تقييم الموضوع :
  • 0 أصوات - بمعدل 0
  • 1
  • 2
  • 3
  • 4
  • 5
ابغى برنامج يحول مشاريع c# الى vb.net
#1
ابغاه يحول المشروع كامل الى VB.NET
مثل برنامج VB.Net to C# Converter 3.03
بس هذا البرنامج العكس تختار مشروع VB.NET و يحوله C#
انا اريد اختار مشروع C# و يحوله VB.NET
ماهو افضل برنامج لعمل هذا الشيء ؟
الرد }}}
تم الشكر بواسطة:
#2
السلام عليكم

افضل برنامج SharpDevelop

التحميل من هذا الرابط http://www.icsharpcode.net/opensource/sd/download/
الرد }}}
تم الشكر بواسطة:
#3
شكرا لك
لكن فيه اخطاء كثيره بعد التحويل
الرد }}}
تم الشكر بواسطة:
#4
السلام عليكم

اخي العزيز انا احول الاكواد باستخدام هذا البرنامج وليس فيها أي اخطاء بارك الله فيك
الرد }}}
تم الشكر بواسطة:
#5
قم بتجربة هذا الإصدار المجاني "التجريبي" :
http://www.tangiblesoftwaresolutions.com...verter.zip


حسنا به بعض الحد من المميزات لأنه تجريبي ..
مثل انه لا يدعم تحويل الكود ان كان اكثر من 20 سطر ,
الخ الخ الخ .
الرد }}}
تم الشكر بواسطة:
#6
APP كتب :قم بتجربة هذا الإصدار المجاني "التجريبي" :
http://www.tangiblesoftwaresolutions.com...verter.zip


حسنا به بعض الحد من المميزات لأنه تجريبي ..
مثل انه لا يدعم تحويل الكود ان كان اكثر من 20 سطر ,
الخ الخ الخ .
شكرا لك لكن غير نافع لتحويل المشروع الي عندي
الرد }}}
تم الشكر بواسطة:
#7
ممكن ترفع المشروع الذي تُريد تحويله ..
إن لم ينفع نحوله يدوياً إن شاء الله .
الرد }}}
تم الشكر بواسطة:
#8
sajad كتب :السلام عليكم

اخي العزيز انا احول الاكواد باستخدام هذا البرنامج وليس فيها أي اخطاء بارك الله فيك
اخى sajad ممكن ترفع شرح لى هذا البرنامج انا احتاجه ايضآ !
الرد }}}
تم الشكر بواسطة:
#9
RainBow كتب :اخى sajad ممكن ترفع شرح لى هذا البرنامج انا احتاجه ايضآ !


السلام عليكم

اخي العزيز البرنامج سهل جدا فكل ما عليك انشاء مشروع في السي شارب ومن ثم تسنخ كود السي شارب الى المشروع ومن الTools ثم ConvertTo واختر اللغة التي تريد التحويل اليها

او العكس وايضا تستطيع كتابة برامج لاربع من اللغات على ما اعتقد

بالتوفيق ان شاءالله
الرد }}}
تم الشكر بواسطة:
#10
هذا هو الكود الذي اود تحويله ولم استطع
كود :
using System;
using System.Collections.Generic;
using System.Text;
using System.Diagnostics;
using System.Threading;
using System.Runtime.InteropServices;

namespace Sojaner.WindowsFormsApplication1
{
    public class RegularMemoryScan
    {
        #region Constant fields
        //Maximum memory block size to read in every read process.

        //Experience tells me that,
        //if ReadStackSize be bigger than 20480, there will be some problems
        //retrieving correct blocks of memory values.
        const int ReadStackSize = 20480;


        //A byte is 8 bits long memory defined variable.

        //A 16 bit variable (Like char) is made up of 16 bits of memory and so 16/8 = 2 bytes of memory.
        const int Int16BytesCount = 16 / 8;
        //A 32 bit variable (Like int) is made up of 32 bits of memory and so 32/8 = 4 bytes of memory.
       const int Int32BytesCount = 32 / 8;
        //A 34 bit variable (Like long) is made up of 64 bits of memory and so 64/8 = 8 bytes of memory.
        const int Int64BytesCount = 64 / 8;
        #endregion
        
        #region Global fields
        //Instance of ProcessMemoryReader class to be used to read the memory.
        ProcessMemoryReader reader;

        //Start and End addresses to be scaned.
        IntPtr baseAddress;
        IntPtr lastAddress;

        //New thread object to run the scan in
        Thread thread;
        #endregion

        #region Delegate and Event objects
        //Delegate and Event objects for raising the ScanProgressChanged event.
        public delegate void ScanProgressedEventHandler(object sender, ScanProgressChangedEventArgs e);
        public event ScanProgressedEventHandler ScanProgressChanged;

        //Delegate and Event objects for raising the ScanCompleted event.
        public delegate void ScanCompletedEventHandler(object sender, ScanCompletedEventArgs e);
        public event ScanCompletedEventHandler ScanCompleted;

        //Delegate and Event objects for raising the ScanCanceled event.
        public delegate void ScanCanceledEventHandler(object sender, ScanCanceledEventArgs e);
        public event ScanCanceledEventHandler ScanCanceled;
        #endregion

        #region Methods
        //Class entry point.
        //The process, StartAddress and EndAdrress will be defined in the class definition.
        public RegularMemoryScan(Process process, int StartAddress, int EndAddress)
        {
            //Set the reader object an instant of the ProcessMemoryReader class.
            reader = new ProcessMemoryReader();

            //Set the ReadProcess of the reader object to process passed to this method
            //to define the process we are going to scan its memory.
            reader.ReadProcess = process;

            //Set the Start and End addresses of the scan to what is wanted.
            baseAddress = (IntPtr)StartAddress;
            lastAddress = (IntPtr)EndAddress;//The scan starts from baseAddress,
            //and progresses up to EndAddress.
        }

        #region Public methods
        //Get ready to scan the memory for the 16 bit value.
        public void StartScanForInt16(Int16 Int16Value)
        {
            //Check if the thread is already defined or not.
            if (thread != null)
            {
                //If the thread is already defined and is Alive,
                if (thread.IsAlive)
                {
                    //raise the event that shows that the last scan task is canceled
                    //(because a new task is going to be started as wanted),
                    ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
                    ScanCanceled(this, cancelEventArgs);

                    //and then abort the alive thread and so cancel last scan task.
                    thread.Abort();
                }
            }
            //Set the thread object as a new instant of the Thread class and pass
            //a new ParameterizedThreadStart class object with the needed method passed to it
            //to run in the new thread.
            thread = new Thread(new ParameterizedThreadStart(Int16Scaner));

            //Start the new thread and set the 32 bit value to look for.
            thread.Start(Int16Value);
        }

        //Get ready to scan the memory for the 32 bit value.
        public void StartScanForInt32(Int32 Int32Value)
        {
            //Check if the thread is already defined or not.
            if (thread != null)
            {
                //If the thread is already defined and is Alive,
                if (thread.IsAlive)
                {
                    //raise the event that shows that the last scan task is canceled
                    //(because a new task is going to be started as wanted),
                    ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
                    ScanCanceled(this, cancelEventArgs);

                    //and then abort the alive thread and so cancel last scan task.
                    thread.Abort();
                }
            }
            //Set the thread object as a new instant of the Thread class and pass
            //a new ParameterizedThreadStart class object with the needed method passed to it
            //to run in the new thread.
            thread = new Thread(new ParameterizedThreadStart(Int32Scaner));

            //Start the new thread and set the 32 bit value to look for.
            thread.Start(Int32Value);
        }

        //Get ready to scan the memory for the 64 bit value.
        public void StartScanForInt64(Int64 Int64Value)
        {
            //Check if the thread is already defined or not.
            if (thread != null)
            {
                //If the thread is already defined and is Alive,
                if (thread.IsAlive)
                {
                    //raise the event that shows that the last scan task is canceled
                    //(because a new task is going to be started as wanted),
                    ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
                    ScanCanceled(this, cancelEventArgs);

                    //and then abort the alive thread and so cancel last scan task.
                    thread.Abort();
                }
            }
            //Set the thread object as a new instant of the Thread class and pass
            //a new ParameterizedThreadStart class object with the needed method passed to it
            //to run in the new thread.
            thread = new Thread(new ParameterizedThreadStart(Int64Scaner));

            //Start the new thread and set the 32 bit value to look for.
            thread.Start(Int64Value);
        }

        //Cancel the scan started.
        public void CancelScan()
        {
            //Raise the event that shows that the last scan task is canceled as user asked,
            ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
            ScanCanceled(this, cancelEventArgs);

            //and then abort the thread that scanes the memory.
            thread.Abort();
        }
        #endregion

        #region Private methods
        //The memory scan method for the 16 bit values.
        private void Int16Scaner(object int16Object)
        {
            //The difference of scan start point in all loops except first loop,
            //that doesn't have any difference, is type's Bytes count minus 1.
            int arraysDifference = Int16BytesCount - 1;

            //Get the short value out of the object to look for it.
            Int16 int16Value = (Int16)int16Object;

            //Define a List object to hold the found memory addresses.
            List<int> finalList = new List<int>();

            //Open the pocess to read the memory.
            reader.OpenProcess();

            //Create a new instant of the ScanProgressEventArgs class to be used to raise the
            //ScanProgressed event and pass the percentage of scan, during the scan progress.
            ScanProgressChangedEventArgs scanProgressEventArgs;

            //Calculate the size of memory to scan.
            int memorySize = (int)((int)lastAddress - (int)baseAddress);

            //If more that one block of memory is requered to be read,
            if (memorySize >= ReadStackSize)
            {
                //Count of loops to read the memory blocks.
                int loopsCount = memorySize / ReadStackSize;

                //Look to see if there is any other bytes let after the loops.
                int outOfBounds = memorySize % ReadStackSize;

                //Set the currentAddress to first address.
                int currentAddress = (int)baseAddress;

                //This will be used to check if any bytes have been read from the memory.
                int bytesReadSize;

                //Set the size of the bytes blocks.
                int bytesToRead = ReadStackSize;

                //An array to hold the bytes read from the memory.
                byte[] array;

                //Progress percentage.
                int progress;

                for (int i = 0; i < loopsCount; i++)
                {
                    //Calculte and set the progress percentage.
                    progress = (int)(((double)(currentAddress - (int)baseAddress) / (double)memorySize) * 100d);

                    //Prepare and set the ScanProgressed event and raise the event.
                    scanProgressEventArgs = new ScanProgressChangedEventArgs(progress);
                    ScanProgressChanged(this, scanProgressEventArgs);

                    //Read the bytes from the memory.
                    array = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)bytesToRead, out bytesReadSize);

                    //If any byte is read from the memory (there has been any bytes in the memory block),
                    if (bytesReadSize > 0)
                    {
                        //Loop through the bytes one by one to look for the values.
                        for (int j = 0; j < array.Length - arraysDifference; j++)
                        {
                            //If any value is equal to what we are looking for,
                            if (BitConverter.ToInt16(array, j) == int16Value)
                            {
                                //add it's memory address to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                    //Move currentAddress after the block already scaned, but
                    //move it back some steps backward (as much as arraysDifference)
                    //to avoid loosing any values at the end of the array.
                    currentAddress += array.Length - arraysDifference;

                    //Set the size of the read block, bigger, to  the steps backward.
                    //Set the size of the read block, to fit the back steps.
                    bytesToRead = ReadStackSize + arraysDifference;
                }
                //If there is any more bytes than the loops read,
                if (outOfBounds > 0)
                {
                    //Read the additional bytes.
                    byte[] outOfBoundsBytes = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)((int)lastAddress - currentAddress), out bytesReadSize);

                    //If any byte is read from the memory (there has been any bytes in the memory block),
                    if (bytesReadSize > 0)
                    {
                        //Loop through the bytes one by one to look for the values.
                        for (int j = 0; j < outOfBoundsBytes.Length - arraysDifference; j++)
                        {
                            //If any value is equal to what we are looking for,
                            if (BitConverter.ToInt16(outOfBoundsBytes, j) == int16Value)
                            {
                                //add it's memory address to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                }
            }
            //If the block could be read in just one read,
            else
            {
                //Calculate the memory block's size.
                int blockSize = memorySize % ReadStackSize;

                //Set the currentAddress to first address.
                int currentAddress = (int)baseAddress;

                //Holds the count of bytes read from the memory.
                int bytesReadSize;

                //If the memory block can contain at least one 16 bit variable.
                if (blockSize > Int16BytesCount)
                {
                    //Read the bytes to the array.
                    byte[] array = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)blockSize, out bytesReadSize);

                    //If any byte is read,
                    if (bytesReadSize > 0)
                    {
                        //Loop through the array to find the values.
                        for (int j = 0; j < array.Length - arraysDifference; j++)
                        {
                            //If any value equals the value we are looking for,
                            if (BitConverter.ToInt16(array, j) == int16Value)
                            {
                                //add it to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                }
            }
            //Close the handle to the process to avoid process errors.
            reader.CloseHandle();

            //Prepare the ScanProgressed and set the progress percentage to 100% and raise the event.
            scanProgressEventArgs = new ScanProgressChangedEventArgs(100);
            ScanProgressChanged(this, scanProgressEventArgs);

            //Prepare and raise the ScanCompleted event.
            ScanCompletedEventArgs scanCompleteEventArgs = new ScanCompletedEventArgs(finalList.ToArray());
            ScanCompleted(this, scanCompleteEventArgs);
        }

        //The memory scan method for the 32 bit values.
        private void Int32Scaner(object int32Object)
        {
            //The difference of scan start point in all loops except first loop,
            //that doesn't have any difference, is type's Bytes count minus 1.
            int arraysDifference = Int32BytesCount - 1;

            //Get the int value out of the object to look for it.
            Int32 int32Value = (Int32)int32Object;

            //Define a List object to hold the found memory addresses.
            List<int> finalList = new List<int>();

            //Open the pocess to read the memory.
            reader.OpenProcess();

            //Create a new instant of the ScanProgressEventArgs class to be used to raise the
            //ScanProgressed event and pass the percentage of scan, during the scan progress.
            ScanProgressChangedEventArgs scanProgressEventArgs;

            //Calculate the size of memory to scan.
            int memorySize = (int)((int)lastAddress - (int)baseAddress);

            //If more that one block of memory is requered to be read,
            if (memorySize >= ReadStackSize)
            {
                //Count of loops to read the memory blocks.
                int loopsCount = memorySize / ReadStackSize;

                //Look to see if there is any other bytes let after the loops.
                int outOfBounds = memorySize % ReadStackSize;

                //Set the currentAddress to first address.
                int currentAddress = (int)baseAddress;

                //This will be used to check if any bytes have been read from the memory.
                int bytesReadSize;

                //Set the size of the bytes blocks.
                int bytesToRead = ReadStackSize;

                //An array to hold the bytes read from the memory.
                byte[] array;

                //Progress percentage.
                int progress;

                for (int i = 0; i < loopsCount; i++)
                {
                    //Calculte and set the progress percentage.
                    progress = (int)(((double)(currentAddress - (int)baseAddress) / (double)memorySize) * 100d);

                    //Prepare and set the ScanProgressed event and raise the event.
                    scanProgressEventArgs = new ScanProgressChangedEventArgs(progress);
                    ScanProgressChanged(this, scanProgressEventArgs);

                    //Read the bytes from the memory.
                    array = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)bytesToRead, out bytesReadSize);

                    //If any byte is read from the memory (there has been any bytes in the memory block),
                    if (bytesReadSize > 0)
                    {
                        //Loop through the bytes one by one to look for the values.
                        for (int j = 0; j < array.Length - arraysDifference; j++)
                        {
                            //If any value is equal to what we are looking for,
                            if (BitConverter.ToInt32(array, j) == int32Value)
                            {
                                //add it's memory address to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                    //Move currentAddress after the block already scaned, but
                    //move it back some steps backward (as much as arraysDifference)
                    //to avoid loosing any values at the end of the array.
                    currentAddress += array.Length - arraysDifference;

                    //Set the size of the read block, bigger, to  the steps backward.
                    //Set the size of the read block, to fit the back steps.
                    bytesToRead = ReadStackSize + arraysDifference;
                }
                //If there is any more bytes than the loops read,
                if (outOfBounds > 0)
                {
                    //Read the additional bytes.
                    byte[] outOfBoundsBytes = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)((int)lastAddress - currentAddress), out bytesReadSize);

                    //If any byte is read from the memory (there has been any bytes in the memory block),
                    if (bytesReadSize > 0)
                    {
                        //Loop through the bytes one by one to look for the values.
                        for (int j = 0; j < outOfBoundsBytes.Length - arraysDifference; j++)
                        {
                            //If any value is equal to what we are looking for,
                            if (BitConverter.ToInt32(outOfBoundsBytes, j) == int32Value)
                            {
                                //add it's memory address to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                }
            }
            //If the block could be read in just one read,
            else
            {
                //Calculate the memory block's size.
                int blockSize = memorySize % ReadStackSize;

                //Set the currentAddress to first address.
                int currentAddress = (int)baseAddress;

                //Holds the count of bytes read from the memory.
                int bytesReadSize;

                //If the memory block can contain at least one 32 bit variable.
                if (blockSize > Int32BytesCount)
                {
                    //Read the bytes to the array.
                    byte[] array = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)blockSize, out bytesReadSize);

                    //If any byte is read,
                    if (bytesReadSize > 0)
                    {
                        //Loop through the array to find the values.
                        for (int j = 0; j < array.Length - arraysDifference; j++)
                        {
                            //If any value equals the value we are looking for,
                            if (BitConverter.ToInt32(array, j) == int32Value)
                            {
                                //add it to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                }
            }
            //Close the handle to the process to avoid process errors.
            reader.CloseHandle();

            //Prepare the ScanProgressed and set the progress percentage to 100% and raise the event.
            scanProgressEventArgs = new ScanProgressChangedEventArgs(100);
            ScanProgressChanged(this, scanProgressEventArgs);

            //Prepare and raise the ScanCompleted event.
            ScanCompletedEventArgs scanCompleteEventArgs = new ScanCompletedEventArgs(finalList.ToArray());
            ScanCompleted(this, scanCompleteEventArgs);
        }

        //The memory scan method for the 64 bit values.
        private void Int64Scaner(object int64Object)
        {
            //The difference of scan start point in all loops except first loop,
            //that doesn't have any difference, is type's Bytes count minus 1.
            int arraysDifference = Int64BytesCount - 1;

            //Get the long value out of the object to look for it.
            Int64 int64Value = (Int64)int64Object;

            //Define a List object to hold the found memory addresses.
            List<int> finalList = new List<int>();

            //Open the pocess to read the memory.
            reader.OpenProcess();

            //Create a new instant of the ScanProgressEventArgs class to be used to raise the
            //ScanProgressed event and pass the percentage of scan, during the scan progress.
            ScanProgressChangedEventArgs scanProgressEventArgs;

            //Calculate the size of memory to scan.
            int memorySize = (int)((int)lastAddress - (int)baseAddress);

            //If more that one block of memory is requered to be read,
            if (memorySize >= ReadStackSize)
            {
                //Count of loops to read the memory blocks.
                int loopsCount = memorySize / ReadStackSize;

                //Look to see if there is any other bytes let after the loops.
                int outOfBounds = memorySize % ReadStackSize;

                //Set the currentAddress to first address.
                int currentAddress = (int)baseAddress;

                //This will be used to check if any bytes have been read from the memory.
                int bytesReadSize;

                //Set the size of the bytes blocks.
                int bytesToRead = ReadStackSize;

                //An array to hold the bytes read from the memory.
                byte[] array;

                //Progress percentage.
                int progress;

                for (int i = 0; i < loopsCount; i++)
                {
                    //Calculte and set the progress percentage.
                    progress = (int)(((double)(currentAddress - (int)baseAddress) / (double)memorySize) * 100d);

                    //Prepare and set the ScanProgressed event and raise the event.
                    scanProgressEventArgs = new ScanProgressChangedEventArgs(progress);
                    ScanProgressChanged(this, scanProgressEventArgs);

                    //Read the bytes from the memory.
                    array = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)bytesToRead, out bytesReadSize);

                    //If any byte is read from the memory (there has been any bytes in the memory block),
                    if (bytesReadSize > 0)
                    {
                        //Loop through the bytes one by one to look for the values.
                        for (int j = 0; j < array.Length - arraysDifference; j++)
                        {
                            //If any value is equal to what we are looking for,
                            if (BitConverter.ToInt64(array, j) == int64Value)
                            {
                                //add it's memory address to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                    //Move currentAddress after the block already scaned, but
                    //move it back some steps backward (as much as arraysDifference)
                    //to avoid loosing any values at the end of the array.
                    currentAddress += array.Length - arraysDifference;

                    //Set the size of the read block, bigger, to  the steps backward.
                    //Set the size of the read block, to fit the back steps.
                    bytesToRead = ReadStackSize + arraysDifference;
                }
                //If there is any more bytes than the loops read,
                if (outOfBounds > 0)
                {
                    //Read the additional bytes.
                    byte[] outOfBoundsBytes = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)((int)lastAddress - currentAddress), out bytesReadSize);

                    //If any byte is read from the memory (there has been any bytes in the memory block),
                    if (bytesReadSize > 0)
                    {
                        //Loop through the bytes one by one to look for the values.
                        for (int j = 0; j < outOfBoundsBytes.Length - arraysDifference; j++)
                        {
                            //If any value is equal to what we are looking for,
                            if (BitConverter.ToInt64(outOfBoundsBytes, j) == int64Value)
                            {
                                //add it's memory address to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                }
            }
            //If the block could be read in just one read,
            else
            {
                //Calculate the memory block's size.
                int blockSize = memorySize % ReadStackSize;

                //Set the currentAddress to first address.
                int currentAddress = (int)baseAddress;

                //Holds the count of bytes read from the memory.
                int bytesReadSize;

                //If the memory block can contain at least one 64 bit variable.
                if (blockSize > Int64BytesCount)
                {
                    //Read the bytes to the array.
                    byte[] array = reader.ReadProcessMemory((IntPtr)currentAddress, (uint)blockSize, out bytesReadSize);

                    //If any byte is read,
                    if (bytesReadSize > 0)
                    {
                        //Loop through the array to find the values.
                        for (int j = 0; j < array.Length - arraysDifference; j++)
                        {
                            //If any value equals the value we are looking for,
                            if (BitConverter.ToInt64(array, j) == int64Value)
                            {
                                //add it to the finalList.
                                finalList.Add(j + (int)currentAddress);
                            }
                        }
                    }
                }
            }
            //Close the handle to the process to avoid process errors.
            reader.CloseHandle();

            //Prepare the ScanProgressed and set the progress percentage to 100% and raise the event.
            scanProgressEventArgs = new ScanProgressChangedEventArgs(100);
            ScanProgressChanged(this, scanProgressEventArgs);

            //Prepare and raise the ScanCompleted event.
            ScanCompletedEventArgs scanCompleteEventArgs = new ScanCompletedEventArgs(finalList.ToArray());
            ScanCompleted(this, scanCompleteEventArgs);
        }
        #endregion
        #endregion
    }

    public class IrregularMemoryScan
    {
        #region Constant fields
        //A byte is 8 bits long memory defined variable.

        //A 16 bit variable (Like char) is made up of 16 bits of memory and so 16/8 = 2 bytes of memory.
        const int Int16BytesCount = 16 / 8;
        //A 32 bit variable (Like int) is made up of 32 bits of memory and so 32/8 = 4 bytes of memory.
        const int Int32BytesCount = 32 / 8;
        //A 34 bit variable (Like long) is made up of 64 bits of memory and so 64/8 = 8 bytes of memory.
        const int Int64BytesCount = 64 / 8;
        #endregion

        #region Global fields
        //Instance of ProcessMemoryReader class to be used to read the memory.
        ProcessMemoryReader reader;

        //New thread object to run the scan in
        Thread thread;

        //An array to hold the addresses.
        int[] addresses;
        #endregion

        #region Delegate and Event objects
        //Delegate and Event objects for raising the ScanProgressChanged event.
        public delegate void ScanProgressedEventHandler(object sender, ScanProgressChangedEventArgs e);
        public event ScanProgressedEventHandler ScanProgressChanged;

        //Delegate and Event objects for raising the ScanCompleted event.
        public delegate void ScanCompletedEventHandler(object sender, ScanCompletedEventArgs e);
        public event ScanCompletedEventHandler ScanCompleted;

        //Delegate and Event objects for raising the ScanCanceled event.
        public delegate void ScanCanceledEventHandler(object sender, ScanCanceledEventArgs e);
        public event ScanCanceledEventHandler ScanCanceled;
        #endregion

        #region Methods
        //Class entry point.
        //The process, StartAddress and EndAdrress will be defined in the class definition.
        public IrregularMemoryScan(Process process, int[] AddressesList)
        {
            //Set the reader object an instant of the ProcessMemoryReader class.
            reader = new ProcessMemoryReader();

            //Set the ReadProcess of the reader object to process passed to this method
            //to define the process we are going to scan its memory.
            reader.ReadProcess = process;

            //Take the addresses list and store them in local array.
            addresses = AddressesList;
        }

        #region Public methods
        //Get ready to scan the memory for the 16 bit value.
        public void StartScanForInt16(Int16 Int16Value)
        {
            //Check if the thread is already defined or not.
            if (thread != null)
            {
                //If the thread is already defined and is Alive,
                if (thread.IsAlive)
                {
                    //raise the event that shows that the last scan task is canceled
                    //(because a new task is going to be started as wanted),
                    ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
                    ScanCanceled(this, cancelEventArgs);

                    //and then abort the alive thread and so cancel last scan task.
                    thread.Abort();
                }
            }
            //Set the thread object as a new instant of the Thread class and pass
            //a new ParameterizedThreadStart class object with the needed method passed to it
            //to run in the new thread.
            thread = new Thread(new ParameterizedThreadStart(Int16Scaner));

            //Start the new thread and set the 32 bit value to look for.
            thread.Start(Int16Value);
        }

        //Get ready to scan the memory for the 32 bit value.
        public void StartScanForInt32(Int32 Int32Value)
        {
            //Check if the thread is already defined or not.
            if (thread != null)
            {
                //If the thread is already defined and is Alive,
                if (thread.IsAlive)
                {
                    //raise the event that shows that the last scan task is canceled
                    //(because a new task is going to be started as wanted),
                    ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
                    ScanCanceled(this, cancelEventArgs);

                    //and then abort the alive thread and so cancel last scan task.
                    thread.Abort();
                }
            }
            //Set the thread object as a new instant of the Thread class and pass
            //a new ParameterizedThreadStart class object with the needed method passed to it
            //to run in the new thread.
            thread = new Thread(new ParameterizedThreadStart(Int32Scaner));

            //Start the new thread and set the 32 bit value to look for.
            thread.Start(Int32Value);
        }

        //Get ready to scan the memory for the 64 bit value.
        public void StartScanForInt64(Int64 Int64Value)
        {
            //Check if the thread is already defined or not.
            if (thread != null)
            {
                //If the thread is already defined and is Alive,
                if (thread.IsAlive)
                {
                    //raise the event that shows that the last scan task is canceled
                    //(because a new task is going to be started as wanted),
                    ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
                    ScanCanceled(this, cancelEventArgs);

                    //and then abort the alive thread and so cancel last scan task.
                    thread.Abort();
                }
            }
            //Set the thread object as a new instant of the Thread class and pass
            //a new ParameterizedThreadStart class object with the needed method passed to it
            //to run in the new thread.
            thread = new Thread(new ParameterizedThreadStart(Int64Scaner));

            //Start the new thread and set the 32 bit value to look for.
            thread.Start(Int64Value);
        }

        //Cancel the scan started.
        public void CancelScan()
        {
            //Raise the event that shows that the last scan task is canceled as user asked,
            ScanCanceledEventArgs cancelEventArgs = new ScanCanceledEventArgs();
            ScanCanceled(this, cancelEventArgs);

            //and then abort the thread that scanes the memory.
            thread.Abort();
        }
        #endregion

        #region Private methods
        //The memory scan method for the 16 bit values.
        private void Int16Scaner(object int16Object)
        {
            //Get the short value out of the object to look for it.
            Int16 int16Value = (Int16)int16Object;

            //Define a List object to hold the found memory addresses.
            List<int> finalList = new List<int>();

            //Open the pocess to read the memory.
            reader.OpenProcess();

            //Create a new instant of the ScanProgressEventArgs class to be used to raise the
            //ScanProgressed event and pass the percentage of scan, during the scan progress.
            ScanProgressChangedEventArgs scanProgressEventArgs;

            //Progress percentage.
            int progress;

            //This will be used to check if any bytes have been read from the memory.
            int bytesReadSize;

            //An array to hold the bytes read from the memory.
            byte[] array;

            for (int i = 0; i < addresses.Length; i++)
            {
                //Calculte and set the progress percentage.
                progress = (int)(((double)i / (double)addresses.Length) * 100d);

                //Prepare and set the ScanProgressed event and raise the event.
                scanProgressEventArgs = new ScanProgressChangedEventArgs(progress);
                ScanProgressChanged(this, scanProgressEventArgs);

                //Read the bytes from the memory.
                array = reader.ReadProcessMemory((IntPtr)addresses[i], Int16BytesCount, out bytesReadSize);

                //If any byte is read from the memory (there has been any bytes in the memory block),
                if (bytesReadSize > 0)
                {
                    //If any value is equal to what we are looking for,
                    if (BitConverter.ToInt16(array, 0) == int16Value)
                    {
                        //add it's memory address to the finalList.
                        finalList.Add(addresses[i]);
                    }
                }
            }
            //Close the handle to the process to avoid process errors.
            reader.CloseHandle();

            //Prepare the ScanProgressed and set the progress percentage to 100% and raise the event.
            scanProgressEventArgs = new ScanProgressChangedEventArgs(100);
            ScanProgressChanged(this, scanProgressEventArgs);

            //Prepare and raise the ScanCompleted event.
            ScanCompletedEventArgs scanCompleteEventArgs = new ScanCompletedEventArgs(finalList.ToArray());
            ScanCompleted(this, scanCompleteEventArgs);
        }

        //The memory scan method for the 32 bit values.
        private void Int32Scaner(object int32Object)
        {
            //Get the int value out of the object to look for it.
            Int32 int32Value = (Int32)int32Object;

            //Define a List object to hold the found memory addresses.
            List<int> finalList = new List<int>();

            //Open the pocess to read the memory.
            reader.OpenProcess();

            //Create a new instant of the ScanProgressEventArgs class to be used to raise the
            //ScanProgressed event and pass the percentage of scan, during the scan progress.
            ScanProgressChangedEventArgs scanProgressEventArgs;

            //Progress percentage.
            int progress;

            //This will be used to check if any bytes have been read from the memory.
            int bytesReadSize;

            //An array to hold the bytes read from the memory.
            byte[] array;

            for (int i = 0; i < addresses.Length; i++)
            {
                //Calculte and set the progress percentage.
                progress = (int)(((double)i / (double)addresses.Length) * 100d);

                //Prepare and set the ScanProgressed event and raise the event.
                scanProgressEventArgs = new ScanProgressChangedEventArgs(progress);
                ScanProgressChanged(this, scanProgressEventArgs);

                //Read the bytes from the memory.
                array = reader.ReadProcessMemory((IntPtr)addresses[i], Int32BytesCount, out bytesReadSize);

                //If any byte is read from the memory (there has been any bytes in the memory block),
                if (bytesReadSize > 0)
                {
                    //If any value is equal to what we are looking for,
                    if (BitConverter.ToInt32(array, 0) == int32Value)
                    {
                        //add it's memory address to the finalList.
                        finalList.Add(addresses[i]);
                    }
                }
            }
            //Close the handle to the process to avoid process errors.
            reader.CloseHandle();

            //Prepare the ScanProgressed and set the progress percentage to 100% and raise the event.
            scanProgressEventArgs = new ScanProgressChangedEventArgs(100);
            ScanProgressChanged(this, scanProgressEventArgs);

            //Prepare and raise the ScanCompleted event.
            ScanCompletedEventArgs scanCompleteEventArgs = new ScanCompletedEventArgs(finalList.ToArray());
            ScanCompleted(this, scanCompleteEventArgs);
        }

        //The memory scan method for the 64 bit values.
        private void Int64Scaner(object int64Object)
        {
            //Get the long value out of the object to look for it.
            Int64 int64Value = (Int64)int64Object;

            //Define a List object to hold the found memory addresses.
            List<int> finalList = new List<int>();

            //Open the pocess to read the memory.
            reader.OpenProcess();

            //Create a new instant of the ScanProgressEventArgs class to be used to raise the
            //ScanProgressed event and pass the percentage of scan, during the scan progress.
            ScanProgressChangedEventArgs scanProgressEventArgs;

            //Progress percentage.
            int progress;

            //This will be used to check if any bytes have been read from the memory.
            int bytesReadSize;

            //An array to hold the bytes read from the memory.
            byte[] array;

            for (int i = 0; i < addresses.Length; i++)
            {
                //Calculte and set the progress percentage.
                progress = (int)(((double)i / (double)addresses.Length) * 100d);

                //Prepare and set the ScanProgressed event and raise the event.
                scanProgressEventArgs = new ScanProgressChangedEventArgs(progress);
                ScanProgressChanged(this, scanProgressEventArgs);

                //Read the bytes from the memory.
                array = reader.ReadProcessMemory((IntPtr)addresses[i], Int64BytesCount, out bytesReadSize);

                //If any byte is read from the memory (there has been any bytes in the memory block),
                if (bytesReadSize > 0)
                {
                    //If any value is equal to what we are looking for,
                    if (BitConverter.ToInt64(array, 0) == int64Value)
                    {
                        //add it's memory address to the finalList.
                        finalList.Add(addresses[i]);
                    }
                }
            }
            //Close the handle to the process to avoid process errors.
            reader.CloseHandle();

            //Prepare the ScanProgressed and set the progress percentage to 100% and raise the event.
            scanProgressEventArgs = new ScanProgressChangedEventArgs(100);
            ScanProgressChanged(this, scanProgressEventArgs);

            //Prepare and raise the ScanCompleted event.
            ScanCompletedEventArgs scanCompleteEventArgs = new ScanCompletedEventArgs(finalList.ToArray());
            ScanCompleted(this, scanCompleteEventArgs);
        }
        #endregion
        #endregion
    }

    public class MemoryFreeze
    {
        #region Enum and structs
        //Struct with 3 properties to retrieve a memory addresse's information.
        public struct MemoryRecords
        {
            //Internal fields.
            internal int address;
            internal object value;
            internal DataType type;

            //Public properties.
            public int Address
            {
                get
                {
                    return address;
                }
            }
            public object Value
            {
                get
                {
                    return value;
                }
            }
            public DataType Type
            {
                get
                {
                    return type;
                }
            }
        }

        //A struct to hold the memory address, value and data type.
        struct memoryRecord
        {
            public int address;
            public DataType type;
            public object value;
        }

        //Enum of data types(16 bit, 32 bit or 64 bit).
        public enum DataType : int
        {
            Int16 = 2,
            Int32 = 4,
            Int64 = 8
        }
        #endregion

        #region Fields
        //List of memoryRecords to hold the addresses and their related information.
        List<memoryRecord> records;

        //A ProcessMemoryReader object to write the values to the memory addresses.
        ProcessMemoryReader writer;

        //Timer object to tick and freeze.
        System.Timers.Timer timer;
        #endregion

        #region Property
        //a property to retrieve the current list of memory addresses set to be freezed.
        public MemoryRecords[] FreezedMemoryAddresses
        {
            get
            {
                //Create an array of MemoryRecords by the lenght of
                //records.Count (the number of memory addresses are being freezed).
                MemoryRecords[] memoryRecords = new MemoryRecords[records.Count];
                //Loop and set the information.
                for (int i = 0; i < memoryRecords.Length; i++)
                {
                    memoryRecords[i].address = records[i].address;
                    memoryRecords[i].type = records[i].type;
                    memoryRecords[i].value = records[i].value;
                }
                //Return the array.
                return memoryRecords;
            }
        }
        #endregion

        #region Methods
        #region Public methods
        //Class entry point.
        //Define fields and event handlers and also set the process of the ProcessMemoryReader object.
        public MemoryFreeze(Process process)
        {
            timer = new System.Timers.Timer();

            writer = new ProcessMemoryReader();

            writer.ReadProcess = process;

            records = new List<memoryRecord>();

            timer.Elapsed += new System.Timers.ElapsedEventHandler(timer_Elapsed);
        }

        //Add a memory address and a 16 bit value to be written in the address.
        public void AddMemoryAddress(int MemoryAddress, Int16 Value)
        {
            memoryRecord item;
            item.address = MemoryAddress;
            item.type = DataType.Int16;
            item.value = Value;
            records.Add(item);
        }

        //Add a memory address and a 32 bit value to be written in the address.
        public void AddMemoryAddress(int MemoryAddress, Int32 Value)
        {
            memoryRecord item;
            item.address = MemoryAddress;
            item.type = DataType.Int32;
            item.value = Value;
            records.Add(item);
        }

        //Add a memory address and a 64 bit value to be written in the address.
        public void AddMemoryAddress(int MemoryAddress, Int64 Value)
        {
            memoryRecord item;
            item.address = MemoryAddress;
            item.type = DataType.Int64;
            item.value = Value;
            records.Add(item);
        }

        //Start the timer with the given Interval to start looping and so start freezing.
        public void StartFreezing(double Interval)
        {
            timer.Interval = Interval;

            timer.Start();
        }

        //Stop the timer and so stop the freezing loops.
        public void StopFreezing()
        {
            timer.Stop();
        }
        #endregion

        #region Private method
        //The method will be called in every timer's ticking.
        void timer_Elapsed(object sender, System.Timers.ElapsedEventArgs e)
        {
            //Open the process.
            writer.OpenProcess();

            //This is used, just to make the write process work but the value is not used.
            int bytesWritten;

            //Loop and set the value of all addresses.
            for (int i = 0; i < records.Count; i++)
            {
                //If the value type for the current address is 16 bit so take the Int16 out of the object,
                //and write the memory with the given value.
                if (records[i].type == DataType.Int16)
                {
                    writer.WriteProcessMemory((IntPtr)records[i].address, BitConverter.GetBytes((Int16)records[i].value), out bytesWritten);
                }
                //If the value type for the current address is 32 bit so take the Int32 out of the object,
                //and write the memory with the given value.
                if (records[i].type == DataType.Int32)
                {
                    writer.WriteProcessMemory((IntPtr)records[i].address, BitConverter.GetBytes((Int32)records[i].value), out bytesWritten);
                }
                //If the value type for the current address is 64 bit so take the Int64 out of the object,
                //and write the memory with the given value.
                if (records[i].type == DataType.Int64)
                {
                    writer.WriteProcessMemory((IntPtr)records[i].address, BitConverter.GetBytes((Int64)records[i].value), out bytesWritten);
                }
            }
            //Close the handle to the process.
            writer.CloseHandle();
        }  
        #endregion
        #endregion
    }

    #region EventArgs classes
    public class ScanProgressChangedEventArgs : EventArgs
    {
        public ScanProgressChangedEventArgs(int Progress)
        {
            progress = Progress;
        }
        private int progress;
        public int Progress
        {
            set
            {
                progress = value;
            }
            get
            {
                return progress;
            }
        }
    }

    public class ScanCompletedEventArgs : EventArgs
    {
        public ScanCompletedEventArgs(int[] MemoryAddresses)
        {
            memoryAddresses = MemoryAddresses;
        }
        private int[] memoryAddresses;
        public int[] MemoryAddresses
        {
            set
            {
                memoryAddresses = value;
            }
            get
            {
                return memoryAddresses;
            }
        }
    }

    public class ScanCanceledEventArgs : EventArgs
    {
        public ScanCanceledEventArgs()
        {
        }
    }
    #endregion

    #region ProcessMemoryReader class
    //Thanks goes to Arik Poznanski for P/Invokes and methods needed to read and write the Memory
    //For more information refer to "Minesweeper, Behind the scenes" article by Arik Poznanski at Codeproject.com
    class ProcessMemoryReader
    {

        public ProcessMemoryReader()
        {
        }

        /// <summary>    
        /// Process from which to read        
        /// </summary>
        public Process ReadProcess
        {
            get
            {
                return m_ReadProcess;
            }
            set
            {
                m_ReadProcess = value;
            }
        }

        private Process m_ReadProcess = null;

        private IntPtr m_hProcess = IntPtr.Zero;

        public void OpenProcess()
        {
            //            m_hProcess = ProcessMemoryReaderApi.OpenProcess(ProcessMemoryReaderApi.PROCESS_VM_READ, 1, (uint)m_ReadProcess.Id);
            ProcessMemoryReaderApi.ProcessAccessType access;
            access = ProcessMemoryReaderApi.ProcessAccessType.PROCESS_VM_READ
                | ProcessMemoryReaderApi.ProcessAccessType.PROCESS_VM_WRITE
                | ProcessMemoryReaderApi.ProcessAccessType.PROCESS_VM_OPERATION;
            m_hProcess = ProcessMemoryReaderApi.OpenProcess((uint)access, 1, (uint)m_ReadProcess.Id);
        }

        public void CloseHandle()
        {
            try
            {
                int iRetValue;
                iRetValue = ProcessMemoryReaderApi.CloseHandle(m_hProcess);
                if (iRetValue == 0)
                {
                    throw new Exception("CloseHandle failed");
                }
            }
            catch (Exception ex)
            {
                System.Windows.Forms.MessageBox.Show(ex.Message, "error", System.Windows.Forms.MessageBoxButtons.OK, System.Windows.Forms.MessageBoxIcon.Warning);
            }
        }

        public byte[] ReadProcessMemory(IntPtr MemoryAddress, uint bytesToRead, out int bytesRead)
        {
            byte[] buffer = new byte[bytesToRead];

            IntPtr ptrBytesRead;
            ProcessMemoryReaderApi.ReadProcessMemory(m_hProcess, MemoryAddress, buffer, bytesToRead, out ptrBytesRead);

            bytesRead = ptrBytesRead.ToInt32();

            return buffer;
        }

        public void WriteProcessMemory(IntPtr MemoryAddress, byte[] bytesToWrite, out int bytesWritten)
        {
            IntPtr ptrBytesWritten;
            ProcessMemoryReaderApi.WriteProcessMemory(m_hProcess, MemoryAddress, bytesToWrite, (uint)bytesToWrite.Length, out ptrBytesWritten);

            bytesWritten = ptrBytesWritten.ToInt32();
        }


        /// <summary>
        /// ProcessMemoryReader is a class that enables direct reading a process memory
        /// </summary>
        class ProcessMemoryReaderApi
        {
            // constants information can be found in <winnt.h>
            [Flags]
            public enum ProcessAccessType
            {
                PROCESS_TERMINATE = (0x0001),
                PROCESS_CREATE_THREAD = (0x0002),
                PROCESS_SET_SESSIONID = (0x0004),
                PROCESS_VM_OPERATION = (0x0008),
                PROCESS_VM_READ = (0x0010),
                PROCESS_VM_WRITE = (0x0020),
                PROCESS_DUP_HANDLE = (0x0040),
                PROCESS_CREATE_PROCESS = (0x0080),
                PROCESS_SET_QUOTA = (0x0100),
                PROCESS_SET_INFORMATION = (0x0200),
                PROCESS_QUERY_INFORMATION = (0x0400)
            }

            // function declarations are found in the MSDN and in <winbase.h>

            //        HANDLE OpenProcess(
            //            DWORD dwDesiredAccess,  // access flag
            //            BOOL bInheritHandle,    // handle inheritance option
            //            DWORD dwProcessId       // process identifier
            //            );
            [DllImport("kernel32.dll")]
            public static extern IntPtr OpenProcess(UInt32 dwDesiredAccess, Int32 bInheritHandle, UInt32 dwProcessId);

            //        BOOL CloseHandle(
            //            HANDLE hObject   // handle to object
            //            );
            [DllImport("kernel32.dll")]
            public static extern Int32 CloseHandle(IntPtr hObject);

            //        BOOL ReadProcessMemory(
            //            HANDLE hProcess,              // handle to the process
            //            LPCVOID lpBaseAddress,        // base of memory area
            //            LPVOID lpBuffer,              // data buffer
            //            SIZE_T nSize,                 // number of bytes to read
            //            SIZE_T * lpNumberOfBytesRead  // number of bytes read
            //            );
            [DllImport("kernel32.dll")]
           public static extern Int32 ReadProcessMemory(IntPtr hProcess, IntPtr lpBaseAddress, [In, Out] byte[] buffer, UInt32 size, out IntPtr lpNumberOfBytesRead);

            //        BOOL WriteProcessMemory(
            //            HANDLE hProcess,                // handle to process
            //            LPVOID lpBaseAddress,           // base of memory area
            //            LPCVOID lpBuffer,               // data buffer
            //            SIZE_T nSize,                   // count of bytes to write
            //            SIZE_T * lpNumberOfBytesWritten // count of bytes written
            //            );
            [DllImport("kernel32.dll")]
            public static extern Int32 WriteProcessMemory(IntPtr hProcess, IntPtr lpBaseAddress, [In, Out] byte[] buffer, UInt32 size, out IntPtr lpNumberOfBytesWritten);


        }
    }
    #endregion
}
ارجو المساعده في تحويله الى vb.net
الرد }}}
تم الشكر بواسطة:


المواضيع المحتمل أن تكون متشابهة .
الموضوع : الكاتب الردود : المشاهدات : آخر رد
  [سؤال] أتمنى اجابة وافية:عمل برنامج بقاعدة بيانات SQL دون حاجة تثبيت SQLSERVER dr.programming 6 598 19-03-24, 08:56 AM
آخر رد: سلامه محمد11
  [VB.NET] كيف يمكنني استظافة سوفت وير برنامج ادارة جهاز السي بي سي في المختبر الى برنامجي الحزين اليماني 2 282 15-01-24, 10:39 PM
آخر رد: الحزين اليماني
  برنامج لحفظ اكوادي samsunggears 2 385 05-01-24, 12:57 AM
آخر رد: HALIM ELEULMA
  انشاء واجهات برنامج شؤون الموظفين والرواتب شمسـ لا تغيب 5 12,847 27-09-23, 10:05 PM
آخر رد: melad2002
  مطلوب برنامج لحوافظ المالية الاسطورة1 2 432 27-09-23, 09:12 PM
آخر رد: melad2002
  تشغيل برنامج خارجي ضمن شاشة برنامجي strongriseman 1 341 13-09-23, 10:14 PM
آخر رد: anes
  طلب برنامج Active report v1.1 ali_dark 2 436 19-07-23, 01:33 AM
آخر رد: مصمم هاوي
  [نقاش] مساعدة برنامج جمعية خيرية mgsmm 0 457 30-06-23, 01:03 AM
آخر رد: mgsmm
  برنامج الصادر والوارد vb.net crazykinko 3 910 23-06-23, 04:19 AM
آخر رد: kebboud
  [سؤال] سؤال بخصوص برنامج يعمل بالباركود eslam kady 2 622 05-06-23, 11:26 PM
آخر رد: eslam kady

التنقل السريع :


يقوم بقرائة الموضوع: بالاضافة الى ( 1 ) ضيف كريم