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genode/base-nova/src/core/include/cpu_session_component.h

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/*
* \brief Core-specific instance of the CPU session/thread interfaces
* \author Christian Helmuth
\author Norman Feske
* \author Alexander Boettcher
* \date 2006-07-17
*/
/*
* Copyright (C) 2006-2013 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__CPU_SESSION_COMPONENT_H_
#define _CORE__INCLUDE__CPU_SESSION_COMPONENT_H_
/* Genode includes */
#include <util/list.h>
#include <base/allocator_guard.h>
#include <base/tslab.h>
#include <base/lock.h>
#include <base/pager.h>
#include <base/rpc_server.h>
#include <nova_cpu_session/nova_cpu_session.h>
/* core includes */
#include <platform_thread.h>
#include <trace/control_area.h>
#include <trace/source_registry.h>
namespace Genode {
/**
* RPC interface of CPU thread
*
* We make 'Cpu_thread' a RPC object only to be able to lookup CPU threads
* from thread capabilities supplied as arguments to CPU-session functions.
* A CPU thread does not provide an actual RPC interface.
*/
struct Cpu_thread
{
GENODE_RPC_INTERFACE();
};
class Cpu_thread_component : public Rpc_object<Cpu_thread>,
public List<Cpu_thread_component>::Element
{
public:
typedef Trace::Session_label Session_label;
typedef Trace::Thread_name Thread_name;
private:
Thread_name const _name;
Platform_thread _platform_thread;
bool _bound; /* pd binding flag */
Signal_context_capability _sigh; /* exception handler */
unsigned const _trace_control_index;
Trace::Source _trace_source;
public:
Cpu_thread_component(Session_label const &label,
Thread_name const &name,
unsigned priority, addr_t utcb,
Signal_context_capability sigh,
unsigned trace_control_index,
Trace::Control &trace_control)
:
_name(name),
_platform_thread(name.string(), priority, utcb), _bound(false),
_sigh(sigh), _trace_control_index(trace_control_index),
_trace_source(label, _name, trace_control)
{
update_exception_sigh();
}
/************************
** Accessor functions **
************************/
Platform_thread *platform_thread() { return &_platform_thread; }
bool bound() const { return _bound; }
void bound(bool b) { _bound = b; }
Trace::Source *trace_source() { return &_trace_source; }
void sigh(Signal_context_capability sigh)
{
_sigh = sigh;
update_exception_sigh();
}
/**
* Propagate exception handler to platform thread
*/
void update_exception_sigh();
/**
* Return index within the CPU-session's trace control area
*/
unsigned trace_control_index() const { return _trace_control_index; }
};
class Cpu_session_component : public Rpc_object<Nova_cpu_session>
{
public:
typedef Cpu_thread_component::Session_label Session_label;
private:
/**
* Allocator used for managing the CPU threads associated with the
* CPU session
*/
typedef Tslab<Cpu_thread_component, 1024> Cpu_thread_allocator;
Session_label _label;
Rpc_entrypoint *_thread_ep;
Pager_entrypoint *_pager_ep;
Allocator_guard _md_alloc; /* guarded meta-data allocator */
Cpu_thread_allocator _thread_alloc; /* meta-data allocator */
Lock _thread_alloc_lock; /* protect allocator access */
List<Cpu_thread_component> _thread_list;
Lock _thread_list_lock; /* protect thread list */
unsigned _priority; /* priority of threads
created with this
session */
Affinity::Location _location; /* CPU affinity of this
session */
Trace::Source_registry &_trace_sources;
Trace::Control_area _trace_control_area;
/**
* Exception handler that will be invoked unless overridden by a
* call of 'Cpu_session::exception_handler'.
*/
Signal_context_capability _default_exception_handler;
/**
* Raw thread-killing functionality
*
* This function is called from the 'kill_thread' function and
* the destructor. Each these functions grab the list lock
* by themselves and call this function to perform the actual
* killing.
*/
void _unsynchronized_kill_thread(Cpu_thread_component *thread);
public:
/**
* Constructor
*/
Cpu_session_component(Rpc_entrypoint *thread_ep,
Pager_entrypoint *pager_ep,
Allocator *md_alloc,
Trace::Source_registry &trace_sources,
const char *args, Affinity const &affinity);
/**
* Destructor
*/
~Cpu_session_component();
/**
* Register quota donation at allocator guard
*/
void upgrade_ram_quota(size_t ram_quota) { _md_alloc.upgrade(ram_quota); }
/***************************
** CPU session interface **
***************************/
Thread_capability create_thread(Name const &, addr_t);
Ram_dataspace_capability utcb(Thread_capability thread);
void kill_thread(Thread_capability);
int set_pager(Thread_capability, Pager_capability);
int start(Thread_capability, addr_t, addr_t);
void pause(Thread_capability thread_cap);
void resume(Thread_capability thread_cap);
void single_step(Thread_capability thread_cap, bool enable);
void cancel_blocking(Thread_capability);
int name(Thread_capability, char *, size_t);
Thread_state state(Thread_capability);
void state(Thread_capability, Thread_state const &);
void exception_handler(Thread_capability, Signal_context_capability);
Affinity::Space affinity_space() const;
void affinity(Thread_capability, Affinity::Location);
Dataspace_capability trace_control();
unsigned trace_control_index(Thread_capability);
Dataspace_capability trace_buffer(Thread_capability);
Dataspace_capability trace_policy(Thread_capability);
/******************************
** NOVA specific extensions **
******************************/
Native_capability native_cap(Thread_capability);
Native_capability pause_sync(Thread_capability);
};
}
#endif /* _CORE__INCLUDE__CPU_SESSION_COMPONENT_H_ */
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