1*9d250f03SJiafei Pan /* 2*9d250f03SJiafei Pan * Copyright 2018-2021 NXP 3*9d250f03SJiafei Pan * 4*9d250f03SJiafei Pan * SPDX-License-Identifier: BSD-3-Clause 5*9d250f03SJiafei Pan */ 6*9d250f03SJiafei Pan 7*9d250f03SJiafei Pan #include <endian.h> 8*9d250f03SJiafei Pan 9*9d250f03SJiafei Pan #include <arch.h> 10*9d250f03SJiafei Pan #include <caam.h> 11*9d250f03SJiafei Pan #include <cassert.h> 12*9d250f03SJiafei Pan #include <cci.h> 13*9d250f03SJiafei Pan #include <common/debug.h> 14*9d250f03SJiafei Pan #include <dcfg.h> 15*9d250f03SJiafei Pan #include <i2c.h> 16*9d250f03SJiafei Pan #include <lib/xlat_tables/xlat_tables_v2.h> 17*9d250f03SJiafei Pan #include <ls_interconnect.h> 18*9d250f03SJiafei Pan #include <mmio.h> 19*9d250f03SJiafei Pan #if TRUSTED_BOARD_BOOT 20*9d250f03SJiafei Pan #include <nxp_smmu.h> 21*9d250f03SJiafei Pan #endif 22*9d250f03SJiafei Pan #include <nxp_timer.h> 23*9d250f03SJiafei Pan #ifdef CONFIG_OCRAM_ECC_EN 24*9d250f03SJiafei Pan #include <ocram.h> 25*9d250f03SJiafei Pan #endif 26*9d250f03SJiafei Pan #include <plat_console.h> 27*9d250f03SJiafei Pan #include <plat_gic.h> 28*9d250f03SJiafei Pan #include <plat_tzc400.h> 29*9d250f03SJiafei Pan #include <pmu.h> 30*9d250f03SJiafei Pan #include <scfg.h> 31*9d250f03SJiafei Pan #if defined(NXP_SFP_ENABLED) 32*9d250f03SJiafei Pan #include <sfp.h> 33*9d250f03SJiafei Pan #endif 34*9d250f03SJiafei Pan 35*9d250f03SJiafei Pan #include <errata.h> 36*9d250f03SJiafei Pan #include "plat_common.h" 37*9d250f03SJiafei Pan #include "platform_def.h" 38*9d250f03SJiafei Pan #include "soc.h" 39*9d250f03SJiafei Pan 40*9d250f03SJiafei Pan static dcfg_init_info_t dcfg_init_data = { 41*9d250f03SJiafei Pan .g_nxp_dcfg_addr = NXP_DCFG_ADDR, 42*9d250f03SJiafei Pan .nxp_sysclk_freq = NXP_SYSCLK_FREQ, 43*9d250f03SJiafei Pan .nxp_ddrclk_freq = NXP_DDRCLK_FREQ, 44*9d250f03SJiafei Pan .nxp_plat_clk_divider = NXP_PLATFORM_CLK_DIVIDER, 45*9d250f03SJiafei Pan }; 46*9d250f03SJiafei Pan 47*9d250f03SJiafei Pan static struct soc_type soc_list[] = { 48*9d250f03SJiafei Pan SOC_ENTRY(LS1017AN, LS1017AN, 1, 1), 49*9d250f03SJiafei Pan SOC_ENTRY(LS1017AE, LS1017AE, 1, 1), 50*9d250f03SJiafei Pan SOC_ENTRY(LS1018AN, LS1018AN, 1, 1), 51*9d250f03SJiafei Pan SOC_ENTRY(LS1018AE, LS1018AE, 1, 1), 52*9d250f03SJiafei Pan SOC_ENTRY(LS1027AN, LS1027AN, 1, 2), 53*9d250f03SJiafei Pan SOC_ENTRY(LS1027AE, LS1027AE, 1, 2), 54*9d250f03SJiafei Pan SOC_ENTRY(LS1028AN, LS1028AN, 1, 2), 55*9d250f03SJiafei Pan SOC_ENTRY(LS1028AE, LS1028AE, 1, 2), 56*9d250f03SJiafei Pan }; 57*9d250f03SJiafei Pan 58*9d250f03SJiafei Pan CASSERT(NUMBER_OF_CLUSTERS && NUMBER_OF_CLUSTERS <= 256, 59*9d250f03SJiafei Pan assert_invalid_ls1028a_cluster_count); 60*9d250f03SJiafei Pan 61*9d250f03SJiafei Pan /* 62*9d250f03SJiafei Pan * Function returns the base counter frequency 63*9d250f03SJiafei Pan * after reading the first entry at CNTFID0 (0x20 offset). 64*9d250f03SJiafei Pan * 65*9d250f03SJiafei Pan * Function is used by: 66*9d250f03SJiafei Pan * 1. ARM common code for PSCI management. 67*9d250f03SJiafei Pan * 2. ARM Generic Timer init. 68*9d250f03SJiafei Pan * 69*9d250f03SJiafei Pan */ 70*9d250f03SJiafei Pan unsigned int plat_get_syscnt_freq2(void) 71*9d250f03SJiafei Pan { 72*9d250f03SJiafei Pan unsigned int counter_base_frequency; 73*9d250f03SJiafei Pan /* 74*9d250f03SJiafei Pan * Below register specifies the base frequency of the system counter. 75*9d250f03SJiafei Pan * As per NXP Board Manuals: 76*9d250f03SJiafei Pan * The system counter always works with SYS_REF_CLK/4 frequency clock. 77*9d250f03SJiafei Pan */ 78*9d250f03SJiafei Pan counter_base_frequency = mmio_read_32(NXP_TIMER_ADDR + CNTFID_OFF); 79*9d250f03SJiafei Pan 80*9d250f03SJiafei Pan return counter_base_frequency; 81*9d250f03SJiafei Pan } 82*9d250f03SJiafei Pan 83*9d250f03SJiafei Pan #ifdef IMAGE_BL2 84*9d250f03SJiafei Pan void soc_preload_setup(void) 85*9d250f03SJiafei Pan { 86*9d250f03SJiafei Pan } 87*9d250f03SJiafei Pan 88*9d250f03SJiafei Pan void soc_early_init(void) 89*9d250f03SJiafei Pan { 90*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 91*9d250f03SJiafei Pan 92*9d250f03SJiafei Pan #ifdef CONFIG_OCRAM_ECC_EN 93*9d250f03SJiafei Pan ocram_init(NXP_OCRAM_ADDR, NXP_OCRAM_SIZE); 94*9d250f03SJiafei Pan #endif 95*9d250f03SJiafei Pan dcfg_init(&dcfg_init_data); 96*9d250f03SJiafei Pan enable_timer_base_to_cluster(NXP_PMU_ADDR); 97*9d250f03SJiafei Pan enable_core_tb(NXP_PMU_ADDR); 98*9d250f03SJiafei Pan dram_regions_info_t *dram_regions_info = get_dram_regions_info(); 99*9d250f03SJiafei Pan 100*9d250f03SJiafei Pan #ifdef POLICY_FUSE_PROVISION 101*9d250f03SJiafei Pan gpio_init(&gpio_init_data); 102*9d250f03SJiafei Pan sec_init(NXP_CAAM_ADDR); 103*9d250f03SJiafei Pan #endif 104*9d250f03SJiafei Pan 105*9d250f03SJiafei Pan #if LOG_LEVEL > 0 106*9d250f03SJiafei Pan /* Initialize the console to provide early debug support */ 107*9d250f03SJiafei Pan plat_console_init(NXP_CONSOLE_ADDR, 108*9d250f03SJiafei Pan NXP_UART_CLK_DIVIDER, NXP_CONSOLE_BAUDRATE); 109*9d250f03SJiafei Pan #endif 110*9d250f03SJiafei Pan enum boot_device dev = get_boot_dev(); 111*9d250f03SJiafei Pan /* 112*9d250f03SJiafei Pan * Mark the buffer for SD in OCRAM as non secure. 113*9d250f03SJiafei Pan * The buffer is assumed to be at end of OCRAM for 114*9d250f03SJiafei Pan * the logic below to calculate TZPC programming 115*9d250f03SJiafei Pan */ 116*9d250f03SJiafei Pan if (dev == BOOT_DEVICE_EMMC || dev == BOOT_DEVICE_SDHC2_EMMC) { 117*9d250f03SJiafei Pan /* 118*9d250f03SJiafei Pan * Calculate the region in OCRAM which is secure 119*9d250f03SJiafei Pan * The buffer for SD needs to be marked non-secure 120*9d250f03SJiafei Pan * to allow SD to do DMA operations on it 121*9d250f03SJiafei Pan */ 122*9d250f03SJiafei Pan uint32_t secure_region = (NXP_OCRAM_SIZE - NXP_SD_BLOCK_BUF_SIZE); 123*9d250f03SJiafei Pan uint32_t mask = secure_region/TZPC_BLOCK_SIZE; 124*9d250f03SJiafei Pan 125*9d250f03SJiafei Pan mmio_write_32(NXP_OCRAM_TZPC_ADDR, mask); 126*9d250f03SJiafei Pan 127*9d250f03SJiafei Pan /* Add the entry for buffer in MMU Table */ 128*9d250f03SJiafei Pan mmap_add_region(NXP_SD_BLOCK_BUF_ADDR, NXP_SD_BLOCK_BUF_ADDR, 129*9d250f03SJiafei Pan NXP_SD_BLOCK_BUF_SIZE, MT_DEVICE | MT_RW | MT_NS); 130*9d250f03SJiafei Pan } 131*9d250f03SJiafei Pan 132*9d250f03SJiafei Pan #if TRUSTED_BOARD_BOOT 133*9d250f03SJiafei Pan uint32_t mode; 134*9d250f03SJiafei Pan 135*9d250f03SJiafei Pan sfp_init(NXP_SFP_ADDR); 136*9d250f03SJiafei Pan 137*9d250f03SJiafei Pan /* 138*9d250f03SJiafei Pan * For secure boot disable SMMU. 139*9d250f03SJiafei Pan * Later when platform security policy comes in picture, 140*9d250f03SJiafei Pan * this might get modified based on the policy 141*9d250f03SJiafei Pan */ 142*9d250f03SJiafei Pan if (check_boot_mode_secure(&mode) == true) { 143*9d250f03SJiafei Pan bypass_smmu(NXP_SMMU_ADDR); 144*9d250f03SJiafei Pan } 145*9d250f03SJiafei Pan 146*9d250f03SJiafei Pan /* 147*9d250f03SJiafei Pan * For Mbedtls currently crypto is not supported via CAAM 148*9d250f03SJiafei Pan * enable it when that support is there. In tbbr.mk 149*9d250f03SJiafei Pan * the CAAM_INTEG is set as 0. 150*9d250f03SJiafei Pan */ 151*9d250f03SJiafei Pan #ifndef MBEDTLS_X509 152*9d250f03SJiafei Pan /* Initialize the crypto accelerator if enabled */ 153*9d250f03SJiafei Pan if (is_sec_enabled()) { 154*9d250f03SJiafei Pan sec_init(NXP_CAAM_ADDR); 155*9d250f03SJiafei Pan } else { 156*9d250f03SJiafei Pan INFO("SEC is disabled.\n"); 157*9d250f03SJiafei Pan } 158*9d250f03SJiafei Pan #endif 159*9d250f03SJiafei Pan #endif 160*9d250f03SJiafei Pan 161*9d250f03SJiafei Pan /* Set eDDRTQ for DDR performance */ 162*9d250f03SJiafei Pan scfg_setbits32((void *)(NXP_SCFG_ADDR + 0x210), 0x1f1f1f1f); 163*9d250f03SJiafei Pan 164*9d250f03SJiafei Pan soc_errata(); 165*9d250f03SJiafei Pan 166*9d250f03SJiafei Pan /* 167*9d250f03SJiafei Pan * Initialize Interconnect for this cluster during cold boot. 168*9d250f03SJiafei Pan * No need for locks as no other CPU is active. 169*9d250f03SJiafei Pan */ 170*9d250f03SJiafei Pan cci_init(NXP_CCI_ADDR, cci_map, ARRAY_SIZE(cci_map)); 171*9d250f03SJiafei Pan 172*9d250f03SJiafei Pan /* 173*9d250f03SJiafei Pan * Enable Interconnect coherency for the primary CPU's cluster. 174*9d250f03SJiafei Pan */ 175*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 176*9d250f03SJiafei Pan plat_ls_interconnect_enter_coherency(num_clusters); 177*9d250f03SJiafei Pan 178*9d250f03SJiafei Pan delay_timer_init(NXP_TIMER_ADDR); 179*9d250f03SJiafei Pan i2c_init(NXP_I2C_ADDR); 180*9d250f03SJiafei Pan dram_regions_info->total_dram_size = init_ddr(); 181*9d250f03SJiafei Pan } 182*9d250f03SJiafei Pan 183*9d250f03SJiafei Pan void soc_bl2_prepare_exit(void) 184*9d250f03SJiafei Pan { 185*9d250f03SJiafei Pan #if defined(NXP_SFP_ENABLED) && defined(DISABLE_FUSE_WRITE) 186*9d250f03SJiafei Pan set_sfp_wr_disable(); 187*9d250f03SJiafei Pan #endif 188*9d250f03SJiafei Pan } 189*9d250f03SJiafei Pan 190*9d250f03SJiafei Pan /* 191*9d250f03SJiafei Pan * This function returns the boot device based on RCW_SRC 192*9d250f03SJiafei Pan */ 193*9d250f03SJiafei Pan enum boot_device get_boot_dev(void) 194*9d250f03SJiafei Pan { 195*9d250f03SJiafei Pan enum boot_device src = BOOT_DEVICE_NONE; 196*9d250f03SJiafei Pan uint32_t porsr1; 197*9d250f03SJiafei Pan uint32_t rcw_src; 198*9d250f03SJiafei Pan 199*9d250f03SJiafei Pan porsr1 = read_reg_porsr1(); 200*9d250f03SJiafei Pan 201*9d250f03SJiafei Pan rcw_src = (porsr1 & PORSR1_RCW_MASK) >> PORSR1_RCW_SHIFT; 202*9d250f03SJiafei Pan switch (rcw_src) { 203*9d250f03SJiafei Pan case FLEXSPI_NOR: 204*9d250f03SJiafei Pan src = BOOT_DEVICE_FLEXSPI_NOR; 205*9d250f03SJiafei Pan INFO("RCW BOOT SRC is FLEXSPI NOR\n"); 206*9d250f03SJiafei Pan break; 207*9d250f03SJiafei Pan case FLEXSPI_NAND2K_VAL: 208*9d250f03SJiafei Pan case FLEXSPI_NAND4K_VAL: 209*9d250f03SJiafei Pan INFO("RCW BOOT SRC is FLEXSPI NAND\n"); 210*9d250f03SJiafei Pan src = BOOT_DEVICE_FLEXSPI_NAND; 211*9d250f03SJiafei Pan break; 212*9d250f03SJiafei Pan case SDHC1_VAL: 213*9d250f03SJiafei Pan src = BOOT_DEVICE_EMMC; 214*9d250f03SJiafei Pan INFO("RCW BOOT SRC is SD\n"); 215*9d250f03SJiafei Pan break; 216*9d250f03SJiafei Pan case SDHC2_VAL: 217*9d250f03SJiafei Pan src = BOOT_DEVICE_SDHC2_EMMC; 218*9d250f03SJiafei Pan INFO("RCW BOOT SRC is EMMC\n"); 219*9d250f03SJiafei Pan break; 220*9d250f03SJiafei Pan default: 221*9d250f03SJiafei Pan break; 222*9d250f03SJiafei Pan } 223*9d250f03SJiafei Pan 224*9d250f03SJiafei Pan return src; 225*9d250f03SJiafei Pan } 226*9d250f03SJiafei Pan 227*9d250f03SJiafei Pan /* 228*9d250f03SJiafei Pan * This function sets up access permissions on memory regions 229*9d250f03SJiafei Pan ****************************************************************************/ 230*9d250f03SJiafei Pan void soc_mem_access(void) 231*9d250f03SJiafei Pan { 232*9d250f03SJiafei Pan dram_regions_info_t *info_dram_regions = get_dram_regions_info(); 233*9d250f03SJiafei Pan struct tzc400_reg tzc400_reg_list[MAX_NUM_TZC_REGION]; 234*9d250f03SJiafei Pan int dram_idx = 0; 235*9d250f03SJiafei Pan /* index 0 is reserved for region-0 */ 236*9d250f03SJiafei Pan int index = 1; 237*9d250f03SJiafei Pan 238*9d250f03SJiafei Pan for (dram_idx = 0; dram_idx < info_dram_regions->num_dram_regions; 239*9d250f03SJiafei Pan dram_idx++) { 240*9d250f03SJiafei Pan if (info_dram_regions->region[dram_idx].size == 0) { 241*9d250f03SJiafei Pan ERROR("DDR init failure, or"); 242*9d250f03SJiafei Pan ERROR("DRAM regions not populated correctly.\n"); 243*9d250f03SJiafei Pan break; 244*9d250f03SJiafei Pan } 245*9d250f03SJiafei Pan 246*9d250f03SJiafei Pan index = populate_tzc400_reg_list(tzc400_reg_list, 247*9d250f03SJiafei Pan dram_idx, index, 248*9d250f03SJiafei Pan info_dram_regions->region[dram_idx].addr, 249*9d250f03SJiafei Pan info_dram_regions->region[dram_idx].size, 250*9d250f03SJiafei Pan NXP_SECURE_DRAM_SIZE, NXP_SP_SHRD_DRAM_SIZE); 251*9d250f03SJiafei Pan } 252*9d250f03SJiafei Pan 253*9d250f03SJiafei Pan mem_access_setup(NXP_TZC_ADDR, index, tzc400_reg_list); 254*9d250f03SJiafei Pan } 255*9d250f03SJiafei Pan 256*9d250f03SJiafei Pan #else 257*9d250f03SJiafei Pan 258*9d250f03SJiafei Pan static unsigned char _power_domain_tree_desc[NUMBER_OF_CLUSTERS + 2]; 259*9d250f03SJiafei Pan /* 260*9d250f03SJiafei Pan * This function dynamically constructs the topology according to 261*9d250f03SJiafei Pan * SoC Flavor and returns it. 262*9d250f03SJiafei Pan */ 263*9d250f03SJiafei Pan const unsigned char *plat_get_power_domain_tree_desc(void) 264*9d250f03SJiafei Pan { 265*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 266*9d250f03SJiafei Pan unsigned int i; 267*9d250f03SJiafei Pan 268*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 269*9d250f03SJiafei Pan /* 270*9d250f03SJiafei Pan * The highest level is the system level. The next level is constituted 271*9d250f03SJiafei Pan * by clusters and then cores in clusters. 272*9d250f03SJiafei Pan */ 273*9d250f03SJiafei Pan _power_domain_tree_desc[0] = 1; 274*9d250f03SJiafei Pan _power_domain_tree_desc[1] = num_clusters; 275*9d250f03SJiafei Pan 276*9d250f03SJiafei Pan for (i = 0; i < _power_domain_tree_desc[1]; i++) 277*9d250f03SJiafei Pan _power_domain_tree_desc[i + 2] = cores_per_cluster; 278*9d250f03SJiafei Pan 279*9d250f03SJiafei Pan return _power_domain_tree_desc; 280*9d250f03SJiafei Pan } 281*9d250f03SJiafei Pan 282*9d250f03SJiafei Pan /* 283*9d250f03SJiafei Pan * This function returns the core count within the cluster corresponding to 284*9d250f03SJiafei Pan * `mpidr`. 285*9d250f03SJiafei Pan */ 286*9d250f03SJiafei Pan unsigned int plat_ls_get_cluster_core_count(u_register_t mpidr) 287*9d250f03SJiafei Pan { 288*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 289*9d250f03SJiafei Pan 290*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 291*9d250f03SJiafei Pan return num_clusters; 292*9d250f03SJiafei Pan } 293*9d250f03SJiafei Pan 294*9d250f03SJiafei Pan void soc_early_platform_setup2(void) 295*9d250f03SJiafei Pan { 296*9d250f03SJiafei Pan dcfg_init(&dcfg_init_data); 297*9d250f03SJiafei Pan /* Initialize system level generic timer for Socs */ 298*9d250f03SJiafei Pan delay_timer_init(NXP_TIMER_ADDR); 299*9d250f03SJiafei Pan 300*9d250f03SJiafei Pan #if LOG_LEVEL > 0 301*9d250f03SJiafei Pan /* Initialize the console to provide early debug support */ 302*9d250f03SJiafei Pan plat_console_init(NXP_CONSOLE_ADDR, 303*9d250f03SJiafei Pan NXP_UART_CLK_DIVIDER, NXP_CONSOLE_BAUDRATE); 304*9d250f03SJiafei Pan #endif 305*9d250f03SJiafei Pan } 306*9d250f03SJiafei Pan 307*9d250f03SJiafei Pan void soc_platform_setup(void) 308*9d250f03SJiafei Pan { 309*9d250f03SJiafei Pan /* Initialize the GIC driver, cpu and distributor interfaces */ 310*9d250f03SJiafei Pan static uintptr_t target_mask_array[PLATFORM_CORE_COUNT]; 311*9d250f03SJiafei Pan static interrupt_prop_t ls_interrupt_props[] = { 312*9d250f03SJiafei Pan PLAT_LS_G1S_IRQ_PROPS(INTR_GROUP1S), 313*9d250f03SJiafei Pan PLAT_LS_G0_IRQ_PROPS(INTR_GROUP0) 314*9d250f03SJiafei Pan }; 315*9d250f03SJiafei Pan 316*9d250f03SJiafei Pan plat_ls_gic_driver_init(NXP_GICD_ADDR, NXP_GICR_ADDR, 317*9d250f03SJiafei Pan PLATFORM_CORE_COUNT, 318*9d250f03SJiafei Pan ls_interrupt_props, 319*9d250f03SJiafei Pan ARRAY_SIZE(ls_interrupt_props), 320*9d250f03SJiafei Pan target_mask_array, 321*9d250f03SJiafei Pan plat_core_pos); 322*9d250f03SJiafei Pan 323*9d250f03SJiafei Pan plat_ls_gic_init(); 324*9d250f03SJiafei Pan enable_init_timer(); 325*9d250f03SJiafei Pan } 326*9d250f03SJiafei Pan 327*9d250f03SJiafei Pan /* This function initializes the soc from the BL31 module */ 328*9d250f03SJiafei Pan void soc_init(void) 329*9d250f03SJiafei Pan { 330*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 331*9d250f03SJiafei Pan 332*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 333*9d250f03SJiafei Pan 334*9d250f03SJiafei Pan /* Low-level init of the soc */ 335*9d250f03SJiafei Pan soc_init_lowlevel(); 336*9d250f03SJiafei Pan _init_global_data(); 337*9d250f03SJiafei Pan soc_init_percpu(); 338*9d250f03SJiafei Pan _initialize_psci(); 339*9d250f03SJiafei Pan 340*9d250f03SJiafei Pan /* 341*9d250f03SJiafei Pan * Initialize Interconnect for this cluster during cold boot. 342*9d250f03SJiafei Pan * No need for locks as no other CPU is active. 343*9d250f03SJiafei Pan */ 344*9d250f03SJiafei Pan cci_init(NXP_CCI_ADDR, cci_map, ARRAY_SIZE(cci_map)); 345*9d250f03SJiafei Pan 346*9d250f03SJiafei Pan /* Enable Interconnect coherency for the primary CPU's cluster. */ 347*9d250f03SJiafei Pan plat_ls_interconnect_enter_coherency(num_clusters); 348*9d250f03SJiafei Pan 349*9d250f03SJiafei Pan /* Set platform security policies */ 350*9d250f03SJiafei Pan _set_platform_security(); 351*9d250f03SJiafei Pan 352*9d250f03SJiafei Pan /* Init SEC Engine which will be used by SiP */ 353*9d250f03SJiafei Pan if (is_sec_enabled()) { 354*9d250f03SJiafei Pan sec_init(NXP_CAAM_ADDR); 355*9d250f03SJiafei Pan } else { 356*9d250f03SJiafei Pan INFO("SEC is disabled.\n"); 357*9d250f03SJiafei Pan } 358*9d250f03SJiafei Pan } 359*9d250f03SJiafei Pan 360*9d250f03SJiafei Pan #ifdef NXP_WDOG_RESTART 361*9d250f03SJiafei Pan static uint64_t wdog_interrupt_handler(uint32_t id, uint32_t flags, 362*9d250f03SJiafei Pan void *handle, void *cookie) 363*9d250f03SJiafei Pan { 364*9d250f03SJiafei Pan uint8_t data = WDOG_RESET_FLAG; 365*9d250f03SJiafei Pan 366*9d250f03SJiafei Pan wr_nv_app_data(WDT_RESET_FLAG_OFFSET, 367*9d250f03SJiafei Pan (uint8_t *)&data, sizeof(data)); 368*9d250f03SJiafei Pan 369*9d250f03SJiafei Pan mmio_write_32(NXP_RST_ADDR + RSTCNTL_OFFSET, SW_RST_REQ_INIT); 370*9d250f03SJiafei Pan 371*9d250f03SJiafei Pan return 0; 372*9d250f03SJiafei Pan } 373*9d250f03SJiafei Pan #endif 374*9d250f03SJiafei Pan 375*9d250f03SJiafei Pan void soc_runtime_setup(void) 376*9d250f03SJiafei Pan { 377*9d250f03SJiafei Pan #ifdef NXP_WDOG_RESTART 378*9d250f03SJiafei Pan request_intr_type_el3(BL31_NS_WDOG_WS1, wdog_interrupt_handler); 379*9d250f03SJiafei Pan #endif 380*9d250f03SJiafei Pan } 381*9d250f03SJiafei Pan 382*9d250f03SJiafei Pan /* This function returns the total number of cores in the SoC. */ 383*9d250f03SJiafei Pan unsigned int get_tot_num_cores(void) 384*9d250f03SJiafei Pan { 385*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 386*9d250f03SJiafei Pan 387*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 388*9d250f03SJiafei Pan return (num_clusters * cores_per_cluster); 389*9d250f03SJiafei Pan } 390*9d250f03SJiafei Pan 391*9d250f03SJiafei Pan /* This function returns the PMU IDLE Cluster mask. */ 392*9d250f03SJiafei Pan unsigned int get_pmu_idle_cluster_mask(void) 393*9d250f03SJiafei Pan { 394*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 395*9d250f03SJiafei Pan 396*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 397*9d250f03SJiafei Pan return ((1 << num_clusters) - 2); 398*9d250f03SJiafei Pan } 399*9d250f03SJiafei Pan 400*9d250f03SJiafei Pan /* This function returns the PMU Flush Cluster mask. */ 401*9d250f03SJiafei Pan unsigned int get_pmu_flush_cluster_mask(void) 402*9d250f03SJiafei Pan { 403*9d250f03SJiafei Pan uint8_t num_clusters, cores_per_cluster; 404*9d250f03SJiafei Pan 405*9d250f03SJiafei Pan get_cluster_info(soc_list, ARRAY_SIZE(soc_list), &num_clusters, &cores_per_cluster); 406*9d250f03SJiafei Pan return ((1 << num_clusters) - 2); 407*9d250f03SJiafei Pan } 408*9d250f03SJiafei Pan 409*9d250f03SJiafei Pan /* This function returns the PMU idle core mask. */ 410*9d250f03SJiafei Pan unsigned int get_pmu_idle_core_mask(void) 411*9d250f03SJiafei Pan { 412*9d250f03SJiafei Pan return ((1 << get_tot_num_cores()) - 2); 413*9d250f03SJiafei Pan } 414*9d250f03SJiafei Pan 415*9d250f03SJiafei Pan /* Function to return the SoC SYS CLK */ 416*9d250f03SJiafei Pan unsigned int get_sys_clk(void) 417*9d250f03SJiafei Pan { 418*9d250f03SJiafei Pan return NXP_SYSCLK_FREQ; 419*9d250f03SJiafei Pan } 420*9d250f03SJiafei Pan #endif 421