genode/base-nova/include/base/pager.h
Alexander Boettcher 4ae1faf14d base: add affinity support to pager construction
Propagating the affinity information is needed to allow for assigning
a pager thread that is local to the CPU of the to-be-created thread.

issue #814
2013-08-13 17:08:23 +02:00

243 lines
5.3 KiB
C++

/*
* \brief Paging-server framework
* \author Norman Feske
* \date 2006-04-28
*/
/*
* 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 _INCLUDE__BASE__PAGER_H_
#define _INCLUDE__BASE__PAGER_H_
#include <base/thread.h>
#include <base/object_pool.h>
#include <base/ipc_pager.h>
#include <base/capability.h>
#include <cap_session/cap_session.h>
#include <pager/capability.h>
namespace Genode {
class Pager_entrypoint;
/*
* On NOVA, each pager object is an EC that corresponds to one user thread.
*/
class Pager_object : public Object_pool<Pager_object>::Entry,
Thread_base
{
private:
void entry() { }
void start() { }
unsigned long _badge; /* used for debugging */
/**
* User-level signal handler registered for this pager object via
* 'Cpu_session::exception_handler()'.
*/
Signal_context_capability _exception_sigh;
/**
* Portal selector for object cleanup/destruction
*/
addr_t _pt_cleanup;
/**
* Semaphore selector to synchronize pause/state/resume operations
*/
addr_t _sm_state_notify;
addr_t _initial_esp;
addr_t _initial_eip;
struct
{
struct Thread_state thread;
addr_t sel_client_ec;
bool valid;
bool dead;
bool singlestep;
} _state;
Thread_capability _thread_cap;
void _copy_state(Nova::Utcb * utcb);
static void _page_fault_handler();
static void _startup_handler();
static void _invoke_handler();
static void _recall_handler();
__attribute__((regparm(1)))
static void _exception_handler(addr_t portal_id);
static Nova::Utcb * _check_handler(Thread_base *&, Pager_object *&);
public:
Pager_object(unsigned long badge, unsigned affinity);
virtual ~Pager_object();
unsigned long badge() const { return _badge; }
virtual int pager(Ipc_pager &ps) = 0;
/**
* Assign user-level exception handler for the pager object
*/
void exception_handler(Signal_context_capability sigh)
{
_exception_sigh = sigh;
}
/**
* Return base of initial portal window
*/
addr_t ec_sel() { return _tid.ec_sel; }
/**
* Return base of initial portal window
*/
addr_t exc_pt_sel() { return _tid.exc_pt_sel; }
/**
* Set initial stack pointer used by the startup handler
*/
void initial_esp(addr_t esp) { _initial_esp = esp; }
/**
* Set initial instruction pointer used by the startup handler
*/
void initial_eip(addr_t eip) { _initial_eip = eip; }
/**
* Continue execution of pager object
*/
void wake_up();
/**
* Notify exception handler about the occurrence of an exception
*/
bool submit_exception_signal()
{
if (!_exception_sigh.valid()) return false;
Signal_transmitter transmitter(_exception_sigh);
transmitter.submit();
return true;
}
/**
* Return entry point address
*/
addr_t handler_address()
{
return reinterpret_cast<addr_t>(_invoke_handler);
}
/**
* Return semaphore to block on until state of a recall is
* available.
*/
Native_capability notify_sm()
{
if (_state.valid)
return Native_capability::invalid_cap();
if (_state.dead)
return Native_capability::invalid_cap();
return Native_capability(_sm_state_notify);
}
/**
* Copy thread state of recalled thread.
*/
int copy_thread_state(Thread_state * state_dst)
{
if (!state_dst || !_state.valid) return -1;
*state_dst = _state.thread;
return 0;
}
/**
* Cancel blocking in a lock so that recall exception can take
* place.
*/
void client_cancel_blocking();
uint8_t client_recall();
void client_set_ec(addr_t ec) { _state.sel_client_ec = ec; }
void single_step(bool on) { _state.singlestep = on; }
/**
* Remember thread cap so that rm_session can tell thread that
* rm_client is gone.
*/
Thread_capability thread_cap() { return _thread_cap; } const
void thread_cap(Thread_capability cap) { _thread_cap = cap; }
/**
* Make sure nobody is in the handler anymore by doing an IPC to a
* local cap pointing to same serving thread (if not running in the
* context of the serving thread). When the call returns
* we know that nobody is handled by this object anymore, because
* all remotely available portals had been revoked beforehand.
*/
void cleanup_call();
};
/**
* Dummy pager activation
*
* Because on NOVA each pager object can be invoked separately,
* there is no central pager activation.
*/
class Pager_activation_base { };
template <unsigned STACK_SIZE>
class Pager_activation : public Pager_activation_base
{ };
/**
* Dummy pager entrypoint
*/
class Pager_entrypoint : public Object_pool<Pager_object>
{
private:
Cap_session *_cap_session;
public:
Pager_entrypoint(Cap_session *cap_session,
Pager_activation_base *a = 0)
: _cap_session(cap_session) { }
/**
* Return capability for 'Pager_object'
*/
Pager_capability manage(Pager_object *obj);
/**
* Dissolve 'Pager_object' from entry point
*/
void dissolve(Pager_object *obj);
};
}
#endif /* _INCLUDE__BASE__PAGER_H_ */