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* Support for RM_Call on blocking commands (#11568)Meir Shpilraien (Spielrein)2023-03-161-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Allow running blocking commands from within a module using `RM_Call`. Today, when `RM_Call` is used, the fake client that is used to run command is marked with `CLIENT_DENY_BLOCKING` flag. This flag tells the command that it is not allowed to block the client and in case it needs to block, it must fallback to some alternative (either return error or perform some default behavior). For example, `BLPOP` fallback to simple `LPOP` if it is not allowed to block. All the commands must respect the `CLIENT_DENY_BLOCKING` flag (including module commands). When the command invocation finished, Redis asserts that the client was not blocked. This PR introduces the ability to call blocking command using `RM_Call` by passing a callback that will be called when the client will get unblocked. In order to do that, the user must explicitly say that he allow to perform blocking command by passing a new format specifier argument, `K`, to the `RM_Call` function. This new flag will tell Redis that it is allow to run blocking command and block the client. In case the command got blocked, Redis will return a new type of call reply (`REDISMODULE_REPLY_PROMISE`). This call reply indicates that the command got blocked and the user can set the on_unblocked handler using `RM_CallReplyPromiseSetUnblockHandler`. When clients gets unblocked, it eventually reaches `processUnblockedClients` function. This is where we check if the client is a fake module client and if it is, we call the unblock callback instead of performing the usual unblock operations. **Notice**: `RM_CallReplyPromiseSetUnblockHandler` must be called atomically along side the command invocation (without releasing the Redis lock in between). In addition, unlike other CallReply types, the promise call reply must be released by the module when the Redis GIL is acquired. The module can abort the execution on the blocking command (if it was not yet executed) using `RM_CallReplyPromiseAbort`. the API will return `REDISMODULE_OK` on success and `REDISMODULE_ERR` if the operation is already executed. **Notice** that in case of misbehave module, Abort might finished successfully but the operation will not really be aborted. This can only happened if the module do not respect the disconnect callback of the blocked client. For pure Redis commands this can not happened. ### Atomicity Guarantees The API promise that the unblock handler will run atomically as an execution unit. This means that all the operation performed on the unblock handler will be wrapped with a multi exec transaction when replicated to the replica and AOF. The API **do not** grantee any other atomicity properties such as when the unblock handler will be called. This gives us the flexibility to strengthen the grantees (or not) in the future if we will decide that we need a better guarantees. That said, the implementation **does** provide a better guarantees when performing pure Redis blocking command like `BLPOP`. In this case the unblock handler will run atomically with the operation that got unblocked (for example, in case of `BLPOP`, the unblock handler will run atomically with the `LPOP` operation that run when the command got unblocked). This is an implementation detail that might be change in the future and the module writer should not count on that. ### Calling blocking commands while running on script mode (`S`) `RM_Call` script mode (`S`) was introduced on #0372. It is used for usecases where the command that was invoked on `RM_Call` comes from a user input and we want to make sure the user will not run dangerous commands like `shutdown`. Some command, such as `BLPOP`, are marked with `NO_SCRIPT` flag, which means they will not be allowed on script mode. Those commands are marked with `NO_SCRIPT` just because they are blocking commands and not because they are dangerous. Now that we can run blocking commands on RM_Call, there is no real reason not to allow such commands on script mode. The underline problem is that the `NO_SCRIPT` flag is abused to also mark some of the blocking commands (notice that those commands know not to block the client if it is not allowed to do so, and have a fallback logic to such cases. So even if those commands were not marked with `NO_SCRIPT` flag, it would not harm Redis, and today we can already run those commands within multi exec). In addition, not all blocking commands are marked with `NO_SCRIPT` flag, for example `blmpop` are not marked and can run from within a script. Those facts shows that there are some ambiguity about the meaning of the `NO_SCRIPT` flag, and its not fully clear where it should be use. The PR suggest that blocking commands should not be marked with `NO_SCRIPT` flag, those commands should handle `CLIENT_DENY_BLOCKING` flag and only block when it's safe (like they already does today). To achieve that, the PR removes the `NO_SCRIPT` flag from the following commands: * `blmove` * `blpop` * `brpop` * `brpoplpush` * `bzpopmax` * `bzpopmin` * `wait` This might be considered a breaking change as now, on scripts, instead of getting `command is not allowed from script` error, the user will get some fallback behavior base on the command implementation. That said, the change matches the behavior of scripts and multi exec with respect to those commands and allow running them on `RM_Call` even when script mode is used. ### Additional RedisModule API and changes * `RM_BlockClientSetPrivateData` - Set private data on the blocked client without the need to unblock the client. This allows up to set the promise CallReply as the private data of the blocked client and abort it if the client gets disconnected. * `RM_BlockClientGetPrivateData` - Return the current private data set on a blocked client. We need it so we will have access to this private data on the disconnect callback. * On RM_Call, the returned reply will be added to the auto memory context only if auto memory is enabled, this allows us to keep the call reply for longer time then the context lifetime and does not force an unneeded borrow relationship between the CallReply and the RedisModuleContext.
* Custom authentication for Modules (#11659)KarthikSubbarao2023-03-151-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | This change adds new module callbacks that can override the default password based authentication associated with ACLs. With this, Modules can register auth callbacks through which they can implement their own Authentication logic. When `AUTH` and `HELLO AUTH ...` commands are used, Module based authentication is attempted and then normal password based authentication is attempted if needed. The new Module APIs added in this PR are - `RM_RegisterCustomAuthCallback` and `RM_BlockClientOnAuth` and `RedisModule_ACLAddLogEntryByUserName `. Module based authentication will be attempted for all Redis users (created through the ACL SETUSER cmd or through Module APIs) even if the Redis user does not exist at the time of the command. This gives a chance for the Module to create the RedisModule user and then authenticate via the RedisModule API - from the custom auth callback. For the AUTH command, we will support both variations - `AUTH <username> <password>` and `AUTH <password>`. In case of the `AUTH <password>` variation, the custom auth callbacks are triggered with “default” as the username and password as what is provided. ### RedisModule_RegisterCustomAuthCallback ``` void RM_RegisterCustomAuthCallback(RedisModuleCtx *ctx, RedisModuleCustomAuthCallback cb) { ``` This API registers a callback to execute to prior to normal password based authentication. Multiple callbacks can be registered across different modules. These callbacks are responsible for either handling the authentication, each authenticating the user or explicitly denying, or deferring it to other authentication mechanisms. Callbacks are triggered in the order they were registered. When a Module is unloaded, all the auth callbacks registered by it are unregistered. The callbacks are attempted, in the order of most recently registered callbacks, when the AUTH/HELLO (with AUTH field is provided) commands are called. The callbacks will be called with a module context along with a username and a password, and are expected to take one of the following actions: (1) Authenticate - Use the RM_Authenticate* API successfully and return `REDISMODULE_AUTH_HANDLED`. This will immediately end the auth chain as successful and add the OK reply. (2) Block a client on authentication - Use the `RM_BlockClientOnAuth` API and return `REDISMODULE_AUTH_HANDLED`. Here, the client will be blocked until the `RM_UnblockClient `API is used which will trigger the auth reply callback (provided earlier through the `RM_BlockClientOnAuth`). In this reply callback, the Module should authenticate, deny or skip handling authentication. (3) Deny Authentication - Return `REDISMODULE_AUTH_HANDLED` without authenticating or blocking the client. Optionally, `err` can be set to a custom error message. This will immediately end the auth chain as unsuccessful and add the ERR reply. (4) Skip handling Authentication - Return `REDISMODULE_AUTH_NOT_HANDLED` without blocking the client. This will allow the engine to attempt the next custom auth callback. If none of the callbacks authenticate or deny auth, then password based auth is attempted and will authenticate or add failure logs and reply to the clients accordingly. ### RedisModule_BlockClientOnAuth ``` RedisModuleBlockedClient *RM_BlockClientOnAuth(RedisModuleCtx *ctx, RedisModuleCustomAuthCallback reply_callback, void (*free_privdata)(RedisModuleCtx*,void*)) ``` This API can only be used from a Module from the custom auth callback. If a client is not in the middle of custom module based authentication, ERROR is returned. Otherwise, the client is blocked and the `RedisModule_BlockedClient` is returned similar to the `RedisModule_BlockClient` API. ### RedisModule_ACLAddLogEntryByUserName ``` int RM_ACLAddLogEntryByUserName(RedisModuleCtx *ctx, RedisModuleString *username, RedisModuleString *object, RedisModuleACLLogEntryReason reason) ``` Adds a new entry in the ACL log with the `username` RedisModuleString provided. This simplifies the Module usage because now, developers do not need to create a Module User just to add an error ACL Log entry. Aside from accepting username (RedisModuleString) instead of a RedisModuleUser, it is the same as the existing `RedisModule_ACLAddLogEntry` API. ### Breaking changes - HELLO command - Clients can now only set the client name and RESP protocol from the `HELLO` command if they are authenticated. Also, we now finish command arg validation first and return early with a ERR reply if any arg is invalid. This is to avoid mutating the client name / RESP from a command that would have failed on invalid arguments. ### Notable behaviors - Module unblocking - Now, we will not allow Modules to block the client from inside the context of a reply callback (triggered from the Module unblock flow `moduleHandleBlockedClients`). --------- Co-authored-by: Madelyn Olson <34459052+madolson@users.noreply.github.com>
* Module API to allow writes after key space notification hooks (#11199)Meir Shpilraien (Spielrein)2022-11-241-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | ### Summary of API additions * `RedisModule_AddPostNotificationJob` - new API to call inside a key space notification (and on more locations in the future) and allow to add a post job as describe above. * New module option, `REDISMODULE_OPTIONS_ALLOW_NESTED_KEYSPACE_NOTIFICATIONS`, allows to disable Redis protection of nested key-space notifications. * `RedisModule_GetModuleOptionsAll` - gets the mask of all supported module options so a module will be able to check if a given option is supported by the current running Redis instance. ### Background The following PR is a proposal of handling write operations inside module key space notifications. After a lot of discussions we came to a conclusion that module should not perform any write operations on key space notification. Some examples of issues that such write operation can cause are describe on the following links: * Bad replication oreder - https://github.com/redis/redis/pull/10969 * Used after free - https://github.com/redis/redis/pull/10969#issuecomment-1223771006 * Used after free - https://github.com/redis/redis/pull/9406#issuecomment-1221684054 There are probably more issues that are yet to be discovered. The underline problem with writing inside key space notification is that the notification runs synchronously, this means that the notification code will be executed in the middle on Redis logic (commands logic, eviction, expire). Redis **do not assume** that the data might change while running the logic and such changes can crash Redis or cause unexpected behaviour. The solution is to state that modules **should not** perform any write command inside key space notification (we can chose whether or not we want to force it). To still cover the use-case where module wants to perform a write operation as a reaction to key space notifications, we introduce a new API , `RedisModule_AddPostNotificationJob`, that allows to register a callback that will be called by Redis when the following conditions hold: * It is safe to perform any write operation. * The job will be called atomically along side the operation that triggers it (in our case, key space notification). Module can use this new API to safely perform any write operation and still achieve atomicity between the notification and the write. Although currently the API is supported on key space notifications, the API is written in a generic way so that in the future we will be able to use it on other places (server events for example). ### Technical Details Whenever a module uses `RedisModule_AddPostNotificationJob` the callback is added to a list of callbacks (called `modulePostExecUnitJobs`) that need to be invoke after the current execution unit ends (whether its a command, eviction, or active expire). In order to trigger those callback atomically with the notification effect, we call those callbacks on `postExecutionUnitOperations` (which was `propagatePendingCommands` before this PR). The new function fires the post jobs and then calls `propagatePendingCommands`. If the callback perform more operations that triggers more key space notifications. Those keys space notifications might register more callbacks. Those callbacks will be added to the end of `modulePostExecUnitJobs` list and will be invoke atomically after the current callback ends. This raises a concerns of entering an infinite loops, we consider infinite loops as a logical bug that need to be fixed in the module, an attempt to protect against infinite loops by halting the execution could result in violation of the feature correctness and so **Redis will make no attempt to protect the module from infinite loops** In addition, currently key space notifications are not nested. Some modules might want to allow nesting key-space notifications. To allow that and keep backward compatibility, we introduce a new module option called `REDISMODULE_OPTIONS_ALLOW_NESTED_KEYSPACE_NOTIFICATIONS`. Setting this option will disable the Redis key-space notifications nesting protection and will pass this responsibility to the module. ### Redis infrastructure This PR promotes the existing `propagatePendingCommands` to an "Execution Unit" concept, which is called after each atomic unit of execution, Co-authored-by: Oran Agra <oran@redislabs.com> Co-authored-by: Yossi Gottlieb <yossigo@gmail.com> Co-authored-by: Madelyn Olson <34459052+madolson@users.noreply.github.com>
* Add RM_SetContextUser to support acl validation in RM_Call (and scripts) ↵Shaya Potter2022-09-221-0/+1
| | | | | | | | | | | | | | | | | | (#10966) Adds a number of user management/ACL validaiton/command execution functions to improve a Redis module's ability to enforce ACLs correctly and easily. * RM_SetContextUser - sets a RedisModuleUser on the context, which RM_Call will use to both validate ACLs (if requested and set) as well as assign to the client so that scripts executed via RM_Call will have proper ACL validation. * RM_SetModuleUserACLString - Enables one to pass an entire ACL string, not just a single OP and have it applied to the user * RM_GetModuleUserACLString - returns a stringified version of the user's ACL (same format as dump and list). Contains an optimization to cache the stringified version until the underlying ACL is modified. * Slightly re-purpose the "C" flag to RM_Call from just being about ACL check before calling the command, to actually running the command with the right user, so that it also affects commands inside EVAL scripts. see #11231
* Add RM_PublishMessageShard (#10543)guybe72022-04-171-0/+1
| | | | | | since PUBLISH and SPUBLISH use different dictionaries for channels and clients, and we already have an API for PUBLISH, it only makes sense to have one for SPUBLISH Add test coverage and unifying some test infrastructure.
* Add RM_MallocSizeString, RM_MallocSizeDict (#10542)guybe72022-04-171-0/+1
| | | | | | | Add APIs to allow modules to compute the memory consumption of opaque objects owned by redis. Without these, the mem_usage callbacks of module data types are useless in many cases. Other changes: Fix streamRadixTreeMemoryUsage to include the size of the rax structure itself
* Module Configurations (#10285)Nick Chun2022-03-301-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | This feature adds the ability to add four different types (Bool, Numeric, String, Enum) of configurations to a module to be accessed via the redis config file, and the CONFIG command. **Configuration Names**: We impose a restriction that a module configuration always starts with the module name and contains a '.' followed by the config name. If a module passes "config1" as the name to a register function, it will be registered as MODULENAME.config1. **Configuration Persistence**: Module Configurations exist only as long as a module is loaded. If a module is unloaded, the configurations are removed. There is now also a minimal core API for removal of standardConfig objects from configs by name. **Get and Set Callbacks**: Storage of config values is owned by the module that registers them, and provides callbacks for Redis to access and manipulate the values. This is exposed through a GET and SET callback. The get callback returns a typed value of the config to redis. The callback takes the name of the configuration, and also a privdata pointer. Note that these only take the CONFIGNAME portion of the config, not the entire MODULENAME.CONFIGNAME. ``` typedef RedisModuleString * (*RedisModuleConfigGetStringFunc)(const char *name, void *privdata); typedef long long (*RedisModuleConfigGetNumericFunc)(const char *name, void *privdata); typedef int (*RedisModuleConfigGetBoolFunc)(const char *name, void *privdata); typedef int (*RedisModuleConfigGetEnumFunc)(const char *name, void *privdata); ``` Configs must also must specify a set callback, i.e. what to do on a CONFIG SET XYZ 123 or when loading configurations from cli/.conf file matching these typedefs. *name* is again just the CONFIGNAME portion, *val* is the parsed value from the core, *privdata* is the registration time privdata pointer, and *err* is for providing errors to a client. ``` typedef int (*RedisModuleConfigSetStringFunc)(const char *name, RedisModuleString *val, void *privdata, RedisModuleString **err); typedef int (*RedisModuleConfigSetNumericFunc)(const char *name, long long val, void *privdata, RedisModuleString **err); typedef int (*RedisModuleConfigSetBoolFunc)(const char *name, int val, void *privdata, RedisModuleString **err); typedef int (*RedisModuleConfigSetEnumFunc)(const char *name, int val, void *privdata, RedisModuleString **err); ``` Modules can also specify an optional apply callback that will be called after value(s) have been set via CONFIG SET: ``` typedef int (*RedisModuleConfigApplyFunc)(RedisModuleCtx *ctx, void *privdata, RedisModuleString **err); ``` **Flags:** We expose 7 new flags to the module, which are used as part of the config registration. ``` #define REDISMODULE_CONFIG_MODIFIABLE 0 /* This is the default for a module config. */ #define REDISMODULE_CONFIG_IMMUTABLE (1ULL<<0) /* Can this value only be set at startup? */ #define REDISMODULE_CONFIG_SENSITIVE (1ULL<<1) /* Does this value contain sensitive information */ #define REDISMODULE_CONFIG_HIDDEN (1ULL<<4) /* This config is hidden in `config get <pattern>` (used for tests/debugging) */ #define REDISMODULE_CONFIG_PROTECTED (1ULL<<5) /* Becomes immutable if enable-protected-configs is enabled. */ #define REDISMODULE_CONFIG_DENY_LOADING (1ULL<<6) /* This config is forbidden during loading. */ /* Numeric Specific Configs */ #define REDISMODULE_CONFIG_MEMORY (1ULL<<7) /* Indicates if this value can be set as a memory value */ ``` **Module Registration APIs**: ``` int (*RedisModule_RegisterBoolConfig)(RedisModuleCtx *ctx, char *name, int default_val, unsigned int flags, RedisModuleConfigGetBoolFunc getfn, RedisModuleConfigSetBoolFunc setfn, RedisModuleConfigApplyFunc applyfn, void *privdata); int (*RedisModule_RegisterNumericConfig)(RedisModuleCtx *ctx, const char *name, long long default_val, unsigned int flags, long long min, long long max, RedisModuleConfigGetNumericFunc getfn, RedisModuleConfigSetNumericFunc setfn, RedisModuleConfigApplyFunc applyfn, void *privdata); int (*RedisModule_RegisterStringConfig)(RedisModuleCtx *ctx, const char *name, const char *default_val, unsigned int flags, RedisModuleConfigGetStringFunc getfn, RedisModuleConfigSetStringFunc setfn, RedisModuleConfigApplyFunc applyfn, void *privdata); int (*RedisModule_RegisterEnumConfig)(RedisModuleCtx *ctx, const char *name, int default_val, unsigned int flags, const char **enum_values, const int *int_values, int num_enum_vals, RedisModuleConfigGetEnumFunc getfn, RedisModuleConfigSetEnumFunc setfn, RedisModuleConfigApplyFunc applyfn, void *privdata); int (*RedisModule_LoadConfigs)(RedisModuleCtx *ctx); ``` The module name will be auto appended along with a "." to the front of the name of the config. **What RM_Register[...]Config does**: A RedisModule struct now keeps a list of ModuleConfig objects which look like: ``` typedef struct ModuleConfig { sds name; /* Name of config without the module name appended to the front */ void *privdata; /* Optional data passed into the module config callbacks */ union get_fn { /* The get callback specificed by the module */ RedisModuleConfigGetStringFunc get_string; RedisModuleConfigGetNumericFunc get_numeric; RedisModuleConfigGetBoolFunc get_bool; RedisModuleConfigGetEnumFunc get_enum; } get_fn; union set_fn { /* The set callback specified by the module */ RedisModuleConfigSetStringFunc set_string; RedisModuleConfigSetNumericFunc set_numeric; RedisModuleConfigSetBoolFunc set_bool; RedisModuleConfigSetEnumFunc set_enum; } set_fn; RedisModuleConfigApplyFunc apply_fn; RedisModule *module; } ModuleConfig; ``` It also registers a standardConfig in the configs array, with a pointer to the ModuleConfig object associated with it. **What happens on a CONFIG GET/SET MODULENAME.MODULECONFIG:** For CONFIG SET, we do the same parsing as is done in config.c and pass that as the argument to the module set callback. For CONFIG GET, we call the module get callback and return that value to config.c to return to a client. **CONFIG REWRITE**: Starting up a server with module configurations in a .conf file but no module load directive will fail. The flip side is also true, specifying a module load and a bunch of module configurations will load those configurations in using the module defined set callbacks on a RM_LoadConfigs call. Configs being rewritten works the same way as it does for standard configs, as the module has the ability to specify a default value. If a module is unloaded with configurations specified in the .conf file those configurations will be commented out from the .conf file on the next config rewrite. **RM_LoadConfigs:** `RedisModule_LoadConfigs(RedisModuleCtx *ctx);` This last API is used to make configs available within the onLoad() after they have been registered. The expected usage is that a module will register all of its configs, then call LoadConfigs to trigger all of the set callbacks, and then can error out if any of them were malformed. LoadConfigs will attempt to set all configs registered to either a .conf file argument/loadex argument or their default value if an argument is not specified. **LoadConfigs is a required function if configs are registered. ** Also note that LoadConfigs **does not** call the apply callbacks, but a module can do that directly after the LoadConfigs call. **New Command: MODULE LOADEX [CONFIG NAME VALUE] [ARGS ...]:** This command provides the ability to provide startup context information to a module. LOADEX stands for "load extended" similar to GETEX. Note that provided config names need the full MODULENAME.MODULECONFIG name. Any additional arguments a module might want are intended to be specified after ARGS. Everything after ARGS is passed to onLoad as RedisModuleString **argv. Co-authored-by: Madelyn Olson <madelyneolson@gmail.com> Co-authored-by: Madelyn Olson <matolson@amazon.com> Co-authored-by: sundb <sundbcn@gmail.com> Co-authored-by: Madelyn Olson <34459052+madolson@users.noreply.github.com> Co-authored-by: Oran Agra <oran@redislabs.com> Co-authored-by: Yossi Gottlieb <yossigo@gmail.com>
* Command info module API (#10108)Viktor Söderqvist2022-02-041-1/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 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.
* forbid module to unload when it holds ongoing timer (#10187)郭伟光2022-02-011-0/+1
| | | | | | | 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>
* Add event loop support to the module API (#10001)Ozan Tezcan2022-01-181-0/+1
| | | | | | | | | | | | | | | | | | | 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.
* Auto-generate the command table from JSON files (#9656)guybe72021-12-151-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Delete the hardcoded command table and replace it with an auto-generated table, based on a JSON file that describes the commands (each command must have a JSON file). These JSON files are the SSOT of everything there is to know about Redis commands, and it is reflected fully in COMMAND INFO. These JSON files are used to generate commands.c (using a python script), which is then committed to the repo and compiled. The purpose is: * Clients and proxies will be able to get much more info from redis, instead of relying on hard coded logic. * drop the dependency between Redis-user and the commands.json in redis-doc. * delete help.h and have redis-cli learn everything it needs to know just by issuing COMMAND (will be done in a separate PR) * redis.io should stop using commands.json and learn everything from Redis (ultimately one of the release artifacts should be a large JSON, containing all the information about all of the commands, which will be generated from COMMAND's reply) * the byproduct of this is: * module commands will be able to provide that info and possibly be more of a first-class citizens * in theory, one may be able to generate a redis client library for a strictly typed language, by using this info. ### Interface changes #### COMMAND INFO's reply change (and arg-less COMMAND) Before this commit the reply at index 7 contained the key-specs list and reply at index 8 contained the sub-commands list (Both unreleased). Now, reply at index 7 is a map of: - summary - short command description - since - debut version - group - command group - complexity - complexity string - doc-flags - flags used for documentation (e.g. "deprecated") - deprecated-since - if deprecated, from which version? - replaced-by - if deprecated, which command replaced it? - history - a list of (version, what-changed) tuples - hints - a list of strings, meant to provide hints for clients/proxies. see https://github.com/redis/redis/issues/9876 - arguments - an array of arguments. each element is a map, with the possibility of nesting (sub-arguments) - key-specs - an array of keys specs (already in unstable, just changed location) - subcommands - a list of sub-commands (already in unstable, just changed location) - reply-schema - will be added in the future (see https://github.com/redis/redis/issues/9845) more details on these can be found in https://github.com/redis/redis-doc/pull/1697 only the first three fields are mandatory #### API changes (unreleased API obviously) now they take RedisModuleCommand opaque pointer instead of looking up the command by name - RM_CreateSubcommand - RM_AddCommandKeySpec - RM_SetCommandKeySpecBeginSearchIndex - RM_SetCommandKeySpecBeginSearchKeyword - RM_SetCommandKeySpecFindKeysRange - RM_SetCommandKeySpecFindKeysKeynum Currently, we did not add module API to provide additional information about their commands because we couldn't agree on how the API should look like, see https://github.com/redis/redis/issues/9944. ### Somehow related changes 1. Literals should be in uppercase while placeholder in lowercase. Now all the GEO* command will be documented with M|KM|FT|MI and can take both lowercase and uppercase ### Unrelated changes 1. Bugfix: no_madaory_keys was absent in COMMAND's reply 2. expose CMD_MODULE as "module" via COMMAND 3. have a dedicated uint64 for ACL categories (instead of having them in the same uint64 as command flags) Co-authored-by: Itamar Haber <itamar@garantiadata.com>
* Add RM_ReplyWithBigNumber module API (#9639)Shaya Potter2021-10-251-0/+1
| | | | | | Let modules use additional type of RESP3 response (unused by redis so far) Also fix tests that where introduced in #8521 but didn't actually run. Co-authored-by: Oran Agra <oran@redislabs.com>
* Treat subcommands as commands (#9504)guybe72021-10-201-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | ## Intro The purpose is to allow having different flags/ACL categories for subcommands (Example: CONFIG GET is ok-loading but CONFIG SET isn't) We create a small command table for every command that has subcommands and each subcommand has its own flags, etc. (same as a "regular" command) This commit also unites the Redis and the Sentinel command tables ## Affected commands CONFIG Used to have "admin ok-loading ok-stale no-script" Changes: 1. Dropped "ok-loading" in all except GET (this doesn't change behavior since there were checks in the code doing that) XINFO Used to have "read-only random" Changes: 1. Dropped "random" in all except CONSUMERS XGROUP Used to have "write use-memory" Changes: 1. Dropped "use-memory" in all except CREATE and CREATECONSUMER COMMAND No changes. MEMORY Used to have "random read-only" Changes: 1. Dropped "random" in PURGE and USAGE ACL Used to have "admin no-script ok-loading ok-stale" Changes: 1. Dropped "admin" in WHOAMI, GENPASS, and CAT LATENCY No changes. MODULE No changes. SLOWLOG Used to have "admin random ok-loading ok-stale" Changes: 1. Dropped "random" in RESET OBJECT Used to have "read-only random" Changes: 1. Dropped "random" in ENCODING and REFCOUNT SCRIPT Used to have "may-replicate no-script" Changes: 1. Dropped "may-replicate" in all except FLUSH and LOAD CLIENT Used to have "admin no-script random ok-loading ok-stale" Changes: 1. Dropped "random" in all except INFO and LIST 2. Dropped "admin" in ID, TRACKING, CACHING, GETREDIR, INFO, SETNAME, GETNAME, and REPLY STRALGO No changes. PUBSUB No changes. CLUSTER Changes: 1. Dropped "admin in countkeysinslots, getkeysinslot, info, nodes, keyslot, myid, and slots SENTINEL No changes. (note that DEBUG also fits, but we decided not to convert it since it's for debugging and anyway undocumented) ## New sub-command This commit adds another element to the per-command output of COMMAND, describing the list of subcommands, if any (in the same structure as "regular" commands) Also, it adds a new subcommand: ``` COMMAND LIST [FILTERBY (MODULE <module-name>|ACLCAT <cat>|PATTERN <pattern>)] ``` which returns a set of all commands (unless filters), but excluding subcommands. ## Module API A new module API, RM_CreateSubcommand, was added, in order to allow module writer to define subcommands ## ACL changes: 1. Now, that each subcommand is actually a command, each has its own ACL id. 2. The old mechanism of allowed_subcommands is redundant (blocking/allowing a subcommand is the same as blocking/allowing a regular command), but we had to keep it, to support the widespread usage of allowed_subcommands to block commands with certain args, that aren't subcommands (e.g. "-select +select|0"). 3. I have renamed allowed_subcommands to allowed_firstargs to emphasize the difference. 4. Because subcommands are commands in ACL too, you can now use "-" to block subcommands (e.g. "+client -client|kill"), which wasn't possible in the past. 5. It is also possible to use the allowed_firstargs mechanism with subcommand. For example: `+config -config|set +config|set|loglevel` will block all CONFIG SET except for setting the log level. 6. All of the ACL changes above required some amount of refactoring. ## Misc 1. There are two approaches: Either each subcommand has its own function or all subcommands use the same function, determining what to do according to argv[0]. For now, I took the former approaches only with CONFIG and COMMAND, while other commands use the latter approach (for smaller blamelog diff). 2. Deleted memoryGetKeys: It is no longer needed because MEMORY USAGE now uses the "range" key spec. 4. Bugfix: GETNAME was missing from CLIENT's help message. 5. Sentinel and Redis now use the same table, with the same function pointer. Some commands have a different implementation in Sentinel, so we redirect them (these are ROLE, PUBLISH, and INFO). 6. Command stats now show the stats per subcommand (e.g. instead of stats just for "config" you will have stats for "config|set", "config|get", etc.) 7. It is now possible to use COMMAND directly on subcommands: COMMAND INFO CONFIG|GET (The pipeline syntax was inspired from ACL, and can be used in functions lookupCommandBySds and lookupCommandByCString) 8. STRALGO is now a container command (has "help") ## Breaking changes: 1. Command stats now show the stats per subcommand (see (5) above)
* Release clients blocked on module commands in cluster resharding and down ↵qetu37902021-10-191-0/+1
| | | | | | | | | | | | | | | | | state (#9483) Prevent clients from being blocked forever in cluster when they block with their own module command and the hash slot is migrated to another master at the same time. These will get a redirection message when unblocked. Also, release clients blocked on module commands when cluster is down (same as other blocked clients) This commit adds basic tests for the main (non-cluster) redis test infra that test the cluster. This was done because the cluster test infra can't handle some common test features, but most importantly we only build the test modules with the non-cluster test suite. note that rather than really supporting cluster operations by the test infra, it was added (as dup code) in two files, one for module tests and one for non-modules tests, maybe in the future we'll refactor that. Co-authored-by: Oran Agra <oran@redislabs.com>
* Adding ACL support for modules (#9309)YaacovHazan2021-09-231-0/+1
| | | | | | | | | | | | | | | | | | This commit introduced a new flag to the RM_Call: 'C' - Check if the command can be executed according to the ACLs associated with it. Also, three new API's added to check if a command, key, or channel can be executed or accessed by a user, according to the ACLs associated with it. - RM_ACLCheckCommandPerm - RM_ACLCheckKeyPerm - RM_ACLCheckChannelPerm The user for these API's is a RedisModuleUser object, that for a Module user returned by the RM_CreateModuleUser API, or for a general ACL user can be retrieved by these two new API's: - RM_GetCurrentUserName - Retrieve the user name of the client connection behind the current context. - RM_GetModuleUserFromUserName - Get a RedisModuleUser from a user name As a result of getting a RedisModuleUser from name, it can now also access the general ACL users (not just ones created by the module). This mean the already existing API RM_SetModuleUserACL(), can be used to change the ACL rules for such users.
* Support tclsh 8.7 (#9500)yancz20002021-09-151-1/+1
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* A better approach for COMMAND INFO for movablekeys commands (#8324)guybe72021-09-151-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Fix #7297 The problem: Today, there is no way for a client library or app to know the key name indexes for commands such as ZUNIONSTORE/EVAL and others with "numkeys", since COMMAND INFO returns no useful info for them. For cluster-aware redis clients, this requires to 'patch' the client library code specifically for each of these commands or to resolve each execution of these commands with COMMAND GETKEYS. The solution: Introducing key specs other than the legacy "range" (first,last,step) The 8th element of the command info array, if exists, holds an array of key specs. The array may be empty, which indicates the command doesn't take any key arguments or may contain one or more key-specs, each one may leads to the discovery of 0 or more key arguments. A client library that doesn't support this key-spec feature will keep using the first,last,step and movablekeys flag which will obviously remain unchanged. A client that supports this key-specs feature needs only to look at the key-specs array. If it finds an unrecognized spec, it must resort to using COMMAND GETKEYS if it wishes to get all key name arguments, but if all it needs is one key in order to know which cluster node to use, then maybe another spec (if the command has several) can supply that, and there's no need to use GETKEYS. Each spec is an array of arguments, first one is the spec name, the second is an array of flags, and the third is an array containing details about the spec (specific meaning for each spec type) The initial flags we support are "read" and "write" indicating if the keys that this key-spec finds are used for read or for write. clients should ignore any unfamiliar flags. In order to easily find the positions of keys in a given array of args we introduce keys specs. There are two logical steps of key specs: 1. `start_search`: Given an array of args, indicate where we should start searching for keys 2. `find_keys`: Given the output of start_search and an array of args, indicate all possible indices of keys. ### start_search step specs - `index`: specify an argument index explicitly - `index`: 0 based index (1 means the first command argument) - `keyword`: specify a string to match in `argv`. We should start searching for keys just after the keyword appears. - `keyword`: the string to search for - `start_search`: an index from which to start the keyword search (can be negative, which means to search from the end) Examples: - `SET` has start_search of type `index` with value `1` - `XREAD` has start_search of type `keyword` with value `[“STREAMS”,1]` - `MIGRATE` has start_search of type `keyword` with value `[“KEYS”,-2]` ### find_keys step specs - `range`: specify `[count, step, limit]`. - `lastkey`: index of the last key. relative to the index returned from begin_search. -1 indicating till the last argument, -2 one before the last - `step`: how many args should we skip after finding a key, in order to find the next one - `limit`: if count is -1, we use limit to stop the search by a factor. 0 and 1 mean no limit. 2 means ½ of the remaining args, 3 means ⅓, and so on. - “keynum”: specify `[keynum_index, first_key_index, step]`. - `keynum_index`: is relative to the return of the `start_search` spec. - `first_key_index`: is relative to `keynum_index`. - `step`: how many args should we skip after finding a key, in order to find the next one Examples: - `SET` has `range` of `[0,1,0]` - `MSET` has `range` of `[-1,2,0]` - `XREAD` has `range` of `[-1,1,2]` - `ZUNION` has `start_search` of type `index` with value `1` and `find_keys` of type `keynum` with value `[0,1,1]` - `AI.DAGRUN` has `start_search` of type `keyword` with value `[“LOAD“,1]` and `find_keys` of type `keynum` with value `[0,1,1]` (see https://oss.redislabs.com/redisai/master/commands/#aidagrun) Note: this solution is not perfect as the module writers can come up with anything, but at least we will be able to find the key args of the vast majority of commands. If one of the above specs can’t describe the key positions, the module writer can always fall back to the `getkeys-api` option. Some keys cannot be found easily (`KEYS` in `MIGRATE`: Imagine the argument for `AUTH` is the string “KEYS” - we will start searching in the wrong index). The guarantee is that the specs may be incomplete (`incomplete` will be specified in the spec to denote that) but we never report false information (assuming the command syntax is correct). For `MIGRATE` we start searching from the end - `startfrom=-1` - and if one of the keys is actually called "keys" we will report only a subset of all keys - hence the `incomplete` flag. Some `incomplete` specs can be completely empty (i.e. UNKNOWN begin_search) which should tell the client that COMMAND GETKEYS (or any other way to get the keys) must be used (Example: For `SORT` there is no way to describe the STORE keyword spec, as the word "store" can appear anywhere in the command). We will expose these key specs in the `COMMAND` command so that clients can learn, on startup, where the keys are for all commands instead of holding hardcoded tables or use `COMMAND GETKEYS` in runtime. Comments: 1. Redis doesn't internally use the new specs, they are only used for COMMAND output. 2. In order to support the current COMMAND INFO format (reply array indices 4, 5, 6) we created a synthetic range, called legacy_range, that, if possible, is built according to the new specs. 3. Redis currently uses only getkeys_proc or the legacy_range to get the keys indices (in COMMAND GETKEYS for example). "incomplete" specs: the command we have issues with are MIGRATE, STRALGO, and SORT for MIGRATE, because the token KEYS, if exists, must be the last token, we can search in reverse. it one of the keys is actually the string "keys" will return just a subset of the keys (hence, it's "incomplete") for SORT and STRALGO we can use this heuristic (the keys can be anywhere in the command) and therefore we added a key spec that is both "incomplete" and of "unknown type" if a client encounters an "incomplete" spec it means that it must find a different way (either COMMAND GETKEYS or have its own parser) to retrieve the keys. please note that all commands, apart from the three mentioned above, have "complete" key specs
* Modules: Add remaining list API functions (#8439)Viktor Söderqvist2021-09-141-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | List functions operating on elements by index: * RM_ListGet * RM_ListSet * RM_ListInsert * RM_ListDelete Iteration is done using a simple for loop over indices. The index based functions use an internal iterator as an optimization. This is explained in the docs: ``` * Many of the list functions access elements by index. Since a list is in * essence a doubly-linked list, accessing elements by index is generally an * O(N) operation. However, if elements are accessed sequentially or with * indices close together, the functions are optimized to seek the index from * the previous index, rather than seeking from the ends of the list. * * This enables iteration to be done efficiently using a simple for loop: * * long n = RM_ValueLength(key); * for (long i = 0; i < n; i++) { * RedisModuleString *elem = RedisModule_ListGet(key, i); * // Do stuff... * } ```
* modules: Add newlen == 0 handling to RM_StringTruncate (#3717) (#3718)Evan2021-06-221-0/+1
| | | | | | | | | | | Previously, passing 0 for newlen would not truncate the string at all. This adds handling of this case, freeing the old string and creating a new empty string. Other changes: - Move `src/modules/testmodule.c` to `tests/modules/basics.c` - Introduce that basic test into the test suite - Add tests to cover StringTruncate - Add `test-modules` build target for the main makefile - Extend `distclean` build target to clean modules too
* Enhance mem_usage/free_effort/unlink/copy callbacks and add GetDbFromIO api. ↵chenyang80942021-06-161-0/+1
| | | | | | | (#8999) Create new module type enhanced callbacks: mem_usage2, free_effort2, unlink2, copy2. These will be given a context point from which the module can obtain the key name and database id. In addition the digest and defrag context can now be used to obtain the key name and database id.
* add test for modules load/unload and config rewriteOran Agra2021-06-011-0/+1
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* Modules: In RM_HashSet, add COUNT_ALL flag and set errno (#8446)Viktor Söderqvist2021-02-151-0/+1
| | | | | | | The added flag affects the return value of RM_HashSet() to include the number of inserted fields, in addition to updated and deleted fields. errno is set on errors, tests are added and documentation updated.
* RM_ZsetRem: Delete key if empty (#8453)Viktor Söderqvist2021-02-051-0/+1
| | | | | | | | | Without this fix, RM_ZsetRem can leave empty sorted sets which are not allowed to exist. Removing from a sorted set while iterating seems to work (while inserting causes failed assetions). RM_ZsetRangeEndReached is modified to return 1 if the key doesn't exist, to terminate iteration when the last element has been removed.
* Enabled background and reply time tracking on blocked on keys/blocked on ↵filipe oliveira2021-01-291-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | background work clients (#7491) 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
* Add modules API for streams (#8288)Viktor Söderqvist2021-01-281-0/+1
| | | | | | | | | | | | | | | | | | | | | | | | | | | 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.
* Several (mostly Solaris-related) cleanups (#8171)Yossi Gottlieb2020-12-131-1/+2
| | | | | | * Allow runtest-moduleapi use a different 'make', for systems where GNU Make is 'gmake'. * Fix issue with builds on Solaris re-building everything from scratch due to CFLAGS/LDFLAGS not stored. * Fix compile failure on Solaris due to atomicvar and a bunch of warnings. * Fix garbled log timestamps on Solaris.
* Modules: add defrag API support. (#8149)Yossi Gottlieb2020-12-131-0/+1
| | | | | | | | | | | | | Add a new set of defrag functions that take a defrag context and allow defragmenting memory blocks and RedisModuleStrings. Modules can register a defrag callback which will be invoked when the defrag process handles globals. Modules with custom data types can also register a datatype-specific defrag callback which is invoked for keys that require defragmentation. The callback and associated functions support both one-step and multi-step options, depending on the complexity of the key as exposed by the free_effort callback.
* Modules callbacks for lazy free effort, and unlink (#7912)chenyangyang2020-11-161-0/+1
| | | | | | | | | | | | | | Add two optional callbacks to the RedisModuleTypeMethods structure, which is `free_effort` and `unlink`. the `free_effort` callback indicates the effort required to free a module memory. Currently, if the effort exceeds LAZYFREE_THRESHOLD, the module memory may be released asynchronously. the `unlink` callback indicates the key has been removed from the DB by redis, and may soon be freed by a background thread. Add `lazyfreed_objects` info field, which represents the number of objects that have been lazyfreed since redis was started. Add `RM_GetTypeMethodVersion` API, which return the current redis-server runtime value of `REDISMODULE_TYPE_METHOD_VERSION`. You can use that when calling `RM_CreateDataType` to know which fields of RedisModuleTypeMethods are gonna be supported and which will be ignored.
* Modules: add RM_GetCommandKeys().Yossi Gottlieb2020-10-111-0/+1
| | | | | | This is essentially the same as calling COMMAND GETKEYS but provides a more efficient interface that can be used in every context (i.e. not a Redis command).
* RM_ThreadSafeContextTryLock a non-blocking method for acquiring GIL (#7738)Roi Lipman2020-09-091-0/+1
| | | | Co-authored-by: Yossi Gottlieb <yossigo@gmail.com> Co-authored-by: Oran Agra <oran@redislabs.com>
* Correct error message of runtest-cluster and runtest-moduleapi (#7647)pingfan1082020-08-111-1/+1
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* This PR introduces a new loaded keyspace event (#7536)Meir Shpilraien (Spielrein)2020-07-231-0/+1
| | | | Co-authored-by: Oran Agra <oran@redislabs.com> Co-authored-by: Itamar Haber <itamar@redislabs.com>
* Add module APIs for custom authenticationMadelyn Olson2019-12-171-0/+1
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* Merge branch 'unstable' into scan_module_implSalvatore Sanfilippo2019-11-191-0/+1
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| * Add ModuleDataType to/from string serialization.Yossi Gottlieb2019-11-041-0/+1
| | | | | | | | | | | | | | | | | | Add two new functions that leverage the RedisModuleDataType mechanism for RDB serialization/deserialization and make it possible to use it to/from arbitrary strings: * RM_SaveDataTypeToString() * RM_LoadDataTypeFromString()
* | Added scan implementation to module api.meir@redislabs.com2019-11-111-0/+1
|/ | | | | | | | | | | | | | | The implementation expose the following new functions: 1. RedisModule_CursorCreate - allow to create a new cursor object for keys scanning 2. RedisModule_CursorRestart - restart an existing cursor to restart the scan 3. RedisModule_CursorDestroy - destroy an existing cursor 4. RedisModule_Scan - scan keys The RedisModule_Scan function gets a cursor object, a callback and void* (used as user private data). The callback will be called for each key in the database proving the key name and the value as RedisModuleKey.
* Modules: Test RedisModule_BlockClientOnKeysGuy Benoish2019-11-041-0/+1
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* Module api tests for RM_CallOran Agra2019-10-281-1/+9
| | | | | | | Adding a test for coverage for RM_Call in a new "misc" unit to be used for various short simple tests also solves compilation warnings in redismodule.h and fork.c
* Modules hooks: initial Tcl test file.antirez2019-10-241-1/+1
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* Modules: add RM_Replicate() Tcl test file & fix the module.antirez2019-10-031-1/+1
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* Merge remote-tracking branch 'antirez/unstable' into modules_infoOran Agra2019-09-301-1/+1
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| * Merge branch 'unstable' into modules_forkSalvatore Sanfilippo2019-09-271-2/+1
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| | * Implement module api for aux data in rdbOran Agra2019-07-221-1/+1
| | | | | | | | | | | | | | | Other changes: * fix memory leak in error handling of rdb loading of type OBJ_MODULE
| * | Module API for ForkingOran Agra2019-07-171-1/+2
| |/ | | | | | | | | | | | | | | | | | | | | * create module API for forking child processes. * refactor duplicate code around creating and tracking forks by AOF and RDB. * child processes listen to SIGUSR1 and dies exitFromChild in order to eliminate a valgrind warning of unhandled signal. * note that BGSAVE error reply has changed. valgrind error is: Process terminating with default action of signal 10 (SIGUSR1)
* | Extend modules API to allow modules report to redis INFOOran Agra2019-07-241-1/+1
|/ | | | this implements #6012
* Add runtest-moduleapi with commandfilter coverage.Yossi Gottlieb2019-03-241-0/+16