AT_BANNER([OVSDB -- ovsdb-server transactions (Unix sockets)])

m4_define([OVSDB_SERVER_SHUTDOWN], 
  [cp pid savepid
   AT_CHECK([ovs-appctl -t "`pwd`"/unixctl -e exit], [0], [ignore], [ignore])
   OVS_WAIT_WHILE([kill -0 `cat savepid`], [kill `cat savepid`])])

# OVSDB_CHECK_EXECUTION(TITLE, SCHEMA, TRANSACTIONS, OUTPUT, [KEYWORDS])
#
# Creates a database with the given SCHEMA, starts an ovsdb-server on
# that database, and runs each of the TRANSACTIONS (which should be a
# quoted list of quoted strings) against it with ovsdb-client one at a
# time.
#
# Checks that the overall output is OUTPUT, but UUIDs in the output
# are replaced by markers of the form <N> where N is a number.  The
# first unique UUID is replaced by <0>, the next by <1>, and so on.
# If a given UUID appears more than once it is always replaced by the
# same marker.
#
# TITLE is provided to AT_SETUP and KEYWORDS to AT_KEYWORDS.
m4_define([OVSDB_CHECK_EXECUTION], 
  [AT_SETUP([$1])
  OVS_RUNDIR=`pwd`; export OVS_RUNDIR
   AT_KEYWORDS([ovsdb server positive unix $5])
   $2 > schema
   AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
   AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --remote=punix:socket --unixctl="`pwd`"/unixctl db], [0], [ignore], [ignore])
   m4_foreach([txn], [$3], 
     [AT_CHECK([ovsdb-client transact unix:socket 'txn'], [0], [stdout], [ignore],
     [test ! -e pid || kill `cat pid`])
cat stdout >> output
])
   AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0], [$4], [ignore],
            [test ! -e pid || kill `cat pid`])
   OVSDB_SERVER_SHUTDOWN
   AT_CLEANUP])

EXECUTION_EXAMPLES

AT_BANNER([ovsdb-server miscellaneous features])

AT_SETUP([truncating corrupted database log])
AT_KEYWORDS([ovsdb server positive unix])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
dnl Do one transaction and save the output.
AT_DATA([txnfile], [[ovsdb-client transact unix:socket \
'["ordinals",
  {"op": "insert",
   "table": "ordinals",
   "row": {"number": 0, "name": "zero"}}]'
]])
AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [])
cat stdout >> output
dnl Add some crap to the database log and run another transaction, which should
dnl ignore the crap and truncate it out of the log.
echo 'xxx' >> db
AT_DATA([txnfile], [[ovsdb-client transact unix:socket \
'["ordinals",
  {"op": "insert",
   "table": "ordinals",
   "row": {"number": 1, "name": "one"}}]'
]])
AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [stderr])
AT_CHECK([grep 'syntax error: db: parse error.* in header line "xxx"' stderr],
  [0], [ignore])
cat stdout >> output
dnl Run a final transaction to verify that both transactions succeeeded.
dnl The crap that we added should have been truncated by the previous run,
dnl so ovsdb-server shouldn't log a warning this time.
AT_DATA([txnfile], [[ovsdb-client transact unix:socket \
'["ordinals",
  {"op": "select",
   "table": "ordinals",
   "where": [],
   "sort": ["number"]}]'
]])
AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [])
cat stdout >> output
AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0],
  [[[{"uuid":["uuid","<0>"]}]
[{"uuid":["uuid","<1>"]}]
[{"rows":[{"_uuid":["uuid","<0>"],"_version":["uuid","<2>"],"name":"zero","number":0},{"_uuid":["uuid","<1>"],"_version":["uuid","<3>"],"name":"one","number":1}]}]
]], [],
         [test ! -e pid || kill `cat pid`])
AT_CLEANUP

AT_SETUP([truncating database log with bad transaction])
AT_KEYWORDS([ovsdb server positive unix])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
dnl Do one transaction and save the output.
AT_DATA([txnfile], [[ovsdb-client transact unix:socket \
'["ordinals",
  {"op": "insert",
   "table": "ordinals",
   "row": {"number": 0, "name": "zero"}}]'
]])
AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [])
cat stdout >> output
dnl Add some crap to the database log and run another transaction, which should
dnl ignore the crap and truncate it out of the log.
echo 'OVSDB JSON 15 ffbcdae4b0386265f9ea3280dd7c8f0b72a20e56
{"invalid":{}}' >> db
AT_DATA([txnfile], [[ovsdb-client transact unix:socket \
'["ordinals",
  {"op": "insert",
   "table": "ordinals",
   "row": {"number": 1, "name": "one"}}]'
]])
AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [stderr])
AT_CHECK([grep 'syntax "{"invalid":{}}": unknown table: No table named invalid.' stderr],
  [0], [ignore])
cat stdout >> output
dnl Run a final transaction to verify that both transactions succeeeded.
dnl The crap that we added should have been truncated by the previous run,
dnl so ovsdb-server shouldn't log a warning this time.
AT_DATA([txnfile], [[ovsdb-client transact unix:socket \
'["ordinals",
  {"op": "select",
   "table": "ordinals",
   "where": [],
   "sort": ["number"]}]'
]])
AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [])
cat stdout >> output
AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0],
  [[[{"uuid":["uuid","<0>"]}]
[{"uuid":["uuid","<1>"]}]
[{"rows":[{"_uuid":["uuid","<0>"],"_version":["uuid","<2>"],"name":"zero","number":0},{"_uuid":["uuid","<1>"],"_version":["uuid","<3>"],"name":"one","number":1}]}]
]], [],
         [test ! -e pid || kill `cat pid`])
AT_CLEANUP

AT_SETUP([ovsdb-client get-schema-version])
AT_KEYWORDS([ovsdb server positive])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --unixctl="`pwd`"/unixctl --remote=punix:socket db], [0], [ignore], [ignore])
AT_CHECK([ovsdb-client get-schema-version unix:socket ordinals], [0], [5.1.3
])
OVSDB_SERVER_SHUTDOWN
AT_CLEANUP

AT_SETUP([database multiplexing implementation])
AT_KEYWORDS([ovsdb server positive])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
ordinal_schema > schema1
constraint_schema > schema2
AT_CHECK([ovsdb-tool create db1 schema1], [0], [ignore], [ignore])
AT_CHECK([ovsdb-tool create db2 schema2], [0], [ignore], [ignore])
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --unixctl="`pwd`"/unixctl --remote=punix:socket db1 db2], [0], [ignore], [ignore])
AT_CHECK(
  [[ovsdb-client list-dbs unix:socket]], 
  [0], [constraints
ordinals
], [ignore], [test ! -e pid || kill `cat pid`])
AT_CHECK(
  [[ovstest test-jsonrpc request unix:socket get_schema [\"nonexistent\"]]], [0],
  [[{"error":null,"id":0,"result":{"details":"get_schema request specifies unknown database nonexistent","error":"unknown database","syntax":"[\"nonexistent\"]"}}
]], [], [test ! -e pid || kill `cat pid`])
OVSDB_SERVER_SHUTDOWN
AT_CLEANUP

AT_SETUP([ovsdb-server/add-db and remove-db])
AT_KEYWORDS([ovsdb server positive])
ON_EXIT([kill `cat ovsdb-server.pid`])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
ordinal_schema > schema1
constraint_schema > schema2
AT_CHECK([ovsdb-tool create db1 schema1], [0], [ignore], [ignore])
AT_CHECK([ovsdb-tool create db2 schema2], [0], [ignore], [ignore])

# Start ovsdb-server with just a single database - db1.
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile --remote=punix:socket db1], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [ordinals
])

# Add the second database.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-db db2], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [constraints
ordinals
])

# The databases are responsive.
AT_CHECK([ovsdb-client list-tables unix:socket constraints], [0], [ignore], [ignore])
AT_CHECK([ovsdb-client list-tables unix:socket ordinals], [0], [ignore], [ignore])

# Add an already added database.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-db db2], 2, [],
  [db2: already open
ovs-appctl: ovsdb-server: server returned an error
])

# Add a non-existing database.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-db db3], 2, [], [stderr])
AT_CHECK([sed 's/(.*)/(...)/' stderr], [0],
  [I/O error: open: db3 failed (...)
ovs-appctl: ovsdb-server: server returned an error
])

# Add a remote through a db path in db1.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-remote db:ordinals,ordinals,name], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [db:ordinals,ordinals,name
punix:socket
])

# Removing db1 has no effect on its remote.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-db ordinals], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [constraints
])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [db:ordinals,ordinals,name
punix:socket
])
AT_CHECK([ovsdb-client list-tables unix:socket ordinals], [1], [ignore], [ignore])

# Remove db2.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-db constraints], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [])
AT_CHECK([ovsdb-client list-tables unix:socket constraints], [1], [ignore], [ignore])

# Remove a non-existent database.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-db ordinals], [2],
  [], [Failed to find the database.
ovs-appctl: ovsdb-server: server returned an error
])

# Add a removed database.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-db db2], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [constraints
])
AT_CHECK([ovsdb-client list-tables unix:socket constraints], [0], [ignore], [ignore])
AT_CLEANUP

AT_SETUP([ovsdb-server/add-db with --monitor])
AT_KEYWORDS([ovsdb server positive])
# Start ovsdb-server, initially with one db.
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db1 schema], [0], [ignore], [ignore])
ON_EXIT([kill `cat *.pid`])
AT_CHECK([ovsdb-server -v -vvlog:off --monitor --detach --no-chdir --pidfile --log-file db1])

# Add the second database.
constraint_schema > schema2
AT_CHECK([ovsdb-tool create db2 schema2], [0], [ignore], [ignore])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-db db2], [0])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [constraints
ordinals
])

# Kill the daemon process, making it look like a segfault,
# and wait for a new daemon process to get spawned.
cp ovsdb-server.pid old.pid
AT_CHECK([kill -SEGV `cat ovsdb-server.pid`])
OVS_WAIT_WHILE([kill -0 `cat old.pid`])
OVS_WAIT_UNTIL(
  [test -s ovsdb-server.pid && test `cat ovsdb-server.pid` != `cat old.pid`])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [constraints
ordinals
])
AT_CLEANUP

AT_SETUP([ovsdb-server/add-db and remove-db with --monitor])
AT_KEYWORDS([ovsdb server positive])
# Start ovsdb-server, initially with one db.
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db1 schema], [0], [ignore], [ignore])
constraint_schema > schema2
AT_CHECK([ovsdb-tool create db2 schema2], [0], [ignore], [ignore])
ON_EXIT([kill `cat *.pid`])
AT_CHECK([ovsdb-server -v -vvlog:off --monitor --detach --no-chdir --pidfile --log-file db1 db2])

# Remove the second database.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-db constraints])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [ordinals
])

# Kill the daemon process, making it look like a segfault,
# and wait for a new daemon process to get spawned.
cp ovsdb-server.pid old.pid
AT_CHECK([kill -SEGV `cat ovsdb-server.pid`])
OVS_WAIT_WHILE([kill -0 `cat old.pid`])
OVS_WAIT_UNTIL(
  [test -s ovsdb-server.pid && test `cat ovsdb-server.pid` != `cat old.pid`])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-dbs],
  [0], [ordinals
])
AT_CLEANUP

AT_SETUP([--remote=db: implementation])
AT_KEYWORDS([ovsdb server positive])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
AT_DATA([schema],
  [[{"name": "mydb",
     "tables": {
       "Root": {
         "columns": {
           "managers": {
             "type": {
               "key": "string",
               "min": 0,
               "max": "unlimited"}},
           "manager_options": {
             "type": {
               "key": {"type": "uuid", "refTable": "Manager"},
               "min": 0,
               "max": "unlimited"}}}},
       "Manager": {
         "columns": {
           "target": {
             "type": "string"},
           "is_connected": {
             "type": {
               "key": "boolean",
               "min": 0,
               "max": 1}}}}}}
]])
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
AT_CHECK(
  [[ovsdb-tool transact db \
     '["mydb",
       {"op": "insert",
        "table": "Root",
        "row": {
          "managers": "punix:socket1",
          "manager_options": ["set", [["named-uuid", "x"]]]}},
       {"op": "insert",
        "table": "Manager",
        "uuid-name": "x",
        "row": {"target": "punix:socket2"}}]']], [0], [ignore], [ignore])
ON_EXIT([kill `cat ovsdb-server.pid`])
AT_CHECK([ovsdb-server --enable-dummy --detach --no-chdir --pidfile --remote=db:mydb,Root,managers --remote=db:mydb,Root,manager_options --log-file db], [0], [ignore], [ignore])
for i in 1 2 3 4 5 6; do ovs-appctl -t ovsdb-server time/warp 1000; done
AT_CHECK(
  [[ovsdb-client transact unix:socket1 \
     '["mydb",
       {"op": "select",
        "table": "Root",
        "where": [],
        "columns": ["managers"]},
       {"op": "select",
        "table": "Manager",
        "where": [],
        "columns": ["target", "is_connected"]}]']],
  [0], [stdout], [ignore])
AT_CHECK(
  [${PERL} $srcdir/uuidfilt.pl stdout], 
  [0], 
  [[[{"rows":[{"managers":"punix:socket1"}]},{"rows":[{"is_connected":false,"target":"punix:socket2"}]}]
]], 
  [ignore])
AT_CLEANUP

AT_SETUP([ovsdb-server/add-remote and remove-remote])
AT_KEYWORDS([ovsdb server positive])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
ON_EXIT([kill `cat *.pid`])
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile db])

AT_CHECK([test ! -e socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-remote punix:socket1])
OVS_WAIT_UNTIL([test -S socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [punix:socket1
])

AT_CHECK([test ! -e socket2])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-remote punix:socket2])
OVS_WAIT_UNTIL([test -S socket2])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [punix:socket1
punix:socket2
])

AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-remote db:x,y,z], [2],
  [], ["db:x,y,z": no database named x
ovs-appctl: ovsdb-server: server returned an error
])

AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-remote punix:socket1])
OVS_WAIT_UNTIL([test ! -e socket1])
AT_CHECK([test -S socket2])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [punix:socket2
])

AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-remote punix:socket2])
OVS_WAIT_UNTIL([test ! -e socket2])
AT_CHECK([test ! -e socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes])
AT_CLEANUP

AT_SETUP([ovsdb-server/add-remote with --monitor])
AT_KEYWORDS([ovsdb server positive])
# Start ovsdb-server, initially with no remotes.
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
ON_EXIT([kill `cat *.pid`])
AT_CHECK([ovsdb-server -v -vvlog:off --monitor --detach --no-chdir --pidfile --log-file db])

# Add a remote.
AT_CHECK([test ! -e socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-remote punix:socket1])
OVS_WAIT_UNTIL([test -S socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [punix:socket1
])

# Kill the daemon process, making it look like a segfault,
# and wait for a new daemon process to get spawned and for it to
# start listening on 'socket1'.
cp ovsdb-server.pid old.pid
rm socket1
AT_CHECK([kill -SEGV `cat ovsdb-server.pid`])
OVS_WAIT_WHILE([kill -0 `cat old.pid`])
OVS_WAIT_UNTIL(
  [test -s ovsdb-server.pid && test `cat ovsdb-server.pid` != `cat old.pid`])
OVS_WAIT_UNTIL([test -S socket1])
AT_CLEANUP

AT_SETUP([ovsdb-server/add-remote and remove-remote with --monitor])
AT_KEYWORDS([ovsdb server positive])
# Start ovsdb-server, initially with no remotes.
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
ON_EXIT([kill `cat *.pid`])
AT_CHECK([ovsdb-server -v -vvlog:off --monitor --detach --no-chdir --pidfile --log-file db])

# Add a remote.
AT_CHECK([test ! -e socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/add-remote punix:socket1])
OVS_WAIT_UNTIL([test -S socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes],
  [0], [punix:socket1
])

# Remove the remote.
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/remove-remote punix:socket1])
OVS_WAIT_UNTIL([test ! -e socket1])
AT_CHECK([ovs-appctl -t ovsdb-server ovsdb-server/list-remotes])

# Kill the daemon process, making it look like a segfault,
# and wait for a new daemon process to get spawned and make sure that it
# does not listen on 'socket1'.
cp ovsdb-server.pid old.pid
AT_CHECK([kill -SEGV `cat ovsdb-server.pid`])
OVS_WAIT_WHILE([kill -0 `cat old.pid`])
OVS_WAIT_UNTIL(
  [test -s ovsdb-server.pid && test `cat ovsdb-server.pid` != `cat old.pid`])
AT_CHECK([test ! -e socket1])
AT_CLEANUP

AT_SETUP([SSL db: implementation])
AT_KEYWORDS([ovsdb server positive ssl $5])
AT_SKIP_IF([test "$HAVE_OPENSSL" = no])
PKIDIR=$abs_top_builddir/tests
AT_SKIP_IF([expr "$PKIDIR" : ".*[ 	'\"
\\]"])
AT_DATA([schema],
  [[{"name": "mydb",
     "tables": {
       "SSL": {
         "columns": {
           "private_key": {"type": "string"},
           "certificate": {"type": "string"},
           "ca_cert": {"type": "string"}}}}}
]])
AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
AT_CHECK(
  [[ovsdb-tool transact db \
     '["mydb",
       {"op": "insert",
        "table": "SSL",
        "row": {"private_key": "'"$PKIDIR/testpki-privkey2.pem"'",
                "certificate": "'"$PKIDIR/testpki-cert2.pem"'",
                "ca_cert": "'"$PKIDIR/testpki-cacert.pem"'"}}]']],
  [0], [ignore], [ignore])
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
AT_CHECK(
  [ovsdb-server --log-file --detach --no-chdir --pidfile="`pwd`"/pid \
        --private-key=db:mydb,SSL,private_key \
        --certificate=db:mydb,SSL,certificate \
        --ca-cert=db:mydb,SSL,ca_cert \
        --remote=pssl:0:127.0.0.1 --unixctl="`pwd`"/unixctl db],
  [0], [ignore], [ignore])
SSL_PORT=`parse_listening_port < ovsdb-server.log`
AT_CHECK(
  [[ovsdb-client \
        --private-key=$PKIDIR/testpki-privkey.pem \
        --certificate=$PKIDIR/testpki-cert.pem \
        --ca-cert=$PKIDIR/testpki-cacert.pem \
        transact ssl:127.0.0.1:$SSL_PORT \
        '["mydb",
          {"op": "select",
           "table": "SSL",
           "where": [],
           "columns": ["private_key"]}]']], 
  [0], [stdout], [ignore], [test ! -e pid || kill `cat pid`])
cat stdout >> output
AT_CHECK_UNQUOTED(
  [cat output], [0],
  [[[{"rows":[{"private_key":"$PKIDIR/testpki-privkey2.pem"}]}]
]], [ignore], [test ! -e pid || kill `cat pid`])
OVSDB_SERVER_SHUTDOWN
AT_CLEANUP

AT_SETUP([compacting online])
AT_KEYWORDS([ovsdb server compact])
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
ordinal_schema > schema
dnl Make sure that "ovsdb-tool create" works with a dangling symlink for
dnl the database and the lockfile, creating the target of each symlink rather
dnl than replacing the symlinks with regular files.
mkdir dir
ln -s dir/db db
ln -s dir/.db.~lock~ .db.~lock~
AT_SKIP_IF([test ! -h db || test ! -h .db.~lock~])
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
dnl Start ovsdb-server.
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile="`pwd`"/pid --unixctl="`pwd`"/unixctl --remote=punix:socket --log-file="`pwd`"/ovsdb-server.log db], [0], [ignore], [ignore])
AT_CAPTURE_FILE([ovsdb-server.log])
dnl Do a bunch of random transactions that put crap in the database log.
AT_CHECK(
  [[for pair in 'zero 0' 'one 1' 'two 2' 'three 3' 'four 4' 'five 5'; do
      set -- $pair
      ovsdb-client transact unix:socket '
        ["ordinals",
         {"op": "insert",
          "table": "ordinals",
          "row": {"name": "'$1'", "number": '$2'}},
         {"op": "comment",
          "comment": "add row for '"$pair"'"}]'
      ovsdb-client transact unix:socket '
        ["ordinals",
         {"op": "delete",
          "table": "ordinals",
          "where": [["number", "==", '$2']]},
         {"op": "comment",
          "comment": "delete row for '"$2"'"}]'
      ovsdb-client transact unix:socket '
        ["ordinals",
         {"op": "insert",
          "table": "ordinals",
          "row": {"name": "'$1'", "number": '$2'}},
         {"op": "comment",
          "comment": "add back row for '"$pair"'"}]'
    done]],
  [0], [stdout], [ignore], [test ! -e pid || kill `cat pid`])
dnl Check that all the crap is in fact in the database log.
AT_CHECK([[${PERL} $srcdir/uuidfilt.pl db | grep -v ^OVSDB | sed 's/"_date":[0-9]*/"_date":0/' | ovstest test-json --multiple -]], [0],
  [[{"cksum":"12345678 9","name":"ordinals","tables":{"ordinals":{"columns":{"name":{"type":"string"},"number":{"type":"integer"}},"indexes":[["number"]]}},"version":"5.1.3"}
{"_comment":"add row for zero 0","_date":0,"ordinals":{"<0>":{"name":"zero"}}}
{"_comment":"delete row for 0","_date":0,"ordinals":{"<0>":null}}
{"_comment":"add back row for zero 0","_date":0,"ordinals":{"<1>":{"name":"zero"}}}
{"_comment":"add row for one 1","_date":0,"ordinals":{"<2>":{"name":"one","number":1}}}
{"_comment":"delete row for 1","_date":0,"ordinals":{"<2>":null}}
{"_comment":"add back row for one 1","_date":0,"ordinals":{"<3>":{"name":"one","number":1}}}
{"_comment":"add row for two 2","_date":0,"ordinals":{"<4>":{"name":"two","number":2}}}
{"_comment":"delete row for 2","_date":0,"ordinals":{"<4>":null}}
{"_comment":"add back row for two 2","_date":0,"ordinals":{"<5>":{"name":"two","number":2}}}
{"_comment":"add row for three 3","_date":0,"ordinals":{"<6>":{"name":"three","number":3}}}
{"_comment":"delete row for 3","_date":0,"ordinals":{"<6>":null}}
{"_comment":"add back row for three 3","_date":0,"ordinals":{"<7>":{"name":"three","number":3}}}
{"_comment":"add row for four 4","_date":0,"ordinals":{"<8>":{"name":"four","number":4}}}
{"_comment":"delete row for 4","_date":0,"ordinals":{"<8>":null}}
{"_comment":"add back row for four 4","_date":0,"ordinals":{"<9>":{"name":"four","number":4}}}
{"_comment":"add row for five 5","_date":0,"ordinals":{"<10>":{"name":"five","number":5}}}
{"_comment":"delete row for 5","_date":0,"ordinals":{"<10>":null}}
{"_comment":"add back row for five 5","_date":0,"ordinals":{"<11>":{"name":"five","number":5}}}
]], [], [test ! -e pid || kill `cat pid`])
dnl Dump out and check the actual database contents.
AT_CHECK([[ovsdb-client dump unix:socket ordinals]],
  [0], [stdout], [ignore])
AT_CHECK([${PERL} $srcdir/uuidfilt.pl stdout], [0], [dnl
ordinals table
_uuid                                name  number
------------------------------------ ----- ------
<0> five  5     @&t@
<1> four  4     @&t@
<2> one   1     @&t@
<3> three 3     @&t@
<4> two   2     @&t@
<5> zero  0     @&t@
], [], [test ! -e pid || kill `cat pid`])
dnl Now compact the database in-place.
AT_CHECK([[ovs-appctl -t "`pwd`"/unixctl ovsdb-server/compact]],
  [0], [], [ignore], [test ! -e pid || kill `cat pid`])
dnl Make sure that "db" is still a symlink to dir/db instead of getting
dnl replaced by a regular file, ditto for .db.~lock~.
AT_CHECK([test -h db])
AT_CHECK([test -h .db.~lock~])
AT_CHECK([test -f dir/db])
AT_CHECK([test -f dir/.db.~lock~])
dnl We can't fully re-check the contents of the database log, because the
dnl order of the records is not predictable, but there should only be 4 lines
dnl in it now.
AT_CAPTURE_FILE([db])
AT_CHECK([test `wc -l < db` -eq 4], [0], [], [],
  [test ! -e pid || kill `cat pid`])
dnl And check that the dumped data is the same too:
AT_CHECK([ovsdb-client dump unix:socket ordinals], [0], [stdout], [ignore],
  [test ! -e pid || kill `cat pid`])
AT_CHECK([${PERL} $srcdir/uuidfilt.pl stdout], [0], [dnl
ordinals table
_uuid                                name  number
------------------------------------ ----- ------
<0> five  5     @&t@
<1> four  4     @&t@
<2> one   1     @&t@
<3> three 3     @&t@
<4> two   2     @&t@
<5> zero  0     @&t@
], [], [test ! -e pid || kill `cat pid`])
dnl Now do some more transactions.
AT_CHECK(
  [[ovsdb-client transact unix:socket '
     ["ordinals",
      {"op": "delete",
       "table": "ordinals",
       "where": [["number", "<", 3]]}]']],
  [0], [[[{"count":3}]
]], [ignore], [test ! -e pid || kill `cat pid`])
dnl There should be 6 lines in the log now.
AT_CHECK([test `wc -l < db` -eq 6], [0], [], [],
  [test ! -e pid || kill `cat pid`])
dnl Then check that the dumped data is correct.
AT_CHECK([ovsdb-client dump unix:socket ordinals], [0], [stdout], [ignore],
  [test ! -e pid || kill `cat pid`])
AT_CHECK([${PERL} $srcdir/uuidfilt.pl stdout], [0], [dnl
ordinals table
_uuid                                name  number
------------------------------------ ----- ------
<0> five  5     @&t@
<1> four  4     @&t@
<2> three 3     @&t@
], [], [test ! -e pid || kill `cat pid`])
OVSDB_SERVER_SHUTDOWN
AT_CLEANUP

AT_SETUP([ovsdb-server combines updates on backlogged connections])
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
OVS_RUNDIR=`pwd`; export OVS_RUNDIR
ON_EXIT([kill `cat *.pid`])

# The maximum socket receive buffer size is important for this test, which
# tests behavior when the receive buffer overflows.
if test -e /proc/sys/net/core/rmem_max; then
    # Linux
    rmem_max=`cat /proc/sys/net/core/rmem_max`
elif rmem_max=`sysctl -n net.inet.tcp.recvbuf_max 2>/dev/null`; then
    : # FreeBSD, NetBSD
else
    # Don't know how to get maximum socket receive buffer on this OS
    AT_SKIP_IF([:])
fi

# Calculate the number of iterations we need to queue.  Each of the
# iterations we execute, by itself, yields a monitor update of about
# 25 kB, so fill up that much space plus a few for luck.
n_iterations=`expr $rmem_max / 25000 + 5`
echo rmem_max=$rmem_max n_iterations=$n_iterations

# If there's too much queuing skip the test to avoid timing out.
AT_SKIP_IF([test $rmem_max -gt 1048576])

# Calculate the exact number of monitor updates expected for $n_iterations,
# assuming no updates are combined.  The "extra" update is for the initial
# contents of the database.
n_updates=`expr $n_iterations \* 3 + 1`

# Start an ovsdb-server with the vswitchd schema.
OVSDB_INIT([db])
AT_CHECK([ovsdb-server --detach --no-chdir --pidfile --log-file --remote=punix:db.sock db],
  [0], [ignore], [ignore])

# Executes a set of transactions that add a bridge with 100 ports, and
# then deletes that bridge.  This yields three monitor updates that
# add up to about 25 kB in size.
#
# The update also increments a counter held in the database so that we can
# verify that the overall effect of the transactions took effect (e.g.
# monitor updates at the end weren't just dropped).  We add an arbitrary
# string to the counter to make grepping for it more reliable.
counter=0
trigger_big_update () {
    counter=`expr $counter + 1`
    ovs-vsctl --no-wait -- set open_vswitch . system_version=xyzzy$counter
    ovs-vsctl --no-wait -- add-br br0 $add
    ovs-vsctl --no-wait -- del-br br0
}
add_ports () {
    for j in `seq 1 100`; do
        printf " -- add-port br0 p%d" $j
    done
}
add=`add_ports`

AT_CAPTURE_FILE([ovsdb-client.err])

# Start an ovsdb-client monitoring all changes to the database,
# make it block to force the buffers to fill up, and then execute
# enough iterations that ovsdb-server starts combining updates.
AT_CHECK([ovsdb-client --detach --no-chdir --pidfile monitor ALL >ovsdb-client.out 2>ovsdb-client.err])
AT_CHECK([ovs-appctl -t ovsdb-client ovsdb-client/block])
for i in `seq 1 $n_iterations`; do
    echo "blocked update ($i of $n_iterations)"
    trigger_big_update $i
done
AT_CHECK([ovs-appctl -t ovsdb-client ovsdb-client/unblock])
OVS_WAIT_UNTIL([grep "\"xyzzy$counter\"" ovsdb-client.out])
AT_CHECK([ovs-appctl -t ovsdb-client exit])
OVS_WAIT_WHILE([test -e ovsdb-client.pid])

# Count the number of updates in the ovsdb-client output, by counting
# the number of changes to the Open_vSwitch table.  (All of our
# transactions modify the Open_vSwitch table.)  It should be less than
# $n_updates updates.
#
# Check that the counter is what we expect.
logged_updates=`grep -c '^Open_vSwitch' ovsdb-client.out`
echo "logged_updates=$logged_updates (expected less than $n_updates)"
AT_CHECK([test $logged_updates -lt $n_updates])
AT_CHECK_UNQUOTED([ovs-vsctl get open_vswitch . system_version], [0],
  ["xyzzy$counter"
])
AT_CLEANUP

AT_BANNER([OVSDB -- ovsdb-server transactions (SSL IPv4 sockets)])

# OVSDB_CHECK_EXECUTION(TITLE, SCHEMA, TRANSACTIONS, OUTPUT, [KEYWORDS])
#
# Creates a database with the given SCHEMA, starts an ovsdb-server on
# that database, and runs each of the TRANSACTIONS (which should be a
# quoted list of quoted strings) against it with ovsdb-client one at a
# time.
#
# Checks that the overall output is OUTPUT, but UUIDs in the output
# are replaced by markers of the form <N> where N is a number.  The
# first unique UUID is replaced by <0>, the next by <1>, and so on.
# If a given UUID appears more than once it is always replaced by the
# same marker.
#
# TITLE is provided to AT_SETUP and KEYWORDS to AT_KEYWORDS.
m4_define([OVSDB_CHECK_EXECUTION], 
  [AT_SETUP([$1])
   AT_KEYWORDS([ovsdb server positive ssl $5])
   AT_SKIP_IF([test "$HAVE_OPENSSL" = no])
   OVS_RUNDIR=`pwd`; export OVS_RUNDIR
   OVS_LOGDIR=`pwd`; export OVS_LOGDIR
   $2 > schema
   PKIDIR=$abs_top_builddir/tests
   AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
   AT_CHECK([ovsdb-server --log-file --detach --no-chdir --pidfile="`pwd`"/pid --private-key=$PKIDIR/testpki-privkey2.pem --certificate=$PKIDIR/testpki-cert2.pem --ca-cert=$PKIDIR/testpki-cacert.pem --remote=pssl:0:127.0.0.1 --unixctl="`pwd`"/unixctl db], [0], [ignore], [ignore])
   SSL_PORT=`parse_listening_port < ovsdb-server.log`
   m4_foreach([txn], [$3], 
     [AT_CHECK([ovsdb-client --private-key=$PKIDIR/testpki-privkey.pem --certificate=$PKIDIR/testpki-cert.pem --ca-cert=$PKIDIR/testpki-cacert.pem transact ssl:127.0.0.1:$SSL_PORT 'txn'], [0], [stdout], [ignore],
     [test ! -e pid || kill `cat pid`])
cat stdout >> output
])
   AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0], [$4], [ignore],
            [test ! -e pid || kill `cat pid`])
   OVSDB_SERVER_SHUTDOWN
   AT_CLEANUP])

EXECUTION_EXAMPLES

AT_BANNER([OVSDB -- ovsdb-server transactions (SSL IPv6 sockets)])

# OVSDB_CHECK_EXECUTION(TITLE, SCHEMA, TRANSACTIONS, OUTPUT, [KEYWORDS])
#
# Creates a database with the given SCHEMA, starts an ovsdb-server on
# that database, and runs each of the TRANSACTIONS (which should be a
# quoted list of quoted strings) against it with ovsdb-client one at a
# time.
#
# Checks that the overall output is OUTPUT, but UUIDs in the output
# are replaced by markers of the form <N> where N is a number.  The
# first unique UUID is replaced by <0>, the next by <1>, and so on.
# If a given UUID appears more than once it is always replaced by the
# same marker.
#
# TITLE is provided to AT_SETUP and KEYWORDS to AT_KEYWORDS.
m4_define([OVSDB_CHECK_EXECUTION],
  [AT_SETUP([$1])
   AT_KEYWORDS([ovsdb server positive ssl6 $5])
   AT_SKIP_IF([test "$HAVE_OPENSSL" = no])
   OVS_RUNDIR=`pwd`; export OVS_RUNDIR
   OVS_LOGDIR=`pwd`; export OVS_LOGDIR
   $2 > schema
   PKIDIR=$abs_top_builddir/tests
   AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
   AT_CHECK([ovsdb-server --log-file --detach --no-chdir --pidfile="`pwd`"/pid --private-key=$PKIDIR/testpki-privkey2.pem --certificate=$PKIDIR/testpki-cert2.pem --ca-cert=$PKIDIR/testpki-cacert.pem --remote=pssl:0:[[::1]] --unixctl="`pwd`"/unixctl db], [0], [ignore], [ignore])
   SSL_PORT=`parse_listening_port < ovsdb-server.log`
   m4_foreach([txn], [$3],
     [AT_CHECK([ovsdb-client --private-key=$PKIDIR/testpki-privkey.pem --certificate=$PKIDIR/testpki-cert.pem --ca-cert=$PKIDIR/testpki-cacert.pem transact ssl:[[::1]]:$SSL_PORT 'txn'], [0], [stdout], [ignore],
     [test ! -e pid || kill `cat pid`])
cat stdout >> output
])
   AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0], [$4], [ignore],
            [test ! -e pid || kill `cat pid`])
   OVSDB_SERVER_SHUTDOWN
   AT_CLEANUP])

ONE_EXECUTION_EXAMPLE

AT_BANNER([OVSDB -- ovsdb-server transactions (TCP IPv4 sockets)])

AT_SETUP([ovsdb-client get-schema-version - tcp socket])
AT_KEYWORDS([ovsdb server positive tcp])
ordinal_schema > schema
AT_CHECK([ovsdb-tool create db schema], [0], [ignore], [ignore])
OVS_LOGDIR=`pwd`; export OVS_LOGDIR
AT_CHECK([ovsdb-server --log-file --detach --no-chdir --pidfile="`pwd`"/pid --unixctl="`pwd`"/unixctl --remote=ptcp:0:127.0.0.1 db], [0], [ignore], [ignore])
TCP_PORT=`parse_listening_port < ovsdb-server.log`
AT_CHECK([ovsdb-client get-schema-version tcp:127.0.0.1:$TCP_PORT ordinals], [0], [5.1.3
])
OVSDB_SERVER_SHUTDOWN
AT_CLEANUP])

# OVSDB_CHECK_EXECUTION(TITLE, SCHEMA, TRANSACTIONS, OUTPUT, [KEYWORDS])
#
# Creates a database with the given SCHEMA, starts an ovsdb-server on
# that database, and runs each of the TRANSACTIONS (which should be a
# quoted list of quoted strings) against it with ovsdb-client one at a
# time.
#
# Checks that the overall output is OUTPUT, but UUIDs in the output
# are replaced by markers of the form <N> where N is a number.  The
# first unique UUID is replaced by <0>, the next by <1>, and so on.
# If a given UUID appears more than once it is always replaced by the
# same marker.
#
# TITLE is provided to AT_SETUP and KEYWORDS to AT_KEYWORDS.
m4_define([OVSDB_CHECK_EXECUTION],
  [AT_SETUP([$1])
   AT_KEYWORDS([ovsdb server positive tcp $5])
   OVS_RUNDIR=`pwd`; export OVS_RUNDIR
   OVS_LOGDIR=`pwd`; export OVS_LOGDIR
   $2 > schema
   PKIDIR=$abs_top_builddir/tests
   AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
   AT_CHECK([ovsdb-server --log-file --detach --no-chdir --pidfile="`pwd`"/pid --remote=ptcp:0:127.0.0.1 --unixctl="`pwd`"/unixctl db], [0], [ignore], [ignore])
   TCP_PORT=`parse_listening_port < ovsdb-server.log`
   m4_foreach([txn], [$3],
     [AT_CHECK([ovsdb-client transact tcp:127.0.0.1:$TCP_PORT 'txn'], [0], [stdout], [ignore],
     [test ! -e pid || kill `cat pid`])
cat stdout >> output
])
   AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0], [$4], [ignore],
            [test ! -e pid || kill `cat pid`])
   OVSDB_SERVER_SHUTDOWN
   AT_CLEANUP])

EXECUTION_EXAMPLES

AT_BANNER([OVSDB -- ovsdb-server transactions (TCP IPv6 sockets)])

# OVSDB_CHECK_EXECUTION(TITLE, SCHEMA, TRANSACTIONS, OUTPUT, [KEYWORDS])
#
# Creates a database with the given SCHEMA, starts an ovsdb-server on
# that database, and runs each of the TRANSACTIONS (which should be a
# quoted list of quoted strings) against it with ovsdb-client one at a
# time.
#
# Checks that the overall output is OUTPUT, but UUIDs in the output
# are replaced by markers of the form <N> where N is a number.  The
# first unique UUID is replaced by <0>, the next by <1>, and so on.
# If a given UUID appears more than once it is always replaced by the
# same marker.
#
# TITLE is provided to AT_SETUP and KEYWORDS to AT_KEYWORDS.
m4_define([OVSDB_CHECK_EXECUTION],
  [AT_SETUP([$1])
   AT_KEYWORDS([ovsdb server positive tcp6 $5])
   OVS_RUNDIR=`pwd`; export OVS_RUNDIR
   OVS_LOGDIR=`pwd`; export OVS_LOGDIR
   $2 > schema
   PKIDIR=$abs_top_builddir/tests
   AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
   AT_CHECK([ovsdb-server --log-file --detach --no-chdir --pidfile="`pwd`"/pid --remote=ptcp:0:[[::1]] --unixctl="`pwd`"/unixctl db], [0], [ignore], [ignore])
   TCP_PORT=`parse_listening_port < ovsdb-server.log`
   m4_foreach([txn], [$3],
     [AT_CHECK([ovsdb-client transact tcp:[[::1]]:$TCP_PORT 'txn'], [0], [stdout], [ignore],
     [test ! -e pid || kill `cat pid`])
cat stdout >> output
])
   AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0], [$4], [ignore],
            [test ! -e pid || kill `cat pid`])
   OVSDB_SERVER_SHUTDOWN
   AT_CLEANUP])

ONE_EXECUTION_EXAMPLE

AT_BANNER([OVSDB -- transactions on transient ovsdb-server])

# OVSDB_CHECK_EXECUTION(TITLE, SCHEMA, TRANSACTIONS, OUTPUT, [KEYWORDS])
#
# Creates a database with the given SCHEMA and runs each of the
# TRANSACTIONS (which should be a quoted list of quoted strings)
# against it with ovsdb-client one at a time.  Each ovsdb-client
# is run against a separately started ovsdb-server that executes
# only that single transaction.  (The idea is that this should
# help to ferret out any differences between what ovsdb-server has
# in memory and what actually gets committed to disk.)
#
# Checks that the overall output is OUTPUT, but UUIDs in the output
# are replaced by markers of the form <N> where N is a number.  The
# first unique UUID is replaced by <0>, the next by <1>, and so on.
# If a given UUID appears more than once it is always replaced by the
# same marker.
#
# TITLE is provided to AT_SETUP and KEYWORDS to AT_KEYWORDS.
m4_define([OVSDB_CHECK_EXECUTION], 
  [AT_SETUP([$1])
   AT_KEYWORDS([ovsdb server positive transient $5])
   OVS_RUNDIR=`pwd`; export OVS_RUNDIR
   $2 > schema
   AT_CHECK([ovsdb-tool create db schema], [0], [stdout], [ignore])
   m4_foreach([txn], [$3], 
     [AT_DATA([txnfile], [ovsdb-client transact unix:socket 'txn'
])
      AT_CHECK([ovsdb-server --remote=punix:socket --unixctl="`pwd`"/unixctl db --run="sh txnfile"], [0], [stdout], [ignore])
      cat stdout >> output
])
   AT_CHECK([${PERL} $srcdir/uuidfilt.pl output], [0], [$4], [ignore])
   AT_CLEANUP])

EXECUTION_EXAMPLES