/* * Copyright (c) 2018-2022, Arm Limited. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include "n1sdp_def.h" #include /* * 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 * - secondary_count * - Local DDR size in GB, DDR memory in master board * - Remote DDR size in GB, DDR memory in secondary board */ struct n1sdp_plat_info { bool multichip_mode; uint8_t secondary_count; uint8_t local_ddr_size; uint8_t remote_ddr_size; } __packed; static scmi_channel_plat_info_t n1sdp_scmi_plat_info = { .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 }; 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, 479}, {512, 959} } }; static uintptr_t n1sdp_multichip_gicr_frames[3] = { PLAT_ARM_GICR_BASE, PLAT_ARM_GICR_BASE + PLAT_ARM_REMOTE_CHIP_OFFSET, 0 }; scmi_channel_plat_info_t *plat_css_get_scmi_info(int channel_id) { return &n1sdp_scmi_plat_info; } const plat_psci_ops_t *plat_arm_psci_override_pm_ops(plat_psci_ops_t *ops) { return css_scmi_override_pm_ops(ops); } /* * 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. Local DDR memory is zeroed out during BL2 * stage. If remote chip is connected, it's DDR memory is zeroed out here. */ 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); } void n1sdp_bl31_multichip_setup(void) { plat_arm_override_gicr_frames(n1sdp_multichip_gicr_frames); gic600_multichip_init(&n1sdp_multichip_data); } void bl31_platform_setup(void) { int ret; struct n1sdp_plat_info plat_info; ret = sds_init(); if (ret != SDS_OK) { ERROR("SDS initialization failed\n"); panic(); } ret = sds_struct_read(N1SDP_SDS_PLATFORM_INFO_STRUCT_ID, N1SDP_SDS_PLATFORM_INFO_OFFSET, &plat_info, N1SDP_SDS_PLATFORM_INFO_SIZE, SDS_ACCESS_MODE_NON_CACHED); if (ret != SDS_OK) { 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.secondary_count > N1SDP_MAX_SECONDARY_COUNT)) { ERROR("platform info SDS is corrupted\n"); panic(); } if (plat_info.multichip_mode) { n1sdp_multichip_data.chip_count = plat_info.secondary_count + 1; n1sdp_bl31_multichip_setup(); } arm_bl31_platform_setup(); /* 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); }