- add util/cformat.sh, which runs clang-format on all C files with
the default .clang-format, and on all header files with a slightly
modified version.
- use correct bracing after multi-line control statements
- stop aligning variable declarations to avoid problems with pointer
alignment, but retain aligned declarations in header files so that
struct definitions look cleaner.
- static function prototypes in C files can skip the line break after
the return type, but function prototypes in header files still have
the line break.
- don't break-before-brace in function definitions. ISC style calls
for braces on the same line when function parameters fit on a single
line, and a line break if they don't, but clang-format doesn't yet
support that distinction. one-line function definitions are about
four times more common than multi-line, so let's use the option that
deviates less.
Both clang-tidy and uncrustify chokes on statement like this:
for (...)
if (...)
break;
This commit uses a very simple semantic patch (below) to add braces around such
statements.
Semantic patch used:
@@
statement S;
expression E;
@@
while (...)
- if (E) S
+ { if (E) { S } }
@@
statement S;
expression E;
@@
for (...;...;...)
- if (E) S
+ { if (E) { S } }
@@
statement S;
expression E;
@@
if (...)
- if (E) S
+ { if (E) { S } }
Submissions to Coverity Scan should be limited to those originated from
release branches and only from a specific schedule which holds
COVERITY_SCAN_PROJECT_NAME and COVERITY_SCAN_TOKEN variables.
This job requires two CI variables to be set:
- COVERITY_SCAN_PROJECT_NAME: project name, which is associated with
the BIND branch for which this job is executed, e.g. "bind-master",
- COVERITY_SCAN_TOKEN: project token.
There was a hard limit set on number of uvreq and nmhandles
that can be allocated by a pool, but we don't handle a situation
where we can't get an uvreq. Don't limit the number at all,
let the OS deal with it.
The memory ordering in the rwlock was all wrong, I am copying excerpts
from the https://en.cppreference.com/w/c/atomic/memory_order#Relaxed_ordering
for the convenience of the reader:
Relaxed ordering
Atomic operations tagged memory_order_relaxed are not synchronization
operations; they do not impose an order among concurrent memory
accesses. They only guarantee atomicity and modification order
consistency.
Release-Acquire ordering
If an atomic store in thread A is tagged memory_order_release and an
atomic load in thread B from the same variable is tagged
memory_order_acquire, all memory writes (non-atomic and relaxed atomic)
that happened-before the atomic store from the point of view of thread
A, become visible side-effects in thread B. That is, once the atomic
load is completed, thread B is guaranteed to see everything thread A
wrote to memory.
The synchronization is established only between the threads releasing
and acquiring the same atomic variable. Other threads can see different
order of memory accesses than either or both of the synchronized
threads.
Which basically means that we had no or weak synchronization between
threads using the same variables in the rwlock structure. There should
not be a significant performance drop because the critical sections were
already protected by:
while(1) {
if (relaxed_atomic_operation) {
break;
}
LOCK(lock);
if (!relaxed_atomic_operation) {
WAIT(sem, lock);
}
UNLOCK(lock)l
}
I would add one more thing to "Don't do your own crypto, folks.":
- Also don't do your own locking, folks.
The code for specifying OpenSSL PKCS#11 engine as part of the label
(e.g. -l "pkcs11:token=..." instead of -E pkcs11 -l "token=...")
was non-functional. This commit just cleans the related code.
Also disable the semantic patch as the code needs tweaks here and there because
some destroy functions might not destroy the object and return early if the
object is still in use.
Our destroy functions usually look like this:
void
foo_destroy(foo_t **foop) {
foo_t foo = *foop;
...destroy the contents of foo...
*foop = NULL;
}
nulling the pointer should be done as soon as possible which is
not always the case. This commit adds simple semantic patch that
changes the example function to:
void
foo_destroy(foo_t **foop) {
foo_t foo = *foop;
*foop = NULL;
...destroy the contents of foo...
}
On OpenBSD, the bin/tests/system/pipelined/ans5/ans.py script does not
shut down when it is sent the SIGTERM signal. What seems to be
happening is that starting the UDP listening thread somehow makes the
accept() calls in the script's main thread uninterruptible and thus the
SIGTERM signal sent to the main thread does not get processed until a
TCP connection is established with the script's TCP socket. Work around
the issue by setting a timeout for operations performed on the script's
TCP socket, so that each accept() call in the main thread's infinite
loop returns after at most 1 second, allowing termination signals sent
to the script to be processed.
