CloudGraph is the free open-source universal GraphQL API and Cloud Security Posture Management (CSPM) tool for AWS, Azure, GCP, and K8s. With CloudGraph you get:
- Free and effortless compliance checks (i.e. Azure CIS 1.3.1, GCP CIS 1.2, AWS CIS 1.2, AWS CIS 1.3, AWS CIS 1.4, AWS PCI 3.2.1, AWS NIST 800-53 Rev. 4)
- Type-Safe asset inventories for all of your resources in all of your cloud environments
- Automatically generated documentation and query validation - know if your query is valid before you send it!
- Full resource data including relationships between resources so you can understand context
- Historical snapshots of your data over time
- A single endpoint to query all of your cloud data at once (i.e. get AWS + GCP data in the same query, or compare AWS stage with AWS prod)
- Enhanced billing data (AWS only)
- Enhanced CloudWatch data (AWS EC2 only)
Cloud Graph lets you Know your cloud in 5 minutes. Built and maintained with love by the team at ❤️ AutoCloud ❤️
🌐 Website
💰 Get paid to build CloudGraph providers
- Amazing companies using CloudGraph**
- Why CloudGraph
- How It Works
- Authentication and Permissions
- Install
- Quick Start
- Loading Previous Versions
- Supported Services
- Example Queries
- Query Tools
- Community
- Contribution Guidelines
- Deployment Options
- Hosted Version
- Debugging
- Common Errors
- Commands
** usage does not imply endorsement
AWS, Azure, and GPC have done a wonderful job of building solutions that let engineers like us create systems to power our increasingly interconnected world. Over the last 15 years, products such as EC2, S3, RDS, and Lambda have fundamentally changed how we think about computing, storage, and databasing.
With the proliferation of Kubernetes and Serverless in the last 5 or so years, cloud services have become increasingly abstract on top of racks of physical servers. To end-users, everything on the cloud is just an API, so we don't necessarily need to know how Lambda Functions or EKS work under the hood to be able to use them for building applications. With a little documentation, API or console access, and a tutorial anyone can pretty much create anything they need.
These abstractions have led to massive improvements in the overall convenience and breadth of CSP service offerings. What was once a painstaking, time-consuming, and error-prone process of provisioning new servers, databases, or filesystems can now be done in seconds with just the click of a button or deployment of IAC. Since everything is just an API abstraction, when a CAP is ready to introduce a new "product" they simply need to expose a new API - yes, I'm of course simplifying slightly :)
Anyone familiar with the CSPs knows that service APIs are almost always split into modular namespaces that contain dozens, if not hundreds, of separate API methods for single resources. For example, the AWS EC2 service contains over 500 different API methods, with new ones added occasionally. Any company building substantial systems on a CSP is likely using many, many different services.
While a masterpiece of datacenter architecture, this choice of hundreds of services and configuration options put the burden of knowledge on how to properly use these services squarely on us engineers. As a result, we find ourselves having to constantly stay up to date and learn about all the service offerings or new changes. This takes a significant amount of time and mental energy. As developers, it can be difficult, time-consuming, and frustrating to use the AWS CLI to make 5 different API calls to describe, as an example, an AWS ECS cluster, its services, task definitions, tasks, container definitions, etc. We often find ourselves lost in documentation and having to use half a dozen of APIs to get answers to questions like "What exactly is running in this VPC?"
This means that AWS, Azure, and GCP can feel overwhelming quickly even to seasoned cloud architects. While the CSPs are fantastic at building the actual services that power our businesses, not a lot of headway has been into simplifying the day-to-day UX of querying these hundreds of services in a sane manner.
New solutions like the Cloud Control API for AWS have attempted to create a standardized interface for querying many different types of AWS resources. Unfortunately, the Cloud Control API's usage is severely limited, and users still need to know how to correctly query their data. This means more time spent reading documentation and understanding how services work and are related to one another.
While the modularity of the CSP APIs is a great logical organization system and does make sense, it's a burden on end-users in terms of the cognitive overhead and learning curve. Having to remember how hundreds of constantly changing services work and are connected leads to a caffeine addiction and time wasted playing detective.
Wouldn't it be great if we as DevOps/Cloud engineers had a simpler way to get our data out of AWS, Azure, GCP and the others? One that reflected our need to easily query any data about any service in any account without having to spend hours on docs or stack overflow?
It is for these reasons that we built CloudGraph, the GraphQL API for everything cloud. CloudGraph extracts, normalizes, processes, and enriches your cloud data allowing you to access deep insights across multiple providers effortlessly. Check out our blog post The GraphQL API for everything to learn more.
Note that CloudGraph requires READ ONLY permissions to run and as such can never mutate your actual cloud infrastructure. Additionally, none of your cloud environment information is ever sent to or shared with CloudGraph, AutoCloud, or any other third parties.
Under the hood, CloudGraph reaches out to your cloud provider(s), sucks up all of the configuration data, processes it, and stores a copy of this data for you in Dgraph. It then exposes an endpoint at http://localhost:8997
that allows you to write GraphQL Queries against your stored data. These queries not only allow you do to anything that you would do with say, the AWS SDK/CLI, but they also allow you to run much more powerful queries as well. CloudGraph ships with pre-packaged GraphQL query tools including GraphQL Playground and Altair but you can also feel free to use your own. It also includes a schema visualization tool called Voyager so you can understand relationships between entities.
CloudGraph currently supports AWS, Azure, GCP, K8s, and Tencent (several others coming soon). CloudGraph needs read permissions in order to ingest your data. To keep things easy you can use the same permissions that we use internally when we run CloudGraph to power AutoCloud. Here are the auth guides and details for how to generate credentials for each provider (feel free to leave out AutoCloud specific configuration):
System Requirements
- Docker
There are 2 ways to install the CloudGraph CLI
You can install CloudGraph using homebrew with the following command:
brew install cloudgraphdev/tap/cg
- Requires Node 16+
Use this command to install and update CloudGraph to the latest version.
npm i -g @cloudgraph/cli
You can then add the providers you want (links to provider repos: AWS, Azure, GCP, K8s, Tencent Docs):
cg init aws
cg init azure
cg init gcp
cg init k8s
cg init tencent
You can also add as many as you want all at once
cg init aws azure gcp k8s tencent
And add in compliance policy packs to supplement your data with instant security insights:
cg policy add gcp-cis-1.2.0
cg policy add azure-cis-1.3.1
cg policy add aws-cis-1.2.0
cg policy add aws-cis-1.3.0
cg policy add aws-cis-1.2.0
cg policy add aws-pci-dss-3.2.1
cg policy add aws-nist-800-53-rev4
You can find a list of currently supported policy packs in the Policy Packs repo
You can get up and running with three simple commands:
cg init
- This initializes CloudGraph's configuration. This command will ask you a series of questions about what providers you are using and how you would like CloudGraph configured.
cg launch
- This command launches an instance of Dgraph, the graphdb CloudGraph uses to store data under the hood. Note that there are 2 ways to launch an instance. BOTH of these require Docker to be installed and running. The preferred solution is to use our
cg launch
convenience command.
Note that if you do not want to use this command, for example, if you want to launch the Dgraph container in interactive mode, you can use the docker command below.
docker run -it -p 8995:5080 -p 8996:6080 -p 8997:8080 -p 8998:9080 -p 8999:8000
--label cloudgraph-cli-dgraph-standalone -v ~/dgraph:/dgraph --name dgraph dgraph/standalone:v21.03.1
cg scan
- Scan for cloud infrastructure for all configured providers. This command will reach out and read all of the metadata on your cloud infrastructure. Note that it is completely normal to see warnings and errors while the
cg scan
command runs, these are usually caused by permissions issues. That said, if you encounter any problematic errors running CloudGraph you can prependCG_DEBUG=5
to the beginning of your command as in,CG_DEBUG=5 cg scan
. This will print out the verbose logs with more information and save the output tocg-debug.log
. Please share your logs with us either by opening an issue on GitHub or let us know in our Slack Workspace.
That's it, you are all set to start querying! The query tool you selected during the cg init
command will then be opened in your preferred browser to run queries, mutations, and visualizations on all of your cloud infrastructure! Note that if you installed any policy packs, such as AWS CIS 1.2, policy pack insight data will be automatically added to your cloud data!
Note that you may also use any GraphQL query tool you would like by connecting it to http://localhost:8997/graphql.
To stop the Dgraph instance(stop the dgraph container) run:
cg teardown
Additionally if you wish to remove the container after stopping it, run:
cg teardown --delete-image
CloudGraph stores as many previous versions of your data as you configured in the cg init
command. In order to load and query a previous version of your data simply run the cg load
command and select the version of your data you wish to inspect like so:
You can find the list of services currently supported for each provider in the following provider repos:
Link to full documentation: https://docs.cloudgraph.dev/overview.
To use CloudGraph, you will need to be familiar with GraphQL. This section contains a handful of example queries to get you up and running but is by no means exhaustive. If you can dream it up, you can query it! Note that you can find hundreds of additional example queries in the documentation.
Note: this section will focus on AWS, but the same ideas apply other provider like Azure and GCP
To explain how CloudGraph works consider the following query that you can run to get the ID
and ARN
of a single EC2 instance
. Note that for the purposes of these examples we will just request the IDs
and ARNs
of AWS resources to keep things terse, but you can query whatever attributes you want:
query {
getawsEc2(
arn: "arn:aws:ec2:us-east-1:123445678997:instance/i-12345567889012234"
) {
id
arn
}
}
This query will return a JSON
payload that looks like this. All of the following examples will follow suit:
{
"data": {
"getawsEc2": {
"id": "i-12345567889012234",
"arn": "arn:aws:ec2:us-east-1:123445678997:instance/i-12345567889012234"
}
},
"extensions": {
"touched_uids": 4
}
}
Get the ID
and ARN
of each EC2
in all the AWS accounts you have scanned:
query {
queryawsEc2 {
id
arn
}
}
Get the ID
and ARN
of all EC2
instances in one of your AWS accounts by filtering the accountId:
query {
queryawsEc2(filter: { accountId: { eq: "123456" } }) {
id
arn
}
}
Get the ID
and ARN
of each EC2
in "us-east-1"
using a regex to search the ARN
:
query {
queryawsEc2(filter: { arn: { regexp: "/.*us-east-1.*/" } }) {
id
arn
}
}
Do the same thing but checking to see that the region
is equal to "us-east-1"
instead of using a regex:
query {
queryawsEc2(filter: { region: { eq: "us-east-1" } }) {
id
arn
}
}
Do the same thing but checking to see that the region
contains "us-east-1"
in the name instead of using eq:
query {
queryawsEc2(filter: { region: { in: "us-east-1" } }) {
id
arn
}
}
Get the ID
and ARN
of each M5
series EC2 instance
in "us-east-1"
query {
queryawsEc2(
filter: { region: { eq: "us-east-1" }, instanceType: { regexp: "/^m5a*/" } }
) {
id
arn
}
}
Do the same thing but skip the first found result (i.e. offset: 1
) and then only return the first two results after that (i.e. first: 2
) and order those results by AZ in ascending order (order: { asc: availabilityZone }
) so that instance(s) in "us-east-1a"
are returned at the top of the list.
query {
queryawsEc2(
filter: { region: { eq: "us-east-1" }, instanceType: { regexp: "/^m5a*/" } }
order: { asc: availabilityZone }
first: 2
offset: 1
) {
id
arn
}
}
Do the same thing but also include the EBS Volume
that is the boot disk for each EC2 instance
:
query {
queryawsEc2(
filter: { region: { eq: "us-east-1" }, instanceType: { regexp: "/^m5a*/" } }
order: { asc: availabilityZone }
first: 2
offset: 1
) {
id
arn
ebs(filter: { isBootDisk: true }, first: 1) {
id
arn
isBootDisk
}
}
}
Do the same thing, but also include the SGs
and ALBs
for each EC2
. For the ALBs
, get the EC2s
that they are connected to along with the ID
and ARN
of each found EC2 instance
(i.e. a circular query).
query {
queryawsEc2(
filter: { region: { eq: "us-east-1" }, instanceType: { regexp: "/^m5a*/" } }
order: { asc: availabilityZone }
first: 2
offset: 1
) {
id
arn
ebs(filter: { isBootDisk: true }, first: 1) {
id
arn
isBootDisk
}
securityGroups {
id
arn
}
alb {
id
arn
ec2Instance {
id
arn
}
}
}
}
Get each VPC
, the ALBs
and Lambdas
in that VPC
, and then a bunch of nested sub-data as well. Also get each S3 Bucket
in us-east-1
. Also get the SQS
queue with an ARN
of arn:aws:sqs:us-east-1:8499274828484:autocloud.fifo
and check the approximateNumberOfMessages
. You get the idea, CloudGraph is extremely powerful.
query {
queryawsVpc {
id
arn
alb {
id
arn
ec2Instance {
id
arn
ebs(filter: { isBootDisk: true }) {
id
arn
}
}
}
lambda {
id
arn
kms {
id
arn
}
}
}
queryawsS3(filter: { region: { eq: "us-east-1" } }) {
id
arn
}
getawsSqs(arn: "arn:aws:sqs:us-east-1:8499274828484:autocloud.fifo") {
approximateNumberOfMessages
}
}
CloudGraph Policy Packs guarantee compliance across existing infrastructure for a given cloud provider. Packs are based on sets of rules/benchmarks provided by security organizations like the Center for Internet Security with the objective of keeping your infrastructure up-to-date with industry security standards. Once you have added a policy pack using the cg policy add
command (i.e. cg policy add aws-cis-1.2.0
) each time you run a scan CloudGraph will automatically execute your configured policies. Those results will be stored at Dgraph and linked to your existing resources, making it easy to query your compliance results alongside your resources.
For more information on currently available policy packs please visit our Policy Packs repo
Use the CloudGraph Policy Pack for AWS CIS 1.2 to query all of your CIS findings for all of your AWS Accounts:
query {
queryawsCISFindings {
id
resourceId
result
rule {
id
description
severity
}
}
}
If you want to query several different compliance findings for a given provider like AWS at once, you can request them like this:
query {
queryawsFindings {
CISFindings {
id
resourceId
result
rule {
id
description
severity
}
}
AutoCloudFindings {
id
resourceId
result
rule {
id
description
severity
}
}
}
}
For each CIS rule, get the resources that the rule is associated with, in this case we are quering IAM user's data to see which pass and fail:
query {
queryawsCISFindings {
id
resourceId
result
rule {
id
description
severity
}
iamUser {
id
arn
name
}
}
}
If you wanted to understand the CIS rules that apply to a particular IAM User you could use the following query:
query {
getawsIamUser(id: "123456789") {
name
CISFindings {
id
resourceId
result
rule {
id
description
severity
}
}
}
}
Even if you don't have any policy packs installed, you can still write powerful security queries like this to find all the unencrypted EBS Volumes
:
query {
queryawsEbs(filter: { encrypted: false }) {
id
arn
availabilityZone
encrypted
}
}
Find all the public S3 Buckets
:
query {
queryawsS3(filter: { access: { eq: "Public" } }) {
id
arn
access
}
}
Find all the S3 Buckets
that are themselves public or that can have Objects that are public in them:
query {
queryawsS3(filter: { not: { access: { eq: "Private" } } }) {
id
arn
access
}
}
Find all the KMS
keys in "us-east-1"
:
query {
queryawsKms(filter: { arn: { regexp: "/.*us-east-1.*/" } }) {
id
arn
description
keyRotationEnabled
tags {
key
value
}
}
}
Find all the burstable T
series instances:
query {
queryawsEc2(filter: { instanceType: { regexp: "/^t.*/" } }) {
id
arn
availabilityZone
instanceType
}
}
Find the default VPCs
:
query {
queryawsVpc(filter: { defaultVpc: true }) {
id
arn
defaultVpc
state
}
}
Find the public ALBs
:
query {
queryawsAlb(filter: { scheme: { eq: "internet-facing" } }) {
id
arn
dnsName
createdAt
tags {
key
value
}
}
}
Find all of the EC2s
, Lambdas
, and VPCs
that have a Tag
value of "Production"
:
query {
queryawsTag(filter: { value: { eq: "Production" } }) {
key
value
ec2Instance {
id
arn
}
lambda {
id
arn
}
vpc {
id
arn
}
}
}
Do the same thing but look for both a key
and a value
:
query {
queryawsTag(
filter: { key: { eq: "Environment" }, value: { eq: "Production" } }
) {
key
value
ec2Instance {
id
arn
}
lambda {
id
arn
}
vpc {
id
arn
}
}
}
Do the same thing using getawsTag
instead of queryawsTag
. Note that when searching for tags using getawsTag
your must specify both the key
and value
as the id
like is done below with "Environment:Production"
:
query {
getawsTag(id: "Environment:Production") {
key
value
ec2Instance {
id
arn
}
lambda {
id
arn
}
vpc {
id
arn
}
}
}
Note that billing data is currently only available for AWS. In order to successfully ingest FinOps related data you must have the Cost Explorer API enabled in your AWS Account. You can view how to do that here
Get the total cost
of your AWS Account for the last 30 days
, the total cost
of your AWS Account month to date
, a breakdown of each service and its cost for the last 30 days
, and a breakdown of each service and its cost month to date
as well as the monthly
and month to date
average costs:
query {
queryawsBilling {
totalCostLast30Days {
cost
currency
formattedCost
}
totalCostMonthToDate {
cost
currency
formattedCost
}
monthToDate {
name
cost
currency
formattedCost
}
last30Days {
name
cost
currency
formattedCost
}
monthToDateDailyAverage {
name
cost
currency
formattedCost
}
last30DaysDailyAverage {
name
cost
currency
formattedCost
}
}
}
This query will return a JSON
payload that looks like this:
{
"data": {
"queryawsBilling": [
{
"totalCostLast30Days": {
"cost": 7088.87,
"currency": "USD",
"formattedCost": "$7088.87"
},
"totalCostMonthToDate": {
"cost": 7089.28,
"currency": "USD",
"formattedCost": "$7089.28"
},
"monthToDate": [
{
"name": "Amazon Relational Database Service",
"cost": 548.68,
"currency": "USD",
"formattedCost": "$548.68"
},
{
"name": "Amazon Managed Streaming for Apache Kafka",
"cost": 67.49,
"currency": "USD",
"formattedCost": "$67.49"
},
{
"name": "Amazon OpenSearch Service",
"cost": 1155.04,
"currency": "USD",
"formattedCost": "$1155.04"
}
...More Services
],
"last30Days": [
{
"name": "AWS Step Functions",
"cost": 330.20,
"currency": "USD",
"formattedCost": "$330.20"
},
{
"name": "Amazon Elastic Container Service for Kubernetes",
"cost": 194.40,
"currency": "USD",
"formattedCost": "$194.40"
},
{
"name": "AmazonCloudWatch",
"cost": 310.54,
"currency": "USD",
"formattedCost": "$310.54"
}
...More Services
],
"monthToDateDailyAverage": [
{
"name": "Amazon Relational Database Service",
"cost": 54.86,
"currency": "USD",
"formattedCost": "$54.86"
},
{
"name": "Amazon Managed Streaming for Apache Kafka",
"cost": 6.74,
"currency": "USD",
"formattedCost": "$6.74"
},
{
"name": "Amazon OpenSearch Service",
"cost": 115.50,
"currency": "USD",
"formattedCost": "$115.50"
}
...More Services
],
"last30DaysDailyAverage": [
{
"name": "AWS Step Functions",
"cost": 33.01,
"currency": "USD",
"formattedCost": "$33.01"
},
{
"name": "Amazon Elastic Container Service for Kubernetes",
"cost": 19.44,
"currency": "USD",
"formattedCost": "$19.44"
},
{
"name": "AmazonCloudWatch",
"cost": 31.05,
"currency": "USD",
"formattedCost": "$31.05"
}
...More Services
],
}
]
},
"extensions": {
"touched_uids": 212
}
}
Get each EC2 instance
in your AWS account along with its daily cost:
query {
queryawsEc2 {
arn
dailyCost {
cost
currency
formattedCost
}
}
}
This query will return a JSON
payload that looks like this. All of the following examples will follow suit:
{
{
"data": {
"queryawsEc2": [
{
"arn": "arn:aws:ec2:us-east-1:12345678910:instance/i-0c8b3vhfgf8df923f",
"dailyCost": {
"cost": 2.06,
"currency": "USD",
"formattedCost": "$2.06"
}
},
{
"arn": "arn:aws:ec2:us-east-1:12345678910:instance/i-060b3dsfds7sdf62e3",
"dailyCost": {
"cost": 2.06,
"currency": "USD",
"formattedCost": "$2.06"
}
},
...More EC2 Instances
]
},
"extensions": {
"touched_uids": 28
}
}
Get each NAT Gateway
in your AWS account along with its daily cost:
query {
queryawsNatGateway {
arn
dailyCost {
cost
currency
formattedCost
}
}
}
CloudGraph ingests your CloudWatch Metric data and stores it along with select AWS services. This feature is currently in beta and will work for EC2 only:
query {
queryawsEc2 {
arn
cloudWatchMetricData {
lastWeek {
cpuUtilizationAverage
networkInAverage
networkOutAverage
networkPacketsInAverage
networkPacketsOutAverage
statusCheckFailedSum
statusCheckFailedInstanceSum
statusCheckFailedSystemSum
diskReadOpsAverage
diskWriteOpsAverage
diskReadBytesAverage
diskWriteBytesAverage
}
lastMonth {
cpuUtilizationAverage
networkInAverage
networkOutAverage
networkPacketsInAverage
networkPacketsOutAverage
statusCheckFailedSum
statusCheckFailedInstanceSum
statusCheckFailedSystemSum
diskReadOpsAverage
diskWriteOpsAverage
diskReadBytesAverage
diskWriteBytesAverage
}
last6Hours {
cpuUtilizationAverage
networkInAverage
networkOutAverage
networkPacketsInAverage
networkPacketsOutAverage
statusCheckFailedSum
statusCheckFailedInstanceSum
statusCheckFailedSystemSum
diskReadOpsAverage
diskWriteOpsAverage
diskReadBytesAverage
diskWriteBytesAverage
}
last24Hours {
cpuUtilizationAverage
networkInAverage
networkOutAverage
networkPacketsInAverage
networkPacketsOutAverage
statusCheckFailedSum
statusCheckFailedInstanceSum
statusCheckFailedSystemSum
diskReadOpsAverage
diskWriteOpsAverage
diskReadBytesAverage
diskWriteBytesAverage
}
}
}
}
When you think, "in terms of a graph", you can do almost anything with CloudGraph. Say for example that you want to know what Lamba functions don't belong to a VPC (i.e. they don't leverage VPC networking). Because CloudGraph connects all resources that have relationships, such as VPC parents to their Lambda children, you are able to answer this question easily. Simply check to see what lambda functions the VPC is "connected" to, and compare that against the list of all lambda functions like so:
query {
queryawsVpc {
id
arn
lambda {
id
arn
}
}
queryawsLambda {
id
arn
}
}
Today, the biggest limitation with CloudGraph and our query abilities is we don't support nested filtering based on child attributes. So for example, as cool as it would be to do the following, it's just not possible yet:
query {
# This won't work just yet...
queryawsEc2(filter: { ebs: { isBootDisk: true } }) {
id
arn
ebs {
id
arn
}
}
# So you have to do this instead :(
queryawsEc2 {
id
arn
ebs(filter: { isBootDisk: true }) {
id
arn
}
}
}
This is actually not a limitation of CloudGraph, but rather a feature that still needs to be implemented with Dgraph. You can view and comment on the discussion thread here
CloudGraph ships with 2 awesome query tools and a GraphQL schema explorer. Remember, you can use ANY GraphQL query tool if you would prefer another option, just connect it to your exposed /graphql
endpoint!
GraphQL playground has a fluid and engaging UX that is great for querying a GraphQL schema quickly and simply. It has built-in automatically generated documentation and auto-completion while you type. To access playground, either select it as your preferred query tool in the init
command OR visit /playground
in the server CG spins up.
Altair is another great GraphQL query tool that packs a ton of features for power users. Do things like autocomplete queries, dynamically add fragments, and export/import collections of queries. To access Altair, either select it as your preferred query tool in the init
command OR visit /altair
in the server CG spins up.
GraphQL Voyager is an awesome way to explore the schema(s) for your CG providers. It gives you a great bidirectional chart containing all your types and queries. You can click entities or arrows to discover connections, search for something specific, and get a deeper understanding of your schema. To access voyager, visit /voyager
in the server CG spins up.
Comments, questions, or feedback? Please Join Our Slack Workspace we would love to hear from you.
If you're interested in contributing to CloudGraph please check out our Contribution Guidelines.
You can either run CloudGraph locally, or you can deploy it to your cloud provider of choice. Terraform modules and guides for cloud deployments are coming soon!
Interested in a fully managed SaaS/self hosted version of CloudGraph that has built in 3D visualization capabilities, automated scans, and hundreds of additional compliance checks? Check out AutoCloud for more details.
If you encounter any errors running CloudGraph you can prepend CG_DEBUG=5
to the beginning of your command as in, CG_DEBUG=5 cg scan
. This will print out the verbose logs with more information that you can then use to either open an issue on GitHub or let us know in our Slack Workspace.
There are some common errors you may see when running CloudGraph that are usually related to permisions or connection issues.
-
⚠️ unable to make some connections - This warning in the scan report appears when CG tries to make a connection between two resources and is unable to do so. If you see this using one of CG's offically supported providers, please create a new issue so we can solve it. The most common cause of this error is a bug in the underlying provider's resource connection logic. -
🚫 unable to store data in Dgraph - This error in the scan report appears when CG tries to insert some cloud provider data into the graph DB and it fails. Any services with this error will be unable to be queried in the GraphQL query tool. This usually happens when CG is unable to grab required data (such as an arn) for a resource due to an error when calling the provider SDK, commonly due to a lack of authorization.
-
Provider {name}@${version} requires cli version {version} but cli version is ${version} - This warning means you have incompatible versions of CG and the provider you are trying to use. Try updating CG
npm install -g @cloudgraphdev/cli
and the provider modulecg provider update
so both are at the latest version. You can also check the proivder'spacakge.json
to see what versions of CG support it. -
Manager failed to install plugin for {provider} - This error occurs when CG's plugin manager can not find the provider module you want to use. The manager searches the public NPM registry for the provider module. For offically supported providers, just pass the provider name
CG init aws
. For community supported providers, you must pass the namespace as wellCG init @{providerNamespace}/{provider}
cg help [COMMAND]
cg init [PROVIDER]
cg launch [PROVIDER]
cg load [PROVIDER]
cg policy [PROVIDER]
cg policy add [PROVIDER]
cg policy install [PROVIDER]
cg policy list [PROVIDER]
cg policy remove [PROVIDER]
cg policy update [PROVIDER]
cg provider [PROVIDER]
cg provider add [PROVIDER]
cg provider install [PROVIDER]
cg provider list [PROVIDER]
cg provider remove [PROVIDER]
cg provider update [PROVIDER]
cg scan [PROVIDER]
cg serve [PROVIDER]
cg teardown [PROVIDER]
cg update [PROVIDER]
Display help for cg.
USAGE
$ cg help [COMMAND] [-n]
ARGUMENTS
COMMAND Command to show help for.
FLAGS
-n, --nested-commands Include all nested commands in the output.
DESCRIPTION
Display help for cg.
See code: @oclif/plugin-help
Set initial configuration for providers
USAGE
$ cg init [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>] [-r]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-r, --resources
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Set initial configuration for providers
EXAMPLES
$ cg init
$ cg init aws [Initialize AWS provider]
$ cg init aws -r [Specify resources to crawl]
See code: src/commands/init.ts
Launch an instance of Dgraph to store data
USAGE
$ cg launch [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Launch an instance of Dgraph to store data
EXAMPLES
$ cg launch
See code: src/commands/launch.ts
Load a specific version of your CloudGraph data
USAGE
$ cg load [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Load a specific version of your CloudGraph data
EXAMPLES
$ cg load [Load data for all providers configured]
$ cg load aws [Load data for AWS]
See code: src/commands/load.ts
Commands to manage policy pack modules, run $ cg policy for more info.
USAGE
$ cg policy [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Commands to manage policy pack modules, run $ cg policy for more info.
See code: src/commands/policy/index.ts
Add new policy packs
USAGE
$ cg policy add [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Add new policy packs
ALIASES
$ cg add policy
EXAMPLES
$ cg policy add aws-cis-1.2.0
$ cg policy add aws-cis-1.2.0@0.12.0
Install policy packs based on the lock file
USAGE
$ cg policy install [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Install policy packs based on the lock file
ALIASES
$ cg install policy
EXAMPLES
$ cg policy install
List currently installed policy packs and versions
USAGE
$ cg policy list [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
List currently installed policy packs and versions
ALIASES
$ cg ls policy
$ cg list policy
EXAMPLES
$ cg policy list
$ cg policy list aws
Remove currently installed policy pack
USAGE
$ cg policy remove [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Remove currently installed policy pack
ALIASES
$ cg remove policy
$ cg policy remove
$ cg policy rm
$ cg del policy
$ cg rm policy
EXAMPLES
$ cg policy remove
$ cg policy remove aws-cis-1.2.0
$ cg policy remove aws-cis-1.2.0 --no-save
Update currently installed policy packs
USAGE
$ cg policy update [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Update currently installed policy packs
EXAMPLES
$ cg policy update
$ cg policy update aws-cis-1.2.0
$ cg policy update aws-cis-1.2.0@0.12.0
Commands to manage provider modules, run $ cg provider for more info.
USAGE
$ cg provider [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Commands to manage provider modules, run $ cg provider for more info.
See code: src/commands/provider/index.ts
Add new providers
USAGE
$ cg provider add [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Add new providers
ALIASES
$ cg add provider
EXAMPLES
$ cg provider add aws
$ cg provider add aws@0.12.0
Install providers based on the lock file
USAGE
$ cg provider install [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Install providers based on the lock file
ALIASES
$ cg install provider
EXAMPLES
$ cg provider install
List currently installed providers and versions
USAGE
$ cg provider list [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
List currently installed providers and versions
ALIASES
$ cg ls provider
$ cg list provider
EXAMPLES
$ cg provider list
$ cg provider list aws
Remove currently installed provider
USAGE
$ cg provider remove [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Remove currently installed provider
ALIASES
$ cg remove provider
$ cg provider remove
$ cg provider rm
$ cg del provider
$ cg rm provider
EXAMPLES
$ cg provider remove
$ cg provider remove aws
$ cg provider remove aws --no-save
Update currently installed providers
USAGE
$ cg provider update [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Update currently installed providers
EXAMPLES
$ cg provider update
$ cg provider update aws
$ cg provider update aws@0.12.0
Scan one or multiple providers data to be queried through Dgraph
USAGE
$ cg scan [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Scan one or multiple providers data to be queried through Dgraph
EXAMPLES
$ cg scan
$ cg scan aws
$ cg scan aws --dgraph http://localhost:1000 [Save data in dgraph running on port 1000]
$ cg scan aws --no-serve [Do not start the query engine]
See code: src/commands/scan.ts
Serve a GraphQL query tool to query your CloudGraph data.
USAGE
$ cg serve [PROVIDER] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p <value>]
[-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Serve a GraphQL query tool to query your CloudGraph data.
EXAMPLES
$ cg serve
See code: src/commands/serve.ts
Stops the Dgraph Docker container.
USAGE
$ cg teardown [PROVIDER] [--delete-image]
FLAGS
--delete-image Remove dgraph docker image after stopping it
DESCRIPTION
Stops the Dgraph Docker container.
EXAMPLES
$ cg teardown
$ cg teardown --delete-image
See code: src/commands/teardown.ts
Upgrade currently installed plugins.
USAGE
$ cg update [PROVIDER] [--no-save] [--dev] [-d <value>] [-s dgraph] [--directory <value>] [--no-serve] [-p
<value>] [-q playground|altair] [-l <value>] [--use-roles] [-P <value>]
FLAGS
-P, --policies=<value> Policy Packs to execute during scan
-d, --dgraph=<value> Set where dgraph is running (default localhost:8997)
-l, --version-limit=<value> Limit the amount of version folders stored on the filesystem (default 10)
-p, --port=<value> Set port to serve query engine
-q, --query-engine=<option> Query engine to launch
<options: playground|altair>
-s, --storage=<option> Select a storage engine to use. Currently only supports Dgraph
<options: dgraph>
--dev Turn on developer mode
--directory=<value> Set the folder where CloudGraph will store data. (default cg)
--no-save Set to not alter lock file, just delete plugin
--no-serve Set to not serve a query engine
--use-roles Set to true to use roleARNs instead of profiles for AWS credentials
DESCRIPTION
Upgrade currently installed plugins.
ALIASES
$ cg update
EXAMPLES
$ cg update
See code: src/commands/update.ts