This repository contains Terraform configuration modules that allow Google Cloud customers to quickly deploy a secured BigQuery data warehouse, following the Secure a BigQuery data warehouse that stores confidential data guide. The blueprint allows customers to use Google Cloud's core strengths in data analytics, and to overcome typical challenges that include:
- Limited knowledge/experience with best practices for creating, deploying, and operating in Google Cloud.
- Security/risk concerns and restrictions from their internal security, risk, and compliance teams.
- Regulatory and compliance approval from external auditors.
The Terraform configurations in this repository provide customers with an opinionated architecture that incorporates and documents best practices for a performant and scalable design, combined with security by default for control, logging and evidence generation. It can be simply deployed by customers through a Terraform workflow.
When using this blueprint, it is important to understand how you manage separation of duties. We recommend you remove all primitive owner
roles in the projects used as inputs for the Data Warehouse module. The secured data warehouse itself does not need any primitive owner roles for correct operations.
When using this blueprint in the example mode or when using this blueprint to create the new projects with default configurations for the deployment, we automatically remove the owner role as it has too broad access.
However, if you choose to use this blueprint with pre-existing projects in your organization, we will not proactively remove any pre-existing owner role assignments, as we won’t know your intent for or dependency on these role assignments in your pre-existing workloads. The pre-existing presence of these roles does expand the attack and risk surface of the resulting deployment. Therefore, we highly recommend you review your use of owner roles in these pre-existing cases and see if you can eliminate them to improve your resulting security posture. Only you can determine the appropriate trade-off to meet your business requirements.
You can check the current situation of your project with either of the following methods:
- Using Security Health Analytics (SHA), checking the KMS vulnerability findings, for the Detector
KMS_PROJECT_HAS_OWNER
.- You can search for the SHA findings with category
KMS_PROJECT_HAS_OWNER
in the Security Command Center in the Google Cloud Console.
- You can search for the SHA findings with category
- You can also use Cloud Asset Inventory search-all-iam-policies gcloud command doing a Query by role to search for owner of the project.
See the terraform-example-foundation for additional good practices.
Basic usage of this module is as follows:
module "secured_data_warehouse" {
source = "terraform-google-modules/secured-data-warehouse/google"
version = "~> 0.1"
org_id = ORG_ID
data_governance_project_id = DATA_GOVERNANCE_PROJECT_ID
confidential_data_project_id = CONFIDENTIAL_DATA_PROJECT_ID
non_confidential_data_project_id = NON_CONFIDENTIAL_DATA_PROJECT_ID
data_ingestion_project_id = DATA_INGESTION_PROJECT_ID
sdx_project_number = EXTERNAL_TEMPLATE_PROJECT_NUMBER
terraform_service_account = TERRAFORM_SERVICE_ACCOUNT
access_context_manager_policy_id = ACCESS_CONTEXT_MANAGER_POLICY_ID
bucket_name = DATA_INGESTION_BUCKET_NAME
pubsub_resource_location = PUBSUB_RESOURCE_LOCATION
location = LOCATION
trusted_locations = TRUSTED_LOCATIONS
dataset_id = DATASET_ID
confidential_dataset_id = CONFIDENTIAL_DATASET_ID
cmek_keyring_name = CMEK_KEYRING_NAME
perimeter_additional_members = PERIMETER_ADDITIONAL_MEMBERS
data_engineer_group = DATA_ENGINEER_GROUP
data_analyst_group = DATA_ANALYST_GROUP
security_analyst_group = SECURITY_ANALYST_GROUP
network_administrator_group = NETWORK_ADMINISTRATOR_GROUP
security_administrator_group = SECURITY_ADMINISTRATOR_GROUP
delete_contents_on_destroy = false
}
Note: There are three inputs related to GCP Locations in the module:
pubsub_resource_location
: is used to define which GCP location will be used to Restrict Pub/Sub resource locations. This policy offers a way to ensure that messages published to a topic are never persisted outside of a Google Cloud regions you specify, regardless of where the publish requests originate. Zones or multi-region locations are not supported.location
: is used to define which GCP region will be used for all other resources created: Cloud Storage buckets, BigQuery datasets, and Cloud KMS key rings. Multi-region locations are supported.trusted_locations
: is a list of locations that are used to set an Organization Policy that restricts the GCP locations that can be used in the projects of the Secured Data Warehouse. Bothpubsub_resource_location
andlocation
must respect this restriction.
Name | Description | Type | Default | Required |
---|---|---|---|---|
access_context_manager_policy_id | The id of the default Access Context Manager policy. Can be obtained by running gcloud access-context-manager policies list --organization YOUR-ORGANIZATION_ID --format="value(name)" . |
string |
"" |
no |
bucket_class | The storage class for the bucket being provisioned. | string |
"STANDARD" |
no |
bucket_lifecycle_rules | List of lifecycle rules to configure. Format is the same as described in provider documentation https://www.terraform.io/docs/providers/google/r/storage_bucket.html#lifecycle_rule except condition.matches_storage_class should be a comma delimited string. | list(object({ |
[ |
no |
bucket_name | The name of the bucket being provisioned. | string |
n/a | yes |
cmek_keyring_name | The Keyring prefix name for the KMS Customer Managed Encryption Keys being provisioned. | string |
n/a | yes |
confidential_data_access_level_allowed_device_management_levels | Condition - A list of allowed device management levels. An empty list allows all management levels. | list(string) |
[] |
no |
confidential_data_access_level_allowed_encryption_statuses | Condition - A list of allowed encryptions statuses. An empty list allows all statuses. | list(string) |
[] |
no |
confidential_data_access_level_combining_function | How the conditions list should be combined to determine if a request is granted this AccessLevel. If AND is used, each Condition must be satisfied for the AccessLevel to be applied. If OR is used, at least one Condition must be satisfied for the AccessLevel to be applied. | string |
"AND" |
no |
confidential_data_access_level_ip_subnetworks | Condition - A list of CIDR block IP subnetwork specification. May be IPv4 or IPv6. Note that for a CIDR IP address block, the specified IP address portion must be properly truncated (that is, all the host bits must be zero) or the input is considered malformed. For example, "192.0.2.0/24" is accepted but "192.0.2.1/24" is not. Similarly, for IPv6, "2001:db8::/32" is accepted whereas "2001:db8::1/32" is not. The originating IP of a request must be in one of the listed subnets in order for this Condition to be true. If empty, all IP addresses are allowed. | list(string) |
[] |
no |
confidential_data_access_level_minimum_version | The minimum allowed OS version. If not set, any version of this OS satisfies the constraint. Format: "major.minor.patch" such as "10.5.301", "9.2.1". | string |
"" |
no |
confidential_data_access_level_negate | Whether to negate the Condition. If true, the Condition becomes a NAND over its non-empty fields, each field must be false for the Condition overall to be satisfied. | bool |
false |
no |
confidential_data_access_level_os_type | The operating system type of the device. | string |
"OS_UNSPECIFIED" |
no |
confidential_data_access_level_regions | Condition - The request must originate from one of the provided countries or regions. Format: A valid ISO 3166-1 alpha-2 code. | list(string) |
[] |
no |
confidential_data_access_level_require_corp_owned | Condition - Whether the device needs to be corp owned. | bool |
false |
no |
confidential_data_access_level_require_screen_lock | Condition - Whether or not screenlock is required for the DevicePolicy to be true. | bool |
false |
no |
confidential_data_dataflow_deployer_identities | List of members in the standard GCP form: user:{email}, serviceAccount:{email} that will deploy Dataflow jobs in the Confidential Data project. These identities will be added to the VPC-SC secure data exchange egress rules. | list(string) |
[] |
no |
confidential_data_egress_policies | A list of all egress policies for the Confidential Data perimeter, each list object has a from and to value that describes egress_from and egress_to. See also secure data exchange and the VPC-SC module. You can use the placeholders DATA_INGESTION_DATAFLOW_CONTROLLER_SA and CONFIDENTIAL_DATA_DATAFLOW_CONTROLLER_SA to refer to the services accounts being created by the main module. |
list(object({ |
[] |
no |
confidential_data_ingress_policies | A list of all ingress policies, each list object has a from and to value that describes ingress_from and ingress_to.Example: [{ from={ sources={ resources=[], access_levels=[] }, identities=[], identity_type="ID_TYPE" }, to={ resources=[], operations={ "SRV_NAME"={ OP_TYPE=[] }}}}] Valid Values: ID_TYPE = null or IDENTITY_TYPE_UNSPECIFIED (only allow indentities from list); ANY_IDENTITY ; ANY_USER_ACCOUNT ; ANY_SERVICE_ACCOUNT SRV_NAME = "* " (allow all services) or Specific ServicesOP_TYPE = methods or permissions. You can use the placeholders DATA_INGESTION_DATAFLOW_CONTROLLER_SA and CONFIDENTIAL_DATA_DATAFLOW_CONTROLLER_SA to refer to the services accounts being created by the main module. |
list(object({ |
[] |
no |
confidential_data_perimeter | Existing confidential data perimeter to be used instead of the auto-created perimeter. The service account provided in the variable terraform_service_account must be in an access level member list for this perimeter before this perimeter can be used in this module. |
string |
"" |
no |
confidential_data_project_id | Project where the confidential datasets and tables are created. | string |
n/a | yes |
confidential_data_required_access_levels | Condition - A list of other access levels defined in the same Policy, referenced by resource name. Referencing an AccessLevel which does not exist is an error. All access levels listed must be granted for the Condition to be true. | list(string) |
[] |
no |
confidential_dataset_id | Unique ID for the confidential dataset being provisioned. | string |
"secured_dataset" |
no |
data_analyst_group | Google Cloud IAM group that analyzes the data in the warehouse. | string |
n/a | yes |
data_engineer_group | Google Cloud IAM group that sets up and maintains the data pipeline and warehouse. | string |
n/a | yes |
data_governance_access_level_allowed_device_management_levels | Condition - A list of allowed device management levels. An empty list allows all management levels. | list(string) |
[] |
no |
data_governance_access_level_allowed_encryption_statuses | Condition - A list of allowed encryptions statuses. An empty list allows all statuses. | list(string) |
[] |
no |
data_governance_access_level_combining_function | How the conditions list should be combined to determine if a request is granted this AccessLevel. If AND is used, each Condition must be satisfied for the AccessLevel to be applied. If OR is used, at least one Condition must be satisfied for the AccessLevel to be applied. | string |
"AND" |
no |
data_governance_access_level_ip_subnetworks | Condition - A list of CIDR block IP subnetwork specification. May be IPv4 or IPv6. Note that for a CIDR IP address block, the specified IP address portion must be properly truncated (that is, all the host bits must be zero) or the input is considered malformed. For example, "192.0.2.0/24" is accepted but "192.0.2.1/24" is not. Similarly, for IPv6, "2001:db8::/32" is accepted whereas "2001:db8::1/32" is not. The originating IP of a request must be in one of the listed subnets in order for this Condition to be true. If empty, all IP addresses are allowed. | list(string) |
[] |
no |
data_governance_access_level_minimum_version | The minimum allowed OS version. If not set, any version of this OS satisfies the constraint. Format: "major.minor.patch" such as "10.5.301", "9.2.1". | string |
"" |
no |
data_governance_access_level_negate | Whether to negate the Condition. If true, the Condition becomes a NAND over its non-empty fields, each field must be false for the Condition overall to be satisfied. | bool |
false |
no |
data_governance_access_level_os_type | The operating system type of the device. | string |
"OS_UNSPECIFIED" |
no |
data_governance_access_level_regions | Condition - The request must originate from one of the provided countries or regions. Format: A valid ISO 3166-1 alpha-2 code. | list(string) |
[] |
no |
data_governance_access_level_require_corp_owned | Condition - Whether the device needs to be corp owned. | bool |
false |
no |
data_governance_access_level_require_screen_lock | Condition - Whether or not screenlock is required for the DevicePolicy to be true. | bool |
false |
no |
data_governance_egress_policies | A list of all egress policies for the Data Governance perimeter, each list object has a from and to value that describes egress_from and egress_to. See also secure data exchange and the VPC-SC module. You can use the placeholders DATA_INGESTION_DATAFLOW_CONTROLLER_SA and CONFIDENTIAL_DATA_DATAFLOW_CONTROLLER_SA to refer to the services accounts being created by the main module. |
list(object({ |
[] |
no |
data_governance_ingress_policies | A list of all ingress policies, each list object has a from and to value that describes ingress_from and ingress_to.Example: [{ from={ sources={ resources=[], access_levels=[] }, identities=[], identity_type="ID_TYPE" }, to={ resources=[], operations={ "SRV_NAME"={ OP_TYPE=[] }}}}] Valid Values: ID_TYPE = null or IDENTITY_TYPE_UNSPECIFIED (only allow indentities from list); ANY_IDENTITY ; ANY_USER_ACCOUNT ; ANY_SERVICE_ACCOUNT SRV_NAME = "* " (allow all services) or Specific ServicesOP_TYPE = methods or permissions. You can use the placeholders DATA_INGESTION_DATAFLOW_CONTROLLER_SA and CONFIDENTIAL_DATA_DATAFLOW_CONTROLLER_SA to refer to the services accounts being created by the main module. |
list(object({ |
[] |
no |
data_governance_perimeter | Existing data governance perimeter to be used instead of the auto-created perimeter. The service account provided in the variable terraform_service_account must be in an access level member list for this perimeter before this perimeter can be used in this module. |
string |
"" |
no |
data_governance_project_id | The ID of the project in which the data governance resources will be created. | string |
n/a | yes |
data_governance_required_access_levels | Condition - A list of other access levels defined in the same Policy, referenced by resource name. Referencing an AccessLevel which does not exist is an error. All access levels listed must be granted for the Condition to be true. | list(string) |
[] |
no |
data_ingestion_access_level_allowed_device_management_levels | Condition - A list of allowed device management levels. An empty list allows all management levels. | list(string) |
[] |
no |
data_ingestion_access_level_allowed_encryption_statuses | Condition - A list of allowed encryptions statuses. An empty list allows all statuses. | list(string) |
[] |
no |
data_ingestion_access_level_combining_function | How the conditions list should be combined to determine if a request is granted this AccessLevel. If AND is used, each Condition must be satisfied for the AccessLevel to be applied. If OR is used, at least one Condition must be satisfied for the AccessLevel to be applied. | string |
"AND" |
no |
data_ingestion_access_level_ip_subnetworks | Condition - A list of CIDR block IP subnetwork specification. May be IPv4 or IPv6. Note that for a CIDR IP address block, the specified IP address portion must be properly truncated (that is, all the host bits must be zero) or the input is considered malformed. For example, "192.0.2.0/24" is accepted but "192.0.2.1/24" is not. Similarly, for IPv6, "2001:db8::/32" is accepted whereas "2001:db8::1/32" is not. The originating IP of a request must be in one of the listed subnets in order for this Condition to be true. If empty, all IP addresses are allowed. | list(string) |
[] |
no |
data_ingestion_access_level_minimum_version | The minimum allowed OS version. If not set, any version of this OS satisfies the constraint. Format: "major.minor.patch" such as "10.5.301", "9.2.1". | string |
"" |
no |
data_ingestion_access_level_negate | Whether to negate the Condition. If true, the Condition becomes a NAND over its non-empty fields, each field must be false for the Condition overall to be satisfied. | bool |
false |
no |
data_ingestion_access_level_os_type | The operating system type of the device. | string |
"OS_UNSPECIFIED" |
no |
data_ingestion_access_level_regions | Condition - The request must originate from one of the provided countries or regions. Format: A valid ISO 3166-1 alpha-2 code. | list(string) |
[] |
no |
data_ingestion_access_level_require_corp_owned | Condition - Whether the device needs to be corp owned. | bool |
false |
no |
data_ingestion_access_level_require_screen_lock | Condition - Whether or not screenlock is required for the DevicePolicy to be true. | bool |
false |
no |
data_ingestion_dataflow_deployer_identities | List of members in the standard GCP form: user:{email}, serviceAccount:{email} that will deploy Dataflow jobs in the Data Ingestion project. These identities will be added to the VPC-SC secure data exchange egress rules. | list(string) |
[] |
no |
data_ingestion_egress_policies | A list of all egress policies for the Data Ingestion perimeter, each list object has a from and to value that describes egress_from and egress_to. See also secure data exchange and the VPC-SC module. You can use the placeholders DATA_INGESTION_DATAFLOW_CONTROLLER_SA and CONFIDENTIAL_DATA_DATAFLOW_CONTROLLER_SA to refer to the services accounts being created by the main module. |
list(object({ |
[] |
no |
data_ingestion_ingress_policies | A list of all ingress policies, each list object has a from and to value that describes ingress_from and ingress_to.Example: [{ from={ sources={ resources=[], access_levels=[] }, identities=[], identity_type="ID_TYPE" }, to={ resources=[], operations={ "SRV_NAME"={ OP_TYPE=[] }}}}] Valid Values: ID_TYPE = null or IDENTITY_TYPE_UNSPECIFIED (only allow indentities from list); ANY_IDENTITY ; ANY_USER_ACCOUNT ; ANY_SERVICE_ACCOUNT SRV_NAME = "* " (allow all services) or Specific ServicesOP_TYPE = methods or permissions. You can use the placeholders DATA_INGESTION_DATAFLOW_CONTROLLER_SA and CONFIDENTIAL_DATA_DATAFLOW_CONTROLLER_SA to refer to the services accounts being created by the main module. |
list(object({ |
[] |
no |
data_ingestion_perimeter | Existing data ingestion perimeter to be used instead of the auto-created perimeter. The service account provided in the variable terraform_service_account must be in an access level member list for this perimeter before this perimeter can be used in this module. |
string |
"" |
no |
data_ingestion_project_id | The ID of the project in which the data ingestion resources will be created | string |
n/a | yes |
data_ingestion_required_access_levels | Condition - A list of other access levels defined in the same Policy, referenced by resource name. Referencing an AccessLevel which does not exist is an error. All access levels listed must be granted for the Condition to be true. | list(string) |
[] |
no |
dataset_default_table_expiration_ms | TTL of tables using the dataset in MS. The default value is null. | number |
null |
no |
dataset_description | Dataset description. | string |
"Data-ingestion dataset" |
no |
dataset_id | Unique ID for the dataset being provisioned. | string |
n/a | yes |
dataset_name | Friendly name for the dataset being provisioned. | string |
"Data-ingestion dataset" |
no |
delete_contents_on_destroy | (Optional) If set to true, delete all the tables in the dataset when destroying the resource; otherwise, destroying the resource will fail if tables are present. | bool |
false |
no |
enable_bigquery_read_roles_in_data_ingestion | (Optional) If set to true, it will grant to the dataflow controller service account created in the data ingestion project the necessary roles to read from a bigquery table. | bool |
false |
no |
key_rotation_period_seconds | Rotation period for keys. The default value is 30 days. | string |
"2592000s" |
no |
kms_key_protection_level | The protection level to use when creating a key. Possible values: ["SOFTWARE", "HSM"] | string |
"HSM" |
no |
labels | (Optional) Labels attached to Data Warehouse resources. | map(string) |
{} |
no |
location | The location for the KMS Customer Managed Encryption Keys, Cloud Storage Buckets, and Bigquery datasets. This location can be a multi-region. | string |
"us-east4" |
no |
network_administrator_group | Google Cloud IAM group that reviews network configuration. Typically, this includes members of the networking team. | string |
n/a | yes |
non_confidential_data_project_id | The ID of the project in which the Bigquery will be created. | string |
n/a | yes |
org_id | GCP Organization ID. | string |
n/a | yes |
perimeter_additional_members | The list additional members to be added on perimeter access. Prefix user: (user:email@email.com) or serviceAccount: (serviceAccount:my-service-account@email.com) is required. | list(string) |
[] |
no |
pubsub_resource_location | The location in which the messages published to Pub/Sub will be persisted. This location cannot be a multi-region. | string |
"us-east4" |
no |
remove_owner_role | (Optional) If set to true, remove all owner roles in all projects in case it has been found in some project. | bool |
false |
no |
sdx_project_number | The Project Number to configure Secure data exchange with egress rule for dataflow templates. Required if using a dataflow job template from a private storage bucket outside of the perimeter. | string |
"" |
no |
security_administrator_group | Google Cloud IAM group that administers security configurations in the organization(org policies, KMS, VPC service perimeter). | string |
n/a | yes |
security_analyst_group | Google Cloud IAM group that monitors and responds to security incidents. | string |
n/a | yes |
terraform_service_account | The email address of the service account that will run the Terraform code. | string |
n/a | yes |
trusted_locations | This is a list of trusted regions where location-based GCP resources can be created. | list(string) |
[ |
no |
trusted_subnetworks | The URI of the subnetworks where resources are going to be deployed. | list(string) |
[] |
no |
Name | Description |
---|---|
blueprint_type | Type of blueprint this module represents. |
cmek_bigquery_crypto_key | The Customer Managed Crypto Key for the BigQuery service. |
cmek_confidential_bigquery_crypto_key | The Customer Managed Crypto Key for the confidential BigQuery service. |
cmek_data_ingestion_crypto_key | The Customer Managed Crypto Key for the data ingestion crypto boundary. |
cmek_reidentification_crypto_key | The Customer Managed Crypto Key for the Confidential crypto boundary. |
confidential_access_level_name | Access context manager access level name. |
confidential_data_dataflow_bucket_name | The name of the bucket created for dataflow in the confidential data pipeline. |
confidential_dataflow_controller_service_account_email | The confidential Dataflow controller service account email. See https://cloud.google.com/dataflow/docs/concepts/security-and-permissions#specifying_a_user-managed_controller_service_account. |
confidential_service_perimeter_name | Access context manager service perimeter name. |
data_governance_access_level_name | Access context manager access level name. |
data_governance_service_perimeter_name | Access context manager service perimeter name. |
data_ingestion_access_level_name | Access context manager access level name. |
data_ingestion_bigquery_dataset | The bigquery dataset created for data ingestion pipeline. |
data_ingestion_bucket_name | The name of the bucket created for the data ingestion pipeline. |
data_ingestion_dataflow_bucket_name | The name of the bucket created for dataflow in the data ingestion pipeline. |
data_ingestion_service_perimeter_name | Access context manager service perimeter name. |
data_ingestion_topic_name | The topic created for data ingestion pipeline. |
dataflow_controller_service_account_email | The Dataflow controller service account email. See https://cloud.google.com/dataflow/docs/concepts/security-and-permissions#specifying_a_user-managed_controller_service_account. |
pubsub_writer_service_account_email | The PubSub writer service account email. Should be used to write data to the PubSub topics the data ingestion pipeline reads from. |
scheduler_service_account_email | The Cloud Scheduler service account email, no roles granted. |
storage_writer_service_account_email | The Storage writer service account email. Should be used to write data to the buckets the data ingestion pipeline reads from. |
These sections describe requirements for using this module.
Note: Please see the Disclaimer regarding project owners before creating projects.
Install the following dependencies:
- Google Cloud SDK version 357.0.0 or later
- Terraform version 0.13.7 or later
- Terraform Provider for GCP version 3.77 or later
- Terraform Provider for GCP Beta version 3.77 or later
Provide the following groups for separation of duty. Each group is granted roles to perform their tasks. Then, add users to the appropriate groups as needed.
- Data Engineer group: Google Cloud IAM group that sets up and maintains the data pipeline and warehouse.
- Data Analyst group: Google Cloud IAM group that analyzes the data in the warehouse.
- Security Analyst group: Google Cloud IAM group that monitors and responds to security incidents.
- Network Administrator group: Google Cloud IAM group that reviews network configuration. Typically, this includes members of the networking team.
- Security Administrator group: Google Cloud IAM group that administers security configurations in the organization(org policies, KMS, VPC service perimeter).
Groups can be created in the Google Workspace Admin Console, in the Google Cloud Console, and using gcloud identity groups create.
To provision the resources of this module, create a privileged service account, where the service account key cannot be created. In addition, consider using Cloud Monitoring to alert on this service account's activity. Grant the following roles to the service account.
- Organization level
- Access Context Manager Admin:
roles/accesscontextmanager.policyAdmin
- Organization Policy Administrator:
roles/orgpolicy.policyAdmin
- Organization Administrator:
roles/resourcemanager.organizationAdmin
- Access Context Manager Admin:
- Project level:
- Data ingestion project
- App Engine Creator:
roles/appengine.appCreator
- Cloud Scheduler Admin:
roles/cloudscheduler.admin
- Compute Network Admin:
roles/compute.networkAdmin
- Compute Security Admin:
roles/compute.securityAdmin
- Dataflow Developer:
roles/dataflow.developer
- DNS Administrator:
roles/dns.admin
- Project IAM Admin:
roles/resourcemanager.projectIamAdmin
- Pub/Sub Admin:
roles/pubsub.admin
- Service Account Admin:
roles/iam.serviceAccountAdmin
- Service Account Token Creator:
roles/iam.serviceAccountTokenCreator
- Service Usage Admin:
roles/serviceusage.serviceUsageAdmin
- Storage Admin:
roles/storage.admin
- App Engine Creator:
- Data governance project
- Cloud KMS Admin:
roles/cloudkms.admin
- Cloud KMS CryptoKey Encrypter:
roles/cloudkms.cryptoKeyEncrypter
- DLP De-identify Templates Editor:
roles/dlp.deidentifyTemplatesEditor
- DLP Inspect Templates Editor:
roles/dlp.inspectTemplatesEditor
- DLP User:
roles/dlp.user
- Data Catalog Admin:
roles/datacatalog.admin
- Project IAM Admin:
roles/resourcemanager.projectIamAdmin
- Secret Manager Admin:
roles/secretmanager.admin
- Service Account Admin:
roles/iam.serviceAccountAdmin
- Service Account Token Creator:
roles/iam.serviceAccountTokenCreator
- Service Usage Admin:
roles/serviceusage.serviceUsageAdmin
- Storage Admin:
roles/storage.admin
- Cloud KMS Admin:
- Non Confidential project
- BigQuery Admin:
roles/bigquery.admin
- Project IAM Admin:
roles/resourcemanager.projectIamAdmin
- Service Account Admin:
roles/iam.serviceAccountAdmin
- Service Account Token Creator:
roles/iam.serviceAccountTokenCreator
- Service Usage Admin:
roles/serviceusage.serviceUsageAdmin
- Storage Admin:
roles/storage.admin
- BigQuery Admin:
- Confidential project
- BigQuery Admin:
roles/bigquery.admin
- Compute Network Admin:
roles/compute.networkAdmin
- Compute Security Admin:
roles/compute.securityAdmin
- DNS Administrator:
roles/dns.admin
- Dataflow Developer:
roles/dataflow.developer
- Project IAM Admin:
roles/resourcemanager.projectIamAdmin
- Service Account Admin:
roles/iam.serviceAccountAdmin
- Service Account Token Creator:
roles/iam.serviceAccountTokenCreator
- Service Usage Admin:
roles/serviceusage.serviceUsageAdmin
- Storage Admin:
roles/storage.admin
- BigQuery Admin:
- Data ingestion project
You can use the Project Factory module and the IAM module in combination to provision a service account with the necessary roles applied.
The user using this service account must have the necessary roles to impersonate the service account.
Create four projects with the following APIs enabled to host the resources of this module:
- Access Context Manager API:
accesscontextmanager.googleapis.com
- App Engine Admin API:
appengine.googleapis.com
- Artifact Registry API:
artifactregistry.googleapis.com
- BigQuery API:
bigquery.googleapis.com
- Cloud Billing API:
cloudbilling.googleapis.com
- Cloud Build API:
cloudbuild.googleapis.com
- Cloud Key Management Service (KMS) API:
cloudkms.googleapis.com
- Cloud Resource Manager API:
cloudresourcemanager.googleapis.com
- Cloud Scheduler API:
cloudscheduler.googleapis.com
- Compute Engine API:
compute.googleapis.com
- Google Cloud Data Catalog API:
datacatalog.googleapis.com
- Dataflow API:
dataflow.googleapis.com
- Cloud Data Loss Prevention (DLP) API:
dlp.googleapis.com
- Cloud DNS API:
dns.googleapis.com
- Identity and Access Management (IAM) API:
iam.googleapis.com
- Cloud Pub/Sub API:
pubsub.googleapis.com
- Service Usage API:
serviceusage.googleapis.com
- Google Cloud Storage JSON API:
storage-api.googleapis.com
- Access Context Manager API:
accesscontextmanager.googleapis.com
- Cloud Billing API:
cloudbilling.googleapis.com
- Cloud Key Management Service (KMS) API:
cloudkms.googleapis.com
- Cloud Resource Manager API:
cloudresourcemanager.googleapis.com
- Google Cloud Data Catalog API:
datacatalog.googleapis.com
- Cloud Data Loss Prevention (DLP) API:
dlp.googleapis.com
- Identity and Access Management (IAM) API:
iam.googleapis.com
- Service Usage API:
serviceusage.googleapis.com
- Google Cloud Storage JSON API:
storage-api.googleapis.com
- Secrect Manager API:
secretmanager.googleapis.com
- Access Context Manager API:
accesscontextmanager.googleapis.com
- BigQuery API:
bigquery.googleapis.com
- Cloud Billing API:
cloudbilling.googleapis.com
- Cloud Key Management Service (KMS) API:
cloudkms.googleapis.com
- Cloud Resource Manager API:
cloudresourcemanager.googleapis.com
- Identity and Access Management (IAM) API:
iam.googleapis.com
- Service Usage API:
serviceusage.googleapis.com
- Google Cloud Storage JSON API:
storage-api.googleapis.com
- Access Context Manager API:
accesscontextmanager.googleapis.com
- Artifact Registry API:
artifactregistry.googleapis.com
- BigQuery API:
bigquery.googleapis.com
- Cloud Billing API:
cloudbilling.googleapis.com
- Cloud Build API:
cloudbuild.googleapis.com
- Cloud Key Management Service (KMS) API:
cloudkms.googleapis.com
- Cloud Resource Manager API:
cloudresourcemanager.googleapis.com
- Compute Engine API:
compute.googleapis.com
- Google Cloud Data Catalog API:
datacatalog.googleapis.com
- Dataflow API:
dataflow.googleapis.com
- Cloud Data Loss Prevention (DLP) API:
dlp.googleapis.com
- Cloud DNS API:
dns.googleapis.com
- Identity and Access Management (IAM) API:
iam.googleapis.com
- Service Usage API:
serviceusage.googleapis.com
- Google Cloud Storage JSON API:
storage-api.googleapis.com
- Access Context Manager API:
accesscontextmanager.googleapis.com
- App Engine Admin API:
appengine.googleapis.com
- Cloud Billing API:
cloudbilling.googleapis.com
- Cloud Key Management Service (KMS) API:
cloudkms.googleapis.com
- Cloud Pub/Sub API:
pubsub.googleapis.com
- Cloud Resource Manager API:
cloudresourcemanager.googleapis.com
- Compute Engine API:
compute.googleapis.com
- Dataflow API:
dataflow.googleapis.com
- Identity and Access Management (IAM) API:
iam.googleapis.com
You can use the Project Factory module to provision the projects with the necessary APIs enabled.
Please see our security disclosure process.
Refer to the contribution guidelines for information on contributing to this module.
This is not an officially supported Google product