03e4e00673
* provider/aws: Refresh ssm document from state on 404 Originally reported in #13976 When an SSM Document was deleted outside of Terraform, a terraform refresh would return the following: ``` % terraform plan Refreshing Terraform state in-memory prior to plan... The refreshed state will be used to calculate this plan, but will not be persisted to local or remote state storage. aws_ssm_document.foo: Refreshing state... (ID: test_document-stack72) Error refreshing state: 1 error(s) occurred: * aws_ssm_document.foo: aws_ssm_document.foo: [ERROR] Error describing SSM document: InvalidDocument: status code: 400, request id: 70c9bed1-33bb-11e7-99aa-697e9b0914e9 ``` On applying this patch, it now looks as follows: ``` % terraform plan [WARN] /Users/stacko/Code/go/bin/terraform-provider-aws overrides an internal plugin for aws-provider. If you did not expect to see this message you will need to remove the old plugin. See https://www.terraform.io/docs/internals/internal-plugins.html Refreshing Terraform state in-memory prior to plan... The refreshed state will be used to calculate this plan, but will not be persisted to local or remote state storage. aws_ssm_document.foo: Refreshing state... (ID: test_document-stack72) The Terraform execution plan has been generated and is shown below. Resources are shown in alphabetical order for quick scanning. Green resources will be created (or destroyed and then created if an existing resource exists), yellow resources are being changed in-place, and red resources will be destroyed. Cyan entries are data sources to be read. Note: You didn't specify an "-out" parameter to save this plan, so when "apply" is called, Terraform can't guarantee this is what will execute. + aws_ssm_document.foo arn: "<computed>" content: " {\n \"schemaVersion\": \"1.2\",\n \"description\": \"Check ip configuration of a Linux instance.\",\n \"parameters\": {\n\n },\n \"runtimeConfig\": {\n \"aws:runShellScript\": {\n \"properties\": [\n {\n \"id\": \"0.aws:runShellScript\",\n \"runCommand\": [\"ifconfig\"]\n }\n ]\n }\n }\n }\n" created_date: "<computed>" default_version: "<computed>" description: "<computed>" document_type: "Command" hash: "<computed>" hash_type: "<computed>" latest_version: "<computed>" name: "test_document-stack72" owner: "<computed>" parameter.#: "<computed>" platform_types.#: "<computed>" schema_version: "<computed>" status: "<computed>" Plan: 1 to add, 0 to change, 0 to destroy. ``` * Update resource_aws_ssm_document.go |
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LICENSE | ||
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README.md | ||
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config_unix.go | ||
config_windows.go | ||
help.go | ||
main.go | ||
main_test.go | ||
panic.go | ||
signal_unix.go | ||
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synchronized_writers.go | ||
version.go |
README.md
Terraform
- Website: https://www.terraform.io
- Mailing list: Google Groups
Terraform is a tool for building, changing, and versioning infrastructure safely and efficiently. Terraform can manage existing and popular service providers as well as custom in-house solutions.
The key features of Terraform are:
-
Infrastructure as Code: Infrastructure is described using a high-level configuration syntax. This allows a blueprint of your datacenter to be versioned and treated as you would any other code. Additionally, infrastructure can be shared and re-used.
-
Execution Plans: Terraform has a "planning" step where it generates an execution plan. The execution plan shows what Terraform will do when you call apply. This lets you avoid any surprises when Terraform manipulates infrastructure.
-
Resource Graph: Terraform builds a graph of all your resources, and parallelizes the creation and modification of any non-dependent resources. Because of this, Terraform builds infrastructure as efficiently as possible, and operators get insight into dependencies in their infrastructure.
-
Change Automation: Complex changesets can be applied to your infrastructure with minimal human interaction. With the previously mentioned execution plan and resource graph, you know exactly what Terraform will change and in what order, avoiding many possible human errors.
For more information, see the introduction section of the Terraform website.
Getting Started & Documentation
All documentation is available on the Terraform website.
Developing Terraform
If you wish to work on Terraform itself or any of its built-in providers, you'll first need Go installed on your machine (version 1.8+ is required). Alternatively, you can use the Vagrantfile in the root of this repo to stand up a virtual machine with the appropriate dev tooling already set up for you.
For local dev first make sure Go is properly installed, including setting up a GOPATH. You will also need to add $GOPATH/bin
to your $PATH
.
Next, using Git, clone this repository into $GOPATH/src/github.com/hashicorp/terraform
. All the necessary dependencies are either vendored or automatically installed, so you just need to type make
. This will compile the code and then run the tests. If this exits with exit status 0, then everything is working!
$ cd "$GOPATH/src/github.com/hashicorp/terraform"
$ make
To compile a development version of Terraform and the built-in plugins, run make dev
. This will build everything using gox and put Terraform binaries in the bin
and $GOPATH/bin
folders:
$ make dev
...
$ bin/terraform
...
If you're developing a specific package, you can run tests for just that package by specifying the TEST
variable. For example below, onlyterraform
package tests will be run.
$ make test TEST=./terraform
...
If you're working on a specific provider and only wish to rebuild that provider, you can use the plugin-dev
target. For example, to build only the Azure provider:
$ make plugin-dev PLUGIN=provider-azure
If you're working on the core of Terraform, and only wish to rebuild that without rebuilding providers, you can use the core-dev
target. It is important to note that some types of changes may require both core and providers to be rebuilt - for example work on the RPC interface. To build just the core of Terraform:
$ make core-dev
Dependencies
Terraform stores its dependencies under vendor/
, which Go 1.6+ will automatically recognize and load. We use govendor
to manage the vendored dependencies.
If you're developing Terraform, there are a few tasks you might need to perform.
Adding a dependency
If you're adding a dependency, you'll need to vendor it in the same Pull Request as the code that depends on it. You should do this in a separate commit from your code, as makes PR review easier and Git history simpler to read in the future.
To add a dependency:
Assuming your work is on a branch called my-feature-branch
, the steps look like this:
-
Add the new package to your GOPATH:
go get github.com/hashicorp/my-project
-
Add the new package to your
vendor/
directory:govendor add github.com/hashicorp/my-project/package
-
Review the changes in git and commit them.
Updating a dependency
To update a dependency:
-
Fetch the dependency:
govendor fetch github.com/hashicorp/my-project
-
Review the changes in git and commit them.
Acceptance Tests
Terraform has a comprehensive acceptance test suite covering the built-in providers. Our Contributing Guide includes details about how and when to write and run acceptance tests in order to help contributions get accepted quickly.
Cross Compilation and Building for Distribution
If you wish to cross-compile Terraform for another architecture, you can set the XC_OS
and XC_ARCH
environment variables to values representing the target operating system and architecture before calling make
. The output is placed in the pkg
subdirectory tree both expanded in a directory representing the OS/architecture combination and as a ZIP archive.
For example, to compile 64-bit Linux binaries on Mac OS X, you can run:
$ XC_OS=linux XC_ARCH=amd64 make bin
...
$ file pkg/linux_amd64/terraform
terraform: ELF 64-bit LSB executable, x86-64, version 1 (SYSV), statically linked, not stripped
XC_OS
and XC_ARCH
can be space separated lists representing different combinations of operating system and architecture. For example, to compile for both Linux and Mac OS X, targeting both 32- and 64-bit architectures, you can run:
$ XC_OS="linux darwin" XC_ARCH="386 amd64" make bin
...
$ tree ./pkg/ -P "terraform|*.zip"
./pkg/
├── darwin_386
│ └── terraform
├── darwin_386.zip
├── darwin_amd64
│ └── terraform
├── darwin_amd64.zip
├── linux_386
│ └── terraform
├── linux_386.zip
├── linux_amd64
│ └── terraform
└── linux_amd64.zip
4 directories, 8 files
Note: Cross-compilation uses gox, which requires toolchains to be built with versions of Go prior to 1.5. In order to successfully cross-compile with older versions of Go, you will need to run gox -build-toolchain
before running the commands detailed above.
Docker
When using docker you don't need to have any of the Go development tools installed and you can clone terraform to any location on disk (doesn't have to be in your $GOPATH). This is useful for users who want to build master
or a specific branch for testing without setting up a proper Go environment.
For example, run the following command to build terraform in a linux-based container for macOS.
docker run --rm -v $(pwd):/go/src/github.com/hashicorp/terraform -w /go/src/github.com/hashicorp/terraform -e XC_OS=darwin -e XC_ARCH=amd64 golang:latest bash -c "apt-get update && apt-get install -y zip && make bin"