/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ #include <cassert> #include <chrono> #include <thread> #include <vta/dpi/tsim.h> #include <verilated.h> #if VM_TRACE #ifdef VM_TRACE_FST #include <verilated_fst_c.h> #else #include <verilated_vcd_c.h> #endif #endif #if VM_TRACE #define STRINGIZE(x) #x #define STRINGIZE_VALUE_OF(x) STRINGIZE(x) #endif static VTAContextHandle _ctx = nullptr; static VTASimDPIFunc _sim_dpi = nullptr; static VTAHostDPIFunc _host_dpi = nullptr; static VTAMemDPIFunc _mem_dpi = nullptr; void VTASimDPI(dpi8_t* wait, dpi8_t* exit) { assert(_sim_dpi != nullptr); (*_sim_dpi)(_ctx, wait, exit); } void VTAHostDPI(dpi8_t* req_valid, dpi8_t* req_opcode, dpi8_t* req_addr, dpi32_t* req_value, dpi8_t req_deq, dpi8_t resp_valid, dpi32_t resp_value) { assert(_host_dpi != nullptr); (*_host_dpi)(_ctx, req_valid, req_opcode, req_addr, req_value, req_deq, resp_valid, resp_value); } void VTAMemDPI(dpi8_t rd_req_valid, dpi8_t rd_req_len, dpi8_t rd_req_id, dpi64_t rd_req_addr, dpi8_t wr_req_valid, dpi8_t wr_req_len, dpi64_t wr_req_addr, dpi8_t wr_valid, const svOpenArrayHandle wr_value, dpi64_t wr_strb, dpi8_t* rd_valid, dpi8_t* rd_id, const svOpenArrayHandle rd_value, dpi8_t rd_ready) { assert(_mem_dpi != nullptr); (*_mem_dpi)(_ctx, rd_req_valid, rd_req_len, rd_req_id, rd_req_addr, wr_req_valid, wr_req_len, wr_req_addr, wr_valid, wr_value, wr_strb, rd_valid, rd_id,rd_value, rd_ready); } void VTADPIInit(VTAContextHandle handle, VTASimDPIFunc sim_dpi, VTAHostDPIFunc host_dpi, VTAMemDPIFunc mem_dpi) { _ctx = handle; _sim_dpi = sim_dpi; _host_dpi = host_dpi; _mem_dpi = mem_dpi; } // Override Verilator finish definition // VL_USER_FINISH needs to be defined when compiling Verilator code void vl_finish(const char* filename, int linenum, const char* hier) { Verilated::gotFinish(true); } int VTADPISim() { uint64_t trace_count = 0; Verilated::flushCall(); Verilated::gotFinish(false); #if VM_TRACE uint64_t start = 0; #endif VL_TSIM_NAME* top = new VL_TSIM_NAME; #if VM_TRACE Verilated::traceEverOn(true); #ifdef VM_TRACE_FST VerilatedFstC* tfp = new VerilatedFstC; #else VerilatedVcdC* tfp = new VerilatedVcdC; #endif // VM_TRACE_FST top->trace(tfp, 99); tfp->open(STRINGIZE_VALUE_OF(TSIM_TRACE_FILE)); #endif // reset for (int i = 0; i < 10; i++) { top->reset = 1; top->clock = 0; top->eval(); #if VM_TRACE if (trace_count >= start) tfp->dump(static_cast<vluint64_t>(trace_count * 2)); #endif top->clock = 1; top->eval(); #if VM_TRACE if (trace_count >= start) tfp->dump(static_cast<vluint64_t>(trace_count * 2 + 1)); #endif trace_count++; } top->reset = 0; // start simulation while (!Verilated::gotFinish()) { top->sim_clock = 0; top->clock = 0; top->eval(); #if VM_TRACE if (trace_count >= start) tfp->dump(static_cast<vluint64_t>(trace_count * 2)); #endif top->sim_clock = 1; top->clock = 1; top->eval(); #if VM_TRACE if (trace_count >= start) tfp->dump(static_cast<vluint64_t>(trace_count * 2 + 1)); #endif trace_count++; if ((trace_count % 1000000) == 1) fprintf(stderr, "[traced %luM cycles]\n", trace_count / 1000000); while (top->sim_wait) { top->clock = 0; std::this_thread::sleep_for(std::chrono::milliseconds(100)); top->sim_clock = 0; top->eval(); top->sim_clock = 1; top->eval(); } } #if VM_TRACE tfp->close(); #endif delete top; return 0; }