Add a test case to check for lingering TCP sockets stuck in the
CLOSE_WAIT state. This can happen if a client sends some garbage after
its first query.
The system test runs the reproducer script and then sends another TCP
query to the resolver. The resolver is configured to allow one TCP
client only. If BIND has its TCP socket stuck in CLOSE_WAIT, it does
not have the resources available to answer the second query.
Note: A better test would be to check if the named daemon does not
have a TCP socket stuck in CLOSE_WAIT for example with netstat. When
running this test locally you can examine named with netstat manually.
But since netstat is platform specific it is not a good candidate to do
this as a system test.
If you, if you could return, don't let it burn.
Do you have to let it linger?
- Cranberries
This allows Gitlab to show nice summary for individual tests/test
directories and to expose the results in Gitlab API for consumption
elsewhere.
A catch: As of Gitlab 14.7.7, the detailed results are stored
only in artifacts and thus expire. All consumers (including API) need
to be "fast enough" to get the data before they disappear.
This also forces us to always store the artifacts intead of storing them
only on failure.
There are a couple of problems with dns_request_createvia(): a UDP
retry count of zero means unlimited retries (it should mean no
retries), and the overall request timeout is not enforced. The
combination of these bugs means that requests can be retried forever.
This change alters calls to dns_request_createvia() to avoid the
infinite retry bug by providing an explicit retry count. Previously,
the calls specified infinite retries and relied on the limit implied
by the overall request timeout and the UDP timeout (which did not work
because the overall timeout is not enforced). The `udpretries`
argument is also changed to be the number of retries; previously, zero
was interpreted as infinity because of an underflow to UINT_MAX, which
appeared to be a mistake. And `mdig` is updated to match the change in
retry accounting.
The bug could be triggered by zone maintenance queries, including
NOTIFY messages, DS parental checks, refresh SOA queries and stub zone
nameserver lookups. It could also occur with `nsupdate -r 0`.
(But `mdig` had its own code to avoid the bug.)
Implement reference counting for TLS contexts, Resolve#3122 DoT stops working after "rndc reconfigure" when running named as non-root
Closes#3122
See merge request isc-projects/bind9!6087
This commit makes use of isc_nmsocket_set_tlsctx(). Now, instead of
recreating TLS-enabled listeners (including the underlying TCP
listener sockets), only the TLS context in use is replaced.
This commit adds isc_nmsocket_set_tlsctx() - an asynchronous function
that replaces the TLS context within a given TLS-enabled listener
socket object. It is based on the newly added reference counting
functionality.
The intention of adding this function is to add functionality to
replace a TLS context without recreating the whole socket object,
including the underlying TCP listener socket, as a BIND process might
not have enough permissions to re-create it fully on reconfiguration.
The implementation is done on top of the reference counting
functionality found in OpenSSL/LibreSSL, which allows for avoiding
wrapping the object.
Adding this function allows using reference counting for TLS contexts
in BIND 9's codebase.
After some back and forth, it was decidede to match the configuration
option with unbound ("so-reuseport"), PowerDNS ("reuseport") and/or
nginx ("reuseport").
as far as I can determine the order of operations is not important.
*** CID 351372: Concurrent data access violations (ATOMICITY)
/lib/isc/timer.c: 227 in timer_purge()
221 LOCK(&timer->lock);
222 if (!purged) {
223 /*
224 * The event has already been executed, but not
225 * yet destroyed.
226 */
>>> CID 351372: Concurrent data access violations (ATOMICITY)
>>> Using an unreliable value of "event" inside the second locked section. If the data that "event" depends on was changed by another thread, this use might be incorrect.
227 timerevent_unlink(timer, event);
228 }
229 }
230 }
231
232 void
*** CID 351371: Null pointer dereferences (REVERSE_INULL)
/lib/dns/adb.c: 2615 in dns_adb_createfind()
2609 /*
2610 * Copy out error flags from the name structure into the find.
2611 */
2612 find->result_v4 = find_err_map[adbname->fetch_err];
2613 find->result_v6 = find_err_map[adbname->fetch6_err];
2614
>>> CID 351371: Null pointer dereferences (REVERSE_INULL)
>>> Null-checking "find" suggests that it may be null, but it has already been dereferenced on all paths leading to the check.
2615 if (find != NULL) {
2616 if (want_event) {
2617 INSIST((find->flags & DNS_ADBFIND_ADDRESSMASK) != 0);
2618 isc_task_attach(task, &(isc_task_t *){ NULL });
2619 find->event.ev_sender = task;
2620 find->event.ev_action = action;
The error code path handling the `ISC_R_CANCELED` code lacks a
`clear_current_lookup()` call, without which dig hangs indefinitely
when handling the error.
Add the missing call to account for all references of the lookup so
it can be destroyed.
In `send_udp()` and `launch_next_query()` functions, when calling
`dighost_printmessage()` to print detailed information about the
sent query, dig always prints the data of the first query in the
lookup's queries list.
The first query in the list can be already finished, having its handles
freed, and accessing this information results in assertion failure.
Print the current query's information instead.
Previously, HAVE_SO_REUSEPORT_LB has been defined only in the private
netmgr-int.h header file, making the configuration of load balanced
sockets inoperable.
Move the missing HAVE_SO_REUSEPORT_LB define the isc/netmgr.h and add
missing isc_nm_getloadbalancesockets() implementation.
Previously, the option to enable kernel load balancing of the sockets
was always enabled when supported by the operating system (SO_REUSEPORT
on Linux and SO_REUSEPORT_LB on FreeBSD).
It was reported that in scenarios where the networking threads are also
responsible for processing long-running tasks (like RPZ processing, CATZ
processing or large zone transfers), this could lead to intermitten
brownouts for some clients, because the thread assigned by the operating
system might be busy. In such scenarious, the overall performance would
be better served by threads competing over the sockets because the idle
threads can pick up the incoming traffic.
Add new configuration option (`load-balance-sockets`) to allow enabling
or disabling the load balancing of the sockets.
Previously, the RPZ updates ran quantized on the main nm_worker loops.
As the quantum was set to 1024, this might lead to service
interruptions when large RPZ update was processed.
Change the RPZ update process to run as the offloaded work. The update
and cleanup loops were refactored to do as little locking of the
maintenance lock as possible for the shortest periods of time and the db
iterator is being paused for every iteration, so we don't hold the rbtdb
tree lock for prolonged periods of time.
Previously dns_rpz_add() were passed dns_rpz_zones_t and index to .zones
array. Because we actually attach to dns_rpz_zone_t, we should be using
the local pointer instead of passing the index and "finding" the
dns_rpz_zone_t again.
Additionally, dns_rpz_add() and dns_rpz_delete() were used only inside
rpz.c, so make them static.
Do a general cleanup of lib/dns/rpz.c style:
* Removed deprecated and unused functions
* Unified dns_rpz_zone_t naming to rpz
* Unified dns_rpz_zones_t naming to rpzs
* Add and use rpz_attach() and rpz_attach_rpzs() functions
* Shuffled variables to be more local (cppcheck cleanup)
