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arm-trusted-firmware/plat/st/common/bl2_io_storage.c
Yann Gautier 18b415be9d feat(plat/st): improve FIP image loading from MMC 
Instead of using a scratch buffer of 512 bytes, we can directly use the
image address and max size. The mmc_block_dev_spec struct info is then
overwritten for each image with this info, except FW_CONFIG and GPT
table which will still use the scratch buffer.
This allows using multiple blocks read on MMC, and so improves the boot
time.
A cache invalidate is required for the remaining data not used from the
first and last blocks read. It is not required for FW_CONFIG_ID,
as it is in scratch buffer in SYSRAM, and also because bl_mem_params
struct is overwritten in this case. This should also not be done if
the image is not found (OP-TEE extra binaries when using SP_min).

Change-Id: If3ecfdfe35bb9db66284036ca49c4bd1be4fd121
Signed-off-by: Yann Gautier <yann.gautier@foss.st.com>
2021-09-07 09:14:05 +02:00

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/*
* Copyright (c) 2015-2021, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <string.h>
#include <arch_helpers.h>
#include <common/debug.h>
#include <common/desc_image_load.h>
#include <drivers/io/io_block.h>
#include <drivers/io/io_driver.h>
#include <drivers/io/io_fip.h>
#include <drivers/io/io_mtd.h>
#include <drivers/io/io_storage.h>
#include <drivers/mmc.h>
#include <drivers/partition/partition.h>
#include <drivers/raw_nand.h>
#include <drivers/spi_nand.h>
#include <drivers/spi_nor.h>
#include <drivers/st/io_mmc.h>
#include <drivers/st/stm32_fmc2_nand.h>
#include <drivers/st/stm32_qspi.h>
#include <drivers/st/stm32_sdmmc2.h>
#include <lib/mmio.h>
#include <lib/utils.h>
#include <plat/common/platform.h>
#include <tools_share/firmware_image_package.h>
#include <platform_def.h>
/* IO devices */
uintptr_t fip_dev_handle;
uintptr_t storage_dev_handle;
static const io_dev_connector_t *fip_dev_con;
#if STM32MP_SDMMC || STM32MP_EMMC
static struct mmc_device_info mmc_info;
static io_block_spec_t gpt_block_spec = {
.offset = 0U,
.length = 34U * MMC_BLOCK_SIZE, /* Size of GPT table */
};
static uint32_t block_buffer[MMC_BLOCK_SIZE] __aligned(MMC_BLOCK_SIZE);
static io_block_dev_spec_t mmc_block_dev_spec = {
/* It's used as temp buffer in block driver */
.buffer = {
.offset = (size_t)&block_buffer,
.length = MMC_BLOCK_SIZE,
},
.ops = {
.read = mmc_read_blocks,
.write = NULL,
},
.block_size = MMC_BLOCK_SIZE,
};
static const io_dev_connector_t *mmc_dev_con;
#endif /* STM32MP_SDMMC || STM32MP_EMMC */
#if STM32MP_SPI_NOR
static io_mtd_dev_spec_t spi_nor_dev_spec = {
.ops = {
.init = spi_nor_init,
.read = spi_nor_read,
},
};
#endif
#if STM32MP_RAW_NAND
static io_mtd_dev_spec_t nand_dev_spec = {
.ops = {
.init = nand_raw_init,
.read = nand_read,
.seek = nand_seek_bb
},
};
static const io_dev_connector_t *nand_dev_con;
#endif
#if STM32MP_SPI_NAND
static io_mtd_dev_spec_t spi_nand_dev_spec = {
.ops = {
.init = spi_nand_init,
.read = nand_read,
.seek = nand_seek_bb
},
};
#endif
#if STM32MP_SPI_NAND || STM32MP_SPI_NOR
static const io_dev_connector_t *spi_dev_con;
#endif
static const io_uuid_spec_t bl33_partition_spec = {
.uuid = UUID_NON_TRUSTED_FIRMWARE_BL33
};
static const io_uuid_spec_t tos_fw_config_uuid_spec = {
.uuid = UUID_TOS_FW_CONFIG,
};
static const io_uuid_spec_t hw_config_uuid_spec = {
.uuid = UUID_HW_CONFIG,
};
#ifdef AARCH32_SP_OPTEE
static const io_uuid_spec_t optee_header_partition_spec = {
.uuid = UUID_SECURE_PAYLOAD_BL32
};
static const io_uuid_spec_t optee_core_partition_spec = {
.uuid = UUID_SECURE_PAYLOAD_BL32_EXTRA1
};
static const io_uuid_spec_t optee_paged_partition_spec = {
.uuid = UUID_SECURE_PAYLOAD_BL32_EXTRA2
};
#else
static const io_uuid_spec_t bl32_partition_spec = {
.uuid = UUID_SECURE_PAYLOAD_BL32
};
#endif
static io_block_spec_t image_block_spec = {
.offset = 0U,
.length = 0U,
};
static int open_fip(const uintptr_t spec);
static int open_storage(const uintptr_t spec);
struct plat_io_policy {
uintptr_t *dev_handle;
uintptr_t image_spec;
int (*check)(const uintptr_t spec);
};
static const struct plat_io_policy policies[] = {
[FIP_IMAGE_ID] = {
.dev_handle = &storage_dev_handle,
.image_spec = (uintptr_t)&image_block_spec,
.check = open_storage
},
#ifdef AARCH32_SP_OPTEE
[BL32_IMAGE_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&optee_header_partition_spec,
.check = open_fip
},
[BL32_EXTRA1_IMAGE_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&optee_core_partition_spec,
.check = open_fip
},
[BL32_EXTRA2_IMAGE_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&optee_paged_partition_spec,
.check = open_fip
},
#else
[BL32_IMAGE_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&bl32_partition_spec,
.check = open_fip
},
#endif
[BL33_IMAGE_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&bl33_partition_spec,
.check = open_fip
},
[TOS_FW_CONFIG_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&tos_fw_config_uuid_spec,
.check = open_fip
},
[HW_CONFIG_ID] = {
.dev_handle = &fip_dev_handle,
.image_spec = (uintptr_t)&hw_config_uuid_spec,
.check = open_fip
},
#if STM32MP_SDMMC || STM32MP_EMMC
[GPT_IMAGE_ID] = {
.dev_handle = &storage_dev_handle,
.image_spec = (uintptr_t)&gpt_block_spec,
.check = open_storage
},
#endif
};
static int open_fip(const uintptr_t spec)
{
return io_dev_init(fip_dev_handle, (uintptr_t)FIP_IMAGE_ID);
}
static int open_storage(const uintptr_t spec)
{
return io_dev_init(storage_dev_handle, 0);
}
static void print_boot_device(boot_api_context_t *boot_context)
{
switch (boot_context->boot_interface_selected) {
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_SD:
INFO("Using SDMMC\n");
break;
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_EMMC:
INFO("Using EMMC\n");
break;
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NOR_QSPI:
INFO("Using QSPI NOR\n");
break;
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NAND_FMC:
INFO("Using FMC NAND\n");
break;
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NAND_QSPI:
INFO("Using SPI NAND\n");
break;
default:
ERROR("Boot interface %u not found\n",
boot_context->boot_interface_selected);
panic();
break;
}
if (boot_context->boot_interface_instance != 0U) {
INFO(" Instance %d\n", boot_context->boot_interface_instance);
}
}
#if STM32MP_SDMMC || STM32MP_EMMC
static void boot_mmc(enum mmc_device_type mmc_dev_type,
uint16_t boot_interface_instance)
{
int io_result __unused;
struct stm32_sdmmc2_params params;
zeromem(&params, sizeof(struct stm32_sdmmc2_params));
mmc_info.mmc_dev_type = mmc_dev_type;
switch (boot_interface_instance) {
case 1:
params.reg_base = STM32MP_SDMMC1_BASE;
break;
case 2:
params.reg_base = STM32MP_SDMMC2_BASE;
break;
case 3:
params.reg_base = STM32MP_SDMMC3_BASE;
break;
default:
WARN("SDMMC instance not found, using default\n");
if (mmc_dev_type == MMC_IS_SD) {
params.reg_base = STM32MP_SDMMC1_BASE;
} else {
params.reg_base = STM32MP_SDMMC2_BASE;
}
break;
}
params.device_info = &mmc_info;
if (stm32_sdmmc2_mmc_init(&params) != 0) {
ERROR("SDMMC%u init failed\n", boot_interface_instance);
panic();
}
/* Open MMC as a block device to read GPT table */
io_result = register_io_dev_block(&mmc_dev_con);
if (io_result != 0) {
panic();
}
io_result = io_dev_open(mmc_dev_con, (uintptr_t)&mmc_block_dev_spec,
&storage_dev_handle);
assert(io_result == 0);
}
#endif /* STM32MP_SDMMC || STM32MP_EMMC */
#if STM32MP_SPI_NOR
static void boot_spi_nor(boot_api_context_t *boot_context)
{
int io_result __unused;
io_result = stm32_qspi_init();
assert(io_result == 0);
io_result = register_io_dev_mtd(&spi_dev_con);
assert(io_result == 0);
/* Open connections to device */
io_result = io_dev_open(spi_dev_con,
(uintptr_t)&spi_nor_dev_spec,
&storage_dev_handle);
assert(io_result == 0);
}
#endif /* STM32MP_SPI_NOR */
#if STM32MP_RAW_NAND
static void boot_fmc2_nand(boot_api_context_t *boot_context)
{
int io_result __unused;
io_result = stm32_fmc2_init();
assert(io_result == 0);
/* Register the IO device on this platform */
io_result = register_io_dev_mtd(&nand_dev_con);
assert(io_result == 0);
/* Open connections to device */
io_result = io_dev_open(nand_dev_con, (uintptr_t)&nand_dev_spec,
&storage_dev_handle);
assert(io_result == 0);
}
#endif /* STM32MP_RAW_NAND */
#if STM32MP_SPI_NAND
static void boot_spi_nand(boot_api_context_t *boot_context)
{
int io_result __unused;
io_result = stm32_qspi_init();
assert(io_result == 0);
io_result = register_io_dev_mtd(&spi_dev_con);
assert(io_result == 0);
/* Open connections to device */
io_result = io_dev_open(spi_dev_con,
(uintptr_t)&spi_nand_dev_spec,
&storage_dev_handle);
assert(io_result == 0);
}
#endif /* STM32MP_SPI_NAND */
void stm32mp_io_setup(void)
{
int io_result __unused;
boot_api_context_t *boot_context =
(boot_api_context_t *)stm32mp_get_boot_ctx_address();
print_boot_device(boot_context);
if ((boot_context->boot_partition_used_toboot == 1U) ||
(boot_context->boot_partition_used_toboot == 2U)) {
INFO("Boot used partition fsbl%u\n",
boot_context->boot_partition_used_toboot);
}
io_result = register_io_dev_fip(&fip_dev_con);
assert(io_result == 0);
io_result = io_dev_open(fip_dev_con, (uintptr_t)NULL,
&fip_dev_handle);
switch (boot_context->boot_interface_selected) {
#if STM32MP_SDMMC
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_SD:
dmbsy();
boot_mmc(MMC_IS_SD, boot_context->boot_interface_instance);
break;
#endif
#if STM32MP_EMMC
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_EMMC:
dmbsy();
boot_mmc(MMC_IS_EMMC, boot_context->boot_interface_instance);
break;
#endif
#if STM32MP_SPI_NOR
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NOR_QSPI:
dmbsy();
boot_spi_nor(boot_context);
break;
#endif
#if STM32MP_RAW_NAND
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NAND_FMC:
dmbsy();
boot_fmc2_nand(boot_context);
break;
#endif
#if STM32MP_SPI_NAND
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NAND_QSPI:
dmbsy();
boot_spi_nand(boot_context);
break;
#endif
default:
ERROR("Boot interface %d not supported\n",
boot_context->boot_interface_selected);
panic();
break;
}
}
int bl2_plat_handle_pre_image_load(unsigned int image_id)
{
static bool gpt_init_done __unused;
uint16_t boot_itf = stm32mp_get_boot_itf_selected();
switch (boot_itf) {
#if STM32MP_SDMMC || STM32MP_EMMC
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_SD:
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_EMMC:
if (!gpt_init_done) {
const partition_entry_t *entry;
partition_init(GPT_IMAGE_ID);
entry = get_partition_entry(FIP_IMAGE_NAME);
if (entry == NULL) {
ERROR("Could NOT find the %s partition!\n",
FIP_IMAGE_NAME);
return -ENOENT;
}
image_block_spec.offset = entry->start;
image_block_spec.length = entry->length;
gpt_init_done = true;
} else {
bl_mem_params_node_t *bl_mem_params = get_bl_mem_params_node(image_id);
mmc_block_dev_spec.buffer.offset = bl_mem_params->image_info.image_base;
mmc_block_dev_spec.buffer.length = bl_mem_params->image_info.image_max_size;
}
break;
#endif
#if STM32MP_RAW_NAND || STM32MP_SPI_NAND
#if STM32MP_RAW_NAND
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NAND_FMC:
#endif
#if STM32MP_SPI_NAND
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NAND_QSPI:
#endif
image_block_spec.offset = STM32MP_NAND_FIP_OFFSET;
break;
#endif
#if STM32MP_SPI_NOR
case BOOT_API_CTX_BOOT_INTERFACE_SEL_FLASH_NOR_QSPI:
image_block_spec.offset = STM32MP_NOR_FIP_OFFSET;
break;
#endif
default:
ERROR("FIP Not found\n");
panic();
}
return 0;
}
/*
* Return an IO device handle and specification which can be used to access
* an image. Use this to enforce platform load policy.
*/
int plat_get_image_source(unsigned int image_id, uintptr_t *dev_handle,
uintptr_t *image_spec)
{
int rc;
const struct plat_io_policy *policy;
assert(image_id < ARRAY_SIZE(policies));
policy = &policies[image_id];
rc = policy->check(policy->image_spec);
if (rc == 0) {
*image_spec = policy->image_spec;
*dev_handle = *(policy->dev_handle);
}
return rc;
}
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