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This patch extends the 'Parent::session()' and 'Root::session()' functions with an additional 'affinity' parameter, which is inteded to express the preferred affinity of the new session. For CPU sessions provided by core, the values will be used to select the set of CPUs assigned to the CPU session. For other services, the session affinity information can be utilized to optimize the locality of the server thread with the client. For example, to enable the IRQ session to route an IRQ to the CPU core on which the corresponding device driver (the IRQ client) is running.
265 lines
7.8 KiB
C++
265 lines
7.8 KiB
C++
/*
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* \brief Generic root component implementation
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* \author Norman Feske
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* \date 2006-05-22
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*
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* This class is there for your convenience. It performs the common actions
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* that must always be taken when creating a new session.
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*/
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/*
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* Copyright (C) 2006-2013 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 General Public License version 2.
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*/
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#ifndef _INCLUDE__ROOT__COMPONENT_H_
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#define _INCLUDE__ROOT__COMPONENT_H_
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#include <root/root.h>
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#include <base/rpc_server.h>
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#include <base/heap.h>
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#include <ram_session/ram_session.h>
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#include <util/arg_string.h>
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#include <base/printf.h>
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namespace Genode {
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/**
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* Session creation policy for a single-client service
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*/
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class Single_client
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{
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private:
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bool _used;
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public:
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Single_client() : _used(0) { }
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void aquire(const char *)
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{
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if (_used)
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throw Root::Unavailable();
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_used = true;
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}
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void release() { _used = false; }
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};
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/**
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* Session-creation policy for a multi-client service
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*/
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struct Multiple_clients
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{
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void aquire(const char *) { }
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void release() { }
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};
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/**
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* Template for implementing the root interface
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*
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* \param SESSION_TYPE session-component type to manage,
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* derived from 'Rpc_object'
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* \param POLICY session-creation policy
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*
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* The 'POLICY' template parameter allows for constraining the session
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* creation to only one instance at a time (using the 'Single_session'
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* policy) or multiple instances (using the 'Multiple_sessions' policy).
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*
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* The 'POLICY' class must provide the following two functions:
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*
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* :'aquire(const char *args)': is called with the session arguments
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* at creation time of each new session. It can therefore implement
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* a session-creation policy taking session arguments into account.
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* If the policy denies the creation of a new session, it throws
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* one of the exceptions defined in the 'Root' interface.
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*
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* :'release': is called at the destruction time of a session. It enables
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* the policy to keep track of and impose restrictions on the number
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* of existing sessions.
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*
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* The default policy 'Multiple_clients' imposes no restrictions on the
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* creation of new sessions.
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*/
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template <typename SESSION_TYPE, typename POLICY = Multiple_clients>
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class Root_component : public Rpc_object<Typed_root<SESSION_TYPE> >, private POLICY
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{
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private:
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/*
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* Entry point that manages the session objects
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* created by this root interface
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*/
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Rpc_entrypoint *_ep;
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/*
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* Allocator for allocating session objects.
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* This allocator must be used by the derived
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* class when calling the 'new' operator for
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* creating a new session.
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*/
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Allocator *_md_alloc;
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protected:
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/**
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* Create new session (to be implemented by a derived class)
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*
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* Only a derived class knows the constructor arguments of
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* a specific session. Therefore, we cannot unify the call
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* of its 'new' operator and must implement the session
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* creation at a place, where the required knowledge exist.
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*
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* In the implementation of this function, the heap, provided
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* by 'Root_component' must be used for allocating the session
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* object.
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*
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* If the server implementation does not evaluate the session
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* affinity, it suffices to override the overload without the
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* affinity argument.
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*
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* \throw Allocator::Out_of_memory typically caused by the
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* meta-data allocator
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* \throw Root::Invalid_args typically caused by the
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* session-component constructor
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*/
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virtual SESSION_TYPE *_create_session(const char *args,
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Affinity const &)
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{
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return _create_session(args);
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}
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virtual SESSION_TYPE *_create_session(const char *args)
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{
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throw Root::Invalid_args();
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}
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/**
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* Inform session about a quota upgrade
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*
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* Once a session is created, its client can successively extend
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* its quota donation via the 'Parent::transfer_quota' function.
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* This will result in the invokation of 'Root::upgrade' at the
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* root interface the session was created with. The root interface,
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* in turn, informs the session about the new resources via the
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* '_upgrade_session' function. The default implementation is
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* suited for sessions that use a static amount of resources
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* accounted for at session-creation time. For such sessions, an
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* upgrade is not useful. However, sessions that dynamically
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* allocate resources on behalf of its client, should respond to
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* quota upgrades by implementing this function.
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*
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* \param session session to upgrade
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* \param args description of additional resources in the
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* same format as used at session creation
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*/
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virtual void _upgrade_session(SESSION_TYPE *, const char *) { }
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virtual void _destroy_session(SESSION_TYPE *session) {
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destroy(_md_alloc, session); }
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/**
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* Return allocator to allocate server object in '_create_session()'
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*/
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Allocator *md_alloc() { return _md_alloc; }
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Rpc_entrypoint *ep() { return _ep; }
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public:
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/**
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* Constructor
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*
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* \param ep entry point that manages the sessions of this
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* root interface.
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* \param ram_session provider of dataspaces for the backing store
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* of session objects and session data
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*/
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Root_component(Rpc_entrypoint *ep, Allocator *metadata_alloc)
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: _ep(ep), _md_alloc(metadata_alloc) { }
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/********************
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** Root interface **
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********************/
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Session_capability session(Root::Session_args const &args,
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Affinity const &affinity)
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{
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if (!args.is_valid_string()) throw Root::Invalid_args();
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POLICY::aquire(args.string());
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/*
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* We need to decrease 'ram_quota' by
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* the size of the session object.
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*/
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size_t ram_quota = Arg_string::find_arg(args.string(), "ram_quota").long_value(0);
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size_t needed = sizeof(SESSION_TYPE) + md_alloc()->overhead(sizeof(SESSION_TYPE));
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if (needed > ram_quota) {
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PERR("Insufficient ram quota, provided=%zd, required=%zd",
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ram_quota, needed);
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throw Root::Quota_exceeded();
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}
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size_t const remaining_ram_quota = ram_quota - needed;
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/*
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* Deduce ram quota needed for allocating the session object from the
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* donated ram quota.
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*
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* XXX the size of the 'adjusted_args' buffer should dependent
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* on the message-buffer size and stack size.
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*/
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enum { MAX_ARGS_LEN = 256 };
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char adjusted_args[MAX_ARGS_LEN];
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strncpy(adjusted_args, args.string(), sizeof(adjusted_args));
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char ram_quota_buf[64];
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snprintf(ram_quota_buf, sizeof(ram_quota_buf), "%zd",
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remaining_ram_quota);
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Arg_string::set_arg(adjusted_args, sizeof(adjusted_args),
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"ram_quota", ram_quota_buf);
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SESSION_TYPE *s = 0;
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try { s = _create_session(adjusted_args, affinity); }
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catch (Allocator::Out_of_memory) { throw Root::Quota_exceeded(); }
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return _ep->manage(s);
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}
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void upgrade(Session_capability session, Root::Upgrade_args const &args)
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{
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if (!args.is_valid_string()) throw Root::Invalid_args();
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typedef typename Object_pool<SESSION_TYPE>::Guard Object_guard;
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Object_guard s(_ep->lookup_and_lock(session));
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if (!s) return;
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_upgrade_session(s, args.string());
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}
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void close(Session_capability session)
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{
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SESSION_TYPE * s =
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dynamic_cast<SESSION_TYPE *>(_ep->lookup_and_lock(session));
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if (!s) return;
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/* let the entry point forget the session object */
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_ep->dissolve(s);
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_destroy_session(s);
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POLICY::release();
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return;
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}
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};
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}
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#endif /* _INCLUDE__ROOT__COMPONENT_H_ */
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