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19c13877ca
Issue #5227
398 lines
12 KiB
C++
398 lines
12 KiB
C++
/*
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* \brief Protection domain (PD) session interface
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* \author Christian Helmuth
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* \author Norman Feske
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* \date 2006-06-27
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*/
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/*
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* Copyright (C) 2006-2017 Genode Labs GmbH
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*
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* This file is part of the Genode OS framework, which is distributed
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* under the terms of the GNU Affero General Public License version 3.
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*/
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#ifndef _INCLUDE__PD_SESSION__PD_SESSION_H_
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#define _INCLUDE__PD_SESSION__PD_SESSION_H_
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#include <util/attempt.h>
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#include <base/affinity.h>
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#include <cpu/cpu_state.h>
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#include <session/session.h>
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#include <region_map/region_map.h>
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#include <base/ram_allocator.h>
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namespace Genode {
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struct Pd_session;
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struct Pd_session_client;
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struct Parent;
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struct Signal_context;
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}
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struct Genode::Pd_session : Session, Ram_allocator
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{
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/**
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* \noapi
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*/
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static const char *service_name() { return "PD"; }
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/*
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* A PD session consumes a dataspace capability for the session-object
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* allocation, a capability for the 'Native_pd' RPC interface, its
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* session capability, and the RPC capabilities for the 3 contained
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* region maps.
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*
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* Furthermore, we account for the dataspace capabilities allocated during
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* the component bootstrapping.
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*/
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static constexpr unsigned CAP_QUOTA = 6 + 7;
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static constexpr size_t RAM_QUOTA = 24*1024*sizeof(long);
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using Client = Pd_session_client;
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virtual ~Pd_session() { }
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/**
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* Assign parent to protection domain
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*
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* \param parent capability of parent interface
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*/
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virtual void assign_parent(Capability<Parent> parent) = 0;
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/**
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* Assign PCI device to PD
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*
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* The specified address has to refer to the locally mapped PCI
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* configuration space of the device.
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*
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* This function is solely used on the NOVA kernel.
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*/
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virtual bool assign_pci(addr_t pci_config_memory_address, uint16_t bdf) = 0;
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struct Virt_range { addr_t start; size_t num_bytes; };
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enum class Map_result { OK, OUT_OF_RAM, OUT_OF_CAPS };
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/**
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* Trigger eager population of page table within specified virtual range
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*
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* If the used kernel don't support this feature, the operation will
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* silently ignore the request.
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*/
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virtual Map_result map(Virt_range) = 0;
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/********************************
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** Support for the signal API **
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********************************/
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enum class Signal_source_error { OUT_OF_RAM, OUT_OF_CAPS };
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using Signal_source_result = Attempt<Capability<Signal_source>, Signal_source_error>;
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/**
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* Return signal source for the PD
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*
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* The signal source provides an interface to wait for incoming signals.
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*/
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virtual Signal_source_result signal_source() = 0;
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/**
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* Free a signal source
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*
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* \param cap capability of the signal source to destroy
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*/
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virtual void free_signal_source(Capability<Signal_source> cap) = 0;
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enum class Alloc_context_error { OUT_OF_RAM, OUT_OF_CAPS, INVALID_SIGNAL_SOURCE };
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using Alloc_context_result = Attempt<Capability<Signal_context>, Alloc_context_error>;
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struct Imprint { addr_t value; };
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/**
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* Allocate signal context
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*
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* \param source signal source that shall provide the new context
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*
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* \param imprint opaque value that gets delivered with signals
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* originating from the allocated signal-context capability
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* \return new signal-context capability
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*/
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virtual Alloc_context_result alloc_context(Capability<Signal_source> source,
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Imprint imprint) = 0;
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/**
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* Free signal-context
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*
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* \param cap capability of signal-context to release
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*/
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virtual void free_context(Capability<Signal_context> cap) = 0;
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/**
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* Submit signals to the specified signal context
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*
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* \param context signal destination
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* \param cnt number of signals to submit at once
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*
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* The 'context' argument does not necessarily belong to this PD session.
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* Normally, it is a capability obtained from a potentially untrusted
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* component. Because we cannot trust this capability, signals are not
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* submitted by invoking 'cap' directly but by using it as argument to our
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* trusted PD-session interface. Otherwise, a potential signal receiver
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* could supply a capability with a blocking interface to compromise the
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* nonblocking behaviour of the signal submission.
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*/
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virtual void submit(Capability<Signal_context> context, unsigned cnt = 1) = 0;
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/***********************************
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** Support for the RPC framework **
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***********************************/
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enum class Alloc_rpc_cap_error { OUT_OF_RAM, OUT_OF_CAPS };
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using Alloc_rpc_cap_result = Attempt<Native_capability, Alloc_rpc_cap_error>;
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/**
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* Allocate new RPC-object capability
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*
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* \param ep entry point that will use this capability
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*
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* \return new RPC capability
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*/
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virtual Alloc_rpc_cap_result alloc_rpc_cap(Native_capability ep) = 0;
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/**
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* Free RPC-object capability
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*
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* \param cap capability to free
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*/
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virtual void free_rpc_cap(Native_capability cap) = 0;
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/**************************************
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** Virtual address-space management **
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**************************************/
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enum { LINKER_AREA_SIZE = 256*1024*1024UL };
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/**
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* Return region map of the PD's virtual address space
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*/
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virtual Capability<Region_map> address_space() = 0;
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/**
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* Return region map of the PD's stack area
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*/
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virtual Capability<Region_map> stack_area() = 0;
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/**
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* Return region map of the PD's linker area
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*/
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virtual Capability<Region_map> linker_area() = 0;
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/*******************************************
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** Accounting for capability allocations **
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*******************************************/
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enum class Ref_account_result { OK, INVALID_SESSION };
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/**
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* Define reference account for the PD session
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*/
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virtual Ref_account_result ref_account(Capability<Pd_session>) = 0;
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enum class Transfer_cap_quota_result { OK, OUT_OF_CAPS, INVALID_SESSION, NO_REF_ACCOUNT };
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/**
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* Transfer capability quota to another PD session
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*
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* \param to receiver of quota donation
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* \param amount amount of quota to donate
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*
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* Quota can only be transfered if the specified PD session is either the
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* reference account for this session or vice versa.
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*/
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virtual Transfer_cap_quota_result transfer_quota(Capability<Pd_session> to,
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Cap_quota amount) = 0;
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/**
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* Return current capability-quota limit
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*/
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virtual Cap_quota cap_quota() const = 0;
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/**
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* Return number of capabilities allocated from the session
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*/
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virtual Cap_quota used_caps() const = 0;
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/**
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* Return amount of available capabilities
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*/
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Cap_quota avail_caps() const
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{
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return Cap_quota { cap_quota().value - used_caps().value };
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}
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/***********************************
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** RAM allocation and accounting **
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***********************************/
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/*
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* Note that the 'Pd_session' inherits the 'Ram_allocator' interface,
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* which comprises the actual allocation and deallocation operations.
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*/
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enum class Transfer_ram_quota_result { OK, OUT_OF_RAM, INVALID_SESSION, NO_REF_ACCOUNT };
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/**
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* Transfer quota to another RAM session
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*
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* \param to receiver of quota donation
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* \param amount amount of quota to donate
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*
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* Quota can only be transfered if the specified PD session is either the
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* reference account for this session or vice versa.
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*/
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virtual Transfer_ram_quota_result transfer_quota(Capability<Pd_session> to,
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Ram_quota amount) = 0;
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/**
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* Return current quota limit
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*/
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virtual Ram_quota ram_quota() const = 0;
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/**
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* Return used quota
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*/
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virtual Ram_quota used_ram() const = 0;
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/**
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* Return amount of available quota
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*/
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Ram_quota avail_ram() const { return { ram_quota().value - used_ram().value }; }
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/*****************************************
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** Access to kernel-specific interface **
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*****************************************/
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/**
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* Common base class of kernel-specific PD interfaces
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*/
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struct Native_pd;
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/**
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* Return capability to kernel-specific PD operations
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*/
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virtual Capability<Native_pd> native_pd() = 0;
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/*******************************************
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** Access to system management interface **
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*******************************************/
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struct System_control : Interface
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{
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using System_control_state = Cpu_state;
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virtual System_control_state system_control(System_control_state const &) = 0;
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GENODE_RPC(Rpc_system_control, System_control_state, system_control,
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System_control_state const &);
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GENODE_RPC_INTERFACE(Rpc_system_control);
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};
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using Managing_system_state = Cpu_state;
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/**
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* Call privileged system control functionality of kernel or firmware
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*/
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virtual Capability<System_control> system_control_cap(Affinity::Location const) = 0;
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/*******************************************
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** Support for user-level device drivers **
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*******************************************/
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/**
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* Return start address of the dataspace to be used for DMA transfers
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*
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* The intended use of this function is the use of RAM dataspaces as DMA
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* buffers. On systems without IOMMU, device drivers need to know the
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* physical address of DMA buffers for issuing DMA transfers.
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*
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* \return DMA address, or 0 if the dataspace is invalid or the
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* PD lacks the permission to obtain the information
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*/
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virtual addr_t dma_addr(Ram_dataspace_capability) = 0;
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enum class Attach_dma_error { OUT_OF_RAM, OUT_OF_CAPS, DENIED };
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struct Attach_dma_ok { };
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using Attach_dma_result = Attempt<Attach_dma_ok, Attach_dma_error>;
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/**
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* Attach dataspace to I/O page table at specified address 'at'
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*
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* This operation is preserved to privileged system-management components
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* like the platform driver to assign DMA buffers to device protection
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* domains. The attach can be reverted by using 'address_space().detach()'.
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*/
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virtual Attach_dma_result attach_dma(Dataspace_capability, addr_t at) = 0;
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/*********************
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** RPC declaration **
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*********************/
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GENODE_RPC(Rpc_assign_parent, void, assign_parent, Capability<Parent>);
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GENODE_RPC(Rpc_assign_pci, bool, assign_pci, addr_t, uint16_t);
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GENODE_RPC(Rpc_map, Map_result, map, Virt_range);
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GENODE_RPC(Rpc_signal_source, Signal_source_result, signal_source);
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GENODE_RPC(Rpc_free_signal_source, void, free_signal_source, Capability<Signal_source>);
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GENODE_RPC(Rpc_alloc_context, Alloc_context_result, alloc_context,
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Capability<Signal_source>, Imprint);
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GENODE_RPC(Rpc_free_context, void, free_context, Capability<Signal_context>);
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GENODE_RPC(Rpc_submit, void, submit, Capability<Signal_context>, unsigned);
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GENODE_RPC(Rpc_alloc_rpc_cap, Alloc_rpc_cap_result, alloc_rpc_cap, Native_capability);
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GENODE_RPC(Rpc_free_rpc_cap, void, free_rpc_cap, Native_capability);
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GENODE_RPC(Rpc_address_space, Capability<Region_map>, address_space);
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GENODE_RPC(Rpc_stack_area, Capability<Region_map>, stack_area);
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GENODE_RPC(Rpc_linker_area, Capability<Region_map>, linker_area);
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GENODE_RPC(Rpc_ref_account, Ref_account_result, ref_account, Capability<Pd_session>);
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GENODE_RPC(Rpc_transfer_cap_quota, Transfer_cap_quota_result, transfer_quota,
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Capability<Pd_session>, Cap_quota);
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GENODE_RPC(Rpc_cap_quota, Cap_quota, cap_quota);
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GENODE_RPC(Rpc_used_caps, Cap_quota, used_caps);
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GENODE_RPC(Rpc_try_alloc, Alloc_result, try_alloc, size_t, Cache);
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GENODE_RPC(Rpc_free, void, free, Ram_dataspace_capability);
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GENODE_RPC(Rpc_transfer_ram_quota, Transfer_ram_quota_result, transfer_quota,
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Capability<Pd_session>, Ram_quota);
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GENODE_RPC(Rpc_ram_quota, Ram_quota, ram_quota);
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GENODE_RPC(Rpc_used_ram, Ram_quota, used_ram);
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GENODE_RPC(Rpc_native_pd, Capability<Native_pd>, native_pd);
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GENODE_RPC(Rpc_system_control_cap, Capability<System_control>,
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system_control_cap, Affinity::Location);
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GENODE_RPC(Rpc_dma_addr, addr_t, dma_addr, Ram_dataspace_capability);
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GENODE_RPC(Rpc_attach_dma, Attach_dma_result, attach_dma,
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Dataspace_capability, addr_t);
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GENODE_RPC_INTERFACE(Rpc_assign_parent, Rpc_assign_pci, Rpc_map,
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Rpc_signal_source, Rpc_free_signal_source,
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Rpc_alloc_context, Rpc_free_context, Rpc_submit,
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Rpc_alloc_rpc_cap, Rpc_free_rpc_cap, Rpc_address_space,
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Rpc_stack_area, Rpc_linker_area, Rpc_ref_account,
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Rpc_transfer_cap_quota, Rpc_cap_quota, Rpc_used_caps,
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Rpc_try_alloc, Rpc_free,
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Rpc_transfer_ram_quota, Rpc_ram_quota, Rpc_used_ram,
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Rpc_native_pd, Rpc_system_control_cap,
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Rpc_dma_addr, Rpc_attach_dma);
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};
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#endif /* _INCLUDE__PD_SESSION__PD_SESSION_H_ */
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