1. 15 Feb, 2013 1 commit
  2. 14 Feb, 2013 1 commit
  3. 12 Feb, 2013 5 commits
  4. 08 Feb, 2013 1 commit
  5. 07 Feb, 2013 1 commit
  6. 05 Feb, 2013 2 commits
    • antirez's avatar
      b70b459b
    • charsyam's avatar
      Turn off TCP_NODELAY on the slave socket after SYNC. · c85647f3
      charsyam authored
      Further details from @antirez:
      
      It was reported by @StopForumSpam on Twitter that the Redis replication
      link was strangely using multiple TCP packets for multiple commands.
      This wastes a lot of bandwidth and is due to the TCP_NODELAY option we
      enable on the socket after accepting a new connection.
      
      However the master -> slave channel is a one-way channel since Redis
      replication is asynchronous, so there is no point in trying to reduce
      the latency, we should aim to reduce the bandwidth. For this reason this
      commit introduces the ability to disable the nagle algorithm on the
      socket after a successful SYNC.
      
      This feature is off by default because the delay can be up to 40
      milliseconds with normally configured Linux kernels.
      c85647f3
  7. 28 Jan, 2013 4 commits
  8. 19 Jan, 2013 4 commits
    • antirez's avatar
      Whitelist SIGUSR1 to avoid auto-triggering errors. · 79a0ef62
      antirez authored
      This commit fixes issue #875 that was caused by the following events:
      
      1) There is an active child doing BGSAVE.
      2) flushall is called (or any other condition that makes Redis killing
      the saving child process).
      3) An error is sensed by Redis as the child exited with an error (killed
      by a singal), that stops accepting write commands until a BGSAVE happens
      to be executed with success.
      
      Whitelisting SIGUSR1 and making sure Redis always uses this signal in
      order to kill its own children fixes the issue.
      79a0ef62
    • antirez's avatar
      Clear server.shutdown_asap on failed shutdown. · ab247fc1
      antirez authored
      When a SIGTERM is received Redis schedules a shutdown. However if it
      fails to perform the shutdown it must be clear the shutdown_asap flag
      otehrwise it will try again and again possibly making the server
      unusable.
      ab247fc1
    • antirez's avatar
      Slowlog: don't log EXEC but just the executed commands. · 08d200ba
      antirez authored
      The Redis Slow Log always used to log the slow commands executed inside
      a MULTI/EXEC block. However also EXEC was logged at the end, which is
      perfectly useless.
      
      Now EXEC is no longer logged and a test was added to test this behavior.
      
      This fixes issue #759.
      08d200ba
    • guiquanz's avatar
      Fixed many typos. · 9d09ce39
      guiquanz authored
      9d09ce39
  9. 16 Jan, 2013 1 commit
  10. 10 Jan, 2013 1 commit
  11. 14 Dec, 2012 1 commit
    • antirez's avatar
      serverCron() frequency is now a runtime parameter (was REDIS_HZ). · f1481d4a
      antirez authored
      REDIS_HZ is the frequency our serverCron() function is called with.
      A more frequent call to this function results into less latency when the
      server is trying to handle very expansive background operations like
      mass expires of a lot of keys at the same time.
      
      Redis 2.4 used to have an HZ of 10. This was good enough with almost
      every setup, but the incremental key expiration algorithm was working a
      bit better under *extreme* pressure when HZ was set to 100 for Redis
      2.6.
      
      However for most users a latency spike of 30 milliseconds when million
      of keys are expiring at the same time is acceptable, on the other hand a
      default HZ of 100 in Redis 2.6 was causing idle instances to use some
      CPU time compared to Redis 2.4. The CPU usage was in the order of 0.3%
      for an idle instance, however this is a shame as more energy is consumed
      by the server, if not important resources.
      
      This commit introduces HZ as a runtime parameter, that can be queried by
      INFO or CONFIG GET, and can be modified with CONFIG SET. At the same
      time the default frequency is set back to 10.
      
      In this way we default to a sane value of 10, but allows users to
      easily switch to values up to 500 for near real-time applications if
      needed and if they are willing to pay this small CPU usage penalty.
      f1481d4a
  12. 29 Nov, 2012 1 commit
    • antirez's avatar
      Introduced the Build ID in INFO and --version output. · 2f62c966
      antirez authored
      The idea is to be able to identify a build in a unique way, so for
      instance after a bug report we can recognize that the build is the one
      of a popular Linux distribution and perform the debugging in the same
      environment.
      2f62c966
  13. 22 Nov, 2012 2 commits
    • antirez's avatar
      EVALSHA is now case insensitive. · 95f68f7b
      antirez authored
      EVALSHA used to crash if the SHA1 was not lowercase (Issue #783).
      Fixed using a case insensitive dictionary type for the sha -> script
      map used for replication of scripts.
      95f68f7b
    • antirez's avatar
      Safer handling of MULTI/EXEC on errors. · 3d139127
      antirez authored
      After the transcation starts with a MULIT, the previous behavior was to
      return an error on problems such as maxmemory limit reached. But still
      to execute the transaction with the subset of queued commands on EXEC.
      
      While it is true that the client was able to check for errors
      distinguish QUEUED by an error reply, MULTI/EXEC in most client
      implementations uses pipelining for speed, so all the commands and EXEC
      are sent without caring about replies.
      
      With this change:
      
      1) EXEC fails if at least one command was not queued because of an
      error. The EXECABORT error is used.
      2) A generic error is always reported on EXEC.
      3) The client DISCARDs the MULTI state after a failed EXEC, otherwise
      pipelining multiple transactions would be basically impossible:
      After a failed EXEC the next transaction would be simply queued as
      the tail of the previous transaction.
      3d139127
  14. 12 Nov, 2012 1 commit
  15. 11 Nov, 2012 1 commit
    • antirez's avatar
      MIGRATE TCP connections caching. · e23d281e
      antirez authored
      By caching TCP connections used by MIGRATE to chat with other Redis
      instances a 5x performance improvement was measured with
      redis-benchmark against small keys.
      
      This can dramatically speedup cluster resharding and other processes
      where an high load of MIGRATE commands are used.
      e23d281e
  16. 08 Nov, 2012 1 commit
  17. 07 Nov, 2012 2 commits
    • antirez's avatar
      COPY and REPLACE options for MIGRATE. · 1237d71c
      antirez authored
      With COPY now MIGRATE does not remove the key from the source instance.
      With REPLACE it uses RESTORE REPLACE on the target host so that even if
      the key already eixsts in the target instance it will be overwritten.
      
      The options can be used together.
      1237d71c
    • antirez's avatar
      REPLACE option for RESTORE. · e5b5763f
      antirez authored
      The REPLACE option deletes an existing key with the same name (if any)
      and materializes the new one. The default behavior without RESTORE is to
      return an error if a key already exists.
      e5b5763f
  18. 06 Nov, 2012 1 commit
    • antirez's avatar
      Type mismatch errors are now prefixed with WRONGTYPE. · c4b0b685
      antirez authored
      So instead to reply with a generic error like:
      
      -ERR ... wrong kind of value ...
      
      now it replies with:
      
      -WRONGTYPE ... wrong kind of value ...
      
      This makes this particular error easy to check without resorting to
      (fragile) pattern matching of the error string (however the error string
      used to be consistent already).
      
      Client libraries should return a specific exeption type for this error.
      
      Most of the commit is about fixing unit tests.
      c4b0b685
  19. 01 Nov, 2012 2 commits
    • antirez's avatar
      More robust handling of AOF rewrite child. · 05d8e2c9
      antirez authored
      After the wait3() syscall we used to do something like that:
      
          if (pid == server.rdb_child_pid) {
              backgroundSaveDoneHandler(exitcode,bysignal);
          } else {
              ....
          }
      
      So the AOF rewrite was handled in the else branch without actually
      checking if the pid really matches. This commit makes the check explicit
      and logs at WARNING level if the pid returned by wait3() does not match
      neither the RDB or AOF rewrite child.
      05d8e2c9
    • Yecheng Fu's avatar
      fix typo in comments (redis.c, networking.c) · f0266532
      Yecheng Fu authored
      f0266532
  20. 22 Oct, 2012 2 commits
  21. 16 Oct, 2012 1 commit
    • antirez's avatar
      Fix MULTI / EXEC rendering in MONITOR output. · a1b1c1ea
      antirez authored
      Before of this commit it used to be like this:
      
      MULTI
      EXEC
      ... actual commands of the transaction ...
      
      Because after all that is the natural order of things. Transaction
      commands are queued and executed *only after* EXEC is called.
      
      However this makes debugging with MONITOR a mess, so the code was
      modified to provide a coherent output.
      
      What happens is that MULTI is rendered in the MONITOR output as far as
      possible, instead EXEC is propagated only after the transaction is
      executed, or even in the case it fails because of WATCH, so in this case
      you'll simply see:
      
      MULTI
      EXEC
      
      An empty transaction.
      a1b1c1ea
  22. 11 Oct, 2012 1 commit
  23. 05 Oct, 2012 1 commit
    • antirez's avatar
      Warn when configured maxmemory value seems odd. · c43aea7e
      antirez authored
      This commit warns the user with a log at "warning" level if:
      
      1) After the server startup the maxmemory limit was found to be < 1MB.
      2) After a CONFIG SET command modifying the maxmemory setting the limit
      is set to a value that is smaller than the currently used memory.
      
      The behaviour of the Redis server is unmodified, and this wil not make
      the CONFIG SET command or a wrong configuration in redis.conf less
      likely to create problems, but at least this will make aware most users
      about a possbile error they committed without resorting to external
      help.
      
      However no warning is issued if, as a result of loading the AOF or RDB
      file, we are very near the maxmemory setting, or key eviction will be
      needed in order to go under the specified maxmemory setting. The reason
      is that in servers configured as a cache with an aggressive
      maxmemory-policy most of the times restarting the server will cause this
      condition to happen if persistence is not switched off.
      
      This fixes issue #429.
      c43aea7e
  24. 21 Sep, 2012 1 commit
    • antirez's avatar
      Added the SRANDMEMBER key <count> variant. · be90c803
      antirez authored
      SRANDMEMBER called with just the key argument can just return a single
      random element from a Redis Set. However many users need to return
      multiple unique elements from a Set, this is not a trivial problem to
      handle in the client side, and for truly good performance a C
      implementation was required.
      
      After many requests for this feature it was finally implemented.
      
      The problem implementing this command is the strategy to follow when
      the number of elements the user asks for is near to the number of
      elements that are already inside the set. In this case asking random
      elements to the dictionary API, and trying to add it to a temporary set,
      may result into an extremely poor performance, as most add operations
      will be wasted on duplicated elements.
      
      For this reason this implementation uses a different strategy in this
      case: the Set is copied, and random elements are returned to reach the
      specified count.
      
      The code actually uses 4 different algorithms optimized for the
      different cases.
      
      If the count is negative, the command changes behavior and allows for
      duplicated elements in the returned subset.
      be90c803
  25. 17 Sep, 2012 1 commit
    • antirez's avatar
      A reimplementation of blocking operation internals. · 7eb850ef
      antirez authored
      Redis provides support for blocking operations such as BLPOP or BRPOP.
      This operations are identical to normal LPOP and RPOP operations as long
      as there are elements in the target list, but if the list is empty they
      block waiting for new data to arrive to the list.
      
      All the clients blocked waiting for th same list are served in a FIFO
      way, so the first that blocked is the first to be served when there is
      more data pushed by another client into the list.
      
      The previous implementation of blocking operations was conceived to
      serve clients in the context of push operations. For for instance:
      
      1) There is a client "A" blocked on list "foo".
      2) The client "B" performs `LPUSH foo somevalue`.
      3) The client "A" is served in the context of the "B" LPUSH,
      synchronously.
      
      Processing things in a synchronous way was useful as if "A" pushes a
      value that is served by "B", from the point of view of the database is a
      NOP (no operation) thing, that is, nothing is replicated, nothing is
      written in the AOF file, and so forth.
      
      However later we implemented two things:
      
      1) Variadic LPUSH that could add multiple values to a list in the
      context of a single call.
      2) BRPOPLPUSH that was a version of BRPOP that also provided a "PUSH"
      side effect when receiving data.
      
      This forced us to make the synchronous implementation more complex. If
      client "B" is waiting for data, and "A" pushes three elemnents in a
      single call, we needed to propagate an LPUSH with a missing argument
      in the AOF and replication link. We also needed to make sure to
      replicate the LPUSH side of BRPOPLPUSH, but only if in turn did not
      happened to serve another blocking client into another list ;)
      
      This were complex but with a few of mutually recursive functions
      everything worked as expected... until one day we introduced scripting
      in Redis.
      
      Scripting + synchronous blocking operations = Issue #614.
      
      Basically you can't "rewrite" a script to have just a partial effect on
      the replicas and AOF file if the script happened to serve a few blocked
      clients.
      
      The solution to all this problems, implemented by this commit, is to
      change the way we serve blocked clients. Instead of serving the blocked
      clients synchronously, in the context of the command performing the PUSH
      operation, it is now an asynchronous and iterative process:
      
      1) If a key that has clients blocked waiting for data is the subject of
      a list push operation, We simply mark keys as "ready" and put it into a
      queue.
      2) Every command pushing stuff on lists, as a variadic LPUSH, a script,
      or whatever it is, is replicated verbatim without any rewriting.
      3) Every time a Redis command, a MULTI/EXEC block, or a script,
      completed its execution, we run the list of keys ready to serve blocked
      clients (as more data arrived), and process this list serving the
      blocked clients.
      4) As a result of "3" maybe more keys are ready again for other clients
      (as a result of BRPOPLPUSH we may have push operations), so we iterate
      back to step "3" if it's needed.
      
      The new code has a much simpler semantics, and a simpler to understand
      implementation, with the disadvantage of not being able to "optmize out"
      a PUSH+BPOP as a No OP.
      
      This commit will be tested with care before the final merge, more tests
      will be added likely.
      7eb850ef