Forum | | | | Chregu Mueller | Hallo, jetzt bin ich seit 2 Tagen dran, ich weiss nicht mehr weiter. MPUSBGetDLLVersion funktioniert, aber bei MPUSBOpen bekomme ich eine "Zugriffsverletzung beim Lesen von Adresse..." Hat schon jemand mit Profan die mpusbapi.dll verwendet, und kann helfen? Mit dieser DLL von Microchip habe ich Zugriff auf PIC-Microcontroller über USB. Danke, Gruss Chregu KompilierenMarkierenSeparieren'Netzspannungslogger
$I mpusbapi.inc
Declare dllh&
Declare vid_pid#,out_pipe#,in_pipe#
Declare myInPipe&,myOutPipe&
Declare MP_WRITE&,MP_READ&
Declare SendData#,RecData#
Declare Selection&
DIM vid_pid#,32
DIM out_pipe#,32
DIM in_pipe#,32
DIM SendData#,16
DIM RecData#,16
Declare SentLength&
String vid_pid#,0="vid_04d8&pid_ff0b"
String out_pipe#,0="\\MCHP_EP1"
String in_pipe#,0="\\MCHP_EP1"
MP_WRITE&=0
MP_READ&=1
Selection&=0
dllh&=@UseDLL("mpusbapi.dll")
IfNot dllh&
@MessageBox ("DLL nicht geladen","Fehler",48)
End
EndIf
PRINT MPUSBGetDLLVersion()
WaitInput
myOutPipe&=MPUSBOpen(Selection&,vid_pid#,out_pipe#,MP_WRITE&,0)'Output
myInPipe&=MPUSBOpen(Selection&,vid_pid#,out_pipe#,MP_READ&,0)'Input
BYTE SendData#,0=$51
BYTE SendData#,1=$01
BYTE SendData#,2=$01
BYTE SendData#,3=$00
PRINT "Hallo"
WaitInput
MPUSBWrite(myOutPipe&,SendData#,4,SentLength&,1000)
MPUSBRead(myInPipe&,RecData#,2,2,1000)
'PC sendet zum USB4all Bedeutung USB4all antwortet
'0x51 - 0x01 - 0x01 - 0x00 Einschalten des ADC mit einem analogen Eingang, AN0 ist ausgewählt 16 Nonsens-Bytes
'0x51 - 0x03 Abfragen der Spannung 0x51 - 0x03 - low - high
'Das Low-Byte enthält die unteren 8 Bit des Messergebnisses, während die beiden oberen Bits im High-Byte stehen.
PRINT @BYTE(RecData#,0)
PRINT @BYTE(RecData#,1)
MPUSBClose&(myOutPipe&)
MPUSBClose&(myInPipe&)
IfNot dllh&
FreeDLL dllh&
EndIf
WaitInput
End
KompilierenMarkierenSeparieren |
| | | | |
| | | Herzliche Grüße!
Wo kann man denn die DLL erhalten samt Parameterdefinitionen?
Das was ich an Parameterdefinition für _MPUSBOpen gefunden habe ist:
dword,mem(64),mem(64),dword,dword: [...] -
ich glaube Du nutzt nur mem(32)'er.
MPUSBOpen bekomme ich eine "Zugriffsverletzung beim Lesen von Adresse...
In wie weit ist diese Aussage gesichert? Ich sehe das Du 2x MPUSBOpen aufrufst -
mache mal vlt. hinter jedem Aufruf eine MessageBox. |
| | | | |
| | Chregu Mueller | Tut mir leid, das waren ein bisschen wenig Angaben. Also ich bekomme schon beim ersten Aufruf von MPUSBOpen die beiden Zugriffsverletzungen:
Danach bricht das Programm ab. Ich bin mir nicht sicher, wo ich welche Art von Variablen verwenden muss. Ich gebe hier mal alle Quellen an über die DLL, die ich gefunden habe: [...] Hier bei Sprut habe ich auch mein Projekt nachgebaut: [...] Im Download habe ich auch diese Datei gefunden, wo die DDL am präzisesten beschrieben ist:
https://dl.xprofan.com/?annii/_mpusbapi.cpp.txt KompilierenMarkierenSeparieren/*********************************************************************
*
* MPUSBAPI Library Version 1.00
*
*********************************************************************
* FileName: _mpusbapi.cpp
* Dependencies: See #include section below.
* Compiler: Borland C++ Builder 6
* Company: Copyright (C) 2004 by Microchip Technology, Inc.
*
* Software License Agreement
*
* The software supplied herewith by Microchip Technology Incorporated
* (the “Company”) for its PICmicro® Microcontroller is intended and
* supplied to you, the Company’s customer, for use solely and
* exclusively on Microchip PICmicro Microcontroller products. The
* software is owned by the Company and/or its supplier, and is
* protected under applicable copyright laws. All rights are reserved.
* Any use in violation of the foregoing restrictions may subject the
* user to criminal sanctions under applicable laws, as well as to
* civil liability for the breach of the terms and conditions of this
* license.
*
* THIS SOFTWARE IS PROVIDED IN AN “AS IS” CONDITION. NO WARRANTIES,
* WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED
* TO, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
* PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. THE COMPANY SHALL NOT,
* IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL OR
* CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER.
*
* Author Date Comment
*~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
* Ross Fosler 9/2/04 Implemented MPUSBGetDeviceLink()
* Rawin Rojvanit 11/19/04 Original version 1.00 completed
********************************************************************/
#include <stdio.h>
#include <windows.h>
#include <string.h>
#include <setupapi.h>
#include <initguid.h>
#include <winioctl.h>
#include "ioctls.h"
#include "_mpusbapi.h"
#define MPUSBAPI_VERSION 0x00010000L
#define MPUSB_DEV_NO_INFO 2
#define MPUSB_DEV_INVALID_INST 3
#define MPUSB_DEV_VIDPID_NOT_FOUND 4
#define MPUSB_DEV_NOT_ATTACHED 5
#pragma argsused
int WINAPI DllEntryPoint(HINSTANCE hinst, unsigned long reason, void* lpReserved)
{
return 1;
}
///////////////////////////////////////////////////////////////////////////////
// MPUSBGetDLLVersion : get mpusbapi.dll revision level
//
// Input:
// None
// Output:
// 32-bit revision level MMMMmmmm
//
DWORD MPUSBGetDLLVersion(void)
{
return MPUSBAPI_VERSION;
}//end MPUSBGetDLLVersion
///////////////////////////////////////////////////////////////////////////////
// MPUSBIsVidPidEqual : Compares the pVID_PID string against the DeviceInstance
// string retrieved from the registry using the DevicePath subkey.
// This function should be called only from MPUSBGetDevicePath().
//
// Note:
// All Windows version has the DeviceClasses information stored in:
// HKEY_LOCAL_MACHINE\\System\\CurrentControlSet\\Control\\DeviceClasses\\
// {GUID_DEVINTERFACE_MCHPUSB}\\<DevicePath>
// Win98SE,ME have different DevicePath string format from 2K,XP.
// It does not contain vid&pid information in the DevicePath.
// Thus necessitating the needs to check the DeviceInstance string in the
// registry.
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBIsVidPidEqual(PCHAR pDevicePath, PCHAR pVID_PID)
{
DWORD dwResult = MPUSB_FAIL;
char lszValue[255];
char lpSubKey[512];
HKEY hKey;
LONG returnStatus;
DWORD dwType=REG_SZ;
DWORD dwSize=255;
GUID guid = GUID_DEVINTERFACE_MCHPUSB;
/* Modify DevicePath to use registry format */
pDevicePath[0] ='#';
pDevicePath[1] ='#';
pDevicePath[3] ='#';
/* Form SubKey */
wsprintf(lpSubKey,
"SYSTEM\\CURRENTCONTROLSET\\CONTROL\\DEVICECLASSES\\{%4.2x-%2.2x-%2.2x-%.2x%.2x-%.2x%.2x%.2x%.2x%.2x%.2x}\\%s",
guid.Data1,guid.Data2,guid.Data3,guid.Data4[0],guid.Data4[1],guid.Data4[2],
guid.Data4[3],guid.Data4[4],guid.Data4[5],guid.Data4[6],guid.Data4[7],pDevicePath);
/* Open Key */
returnStatus = RegOpenKeyEx(HKEY_LOCAL_MACHINE,
lpSubKey,
0L,
KEY_ALL_ACCESS,
&hKey);
if(returnStatus == ERROR_SUCCESS)
{
returnStatus = RegQueryValueEx(hKey,
"DeviceInstance",
NULL,
&dwType,
(LPBYTE)&lszValue,
&dwSize);
if(returnStatus == ERROR_SUCCESS)
{
/*
* The string info stored in 'DeviceInstance' is the same
* across all Windows platforms: 98SE, ME, 2K, and XP.
* Upper-case in 98SE,ME.
* Converts all to lower-case anyway.
*/
strlwr(lszValue);
if(strstr(lszValue,pVID_PID) != NULL)
{
dwResult = MPUSB_SUCCESS;
}
}
}
RegCloseKey(hKey);
/* Modify DevicePath to use the original format */
pDevicePath[0] ='\\';
pDevicePath[1] ='\\';
pDevicePath[3] ='\\';
return dwResult;
}//end
///////////////////////////////////////////////////////////////////////////////
// MPUSBGetDeviceLink : Returns the path to device hardware with a given
// instance number.
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBGetDeviceLink(DWORD instance,// Input
PCHAR pVID_PID,// Input
PCHAR pPath,// Output
DWORD dwLen,// Input
PDWORD pLength)// Output
{
if(pLength != NULL)*pLength = 0;// Initialization
HDEVINFO info = SetupDiGetClassDevs((LPGUID)&GUID_DEVINTERFACE_MCHPUSB,
NULL,
NULL,
DIGCF_PRESENT|DIGCF_DEVICEINTERFACE);
if(info==INVALID_HANDLE_VALUE)
{
SetupDiDestroyDeviceInfoList(info);
return MPUSB_DEV_NO_INFO;
}// end if
// Get interface data for the requested instance
SP_DEVICE_INTERFACE_DATA intf_data;
intf_data.cbSize = sizeof(SP_DEVICE_INTERFACE_DATA);
if(!SetupDiEnumDeviceInterfaces(info,
NULL,
(LPGUID)&GUID_DEVINTERFACE_MCHPUSB,
instance,
&intf_data))
{
SetupDiDestroyDeviceInfoList(info);
return MPUSB_DEV_INVALID_INST;
}// end if
// Get size of symbolic link
DWORD ReqLen;
SetupDiGetDeviceInterfaceDetail(info, &intf_data, NULL, 0, &ReqLen, NULL);
PSP_DEVICE_INTERFACE_DETAIL_DATA intf_detail = \
(PSP_DEVICE_INTERFACE_DETAIL_DATA)(new char[ReqLen]);
if( intf_detail == NULL)
{
SetupDiDestroyDeviceInfoList(info);
delete intf_detail;
return MPUSB_DEV_NO_INFO;
}// end if
// Get symbolic link name
intf_detail->cbSize = sizeof(SP_DEVICE_INTERFACE_DETAIL_DATA);
// sizeof(SP_DEVICE_INTERFACE_DETAIL_DATA) should equals 5.
// In C++ Builder, go to Project/Options/Advanced Compiler/Data Alignment
// and select "byte" align.
if(!SetupDiGetDeviceInterfaceDetail(info,
&intf_data,
intf_detail,
ReqLen,
NULL,
NULL))
{
SetupDiDestroyDeviceInfoList(info);
delete intf_detail;
return MPUSB_DEV_NO_INFO;
}// end if
// Check for a valid VID&PID - if argument is not null)
if(pVID_PID != NULL)
{
if(MPUSBIsVidPidEqual(intf_detail->DevicePath, pVID_PID) == NULL)
{
SetupDiDestroyDeviceInfoList(info);
delete intf_detail;
return MPUSB_DEV_VIDPID_NOT_FOUND;
}// end if
}// end if
// Set the length of the path string
if(pLength != NULL)
*pLength = (DWORD)strlen(intf_detail->DevicePath);
// Copy output string path to buffer pointed to by pPath
if(pPath != NULL)
{
// Check that input buffer has enough room...
// Use > not >= because strlen does not include null
if(dwLen > strlen(intf_detail->DevicePath))
strcpy(pPath, intf_detail->DevicePath);
else
{
SetupDiDestroyDeviceInfoList(info);
delete intf_detail;
return MPUSB_FAIL;
}// end if
}// end if
// Clean up
SetupDiDestroyDeviceInfoList(info);
delete intf_detail;
return MPUSB_SUCCESS;
}// end MPUSBGetDeviceLink
///////////////////////////////////////////////////////////////////////////////
// MPUSBGetDeviceCount : Returns the number of devices with matching VID & PID
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBGetDeviceCount(PCHAR pVID_PID)
{
DWORD count;// Number of USB device with matching VID & PID
count = 0;// Initialization
for(int i = 0; i < MAX_NUM_MPUSB_DEV; i++)
{
if(MPUSBGetDeviceLink(i,pVID_PID,NULL,NULL,NULL) == MPUSB_SUCCESS)
count++;
}//end for
return count;
}//end MPUSBGetDeviceCount
///////////////////////////////////////////////////////////////////////////////
// MPUSBOpen : Returns the handle to the endpoint pipe with matching VID & PID
//
// All pipes are opened with the FILE_FLAG_OVERLAPPED attribute.
// This allows MPUSBRead,MPUSBWrite, and MPUSBReadInt to have a time-out value.
//
// Note: Time-out value has no meaning for Isochronous pipes.
//
// instance - An instance number of the device to open.
// Typical usage is to call MPUSBGetDeviceCount first to find out
// how many instances there are.
// It is important to understand that the driver is shared among
// different devices. The number of devices returned by
// MPUSBGetDeviceCount could be equal to or less than the number
// of all the devices that are currently connected & using the
// generic driver.
//
// Example:
// if there are 3 device with the following PID&VID connected:
// Device Instance 0, VID 0x04d8, PID 0x0001
// Device Instance 1, VID 0x04d8, PID 0x0002
// Device Instance 2, VID 0x04d8, PID 0x0001
//
// If the device of interest has VID = 0x04d8 and PID = 0x0002
// Then MPUSBGetDeviceCount will only return '1'.
// The calling function should have a mechanism that attempts
// to call MPUSBOpen up to the absolute maximum of MAX_NUM_MPUSB_DEV
// (MAX_NUM_MPUSB_DEV is defined in _mpusbapi.h).
// It should also keep track of the number of successful calls
// to MPUSBOpen(). Once the number of successes equals the
// number returned by MPUSBGetDeviceCount, the attempts should
// be aborted because there will no more devices with
// a matching vid&pid left.
//
// pVID_PID - A string containing the PID&VID value of the target device.
// The format is "vid_xxxx&pid_yyyy". Where xxxx is the VID value
// in hex and yyyy is the PID value in hex.
// Example: If a device has the VID value of 0x04d8 and PID value
// of 0x000b, then the input string should be:
// "vid_04d8&pid_000b"
//
// pEP - A string of the endpoint number on the target endpoint to open.
// The format is "\\MCHP_EPz". Where z is the endpoint number in
// decimal.
// Example: "\\MCHP_EP1"
//
// This arguement can be NULL. A NULL value should be used to
// create a handles for non-specific endpoint functions.
// MPUSBRead, MPUSBWrite, MPUSBReadInt are endpoint specific
// functions.
// All others are not.
// Non-specific endpoint functions will become available in the
// next release of the DLL.
//
// Note: To use MPUSBReadInt(), the format of pEP has to be
// "\\MCHP_EPz_ASYNC". This option is only available for
// an IN interrupt endpoint. A data pipe opened with the
// "_ASYNC" keyword would buffer the data at the interval
// specified in the endpoint descriptor upto the maximum of
// 100 data sets. Any data received after the driver buffer
// is full will be ignored.
// The user application should call MPUSBReadInt() often
// enough so that the maximum limit of 100 is never reached.
//
// dwDir - Specifies the direction of the endpoint.
// Use MP_READ for MPUSBRead, MPSUBReadInt
// Use MP_WRITE for MPUSBWrite
//
// dwReserved Future Use
//
// Summary of transfer type usage:
// ============================================================================
// Transfer Type Functions Time-Out Applicable?
// ============================================================================
// Interrupt - IN MPUSBRead, MPUSBReadInt Yes
// Interrupt - OUT MPUSBWrite Yes
// Bulk - IN MPUSBRead Yes
// Bulk - OUT MPUSBWrite Yes
// Isochronous - IN MPUSBRead No
// Isochronous - OUT MPUSBWrite No
// ============================================================================
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
HANDLE MPUSBOpen(DWORD instance,// Input
PCHAR pVID_PID,// Input
PCHAR pEP,// Input
DWORD dwDir,// Input
DWORD dwReserved)// Input <Future Use>
{
char path[MAX_PATH];
DWORD dwReqLen;
HANDLE handle;
handle = INVALID_HANDLE_VALUE;
// Check arguments first
if((pVID_PID != NULL) && ((dwDir == MP_WRITE) || (dwDir == MP_READ)))
{
if(MPUSBGetDeviceLink(instance,pVID_PID,path,MAX_PATH,&dwReqLen)==\
MPUSB_SUCCESS)
{
char path_io[MAX_PATH];
strcpy(path_io,path);
if(pEP != NULL) strcat(path_io,pEP);
if(dwDir == MP_READ)
{
handle = CreateFile(path_io,
GENERIC_READ,
0,
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL|FILE_FLAG_OVERLAPPED,
NULL);
}
else
{
handle = CreateFile(path_io,
GENERIC_WRITE,
0,
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL|FILE_FLAG_OVERLAPPED,
NULL);
}//end if
}//end if
}//end if
return handle;
}//end MPUSBOpen(...)
///////////////////////////////////////////////////////////////////////////////
// MPUSBGetDeviceDescriptor : Returns the Device Descriptor Data
//
// **** INCOMPLETE ****
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBGetDeviceDescriptor(HANDLE handle,// Input
PVOID pDevDsc,// Output
DWORD dwLen,// Input
PDWORD pLength)// Output
{
GET_DESCRIPTOR_PARAMETER dscParam;
if(pLength != NULL)*pLength = 0;
//if(pDevDsc == NULL) return MPUSB_FAIL;
dscParam.bType = USB_DEVICE_DESCRIPTOR_TYPE;
if(!DeviceIoControl(handle,
IOCTL_MCHPUSB_GET_DESCRIPTOR,
&dscParam,
sizeof(GET_DESCRIPTOR_PARAMETER),
pDevDsc,
dwLen,
pLength,
NULL))
{
printf("Get dsc error: %d",GetLastError());
return MPUSB_FAIL;
}//end if
return MPUSB_SUCCESS;
}// MPUSBGetDeviceDescriptor
// **** INCOMPLETE ****
DWORD MPUSBGetConfigInfoSize(HANDLE handle)
{
DWORD config_size;
DWORD dwReqLen;
DeviceIoControl(handle,
IOCTL_MCHPUSB_GET_CONFIGURATION_INFO,
NULL,
0,
&config_size,
sizeof(DWORD),
&dwReqLen,
NULL);
return config_size;
}//end MPUSBGetConfigInfoSize
// **** INCOMPLETE ****
DWORD MPUSBGetConfigInfo(HANDLE handle,// Input
PVOID pData,// Output
DWORD dwLen)// Input
{
DWORD dwReqLen;
if(!DeviceIoControl(handle,
IOCTL_MCHPUSB_GET_CONFIGURATION_INFO,
NULL,
0,
pData,
dwLen,
&dwReqLen,
NULL))
{
printf("Get config error: %d",GetLastError());
return MPUSB_FAIL;
}//end if
return MPUSB_SUCCESS;
}//end MPUSBGetConfigInfo
// **** INCOMPLETE ****
void MPUSBSendControl(void)
{
}
// **** INCOMPLETE ****
void MPUSBGetControl(void)
{
}
///////////////////////////////////////////////////////////////////////////////
// MPUSBRead :
//
// handle - Identifies the endpoint pipe to be read. The pipe handle must
// have been created with MP_READ access attribute.
//
// pData - Points to the buffer that receives the data read from the pipe.
//
// dwLen - Specifies the number of bytes to be read from the pipe.
//
// pLength - Points to the number of bytes read. MPUSBRead sets this value to
// zero before doing any work or error checking.
//
// dwMilliseconds
// - Specifies the time-out interval, in milliseconds. The function
// returns if the interval elapses, even if the operation is
// incomplete. If dwMilliseconds is zero, the function tests the
// data pipe and returns immediately. If dwMilliseconds is INFINITE,
// the function's time-out interval never elapses.
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBRead(HANDLE handle,// Input
PVOID pData,// Output
DWORD dwLen,// Input
PDWORD pLength,// Output
DWORD dwMilliseconds)// Input
{
BOOL bResult;
DWORD nBytesRead;
OVERLAPPED gOverlapped;
DWORD dwResult;
dwResult = MPUSB_FAIL;
// set up overlapped structure fields
gOverlapped.Internal = 0;
gOverlapped.InternalHigh = 0;
gOverlapped.Offset = 0;
gOverlapped.OffsetHigh = 0;
gOverlapped.hEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
if(pLength != NULL)*pLength = 0;
// attempt an asynchronous read operation
bResult = ReadFile(handle,pData,dwLen,&nBytesRead,&gOverlapped);
if(!bResult)
{
// deal with the error code
switch (GetLastError())
{
case ERROR_HANDLE_EOF:
{
// we have reached the end of the file
// during the call to ReadFile
break;
}
case ERROR_IO_PENDING:
{
// asynchronous i/o is still in progress
switch(WaitForSingleObject(gOverlapped.hEvent, dwMilliseconds))
{
case WAIT_OBJECT_0:
// check on the results of the asynchronous read
// and update the nBytesRead...
bResult = GetOverlappedResult(handle, &gOverlapped,
&nBytesRead, FALSE);
if(!bResult)
{
printf("Error: %d", GetLastError());
}
else
{
if(pLength != NULL)
*pLength = nBytesRead;
dwResult = MPUSB_SUCCESS;
}//end if else
break;
case WAIT_TIMEOUT:
CancelIo(handle);
break;
default:
CancelIo(handle);
break;
}//end switch
}//end case
default:
CancelIo(handle);
break;
}//end switch
}
else
{
if(pLength != NULL)
*pLength = nBytesRead;
dwResult = MPUSB_SUCCESS;
}//end if else
ResetEvent(gOverlapped.hEvent);
CloseHandle(gOverlapped.hEvent);
return dwResult;
}//end MPUSBRead
///////////////////////////////////////////////////////////////////////////////
// MPUSBWrite :
//
// handle - Identifies the endpoint pipe to be written to. The pipe handle
// must have been created with MP_WRITE access attribute.
//
// pData - Points to the buffer containing the data to be written to the pipe.
//
// dwLen - Specifies the number of bytes to write to the pipe.
//
// pLength - Points to the number of bytes written by this function call.
// MPUSBWrite sets this value to zero before doing any work or
// error checking.
//
// dwMilliseconds
// - Specifies the time-out interval, in milliseconds. The function
// returns if the interval elapses, even if the operation is
// incomplete. If dwMilliseconds is zero, the function tests the
// data pipe and returns immediately. If dwMilliseconds is INFINITE,
// the function's time-out interval never elapses.
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBWrite(HANDLE handle,// Input
PVOID pData,// Input
DWORD dwLen,// Input
PDWORD pLength,// Output
DWORD dwMilliseconds)// Input
{
BOOL bResult;
DWORD nBytesWritten;
OVERLAPPED gOverlapped;
DWORD dwResult;
dwResult = MPUSB_FAIL;
// set up overlapped structure fields
gOverlapped.Internal = 0;
gOverlapped.InternalHigh = 0;
gOverlapped.Offset = 0;
gOverlapped.OffsetHigh = 0;
gOverlapped.hEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
if(pLength != NULL)*pLength = 0;
// attempt an asynchronous read operation
bResult = WriteFile(handle,pData,dwLen,&nBytesWritten,&gOverlapped);
if(!bResult)
{
// deal with the error code
switch (GetLastError())
{
case ERROR_HANDLE_EOF:
{
// we have reached the end of the file
// during the call to ReadFile
break;
}
case ERROR_IO_PENDING:
{
// asynchronous i/o is still in progress
switch(WaitForSingleObject(gOverlapped.hEvent, dwMilliseconds))
{
case WAIT_OBJECT_0:
// check on the results of the asynchronous read
// and update the nBytesWritten...
bResult = GetOverlappedResult(handle, &gOverlapped,
&nBytesWritten, FALSE);
if(!bResult)
{
printf("Error: %d", GetLastError());
}
else
{
if(pLength != NULL)
*pLength = nBytesWritten;
dwResult = MPUSB_SUCCESS;
}//end if else
break;
case WAIT_TIMEOUT:
CancelIo(handle);
break;
default:
CancelIo(handle);
break;
}//end switch
}//end case
default:
CancelIo(handle);
break;
}//end switch
}
else
{
if(pLength != NULL)
*pLength = nBytesWritten;
dwResult = MPUSB_SUCCESS;
}//end if else
ResetEvent(gOverlapped.hEvent);
CloseHandle(gOverlapped.hEvent);
return dwResult;
}//end MPUSBWrite
///////////////////////////////////////////////////////////////////////////////
// MPUSBReadInt :
//
// handle - Identifies the endpoint pipe to be read. The pipe handle must
// have been created with MP_READ access attribute.
//
// pData - Points to the buffer that receives the data read from the pipe.
//
// dwLen - Specifies the number of bytes to be read from the pipe.
//
// pLength - Points to the number of bytes read. MPUSBRead sets this value to
// zero before doing any work or error checking.
//
// dwMilliseconds
// - Specifies the time-out interval, in milliseconds. The function
// returns if the interval elapses, even if the operation is
// incomplete. If dwMilliseconds is zero, the function tests the
// data pipe and returns immediately. If dwMilliseconds is INFINITE,
// the function's time-out interval never elapses.
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
DWORD MPUSBReadInt(HANDLE handle,// Input
PVOID pData,// Output
DWORD dwLen,// Input
PDWORD pLength,// Output
DWORD dwMilliseconds)// Input
{
BOOL bResult;
DWORD nBytesRead;
OVERLAPPED gOverlapped;
DWORD dwResult;
dwResult = MPUSB_FAIL;
// set up overlapped structure fields
gOverlapped.Internal = 0;
gOverlapped.InternalHigh = 0;
gOverlapped.Offset = 0;
gOverlapped.OffsetHigh = 0;
gOverlapped.hEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
if(pLength != NULL)*pLength = 0;
if(pData == NULL)
{
SetLastError(ERROR_NOACCESS);
return dwResult;
}//end if
// attempt an asynchronous read operation
bResult = DeviceIoControl(handle,
IOCTL_MCHPUSB_WAIT_INTERRUPT,
NULL,
0,
pData,
dwLen,
&nBytesRead,
&gOverlapped);
if(!bResult)
{
// deal with the error code
switch (GetLastError())
{
case ERROR_HANDLE_EOF:
{
// we have reached the end of the file
// during the call to ReadFile
break;
}
case ERROR_IO_PENDING:
{
// asynchronous i/o is still in progress
switch(WaitForSingleObject(gOverlapped.hEvent, dwMilliseconds))
{
case WAIT_OBJECT_0:
// check on the results of the asynchronous read
// and update the nBytesRead...
bResult = GetOverlappedResult(handle, &gOverlapped,
&nBytesRead, FALSE);
if(!bResult)
{
printf("Error: %d", GetLastError());
}
else
{
if(pLength != NULL)
*pLength = nBytesRead;
dwResult = MPUSB_SUCCESS;
}//end if else
break;
case WAIT_TIMEOUT:
CancelIo(handle);
break;
default:
CancelIo(handle);
break;
}//end switch
}//end case
default:
CancelIo(handle);
break;
}//end switch
}
else
{
if(pLength != NULL)
*pLength = nBytesRead;
dwResult = MPUSB_SUCCESS;
}//end if else
ResetEvent(gOverlapped.hEvent);
CloseHandle(gOverlapped.hEvent);
return dwResult;
}//end MPUSBReadInt
///////////////////////////////////////////////////////////////////////////////
// MPUSBClose : closes a given handle.
//
// Note that "input" and "output" refer to the parameter designations in calls
// to this function, which are the opposite of common sense from the
// perspective of an application making the calls.
//
BOOL MPUSBClose(HANDLE handle)
{
BOOL toReturn;
toReturn = true;
if(handle != INVALID_HANDLE_VALUE)
toReturn = CloseHandle(handle);
return toReturn;
}//end MPUSBClose
//---------------------------------------------------------------------------
und ausserdem:
https://dl.xprofan.com/?vmnii/dll.txt KompilierenMarkierenSeparieren* Seven basic functions are provided in this release:
- MPUSBGetDeviceCount
- MPUSBOpen
- MPUSBClose
- MPUSBRead
- MPUSBReadInt
- MPUSBWrite
- MPUSBGetDLLVersion
---------------------------------------------------------------------------------
MPUSBGetDLLVersion : get mpusbapi.dll revision level
// Input:
// None
// Output:
// 32-bit revision level MMMMmmmm
MPUSBIsVidPidEqual : Compares the pVID_PID string against the DeviceInstance
string retrieved from the registry using the DevicePath subkey.
This function should be called only from MPUSBGetDevicePath().
MPUSBGetDeviceLink : Returns the path to device hardware with a given instance number.
MPUSBGetDeviceCount : Returns the number of devices with matching VID & PID
MPUSBOpen : Returns the handle to the endpoint pipe with matching VID & PID
MPUSBGetDeviceDescriptor : Returns the Device Descriptor Data
MPUSBRead :
//
// handle - Identifies the endpoint pipe to be read. The pipe handle must
// have been created with MP_READ access attribute.
//
// pData - Points to the buffer that receives the data read from the pipe.
//
// dwLen - Specifies the number of bytes to be read from the pipe.
//
// pLength - Points to the number of bytes read. MPUSBRead sets this value to
// zero before doing any work or error checking.
//
// dwMilliseconds
// - Specifies the time-out interval, in milliseconds. The function
// returns if the interval elapses, even if the operation is
// incomplete. If dwMilliseconds is zero, the function tests the
// data pipe and returns immediately. If dwMilliseconds is INFINITE,
// the function's time-out interval never elapses.
MPUSBWrite :
//
// handle - Identifies the endpoint pipe to be written to. The pipe handle
// must have been created with MP_WRITE access attribute.
//
// pData - Points to the buffer containing the data to be written to the pipe.
//
// dwLen - Specifies the number of bytes to write to the pipe.
//
// pLength - Points to the number of bytes written by this function call.
// MPUSBWrite sets this value to zero before doing any work or
// error checking.
//
// dwMilliseconds
// - Specifies the time-out interval, in milliseconds. The function
// returns if the interval elapses, even if the operation is
// incomplete. If dwMilliseconds is zero, the function tests the
// data pipe and returns immediately. If dwMilliseconds is INFINITE,
// the function's time-out interval never elapses.
MPUSBReadInt :
//
// handle - Identifies the endpoint pipe to be read. The pipe handle must
// have been created with MP_READ access attribute.
//
// pData - Points to the buffer that receives the data read from the pipe.
//
// dwLen - Specifies the number of bytes to be read from the pipe.
//
// pLength - Points to the number of bytes read. MPUSBRead sets this value to
// zero before doing any work or error checking.
//
// dwMilliseconds
// - Specifies the time-out interval, in milliseconds. The function
// returns if the interval elapses, even if the operation is
// incomplete. If dwMilliseconds is zero, the function tests the
// data pipe and returns immediately. If dwMilliseconds is INFINITE,
// the function's time-out interval never elapses.
MPUSBClose : closes a given handle.
-------------------------------------------------------------------------------------
// Summary of transfer type usage:
// ============================================================================
// Transfer Type Functions Time-Out Applicable?
// ============================================================================
// Interrupt - IN MPUSBRead, MPUSBReadInt Yes
// Interrupt - OUT MPUSBWrite Yes
// Bulk - IN MPUSBRead Yes
// Bulk - OUT MPUSBWrite Yes
// Isochronous - IN MPUSBRead No
// Isochronous - OUT MPUSBWrite No
// ============================================================================
------------------------------------------------------------------------
extern "C" __declspec(dllexport)
DWORD MPUSBGetDLLVersion(void);
extern "C" __declspec(dllexport)
DWORD MPUSBGetDeviceCount(PCHAR pVID_PID);
extern "C" __declspec(dllexport)
HANDLE MPUSBOpen(DWORD instance,// Input
PCHAR pVID_PID,// Input
PCHAR pEP,// Input
DWORD dwDir,// Input
DWORD dwReserved);// Input <Future Use>
extern "C" __declspec(dllexport)
DWORD MPUSBRead(HANDLE handle,// Input
PVOID pData,// Output
DWORD dwLen,// Input
PDWORD pLength,// Output
DWORD dwMilliseconds);// Input
extern "C" __declspec(dllexport)
DWORD MPUSBWrite(HANDLE handle,// Input
PVOID pData,// Input
DWORD dwLen,// Input
PDWORD pLength,// Output
DWORD dwMilliseconds);// Input
extern "C" __declspec(dllexport)
DWORD MPUSBReadInt(HANDLE handle,// Input
PVOID pData,// Output
DWORD dwLen,// Input
PDWORD pLength,// Output
DWORD dwMilliseconds);// Input
extern "C" __declspec(dllexport)
BOOL MPUSBClose(HANDLE handle);
Da ich leider weder Delphi noch C++ genauer kenne, wäre ich froh, wenn mir jemand über die Variablentyben gucken könnte.
@iF: meinst Du mit mem() einen Bereich oder eine 32/64bit Variable? Was entspricht den DWORD in Profan? Integer wo nur die ersten/letzten 16bit genutzt werden? Was übergebe ich der DLL? Der Inhalt der Variablen oder den Zeiger darauf? Ich habe schon DLL's in Profan benutzt, aber diese ist sehr schwierig. Gruss Chregu |
| | | | |
| | | Hi!
32-Bit-XProfans Integer sind wie die LongInts aus nativer Sicht vom Typ Int32 -
lediglich bei XProfan-Struc(turdefinitionen) bedeutet Int (%) ein Word (16-Bit).
Du kannst bei nativen 32-Bit Funktionen wie solche 32-Bit-DLL-Funktionen wie auch bei 32-Bit-APIs grundsätzlich davon ausgehen, dass für jeden Parameter ein Integer/ LongInt (also 32-Bit DoubleWord) erwartet wird.
Der Parameterdefinition muss man entnehmen wofür der Wert steht -
oft wird ein entsprechender Wert erwartet oder manchmal eben ein Speicherhandle.
Hier stehts im Prinzip: KompilierenMarkierenSeparieren PChar bzw. PChar8 ist wohl so definiert: KompilierenMarkierenSeparieren -
also ein 64 Byte großer Speicher den Du einfach mit Dim oder GlobalAlloc reservieren kannst.
Deine Zeile: KompilierenMarkierenSeparierenMPUSBOpen(Selection&,vid_pid#,out_pipe#,MP_WRITE&,0)
sieht für mich dazu ganz schlüssig aus bis auf das Deine Speicher wohl nur 32 statt 64 Byte groß sind.
Ich bin bei XProfan 8 jetzt nicht sicher ob es auch notwendig sein könnte das Du statt MPUSBOpen(Selection&,vid_pid#,out_pipe#,MP_WRITE&,0) vielleicht eher MPUSBOpen(Selection&,addr(vid_pid#),addr(out_pipe#),MP_WRITE&,0) schreiben solltest.
Hänge an Deine Strings die Du in die Speicher schreibst zur Sicherheit auch ein chr$(0) an oder nutze die ESC-Sequenz \z -
die DLL erwartet dieses Stopzeichen vermutlich als Stringende. |
| | | | |
| | | Ah, ich sehe grad nochwas...
die Funktionen sind wohl nicht für stdcall exportiert...
XProfan 11 Hilfedatei
@Set("CallConv", S)
--------------------------------------------------------------------------------
Version: 11.0
S: String - Aufrufkonvention - "STDCALL" oder "CDECL"
-
XProfan 8 kennt also noch kein set("CallConv"... -
müsstest die Parameter in genau umgekehrter Reihenfolge angeben -
also statt funktion(1,2,3) einfach funktion(3,2,1) -
hoffentlich gibts da absehbar mit dem Stack keine Probleme da Du ja dabei ESP zurücksetzen müsstest um 4*Parameterzahl. ^^
Wenn das nicht funktioniert dann probiere es mal mit XProfan 11 set("CallConv" -
wenn es damit geht dann könntest wieder zurück zu XProfan 8 gehen und dann könnte man vermutlich direkt mit etwas Opcode nachhelfen. |
| | | | |
| | Chregu Mueller | Ich bin verzweifelt, jetzt habe ich alles ausprobiert. 64 Bytes reserviert mit DIM, als String und mit @Addr(), auch ohne, in umgekehrter Reihenfolge, alle Kombinationen... Jetzt tun mir die Augen und der Kopf weh. Muss kochen, meine Frau kommt bald nach Hause... |
| | | | |
| | | Jo - wie geschrieben - siehe mein vorheriges Posting bezüglich "wohl nicht stdcall" -
probiere bitte mal obs mit XProfan 11 + set("callconv" auf cdecl funktioniert. |
| | | | |
| | Chregu Mueller | Ok, iF, danke, jetzt bin ich einen Schritt weiter. KompilierenMarkierenSeparieren funktioniert! Gibt mir die korrekte Anzahl Geräte zurück (0 oder 1).
Und KompilierenMarkierenSeparierenmyOutPipe&=MPUSBOpen(Selection&,vid_pid$,out_pipe#,MP_WRITE&,0)
gibt keine Fehlermeldung mehr. Liefert zwar als Return eine -1, was ich als Fehler deute, weil noch immer etwas nicht stimmt. Ich nehme an, THANDLE kann ich auch als LongInt deklarieren?
Im obigen Codeschnipsel habe ich natürlich auch schon alle Kombinationen von mit/ohne @Addr(), Reihenfolge, out_pipe# auch als out_pipe$ probiert...
Ach sehe gerade, auf [...] ist bei jeder Funktion "stdcall" erwähnt: KompilierenMarkierenSeparieren Gruss Chregu |
| | | | |
| | Chregu Mueller | Ich habe jetzt einen sinnvollen Rückwert von MPUSBOpen() bekommen: 172 Ich hoffe, das ist kein weiterer Fehler, unter einem Zeiger stelle ich mir eine grössere Zahl vor, kann aber auch nur so ein USB Pipe sein. Morgen habe ich Zeit, und werde dann die Zusammenfassung posten, wenn alles geht. Gute Nacht Leute! Chregu |
| | | | |
| | | Es funktioniert! KompilierenMarkierenSeparieren'Beispiel für die mpusbapi.dll
'für XProfan 11
'empfängt ein Wert aus dem ADC AN0
$I mpusbapi.inc
Declare dllh&
Declare vid_pid$,out_pipe$,in_pipe$
Declare myInPipe&,myOutPipe&
Declare MP_WRITE&,MP_READ&
Declare SendData#,RecData#
Declare Selection&
Declare SentLength&,RecvLength&
Declare wert&
DIM SendData#,64
DIM RecData#,64
vid_pid$="vid_04d8&pid_ff0b"'für Sprut Gerät
out_pipe$="\MCHP_EP1"'ein Backslash!
in_pipe$="\MCHP_EP1"
MP_WRITE&=0
MP_READ&=1
Selection&=0
dllh&=@UseDLL("mpusbapi.dll")'DLL laden
IfNot dllh&
@MessageBox ("DLL nicht geladen","Fehler",48)
End
EndIf
myOutPipe&=MPUSBOpen(Selection&,addr(vid_pid$),addr(out_pipe$),MP_WRITE&,0)
myInPipe&=MPUSBOpen(Selection&,addr(vid_pid$),addr(in_pipe$),MP_READ&,0)
BYTE SendData#,0=$51'Subsystem ADC
BYTE SendData#,1=$01'initialisieren
BYTE SendData#,2=$04'AN0
BYTE SendData#,3=$00'Referenzspannung
MPUSBWrite(myOutPipe&,addr(SendData#),4,addr(SentLength&),1000)
MPUSBRead(myInPipe&,addr(RecData#),16,addr(RecvLength&),1000)
BYTE SendData#,0=$51'Subsystem ADC
BYTE SendData#,1=$02'nächste Messung
BYTE SendData#,2=$00'AN0
MPUSBWrite(myOutPipe&,addr(SendData#),3,addr(SentLength&),1000)
MPUSBRead(myInPipe&,addr(RecData#),16,addr(RecvLength&),1000)
BYTE SendData#,0=$51'Subsystem ADC
BYTE SendData#,1=$03'Spannung messen
MPUSBWrite(myOutPipe&,addr(SendData#),2,addr(SentLength&),1000)
MPUSBRead(myInPipe&,addr(RecData#),16,addr(RecvLength&),1000)
wert&=@BYTE(RecData#,3)*256+@BYTE(RecData#,2)
PRINT "Wert am AN0: ";
PRINT wert&
MPUSBClose(myOutPipe&)
MPUSBClose(myInPipe&)
IfNot dllh&
FreeDLL dllh&
EndIf
WaitInput
End
Zusammenfassend kann ich ungefähr sagen: -mit XProfan 8 funktioniert es nicht, nur mit XProfan 11 -set("CallConv",... ist egal in welchem Modus -alle Variabeln vom Typ LongInt -Bereiche und Strings mit @addr() und 64 Byte reservieren
Danke und Gruss Chregu |
| | | | |
| | | Also wenn dies mit XProfan 11 funktioniert und kein Fehler im Code ist dann funktioniert es auch mit XProfan 8.
Ich sehe das Du Stringadressen per Addr übergibst -
das steht im Widerspruch dazu das man 64 Byte übergeben sollte denn ein XProfan-String kann durchaus weniger als 64 Byte Speicher in Anspruch nehmen und seine Adresse kann sogar Null sein.
Besser immer statt dieser Strings Dim xyz#,64 - Speicher einsetzen -
vermutlich klappts dann auch mit XProfan 8. |
| | | | |
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