- Overview
- Architecture
- Migration
- Usage
- Deployment
- Queryables
- Aggregation
- Ingesting Data
- Supporting Cross-cluster Search and Replication
- Pre- and Post-Hooks
- Development
- About
- License
Stac-server is an implementation of the STAC API specification for searching and serving metadata for geospatial data, including but not limited to satellite imagery). The STAC and STAC API versions supported by a given version of stac-server are shown in the table below. Additional information can be found in the CHANGELOG
stac-server Version(s) | STAC Version | STAC API Foundation Version |
---|---|---|
0.1.x | 0.9.x | 0.9.x |
0.2.x | <1.0.0-rc.1 | 0.9.x |
0.3.x | 1.0.0 | 1.0.0-beta.2 |
0.4.x | 1.0.0 | 1.0.0-beta.5 |
0.5.x-0.8.x | 1.0.0 | 1.0.0-rc.2 |
>=1.0.0 | 1.0.0 | 1.0.0 |
Currently, stac-server supports the following specifications:
- STAC API - Core
- STAC API - Features
- STAC API - Collections
- STAC API - Item Search
- Query Extension
- Fields Extension
- Sort Extension
- Aggregation Extension (experimental)
The following APIs are deployed instances of stac-server:
Name | STAC Version | STAC API Version | Description |
---|---|---|---|
Earth Search v1 | 1.0.0 | 1.0.0 | Catalog (v1) of some AWS Public Datasets |
USGS Astrogeology STAC API | 1.0.0 | 1.0.0 | A STAC API for planetary data |
Earth Search v0 | 1.0.0-beta.2 | 0.9.0 | Catalog (v0) of some AWS Public Datasets |
Landsat Look | 1.0.0 | 0.9.0 |
flowchart LR
itemsForIngest[Items for ingest]
subgraph ingest[Ingest]
ingestSnsTopic[Ingest SNS Topic]
ingestQueue[Ingest SQS Queue]
ingestLambda[Ingest Lambda]
postIngestSnsTopic[Post-Ingest SNS Topic]
ingestDeadLetterQueue[Ingest Dead Letter Queue]
end
users[Users]
subgraph api[STAC API]
apiGateway[API Gateway]
apiLambda[API Lambda]
end
opensearch[(OpenSearch)]
%% Ingest workflow
itemsForIngest --> ingestSnsTopic
ingestSnsTopic --> ingestQueue
ingestQueue --> ingestLambda
ingestQueue --> ingestDeadLetterQueue
ingestLambda --> opensearch
ingestLambda --> postIngestSnsTopic
%% API workflow
users --> api
apiGateway --> apiLambda
apiLambda --> opensearch
- When upgrading to at least OpenSearch 2.7, there seems to be some low-level problem in the Lucene data storage that is a problem with indicies created in some but not all versions older than 2.7. Indicies created on the latest version in Fall of 2023 were not affected, but indices created is some previous version or versions are. After upgrading to 2.7, items may fail with the message reason "cannot change field "geometry" from doc values type=NONE to inconsistent doc values type=BINARY". There is no publicly-available information about this being a problem. The solution is to create a new index by creating a new collection with a different name, reindex the existing index into the newly-created index, delete and re-created the existing index by creating a collection, and reindex back into the index.
- Update the
EngineVersion
setting in the serverless config file toOpenSearch_2.11
and re-deploy
The default Lambda deployment environment is now Node 18. The major difference between the Node 16 and Node 18 Lambda environment is that the Node 16 env includes AWS SDK for JS v2, and Node 18 includes v3. This code has been updated to use v3, so the Node 18 environment must be used, or the build must be modified to install the v3 libraries.
To update the deployment to use Node 18, modify the serverless config file value
provider.runtime
to be nodejs18.x
and the application re-deployed.
- Update the
EngineVersion
setting in the serverless config file toOpenSearch_2.9
and re-deploy
- Update the
EngineVersion
setting in the serverless config file toOpenSearch_2.7
and re-deploy
As of 2.0.0, only OpenSearch is supported and only using fine-grained access control. It is recommended to follow the migration path to upgrade to fine-grained access control first and then upgrade to stac-server 2.x.
stac-server now has the ability to publish all ingested entities (Items and Collections) to an SNS topic. Follow these steps to add this to an existing deployment. These configurations are also in the serverless.example.yml file, so reference that if it is unclear exactly where to add this in your config.
The following changes should be added to the serverless.yml file.
Explicitly set the provider/environment setting for STAC_API_URL so the ingested entities published to the topic will have their link hrefs set correctly. If this is not set, the entities will still be published, with with incorrect link hrefs.
STAC_API_URL: "https://some-stac-server.com"
Add the SNS topic resource:
postIngestTopic:
Type: AWS::SNS::Topic
Properties:
TopicName: ${self:service}-${self:provider.stage}-post-ingest
For the ingest
Lambda resource definition, configure the ARN to publish to by adding:
environment:
POST_INGEST_TOPIC_ARN: !Ref postIngestTopic
Add IAM permissions with the statement:
- Effect: Allow
Action:
- sns:Publish
Resource:
Fn::GetAtt: [postIngestTopic, TopicArn]
By default, a new deployment of 0.5.x will use OpenSearch instead of Elasticsearch. There are three options if you have an existing deployment that uses Elasticsearch:
- Use stac-server in compatibility mode
- Add to serverless.yml environment variables
ES_COMPAT_MODE: "true"
and retain the existing Elasticsearch 7.10 resource description.
- Add to serverless.yml environment variables
- Manage the Elasticsearch/OpenSearch domain outside the stac-server serverless deployment.
- With the 0.4.x stac-server code, add
DeletionPolicy: Retain
to theAWS::Elasticsearch::Domain
resource - Deploy the stack to update this property in the deployed CloudFormation Stack.
- Remove the
AWS::Elasticsearch::Domain
resource from serverless.yml, modify all of the variables that were previously dynamically populated by the Elasticsearch resource values to be hard-coded, and re-deploy. - The Elasticsearch domain is now independent of the CF Stack.
- With the 0.5.x stac-server code, update the serverless.yml environment variable
ES_COMPAT_MODE: "true"
- Deploy the 0.5.x stac-server code with the updated serverless.yml file
- Through the AWS Console, upgrade the OpenSearch Service domain from Elasticsearch 7.10 to OpenSearch 1.3, retaining the compatibilty mode enabled configuration.
- Upgrade the OpenSearch 1.3 domain to OpenSearch 2.5.
- Re-deploy the stack without the ES_COMPAT_MODE environment variable set.
- With the 0.4.x stac-server code, add
- (Preferred) Disconnect the Elasticsearch domain from the stac-server CF Stack, deploy a new stac-server CF Stack, upgrade the Elasticsearch domain to OpenSearch, and connect the domain to the new CF Stack. This is described below.
Additionally, the ES_HOST
variable used in the serverless.yml file has been
renamed OPENSEARCH_HOST
.
Note! The migration must be done carefully to avoid losing the database!
The major part of this migration is the use of OpenSearch 2.5 instead of Elasticsearch 7.10. Confusingly, both of these are options in the AWS OpenSearch Service, but the Elasticsearch option is no longer being updated by AWS in favor of OpenSearch.
The migration generally follows the outline in here. The underlying problem being solved here is that the CloudFormation resource AWS::Elasticsearch::Domain is used for Elasticsearch, but AWS::OpenSearchService::Domain is used for OpenSearch, and a CloudFormation update can't "migrate" between these resource types. So, the approach is to upgrade the domain to OpenSearch in compatibility mode, then clone the CloudFormation Stack, and import the OpenSearch domain into it.
- With the 0.4.x codebase, change the serverless.yml file to add
DeletionPolicy: Retain
andUpdateReplacePolicy: Retain
to theAWS::Elasticsearch::Domain
definition at the same level as theType
and deploy. See instructions for deploying here.
Type: AWS::Elasticsearch::Domain
DeletionPolicy: Retain
UpdateReplacePolicy: Retain
Properties:
. . .
-
The existing Elasticsearch domain must be manually migrated to OpenSearch. Prior to re-deploying the stack, use the AWS Console to manually upgrade the Elasticsearch domain (
Actions->Upgrade
) to OpenSearch 1.3. Select "Enable compatibility mode" to support the existing stac-server 0.4.x code using the Elasticsearch JavaScript client library (@elastic/elasticsearch version 7.9.0). After this upgrade to OpenSearch 1.3, then upgrade the domain to OpenSearch 2.5. -
Create a clone of the stac-server 0.5.x code. Copy and update the serverless.yml file used for the 0.4.0 deployment with these changes:
-
ElasticSearchInstance
should be renamed toOpenSearchInstance
- The
Type
of this resource should be changed fromAWS::Elasticsearch::Domain
toAWS::OpenSearchService::Domain
ElasticsearchClusterConfig
is nowClusterConfig
InstanceType
values have changed, e.g., t3.small.elasticsearch is now t3.small.searchElasticsearchVersion
is replaced withEngineVersion
and set toOpenSearch_2.5
- The
-
EsEndpoint
should be renamed toOpenSearchEndpoint
and the exported name suffixed with-os-endpoint
instead of-es-endpoint
-
Environment variable
STAC_API_VERSION
should be removed to instead defer to the current default version -
The
DomainName
value must remain the same as it is for the current deployment so the CloudFormation deployment will import the existing resource. Instead of a parameterized value of${self:service}-${self:provider.stage}
as in the example serverless.yml file, it would have a hard-coded service name and-es
suffix, e.g.,my-stac-server-${self:provider.stage}-es
. -
Note: these changes can be checked against the serverless.example.yml file.
- Run
npm run package
to generate the CloudFormation templates in the.serverless
directory. Extract from the file.serverless/cloudformation-template-update-stack.json
a template that only has the OpenSearchInstance resource in it. For example:
{
"AWSTemplateFormatVersion": "2010-09-09",
"Description": "A STAC API running on stac-server",
"Resources": {
"OpenSearchInstance": {
"Type": "AWS::OpenSearchService::Domain",
"DeletionPolicy": "Retain",
"UpdateReplacePolicy": "Retain",
"UpdatePolicy": {
"EnableVersionUpgrade": true
},
"Properties": {
"DomainName": "my-stac-server-dev-es",
"EBSOptions": {
"EBSEnabled": true,
"VolumeType": "gp2",
"VolumeSize": 35
},
"ClusterConfig": {
"InstanceType": "t3.small.search",
"InstanceCount": 2,
"DedicatedMasterEnabled": false,
"ZoneAwarenessEnabled": true
},
"EngineVersion": "OpenSearch_2.3",
"DomainEndpointOptions": {
"EnforceHTTPS": true
}
}
}
}
}
-
Within CloudFormation, choose
Create stack
andWith existing resources (import resources)
. Upload the template that contains only the OpenSearch resource. Choose a new stack name for this similar to the old one, e.g.,my-stac-server-2-{deploy-stage}
and updateservice
name in the serverless.yml file with this name without the deploy stage e.g.,my-stac-server-2
. When prompted for the name of the OpenSearch Domain, put in the name of the existing one, e.g.,my-stac-server-dev-es
. -
Deploy the new stack with
npm run deploy -- --stage {deploy-stage}
. This should appear as an update to the CloudFormation stack that was just created manually, and should use the existing OpenSearch domain. -
Switch the DNS entry for the domain name to the API Gateway endpoint for the new Stack. See instructions here.
-
Double-check that the
DeletionPolicy: Retain
is set on the old Stack for the Elasticsearch/OpenSearch resource, and then delete the old Stack.
The new experimental endpoint /collections/{c_id}/items/{item_id}/thumbnail
will
redirect to a URL providing a thumbnail as determined by the assets in an item. If the
href for this is an AWS S3 ARN, IAM permissions must be granted for the API Lambda to
generate a pre-signed HTTP URL instead. For example:
- Effect: Allow
Action: s3:GetObject
Resource: 'arn:aws:s3:::usgs-landsat/*'
Create a new deployment, copy the elasticsearch database, and rename indexes.
The Serverless Framework supports provisioning AWS resources, but it does not support updating existing resources. In 0.4, the default Elasticsearch version has been updated from 7.9 to 7.10. Continuing to use 7.9 should not cause any problems, but it recommended that you manually upgrade to 7.10 by going to AWS Console - Amazon OpenSearch Service, choosing the Elasticsearch domain used by your stac-server deployment (e.g., stac-server-{stage}-es), choose Upgrade from the Actions menu, and then upgrade to Elasticsearch 7.10.
It is now recommended to disable automatic index creation.
Elasticsearch indices each have a mapping applied that determines how the data is indexed and searched over.
These mappings do not change the document data, but can change search behavior. One relevant mapping
behavior is that by default, string fields are analyzed for full-text search. In most cases with STAC Items,
values such as those in the id
and collection
fields should not be analyzed and should instead be searchable only
by exact matches. In Elasticsearch, this is known as a keyword
field type. Importantly, sorting may only be done over keyword
typed fields. As of 0.4.0, the default sort is now by properties.datetime
, then id
, then collection
, and results will not be returnd if any indicies have the id
or collection
fields mapped as text
instead of keyword
.
For each index (other than collections
), use GET to retrieve the endpoint GET /{collectionId}/_mapping
, and
validate that properties.datetime
type is date
, and id
and collection
mappings are keyword
(not text
with a keyword
subfield). For an AWS Opensearch Service instance, this can be done with a script similar to the one here.
The results should look simliar to this:
{
"my_collection_name": {
"mappings": {
"dynamic_templates": [
...
{
"strings": {
"match_mapping_type": "string",
"mapping": {
"type": "keyword"
}
}
},
...
],
"properties": {
....
"id": {
"type": "keyword"
},
"collection": {
"type": "keyword"
},
....
"properties": {
"properties": {
...
"datetime": {
"type": "date"
},
...
}
},
...
}
}
}
}
If this is not the case, the easiest solution to fix it is to:
- Deploy a 0.4.0 instance.
- Backup and restore the 0.3.0 instance's Elasticsearch indicies to the 0.4.0 instances's Elasticsearch database.
- Create a collection via ingest with a new collection name similar to the existing one (e.g., if index foo exists, create foo_new).
- Reindex from the the existing index (foo) to the the new one (foo_new).
- Delete the exiting index and rename the new one to the name of the formerly-existing one (e.g. foo_new -> foo).
Stac-server is a web API that returns JSON, see the documentation, or the /api endpoint which is a self-documenting OpenAPI document. STAC Index collects information on a number of client tools.
stac-server supports both GET and POST Search requests.
An Item Search with GET:
curl "${HOST}/search?collections=sentinel-2-l2a,sentinel-2-l1c&bbox=10,10,15,15&query=%7B%22eo%3Acloud_cover%22%3A%7B%22gte%22%3A0,%22lte%22%3A5%7D%7D&sortby=-properties.datetime"
Notice that the query
parameter is a URL-encoded JSON value.
An Item Search with POST:
curl -X "POST" "${HOST}/search" \
-H 'Content-Type: application/json; charset=utf-8' \
-d $'{
"collections": [
"sentinel-2-l2a",
"sentinel-2-l1c"
],
"bbox": [
10,
10,
15,
15
],
"query": {
"eo:cloud_cover": {
"gte": 0,
"lte": 5
}
},
"sortby": {
"field": "properties.datetime",
"direction": "desc"
}
}'
This repository contains Node libraries for running the API, along with a serverless configuration file for deployment to AWS.
To create your own deployment of stac-server, first clone the repository:
git clone https://github.com/stac-utils/stac-server.git
cd stac-server
Copy the example serverless config file to a file named serverless.yml
:
cp serverless.example.yml serverless.yml
There are some settings that should be reviewed and updated as needeed in the serverless config file, under provider->environment:
Name | Description | Default Value |
---|---|---|
OPENSEARCH_HOST | The URL of the OpenSearch cluster. | |
STAC_VERSION | The STAC version for the STAC objects returned by server. This should not be confused with the STAC API version. | 1.0.0 |
STAC_ID | ID of this catalog | stac-server |
STAC_TITLE | Title of this catalog | STAC API |
STAC_DESCRIPTION | Description of this catalog | A STAC API |
STAC_DOCS_URL | URL to documentation | https://stac-utils.github.io/stac-server |
LOG_LEVEL | Level for logging (error, warn, info, http, verbose, debug, silly) | warn |
REQUEST_LOGGING_ENABLED | Express request logging enabled. String 'false' disables. | enabled |
REQUEST_LOGGING_FORMAT | Express request logging format to use. Any of the Morgan predefined formats. | tiny |
STAC_API_URL | The root endpoint of this API | Inferred from request |
ENABLE_TRANSACTIONS_EXTENSION | Boolean specifying if the Transaction Extension should be activated | false |
STAC_API_ROOTPATH | The path to append to URLs if this is not deployed at the server root. For example, if the server is deployed without a custom domain name, it will have the stage name (e.g., dev) in the path. | "" |
PRE_HOOK | The name of a Lambda function to be called as the pre-hook. | none |
POST_HOOK | The name of a Lambda function to be called as the post-hook. | none |
ES_COMPAT_MODE | Enable Elasticsearch 7.10 compatibility mdoe within the server. | false |
OPENSEARCH_CREDENTIALS_SECRET_ID | The AWS Secrets Manager secret use for the username and password to authenticate to OpenSearch. | |
OPENSEARCH_USERNAME | The username to authenticate to OpenSearch when AWS Secrets Manager is not used. | |
OPENSEARCH_PASSWORD | The password to authenticate to OpenSearch when AWS Secrets Manager is not used. | |
COLLECTION_TO_INDEX_MAPPINGS | A JSON object representing collection id to index name mappings if they do not have the same names. | |
ITEMS_INDICIES_NUM_OF_SHARDS | Configure the number of shards for the indices that contain Items. | none |
ITEMS_INDICIES_NUM_OF_REPLICAS | Configure the number of replicas for the indices that contain Items. | none |
CORS_ORIGIN | Configure the value to send for the Access-Control-Allow-Origin CORS header. Should be set to the domain name of the UI if Basic Authentication is enable (e.g., https://ui.example.com ). |
* |
CORS_CREDENTIALS | Configure whether or not to send the Access-Control-Allow-Credentials CORS header. Header will be sent if set to true . |
none |
CORS_METHODS | Configure whether or not to send the Access-Control-Allow-Methods CORS header. Expects a comma-delimited string, e.g., GET,PUT,POST . |
GET,HEAD,PUT,PATCH,POST,DELETE |
CORS_HEADERS | Configure whether or not to send the Access-Control-Allow-Headers CORS header. Expects a comma-delimited string, e.g., Content-Type,Authorization . If not specified, defaults to reflecting the headers specified in the request’s Access-Control-Request-Headers header. |
none |
Additionally, the credential for OpenSearch must be configured, as decribed in the section Populating and accessing credentials.
After reviewing the settings, build and deploy:
npm install
npm run build
OPENSEARCH_MASTER_USER_PASSWORD='some-password' npm run deploy
This will use the file serverless.yml
and create a CloudFormation stack in the
us-west-2
region called stac-server-dev
.
After the initial deployment, the MasterUserOptions
option in the serverless.yml file
can be commented out so that OPENSEARCH_MASTER_USER_PASSWORD does not need to be passed
at every deployment.
To change the region or the stage name (from dev
) provide arguments to the deploy command
(note the additional --
in the command, required by npm
to provide arguments):
OPENSEARCH_MASTER_USER_PASSWORD='some-password' npm run deploy -- --stage mystage --region eu-central-1
Multiple deployments can be managed with multiple serverless config files and specified to the deploy command with:
npm run deploy -- --config serverless.some-name.yml
Once deployed, there are a few steps to configure OpenSearch.
It is recommended to disable the automatic index creation. This prevents the situation where a group of Items are bulk indexed before the Collection in which they are contained has been created, and an OpenSearch index is created without the appropriate mappings.
This can either be done by calling the /_cluster/settings
endpoint directly:
curl -X "PUT" "${HOST}/_cluster/settings" \
-H 'Content-Type: application/json; charset=utf-8' \
-u "admin:${OPENSEARCH_MASTER_USER_PASSWORD}" \
-d '{"persistent": {"action.auto_create_index": "false"}}'
or setting that configuration via the OpenSearch Dashboard.
stac-server supports either fine-grained access control or AWS IAM authentication to OpenSearch. This section describes how to configure fine-grained access control.
Warning: Unfortunately, fine-grained access control cannot be enabled on an existing OpenSearch cluster through the serverless deploy, as this is a restriction of CloudFormation which serverless uses. A migration process between the clusters must be performed similar to the Elasticsearch -> OpenSearch migration process.
The AccessPolicies Statement will restrict the OpenSearch instance to only being accessible within AWS. This requires the user creation steps below be either executed from or proxied through an EC2 instance, or that the Access Policy be changed temporarily through the console in the domain's Security configuration to be "Only use fine-grained access control".
The next step is to create the OpenSearch user and role to use for stac-server. This can either be done through the OpenSearch API or Dashboard.
This assumes the master username is admin
and creates a user with the name stac_server
.
Environment variables HOST
and OPENSEARCH_MASTER_USER_PASSWORD
should be set in the
shell environment.
Create the Role:
curl -X "PUT" "${HOST}/_plugins/_security/api/roles/stac_server_role" \
-H 'Content-Type: application/json; charset=utf-8' \
-u "admin:${OPENSEARCH_MASTER_USER_PASSWORD}" \
-d $'{
"cluster_permissions": [
"cluster_composite_ops",
"cluster:monitor/health"
],
"index_permissions": [
{
"index_patterns": [
"*"
],
"allowed_actions": [
"indices_all"
]
}
],
"tenant_permissions": [
{
"tenant_patterns": [
"global_tenant"
],
"allowed_actions": [
"kibana_all_read"
]
}
]
}'
Create the User:
curl -X "PUT" "${HOST}/_plugins/_security/api/internalusers/stac_server" \
-H 'Content-Type: application/json; charset=utf-8' \
-u "admin:${OPENSEARCH_MASTER_USER_PASSWORD}" \
-d $'{ "password": "xxx" }'
Double-check the response to ensure that the user was actually created!
Map the Role to the User:
curl -X "PUT" "${HOST}/_plugins/_security/api/rolesmapping/stac_server_role" \
-H 'Content-Type: application/json; charset=utf-8' \
-u "admin:${OPENSEARCH_MASTER_USER_PASSWORD}" \
-d $'{
"users": [
"stac_server"
]
}'
Login to the OpenSearch Dashboard with the master username (e.g. admin
) and password.
From the left sidebar menu, select "Security". Select "Internal users", and then "Create
internal user". Create the user with the name stac_server
.
Click "Create New Role". Create a new Role with name stac_server_role
with:
- Cluster permissions:
cluster:monitor/health
,cluster_composite_ops
- Index permissions:
indices_all
on*
- Tenant permissions:
global_tenant
Read only
Note that several of the indices permissions in cluster_composite_ops
action group
are required to
be applyed to the Cluster permissions. Confusingly, the cluster_all
action group does
not have those permissions in it because they are indices
permissions rather than
cluster
permissions. This is all very confusing! This issue has been filed against
the OpenSearch Security Plugin to request improvements to the documentation.
Add the user stac_server
as a mapped user to this role.
After you've created the users, you'll need to populate the credentials for the user so that stac-server can access them.
The preferred mechanism for populating the OpenSearch credentials to stac-server is to
create a secret in AWS Secret Manager that contains the username and password. The
recommended name for this Secret corresponds
to the stac-server deployment as ${service}-${stage}-opensearch-user-creds
, e.g.,
my-stac-server-dev-opensearch-user-creds
.
The Secret type should be "Other type of secret" and
have two keys, username
and password
, with the appropriate
values, e.g., stac_server
and whatever you set as the password when creating that user.
Add the OPENSEARCH_CREDENTIALS_SECRET_ID
variable to the serverless.yml section
environment
:
OPENSEARCH_CREDENTIALS_SECRET_ID: ${self:service}-${self:provider.stage}-opensearch-user-creds
Add to the IAM Role Statements:
- Effect: Allow
Resource: arn:aws:secretsmanager:${aws:region}:${aws:accountId}:secret:${self:provider.environment.OPENSEARCH_CREDENTIALS_SECRET_ID}-*
Action: "secretsmanager:GetSecretValue"
If desired, the resource ARN can be replaced with the exact ARN for the Secret instead of
using an ARN ending with *
.
Redeploy to reconfigure OpenSearch and populate the authentication configuration. The server should now be using fine-grained access control.
Alternately, instead of using the preferred mechanism of Secrets Manager,
the OPENSEARCH_USERNAME
and OPENSEARCH_PASSWORD
values can be set directly
in the environment
section:
OPENSEARCH_USERNAME: stac_server
OPENSEARCH_PASSWORD: xxxxxxxxxxx
Setting these as environment variables can also be useful when running stac-server locally.
stac-server is now ready to ingest data!
The collection
index must be created, which stores the metadata about each Collection.
Invoke the stac-server-<stage>-ingest
Lambda function with a payload of:
{
"create_indices": true
}
This can be done with the AWS CLI Version 2.
aws lambda invoke \
--function-name stac-server-dev-ingest \
--cli-binary-format raw-in-base64-out \
--payload '{ "create_indices": true }' \
/dev/stdout
The API Gateway URL associated with the deployed stac-server instance may not be the URL that you ultimately wish to expose to your API users. AWS CloudFront can be used to proxy to a more human readable URL. In order to accomplish this:
- Create a new CloudFront distribution (or use an existing distribution).
- Set the origin to the Gateway API URL (obtain in the stage view of the deployed stac-server). The URL is in the form
<##abcde>.execute-api.region.amazonaws.com
. - Set the origin path to the deployed stage name prepended with a
/
, (e.g., /dev or /prod). - Under behaviors, add a new behavior for the desired URL endpoint or subdomain (e.g., /api or /v0.4.0).
- Set the 'Origin and origin groups to the URL defined above ('
<##abcde>.execute-api.region.amazonaws.com
'). - Set Viewer to HTTPS only and Allowed HTTP Methods to 'GET, HEAD, OPTIONS, PUT, POST, PATCH, DELETE'.
- Set the Cache Policy to a custom policy that forwards query strings. If one simply disables caching, CloudFront strips the query strings.
- Optionally, define a LambdaEdge to perform a URL rewrite. This is necessary if your API URL is appended to the root URL (e.g., mydomain.com/api). The Lambda must rewrite the URL to remove the /api. For example:
from re import sub
def lambda_handler(event, context):
request = event['Records'][0]['cf']['request']
uri = request["uri"]
if uri in ["/", "/index.html"]:
response = {
"status": 302,
"statusDescription": "Found",
"headers": {
"location": [{
"key": "Location",
"value": "/api/"
}]
}
}
return response
request["uri"] = sub("^/api", "/", uri)
print(request)
return request
If you wanted to deploy STAC Server in a way which ensures certain endpoints have restricted access but others don't, you can deploy it into a VPC and add conditions that allow only certain IP addresses to access certain endpoints. Once you deploy STAC Server into a VPC, you can modify the Resource Policy of the API Gateway endpoint that gets deployed to restrict access to certain endpoints. Here is a hypothetical example. Assume that the account into which STAC Server is deployed is numbered 1234-5678-9123, the API ID is ab1c23def, and the region in which it is deployed is us-west-2. You might want to give the general public access to use any GET or POST endpoints with the API such as the "/search" endpoint, but lock down access to the transaction endpoints (see https://github.com/radiantearth/stac-api-spec/tree/master/ogcapi-features/extensions/transaction) to only allow certain IP addresses to access them. These IP addresses can be, for example: 94.61.192.106, 204.176.50.129, and 11.27.65.78. In order to do this, you can impose a condition on the API Gateway that only allows API transactions such as adding, updating, and deleting STAC items from the whitelisted endpoints. For example, here is a Resource Policy containing two statements that allow this to happen:
{
"Version": "2012-10-17",
"Statement": [
{
"Effect": "Allow",
"Principal": "*",
"Action": "execute-api:Invoke",
"Resource": [
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/POST/search",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/POST/search/*",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/GET/search/*",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23defi/v1/GET/*"
]
},
{
"Effect": "Allow",
"Principal": "*",
"Action": "execute-api:Invoke",
"Resource": [
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/POST/collections/*/items",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/PUT/collections/*/items/*",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/PATCH/collections/*/items/*",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/DELETE/collections/*/items/*"
],
"Condition": {
"IpAddress": {
"aws:sourceIp": [
"94.61.192.106",
"204.176.50.129",
"11.27.65.78"
]
}
}
}
]
}
The first statement in the Resource Policy above grants access to STAC API endpoints for use in general operations like searching, and the second statement restricts access to the Transaction endpoints to a set of source IP addresses. According to this policy, POST, PUT, PATCH, and DELETE operations on items within collections are only allowed if the request originates from the IP addresses 94.61.192.106, 204.176.50.129, or 11.27.65.78. The second statement can also be written in another manner, denying access to the Transaction endpoints for all addresses that don’t match a set of source IP addresses. This is shown below.
{
"Effect": "Deny",
"Principal": "*",
"Action": "execute-api:Invoke",
"Resource": [
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/POST/collections/*/items",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/PUT/collections/*/items/*",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/PATCH/collections/*/items/*",
"arn:aws:execute-api:us-west-2:123456789123:ab1c23def/v1/DELETE/collections/*/items/*"
],
"Condition": {
"NotIpAddress": {
"aws:sourceIp": [
"94.61.192.106",
"204.176.50.129",
"11.27.65.78"
]
}
}
}
Frequently, stac-server is deployed with AWS WAF protection. When making a POST request
that only has the limit
parameter in the body, a WAF SQL injection protection rule
incurs a false positive and returns a Forbidden status code. This request is an example:
curl -X POST ${HOST}/search -d '{"limit": 1}'
This is also triggered when using pystac_client with no filtering parameters.
The fix is to disable the WAF SQL injection rule, which is unnecessary because stac-server does not use SQL.
The example serverless.yml config contains disabled configuration for setting up API Gateway logging of API requests. More information about these configuration can be found in the Serverless Framework API Gateway Documentation.
The executionLogging
setting causes logging of the actual execution of the API Gateway
endpoints and backing Lambda, with fullExecutionData
causing the entire request and
response to be logged to CloudWatch, which can be expensive.
The accessLogging
setting logs the values specified in format
to CloudWatch, which
can be useful for computing metrics on usage for the API.
STAC API supports the Query Extension. Unlike the Filter Extension (which is not supported),
the Query Extension does not (yet) define a mechanism to advertise which terms may be
used in expressions. However, an optional defintion may be added to it soon that defines
queryables endpoints the same as used with Filter Extension. To define these for a Collection,
add a field queryables
with the value as the JSON Schema definition of the queryables
for that collection. This will be used for a collection's queryables resource, and removed
from the Collection entity whenever that is returned.
A non-configurable root-level queryables definition is defined with no named terms but
additionalProperties
set to true
.
STAC API supports the Aggregation Extension. This allows the definition of per-collection aggregations that can be
calculated, dependent on the relevant fields being available in the STAC Items in that
Collection. A field named aggregations
should be added to the Collection object for
the collection for which the aggregations are available, e.g.:
"aggregations": [
{
"name": "total_count",
"data_type": "integer"
},
{
"name": "datetime_max",
"data_type": "datetime"
},
{
"name": "datetime_min",
"data_type": "datetime"
},
{
"name": "datetime_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "datetime"
},
{
"name": "grid_code_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "string"
},
{
"name": "centroid_geohash_grid_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "string"
},
{
"name": "centroid_geohex_grid_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "string"
},
{
"name": "centroid_geotile_grid_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "string"
},
{
"name": "geometry_geohash_grid_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "string"
},
{
"name": "geometry_geotile_grid_frequency",
"data_type": "frequency_distribution",
"frequency_distribution_data_type": "string"
}
]
Available aggregations are:
- total_count (count of total items)
- collection_frequency (Item
collection
field) - platform_frequency (Item.Properties.platform)
- cloud_cover_frequency (Item.Properties.eo:cloud_cover)
- datetime_frequency (Item.Properties.datetime, monthly interval)
- datetime_min (earliest Item.Properties.datetime)
- datetime_max (latest Item.Properties.datetime)
- sun_elevation_frequency (Item.Properties.view:sun_elevation)
- sun_azimuth_frequency (Item.Properties.view:sun_azimuth)
- off_nadir_frequency (Item.Properties.view:off_nadir)
- grid_code_frequency (Item.Properties.grid:code)
- grid_geohash_frequency (geohash grid on Item.Properties.proj:centroid) (Deprecated)
- grid_geohex_frequency (geohex grid on Item.Properties.proj:centroid) (Deprecated)
- grid_geotile_frequency (geotile grid on Item.Properties.proj:centroid) (Deprecated)
- centroid_geohash_grid_frequency (geohash grid on Item.Properties.proj:centroid)
- centroid_geohex_grid_frequency (geohex grid on Item.Properties.proj:centroid)
- centroid_geotile_grid_frequency (geotile on Item.Properties.proj:centroid)
- geometry_geohash_grid_frequency (geohash grid on Item.geometry)
- geometry_geotile_grid_frequency (geotile grid on Item.geometry)
STAC Collections and Items are ingested by the ingest
Lambda function, however this Lambda is not invoked directly by a user, it consumes records from the stac-server-<stage>-queue
SQS. To add STAC Items or Collections to the queue, publish them to the SNS Topic stac-server-<stage>-ingest
.
STAC Collections must be ingested before Items that belong to that Collection. Items should have the collection
field populated with the ID of an existing Collection. If an Item is ingested before ingestion of the Collection it contains,
ingestion will either fail (in the case of a single Item ingest) or if auto-creation of indexes is enabled (default) and multiple Items are ingested in bulk, the auto-created index will have incorrect mappings.
If a collection or item is ingested, and an item with that id already exists in STAC, the new item will completely replace the old item.
After a collection or item is ingested, the status of the ingest (success or failure) along with details of the collection or item are sent to a post-ingest SNS topic. To take action on items after they are ingested subscribe an endpoint to this topic.
Messages published to the post-ingest SNS topic include the following atributes that can be used for filtering:
attribute | type | values |
---|---|---|
recordType | String | Collection or Item |
ingestStatus | String | successful or failed |
collection | String |
There is a 256 KB limit on the size of SQS messages. Larger items can by publishing a message to the stac-server-<stage>-ingest
SNS topic in with the format:
{
"href": "s3://source-bucket/source-key"
}
The s3://
, http://
, and https://
protocols are supported for remote ingest.
Stac-server can also be subscribed to SNS Topics that publish complete STAC Items as their message. This provides a way to keep stac-server up to date with new data. Use the AWS Lambda console for the function stac-server-<stage>-subscibe-to-sns
to subscribe to an SNS Topic for which you have the full ARN and permission to subscribe to. This could be an SNS Topic you created yourself to publish STAC records to, or a publicly available one, such as for Sentinel.
Note, that adding the subscription via the topic page does not seem to work. Instead, add a trigger on Lambda edit page.
Errors that occur while consuming items from the ingest queue will end up in the dead letter processing queue.
OpenSearch support cross-cluster connections that can be configured to either allow search across the clusters, treating a remote cluster as if it were another group of nodes in the cluster, or configure indicies to be replicated (continuously copied) from from one cluster to another.
Configuring either cross-cluster behavior requires fine-grained access control.
The AWS documentation for cross-cluster search can be found here.
- Ensure fine-grained access control is enabled.
- Create a connection between the source and destination OpenSearch domains.
- Ensure there is a
es:ESCrossClusterGet
action in the destination's access policy. - In the source stac-server, create a Collection for each collection to be mapped. This must have the same id as the destination collection.
- For the source stac-server, configure a
COLLECTION_TO_INDEX_MAPPINGS
environment variable with a stringified JSON object mapping the collection name to the name of the index. For example,{"collection1": "cluster2:collection1", "collection2": "cluster2:collection2"}
is a value mapping two collections through a connection namedcluster2
. Deploy this change.
The AWS documentation for cross-cluster replication can be found here.
- Ensure fine-grained access control is enabled (default as of v2.0.0)
- Create the replication connection in the source to the destination
- Create the collection in the source's stac-server instance
Stac-server supports two hooks into the request process: a pre-hook and a post-hook. These are each Lambda functions which, if configured, will be invoked by stac-server. It is assumed that the stac-server Lambda has been granted permission to invoke these Lambda functions, if configured.
If the stac-server is deployed with the PRE_HOOK
environment variable set to the name of a Lambda function, then that function will be called as the pre-hook.
The event passed into the pre-hook Lambda will be an instance of an API Gateway Proxy Event.
If the return value from the pre-hook Lambda is an instance of an API Gateway Proxy Result, then that response will immediately be returned to the client.
If the return value of the pre-hook Lambda is an instance of an API Gateway Proxy Event, then that event will be passed along to stac-server.
If the pre-hook Lambda throws an exception, an internal server error will be returned to the client.
The pre-hook Lambda configuration may reference any Lambda, not only one deployed as part of this stack. There is an example pre-hook Lambda that can be included with this stack, which provides an example rudimentary authorization mechanism via a hard-coded token.
To enable this example pre-hook:
- Either (1) in package.json, pass the env var
BUILD_PRE_HOOK=true
in thebuild
command, or (2) modify bin/build.sh to always build the "pre-hook" package. - In the serverless.yml file, uncomment the
preHook
function, thepreHook
IAM permissions, and the environment variablesPRE_HOOK
andAPI_KEYS_SECRET_ID
- Create a Secrets Manager secret with the name used in
API_KEYS_SECRET_ID
with the keys as the strings allowed for API Keys and the values as an array["write"]
. - Build and deploy.
If the stac-server is deployed with the POST_HOOK
environment variable set to the name of a Lambda function, then that function will be called as the post-hook.
The event passed into the post-hook labmda will be the response from the stac-server, and will be an instance of an API Gateway Proxy Result.
The return value of the post-hook Lambda must be an instance of an API Gateway Proxy Result.
If the post-hook Lambda throws an exception, an internal server error will be returned to the client.
The post-hook Lambda configuration may reference any Lambda, not only one deployed as part of this stack. There is an example post-hook Lambda that can be included with this stack, which does nothing, but shows how the API Lambda response can be modified.
The post-hook Lambda configuration may reference any Lambda, not only one deployed as part of this stack. There is an example post-hook Lambda that can be included with this stack, which provides an example of how to interact with the response, but does not modify it.
To enable this example post-hook:
- Modify bin/build.sh to not exclude the "post-hook" package from being built.
- In the serverless.yml file, uncomment the
postHook
function and thepostHook
IAM permissions. - Build and deploy.
flowchart
client -- APIGatewayProxyEvent --> pre-hook
pre-hook[pre-hook Lambda]
pre-hook -- APIGatewayProxyResult --> client
pre-hook -- APIGatewayProxyEvent --> stac-server
post-hook[post-hook Lambda]
stac-server -- APIGatewayProxyResult --> post-hook
post-hook -- APIGatewayProxyResult --> client
Lambda payloads and responses must be less than 6 MB. A larger payload will result in an internal server error being returned to the client.
The outputs of the pre- and post-hooks are validated and, if they don't comply with the defined schemas, an internal server error will be returned to the client. Information about the invalid event, as well as details about the parsing errors, will be logged to CloudWatch.
Install NVM to manage your Node.js environment.
# uses version in .nvmrc
nvm install
nvm use
The package-lock.json was built with npm 8.5.0, so use at least this version.
There are several useful npm commands available to use locally:
# Install dependencies in package.json
npm install
# Run the build command in each of the packages (runs webpack)
npm run build
# Run ESLint
npm run lint
# To run tests for all packages
npm run test
# To build API docs from the api spec
npm run build-api-docs # TODO: this fails
Before the API can be run, OpenSearch and Localstack need to be running. There is a docker-compose.yml
file to simplify running OpenSearch locally:
docker-compose up -d
The API can then be run with:
npm run serve
Connect to the server on http://localhost:3000/
Other configurations can be passed as shell environment variables, e.g.,
export ENABLE_TRANSACTIONS_EXTENSION=true
export OPENSEARCH_HOST='https://search-stac-server-dev-7awl6h344qlpvly.us-west-2.es.amazonaws.com'
npm run serve
stac-server uses ava to execute tests.
# alias to run unit tests
npm test
# run unit tests in tests directory
npm run test:unit
# run unit tests with coverage
npm run test:coverage
# run tests from a single test file whose titles match 'foobar*'
npx ava tests/test-es.js --match='foobar*'
The System and Integration tests use an OpenSearch server running in Docker and a local instance of the API.
When the system tests run, they:
- Wait for OpenSearch to be available
- Delete all indices from OpenSearch
- Start an instance of the API. That API will be available at http://localhost:3000/dev/
- Wait for the API to be available
- Run the system tests in
./tests/system/test-*.js
- Stop the API
Before running the system tests, make sure to start OpenSearch using:
docker-compose up -d
Running these tests requires the timeout utility is installed. On Linux,
this is probably already installed, and on macOS it can be installed with brew install coreutils
.
Once OpenSearch has been started, run the system tests:
npm run test:system
A subset of system tests may be run by providing a glob matching the test files to run:
npm run test:system test-api-item-*
Run the integration tests (Note: currently none exist):
npm run test:integration
The OpenAPI specification is served by the endpoint /api
.
This file is location in src/lambdas/api/openapi.yaml.
When the API is updated to a new STAC API release, this file must be updated. To update it, first install yq, then run:
bin/build-openapi.sh
This script combines all of the STAC API OpenAPI definitions for each conformance class into one file.
Next, edit that file to make it specific to this server. For example:
- edit to change the title from
STAC API - Item Search
to justSTAC API
- remove all of the Filter Extension references
- Fix each endpoint, especially the Landing Page defintion, which gets duplicated
- Add definitions for each tag
To validate the resulting OpenAPI file, run
npm run check-openapi
and fix any errors or warnings.
stac-server was forked from sat-api. Stac-server is for STAC versions 0.9.0+, while sat-api exists for versions of STAC prior to 0.9.0.
stac-server is licensed under The MIT License. Copyright for portions of stac-server is held by Development Seed (2016) as part of project sat-api original license. Copyright for all changes to stac-server since the fork date is held by Element 84, Inc (2020).