// -*- mode: C++; c-file-style: "cc-mode" -*- //************************************************************************* // // Copyright 2010-2011 by Wilson Snyder. This program is free software; you can // redistribute it and/or modify it under the terms of either the GNU // Lesser General Public License Version 3 or the Perl Artistic License. // Version 2.0. // // Verilator is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // //************************************************************************* #ifdef IS_VPI #include "vpi_user.h" #else #include "Vt_vpi_time_cb.h" #include "verilated.h" #include "svdpi.h" #include #include "Vt_vpi_time_cb__Dpi.h" #include "verilated_vpi.h" #include "verilated_vcd_c.h" #endif #include #include #include #include using namespace std; #include "TestSimulator.h" #include "TestVpi.h" #define TEST_MSG \ if (0) printf unsigned int main_time = false; unsigned int callback_count_time1 = 3; unsigned int callback_count_time2 = 4; unsigned int callback_count_start_of_sim = 0; //====================================================================== #define CHECK_RESULT_VH(got, exp) \ if ((got) != (exp)) { \ printf("%%Error: %s:%d: GOT = %p EXP = %p\n", __FILE__, __LINE__, (got), (exp)); \ return __LINE__; \ } #define CHECK_RESULT_NZ(got) \ if (!(got)) { \ printf("%%Error: %s:%d: GOT = NULL EXP = !NULL\n", __FILE__, __LINE__); \ return __LINE__; \ } // Use cout to avoid issues with %d/%lx etc #define CHECK_RESULT(got, exp) \ if ((got) != (exp)) { \ cout << dec << "%Error: " << __FILE__ << ":" << __LINE__ << ": GOT = " << (got) \ << " EXP = " << (exp) << endl; \ return __LINE__; \ } #define CHECK_RESULT_HEX(got, exp) \ if ((got) != (exp)) { \ cout << dec << "%Error: " << __FILE__ << ":" << __LINE__ << hex << ": GOT = " << (got) \ << " EXP = " << (exp) << endl; \ return __LINE__; \ } #define CHECK_RESULT_CSTR(got, exp) \ if (strcmp((got), (exp))) { \ printf("%%Error: %s:%d: GOT = '%s' EXP = '%s'\n", __FILE__, __LINE__, \ (got) ? (got) : "", (exp) ? (exp) : ""); \ return __LINE__; \ } #define CHECK_RESULT_CSTR_STRIP(got, exp) CHECK_RESULT_CSTR(got + strspn(got, " "), exp) // We cannot replace those with VL_STRINGIFY, not available when PLI is build #define STRINGIFY(x) STRINGIFY2(x) #define STRINGIFY2(x) #x //====================================================================== #ifdef IS_VPI static int _time_cb1(p_cb_data cb_data) { s_vpi_time t; t.type = vpiSimTime; vpi_get_time(0, &t); // fprintf(stdout, "time_cb1: %d\n", t.low); CHECK_RESULT(callback_count_time1, t.low); callback_count_time1++; t_cb_data cb_data_n; bzero(&cb_data_n, sizeof(cb_data_n)); cb_data_n.reason = cbAfterDelay; t.type = vpiSimTime; t.high = 0; t.low = 1; cb_data_n.time = &t; cb_data_n.cb_rtn = _time_cb1; vpi_register_cb(&cb_data_n); return 0; } static int _time_cb2(p_cb_data cb_data) { s_vpi_time t; t.type = vpiSimTime; vpi_get_time(0, &t); // fprintf(stdout, "time_cb2: %d\n", t.low); CHECK_RESULT(callback_count_time2, t.low); callback_count_time2++; t_cb_data cb_data_n; bzero(&cb_data_n, sizeof(cb_data_n)); cb_data_n.reason = cbAfterDelay; t.type = vpiSimTime; t.high = 0; t.low = 1; cb_data_n.time = &t; cb_data_n.cb_rtn = _time_cb2; vpi_register_cb(&cb_data_n); return 0; } static int _start_of_sim_cb(p_cb_data cb_data) { t_cb_data cb_data_n1, cb_data_n2; bzero(&cb_data_n1, sizeof(cb_data_n1)); bzero(&cb_data_n2, sizeof(cb_data_n2)); s_vpi_time t1, t2; cb_data_n1.reason = cbAfterDelay; t1.type = vpiSimTime; t1.high = 0; t1.low = 3; cb_data_n1.time = &t1; cb_data_n1.cb_rtn = _time_cb1; vpi_register_cb(&cb_data_n1); cb_data_n2.reason = cbAfterDelay; t2.type = vpiSimTime; t2.high = 0; t2.low = 4; cb_data_n2.time = &t2; cb_data_n2.cb_rtn = _time_cb2; vpi_register_cb(&cb_data_n2); callback_count_start_of_sim++; return 0; } static int _end_of_sim_cb(p_cb_data cb_data) { CHECK_RESULT(callback_count_start_of_sim, 1); fprintf(stdout, "*-* All Finished *-*\n"); return 0; } // cver entry #ifdef __cplusplus extern "C" #endif void vpi_compat_bootstrap(void) { t_cb_data cb_data; bzero(&cb_data, sizeof(cb_data)); // VL_PRINTF("register start-of-sim callback\n"); cb_data.reason = cbStartOfSimulation; cb_data.time = 0; cb_data.cb_rtn = _start_of_sim_cb; vpi_register_cb(&cb_data); cb_data.reason = cbEndOfSimulation; cb_data.time = 0; cb_data.cb_rtn = _end_of_sim_cb; vpi_register_cb(&cb_data); } // icarus entry void (*vlog_startup_routines[])() = {vpi_compat_bootstrap, 0}; #else double sc_time_stamp() { return main_time; } int main(int argc, char** argv, char** env) { double sim_time = 1100; Verilated::commandArgs(argc, argv); Verilated::debug(0); VM_PREFIX* topp = new VM_PREFIX(""); // Note null name - we're flattening it out #ifdef VERILATOR # ifdef TEST_VERBOSE Verilated::scopesDump(); # endif #endif #if VM_TRACE Verilated::traceEverOn(true); VL_PRINTF("Enabling waves...\n"); VerilatedVcdC* tfp = new VerilatedVcdC; topp->trace(tfp, 99); tfp->open(STRINGIFY(TEST_OBJ_DIR) "/simx.vcd"); #endif // Load and initialize the PLI application { const char* filenamep = STRINGIFY(TEST_OBJ_DIR) "/libvpi.so"; void* lib = dlopen(filenamep, RTLD_LAZY); void* bootstrap = dlsym(lib, "vpi_compat_bootstrap"); if (!bootstrap) { string msg = string("%Error: Could not dlopen ") + filenamep; vl_fatal(__FILE__, __LINE__, "main", msg.c_str()); } ((void (*)(void))bootstrap)(); } VerilatedVpi::callCbs(cbStartOfSimulation); topp->eval(); topp->clk = 0; main_time += 1; while (sc_time_stamp() < sim_time && !Verilated::gotFinish()) { main_time += 1; topp->eval(); VerilatedVpi::callValueCbs(); VerilatedVpi::callTimedCbs(); topp->clk = !topp->clk; // mon_do(); #if VM_TRACE if (tfp) tfp->dump(main_time); #endif } VerilatedVpi::callCbs(cbEndOfSimulation); if (!Verilated::gotFinish()) { vl_fatal(__FILE__, __LINE__, "main", "%Error: Timeout; never got a $finish"); } topp->final(); #if VM_TRACE if (tfp) tfp->close(); #endif VL_DO_DANGLING(delete topp, topp); exit(0L); } #endif