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The patch adjust the code of the base, base-<kernel>, and os repository. To adapt existing components to fix violations of the best practices suggested by "Effective C++" as reported by the -Weffc++ compiler argument. The changes follow the patterns outlined below: * A class with virtual functions can no longer publicly inherit base classed without a vtable. The inherited object may either be moved to a member variable, or inherited privately. The latter would be used for classes that inherit 'List::Element' or 'Avl_node'. In order to enable the 'List' and 'Avl_tree' to access the meta data, the 'List' must become a friend. * Instead of adding a virtual destructor to abstract base classes, we inherit the new 'Interface' class, which contains a virtual destructor. This way, single-line abstract base classes can stay as compact as they are now. The 'Interface' utility resides in base/include/util/interface.h. * With the new warnings enabled, all member variables must be explicitly initialized. Basic types may be initialized with '='. All other types are initialized with braces '{ ... }' or as class initializers. If basic types and non-basic types appear in a row, it is nice to only use the brace syntax (also for basic types) and align the braces. * If a class contains pointers as members, it must now also provide a copy constructor and assignment operator. In the most cases, one would make them private, effectively disallowing the objects to be copied. Unfortunately, this warning cannot be fixed be inheriting our existing 'Noncopyable' class (the compiler fails to detect that the inheriting class cannot be copied and still gives the error). For now, we have to manually add declarations for both the copy constructor and assignment operator as private class members. Those declarations should be prepended with a comment like this: /* * Noncopyable */ Thread(Thread const &); Thread &operator = (Thread const &); In the future, we should revisit these places and try to replace the pointers with references. In the presence of at least one reference member, the compiler would no longer implicitly generate a copy constructor. So we could remove the manual declaration. Issue #465
335 lines
9.2 KiB
C++
335 lines
9.2 KiB
C++
/*
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* \brief Block-session component
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* \author Christian Helmuth
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* \author Stefan Kalkowski
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* \date 2011-05-20
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*/
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/*
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* Copyright (C) 2011-2017 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 Affero General Public License version 3.
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*/
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#ifndef _INCLUDE__BLOCK__COMPONENT_H_
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#define _INCLUDE__BLOCK__COMPONENT_H_
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#include <base/log.h>
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#include <base/component.h>
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#include <base/allocator_avl.h>
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#include <base/heap.h>
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#include <root/component.h>
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#include <block/driver.h>
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namespace Block {
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using namespace Genode;
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class Session_component_base;
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class Session_component;
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class Root;
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};
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/**
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* We have a hen and egg situation that makes this base class necessary.
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* The Block::Session_rpc_object construction depends on a dataspace for
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* the packet stream. The dataspace on the other hand is constructed by
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* the driver, which is created on demand when creating a session.
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* When creating the driver, and dataspace outside the Session_component
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* constructor within _create_session of the root component, we would have
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* to destroy the driver and dataspace within the destructor body of
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* Session_component, which will lead to problems, because the packet stream
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* destructors will be called after the shared memory already vanished.
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*/
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class Block::Session_component_base
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{
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protected:
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Driver_factory &_driver_factory;
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Driver &_driver;
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Ram_dataspace_capability _rq_ds;
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Session_component_base(Driver_factory &factory, size_t tx_buf_size)
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: _driver_factory(factory),
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_driver(*factory.create()),
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_rq_ds(_driver.alloc_dma_buffer(tx_buf_size)) {}
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~Session_component_base()
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{
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_driver.free_dma_buffer(_rq_ds);
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_driver_factory.destroy(&_driver);
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}
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};
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class Block::Session_component : public Block::Session_component_base,
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public Block::Driver_session
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{
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private:
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addr_t _rq_phys;
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Signal_handler<Session_component> _sink_ack;
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Signal_handler<Session_component> _sink_submit;
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bool _req_queue_full = false;
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bool _ack_queue_full = false;
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Packet_descriptor _p_to_handle { };
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unsigned _p_in_fly;
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bool _writeable;
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/**
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* Acknowledge a packet already handled
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*/
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inline void _ack_packet(Packet_descriptor &packet)
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{
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if (!tx_sink()->ready_to_ack())
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error("not ready to ack!");
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tx_sink()->acknowledge_packet(packet);
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_p_in_fly--;
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}
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/**
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* Range check packet request
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*/
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inline bool _range_check(Packet_descriptor &p) {
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return p.block_number() + p.block_count() - 1
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< _driver.block_count(); }
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/**
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* Handle a single request
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*/
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void _handle_packet(Packet_descriptor packet)
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{
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_p_to_handle = packet;
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_p_to_handle.succeeded(false);
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/* ignore invalid packets */
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if (!packet.size() || !_range_check(_p_to_handle)) {
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_ack_packet(_p_to_handle);
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return;
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}
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try {
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switch (_p_to_handle.operation()) {
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case Block::Packet_descriptor::READ:
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if (_driver.dma_enabled())
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_driver.read_dma(packet.block_number(),
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packet.block_count(),
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_rq_phys + packet.offset(),
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_p_to_handle);
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else
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_driver.read(packet.block_number(),
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packet.block_count(),
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tx_sink()->packet_content(packet),
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_p_to_handle);
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break;
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case Block::Packet_descriptor::WRITE:
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if (!_writeable) {
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_ack_packet(_p_to_handle);
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break;
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}
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if (_driver.dma_enabled())
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_driver.write_dma(packet.block_number(),
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packet.block_count(),
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_rq_phys + packet.offset(),
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_p_to_handle);
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else
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_driver.write(packet.block_number(),
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packet.block_count(),
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tx_sink()->packet_content(packet),
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_p_to_handle);
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break;
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default:
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throw Driver::Io_error();
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}
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} catch (Driver::Request_congestion) {
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_req_queue_full = true;
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} catch (Driver::Io_error) {
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_ack_packet(_p_to_handle);
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}
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}
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/**
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* Called whenever a signal from the packet-stream interface triggered
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*/
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void _signal()
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{
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/*
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* as long as more packets are available, and we're able to ack
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* them, and the driver's request queue isn't full,
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* direct the packet request to the driver backend
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*/
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for (_ack_queue_full = (_p_in_fly >= tx_sink()->ack_slots_free());
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!_req_queue_full && !_ack_queue_full
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&& tx_sink()->packet_avail();
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_ack_queue_full = (++_p_in_fly >= tx_sink()->ack_slots_free()))
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_handle_packet(tx_sink()->get_packet());
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}
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public:
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/**
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* Constructor
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*
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* \param driver_factory factory to create and destroy driver objects
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* \param ep entrypoint handling this session component
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* \param buf_size size of packet-stream payload buffer
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*/
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Session_component(Driver_factory &driver_factory,
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Genode::Entrypoint &ep,
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Genode::Region_map &rm,
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size_t buf_size,
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bool writeable)
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: Session_component_base(driver_factory, buf_size),
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Driver_session(rm, _rq_ds, ep.rpc_ep()),
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_rq_phys(Dataspace_client(_rq_ds).phys_addr()),
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_sink_ack(ep, *this, &Session_component::_signal),
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_sink_submit(ep, *this, &Session_component::_signal),
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_req_queue_full(false),
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_p_in_fly(0),
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_writeable(writeable)
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{
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_tx.sigh_ready_to_ack(_sink_ack);
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_tx.sigh_packet_avail(_sink_submit);
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_driver.session(this);
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}
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~Session_component() { _driver.session(nullptr); }
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/**
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* Acknowledges a packet processed by the driver to the client
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*
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* \param packet the packet to acknowledge
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* \param success indicated whether the processing was successful
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*
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* \throw Ack_congestion
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*/
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void ack_packet(Packet_descriptor &packet, bool success)
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{
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packet.succeeded(success);
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_ack_packet(packet);
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if (!_req_queue_full && !_ack_queue_full)
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return;
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/*
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* when the driver's request queue was full,
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* handle last unprocessed packet taken out of submit queue
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*/
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if (_req_queue_full) {
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_req_queue_full = false;
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_handle_packet(_p_to_handle);
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}
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/* resume packet processing */
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_signal();
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}
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/*******************************
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** Block session interface **
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*******************************/
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void info(sector_t *blk_count, size_t *blk_size,
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Operations *ops)
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{
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Operations driver_ops = _driver.ops();
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*blk_count = _driver.block_count();
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*blk_size = _driver.block_size();
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*ops = Operations();
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typedef Block::Packet_descriptor::Opcode Opcode;
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if (driver_ops.supported(Opcode::READ))
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ops->set_operation(Opcode::READ);
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if (_writeable && driver_ops.supported(Opcode::WRITE))
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ops->set_operation(Opcode::WRITE);
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}
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void sync() { _driver.sync(); }
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};
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/**
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* Root component, handling new session requests
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*/
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class Block::Root : public Genode::Root_component<Block::Session_component,
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Single_client>
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{
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private:
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Driver_factory &_driver_factory;
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Genode::Entrypoint &_ep;
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Genode::Region_map &_rm;
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bool const _writeable;
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protected:
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/**
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* Always returns the singleton block-session component
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*/
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Session_component *_create_session(const char *args)
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{
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size_t ram_quota =
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Arg_string::find_arg(args, "ram_quota" ).ulong_value(0);
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size_t tx_buf_size =
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Arg_string::find_arg(args, "tx_buf_size").ulong_value(0);
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/* delete ram quota by the memory needed for the session */
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size_t session_size = max((size_t)4096,
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sizeof(Session_component)
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+ sizeof(Allocator_avl));
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if (ram_quota < session_size)
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throw Insufficient_ram_quota();
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/*
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* Check if donated ram quota suffices for both
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* communication buffers. Also check both sizes separately
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* to handle a possible overflow of the sum of both sizes.
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*/
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if (tx_buf_size > ram_quota - session_size) {
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error("insufficient 'ram_quota', got ", ram_quota, ", need ",
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tx_buf_size + session_size);
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throw Insufficient_ram_quota();
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}
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bool writeable = _writeable
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? Arg_string::find_arg(args, "writeable").bool_value(true)
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: false;
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return new (md_alloc()) Session_component(_driver_factory,
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_ep, _rm, tx_buf_size,
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writeable);
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}
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public:
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/**
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* Constructor
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*
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* \param ep entrypoint handling this root component
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* \param md_alloc allocator to allocate session components
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* \param rm region map
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* \param driver_factory factory to create and destroy driver backend
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*/
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Root(Genode::Entrypoint &ep,
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Allocator &md_alloc,
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Genode::Region_map &rm,
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Driver_factory &driver_factory,
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bool writeable)
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:
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Root_component(ep, md_alloc),
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_driver_factory(driver_factory), _ep(ep), _rm(rm), _writeable(writeable)
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{ }
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};
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#endif /* _INCLUDE__BLOCK__COMPONENT_H_ */
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