/* * Copyright 2018 Google, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer; * redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution; * neither the name of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Authors: Gabe Black */ #include "base/logging.hh" #include "base/types.hh" #include "sim/core.hh" #include "sim/eventq.hh" #include "systemc/core/kernel.hh" #include "systemc/core/process_types.hh" #include "systemc/core/sched_event.hh" #include "systemc/core/scheduler.hh" #include "systemc/ext/channel/messages.hh" #include "systemc/ext/channel/sc_clock.hh" #include "systemc/ext/core/sc_main.hh" #include "systemc/ext/core/sc_module.hh" // for sc_gen_unique_name #include "systemc/ext/utils/sc_report_handler.hh" namespace sc_gem5 { class ClockTick : public ScEvent { private: ::sc_core::sc_clock *clock; ::sc_core::sc_time _period; std::string name; Process *p; ProcessMemberFuncWrapper<::sc_core::sc_clock> funcWrapper; public: ClockTick(::sc_core::sc_clock *clock, bool to, ::sc_core::sc_time _period) : ScEvent([this]() { tick(); }), clock(clock), _period(_period), name(clock->basename()), p(nullptr), funcWrapper(clock, to ? &::sc_core::sc_clock::tickUp : &::sc_core::sc_clock::tickDown) { name += std::string(to ? "_posedge_action" : "_negedge_action"); name = ::sc_core::sc_gen_unique_name(name.c_str()); } void createProcess() { p = new Method(name.c_str(), &funcWrapper, true); p->dontInitialize(true); scheduler.reg(p); } ~ClockTick() { if (scheduled()) scheduler.deschedule(this); if (p) p->popListNode(); } void tick() { scheduler.schedule(this, _period); p->ready(); } }; }; namespace sc_core { sc_clock::sc_clock() : sc_clock(sc_gen_unique_name("clock"), sc_time(1.0, SC_NS), 0.5, SC_ZERO_TIME, true) {} sc_clock::sc_clock(const char *name) : sc_clock(name, sc_time(1.0, SC_NS), 0.5, SC_ZERO_TIME, true) {} sc_clock::sc_clock(const char *name, const sc_time &period, double duty_cycle, const sc_time &start_time, bool posedge_first) : sc_interface(), sc_signal(name, posedge_first ? false : true), _period(period), _dutyCycle(duty_cycle), _startTime(start_time), _posedgeFirst(posedge_first) { if (period == SC_ZERO_TIME) { std::string msg = "increase the period: clock '" + std::string(name) + "'"; SC_REPORT_ERROR(SC_ID_CLOCK_PERIOD_ZERO_, msg.c_str()); } if (duty_cycle * period == SC_ZERO_TIME) { std::string msg = "increase the period or increase the duty cycle: clock '" + std::string(name) + "'"; SC_REPORT_ERROR(SC_ID_CLOCK_HIGH_TIME_ZERO_, msg.c_str()); } if (duty_cycle * period == period) { std::string msg = "increase the period or decrease the duty cycle: clock '" + std::string(name) + "'"; SC_REPORT_ERROR(SC_ID_CLOCK_LOW_TIME_ZERO_, msg.c_str()); } _gem5UpEdge = new ::sc_gem5::ClockTick(this, true, period); _gem5DownEdge = new ::sc_gem5::ClockTick(this, false, period); } sc_clock::sc_clock(const char *name, double period_v, sc_time_unit period_tu, double duty_cycle) : sc_clock(name, sc_time(period_v, period_tu), duty_cycle, SC_ZERO_TIME, true) {} sc_clock::sc_clock(const char *name, double period_v, sc_time_unit period_tu, double duty_cycle, double start_time_v, sc_time_unit start_time_tu, bool posedge_first) : sc_clock(name, sc_time(period_v, period_tu), duty_cycle, sc_time(start_time_v, start_time_tu), posedge_first) {} sc_clock::sc_clock(const char *name, double period, double duty_cycle, double start_time, bool posedge_first) : sc_clock(name, sc_time(period, true), duty_cycle, sc_time(start_time, true), posedge_first) {} sc_clock::~sc_clock() { if (_gem5UpEdge->scheduled()) ::sc_gem5::scheduler.deschedule(_gem5UpEdge); if (_gem5DownEdge->scheduled()) ::sc_gem5::scheduler.deschedule(_gem5DownEdge); delete _gem5UpEdge; delete _gem5DownEdge; } void sc_clock::write(const bool &) { panic("write() called on sc_clock."); } const sc_time &sc_clock::period() const { return _period; } double sc_clock::duty_cycle() const { return _dutyCycle; } const sc_time &sc_clock::start_time() const { return _startTime; } bool sc_clock::posedge_first() const { return _posedgeFirst; } const sc_time & sc_clock::time_stamp() { return sc_time_stamp(); } void sc_clock::before_end_of_elaboration() { _gem5UpEdge->createProcess(); _gem5DownEdge->createProcess(); if (_posedgeFirst) { ::sc_gem5::scheduler.schedule(_gem5UpEdge, _startTime); ::sc_gem5::scheduler.schedule(_gem5DownEdge, _startTime + _period * _dutyCycle); } else { ::sc_gem5::scheduler.schedule(_gem5DownEdge, _startTime); ::sc_gem5::scheduler.schedule(_gem5UpEdge, _startTime + _period * (1.0 - _dutyCycle)); } } } // namespace sc_core