genode/repos/ports/include/vmm/vcpu_dispatcher.h

/*
 * \brief  Utilities for implementing VMMs on Genode/NOVA
 * \author Norman Feske
 * \date   2013-08-20
 */

/*
 * Copyright (C) 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__VMM__VCPU_DISPATCHER_H_
#define _INCLUDE__VMM__VCPU_DISPATCHER_H_

/* Genode includes */
#include <util/retry.h>
#include <nova_native_pd/client.h>

namespace Vmm {

	using namespace Genode;

	template <class T>
	class Vcpu_dispatcher;
}


/**
 * Thread that handles virtualization events of a 'Vmm::Vcpu_thread'
 */
template <class T>
class Vmm::Vcpu_dispatcher : public T
{
	private:

		enum { WEIGHT = Genode::Cpu_session::DEFAULT_WEIGHT };

		Pd_session           &_pd;
		Nova_native_pd_client _native_pd { _pd.native_pd() };

		/**
		 * Portal entry point entered on virtualization events
		 *
		 * For each event type used as argument of the 'register_handler'
		 * function template, the compiler automatically generates a separate
		 * instance of this function. The sole purpose of this function is to
		 * call the 'Vcpu' member function corresponding to the event type.
		 */
		template <unsigned EV, typename DISPATCHER, void (DISPATCHER::*FUNC)()>
		static void _portal_entry()
		{
			/* obtain this pointer of the event handler */
			Genode::Thread_base *myself = Genode::Thread_base::myself();
			DISPATCHER *vd = static_cast<DISPATCHER *>(myself);

			vd->exit_reason = EV;

			/* call event-specific handler function */
			(vd->*FUNC)();

			/* continue execution of the guest */
			Nova::reply(myself->stack_top());
		}

	public:

		unsigned int exit_reason = 0;

		Vcpu_dispatcher(size_t stack_size, Pd_session &pd,
		                Cpu_session * cpu_session,
		                Genode::Affinity::Location location)
		:
			T(WEIGHT, "vCPU dispatcher", stack_size), _pd(pd)
		{
			using namespace Genode;

			/* place the thread on CPU described by location object */
			cpu_session->affinity(T::cap(), location);

			/* request creation of a 'local' EC */
			T::_tid.ec_sel = Native_thread::INVALID_INDEX - 1;
			T::start();

		}

		template <typename X>
		Vcpu_dispatcher(size_t stack_size, Pd_session &pd,
		                Cpu_session * cpu_session,
		                Genode::Affinity::Location location,
		                X attr, void *(*start_routine) (void *), void *arg)
		: T(attr, start_routine, arg, stack_size, "vCPU dispatcher", nullptr),
		  _pd(pd)
		{
			using namespace Genode;

			/* place the thread on CPU described by location object */
			cpu_session->affinity(T::cap(), location);

			/* request creation of a 'local' EC */
			T::_tid.ec_sel = Native_thread::INVALID_INDEX - 1;
			T::start();
		}

		/**
		 * Register virtualization event handler
		 */
		template <unsigned EV, typename DISPATCHER, void (DISPATCHER::*FUNC)()>
		bool register_handler(addr_t exc_base, Nova::Mtd mtd)
		{
			/*
			 * Let the compiler generate an instance of a portal entry
			 */
			void (*entry)() = &_portal_entry<EV, DISPATCHER, FUNC>;

			/* Create the portal at the desired selector index */
			_native_pd.rcv_window(exc_base + EV);

			Native_capability thread_cap(T::tid().ec_sel);

			Untyped_capability handler =
				retry<Genode::Pd_session::Out_of_metadata>(
					[&] () {
						return _native_pd.alloc_rpc_cap(thread_cap, (addr_t)entry,
						                                mtd.value());
					},
					[&] () {
						Pd_session_client *client =
							dynamic_cast<Pd_session_client*>(&_pd);

						if (client)
							env()->parent()->upgrade(*client, "ram_quota=16K");
					});

			return handler.valid() && (exc_base + EV == handler.local_name());
		}

		/**
		 * Unused member of the 'Thread_base' interface
		 *
		 * Similarly to how 'Rpc_entrypoints' are handled, a 'Vcpu_dispatcher'
		 * comes with a custom initialization procedure, which does not call
		 * the thread's normal entry function. Instead, the thread's EC gets
		 * associated with several portals, each for handling a specific
		 * virtualization event.
		 */
		void entry() { }

		/**
		 * Return capability selector of the VCPU's SM and EC
		 *
		 * The returned number corresponds to the VCPU's semaphore selector.
		 * The consecutive number corresponds to the EC. The number returned by
		 * this function is used by the VMM code as a unique identifier of the
		 * VCPU. I.e., it gets passed as arguments for 'MessageHostOp'
		 * operations.
		 */
		Nova::mword_t sel_sm_ec()
		{
			return T::tid().exc_pt_sel + Nova::SM_SEL_EC;
		}
};

#endif /* _INCLUDE__VMM__VCPU_DISPATCHER_H_ */