On Windows, the `os.Process.Signal` method returns an error when sending
`os.Interrupt` (SIGINT) because it isn't implemented. This causes test servers
in the `testutil` packages to break on Windows. Use the platform specific
syscalls to generate the SIGINT instead.
The agent's signal handler also did not correctly handle the Ctrl-C because we
were masking os.Interrupt instead of SIGINT.
Fixes: https://github.com/hashicorp/nomad/issues/26775
Co-authored-by: Chris Roberts <croberts@hashicorp.com>
Although we encourage users to use Vault roles, sometimes they're going to want
to assign policies based on entity and pre-create entities and aliases based on
claims. This allows them to use single default role (or at least small number of
them) that has a templated policy, but have an escape hatch from that.
When defining Vault entities the `user_claim` must be unique. When writing Vault
binding rules for use with Nomad workload identities the binding rule won't be
able to create a 1:1 mapping because the selector language allows accessing only
a single field. The `nomad_job_id` claim isn't sufficient to uniquely identify a
job because of namespaces. It's possible to create a JWT auth role with
`bound_claims` to avoid this becoming a security problem, but this doesn't allow
for correct accounting of user claims.
Add support for an `extra_claims` block on the server's `default_identity`
blocks for Vault. This allows a cluster administrator to add a custom claim on
all allocations. The values for these claims are interpolatable with a limited
subset of fields, similar to how we interpolate the task environment.
Fixes: https://github.com/hashicorp/nomad/issues/23510
Ref: https://hashicorp.atlassian.net/browse/NET-10372
Ref: https://hashicorp.atlassian.net/browse/NET-10387
OIDC mandates the support of the RS256 signing algorithm so in order to maximize workload identity's usefulness this change switches from using the EdDSA signing algorithm to RS256.
Old keys will continue to use EdDSA but new keys will use RS256. The EdDSA generation code was left in place because it's fast and cheap and I'm not going to lie I hope we get to use it again.
**Test Updates**
Most of our Variables and Keyring tests had a subtle assumption in them that the keyring would be initialized by the time the test server had elected a leader. ed25519 key generation is so fast that the fact that it was happening asynchronously with server startup didn't seem to cause problems. Sadly rsa key generation is so slow that basically all of these tests failed.
I added a new `testutil.WaitForKeyring` helper to replace `testutil.WaitForLeader` in cases where the keyring must be initialized before the test may continue. However this is mostly used in the `nomad/` package.
In the `api` and `command/agent` packages I decided to switch their helpers to wait for keyring initialization by default. This will slow down tests a bit, but allow those packages to not be as concerned with subtle server readiness details. On my machine rsa key generation takes 63ms, so hopefully the difference isn't significant on CI runners.
**TODO**
- Docs and changelog entries.
- Upgrades - right now upgrades won't get RS256 keys until their root key rotates either manually or after ~30 days.
- Observability - I'm not sure there's a way for operators to see if they're using EdDSA or RS256 unless they inspect a key. The JWKS endpoint can be inspected to see if EdDSA will be used for new identities, but it doesn't technically define which key is active. If upgrades can be fixed to automatically rotate keys, we probably don't need to worry about this.
**Requiem for ed25519**
When workload identities were first implemented we did not immediately consider OIDC compliance. Consul, Vault, and many other third parties support JWT auth methods without full OIDC compliance. For the machine<-->machine use cases workload identity is intended to fulfill, OIDC seemed like a bigger risk than asset.
EdDSA/ed25519 is the signing algorithm we chose for workload identity JWTs because of all these lovely properties:
1. Deterministic keys that can be derived from our preexisting root keys. This was perhaps the biggest factor since we already had a root encryption key around from which we could derive a signing key.
2. Wonderfully compact: 64 byte private key, 32 byte public key, 64 byte signatures. Just glorious.
3. No parameters. No choices of encodings. It's all well-defined by [RFC 8032](https://datatracker.ietf.org/doc/html/rfc8032).
4. Fastest performing signing algorithm! We don't even care that much about the performance of our chosen algorithm, but what a free bonus!
5. Arguably one of the most secure signing algorithms widely available. Not just from a cryptanalysis perspective, but from an API and usage perspective too.
Life was good with ed25519, but sadly it could not last.
[IDPs](https://en.wikipedia.org/wiki/Identity_provider), such as AWS's IAM OIDC Provider, love OIDC. They have OIDC implemented for humans, so why not reuse that OIDC support for machines as well? Since OIDC mandates RS256, many implementations don't bother implementing other signing algorithms (or at least not advertising their support). A quick survey of OIDC Discovery endpoints revealed only 2 out of 10 OIDC providers advertised support for anything other than RS256:
- [PayPal](https://www.paypalobjects.com/.well-known/openid-configuration) supports HS256
- [Yahoo](https://api.login.yahoo.com/.well-known/openid-configuration) supports ES256
RS256 only:
- [GitHub](https://token.actions.githubusercontent.com/.well-known/openid-configuration)
- [GitLab](https://gitlab.com/.well-known/openid-configuration)
- [Google](https://accounts.google.com/.well-known/openid-configuration)
- [Intuit](https://developer.api.intuit.com/.well-known/openid_configuration)
- [Microsoft](https://login.microsoftonline.com/fabrikamb2c.onmicrosoft.com/v2.0/.well-known/openid-configuration)
- [SalesForce](https://login.salesforce.com/.well-known/openid-configuration)
- [SimpleLogin (acquired by ProtonMail)](https://app.simplelogin.io/.well-known/openid-configuration/)
- [TFC](https://app.terraform.io/.well-known/openid-configuration)
The `BindName` for JWT authentication should always bind to the `nomad_service` field in the JWT and not include the namespace, as the `nomad_service` is what's actually registered in Consul.
* Fix the binding rule for the `consulcompat` test
* Add a reachability assertion so that we don't miss regressions.
* Ensure we have a clean shutdown so that we don't leak state (containers and iptables) between tests.
Set up a new test suite that exercises Nomad's compatibility with Consul. This
suite installs all currently supported versions of Consul, spins up a Consul
agent with appropriate configuration, and a Nomad agent running in dev
mode. Then it runs a Connect job against each pair.
Some of our `api` package tests have ACLs enabled, but none of those tests also
run clients and the "wait for the clients to be live" code reads from the Node
API. The caller can't bootstrap ACLs until `NewTestServer` returns, and this
makes for a circular dependency.
Allow developers to provide a bootstrap token to the test server config, and
if it's available, have the server bootstrap the ACL system with it before
checking for live clients.
6747ef8803 fixes the Nomad client to support using the raw_exec
driver while running as a non-root user. Remove the use of sudo
in the test-e2e workflow for running integration (vaultcompat)
tests.
* Fixup uses of `sanity`
* Remove unnecessary comments.
These checks are better explained by earlier comments about
the context of the test. Per @tgross, moved the tests together
to better reinforce the overall shared context.
* Update nomad/fsm_test.go
Copy the updated version of freeport (sdk/freeport), and tweak it for use
in Nomad tests. This means staying below port 10000 to avoid conflicts with
the lib/freeport that is still transitively used by the old version of
consul that we vendor. Also provide implementations to find ephemeral ports
of macOS and Windows environments.
Ports acquired through freeport are supposed to be returned to freeport,
which this change now also introduces. Many tests are modified to include
calls to a cleanup function for Server objects.
This should help quite a bit with some flakey tests, but not all of them.
Our port problems will not go away completely until we upgrade our vendor
version of consul. With Go modules, we'll probably do a 'replace' to swap
out other copies of freeport with the one now in 'nomad/helper/freeport'.
Adds a Consul field to the TestServerConfig that allows passing in non-default values for e.g. consul address.
This will allow the TestServer to integrate with Consul's testutil/TestServer.
This drops the testings stdlib pkg from our dependencies. Saves a
whopping 46kb on our binary (was really hoping for more of a win there),
but also avoids potential ugliness with how testing sets flags.
This flag is not normally supported in Nomad, but we really need
to use it for testing to lower the timing values for registration
retries et. al. Instead of just enabling it on all tests, we
provide a bool flag in the config, which just makes the test
server pass the extra CLI arg when true.
