The 'filter-aaaa', 'filter-aaaa-on-v4', and 'filter-aaaa-on-v6' options
are replaced by the filter-aaaa plugin. This plugin was introduced in
9.13.5 and so it is safe to remove the named.conf options.
These options were ancient or made obsolete a long time ago, it is
safe to remove them.
Also stop printing ancient options, they should be treated the same as
unknown options.
Removed options: lwres, geoip-use-ecs, sit-secret, use-ixfr,
acache-cleaning-interval, acache-enable, additional-from-auth,
additional-from-cache, allow-v6-synthesis, dnssec-enable,
max-acache-size, nosit-udp-size, queryport-pool-ports,
queryport-pool-updateinterval, request-sit, use-queryport-pool, and
support-ixfr.
The 'new default' option was introduced in 2002 to signal that a
default option had changed its default value, in this specific case
the value for 'auth-nxdomain'. However, this default has been unchanged
for 18 years now, and logging that the default has changed does not
have significant value nowadays.
This is also a good example that the clause flag 'new default' is
broken: it is easy to get out of date.
It is also easy to forget, because we have changed the default value
for 'max-stale-ttl' and haven't been flagging it with 'new default'
Also, if the operator cares for a specific value it should set it
explicitly. Using the default is telling the software: use whatever
you think is best, and this may change over time. Default value
changes should be mentioned in the release note, but do not require
further special treatment.
The clause flags 'not implented' and 'not implemented yet' are the
same as 'obsoleted' when it comes to behavior. These options will
now be treated similar as obsoleted (the idea being that if an
option is implemented it should be functional).
The new options for DoT are new options and rather than flagging them
obsolete, they should have been flagged as experimental, signalling
that these options are subject to change in the future.
It is possible to have two threads destroying an rbtdb at the same
time when detachnode() executes and removes the last reference to
a node between exiting being set to true for the node and testing
if the references are zero in maybe_free_rbtdb(). Move NODE_UNLOCK()
to after checking if references is zero to prevent detachnode()
changing the reference count too early.
While fixing #2359, 'report()' was changed so that it would print the
newline.
Newlines were missing from the output of 'dnssec-signzone'
and 'dnssec-verify' because change
664b8f04f5 moved the printing from
newlines to the library.
This had to be reverted because this also would print redundant
newlines in logfiles.
While doing the revert, some newlines in 'lib/dns/zoneverify.c'
were left in place, now making 'dnssec-signzone' and 'dnssec-verify'
print too many newlines.
This commit removes those newlines, so that the output looks nice
again.
The keymgr prevented zones from going to insecure mode. If we
have a policy with an empty key list this is a signal that the zone
wants to go back to insecure mode. In this case allow one extra state
transition to be valid when checking for DNSSEC safety.
Configure "none" as a builtin policy. Change the 'cfg_kasp_fromconfig'
api so that the 'name' will determine what policy needs to be
configured.
When transitioning a zone from secure to insecure, there will be
cases when a zone with no DNSSEC policy (dnssec-policy none) should
be using KASP. When there are key state files available, this is an
indication that the zone once was DNSSEC signed but is reconfigured
to become insecure.
If we would not run the keymgr, named would abruptly remove the
DNSSEC records from the zone, making the zone bogus. Therefore,
change the code such that a zone will use kasp if there is a valid
dnssec-policy configured, or if there are state files available.
When using the `unixtime` or `date` method to update the SOA serial,
`named` and `dnssec-signzone` would silently fallback to `increment`
method to prevent the new serial number to be smaller than the old
serial number (using the serial number arithmetics). Add a warning
message when such fallback happens.
On Windows, we were limiting the number of listening children to just 1,
but we were then iterating on mgr->nworkers. That lead to scheduling
more async_*listen() than actually allocated and out-of-bound read-write
operation on the heap.
When we were in nmthread, the isc__nm_async_<proto>connect() function
executes in the same thread as the isc__nm_<proto>connect() and on a
failure, it would block indefinitely because the failure branch was
setting sock->active to false before the condition around the wait had a
chance to skip the WAIT().
This also fixes the zero system test being stuck on FreeBSD 11, so we
re-enable the test in the commit.
On FreeBSD, the option to configure connection timeout is called
TCP_KEEPINIT, use it to configure the connection timeout there.
This also fixes the dangling socket problems in the unit test, so
re-enable them.
On platforms without load-balancing socket all the queries would be
handle by a single thread. Currently, the support for load-balanced
sockets is present in Linux with SO_REUSEPORT and FreeBSD 12 with
SO_REUSEPORT_LB.
This commit adds workaround for such platforms that:
1. setups single shared listening socket for all listening nmthreads for
UDP, TCP and TCPDNS netmgr transports
2. Calls uv_udp_bind/uv_tcp_bind on the underlying socket just once and
for rest of the nmthreads only copy the internal libuv flags (should
be just UV_HANDLE_BOUND and optionally UV_HANDLE_IPV6).
3. start reading on UDP socket or listening on TCP socket
The load distribution among the nmthreads is uneven, but it's still
better than utilizing just one thread for processing all the incoming
queries
On FreeBSD, the stack is destroyed more aggressively than on Linux and
that revealed a bug where we were allocating the 16-bit len for the
TCPDNS message on the stack and the buffer got garbled before the
uv_write() sendback was executed. Now, the len is part of the uvreq, so
we can safely pass it to the uv_write() as the req gets destroyed after
the sendcb is executed.
On Windows, WSAStartup() needs to be called to initialize Winsock before
any sockets are created or else socket() calls will return error code
10093 (WSANOTINITIALISED). Since BIND's Network Manager is intended to
work as a reusable networking library, it should take care of calling
WSAStartup() - and its cleanup counterpart, WSACleanup() - itself rather
than relying on external code to do it. Add the necessary WSAStartup()
and WSACleanup() calls to isc_nm_start() and isc_nm_destroy(),
respectively.
uv_wrap.h is included in tcp_test.c and udp_test.c and therefore should
be listed in lib/isc/tests/Makefile.am, otherwise unit test run from
distribution tarball fails to compile:
tcp_test.c:37:10: fatal error: uv_wrap.h: No such file or directory
#include "uv_wrap.h"
^~~~~~~~~~~
udp_test.c:37:10: fatal error: uv_wrap.h: No such file or directory
#include "uv_wrap.h"
^~~~~~~~~~~
After turning the users callbacks to be asynchronous, there was a
visible performance drop. This commit prevents the unnecessary
allocations while keeping the code paths same for both asynchronous and
synchronous calls.
The same change was done to the isc__nm_udp_{read,send} as those two
functions are in the hot path.
The new netmgr tests are not-yet fine-tuned for non-Linux platforms.
Disable them now, so we can move forward and fix the tests of *BSD
in the next iteration.
This commit will get reverted when we add support for netmgr
multi-threading.
The isc/util.h header redefine the DbC checks (REQUIRE, INSIST, ...) to
be cmocka "fake" assertions. However that means that cmocka.h needs to
be included after UNIT_TESTING is defined but before isc/util.h is
included. Because isc/util.h is included in most of the project headers
this means that the sequence MUST be:
#define UNIT_TESTING
#include <cmocka.h>
#include <isc/_anything_.h>
See !2204 for other header requirements for including cmocka.h.
This is a part of the works that intends to make the netmgr stable,
testable, maintainable and tested. It contains a numerous changes to
the netmgr code and unfortunately, it was not possible to split this
into smaller chunks as the work here needs to be committed as a complete
works.
NOTE: There's a quite a lot of duplicated code between udp.c, tcp.c and
tcpdns.c and it should be a subject to refactoring in the future.
The changes that are included in this commit are listed here
(extensively, but not exclusively):
* The netmgr_test unit test was split into individual tests (udp_test,
tcp_test, tcpdns_test and newly added tcp_quota_test)
* The udp_test and tcp_test has been extended to allow programatic
failures from the libuv API. Unfortunately, we can't use cmocka
mock() and will_return(), so we emulate the behaviour with #define and
including the netmgr/{udp,tcp}.c source file directly.
* The netievents that we put on the nm queue have variable number of
members, out of these the isc_nmsocket_t and isc_nmhandle_t always
needs to be attached before enqueueing the netievent_<foo> and
detached after we have called the isc_nm_async_<foo> to ensure that
the socket (handle) doesn't disappear between scheduling the event and
actually executing the event.
* Cancelling the in-flight TCP connection using libuv requires to call
uv_close() on the original uv_tcp_t handle which just breaks too many
assumptions we have in the netmgr code. Instead of using uv_timer for
TCP connection timeouts, we use platform specific socket option.
* Fix the synchronization between {nm,async}_{listentcp,tcpconnect}
When isc_nm_listentcp() or isc_nm_tcpconnect() is called it was
waiting for socket to either end up with error (that path was fine) or
to be listening or connected using condition variable and mutex.
Several things could happen:
0. everything is ok
1. the waiting thread would miss the SIGNAL() - because the enqueued
event would be processed faster than we could start WAIT()ing.
In case the operation would end up with error, it would be ok, as
the error variable would be unchanged.
2. the waiting thread miss the sock->{connected,listening} = `true`
would be set to `false` in the tcp_{listen,connect}close_cb() as
the connection would be so short lived that the socket would be
closed before we could even start WAIT()ing
* The tcpdns has been converted to using libuv directly. Previously,
the tcpdns protocol used tcp protocol from netmgr, this proved to be
very complicated to understand, fix and make changes to. The new
tcpdns protocol is modeled in a similar way how tcp netmgr protocol.
Closes: #2194, #2283, #2318, #2266, #2034, #1920
* The tcp and tcpdns is now not using isc_uv_import/isc_uv_export to
pass accepted TCP sockets between netthreads, but instead (similar to
UDP) uses per netthread uv_loop listener. This greatly reduces the
complexity as the socket is always run in the associated nm and uv
loops, and we are also not touching the libuv internals.
There's an unfortunate side effect though, the new code requires
support for load-balanced sockets from the operating system for both
UDP and TCP (see #2137). If the operating system doesn't support the
load balanced sockets (either SO_REUSEPORT on Linux or SO_REUSEPORT_LB
on FreeBSD 12+), the number of netthreads is limited to 1.
* The netmgr has now two debugging #ifdefs:
1. Already existing NETMGR_TRACE prints any dangling nmsockets and
nmhandles before triggering assertion failure. This options would
reduce performance when enabled, but in theory, it could be enabled
on low-performance systems.
2. New NETMGR_TRACE_VERBOSE option has been added that enables
extensive netmgr logging that allows the software engineer to
precisely track any attach/detach operations on the nmsockets and
nmhandles. This is not suitable for any kind of production
machine, only for debugging.
* The tlsdns netmgr protocol has been split from the tcpdns and it still
uses the old method of stacking the netmgr boxes on top of each other.
We will have to refactor the tlsdns netmgr protocol to use the same
approach - build the stack using only libuv and openssl.
* Limit but not assert the tcp buffer size in tcp_alloc_cb
Closes: #2061
Since the queries sent towards root and TLD servers are now included in
the count (as a result of the fix for CVE-2020-8616),
"max-recursion-queries" has a higher chance of being exceeded by
non-attack queries. Increase its default value from 75 to 100.
Fallback to TCP when we have already seen a DNS COOKIE response
from the given address and don't have one in this UDP response. This
could be a server that has turned off DNS COOKIE support, a
misconfigured anycast server with partial DNS COOKIE support, or a
spoofed response. Falling back to TCP is the correct behaviour in
all 3 cases.
Return value of dns_db_getservestalerefresh() and
dns_db_getservestalettl() functions were previously unhandled.
This commit purposefully ignore those return values since there is
no side effect if those results are != ISC_R_SUCCESS, it also supress
Coverity warnings.
Make sure pointer checks in unit tests use cmocka assertion macros
dedicated for use with pointers instead of those dedicated for use with
integers or booleans.
Add unit test to ensure the right NSEC3PARAM event is scheduled in
'dns_zone_setnsec3param()'. To avoid scheduling and managing actual
tasks, split up the 'dns_zone_setnsec3param()' function in two parts:
1. 'dns__zone_lookup_nsec3param()' that will check if the requested
NSEC3 parameters already exist, and if a new salt needs to be
generated.
2. The actual scheduling of the new NSEC3PARAM event (if needed).
When generating a new salt, compare it with the previous NSEC3
paremeters to ensure the new parameters are different from the
previous ones.
This moves the salt generation call from 'bin/named/*.s' to
'lib/dns/zone.c'. When setting new NSEC3 parameters, you can set a new
function parameter 'resalt' to enforce a new salt to be generated. A
new salt will also be generated if 'salt' is set to NULL.
Logging salt with zone context can now be done with 'dnssec_log',
removing the need for 'dns_nsec3_log_salt'.
