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genode/repos/ports/include/vmm/vcpu_thread.h
Norman Feske 9d67f9fc8e Remove Allocator_guard 
This patch removes old 'Allocator_guard' utility and replaces its use
with the modern 'Constrained_ram_allocator'.

The adjustment of core in this respect has the side effect of a more
accurate capability accounting in core's CPU, TRACE, and RM services.
In particular, the dataspace capabilities needed for core-internal
allocations via the 'Sliced_heap' are accounted to the client now.
The same goes for nitpicker and nic_dump as other former users of the
allocator guard. Hence, the patch also touches code at the client and
server sides related to these services.

The only remaining user of the 'Allocator_guard' is the Intel GPU
driver. As the adaptation of this component would be too invasive
without testing, this patch leaves this component unchanged by keeping a
copy of the 'allocator_guard.h' locally at the component.

Fixes #3750
2020-05-18 10:16:12 +02:00

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/*
* \brief Utilities for implementing VMMs on Genode/NOVA
* \author Norman Feske
* \date 2013-08-20
*/
/*
* Copyright (C) 2013-2017 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.
*/
#ifndef _INCLUDE__VMM__VCPU_THREAD_H_
#define _INCLUDE__VMM__VCPU_THREAD_H_
/* Genode includes */
#include <base/thread.h>
#include <cpu_session/connection.h>
#include <pd_session/connection.h>
#include <region_map/client.h>
#include <cpu_thread/client.h>
#include <nova_native_cpu/client.h>
/* NOVA includes */
#include <nova/native_thread.h>
#include <nova/cap_map.h>
namespace Vmm {
using namespace Genode;
class Vcpu_thread;
class Vcpu_other_pd;
class Vcpu_same_pd;
}
class Vmm::Vcpu_thread
{
public:
virtual Genode::addr_t exc_base() = 0;
virtual void start(Genode::addr_t) = 0;
virtual ~Vcpu_thread() { };
};
class Vmm::Vcpu_other_pd : public Vmm::Vcpu_thread
{
private:
Genode::Capability<Genode::Pd_session> _pd_cap;
Genode::Affinity::Location _location;
Genode::Cpu_connection *_cpu_connection;
Genode::addr_t _exc_pt_sel;
/*
* Noncopyable
*/
Vcpu_other_pd(Vcpu_other_pd const &);
Vcpu_other_pd &operator = (Vcpu_other_pd const &);
public:
Vcpu_other_pd(Cpu_connection * cpu_connection,
Genode::Affinity::Location location,
Genode::Capability<Genode::Pd_session> pd_cap,
Genode::size_t = 0 /* stack_size */)
:
_pd_cap(pd_cap), _location(location), _cpu_connection(cpu_connection),
_exc_pt_sel(Genode::cap_map().insert(Nova::NUM_INITIAL_VCPU_PT_LOG2))
{ }
void start(Genode::addr_t sel_ec) override
{
using namespace Genode;
Thread_capability vcpu_vm =
_cpu_connection->retry_with_upgrade(Ram_quota{8*1024}, Cap_quota{2},
[&] ()
{
return _cpu_connection->create_thread(_pd_cap, "vCPU", _location,
Cpu_session::Weight());
});
/* tell parent that this will be a vCPU */
Nova_native_cpu::Thread_type thread_type { Nova_native_cpu::Thread_type::VCPU };
Nova_native_cpu::Exception_base exception_base { _exc_pt_sel };
Nova_native_cpu_client native_cpu(_cpu_connection->native_cpu());
native_cpu.thread_type(vcpu_vm, thread_type, exception_base);
Cpu_thread_client cpu_thread(vcpu_vm);
/*
* Translate vcpu_vm thread cap via current executing thread,
* which is used to lookup current PD to delegate VM-exit portals.
*/
addr_t const current = Thread::myself()->native_thread().exc_pt_sel
+ Nova::PT_SEL_PAGE_FAULT;
translate_remote_pager(current, vcpu_vm.local_name());
/* start vCPU in separate PD */
cpu_thread.start(0, 0);
/*
* Request native EC thread cap and put it next to the
* SM cap - see Vcpu_dispatcher->sel_sm_ec description
*/
addr_t const pager_pt = _exc_pt_sel + Nova::PT_SEL_PAGE_FAULT;
request_native_ec_cap(pager_pt, sel_ec);
/* solely needed for vcpu to request native ec cap - drop it */
Nova::revoke(Nova::Obj_crd(pager_pt, 0));
/* request creation of SC to let vCPU run */
cpu_thread.resume();
}
Genode::addr_t exc_base() override { return _exc_pt_sel; }
};
class Vmm::Vcpu_same_pd : public Vmm::Vcpu_thread, Genode::Thread
{
enum { WEIGHT = Genode::Cpu_session::Weight::DEFAULT_WEIGHT };
public:
Vcpu_same_pd(Cpu_connection * cpu_connection,
Genode::Affinity::Location location,
Genode::Capability<Genode::Pd_session>,
Genode::size_t stack_size)
:
Thread(WEIGHT, "vCPU", stack_size, Type::NORMAL, cpu_connection, location)
{
/* release pre-allocated selectors of Thread */
Genode::cap_map().remove(native_thread().exc_pt_sel, Nova::NUM_INITIAL_PT_LOG2);
/* allocate correct number of selectors */
this->native_thread().exc_pt_sel = cap_map().insert(Nova::NUM_INITIAL_VCPU_PT_LOG2);
/* tell generic thread code that this becomes a vCPU */
this->native_thread().vcpu = true;
}
~Vcpu_same_pd()
{
using namespace Nova;
revoke(Nova::Obj_crd(this->native_thread().exc_pt_sel, NUM_INITIAL_VCPU_PT_LOG2));
cap_map().remove(this->native_thread().exc_pt_sel, NUM_INITIAL_VCPU_PT_LOG2, false);
/* allocate selectors for ~Thread */
this->native_thread().exc_pt_sel = cap_map().insert(Nova::NUM_INITIAL_PT_LOG2);
}
addr_t exc_base() override { return this->native_thread().exc_pt_sel; }
void start(Genode::addr_t sel_ec) override
{
this->Thread::start();
/*
* Request native EC thread cap and put it next to the
* SM cap - see Vcpu_dispatcher->sel_sm_ec description
*/
addr_t const pager_pt = exc_base() + Nova::PT_SEL_PAGE_FAULT;
request_native_ec_cap(pager_pt, sel_ec);
/* solely needed for vcpu to request native ec cap - drop it */
Nova::revoke(Nova::Obj_crd(pager_pt, 0));
}
void entry() override { }
};
#endif /* _INCLUDE__VMM__VCPU_THREAD_H_ */
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