Terraform module, which creates almost all supported AWS Lambda resources as well as taking care of building and packaging of required Lambda dependencies for functions and layers.
These types of resources supported:
- Lambda Function
- Lambda Layer
- Lambda Alias - using alias module
- Lambda Provisioned Concurrency
- Lambda Async Event Configuration
- Lambda Permission
Not supported, yet:
This Terraform module is the part of serverless.tf framework, which aims to simplify all operations when working with the serverless in Terraform:
- Build and install dependencies - read more. Requires Python 3.6 or newer.
- Create, store, and use deployment packages - read more.
- Create, update, and publish AWS Lambda Function and Lambda Layer - see usage.
- Create static and dynamic aliases for AWS Lambda Function - see usage, see modules/alias.
- Do complex deployments (eg, rolling, canary, rollbacks, triggers) - read more, see modules/deploy.
- Build dependencies for your Lambda Function and Layer.
- Support builds locally and in Docker (with or without SSH agent support for private builds).
- Create deployment package or deploy existing (previously built package) from local, from S3, from URL.
- Store deployment packages locally or in the S3 bucket.
- Support almost all features of Lambda resources (function, layer, alias, etc.)
- Lambda@Edge
- Conditional creation for many types of resources.
- Control execution of nearly any step in the process - build, package, store package, deploy, update.
- Control nearly all aspects of Lambda resources (provisioned concurrency, VPC, dead-letter notification, tracing, async events, IAM role, IAM policies, and more).
- Support integration with other
serverless.tf
modules like HTTP API Gateway (see examples there).
module "lambda_function" {
source = "terraform-aws-modules/lambda/aws"
function_name = "my-lambda1"
description = "My awesome lambda function"
handler = "index.lambda_handler"
runtime = "python3.8"
source_path = "../src/lambda-function1"
tags = {
Name = "my-lambda1"
}
}
module "lambda_function" {
source = "terraform-aws-modules/lambda/aws"
function_name = "lambda-with-layer"
description = "My awesome lambda function"
handler = "index.lambda_handler"
runtime = "python3.8"
publish = true
source_path = "../src/lambda-function1"
store_on_s3 = true
s3_bucket = "my-bucket-with-lambda-builds"
layers = [
module.lambda_layer_s3.this_lambda_layer_arn,
]
environment_variables = {
Serverless = "Terraform"
}
tags = {
Module = "lambda-with-layer"
}
}
module "lambda_layer_s3" {
source = "terraform-aws-modules/lambda/aws"
create_layer = true
layer_name = "lambda-layer-s3"
description = "My amazing lambda layer (deployed from S3)"
compatible_runtimes = ["python3.8"]
source_path = "../src/lambda-layer"
store_on_s3 = true
s3_bucket = "my-bucket-with-lambda-builds"
}
module "lambda_function_existing_package_local" {
source = "terraform-aws-modules/lambda/aws"
function_name = "my-lambda-existing-package-local"
description = "My awesome lambda function"
handler = "index.lambda_handler"
runtime = "python3.8"
create_package = false
local_existing_package = "../existing_package.zip"
}
Note that this module does not copy prebuilt packages into S3 bucket. This module can only store packages it builds locally and in S3 bucket.
locals {
my_function_source = "../path/to/package.zip"
}
resource "aws_s3_bucket_object" "my_function" {
bucket = "my-bucket-with-lambda-builds"
key = "${filemd5(local.my_function_source)}.zip"
source = local.my_function_source
}
module "lambda_function_existing_package_s3" {
source = "terraform-aws-modules/lambda/aws"
function_name = "my-lambda-existing-package-local"
description = "My awesome lambda function"
handler = "index.lambda_handler"
runtime = "python3.8"
create_package = false
s3_existing_package = {
bucket = "my-bucket-with-lambda-builds"
key = aws_s3_bucket_object.my_function.id
}
}
module "lambda_layer_local" {
source = "terraform-aws-modules/lambda/aws"
create_layer = true
layer_name = "my-layer-local"
description = "My amazing lambda layer (deployed from local)"
compatible_runtimes = ["python3.8"]
source_path = "../fixtures/python3.8-app1"
}
module "lambda_layer_s3" {
source = "terraform-aws-modules/lambda/aws"
create_layer = true
layer_name = "my-layer-s3"
description = "My amazing lambda layer (deployed from S3)"
compatible_runtimes = ["python3.8"]
source_path = "../fixtures/python3.8-app1"
store_on_s3 = true
s3_bucket = "my-bucket-with-lambda-builds"
}
Make sure, you deploy Lambda@Edge functions into US East (N. Virginia) region (us-east-1
). See Requirements and Restrictions on Lambda Functions.
module "lambda_at_edge" {
source = "terraform-aws-modules/lambda/aws"
lambda_at_edge = true
function_name = "my-lambda-at-edge"
description = "My awesome lambda@edge function"
handler = "index.lambda_handler"
runtime = "python3.8"
source_path = "../fixtures/python3.8-app1"
tags = {
Module = "lambda-at-edge"
}
}
module "lambda_function_in_vpc" {
source = "terraform-aws-modules/lambda/aws"
function_name = "my-lambda-in-vpc"
description = "My awesome lambda function"
handler = "index.lambda_handler"
runtime = "python3.8"
source_path = "../fixtures/python3.8-app1"
vpc_subnet_ids = module.vpc.intra_subnets
vpc_security_group_ids = [module.vpc.default_security_group_id]
attach_network_policy = true
}
module "vpc" {
source = "terraform-aws-modules/vpc/aws"
name = "my-vpc"
cidr = "10.10.0.0/16"
# Specify at least one of: intra_subnets, private_subnets, or public_subnets
azs = ["eu-west-1a", "eu-west-1b", "eu-west-1c"]
intra_subnets = ["10.10.101.0/24", "10.10.102.0/24", "10.10.103.0/24"]
}
There are 4 supported ways to attach IAM policies to IAM role used by Lambda Function:
policy_json
- set as JSON string or heredoc, whenattach_policy_json = true
.policy
- ARN of existing IAM policy, whenattach_policy = true
.policies
- List of ARNs of existing IAM policies, whenattach_policies = true
.policy_statements
- Map of maps to define IAM statements which will be generated as IAM policy. Requiresattach_policy_statements = true
. See examples/complete for more information.
Lambda Permissions should be specified to allow certain resources to invoke Lambda Function.
module "lambda_function" {
source = "terraform-aws-modules/lambda/aws"
# ...omitted for brevity
allowed_triggers = {
APIGatewayAny = {
service = "apigateway"
arn = "arn:aws:execute-api:eu-west-1:135367859851:aqnku8akd0"
},
APIGatewayDevPost = {
service = "apigateway"
source_arn = "arn:aws:execute-api:eu-west-1:135367859851:aqnku8akd0/dev/POST/*"
},
OneRule = {
principal = "events.amazonaws.com"
source_arn = "arn:aws:events:eu-west-1:135367859851:rule/RunDaily"
}
}
}
Note: service = "apigateway" with arn
is a short form to allow invocations of a Lambda Function from any stage, any method, any resource of an API Gateway.
Sometimes you need to have a way to create resources conditionally but Terraform does not allow usage of count
inside module
block, so the solution is to specify create
arguments.
module "lambda" {
source = "terraform-aws-modules/lambda/aws"
create = false # to disable all resources
create_package = false # to control build package process
create_function = false # to control creation of the Lambda Function and related resources
create_layer = false # to control creation of the Lambda Layer and related resources
create_role = false # to control creation of the IAM role and policies required for Lambda Function
attach_cloudwatch_logs_policy = false
attach_dead_letter_policy = false
attach_network_policy = false
attach_tracing_policy = false
attach_async_event_policy = false
# ... omitted
}
This is one of the most complicated part done by the module and normally you don't have to know internals.
package.py
is Python script which does it. Make sure, Python 3.6 or newer is installed. The main functions of the script are to generate a filename of zip-archive based on the content of the files, verify if zip-archive has been already created, and create zip-archive only when it is necessary (during apply
, not plan
).
Hash of zip-archive created with the same content of the files is always identical which prevents unnecessary force-updates of the Lambda resources unless content modifies. If you need to have different filenames for the same content you can specify extra string argument hash_extra
.
When calling this module multiple times in one execution to create packages with the same source_path
, zip-archives will be corrupted due to concurrent writes into the same file. There are two solutions - set different values for hash_extra
to create different archives, or create package once outside (using this module) and then pass local_existing_package
argument to create other Lambda resources.
Building and packaging has been historically hard to debug (especially with Terraform), so we made an effort to make it easier for user to see debug info. There are 3 different debug levels: DEBUG
- to see only what is happening during planning phase and how a zip file content filtering in case of applied patterns, DEBUG2
- to see more logging output, DEBUG3
- to see all logging values, DUMP_ENV
- to see all logging values and env variables (be careful sharing your env variables as they may contain secrets!).
User can specify debug level like this:
export TF_LAMBDA_PACKAGE_LOG_LEVEL=DEBUG2
terraform apply
User can enable comments in heredoc strings in patterns
which can be helpful in some situations. To do this set this environment variable:
export TF_LAMBDA_PACKAGE_PATTERN_COMMENTS=true
terraform apply
You can specify source_path
in a variety of ways to achieve desired flexibility when building deployment packages locally or in Docker. You can use absolute or relative paths.
Note that, when building locally, files are not copying anywhere from the source directories when making packages, we use fast Python regular expressions to find matching files and directories, which makes packaging very fast and easy to understand.
When source_path
is set to a string, the content of that path will be used to create deployment package as-is:
source_path = "src/function1"
When source_path
is set to a list of directories the content of each will be taken and one archive will be created.
This is the most complete way of creating a deployment package from multiple sources with multiple dependencies. This example is showing some of the available options (see examples/build-package for more):
source_path = [
"src/main-source",
"src/another-source/index.py",
{
path = "src/function1-dep",
patterns = [
"!.*/.*\\.txt", # Skip all txt files recursively
]
}, {
path = "src/python3.8-app1",
pip_requirements = true,
prefix_in_zip = "foo/bar1",
}, {
path = "src/python3.8-app2",
pip_requirements = "requirements-large.txt",
patterns = [
"!vendor/colorful-0.5.4.dist-info/RECORD",
"!vendor/colorful-.+.dist-info/.*",
"!vendor/colorful/__pycache__/?.*",
]
}, {
path = "src/python3.8-app3",
commands = ["npm install"],
patterns = [
"!.*/.*\\.txt", # Skip all txt files recursively
"node_modules/.+", # Include all node_modules
],
}, {
path = "src/python3.8-app3",
commands = ["go build"],
patterns = <<END
bin/.*
abc/def/.*
END
}
]
Few notes:
- All arguments except
path
are optional. patterns
- List of Python regex filenames should satisfy. Default value is "include everything" which is equal topatterns = [".*"]
. This can also be specified as multiline heredoc string (no comments allowed). Some examples of valid patterns:
!.*/.*\.txt # Filter all txt files recursively
node_modules/.* # Include empty dir or with a content if it exists
node_modules/.+ # Include full non empty node_modules dir with its content
node_modules/ # Include node_modules itself without its content
# It's also a way to include an empty dir if it exists
node_modules # Include a file or an existing dir only
!abc/.* # Filter out everything in an abc folder
abc/def/.* # Re-include everything in abc/def sub folder
!abc/def/hgk/.* # Filter out again in abc/def/hgk sub folder
commands
- List of commands to run. If specified, this argument overridespip_requirements
.pip_requirements
- Controls whether to executepip install
. Set tofalse
to disable this feature,true
to runpip install
withrequirements.txt
found inpath
. Or set to another filename which you want to use instead.prefix_in_zip
- If specified, will be used as a prefix inside zip-archive. By default, everything installs into the root of zip-archive.
If your Lambda Function or Layer uses some dependencies you can build them in Docker and have them included into deployment package. Here is how you can do it:
build_in_docker = true
docker_file = "src/python3.8-app1/docker/Dockerfile"
docker_build_root = "src/python3.8-app1/docker"
docker_image = "lambci/lambda:build-python3.8"
runtime = "python3.8" # Setting runtime is required when building package in Docker and Lambda Layer resource.
Using this module you can install dependencies from private hosts. To do this, you need for forward SSH agent:
docker_with_ssh_agent = true
By default, this module creates deployment package and uses it to create or update Lambda Function or Lambda Layer.
Sometimes, you may want to separate build of deployment package (eg, to compile and install dependencies) from the deployment of a package into two separate steps.
When creating archive locally outside of this module you need to set create_package = false
and then argument local_existing_package = "existing_package.zip"
. Alternatively, you may prefer to keep your deployment packages into S3 bucket and provide a reference to them like this:
create_package = false
s3_existing_package = {
bucket = "my-bucket-with-lambda-builds"
key = "existing_package.zip"
}
This can be implemented in two steps: download file locally using CURL, and pass path to deployment package as local_existing_package
argument.
locals {
package_url = "https://raw.githubusercontent.com/terraform-aws-modules/terraform-aws-lambda/master/examples/fixtures/python3.8-zip/existing_package.zip"
downloaded = "downloaded_package_${md5(local.package_url)}.zip"
}
resource "null_resource" "download_package" {
triggers = {
downloaded = local.downloaded
}
provisioner "local-exec" {
command = "curl -L -o ${local.downloaded} ${local.package_url}"
}
}
data "null_data_source" "downloaded_package" {
inputs = {
id = null_resource.download_package.id
filename = local.downloaded
}
}
module "lambda_function_existing_package_from_remote_url" {
source = "terraform-aws-modules/lambda/aws"
function_name = "my-lambda-existing-package-local"
description = "My awesome lambda function"
handler = "index.lambda_handler"
runtime = "python3.8"
create_package = false
local_existing_package = data.null_data_source.downloaded_package.outputs["filename"]
}
Typically, Lambda Function resource updates when source code changes. If publish = true
is specified a new Lambda Function version will also be created.
Published Lambda Function can be invoked using either by version number or using $LATEST
. This is the simplest way of deployment which does not required any additional tool or service.
In order to do controlled deployments (rolling, canary, rollbacks) of Lambda Functions we need to use Lambda Function aliases.
In simple terms, Lambda alias is like a pointer to either one version of Lambda Function (when deployment complete), or to two weighted versions of Lambda Function (during rolling or canary deployment).
One Lambda Function can be used in multiple aliases. Using aliases gives large control of which version deployed when having multiple environments.
There is alias module, which simplifies working with alias (create, manage configurations, updates, etc). See examples/alias for various use-cases how aliases can be configured and used.
There is deploy module, which creates required resources to do deployments using AWS CodeDeploy. It also creates the deployment, and wait for completion. See examples/deploy for complete end-to-end build/update/deploy process.
Q1: Why deployment package not recreating every time I change something? Or why deployment package is being recreated every time but content has not been changed?
Answer: There can be several reasons related to concurrent executions, or to content hash. Sometimes, changes has happened inside of dependency which is not used in calculating content hash. Or multiple packages are creating at the same time from the same sources. You can force it by setting value of
hash_extra
to distinct values.
Q2: How to force recreate deployment package?
Answer: Delete an existing zip-archive from
builds
directory, or make a change in your source code. If there is no zip-archive for the current content hash, it will be recreated duringterraform apply
.
Q3: null_resource.archive[0] must be replaced
Answer: This probably mean that zip-archive has been deployed, but is currently absent locally, and it has to be recreated locally. When you run into this issue during CI/CD process (where workspace is clean), you can set environment variable
TF_RECREATE_MISSING_LAMBDA_PACKAGE=false
and runterraform apply
.
Q4: What does this error mean - "We currently do not support adding policies for $LATEST."
?
Answer: When the Lambda function is created with
publish = true
the new version is automatically increased and a qualified identifier (version number) becomes available and will be used when setting Lambda permissions.When
publish = false
(default), only unqualified identifier ($LATEST
) is available which leads to the error.The solution is to either disable the creation of Lambda permissions for the current version by setting
create_current_version_allowed_triggers = false
, or to enable publish of Lambda function (publish = true
).
- Creation of Lambda Functions and Lambda Layers is very similar and both support the same features (building from source path, using existing package, storing package locally or on S3)
- Check out this Awesome list of AWS Lambda Layers
- Complete - Create Lambda resources in various combinations with all supported features.
- Build and Package - Build and create deployment packages in various ways.
- Alias - Create static and dynamic aliases in various ways.
- Deploy - Complete end-to-end build/update/deploy process using AWS CodeDeploy.
- Async Invocations - Create Lambda Function with async event configuration (with SQS and SNS integration).
- With VPC - Create Lambda Function with VPC.
Name | Version |
---|---|
terraform | ~> 0.12.6 |
aws | ~> 2.46 |
Name | Version |
---|---|
aws | ~> 2.46 |
external | n/a |
local | n/a |
null | n/a |
Name | Description | Type | Default | Required |
---|---|---|---|---|
allowed_triggers | Map of allowed triggers to create Lambda permissions | map(any) |
{} |
no |
artifacts_dir | Directory name where artifacts should be stored | string |
"builds" |
no |
attach_async_event_policy | Controls whether async event policy should be added to IAM role for Lambda Function | bool |
false |
no |
attach_cloudwatch_logs_policy | Controls whether CloudWatch Logs policy should be added to IAM role for Lambda Function | bool |
true |
no |
attach_dead_letter_policy | Controls whether SNS/SQS dead letter notification policy should be added to IAM role for Lambda Function | bool |
false |
no |
attach_network_policy | Controls whether VPC/network policy should be added to IAM role for Lambda Function | bool |
false |
no |
attach_policies | Controls whether list of policies should be added to IAM role for Lambda Function | bool |
false |
no |
attach_policy | Controls whether policy should be added to IAM role for Lambda Function | bool |
false |
no |
attach_policy_json | Controls whether policy_json should be added to IAM role for Lambda Function | bool |
false |
no |
attach_policy_statements | Controls whether policy_statements should be added to IAM role for Lambda Function | bool |
false |
no |
attach_tracing_policy | Controls whether X-Ray tracing policy should be added to IAM role for Lambda Function | bool |
false |
no |
build_in_docker | Whether to build dependencies in Docker | bool |
false |
no |
cloudwatch_logs_kms_key_id | The ARN of the KMS Key to use when encrypting log data. | string |
null |
no |
cloudwatch_logs_retention_in_days | Specifies the number of days you want to retain log events in the specified log group. Possible values are: 1, 3, 5, 7, 14, 30, 60, 90, 120, 150, 180, 365, 400, 545, 731, 1827, and 3653. | number |
null |
no |
cloudwatch_logs_tags | A map of tags to assign to the resource. | map(string) |
{} |
no |
compatible_runtimes | A list of Runtimes this layer is compatible with. Up to 5 runtimes can be specified. | list(string) |
[] |
no |
create | Controls whether resources should be created | bool |
true |
no |
create_async_event_config | Controls whether async event configuration for Lambda Function/Alias should be created | bool |
false |
no |
create_current_version_allowed_triggers | Whether to allow triggers on current version of Lambda Function (this will revoke permissions from previous version because Terraform manages only current resources) | bool |
true |
no |
create_current_version_async_event_config | Whether to allow async event configuration on current version of Lambda Function (this will revoke permissions from previous version because Terraform manages only current resources) | bool |
true |
no |
create_function | Controls whether Lambda Function resource should be created | bool |
true |
no |
create_layer | Controls whether Lambda Layer resource should be created | bool |
false |
no |
create_package | Controls whether Lambda package should be created | bool |
true |
no |
create_role | Controls whether IAM role for Lambda Function should be created | bool |
true |
no |
create_unqualified_alias_allowed_triggers | Whether to allow triggers on unqualified alias pointing to $LATEST version | bool |
true |
no |
create_unqualified_alias_async_event_config | Whether to allow async event configuration on unqualified alias pointing to $LATEST version | bool |
true |
no |
dead_letter_target_arn | The ARN of an SNS topic or SQS queue to notify when an invocation fails. | string |
null |
no |
description | Description of your Lambda Function (or Layer) | string |
"" |
no |
destination_on_failure | Amazon Resource Name (ARN) of the destination resource for failed asynchronous invocations | string |
null |
no |
destination_on_success | Amazon Resource Name (ARN) of the destination resource for successful asynchronous invocations | string |
null |
no |
docker_build_root | Root dir where to build in Docker | string |
"" |
no |
docker_file | Path to a Dockerfile when building in Docker | string |
"" |
no |
docker_image | Docker image to use for the build | string |
"" |
no |
docker_pip_cache | Whether to mount a shared pip cache folder into docker environment or not | any |
null |
no |
docker_with_ssh_agent | Whether to pass SSH_AUTH_SOCK into docker environment or not | bool |
false |
no |
environment_variables | A map that defines environment variables for the Lambda Function. | map(string) |
{} |
no |
function_name | A unique name for your Lambda Function | string |
"" |
no |
handler | Lambda Function entrypoint in your code | string |
"" |
no |
hash_extra | The string to add into hashing function. Useful when building same source path for different functions. | string |
"" |
no |
kms_key_arn | The ARN of KMS key to use by your Lambda Function | string |
null |
no |
lambda_at_edge | Set this to true if using Lambda@Edge, to enable publishing, limit the timeout, and allow edgelambda.amazonaws.com to invoke the function | bool |
false |
no |
lambda_role | IAM role attached to the Lambda Function. This governs both who / what can invoke your Lambda Function, as well as what resources our Lambda Function has access to. See Lambda Permission Model for more details. | string |
"" |
no |
layer_name | Name of Lambda Layer to create | string |
"" |
no |
layers | List of Lambda Layer Version ARNs (maximum of 5) to attach to your Lambda Function. | list(string) |
null |
no |
license_info | License info for your Lambda Layer. Eg, MIT or full url of a license. | string |
"" |
no |
local_existing_package | The absolute path to an existing zip-file to use | string |
null |
no |
maximum_event_age_in_seconds | Maximum age of a request that Lambda sends to a function for processing in seconds. Valid values between 60 and 21600. | number |
null |
no |
maximum_retry_attempts | Maximum number of times to retry when the function returns an error. Valid values between 0 and 2. Defaults to 2. | number |
null |
no |
memory_size | Amount of memory in MB your Lambda Function can use at runtime. Valid value between 128 MB to 3008 MB, in 64 MB increments. | number |
128 |
no |
number_of_policies | Number of policies to attach to IAM role for Lambda Function | number |
0 |
no |
policies | List of policy statements ARN to attach to Lambda Function role | list(string) |
[] |
no |
policy | An additional policy document ARN to attach to the Lambda Function role | string |
null |
no |
policy_json | An additional policy document as JSON to attach to the Lambda Function role | string |
null |
no |
policy_statements | Map of dynamic policy statements to attach to Lambda Function role | any |
{} |
no |
provisioned_concurrent_executions | Amount of capacity to allocate. Must be greater than or equal to 1. | number |
-1 |
no |
publish | Whether to publish creation/change as new Lambda Function Version. | bool |
false |
no |
reserved_concurrent_executions | The amount of reserved concurrent executions for this Lambda Function. A value of 0 disables Lambda Function from being triggered and -1 removes any concurrency limitations. Defaults to Unreserved Concurrency Limits -1. | number |
-1 |
no |
role_description | Description of IAM role to use for Lambda Function | string |
null |
no |
role_force_detach_policies | Specifies to force detaching any policies the IAM role has before destroying it. | bool |
true |
no |
role_name | Name of IAM role to use for Lambda Function | string |
null |
no |
role_path | Path of IAM role to use for Lambda Function | string |
null |
no |
role_permissions_boundary | The ARN of the policy that is used to set the permissions boundary for the IAM role used by Lambda Function | string |
null |
no |
role_tags | A map of tags to assign to IAM role | map(string) |
{} |
no |
runtime | Lambda Function runtime | string |
"" |
no |
s3_bucket | S3 bucket to store artifacts | string |
null |
no |
s3_existing_package | The S3 bucket object with keys bucket, key, version pointing to an existing zip-file to use | map(string) |
null |
no |
s3_object_storage_class | Specifies the desired Storage Class for the artifact uploaded to S3. Can be either STANDARD, REDUCED_REDUNDANCY, ONEZONE_IA, INTELLIGENT_TIERING, or STANDARD_IA. | string |
"ONEZONE_IA" |
no |
s3_object_tags | A map of tags to assign to S3 bucket object. | map(string) |
{} |
no |
source_path | The absolute path to a local file or directory containing your Lambda source code | any |
null |
no |
store_on_s3 | Whether to store produced artifacts on S3 or locally. | bool |
false |
no |
tags | A map of tags to assign to resources. | map(string) |
{} |
no |
timeout | The amount of time your Lambda Function has to run in seconds. | number |
3 |
no |
tracing_mode | Tracing mode of the Lambda Function. Valid value can be either PassThrough or Active. | string |
null |
no |
trusted_entities | Lambda Function additional trusted entities for assuming roles (trust relationship) | list(string) |
[] |
no |
use_existing_cloudwatch_log_group | Whether to use an existing CloudWatch log group or create new | bool |
false |
no |
vpc_security_group_ids | List of security group ids when Lambda Function should run in the VPC. | list(string) |
null |
no |
vpc_subnet_ids | List of subnet ids when Lambda Function should run in the VPC. Usually private or intra subnets. | list(string) |
null |
no |
Name | Description |
---|---|
lambda_cloudwatch_log_group_arn | The ARN of the Cloudwatch Log Group |
lambda_role_arn | The ARN of the IAM role created for the Lambda Function |
lambda_role_name | The name of the IAM role created for the Lambda Function |
local_filename | The filename of zip archive deployed (if deployment was from local) |
s3_object | The map with S3 object data of zip archive deployed (if deployment was from S3) |
this_lambda_function_arn | The ARN of the Lambda Function |
this_lambda_function_invoke_arn | The Invoke ARN of the Lambda Function |
this_lambda_function_kms_key_arn | The ARN for the KMS encryption key of Lambda Function |
this_lambda_function_last_modified | The date Lambda Function resource was last modified |
this_lambda_function_name | The name of the Lambda Function |
this_lambda_function_qualified_arn | The ARN identifying your Lambda Function Version |
this_lambda_function_source_code_hash | Base64-encoded representation of raw SHA-256 sum of the zip file |
this_lambda_function_source_code_size | The size in bytes of the function .zip file |
this_lambda_function_version | Latest published version of Lambda Function |
this_lambda_layer_arn | The ARN of the Lambda Layer with version |
this_lambda_layer_created_date | The date Lambda Layer resource was created |
this_lambda_layer_layer_arn | The ARN of the Lambda Layer without version |
this_lambda_layer_source_code_size | The size in bytes of the Lambda Layer .zip file |
this_lambda_layer_version | The Lambda Layer version |
Module managed by Anton Babenko. Check out serverless.tf to learn more about doing serverless with Terraform.
Please reach out to Betajob if you are looking for commercial support for your Terraform, AWS, or serverless project.
Apache 2 Licensed. See LICENSE for full details.