Throw an error when a user is provided multiple times on the command line instead of silently throwing one of them away.
Remove unneeded validation for validating users on ACL load.
We want to add COUNT option for BLPOP.
But we can't do it without breaking compatibility due to the command arguments syntax.
So this commit introduce two new commands.
Syntax for the new LMPOP command:
`LMPOP numkeys [<key> ...] LEFT|RIGHT [COUNT count]`
Syntax for the new BLMPOP command:
`BLMPOP timeout numkeys [<key> ...] LEFT|RIGHT [COUNT count]`
Some background:
- LPOP takes one key, and can return multiple elements.
- BLPOP takes multiple keys, but returns one element from just one key.
- LMPOP can take multiple keys and return multiple elements from just one key.
Note that LMPOP/BLMPOP can take multiple keys, it eventually operates on just one key.
And it will propagate as LPOP or RPOP with the COUNT option.
As a new command, it still return NIL if we can't pop any elements.
For the normal response is nested arrays in RESP2 and RESP3, like:
```
LMPOP/BLMPOP
1) keyname
2) 1) element1
2) element2
```
I.e. unlike BLPOP that returns a key name and one element so it uses a flat array,
and LPOP that returns multiple elements with no key name, and again uses a flat array,
this one has to return a nested array, and it does for for both RESP2 and RESP3 (like SCAN does)
Some discuss can see: #766#8824
* Delay to discard cache master when full synchronization
* Don't disconnect with replicas before loading transferred RDB when full sync
Previously, once replica need to start full synchronization with master,
it will discard cached master whatever full synchronization is failed or
not.
Now we discard cached master only when transferring RDB is finished
and start to change data space, this make replica could start partial
resynchronization with another new master if new master is failed
during full synchronization.
When parsing an array type reply, ctx will be lost when recursively parsing its
elements, which will cause a memory leak in automemory mode.
This is a result of the changes in #9202
Add test for callReplyParseCollection fix
When a replica paused, it would not apply any commands event the command comes from master, if we feed the non-applied command to replication stream, the replication offset would be wrong, and data would be lost after failover(since replica's `master_repl_offset` grows but command is not applied).
To fix it, here are the changes:
* Don't update replica's replication offset or propagate commands to sub-replicas when it's paused in `commandProcessed`.
* Show `slave_read_repl_offset` in info reply.
* Add an assert to make sure master client should never be blocked unless pause or module (some modules may use block way to do background (parallel) processing and forward original block module command to the replica, it's not a good way but it can work, so the assert excludes module now, but someday in future all modules should rewrite block command to propagate like what `BLPOP` does).
Until now, giving a negative index seeks from the end of a list and a
positive seeks from the beginning. This change makes it seek from
the nearest end, regardless of the sign of the given index.
quicklistIndex is used by all list commands which operate by index.
LINDEX key 999999 in a list if 1M elements is greately optimized by
this change. Latency is cut by 75%.
LINDEX key -1000000 in a list of 1M elements, likewise.
LRANGE key -1 -1 is affected by this, since LRANGE converts the
indices to positive numbers before seeking.
The tests for corrupt dumps are updated to make sure the corrup
data is seeked in the same direction as before.
This one follow #9313 and goes deeper (validation of config file parsing)
Move the check/update logic to a new updateClientOutputBufferLimit
function. So that it can be used in CONFIG SET and config file parsing.
1. The output of --help:
* On the Usage line, just write [OPTIONS] [COMMAND ARGS...] instead listing
only a few arbitrary options and no command.
* For --cluster, describe that if the command is supplied on the command line,
the key must contain "{tag}". Otherwise, the command will not be sent to the
right cluster node.
* For -r, add a note that if -r is omitted, all commands in a benchmark will
use the same key. Also align the description.
* For -t, describe that -t is ignored if a command is supplied on the command
line.
2. Print a warning if -t is present when a specific command is supplied.
3. Print all warnings and errors to stderr.
4. Remove -e from calls in redis-benchmark test suite.
In old way, we always increase server.dirty in BITSET and BITFIELD SET.
Even the command doesn't really change anything. This commit make
sure BITSET and BITFIELD SET only increase dirty when the value changed.
Because of that, if the value not changed, some others implications:
- Avoid adding useless AOF
- Reduce replication traffic
- Will not trigger keyspace notifications (setbit)
- Will not invalidate WATCH
- Will not sent the invalidation message to the tracking client
We only run OOM related tests on x86_64 and aarch64, as jemalloc on other
platforms (notably s390x) may actually succeed very large allocations. As
a result the test may hang for a very long time at the cleanup phase,
iterating as many as 2^61 hash table slots.
Part one of implementing #8702 (taking hashes first before other types)
## Description of the feature
1. Change ziplist encoded hash objects to listpack encoding.
2. Convert existing ziplists on RDB loading time. an O(n) operation.
## Rdb format changes
1. Add RDB_TYPE_HASH_LISTPACK rdb type.
2. Bump RDB_VERSION to 10
## Interface changes
1. New `hash-max-listpack-entries` config is an alias for `hash-max-ziplist-entries` (same with `hash-max-listpack-value`)
2. OBJECT ENCODING will return `listpack` instead of `ziplist`
## Listpack improvements:
1. Support direct insert, replace integer element (rather than convert back and forth from string)
3. Add more listpack capabilities to match the ziplist ones (like `lpFind`, `lpRandomPairs` and such)
4. Optimize element length fetching, avoid multiple calculations
5. Use inline to avoid function call overhead.
## Tests
1. Add a new test to the RDB load time conversion
2. Adding the listpack unit tests. (based on the one in ziplist.c)
3. Add a few "corrupt payload: fuzzer findings" tests, and slightly modify existing ones.
Co-authored-by: Oran Agra <oran@redislabs.com>
This commit mainly fixes empty keys due to RDB loading and restore command,
which was omitted in #9297.
1) When loading quicklsit, if all the ziplists in the quicklist are empty, NULL will be returned.
If only some of the ziplists are empty, then we will skip the empty ziplists silently.
2) When loading hash zipmap, if zipmap is empty, sanitization check will fail.
3) When loading hash ziplist, if ziplist is empty, NULL will be returned.
4) Add RDB loading test with sanitize.
Replication client no longer checks incoming command length against the client-query-buffer-limit. This makes the master able to replicate commands longer than replica's configured client-query-buffer-limit
The execution of the RPOPLPUSH command by the fuzzer created junk keys,
that were later being selected by RANDOMKEY and modified.
This also meant that lists were statistically tested more than other
files.
Fix the fuzzer not to pass junk key names to RPOPLPUSH, and add a check
that detects that new keys are not added by the fuzzer to detect future
similar issues.
Recently we found two issues in the fuzzer tester: #9302#9285
After fixing them, more problems surfaced and this PR (as well as #9297) aims to fix them.
Here's a list of the fixes
- Prevent an overflow when allocating a dict hashtable
- Prevent OOM when attempting to allocate a huge string
- Prevent a few invalid accesses in listpack
- Improve sanitization of listpack first entry
- Validate integrity of stream consumer groups PEL
- Validate integrity of stream listpack entry IDs
- Validate ziplist tail followed by extra data which start with 0xff
Co-authored-by: sundb <sundbcn@gmail.com>
When we load rdb or restore command, if we encounter a length of 0, it will result in the creation of an empty key.
This could either be a corrupt payload, or a result of a bug (see #8453 )
This PR mainly fixes the following:
1) When restore command will return `Bad data format` error.
2) When loading RDB, we will silently discard the key.
Co-authored-by: Oran Agra <oran@redislabs.com>
The psync2 test has failed several times recently.
In #9159 we only solved half of the problem.
i.e. reordering of the replica that's already connected to
the newly promoted master.
Consider this scenario:
0 slaveof 2
1 slaveof 2
3 slaveof 2
4 slaveof 1
0 slaveof no one, became a new master got a new replid
2 slaveof 0, partial resync and got the new replid
3 reconnect 2, inherit the new replid
3 slaveof 4, use the new replid and got a full resync
And another scenario:
1 slaveof 3
2 slaveof 4
3 slaveof 0
4 slaveof 0
4 slaveof no one, became a new master got a new replid
2 reconnect 4, inherit the new replid
2 slaveof 1, use the new replid and got a full resync
So maybe we should reattach replicas in the right order.
i.e. In the above example, if it would have reattached 1, 3 and 0 to
the new chain formed by 4 before trying to attach 2 to 1, it would succeed.
This commit break the SLAVEOF loop into two loops. (ideas from oran)
First loop that uses random to decide who replicates from who.
Second loop that does the actual SLAVEOF command.
In the second loop, we make sure to execute it in the right order,
and after each SLAVEOF, wait for it to be connected before we proceed.
Co-authored-by: Oran Agra <oran@redislabs.com>
This makes it possible to tune many parameters that were previously hard coded.
We don't intend these to be user configurable, but only used by tests to accelerate certain conditions which would otherwise take a long time and slow down the test suite.
Co-authored-by: Lucas Guang Yang <l84193800@china.huawei.com>
## Backgroud
As we know, after `fork`, one process will copy pages when writing data to these
pages(CoW), and another process still keep old pages, they totally cost more memory.
For redis, we suffered that redis consumed much memory when the fork child is serializing
key/values, even that maybe cause OOM.
But actually we find, in redis fork child process, the child process don't need to keep some
memory and parent process may write or update that, for example, child process will never
access the key-value that is serialized but users may update it in parent process.
So we think it may reduce COW if the child process release memory that it is not needed.
## Implementation
For releasing key value in child process, we may think we call `decrRefCount` to free memory,
but i find the fork child process still use much memory when we don't write any data to redis,
and it costs much more time that slows down bgsave. Maybe because memory allocator doesn't
really release memory to OS, and it may modify some inner data for this free operation, especially
when we free small objects.
Moreover, CoW is based on pages, so it is a easy way that we only free the memory bulk that is
not less than kernel page size. madvise(MADV_DONTNEED) can quickly release specified region
pages to OS bypassing memory allocator, and allocator still consider that this memory still is used
and don't change its inner data.
There are some buffers we can release in the fork child process:
- **Serialized key-values**
the fork child process never access serialized key-values, so we try to free them.
Because we only can release big bulk memory, and it is time consumed to iterate all
items/members/fields/entries of complex data type. So we decide to iterate them and
try to release them only when their average size of item/member/field/entry is more
than page size of OS.
- **Replication backlog**
Because replication backlog is a cycle buffer, it will be changed quickly if redis has heavy
write traffic, but in fork child process, we don't need to access that.
- **Client buffers**
If clients have requests during having the fork child process, clients' buffer also be changed
frequently. The memory includes client query buffer, output buffer, and client struct used memory.
To get child process peak private dirty memory, we need to count peak memory instead
of last used memory, because the child process may continue to release memory (since
COW used to only grow till now, the last was equivalent to the peak).
Also we're adding a new `current_cow_peak` info variable (to complement the existing
`current_cow_size`)
Co-authored-by: Oran Agra <oran@redislabs.com>
Fix test introduced in #9202 that failed on 32bit CI.
The failure was due to a wrong double comparison.
Change code to stringify the double first and then compare.
## Current state
1. Lua has its own parser that handles parsing `reds.call` replies and translates them
to Lua objects that can be used by the user Lua code. The parser partially handles
resp3 (missing big number, verbatim, attribute, ...)
2. Modules have their own parser that handles parsing `RM_Call` replies and translates
them to RedisModuleCallReply objects. The parser does not support resp3.
In addition, in the future, we want to add Redis Function (#8693) that will probably
support more languages. At some point maintaining so many parsers will stop
scaling (bug fixes and protocol changes will need to be applied on all of them).
We will probably end up with different parsers that support different parts of the
resp protocol (like we already have today with Lua and modules)
## PR Changes
This PR attempt to unified the reply parsing of Lua and modules (and in the future
Redis Function) by introducing a new parser unit (`resp_parser.c`). The new parser
handles parsing the reply and calls different callbacks to allow the users (another
unit that uses the parser, i.e, Lua, modules, or Redis Function) to analyze the reply.
### Lua API Additions
The code that handles reply parsing on `scripting.c` was removed. Instead, it uses
the resp_parser to parse and create a Lua object out of the reply. As mentioned
above the Lua parser did not handle parsing big numbers, verbatim, and attribute.
The new parser can handle those and so Lua also gets it for free.
Those are translated to Lua objects in the following way:
1. Big Number - Lua table `{'big_number':'<str representation for big number>'}`
2. Verbatim - Lua table `{'verbatim_string':{'format':'<verbatim format>', 'string':'<verbatim string value>'}}`
3. Attribute - currently ignored and not expose to the Lua parser, another issue will be open to decide how to expose it.
Tests were added to check resp3 reply parsing on Lua
### Modules API Additions
The reply parsing code on `module.c` was also removed and the new resp_parser is used instead.
In addition, the RedisModuleCallReply was also extracted to a separate unit located on `call_reply.c`
(in the future, this unit will also be used by Redis Function). A nice side effect of unified parsing is
that modules now also support resp3. Resp3 can be enabled by giving `3` as a parameter to the
fmt argument of `RM_Call`. It is also possible to give `0`, which will indicate an auto mode. i.e, Redis
will automatically chose the reply protocol base on the current client set on the RedisModuleCtx
(this mode will mostly be used when the module want to pass the reply to the client as is).
In addition, the following RedisModuleAPI were added to allow analyzing resp3 replies:
* New RedisModuleCallReply types:
* `REDISMODULE_REPLY_MAP`
* `REDISMODULE_REPLY_SET`
* `REDISMODULE_REPLY_BOOL`
* `REDISMODULE_REPLY_DOUBLE`
* `REDISMODULE_REPLY_BIG_NUMBER`
* `REDISMODULE_REPLY_VERBATIM_STRING`
* `REDISMODULE_REPLY_ATTRIBUTE`
* New RedisModuleAPI:
* `RedisModule_CallReplyDouble` - getting double value from resp3 double reply
* `RedisModule_CallReplyBool` - getting boolean value from resp3 boolean reply
* `RedisModule_CallReplyBigNumber` - getting big number value from resp3 big number reply
* `RedisModule_CallReplyVerbatim` - getting format and value from resp3 verbatim reply
* `RedisModule_CallReplySetElement` - getting element from resp3 set reply
* `RedisModule_CallReplyMapElement` - getting key and value from resp3 map reply
* `RedisModule_CallReplyAttribute` - getting a reply attribute
* `RedisModule_CallReplyAttributeElement` - getting key and value from resp3 attribute reply
* New context flags:
* `REDISMODULE_CTX_FLAGS_RESP3` - indicate that the client is using resp3
Tests were added to check the new RedisModuleAPI
### Modules API Changes
* RM_ReplyWithCallReply might return REDISMODULE_ERR if the given CallReply is in resp3
but the client expects resp2. This is not a breaking change because in order to get a resp3
CallReply one needs to specifically specify `3` as a parameter to the fmt argument of
`RM_Call` (as mentioned above).
Tests were added to check this change
### More small Additions
* Added `debug set-disable-deny-scripts` that allows to turn on and off the commands no-script
flag protection. This is used by the Lua resp3 tests so it will be possible to run `debug protocol`
and check the resp3 parsing code.
Co-authored-by: Oran Agra <oran@redislabs.com>
Co-authored-by: Yossi Gottlieb <yossigo@gmail.com>
Add SINTERCARD and ZINTERCARD commands that are similar to
ZINTER and SINTER but only return the cardinality with minimum
processing and memory overheads.
Co-authored-by: Oran Agra <oran@redislabs.com>
When redis-cli received ASK, it used string matching wrong and didn't
handle it.
When we access a slot which is in migrating state, it maybe
return ASK. After redirect to the new node, we need send ASKING
command before retry the command. In this PR after redis-cli receives
ASK, we send a ASKING command before send the origin command
after reconnecting.
Other changes:
* Make redis-cli -u and -c (unix socket and cluster mode) incompatible
with one another.
* When send command fails, we avoid the 2nd reconnect retry and just
print the error info. Users will decide how to do next.
See #9277.
* Add a test faking two redis nodes in TCL to just send ASK and OK in
redis protocol to test ASK behavior.
Co-authored-by: Viktor Söderqvist <viktor.soderqvist@est.tech>
Co-authored-by: Oran Agra <oran@redislabs.com>
Add NX, XX, GT, and LT flags to EXPIRE, PEXPIRE, EXPIREAT, PEXAPIREAT.
- NX - only modify the TTL if no TTL is currently set
- XX - only modify the TTL if there is a TTL currently set
- GT - only increase the TTL (considering non-volatile keys as infinite expire time)
- LT - only decrease the TTL (considering non-volatile keys as infinite expire time)
return value of the command is 0 when the operation was skipped due to one of these flags.
Signed-off-by: Ning Sun <sunng@protonmail.com>
Fixes:
- When a consumer is created as a side effect, redis didn't issue a keyspace notification,
nor incremented the server.dirty (affects periodic snapshots).
this was a bug in XREADGROUP, XCLAIM, and XAUTOCLAIM.
- When attempting to delete a non-existent consumer, don't issue a keyspace notification
and don't increment server.dirty
this was a bug in XGROUP DELCONSUMER
Other changes:
- Changed streamLookupConsumer() to always only do lookup consumer (never do implicit creation),
Its last seen time is updated unless the SLC_NO_REFRESH flag is specified.
- Added streamCreateConsumer() to create a new consumer. When the creation is successful,
it will notify and dirty++ unless the SCC_NO_NOTIFY or SCC_NO_DIRTIFY flags is specified.
- Changed streamDelConsumer() to always only do delete consumer.
- Added keyspace notifications tests about stream events.
With an empty src key, we need to deal with two situations:
1. non-STORE: We should return emptyarray.
2. STORE: Try to delete the store key and return 0.
This applies to both GEOSEARCHSTORE (new to v6.2), and
also GEORADIUS STORE (which was broken since forever)
This pr try to fix#9261. i.e. both STORE variants would have behaved
like the non-STORE variants when the source key was missing,
returning an empty array and not deleting the destination key,
instead of returning 0, and deleting the destination key.
Also add more tests for some commands.
- GEORADIUS: wrong type src key, non existing src key, empty search,
store with non existing src key, store with empty search
- GEORADIUSBYMEMBER: wrong type src key, non existing src key,
non existing member, store with non existing src key
- GEOSEARCH: wrong type src key, non existing src key, empty search,
frommember with non existing member
- GEOSEARCHSTORE: wrong type key, non existing src key,
fromlonlat with empty search, frommember with non existing member
Co-authored-by: Oran Agra <oran@redislabs.com>
In some cases large replies on slow systems may only be partially read
by the test suite, resulting with parsing errors.
This fix is still timing sensitive but should greatly reduce the chances
of this happening.
The issue is that when a sentinel with the same address and IP is turned on with a different runid, its port is set to 0 but it is still present in the dictionary master->sentinels which contain all the sentinels for a master.
This causes a problem when we do INFO SENTINEL because it takes the size of the dictionary of sentinels. This might also cause a problem for failover if enough sentinels have their port set to 0 since the number of voters in failover is also determined by the size of the dictionary of sentinels.
This commits removes the sentinels with the port set to zero from the dictionary of sentinels.
Fixes#8786
GETBIT, SETBIT may access wrong address because of wrap.
BITCOUNT and BITPOS may return wrapped results.
BITFIELD may access the wrong address but also allocate insufficient memory and segfault (see CVE-2021-32761).
This commit uses `uint64_t` or `long long` instead of `size_t`.
related https://github.com/redis/redis/pull/8096
At 32bit platform:
> setbit bit 4294967295 1
(integer) 0
> config set proto-max-bulk-len 536870913
OK
> append bit "\xFF"
(integer) 536870913
> getbit bit 4294967296
(integer) 0
When the bit index is larger than 4294967295, size_t can't hold bit index. In the past, `proto-max-bulk-len` is limit to 536870912, so there is no problem.
After this commit, bit position is stored in `uint64_t` or `long long`. So when `proto-max-bulk-len > 536870912`, 32bit platforms can still be correct.
For 64bit platform, this problem still exists. The major reason is bit pos 8 times of byte pos. When proto-max-bulk-len is very larger, bit pos may overflow.
But at 64bit platform, we don't have so long string. So this bug may never happen.
Additionally this commit add a test cost `512MB` memory which is tag as `large-memory`. Make freebsd ci and valgrind ci ignore this test.
- promote the code in DEBUG PROTOCOL to addReplyBigNum
- DEBUG PROTOCOL ATTRIB skips the attribute when client is RESP2
- networking.c addReply for push and attributes generate assertion when
called on a RESP2 client, anything else would produce a broken
protocol that clients can't handle.
There are two issues fixed in this commit:
1. we want to fail the EXEC command in case there is a watched key that's logically
expired but not yet deleted by active expire or lazy expire.
2. we saw that currently cache time is update in every `call()` (including nested calls),
this time is being also being use for the isKeyExpired comparison, we want to update
the cache time only in the first call (execCommand)
Co-authored-by: Oran Agra <oran@redislabs.com>
