using System;
using System.IO;
using Org.BouncyCastle.Asn1;
using Org.BouncyCastle.Utilities;
using Org.BouncyCastle.Utilities.IO;
namespace Org.BouncyCastle.Bcpg
{
/// Reader for PGP objects.
public class BcpgInputStream
: BaseInputStream
{
private Stream m_in;
private bool next = false;
private int nextB;
internal static BcpgInputStream Wrap(
Stream inStr)
{
if (inStr is BcpgInputStream)
{
return (BcpgInputStream) inStr;
}
return new BcpgInputStream(inStr);
}
private BcpgInputStream(
Stream inputStream)
{
this.m_in = inputStream;
}
public override int ReadByte()
{
if (next)
{
next = false;
return nextB;
}
return m_in.ReadByte();
}
public override int Read(
byte[] buffer,
int offset,
int count)
{
// Strangely, when count == 0, we should still attempt to read a byte
// if (count == 0)
// return 0;
if (!next)
return m_in.Read(buffer, offset, count);
// We have next byte waiting, so return it
if (nextB < 0)
return 0; // EndOfStream
if (buffer == null)
throw new ArgumentNullException("buffer");
buffer[offset] = (byte) nextB;
next = false;
return 1;
}
public byte[] ReadAll()
{
return Streams.ReadAll(this);
}
public void ReadFully(
byte[] buffer,
int off,
int len)
{
if (Streams.ReadFully(this, buffer, off, len) < len)
throw new EndOfStreamException();
}
public void ReadFully(
byte[] buffer)
{
ReadFully(buffer, 0, buffer.Length);
}
/// Returns the next packet tag in the stream.
public PacketTag NextPacketTag()
{
if (!next)
{
try
{
nextB = m_in.ReadByte();
}
catch (EndOfStreamException)
{
nextB = -1;
}
next = true;
}
if (nextB < 0)
return (PacketTag)nextB;
int maskB = nextB & 0x3f;
if ((nextB & 0x40) == 0) // old
{
maskB >>= 2;
}
return (PacketTag)maskB;
}
public Packet ReadPacket()
{
int hdr = this.ReadByte();
if (hdr < 0)
{
return null;
}
if ((hdr & 0x80) == 0)
{
throw new IOException("invalid header encountered");
}
bool newPacket = (hdr & 0x40) != 0;
PacketTag tag = 0;
int bodyLen = 0;
bool partial = false;
if (newPacket)
{
tag = (PacketTag)(hdr & 0x3f);
int l = this.ReadByte();
if (l < 192)
{
bodyLen = l;
}
else if (l <= 223)
{
int b = m_in.ReadByte();
bodyLen = ((l - 192) << 8) + (b) + 192;
}
else if (l == 255)
{
bodyLen = (m_in.ReadByte() << 24) | (m_in.ReadByte() << 16)
| (m_in.ReadByte() << 8) | m_in.ReadByte();
}
else
{
partial = true;
bodyLen = 1 << (l & 0x1f);
}
}
else
{
int lengthType = hdr & 0x3;
tag = (PacketTag)((hdr & 0x3f) >> 2);
switch (lengthType)
{
case 0:
bodyLen = this.ReadByte();
break;
case 1:
bodyLen = (this.ReadByte() << 8) | this.ReadByte();
break;
case 2:
bodyLen = (this.ReadByte() << 24) | (this.ReadByte() << 16)
| (this.ReadByte() << 8) | this.ReadByte();
break;
case 3:
partial = true;
break;
default:
throw new IOException("unknown length type encountered");
}
}
BcpgInputStream objStream;
if (bodyLen == 0 && partial)
{
objStream = this;
}
else
{
PartialInputStream pis = new PartialInputStream(this, partial, bodyLen);
objStream = new BcpgInputStream(pis);
}
switch (tag)
{
case PacketTag.Reserved:
return new InputStreamPacket(objStream);
case PacketTag.PublicKeyEncryptedSession:
return new PublicKeyEncSessionPacket(objStream);
case PacketTag.Signature:
return new SignaturePacket(objStream);
case PacketTag.SymmetricKeyEncryptedSessionKey:
return new SymmetricKeyEncSessionPacket(objStream);
case PacketTag.OnePassSignature:
return new OnePassSignaturePacket(objStream);
case PacketTag.SecretKey:
return new SecretKeyPacket(objStream);
case PacketTag.PublicKey:
return new PublicKeyPacket(objStream);
case PacketTag.SecretSubkey:
return new SecretSubkeyPacket(objStream);
case PacketTag.CompressedData:
return new CompressedDataPacket(objStream);
case PacketTag.SymmetricKeyEncrypted:
return new SymmetricEncDataPacket(objStream);
case PacketTag.Marker:
return new MarkerPacket(objStream);
case PacketTag.LiteralData:
return new LiteralDataPacket(objStream);
case PacketTag.Trust:
return new TrustPacket(objStream);
case PacketTag.UserId:
return new UserIdPacket(objStream);
case PacketTag.UserAttribute:
return new UserAttributePacket(objStream);
case PacketTag.PublicSubkey:
return new PublicSubkeyPacket(objStream);
case PacketTag.SymmetricEncryptedIntegrityProtected:
return new SymmetricEncIntegrityPacket(objStream);
case PacketTag.ModificationDetectionCode:
return new ModDetectionCodePacket(objStream);
case PacketTag.Experimental1:
case PacketTag.Experimental2:
case PacketTag.Experimental3:
case PacketTag.Experimental4:
return new ExperimentalPacket(tag, objStream);
default:
throw new IOException("unknown packet type encountered: " + tag);
}
}
#if PORTABLE
protected override void Dispose(bool disposing)
{
if (disposing)
{
Platform.Dispose(m_in);
}
base.Dispose(disposing);
}
#else
public override void Close()
{
Platform.Dispose(m_in);
base.Close();
}
#endif
///
/// A stream that overlays our input stream, allowing the user to only read a segment of it.
/// NB: dataLength will be negative if the segment length is in the upper range above 2**31.
///
private class PartialInputStream
: BaseInputStream
{
private BcpgInputStream m_in;
private bool partial;
private int dataLength;
internal PartialInputStream(
BcpgInputStream bcpgIn,
bool partial,
int dataLength)
{
this.m_in = bcpgIn;
this.partial = partial;
this.dataLength = dataLength;
}
public override int ReadByte()
{
do
{
if (dataLength != 0)
{
int ch = m_in.ReadByte();
if (ch < 0)
{
throw new EndOfStreamException("Premature end of stream in PartialInputStream");
}
dataLength--;
return ch;
}
}
while (partial && ReadPartialDataLength() >= 0);
return -1;
}
public override int Read(byte[] buffer, int offset, int count)
{
do
{
if (dataLength != 0)
{
int readLen = (dataLength > count || dataLength < 0) ? count : dataLength;
int len = m_in.Read(buffer, offset, readLen);
if (len < 1)
{
throw new EndOfStreamException("Premature end of stream in PartialInputStream");
}
dataLength -= len;
return len;
}
}
while (partial && ReadPartialDataLength() >= 0);
return 0;
}
private int ReadPartialDataLength()
{
int l = m_in.ReadByte();
if (l < 0)
{
return -1;
}
partial = false;
if (l < 192)
{
dataLength = l;
}
else if (l <= 223)
{
dataLength = ((l - 192) << 8) + (m_in.ReadByte()) + 192;
}
else if (l == 255)
{
dataLength = (m_in.ReadByte() << 24) | (m_in.ReadByte() << 16)
| (m_in.ReadByte() << 8) | m_in.ReadByte();
}
else
{
partial = true;
dataLength = 1 << (l & 0x1f);
}
return 0;
}
}
}
}