the corrupt-dump-fuzzer test found a case where an access to a corrupt
stream would have caused accessing to uninitialized memory.
now it'll panic instead.
The issue was that there was a stream that says it has more than 0
records, but looking for the max ID came back empty handed.
p.s. when sanitize-dump-payload is used, this corruption is detected,
and the RESTORE command is gracefully rejected.
the corrupt-dump-fuzzer test found a case where an access to a corrupt
stream would have caused accessing to uninitialized memory.
now it'll panic instead.
The issue was that there was a stream that says it has more than 0
records, but looking for the max ID came back empty handed.
p.s. when sanitize-dump-payload is used, this corruption is detected,
and the RESTORE command is gracefully rejected.
We sometimes see the crash report saying we were killed by a random
process even in cases where the crash was spontanius in redis.
for instance, crashes found by the corrupt-dump test.
It looks like this si_pid is sometimes left uninitialized, and a good
way to tell if the crash originated in redis or trigged by outside is to
look at si_code, real signal codes are always > 0, and ones generated by
kill are have si_code of 0 or below.
We sometimes see the crash report saying we were killed by a random
process even in cases where the crash was spontanius in redis.
for instance, crashes found by the corrupt-dump test.
It looks like this si_pid is sometimes left uninitialized, and a good
way to tell if the crash originated in redis or trigged by outside is to
look at si_code, real signal codes are always > 0, and ones generated by
kill are have si_code of 0 or below.
Reading CoW from /proc/<pid>/smaps can be slow with large processes on
some platforms.
This measures the time it takes to read CoW info and limits the duty
cycle of future updates to roughly 1/100.
As current_cow_size no longer represnets a current, fixed interval value
there is also a new current_cow_size_age field that provides information
about the age of the size value, in seconds.
Reading CoW from /proc/<pid>/smaps can be slow with large processes on
some platforms.
This measures the time it takes to read CoW info and limits the duty
cycle of future updates to roughly 1/100.
As current_cow_size no longer represnets a current, fixed interval value
there is also a new current_cow_size_age field that provides information
about the age of the size value, in seconds.
Since redis 6.2, redis immediately tries to connect to the master, not
waiting for replication cron.
in the slow freebsd CI, this test failed and master_link_status was
already "up" when INFO was called.
Since redis 6.2, redis immediately tries to connect to the master, not
waiting for replication cron.
in the slow freebsd CI, this test failed and master_link_status was
already "up" when INFO was called.
