/* * Copyright (c) 2013-2019, ARM Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include "pm_api_sys.h" /* * Table of regions to map using the MMU. * This doesn't include TZRAM as the 'mem_layout' argument passed to * configure_mmu_elx() will give the available subset of that, */ const mmap_region_t plat_arm_mmap[] = { { DEVICE0_BASE, DEVICE0_BASE, DEVICE0_SIZE, MT_DEVICE | MT_RW | MT_SECURE }, { DEVICE1_BASE, DEVICE1_BASE, DEVICE1_SIZE, MT_DEVICE | MT_RW | MT_SECURE }, { CRF_APB_BASE, CRF_APB_BASE, CRF_APB_SIZE, MT_DEVICE | MT_RW | MT_SECURE }, {0} }; static unsigned int zynqmp_get_silicon_ver(void) { static unsigned int ver; if (!ver) { ver = mmio_read_32(ZYNQMP_CSU_BASEADDR + ZYNQMP_CSU_VERSION_OFFSET); ver &= ZYNQMP_SILICON_VER_MASK; ver >>= ZYNQMP_SILICON_VER_SHIFT; } return ver; } unsigned int zynqmp_get_uart_clk(void) { unsigned int ver = zynqmp_get_silicon_ver(); if (ver == ZYNQMP_CSU_VERSION_QEMU) return 133000000; else return 100000000; } #if LOG_LEVEL >= LOG_LEVEL_NOTICE static const struct { unsigned int id; unsigned int ver; char *name; bool evexists; } zynqmp_devices[] = { { .id = 0x10, .name = "3EG", }, { .id = 0x10, .ver = 0x2c, .name = "3CG", }, { .id = 0x11, .name = "2EG", }, { .id = 0x11, .ver = 0x2c, .name = "2CG", }, { .id = 0x20, .name = "5EV", .evexists = true, }, { .id = 0x20, .ver = 0x100, .name = "5EG", .evexists = true, }, { .id = 0x20, .ver = 0x12c, .name = "5CG", }, { .id = 0x21, .name = "4EV", .evexists = true, }, { .id = 0x21, .ver = 0x100, .name = "4EG", .evexists = true, }, { .id = 0x21, .ver = 0x12c, .name = "4CG", }, { .id = 0x30, .name = "7EV", .evexists = true, }, { .id = 0x30, .ver = 0x100, .name = "7EG", .evexists = true, }, { .id = 0x30, .ver = 0x12c, .name = "7CG", }, { .id = 0x38, .name = "9EG", }, { .id = 0x38, .ver = 0x2c, .name = "9CG", }, { .id = 0x39, .name = "6EG", }, { .id = 0x39, .ver = 0x2c, .name = "6CG", }, { .id = 0x40, .name = "11EG", }, { /* For testing purpose only */ .id = 0x50, .ver = 0x2c, .name = "15CG", }, { .id = 0x50, .name = "15EG", }, { .id = 0x58, .name = "19EG", }, { .id = 0x59, .name = "17EG", }, { .id = 0x60, .name = "28DR", }, { .id = 0x61, .name = "21DR", }, { .id = 0x62, .name = "29DR", }, { .id = 0x63, .name = "23DR", }, { .id = 0x64, .name = "27DR", }, { .id = 0x65, .name = "25DR", }, }; #define ZYNQMP_PL_STATUS_BIT 9 #define ZYNQMP_PL_STATUS_MASK BIT(ZYNQMP_PL_STATUS_BIT) #define ZYNQMP_CSU_VERSION_MASK ~(ZYNQMP_PL_STATUS_MASK) static char *zynqmp_get_silicon_idcode_name(void) { uint32_t id, ver, chipid[2]; size_t i, j, len; const char *name = "EG/EV"; #ifdef IMAGE_BL32 /* * For BL32, get the chip id info directly by reading corresponding * registers instead of making pm call. This has limitation * that these registers should be configured to have access * from APU which is default case. */ chipid[0] = mmio_read_32(ZYNQMP_CSU_BASEADDR + ZYNQMP_CSU_IDCODE_OFFSET); chipid[1] = mmio_read_32(EFUSE_BASEADDR + EFUSE_IPDISABLE_OFFSET); #else if (pm_get_chipid(chipid) != PM_RET_SUCCESS) return "UNKN"; #endif id = chipid[0] & (ZYNQMP_CSU_IDCODE_DEVICE_CODE_MASK | ZYNQMP_CSU_IDCODE_SVD_MASK); id >>= ZYNQMP_CSU_IDCODE_SVD_SHIFT; ver = chipid[1] >> ZYNQMP_EFUSE_IPDISABLE_SHIFT; for (i = 0; i < ARRAY_SIZE(zynqmp_devices); i++) { if (zynqmp_devices[i].id == id && zynqmp_devices[i].ver == (ver & ZYNQMP_CSU_VERSION_MASK)) break; } if (i >= ARRAY_SIZE(zynqmp_devices)) return "UNKN"; if (!zynqmp_devices[i].evexists) return zynqmp_devices[i].name; if (ver & ZYNQMP_PL_STATUS_MASK) return zynqmp_devices[i].name; len = strlen(zynqmp_devices[i].name) - 2; for (j = 0; j < strlen(name); j++) { zynqmp_devices[i].name[len] = name[j]; len++; } zynqmp_devices[i].name[len] = '\0'; return zynqmp_devices[i].name; } static unsigned int zynqmp_get_rtl_ver(void) { uint32_t ver; ver = mmio_read_32(ZYNQMP_CSU_BASEADDR + ZYNQMP_CSU_VERSION_OFFSET); ver &= ZYNQMP_RTL_VER_MASK; ver >>= ZYNQMP_RTL_VER_SHIFT; return ver; } static char *zynqmp_print_silicon_idcode(void) { uint32_t id, maskid, tmp; id = mmio_read_32(ZYNQMP_CSU_BASEADDR + ZYNQMP_CSU_IDCODE_OFFSET); tmp = id; tmp &= ZYNQMP_CSU_IDCODE_XILINX_ID_MASK | ZYNQMP_CSU_IDCODE_FAMILY_MASK; maskid = ZYNQMP_CSU_IDCODE_XILINX_ID << ZYNQMP_CSU_IDCODE_XILINX_ID_SHIFT | ZYNQMP_CSU_IDCODE_FAMILY << ZYNQMP_CSU_IDCODE_FAMILY_SHIFT; if (tmp != maskid) { ERROR("Incorrect XILINX IDCODE 0x%x, maskid 0x%x\n", id, maskid); return "UNKN"; } VERBOSE("Xilinx IDCODE 0x%x\n", id); return zynqmp_get_silicon_idcode_name(); } static unsigned int zynqmp_get_ps_ver(void) { uint32_t ver = mmio_read_32(ZYNQMP_CSU_BASEADDR + ZYNQMP_CSU_VERSION_OFFSET); ver &= ZYNQMP_PS_VER_MASK; ver >>= ZYNQMP_PS_VER_SHIFT; return ver + 1; } static void zynqmp_print_platform_name(void) { unsigned int ver = zynqmp_get_silicon_ver(); unsigned int rtl = zynqmp_get_rtl_ver(); char *label = "Unknown"; switch (ver) { case ZYNQMP_CSU_VERSION_QEMU: label = "QEMU"; break; case ZYNQMP_CSU_VERSION_SILICON: label = "silicon"; break; default: /* Do nothing in default case */ break; } NOTICE("ATF running on XCZU%s/%s v%d/RTL%d.%d at 0x%x\n", zynqmp_print_silicon_idcode(), label, zynqmp_get_ps_ver(), (rtl & 0xf0) >> 4, rtl & 0xf, BL31_BASE); } #else static inline void zynqmp_print_platform_name(void) { } #endif unsigned int zynqmp_get_bootmode(void) { uint32_t r; unsigned int ret; ret = pm_mmio_read(CRL_APB_BOOT_MODE_USER, &r); if (ret != PM_RET_SUCCESS) r = mmio_read_32(CRL_APB_BOOT_MODE_USER); return r & CRL_APB_BOOT_MODE_MASK; } void zynqmp_config_setup(void) { /* Configure IPI data for ZynqMP */ zynqmp_ipi_config_table_init(); zynqmp_print_platform_name(); generic_delay_timer_init(); } unsigned int plat_get_syscnt_freq2(void) { unsigned int ver = zynqmp_get_silicon_ver(); if (ver == ZYNQMP_CSU_VERSION_QEMU) return 50000000; else return mmio_read_32(IOU_SCNTRS_BASEFREQ); }