* The corrupt dump fuzzer found a division by zero.
* in some cases the random fields from the HRANDFIELD tests produced
fields with newlines and other special chars (due to \ char), this caused
the TCL tests to see a bulk response that has a newline in it and add {}
around it, later it can think this is a nested list. in fact the `alpha` random
string generator isn't using spaces and newlines, so it should not use `\`
either.
* The corrupt dump fuzzer found a division by zero.
* in some cases the random fields from the HRANDFIELD tests produced
fields with newlines and other special chars (due to \ char), this caused
the TCL tests to see a bulk response that has a newline in it and add {}
around it, later it can think this is a nested list. in fact the `alpha` random
string generator isn't using spaces and newlines, so it should not use `\`
either.
This commit enables tracking time of the background tasks and on replies,
opening the door for properly tracking commands that rely on blocking / background
work via the slowlog, latency history, and commandstats.
Some notes:
- The time spent blocked waiting for key changes, or blocked on synchronous
replication is not accounted for.
- **This commit does not affect latency tracking of commands that are non-blocking
or do not have background work.** ( meaning that it all stays the same with exception to
`BZPOPMIN`,`BZPOPMAX`,`BRPOP`,`BLPOP`, etc... and module's commands that rely
on background threads ).
- Specifically for latency history command we've added a new event class named
`command-unblocking` that will enable latency monitoring on commands that spawn
background threads to do the work.
- For blocking commands we're now considering the total time of a command as the
time spent on call() + the time spent on replying when unblocked.
- For Modules commands that rely on background threads we're now considering the
total time of a command as the time spent on call (main thread) + the time spent on
the background thread ( if marked within `RedisModule_MeasureTimeStart()` and
`RedisModule_MeasureTimeEnd()` ) + the time spent on replying (main thread)
To test for this feature we've added a `unit/moduleapi/blockonbackground` test that relies on
a module that blocks the client and sleeps on the background for a given time.
- check blocked command that uses RedisModule_MeasureTimeStart() is tracking background time
- check blocked command that uses RedisModule_MeasureTimeStart() is tracking background time even in timeout
- check blocked command with multiple calls RedisModule_MeasureTimeStart() is tracking the total background time
- check blocked command without calling RedisModule_MeasureTimeStart() is not reporting background time
This commit enables tracking time of the background tasks and on replies,
opening the door for properly tracking commands that rely on blocking / background
work via the slowlog, latency history, and commandstats.
Some notes:
- The time spent blocked waiting for key changes, or blocked on synchronous
replication is not accounted for.
- **This commit does not affect latency tracking of commands that are non-blocking
or do not have background work.** ( meaning that it all stays the same with exception to
`BZPOPMIN`,`BZPOPMAX`,`BRPOP`,`BLPOP`, etc... and module's commands that rely
on background threads ).
- Specifically for latency history command we've added a new event class named
`command-unblocking` that will enable latency monitoring on commands that spawn
background threads to do the work.
- For blocking commands we're now considering the total time of a command as the
time spent on call() + the time spent on replying when unblocked.
- For Modules commands that rely on background threads we're now considering the
total time of a command as the time spent on call (main thread) + the time spent on
the background thread ( if marked within `RedisModule_MeasureTimeStart()` and
`RedisModule_MeasureTimeEnd()` ) + the time spent on replying (main thread)
To test for this feature we've added a `unit/moduleapi/blockonbackground` test that relies on
a module that blocks the client and sleeps on the background for a given time.
- check blocked command that uses RedisModule_MeasureTimeStart() is tracking background time
- check blocked command that uses RedisModule_MeasureTimeStart() is tracking background time even in timeout
- check blocked command with multiple calls RedisModule_MeasureTimeStart() is tracking the total background time
- check blocked command without calling RedisModule_MeasureTimeStart() is not reporting background time
New commands:
`HRANDFIELD [<count> [WITHVALUES]]`
`ZRANDMEMBER [<count> [WITHSCORES]]`
Algorithms are similar to the one in SRANDMEMBER.
Both return a simple bulk response when no arguments are given, and an array otherwise.
In case values/scores are requested, RESP2 returns a long array, and RESP3 a nested array.
note: in all 3 commands, the only option that also provides random order is the one with negative count.
Changes to SRANDMEMBER
* Optimization when count is 1, we can use the more efficient algorithm of non-unique random
* optimization: work with sds strings rather than robj
Other changes:
* zzlGetScore: when zset needs to convert string to double, we use safer memcpy (in
case the buffer is too small)
* Solve a "bug" in SRANDMEMBER test: it intended to test a positive count (case 3 or
case 4) and by accident used a negative count
Co-authored-by: xinluton <xinluton@qq.com>
Co-authored-by: Oran Agra <oran@redislabs.com>
New commands:
`HRANDFIELD [<count> [WITHVALUES]]`
`ZRANDMEMBER [<count> [WITHSCORES]]`
Algorithms are similar to the one in SRANDMEMBER.
Both return a simple bulk response when no arguments are given, and an array otherwise.
In case values/scores are requested, RESP2 returns a long array, and RESP3 a nested array.
note: in all 3 commands, the only option that also provides random order is the one with negative count.
Changes to SRANDMEMBER
* Optimization when count is 1, we can use the more efficient algorithm of non-unique random
* optimization: work with sds strings rather than robj
Other changes:
* zzlGetScore: when zset needs to convert string to double, we use safer memcpy (in
case the buffer is too small)
* Solve a "bug" in SRANDMEMBER test: it intended to test a positive count (case 3 or
case 4) and by accident used a negative count
Co-authored-by: xinluton <xinluton@qq.com>
Co-authored-by: Oran Agra <oran@redislabs.com>
The key point is how to recover from last AOF write error, for example:
1. start redis with appendonly yes, and append some write commands
2. short write or something else error happen, `server.aof_last_write_status` changed to `C_ERR`, now redis doesn't accept write commands
3. execute `CONFIG SET appendonly no` to avoid the above problem, now redis can accept write commands again
4. disk error resolved, and execute `CONFIG SET appendonly yes` to reopen AOF, but `server.aof_last_write_status` cannot be changed to `C_OK` (if background aof rewrite run less then 1 second, it will free `server.aof_buf` and then serverCron cannot fix `aof_last_write_status`), then redis cannot accept write commands forever.
This PR use a simple way to fix it:
1. just free `server.aof_buf` when stop appendonly to save memory, if error happens in `flushAppendOnlyFile(1)`, the `server.aof_buf` may contains some data which has not be written to aof, I think we can ignore it because we turn off the appendonly.
2. reset fsync status after stop appendonly and call `flushAppendOnlyFile` only when `aof_state` is ON
3. reset `server.last_write_status` when reopen aof to accept write commands
The key point is how to recover from last AOF write error, for example:
1. start redis with appendonly yes, and append some write commands
2. short write or something else error happen, `server.aof_last_write_status` changed to `C_ERR`, now redis doesn't accept write commands
3. execute `CONFIG SET appendonly no` to avoid the above problem, now redis can accept write commands again
4. disk error resolved, and execute `CONFIG SET appendonly yes` to reopen AOF, but `server.aof_last_write_status` cannot be changed to `C_OK` (if background aof rewrite run less then 1 second, it will free `server.aof_buf` and then serverCron cannot fix `aof_last_write_status`), then redis cannot accept write commands forever.
This PR use a simple way to fix it:
1. just free `server.aof_buf` when stop appendonly to save memory, if error happens in `flushAppendOnlyFile(1)`, the `server.aof_buf` may contains some data which has not be written to aof, I think we can ignore it because we turn off the appendonly.
2. reset fsync status after stop appendonly and call `flushAppendOnlyFile` only when `aof_state` is ON
3. reset `server.last_write_status` when reopen aof to accept write commands
With AOF policy of fsync "always", redis should respect the contract with the user
that on acknowledged write data is already synced on disk.
Redis was already exiting for AOF write error, but don't care about fsync failure.
So to guarantee data safe, redis should exit for fsync error too (when the AOF fsync
policy is 'always').
With AOF policy of fsync "always", redis should respect the contract with the user
that on acknowledged write data is already synced on disk.
Redis was already exiting for AOF write error, but don't care about fsync failure.
So to guarantee data safe, redis should exit for fsync error too (when the AOF fsync
policy is 'always').
APIs added for these stream operations: add, delete, iterate and
trim (by ID or maxlength). The functions are prefixed by RM_Stream.
* RM_StreamAdd
* RM_StreamDelete
* RM_StreamIteratorStart
* RM_StreamIteratorStop
* RM_StreamIteratorNextID
* RM_StreamIteratorNextField
* RM_StreamIteratorDelete
* RM_StreamTrimByLength
* RM_StreamTrimByID
The type RedisModuleStreamID is added and functions for converting
from and to RedisModuleString.
* RM_CreateStringFromStreamID
* RM_StringToStreamID
Whenever the stream functions return REDISMODULE_ERR, errno is set to
provide additional error information.
Refactoring: The zset iterator fields in the RedisModuleKey struct
are wrapped in a union, to allow the same space to be used for type-
specific info for streams and allow future use for other key types.
