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genode/repos/ports/src/app/gdb_monitor/app_child.h

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/*
* \brief Application child
* \author Christian Prochaska
* \date 2009-10-05
*/
/*
* Copyright (C) 2009-2013 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _APP_CHILD_H_
#define _APP_CHILD_H_
#include <stdio.h>
#include <sys/stat.h>
#include <base/child.h>
#include <base/service.h>
#include <init/child_config.h>
#include <init/child_policy.h>
#include <util/arg_string.h>
#include "cpu_root.h"
#include "gdb_stub_thread.h"
#include "ram_root.h"
#include "rm_root.h"
#include "rom.h"
namespace Gdb_monitor {
class App_child : public Child_policy, public Init::Child_policy_enforce_labeling
{
private:
enum { STACK_SIZE = 4*1024*sizeof(long) };
const char *_unique_name;
Rpc_entrypoint _entrypoint;
Service_registry *_parent_services;
Service_registry _local_services;
Init::Child_config _child_config;
Init::Child_policy_provide_rom_file _binary_policy;
Init::Child_policy_provide_rom_file _config_policy;
Gdb_stub_thread _gdb_stub_thread;
Object_pool<Dataspace_object> _managed_ds_map;
Rm_root _rm_root;
Rm_session_capability _rm_session_cap;
Cpu_root _cpu_root;
Cpu_session_capability _cpu_session_cap;
Ram_session_capability _ram_session_cap;
Child _child;
Genode::Rpc_entrypoint *_root_ep;
Rom_service _rom_service;
class Rm_service : public Genode::Service
{
private:
Rm_root _rm_root;
public:
Rm_service(Genode::Rpc_entrypoint *entrypoint,
Genode::Allocator *md_alloc,
Object_pool<Dataspace_object> *managed_ds_map)
:
Genode::Service("RM"),
_rm_root(entrypoint, md_alloc, managed_ds_map)
{ }
Genode::Session_capability session(const char *args,
Genode::Affinity const &affinity)
{
return _rm_root.session(args, affinity);
}
void upgrade(Genode::Session_capability, const char *) { }
void close(Genode::Session_capability cap)
{
_rm_root.close(cap);
}
} _rm_service;
Rm_session_capability _get_rm_session_cap()
{
_entrypoint.manage(&_rm_root);
Capability<Rm_session> cap = static_cap_cast<Rm_session>
(_rm_root.session("ram_quota=64K", Affinity()));
Rm_session_client rm(cap);
rm.fault_handler(_gdb_stub_thread.exception_signal_receiver()->manage(new (env()->heap()) Signal_context()));
return cap;
}
Cpu_session_capability _get_cpu_session_cap()
{
_entrypoint.manage(&_cpu_root);
char args[64];
Genode::snprintf(args, sizeof(args), "ram_quota=32K, label=\"%s\"", _unique_name);
return static_cap_cast<Cpu_session>(_cpu_root.session(args, Affinity()));
}
/**
* Proxy for a service provided by the child
*/
class Child_service_root : public Genode::Rpc_object<Genode::Root>
{
private:
/**
* Root interface of the real service, provided by the child
*/
Genode::Root_client _child_root;
/**
* Child's RAM session used for quota transfers
*/
Genode::Ram_session_capability _child_ram;
struct Child_session;
typedef Genode::Object_pool<Child_session> Session_pool;
/**
* Per-session meta data
*
* For each session, we need to keep track of the quota
* attached to it - in order to revert the quota donation
* when the session gets closed.
*/
struct Child_session : public Session_pool::Entry
{
Genode::size_t ram_quota;
Child_session(Genode::Session_capability cap,
Genode::size_t ram_quota)
: Session_pool::Entry(cap), ram_quota(ram_quota) { }
};
/**
* Data base containing per-session meta data
*/
Session_pool _sessions;
public:
/**
* Constructor
*/
Child_service_root(Genode::Ram_session_capability child_ram,
Genode::Root_capability child_root)
: _child_root(child_root), _child_ram(child_ram)
{ }
/********************
** Root interface **
********************/
Session_capability session(Session_args const &args,
Affinity const &affinity)
{
using namespace Genode;
Genode::size_t ram_quota =
Arg_string::find_arg(args.string(),
"ram_quota").ulong_value(0);
/* forward session quota to child */
env()->ram_session()->transfer_quota(_child_ram, ram_quota);
Session_capability cap = _child_root.session(args, affinity);
/*
* Keep information about donated quota in '_sessions'
* data base.
*/
_sessions.insert(new (env()->heap())
Child_session(cap, ram_quota));
return cap;
}
void upgrade(Session_capability session_cap,
Upgrade_args const &args)
{
using namespace Genode;
Child_session *session = _sessions.lookup_and_lock(session_cap);
if (!session) {
PERR("attempt to upgrade unknown session");
return;
}
Genode::size_t ram_quota =
Arg_string::find_arg(args.string(),
"ram_quota").ulong_value(0);
/* forward session quota to child */
env()->ram_session()->transfer_quota(_child_ram, ram_quota);
session->ram_quota += ram_quota;
/* inform child about quota upgrade */
_child_root.upgrade(session_cap, args);
}
void close(Session_capability session_cap)
{
using namespace Genode;
Child_session *session = _sessions.lookup_and_lock(session_cap);
if (!session) {
PERR("attempt to close unknown session");
return;
}
Genode::size_t ram_quota = session->ram_quota;
_sessions.remove_locked(session);
destroy(env()->heap(), session);
_child_root.close(session_cap);
/*
* The child is expected to free enough quota to revert
* the quota donation.
*/
Ram_session_client child_ram(_child_ram);
child_ram.transfer_quota(env()->ram_session_cap(), ram_quota);
}
};
public:
/**
* Constructor
*
* \param root_ep entrypoint serving the root interfaces of the
* services provided by the child and announced
* towards the parent of GDB monitor
*/
App_child(const char *unique_name,
Genode::Dataspace_capability elf_ds,
Genode::Ram_session_capability ram_session,
Genode::Cap_session *cap_session,
Service_registry *parent_services,
Genode::Rpc_entrypoint *root_ep,
Xml_node target_node)
: Init::Child_policy_enforce_labeling(unique_name),
_unique_name(unique_name),
_entrypoint(cap_session, STACK_SIZE, "GDB monitor entrypoint name"),
_parent_services(parent_services),
_child_config(ram_session, target_node),
_binary_policy("binary", elf_ds, &_entrypoint),
_config_policy("config", _child_config.dataspace(), &_entrypoint),
_gdb_stub_thread(),
_rm_root(&_entrypoint, env()->heap() /* should be _child.heap() */, &_managed_ds_map, &_gdb_stub_thread),
_rm_session_cap(_get_rm_session_cap()),
_cpu_root(&_entrypoint, env()->heap() /* should be _child.heap() */, &_gdb_stub_thread),
_cpu_session_cap(_get_cpu_session_cap()),
_ram_session_cap(ram_session),
_child(elf_ds, ram_session, _cpu_session_cap, _rm_session_cap, &_entrypoint, this),
_root_ep(root_ep),
_rom_service(&_entrypoint, _child.heap()),
_rm_service(&_entrypoint, _child.heap(), &_managed_ds_map)
{
_local_services.insert(&_rm_service);
_local_services.insert(&_rom_service);
_gdb_stub_thread.start();
}
~App_child()
{
_rm_root.close(_rm_session_cap);
}
/****************************
** Child-policy interface **
****************************/
const char *name() const { return _unique_name; }
void filter_session_args(const char *, char *args, Genode::size_t args_len)
{
Init::Child_policy_enforce_labeling::filter_session_args(0, args, args_len);
}
Service *resolve_session_request(const char *service_name,
const char *args)
{
Service *service = 0;
/* check for binary file request */
if ((service = _binary_policy.resolve_session_request(service_name, args)))
return service;
/* check for config file request */
if ((service = _config_policy.resolve_session_request(service_name, args)))
return service;
service = _local_services.find(service_name);
if (service)
return service;
service = _parent_services->find(service_name);
if (!service) {
service = new (env()->heap()) Parent_service(service_name);
_parent_services->insert(service);
}
return service;
}
bool announce_service(const char *name,
Root_capability root,
Allocator *alloc,
Server *server)
{
/* create and announce proxy for the child's root interface */
Child_service_root *r = new (alloc)
Child_service_root(_ram_session_cap, root);
Genode::env()->parent()->announce(name, _root_ep->manage(r));
return true;
}
};
}
#endif /* _APP_CHILD_H_ */
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