drivers/mm/mm_drv_ti_rat.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2023 Texas Instruments Incorporated
  * Copyright (c) 2023 L Lakshmanan
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 /**
  * @file
  * @brief Driver handling Region based Address Translation (RAT)
  * related functions
  *
  * RAT is a module that is used by certain Texas Instruments SoCs
  * to allow some cores with a 32 bit address space to access
  * the full 48 bit SoC address space. This is required for the
  * core to be able to use peripherals.
  *
  * The driver uses the sys_mm_drv_page_phys_get() API to access
  * the address space.
  */

 #include <zephyr/kernel.h>
 #include <zephyr/drivers/mm/rat.h>
 #include <zephyr/drivers/mm/system_mm.h>
 #include <zephyr/sys/__assert.h>

 static struct address_trans_params translate_config;

 /**
  * @brief Set registers for the address regions being used
  *
  * @param addr_translate_config Pointer to config struct for the RAT module
  * @param region_num Number of regions being initialised
  * @param enable Region status
  */

 static void address_trans_set_region(struct address_trans_params *addr_translate_config,
 			uint16_t region_num, uint32_t enable)
 {
 	uint32_t rat_base_addr = addr_translate_config->rat_base_addr;
 	uint64_t system_addr = addr_translate_config->region_config[region_num].system_addr;
 	uint32_t local_addr = addr_translate_config->region_config[region_num].local_addr;
 	uint32_t size = addr_translate_config->region_config[region_num].size;
 	uint32_t system_addrL, system_addrH;

 	if (size > address_trans_region_size_4G) {
 		size = address_trans_region_size_4G;
 	}
 	system_addrL = (uint32_t)(system_addr & ~((uint32_t)((BIT64_MASK(size)))));
 	system_addrH = (uint32_t)((system_addr >> 32) & 0xFFFF);
 	local_addr = local_addr & ~((uint32_t)(BIT64_MASK(size)));

 	sys_write32(0, RAT_CTRL(rat_base_addr, region_num));
 	sys_write32(local_addr, RAT_BASE(rat_base_addr, region_num));
 	sys_write32(system_addrL, RAT_TRANS_L(rat_base_addr, region_num));
 	sys_write32(system_addrH, RAT_TRANS_H(rat_base_addr, region_num));
 	sys_write32(RAT_CTRL_W(enable, size), RAT_CTRL(rat_base_addr, region_num));
 }

 static void address_trans_init(struct address_trans_params *params)
 {
 	uint32_t i;

 	if (params != NULL) {
 		translate_config = *params;
 	}

 	__ASSERT(translate_config.num_regions < ADDR_TRANSLATE_MAX_REGIONS,
 		 "Exceeding maximum number of regions");

 	for (i = 0; i < translate_config.num_regions; i++) {
 		__ASSERT(translate_config.rat_base_addr != 0, "RAT base address cannot be 0");
 		__ASSERT(translate_config.region_config != NULL,
 			 "RAT region config cannot be NULL");

 		/* enable regions setup by user */
 		address_trans_set_region(&translate_config, i, 1);
 	}
 }

 /**
  * @brief Initialise RAT module
  *
  * @param region_config Pointer to config struct for the regions
  * @param rat_base_addr Base address for the RAT module
  * @param translate_regions Number of regions being initialised
  */

 void sys_mm_drv_ti_rat_init(void *region_config, uint64_t rat_base_addr, uint8_t translate_regions)
 {
 	translate_config.num_regions = translate_regions;
 	translate_config.rat_base_addr = rat_base_addr;
 	translate_config.region_config = (struct address_trans_region_config *)region_config;

 	address_trans_init(&translate_config);
 }

 int sys_mm_drv_page_phys_get(void *virt, uintptr_t *phys)
 {
 	if (virt == NULL) {
 		return -EINVAL;
 	}
 	uintptr_t pa = (uintptr_t) virt;
 	uintptr_t *va = phys;

 	uint32_t found, regionId;

 	__ASSERT(translate_config.num_regions < ADDR_TRANSLATE_MAX_REGIONS,
 		 "Exceeding maximum number of regions");

 	found = 0;

 	for (regionId = 0; regionId < translate_config.num_regions; regionId++) {
 		uint64_t start_addr, end_addr;
 		uint32_t size_mask;

 		size_mask =
 			((uint32_t)((BIT64_MASK(translate_config.region_config[regionId].size))));

 		start_addr = translate_config.region_config[regionId].system_addr;

 		end_addr = start_addr + size_mask;

 		if (pa >= start_addr && pa <= end_addr) {
 			found = 1;
 			break;
 		}
 	}
 	if (found) {
 		/* translate input address to output address */
 		uint32_t offset =
 			pa - translate_config.region_config[regionId].system_addr;

 		*va = (translate_config.region_config[regionId].local_addr + offset);
 	} else {
 		/* no mapping found, set output = input with 32b truncation */
 		*va = pa;
 	}

 	if (va == NULL) {
 		return -EFAULT;
 	}
 	return 0;
 }
	/*
	* Copyright (c) 2023 Texas Instruments Incorporated
	* Copyright (c) 2023 L Lakshmanan
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/**
	* @file
	* @brief Driver handling Region based Address Translation (RAT)
	* related functions
	*
	* RAT is a module that is used by certain Texas Instruments SoCs
	* to allow some cores with a 32 bit address space to access
	* the full 48 bit SoC address space. This is required for the
	* core to be able to use peripherals.
	*
	* The driver uses the sys_mm_drv_page_phys_get() API to access
	* the address space.
	*/

	#include <zephyr/kernel.h>
	#include <zephyr/drivers/mm/rat.h>
	#include <zephyr/drivers/mm/system_mm.h>
	#include <zephyr/sys/__assert.h>

	static struct address_trans_params translate_config;

	/**
	* @brief Set registers for the address regions being used
	*
	* @param addr_translate_config Pointer to config struct for the RAT module
	* @param region_num Number of regions being initialised
	* @param enable Region status
	*/

	static void address_trans_set_region(struct address_trans_params *addr_translate_config,
	uint16_t region_num, uint32_t enable)
	{
	uint32_t rat_base_addr = addr_translate_config->rat_base_addr;
	uint64_t system_addr = addr_translate_config->region_config[region_num].system_addr;
	uint32_t local_addr = addr_translate_config->region_config[region_num].local_addr;
	uint32_t size = addr_translate_config->region_config[region_num].size;
	uint32_t system_addrL, system_addrH;

	if (size > address_trans_region_size_4G) {
	size = address_trans_region_size_4G;
	}
	system_addrL = (uint32_t)(system_addr & ~((uint32_t)((BIT64_MASK(size)))));
	system_addrH = (uint32_t)((system_addr >> 32) & 0xFFFF);
	local_addr = local_addr & ~((uint32_t)(BIT64_MASK(size)));

	sys_write32(0, RAT_CTRL(rat_base_addr, region_num));
	sys_write32(local_addr, RAT_BASE(rat_base_addr, region_num));
	sys_write32(system_addrL, RAT_TRANS_L(rat_base_addr, region_num));
	sys_write32(system_addrH, RAT_TRANS_H(rat_base_addr, region_num));
	sys_write32(RAT_CTRL_W(enable, size), RAT_CTRL(rat_base_addr, region_num));
	}

	static void address_trans_init(struct address_trans_params *params)
	{
	uint32_t i;

	if (params != NULL) {
	translate_config = *params;
	}

	__ASSERT(translate_config.num_regions < ADDR_TRANSLATE_MAX_REGIONS,
	"Exceeding maximum number of regions");

	for (i = 0; i < translate_config.num_regions; i++) {
	__ASSERT(translate_config.rat_base_addr != 0, "RAT base address cannot be 0");
	__ASSERT(translate_config.region_config != NULL,
	"RAT region config cannot be NULL");

	/* enable regions setup by user */
	address_trans_set_region(&translate_config, i, 1);
	}
	}

	/**
	* @brief Initialise RAT module
	*
	* @param region_config Pointer to config struct for the regions
	* @param rat_base_addr Base address for the RAT module
	* @param translate_regions Number of regions being initialised
	*/

	void sys_mm_drv_ti_rat_init(void *region_config, uint64_t rat_base_addr, uint8_t translate_regions)
	{
	translate_config.num_regions = translate_regions;
	translate_config.rat_base_addr = rat_base_addr;
	translate_config.region_config = (struct address_trans_region_config *)region_config;

	address_trans_init(&translate_config);
	}

	int sys_mm_drv_page_phys_get(void virt, uintptr_t phys)
	{
	if (virt == NULL) {
	return -EINVAL;
	}
	uintptr_t pa = (uintptr_t) virt;
	uintptr_t *va = phys;

	uint32_t found, regionId;

	__ASSERT(translate_config.num_regions < ADDR_TRANSLATE_MAX_REGIONS,
	"Exceeding maximum number of regions");

	found = 0;

	for (regionId = 0; regionId < translate_config.num_regions; regionId++) {
	uint64_t start_addr, end_addr;
	uint32_t size_mask;

	size_mask =
	((uint32_t)((BIT64_MASK(translate_config.region_config[regionId].size))));

	start_addr = translate_config.region_config[regionId].system_addr;

	end_addr = start_addr + size_mask;

	if (pa >= start_addr && pa <= end_addr) {
	found = 1;
	break;
	}
	}
	if (found) {
	/* translate input address to output address */
	uint32_t offset =
	pa - translate_config.region_config[regionId].system_addr;

	*va = (translate_config.region_config[regionId].local_addr + offset);
	} else {
	/* no mapping found, set output = input with 32b truncation */
	*va = pa;
	}

	if (va == NULL) {
	return -EFAULT;
	}
	return 0;
	}