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sdrangel/liblimesuite/srcmw/ConnectionSTREAM/ConnectionSTREAM.h

193 lines
5.8 KiB
C++

/**
@file ConnectionSTREAM.h
@author Lime Microsystems
@brief Implementation of STREAM board connection.
*/
#pragma once
#include <ConnectionRegistry.h>
#include <IConnection.h>
#include <ILimeSDRStreaming.h>
#include <vector>
#include <set>
#include <string>
#include <atomic>
#include <memory>
#include <thread>
#include "fifo.h"
#include <ciso646>
#define __unix__
#include "windows.h"
#ifndef __unix__
#include "windows.h"
#include "CyAPI.h"
#else
#include <libusb-1.0/libusb.h>
#include <mutex>
#include <condition_variable>
#include <chrono>
#endif
namespace lime
{
#define USB_MAX_CONTEXTS 64 //maximum number of contexts for asynchronous transfers
/** @brief Wrapper class for holding USB asynchronous transfers contexts
*/
class USBTransferContext
{
public:
USBTransferContext() : used(false)
{
id = idCounter++;
#ifndef __unix__
inOvLap = new OVERLAPPED;
memset(inOvLap, 0, sizeof(OVERLAPPED));
inOvLap->hEvent = CreateEvent(NULL, false, false, NULL);
context = NULL;
#else
transfer = libusb_alloc_transfer(0);
bytesXfered = 0;
bytesExpected = 0;
done = 0;
#endif
}
~USBTransferContext()
{
#ifndef __unix__
CloseHandle(inOvLap->hEvent);
delete inOvLap;
#else
libusb_free_transfer(transfer);
#endif
}
bool reset()
{
if(used)
return false;
#ifndef __unix__
CloseHandle(inOvLap->hEvent);
memset(inOvLap, 0, sizeof(OVERLAPPED));
inOvLap->hEvent = CreateEvent(NULL, false, false, NULL);
#endif
return true;
}
bool used;
int id;
static int idCounter;
#ifndef __unix__
PUCHAR context;
OVERLAPPED* inOvLap;
#else
libusb_transfer* transfer;
long bytesXfered;
long bytesExpected;
std::atomic<bool> done;
std::mutex transferLock;
std::condition_variable cv;
#endif
};
class ConnectionSTREAM : public ILimeSDRStreaming
{
public:
ConnectionSTREAM(void* arg, const std::string &vidpid, const std::string &serial, const unsigned index);
~ConnectionSTREAM(void);
void VersionCheck(void);
int Open(const std::string &vidpid, const std::string &serial, const unsigned index);
void Close();
bool IsOpen();
int GetOpenedIndex();
virtual int Write(const unsigned char* buffer, int length, int timeout_ms = 100) override;
virtual int Read(unsigned char* buffer, int length, int timeout_ms = 100) override;
virtual int UploadWFM(const void* const* samples, uint8_t chCount, size_t sample_count, StreamConfig::StreamDataFormat format) override;
//hooks to update FPGA plls when baseband interface data rate is changed
virtual int UpdateExternalDataRate(const size_t channel, const double txRate, const double rxRate) override;
virtual int UpdateExternalDataRate(const size_t channel, const double txRate, const double rxRate, const double txPhase, const double rxPhase) override;
virtual int ProgramWrite(const char *buffer, const size_t length, const int programmingMode, const int device, ProgrammingCallback callback) override;
int ProgramUpdate(const bool download, ProgrammingCallback callback);
int ReadRawStreamData(char* buffer, unsigned length, int timeout_ms = 100)override;
protected:
virtual void ReceivePacketsLoop(const ThreadData args) override;
virtual void TransmitPacketsLoop(const ThreadData args) override;
virtual int BeginDataReading(char* buffer, uint32_t length);
virtual int WaitForReading(int contextHandle, unsigned int timeout_ms);
virtual int FinishDataReading(char* buffer, uint32_t length, int contextHandle);
virtual void AbortReading();
virtual int BeginDataSending(const char* buffer, uint32_t length);
virtual int WaitForSending(int contextHandle, uint32_t timeout_ms);
virtual int FinishDataSending(const char* buffer, uint32_t length, int contextHandle);
virtual void AbortSending();
int ResetStreamBuffers() override;
eConnectionType GetType(void) {return USB_PORT;}
double DetectRefClk(void);
USBTransferContext contexts[USB_MAX_CONTEXTS];
USBTransferContext contextsToSend[USB_MAX_CONTEXTS];
bool isConnected;
#ifndef __unix__
CCyFX3Device* USBDevicePrimary;
//control endpoints
CCyControlEndPoint* InCtrlEndPt3;
CCyControlEndPoint* OutCtrlEndPt3;
//end points for samples reading and writing
CCyUSBEndPoint* InEndPt;
CCyUSBEndPoint* OutEndPt;
CCyUSBEndPoint* InCtrlBulkEndPt;
CCyUSBEndPoint* OutCtrlBulkEndPt;
#else
libusb_device_handle* dev_handle; //a device handle
libusb_context* ctx; //a libusb session
int read_firmware_image(unsigned char *buf, int len);
int fx3_usbboot_download(unsigned char *buf, int len);
int ram_write(unsigned char *buf, unsigned int ramAddress, int len);
#endif
static const uint8_t streamBulkOutAddr;
static const uint8_t streamBulkInAddr;
static const uint8_t ctrlBulkOutAddr;
static const uint8_t ctrlBulkInAddr;
static const std::set<uint8_t> commandsToBulkCtrlHw1;
static const std::set<uint8_t> commandsToBulkCtrlHw2;
std::set<uint8_t> commandsToBulkCtrl;
bool bulkCtrlInProgress;
bool bulkCtrlAvailable;
std::mutex mExtraUsbMutex;
};
class ConnectionSTREAMEntry : public ConnectionRegistryEntry
{
public:
ConnectionSTREAMEntry(void);
ConnectionSTREAMEntry(const std::string entryName);
virtual ~ConnectionSTREAMEntry(void);
virtual std::vector<ConnectionHandle> enumerate(const ConnectionHandle& hint);
virtual IConnection* make(const ConnectionHandle& handle);
protected:
#ifndef __unix__
std::string DeviceName(unsigned int index);
void *ctx; //not used, just for mirroring unix
#else
libusb_context* ctx; //a libusb session
std::thread mUSBProcessingThread;
void handle_libusb_events();
std::atomic<bool> mProcessUSBEvents;
#endif
};
}