The HMACs and GSSAPI are just using unallocated values.
Moving them around shouldn't cause issues.
Only the dnssec system test knew the internal number in use for hmacmd5.
When looking for changes in a catalog zone member zone we need to
also check if the TSIG key name associated with a primary server
has be added, removed or changed.
When fuzzing it is useful for all signing operations to happen
at a specific time for reproducability. Add two variables to
the message structure (fuzzing and fuzztime) to specify if a
fixed time should be used and the value of that time.
dns_rdata_tostruct doesn't need a mctx passed to it for SIG (the signer
is already expanded at this point). About the only time when mctx is
needed is when the structure is to be used after the rdata has been
destroyed.
OpenSSL just cannot work with mixing ENGINE_* api mixed with OSSL_PARAM
builders. But it can be built in legacy mode, where deprecated but still
working API would be used.
It can work under OpenSSL 3.0, but only if using legacy code paths
matching OpenSSL 1.1 calls and functions.
Remove fromlabel processing by OpenSSL 3.0 only functions. They can
return later with a proper provider support for pkcs11.
OpenSSL has deprecated many things in version 3.0. If pkcs11 engine
should work then no builder from OpenSSL 3.0 API can be used.
Allow switching to OpenSSL 1.1 like calls even on OpenSSL 3.0 when
OPENSSL_API_COMPAT=10100 is defined. It would still compile and allow
working keys loading from the engine passed on command line.
When looking for required glue, dns_message_rendersection() only
processes the first rdataset associated with the first name added to the
ADDITIONAL section. If the DNS_RDATASETATTR_REQUIRED attribute is set
for an rdataset which is located somewhere else (i.e. the name it is
associated with is preceded by another name in the ADDITIONAL section),
it will not be honored, i.e. the TC bit will not be set even if the
rdataset does not fit into the response.
Check the attributes of each processed rdataset while appending names to
a referral response based on a glue cache entry. If a given rdataset is
marked with DNS_RDATASETATTR_REQUIRED, make sure the name it is
associated with is added to the response at the beginning of the
ADDITIONAL section, not its end.
Note that using ISC_LIST_PREPEND() instead of ISC_LIST_APPEND() is not
necessary when associating the rdataset with its owner name because the
dns_name_t structures are initialized just before the glue rdatasets are
associated with them and therefore they are empty at that point, which
means no other (non-required) rdataset can precede the glue rdatasets
within the dns_name_t structure owning them.
If an NS RRset at the parent side of a delegation point only contains
in-bailiwick NS records, at least one glue record should be included in
every referral response sent for such a delegation point or else clients
will need to send follow-up queries in order to determine name server
addresses. In certain edge cases (when the total size of a referral
response without glue records was just below to the UDP packet size
limit), named failed to adhere to that rule by sending non-truncated,
glueless referral responses.
Fix the problem by marking all in-bailiwick NS records processed by
glue_nsdname_cb() (the dns_rdataset_additionaldata() callback used by
RBTDB code while iterating over an NS RRset when dns_rdataset_addglue()
is called) with the DNS_RDATASETATTR_REQUIRED flag. Note that for
simplicity, glue RRsets for all in-bailiwick NS records are marked this
way, even though dns_message_rendersection() only checks the attributes
for the first rdataset associated with the first name added to the
ADDITIONAL section.
Instead of always creating the trust anchor timer (dns_nta_t) on the
main loop, create the timer on the current loop and associate each
dns_nta_t object to the loop it was created on. This simplifies the
timer handling as everything is run on the associated loop.
During the change, the dns_nta_t structure was renamed to dns__nta_t
and changed to be fully internal to the nta.c compilation unit, and the
dns_ntatable_t structure was made opaque. This required no change to
code using the API as dns_nta_t never had any external users and the
dns_ntatable_t was properly accessed only by using function calls.
Instead of creating the response policy zone deferred update timer when
creating the response policy zone object, create it on demand on the
current loop and destroy it as soon as the timer has finished its job.
There's a side-effect - the processing of the response policy zone
update is now done on the current loop - previously, it was always on
the main loop.
Instead of creating the catalog zone deferred update timer when creating
the catalog zone object, create it on demand on the current loop and
destroy it as soon as the timer has finished its job. There's a
side-effect - the processing of the catalog zone update is now done on
the current loop - previously, it was always on the main loop.
Instead of creating dns_resolver .spillattimer when the dns_resolver_t
object is created, create it on the current loop as needed and destroy
it as soon as the timer has finished its job. This avoids the need to
manipulate the timer from a different thread.
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.
In order to make xfrin.c:get_create_tlsctx() reusable, move the function
into transport.c, and make changes into its prototype to not use the
'dns_xfrin_ctx_t' type, thus making it more universal.
This change prepares ground for adding transport support into the
dispatch manager.
Also, move the typedefs for 'dns_transport_t' and 'dns_transport_list_t'
from transport.h into types.h.
If there was a collision of key id across algorithms it was not
possible to determine where counter applies to which algorithm for
xml statistics while for json only one of the values was emitted.
The key names are now "<algorithm-number>+<id>" (e.g. "8+54274").
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.
When converting a string to lower case, the compiler is able to
autovectorize nicely, so a nice simple implementation is also very
fast, comparable to memcpy().
Comparisons are more difficult for the compiler, so we convert eight
bytes at a time using "SIMD within a register" tricks. Experiments
indicate it's best to stick to simple loops for shorter strings and
the remainder of long strings.
There were a number of places that had copies of various ASCII
tables (case conversion, hex and decimal conversion) that are intended
to be faster than the ctype.h macros, or avoid locale pollution.
Move them into libisc, and wrap the lookup tables with macros that
avoid the ctype.h gotchas.
When used with OpenSSL v3.0.0+, the `openssldh_compare()`,
`openssldh_paramcompare()`, and `openssldh_todns()` functions
fail to cleanup the used memory on some error paths.
Use `DST_RET` instead of `return`, when there is memory to be
released before returning from the functions.
Limit the amount of database lookups that can be triggered in
fctx_getaddresses() (i.e. when determining the name server addresses to
query next) by setting a hard limit on the number of NS RRs processed
for any delegation encountered. Without any limit in place, named can
be forced to perform large amounts of database lookups per each query
received, which severely impacts resolver performance.
The limit used (20) is an arbitrary value that is considered to be big
enough for any sane DNS delegation.
It is possible to bypass Response Rate Limiting (RRL)
`responses-per-second` limitation using specially crafted wildcard
names, because the current implementation, when encountering a found
DNS name generated from a wildcard record, just strips the leftmost
label of the name before making a key for the bucket.
While that technique helps with limiting random requests like
<random>.example.com (because all those requests will be accounted
as belonging to a bucket constructed from "example.com" name), it does
not help with random names like subdomain.<random>.example.com.
The best solution would have been to strip not just the leftmost
label, but as many labels as necessary until reaching the suffix part
of the wildcard record from which the found name is generated, however,
we do not have that information readily available in the context of RRL
processing code.
Fix the issue by interpreting all valid wildcard domain names as
the zone's origin name concatenated to the "*" name, so they all will
be put into the same bucket.
Remove unnecessary != NULL checks
*** CID 352809: Null pointer dereferences (REVERSE_INULL) /lib/dns/message.c: 4654 in dns_message_buildopt()
4648 if (rdata != NULL) {
4649 dns_message_puttemprdata(message, &rdata);
4650 }
4651 if (rdataset != NULL) {
4652 dns_message_puttemprdataset(message, &rdataset);
4653 }
>>> CID 352809: Null pointer dereferences (REVERSE_INULL)
>>> Null-checking "rdatalist" suggests that it may be null, but it has already been dereferenced on all paths leading to the check.
4654 if (rdatalist != NULL) {
4655 dns_message_puttemprdatalist(message, &rdatalist);
4656 }
4657 return (result);
4658 }
4659
The dnstap query_message field was in some cases being filled in
with response messages, along with the response_message field.
The query_message field should only be used when logging requests,
and the response_message field only when logging responses.
Implement the configuration option with its checking and parsing parts.
The option should be later used by BIND to set an extended error
code (EDE) for the queries modified in the result of RPZ processing.
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.
There is one case in 'dns_nsec3_activex()' where it returns but forgets
to detach the db node. Add the missing 'dns_db_detachnode()' call.
This case only triggers if 'sig-signing-type' (privatetype) is set to 0
(which by default is not), or if the function is called with 'complete'
is set to 'true' (which at this moment do not exist).
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.
After an earlier code cleanup, `dns_rdatalist_tordataset()` always
succeeds, so the `RETERR` error handling macro below the function
call was removed. After that change the `dynbuf` variable can never
be `NULL` in the error handling code path under the `failure` label.
*** CID 355779: Null pointer dereferences (REVERSE_INULL)
/lib/dns/tkey.c: 997 in buildquery()
991 dns_message_puttempname(msg, &aname);
992 }
993 if (question != NULL) {
994 dns_rdataset_disassociate(question);
995 dns_message_puttemprdataset(msg, &question);
996 }
>>> CID 355779: Null pointer dereferences (REVERSE_INULL)
>>> Null-checking "dynbuf" suggests that it may be null, but it has already been dereferenced on all paths leading to the check.
997 if (dynbuf != NULL) {
998 isc_buffer_free(&dynbuf);
999 }
1000 return (result);
1001 }
1002
Refactor the `buildquery()` function to simplify its error handling.
When dumping an ADB address entry associated with a name,
the name bucket lock was held, but the entry bucket lock was
not; this could cause data races when other threads were updating
address entry info. (These races are probably not operationally
harmful, but they triggered TSAN error reports.)
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.
Cumulative fetch limit logging happens on an event of a dropped
fetch if 60 seconds have been passed since the previous log message.
This change makes the log message different for the initial event
and for the later cumulative events to provide more useful information
to the system administrator.
When initially hitting the `fetches-per-zone` value, a log message
is being generated for the event of dropping the first fetch, then
any further log events occur only when another fetch is being dropped
and 60 seconds have been passed since the last logged message.
That logic isn't ideal because when the counter of the outstanding
fetches reaches zero, the structure holding the counters' values will
get deleted, and the information about the dropped fetches accumulated
during the last minute will not be logged.
Improve the fcount_logspill() function to makie sure that the final
values are getting logged before the counter object gets destroyed.
Fedora 33 doesn't support RSASHA1 in future mode. There is no easy
check for this other than by attempting to perform a verification
using known good signatures. We don't attempt to sign with RSASHA1
as that would not work in FIPS mode. RSASHA1 is verify only.
The test vectors were generated using OpenSSL 3.0 and
util/gen-rsa-sha-vectors.c. Rerunning will generate a new set of
test vectors as the private key is not preserved.
e.g.
cc util/gen-rsa-sha-vectors.c -I /opt/local/include \
-L /opt/local/lib -lcrypto
The command 'rndc dumpdb -expired' will include expired RRsets in the
output, but only for the RBTDB_VIRTUAL time (of 5 minutes). This means
that if there is a cache cleaning problem and contents are not cleaned
up, the rndc command has little diagnostic value. Fix this by including
all RRsets in the dumpdb output if the '-expired' flag is set.
These calls have not been needed since OpenSSL 0.9.7h.
This dates to commit 704d6eeab1, "Work
around non-reentrancy in openssl by disabling precomputation in keys".
This was in the bundled OpenSSL 0.9.3a era and made two changes. First,
it registered a locking callback because, in those days, OpenSSL needed
a callback to support locks. Second, it set flags to disable various
bits of cached state on DH, DSA, and RSA objects.
Looking back in OpenSSL 0.9.3a, that cached state was not protected by a
lock:
https://github.com/openssl/openssl/blob/OpenSSL_0_9_3a/crypto/rsa/rsa_eay.c#L137-L142
However, this was fixed in OpenSSL 0.9.7h:
6ec8e63af6
The other flags (DSA and RSA) have since fallen away, DSA with the
removal of DSA altogether (3994b1f9c2) and
RSA with 3a8d4a316e, "openssl 0.9.6a and
higher don't have the RSA locking bug [...] other algorithms still don't
do locking when performing precomputation [...]".
That seems to be referring to this OpenSSL change, which indeed fixed it
for RSA but not others:
bb617a9646
The 0.9.7h change above fixed it across the board, but there was never a
similar update to the workaround for DSA and DH. With such OpenSSL
versions long since out of support, the last remains of this workaround
can finally be removed.
