/* * Copyright (c) 2021 hpmicro * * SPDX-License-Identifier: BSD-3-Clause * */ #ifndef HPM_ROMAPI_H #define HPM_ROMAPI_H /** * @brief ROM APIs * @defgroup romapi_interface ROM APIs * @{ */ #include "hpm_common.h" #include "hpm_otp_drv.h" #include "hpm_romapi_xpi_def.h" #include "hpm_romapi_xpi_soc_def.h" #include "hpm_romapi_xpi_nor_def.h" #include "hpm_romapi_xpi_ram_def.h" #include "hpm_sdp_drv.h" /* XPI0 base address */ #define HPM_XPI0_BASE (0xF3040000UL) /**< XPI0 Base address */ /* XPI0 base pointer */ #define HPM_XPI0 ((XPI_Type *) HPM_XPI0_BASE) /**< XPI0 Base pointer */ /* XPI1 base address */ #define HPM_XPI1_BASE (0xF3044000UL) /**< XPI1 Base address */ /* XPI1 base pointer */ #define HPM_XPI1 ((XPI_Type *) HPM_XPI1_BASE) /**< XPI1 Base pointer */ /*********************************************************************************************************************** * * * Definitions * * **********************************************************************************************************************/ /** * @brief Enter Bootloader API argument */ typedef union { uint32_t U; struct { uint32_t index: 8; /**< Image index */ uint32_t peripheral: 8; /**< Boot peripheral */ uint32_t src: 8; /**< Boot source */ uint32_t tag: 8; /**< ROM API parameter tag, must be 0xEB */ }; } api_boot_arg_t; #define API_BOOT_TAG (0xEBU) /**< ROM API parameter tag */ #define API_BOOT_SRC_OTP (0U) /**< Boot source: OTP */ #define API_BOOT_SRC_PRIMARY (1U) /**< Boot source: Primary */ #define API_BOOT_SRC_SERIAL_BOOT (2U) /**< Boot source: Serial Boot */ #define API_BOOT_SRC_ISP (3U) /**< Boot source: ISP */ #define API_BOOT_PERIPH_AUTO (0U) /**< Boot peripheral: Auto detected */ #define API_BOOT_PERIPH_UART (1U) /**< Boot peripheral: UART */ #define API_BOOT_PERIPH_USBHID (2U) /**< Boot Peripheral: USB-HID */ /** * @brief OTP driver interface */ typedef struct { /**< OTP driver interface version */ uint32_t version; /**< OTP driver interface: init */ void (*init)(void); /**< OTP driver interface: deinit */ void (*deinit)(void); /**< OTP driver interface: read from shadow */ uint32_t (*read_from_shadow)(uint32_t addr); /**< OTP driver interface: read from ip */ uint32_t (*read_from_ip)(uint32_t addr); /**< OTP driver interface: program */ hpm_stat_t (*program)(uint32_t addr, const uint32_t *src, uint32_t num_of_words); /**< OTP driver interface: reload */ hpm_stat_t (*reload)(otp_region_t region); /**< OTP driver interface: lock */ hpm_stat_t (*lock)(uint32_t addr, otp_lock_option_t lock_option); /**< OTP driver interface: lock_shadow */ hpm_stat_t (*lock_shadow)(uint32_t addr, otp_lock_option_t lock_option); /**< OTP driver interface: set_configurable_region */ hpm_stat_t (*set_configurable_region)(uint32_t start, uint32_t num_of_words); /**< OTP driver interface: write_shadow_register */ hpm_stat_t (*write_shadow_register)(uint32_t addr, uint32_t data); } otp_driver_interface_t; /** * @brief XPI driver interface */ typedef struct { /**< XPI driver interface: version */ uint32_t version; /**< XPI driver interface: get default configuration */ hpm_stat_t (*get_default_config)(xpi_config_t *xpi_config); /**< XPI driver interface: get default device configuration */ hpm_stat_t (*get_default_device_config)(xpi_device_config_t *dev_config); /**< XPI driver interface: initialize the XPI using xpi_config */ hpm_stat_t (*init)(XPI_Type *base, xpi_config_t *xpi_config); /**< XPI driver interface: configure the AHB buffer */ hpm_stat_t (*config_ahb_buffer)(XPI_Type *base, xpi_ahb_buffer_cfg_t *ahb_buf_cfg); /**< XPI driver interface: configure the device */ hpm_stat_t (*config_device)(XPI_Type *base, xpi_device_config_t *dev_cfg, xpi_channel_t channel); /**< XPI driver interface: update instruction talbe */ hpm_stat_t (*update_instr_table)(XPI_Type *base, const uint32_t *inst_base, uint32_t seq_idx, uint32_t num); /**< XPI driver interface: transfer command/data using block interface */ hpm_stat_t (*transfer_blocking)(XPI_Type *base, xpi_xfer_ctx_t *xfer); /**< Software reset the XPI controller */ void (*software_reset)(XPI_Type *base); /**< XPI driver interface: Check whether IP is idle */ bool (*is_idle)(XPI_Type *base); /**< XPI driver interface: update delay line setting */ void (*update_dllcr)(XPI_Type *base, uint32_t serial_root_clk_freq, uint32_t data_valid_time, xpi_channel_t channel, uint32_t dly_target); /**< XPI driver interface: Get absolute address for APB transfer */ hpm_stat_t (*get_abs_apb_xfer_addr)(XPI_Type *base, xpi_xfer_channel_t channel, uint32_t in_addr, uint32_t *out_addr); } xpi_driver_interface_t; /** * @brief XPI NOR driver interface */ typedef struct { /**< XPI NOR driver interface: API version */ uint32_t version; /**< XPI NOR driver interface: Get FLASH configuration */ hpm_stat_t (*get_config)(XPI_Type *base, xpi_nor_config_t *nor_cfg, xpi_nor_config_option_t *cfg_option); /**< XPI NOR driver interface: initialize FLASH */ hpm_stat_t (*init)(XPI_Type *base, xpi_nor_config_t *nor_config); /**< XPI NOR driver interface: Enable write access to FLASH */ hpm_stat_t (*enable_write)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr); /**< XPI NOR driver interface: Get FLASH status register */ hpm_stat_t (*get_status)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr, uint16_t *out_status); /**< XPI NOR driver interface: Wait when FLASH is still busy */ hpm_stat_t (*wait_busy)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr); /**< XPI NOR driver interface: erase a specified FLASH region */ hpm_stat_t (*erase)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t start, uint32_t length); /**< XPI NOR driver interface: Erase the whole FLASH */ hpm_stat_t (*erase_chip)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config); /**< XPI NOR driver interface: Erase specified FLASH sector */ hpm_stat_t (*erase_sector)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr); /**< XPI NOR driver interface: Erase specified FLASH block */ hpm_stat_t (*erase_block)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr); /**< XPI NOR driver interface: Program data to specified FLASH address */ hpm_stat_t (*program)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, const uint32_t *src, uint32_t dst_addr, uint32_t length); /**< XPI NOR driver interface: read data from specified FLASH address */ hpm_stat_t (*read)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t *dst, uint32_t start, uint32_t length); /**< XPI NOR driver interface: program FLASH page using nonblocking interface */ hpm_stat_t (*page_program_nonblocking)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, const uint32_t *src, uint32_t dst_addr, uint32_t length); /**< XPI NOR driver interface: erase FLASH sector using nonblocking interface */ hpm_stat_t (*erase_sector_nonblocking)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr); /**< XPI NOR driver interface: erase FLASH block using nonblocking interface */ hpm_stat_t (*erase_block_nonblocking)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t addr); /**< XPI NOR driver interface: erase the whole FLASh using nonblocking interface */ hpm_stat_t (*erase_chip_nonblocking)(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config); uint32_t reserved0[3]; /**< XPI NOR driver interface: automatically configuration flash based on the cfg_option setting */ hpm_stat_t (*auto_config)(XPI_Type *base, xpi_nor_config_t *nor_cfg, xpi_nor_config_option_t *cfg_option); /**< XPI NOR driver interface: Get FLASH properties */ hpm_stat_t (*get_property)(XPI_Type *base, xpi_nor_config_t *nor_cfg, uint32_t property_id, uint32_t *value); } xpi_nor_driver_interface_t; /** * @brief XPI RAM driver interface */ typedef struct { /**< XPI RAM driver interface: API version */ uint32_t version; /**< Get XPI RAM configuration based on cfg_option */ hpm_stat_t (*get_config)(XPI_Type *base, xpi_ram_config_t *ram_cfg, xpi_ram_config_option_t *cfg_option); /**< XPI RAM driver interface: Initialize XPI RAM */ hpm_stat_t (*init)(XPI_Type *base, xpi_ram_config_t *ram_cfg); } xpi_ram_driver_interface_t; /** * @brief SDP API interface */ typedef struct { /**< SDP API interface: API version */ uint32_t version; /**< SDP API interface: Initialize IP */ hpm_stat_t (*sdp_ip_init)(void); /**< SDP API interface: Deinitialize IP */ hpm_stat_t (*sdp_ip_deinit)(void); /**< SDP API interface: Set AES key */ hpm_stat_t (*aes_set_key)(sdp_aes_ctx_t *aes_ctx, const uint8_t *key, sdp_aes_key_bits_t keybits, uint32_t key_idx); /**< SDP API interface: AES ECB crypto operation */ hpm_stat_t (*aes_crypt_ecb)(sdp_aes_ctx_t *aes_ctx, sdp_aes_op_t op, uint32_t len, const uint8_t *in, uint8_t *out); /**< SDP API interface: AES CBC crypto operation */ hpm_stat_t (*aes_crypt_cbc)(sdp_aes_ctx_t *aes_ctx, sdp_aes_op_t op, uint32_t length, uint8_t iv[16], const uint8_t *input, uint8_t *output); /**< SDP API interface: AES CTR crypto operation */ hpm_stat_t (*aes_crypt_ctr)(sdp_aes_ctx_t *aes_ctx, uint8_t *nonce_ctr, uint8_t *input, uint8_t *output, uint32_t length); /**< SDP API interface: AES CCM encryption */ hpm_stat_t (*aes_ccm_gen_enc)(sdp_aes_ctx_t *aes_ctx, uint32_t input_len, const uint8_t *nonce, uint32_t nonce_len, const uint8_t *aad, uint32_t aad_len, const uint8_t *input, uint8_t *output, uint8_t *tag, uint32_t tag_len); /**< SDP API interface: AES CCM Decrypt and verify */ hpm_stat_t (*aes_ccm_dec_verify)(sdp_aes_ctx_t *aes_ctx, uint32_t input_len, const uint8_t *nonce, uint32_t nonce_len, const uint8_t *aad, uint32_t aad_len, const uint8_t *input, uint8_t *output, const uint8_t *tag, uint32_t tag_len); /**< SDP API interface: memcpy */ hpm_stat_t (*memcpy)(sdp_dma_ctx_t *dma_ctx, void *dst, const void *src, uint32_t length); /**< SDP API interface: memset */ hpm_stat_t (*memset)(sdp_dma_ctx_t *dma_ctx, void *dst, uint8_t pattern, uint32_t length); /**< SDP API interface: HASH initialization */ hpm_stat_t (*hash_init)(sdp_hash_ctx_t *hash_ctx, sdp_hash_alg_t alg); /**< SDP API interface: HASH update */ hpm_stat_t (*hash_update)(sdp_hash_ctx_t *hash_ctx, const uint8_t *data, uint32_t length); /**< SDP API interface: HASH finish */ hpm_stat_t (*hash_finish)(sdp_hash_ctx_t *hash_ctx, uint8_t *digest); } sdp_driver_interface_t; /** * @brief Bootloader API table */ typedef struct { /**< Bootloader API table: version */ const uint32_t version; /**< Bootloader API table: copyright string address */ const char *copyright; /**< Bootloader API table: run_bootloader API */ const hpm_stat_t (*run_bootloader)(void *arg); /**< Bootloader API table: otp driver interface address */ const otp_driver_interface_t *otp_driver_if; /**< Bootloader API table: xpi driver interface address */ const xpi_driver_interface_t *xpi_driver_if; /**< Bootloader API table: xpi nor driver interface address */ const xpi_nor_driver_interface_t *xpi_nor_driver_if; /**< Bootloader API table: xpi ram driver interface address */ const xpi_ram_driver_interface_t *xpi_ram_driver_if; /**< Bootloader API table: sdp driver interface address */ const sdp_driver_interface_t *sdp_driver_if; } bootloader_api_table_t; /**< Bootloader API table Root */ #define ROM_API_TABLE_ROOT ((const bootloader_api_table_t*)0x2001FF00U) #ifdef __cplusplus extern "C" { #endif /*********************************************************************************************************************** * * * Enter bootloader Wrapper * * **********************************************************************************************************************/ /** * @brief Eneter specified Boot mode * @param [in] ctx Enter bootloader context * @retval status_invalid Invalid parameters were deteced */ static inline hpm_stat_t rom_enter_bootloader(void *ctx) { return ROM_API_TABLE_ROOT->run_bootloader(ctx); } /*********************************************************************************************************************** * * * XPI NOR Driver Wrapper * * **********************************************************************************************************************/ /** * @brief Get XPI NOR configuration via cfg_option * @param [in] base XPI base address * @param [out] nor_cfg XPI NOR configuration structure * @param [in] cfg_option XPI NOR configuration option * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_get_config(XPI_Type *base, xpi_nor_config_t *nor_cfg, xpi_nor_config_option_t *cfg_option) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->get_config(base, nor_cfg, cfg_option); } /** * @brief Initialize XPI NOR based on nor_config * @param [in] base XPI base address * @param[in] nor_config XPI NOR configuration * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_init(XPI_Type *base, xpi_nor_config_t *nor_config) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->init(base, nor_config); } /** * @brief Erase specified FLASH region * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI nOR configuration * @param[in] start Erase address start address * @param[in] length Region size to be erased * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t start, uint32_t length) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase(base, channel, nor_config, start, length); } /** * @brief Erase specified FLASH sector in blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @param[in] start Sector address * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase_sector(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t start) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase_sector(base, channel, nor_config, start); } /** * @brief Erase specified FLASH sector in non-blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @param[in] start Sector address * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase_sector_nonblocking(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t start) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase_sector_nonblocking(base, channel, nor_config, start); } /** * @brief Erase specified FLASH blcok in blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @param[in] start Block address * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase_block(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t start) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase_block(base, channel, nor_config, start); } /** * @brief Erase specified FLASH blcok in non-blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @param[in] start Block address * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase_block_nonblocking(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t start) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase_block_nonblocking(base, channel, nor_config, start); } /** * @brief Erase the whole FLASH in blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase_chip(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase_chip(base, channel, nor_config); } /** * @brief Erase the whole FLASH in non-blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_erase_chip_nonblocking(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->erase_chip_nonblocking(base, channel, nor_config); } /** * @brief Program data to specified FLASH address in blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @param[in] src data source address * @param[in] dst_addr Destination FLASH address * @param[in] length length of data to be programmed * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_program(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, const uint32_t *src, uint32_t dst_addr, uint32_t length) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->program(base, channel, nor_config, src, dst_addr, length); } /** * @brief Page-Program data to specified FLASH address in non-blocking way * @param[in] base XPI base address * @param[in] channel XPI transfer channel * @param[in] nor_config XPI NOR configuration * @param[in] src data source address * @param[in] dst_addr Destination FLASH address * @param[in] length length of data to be programmed * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_page_program_nonblocking(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, const uint32_t *src, uint32_t dst_addr, uint32_t length) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->page_program_nonblocking(base, channel, nor_config, src, dst_addr, length); } /** * @brief Read data from specified FLASH address * @param [in] base XPI base address * @param [in] channel XPI transfer channel * @param [in] nor_config XPI NOR configuration * @param [in] dst Memory start address to store the data read out from FLASH * @param [in] start FLASH address for data read * @param [in] length length of data to be read out * @return API exection address */ static inline hpm_stat_t rom_xpi_nor_read(XPI_Type *base, xpi_xfer_channel_t channel, const xpi_nor_config_t *nor_config, uint32_t *dst, uint32_t start, uint32_t length) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->read(base, channel, nor_config, dst, start, length); } /** * @brief Automatically configure XPI NOR based on cfg_option * @param [in] base XPI base address * @param [out] config XPI NOR configuration structure * @param [in] cfg_option XPI NOR configuration option * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_auto_config(XPI_Type *base, xpi_nor_config_t *config, xpi_nor_config_option_t *cfg_option) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->auto_config(base, config, cfg_option); } /** * @brief Get XPI NOR properties * @param [in] base XPI base address * @param [in] nor_cfg XPI NOR configuration structure * @param [in] property_id * @param [out] value property value retrieved by this API * @return API execution status */ static inline hpm_stat_t rom_xpi_nor_get_property(XPI_Type *base, xpi_nor_config_t *nor_cfg, uint32_t property_id, uint32_t *value) { return ROM_API_TABLE_ROOT->xpi_nor_driver_if->get_property(base, nor_cfg, property_id, value); } /*********************************************************************************************************************** * * * XPI RAM Driver Wrapper * * **********************************************************************************************************************/ /** * @brief Get XPI RAM configuration based on cfg_option * @param [in] base XPI base address * @param [out] ram_cfg XPI RAM configuration structure * @param [in] cfg_option XPI RAM configuration option * @return API execution status */ static inline hpm_stat_t rom_xpi_ram_get_config(XPI_Type *base, xpi_ram_config_t *ram_cfg, xpi_ram_config_option_t *cfg_option) { return ROM_API_TABLE_ROOT->xpi_ram_driver_if->get_config(base, ram_cfg, cfg_option); } /** * @brief Initialize XPI RAM * @param [in] base XPI base address * @param [in] ram_cfg XPI ram configuration * @return API execution status */ static inline hpm_stat_t rom_xpi_ram_init(XPI_Type *base, xpi_ram_config_t *ram_cfg) { return ROM_API_TABLE_ROOT->xpi_ram_driver_if->init(base, ram_cfg); } /*********************************************************************************************************************** * * * SDP Driver Wrapper * * **********************************************************************************************************************/ /** * @brief Initialize SDP IP */ static inline void rom_sdp_init(void) { ROM_API_TABLE_ROOT->sdp_driver_if->sdp_ip_init(); } /** * @brief De-initialize SDP IP */ static inline void rom_sdp_deinit(void) { ROM_API_TABLE_ROOT->sdp_driver_if->sdp_ip_deinit(); } /** * @brief Set AES key to SDP * @param [in] aes_ctx AES context * @param [in] key AES key buffer * @param [in] key_bits AES key-bit option * @param[in] key_idx AES key index * @return API execution status */ static inline hpm_stat_t rom_sdp_aes_set_key(sdp_aes_ctx_t *aes_ctx, const uint8_t *key, sdp_aes_key_bits_t key_bits, uint32_t key_idx) { return ROM_API_TABLE_ROOT->sdp_driver_if->aes_set_key(aes_ctx, key, key_bits, key_idx); } /** * @brief SDP AES ECB crypto operation(Encrypt or Decrypt) * @param [in] aes_ctx AES context * @param [in] op AES operation: encrypt or decrypt * @param [in] len Data length for AES encryption/decryption * @param [in] in Input data * @param [out] out Output data * @return API execution status */ static inline hpm_stat_t rom_sdp_aes_crypt_ecb(sdp_aes_ctx_t *aes_ctx, sdp_aes_op_t op, uint32_t len, const uint8_t *in, uint8_t *out) { return ROM_API_TABLE_ROOT->sdp_driver_if->aes_crypt_ecb(aes_ctx, op, len, in, out); } /** * @brief SDP AES ECB crypto operation(Encrypt or Decrypt) * @param [in] aes_ctx AES context * @param [in] op AES operation: encrypt or decrypt * @param [in] length Data length for AES encryption/decryption * @param [in] iv Initial vector/nonce * @param [in] in Input data * @param [out] out Output data * @return API execution status */ static inline hpm_stat_t rom_sdp_aes_crypt_cbc(sdp_aes_ctx_t *aes_ctx, sdp_aes_op_t op, uint32_t length, uint8_t iv[16], const uint8_t *in, uint8_t *out) { return ROM_API_TABLE_ROOT->sdp_driver_if->aes_crypt_cbc(aes_ctx, op, length, iv, in, out); } /** * @brief HASH initialization * @param [in] hash_ctx HASH context * @param [in] alg HASH algorithm * @return API execution status */ static inline hpm_stat_t rom_sdp_hash_init(sdp_hash_ctx_t *hash_ctx, sdp_hash_alg_t alg) { return ROM_API_TABLE_ROOT->sdp_driver_if->hash_init(hash_ctx, alg); } /** * @brief HASH Update * @param [in] hash_ctx HASH context * @param [in] data Data for HASH operation * @param [in] length of the data for HASH operation * @return API execution status */ static inline hpm_stat_t rom_sdp_hash_update(sdp_hash_ctx_t *hash_ctx, const uint8_t *data, uint32_t length) { return ROM_API_TABLE_ROOT->sdp_driver_if->hash_update(hash_ctx, data, length); } /** * @brief HASH finialize * @param [in] hash_ctx HASH context * @param [out] digest the output digest * @return API execution status */ static inline hpm_stat_t rom_sdp_hash_finish(sdp_hash_ctx_t *hash_ctx, uint8_t *digest) { return ROM_API_TABLE_ROOT->sdp_driver_if->hash_finish(hash_ctx, digest); } /** * @brief SDP memcpy operation * @param [in] dma_ctx DMA context * @param [out] dst Destination address for memcpy * @param [in] src Source address for memcpy * @param [in] length Size of data for memcpy operation * @return API execution status */ static inline hpm_stat_t rom_sdp_memcpy(sdp_dma_ctx_t *dma_ctx, void *dst, const void *src, uint32_t length) { return ROM_API_TABLE_ROOT->sdp_driver_if->memcpy(dma_ctx, dst, src, length); } /** * @brief SDP memset operation * @param [in] dma_ctx DMA context * @param [out] dst Destination address for memset * @param [in] pattern pattern for memset * @param [in] length Size of data for memset operation * @return API execution status */ static inline hpm_stat_t rom_sdp_memset(sdp_dma_ctx_t *dma_ctx, void *dst, uint8_t pattern, uint32_t length) { return ROM_API_TABLE_ROOT->sdp_driver_if->memset(dma_ctx, dst, pattern, length); } #ifdef __cplusplus } #endif /** * @} */ #endif /* HPM_ROMAPI_H */