The dnssec-keygen command for the ZSK generation for the zone
multisigner-model2.kasp was wrong (no ZSK was generated in the setup
script, but when 'named' is started, the missing ZSK was created
anyway by 'dnssec-policy'.
There are a couple of cases where the safety intervals are added
inappropriately:
1. When setting the PublishCDS/SyncPublish timing metadata, we don't
need to add the publish-safety value if we are calculating the time
when the zone is completely signed for the first time. This value
is for when the DNSKEY has been published and we add a safety
interval before considering the DNSKEY omnipresent.
2. The retire-safety value should only be added to ZSK rollovers if
there is an actual rollover happening, similar to adding the sign
delay.
3. The retire-safety value should only be added to KSK rollovers if
there is an actual rollover happening. We consider the new DS
omnipresent a bit later, so that we are forced to keep the old DS
a bit longer.
In a multi-signer setup, removing DNSKEY records from the zone should
not be treated as a key that previously exists in the keyring, thus
blocking the keymgr. Add a test case to make sure.
Test that if a key to be purged is in the keyring, it does not
prevent the keymgr from running. Normally a key that is in the keyring
should be available again on the next run, but that is not true for
a key that can be purged.
In addition, fix some wait_for_log calls, by adding the missing
'|| ret=1' parts.
Some test cases were working but for the wrong reasons. These started
to fail when I implemented the first approach for #4763, where the
existence of a DNSKEY together with an empty keyring is suspicious and
would prevent the keymgr from running.
These are:
1. kasp: The multisigner-model2.kasp zone has ZSKs from other providers
in the zone, but not yet its own keys. Pregenerate signing keys and
add them to the unsigned zone as well.
2. kasp: The dynamic-signed-inline-signing.kasp zone has a key generated
and added in the raw version of the zone. But the key file is stored
outside the key-directory for the given zone. Add '-K keys' to the
dnssec-keygen command.
Prior to running the keymgr, first make sure that existing keys
are present in the new keylist. If not, treat this as an operational
error where the keys are made offline (temporarily), possibly unwanted.
In this specific case the key files are temporary unavailable, for
example because of an operator error, or a mount failure). In such
cases, BIND should not try to roll over these keys.
This commit adds support for timestamps in iso8601 format with timezone
when logging. This is exposed through the iso8601-tzinfo printtime
suboption.
It also makes the new logging format the default for -g output,
hopefully removing the need for custom timestamp parsing in scripts.
If there is a keytag conflict between keys with different algorithms,
we need to supply what key algorithm is used so we can get the right
public key.
For clarity, print the algorithm on the found keys after 'check_keys'.
The key lifetime should no longer be adjusted if the key is being
retired earlier, for example because a manual rollover was started.
This would falsely be seen as a dnssec-policy lifetime reconfiguration,
and would adjust the retire/removed time again.
This also means we should update the status output, and the next
rollover scheduled is now calculated using (retire-active) instead of
key lifetime.
Changed the default value for 'allow-transfer' to 'none'; zone
transfers now require explicit authorization.
Updated all system tests to specify an allow-transfer ACL when needed.
Revised the ARM to specify that the default is 'none'.
In the second test we are looking for key files and extract the key
id numbers. Because keys can be in different directories, we needed
to change the maxdepth when searching for keys.
For the second kasp system test, check that 'dnssec-keygen -k' (default
policy) creates valid files, the 'get_keyids' returned more than one
keytag, namely the ones that are inside the keys/ directory, that were
created for the predecessor test, check that 'dnssec-keygen -k'
(configuredd policy) creates valid files.
This caused the system test to spew out errors that key files were
missing (we were looking for key files in the current directory, but
when looking for key id numbers we included the keys/ directory). It
could also cause the next test to fail, check that 'dnssec-settime' by
default does not edit key state file, because the STATE_FILE environment
variable was overwritten with the key file path of one of the keys that
were created with the configured policy.
We fix this by adjusting the maxdepth for the test in question. Other
tests don't need adjusting because they use unique zone names.
This log may still occur if there is a DNSKEY in the unsigned zone.
This may happen in a multi-signer setup for example.
Ideally this should not log a warning, but that requires looking up
keys a different way (by searching for key files only). However, that
requires adapting a bunch of system tests, and is out of scope for now.
When using dnssec-policy with dnssec-keygen in combination with setting
the key-directory on the command line, the commandline argument takes
priority over the key-directory from the default named.conf.
Add a test case where dnssec-policy uses key stores with a directory
other than the zone's key-directory.
This requires changing the kasp shell script to take into account that
keys can be in different directories. When looking for keys, the
'find' command now takes a maxdepth of 3 to also look for keys in
subdirectories. Note this maxdepth value is arbitrary, the added
'keystore.kasp' test only requires a maxdepth of 2.
Because of this change, the dnssec-keygen tests no longer work because
they are for the same zone (although different directories). Change
the test to use a different zone ('kasp2' instead of 'kasp').
Some tests don't have a mock root server configured, because they don't
need one. However, these tests might still leak queries to actual name
servers. Add a shared root hints file which can serve as a blackhole for
these queries.
If the dnskey-ttl in the dnssec-policy doesn't match the DNSKEY's
ttl then the DNSKEY, CDNSKEY and CDS rrset should be updated by
named to reflect the expressed policy. Check that named does this
by creating a zone with a TTL that does not match the policy's TTL
and check that it is correctly updated.
All changes in this commit were automated using the command:
shfmt -w -i 2 -ci -bn . $(find . -name "*.sh.in")
By default, only *.sh and files without extension are checked, so
*.sh.in files have to be added additionally. (See mvdan/sh#944)
The 'dynamic-signed-inline-signing.kasp' zone was set up with
the environment variable 'ksktimes', but that should be 'csktimes'
which is set one line above. Since the values are currently the same
the behavior is identical, but of course it should use the correct
variable.
The 'step4.enable-dnssec.autosign' zone was set up twice. This is
unnecessary.
Add a test scenario for a dynamic zone that uses inline-signing which
accidentally has signed the raw version of the zone.
This should not trigger resign scheduling on the raw version of the
zone.
The old name "common" clashes with the convention of system test
directory naming. It appears as a system test directory, but it only
contains helper files.
To reduce confusion and to allow automatic detection of issues with
possibly missing test files, rename the helper directory to "_common".
The leading underscore indicates the directory is different and the its
name can no longer be confused with regular system test directories.
When using automated DNSSEC management, it is required that the zone
is dynamic, or that inline-signing is enabled (or both). Update the
checkconf code to also allow inline-signing to be enabled within
dnssec-policy.
Add an option to enable/disable inline-signing inside the
dnssec-policy clause. The existing inline-signing option that is
set in the zone clause takes priority, but if it is omitted, then the
value that is set in dnssec-policy is taken.
The built-in policies use inline-signing.
This means that if you want to use the default policy without
inline-signing you either have to set it explicitly in the zone
clause:
zone "example" {
...
dnssec-policy default;
inline-signing no;
};
Or create a new policy, only overriding the inline-signing option:
dnssec-policy "default-dynamic" {
inline-signing no;
};
zone "example" {
...
dnssec-policy default-dynamic;
};
This also means that if you are going insecure with a dynamic zone,
the built-in "insecure" policy needs to be accompanied with
"inline-signing no;".
These two configuration options worked in conjunction with 'auto-dnssec'
to determine KSK usage, and thus are now obsoleted.
However, in the code we keep KSK processing so that when a zone is
reconfigured from using 'dnssec-policy' immediately to 'none' (without
going through 'insecure'), the zone is not immediately made bogus.
Add one more test case for going straight to none, now with a dynamic
zone (no inline-signing).
Ensure all shell system tests are executed with the errexit option set.
This prevents unchecked return codes from commands in the test from
interfering with the tests, since any failures need to be handled
explicitly.
Add this test scenario for a bug fixed a while ago. When a third key is
introduced while the previous rollover hasn't finished yet, the keymgr
could decide to remove the first two keys, because it was not checking
for an indirect dependency on the keys.
In other words, the previous bug behavior was that the first two keys
were removed from the zone too soon.
This test case checks that all three keys stay in the zone, and no keys
are removed premature after another new key has been introduced.
the default value of dnssec-validation is 'auto', which causes
a server to send a key refresh query to the root zone when starting
up. this is undesirable behavior in system tests, so this commit
sets dnssec-validation to either 'yes' or 'no' in all tests where
it had not previously been set.
this change had the mostly-harmless side effect of changing the cached
trust level of unvalidated answer data from 'answer' to 'authanswer',
which caused a few test cases in which dumped cache data was examined in
the serve-stale system test to fail. those test cases have now been
updated to expect 'authanswer'.
The log message is supposed to contain the zone name which was
erroneously omitted, but didn't pop up during tests, since return code
was silently ignored.
Now it actually waits for the proper log message rather than being an
equivalent of 3 second sleep (which was also sufficient to make the test
pass, thus we detected no failure).
In order to run the shell system tests, the pytest runner has to pick
them up somehow. Adding an extra python file with a single function
for the shell tests for each system test proved to be the most
compatible way of running the shell tests across older pytest/xdist
versions.
Modify the legacy run.sh script to ignore these pytest-runner specific
glue files when executing tests written in pytest.
Change the commandline option -G to take a string that determines what
sync records should be published. It is a comma-separated string with
each element being either "cdnskey", or "cds:<algorithm>", where
<algorithm> is a valid digest type. Duplicates are suppressed.
Change one of the test cases to use a different digest type (4). The
system tests and kasp script need to be updated to take into account
the new algorithm (instead of the hard coded 2).
Set the DS state after issuing 'rndc dnssec -checkds'. If the DS
was published, it should go in RUMOURED state, regardless whether it
is already safe to do so according to the state machine.
Leaving it in HIDDEN (or if it was magically already in OMNIPRESENT or
UNRETENTIVE) would allow for easy shoot in the foot situations.
Similar, if the DS was withdrawn, the state should be set to
UNRETENTIVE. Leaving it in OMNIPRESENT (or RUMOURED/HIDDEN)
would also allow for easy shoot in the foot situations.
The system test should never attempt to start or stop any other server
than those that belong to that system test. Therefore, it is not
necessary to specify the system test name in function calls.
Additionally, this makes it possible to run the test inside a
differently named directory, as its name is automatically detected with
the $SYSTESTDIR variable. This enables running the system tests inside a
temporary directory.
Direct use of stop.pl was replaced with a more systematic approach to
use stop_servers helper function.
"next_key_event_threshold" is assigned with
"next_key_event_threshold+i", but "i" is empty (never set, nor used
afterwards).
posh, the Policy-compliant Ordinary SHell, failed on this assignment
with:
tests.sh:253: : unexpected `end of expression'
The changes in the code have the side effect that the CDNSKEY and CDS
records in the secure version of the zone are not reusable and thus
are thrashed from the zone. Remove the apex checks for this use case.
We only care about that the zone is not immediately goes bogus, but
a user really should use the built-in "insecure" policy when unsigning
a zone.
We no longer accept copying DNSSEC records from the raw zone to
the secure zone, so update the kasp system test that relies on this
accordingly.
Also add more debugging and store the dnssec-verify results in a file.
Add a kasp system test that reconfigures a dnssec-policy zone from
maintaining DNSSEC records directly to the zone to using inline-signing.
Add a similar test case to the nsec3 system test, testing the same
thing but now with NSEC3 in use.
