OpenCloudOS-Kernel/tools/testing/vsock
Arseniy Krasnov 78c06141f7 vsock/test: fix SEQPACKET message bounds test
[ Upstream commit f0863888f6cfef33e3117dccfe94fa78edf76be4 ]

Tune message length calculation to make this test work on machines
where 'getpagesize()' returns >32KB. Now maximum message length is not
hardcoded (on machines above it was smaller than 'getpagesize()' return
value, thus we get negative value and test fails), but calculated at
runtime and always bigger than 'getpagesize()' result. Reproduced on
aarch64 with 64KB page size.

Fixes: 5c338112e4 ("test/vsock: rework message bounds test")
Signed-off-by: Arseniy Krasnov <avkrasnov@salutedevices.com>
Reported-by: Bogdan Marcynkov <bmarcynk@redhat.com>
Reviewed-by: Stefano Garzarella <sgarzare@redhat.com>
Link: https://lore.kernel.org/r/20231121211642.163474-1-avkrasnov@salutedevices.com
Signed-off-by: Jakub Kicinski <kuba@kernel.org>
Signed-off-by: Sasha Levin <sashal@kernel.org>
2023-12-03 07:33:05 +01:00
..
.gitignore testing/vsock: add vsock_perf to gitignore 2023-03-28 23:55:22 -07:00
Makefile test/vsock: remove vsock_perf executable on `make clean` 2023-08-03 11:04:42 -07:00
README test/vsock: vsock_perf utility 2023-01-12 12:53:54 +01:00
control.c test/vsock: rework message bounds test 2023-01-12 12:53:54 +01:00
control.h test/vsock: rework message bounds test 2023-01-12 12:53:54 +01:00
timeout.c treewide: Replace GPLv2 boilerplate/reference with SPDX - rule 441 2019-06-05 17:37:17 +02:00
timeout.h VSOCK: add SPDX identifiers to vsock tests 2019-12-20 21:09:21 -08:00
util.c test/vsock: rework message bounds test 2023-01-12 12:53:54 +01:00
util.h test/vsock: rework message bounds test 2023-01-12 12:53:54 +01:00
vsock_diag_test.c vsock_diag_test: remove free_sock_stat() call in test_no_sockets 2021-10-15 17:21:34 -07:00
vsock_perf.c test/vsock: vsock_perf utility 2023-01-12 12:53:54 +01:00
vsock_test.c vsock/test: fix SEQPACKET message bounds test 2023-12-03 07:33:05 +01:00

README

AF_VSOCK test suite
-------------------
These tests exercise net/vmw_vsock/ host<->guest sockets for VMware, KVM, and
Hyper-V.

The following tests are available:

  * vsock_test - core AF_VSOCK socket functionality
  * vsock_diag_test - vsock_diag.ko module for listing open sockets

The following prerequisite steps are not automated and must be performed prior
to running tests:

1. Build the kernel, make headers_install, and build these tests.
2. Install the kernel and tests on the host.
3. Install the kernel and tests inside the guest.
4. Boot the guest and ensure that the AF_VSOCK transport is enabled.

Invoke test binaries in both directions as follows:

  # host=server, guest=client
  (host)# $TEST_BINARY --mode=server \
                       --control-port=1234 \
                       --peer-cid=3
  (guest)# $TEST_BINARY --mode=client \
                        --control-host=$HOST_IP \
                        --control-port=1234 \
                        --peer-cid=2

  # host=client, guest=server
  (guest)# $TEST_BINARY --mode=server \
                        --control-port=1234 \
                        --peer-cid=2
  (host)# $TEST_BINARY --mode=client \
                       --control-port=$GUEST_IP \
                       --control-port=1234 \
                       --peer-cid=3

vsock_perf utility
-------------------
'vsock_perf' is a simple tool to measure vsock performance. It works in
sender/receiver modes: sender connect to peer at the specified port and
starts data transmission to the receiver. After data processing is done,
it prints several metrics(see below).

Usage:
# run as sender
# connect to CID 2, port 1234, send 1G of data, tx buf size is 1M
./vsock_perf --sender 2 --port 1234 --bytes 1G --buf-size 1M

Output:
tx performance: A Gbits/s

Output explanation:
A is calculated as "number of bits to send" / "time in tx loop"

# run as receiver
# listen port 1234, rx buf size is 1M, socket buf size is 1G, SO_RCVLOWAT is 64K
./vsock_perf --port 1234 --buf-size 1M --vsk-size 1G --rcvlowat 64K

Output:
rx performance: A Gbits/s
total in 'read()': B sec
POLLIN wakeups: C
average in 'read()': D ns

Output explanation:
A is calculated as "number of received bits" / "time in rx loop".
B is time, spent in 'read()' system call(excluding 'poll()')
C is number of 'poll()' wake ups with POLLIN bit set.
D is B / C, e.g. average amount of time, spent in single 'read()'.