drivers/net/wwan/iosm/iosm_ipc_mmio.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0-only
 /*
  * Copyright (C) 2020-21 Intel Corporation.
  */

 #include <linux/delay.h>
 #include <linux/device.h>
 #include <linux/io.h>
 #include <linux/io-64-nonatomic-lo-hi.h>
 #include <linux/slab.h>

 #include "iosm_ipc_mmio.h"

 /* Definition of MMIO offsets
  * note that MMIO_CI offsets are relative to end of chip info structure
  */

 /* MMIO chip info size in bytes */
 #define MMIO_CHIP_INFO_SIZE 60

 /* CP execution stage */
 #define MMIO_OFFSET_EXECUTION_STAGE 0x00

 /* Boot ROM Chip Info struct */
 #define MMIO_OFFSET_CHIP_INFO 0x04

 #define MMIO_OFFSET_ROM_EXIT_CODE 0x40

 #define MMIO_OFFSET_PSI_ADDRESS 0x54

 #define MMIO_OFFSET_PSI_SIZE 0x5C

 #define MMIO_OFFSET_IPC_STATUS 0x60

 #define MMIO_OFFSET_CONTEXT_INFO 0x64

 #define MMIO_OFFSET_BASE_ADDR 0x6C

 #define MMIO_OFFSET_END_ADDR 0x74

 #define MMIO_OFFSET_CP_VERSION 0xF0

 #define MMIO_OFFSET_CP_CAPABILITIES 0xF4

 /* Timeout in 50 msec to wait for the modem boot code to write a valid
  * execution stage into mmio area
  */
 #define IPC_MMIO_EXEC_STAGE_TIMEOUT 50

 /* check if exec stage has one of the valid values */
 static bool ipc_mmio_is_valid_exec_stage(enum ipc_mem_exec_stage stage)
 {
 	switch (stage) {
 	case IPC_MEM_EXEC_STAGE_BOOT:
 	case IPC_MEM_EXEC_STAGE_PSI:
 	case IPC_MEM_EXEC_STAGE_EBL:
 	case IPC_MEM_EXEC_STAGE_RUN:
 	case IPC_MEM_EXEC_STAGE_CRASH:
 	case IPC_MEM_EXEC_STAGE_CD_READY:
 		return true;
 	default:
 		return false;
 	}
 }

 void ipc_mmio_update_cp_capability(struct iosm_mmio *ipc_mmio)
 {
 	u32 cp_cap;
 	unsigned int ver;

 	ver = ipc_mmio_get_cp_version(ipc_mmio);
 	cp_cap = ioread32(ipc_mmio->base + ipc_mmio->offset.cp_capability);

 	ipc_mmio->has_mux_lite = (ver >= IOSM_CP_VERSION) &&
 				 !(cp_cap & DL_AGGR) && !(cp_cap & UL_AGGR);

 	ipc_mmio->has_ul_flow_credit =
 		(ver >= IOSM_CP_VERSION) && (cp_cap & UL_FLOW_CREDIT);
 }

 struct iosm_mmio *ipc_mmio_init(void __iomem *mmio, struct device *dev)
 {
 	struct iosm_mmio *ipc_mmio = kzalloc(sizeof(*ipc_mmio), GFP_KERNEL);
 	int retries = IPC_MMIO_EXEC_STAGE_TIMEOUT;
 	enum ipc_mem_exec_stage stage;

 	if (!ipc_mmio)
 		return NULL;

 	ipc_mmio->dev = dev;

 	ipc_mmio->base = mmio;

 	ipc_mmio->offset.exec_stage = MMIO_OFFSET_EXECUTION_STAGE;

 	/* Check for a valid execution stage to make sure that the boot code
 	 * has correctly initialized the MMIO area.
 	 */
 	do {
 		stage = ipc_mmio_get_exec_stage(ipc_mmio);
 		if (ipc_mmio_is_valid_exec_stage(stage))
 			break;

 		msleep(20);
 	} while (retries-- > 0);

 	if (!retries) {
 		dev_err(ipc_mmio->dev, "invalid exec stage %X", stage);
 		goto init_fail;
 	}

 	ipc_mmio->offset.chip_info = MMIO_OFFSET_CHIP_INFO;

 	/* read chip info size and version from chip info structure */
 	ipc_mmio->chip_info_version =
 		ioread8(ipc_mmio->base + ipc_mmio->offset.chip_info);

 	/* Increment of 2 is needed as the size value in the chip info
 	 * excludes the version and size field, which are always present
 	 */
 	ipc_mmio->chip_info_size =
 		ioread8(ipc_mmio->base + ipc_mmio->offset.chip_info + 1) + 2;

 	if (ipc_mmio->chip_info_size != MMIO_CHIP_INFO_SIZE) {
 		dev_err(ipc_mmio->dev, "Unexpected Chip Info");
 		goto init_fail;
 	}

 	ipc_mmio->offset.rom_exit_code = MMIO_OFFSET_ROM_EXIT_CODE;

 	ipc_mmio->offset.psi_address = MMIO_OFFSET_PSI_ADDRESS;
 	ipc_mmio->offset.psi_size = MMIO_OFFSET_PSI_SIZE;
 	ipc_mmio->offset.ipc_status = MMIO_OFFSET_IPC_STATUS;
 	ipc_mmio->offset.context_info = MMIO_OFFSET_CONTEXT_INFO;
 	ipc_mmio->offset.ap_win_base = MMIO_OFFSET_BASE_ADDR;
 	ipc_mmio->offset.ap_win_end = MMIO_OFFSET_END_ADDR;

 	ipc_mmio->offset.cp_version = MMIO_OFFSET_CP_VERSION;
 	ipc_mmio->offset.cp_capability = MMIO_OFFSET_CP_CAPABILITIES;

 	return ipc_mmio;

 init_fail:
 	kfree(ipc_mmio);
 	return NULL;
 }

 enum ipc_mem_exec_stage ipc_mmio_get_exec_stage(struct iosm_mmio *ipc_mmio)
 {
 	if (!ipc_mmio)
 		return IPC_MEM_EXEC_STAGE_INVALID;

 	return (enum ipc_mem_exec_stage)ioread32(ipc_mmio->base +
 						 ipc_mmio->offset.exec_stage);
 }

 void ipc_mmio_copy_chip_info(struct iosm_mmio *ipc_mmio, void *dest,
 			     size_t size)
 {
 	if (ipc_mmio && dest)
 		memcpy_fromio(dest, ipc_mmio->base + ipc_mmio->offset.chip_info,
 			      size);
 }

 enum ipc_mem_device_ipc_state ipc_mmio_get_ipc_state(struct iosm_mmio *ipc_mmio)
 {
 	if (!ipc_mmio)
 		return IPC_MEM_DEVICE_IPC_INVALID;

 	return (enum ipc_mem_device_ipc_state)ioread32(ipc_mmio->base +
 						       ipc_mmio->offset.ipc_status);
 }

 enum rom_exit_code ipc_mmio_get_rom_exit_code(struct iosm_mmio *ipc_mmio)
 {
 	if (!ipc_mmio)
 		return IMEM_ROM_EXIT_FAIL;

 	return (enum rom_exit_code)ioread32(ipc_mmio->base +
 					    ipc_mmio->offset.rom_exit_code);
 }

 void ipc_mmio_config(struct iosm_mmio *ipc_mmio)
 {
 	if (!ipc_mmio)
 		return;

 	/* AP memory window (full window is open and active so that modem checks
 	 * each AP address) 0 means don't check on modem side.
 	 */
 	iowrite64(0, ipc_mmio->base + ipc_mmio->offset.ap_win_base);
 	iowrite64(0, ipc_mmio->base + ipc_mmio->offset.ap_win_end);

 	iowrite64(ipc_mmio->context_info_addr,
 			ipc_mmio->base + ipc_mmio->offset.context_info);
 }

 void ipc_mmio_set_psi_addr_and_size(struct iosm_mmio *ipc_mmio, dma_addr_t addr,
 				    u32 size)
 {
 	if (!ipc_mmio)
 		return;

 	iowrite64(addr, ipc_mmio->base + ipc_mmio->offset.psi_address);
 	iowrite32(size, ipc_mmio->base + ipc_mmio->offset.psi_size);
 }

 void ipc_mmio_set_contex_info_addr(struct iosm_mmio *ipc_mmio, phys_addr_t addr)
 {
 	if (!ipc_mmio)
 		return;

 	/* store context_info address. This will be stored in the mmio area
 	 * during IPC_MEM_DEVICE_IPC_INIT state via ipc_mmio_config()
 	 */
 	ipc_mmio->context_info_addr = addr;
 }

 int ipc_mmio_get_cp_version(struct iosm_mmio *ipc_mmio)
 {
 	if (ipc_mmio)
 		return ioread32(ipc_mmio->base + ipc_mmio->offset.cp_version);

 	return -EFAULT;
 }
	// SPDX-License-Identifier: GPL-2.0-only
	/*
	* Copyright (C) 2020-21 Intel Corporation.
	*/

	#include <linux/delay.h>
	#include <linux/device.h>
	#include <linux/io.h>
	#include <linux/io-64-nonatomic-lo-hi.h>
	#include <linux/slab.h>

	#include "iosm_ipc_mmio.h"

	/* Definition of MMIO offsets
	* note that MMIO_CI offsets are relative to end of chip info structure
	*/

	/* MMIO chip info size in bytes */
	#define MMIO_CHIP_INFO_SIZE 60

	/* CP execution stage */
	#define MMIO_OFFSET_EXECUTION_STAGE 0x00

	/* Boot ROM Chip Info struct */
	#define MMIO_OFFSET_CHIP_INFO 0x04

	#define MMIO_OFFSET_ROM_EXIT_CODE 0x40

	#define MMIO_OFFSET_PSI_ADDRESS 0x54

	#define MMIO_OFFSET_PSI_SIZE 0x5C

	#define MMIO_OFFSET_IPC_STATUS 0x60

	#define MMIO_OFFSET_CONTEXT_INFO 0x64

	#define MMIO_OFFSET_BASE_ADDR 0x6C

	#define MMIO_OFFSET_END_ADDR 0x74

	#define MMIO_OFFSET_CP_VERSION 0xF0

	#define MMIO_OFFSET_CP_CAPABILITIES 0xF4

	/* Timeout in 50 msec to wait for the modem boot code to write a valid
	* execution stage into mmio area
	*/
	#define IPC_MMIO_EXEC_STAGE_TIMEOUT 50

	/* check if exec stage has one of the valid values */
	static bool ipc_mmio_is_valid_exec_stage(enum ipc_mem_exec_stage stage)
	{
	switch (stage) {
	case IPC_MEM_EXEC_STAGE_BOOT:
	case IPC_MEM_EXEC_STAGE_PSI:
	case IPC_MEM_EXEC_STAGE_EBL:
	case IPC_MEM_EXEC_STAGE_RUN:
	case IPC_MEM_EXEC_STAGE_CRASH:
	case IPC_MEM_EXEC_STAGE_CD_READY:
	return true;
	default:
	return false;
	}
	}

	void ipc_mmio_update_cp_capability(struct iosm_mmio *ipc_mmio)
	{
	u32 cp_cap;
	unsigned int ver;

	ver = ipc_mmio_get_cp_version(ipc_mmio);
	cp_cap = ioread32(ipc_mmio->base + ipc_mmio->offset.cp_capability);

	ipc_mmio->has_mux_lite = (ver >= IOSM_CP_VERSION) &&
	!(cp_cap & DL_AGGR) && !(cp_cap & UL_AGGR);

	ipc_mmio->has_ul_flow_credit =
	(ver >= IOSM_CP_VERSION) && (cp_cap & UL_FLOW_CREDIT);
	}

	struct iosm_mmio ipc_mmio_init(void __iomem mmio, struct device *dev)
	{
	struct iosm_mmio ipc_mmio = kzalloc(sizeof(ipc_mmio), GFP_KERNEL);
	int retries = IPC_MMIO_EXEC_STAGE_TIMEOUT;
	enum ipc_mem_exec_stage stage;

	if (!ipc_mmio)
	return NULL;

	ipc_mmio->dev = dev;

	ipc_mmio->base = mmio;

	ipc_mmio->offset.exec_stage = MMIO_OFFSET_EXECUTION_STAGE;

	/* Check for a valid execution stage to make sure that the boot code
	* has correctly initialized the MMIO area.
	*/
	do {
	stage = ipc_mmio_get_exec_stage(ipc_mmio);
	if (ipc_mmio_is_valid_exec_stage(stage))
	break;

	msleep(20);
	} while (retries-- > 0);

	if (!retries) {
	dev_err(ipc_mmio->dev, "invalid exec stage %X", stage);
	goto init_fail;
	}

	ipc_mmio->offset.chip_info = MMIO_OFFSET_CHIP_INFO;

	/* read chip info size and version from chip info structure */
	ipc_mmio->chip_info_version =
	ioread8(ipc_mmio->base + ipc_mmio->offset.chip_info);

	/* Increment of 2 is needed as the size value in the chip info
	* excludes the version and size field, which are always present
	*/
	ipc_mmio->chip_info_size =
	ioread8(ipc_mmio->base + ipc_mmio->offset.chip_info + 1) + 2;

	if (ipc_mmio->chip_info_size != MMIO_CHIP_INFO_SIZE) {
	dev_err(ipc_mmio->dev, "Unexpected Chip Info");
	goto init_fail;
	}

	ipc_mmio->offset.rom_exit_code = MMIO_OFFSET_ROM_EXIT_CODE;

	ipc_mmio->offset.psi_address = MMIO_OFFSET_PSI_ADDRESS;
	ipc_mmio->offset.psi_size = MMIO_OFFSET_PSI_SIZE;
	ipc_mmio->offset.ipc_status = MMIO_OFFSET_IPC_STATUS;
	ipc_mmio->offset.context_info = MMIO_OFFSET_CONTEXT_INFO;
	ipc_mmio->offset.ap_win_base = MMIO_OFFSET_BASE_ADDR;
	ipc_mmio->offset.ap_win_end = MMIO_OFFSET_END_ADDR;

	ipc_mmio->offset.cp_version = MMIO_OFFSET_CP_VERSION;
	ipc_mmio->offset.cp_capability = MMIO_OFFSET_CP_CAPABILITIES;

	return ipc_mmio;

	init_fail:
	kfree(ipc_mmio);
	return NULL;
	}

	enum ipc_mem_exec_stage ipc_mmio_get_exec_stage(struct iosm_mmio *ipc_mmio)
	{
	if (!ipc_mmio)
	return IPC_MEM_EXEC_STAGE_INVALID;

	return (enum ipc_mem_exec_stage)ioread32(ipc_mmio->base +
	ipc_mmio->offset.exec_stage);
	}

	void ipc_mmio_copy_chip_info(struct iosm_mmio ipc_mmio, void dest,
	size_t size)
	{
	if (ipc_mmio && dest)
	memcpy_fromio(dest, ipc_mmio->base + ipc_mmio->offset.chip_info,
	size);
	}

	enum ipc_mem_device_ipc_state ipc_mmio_get_ipc_state(struct iosm_mmio *ipc_mmio)
	{
	if (!ipc_mmio)
	return IPC_MEM_DEVICE_IPC_INVALID;

	return (enum ipc_mem_device_ipc_state)ioread32(ipc_mmio->base +
	ipc_mmio->offset.ipc_status);
	}

	enum rom_exit_code ipc_mmio_get_rom_exit_code(struct iosm_mmio *ipc_mmio)
	{
	if (!ipc_mmio)
	return IMEM_ROM_EXIT_FAIL;

	return (enum rom_exit_code)ioread32(ipc_mmio->base +
	ipc_mmio->offset.rom_exit_code);
	}

	void ipc_mmio_config(struct iosm_mmio *ipc_mmio)
	{
	if (!ipc_mmio)
	return;

	/* AP memory window (full window is open and active so that modem checks
	* each AP address) 0 means don't check on modem side.
	*/
	iowrite64(0, ipc_mmio->base + ipc_mmio->offset.ap_win_base);
	iowrite64(0, ipc_mmio->base + ipc_mmio->offset.ap_win_end);

	iowrite64(ipc_mmio->context_info_addr,
	ipc_mmio->base + ipc_mmio->offset.context_info);
	}

	void ipc_mmio_set_psi_addr_and_size(struct iosm_mmio *ipc_mmio, dma_addr_t addr,
	u32 size)
	{
	if (!ipc_mmio)
	return;

	iowrite64(addr, ipc_mmio->base + ipc_mmio->offset.psi_address);
	iowrite32(size, ipc_mmio->base + ipc_mmio->offset.psi_size);
	}

	void ipc_mmio_set_contex_info_addr(struct iosm_mmio *ipc_mmio, phys_addr_t addr)
	{
	if (!ipc_mmio)
	return;

	/* store context_info address. This will be stored in the mmio area
	* during IPC_MEM_DEVICE_IPC_INIT state via ipc_mmio_config()
	*/
	ipc_mmio->context_info_addr = addr;
	}

	int ipc_mmio_get_cp_version(struct iosm_mmio *ipc_mmio)
	{
	if (ipc_mmio)
	return ioread32(ipc_mmio->base + ipc_mmio->offset.cp_version);

	return -EFAULT;
	}