mirror of
http://github.com/valkey-io/valkey
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a1dca2efab
Some inline test moved into server_is_up procedure. Also find_available_port was moved into util since it is going to be used for the Sentinel test as well.
510 lines
15 KiB
Tcl
510 lines
15 KiB
Tcl
# Redis test suite. Copyright (C) 2009 Salvatore Sanfilippo antirez@gmail.com
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# This softare is released under the BSD License. See the COPYING file for
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# more information.
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package require Tcl 8.5
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set tcl_precision 17
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source tests/support/redis.tcl
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source tests/support/server.tcl
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source tests/support/tmpfile.tcl
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source tests/support/test.tcl
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source tests/support/util.tcl
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set ::all_tests {
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unit/printver
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unit/dump
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unit/auth
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unit/protocol
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unit/basic
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unit/scan
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unit/type/list
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unit/type/list-2
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unit/type/list-3
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unit/type/set
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unit/type/zset
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unit/type/hash
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unit/sort
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unit/expire
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unit/other
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unit/multi
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unit/quit
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unit/aofrw
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integration/replication
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integration/replication-2
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integration/replication-3
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integration/replication-4
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integration/replication-psync
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integration/aof
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integration/rdb
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integration/convert-zipmap-hash-on-load
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unit/pubsub
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unit/slowlog
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unit/scripting
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unit/maxmemory
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unit/introspection
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unit/limits
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unit/obuf-limits
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unit/bitops
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unit/memefficiency
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}
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# Index to the next test to run in the ::all_tests list.
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set ::next_test 0
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set ::host 127.0.0.1
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set ::port 21111
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set ::traceleaks 0
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set ::valgrind 0
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set ::verbose 0
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set ::quiet 0
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set ::denytags {}
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set ::allowtags {}
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set ::external 0; # If "1" this means, we are running against external instance
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set ::file ""; # If set, runs only the tests in this comma separated list
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set ::curfile ""; # Hold the filename of the current suite
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set ::accurate 0; # If true runs fuzz tests with more iterations
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set ::force_failure 0
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# Set to 1 when we are running in client mode. The Redis test uses a
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# server-client model to run tests simultaneously. The server instance
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# runs the specified number of client instances that will actually run tests.
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# The server is responsible of showing the result to the user, and exit with
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# the appropriate exit code depending on the test outcome.
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set ::client 0
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set ::numclients 16
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proc execute_tests name {
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set path "tests/$name.tcl"
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set ::curfile $path
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source $path
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send_data_packet $::test_server_fd done "$name"
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}
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# Setup a list to hold a stack of server configs. When calls to start_server
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# are nested, use "srv 0 pid" to get the pid of the inner server. To access
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# outer servers, use "srv -1 pid" etcetera.
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set ::servers {}
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proc srv {args} {
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set level 0
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if {[string is integer [lindex $args 0]]} {
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set level [lindex $args 0]
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set property [lindex $args 1]
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} else {
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set property [lindex $args 0]
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}
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set srv [lindex $::servers end+$level]
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dict get $srv $property
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}
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# Provide easy access to the client for the inner server. It's possible to
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# prepend the argument list with a negative level to access clients for
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# servers running in outer blocks.
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proc r {args} {
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set level 0
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if {[string is integer [lindex $args 0]]} {
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set level [lindex $args 0]
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set args [lrange $args 1 end]
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}
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[srv $level "client"] {*}$args
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}
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proc reconnect {args} {
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set level [lindex $args 0]
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if {[string length $level] == 0 || ![string is integer $level]} {
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set level 0
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}
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set srv [lindex $::servers end+$level]
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set host [dict get $srv "host"]
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set port [dict get $srv "port"]
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set config [dict get $srv "config"]
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set client [redis $host $port]
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dict set srv "client" $client
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# select the right db when we don't have to authenticate
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if {![dict exists $config "requirepass"]} {
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$client select 9
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}
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# re-set $srv in the servers list
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lset ::servers end+$level $srv
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}
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proc redis_deferring_client {args} {
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set level 0
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if {[llength $args] > 0 && [string is integer [lindex $args 0]]} {
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set level [lindex $args 0]
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set args [lrange $args 1 end]
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}
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# create client that defers reading reply
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set client [redis [srv $level "host"] [srv $level "port"] 1]
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# select the right db and read the response (OK)
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$client select 9
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$client read
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return $client
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}
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# Provide easy access to INFO properties. Same semantic as "proc r".
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proc s {args} {
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set level 0
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if {[string is integer [lindex $args 0]]} {
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set level [lindex $args 0]
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set args [lrange $args 1 end]
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}
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status [srv $level "client"] [lindex $args 0]
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}
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proc cleanup {} {
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if {!$::quiet} {puts -nonewline "Cleanup: may take some time... "}
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flush stdout
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catch {exec rm -rf {*}[glob tests/tmp/redis.conf.*]}
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catch {exec rm -rf {*}[glob tests/tmp/server.*]}
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if {!$::quiet} {puts "OK"}
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}
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proc test_server_main {} {
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cleanup
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set tclsh [info nameofexecutable]
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# Open a listening socket, trying different ports in order to find a
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# non busy one.
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set port [find_available_port 11111]
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if {!$::quiet} {
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puts "Starting test server at port $port"
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}
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socket -server accept_test_clients -myaddr 127.0.0.1 $port
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# Start the client instances
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set ::clients_pids {}
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set start_port [expr {$::port+100}]
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for {set j 0} {$j < $::numclients} {incr j} {
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set start_port [find_available_port $start_port]
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set p [exec $tclsh [info script] {*}$::argv \
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--client $port --port $start_port &]
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lappend ::clients_pids $p
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incr start_port 10
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}
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# Setup global state for the test server
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set ::idle_clients {}
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set ::active_clients {}
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array set ::active_clients_task {}
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array set ::clients_start_time {}
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set ::clients_time_history {}
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set ::failed_tests {}
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# Enter the event loop to handle clients I/O
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after 100 test_server_cron
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vwait forever
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}
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# This function gets called 10 times per second, for now does nothing but
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# may be used in the future in order to detect test clients taking too much
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# time to execute the task.
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proc test_server_cron {} {
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# Do some work here.
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after 100 test_server_cron
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}
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proc accept_test_clients {fd addr port} {
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fconfigure $fd -encoding binary
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fileevent $fd readable [list read_from_test_client $fd]
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}
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# This is the readable handler of our test server. Clients send us messages
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# in the form of a status code such and additional data. Supported
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# status types are:
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#
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# ready: the client is ready to execute the command. Only sent at client
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# startup. The server will queue the client FD in the list of idle
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# clients.
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# testing: just used to signal that a given test started.
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# ok: a test was executed with success.
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# err: a test was executed with an error.
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# exception: there was a runtime exception while executing the test.
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# done: all the specified test file was processed, this test client is
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# ready to accept a new task.
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proc read_from_test_client fd {
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set bytes [gets $fd]
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set payload [read $fd $bytes]
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foreach {status data} $payload break
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if {$status eq {ready}} {
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if {!$::quiet} {
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puts "\[$status\]: $data"
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}
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signal_idle_client $fd
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} elseif {$status eq {done}} {
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set elapsed [expr {[clock seconds]-$::clients_start_time($fd)}]
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set all_tests_count [llength $::all_tests]
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set running_tests_count [expr {[llength $::active_clients]-1}]
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set completed_tests_count [expr {$::next_test-$running_tests_count}]
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puts "\[$completed_tests_count/$all_tests_count [colorstr yellow $status]\]: $data ($elapsed seconds)"
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lappend ::clients_time_history $elapsed $data
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signal_idle_client $fd
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set ::active_clients_task($fd) DONE
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} elseif {$status eq {ok}} {
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if {!$::quiet} {
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puts "\[[colorstr green $status]\]: $data"
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}
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set ::active_clients_task($fd) "(OK) $data"
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} elseif {$status eq {err}} {
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set err "\[[colorstr red $status]\]: $data"
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puts $err
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lappend ::failed_tests $err
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set ::active_clients_task($fd) "(ERR) $data"
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} elseif {$status eq {exception}} {
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puts "\[[colorstr red $status]\]: $data"
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foreach p $::clients_pids {
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catch {exec kill -9 $p}
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}
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exit 1
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} elseif {$status eq {testing}} {
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set ::active_clients_task($fd) "(IN PROGRESS) $data"
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} else {
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if {!$::quiet} {
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puts "\[$status\]: $data"
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}
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}
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}
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# A new client is idle. Remove it from the list of active clients and
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# if there are still test units to run, launch them.
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proc signal_idle_client fd {
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# Remove this fd from the list of active clients.
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set ::active_clients \
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[lsearch -all -inline -not -exact $::active_clients $fd]
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if 0 {
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# The following loop is only useful for debugging tests that may
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# enter an infinite loop. Commented out normally.
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foreach x $::active_clients {
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if {[info exist ::active_clients_task($x)]} {
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puts "$x => $::active_clients_task($x)"
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} else {
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puts "$x => ???"
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}
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}
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}
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# New unit to process?
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if {$::next_test != [llength $::all_tests]} {
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if {!$::quiet} {
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puts [colorstr bold-white "Testing [lindex $::all_tests $::next_test]"]
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set ::active_clients_task($fd) "ASSIGNED: $fd ([lindex $::all_tests $::next_test])"
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}
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set ::clients_start_time($fd) [clock seconds]
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send_data_packet $fd run [lindex $::all_tests $::next_test]
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lappend ::active_clients $fd
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incr ::next_test
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} else {
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lappend ::idle_clients $fd
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if {[llength $::active_clients] == 0} {
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the_end
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}
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}
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}
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# The the_end funciton gets called when all the test units were already
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# executed, so the test finished.
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proc the_end {} {
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# TODO: print the status, exit with the rigth exit code.
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puts "\n The End\n"
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puts "Execution time of different units:"
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foreach {time name} $::clients_time_history {
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puts " $time seconds - $name"
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}
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if {[llength $::failed_tests]} {
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puts "\n[colorstr bold-red {!!! WARNING}] The following tests failed:\n"
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foreach failed $::failed_tests {
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puts "*** $failed"
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}
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cleanup
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exit 1
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} else {
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puts "\n[colorstr bold-white {\o/}] [colorstr bold-green {All tests passed without errors!}]\n"
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cleanup
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exit 0
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}
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}
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# The client is not even driven (the test server is instead) as we just need
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# to read the command, execute, reply... all this in a loop.
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proc test_client_main server_port {
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set ::test_server_fd [socket localhost $server_port]
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fconfigure $::test_server_fd -encoding binary
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send_data_packet $::test_server_fd ready [pid]
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while 1 {
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set bytes [gets $::test_server_fd]
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set payload [read $::test_server_fd $bytes]
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foreach {cmd data} $payload break
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if {$cmd eq {run}} {
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execute_tests $data
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} else {
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error "Unknown test client command: $cmd"
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}
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}
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}
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proc send_data_packet {fd status data} {
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set payload [list $status $data]
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puts $fd [string length $payload]
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puts -nonewline $fd $payload
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flush $fd
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}
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proc print_help_screen {} {
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puts [join {
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"--valgrind Run the test over valgrind."
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"--accurate Run slow randomized tests for more iterations."
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"--quiet Don't show individual tests."
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"--single <unit> Just execute the specified unit (see next option)."
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"--list-tests List all the available test units."
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"--clients <num> Number of test clients (16)."
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"--force-failure Force the execution of a test that always fails."
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"--help Print this help screen."
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} "\n"]
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}
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# parse arguments
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for {set j 0} {$j < [llength $argv]} {incr j} {
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set opt [lindex $argv $j]
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set arg [lindex $argv [expr $j+1]]
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if {$opt eq {--tags}} {
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foreach tag $arg {
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if {[string index $tag 0] eq "-"} {
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lappend ::denytags [string range $tag 1 end]
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} else {
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lappend ::allowtags $tag
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}
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}
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incr j
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} elseif {$opt eq {--valgrind}} {
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set ::valgrind 1
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} elseif {$opt eq {--quiet}} {
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set ::quiet 1
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} elseif {$opt eq {--host}} {
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set ::external 1
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set ::host $arg
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incr j
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} elseif {$opt eq {--port}} {
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set ::port $arg
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incr j
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} elseif {$opt eq {--accurate}} {
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set ::accurate 1
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} elseif {$opt eq {--force-failure}} {
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set ::force_failure 1
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} elseif {$opt eq {--single}} {
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set ::all_tests $arg
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incr j
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} elseif {$opt eq {--list-tests}} {
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foreach t $::all_tests {
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puts $t
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}
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exit 0
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} elseif {$opt eq {--client}} {
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set ::client 1
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set ::test_server_port $arg
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incr j
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} elseif {$opt eq {--clients}} {
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set ::numclients $arg
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incr j
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} elseif {$opt eq {--help}} {
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print_help_screen
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exit 0
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} else {
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puts "Wrong argument: $opt"
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exit 1
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}
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}
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proc attach_to_replication_stream {} {
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set s [socket [srv 0 "host"] [srv 0 "port"]]
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fconfigure $s -translation binary
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puts -nonewline $s "SYNC\r\n"
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flush $s
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# Get the count
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set count [gets $s]
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set prefix [string range $count 0 0]
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if {$prefix ne {$}} {
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error "attach_to_replication_stream error. Received '$count' as count."
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}
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set count [string range $count 1 end]
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# Consume the bulk payload
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while {$count} {
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set buf [read $s $count]
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set count [expr {$count-[string length $buf]}]
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}
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return $s
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}
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proc read_from_replication_stream {s} {
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fconfigure $s -blocking 0
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set attempt 0
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while {[gets $s count] == -1} {
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if {[incr attempt] == 10} return ""
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after 100
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}
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fconfigure $s -blocking 1
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set count [string range $count 1 end]
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# Return a list of arguments for the command.
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set res {}
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for {set j 0} {$j < $count} {incr j} {
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read $s 1
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set arg [::redis::redis_bulk_read $s]
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if {$j == 0} {set arg [string tolower $arg]}
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lappend res $arg
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}
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return $res
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}
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proc assert_replication_stream {s patterns} {
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for {set j 0} {$j < [llength $patterns]} {incr j} {
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assert_match [lindex $patterns $j] [read_from_replication_stream $s]
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}
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}
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proc close_replication_stream {s} {
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close $s
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}
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# With the parallel test running multiple Redis instances at the same time
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# we need a fast enough computer, otherwise a lot of tests may generate
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# false positives.
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# If the computer is too slow we revert the sequential test without any
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# parallelism, that is, clients == 1.
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proc is_a_slow_computer {} {
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set start [clock milliseconds]
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for {set j 0} {$j < 1000000} {incr j} {}
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set elapsed [expr [clock milliseconds]-$start]
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expr {$elapsed > 200}
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}
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if {$::client} {
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if {[catch { test_client_main $::test_server_port } err]} {
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set estr "Executing test client: $err.\n$::errorInfo"
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if {[catch {send_data_packet $::test_server_fd exception $estr}]} {
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puts $estr
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}
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exit 1
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}
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} else {
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if {[is_a_slow_computer]} {
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puts "** SLOW COMPUTER ** Using a single client to avoid false positives."
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set ::numclients 1
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}
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if {[catch { test_server_main } err]} {
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if {[string length $err] > 0} {
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# only display error when not generated by the test suite
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if {$err ne "exception"} {
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puts $::errorInfo
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}
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exit 1
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}
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}
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}
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