/* KDSBEST START */
public int encryptFile(String inFile, String outFile, byte[] devKLic, byte[] keyFromRif, byte[] contentID, byte[] flags, byte[] type, byte[] version)
{
FileStream fin = File.Open(inFile, FileMode.Open);
// MemoryMappedFile fin1 = MemoryMappedFile.CreateFromFile(inFile, FileMode.Open);
NPD[] ptr = new NPD[1]; //Ptr to Ptr
FileStream o = File.Open(outFile, FileMode.Create);
string[] fn = o.Name.Split('\\');
byte[] npd = writeValidNPD(fn[fn.Length - 1], devKLic, ptr, fin, contentID, flags, version, type);
o.Write(npd, 0, npd.Length);
byte[] buffer = new byte[4];
// FLAGS
buffer[0] = 0x00;
buffer[1] = 0x00;
buffer[2] = 0x00;
buffer[3] = 0x00;
o.Write(buffer, 0, 4);
// blocksize 0x00004000
buffer[2] = 0x40;
o.Write(buffer, 0, 4);
long len = fin.Length;
byte[] lenBuf = BitConverter.GetBytes(len);
byte[] rLenBuf = new byte[8];
for (int i = 0; i < 8; i++)
{
rLenBuf[i] = 0x00;
}
for (int i = 0; i < lenBuf.Length; i++)
{
rLenBuf[7 - i] = lenBuf[i];
}
o.Write(rLenBuf, 0, 8);
// Fill the rest 0x10 bytes with dummy we generate the metasection hash later!
// the bytes till 0x100 are unknown
buffer[0] = 0x00;
while (o.Length < 0x100)
{
o.Write(buffer, 0, 1);
}
EDATData data = new EDATData();
data.flags = 0x00000000;
data.blockSize = 0x00004000;
data.fileLen = new BigInteger(len);
byte[] rifkey = getKey(ptr[0], data, devKLic, keyFromRif); //Obtain the key for decryption (result of sc471 or sdatkey)
int hashFlag = 0x00000002;
encryptData(fin, o, ptr[0], data, rifkey);
o.Seek(0x90, SeekOrigin.Begin);
AppLoader aa = new AppLoader();
aa.doInit(hashFlag, 0x00000001, new byte[0x10], new byte[0x10], rifkey);
int sectionSize = ((data.getFlags() & FLAG_COMPRESSED) != 0) ? 0x20 : 0x010; //BUG??? What about FLAG0x20??
//Determine the metadatasection total len
int numBlocks = (int)((data.getFileLen() + data.getBlockSize() - 11) / data.getBlockSize());
int readed = 0;
int baseOffset = 0x100;
//baseOffset += modifier; //There is an unknown offset to add to the metadatasection... value seen 0
long remaining = sectionSize * numBlocks;
while (remaining > 0)
{
int lenToRead = (HEADER_MAX_BLOCKSIZE > remaining) ? (int)remaining : HEADER_MAX_BLOCKSIZE;
o.Seek(baseOffset + readed, SeekOrigin.Begin);
byte[] content = new byte[lenToRead];
byte[] ooo = new byte[lenToRead];
o.Read(content, 0, content.Length);
aa.doUpdate(content, 0, ooo, 0, lenToRead);
readed += lenToRead;
remaining -= lenToRead;
}
byte[] headerHash = new byte[0x10];
aa.doFinalButGetHash(headerHash);
o.Seek(0x90, SeekOrigin.Begin);
o.Write(headerHash, 0, headerHash.Length);
// Header Complete
// Generate Header Hash
o.Seek(0, SeekOrigin.Begin);
byte[] header = new byte[0xA0];
byte[] headerODummy = new byte[0xA0];
o.Read(header, 0, header.Length);
AppLoaderReverse a = new AppLoaderReverse();
byte[] generatedHash = new byte[0x10];
bool result = a.doAll(hashFlag, 0x00000001, header, 0, headerODummy, 0, header.Length, new byte[0x10], new byte[0x10], rifkey, generatedHash, 0);
o.Seek(0xA0, SeekOrigin.Begin);
o.Write(generatedHash, 0, generatedHash.Length);
//KDSBest We don't know the DATA 0xB0 to 0x100!!!
while (o.Length < 0x100)
{
o.Write(buffer, 0, 1);
}
o.Close();
fin.Close();
return(STATUS_OK);
}
public int encryptFile(string inFile, string outFile, byte[] devKLic, byte[] keyFromRif, byte[] contentID, byte[] flags, byte[] type, byte[] version)
{
int num2;
int num9;
FileStream fin = File.Open(inFile, FileMode.Open);
NPD[] npdPtr = new NPD[1];
FileStream o = File.Open(outFile, FileMode.Create);
string[] strArray = o.Name.Split(new char[] { '\\' });
byte[] buffer = this.writeValidNPD(strArray[strArray.Length - 1], devKLic, npdPtr, fin, contentID, flags, version, type);
o.Write(buffer, 0, buffer.Length);
byte[] buffer2 = new byte[] { 0, 0, 0, 0 };
o.Write(buffer2, 0, 4);
buffer2[2] = 0x40;
o.Write(buffer2, 0, 4);
long length = fin.Length;
byte[] bytes = BitConverter.GetBytes(length);
byte[] buffer4 = new byte[8];
for (num2 = 0; num2 < 8; num2++)
{
buffer4[num2] = 0;
}
for (num2 = 0; num2 < bytes.Length; num2++)
{
buffer4[7 - num2] = bytes[num2];
}
o.Write(buffer4, 0, 8);
buffer2[0] = 0;
while (o.Length < 0x100L)
{
o.Write(buffer2, 0, 1);
}
EDATData data = new EDATData {
flags = 0L,
blockSize = 0x4000L,
fileLen = new BigInteger(length)
};
byte[] rifkey = this.getKey(npdPtr[0], data, devKLic, keyFromRif);
int hashFlag = 2;
this.encryptData(fin, o, npdPtr[0], data, rifkey);
o.Seek(0x90L, SeekOrigin.Begin);
AppLoader loader = new AppLoader();
loader.doInit(hashFlag, 1, new byte[0x10], new byte[0x10], rifkey);
int num4 = ((data.getFlags() & FLAG_COMPRESSED) != 0L) ? 0x20 : 0x10;
int num5 = (int) (((data.getFileLen() + data.getBlockSize()) - 11) / data.getBlockSize());
int num6 = 0;
int num7 = 0x100;
for (long i = num4 * num5; i > 0L; i -= num9)
{
num9 = (HEADER_MAX_BLOCKSIZE > i) ? ((int) i) : HEADER_MAX_BLOCKSIZE;
o.Seek((long) (num7 + num6), SeekOrigin.Begin);
byte[] buffer6 = new byte[num9];
byte[] buffer7 = new byte[num9];
o.Read(buffer6, 0, buffer6.Length);
loader.doUpdate(buffer6, 0, buffer7, 0, num9);
num6 += num9;
}
byte[] generatedHash = new byte[0x10];
loader.doFinalButGetHash(generatedHash);
o.Seek(0x90L, SeekOrigin.Begin);
o.Write(generatedHash, 0, generatedHash.Length);
o.Seek(0L, SeekOrigin.Begin);
byte[] buffer9 = new byte[160];
byte[] buffer10 = new byte[160];
o.Read(buffer9, 0, buffer9.Length);
AppLoaderReverse reverse = new AppLoaderReverse();
byte[] buffer11 = new byte[0x10];
bool flag = reverse.doAll(hashFlag, 1, buffer9, 0, buffer10, 0, buffer9.Length, new byte[0x10], new byte[0x10], rifkey, buffer11, 0);
o.Seek(160L, SeekOrigin.Begin);
o.Write(buffer11, 0, buffer11.Length);
while (o.Length < 0x100L)
{
o.Write(buffer2, 0, 1);
}
o.Close();
fin.Close();
return STATUS_OK;
}
private int checkHeader(byte[] rifKey, EDATData data, NPD npd, FileStream i)
{
i.Seek(0, SeekOrigin.Begin);
byte[] header = new byte[0xA0];
byte[] o = new byte[0xA0];
byte[] expectedHash = new byte[0x10];
//Version check
Console.WriteLine("Checking NPD Version:" + npd.getVersion());
if ((npd.getVersion() == 0) || (npd.getVersion() == 1))
{
if ((data.getFlags() & 0x7FFFFFFE) != 0)
{
Console.WriteLine("ERROR: Incorrect Header Flags"); return(STATUS_ERROR_INCORRECT_FLAGS);
}
}
else if (npd.getVersion() == 2)
{
if ((data.getFlags() & 0x7EFFFFE0) != 0)
{
Console.WriteLine("ERROR: Incorrect Header Flags"); return(STATUS_ERROR_INCORRECT_FLAGS);
}
}
else if (npd.getVersion() == 3 || (npd.getVersion() == 4))
{
if ((data.getFlags() & 0x7EFFFFC0) != 0)
{
Console.WriteLine("ERROR: Incorrect Header Flags"); return(STATUS_ERROR_INCORRECT_FLAGS);
}
}
else
{
Console.WriteLine("ERROR: Unsupported EDAT version (need keys)"); return(STATUS_ERROR_INCORRECT_VERSION);
}
{
int keyIndex = 0;
if (npd.getVersion() == 4)
{
keyIndex = 1;
}
i.Read(header, 0, header.Length);
i.Read(expectedHash, 0, expectedHash.Length);
Console.WriteLine("Checking header hash:");
AppLoader a = new AppLoader();
int hashFlag = ((data.getFlags() & FLAG_KEYENCRYPTED) == 0) ? 0x00000002 : 0x10000002;
if ((data.getFlags() & FLAG_DEBUG) != 0)
{
hashFlag |= 0x01000000;
}
//Veryfing header
bool result = a.doAll(hashFlag, 0x00000001, header, 0, o, 0, header.Length, new byte[0x10], new byte[0x10], rifKey, expectedHash, 0);
if (!result)
{
Console.WriteLine("Error verifying header. Is rifKey valid?.");
return(STATUS_ERROR_HEADERCHECK);
}
Console.WriteLine("Checking metadata hash:");
a = new AppLoader();
a.doInit(hashFlag, 0x00000001, new byte[0x10], new byte[0x10], rifKey);
int sectionSize = ((data.getFlags() & FLAG_COMPRESSED) != 0) ? 0x20 : 0x010; //BUG??? What about FLAG0x20??
//Determine the metadatasection total len
int numBlocks = (int)((data.getFileLen() + data.getBlockSize() - 11) / data.getBlockSize());
int readed = 0;
int baseOffset = 0x100;
//baseOffset += modifier; //There is an unknown offset to add to the metadatasection... value seen 0
long remaining = sectionSize * numBlocks;
while (remaining > 0)
{
int lenToRead = (HEADER_MAX_BLOCKSIZE > remaining) ? (int)remaining : HEADER_MAX_BLOCKSIZE;
i.Seek(baseOffset + readed, SeekOrigin.Begin);
byte[] content = new byte[lenToRead];
o = new byte[lenToRead];
i.Read(content, 0, content.Length);
a.doUpdate(content, 0, o, 0, lenToRead);
readed += lenToRead;
remaining -= lenToRead;
}
result = a.doFinal(header, 0x90);
if (!result)
{
Console.WriteLine("Error verifying metadatasection. Data tampered");
return(STATUS_ERROR_HEADERCHECK);
}
return(STATUS_OK);
}
}
private int decryptData(FileStream ii, FileStream o, NPD npd, EDATData data, byte[] rifkey)
{
int num = (int) (((data.getFileLen() + data.getBlockSize()) - 1) / data.getBlockSize());
int num2 = (((data.getFlags() & FLAG_COMPRESSED) != 0L) || ((data.getFlags() & FLAG_0x20) != 0L)) ? 0x20 : 0x10;
int num3 = 0x100;
for (int i = 0; i < num; i++)
{
long num5;
int num6;
byte[] buffer2;
int num11;
ii.Seek((long) (num3 + (i * num2)), SeekOrigin.Begin);
byte[] dest = new byte[0x10];
int num7 = 0;
if ((data.getFlags() & FLAG_COMPRESSED) != 0L)
{
buffer2 = new byte[0x20];
ii.Read(buffer2, 0, buffer2.Length);
byte[] buffer3 = this.decryptMetadataSection(buffer2);
num5 = (int) ConversionUtils.be64(buffer3, 0);
num6 = (int) ConversionUtils.be32(buffer3, 8);
num7 = (int) ConversionUtils.be32(buffer3, 12);
ConversionUtils.arraycopy(buffer2, 0, dest, 0L, 0x10);
}
else if ((data.getFlags() & FLAG_0x20) != 0L)
{
buffer2 = new byte[0x20];
ii.Read(buffer2, 0, buffer2.Length);
for (int j = 0; j < 0x10; j++)
{
dest[j] = (byte) (buffer2[j] ^ buffer2[j + 0x10]);
}
num5 = (num3 + (i * data.getBlockSize())) + (num * num2);
num6 = (int) data.getBlockSize();
if (i == (num - 1))
{
num6 = (int) (data.getFileLen() % new BigInteger(data.getBlockSize()));
}
}
else
{
ii.Read(dest, 0, dest.Length);
num5 = (num3 + (i * data.getBlockSize())) + (num * num2);
num6 = (int) data.getBlockSize();
if (i == (num - 1))
{
num6 = (int) (data.getFileLen() % new BigInteger(data.getBlockSize()));
}
}
int count = num6;
num6 = (num6 + 15) & -16;
Debug.Print("Offset: %016X, len: %08X, realLen: %08X, endCompress: %d\r\n", new object[] { num5, num6, count, num7 });
ii.Seek(num5, SeekOrigin.Begin);
byte[] buffer = new byte[num6];
byte[] buffer5 = new byte[num6];
ii.Read(buffer, 0, buffer.Length);
byte[] buffer6 = new byte[0x10];
byte[] buffer7 = new byte[0x10];
byte[] buffer8 = this.calculateBlockKey(i, npd);
ToolsImpl.aesecbEncrypt(rifkey, buffer8, 0, buffer6, 0, buffer8.Length);
if ((data.getFlags() & FLAG_0x10) != 0L)
{
ToolsImpl.aesecbEncrypt(rifkey, buffer6, 0, buffer7, 0, buffer6.Length);
}
else
{
ConversionUtils.arraycopy(buffer6, 0, buffer7, 0L, buffer6.Length);
}
int cryptoFlag = ((data.getFlags() & FLAG_0x02) == 0L) ? 2 : 1;
if ((data.getFlags() & FLAG_0x10) == 0L)
{
num11 = 2;
}
else if ((data.getFlags() & FLAG_0x20) == 0L)
{
num11 = 4;
}
else
{
num11 = 1;
}
if ((data.getFlags() & FLAG_KEYENCRYPTED) != 0L)
{
cryptoFlag |= 0x10000000;
num11 |= 0x10000000;
}
if ((data.getFlags() & FLAG_DEBUG) != 0L)
{
cryptoFlag |= 0x1000000;
num11 |= 0x1000000;
}
AppLoader loader = new AppLoader();
byte[] buffer9 = (npd.getVersion() <= 1L) ? new byte[0x10] : npd.getDigest();
if (!loader.doAll(num11, cryptoFlag, buffer, 0, buffer5, 0, buffer.Length, buffer6, npd.getDigest(), buffer7, dest, 0))
{
Debug.WriteLine("Error decrypting block " + i);
}
if ((data.getFlags() & FLAG_COMPRESSED) == 0L)
{
o.Write(buffer5, 0, count);
}
}
return STATUS_OK;
}
private int checkHeader(byte[] rifKey, EDATData data, NPD npd, FileStream i)
{
int num8;
i.Seek(0L, SeekOrigin.Begin);
byte[] buffer = new byte[160];
byte[] o = new byte[160];
byte[] buffer3 = new byte[0x10];
Console.WriteLine("Checking NPD Version:" + npd.getVersion());
if ((npd.getVersion() == 0L) || (npd.getVersion() == 1L))
{
if ((data.getFlags() & 0x7ffffffeL) != 0L)
{
Console.WriteLine("ERROR: Incorrect Header Flags");
return STATUS_ERROR_INCORRECT_FLAGS;
}
}
else if (npd.getVersion() == 2L)
{
if ((data.getFlags() & 0x7effffe0L) != 0L)
{
Console.WriteLine("ERROR: Incorrect Header Flags");
return STATUS_ERROR_INCORRECT_FLAGS;
}
}
else if ((npd.getVersion() == 3L) || (npd.getVersion() == 4L))
{
if ((data.getFlags() & 0x7effffc0L) != 0L)
{
Console.WriteLine("ERROR: Incorrect Header Flags");
return STATUS_ERROR_INCORRECT_FLAGS;
}
}
else
{
Console.WriteLine("ERROR: Unsupported EDAT version (need keys)");
return STATUS_ERROR_INCORRECT_VERSION;
}
if (npd.getVersion() == 4L)
{
}
i.Read(buffer, 0, buffer.Length);
i.Read(buffer3, 0, buffer3.Length);
Console.WriteLine("Checking header hash:");
AppLoader loader = new AppLoader();
int hashFlag = ((data.getFlags() & FLAG_KEYENCRYPTED) == 0L) ? 2 : 0x10000002;
if ((data.getFlags() & FLAG_DEBUG) != 0L)
{
hashFlag |= 0x1000000;
}
if (!loader.doAll(hashFlag, 1, buffer, 0, o, 0, buffer.Length, new byte[0x10], new byte[0x10], rifKey, buffer3, 0))
{
Console.WriteLine("Error verifying header. Is rifKey valid?.");
return STATUS_ERROR_HEADERCHECK;
}
Console.WriteLine("Checking metadata hash:");
loader = new AppLoader();
loader.doInit(hashFlag, 1, new byte[0x10], new byte[0x10], rifKey);
int num3 = ((data.getFlags() & FLAG_COMPRESSED) != 0L) ? 0x20 : 0x10;
int num4 = (int) (((data.getFileLen() + data.getBlockSize()) - 11) / data.getBlockSize());
int num5 = 0;
int num6 = 0x100;
for (long j = num3 * num4; j > 0L; j -= num8)
{
num8 = (HEADER_MAX_BLOCKSIZE > j) ? ((int) j) : HEADER_MAX_BLOCKSIZE;
i.Seek((long) (num6 + num5), SeekOrigin.Begin);
byte[] buffer4 = new byte[num8];
o = new byte[num8];
i.Read(buffer4, 0, buffer4.Length);
loader.doUpdate(buffer4, 0, o, 0, num8);
num5 += num8;
}
if (!loader.doFinal(buffer, 0x90))
{
Console.WriteLine("Error verifying metadatasection. Data tampered");
return STATUS_ERROR_HEADERCHECK;
}
return STATUS_OK;
}
private int checkHeader(byte[] rifKey, EDATData data, NPD npd, FileStream i)
{
int num8;
i.Seek(0L, SeekOrigin.Begin);
byte[] buffer = new byte[160];
byte[] o = new byte[160];
byte[] buffer3 = new byte[0x10];
Console.WriteLine("Checking NPD Version:" + npd.getVersion());
if ((npd.getVersion() == 0L) || (npd.getVersion() == 1L))
{
if ((data.getFlags() & 0x7ffffffeL) != 0L)
{
Console.WriteLine("ERROR: Incorrect Header Flags");
return(STATUS_ERROR_INCORRECT_FLAGS);
}
}
else if (npd.getVersion() == 2L)
{
if ((data.getFlags() & 0x7effffe0L) != 0L)
{
Console.WriteLine("ERROR: Incorrect Header Flags");
return(STATUS_ERROR_INCORRECT_FLAGS);
}
}
else if ((npd.getVersion() == 3L) || (npd.getVersion() == 4L))
{
if ((data.getFlags() & 0x7effffc0L) != 0L)
{
Console.WriteLine("ERROR: Incorrect Header Flags");
return(STATUS_ERROR_INCORRECT_FLAGS);
}
}
else
{
Console.WriteLine("ERROR: Unsupported EDAT version (need keys)");
return(STATUS_ERROR_INCORRECT_VERSION);
}
if (npd.getVersion() == 4L)
{
}
i.Read(buffer, 0, buffer.Length);
i.Read(buffer3, 0, buffer3.Length);
Console.WriteLine("Checking header hash:");
AppLoader loader = new AppLoader();
int hashFlag = ((data.getFlags() & FLAG_KEYENCRYPTED) == 0L) ? 2 : 0x10000002;
if ((data.getFlags() & FLAG_DEBUG) != 0L)
{
hashFlag |= 0x1000000;
}
if (!loader.doAll(hashFlag, 1, buffer, 0, o, 0, buffer.Length, new byte[0x10], new byte[0x10], rifKey, buffer3, 0))
{
Console.WriteLine("Error verifying header. Is rifKey valid?.");
return(STATUS_ERROR_HEADERCHECK);
}
Console.WriteLine("Checking metadata hash:");
loader = new AppLoader();
loader.doInit(hashFlag, 1, new byte[0x10], new byte[0x10], rifKey);
int num3 = ((data.getFlags() & FLAG_COMPRESSED) != 0L) ? 0x20 : 0x10;
int num4 = (int)(((data.getFileLen() + data.getBlockSize()) - 11) / data.getBlockSize());
int num5 = 0;
int num6 = 0x100;
for (long j = num3 * num4; j > 0L; j -= num8)
{
num8 = (HEADER_MAX_BLOCKSIZE > j) ? ((int)j) : HEADER_MAX_BLOCKSIZE;
i.Seek((long)(num6 + num5), SeekOrigin.Begin);
byte[] buffer4 = new byte[num8];
o = new byte[num8];
i.Read(buffer4, 0, buffer4.Length);
loader.doUpdate(buffer4, 0, o, 0, num8);
num5 += num8;
}
if (!loader.doFinal(buffer, 0x90))
{
Console.WriteLine("Error verifying metadatasection. Data tampered");
return(STATUS_ERROR_HEADERCHECK);
}
return(STATUS_OK);
}
public int encryptFile(string inFile, string outFile, byte[] devKLic, byte[] keyFromRif, byte[] contentID, byte[] flags, byte[] type, byte[] version)
{
int num2;
int num9;
FileStream fin = File.Open(inFile, FileMode.Open);
NPD[] npdPtr = new NPD[1];
FileStream o = File.Open(outFile, FileMode.Create);
string[] strArray = o.Name.Split(new char[] { '\\' });
byte[] buffer = this.writeValidNPD(strArray[strArray.Length - 1], devKLic, npdPtr, fin, contentID, flags, version, type);
o.Write(buffer, 0, buffer.Length);
byte[] buffer2 = new byte[] { 0, 0, 0, 0 };
o.Write(buffer2, 0, 4);
buffer2[2] = 0x40;
o.Write(buffer2, 0, 4);
long length = fin.Length;
byte[] bytes = BitConverter.GetBytes(length);
byte[] buffer4 = new byte[8];
for (num2 = 0; num2 < 8; num2++)
{
buffer4[num2] = 0;
}
for (num2 = 0; num2 < bytes.Length; num2++)
{
buffer4[7 - num2] = bytes[num2];
}
o.Write(buffer4, 0, 8);
buffer2[0] = 0;
while (o.Length < 0x100L)
{
o.Write(buffer2, 0, 1);
}
EDATData data = new EDATData {
flags = 0L,
blockSize = 0x4000L,
fileLen = new BigInteger(length)
};
byte[] rifkey = this.getKey(npdPtr[0], data, devKLic, keyFromRif);
int hashFlag = 2;
this.encryptData(fin, o, npdPtr[0], data, rifkey);
o.Seek(0x90L, SeekOrigin.Begin);
AppLoader loader = new AppLoader();
loader.doInit(hashFlag, 1, new byte[0x10], new byte[0x10], rifkey);
int num4 = ((data.getFlags() & FLAG_COMPRESSED) != 0L) ? 0x20 : 0x10;
int num5 = (int)(((data.getFileLen() + data.getBlockSize()) - 11) / data.getBlockSize());
int num6 = 0;
int num7 = 0x100;
for (long i = num4 * num5; i > 0L; i -= num9)
{
num9 = (HEADER_MAX_BLOCKSIZE > i) ? ((int)i) : HEADER_MAX_BLOCKSIZE;
o.Seek((long)(num7 + num6), SeekOrigin.Begin);
byte[] buffer6 = new byte[num9];
byte[] buffer7 = new byte[num9];
o.Read(buffer6, 0, buffer6.Length);
loader.doUpdate(buffer6, 0, buffer7, 0, num9);
num6 += num9;
}
byte[] generatedHash = new byte[0x10];
loader.doFinalButGetHash(generatedHash);
o.Seek(0x90L, SeekOrigin.Begin);
o.Write(generatedHash, 0, generatedHash.Length);
o.Seek(0L, SeekOrigin.Begin);
byte[] buffer9 = new byte[160];
byte[] buffer10 = new byte[160];
o.Read(buffer9, 0, buffer9.Length);
AppLoaderReverse reverse = new AppLoaderReverse();
byte[] buffer11 = new byte[0x10];
bool flag = reverse.doAll(hashFlag, 1, buffer9, 0, buffer10, 0, buffer9.Length, new byte[0x10], new byte[0x10], rifkey, buffer11, 0);
o.Seek(160L, SeekOrigin.Begin);
o.Write(buffer11, 0, buffer11.Length);
while (o.Length < 0x100L)
{
o.Write(buffer2, 0, 1);
}
o.Close();
fin.Close();
return(STATUS_OK);
}
private int decryptData(FileStream ii, FileStream o, NPD npd, EDATData data, byte[] rifkey)
{
int num = (int)(((data.getFileLen() + data.getBlockSize()) - 1) / data.getBlockSize());
int num2 = (((data.getFlags() & FLAG_COMPRESSED) != 0L) || ((data.getFlags() & FLAG_0x20) != 0L)) ? 0x20 : 0x10;
int num3 = 0x100;
for (int i = 0; i < num; i++)
{
long num5;
int num6;
byte[] buffer2;
int num11;
ii.Seek((long)(num3 + (i * num2)), SeekOrigin.Begin);
byte[] dest = new byte[0x10];
int num7 = 0;
if ((data.getFlags() & FLAG_COMPRESSED) != 0L)
{
buffer2 = new byte[0x20];
ii.Read(buffer2, 0, buffer2.Length);
byte[] buffer3 = this.decryptMetadataSection(buffer2);
num5 = (int)ConversionUtils.be64(buffer3, 0);
num6 = (int)ConversionUtils.be32(buffer3, 8);
num7 = (int)ConversionUtils.be32(buffer3, 12);
ConversionUtils.arraycopy(buffer2, 0, dest, 0L, 0x10);
}
else if ((data.getFlags() & FLAG_0x20) != 0L)
{
buffer2 = new byte[0x20];
ii.Read(buffer2, 0, buffer2.Length);
for (int j = 0; j < 0x10; j++)
{
dest[j] = (byte)(buffer2[j] ^ buffer2[j + 0x10]);
}
num5 = (num3 + (i * data.getBlockSize())) + (num * num2);
num6 = (int)data.getBlockSize();
if (i == (num - 1))
{
num6 = (int)(data.getFileLen() % new BigInteger(data.getBlockSize()));
}
}
else
{
ii.Read(dest, 0, dest.Length);
num5 = (num3 + (i * data.getBlockSize())) + (num * num2);
num6 = (int)data.getBlockSize();
if (i == (num - 1))
{
num6 = (int)(data.getFileLen() % new BigInteger(data.getBlockSize()));
}
}
int count = num6;
num6 = (num6 + 15) & -16;
Debug.Print("Offset: %016X, len: %08X, realLen: %08X, endCompress: %d\r\n", new object[] { num5, num6, count, num7 });
ii.Seek(num5, SeekOrigin.Begin);
byte[] buffer = new byte[num6];
byte[] buffer5 = new byte[num6];
ii.Read(buffer, 0, buffer.Length);
byte[] buffer6 = new byte[0x10];
byte[] buffer7 = new byte[0x10];
byte[] buffer8 = this.calculateBlockKey(i, npd);
ToolsImpl.aesecbEncrypt(rifkey, buffer8, 0, buffer6, 0, buffer8.Length);
if ((data.getFlags() & FLAG_0x10) != 0L)
{
ToolsImpl.aesecbEncrypt(rifkey, buffer6, 0, buffer7, 0, buffer6.Length);
}
else
{
ConversionUtils.arraycopy(buffer6, 0, buffer7, 0L, buffer6.Length);
}
int cryptoFlag = ((data.getFlags() & FLAG_0x02) == 0L) ? 2 : 1;
if ((data.getFlags() & FLAG_0x10) == 0L)
{
num11 = 2;
}
else if ((data.getFlags() & FLAG_0x20) == 0L)
{
num11 = 4;
}
else
{
num11 = 1;
}
if ((data.getFlags() & FLAG_KEYENCRYPTED) != 0L)
{
cryptoFlag |= 0x10000000;
num11 |= 0x10000000;
}
if ((data.getFlags() & FLAG_DEBUG) != 0L)
{
cryptoFlag |= 0x1000000;
num11 |= 0x1000000;
}
AppLoader loader = new AppLoader();
byte[] buffer9 = (npd.getVersion() <= 1L) ? new byte[0x10] : npd.getDigest();
if (!loader.doAll(num11, cryptoFlag, buffer, 0, buffer5, 0, buffer.Length, buffer6, npd.getDigest(), buffer7, dest, 0))
{
Debug.WriteLine("Error decrypting block " + i);
}
if ((data.getFlags() & FLAG_COMPRESSED) == 0L)
{
o.Write(buffer5, 0, count);
}
}
return(STATUS_OK);
}