n1sdp_bl31_setup.c 6.98 KB
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/*
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 * Copyright (c) 2018-2019, ARM Limited and Contributors. All rights reserved.
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 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

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#include <platform_def.h>

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#include <drivers/arm/css/css_mhu_doorbell.h>
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#include <drivers/arm/css/scmi.h>
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#include <drivers/arm/css/sds.h>
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#include <drivers/arm/gic600_multichip.h>
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#include <common/debug.h>
#include <lib/mmio.h>
#include <lib/utils.h>
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#include <plat/arm/common/plat_arm.h>

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#include "n1sdp_def.h"

/*
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 * Platform information structure stored in SDS.
 * This structure holds information about platform's DDR
 * size which will be used to zero out the memory before
 * enabling the ECC capability as well as information
 * about multichip setup
 * 	- multichip mode
 * 	- slave_count
 * 	- Local DDR size in GB, DDR memory in master board
 * 	- Remote DDR size in GB, DDR memory in slave board
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 */
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struct n1sdp_plat_info {
	bool multichip_mode;
	uint8_t slave_count;
	uint8_t local_ddr_size;
	uint8_t remote_ddr_size;
} __packed;
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/*
 * BL33 image information structure stored in SDS.
 * This structure holds the source & destination addresses and
 * the size of the BL33 image which will be loaded by BL31.
 */
struct n1sdp_bl33_info {
	uint32_t bl33_src_addr;
	uint32_t bl33_dst_addr;
	uint32_t bl33_size;
};

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static scmi_channel_plat_info_t n1sdp_scmi_plat_info = {
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	.scmi_mbx_mem = N1SDP_SCMI_PAYLOAD_BASE,
	.db_reg_addr = PLAT_CSS_MHU_BASE + CSS_SCMI_MHU_DB_REG_OFF,
	.db_preserve_mask = 0xfffffffe,
	.db_modify_mask = 0x1,
	.ring_doorbell = &mhu_ring_doorbell
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};

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static struct gic600_multichip_data n1sdp_multichip_data __init = {
	.rt_owner_base = PLAT_ARM_GICD_BASE,
	.rt_owner = 0,
	.chip_count = 1,
	.chip_addrs = {
		PLAT_ARM_GICD_BASE >> 16,
		PLAT_ARM_GICD_BASE >> 16
	},
	.spi_ids = {
		{32, 255},
		{0, 0}
	}
};

static uintptr_t n1sdp_multichip_gicr_frames[3] = {
	PLAT_ARM_GICR_BASE,
	PLAT_ARM_GICR_BASE + PLAT_ARM_REMOTE_CHIP_OFFSET,
	0
};

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scmi_channel_plat_info_t *plat_css_get_scmi_info()
{
	return &n1sdp_scmi_plat_info;
}
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const plat_psci_ops_t *plat_arm_psci_override_pm_ops(plat_psci_ops_t *ops)
{
	return css_scmi_override_pm_ops(ops);
}
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/*
 * N1SDP platform supports RDIMMs with ECC capability. To use the ECC
 * capability, the entire DDR memory space has to be zeroed out before
 * enabling the ECC bits in DMC620. Zeroing out several gigabytes of
 * memory from SCP is quite time consuming so the following function
 * is added to zero out the DDR memory from application processor which is
 * much faster compared to SCP. BL33 binary cannot be copied to DDR memory
 * before enabling ECC so copy_bl33 function is added to copy BL33 binary
 * from IOFPGA-DDR3 memory to main DDR4 memory.
 */

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void dmc_ecc_setup(uint8_t ddr_size_gb)
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{
	uint64_t dram2_size;

	dram2_size = (ddr_size_gb * 1024UL * 1024UL * 1024UL) -
			ARM_DRAM1_SIZE;

	INFO("Zeroing DDR memories\n");
	zero_normalmem((void *)ARM_DRAM1_BASE, ARM_DRAM1_SIZE);
	flush_dcache_range(ARM_DRAM1_BASE, ARM_DRAM1_SIZE);
	zero_normalmem((void *)ARM_DRAM2_BASE, dram2_size);
	flush_dcache_range(ARM_DRAM2_BASE, dram2_size);

	INFO("Enabling ECC on DMCs\n");
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	/* Set DMCs to CONFIG state before writing ERR0CTLR0 register */
	mmio_write_32(N1SDP_DMC0_MEMC_CMD_REG, N1SDP_DMC_MEMC_CMD_CONFIG);
	mmio_write_32(N1SDP_DMC1_MEMC_CMD_REG, N1SDP_DMC_MEMC_CMD_CONFIG);

	/* Enable ECC in DMCs */
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	mmio_setbits_32(N1SDP_DMC0_ERR0CTLR0_REG, N1SDP_DMC_ERR0CTLR0_ECC_EN);
	mmio_setbits_32(N1SDP_DMC1_ERR0CTLR0_REG, N1SDP_DMC_ERR0CTLR0_ECC_EN);
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	/* Set DMCs to READY state */
	mmio_write_32(N1SDP_DMC0_MEMC_CMD_REG, N1SDP_DMC_MEMC_CMD_READY);
	mmio_write_32(N1SDP_DMC1_MEMC_CMD_REG, N1SDP_DMC_MEMC_CMD_READY);
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}

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void remote_dmc_ecc_setup(uint8_t remote_ddr_size)
{
	uint64_t remote_dram2_size;

	remote_dram2_size = (remote_ddr_size * 1024UL * 1024UL * 1024UL) -
				N1SDP_REMOTE_DRAM1_SIZE;
	/* multichip setup */
	INFO("Zeroing remote DDR memories\n");
	zero_normalmem((void *)N1SDP_REMOTE_DRAM1_BASE,
			N1SDP_REMOTE_DRAM1_SIZE);
	flush_dcache_range(N1SDP_REMOTE_DRAM1_BASE, N1SDP_REMOTE_DRAM1_SIZE);
	zero_normalmem((void *)N1SDP_REMOTE_DRAM2_BASE, remote_dram2_size);
	flush_dcache_range(N1SDP_REMOTE_DRAM2_BASE, remote_dram2_size);

	INFO("Enabling ECC on remote DMCs\n");
	/* Set DMCs to CONFIG state before writing ERR0CTLR0 register */
	mmio_write_32(N1SDP_REMOTE_DMC0_MEMC_CMD_REG,
			N1SDP_DMC_MEMC_CMD_CONFIG);
	mmio_write_32(N1SDP_REMOTE_DMC1_MEMC_CMD_REG,
			N1SDP_DMC_MEMC_CMD_CONFIG);

	/* Enable ECC in DMCs */
	mmio_setbits_32(N1SDP_REMOTE_DMC0_ERR0CTLR0_REG,
			N1SDP_DMC_ERR0CTLR0_ECC_EN);
	mmio_setbits_32(N1SDP_REMOTE_DMC1_ERR0CTLR0_REG,
			N1SDP_DMC_ERR0CTLR0_ECC_EN);

	/* Set DMCs to READY state */
	mmio_write_32(N1SDP_REMOTE_DMC0_MEMC_CMD_REG, N1SDP_DMC_MEMC_CMD_READY);
	mmio_write_32(N1SDP_REMOTE_DMC1_MEMC_CMD_REG, N1SDP_DMC_MEMC_CMD_READY);
}

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void copy_bl33(uint32_t src, uint32_t dst, uint32_t size)
{
	uint32_t i;

	INFO("Copying BL33 to DDR memory\n");
	for (i = 0; i < size; i = i + 8)
		mmio_write_64((dst + i), mmio_read_64(src + i));

	for (i = 0; i < size; i = i + 8) {
		if (mmio_read_64(src + i) != mmio_read_64(dst + i)) {
			ERROR("Copy failed!\n");
			panic();
		}
	}
}

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void n1sdp_bl31_multichip_setup(void)
{
	plat_arm_override_gicr_frames(n1sdp_multichip_gicr_frames);
	gic600_multichip_init(&n1sdp_multichip_data);
}

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void bl31_platform_setup(void)
{
	int ret;
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	struct n1sdp_plat_info plat_info;
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	struct n1sdp_bl33_info bl33_info;

	ret = sds_init();
	if (ret != SDS_OK) {
		ERROR("SDS initialization failed\n");
		panic();
	}

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	ret = sds_struct_read(N1SDP_SDS_PLATFORM_INFO_STRUCT_ID,
				N1SDP_SDS_PLATFORM_INFO_OFFSET,
				&plat_info,
				N1SDP_SDS_PLATFORM_INFO_SIZE,
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				SDS_ACCESS_MODE_NON_CACHED);
	if (ret != SDS_OK) {
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		ERROR("Error getting platform info from SDS\n");
		panic();
	}
	/* Validate plat_info SDS */
	if ((plat_info.local_ddr_size == 0)
		|| (plat_info.local_ddr_size > N1SDP_MAX_DDR_CAPACITY_GB)
		|| (plat_info.remote_ddr_size > N1SDP_MAX_DDR_CAPACITY_GB)
		|| (plat_info.slave_count > N1SDP_MAX_SLAVE_COUNT)) {
		ERROR("platform info SDS is corrupted\n");
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		panic();
	}
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	if (plat_info.multichip_mode) {
		n1sdp_multichip_data.chip_count = plat_info.slave_count + 1;
		n1sdp_bl31_multichip_setup();
	}
	arm_bl31_platform_setup();

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	dmc_ecc_setup(plat_info.local_ddr_size);
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	/* Check if remote memory is present */
	if ((plat_info.multichip_mode) && (plat_info.remote_ddr_size != 0))
		remote_dmc_ecc_setup(plat_info.remote_ddr_size);

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	ret = sds_struct_read(N1SDP_SDS_BL33_INFO_STRUCT_ID,
				N1SDP_SDS_BL33_INFO_OFFSET,
				&bl33_info,
				N1SDP_SDS_BL33_INFO_SIZE,
				SDS_ACCESS_MODE_NON_CACHED);
	if (ret != SDS_OK) {
		ERROR("Error getting BL33 info from SDS\n");
		panic();
	}
	copy_bl33(bl33_info.bl33_src_addr,
			bl33_info.bl33_dst_addr,
			bl33_info.bl33_size);
	/*
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	 * Pass platform information to BL33. This method is followed as
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	 * currently there is no BL1/BL2 involved in boot flow of N1SDP.
	 * When TBBR is implemented for N1SDP, this method should be removed
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	 * and platform information should be passed to BL33 using NT_FW_CONFIG
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	 * passing mechanism.
	 */
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	mmio_write_32(N1SDP_PLATFORM_INFO_BASE, *(uint32_t *)&plat_info);
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}