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genode/repos/base-hw/src/lib/base/signal.cc

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/*
* \brief Implementations of the signaling framework specific for HW-core
* \author Martin Stein
* \date 2012-05-05
*/
/*
* Copyright (C) 2012-2017 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU Affero General Public License version 3.
*/
/* Genode includes */
#include <util/retry.h>
#include <base/thread.h>
#include <base/signal.h>
#include <base/env.h>
#include <base/trace/events.h>
/* base-internal includes */
#include <base/internal/native_thread.h>
#include <base/internal/lock_helper.h>
#include <base/internal/native_utcb.h>
#include <base/internal/native_env.h>
#include <base/internal/capability_space.h>
#include <base/internal/globals.h>
using namespace Genode;
namespace Genode {
/*
* On base-hw, no signal thread is needed.
*/
void init_signal_thread(Env &) __attribute__((weak));
void init_signal_thread(Env &) { }
void destroy_signal_thread() { }
}
/********************
** Signal context **
********************/
void Signal_context::submit(unsigned) { Genode::error("not implemented"); }
/************************
** Signal transmitter **
************************/
void Signal_transmitter::submit(unsigned cnt)
{
{
Trace::Signal_submit trace_event(cnt);
}
Kernel::submit_signal(Capability_space::capid(_context), cnt);
}
/*********************
** Signal_receiver **
*********************/
Signal_receiver::Signal_receiver()
{
for (;;) {
Ram_quota ram_upgrade { 0 };
Cap_quota cap_upgrade { 0 };
try {
_cap = internal_env().pd().alloc_signal_source();
break;
}
catch (Out_of_ram) { ram_upgrade = Ram_quota { 2*1024*sizeof(long) }; }
catch (Out_of_caps) { cap_upgrade = Cap_quota { 4 }; }
internal_env().upgrade(Parent::Env::pd(),
String<100>("ram_quota=", ram_upgrade, ", "
"cap_quota=", cap_upgrade).string());
}
}
void Signal_receiver::_platform_destructor()
{
/* release server resources of receiver */
env_deprecated()->pd_session()->free_signal_source(_cap);
}
void Signal_receiver::_platform_begin_dissolve(Signal_context * const c)
{
Kernel::kill_signal_context(Capability_space::capid(c->_cap));
}
void Signal_receiver::_platform_finish_dissolve(Signal_context *) { }
Signal_context_capability Signal_receiver::manage(Signal_context * const c)
{
/* ensure that the context isn't managed already */
Lock::Guard contexts_guard(_contexts_lock);
Lock::Guard context_guard(c->_lock);
if (c->_receiver) { throw Context_already_in_use(); }
for (;;) {
Ram_quota ram_upgrade { 0 };
Cap_quota cap_upgrade { 0 };
try {
/* use signal context as imprint */
c->_cap = env_deprecated()->pd_session()->alloc_context(_cap, (unsigned long)c);
c->_receiver = this;
_contexts.insert(&c->_receiver_le);
return c->_cap;
}
catch (Out_of_ram) { ram_upgrade = Ram_quota { 1024*sizeof(long) }; }
catch (Out_of_caps) { cap_upgrade = Cap_quota { 4 }; }
upgrade_pd_quota_non_blocking(ram_upgrade, cap_upgrade);
}
}
void Signal_receiver::block_for_signal()
{
/* wait for a signal */
if (Kernel::await_signal(Capability_space::capid(_cap))) {
/* canceled */
return;
}
/* read signal data */
const void * const utcb = Thread::myself()->utcb()->data();
Signal::Data * const data = (Signal::Data *)utcb;
Signal_context * const context = data->context;
{
/* update signal context */
Lock::Guard lock_guard(context->_lock);
unsigned const num = context->_curr_signal.num + data->num;
context->_pending = true;
context->_curr_signal = Signal::Data(context, num);
}
/* end kernel-aided life-time management */
Kernel::ack_signal(Capability_space::capid(data->context->_cap));
}
void Signal_receiver::unblock_signal_waiter(Rpc_entrypoint &rpc_ep)
{
Kernel::cancel_next_await_signal(native_thread_id(&rpc_ep));
}
void Signal_receiver::local_submit(Signal::Data) { Genode::error("not implemented"); }
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