187056d31SPankaj Gupta /* 287056d31SPankaj Gupta * Copyright 2018-2021 NXP 387056d31SPankaj Gupta * 487056d31SPankaj Gupta * SPDX-License-Identifier: BSD-3-Clause 587056d31SPankaj Gupta * 687056d31SPankaj Gupta */ 787056d31SPankaj Gupta 887056d31SPankaj Gupta #include <assert.h> 987056d31SPankaj Gupta 1087056d31SPankaj Gupta #include <arch.h> 1187056d31SPankaj Gupta #include <bl31/interrupt_mgmt.h> 1287056d31SPankaj Gupta #include <caam.h> 1387056d31SPankaj Gupta #include <cassert.h> 1487056d31SPankaj Gupta #include <ccn.h> 1587056d31SPankaj Gupta #include <common/debug.h> 1687056d31SPankaj Gupta #include <dcfg.h> 1787056d31SPankaj Gupta #ifdef I2C_INIT 1887056d31SPankaj Gupta #include <i2c.h> 1987056d31SPankaj Gupta #endif 2087056d31SPankaj Gupta #include <lib/mmio.h> 2187056d31SPankaj Gupta #include <lib/xlat_tables/xlat_tables_v2.h> 2287056d31SPankaj Gupta #include <ls_interconnect.h> 2387056d31SPankaj Gupta #ifdef POLICY_FUSE_PROVISION 2487056d31SPankaj Gupta #include <nxp_gpio.h> 2587056d31SPankaj Gupta #endif 2687056d31SPankaj Gupta #if TRUSTED_BOARD_BOOT 2787056d31SPankaj Gupta #include <nxp_smmu.h> 2887056d31SPankaj Gupta #endif 2987056d31SPankaj Gupta #include <nxp_timer.h> 3087056d31SPankaj Gupta #include <plat_console.h> 3187056d31SPankaj Gupta #include <plat_gic.h> 3287056d31SPankaj Gupta #include <plat_tzc400.h> 3387056d31SPankaj Gupta #include <pmu.h> 3487056d31SPankaj Gupta #if defined(NXP_SFP_ENABLED) 3587056d31SPankaj Gupta #include <sfp.h> 3687056d31SPankaj Gupta #endif 3787056d31SPankaj Gupta 3887056d31SPankaj Gupta #include <errata.h> 3987056d31SPankaj Gupta #include <ls_interrupt_mgmt.h> 4087056d31SPankaj Gupta #include "plat_common.h" 4187056d31SPankaj Gupta #ifdef NXP_NV_SW_MAINT_LAST_EXEC_DATA 4287056d31SPankaj Gupta #include <plat_nv_storage.h> 4387056d31SPankaj Gupta #endif 4487056d31SPankaj Gupta #ifdef NXP_WARM_BOOT 4587056d31SPankaj Gupta #include <plat_warm_rst.h> 4687056d31SPankaj Gupta #endif 4787056d31SPankaj Gupta #include "platform_def.h" 4887056d31SPankaj Gupta #include "soc.h" 4987056d31SPankaj Gupta 5087056d31SPankaj Gupta static struct soc_type soc_list[] = { 5187056d31SPankaj Gupta SOC_ENTRY(LX2160A, LX2160A, 8, 2), 5287056d31SPankaj Gupta SOC_ENTRY(LX2080A, LX2080A, 8, 1), 5387056d31SPankaj Gupta SOC_ENTRY(LX2120A, LX2120A, 6, 2), 5487056d31SPankaj Gupta }; 5587056d31SPankaj Gupta 5687056d31SPankaj Gupta static dcfg_init_info_t dcfg_init_data = { 5787056d31SPankaj Gupta .g_nxp_dcfg_addr = NXP_DCFG_ADDR, 5887056d31SPankaj Gupta .nxp_sysclk_freq = NXP_SYSCLK_FREQ, 5987056d31SPankaj Gupta .nxp_ddrclk_freq = NXP_DDRCLK_FREQ, 6087056d31SPankaj Gupta .nxp_plat_clk_divider = NXP_PLATFORM_CLK_DIVIDER, 6187056d31SPankaj Gupta }; 6287056d31SPankaj Gupta static const unsigned char master_to_6rn_id_map[] = { 6387056d31SPankaj Gupta PLAT_6CLUSTER_TO_CCN_ID_MAP 6487056d31SPankaj Gupta }; 6587056d31SPankaj Gupta 6687056d31SPankaj Gupta static const unsigned char master_to_rn_id_map[] = { 6787056d31SPankaj Gupta PLAT_CLUSTER_TO_CCN_ID_MAP 6887056d31SPankaj Gupta }; 6987056d31SPankaj Gupta 7087056d31SPankaj Gupta CASSERT(ARRAY_SIZE(master_to_rn_id_map) == NUMBER_OF_CLUSTERS, 7187056d31SPankaj Gupta assert_invalid_cluster_count_for_ccn_variant); 7287056d31SPankaj Gupta 7387056d31SPankaj Gupta static const ccn_desc_t plat_six_cluster_ccn_desc = { 7487056d31SPankaj Gupta .periphbase = NXP_CCN_ADDR, 7587056d31SPankaj Gupta .num_masters = ARRAY_SIZE(master_to_6rn_id_map), 7687056d31SPankaj Gupta .master_to_rn_id_map = master_to_6rn_id_map 7787056d31SPankaj Gupta }; 7887056d31SPankaj Gupta 7987056d31SPankaj Gupta static const ccn_desc_t plat_ccn_desc = { 8087056d31SPankaj Gupta .periphbase = NXP_CCN_ADDR, 8187056d31SPankaj Gupta .num_masters = ARRAY_SIZE(master_to_rn_id_map), 8287056d31SPankaj Gupta .master_to_rn_id_map = master_to_rn_id_map 8387056d31SPankaj Gupta }; 8487056d31SPankaj Gupta 8587056d31SPankaj Gupta /******************************************************************************* 8687056d31SPankaj Gupta * This function returns the number of clusters in the SoC 8787056d31SPankaj Gupta ******************************************************************************/ 8887056d31SPankaj Gupta static unsigned int get_num_cluster(void) 8987056d31SPankaj Gupta { 9087056d31SPankaj Gupta const soc_info_t *soc_info = get_soc_info(); 9187056d31SPankaj Gupta uint32_t num_clusters = NUMBER_OF_CLUSTERS; 9287056d31SPankaj Gupta unsigned int i; 9387056d31SPankaj Gupta 9487056d31SPankaj Gupta for (i = 0U; i < ARRAY_SIZE(soc_list); i++) { 9587056d31SPankaj Gupta if (soc_list[i].personality == soc_info->personality) { 9687056d31SPankaj Gupta num_clusters = soc_list[i].num_clusters; 9787056d31SPankaj Gupta break; 9887056d31SPankaj Gupta } 9987056d31SPankaj Gupta } 10087056d31SPankaj Gupta 10187056d31SPankaj Gupta VERBOSE("NUM of cluster = 0x%x\n", num_clusters); 10287056d31SPankaj Gupta 10387056d31SPankaj Gupta return num_clusters; 10487056d31SPankaj Gupta } 10587056d31SPankaj Gupta 10687056d31SPankaj Gupta 10787056d31SPankaj Gupta /****************************************************************************** 10887056d31SPankaj Gupta * Function returns the base counter frequency 10987056d31SPankaj Gupta * after reading the first entry at CNTFID0 (0x20 offset). 11087056d31SPankaj Gupta * 11187056d31SPankaj Gupta * Function is used by: 11287056d31SPankaj Gupta * 1. ARM common code for PSCI management. 11387056d31SPankaj Gupta * 2. ARM Generic Timer init. 11487056d31SPankaj Gupta * 11587056d31SPankaj Gupta *****************************************************************************/ 11687056d31SPankaj Gupta unsigned int plat_get_syscnt_freq2(void) 11787056d31SPankaj Gupta { 11887056d31SPankaj Gupta unsigned int counter_base_frequency; 11987056d31SPankaj Gupta /* 12087056d31SPankaj Gupta * Below register specifies the base frequency of the system counter. 12187056d31SPankaj Gupta * As per NXP Board Manuals: 12287056d31SPankaj Gupta * The system counter always works with SYS_REF_CLK/4 frequency clock. 12387056d31SPankaj Gupta * 12487056d31SPankaj Gupta * 12587056d31SPankaj Gupta */ 12687056d31SPankaj Gupta counter_base_frequency = mmio_read_32(NXP_TIMER_ADDR + CNTFID_OFF); 12787056d31SPankaj Gupta 12887056d31SPankaj Gupta return counter_base_frequency; 12987056d31SPankaj Gupta } 13087056d31SPankaj Gupta 13187056d31SPankaj Gupta #ifdef IMAGE_BL2 13287056d31SPankaj Gupta 13387056d31SPankaj Gupta #ifdef POLICY_FUSE_PROVISION 13487056d31SPankaj Gupta static gpio_init_info_t gpio_init_data = { 13587056d31SPankaj Gupta .gpio1_base_addr = NXP_GPIO1_ADDR, 13687056d31SPankaj Gupta .gpio2_base_addr = NXP_GPIO2_ADDR, 13787056d31SPankaj Gupta .gpio3_base_addr = NXP_GPIO3_ADDR, 13887056d31SPankaj Gupta .gpio4_base_addr = NXP_GPIO4_ADDR, 13987056d31SPankaj Gupta }; 14087056d31SPankaj Gupta #endif 14187056d31SPankaj Gupta 14287056d31SPankaj Gupta static void soc_interconnect_config(void) 14387056d31SPankaj Gupta { 14487056d31SPankaj Gupta unsigned long long val = 0x0U; 14587056d31SPankaj Gupta 14687056d31SPankaj Gupta uint32_t num_clusters = get_num_cluster(); 14787056d31SPankaj Gupta 14887056d31SPankaj Gupta if (num_clusters == 6U) { 14987056d31SPankaj Gupta ccn_init(&plat_six_cluster_ccn_desc); 15087056d31SPankaj Gupta } else { 15187056d31SPankaj Gupta ccn_init(&plat_ccn_desc); 15287056d31SPankaj Gupta } 15387056d31SPankaj Gupta 15487056d31SPankaj Gupta /* 15587056d31SPankaj Gupta * Enable Interconnect coherency for the primary CPU's cluster. 15687056d31SPankaj Gupta */ 15787056d31SPankaj Gupta plat_ls_interconnect_enter_coherency(num_clusters); 15887056d31SPankaj Gupta 15987056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 13, PCIeRC_RN_I_NODE_ID_OFFSET); 16087056d31SPankaj Gupta val |= (1 << 17); 16187056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 13, PCIeRC_RN_I_NODE_ID_OFFSET, val); 16287056d31SPankaj Gupta 16387056d31SPankaj Gupta /* PCIe is Connected to RN-I 17 which is connected to HN-I 13. */ 16487056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 30, PCIeRC_RN_I_NODE_ID_OFFSET); 16587056d31SPankaj Gupta val |= (1 << 17); 16687056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 30, PCIeRC_RN_I_NODE_ID_OFFSET, val); 16787056d31SPankaj Gupta 16887056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 13, SA_AUX_CTRL_REG_OFFSET); 16987056d31SPankaj Gupta val |= SERIALIZE_DEV_nGnRnE_WRITES; 17087056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 13, SA_AUX_CTRL_REG_OFFSET, val); 17187056d31SPankaj Gupta 17287056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 30, SA_AUX_CTRL_REG_OFFSET); 17387056d31SPankaj Gupta val &= ~(ENABLE_RESERVE_BIT53); 17487056d31SPankaj Gupta val |= SERIALIZE_DEV_nGnRnE_WRITES; 17587056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 30, SA_AUX_CTRL_REG_OFFSET, val); 17687056d31SPankaj Gupta 17787056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 13, PoS_CONTROL_REG_OFFSET); 17887056d31SPankaj Gupta val &= ~(HNI_POS_EN); 17987056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 13, PoS_CONTROL_REG_OFFSET, val); 18087056d31SPankaj Gupta 18187056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 30, PoS_CONTROL_REG_OFFSET); 18287056d31SPankaj Gupta val &= ~(HNI_POS_EN); 18387056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 30, PoS_CONTROL_REG_OFFSET, val); 18487056d31SPankaj Gupta 18587056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 13, SA_AUX_CTRL_REG_OFFSET); 18687056d31SPankaj Gupta val &= ~(POS_EARLY_WR_COMP_EN); 18787056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 13, SA_AUX_CTRL_REG_OFFSET, val); 18887056d31SPankaj Gupta 18987056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_HNI, 30, SA_AUX_CTRL_REG_OFFSET); 19087056d31SPankaj Gupta val &= ~(POS_EARLY_WR_COMP_EN); 19187056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, 30, SA_AUX_CTRL_REG_OFFSET, val); 19287056d31SPankaj Gupta 19387056d31SPankaj Gupta #if POLICY_PERF_WRIOP 19487056d31SPankaj Gupta uint16_t wriop_rni = 0U; 19587056d31SPankaj Gupta 19687056d31SPankaj Gupta if (POLICY_PERF_WRIOP == 1) { 19787056d31SPankaj Gupta wriop_rni = 7U; 19887056d31SPankaj Gupta } else if (POLICY_PERF_WRIOP == 2) { 19987056d31SPankaj Gupta wriop_rni = 23U; 20087056d31SPankaj Gupta } else { 20187056d31SPankaj Gupta ERROR("Incorrect WRIOP selected.\n"); 20287056d31SPankaj Gupta panic(); 20387056d31SPankaj Gupta } 20487056d31SPankaj Gupta 20587056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_RNI, wriop_rni, 20687056d31SPankaj Gupta SA_AUX_CTRL_REG_OFFSET); 20787056d31SPankaj Gupta val |= ENABLE_WUO; 20887056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_HNI, wriop_rni, SA_AUX_CTRL_REG_OFFSET, 20987056d31SPankaj Gupta val); 21087056d31SPankaj Gupta #else 21187056d31SPankaj Gupta val = ccn_read_node_reg(NODE_TYPE_RNI, 17, SA_AUX_CTRL_REG_OFFSET); 21287056d31SPankaj Gupta val |= ENABLE_WUO; 21387056d31SPankaj Gupta ccn_write_node_reg(NODE_TYPE_RNI, 17, SA_AUX_CTRL_REG_OFFSET, val); 21487056d31SPankaj Gupta #endif 21587056d31SPankaj Gupta } 21687056d31SPankaj Gupta 21787056d31SPankaj Gupta 21887056d31SPankaj Gupta void soc_preload_setup(void) 21987056d31SPankaj Gupta { 22087056d31SPankaj Gupta dram_regions_info_t *info_dram_regions = get_dram_regions_info(); 22187056d31SPankaj Gupta #if defined(NXP_WARM_BOOT) 22287056d31SPankaj Gupta bool warm_reset = is_warm_boot(); 22387056d31SPankaj Gupta #endif 22487056d31SPankaj Gupta info_dram_regions->total_dram_size = 22587056d31SPankaj Gupta #if defined(NXP_WARM_BOOT) 22687056d31SPankaj Gupta init_ddr(warm_reset); 22787056d31SPankaj Gupta #else 22887056d31SPankaj Gupta init_ddr(); 22987056d31SPankaj Gupta #endif 23087056d31SPankaj Gupta } 23187056d31SPankaj Gupta 23287056d31SPankaj Gupta /******************************************************************************* 23387056d31SPankaj Gupta * This function implements soc specific erratas 23487056d31SPankaj Gupta * This is called before DDR is initialized or MMU is enabled 23587056d31SPankaj Gupta ******************************************************************************/ 23687056d31SPankaj Gupta void soc_early_init(void) 23787056d31SPankaj Gupta { 23887056d31SPankaj Gupta dcfg_init(&dcfg_init_data); 23987056d31SPankaj Gupta #ifdef POLICY_FUSE_PROVISION 24087056d31SPankaj Gupta gpio_init(&gpio_init_data); 24187056d31SPankaj Gupta sec_init(NXP_CAAM_ADDR); 24287056d31SPankaj Gupta #endif 24387056d31SPankaj Gupta #if LOG_LEVEL > 0 24487056d31SPankaj Gupta /* Initialize the console to provide early debug support */ 24587056d31SPankaj Gupta plat_console_init(NXP_CONSOLE_ADDR, 24687056d31SPankaj Gupta NXP_UART_CLK_DIVIDER, NXP_CONSOLE_BAUDRATE); 24787056d31SPankaj Gupta #endif 24887056d31SPankaj Gupta 24987056d31SPankaj Gupta enable_timer_base_to_cluster(NXP_PMU_ADDR); 25087056d31SPankaj Gupta soc_interconnect_config(); 25187056d31SPankaj Gupta 25287056d31SPankaj Gupta enum boot_device dev = get_boot_dev(); 25387056d31SPankaj Gupta /* Mark the buffer for SD in OCRAM as non secure. 25487056d31SPankaj Gupta * The buffer is assumed to be at end of OCRAM for 25587056d31SPankaj Gupta * the logic below to calculate TZPC programming 25687056d31SPankaj Gupta */ 25787056d31SPankaj Gupta if (dev == BOOT_DEVICE_EMMC || dev == BOOT_DEVICE_SDHC2_EMMC) { 25887056d31SPankaj Gupta /* Calculate the region in OCRAM which is secure 25987056d31SPankaj Gupta * The buffer for SD needs to be marked non-secure 26087056d31SPankaj Gupta * to allow SD to do DMA operations on it 26187056d31SPankaj Gupta */ 26287056d31SPankaj Gupta uint32_t secure_region = (NXP_OCRAM_SIZE 26387056d31SPankaj Gupta - NXP_SD_BLOCK_BUF_SIZE); 26487056d31SPankaj Gupta uint32_t mask = secure_region/TZPC_BLOCK_SIZE; 26587056d31SPankaj Gupta 26687056d31SPankaj Gupta mmio_write_32(NXP_OCRAM_TZPC_ADDR, mask); 26787056d31SPankaj Gupta 26887056d31SPankaj Gupta /* Add the entry for buffer in MMU Table */ 26987056d31SPankaj Gupta mmap_add_region(NXP_SD_BLOCK_BUF_ADDR, NXP_SD_BLOCK_BUF_ADDR, 27087056d31SPankaj Gupta NXP_SD_BLOCK_BUF_SIZE, 27187056d31SPankaj Gupta MT_DEVICE | MT_RW | MT_NS); 27287056d31SPankaj Gupta } 27387056d31SPankaj Gupta 274*9616db15SJiafei Pan soc_errata(); 27587056d31SPankaj Gupta 27687056d31SPankaj Gupta #if (TRUSTED_BOARD_BOOT) || defined(POLICY_FUSE_PROVISION) 27787056d31SPankaj Gupta sfp_init(NXP_SFP_ADDR); 27887056d31SPankaj Gupta #endif 27987056d31SPankaj Gupta 28087056d31SPankaj Gupta #if TRUSTED_BOARD_BOOT 28187056d31SPankaj Gupta uint32_t mode; 28287056d31SPankaj Gupta 28387056d31SPankaj Gupta /* For secure boot disable SMMU. 28487056d31SPankaj Gupta * Later when platform security policy comes in picture, 28587056d31SPankaj Gupta * this might get modified based on the policy 28687056d31SPankaj Gupta */ 28787056d31SPankaj Gupta if (check_boot_mode_secure(&mode) == true) { 28887056d31SPankaj Gupta bypass_smmu(NXP_SMMU_ADDR); 28987056d31SPankaj Gupta } 29087056d31SPankaj Gupta 29187056d31SPankaj Gupta /* For Mbedtls currently crypto is not supported via CAAM 29287056d31SPankaj Gupta * enable it when that support is there. In tbbr.mk 29387056d31SPankaj Gupta * the CAAM_INTEG is set as 0. 29487056d31SPankaj Gupta */ 29587056d31SPankaj Gupta 29687056d31SPankaj Gupta #ifndef MBEDTLS_X509 29787056d31SPankaj Gupta /* Initialize the crypto accelerator if enabled */ 29887056d31SPankaj Gupta if (is_sec_enabled() == false) 29987056d31SPankaj Gupta INFO("SEC is disabled.\n"); 30087056d31SPankaj Gupta else 30187056d31SPankaj Gupta sec_init(NXP_CAAM_ADDR); 30287056d31SPankaj Gupta #endif 30387056d31SPankaj Gupta #endif 30487056d31SPankaj Gupta 30587056d31SPankaj Gupta /* 30687056d31SPankaj Gupta * Initialize system level generic timer for Layerscape Socs. 30787056d31SPankaj Gupta */ 30887056d31SPankaj Gupta delay_timer_init(NXP_TIMER_ADDR); 30987056d31SPankaj Gupta i2c_init(NXP_I2C_ADDR); 31087056d31SPankaj Gupta } 31187056d31SPankaj Gupta 31287056d31SPankaj Gupta void soc_bl2_prepare_exit(void) 31387056d31SPankaj Gupta { 31487056d31SPankaj Gupta #if defined(NXP_SFP_ENABLED) && defined(DISABLE_FUSE_WRITE) 31587056d31SPankaj Gupta set_sfp_wr_disable(); 31687056d31SPankaj Gupta #endif 31787056d31SPankaj Gupta } 31887056d31SPankaj Gupta 31987056d31SPankaj Gupta /***************************************************************************** 32087056d31SPankaj Gupta * This function returns the boot device based on RCW_SRC 32187056d31SPankaj Gupta ****************************************************************************/ 32287056d31SPankaj Gupta enum boot_device get_boot_dev(void) 32387056d31SPankaj Gupta { 32487056d31SPankaj Gupta enum boot_device src = BOOT_DEVICE_NONE; 32587056d31SPankaj Gupta uint32_t porsr1; 32687056d31SPankaj Gupta uint32_t rcw_src; 32787056d31SPankaj Gupta 32887056d31SPankaj Gupta porsr1 = read_reg_porsr1(); 32987056d31SPankaj Gupta 33087056d31SPankaj Gupta rcw_src = (porsr1 & PORSR1_RCW_MASK) >> PORSR1_RCW_SHIFT; 33187056d31SPankaj Gupta 33287056d31SPankaj Gupta switch (rcw_src) { 33387056d31SPankaj Gupta case FLEXSPI_NOR: 33487056d31SPankaj Gupta src = BOOT_DEVICE_FLEXSPI_NOR; 33587056d31SPankaj Gupta INFO("RCW BOOT SRC is FLEXSPI NOR\n"); 33687056d31SPankaj Gupta break; 33787056d31SPankaj Gupta case FLEXSPI_NAND2K_VAL: 33887056d31SPankaj Gupta case FLEXSPI_NAND4K_VAL: 33987056d31SPankaj Gupta INFO("RCW BOOT SRC is FLEXSPI NAND\n"); 34087056d31SPankaj Gupta src = BOOT_DEVICE_FLEXSPI_NAND; 34187056d31SPankaj Gupta break; 34287056d31SPankaj Gupta case SDHC1_VAL: 34387056d31SPankaj Gupta src = BOOT_DEVICE_EMMC; 34487056d31SPankaj Gupta INFO("RCW BOOT SRC is SD\n"); 34587056d31SPankaj Gupta break; 34687056d31SPankaj Gupta case SDHC2_VAL: 34787056d31SPankaj Gupta src = BOOT_DEVICE_SDHC2_EMMC; 34887056d31SPankaj Gupta INFO("RCW BOOT SRC is EMMC\n"); 34987056d31SPankaj Gupta break; 35087056d31SPankaj Gupta default: 35187056d31SPankaj Gupta break; 35287056d31SPankaj Gupta } 35387056d31SPankaj Gupta 35487056d31SPankaj Gupta return src; 35587056d31SPankaj Gupta } 35687056d31SPankaj Gupta 35787056d31SPankaj Gupta 35887056d31SPankaj Gupta void soc_mem_access(void) 35987056d31SPankaj Gupta { 36087056d31SPankaj Gupta const devdisr5_info_t *devdisr5_info = get_devdisr5_info(); 36187056d31SPankaj Gupta dram_regions_info_t *info_dram_regions = get_dram_regions_info(); 36287056d31SPankaj Gupta struct tzc400_reg tzc400_reg_list[MAX_NUM_TZC_REGION]; 36387056d31SPankaj Gupta int dram_idx, index = 0U; 36487056d31SPankaj Gupta 36587056d31SPankaj Gupta for (dram_idx = 0U; dram_idx < info_dram_regions->num_dram_regions; 36687056d31SPankaj Gupta dram_idx++) { 36787056d31SPankaj Gupta if (info_dram_regions->region[dram_idx].size == 0) { 36887056d31SPankaj Gupta ERROR("DDR init failure, or"); 36987056d31SPankaj Gupta ERROR("DRAM regions not populated correctly.\n"); 37087056d31SPankaj Gupta break; 37187056d31SPankaj Gupta } 37287056d31SPankaj Gupta 37387056d31SPankaj Gupta index = populate_tzc400_reg_list(tzc400_reg_list, 37487056d31SPankaj Gupta dram_idx, index, 37587056d31SPankaj Gupta info_dram_regions->region[dram_idx].addr, 37687056d31SPankaj Gupta info_dram_regions->region[dram_idx].size, 37787056d31SPankaj Gupta NXP_SECURE_DRAM_SIZE, NXP_SP_SHRD_DRAM_SIZE); 37887056d31SPankaj Gupta } 37987056d31SPankaj Gupta 38087056d31SPankaj Gupta if (devdisr5_info->ddrc1_present != 0) { 38187056d31SPankaj Gupta INFO("DDR Controller 1.\n"); 38287056d31SPankaj Gupta mem_access_setup(NXP_TZC_ADDR, index, 38387056d31SPankaj Gupta tzc400_reg_list); 38487056d31SPankaj Gupta mem_access_setup(NXP_TZC3_ADDR, index, 38587056d31SPankaj Gupta tzc400_reg_list); 38687056d31SPankaj Gupta } 38787056d31SPankaj Gupta if (devdisr5_info->ddrc2_present != 0) { 38887056d31SPankaj Gupta INFO("DDR Controller 2.\n"); 38987056d31SPankaj Gupta mem_access_setup(NXP_TZC2_ADDR, index, 39087056d31SPankaj Gupta tzc400_reg_list); 39187056d31SPankaj Gupta mem_access_setup(NXP_TZC4_ADDR, index, 39287056d31SPankaj Gupta tzc400_reg_list); 39387056d31SPankaj Gupta } 39487056d31SPankaj Gupta } 39587056d31SPankaj Gupta 39687056d31SPankaj Gupta #else 39787056d31SPankaj Gupta const unsigned char _power_domain_tree_desc[] = {1, 8, 2, 2, 2, 2, 2, 2, 2, 2}; 39887056d31SPankaj Gupta 39987056d31SPankaj Gupta CASSERT(NUMBER_OF_CLUSTERS && NUMBER_OF_CLUSTERS <= 256, 40087056d31SPankaj Gupta assert_invalid_lx2160a_cluster_count); 40187056d31SPankaj Gupta 40287056d31SPankaj Gupta /****************************************************************************** 40387056d31SPankaj Gupta * This function returns the SoC topology 40487056d31SPankaj Gupta ****************************************************************************/ 40587056d31SPankaj Gupta 40687056d31SPankaj Gupta const unsigned char *plat_get_power_domain_tree_desc(void) 40787056d31SPankaj Gupta { 40887056d31SPankaj Gupta 40987056d31SPankaj Gupta return _power_domain_tree_desc; 41087056d31SPankaj Gupta } 41187056d31SPankaj Gupta 41287056d31SPankaj Gupta /******************************************************************************* 41387056d31SPankaj Gupta * This function returns the core count within the cluster corresponding to 41487056d31SPankaj Gupta * `mpidr`. 41587056d31SPankaj Gupta ******************************************************************************/ 41687056d31SPankaj Gupta unsigned int plat_ls_get_cluster_core_count(u_register_t mpidr) 41787056d31SPankaj Gupta { 41887056d31SPankaj Gupta return CORES_PER_CLUSTER; 41987056d31SPankaj Gupta } 42087056d31SPankaj Gupta 42187056d31SPankaj Gupta 42287056d31SPankaj Gupta void soc_early_platform_setup2(void) 42387056d31SPankaj Gupta { 42487056d31SPankaj Gupta dcfg_init(&dcfg_init_data); 42587056d31SPankaj Gupta /* 42687056d31SPankaj Gupta * Initialize system level generic timer for Socs 42787056d31SPankaj Gupta */ 42887056d31SPankaj Gupta delay_timer_init(NXP_TIMER_ADDR); 42987056d31SPankaj Gupta 43087056d31SPankaj Gupta #if LOG_LEVEL > 0 43187056d31SPankaj Gupta /* Initialize the console to provide early debug support */ 43287056d31SPankaj Gupta plat_console_init(NXP_CONSOLE_ADDR, 43387056d31SPankaj Gupta NXP_UART_CLK_DIVIDER, NXP_CONSOLE_BAUDRATE); 43487056d31SPankaj Gupta #endif 43587056d31SPankaj Gupta } 43687056d31SPankaj Gupta 43787056d31SPankaj Gupta void soc_platform_setup(void) 43887056d31SPankaj Gupta { 43987056d31SPankaj Gupta /* Initialize the GIC driver, cpu and distributor interfaces */ 44087056d31SPankaj Gupta static uintptr_t target_mask_array[PLATFORM_CORE_COUNT]; 44187056d31SPankaj Gupta static interrupt_prop_t ls_interrupt_props[] = { 44287056d31SPankaj Gupta PLAT_LS_G1S_IRQ_PROPS(INTR_GROUP1S), 44387056d31SPankaj Gupta PLAT_LS_G0_IRQ_PROPS(INTR_GROUP0) 44487056d31SPankaj Gupta }; 44587056d31SPankaj Gupta 44687056d31SPankaj Gupta plat_ls_gic_driver_init(NXP_GICD_ADDR, NXP_GICR_ADDR, 44787056d31SPankaj Gupta PLATFORM_CORE_COUNT, 44887056d31SPankaj Gupta ls_interrupt_props, 44987056d31SPankaj Gupta ARRAY_SIZE(ls_interrupt_props), 45087056d31SPankaj Gupta target_mask_array, 45187056d31SPankaj Gupta plat_core_pos); 45287056d31SPankaj Gupta 45387056d31SPankaj Gupta plat_ls_gic_init(); 45487056d31SPankaj Gupta enable_init_timer(); 45587056d31SPankaj Gupta #ifdef LS_SYS_TIMCTL_BASE 45687056d31SPankaj Gupta ls_configure_sys_timer(LS_SYS_TIMCTL_BASE, 45787056d31SPankaj Gupta LS_CONFIG_CNTACR, 45887056d31SPankaj Gupta PLAT_LS_NSTIMER_FRAME_ID); 45987056d31SPankaj Gupta #endif 46087056d31SPankaj Gupta } 46187056d31SPankaj Gupta 46287056d31SPankaj Gupta /******************************************************************************* 46387056d31SPankaj Gupta * This function initializes the soc from the BL31 module 46487056d31SPankaj Gupta ******************************************************************************/ 46587056d31SPankaj Gupta void soc_init(void) 46687056d31SPankaj Gupta { 46787056d31SPankaj Gupta /* low-level init of the soc */ 46887056d31SPankaj Gupta soc_init_start(); 46987056d31SPankaj Gupta soc_init_percpu(); 47087056d31SPankaj Gupta _init_global_data(); 47187056d31SPankaj Gupta _initialize_psci(); 47287056d31SPankaj Gupta 47387056d31SPankaj Gupta if (ccn_get_part0_id(NXP_CCN_ADDR) != CCN_508_PART0_ID) { 47487056d31SPankaj Gupta ERROR("Unrecognized CCN variant detected."); 47587056d31SPankaj Gupta ERROR("Only CCN-508 is supported\n"); 47687056d31SPankaj Gupta panic(); 47787056d31SPankaj Gupta } 47887056d31SPankaj Gupta 47987056d31SPankaj Gupta uint32_t num_clusters = get_num_cluster(); 48087056d31SPankaj Gupta 48187056d31SPankaj Gupta if (num_clusters == 6U) { 48287056d31SPankaj Gupta ccn_init(&plat_six_cluster_ccn_desc); 48387056d31SPankaj Gupta } else { 48487056d31SPankaj Gupta ccn_init(&plat_ccn_desc); 48587056d31SPankaj Gupta } 48687056d31SPankaj Gupta 48787056d31SPankaj Gupta plat_ls_interconnect_enter_coherency(num_clusters); 48887056d31SPankaj Gupta 48987056d31SPankaj Gupta /* Set platform security policies */ 49087056d31SPankaj Gupta _set_platform_security(); 49187056d31SPankaj Gupta 49287056d31SPankaj Gupta /* make sure any parallel init tasks are finished */ 49387056d31SPankaj Gupta soc_init_finish(); 49487056d31SPankaj Gupta 49587056d31SPankaj Gupta /* Initialize the crypto accelerator if enabled */ 49687056d31SPankaj Gupta if (is_sec_enabled() == false) { 49787056d31SPankaj Gupta INFO("SEC is disabled.\n"); 49887056d31SPankaj Gupta } else { 49987056d31SPankaj Gupta sec_init(NXP_CAAM_ADDR); 50087056d31SPankaj Gupta } 50187056d31SPankaj Gupta 50287056d31SPankaj Gupta } 50387056d31SPankaj Gupta 50487056d31SPankaj Gupta #ifdef NXP_WDOG_RESTART 50587056d31SPankaj Gupta static uint64_t wdog_interrupt_handler(uint32_t id, uint32_t flags, 50687056d31SPankaj Gupta void *handle, void *cookie) 50787056d31SPankaj Gupta { 50887056d31SPankaj Gupta uint8_t data = WDOG_RESET_FLAG; 50987056d31SPankaj Gupta 51087056d31SPankaj Gupta wr_nv_app_data(WDT_RESET_FLAG_OFFSET, 51187056d31SPankaj Gupta (uint8_t *)&data, sizeof(data)); 51287056d31SPankaj Gupta 51387056d31SPankaj Gupta mmio_write_32(NXP_RST_ADDR + RSTCNTL_OFFSET, SW_RST_REQ_INIT); 51487056d31SPankaj Gupta 51587056d31SPankaj Gupta return 0; 51687056d31SPankaj Gupta } 51787056d31SPankaj Gupta #endif 51887056d31SPankaj Gupta 51987056d31SPankaj Gupta void soc_runtime_setup(void) 52087056d31SPankaj Gupta { 52187056d31SPankaj Gupta 52287056d31SPankaj Gupta #ifdef NXP_WDOG_RESTART 52387056d31SPankaj Gupta request_intr_type_el3(BL31_NS_WDOG_WS1, wdog_interrupt_handler); 52487056d31SPankaj Gupta #endif 52587056d31SPankaj Gupta } 52687056d31SPankaj Gupta #endif 527