3 #==================================================================================
4 # Copyright (c) 2019 Nokia
5 # Copyright (c) 2018-2019 AT&T Intellectual Property.
7 # Licensed under the Apache License, Version 2.0 (the "License");
8 # you may not use this file except in compliance with the License.
9 # You may obtain a copy of the License at
11 # http://www.apache.org/licenses/LICENSE-2.0
13 # Unless required by applicable law or agreed to in writing, software
14 # distributed under the License is distributed on an "AS IS" BASIS,
15 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
16 # See the License for the specific language governing permissions and
17 # limitations under the License.
18 #==================================================================================
21 # ---------------------------------------------------------------------------------
22 # Mnemonic: run_call_test.ksh
23 # Abstract: This is a simple script to set up and run the basic send/receive
24 # processes for some library validation on top of nano/nng.
25 # It should be possible to clone the repo, switch to this directory
26 # and execute 'ksh run -B' which will build RMr, make the sender and
27 # recevier then run the basic test.
29 # The call test drives three RMr based processes:
30 # caller which invokes rmr_mt_call() to send n messages
32 # receiver which executes rmr_rts_msg() on each received
33 # message with type == 5.
35 # sender which sends n "pings" to the caller process
37 # The script assumes that all three proessess are running on the same
38 # host/container such that setting up the route table with localhost:port
41 # The number of message, and the delay between each message may be given
42 # on the command line. The number of threads may also be given. The
43 # number of messages defines the number _each_ caller will sent (5000
44 # messages and three threads == 15,000 total messages.
46 # Example command line:
47 # ksh ./run_call_test.ksh # default 10 messages at 1 msg/sec 3 threads
48 # ksh ./run_call_test.ksh -n 5000 -t 6 -d 400 # 5k messages, 6 threads, delay 400 mus
51 # Author: E. Scott Daniels
52 # ---------------------------------------------------------------------------------
55 # The sender and receiver are run asynch. Their exit statuses are captured in a
56 # file in order for the 'main' to pick them up easily.
61 # ./sender_nano $nmsg $delay
62 echo "nano is not supported"
65 ./caller $nmsg $delay $nthreads
67 echo $? >/tmp/PID$$.src # must communicate state back via file b/c asynch
70 # start receiver listening for nmsgs from each thread
72 if (( nano_receiver ))
74 #./receiver_nano $(( nmsg * nthreads ))
75 echo "nano is not supported"
78 ./mt_receiver $(( nmsg * nthreads )) # we'll test with the RMr multi threaded receive function
80 echo $? >/tmp/PID$$.rrc
83 # This will send 100 messages to the caller process. This is a test to verify that
84 # threaded calling is not affected by normal messages and that normal messages can
85 # be received concurrently.
88 RMR_RTG_SVC=9999 ./sender 100 100 4 3333 >/dev/NULL 2>&1 # send pings
92 # Generate a route table that is tailored to our needs of sender sending messages to
93 # the caller, and caller sending mtype == 5 to the receiver.
97 cat <<endKat >caller.rt
98 # this is a specialised rt for caller testing. mtype 5 go to the
99 # receiver, and all others go to the caller.
102 mse | 0 | 0 | localhost:43086
103 mse | 1 | 10 | localhost:43086
104 mse | 2 | 20 | localhost:43086
105 rte | 3 | localhost:43086
106 mse | 3 | 100 | localhost:43086 # special test to ensure that this does not affect previous entry
107 rte | 4 | localhost:43086
108 rte | 5 | localhost:4560
109 rte | 6 | localhost:43086
110 rte | 7 | localhost:43086
111 rte | 8 | localhost:43086
112 rte | 9 | localhost:43086
113 rte | 10 | localhost:43086
114 rte | 11 | localhost:43086
115 rte | 12 | localhost:43086
116 rte | 13 | localhost:43086
122 # ---------------------------------------------------------
124 nmsg=10 # total number of messages to be exchanged (-n value changes)
125 delay=1000000 # microsec sleep between msg 1,000,000 == 1s
126 nano_sender=0 # start nano version if set (-N)
132 dev_base=1 # -D turns off to allow this to run on installed libs
134 nano_sender=0 # mt-call is not supported in nano
142 -d) delay=$2; shift;;
145 -t) nthreads=$2; shift;;
148 *) echo "unrecognised option: $1"
149 echo "usage: $0 [-B] [-d micro-sec-delay] [-n num-msgs] [-t num-threads]"
150 echo " -B forces a rebuild which will use .build"
161 export RMR_VCTL_FILE=".verbose"
166 build_path=../../.build
171 build_path=${BUILD_PATH:-"../../.build"} # we prefer .build at the root level, but allow user option
173 if [[ ! -d $build_path ]]
175 echo "cannot find build in: $build_path"
176 echo "either create, and then build RMr, or set BUILD_PATH as an evironment var before running this"
181 if (( dev_base )) # assume we are testing against what we've built, not what is installed
183 if [[ -d $build_path/lib64 ]]
185 export LD_LIBRARY_PATH=$build_path:$build_path/lib64
187 export LD_LIBRARY_PATH=$build_path:$build_path/lib
189 else # -D option gets us here to test an installed library
190 export LD_LIBRARY_PATH=/usr/local/lib
191 export LIBRARY_PATH=$LD_LIBRARY_PATH
194 export RMR_SEED_RT=${RMR_SEED_RT:-./caller.rt} # allow easy testing with different rt
196 if [[ ! -f $RMR_SEED_RT ]] # special caller rt for three process setup
201 if [[ ! -f ./sender ]]
203 if ! make >/dev/null 2>&1
205 echo "[FAIL] cannot find sender binary, and cannot make it.... humm?"
211 sleep 2 # if caller starts faster than rcvr we can drop, so pause a bit
216 head -1 /tmp/PID$$.rrc | read rrc # get pass/fail state from each
217 head -1 /tmp/PID$$.src | read src
219 if (( !! (src + rrc) ))
221 echo "[FAIL] sender rc=$src receiver rc=$rrc"
223 echo "[PASS] sender rc=$src receiver rc=$rrc"
229 exit $(( !! (src + rrc) ))