genode/repos/base/include/root/component.h

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