/* * \brief Child handling * \author Norman Feske * \date 2013-10-05 */ /* * Copyright (C) 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 _INCLUDE__CLI_MONITOR__CHILD_H_ #define _INCLUDE__CLI_MONITOR__CHILD_H_ /* Genode includes */ #include #include #include #include #include #include #include /* CLI-monitor includes */ #include class Child_base : public Genode::Child_policy { public: /* * XXX derive donated quota from information to be provided by * the used 'Connection' interfaces */ enum { DONATED_RAM_QUOTA = 128*1024 }; class Quota_exceeded : public Genode::Exception { }; typedef Genode::size_t size_t; private: Ram &_ram; Genode::Session_label const _label; size_t _ram_quota; size_t _ram_limit; struct Resources { Genode::Pd_connection pd; Genode::Ram_connection ram; Genode::Cpu_connection cpu; Resources(const char *label, Genode::size_t ram_quota) : pd(label), ram(label), cpu(label) { if (ram_quota > DONATED_RAM_QUOTA) ram_quota -= DONATED_RAM_QUOTA; else throw Quota_exceeded(); ram.ref_account(Genode::env()->ram_session_cap()); if (Genode::env()->ram_session()->transfer_quota(ram.cap(), ram_quota) != 0) throw Quota_exceeded(); } } _resources; Genode::Child::Initial_thread _initial_thread { _resources.cpu, _resources.pd, _label.string() }; Genode::Region_map_client _address_space { _resources.pd.address_space() }; Genode::Service_registry _parent_services; Genode::Rom_connection _binary_rom; enum { ENTRYPOINT_STACK_SIZE = 12*1024 }; Genode::Rpc_entrypoint _entrypoint; Init::Child_policy_enforce_labeling _labeling_policy; Init::Child_policy_provide_rom_file _binary_policy; Genode::Child_policy_dynamic_rom_file _config_policy; Genode::Child _child; /** * If set to true, immediately withdraw resources yielded by the child */ bool _withdraw_on_yield_response = false; /** * Arguments of current resource request from the child */ Genode::Parent::Resource_args _resource_args; Genode::Signal_context_capability _yield_response_sigh_cap; Genode::Signal_context_capability _exit_sig_cap; /* true if child is scheduled for destruction */ bool _exited = false; public: Child_base(Ram &ram, char const *label, char const *binary, Genode::Cap_session &cap_session, Genode::size_t ram_quota, Genode::size_t ram_limit, Genode::Signal_context_capability yield_response_sig_cap, Genode::Signal_context_capability exit_sig_cap, Genode::Dataspace_capability ldso_ds) : _ram(ram), _label(label), _ram_quota(ram_quota), _ram_limit(ram_limit), _resources(_label.string(), _ram_quota), _binary_rom(Genode::prefixed_label(Genode::Session_label(label), Genode::Session_label(binary)).string()), _entrypoint(&cap_session, ENTRYPOINT_STACK_SIZE, _label.string(), false), _labeling_policy(_label.string()), _binary_policy("binary", _binary_rom.dataspace(), &_entrypoint), _config_policy("config", _entrypoint, &_resources.ram), _child(_binary_rom.dataspace(), ldso_ds, _resources.pd, _resources.pd, _resources.ram, _resources.ram, _resources.cpu, _initial_thread, *Genode::env()->rm_session(), _address_space, _entrypoint, *this), _yield_response_sigh_cap(yield_response_sig_cap), _exit_sig_cap(exit_sig_cap) { } Genode::Session_label label() const { return _label; } void configure(char const *config, size_t config_len) { _config_policy.load(config, config_len); } void start() { _entrypoint.activate(); } /** * Issue yield request to the child */ void yield(size_t amount, bool greedy) { if (requested_ram_quota()) return; /* resource request in flight */ char buf[128]; Genode::snprintf(buf, sizeof(buf), "ram_quota=%ld", amount); _withdraw_on_yield_response = greedy; _child.yield(buf); } /** * Return amount of RAM currently requested by the child */ size_t requested_ram_quota() const { return Genode::Arg_string::find_arg(_resource_args.string(), "ram_quota").ulong_value(0); } /** * Withdraw quota from the child * * \throw Ram::Transfer_quota_failed */ void withdraw_ram_quota(size_t amount) { if (!amount) return; _ram.withdraw_from(_resources.ram.cap(), amount); _ram_quota -= amount; } /** * Upgrade quota of child * * \throw Ram::Transfer_quota_failed */ void upgrade_ram_quota(size_t amount) { _ram.transfer_to(_resources.ram.cap(), amount); _ram_quota += amount; /* wake up child if resource request is in flight */ size_t const req = requested_ram_quota(); if (req && _resources.ram.avail() >= req) { _child.notify_resource_avail(); /* clear request state */ _resource_args = Genode::Parent::Resource_args(""); } } /** * Try to respond to a current resource request issued by the child * * This method evaluates the conditions, under which a resource * request can be answered: There must be enough room between the * current quota and the configured limit, and there must be enough * slack memory available. If both conditions are met, the quota * of the child gets upgraded. */ void try_response_to_resource_request() { size_t const req = requested_ram_quota(); if (!req) return; /* no resource request in flight */ /* * Respond to the current request if the requested quota fits * within the limit and if there is enough free quota available. */ if (req <= _ram.status().avail && req + _ram_quota <= _ram_limit) { try { upgrade_ram_quota(req); } catch (Ram::Transfer_quota_failed) { } } } /** * Set limit for on-demand RAM quota expansion */ void ram_limit(size_t limit) { _ram_limit = limit; try_response_to_resource_request(); } struct Ram_status { size_t quota = 0, limit = 0, xfer = 0, used = 0, avail = 0, req = 0; Ram_status() { } Ram_status(size_t quota, size_t limit, size_t xfer, size_t used, size_t avail, size_t req) : quota(quota), limit(limit), xfer(xfer), used(used), avail(avail), req(req) { } }; /** * Return RAM quota status of the child * * XXX should be a const method, but the 'Ram_session' accessors * are not const */ Ram_status ram_status() { return Ram_status(_ram_quota, _ram_limit, _ram_quota - _resources.ram.quota(), _resources.ram.used(), _resources.ram.avail(), requested_ram_quota()); } /** * Return true if child exited and should be destructed */ bool exited() const { return _exited; } /**************************** ** Child_policy interface ** ****************************/ const char *name() const { return _label.string(); } Genode::Service *resolve_session_request(const char *service_name, const char *args) { Genode::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; /* fill parent service registry on demand */ if (!(service = _parent_services.find(service_name))) { service = new (Genode::env()->heap()) Genode::Parent_service(service_name); _parent_services.insert(service); } /* return parent service */ return service; } void filter_session_args(const char *service, char *args, Genode::size_t args_len) { _labeling_policy.filter_session_args(service, args, args_len); } void yield_response() { if (_withdraw_on_yield_response) { enum { RESERVE = 4*1024*1024 }; size_t amount = _resources.ram.avail() < RESERVE ? 0 : _resources.ram.avail() - RESERVE; /* try to immediately withdraw freed-up resources */ try { withdraw_ram_quota(amount); } catch (Ram::Transfer_quota_failed) { } } /* propagate yield-response signal */ Genode::Signal_transmitter(_yield_response_sigh_cap).submit(); } void resource_request(Genode::Parent::Resource_args const &args) { _resource_args = args; try_response_to_resource_request(); } void exit(int exit_value) override { Genode::log("subsystem \"", name(), "\" exited with value ", exit_value); _exited = true; /* trigger destruction of the child */ Genode::Signal_transmitter(_exit_sig_cap).submit(); } }; #endif /* _INCLUDE__CLI_MONITOR__CHILD_H_ */