reg-tests/http-messaging/h2_to_h1.vtc - haproxy - Gitiles

 varnishtest "HTTP request tests: H2 to H1 (HTX and legacy mode)"
 #REQUIRE_VERSION=1.9

 # Run it with HAPROXY_PROGRAM=$PWD/haproxy varnishtest -l -k -t 1 "$1"

 feature ignore_unknown_macro

 # synchronize requests between streams
 barrier b1 cond 2 -cyclic
 barrier b2 cond 2 -cyclic
 barrier b3 cond 2 -cyclic
 barrier b4 cond 2 -cyclic
 barrier b5 cond 2 -cyclic
 barrier b6 cond 2 -cyclic

 server s1 {
 	rxreq
 	txresp \
 	  -status 200 \
 	  -body "response 1"

 	barrier b2 sync
 	rxreq
 	txresp \
 	  -status 200 \
 	  -body "response 2"

 	barrier b3 sync
 	rxreq
 	txresp \
 	  -status 200 \
 	  -body "response 3"

 	barrier b4 sync
 	# the next request is never received

 	barrier b5 sync
 	# the next request is never received

 	barrier b6 sync
 	# the next request is never received
 } -repeat 2 -start

 haproxy h1 -conf {
     global
         # WT: limit false-positives causing "HTTP header incomplete" due to
         # idle server connections being randomly used and randomly expiring
         # under us.
         tune.idle-pool.shared off

     defaults
 	#log stdout format raw daemon
 	mode http
 	option http-buffer-request
 	${no-htx} option http-use-htx
 	timeout connect 1s
 	timeout client  1s
 	timeout server  1s

     listen feh1
 	bind "fd@${feh1}"
 	bind "fd@${feh2}" proto h2
 	server s1 ${s1_addr}:${s1_port}
 } -start

 client c1h2 -connect ${h1_feh2_sock} {
 	txpri
 	stream 0 {
 		txsettings
 		rxsettings
 		txsettings -ack
 		rxsettings
 		expect settings.ack == true
 	} -run

 	# first request is valid
 	stream 1 {
 		txreq \
 		  -req "GET" \
 		  -scheme "https" \
 		  -url "/test1.html"
 		rxhdrs
 		expect resp.status == 200
 		rxdata -all
 		expect resp.body == "response 1"
 	} -run

 	# second request is valid and advertises C-L:0
 	stream 3 {
 		barrier b2 sync
 		txreq \
 		  -req "GET" \
 		  -scheme "https" \
 		  -url "/test2.html" \
 		  -hdr "content-length" "0"
 		rxhdrs
 		expect resp.status == 200
 		rxdata -all
 		expect resp.body == "response 2"
 	} -run

 	# third request sends a body with a GET
 	stream 5 {
 		barrier b3 sync
 		txreq \
 		  -req "GET" \
 		  -scheme "https" \
 		  -url "/test3.html" \
 		  -nostrend \
 		  -body "this must be delivered, like it or not"
 		rxwinup
 		rxhdrs
 		expect resp.status == 200
 		rxdata -all
 		expect resp.body == "response 3"
 	} -run

 	# fourth request is valid and advertises C-L:2, and close, and is
 	# followed by a string "this is not sent\r\n\r\n" which causes a
 	# stream error of type PROTOCOL_ERROR.
 	stream 7 {
 		barrier b4 sync
 		txreq \
 		  -req "GET" \
 		  -scheme "https" \
 		  -url "/test4.html" \
 		  -hdr "content-length" "2" \
 		  -nostrend
 		txdata -data "this is sent and ignored"
 		rxrst
 	} -run

 	# fifth request is invalid and advertises an invalid C-L ending with an
         # empty value, which results in a stream error.
 	stream 9 {
 		barrier b5 sync
 		txreq \
 		  -req "GET" \
 		  -scheme "https" \
 		  -url "/test5.html" \
 		  -hdr "content-length" "0," \
 		  -nostrend
 		rxrst
 	} -run

 	# sixth request is invalid and advertises an empty C-L, which results
 	# in a stream error.
 	stream 11 {
 		barrier b6 sync
 		txreq \
 		  -req "GET" \
 		  -scheme "https" \
 		  -url "/test6.html" \
 		  -hdr "content-length" "" \
 		  -nostrend
 		rxrst
 	} -run
 } -run

 # HEAD requests : don't work well yet
 #client c2h2 -connect ${h1_feh2_sock} {
 #	txpri
 #	stream 0 {
 #		txsettings
 #		rxsettings
 #		txsettings -ack
 #		rxsettings
 #		expect settings.ack == true
 #	} -run
 #
 #	# first request is valid
 #	stream 1 {
 #		txreq \
 #		  -req "HEAD" \
 #		  -scheme "https" \
 #		  -url "/test11.html"
 #		rxhdrs
 #		expect resp.status == 200
 #		rxdata -all
 #		expect resp.bodylen == 0
 #	} -run
 #
 #	# second request is valid and advertises C-L:0
 #	stream 3 {
 #		barrier b2 sync
 #		txreq \
 #		  -req "HEAD" \
 #		  -scheme "https" \
 #		  -url "/test12.html" \
 #		  -hdr "content-length" "0"
 #		rxhdrs
 #		expect resp.status == 200
 #		rxdata -all
 #		expect resp.bodylen == 0
 #	} -run
 #
 #	# third request sends a body with a GET
 #	stream 5 {
 #		barrier b3 sync
 #		txreq \
 #		  -req "HEAD" \
 #		  -scheme "https" \
 #		  -url "/test13.html" \
 #		  -nostrend \
 #		  -body "this must be delivered, like it or not"
 #		rxwinup
 #		rxhdrs
 #		expect resp.status == 200
 #		rxdata -all
 #		expect resp.bodylen == 0
 #	} -run
 #
 #	# fourth request is valid and advertises C-L:0, and close, and is
 #	# followed by a string "this is not sent\r\n\r\n" which must be
 #	# dropped.
 #	stream 7 {
 #		barrier b4 sync
 #		txreq \
 #		  -req "HEAD" \
 #		  -scheme "https" \
 #		  -url "/test14.html" \
 #		  -hdr "content-length" "0" \
 #		  -nostrend
 #		txdata -data "this is sent and ignored"
 #		rxwinup
 #		rxhdrs
 #		expect resp.status == 200
 #		rxdata -all
 #		expect resp.bodylen == 0
 #	} -run
 #} -run

 # POST requests
 client c3h2 -connect ${h1_feh2_sock} {
 	txpri
 	stream 0 {
 		txsettings
 		rxsettings
 		txsettings -ack
 		rxsettings
 		expect settings.ack == true
 	} -run

 	# first request is valid
 	stream 1 {
 		txreq \
 		  -req "POST" \
 		  -scheme "https" \
 		  -url "/test21.html"
 		rxhdrs
 		expect resp.status == 200
 		rxdata -all
 		expect resp.body == "response 1"
 	} -run

 	# second request is valid and advertises C-L:0
 	stream 3 {
 		barrier b2 sync
 		txreq \
 		  -req "POST" \
 		  -scheme "https" \
 		  -url "/test22.html" \
 		  -hdr "content-length" "0"
 		rxhdrs
 		expect resp.status == 200
 		rxdata -all
 		expect resp.body == "response 2"
 	} -run

 	# third request sends a body with a GET
 	stream 5 {
 		barrier b3 sync
 		txreq \
 		  -req "POST" \
 		  -scheme "https" \
 		  -url "/test23.html" \
 		  -nostrend \
 		  -body "this must be delivered, like it or not"
 		rxwinup
 		rxhdrs
 		expect resp.status == 200
 		rxdata -all
 		expect resp.body == "response 3"
 	} -run

 	# fourth request is valid and advertises C-L:2, and close, and is
 	# followed by a string "this is not sent\r\n\r\n" which results
 	# in a stream error.
 	stream 7 {
 		barrier b4 sync
 		txreq \
 		  -req "POST" \
 		  -scheme "https" \
 		  -url "/test24.html" \
 		  -hdr "content-length" "2" \
 		  -nostrend
 		txdata -data "this is sent and ignored"
 		rxrst
 	} -run

 	# fifth request is invalid and advertises invalid C-L ending with an
         # empty value, which results in a stream error.
 	stream 9 {
 		barrier b5 sync
 		txreq \
 		  -req "POST" \
 		  -scheme "https" \
 		  -url "/test25.html" \
 		  -hdr "content-length" "0," \
 		  -nostrend
 		rxrst
 	} -run

 	# sixth request is invalid and advertises an empty C-L, which results
 	# in a stream error.
 	stream 11 {
 		barrier b6 sync
 		txreq \
 		  -req "POST" \
 		  -scheme "https" \
 		  -url "/test26.html" \
 		  -hdr "content-length" "" \
 		  -nostrend
 		rxrst
 	} -run
 } -run
	varnishtest "HTTP request tests: H2 to H1 (HTX and legacy mode)"
	#REQUIRE_VERSION=1.9

	# Run it with HAPROXY_PROGRAM=$PWD/haproxy varnishtest -l -k -t 1 "$1"

	feature ignore_unknown_macro

	# synchronize requests between streams
	barrier b1 cond 2 -cyclic
	barrier b2 cond 2 -cyclic
	barrier b3 cond 2 -cyclic
	barrier b4 cond 2 -cyclic
	barrier b5 cond 2 -cyclic
	barrier b6 cond 2 -cyclic

	server s1 {
	rxreq
	txresp \
	-status 200 \
	-body "response 1"

	barrier b2 sync
	rxreq
	txresp \
	-status 200 \
	-body "response 2"

	barrier b3 sync
	rxreq
	txresp \
	-status 200 \
	-body "response 3"

	barrier b4 sync
	# the next request is never received

	barrier b5 sync
	# the next request is never received

	barrier b6 sync
	# the next request is never received
	} -repeat 2 -start

	haproxy h1 -conf {
	global
	# WT: limit false-positives causing "HTTP header incomplete" due to
	# idle server connections being randomly used and randomly expiring
	# under us.
	tune.idle-pool.shared off

	defaults
	#log stdout format raw daemon
	mode http
	option http-buffer-request
	${no-htx} option http-use-htx
	timeout connect 1s
	timeout client 1s
	timeout server 1s

	listen feh1
	bind "fd@${feh1}"
	bind "fd@${feh2}" proto h2
	server s1 ${s1_addr}:${s1_port}
	} -start

	client c1h2 -connect ${h1_feh2_sock} {
	txpri
	stream 0 {
	txsettings
	rxsettings
	txsettings -ack
	rxsettings
	expect settings.ack == true
	} -run

	# first request is valid
	stream 1 {
	txreq \
	-req "GET" \
	-scheme "https" \
	-url "/test1.html"
	rxhdrs
	expect resp.status == 200
	rxdata -all
	expect resp.body == "response 1"
	} -run

	# second request is valid and advertises C-L:0
	stream 3 {
	barrier b2 sync
	txreq \
	-req "GET" \
	-scheme "https" \
	-url "/test2.html" \
	-hdr "content-length" "0"
	rxhdrs
	expect resp.status == 200
	rxdata -all
	expect resp.body == "response 2"
	} -run

	# third request sends a body with a GET
	stream 5 {
	barrier b3 sync
	txreq \
	-req "GET" \
	-scheme "https" \
	-url "/test3.html" \
	-nostrend \
	-body "this must be delivered, like it or not"
	rxwinup
	rxhdrs
	expect resp.status == 200
	rxdata -all
	expect resp.body == "response 3"
	} -run

	# fourth request is valid and advertises C-L:2, and close, and is
	# followed by a string "this is not sent\r\n\r\n" which causes a
	# stream error of type PROTOCOL_ERROR.
	stream 7 {
	barrier b4 sync
	txreq \
	-req "GET" \
	-scheme "https" \
	-url "/test4.html" \
	-hdr "content-length" "2" \
	-nostrend
	txdata -data "this is sent and ignored"
	rxrst
	} -run

	# fifth request is invalid and advertises an invalid C-L ending with an
	# empty value, which results in a stream error.
	stream 9 {
	barrier b5 sync
	txreq \
	-req "GET" \
	-scheme "https" \
	-url "/test5.html" \
	-hdr "content-length" "0," \
	-nostrend
	rxrst
	} -run

	# sixth request is invalid and advertises an empty C-L, which results
	# in a stream error.
	stream 11 {
	barrier b6 sync
	txreq \
	-req "GET" \
	-scheme "https" \
	-url "/test6.html" \
	-hdr "content-length" "" \
	-nostrend
	rxrst
	} -run
	} -run

	# HEAD requests : don't work well yet
	#client c2h2 -connect ${h1_feh2_sock} {
	# txpri
	# stream 0 {
	# txsettings
	# rxsettings
	# txsettings -ack
	# rxsettings
	# expect settings.ack == true
	# } -run
	#
	# # first request is valid
	# stream 1 {
	# txreq \
	# -req "HEAD" \
	# -scheme "https" \
	# -url "/test11.html"
	# rxhdrs
	# expect resp.status == 200
	# rxdata -all
	# expect resp.bodylen == 0
	# } -run
	#
	# # second request is valid and advertises C-L:0
	# stream 3 {
	# barrier b2 sync
	# txreq \
	# -req "HEAD" \
	# -scheme "https" \
	# -url "/test12.html" \
	# -hdr "content-length" "0"
	# rxhdrs
	# expect resp.status == 200
	# rxdata -all
	# expect resp.bodylen == 0
	# } -run
	#
	# # third request sends a body with a GET
	# stream 5 {
	# barrier b3 sync
	# txreq \
	# -req "HEAD" \
	# -scheme "https" \
	# -url "/test13.html" \
	# -nostrend \
	# -body "this must be delivered, like it or not"
	# rxwinup
	# rxhdrs
	# expect resp.status == 200
	# rxdata -all
	# expect resp.bodylen == 0
	# } -run
	#
	# # fourth request is valid and advertises C-L:0, and close, and is
	# # followed by a string "this is not sent\r\n\r\n" which must be
	# # dropped.
	# stream 7 {
	# barrier b4 sync
	# txreq \
	# -req "HEAD" \
	# -scheme "https" \
	# -url "/test14.html" \
	# -hdr "content-length" "0" \
	# -nostrend
	# txdata -data "this is sent and ignored"
	# rxwinup
	# rxhdrs
	# expect resp.status == 200
	# rxdata -all
	# expect resp.bodylen == 0
	# } -run
	#} -run

	# POST requests
	client c3h2 -connect ${h1_feh2_sock} {
	txpri
	stream 0 {
	txsettings
	rxsettings
	txsettings -ack
	rxsettings
	expect settings.ack == true
	} -run

	# first request is valid
	stream 1 {
	txreq \
	-req "POST" \
	-scheme "https" \
	-url "/test21.html"
	rxhdrs
	expect resp.status == 200
	rxdata -all
	expect resp.body == "response 1"
	} -run

	# second request is valid and advertises C-L:0
	stream 3 {
	barrier b2 sync
	txreq \
	-req "POST" \
	-scheme "https" \
	-url "/test22.html" \
	-hdr "content-length" "0"
	rxhdrs
	expect resp.status == 200
	rxdata -all
	expect resp.body == "response 2"
	} -run

	# third request sends a body with a GET
	stream 5 {
	barrier b3 sync
	txreq \
	-req "POST" \
	-scheme "https" \
	-url "/test23.html" \
	-nostrend \
	-body "this must be delivered, like it or not"
	rxwinup
	rxhdrs
	expect resp.status == 200
	rxdata -all
	expect resp.body == "response 3"
	} -run

	# fourth request is valid and advertises C-L:2, and close, and is
	# followed by a string "this is not sent\r\n\r\n" which results
	# in a stream error.
	stream 7 {
	barrier b4 sync
	txreq \
	-req "POST" \
	-scheme "https" \
	-url "/test24.html" \
	-hdr "content-length" "2" \
	-nostrend
	txdata -data "this is sent and ignored"
	rxrst
	} -run

	# fifth request is invalid and advertises invalid C-L ending with an
	# empty value, which results in a stream error.
	stream 9 {
	barrier b5 sync
	txreq \
	-req "POST" \
	-scheme "https" \
	-url "/test25.html" \
	-hdr "content-length" "0," \
	-nostrend
	rxrst
	} -run

	# sixth request is invalid and advertises an empty C-L, which results
	# in a stream error.
	stream 11 {
	barrier b6 sync
	txreq \
	-req "POST" \
	-scheme "https" \
	-url "/test26.html" \
	-hdr "content-length" "" \
	-nostrend
	rxrst
	} -run
	} -run