1 /* SPDX-License-Identifier: GPL-2.0+ */ 2 /* 3 * Copyright (C) 2012-2015 Freescale Semiconductor, Inc. All Rights Reserved. 4 * 5 */ 6 7 #ifndef __SECURE_MX6Q_H__ 8 #define __SECURE_MX6Q_H__ 9 10 #include <linux/types.h> 11 #include <linux/compiler.h> 12 13 /* 14 * IVT header definitions 15 * Security Reference Manual for i.MX 7Dual and 7Solo Applications Processors, 16 * Rev. 0, 03/2017 17 * Section : 6.7.1.1 18 */ 19 #define IVT_HEADER_MAGIC 0xD1 20 #define IVT_TOTAL_LENGTH 0x20 21 #define IVT_HEADER_V1 0x40 22 #define IVT_HEADER_V2 0x41 23 24 struct __packed ivt_header { 25 uint8_t magic; 26 uint16_t length; 27 uint8_t version; 28 }; 29 30 struct ivt { 31 struct ivt_header hdr; /* IVT header above */ 32 uint32_t entry; /* Absolute address of first instruction */ 33 uint32_t reserved1; /* Reserved should be zero */ 34 uint32_t dcd; /* Absolute address of the image DCD */ 35 uint32_t boot; /* Absolute address of the boot data */ 36 uint32_t self; /* Absolute address of the IVT */ 37 uint32_t csf; /* Absolute address of the CSF */ 38 uint32_t reserved2; /* Reserved should be zero */ 39 }; 40 41 struct __packed hab_hdr { 42 u8 tag; /* Tag field */ 43 u8 len[2]; /* Length field in bytes (big-endian) */ 44 u8 par; /* Parameters field */ 45 }; 46 47 /* -------- start of HAB API updates ------------*/ 48 /* The following are taken from HAB4 SIS */ 49 50 /* Status definitions */ 51 enum hab_status { 52 HAB_STS_ANY = 0x00, 53 HAB_FAILURE = 0x33, 54 HAB_WARNING = 0x69, 55 HAB_SUCCESS = 0xf0 56 }; 57 58 /* Security Configuration definitions */ 59 enum hab_config { 60 HAB_CFG_RETURN = 0x33, /* < Field Return IC */ 61 HAB_CFG_OPEN = 0xf0, /* < Non-secure IC */ 62 HAB_CFG_CLOSED = 0xcc /* < Secure IC */ 63 }; 64 65 /* State definitions */ 66 enum hab_state { 67 HAB_STATE_INITIAL = 0x33, /* Initialising state (transitory) */ 68 HAB_STATE_CHECK = 0x55, /* Check state (non-secure) */ 69 HAB_STATE_NONSECURE = 0x66, /* Non-secure state */ 70 HAB_STATE_TRUSTED = 0x99, /* Trusted state */ 71 HAB_STATE_SECURE = 0xaa, /* Secure state */ 72 HAB_STATE_FAIL_SOFT = 0xcc, /* Soft fail state */ 73 HAB_STATE_FAIL_HARD = 0xff, /* Hard fail state (terminal) */ 74 HAB_STATE_NONE = 0xf0, /* No security state machine */ 75 HAB_STATE_MAX 76 }; 77 78 enum hab_reason { 79 HAB_RSN_ANY = 0x00, /* Match any reason */ 80 HAB_ENG_FAIL = 0x30, /* Engine failure */ 81 HAB_INV_ADDRESS = 0x22, /* Invalid address: access denied */ 82 HAB_INV_ASSERTION = 0x0c, /* Invalid assertion */ 83 HAB_INV_CALL = 0x28, /* Function called out of sequence */ 84 HAB_INV_CERTIFICATE = 0x21, /* Invalid certificate */ 85 HAB_INV_COMMAND = 0x06, /* Invalid command: command malformed */ 86 HAB_INV_CSF = 0x11, /* Invalid csf */ 87 HAB_INV_DCD = 0x27, /* Invalid dcd */ 88 HAB_INV_INDEX = 0x0f, /* Invalid index: access denied */ 89 HAB_INV_IVT = 0x05, /* Invalid ivt */ 90 HAB_INV_KEY = 0x1d, /* Invalid key */ 91 HAB_INV_RETURN = 0x1e, /* Failed callback function */ 92 HAB_INV_SIGNATURE = 0x18, /* Invalid signature */ 93 HAB_INV_SIZE = 0x17, /* Invalid data size */ 94 HAB_MEM_FAIL = 0x2e, /* Memory failure */ 95 HAB_OVR_COUNT = 0x2b, /* Expired poll count */ 96 HAB_OVR_STORAGE = 0x2d, /* Exhausted storage region */ 97 HAB_UNS_ALGORITHM = 0x12, /* Unsupported algorithm */ 98 HAB_UNS_COMMAND = 0x03, /* Unsupported command */ 99 HAB_UNS_ENGINE = 0x0a, /* Unsupported engine */ 100 HAB_UNS_ITEM = 0x24, /* Unsupported configuration item */ 101 HAB_UNS_KEY = 0x1b, /* Unsupported key type/parameters */ 102 HAB_UNS_PROTOCOL = 0x14, /* Unsupported protocol */ 103 HAB_UNS_STATE = 0x09, /* Unsuitable state */ 104 HAB_RSN_MAX 105 }; 106 107 enum hab_context { 108 HAB_CTX_ANY = 0x00, /* Match any context */ 109 HAB_CTX_FAB = 0xff, /* Event logged in hab_fab_test() */ 110 HAB_CTX_ENTRY = 0xe1, /* Event logged in hab_rvt.entry() */ 111 HAB_CTX_TARGET = 0x33, /* Event logged in hab_rvt.check_target() */ 112 HAB_CTX_AUTHENTICATE = 0x0a,/* Logged in hab_rvt.authenticate_image() */ 113 HAB_CTX_DCD = 0xdd, /* Event logged in hab_rvt.run_dcd() */ 114 HAB_CTX_CSF = 0xcf, /* Event logged in hab_rvt.run_csf() */ 115 HAB_CTX_COMMAND = 0xc0, /* Event logged executing csf/dcd command */ 116 HAB_CTX_AUT_DAT = 0xdb, /* Authenticated data block */ 117 HAB_CTX_ASSERT = 0xa0, /* Event logged in hab_rvt.assert() */ 118 HAB_CTX_EXIT = 0xee, /* Event logged in hab_rvt.exit() */ 119 HAB_CTX_MAX 120 }; 121 122 enum hab_target { 123 HAB_TGT_MEMORY = 0x0f, 124 HAB_TGT_PERIPHERAL = 0xf0, 125 HAB_TGT_ANY = 0x55, 126 }; 127 128 struct imx_sec_config_fuse_t { 129 int bank; 130 int word; 131 }; 132 133 #if defined(CONFIG_IMX_HAB) 134 extern struct imx_sec_config_fuse_t const imx_sec_config_fuse; 135 #endif 136 137 /*Function prototype description*/ 138 typedef enum hab_status hab_rvt_report_event_t(enum hab_status, uint32_t, 139 uint8_t* , size_t*); 140 typedef enum hab_status hab_rvt_report_status_t(enum hab_config *, 141 enum hab_state *); 142 typedef enum hab_status hab_loader_callback_f_t(void**, size_t*, const void*); 143 typedef enum hab_status hab_rvt_entry_t(void); 144 typedef enum hab_status hab_rvt_exit_t(void); 145 typedef void *hab_rvt_authenticate_image_t(uint8_t, ptrdiff_t, 146 void **, size_t *, hab_loader_callback_f_t); 147 typedef enum hab_status hab_rvt_check_target_t(enum hab_target, const void *, 148 size_t); 149 typedef void hab_rvt_failsafe_t(void); 150 typedef void hapi_clock_init_t(void); 151 152 #define HAB_ENG_ANY 0x00 /* Select first compatible engine */ 153 #define HAB_ENG_SCC 0x03 /* Security controller */ 154 #define HAB_ENG_RTIC 0x05 /* Run-time integrity checker */ 155 #define HAB_ENG_SAHARA 0x06 /* Crypto accelerator */ 156 #define HAB_ENG_CSU 0x0a /* Central Security Unit */ 157 #define HAB_ENG_SRTC 0x0c /* Secure clock */ 158 #define HAB_ENG_DCP 0x1b /* Data Co-Processor */ 159 #define HAB_ENG_CAAM 0x1d /* CAAM */ 160 #define HAB_ENG_SNVS 0x1e /* Secure Non-Volatile Storage */ 161 #define HAB_ENG_OCOTP 0x21 /* Fuse controller */ 162 #define HAB_ENG_DTCP 0x22 /* DTCP co-processor */ 163 #define HAB_ENG_ROM 0x36 /* Protected ROM area */ 164 #define HAB_ENG_HDCP 0x24 /* HDCP co-processor */ 165 #define HAB_ENG_RTL 0x77 /* RTL simulation engine */ 166 #define HAB_ENG_SW 0xff /* Software engine */ 167 168 #ifdef CONFIG_ROM_UNIFIED_SECTIONS 169 #define HAB_RVT_BASE 0x00000100 170 #else 171 #define HAB_RVT_BASE_NEW 0x00000098 172 #define HAB_RVT_BASE_OLD 0x00000094 173 #define HAB_RVT_BASE ((is_mx6dqp()) ? \ 174 HAB_RVT_BASE_NEW : \ 175 (is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \ 176 HAB_RVT_BASE_NEW : \ 177 (is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \ 178 HAB_RVT_BASE_NEW : HAB_RVT_BASE_OLD) 179 #endif 180 181 #define HAB_RVT_ENTRY (*(uint32_t *)(HAB_RVT_BASE + 0x04)) 182 #define HAB_RVT_EXIT (*(uint32_t *)(HAB_RVT_BASE + 0x08)) 183 #define HAB_RVT_CHECK_TARGET (*(uint32_t *)(HAB_RVT_BASE + 0x0C)) 184 #define HAB_RVT_AUTHENTICATE_IMAGE (*(uint32_t *)(HAB_RVT_BASE + 0x10)) 185 #define HAB_RVT_REPORT_EVENT (*(uint32_t *)(HAB_RVT_BASE + 0x20)) 186 #define HAB_RVT_REPORT_STATUS (*(uint32_t *)(HAB_RVT_BASE + 0x24)) 187 #define HAB_RVT_FAILSAFE (*(uint32_t *)(HAB_RVT_BASE + 0x28)) 188 189 #define HAB_CID_ROM 0 /**< ROM Caller ID */ 190 #define HAB_CID_UBOOT 1 /**< UBOOT Caller ID*/ 191 192 #define HAB_TAG_RVT 0xDD /* ROM Vector Table */ 193 #define HAB_CMD_HDR 0xD4 /* CSF Header */ 194 #define HAB_CMD_WRT_DAT 0xCC /* Write Data command tag */ 195 #define HAB_CMD_CHK_DAT 0xCF /* Check Data command tag */ 196 #define HAB_CMD_SET 0xB1 /* Set command tag */ 197 #define HAB_PAR_MID 0x01 /* MID parameter value */ 198 199 #define IVT_SIZE 0x20 200 #define CSF_PAD_SIZE 0x2000 201 202 /* ----------- end of HAB API updates ------------*/ 203 204 int imx_hab_authenticate_image(uint32_t ddr_start, uint32_t image_size, 205 uint32_t ivt_offset); 206 bool imx_hab_is_enabled(void); 207 208 #endif 209