DockerCLI/vendor/google.golang.org/protobuf/proto/extension.go

167 lines
6.9 KiB
Go
Raw Normal View History

// Copyright 2019 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.
package proto
import (
"google.golang.org/protobuf/reflect/protoreflect"
)
// HasExtension reports whether an extension field is populated.
// It returns false if m is invalid or if xt does not extend m.
func HasExtension(m Message, xt protoreflect.ExtensionType) bool {
// Treat nil message interface or descriptor as an empty message; no populated
// fields.
if m == nil || xt == nil {
return false
}
// As a special-case, we reports invalid or mismatching descriptors
// as always not being populated (since they aren't).
mr := m.ProtoReflect()
xd := xt.TypeDescriptor()
if mr.Descriptor() != xd.ContainingMessage() {
return false
}
return mr.Has(xd)
}
// ClearExtension clears an extension field such that subsequent
vendor: google.golang.org/protobuf v1.33.0, github.com/golang/protobuf v1.5.4 full diffs: - https://github.com/protocolbuffers/protobuf-go/compare/v1.31.0...v1.33.0 - https://github.com/golang/protobuf/compare/v1.5.3...v1.5.4 From the Go security announcement list; > Version v1.33.0 of the google.golang.org/protobuf module fixes a bug in > the google.golang.org/protobuf/encoding/protojson package which could cause > the Unmarshal function to enter an infinite loop when handling some invalid > inputs. > > This condition could only occur when unmarshaling into a message which contains > a google.protobuf.Any value, or when the UnmarshalOptions.UnmarshalUnknown > option is set. Unmarshal now correctly returns an error when handling these > inputs. > > This is CVE-2024-24786. In a follow-up post; > A small correction: This vulnerability applies when the UnmarshalOptions.DiscardUnknown > option is set (as well as when unmarshaling into any message which contains a > google.protobuf.Any). There is no UnmarshalUnknown option. > > In addition, version 1.33.0 of google.golang.org/protobuf inadvertently > introduced an incompatibility with the older github.com/golang/protobuf > module. (https://github.com/golang/protobuf/issues/1596) Users of the older > module should update to github.com/golang/protobuf@v1.5.4. govulncheck results in our code shows that this does not affect the CLI: govulncheck ./... Scanning your code and 448 packages across 72 dependent modules for known vulnerabilities... === Symbol Results === No vulnerabilities found. Your code is affected by 0 vulnerabilities. This scan also found 1 vulnerability in packages you import and 0 vulnerabilities in modules you require, but your code doesn't appear to call these vulnerabilities. Use '-show verbose' for more details. Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
2024-03-16 11:34:55 -04:00
// [HasExtension] calls return false.
// It panics if m is invalid or if xt does not extend m.
func ClearExtension(m Message, xt protoreflect.ExtensionType) {
m.ProtoReflect().Clear(xt.TypeDescriptor())
}
// GetExtension retrieves the value for an extension field.
// If the field is unpopulated, it returns the default value for
// scalars and an immutable, empty value for lists or messages.
// It panics if xt does not extend m.
//
// The type of the value is dependent on the field type of the extension.
// For extensions generated by protoc-gen-go, the Go type is as follows:
//
// ╔═══════════════════╤═════════════════════════╗
// ║ Go type │ Protobuf kind ║
// ╠═══════════════════╪═════════════════════════╣
// ║ bool │ bool ║
// ║ int32 │ int32, sint32, sfixed32 ║
// ║ int64 │ int64, sint64, sfixed64 ║
// ║ uint32 │ uint32, fixed32 ║
// ║ uint64 │ uint64, fixed64 ║
// ║ float32 │ float ║
// ║ float64 │ double ║
// ║ string │ string ║
// ║ []byte │ bytes ║
// ║ protoreflect.Enum │ enum ║
// ║ proto.Message │ message, group ║
// ╚═══════════════════╧═════════════════════════╝
//
// The protoreflect.Enum and proto.Message types are the concrete Go type
// associated with the named enum or message. Repeated fields are represented
// using a Go slice of the base element type.
//
// If a generated extension descriptor variable is directly passed to
// GetExtension, then the call should be followed immediately by a
// type assertion to the expected output value. For example:
//
// mm := proto.GetExtension(m, foopb.E_MyExtension).(*foopb.MyMessage)
//
// This pattern enables static analysis tools to verify that the asserted type
// matches the Go type associated with the extension field and
// also enables a possible future migration to a type-safe extension API.
//
// Since singular messages are the most common extension type, the pattern of
// calling HasExtension followed by GetExtension may be simplified to:
//
// if mm := proto.GetExtension(m, foopb.E_MyExtension).(*foopb.MyMessage); mm != nil {
// ... // make use of mm
// }
//
// The mm variable is non-nil if and only if HasExtension reports true.
func GetExtension(m Message, xt protoreflect.ExtensionType) any {
// Treat nil message interface as an empty message; return the default.
if m == nil {
return xt.InterfaceOf(xt.Zero())
}
return xt.InterfaceOf(m.ProtoReflect().Get(xt.TypeDescriptor()))
}
// SetExtension stores the value of an extension field.
// It panics if m is invalid, xt does not extend m, or if type of v
// is invalid for the specified extension field.
//
// The type of the value is dependent on the field type of the extension.
// For extensions generated by protoc-gen-go, the Go type is as follows:
//
// ╔═══════════════════╤═════════════════════════╗
// ║ Go type │ Protobuf kind ║
// ╠═══════════════════╪═════════════════════════╣
// ║ bool │ bool ║
// ║ int32 │ int32, sint32, sfixed32 ║
// ║ int64 │ int64, sint64, sfixed64 ║
// ║ uint32 │ uint32, fixed32 ║
// ║ uint64 │ uint64, fixed64 ║
// ║ float32 │ float ║
// ║ float64 │ double ║
// ║ string │ string ║
// ║ []byte │ bytes ║
// ║ protoreflect.Enum │ enum ║
// ║ proto.Message │ message, group ║
// ╚═══════════════════╧═════════════════════════╝
//
// The protoreflect.Enum and proto.Message types are the concrete Go type
// associated with the named enum or message. Repeated fields are represented
// using a Go slice of the base element type.
//
// If a generated extension descriptor variable is directly passed to
// SetExtension (e.g., foopb.E_MyExtension), then the value should be a
// concrete type that matches the expected Go type for the extension descriptor
// so that static analysis tools can verify type correctness.
// This also enables a possible future migration to a type-safe extension API.
func SetExtension(m Message, xt protoreflect.ExtensionType, v any) {
xd := xt.TypeDescriptor()
pv := xt.ValueOf(v)
// Specially treat an invalid list, map, or message as clear.
isValid := true
switch {
case xd.IsList():
isValid = pv.List().IsValid()
case xd.IsMap():
isValid = pv.Map().IsValid()
case xd.Message() != nil:
isValid = pv.Message().IsValid()
}
if !isValid {
m.ProtoReflect().Clear(xd)
return
}
m.ProtoReflect().Set(xd, pv)
}
// RangeExtensions iterates over every populated extension field in m in an
// undefined order, calling f for each extension type and value encountered.
// It returns immediately if f returns false.
// While iterating, mutating operations may only be performed
// on the current extension field.
func RangeExtensions(m Message, f func(protoreflect.ExtensionType, any) bool) {
// Treat nil message interface as an empty message; nothing to range over.
if m == nil {
return
}
m.ProtoReflect().Range(func(fd protoreflect.FieldDescriptor, v protoreflect.Value) bool {
if fd.IsExtension() {
xt := fd.(protoreflect.ExtensionTypeDescriptor).Type()
vi := xt.InterfaceOf(v)
return f(xt, vi)
}
return true
})
}