8234541: C1 emits an empty message when it inlines successfully
Summary: Use "inline" as the message when successfull
Reviewed-by: thartmann, mdoerr
Contributed-by: navy.xliu@gmail.com
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* accompanied this code).
*
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*
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package sun.security.ssl;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.security.GeneralSecurityException;
import java.util.ArrayList;
import javax.crypto.BadPaddingException;
import javax.net.ssl.SSLException;
import javax.net.ssl.SSLHandshakeException;
import javax.net.ssl.SSLProtocolException;
import sun.security.ssl.SSLCipher.SSLReadCipher;
/**
* {@code InputRecord} implementation for {@code SSLEngine}.
*/
final class SSLEngineInputRecord extends InputRecord implements SSLRecord {
private boolean formatVerified = false; // SSLv2 ruled out?
// Cache for incomplete handshake messages.
private ByteBuffer handshakeBuffer = null;
SSLEngineInputRecord(HandshakeHash handshakeHash) {
super(handshakeHash, SSLReadCipher.nullTlsReadCipher());
}
@Override
int estimateFragmentSize(int packetSize) {
if (packetSize > 0) {
return readCipher.estimateFragmentSize(packetSize, headerSize);
} else {
return Record.maxDataSize;
}
}
@Override
int bytesInCompletePacket(
ByteBuffer[] srcs, int srcsOffset, int srcsLength) throws IOException {
return bytesInCompletePacket(srcs[srcsOffset]);
}
private int bytesInCompletePacket(ByteBuffer packet) throws SSLException {
/*
* SSLv2 length field is in bytes 0/1
* SSLv3/TLS length field is in bytes 3/4
*/
if (packet.remaining() < 5) {
return -1;
}
int pos = packet.position();
byte byteZero = packet.get(pos);
int len = 0;
/*
* If we have already verified previous packets, we can
* ignore the verifications steps, and jump right to the
* determination. Otherwise, try one last heuristic to
* see if it's SSL/TLS.
*/
if (formatVerified ||
(byteZero == ContentType.HANDSHAKE.id) ||
(byteZero == ContentType.ALERT.id)) {
/*
* Last sanity check that it's not a wild record
*/
byte majorVersion = packet.get(pos + 1);
byte minorVersion = packet.get(pos + 2);
if (!ProtocolVersion.isNegotiable(
majorVersion, minorVersion, false, false)) {
throw new SSLException("Unrecognized record version " +
ProtocolVersion.nameOf(majorVersion, minorVersion) +
" , plaintext connection?");
}
/*
* Reasonably sure this is a V3, disable further checks.
* We can't do the same in the v2 check below, because
* read still needs to parse/handle the v2 clientHello.
*/
formatVerified = true;
/*
* One of the SSLv3/TLS message types.
*/
len = ((packet.get(pos + 3) & 0xFF) << 8) +
(packet.get(pos + 4) & 0xFF) + headerSize;
} else {
/*
* Must be SSLv2 or something unknown.
* Check if it's short (2 bytes) or
* long (3) header.
*
* Internals can warn about unsupported SSLv2
*/
boolean isShort = ((byteZero & 0x80) != 0);
if (isShort &&
((packet.get(pos + 2) == 1) || packet.get(pos + 2) == 4)) {
byte majorVersion = packet.get(pos + 3);
byte minorVersion = packet.get(pos + 4);
if (!ProtocolVersion.isNegotiable(
majorVersion, minorVersion, false, false)) {
throw new SSLException("Unrecognized record version " +
ProtocolVersion.nameOf(majorVersion, minorVersion) +
" , plaintext connection?");
}
/*
* Client or Server Hello
*/
int mask = (isShort ? 0x7F : 0x3F);
len = ((byteZero & mask) << 8) +
(packet.get(pos + 1) & 0xFF) + (isShort ? 2 : 3);
} else {
// Gobblygook!
throw new SSLException(
"Unrecognized SSL message, plaintext connection?");
}
}
return len;
}
@Override
Plaintext[] decode(ByteBuffer[] srcs, int srcsOffset,
int srcsLength) throws IOException, BadPaddingException {
if (srcs == null || srcs.length == 0 || srcsLength == 0) {
return new Plaintext[0];
} else if (srcsLength == 1) {
return decode(srcs[srcsOffset]);
} else {
ByteBuffer packet = extract(srcs,
srcsOffset, srcsLength, SSLRecord.headerSize);
return decode(packet);
}
}
private Plaintext[] decode(ByteBuffer packet)
throws IOException, BadPaddingException {
if (isClosed) {
return null;
}
if (SSLLogger.isOn && SSLLogger.isOn("packet")) {
SSLLogger.fine("Raw read", packet);
}
// The caller should have validated the record.
if (!formatVerified) {
formatVerified = true;
/*
* The first record must either be a handshake record or an
* alert message. If it's not, it is either invalid or an
* SSLv2 message.
*/
int pos = packet.position();
byte byteZero = packet.get(pos);
if (byteZero != ContentType.HANDSHAKE.id &&
byteZero != ContentType.ALERT.id) {
return handleUnknownRecord(packet);
}
}
return decodeInputRecord(packet);
}
private Plaintext[] decodeInputRecord(ByteBuffer packet)
throws IOException, BadPaddingException {
//
// The packet should be a complete record, or more.
//
int srcPos = packet.position();
int srcLim = packet.limit();
byte contentType = packet.get(); // pos: 0
byte majorVersion = packet.get(); // pos: 1
byte minorVersion = packet.get(); // pos: 2
int contentLen = Record.getInt16(packet); // pos: 3, 4
if (SSLLogger.isOn && SSLLogger.isOn("record")) {
SSLLogger.fine(
"READ: " +
ProtocolVersion.nameOf(majorVersion, minorVersion) +
" " + ContentType.nameOf(contentType) + ", length = " +
contentLen);
}
//
// Check for upper bound.
//
// Note: May check packetSize limit in the future.
if (contentLen < 0 || contentLen > maxLargeRecordSize - headerSize) {
throw new SSLProtocolException(
"Bad input record size, TLSCiphertext.length = " + contentLen);
}
//
// Decrypt the fragment
//
int recLim = srcPos + SSLRecord.headerSize + contentLen;
packet.limit(recLim);
packet.position(srcPos + SSLRecord.headerSize);
ByteBuffer fragment;
try {
Plaintext plaintext =
readCipher.decrypt(contentType, packet, null);
fragment = plaintext.fragment;
contentType = plaintext.contentType;
} catch (BadPaddingException bpe) {
throw bpe;
} catch (GeneralSecurityException gse) {
throw (SSLProtocolException)(new SSLProtocolException(
"Unexpected exception")).initCause(gse);
} finally {
// consume a complete record
packet.limit(srcLim);
packet.position(recLim);
}
//
// check for handshake fragment
//
if (contentType != ContentType.HANDSHAKE.id &&
handshakeBuffer != null && handshakeBuffer.hasRemaining()) {
throw new SSLProtocolException(
"Expecting a handshake fragment, but received " +
ContentType.nameOf(contentType));
}
//
// parse handshake messages
//
if (contentType == ContentType.HANDSHAKE.id) {
ByteBuffer handshakeFrag = fragment;
if ((handshakeBuffer != null) &&
(handshakeBuffer.remaining() != 0)) {
ByteBuffer bb = ByteBuffer.wrap(new byte[
handshakeBuffer.remaining() + fragment.remaining()]);
bb.put(handshakeBuffer);
bb.put(fragment);
handshakeFrag = bb.rewind();
handshakeBuffer = null;
}
ArrayList<Plaintext> plaintexts = new ArrayList<>(5);
while (handshakeFrag.hasRemaining()) {
int remaining = handshakeFrag.remaining();
if (remaining < handshakeHeaderSize) {
handshakeBuffer = ByteBuffer.wrap(new byte[remaining]);
handshakeBuffer.put(handshakeFrag);
handshakeBuffer.rewind();
break;
}
handshakeFrag.mark();
// Fail fast for unknown handshake message.
byte handshakeType = handshakeFrag.get();
if (!SSLHandshake.isKnown(handshakeType)) {
throw new SSLProtocolException(
"Unknown handshake type size, Handshake.msg_type = " +
(handshakeType & 0xFF));
}
int handshakeBodyLen = Record.getInt24(handshakeFrag);
handshakeFrag.reset();
int handshakeMessageLen =
handshakeHeaderSize + handshakeBodyLen;
if (remaining < handshakeMessageLen) {
handshakeBuffer = ByteBuffer.wrap(new byte[remaining]);
handshakeBuffer.put(handshakeFrag);
handshakeBuffer.rewind();
break;
} else if (remaining == handshakeMessageLen) {
if (handshakeHash.isHashable(handshakeType)) {
handshakeHash.receive(handshakeFrag);
}
plaintexts.add(
new Plaintext(contentType,
majorVersion, minorVersion, -1, -1L, handshakeFrag)
);
break;
} else {
int fragPos = handshakeFrag.position();
int fragLim = handshakeFrag.limit();
int nextPos = fragPos + handshakeMessageLen;
handshakeFrag.limit(nextPos);
if (handshakeHash.isHashable(handshakeType)) {
handshakeHash.receive(handshakeFrag);
}
plaintexts.add(
new Plaintext(contentType, majorVersion, minorVersion,
-1, -1L, handshakeFrag.slice())
);
handshakeFrag.position(nextPos);
handshakeFrag.limit(fragLim);
}
}
return plaintexts.toArray(new Plaintext[0]);
}
return new Plaintext[] {
new Plaintext(contentType,
majorVersion, minorVersion, -1, -1L, fragment)
};
}
private Plaintext[] handleUnknownRecord(ByteBuffer packet)
throws IOException, BadPaddingException {
//
// The packet should be a complete record.
//
int srcPos = packet.position();
int srcLim = packet.limit();
byte firstByte = packet.get(srcPos);
byte thirdByte = packet.get(srcPos + 2);
// Does it look like a Version 2 client hello (V2ClientHello)?
if (((firstByte & 0x80) != 0) && (thirdByte == 1)) {
/*
* If SSLv2Hello is not enabled, throw an exception.
*/
if (helloVersion != ProtocolVersion.SSL20Hello) {
throw new SSLHandshakeException("SSLv2Hello is not enabled");
}
byte majorVersion = packet.get(srcPos + 3);
byte minorVersion = packet.get(srcPos + 4);
if ((majorVersion == ProtocolVersion.SSL20Hello.major) &&
(minorVersion == ProtocolVersion.SSL20Hello.minor)) {
/*
* Looks like a V2 client hello, but not one saying
* "let's talk SSLv3". So we need to send an SSLv2
* error message, one that's treated as fatal by
* clients (Otherwise we'll hang.)
*/
if (SSLLogger.isOn && SSLLogger.isOn("record")) {
SSLLogger.fine(
"Requested to negotiate unsupported SSLv2!");
}
// hack code, the exception is caught in SSLEngineImpl
// so that SSLv2 error message can be delivered properly.
throw new UnsupportedOperationException( // SSLv2Hello
"Unsupported SSL v2.0 ClientHello");
}
/*
* If we can map this into a V3 ClientHello, read and
* hash the rest of the V2 handshake, turn it into a
* V3 ClientHello message, and pass it up.
*/
packet.position(srcPos + 2); // exclude the header
handshakeHash.receive(packet);
packet.position(srcPos);
ByteBuffer converted = convertToClientHello(packet);
if (SSLLogger.isOn && SSLLogger.isOn("packet")) {
SSLLogger.fine(
"[Converted] ClientHello", converted);
}
return new Plaintext[] {
new Plaintext(ContentType.HANDSHAKE.id,
majorVersion, minorVersion, -1, -1L, converted)
};
} else {
if (((firstByte & 0x80) != 0) && (thirdByte == 4)) {
throw new SSLException("SSL V2.0 servers are not supported.");
}
throw new SSLException("Unsupported or unrecognized SSL message");
}
}
}