// -*- 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. // SPDX-License-Identifier: LGPL-3.0-only OR Artistic-2.0 // //************************************************************************* #ifdef IS_VPI #include "vpi_user.h" #include #else #include "verilated.h" #include "verilated_vcd_c.h" #include "verilated_vpi.h" #include "Vt_vpi_get.h" #include "Vt_vpi_get__Dpi.h" #include "svdpi.h" #endif #include #include #include // These require the above. Comment prevents clang-format moving them #include "TestSimulator.h" #include "TestVpi.h" // __FILE__ is too long #define FILENM "t_vpi_get.cpp" #define TEST_MSG \ if (0) printf //====================================================================== #define CHECK_RESULT_VH(got, exp) \ if ((got) != (exp)) { \ printf("%%Error: %s:%d: GOT = %p EXP = %p\n", FILENM, __LINE__, (got), (exp)); \ return __LINE__; \ } #define CHECK_RESULT_NZ(got) \ if (!(got)) { \ printf("%%Error: %s:%d: GOT = NULL EXP = !NULL\n", FILENM, __LINE__); \ return __LINE__; \ } // Use cout to avoid issues with %d/%lx etc #define CHECK_RESULT(got, exp) \ if ((got) != (exp)) { \ std::cout << std::dec << "%Error: " << FILENM << ":" << __LINE__ << ": GOT = " << (got) \ << " EXP = " << (exp) << std::endl; \ return __LINE__; \ } #define CHECK_RESULT_HEX(got, exp) \ if ((got) != (exp)) { \ std::cout << std::dec << "%Error: " << FILENM << ":" << __LINE__ << std::hex \ << ": GOT = " << (got) << " EXP = " << (exp) << endl; \ return __LINE__; \ } #define CHECK_RESULT_CSTR(got, exp) \ if (std::strcmp((got), (exp))) { \ printf("%%Error: %s:%d: GOT = '%s' EXP = '%s'\n", FILENM, __LINE__, \ (got) ? (got) : "", (exp) ? (exp) : ""); \ return __LINE__; \ } #define CHECK_RESULT_CSTR_STRIP(got, exp) CHECK_RESULT_CSTR(got + strspn(got, " "), exp) static int _mon_check_props(TestVpiHandle& handle, int size, int direction, int scalar, int type) { s_vpi_value value; value.format = vpiIntVal; value.value.integer = 0; // check size of object int vpisize = vpi_get(vpiSize, handle); CHECK_RESULT(vpisize, size); // icarus verilog does not support vpiScalar, vpiVector or vpi*Range if (TestSimulator::has_get_scalar()) { int vpiscalar = vpi_get(vpiScalar, handle); CHECK_RESULT((bool)vpiscalar, (bool)scalar); int vpivector = vpi_get(vpiVector, handle); CHECK_RESULT((bool)vpivector, (bool)!scalar); } // Icarus only supports ranges on memories if (!scalar && !(TestSimulator::is_icarus() && type != vpiMemory)) { TestVpiHandle left_h, right_h; // check coherency for vectors // get left hand side of range left_h = vpi_handle(vpiLeftRange, handle); CHECK_RESULT_NZ(left_h); vpi_get_value(left_h, &value); int coherency = value.value.integer; // get right hand side of range right_h = vpi_handle(vpiRightRange, handle); CHECK_RESULT_NZ(right_h); vpi_get_value(right_h, &value); TEST_MSG("%d:%d\n", coherency, value.value.integer); coherency -= value.value.integer; // calculate size & check coherency = abs(coherency) + 1; CHECK_RESULT(coherency, size); } // Only check direction on ports if (type == vpiPort) { // check direction of object int vpidir = vpi_get(vpiDirection, handle); // Don't check port directions in verilator // see #681 if (!TestSimulator::is_verilator()) CHECK_RESULT(vpidir, direction); } // check type of object int vpitype = vpi_get(vpiType, handle); if (!(TestSimulator::is_verilator() && type == vpiPort)) { // Don't check for ports in verilator // see #681 CHECK_RESULT(vpitype, type); } return 0; // Ok } struct params { const char* signal; struct { unsigned int size; unsigned int direction; unsigned int scalar; int type; } attributes, children; }; int mon_check_props() { // This table needs to be function-static. // This avoids calling is_verilator() below at global-static init time. // When global-static led to a race between the is_verilator call below, and // the code that sets up the VerilatedAssertOneThread() check in // verilated_vpi.cc, it was causing the check to falsely fail // (due to m_threadid within the check not being initted yet.) static struct params values[] = {{"onebit", {1, vpiNoDirection, 1, vpiReg}, {0, 0, 0, 0}}, {"twoone", {2, vpiNoDirection, 0, vpiReg}, {0, 0, 0, 0}}, {"onetwo", {2, vpiNoDirection, 0, TestSimulator::is_verilator() ? vpiReg : vpiMemory}, {0, 0, 0, 0}}, {"fourthreetwoone", {2, vpiNoDirection, 0, vpiMemory}, {2, vpiNoDirection, 0, vpiMemoryWord}}, {"theint", {32, vpiNoDirection, 0, vpiReg}, {0, 0, 0, 0}}, {"clk", {1, vpiInput, 1, vpiPort}, {0, 0, 0, 0}}, {"testin", {16, vpiInput, 0, vpiPort}, {0, 0, 0, 0}}, {"testout", {24, vpiOutput, 0, vpiPort}, {0, 0, 0, 0}}, {"sub.subin", {1, vpiInput, 1, vpiPort}, {0, 0, 0, 0}}, {"sub.subout", {1, vpiOutput, 1, vpiPort}, {0, 0, 0, 0}}, {"sub.subparam", {32, vpiNoDirection, 0, vpiParameter}, {0, 0, 0, 0}}, {"sub.the_intf.bytesig", {8, vpiNoDirection, 0, vpiReg}, {0, 0, 0, 0}}, {"sub.the_intf.param", {32, vpiNoDirection, 0, vpiParameter}, {0, 0, 0, 0}}, {"sub.the_intf.lparam", {32, vpiNoDirection, 0, vpiParameter}, {0, 0, 0, 0}}, {"twobytwo", {4, vpiNoDirection, 0, vpiReg}, {0, 0, 0, 0}}, {NULL, {0, 0, 0, 0}, {0, 0, 0, 0}}}; struct params* value = values; while (value->signal) { TestVpiHandle h = VPI_HANDLE(value->signal); TEST_MSG("%s\n", value->signal); CHECK_RESULT_NZ(h); if (int status = _mon_check_props(h, value->attributes.size, value->attributes.direction, value->attributes.scalar, value->attributes.type)) return status; if (value->children.size) { int size = 0; TestVpiHandle iter_h = vpi_iterate(vpiMemoryWord, h); while (TestVpiHandle word_h = vpi_scan(iter_h)) { // check size and range if (int status = _mon_check_props(word_h, value->children.size, value->children.direction, value->children.scalar, value->children.type)) return status; size++; } iter_h.freed(); // IEEE 37.2.2 vpi_scan at end does a vpi_release_handle CHECK_RESULT(size, value->attributes.size); } value++; } return 0; } extern "C" int mon_check() { // Callback from initial block in monitor if (int status = mon_check_props()) return status; return 0; // Ok } void dpi_print(const char* somestring) { printf("SOMESTRING = %s\n", somestring); } //====================================================================== #ifdef IS_VPI static int mon_check_vpi() { TestVpiHandle href = vpi_handle(vpiSysTfCall, 0); s_vpi_value vpi_value; vpi_value.format = vpiIntVal; vpi_value.value.integer = mon_check(); vpi_put_value(href, &vpi_value, NULL, vpiNoDelay); return 0; } static s_vpi_systf_data vpi_systf_data[] = {{vpiSysFunc, vpiIntFunc, (PLI_BYTE8*)"$mon_check", (PLI_INT32(*)(PLI_BYTE8*))mon_check_vpi, 0, 0, 0}, 0}; // cver entry void vpi_compat_bootstrap(void) { p_vpi_systf_data systf_data_p; systf_data_p = &(vpi_systf_data[0]); while (systf_data_p->type != 0) vpi_register_systf(systf_data_p++); } // icarus entry void (*vlog_startup_routines[])() = {vpi_compat_bootstrap, 0}; #else int main(int argc, char** argv) { const std::unique_ptr contextp{new VerilatedContext}; uint64_t sim_time = 1100; contextp->debug(0); contextp->commandArgs(argc, argv); const std::unique_ptr topp{new VM_PREFIX{contextp.get(), // Note null name - we're flattening it out ""}}; #ifdef VERILATOR #ifdef TEST_VERBOSE contextp->scopesDump(); #endif #endif #if VM_TRACE contextp->traceEverOn(true); VL_PRINTF("Enabling waves...\n"); VerilatedVcdC* tfp = new VerilatedVcdC; topp->trace(tfp, 99); tfp->open(VL_STRINGIFY(TEST_OBJ_DIR) "/simx.vcd"); #endif topp->eval(); topp->clk = 0; contextp->timeInc(10); while (contextp->time() < sim_time && !contextp->gotFinish()) { contextp->timeInc(1); topp->eval(); VerilatedVpi::callValueCbs(); topp->clk = !topp->clk; // mon_do(); #if VM_TRACE if (tfp) tfp->dump(contextp->time()); #endif } if (!contextp->gotFinish()) { vl_fatal(FILENM, __LINE__, "main", "%Error: Timeout; never got a $finish"); } topp->final(); #if VM_TRACE if (tfp) tfp->close(); #endif return 0; } #endif