/*! ******************************************************************************* ** ** \file gh_crypto.h ** ** \brief Cryptography Engine. ** ** Copyright: 2012 - 2013 (C) GoKe Microelectronics ShangHai Branch ** ** \attention THIS SAMPLE CODE IS PROVIDED AS IS. GOKE MICROELECTRONICS ** ACCEPTS NO RESPONSIBILITY OR LIABILITY FOR ANY ERRORS OR ** OMMISSIONS. ** ** \note Do not modify this file as it is generated automatically. ** ******************************************************************************/ #ifndef _GH_CRYPTO_H #define _GH_CRYPTO_H #ifdef __LINUX__ #include "reg4linux.h" #else #define FIO_ADDRESS(block,address) (address) #define FIO_MOFFSET(block,moffset) (moffset) #endif #ifndef __LINUX__ #include "gtypes.h" /* global type definitions */ #include "gh_lib_cfg.h" /* configuration */ #endif #define GH_CRYPTO_ENABLE_DEBUG_PRINT 0 #ifdef __LINUX__ #define GH_CRYPTO_DEBUG_PRINT_FUNCTION printk #else #define GH_CRYPTO_DEBUG_PRINT_FUNCTION printf #endif #ifndef __LINUX__ #if GH_CRYPTO_ENABLE_DEBUG_PRINT #include #endif #endif /* check configuration */ #ifndef GH_INLINE_LEVEL #error "GH_INLINE_LEVEL is not defined!" #endif #if GH_INLINE_LEVEL > 2 #error "GH_INLINE_LEVEL must be set 0, 1 or 2!" #endif #ifndef GH_INLINE #error "GH_INLINE is not defined!" #endif /* disable inlining for debugging */ #ifdef DEBUG #undef GH_INLINE_LEVEL #define GH_INLINE_LEVEL 0 #endif /*----------------------------------------------------------------------------*/ /* registers */ /*----------------------------------------------------------------------------*/ #define REG_CRYPTO_DES_KEY FIO_ADDRESS(CRYPTO,0x90005008) /* read/write */ #define REG_CRYPTO_DES_INPUT FIO_ADDRESS(CRYPTO,0x90005010) /* read/write */ #define REG_CRYPTO_DES_OPCODE FIO_ADDRESS(CRYPTO,0x90005004) /* read/write */ #define REG_CRYPTO_DES_OUTPUT_RDY FIO_ADDRESS(CRYPTO,0x90005018) /* read */ #define REG_CRYPTO_DES_OUTPUT FIO_ADDRESS(CRYPTO,0x9000501C) /* read */ #define REG_CRYPTO_DES_INTERRUPT FIO_ADDRESS(CRYPTO,0x90005000) /* read/write */ #define REG_CRYPTO_AES_128_KEY FIO_ADDRESS(CRYPTO,0x90005068) /* read/write */ #define REG_CRYPTO_AES_192_KEY FIO_ADDRESS(CRYPTO,0x90005050) /* read/write */ #define REG_CRYPTO_AES_256_KEY FIO_ADDRESS(CRYPTO,0x90005030) /* read/write */ #define REG_CRYPTO_AES_INPUT FIO_ADDRESS(CRYPTO,0x90005078) /* read/write */ #define REG_CRYPTO_AES_OPCODE FIO_ADDRESS(CRYPTO,0x9000502c) /* read/write */ #define REG_CRYPTO_AES_OUTPUT_RDY FIO_ADDRESS(CRYPTO,0x90005088) /* read */ #define REG_CRYPTO_AES_OUTPUT FIO_ADDRESS(CRYPTO,0x9000508C) /* read */ #define REG_CRYPTO_AES_INTERRUPT FIO_ADDRESS(CRYPTO,0x90005028) /* read/write */ #define REG_CRYPTO_EFUSE_BOOT_SW_DIS FIO_ADDRESS(CRYPTO,0x90005024) /* read/write */ /*----------------------------------------------------------------------------*/ /* bit group structures */ /*----------------------------------------------------------------------------*/ typedef union { /* CRYPTO_DES_Opcode */ U32 all; struct { U32 mode : 1; U32 : 31; } bitc; } GH_CRYPTO_DES_OPCODE_S; typedef union { /* CRYPTO_DES_Output_Rdy */ U32 all; struct { U32 rdy : 1; U32 : 31; } bitc; } GH_CRYPTO_DES_OUTPUT_RDY_S; typedef union { /* CRYPTO_DES_Interrupt */ U32 all; struct { U32 en : 1; U32 : 31; } bitc; } GH_CRYPTO_DES_INTERRUPT_S; typedef union { /* CRYPTO_AES_Opcode */ U32 all; struct { U32 mode : 1; U32 : 31; } bitc; } GH_CRYPTO_AES_OPCODE_S; typedef union { /* CRYPTO_AES_Output_Rdy */ U32 all; struct { U32 rdy : 1; U32 : 31; } bitc; } GH_CRYPTO_AES_OUTPUT_RDY_S; typedef union { /* CRYPTO_AES_Interrupt */ U32 all; struct { U32 en : 1; U32 : 31; } bitc; } GH_CRYPTO_AES_INTERRUPT_S; typedef union { /* CRYPTO_EFUSE_BOOT_SW_DIS */ U32 all; struct { U32 efuse_boot_dis : 1; U32 efuse_boot_sw : 1; U32 : 30; } bitc; } GH_CRYPTO_EFUSE_BOOT_SW_DIS_S; /*----------------------------------------------------------------------------*/ /* mirror variables */ /*----------------------------------------------------------------------------*/ #ifdef __cplusplus extern "C" { #endif /*----------------------------------------------------------------------------*/ /* register CRYPTO_DES_Key (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_DES_Key'. */ void GH_CRYPTO_set_DES_Key(U8 index, U32 data); /*! \brief Reads the register 'CRYPTO_DES_Key'. */ U32 GH_CRYPTO_get_DES_Key(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_DES_Key(U8 index, U32 data) { *(volatile U32 *)(REG_CRYPTO_DES_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)) = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_DES_Key] <-- 0x%08x\n", (REG_CRYPTO_DES_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_DES_Key(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_DES_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Key] --> 0x%08x\n", (REG_CRYPTO_DES_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_DES_Input (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_DES_Input'. */ void GH_CRYPTO_set_DES_Input(U8 index, U32 data); /*! \brief Reads the register 'CRYPTO_DES_Input'. */ U32 GH_CRYPTO_get_DES_Input(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_DES_Input(U8 index, U32 data) { *(volatile U32 *)(REG_CRYPTO_DES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)) = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_DES_Input] <-- 0x%08x\n", (REG_CRYPTO_DES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)),data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_DES_Input(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_DES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Input] --> 0x%08x\n", (REG_CRYPTO_DES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_DES_Opcode (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_DES_Opcode'. */ void GH_CRYPTO_set_DES_Opcode(U32 data); /*! \brief Reads the register 'CRYPTO_DES_Opcode'. */ U32 GH_CRYPTO_get_DES_Opcode(void); /*! \brief Writes the bit group 'mode' of register 'CRYPTO_DES_Opcode'. */ void GH_CRYPTO_set_DES_Opcode_mode(U8 data); /*! \brief Reads the bit group 'mode' of register 'CRYPTO_DES_Opcode'. */ U8 GH_CRYPTO_get_DES_Opcode_mode(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_DES_Opcode(U32 data) { *(volatile U32 *)REG_CRYPTO_DES_OPCODE = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_DES_Opcode] <-- 0x%08x\n", REG_CRYPTO_DES_OPCODE,data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_DES_Opcode(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_DES_OPCODE); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Opcode] --> 0x%08x\n", REG_CRYPTO_DES_OPCODE,value); #endif return value; } GH_INLINE void GH_CRYPTO_set_DES_Opcode_mode(U8 data) { GH_CRYPTO_DES_OPCODE_S d; d.all = *(volatile U32 *)REG_CRYPTO_DES_OPCODE; d.bitc.mode = data; *(volatile U32 *)REG_CRYPTO_DES_OPCODE = d.all; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_DES_Opcode_mode] <-- 0x%08x\n", REG_CRYPTO_DES_OPCODE,d.all,d.all); #endif } GH_INLINE U8 GH_CRYPTO_get_DES_Opcode_mode(void) { GH_CRYPTO_DES_OPCODE_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_DES_OPCODE); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Opcode_mode] --> 0x%08x\n", REG_CRYPTO_DES_OPCODE,value); #endif return tmp_value.bitc.mode; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_DES_Output_Rdy (read) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Reads the register 'CRYPTO_DES_Output_Rdy'. */ U32 GH_CRYPTO_get_DES_Output_Rdy(void); /*! \brief Reads the bit group 'Rdy' of register 'CRYPTO_DES_Output_Rdy'. */ U8 GH_CRYPTO_get_DES_Output_Rdy_Rdy(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE U32 GH_CRYPTO_get_DES_Output_Rdy(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_DES_OUTPUT_RDY); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Output_Rdy] --> 0x%08x\n", REG_CRYPTO_DES_OUTPUT_RDY,value); #endif return value; } GH_INLINE U8 GH_CRYPTO_get_DES_Output_Rdy_Rdy(void) { GH_CRYPTO_DES_OUTPUT_RDY_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_DES_OUTPUT_RDY); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Output_Rdy_Rdy] --> 0x%08x\n", REG_CRYPTO_DES_OUTPUT_RDY,value); #endif return tmp_value.bitc.rdy; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_DES_Output (read) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Reads the register 'CRYPTO_DES_Output'. */ U32 GH_CRYPTO_get_DES_Output(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE U32 GH_CRYPTO_get_DES_Output(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_DES_OUTPUT + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Output] --> 0x%08x\n", (REG_CRYPTO_DES_OUTPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_DES_Interrupt (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_DES_Interrupt'. */ void GH_CRYPTO_set_DES_Interrupt(U32 data); /*! \brief Reads the register 'CRYPTO_DES_Interrupt'. */ U32 GH_CRYPTO_get_DES_Interrupt(void); /*! \brief Writes the bit group 'En' of register 'CRYPTO_DES_Interrupt'. */ void GH_CRYPTO_set_DES_Interrupt_En(U8 data); /*! \brief Reads the bit group 'En' of register 'CRYPTO_DES_Interrupt'. */ U8 GH_CRYPTO_get_DES_Interrupt_En(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_DES_Interrupt(U32 data) { *(volatile U32 *)REG_CRYPTO_DES_INTERRUPT = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_DES_Interrupt] <-- 0x%08x\n", REG_CRYPTO_DES_INTERRUPT,data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_DES_Interrupt(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_DES_INTERRUPT); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Interrupt] --> 0x%08x\n", REG_CRYPTO_DES_INTERRUPT,value); #endif return value; } GH_INLINE void GH_CRYPTO_set_DES_Interrupt_En(U8 data) { GH_CRYPTO_DES_INTERRUPT_S d; d.all = *(volatile U32 *)REG_CRYPTO_DES_INTERRUPT; d.bitc.en = data; *(volatile U32 *)REG_CRYPTO_DES_INTERRUPT = d.all; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_DES_Interrupt_En] <-- 0x%08x\n", REG_CRYPTO_DES_INTERRUPT,d.all,d.all); #endif } GH_INLINE U8 GH_CRYPTO_get_DES_Interrupt_En(void) { GH_CRYPTO_DES_INTERRUPT_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_DES_INTERRUPT); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_DES_Interrupt_En] --> 0x%08x\n", REG_CRYPTO_DES_INTERRUPT,value); #endif return tmp_value.bitc.en; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_128_Key (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_AES_128_Key'. */ void GH_CRYPTO_set_AES_128_Key(U8 index, U32 data); /*! \brief Reads the register 'CRYPTO_AES_128_Key'. */ U32 GH_CRYPTO_get_AES_128_Key(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_AES_128_Key(U8 index, U32 data) { *(volatile U32 *)(REG_CRYPTO_AES_128_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)) = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_128_Key] <-- 0x%08x\n", (REG_CRYPTO_AES_128_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_AES_128_Key(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_AES_128_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_128_Key] --> 0x%08x\n", (REG_CRYPTO_AES_128_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_192_Key (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_AES_192_Key'. */ void GH_CRYPTO_set_AES_192_Key(U8 index, U32 data); /*! \brief Reads the register 'CRYPTO_AES_192_Key'. */ U32 GH_CRYPTO_get_AES_192_Key(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_AES_192_Key(U8 index, U32 data) { *(volatile U32 *)(REG_CRYPTO_AES_192_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)) = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_192_Key] <-- 0x%08x\n", (REG_CRYPTO_AES_192_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_AES_192_Key(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_AES_192_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_192_Key] --> 0x%08x\n", (REG_CRYPTO_AES_192_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_256_Key (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_AES_256_Key'. */ void GH_CRYPTO_set_AES_256_Key(U8 index, U32 data); /*! \brief Reads the register 'CRYPTO_AES_256_Key'. */ U32 GH_CRYPTO_get_AES_256_Key(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_AES_256_Key(U8 index, U32 data) { *(volatile U32 *)(REG_CRYPTO_AES_256_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)) = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_256_Key] <-- 0x%08x\n", (REG_CRYPTO_AES_256_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_AES_256_Key(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_AES_256_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_256_Key] --> 0x%08x\n", (REG_CRYPTO_AES_256_KEY + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_Input (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_AES_Input'. */ void GH_CRYPTO_set_AES_Input(U8 index, U32 data); /*! \brief Reads the register 'CRYPTO_AES_Input'. */ U32 GH_CRYPTO_get_AES_Input(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_AES_Input(U8 index, U32 data) { *(volatile U32 *)(REG_CRYPTO_AES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)) = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_Input] <-- 0x%08x\n", (REG_CRYPTO_AES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)),data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_AES_Input(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_AES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Input] --> 0x%08x\n", (REG_CRYPTO_AES_INPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_Opcode (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_AES_Opcode'. */ void GH_CRYPTO_set_AES_Opcode(U32 data); /*! \brief Reads the register 'CRYPTO_AES_Opcode'. */ U32 GH_CRYPTO_get_AES_Opcode(void); /*! \brief Writes the bit group 'mode' of register 'CRYPTO_AES_Opcode'. */ void GH_CRYPTO_set_AES_Opcode_mode(U8 data); /*! \brief Reads the bit group 'mode' of register 'CRYPTO_AES_Opcode'. */ U8 GH_CRYPTO_get_AES_Opcode_mode(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_AES_Opcode(U32 data) { *(volatile U32 *)REG_CRYPTO_AES_OPCODE = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_Opcode] <-- 0x%08x\n", REG_CRYPTO_AES_OPCODE,data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_AES_Opcode(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_AES_OPCODE); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Opcode] --> 0x%08x\n", REG_CRYPTO_AES_OPCODE,value); #endif return value; } GH_INLINE void GH_CRYPTO_set_AES_Opcode_mode(U8 data) { GH_CRYPTO_AES_OPCODE_S d; d.all = *(volatile U32 *)REG_CRYPTO_AES_OPCODE; d.bitc.mode = data; *(volatile U32 *)REG_CRYPTO_AES_OPCODE = d.all; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_Opcode_mode] <-- 0x%08x\n", REG_CRYPTO_AES_OPCODE,d.all,d.all); #endif } GH_INLINE U8 GH_CRYPTO_get_AES_Opcode_mode(void) { GH_CRYPTO_AES_OPCODE_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_AES_OPCODE); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Opcode_mode] --> 0x%08x\n", REG_CRYPTO_AES_OPCODE,value); #endif return tmp_value.bitc.mode; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_Output_Rdy (read) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Reads the register 'CRYPTO_AES_Output_Rdy'. */ U32 GH_CRYPTO_get_AES_Output_Rdy(void); /*! \brief Reads the bit group 'Rdy' of register 'CRYPTO_AES_Output_Rdy'. */ U8 GH_CRYPTO_get_AES_Output_Rdy_Rdy(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE U32 GH_CRYPTO_get_AES_Output_Rdy(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_AES_OUTPUT_RDY); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Output_Rdy] --> 0x%08x\n", REG_CRYPTO_AES_OUTPUT_RDY,value); #endif return value; } GH_INLINE U8 GH_CRYPTO_get_AES_Output_Rdy_Rdy(void) { GH_CRYPTO_AES_OUTPUT_RDY_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_AES_OUTPUT_RDY); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Output_Rdy_Rdy] --> 0x%08x\n", REG_CRYPTO_AES_OUTPUT_RDY,value); #endif return tmp_value.bitc.rdy; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_Output (read) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Reads the register 'CRYPTO_AES_Output'. */ U32 GH_CRYPTO_get_AES_Output(U8 index); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE U32 GH_CRYPTO_get_AES_Output(U8 index) { U32 value = (*(volatile U32 *)(REG_CRYPTO_AES_OUTPUT + index * FIO_MOFFSET(CRYPTO,0x00000004))); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Output] --> 0x%08x\n", (REG_CRYPTO_AES_OUTPUT + index * FIO_MOFFSET(CRYPTO,0x00000004)),value); #endif return value; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_AES_Interrupt (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_AES_Interrupt'. */ void GH_CRYPTO_set_AES_Interrupt(U32 data); /*! \brief Reads the register 'CRYPTO_AES_Interrupt'. */ U32 GH_CRYPTO_get_AES_Interrupt(void); /*! \brief Writes the bit group 'En' of register 'CRYPTO_AES_Interrupt'. */ void GH_CRYPTO_set_AES_Interrupt_En(U8 data); /*! \brief Reads the bit group 'En' of register 'CRYPTO_AES_Interrupt'. */ U8 GH_CRYPTO_get_AES_Interrupt_En(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_AES_Interrupt(U32 data) { *(volatile U32 *)REG_CRYPTO_AES_INTERRUPT = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_Interrupt] <-- 0x%08x\n", REG_CRYPTO_AES_INTERRUPT,data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_AES_Interrupt(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_AES_INTERRUPT); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Interrupt] --> 0x%08x\n", REG_CRYPTO_AES_INTERRUPT,value); #endif return value; } GH_INLINE void GH_CRYPTO_set_AES_Interrupt_En(U8 data) { GH_CRYPTO_AES_INTERRUPT_S d; d.all = *(volatile U32 *)REG_CRYPTO_AES_INTERRUPT; d.bitc.en = data; *(volatile U32 *)REG_CRYPTO_AES_INTERRUPT = d.all; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_AES_Interrupt_En] <-- 0x%08x\n", REG_CRYPTO_AES_INTERRUPT,d.all,d.all); #endif } GH_INLINE U8 GH_CRYPTO_get_AES_Interrupt_En(void) { GH_CRYPTO_AES_INTERRUPT_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_AES_INTERRUPT); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_AES_Interrupt_En] --> 0x%08x\n", REG_CRYPTO_AES_INTERRUPT,value); #endif return tmp_value.bitc.en; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* register CRYPTO_EFUSE_BOOT_SW_DIS (read/write) */ /*----------------------------------------------------------------------------*/ #if GH_INLINE_LEVEL == 0 /*! \brief Writes the register 'CRYPTO_EFUSE_BOOT_SW_DIS'. */ void GH_CRYPTO_set_EFUSE_BOOT_SW_DIS(U32 data); /*! \brief Reads the register 'CRYPTO_EFUSE_BOOT_SW_DIS'. */ U32 GH_CRYPTO_get_EFUSE_BOOT_SW_DIS(void); /*! \brief Writes the bit group 'Efuse_boot_dis' of register 'CRYPTO_EFUSE_BOOT_SW_DIS'. */ void GH_CRYPTO_set_EFUSE_BOOT_SW_DIS_Efuse_boot_dis(U8 data); /*! \brief Reads the bit group 'Efuse_boot_dis' of register 'CRYPTO_EFUSE_BOOT_SW_DIS'. */ U8 GH_CRYPTO_get_EFUSE_BOOT_SW_DIS_Efuse_boot_dis(void); /*! \brief Writes the bit group 'Efuse_boot_sw' of register 'CRYPTO_EFUSE_BOOT_SW_DIS'. */ void GH_CRYPTO_set_EFUSE_BOOT_SW_DIS_Efuse_boot_sw(U8 data); /*! \brief Reads the bit group 'Efuse_boot_sw' of register 'CRYPTO_EFUSE_BOOT_SW_DIS'. */ U8 GH_CRYPTO_get_EFUSE_BOOT_SW_DIS_Efuse_boot_sw(void); #else /* GH_INLINE_LEVEL == 0 */ GH_INLINE void GH_CRYPTO_set_EFUSE_BOOT_SW_DIS(U32 data) { *(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS = data; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_EFUSE_BOOT_SW_DIS] <-- 0x%08x\n", REG_CRYPTO_EFUSE_BOOT_SW_DIS,data,data); #endif } GH_INLINE U32 GH_CRYPTO_get_EFUSE_BOOT_SW_DIS(void) { U32 value = (*(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS); #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_EFUSE_BOOT_SW_DIS] --> 0x%08x\n", REG_CRYPTO_EFUSE_BOOT_SW_DIS,value); #endif return value; } GH_INLINE void GH_CRYPTO_set_EFUSE_BOOT_SW_DIS_Efuse_boot_dis(U8 data) { GH_CRYPTO_EFUSE_BOOT_SW_DIS_S d; d.all = *(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS; d.bitc.efuse_boot_dis = data; *(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS = d.all; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_EFUSE_BOOT_SW_DIS_Efuse_boot_dis] <-- 0x%08x\n", REG_CRYPTO_EFUSE_BOOT_SW_DIS,d.all,d.all); #endif } GH_INLINE U8 GH_CRYPTO_get_EFUSE_BOOT_SW_DIS_Efuse_boot_dis(void) { GH_CRYPTO_EFUSE_BOOT_SW_DIS_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_EFUSE_BOOT_SW_DIS_Efuse_boot_dis] --> 0x%08x\n", REG_CRYPTO_EFUSE_BOOT_SW_DIS,value); #endif return tmp_value.bitc.efuse_boot_dis; } GH_INLINE void GH_CRYPTO_set_EFUSE_BOOT_SW_DIS_Efuse_boot_sw(U8 data) { GH_CRYPTO_EFUSE_BOOT_SW_DIS_S d; d.all = *(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS; d.bitc.efuse_boot_sw = data; *(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS = d.all; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "WRREG(0x%08x,0x%08x); \\\\ [GH_CRYPTO_set_EFUSE_BOOT_SW_DIS_Efuse_boot_sw] <-- 0x%08x\n", REG_CRYPTO_EFUSE_BOOT_SW_DIS,d.all,d.all); #endif } GH_INLINE U8 GH_CRYPTO_get_EFUSE_BOOT_SW_DIS_Efuse_boot_sw(void) { GH_CRYPTO_EFUSE_BOOT_SW_DIS_S tmp_value; U32 value = (*(volatile U32 *)REG_CRYPTO_EFUSE_BOOT_SW_DIS); tmp_value.all = value; #if GH_CRYPTO_ENABLE_DEBUG_PRINT GH_CRYPTO_DEBUG_PRINT_FUNCTION( "value = RDREG(0x%08x); \\\\ [GH_CRYPTO_get_EFUSE_BOOT_SW_DIS_Efuse_boot_sw] --> 0x%08x\n", REG_CRYPTO_EFUSE_BOOT_SW_DIS,value); #endif return tmp_value.bitc.efuse_boot_sw; } #endif /* GH_INLINE_LEVEL == 0 */ /*----------------------------------------------------------------------------*/ /* init function */ /*----------------------------------------------------------------------------*/ /*! \brief Initialises the registers and mirror variables. */ void GH_CRYPTO_init(void); #ifdef __cplusplus } #endif #endif /* _GH_CRYPTO_H */ /*----------------------------------------------------------------------------*/ /* end of file */ /*----------------------------------------------------------------------------*/