drivers/bluetooth/btfm_slim_slave.c - kernel/msm - Git at Google

 // SPDX-License-Identifier: GPL-2.0-only
 /*
  * Copyright (c) 2016-2019, The Linux Foundation. All rights reserved.
  */

 #include <linux/slimbus/slimbus.h>
 #include "btfm_slim.h"
 #include "btfm_slim_slave.h"

 /* SLAVE (WCN3990/QCA6390) Port assignment */
 struct btfmslim_ch slave_rxport[] = {
 	{.id = BTFM_BT_SCO_A2DP_SLIM_RX, .name = "SCO_A2P_Rx",
 	.port = SLAVE_SB_PGD_PORT_RX_SCO},
 	{.id = BTFM_BT_SPLIT_A2DP_SLIM_RX, .name = "A2P_Rx",
 	.port = SLAVE_SB_PGD_PORT_RX_A2P},
 	{.id = BTFM_SLIM_NUM_CODEC_DAIS, .name = "",
 	.port = BTFM_SLIM_PGD_PORT_LAST},
 };

 struct btfmslim_ch slave_txport[] = {
 	{.id = BTFM_BT_SCO_SLIM_TX, .name = "SCO_Tx",
 	.port = SLAVE_SB_PGD_PORT_TX_SCO},
 	{.id = BTFM_FM_SLIM_TX, .name = "FM_Tx1",
 	.port = SLAVE_SB_PGD_PORT_TX1_FM},
 	{.id = BTFM_FM_SLIM_TX, .name = "FM_Tx2",
 	.port = SLAVE_SB_PGD_PORT_TX2_FM},
 	{.id = BTFM_SLIM_NUM_CODEC_DAIS, .name = "",
 	.port = BTFM_SLIM_PGD_PORT_LAST},
 };

 /* Function description */
 int btfm_slim_slave_hw_init(struct btfmslim *btfmslim)
 {
 	int ret = 0;
 	uint8_t reg_val;
 	uint16_t reg;

 	BTFMSLIM_DBG("");

 	if (!btfmslim)
 		return -EINVAL;

 	/* Get SB_SLAVE_HW_REV_MSB value*/
 	reg = SLAVE_SB_SLAVE_HW_REV_MSB;
 	ret = btfm_slim_read(btfmslim, reg,  1, &reg_val, IFD);
 	if (ret) {
 		BTFMSLIM_ERR("failed to read (%d) reg 0x%x", ret, reg);
 		goto error;
 	}
 	BTFMSLIM_DBG("Major Rev: 0x%x, Minor Rev: 0x%x",
 		(reg_val & 0xF0) >> 4, (reg_val & 0x0F));

 	/* Get SB_SLAVE_HW_REV_LSB value*/
 	reg = SLAVE_SB_SLAVE_HW_REV_LSB;
 	ret = btfm_slim_read(btfmslim, reg,  1, &reg_val, IFD);
 	if (ret) {
 		BTFMSLIM_ERR("failed to read (%d) reg 0x%x", ret, reg);
 		goto error;
 	}
 	BTFMSLIM_DBG("Step Rev: 0x%x", reg_val);

 error:
 	return ret;
 }

 static inline int is_fm_port(uint8_t port_num)
 {
 	if (port_num == SLAVE_SB_PGD_PORT_TX1_FM ||
 		port_num == CHRKVER3_SB_PGD_PORT_TX1_FM ||
 		port_num == CHRKVER3_SB_PGD_PORT_TX2_FM ||
 		port_num == SLAVE_SB_PGD_PORT_TX2_FM)
 		return 1;
 	else
 		return 0;
 }

 int btfm_slim_slave_enable_port(struct btfmslim *btfmslim, uint8_t port_num,
 	uint8_t rxport, uint8_t enable)
 {
 	int ret = 0;
 	uint8_t reg_val = 0, en;
 	uint8_t rxport_num = 0;
 	uint16_t reg;

 	BTFMSLIM_DBG("port(%d) enable(%d)", port_num, enable);
 	if (rxport) {
 		BTFMSLIM_DBG("sample rate is %d", btfmslim->sample_rate);
 		if (enable &&
 			btfmslim->sample_rate != 44100 &&
 			btfmslim->sample_rate != 88200) {
 			BTFMSLIM_DBG("setting multichannel bit");
 			/* For SCO Rx, A2DP Rx other than 44.1 and 88.2Khz */
 			if (port_num < 24) {
 				rxport_num = port_num - 16;
 				reg_val = 0x01 << rxport_num;
 				reg = SLAVE_SB_PGD_RX_PORTn_MULTI_CHNL_0(
 					rxport_num);
 			} else {
 				rxport_num = port_num - 24;
 				reg_val = 0x01 << rxport_num;
 				reg = SLAVE_SB_PGD_RX_PORTn_MULTI_CHNL_1(
 					rxport_num);
 			}

 			BTFMSLIM_DBG("writing reg_val (%d) to reg(%x)",
 				reg_val, reg);
 			ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
 			if (ret) {
 				BTFMSLIM_ERR("failed to write (%d) reg 0x%x",
 					ret, reg);
 				goto error;
 			}
 		}
 		/* Port enable */
 		reg = SLAVE_SB_PGD_PORT_RX_CFGN(port_num - 0x10);
 		goto enable_disable_rxport;
 	}
 	if (!enable)
 		goto enable_disable_txport;

 	/* txport */
 	/* Multiple Channel Setting */
 	if (is_fm_port(port_num)) {
 		if (port_num == CHRKVER3_SB_PGD_PORT_TX1_FM)
 			reg_val = (0x1 << CHRKVER3_SB_PGD_PORT_TX1_FM);
 		else if (port_num == CHRKVER3_SB_PGD_PORT_TX2_FM)
 			reg_val = (0x1 << CHRKVER3_SB_PGD_PORT_TX2_FM);
 		else
 			reg_val = (0x1 << SLAVE_SB_PGD_PORT_TX1_FM) |
 					(0x1 << SLAVE_SB_PGD_PORT_TX2_FM);
 		reg = SLAVE_SB_PGD_TX_PORTn_MULTI_CHNL_0(port_num);
 		BTFMSLIM_INFO("writing reg_val (%d) to reg(%x)", reg_val, reg);
 		ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
 		if (ret) {
 			BTFMSLIM_ERR("failed to write (%d) reg 0x%x", ret, reg);
 			goto error;
 		}
 	} else if (port_num == SLAVE_SB_PGD_PORT_TX_SCO) {
 		/* SCO Tx */
 		reg_val = 0x1 << SLAVE_SB_PGD_PORT_TX_SCO;
 		reg = SLAVE_SB_PGD_TX_PORTn_MULTI_CHNL_0(port_num);
 		BTFMSLIM_DBG("writing reg_val (%d) to reg(%x)",
 				reg_val, reg);
 		ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
 		if (ret) {
 			BTFMSLIM_ERR("failed to write (%d) reg 0x%x",
 					ret, reg);
 			goto error;
 		}
 	}

 	/* Enable Tx port hw auto recovery for underrun or overrun error */
 	reg_val = (SLAVE_ENABLE_OVERRUN_AUTO_RECOVERY |
 				SLAVE_ENABLE_UNDERRUN_AUTO_RECOVERY);
 	reg = SLAVE_SB_PGD_PORT_TX_OR_UR_CFGN(port_num);
 	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
 	if (ret) {
 		BTFMSLIM_ERR("failed to write (%d) reg 0x%x", ret, reg);
 		goto error;
 	}

 enable_disable_txport:
 	/* Port enable */
 	reg = SLAVE_SB_PGD_PORT_TX_CFGN(port_num);

 enable_disable_rxport:
 	if (enable)
 		en = SLAVE_SB_PGD_PORT_ENABLE;
 	else
 		en = SLAVE_SB_PGD_PORT_DISABLE;

 	if (is_fm_port(port_num))
 		reg_val = en | SLAVE_SB_PGD_PORT_WM_L8;
 	else if (port_num == SLAVE_SB_PGD_PORT_TX_SCO)
 		reg_val = enable ? en | SLAVE_SB_PGD_PORT_WM_L1 : en;
 	else
 		reg_val = enable ? en | SLAVE_SB_PGD_PORT_WM_LB : en;

 	if (enable && port_num == SLAVE_SB_PGD_PORT_TX_SCO)
 		BTFMSLIM_INFO("programming SCO Tx with reg_val %d to reg 0x%x",
 				reg_val, reg);

 	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
 	if (ret)
 		BTFMSLIM_ERR("failed to write (%d) reg 0x%x", ret, reg);

 error:
 	return ret;
 }
	// SPDX-License-Identifier: GPL-2.0-only
	/*
	* Copyright (c) 2016-2019, The Linux Foundation. All rights reserved.
	*/

	#include <linux/slimbus/slimbus.h>
	#include "btfm_slim.h"
	#include "btfm_slim_slave.h"

	/* SLAVE (WCN3990/QCA6390) Port assignment */
	struct btfmslim_ch slave_rxport[] = {
	{.id = BTFM_BT_SCO_A2DP_SLIM_RX, .name = "SCO_A2P_Rx",
	.port = SLAVE_SB_PGD_PORT_RX_SCO},
	{.id = BTFM_BT_SPLIT_A2DP_SLIM_RX, .name = "A2P_Rx",
	.port = SLAVE_SB_PGD_PORT_RX_A2P},
	{.id = BTFM_SLIM_NUM_CODEC_DAIS, .name = "",
	.port = BTFM_SLIM_PGD_PORT_LAST},
	};

	struct btfmslim_ch slave_txport[] = {
	{.id = BTFM_BT_SCO_SLIM_TX, .name = "SCO_Tx",
	.port = SLAVE_SB_PGD_PORT_TX_SCO},
	{.id = BTFM_FM_SLIM_TX, .name = "FM_Tx1",
	.port = SLAVE_SB_PGD_PORT_TX1_FM},
	{.id = BTFM_FM_SLIM_TX, .name = "FM_Tx2",
	.port = SLAVE_SB_PGD_PORT_TX2_FM},
	{.id = BTFM_SLIM_NUM_CODEC_DAIS, .name = "",
	.port = BTFM_SLIM_PGD_PORT_LAST},
	};

	/* Function description */
	int btfm_slim_slave_hw_init(struct btfmslim *btfmslim)
	{
	int ret = 0;
	uint8_t reg_val;
	uint16_t reg;

	BTFMSLIM_DBG("");

	if (!btfmslim)
	return -EINVAL;

	/* Get SB_SLAVE_HW_REV_MSB value*/
	reg = SLAVE_SB_SLAVE_HW_REV_MSB;
	ret = btfm_slim_read(btfmslim, reg, 1, &reg_val, IFD);
	if (ret) {
	BTFMSLIM_ERR("failed to read (%d) reg 0x%x", ret, reg);
	goto error;
	}
	BTFMSLIM_DBG("Major Rev: 0x%x, Minor Rev: 0x%x",
	(reg_val & 0xF0) >> 4, (reg_val & 0x0F));

	/* Get SB_SLAVE_HW_REV_LSB value*/
	reg = SLAVE_SB_SLAVE_HW_REV_LSB;
	ret = btfm_slim_read(btfmslim, reg, 1, &reg_val, IFD);
	if (ret) {
	BTFMSLIM_ERR("failed to read (%d) reg 0x%x", ret, reg);
	goto error;
	}
	BTFMSLIM_DBG("Step Rev: 0x%x", reg_val);

	error:
	return ret;
	}

	static inline int is_fm_port(uint8_t port_num)
	{
	if (port_num == SLAVE_SB_PGD_PORT_TX1_FM \|\|
	port_num == CHRKVER3_SB_PGD_PORT_TX1_FM \|\|
	port_num == CHRKVER3_SB_PGD_PORT_TX2_FM \|\|
	port_num == SLAVE_SB_PGD_PORT_TX2_FM)
	return 1;
	else
	return 0;
	}

	int btfm_slim_slave_enable_port(struct btfmslim *btfmslim, uint8_t port_num,
	uint8_t rxport, uint8_t enable)
	{
	int ret = 0;
	uint8_t reg_val = 0, en;
	uint8_t rxport_num = 0;
	uint16_t reg;

	BTFMSLIM_DBG("port(%d) enable(%d)", port_num, enable);
	if (rxport) {
	BTFMSLIM_DBG("sample rate is %d", btfmslim->sample_rate);
	if (enable &&
	btfmslim->sample_rate != 44100 &&
	btfmslim->sample_rate != 88200) {
	BTFMSLIM_DBG("setting multichannel bit");
	/* For SCO Rx, A2DP Rx other than 44.1 and 88.2Khz */
	if (port_num < 24) {
	rxport_num = port_num - 16;
	reg_val = 0x01 << rxport_num;
	reg = SLAVE_SB_PGD_RX_PORTn_MULTI_CHNL_0(
	rxport_num);
	} else {
	rxport_num = port_num - 24;
	reg_val = 0x01 << rxport_num;
	reg = SLAVE_SB_PGD_RX_PORTn_MULTI_CHNL_1(
	rxport_num);
	}

	BTFMSLIM_DBG("writing reg_val (%d) to reg(%x)",
	reg_val, reg);
	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
	if (ret) {
	BTFMSLIM_ERR("failed to write (%d) reg 0x%x",
	ret, reg);
	goto error;
	}
	}
	/* Port enable */
	reg = SLAVE_SB_PGD_PORT_RX_CFGN(port_num - 0x10);
	goto enable_disable_rxport;
	}
	if (!enable)
	goto enable_disable_txport;

	/* txport */
	/* Multiple Channel Setting */
	if (is_fm_port(port_num)) {
	if (port_num == CHRKVER3_SB_PGD_PORT_TX1_FM)
	reg_val = (0x1 << CHRKVER3_SB_PGD_PORT_TX1_FM);
	else if (port_num == CHRKVER3_SB_PGD_PORT_TX2_FM)
	reg_val = (0x1 << CHRKVER3_SB_PGD_PORT_TX2_FM);
	else
	reg_val = (0x1 << SLAVE_SB_PGD_PORT_TX1_FM) \|
	(0x1 << SLAVE_SB_PGD_PORT_TX2_FM);
	reg = SLAVE_SB_PGD_TX_PORTn_MULTI_CHNL_0(port_num);
	BTFMSLIM_INFO("writing reg_val (%d) to reg(%x)", reg_val, reg);
	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
	if (ret) {
	BTFMSLIM_ERR("failed to write (%d) reg 0x%x", ret, reg);
	goto error;
	}
	} else if (port_num == SLAVE_SB_PGD_PORT_TX_SCO) {
	/* SCO Tx */
	reg_val = 0x1 << SLAVE_SB_PGD_PORT_TX_SCO;
	reg = SLAVE_SB_PGD_TX_PORTn_MULTI_CHNL_0(port_num);
	BTFMSLIM_DBG("writing reg_val (%d) to reg(%x)",
	reg_val, reg);
	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
	if (ret) {
	BTFMSLIM_ERR("failed to write (%d) reg 0x%x",
	ret, reg);
	goto error;
	}
	}

	/* Enable Tx port hw auto recovery for underrun or overrun error */
	reg_val = (SLAVE_ENABLE_OVERRUN_AUTO_RECOVERY \|
	SLAVE_ENABLE_UNDERRUN_AUTO_RECOVERY);
	reg = SLAVE_SB_PGD_PORT_TX_OR_UR_CFGN(port_num);
	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
	if (ret) {
	BTFMSLIM_ERR("failed to write (%d) reg 0x%x", ret, reg);
	goto error;
	}

	enable_disable_txport:
	/* Port enable */
	reg = SLAVE_SB_PGD_PORT_TX_CFGN(port_num);

	enable_disable_rxport:
	if (enable)
	en = SLAVE_SB_PGD_PORT_ENABLE;
	else
	en = SLAVE_SB_PGD_PORT_DISABLE;

	if (is_fm_port(port_num))
	reg_val = en \| SLAVE_SB_PGD_PORT_WM_L8;
	else if (port_num == SLAVE_SB_PGD_PORT_TX_SCO)
	reg_val = enable ? en \| SLAVE_SB_PGD_PORT_WM_L1 : en;
	else
	reg_val = enable ? en \| SLAVE_SB_PGD_PORT_WM_LB : en;

	if (enable && port_num == SLAVE_SB_PGD_PORT_TX_SCO)
	BTFMSLIM_INFO("programming SCO Tx with reg_val %d to reg 0x%x",
	reg_val, reg);

	ret = btfm_slim_write(btfmslim, reg, 1, &reg_val, IFD);
	if (ret)
	BTFMSLIM_ERR("failed to write (%d) reg 0x%x", ret, reg);

	error:
	return ret;
	}