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redict/tests/integration/replication.tcl
Meir Shpilraien (Spielrein) 885f6b5ceb
Redis Function Libraries (#10004) 
# Redis Function Libraries

This PR implements Redis Functions Libraries as describe on: https://github.com/redis/redis/issues/9906.

Libraries purpose is to provide a better code sharing between functions by allowing to create multiple
functions in a single command. Functions that were created together can safely share code between
each other without worrying about compatibility issues and versioning.

Creating a new library is done using 'FUNCTION LOAD' command (full API is described below)

This PR introduces a new struct called libraryInfo, libraryInfo holds information about a library:
* name - name of the library
* engine - engine used to create the library
* code - library code
* description - library description
* functions - the functions exposed by the library

When Redis gets the `FUNCTION LOAD` command it creates a new empty libraryInfo.
Redis passes the `CODE` to the relevant engine alongside the empty libraryInfo.
As a result, the engine will create one or more functions by calling 'libraryCreateFunction'.
The new funcion will be added to the newly created libraryInfo. So far Everything is happening
locally on the libraryInfo so it is easy to abort the operation (in case of an error) by simply
freeing the libraryInfo. After the library info is fully constructed we start the joining phase by
which we will join the new library to the other libraries currently exist on Redis.
The joining phase make sure there is no function collision and add the library to the
librariesCtx (renamed from functionCtx). LibrariesCtx is used all around the code in the exact
same way as functionCtx was used (with respect to RDB loading, replicatio, ...).
The only difference is that apart from function dictionary (maps function name to functionInfo
object), the librariesCtx contains also a libraries dictionary that maps library name to libraryInfo object.

## New API
### FUNCTION LOAD
`FUNCTION LOAD <ENGINE> <LIBRARY NAME> [REPLACE] [DESCRIPTION <DESCRIPTION>] <CODE>`
Create a new library with the given parameters:
* ENGINE - REPLACE Engine name to use to create the library.
* LIBRARY NAME - The new library name.
* REPLACE - If the library already exists, replace it.
* DESCRIPTION - Library description.
* CODE - Library code.

Return "OK" on success, or error on the following cases:
* Library name already taken and REPLACE was not used
* Name collision with another existing library (even if replace was uses)
* Library registration failed by the engine (usually compilation error)

## Changed API
### FUNCTION LIST
`FUNCTION LIST [LIBRARYNAME <LIBRARY NAME PATTERN>] [WITHCODE]`
Command was modified to also allow getting libraries code (so `FUNCTION INFO` command is no longer
needed and removed). In addition the command gets an option argument, `LIBRARYNAME` allows you to
only get libraries that match the given `LIBRARYNAME` pattern. By default, it returns all libraries.

### INFO MEMORY
Added number of libraries to `INFO MEMORY`

### Commands flags
`DENYOOM` flag was set on `FUNCTION LOAD` and `FUNCTION RESTORE`. We consider those commands
as commands that add new data to the dateset (functions are data) and so we want to disallows
to run those commands on OOM.

## Removed API
* FUNCTION CREATE - Decided on https://github.com/redis/redis/issues/9906
* FUNCTION INFO - Decided on https://github.com/redis/redis/issues/9899

## Lua engine changes
When the Lua engine gets the code given on `FUNCTION LOAD` command, it immediately runs it, we call
this run the loading run. Loading run is not a usual script run, it is not possible to invoke any
Redis command from within the load run.
Instead there is a new API provided by `library` object. The new API's: 
* `redis.log` - behave the same as `redis.log`
* `redis.register_function` - register a new function to the library

The loading run purpose is to register functions using the new `redis.register_function` API.
Any attempt to use any other API will result in an error. In addition, the load run is has a time
limit of 500ms, error is raise on timeout and the entire operation is aborted.

### `redis.register_function`
`redis.register_function(<function_name>, <callback>, [<description>])`
This new API allows users to register a new function that will be linked to the newly created library.
This API can only be called during the load run (see definition above). Any attempt to use it outside
of the load run will result in an error.
The parameters pass to the API are:
* function_name - Function name (must be a Lua string)
* callback - Lua function object that will be called when the function is invokes using fcall/fcall_ro
* description - Function description, optional (must be a Lua string).

### Example
The following example creates a library called `lib` with 2 functions, `f1` and `f1`, returns 1 and 2 respectively:
```
local function f1(keys, args)
    return 1
end

local function f2(keys, args)
    return 2
end

redis.register_function('f1', f1)
redis.register_function('f2', f2)
```

Notice: Unlike `eval`, functions inside a library get the KEYS and ARGV as arguments to the
functions and not as global.

### Technical Details

On the load run we only want the user to be able to call a white list on API's. This way, in
the future, if new API's will be added, the new API's will not be available to the load run
unless specifically added to this white list. We put the while list on the `library` object and
make sure the `library` object is only available to the load run by using [lua_setfenv](https://www.lua.org/manual/5.1/manual.html#lua_setfenv) API. This API allows us to set
the `globals` of a function (and all the function it creates). Before starting the load run we
create a new fresh Lua table (call it `g`) that only contains the `library` API (we make sure
to set global protection on this table just like the general global protection already exists
today), then we use [lua_setfenv](https://www.lua.org/manual/5.1/manual.html#lua_setfenv)
to set `g` as the global table of the load run. After the load run finished we update `g`
metatable and set `__index` and `__newindex` functions to be `_G` (Lua default globals),
we also pop out the `library` object as we do not need it anymore.
This way, any function that was created on the load run (and will be invoke using `fcall`) will
see the default globals as it expected to see them and will not have the `library` API anymore.

An important outcome of this new approach is that now we can achieve a distinct global table
for each library (it is not yet like that but it is very easy to achieve it now). In the future we can
decide to remove global protection because global on different libraries will not collide or we
can chose to give different API to different libraries base on some configuration or input.

Notice that this technique was meant to prevent errors and was not meant to prevent malicious
user from exploit it. For example, the load run can still save the `library` object on some local
variable and then using in `fcall` context. To prevent such a malicious use, the C code also make
sure it is running in the right context and if not raise an error.
2022-01-06 13:39:38 +02:00

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proc log_file_matches {log pattern} {
set fp [open $log r]
set content [read $fp]
close $fp
string match $pattern $content
}
start_server {tags {"repl network external:skip"}} {
set slave [srv 0 client]
set slave_host [srv 0 host]
set slave_port [srv 0 port]
set slave_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Configure the master in order to hang waiting for the BGSAVE
# operation, so that the slave remains in the handshake state.
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 1000
# Use a short replication timeout on the slave, so that if there
# are no bugs the timeout is triggered in a reasonable amount
# of time.
$slave config set repl-timeout 5
# Start the replication process...
$slave slaveof $master_host $master_port
test {Slave enters handshake} {
wait_for_condition 50 1000 {
[string match *handshake* [$slave role]]
} else {
fail "Replica does not enter handshake state"
}
}
# But make the master unable to send
# the periodic newlines to refresh the connection. The slave
# should detect the timeout.
$master debug sleep 10
test {Slave is able to detect timeout during handshake} {
wait_for_condition 50 1000 {
[log_file_matches $slave_log "*Timeout connecting to the MASTER*"]
} else {
fail "Replica is not able to detect timeout"
}
}
}
}
start_server {tags {"repl external:skip"}} {
set A [srv 0 client]
set A_host [srv 0 host]
set A_port [srv 0 port]
start_server {} {
set B [srv 0 client]
set B_host [srv 0 host]
set B_port [srv 0 port]
test {Set instance A as slave of B} {
$A slaveof $B_host $B_port
wait_for_condition 50 100 {
[lindex [$A role] 0] eq {slave} &&
[string match {*master_link_status:up*} [$A info replication]]
} else {
fail "Can't turn the instance into a replica"
}
}
test {INCRBYFLOAT replication, should not remove expire} {
r set test 1 EX 100
r incrbyfloat test 0.1
after 1000
assert_equal [$A debug digest] [$B debug digest]
}
test {GETSET replication} {
$A config resetstat
$A config set loglevel debug
$B config set loglevel debug
r set test foo
assert_equal [r getset test bar] foo
wait_for_condition 500 10 {
[$A get test] eq "bar"
} else {
fail "getset wasn't propagated"
}
assert_equal [r set test vaz get] bar
wait_for_condition 500 10 {
[$A get test] eq "vaz"
} else {
fail "set get wasn't propagated"
}
assert_match {*calls=3,*} [cmdrstat set $A]
assert_match {} [cmdrstat getset $A]
}
test {BRPOPLPUSH replication, when blocking against empty list} {
$A config resetstat
set rd [redis_deferring_client]
$rd brpoplpush a b 5
r lpush a foo
wait_for_condition 50 100 {
[$A debug digest] eq [$B debug digest]
} else {
fail "Master and replica have different digest: [$A debug digest] VS [$B debug digest]"
}
assert_match {*calls=1,*} [cmdrstat rpoplpush $A]
assert_match {} [cmdrstat lmove $A]
}
test {BRPOPLPUSH replication, list exists} {
$A config resetstat
set rd [redis_deferring_client]
r lpush c 1
r lpush c 2
r lpush c 3
$rd brpoplpush c d 5
after 1000
assert_equal [$A debug digest] [$B debug digest]
assert_match {*calls=1,*} [cmdrstat rpoplpush $A]
assert_match {} [cmdrstat lmove $A]
}
foreach wherefrom {left right} {
foreach whereto {left right} {
test "BLMOVE ($wherefrom, $whereto) replication, when blocking against empty list" {
$A config resetstat
set rd [redis_deferring_client]
$rd blmove a b $wherefrom $whereto 5
r lpush a foo
wait_for_condition 50 100 {
[$A debug digest] eq [$B debug digest]
} else {
fail "Master and replica have different digest: [$A debug digest] VS [$B debug digest]"
}
assert_match {*calls=1,*} [cmdrstat lmove $A]
assert_match {} [cmdrstat rpoplpush $A]
}
test "BLMOVE ($wherefrom, $whereto) replication, list exists" {
$A config resetstat
set rd [redis_deferring_client]
r lpush c 1
r lpush c 2
r lpush c 3
$rd blmove c d $wherefrom $whereto 5
after 1000
assert_equal [$A debug digest] [$B debug digest]
assert_match {*calls=1,*} [cmdrstat lmove $A]
assert_match {} [cmdrstat rpoplpush $A]
}
}
}
test {BLPOP followed by role change, issue #2473} {
set rd [redis_deferring_client]
$rd blpop foo 0 ; # Block while B is a master
# Turn B into master of A
$A slaveof no one
$B slaveof $A_host $A_port
wait_for_condition 50 100 {
[lindex [$B role] 0] eq {slave} &&
[string match {*master_link_status:up*} [$B info replication]]
} else {
fail "Can't turn the instance into a replica"
}
# Push elements into the "foo" list of the new replica.
# If the client is still attached to the instance, we'll get
# a desync between the two instances.
$A rpush foo a b c
after 100
wait_for_condition 50 100 {
[$A debug digest] eq [$B debug digest] &&
[$A lrange foo 0 -1] eq {a b c} &&
[$B lrange foo 0 -1] eq {a b c}
} else {
fail "Master and replica have different digest: [$A debug digest] VS [$B debug digest]"
}
}
}
}
start_server {tags {"repl external:skip"}} {
r set mykey foo
start_server {} {
test {Second server should have role master at first} {
s role
} {master}
test {SLAVEOF should start with link status "down"} {
r multi
r slaveof [srv -1 host] [srv -1 port]
r info replication
r exec
} {*master_link_status:down*}
test {The role should immediately be changed to "replica"} {
s role
} {slave}
wait_for_sync r
test {Sync should have transferred keys from master} {
r get mykey
} {foo}
test {The link status should be up} {
s master_link_status
} {up}
test {SET on the master should immediately propagate} {
r -1 set mykey bar
wait_for_condition 500 100 {
[r 0 get mykey] eq {bar}
} else {
fail "SET on master did not propagated on replica"
}
}
test {FLUSHALL should replicate} {
r -1 flushall
if {$::valgrind} {after 2000}
list [r -1 dbsize] [r 0 dbsize]
} {0 0}
test {ROLE in master reports master with a slave} {
set res [r -1 role]
lassign $res role offset slaves
assert {$role eq {master}}
assert {$offset > 0}
assert {[llength $slaves] == 1}
lassign [lindex $slaves 0] master_host master_port slave_offset
assert {$slave_offset <= $offset}
}
test {ROLE in slave reports slave in connected state} {
set res [r role]
lassign $res role master_host master_port slave_state slave_offset
assert {$role eq {slave}}
assert {$slave_state eq {connected}}
}
}
}
foreach mdl {no yes} {
foreach sdl {disabled swapdb} {
start_server {tags {"repl external:skip"}} {
set master [srv 0 client]
$master config set repl-diskless-sync $mdl
$master config set repl-diskless-sync-delay 1
set master_host [srv 0 host]
set master_port [srv 0 port]
set slaves {}
start_server {} {
lappend slaves [srv 0 client]
start_server {} {
lappend slaves [srv 0 client]
start_server {} {
lappend slaves [srv 0 client]
test "Connect multiple replicas at the same time (issue #141), master diskless=$mdl, replica diskless=$sdl" {
# start load handles only inside the test, so that the test can be skipped
set load_handle0 [start_bg_complex_data $master_host $master_port 9 100000000]
set load_handle1 [start_bg_complex_data $master_host $master_port 11 100000000]
set load_handle2 [start_bg_complex_data $master_host $master_port 12 100000000]
set load_handle3 [start_write_load $master_host $master_port 8]
set load_handle4 [start_write_load $master_host $master_port 4]
after 5000 ;# wait for some data to accumulate so that we have RDB part for the fork
# Send SLAVEOF commands to slaves
[lindex $slaves 0] config set repl-diskless-load $sdl
[lindex $slaves 1] config set repl-diskless-load $sdl
[lindex $slaves 2] config set repl-diskless-load $sdl
[lindex $slaves 0] slaveof $master_host $master_port
[lindex $slaves 1] slaveof $master_host $master_port
[lindex $slaves 2] slaveof $master_host $master_port
# Wait for all the three slaves to reach the "online"
# state from the POV of the master.
set retry 500
while {$retry} {
set info [r -3 info]
if {[string match {*slave0:*state=online*slave1:*state=online*slave2:*state=online*} $info]} {
break
} else {
incr retry -1
after 100
}
}
if {$retry == 0} {
error "assertion:Slaves not correctly synchronized"
}
# Wait that slaves acknowledge they are online so
# we are sure that DBSIZE and DEBUG DIGEST will not
# fail because of timing issues.
wait_for_condition 500 100 {
[lindex [[lindex $slaves 0] role] 3] eq {connected} &&
[lindex [[lindex $slaves 1] role] 3] eq {connected} &&
[lindex [[lindex $slaves 2] role] 3] eq {connected}
} else {
fail "Slaves still not connected after some time"
}
# Stop the write load
stop_bg_complex_data $load_handle0
stop_bg_complex_data $load_handle1
stop_bg_complex_data $load_handle2
stop_write_load $load_handle3
stop_write_load $load_handle4
# Make sure no more commands processed
wait_load_handlers_disconnected
wait_for_ofs_sync $master [lindex $slaves 0]
wait_for_ofs_sync $master [lindex $slaves 1]
wait_for_ofs_sync $master [lindex $slaves 2]
# Check digests
set digest [$master debug digest]
set digest0 [[lindex $slaves 0] debug digest]
set digest1 [[lindex $slaves 1] debug digest]
set digest2 [[lindex $slaves 2] debug digest]
assert {$digest ne 0000000000000000000000000000000000000000}
assert {$digest eq $digest0}
assert {$digest eq $digest1}
assert {$digest eq $digest2}
}
}
}
}
}
}
}
start_server {tags {"repl external:skip"}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
start_server {} {
test "Master stream is correctly processed while the replica has a script in -BUSY state" {
set load_handle0 [start_write_load $master_host $master_port 3]
set slave [srv 0 client]
$slave config set lua-time-limit 500
$slave slaveof $master_host $master_port
# Wait for the slave to be online
wait_for_condition 500 100 {
[lindex [$slave role] 3] eq {connected}
} else {
fail "Replica still not connected after some time"
}
# Wait some time to make sure the master is sending data
# to the slave.
after 5000
# Stop the ability of the slave to process data by sendig
# a script that will put it in BUSY state.
$slave eval {for i=1,3000000000 do end} 0
# Wait some time again so that more master stream will
# be processed.
after 2000
# Stop the write load
stop_write_load $load_handle0
# number of keys
wait_for_condition 500 100 {
[$master debug digest] eq [$slave debug digest]
} else {
fail "Different datasets between replica and master"
}
}
}
}
# Diskless load swapdb when NOT async_loading (different master replid)
foreach testType {Successful Aborted} {
start_server {tags {"repl external:skip"}} {
set replica [srv 0 client]
set replica_host [srv 0 host]
set replica_port [srv 0 port]
set replica_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Set master and replica to use diskless replication on swapdb mode
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
$master config set save ""
$replica config set repl-diskless-load swapdb
$replica config set save ""
# Put different data sets on the master and replica
# We need to put large keys on the master since the replica replies to info only once in 2mb
$replica debug populate 200 slave 10
$master debug populate 1000 master 100000
$master config set rdbcompression no
# Set a key value on replica to check status on failure and after swapping db
$replica set mykey myvalue
switch $testType {
"Aborted" {
# Set master with a slow rdb generation, so that we can easily intercept loading
# 10ms per key, with 1000 keys is 10 seconds
$master config set rdb-key-save-delay 10000
# Start the replication process
$replica replicaof $master_host $master_port
test {Diskless load swapdb (different replid): replica enter loading} {
# Wait for the replica to start reading the rdb
wait_for_condition 100 100 {
[s -1 loading] eq 1
} else {
fail "Replica didn't get into loading mode"
}
assert_equal [s -1 async_loading] 0
}
# Make sure that next sync will not start immediately so that we can catch the replica in between syncs
$master config set repl-diskless-sync-delay 5
# Kill the replica connection on the master
set killed [$master client kill type replica]
# Wait for loading to stop (fail)
wait_for_condition 100 100 {
[s -1 loading] eq 0
} else {
fail "Replica didn't disconnect"
}
test {Diskless load swapdb (different replid): old database is exposed after replication fails} {
# Ensure we see old values from replica
assert_equal [$replica get mykey] "myvalue"
# Make sure amount of replica keys didn't change
assert_equal [$replica dbsize] 201
}
# Speed up shutdown
$master config set rdb-key-save-delay 0
}
"Successful" {
# Start the replication process
$replica replicaof $master_host $master_port
# Let replica finish sync with master
wait_for_condition 100 100 {
[s -1 master_link_status] eq "up"
} else {
fail "Master <-> Replica didn't finish sync"
}
test {Diskless load swapdb (different replid): new database is exposed after swapping} {
# Ensure we don't see anymore the key that was stored only to replica and also that we don't get LOADING status
assert_equal [$replica GET mykey] ""
# Make sure amount of keys matches master
assert_equal [$replica dbsize] 1000
}
}
}
}
}
}
# Diskless load swapdb when async_loading (matching master replid)
foreach testType {Successful Aborted} {
start_server {tags {"repl external:skip"}} {
set replica [srv 0 client]
set replica_host [srv 0 host]
set replica_port [srv 0 port]
set replica_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Set master and replica to use diskless replication on swapdb mode
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
$master config set save ""
$replica config set repl-diskless-load swapdb
$replica config set save ""
# Set replica writable so we can check that a key we manually added is served
# during replication and after failure, but disappears on success
$replica config set replica-read-only no
# Initial sync to have matching replids between master and replica
$replica replicaof $master_host $master_port
# Let replica finish initial sync with master
wait_for_condition 100 100 {
[s -1 master_link_status] eq "up"
} else {
fail "Master <-> Replica didn't finish sync"
}
# Put different data sets on the master and replica
# We need to put large keys on the master since the replica replies to info only once in 2mb
$replica debug populate 2000 slave 10
$master debug populate 2000 master 100000
$master config set rdbcompression no
# Set a key value on replica to check status during loading, on failure and after swapping db
$replica set mykey myvalue
# Set a function value on replica to check status during loading, on failure and after swapping db
$replica function load LUA test {redis.register_function('test', function() return 'hello1' end)}
# Set a function value on master to check it reaches the replica when replication ends
$master function load LUA test {redis.register_function('test', function() return 'hello2' end)}
# Force the replica to try another full sync (this time it will have matching master replid)
$master multi
$master client kill type replica
# Fill replication backlog with new content
$master config set repl-backlog-size 16384
for {set keyid 0} {$keyid < 10} {incr keyid} {
$master set "$keyid string_$keyid" [string repeat A 16384]
}
$master exec
switch $testType {
"Aborted" {
# Set master with a slow rdb generation, so that we can easily intercept loading
# 10ms per key, with 2000 keys is 20 seconds
$master config set rdb-key-save-delay 10000
test {Diskless load swapdb (async_loading): replica enter async_loading} {
# Wait for the replica to start reading the rdb
wait_for_condition 100 100 {
[s -1 async_loading] eq 1
} else {
fail "Replica didn't get into async_loading mode"
}
assert_equal [s -1 loading] 0
}
test {Diskless load swapdb (async_loading): old database is exposed while async replication is in progress} {
# Ensure we still see old values while async_loading is in progress and also not LOADING status
assert_equal [$replica get mykey] "myvalue"
# Ensure we still can call old function while async_loading is in progress
assert_equal [$replica fcall test 0] "hello1"
# Make sure we're still async_loading to validate previous assertion
assert_equal [s -1 async_loading] 1
# Make sure amount of replica keys didn't change
assert_equal [$replica dbsize] 2001
}
test {Busy script during async loading} {
set rd_replica [redis_deferring_client -1]
$replica config set lua-time-limit 10
$rd_replica eval {while true do end} 0
after 200
assert_error {BUSY*} {$replica ping}
$replica script kill
after 200 ; # Give some time to Lua to call the hook again...
assert_equal [$replica ping] "PONG"
$rd_replica close
}
test {Blocked commands and configs during async-loading} {
assert_error {LOADING*} {$replica config set appendonly no}
assert_error {LOADING*} {$replica REPLICAOF no one}
}
# Make sure that next sync will not start immediately so that we can catch the replica in between syncs
$master config set repl-diskless-sync-delay 5
# Kill the replica connection on the master
set killed [$master client kill type replica]
# Wait for loading to stop (fail)
wait_for_condition 100 100 {
[s -1 async_loading] eq 0
} else {
fail "Replica didn't disconnect"
}
test {Diskless load swapdb (async_loading): old database is exposed after async replication fails} {
# Ensure we see old values from replica
assert_equal [$replica get mykey] "myvalue"
# Ensure we still can call old function
assert_equal [$replica fcall test 0] "hello1"
# Make sure amount of replica keys didn't change
assert_equal [$replica dbsize] 2001
}
# Speed up shutdown
$master config set rdb-key-save-delay 0
}
"Successful" {
# Let replica finish sync with master
wait_for_condition 100 100 {
[s -1 master_link_status] eq "up"
} else {
fail "Master <-> Replica didn't finish sync"
}
test {Diskless load swapdb (async_loading): new database is exposed after swapping} {
# Ensure we don't see anymore the key that was stored only to replica and also that we don't get LOADING status
assert_equal [$replica GET mykey] ""
# Ensure we got the new function
assert_equal [$replica fcall test 0] "hello2"
# Make sure amount of keys matches master
assert_equal [$replica dbsize] 2010
}
}
}
}
}
}
test {diskless loading short read} {
start_server {tags {"repl"}} {
set replica [srv 0 client]
set replica_host [srv 0 host]
set replica_port [srv 0 port]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Set master and replica to use diskless replication
$master config set repl-diskless-sync yes
$master config set rdbcompression no
$replica config set repl-diskless-load swapdb
$master config set hz 500
$replica config set hz 500
$master config set dynamic-hz no
$replica config set dynamic-hz no
# Try to fill the master with all types of data types / encodings
set start [clock clicks -milliseconds]
# Set a function value to check short read handling on functions
r function load LUA test {redis.register_function('test', function() return 'hello1' end)}
for {set k 0} {$k < 3} {incr k} {
for {set i 0} {$i < 10} {incr i} {
r set "$k int_$i" [expr {int(rand()*10000)}]
r expire "$k int_$i" [expr {int(rand()*10000)}]
r set "$k string_$i" [string repeat A [expr {int(rand()*1000000)}]]
r hset "$k hash_small" [string repeat A [expr {int(rand()*10)}]] 0[string repeat A [expr {int(rand()*10)}]]
r hset "$k hash_large" [string repeat A [expr {int(rand()*10000)}]] [string repeat A [expr {int(rand()*1000000)}]]
r sadd "$k set_small" [string repeat A [expr {int(rand()*10)}]]
r sadd "$k set_large" [string repeat A [expr {int(rand()*1000000)}]]
r zadd "$k zset_small" [expr {rand()}] [string repeat A [expr {int(rand()*10)}]]
r zadd "$k zset_large" [expr {rand()}] [string repeat A [expr {int(rand()*1000000)}]]
r lpush "$k list_small" [string repeat A [expr {int(rand()*10)}]]
r lpush "$k list_large" [string repeat A [expr {int(rand()*1000000)}]]
for {set j 0} {$j < 10} {incr j} {
r xadd "$k stream" * foo "asdf" bar "1234"
}
r xgroup create "$k stream" "mygroup_$i" 0
r xreadgroup GROUP "mygroup_$i" Alice COUNT 1 STREAMS "$k stream" >
}
}
if {$::verbose} {
set end [clock clicks -milliseconds]
set duration [expr $end - $start]
puts "filling took $duration ms (TODO: use pipeline)"
set start [clock clicks -milliseconds]
}
# Start the replication process...
set loglines [count_log_lines -1]
$master config set repl-diskless-sync-delay 0
$replica replicaof $master_host $master_port
# kill the replication at various points
set attempts 100
if {$::accurate} { set attempts 500 }
for {set i 0} {$i < $attempts} {incr i} {
# wait for the replica to start reading the rdb
# using the log file since the replica only responds to INFO once in 2mb
set res [wait_for_log_messages -1 {"*Loading DB in memory*"} $loglines 2000 1]
set loglines [lindex $res 1]
# add some additional random sleep so that we kill the master on a different place each time
after [expr {int(rand()*50)}]
# kill the replica connection on the master
set killed [$master client kill type replica]
set res [wait_for_log_messages -1 {"*Internal error in RDB*" "*Finished with success*" "*Successful partial resynchronization*"} $loglines 500 10]
if {$::verbose} { puts $res }
set log_text [lindex $res 0]
set loglines [lindex $res 1]
if {![string match "*Internal error in RDB*" $log_text]} {
# force the replica to try another full sync
$master multi
$master client kill type replica
$master set asdf asdf
# fill replication backlog with new content
$master config set repl-backlog-size 16384
for {set keyid 0} {$keyid < 10} {incr keyid} {
$master set "$keyid string_$keyid" [string repeat A 16384]
}
$master exec
}
# wait for loading to stop (fail)
# After a loading successfully, next loop will enter `async_loading`
wait_for_condition 1000 1 {
[s -1 async_loading] eq 0 &&
[s -1 loading] eq 0
} else {
fail "Replica didn't disconnect"
}
}
if {$::verbose} {
set end [clock clicks -milliseconds]
set duration [expr $end - $start]
puts "test took $duration ms"
}
# enable fast shutdown
$master config set rdb-key-save-delay 0
}
}
} {} {external:skip}
# get current stime and utime metrics for a thread (since it's creation)
proc get_cpu_metrics { statfile } {
if { [ catch {
set fid [ open $statfile r ]
set data [ read $fid 1024 ]
::close $fid
set data [ split $data ]
;## number of jiffies it has been scheduled...
set utime [ lindex $data 13 ]
set stime [ lindex $data 14 ]
} err ] } {
error "assertion:can't parse /proc: $err"
}
set mstime [clock milliseconds]
return [ list $mstime $utime $stime ]
}
# compute %utime and %stime of a thread between two measurements
proc compute_cpu_usage {start end} {
set clock_ticks [exec getconf CLK_TCK]
# convert ms time to jiffies and calc delta
set dtime [ expr { ([lindex $end 0] - [lindex $start 0]) * double($clock_ticks) / 1000 } ]
set utime [ expr { [lindex $end 1] - [lindex $start 1] } ]
set stime [ expr { [lindex $end 2] - [lindex $start 2] } ]
set pucpu [ expr { ($utime / $dtime) * 100 } ]
set pscpu [ expr { ($stime / $dtime) * 100 } ]
return [ list $pucpu $pscpu ]
}
# test diskless rdb pipe with multiple replicas, which may drop half way
start_server {tags {"repl external:skip"}} {
set master [srv 0 client]
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 1
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
# put enough data in the db that the rdb file will be bigger than the socket buffers
# and since we'll have key-load-delay of 100, 20000 keys will take at least 2 seconds
# we also need the replica to process requests during transfer (which it does only once in 2mb)
$master debug populate 20000 test 10000
$master config set rdbcompression no
# If running on Linux, we also measure utime/stime to detect possible I/O handling issues
set os [catch {exec uname}]
set measure_time [expr {$os == "Linux"} ? 1 : 0]
foreach all_drop {no slow fast all timeout} {
test "diskless $all_drop replicas drop during rdb pipe" {
set replicas {}
set replicas_alive {}
# start one replica that will read the rdb fast, and one that will be slow
start_server {} {
lappend replicas [srv 0 client]
lappend replicas_alive [srv 0 client]
start_server {} {
lappend replicas [srv 0 client]
lappend replicas_alive [srv 0 client]
# start replication
# it's enough for just one replica to be slow, and have it's write handler enabled
# so that the whole rdb generation process is bound to that
set loglines [count_log_lines -2]
[lindex $replicas 0] config set repl-diskless-load swapdb
[lindex $replicas 0] config set key-load-delay 100 ;# 20k keys and 100 microseconds sleep means at least 2 seconds
[lindex $replicas 0] replicaof $master_host $master_port
[lindex $replicas 1] replicaof $master_host $master_port
# wait for the replicas to start reading the rdb
# using the log file since the replica only responds to INFO once in 2mb
wait_for_log_messages -1 {"*Loading DB in memory*"} 0 800 10
if {$measure_time} {
set master_statfile "/proc/$master_pid/stat"
set master_start_metrics [get_cpu_metrics $master_statfile]
set start_time [clock seconds]
}
# wait a while so that the pipe socket writer will be
# blocked on write (since replica 0 is slow to read from the socket)
after 500
# add some command to be present in the command stream after the rdb.
$master incr $all_drop
# disconnect replicas depending on the current test
if {$all_drop == "all" || $all_drop == "fast"} {
exec kill [srv 0 pid]
set replicas_alive [lreplace $replicas_alive 1 1]
}
if {$all_drop == "all" || $all_drop == "slow"} {
exec kill [srv -1 pid]
set replicas_alive [lreplace $replicas_alive 0 0]
}
if {$all_drop == "timeout"} {
$master config set repl-timeout 2
# we want the slow replica to hang on a key for very long so it'll reach repl-timeout
exec kill -SIGSTOP [srv -1 pid]
after 2000
}
# wait for rdb child to exit
wait_for_condition 500 100 {
[s -2 rdb_bgsave_in_progress] == 0
} else {
fail "rdb child didn't terminate"
}
# make sure we got what we were aiming for, by looking for the message in the log file
if {$all_drop == "all"} {
wait_for_log_messages -2 {"*Diskless rdb transfer, last replica dropped, killing fork child*"} $loglines 1 1
}
if {$all_drop == "no"} {
wait_for_log_messages -2 {"*Diskless rdb transfer, done reading from pipe, 2 replicas still up*"} $loglines 1 1
}
if {$all_drop == "slow" || $all_drop == "fast"} {
wait_for_log_messages -2 {"*Diskless rdb transfer, done reading from pipe, 1 replicas still up*"} $loglines 1 1
}
if {$all_drop == "timeout"} {
wait_for_log_messages -2 {"*Disconnecting timedout replica (full sync)*"} $loglines 1 1
wait_for_log_messages -2 {"*Diskless rdb transfer, done reading from pipe, 1 replicas still up*"} $loglines 1 1
# master disconnected the slow replica, remove from array
set replicas_alive [lreplace $replicas_alive 0 0]
# release it
exec kill -SIGCONT [srv -1 pid]
}
# make sure we don't have a busy loop going thought epoll_wait
if {$measure_time} {
set master_end_metrics [get_cpu_metrics $master_statfile]
set time_elapsed [expr {[clock seconds]-$start_time}]
set master_cpu [compute_cpu_usage $master_start_metrics $master_end_metrics]
set master_utime [lindex $master_cpu 0]
set master_stime [lindex $master_cpu 1]
if {$::verbose} {
puts "elapsed: $time_elapsed"
puts "master utime: $master_utime"
puts "master stime: $master_stime"
}
if {!$::no_latency && ($all_drop == "all" || $all_drop == "slow" || $all_drop == "timeout")} {
assert {$master_utime < 70}
assert {$master_stime < 70}
}
if {!$::no_latency && ($all_drop == "none" || $all_drop == "fast")} {
assert {$master_utime < 15}
assert {$master_stime < 15}
}
}
# verify the data integrity
foreach replica $replicas_alive {
# Wait that replicas acknowledge they are online so
# we are sure that DBSIZE and DEBUG DIGEST will not
# fail because of timing issues.
wait_for_condition 150 100 {
[lindex [$replica role] 3] eq {connected}
} else {
fail "replicas still not connected after some time"
}
# Make sure that replicas and master have same
# number of keys
wait_for_condition 50 100 {
[$master dbsize] == [$replica dbsize]
} else {
fail "Different number of keys between master and replicas after too long time."
}
# Check digests
set digest [$master debug digest]
set digest0 [$replica debug digest]
assert {$digest ne 0000000000000000000000000000000000000000}
assert {$digest eq $digest0}
}
}
}
}
}
}
test "diskless replication child being killed is collected" {
# when diskless master is waiting for the replica to become writable
# it removes the read event from the rdb pipe so if the child gets killed
# the replica will hung. and the master may not collect the pid with waitpid
start_server {tags {"repl"}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
# put enough data in the db that the rdb file will be bigger than the socket buffers
$master debug populate 20000 test 10000
$master config set rdbcompression no
start_server {} {
set replica [srv 0 client]
set loglines [count_log_lines 0]
$replica config set repl-diskless-load swapdb
$replica config set key-load-delay 1000000
$replica config set loading-process-events-interval-bytes 1024
$replica replicaof $master_host $master_port
# wait for the replicas to start reading the rdb
wait_for_log_messages 0 {"*Loading DB in memory*"} $loglines 800 10
# wait to be sure the eplica is hung and the master is blocked on write
after 500
# simulate the OOM killer or anyone else kills the child
set fork_child_pid [get_child_pid -1]
exec kill -9 $fork_child_pid
# wait for the parent to notice the child have exited
wait_for_condition 50 100 {
[s -1 rdb_bgsave_in_progress] == 0
} else {
fail "rdb child didn't terminate"
}
# Speed up shutdown
$replica config set key-load-delay 0
}
}
} {} {external:skip}
test "diskless replication read pipe cleanup" {
# In diskless replication, we create a read pipe for the RDB, between the child and the parent.
# When we close this pipe (fd), the read handler also needs to be removed from the event loop (if it still registered).
# Otherwise, next time we will use the same fd, the registration will be fail (panic), because
# we will use EPOLL_CTL_MOD (the fd still register in the event loop), on fd that already removed from epoll_ctl
start_server {tags {"repl"}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
# put enough data in the db, and slowdown the save, to keep the parent busy at the read process
$master config set rdb-key-save-delay 100000
$master debug populate 20000 test 10000
$master config set rdbcompression no
start_server {} {
set replica [srv 0 client]
set loglines [count_log_lines 0]
$replica config set repl-diskless-load swapdb
$replica replicaof $master_host $master_port
# wait for the replicas to start reading the rdb
wait_for_log_messages 0 {"*Loading DB in memory*"} $loglines 800 10
set loglines [count_log_lines -1]
# send FLUSHALL so the RDB child will be killed
$master flushall
# wait for another RDB child process to be started
wait_for_log_messages -1 {"*Background RDB transfer started by pid*"} $loglines 800 10
# make sure master is alive
$master ping
}
}
} {} {external:skip}
test {replicaof right after disconnection} {
# this is a rare race condition that was reproduced sporadically by the psync2 unit.
# see details in #7205
start_server {tags {"repl"}} {
set replica1 [srv 0 client]
set replica1_host [srv 0 host]
set replica1_port [srv 0 port]
set replica1_log [srv 0 stdout]
start_server {} {
set replica2 [srv 0 client]
set replica2_host [srv 0 host]
set replica2_port [srv 0 port]
set replica2_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
$replica1 replicaof $master_host $master_port
$replica2 replicaof $master_host $master_port
wait_for_condition 50 100 {
[string match {*master_link_status:up*} [$replica1 info replication]] &&
[string match {*master_link_status:up*} [$replica2 info replication]]
} else {
fail "Can't turn the instance into a replica"
}
set rd [redis_deferring_client -1]
$rd debug sleep 1
after 100
# when replica2 will wake up from the sleep it will find both disconnection
# from it's master and also a replicaof command at the same event loop
$master client kill type replica
$replica2 replicaof $replica1_host $replica1_port
$rd read
wait_for_condition 50 100 {
[string match {*master_link_status:up*} [$replica2 info replication]]
} else {
fail "role change failed."
}
# make sure psync succeeded, and there were no unexpected full syncs.
assert_equal [status $master sync_full] 2
assert_equal [status $replica1 sync_full] 0
assert_equal [status $replica2 sync_full] 0
}
}
}
} {} {external:skip}
test {Kill rdb child process if its dumping RDB is not useful} {
start_server {tags {"repl"}} {
set slave1 [srv 0 client]
start_server {} {
set slave2 [srv 0 client]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
for {set i 0} {$i < 10} {incr i} {
$master set $i $i
}
# Generating RDB will cost 10s(10 * 1s)
$master config set rdb-key-save-delay 1000000
$master config set repl-diskless-sync no
$master config set save ""
$slave1 slaveof $master_host $master_port
$slave2 slaveof $master_host $master_port
# Wait for starting child
wait_for_condition 50 100 {
([s 0 rdb_bgsave_in_progress] == 1) &&
([string match "*wait_bgsave*" [s 0 slave0]]) &&
([string match "*wait_bgsave*" [s 0 slave1]])
} else {
fail "rdb child didn't start"
}
# Slave1 disconnect with master
$slave1 slaveof no one
# Shouldn't kill child since another slave wait for rdb
after 100
assert {[s 0 rdb_bgsave_in_progress] == 1}
# Slave2 disconnect with master
$slave2 slaveof no one
# Should kill child
wait_for_condition 100 10 {
[s 0 rdb_bgsave_in_progress] eq 0
} else {
fail "can't kill rdb child"
}
# If have save parameters, won't kill child
$master config set save "900 1"
$slave1 slaveof $master_host $master_port
$slave2 slaveof $master_host $master_port
wait_for_condition 50 100 {
([s 0 rdb_bgsave_in_progress] == 1) &&
([string match "*wait_bgsave*" [s 0 slave0]]) &&
([string match "*wait_bgsave*" [s 0 slave1]])
} else {
fail "rdb child didn't start"
}
$slave1 slaveof no one
$slave2 slaveof no one
after 200
assert {[s 0 rdb_bgsave_in_progress] == 1}
catch {$master shutdown nosave}
}
}
}
} {} {external:skip}
start_server {tags {"repl external:skip"}} {
set master1_host [srv 0 host]
set master1_port [srv 0 port]
r set a b
start_server {} {
set master2 [srv 0 client]
set master2_host [srv 0 host]
set master2_port [srv 0 port]
# Take 10s for dumping RDB
$master2 debug populate 10 master2 10
$master2 config set rdb-key-save-delay 1000000
start_server {} {
set sub_replica [srv 0 client]
start_server {} {
# Full sync with master1
r slaveof $master1_host $master1_port
wait_for_sync r
assert_equal "b" [r get a]
# Let sub replicas sync with me
$sub_replica slaveof [srv 0 host] [srv 0 port]
wait_for_sync $sub_replica
assert_equal "b" [$sub_replica get a]
# Full sync with master2, and then kill master2 before finishing dumping RDB
r slaveof $master2_host $master2_port
wait_for_condition 50 100 {
([s -2 rdb_bgsave_in_progress] == 1) &&
([string match "*wait_bgsave*" [s -2 slave0]])
} else {
fail "full sync didn't start"
}
catch {$master2 shutdown nosave}
test {Don't disconnect with replicas before loading transferred RDB when full sync} {
assert ![log_file_matches [srv -1 stdout] "*Connection with master lost*"]
# The replication id is not changed in entire replication chain
assert_equal [s master_replid] [s -3 master_replid]
assert_equal [s master_replid] [s -1 master_replid]
}
test {Discard cache master before loading transferred RDB when full sync} {
set full_sync [s -3 sync_full]
set partial_sync [s -3 sync_partial_ok]
# Partial sync with master1
r slaveof $master1_host $master1_port
wait_for_sync r
# master1 accepts partial sync instead of full sync
assert_equal $full_sync [s -3 sync_full]
assert_equal [expr $partial_sync+1] [s -3 sync_partial_ok]
# Since master only partially sync replica, and repl id is not changed,
# the replica doesn't disconnect with its sub-replicas
assert_equal [s master_replid] [s -3 master_replid]
assert_equal [s master_replid] [s -1 master_replid]
assert ![log_file_matches [srv -1 stdout] "*Connection with master lost*"]
# Sub replica just has one full sync, no partial resync.
assert_equal 1 [s sync_full]
assert_equal 0 [s sync_partial_ok]
}
}
}
}
}
test {replica can handle EINTR if use diskless load} {
start_server {tags {"repl"}} {
set replica [srv 0 client]
set replica_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
$master debug populate 100 master 100000
$master config set rdbcompression no
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
$replica config set repl-diskless-load on-empty-db
# Construct EINTR error by using the built in watchdog
$replica config set watchdog-period 200
# Block replica in read()
$master config set rdb-key-save-delay 10000
# set speedy shutdown
$master config set save ""
# Start the replication process...
$replica replicaof $master_host $master_port
# Wait for the replica to start reading the rdb
set res [wait_for_log_messages -1 {"*Loading DB in memory*"} 0 200 10]
set loglines [lindex $res 1]
# Wait till we see the watchgod log line AFTER the loading started
wait_for_log_messages -1 {"*WATCHDOG TIMER EXPIRED*"} $loglines 200 10
# Make sure we're still loading, and that there was just one full sync attempt
assert ![log_file_matches [srv -1 stdout] "*Reconnecting to MASTER*"]
assert_equal 1 [s 0 sync_full]
assert_equal 1 [s -1 loading]
}
}
} {} {external:skip}
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