- Added new options to allow configuring the maximum number of concurrent connections and upgraded connections.
- `KestrelServerLimits.MaxConcurrentConnections` defaults unlimited.
- `KestrelServerLimits.MaxConcurrentUpgradedConnections` defaults to unlimited.
- Calls to IHttpUpgradeFeature.UpgradeAsync() will throw when the MaxConcurrentUpgradedConnections limit has been reached.
- Kestrel will close new connections without response when MaxConcurrentConnections is reached.
* Invert the dependency between connection adapters and Frame
- Removed PrepareRequest from IAdaptedConnection and instead added
a feature collection to the ConnectionAdapterContext. This allows features to be set
once by the adapter instead of per request. It's the Frame's job to copy features
from the connection level feature collection into the per request feature collection.
- Set the scheme to "https" based on the presence of ITlsConnectionFeature.
- Always set ITlsConnection feature if the HttpsAdaptedConnection doesn't throw during
the handshake
* More FrameConnection refactoring
- This change reverts the change to complete the writer with an
exception on abort because of the number of first chance exceptions
that get thrown.
- This change also moves connection logging into FrameConnection instead
of being split between the ConnectionHandler and FrameConnection.
- Fixed issues with LibuvOutputConsumerTests that leak WriteReq since
cancelled writes no longer end the connection.
* Refactoring and of FrameConnection and Frame
- Building on top of the last refactoring of FrameConnection, this change aims to clean up
the communication between the Frame and FrameConnection by removing some concepts and
being consistent about the communication between Frame and FrameConnection with or without
connection adapters. Changes include:
- Removing ConnectionLifetimeControl, ISocketOutput, StreamSocketOutput
- Moving more initialization of the frame to FrameConnection after the pipes
are setup
- OutputProducer communicates cancellation via the IPipeWriter instead of the output's IPipeReader.
- Frame always communicates via the pipes and that communications flows through the layers to the transport.
This means that each 1/2 of the adapted pipeline handles closing the right side of the transport at the
right time, propagating exceptions as necessary.
- This is how the flow looks now:
-> ->
[transport] [connection adapters] [frame]
<- <-
- Transports need to handle a ConnectionAbortedException on the output as a signal to stop
writing and end the connection. This will no longer try to drain the output but will just stop
writing and end the response immediately.
- Remove frame.Abort when cancellation on Write fails.
- Unify the connection shutdown logic
- Dispose 1/2 initialized connection adapters
#1815
The format:
The trace identifier begins with connection ID and ends with a number that increments with each request per connection.
Example:
Connection ID = xyz
Request 1 = "xyz:00000001"
Request 2 = "xyz:00000002"
...
Request 15 = "xyz:0000000F"
Request 16 = "xyz:00000010"
- This change does a few things:
1. It adds the events we will replace with
pipe events to IConnectionContext and IConnectionInformation to get out of
band notifications about pipe completions.
2. It also implements those callbacks
and exposing slight changes we'll need to make once we have them. The idea is
that we can delete/replace these methods once we have the new pipe API and things
will keep working.
- FIN from the client shouldn't throw
- Forced close from the server should throw
- Properly wrap connection reset exceptions and other exceptions
in IO exceptions
- This gives kestrel control over when the output closes
- Fixed one test that assumed libuv
- Dispose the connection to yield the reader
Fixes#1774
Cesar Blum Silveira
Stephen Halter
Cesar Blum Silveira
Pranav K
Hao Kung
Chris R
Pavel Krymets
Nate McMaster
Nate McMaster
David Fowler
Kiran Challa