Instead of relying on hash table search when using the keys, implement a
proper reference counting in dns_keyfileio_t objects, and attach/detach
the objects to the zone.
Due to off-by-one error in zonemgr_keymgmt_delete, unused key file IO
lock objects were never freed and they were kept until the server
shutdown. Adjust the returned value by -1 to accomodate the fact that
the atomic_fetch_*() functions return the value before the operation and
not current value after the operation.
dns_db_updatenotify_unregister needed to be called earlier to ensure
that listener->onupdate_arg always points to a valid object. The
existing lazy cleanup in rbtdb_free did not ensure that.
The mechanism for associating a worker task to a database now
uses loops rather than tasks.
For this reason, the parameters to dns_cache_create() have been
updated to take a loop manager rather than a task manager.
The "final reference detached" message was meant to be DEBUG(1), but was
instead kept at INFO level. Move it to the DEBUG(1) logging level, so
it's not printed under normal operations.
Despite the RFC says that the NSEC3PARAM is not something that is
intended for the resolver to be cached, and thus the TTL of 0 is most
logical, a zero TTL RRset can be abused by bad actors.
Change the default to SOA MINIMUM.
The zone_refreshkeys() could run before the zone_shutdown(), but after
the last .erefs has been "detached" causing assertion failure when doing
dns_zone_attach(). Remove the use of .erefs (dns_zone_attach/detach)
and replace it with using the .irefs and additional checks whether the
zone is exiting in the callbacks.
There was an exception for dnssec-policy that allowed DNSSEC in the
unsigned version of the zone. This however causes a crash if the
zone switches from dynamic to inline-signing in the case of NSEC3,
because we are now trying to add an NSEC3 record to a non-NSEC3 node.
This is because BIND expects none of the records in the unsigned
version of the zone to be NSEC3.
Remove the exception for dnssec-policy when copying non DNSSEC
records, but do allow for DNSKEY as this may be a published DNSKEY
from a different provider.
When named starts it creates an empty KEYDATA record in the managed-keys
zone as a placeholder, then schedules a key refresh. If key refresh
fails for some reason (e.g. connectivity problems), named will load the
placeholder key into secroots as a trusted key during the next startup,
which will break the chain of trust, and named will never recover from
that state until managed-keys.bind and managed-keys.bind.jnl files are
manually deleted before (re)starting named again.
Before calling load_secroots(), check that we are not dealing with a
placeholder.
Because dns_resolver_createfetch() locks the view, it was necessary
to unlock the zone in zone_refreshkeys() before calling it in order
to maintain the lock order, and relock afterward. this permitted a race
with dns_zone_synckeyzone().
This commit moves the call to dns_resolver_createfetch() into a separate
function which is called asynchronously after the zone has been
unlocked.
The keyfetch object now attaches to the zone to ensure that
it won't be shut down before the asynchronous call completes.
This necessitated refactoring dns_zone_detach() so it always runs
unlocked. For managed zones it now schedules zone_shutdown() to
run asynchronously, and for unmanaged zones, it requires the last
dns_zone_detach() to be run without loopmgr running.
Instead of doing incremental zone loading with fixed quantum - 100
loaded lines per event, move the zone loading process to the offloaded
libuv threads using isc_work_enqueue() API.
This has the advantage that the thread scheduling is given back to the
operating system that understands blocking operations, and the zone
loading operation doesn't block the networking threads directly.
Incremental file loads now use loopmgr events instead of task events.
The dns_master_loadstreaminc(), _loadbufferinc(), _loadlexer() and
_loadlexerinc() functions were not used in BIND, and have been removed.
The wrong tls configuration was picked here. It should be of the
primary that is selected by forward->which, not zone->curprimary.
This bug may cause BIND to select the wrong primary when retrieving
the TLS settings, or cause a crash in case the wrongly selected primary
has no TLS settings.
This log happens when BIND checks the parental-agents if the DS has
been published. But if you don't have parental-agents set up, the list
of keys to check will be empty and the result will be ISC_R_NOTFOUND.
This is not an error, so change the log level to debug in this case.
Mostly generated automatically with the following semantic patch,
except where coccinelle was confused by #ifdef in lib/isc/net.c
@@ expression list args; @@
- UNEXPECTED_ERROR(__FILE__, __LINE__, args)
+ UNEXPECTED_ERROR(args)
@@ expression list args; @@
- FATAL_ERROR(__FILE__, __LINE__, args)
+ FATAL_ERROR(args)
Getting the recorded value of 'edns-udp-size' from the resolver requires
strong attach to the dns_view because we are accessing `view->resolver`.
This is not the case in places (f.e. dns_zone unit) where `.udpsize` is
accessed. By moving the .udpsize field from `struct dns_resolver` to
`struct dns_view`, we can access the value directly even with weakly
attached dns_view without the need to lock the view because `.udpsize`
can be accessed after the dns_view object has been shut down.
The dns_view implements weak and strong reference counting. When strong
reference counting reaches zero, the adb, ntatable and resolver objects
are shut down and detached.
In dns_zone and dns_nta the dns_view was weakly attached, but the
view->resolver reference was accessed directly leading to dereferencing
the NULL pointer.
Add dns_view_getresolver() method which attaches to view->resolver
object under the lock (if it still exists) ensuring the dns_resolver
will be kept referenced until not needed.
Add new semantic patch to replace the straightfoward uses of:
ptr = isc_mem_{get,allocate}(..., size);
memset(ptr, 0, size);
with the new API call:
ptr = isc_mem_{get,allocate}x(..., size, ISC_MEM_ZERO);
Because the dns_zonemgr_create() was run before the loopmgr was started,
the isc_ratelimiter API was more complicated that it had to be. Move
the dns_zonemgr_create() to run_server() task which is run on the main
loop, and simplify the isc_ratelimiter API implementation.
The isc_timer is now created in the isc_ratelimiter_create() and
starting the timer is now separate async task as is destroying the timer
in case it's not launched from the loop it was created on. The
ratelimiter tick now doesn't have to create and destroy timer logic and
just stops the timer when there's no more work to do.
This should also solve all the races that were causing the
isc_ratelimiter to be left dangling because the timer was stopped before
the last reference would be detached.
Now that the 'dns_request' supports using TLS transport, implement
dynamic update forwarding using DoT when the primary server is
configured to use a TLS transport.
Previously, when using such configuration, the dynamic update forwarding
feature was broken.
Instead of creating the zone timers at the zone creation time (which
could be any thread), create the zone timer from the isc_loop that has
beena assigned to the zone (zone->loop);
In preparation for the on-loop timers, the isc_ratelimiter API was
converted to use the timer on main loop and start and stop the timer
asynchronously on the main loop.
This change prepares ground for sending DNS requests using DoT,
which, in particular, will be used for forwarding dynamic updates
to TLS-enabled primaries.
dns_request_create() was a front-end to dns_request_createvia() that
was only used by test binaries. dns_request_createvia() has been
renamed to dns_request_create(), and the test programs that formerly
used dns_request_create() have been updated to use the new parameters.
Previously:
* applications were using isc_app as the base unit for running the
application and signal handling.
* networking was handled in the netmgr layer, which would start a
number of threads, each with a uv_loop event loop.
* task/event handling was done in the isc_task unit, which used
netmgr event loops to run the isc_event calls.
In this refactoring:
* the network manager now uses isc_loop instead of maintaining its
own worker threads and event loops.
* the taskmgr that manages isc_task instances now also uses isc_loopmgr,
and every isc_task runs on a specific isc_loop bound to the specific
thread.
* applications have been updated as necessary to use the new API.
* new ISC_LOOP_TEST macros have been added to enable unit tests to
run isc_loop event loops. unit tests have been updated to use this
where needed.
* isc_timer was rewritten using the uv_timer, and isc_timermgr_t was
completely removed; isc_timer objects are now directly created on the
isc_loop event loops.
* the isc_timer API has been simplified. the "inactive" timer type has
been removed; timers are now stopped by calling isc_timer_stop()
instead of resetting to inactive.
* isc_manager now creates a loop manager rather than a timer manager.
* modules and applications using isc_timer have been updated to use the
new API.
When doing a dnssec-policy reconfiguration from a zone with NSEC only
keys to a zone that uses NSEC3, figure out to wait with building the
NSEC3 chain.
Previously, BIND 9 would attempt to sign such a zone, but failed to
do so because the NSEC3 chain conflicted with existing DNSKEY records
in the zone that were not compatible with NSEC3.
There exists logic for detecting such a case in the functions
dnskey_sane() (in lib/dns/zone.c) and check_dnssec() (in
lib/ns/update.c). Both functions look very similar so refactor them
to use the same code and call the new function (called
dns_zone_check_dnskey_nsec3()).
Also update the dns_nsec_nseconly() function to take an additional
parameter 'diff' that, if provided, will be checked whether an
offending NSEC only DNSKEY will be deleted from the zone. If so,
this key will not be considered when checking the zone for NSEC only
DNSKEYs. This is needed to allow a transition from an NSEC zone with
NSEC only DNSKEYs to an NSEC3 zone.
Clean up dns_rdatalist_tordataset() and dns_rdatalist_fromrdataset()
functions by making them return void, because they cannot fail.
Clean up other functions that subsequently cannot fail.
it's a style violation to have REQUIRE or INSIST contain code that
must run for the server to work. this was being done with some
atomic_compare_exchange calls. these have been cleaned up. uses
of atomic_compare_exchange in assertions have been replaced with
a new macro atomic_compare_exchange_enforced, which uses RUNTIME_CHECK
to ensure that the exchange was successful.
We do this by adding callbacks for when a node is added or deleted
from the keytable. dns_keytable_add and dns_keytable_delete where
extended to take a callback. dns_keytable_deletekey does not remove
the node so it was not extended.
Previously, tasks could be created either unbound or bound to a specific
thread (worker loop). The unbound tasks would be assigned to a random
thread every time isc_task_send() was called. Because there's no logic
that would assign the task to the least busy worker, this just creates
unpredictability. Instead of random assignment, bind all the previously
unbound tasks to worker 0, which is guaranteed to exist.
The dns_message_gettempname(), dns_message_gettemprdata(),
dns_message_gettemprdataset(), and dns_message_gettemprdatalist() always
succeeds because the memory allocation cannot fail now. Change the API
to return void and cleanup all the use of aforementioned functions.
After removing the isc_task_onshutdown(), the isc_task_shutdown() and
isc_task_destroy() became obsolete.
Remove calls to isc_task_shutdown() and replace the calls to
isc_task_destroy() with isc_task_detach().
Simplify the internal logic to destroy the task when the last reference
is removed.
These checks have been redundant since the `rbtdb64` implementation
was removed in 2018 (commit 784087390a). It isn't possible to create
a zone that uses `database "rbt64"` now that the `rbt64` database
implementation has been removed, so the checks will always fail.
Coverity detected issues:
- var_decl: Declaring variable "diff" without initializer.
- uninit_use_in_call: Using uninitialized value "diff.tuples.head" when
calling "dns_diff_clear".
In zone.c, the "me" strings were defined for functions that could be
traced with "ENTER" macro.
Use the __func__ that's defined by the compiler and is less prone to
copy&paste errors.
Update the function that synchronizes the CDS and CDNSKEY DELETE
records. It now allows for the possibility that the CDS DELETE record
is published and the CDNSKEY DELETE record is not, and vice versa.
Also update the code in zone.c how 'dns_dnssec_syncdelete()' is called.
With KASP, we still maintain the DELETE records our self. Otherwise,
we publish the CDS and CDNSKEY DELETE record only if they are added
to the zone. We do still check if these records can be signed by a KSK.
This change will allow users to add a CDS and/or CDNSKEY DELETE record
manually, without BIND removing them on the next zone sign.
Note that this commit removes the check whether the key is a KSK, this
check is redundant because this check is also made in
'dst_key_is_signing()' when the role is set to DST_BOOL_KSK.
The mctx, zonetask and loadtask pools were being destroyed in the
shutdown function where in theory a dangling zone could be still
attached to it.
Move the isc_mem_put() on the pools to the destroy() function.
