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d737358ac643ff5bdc3984138cc3ae08c7b57ff7
gem5/src/systemc/core/process.cc
Gabe Black d737358ac6 systemc: Rework how delayed sensitivities are handled. 
Make BindInfo into a more general purpose Port class which mirrors
sc_module and Module, sc_object and Object, etc. This tracks multiple
bindings internally, and also pending sensitivities. Keep a global
list of ports which are added in reverse order to match Accellera, and
which is iterated over to finalize binding and for phase callbacks.
This is as opposed to doing it one module at a time, and is to better
match Accellera's ordering for the regressions.

Also the sensitivity classes are now built with factory functions,
which gets around problems calling virtual functions from their
constructors or forgetting to having to have extra boilerplate each
place they're constructed.

The port class also now finalizes port or event finder sensitivities
when its binding is completed, unless it's already complete in which
case it does so immediately.

Change-Id: I1b01689715c425b94e0f68cf0271f5c1565d8c61
Reviewed-on: https://gem5-review.googlesource.com/c/12806
Reviewed-by: Gabe Black <gabeblack@google.com>
Maintainer: Gabe Black <gabeblack@google.com>
2018-10-09 21:50:01 +00:00

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/*
* 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 "systemc/core/process.hh"
#include "base/logging.hh"
#include "systemc/core/event.hh"
#include "systemc/core/scheduler.hh"
#include "systemc/ext/core/sc_join.hh"
#include "systemc/ext/core/sc_main.hh"
#include "systemc/ext/core/sc_process_handle.hh"
#include "systemc/ext/utils/sc_report_handler.hh"
namespace sc_gem5
{
class UnwindExceptionReset : public ::sc_core::sc_unwind_exception
{
public:
UnwindExceptionReset() { _isReset = true; }
};
class UnwindExceptionKill : public ::sc_core::sc_unwind_exception
{
public:
UnwindExceptionKill() {}
};
template <typename T>
struct BuiltinExceptionWrapper : public ExceptionWrapperBase
{
public:
T t;
void throw_it() override { throw t; }
};
BuiltinExceptionWrapper<UnwindExceptionReset> resetException;
BuiltinExceptionWrapper<UnwindExceptionKill> killException;
void
Process::forEachKid(const std::function<void(Process *)> &work)
{
for (auto &kid: get_child_objects()) {
Process *p_kid = dynamic_cast<Process *>(kid);
if (p_kid)
work(p_kid);
}
}
void
Process::suspend(bool inc_kids)
{
if (inc_kids)
forEachKid([](Process *p) { p->suspend(true); });
if (!_suspended) {
_suspended = true;
_suspendedReady = scheduler.suspend(this);
if (procKind() != ::sc_core::SC_METHOD_PROC_ &&
scheduler.current() == this) {
// This isn't in the spec, but Accellera says that a thread that
// self suspends should be marked ready immediately when it's
// resumed.
_suspendedReady = true;
scheduler.yield();
}
}
}
void
Process::resume(bool inc_kids)
{
if (inc_kids)
forEachKid([](Process *p) { p->resume(true); });
if (_suspended) {
_suspended = false;
if (_suspendedReady)
scheduler.resume(this);
_suspendedReady = false;
}
}
void
Process::disable(bool inc_kids)
{
if (inc_kids)
forEachKid([](Process *p) { p->disable(true); });
if (!::sc_core::sc_allow_process_control_corners &&
timeoutEvent.scheduled()) {
std::string message("attempt to disable a thread with timeout wait: ");
message += name();
SC_REPORT_ERROR("Undefined process control interaction",
message.c_str());
}
_disabled = true;
}
void
Process::enable(bool inc_kids)
{
if (inc_kids)
forEachKid([](Process *p) { p->enable(true); });
_disabled = false;
}
void
Process::kill(bool inc_kids)
{
if (::sc_core::sc_get_status() != ::sc_core::SC_RUNNING) {
SC_REPORT_ERROR(
"(E572) a process may not be killed before it is initialized",
name());
}
// Propogate the kill to our children no matter what happens to us.
if (inc_kids)
forEachKid([](Process *p) { p->kill(true); });
// If we're in the middle of unwinding, ignore the kill request.
if (_isUnwinding)
return;
// Update our state.
terminate();
_isUnwinding = true;
// Make sure this process isn't marked ready
popListNode();
// Inject the kill exception into this process if it's started.
if (!_needsStart)
injectException(killException);
}
void
Process::reset(bool inc_kids)
{
if (::sc_core::sc_get_status() != ::sc_core::SC_RUNNING) {
SC_REPORT_ERROR(
"(E573) a process may not be asynchronously reset while"
"the simulation is not running", name());
}
// Propogate the reset to our children no matter what happens to us.
if (inc_kids)
forEachKid([](Process *p) { p->reset(true); });
// If we're in the middle of unwinding, ignore the reset request.
if (_isUnwinding)
return;
if (_needsStart) {
scheduler.runNow(this);
} else {
_isUnwinding = true;
injectException(resetException);
}
_resetEvent.notify();
}
void
Process::throw_it(ExceptionWrapperBase &exc, bool inc_kids)
{
if (::sc_core::sc_get_status() != ::sc_core::SC_RUNNING) {
SC_REPORT_ERROR(
"(E574) throw_it not allowed unless simulation is running ",
name());
}
if (inc_kids)
forEachKid([&exc](Process *p) { p->throw_it(exc, true); });
// Only inject an exception into threads that have started.
if (!_needsStart)
injectException(exc);
}
void
Process::injectException(ExceptionWrapperBase &exc)
{
excWrapper = &exc;
scheduler.runNow(this);
};
void
Process::syncResetOn(bool inc_kids)
{
if (inc_kids)
forEachKid([](Process *p) { p->syncResetOn(true); });
_syncReset = true;
}
void
Process::syncResetOff(bool inc_kids)
{
if (inc_kids)
forEachKid([](Process *p) { p->syncResetOff(true); });
_syncReset = false;
}
void
Process::run()
{
bool reset;
do {
reset = false;
try {
func->call();
} catch(ScHalt) {
std::cout << "Terminating process " << name() << std::endl;
} catch(const ::sc_core::sc_unwind_exception &exc) {
reset = exc.is_reset();
_isUnwinding = false;
} catch (...) {
throw;
}
} while (reset);
needsStart(true);
}
void
Process::addStatic(StaticSensitivity *s)
{
staticSensitivities.push_back(s);
}
void
Process::setDynamic(DynamicSensitivity *s)
{
if (dynamicSensitivity) {
dynamicSensitivity->clear();
delete dynamicSensitivity;
}
dynamicSensitivity = s;
}
void
Process::cancelTimeout()
{
if (timeoutEvent.scheduled())
scheduler.deschedule(&timeoutEvent);
}
void
Process::setTimeout(::sc_core::sc_time t)
{
cancelTimeout();
scheduler.schedule(&timeoutEvent, t);
}
void
Process::timeout()
{
// A process is considered timed_out only if it was also waiting for an
// event but got a timeout instead.
_timedOut = (dynamicSensitivity != nullptr);
setDynamic(nullptr);
if (disabled())
return;
ready();
}
void
Process::satisfySensitivity(Sensitivity *s)
{
// If there's a dynamic sensitivity and this wasn't it, ignore.
if ((dynamicSensitivity || timeoutEvent.scheduled()) &&
dynamicSensitivity != s) {
return;
}
_timedOut = false;
// This sensitivity should already be cleared by this point, or the event
// which triggered it will take care of it.
delete dynamicSensitivity;
dynamicSensitivity = nullptr;
cancelTimeout();
ready();
}
void
Process::ready()
{
if (disabled())
return;
if (suspended())
_suspendedReady = true;
else
scheduler.ready(this);
}
void
Process::lastReport(::sc_core::sc_report *report)
{
if (report) {
_lastReport = std::unique_ptr<::sc_core::sc_report>(
new ::sc_core::sc_report(*report));
} else {
_lastReport = nullptr;
}
}
::sc_core::sc_report *Process::lastReport() const { return _lastReport.get(); }
Process::Process(const char *name, ProcessFuncWrapper *func, bool internal) :
::sc_core::sc_process_b(name), excWrapper(nullptr),
timeoutEvent([this]() { this->timeout(); }),
func(func), _internal(internal), _timedOut(false), _dontInitialize(false),
_needsStart(true), _isUnwinding(false), _terminated(false),
_suspended(false), _disabled(false), _syncReset(false), refCount(0),
stackSize(::Fiber::DefaultStackSize), dynamicSensitivity(nullptr)
{
_dynamic =
(::sc_core::sc_get_status() >
::sc_core::SC_BEFORE_END_OF_ELABORATION);
_newest = this;
}
void
Process::terminate()
{
_terminated = true;
_suspendedReady = false;
_suspended = false;
_syncReset = false;
clearDynamic();
cancelTimeout();
for (auto s: staticSensitivities) {
s->clear();
delete s;
}
staticSensitivities.clear();
_terminatedEvent.notify();
for (auto jw: joinWaiters)
jw->signal();
joinWaiters.clear();
}
Process *Process::_newest;
void
throw_it_wrapper(Process *p, ExceptionWrapperBase &exc, bool inc_kids)
{
p->throw_it(exc, inc_kids);
}
} // namespace sc_gem5
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