genode/repos/os/include/block/driver.h
Martin Stein b33c35a003 sd_card: get rid of wait_for_irq
Most implementations use a Signal_handler now to acknowledge the packet
instead of waiting for the transfer completion. The exceptions to that are
the non-DMA implementations for RPI and PL180

Ref #2206
2017-01-13 13:07:06 +01:00

253 lines
6.3 KiB
C++

/*
* \brief Block-driver interface
* \author Christian Helmuth
* \author Sebastian Sumpf
* \author Stefan kalkowski
* \date 2011-05-23
*/
/*
* Copyright (C) 2011-2013 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__BLOCK__DRIVER_H_
#define _INCLUDE__BLOCK__DRIVER_H_
#include <base/exception.h>
#include <base/stdint.h>
#include <base/signal.h>
#include <ram_session/ram_session.h>
#include <block_session/rpc_object.h>
namespace Block {
class Driver_session_base;
class Driver_session;
class Driver;
struct Driver_factory;
};
struct Block::Driver_session_base
{
/**
* Acknowledges a packet processed by the driver to the client
*
* \param packet the packet to acknowledge
* \param success indicated whether the processing was successful
*
* \throw Ack_congestion
*/
virtual void ack_packet(Packet_descriptor &packet,
bool success) = 0;
};
class Block::Driver_session : public Driver_session_base,
public Block::Session_rpc_object
{
public:
/**
* Constructor
*
* \param tx_ds dataspace used as communication buffer
* for the tx packet stream
* \param ep entry point used for packet-stream channel
*/
Driver_session(Genode::Dataspace_capability tx_ds,
Genode::Rpc_entrypoint &ep)
: Session_rpc_object(tx_ds, ep) { }
};
/**
* Interface to be implemented by the device-specific driver code
*/
class Block::Driver
{
private:
Driver_session_base *_session = nullptr;
public:
/**
* Exceptions
*/
class Io_error : public ::Genode::Exception { };
class Request_congestion : public ::Genode::Exception { };
/**
* Destructor
*/
virtual ~Driver() { }
/**
* Request block size for driver and medium
*/
virtual Genode::size_t block_size() = 0;
/**
* Request capacity of medium in blocks
*/
virtual Block::sector_t block_count() = 0;
/**
* Request operations supported by the device
*/
virtual Session::Operations ops() = 0;
/**
* Read from medium
*
* \param block_number number of first block to read
* \param block_count number of blocks to read
* \param buffer output buffer for read request
* \param packet packet descriptor from the client
*
* \throw Request_congestion
*
* Note: should be overridden by DMA non-capable devices
*/
virtual void read(sector_t block_number,
Genode::size_t block_count,
char * buffer,
Packet_descriptor &packet) {
throw Io_error(); }
/**
* Write to medium
*
* \param block_number number of first block to write
* \param block_count number of blocks to write
* \param buffer buffer for write request
* \param packet packet descriptor from the client
*
* \throw Request_congestion
*
* Note: should be overridden by DMA non-capable, non-ROM devices
*/
virtual void write(sector_t block_number,
Genode::size_t block_count,
const char * buffer,
Packet_descriptor &packet) {
throw Io_error(); }
/**
* Read from medium using DMA
*
* \param block_number number of first block to read
* \param block_count number of blocks to read
* \param phys phyiscal address of read buffer
* \param packet packet descriptor from the client
*
* \throw Request_congestion
*
* Note: should be overridden by DMA capable devices
*/
virtual void read_dma(sector_t block_number,
Genode::size_t block_count,
Genode::addr_t phys,
Packet_descriptor &packet) {
throw Io_error(); }
/**
* Write to medium using DMA
*
* \param block_number number of first block to write
* \param block_count number of blocks to write
* \param phys physical address of write buffer
* \param packet packet descriptor from the client
*
* \throw Request_congestion
*
* Note: should be overridden by DMA capable, non-ROM devices
*/
virtual void write_dma(sector_t block_number,
Genode::size_t block_count,
Genode::addr_t phys,
Packet_descriptor &packet) {
throw Io_error(); }
/**
* Check if DMA is enabled for driver
*
* \return true if DMA is enabled, false otherwise
*
* Note: has to be overriden by DMA-capable devices
*/
virtual bool dma_enabled() { return false; }
/**
* Allocate buffer which is suitable for DMA.
*
* Note: has to be overriden by DMA-capable devices
*/
virtual Genode::Ram_dataspace_capability
alloc_dma_buffer(Genode::size_t size) {
return Genode::env()->ram_session()->alloc(size); }
/**
* Free buffer which is suitable for DMA.
*
* Note: has to be overriden by DMA-capable devices
*/
virtual void free_dma_buffer(Genode::Ram_dataspace_capability c) {
return Genode::env()->ram_session()->free(c); }
/**
* Synchronize with device.
*
* Note: should be overriden by (e.g. intermediate) components,
* which cache data
*/
virtual void sync() {}
/**
* Informs the driver that the client session was closed
*
* Note: drivers with state (e.g. asynchronously working)
* should override this method, and reset their internal state
*/
virtual void session_invalidated() { }
/**
* Set single session component of the driver
*
* Session might get used to acknowledge requests.
*/
void session(Driver_session_base *session) {
if (!(_session = session)) session_invalidated(); }
/**
* Acknowledge a packet after processing finished to the client
*
* \param p packet to acknowledge
*/
void ack_packet(Packet_descriptor &p, bool success = true) {
if (_session) _session->ack_packet(p, success); }
};
/**
* Interface for constructing the driver object
*/
struct Block::Driver_factory
{
/**
* Construct new driver
*/
virtual Driver *create() = 0;
/**
* Destroy driver
*/
virtual void destroy(Driver *driver) = 0;
};
#endif /* _BLOCK__DRIVER_H_ */