabled UBSAN in the ubuntu kernel, and the cs35l41 driver triggers
a warning calltrace like below:
cs35l41-hda i2c-CSC3551:00-cs35l41-hda.0: bitoffset= 8, word_offset=23, bit_sum mod 32=0, otp_map[i].size = 24
cs35l41-hda i2c-CSC3551:00-cs35l41-hda.0: bitoffset= 0, word_offset=24, bit_sum mod 32=24, otp_map[i].size = 0
================================================================================
UBSAN: shift-out-of-bounds in linux-kernel-src/sound/soc/codecs/cs35l41-lib.c:836:8
shift exponent 64 is too large for 64-bit type 'long unsigned int'
CPU: 10 PID: 595 Comm: systemd-udevd Not tainted 5.15.0-23-generic #23
Hardware name: LENOVO \x02MFG_IN_GO/\x02MFG_IN_GO, BIOS N3GET19W (1.00 ) 03/11/2022
Call Trace:
<TASK>
show_stack+0x52/0x58
dump_stack_lvl+0x4a/0x5f
dump_stack+0x10/0x12
ubsan_epilogue+0x9/0x45
__ubsan_handle_shift_out_of_bounds.cold+0x61/0xef
? regmap_unlock_mutex+0xe/0x10
cs35l41_otp_unpack.cold+0x1c6/0x2b2 [snd_soc_cs35l41_lib]
cs35l41_hda_probe+0x24f/0x33a [snd_hda_scodec_cs35l41]
cs35l41_hda_i2c_probe+0x65/0x90 [snd_hda_scodec_cs35l41_i2c]
When both bitoffset and otp_map[i].size are 0, the line 836 will
result in GENMASK(-1, 0), this triggers the shift-out-of-bounds
calltrace.
Here add a checking, if both bitoffset and otp_map[i].size are 0,
do not run GENMASK() and directly set otp_val to 0, this will not
bring any function change on the driver but could avoid the calltrace.
Signed-off-by: Hui Wang <hui.wang@canonical.com>
Link: https://lore.kernel.org/r/20220324081839.62009-2-hui.wang@canonical.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2022-03-24 11:18:39 +03:00
} else if ( bit_offset + otp_map [ i ] . size - 1 > = 0 ) {
2021-12-17 14:57:00 +03:00
otp_val = ( otp_mem [ word_offset ] &
GENMASK ( bit_offset + otp_map [ i ] . size - 1 , bit_offset )
) > > bit_offset ;
bit_offset + = otp_map [ i ] . size ;
ASoC: cs35l41: Fix a shift-out-of-bounds warning found by UBSAN
We enabled UBSAN in the ubuntu kernel, and the cs35l41 driver triggers
a warning calltrace like below:
cs35l41-hda i2c-CSC3551:00-cs35l41-hda.0: bitoffset= 8, word_offset=23, bit_sum mod 32=0, otp_map[i].size = 24
cs35l41-hda i2c-CSC3551:00-cs35l41-hda.0: bitoffset= 0, word_offset=24, bit_sum mod 32=24, otp_map[i].size = 0
================================================================================
UBSAN: shift-out-of-bounds in linux-kernel-src/sound/soc/codecs/cs35l41-lib.c:836:8
shift exponent 64 is too large for 64-bit type 'long unsigned int'
CPU: 10 PID: 595 Comm: systemd-udevd Not tainted 5.15.0-23-generic #23
Hardware name: LENOVO \x02MFG_IN_GO/\x02MFG_IN_GO, BIOS N3GET19W (1.00 ) 03/11/2022
Call Trace:
<TASK>
show_stack+0x52/0x58
dump_stack_lvl+0x4a/0x5f
dump_stack+0x10/0x12
ubsan_epilogue+0x9/0x45
__ubsan_handle_shift_out_of_bounds.cold+0x61/0xef
? regmap_unlock_mutex+0xe/0x10
cs35l41_otp_unpack.cold+0x1c6/0x2b2 [snd_soc_cs35l41_lib]
cs35l41_hda_probe+0x24f/0x33a [snd_hda_scodec_cs35l41]
cs35l41_hda_i2c_probe+0x65/0x90 [snd_hda_scodec_cs35l41_i2c]
When both bitoffset and otp_map[i].size are 0, the line 836 will
result in GENMASK(-1, 0), this triggers the shift-out-of-bounds
calltrace.
Here add a checking, if both bitoffset and otp_map[i].size are 0,
do not run GENMASK() and directly set otp_val to 0, this will not
bring any function change on the driver but could avoid the calltrace.
Signed-off-by: Hui Wang <hui.wang@canonical.com>
Link: https://lore.kernel.org/r/20220324081839.62009-2-hui.wang@canonical.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2022-03-24 11:18:39 +03:00
} else /* both bit_offset and otp_map[i].size are 0 */
otp_val = 0 ;
2021-12-17 14:57:00 +03:00
bit_sum + = otp_map [ i ] . size ;
if ( bit_offset = = 32 ) {
bit_offset = 0 ;
word_offset + + ;
}
if ( otp_map [ i ] . reg ! = 0 ) {
ret = regmap_update_bits ( regmap , otp_map [ i ] . reg ,
GENMASK ( otp_map [ i ] . shift + otp_map [ i ] . size - 1 ,
otp_map [ i ] . shift ) ,
otp_val < < otp_map [ i ] . shift ) ;
if ( ret < 0 ) {
dev_err ( dev , " Write OTP val failed: %d \n " , ret ) ;
goto err_otp_unpack ;
}
}
}
ret = 0 ;
err_otp_unpack :
kfree ( otp_mem ) ;
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_otp_unpack ) ;
2022-01-07 19:06:35 +03:00
/* Must be called with the TEST_KEY unlocked */
2021-12-17 14:57:02 +03:00
int cs35l41_register_errata_patch ( struct device * dev , struct regmap * reg , unsigned int reg_revid )
{
char * rev ;
int ret ;
switch ( reg_revid ) {
case CS35L41_REVID_A0 :
ret = regmap_register_patch ( reg , cs35l41_reva0_errata_patch ,
ARRAY_SIZE ( cs35l41_reva0_errata_patch ) ) ;
rev = " A0 " ;
break ;
case CS35L41_REVID_B0 :
ret = regmap_register_patch ( reg , cs35l41_revb0_errata_patch ,
ARRAY_SIZE ( cs35l41_revb0_errata_patch ) ) ;
rev = " B0 " ;
break ;
case CS35L41_REVID_B2 :
ret = regmap_register_patch ( reg , cs35l41_revb2_errata_patch ,
ARRAY_SIZE ( cs35l41_revb2_errata_patch ) ) ;
rev = " B2 " ;
break ;
default :
ret = - EINVAL ;
rev = " XX " ;
break ;
}
if ( ret )
dev_err ( dev , " Failed to apply %s errata patch: %d \n " , rev , ret ) ;
ret = regmap_write ( reg , CS35L41_DSP1_CCM_CORE_CTRL , 0 ) ;
if ( ret < 0 )
dev_err ( dev , " Write CCM_CORE_CTRL failed: %d \n " , ret ) ;
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_register_errata_patch ) ;
2021-12-17 14:57:03 +03:00
int cs35l41_set_channels ( struct device * dev , struct regmap * reg ,
unsigned int tx_num , unsigned int * tx_slot ,
unsigned int rx_num , unsigned int * rx_slot )
{
unsigned int val , mask ;
int i ;
if ( tx_num > 4 | | rx_num > 2 )
return - EINVAL ;
val = 0 ;
mask = 0 ;
for ( i = 0 ; i < rx_num ; i + + ) {
dev_dbg ( dev , " rx slot %d position = %d \n " , i , rx_slot [ i ] ) ;
val | = rx_slot [ i ] < < ( i * 8 ) ;
mask | = 0x3F < < ( i * 8 ) ;
}
regmap_update_bits ( reg , CS35L41_SP_FRAME_RX_SLOT , mask , val ) ;
val = 0 ;
mask = 0 ;
for ( i = 0 ; i < tx_num ; i + + ) {
dev_dbg ( dev , " tx slot %d position = %d \n " , i , tx_slot [ i ] ) ;
val | = tx_slot [ i ] < < ( i * 8 ) ;
mask | = 0x3F < < ( i * 8 ) ;
}
regmap_update_bits ( reg , CS35L41_SP_FRAME_TX_SLOT , mask , val ) ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( cs35l41_set_channels ) ;
2021-12-17 14:57:04 +03:00
static const unsigned char cs35l41_bst_k1_table [ 4 ] [ 5 ] = {
{ 0x24 , 0x32 , 0x32 , 0x4F , 0x57 } ,
{ 0x24 , 0x32 , 0x32 , 0x4F , 0x57 } ,
{ 0x40 , 0x32 , 0x32 , 0x4F , 0x57 } ,
{ 0x40 , 0x32 , 0x32 , 0x4F , 0x57 }
} ;
static const unsigned char cs35l41_bst_k2_table [ 4 ] [ 5 ] = {
{ 0x24 , 0x49 , 0x66 , 0xA3 , 0xEA } ,
{ 0x24 , 0x49 , 0x66 , 0xA3 , 0xEA } ,
{ 0x48 , 0x49 , 0x66 , 0xA3 , 0xEA } ,
{ 0x48 , 0x49 , 0x66 , 0xA3 , 0xEA }
} ;
static const unsigned char cs35l41_bst_slope_table [ 4 ] = {
0x75 , 0x6B , 0x3B , 0x28
} ;
2022-04-13 11:37:28 +03:00
static int cs35l41_boost_config ( struct device * dev , struct regmap * regmap , int boost_ind ,
int boost_cap , int boost_ipk )
2021-12-17 14:57:04 +03:00
{
unsigned char bst_lbst_val , bst_cbst_range , bst_ipk_scaled ;
int ret ;
switch ( boost_ind ) {
case 1000 : /* 1.0 uH */
bst_lbst_val = 0 ;
break ;
case 1200 : /* 1.2 uH */
bst_lbst_val = 1 ;
break ;
case 1500 : /* 1.5 uH */
bst_lbst_val = 2 ;
break ;
case 2200 : /* 2.2 uH */
bst_lbst_val = 3 ;
break ;
default :
dev_err ( dev , " Invalid boost inductor value: %d nH \n " , boost_ind ) ;
return - EINVAL ;
}
switch ( boost_cap ) {
case 0 . . . 19 :
bst_cbst_range = 0 ;
break ;
case 20 . . . 50 :
bst_cbst_range = 1 ;
break ;
case 51 . . . 100 :
bst_cbst_range = 2 ;
break ;
case 101 . . . 200 :
bst_cbst_range = 3 ;
break ;
2022-04-13 11:37:14 +03:00
default :
if ( boost_cap < 0 ) {
dev_err ( dev , " Invalid boost capacitor value: %d nH \n " , boost_cap ) ;
return - EINVAL ;
}
/* 201 uF and greater */
2021-12-17 14:57:04 +03:00
bst_cbst_range = 4 ;
}
2022-04-13 11:37:14 +03:00
if ( boost_ipk < 1600 | | boost_ipk > 4500 ) {
dev_err ( dev , " Invalid boost inductor peak current: %d mA \n " , boost_ipk ) ;
return - EINVAL ;
}
2021-12-17 14:57:04 +03:00
ret = regmap_update_bits ( regmap , CS35L41_BSTCVRT_COEFF ,
CS35L41_BST_K1_MASK | CS35L41_BST_K2_MASK ,
cs35l41_bst_k1_table [ bst_lbst_val ] [ bst_cbst_range ]
< < CS35L41_BST_K1_SHIFT |
cs35l41_bst_k2_table [ bst_lbst_val ] [ bst_cbst_range ]
< < CS35L41_BST_K2_SHIFT ) ;
if ( ret ) {
dev_err ( dev , " Failed to write boost coefficients: %d \n " , ret ) ;
return ret ;
}
ret = regmap_update_bits ( regmap , CS35L41_BSTCVRT_SLOPE_LBST ,
CS35L41_BST_SLOPE_MASK | CS35L41_BST_LBST_VAL_MASK ,
cs35l41_bst_slope_table [ bst_lbst_val ]
< < CS35L41_BST_SLOPE_SHIFT |
bst_lbst_val < < CS35L41_BST_LBST_VAL_SHIFT ) ;
if ( ret ) {
dev_err ( dev , " Failed to write boost slope/inductor value: %d \n " , ret ) ;
return ret ;
}
bst_ipk_scaled = ( ( boost_ipk - 1600 ) / 50 ) + 0x10 ;
ret = regmap_update_bits ( regmap , CS35L41_BSTCVRT_PEAK_CUR , CS35L41_BST_IPK_MASK ,
bst_ipk_scaled < < CS35L41_BST_IPK_SHIFT ) ;
if ( ret ) {
dev_err ( dev , " Failed to write boost inductor peak current: %d \n " , ret ) ;
return ret ;
}
2022-04-13 11:37:21 +03:00
regmap_update_bits ( regmap , CS35L41_PWR_CTRL2 , CS35L41_BST_EN_MASK ,
CS35L41_BST_EN_DEFAULT < < CS35L41_BST_EN_SHIFT ) ;
2021-12-17 14:57:04 +03:00
return 0 ;
}
2022-04-13 11:37:26 +03:00
static const struct reg_sequence cs35l41_safe_to_reset [ ] = {
{ 0x00000040 , 0x00000055 } ,
{ 0x00000040 , 0x000000AA } ,
{ 0x0000393C , 0x000000C0 , 6000 } ,
{ 0x0000393C , 0x00000000 } ,
{ 0x00007414 , 0x00C82222 } ,
{ 0x0000742C , 0x00000000 } ,
{ 0x00000040 , 0x000000CC } ,
{ 0x00000040 , 0x00000033 } ,
} ;
2023-07-21 18:18:06 +03:00
static const struct reg_sequence cs35l41_active_to_safe_start [ ] = {
2022-04-13 11:37:26 +03:00
{ 0x00000040 , 0x00000055 } ,
{ 0x00000040 , 0x000000AA } ,
{ 0x00007438 , 0x00585941 } ,
{ CS35L41_PWR_CTRL1 , 0x00000000 } ,
2023-07-21 18:18:06 +03:00
{ 0x0000742C , 0x00000009 } ,
} ;
static const struct reg_sequence cs35l41_active_to_safe_end [ ] = {
2022-04-13 11:37:26 +03:00
{ 0x00007438 , 0x00580941 } ,
{ 0x00000040 , 0x000000CC } ,
{ 0x00000040 , 0x00000033 } ,
} ;
2023-07-21 18:18:06 +03:00
static const struct reg_sequence cs35l41_safe_to_active_start [ ] = {
2022-04-13 11:37:26 +03:00
{ 0x00000040 , 0x00000055 } ,
{ 0x00000040 , 0x000000AA } ,
{ 0x0000742C , 0x0000000F } ,
{ 0x0000742C , 0x00000079 } ,
{ 0x00007438 , 0x00585941 } ,
2023-07-21 18:18:06 +03:00
{ CS35L41_PWR_CTRL1 , 0x00000001 } , // GLOBAL_EN = 1
} ;
static const struct reg_sequence cs35l41_safe_to_active_en_spk [ ] = {
2022-04-13 11:37:26 +03:00
{ 0x0000742C , 0x000000F9 } ,
{ 0x00007438 , 0x00580941 } ,
} ;
static const struct reg_sequence cs35l41_reset_to_safe [ ] = {
{ 0x00000040 , 0x00000055 } ,
{ 0x00000040 , 0x000000AA } ,
{ 0x00007438 , 0x00585941 } ,
{ 0x00007414 , 0x08C82222 } ,
{ 0x0000742C , 0x00000009 } ,
{ 0x00000040 , 0x000000CC } ,
{ 0x00000040 , 0x00000033 } ,
} ;
2023-02-23 11:43:23 +03:00
static const struct reg_sequence cs35l41_actv_seq [ ] = {
/* SYNC_BST_CTL_RX_EN = 1; SYNC_BST_CTL_TX_EN = 1 */
{ CS35L41_MDSYNC_EN , 0x00003000 } ,
/* BST_CTL_SEL = MDSYNC */
{ CS35L41_BSTCVRT_VCTRL2 , 0x00000002 } ,
} ;
static const struct reg_sequence cs35l41_pass_seq [ ] = {
/* SYNC_BST_CTL_RX_EN = 0; SYNC_BST_CTL_TX_EN = 1 */
{ CS35L41_MDSYNC_EN , 0x00001000 } ,
/* BST_EN = 0 */
{ CS35L41_PWR_CTRL2 , 0x00003300 } ,
/* BST_CTL_SEL = MDSYNC */
{ CS35L41_BSTCVRT_VCTRL2 , 0x00000002 } ,
} ;
2022-04-13 11:37:26 +03:00
int cs35l41_init_boost ( struct device * dev , struct regmap * regmap ,
struct cs35l41_hw_cfg * hw_cfg )
{
int ret ;
switch ( hw_cfg - > bst_type ) {
2023-02-23 11:43:23 +03:00
case CS35L41_SHD_BOOST_ACTV :
regmap_multi_reg_write ( regmap , cs35l41_actv_seq , ARRAY_SIZE ( cs35l41_actv_seq ) ) ;
fallthrough ;
2022-04-13 11:37:26 +03:00
case CS35L41_INT_BOOST :
ret = cs35l41_boost_config ( dev , regmap , hw_cfg - > bst_ind ,
hw_cfg - > bst_cap , hw_cfg - > bst_ipk ) ;
if ( ret )
dev_err ( dev , " Error in Boost DT config: %d \n " , ret ) ;
break ;
case CS35L41_EXT_BOOST :
case CS35L41_EXT_BOOST_NO_VSPK_SWITCH :
/* Only CLSA0100 doesn't use GPIO as VSPK switch, but even on that laptop we can
* toggle GPIO1 as is not connected to anything .
* There will be no other device without VSPK switch .
*/
regmap_write ( regmap , CS35L41_GPIO1_CTRL1 , 0x00000001 ) ;
regmap_multi_reg_write ( regmap , cs35l41_reset_to_safe ,
ARRAY_SIZE ( cs35l41_reset_to_safe ) ) ;
ret = regmap_update_bits ( regmap , CS35L41_PWR_CTRL2 , CS35L41_BST_EN_MASK ,
CS35L41_BST_DIS_FET_OFF < < CS35L41_BST_EN_SHIFT ) ;
break ;
2023-02-23 11:43:23 +03:00
case CS35L41_SHD_BOOST_PASS :
ret = regmap_multi_reg_write ( regmap , cs35l41_pass_seq ,
ARRAY_SIZE ( cs35l41_pass_seq ) ) ;
break ;
2022-04-13 11:37:26 +03:00
default :
dev_err ( dev , " Boost type %d not supported \n " , hw_cfg - > bst_type ) ;
ret = - EINVAL ;
break ;
}
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_init_boost ) ;
bool cs35l41_safe_reset ( struct regmap * regmap , enum cs35l41_boost_type b_type )
{
switch ( b_type ) {
/* There is only one laptop that doesn't have VSPK switch. */
case CS35L41_EXT_BOOST_NO_VSPK_SWITCH :
return false ;
case CS35L41_EXT_BOOST :
regmap_write ( regmap , CS35L41_GPIO1_CTRL1 , 0x00000001 ) ;
regmap_multi_reg_write ( regmap , cs35l41_safe_to_reset ,
ARRAY_SIZE ( cs35l41_safe_to_reset ) ) ;
return true ;
default :
return true ;
}
}
EXPORT_SYMBOL_GPL ( cs35l41_safe_reset ) ;
ASoC: cs35l41: Fix broken shared boost activation
Enabling the active/passive shared boosts requires setting SYNC_EN, but
*not* before receiving the PLL Lock signal.
Due to improper error handling, it was not obvious that waiting for the
completion operation times out and, consequently, the shared boost is
never activated.
Further investigations revealed the signal is triggered while
snd_pcm_start() is executed, right after receiving the
SNDRV_PCM_TRIGGER_START command, which happens long after the
SND_SOC_DAPM_PRE_PMU event handler is invoked as part of
snd_pcm_prepare(). That is where cs35l41_global_enable() is called
from.
Increasing the wait duration doesn't help, as it only causes an
unnecessary delay in the invocation of snd_pcm_start(). Moving the wait
and the subsequent regmap operations to the SNDRV_PCM_TRIGGER_START
callback is not a solution either, since they would be executed in an
IRQ-off atomic context.
Solve the issue by setting the SYNC_EN bit in PWR_CTRL3 register right
after receiving the PLL Lock interrupt.
Additionally, drop the unnecessary writes to PWR_CTRL1 register, part of
the original mdsync_up_seq, which would have toggled GLOBAL_EN with
unwanted consequences on PLL locking behavior.
Fixes: f5030564938b ("ALSA: cs35l41: Add shared boost feature")
Signed-off-by: Cristian Ciocaltea <cristian.ciocaltea@collabora.com>
Reviewed-by: David Rhodes <david.rhodes@cirrus.com>
Reviewed-by: Takashi Iwai <tiwai@suse.de>
Link: https://lore.kernel.org/r/20230907171010.1447274-5-cristian.ciocaltea@collabora.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2023-09-07 20:10:03 +03:00
/*
* Enabling the CS35L41_SHD_BOOST_ACTV and CS35L41_SHD_BOOST_PASS shared boosts
* does also require a call to cs35l41_mdsync_up ( ) , but not before getting the
* PLL Lock signal .
*
* PLL Lock seems to be triggered soon after snd_pcm_start ( ) is executed and
* SNDRV_PCM_TRIGGER_START command is processed , which happens ( long ) after the
* SND_SOC_DAPM_PRE_PMU event handler is invoked as part of snd_pcm_prepare ( ) .
*
* This event handler is where cs35l41_global_enable ( ) is normally called from ,
* but waiting for PLL Lock here will time out . Increasing the wait duration
* will not help , as the only consequence of it would be to add an unnecessary
* delay in the invocation of snd_pcm_start ( ) .
*
* Trying to move the wait in the SNDRV_PCM_TRIGGER_START callback is not a
* solution either , as the trigger is executed in an IRQ - off atomic context .
*
* The current approach is to invoke cs35l41_mdsync_up ( ) right after receiving
* the PLL Lock interrupt , in the IRQ handler .
*/
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int cs35l41_global_enable ( struct device * dev , struct regmap * regmap , enum cs35l41_boost_type b_type ,
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int enable , struct cs_dsp * dsp )
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{
int ret ;
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unsigned int gpio1_func , pad_control , pwr_ctrl1 , pwr_ctrl3 , int_status , pup_pdn_mask ;
unsigned int pwr_ctl1_val ;
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struct reg_sequence cs35l41_mdsync_down_seq [ ] = {
{ CS35L41_PWR_CTRL3 , 0 } ,
{ CS35L41_GPIO_PAD_CONTROL , 0 } ,
{ CS35L41_PWR_CTRL1 , 0 , 3000 } ,
} ;
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pup_pdn_mask = enable ? CS35L41_PUP_DONE_MASK : CS35L41_PDN_DONE_MASK ;
ret = regmap_read ( regmap , CS35L41_PWR_CTRL1 , & pwr_ctl1_val ) ;
if ( ret )
return ret ;
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if ( ( pwr_ctl1_val & CS35L41_GLOBAL_EN_MASK ) & & enable ) {
dev_dbg ( dev , " Cannot set Global Enable - already set. \n " ) ;
return 0 ;
} else if ( ! ( pwr_ctl1_val & CS35L41_GLOBAL_EN_MASK ) & & ! enable ) {
dev_dbg ( dev , " Cannot unset Global Enable - not set. \n " ) ;
return 0 ;
}
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switch ( b_type ) {
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case CS35L41_SHD_BOOST_ACTV :
case CS35L41_SHD_BOOST_PASS :
regmap_read ( regmap , CS35L41_PWR_CTRL3 , & pwr_ctrl3 ) ;
regmap_read ( regmap , CS35L41_GPIO_PAD_CONTROL , & pad_control ) ;
pwr_ctrl3 & = ~ CS35L41_SYNC_EN_MASK ;
pwr_ctrl1 = enable < < CS35L41_GLOBAL_EN_SHIFT ;
gpio1_func = enable ? CS35L41_GPIO1_MDSYNC : CS35L41_GPIO1_HIZ ;
gpio1_func < < = CS35L41_GPIO1_CTRL_SHIFT ;
pad_control & = ~ CS35L41_GPIO1_CTRL_MASK ;
pad_control | = gpio1_func & CS35L41_GPIO1_CTRL_MASK ;
cs35l41_mdsync_down_seq [ 0 ] . def = pwr_ctrl3 ;
cs35l41_mdsync_down_seq [ 1 ] . def = pad_control ;
cs35l41_mdsync_down_seq [ 2 ] . def = pwr_ctrl1 ;
ASoC: cs35l41: Fix broken shared boost activation
Enabling the active/passive shared boosts requires setting SYNC_EN, but
*not* before receiving the PLL Lock signal.
Due to improper error handling, it was not obvious that waiting for the
completion operation times out and, consequently, the shared boost is
never activated.
Further investigations revealed the signal is triggered while
snd_pcm_start() is executed, right after receiving the
SNDRV_PCM_TRIGGER_START command, which happens long after the
SND_SOC_DAPM_PRE_PMU event handler is invoked as part of
snd_pcm_prepare(). That is where cs35l41_global_enable() is called
from.
Increasing the wait duration doesn't help, as it only causes an
unnecessary delay in the invocation of snd_pcm_start(). Moving the wait
and the subsequent regmap operations to the SNDRV_PCM_TRIGGER_START
callback is not a solution either, since they would be executed in an
IRQ-off atomic context.
Solve the issue by setting the SYNC_EN bit in PWR_CTRL3 register right
after receiving the PLL Lock interrupt.
Additionally, drop the unnecessary writes to PWR_CTRL1 register, part of
the original mdsync_up_seq, which would have toggled GLOBAL_EN with
unwanted consequences on PLL locking behavior.
Fixes: f5030564938b ("ALSA: cs35l41: Add shared boost feature")
Signed-off-by: Cristian Ciocaltea <cristian.ciocaltea@collabora.com>
Reviewed-by: David Rhodes <david.rhodes@cirrus.com>
Reviewed-by: Takashi Iwai <tiwai@suse.de>
Link: https://lore.kernel.org/r/20230907171010.1447274-5-cristian.ciocaltea@collabora.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2023-09-07 20:10:03 +03:00
2023-02-23 11:43:23 +03:00
ret = regmap_multi_reg_write ( regmap , cs35l41_mdsync_down_seq ,
ARRAY_SIZE ( cs35l41_mdsync_down_seq ) ) ;
ASoC: cs35l41: Fix broken shared boost activation
Enabling the active/passive shared boosts requires setting SYNC_EN, but
*not* before receiving the PLL Lock signal.
Due to improper error handling, it was not obvious that waiting for the
completion operation times out and, consequently, the shared boost is
never activated.
Further investigations revealed the signal is triggered while
snd_pcm_start() is executed, right after receiving the
SNDRV_PCM_TRIGGER_START command, which happens long after the
SND_SOC_DAPM_PRE_PMU event handler is invoked as part of
snd_pcm_prepare(). That is where cs35l41_global_enable() is called
from.
Increasing the wait duration doesn't help, as it only causes an
unnecessary delay in the invocation of snd_pcm_start(). Moving the wait
and the subsequent regmap operations to the SNDRV_PCM_TRIGGER_START
callback is not a solution either, since they would be executed in an
IRQ-off atomic context.
Solve the issue by setting the SYNC_EN bit in PWR_CTRL3 register right
after receiving the PLL Lock interrupt.
Additionally, drop the unnecessary writes to PWR_CTRL1 register, part of
the original mdsync_up_seq, which would have toggled GLOBAL_EN with
unwanted consequences on PLL locking behavior.
Fixes: f5030564938b ("ALSA: cs35l41: Add shared boost feature")
Signed-off-by: Cristian Ciocaltea <cristian.ciocaltea@collabora.com>
Reviewed-by: David Rhodes <david.rhodes@cirrus.com>
Reviewed-by: Takashi Iwai <tiwai@suse.de>
Link: https://lore.kernel.org/r/20230907171010.1447274-5-cristian.ciocaltea@collabora.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2023-09-07 20:10:03 +03:00
/* Activation to be completed later via cs35l41_mdsync_up() */
if ( ret | | enable )
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return ret ;
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ret = regmap_read_poll_timeout ( regmap , CS35L41_IRQ1_STATUS1 ,
int_status , int_status & pup_pdn_mask ,
1000 , 100000 ) ;
if ( ret )
dev_err ( dev , " Enable(%d) failed: %d \n " , enable , ret ) ;
ASoC: cs35l41: Fix broken shared boost activation
Enabling the active/passive shared boosts requires setting SYNC_EN, but
*not* before receiving the PLL Lock signal.
Due to improper error handling, it was not obvious that waiting for the
completion operation times out and, consequently, the shared boost is
never activated.
Further investigations revealed the signal is triggered while
snd_pcm_start() is executed, right after receiving the
SNDRV_PCM_TRIGGER_START command, which happens long after the
SND_SOC_DAPM_PRE_PMU event handler is invoked as part of
snd_pcm_prepare(). That is where cs35l41_global_enable() is called
from.
Increasing the wait duration doesn't help, as it only causes an
unnecessary delay in the invocation of snd_pcm_start(). Moving the wait
and the subsequent regmap operations to the SNDRV_PCM_TRIGGER_START
callback is not a solution either, since they would be executed in an
IRQ-off atomic context.
Solve the issue by setting the SYNC_EN bit in PWR_CTRL3 register right
after receiving the PLL Lock interrupt.
Additionally, drop the unnecessary writes to PWR_CTRL1 register, part of
the original mdsync_up_seq, which would have toggled GLOBAL_EN with
unwanted consequences on PLL locking behavior.
Fixes: f5030564938b ("ALSA: cs35l41: Add shared boost feature")
Signed-off-by: Cristian Ciocaltea <cristian.ciocaltea@collabora.com>
Reviewed-by: David Rhodes <david.rhodes@cirrus.com>
Reviewed-by: Takashi Iwai <tiwai@suse.de>
Link: https://lore.kernel.org/r/20230907171010.1447274-5-cristian.ciocaltea@collabora.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2023-09-07 20:10:03 +03:00
/* Clear PUP/PDN status */
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regmap_write ( regmap , CS35L41_IRQ1_STATUS1 , pup_pdn_mask ) ;
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break ;
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case CS35L41_INT_BOOST :
ret = regmap_update_bits ( regmap , CS35L41_PWR_CTRL1 , CS35L41_GLOBAL_EN_MASK ,
enable < < CS35L41_GLOBAL_EN_SHIFT ) ;
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if ( ret ) {
dev_err ( dev , " CS35L41_PWR_CTRL1 set failed: %d \n " , ret ) ;
return ret ;
}
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ret = regmap_read_poll_timeout ( regmap , CS35L41_IRQ1_STATUS1 ,
int_status , int_status & pup_pdn_mask ,
1000 , 100000 ) ;
if ( ret )
dev_err ( dev , " Enable(%d) failed: %d \n " , enable , ret ) ;
/* Clear PUP/PDN status */
regmap_write ( regmap , CS35L41_IRQ1_STATUS1 , pup_pdn_mask ) ;
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break ;
case CS35L41_EXT_BOOST :
case CS35L41_EXT_BOOST_NO_VSPK_SWITCH :
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if ( enable ) {
/* Test Key is unlocked here */
ret = regmap_multi_reg_write ( regmap , cs35l41_safe_to_active_start ,
ARRAY_SIZE ( cs35l41_safe_to_active_start ) ) ;
if ( ret )
return ret ;
2023-07-21 18:18:07 +03:00
ret = regmap_read_poll_timeout ( regmap , CS35L41_IRQ1_STATUS1 , int_status ,
int_status & CS35L41_PUP_DONE_MASK , 1000 , 100000 ) ;
if ( ret ) {
dev_err ( dev , " Failed waiting for CS35L41_PUP_DONE_MASK: %d \n " , ret ) ;
/* Lock the test key, it was unlocked during the multi_reg_write */
cs35l41_test_key_lock ( dev , regmap ) ;
return ret ;
}
regmap_write ( regmap , CS35L41_IRQ1_STATUS1 , CS35L41_PUP_DONE_MASK ) ;
2023-07-21 18:18:06 +03:00
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if ( dsp - > running & & dsp - > fw_id_version > CS35L41_FIRMWARE_OLD_VERSION )
2023-07-21 18:18:06 +03:00
ret = cs35l41_set_cspl_mbox_cmd ( dev , regmap ,
CSPL_MBOX_CMD_SPK_OUT_ENABLE ) ;
else
ret = regmap_multi_reg_write ( regmap , cs35l41_safe_to_active_en_spk ,
ARRAY_SIZE ( cs35l41_safe_to_active_en_spk ) ) ;
/* Lock the test key, it was unlocked during the multi_reg_write */
cs35l41_test_key_lock ( dev , regmap ) ;
} else {
/* Test Key is unlocked here */
ret = regmap_multi_reg_write ( regmap , cs35l41_active_to_safe_start ,
ARRAY_SIZE ( cs35l41_active_to_safe_start ) ) ;
if ( ret ) {
/* Lock the test key, it was unlocked during the multi_reg_write */
cs35l41_test_key_lock ( dev , regmap ) ;
return ret ;
}
2023-07-21 18:18:07 +03:00
ret = regmap_read_poll_timeout ( regmap , CS35L41_IRQ1_STATUS1 , int_status ,
int_status & CS35L41_PDN_DONE_MASK , 1000 , 100000 ) ;
if ( ret ) {
dev_err ( dev , " Failed waiting for CS35L41_PDN_DONE_MASK: %d \n " , ret ) ;
/* Lock the test key, it was unlocked during the multi_reg_write */
cs35l41_test_key_lock ( dev , regmap ) ;
return ret ;
}
regmap_write ( regmap , CS35L41_IRQ1_STATUS1 , CS35L41_PDN_DONE_MASK ) ;
2023-07-21 18:18:06 +03:00
/* Test Key is locked here */
ret = regmap_multi_reg_write ( regmap , cs35l41_active_to_safe_end ,
ARRAY_SIZE ( cs35l41_active_to_safe_end ) ) ;
}
2022-04-13 11:37:26 +03:00
break ;
default :
ret = - EINVAL ;
break ;
}
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_global_enable ) ;
ASoC: cs35l41: Fix broken shared boost activation
Enabling the active/passive shared boosts requires setting SYNC_EN, but
*not* before receiving the PLL Lock signal.
Due to improper error handling, it was not obvious that waiting for the
completion operation times out and, consequently, the shared boost is
never activated.
Further investigations revealed the signal is triggered while
snd_pcm_start() is executed, right after receiving the
SNDRV_PCM_TRIGGER_START command, which happens long after the
SND_SOC_DAPM_PRE_PMU event handler is invoked as part of
snd_pcm_prepare(). That is where cs35l41_global_enable() is called
from.
Increasing the wait duration doesn't help, as it only causes an
unnecessary delay in the invocation of snd_pcm_start(). Moving the wait
and the subsequent regmap operations to the SNDRV_PCM_TRIGGER_START
callback is not a solution either, since they would be executed in an
IRQ-off atomic context.
Solve the issue by setting the SYNC_EN bit in PWR_CTRL3 register right
after receiving the PLL Lock interrupt.
Additionally, drop the unnecessary writes to PWR_CTRL1 register, part of
the original mdsync_up_seq, which would have toggled GLOBAL_EN with
unwanted consequences on PLL locking behavior.
Fixes: f5030564938b ("ALSA: cs35l41: Add shared boost feature")
Signed-off-by: Cristian Ciocaltea <cristian.ciocaltea@collabora.com>
Reviewed-by: David Rhodes <david.rhodes@cirrus.com>
Reviewed-by: Takashi Iwai <tiwai@suse.de>
Link: https://lore.kernel.org/r/20230907171010.1447274-5-cristian.ciocaltea@collabora.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2023-09-07 20:10:03 +03:00
/*
* To be called after receiving the IRQ Lock interrupt , in order to complete
* any shared boost activation initiated by cs35l41_global_enable ( ) .
*/
int cs35l41_mdsync_up ( struct regmap * regmap )
{
return regmap_update_bits ( regmap , CS35L41_PWR_CTRL3 ,
CS35L41_SYNC_EN_MASK , CS35L41_SYNC_EN_MASK ) ;
}
EXPORT_SYMBOL_GPL ( cs35l41_mdsync_up ) ;
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int cs35l41_gpio_config ( struct regmap * regmap , struct cs35l41_hw_cfg * hw_cfg )
{
struct cs35l41_gpio_cfg * gpio1 = & hw_cfg - > gpio1 ;
struct cs35l41_gpio_cfg * gpio2 = & hw_cfg - > gpio2 ;
int irq_pol = IRQF_TRIGGER_NONE ;
regmap_update_bits ( regmap , CS35L41_GPIO1_CTRL1 ,
CS35L41_GPIO_POL_MASK | CS35L41_GPIO_DIR_MASK ,
gpio1 - > pol_inv < < CS35L41_GPIO_POL_SHIFT |
! gpio1 - > out_en < < CS35L41_GPIO_DIR_SHIFT ) ;
regmap_update_bits ( regmap , CS35L41_GPIO2_CTRL1 ,
CS35L41_GPIO_POL_MASK | CS35L41_GPIO_DIR_MASK ,
gpio2 - > pol_inv < < CS35L41_GPIO_POL_SHIFT |
! gpio2 - > out_en < < CS35L41_GPIO_DIR_SHIFT ) ;
if ( gpio1 - > valid )
regmap_update_bits ( regmap , CS35L41_GPIO_PAD_CONTROL , CS35L41_GPIO1_CTRL_MASK ,
gpio1 - > func < < CS35L41_GPIO1_CTRL_SHIFT ) ;
if ( gpio2 - > valid ) {
regmap_update_bits ( regmap , CS35L41_GPIO_PAD_CONTROL , CS35L41_GPIO2_CTRL_MASK ,
gpio2 - > func < < CS35L41_GPIO2_CTRL_SHIFT ) ;
switch ( gpio2 - > func ) {
case CS35L41_GPIO2_INT_PUSH_PULL_LOW :
case CS35L41_GPIO2_INT_OPEN_DRAIN :
irq_pol = IRQF_TRIGGER_LOW ;
break ;
case CS35L41_GPIO2_INT_PUSH_PULL_HIGH :
irq_pol = IRQF_TRIGGER_HIGH ;
break ;
default :
break ;
}
}
return irq_pol ;
}
EXPORT_SYMBOL_GPL ( cs35l41_gpio_config ) ;
2022-05-10 00:46:45 +03:00
static const struct cs_dsp_region cs35l41_dsp1_regions [ ] = {
{ . type = WMFW_HALO_PM_PACKED , . base = CS35L41_DSP1_PMEM_0 } ,
{ . type = WMFW_HALO_XM_PACKED , . base = CS35L41_DSP1_XMEM_PACK_0 } ,
{ . type = WMFW_HALO_YM_PACKED , . base = CS35L41_DSP1_YMEM_PACK_0 } ,
{ . type = WMFW_ADSP2_XM , . base = CS35L41_DSP1_XMEM_UNPACK24_0 } ,
{ . type = WMFW_ADSP2_YM , . base = CS35L41_DSP1_YMEM_UNPACK24_0 } ,
} ;
void cs35l41_configure_cs_dsp ( struct device * dev , struct regmap * reg , struct cs_dsp * dsp )
{
dsp - > num = 1 ;
dsp - > type = WMFW_HALO ;
dsp - > rev = 0 ;
dsp - > dev = dev ;
dsp - > regmap = reg ;
dsp - > base = CS35L41_DSP1_CTRL_BASE ;
dsp - > base_sysinfo = CS35L41_DSP1_SYS_ID ;
dsp - > mem = cs35l41_dsp1_regions ;
dsp - > num_mems = ARRAY_SIZE ( cs35l41_dsp1_regions ) ;
dsp - > lock_regions = 0xFFFFFFFF ;
}
EXPORT_SYMBOL_GPL ( cs35l41_configure_cs_dsp ) ;
2022-05-10 00:46:43 +03:00
static bool cs35l41_check_cspl_mbox_sts ( enum cs35l41_cspl_mbox_cmd cmd ,
enum cs35l41_cspl_mbox_status sts )
{
switch ( cmd ) {
case CSPL_MBOX_CMD_NONE :
case CSPL_MBOX_CMD_UNKNOWN_CMD :
return true ;
case CSPL_MBOX_CMD_PAUSE :
case CSPL_MBOX_CMD_OUT_OF_HIBERNATE :
return ( sts = = CSPL_MBOX_STS_PAUSED ) ;
case CSPL_MBOX_CMD_RESUME :
return ( sts = = CSPL_MBOX_STS_RUNNING ) ;
case CSPL_MBOX_CMD_REINIT :
return ( sts = = CSPL_MBOX_STS_RUNNING ) ;
case CSPL_MBOX_CMD_STOP_PRE_REINIT :
return ( sts = = CSPL_MBOX_STS_RDY_FOR_REINIT ) ;
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case CSPL_MBOX_CMD_SPK_OUT_ENABLE :
return ( sts = = CSPL_MBOX_STS_RUNNING ) ;
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default :
return false ;
}
}
int cs35l41_set_cspl_mbox_cmd ( struct device * dev , struct regmap * regmap ,
enum cs35l41_cspl_mbox_cmd cmd )
{
unsigned int sts = 0 , i ;
int ret ;
// Set mailbox cmd
ret = regmap_write ( regmap , CS35L41_DSP_VIRT1_MBOX_1 , cmd ) ;
if ( ret < 0 ) {
if ( cmd ! = CSPL_MBOX_CMD_OUT_OF_HIBERNATE )
dev_err ( dev , " Failed to write MBOX: %d \n " , ret ) ;
return ret ;
}
// Read mailbox status and verify it is appropriate for the given cmd
for ( i = 0 ; i < 5 ; i + + ) {
usleep_range ( 1000 , 1100 ) ;
ret = regmap_read ( regmap , CS35L41_DSP_MBOX_2 , & sts ) ;
if ( ret < 0 ) {
dev_err ( dev , " Failed to read MBOX STS: %d \n " , ret ) ;
continue ;
}
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if ( sts = = CSPL_MBOX_STS_ERROR | | sts = = CSPL_MBOX_STS_ERROR2 ) {
dev_err ( dev , " CSPL Error Detected \n " ) ;
return - EINVAL ;
}
2022-05-10 00:46:43 +03:00
if ( ! cs35l41_check_cspl_mbox_sts ( cmd , sts ) )
dev_dbg ( dev , " [%u] cmd %u returned invalid sts %u " , i , cmd , sts ) ;
else
return 0 ;
}
2022-05-25 16:16:31 +03:00
if ( cmd ! = CSPL_MBOX_CMD_OUT_OF_HIBERNATE )
dev_err ( dev , " Failed to set mailbox cmd %u (status %u) \n " , cmd , sts ) ;
2022-05-10 00:46:43 +03:00
return - ENOMSG ;
}
EXPORT_SYMBOL_GPL ( cs35l41_set_cspl_mbox_cmd ) ;
2022-05-10 00:46:44 +03:00
int cs35l41_write_fs_errata ( struct device * dev , struct regmap * regmap )
{
int ret ;
ret = regmap_multi_reg_write ( regmap , cs35l41_fs_errata_patch ,
ARRAY_SIZE ( cs35l41_fs_errata_patch ) ) ;
if ( ret < 0 )
dev_err ( dev , " Failed to write fs errata: %d \n " , ret ) ;
return ret ;
}
EXPORT_SYMBOL_GPL ( cs35l41_write_fs_errata ) ;
2022-05-25 16:16:32 +03:00
int cs35l41_enter_hibernate ( struct device * dev , struct regmap * regmap ,
enum cs35l41_boost_type b_type )
{
if ( ! cs35l41_safe_reset ( regmap , b_type ) ) {
dev_dbg ( dev , " System does not support Suspend \n " ) ;
return - EINVAL ;
}
dev_dbg ( dev , " Enter hibernate \n " ) ;
regmap_write ( regmap , CS35L41_WAKESRC_CTL , 0x0088 ) ;
regmap_write ( regmap , CS35L41_WAKESRC_CTL , 0x0188 ) ;
// Don't wait for ACK since bus activity would wake the device
regmap_write ( regmap , CS35L41_DSP_VIRT1_MBOX_1 , CSPL_MBOX_CMD_HIBERNATE ) ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( cs35l41_enter_hibernate ) ;
2022-05-25 16:16:30 +03:00
static void cs35l41_wait_for_pwrmgt_sts ( struct device * dev , struct regmap * regmap )
{
const int pwrmgt_retries = 10 ;
unsigned int sts ;
int i , ret ;
for ( i = 0 ; i < pwrmgt_retries ; i + + ) {
ret = regmap_read ( regmap , CS35L41_PWRMGT_STS , & sts ) ;
if ( ret )
dev_err ( dev , " Failed to read PWRMGT_STS: %d \n " , ret ) ;
else if ( ! ( sts & CS35L41_WR_PEND_STS_MASK ) )
return ;
udelay ( 20 ) ;
}
dev_err ( dev , " Timed out reading PWRMGT_STS \n " ) ;
}
int cs35l41_exit_hibernate ( struct device * dev , struct regmap * regmap )
{
const int wake_retries = 20 ;
const int sleep_retries = 5 ;
int ret , i , j ;
for ( i = 0 ; i < sleep_retries ; i + + ) {
dev_dbg ( dev , " Exit hibernate \n " ) ;
for ( j = 0 ; j < wake_retries ; j + + ) {
ret = cs35l41_set_cspl_mbox_cmd ( dev , regmap ,
CSPL_MBOX_CMD_OUT_OF_HIBERNATE ) ;
if ( ! ret )
break ;
usleep_range ( 100 , 200 ) ;
}
if ( j < wake_retries ) {
dev_dbg ( dev , " Wake success at cycle: %d \n " , j ) ;
return 0 ;
}
dev_err ( dev , " Wake failed, re-enter hibernate: %d \n " , ret ) ;
cs35l41_wait_for_pwrmgt_sts ( dev , regmap ) ;
regmap_write ( regmap , CS35L41_WAKESRC_CTL , 0x0088 ) ;
cs35l41_wait_for_pwrmgt_sts ( dev , regmap ) ;
regmap_write ( regmap , CS35L41_WAKESRC_CTL , 0x0188 ) ;
cs35l41_wait_for_pwrmgt_sts ( dev , regmap ) ;
regmap_write ( regmap , CS35L41_PWRMGT_CTL , 0x3 ) ;
}
dev_err ( dev , " Timed out waking device \n " ) ;
return - ETIMEDOUT ;
}
EXPORT_SYMBOL_GPL ( cs35l41_exit_hibernate ) ;
2021-12-17 14:56:59 +03:00
MODULE_DESCRIPTION ( " CS35L41 library " ) ;
MODULE_AUTHOR ( " David Rhodes, Cirrus Logic Inc, <david.rhodes@cirrus.com> " ) ;
MODULE_AUTHOR ( " Lucas Tanure, Cirrus Logic Inc, <tanureal@opensource.cirrus.com> " ) ;
MODULE_LICENSE ( " GPL " ) ;