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|
# logreqres:skip because it seems many of these tests rely heavily on RESP2
start_server {tags {"tracking network logreqres:skip"}} {
# Create a deferred client we'll use to redirect invalidation
# messages to.
set rd_redirection [redis_deferring_client]
$rd_redirection client id
set redir_id [$rd_redirection read]
$rd_redirection subscribe __redis__:invalidate
$rd_redirection read ; # Consume the SUBSCRIBE reply.
# Create another client that's not used as a redirection client
# We should always keep this client's buffer clean
set rd [redis_deferring_client]
# Client to be used for SET and GET commands
# We don't read this client's buffer
set rd_sg [redis_client]
proc clean_all {} {
uplevel {
# We should make r TRACKING off first. If r is in RESP3,
# r FLUSH ALL will send us tracking-redir-broken or other
# info which will not be consumed.
r CLIENT TRACKING off
$rd QUIT
$rd_redirection QUIT
set rd [redis_deferring_client]
set rd_redirection [redis_deferring_client]
$rd_redirection client id
set redir_id [$rd_redirection read]
$rd_redirection subscribe __redis__:invalidate
$rd_redirection read ; # Consume the SUBSCRIBE reply.
r FLUSHALL
r HELLO 2
r config set tracking-table-max-keys 1000000
}
}
test {Clients are able to enable tracking and redirect it} {
r CLIENT TRACKING on REDIRECT $redir_id
} {*OK}
test {The other connection is able to get invalidations} {
r SET a{t} 1
r SET b{t} 1
r GET a{t}
r INCR b{t} ; # This key should not be notified, since it wasn't fetched.
r INCR a{t}
set keys [lindex [$rd_redirection read] 2]
assert {[llength $keys] == 1}
assert {[lindex $keys 0] eq {a{t}}}
}
test {The client is now able to disable tracking} {
# Make sure to add a few more keys in the tracking list
# so that we can check for leaks, as a side effect.
r MGET a{t} b{t} c{t} d{t} e{t} f{t} g{t}
r CLIENT TRACKING off
} {*OK}
test {Clients can enable the BCAST mode with the empty prefix} {
r CLIENT TRACKING on BCAST REDIRECT $redir_id
} {*OK*}
test {The connection gets invalidation messages about all the keys} {
r MSET a{t} 1 b{t} 2 c{t} 3
set keys [lsort [lindex [$rd_redirection read] 2]]
assert {$keys eq {a{t} b{t} c{t}}}
}
test {Clients can enable the BCAST mode with prefixes} {
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST REDIRECT $redir_id PREFIX a: PREFIX b:
r MULTI
r INCR a:1{t}
r INCR a:2{t}
r INCR b:1{t}
r INCR b:2{t}
# we should not get this key
r INCR c:1{t}
r EXEC
# Because of the internals, we know we are going to receive
# two separated notifications for the two different prefixes.
set keys1 [lsort [lindex [$rd_redirection read] 2]]
set keys2 [lsort [lindex [$rd_redirection read] 2]]
set keys [lsort [list {*}$keys1 {*}$keys2]]
assert {$keys eq {a:1{t} a:2{t} b:1{t} b:2{t}}}
}
test {Adding prefixes to BCAST mode works} {
r CLIENT TRACKING on BCAST REDIRECT $redir_id PREFIX c:
r INCR c:1234
set keys [lsort [lindex [$rd_redirection read] 2]]
assert {$keys eq {c:1234}}
}
test {Tracking NOLOOP mode in standard mode works} {
r CLIENT TRACKING off
r CLIENT TRACKING on REDIRECT $redir_id NOLOOP
r MGET otherkey1{t} loopkey{t} otherkey2{t}
$rd_sg SET otherkey1{t} 1; # We should get this
r SET loopkey{t} 1 ; # We should not get this
$rd_sg SET otherkey2{t} 1; # We should get this
# Because of the internals, we know we are going to receive
# two separated notifications for the two different keys.
set keys1 [lsort [lindex [$rd_redirection read] 2]]
set keys2 [lsort [lindex [$rd_redirection read] 2]]
set keys [lsort [list {*}$keys1 {*}$keys2]]
assert {$keys eq {otherkey1{t} otherkey2{t}}}
}
test {Tracking NOLOOP mode in BCAST mode works} {
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST REDIRECT $redir_id NOLOOP
$rd_sg SET otherkey1 1; # We should get this
r SET loopkey 1 ; # We should not get this
$rd_sg SET otherkey2 1; # We should get this
# Because $rd_sg send command synchronously, we know we are
# going to receive two separated notifications.
set keys1 [lsort [lindex [$rd_redirection read] 2]]
set keys2 [lsort [lindex [$rd_redirection read] 2]]
set keys [lsort [list {*}$keys1 {*}$keys2]]
assert {$keys eq {otherkey1 otherkey2}}
}
test {Tracking gets notification of expired keys} {
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST REDIRECT $redir_id NOLOOP
r SET mykey myval px 1
r SET mykeyotherkey myval ; # We should not get it
after 1000
set keys [lsort [lindex [$rd_redirection read] 2]]
assert {$keys eq {mykey}}
}
test {Tracking gets notification of lazy expired keys} {
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST REDIRECT $redir_id NOLOOP
# Use multi-exec to expose a race where the key gets an two invalidations
# in the same event loop, once by the client so filtered by NOLOOP, and
# the second one by the lazy expire
r MULTI
r SET mykey{t} myval px 1
r SET mykeyotherkey{t} myval ; # We should not get it
r DEBUG SLEEP 0.1
r GET mykey{t}
r EXEC
set keys [lsort [lindex [$rd_redirection read] 2]]
assert {$keys eq {mykey{t}}}
} {} {needs:debug}
test {HELLO 3 reply is correct} {
set reply [r HELLO 3]
assert_equal [dict get $reply proto] 3
}
test {HELLO without protover} {
set reply [r HELLO 3]
assert_equal [dict get $reply proto] 3
set reply [r HELLO]
assert_equal [dict get $reply proto] 3
set reply [r HELLO 2]
assert_equal [dict get $reply proto] 2
set reply [r HELLO]
assert_equal [dict get $reply proto] 2
# restore RESP3 for next test
r HELLO 3
}
test {RESP3 based basic invalidation} {
r CLIENT TRACKING off
r CLIENT TRACKING on
$rd_sg SET key1 1
r GET key1
$rd_sg SET key1 2
r read
} {invalidate key1}
test {RESP3 tracking redirection} {
r CLIENT TRACKING off
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_sg SET key1 2
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key1}}
}
test {Invalidations of previous keys can be redirected after switching to RESP3} {
r HELLO 2
$rd_sg SET key1 1
r GET key1
r HELLO 3
$rd_sg SET key1 2
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key1}}
}
test {Invalidations of new keys can be redirected after switching to RESP3} {
r HELLO 3
$rd_sg SET key1 1
r GET key1
$rd_sg SET key1 2
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key1}}
}
test {Invalid keys should not be tracked for scripts in NOLOOP mode} {
$rd_sg CLIENT TRACKING off
$rd_sg CLIENT TRACKING on NOLOOP
$rd_sg HELLO 3
$rd_sg SET key1 1
assert_equal "1" [$rd_sg GET key1]
# For write command in script, invalid key should not be tracked with NOLOOP flag
$rd_sg eval "return redis.call('set', 'key1', '2')" 1 key1
assert_equal "2" [$rd_sg GET key1]
$rd_sg CLIENT TRACKING off
}
test {Tracking only occurs for scripts when a command calls a read-only command} {
r CLIENT TRACKING off
r CLIENT TRACKING on
$rd_sg MSET key2{t} 1 key2{t} 1
# If a script doesn't call any read command, don't track any keys
r EVAL "redis.call('set', 'key3{t}', 'bar')" 2 key1{t} key2{t}
$rd_sg MSET key2{t} 2 key1{t} 2
assert_equal "PONG" [r ping]
# If a script calls a read command, just the read keys
r EVAL "redis.call('get', 'key2{t}')" 2 key1{t} key2{t}
$rd_sg MSET key2{t} 2 key3{t} 2
assert_equal {invalidate key2{t}} [r read]
assert_equal "PONG" [r ping]
# RO variants work like the normal variants
# If a RO script doesn't call any read command, don't track any keys
r EVAL_RO "redis.call('ping')" 2 key1{t} key2{t}
$rd_sg MSET key2{t} 2 key1{t} 2
assert_equal "PONG" [r ping]
# If a RO script calls a read command, just the read keys
r EVAL_RO "redis.call('get', 'key2{t}')" 2 key1{t} key2{t}
$rd_sg MSET key2{t} 2 key3{t} 2
assert_equal {invalidate key2{t}} [r read]
assert_equal "PONG" [r ping]
}
test {RESP3 Client gets tracking-redir-broken push message after cached key changed when rediretion client is terminated} {
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_redirection QUIT
assert_equal OK [$rd_redirection read]
$rd_sg SET key1 2
set MAX_TRIES 100
set res -1
for {set i 0} {$i <= $MAX_TRIES && $res < 0} {incr i} {
set res [lsearch -exact [r PING] "tracking-redir-broken"]
}
assert {$res >= 0}
# Consume PING reply
assert_equal PONG [r read]
# Reinstantiating after QUIT
set rd_redirection [redis_deferring_client]
$rd_redirection CLIENT ID
set redir_id [$rd_redirection read]
$rd_redirection SUBSCRIBE __redis__:invalidate
$rd_redirection read ; # Consume the SUBSCRIBE reply
}
test {Different clients can redirect to the same connection} {
r CLIENT TRACKING on REDIRECT $redir_id
$rd CLIENT TRACKING on REDIRECT $redir_id
assert_equal OK [$rd read] ; # Consume the TRACKING reply
$rd_sg MSET key1{t} 1 key2{t} 1
r GET key1{t}
$rd GET key2{t}
assert_equal 1 [$rd read] ; # Consume the GET reply
$rd_sg INCR key1{t}
$rd_sg INCR key2{t}
set res1 [lindex [$rd_redirection read] 2]
set res2 [lindex [$rd_redirection read] 2]
assert {$res1 eq {key1{t}}}
assert {$res2 eq {key2{t}}}
}
test {Different clients using different protocols can track the same key} {
$rd HELLO 3
set reply [$rd read] ; # Consume the HELLO reply
assert_equal 3 [dict get $reply proto]
$rd CLIENT TRACKING on
assert_equal OK [$rd read] ; # Consume the TRACKING reply
$rd_sg set key1 1
r GET key1
$rd GET key1
assert_equal 1 [$rd read] ; # Consume the GET reply
$rd_sg INCR key1
set res1 [lindex [$rd_redirection read] 2]
$rd PING ; # Non redirecting client has to talk to the server in order to get invalidation message
set res2 [lindex [split [$rd read] " "] 1]
assert_equal PONG [$rd read] ; # Consume the PING reply, which comes together with the invalidation message
assert {$res1 eq {key1}}
assert {$res2 eq {key1}}
}
test {No invalidation message when using OPTIN option} {
r CLIENT TRACKING on OPTIN REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1 ; # This key should not be notified, since OPTIN is on and CLIENT CACHING yes wasn't called
$rd_sg SET key1 2
# Preparing some message to consume on $rd_redirection so we don't get blocked
r CLIENT TRACKING off
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key2 1
r GET key2 ; # This key should be notified
$rd_sg SET key2 2
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key2}}
}
test {Invalidation message sent when using OPTIN option with CLIENT CACHING yes} {
r CLIENT TRACKING on OPTIN REDIRECT $redir_id
$rd_sg SET key1 3
r CLIENT CACHING yes
r GET key1
$rd_sg SET key1 4
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key1}}
}
test {Invalidation message sent when using OPTOUT option} {
r CLIENT TRACKING off
r CLIENT TRACKING on OPTOUT REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_sg SET key1 2
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key1}}
}
test {No invalidation message when using OPTOUT option with CLIENT CACHING no} {
$rd_sg SET key1 1
r CLIENT CACHING no
r GET key1 ; # This key should not be notified, since OPTOUT is on and CLIENT CACHING no was called
$rd_sg SET key1 2
# Preparing some message to consume on $rd_redirection so we don't get blocked
$rd_sg SET key2 1
r GET key2 ; # This key should be notified
$rd_sg SET key2 2
set res [lindex [$rd_redirection read] 2]
assert {$res eq {key2}}
}
test {Able to redirect to a RESP3 client} {
$rd_redirection UNSUBSCRIBE __redis__:invalidate ; # Need to unsub first before we can do HELLO 3
set res [$rd_redirection read] ; # Consume the UNSUBSCRIBE reply
assert_equal {__redis__:invalidate} [lindex $res 1]
$rd_redirection HELLO 3
set res [$rd_redirection read] ; # Consume the HELLO reply
assert_equal [dict get $reply proto] 3
$rd_redirection SUBSCRIBE __redis__:invalidate
set res [$rd_redirection read] ; # Consume the SUBSCRIBE reply
assert_equal {__redis__:invalidate} [lindex $res 1]
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_sg INCR key1
set res [lindex [$rd_redirection read] 1]
assert {$res eq {key1}}
$rd_redirection HELLO 2
set res [$rd_redirection read] ; # Consume the HELLO reply
assert_equal [dict get $res proto] 2
}
test {After switching from normal tracking to BCAST mode, no invalidation message is produced for pre-BCAST keys} {
r CLIENT TRACKING off
r HELLO 3
r CLIENT TRACKING on
$rd_sg SET key1 1
r GET key1
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST
$rd_sg INCR key1
set inv_msg [r PING]
set ping_reply [r read]
assert {$inv_msg eq {invalidate key1}}
assert {$ping_reply eq {PONG}}
}
test {BCAST with prefix collisions throw errors} {
set r [redis_client]
catch {$r CLIENT TRACKING ON BCAST PREFIX FOOBAR PREFIX FOO} output
assert_match {ERR Prefix 'FOOBAR'*'FOO'*} $output
catch {$r CLIENT TRACKING ON BCAST PREFIX FOO PREFIX FOOBAR} output
assert_match {ERR Prefix 'FOO'*'FOOBAR'*} $output
$r CLIENT TRACKING ON BCAST PREFIX FOO PREFIX BAR
catch {$r CLIENT TRACKING ON BCAST PREFIX FO} output
assert_match {ERR Prefix 'FO'*'FOO'*} $output
catch {$r CLIENT TRACKING ON BCAST PREFIX BARB} output
assert_match {ERR Prefix 'BARB'*'BAR'*} $output
$r CLIENT TRACKING OFF
}
test {hdel deliver invalidate message after response in the same connection} {
r CLIENT TRACKING off
r HELLO 3
r CLIENT TRACKING on
r HSET myhash f 1
r HGET myhash f
set res [r HDEL myhash f]
assert_equal $res 1
set res [r read]
assert_equal $res {invalidate myhash}
}
test {Tracking invalidation message is not interleaved with multiple keys response} {
r CLIENT TRACKING off
r HELLO 3
r CLIENT TRACKING on
# We need disable active expire, so we can trigger lazy expire
r DEBUG SET-ACTIVE-EXPIRE 0
r MULTI
r MSET x{t} 1 y{t} 2
r PEXPIRE y{t} 100
r GET y{t}
r EXEC
after 110
# Read expired key y{t}, generate invalidate message about this key
set res [r MGET x{t} y{t}]
assert_equal $res {1 {}}
# Consume the invalidate message which is after command response
set res [r read]
assert_equal $res {invalidate y{t}}
r DEBUG SET-ACTIVE-EXPIRE 1
} {OK} {needs:debug}
test {Tracking invalidation message is not interleaved with transaction response} {
r CLIENT TRACKING off
r HELLO 3
r CLIENT TRACKING on
r MSET a{t} 1 b{t} 2
r GET a{t}
# Start a transaction, make a{t} generate an invalidate message
r MULTI
r INCR a{t}
r GET b{t}
set res [r EXEC]
assert_equal $res {2 2}
set res [r read]
# Consume the invalidate message which is after command response
assert_equal $res {invalidate a{t}}
}
test {Tracking invalidation message of eviction keys should be before response} {
# Get the current memory limit and calculate a new limit.
r CLIENT TRACKING off
r HELLO 3
r CLIENT TRACKING on
# make the previous test is really done before sampling used_memory
wait_lazyfree_done r
set used [expr {[s used_memory] - [s mem_not_counted_for_evict]}]
set limit [expr {$used+100*1024}]
set old_policy [lindex [r config get maxmemory-policy] 1]
r config set maxmemory $limit
# We set policy volatile-random, so only keys with ttl will be evicted
r config set maxmemory-policy volatile-random
# Add a volatile key and tracking it.
r setex volatile-key 10000 x
r get volatile-key
# We use SETBIT here, so we can set a big key and get the used_memory
# bigger than maxmemory. Next command will evict volatile keys. We
# can't use SET, as SET uses big input buffer, so it will fail.
r setbit big-key 1600000 0 ;# this will consume 200kb
# volatile-key is evicted before response.
set res [r getbit big-key 0]
assert_equal $res {invalidate volatile-key}
set res [r read]
assert_equal $res 0
r config set maxmemory-policy $old_policy
r config set maxmemory 0
}
test {Unblocked BLMOVE gets notification after response} {
r RPUSH list2{t} a
$rd HELLO 3
$rd read
$rd CLIENT TRACKING on
$rd read
# Tracking key list2{t}
$rd LRANGE list2{t} 0 -1
$rd read
# We block on list1{t}
$rd BLMOVE list1{t} list2{t} left left 0
wait_for_blocked_clients_count 1
# unblock $rd, list2{t} gets element and generate invalidation message
r rpush list1{t} foo
assert_equal [$rd read] {foo}
assert_equal [$rd read] {invalidate list2{t}}
}
test {Tracking gets notification on tracking table key eviction} {
r CLIENT TRACKING off
r CLIENT TRACKING on REDIRECT $redir_id NOLOOP
r MSET key1{t} 1 key2{t} 2
# Let the server track the two keys for us
r MGET key1{t} key2{t}
# Force the eviction of all the keys but one:
r config set tracking-table-max-keys 1
# Note that we may have other keys in the table for this client,
# since we disabled/enabled tracking multiple time with the same
# ID, and tracking does not do ID cleanups for performance reasons.
# So we check that eventually we'll receive one or the other key,
# otherwise the test will die for timeout.
while 1 {
set keys [lindex [$rd_redirection read] 2]
if {$keys eq {key1{t}} || $keys eq {key2{t}}} break
}
# We should receive an expire notification for one of
# the two keys (only one must remain)
assert {$keys eq {key1{t}} || $keys eq {key2{t}}}
}
test {Invalidation message received for flushall} {
clean_all
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_sg FLUSHALL
set msg [$rd_redirection read]
assert {[lindex msg 2] eq {} }
}
test {Invalidation message received for flushdb} {
clean_all
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_sg FLUSHDB
set msg [$rd_redirection read]
assert {[lindex msg 2] eq {} }
}
test {Test ASYNC flushall} {
clean_all
r CLIENT TRACKING on REDIRECT $redir_id
r GET key1
r GET key2
assert_equal [s 0 tracking_total_keys] 2
$rd_sg FLUSHALL ASYNC
assert_equal [s 0 tracking_total_keys] 0
assert_equal [lindex [$rd_redirection read] 2] {}
}
test {flushdb tracking invalidation message is not interleaved with transaction response} {
clean_all
r HELLO 3
r CLIENT TRACKING on
r SET a{t} 1
r GET a{t}
r MULTI
r FLUSHDB
set res [r EXEC]
assert_equal $res {OK}
# Consume the invalidate message which is after command response
r read
} {invalidate {}}
# Keys are defined to be evicted 100 at a time by default.
# If after eviction the number of keys still surpasses the limit
# defined in tracking-table-max-keys, we increases eviction
# effort to 200, and then 300, etc.
# This test tests this effort incrementation.
test {Server is able to evacuate enough keys when num of keys surpasses limit by more than defined initial effort} {
clean_all
set NUM_OF_KEYS_TO_TEST 250
set TRACKING_TABLE_MAX_KEYS 1
r CLIENT TRACKING on REDIRECT $redir_id
for {set i 0} {$i < $NUM_OF_KEYS_TO_TEST} {incr i} {
$rd_sg SET key$i $i
r GET key$i
}
r config set tracking-table-max-keys $TRACKING_TABLE_MAX_KEYS
# If not enough keys are evicted, we won't get enough invalidation
# messages, and "$rd_redirection read" will block.
# If too many keys are evicted, we will get too many invalidation
# messages, and the assert will fail.
for {set i 0} {$i < $NUM_OF_KEYS_TO_TEST - $TRACKING_TABLE_MAX_KEYS} {incr i} {
$rd_redirection read
}
$rd_redirection PING
assert {[$rd_redirection read] eq {pong {}}}
}
test {Tracking info is correct} {
clean_all
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
$rd_sg SET key2 2
r GET key1
r GET key2
$rd CLIENT TRACKING on BCAST PREFIX prefix:
assert [string match *OK* [$rd read]]
$rd_sg SET prefix:key1 1
$rd_sg SET prefix:key2 2
set info [r info]
regexp "\r\ntracking_total_items:(.*?)\r\n" $info _ total_items
regexp "\r\ntracking_total_keys:(.*?)\r\n" $info _ total_keys
regexp "\r\ntracking_total_prefixes:(.*?)\r\n" $info _ total_prefixes
regexp "\r\ntracking_clients:(.*?)\r\n" $info _ tracking_clients
assert {$total_items == 2}
assert {$total_keys == 2}
assert {$total_prefixes == 1}
assert {$tracking_clients == 2}
}
test {CLIENT GETREDIR provides correct client id} {
set res [r CLIENT GETREDIR]
assert_equal $redir_id $res
r CLIENT TRACKING off
set res [r CLIENT GETREDIR]
assert_equal -1 $res
r CLIENT TRACKING on
set res [r CLIENT GETREDIR]
assert_equal 0 $res
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking off} {
r CLIENT TRACKING off
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {off} $flags
set redirect [dict get $res redirect]
assert_equal {-1} $redirect
set prefixes [dict get $res prefixes]
assert_equal {} $prefixes
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking on} {
r CLIENT TRACKING on
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on} $flags
set redirect [dict get $res redirect]
assert_equal {0} $redirect
set prefixes [dict get $res prefixes]
assert_equal {} $prefixes
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking on with options} {
r CLIENT TRACKING on REDIRECT $redir_id noloop
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on noloop} $flags
set redirect [dict get $res redirect]
assert_equal $redir_id $redirect
set prefixes [dict get $res prefixes]
assert_equal {} $prefixes
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking optin} {
r CLIENT TRACKING off
r CLIENT TRACKING on optin
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on optin} $flags
set redirect [dict get $res redirect]
assert_equal {0} $redirect
set prefixes [dict get $res prefixes]
assert_equal {} $prefixes
r CLIENT CACHING yes
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on optin caching-yes} $flags
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking optout} {
r CLIENT TRACKING off
r CLIENT TRACKING on optout
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on optout} $flags
set redirect [dict get $res redirect]
assert_equal {0} $redirect
set prefixes [dict get $res prefixes]
assert_equal {} $prefixes
r CLIENT CACHING no
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on optout caching-no} $flags
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking bcast mode} {
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST PREFIX foo PREFIX bar
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on bcast} $flags
set redirect [dict get $res redirect]
assert_equal {0} $redirect
set prefixes [lsort [dict get $res prefixes]]
assert_equal {bar foo} $prefixes
r CLIENT TRACKING off
r CLIENT TRACKING on BCAST
set res [r client trackinginfo]
set prefixes [dict get $res prefixes]
assert_equal {{}} $prefixes
}
test {CLIENT TRACKINGINFO provides reasonable results when tracking redir broken} {
clean_all
r HELLO 3
r CLIENT TRACKING on REDIRECT $redir_id
$rd_sg SET key1 1
r GET key1
$rd_redirection QUIT
assert_equal OK [$rd_redirection read]
$rd_sg SET key1 2
set res [lsearch -exact [r read] "tracking-redir-broken"]
assert {$res >= 0}
set res [r client trackinginfo]
set flags [dict get $res flags]
assert_equal {on broken_redirect} $flags
set redirect [dict get $res redirect]
assert_equal $redir_id $redirect
set prefixes [dict get $res prefixes]
assert_equal {} $prefixes
}
test {Regression test for #11715} {
# This issue manifests when a client invalidates keys through the max key
# limit, which invalidates keys to get Redis below the limit, but no command is
# then executed. This can occur in several ways but the simplest is through
# multi-exec which queues commands.
clean_all
r config set tracking-table-max-keys 2
# The cron will invalidate keys if we're above the limit, so disable it.
r debug pause-cron 1
# Set up a client that has listened to 2 keys and start a multi, this
# sets up the crash for later.
$rd HELLO 3
$rd read
$rd CLIENT TRACKING on
assert_match "OK" [$rd read]
$rd mget "1{tag}" "2{tag}"
assert_match "{} {}" [$rd read]
$rd multi
assert_match "OK" [$rd read]
# Reduce the tracking table keys to 1, this doesn't immediately take affect, but
# instead will apply on the next command.
r config set tracking-table-max-keys 1
# This command will get queued, so make sure this command doesn't crash.
$rd ping
$rd exec
# Validate we got some invalidation message and then the command was queued.
assert_match "invalidate *{tag}" [$rd read]
assert_match "QUEUED" [$rd read]
assert_match "PONG" [$rd read]
r debug pause-cron 0
} {OK} {needs:debug}
foreach resp {3 2} {
test "RESP$resp based basic invalidation with client reply off" {
# This entire test is mostly irrelevant for RESP2, but we run it anyway just for some extra coverage.
clean_all
$rd hello $resp
$rd read
$rd client tracking on
$rd read
$rd_sg set foo bar
$rd get foo
$rd read
$rd client reply off
$rd_sg set foo bar2
if {$resp == 3} {
assert_equal {invalidate foo} [$rd read]
} elseif {$resp == 2} { } ;# Just coverage
# Verify things didn't get messed up and no unexpected reply was pushed to the client.
$rd client reply on
assert_equal {OK} [$rd read]
$rd ping
assert_equal {PONG} [$rd read]
}
}
test {RESP3 based basic redirect invalidation with client reply off} {
clean_all
set rd_redir [redis_deferring_client]
$rd_redir hello 3
$rd_redir read
$rd_redir client id
set rd_redir_id [$rd_redir read]
$rd client tracking on redirect $rd_redir_id
$rd read
$rd_sg set foo bar
$rd get foo
$rd read
$rd_redir client reply off
$rd_sg set foo bar2
assert_equal {invalidate foo} [$rd_redir read]
# Verify things didn't get messed up and no unexpected reply was pushed to the client.
$rd_redir client reply on
assert_equal {OK} [$rd_redir read]
$rd_redir ping
assert_equal {PONG} [$rd_redir read]
$rd_redir close
}
test {RESP3 based basic tracking-redir-broken with client reply off} {
clean_all
$rd hello 3
$rd read
$rd client tracking on redirect $redir_id
$rd read
$rd_sg set foo bar
$rd get foo
$rd read
$rd client reply off
$rd_redirection quit
$rd_redirection read
$rd_sg set foo bar2
set res [lsearch -exact [$rd read] "tracking-redir-broken"]
assert_morethan_equal $res 0
# Verify things didn't get messed up and no unexpected reply was pushed to the client.
$rd client reply on
assert_equal {OK} [$rd read]
$rd ping
assert_equal {PONG} [$rd read]
}
$rd_redirection close
$rd_sg close
$rd close
}
# Just some extra covergae for --log-req-res, because we do not
# run the full tracking unit in that mode
start_server {tags {"tracking network"}} {
test {Coverage: Basic CLIENT CACHING} {
set rd_redirection [redis_deferring_client]
$rd_redirection client id
set redir_id [$rd_redirection read]
assert_equal {OK} [r CLIENT TRACKING on OPTIN REDIRECT $redir_id]
assert_equal {OK} [r CLIENT CACHING yes]
r CLIENT TRACKING off
} {OK}
test {Coverage: Basic CLIENT REPLY} {
r CLIENT REPLY on
} {OK}
test {Coverage: Basic CLIENT TRACKINGINFO} {
r CLIENT TRACKINGINFO
} {flags off redirect -1 prefixes {}}
test {Coverage: Basic CLIENT GETREDIR} {
r CLIENT GETREDIR
} {-1}
}
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