This PR handles several aspects
1. Calls to RM_ReplyWithError from thread safe contexts don't violate thread safety.
2. Errors returning from RM_Call to the module aren't counted in the statistics (they
might be handled silently by the module)
3. When a module propagates a reply it got from RM_Call to it's client, then the error
statistics are counted.
This is done by:
1. When appending an error reply to the output buffer, we avoid updating the global
error statistics, instead we cache that error in a deferred list in the client struct.
2. When creating a RedisModuleCallReply object, the deferred error list is moved from
the client into that object.
3. when a module calls RM_ReplyWithCallReply we copy the deferred replies to the dest
client (if that's a real client, then that's when the error statistics are updated to the server)
Note about RM_ReplyWithCallReply: if the original reply had an array with errors, and the module
replied with just a portion of the original reply, and not the entire reply, the errors are currently not
propagated and the errors stats will not get propagated.
Fix#10180
Remove scripts defragger since it was broken since #10126 (released in 7.0 RC1).
would crash the server if defragger starts in a server that contains eval scripts.
In #10126 the global `lua_script` dict became a dict to a custom `luaScript` struct with an internal `robj`
in it instead of a generic `sds` -> `robj` dict. This means we need custom code to defrag it and since scripts
should never really cause much fragmentation it makes more sense to simply remove the defrag code for scripts.
The bug is introduced by #9323. (released in 7.0 RC1)
The define of `REDISMODULE_OPTIONS_HANDLE_IO_ERRORS` and `REDISMODULE_OPTION_NO_IMPLICIT_SIGNAL_MODIFIED` have the same value.
This will result in skipping `signalModifiedKey()` after `RM_CloseKey()` if the module has set
`REDISMODULE_OPTIONS_HANDLE_REPL_ASYNC_LOAD` option.
The implication is missing WATCH and client side tracking invalidations.
Other changes:
- add `no-implicit-signal-modified` to the options in INFO modules
Co-authored-by: Oran Agra <oran@redislabs.com>
This is an enhancement for INFO command, previously INFO only support one argument
for different info section , if user want to get more categories information, either perform
INFO all / default or calling INFO for multiple times.
**Description of the feature**
The goal of adding this feature is to let the user retrieve multiple categories via the INFO
command, and still avoid emitting the same section twice.
A use case for this is like Redis Sentinel, which periodically calling INFO command to refresh
info from monitored Master/Slaves, only Server and Replication part categories are used for
parsing information. If the INFO command can return just enough categories that client side
needs, it can save a lot of time for client side parsing it as well as network bandwidth.
**Implementation**
To share code between redis, sentinel, and other users of INFO (DEBUG and modules),
we have a new `genInfoSectionDict` function that returns a dict and some boolean flags
(e.g. `all`) to the caller (built from user input).
Sentinel is later purging unwanted sections from that, and then it is forwarded to the info `genRedisInfoString`.
**Usage Examples**
INFO Server Replication
INFO CPU Memory
INFO default commandstats
Co-authored-by: Oran Agra <oran@redislabs.com>
This PR handles inconsistencies in errors returned from lua scripts.
Details of the problem can be found in #10165.
### Changes
- Remove double stack trace. It's enough that a stack trace is automatically added by the engine's error handler
see d0bc4fff18/src/function_lua.c (L472-L485)
and d0bc4fff18/src/eval.c (L243-L255)
- Make sure all errors a preceded with an error code. Passing a simple string to `luaPushError()` will prepend it
with a generic `ERR` error code.
- Make sure lua error table doesn't include a RESP `-` error status. Lua stores redis error's as a lua table with a
single `err` field and a string. When the string is translated back to RESP we add a `-` to it.
See d0bc4fff18/src/script_lua.c (L510-L517)
So there's no need to store it in the lua table.
### Before & After
```diff
--- <unnamed>
+++ <unnamed>
@@ -1,14 +1,14 @@
1: config set maxmemory 1
2: +OK
3: eval "return redis.call('set','x','y')" 0
- 4: -ERR Error running script (call to 71e6319f97b0fe8bdfa1c5df3ce4489946dda479): @user_script:1: @user_script: 1: -OOM command not allowed when used memory > 'maxmemory'.
+ 4: -ERR Error running script (call to 71e6319f97b0fe8bdfa1c5df3ce4489946dda479): @user_script:1: OOM command not allowed when used memory > 'maxmemory'.
5: eval "return redis.pcall('set','x','y')" 0
- 6: -@user_script: 1: -OOM command not allowed when used memory > 'maxmemory'.
+ 6: -OOM command not allowed when used memory > 'maxmemory'.
7: eval "return redis.call('select',99)" 0
8: -ERR Error running script (call to 4ad5abfc50bbccb484223905f9a16f09cd043ba8): @user_script:1: ERR DB index is out of range
9: eval "return redis.pcall('select',99)" 0
10: -ERR DB index is out of range
11: eval_ro "return redis.call('set','x','y')" 0
-12: -ERR Error running script (call to 71e6319f97b0fe8bdfa1c5df3ce4489946dda479): @user_script:1: @user_script: 1: Write commands are not allowed from read-only scripts.
+12: -ERR Error running script (call to 71e6319f97b0fe8bdfa1c5df3ce4489946dda479): @user_script:1: ERR Write commands are not allowed from read-only scripts.
13: eval_ro "return redis.pcall('set','x','y')" 0
-14: -@user_script: 1: Write commands are not allowed from read-only scripts.
+14: -ERR Write commands are not allowed from read-only scripts.
```
Fix#7021#8924#10198
# Intro
Before this commit X[AUTO]CLAIM used to transfer deleted entries from one
PEL to another, but reply with "nil" for every such entry (instead of the entry id).
The idea (for XCLAIM) was that the caller could see this "nil", realize the entry
no longer exists, and XACK it in order to remove it from PEL.
The main problem with that approach is that it assumes there's a correlation
between the index of the "id" arguments and the array indices, which there
isn't (in case some of the input IDs to XCLAIM never existed/read):
```
127.0.0.1:6379> XADD x 1 f1 v1
"1-0"
127.0.0.1:6379> XADD x 2 f1 v1
"2-0"
127.0.0.1:6379> XADD x 3 f1 v1
"3-0"
127.0.0.1:6379> XGROUP CREATE x grp 0
OK
127.0.0.1:6379> XREADGROUP GROUP grp Alice COUNT 2 STREAMS x >
1) 1) "x"
2) 1) 1) "1-0"
2) 1) "f1"
2) "v1"
2) 1) "2-0"
2) 1) "f1"
2) "v1"
127.0.0.1:6379> XDEL x 1 2
(integer) 2
127.0.0.1:6379> XCLAIM x grp Bob 0 0-99 1-0 1-99 2-0
1) (nil)
2) (nil)
```
# Changes
Now, X[AUTO]CLAIM acts in the following way:
1. If one tries to claim a deleted entry, we delete it from the PEL we found it in
(and the group PEL too). So de facto, such entry is not claimed, just cleared
from PEL (since anyway it doesn't exist in the stream)
2. since we never claim deleted entries, X[AUTO]CLAIM will never return "nil"
instead of an entry.
3. add a new element to XAUTOCLAIM's response (see below)
# Knowing which entries were cleared from the PEL
The caller may want to log any entries that were found in a PEL but deleted from
the stream itself (it would suggest that there might be a bug in the application:
trimming the stream while some entries were still no processed by the consumers)
## XCLAIM
the set {XCLAIM input ids} - {XCLAIM returned ids} contains all the entry ids that were
not claimed which means they were deleted (assuming the input contains only entries
from some PEL). The user doesn't need to XACK them because XCLAIM had already
deleted them from the source PEL.
## XAUTOCLAIM
XAUTOCLAIM has a new element added to its reply: it's an array of all the deleted
stream IDs it stumbled upon.
This is somewhat of a breaking change since X[AUTO]CLAIM used to be able to reply
with "nil" and now it can't... But since it was undocumented (and generally a bad idea
to rely on it, as explained above) the breakage is not that bad.
- add COMMAND GETKEYSANDFLAGS sub-command
- add RM_KeyAtPosWithFlags and GetCommandKeysWithFlags
- RM_KeyAtPos and RM_CreateCommand set flags requiring full access for keys
- RM_CreateCommand set VARIABLE_FLAGS
- expose `variable_flags` flag in COMMAND INFO key-specs
- getKeysFromCommandWithSpecs prefers key-specs over getkeys-api
- add tests for all of these
If summary or since is empty, we used to return NULL in
COMMAND DOCS. Currently all redis commands will have these
two fields.
But not for module command, summary and since are optional
for RM_SetCommandInfo. With the change in #10043, if a module
command doesn't have the summary or since, redis-cli will
crash (see #10250).
In this commit, COMMAND DOCS avoid adding summary or since
when they are missing.
Changes:
1. Adds the `redis.acl_check_cmd()` api to lua scripts. It can be used to check if the
current user has permissions to execute a given command. The new function receives
the command to check as an argument exactly like `redis.call()` receives the command
to execute as an argument.
2. In the PR I unified the code used to convert lua arguments to redis argv arguments from
both the new `redis.acl_check_cmd()` API and the `redis.[p]call()` API. This cleans up
potential duplicate code.
3. While doing the refactoring in 2 I noticed there's an optimization to reduce allocation calls
when parsing lua arguments into an `argv` array in the `redis.[p]call()` implementation.
These optimizations were introduced years ago in 48c49c4851
and 4f686555ce. It is unclear why this was added.
The original commit message claims a 4% performance increase which I couldn't recreate
and might not be worth it even if it did recreate. This PR removes that optimization.
Following are details of the benchmark I did that couldn't reveal any performance
improvements due to this optimization:
```
benchmark 1: src/redis-benchmark -P 500 -n 10000000 eval 'return redis.call("ping")' 0
benchmark 2: src/redis-benchmark -P 500 -r 1000 -n 1000000 eval 'return redis.call("mset","k1__rand_int__","v1__rand_int__","k2__rand_int__","v2__rand_int__","k3__rand_int__","v3__rand_int__","k4__rand_int__","v4__rand_int__")' 0
benchmark 3: src/redis-benchmark -P 500 -r 1000 -n 100000 eval "for i=1,100,1 do redis.call('set','kk'..i,'vv'..__rand_int__) end return redis.call('get','kk5')" 0
benchmark 4: src/redis-benchmark -P 500 -r 1000 -n 1000000 eval 'return redis.call("mset","k1__rand_int__","v1__rand_int__","k2__rand_int__","v2__rand_int__","k3__rand_int__","v3__rand_int__","k4__rand_int__","v4__rand_int__xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx")'
```
I ran the benchmark on this branch with and without commit 68b71680a4d3bb8f0509e06578a9f15d05b92a47
Results in requests per second:
cmd | without optimization | without optimization 2nd run | with original optimization | with original optimization 2nd run
-- | -- | -- | -- | --
1 | 461233.34 | 477395.31 | 471098.16 | 469946.91
2 | 34774.14 | 35469.8 | 35149.38 | 34464.93
3 | 6390.59 | 6281.41 | 6146.28 | 6464.12
4 | 28005.71 | | 27965.77 |
As you can see, different use cases showed identical or negligible performance differences.
So finally I decided to chuck the original optimization and simplify the code.
Adds RM_SetCommandInfo, allowing modules to provide the following command info:
* summary
* complexity
* since
* history
* hints
* arity
* key specs
* args
This information affects the output of `COMMAND`, `COMMAND INFO` and `COMMAND DOCS`,
Cluster, ACL and is used to filter commands with the wrong number of arguments before
the call reaches the module code.
The recently added API functions for key specs (never released) are removed.
A minimalist example would look like so:
```c
RedisModuleCommand *mycmd = RedisModule_GetCommand(ctx,"mymodule.mycommand");
RedisModuleCommandInfo mycmd_info = {
.version = REDISMODULE_COMMAND_INFO_VERSION,
.arity = -5,
.summary = "some description",
};
if (RedisModule_SetCommandInfo(mycmd, &mycmd_info) == REDISMODULE_ERR)
return REDISMODULE_ERR;
````
Notes:
* All the provided information (including strings) is copied, not keeping references to the API input data.
* The version field is actually a static struct that contains the sizes of the the structs used in arrays,
so we can extend these in the future and old version will still be able to take the part they can support.
This is done to avoid a crash when the timer fires after the module was unloaded.
Or memory leaks in case we wanted to just ignore the timer.
It'll cause the MODULE UNLOAD command to return with an error
Co-authored-by: sundb <sundbcn@gmail.com>
For backwards compatibility in 6.x, channels default permission was set to `allchannels` however with 7.0,
we should modify it and the default value should be `resetchannels` for better security posture.
Also, with selectors in ACL, a client doesn't have to set channel rules everytime and by default
the value will be `resetchannels`.
Before this change
```
127.0.0.1:6379> acl list
1) "user default on nopass ~* &* +@all"
127.0.0.1:6379> acl setuser hp on nopass +@all ~*
OK
127.0.0.1:6379> acl list
1) "user default on nopass ~* &* +@all"
2) "user hp on nopass ~* &* +@all"
127.0.0.1:6379> acl setuser hp1 on nopass -@all (%R~sales*)
OK
127.0.0.1:6379> acl list
1) "user default on nopass ~* &* +@all"
2) "user hp on nopass ~* &* +@all"
3) "user hp1 on nopass &* -@all (%R~sales* &* -@all)"
```
After this change
```
127.0.0.1:6379> acl list
1) "user default on nopass ~* &* +@all"
127.0.0.1:6379> acl setuser hp on nopass +@all ~*
OK
127.0.0.1:6379> acl list
1) "user default on nopass ~* &* +@all"
2) "user hp on nopass ~* resetchannels +@all"
127.0.0.1:6379> acl setuser hp1 on nopass -@all (%R~sales*)
OK
127.0.0.1:6379> acl list
1) "user default on nopass ~* &* +@all"
2) "user hp on nopass ~* resetchannels +@all"
3) "user hp1 on nopass resetchannels -@all (%R~sales* resetchannels -@all)"
```
SET is a R+W command, because it can also do `GET` on the data.
SET without GET is a write-only command.
SET with GET is a read+write command.
In #9974, we added ACL to let users define write-only access.
So when the user uses SET with GET option, and the user doesn't
have the READ permission on the key, we need to reject it,
but we rather not reject users with write-only permissions from using
the SET command when they don't use GET.
In this commit, we add a `getkeys_proc` function to control key
flags in SET command. We also add a new key spec flag (VARIABLE_FLAGS)
means that some keys might have different flags depending on arguments.
We also handle BITFIELD command, add a `bitfieldGetKeys` function.
BITFIELD GET is a READ ONLY command.
BITFIELD SET or BITFIELD INCR are READ WRITE commands.
Other changes:
1. SET GET was added in 6.2, add the missing since in set.json
2. Added tests to cover the changes in acl-v2.tcl
3. Fix some typos in server.h and cleanups in acl-v2.tcl
Co-authored-by: Madelyn Olson <madelyneolson@gmail.com>
Co-authored-by: Oran Agra <oran@redislabs.com>
Added the following statistics (per engine) to FUNCTION STATS command:
* number of functions
* number of libraries
Output example:
```
> FUNCTION stats
1) "running_script"
2) (nil)
3) "engines"
4) 1) "LUA"
2) 1) "libraries_count"
2) (integer) 1
3) "functions_count"
4) (integer) 1
```
To collect the stats, added a new dictionary to libraries_ctx that contains
for each engine, the engine statistics representing the current libraries_ctx.
Update the stats on:
1. Link library to libraries_ctx
2. Unlink library from libraries_ctx
3. Flushing libraries_ctx
This PR aims to improve the flags associated with some commands and adds various tests around
these cases. Specifically, it's concerned with commands which declare keys but have no ACL
flags (think `EXISTS`), the user needs either read or write permission to access this type of key.
This change is primarily concerned around commands in three categories:
# General keyspace commands
These commands are agnostic to the underlying data outside of side channel attacks, so they are not
marked as ACCESS.
* TOUCH
* EXISTS
* TYPE
* OBJECT 'all subcommands'
Note that TOUCH is not a write command, it could be a side effect of either a read or a write command.
# Length and cardinality commands
These commands are marked as NOT marked as ACCESS since they don't return actual user strings,
just metadata.
* LLEN
* STRLEN
* SCARD
* HSTRLEN
# Container has member commands
These commands return information about the existence or metadata about the key. These commands
are NOT marked as ACCESS since the check of membership is used widely in write commands
e.g. the response of HSET.
* SISMEMBER
* HEXISTS
# Intersection cardinality commands
These commands are marked as ACCESS since they process data to compute the result.
* PFCOUNT
* ZCOUNT
* ZINTERCARD
* SINTERCARD
In #10025 we added a mechanism for flagging certain properties for Redis Functions.
This lead us to think we'd like to "port" this mechanism to Redis Scripts (`EVAL`) as well.
One good reason for this, other than the added functionality is because it addresses the
poor behavior we currently have in `EVAL` in case the script performs a (non DENY_OOM) write operation
during OOM state. See #8478 (And a previous attempt to handle it via #10093) for details.
Note that in Redis Functions **all** write operations (including DEL) will return an error during OOM state
unless the function is flagged as `allow-oom` in which case no OOM checking is performed at all.
This PR:
- Enables setting `EVAL` (and `SCRIPT LOAD`) script flags as defined in #10025.
- Provides a syntactical framework via [shebang](https://en.wikipedia.org/wiki/Shebang_(Unix)) for
additional script annotations and even engine selection (instead of just lua) for scripts.
- Provides backwards compatibility so scripts without the new annotations will behave as they did before.
- Appropriate tests.
- Changes `EVAL[SHA]/_RO` to be flagged as `STALE` commands. This makes it possible to flag individual
scripts as `allow-stale` or not flag them as such. In backwards compatibility mode these commands will
return the `MASTERDOWN` error as before.
- Changes `SCRIPT LOAD` to be flagged as a `STALE` command. This is mainly to make it logically
compatible with the change to `EVAL` in the previous point. It enables loading a script on a stale server
which is technically okay it doesn't relate directly to the server's dataset. Running the script does, but that
won't work unless the script is explicitly marked as `allow-stale`.
Note that even though the LUA syntax doesn't support hash tag comments `.lua` files do support a shebang
tag on the top so they can be executed on Unix systems like any shell script. LUA's `luaL_loadfile` handles
this as part of the LUA library. In the case of `luaL_loadbuffer`, which is what Redis uses, I needed to fix the
input script in case of a shebang manually. I did this the same way `luaL_loadfile` does, by replacing the
first line with a single line feed character.
The keyspec API is not yet released and there is a plan to change it
in #10108, which is going to be included in RC2. Therefore, we hide
it in RC1 to avoid introducing a breaking change in RC2.
Co-authored-by: Oran Agra <oran@redislabs.com>
Summary of changes:
1. Rename `redisCommand->name` to `redisCommand->declared_name`, it is a
const char * for native commands and SDS for module commands.
2. Store the [sub]command fullname in `redisCommand->fullname` (sds).
3. List subcommands in `ACL CAT`
4. List subcommands in `COMMAND LIST`
5. `moduleUnregisterCommands` now will also free the module subcommands.
6. RM_GetCurrentCommandName returns full command name
Other changes:
1. Add `addReplyErrorArity` and `addReplyErrorExpireTime`
2. Remove `getFullCommandName` function that now is useless.
3. Some cleanups about `fullname` since now it is SDS.
4. Delete `populateSingleCommand` function from server.h that is useless.
5. Added tests to cover this change.
6. Add some module unload tests and fix the leaks
7. Make error messages uniform, make sure they always contain the full command
name and that it's quoted.
7. Fixes some typos
see the history in #9504, fixes#10124
Co-authored-by: Oran Agra <oran@redislabs.com>
Co-authored-by: guybe7 <guy.benoish@redislabs.com>
Recently we added extensive support for sub-commands in for redis 7.0,
this meant that the old ACL mechanism for
sub-commands wasn't needed, or actually was improved (to handle both include
and exclude control, like for commands), but only for real sub-commands.
The old mechanism in ACL was renamed to first-arg, and was able to match the
first argument of any command (including sub-commands).
We now realized that we might wanna completely delete that first-arg feature some
day, so the first step was not to give it new capabilities in 7.0 and it didn't have before.
Changes:
1. ACL: Block the first-arg mechanism on subcommands (we keep if in non-subcommands
for backward compatibility)
2. COMMAND: When looking up a command, insist the command name doesn't contain
extra words. Example: When a user issues `GET key` we want `lookupCommand` to return
`getCommand` but when if COMMAND calls `lookupCommand` with `get|key` we want it to fail.
Other changes:
1. ACLSetUser: prevent a redundant command lookup
* Implemented selectors which provide multiple different sets of permissions to users
* Implemented key based permissions
* Added a new ACL dry-run command to test permissions before execution
* Updated module APIs to support checking key based permissions
Co-authored-by: Oran Agra <oran@redislabs.com>
Some modules might perform a long-running logic in different stages of Redis lifetime, for example:
* command execution
* RDB loading
* thread safe context
During this long-running logic Redis is not responsive.
This PR offers
1. An API to process events while a busy command is running (`RM_Yield`)
2. A new flag (`ALLOW_BUSY`) to mark the commands that should be handled during busy
jobs which can also be used by modules (`allow-busy`)
3. In slow commands and thread safe contexts, this flag will start rejecting commands with -BUSY only
after `busy-reply-threshold`
4. During loading (`rdb_load` callback), it'll process events right away (not wait for `busy-reply-threshold`),
but either way, the processing is throttled to the server hz rate.
5. Allow modules to Yield to redis background tasks, but not to client commands
* rename `script-time-limit` to `busy-reply-threshold` (an alias to the pre-7.0 `lua-time-limit`)
Co-authored-by: Oran Agra <oran@redislabs.com>
Function PR was merged without AOF rw support because we thought this feature was going
to be removed on Redis 7.
Tests was added on aofrw.tcl
Other existing aofrw tests where slow due to unwanted rdb-key-save-delay
Co-authored-by: Oran Agra <oran@redislabs.com>
The new ACL key based permissions in #9974 require the key-specs (#8324) to have more
explicit flags rather than just READ and WRITE. See discussion in #10040
This PR defines two groups of flags:
One about how redis internally handles the key (mutually-exclusive).
The other is about the logical operation done from the user's point of view (3 mutually exclusive
write flags, and one read flag, all optional).
In both groups, if we can't explicitly flag something as explicit read-only, delete-only, or
insert-only, we flag it as `RW` or `UPDATE`.
here's the definition from the code:
```
/* Key-spec flags *
* -------------- */
/* The following refer what the command actually does with the value or metadata
* of the key, and not necessarily the user data or how it affects it.
* Each key-spec may must have exaclty one of these. Any operation that's not
* distinctly deletion, overwrite or read-only would be marked as RW. */
#define CMD_KEY_RO (1ULL<<0) /* Read-Only - Reads the value of the key, but
* doesn't necessarily returns it. */
#define CMD_KEY_RW (1ULL<<1) /* Read-Write - Modifies the data stored in the
* value of the key or its metadata. */
#define CMD_KEY_OW (1ULL<<2) /* Overwrite - Overwrites the data stored in
* the value of the key. */
#define CMD_KEY_RM (1ULL<<3) /* Deletes the key. */
/* The follwing refer to user data inside the value of the key, not the metadata
* like LRU, type, cardinality. It refers to the logical operation on the user's
* data (actual input strings / TTL), being used / returned / copied / changed,
* It doesn't refer to modification or returning of metadata (like type, count,
* presence of data). Any write that's not INSERT or DELETE, would be an UPADTE.
* Each key-spec may have one of the writes with or without access, or none: */
#define CMD_KEY_ACCESS (1ULL<<4) /* Returns, copies or uses the user data from
* the value of the key. */
#define CMD_KEY_UPDATE (1ULL<<5) /* Updates data to the value, new value may
* depend on the old value. */
#define CMD_KEY_INSERT (1ULL<<6) /* Adds data to the value with no chance of,
* modification or deletion of existing data. */
#define CMD_KEY_DELETE (1ULL<<7) /* Explicitly deletes some content
* from the value of the key. */
```
Unrelated changes:
- generate-command-code.py is only compatible with python3 (modified the shabang)
- generate-command-code.py print file on json parsing error
- rename `shard_channel` key-spec flag to just `channel`.
- add INCOMPLETE flag in input spec of SORT and SORT_RO
Modules can now register sockets/pipe to the Redis main thread event loop and do network operations asynchronously. Previously, modules had to maintain an event loop and another thread for asynchronous network operations.
Also, if a module is calling API functions after doing some network operations, it had to synchronize its event loop thread's access with Redis main thread by locking the GIL, causing contention on the lock. After this commit, no synchronization is needed as module can operate in Redis main thread context. So, this commit may improve the performance for some use cases.
Added three functions to the module API:
* RedisModule_EventLoopAdd(int fd, int mask, RedisModuleEventLoopFunc func, void *user_data)
* RedisModule_EventLoopDel(int fd, int mask)
* RedisModule_EventLoopAddOneShot(RedisModuleEventLoopOneShotFunc func, void *user_data) - This function can be called from other threads to trigger callback on Redis main thread. Callback will be triggered only once. If Redis main thread is sleeping, this call will wake up the Redis main thread.
Event loop callbacks are called by Redis main thread after locking the GIL. Inside callbacks, modules can operate as if they are holding the GIL.
Added REDISMODULE_EVENT_EVENTLOOP event with two subevents:
* REDISMODULE_SUBEVENT_EVENTLOOP_BEFORE_SLEEP
* REDISMODULE_SUBEVENT_EVENTLOOP_AFTER_SLEEP
These events are for modules that want to participate in the before and after sleep action. e.g It might be useful to implement batching : Read data from the network, write all to a file in one go on BEFORE_SLEEP event.
Following discussion on: https://github.com/redis/redis/issues/9899#issuecomment-1014689385
Raise error if unknows parameter is given to `FUNCTION LOAD`.
Before the fix:
```
127.0.0.1:6379> function load LUA lib2 foo bar "local function test1() return 5 end redis.register_function('test1', test1)"
OK
```
After the fix:
```
127.0.0.1:6379> function load LUA lib2 foo bar "local function test1() return 5 end redis.register_function('test1', test1)"
(error) ERR Unkowns option given: foo
```
1. enable diskless replication by default
2. add a new config named repl-diskless-sync-max-replicas that enables
replication to start before the full repl-diskless-sync-delay was
reached.
3. put replica online sooner on the master (see below)
4. test suite uses repl-diskless-sync-delay of 0 to be faster
5. a few tests that use multiple replica on a pre-populated master, are
now using the new repl-diskless-sync-max-replicas
6. fix possible timing issues in a few cluster tests (see below)
put replica online sooner on the master
----------------------------------------------------
there were two tests that failed because they needed for the master to
realize that the replica is online, but the test code was actually only
waiting for the replica to realize it's online, and in diskless it could
have been before the master realized it.
changes include two things:
1. the tests wait on the right thing
2. issues in the master, putting the replica online in two steps.
the master used to put the replica as online in 2 steps. the first
step was to mark it as online, and the second step was to enable the
write event (only after getting ACK), but in fact the first step didn't
contains some of the tasks to put it online (like updating good slave
count, and sending the module event). this meant that if a test was
waiting to see that the replica is online form the point of view of the
master, and then confirm that the module got an event, or that the
master has enough good replicas, it could fail due to timing issues.
so now the full effect of putting the replica online, happens at once,
and only the part about enabling the writes is delayed till the ACK.
fix cluster tests
--------------------
I added some code to wait for the replica to sync and avoid race
conditions.
later realized the sentinel and cluster tests where using the original 5
seconds delay, so changed it to 0.
this means the other changes are probably not needed, but i suppose
they're still better (avoid race conditions)
since `info commandstats` already shows sub-commands, we should do the same in `info latencystats`.
similarly, the LATENCY HISTOGRAM command now shows sub-commands (with their full name) when:
* asking for all commands
* asking for a specific container command
* asking for a specific sub-command)
Co-authored-by: Oran Agra <oran@redislabs.com>
These two tests have a high probability of failure
on MacOS. Or it takes many retries to succeed.
Keys often expire before we can access them.
So this time we try to avoid this by reducing the time
of the first `after`, or removeing the first `after`.
The results of doing `20/81` and `0/101` are:
- PEXPIRE (20/81): 1069/1949
- PEXPIREAT (20/81): 1093/1949
- PEXPIRE (0/101): 31936 / 31936
- PEXPIREAT (0/101): 31936 / 31936
The first number is the number of times that the
test succeeded without any retries.
The second number is the total number of executions.
And we can see that `0/101` doesn't even need an extra
retries. Also reduces the time required for testing.
So in the end we chose `0/100`, i.e. remove the first `after`.
As for `PEXPIREAT`, there is no failure, but we still changed
it together, using `0/201`, after 2W tests, none of them failed.
### Describe
Fix crash found by CI, Introduced by #9849.
When we do any operation on the quicklist, we should make sure that all nodes
of the quicklist should not be in the recompressed state.
### Issues
This PR fixes two issues with incorrect recompression.
1. The current quicklist node is full and the previous node isn't full,
the current node is not recompressed correctly after inserting elements into the previous node.
2. The current quicklist node is full and the next node isn't full,
the current node is not recompressed correctly after inserting elements into the next node.
### Test
Add two tests to cover incorrect compression issues.
### Other
Fix unittest test failure caused by assertion introduced by #9849.
# Redis Functions Flags
Following the discussion on #10025 Added Functions Flags support.
The PR is divided to 2 sections:
* Add named argument support to `redis.register_function` API.
* Add support for function flags
## `redis.register_function` named argument support
The first part of the PR adds support for named argument on `redis.register_function`, example:
```
redis.register_function{
function_name='f1',
callback=function()
return 'hello'
end,
description='some desc'
}
```
The positional arguments is also kept, which means that it still possible to write:
```
redis.register_function('f1', function() return 'hello' end)
```
But notice that it is no longer possible to pass the optional description argument on the positional
argument version. Positional argument was change to allow passing only the mandatory arguments
(function name and callback). To pass more arguments the user must use the named argument version.
As with positional arguments, the `function_name` and `callback` is mandatory and an error will be
raise if those are missing. Also, an error will be raise if an unknown argument name is given or the
arguments type is wrong.
Tests was added to verify the new syntax.
## Functions Flags
The second part of the PR is adding functions flags support.
Flags are given to Redis when the engine calls `functionLibCreateFunction`, supported flags are:
* `no-writes` - indicating the function perform no writes which means that it is OK to run it on:
* read-only replica
* Using FCALL_RO
* If disk error detected
It will not be possible to run a function in those situations unless the function turns on the `no-writes` flag
* `allow-oom` - indicate that its OK to run the function even if Redis is in OOM state, if the function will
not turn on this flag it will not be possible to run it if OOM reached (even if the function declares `no-writes`
and even if `fcall_ro` is used). If this flag is set, any command will be allow on OOM (even those that is
marked with CMD_DENYOOM). The assumption is that this flag is for advance users that knows its
meaning and understand what they are doing, and Redis trust them to not increase the memory usage.
(e.g. it could be an INCR or a modification on an existing key, or a DEL command)
* `allow-state` - indicate that its OK to run the function on stale replica, in this case we will also make
sure the function is only perform `stale` commands and raise an error if not.
* `no-cluster` - indicate to disallow running the function if cluster is enabled.
Default behaviure of functions (if no flags is given):
1. Allow functions to read and write
2. Do not run functions on OOM
3. Do not run functions on stale replica
4. Allow functions on cluster
### Lua API for functions flags
On Lua engine, it is possible to give functions flags as `flags` named argument:
```
redis.register_function{function_name='f1', callback=function() return 1 end, flags={'no-writes', 'allow-oom'}, description='description'}
```
The function flags argument must be a Lua table that contains all the requested flags, The following
will result in an error:
* Unknown flag
* Wrong flag type
Default behaviour is the same as if no flags are used.
Tests were added to verify all flags functionality
## Additional changes
* mark FCALL and FCALL_RO with CMD_STALE flag (unlike EVAL), so that they can run if the function was
registered with the `allow-stale` flag.
* Verify `CMD_STALE` on `scriptCall` (`redis.call`), so it will not be possible to call commands from script while
stale unless the command is marked with the `CMD_STALE` flags. so that even if the function is allowed while
stale we do not allow it to bypass the `CMD_STALE` flag of commands.
* Flags section was added to `FUNCTION LIST` command to provide the set of flags for each function:
```
> FUNCTION list withcode
1) 1) "library_name"
2) "test"
3) "engine"
4) "LUA"
5) "description"
6) (nil)
7) "functions"
8) 1) 1) "name"
2) "f1"
3) "description"
4) (nil)
5) "flags"
6) (empty array)
9) "library_code"
10) "redis.register_function{function_name='f1', callback=function() return 1 end}"
```
* Added API to get Redis version from within a script, The redis version can be provided using:
1. `redis.REDIS_VERSION` - string representation of the redis version in the format of MAJOR.MINOR.PATH
2. `redis.REDIS_VERSION_NUM` - number representation of the redis version in the format of `0x00MMmmpp`
(`MM` - major, `mm` - minor, `pp` - patch). The number version can be used to check if version is greater or less
another version. The string version can be used to return to the user or print as logs.
This new API is provided to eval scripts and functions, it also possible to use this API during functions loading phase.
Force create a BASE file (use a foreground `rewriteAppendOnlyFile`) when redis starts from an
empty data set and `appendonly` is yes.
The reasoning is that normally, after redis is running for some time, and the AOF has gone though
a few rewrites, there's always a base rdb file. and the scenario where the base file is missing, is
kinda rare (happens only at empty startup), so this change normalizes it.
But more importantly, there are or could be some complex modules that are started with some
configuration, when they create persistence they write that configuration to RDB AUX fields, so
that can can always know with which configuration the persistence file they're loading was
created (could be critical). there is (was) one scenario in which they could load their persisted data,
and that configuration was missing, and this change fixes it.
Add a new module event: REDISMODULE_SUBEVENT_PERSISTENCE_SYNC_AOF_START, similar to
REDISMODULE_SUBEVENT_PERSISTENCE_AOF_START which is async.
Co-authored-by: Oran Agra <oran@redislabs.com>
Use `getFullCommandName` to get the full name of the command.
It can also get the full name of the subcommand, like "script|help".
Before:
```
> SCRIPT HELP
(error) NOPERM this user has no permissions to run the 'help' command or its subcommand
> ACL LOG
7) "object"
8) "help"
```
After:
```
> SCRIPT HELP
(error) NOPERM this user has no permissions to run the 'script|help' command
> ACL LOG
7) "object"
8) "script|help"
```
Fix#10094
This commit adds some tests that the test cases will
access the keys with expiration time set in the script call.
There was no test case for this part before. See #10080
Also there is a test will cover #1525. we block the time so
that the key can not expire in the middle of the script execution.
Other changes:
1. Delete `evalTimeSnapshot` and just use `scriptTimeSnapshot` in it's place.
2. Some cleanups to scripting.tcl.
3. better names for tests that run in a loop to make them distinctable
Syntax:
`COMMAND DOCS [<command name> ...]`
Background:
Apparently old version of hiredis (and thus also redis-cli) can't
support more than 7 levels of multi-bulk nesting.
The solution is to move all the doc related metadata from COMMAND to a
new COMMAND DOCS sub-command.
The new DOCS sub-command returns a map of commands (not an array like in COMMAND),
And the same goes for the `subcommands` field inside it (also contains a map)
Besides that, the remaining new fields of COMMAND (hints, key-specs, and
sub-commands), are placed in the outer array rather than a nested map.
this was done mainly for consistency with the old format.
Other changes:
---
* Allow COMMAND INFO with no arguments, which returns all commands, so that we can some day deprecated
the plain COMMAND (no args)
* Reduce the amount of deferred replies from both COMMAND and COMMAND
DOCS, especially in the inner loops, since these create many small
reply objects, which lead to many small write syscalls and many small
TCP packets.
To make this easier, when populating the command table, we count the
history, args, and hints so we later know their size in advance.
Additionally, the movablekeys flag was moved into the flags register.
* Update generate-commands-json.py to take the data from both command, it
now executes redis-cli directly, instead of taking input from stdin.
* Sub-commands in both COMMAND (and COMMAND INFO), and also COMMAND DOCS,
show their full name. i.e. CONFIG
* GET will be shown as `config|get` rather than just `get`.
This will be visible both when asking for `COMMAND INFO config` and COMMAND INFO config|get`, but is
especially important for the later.
i.e. imagine someone doing `COMMAND INFO slowlog|get config|get` not being able to distinguish between the two
items in the array response.
It used to return `$-1` in RESP2, now we will return `*-1`.
This is a bug in redis 6.2 when COUNT was added, the `COUNT`
option was introduced in #8179. Fix#10089.
the documentation of [LPOP](https://redis.io/commands/lpop) says
```
When called without the count argument:
Bulk string reply: the value of the first element, or nil when key does not exist.
When called with the count argument:
Array reply: list of popped elements, or nil when key does not exist.
```
The following error commands will crash redis-server:
```
> get|
Error: Server closed the connection
> get|set
Error: Server closed the connection
> get|other
```
The reason is in #9504, we use `lookupCommandBySds` for find the
container command. And it split the command (argv[0]) with `|`.
If we input something like `get|other`, after the split, `get`
will become a valid command name, pass the `ERR unknown command`
check, and finally crash in `addReplySubcommandSyntaxError`
In this case we do not need to split the command name with `|`
and just look in the commands dict to find if `argv[0]` is a
container command.
So this commit introduce a new function call `isContainerCommandBySds`
that it will return true if a command name is a container command.
Also with the old code, there is a incorrect error message:
```
> config|get set
(error) ERR Unknown subcommand or wrong number of arguments for 'set'. Try CONFIG|GET HELP.
```
The crash was reported in #10070.
Fix#9410
Crucial for the ms and sequence deltas, but I changed all
calls, just in case (e.g. "flags")
Before this commit:
`ms_delta` and `seq_delta` could have overflown, causing `currid` to be wrong,
which in turn would cause `streamTrim` to trim the entire rax node (see new test)
# 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.
Callers of redisFork() are logging `strerror(errno)` on failure.
`errno` is not set when there is already a child process, causing printing
current value of errno which was set before `redisFork()` call.
Setting errno to EEXIST on this failure to provide more meaningful error message.
# Short description
The Redis extended latency stats track per command latencies and enables:
- exporting the per-command percentile distribution via the `INFO LATENCYSTATS` command.
**( percentile distribution is not mergeable between cluster nodes ).**
- exporting the per-command cumulative latency distributions via the `LATENCY HISTOGRAM` command.
Using the cumulative distribution of latencies we can merge several stats from different cluster nodes
to calculate aggregate metrics .
By default, the extended latency monitoring is enabled since the overhead of keeping track of the
command latency is very small.
If you don't want to track extended latency metrics, you can easily disable it at runtime using the command:
- `CONFIG SET latency-tracking no`
By default, the exported latency percentiles are the p50, p99, and p999.
You can alter them at runtime using the command:
- `CONFIG SET latency-tracking-info-percentiles "0.0 50.0 100.0"`
## Some details:
- The total size per histogram should sit around 40 KiB. We only allocate those 40KiB when a command
was called for the first time.
- With regards to the WRITE overhead As seen below, there is no measurable overhead on the achievable
ops/sec or full latency spectrum on the client. Including also the measured redis-benchmark for unstable
vs this branch.
- We track from 1 nanosecond to 1 second ( everything above 1 second is considered +Inf )
## `INFO LATENCYSTATS` exposition format
- Format: `latency_percentiles_usec_<CMDNAME>:p0=XX,p50....`
## `LATENCY HISTOGRAM [command ...]` exposition format
Return a cumulative distribution of latencies in the format of a histogram for the specified command names.
The histogram is composed of a map of time buckets:
- Each representing a latency range, between 1 nanosecond and roughly 1 second.
- Each bucket covers twice the previous bucket's range.
- Empty buckets are not printed.
- Everything above 1 sec is considered +Inf.
- At max there will be log2(1000000000)=30 buckets
We reply a map for each command in the format:
`<command name> : { `calls`: <total command calls> , `histogram` : { <bucket 1> : latency , < bucket 2> : latency, ... } }`
Co-authored-by: Oran Agra <oran@redislabs.com>
Following #10038.
This PR introduces two changes.
1. Show the elapsed time of a single test in the test output, in order to have a more
detailed understanding of the changes in test run time.
2. Speedup two tests related to `key-load-delay` configuration.
other tests do not seem to be affected by #10003.
