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9d67f9fc8e
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
261 lines
8.0 KiB
C++
261 lines
8.0 KiB
C++
/*
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* \brief CPU (processing time) manager session interface
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* \author Christian Helmuth
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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__CPU_SESSION__CPU_SESSION_H_
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#define _INCLUDE__CPU_SESSION__CPU_SESSION_H_
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#include <cpu_session/capability.h>
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#include <cpu_thread/cpu_thread.h>
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#include <base/stdint.h>
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#include <base/rpc_args.h>
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#include <session/session.h>
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#include <dataspace/capability.h>
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#include <pd_session/pd_session.h>
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namespace Genode {
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struct Cpu_session;
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struct Cpu_session_client;
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typedef Capability<Cpu_thread> Thread_capability;
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}
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struct Genode::Cpu_session : Session
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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 "CPU"; }
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/*
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* A CPU session consumes a dataspace capability for the session-object
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* allocation, its session capability, the capability of the 'Native_cpu'
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* RPC interface, and a capability for the trace-control dataspace.
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*/
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enum { CAP_QUOTA = 6 };
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typedef Cpu_session_client Client;
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/*********************
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** Exception types **
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*********************/
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class Thread_creation_failed : public Exception { };
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class Quota_exceeded : public Thread_creation_failed { };
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enum { THREAD_NAME_LEN = 32 };
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enum { PRIORITY_LIMIT = 1 << 16 };
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enum { QUOTA_LIMIT_LOG2 = 15 };
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enum { QUOTA_LIMIT = 1 << QUOTA_LIMIT_LOG2 };
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enum { DEFAULT_PRIORITY = 0 };
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/**
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* Thread weight argument type for 'create_thread'
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*/
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struct Weight
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{
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enum { DEFAULT_WEIGHT = 10 };
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size_t value = DEFAULT_WEIGHT;
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Weight() { }
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explicit Weight(size_t value) : value(value) { }
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};
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typedef String<THREAD_NAME_LEN> Name;
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/**
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* Physical quota configuration
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*/
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struct Quota;
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virtual ~Cpu_session() { }
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/**
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* Create a new thread
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*
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* \param pd protection domain where the thread will be executed
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* \param name name for the thread
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* \param affinity CPU affinity, referring to the session-local
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* affinity space
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* \param weight CPU quota that shall be granted to the thread
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* \param utcb base of the UTCB that will be used by the thread
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* \return capability representing the new thread
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* \throw Thread_creation_failed
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* \throw Out_of_ram
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* \throw Out_of_caps
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*/
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virtual Thread_capability create_thread(Capability<Pd_session> pd,
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Name const &name,
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Affinity::Location affinity,
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Weight weight,
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addr_t utcb = 0) = 0;
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/**
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* Kill an existing thread
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*
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* \param thread capability of the thread to kill
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*/
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virtual void kill_thread(Thread_capability thread) = 0;
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/**
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* Register default signal handler for exceptions
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*
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* This handler is used for all threads that have no explicitly installed
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* exception handler.
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*
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* On Linux, this exception is delivered when the process triggers
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* a SIGCHLD. On other platforms, this exception is delivered on
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* the occurrence of CPU exceptions such as division by zero.
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*/
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virtual void exception_sigh(Signal_context_capability) = 0;
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/**
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* Return affinity space of CPU nodes available to the CPU session
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*
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* The dimension of the affinity space as returned by this method
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* represent the physical CPUs that are available.
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*/
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virtual Affinity::Space affinity_space() const = 0;
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/**
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* Translate generic priority value to kernel-specific priority levels
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*
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* \param pf_prio_limit maximum priority used for the kernel, must
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* be power of 2
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* \param prio generic priority value as used by the CPU
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* session interface
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* \param inverse order of platform priorities, if true
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* 'pf_prio_limit' corresponds to the highest
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* priority, otherwise it refers to the
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* lowest priority.
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* \return platform-specific priority value
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*/
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static unsigned scale_priority(unsigned pf_prio_limit, unsigned prio,
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bool inverse = true)
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{
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/*
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* Generic priority values are (0 is highest, 'PRIORITY_LIMIT'
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* is lowest. On platforms where priority levels are defined
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* the other way round, we have to invert the priority value.
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*/
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prio = inverse ? Cpu_session::PRIORITY_LIMIT - prio : prio;
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/* scale value to platform priority range 0..pf_prio_limit */
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return (prio*pf_prio_limit)/Cpu_session::PRIORITY_LIMIT;
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}
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/**
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* Request trace control dataspace
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*
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* The trace-control dataspace is used to propagate tracing
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* control information from core to the threads of a CPU session.
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*
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* The trace-control dataspace is accounted to the CPU session.
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*/
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virtual Dataspace_capability trace_control() = 0;
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/**
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* Define reference account for the CPU session
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*
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* \param cpu_session reference account
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*
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* \return 0 on success
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*
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* Each CPU session requires another CPU session as reference
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* account to transfer quota to and from. The reference account can
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* be defined only once.
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*/
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virtual int ref_account(Cpu_session_capability cpu_session) = 0;
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/**
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* Transfer quota to another CPU session
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*
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* \param cpu_session receiver of quota donation
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* \param amount percentage of the session quota scaled up to
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* the 'QUOTA_LIMIT' space
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* \return 0 on success
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*
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* Quota can only be transfered if the specified CPU session is
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* either the reference account for this session or vice versa.
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*/
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virtual int transfer_quota(Cpu_session_capability cpu_session,
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size_t amount) = 0;
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/**
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* Return quota configuration of the session
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*/
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virtual Quota quota() = 0;
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/**
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* Scale up 'value' from its space with 'limit' to the 'QUOTA_LIMIT' space
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*/
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template<typename T = size_t>
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static size_t quota_lim_upscale(size_t const value, size_t const limit) {
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return ((T)value << Cpu_session::QUOTA_LIMIT_LOG2) / limit; }
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/**
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* Scale down 'value' from the 'QUOTA_LIMIT' space to a space with 'limit'
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*/
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template<typename T = size_t>
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static size_t quota_lim_downscale(size_t const value, size_t const limit) {
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return ((T)value * limit) >> Cpu_session::QUOTA_LIMIT_LOG2; }
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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 CPU interfaces
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*/
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struct Native_cpu : Interface { };
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/**
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* Return capability to kernel-specific CPU operations
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*/
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virtual Capability<Native_cpu> native_cpu() = 0;
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/*********************
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** RPC declaration **
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*********************/
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GENODE_RPC_THROW(Rpc_create_thread, Thread_capability, create_thread,
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GENODE_TYPE_LIST(Thread_creation_failed, Out_of_ram, Out_of_caps),
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Capability<Pd_session>, Name const &, Affinity::Location,
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Weight, addr_t);
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GENODE_RPC(Rpc_kill_thread, void, kill_thread, Thread_capability);
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GENODE_RPC(Rpc_exception_sigh, void, exception_sigh, Signal_context_capability);
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GENODE_RPC(Rpc_affinity_space, Affinity::Space, affinity_space);
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GENODE_RPC(Rpc_trace_control, Dataspace_capability, trace_control);
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GENODE_RPC(Rpc_ref_account, int, ref_account, Cpu_session_capability);
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GENODE_RPC(Rpc_transfer_quota, int, transfer_quota, Cpu_session_capability, size_t);
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GENODE_RPC(Rpc_quota, Quota, quota);
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GENODE_RPC(Rpc_native_cpu, Capability<Native_cpu>, native_cpu);
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GENODE_RPC_INTERFACE(Rpc_create_thread, Rpc_kill_thread, Rpc_exception_sigh,
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Rpc_affinity_space, Rpc_trace_control, Rpc_ref_account,
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Rpc_transfer_quota, Rpc_quota, Rpc_native_cpu);
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};
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struct Genode::Cpu_session::Quota
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{
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size_t super_period_us;
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size_t us;
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};
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#endif /* _INCLUDE__CPU_SESSION__CPU_SESSION_H_ */
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