// //------------------------------------------------------------------------------ // Copyright 2007-2011 Mentor Graphics Corporation // Copyright 2007-2011 Cadence Design Systems, Inc. // Copyright 2010-2011 Synopsys, Inc. // All Rights Reserved Worldwide // // Licensed 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. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // // CLASS: uvm_root // // The ~uvm_root~ class serves as the implicit top-level and phase controller for // all UVM components. Users do not directly instantiate ~uvm_root~. The UVM // automatically creates a single instance of that users can // access via the global (uvm_pkg-scope) variable, ~uvm_top~. // // (see uvm_ref_root.gif) // // The ~uvm_top~ instance of ~uvm_root~ plays several key roles in the UVM. // // Implicit top-level - The ~uvm_top~ serves as an implicit top-level component. // Any component whose parent is specified as NULL becomes a child of ~uvm_top~. // Thus, all UVM components in simulation are descendants of ~uvm_top~. // // Phase control - ~uvm_top~ manages the phasing for all components. // // Search - Use ~uvm_top~ to search for components based on their // hierarchical name. See and . // // Report configuration - Use ~uvm_top~ to globally configure // report verbosity, log files, and actions. For example, // ~uvm_top.set_report_verbosity_level_hier(UVM_FULL)~ would set // full verbosity for all components in simulation. // // Global reporter - Because ~uvm_top~ is globally accessible (in uvm_pkg // scope), UVM's reporting mechanism is accessible from anywhere // outside ~uvm_component~, such as in modules and sequences. // See , , and other global // methods. // // // The ~uvm_top~ instance checks during the end_of_elaboration phase if any errors have // been generated so far. If errors are found an UVM_FATAL error is being generated as result // so that the simulation will not continue to the start_of_simulation_phase. // //------------------------------------------------------------------------------ typedef class uvm_test_done_objection; typedef class uvm_cmdline_processor; class uvm_root extends uvm_component; // Function: get() // Get the factory singleton // extern static function uvm_root get(); uvm_cmdline_processor clp; // Task: run_test // // Phases all components through all registered phases. If the optional // test_name argument is provided, or if a command-line plusarg, // +UVM_TESTNAME=TEST_NAME, is found, then the specified component is created // just prior to phasing. The test may contain new verification components or // the entire testbench, in which case the test and testbench can be chosen from // the command line without forcing recompilation. If the global (package) // variable, finish_on_completion, is set, then $finish is called after // phasing completes. extern virtual task run_test (string test_name=""); // Variable: top_levels // // This variable is a list of all of the top level components in UVM. It // includes the uvm_test_top component that is created by as // well as any other top level components that have been instantiated // anywhere in the hierarchy. uvm_component top_levels[$]; // Function: find extern function uvm_component find (string comp_match); // Function: find_all // // Returns the component handle (find) or list of components handles // (find_all) matching a given string. The string may contain the wildcards, // * and ?. Strings beginning with '.' are absolute path names. If optional // comp arg is provided, then search begins from that component down // (default=all components). extern function void find_all (string comp_match, ref uvm_component comps[$], input uvm_component comp=null); virtual function string get_type_name(); return "uvm_root"; endfunction // Function: print_topology // // Print the verification environment's component topology. The // ~printer~ is a object that controls the format // of the topology printout; a ~null~ printer prints with the // default output. extern function void print_topology (uvm_printer printer=null); // Variable: enable_print_topology // // If set, then the entire testbench topology is printed just after completion // of the end_of_elaboration phase. bit enable_print_topology = 0; // Variable: finish_on_completion // // If set, then run_test will call $finish after all phases are executed. bit finish_on_completion = 1; // Variable- phase_timeout // // Specifies the timeout for the run phase. Default is `UVM_DEFAULT_TIMEOUT time phase_timeout = `UVM_DEFAULT_TIMEOUT; // Function: set_timeout // // Specifies the timeout for the simulation. Default is <`UVM_DEFAULT_TIMEOUT> // // The timeout is simply the maximum absolute simulation time allowed before a // ~FATAL~ occurs. If the timeout is set to 20ns, then the simulation must end // before 20ns, or a ~FATAL~ timeout will occur. // // This is provided so that the user can prevent the simulation from potentially // consuming too many resources (Disk, Memory, CPU, etc) when the testbench is // essentially hung. // // extern function void set_timeout(time timeout, bit overridable=1); // PRIVATE members extern function void m_find_all_recurse(string comp_match, ref uvm_component comps[$], input uvm_component comp=null); extern protected function new (); extern protected virtual function bit m_add_child (uvm_component child); extern function void build_phase(uvm_phase phase); extern local function void m_do_verbosity_settings(); extern local function void m_do_timeout_settings(); extern local function void m_do_factory_settings(); extern local function void m_process_inst_override(string ovr); extern local function void m_process_type_override(string ovr); extern local function void m_do_config_settings(); extern local function void m_do_max_quit_settings(); extern local function void m_do_dump_args(); extern local function void m_process_config(string cfg, bit is_int); extern function void m_check_verbosity(); // singleton handle static local uvm_root m_inst; // For error checking extern virtual task run_phase (uvm_phase phase); // phase_started // ------------- // At end of elab phase we need to do tlm binding resolution. function void phase_started(uvm_phase phase); if (phase == end_of_elaboration_ph) begin do_resolve_bindings(); if (enable_print_topology) print_topology(); begin uvm_report_server srvr; srvr = get_report_server(); if(srvr.get_severity_count(UVM_ERROR) > 0) begin uvm_report_fatal("BUILDERR", "stopping due to build errors", UVM_NONE); end end end endfunction bit m_phase_all_done; `ifndef UVM_NO_DEPRECATED // stop_request // ------------ // backward compat only // call global_stop_request() or uvm_test_done.stop_request() instead function void stop_request(); uvm_test_done_objection tdo; tdo = uvm_test_done_objection::get(); tdo.stop_request(); endfunction `endif endclass //------------------------------------------------------------------------------ // Variable: uvm_top // // This is the top-level that governs phase execution and provides component // search interface. See for more information. //------------------------------------------------------------------------------ const uvm_root uvm_top = uvm_root::get(); // for backward compatibility const uvm_root _global_reporter = uvm_root::get(); //----------------------------------------------------------------------------- // // Class- uvm_root_report_handler // //----------------------------------------------------------------------------- // Root report has name "reporter" class uvm_root_report_handler extends uvm_report_handler; virtual function void report(uvm_severity severity, string name, string id, string message, int verbosity_level=UVM_MEDIUM, string filename="", int line=0, uvm_report_object client=null); if(name == "") name = "reporter"; super.report(severity, name, id, message, verbosity_level, filename, line, client); endfunction endclass //----------------------------------------------------------------------------- // IMPLEMENTATION //----------------------------------------------------------------------------- // get // --- function uvm_root uvm_root::get(); if (m_inst == null) begin m_inst = new(); void'(uvm_domain::get_common_domain()); m_inst.m_domain = uvm_domain::get_uvm_domain(); end return m_inst; endfunction // new // --- function uvm_root::new(); uvm_root_report_handler rh; super.new("__top__", null); rh = new; set_report_handler(rh); clp = uvm_cmdline_processor::get_inst(); report_header(); // This sets up the global verbosity. Other command line args may // change individual component verbosity. m_check_verbosity(); endfunction // run_test // -------- task uvm_root::run_test(string test_name=""); uvm_factory factory= uvm_factory::get(); bit testname_plusarg; int test_name_count; string test_names[$]; string msg; uvm_component uvm_test_top; process phase_runner_proc; // store thread forked below for final cleanup testname_plusarg = 0; // Set up the process that decouples the thread that drops objections from // the process that processes drop/all_dropped objections. Thus, if the // original calling thread (the "dropper") gets killed, it does not affect // drain-time and propagation of the drop up the hierarchy. // Needs to be done in run_test since it needs to be in an // initial block to fork a process. uvm_objection::m_init_objections(); `ifndef UVM_NO_DPI // Retrieve the test names provided on the command line. Command line // overrides the argument. test_name_count = clp.get_arg_values("+UVM_TESTNAME=", test_names); // If at least one, use first in queue. if (test_name_count > 0) begin test_name = test_names[0]; testname_plusarg = 1; end // If multiple, provided the warning giving the number, which one will be // used and the complete list. if (test_name_count > 1) begin string test_list; string sep; for (int i = 0; i < test_names.size(); i++) begin if (i != 0) sep = ", "; test_list = {test_list, sep, test_names[i]}; end uvm_report_warning("MULTTST", $sformatf("Multiple (%0d) +UVM_TESTNAME arguments provided on the command line. '%s' will be used. Provided list: %s.", test_name_count, test_name, test_list), UVM_NONE); end `else // plusarg overrides argument if ($value$plusargs("UVM_TESTNAME=%s", test_name)) begin `uvm_info("NO_DPI_TSTNAME", "UVM_NO_DPI defined--getting UVM_TESTNAME directly, without DPI", UVM_NONE) testname_plusarg = 1; end `endif // if test now defined, create it using common factory if (test_name != "") begin if(m_children.exists("uvm_test_top")) begin uvm_report_fatal("TTINST", "An uvm_test_top already exists via a previous call to run_test", UVM_NONE); #0; // forces shutdown because $finish is forked end $cast(uvm_test_top, factory.create_component_by_name(test_name, "", "uvm_test_top", null)); if (uvm_test_top == null) begin msg = testname_plusarg ? {"command line +UVM_TESTNAME=",test_name} : {"call to run_test(",test_name,")"}; uvm_report_fatal("INVTST", {"Requested test from ",msg, " not found." }, UVM_NONE); end end if (m_children.num() == 0) begin uvm_report_fatal("NOCOMP", {"No components instantiated. You must either instantiate", " at least one component before calling run_test or use", " run_test to do so. To run a test using run_test,", " use +UVM_TESTNAME or supply the test name in", " the argument to run_test(). Exiting simulation."}, UVM_NONE); return; end begin if(test_name=="") uvm_report_info("RNTST", "Running test ...", UVM_LOW); else if (test_name == uvm_test_top.get_type_name()) uvm_report_info("RNTST", {"Running test ",test_name,"..."}, UVM_LOW); else uvm_report_info("RNTST", {"Running test ",uvm_test_top.get_type_name()," (via factory override for test \"",test_name,"\")..."}, UVM_LOW); end // phase runner, isolated from calling process fork begin // spawn the phase runner task phase_runner_proc = process::self(); uvm_phase::m_run_phases(); end join_none #0; // let the phase runner start wait (m_phase_all_done == 1); // clean up after ourselves phase_runner_proc.kill(); report_summarize(); if (finish_on_completion) $finish; endtask // find_all // -------- function void uvm_root::find_all(string comp_match, ref uvm_component comps[$], input uvm_component comp=null); if (comp==null) comp = this; m_find_all_recurse(comp_match, comps, comp); endfunction // find // ---- function uvm_component uvm_root::find (string comp_match); uvm_component comp_list[$]; find_all(comp_match,comp_list); if (comp_list.size() > 1) uvm_report_warning("MMATCH", $sformatf("Found %0d components matching '%s'. Returning first match, %0s.", comp_list.size(),comp_match,comp_list[0].get_full_name()), UVM_NONE); if (comp_list.size() == 0) begin uvm_report_warning("CMPNFD", {"Component matching '",comp_match, "' was not found in the list of uvm_components"}, UVM_NONE); return null; end return comp_list[0]; endfunction // print_topology // -------------- function void uvm_root::print_topology(uvm_printer printer=null); string s; uvm_report_info("UVMTOP", "UVM testbench topology:", UVM_LOW); if (m_children.num()==0) begin uvm_report_warning("EMTCOMP", "print_topology - No UVM components to print.", UVM_NONE); return; end if (printer==null) printer = uvm_default_printer; foreach (m_children[c]) begin if(m_children[c].print_enabled) begin printer.print_object("", m_children[c]); end end $display(printer.emit()); endfunction // set_timeout // ----------- function void uvm_root::set_timeout(time timeout, bit overridable=1); static bit m_uvm_timeout_overridable = 1; if (m_uvm_timeout_overridable == 0) begin uvm_report_info("NOTIMOUTOVR", $sformatf("The global timeout setting of %0d is not overridable to %0d due to a previous setting.", phase_timeout, timeout), UVM_NONE); return; end m_uvm_timeout_overridable = overridable; phase_timeout = timeout; endfunction // m_find_all_recurse // ------------------ function void uvm_root::m_find_all_recurse(string comp_match, ref uvm_component comps[$], input uvm_component comp=null); string name; if (comp.get_first_child(name)) do begin this.m_find_all_recurse(comp_match, comps, comp.get_child(name)); end while (comp.get_next_child(name)); if (uvm_is_match(comp_match, comp.get_full_name()) && comp.get_name() != "") /* uvm_top */ comps.push_back(comp); endfunction // m_add_child // ----------- // Add to the top levels array function bit uvm_root::m_add_child (uvm_component child); if(super.m_add_child(child)) begin if(child.get_name() == "uvm_test_top") top_levels.push_front(child); else top_levels.push_back(child); return 1; end else return 0; endfunction // build_phase // ----- function void uvm_root::build_phase(uvm_phase phase); super.build_phase(phase); m_set_cl_msg_args(); m_do_verbosity_settings(); m_do_timeout_settings(); m_do_factory_settings(); m_do_config_settings(); m_do_max_quit_settings(); m_do_dump_args(); endfunction // m_do_verbosity_settings // ----------------------- function void uvm_root::m_do_verbosity_settings(); string set_verbosity_settings[$]; string split_vals[$]; uvm_verbosity tmp_verb; // Retrieve them all into set_verbosity_settings void'(clp.get_arg_values("+uvm_set_verbosity=", set_verbosity_settings)); for(int i = 0; i < set_verbosity_settings.size(); i++) begin uvm_split_string(set_verbosity_settings[i], ",", split_vals); if(split_vals.size() < 4 || split_vals.size() > 5) begin uvm_report_warning("INVLCMDARGS", $sformatf("Invalid number of arguments found on the command line for setting '+uvm_set_verbosity=%s'. Setting ignored.", set_verbosity_settings[i]), UVM_NONE, "", ""); end // Invalid verbosity if(!clp.m_convert_verb(split_vals[2], tmp_verb)) begin uvm_report_warning("INVLCMDVERB", $sformatf("Invalid verbosity found on the command line for setting '%s'.", set_verbosity_settings[i]), UVM_NONE, "", ""); end end endfunction // m_do_timeout_settings // --------------------- function void uvm_root::m_do_timeout_settings(); string timeout_settings[$]; string timeout; string split_timeout[$]; int timeout_count; time timeout_int; string override_spec; timeout_count = clp.get_arg_values("+UVM_TIMEOUT=", timeout_settings); if (timeout_count == 0) return; else begin timeout = timeout_settings[0]; if (timeout_count > 1) begin string timeout_list; string sep; for (int i = 0; i < timeout_settings.size(); i++) begin if (i != 0) sep = "; "; timeout_list = {timeout_list, sep, timeout_settings[i]}; end uvm_report_warning("MULTTIMOUT", $sformatf("Multiple (%0d) +UVM_TIMEOUT arguments provided on the command line. '%s' will be used. Provided list: %s.", timeout_count, timeout, timeout_list), UVM_NONE); end uvm_report_info("TIMOUTSET", $sformatf("'+UVM_TIMEOUT=%s' provided on the command line is being applied.", timeout), UVM_NONE); void'($sscanf(timeout,"%d,%s",timeout_int,override_spec)); case(override_spec) "YES" : set_timeout(timeout_int, 1); "NO" : set_timeout(timeout_int, 0); default : set_timeout(timeout_int, 1); endcase end endfunction // m_do_factory_settings // --------------------- function void uvm_root::m_do_factory_settings(); string args[$]; void'(clp.get_arg_matches("/^\\+(UVM_SET_INST_OVERRIDE|uvm_set_inst_override)=/",args)); foreach(args[i]) begin m_process_inst_override(args[i].substr(23, args[i].len()-1)); end void'(clp.get_arg_matches("/^\\+(UVM_SET_TYPE_OVERRIDE|uvm_set_type_override)=/",args)); foreach(args[i]) begin m_process_type_override(args[i].substr(23, args[i].len()-1)); end endfunction // m_process_inst_override // ----------------------- function void uvm_root::m_process_inst_override(string ovr); string split_val[$]; uvm_factory fact = uvm_factory::get(); uvm_split_string(ovr, ",", split_val); if(split_val.size() != 3 ) begin uvm_report_error("UVM_CMDLINE_PROC", {"Invalid setting for +uvm_set_inst_override=", ovr, ", setting must specify ,,"}, UVM_NONE); return; end uvm_report_info("INSTOVR", {"Applying instance override from the command line: +uvm_set_inst_override=", ovr}, UVM_NONE); fact.set_inst_override_by_name(split_val[0], split_val[1], split_val[2]); endfunction // m_process_type_override // ----------------------- function void uvm_root::m_process_type_override(string ovr); string split_val[$]; int replace=1; uvm_factory fact = uvm_factory::get(); uvm_split_string(ovr, ",", split_val); if(split_val.size() > 3 || split_val.size() < 2) begin uvm_report_error("UVM_CMDLINE_PROC", {"Invalid setting for +uvm_set_type_override=", ovr, ", setting must specify ,[,]"}, UVM_NONE); return; end // Replace arg is optional. If set, must be 0 or 1 if(split_val.size() == 3) begin if(split_val[2]=="0") replace = 0; else if (split_val[2] == "1") replace = 1; else begin uvm_report_error("UVM_CMDLINE_PROC", {"Invalid replace arg for +uvm_set_type_override=", ovr ," value must be 0 or 1"}, UVM_NONE); return; end end uvm_report_info("UVM_CMDLINE_PROC", {"Applying type override from the command line: +uvm_set_type_override=", ovr}, UVM_NONE); fact.set_type_override_by_name(split_val[0], split_val[1], replace); endfunction // m_process_config // ---------------- function void uvm_root::m_process_config(string cfg, bit is_int); uvm_bitstream_t v; string split_val[$]; uvm_root m_uvm_top = uvm_root::get(); uvm_split_string(cfg, ",", split_val); if(split_val.size() == 1) begin uvm_report_error("UVM_CMDLINE_PROC", {"Invalid +uvm_set_config command\"", cfg, "\" missing field and value: component is \"", split_val[0], "\""}, UVM_NONE); return; end if(split_val.size() == 2) begin uvm_report_error("UVM_CMDLINE_PROC", {"Invalid +uvm_set_config command\"", cfg, "\" missing value: component is \"", split_val[0], "\" field is \"", split_val[1], "\""}, UVM_NONE); return; end if(split_val.size() > 3) begin uvm_report_error("UVM_CMDLINE_PROC", $sformatf("Invalid +uvm_set_config command\"%s\" : expected only 3 fields (component, field and value).", cfg), UVM_NONE); return; end if(is_int) begin if(split_val[2].len() > 2) begin string base, extval; base = split_val[2].substr(0,1); extval = split_val[2].substr(2,split_val[2].len()-1); case(base) "'b" : v = extval.atobin(); "0b" : v = extval.atobin(); "'o" : v = extval.atooct(); "'d" : v = extval.atoi(); "'h" : v = extval.atohex(); "'x" : v = extval.atohex(); "0x" : v = extval.atohex(); default : v = split_val[2].atoi(); endcase end else begin v = split_val[2].atoi(); end uvm_report_info("UVM_CMDLINE_PROC", {"Applying config setting from the command line: +uvm_set_config_int=", cfg}, UVM_NONE); m_uvm_top.set_config_int(split_val[0], split_val[1], v); end else begin uvm_report_info("UVM_CMDLINE_PROC", {"Applying config setting from the command line: +uvm_set_config_string=", cfg}, UVM_NONE); m_uvm_top.set_config_string(split_val[0], split_val[1], split_val[2]); end endfunction // m_do_config_settings // -------------------- function void uvm_root::m_do_config_settings(); string args[$]; void'(clp.get_arg_matches("/^\\+(UVM_SET_CONFIG_INT|uvm_set_config_int)=/",args)); foreach(args[i]) begin m_process_config(args[i].substr(20, args[i].len()-1), 1); end void'(clp.get_arg_matches("/^\\+(UVM_SET_CONFIG_STRING|uvm_set_config_string)=/",args)); foreach(args[i]) begin m_process_config(args[i].substr(23, args[i].len()-1), 0); end endfunction // m_do_max_quit_settings // ---------------------- function void uvm_root::m_do_max_quit_settings(); uvm_report_server srvr; string max_quit_settings[$]; int max_quit_count; string max_quit; string split_max_quit[$]; int max_quit_int; srvr = get_report_server(); max_quit_count = clp.get_arg_values("+UVM_MAX_QUIT_COUNT=", max_quit_settings); if (max_quit_count == 0) return; else begin max_quit = max_quit_settings[0]; if (max_quit_count > 1) begin string max_quit_list; string sep; for (int i = 0; i < max_quit_settings.size(); i++) begin if (i != 0) sep = "; "; max_quit_list = {max_quit_list, sep, max_quit_settings[i]}; end uvm_report_warning("MULTMAXQUIT", $sformatf("Multiple (%0d) +UVM_MAX_QUIT_COUNT arguments provided on the command line. '%s' will be used. Provided list: %s.", max_quit_count, max_quit, max_quit_list), UVM_NONE); end uvm_report_info("MAXQUITSET", $sformatf("'+UVM_MAX_QUIT_COUNT=%s' provided on the command line is being applied.", max_quit), UVM_NONE); uvm_split_string(max_quit, ",", split_max_quit); max_quit_int = split_max_quit[0].atoi(); case(split_max_quit[1]) "YES" : srvr.set_max_quit_count(max_quit_int, 1); "NO" : srvr.set_max_quit_count(max_quit_int, 0); default : srvr.set_max_quit_count(max_quit_int, 1); endcase end endfunction // m_do_dump_args // -------------- function void uvm_root::m_do_dump_args(); string dump_args[$]; string all_args[$]; string out_string; if(clp.get_arg_matches("+UVM_DUMP_CMDLINE_ARGS", dump_args)) begin clp.get_args(all_args); for (int i = 0; i < all_args.size(); i++) begin if (all_args[i] == "__-f__") continue; out_string = {out_string, all_args[i], " "}; end uvm_report_info("DUMPARGS", out_string, UVM_NONE); end endfunction // m_check_verbosity // ---------------- function void uvm_root::m_check_verbosity(); string verb_string; string verb_settings[$]; int verb_count; int plusarg; int verbosity = UVM_MEDIUM; `ifndef UVM_CMDLINE_NO_DPI // Retrieve the verbosities provided on the command line. verb_count = clp.get_arg_values("+UVM_VERBOSITY=", verb_settings); `else verb_count = $value$plusargs("UVM_VERBOSITY=%s",verb_string); if (verb_count) verb_settings.push_back(verb_string); `endif // If none provided, provide message about the default being used. //if (verb_count == 0) // uvm_report_info("DEFVERB", ("No verbosity specified on the command line. Using the default: UVM_MEDIUM"), UVM_NONE); // If at least one, use the first. if (verb_count > 0) begin verb_string = verb_settings[0]; plusarg = 1; end // If more than one, provide the warning stating how many, which one will // be used and the complete list. if (verb_count > 1) begin string verb_list; string sep; for (int i = 0; i < verb_settings.size(); i++) begin if (i != 0) sep = ", "; verb_list = {verb_list, sep, verb_settings[i]}; end uvm_report_warning("MULTVERB", $sformatf("Multiple (%0d) +UVM_VERBOSITY arguments provided on the command line. '%s' will be used. Provided list: %s.", verb_count, verb_string, verb_list), UVM_NONE); end if(plusarg == 1) begin case(verb_string) "UVM_NONE" : verbosity = UVM_NONE; "NONE" : verbosity = UVM_NONE; "UVM_LOW" : verbosity = UVM_LOW; "LOW" : verbosity = UVM_LOW; "UVM_MEDIUM" : verbosity = UVM_MEDIUM; "MEDIUM" : verbosity = UVM_MEDIUM; "UVM_HIGH" : verbosity = UVM_HIGH; "HIGH" : verbosity = UVM_HIGH; "UVM_FULL" : verbosity = UVM_FULL; "FULL" : verbosity = UVM_FULL; "UVM_DEBUG" : verbosity = UVM_DEBUG; "DEBUG" : verbosity = UVM_DEBUG; default : begin verbosity = verb_string.atoi(); if(verbosity > 0) uvm_report_info("NSTVERB", $sformatf("Non-standard verbosity value, using provided '%0d'.", verbosity), UVM_NONE); if(verbosity == 0) begin verbosity = UVM_MEDIUM; uvm_report_warning("ILLVERB", "Illegal verbosity value, using default of UVM_MEDIUM.", UVM_NONE); end end endcase end set_report_verbosity_level_hier(verbosity); endfunction // It is required that the run phase start at simulation time 0 // TBD this looks wrong - taking advantage of uvm_root not doing anything else? // TBD move to phase_started callback? task uvm_root::run_phase (uvm_phase phase); if($time > 0) `uvm_fatal("RUNPHSTIME", {"The run phase must start at time 0, current time is ", $sformatf("%0t", $realtime), ". No non-zero delays are allowed before ", "run_test(), and pre-run user defined phases may not consume ", "simulation time before the start of the run phase."}) endtask