linux/sound/soc/qcom/qdsp6/q6afe.c
Charles Keepax 1148e16b33
ASoC: qcom: Update to use set_fmt_new callback
As part of updating the core to directly tell drivers if they are clock
provider or consumer update these CPU side drivers to use the new direct
callback.

Signed-off-by: Charles Keepax <ckeepax@opensource.cirrus.com>
Link: https://lore.kernel.org/r/20220519154318.2153729-18-ckeepax@opensource.cirrus.com
Signed-off-by: Mark Brown <broonie@kernel.org>
2022-06-06 12:33:42 +01:00

1774 lines
53 KiB
C

// SPDX-License-Identifier: GPL-2.0
// Copyright (c) 2011-2017, The Linux Foundation. All rights reserved.
// Copyright (c) 2018, Linaro Limited
#include <linux/slab.h>
#include <linux/kernel.h>
#include <linux/uaccess.h>
#include <linux/wait.h>
#include <linux/jiffies.h>
#include <linux/sched.h>
#include <linux/module.h>
#include <linux/kref.h>
#include <linux/of.h>
#include <linux/of_platform.h>
#include <linux/spinlock.h>
#include <linux/delay.h>
#include <linux/soc/qcom/apr.h>
#include <sound/soc.h>
#include <sound/soc-dai.h>
#include <sound/pcm.h>
#include <sound/pcm_params.h>
#include "q6dsp-errno.h"
#include "q6core.h"
#include "q6afe.h"
/* AFE CMDs */
#define AFE_PORT_CMD_DEVICE_START 0x000100E5
#define AFE_PORT_CMD_DEVICE_STOP 0x000100E6
#define AFE_PORT_CMD_SET_PARAM_V2 0x000100EF
#define AFE_SVC_CMD_SET_PARAM 0x000100f3
#define AFE_PORT_CMDRSP_GET_PARAM_V2 0x00010106
#define AFE_PARAM_ID_HDMI_CONFIG 0x00010210
#define AFE_MODULE_AUDIO_DEV_INTERFACE 0x0001020C
#define AFE_MODULE_TDM 0x0001028A
#define AFE_PARAM_ID_CDC_SLIMBUS_SLAVE_CFG 0x00010235
#define AFE_PARAM_ID_LPAIF_CLK_CONFIG 0x00010238
#define AFE_PARAM_ID_INT_DIGITAL_CDC_CLK_CONFIG 0x00010239
#define AFE_PARAM_ID_SLIMBUS_CONFIG 0x00010212
#define AFE_PARAM_ID_I2S_CONFIG 0x0001020D
#define AFE_PARAM_ID_TDM_CONFIG 0x0001029D
#define AFE_PARAM_ID_PORT_SLOT_MAPPING_CONFIG 0x00010297
#define AFE_PARAM_ID_CODEC_DMA_CONFIG 0x000102B8
#define AFE_CMD_REMOTE_LPASS_CORE_HW_VOTE_REQUEST 0x000100f4
#define AFE_CMD_RSP_REMOTE_LPASS_CORE_HW_VOTE_REQUEST 0x000100f5
#define AFE_CMD_REMOTE_LPASS_CORE_HW_DEVOTE_REQUEST 0x000100f6
/* I2S config specific */
#define AFE_API_VERSION_I2S_CONFIG 0x1
#define AFE_PORT_I2S_SD0 0x1
#define AFE_PORT_I2S_SD1 0x2
#define AFE_PORT_I2S_SD2 0x3
#define AFE_PORT_I2S_SD3 0x4
#define AFE_PORT_I2S_SD0_MASK BIT(0x0)
#define AFE_PORT_I2S_SD1_MASK BIT(0x1)
#define AFE_PORT_I2S_SD2_MASK BIT(0x2)
#define AFE_PORT_I2S_SD3_MASK BIT(0x3)
#define AFE_PORT_I2S_SD0_1_MASK GENMASK(1, 0)
#define AFE_PORT_I2S_SD2_3_MASK GENMASK(3, 2)
#define AFE_PORT_I2S_SD0_1_2_MASK GENMASK(2, 0)
#define AFE_PORT_I2S_SD0_1_2_3_MASK GENMASK(3, 0)
#define AFE_PORT_I2S_QUAD01 0x5
#define AFE_PORT_I2S_QUAD23 0x6
#define AFE_PORT_I2S_6CHS 0x7
#define AFE_PORT_I2S_8CHS 0x8
#define AFE_PORT_I2S_MONO 0x0
#define AFE_PORT_I2S_STEREO 0x1
#define AFE_PORT_CONFIG_I2S_WS_SRC_EXTERNAL 0x0
#define AFE_PORT_CONFIG_I2S_WS_SRC_INTERNAL 0x1
#define AFE_LINEAR_PCM_DATA 0x0
/* Port IDs */
#define AFE_API_VERSION_HDMI_CONFIG 0x1
#define AFE_PORT_ID_MULTICHAN_HDMI_RX 0x100E
#define AFE_PORT_ID_HDMI_OVER_DP_RX 0x6020
#define AFE_API_VERSION_SLIMBUS_CONFIG 0x1
/* Clock set API version */
#define AFE_API_VERSION_CLOCK_SET 1
#define Q6AFE_LPASS_CLK_CONFIG_API_VERSION 0x1
#define AFE_MODULE_CLOCK_SET 0x0001028F
#define AFE_PARAM_ID_CLOCK_SET 0x00010290
/* SLIMbus Rx port on channel 0. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_0_RX 0x4000
/* SLIMbus Tx port on channel 0. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_0_TX 0x4001
/* SLIMbus Rx port on channel 1. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_1_RX 0x4002
/* SLIMbus Tx port on channel 1. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_1_TX 0x4003
/* SLIMbus Rx port on channel 2. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_2_RX 0x4004
/* SLIMbus Tx port on channel 2. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_2_TX 0x4005
/* SLIMbus Rx port on channel 3. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_3_RX 0x4006
/* SLIMbus Tx port on channel 3. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_3_TX 0x4007
/* SLIMbus Rx port on channel 4. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_4_RX 0x4008
/* SLIMbus Tx port on channel 4. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_4_TX 0x4009
/* SLIMbus Rx port on channel 5. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_5_RX 0x400a
/* SLIMbus Tx port on channel 5. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_5_TX 0x400b
/* SLIMbus Rx port on channel 6. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_6_RX 0x400c
/* SLIMbus Tx port on channel 6. */
#define AFE_PORT_ID_SLIMBUS_MULTI_CHAN_6_TX 0x400d
#define AFE_PORT_ID_PRIMARY_MI2S_RX 0x1000
#define AFE_PORT_ID_PRIMARY_MI2S_TX 0x1001
#define AFE_PORT_ID_SECONDARY_MI2S_RX 0x1002
#define AFE_PORT_ID_SECONDARY_MI2S_TX 0x1003
#define AFE_PORT_ID_TERTIARY_MI2S_RX 0x1004
#define AFE_PORT_ID_TERTIARY_MI2S_TX 0x1005
#define AFE_PORT_ID_QUATERNARY_MI2S_RX 0x1006
#define AFE_PORT_ID_QUATERNARY_MI2S_TX 0x1007
#define AFE_PORT_ID_QUINARY_MI2S_RX 0x1016
#define AFE_PORT_ID_QUINARY_MI2S_TX 0x1017
/* Start of the range of port IDs for TDM devices. */
#define AFE_PORT_ID_TDM_PORT_RANGE_START 0x9000
/* End of the range of port IDs for TDM devices. */
#define AFE_PORT_ID_TDM_PORT_RANGE_END \
(AFE_PORT_ID_TDM_PORT_RANGE_START+0x50-1)
/* Size of the range of port IDs for TDM ports. */
#define AFE_PORT_ID_TDM_PORT_RANGE_SIZE \
(AFE_PORT_ID_TDM_PORT_RANGE_END - \
AFE_PORT_ID_TDM_PORT_RANGE_START+1)
#define AFE_PORT_ID_PRIMARY_TDM_RX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x00)
#define AFE_PORT_ID_PRIMARY_TDM_RX_1 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x02)
#define AFE_PORT_ID_PRIMARY_TDM_RX_2 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x04)
#define AFE_PORT_ID_PRIMARY_TDM_RX_3 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x06)
#define AFE_PORT_ID_PRIMARY_TDM_RX_4 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x08)
#define AFE_PORT_ID_PRIMARY_TDM_RX_5 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x0A)
#define AFE_PORT_ID_PRIMARY_TDM_RX_6 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x0C)
#define AFE_PORT_ID_PRIMARY_TDM_RX_7 \
(AFE_PORT_ID_PRIMARY_TDM_RX + 0x0E)
#define AFE_PORT_ID_PRIMARY_TDM_TX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x01)
#define AFE_PORT_ID_PRIMARY_TDM_TX_1 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x02)
#define AFE_PORT_ID_PRIMARY_TDM_TX_2 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x04)
#define AFE_PORT_ID_PRIMARY_TDM_TX_3 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x06)
#define AFE_PORT_ID_PRIMARY_TDM_TX_4 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x08)
#define AFE_PORT_ID_PRIMARY_TDM_TX_5 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x0A)
#define AFE_PORT_ID_PRIMARY_TDM_TX_6 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x0C)
#define AFE_PORT_ID_PRIMARY_TDM_TX_7 \
(AFE_PORT_ID_PRIMARY_TDM_TX + 0x0E)
#define AFE_PORT_ID_SECONDARY_TDM_RX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x10)
#define AFE_PORT_ID_SECONDARY_TDM_RX_1 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x02)
#define AFE_PORT_ID_SECONDARY_TDM_RX_2 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x04)
#define AFE_PORT_ID_SECONDARY_TDM_RX_3 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x06)
#define AFE_PORT_ID_SECONDARY_TDM_RX_4 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x08)
#define AFE_PORT_ID_SECONDARY_TDM_RX_5 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x0A)
#define AFE_PORT_ID_SECONDARY_TDM_RX_6 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x0C)
#define AFE_PORT_ID_SECONDARY_TDM_RX_7 \
(AFE_PORT_ID_SECONDARY_TDM_RX + 0x0E)
#define AFE_PORT_ID_SECONDARY_TDM_TX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x11)
#define AFE_PORT_ID_SECONDARY_TDM_TX_1 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x02)
#define AFE_PORT_ID_SECONDARY_TDM_TX_2 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x04)
#define AFE_PORT_ID_SECONDARY_TDM_TX_3 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x06)
#define AFE_PORT_ID_SECONDARY_TDM_TX_4 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x08)
#define AFE_PORT_ID_SECONDARY_TDM_TX_5 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x0A)
#define AFE_PORT_ID_SECONDARY_TDM_TX_6 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x0C)
#define AFE_PORT_ID_SECONDARY_TDM_TX_7 \
(AFE_PORT_ID_SECONDARY_TDM_TX + 0x0E)
#define AFE_PORT_ID_TERTIARY_TDM_RX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x20)
#define AFE_PORT_ID_TERTIARY_TDM_RX_1 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x02)
#define AFE_PORT_ID_TERTIARY_TDM_RX_2 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x04)
#define AFE_PORT_ID_TERTIARY_TDM_RX_3 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x06)
#define AFE_PORT_ID_TERTIARY_TDM_RX_4 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x08)
#define AFE_PORT_ID_TERTIARY_TDM_RX_5 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x0A)
#define AFE_PORT_ID_TERTIARY_TDM_RX_6 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x0C)
#define AFE_PORT_ID_TERTIARY_TDM_RX_7 \
(AFE_PORT_ID_TERTIARY_TDM_RX + 0x0E)
#define AFE_PORT_ID_TERTIARY_TDM_TX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x21)
#define AFE_PORT_ID_TERTIARY_TDM_TX_1 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x02)
#define AFE_PORT_ID_TERTIARY_TDM_TX_2 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x04)
#define AFE_PORT_ID_TERTIARY_TDM_TX_3 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x06)
#define AFE_PORT_ID_TERTIARY_TDM_TX_4 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x08)
#define AFE_PORT_ID_TERTIARY_TDM_TX_5 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x0A)
#define AFE_PORT_ID_TERTIARY_TDM_TX_6 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x0C)
#define AFE_PORT_ID_TERTIARY_TDM_TX_7 \
(AFE_PORT_ID_TERTIARY_TDM_TX + 0x0E)
#define AFE_PORT_ID_QUATERNARY_TDM_RX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x30)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_1 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x02)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_2 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x04)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_3 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x06)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_4 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x08)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_5 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x0A)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_6 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x0C)
#define AFE_PORT_ID_QUATERNARY_TDM_RX_7 \
(AFE_PORT_ID_QUATERNARY_TDM_RX + 0x0E)
#define AFE_PORT_ID_QUATERNARY_TDM_TX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x31)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_1 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x02)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_2 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x04)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_3 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x06)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_4 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x08)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_5 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x0A)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_6 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x0C)
#define AFE_PORT_ID_QUATERNARY_TDM_TX_7 \
(AFE_PORT_ID_QUATERNARY_TDM_TX + 0x0E)
#define AFE_PORT_ID_QUINARY_TDM_RX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x40)
#define AFE_PORT_ID_QUINARY_TDM_RX_1 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x02)
#define AFE_PORT_ID_QUINARY_TDM_RX_2 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x04)
#define AFE_PORT_ID_QUINARY_TDM_RX_3 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x06)
#define AFE_PORT_ID_QUINARY_TDM_RX_4 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x08)
#define AFE_PORT_ID_QUINARY_TDM_RX_5 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x0A)
#define AFE_PORT_ID_QUINARY_TDM_RX_6 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x0C)
#define AFE_PORT_ID_QUINARY_TDM_RX_7 \
(AFE_PORT_ID_QUINARY_TDM_RX + 0x0E)
#define AFE_PORT_ID_QUINARY_TDM_TX \
(AFE_PORT_ID_TDM_PORT_RANGE_START + 0x41)
#define AFE_PORT_ID_QUINARY_TDM_TX_1 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x02)
#define AFE_PORT_ID_QUINARY_TDM_TX_2 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x04)
#define AFE_PORT_ID_QUINARY_TDM_TX_3 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x06)
#define AFE_PORT_ID_QUINARY_TDM_TX_4 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x08)
#define AFE_PORT_ID_QUINARY_TDM_TX_5 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x0A)
#define AFE_PORT_ID_QUINARY_TDM_TX_6 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x0C)
#define AFE_PORT_ID_QUINARY_TDM_TX_7 \
(AFE_PORT_ID_QUINARY_TDM_TX + 0x0E)
/* AFE WSA Codec DMA Rx port 0 */
#define AFE_PORT_ID_WSA_CODEC_DMA_RX_0 0xB000
/* AFE WSA Codec DMA Tx port 0 */
#define AFE_PORT_ID_WSA_CODEC_DMA_TX_0 0xB001
/* AFE WSA Codec DMA Rx port 1 */
#define AFE_PORT_ID_WSA_CODEC_DMA_RX_1 0xB002
/* AFE WSA Codec DMA Tx port 1 */
#define AFE_PORT_ID_WSA_CODEC_DMA_TX_1 0xB003
/* AFE WSA Codec DMA Tx port 2 */
#define AFE_PORT_ID_WSA_CODEC_DMA_TX_2 0xB005
/* AFE VA Codec DMA Tx port 0 */
#define AFE_PORT_ID_VA_CODEC_DMA_TX_0 0xB021
/* AFE VA Codec DMA Tx port 1 */
#define AFE_PORT_ID_VA_CODEC_DMA_TX_1 0xB023
/* AFE VA Codec DMA Tx port 2 */
#define AFE_PORT_ID_VA_CODEC_DMA_TX_2 0xB025
/* AFE Rx Codec DMA Rx port 0 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_0 0xB030
/* AFE Tx Codec DMA Tx port 0 */
#define AFE_PORT_ID_TX_CODEC_DMA_TX_0 0xB031
/* AFE Rx Codec DMA Rx port 1 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_1 0xB032
/* AFE Tx Codec DMA Tx port 1 */
#define AFE_PORT_ID_TX_CODEC_DMA_TX_1 0xB033
/* AFE Rx Codec DMA Rx port 2 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_2 0xB034
/* AFE Tx Codec DMA Tx port 2 */
#define AFE_PORT_ID_TX_CODEC_DMA_TX_2 0xB035
/* AFE Rx Codec DMA Rx port 3 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_3 0xB036
/* AFE Tx Codec DMA Tx port 3 */
#define AFE_PORT_ID_TX_CODEC_DMA_TX_3 0xB037
/* AFE Rx Codec DMA Rx port 4 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_4 0xB038
/* AFE Tx Codec DMA Tx port 4 */
#define AFE_PORT_ID_TX_CODEC_DMA_TX_4 0xB039
/* AFE Rx Codec DMA Rx port 5 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_5 0xB03A
/* AFE Tx Codec DMA Tx port 5 */
#define AFE_PORT_ID_TX_CODEC_DMA_TX_5 0xB03B
/* AFE Rx Codec DMA Rx port 6 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_6 0xB03C
/* AFE Rx Codec DMA Rx port 7 */
#define AFE_PORT_ID_RX_CODEC_DMA_RX_7 0xB03E
#define Q6AFE_LPASS_MODE_CLK1_VALID 1
#define Q6AFE_LPASS_MODE_CLK2_VALID 2
#define Q6AFE_LPASS_CLK_SRC_INTERNAL 1
#define Q6AFE_LPASS_CLK_ROOT_DEFAULT 0
#define AFE_API_VERSION_TDM_CONFIG 1
#define AFE_API_VERSION_SLOT_MAPPING_CONFIG 1
#define AFE_API_VERSION_CODEC_DMA_CONFIG 1
#define TIMEOUT_MS 1000
#define AFE_CMD_RESP_AVAIL 0
#define AFE_CMD_RESP_NONE 1
#define AFE_CLK_TOKEN 1024
struct q6afe {
struct apr_device *apr;
struct device *dev;
struct q6core_svc_api_info ainfo;
struct mutex lock;
struct aprv2_ibasic_rsp_result_t result;
wait_queue_head_t wait;
struct list_head port_list;
spinlock_t port_list_lock;
};
struct afe_port_cmd_device_start {
u16 port_id;
u16 reserved;
} __packed;
struct afe_port_cmd_device_stop {
u16 port_id;
u16 reserved;
/* Reserved for 32-bit alignment. This field must be set to 0.*/
} __packed;
struct afe_port_param_data_v2 {
u32 module_id;
u32 param_id;
u16 param_size;
u16 reserved;
} __packed;
struct afe_svc_cmd_set_param {
uint32_t payload_size;
uint32_t payload_address_lsw;
uint32_t payload_address_msw;
uint32_t mem_map_handle;
} __packed;
struct afe_port_cmd_set_param_v2 {
u16 port_id;
u16 payload_size;
u32 payload_address_lsw;
u32 payload_address_msw;
u32 mem_map_handle;
} __packed;
struct afe_param_id_hdmi_multi_chan_audio_cfg {
u32 hdmi_cfg_minor_version;
u16 datatype;
u16 channel_allocation;
u32 sample_rate;
u16 bit_width;
u16 reserved;
} __packed;
struct afe_param_id_slimbus_cfg {
u32 sb_cfg_minor_version;
/* Minor version used for tracking the version of the SLIMBUS
* configuration interface.
* Supported values: #AFE_API_VERSION_SLIMBUS_CONFIG
*/
u16 slimbus_dev_id;
/* SLIMbus hardware device ID, which is required to handle
* multiple SLIMbus hardware blocks.
* Supported values: - #AFE_SLIMBUS_DEVICE_1 - #AFE_SLIMBUS_DEVICE_2
*/
u16 bit_width;
/* Bit width of the sample.
* Supported values: 16, 24
*/
u16 data_format;
/* Data format supported by the SLIMbus hardware. The default is
* 0 (#AFE_SB_DATA_FORMAT_NOT_INDICATED), which indicates the
* hardware does not perform any format conversions before the data
* transfer.
*/
u16 num_channels;
/* Number of channels.
* Supported values: 1 to #AFE_PORT_MAX_AUDIO_CHAN_CNT
*/
u8 shared_ch_mapping[AFE_PORT_MAX_AUDIO_CHAN_CNT];
/* Mapping of shared channel IDs (128 to 255) to which the
* master port is to be connected.
* Shared_channel_mapping[i] represents the shared channel assigned
* for audio channel i in multichannel audio data.
*/
u32 sample_rate;
/* Sampling rate of the port.
* Supported values:
* - #AFE_PORT_SAMPLE_RATE_8K
* - #AFE_PORT_SAMPLE_RATE_16K
* - #AFE_PORT_SAMPLE_RATE_48K
* - #AFE_PORT_SAMPLE_RATE_96K
* - #AFE_PORT_SAMPLE_RATE_192K
*/
} __packed;
struct afe_clk_cfg {
u32 i2s_cfg_minor_version;
u32 clk_val1;
u32 clk_val2;
u16 clk_src;
u16 clk_root;
u16 clk_set_mode;
u16 reserved;
} __packed;
struct afe_digital_clk_cfg {
u32 i2s_cfg_minor_version;
u32 clk_val;
u16 clk_root;
u16 reserved;
} __packed;
struct afe_param_id_i2s_cfg {
u32 i2s_cfg_minor_version;
u16 bit_width;
u16 channel_mode;
u16 mono_stereo;
u16 ws_src;
u32 sample_rate;
u16 data_format;
u16 reserved;
} __packed;
struct afe_param_id_tdm_cfg {
u32 tdm_cfg_minor_version;
u32 num_channels;
u32 sample_rate;
u32 bit_width;
u16 data_format;
u16 sync_mode;
u16 sync_src;
u16 nslots_per_frame;
u16 ctrl_data_out_enable;
u16 ctrl_invert_sync_pulse;
u16 ctrl_sync_data_delay;
u16 slot_width;
u32 slot_mask;
} __packed;
struct afe_param_id_cdc_dma_cfg {
u32 cdc_dma_cfg_minor_version;
u32 sample_rate;
u16 bit_width;
u16 data_format;
u16 num_channels;
u16 active_channels_mask;
} __packed;
union afe_port_config {
struct afe_param_id_hdmi_multi_chan_audio_cfg hdmi_multi_ch;
struct afe_param_id_slimbus_cfg slim_cfg;
struct afe_param_id_i2s_cfg i2s_cfg;
struct afe_param_id_tdm_cfg tdm_cfg;
struct afe_param_id_cdc_dma_cfg dma_cfg;
} __packed;
struct afe_clk_set {
uint32_t clk_set_minor_version;
uint32_t clk_id;
uint32_t clk_freq_in_hz;
uint16_t clk_attri;
uint16_t clk_root;
uint32_t enable;
};
struct afe_param_id_slot_mapping_cfg {
u32 minor_version;
u16 num_channels;
u16 bitwidth;
u32 data_align_type;
u16 ch_mapping[AFE_PORT_MAX_AUDIO_CHAN_CNT];
} __packed;
struct q6afe_port {
wait_queue_head_t wait;
union afe_port_config port_cfg;
struct afe_param_id_slot_mapping_cfg *scfg;
struct aprv2_ibasic_rsp_result_t result;
int token;
int id;
int cfg_type;
struct q6afe *afe;
struct kref refcount;
struct list_head node;
};
struct afe_cmd_remote_lpass_core_hw_vote_request {
uint32_t hw_block_id;
char client_name[8];
} __packed;
struct afe_cmd_remote_lpass_core_hw_devote_request {
uint32_t hw_block_id;
uint32_t client_handle;
} __packed;
struct afe_port_map {
int port_id;
int token;
int is_rx;
int is_dig_pcm;
};
/*
* Mapping between Virtual Port IDs to DSP AFE Port ID
* On B Family SoCs DSP Port IDs are consistent across multiple SoCs
* on A Family SoCs DSP port IDs are same as virtual Port IDs.
*/
static struct afe_port_map port_maps[AFE_PORT_MAX] = {
[HDMI_RX] = { AFE_PORT_ID_MULTICHAN_HDMI_RX, HDMI_RX, 1, 1},
[SLIMBUS_0_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_0_RX,
SLIMBUS_0_RX, 1, 1},
[SLIMBUS_1_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_1_RX,
SLIMBUS_1_RX, 1, 1},
[SLIMBUS_2_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_2_RX,
SLIMBUS_2_RX, 1, 1},
[SLIMBUS_3_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_3_RX,
SLIMBUS_3_RX, 1, 1},
[SLIMBUS_4_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_4_RX,
SLIMBUS_4_RX, 1, 1},
[SLIMBUS_5_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_5_RX,
SLIMBUS_5_RX, 1, 1},
[SLIMBUS_6_RX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_6_RX,
SLIMBUS_6_RX, 1, 1},
[SLIMBUS_0_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_0_TX,
SLIMBUS_0_TX, 0, 1},
[SLIMBUS_1_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_1_TX,
SLIMBUS_1_TX, 0, 1},
[SLIMBUS_2_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_2_TX,
SLIMBUS_2_TX, 0, 1},
[SLIMBUS_3_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_3_TX,
SLIMBUS_3_TX, 0, 1},
[SLIMBUS_4_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_4_TX,
SLIMBUS_4_TX, 0, 1},
[SLIMBUS_5_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_5_TX,
SLIMBUS_5_TX, 0, 1},
[SLIMBUS_6_TX] = { AFE_PORT_ID_SLIMBUS_MULTI_CHAN_6_TX,
SLIMBUS_6_TX, 0, 1},
[PRIMARY_MI2S_RX] = { AFE_PORT_ID_PRIMARY_MI2S_RX,
PRIMARY_MI2S_RX, 1, 1},
[PRIMARY_MI2S_TX] = { AFE_PORT_ID_PRIMARY_MI2S_TX,
PRIMARY_MI2S_RX, 0, 1},
[SECONDARY_MI2S_RX] = { AFE_PORT_ID_SECONDARY_MI2S_RX,
SECONDARY_MI2S_RX, 1, 1},
[SECONDARY_MI2S_TX] = { AFE_PORT_ID_SECONDARY_MI2S_TX,
SECONDARY_MI2S_TX, 0, 1},
[TERTIARY_MI2S_RX] = { AFE_PORT_ID_TERTIARY_MI2S_RX,
TERTIARY_MI2S_RX, 1, 1},
[TERTIARY_MI2S_TX] = { AFE_PORT_ID_TERTIARY_MI2S_TX,
TERTIARY_MI2S_TX, 0, 1},
[QUATERNARY_MI2S_RX] = { AFE_PORT_ID_QUATERNARY_MI2S_RX,
QUATERNARY_MI2S_RX, 1, 1},
[QUATERNARY_MI2S_TX] = { AFE_PORT_ID_QUATERNARY_MI2S_TX,
QUATERNARY_MI2S_TX, 0, 1},
[QUINARY_MI2S_RX] = { AFE_PORT_ID_QUINARY_MI2S_RX,
QUINARY_MI2S_RX, 1, 1},
[QUINARY_MI2S_TX] = { AFE_PORT_ID_QUINARY_MI2S_TX,
QUINARY_MI2S_TX, 0, 1},
[PRIMARY_TDM_RX_0] = { AFE_PORT_ID_PRIMARY_TDM_RX,
PRIMARY_TDM_RX_0, 1, 1},
[PRIMARY_TDM_TX_0] = { AFE_PORT_ID_PRIMARY_TDM_TX,
PRIMARY_TDM_TX_0, 0, 1},
[PRIMARY_TDM_RX_1] = { AFE_PORT_ID_PRIMARY_TDM_RX_1,
PRIMARY_TDM_RX_1, 1, 1},
[PRIMARY_TDM_TX_1] = { AFE_PORT_ID_PRIMARY_TDM_TX_1,
PRIMARY_TDM_TX_1, 0, 1},
[PRIMARY_TDM_RX_2] = { AFE_PORT_ID_PRIMARY_TDM_RX_2,
PRIMARY_TDM_RX_2, 1, 1},
[PRIMARY_TDM_TX_2] = { AFE_PORT_ID_PRIMARY_TDM_TX_2,
PRIMARY_TDM_TX_2, 0, 1},
[PRIMARY_TDM_RX_3] = { AFE_PORT_ID_PRIMARY_TDM_RX_3,
PRIMARY_TDM_RX_3, 1, 1},
[PRIMARY_TDM_TX_3] = { AFE_PORT_ID_PRIMARY_TDM_TX_3,
PRIMARY_TDM_TX_3, 0, 1},
[PRIMARY_TDM_RX_4] = { AFE_PORT_ID_PRIMARY_TDM_RX_4,
PRIMARY_TDM_RX_4, 1, 1},
[PRIMARY_TDM_TX_4] = { AFE_PORT_ID_PRIMARY_TDM_TX_4,
PRIMARY_TDM_TX_4, 0, 1},
[PRIMARY_TDM_RX_5] = { AFE_PORT_ID_PRIMARY_TDM_RX_5,
PRIMARY_TDM_RX_5, 1, 1},
[PRIMARY_TDM_TX_5] = { AFE_PORT_ID_PRIMARY_TDM_TX_5,
PRIMARY_TDM_TX_5, 0, 1},
[PRIMARY_TDM_RX_6] = { AFE_PORT_ID_PRIMARY_TDM_RX_6,
PRIMARY_TDM_RX_6, 1, 1},
[PRIMARY_TDM_TX_6] = { AFE_PORT_ID_PRIMARY_TDM_TX_6,
PRIMARY_TDM_TX_6, 0, 1},
[PRIMARY_TDM_RX_7] = { AFE_PORT_ID_PRIMARY_TDM_RX_7,
PRIMARY_TDM_RX_7, 1, 1},
[PRIMARY_TDM_TX_7] = { AFE_PORT_ID_PRIMARY_TDM_TX_7,
PRIMARY_TDM_TX_7, 0, 1},
[SECONDARY_TDM_RX_0] = { AFE_PORT_ID_SECONDARY_TDM_RX,
SECONDARY_TDM_RX_0, 1, 1},
[SECONDARY_TDM_TX_0] = { AFE_PORT_ID_SECONDARY_TDM_TX,
SECONDARY_TDM_TX_0, 0, 1},
[SECONDARY_TDM_RX_1] = { AFE_PORT_ID_SECONDARY_TDM_RX_1,
SECONDARY_TDM_RX_1, 1, 1},
[SECONDARY_TDM_TX_1] = { AFE_PORT_ID_SECONDARY_TDM_TX_1,
SECONDARY_TDM_TX_1, 0, 1},
[SECONDARY_TDM_RX_2] = { AFE_PORT_ID_SECONDARY_TDM_RX_2,
SECONDARY_TDM_RX_2, 1, 1},
[SECONDARY_TDM_TX_2] = { AFE_PORT_ID_SECONDARY_TDM_TX_2,
SECONDARY_TDM_TX_2, 0, 1},
[SECONDARY_TDM_RX_3] = { AFE_PORT_ID_SECONDARY_TDM_RX_3,
SECONDARY_TDM_RX_3, 1, 1},
[SECONDARY_TDM_TX_3] = { AFE_PORT_ID_SECONDARY_TDM_TX_3,
SECONDARY_TDM_TX_3, 0, 1},
[SECONDARY_TDM_RX_4] = { AFE_PORT_ID_SECONDARY_TDM_RX_4,
SECONDARY_TDM_RX_4, 1, 1},
[SECONDARY_TDM_TX_4] = { AFE_PORT_ID_SECONDARY_TDM_TX_4,
SECONDARY_TDM_TX_4, 0, 1},
[SECONDARY_TDM_RX_5] = { AFE_PORT_ID_SECONDARY_TDM_RX_5,
SECONDARY_TDM_RX_5, 1, 1},
[SECONDARY_TDM_TX_5] = { AFE_PORT_ID_SECONDARY_TDM_TX_5,
SECONDARY_TDM_TX_5, 0, 1},
[SECONDARY_TDM_RX_6] = { AFE_PORT_ID_SECONDARY_TDM_RX_6,
SECONDARY_TDM_RX_6, 1, 1},
[SECONDARY_TDM_TX_6] = { AFE_PORT_ID_SECONDARY_TDM_TX_6,
SECONDARY_TDM_TX_6, 0, 1},
[SECONDARY_TDM_RX_7] = { AFE_PORT_ID_SECONDARY_TDM_RX_7,
SECONDARY_TDM_RX_7, 1, 1},
[SECONDARY_TDM_TX_7] = { AFE_PORT_ID_SECONDARY_TDM_TX_7,
SECONDARY_TDM_TX_7, 0, 1},
[TERTIARY_TDM_RX_0] = { AFE_PORT_ID_TERTIARY_TDM_RX,
TERTIARY_TDM_RX_0, 1, 1},
[TERTIARY_TDM_TX_0] = { AFE_PORT_ID_TERTIARY_TDM_TX,
TERTIARY_TDM_TX_0, 0, 1},
[TERTIARY_TDM_RX_1] = { AFE_PORT_ID_TERTIARY_TDM_RX_1,
TERTIARY_TDM_RX_1, 1, 1},
[TERTIARY_TDM_TX_1] = { AFE_PORT_ID_TERTIARY_TDM_TX_1,
TERTIARY_TDM_TX_1, 0, 1},
[TERTIARY_TDM_RX_2] = { AFE_PORT_ID_TERTIARY_TDM_RX_2,
TERTIARY_TDM_RX_2, 1, 1},
[TERTIARY_TDM_TX_2] = { AFE_PORT_ID_TERTIARY_TDM_TX_2,
TERTIARY_TDM_TX_2, 0, 1},
[TERTIARY_TDM_RX_3] = { AFE_PORT_ID_TERTIARY_TDM_RX_3,
TERTIARY_TDM_RX_3, 1, 1},
[TERTIARY_TDM_TX_3] = { AFE_PORT_ID_TERTIARY_TDM_TX_3,
TERTIARY_TDM_TX_3, 0, 1},
[TERTIARY_TDM_RX_4] = { AFE_PORT_ID_TERTIARY_TDM_RX_4,
TERTIARY_TDM_RX_4, 1, 1},
[TERTIARY_TDM_TX_4] = { AFE_PORT_ID_TERTIARY_TDM_TX_4,
TERTIARY_TDM_TX_4, 0, 1},
[TERTIARY_TDM_RX_5] = { AFE_PORT_ID_TERTIARY_TDM_RX_5,
TERTIARY_TDM_RX_5, 1, 1},
[TERTIARY_TDM_TX_5] = { AFE_PORT_ID_TERTIARY_TDM_TX_5,
TERTIARY_TDM_TX_5, 0, 1},
[TERTIARY_TDM_RX_6] = { AFE_PORT_ID_TERTIARY_TDM_RX_6,
TERTIARY_TDM_RX_6, 1, 1},
[TERTIARY_TDM_TX_6] = { AFE_PORT_ID_TERTIARY_TDM_TX_6,
TERTIARY_TDM_TX_6, 0, 1},
[TERTIARY_TDM_RX_7] = { AFE_PORT_ID_TERTIARY_TDM_RX_7,
TERTIARY_TDM_RX_7, 1, 1},
[TERTIARY_TDM_TX_7] = { AFE_PORT_ID_TERTIARY_TDM_TX_7,
TERTIARY_TDM_TX_7, 0, 1},
[QUATERNARY_TDM_RX_0] = { AFE_PORT_ID_QUATERNARY_TDM_RX,
QUATERNARY_TDM_RX_0, 1, 1},
[QUATERNARY_TDM_TX_0] = { AFE_PORT_ID_QUATERNARY_TDM_TX,
QUATERNARY_TDM_TX_0, 0, 1},
[QUATERNARY_TDM_RX_1] = { AFE_PORT_ID_QUATERNARY_TDM_RX_1,
QUATERNARY_TDM_RX_1, 1, 1},
[QUATERNARY_TDM_TX_1] = { AFE_PORT_ID_QUATERNARY_TDM_TX_1,
QUATERNARY_TDM_TX_1, 0, 1},
[QUATERNARY_TDM_RX_2] = { AFE_PORT_ID_QUATERNARY_TDM_RX_2,
QUATERNARY_TDM_RX_2, 1, 1},
[QUATERNARY_TDM_TX_2] = { AFE_PORT_ID_QUATERNARY_TDM_TX_2,
QUATERNARY_TDM_TX_2, 0, 1},
[QUATERNARY_TDM_RX_3] = { AFE_PORT_ID_QUATERNARY_TDM_RX_3,
QUATERNARY_TDM_RX_3, 1, 1},
[QUATERNARY_TDM_TX_3] = { AFE_PORT_ID_QUATERNARY_TDM_TX_3,
QUATERNARY_TDM_TX_3, 0, 1},
[QUATERNARY_TDM_RX_4] = { AFE_PORT_ID_QUATERNARY_TDM_RX_4,
QUATERNARY_TDM_RX_4, 1, 1},
[QUATERNARY_TDM_TX_4] = { AFE_PORT_ID_QUATERNARY_TDM_TX_4,
QUATERNARY_TDM_TX_4, 0, 1},
[QUATERNARY_TDM_RX_5] = { AFE_PORT_ID_QUATERNARY_TDM_RX_5,
QUATERNARY_TDM_RX_5, 1, 1},
[QUATERNARY_TDM_TX_5] = { AFE_PORT_ID_QUATERNARY_TDM_TX_5,
QUATERNARY_TDM_TX_5, 0, 1},
[QUATERNARY_TDM_RX_6] = { AFE_PORT_ID_QUATERNARY_TDM_RX_6,
QUATERNARY_TDM_RX_6, 1, 1},
[QUATERNARY_TDM_TX_6] = { AFE_PORT_ID_QUATERNARY_TDM_TX_6,
QUATERNARY_TDM_TX_6, 0, 1},
[QUATERNARY_TDM_RX_7] = { AFE_PORT_ID_QUATERNARY_TDM_RX_7,
QUATERNARY_TDM_RX_7, 1, 1},
[QUATERNARY_TDM_TX_7] = { AFE_PORT_ID_QUATERNARY_TDM_TX_7,
QUATERNARY_TDM_TX_7, 0, 1},
[QUINARY_TDM_RX_0] = { AFE_PORT_ID_QUINARY_TDM_RX,
QUINARY_TDM_RX_0, 1, 1},
[QUINARY_TDM_TX_0] = { AFE_PORT_ID_QUINARY_TDM_TX,
QUINARY_TDM_TX_0, 0, 1},
[QUINARY_TDM_RX_1] = { AFE_PORT_ID_QUINARY_TDM_RX_1,
QUINARY_TDM_RX_1, 1, 1},
[QUINARY_TDM_TX_1] = { AFE_PORT_ID_QUINARY_TDM_TX_1,
QUINARY_TDM_TX_1, 0, 1},
[QUINARY_TDM_RX_2] = { AFE_PORT_ID_QUINARY_TDM_RX_2,
QUINARY_TDM_RX_2, 1, 1},
[QUINARY_TDM_TX_2] = { AFE_PORT_ID_QUINARY_TDM_TX_2,
QUINARY_TDM_TX_2, 0, 1},
[QUINARY_TDM_RX_3] = { AFE_PORT_ID_QUINARY_TDM_RX_3,
QUINARY_TDM_RX_3, 1, 1},
[QUINARY_TDM_TX_3] = { AFE_PORT_ID_QUINARY_TDM_TX_3,
QUINARY_TDM_TX_3, 0, 1},
[QUINARY_TDM_RX_4] = { AFE_PORT_ID_QUINARY_TDM_RX_4,
QUINARY_TDM_RX_4, 1, 1},
[QUINARY_TDM_TX_4] = { AFE_PORT_ID_QUINARY_TDM_TX_4,
QUINARY_TDM_TX_4, 0, 1},
[QUINARY_TDM_RX_5] = { AFE_PORT_ID_QUINARY_TDM_RX_5,
QUINARY_TDM_RX_5, 1, 1},
[QUINARY_TDM_TX_5] = { AFE_PORT_ID_QUINARY_TDM_TX_5,
QUINARY_TDM_TX_5, 0, 1},
[QUINARY_TDM_RX_6] = { AFE_PORT_ID_QUINARY_TDM_RX_6,
QUINARY_TDM_RX_6, 1, 1},
[QUINARY_TDM_TX_6] = { AFE_PORT_ID_QUINARY_TDM_TX_6,
QUINARY_TDM_TX_6, 0, 1},
[QUINARY_TDM_RX_7] = { AFE_PORT_ID_QUINARY_TDM_RX_7,
QUINARY_TDM_RX_7, 1, 1},
[QUINARY_TDM_TX_7] = { AFE_PORT_ID_QUINARY_TDM_TX_7,
QUINARY_TDM_TX_7, 0, 1},
[DISPLAY_PORT_RX] = { AFE_PORT_ID_HDMI_OVER_DP_RX,
DISPLAY_PORT_RX, 1, 1},
[WSA_CODEC_DMA_RX_0] = { AFE_PORT_ID_WSA_CODEC_DMA_RX_0,
WSA_CODEC_DMA_RX_0, 1, 1},
[WSA_CODEC_DMA_TX_0] = { AFE_PORT_ID_WSA_CODEC_DMA_TX_0,
WSA_CODEC_DMA_TX_0, 0, 1},
[WSA_CODEC_DMA_RX_1] = { AFE_PORT_ID_WSA_CODEC_DMA_RX_1,
WSA_CODEC_DMA_RX_1, 1, 1},
[WSA_CODEC_DMA_TX_1] = { AFE_PORT_ID_WSA_CODEC_DMA_TX_1,
WSA_CODEC_DMA_TX_1, 0, 1},
[WSA_CODEC_DMA_TX_2] = { AFE_PORT_ID_WSA_CODEC_DMA_TX_2,
WSA_CODEC_DMA_TX_2, 0, 1},
[VA_CODEC_DMA_TX_0] = { AFE_PORT_ID_VA_CODEC_DMA_TX_0,
VA_CODEC_DMA_TX_0, 0, 1},
[VA_CODEC_DMA_TX_1] = { AFE_PORT_ID_VA_CODEC_DMA_TX_1,
VA_CODEC_DMA_TX_1, 0, 1},
[VA_CODEC_DMA_TX_2] = { AFE_PORT_ID_VA_CODEC_DMA_TX_2,
VA_CODEC_DMA_TX_2, 0, 1},
[RX_CODEC_DMA_RX_0] = { AFE_PORT_ID_RX_CODEC_DMA_RX_0,
RX_CODEC_DMA_RX_0, 1, 1},
[TX_CODEC_DMA_TX_0] = { AFE_PORT_ID_TX_CODEC_DMA_TX_0,
TX_CODEC_DMA_TX_0, 0, 1},
[RX_CODEC_DMA_RX_1] = { AFE_PORT_ID_RX_CODEC_DMA_RX_1,
RX_CODEC_DMA_RX_1, 1, 1},
[TX_CODEC_DMA_TX_1] = { AFE_PORT_ID_TX_CODEC_DMA_TX_1,
TX_CODEC_DMA_TX_1, 0, 1},
[RX_CODEC_DMA_RX_2] = { AFE_PORT_ID_RX_CODEC_DMA_RX_2,
RX_CODEC_DMA_RX_2, 1, 1},
[TX_CODEC_DMA_TX_2] = { AFE_PORT_ID_TX_CODEC_DMA_TX_2,
TX_CODEC_DMA_TX_2, 0, 1},
[RX_CODEC_DMA_RX_3] = { AFE_PORT_ID_RX_CODEC_DMA_RX_3,
RX_CODEC_DMA_RX_3, 1, 1},
[TX_CODEC_DMA_TX_3] = { AFE_PORT_ID_TX_CODEC_DMA_TX_3,
TX_CODEC_DMA_TX_3, 0, 1},
[RX_CODEC_DMA_RX_4] = { AFE_PORT_ID_RX_CODEC_DMA_RX_4,
RX_CODEC_DMA_RX_4, 1, 1},
[TX_CODEC_DMA_TX_4] = { AFE_PORT_ID_TX_CODEC_DMA_TX_4,
TX_CODEC_DMA_TX_4, 0, 1},
[RX_CODEC_DMA_RX_5] = { AFE_PORT_ID_RX_CODEC_DMA_RX_5,
RX_CODEC_DMA_RX_5, 1, 1},
[TX_CODEC_DMA_TX_5] = { AFE_PORT_ID_TX_CODEC_DMA_TX_5,
TX_CODEC_DMA_TX_5, 0, 1},
[RX_CODEC_DMA_RX_6] = { AFE_PORT_ID_RX_CODEC_DMA_RX_6,
RX_CODEC_DMA_RX_6, 1, 1},
[RX_CODEC_DMA_RX_7] = { AFE_PORT_ID_RX_CODEC_DMA_RX_7,
RX_CODEC_DMA_RX_7, 1, 1},
};
static void q6afe_port_free(struct kref *ref)
{
struct q6afe_port *port;
struct q6afe *afe;
unsigned long flags;
port = container_of(ref, struct q6afe_port, refcount);
afe = port->afe;
spin_lock_irqsave(&afe->port_list_lock, flags);
list_del(&port->node);
spin_unlock_irqrestore(&afe->port_list_lock, flags);
kfree(port->scfg);
kfree(port);
}
static struct q6afe_port *q6afe_find_port(struct q6afe *afe, int token)
{
struct q6afe_port *p;
struct q6afe_port *ret = NULL;
unsigned long flags;
spin_lock_irqsave(&afe->port_list_lock, flags);
list_for_each_entry(p, &afe->port_list, node)
if (p->token == token) {
ret = p;
kref_get(&p->refcount);
break;
}
spin_unlock_irqrestore(&afe->port_list_lock, flags);
return ret;
}
static int q6afe_callback(struct apr_device *adev, struct apr_resp_pkt *data)
{
struct q6afe *afe = dev_get_drvdata(&adev->dev);
struct aprv2_ibasic_rsp_result_t *res;
struct apr_hdr *hdr = &data->hdr;
struct q6afe_port *port;
if (!data->payload_size)
return 0;
res = data->payload;
switch (hdr->opcode) {
case APR_BASIC_RSP_RESULT: {
if (res->status) {
dev_err(afe->dev, "cmd = 0x%x returned error = 0x%x\n",
res->opcode, res->status);
}
switch (res->opcode) {
case AFE_PORT_CMD_SET_PARAM_V2:
case AFE_PORT_CMD_DEVICE_STOP:
case AFE_PORT_CMD_DEVICE_START:
case AFE_SVC_CMD_SET_PARAM:
port = q6afe_find_port(afe, hdr->token);
if (port) {
port->result = *res;
wake_up(&port->wait);
kref_put(&port->refcount, q6afe_port_free);
} else if (hdr->token == AFE_CLK_TOKEN) {
afe->result = *res;
wake_up(&afe->wait);
}
break;
default:
dev_err(afe->dev, "Unknown cmd 0x%x\n", res->opcode);
break;
}
}
break;
case AFE_CMD_RSP_REMOTE_LPASS_CORE_HW_VOTE_REQUEST:
afe->result.opcode = hdr->opcode;
afe->result.status = res->status;
wake_up(&afe->wait);
break;
default:
break;
}
return 0;
}
/**
* q6afe_get_port_id() - Get port id from a given port index
*
* @index: port index
*
* Return: Will be an negative on error or valid port_id on success
*/
int q6afe_get_port_id(int index)
{
if (index < 0 || index >= AFE_PORT_MAX)
return -EINVAL;
return port_maps[index].port_id;
}
EXPORT_SYMBOL_GPL(q6afe_get_port_id);
static int afe_apr_send_pkt(struct q6afe *afe, struct apr_pkt *pkt,
struct q6afe_port *port, uint32_t rsp_opcode)
{
wait_queue_head_t *wait;
struct aprv2_ibasic_rsp_result_t *result;
int ret;
mutex_lock(&afe->lock);
if (port) {
wait = &port->wait;
result = &port->result;
} else {
result = &afe->result;
wait = &afe->wait;
}
result->opcode = 0;
result->status = 0;
ret = apr_send_pkt(afe->apr, pkt);
if (ret < 0) {
dev_err(afe->dev, "packet not transmitted (%d)\n", ret);
ret = -EINVAL;
goto err;
}
ret = wait_event_timeout(*wait, (result->opcode == rsp_opcode),
msecs_to_jiffies(TIMEOUT_MS));
if (!ret) {
ret = -ETIMEDOUT;
} else if (result->status > 0) {
dev_err(afe->dev, "DSP returned error[%x]\n",
result->status);
ret = -EINVAL;
} else {
ret = 0;
}
err:
mutex_unlock(&afe->lock);
return ret;
}
static int q6afe_set_param(struct q6afe *afe, struct q6afe_port *port,
void *data, int param_id, int module_id, int psize,
int token)
{
struct afe_svc_cmd_set_param *param;
struct afe_port_param_data_v2 *pdata;
struct apr_pkt *pkt;
int ret, pkt_size;
void *p, *pl;
pkt_size = APR_HDR_SIZE + sizeof(*param) + sizeof(*pdata) + psize;
p = kzalloc(pkt_size, GFP_KERNEL);
if (!p)
return -ENOMEM;
pkt = p;
param = p + APR_HDR_SIZE;
pdata = p + APR_HDR_SIZE + sizeof(*param);
pl = p + APR_HDR_SIZE + sizeof(*param) + sizeof(*pdata);
memcpy(pl, data, psize);
pkt->hdr.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD,
APR_HDR_LEN(APR_HDR_SIZE),
APR_PKT_VER);
pkt->hdr.pkt_size = pkt_size;
pkt->hdr.src_port = 0;
pkt->hdr.dest_port = 0;
pkt->hdr.token = token;
pkt->hdr.opcode = AFE_SVC_CMD_SET_PARAM;
param->payload_size = sizeof(*pdata) + psize;
param->payload_address_lsw = 0x00;
param->payload_address_msw = 0x00;
param->mem_map_handle = 0x00;
pdata->module_id = module_id;
pdata->param_id = param_id;
pdata->param_size = psize;
ret = afe_apr_send_pkt(afe, pkt, port, AFE_SVC_CMD_SET_PARAM);
if (ret)
dev_err(afe->dev, "AFE set params failed %d\n", ret);
kfree(pkt);
return ret;
}
static int q6afe_port_set_param(struct q6afe_port *port, void *data,
int param_id, int module_id, int psize)
{
return q6afe_set_param(port->afe, port, data, param_id, module_id,
psize, port->token);
}
static int q6afe_port_set_param_v2(struct q6afe_port *port, void *data,
int param_id, int module_id, int psize)
{
struct afe_port_cmd_set_param_v2 *param;
struct afe_port_param_data_v2 *pdata;
struct q6afe *afe = port->afe;
struct apr_pkt *pkt;
u16 port_id = port->id;
int ret, pkt_size;
void *p, *pl;
pkt_size = APR_HDR_SIZE + sizeof(*param) + sizeof(*pdata) + psize;
p = kzalloc(pkt_size, GFP_KERNEL);
if (!p)
return -ENOMEM;
pkt = p;
param = p + APR_HDR_SIZE;
pdata = p + APR_HDR_SIZE + sizeof(*param);
pl = p + APR_HDR_SIZE + sizeof(*param) + sizeof(*pdata);
memcpy(pl, data, psize);
pkt->hdr.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD,
APR_HDR_LEN(APR_HDR_SIZE),
APR_PKT_VER);
pkt->hdr.pkt_size = pkt_size;
pkt->hdr.src_port = 0;
pkt->hdr.dest_port = 0;
pkt->hdr.token = port->token;
pkt->hdr.opcode = AFE_PORT_CMD_SET_PARAM_V2;
param->port_id = port_id;
param->payload_size = sizeof(*pdata) + psize;
param->payload_address_lsw = 0x00;
param->payload_address_msw = 0x00;
param->mem_map_handle = 0x00;
pdata->module_id = module_id;
pdata->param_id = param_id;
pdata->param_size = psize;
ret = afe_apr_send_pkt(afe, pkt, port, AFE_PORT_CMD_SET_PARAM_V2);
if (ret)
dev_err(afe->dev, "AFE enable for port 0x%x failed %d\n",
port_id, ret);
kfree(pkt);
return ret;
}
static int q6afe_port_set_lpass_clock(struct q6afe_port *port,
struct afe_clk_cfg *cfg)
{
return q6afe_port_set_param_v2(port, cfg,
AFE_PARAM_ID_LPAIF_CLK_CONFIG,
AFE_MODULE_AUDIO_DEV_INTERFACE,
sizeof(*cfg));
}
static int q6afe_set_lpass_clock_v2(struct q6afe_port *port,
struct afe_clk_set *cfg)
{
return q6afe_port_set_param(port, cfg, AFE_PARAM_ID_CLOCK_SET,
AFE_MODULE_CLOCK_SET, sizeof(*cfg));
}
static int q6afe_set_digital_codec_core_clock(struct q6afe_port *port,
struct afe_digital_clk_cfg *cfg)
{
return q6afe_port_set_param_v2(port, cfg,
AFE_PARAM_ID_INT_DIGITAL_CDC_CLK_CONFIG,
AFE_MODULE_AUDIO_DEV_INTERFACE,
sizeof(*cfg));
}
int q6afe_set_lpass_clock(struct device *dev, int clk_id, int attri,
int clk_root, unsigned int freq)
{
struct q6afe *afe = dev_get_drvdata(dev->parent);
struct afe_clk_set cset = {0,};
cset.clk_set_minor_version = AFE_API_VERSION_CLOCK_SET;
cset.clk_id = clk_id;
cset.clk_freq_in_hz = freq;
cset.clk_attri = attri;
cset.clk_root = clk_root;
cset.enable = !!freq;
return q6afe_set_param(afe, NULL, &cset, AFE_PARAM_ID_CLOCK_SET,
AFE_MODULE_CLOCK_SET, sizeof(cset),
AFE_CLK_TOKEN);
}
EXPORT_SYMBOL_GPL(q6afe_set_lpass_clock);
int q6afe_port_set_sysclk(struct q6afe_port *port, int clk_id,
int clk_src, int clk_root,
unsigned int freq, int dir)
{
struct afe_clk_cfg ccfg = {0,};
struct afe_clk_set cset = {0,};
struct afe_digital_clk_cfg dcfg = {0,};
int ret;
switch (clk_id) {
case LPAIF_DIG_CLK:
dcfg.i2s_cfg_minor_version = AFE_API_VERSION_I2S_CONFIG;
dcfg.clk_val = freq;
dcfg.clk_root = clk_root;
ret = q6afe_set_digital_codec_core_clock(port, &dcfg);
break;
case LPAIF_BIT_CLK:
ccfg.i2s_cfg_minor_version = AFE_API_VERSION_I2S_CONFIG;
ccfg.clk_val1 = freq;
ccfg.clk_src = clk_src;
ccfg.clk_root = clk_root;
ccfg.clk_set_mode = Q6AFE_LPASS_MODE_CLK1_VALID;
ret = q6afe_port_set_lpass_clock(port, &ccfg);
break;
case LPAIF_OSR_CLK:
ccfg.i2s_cfg_minor_version = AFE_API_VERSION_I2S_CONFIG;
ccfg.clk_val2 = freq;
ccfg.clk_src = clk_src;
ccfg.clk_root = clk_root;
ccfg.clk_set_mode = Q6AFE_LPASS_MODE_CLK2_VALID;
ret = q6afe_port_set_lpass_clock(port, &ccfg);
break;
case Q6AFE_LPASS_CLK_ID_PRI_MI2S_IBIT ... Q6AFE_LPASS_CLK_ID_QUI_MI2S_OSR:
case Q6AFE_LPASS_CLK_ID_MCLK_1 ... Q6AFE_LPASS_CLK_ID_INT_MCLK_1:
case Q6AFE_LPASS_CLK_ID_PRI_TDM_IBIT ... Q6AFE_LPASS_CLK_ID_QUIN_TDM_EBIT:
case Q6AFE_LPASS_CLK_ID_WSA_CORE_MCLK ... Q6AFE_LPASS_CLK_ID_VA_CORE_2X_MCLK:
cset.clk_set_minor_version = AFE_API_VERSION_CLOCK_SET;
cset.clk_id = clk_id;
cset.clk_freq_in_hz = freq;
cset.clk_attri = clk_src;
cset.clk_root = clk_root;
cset.enable = !!freq;
ret = q6afe_set_lpass_clock_v2(port, &cset);
break;
default:
ret = -EINVAL;
break;
}
return ret;
}
EXPORT_SYMBOL_GPL(q6afe_port_set_sysclk);
/**
* q6afe_port_stop() - Stop a afe port
*
* @port: Instance of port to stop
*
* Return: Will be an negative on packet size on success.
*/
int q6afe_port_stop(struct q6afe_port *port)
{
struct afe_port_cmd_device_stop *stop;
struct q6afe *afe = port->afe;
struct apr_pkt *pkt;
int port_id = port->id;
int ret = 0;
int index, pkt_size;
void *p;
index = port->token;
if (index < 0 || index >= AFE_PORT_MAX) {
dev_err(afe->dev, "AFE port index[%d] invalid!\n", index);
return -EINVAL;
}
pkt_size = APR_HDR_SIZE + sizeof(*stop);
p = kzalloc(pkt_size, GFP_KERNEL);
if (!p)
return -ENOMEM;
pkt = p;
stop = p + APR_HDR_SIZE;
pkt->hdr.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD,
APR_HDR_LEN(APR_HDR_SIZE),
APR_PKT_VER);
pkt->hdr.pkt_size = pkt_size;
pkt->hdr.src_port = 0;
pkt->hdr.dest_port = 0;
pkt->hdr.token = index;
pkt->hdr.opcode = AFE_PORT_CMD_DEVICE_STOP;
stop->port_id = port_id;
stop->reserved = 0;
ret = afe_apr_send_pkt(afe, pkt, port, AFE_PORT_CMD_DEVICE_STOP);
if (ret)
dev_err(afe->dev, "AFE close failed %d\n", ret);
kfree(pkt);
return ret;
}
EXPORT_SYMBOL_GPL(q6afe_port_stop);
/**
* q6afe_slim_port_prepare() - Prepare slim afe port.
*
* @port: Instance of afe port
* @cfg: SLIM configuration for the afe port
*
*/
void q6afe_slim_port_prepare(struct q6afe_port *port,
struct q6afe_slim_cfg *cfg)
{
union afe_port_config *pcfg = &port->port_cfg;
pcfg->slim_cfg.sb_cfg_minor_version = AFE_API_VERSION_SLIMBUS_CONFIG;
pcfg->slim_cfg.sample_rate = cfg->sample_rate;
pcfg->slim_cfg.bit_width = cfg->bit_width;
pcfg->slim_cfg.num_channels = cfg->num_channels;
pcfg->slim_cfg.data_format = cfg->data_format;
pcfg->slim_cfg.shared_ch_mapping[0] = cfg->ch_mapping[0];
pcfg->slim_cfg.shared_ch_mapping[1] = cfg->ch_mapping[1];
pcfg->slim_cfg.shared_ch_mapping[2] = cfg->ch_mapping[2];
pcfg->slim_cfg.shared_ch_mapping[3] = cfg->ch_mapping[3];
}
EXPORT_SYMBOL_GPL(q6afe_slim_port_prepare);
/**
* q6afe_tdm_port_prepare() - Prepare tdm afe port.
*
* @port: Instance of afe port
* @cfg: TDM configuration for the afe port
*
*/
void q6afe_tdm_port_prepare(struct q6afe_port *port,
struct q6afe_tdm_cfg *cfg)
{
union afe_port_config *pcfg = &port->port_cfg;
pcfg->tdm_cfg.tdm_cfg_minor_version = AFE_API_VERSION_TDM_CONFIG;
pcfg->tdm_cfg.num_channels = cfg->num_channels;
pcfg->tdm_cfg.sample_rate = cfg->sample_rate;
pcfg->tdm_cfg.bit_width = cfg->bit_width;
pcfg->tdm_cfg.data_format = cfg->data_format;
pcfg->tdm_cfg.sync_mode = cfg->sync_mode;
pcfg->tdm_cfg.sync_src = cfg->sync_src;
pcfg->tdm_cfg.nslots_per_frame = cfg->nslots_per_frame;
pcfg->tdm_cfg.slot_width = cfg->slot_width;
pcfg->tdm_cfg.slot_mask = cfg->slot_mask;
port->scfg = kzalloc(sizeof(*port->scfg), GFP_KERNEL);
if (!port->scfg)
return;
port->scfg->minor_version = AFE_API_VERSION_SLOT_MAPPING_CONFIG;
port->scfg->num_channels = cfg->num_channels;
port->scfg->bitwidth = cfg->bit_width;
port->scfg->data_align_type = cfg->data_align_type;
memcpy(port->scfg->ch_mapping, cfg->ch_mapping,
sizeof(u16) * AFE_PORT_MAX_AUDIO_CHAN_CNT);
}
EXPORT_SYMBOL_GPL(q6afe_tdm_port_prepare);
/**
* q6afe_hdmi_port_prepare() - Prepare hdmi afe port.
*
* @port: Instance of afe port
* @cfg: HDMI configuration for the afe port
*
*/
void q6afe_hdmi_port_prepare(struct q6afe_port *port,
struct q6afe_hdmi_cfg *cfg)
{
union afe_port_config *pcfg = &port->port_cfg;
pcfg->hdmi_multi_ch.hdmi_cfg_minor_version =
AFE_API_VERSION_HDMI_CONFIG;
pcfg->hdmi_multi_ch.datatype = cfg->datatype;
pcfg->hdmi_multi_ch.channel_allocation = cfg->channel_allocation;
pcfg->hdmi_multi_ch.sample_rate = cfg->sample_rate;
pcfg->hdmi_multi_ch.bit_width = cfg->bit_width;
}
EXPORT_SYMBOL_GPL(q6afe_hdmi_port_prepare);
/**
* q6afe_i2s_port_prepare() - Prepare i2s afe port.
*
* @port: Instance of afe port
* @cfg: I2S configuration for the afe port
* Return: Will be an negative on error and zero on success.
*/
int q6afe_i2s_port_prepare(struct q6afe_port *port, struct q6afe_i2s_cfg *cfg)
{
union afe_port_config *pcfg = &port->port_cfg;
struct device *dev = port->afe->dev;
int num_sd_lines;
pcfg->i2s_cfg.i2s_cfg_minor_version = AFE_API_VERSION_I2S_CONFIG;
pcfg->i2s_cfg.sample_rate = cfg->sample_rate;
pcfg->i2s_cfg.bit_width = cfg->bit_width;
pcfg->i2s_cfg.data_format = AFE_LINEAR_PCM_DATA;
switch (cfg->fmt & SND_SOC_DAIFMT_CLOCK_PROVIDER_MASK) {
case SND_SOC_DAIFMT_BP_FP:
pcfg->i2s_cfg.ws_src = AFE_PORT_CONFIG_I2S_WS_SRC_INTERNAL;
break;
case SND_SOC_DAIFMT_BC_FC:
/* CPU is slave */
pcfg->i2s_cfg.ws_src = AFE_PORT_CONFIG_I2S_WS_SRC_EXTERNAL;
break;
default:
break;
}
num_sd_lines = hweight_long(cfg->sd_line_mask);
switch (num_sd_lines) {
case 0:
dev_err(dev, "no line is assigned\n");
return -EINVAL;
case 1:
switch (cfg->sd_line_mask) {
case AFE_PORT_I2S_SD0_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_SD0;
break;
case AFE_PORT_I2S_SD1_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_SD1;
break;
case AFE_PORT_I2S_SD2_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_SD2;
break;
case AFE_PORT_I2S_SD3_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_SD3;
break;
default:
dev_err(dev, "Invalid SD lines\n");
return -EINVAL;
}
break;
case 2:
switch (cfg->sd_line_mask) {
case AFE_PORT_I2S_SD0_1_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_QUAD01;
break;
case AFE_PORT_I2S_SD2_3_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_QUAD23;
break;
default:
dev_err(dev, "Invalid SD lines\n");
return -EINVAL;
}
break;
case 3:
switch (cfg->sd_line_mask) {
case AFE_PORT_I2S_SD0_1_2_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_6CHS;
break;
default:
dev_err(dev, "Invalid SD lines\n");
return -EINVAL;
}
break;
case 4:
switch (cfg->sd_line_mask) {
case AFE_PORT_I2S_SD0_1_2_3_MASK:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_8CHS;
break;
default:
dev_err(dev, "Invalid SD lines\n");
return -EINVAL;
}
break;
default:
dev_err(dev, "Invalid SD lines\n");
return -EINVAL;
}
switch (cfg->num_channels) {
case 1:
case 2:
switch (pcfg->i2s_cfg.channel_mode) {
case AFE_PORT_I2S_QUAD01:
case AFE_PORT_I2S_6CHS:
case AFE_PORT_I2S_8CHS:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_SD0;
break;
case AFE_PORT_I2S_QUAD23:
pcfg->i2s_cfg.channel_mode = AFE_PORT_I2S_SD2;
break;
}
if (cfg->num_channels == 2)
pcfg->i2s_cfg.mono_stereo = AFE_PORT_I2S_STEREO;
else
pcfg->i2s_cfg.mono_stereo = AFE_PORT_I2S_MONO;
break;
case 3:
case 4:
if (pcfg->i2s_cfg.channel_mode < AFE_PORT_I2S_QUAD01) {
dev_err(dev, "Invalid Channel mode\n");
return -EINVAL;
}
break;
case 5:
case 6:
if (pcfg->i2s_cfg.channel_mode < AFE_PORT_I2S_6CHS) {
dev_err(dev, "Invalid Channel mode\n");
return -EINVAL;
}
break;
case 7:
case 8:
if (pcfg->i2s_cfg.channel_mode < AFE_PORT_I2S_8CHS) {
dev_err(dev, "Invalid Channel mode\n");
return -EINVAL;
}
break;
default:
break;
}
return 0;
}
EXPORT_SYMBOL_GPL(q6afe_i2s_port_prepare);
/**
* q6afe_cdc_dma_port_prepare() - Prepare dma afe port.
*
* @port: Instance of afe port
* @cfg: DMA configuration for the afe port
*
*/
void q6afe_cdc_dma_port_prepare(struct q6afe_port *port,
struct q6afe_cdc_dma_cfg *cfg)
{
union afe_port_config *pcfg = &port->port_cfg;
struct afe_param_id_cdc_dma_cfg *dma_cfg = &pcfg->dma_cfg;
dma_cfg->cdc_dma_cfg_minor_version = AFE_API_VERSION_CODEC_DMA_CONFIG;
dma_cfg->sample_rate = cfg->sample_rate;
dma_cfg->bit_width = cfg->bit_width;
dma_cfg->data_format = cfg->data_format;
dma_cfg->num_channels = cfg->num_channels;
if (!cfg->active_channels_mask)
dma_cfg->active_channels_mask = (1 << cfg->num_channels) - 1;
}
EXPORT_SYMBOL_GPL(q6afe_cdc_dma_port_prepare);
/**
* q6afe_port_start() - Start a afe port
*
* @port: Instance of port to start
*
* Return: Will be an negative on packet size on success.
*/
int q6afe_port_start(struct q6afe_port *port)
{
struct afe_port_cmd_device_start *start;
struct q6afe *afe = port->afe;
int port_id = port->id;
int ret, param_id = port->cfg_type;
struct apr_pkt *pkt;
int pkt_size;
void *p;
ret = q6afe_port_set_param_v2(port, &port->port_cfg, param_id,
AFE_MODULE_AUDIO_DEV_INTERFACE,
sizeof(port->port_cfg));
if (ret) {
dev_err(afe->dev, "AFE enable for port 0x%x failed %d\n",
port_id, ret);
return ret;
}
if (port->scfg) {
ret = q6afe_port_set_param_v2(port, port->scfg,
AFE_PARAM_ID_PORT_SLOT_MAPPING_CONFIG,
AFE_MODULE_TDM, sizeof(*port->scfg));
if (ret) {
dev_err(afe->dev, "AFE enable for port 0x%x failed %d\n",
port_id, ret);
return ret;
}
}
pkt_size = APR_HDR_SIZE + sizeof(*start);
p = kzalloc(pkt_size, GFP_KERNEL);
if (!p)
return -ENOMEM;
pkt = p;
start = p + APR_HDR_SIZE;
pkt->hdr.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD,
APR_HDR_LEN(APR_HDR_SIZE),
APR_PKT_VER);
pkt->hdr.pkt_size = pkt_size;
pkt->hdr.src_port = 0;
pkt->hdr.dest_port = 0;
pkt->hdr.token = port->token;
pkt->hdr.opcode = AFE_PORT_CMD_DEVICE_START;
start->port_id = port_id;
ret = afe_apr_send_pkt(afe, pkt, port, AFE_PORT_CMD_DEVICE_START);
if (ret)
dev_err(afe->dev, "AFE enable for port 0x%x failed %d\n",
port_id, ret);
kfree(pkt);
return ret;
}
EXPORT_SYMBOL_GPL(q6afe_port_start);
/**
* q6afe_port_get_from_id() - Get port instance from a port id
*
* @dev: Pointer to afe child device.
* @id: port id
*
* Return: Will be an error pointer on error or a valid afe port
* on success.
*/
struct q6afe_port *q6afe_port_get_from_id(struct device *dev, int id)
{
int port_id;
struct q6afe *afe = dev_get_drvdata(dev->parent);
struct q6afe_port *port;
unsigned long flags;
int cfg_type;
if (id < 0 || id >= AFE_PORT_MAX) {
dev_err(dev, "AFE port token[%d] invalid!\n", id);
return ERR_PTR(-EINVAL);
}
/* if port is multiple times bind/unbind before callback finishes */
port = q6afe_find_port(afe, id);
if (port) {
dev_err(dev, "AFE Port already open\n");
return port;
}
port_id = port_maps[id].port_id;
switch (port_id) {
case AFE_PORT_ID_MULTICHAN_HDMI_RX:
case AFE_PORT_ID_HDMI_OVER_DP_RX:
cfg_type = AFE_PARAM_ID_HDMI_CONFIG;
break;
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_0_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_1_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_2_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_3_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_4_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_5_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_6_TX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_0_RX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_1_RX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_2_RX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_3_RX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_4_RX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_5_RX:
case AFE_PORT_ID_SLIMBUS_MULTI_CHAN_6_RX:
cfg_type = AFE_PARAM_ID_SLIMBUS_CONFIG;
break;
case AFE_PORT_ID_PRIMARY_MI2S_RX:
case AFE_PORT_ID_PRIMARY_MI2S_TX:
case AFE_PORT_ID_SECONDARY_MI2S_RX:
case AFE_PORT_ID_SECONDARY_MI2S_TX:
case AFE_PORT_ID_TERTIARY_MI2S_RX:
case AFE_PORT_ID_TERTIARY_MI2S_TX:
case AFE_PORT_ID_QUATERNARY_MI2S_RX:
case AFE_PORT_ID_QUATERNARY_MI2S_TX:
case AFE_PORT_ID_QUINARY_MI2S_RX:
case AFE_PORT_ID_QUINARY_MI2S_TX:
cfg_type = AFE_PARAM_ID_I2S_CONFIG;
break;
case AFE_PORT_ID_PRIMARY_TDM_RX ... AFE_PORT_ID_QUINARY_TDM_TX_7:
cfg_type = AFE_PARAM_ID_TDM_CONFIG;
break;
case AFE_PORT_ID_WSA_CODEC_DMA_RX_0 ... AFE_PORT_ID_RX_CODEC_DMA_RX_7:
cfg_type = AFE_PARAM_ID_CODEC_DMA_CONFIG;
break;
default:
dev_err(dev, "Invalid port id 0x%x\n", port_id);
return ERR_PTR(-EINVAL);
}
port = kzalloc(sizeof(*port), GFP_KERNEL);
if (!port)
return ERR_PTR(-ENOMEM);
init_waitqueue_head(&port->wait);
port->token = id;
port->id = port_id;
port->afe = afe;
port->cfg_type = cfg_type;
kref_init(&port->refcount);
spin_lock_irqsave(&afe->port_list_lock, flags);
list_add_tail(&port->node, &afe->port_list);
spin_unlock_irqrestore(&afe->port_list_lock, flags);
return port;
}
EXPORT_SYMBOL_GPL(q6afe_port_get_from_id);
/**
* q6afe_port_put() - Release port reference
*
* @port: Instance of port to put
*/
void q6afe_port_put(struct q6afe_port *port)
{
kref_put(&port->refcount, q6afe_port_free);
}
EXPORT_SYMBOL_GPL(q6afe_port_put);
int q6afe_unvote_lpass_core_hw(struct device *dev, uint32_t hw_block_id,
uint32_t client_handle)
{
struct q6afe *afe = dev_get_drvdata(dev->parent);
struct afe_cmd_remote_lpass_core_hw_devote_request *vote_cfg;
struct apr_pkt *pkt;
int ret = 0;
int pkt_size;
void *p;
pkt_size = APR_HDR_SIZE + sizeof(*vote_cfg);
p = kzalloc(pkt_size, GFP_KERNEL);
if (!p)
return -ENOMEM;
pkt = p;
vote_cfg = p + APR_HDR_SIZE;
pkt->hdr.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD,
APR_HDR_LEN(APR_HDR_SIZE),
APR_PKT_VER);
pkt->hdr.pkt_size = pkt_size;
pkt->hdr.src_port = 0;
pkt->hdr.dest_port = 0;
pkt->hdr.token = hw_block_id;
pkt->hdr.opcode = AFE_CMD_REMOTE_LPASS_CORE_HW_DEVOTE_REQUEST;
vote_cfg->hw_block_id = hw_block_id;
vote_cfg->client_handle = client_handle;
ret = apr_send_pkt(afe->apr, pkt);
if (ret < 0)
dev_err(afe->dev, "AFE failed to unvote (%d)\n", hw_block_id);
kfree(pkt);
return ret;
}
EXPORT_SYMBOL(q6afe_unvote_lpass_core_hw);
int q6afe_vote_lpass_core_hw(struct device *dev, uint32_t hw_block_id,
const char *client_name, uint32_t *client_handle)
{
struct q6afe *afe = dev_get_drvdata(dev->parent);
struct afe_cmd_remote_lpass_core_hw_vote_request *vote_cfg;
struct apr_pkt *pkt;
int ret = 0;
int pkt_size;
void *p;
pkt_size = APR_HDR_SIZE + sizeof(*vote_cfg);
p = kzalloc(pkt_size, GFP_KERNEL);
if (!p)
return -ENOMEM;
pkt = p;
vote_cfg = p + APR_HDR_SIZE;
pkt->hdr.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD,
APR_HDR_LEN(APR_HDR_SIZE),
APR_PKT_VER);
pkt->hdr.pkt_size = pkt_size;
pkt->hdr.src_port = 0;
pkt->hdr.dest_port = 0;
pkt->hdr.token = hw_block_id;
pkt->hdr.opcode = AFE_CMD_REMOTE_LPASS_CORE_HW_VOTE_REQUEST;
vote_cfg->hw_block_id = hw_block_id;
strscpy(vote_cfg->client_name, client_name,
sizeof(vote_cfg->client_name));
ret = afe_apr_send_pkt(afe, pkt, NULL,
AFE_CMD_RSP_REMOTE_LPASS_CORE_HW_VOTE_REQUEST);
if (ret)
dev_err(afe->dev, "AFE failed to vote (%d)\n", hw_block_id);
kfree(pkt);
return ret;
}
EXPORT_SYMBOL(q6afe_vote_lpass_core_hw);
static int q6afe_probe(struct apr_device *adev)
{
struct q6afe *afe;
struct device *dev = &adev->dev;
afe = devm_kzalloc(dev, sizeof(*afe), GFP_KERNEL);
if (!afe)
return -ENOMEM;
q6core_get_svc_api_info(adev->svc_id, &afe->ainfo);
afe->apr = adev;
mutex_init(&afe->lock);
init_waitqueue_head(&afe->wait);
afe->dev = dev;
INIT_LIST_HEAD(&afe->port_list);
spin_lock_init(&afe->port_list_lock);
dev_set_drvdata(dev, afe);
return devm_of_platform_populate(dev);
}
#ifdef CONFIG_OF
static const struct of_device_id q6afe_device_id[] = {
{ .compatible = "qcom,q6afe" },
{},
};
MODULE_DEVICE_TABLE(of, q6afe_device_id);
#endif
static struct apr_driver qcom_q6afe_driver = {
.probe = q6afe_probe,
.callback = q6afe_callback,
.driver = {
.name = "qcom-q6afe",
.of_match_table = of_match_ptr(q6afe_device_id),
},
};
module_apr_driver(qcom_q6afe_driver);
MODULE_DESCRIPTION("Q6 Audio Front End");
MODULE_LICENSE("GPL v2");