Fixes valgrind error:
48 bytes in 1 blocks are definitely lost in loss record 196 of 373
at 0x4910D3: je_malloc (jemalloc.c:944)
by 0x42807D: zmalloc (zmalloc.c:125)
by 0x41FA0D: dictGetIterator (dict.c:543)
by 0x41FA48: dictGetSafeIterator (dict.c:555)
by 0x459B73: clusterHandleSlaveMigration (cluster.c:2776)
by 0x45BF27: clusterCron (cluster.c:3123)
by 0x423344: serverCron (redis.c:1239)
by 0x41D6CD: aeProcessEvents (ae.c:311)
by 0x41D8EA: aeMain (ae.c:455)
by 0x41A84B: main (redis.c:3832)
If array has N elements, we can't read +1 if we are already at N.
Also, we need to move elements by their storage size in the array,
not just by individual bytes.
[maybe] Fixes valgrind errors:
32 bytes in 4 blocks are definitely lost in loss record 107 of 228
at 0x80EA447: je_malloc (jemalloc.c:944)
by 0x806E59C: zrealloc (zmalloc.c:125)
by 0x80A9AFC: clusterSetMaster (cluster.c:801)
by 0x80AEDC9: clusterCommand (cluster.c:3994)
by 0x80682A5: call (redis.c:2049)
by 0x8068A20: processCommand (redis.c:2309)
by 0x8076497: processInputBuffer (networking.c:1143)
by 0x8073BAF: readQueryFromClient (networking.c:1208)
by 0x8060E98: aeProcessEvents (ae.c:412)
by 0x806123B: aeMain (ae.c:455)
by 0x806C3DB: main (redis.c:3832)
64 bytes in 8 blocks are definitely lost in loss record 143 of 228
at 0x80EA447: je_malloc (jemalloc.c:944)
by 0x806E59C: zrealloc (zmalloc.c:125)
by 0x80AAB40: clusterProcessPacket (cluster.c:801)
by 0x80A847F: clusterReadHandler (cluster.c:1975)
by 0x30000FF: ???
80 bytes in 10 blocks are definitely lost in loss record 148 of 228
at 0x80EA447: je_malloc (jemalloc.c:944)
by 0x806E59C: zrealloc (zmalloc.c:125)
by 0x80AAB40: clusterProcessPacket (cluster.c:801)
by 0x80A847F: clusterReadHandler (cluster.c:1975)
by 0x2FFFFFF: ???
Fixes valgrind error:
Syscall param write(buf) points to uninitialised byte(s)
at 0x514C35D: ??? (syscall-template.S:81)
by 0x456B81: clusterWriteHandler (cluster.c:1907)
by 0x41D596: aeProcessEvents (ae.c:416)
by 0x41D8EA: aeMain (ae.c:455)
by 0x41A84B: main (redis.c:3832)
Address 0x5f268e2 is 2,274 bytes inside a block of size 8,192 alloc'd
at 0x4932D1: je_realloc (jemalloc.c:1297)
by 0x428185: zrealloc (zmalloc.c:162)
by 0x4269E0: sdsMakeRoomFor.part.0 (sds.c:142)
by 0x426CD7: sdscatlen (sds.c:251)
by 0x4579E7: clusterSendMessage (cluster.c:1995)
by 0x45805A: clusterSendPing (cluster.c:2140)
by 0x45BB03: clusterCron (cluster.c:2944)
by 0x423344: serverCron (redis.c:1239)
by 0x41D6CD: aeProcessEvents (ae.c:311)
by 0x41D8EA: aeMain (ae.c:455)
by 0x41A84B: main (redis.c:3832)
Uninitialised value was created by a stack allocation
at 0x457810: nodeUpdateAddressIfNeeded (cluster.c:1236)
The cleanup code expects that if 'di' is not NULL, it is a valid
iterator that should be freed.
The result of this bug was a crash of the AOF rewriting process if an
error occurred after the DBs data are written and the iterator is no
longer valid.
Rationale is that when re-entering, it is likely due to Lua debugging
hooks. Returning an error will be ignored in most cases, going totally
unnoticed. With the log at least we leave a trace.
Related to issue #2302.
read() and write() return ssize_t (signed long), not int.
For other offsets, we can use the unsigned size_t type instead
of a signed offset (since our replication offsets and buffer
positions are never negative).
It's possible large objects could be larger than 'int', so let's
upgrade all size counters to ssize_t.
This also fixes rdbSaveObject serialized bytes calculation.
Since entire serializations of data structures can be large,
so we don't want to limit their calculated size to a 32 bit signed max.
This commit increases object size calculation and
cascades the change back up to serializedlength printing.
Before:
127.0.0.1:6379> debug object hihihi
... encoding:quicklist serializedlength:-2147483559 ...
After:
127.0.0.1:6379> debug object hihihi
... encoding:quicklist serializedlength:2147483737 ...
In order to avoid that misconfigured cluster nodes at some time may
force an IP update on other nodes, it is required that nodes update
their own address only on MEET messages. However it does not make sense
to do this the first time a node is contacted and yet does not have an
IP, we just risk that myself->ip remains not assigned if there are
messages lost or cluster creation procedures that don't make sure
everybody is targeted by at least one incoming MEET message.
Also fix the logging of the IP switch avoiding the :-1 tail.
Also explicitly set version to 0, add a protocol version define, improve
comments in the gossip structure.
Note that the structure layout is the same after the change, we are just
making the padding explicit with an additional not used 16 bits field.
So this commit is still able to talk with the previous versions of
cluster nodes.
Valgrind checks that the buffers we transfer via syscalls are all
composed of bytes actually initialized. This is useful, it makes we able
to avoid leaking informations in non initialized parts fo messages
transferred to other hosts. This commit fixes one of such issues.
Can't be initialized by resetManualFailover() since it's actual state
the function uses, so we need to initialize it at startup time. Not
really a bug in practical terms, but showed up into valgrind and is not
technically correct anyway.
Adds configuration option 'supervised [no | upstart | systemd | auto]'
Also removed 'bzero' from the previous implementation because it's 2015.
(We could actually statically initialize those structs, but clang
throws an invalid warning when we try, so it looks bad even though it
isn't bad.)
Fixes#2264
Previously, Redis only wrote the pid file if
it was daemonizing, but many times it's useful to have
the pid written out even if you're in the foreground.
Some background for this is:
I usually run redis via daemontools. That entails running
redis-server on the foreground. Given that, I'd also want
redis-server to create a pidfile so other processes (e.g. nagios)
can run checks for that.
Closes#463
This commit introduces a new RDB data type called 'aux'. It is used in
order to insert inside an RDB file key-value pairs that may serve
different needs, without breaking backward compatibility when new
informations are embedded inside an RDB file. The contract between Redis
versions is to ignore unknown aux fields when encountered.
Aux fields can be used in order to:
1. Augment the RDB file with info like version of Redis that created the
RDB file, creation time, used memory while the RDB was created, and so
forth.
2. Add state about Redis inside the RDB file that we need to reload
later: replication offset, previos master run ID, in order to improve
failovers safety and allow partial resynchronization after a slave
restart.
3. Anything that we may want to add to RDB files without breaking the
ability of past versions of Redis to load the file.
The new opcode is an hint about the size of the dataset (keys and number
of expires) we are going to load for a given Redis database inside the
RDB file. Since hash tables are resized accordingly ASAP, useless
rehashing is avoided, speeding up load times significantly, in the order
of ~ 20% or more for larger data sets.
Related issue: #1719
