1 /* 2 * Copyright 2017, Rockchip Electronics Co., Ltd 3 * hisping lin, <hisping.lin@rock-chips.com> 4 * 5 * SPDX-License-Identifier: GPL-2.0+ 6 */ 7 #ifndef _OPTEECLIENTTEST_H_ 8 #define _OPTEECLIENTTEST_H_ 9 10 #include <optee_include/tee_client_api.h> 11 12 enum RK_OEM_OTP_KEYID { 13 RK_OEM_OTP_KEY0 = 0, 14 RK_OEM_OTP_KEY1 = 1, 15 RK_OEM_OTP_KEY2 = 2, 16 RK_OEM_OTP_KEY3 = 3, 17 RK_OEM_OTP_KEY_FW = 10, //keyid of fw_encryption_key 18 RK_OEM_OTP_KEYMAX 19 }; 20 21 /* Crypto mode */ 22 enum RK_CIPIHER_MODE { 23 RK_CIPHER_MODE_ECB = 0, 24 RK_CIPHER_MODE_CBC = 1, 25 RK_CIPHER_MODE_CTS = 2, 26 RK_CIPHER_MODE_CTR = 3, 27 RK_CIPHER_MODE_CFB = 4, 28 RK_CIPHER_MODE_OFB = 5, 29 RK_CIPHER_MODE_XTS = 6, 30 RK_CIPHER_MODE_CCM = 7, 31 RK_CIPHER_MODE_GCM = 8, 32 RK_CIPHER_MODE_CMAC = 9, 33 RK_CIPHER_MODE_CBC_MAC = 10, 34 RK_CIPHER_MODE_MAX 35 }; 36 37 /* Crypto algorithm */ 38 enum RK_CRYPTO_ALGO { 39 RK_ALGO_AES = 1, 40 RK_ALGO_DES, 41 RK_ALGO_TDES, 42 RK_ALGO_SM4, 43 RK_ALGO_ALGO_MAX 44 }; 45 46 typedef struct { 47 uint32_t algo; 48 uint32_t mode; 49 uint32_t operation; 50 uint8_t key[64]; 51 uint32_t key_len; 52 uint8_t iv[16]; 53 void *reserved; 54 } rk_cipher_config; 55 56 /* Crypto operation */ 57 #define RK_MODE_ENCRYPT 1 58 #define RK_MODE_DECRYPT 0 59 60 #define AES_BLOCK_SIZE 16 61 #define SM4_BLOCK_SIZE 16 62 #define RK_CRYPTO_MAX_DATA_LEN (1 * 1024 * 1024) 63 64 #define ATAP_HEX_UUID_LEN 32 65 #define ATTEST_DH_SIZE 8 66 #define ATTEST_UUID_SIZE (ATAP_HEX_UUID_LEN+1) 67 #define ATTEST_CA_OUT_SIZE 256 68 69 uint32_t trusty_read_rollback_index(uint32_t slot, uint64_t *value); 70 uint32_t trusty_write_rollback_index(uint32_t slot, uint64_t value); 71 uint32_t trusty_read_permanent_attributes(uint8_t *attributes, uint32_t size); 72 uint32_t trusty_write_permanent_attributes(uint8_t *attributes, uint32_t size); 73 uint32_t trusty_read_permanent_attributes_cer(uint8_t *attributes, 74 uint32_t size); 75 uint32_t trusty_write_permanent_attributes_cer(uint8_t *attributes, 76 uint32_t size); 77 uint32_t trusty_read_lock_state(uint8_t *lock_state); 78 uint32_t trusty_write_lock_state(uint8_t lock_state); 79 uint32_t trusty_read_flash_lock_state(uint8_t *flash_lock_state); 80 uint32_t trusty_write_flash_lock_state(uint8_t flash_lock_state); 81 82 uint32_t trusty_read_attribute_hash(uint32_t *buf, uint32_t length); 83 uint32_t trusty_write_attribute_hash(uint32_t *buf, uint32_t length); 84 uint32_t trusty_notify_optee_uboot_end(void); 85 uint32_t trusty_read_vbootkey_hash(uint32_t *buf, uint32_t length); 86 uint32_t trusty_write_vbootkey_hash(uint32_t *buf, uint32_t length); 87 uint32_t trusty_read_vbootkey_enable_flag(uint8_t *flag); 88 uint32_t trusty_write_ta_encryption_key(uint32_t *buf, uint32_t length); 89 uint32_t trusty_check_security_level_flag(uint8_t flag); 90 uint32_t trusty_write_oem_huk(uint32_t *buf, uint32_t length); 91 void trusty_select_security_level(void); 92 uint32_t trusty_read_permanent_attributes_flag(uint8_t *attributes); 93 uint32_t trusty_write_permanent_attributes_flag(uint8_t attributes); 94 uint32_t trusty_write_oem_ns_otp(uint32_t byte_off, uint8_t *byte_buf, uint32_t byte_len); 95 uint32_t trusty_read_oem_ns_otp(uint32_t byte_off, uint8_t *byte_buf, uint32_t byte_len); 96 uint32_t trusty_write_oem_otp_key(enum RK_OEM_OTP_KEYID key_id, 97 uint8_t *byte_buf, uint32_t byte_len); 98 uint32_t trusty_oem_otp_key_is_written(enum RK_OEM_OTP_KEYID key_id, uint8_t *value); 99 uint32_t trusty_set_oem_hr_otp_read_lock(enum RK_OEM_OTP_KEYID key_id); 100 uint32_t trusty_oem_otp_key_cipher(enum RK_OEM_OTP_KEYID key_id, rk_cipher_config *config, 101 uint32_t src_phys_addr, uint32_t dst_phys_addr, 102 uint32_t len); 103 uint32_t trusty_attest_dh(uint8_t *dh, uint32_t *dh_size); 104 uint32_t trusty_attest_uuid(uint8_t *uuid, uint32_t *uuid_size); 105 uint32_t trusty_attest_get_ca 106 (uint8_t *operation_start, uint32_t *operation_size, 107 uint8_t *out, uint32_t *out_len); 108 uint32_t trusty_attest_set_ca(uint8_t *ca_response, uint32_t *ca_response_size); 109 110 #endif 111