Instead of using isc_async_run() when closing StreamDNS handle, add
isc_job_t member to the isc_nmhandle_t structure and use isc_job_run()
to avoid allocation/deallocation on the StreamDNS hot-path.
If the quota callback is called on a thread matching the socket, call
the TCP accept function directly instead of using isc_async_run() which
allocates-deallocates memory.
The isc_tid() function is often called on the hot-path and it's the only
function is to return thread_local variable, make the isc_tid() function
a header-only to save several function calls during query-response
processing.
Only attempt to digest 'in' if it is non NULL. This will prevent
false positives about NULL pointer dereferences against 'in' and
should also speed up the processing.
This commit optimises isc_dnsstream_assembler_t in such a way that
memory copying and reallocation are avoided when receiving one or more
complete DNS messages at once. We try to handle the data from the
messages directly, without storing them in an intermediate memory
buffer.
The `isc_histosummary_t` functions were written in the early days of
`hg64` and carried over when I brought `hg64` into BIND. They were
intended to be useful for graphing cumulative frequency distributions
and the like, but in practice whatever draws charts is better off with
a raw histogram export. Especially because of the poor performance of
the old functions.
The replacement `isc_histo_quantiles()` function is intended for
providing a few quantile values in BIND's stats channel, when the user
does not want the full histogram. Unlike the old functions, the caller
provides all the query fractions up-front, so that the values can be
found in a single scan instead of a scan per value. The scan is from
larger values to smaller, since larger quantiles are usually more
interesting, so the scan can bail out early.
Although an `isc_histo_t` is thread-safe, it can suffer
from cache contention under heavy load. To avoid this,
an `isc_histomulti_t` contains a histogram per thread,
so updates are local and low-contention.
This is an adaptation of my `hg64` experiments for use in BIND.
As well as renaming everything according to ISC style, I have
written some more extensive tests that ensure the edge cases are
correct and the fenceposts are in the right places.
I have added utility functions for working with precision in terms of
decimal significant figures as well as this code's native binary.
Cleanup the remnants of MS Compiler bits from <isc/refcount.h>, printing
the information in named/main.c, and cleanup some comments about Windows
that no longer apply.
The bits in picohttpparser.{h,c} were left out, because it's not our
code.
OPENSSL_cleanup is supposed to free all remaining memory in use
provided the application has cleaned up properly. This is not the
case on some operating systems. Silently ignore memory that is
freed after OPENSSL_cleanup has been called.
When fatal is called we may be holding memory allocated by OpenSSL.
This may result in the reference count for the FIPS provider not
going to zero and the shared library not being unloaded during
OPENSSL_cleanup. When the shared library is ultimately unloaded,
when all remaining dynamically loaded libraries are freed, we have
already destroyed the memory context we where using to track memory
leaks / late frees resulting in INSIST being called.
Disable triggering the INSIST when fatal has being called.
The `isc_trampoline` module had a lot of machinery to support stable
thread IDs for use by hazard pointers. But the hazard pointer code
is gone, and the `isc_loop` module now has its own per-loop thread
IDs.
The trampoline machinery seems over-complicated for its remaining
tasks, so move the per-thread initialization into `isc/thread.c`,
and delete the rest.
The isc_time_now() and isc_time_now_hires() were used inconsistently
through the code - either with status check, or without status check,
or via TIME_NOW() macro with RUNTIME_CHECK() on failure.
Refactor the isc_time_now() and isc_time_now_hires() to always fail when
getting current time has failed, and return the isc_time_t value as
return value instead of passing the pointer to result in the argument.
The isc_fsaccess API was created to hide the implementation details
between POSIX and Windows APIs. As we are not supporting the Windows
APIs anymore, it's better to drop this API used in the DST part.
Moreover, the isc_fsaccess was setting the permissions in an insecure
manner - it operated on the filename, and not on the file descriptor
which can lead to all kind of attacks if unpriviledged user has read (or
even worse write) access to key directory.
Replace the code that operates on the private keys with code that uses
mkstemp(), fchmod() and atomic rename() at the end, so at no time the
private key files have insecure permissions.
As it's impossible to get the current umask without modifying it at the
same time, initialize the current umask at the program start and keep
the loaded value internally. Add isc_os_umask() function to access the
starttime umask.
This is a simple replacement using the semantic patch from the previous
commit and as added bonus, one removal of previously undetected unused
variable in named/server.c.
When the loopmanager is shutting down following a signal,
`dig` and `host` should stop cleanly. Before this commit
they were oblivious to ISC_R_SHUTTINGDOWN.
The `isc_signal` callbacks now report this kind of mistake
with a stack backtrace.
Instead of marking the unused entities with UNUSED(x) macro in the
function body, use a `ISC_ATTR_UNUSED` attribute macro that expans to
C23 [[maybe_unused]] or __attribute__((__unused__)) as fallback.
Use C23 attribute styles if available:
* Add new ISC_ATTR_UNUSED attribute macro that either expands to C23's
[[maybe_unused]] or __attribute__((__unused__));
* Add default expansion of the `noreturn` to [[noreturn]] if available;
* Move the FALLTHROUGH from <isc/util.h> to <isc/attributes.h>
With the changes to tls_try_handshake() made in
2846888c57 there are some incorrect
INSISTS() related to handshake handling which better to be removed.
When accepting a TCP connection in the higher layers (tlsstream,
streamdns, and http) attach to the socket the connection was accepted
on, and use this socket instead of the parent listening socket.
This has an advantage - accessing the sock->listener now doesn't break
the thread boundaries, so we can properly check whether the socket is
being closed without requiring .closing member to be atomic_bool.
The last atomic_bool variable sock->active was converted to non-atomic
bool by properly handling the listening socket case where we were
checking parent socket instead of children sockets.
This is no longer necessary as we properly set the .active to false on
the children sockets.
Additionally, cleanup the .rchildren - the atomic variable was used for
mutex+condition to block until all children were listening, but that's
now being handled by a barrier.
Finally, just remove dead .self and .active_child_connections members of
the netmgr socket.
Now that everything runs on their own loop and we don't cross the thread
boundaries (with few exceptions), most of the atomic_bool variables used
to track the socket state have been unatomicized because they are always
accessed from the matching thread.
The remaining few have been relaxed: a) the sock->active is now using
acquire/release memory ordering; b) the various global limits are now
using relaxed memory ordering - we don't really care about the
synchronization for those.
Previously, isc_job_run() could have been used to run the job on the
current loop and the isc_job_run() would take care of allocating and
deallocating the job. After the change in this MR, the isc_job_run()
is more complicated to use, so we introduce the isc_async_current()
macro to suplement isc_async_run() when we need to run the job on the
current loop.
Change the isc_job_run() to not-make any allocations. The caller must
make sure that it allocates isc_job_t - usually as part of the argument
passed to the callback.
For simple jobs, using isc_async_run() is advised as it allocates its
own separate isc_job_t.
Change the isc__nm_uvreq_t to have the idle callback as a separate
member as we always need to use it to properly close the uvreq.
Slightly refactor uvreq_put and uvreq_get to remove the unneeded
arguments - in uvreq_get(), we always use sock->worker, and in
uvreq_put, we always use req->sock, so there's not reason to pass those
extra arguments.
Instead of using isc_job_run() that's quite heavy as it allocates memory
for every new job, add uv_idle_t to uvreq union, and use uv_idle API
directly to execute the connect/read/send callback without any
additional allocations.
Put the comment back, so it's more obvious that we are only restarting
timer when there's a last handle attached to the socket; there has to be
always at least one.
It's sometimes helpful to get a quick idea of the call stack when
debugging. This change factors out the backtrace logging from named's
fatal error handler so that it's easy to use in other places too.
The isc_nm_httpconnect() would succeed even if the netmgr would be
already shuttingdown. This has been fixed and the unit test has been
updated to cope with fact that the handle would be NULL when
isc_nm_httpconnect() returns with an error.
when isc_nm_listenstreamdns() is called with a local port of 0,
a random port is chosen. call uv_getsockname() to determine what
the port is as soon as the socket is bound, and add a function
isc_nmsocket_getaddr() to retrieve it, so that the caller can
connect to the listening socket. this will be used in cases
where the same process is acting as both client and server.
add a public function ns_interface_create() allowing the caller
to set up a listening interface directly without having to set
up listen-on and scan network interfaces.
Simplify the stopping of the generic socket children by using the
isc_async API from the loopmgr instead of using the asychronous
netievent mechanism in the netmgr.
Simplify the setting of the TLS contexts by using the isc_async API
from the loopmgr instead of using the asychronous netievent mechanism in
the netmgr.
Simplify the canceling of the StreamDNS socket by using the isc_async API
from the loopmgr instead of using the asychronous netievent mechanism in
the netmgr.
Simplify the reading from the StreamDNS socket by using the isc_async API
from the loopmgr instead of using the asychronous netievent mechanism in
the netmgr.
Simplify the setting of the DoH endpoints by using the isc_async API
from the loopmgr instead of using the asychronous netievent mechanism in
the netmgr.
