# Primitive tests on cluster-enabled redis with modules using redis-cli source tests/support/cli.tcl proc cluster_info {r field} { if {[regexp "^$field:(.*?)\r\n" [$r cluster info] _ value]} { set _ $value } } # Provide easy access to CLUSTER INFO properties. Same semantic as "proc s". proc csi {args} { set level 0 if {[string is integer [lindex $args 0]]} { set level [lindex $args 0] set args [lrange $args 1 end] } cluster_info [srv $level "client"] [lindex $args 0] } set testmodule [file normalize tests/modules/blockonkeys.so] set testmodule_nokey [file normalize tests/modules/blockonbackground.so] # make sure the test infra won't use SELECT set ::singledb 1 # cluster creation is complicated with TLS, and the current tests don't really need that coverage tags {tls:skip external:skip cluster modules} { # start three servers set base_conf [list cluster-enabled yes cluster-node-timeout 1 loadmodule $testmodule] start_server [list overrides $base_conf] { start_server [list overrides $base_conf] { start_server [list overrides $base_conf] { set node1 [srv 0 client] set node2 [srv -1 client] set node3 [srv -2 client] set node3_pid [srv -2 pid] # the "overrides" mechanism can only support one "loadmodule" directive $node1 module load $testmodule_nokey $node2 module load $testmodule_nokey $node3 module load $testmodule_nokey test {Create 3 node cluster} { exec src/redis-cli --cluster-yes --cluster create \ 127.0.0.1:[srv 0 port] \ 127.0.0.1:[srv -1 port] \ 127.0.0.1:[srv -2 port] wait_for_condition 1000 50 { [csi 0 cluster_state] eq {ok} && [csi -1 cluster_state] eq {ok} && [csi -2 cluster_state] eq {ok} } else { fail "Cluster doesn't stabilize" } } test "Run blocking command (blocked on key) on cluster node3" { # key9184688 is mapped to slot 10923 (first slot of node 3) set node3_rd [redis_deferring_client -2] $node3_rd fsl.bpop key9184688 0 $node3_rd flush wait_for_condition 50 100 { [s -2 blocked_clients] eq {1} } else { fail "Client executing blocking command (blocked on key) not blocked" } } test "Run blocking command (no keys) on cluster node2" { set node2_rd [redis_deferring_client -1] $node2_rd block.block 0 $node2_rd flush wait_for_condition 50 100 { [s -1 blocked_clients] eq {1} } else { fail "Client executing blocking command (no keys) not blocked" } } test "Perform a Resharding" { exec src/redis-cli --cluster-yes --cluster reshard 127.0.0.1:[srv -2 port] \ --cluster-to [$node1 cluster myid] \ --cluster-from [$node3 cluster myid] \ --cluster-slots 1 } test "Verify command (no keys) is unaffected after resharding" { # verify there are blocked clients on node2 assert_equal [s -1 blocked_clients] {1} #release client $node2 block.release 0 } test "Verify command (blocked on key) got unblocked after resharding" { # this (read) will wait for the node3 to realize the new topology assert_error {*MOVED*} {$node3_rd read} # verify there are no blocked clients assert_equal [s 0 blocked_clients] {0} assert_equal [s -1 blocked_clients] {0} assert_equal [s -2 blocked_clients] {0} } test "Wait for cluster to be stable" { wait_for_condition 1000 50 { [catch {exec src/redis-cli --cluster \ check 127.0.0.1:[srv 0 port] \ }] == 0 } else { fail "Cluster doesn't stabilize" } } test "Sanity test push cmd after resharding" { assert_error {*MOVED*} {$node3 fsl.push key9184688 1} set node1_rd [redis_deferring_client 0] $node1_rd fsl.bpop key9184688 0 $node1_rd flush wait_for_condition 50 100 { [s 0 blocked_clients] eq {1} } else { puts "Client not blocked" puts "read from blocked client: [$node1_rd read]" fail "Client not blocked" } $node1 fsl.push key9184688 2 assert_equal {2} [$node1_rd read] } $node1_rd close $node2_rd close $node3_rd close test "Run blocking command (blocked on key) again on cluster node1" { $node1 del key9184688 # key9184688 is mapped to slot 10923 which has been moved to node1 set node1_rd [redis_deferring_client 0] $node1_rd fsl.bpop key9184688 0 $node1_rd flush wait_for_condition 50 100 { [s 0 blocked_clients] eq {1} } else { fail "Client executing blocking command (blocked on key) again not blocked" } } test "Run blocking command (no keys) again on cluster node2" { set node2_rd [redis_deferring_client -1] $node2_rd block.block 0 $node2_rd flush wait_for_condition 50 100 { [s -1 blocked_clients] eq {1} } else { fail "Client executing blocking command (no keys) again not blocked" } } test "Kill a cluster node and wait for fail state" { # kill node3 in cluster exec kill -SIGSTOP $node3_pid wait_for_condition 1000 50 { [csi 0 cluster_state] eq {fail} && [csi -1 cluster_state] eq {fail} } else { fail "Cluster doesn't fail" } } test "Verify command (blocked on key) got unblocked after cluster failure" { assert_error {*CLUSTERDOWN*} {$node1_rd read} } test "Verify command (no keys) got unblocked after cluster failure" { assert_error {*CLUSTERDOWN*} {$node2_rd read} # verify there are no blocked clients assert_equal [s 0 blocked_clients] {0} assert_equal [s -1 blocked_clients] {0} } exec kill -SIGCONT $node3_pid $node1_rd close $node2_rd close # stop three servers } } } } ;# tags