1. 28 May, 2023 1 commit
    • Oran Agra's avatar
      Fix WAIT for clients being blocked in a module command (#12220) · 6117f288
      Oran Agra authored
      So far clients being blocked and unblocked by a module command would
      update the c->woff variable and so WAIT was ineffective and got released
      without waiting for the command actions to propagate.
      
      This seems to have existed since forever, but not for RM_BlockClientOnKeys.
      
      It is problematic though to know if the module did or didn't propagate
      anything in that command, so for now, instead of adding an API, we'll
      just update the woff to the latest offset when unblocking, this will
      cause the client to possibly wait excessively, but that's not that bad.
      6117f288
  2. 07 May, 2023 1 commit
    • sundb's avatar
      Delete empty key if fails after moduleCreateEmptyKey() in module (#12129) · ce5f4ea3
      sundb authored
      When `RM_ZsetAdd()`/`RM_ZsetIncrby()`/`RM_StreamAdd()` fails, if a new key happens to 
      be created using `moduleCreateEmptyKey()`, we should clean up the empty key.
      
      ## Test
      1) Add new module commands(`zset.add` and `zset.incrby`) to cover  `RM_ZsetAdd()`/`RM_ZsetIncrby()`.
      2) Add a large-memory test to cover `RM_StreamAdd()`.
      ce5f4ea3
  3. 18 Apr, 2023 1 commit
  4. 12 Apr, 2023 2 commits
    • Binbin's avatar
      Add RM_ReplyWithErrorFormat that can support format (#11923) · bfec2d70
      Binbin authored
      * Add RM_ReplyWithErrorFormat that can support format
      
      Reply with the error create from a printf format and arguments.
      
      If the error code is already passed in the string 'fmt', the error
      code provided is used, otherwise the string "-ERR " for the generic
      error code is automatically added.
      
      The usage is, for example:
          RedisModule_ReplyWithErrorFormat(ctx, "An error: %s", "foo");
          RedisModule_ReplyWithErrorFormat(ctx, "-WRONGTYPE Wrong Type: %s", "foo");
      
      The function always returns REDISMODULE_OK.
      bfec2d70
    • Oran Agra's avatar
      Attempt to solve MacOS CI issues in GH Actions (#12013) · 997fa41e
      Oran Agra authored
      The MacOS CI in github actions often hangs without any logs. GH argues that
      it's due to resource utilization, either running out of disk space, memory, or CPU
      starvation, and thus the runner is terminated.
      
      This PR contains multiple attempts to resolve this:
      1. introducing pause_process instead of SIGSTOP, which waits for the process
        to stop before resuming the test, possibly resolving race conditions in some tests,
        this was a suspect since there was one test that could result in an infinite loop in that
       case, in practice this didn't help, but still a good idea to keep.
      2. disable the `save` config in many tests that don't need it, specifically ones that use
        heavy writes and could create large files.
      3. change the `populate` proc to use short pipeline rather than an infinite one.
      4. use `--clients 1` in the macos CI so that we don't risk running multiple resource
        demanding tests in parallel.
      5. enable `--verbose` to be repeated to elevate verbosity and print more info to stdout
        when a test or a server starts.
      997fa41e
  5. 09 Apr, 2023 1 commit
    • Ozan Tezcan's avatar
      Add RM_RdbLoad and RM_RdbSave module API functions (#11852) · e55568ed
      Ozan Tezcan authored
      Add `RM_RdbLoad()` and `RM_RdbSave()` to load/save RDB files from the module API. 
      
      In our use case, we have our clustering implementation as a module. As part of this
      implementation, the module needs to trigger RDB save operation at specific points.
      Also, this module delivers RDB files to other nodes (not using Redis' replication).
      When a node receives an RDB file, it should be able to load the RDB. Currently,
      there is no module API to save/load RDB files. 
      
      
      This PR adds four new APIs:
      ```c
      RedisModuleRdbStream *RM_RdbStreamCreateFromFile(const char *filename);
      void RM_RdbStreamFree(RedisModuleRdbStream *stream);
      
      int RM_RdbLoad(RedisModuleCtx *ctx, RedisModuleRdbStream *stream, int flags);
      int RM_RdbSave(RedisModuleCtx *ctx, RedisModuleRdbStream *stream, int flags);
      ```
      
      The first step is to create a `RedisModuleRdbStream` object. This PR provides a function to
      create RedisModuleRdbStream from the filename. (You can load/save RDB with the filename).
      In the future, this API can be extended if needed: 
      e.g., `RM_RdbStreamCreateFromFd()`, `RM_RdbStreamCreateFromSocket()` to save/load
      RDB from an `fd` or a `socket`. 
      
      
      Usage:
      ```c
      /* Save RDB */
      RedisModuleRdbStream *stream = RedisModule_RdbStreamCreateFromFile("example.rdb");
      RedisModule_RdbSave(ctx, stream, 0);
      RedisModule_RdbStreamFree(stream);
      
      /* Load RDB */
      RedisModuleRdbStream *stream = RedisModule_RdbStreamCreateFromFile("example.rdb");
      RedisModule_RdbLoad(ctx, stream, 0);
      RedisModule_RdbStreamFree(stream);
      ```
      e55568ed
  6. 21 Mar, 2023 1 commit
    • Roshan Khatri's avatar
      Module commands to have ACL categories. (#11708) · 6948daca
      Roshan Khatri authored
      
      
      This allows modules to register commands to existing ACL categories and blocks the creation of [sub]commands, datatypes and registering the configs outside of the OnLoad function.
      
      For allowing modules to register commands to existing ACL categories,
      This PR implements a new API int RM_SetCommandACLCategories() which takes a pointer to a RedisModuleCommand and a C string aclflags containing the set of space separated ACL categories.
      Example, 'write slow' marks the command as part of the write and slow ACL categories.
      
      The C string aclflags is tokenized by implementing a helper function categoryFlagsFromString(). Theses tokens are matched and the corresponding ACL categories flags are set by a helper function matchAclCategoriesFlags. The helper function categoryFlagsFromString() returns the corresponding categories_flags or returns -1 if some token not processed correctly.
      
      If the module contains commands which are registered to existing ACL categories, the number of [sub]commands are tracked by num_commands_with_acl_categories in struct RedisModule. Further, the allowed command bit-map of the existing users are recomputed from the command_rules list, by implementing a function called ACLRecomputeCommandBitsFromCommandRulesAllUsers() for the existing users to have access to the module commands on runtime.
      
      ## Breaking change
      This change requires that registering commands and subcommands only occur during a modules "OnLoad" function, in order to allow efficient recompilation of ACL bits. We also chose to block registering configs and types, since we believe it's only valid for those to be created during onLoad. We check for this onload flag in struct RedisModule to check if the call is made from the OnLoad function.
      Co-authored-by: default avatarMadelyn Olson <madelyneolson@gmail.com>
      6948daca
  7. 20 Mar, 2023 1 commit
    • Shaya Potter's avatar
      Don't run command filter on blocked command reprocessing (#11895) · 6cf8fc08
      Shaya Potter authored
      
      
      Previously we would run the module command filters even upon blocked
      command reprocessing.  This could modify the command, and it's args.
      This is irrelevant in the context of a command being reprocessed (it already
      went through the filters), as well as breaks the crashed command lookup
      that exists in the case of a reprocessed command.
      
      fixes #11894.
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      6cf8fc08
  8. 16 Mar, 2023 1 commit
    • Meir Shpilraien (Spielrein)'s avatar
      Support for RM_Call on blocking commands (#11568) · d0da0a6a
      Meir Shpilraien (Spielrein) authored
      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.
      d0da0a6a
  9. 15 Mar, 2023 1 commit
    • KarthikSubbarao's avatar
      Custom authentication for Modules (#11659) · f8a5a4f7
      KarthikSubbarao authored
      
      
      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: default avatarMadelyn Olson <34459052+madolson@users.noreply.github.com>
      f8a5a4f7
  10. 11 Mar, 2023 1 commit
    • guybe7's avatar
      Add reply_schema to command json files (internal for now) (#10273) · 4ba47d2d
      guybe7 authored
      Work in progress towards implementing a reply schema as part of COMMAND DOCS, see #9845
      Since ironing the details of the reply schema of each and every command can take a long time, we
      would like to merge this PR when the infrastructure is ready, and let this mature in the unstable branch.
      Meanwhile the changes of this PR are internal, they are part of the repo, but do not affect the produced build.
      
      ### Background
      In #9656 we add a lot of information about Redis commands, but we are missing information about the replies
      
      ### Motivation
      1. Documentation. This is the primary goal.
      2. It should be possible, based on the output of COMMAND, to be able to generate client code in typed
        languages. In order to do that, we need Redis to tell us, in detail, what each reply looks like.
      3. We would like to build a fuzzer that verifies the reply structure (for now we use the existing
        testsuite, see the "Testing" section)
      
      ### Schema
      The idea is to supply some sort of schema for the various replies of each command.
      The schema will describe the conceptual structure of the reply (for generated clients), as defined in RESP3.
      Note that the reply structure itself may change, depending on the arguments (e.g. `XINFO STREAM`, with
      and without the `FULL` modifier)
      We decided to use the standard json-schema (see https://json-schema.org/) as the reply-schema.
      
      Example for `BZPOPMIN`:
      ```
      "reply_schema": {
          "oneOf": [
              {
                  "description": "Timeout reached and no elements were popped.",
                  "type": "null"
              },
              {
                  "description": "The keyname, popped member, and its score.",
                  "type": "array",
                  "minItems": 3,
                  "maxItems": 3,
                  "items": [
                      {
                          "description": "Keyname",
                          "type": "string"
                      },
                      {
                          "description": "Member",
                          "type": "string"
                      },
                      {
                          "description": "Score",
                          "type": "number"
                      }
                  ]
              }
          ]
      }
      ```
      
      #### Notes
      1.  It is ok that some commands' reply structure depends on the arguments and it's the caller's responsibility
        to know which is the relevant one. this comes after looking at other request-reply systems like OpenAPI,
        where the reply schema can also be oneOf and the caller is responsible to know which schema is the relevant one.
      2. The reply schemas will describe RESP3 replies only. even though RESP3 is structured, we want to use reply
        schema for documentation (and possibly to create a fuzzer that validates the replies)
      3. For documentation, the description field will include an explanation of the scenario in which the reply is sent,
        including any relation to arguments. for example, for `ZRANGE`'s two schemas we will need to state that one
        is with `WITHSCORES` and the other is without.
      4. For documentation, there will be another optional field "notes" in which we will add a short description of
        the representation in RESP2, in case it's not trivial (RESP3's `ZRANGE`'s nested array vs. RESP2's flat
        array, for example)
      
      Given the above:
      1. We can generate the "return" section of all commands in [redis-doc](https://redis.io/commands/)
        (given that "description" and "notes" are comprehensive enough)
      2. We can generate a client in a strongly typed language (but the return type could be a conceptual
        `union` and the caller needs to know which schema is relevant). see the section below for RESP2 support.
      3. We can create a fuzzer for RESP3.
      
      ### Limitations (because we are using the standard json-schema)
      The problem is that Redis' replies are more diverse than what the json format allows. This means that,
      when we convert the reply to a json (in order to validate the schema against it), we lose information (see
      the "Testing" section below).
      The other option would have been to extend the standard json-schema (and json format) to include stuff
      like sets, bulk-strings, error-string, etc. but that would mean also extending the schema-validator - and that
      seemed like too much work, so we decided to compromise.
      
      Examples:
      1. We cannot tell the difference between an "array" and a "set"
      2. We cannot tell the difference between simple-string and bulk-string
      3. we cannot verify true uniqueness of items in commands like ZRANGE: json-schema doesn't cover the
        case of two identical members with different scores (e.g. `[["m1",6],["m1",7]]`) because `uniqueItems`
        compares (member,score) tuples and not just the member name. 
      
      ### Testing
      This commit includes some changes inside Redis in order to verify the schemas (existing and future ones)
      are indeed correct (i.e. describe the actual response of Redis).
      To do that, we added a debugging feature to Redis that causes it to produce a log of all the commands
      it executed and their replies.
      For that, Redis needs to be compiled with `-DLOG_REQ_RES` and run with
      `--reg-res-logfile <file> --client-default-resp 3` (the testsuite already does that if you run it with
      `--log-req-res --force-resp3`)
      You should run the testsuite with the above args (and `--dont-clean`) in order to make Redis generate
      `.reqres` files (same dir as the `stdout` files) which contain request-response pairs.
      These files are later on processed by `./utils/req-res-log-validator.py` which does:
      1. Goes over req-res files, generated by redis-servers, spawned by the testsuite (see logreqres.c)
      2. For each request-response pair, it validates the response against the request's reply_schema
        (obtained from the extended COMMAND DOCS)
      5. In order to get good coverage of the Redis commands, and all their different replies, we chose to use
        the existing redis test suite, rather than attempt to write a fuzzer.
      
      #### Notes about RESP2
      1. We will not be able to use the testing tool to verify RESP2 replies (we are ok with that, it's time to
        accept RESP3 as the future RESP)
      2. Since the majority of the test suite is using RESP2, and we want the server to reply with RESP3
        so that we can validate it, we will need to know how to convert the actual reply to the one expected.
         - number and boolean are always strings in RESP2 so the conversion is easy
         - objects (maps) are always a flat array in RESP2
         - others (nested array in RESP3's `ZRANGE` and others) will need some special per-command
           handling (so the client will not be totally auto-generated)
      
      Example for ZRANGE:
      ```
      "reply_schema": {
          "anyOf": [
              {
                  "description": "A list of member elements",
                  "type": "array",
                  "uniqueItems": true,
                  "items": {
                      "type": "string"
                  }
              },
              {
                  "description": "Members and their scores. Returned in case `WITHSCORES` was used.",
                  "notes": "In RESP2 this is returned as a flat array",
                  "type": "array",
                  "uniqueItems": true,
                  "items": {
                      "type": "array",
                      "minItems": 2,
                      "maxItems": 2,
                      "items": [
                          {
                              "description": "Member",
                              "type": "string"
                          },
                          {
                              "description": "Score",
                              "type": "number"
                          }
                      ]
                  }
              }
          ]
      }
      ```
      
      ### Other changes
      1. Some tests that behave differently depending on the RESP are now being tested for both RESP,
        regardless of the special log-req-res mode ("Pub/Sub PING" for example)
      2. Update the history field of CLIENT LIST
      3. Added basic tests for commands that were not covered at all by the testsuite
      
      ### TODO
      
      - [x] (maybe a different PR) add a "condition" field to anyOf/oneOf schemas that refers to args. e.g.
        when `SET` return NULL, the condition is `arguments.get||arguments.condition`, for `OK` the condition
        is `!arguments.get`, and for `string` the condition is `arguments.get` - https://github.com/redis/redis/issues/11896
      - [x] (maybe a different PR) also run `runtest-cluster` in the req-res logging mode
      - [x] add the new tests to GH actions (i.e. compile with `-DLOG_REQ_RES`, run the tests, and run the validator)
      - [x] (maybe a different PR) figure out a way to warn about (sub)schemas that are uncovered by the output
        of the tests - https://github.com/redis/redis/issues/11897
      - [x] (probably a separate PR) add all missing schemas
      - [x] check why "SDOWN is triggered by misconfigured instance replying with errors" fails with --log-req-res
      - [x] move the response transformers to their own file (run both regular, cluster, and sentinel tests - need to
        fight with the tcl including mechanism a bit)
      - [x] issue: module API - https://github.com/redis/redis/issues/11898
      - [x] (probably a separate PR): improve schemas: add `required` to `object`s - https://github.com/redis/redis/issues/11899
      
      Co-authored-by: default avatarOzan Tezcan <ozantezcan@gmail.com>
      Co-authored-by: default avatarHanna Fadida <hanna.fadida@redislabs.com>
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      Co-authored-by: default avatarShaya Potter <shaya@redislabs.com>
      4ba47d2d
  11. 08 Mar, 2023 1 commit
    • ranshid's avatar
      Fix an issue when module decides to unblock a client which is blocked on keys (#11832) · 4988b928
      ranshid authored
      Currently (starting at #11012) When a module is blocked on keys it sets the
      CLIENT_PENDING_COMMAND flag.
      However in case the module decides to unblock the client not via the regular flow
      (eg timeout, key signal or CLIENT UNBLOCK command) it will attempt to reprocess the
      module command and potentially blocked again.
      
      This fix remove the CLIENT_PENDING_COMMAND flag in case blockedForKeys is
      issued from module context.
      4988b928
  12. 07 Mar, 2023 1 commit
    • sundb's avatar
      Skip test for sdsRemoveFreeSpace when mem_allocator is not jemalloc (#11878) · 3fba3ccd
      sundb authored
      Test `trim on SET with big value` (introduced from #11817) fails under mac m1 with libc mem_allocator.
      The reason is that malloc(33000) will allocate 65536 bytes(>42000).
      This test still passes under ubuntu with libc mem_allocator.
      
      ```
      *** [err]: trim on SET with big value in tests/unit/type/string.tcl
      Expected [r memory usage key] < 42000 (context: type source line 471 file /Users/iospack/data/redis_fork/tests/unit/type/string.tcl cmd {assert {[r memory usage key] < 42000}} proc ::test)
      ```
      
      simple test under mac m1 with libc mem_allocator:
      ```c
      void *p = zmalloc(33000);
      printf("malloc size: %zu\n", zmalloc_size(p));
      
      # output
      malloc size: 65536
      ```
      3fba3ccd
  13. 28 Feb, 2023 1 commit
    • uriyage's avatar
      Try to trim strings only when applicable (#11817) · 9d336ac3
      uriyage authored
      
      
      As `sdsRemoveFreeSpace` have an impact on performance even if it is a no-op (see details at #11508). 
      Only call the function when there is a possibility that the string contains free space.
      * For strings coming from the network, it's only if they're bigger than PROTO_MBULK_BIG_ARG
      * For strings coming from scripts, it's only if they're smaller than LUA_CMD_OBJCACHE_MAX_LEN
      * For strings coming from modules, it could be anything.
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      Co-authored-by: default avatarsundb <sundbcn@gmail.com>
      9d336ac3
  14. 16 Feb, 2023 1 commit
    • Oran Agra's avatar
      Cleanup around script_caller, fix tracking of scripts and ACL logging for RM_Call (#11770) · 233abbbe
      Oran Agra authored
      * Make it clear that current_client is the root client that was called by
        external connection
      * add executing_client which is the client that runs the current command
        (can be a module or a script)
      * Remove script_caller that was used for commands that have CLIENT_SCRIPT
        to get the client that called the script. in most cases, that's the current_client,
        and in others (when being called from a module), it could be an intermediate
        client when we actually want the original one used by the external connection.
      
      bugfixes:
      * RM_Call with C flag should log ACL errors with the requested user rather than
        the one used by the original client, this also solves a crash when RM_Call is used
        with C flag from a detached thread safe context.
      * addACLLogEntry would have logged info about the script_caller, but in case the
        script was issued by a module command we actually want the current_client. the
        exception is when RM_Call is called from a timer event, in which case we don't
        have a current_client.
      
      behavior changes:
      * client side tracking for scripts now tracks the keys that are read by the script
        instead of the keys that are declared by the caller for EVAL
      
      other changes:
      * Log both current_client and executing_client in the crash log.
      * remove prepareLuaClient and resetLuaClient, being dead code that was forgotten.
      * remove scriptTimeSnapshot and snapshot_time and instead add cmd_time_snapshot
        that serves all commands and is reset only when execution nesting starts.
      * remove code to propagate CLIENT_FORCE_REPL from the executed command
        to the script caller since scripts aren't propagated anyway these days and anyway
        this flag wouldn't have had an effect since CLIENT_PREVENT_PROP is added by scriptResetRun.
      * fix a module GIL violation issue in afterSleep that was introduced in #10300 (unreleased)
      233abbbe
  15. 14 Feb, 2023 1 commit
    • guybe7's avatar
      Minor changes around the blockonkeys test module (#11803) · 9483ab0b
      guybe7 authored
      All of the POP commands must not decr length below 0.
      So, get_fsl will delete the key if the length is 0 (unless
      the caller wished to create if doesn't exist)
      
      Other:
      1. Use REDISMODULE_WRITE where needed (POP commands)
      2. Use wait_for_blokced_clients in test
      
      Unrelated:
      Use quotes instead of curly braces in zset.tcl, for variable expansion
      9483ab0b
  16. 09 Feb, 2023 1 commit
    • Meir Shpilraien (Spielrein)'s avatar
      Match REDISMODULE_OPEN_KEY_* flags to LOOKUP_* flags (#11772) · 5c3938d5
      Meir Shpilraien (Spielrein) authored
      The PR adds support for the following flags on RedisModule_OpenKey:
      
      * REDISMODULE_OPEN_KEY_NONOTIFY - Don't trigger keyspace event on key misses.
      * REDISMODULE_OPEN_KEY_NOSTATS - Don't update keyspace hits/misses counters.
      * REDISMODULE_OPEN_KEY_NOEXPIRE - Avoid deleting lazy expired keys.
      * REDISMODULE_OPEN_KEY_NOEFFECTS - Avoid any effects from fetching the key
      
      In addition, added `RM_GetOpenKeyModesAll`, which returns the mask of all
      supported OpenKey modes. This allows the module to check, in runtime, which
      OpenKey modes are supported by the current Redis instance.
      5c3938d5
  17. 04 Jan, 2023 1 commit
    • Oran Agra's avatar
      Fix potential issue with Lua argv caching, module command filter and libc realloc (#11652) · c8052122
      Oran Agra authored
      TLDR: solve a problem introduced in Redis 7.0.6 (#11541) with
      RM_CommandFilterArgInsert being called from scripts, which can
      lead to memory corruption.
      
      Libc realloc can return the same pointer even if the size was changed. The code in
      freeLuaRedisArgv had an assumption that if the pointer didn't change, then the
      allocation didn't change, and the cache can still be reused.
      However, if rewriteClientCommandArgument or RM_CommandFilterArgInsert were
      used, it could be that we realloced the argv array, and the pointer didn't change, then
      a consecutive command being executed from Lua can use that argv cache reaching
      beyond its size.
      This was actually only possible with modules, since the decision to realloc was based
      on argc, rather than argv_len.
      c8052122
  18. 01 Jan, 2023 1 commit
    • ranshid's avatar
      reprocess command when client is unblocked on keys (#11012) · 383d902c
      ranshid authored
      *TL;DR*
      ---------------------------------------
      Following the discussion over the issue [#7551](https://github.com/redis/redis/issues/7551
      
      )
      We decided to refactor the client blocking code to eliminate some of the code duplications
      and to rebuild the infrastructure better for future key blocking cases.
      
      
      *In this PR*
      ---------------------------------------
      1. reprocess the command once a client becomes unblocked on key (instead of running
         custom code for the unblocked path that's different than the one that would have run if
         blocking wasn't needed)
      2. eliminate some (now) irrelevant code for handling unblocking lists/zsets/streams etc...
      3. modify some tests to intercept the error in cases of error on reprocess after unblock (see
         details in the notes section below)
      4. replace '$' on the client argv with current stream id. Since once we reprocess the stream
         XREAD we need to read from the last msg and not wait for new msg  in order to prevent
         endless block loop. 
      5. Added statistics to the info "Clients" section to report the:
         * `total_blocking_keys` - number of blocking keys
         * `total_blocking_keys_on_nokey` - number of blocking keys which have at least 1 client
            which would like
         to be unblocked on when the key is deleted.
      6. Avoid expiring unblocked key during unblock. Previously we used to lookup the unblocked key
         which might have been expired during the lookup. Now we lookup the key using NOTOUCH and
         NOEXPIRE to avoid deleting it at this point, so propagating commands in blocked.c is no longer needed.
      7. deprecated command flags. We decided to remove the CMD_CALL_STATS and CMD_CALL_SLOWLOG
         and make an explicit verification in the call() function in order to decide if stats update should take place.
         This should simplify the logic and also mitigate existing issues: for example module calls which are
         triggered as part of AOF loading might still report stats even though they are called during AOF loading.
      
      *Behavior changes*
      ---------------------------------------------------
      
      1. As this implementation prevents writing dedicated code handling unblocked streams/lists/zsets,
      since we now re-process the command once the client is unblocked some errors will be reported differently.
      The old implementation used to issue
      ``UNBLOCKED the stream key no longer exists``
      in the following cases:
         - The stream key has been deleted (ie. calling DEL)
         - The stream and group existed but the key type was changed by overriding it (ie. with set command)
         - The key not longer exists after we swapdb with a db which does not contains this key
         - After swapdb when the new db has this key but with different type.
         
      In the new implementation the reported errors will be the same as if the command was processed after effect:
      **NOGROUP** - in case key no longer exists, or **WRONGTYPE** in case the key was overridden with a different type.
      
      2. Reprocessing the command means that some checks will be reevaluated once the
      client is unblocked.
      For example, ACL rules might change since the command originally was executed and
      will fail once the client is unblocked.
      Another example is OOM condition checks which might enable the command to run and
      block but fail the command reprocess once the client is unblocked.
      
      3. One of the changes in this PR is that no command stats are being updated once the
      command is blocked (all stats will be updated once the client is unblocked). This implies
      that when we have many clients blocked, users will no longer be able to get that information
      from the command stats. However the information can still be gathered from the client list.
      
      **Client blocking**
      ---------------------------------------------------
      
      the blocking on key will still be triggered the same way as it is done today.
      in order to block the current client on list of keys, the call to
      blockForKeys will still need to be made which will perform the same as it is today:
      
      *  add the client to the list of blocked clients on each key
      *  keep the key with a matching list node (position in the global blocking clients list for that key)
         in the client private blocking key dict.
      *  flag the client with CLIENT_BLOCKED
      *  update blocking statistics
      *  register the client on the timeout table
      
      **Key Unblock**
      ---------------------------------------------------
      
      Unblocking a specific key will be triggered (same as today) by calling signalKeyAsReady.
      the implementation in that part will stay the same as today - adding the key to the global readyList.
      The reason to maintain the readyList (as apposed to iterating over all clients blocked on the specific key)
      is in order to keep the signal operation as short as possible, since it is called during the command processing.
      The main change is that instead of going through a dedicated code path that operates the blocked command
      we will just call processPendingCommandsAndResetClient.
      
      **ClientUnblock (keys)**
      ---------------------------------------------------
      
      1. Unblocking clients on keys will be triggered after command is
         processed and during the beforeSleep
      8. the general schema is:
      9. For each key *k* in the readyList:
      ```            
      For each client *c* which is blocked on *k*:
                  in case either:
      	          1. *k* exists AND the *k* type matches the current client blocking type
      	  	      OR
      	          2. *k* exists and *c* is blocked on module command
      	    	      OR
      	          3. *k* does not exists and *c* was blocked with the flag
      	             unblock_on_deleted_key
                       do:
                                        1. remove the client from the list of clients blocked on this key
                                        2. remove the blocking list node from the client blocking key dict
                                        3. remove the client from the timeout list
                                        10. queue the client on the unblocked_clients list
                                        11. *NEW*: call processCommandAndResetClient(c);
      ```
      *NOTE:* for module blocked clients we will still call the moduleUnblockClientByHandle
                    which will queue the client for processing in moduleUnblockedClients list.
      
      **Process Unblocked clients**
      ---------------------------------------------------
      
      The process of all unblocked clients is done in the beforeSleep and no change is planned
      in that part.
      
      The general schema will be:
      For each client *c* in server.unblocked_clients:
      
              * remove client from the server.unblocked_clients
              * set back the client readHandler
              * continue processing the pending command and input buffer.
      
      *Some notes regarding the new implementation*
      ---------------------------------------------------
      
      1. Although it was proposed, it is currently difficult to remove the
         read handler from the client while it is blocked.
         The reason is that a blocked client should be unblocked when it is
         disconnected, or we might consume data into void.
      
      2. While this PR mainly keep the current blocking logic as-is, there
         might be some future additions to the infrastructure that we would
         like to have:
         - allow non-preemptive blocking of client - sometimes we can think
           that a new kind of blocking can be expected to not be preempt. for
           example lets imagine we hold some keys on disk and when a command
           needs to process them it will block until the keys are uploaded.
           in this case we will want the client to not disconnect or be
           unblocked until the process is completed (remove the client read
           handler, prevent client timeout, disable unblock via debug command etc...).
         - allow generic blocking based on command declared keys - we might
           want to add a hook before command processing to check if any of the
           declared keys require the command to block. this way it would be
           easier to add new kinds of key-based blocking mechanisms.
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      Signed-off-by: default avatarRan Shidlansik <ranshid@amazon.com>
      383d902c
  19. 20 Dec, 2022 1 commit
    • guybe7's avatar
      Cleanup: Get rid of server.core_propagates (#11572) · 9c7c6924
      guybe7 authored
      1. Get rid of server.core_propagates - we can just rely on module/call nesting levels
      2. Rename in_nested_call  to execution_nesting and update the comment
      3. Remove module_ctx_nesting (redundant, we can use execution_nesting)
      4. Modify postExecutionUnitOperations according to the comment (The main purpose of this PR)
      5. trackingHandlePendingKeyInvalidations: Check the nesting level inside this function
      9c7c6924
  20. 09 Dec, 2022 1 commit
    • Binbin's avatar
      Fix zuiFind crash / RM_ScanKey hang on SET object listpack encoding (#11581) · 20854cb6
      Binbin authored
      
      
      In #11290, we added listpack encoding for SET object.
      But forgot to support it in zuiFind, causes ZINTER, ZINTERSTORE,
      ZINTERCARD, ZIDFF, ZDIFFSTORE to crash.
      And forgot to support it in RM_ScanKey, causes it hang.
      
      This PR add support SET listpack in zuiFind, and in RM_ScanKey.
      And add tests for related commands to cover this case.
      
      Other changes:
      - There is no reason for zuiFind to go into the internals of the SET.
        It can simply use setTypeIsMember and don't care about encoding.
      - Remove the `#include "intset.h"` from server.h reduce the chance of
        accidental intset API use.
      - Move setTypeAddAux, setTypeRemoveAux and setTypeIsMemberAux
        interfaces to the header.
      - In scanGenericCommand, use setTypeInitIterator and setTypeNext
        to handle OBJ_SET scan.
      - In RM_ScanKey, improve hash scan mode, use lpGetValue like zset,
        they can share code and better performance.
      
      The zuiFind part fixes #11578
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      Co-authored-by: default avatarViktor Söderqvist <viktor.soderqvist@est.tech>
      20854cb6
  21. 08 Dec, 2022 1 commit
  22. 30 Nov, 2022 1 commit
    • Huang Zhw's avatar
      Add a special notification unlink available only for modules (#9406) · c8181314
      Huang Zhw authored
      
      
      Add a new module event `RedisModule_Event_Key`, this event is fired
      when a key is removed from the keyspace.
      The event includes an open key that can be used for reading the key before
      it is removed. Modules can also extract the key-name, and use RM_Open
      or RM_Call to access key from within that event, but shouldn't modify anything
      from within this event.
      
      The following sub events are available:
        - `REDISMODULE_SUBEVENT_KEY_DELETED`
        - `REDISMODULE_SUBEVENT_KEY_EXPIRED`
        - `REDISMODULE_SUBEVENT_KEY_EVICTED`
        - `REDISMODULE_SUBEVENT_KEY_OVERWRITE`
      
      The data pointer can be casted to a RedisModuleKeyInfo structure
      with the following fields:
      ```
           RedisModuleKey *key;    // Opened Key
       ```
      
      ### internals
      
      * We also add two dict functions:
        `dictTwoPhaseUnlinkFind` finds an element from the table, also get the plink of the entry.
        The entry is returned if the element is found. The user should later call `dictTwoPhaseUnlinkFree`
        with it in order to unlink and release it. Otherwise if the key is not found, NULL is returned.
        These two functions should be used in pair. `dictTwoPhaseUnlinkFind` pauses rehash and
        `dictTwoPhaseUnlinkFree` resumes rehash.
      * We change `dbOverwrite` to `dbReplaceValue` which just replaces the value of the key and
        doesn't fire any events. The "overwrite" part (which emits events) is just when called from `setKey`,
        the other places that called dbOverwrite were ones that just update the value in-place (INCR*, SPOP,
        and dbUnshareStringValue). This should not have any real impact since `moduleNotifyKeyUnlink` and
        `signalDeletedKeyAsReady` wouldn't have mattered in these cases anyway (i.e. module keys and
        stream keys didn't have direct calls to dbOverwrite)
      * since we allow doing RM_OpenKey from withing these callbacks, we temporarily disable lazy expiry.
      * We also temporarily disable lazy expiry when we are in unlink/unlink2 callback and keyspace 
        notification callback.
      * Move special definitions to the top of redismodule.h
        This is needed to resolve compilation errors with RedisModuleKeyInfoV1
        that carries a RedisModuleKey member.
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      c8181314
  23. 24 Nov, 2022 1 commit
    • Meir Shpilraien (Spielrein)'s avatar
      Module API to allow writes after key space notification hooks (#11199) · abc345ad
      Meir Shpilraien (Spielrein) authored
      ### 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: default avatarOran Agra <oran@redislabs.com>
      Co-authored-by: default avatarYossi Gottlieb <yossigo@gmail.com>
      Co-authored-by: default avatarMadelyn Olson <34459052+madolson@users.noreply.github.com>
      abc345ad
  24. 16 Nov, 2022 1 commit
    • sundb's avatar
      Add listpack encoding for list (#11303) · 2168ccc6
      sundb authored
      Improve memory efficiency of list keys
      
      ## Description of the feature
      The new listpack encoding uses the old `list-max-listpack-size` config
      to perform the conversion, which we can think it of as a node inside a
      quicklist, but without 80 bytes overhead (internal fragmentation included)
      of quicklist and quicklistNode structs.
      For example, a list key with 5 items of 10 chars each, now takes 128 bytes
      instead of 208 it used to take.
      
      ## Conversion rules
      * Convert listpack to quicklist
        When the listpack length or size reaches the `list-max-listpack-size` limit,
        it will be converted to a quicklist.
      * Convert quicklist to listpack
        When a quicklist has only one node, and its length or size is reduced to half
        of the `list-max-listpack-size` limit, it will be converted to a listpack.
        This is done to avoid frequent conversions when we add or remove at the bounding size or length.
          
      ## Interface changes
      1. add list entry param to listTypeSetIteratorDirection
          When list encoding is listpack, `listTypeIterator->lpi` points to the next entry of current entry,
          so when changing the direction, we need to use the current node (listTypeEntry->p) to 
          update `listTypeIterator->lpi` to the next node in the reverse direction.
      
      ## Benchmark
      ### Listpack VS Quicklist with one node
      * LPUSH - roughly 0.3% improvement
      * LRANGE - roughly 13% improvement
      
      ### Both are quicklist
      * LRANGE - roughly 3% improvement
      * LRANGE without pipeline - roughly 3% improvement
      
      From the benchmark, as we can see from the results
      1. When list is quicklist encoding, LRANGE improves performance by <5%.
      2. When list is listpack encoding, LRANGE improves performance by ~13%,
         the main enhancement is brought by `addListListpackRangeReply()`.
      
      ## Memory usage
      1M lists(key:0~key:1000000) with 5 items of 10 chars ("hellohello") each.
      shows memory usage down by 35.49%, from 214MB to 138MB.
      
      ## Note
      1. Add conversion callback to support doing some work before conversion
          Since the quicklist iterator decompresses the current node when it is released, we can 
          no longer decompress the quicklist after we convert the list.
      2168ccc6
  25. 15 Nov, 2022 1 commit
    • Binbin's avatar
      Fix double negative nan test, ignoring sign (#11506) · a4bcdbcf
      Binbin authored
      The test introduced in #11482 fail on ARM (extra CI):
      ```
      *** [err]: RESP2: RM_ReplyWithDouble: NaN in tests/unit/moduleapi/reply.tcl
      Expected '-nan' to be equal to 'nan' (context: type eval line 3 cmd
      {assert_equal "-nan" [r rw.double 0 0]} proc ::test)
      
      *** [err]: RESP3: RM_ReplyWithDouble: NaN in tests/unit/moduleapi/reply.tcl
      Expected ',-nan' to be equal to ',nan' (context: type eval line 8 cmd
      {assert_equal ",-nan" [r rw.double 0 0]} proc ::test)
      ```
      
      It looks like there is no negative nan on ARM. 
      a4bcdbcf
  26. 14 Nov, 2022 2 commits
  27. 13 Nov, 2022 1 commit
  28. 27 Oct, 2022 1 commit
    • Shaya Potter's avatar
      RM_Call - only enforce OOM on scripts if 'M' flag is sent (#11425) · 38028dab
      Shaya Potter authored
      
      
      RM_Call is designed to let modules call redis commands disregarding the
      OOM state (the module is responsible to declare its command flags to redis,
      or perform the necessary checks).
      The other (new) alternative is to pass the "M" flag to RM_Call so that redis can
      OOM reject commands implicitly.
      
      However, Currently, RM_Call enforces OOM on scripts (excluding scripts that
      declared `allow-oom`) in all cases, regardless of the RM_Call "M" flag being present.
      
      This PR fixes scripts to be consistent with other commands being executed by RM_Call.
      It modifies the flow in effect treats scripts as if they if they have the ALLOW_OOM script
      flag, if the "M" flag is not passed (i.e. no OOM checking is being performed by RM_Call,
      so no OOM checking should be done on script).
      Co-authored-by: default avatarOran Agra <oran@redislabs.com>
      38028dab
  29. 22 Oct, 2022 1 commit
    • sundb's avatar
      Fix crash due to to reuse iterator entry after list deletion in module (#11383) · 6dd21355
      sundb authored
      
      
      In the module, we will reuse the list iterator entry for RM_ListDelete, but `listTypeDelete` will only update
      `quicklistEntry->zi` but not `quicklistEntry->node`, which will result in `quicklistEntry->node` pointing to
      a freed memory address if the quicklist node is deleted. 
      
      This PR sync `key->u.list.index` and `key->u.list.entry` to list iterator after `RM_ListDelete`.
      
      This PR also optimizes the release code of the original list iterator.
      Co-authored-by: default avatarViktor Söderqvist <viktor@zuiderkwast.se>
      6dd21355
  30. 18 Oct, 2022 2 commits
    • guybe7's avatar
      Blocked module clients should be aware when a key is deleted (#11310) · b57fd010
      guybe7 authored
      The use case is a module that wants to implement a blocking command on a key that
      necessarily exists and wants to unblock the client in case the key is deleted (much like
      what we implemented for XREADGROUP in #10306)
      
      New module API:
      * RedisModule_BlockClientOnKeysWithFlags
      
      Flags:
      * REDISMODULE_BLOCK_UNBLOCK_NONE
      * REDISMODULE_BLOCK_UNBLOCK_DELETED
      
      ### Detailed description of code changes
      
      blocked.c:
      1. Both module and stream functions are called whether the key exists or not, regardless of
        its type. We do that in order to allow modules/stream to unblock the client in case the key
        is no longer present or has changed type (the behavior for streams didn't change, just code
        that moved into serveClientsBlockedOnStreamKey)
      2. Make sure afterCommand is called in serveClientsBlockedOnKeyByModule, in order to propagate
        actions from moduleTryServeClientBlockedOnKey.
      3. handleClientsBlockedOnKeys: call propagatePendingCommands directly after lookupKeyReadWithFlags
        to prevent a possible lazy-expire DEL from being mixed with any command propagated by the
        preceding functions.
      4. blockForKeys: Caller can specifiy that it wants to be awakened if key is deleted.
         Minor optimizations (use dictAddRaw).
      5. signalKeyAsReady became signalKeyAsReadyLogic which can take a boolean in case the key is deleted.
        It will only signal if there's at least one client that awaits key deletion (to save calls to
        handleClientsBlockedOnKeys).
        Minor optimizations (use dictAddRaw)
      
      db.c:
      1. scanDatabaseForDeletedStreams is now scanDatabaseForDeletedKeys and will signalKeyAsReady
        for any key that was removed from the database or changed type. It is the responsibility of the code
        in blocked.c to ignore or act on deleted/type-changed keys.
      2. Use the new signalDeletedKeyAsReady where needed
      
      blockedonkey.c + tcl:
      1. Added test of new capabilities (FSL.BPOPGT now requires the key to exist in order to work)
      b57fd010
    • Meir Shpilraien (Spielrein)'s avatar
      Avoid saving module aux on RDB if no aux data was saved by the module. (#11374) · b43f2548
      Meir Shpilraien (Spielrein) authored
      ### Background
      
      The issue is that when saving an RDB with module AUX data, the module AUX metadata
      (moduleid, when, ...) is saved to the RDB even though the module did not saved any actual data.
      This prevent loading the RDB in the absence of the module (although there is no actual data in
      the RDB that requires the module to be loaded).
      
      ### Solution
      
      The solution suggested in this PR is that module AUX will be saved on the RDB only if the module
      actually saved something during `aux_save` function.
      
      To support backward compatibility, we introduce `aux_save2` callback that acts the same as
      `aux_save` with the tiny change of avoid saving the aux field if no data was actually saved by
      the module. Modules can use the new API to make sure that if they have no data to save,
      then it will be possible to load the created RDB even without the module.
      
      ### Concerns
      
      A module may register for the aux load and save hooks just in order to be notified when
      saving or loading starts or completed (there are better ways to do that, but it still possible
      that someone used it).
      
      However, if a module didn't save a single field in the save callback, it means it's not allowed
      to read in the read callback, since it has no way to distinguish between empty and non-empty
      payloads. furthermore, it means that if the module did that, it must never change it, since it'll
      break compatibility with it's old RDB files, so this is really not a valid use case.
      
      Since some modules (ones who currently save one field indicating an empty payload), need
      to know if saving an empty payload is valid, and if Redis is gonna ignore an empty payload
      or store it, we opted to add a new API (rather than change behavior of an existing API and
      expect modules to check the redis version)
      
      ### Technical Details
      
      To avoid saving AUX data on RDB, we change the code to first save the AUX metadata
      (moduleid, when, ...) into a temporary buffer. The buffer is then flushed to the rio at the first
      time the module makes a write operation inside the `aux_save` function. If the module saves
      nothing (and `aux_save2` was used), the entire temporary buffer is simply dropped and no
      data about this AUX field is saved to the RDB. This make it possible to load the RDB even in
      the absence of the module.
      
      Test was added to verify the fix.
      b43f2548
  31. 16 Oct, 2022 2 commits
    • Shaya Potter's avatar
      Unify ACL failure error messaging. (#11160) · 3193f086
      Shaya Potter authored
      Motivation: for applications that use RM ACL verification functions, they would
      want to return errors back to the user, in ways that are consistent with Redis.
      While investigating how we should return ACL errors to the user, we realized that
      Redis isn't consistent, and currently returns ACL error strings in 3 primary ways.
      
      [For the actual implications of this change, see the "Impact" section at the bottom]
      
      1. how it returns an error when calling a command normally
         ACL_DENIED_CMD -> "this user has no permissions to run the '%s' command"
         ACL_DENIED_KEY -> "this user has no permissions to access one of the keys used as arguments"
         ACL_DENIED_CHANNEL -> "this user has no permissions to access one of the channels used as arguments"
      
      2. how it returns an error when calling via 'acl dryrun' command
         ACL_DENIED_CMD ->  "This user has no permissions to run the '%s' command"
         ACL_DENIED_KEY -> "This user has no permissions to access the '%s' key"
         ACL_DENIED_CHANNEL -> "This user has no permissions to access the '%s' channel"
      
      3. how it returns an error via RM_Call (and scripting is similar).
         ACL_DENIED_CMD -> "can't run this command or subcommand";
         ACL_DENIED_KEY -> "can't access at least one of the keys mentioned in the command arguments";
         ACL_DENIED_CHANNEL -> "can't publish to the channel mentioned in the command";
         
         In addition, if one wants to use RM_Call's "dry run" capability instead of the RM ACL
         functions directly, one also sees a different problem than it returns ACL errors with a -ERR,
         not a -PERM, so it can't be returned directly to the caller.
      
      This PR modifies the code to generate a base message in a common manner with the ability
      to set verbose flag for acl dry run errors, and keep it unset for normal/rm_call/script cases
      
      ```c
      sds getAclErrorMessage(int acl_res, user *user, struct redisCommand *cmd, sds errored_val, int verbose) {
          switch (acl_res) {
          case ACL_DENIED_CMD:
              return sdscatfmt(sdsempty(), "User %S has no permissions to run "
                                           "the '%S' command", user->name, cmd->fullname);
          case ACL_DENIED_KEY:
              if (verbose) {
                  return sdscatfmt(sdsempty(), "User %S has no permissions to access "
                                               "the '%S' key", user->name, errored_val);
              } else {
                  return sdsnew("No permissions to access a key");
              }
          case ACL_DENIED_CHANNEL:
              if (verbose) {
                  return sdscatfmt(sdsempty(), "User %S has no permissions to access "
                                               "the '%S' channel", user->name, errored_val);
              } else {
                  return sdsnew("No permissions to access a channel");
              }
          }
      ```
      
      The caller can append/prepend the message (adding NOPERM for normal/RM_Call or indicating it's within a script).
      
      Impact:
      - Plain commands, as well as scripts and RM_Call now include the user name.
      - ACL DRYRUN remains the only one that's verbose (mentions the offending channel or key name)
      - Changes RM_Call ACL errors from being a `-ERR` to being `-NOPERM` (besides for textual changes)
        **This somewhat a breaking change, but it only affects the RM_Call with both `C` and `E`, or `D`**
      - Changes ACL errors in scripts textually from being
        `The user executing the script <old non unified text>`
        to
        `ACL failure in script: <new unified text>`
      3193f086
    • Meir Shpilraien (Spielrein)'s avatar
      Fix wrong replication on cluster slotmap changes with module KSN propagation (#11377) · 56f97bfa
      Meir Shpilraien (Spielrein) authored
      As discussed on #11084, `propagatePendingCommands` should happened after the del
      notification is fired so that the notification effect and the `del` will be replicated inside MULTI EXEC.
      
      Test was added to verify the fix.
      56f97bfa
  32. 12 Oct, 2022 1 commit
    • Meir Shpilraien (Spielrein)'s avatar
      Fix crash on RM_Call inside module load (#11346) · eb6accad
      Meir Shpilraien (Spielrein) authored
      PR #9320 introduces initialization order changes. Now cluster is initialized after modules.
      This changes causes a crash if the module uses RM_Call inside the load function
      on cluster mode (the code will try to access `server.cluster` which at this point is NULL).
      
      To solve it, separate cluster initialization into 2 phases:
      1. Structure initialization that happened before the modules initialization
      2. Listener initialization that happened after.
      
      Test was added to verify the fix.
      eb6accad
  33. 09 Oct, 2022 1 commit
  34. 28 Sep, 2022 1 commit
    • guybe7's avatar
      RM_CreateCommand should not set CMD_KEY_VARIABLE_FLAGS automatically (#11320) · 3330ea18
      guybe7 authored
      The original idea behind auto-setting the default (first,last,step) spec was to use
      the most "open" flags when the user didn't provide any key-spec flags information.
      
      While the above idea is a good approach, it really makes no sense to set
      CMD_KEY_VARIABLE_FLAGS if the user didn't provide the getkeys-api flag:
      in this case there's not way to retrieve these variable flags, so what's the point?
      
      Internally in redis there was code to ignore this already, so this fix doesn't change
      redis's behavior, it only affects the output of COMMAND command.
      3330ea18
  35. 26 Sep, 2022 1 commit
    • Ozan Tezcan's avatar
      Ignore RM_Call deny-oom flag if maxmemory is zero (#11319) · 18920813
      Ozan Tezcan authored
      If a command gets an OOM response and then if we set maxmemory to zero
      to disable the limit, server.pre_command_oom_state never gets updated
      and it stays true. As RM_Call() calls with "respect deny-oom" flag checks
      server.pre_command_oom_state, all calls will fail with OOM.
      
      Added server.maxmemory check in RM_Call() to process deny-oom flag
      only if maxmemory is configured.
      18920813
  36. 22 Sep, 2022 1 commit
    • Shaya Potter's avatar
      Add RM_SetContextUser to support acl validation in RM_Call (and scripts) (#10966) · 6e993a5d
      Shaya Potter authored
      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
      6e993a5d