genode/repos/base/include/pd_session/client.h
Stefan Kalkowski 06edc0d52b base: extend PD session with managing_system call
Introduce the managing_system privilege for components like the
platform_driver to allow it to call system management functionality
that is reserved by kernel or special firmware, e.g., ARM Trusted Firmware.

The former RAM resource configuration attribute `constrain_phys`,
which enabled to constrain the region of physical RAM to be used,
gets replaced by the new, broader managing_system configuration
attribute of a `start` node. It gets enforced by the sandbox library.

Ref #3816
2020-08-25 11:50:11 +02:00

102 lines
3.2 KiB
C++

/*
* \brief Client-side pd session interface
* \author Christian Helmuth
* \date 2006-07-12
*/
/*
* Copyright (C) 2006-2017 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU Affero General Public License version 3.
*/
#ifndef _INCLUDE__PD_SESSION__CLIENT_H_
#define _INCLUDE__PD_SESSION__CLIENT_H_
#include <pd_session/capability.h>
#include <dataspace/client.h>
namespace Genode { struct Pd_session_client; }
struct Genode::Pd_session_client : Rpc_client<Pd_session>
{
explicit Pd_session_client(Pd_session_capability session)
: Rpc_client<Pd_session>(session) { }
void assign_parent(Capability<Parent> parent) override {
call<Rpc_assign_parent>(parent); }
bool assign_pci(addr_t pci_config_memory_address, uint16_t bdf) override {
return call<Rpc_assign_pci>(pci_config_memory_address, bdf); }
void map(addr_t virt, addr_t size) override { call<Rpc_map>(virt, size); }
Signal_source_capability alloc_signal_source() override {
return call<Rpc_alloc_signal_source>(); }
void free_signal_source(Signal_source_capability cap) override {
call<Rpc_free_signal_source>(cap); }
Signal_context_capability alloc_context(Signal_source_capability source,
unsigned long imprint) override {
return call<Rpc_alloc_context>(source, imprint); }
void free_context(Signal_context_capability cap) override {
call<Rpc_free_context>(cap); }
void submit(Signal_context_capability receiver, unsigned cnt = 1) override {
call<Rpc_submit>(receiver, cnt); }
Native_capability alloc_rpc_cap(Native_capability ep) override {
return call<Rpc_alloc_rpc_cap>(ep); }
void free_rpc_cap(Native_capability cap) override {
call<Rpc_free_rpc_cap>(cap); }
Capability<Region_map> address_space() override {
return call<Rpc_address_space>(); }
Capability<Region_map> stack_area() override {
return call<Rpc_stack_area>(); }
Capability<Region_map> linker_area() override {
return call<Rpc_linker_area>(); }
void ref_account(Capability<Pd_session> pd) override {
call<Rpc_ref_account>(pd); }
void transfer_quota(Capability<Pd_session> pd, Cap_quota amount) override {
call<Rpc_transfer_cap_quota>(pd, amount); }
Cap_quota cap_quota() const override { return call<Rpc_cap_quota>(); }
Cap_quota used_caps() const override { return call<Rpc_used_caps>(); }
Ram_dataspace_capability alloc(size_t size,
Cache_attribute cached = CACHED) override
{
return call<Rpc_alloc>(size, cached);
}
void free(Ram_dataspace_capability ds) override { call<Rpc_free>(ds); }
size_t dataspace_size(Ram_dataspace_capability ds) const override
{
return ds.valid() ? Dataspace_client(ds).size() : 0;
}
void transfer_quota(Pd_session_capability pd_session, Ram_quota amount) override {
call<Rpc_transfer_ram_quota>(pd_session, amount); }
Ram_quota ram_quota() const override { return call<Rpc_ram_quota>(); }
Ram_quota used_ram() const override { return call<Rpc_used_ram>(); }
Capability<Native_pd> native_pd() override { return call<Rpc_native_pd>(); }
Managing_system_state managing_system(Managing_system_state const & state) override {
return call<Rpc_managing_system>(state); }
};
#endif /* _INCLUDE__PD_SESSION__CLIENT_H_ */