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PiperOrigin-RevId: 326733912
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This is a preparatory commit for a larger commit working on
ICMP generation in error cases.
This is removal of technical debt and cleanup in the gvisor code
as part of gvisor issue 2211.
Updates #2211.
PiperOrigin-RevId: 326615389
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PiperOrigin-RevId: 325280924
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PiperOrigin-RevId: 325269275
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Test:
- stack_test.TestJoinLeaveMulticastOnNICEnableDisable
- integration_test.TestIncomingMulticastAndBroadcast
PiperOrigin-RevId: 325185259
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This required minor fixes to the bazel wrapper. The "dut_platform" is
also changed to "native" to line-up with the system call tests and
remove the hard-coded "linux" and "netstack" strings.
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PiperOrigin-RevId: 323773771
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PiperOrigin-RevId: 323553832
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Storing *testing.T on test helper structs is problematic when
subtests are used, because it is possible for nested tests to call
Fatal on parent test, which incorrect terminates the parent test.
For example
func TestOuter(t *testing.T) {
dut := NewDUT(t)
t.Run("first test", func(t *testing.T) {
dut.FallibleCall()
})
t.Run("second test", func(t *testing.T) {
dut.FallibleCall()
}
}
In the example above, assuming `FallibleCall` calls `t.Fatal` on the
`t` it holds, if `dut.FallibleCall` fails in "first test", it will
call `Fatal` on the parent `t`, quitting `TestOuter`. This is not a
behavior we want.
PiperOrigin-RevId: 323350241
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Adds profiling with `runsc debug` or pprof to dockerutil. All
targets using dockerutil should now be able to use profiling.
In addition, modifies existing benchmarks to use profiling.
PiperOrigin-RevId: 323298634
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Previously, ICMP destination unreachable datagrams were ignored by TCP
endpoints. This caused connect to hang when an intermediate router
couldn't find a route to the host.
This manifested as a Kokoro error when Docker IPv6 was enabled. The Ruby
image test would try to install the sinatra gem and hang indefinitely
attempting to use an IPv6 address.
Fixes #3079.
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PiperOrigin-RevId: 322265513
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DUT logs will include logs from the posix server and gVisor, which
provides a way to instrument the DUT during test failures.
PiperOrigin-RevId: 321816647
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PiperOrigin-RevId: 321790802
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A packetimpact test for: "A node must be able to accept a fragmented packet
that, after reassembly, is as large as 1500 octets."
PiperOrigin-RevId: 321210729
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Also ironed out all the bugs found on the IPv6 code path that affects socket
bind, send and receive.
PiperOrigin-RevId: 321202653
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PiperOrigin-RevId: 321053634
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PiperOrigin-RevId: 321000340
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These logs include flags passed to packetimpact tests (the Go tests), and test
failure messages.
PiperOrigin-RevId: 320989521
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Moves following to new dockerutil API:
- //test/e2e:integration_test
- //test/image:image_test
- //test/iptables:iptables_test
- //test/root:root_test
- //test/packetimpact:packetimpact_test
PiperOrigin-RevId: 320253118
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RFC 6864 imposes various restrictions on the uniqueness of the IPv4
Identification field for non-atomic datagrams, defined as an IP datagram that
either can be fragmented (DF=0) or is already a fragment (MF=1 or positive
fragment offset). In order to be compliant, the ID field is assigned for all
non-atomic datagrams.
Add a TCP unit test that induces retransmissions and checks that the IPv4
ID field is unique every time. Add basic handling of the IP_MTU_DISCOVER
socket option so that the option can be used to disable PMTU discovery,
effectively setting DF=0. Attempting to set the sockopt to anything other
than disabled will fail because PMTU discovery is currently not implemented,
and the default behavior matches that of disabled.
PiperOrigin-RevId: 320081842
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Currently this test produces an error resembling
tcp_zero_window_probe_retransmit_test.go:92: zero probe came sooner interval 3200179405 probe 4
which is approximately useless.
PiperOrigin-RevId: 319572263
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Before this change, running packetimpact tests produces:
parameter 'direct' must contain a list of elements, and may no longer
accept a depset. The deprecated behavior may be temporarily re-enabled
by setting --incompatible_disable_depset_inputs=false
The positional parameter to depset has been changed to mean `direct`
rather than its previous meaning of `items`. The documentation[0]
explains:
A positional parameter distinct from other parameters for legacy
support.
If --incompatible_disable_depset_items is false, this parameter
serves as the value of items.
If --incompatible_disable_depset_items is true, this parameter
serves as the value of direct.
See the documentation for these parameters for more details.
[0] https://docs.bazel.build/versions/master/skylark/lib/globals.html
PiperOrigin-RevId: 319555138
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The application can choose to initiate a non-blocking connect and
later block on a read, when the endpoint is still in SYN-SENT state.
PiperOrigin-RevId: 319311016
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a) When GSO is in use we should not cap the segment to maxPayloadSize in
sender.maybeSendSegment as the GSO logic will cap the segment to the correct
size. Without this the host GSO is not used as we end up breaking up large
segments into small MSS sized segments before writing the packets to the
host.
b) The check to not split a segment due to it not fitting in the receiver window
when there are pending segments is incorrect as segments in writeList can be
really large as we just take the write call's buffer size and create a single
large segment. So a write of say 128KB will just be 1 segment in the
writeList.
The linux code checks if 1 MSS sized segments fits in the receiver's window
and if not then does not split the current segment. gVisor's check was
incorrect that it was checking if the whole segment which could be >>> 1 MSS
would fit in the receiver's window. This was causing us to prematurely stop
sending and falling back to retransmit timer/probe from the other end to send
data.
This was seen when running HTTPD benchmarks where @ HEAD when sending large
files the benchmark was taking forever to run.
The tcp_splitseg_mss_test.go is being deleted as the test as written doesn't
test what is intended correctly. This is because GSO is enabled by default and
the reason the MSS+1 sized segment is sent is because GSO is in use. A proper
test will require disabling GSO on linux and netstack which is going to take a
bit of work in packetimpact to do it correctly.
Separately a new test probably should be written that verifies that a segment >
availableWindow is not split if the availableWindow is < 1 MSS.
Fixes #3107
PiperOrigin-RevId: 319172089
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The Option Type identifiers are internally encoded such that their
highest-order two bits specify the action that must be taken if the
processing IPv6 node does not recognize the Option Type:
00 - skip over this option and continue processing the header.
01 - discard the packet.
10 - discard the packet and, regardless of whether or not the
packet's Destination Address was a multicast address, send an
ICMP Parameter Problem, Code 2, message to the packet's
Source Address, pointing to the unrecognized Option Type.
11 - discard the packet and, only if the packet's Destination
Address was not a multicast address, send an ICMP Parameter
Problem, Code 2, message to the packet's Source Address,
pointing to the unrecognized Option Type.
PiperOrigin-RevId: 318566613
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- IPv6 HopByHop Options Extension Header
- IPv6 Destination Options Extension Header
PiperOrigin-RevId: 318551425
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Separate mount configuration from links and move it to
RunOpts, like the other options.
PiperOrigin-RevId: 317010158
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In passive open cases, we transition to Established state after
initializing endpoint's sender and receiver. With this we lose out
on any updates coming from the ACK that completes the handshake.
This change ensures that we uniformly transition to Established in all
cases and does minor cleanups.
Fixes #2938
PiperOrigin-RevId: 316567014
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Moved the function for generating a payload of random byets of a specified
length into the testbench package so that it's availbale for all tests to use.
Added a test case to the IPv4 ID uniqueness test which uses a payload length
of 512 bytes. This test case passes for gVisor currently, whereas the test case
with a small payload of 11 bytes fails because gVisor only assigns the ID field
if the IP payload is sufficiently large.
PiperOrigin-RevId: 316185097
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PiperOrigin-RevId: 316027588
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Tests the effect of reordering on retransmission and window size.
Test covers the expected behavior of both Linux and netstack, however, netstack
does not behave as expected. Further, the current expected behavior of netstack
is not ideal and should be adjusted in the future.
PiperOrigin-RevId: 316015184
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Reorganize the Connection types such that the defined types no longer expose
the lower-level functions SendFrame and CreateFrame. These methods are still
exported on the underlying Connection type, and thus can be accessed via a
type-cast. In future, defined types should have one or more type-safe versions
of the send() method on Connection, e.g. UDPIPv4 has Send() which allows the UDP
header to be overridden and SendIP() which allows both the IPv4 and UDP headers
to be modified.
testbench.Connection gets a SendFrameStateless method which sends frames
without updating the state of any of the layers. This should be used when
sending out-of-band control messages such as ICMP messages, as using the
normal Send method can result in errors when attempting to update the TCP
state using an ICMP packet.
Also remove the localAddr field of testbench.Connection and instead compute
it on the fly as needed for UDPIPv4 and TCPIPv4.
PiperOrigin-RevId: 315969714
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- Always split segments larger than MSS.
Currently, we base the segment split decision as a function of the
send congestion window and MSS, which could be greater than the MSS
advertised by remote.
- While splitting segments, ensure the PSH flag is reset when there
are segments that are queued to be sent.
- With TCP_CORK, hold up segments up until MSS. Fix a bug in computing
available send space before attempting to coalesce segments.
Fixes #2832
PiperOrigin-RevId: 314802928
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If the entire segment cannot be accommodated in the receiver advertised
window and if there are still unacknowledged pending segments, skip
splitting the segment. The segment transmit would get retried by the
retransmit handler.
PiperOrigin-RevId: 314538523
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PiperOrigin-RevId: 314157710
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PiperOrigin-RevId: 313878910
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RST handling is broken when the TCP state transitions
from SYN-SENT to SYN-RCVD in case of simultaneous open.
An incoming RST should trigger cleanup of the endpoint.
RFC793, section 3.9, page 70.
Fixes #2814
PiperOrigin-RevId: 313828777
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PiperOrigin-RevId: 313821986
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This makes debugging packetimpact tests much easier.
PiperOrigin-RevId: 313662654
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PiperOrigin-RevId: 313300554
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If there is a Timestamps option in the arriving segment and SEG.TSval
< TS.Recent and if TS.Recent is valid, then treat the arriving segment
as not acceptable: Send an acknowledgement in reply as specified in
RFC-793 page 69 and drop the segment.
https://tools.ietf.org/html/rfc1323#page-19
PiperOrigin-RevId: 312590678
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PiperOrigin-RevId: 312559963
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PiperOrigin-RevId: 312119730
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PiperOrigin-RevId: 311645222
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As per RFC 1122 and Linux retransmit timeout handling:
- The segment retransmit timeout needs to exponentially increase and
cap at a predefined value.
- TCP connection needs to timeout after a predefined number of
segment retransmissions.
- TCP connection should not timeout when the retranmission timeout
exceeds MaxRTO, predefined upper bound.
Fixes #2673
PiperOrigin-RevId: 311463961
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PiperOrigin-RevId: 311424257
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PiperOrigin-RevId: 311285868
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PiperOrigin-RevId: 311011004
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PiperOrigin-RevId: 310949277
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