コード例 #1
0
  static int resultSize(ResultType resultType) {
    switch (resultType.nativeType()) {
      case SCHAR:
      case UCHAR:
      case SSHORT:
      case USHORT:
      case SINT:
      case UINT:
      case SLONG:
      case ULONG:
      case POINTER:
        return 4;

      case SLONG_LONG:
      case ULONG_LONG:
        return 8;

      case FLOAT:
      case DOUBLE:
        return 16;

      case VOID:
        return 0;

      default:
        throw new IllegalArgumentException("invalid return type " + resultType);
    }
  }
コード例 #2
0
  @Override
  void compile(
      long function,
      String name,
      ResultType resultType,
      ParameterType[] parameterTypes,
      Class resultClass,
      Class[] parameterClasses,
      CallingConvention convention,
      boolean saveErrno) {

    int psize = 0;
    for (ParameterType t : parameterTypes) {
      psize += parameterSize(t);
    }

    int rsize = resultSize(resultType);

    //
    // JNI functions all look like:
    // foo(JNIEnv* env, jobject self, arg...)

    // We need to align the stack to 16 bytes, then copy all the old args
    // into the new parameter space.
    // It already has 4 bytes pushed (the return address) so we need to account for that.
    //
    final int stackadj = align(Math.max(psize, rsize) + 4, 16) - 4;

    Assembler a = new Assembler(X86_32);

    a.sub(esp, imm(stackadj));

    // copy and convert the parameters from the orig stack to the new location
    for (int i = 0, srcoff = 0, dstoff = 0; i < parameterTypes.length; i++) {
      int srcParameterSize = parameterSize(parameterClasses[i]);
      int dstParameterSize = parameterSize(parameterTypes[i]);
      int disp = stackadj + 4 + 8 + srcoff;

      switch (parameterTypes[i].nativeType()) {
        case SCHAR:
        case SSHORT:
          a.movsx(eax, ptr(esp, disp, parameterTypes[i].nativeType()));
          break;

        case UCHAR:
        case USHORT:
          a.movzx(eax, ptr(esp, disp, parameterTypes[i].nativeType()));
          break;

        default:
          a.mov(eax, dword_ptr(esp, disp));
          break;
      }
      a.mov(dword_ptr(esp, dstoff), eax);

      if (dstParameterSize > 4) {
        if (parameterTypes[i].nativeType() == NativeType.SLONG_LONG
            && long.class != parameterClasses[i]) {
          // sign extend from int.class -> long long
          a.sar(eax, imm(31));

        } else if (parameterTypes[i].nativeType() == NativeType.ULONG_LONG
            && long.class != parameterClasses[i]) {
          // zero extend from int.class -> unsigned long long
          a.mov(dword_ptr(esp, dstoff + 4), imm(0));

        } else {
          a.mov(eax, dword_ptr(esp, disp + 4));
        }
        a.mov(dword_ptr(esp, dstoff + 4), eax);
      }

      dstoff += dstParameterSize;
      srcoff += srcParameterSize;
    }

    // Call to the actual native function
    a.call(imm(function & 0xffffffffL));

    if (saveErrno) {
      int save = 0;
      switch (resultType.nativeType()) {
        case FLOAT:
          a.fstp(dword_ptr(esp, save));
          break;

        case DOUBLE:
          a.fstp(qword_ptr(esp, save));
          break;

        case SLONG_LONG:
        case ULONG_LONG:
          a.mov(dword_ptr(esp, save), eax);
          a.mov(dword_ptr(esp, save + 4), edx);
          break;

        case VOID:
          // No need to save for void values
          break;

        default:
          a.mov(dword_ptr(esp, save), eax);
      }

      // Save the errno in a thread-local variable
      a.call(imm(errnoFunctionAddress & 0xffffffffL));

      // Retrieve return value and put it back in the appropriate return register
      switch (resultType.nativeType()) {
        case FLOAT:
          a.fld(dword_ptr(esp, save));
          break;

        case DOUBLE:
          a.fld(qword_ptr(esp, save));
          break;

        case SCHAR:
          a.movsx(eax, byte_ptr(esp, save));
          break;

        case UCHAR:
          a.movzx(eax, byte_ptr(esp, save));
          break;

        case SSHORT:
          a.movsx(eax, word_ptr(esp, save));
          break;

        case USHORT:
          a.movzx(eax, word_ptr(esp, save));
          break;

        case SLONG_LONG:
        case ULONG_LONG:
          a.mov(eax, dword_ptr(esp, save));
          a.mov(edx, dword_ptr(esp, save + 4));
          break;

        case VOID:
          // No need to save for void values
          break;

        default:
          a.mov(eax, dword_ptr(esp, save));
      }

    } else {

      switch (resultType.nativeType()) {
        case SCHAR:
          a.movsx(eax, al);
          break;

        case UCHAR:
          a.movzx(eax, al);
          break;

        case SSHORT:
          a.movsx(eax, ax);
          break;

        case USHORT:
          a.movzx(eax, ax);
          break;
      }
    }

    if (long.class == resultClass) {
      // sign or zero extend the result to 64 bits
      switch (resultType.nativeType()) {
        case SCHAR:
        case SSHORT:
        case SINT:
        case SLONG:
          // sign extend eax to edx:eax
          a.mov(edx, eax);
          a.sar(edx, imm(31));
          break;

        case UCHAR:
        case USHORT:
        case UINT:
        case ULONG:
        case POINTER:
          a.mov(edx, imm(0));
          break;
      }
    }
    // Restore esp to the original position and return
    a.add(esp, imm(stackadj));
    a.ret();

    stubs.add(new Stub(name, sig(resultClass, parameterClasses), a));
  }
コード例 #3
0
  boolean canCompile(
      ResultType returnType, ParameterType[] parameterTypes, CallingConvention convention) {

    switch (returnType.nativeType()) {
      case VOID:
      case SCHAR:
      case UCHAR:
      case SSHORT:
      case USHORT:
      case SINT:
      case UINT:
      case SLONG:
      case ULONG:
      case SLONG_LONG:
      case ULONG_LONG:
      case FLOAT:
      case DOUBLE:
      case POINTER:
        break;

      default:
        return false;
    }

    // There is only one calling convention; SYSV, so abort if someone tries to use stdcall
    if (convention != CallingConvention.DEFAULT) {
      return false;
    }

    int fCount = 0;
    int iCount = 0;

    for (ParameterType t : parameterTypes) {
      switch (t.nativeType()) {
        case SCHAR:
        case UCHAR:
        case SSHORT:
        case USHORT:
        case SINT:
        case UINT:
        case SLONG:
        case ULONG:
        case SLONG_LONG:
        case ULONG_LONG:
        case POINTER:
          ++iCount;
          break;

        case FLOAT:
        case DOUBLE:
          ++fCount;
          break;

        default:
          // Fail on anything else
          return false;
      }
    }

    // We can only safely compile methods with up to 6 integer and 8 floating point parameters
    return true;
  }