8fabbb008c
At the moment the stub only implement them for MIPS. Change-Id: Ica835a0e9c70fa5675c3d655eae986e812a47de8
369 lines
16 KiB
C++
369 lines
16 KiB
C++
/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright (C) 2015 by Amaury Pouly
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#ifndef __HWSTUB_HPP__
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#define __HWSTUB_HPP__
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#include "hwstub_protocol.h"
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#include <string>
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#include <mutex>
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#include <vector>
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#include <cstdint>
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#include <atomic>
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#include <memory>
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#include <chrono>
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#include <thread>
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#include <mutex>
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#include <condition_variable>
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#include <ostream>
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namespace hwstub {
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class context;
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class device;
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class handle;
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class context_poller;
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/** C++ equivalent of /dev/null for streams */
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extern std::ostream cnull;
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extern std::wostream wcnull;
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/** Errors */
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enum class error
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{
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SUCCESS, /** Success */
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ERROR, /** Unspecified error */
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DISCONNECTED, /** Device has been disconnected */
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PROBE_FAILURE, /** Device did not pass probing */
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NO_CONTEXT, /** The context has been destroyed */
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USB_ERROR, /** Unspecified USB error */
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DUMMY, /** Call on dummy device/handle */
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NO_SERVER, /** The server could not be reached */
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SERVER_DISCONNECTED, /** Context got disconnected from the server */
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SERVER_MISMATCH, /** The server is not compatible with hwstub */
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PROTOCOL_ERROR, /** Network protocol error */
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NET_ERROR, /** Network error */
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TIMEOUT, /** Operation timed out */
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OVERFLW, /** Operation stopped to prevent buffer overflow */
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UNIMPLEMENTED, /** Operation has not been implemented */
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UNSUPPORTED, /** Operation is not supported by device/protocol */
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};
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/** Return a string explaining the error */
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std::string error_string(error err);
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/** NOTE Multithreading:
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* Unless specified, all methods are thread-safe
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*/
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/** Context
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*
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* A context provides a list of available devices and may notify devices
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* arrival and departure.
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*
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* A context provides a way to regularly poll for derive changes. There are two
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* ways to manually force an update:
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* - on call to get_device_list(), the list is already refetched
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* - on call to update_list() to force list update
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* Note that automatic polling is disabled by default.
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*/
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class context : public std::enable_shared_from_this<context>
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{
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protected:
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context();
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public:
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/** On destruction, the context will destroy all the devices. */
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virtual ~context();
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/** Get device list, clears the list in argument first. All devices in the list
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* are still connected (or believe to be). This function will update the device
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* list. */
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error get_device_list(std::vector<std::shared_ptr<device>>& list);
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/** Force the context to update its internal list of devices. */
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error update_list();
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/** Ask the context to automatically poll for device changes.
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* Note that this might spawn a new thread to do so, in which case it will
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* be destroyed/stop on deletetion or when stop_polling() is called. If
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* polling is already enabled, this function will change the polling interval. */
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void start_polling(std::chrono::milliseconds interval = std::chrono::milliseconds(250));
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/** Stop polling. */
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void stop_polling();
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/** Register a notification callback with arguments (context,arrived,device)
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* WARNING the callback may be called asynchronously ! */
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typedef std::function<void(std::shared_ptr<context>, bool, std::shared_ptr<device>)> notification_callback_t;
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typedef size_t callback_ref_t;
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callback_ref_t register_callback(const notification_callback_t& fn);
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void unregister_callback(callback_ref_t ref);
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/** Return a dummy device that does nothing. A dummy device might be useful
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* in cases where one still wants a valid pointer to no device. This dummy
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* device does not appear in the list, it can be opened and will fail all requests. */
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error get_dummy_device(std::shared_ptr<device>& dev);
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/** Set/clear debug output for this context */
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void set_debug(std::ostream& os);
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inline void clear_debug() { set_debug(cnull); }
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/** Get debug output for this context */
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std::ostream& debug();
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protected:
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/** Notify the context about a device. If arrived is true, the device is
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* added to the list and a reference will be added to it. If arrived is false,
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* the device is marked as disconnected(), removed from the list and a
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* reference will be removed from it. Adding a device that matches an
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* existing one will do nothing. */
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void change_device(bool arrived, std::shared_ptr<device> dev);
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/** Do device notification */
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void notify_device(bool arrived, std::shared_ptr<device> dev);
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/** Opaque device type */
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typedef void* ctx_dev_t;
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/** Fetch the device list. Each item in the list is an opaque pointer. The function
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* can also provide a pointer that will be used to free the list resources
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* if necessary. Return <0 on error. */
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virtual error fetch_device_list(std::vector<ctx_dev_t>& list, void*& ptr) = 0;
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/** Destroy the resources created to get the list. */
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virtual void destroy_device_list(void *ptr) = 0;
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/** Create a new hwstub device from the opaque pointer. Return <0 on error.
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* This function needs not add a reference to the newly created device. */
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virtual error create_device(ctx_dev_t dev, std::shared_ptr<device>& hwdev) = 0;
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/** Return true if the opaque pointer corresponds to the device. Only called
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* from map_device(). */
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virtual bool match_device(ctx_dev_t dev, std::shared_ptr<device> hwdev) = 0;
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/** Check if a device matches another one in the list */
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bool contains_dev(const std::vector<device*>& list, ctx_dev_t dev);
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struct callback_t
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{
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notification_callback_t callback;
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callback_ref_t ref;
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};
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std::shared_ptr<context_poller> m_poller; /* poller object */
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std::recursive_mutex m_mutex; /* list mutex */
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std::vector<std::shared_ptr<device>> m_devlist; /* list of devices */
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std::vector<callback_t> m_callbacks; /* list of callbacks */
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callback_ref_t m_next_cb_ref; /* next callback reference */
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std::ostream *m_debug; /* debug stream */
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};
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/** Context Poller
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*
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* This class provides a way to regularly poll a context for device changes.
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* NOTE this class is not meant to be used directly since context already
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* provides access to it via start_polling() and stop_polling() */
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class context_poller
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{
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public:
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context_poller(std::weak_ptr<context> ctx, std::chrono::milliseconds interval = std::chrono::milliseconds(250));
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~context_poller();
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/** Set polling interval (in milliseconds) (works even if polling already enabled) */
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void set_interval(std::chrono::milliseconds interval);
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/** Start polling */
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void start();
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/** Stop polling. After return, no function will be made. */
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void stop();
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protected:
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static void thread(context_poller *poller);
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void poll();
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std::weak_ptr<context> m_ctx; /* context */
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bool m_running; /* are we running ? */
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bool m_exit; /* exit flag for the thread */
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std::thread m_thread; /* polling thread */
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std::mutex m_mutex; /* mutex lock */
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std::condition_variable m_cond; /* signalling condition */
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std::chrono::milliseconds m_interval; /* Interval */
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};
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/** Device
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*
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* A device belongs to a context.
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* Note that a device only keeps a weak pointer to the context, so it is possible
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* for the context to be destroyed during the life of the device, in which case
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* all operations on it will fail. */
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class device : public std::enable_shared_from_this<device>
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{
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protected:
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device(std::shared_ptr<context> ctx);
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public:
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virtual ~device();
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/** Open a handle to the device. Several handles may be opened concurrently. */
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error open(std::shared_ptr<handle>& handle);
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/** Disconnect the device. This will notify the context that the device is gone. */
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void disconnect();
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/** Returns true if the device is still connected. */
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bool connected();
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/** Get context (might be empty) */
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std::shared_ptr<context> get_context();
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protected:
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/** Some subsystems allow for hardware to be open several times and so do not.
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* For example, libusb only allows one handle per device. To workaround this issue,
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* open() will do some magic to allow for several open() even when the hardware
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* supports only one. If the device does not support multiple
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* handles (as reported by has_multiple_open()), open() will only call open_dev()
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* the first time the device is opened and will redirect other open() calls to
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* this handle using proxy handles. If the device supports multiple handles,
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* open() will simply call open_dev() each time.
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* The open_dev() does not need to care about this magic and only needs to
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* open the device and returns the handle to it.
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* NOTE this function is always called with the mutex locked already. */
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virtual error open_dev(std::shared_ptr<handle>& handle) = 0;
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/** Return true if device can be opened multiple times. In this case, each
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* call to open() will generate a call to do_open(). Otherwise, proxy handles
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* will be created for each open() and do_open() will only be called the first
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* time. */
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virtual bool has_multiple_open() const = 0;
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std::weak_ptr<context> m_ctx; /* pointer to context */
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std::recursive_mutex m_mutex; /* device state mutex: ref count, connection status */
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bool m_connected; /* false once device is disconnected */
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std::weak_ptr<handle> m_handle; /* weak pointer to the opened handle (if !has_multiple_open()) */
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};
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/** Handle
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*
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* A handle is tied to a device and provides access to the stub operation.
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* The handle is reference counted and is destroyed
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* when its reference count decreased to zero.
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*/
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class handle : public std::enable_shared_from_this<handle>
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{
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protected:
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/** A handle will always hold a reference to the device */
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handle(std::shared_ptr<device> dev);
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public:
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/** When destroyed, the handle will release its reference to the device */
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virtual ~handle();
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/** Return associated device */
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std::shared_ptr<device> get_device();
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/** Fetch a descriptor, buf_sz is the size of the buffer and is updated to
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* reflect the number of bytes written to the buffer. */
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error get_desc(uint16_t desc, void *buf, size_t& buf_sz);
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/** Fetch part of the log, buf_sz is the size of the buffer and is updated to
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* reflect the number of bytes written to the buffer. */
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error get_log(void *buf, size_t& buf_sz);
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/** Ask the stub to execute some code.
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* NOTE: this may kill the stub */
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error exec(uint32_t addr, uint16_t flags);
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/** Read/write some device memory. sz is the size of the buffer and is updated to
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* reflect the number of bytes written to the buffer.
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* NOTE: the stub may or may not recover from bad read/write, so this may kill it.
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* NOTE: the default implemtentation of read() and write() will split transfers
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* according to the buffer size and call read_dev() and write_dev() */
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error read(uint32_t addr, void *buf, size_t& sz, bool atomic);
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error write(uint32_t addr, const void *buf, size_t& sz, bool atomic);
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/** Execute a general cop operation: if out_data is not null, data is appended to header,
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* if in_data is not null, a read operation follows to retrieve some data.
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* The in_data parameters is updated to reflect the number of transfered bytes */
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error cop_op(uint8_t op, uint8_t args[HWSTUB_COP_ARGS], const void *out_data,
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size_t out_size, void *in_data, size_t *in_size);
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/** Execute a coprocessor read operation */
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error read32_cop(uint8_t args[HWSTUB_COP_ARGS], uint32_t& value);
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/** Execute a coprocessor write operation */
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error write32_cop(uint8_t args[HWSTUB_COP_ARGS], uint32_t value);
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/** Get device buffer size: any read() or write() greater than this size
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* will be split into several transaction to avoid overflowing device
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* buffer. */
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virtual size_t get_buffer_size() = 0;
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/** Check a handle status. A successful handle does not guarantee successful
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* operations. An invalid handle will typically report probing failure (the
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* device did not pass probing) or disconnection.
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* The default implemtentation will test if context still exists and connection status. */
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virtual error status() const;
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/** Shorthand for status() == HWSTUB_SUCCESS */
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inline bool valid() const { return status() == error::SUCCESS; }
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/** Helper functions */
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error get_version_desc(hwstub_version_desc_t& desc);
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error get_layout_desc(hwstub_layout_desc_t& desc);
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error get_stmp_desc(hwstub_stmp_desc_t& desc);
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error get_pp_desc(hwstub_pp_desc_t& desc);
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error get_jz_desc(hwstub_jz_desc_t& desc);
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error get_target_desc(hwstub_target_desc_t& desc);
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protected:
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/** The get_desc(), get_log(), exec(), read() and write() function
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* take care of details so that each implementation can safely assume that
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* the hwstub context exists and will not be destroyed during the execution
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* of the function. It will also return early if the device has been disconnected.
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*
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* NOTE on read() and write():
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* Since devices have a limited buffer, big transfers must be split into
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* smaller ones. The high-level read() and write() functions perform this
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* splitting in a generic way, based on get_buffer_size(), and calling read_dev()
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* and write_dev() which do the actual operation.
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* These function can safely assume that sz <= get_buffer_size(). */
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virtual error read_dev(uint32_t addr, void *buf, size_t& sz, bool atomic) = 0;
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virtual error write_dev(uint32_t addr, const void *buf, size_t& sz, bool atomic) = 0;
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virtual error get_dev_desc(uint16_t desc, void *buf, size_t& buf_sz) = 0;
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virtual error get_dev_log(void *buf, size_t& buf_sz) = 0;
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virtual error exec_dev(uint32_t addr, uint16_t flags) = 0;
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/* cop operation: if out_data is not null, data is appended to header, if
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* in_data is not null, a READ2 operation follows to retrieve some data
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* The in_data parameters is updated to reflect the number of transfered bytes*/
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virtual error cop_dev(uint8_t op, uint8_t args[HWSTUB_COP_ARGS], const void *out_data,
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size_t out_size, void *in_data, size_t *in_size) = 0;
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std::shared_ptr<device> m_dev; /* pointer to device */
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std::atomic<int> m_refcnt; /* reference count */
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std::recursive_mutex m_mutex; /* operation mutex to serialise operations */
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};
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/** Dummy device */
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class dummy_device : public device
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{
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friend class context; /* for ctor */
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protected:
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dummy_device(std::shared_ptr<context> ctx);
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public:
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virtual ~dummy_device();
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protected:
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virtual error open_dev(std::shared_ptr<handle>& handle);
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virtual bool has_multiple_open() const;
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};
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/** Dummy handle */
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class dummy_handle : public handle
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{
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friend class dummy_device;
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protected:
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dummy_handle(std::shared_ptr<device> dev);
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public:
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virtual ~dummy_handle();
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protected:
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virtual error read_dev(uint32_t addr, void *buf, size_t& sz, bool atomic);
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virtual error write_dev(uint32_t addr, const void *buf, size_t& sz, bool atomic);
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virtual error get_dev_desc(uint16_t desc, void *buf, size_t& buf_sz);
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virtual error get_dev_log(void *buf, size_t& buf_sz);
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virtual error exec_dev(uint32_t addr, uint16_t flags);
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virtual error cop_dev(uint8_t op, uint8_t args[HWSTUB_COP_ARGS], const void *out_data,
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size_t out_size, void *in_data, size_t *in_size);
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virtual error status() const;
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virtual size_t get_buffer_size();
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struct hwstub_version_desc_t m_desc_version;
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struct hwstub_layout_desc_t m_desc_layout;
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struct hwstub_target_desc_t m_desc_target;
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};
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} // namespace hwstub
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#endif /* __HWSTUB_HPP__ */
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