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read-redis/tests/unit/scan.tcl
Yossi Gottlieb 522d93607a
Add io-thread daily CI tests. (#8232) 
This adds basic coverage to IO threads by running the cluster and few selected Redis test suite tests with the IO threads enabled.

Also provides some necessary additional improvements to the test suite:

* Add --config to sentinel/cluster tests for arbitrary configuration.
* Fix --tags whitelisting which was broken.
* Add a `network` tag to some tests that are more network intensive. This is work in progress and more tests should be properly tagged in the future.
2021-01-17 15:48:48 +02:00

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start_server {tags {"scan network"}} {
test "SCAN basic" {
r flushdb
r debug populate 1000
set cur 0
set keys {}
while 1 {
set res [r scan $cur]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
set keys [lsort -unique $keys]
assert_equal 1000 [llength $keys]
}
test "SCAN COUNT" {
r flushdb
r debug populate 1000
set cur 0
set keys {}
while 1 {
set res [r scan $cur count 5]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
set keys [lsort -unique $keys]
assert_equal 1000 [llength $keys]
}
test "SCAN MATCH" {
r flushdb
r debug populate 1000
set cur 0
set keys {}
while 1 {
set res [r scan $cur match "key:1??"]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
set keys [lsort -unique $keys]
assert_equal 100 [llength $keys]
}
test "SCAN TYPE" {
r flushdb
# populate only creates strings
r debug populate 1000
# Check non-strings are excluded
set cur 0
set keys {}
while 1 {
set res [r scan $cur type "list"]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
assert_equal 0 [llength $keys]
# Check strings are included
set cur 0
set keys {}
while 1 {
set res [r scan $cur type "string"]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
assert_equal 1000 [llength $keys]
# Check all three args work together
set cur 0
set keys {}
while 1 {
set res [r scan $cur type "string" match "key:*" count 10]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
assert_equal 1000 [llength $keys]
}
foreach enc {intset hashtable} {
test "SSCAN with encoding $enc" {
# Create the Set
r del set
if {$enc eq {intset}} {
set prefix ""
} else {
set prefix "ele:"
}
set elements {}
for {set j 0} {$j < 100} {incr j} {
lappend elements ${prefix}${j}
}
r sadd set {*}$elements
# Verify that the encoding matches.
assert {[r object encoding set] eq $enc}
# Test SSCAN
set cur 0
set keys {}
while 1 {
set res [r sscan set $cur]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
set keys [lsort -unique $keys]
assert_equal 100 [llength $keys]
}
}
foreach enc {ziplist hashtable} {
test "HSCAN with encoding $enc" {
# Create the Hash
r del hash
if {$enc eq {ziplist}} {
set count 30
} else {
set count 1000
}
set elements {}
for {set j 0} {$j < $count} {incr j} {
lappend elements key:$j $j
}
r hmset hash {*}$elements
# Verify that the encoding matches.
assert {[r object encoding hash] eq $enc}
# Test HSCAN
set cur 0
set keys {}
while 1 {
set res [r hscan hash $cur]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
set keys2 {}
foreach {k v} $keys {
assert {$k eq "key:$v"}
lappend keys2 $k
}
set keys2 [lsort -unique $keys2]
assert_equal $count [llength $keys2]
}
}
foreach enc {ziplist skiplist} {
test "ZSCAN with encoding $enc" {
# Create the Sorted Set
r del zset
if {$enc eq {ziplist}} {
set count 30
} else {
set count 1000
}
set elements {}
for {set j 0} {$j < $count} {incr j} {
lappend elements $j key:$j
}
r zadd zset {*}$elements
# Verify that the encoding matches.
assert {[r object encoding zset] eq $enc}
# Test ZSCAN
set cur 0
set keys {}
while 1 {
set res [r zscan zset $cur]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
}
set keys2 {}
foreach {k v} $keys {
assert {$k eq "key:$v"}
lappend keys2 $k
}
set keys2 [lsort -unique $keys2]
assert_equal $count [llength $keys2]
}
}
test "SCAN guarantees check under write load" {
r flushdb
r debug populate 100
# We start scanning here, so keys from 0 to 99 should all be
# reported at the end of the iteration.
set keys {}
while 1 {
set res [r scan $cur]
set cur [lindex $res 0]
set k [lindex $res 1]
lappend keys {*}$k
if {$cur == 0} break
# Write 10 random keys at every SCAN iteration.
for {set j 0} {$j < 10} {incr j} {
r set addedkey:[randomInt 1000] foo
}
}
set keys2 {}
foreach k $keys {
if {[string length $k] > 6} continue
lappend keys2 $k
}
set keys2 [lsort -unique $keys2]
assert_equal 100 [llength $keys2]
}
test "SSCAN with integer encoded object (issue #1345)" {
set objects {1 a}
r del set
r sadd set {*}$objects
set res [r sscan set 0 MATCH *a* COUNT 100]
assert_equal [lsort -unique [lindex $res 1]] {a}
set res [r sscan set 0 MATCH *1* COUNT 100]
assert_equal [lsort -unique [lindex $res 1]] {1}
}
test "SSCAN with PATTERN" {
r del mykey
r sadd mykey foo fab fiz foobar 1 2 3 4
set res [r sscan mykey 0 MATCH foo* COUNT 10000]
lsort -unique [lindex $res 1]
} {foo foobar}
test "HSCAN with PATTERN" {
r del mykey
r hmset mykey foo 1 fab 2 fiz 3 foobar 10 1 a 2 b 3 c 4 d
set res [r hscan mykey 0 MATCH foo* COUNT 10000]
lsort -unique [lindex $res 1]
} {1 10 foo foobar}
test "ZSCAN with PATTERN" {
r del mykey
r zadd mykey 1 foo 2 fab 3 fiz 10 foobar
set res [r zscan mykey 0 MATCH foo* COUNT 10000]
lsort -unique [lindex $res 1]
}
test "ZSCAN scores: regression test for issue #2175" {
r del mykey
for {set j 0} {$j < 500} {incr j} {
r zadd mykey 9.8813129168249309e-323 $j
}
set res [lindex [r zscan mykey 0] 1]
set first_score [lindex $res 1]
assert {$first_score != 0}
}
test "SCAN regression test for issue #4906" {
for {set k 0} {$k < 100} {incr k} {
r del set
r sadd set x; # Make sure it's not intset encoded
set toremove {}
unset -nocomplain found
array set found {}
# Populate the set
set numele [expr {101+[randomInt 1000]}]
for {set j 0} {$j < $numele} {incr j} {
r sadd set $j
if {$j >= 100} {
lappend toremove $j
}
}
# Start scanning
set cursor 0
set iteration 0
set del_iteration [randomInt 10]
while {!($cursor == 0 && $iteration != 0)} {
lassign [r sscan set $cursor] cursor items
# Mark found items. We expect to find from 0 to 99 at the end
# since those elements will never be removed during the scanning.
foreach i $items {
set found($i) 1
}
incr iteration
# At some point remove most of the items to trigger the
# rehashing to a smaller hash table.
if {$iteration == $del_iteration} {
r srem set {*}$toremove
}
}
# Verify that SSCAN reported everything from 0 to 99
for {set j 0} {$j < 100} {incr j} {
if {![info exists found($j)]} {
fail "SSCAN element missing $j"
}
}
}
}
}
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