In github actions CI with valgrind, i saw that even the fast replica
(one that wasn't paused), didn't get to complete the replication fast
enough, and ended up getting disconnected by timeout.
Additionally, due to a typo in uname, we didn't get to actually run the
CPU efficiency part of the test.
In github actions CI with valgrind, i saw that even the fast replica
(one that wasn't paused), didn't get to complete the replication fast
enough, and ended up getting disconnected by timeout.
Additionally, due to a typo in uname, we didn't get to actually run the
CPU efficiency part of the test.
1. the `dump_logs` option would have printed only logs of servers that were
spawn before the test proc started, and not ones that the test proc
started inside it.
2. when a server proc catches an exception it should normally forward the
exception upwards, specifically when it's an assertion that should be
caught by a test proc above. however, in `durable` mode, we caught all
exceptions printed them to stdout and let the code continue,
this was wrong to do for assertions, which should have still been
propagated to the test function.
3. don't bother to search for crash log to print if we printed the the
entire log anyway
4. if no crash log was found, no need to print anything (i.e. the fact it
wasn't found)
5. rename warnings_from_file to crashlog_from_file
1. the `dump_logs` option would have printed only logs of servers that were
spawn before the test proc started, and not ones that the test proc
started inside it.
2. when a server proc catches an exception it should normally forward the
exception upwards, specifically when it's an assertion that should be
caught by a test proc above. however, in `durable` mode, we caught all
exceptions printed them to stdout and let the code continue,
this was wrong to do for assertions, which should have still been
propagated to the test function.
3. don't bother to search for crash log to print if we printed the the
entire log anyway
4. if no crash log was found, no need to print anything (i.e. the fact it
wasn't found)
5. rename warnings_from_file to crashlog_from_file
Starting redis 6.0 (part of the TLS feature), diskless master uses pipe from the fork
child so that the parent is the one sending data to the replicas.
This mechanism has an issue in which a hung replica will cause the master to wait
for it to read the data sent to it forever, thus preventing the fork child from terminating
and preventing the creations of any other forks.
This PR adds a timeout mechanism, much like the ACK-based timeout,
we disconnect replicas that aren't reading the RDB file fast enough.
Starting redis 6.0 (part of the TLS feature), diskless master uses pipe from the fork
child so that the parent is the one sending data to the replicas.
This mechanism has an issue in which a hung replica will cause the master to wait
for it to read the data sent to it forever, thus preventing the fork child from terminating
and preventing the creations of any other forks.
This PR adds a timeout mechanism, much like the ACK-based timeout,
we disconnect replicas that aren't reading the RDB file fast enough.
* Modules API docs: Link API function names to their definitions
Occurrences of API functions are linked to their definition.
A function index with links to all functions is added on the bottom
of the page.
Comment blocks in module.c starting with a markdown h2 heading are
used as sections. A table of contents is generated from these
headings.
The functions names are changed from h2 to h3, since they are now
rendered as sub-headings within each section.
Existing sections in module.c are used with some minor changes.
Some documentation text is added or sligtly modified.
The markdown renderer will add IDs which may clash with our
generated IDs. By prefixing section IDs with "section-" we make
them different.
Replace double dashes with a unicode long ndash
* Modules API docs: Link API function names to their definitions
Occurrences of API functions are linked to their definition.
A function index with links to all functions is added on the bottom
of the page.
Comment blocks in module.c starting with a markdown h2 heading are
used as sections. A table of contents is generated from these
headings.
The functions names are changed from h2 to h3, since they are now
rendered as sub-headings within each section.
Existing sections in module.c are used with some minor changes.
Some documentation text is added or sligtly modified.
The markdown renderer will add IDs which may clash with our
generated IDs. By prefixing section IDs with "section-" we make
them different.
Replace double dashes with a unicode long ndash
In a code example, using RedisModule_FreeString instead of
RedisModule_Free makes it behave correctly regardless of whether
automatic memory is used or not.
In a code example, using RedisModule_FreeString instead of
RedisModule_Free makes it behave correctly regardless of whether
automatic memory is used or not.
server.client_pause_end_time is uninitialized, or actually 0, at startup,
which means this method would think the timeout was reached
and go look for paused clients.
This causes no harm since unpauseClients will not find any paused clients.
server.client_pause_end_time is uninitialized, or actually 0, at startup,
which means this method would think the timeout was reached
and go look for paused clients.
This causes no harm since unpauseClients will not find any paused clients.
The code used to decide on the next time to wake on a timer with
microsecond accuracy, but when deciding to go to sleep it used
milliseconds accuracy (with truncation), this means that it would wake
up too early, see that there's no timer to process, and go to sleep
again for 0ms again and again until the right microsecond arrived.
i.e. a timer for 100ms, would sleep for 99ms, but then do a busy loop
through the kernel in the last millisecond, triggering many calls to
beforeSleep.
The fix is to change all the logic in ae.c to work with microseconds,
which is good since most of the ae backends support micro (or even nano)
seconds. however the epoll backend, doesn't support micro, so to avoid
this problem it needs to round upwards, rather than truncate.
Issue created by the monotonic timer PR #7644 (redis 6.2)
Before that, all the timers in ae.c were in milliseconds (using
mstime), so when it requested the backend to sleep till the next timer
event, it would have worked ok.
The code used to decide on the next time to wake on a timer with
microsecond accuracy, but when deciding to go to sleep it used
milliseconds accuracy (with truncation), this means that it would wake
up too early, see that there's no timer to process, and go to sleep
again for 0ms again and again until the right microsecond arrived.
i.e. a timer for 100ms, would sleep for 99ms, but then do a busy loop
through the kernel in the last millisecond, triggering many calls to
beforeSleep.
The fix is to change all the logic in ae.c to work with microseconds,
which is good since most of the ae backends support micro (or even nano)
seconds. however the epoll backend, doesn't support micro, so to avoid
this problem it needs to round upwards, rather than truncate.
Issue created by the monotonic timer PR #7644 (redis 6.2)
Before that, all the timers in ae.c were in milliseconds (using
mstime), so when it requested the backend to sleep till the next timer
event, it would have worked ok.
Disable replica migration to avoid a race condition where the
migrated-from node turns into a replica.
Long term, this test should probably be improved to handle multiple
slots and accept such auto migrations but this is a quick fix to
stabilize the CI without completely dropping this test.
Disable replica migration to avoid a race condition where the
migrated-from node turns into a replica.
Long term, this test should probably be improved to handle multiple
slots and accept such auto migrations but this is a quick fix to
stabilize the CI without completely dropping this test.
