// Copyright 2023-2025 Buf Technologies, Inc. // // 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 = "proto2"; package buf.validate; import "google/protobuf/descriptor.proto"; import "google/protobuf/duration.proto"; import "google/protobuf/timestamp.proto"; option go_package = "buf.build/gen/go/bufbuild/protovalidate/protocolbuffers/go/buf/validate"; option java_multiple_files = true; option java_outer_classname = "ValidateProto"; option java_package = "build.buf.validate"; // MessageOptions is an extension to google.protobuf.MessageOptions. It allows // the addition of validation rules at the message level. These rules can be // applied to incoming messages to ensure they meet certain criteria before // being processed. extend google.protobuf.MessageOptions { // Rules specify the validations to be performed on this message. By default, // no validation is performed against a message. optional MessageRules message = 1159; } // OneofOptions is an extension to google.protobuf.OneofOptions. It allows // the addition of validation rules on a oneof. These rules can be // applied to incoming messages to ensure they meet certain criteria before // being processed. extend google.protobuf.OneofOptions { // Rules specify the validations to be performed on this oneof. By default, // no validation is performed against a oneof. optional OneofRules oneof = 1159; } // FieldOptions is an extension to google.protobuf.FieldOptions. It allows // the addition of validation rules at the field level. These rules can be // applied to incoming messages to ensure they meet certain criteria before // being processed. extend google.protobuf.FieldOptions { // Rules specify the validations to be performed on this field. By default, // no validation is performed against a field. optional FieldRules field = 1159; // Specifies predefined rules. When extending a standard rule message, // this adds additional CEL expressions that apply when the extension is used. // // ```proto // extend buf.validate.Int32Rules { // bool is_zero [(buf.validate.predefined).cel = { // id: "int32.is_zero", // message: "value must be zero", // expression: "!rule || this == 0", // }]; // } // // message Foo { // int32 reserved = 1 [(buf.validate.field).int32.(is_zero) = true]; // } // ``` optional PredefinedRules predefined = 1160; } // `Rule` represents a validation rule written in the Common Expression // Language (CEL) syntax. Each Rule includes a unique identifier, an // optional error message, and the CEL expression to evaluate. For more // information, [see our documentation](https://buf.build/docs/protovalidate/schemas/custom-rules/). // // ```proto // message Foo { // option (buf.validate.message).cel = { // id: "foo.bar" // message: "bar must be greater than 0" // expression: "this.bar > 0" // }; // int32 bar = 1; // } // ``` message Rule { // `id` is a string that serves as a machine-readable name for this Rule. // It should be unique within its scope, which could be either a message or a field. optional string id = 1; // `message` is an optional field that provides a human-readable error message // for this Rule when the CEL expression evaluates to false. If a // non-empty message is provided, any strings resulting from the CEL // expression evaluation are ignored. optional string message = 2; // `expression` is the actual CEL expression that will be evaluated for // validation. This string must resolve to either a boolean or a string // value. If the expression evaluates to false or a non-empty string, the // validation is considered failed, and the message is rejected. optional string expression = 3; } // MessageRules represents validation rules that are applied to the entire message. // It includes disabling options and a list of Rule messages representing Common Expression Language (CEL) validation rules. message MessageRules { // `cel` is a repeated field of type Rule. Each Rule specifies a validation rule to be applied to this message. // These rules are written in Common Expression Language (CEL) syntax. For more information, // [see our documentation](https://buf.build/docs/protovalidate/schemas/custom-rules/). // // // ```proto // message MyMessage { // // The field `foo` must be greater than 42. // option (buf.validate.message).cel = { // id: "my_message.value", // message: "value must be greater than 42", // expression: "this.foo > 42", // }; // optional int32 foo = 1; // } // ``` repeated Rule cel = 3; // `oneof` is a repeated field of type MessageOneofRule that specifies a list of fields // of which at most one can be present. If `required` is also specified, then exactly one // of the specified fields _must_ be present. // // This will enforce oneof-like constraints with a few features not provided by // actual Protobuf oneof declarations: // 1. Repeated and map fields are allowed in this validation. In a Protobuf oneof, // only scalar fields are allowed. // 2. Fields with implicit presence are allowed. In a Protobuf oneof, all member // fields have explicit presence. This means that, for the purpose of determining // how many fields are set, explicitly setting such a field to its zero value is // effectively the same as not setting it at all. // 3. This will always generate validation errors for a message unmarshalled from // serialized data that sets more than one field. With a Protobuf oneof, when // multiple fields are present in the serialized form, earlier values are usually // silently ignored when unmarshalling, with only the last field being set when // unmarshalling completes. // // Note that adding a field to a `oneof` will also set the IGNORE_IF_ZERO_VALUE on the fields. This means // only the field that is set will be validated and the unset fields are not validated according to the field rules. // This behavior can be overridden by setting `ignore` against a field. // // ```proto // message MyMessage { // // Only one of `field1` or `field2` _can_ be present in this message. // option (buf.validate.message).oneof = { fields: ["field1", "field2"] }; // // Exactly one of `field3` or `field4` _must_ be present in this message. // option (buf.validate.message).oneof = { fields: ["field3", "field4"], required: true }; // string field1 = 1; // bytes field2 = 2; // bool field3 = 3; // int32 field4 = 4; // } // ``` repeated MessageOneofRule oneof = 4; reserved 1; reserved "disabled"; } message MessageOneofRule { // A list of field names to include in the oneof. All field names must be // defined in the message. At least one field must be specified, and // duplicates are not permitted. repeated string fields = 1; // If true, one of the fields specified _must_ be set. optional bool required = 2; } // The `OneofRules` message type enables you to manage rules for // oneof fields in your protobuf messages. message OneofRules { // If `required` is true, exactly one field of the oneof must be set. A // validation error is returned if no fields in the oneof are set. Further rules // should be placed on the fields themselves to ensure they are valid values, // such as `min_len` or `gt`. // // ```proto // message MyMessage { // oneof value { // // Either `a` or `b` must be set. If `a` is set, it must also be // // non-empty; whereas if `b` is set, it can still be an empty string. // option (buf.validate.oneof).required = true; // string a = 1 [(buf.validate.field).string.min_len = 1]; // string b = 2; // } // } // ``` optional bool required = 1; } // FieldRules encapsulates the rules for each type of field. Depending on // the field, the correct set should be used to ensure proper validations. message FieldRules { // `cel` is a repeated field used to represent a textual expression // in the Common Expression Language (CEL) syntax. For more information, // [see our documentation](https://buf.build/docs/protovalidate/schemas/custom-rules/). // // ```proto // message MyMessage { // // The field `value` must be greater than 42. // optional int32 value = 1 [(buf.validate.field).cel = { // id: "my_message.value", // message: "value must be greater than 42", // expression: "this > 42", // }]; // } // ``` repeated Rule cel = 23; // If `required` is true, the field must be set. A validation error is returned // if the field is not set. // // ```proto // syntax="proto3"; // // message FieldsWithPresence { // // Requires any string to be set, including the empty string. // optional string link = 1 [ // (buf.validate.field).required = true // ]; // // Requires true or false to be set. // optional bool disabled = 2 [ // (buf.validate.field).required = true // ]; // // Requires a message to be set, including the empty message. // SomeMessage msg = 4 [ // (buf.validate.field).required = true // ]; // } // ``` // // All fields in the example above track presence. By default, Protovalidate // ignores rules on those fields if no value is set. `required` ensures that // the fields are set and valid. // // Fields that don't track presence are always validated by Protovalidate, // whether they are set or not. It is not necessary to add `required`. It // can be added to indicate that the field cannot be the zero value. // // ```proto // syntax="proto3"; // // message FieldsWithoutPresence { // // `string.email` always applies, even to an empty string. // string link = 1 [ // (buf.validate.field).string.email = true // ]; // // `repeated.min_items` always applies, even to an empty list. // repeated string labels = 2 [ // (buf.validate.field).repeated.min_items = 1 // ]; // // `required`, for fields that don't track presence, indicates // // the value of the field can't be the zero value. // int32 zero_value_not_allowed = 3 [ // (buf.validate.field).required = true // ]; // } // ``` // // To learn which fields track presence, see the // [Field Presence cheat sheet](https://protobuf.dev/programming-guides/field_presence/#cheat). // // Note: While field rules can be applied to repeated items, map keys, and map // values, the elements are always considered to be set. Consequently, // specifying `repeated.items.required` is redundant. optional bool required = 25; // Ignore validation rules on the field if its value matches the specified // criteria. See the `Ignore` enum for details. // // ```proto // message UpdateRequest { // // The uri rule only applies if the field is not an empty string. // string url = 1 [ // (buf.validate.field).ignore = IGNORE_IF_ZERO_VALUE, // (buf.validate.field).string.uri = true // ]; // } // ``` optional Ignore ignore = 27; oneof type { // Scalar Field Types FloatRules float = 1; DoubleRules double = 2; Int32Rules int32 = 3; Int64Rules int64 = 4; UInt32Rules uint32 = 5; UInt64Rules uint64 = 6; SInt32Rules sint32 = 7; SInt64Rules sint64 = 8; Fixed32Rules fixed32 = 9; Fixed64Rules fixed64 = 10; SFixed32Rules sfixed32 = 11; SFixed64Rules sfixed64 = 12; BoolRules bool = 13; StringRules string = 14; BytesRules bytes = 15; // Complex Field Types EnumRules enum = 16; RepeatedRules repeated = 18; MapRules map = 19; // Well-Known Field Types AnyRules any = 20; DurationRules duration = 21; TimestampRules timestamp = 22; } reserved 24, 26; reserved "skipped", "ignore_empty"; } // PredefinedRules are custom rules that can be re-used with // multiple fields. message PredefinedRules { // `cel` is a repeated field used to represent a textual expression // in the Common Expression Language (CEL) syntax. For more information, // [see our documentation](https://buf.build/docs/protovalidate/schemas/predefined-rules/). // // ```proto // message MyMessage { // // The field `value` must be greater than 42. // optional int32 value = 1 [(buf.validate.predefined).cel = { // id: "my_message.value", // message: "value must be greater than 42", // expression: "this > 42", // }]; // } // ``` repeated Rule cel = 1; reserved 24, 26; reserved "skipped", "ignore_empty"; } // Specifies how `FieldRules.ignore` behaves, depending on the field's value, and // whether the field tracks presence. enum Ignore { // Ignore rules if the field tracks presence and is unset. This is the default // behavior. // // In proto3, only message fields, members of a Protobuf `oneof`, and fields // with the `optional` label track presence. Consequently, the following fields // are always validated, whether a value is set or not: // // ```proto // syntax="proto3"; // // message RulesApply { // string email = 1 [ // (buf.validate.field).string.email = true // ]; // int32 age = 2 [ // (buf.validate.field).int32.gt = 0 // ]; // repeated string labels = 3 [ // (buf.validate.field).repeated.min_items = 1 // ]; // } // ``` // // In contrast, the following fields track presence, and are only validated if // a value is set: // // ```proto // syntax="proto3"; // // message RulesApplyIfSet { // optional string email = 1 [ // (buf.validate.field).string.email = true // ]; // oneof ref { // string reference = 2 [ // (buf.validate.field).string.uuid = true // ]; // string name = 3 [ // (buf.validate.field).string.min_len = 4 // ]; // } // SomeMessage msg = 4 [ // (buf.validate.field).cel = {/* ... */} // ]; // } // ``` // // To ensure that such a field is set, add the `required` rule. // // To learn which fields track presence, see the // [Field Presence cheat sheet](https://protobuf.dev/programming-guides/field_presence/#cheat). IGNORE_UNSPECIFIED = 0; // Ignore rules if the field is unset, or set to the zero value. // // The zero value depends on the field type: // - For strings, the zero value is the empty string. // - For bytes, the zero value is empty bytes. // - For bool, the zero value is false. // - For numeric types, the zero value is zero. // - For enums, the zero value is the first defined enum value. // - For repeated fields, the zero is an empty list. // - For map fields, the zero is an empty map. // - For message fields, absence of the message (typically a null-value) is considered zero value. // // For fields that track presence (e.g. adding the `optional` label in proto3), // this a no-op and behavior is the same as the default `IGNORE_UNSPECIFIED`. IGNORE_IF_ZERO_VALUE = 1; // Always ignore rules, including the `required` rule. // // This is useful for ignoring the rules of a referenced message, or to // temporarily ignore rules during development. // // ```proto // message MyMessage { // // The field's rules will always be ignored, including any validations // // on value's fields. // MyOtherMessage value = 1 [ // (buf.validate.field).ignore = IGNORE_ALWAYS // ]; // } // ``` IGNORE_ALWAYS = 3; reserved 2; reserved "IGNORE_EMPTY", "IGNORE_DEFAULT", "IGNORE_IF_DEFAULT_VALUE", "IGNORE_IF_UNPOPULATED"; } // FloatRules describes the rules applied to `float` values. These // rules may also be applied to the `google.protobuf.FloatValue` Well-Known-Type. message FloatRules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyFloat { // // value must equal 42.0 // float value = 1 [(buf.validate.field).float.const = 42.0]; // } // ``` optional float const = 1 [(predefined).cel = { id: "float.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MyFloat { // // value must be less than 10.0 // float value = 1 [(buf.validate.field).float.lt = 10.0]; // } // ``` float lt = 2 [(predefined).cel = { id: "float.lt" expression: "!has(rules.gte) && !has(rules.gt) && (this.isNan() || this >= rules.lt)" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyFloat { // // value must be less than or equal to 10.0 // float value = 1 [(buf.validate.field).float.lte = 10.0]; // } // ``` float lte = 3 [(predefined).cel = { id: "float.lte" expression: "!has(rules.gte) && !has(rules.gt) && (this.isNan() || this > rules.lte)" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyFloat { // // value must be greater than 5.0 [float.gt] // float value = 1 [(buf.validate.field).float.gt = 5.0]; // // // value must be greater than 5 and less than 10.0 [float.gt_lt] // float other_value = 2 [(buf.validate.field).float = { gt: 5.0, lt: 10.0 }]; // // // value must be greater than 10 or less than 5.0 [float.gt_lt_exclusive] // float another_value = 3 [(buf.validate.field).float = { gt: 10.0, lt: 5.0 }]; // } // ``` float gt = 4 [ (predefined).cel = { id: "float.gt" expression: "!has(rules.lt) && !has(rules.lte) && (this.isNan() || this <= rules.gt)" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "float.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this.isNan() || this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "float.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (this.isNan() || (rules.lt <= this && this <= rules.gt))" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "float.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this.isNan() || this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "float.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (this.isNan() || (rules.lte < this && this <= rules.gt))" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyFloat { // // value must be greater than or equal to 5.0 [float.gte] // float value = 1 [(buf.validate.field).float.gte = 5.0]; // // // value must be greater than or equal to 5.0 and less than 10.0 [float.gte_lt] // float other_value = 2 [(buf.validate.field).float = { gte: 5.0, lt: 10.0 }]; // // // value must be greater than or equal to 10.0 or less than 5.0 [float.gte_lt_exclusive] // float another_value = 3 [(buf.validate.field).float = { gte: 10.0, lt: 5.0 }]; // } // ``` float gte = 5 [ (predefined).cel = { id: "float.gte" expression: "!has(rules.lt) && !has(rules.lte) && (this.isNan() || this < rules.gte)" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "float.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this.isNan() || this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "float.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (this.isNan() || (rules.lt <= this && this < rules.gte))" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "float.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this.isNan() || this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "float.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (this.isNan() || (rules.lte < this && this < rules.gte))" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message // is generated. // // ```proto // message MyFloat { // // value must be in list [1.0, 2.0, 3.0] // float value = 1 [(buf.validate.field).float = { in: [1.0, 2.0, 3.0] }]; // } // ``` repeated float in = 6 [(predefined).cel = { id: "float.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyFloat { // // value must not be in list [1.0, 2.0, 3.0] // float value = 1 [(buf.validate.field).float = { not_in: [1.0, 2.0, 3.0] }]; // } // ``` repeated float not_in = 7 [(predefined).cel = { id: "float.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `finite` requires the field value to be finite. If the field value is // infinite or NaN, an error message is generated. optional bool finite = 8 [(predefined).cel = { id: "float.finite" expression: "rules.finite ? (this.isNan() || this.isInf() ? 'value must be finite' : '') : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyFloat { // float value = 1 [ // (buf.validate.field).float.example = 1.0, // (buf.validate.field).float.example = inf // ]; // } // ``` repeated float example = 9 [(predefined).cel = { id: "float.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // DoubleRules describes the rules applied to `double` values. These // rules may also be applied to the `google.protobuf.DoubleValue` Well-Known-Type. message DoubleRules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyDouble { // // value must equal 42.0 // double value = 1 [(buf.validate.field).double.const = 42.0]; // } // ``` optional double const = 1 [(predefined).cel = { id: "double.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified // value, an error message is generated. // // ```proto // message MyDouble { // // value must be less than 10.0 // double value = 1 [(buf.validate.field).double.lt = 10.0]; // } // ``` double lt = 2 [(predefined).cel = { id: "double.lt" expression: "!has(rules.gte) && !has(rules.gt) && (this.isNan() || this >= rules.lt)" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified value // (field <= value). If the field value is greater than the specified value, // an error message is generated. // // ```proto // message MyDouble { // // value must be less than or equal to 10.0 // double value = 1 [(buf.validate.field).double.lte = 10.0]; // } // ``` double lte = 3 [(predefined).cel = { id: "double.lte" expression: "!has(rules.gte) && !has(rules.gt) && (this.isNan() || this > rules.lte)" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or `lte`, // the range is reversed, and the field value must be outside the specified // range. If the field value doesn't meet the required conditions, an error // message is generated. // // ```proto // message MyDouble { // // value must be greater than 5.0 [double.gt] // double value = 1 [(buf.validate.field).double.gt = 5.0]; // // // value must be greater than 5 and less than 10.0 [double.gt_lt] // double other_value = 2 [(buf.validate.field).double = { gt: 5.0, lt: 10.0 }]; // // // value must be greater than 10 or less than 5.0 [double.gt_lt_exclusive] // double another_value = 3 [(buf.validate.field).double = { gt: 10.0, lt: 5.0 }]; // } // ``` double gt = 4 [ (predefined).cel = { id: "double.gt" expression: "!has(rules.lt) && !has(rules.lte) && (this.isNan() || this <= rules.gt)" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "double.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this.isNan() || this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "double.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (this.isNan() || (rules.lt <= this && this <= rules.gt))" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "double.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this.isNan() || this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "double.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (this.isNan() || (rules.lte < this && this <= rules.gt))" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyDouble { // // value must be greater than or equal to 5.0 [double.gte] // double value = 1 [(buf.validate.field).double.gte = 5.0]; // // // value must be greater than or equal to 5.0 and less than 10.0 [double.gte_lt] // double other_value = 2 [(buf.validate.field).double = { gte: 5.0, lt: 10.0 }]; // // // value must be greater than or equal to 10.0 or less than 5.0 [double.gte_lt_exclusive] // double another_value = 3 [(buf.validate.field).double = { gte: 10.0, lt: 5.0 }]; // } // ``` double gte = 5 [ (predefined).cel = { id: "double.gte" expression: "!has(rules.lt) && !has(rules.lte) && (this.isNan() || this < rules.gte)" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "double.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this.isNan() || this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "double.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (this.isNan() || (rules.lt <= this && this < rules.gte))" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "double.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this.isNan() || this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "double.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (this.isNan() || (rules.lte < this && this < rules.gte))" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MyDouble { // // value must be in list [1.0, 2.0, 3.0] // double value = 1 [(buf.validate.field).double = { in: [1.0, 2.0, 3.0] }]; // } // ``` repeated double in = 6 [(predefined).cel = { id: "double.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyDouble { // // value must not be in list [1.0, 2.0, 3.0] // double value = 1 [(buf.validate.field).double = { not_in: [1.0, 2.0, 3.0] }]; // } // ``` repeated double not_in = 7 [(predefined).cel = { id: "double.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `finite` requires the field value to be finite. If the field value is // infinite or NaN, an error message is generated. optional bool finite = 8 [(predefined).cel = { id: "double.finite" expression: "rules.finite ? (this.isNan() || this.isInf() ? 'value must be finite' : '') : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyDouble { // double value = 1 [ // (buf.validate.field).double.example = 1.0, // (buf.validate.field).double.example = inf // ]; // } // ``` repeated double example = 9 [(predefined).cel = { id: "double.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // Int32Rules describes the rules applied to `int32` values. These // rules may also be applied to the `google.protobuf.Int32Value` Well-Known-Type. message Int32Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyInt32 { // // value must equal 42 // int32 value = 1 [(buf.validate.field).int32.const = 42]; // } // ``` optional int32 const = 1 [(predefined).cel = { id: "int32.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field // < value). If the field value is equal to or greater than the specified // value, an error message is generated. // // ```proto // message MyInt32 { // // value must be less than 10 // int32 value = 1 [(buf.validate.field).int32.lt = 10]; // } // ``` int32 lt = 2 [(predefined).cel = { id: "int32.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyInt32 { // // value must be less than or equal to 10 // int32 value = 1 [(buf.validate.field).int32.lte = 10]; // } // ``` int32 lte = 3 [(predefined).cel = { id: "int32.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyInt32 { // // value must be greater than 5 [int32.gt] // int32 value = 1 [(buf.validate.field).int32.gt = 5]; // // // value must be greater than 5 and less than 10 [int32.gt_lt] // int32 other_value = 2 [(buf.validate.field).int32 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [int32.gt_lt_exclusive] // int32 another_value = 3 [(buf.validate.field).int32 = { gt: 10, lt: 5 }]; // } // ``` int32 gt = 4 [ (predefined).cel = { id: "int32.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "int32.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "int32.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "int32.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "int32.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified value // (exclusive). If the value of `gte` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyInt32 { // // value must be greater than or equal to 5 [int32.gte] // int32 value = 1 [(buf.validate.field).int32.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [int32.gte_lt] // int32 other_value = 2 [(buf.validate.field).int32 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [int32.gte_lt_exclusive] // int32 another_value = 3 [(buf.validate.field).int32 = { gte: 10, lt: 5 }]; // } // ``` int32 gte = 5 [ (predefined).cel = { id: "int32.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "int32.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "int32.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "int32.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "int32.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MyInt32 { // // value must be in list [1, 2, 3] // int32 value = 1 [(buf.validate.field).int32 = { in: [1, 2, 3] }]; // } // ``` repeated int32 in = 6 [(predefined).cel = { id: "int32.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error message // is generated. // // ```proto // message MyInt32 { // // value must not be in list [1, 2, 3] // int32 value = 1 [(buf.validate.field).int32 = { not_in: [1, 2, 3] }]; // } // ``` repeated int32 not_in = 7 [(predefined).cel = { id: "int32.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyInt32 { // int32 value = 1 [ // (buf.validate.field).int32.example = 1, // (buf.validate.field).int32.example = -10 // ]; // } // ``` repeated int32 example = 8 [(predefined).cel = { id: "int32.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // Int64Rules describes the rules applied to `int64` values. These // rules may also be applied to the `google.protobuf.Int64Value` Well-Known-Type. message Int64Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyInt64 { // // value must equal 42 // int64 value = 1 [(buf.validate.field).int64.const = 42]; // } // ``` optional int64 const = 1 [(predefined).cel = { id: "int64.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MyInt64 { // // value must be less than 10 // int64 value = 1 [(buf.validate.field).int64.lt = 10]; // } // ``` int64 lt = 2 [(predefined).cel = { id: "int64.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyInt64 { // // value must be less than or equal to 10 // int64 value = 1 [(buf.validate.field).int64.lte = 10]; // } // ``` int64 lte = 3 [(predefined).cel = { id: "int64.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyInt64 { // // value must be greater than 5 [int64.gt] // int64 value = 1 [(buf.validate.field).int64.gt = 5]; // // // value must be greater than 5 and less than 10 [int64.gt_lt] // int64 other_value = 2 [(buf.validate.field).int64 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [int64.gt_lt_exclusive] // int64 another_value = 3 [(buf.validate.field).int64 = { gt: 10, lt: 5 }]; // } // ``` int64 gt = 4 [ (predefined).cel = { id: "int64.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "int64.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "int64.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "int64.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "int64.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyInt64 { // // value must be greater than or equal to 5 [int64.gte] // int64 value = 1 [(buf.validate.field).int64.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [int64.gte_lt] // int64 other_value = 2 [(buf.validate.field).int64 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [int64.gte_lt_exclusive] // int64 another_value = 3 [(buf.validate.field).int64 = { gte: 10, lt: 5 }]; // } // ``` int64 gte = 5 [ (predefined).cel = { id: "int64.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "int64.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "int64.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "int64.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "int64.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MyInt64 { // // value must be in list [1, 2, 3] // int64 value = 1 [(buf.validate.field).int64 = { in: [1, 2, 3] }]; // } // ``` repeated int64 in = 6 [(predefined).cel = { id: "int64.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyInt64 { // // value must not be in list [1, 2, 3] // int64 value = 1 [(buf.validate.field).int64 = { not_in: [1, 2, 3] }]; // } // ``` repeated int64 not_in = 7 [(predefined).cel = { id: "int64.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyInt64 { // int64 value = 1 [ // (buf.validate.field).int64.example = 1, // (buf.validate.field).int64.example = -10 // ]; // } // ``` repeated int64 example = 9 [(predefined).cel = { id: "int64.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // UInt32Rules describes the rules applied to `uint32` values. These // rules may also be applied to the `google.protobuf.UInt32Value` Well-Known-Type. message UInt32Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyUInt32 { // // value must equal 42 // uint32 value = 1 [(buf.validate.field).uint32.const = 42]; // } // ``` optional uint32 const = 1 [(predefined).cel = { id: "uint32.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MyUInt32 { // // value must be less than 10 // uint32 value = 1 [(buf.validate.field).uint32.lt = 10]; // } // ``` uint32 lt = 2 [(predefined).cel = { id: "uint32.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyUInt32 { // // value must be less than or equal to 10 // uint32 value = 1 [(buf.validate.field).uint32.lte = 10]; // } // ``` uint32 lte = 3 [(predefined).cel = { id: "uint32.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyUInt32 { // // value must be greater than 5 [uint32.gt] // uint32 value = 1 [(buf.validate.field).uint32.gt = 5]; // // // value must be greater than 5 and less than 10 [uint32.gt_lt] // uint32 other_value = 2 [(buf.validate.field).uint32 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [uint32.gt_lt_exclusive] // uint32 another_value = 3 [(buf.validate.field).uint32 = { gt: 10, lt: 5 }]; // } // ``` uint32 gt = 4 [ (predefined).cel = { id: "uint32.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "uint32.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "uint32.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "uint32.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "uint32.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyUInt32 { // // value must be greater than or equal to 5 [uint32.gte] // uint32 value = 1 [(buf.validate.field).uint32.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [uint32.gte_lt] // uint32 other_value = 2 [(buf.validate.field).uint32 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [uint32.gte_lt_exclusive] // uint32 another_value = 3 [(buf.validate.field).uint32 = { gte: 10, lt: 5 }]; // } // ``` uint32 gte = 5 [ (predefined).cel = { id: "uint32.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "uint32.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "uint32.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "uint32.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "uint32.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MyUInt32 { // // value must be in list [1, 2, 3] // uint32 value = 1 [(buf.validate.field).uint32 = { in: [1, 2, 3] }]; // } // ``` repeated uint32 in = 6 [(predefined).cel = { id: "uint32.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyUInt32 { // // value must not be in list [1, 2, 3] // uint32 value = 1 [(buf.validate.field).uint32 = { not_in: [1, 2, 3] }]; // } // ``` repeated uint32 not_in = 7 [(predefined).cel = { id: "uint32.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyUInt32 { // uint32 value = 1 [ // (buf.validate.field).uint32.example = 1, // (buf.validate.field).uint32.example = 10 // ]; // } // ``` repeated uint32 example = 8 [(predefined).cel = { id: "uint32.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // UInt64Rules describes the rules applied to `uint64` values. These // rules may also be applied to the `google.protobuf.UInt64Value` Well-Known-Type. message UInt64Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyUInt64 { // // value must equal 42 // uint64 value = 1 [(buf.validate.field).uint64.const = 42]; // } // ``` optional uint64 const = 1 [(predefined).cel = { id: "uint64.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MyUInt64 { // // value must be less than 10 // uint64 value = 1 [(buf.validate.field).uint64.lt = 10]; // } // ``` uint64 lt = 2 [(predefined).cel = { id: "uint64.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyUInt64 { // // value must be less than or equal to 10 // uint64 value = 1 [(buf.validate.field).uint64.lte = 10]; // } // ``` uint64 lte = 3 [(predefined).cel = { id: "uint64.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyUInt64 { // // value must be greater than 5 [uint64.gt] // uint64 value = 1 [(buf.validate.field).uint64.gt = 5]; // // // value must be greater than 5 and less than 10 [uint64.gt_lt] // uint64 other_value = 2 [(buf.validate.field).uint64 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [uint64.gt_lt_exclusive] // uint64 another_value = 3 [(buf.validate.field).uint64 = { gt: 10, lt: 5 }]; // } // ``` uint64 gt = 4 [ (predefined).cel = { id: "uint64.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "uint64.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "uint64.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "uint64.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "uint64.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyUInt64 { // // value must be greater than or equal to 5 [uint64.gte] // uint64 value = 1 [(buf.validate.field).uint64.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [uint64.gte_lt] // uint64 other_value = 2 [(buf.validate.field).uint64 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [uint64.gte_lt_exclusive] // uint64 another_value = 3 [(buf.validate.field).uint64 = { gte: 10, lt: 5 }]; // } // ``` uint64 gte = 5 [ (predefined).cel = { id: "uint64.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "uint64.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "uint64.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "uint64.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "uint64.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MyUInt64 { // // value must be in list [1, 2, 3] // uint64 value = 1 [(buf.validate.field).uint64 = { in: [1, 2, 3] }]; // } // ``` repeated uint64 in = 6 [(predefined).cel = { id: "uint64.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyUInt64 { // // value must not be in list [1, 2, 3] // uint64 value = 1 [(buf.validate.field).uint64 = { not_in: [1, 2, 3] }]; // } // ``` repeated uint64 not_in = 7 [(predefined).cel = { id: "uint64.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyUInt64 { // uint64 value = 1 [ // (buf.validate.field).uint64.example = 1, // (buf.validate.field).uint64.example = -10 // ]; // } // ``` repeated uint64 example = 8 [(predefined).cel = { id: "uint64.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // SInt32Rules describes the rules applied to `sint32` values. message SInt32Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MySInt32 { // // value must equal 42 // sint32 value = 1 [(buf.validate.field).sint32.const = 42]; // } // ``` optional sint32 const = 1 [(predefined).cel = { id: "sint32.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field // < value). If the field value is equal to or greater than the specified // value, an error message is generated. // // ```proto // message MySInt32 { // // value must be less than 10 // sint32 value = 1 [(buf.validate.field).sint32.lt = 10]; // } // ``` sint32 lt = 2 [(predefined).cel = { id: "sint32.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MySInt32 { // // value must be less than or equal to 10 // sint32 value = 1 [(buf.validate.field).sint32.lte = 10]; // } // ``` sint32 lte = 3 [(predefined).cel = { id: "sint32.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySInt32 { // // value must be greater than 5 [sint32.gt] // sint32 value = 1 [(buf.validate.field).sint32.gt = 5]; // // // value must be greater than 5 and less than 10 [sint32.gt_lt] // sint32 other_value = 2 [(buf.validate.field).sint32 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [sint32.gt_lt_exclusive] // sint32 another_value = 3 [(buf.validate.field).sint32 = { gt: 10, lt: 5 }]; // } // ``` sint32 gt = 4 [ (predefined).cel = { id: "sint32.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "sint32.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sint32.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sint32.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "sint32.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySInt32 { // // value must be greater than or equal to 5 [sint32.gte] // sint32 value = 1 [(buf.validate.field).sint32.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [sint32.gte_lt] // sint32 other_value = 2 [(buf.validate.field).sint32 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [sint32.gte_lt_exclusive] // sint32 another_value = 3 [(buf.validate.field).sint32 = { gte: 10, lt: 5 }]; // } // ``` sint32 gte = 5 [ (predefined).cel = { id: "sint32.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "sint32.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sint32.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sint32.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "sint32.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MySInt32 { // // value must be in list [1, 2, 3] // sint32 value = 1 [(buf.validate.field).sint32 = { in: [1, 2, 3] }]; // } // ``` repeated sint32 in = 6 [(predefined).cel = { id: "sint32.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MySInt32 { // // value must not be in list [1, 2, 3] // sint32 value = 1 [(buf.validate.field).sint32 = { not_in: [1, 2, 3] }]; // } // ``` repeated sint32 not_in = 7 [(predefined).cel = { id: "sint32.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MySInt32 { // sint32 value = 1 [ // (buf.validate.field).sint32.example = 1, // (buf.validate.field).sint32.example = -10 // ]; // } // ``` repeated sint32 example = 8 [(predefined).cel = { id: "sint32.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // SInt64Rules describes the rules applied to `sint64` values. message SInt64Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MySInt64 { // // value must equal 42 // sint64 value = 1 [(buf.validate.field).sint64.const = 42]; // } // ``` optional sint64 const = 1 [(predefined).cel = { id: "sint64.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field // < value). If the field value is equal to or greater than the specified // value, an error message is generated. // // ```proto // message MySInt64 { // // value must be less than 10 // sint64 value = 1 [(buf.validate.field).sint64.lt = 10]; // } // ``` sint64 lt = 2 [(predefined).cel = { id: "sint64.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MySInt64 { // // value must be less than or equal to 10 // sint64 value = 1 [(buf.validate.field).sint64.lte = 10]; // } // ``` sint64 lte = 3 [(predefined).cel = { id: "sint64.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySInt64 { // // value must be greater than 5 [sint64.gt] // sint64 value = 1 [(buf.validate.field).sint64.gt = 5]; // // // value must be greater than 5 and less than 10 [sint64.gt_lt] // sint64 other_value = 2 [(buf.validate.field).sint64 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [sint64.gt_lt_exclusive] // sint64 another_value = 3 [(buf.validate.field).sint64 = { gt: 10, lt: 5 }]; // } // ``` sint64 gt = 4 [ (predefined).cel = { id: "sint64.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "sint64.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sint64.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sint64.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "sint64.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySInt64 { // // value must be greater than or equal to 5 [sint64.gte] // sint64 value = 1 [(buf.validate.field).sint64.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [sint64.gte_lt] // sint64 other_value = 2 [(buf.validate.field).sint64 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [sint64.gte_lt_exclusive] // sint64 another_value = 3 [(buf.validate.field).sint64 = { gte: 10, lt: 5 }]; // } // ``` sint64 gte = 5 [ (predefined).cel = { id: "sint64.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "sint64.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sint64.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sint64.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "sint64.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message // is generated. // // ```proto // message MySInt64 { // // value must be in list [1, 2, 3] // sint64 value = 1 [(buf.validate.field).sint64 = { in: [1, 2, 3] }]; // } // ``` repeated sint64 in = 6 [(predefined).cel = { id: "sint64.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MySInt64 { // // value must not be in list [1, 2, 3] // sint64 value = 1 [(buf.validate.field).sint64 = { not_in: [1, 2, 3] }]; // } // ``` repeated sint64 not_in = 7 [(predefined).cel = { id: "sint64.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MySInt64 { // sint64 value = 1 [ // (buf.validate.field).sint64.example = 1, // (buf.validate.field).sint64.example = -10 // ]; // } // ``` repeated sint64 example = 8 [(predefined).cel = { id: "sint64.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // Fixed32Rules describes the rules applied to `fixed32` values. message Fixed32Rules { // `const` requires the field value to exactly match the specified value. // If the field value doesn't match, an error message is generated. // // ```proto // message MyFixed32 { // // value must equal 42 // fixed32 value = 1 [(buf.validate.field).fixed32.const = 42]; // } // ``` optional fixed32 const = 1 [(predefined).cel = { id: "fixed32.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MyFixed32 { // // value must be less than 10 // fixed32 value = 1 [(buf.validate.field).fixed32.lt = 10]; // } // ``` fixed32 lt = 2 [(predefined).cel = { id: "fixed32.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyFixed32 { // // value must be less than or equal to 10 // fixed32 value = 1 [(buf.validate.field).fixed32.lte = 10]; // } // ``` fixed32 lte = 3 [(predefined).cel = { id: "fixed32.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyFixed32 { // // value must be greater than 5 [fixed32.gt] // fixed32 value = 1 [(buf.validate.field).fixed32.gt = 5]; // // // value must be greater than 5 and less than 10 [fixed32.gt_lt] // fixed32 other_value = 2 [(buf.validate.field).fixed32 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [fixed32.gt_lt_exclusive] // fixed32 another_value = 3 [(buf.validate.field).fixed32 = { gt: 10, lt: 5 }]; // } // ``` fixed32 gt = 4 [ (predefined).cel = { id: "fixed32.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "fixed32.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "fixed32.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "fixed32.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "fixed32.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyFixed32 { // // value must be greater than or equal to 5 [fixed32.gte] // fixed32 value = 1 [(buf.validate.field).fixed32.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [fixed32.gte_lt] // fixed32 other_value = 2 [(buf.validate.field).fixed32 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [fixed32.gte_lt_exclusive] // fixed32 another_value = 3 [(buf.validate.field).fixed32 = { gte: 10, lt: 5 }]; // } // ``` fixed32 gte = 5 [ (predefined).cel = { id: "fixed32.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "fixed32.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "fixed32.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "fixed32.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "fixed32.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message // is generated. // // ```proto // message MyFixed32 { // // value must be in list [1, 2, 3] // fixed32 value = 1 [(buf.validate.field).fixed32 = { in: [1, 2, 3] }]; // } // ``` repeated fixed32 in = 6 [(predefined).cel = { id: "fixed32.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyFixed32 { // // value must not be in list [1, 2, 3] // fixed32 value = 1 [(buf.validate.field).fixed32 = { not_in: [1, 2, 3] }]; // } // ``` repeated fixed32 not_in = 7 [(predefined).cel = { id: "fixed32.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyFixed32 { // fixed32 value = 1 [ // (buf.validate.field).fixed32.example = 1, // (buf.validate.field).fixed32.example = 2 // ]; // } // ``` repeated fixed32 example = 8 [(predefined).cel = { id: "fixed32.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // Fixed64Rules describes the rules applied to `fixed64` values. message Fixed64Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyFixed64 { // // value must equal 42 // fixed64 value = 1 [(buf.validate.field).fixed64.const = 42]; // } // ``` optional fixed64 const = 1 [(predefined).cel = { id: "fixed64.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MyFixed64 { // // value must be less than 10 // fixed64 value = 1 [(buf.validate.field).fixed64.lt = 10]; // } // ``` fixed64 lt = 2 [(predefined).cel = { id: "fixed64.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MyFixed64 { // // value must be less than or equal to 10 // fixed64 value = 1 [(buf.validate.field).fixed64.lte = 10]; // } // ``` fixed64 lte = 3 [(predefined).cel = { id: "fixed64.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyFixed64 { // // value must be greater than 5 [fixed64.gt] // fixed64 value = 1 [(buf.validate.field).fixed64.gt = 5]; // // // value must be greater than 5 and less than 10 [fixed64.gt_lt] // fixed64 other_value = 2 [(buf.validate.field).fixed64 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [fixed64.gt_lt_exclusive] // fixed64 another_value = 3 [(buf.validate.field).fixed64 = { gt: 10, lt: 5 }]; // } // ``` fixed64 gt = 4 [ (predefined).cel = { id: "fixed64.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "fixed64.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "fixed64.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "fixed64.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "fixed64.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyFixed64 { // // value must be greater than or equal to 5 [fixed64.gte] // fixed64 value = 1 [(buf.validate.field).fixed64.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [fixed64.gte_lt] // fixed64 other_value = 2 [(buf.validate.field).fixed64 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [fixed64.gte_lt_exclusive] // fixed64 another_value = 3 [(buf.validate.field).fixed64 = { gte: 10, lt: 5 }]; // } // ``` fixed64 gte = 5 [ (predefined).cel = { id: "fixed64.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "fixed64.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "fixed64.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "fixed64.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "fixed64.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MyFixed64 { // // value must be in list [1, 2, 3] // fixed64 value = 1 [(buf.validate.field).fixed64 = { in: [1, 2, 3] }]; // } // ``` repeated fixed64 in = 6 [(predefined).cel = { id: "fixed64.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MyFixed64 { // // value must not be in list [1, 2, 3] // fixed64 value = 1 [(buf.validate.field).fixed64 = { not_in: [1, 2, 3] }]; // } // ``` repeated fixed64 not_in = 7 [(predefined).cel = { id: "fixed64.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyFixed64 { // fixed64 value = 1 [ // (buf.validate.field).fixed64.example = 1, // (buf.validate.field).fixed64.example = 2 // ]; // } // ``` repeated fixed64 example = 8 [(predefined).cel = { id: "fixed64.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // SFixed32Rules describes the rules applied to `fixed32` values. message SFixed32Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MySFixed32 { // // value must equal 42 // sfixed32 value = 1 [(buf.validate.field).sfixed32.const = 42]; // } // ``` optional sfixed32 const = 1 [(predefined).cel = { id: "sfixed32.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MySFixed32 { // // value must be less than 10 // sfixed32 value = 1 [(buf.validate.field).sfixed32.lt = 10]; // } // ``` sfixed32 lt = 2 [(predefined).cel = { id: "sfixed32.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MySFixed32 { // // value must be less than or equal to 10 // sfixed32 value = 1 [(buf.validate.field).sfixed32.lte = 10]; // } // ``` sfixed32 lte = 3 [(predefined).cel = { id: "sfixed32.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySFixed32 { // // value must be greater than 5 [sfixed32.gt] // sfixed32 value = 1 [(buf.validate.field).sfixed32.gt = 5]; // // // value must be greater than 5 and less than 10 [sfixed32.gt_lt] // sfixed32 other_value = 2 [(buf.validate.field).sfixed32 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [sfixed32.gt_lt_exclusive] // sfixed32 another_value = 3 [(buf.validate.field).sfixed32 = { gt: 10, lt: 5 }]; // } // ``` sfixed32 gt = 4 [ (predefined).cel = { id: "sfixed32.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "sfixed32.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed32.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed32.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "sfixed32.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySFixed32 { // // value must be greater than or equal to 5 [sfixed32.gte] // sfixed32 value = 1 [(buf.validate.field).sfixed32.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [sfixed32.gte_lt] // sfixed32 other_value = 2 [(buf.validate.field).sfixed32 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [sfixed32.gte_lt_exclusive] // sfixed32 another_value = 3 [(buf.validate.field).sfixed32 = { gte: 10, lt: 5 }]; // } // ``` sfixed32 gte = 5 [ (predefined).cel = { id: "sfixed32.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "sfixed32.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed32.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed32.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "sfixed32.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MySFixed32 { // // value must be in list [1, 2, 3] // sfixed32 value = 1 [(buf.validate.field).sfixed32 = { in: [1, 2, 3] }]; // } // ``` repeated sfixed32 in = 6 [(predefined).cel = { id: "sfixed32.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MySFixed32 { // // value must not be in list [1, 2, 3] // sfixed32 value = 1 [(buf.validate.field).sfixed32 = { not_in: [1, 2, 3] }]; // } // ``` repeated sfixed32 not_in = 7 [(predefined).cel = { id: "sfixed32.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MySFixed32 { // sfixed32 value = 1 [ // (buf.validate.field).sfixed32.example = 1, // (buf.validate.field).sfixed32.example = 2 // ]; // } // ``` repeated sfixed32 example = 8 [(predefined).cel = { id: "sfixed32.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // SFixed64Rules describes the rules applied to `fixed64` values. message SFixed64Rules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MySFixed64 { // // value must equal 42 // sfixed64 value = 1 [(buf.validate.field).sfixed64.const = 42]; // } // ``` optional sfixed64 const = 1 [(predefined).cel = { id: "sfixed64.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` requires the field value to be less than the specified value (field < // value). If the field value is equal to or greater than the specified value, // an error message is generated. // // ```proto // message MySFixed64 { // // value must be less than 10 // sfixed64 value = 1 [(buf.validate.field).sfixed64.lt = 10]; // } // ``` sfixed64 lt = 2 [(predefined).cel = { id: "sfixed64.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` requires the field value to be less than or equal to the specified // value (field <= value). If the field value is greater than the specified // value, an error message is generated. // // ```proto // message MySFixed64 { // // value must be less than or equal to 10 // sfixed64 value = 1 [(buf.validate.field).sfixed64.lte = 10]; // } // ``` sfixed64 lte = 3 [(predefined).cel = { id: "sfixed64.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the field value to be greater than the specified value // (exclusive). If the value of `gt` is larger than a specified `lt` or // `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySFixed64 { // // value must be greater than 5 [sfixed64.gt] // sfixed64 value = 1 [(buf.validate.field).sfixed64.gt = 5]; // // // value must be greater than 5 and less than 10 [sfixed64.gt_lt] // sfixed64 other_value = 2 [(buf.validate.field).sfixed64 = { gt: 5, lt: 10 }]; // // // value must be greater than 10 or less than 5 [sfixed64.gt_lt_exclusive] // sfixed64 another_value = 3 [(buf.validate.field).sfixed64 = { gt: 10, lt: 5 }]; // } // ``` sfixed64 gt = 4 [ (predefined).cel = { id: "sfixed64.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "sfixed64.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed64.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed64.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "sfixed64.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the field value to be greater than or equal to the specified // value (exclusive). If the value of `gte` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MySFixed64 { // // value must be greater than or equal to 5 [sfixed64.gte] // sfixed64 value = 1 [(buf.validate.field).sfixed64.gte = 5]; // // // value must be greater than or equal to 5 and less than 10 [sfixed64.gte_lt] // sfixed64 other_value = 2 [(buf.validate.field).sfixed64 = { gte: 5, lt: 10 }]; // // // value must be greater than or equal to 10 or less than 5 [sfixed64.gte_lt_exclusive] // sfixed64 another_value = 3 [(buf.validate.field).sfixed64 = { gte: 10, lt: 5 }]; // } // ``` sfixed64 gte = 5 [ (predefined).cel = { id: "sfixed64.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "sfixed64.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed64.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "sfixed64.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "sfixed64.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` requires the field value to be equal to one of the specified values. // If the field value isn't one of the specified values, an error message is // generated. // // ```proto // message MySFixed64 { // // value must be in list [1, 2, 3] // sfixed64 value = 1 [(buf.validate.field).sfixed64 = { in: [1, 2, 3] }]; // } // ``` repeated sfixed64 in = 6 [(predefined).cel = { id: "sfixed64.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to not be equal to any of the specified // values. If the field value is one of the specified values, an error // message is generated. // // ```proto // message MySFixed64 { // // value must not be in list [1, 2, 3] // sfixed64 value = 1 [(buf.validate.field).sfixed64 = { not_in: [1, 2, 3] }]; // } // ``` repeated sfixed64 not_in = 7 [(predefined).cel = { id: "sfixed64.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MySFixed64 { // sfixed64 value = 1 [ // (buf.validate.field).sfixed64.example = 1, // (buf.validate.field).sfixed64.example = 2 // ]; // } // ``` repeated sfixed64 example = 8 [(predefined).cel = { id: "sfixed64.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // BoolRules describes the rules applied to `bool` values. These rules // may also be applied to the `google.protobuf.BoolValue` Well-Known-Type. message BoolRules { // `const` requires the field value to exactly match the specified boolean value. // If the field value doesn't match, an error message is generated. // // ```proto // message MyBool { // // value must equal true // bool value = 1 [(buf.validate.field).bool.const = true]; // } // ``` optional bool const = 1 [(predefined).cel = { id: "bool.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyBool { // bool value = 1 [ // (buf.validate.field).bool.example = 1, // (buf.validate.field).bool.example = 2 // ]; // } // ``` repeated bool example = 2 [(predefined).cel = { id: "bool.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // StringRules describes the rules applied to `string` values These // rules may also be applied to the `google.protobuf.StringValue` Well-Known-Type. message StringRules { // `const` requires the field value to exactly match the specified value. If // the field value doesn't match, an error message is generated. // // ```proto // message MyString { // // value must equal `hello` // string value = 1 [(buf.validate.field).string.const = "hello"]; // } // ``` optional string const = 1 [(predefined).cel = { id: "string.const" expression: "this != getField(rules, 'const') ? 'value must equal `%s`'.format([getField(rules, 'const')]) : ''" }]; // `len` dictates that the field value must have the specified // number of characters (Unicode code points), which may differ from the number // of bytes in the string. If the field value does not meet the specified // length, an error message will be generated. // // ```proto // message MyString { // // value length must be 5 characters // string value = 1 [(buf.validate.field).string.len = 5]; // } // ``` optional uint64 len = 19 [(predefined).cel = { id: "string.len" expression: "uint(this.size()) != rules.len ? 'value length must be %s characters'.format([rules.len]) : ''" }]; // `min_len` specifies that the field value must have at least the specified // number of characters (Unicode code points), which may differ from the number // of bytes in the string. If the field value contains fewer characters, an error // message will be generated. // // ```proto // message MyString { // // value length must be at least 3 characters // string value = 1 [(buf.validate.field).string.min_len = 3]; // } // ``` optional uint64 min_len = 2 [(predefined).cel = { id: "string.min_len" expression: "uint(this.size()) < rules.min_len ? 'value length must be at least %s characters'.format([rules.min_len]) : ''" }]; // `max_len` specifies that the field value must have no more than the specified // number of characters (Unicode code points), which may differ from the // number of bytes in the string. If the field value contains more characters, // an error message will be generated. // // ```proto // message MyString { // // value length must be at most 10 characters // string value = 1 [(buf.validate.field).string.max_len = 10]; // } // ``` optional uint64 max_len = 3 [(predefined).cel = { id: "string.max_len" expression: "uint(this.size()) > rules.max_len ? 'value length must be at most %s characters'.format([rules.max_len]) : ''" }]; // `len_bytes` dictates that the field value must have the specified number of // bytes. If the field value does not match the specified length in bytes, // an error message will be generated. // // ```proto // message MyString { // // value length must be 6 bytes // string value = 1 [(buf.validate.field).string.len_bytes = 6]; // } // ``` optional uint64 len_bytes = 20 [(predefined).cel = { id: "string.len_bytes" expression: "uint(bytes(this).size()) != rules.len_bytes ? 'value length must be %s bytes'.format([rules.len_bytes]) : ''" }]; // `min_bytes` specifies that the field value must have at least the specified // number of bytes. If the field value contains fewer bytes, an error message // will be generated. // // ```proto // message MyString { // // value length must be at least 4 bytes // string value = 1 [(buf.validate.field).string.min_bytes = 4]; // } // // ``` optional uint64 min_bytes = 4 [(predefined).cel = { id: "string.min_bytes" expression: "uint(bytes(this).size()) < rules.min_bytes ? 'value length must be at least %s bytes'.format([rules.min_bytes]) : ''" }]; // `max_bytes` specifies that the field value must have no more than the //specified number of bytes. If the field value contains more bytes, an // error message will be generated. // // ```proto // message MyString { // // value length must be at most 8 bytes // string value = 1 [(buf.validate.field).string.max_bytes = 8]; // } // ``` optional uint64 max_bytes = 5 [(predefined).cel = { id: "string.max_bytes" expression: "uint(bytes(this).size()) > rules.max_bytes ? 'value length must be at most %s bytes'.format([rules.max_bytes]) : ''" }]; // `pattern` specifies that the field value must match the specified // regular expression (RE2 syntax), with the expression provided without any // delimiters. If the field value doesn't match the regular expression, an // error message will be generated. // // ```proto // message MyString { // // value does not match regex pattern `^[a-zA-Z]//$` // string value = 1 [(buf.validate.field).string.pattern = "^[a-zA-Z]//$"]; // } // ``` optional string pattern = 6 [(predefined).cel = { id: "string.pattern" expression: "!this.matches(rules.pattern) ? 'value does not match regex pattern `%s`'.format([rules.pattern]) : ''" }]; // `prefix` specifies that the field value must have the //specified substring at the beginning of the string. If the field value // doesn't start with the specified prefix, an error message will be // generated. // // ```proto // message MyString { // // value does not have prefix `pre` // string value = 1 [(buf.validate.field).string.prefix = "pre"]; // } // ``` optional string prefix = 7 [(predefined).cel = { id: "string.prefix" expression: "!this.startsWith(rules.prefix) ? 'value does not have prefix `%s`'.format([rules.prefix]) : ''" }]; // `suffix` specifies that the field value must have the //specified substring at the end of the string. If the field value doesn't // end with the specified suffix, an error message will be generated. // // ```proto // message MyString { // // value does not have suffix `post` // string value = 1 [(buf.validate.field).string.suffix = "post"]; // } // ``` optional string suffix = 8 [(predefined).cel = { id: "string.suffix" expression: "!this.endsWith(rules.suffix) ? 'value does not have suffix `%s`'.format([rules.suffix]) : ''" }]; // `contains` specifies that the field value must have the //specified substring anywhere in the string. If the field value doesn't // contain the specified substring, an error message will be generated. // // ```proto // message MyString { // // value does not contain substring `inside`. // string value = 1 [(buf.validate.field).string.contains = "inside"]; // } // ``` optional string contains = 9 [(predefined).cel = { id: "string.contains" expression: "!this.contains(rules.contains) ? 'value does not contain substring `%s`'.format([rules.contains]) : ''" }]; // `not_contains` specifies that the field value must not have the //specified substring anywhere in the string. If the field value contains // the specified substring, an error message will be generated. // // ```proto // message MyString { // // value contains substring `inside`. // string value = 1 [(buf.validate.field).string.not_contains = "inside"]; // } // ``` optional string not_contains = 23 [(predefined).cel = { id: "string.not_contains" expression: "this.contains(rules.not_contains) ? 'value contains substring `%s`'.format([rules.not_contains]) : ''" }]; // `in` specifies that the field value must be equal to one of the specified // values. If the field value isn't one of the specified values, an error // message will be generated. // // ```proto // message MyString { // // value must be in list ["apple", "banana"] // string value = 1 [(buf.validate.field).string.in = "apple", (buf.validate.field).string.in = "banana"]; // } // ``` repeated string in = 10 [(predefined).cel = { id: "string.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` specifies that the field value cannot be equal to any // of the specified values. If the field value is one of the specified values, // an error message will be generated. // ```proto // message MyString { // // value must not be in list ["orange", "grape"] // string value = 1 [(buf.validate.field).string.not_in = "orange", (buf.validate.field).string.not_in = "grape"]; // } // ``` repeated string not_in = 11 [(predefined).cel = { id: "string.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `WellKnown` rules provide advanced rules against common string // patterns. oneof well_known { // `email` specifies that the field value must be a valid email address, for // example "foo@example.com". // // Conforms to the definition for a valid email address from the [HTML standard](https://html.spec.whatwg.org/multipage/input.html#valid-e-mail-address). // Note that this standard willfully deviates from [RFC 5322](https://datatracker.ietf.org/doc/html/rfc5322), // which allows many unexpected forms of email addresses and will easily match // a typographical error. // // If the field value isn't a valid email address, an error message will be generated. // // ```proto // message MyString { // // value must be a valid email address // string value = 1 [(buf.validate.field).string.email = true]; // } // ``` bool email = 12 [ (predefined).cel = { id: "string.email" message: "value must be a valid email address" expression: "!rules.email || this == '' || this.isEmail()" }, (predefined).cel = { id: "string.email_empty" message: "value is empty, which is not a valid email address" expression: "!rules.email || this != ''" } ]; // `hostname` specifies that the field value must be a valid hostname, for // example "foo.example.com". // // A valid hostname follows the rules below: // - The name consists of one or more labels, separated by a dot ("."). // - Each label can be 1 to 63 alphanumeric characters. // - A label can contain hyphens ("-"), but must not start or end with a hyphen. // - The right-most label must not be digits only. // - The name can have a trailing dot—for example, "foo.example.com.". // - The name can be 253 characters at most, excluding the optional trailing dot. // // If the field value isn't a valid hostname, an error message will be generated. // // ```proto // message MyString { // // value must be a valid hostname // string value = 1 [(buf.validate.field).string.hostname = true]; // } // ``` bool hostname = 13 [ (predefined).cel = { id: "string.hostname" message: "value must be a valid hostname" expression: "!rules.hostname || this == '' || this.isHostname()" }, (predefined).cel = { id: "string.hostname_empty" message: "value is empty, which is not a valid hostname" expression: "!rules.hostname || this != ''" } ]; // `ip` specifies that the field value must be a valid IP (v4 or v6) address. // // IPv4 addresses are expected in the dotted decimal format—for example, "192.168.5.21". // IPv6 addresses are expected in their text representation—for example, "::1", // or "2001:0DB8:ABCD:0012::0". // // Both formats are well-defined in the internet standard [RFC 3986](https://datatracker.ietf.org/doc/html/rfc3986). // Zone identifiers for IPv6 addresses (for example, "fe80::a%en1") are supported. // // If the field value isn't a valid IP address, an error message will be // generated. // // ```proto // message MyString { // // value must be a valid IP address // string value = 1 [(buf.validate.field).string.ip = true]; // } // ``` bool ip = 14 [ (predefined).cel = { id: "string.ip" message: "value must be a valid IP address" expression: "!rules.ip || this == '' || this.isIp()" }, (predefined).cel = { id: "string.ip_empty" message: "value is empty, which is not a valid IP address" expression: "!rules.ip || this != ''" } ]; // `ipv4` specifies that the field value must be a valid IPv4 address—for // example "192.168.5.21". If the field value isn't a valid IPv4 address, an // error message will be generated. // // ```proto // message MyString { // // value must be a valid IPv4 address // string value = 1 [(buf.validate.field).string.ipv4 = true]; // } // ``` bool ipv4 = 15 [ (predefined).cel = { id: "string.ipv4" message: "value must be a valid IPv4 address" expression: "!rules.ipv4 || this == '' || this.isIp(4)" }, (predefined).cel = { id: "string.ipv4_empty" message: "value is empty, which is not a valid IPv4 address" expression: "!rules.ipv4 || this != ''" } ]; // `ipv6` specifies that the field value must be a valid IPv6 address—for // example "::1", or "d7a:115c:a1e0:ab12:4843:cd96:626b:430b". If the field // value is not a valid IPv6 address, an error message will be generated. // // ```proto // message MyString { // // value must be a valid IPv6 address // string value = 1 [(buf.validate.field).string.ipv6 = true]; // } // ``` bool ipv6 = 16 [ (predefined).cel = { id: "string.ipv6" message: "value must be a valid IPv6 address" expression: "!rules.ipv6 || this == '' || this.isIp(6)" }, (predefined).cel = { id: "string.ipv6_empty" message: "value is empty, which is not a valid IPv6 address" expression: "!rules.ipv6 || this != ''" } ]; // `uri` specifies that the field value must be a valid URI, for example // "https://example.com/foo/bar?baz=quux#frag". // // URI is defined in the internet standard [RFC 3986](https://datatracker.ietf.org/doc/html/rfc3986). // Zone Identifiers in IPv6 address literals are supported ([RFC 6874](https://datatracker.ietf.org/doc/html/rfc6874)). // // If the field value isn't a valid URI, an error message will be generated. // // ```proto // message MyString { // // value must be a valid URI // string value = 1 [(buf.validate.field).string.uri = true]; // } // ``` bool uri = 17 [ (predefined).cel = { id: "string.uri" message: "value must be a valid URI" expression: "!rules.uri || this == '' || this.isUri()" }, (predefined).cel = { id: "string.uri_empty" message: "value is empty, which is not a valid URI" expression: "!rules.uri || this != ''" } ]; // `uri_ref` specifies that the field value must be a valid URI Reference—either // a URI such as "https://example.com/foo/bar?baz=quux#frag", or a Relative // Reference such as "./foo/bar?query". // // URI, URI Reference, and Relative Reference are defined in the internet // standard [RFC 3986](https://datatracker.ietf.org/doc/html/rfc3986). Zone // Identifiers in IPv6 address literals are supported ([RFC 6874](https://datatracker.ietf.org/doc/html/rfc6874)). // // If the field value isn't a valid URI Reference, an error message will be // generated. // // ```proto // message MyString { // // value must be a valid URI Reference // string value = 1 [(buf.validate.field).string.uri_ref = true]; // } // ``` bool uri_ref = 18 [(predefined).cel = { id: "string.uri_ref" message: "value must be a valid URI Reference" expression: "!rules.uri_ref || this.isUriRef()" }]; // `address` specifies that the field value must be either a valid hostname // (for example, "example.com"), or a valid IP (v4 or v6) address (for example, // "192.168.0.1", or "::1"). If the field value isn't a valid hostname or IP, // an error message will be generated. // // ```proto // message MyString { // // value must be a valid hostname, or ip address // string value = 1 [(buf.validate.field).string.address = true]; // } // ``` bool address = 21 [ (predefined).cel = { id: "string.address" message: "value must be a valid hostname, or ip address" expression: "!rules.address || this == '' || this.isHostname() || this.isIp()" }, (predefined).cel = { id: "string.address_empty" message: "value is empty, which is not a valid hostname, or ip address" expression: "!rules.address || this != ''" } ]; // `uuid` specifies that the field value must be a valid UUID as defined by // [RFC 4122](https://datatracker.ietf.org/doc/html/rfc4122#section-4.1.2). If the // field value isn't a valid UUID, an error message will be generated. // // ```proto // message MyString { // // value must be a valid UUID // string value = 1 [(buf.validate.field).string.uuid = true]; // } // ``` bool uuid = 22 [ (predefined).cel = { id: "string.uuid" message: "value must be a valid UUID" expression: "!rules.uuid || this == '' || this.matches('^[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}$')" }, (predefined).cel = { id: "string.uuid_empty" message: "value is empty, which is not a valid UUID" expression: "!rules.uuid || this != ''" } ]; // `tuuid` (trimmed UUID) specifies that the field value must be a valid UUID as // defined by [RFC 4122](https://datatracker.ietf.org/doc/html/rfc4122#section-4.1.2) with all dashes // omitted. If the field value isn't a valid UUID without dashes, an error message // will be generated. // // ```proto // message MyString { // // value must be a valid trimmed UUID // string value = 1 [(buf.validate.field).string.tuuid = true]; // } // ``` bool tuuid = 33 [ (predefined).cel = { id: "string.tuuid" message: "value must be a valid trimmed UUID" expression: "!rules.tuuid || this == '' || this.matches('^[0-9a-fA-F]{32}$')" }, (predefined).cel = { id: "string.tuuid_empty" message: "value is empty, which is not a valid trimmed UUID" expression: "!rules.tuuid || this != ''" } ]; // `ip_with_prefixlen` specifies that the field value must be a valid IP // (v4 or v6) address with prefix length—for example, "192.168.5.21/16" or // "2001:0DB8:ABCD:0012::F1/64". If the field value isn't a valid IP with // prefix length, an error message will be generated. // // ```proto // message MyString { // // value must be a valid IP with prefix length // string value = 1 [(buf.validate.field).string.ip_with_prefixlen = true]; // } // ``` bool ip_with_prefixlen = 26 [ (predefined).cel = { id: "string.ip_with_prefixlen" message: "value must be a valid IP prefix" expression: "!rules.ip_with_prefixlen || this == '' || this.isIpPrefix()" }, (predefined).cel = { id: "string.ip_with_prefixlen_empty" message: "value is empty, which is not a valid IP prefix" expression: "!rules.ip_with_prefixlen || this != ''" } ]; // `ipv4_with_prefixlen` specifies that the field value must be a valid // IPv4 address with prefix length—for example, "192.168.5.21/16". If the // field value isn't a valid IPv4 address with prefix length, an error // message will be generated. // // ```proto // message MyString { // // value must be a valid IPv4 address with prefix length // string value = 1 [(buf.validate.field).string.ipv4_with_prefixlen = true]; // } // ``` bool ipv4_with_prefixlen = 27 [ (predefined).cel = { id: "string.ipv4_with_prefixlen" message: "value must be a valid IPv4 address with prefix length" expression: "!rules.ipv4_with_prefixlen || this == '' || this.isIpPrefix(4)" }, (predefined).cel = { id: "string.ipv4_with_prefixlen_empty" message: "value is empty, which is not a valid IPv4 address with prefix length" expression: "!rules.ipv4_with_prefixlen || this != ''" } ]; // `ipv6_with_prefixlen` specifies that the field value must be a valid // IPv6 address with prefix length—for example, "2001:0DB8:ABCD:0012::F1/64". // If the field value is not a valid IPv6 address with prefix length, // an error message will be generated. // // ```proto // message MyString { // // value must be a valid IPv6 address prefix length // string value = 1 [(buf.validate.field).string.ipv6_with_prefixlen = true]; // } // ``` bool ipv6_with_prefixlen = 28 [ (predefined).cel = { id: "string.ipv6_with_prefixlen" message: "value must be a valid IPv6 address with prefix length" expression: "!rules.ipv6_with_prefixlen || this == '' || this.isIpPrefix(6)" }, (predefined).cel = { id: "string.ipv6_with_prefixlen_empty" message: "value is empty, which is not a valid IPv6 address with prefix length" expression: "!rules.ipv6_with_prefixlen || this != ''" } ]; // `ip_prefix` specifies that the field value must be a valid IP (v4 or v6) // prefix—for example, "192.168.0.0/16" or "2001:0DB8:ABCD:0012::0/64". // // The prefix must have all zeros for the unmasked bits. For example, // "2001:0DB8:ABCD:0012::0/64" designates the left-most 64 bits for the // prefix, and the remaining 64 bits must be zero. // // If the field value isn't a valid IP prefix, an error message will be // generated. // // ```proto // message MyString { // // value must be a valid IP prefix // string value = 1 [(buf.validate.field).string.ip_prefix = true]; // } // ``` bool ip_prefix = 29 [ (predefined).cel = { id: "string.ip_prefix" message: "value must be a valid IP prefix" expression: "!rules.ip_prefix || this == '' || this.isIpPrefix(true)" }, (predefined).cel = { id: "string.ip_prefix_empty" message: "value is empty, which is not a valid IP prefix" expression: "!rules.ip_prefix || this != ''" } ]; // `ipv4_prefix` specifies that the field value must be a valid IPv4 // prefix, for example "192.168.0.0/16". // // The prefix must have all zeros for the unmasked bits. For example, // "192.168.0.0/16" designates the left-most 16 bits for the prefix, // and the remaining 16 bits must be zero. // // If the field value isn't a valid IPv4 prefix, an error message // will be generated. // // ```proto // message MyString { // // value must be a valid IPv4 prefix // string value = 1 [(buf.validate.field).string.ipv4_prefix = true]; // } // ``` bool ipv4_prefix = 30 [ (predefined).cel = { id: "string.ipv4_prefix" message: "value must be a valid IPv4 prefix" expression: "!rules.ipv4_prefix || this == '' || this.isIpPrefix(4, true)" }, (predefined).cel = { id: "string.ipv4_prefix_empty" message: "value is empty, which is not a valid IPv4 prefix" expression: "!rules.ipv4_prefix || this != ''" } ]; // `ipv6_prefix` specifies that the field value must be a valid IPv6 prefix—for // example, "2001:0DB8:ABCD:0012::0/64". // // The prefix must have all zeros for the unmasked bits. For example, // "2001:0DB8:ABCD:0012::0/64" designates the left-most 64 bits for the // prefix, and the remaining 64 bits must be zero. // // If the field value is not a valid IPv6 prefix, an error message will be // generated. // // ```proto // message MyString { // // value must be a valid IPv6 prefix // string value = 1 [(buf.validate.field).string.ipv6_prefix = true]; // } // ``` bool ipv6_prefix = 31 [ (predefined).cel = { id: "string.ipv6_prefix" message: "value must be a valid IPv6 prefix" expression: "!rules.ipv6_prefix || this == '' || this.isIpPrefix(6, true)" }, (predefined).cel = { id: "string.ipv6_prefix_empty" message: "value is empty, which is not a valid IPv6 prefix" expression: "!rules.ipv6_prefix || this != ''" } ]; // `host_and_port` specifies that the field value must be valid host/port // pair—for example, "example.com:8080". // // The host can be one of: //- An IPv4 address in dotted decimal format—for example, "192.168.5.21". //- An IPv6 address enclosed in square brackets—for example, "[2001:0DB8:ABCD:0012::F1]". //- A hostname—for example, "example.com". // // The port is separated by a colon. It must be non-empty, with a decimal number // in the range of 0-65535, inclusive. bool host_and_port = 32 [ (predefined).cel = { id: "string.host_and_port" message: "value must be a valid host (hostname or IP address) and port pair" expression: "!rules.host_and_port || this == '' || this.isHostAndPort(true)" }, (predefined).cel = { id: "string.host_and_port_empty" message: "value is empty, which is not a valid host and port pair" expression: "!rules.host_and_port || this != ''" } ]; // `well_known_regex` specifies a common well-known pattern // defined as a regex. If the field value doesn't match the well-known // regex, an error message will be generated. // // ```proto // message MyString { // // value must be a valid HTTP header value // string value = 1 [(buf.validate.field).string.well_known_regex = KNOWN_REGEX_HTTP_HEADER_VALUE]; // } // ``` // // #### KnownRegex // // `well_known_regex` contains some well-known patterns. // // | Name | Number | Description | // |-------------------------------|--------|-------------------------------------------| // | KNOWN_REGEX_UNSPECIFIED | 0 | | // | KNOWN_REGEX_HTTP_HEADER_NAME | 1 | HTTP header name as defined by [RFC 7230](https://datatracker.ietf.org/doc/html/rfc7230#section-3.2) | // | KNOWN_REGEX_HTTP_HEADER_VALUE | 2 | HTTP header value as defined by [RFC 7230](https://datatracker.ietf.org/doc/html/rfc7230#section-3.2.4) | KnownRegex well_known_regex = 24 [ (predefined).cel = { id: "string.well_known_regex.header_name" message: "value must be a valid HTTP header name" expression: "rules.well_known_regex != 1 || this == '' || this.matches(!has(rules.strict) || rules.strict ?" "'^:?[0-9a-zA-Z!#$%&\\'*+-.^_|~\\x60]+$' :" "'^[^\\u0000\\u000A\\u000D]+$')" }, (predefined).cel = { id: "string.well_known_regex.header_name_empty" message: "value is empty, which is not a valid HTTP header name" expression: "rules.well_known_regex != 1 || this != ''" }, (predefined).cel = { id: "string.well_known_regex.header_value" message: "value must be a valid HTTP header value" expression: "rules.well_known_regex != 2 || this.matches(!has(rules.strict) || rules.strict ?" "'^[^\\u0000-\\u0008\\u000A-\\u001F\\u007F]*$' :" "'^[^\\u0000\\u000A\\u000D]*$')" } ]; } // This applies to regexes `HTTP_HEADER_NAME` and `HTTP_HEADER_VALUE` to // enable strict header validation. By default, this is true, and HTTP header // validations are [RFC-compliant](https://datatracker.ietf.org/doc/html/rfc7230#section-3). Setting to false will enable looser // validations that only disallow `\r\n\0` characters, which can be used to // bypass header matching rules. // // ```proto // message MyString { // // The field `value` must have be a valid HTTP headers, but not enforced with strict rules. // string value = 1 [(buf.validate.field).string.strict = false]; // } // ``` optional bool strict = 25; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyString { // string value = 1 [ // (buf.validate.field).string.example = "hello", // (buf.validate.field).string.example = "world" // ]; // } // ``` repeated string example = 34 [(predefined).cel = { id: "string.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // KnownRegex contains some well-known patterns. enum KnownRegex { KNOWN_REGEX_UNSPECIFIED = 0; // HTTP header name as defined by [RFC 7230](https://datatracker.ietf.org/doc/html/rfc7230#section-3.2). KNOWN_REGEX_HTTP_HEADER_NAME = 1; // HTTP header value as defined by [RFC 7230](https://datatracker.ietf.org/doc/html/rfc7230#section-3.2.4). KNOWN_REGEX_HTTP_HEADER_VALUE = 2; } // BytesRules describe the rules applied to `bytes` values. These rules // may also be applied to the `google.protobuf.BytesValue` Well-Known-Type. message BytesRules { // `const` requires the field value to exactly match the specified bytes // value. If the field value doesn't match, an error message is generated. // // ```proto // message MyBytes { // // value must be "\x01\x02\x03\x04" // bytes value = 1 [(buf.validate.field).bytes.const = "\x01\x02\x03\x04"]; // } // ``` optional bytes const = 1 [(predefined).cel = { id: "bytes.const" expression: "this != getField(rules, 'const') ? 'value must be %x'.format([getField(rules, 'const')]) : ''" }]; // `len` requires the field value to have the specified length in bytes. // If the field value doesn't match, an error message is generated. // // ```proto // message MyBytes { // // value length must be 4 bytes. // optional bytes value = 1 [(buf.validate.field).bytes.len = 4]; // } // ``` optional uint64 len = 13 [(predefined).cel = { id: "bytes.len" expression: "uint(this.size()) != rules.len ? 'value length must be %s bytes'.format([rules.len]) : ''" }]; // `min_len` requires the field value to have at least the specified minimum // length in bytes. // If the field value doesn't meet the requirement, an error message is generated. // // ```proto // message MyBytes { // // value length must be at least 2 bytes. // optional bytes value = 1 [(buf.validate.field).bytes.min_len = 2]; // } // ``` optional uint64 min_len = 2 [(predefined).cel = { id: "bytes.min_len" expression: "uint(this.size()) < rules.min_len ? 'value length must be at least %s bytes'.format([rules.min_len]) : ''" }]; // `max_len` requires the field value to have at most the specified maximum // length in bytes. // If the field value exceeds the requirement, an error message is generated. // // ```proto // message MyBytes { // // value must be at most 6 bytes. // optional bytes value = 1 [(buf.validate.field).bytes.max_len = 6]; // } // ``` optional uint64 max_len = 3 [(predefined).cel = { id: "bytes.max_len" expression: "uint(this.size()) > rules.max_len ? 'value must be at most %s bytes'.format([rules.max_len]) : ''" }]; // `pattern` requires the field value to match the specified regular // expression ([RE2 syntax](https://github.com/google/re2/wiki/Syntax)). // The value of the field must be valid UTF-8 or validation will fail with a // runtime error. // If the field value doesn't match the pattern, an error message is generated. // // ```proto // message MyBytes { // // value must match regex pattern "^[a-zA-Z0-9]+$". // optional bytes value = 1 [(buf.validate.field).bytes.pattern = "^[a-zA-Z0-9]+$"]; // } // ``` optional string pattern = 4 [(predefined).cel = { id: "bytes.pattern" expression: "!string(this).matches(rules.pattern) ? 'value must match regex pattern `%s`'.format([rules.pattern]) : ''" }]; // `prefix` requires the field value to have the specified bytes at the // beginning of the string. // If the field value doesn't meet the requirement, an error message is generated. // // ```proto // message MyBytes { // // value does not have prefix \x01\x02 // optional bytes value = 1 [(buf.validate.field).bytes.prefix = "\x01\x02"]; // } // ``` optional bytes prefix = 5 [(predefined).cel = { id: "bytes.prefix" expression: "!this.startsWith(rules.prefix) ? 'value does not have prefix %x'.format([rules.prefix]) : ''" }]; // `suffix` requires the field value to have the specified bytes at the end // of the string. // If the field value doesn't meet the requirement, an error message is generated. // // ```proto // message MyBytes { // // value does not have suffix \x03\x04 // optional bytes value = 1 [(buf.validate.field).bytes.suffix = "\x03\x04"]; // } // ``` optional bytes suffix = 6 [(predefined).cel = { id: "bytes.suffix" expression: "!this.endsWith(rules.suffix) ? 'value does not have suffix %x'.format([rules.suffix]) : ''" }]; // `contains` requires the field value to have the specified bytes anywhere in // the string. // If the field value doesn't meet the requirement, an error message is generated. // // ```protobuf // message MyBytes { // // value does not contain \x02\x03 // optional bytes value = 1 [(buf.validate.field).bytes.contains = "\x02\x03"]; // } // ``` optional bytes contains = 7 [(predefined).cel = { id: "bytes.contains" expression: "!this.contains(rules.contains) ? 'value does not contain %x'.format([rules.contains]) : ''" }]; // `in` requires the field value to be equal to one of the specified // values. If the field value doesn't match any of the specified values, an // error message is generated. // // ```protobuf // message MyBytes { // // value must in ["\x01\x02", "\x02\x03", "\x03\x04"] // optional bytes value = 1 [(buf.validate.field).bytes.in = {"\x01\x02", "\x02\x03", "\x03\x04"}]; // } // ``` repeated bytes in = 8 [(predefined).cel = { id: "bytes.in" expression: "getField(rules, 'in').size() > 0 && !(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to be not equal to any of the specified // values. // If the field value matches any of the specified values, an error message is // generated. // // ```proto // message MyBytes { // // value must not in ["\x01\x02", "\x02\x03", "\x03\x04"] // optional bytes value = 1 [(buf.validate.field).bytes.not_in = {"\x01\x02", "\x02\x03", "\x03\x04"}]; // } // ``` repeated bytes not_in = 9 [(predefined).cel = { id: "bytes.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // WellKnown rules provide advanced rules against common byte // patterns oneof well_known { // `ip` ensures that the field `value` is a valid IP address (v4 or v6) in byte format. // If the field value doesn't meet this rule, an error message is generated. // // ```proto // message MyBytes { // // value must be a valid IP address // optional bytes value = 1 [(buf.validate.field).bytes.ip = true]; // } // ``` bool ip = 10 [ (predefined).cel = { id: "bytes.ip" message: "value must be a valid IP address" expression: "!rules.ip || this.size() == 0 || this.size() == 4 || this.size() == 16" }, (predefined).cel = { id: "bytes.ip_empty" message: "value is empty, which is not a valid IP address" expression: "!rules.ip || this.size() != 0" } ]; // `ipv4` ensures that the field `value` is a valid IPv4 address in byte format. // If the field value doesn't meet this rule, an error message is generated. // // ```proto // message MyBytes { // // value must be a valid IPv4 address // optional bytes value = 1 [(buf.validate.field).bytes.ipv4 = true]; // } // ``` bool ipv4 = 11 [ (predefined).cel = { id: "bytes.ipv4" message: "value must be a valid IPv4 address" expression: "!rules.ipv4 || this.size() == 0 || this.size() == 4" }, (predefined).cel = { id: "bytes.ipv4_empty" message: "value is empty, which is not a valid IPv4 address" expression: "!rules.ipv4 || this.size() != 0" } ]; // `ipv6` ensures that the field `value` is a valid IPv6 address in byte format. // If the field value doesn't meet this rule, an error message is generated. // ```proto // message MyBytes { // // value must be a valid IPv6 address // optional bytes value = 1 [(buf.validate.field).bytes.ipv6 = true]; // } // ``` bool ipv6 = 12 [ (predefined).cel = { id: "bytes.ipv6" message: "value must be a valid IPv6 address" expression: "!rules.ipv6 || this.size() == 0 || this.size() == 16" }, (predefined).cel = { id: "bytes.ipv6_empty" message: "value is empty, which is not a valid IPv6 address" expression: "!rules.ipv6 || this.size() != 0" } ]; } // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyBytes { // bytes value = 1 [ // (buf.validate.field).bytes.example = "\x01\x02", // (buf.validate.field).bytes.example = "\x02\x03" // ]; // } // ``` repeated bytes example = 14 [(predefined).cel = { id: "bytes.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // EnumRules describe the rules applied to `enum` values. message EnumRules { // `const` requires the field value to exactly match the specified enum value. // If the field value doesn't match, an error message is generated. // // ```proto // enum MyEnum { // MY_ENUM_UNSPECIFIED = 0; // MY_ENUM_VALUE1 = 1; // MY_ENUM_VALUE2 = 2; // } // // message MyMessage { // // The field `value` must be exactly MY_ENUM_VALUE1. // MyEnum value = 1 [(buf.validate.field).enum.const = 1]; // } // ``` optional int32 const = 1 [(predefined).cel = { id: "enum.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; // `defined_only` requires the field value to be one of the defined values for // this enum, failing on any undefined value. // // ```proto // enum MyEnum { // MY_ENUM_UNSPECIFIED = 0; // MY_ENUM_VALUE1 = 1; // MY_ENUM_VALUE2 = 2; // } // // message MyMessage { // // The field `value` must be a defined value of MyEnum. // MyEnum value = 1 [(buf.validate.field).enum.defined_only = true]; // } // ``` optional bool defined_only = 2; // `in` requires the field value to be equal to one of the //specified enum values. If the field value doesn't match any of the //specified values, an error message is generated. // // ```proto // enum MyEnum { // MY_ENUM_UNSPECIFIED = 0; // MY_ENUM_VALUE1 = 1; // MY_ENUM_VALUE2 = 2; // } // // message MyMessage { // // The field `value` must be equal to one of the specified values. // MyEnum value = 1 [(buf.validate.field).enum = { in: [1, 2]}]; // } // ``` repeated int32 in = 3 [(predefined).cel = { id: "enum.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` requires the field value to be not equal to any of the //specified enum values. If the field value matches one of the specified // values, an error message is generated. // // ```proto // enum MyEnum { // MY_ENUM_UNSPECIFIED = 0; // MY_ENUM_VALUE1 = 1; // MY_ENUM_VALUE2 = 2; // } // // message MyMessage { // // The field `value` must not be equal to any of the specified values. // MyEnum value = 1 [(buf.validate.field).enum = { not_in: [1, 2]}]; // } // ``` repeated int32 not_in = 4 [(predefined).cel = { id: "enum.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // enum MyEnum { // MY_ENUM_UNSPECIFIED = 0; // MY_ENUM_VALUE1 = 1; // MY_ENUM_VALUE2 = 2; // } // // message MyMessage { // (buf.validate.field).enum.example = 1, // (buf.validate.field).enum.example = 2 // } // ``` repeated int32 example = 5 [(predefined).cel = { id: "enum.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // RepeatedRules describe the rules applied to `repeated` values. message RepeatedRules { // `min_items` requires that this field must contain at least the specified // minimum number of items. // // Note that `min_items = 1` is equivalent to setting a field as `required`. // // ```proto // message MyRepeated { // // value must contain at least 2 items // repeated string value = 1 [(buf.validate.field).repeated.min_items = 2]; // } // ``` optional uint64 min_items = 1 [(predefined).cel = { id: "repeated.min_items" expression: "uint(this.size()) < rules.min_items ? 'value must contain at least %d item(s)'.format([rules.min_items]) : ''" }]; // `max_items` denotes that this field must not exceed a // certain number of items as the upper limit. If the field contains more // items than specified, an error message will be generated, requiring the // field to maintain no more than the specified number of items. // // ```proto // message MyRepeated { // // value must contain no more than 3 item(s) // repeated string value = 1 [(buf.validate.field).repeated.max_items = 3]; // } // ``` optional uint64 max_items = 2 [(predefined).cel = { id: "repeated.max_items" expression: "uint(this.size()) > rules.max_items ? 'value must contain no more than %s item(s)'.format([rules.max_items]) : ''" }]; // `unique` indicates that all elements in this field must // be unique. This rule is strictly applicable to scalar and enum // types, with message types not being supported. // // ```proto // message MyRepeated { // // repeated value must contain unique items // repeated string value = 1 [(buf.validate.field).repeated.unique = true]; // } // ``` optional bool unique = 3 [(predefined).cel = { id: "repeated.unique" message: "repeated value must contain unique items" expression: "!rules.unique || this.unique()" }]; // `items` details the rules to be applied to each item // in the field. Even for repeated message fields, validation is executed // against each item unless `ignore` is specified. // // ```proto // message MyRepeated { // // The items in the field `value` must follow the specified rules. // repeated string value = 1 [(buf.validate.field).repeated.items = { // string: { // min_len: 3 // max_len: 10 // } // }]; // } // ``` // // Note that the `required` rule does not apply. Repeated items // cannot be unset. optional FieldRules items = 4; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // MapRules describe the rules applied to `map` values. message MapRules { // Specifies the minimum number of key-value pairs allowed. If the field has // fewer key-value pairs than specified, an error message is generated. // // ```proto // message MyMap { // // The field `value` must have at least 2 key-value pairs. // map value = 1 [(buf.validate.field).map.min_pairs = 2]; // } // ``` optional uint64 min_pairs = 1 [(predefined).cel = { id: "map.min_pairs" expression: "uint(this.size()) < rules.min_pairs ? 'map must be at least %d entries'.format([rules.min_pairs]) : ''" }]; // Specifies the maximum number of key-value pairs allowed. If the field has // more key-value pairs than specified, an error message is generated. // // ```proto // message MyMap { // // The field `value` must have at most 3 key-value pairs. // map value = 1 [(buf.validate.field).map.max_pairs = 3]; // } // ``` optional uint64 max_pairs = 2 [(predefined).cel = { id: "map.max_pairs" expression: "uint(this.size()) > rules.max_pairs ? 'map must be at most %d entries'.format([rules.max_pairs]) : ''" }]; // Specifies the rules to be applied to each key in the field. // // ```proto // message MyMap { // // The keys in the field `value` must follow the specified rules. // map value = 1 [(buf.validate.field).map.keys = { // string: { // min_len: 3 // max_len: 10 // } // }]; // } // ``` // // Note that the `required` rule does not apply. Map keys cannot be unset. optional FieldRules keys = 4; // Specifies the rules to be applied to the value of each key in the // field. Message values will still have their validations evaluated unless // `ignore` is specified. // // ```proto // message MyMap { // // The values in the field `value` must follow the specified rules. // map value = 1 [(buf.validate.field).map.values = { // string: { // min_len: 5 // max_len: 20 // } // }]; // } // ``` // Note that the `required` rule does not apply. Map values cannot be unset. optional FieldRules values = 5; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // AnyRules describe rules applied exclusively to the `google.protobuf.Any` well-known type. message AnyRules { // `in` requires the field's `type_url` to be equal to one of the //specified values. If it doesn't match any of the specified values, an error // message is generated. // // ```proto // message MyAny { // // The `value` field must have a `type_url` equal to one of the specified values. // google.protobuf.Any value = 1 [(buf.validate.field).any = { // in: ["type.googleapis.com/MyType1", "type.googleapis.com/MyType2"] // }]; // } // ``` repeated string in = 2; // requires the field's type_url to be not equal to any of the specified values. If it matches any of the specified values, an error message is generated. // // ```proto // message MyAny { // // The `value` field must not have a `type_url` equal to any of the specified values. // google.protobuf.Any value = 1 [(buf.validate.field).any = { // not_in: ["type.googleapis.com/ForbiddenType1", "type.googleapis.com/ForbiddenType2"] // }]; // } // ``` repeated string not_in = 3; } // DurationRules describe the rules applied exclusively to the `google.protobuf.Duration` well-known type. message DurationRules { // `const` dictates that the field must match the specified value of the `google.protobuf.Duration` type exactly. // If the field's value deviates from the specified value, an error message // will be generated. // // ```proto // message MyDuration { // // value must equal 5s // google.protobuf.Duration value = 1 [(buf.validate.field).duration.const = "5s"]; // } // ``` optional google.protobuf.Duration const = 2 [(predefined).cel = { id: "duration.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // `lt` stipulates that the field must be less than the specified value of the `google.protobuf.Duration` type, // exclusive. If the field's value is greater than or equal to the specified // value, an error message will be generated. // // ```proto // message MyDuration { // // value must be less than 5s // google.protobuf.Duration value = 1 [(buf.validate.field).duration.lt = "5s"]; // } // ``` google.protobuf.Duration lt = 3 [(predefined).cel = { id: "duration.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // `lte` indicates that the field must be less than or equal to the specified // value of the `google.protobuf.Duration` type, inclusive. If the field's value is greater than the specified value, // an error message will be generated. // // ```proto // message MyDuration { // // value must be less than or equal to 10s // google.protobuf.Duration value = 1 [(buf.validate.field).duration.lte = "10s"]; // } // ``` google.protobuf.Duration lte = 4 [(predefined).cel = { id: "duration.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; } oneof greater_than { // `gt` requires the duration field value to be greater than the specified // value (exclusive). If the value of `gt` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyDuration { // // duration must be greater than 5s [duration.gt] // google.protobuf.Duration value = 1 [(buf.validate.field).duration.gt = { seconds: 5 }]; // // // duration must be greater than 5s and less than 10s [duration.gt_lt] // google.protobuf.Duration another_value = 2 [(buf.validate.field).duration = { gt: { seconds: 5 }, lt: { seconds: 10 } }]; // // // duration must be greater than 10s or less than 5s [duration.gt_lt_exclusive] // google.protobuf.Duration other_value = 3 [(buf.validate.field).duration = { gt: { seconds: 10 }, lt: { seconds: 5 } }]; // } // ``` google.protobuf.Duration gt = 5 [ (predefined).cel = { id: "duration.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "duration.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "duration.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "duration.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "duration.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the duration field value to be greater than or equal to the // specified value (exclusive). If the value of `gte` is larger than a // specified `lt` or `lte`, the range is reversed, and the field value must // be outside the specified range. If the field value doesn't meet the // required conditions, an error message is generated. // // ```proto // message MyDuration { // // duration must be greater than or equal to 5s [duration.gte] // google.protobuf.Duration value = 1 [(buf.validate.field).duration.gte = { seconds: 5 }]; // // // duration must be greater than or equal to 5s and less than 10s [duration.gte_lt] // google.protobuf.Duration another_value = 2 [(buf.validate.field).duration = { gte: { seconds: 5 }, lt: { seconds: 10 } }]; // // // duration must be greater than or equal to 10s or less than 5s [duration.gte_lt_exclusive] // google.protobuf.Duration other_value = 3 [(buf.validate.field).duration = { gte: { seconds: 10 }, lt: { seconds: 5 } }]; // } // ``` google.protobuf.Duration gte = 6 [ (predefined).cel = { id: "duration.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "duration.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "duration.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "duration.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "duration.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; } // `in` asserts that the field must be equal to one of the specified values of the `google.protobuf.Duration` type. // If the field's value doesn't correspond to any of the specified values, // an error message will be generated. // // ```proto // message MyDuration { // // value must be in list [1s, 2s, 3s] // google.protobuf.Duration value = 1 [(buf.validate.field).duration.in = ["1s", "2s", "3s"]]; // } // ``` repeated google.protobuf.Duration in = 7 [(predefined).cel = { id: "duration.in" expression: "!(this in getField(rules, 'in')) ? 'value must be in list %s'.format([getField(rules, 'in')]) : ''" }]; // `not_in` denotes that the field must not be equal to // any of the specified values of the `google.protobuf.Duration` type. // If the field's value matches any of these values, an error message will be // generated. // // ```proto // message MyDuration { // // value must not be in list [1s, 2s, 3s] // google.protobuf.Duration value = 1 [(buf.validate.field).duration.not_in = ["1s", "2s", "3s"]]; // } // ``` repeated google.protobuf.Duration not_in = 8 [(predefined).cel = { id: "duration.not_in" expression: "this in rules.not_in ? 'value must not be in list %s'.format([rules.not_in]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyDuration { // google.protobuf.Duration value = 1 [ // (buf.validate.field).duration.example = { seconds: 1 }, // (buf.validate.field).duration.example = { seconds: 2 }, // ]; // } // ``` repeated google.protobuf.Duration example = 9 [(predefined).cel = { id: "duration.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // TimestampRules describe the rules applied exclusively to the `google.protobuf.Timestamp` well-known type. message TimestampRules { // `const` dictates that this field, of the `google.protobuf.Timestamp` type, must exactly match the specified value. If the field value doesn't correspond to the specified timestamp, an error message will be generated. // // ```proto // message MyTimestamp { // // value must equal 2023-05-03T10:00:00Z // google.protobuf.Timestamp created_at = 1 [(buf.validate.field).timestamp.const = {seconds: 1727998800}]; // } // ``` optional google.protobuf.Timestamp const = 2 [(predefined).cel = { id: "timestamp.const" expression: "this != getField(rules, 'const') ? 'value must equal %s'.format([getField(rules, 'const')]) : ''" }]; oneof less_than { // requires the duration field value to be less than the specified value (field < value). If the field value doesn't meet the required conditions, an error message is generated. // // ```proto // message MyDuration { // // duration must be less than 'P3D' [duration.lt] // google.protobuf.Duration value = 1 [(buf.validate.field).duration.lt = { seconds: 259200 }]; // } // ``` google.protobuf.Timestamp lt = 3 [(predefined).cel = { id: "timestamp.lt" expression: "!has(rules.gte) && !has(rules.gt) && this >= rules.lt" "? 'value must be less than %s'.format([rules.lt]) : ''" }]; // requires the timestamp field value to be less than or equal to the specified value (field <= value). If the field value doesn't meet the required conditions, an error message is generated. // // ```proto // message MyTimestamp { // // timestamp must be less than or equal to '2023-05-14T00:00:00Z' [timestamp.lte] // google.protobuf.Timestamp value = 1 [(buf.validate.field).timestamp.lte = { seconds: 1678867200 }]; // } // ``` google.protobuf.Timestamp lte = 4 [(predefined).cel = { id: "timestamp.lte" expression: "!has(rules.gte) && !has(rules.gt) && this > rules.lte" "? 'value must be less than or equal to %s'.format([rules.lte]) : ''" }]; // `lt_now` specifies that this field, of the `google.protobuf.Timestamp` type, must be less than the current time. `lt_now` can only be used with the `within` rule. // // ```proto // message MyTimestamp { // // value must be less than now // google.protobuf.Timestamp created_at = 1 [(buf.validate.field).timestamp.lt_now = true]; // } // ``` bool lt_now = 7 [(predefined).cel = { id: "timestamp.lt_now" expression: "(rules.lt_now && this > now) ? 'value must be less than now' : ''" }]; } oneof greater_than { // `gt` requires the timestamp field value to be greater than the specified // value (exclusive). If the value of `gt` is larger than a specified `lt` // or `lte`, the range is reversed, and the field value must be outside the // specified range. If the field value doesn't meet the required conditions, // an error message is generated. // // ```proto // message MyTimestamp { // // timestamp must be greater than '2023-01-01T00:00:00Z' [timestamp.gt] // google.protobuf.Timestamp value = 1 [(buf.validate.field).timestamp.gt = { seconds: 1672444800 }]; // // // timestamp must be greater than '2023-01-01T00:00:00Z' and less than '2023-01-02T00:00:00Z' [timestamp.gt_lt] // google.protobuf.Timestamp another_value = 2 [(buf.validate.field).timestamp = { gt: { seconds: 1672444800 }, lt: { seconds: 1672531200 } }]; // // // timestamp must be greater than '2023-01-02T00:00:00Z' or less than '2023-01-01T00:00:00Z' [timestamp.gt_lt_exclusive] // google.protobuf.Timestamp other_value = 3 [(buf.validate.field).timestamp = { gt: { seconds: 1672531200 }, lt: { seconds: 1672444800 } }]; // } // ``` google.protobuf.Timestamp gt = 5 [ (predefined).cel = { id: "timestamp.gt" expression: "!has(rules.lt) && !has(rules.lte) && this <= rules.gt" "? 'value must be greater than %s'.format([rules.gt]) : ''" }, (predefined).cel = { id: "timestamp.gt_lt" expression: "has(rules.lt) && rules.lt >= rules.gt && (this >= rules.lt || this <= rules.gt)" "? 'value must be greater than %s and less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "timestamp.gt_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gt && (rules.lt <= this && this <= rules.gt)" "? 'value must be greater than %s or less than %s'.format([rules.gt, rules.lt]) : ''" }, (predefined).cel = { id: "timestamp.gt_lte" expression: "has(rules.lte) && rules.lte >= rules.gt && (this > rules.lte || this <= rules.gt)" "? 'value must be greater than %s and less than or equal to %s'.format([rules.gt, rules.lte]) : ''" }, (predefined).cel = { id: "timestamp.gt_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gt && (rules.lte < this && this <= rules.gt)" "? 'value must be greater than %s or less than or equal to %s'.format([rules.gt, rules.lte]) : ''" } ]; // `gte` requires the timestamp field value to be greater than or equal to the // specified value (exclusive). If the value of `gte` is larger than a // specified `lt` or `lte`, the range is reversed, and the field value // must be outside the specified range. If the field value doesn't meet // the required conditions, an error message is generated. // // ```proto // message MyTimestamp { // // timestamp must be greater than or equal to '2023-01-01T00:00:00Z' [timestamp.gte] // google.protobuf.Timestamp value = 1 [(buf.validate.field).timestamp.gte = { seconds: 1672444800 }]; // // // timestamp must be greater than or equal to '2023-01-01T00:00:00Z' and less than '2023-01-02T00:00:00Z' [timestamp.gte_lt] // google.protobuf.Timestamp another_value = 2 [(buf.validate.field).timestamp = { gte: { seconds: 1672444800 }, lt: { seconds: 1672531200 } }]; // // // timestamp must be greater than or equal to '2023-01-02T00:00:00Z' or less than '2023-01-01T00:00:00Z' [timestamp.gte_lt_exclusive] // google.protobuf.Timestamp other_value = 3 [(buf.validate.field).timestamp = { gte: { seconds: 1672531200 }, lt: { seconds: 1672444800 } }]; // } // ``` google.protobuf.Timestamp gte = 6 [ (predefined).cel = { id: "timestamp.gte" expression: "!has(rules.lt) && !has(rules.lte) && this < rules.gte" "? 'value must be greater than or equal to %s'.format([rules.gte]) : ''" }, (predefined).cel = { id: "timestamp.gte_lt" expression: "has(rules.lt) && rules.lt >= rules.gte && (this >= rules.lt || this < rules.gte)" "? 'value must be greater than or equal to %s and less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "timestamp.gte_lt_exclusive" expression: "has(rules.lt) && rules.lt < rules.gte && (rules.lt <= this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than %s'.format([rules.gte, rules.lt]) : ''" }, (predefined).cel = { id: "timestamp.gte_lte" expression: "has(rules.lte) && rules.lte >= rules.gte && (this > rules.lte || this < rules.gte)" "? 'value must be greater than or equal to %s and less than or equal to %s'.format([rules.gte, rules.lte]) : ''" }, (predefined).cel = { id: "timestamp.gte_lte_exclusive" expression: "has(rules.lte) && rules.lte < rules.gte && (rules.lte < this && this < rules.gte)" "? 'value must be greater than or equal to %s or less than or equal to %s'.format([rules.gte, rules.lte]) : ''" } ]; // `gt_now` specifies that this field, of the `google.protobuf.Timestamp` type, must be greater than the current time. `gt_now` can only be used with the `within` rule. // // ```proto // message MyTimestamp { // // value must be greater than now // google.protobuf.Timestamp created_at = 1 [(buf.validate.field).timestamp.gt_now = true]; // } // ``` bool gt_now = 8 [(predefined).cel = { id: "timestamp.gt_now" expression: "(rules.gt_now && this < now) ? 'value must be greater than now' : ''" }]; } // `within` specifies that this field, of the `google.protobuf.Timestamp` type, must be within the specified duration of the current time. If the field value isn't within the duration, an error message is generated. // // ```proto // message MyTimestamp { // // value must be within 1 hour of now // google.protobuf.Timestamp created_at = 1 [(buf.validate.field).timestamp.within = {seconds: 3600}]; // } // ``` optional google.protobuf.Duration within = 9 [(predefined).cel = { id: "timestamp.within" expression: "this < now-rules.within || this > now+rules.within ? 'value must be within %s of now'.format([rules.within]) : ''" }]; // `example` specifies values that the field may have. These values SHOULD // conform to other rules. `example` values will not impact validation // but may be used as helpful guidance on how to populate the given field. // // ```proto // message MyTimestamp { // google.protobuf.Timestamp value = 1 [ // (buf.validate.field).timestamp.example = { seconds: 1672444800 }, // (buf.validate.field).timestamp.example = { seconds: 1672531200 }, // ]; // } // ``` repeated google.protobuf.Timestamp example = 10 [(predefined).cel = { id: "timestamp.example" expression: "true" }]; // Extension fields in this range that have the (buf.validate.predefined) // option set will be treated as predefined field rules that can then be // set on the field options of other fields to apply field rules. // Extension numbers 1000 to 99999 are reserved for extension numbers that are // defined in the [Protobuf Global Extension Registry][1]. Extension numbers // above this range are reserved for extension numbers that are not explicitly // assigned. For rules defined in publicly-consumed schemas, use of extensions // above 99999 is discouraged due to the risk of conflicts. // // [1]: https://github.com/protocolbuffers/protobuf/blob/main/docs/options.md extensions 1000 to max; } // `Violations` is a collection of `Violation` messages. This message type is returned by // Protovalidate when a proto message fails to meet the requirements set by the `Rule` validation rules. // Each individual violation is represented by a `Violation` message. message Violations { // `violations` is a repeated field that contains all the `Violation` messages corresponding to the violations detected. repeated Violation violations = 1; } // `Violation` represents a single instance where a validation rule, expressed // as a `Rule`, was not met. It provides information about the field that // caused the violation, the specific rule that wasn't fulfilled, and a // human-readable error message. // // For example, consider the following message: // // ```proto // message User { // int32 age = 1 [(buf.validate.field).cel = { // id: "user.age", // expression: "this < 18 ? 'User must be at least 18 years old' : ''", // }]; // } // ``` // // It could produce the following violation: // // ```json // { // "ruleId": "user.age", // "message": "User must be at least 18 years old", // "field": { // "elements": [ // { // "fieldNumber": 1, // "fieldName": "age", // "fieldType": "TYPE_INT32" // } // ] // }, // "rule": { // "elements": [ // { // "fieldNumber": 23, // "fieldName": "cel", // "fieldType": "TYPE_MESSAGE", // "index": "0" // } // ] // } // } // ``` message Violation { // `field` is a machine-readable path to the field that failed validation. // This could be a nested field, in which case the path will include all the parent fields leading to the actual field that caused the violation. // // For example, consider the following message: // // ```proto // message Message { // bool a = 1 [(buf.validate.field).required = true]; // } // ``` // // It could produce the following violation: // // ```textproto // violation { // field { element { field_number: 1, field_name: "a", field_type: 8 } } // ... // } // ``` optional FieldPath field = 5; // `rule` is a machine-readable path that points to the specific rule that failed validation. // This will be a nested field starting from the FieldRules of the field that failed validation. // For custom rules, this will provide the path of the rule, e.g. `cel[0]`. // // For example, consider the following message: // // ```proto // message Message { // bool a = 1 [(buf.validate.field).required = true]; // bool b = 2 [(buf.validate.field).cel = { // id: "custom_rule", // expression: "!this ? 'b must be true': ''" // }] // } // ``` // // It could produce the following violations: // // ```textproto // violation { // rule { element { field_number: 25, field_name: "required", field_type: 8 } } // ... // } // violation { // rule { element { field_number: 23, field_name: "cel", field_type: 11, index: 0 } } // ... // } // ``` optional FieldPath rule = 6; // `rule_id` is the unique identifier of the `Rule` that was not fulfilled. // This is the same `id` that was specified in the `Rule` message, allowing easy tracing of which rule was violated. optional string rule_id = 2; // `message` is a human-readable error message that describes the nature of the violation. // This can be the default error message from the violated `Rule`, or it can be a custom message that gives more context about the violation. optional string message = 3; // `for_key` indicates whether the violation was caused by a map key, rather than a value. optional bool for_key = 4; reserved 1; reserved "field_path"; } // `FieldPath` provides a path to a nested protobuf field. // // This message provides enough information to render a dotted field path even without protobuf descriptors. // It also provides enough information to resolve a nested field through unknown wire data. message FieldPath { // `elements` contains each element of the path, starting from the root and recursing downward. repeated FieldPathElement elements = 1; } // `FieldPathElement` provides enough information to nest through a single protobuf field. // // If the selected field is a map or repeated field, the `subscript` value selects a specific element from it. // A path that refers to a value nested under a map key or repeated field index will have a `subscript` value. // The `field_type` field allows unambiguous resolution of a field even if descriptors are not available. message FieldPathElement { // `field_number` is the field number this path element refers to. optional int32 field_number = 1; // `field_name` contains the field name this path element refers to. // This can be used to display a human-readable path even if the field number is unknown. optional string field_name = 2; // `field_type` specifies the type of this field. When using reflection, this value is not needed. // // This value is provided to make it possible to traverse unknown fields through wire data. // When traversing wire data, be mindful of both packed[1] and delimited[2] encoding schemes. // // [1]: https://protobuf.dev/programming-guides/encoding/#packed // [2]: https://protobuf.dev/programming-guides/encoding/#groups // // N.B.: Although groups are deprecated, the corresponding delimited encoding scheme is not, and // can be explicitly used in Protocol Buffers 2023 Edition. optional google.protobuf.FieldDescriptorProto.Type field_type = 3; // `key_type` specifies the map key type of this field. This value is useful when traversing // unknown fields through wire data: specifically, it allows handling the differences between // different integer encodings. optional google.protobuf.FieldDescriptorProto.Type key_type = 4; // `value_type` specifies map value type of this field. This is useful if you want to display a // value inside unknown fields through wire data. optional google.protobuf.FieldDescriptorProto.Type value_type = 5; // `subscript` contains a repeated index or map key, if this path element nests into a repeated or map field. oneof subscript { // `index` specifies a 0-based index into a repeated field. uint64 index = 6; // `bool_key` specifies a map key of type bool. bool bool_key = 7; // `int_key` specifies a map key of type int32, int64, sint32, sint64, sfixed32 or sfixed64. int64 int_key = 8; // `uint_key` specifies a map key of type uint32, uint64, fixed32 or fixed64. uint64 uint_key = 9; // `string_key` specifies a map key of type string. string string_key = 10; } }