t/t0052-simple-ipc.sh - jrn/git - Git at Google

 #!/bin/sh

 test_description='simple command server'

 TEST_PASSES_SANITIZE_LEAK=true
 . ./test-lib.sh

 test-tool simple-ipc SUPPORTS_SIMPLE_IPC || {
 	skip_all='simple IPC not supported on this platform'
 	test_done
 }

 stop_simple_IPC_server () {
 	test-tool simple-ipc stop-daemon
 }

 test_expect_success 'start simple command server' '
 	test_atexit stop_simple_IPC_server &&
 	test-tool simple-ipc start-daemon --threads=8 &&
 	test-tool simple-ipc is-active
 '

 test_expect_success 'simple command server' '
 	test-tool simple-ipc send --token=ping >actual &&
 	echo pong >expect &&
 	test_cmp expect actual
 '

 test_expect_success 'servers cannot share the same path' '
 	test_must_fail test-tool simple-ipc run-daemon &&
 	test-tool simple-ipc is-active
 '

 test_expect_success 'big response' '
 	test-tool simple-ipc send --token=big >actual &&
 	test_line_count -ge 10000 actual &&
 	grep -q "big: [0]*9999\$" actual
 '

 test_expect_success 'chunk response' '
 	test-tool simple-ipc send --token=chunk >actual &&
 	test_line_count -ge 10000 actual &&
 	grep -q "big: [0]*9999\$" actual
 '

 test_expect_success 'slow response' '
 	test-tool simple-ipc send --token=slow >actual &&
 	test_line_count -ge 100 actual &&
 	grep -q "big: [0]*99\$" actual
 '

 # Send an IPC with n=100,000 bytes of ballast.  This should be large enough
 # to force both the kernel and the pkt-line layer to chunk the message to the
 # daemon and for the daemon to receive it in chunks.
 #
 test_expect_success 'sendbytes' '
 	test-tool simple-ipc sendbytes --bytecount=100000 --byte=A >actual &&
 	grep "sent:A00100000 rcvd:A00100000" actual
 '

 # Start a series of <threads> client threads that each make <batchsize>
 # IPC requests to the server.  Each (<threads> * <batchsize>) request
 # will open a new connection to the server and randomly bind to a server
 # thread.  Each client thread exits after completing its batch.  So the
 # total number of live client threads will be smaller than the total.
 # Each request will send a message containing at least <bytecount> bytes
 # of ballast.  (Responses are small.)
 #
 # The purpose here is to test threading in the server and responding to
 # many concurrent client requests (regardless of whether they come from
 # 1 client process or many).  And to test that the server side of the
 # named pipe/socket is stable.  (On Windows this means that the server
 # pipe is properly recycled.)
 #
 # On Windows it also lets us adjust the connection timeout in the
 # `ipc_client_send_command()`.
 #
 # Note it is easy to drive the system into failure by requesting an
 # insane number of threads on client or server and/or increasing the
 # per-thread batchsize or the per-request bytecount (ballast).
 # On Windows these failures look like "pipe is busy" errors.
 # So I've chosen fairly conservative values for now.
 #
 # We expect output of the form "sent:<letter><length> ..."
 # With terms (7, 19, 13) we expect:
 #   <letter> in [A-G]
 #   <length> in [19+0 .. 19+(13-1)]
 # and (7 * 13) successful responses.
 #
 test_expect_success 'stress test threads' '
 	test-tool simple-ipc multiple \
 		--threads=7 \
 		--bytecount=19 \
 		--batchsize=13 \
 		>actual &&
 	test_line_count = 92 actual &&
 	grep "good 91" actual &&
 	grep "sent:A" <actual >actual_a &&
 	cat >expect_a <<-EOF &&
 		sent:A00000019 rcvd:A00000019
 		sent:A00000020 rcvd:A00000020
 		sent:A00000021 rcvd:A00000021
 		sent:A00000022 rcvd:A00000022
 		sent:A00000023 rcvd:A00000023
 		sent:A00000024 rcvd:A00000024
 		sent:A00000025 rcvd:A00000025
 		sent:A00000026 rcvd:A00000026
 		sent:A00000027 rcvd:A00000027
 		sent:A00000028 rcvd:A00000028
 		sent:A00000029 rcvd:A00000029
 		sent:A00000030 rcvd:A00000030
 		sent:A00000031 rcvd:A00000031
 	EOF
 	test_cmp expect_a actual_a
 '

 test_expect_success 'stop-daemon works' '
 	test-tool simple-ipc stop-daemon &&
 	test_must_fail test-tool simple-ipc is-active &&
 	test_must_fail test-tool simple-ipc send --token=ping
 '

 test_done
	#!/bin/sh

	test_description='simple command server'

	TEST_PASSES_SANITIZE_LEAK=true
	. ./test-lib.sh

	test-tool simple-ipc SUPPORTS_SIMPLE_IPC \|\| {
	skip_all='simple IPC not supported on this platform'
	test_done
	}

	stop_simple_IPC_server () {
	test-tool simple-ipc stop-daemon
	}

	test_expect_success 'start simple command server' '
	test_atexit stop_simple_IPC_server &&
	test-tool simple-ipc start-daemon --threads=8 &&
	test-tool simple-ipc is-active
	'

	test_expect_success 'simple command server' '
	test-tool simple-ipc send --token=ping >actual &&
	echo pong >expect &&
	test_cmp expect actual
	'

	test_expect_success 'servers cannot share the same path' '
	test_must_fail test-tool simple-ipc run-daemon &&
	test-tool simple-ipc is-active
	'

	test_expect_success 'big response' '
	test-tool simple-ipc send --token=big >actual &&
	test_line_count -ge 10000 actual &&
	grep -q "big: [0]*9999\$" actual
	'

	test_expect_success 'chunk response' '
	test-tool simple-ipc send --token=chunk >actual &&
	test_line_count -ge 10000 actual &&
	grep -q "big: [0]*9999\$" actual
	'

	test_expect_success 'slow response' '
	test-tool simple-ipc send --token=slow >actual &&
	test_line_count -ge 100 actual &&
	grep -q "big: [0]*99\$" actual
	'

	# Send an IPC with n=100,000 bytes of ballast. This should be large enough
	# to force both the kernel and the pkt-line layer to chunk the message to the
	# daemon and for the daemon to receive it in chunks.
	#
	test_expect_success 'sendbytes' '
	test-tool simple-ipc sendbytes --bytecount=100000 --byte=A >actual &&
	grep "sent:A00100000 rcvd:A00100000" actual
	'

	# Start a series of <threads> client threads that each make <batchsize>
	# IPC requests to the server. Each (<threads> * <batchsize>) request
	# will open a new connection to the server and randomly bind to a server
	# thread. Each client thread exits after completing its batch. So the
	# total number of live client threads will be smaller than the total.
	# Each request will send a message containing at least <bytecount> bytes
	# of ballast. (Responses are small.)
	#
	# The purpose here is to test threading in the server and responding to
	# many concurrent client requests (regardless of whether they come from
	# 1 client process or many). And to test that the server side of the
	# named pipe/socket is stable. (On Windows this means that the server
	# pipe is properly recycled.)
	#
	# On Windows it also lets us adjust the connection timeout in the
	# `ipc_client_send_command()`.
	#
	# Note it is easy to drive the system into failure by requesting an
	# insane number of threads on client or server and/or increasing the
	# per-thread batchsize or the per-request bytecount (ballast).
	# On Windows these failures look like "pipe is busy" errors.
	# So I've chosen fairly conservative values for now.
	#
	# We expect output of the form "sent:<letter><length> ..."
	# With terms (7, 19, 13) we expect:
	# <letter> in [A-G]
	# <length> in [19+0 .. 19+(13-1)]
	# and (7 * 13) successful responses.
	#
	test_expect_success 'stress test threads' '
	test-tool simple-ipc multiple \
	--threads=7 \
	--bytecount=19 \
	--batchsize=13 \
	>actual &&
	test_line_count = 92 actual &&
	grep "good 91" actual &&
	grep "sent:A" <actual >actual_a &&
	cat >expect_a <<-EOF &&
	sent:A00000019 rcvd:A00000019
	sent:A00000020 rcvd:A00000020
	sent:A00000021 rcvd:A00000021
	sent:A00000022 rcvd:A00000022
	sent:A00000023 rcvd:A00000023
	sent:A00000024 rcvd:A00000024
	sent:A00000025 rcvd:A00000025
	sent:A00000026 rcvd:A00000026
	sent:A00000027 rcvd:A00000027
	sent:A00000028 rcvd:A00000028
	sent:A00000029 rcvd:A00000029
	sent:A00000030 rcvd:A00000030
	sent:A00000031 rcvd:A00000031
	EOF
	test_cmp expect_a actual_a
	'

	test_expect_success 'stop-daemon works' '
	test-tool simple-ipc stop-daemon &&
	test_must_fail test-tool simple-ipc is-active &&
	test_must_fail test-tool simple-ipc send --token=ping
	'

	test_done