Add an updated `target_ec2_instances` module that is capable of
dynamically splitting target instances over subnet/az's that are
compatible with the AMI architecture and the associated instance type
for the architecture. Use the `target_ec2_instances` module where
necessary. Ensure that `raft` storage scenarios don't provision
unnecessary infrastructure with a new `target_ec2_shim` module.
After a lot of trial, the state of Ec2 spot instance capacity, their
associated APIs, and current support for different fleet types in AWS
Terraform provider, have proven to make using spot instances for
scenario targets too unreliable.
The current state of each method:
* `target_ec2_fleet`: unusable due to the fact that the `instant` type
does not guarantee fulfillment of either `spot` or `on-demand`
instance request types. The module does support both `on-demand` and
`spot` request types and is capable of bidding across a maximum of
four availability zones, which makes it an attractive choice if the
`instant` type would always fulfill requests. Perhaps a `request` type
with `wait_for_fulfillment` option like `aws_spot_fleet_request` would
make it more viable for future consideration.
* `target_ec2_spot_fleet`: more reliable if bidding for target instances
that have capacity in the chosen zone. Issues in the AWS provider
prevent us from bidding across multiple zones succesfully. Over the
last 2-3 months target capacity for the instance types we'd prefer to
use has dropped dramatically and the price is near-or-at on-demand.
The volatility for nearly no cost savings means we should put this
option on the shelf for now.
* `target_ec2_instances`: the most reliable method we've got. It is now
capable of automatically determing which subnets and availability
zones to provision targets in and has been updated to be usable for
both Vault and Consul targets. By default we use the cheapest medium
instance types that we've found are reliable to test vault.
* Update .gitignore
* enos/modules/create_vpc: create a subnet for every availability zone
* enos/modules/target_ec2_fleet: bid across the maximum of four
availability zones for targets
* enos/modules/target_ec2_spot_fleet: attempt to make the spot fleet bid
across more availability zones for targets
* enos/modules/target_ec2_instances: create module to use
ec2:RunInstances for scenario targets
* enos/modules/target_ec2_shim: create shim module to satisfy the
target module interface
* enos/scenarios: use target_ec2_shim for backend targets on raft
storage scenarios
* enos/modules/az_finder: remove unsed module
Signed-off-by: Ryan Cragun <me@ryan.ec>
We seem to hit occasional capacity issues when attempting to launch spot
fleets with arm64 instance types. After checking pricing in the regions
that we use, it appears that current and older generation amd64 t2 and
t3 instance types are running at quite a discount whereas t4 arm64
instances are barely under on-demand price, suggesting limited capacity
for arm64 spot instances at this time. We'll change our default backend
instance architecture to amd64 to bid for the cheaper t2 and t3
instances and increase our `max_price` globally to that of a RHEL
machine running on-demand with a t3.medium.
Signed-off-by: Ryan Cragun <me@ryan.ec>
Begin the process of migrating away from the "strongly encouraged not to
use"[0] Ec2 spot fleet API to the more modern `ec2:CreateFleet`.
Unfortuantely the `instant` type fleet does not guarantee fulfillment
with either on-demand or spot types. We'll need to add a feature similar
to `wait_for_fulfillment` on the `spot_fleet_request` resource[1] to
`ec2_fleet` before we can rely on it.
We also update the existing target fleets to support provisioning generic
targets. This has allowed us to remove our usage of `terraform-enos-aws-consul`
and replace it with a smaller `backend_consul` module in-repo.
We also remove `terraform-enos-aws-infra` and replace it with two smaller
in-repo modules `ec2_info` and `create_vpc`. This has allowed us to simplify
the vpc resources we use for each scneario, which in turn allows us to
not rely on flaky resources.
As part of this refactor we've also made it possible to provision
targets using different distro versions.
[0] https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/spot-best-practices.html#which-spot-request-method-to-use
[1] https://registry.terraform.io/providers/hashicorp/aws/latest/docs/resources/spot_fleet_request#wait_for_fulfillment
* enos/consul: add `backend_consul` module that accepts target hosts.
* enos/target_ec2_spot_fleet: add support for consul networking.
* enos/target_ec2_spot_fleet: add support for customizing cluster tag
key.
* enos/scenarios: create `target_ec2_fleet` which uses a more modern
`ec2_fleet` API.
* enos/create_vpc: replace `terraform-enos-aws-infra` with smaller and
simplified version. Flatten the networking to a single route on the
default route table and a single subnet.
* enos/ec2_info: add a new module to give us useful ec2 information
including AMI id's for various arch/distro/version combinations.
* enos/ci: update service user role to allow for managing ec2 fleets.
Signed-off-by: Ryan Cragun <me@ryan.ec>
Use the latest version of enos-provider and upstream consul module.
These changes allow us to configure the vault log level in configuration
and also support configuring consul with an enterprise license.
Signed-off-by: Ryan Cragun <me@ryan.ec>
The previous strategy for provisioning infrastructure targets was to use
the cheapest instances that could reliably perform as Vault cluster
nodes. With this change we introduce a new model for target node
infrastructure. We've replaced on-demand instances for a spot
fleet. While the spot price fluctuates based on dynamic pricing,
capacity, region, instance type, and platform, cost savings for our
most common combinations range between 20-70%.
This change only includes spot fleet targets for Vault clusters.
We'll be updating our Consul backend bidding in another PR.
* Create a new `vault_cluster` module that handles installation,
configuration, initializing, and unsealing Vault clusters.
* Create a `target_ec2_instances` module that can provision a group of
instances on-demand.
* Create a `target_ec2_spot_fleet` module that can bid on a fleet of
spot instances.
* Extend every Enos scenario to utilize the spot fleet target acquisition
strategy and the `vault_cluster` module.
* Update our Enos CI modules to handle both the `aws-nuke` permissions
and also the privileges to provision spot fleets.
* Only use us-east-1 and us-west-2 in our scenario matrices as costs are
lower than us-west-1.
Signed-off-by: Ryan Cragun <me@ryan.ec>
* Adding an Enos test for undo logs
* fixing a typo
* feedback
* fixing typo
* running make fmt
* removing a dependency
* var name change
* fixing a variable
* fix builder
* fix product version
* adding required fields
* feedback
* add artifcat bundle back
* fmt check
* point to correct instance
* minor fix
* feedback
* feedback
Add our initial Enos integration tests to Vault. The Enos scenario
workflow will automatically be run on branches that are created from the
`hashicorp/vault` repository. See the README.md in ./enos a full description
of how to compose and execute scenarios locally.
* Simplify the metadata build workflow jobs
* Automatically determine the Go version from go.mod
* Add formatting check for Enos integration scenarios
* Add Enos smoke and upgrade integration scenarios
* Add Consul backend matrix support
* Add Ubuntu and RHEL distro support
* Add Vault edition support
* Add Vault architecture support
* Add Vault builder support
* Add Vault Shamir and awskms auto-unseal support
* Add Raft storage support
* Add Raft auto-join voter verification
* Add Vault version verification
* Add Vault seal verification
* Add in-place upgrade support for all variants
* Add four scenario variants to CI. These test a maximal distribution of
the aforementioned variants with the `linux/amd64` Vault install
bundle.
Signed-off-by: Ryan Cragun <me@ryan.ec>
Co-authored-by: Rebecca Willett <rwillett@hashicorp.com>
Co-authored-by: Jaymala <jaymalasinha@gmail.com>
