When you need to enable monitoring for Redshift, you need to create the
correct policy in the bucket for logging. This needs to have the
Redshift Account ID for a given region. This data source provides a
handy lookup for this
http://docs.aws.amazon.com/redshift/latest/mgmt/db-auditing.html#db-auditing-enable-logging
% make testacc TEST=./builtin/providers/aws
% TESTARGS='-run=TestAccAWSRedshiftAccountId_basic' 2 ↵ ✹ ✭
==> Checking that code complies with gofmt requirements...
/Users/stacko/Code/go/bin/stringer
go generate $(go list ./... | grep -v /terraform/vendor/)
2016/08/16 14:39:35 Generated command/internal_plugin_list.go
TF_ACC=1 go test ./builtin/providers/aws -v
-run=TestAccAWSRedshiftAccountId_basic -timeout 120m
=== RUN TestAccAWSRedshiftAccountId_basic
--- PASS: TestAccAWSRedshiftAccountId_basic (19.47s)
PASS
ok github.com/hashicorp/terraform/builtin/providers/aws 19.483s
This data source provides access during configuration to the ID of the
AWS account for the connection to AWS. It is primarily useful for
interpolating into policy documents, for example when creating the
policy for an ELB or ALB access log bucket.
This will need revisiting and further testing once the work for
AssumeRole is integrated.
* Overriding S3 endpoint - Enable specifying your own
S3 api endpoint to override the default one, under
endpoints.
* Force S3 path style - Expose this option from the aws-sdk-go
configuration to the provider.
* Skip IAM/STS validation and metadata check
* Skip IAM/STS identity validation - For environments or other api
implementations where there are no IAM/STS endpoints available, this
option lets you opt out from that provider initialization step.
* Skip metdata api check - For environments in which you know ahead of
time there isn't going to be a metadta api endpoint, this option lets
you opt out from that check to save time.
* Allow iam/sts initialization even if skipping account/cred validation
(#7874)
* Split out skip of IAM validation into credentials and account id
(#7874)
This commit adds VPN Gateway attachment resource, and also an initial tests and
documentation stubs.
Signed-off-by: Krzysztof Wilczynski <krzysztof.wilczynski@linux.com>
* add opsworks permission resource
* add docs
* remove permission from state if the permission object could not be found
* remove nil validate function. validation is done in schema.Resource.
* add id to the list of exported values
* renge over permission to check that we have found got the correct one
* removed comment
* removed set id
* fix unknown region us-east-1c
* add user_profile resource
* add docs
* add default value
allows load balancer policies and their assignment to backend servers or listeners to be configured independently.
this gives flexibility to configure additional policies on aws elastic load balancers aside from the already provided "convenience" wrappers for cookie stickiness
* Add SES resource
* Detect ReceiptRule deletion outside of Terraform
* Handle order of rule actions
* Add position field to docs
* Fix hashes, add log messages, and other small cleanup
* Fix rebase issue
* Fix formatting
this datasource allows terraform to work with externally modified state, e.g.
when you're using an ECS service which is continously updated by your CI via the
AWS CLI.
right now you'd have to wrap terraform into a shell script which looks up the
current image digest, so running terraform won't change the updated service.
using the aws_ecs_container_definition data source you can now leverage
terraform, removing the wrapper entirely.
This brings over the work done by @apparentlymart and @radeksimko in
PR #3124, and converts it into a data source for the AWS provider:
This commit adds a helper to construct IAM policy documents using
familiar Terraform concepts. It makes Terraform-style interpolations
easier and resolves the syntax conflict between Terraform interpolations
and IAM policy variables by changing the latter to use &{...} for its
interpolations.
Its use is completely optional and users are free to go on using literal
heredocs, file interpolations or whatever else; this just adds another
option that fits more naturally into a Terraform config.
This data source allows one to look up the most recent AMI for a specific
set of parameters, much like aws ec2 describe-images in the AWS CLI.
Basically a refresh of hashicorp/terraform#4396, in data source form.
* Add per user, role and group policy attachment
* Add docs for new IAM policy attachment resources.
* Make policy attachment resources manage only 1 entity<->policy attachment
* provider/aws: Tidy up IAM Group/User/Role attachments
This commit adds a data source with a single list, `instance` for the
schema which gets populated with the availability zones to which an
account has access.
* New top level AWS resource aws_eip_association
* Add documentation for aws_eip_association
* Add tests for aws_eip_association
* provider/aws: Change `aws_elastic_ip_association` to have computed
parameters
The AWS API was send ing more parameters than we had set. Therefore,
Terraform was showing constant changes when plans were being formed
Change the AWS DB Instance to now include the DB Option Group param. Adds a test to prove that it works
Add acceptance tests for the AWS DB Option Group work. This ensures that Options can be added and updated
Documentation for the AWS DB Option resource
* provider/aws: Default Network ACL resource
Provides a resource to manage the default AWS Network ACL. VPC Only.
* Remove subnet_id update, mark as computed value. Remove extra tag update
* refactor default rule number to be a constant
* refactor revokeRulesForType to be revokeAllNetworkACLEntries
Refactor method to delete all network ACL entries, regardless of type. The
previous implementation was under the assumption that we may only eliminate some
rule types and possibly not others, so the split was necessary.
We're now removing them all, so the logic isn't necessary
Several doc and test cleanups are here as well
* smite subnet_id, improve docs
* CloudFront implementation v3
* Update tests
* Refactor - new resource: aws_cloudfront_distribution
* Includes a complete re-write of the old aws_cloudfront_web_distribution
resource to bring it to feature parity with API and CloudFormation.
* Also includes the aws_cloudfront_origin_access_identity resource to generate
origin access identities for use with S3.
This adds support for Elastic Beanstalk Applications, Configuration Templates,
and Environments.
This is a combined work of @catsby, @dharrisio, @Bowbaq, and @jen20
This allows specification of the profile for the shared credentials
provider for AWS to be specified in Terraform configuration. This is
useful if defining providers with aliases, or if you don't want to set
environment variables. Example:
$ aws configure --profile this_is_dog
... enter keys
$ cat main.tf
provider "aws" {
profile = "this_is_dog"
# Optionally also specify the path to the credentials file
shared_credentials_file = "/tmp/credentials"
}
This is equivalent to specifying AWS_PROFILE or
AWS_SHARED_CREDENTIALS_FILE in the environment.
also removed the notion of tags from the redshift security group and
parameter group documentation until that has been implemented
Redshift Cluster CRUD and acceptance tests
Removing the Acceptance test for the Cluster Updates. You cannot delete
a cluster immediately after performing an operation on it. We would need
to add a lot of retry logic to the system to get this test to work
Adding some schema validation for RedShift cluster
Adding the last of the pieces of a first draft of the Redshift work - this is the documentation
Changed the aws_redshift_security_group and aws_redshift_parameter_group
to remove the tags from the schema. Tags are a little bit more
complicated than originally though - I will revisit this later
Then added the schema, CRUD functionality and basic acceptance tests for
aws_redshift_subnet_group
Adding an acceptance test for the Update of subnet_ids in AWS Redshift Subnet Group
Because `aws_security_group_rule` resources are an abstraction on top of
Security Groups, they must interact with the AWS Security Group APIs in
a pattern that often results in lots of parallel requests interacting
with the same security group.
We've found that this pattern can trigger race conditions resulting in
inconsistent behavior, including:
* Rules that report as created but don't actually exist on AWS's side
* Rules that show up in AWS but don't register as being created
locally, resulting in follow up attempts to authorize the rule
failing w/ Duplicate errors
Here, we introduce a per-SG mutex that must be held by any security
group before it is allowed to interact with AWS APIs. This protects the
space between `DescribeSecurityGroup` and `Authorize*` / `Revoke*`
calls, ensuring that no other rules interact with the SG during that
span.
The included test exposes the race by applying a security group with
lots of rules, which based on the dependency graph can all be handled in
parallel. This fails most of the time without the new locking behavior.
I've omitted the mutex from `Read`, since it is only called during the
Refresh walk when no changes are being made, meaning a bunch of parallel
`DescribeSecurityGroup` API calls should be consistent in that case.