// See LICENSE for license details. #ifndef __MEMIF_H #define __MEMIF_H #include #include #include #include "byteorder.h" typedef uint64_t reg_t; typedef int64_t sreg_t; typedef reg_t addr_t; typedef enum { memif_endianness_undecided, memif_endianness_little, memif_endianness_big } memif_endianness_t; class chunked_memif_t { public: virtual void read_chunk(addr_t taddr, size_t len, void* dst) = 0; virtual void write_chunk(addr_t taddr, size_t len, const void* src) = 0; virtual void clear_chunk(addr_t taddr, size_t len) = 0; virtual size_t chunk_align() = 0; virtual size_t chunk_max_size() = 0; virtual void set_target_endianness(memif_endianness_t endianness) {} virtual memif_endianness_t get_target_endianness() const { return memif_endianness_undecided; } }; class memif_t { public: memif_t(chunked_memif_t* _cmemif) : cmemif(_cmemif) {} virtual ~memif_t(){} // read and write byte arrays virtual void read(addr_t addr, size_t len, void* bytes); virtual void write(addr_t addr, size_t len, const void* bytes); // read and write 8-bit words virtual target_endian read_uint8(addr_t addr); virtual target_endian read_int8(addr_t addr); virtual void write_uint8(addr_t addr, target_endian val); virtual void write_int8(addr_t addr, target_endian val); // read and write 16-bit words virtual target_endian read_uint16(addr_t addr); virtual target_endian read_int16(addr_t addr); virtual void write_uint16(addr_t addr, target_endian val); virtual void write_int16(addr_t addr, target_endian val); // read and write 32-bit words virtual target_endian read_uint32(addr_t addr); virtual target_endian read_int32(addr_t addr); virtual void write_uint32(addr_t addr, target_endian val); virtual void write_int32(addr_t addr, target_endian val); // read and write 64-bit words virtual target_endian read_uint64(addr_t addr); virtual target_endian read_int64(addr_t addr); virtual void write_uint64(addr_t addr, target_endian val); virtual void write_int64(addr_t addr, target_endian val); // endianness virtual void set_target_endianness(memif_endianness_t endianness) { cmemif->set_target_endianness(endianness); } virtual memif_endianness_t get_target_endianness() const { return cmemif->get_target_endianness(); } protected: chunked_memif_t* cmemif; }; class incompat_xlen : public std::exception { public: const unsigned expected_xlen; const unsigned actual_xlen; incompat_xlen(unsigned _expected_xlen, unsigned _actual_xlen) : expected_xlen(_expected_xlen), actual_xlen(_actual_xlen) {} }; #endif // __MEMIF_H