genode/base-nova/include/base/pager.h
Norman Feske 5fe29e8e4a Express affinities via Cartesian coordinates
This patch introduces new types for expressing CPU affinities. Instead
of dealing with physical CPU numbers, affinities are expressed as
rectangles in a grid of virtual CPU nodes. This clears the way to
conveniently assign sets of adjacent CPUs to subsystems, each of them
managing their respective viewport of the coordinate space.

By using 2D Cartesian coordinates, the locality of CPU nodes can be
modeled for different topologies such as SMP (simple Nx1 grid), grids of
NUMA nodes, or ring topologies.
2013-08-13 17:08:24 +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, Affinity::Location location);
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_ */