/*! \file Memory.cpp \brief Basic TLM-2 memory model \author Màrius Montón \date August 2018 */ // SPDX-License-Identifier: GPL-3.0-or-later #include "Memory.h" SC_HAS_PROCESS(Memory); Memory::Memory(sc_core::sc_module_name const &name, std::string const &filename) : sc_module(name), socket("socket"), LATENCY(sc_core::SC_ZERO_TIME) { // Register callbacks for incoming interface method calls socket.register_b_transport(this, &Memory::b_transport); socket.register_get_direct_mem_ptr(this, &Memory::get_direct_mem_ptr); socket.register_transport_dbg(this, &Memory::transport_dbg); mem = new uint8_t[SIZE]; //memset(mem, 0, SIZE*sizeof(uint8_t)); memory_offset = 0; readHexFile(filename); log = Log::getInstance(); log->SC_log(Log::INFO) << "Using file: " << filename << std::endl; } Memory::Memory(sc_core::sc_module_name const& name) : sc_module(name), socket("socket"), LATENCY(sc_core::SC_ZERO_TIME) { socket.register_b_transport(this, &Memory::b_transport); socket.register_get_direct_mem_ptr(this, &Memory::get_direct_mem_ptr); socket.register_transport_dbg(this, &Memory::transport_dbg); memory_offset = 0; program_counter = 0; mem = new uint8_t[SIZE]; log = Log::getInstance(); log->SC_log(Log::INFO) << "Memory instantiated without file" << std::endl; } Memory::~Memory() { delete[] mem; } uint32_t Memory::getPCfromHEX() { return program_counter; } void Memory::b_transport(tlm::tlm_generic_payload &trans, sc_core::sc_time &delay) { tlm::tlm_command cmd = trans.get_command(); sc_dt::uint64 adr = trans.get_address(); unsigned char *ptr = trans.get_data_ptr(); unsigned int len = trans.get_data_length(); unsigned char *byt = trans.get_byte_enable_ptr(); unsigned int wid = trans.get_streaming_width(); adr = adr - memory_offset; // Obliged to check address range and check for unsupported features, // i.e. byte enables, streaming, and bursts // Can ignore extensions // ********************************************* // Generate the appropriate error response // ********************************************* if (adr >= sc_dt::uint64(SIZE)) { trans.set_response_status(tlm::TLM_ADDRESS_ERROR_RESPONSE); return; } if (byt != nullptr) { trans.set_response_status(tlm::TLM_BYTE_ENABLE_ERROR_RESPONSE); return; } if (len > 4 || wid < len) { trans.set_response_status(tlm::TLM_BURST_ERROR_RESPONSE); return; } // Obliged to implement read and write commands if (cmd == tlm::TLM_READ_COMMAND) memcpy(ptr, &mem[adr], len); else if (cmd == tlm::TLM_WRITE_COMMAND) memcpy(&mem[adr], ptr, len); // Illustrates that b_transport may block //sc_core::wait(delay); // Reset timing annotation after waiting delay = sc_core::SC_ZERO_TIME; // ********************************************* // Set DMI hint to indicated that DMI is supported // ********************************************* if (memory_offset == 0) { trans.set_dmi_allowed(true); } else { trans.set_dmi_allowed(false); } // Obliged to set response status to indicate successful completion trans.set_response_status(tlm::TLM_OK_RESPONSE); } bool Memory::get_direct_mem_ptr(tlm::tlm_generic_payload &trans, tlm::tlm_dmi &dmi_data) { (void) trans; if (memory_offset != 0) { return false; } // Permit read and write access dmi_data.allow_read_write(); // Set other details of DMI region dmi_data.set_dmi_ptr(reinterpret_cast(&mem[0])); dmi_data.set_start_address(0); dmi_data.set_end_address(SIZE * 4 - 1); dmi_data.set_read_latency(LATENCY); dmi_data.set_write_latency(LATENCY); return true; } unsigned int Memory::transport_dbg(tlm::tlm_generic_payload &trans) { tlm::tlm_command cmd = trans.get_command(); sc_dt::uint64 adr = trans.get_address(); unsigned char *ptr = trans.get_data_ptr(); unsigned int len = trans.get_data_length(); // Calculate the number of bytes to be actually copied unsigned int num_bytes = (len < (SIZE - adr) * 4) ? len : (SIZE - adr) * 4; if (cmd == tlm::TLM_READ_COMMAND) memcpy(ptr, &mem[adr], num_bytes); else if (cmd == tlm::TLM_WRITE_COMMAND) memcpy(&mem[adr], ptr, num_bytes); return num_bytes; } void Memory::readHexFile(std::string const& filename) { std::ifstream hexfile; std::string line; hexfile.open(filename); if (hexfile.is_open()) { uint32_t extended_address = 0; while (getline(hexfile, line)) { if (line[0] == ':') { if (line.substr(7, 2) == "00") { /* Data */ int byte_count; uint32_t address; byte_count = std::stoi(line.substr(1, 2), nullptr, 16); address = std::stoi(line.substr(3, 4), nullptr, 16); address = address + extended_address; //cout << "00 address 0x" << hex << address << endl; for (int i = 0; i < byte_count; i++) { mem[address + i] = stol(line.substr(9 + (i * 2), 2), nullptr, 16); } } else if (line.substr(7, 2) == "02") { /* Extended segment address */ extended_address = stol(line.substr(9, 4), nullptr, 16) * 16; std::cout << "02 extended address 0x" << std::hex << extended_address << std::dec << std::endl; } else if (line.substr(7, 2) == "03") { /* Start segment address */ uint32_t code_segment; code_segment = stol(line.substr(9, 4), nullptr, 16) * 16; /* ? */ program_counter = stol(line.substr(13, 4), nullptr, 16); program_counter = program_counter + code_segment; std::cout << "03 PC set to 0x" << std::hex << program_counter << std::dec << std::endl; } else if (line.substr(7, 2) == "04") { /* Start segment address */ memory_offset = stol(line.substr(9, 4), nullptr, 16) << 16; extended_address = 0; std::cout << "04 address set to 0x" << std::hex << extended_address << std::dec << std::endl; std::cout << "04 offset set to 0x" << std::hex << memory_offset << std::dec << std::endl; } else if (line.substr(7, 2) == "05") { program_counter = stol(line.substr(9, 8), nullptr, 16); std::cout << "05 PC set to 0x" << std::hex << program_counter << std::dec << std::endl; } } } hexfile.close(); } else { SC_REPORT_ERROR("Memory", "Open file error"); } }