// Copyright 2019 Google LLC. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // syntax = "proto3"; package google.cloud.orgpolicy.v1; import "google/protobuf/timestamp.proto"; option csharp_namespace = "Google.Cloud.OrgPolicy.V1"; option go_package = "google.golang.org/genproto/googleapis/cloud/orgpolicy/v1;orgpolicy"; option java_multiple_files = true; option java_outer_classname = "OrgPolicyProto"; option java_package = "com.google.cloud.orgpolicy.v1"; option php_namespace = "Google\\Cloud\\OrgPolicy\\V1"; option ruby_package = "Google::Cloud::OrgPolicy::V1"; // Defines a Cloud Organization `Policy` which is used to specify `Constraints` // for configurations of Cloud Platform resources. message Policy { // Used in `policy_type` to specify how `list_policy` behaves at this // resource. // // `ListPolicy` can define specific values and subtrees of Cloud Resource // Manager resource hierarchy (`Organizations`, `Folders`, `Projects`) that // are allowed or denied by setting the `allowed_values` and `denied_values` // fields. This is achieved by using the `under:` and optional `is:` prefixes. // The `under:` prefix is used to denote resource subtree values. // The `is:` prefix is used to denote specific values, and is required only // if the value contains a ":". Values prefixed with "is:" are treated the // same as values with no prefix. // Ancestry subtrees must be in one of the following formats: // - "projects/", e.g. "projects/tokyo-rain-123" // - "folders/", e.g. "folders/1234" // - "organizations/", e.g. "organizations/1234" // The `supports_under` field of the associated `Constraint` defines whether // ancestry prefixes can be used. You can set `allowed_values` and // `denied_values` in the same `Policy` if `all_values` is // `ALL_VALUES_UNSPECIFIED`. `ALLOW` or `DENY` are used to allow or deny all // values. If `all_values` is set to either `ALLOW` or `DENY`, // `allowed_values` and `denied_values` must be unset. message ListPolicy { // This enum can be used to set `Policies` that apply to all possible // configuration values rather than specific values in `allowed_values` or // `denied_values`. // // Settting this to `ALLOW` will mean this `Policy` allows all values. // Similarly, setting it to `DENY` will mean no values are allowed. If // set to either `ALLOW` or `DENY, `allowed_values` and `denied_values` // must be unset. Setting this to `ALL_VALUES_UNSPECIFIED` allows for // setting `allowed_values` and `denied_values`. enum AllValues { // Indicates that allowed_values or denied_values must be set. ALL_VALUES_UNSPECIFIED = 0; // A policy with this set allows all values. ALLOW = 1; // A policy with this set denies all values. DENY = 2; } // List of values allowed at this resource. Can only be set if `all_values` // is set to `ALL_VALUES_UNSPECIFIED`. repeated string allowed_values = 1; // List of values denied at this resource. Can only be set if `all_values` // is set to `ALL_VALUES_UNSPECIFIED`. repeated string denied_values = 2; // The policy all_values state. AllValues all_values = 3; // Optional. The Google Cloud Console will try to default to a configuration // that matches the value specified in this `Policy`. If `suggested_value` // is not set, it will inherit the value specified higher in the hierarchy, // unless `inherit_from_parent` is `false`. string suggested_value = 4; // Determines the inheritance behavior for this `Policy`. // // By default, a `ListPolicy` set at a resource supercedes any `Policy` set // anywhere up the resource hierarchy. However, if `inherit_from_parent` is // set to `true`, then the values from the effective `Policy` of the parent // resource are inherited, meaning the values set in this `Policy` are // added to the values inherited up the hierarchy. // // Setting `Policy` hierarchies that inherit both allowed values and denied // values isn't recommended in most circumstances to keep the configuration // simple and understandable. However, it is possible to set a `Policy` with // `allowed_values` set that inherits a `Policy` with `denied_values` set. // In this case, the values that are allowed must be in `allowed_values` and // not present in `denied_values`. // // For example, suppose you have a `Constraint` // `constraints/serviceuser.services`, which has a `constraint_type` of // `list_constraint`, and with `constraint_default` set to `ALLOW`. // Suppose that at the Organization level, a `Policy` is applied that // restricts the allowed API activations to {`E1`, `E2`}. Then, if a // `Policy` is applied to a project below the Organization that has // `inherit_from_parent` set to `false` and field all_values set to DENY, // then an attempt to activate any API will be denied. // // The following examples demonstrate different possible layerings for // `projects/bar` parented by `organizations/foo`: // // Example 1 (no inherited values): // `organizations/foo` has a `Policy` with values: // {allowed_values: "E1" allowed_values:"E2"} // `projects/bar` has `inherit_from_parent` `false` and values: // {allowed_values: "E3" allowed_values: "E4"} // The accepted values at `organizations/foo` are `E1`, `E2`. // The accepted values at `projects/bar` are `E3`, and `E4`. // // Example 2 (inherited values): // `organizations/foo` has a `Policy` with values: // {allowed_values: "E1" allowed_values:"E2"} // `projects/bar` has a `Policy` with values: // {value: "E3" value: "E4" inherit_from_parent: true} // The accepted values at `organizations/foo` are `E1`, `E2`. // The accepted values at `projects/bar` are `E1`, `E2`, `E3`, and `E4`. // // Example 3 (inheriting both allowed and denied values): // `organizations/foo` has a `Policy` with values: // {allowed_values: "E1" allowed_values: "E2"} // `projects/bar` has a `Policy` with: // {denied_values: "E1"} // The accepted values at `organizations/foo` are `E1`, `E2`. // The value accepted at `projects/bar` is `E2`. // // Example 4 (RestoreDefault): // `organizations/foo` has a `Policy` with values: // {allowed_values: "E1" allowed_values:"E2"} // `projects/bar` has a `Policy` with values: // {RestoreDefault: {}} // The accepted values at `organizations/foo` are `E1`, `E2`. // The accepted values at `projects/bar` are either all or none depending on // the value of `constraint_default` (if `ALLOW`, all; if // `DENY`, none). // // Example 5 (no policy inherits parent policy): // `organizations/foo` has no `Policy` set. // `projects/bar` has no `Policy` set. // The accepted values at both levels are either all or none depending on // the value of `constraint_default` (if `ALLOW`, all; if // `DENY`, none). // // Example 6 (ListConstraint allowing all): // `organizations/foo` has a `Policy` with values: // {allowed_values: "E1" allowed_values: "E2"} // `projects/bar` has a `Policy` with: // {all: ALLOW} // The accepted values at `organizations/foo` are `E1`, E2`. // Any value is accepted at `projects/bar`. // // Example 7 (ListConstraint allowing none): // `organizations/foo` has a `Policy` with values: // {allowed_values: "E1" allowed_values: "E2"} // `projects/bar` has a `Policy` with: // {all: DENY} // The accepted values at `organizations/foo` are `E1`, E2`. // No value is accepted at `projects/bar`. // // Example 10 (allowed and denied subtrees of Resource Manager hierarchy): // Given the following resource hierarchy // O1->{F1, F2}; F1->{P1}; F2->{P2, P3}, // `organizations/foo` has a `Policy` with values: // {allowed_values: "under:organizations/O1"} // `projects/bar` has a `Policy` with: // {allowed_values: "under:projects/P3"} // {denied_values: "under:folders/F2"} // The accepted values at `organizations/foo` are `organizations/O1`, // `folders/F1`, `folders/F2`, `projects/P1`, `projects/P2`, // `projects/P3`. // The accepted values at `projects/bar` are `organizations/O1`, // `folders/F1`, `projects/P1`. bool inherit_from_parent = 5; } // Used in `policy_type` to specify how `boolean_policy` will behave at this // resource. message BooleanPolicy { // If `true`, then the `Policy` is enforced. If `false`, then any // configuration is acceptable. // // Suppose you have a `Constraint` // `constraints/compute.disableSerialPortAccess` with `constraint_default` // set to `ALLOW`. A `Policy` for that `Constraint` exhibits the following // behavior: // - If the `Policy` at this resource has enforced set to `false`, serial // port connection attempts will be allowed. // - If the `Policy` at this resource has enforced set to `true`, serial // port connection attempts will be refused. // - If the `Policy` at this resource is `RestoreDefault`, serial port // connection attempts will be allowed. // - If no `Policy` is set at this resource or anywhere higher in the // resource hierarchy, serial port connection attempts will be allowed. // - If no `Policy` is set at this resource, but one exists higher in the // resource hierarchy, the behavior is as if the`Policy` were set at // this resource. // // The following examples demonstrate the different possible layerings: // // Example 1 (nearest `Constraint` wins): // `organizations/foo` has a `Policy` with: // {enforced: false} // `projects/bar` has no `Policy` set. // The constraint at `projects/bar` and `organizations/foo` will not be // enforced. // // Example 2 (enforcement gets replaced): // `organizations/foo` has a `Policy` with: // {enforced: false} // `projects/bar` has a `Policy` with: // {enforced: true} // The constraint at `organizations/foo` is not enforced. // The constraint at `projects/bar` is enforced. // // Example 3 (RestoreDefault): // `organizations/foo` has a `Policy` with: // {enforced: true} // `projects/bar` has a `Policy` with: // {RestoreDefault: {}} // The constraint at `organizations/foo` is enforced. // The constraint at `projects/bar` is not enforced, because // `constraint_default` for the `Constraint` is `ALLOW`. bool enforced = 1; } // Ignores policies set above this resource and restores the // `constraint_default` enforcement behavior of the specific `Constraint` at // this resource. // // Suppose that `constraint_default` is set to `ALLOW` for the // `Constraint` `constraints/serviceuser.services`. Suppose that organization // foo.com sets a `Policy` at their Organization resource node that restricts // the allowed service activations to deny all service activations. They // could then set a `Policy` with the `policy_type` `restore_default` on // several experimental projects, restoring the `constraint_default` // enforcement of the `Constraint` for only those projects, allowing those // projects to have all services activated. message RestoreDefault { } // Version of the `Policy`. Default version is 0; int32 version = 1; // The name of the `Constraint` the `Policy` is configuring, for example, // `constraints/serviceuser.services`. // // Immutable after creation. string constraint = 2; // An opaque tag indicating the current version of the `Policy`, used for // concurrency control. // // When the `Policy` is returned from either a `GetPolicy` or a // `ListOrgPolicy` request, this `etag` indicates the version of the current // `Policy` to use when executing a read-modify-write loop. // // When the `Policy` is returned from a `GetEffectivePolicy` request, the // `etag` will be unset. // // When the `Policy` is used in a `SetOrgPolicy` method, use the `etag` value // that was returned from a `GetOrgPolicy` request as part of a // read-modify-write loop for concurrency control. Not setting the `etag`in a // `SetOrgPolicy` request will result in an unconditional write of the // `Policy`. bytes etag = 3; // The time stamp the `Policy` was previously updated. This is set by the // server, not specified by the caller, and represents the last time a call to // `SetOrgPolicy` was made for that `Policy`. Any value set by the client will // be ignored. google.protobuf.Timestamp update_time = 4; // The field to populate is based on the `constraint_type` value in the // `Constraint`. // `list_constraint` => `list_policy` // `boolean_constraint` => `boolean_policy` // // A `restore_default` message may be used with any `Constraint` type. // // Providing a *_policy that is incompatible with the `constraint_type` will // result in an `invalid_argument` error. // // Attempting to set a `Policy` with a `policy_type` not set will result in an // `invalid_argument` error. oneof policy_type { // List of values either allowed or disallowed. ListPolicy list_policy = 5; // For boolean `Constraints`, whether to enforce the `Constraint` or not. BooleanPolicy boolean_policy = 6; // Restores the default behavior of the constraint; independent of // `Constraint` type. RestoreDefault restore_default = 7; } }