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572 lines
16 KiB
C++
572 lines
16 KiB
C++
/*
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* \brief Representation used for children of the init process
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* \author Norman Feske
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* \date 2010-05-04
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*/
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/*
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* Copyright (C) 2010-2012 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__INIT__CHILD_H_
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#define _INCLUDE__INIT__CHILD_H_
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/* Genode includes */
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#include <ram_session/connection.h>
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#include <cpu_session/connection.h>
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#include <cap_session/connection.h>
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#include <base/printf.h>
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#include <base/child.h>
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/* init includes */
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#include <init/child_config.h>
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#include <init/child_policy.h>
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namespace Init {
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extern bool config_verbose;
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/***************
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** Utilities **
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***************/
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inline long read_priority(Genode::Xml_node start_node)
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{
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long priority = Genode::Cpu_session::DEFAULT_PRIORITY;
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try { start_node.attribute("priority").value(&priority); }
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catch (...) { }
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/*
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* All priority declarations in the config file are
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* negative because child priorities can never be higher
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* than parent priorities. To simplify priority
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* calculations, we use inverted values. Lower values
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* correspond to higher priorities.
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*/
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return -priority;
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}
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inline Genode::size_t read_ram_quota(Genode::Xml_node start_node)
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{
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Genode::Number_of_bytes ram_quota = 0;
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try {
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Genode::Xml_node rsc = start_node.sub_node("resource");
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for (;; rsc = rsc.next("resource")) {
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try {
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if (rsc.attribute("name").has_value("RAM")) {
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rsc.attribute("quantum").value(&ram_quota);
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}
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} catch (...) { }
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}
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} catch (...) { }
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/*
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* If the configured quota exceeds our own quota, we donate
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* all remaining quota to the child but we need to count in
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* our allocation of the child meta data from the heap.
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* Hence, we preserve some of our own quota.
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*/
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if (ram_quota > Genode::env()->ram_session()->avail() - 128*1024) {
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ram_quota = Genode::env()->ram_session()->avail() - 128*1024;
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if (config_verbose)
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Genode::printf("Warning: Specified quota exceeds available quota.\n"
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" Proceeding with a quota of %zd bytes.\n",
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(Genode::size_t)ram_quota);
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}
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return ram_quota;
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}
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/**
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* Return true if service XML node matches the specified service name
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*/
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inline bool service_node_matches(Genode::Xml_node service_node, const char *service_name)
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{
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if (service_node.has_type("any-service"))
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return true;
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return service_node.has_type("service")
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&& service_node.attribute("name").has_value(service_name);
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}
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/**
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* Check if arguments satisfy the condition specified for the route
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*/
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inline bool service_node_args_condition_satisfied(Genode::Xml_node service_node,
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const char *args)
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{
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try {
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Genode::Xml_node if_arg = service_node.sub_node("if-arg");
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enum { KEY_MAX_LEN = 64, VALUE_MAX_LEN = 64 };
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char key[KEY_MAX_LEN];
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char value[VALUE_MAX_LEN];
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if_arg.attribute("key").value(key, sizeof(key));
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if_arg.attribute("value").value(value, sizeof(value));
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char arg_value[VALUE_MAX_LEN];
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Genode::Arg_string::find_arg(args, key).string(arg_value, sizeof(arg_value), "");
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return Genode::strcmp(value, arg_value) == 0;
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} catch (...) { }
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/* if no if-arg node exists, the condition is met */
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return true;
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}
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/**
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* Init-specific representation of a child service
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*
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* For init, we introduce this 'Service' variant that distinguishes two
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* phases, declared and announced. A 'Routed_service' object is created
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* when a '<provides>' declaration is found in init's configuration.
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* At that time, however, no children including the server do yet exist.
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* If, at this stage, a client tries to open a session to this service,
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* the client get enqueued in a list of applicants and blocked. When
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* the server officially announces its service and passes over the root
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* capability, the 'Routed_service' enters the announced stage and any
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* applicants get unblocked.
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*/
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class Routed_service : public Genode::Service
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{
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private:
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Genode::Root_capability _root;
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bool _announced;
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Genode::Server *_server;
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struct Applicant : public Genode::Cancelable_lock,
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public Genode::List<Applicant>::Element
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{
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Applicant() : Cancelable_lock(Genode::Lock::LOCKED) { }
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};
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Genode::Lock _applicants_lock;
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Genode::List<Applicant> _applicants;
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public:
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/**
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* Constructor
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*
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* \param name name of service
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* \param server server providing the service
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*/
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Routed_service(const char *name,
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Genode::Server *server)
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: Service(name), _announced(false), _server(server) { }
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Genode::Server *server() const { return _server; }
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void announce(Genode::Root_capability root)
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{
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Genode::Lock::Guard guard(_applicants_lock);
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_root = root;
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_announced = true;
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/* wake up aspiring clients */
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for (Applicant *a; (a = _applicants.first()); ) {
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_applicants.remove(a);
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a->unlock();
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}
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}
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Genode::Session_capability session(const char *args)
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{
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/*
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* This function is called from the context of the client's
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* activation thread. If the service is not yet announced,
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* we let the client block.
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*/
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_applicants_lock.lock();
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if (!_announced) {
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Applicant myself;
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_applicants.insert(&myself);
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_applicants_lock.unlock();
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myself.lock();
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} else
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_applicants_lock.unlock();
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Genode::Session_capability cap;
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try { cap = Genode::Root_client(_root).session(args); }
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catch (Genode::Root::Invalid_args) { throw Invalid_args(); }
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catch (Genode::Root::Unavailable) { throw Unavailable(); }
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catch (Genode::Root::Quota_exceeded) { throw Quota_exceeded(); }
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if (!cap.valid())
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throw Unavailable();
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return cap;
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}
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void upgrade(Genode::Session_capability sc, const char *args)
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{
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Genode::Root_client(_root).upgrade(sc, args);
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}
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void close(Genode::Session_capability sc)
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{
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Genode::Root_client(_root).close(sc);
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}
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};
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/**
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* Interface for name database
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*/
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struct Name_registry
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{
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virtual ~Name_registry() { }
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/**
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* Check if specified name is unique
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*
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* \return false if name already exists
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*/
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virtual bool is_unique(const char *name) const = 0;
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/**
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* Find server with specified name
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*/
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virtual Genode::Server *lookup_server(const char *name) const = 0;
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};
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class Child_registry;
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class Child : Genode::Child_policy
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{
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private:
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friend class Child_registry;
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Genode::List_element<Child> _list_element;
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Genode::Xml_node _start_node;
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Genode::Xml_node _default_route_node;
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Name_registry *_name_registry;
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/**
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* Unique child name and file name of ELF binary
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*/
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struct Name
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{
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enum { MAX_NAME_LEN = 64 };
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char file[MAX_NAME_LEN];
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char unique[MAX_NAME_LEN];
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/**
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* Constructor
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*
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* Obtains file name and unique process name from XML node
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*
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* \param start_node XML start node
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* \param registry registry tracking unique names
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*/
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Name(Genode::Xml_node start_node, Name_registry const *registry) {
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try {
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start_node.attribute("name").value(unique, sizeof(unique)); }
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catch (Genode::Xml_node::Nonexistent_attribute) {
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PWRN("Missing 'name' attribute in '<start>' entry.\n");
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throw; }
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/* check for a name confict with the other children */
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if (!registry->is_unique(unique)) {
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PERR("Child name \"%s\" is not unique", unique);
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class Child_name_is_not_unique { };
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throw Child_name_is_not_unique();
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}
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/* use name as default file name if not declared otherwise */
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Genode::strncpy(file, unique, sizeof(file));
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/* check for a binary declaration */
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try {
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Genode::Xml_node binary = start_node.sub_node("binary");
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binary.attribute("name").value(file, sizeof(file));
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} catch (...) { }
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}
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} _name;
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/**
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* Resources assigned to the child
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*/
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struct Resources
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{
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long prio_levels_log2;
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long priority;
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Genode::size_t ram_quota;
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Genode::Ram_connection ram;
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Genode::Cpu_connection cpu;
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Genode::Rm_connection rm;
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Resources(Genode::Xml_node start_node, const char *label,
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long prio_levels_log2)
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:
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prio_levels_log2(prio_levels_log2),
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priority(read_priority(start_node)),
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ram_quota(read_ram_quota(start_node)),
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ram(label),
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cpu(label, priority*(Genode::Cpu_session::PRIORITY_LIMIT >> prio_levels_log2))
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{
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/* deduce session costs from usable ram quota */
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Genode::size_t session_donations = Genode::Rm_connection::RAM_QUOTA +
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Genode::Cpu_connection::RAM_QUOTA +
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Genode::Ram_connection::RAM_QUOTA;
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if (ram_quota > session_donations)
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ram_quota -= session_donations;
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else ram_quota = 0;
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ram.ref_account(Genode::env()->ram_session_cap());
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Genode::env()->ram_session()->transfer_quota(ram.cap(), ram_quota);
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}
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} _resources;
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/*
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* Entry point used for serving the parent interface and the
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* locally provided ROM sessions for the 'config' and 'binary'
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* files.
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*/
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enum { ENTRYPOINT_STACK_SIZE = 12*1024 };
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Genode::Rpc_entrypoint _entrypoint;
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/**
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* ELF binary
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*/
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Genode::Rom_connection _binary_rom;
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/**
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* Private child configuration
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*/
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Init::Child_config _config;
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/**
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* Each child of init can act as a server
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*/
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Genode::Server _server;
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Genode::Child _child;
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Genode::Service_registry *_parent_services;
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Genode::Service_registry *_child_services;
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/**
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* Policy helpers
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*/
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Init::Child_policy_enforce_labeling _labeling_policy;
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Init::Child_policy_handle_cpu_priorities _priority_policy;
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Init::Child_policy_provide_rom_file _config_policy;
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Init::Child_policy_provide_rom_file _binary_policy;
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public:
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Child(Genode::Xml_node start_node,
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Genode::Xml_node default_route_node,
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Name_registry *name_registry,
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long prio_levels_log2,
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Genode::Service_registry *parent_services,
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Genode::Service_registry *child_services,
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Genode::Cap_session *cap_session)
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:
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_list_element(this),
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_start_node(start_node),
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_default_route_node(default_route_node),
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_name_registry(name_registry),
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_name(start_node, name_registry),
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_resources(start_node, _name.unique, prio_levels_log2),
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_entrypoint(cap_session, ENTRYPOINT_STACK_SIZE, _name.unique, false),
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_binary_rom(_name.file, _name.unique),
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_config(_resources.ram.cap(), start_node),
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_server(_resources.ram.cap()),
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_child(_binary_rom.dataspace(), _resources.ram.cap(),
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_resources.cpu.cap(), _resources.rm.cap(), &_entrypoint, this),
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_parent_services(parent_services),
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_child_services(child_services),
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_labeling_policy(_name.unique),
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_priority_policy(_resources.prio_levels_log2, _resources.priority),
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_config_policy("config", _config.dataspace(), &_entrypoint),
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_binary_policy("binary", _binary_rom.dataspace(), &_entrypoint)
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{
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using namespace Genode;
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if (_resources.ram_quota == 0)
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PWRN("no valid RAM resource for child \"%s\"", _name.unique);
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if (config_verbose) {
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Genode::printf("child \"%s\"\n", _name.unique);
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Genode::printf(" RAM quota: %zd\n", _resources.ram_quota);
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Genode::printf(" ELF binary: %s\n", _name.file);
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Genode::printf(" priority: %ld\n", _resources.priority);
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}
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/*
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* Determine services provided by the child
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*/
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try {
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Xml_node service_node = start_node.sub_node("provides").sub_node("service");
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for (; ; service_node = service_node.next("service")) {
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char name[Genode::Service::MAX_NAME_LEN];
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service_node.attribute("name").value(name, sizeof(name));
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if (config_verbose)
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Genode::printf(" provides service %s\n", name);
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child_services->insert(new (_child.heap())
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Routed_service(name, &_server));
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}
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} catch (Xml_node::Nonexistent_sub_node) { }
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}
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virtual ~Child() { }
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/**
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* Return true if the child has the specified name
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*/
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bool has_name(const char *n) const { return !Genode::strcmp(name(), n); }
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Genode::Server *server() { return &_server; }
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/**
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* Start execution of child
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*/
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void start() { _entrypoint.activate(); }
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/****************************
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** Child-policy interface **
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****************************/
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const char *name() const { return _name.unique; }
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Genode::Service *resolve_session_request(const char *service_name,
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const char *args)
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{
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Genode::Service *service = 0;
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/* check for config file request */
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if ((service = _config_policy.resolve_session_request(service_name, args)))
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return service;
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/* check for binary file request */
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if ((service = _binary_policy.resolve_session_request(service_name, args)))
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return service;
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try {
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Genode::Xml_node route_node = _default_route_node;
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try {
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route_node = _start_node.sub_node("route"); }
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catch (...) { }
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Genode::Xml_node service_node = route_node.sub_node();
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for (; ; service_node = service_node.next()) {
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bool service_wildcard = service_node.has_type("any-service");
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if (!service_node_matches(service_node, service_name))
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continue;
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if (!service_node_args_condition_satisfied(service_node, args))
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continue;
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Genode::Xml_node target = service_node.sub_node();
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for (; ; target = target.next()) {
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if (target.has_type("parent")) {
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service = _parent_services->find(service_name);
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if (service)
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return service;
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if (!service_wildcard) {
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PWRN("%s: service lookup for \"%s\" at parent failed", name(), service_name);
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return 0;
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}
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}
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if (target.has_type("child")) {
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char server_name[Name::MAX_NAME_LEN];
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server_name[0] = 0;
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target.attribute("name").value(server_name, sizeof(server_name));
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Genode::Server *server = _name_registry->lookup_server(server_name);
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if (!server)
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PWRN("%s: invalid route to non-existing server \"%s\"", name(), server_name);
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service = _child_services->find(service_name, server);
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if (service)
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return service;
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if (!service_wildcard) {
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PWRN("%s: lookup to child service \"%s\" failed", name(), service_name);
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return 0;
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}
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}
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if (target.has_type("any-child")) {
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if (_child_services->is_ambiguous(service_name)) {
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PERR("%s: ambiguous routes to service \"%s\"", name(), service_name);
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return 0;
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}
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service = _child_services->find(service_name);
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if (service)
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return service;
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if (!service_wildcard) {
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PWRN("%s: lookup for service \"%s\" failed", name(), service_name);
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return 0;
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}
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}
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if (target.is_last())
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break;
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}
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}
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} catch (...) {
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PWRN("%s: no route to service \"%s\"", name(), service_name);
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}
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return service;
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}
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void filter_session_args(const char *service,
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char *args, Genode::size_t args_len)
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{
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_labeling_policy.filter_session_args(service, args, args_len);
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_priority_policy.filter_session_args(service, args, args_len);
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}
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bool announce_service(const char *service_name,
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Genode::Root_capability root,
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Genode::Allocator *alloc)
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{
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if (config_verbose)
|
|
Genode::printf("child \"%s\" announces service \"%s\"\n",
|
|
name(), service_name);
|
|
|
|
Genode::Service *s = _child_services->find(service_name, &_server);
|
|
Routed_service *rs = dynamic_cast<Routed_service *>(s);
|
|
if (!s || !rs) {
|
|
PERR("%s: illegal announcement of service \"%s\"", name(), service_name);
|
|
return false;
|
|
}
|
|
|
|
rs->announce(root);
|
|
return true;
|
|
}
|
|
};
|
|
}
|
|
|
|
#endif /* _INCLUDE__INIT__CHILD_H_ */
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