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stream: remove kludge masking RST on Windows #35946
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Remove the kludge that masks the TCP RST on Windows on test-https-truncate That RST is very real, originates from the server and should be investigated Fixes: nodejs#35904
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This is here because libuv for some reason call read after eof on windows.
It calls it because it receives a RST from the server. The behavior of the client is correct.
|
OSX does it too |
It is related to the handling of the |
On Windows and OSX, the HTTP server will often make the OS send a TCP RST packet by shutting down the socket before all incoming data has been read. Normally, libuv should take care of this (?), but it does not on Windows and OSX Refs: nodejs#35904
On Windows, do not skip delaying the closesocket when the socket is not shared with another process - I don't see any reason which will allow this optimization Refs: nodejs#35946 Refs: libuv/libuv#3034
@ronag This is the real fix, however this needs to be merged in libuv |
The comment here seems mixed up between send and recv buffers. The default behavior on calling `closesocket` is already to do a graceful shutdown (see https://docs.microsoft.com/en-us/windows/win32/api/winsock/nf-winsock-closesocket with default l_onoff=zero) if it is the last open handle. The expect behavior if there are pending reads in flight is to send an RST packet, notifying the client that the server connection was destroyed before acknowledging the EOF. Refs: libuv#3035 Refs: nodejs/node#35946 Refs: nodejs/node#35904 Fixes: libuv#3034 PR-URL:
This is an attempt to fix some resource management issues on Windows. Win32 sockets has a bug where it sends an RST packet if there is an outstanding overlapped WSARecv call. We can avoid that by being certain to explicitly cancel our read request first. This also removes some conditional cleanup code, since we might as well clean it up eagerly (like unix). Otherwise, it looks to me like these might cause the accept callbacks to be run after the endgame had freed the memory for them. The comment here seems mixed up between send and recv buffers. The default behavior on calling `closesocket` is already to do a graceful shutdown (see https://docs.microsoft.com/en-us/windows/win32/api/winsock/nf-winsock-closesocket with default l_onoff=zero) if it is the last open handle. The expect behavior if there are pending reads in flight is to send an RST packet, notifying the client that the server connection was destroyed before acknowledging the EOF. Refs: libuv#3035 Refs: nodejs/node#35946 Refs: nodejs/node#35904 Fixes: libuv#3034 PR-URL:
This is an attempt to fix some resource management issues on Windows. Win32 sockets have an issue where it sends an RST packet if there is an outstanding overlapped calls. We can avoid that by being certain to explicitly cancel our read and write requests first. This also removes some conditional cleanup code, since we might as well clean it up eagerly (like unix). Otherwise, it looks to me like these might cause the accept callbacks to be run after the endgame had freed the memory for them. The comment here seems mixed up between send and recv buffers. The default behavior on calling `closesocket` is already to do a graceful shutdown (see https://docs.microsoft.com/en-us/windows/win32/api/winsock/nf-winsock-closesocket with default l_onoff=zero) if it is the last open handle. The expected behavior if there are pending reads in flight is to send an RST packet, notifying the client that the server connection was destroyed before acknowledging the EOF. Refs: libuv#3035 Refs: nodejs/node#35946 Refs: nodejs/node#35904 Fixes: libuv#3034 PR-URL: libuv#3036
RFC 5246 section-7.2.1 requires that the implementation must immediately stop using the stream, as it is no longer TLS-encrypted. The stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do remove ourselves as a listener. The section also states that the application must destroy the stream immediately (discarding any pending writes, and sending a close_notify response back), but we leave that to the upper layer of the application here, as it should be sufficient to permit standards compliant usage just to be ignoring read events. Fixes: nodejs/node#35904 Closes: nodejs/node#35946 Co-authored-by: Momtchil Momtchev <[email protected]>
@vtjnash has a complete solution to this problem in a separate PR |
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in nodejs#35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. Refs: libuv/libuv#3036 Refs: nodejs#35904 Closes: nodejs#35946 Co-authored-by: Momtchil Momtchev <[email protected]>
This is an attempt to fix some resource management issues on Windows. Win32 sockets have an issue where it sends an RST packet if there is an outstanding overlapped calls. We can avoid that by being certain to explicitly cancel our read and write requests first. This also removes some conditional cleanup code, since we might as well clean it up eagerly (like unix). Otherwise, it looks to me like these might cause the accept callbacks to be run after the endgame had freed the memory for them. The comment here seems mixed up between send and recv buffers. The default behavior on calling `closesocket` is already to do a graceful shutdown (see https://docs.microsoft.com/en-us/windows/win32/api/winsock/nf-winsock-closesocket with default l_onoff=zero) if it is the last open handle. The expected behavior if there are pending reads in flight is to send an RST packet, notifying the client that the server connection was destroyed before acknowledging the EOF. Additionally, we need to cancel writes explicitly: we need to notify Win32 that it is okay to cancel these writes (so it doesn't also generate an RST packet on the wire). Refs: #3035 Refs: nodejs/node#35946 Refs: nodejs/node#35904 Fixes: #3034 PR-URL: #3036 Reviewed-By: Santiago Gimeno <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in nodejs#35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. Refs: libuv/libuv#3036 Refs: nodejs#35904 Closes: nodejs#35946 Co-authored-by: Momtchil Momtchev <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in #35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: #36111 Fixes: #35946 Refs: libuv/libuv#3036 Refs: #35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in #35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: #36111 Fixes: #35946 Refs: libuv/libuv#3036 Refs: #35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in #35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: #36111 Fixes: #35946 Refs: libuv/libuv#3036 Refs: #35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in #35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: #36111 Fixes: #35946 Refs: libuv/libuv#3036 Refs: #35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in #35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: #36111 Fixes: #35946 Refs: libuv/libuv#3036 Refs: #35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in nodejs#35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: nodejs#36111 Fixes: nodejs#35946 Refs: libuv/libuv#3036 Refs: nodejs#35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
RFC 5246 section-7.2.1 requires that the implementation must immediately stop reading from the stream, as it is no longer TLS-encrypted. The underlying stream is permitted to still pump events (and errors) to other users, but those are now unencrypted, so we should not process them here. But therefore, we do not want to stop the underlying stream, as there could be another user of it, but we do need to remove ourselves as a listener. Per TLS v1.2, we should have also destroy the TLS state entirely here (including the writing side), but this was revised in TLS v1.3 to permit the stream to continue to flush output. There appears to be some inconsistencies in the way nodejs handles ownership of the underlying stream, with `TLS.close()` on the write side also calling shutdown on the underlying stream (thus assuming other users of the underlying stream are not permitted), while receiving EOF on the read side leaves the underlying channel open. These inconsistencies are left for a later person to resolve, if the extra functionality is needed (as described in #35904). The current goal here is to the fix the occasional CI exceptions depending on the timing of these kernel messages through the TCP stack. PR-URL: #36111 Fixes: #35946 Refs: libuv/libuv#3036 Refs: #35904 Co-authored-by: Momtchil Momtchev <[email protected]> Reviewed-By: Robert Nagy <[email protected]> Reviewed-By: Matteo Collina <[email protected]> Reviewed-By: Luigi Pinca <[email protected]>
This is an attempt to fix some resource management issues on Windows. Win32 sockets have an issue where it sends an RST packet if there is an outstanding overlapped calls. We can avoid that by being certain to explicitly cancel our read and write requests first. This also removes some conditional cleanup code, since we might as well clean it up eagerly (like unix). Otherwise, it looks to me like these might cause the accept callbacks to be run after the endgame had freed the memory for them. The comment here seems mixed up between send and recv buffers. The default behavior on calling `closesocket` is already to do a graceful shutdown (see https://docs.microsoft.com/en-us/windows/win32/api/winsock/nf-winsock-closesocket with default l_onoff=zero) if it is the last open handle. The expected behavior if there are pending reads in flight is to send an RST packet, notifying the client that the server connection was destroyed before acknowledging the EOF. Additionally, we need to cancel writes explicitly: we need to notify Win32 that it is okay to cancel these writes (so it doesn't also generate an RST packet on the wire). Refs: libuv#3035 Refs: nodejs/node#35946 Refs: nodejs/node#35904 Fixes: libuv#3034 PR-URL: libuv#3036 Reviewed-By: Santiago Gimeno <[email protected]>
Remove the kludge that masks the TCP RST on
Windows on test-https-truncate
That RST is very real, originates from the server
and should be investigated
Fixes: #35904
Checklist
make -j4 test
(UNIX), orvcbuild test
(Windows) passes