1f5cb15b0SAndre Przywara /* 2*bbf92fe9SMario Bălănică * Copyright (c) 2015-2024, Arm Limited and Contributors. All rights reserved. 3f5cb15b0SAndre Przywara * 4f5cb15b0SAndre Przywara * SPDX-License-Identifier: BSD-3-Clause 5f5cb15b0SAndre Przywara */ 6f5cb15b0SAndre Przywara 7f5cb15b0SAndre Przywara #ifndef PLATFORM_DEF_H 8f5cb15b0SAndre Przywara #define PLATFORM_DEF_H 9f5cb15b0SAndre Przywara 10f5cb15b0SAndre Przywara #include <arch.h> 11f5cb15b0SAndre Przywara #include <common/tbbr/tbbr_img_def.h> 12f5cb15b0SAndre Przywara #include <lib/utils_def.h> 13f5cb15b0SAndre Przywara #include <plat/common/common_def.h> 14f5cb15b0SAndre Przywara 15f5cb15b0SAndre Przywara #include "rpi_hw.h" 16f5cb15b0SAndre Przywara 17f5cb15b0SAndre Przywara /* Special value used to verify platform parameters from BL2 to BL31 */ 18f5cb15b0SAndre Przywara #define RPI3_BL31_PLAT_PARAM_VAL ULL(0x0F1E2D3C4B5A6978) 19f5cb15b0SAndre Przywara 20f5cb15b0SAndre Przywara #define PLATFORM_STACK_SIZE ULL(0x1000) 21f5cb15b0SAndre Przywara 22f5cb15b0SAndre Przywara #define PLATFORM_MAX_CPUS_PER_CLUSTER U(4) 23f5cb15b0SAndre Przywara #define PLATFORM_CLUSTER_COUNT U(1) 24f5cb15b0SAndre Przywara #define PLATFORM_CLUSTER0_CORE_COUNT PLATFORM_MAX_CPUS_PER_CLUSTER 25f5cb15b0SAndre Przywara #define PLATFORM_CORE_COUNT PLATFORM_CLUSTER0_CORE_COUNT 26f5cb15b0SAndre Przywara 2707aa0c7eSAndre Przywara #define RPI_PRIMARY_CPU U(0) 28f5cb15b0SAndre Przywara 29f5cb15b0SAndre Przywara #define PLAT_MAX_PWR_LVL MPIDR_AFFLVL1 30f5cb15b0SAndre Przywara #define PLAT_NUM_PWR_DOMAINS (PLATFORM_CLUSTER_COUNT + \ 31f5cb15b0SAndre Przywara PLATFORM_CORE_COUNT) 32f5cb15b0SAndre Przywara 33f5cb15b0SAndre Przywara #define PLAT_MAX_RET_STATE U(1) 34f5cb15b0SAndre Przywara #define PLAT_MAX_OFF_STATE U(2) 35f5cb15b0SAndre Przywara 36f5cb15b0SAndre Przywara /* Local power state for power domains in Run state. */ 37f5cb15b0SAndre Przywara #define PLAT_LOCAL_STATE_RUN U(0) 38f5cb15b0SAndre Przywara /* Local power state for retention. Valid only for CPU power domains */ 39f5cb15b0SAndre Przywara #define PLAT_LOCAL_STATE_RET U(1) 40f5cb15b0SAndre Przywara /* 41f5cb15b0SAndre Przywara * Local power state for OFF/power-down. Valid for CPU and cluster power 42f5cb15b0SAndre Przywara * domains. 43f5cb15b0SAndre Przywara */ 44f5cb15b0SAndre Przywara #define PLAT_LOCAL_STATE_OFF U(2) 45f5cb15b0SAndre Przywara 46f5cb15b0SAndre Przywara /* 47f5cb15b0SAndre Przywara * Macros used to parse state information from State-ID if it is using the 48f5cb15b0SAndre Przywara * recommended encoding for State-ID. 49f5cb15b0SAndre Przywara */ 50f5cb15b0SAndre Przywara #define PLAT_LOCAL_PSTATE_WIDTH U(4) 51f5cb15b0SAndre Przywara #define PLAT_LOCAL_PSTATE_MASK ((U(1) << PLAT_LOCAL_PSTATE_WIDTH) - 1) 52f5cb15b0SAndre Przywara 53f5cb15b0SAndre Przywara /* 54f5cb15b0SAndre Przywara * Some data must be aligned on the biggest cache line size in the platform. 55f5cb15b0SAndre Przywara * This is known only to the platform as it might have a combination of 56f5cb15b0SAndre Przywara * integrated and external caches. 57f5cb15b0SAndre Przywara */ 58f5cb15b0SAndre Przywara #define CACHE_WRITEBACK_SHIFT U(6) 59f5cb15b0SAndre Przywara #define CACHE_WRITEBACK_GRANULE (U(1) << CACHE_WRITEBACK_SHIFT) 60f5cb15b0SAndre Przywara 61f5cb15b0SAndre Przywara /* 62f5cb15b0SAndre Przywara * I/O registers. 63f5cb15b0SAndre Przywara */ 64f5cb15b0SAndre Przywara #define DEVICE0_BASE RPI_IO_BASE 65f5cb15b0SAndre Przywara #define DEVICE0_SIZE RPI_IO_SIZE 66f5cb15b0SAndre Przywara 67f5cb15b0SAndre Przywara /* 68f5cb15b0SAndre Przywara * Mailbox to control the secondary cores. All secondary cores are held in a 69f5cb15b0SAndre Przywara * wait loop in cold boot. To release them perform the following steps (plus 70f5cb15b0SAndre Przywara * any additional barriers that may be needed): 71f5cb15b0SAndre Przywara * 72f5cb15b0SAndre Przywara * uint64_t *entrypoint = (uint64_t *)PLAT_RPI3_TM_ENTRYPOINT; 73f5cb15b0SAndre Przywara * *entrypoint = ADDRESS_TO_JUMP_TO; 74f5cb15b0SAndre Przywara * 75f5cb15b0SAndre Przywara * uint64_t *mbox_entry = (uint64_t *)PLAT_RPI3_TM_HOLD_BASE; 76f5cb15b0SAndre Przywara * mbox_entry[cpu_id] = PLAT_RPI3_TM_HOLD_STATE_GO; 77f5cb15b0SAndre Przywara * 78f5cb15b0SAndre Przywara * sev(); 79f5cb15b0SAndre Przywara */ 80f5cb15b0SAndre Przywara /* The secure entry point to be used on warm reset by all CPUs. */ 81882c0ff6SAndre Przywara #define PLAT_RPI3_TM_ENTRYPOINT 0x100 82f5cb15b0SAndre Przywara #define PLAT_RPI3_TM_ENTRYPOINT_SIZE ULL(8) 83f5cb15b0SAndre Przywara 84f5cb15b0SAndre Przywara /* Hold entries for each CPU. */ 85f5cb15b0SAndre Przywara #define PLAT_RPI3_TM_HOLD_BASE (PLAT_RPI3_TM_ENTRYPOINT + \ 86f5cb15b0SAndre Przywara PLAT_RPI3_TM_ENTRYPOINT_SIZE) 87f5cb15b0SAndre Przywara #define PLAT_RPI3_TM_HOLD_ENTRY_SIZE ULL(8) 88f5cb15b0SAndre Przywara #define PLAT_RPI3_TM_HOLD_SIZE (PLAT_RPI3_TM_HOLD_ENTRY_SIZE * \ 89f5cb15b0SAndre Przywara PLATFORM_CORE_COUNT) 90f5cb15b0SAndre Przywara 91f5cb15b0SAndre Przywara #define PLAT_RPI3_TRUSTED_MAILBOX_SIZE (PLAT_RPI3_TM_ENTRYPOINT_SIZE + \ 92f5cb15b0SAndre Przywara PLAT_RPI3_TM_HOLD_SIZE) 93f5cb15b0SAndre Przywara 94f5cb15b0SAndre Przywara #define PLAT_RPI3_TM_HOLD_STATE_WAIT ULL(0) 95f5cb15b0SAndre Przywara #define PLAT_RPI3_TM_HOLD_STATE_GO ULL(1) 962e5f8443SAndrei Warkentin #define PLAT_RPI3_TM_HOLD_STATE_BSP_OFF ULL(2) 97f5cb15b0SAndre Przywara 98f5cb15b0SAndre Przywara /* 99f5cb15b0SAndre Przywara * BL31 specific defines. 100f5cb15b0SAndre Przywara * 101f5cb15b0SAndre Przywara * Put BL31 at the top of the Trusted SRAM. BL31_BASE is calculated using the 102f5cb15b0SAndre Przywara * current BL31 debug size plus a little space for growth. 103f5cb15b0SAndre Przywara */ 104882c0ff6SAndre Przywara #define PLAT_MAX_BL31_SIZE ULL(0x80000) 105f5cb15b0SAndre Przywara 106f5cb15b0SAndre Przywara #define BL31_BASE ULL(0x1000) 107882c0ff6SAndre Przywara #define BL31_LIMIT ULL(0x80000) 108882c0ff6SAndre Przywara #define BL31_PROGBITS_LIMIT ULL(0x80000) 109f5cb15b0SAndre Przywara 110f5cb15b0SAndre Przywara #define SEC_SRAM_ID 0 111f5cb15b0SAndre Przywara #define SEC_DRAM_ID 1 112f5cb15b0SAndre Przywara 113f5cb15b0SAndre Przywara /* 114f5cb15b0SAndre Przywara * Other memory-related defines. 115f5cb15b0SAndre Przywara */ 116f5cb15b0SAndre Przywara #define PLAT_PHY_ADDR_SPACE_SIZE (ULL(1) << 32) 117f5cb15b0SAndre Przywara #define PLAT_VIRT_ADDR_SPACE_SIZE (ULL(1) << 32) 118f5cb15b0SAndre Przywara 119f5cb15b0SAndre Przywara #define MAX_MMAP_REGIONS 8 120f5cb15b0SAndre Przywara #define MAX_XLAT_TABLES 4 121f5cb15b0SAndre Przywara 122f5cb15b0SAndre Przywara #define MAX_IO_DEVICES U(3) 123f5cb15b0SAndre Przywara #define MAX_IO_HANDLES U(4) 124f5cb15b0SAndre Przywara 125f5cb15b0SAndre Przywara #define MAX_IO_BLOCK_DEVICES U(1) 126f5cb15b0SAndre Przywara 127f5cb15b0SAndre Przywara /* 128f5cb15b0SAndre Przywara * Serial-related constants. 129f5cb15b0SAndre Przywara */ 130795aefe5SAndre Przywara #define PLAT_RPI_MINI_UART_BASE RPI4_MINI_UART_BASE 1315e6d821cSAndre Przywara #define PLAT_RPI_PL011_UART_BASE RPI4_PL011_UART_BASE 1325e6d821cSAndre Przywara #define PLAT_RPI_PL011_UART_CLOCK RPI4_PL011_UART_CLOCK 133795aefe5SAndre Przywara #define PLAT_RPI_UART_BAUDRATE ULL(115200) 134*bbf92fe9SMario Bălănică #define PLAT_RPI_CRASH_UART_BASE PLAT_RPI_MINI_UART_BASE 135f5cb15b0SAndre Przywara 136f5cb15b0SAndre Przywara /* 137f5cb15b0SAndre Przywara * System counter 138f5cb15b0SAndre Przywara */ 139f5cb15b0SAndre Przywara #define SYS_COUNTER_FREQ_IN_TICKS ULL(54000000) 140f5cb15b0SAndre Przywara 141f5cb15b0SAndre Przywara #endif /* PLATFORM_DEF_H */ 142