// Copyright 2023 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.securitycenter.v1; import "google/api/field_behavior.proto"; import "google/api/resource.proto"; import "google/cloud/securitycenter/v1/access.proto"; import "google/cloud/securitycenter/v1/cloud_dlp_data_profile.proto"; import "google/cloud/securitycenter/v1/cloud_dlp_inspection.proto"; import "google/cloud/securitycenter/v1/compliance.proto"; import "google/cloud/securitycenter/v1/connection.proto"; import "google/cloud/securitycenter/v1/contact_details.proto"; import "google/cloud/securitycenter/v1/container.proto"; import "google/cloud/securitycenter/v1/database.proto"; import "google/cloud/securitycenter/v1/exfiltration.proto"; import "google/cloud/securitycenter/v1/external_system.proto"; import "google/cloud/securitycenter/v1/file.proto"; import "google/cloud/securitycenter/v1/iam_binding.proto"; import "google/cloud/securitycenter/v1/indicator.proto"; import "google/cloud/securitycenter/v1/kernel_rootkit.proto"; import "google/cloud/securitycenter/v1/kubernetes.proto"; import "google/cloud/securitycenter/v1/mitre_attack.proto"; import "google/cloud/securitycenter/v1/process.proto"; import "google/cloud/securitycenter/v1/security_marks.proto"; import "google/cloud/securitycenter/v1/vulnerability.proto"; import "google/protobuf/struct.proto"; import "google/protobuf/timestamp.proto"; option csharp_namespace = "Google.Cloud.SecurityCenter.V1"; option go_package = "cloud.google.com/go/securitycenter/apiv1/securitycenterpb;securitycenterpb"; option java_multiple_files = true; option java_package = "com.google.cloud.securitycenter.v1"; option php_namespace = "Google\\Cloud\\SecurityCenter\\V1"; option ruby_package = "Google::Cloud::SecurityCenter::V1"; // Security Command Center finding. // // A finding is a record of assessment data like security, risk, health, or // privacy, that is ingested into Security Command Center for presentation, // notification, analysis, policy testing, and enforcement. For example, a // cross-site scripting (XSS) vulnerability in an App Engine application is a // finding. message Finding { option (google.api.resource) = { type: "securitycenter.googleapis.com/Finding" pattern: "organizations/{organization}/sources/{source}/findings/{finding}" pattern: "folders/{folder}/sources/{source}/findings/{finding}" pattern: "projects/{project}/sources/{source}/findings/{finding}" }; // The state of the finding. enum State { // Unspecified state. STATE_UNSPECIFIED = 0; // The finding requires attention and has not been addressed yet. ACTIVE = 1; // The finding has been fixed, triaged as a non-issue or otherwise addressed // and is no longer active. INACTIVE = 2; } // The severity of the finding. enum Severity { // This value is used for findings when a source doesn't write a severity // value. SEVERITY_UNSPECIFIED = 0; // Vulnerability: // A critical vulnerability is easily discoverable by an external actor, // exploitable, and results in the direct ability to execute arbitrary code, // exfiltrate data, and otherwise gain additional access and privileges to // cloud resources and workloads. Examples include publicly accessible // unprotected user data and public SSH access with weak or no // passwords. // // Threat: // Indicates a threat that is able to access, modify, or delete data or // execute unauthorized code within existing resources. CRITICAL = 1; // Vulnerability: // A high risk vulnerability can be easily discovered and exploited in // combination with other vulnerabilities in order to gain direct access and // the ability to execute arbitrary code, exfiltrate data, and otherwise // gain additional access and privileges to cloud resources and workloads. // An example is a database with weak or no passwords that is only // accessible internally. This database could easily be compromised by an // actor that had access to the internal network. // // Threat: // Indicates a threat that is able to create new computational resources in // an environment but not able to access data or execute code in existing // resources. HIGH = 2; // Vulnerability: // A medium risk vulnerability could be used by an actor to gain access to // resources or privileges that enable them to eventually (through multiple // steps or a complex exploit) gain access and the ability to execute // arbitrary code or exfiltrate data. An example is a service account with // access to more projects than it should have. If an actor gains access to // the service account, they could potentially use that access to manipulate // a project the service account was not intended to. // // Threat: // Indicates a threat that is able to cause operational impact but may not // access data or execute unauthorized code. MEDIUM = 3; // Vulnerability: // A low risk vulnerability hampers a security organization's ability to // detect vulnerabilities or active threats in their deployment, or prevents // the root cause investigation of security issues. An example is monitoring // and logs being disabled for resource configurations and access. // // Threat: // Indicates a threat that has obtained minimal access to an environment but // is not able to access data, execute code, or create resources. LOW = 4; } // Mute state a finding can be in. enum Mute { // Unspecified. MUTE_UNSPECIFIED = 0; // Finding has been muted. MUTED = 1; // Finding has been unmuted. UNMUTED = 2; // Finding has never been muted/unmuted. UNDEFINED = 4; } // Represents what kind of Finding it is. enum FindingClass { // Unspecified finding class. FINDING_CLASS_UNSPECIFIED = 0; // Describes unwanted or malicious activity. THREAT = 1; // Describes a potential weakness in software that increases risk to // Confidentiality & Integrity & Availability. VULNERABILITY = 2; // Describes a potential weakness in cloud resource/asset configuration that // increases risk. MISCONFIGURATION = 3; // Describes a security observation that is for informational purposes. OBSERVATION = 4; // Describes an error that prevents some SCC functionality. SCC_ERROR = 5; } // The [relative resource // name](https://cloud.google.com/apis/design/resource_names#relative_resource_name) // of the finding. Example: // "organizations/{organization_id}/sources/{source_id}/findings/{finding_id}", // "folders/{folder_id}/sources/{source_id}/findings/{finding_id}", // "projects/{project_id}/sources/{source_id}/findings/{finding_id}". string name = 1; // The relative resource name of the source the finding belongs to. See: // https://cloud.google.com/apis/design/resource_names#relative_resource_name // This field is immutable after creation time. // For example: // "organizations/{organization_id}/sources/{source_id}" string parent = 2; // For findings on Google Cloud resources, the full resource // name of the Google Cloud resource this finding is for. See: // https://cloud.google.com/apis/design/resource_names#full_resource_name // When the finding is for a non-Google Cloud resource, the resourceName can // be a customer or partner defined string. This field is immutable after // creation time. string resource_name = 3; // The state of the finding. State state = 4; // The additional taxonomy group within findings from a given source. // This field is immutable after creation time. // Example: "XSS_FLASH_INJECTION" string category = 5; // The URI that, if available, points to a web page outside of Security // Command Center where additional information about the finding can be found. // This field is guaranteed to be either empty or a well formed URL. string external_uri = 6; // Source specific properties. These properties are managed by the source // that writes the finding. The key names in the source_properties map must be // between 1 and 255 characters, and must start with a letter and contain // alphanumeric characters or underscores only. map source_properties = 7; // Output only. User specified security marks. These marks are entirely // managed by the user and come from the SecurityMarks resource that belongs // to the finding. SecurityMarks security_marks = 8 [(google.api.field_behavior) = OUTPUT_ONLY]; // The time the finding was first detected. If an existing finding is updated, // then this is the time the update occurred. // For example, if the finding represents an open firewall, this property // captures the time the detector believes the firewall became open. The // accuracy is determined by the detector. If the finding is later resolved, // then this time reflects when the finding was resolved. This must not // be set to a value greater than the current timestamp. google.protobuf.Timestamp event_time = 9; // The time at which the finding was created in Security Command Center. google.protobuf.Timestamp create_time = 10; // The severity of the finding. This field is managed by the source that // writes the finding. Severity severity = 12; // The canonical name of the finding. It's either // "organizations/{organization_id}/sources/{source_id}/findings/{finding_id}", // "folders/{folder_id}/sources/{source_id}/findings/{finding_id}" or // "projects/{project_number}/sources/{source_id}/findings/{finding_id}", // depending on the closest CRM ancestor of the resource associated with the // finding. string canonical_name = 14; // Indicates the mute state of a finding (either muted, unmuted // or undefined). Unlike other attributes of a finding, a finding provider // shouldn't set the value of mute. Mute mute = 15; // The class of the finding. FindingClass finding_class = 17; // Represents what's commonly known as an *indicator of compromise* (IoC) in // computer forensics. This is an artifact observed on a network or in an // operating system that, with high confidence, indicates a computer // intrusion. For more information, see [Indicator of // compromise](https://en.wikipedia.org/wiki/Indicator_of_compromise). Indicator indicator = 18; // Represents vulnerability-specific fields like CVE and CVSS scores. // CVE stands for Common Vulnerabilities and Exposures // (https://cve.mitre.org/about/) Vulnerability vulnerability = 20; // Output only. The most recent time this finding was muted or unmuted. google.protobuf.Timestamp mute_update_time = 21 [(google.api.field_behavior) = OUTPUT_ONLY]; // Output only. Third party SIEM/SOAR fields within SCC, contains external // system information and external system finding fields. map external_systems = 22 [(google.api.field_behavior) = OUTPUT_ONLY]; // MITRE ATT&CK tactics and techniques related to this finding. // See: https://attack.mitre.org MitreAttack mitre_attack = 25; // Access details associated with the finding, such as more information on the // caller, which method was accessed, and from where. Access access = 26; // Contains information about the IP connection associated with the finding. repeated Connection connections = 31; // Records additional information about the mute operation, for example, the // [mute configuration](/security-command-center/docs/how-to-mute-findings) // that muted the finding and the user who muted the finding. string mute_initiator = 28; // Represents operating system processes associated with the Finding. repeated Process processes = 30; // Output only. Map containing the points of contact for the given finding. // The key represents the type of contact, while the value contains a list of // all the contacts that pertain. Please refer to: // https://cloud.google.com/resource-manager/docs/managing-notification-contacts#notification-categories // // { // "security": { // "contacts": [ // { // "email": "person1@company.com" // }, // { // "email": "person2@company.com" // } // ] // } // } map contacts = 33 [(google.api.field_behavior) = OUTPUT_ONLY]; // Contains compliance information for security standards associated to the // finding. repeated Compliance compliances = 34; // Output only. The human readable display name of the finding source such as // "Event Threat Detection" or "Security Health Analytics". string parent_display_name = 36 [(google.api.field_behavior) = OUTPUT_ONLY]; // Contains more details about the finding. string description = 37; // Represents exfiltrations associated with the finding. Exfiltration exfiltration = 38; // Represents IAM bindings associated with the finding. repeated IamBinding iam_bindings = 39; // Steps to address the finding. string next_steps = 40; // Unique identifier of the module which generated the finding. // Example: // folders/598186756061/securityHealthAnalyticsSettings/customModules/56799441161885 string module_name = 41; // Containers associated with the finding. This field provides information for // both Kubernetes and non-Kubernetes containers. repeated Container containers = 42; // Kubernetes resources associated with the finding. Kubernetes kubernetes = 43; // Database associated with the finding. Database database = 44; // File associated with the finding. repeated File files = 46; // Cloud Data Loss Prevention (Cloud DLP) inspection results that are // associated with the finding. CloudDlpInspection cloud_dlp_inspection = 48; // Cloud DLP data profile that is associated with the finding. CloudDlpDataProfile cloud_dlp_data_profile = 49; // Signature of the kernel rootkit. KernelRootkit kernel_rootkit = 50; }