The traceback files could overwrite each other on systems which do not
use different core dump file names for different processes. Prevent
that by writing the traceback file to the same directory as the core
dump file.
These changes still do not prevent the operating system from overwriting
a core dump file if the same binary crashes multiple times in the same
directory and core dump files are named identically for different
processes.
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'.
Upon request from Mark, change the configuration of salt to salt
length.
Introduce a new function 'dns_zone_checknsec3aram' that can be used
upon reconfiguration to check if the existing NSEC3 parameters are
in sync with the configuration. If a salt is used that matches the
configured salt length, don't change the NSEC3 parameters.
Check 'nsec3param' configuration for the number of iterations. The
maximum number of iterations that are allowed are based on the key
size (see https://tools.ietf.org/html/rfc5155#section-10.3).
Check 'nsec3param' configuration for correct salt. If the string is
not "-" or hex-based, this is a bad salt.
The 'rndc signing' command allows you to manipulate the private
records that are used to store signing state. Don't use these with
'dnssec-policy' as such manipulations may violate the policy (if you
want to change the NSEC3 parameters, change the policy and reconfig).
When doing 'rndc reconfig', named may complain about a zone not being
reusable because it has a raw version of the zone, and the new
configuration has not set 'inline-signing'. However, 'inline-signing'
may be implicitly true if a 'dnssec-policy' is used for the zone, and
the zone is not dynamic.
Improve the check in 'named_zone_reusable'. Create a new function for
checking 'inline-signing' configuration that matches existing code in
'bin/named/server.c'.
Implement support for NSEC3 in dnssec-policy. Store the configuration
in kasp objects. When configuring a zone, call 'dns_zone_setnsec3param'
to queue an nsec3param event. This will ensure that any previous
chains will be removed and a chain according to the dnssec-policy is
created.
Add tests for dnssec-policy zones that uses the new 'nsec3param'
option, as well as changing to new values, changing to NSEC, and
changing from NSEC.
cppcheck 2.2 reports the following false positive:
lib/isc/tests/quota_test.c:71:21: error: Array 'quotas[101]' accessed at index 110, which is out of bounds. [arrayIndexOutOfBounds]
isc_quota_t *quotas[110];
^
The above is not even an array access, so this report is obviously
caused by a cppcheck bug. Yet, it seems to be triggered by the presence
of the add_quota() macro, which should really be a function. Convert
the add_quota() macro to a function in order to make the code cleaner
and to prevent the above cppcheck 2.2 false positive from being
triggered.
cppcheck 2.2 reports the following false positive:
lib/dns/dispatch.c:1239:14: warning: Either the condition 'resp==NULL' is redundant or there is possible null pointer dereference: resp. [nullPointerRedundantCheck]
if (disp != resp->disp) {
^
lib/dns/dispatch.c:1210:11: note: Assuming that condition 'resp==NULL' is not redundant
if (resp == NULL) {
^
lib/dns/dispatch.c:1239:14: note: Null pointer dereference
if (disp != resp->disp) {
^
Apparently this version of cppcheck gets confused about conditional
"goto" statements because line 1239 can never be reached if 'resp' is
NULL.
Move a code block to prevent the above false positive from being
reported without affecting the processing logic.
cppcheck is not aware that the bin/dnssec/dnssectool.c:fatal() function
does not return. This triggers certain cppcheck 2.2 false positives,
for example:
bin/dnssec/dnssec-signzone.c:3471:13: warning: Either the condition 'ndskeys==8' is redundant or the array 'dskeyfile[8]' is accessed at index 8, which is out of bounds. [arrayIndexOutOfBoundsCond]
dskeyfile[ndskeys++] = isc_commandline_argument;
^
bin/dnssec/dnssec-signzone.c:3468:16: note: Assuming that condition 'ndskeys==8' is not redundant
if (ndskeys == MAXDSKEYS) {
^
bin/dnssec/dnssec-signzone.c:3471:13: note: Array index out of bounds
dskeyfile[ndskeys++] = isc_commandline_argument;
^
bin/dnssec/dnssec-signzone.c:772:20: warning: Either the condition 'l->hashbuf==NULL' is redundant or there is pointer arithmetic with NULL pointer. [nullPointerArithmeticRedundantCheck]
memset(l->hashbuf + l->entries * l->length, 0, l->length);
^
bin/dnssec/dnssec-signzone.c:768:18: note: Assuming that condition 'l->hashbuf==NULL' is not redundant
if (l->hashbuf == NULL) {
^
bin/dnssec/dnssec-signzone.c:772:20: note: Null pointer addition
memset(l->hashbuf + l->entries * l->length, 0, l->length);
^
Instead of suppressing all such warnings individually, conditionally
define a preprocessor macro which prevents them from being triggered.
The cppcheck bug which commit 481fa34e50
works around was fixed in cppcheck 2.2. Drop the relevant hack from the
definition of the cppcheck GitLab CI job.
the test-async plugin uses ns_query_hookasync() at the
NS_QUERY_DONE_SEND hook point to call an asynchronous function.
the only effect is to change the query response code to "NOTIMP",
so we can confirm that the hook ran and resumed correctly.
previously query plugins were strictly synchrounous - the query
process would be interrupted at some point, data would be looked
up or a change would be made, and then the query processing would
resume immediately.
this commit enables query plugins to initiate asynchronous processes
and resume on a completion event, as with recursion.
