start_server {tags {"scan network"}} { test "SCAN basic" { r flushdb 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 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 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 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_encoding $enc set # 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 {listpack hashtable} { test "HSCAN with encoding $enc" { # Create the Hash r del hash if {$enc eq {listpack}} { 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_encoding $enc hash # 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_encoding $enc zset # 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 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" } } } } }