[chore]: Bump github.com/gin-contrib/cors from 1.5.0 to 1.7.0 (#2745)

8 files changed, 251 insertions, 109 deletions

diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/proto.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/proto.go
index 55aa14922..00b01fbd8 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/proto.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/proto.go
@@ -10,46 +10,46 @@
 //
 // # Protocol Buffer Descriptors
 //
-// Protobuf descriptors (e.g., EnumDescriptor or MessageDescriptor)
+// Protobuf descriptors (e.g., [EnumDescriptor] or [MessageDescriptor])
 // are immutable objects that represent protobuf type information.
 // They are wrappers around the messages declared in descriptor.proto.
 // Protobuf descriptors alone lack any information regarding Go types.
 //
-// Enums and messages generated by this module implement Enum and ProtoMessage,
+// Enums and messages generated by this module implement [Enum] and [ProtoMessage],
 // where the Descriptor and ProtoReflect.Descriptor accessors respectively
 // return the protobuf descriptor for the values.
 //
 // The protobuf descriptor interfaces are not meant to be implemented by
 // user code since they might need to be extended in the future to support
 // additions to the protobuf language.
-// The "google.golang.org/protobuf/reflect/protodesc" package converts between
+// The [google.golang.org/protobuf/reflect/protodesc] package converts between
 // google.protobuf.DescriptorProto messages and protobuf descriptors.
 //
 // # Go Type Descriptors
 //
-// A type descriptor (e.g., EnumType or MessageType) is a constructor for
+// A type descriptor (e.g., [EnumType] or [MessageType]) is a constructor for
 // a concrete Go type that represents the associated protobuf descriptor.
 // There is commonly a one-to-one relationship between protobuf descriptors and
 // Go type descriptors, but it can potentially be a one-to-many relationship.
 //
-// Enums and messages generated by this module implement Enum and ProtoMessage,
+// Enums and messages generated by this module implement [Enum] and [ProtoMessage],
 // where the Type and ProtoReflect.Type accessors respectively
 // return the protobuf descriptor for the values.
 //
-// The "google.golang.org/protobuf/types/dynamicpb" package can be used to
+// The [google.golang.org/protobuf/types/dynamicpb] package can be used to
 // create Go type descriptors from protobuf descriptors.
 //
 // # Value Interfaces
 //
-// The Enum and Message interfaces provide a reflective view over an
+// The [Enum] and [Message] interfaces provide a reflective view over an
 // enum or message instance. For enums, it provides the ability to retrieve
 // the enum value number for any concrete enum type. For messages, it provides
 // the ability to access or manipulate fields of the message.
 //
-// To convert a proto.Message to a protoreflect.Message, use the
+// To convert a [google.golang.org/protobuf/proto.Message] to a [protoreflect.Message], use the
 // former's ProtoReflect method. Since the ProtoReflect method is new to the
 // v2 message interface, it may not be present on older message implementations.
-// The "github.com/golang/protobuf/proto".MessageReflect function can be used
+// The [github.com/golang/protobuf/proto.MessageReflect] function can be used
 // to obtain a reflective view on older messages.
 //
 // # Relationships
@@ -71,12 +71,12 @@
 //	      │                                 │
 //	      └────────────────── Type() ───────┘
 //
-// • An EnumType describes a concrete Go enum type.
+// • An [EnumType] describes a concrete Go enum type.
 // It has an EnumDescriptor and can construct an Enum instance.
 //
-// • An EnumDescriptor describes an abstract protobuf enum type.
+// • An [EnumDescriptor] describes an abstract protobuf enum type.
 //
-// • An Enum is a concrete enum instance. Generated enums implement Enum.
+// • An [Enum] is a concrete enum instance. Generated enums implement Enum.
 //
 //	  ┌──────────────── New() ─────────────────┐
 //	  │                                        │
@@ -90,24 +90,26 @@
 //	       │                                    │
 //	       └─────────────────── Type() ─────────┘
 //
-// • A MessageType describes a concrete Go message type.
-// It has a MessageDescriptor and can construct a Message instance.
-// Just as how Go's reflect.Type is a reflective description of a Go type,
-// a MessageType is a reflective description of a Go type for a protobuf message.
+// • A [MessageType] describes a concrete Go message type.
+// It has a [MessageDescriptor] and can construct a [Message] instance.
+// Just as how Go's [reflect.Type] is a reflective description of a Go type,
+// a [MessageType] is a reflective description of a Go type for a protobuf message.
 //
-// • A MessageDescriptor describes an abstract protobuf message type.
-// It has no understanding of Go types. In order to construct a MessageType
-// from just a MessageDescriptor, you can consider looking up the message type
-// in the global registry using protoregistry.GlobalTypes.FindMessageByName
-// or constructing a dynamic MessageType using dynamicpb.NewMessageType.
+// • A [MessageDescriptor] describes an abstract protobuf message type.
+// It has no understanding of Go types. In order to construct a [MessageType]
+// from just a [MessageDescriptor], you can consider looking up the message type
+// in the global registry using the FindMessageByName method on
+// [google.golang.org/protobuf/reflect/protoregistry.GlobalTypes]
+// or constructing a dynamic [MessageType] using
+// [google.golang.org/protobuf/types/dynamicpb.NewMessageType].
 //
-// • A Message is a reflective view over a concrete message instance.
-// Generated messages implement ProtoMessage, which can convert to a Message.
-// Just as how Go's reflect.Value is a reflective view over a Go value,
-// a Message is a reflective view over a concrete protobuf message instance.
-// Using Go reflection as an analogy, the ProtoReflect method is similar to
-// calling reflect.ValueOf, and the Message.Interface method is similar to
-// calling reflect.Value.Interface.
+// • A [Message] is a reflective view over a concrete message instance.
+// Generated messages implement [ProtoMessage], which can convert to a [Message].
+// Just as how Go's [reflect.Value] is a reflective view over a Go value,
+// a [Message] is a reflective view over a concrete protobuf message instance.
+// Using Go reflection as an analogy, the [ProtoMessage.ProtoReflect] method is similar to
+// calling [reflect.ValueOf], and the [Message.Interface] method is similar to
+// calling [reflect.Value.Interface].
 //
 //	      ┌── TypeDescriptor() ──┐    ┌───── Descriptor() ─────┐
 //	      │                      V    │                        V
@@ -119,15 +121,15 @@
 //	                                 │                          │
 //	                                 └────── implements ────────┘
 //
-// • An ExtensionType describes a concrete Go implementation of an extension.
-// It has an ExtensionTypeDescriptor and can convert to/from
-// abstract Values and Go values.
+// • An [ExtensionType] describes a concrete Go implementation of an extension.
+// It has an [ExtensionTypeDescriptor] and can convert to/from
+// an abstract [Value] and a Go value.
 //
-// • An ExtensionTypeDescriptor is an ExtensionDescriptor
-// which also has an ExtensionType.
+// • An [ExtensionTypeDescriptor] is an [ExtensionDescriptor]
+// which also has an [ExtensionType].
 //
-// • An ExtensionDescriptor describes an abstract protobuf extension field and
-// may not always be an ExtensionTypeDescriptor.
+// • An [ExtensionDescriptor] describes an abstract protobuf extension field and
+// may not always be an [ExtensionTypeDescriptor].
 package protoreflect
 
 import (
@@ -142,7 +144,7 @@ type doNotImplement pragma.DoNotImplement
 
 // ProtoMessage is the top-level interface that all proto messages implement.
 // This is declared in the protoreflect package to avoid a cyclic dependency;
-// use the proto.Message type instead, which aliases this type.
+// use the [google.golang.org/protobuf/proto.Message] type instead, which aliases this type.
 type ProtoMessage interface{ ProtoReflect() Message }
 
 // Syntax is the language version of the proto file.
@@ -151,8 +153,9 @@ type Syntax syntax
 type syntax int8 // keep exact type opaque as the int type may change
 
 const (
-	Proto2 Syntax = 2
-	Proto3 Syntax = 3
+	Proto2   Syntax = 2
+	Proto3   Syntax = 3
+	Editions Syntax = 4
 )
 
 // IsValid reports whether the syntax is valid.
@@ -172,6 +175,8 @@ func (s Syntax) String() string {
 		return "proto2"
 	case Proto3:
 		return "proto3"
+	case Editions:
+		return "editions"
 	default:
 		return fmt.Sprintf("<unknown:%d>", s)
 	}
@@ -436,7 +441,7 @@ type Names interface {
 // FullName is a qualified name that uniquely identifies a proto declaration.
 // A qualified name is the concatenation of the proto package along with the
 // fully-declared name (i.e., name of parent preceding the name of the child),
-// with a '.' delimiter placed between each Name.
+// with a '.' delimiter placed between each [Name].
 //
 // This should not have any leading or trailing dots.
 type FullName string // e.g., "google.protobuf.Field.Kind"
@@ -480,7 +485,7 @@ func isLetterDigit(c byte) bool {
 }
 
 // Name returns the short name, which is the last identifier segment.
-// A single segment FullName is the Name itself.
+// A single segment FullName is the [Name] itself.
 func (n FullName) Name() Name {
 	if i := strings.LastIndexByte(string(n), '.'); i >= 0 {
 		return Name(n[i+1:])
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/source_gen.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/source_gen.go
index 717b106f3..7dcc2ff09 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/source_gen.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/source_gen.go
@@ -35,7 +35,7 @@ func (p *SourcePath) appendFileDescriptorProto(b []byte) []byte {
 		b = p.appendSingularField(b, "source_code_info", (*SourcePath).appendSourceCodeInfo)
 	case 12:
 		b = p.appendSingularField(b, "syntax", nil)
-	case 13:
+	case 14:
 		b = p.appendSingularField(b, "edition", nil)
 	}
 	return b
@@ -160,8 +160,6 @@ func (p *SourcePath) appendFileOptions(b []byte) []byte {
 		b = p.appendSingularField(b, "java_generic_services", nil)
 	case 18:
 		b = p.appendSingularField(b, "py_generic_services", nil)
-	case 42:
-		b = p.appendSingularField(b, "php_generic_services", nil)
 	case 23:
 		b = p.appendSingularField(b, "deprecated", nil)
 	case 31:
@@ -180,6 +178,8 @@ func (p *SourcePath) appendFileOptions(b []byte) []byte {
 		b = p.appendSingularField(b, "php_metadata_namespace", nil)
 	case 45:
 		b = p.appendSingularField(b, "ruby_package", nil)
+	case 50:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
@@ -240,6 +240,8 @@ func (p *SourcePath) appendMessageOptions(b []byte) []byte {
 		b = p.appendSingularField(b, "map_entry", nil)
 	case 11:
 		b = p.appendSingularField(b, "deprecated_legacy_json_field_conflicts", nil)
+	case 12:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
@@ -285,6 +287,8 @@ func (p *SourcePath) appendEnumOptions(b []byte) []byte {
 		b = p.appendSingularField(b, "deprecated", nil)
 	case 6:
 		b = p.appendSingularField(b, "deprecated_legacy_json_field_conflicts", nil)
+	case 7:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
@@ -330,6 +334,8 @@ func (p *SourcePath) appendServiceOptions(b []byte) []byte {
 		return b
 	}
 	switch (*p)[0] {
+	case 34:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 33:
 		b = p.appendSingularField(b, "deprecated", nil)
 	case 999:
@@ -361,16 +367,39 @@ func (p *SourcePath) appendFieldOptions(b []byte) []byte {
 		b = p.appendSingularField(b, "debug_redact", nil)
 	case 17:
 		b = p.appendSingularField(b, "retention", nil)
-	case 18:
-		b = p.appendSingularField(b, "target", nil)
 	case 19:
 		b = p.appendRepeatedField(b, "targets", nil)
+	case 20:
+		b = p.appendRepeatedField(b, "edition_defaults", (*SourcePath).appendFieldOptions_EditionDefault)
+	case 21:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
 	return b
 }
 
+func (p *SourcePath) appendFeatureSet(b []byte) []byte {
+	if len(*p) == 0 {
+		return b
+	}
+	switch (*p)[0] {
+	case 1:
+		b = p.appendSingularField(b, "field_presence", nil)
+	case 2:
+		b = p.appendSingularField(b, "enum_type", nil)
+	case 3:
+		b = p.appendSingularField(b, "repeated_field_encoding", nil)
+	case 4:
+		b = p.appendSingularField(b, "utf8_validation", nil)
+	case 5:
+		b = p.appendSingularField(b, "message_encoding", nil)
+	case 6:
+		b = p.appendSingularField(b, "json_format", nil)
+	}
+	return b
+}
+
 func (p *SourcePath) appendUninterpretedOption(b []byte) []byte {
 	if len(*p) == 0 {
 		return b
@@ -422,6 +451,8 @@ func (p *SourcePath) appendExtensionRangeOptions(b []byte) []byte {
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	case 2:
 		b = p.appendRepeatedField(b, "declaration", (*SourcePath).appendExtensionRangeOptions_Declaration)
+	case 50:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 3:
 		b = p.appendSingularField(b, "verification", nil)
 	}
@@ -433,6 +464,8 @@ func (p *SourcePath) appendOneofOptions(b []byte) []byte {
 		return b
 	}
 	switch (*p)[0] {
+	case 1:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
@@ -446,6 +479,10 @@ func (p *SourcePath) appendEnumValueOptions(b []byte) []byte {
 	switch (*p)[0] {
 	case 1:
 		b = p.appendSingularField(b, "deprecated", nil)
+	case 2:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
+	case 3:
+		b = p.appendSingularField(b, "debug_redact", nil)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
@@ -461,12 +498,27 @@ func (p *SourcePath) appendMethodOptions(b []byte) []byte {
 		b = p.appendSingularField(b, "deprecated", nil)
 	case 34:
 		b = p.appendSingularField(b, "idempotency_level", nil)
+	case 35:
+		b = p.appendSingularField(b, "features", (*SourcePath).appendFeatureSet)
 	case 999:
 		b = p.appendRepeatedField(b, "uninterpreted_option", (*SourcePath).appendUninterpretedOption)
 	}
 	return b
 }
 
+func (p *SourcePath) appendFieldOptions_EditionDefault(b []byte) []byte {
+	if len(*p) == 0 {
+		return b
+	}
+	switch (*p)[0] {
+	case 3:
+		b = p.appendSingularField(b, "edition", nil)
+	case 2:
+		b = p.appendSingularField(b, "value", nil)
+	}
+	return b
+}
+
 func (p *SourcePath) appendUninterpretedOption_NamePart(b []byte) []byte {
 	if len(*p) == 0 {
 		return b
@@ -491,8 +543,6 @@ func (p *SourcePath) appendExtensionRangeOptions_Declaration(b []byte) []byte {
 		b = p.appendSingularField(b, "full_name", nil)
 	case 3:
 		b = p.appendSingularField(b, "type", nil)
-	case 4:
-		b = p.appendSingularField(b, "is_repeated", nil)
 	case 5:
 		b = p.appendSingularField(b, "reserved", nil)
 	case 6:
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/type.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/type.go
index 3867470d3..60ff62b4c 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/type.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/type.go
@@ -12,7 +12,7 @@ package protoreflect
 // exactly identical. However, it is possible for the same semantically
 // identical proto type to be represented by multiple type descriptors.
 //
-// For example, suppose we have t1 and t2 which are both MessageDescriptors.
+// For example, suppose we have t1 and t2 which are both an [MessageDescriptor].
 // If t1 == t2, then the types are definitely equal and all accessors return
 // the same information. However, if t1 != t2, then it is still possible that
 // they still represent the same proto type (e.g., t1.FullName == t2.FullName).
@@ -115,7 +115,7 @@ type Descriptor interface {
 // corresponds with the google.protobuf.FileDescriptorProto message.
 //
 // Top-level declarations:
-// EnumDescriptor, MessageDescriptor, FieldDescriptor, and/or ServiceDescriptor.
+// [EnumDescriptor], [MessageDescriptor], [FieldDescriptor], and/or [ServiceDescriptor].
 type FileDescriptor interface {
 	Descriptor // Descriptor.FullName is identical to Package
 
@@ -180,8 +180,8 @@ type FileImport struct {
 // corresponds with the google.protobuf.DescriptorProto message.
 //
 // Nested declarations:
-// FieldDescriptor, OneofDescriptor, FieldDescriptor, EnumDescriptor,
-// and/or MessageDescriptor.
+// [FieldDescriptor], [OneofDescriptor], [FieldDescriptor], [EnumDescriptor],
+// and/or [MessageDescriptor].
 type MessageDescriptor interface {
 	Descriptor
 
@@ -214,7 +214,7 @@ type MessageDescriptor interface {
 	ExtensionRanges() FieldRanges
 	// ExtensionRangeOptions returns the ith extension range options.
 	//
-	// To avoid a dependency cycle, this method returns a proto.Message value,
+	// To avoid a dependency cycle, this method returns a proto.Message] value,
 	// which always contains a google.protobuf.ExtensionRangeOptions message.
 	// This method returns a typed nil-pointer if no options are present.
 	// The caller must import the descriptorpb package to use this.
@@ -231,9 +231,9 @@ type MessageDescriptor interface {
 }
 type isMessageDescriptor interface{ ProtoType(MessageDescriptor) }
 
-// MessageType encapsulates a MessageDescriptor with a concrete Go implementation.
+// MessageType encapsulates a [MessageDescriptor] with a concrete Go implementation.
 // It is recommended that implementations of this interface also implement the
-// MessageFieldTypes interface.
+// [MessageFieldTypes] interface.
 type MessageType interface {
 	// New returns a newly allocated empty message.
 	// It may return nil for synthetic messages representing a map entry.
@@ -249,19 +249,19 @@ type MessageType interface {
 	Descriptor() MessageDescriptor
 }
 
-// MessageFieldTypes extends a MessageType by providing type information
+// MessageFieldTypes extends a [MessageType] by providing type information
 // regarding enums and messages referenced by the message fields.
 type MessageFieldTypes interface {
 	MessageType
 
-	// Enum returns the EnumType for the ith field in Descriptor.Fields.
+	// Enum returns the EnumType for the ith field in MessageDescriptor.Fields.
 	// It returns nil if the ith field is not an enum kind.
 	// It panics if out of bounds.
 	//
 	// Invariant: mt.Enum(i).Descriptor() == mt.Descriptor().Fields(i).Enum()
 	Enum(i int) EnumType
 
-	// Message returns the MessageType for the ith field in Descriptor.Fields.
+	// Message returns the MessageType for the ith field in MessageDescriptor.Fields.
 	// It returns nil if the ith field is not a message or group kind.
 	// It panics if out of bounds.
 	//
@@ -286,8 +286,8 @@ type MessageDescriptors interface {
 // corresponds with the google.protobuf.FieldDescriptorProto message.
 //
 // It is used for both normal fields defined within the parent message
-// (e.g., MessageDescriptor.Fields) and fields that extend some remote message
-// (e.g., FileDescriptor.Extensions or MessageDescriptor.Extensions).
+// (e.g., [MessageDescriptor.Fields]) and fields that extend some remote message
+// (e.g., [FileDescriptor.Extensions] or [MessageDescriptor.Extensions]).
 type FieldDescriptor interface {
 	Descriptor
 
@@ -344,7 +344,7 @@ type FieldDescriptor interface {
 	// IsMap reports whether this field represents a map,
 	// where the value type for the associated field is a Map.
 	// It is equivalent to checking whether Cardinality is Repeated,
-	// that the Kind is MessageKind, and that Message.IsMapEntry reports true.
+	// that the Kind is MessageKind, and that MessageDescriptor.IsMapEntry reports true.
 	IsMap() bool
 
 	// MapKey returns the field descriptor for the key in the map entry.
@@ -419,7 +419,7 @@ type OneofDescriptor interface {
 
 	// IsSynthetic reports whether this is a synthetic oneof created to support
 	// proto3 optional semantics. If true, Fields contains exactly one field
-	// with HasOptionalKeyword specified.
+	// with FieldDescriptor.HasOptionalKeyword specified.
 	IsSynthetic() bool
 
 	// Fields is a list of fields belonging to this oneof.
@@ -442,10 +442,10 @@ type OneofDescriptors interface {
 	doNotImplement
 }
 
-// ExtensionDescriptor is an alias of FieldDescriptor for documentation.
+// ExtensionDescriptor is an alias of [FieldDescriptor] for documentation.
 type ExtensionDescriptor = FieldDescriptor
 
-// ExtensionTypeDescriptor is an ExtensionDescriptor with an associated ExtensionType.
+// ExtensionTypeDescriptor is an [ExtensionDescriptor] with an associated [ExtensionType].
 type ExtensionTypeDescriptor interface {
 	ExtensionDescriptor
 
@@ -470,12 +470,12 @@ type ExtensionDescriptors interface {
 	doNotImplement
 }
 
-// ExtensionType encapsulates an ExtensionDescriptor with a concrete
+// ExtensionType encapsulates an [ExtensionDescriptor] with a concrete
 // Go implementation. The nested field descriptor must be for a extension field.
 //
 // While a normal field is a member of the parent message that it is declared
-// within (see Descriptor.Parent), an extension field is a member of some other
-// target message (see ExtensionDescriptor.Extendee) and may have no
+// within (see [Descriptor.Parent]), an extension field is a member of some other
+// target message (see [FieldDescriptor.ContainingMessage]) and may have no
 // relationship with the parent. However, the full name of an extension field is
 // relative to the parent that it is declared within.
 //
@@ -532,7 +532,7 @@ type ExtensionType interface {
 // corresponds with the google.protobuf.EnumDescriptorProto message.
 //
 // Nested declarations:
-// EnumValueDescriptor.
+// [EnumValueDescriptor].
 type EnumDescriptor interface {
 	Descriptor
 
@@ -548,7 +548,7 @@ type EnumDescriptor interface {
 }
 type isEnumDescriptor interface{ ProtoType(EnumDescriptor) }
 
-// EnumType encapsulates an EnumDescriptor with a concrete Go implementation.
+// EnumType encapsulates an [EnumDescriptor] with a concrete Go implementation.
 type EnumType interface {
 	// New returns an instance of this enum type with its value set to n.
 	New(n EnumNumber) Enum
@@ -610,7 +610,7 @@ type EnumValueDescriptors interface {
 // ServiceDescriptor describes a service and
 // corresponds with the google.protobuf.ServiceDescriptorProto message.
 //
-// Nested declarations: MethodDescriptor.
+// Nested declarations: [MethodDescriptor].
 type ServiceDescriptor interface {
 	Descriptor
 
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/value.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/value.go
index 37601b781..a7b0d06ff 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/value.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/value.go
@@ -27,16 +27,16 @@ type Enum interface {
 // Message is a reflective interface for a concrete message value,
 // encapsulating both type and value information for the message.
 //
-// Accessor/mutators for individual fields are keyed by FieldDescriptor.
+// Accessor/mutators for individual fields are keyed by [FieldDescriptor].
 // For non-extension fields, the descriptor must exactly match the
 // field known by the parent message.
-// For extension fields, the descriptor must implement ExtensionTypeDescriptor,
-// extend the parent message (i.e., have the same message FullName), and
+// For extension fields, the descriptor must implement [ExtensionTypeDescriptor],
+// extend the parent message (i.e., have the same message [FullName]), and
 // be within the parent's extension range.
 //
-// Each field Value can be a scalar or a composite type (Message, List, or Map).
-// See Value for the Go types associated with a FieldDescriptor.
-// Providing a Value that is invalid or of an incorrect type panics.
+// Each field [Value] can be a scalar or a composite type ([Message], [List], or [Map]).
+// See [Value] for the Go types associated with a [FieldDescriptor].
+// Providing a [Value] that is invalid or of an incorrect type panics.
 type Message interface {
 	// Descriptor returns message descriptor, which contains only the protobuf
 	// type information for the message.
@@ -152,7 +152,7 @@ type Message interface {
 	// This method may return nil.
 	//
 	// The returned methods type is identical to
-	// "google.golang.org/protobuf/runtime/protoiface".Methods.
+	// google.golang.org/protobuf/runtime/protoiface.Methods.
 	// Consult the protoiface package documentation for details.
 	ProtoMethods() *methods
 }
@@ -175,8 +175,8 @@ func (b RawFields) IsValid() bool {
 }
 
 // List is a zero-indexed, ordered list.
-// The element Value type is determined by FieldDescriptor.Kind.
-// Providing a Value that is invalid or of an incorrect type panics.
+// The element [Value] type is determined by [FieldDescriptor.Kind].
+// Providing a [Value] that is invalid or of an incorrect type panics.
 type List interface {
 	// Len reports the number of entries in the List.
 	// Get, Set, and Truncate panic with out of bound indexes.
@@ -226,9 +226,9 @@ type List interface {
 }
 
 // Map is an unordered, associative map.
-// The entry MapKey type is determined by FieldDescriptor.MapKey.Kind.
-// The entry Value type is determined by FieldDescriptor.MapValue.Kind.
-// Providing a MapKey or Value that is invalid or of an incorrect type panics.
+// The entry [MapKey] type is determined by [FieldDescriptor.MapKey].Kind.
+// The entry [Value] type is determined by [FieldDescriptor.MapValue].Kind.
+// Providing a [MapKey] or [Value] that is invalid or of an incorrect type panics.
 type Map interface {
 	// Len reports the number of elements in the map.
 	Len() int
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_equal.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_equal.go
index 591652541..654599d44 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_equal.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_equal.go
@@ -24,19 +24,19 @@ import (
 //     Unlike the == operator, a NaN is equal to another NaN.
 //
 //   - Enums are equal if they contain the same number.
-//     Since Value does not contain an enum descriptor,
+//     Since [Value] does not contain an enum descriptor,
 //     enum values do not consider the type of the enum.
 //
 //   - Other scalar values are equal if they contain the same value.
 //
-//   - Message values are equal if they belong to the same message descriptor,
+//   - [Message] values are equal if they belong to the same message descriptor,
 //     have the same set of populated known and extension field values,
 //     and the same set of unknown fields values.
 //
-//   - Lists are equal if they are the same length and
+//   - [List] values are equal if they are the same length and
 //     each corresponding element is equal.
 //
-//   - Maps are equal if they have the same set of keys and
+//   - [Map] values are equal if they have the same set of keys and
 //     the corresponding value for each key is equal.
 func (v1 Value) Equal(v2 Value) bool {
 	return equalValue(v1, v2)
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_union.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_union.go
index 08e5ef73f..160309731 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_union.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_union.go
@@ -11,7 +11,7 @@ import (
 
 // Value is a union where only one Go type may be set at a time.
 // The Value is used to represent all possible values a field may take.
-// The following shows which Go type is used to represent each proto Kind:
+// The following shows which Go type is used to represent each proto [Kind]:
 //
 //	╔════════════╤═════════════════════════════════════╗
 //	║ Go type    │ Protobuf kind                       ║
@@ -31,22 +31,22 @@ import (
 //
 // Multiple protobuf Kinds may be represented by a single Go type if the type
 // can losslessly represent the information for the proto kind. For example,
-// Int64Kind, Sint64Kind, and Sfixed64Kind are all represented by int64,
+// [Int64Kind], [Sint64Kind], and [Sfixed64Kind] are all represented by int64,
 // but use different integer encoding methods.
 //
-// The List or Map types are used if the field cardinality is repeated.
-// A field is a List if FieldDescriptor.IsList reports true.
-// A field is a Map if FieldDescriptor.IsMap reports true.
+// The [List] or [Map] types are used if the field cardinality is repeated.
+// A field is a [List] if [FieldDescriptor.IsList] reports true.
+// A field is a [Map] if [FieldDescriptor.IsMap] reports true.
 //
 // Converting to/from a Value and a concrete Go value panics on type mismatch.
-// For example, ValueOf("hello").Int() panics because this attempts to
+// For example, [ValueOf]("hello").Int() panics because this attempts to
 // retrieve an int64 from a string.
 //
-// List, Map, and Message Values are called "composite" values.
+// [List], [Map], and [Message] Values are called "composite" values.
 //
 // A composite Value may alias (reference) memory at some location,
 // such that changes to the Value updates the that location.
-// A composite value acquired with a Mutable method, such as Message.Mutable,
+// A composite value acquired with a Mutable method, such as [Message.Mutable],
 // always references the source object.
 //
 // For example:
@@ -65,7 +65,7 @@ import (
 //	// appending to the List here may or may not modify the message.
 //	list.Append(protoreflect.ValueOfInt32(0))
 //
-// Some operations, such as Message.Get, may return an "empty, read-only"
+// Some operations, such as [Message.Get], may return an "empty, read-only"
 // composite Value. Modifying an empty, read-only value panics.
 type Value value
 
@@ -306,7 +306,7 @@ func (v Value) Float() float64 {
 	}
 }
 
-// String returns v as a string. Since this method implements fmt.Stringer,
+// String returns v as a string. Since this method implements [fmt.Stringer],
 // this returns the formatted string value for any non-string type.
 func (v Value) String() string {
 	switch v.typ {
@@ -327,7 +327,7 @@ func (v Value) Bytes() []byte {
 	}
 }
 
-// Enum returns v as a EnumNumber and panics if the type is not a EnumNumber.
+// Enum returns v as a [EnumNumber] and panics if the type is not a [EnumNumber].
 func (v Value) Enum() EnumNumber {
 	switch v.typ {
 	case enumType:
@@ -337,7 +337,7 @@ func (v Value) Enum() EnumNumber {
 	}
 }
 
-// Message returns v as a Message and panics if the type is not a Message.
+// Message returns v as a [Message] and panics if the type is not a [Message].
 func (v Value) Message() Message {
 	switch vi := v.getIface().(type) {
 	case Message:
@@ -347,7 +347,7 @@ func (v Value) Message() Message {
 	}
 }
 
-// List returns v as a List and panics if the type is not a List.
+// List returns v as a [List] and panics if the type is not a [List].
 func (v Value) List() List {
 	switch vi := v.getIface().(type) {
 	case List:
@@ -357,7 +357,7 @@ func (v Value) List() List {
 	}
 }
 
-// Map returns v as a Map and panics if the type is not a Map.
+// Map returns v as a [Map] and panics if the type is not a [Map].
 func (v Value) Map() Map {
 	switch vi := v.getIface().(type) {
 	case Map:
@@ -367,7 +367,7 @@ func (v Value) Map() Map {
 	}
 }
 
-// MapKey returns v as a MapKey and panics for invalid MapKey types.
+// MapKey returns v as a [MapKey] and panics for invalid [MapKey] types.
 func (v Value) MapKey() MapKey {
 	switch v.typ {
 	case boolType, int32Type, int64Type, uint32Type, uint64Type, stringType:
@@ -378,8 +378,8 @@ func (v Value) MapKey() MapKey {
 }
 
 // MapKey is used to index maps, where the Go type of the MapKey must match
-// the specified key Kind (see MessageDescriptor.IsMapEntry).
-// The following shows what Go type is used to represent each proto Kind:
+// the specified key [Kind] (see [MessageDescriptor.IsMapEntry]).
+// The following shows what Go type is used to represent each proto [Kind]:
 //
 //	╔═════════╤═════════════════════════════════════╗
 //	║ Go type │ Protobuf kind                       ║
@@ -392,13 +392,13 @@ func (v Value) MapKey() MapKey {
 //	║ string  │ StringKind                          ║
 //	╚═════════╧═════════════════════════════════════╝
 //
-// A MapKey is constructed and accessed through a Value:
+// A MapKey is constructed and accessed through a [Value]:
 //
 //	k := ValueOf("hash").MapKey() // convert string to MapKey
 //	s := k.String()               // convert MapKey to string
 //
-// The MapKey is a strict subset of valid types used in Value;
-// converting a Value to a MapKey with an invalid type panics.
+// The MapKey is a strict subset of valid types used in [Value];
+// converting a [Value] to a MapKey with an invalid type panics.
 type MapKey value
 
 // IsValid reports whether k is populated with a value.
@@ -426,13 +426,13 @@ func (k MapKey) Uint() uint64 {
 	return Value(k).Uint()
 }
 
-// String returns k as a string. Since this method implements fmt.Stringer,
+// String returns k as a string. Since this method implements [fmt.Stringer],
 // this returns the formatted string value for any non-string type.
 func (k MapKey) String() string {
 	return Value(k).String()
 }
 
-// Value returns k as a Value.
+// Value returns k as a [Value].
 func (k MapKey) Value() Value {
 	return Value(k)
 }
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe_go120.go
index 702ddf22a..b1fdbe3e8 100644
--- a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe.go
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe_go120.go
@@ -2,8 +2,8 @@
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.
 
-//go:build !purego && !appengine
-// +build !purego,!appengine
+//go:build !purego && !appengine && !go1.21
+// +build !purego,!appengine,!go1.21
 
 package protoreflect
 
diff --git a/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe_go121.go b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe_go121.go
new file mode 100644
index 000000000..435470111
--- /dev/null
+++ b/vendor/google.golang.org/protobuf/reflect/protoreflect/value_unsafe_go121.go
@@ -0,0 +1,87 @@
+// Copyright 2018 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+//go:build !purego && !appengine && go1.21
+// +build !purego,!appengine,go1.21
+
+package protoreflect
+
+import (
+	"unsafe"
+
+	"google.golang.org/protobuf/internal/pragma"
+)
+
+type (
+	ifaceHeader struct {
+		_    [0]interface{} // if interfaces have greater alignment than unsafe.Pointer, this will enforce it.
+		Type unsafe.Pointer
+		Data unsafe.Pointer
+	}
+)
+
+var (
+	nilType     = typeOf(nil)
+	boolType    = typeOf(*new(bool))
+	int32Type   = typeOf(*new(int32))
+	int64Type   = typeOf(*new(int64))
+	uint32Type  = typeOf(*new(uint32))
+	uint64Type  = typeOf(*new(uint64))
+	float32Type = typeOf(*new(float32))
+	float64Type = typeOf(*new(float64))
+	stringType  = typeOf(*new(string))
+	bytesType   = typeOf(*new([]byte))
+	enumType    = typeOf(*new(EnumNumber))
+)
+
+// typeOf returns a pointer to the Go type information.
+// The pointer is comparable and equal if and only if the types are identical.
+func typeOf(t interface{}) unsafe.Pointer {
+	return (*ifaceHeader)(unsafe.Pointer(&t)).Type
+}
+
+// value is a union where only one type can be represented at a time.
+// The struct is 24B large on 64-bit systems and requires the minimum storage
+// necessary to represent each possible type.
+//
+// The Go GC needs to be able to scan variables containing pointers.
+// As such, pointers and non-pointers cannot be intermixed.
+type value struct {
+	pragma.DoNotCompare // 0B
+
+	// typ stores the type of the value as a pointer to the Go type.
+	typ unsafe.Pointer // 8B
+
+	// ptr stores the data pointer for a String, Bytes, or interface value.
+	ptr unsafe.Pointer // 8B
+
+	// num stores a Bool, Int32, Int64, Uint32, Uint64, Float32, Float64, or
+	// Enum value as a raw uint64.
+	//
+	// It is also used to store the length of a String or Bytes value;
+	// the capacity is ignored.
+	num uint64 // 8B
+}
+
+func valueOfString(v string) Value {
+	return Value{typ: stringType, ptr: unsafe.Pointer(unsafe.StringData(v)), num: uint64(len(v))}
+}
+func valueOfBytes(v []byte) Value {
+	return Value{typ: bytesType, ptr: unsafe.Pointer(unsafe.SliceData(v)), num: uint64(len(v))}
+}
+func valueOfIface(v interface{}) Value {
+	p := (*ifaceHeader)(unsafe.Pointer(&v))
+	return Value{typ: p.Type, ptr: p.Data}
+}
+
+func (v Value) getString() string {
+	return unsafe.String((*byte)(v.ptr), v.num)
+}
+func (v Value) getBytes() []byte {
+	return unsafe.Slice((*byte)(v.ptr), v.num)
+}
+func (v Value) getIface() (x interface{}) {
+	*(*ifaceHeader)(unsafe.Pointer(&x)) = ifaceHeader{Type: v.typ, Data: v.ptr}
+	return x
+}