Motivation:
We should limit the size of the allocated outbound buffer to MAX_ENCRYPTED_PACKET_LENGTH to ensure we not cause an OOME when the user tries to encrypt a very big buffer.
Modifications:
Limit the size of the allocated outbound buffer to MAX_ENCRYPTED_PACKET_LENGTH
Result:
Fixes [#6564]
Motivation:
The widely used SSL Implementation, OpenSSL, already supports Heartbeat Extension; both sending and responding to Heartbeat Messages. But, since Netty is not recognizing that extension as valid packet, peers won't be able to use this extension.
Modification:
Update SslUtils.java to recognize Heartbeat Extension as valid tls packet.
Result:
With this change, softwares using Netty + OpenSSL will be able to respond for TLS Heartbeat requests (actually taken care by OpenSSL - no need of any extra implementation from Clients)
Motivation:
ChunkedWriteHandler queues written messages and actually writes them
when flush is called. In its doFlush method, it needs to flush after
each chunk is written to preserve memory. However, non-chunked messages
(those that aren't of type ChunkedInput) are treated in the same way,
which means that flush is called after each message is written.
Modifications:
Moved the call to flush() inside the if block that tests if the message
is an instance of ChunkedInput. To ensure flush is called at least once,
the existing boolean flushed is checked at the end of doFlush. This
check was previously in ChunkedWriteHandler.flush(), but wasn't checked in
other invocations of doFlush, e.g. in channelInactive.
Result:
When this handler is present in a pipeline, writing a series
of non-chunked messages will be flushed as the developer intended.
Motivation:
Some pipelines require support for both SSL and non-SSL messaging.
Modifications:
Add utility decoder to support both SSL and non-SSL handlers based on the initial message.
Result:
Less boilerplate code to write for developers.
Motivation:
5e64985089 introduced support for the KeyManagerFactory while using OpenSSL. This same commit also introduced 2 calls to SSLContext.setVerify when 1 should be sufficient.
Modifications:
- Remove the duplicate call to SSLContext.setVerify
Result:
Less duplicate code in ReferenceCountedOpenSslServerContext.
Motivation:
SslContext and SslContextBuilder do not support a way to specify the desired TLS protocols. This currently requires that the user extracts the SSLEngine once a context is built and manually call SSLEngine#setEnabledProtocols(String[]). Something this critical should be supported at the SslContext level.
Modifications:
- SslContextBuilder should accept a list of protocols to configure for each SslEngine
Result:
SslContext consistently sets the supported TLS/SSL protocols.
Motivaiton:
It is possible that if the OpenSSL library supports the interfaces required to use the KeyManagerFactory, but we fail to get the io.netty.handler.ssl.openssl.useKeyManagerFactory system property (or this property is set to false) that SSLEngineTest based unit tests which use a KeyManagerFactory will fail.
Modifications:
- We should check if the OpenSSL library supports the KeyManagerFactory interfaces and if the system property allows them to be used in OpenSslEngineTests
Result:
Unit tests which use OpenSSL and KeyManagerFactory will be skipped instead of failing.
Motivation:
When we do a wrap operation we calculate the maximum size of the destination buffer ahead of time, and return a BUFFER_OVERFLOW exception if the destination buffer is not big enough. However if there is a CompositeByteBuf the wrap operation may consist of multiple ByteBuffers and each incurs its own overhead during the encryption. We currently don't account for the overhead required for encryption if there are multiple ByteBuffers and we assume the overhead will only apply once to the entire input size. If there is not enough room to write an entire encrypted packed into the BIO SSL_write will return -1 despite having actually written content to the BIO. We then attempt to retry the write with a bigger buffer, but because SSL_write is stateful the remaining bytes from the previous operation are put into the BIO. This results in sending the second half of the encrypted data being sent to the peer which is not of proper format and the peer will be confused and ultimately not get the expected data (which may result in a fatal error). In this case because SSL_write returns -1 we have no way to know how many bytes were actually consumed and so the best we can do is ensure that we always allocate a destination buffer with enough space so we are guaranteed to complete the write operation synchronously.
Modifications:
- SslHandler#allocateNetBuf should take into account how many ByteBuffers will be wrapped and apply the encryption overhead for each
- Include the TLS header length in the overhead computation
Result:
Fixes https://github.com/netty/netty/issues/6481
Motivation:
There are numerous usages of internalNioBuffer which hard code 0 for the index when the intention was to use the readerIndex().
Modifications:
- Remove hard coded 0 for the index and use readerIndex()
Result:
We are less susceptible to using the wrong index, and don't make assumptions about the ByteBufAllocator.
Motivation:
ReferenceCountedOpenSslEngine#wrap must have a direct buffer for a destination to interact with JNI. If the user doesn't supply a direct buffer we internally allocate one to write the results of wrap into. After this operation completes we copy the contents of the direct buffer into the heap buffer and use internalNioBuffer to get the content. However we pass in the end index but the internalNioBuffer expects a length.
Modifications:
- pass the length instead of end index to internalNioBuffer
Result:
ReferenceCountedOpenSslEngine#wrap will copy the correct amount of data into the destination buffer when heap buffers are wrapped.
Motivation:
SslContextBuilder sill state the KeyManagerFactory and TrustManagerFactory are only supported when SslProvider.JDK is used. This is not correct anymore.
Modifications:
Fix javadocs.
Result:
Correct javadocs.
Motivation:
SslContext#newHandler currently creates underlying SSLEngine without
enabling HTTPS endpointIdentificationAlgorithm. This behavior in
unsecured when used on the client side.
We can’t harden the behavior for now, as it would break existing
behavior, for example tests using self signed certificates.
Proper hardening will happen in a future major version when we can
break behavior.
Modifications:
Add javadoc warnings with code snippets.
Result:
Existing unsafe behavior and workaround documented.
Motivation:
Normally if a decoder produces an exception its wrapped with DecodingException. This is not the cause for NotSslRecordException in SslHandler and SniHandler.
Modifications:
Just throw the NotSslRecordException exception for decode(...) and so ensure its correctly wrapped in a DecodingException before its passed through the pipeline.
Result:
Consist behavior.
Motivation:
To ensure that all bytes queued in OpenSSL/tcnative internal buffers we invoke SSL_shutdown again to stimulate OpenSSL to write any pending bytes. If this call fails we may call SSL_free and the associated shutdown method to free resources. At this time we may attempt to use the networkBIO which has already been freed and get a NPE.
Modifications:
- Don't call bioLengthByteBuffer(networkBIO) if we have called shutdown() in ReferenceCountedOpenSslEngine
Result:
Fixes https://github.com/netty/netty/issues/6466
Motivation:
Realization of `AbstractTrafficShapingHandler.userDefinedWritabilityIndex()` has references to subclasses.
In addition, one of the subclasses overriding it, but the other does not.
Modifications:
Add overriding to the second subclass. Remove references to subclasses from parent class.
Result:
More consistent and clean code (OOP-stylish).
Motivation:
325cc84a2e introduced new tests which uses classes only provided by Java8+. We need to ensure we only try to load classes needed for these when we run the tests on Java8+ so we still can run the testsuite with Java7.
Modifications:
Add extra class which only gets loaded when Java8+ is used and move code there.
Result:
No more class-loader issue when running tests with Java7.
Motivation:
We not support all SSLParameters settings so we should better throw if a user try to use them.
Modifications:
- Check for unsupported parameters
- Add unit test
Result:
Less surprising behavior.
Motivation:
d8e6fbb9c3 attempted to account for the JDK not throwing the expected SSLHandshakeException by allowing a SSLException to also pass the test. However in some situations the SSLException will not be the top level exception and the Throwable must be unwrapped to see if the root cause is an SSLException.
Modifications:
- Unwrap exceptions thrown by the JDK's SSLEngine to check for SSLException.
Result:
SSLEngineTest (and derived classes) are more reliable.
Motivation:
As netty-tcnative can be build against different native libraries and versions we should log the used one.
Modifications:
Log the used native library after netty-tcnative was loaded.
Result:
Easier to understand what native SSL library was used.
Motivation:
OpenSSL doesn't automatically verify hostnames and requires extract method calls to enable this feature [1]. We should allow this to be configured.
Modifications:
- SSLParamaters#getEndpointIdentificationAlgorithm() should be respected and configured via tcnative interfaces.
Result:
OpenSslEngine respects hostname verification.
[1] https://wiki.openssl.org/index.php/Hostname_validation
Motivation:
ThreadLocalInsecureRandom still referenced ThreadLocalRandom directly, but shouldn't.
Modifications:
ThreadLocalInsecureRandom should reference PlatformDependent#threadLocalRandom() in comments
Result:
Less usage of internal.ThreadLocalRandom.
Motivation:
We have our own ThreadLocalRandom implementation to support older JDKs . That said we should prefer the JDK provided when running on JDK >= 7
Modification:
Using ThreadLocalRandom implementation of the JDK when possible.
Result:
Make use of JDK implementations when possible.
Motivation:
Commit cd3bf3df58 made netty observe the latest version of netty-tcnative which changed the way how static fields are computed for various SSL.* values. This lead to have SSL_OP_NO_SSLv2 become 0 when using boringssl as boringssl not supports SSLv2 at all. In the logic of ReferenceCountedOpenSslEngine.getEnabledProtocols() we not expect to have a zero value and so our logic fails.
Modifications:
Check we actual support the protocol before return it as enabled.
Result:
SSLEngineTest.testEnablingAnAlreadyDisabledSslProtocol passes again with boringssl
Motivation:
If an event occurs which generates non-application data (shutdown, handshake failure, alert generation, etc...) and the non-application buffer in the ByteBuffer BIO is full (or sufficiently small) we may not propagate all data to our peer before tearing down the socket.
Modifications:
- when wrap() detects the outbound is closed, but there is more data pending in the non-application buffers, we must also check if OpenSSL will generate more data from calling SSL_shutdown again
- when wrap() detects a handshakeExcpetion during failure we should check if OpenSSL has any pending data (in addition to the non-application buff) before throwing the handshake exception
Result:
OpenSslEngine more reliably transmits data to the peer before closing the socket.
Motivation:
JdkOpenSslEngineInteroptTest.mySetupMutualAuthServerIsValidClientException(...) delegated to the wrong super method.
Modifications:
Fix delegate
Result:
Correct test-code.
Motivation:
Some version of openssl dont support the needed APIs to use a KeyManagerFactory. In this case we should skip the tests.
Modifications:
- Use assumeTrue(...) to skip tests that need a KeyManagerFactory and its not supported.
Result:
Tests pass on all openssl versions we support.
Motivation:
tcnative was moved into an internal package.
Modifications:
Update package for tcnative imports.
Result:
Use correct package names for tcnative.
Motivation:
We need to pass special arguments to run with jdk9 as otherwise some tests will not be able to run.
Modifications:
Allow to define extra arguments when running with jdk9
Result:
Tests pass with jdk9
Motivation:
If the OpenSslEngine has bytes pending in the non-application buffer and also generates wrapped data during the handshake then the handshake data will be missed. This will lead to a handshake stall and eventually timeout. This can occur if the non-application buffer becomes full due to a large certificate/hello message.
Modification:
- ReferenceCountedOpenSslEngine should not assume if no data is flushed from the non-application buffer that no data will be produced by the handshake.
Result:
New unit tests with larger certificate chains don't fail.
Motivation:
OpenSslEngineTest has unused imports and SSLEngineTest uses a fixed port which was used for debugging.
Modifications:
- Remove unused imports
- Use ephemeral port
Result:
Cleaner test code.
Modifications:
tcnative made some fixes and API changes related to setVerify. We should absorb these changes in Netty.
Modifications:
- Use tcnatives updated APIs
- Add unit tests to demonstrate correct behavior
Result:
Updated to latest tcnative code and more unit tests to verify expected behavior.
Motivation:
tcnative has updated how constants are defined and removed some constants which are either obsolete or now set directly in tcnative.
Modifications:
- update to compile against tcnative changes.
Result:
Netty compiles with tcnative options changes.
Motivation:
We should remove the restriction to only allow to call unwrap with a ByteBuffer[] whose cumulative length exceeds MAX_ENCRYPTED_PACKET_LENGTH.
Modifications:
Remove guard.
Result:
Fixes [#6335].
Motivation:
There were some warnings for the code in the ssl package.
Modifications:
- Remove not needed else blocks
- Use correctly base class for static usage
- Replace String.length() == 0 with String.isEmpty()
- Remove unused code
Result:
Less warnings and cleaner code.
Motivation:
CipherSuiteConverter may throw a NPE if a cipher suite from OpenSSL does not match the precomputed regular expression for OpenSSL ciphers. This method shouldn't throw and instead just return null.
Modifications:
- if cacheFromOpenSsl(..) fails the conversion toJava should return null
Result:
Fixes https://github.com/netty/netty/issues/6336.
Motivation:
Currently Netty utilizes BIO_new_bio_pair so we can control all FD lifetime and event notification but delegates to OpenSSL for encryption/decryption. The current implementation sets up a pair of BIO buffers to read/write encrypted/plaintext data. This approach requires copying of data from Java ByteBuffers to native memory BIO buffers, and also requires both BIO buffers to be sufficiently large to hold application data. If direct ByteBuffers are used we can avoid coyping to/from the intermediate BIO buffer and just read/write directly from the direct ByteBuffer memory. We still need an internal buffer because OpenSSL may generate write data as a result of read calls (e.g. handshake, alerts, renegotiation, etc..), but this buffer doesn't have to be be large enough to hold application data.
Modifications:
- Take advantage of the new ByteBuffer based BIO provided by netty-tcnative instead of using BIO_read and BIO_write.
Result:
Less copying and lower memory footprint requirement per TLS connection.
Motivation:
The SSLEngine wrap and unwrap methods can be called in a way that has no side effects, but this could involve costly validation and allocation. The SslHandler should avoid calling into these methods if possible.
Modifications:
- wrapNonAppData should provide additional status which can be used by wrap to breakout early if possible
Result:
SslHandler invokes the SSLEngine less.
Motivation:
We used various mocking frameworks. We should only use one...
Modifications:
Make usage of mocking framework consistent by only using Mockito.
Result:
Less dependencies and more consistent mocking usage.
Motiviation:
We should ensure we not need any extra wrap / unwrap calls during handshake once the handshake was signaled as finished
Modifications:
More strict testing
Result:
Better testing of handshake behaviour
Motivation:
Previous versions of netty-tcnative used the org.apache.tomcat namespace which could lead to problems when a user tried to use tomcat and netty in the same app.
Modifications:
Use netty-tcnative which now uses a different namespace and adjust code to some API changes.
Result:
Its now possible to use netty-tcnative even when running together with tomcat.
