SETNX key value

Set key to hold string value if key does not exist. In that case, it is equal to SET. When key already holds a value, no operation is performed. SETNX is short for “SET if Not eXists”.

@return

@integer-reply, specifically:

  • 1 if the key was set
  • 0 if the key was not set

@examples

redis> SETNX mykey "Hello"
TBD
redis> SETNX mykey "World"
TBD
redis> GET mykey
TBD
redis> ```
TBD
redis> ## Design pattern: Locking with `!SETNX`
TBD
redis> **Please note that:**
TBD
redis> 1. The following pattern is discouraged in favor of [the Redlock algorithm](https://redis.io/topics/distlock) which is only a bit more complex to implement, but offers better guarantees and is fault tolerant.
TBD
redis> 2. We document the old pattern anyway because certain existing implementations link to this page as a reference. Moreover it is an interesting example of how Redis commands can be used in order to mount programming primitives.
TBD
redis> 3. Anyway even assuming a single-instance locking primitive, starting with 2.6.12 it is possible to create a much simpler locking primitive, equivalent to the one discussed here, using the [`SET`](/commands/set) command to acquire the lock, and a simple Lua script to release the lock. The pattern is documented in the [`SET`](/commands/set) command page.
TBD
redis> That said, [`SETNX`](/commands/setnx) can be used, and was historically used, as a locking primitive. For example, to acquire the lock of the key `foo`, the client could try the
TBD
redis> following:
TBD
redis> ```
TBD
redis> SETNX lock.foo <current Unix time + lock timeout + 1>

If SETNX returns 1 the client acquired the lock, setting the lock.foo key to the Unix time at which the lock should no longer be considered valid. The client will later use DEL lock.foo in order to release the lock.

If SETNX returns 0 the key is already locked by some other client. We can either return to the caller if it’s a non blocking lock, or enter a loop retrying to hold the lock until we succeed or some kind of timeout expires.

Handling deadlocks

In the above locking algorithm there is a problem: what happens if a client fails, crashes, or is otherwise not able to release the lock? It’s possible to detect this condition because the lock key contains a UNIX timestamp. If such a timestamp is equal to the current Unix time the lock is no longer valid.

When this happens we can’t just call DEL against the key to remove the lock and then try to issue a SETNX, as there is a race condition here, when multiple clients detected an expired lock and are trying to release it.

  • C1 and C2 read lock.foo to check the timestamp, because they both received 0 after executing SETNX, as the lock is still held by C3 that crashed after holding the lock.
  • C1 sends DEL lock.foo
  • C1 sends SETNX lock.foo and it succeeds
  • C2 sends DEL lock.foo
  • C2 sends SETNX lock.foo and it succeeds
  • ERROR: both C1 and C2 acquired the lock because of the race condition.

Fortunately, it’s possible to avoid this issue using the following algorithm. Let’s see how C4, our sane client, uses the good algorithm:

  • C4 sends SETNX lock.foo in order to acquire the lock

  • The crashed client C3 still holds it, so Redis will reply with 0 to C4.

  • C4 sends GET lock.foo to check if the lock expired. If it is not, it will sleep for some time and retry from the start.

  • Instead, if the lock is expired because the Unix time at lock.foo is older than the current Unix time, C4 tries to perform:

    GETSET lock.foo <current Unix timestamp + lock timeout + 1>
    
  • Because of the GETSET semantic, C4 can check if the old value stored at key is still an expired timestamp. If it is, the lock was acquired.

  • If another client, for instance C5, was faster than C4 and acquired the lock with the GETSET operation, the C4 GETSET operation will return a non expired timestamp. C4 will simply restart from the first step. Note that even if C4 set the key a bit a few seconds in the future this is not a problem.

In order to make this locking algorithm more robust, a client holding a lock should always check the timeout didn’t expire before unlocking the key with DEL because client failures can be complex, not just crashing but also blocking a lot of time against some operations and trying to issue DEL after a lot of time (when the LOCK is already held by another client).