19df5ba05SJiafei Pan /* 29df5ba05SJiafei Pan * Copyright 2022 NXP 39df5ba05SJiafei Pan * 49df5ba05SJiafei Pan * SPDX-License-Identifier: BSD-3-Clause 59df5ba05SJiafei Pan */ 69df5ba05SJiafei Pan 79df5ba05SJiafei Pan #include <assert.h> 89df5ba05SJiafei Pan 99df5ba05SJiafei Pan #include <arch.h> 109df5ba05SJiafei Pan #include <caam.h> 119df5ba05SJiafei Pan #include <cci.h> 129df5ba05SJiafei Pan #include <common/debug.h> 139df5ba05SJiafei Pan #include <dcfg.h> 149df5ba05SJiafei Pan #ifdef I2C_INIT 159df5ba05SJiafei Pan #include <i2c.h> 169df5ba05SJiafei Pan #endif 179df5ba05SJiafei Pan #include <lib/mmio.h> 189df5ba05SJiafei Pan #include <lib/xlat_tables/xlat_tables_v2.h> 199df5ba05SJiafei Pan #include <ls_interconnect.h> 209df5ba05SJiafei Pan #include <nxp_smmu.h> 219df5ba05SJiafei Pan #include <nxp_timer.h> 229df5ba05SJiafei Pan #include <plat_console.h> 239df5ba05SJiafei Pan #include <plat_gic.h> 249df5ba05SJiafei Pan #include <plat_tzc400.h> 259df5ba05SJiafei Pan #include <pmu.h> 269df5ba05SJiafei Pan #if defined(NXP_SFP_ENABLED) 279df5ba05SJiafei Pan #include <sfp.h> 289df5ba05SJiafei Pan #endif 299df5ba05SJiafei Pan 309df5ba05SJiafei Pan #include <errata.h> 319df5ba05SJiafei Pan #ifdef CONFIG_OCRAM_ECC_EN 329df5ba05SJiafei Pan #include <ocram.h> 339df5ba05SJiafei Pan #endif 349df5ba05SJiafei Pan #include <plat_common.h> 359df5ba05SJiafei Pan #include <platform_def.h> 369df5ba05SJiafei Pan #include <soc.h> 379df5ba05SJiafei Pan 389df5ba05SJiafei Pan static unsigned char _power_domain_tree_desc[NUMBER_OF_CLUSTERS + 2]; 399df5ba05SJiafei Pan static struct soc_type soc_list[] = { 409df5ba05SJiafei Pan SOC_ENTRY(LS1044A, LS1044A, 1, 4), 419df5ba05SJiafei Pan SOC_ENTRY(LS1044AE, LS1044AE, 1, 4), 429df5ba05SJiafei Pan SOC_ENTRY(LS1048A, LS1048A, 1, 4), 439df5ba05SJiafei Pan SOC_ENTRY(LS1048AE, LS1048AE, 1, 4), 449df5ba05SJiafei Pan SOC_ENTRY(LS1084A, LS1084A, 2, 4), 459df5ba05SJiafei Pan SOC_ENTRY(LS1084AE, LS1084AE, 2, 4), 469df5ba05SJiafei Pan SOC_ENTRY(LS1088A, LS1088A, 2, 4), 479df5ba05SJiafei Pan SOC_ENTRY(LS1088AE, LS1088AE, 2, 4), 489df5ba05SJiafei Pan }; 499df5ba05SJiafei Pan 509df5ba05SJiafei Pan static dcfg_init_info_t dcfg_init_data = { 519df5ba05SJiafei Pan .g_nxp_dcfg_addr = NXP_DCFG_ADDR, 529df5ba05SJiafei Pan .nxp_sysclk_freq = NXP_SYSCLK_FREQ, 539df5ba05SJiafei Pan .nxp_ddrclk_freq = NXP_DDRCLK_FREQ, 549df5ba05SJiafei Pan .nxp_plat_clk_divider = NXP_PLATFORM_CLK_DIVIDER, 559df5ba05SJiafei Pan }; 569df5ba05SJiafei Pan 579df5ba05SJiafei Pan /* 589df5ba05SJiafei Pan * This function dynamically constructs the topology according to 599df5ba05SJiafei Pan * SoC Flavor and returns it. 609df5ba05SJiafei Pan */ 619df5ba05SJiafei Pan const unsigned char *plat_get_power_domain_tree_desc(void) 629df5ba05SJiafei Pan { 639df5ba05SJiafei Pan unsigned int i; 649df5ba05SJiafei Pan uint8_t num_clusters, cores_per_cluster; 659df5ba05SJiafei Pan 669df5ba05SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 679df5ba05SJiafei Pan 689df5ba05SJiafei Pan /* 699df5ba05SJiafei Pan * The highest level is the system level. The next level is constituted 709df5ba05SJiafei Pan * by clusters and then cores in clusters. 719df5ba05SJiafei Pan */ 729df5ba05SJiafei Pan _power_domain_tree_desc[0] = 1; 739df5ba05SJiafei Pan _power_domain_tree_desc[1] = num_clusters; 749df5ba05SJiafei Pan 759df5ba05SJiafei Pan for (i = 0; i < _power_domain_tree_desc[1]; i++) { 769df5ba05SJiafei Pan _power_domain_tree_desc[i + 2] = cores_per_cluster; 779df5ba05SJiafei Pan } 789df5ba05SJiafei Pan 799df5ba05SJiafei Pan 809df5ba05SJiafei Pan return _power_domain_tree_desc; 819df5ba05SJiafei Pan } 829df5ba05SJiafei Pan 839df5ba05SJiafei Pan CASSERT(NUMBER_OF_CLUSTERS && NUMBER_OF_CLUSTERS <= 256, 849df5ba05SJiafei Pan assert_invalid_ls1088a_cluster_count); 859df5ba05SJiafei Pan 869df5ba05SJiafei Pan /* 879df5ba05SJiafei Pan * This function returns the core count within the cluster corresponding to 889df5ba05SJiafei Pan * `mpidr`. 899df5ba05SJiafei Pan */ 909df5ba05SJiafei Pan unsigned int plat_ls_get_cluster_core_count(u_register_t mpidr) 919df5ba05SJiafei Pan { 929df5ba05SJiafei Pan return CORES_PER_CLUSTER; 939df5ba05SJiafei Pan } 949df5ba05SJiafei Pan 959df5ba05SJiafei Pan /* 969df5ba05SJiafei Pan * This function returns the total number of cores in the SoC 979df5ba05SJiafei Pan */ 989df5ba05SJiafei Pan unsigned int get_tot_num_cores(void) 999df5ba05SJiafei Pan { 1009df5ba05SJiafei Pan uint8_t num_clusters, cores_per_cluster; 1019df5ba05SJiafei Pan 1029df5ba05SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 1039df5ba05SJiafei Pan 1049df5ba05SJiafei Pan return (num_clusters * cores_per_cluster); 1059df5ba05SJiafei Pan } 1069df5ba05SJiafei Pan 1079df5ba05SJiafei Pan /* 1089df5ba05SJiafei Pan * This function returns the PMU IDLE Cluster mask. 1099df5ba05SJiafei Pan */ 1109df5ba05SJiafei Pan unsigned int get_pmu_idle_cluster_mask(void) 1119df5ba05SJiafei Pan { 1129df5ba05SJiafei Pan uint8_t num_clusters, cores_per_cluster; 1139df5ba05SJiafei Pan 1149df5ba05SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 1159df5ba05SJiafei Pan 1169df5ba05SJiafei Pan return ((1 << num_clusters) - 2); 1179df5ba05SJiafei Pan } 1189df5ba05SJiafei Pan 1199df5ba05SJiafei Pan /* 1209df5ba05SJiafei Pan * This function returns the PMU Flush Cluster mask. 1219df5ba05SJiafei Pan */ 1229df5ba05SJiafei Pan unsigned int get_pmu_flush_cluster_mask(void) 1239df5ba05SJiafei Pan { 1249df5ba05SJiafei Pan uint8_t num_clusters, cores_per_cluster; 1259df5ba05SJiafei Pan 1269df5ba05SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 1279df5ba05SJiafei Pan 1289df5ba05SJiafei Pan return ((1 << num_clusters) - 2); 1299df5ba05SJiafei Pan } 1309df5ba05SJiafei Pan 1319df5ba05SJiafei Pan /* 1329df5ba05SJiafei Pan * This function returns the PMU IDLE Core mask. 1339df5ba05SJiafei Pan */ 1349df5ba05SJiafei Pan unsigned int get_pmu_idle_core_mask(void) 1359df5ba05SJiafei Pan { 1369df5ba05SJiafei Pan return ((1 << get_tot_num_cores()) - 2); 1379df5ba05SJiafei Pan } 1389df5ba05SJiafei Pan 1399df5ba05SJiafei Pan #ifdef IMAGE_BL2 1409df5ba05SJiafei Pan 1419df5ba05SJiafei Pan void soc_bl2_prepare_exit(void) 1429df5ba05SJiafei Pan { 1439df5ba05SJiafei Pan #if defined(NXP_SFP_ENABLED) && defined(DISABLE_FUSE_WRITE) 1449df5ba05SJiafei Pan set_sfp_wr_disable(); 1459df5ba05SJiafei Pan #endif 1469df5ba05SJiafei Pan } 1479df5ba05SJiafei Pan 1489df5ba05SJiafei Pan void soc_preload_setup(void) 1499df5ba05SJiafei Pan { 1509df5ba05SJiafei Pan 1519df5ba05SJiafei Pan } 1529df5ba05SJiafei Pan 1539df5ba05SJiafei Pan /* 1549df5ba05SJiafei Pan * This function returns the boot device based on RCW_SRC 1559df5ba05SJiafei Pan */ 1569df5ba05SJiafei Pan enum boot_device get_boot_dev(void) 1579df5ba05SJiafei Pan { 1589df5ba05SJiafei Pan enum boot_device src = BOOT_DEVICE_NONE; 1599df5ba05SJiafei Pan uint32_t porsr1; 1609df5ba05SJiafei Pan uint32_t rcw_src, val; 1619df5ba05SJiafei Pan 1629df5ba05SJiafei Pan porsr1 = read_reg_porsr1(); 1639df5ba05SJiafei Pan 1649df5ba05SJiafei Pan rcw_src = (porsr1 & PORSR1_RCW_MASK) >> PORSR1_RCW_SHIFT; 1659df5ba05SJiafei Pan 1669df5ba05SJiafei Pan /* RCW SRC NOR */ 1679df5ba05SJiafei Pan val = rcw_src & RCW_SRC_TYPE_MASK; 1689df5ba05SJiafei Pan if (val == NOR_16B_VAL) { 1699df5ba05SJiafei Pan src = BOOT_DEVICE_IFC_NOR; 1709df5ba05SJiafei Pan INFO("RCW BOOT SRC is IFC NOR\n"); 1719df5ba05SJiafei Pan } else { 1729df5ba05SJiafei Pan val = rcw_src & RCW_SRC_SERIAL_MASK; 1739df5ba05SJiafei Pan switch (val) { 1749df5ba05SJiafei Pan case QSPI_VAL: 1759df5ba05SJiafei Pan src = BOOT_DEVICE_QSPI; 1769df5ba05SJiafei Pan INFO("RCW BOOT SRC is QSPI\n"); 1779df5ba05SJiafei Pan break; 1789df5ba05SJiafei Pan case SDHC_VAL: 1799df5ba05SJiafei Pan src = BOOT_DEVICE_EMMC; 1809df5ba05SJiafei Pan INFO("RCW BOOT SRC is SD/EMMC\n"); 1819df5ba05SJiafei Pan break; 1829df5ba05SJiafei Pan case EMMC_VAL: 1839df5ba05SJiafei Pan src = BOOT_DEVICE_EMMC; 1849df5ba05SJiafei Pan INFO("RCW BOOT SRC is SD/EMMC\n"); 1859df5ba05SJiafei Pan break; 1869df5ba05SJiafei Pan default: 1879df5ba05SJiafei Pan src = BOOT_DEVICE_NONE; 1889df5ba05SJiafei Pan } 1899df5ba05SJiafei Pan } 1909df5ba05SJiafei Pan 1919df5ba05SJiafei Pan return src; 1929df5ba05SJiafei Pan } 1939df5ba05SJiafei Pan 1949df5ba05SJiafei Pan /* 1959df5ba05SJiafei Pan * This function sets up access permissions on memory regions 1969df5ba05SJiafei Pan */ 1979df5ba05SJiafei Pan void soc_mem_access(void) 1989df5ba05SJiafei Pan { 1999df5ba05SJiafei Pan dram_regions_info_t *info_dram_regions = get_dram_regions_info(); 2009df5ba05SJiafei Pan int i = 0; 2019df5ba05SJiafei Pan struct tzc400_reg tzc400_reg_list[MAX_NUM_TZC_REGION]; 2029df5ba05SJiafei Pan int dram_idx, index = 1; 2039df5ba05SJiafei Pan 2049df5ba05SJiafei Pan for (dram_idx = 0; dram_idx < info_dram_regions->num_dram_regions; 2059df5ba05SJiafei Pan dram_idx++) { 2069df5ba05SJiafei Pan if (info_dram_regions->region[i].size == 0) { 2079df5ba05SJiafei Pan ERROR("DDR init failure, or"); 2089df5ba05SJiafei Pan ERROR("DRAM regions not populated correctly.\n"); 2099df5ba05SJiafei Pan break; 2109df5ba05SJiafei Pan } 2119df5ba05SJiafei Pan 2129df5ba05SJiafei Pan index = populate_tzc400_reg_list(tzc400_reg_list, 2139df5ba05SJiafei Pan dram_idx, index, 2149df5ba05SJiafei Pan info_dram_regions->region[dram_idx].addr, 2159df5ba05SJiafei Pan info_dram_regions->region[dram_idx].size, 2169df5ba05SJiafei Pan NXP_SECURE_DRAM_SIZE, NXP_SP_SHRD_DRAM_SIZE); 2179df5ba05SJiafei Pan } 2189df5ba05SJiafei Pan 2199df5ba05SJiafei Pan mem_access_setup(NXP_TZC_ADDR, index, 2209df5ba05SJiafei Pan tzc400_reg_list); 2219df5ba05SJiafei Pan } 2229df5ba05SJiafei Pan 2239df5ba05SJiafei Pan /* 2249df5ba05SJiafei Pan * This function implements soc specific erratum 2259df5ba05SJiafei Pan * This is called before DDR is initialized or MMU is enabled 2269df5ba05SJiafei Pan */ 2279df5ba05SJiafei Pan void soc_early_init(void) 2289df5ba05SJiafei Pan { 2299df5ba05SJiafei Pan enum boot_device dev; 2309df5ba05SJiafei Pan dram_regions_info_t *dram_regions_info = get_dram_regions_info(); 2319df5ba05SJiafei Pan 2329df5ba05SJiafei Pan #ifdef CONFIG_OCRAM_ECC_EN 2339df5ba05SJiafei Pan ocram_init(NXP_OCRAM_ADDR, NXP_OCRAM_SIZE); 2349df5ba05SJiafei Pan #endif 2359df5ba05SJiafei Pan dcfg_init(&dcfg_init_data); 2369df5ba05SJiafei Pan #if LOG_LEVEL > 0 2379df5ba05SJiafei Pan /* Initialize the console to provide early debug support */ 2389df5ba05SJiafei Pan plat_console_init(NXP_CONSOLE_ADDR, 2399df5ba05SJiafei Pan NXP_UART_CLK_DIVIDER, NXP_CONSOLE_BAUDRATE); 2409df5ba05SJiafei Pan #endif 2419df5ba05SJiafei Pan enable_timer_base_to_cluster(NXP_PMU_ADDR); 2429df5ba05SJiafei Pan enable_core_tb(NXP_PMU_ADDR); 2439df5ba05SJiafei Pan 2449df5ba05SJiafei Pan /* 2459df5ba05SJiafei Pan * Use the region(NXP_SD_BLOCK_BUF_ADDR + NXP_SD_BLOCK_BUF_SIZE) 2469df5ba05SJiafei Pan * as dma of sd 2479df5ba05SJiafei Pan */ 2489df5ba05SJiafei Pan dev = get_boot_dev(); 2499df5ba05SJiafei Pan if (dev == BOOT_DEVICE_EMMC) { 2509df5ba05SJiafei Pan mmap_add_region(NXP_SD_BLOCK_BUF_ADDR, NXP_SD_BLOCK_BUF_ADDR, 2519df5ba05SJiafei Pan NXP_SD_BLOCK_BUF_SIZE, 2529df5ba05SJiafei Pan MT_DEVICE | MT_RW | MT_NS); 2539df5ba05SJiafei Pan } 2549df5ba05SJiafei Pan 255*0ca1d8fbSHoward Lu /* 256*0ca1d8fbSHoward Lu * Unlock write access for SMMU SMMU_CBn_ACTLR in all Non-secure contexts. 257*0ca1d8fbSHoward Lu */ 258*0ca1d8fbSHoward Lu smmu_cache_unlock(NXP_SMMU_ADDR); 259*0ca1d8fbSHoward Lu INFO("SMMU Cache Unlocking is Configured.\n"); 260*0ca1d8fbSHoward Lu 2619df5ba05SJiafei Pan #if TRUSTED_BOARD_BOOT 2629df5ba05SJiafei Pan uint32_t mode; 2639df5ba05SJiafei Pan 2649df5ba05SJiafei Pan sfp_init(NXP_SFP_ADDR); 2659df5ba05SJiafei Pan /* 2669df5ba05SJiafei Pan * For secure boot disable SMMU. 2679df5ba05SJiafei Pan * Later when platform security policy comes in picture, 2689df5ba05SJiafei Pan * this might get modified based on the policy 2699df5ba05SJiafei Pan */ 2709df5ba05SJiafei Pan if (check_boot_mode_secure(&mode) == true) { 2719df5ba05SJiafei Pan bypass_smmu(NXP_SMMU_ADDR); 2729df5ba05SJiafei Pan } 2739df5ba05SJiafei Pan 2749df5ba05SJiafei Pan /* 2759df5ba05SJiafei Pan * For Mbedtls currently crypto is not supported via CAAM 2769df5ba05SJiafei Pan * enable it when that support is there. In tbbr.mk 2779df5ba05SJiafei Pan * the CAAM_INTEG is set as 0. 2789df5ba05SJiafei Pan */ 2799df5ba05SJiafei Pan #ifndef MBEDTLS_X509 2809df5ba05SJiafei Pan /* Initialize the crypto accelerator if enabled */ 2819df5ba05SJiafei Pan if (is_sec_enabled() == false) { 2829df5ba05SJiafei Pan INFO("SEC is disabled.\n"); 2839df5ba05SJiafei Pan } else { 2849df5ba05SJiafei Pan sec_init(NXP_CAAM_ADDR); 2859df5ba05SJiafei Pan } 2869df5ba05SJiafei Pan #endif 2879df5ba05SJiafei Pan #endif 2889df5ba05SJiafei Pan 2899df5ba05SJiafei Pan soc_errata(); 2909df5ba05SJiafei Pan 2919df5ba05SJiafei Pan delay_timer_init(NXP_TIMER_ADDR); 2929df5ba05SJiafei Pan i2c_init(NXP_I2C_ADDR); 2939df5ba05SJiafei Pan dram_regions_info->total_dram_size = init_ddr(); 2949df5ba05SJiafei Pan } 2959df5ba05SJiafei Pan #else /* !IMAGE_BL2 */ 2969df5ba05SJiafei Pan 2979df5ba05SJiafei Pan void soc_early_platform_setup2(void) 2989df5ba05SJiafei Pan { 2999df5ba05SJiafei Pan dcfg_init(&dcfg_init_data); 3009df5ba05SJiafei Pan /* 3019df5ba05SJiafei Pan * Initialize system level generic timer for Socs 3029df5ba05SJiafei Pan */ 3039df5ba05SJiafei Pan delay_timer_init(NXP_TIMER_ADDR); 3049df5ba05SJiafei Pan 3059df5ba05SJiafei Pan #if LOG_LEVEL > 0 3069df5ba05SJiafei Pan /* Initialize the console to provide early debug support */ 3079df5ba05SJiafei Pan plat_console_init(NXP_CONSOLE_ADDR, 3089df5ba05SJiafei Pan NXP_UART_CLK_DIVIDER, NXP_CONSOLE_BAUDRATE); 3099df5ba05SJiafei Pan #endif 3109df5ba05SJiafei Pan } 3119df5ba05SJiafei Pan 3129df5ba05SJiafei Pan void soc_platform_setup(void) 3139df5ba05SJiafei Pan { 3149df5ba05SJiafei Pan /* Initialize the GIC driver, cpu and distributor interfaces */ 3159df5ba05SJiafei Pan static uintptr_t target_mask_array[PLATFORM_CORE_COUNT]; 3169df5ba05SJiafei Pan static interrupt_prop_t ls_interrupt_props[] = { 3179df5ba05SJiafei Pan PLAT_LS_G1S_IRQ_PROPS(INTR_GROUP1S), 3189df5ba05SJiafei Pan PLAT_LS_G0_IRQ_PROPS(INTR_GROUP0) 3199df5ba05SJiafei Pan }; 3209df5ba05SJiafei Pan 3219df5ba05SJiafei Pan plat_ls_gic_driver_init(NXP_GICD_ADDR, NXP_GICR_ADDR, 3229df5ba05SJiafei Pan PLATFORM_CORE_COUNT, 3239df5ba05SJiafei Pan ls_interrupt_props, 3249df5ba05SJiafei Pan ARRAY_SIZE(ls_interrupt_props), 3259df5ba05SJiafei Pan target_mask_array, 3269df5ba05SJiafei Pan plat_core_pos); 3279df5ba05SJiafei Pan 3289df5ba05SJiafei Pan plat_ls_gic_init(); 3299df5ba05SJiafei Pan enable_init_timer(); 3309df5ba05SJiafei Pan } 3319df5ba05SJiafei Pan 3329df5ba05SJiafei Pan /* 3339df5ba05SJiafei Pan * This function initializes the soc from the BL31 module 3349df5ba05SJiafei Pan */ 3359df5ba05SJiafei Pan void soc_init(void) 3369df5ba05SJiafei Pan { 3379df5ba05SJiafei Pan uint8_t num_clusters, cores_per_cluster; 3389df5ba05SJiafei Pan 3399df5ba05SJiafei Pan /* low-level init of the soc */ 3409df5ba05SJiafei Pan soc_init_lowlevel(); 3419df5ba05SJiafei Pan _init_global_data(); 3429df5ba05SJiafei Pan soc_init_percpu(); 3439df5ba05SJiafei Pan _initialize_psci(); 3449df5ba05SJiafei Pan 3459df5ba05SJiafei Pan /* 3469df5ba05SJiafei Pan * Initialize Interconnect for this cluster during cold boot. 3479df5ba05SJiafei Pan * No need for locks as no other CPU is active. 3489df5ba05SJiafei Pan */ 3499df5ba05SJiafei Pan cci_init(NXP_CCI_ADDR, cci_map, ARRAY_SIZE(cci_map)); 3509df5ba05SJiafei Pan 3519df5ba05SJiafei Pan /* 3529df5ba05SJiafei Pan * Enable Interconnect coherency for the primary CPU's cluster. 3539df5ba05SJiafei Pan */ 3549df5ba05SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 3559df5ba05SJiafei Pan plat_ls_interconnect_enter_coherency(num_clusters); 3569df5ba05SJiafei Pan 3579df5ba05SJiafei Pan /* set platform security policies */ 3589df5ba05SJiafei Pan _set_platform_security(); 3599df5ba05SJiafei Pan 3609df5ba05SJiafei Pan /* Initialize the crypto accelerator if enabled */ 3619df5ba05SJiafei Pan if (is_sec_enabled() == false) { 3629df5ba05SJiafei Pan INFO("SEC is disabled.\n"); 3639df5ba05SJiafei Pan } else { 3649df5ba05SJiafei Pan sec_init(NXP_CAAM_ADDR); 3659df5ba05SJiafei Pan } 3669df5ba05SJiafei Pan } 3679df5ba05SJiafei Pan 3689df5ba05SJiafei Pan void soc_runtime_setup(void) 3699df5ba05SJiafei Pan { 3709df5ba05SJiafei Pan 3719df5ba05SJiafei Pan } 3729df5ba05SJiafei Pan #endif /* IMAGE_BL2 */ 3739df5ba05SJiafei Pan 3749df5ba05SJiafei Pan /* 3759df5ba05SJiafei Pan * Function to return the SoC SYS CLK 3769df5ba05SJiafei Pan */ 3779df5ba05SJiafei Pan unsigned int get_sys_clk(void) 3789df5ba05SJiafei Pan { 3799df5ba05SJiafei Pan return NXP_SYSCLK_FREQ; 3809df5ba05SJiafei Pan } 3819df5ba05SJiafei Pan 3829df5ba05SJiafei Pan /* 3839df5ba05SJiafei Pan * Function returns the base counter frequency 3849df5ba05SJiafei Pan * after reading the first entry at CNTFID0 (0x20 offset). 3859df5ba05SJiafei Pan * 3869df5ba05SJiafei Pan * Function is used by: 3879df5ba05SJiafei Pan * 1. ARM common code for PSCI management. 3889df5ba05SJiafei Pan * 2. ARM Generic Timer init. 3899df5ba05SJiafei Pan */ 3909df5ba05SJiafei Pan unsigned int plat_get_syscnt_freq2(void) 3919df5ba05SJiafei Pan { 3929df5ba05SJiafei Pan unsigned int counter_base_frequency; 3939df5ba05SJiafei Pan /* 3949df5ba05SJiafei Pan * Below register specifies the base frequency of the system counter. 3959df5ba05SJiafei Pan * As per NXP Board Manuals: 3969df5ba05SJiafei Pan * The system counter always works with SYS_REF_CLK/4 frequency clock. 3979df5ba05SJiafei Pan */ 3989df5ba05SJiafei Pan counter_base_frequency = mmio_read_32(NXP_TIMER_ADDR + CNTFID_OFF); 3999df5ba05SJiafei Pan 4009df5ba05SJiafei Pan return counter_base_frequency; 4019df5ba05SJiafei Pan } 402