mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-27 00:30:18 +00:00
91774fc936
Uses github.com/libopenstorage/secrets to communicate with Vault. This removes the need for maintaining our own limited Vault APIs. By adding the new dependency, several other packages got updated in the process. Unused indirect dependencies have been removed from go.mod. Signed-off-by: Niels de Vos <ndevos@redhat.com>
347 lines
11 KiB
Go
347 lines
11 KiB
Go
// Copyright 2019 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package proto
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import (
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"sort"
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"google.golang.org/protobuf/encoding/protowire"
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"google.golang.org/protobuf/internal/encoding/messageset"
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"google.golang.org/protobuf/internal/fieldsort"
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"google.golang.org/protobuf/internal/mapsort"
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"google.golang.org/protobuf/internal/pragma"
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"google.golang.org/protobuf/reflect/protoreflect"
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"google.golang.org/protobuf/runtime/protoiface"
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)
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// MarshalOptions configures the marshaler.
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//
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// Example usage:
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// b, err := MarshalOptions{Deterministic: true}.Marshal(m)
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type MarshalOptions struct {
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pragma.NoUnkeyedLiterals
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// AllowPartial allows messages that have missing required fields to marshal
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// without returning an error. If AllowPartial is false (the default),
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// Marshal will return an error if there are any missing required fields.
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AllowPartial bool
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// Deterministic controls whether the same message will always be
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// serialized to the same bytes within the same binary.
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//
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// Setting this option guarantees that repeated serialization of
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// the same message will return the same bytes, and that different
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// processes of the same binary (which may be executing on different
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// machines) will serialize equal messages to the same bytes.
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// It has no effect on the resulting size of the encoded message compared
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// to a non-deterministic marshal.
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//
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// Note that the deterministic serialization is NOT canonical across
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// languages. It is not guaranteed to remain stable over time. It is
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// unstable across different builds with schema changes due to unknown
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// fields. Users who need canonical serialization (e.g., persistent
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// storage in a canonical form, fingerprinting, etc.) must define
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// their own canonicalization specification and implement their own
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// serializer rather than relying on this API.
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//
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// If deterministic serialization is requested, map entries will be
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// sorted by keys in lexographical order. This is an implementation
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// detail and subject to change.
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Deterministic bool
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// UseCachedSize indicates that the result of a previous Size call
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// may be reused.
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//
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// Setting this option asserts that:
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//
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// 1. Size has previously been called on this message with identical
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// options (except for UseCachedSize itself).
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//
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// 2. The message and all its submessages have not changed in any
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// way since the Size call.
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//
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// If either of these invariants is violated,
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// the results are undefined and may include panics or corrupted output.
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//
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// Implementations MAY take this option into account to provide
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// better performance, but there is no guarantee that they will do so.
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// There is absolutely no guarantee that Size followed by Marshal with
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// UseCachedSize set will perform equivalently to Marshal alone.
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UseCachedSize bool
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}
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// Marshal returns the wire-format encoding of m.
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func Marshal(m Message) ([]byte, error) {
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// Treat nil message interface as an empty message; nothing to output.
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if m == nil {
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return nil, nil
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}
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out, err := MarshalOptions{}.marshal(nil, m.ProtoReflect())
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if len(out.Buf) == 0 && err == nil {
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out.Buf = emptyBytesForMessage(m)
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}
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return out.Buf, err
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}
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// Marshal returns the wire-format encoding of m.
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func (o MarshalOptions) Marshal(m Message) ([]byte, error) {
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// Treat nil message interface as an empty message; nothing to output.
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if m == nil {
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return nil, nil
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}
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out, err := o.marshal(nil, m.ProtoReflect())
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if len(out.Buf) == 0 && err == nil {
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out.Buf = emptyBytesForMessage(m)
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}
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return out.Buf, err
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}
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// emptyBytesForMessage returns a nil buffer if and only if m is invalid,
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// otherwise it returns a non-nil empty buffer.
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//
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// This is to assist the edge-case where user-code does the following:
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// m1.OptionalBytes, _ = proto.Marshal(m2)
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// where they expect the proto2 "optional_bytes" field to be populated
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// if any only if m2 is a valid message.
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func emptyBytesForMessage(m Message) []byte {
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if m == nil || !m.ProtoReflect().IsValid() {
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return nil
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}
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return emptyBuf[:]
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}
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// MarshalAppend appends the wire-format encoding of m to b,
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// returning the result.
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func (o MarshalOptions) MarshalAppend(b []byte, m Message) ([]byte, error) {
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// Treat nil message interface as an empty message; nothing to append.
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if m == nil {
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return b, nil
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}
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out, err := o.marshal(b, m.ProtoReflect())
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return out.Buf, err
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}
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// MarshalState returns the wire-format encoding of a message.
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//
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// This method permits fine-grained control over the marshaler.
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// Most users should use Marshal instead.
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func (o MarshalOptions) MarshalState(in protoiface.MarshalInput) (protoiface.MarshalOutput, error) {
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return o.marshal(in.Buf, in.Message)
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}
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// marshal is a centralized function that all marshal operations go through.
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// For profiling purposes, avoid changing the name of this function or
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// introducing other code paths for marshal that do not go through this.
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func (o MarshalOptions) marshal(b []byte, m protoreflect.Message) (out protoiface.MarshalOutput, err error) {
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allowPartial := o.AllowPartial
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o.AllowPartial = true
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if methods := protoMethods(m); methods != nil && methods.Marshal != nil &&
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!(o.Deterministic && methods.Flags&protoiface.SupportMarshalDeterministic == 0) {
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in := protoiface.MarshalInput{
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Message: m,
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Buf: b,
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}
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if o.Deterministic {
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in.Flags |= protoiface.MarshalDeterministic
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}
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if o.UseCachedSize {
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in.Flags |= protoiface.MarshalUseCachedSize
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}
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if methods.Size != nil {
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sout := methods.Size(protoiface.SizeInput{
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Message: m,
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Flags: in.Flags,
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})
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if cap(b) < len(b)+sout.Size {
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in.Buf = make([]byte, len(b), growcap(cap(b), len(b)+sout.Size))
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copy(in.Buf, b)
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}
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in.Flags |= protoiface.MarshalUseCachedSize
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}
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out, err = methods.Marshal(in)
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} else {
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out.Buf, err = o.marshalMessageSlow(b, m)
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}
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if err != nil {
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return out, err
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}
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if allowPartial {
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return out, nil
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}
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return out, checkInitialized(m)
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}
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func (o MarshalOptions) marshalMessage(b []byte, m protoreflect.Message) ([]byte, error) {
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out, err := o.marshal(b, m)
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return out.Buf, err
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}
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// growcap scales up the capacity of a slice.
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//
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// Given a slice with a current capacity of oldcap and a desired
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// capacity of wantcap, growcap returns a new capacity >= wantcap.
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//
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// The algorithm is mostly identical to the one used by append as of Go 1.14.
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func growcap(oldcap, wantcap int) (newcap int) {
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if wantcap > oldcap*2 {
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newcap = wantcap
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} else if oldcap < 1024 {
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// The Go 1.14 runtime takes this case when len(s) < 1024,
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// not when cap(s) < 1024. The difference doesn't seem
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// significant here.
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newcap = oldcap * 2
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} else {
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newcap = oldcap
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for 0 < newcap && newcap < wantcap {
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newcap += newcap / 4
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}
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if newcap <= 0 {
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newcap = wantcap
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}
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}
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return newcap
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}
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func (o MarshalOptions) marshalMessageSlow(b []byte, m protoreflect.Message) ([]byte, error) {
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if messageset.IsMessageSet(m.Descriptor()) {
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return o.marshalMessageSet(b, m)
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}
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// There are many choices for what order we visit fields in. The default one here
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// is chosen for reasonable efficiency and simplicity given the protoreflect API.
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// It is not deterministic, since Message.Range does not return fields in any
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// defined order.
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//
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// When using deterministic serialization, we sort the known fields.
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var err error
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o.rangeFields(m, func(fd protoreflect.FieldDescriptor, v protoreflect.Value) bool {
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b, err = o.marshalField(b, fd, v)
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return err == nil
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})
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if err != nil {
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return b, err
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}
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b = append(b, m.GetUnknown()...)
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return b, nil
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}
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// rangeFields visits fields in a defined order when deterministic serialization is enabled.
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func (o MarshalOptions) rangeFields(m protoreflect.Message, f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) {
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if !o.Deterministic {
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m.Range(f)
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return
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}
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var fds []protoreflect.FieldDescriptor
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m.Range(func(fd protoreflect.FieldDescriptor, _ protoreflect.Value) bool {
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fds = append(fds, fd)
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return true
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})
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sort.Slice(fds, func(a, b int) bool {
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return fieldsort.Less(fds[a], fds[b])
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})
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for _, fd := range fds {
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if !f(fd, m.Get(fd)) {
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break
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}
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}
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}
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func (o MarshalOptions) marshalField(b []byte, fd protoreflect.FieldDescriptor, value protoreflect.Value) ([]byte, error) {
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switch {
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case fd.IsList():
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return o.marshalList(b, fd, value.List())
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case fd.IsMap():
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return o.marshalMap(b, fd, value.Map())
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default:
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b = protowire.AppendTag(b, fd.Number(), wireTypes[fd.Kind()])
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return o.marshalSingular(b, fd, value)
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}
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}
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func (o MarshalOptions) marshalList(b []byte, fd protoreflect.FieldDescriptor, list protoreflect.List) ([]byte, error) {
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if fd.IsPacked() && list.Len() > 0 {
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b = protowire.AppendTag(b, fd.Number(), protowire.BytesType)
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b, pos := appendSpeculativeLength(b)
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for i, llen := 0, list.Len(); i < llen; i++ {
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var err error
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b, err = o.marshalSingular(b, fd, list.Get(i))
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if err != nil {
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return b, err
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}
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}
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b = finishSpeculativeLength(b, pos)
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return b, nil
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}
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kind := fd.Kind()
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for i, llen := 0, list.Len(); i < llen; i++ {
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var err error
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b = protowire.AppendTag(b, fd.Number(), wireTypes[kind])
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b, err = o.marshalSingular(b, fd, list.Get(i))
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if err != nil {
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return b, err
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}
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}
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return b, nil
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}
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func (o MarshalOptions) marshalMap(b []byte, fd protoreflect.FieldDescriptor, mapv protoreflect.Map) ([]byte, error) {
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keyf := fd.MapKey()
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valf := fd.MapValue()
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var err error
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o.rangeMap(mapv, keyf.Kind(), func(key protoreflect.MapKey, value protoreflect.Value) bool {
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b = protowire.AppendTag(b, fd.Number(), protowire.BytesType)
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var pos int
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b, pos = appendSpeculativeLength(b)
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b, err = o.marshalField(b, keyf, key.Value())
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if err != nil {
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return false
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}
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b, err = o.marshalField(b, valf, value)
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if err != nil {
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return false
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}
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b = finishSpeculativeLength(b, pos)
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return true
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})
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return b, err
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}
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func (o MarshalOptions) rangeMap(mapv protoreflect.Map, kind protoreflect.Kind, f func(protoreflect.MapKey, protoreflect.Value) bool) {
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if !o.Deterministic {
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mapv.Range(f)
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return
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}
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mapsort.Range(mapv, kind, f)
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}
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// When encoding length-prefixed fields, we speculatively set aside some number of bytes
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// for the length, encode the data, and then encode the length (shifting the data if necessary
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// to make room).
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const speculativeLength = 1
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func appendSpeculativeLength(b []byte) ([]byte, int) {
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pos := len(b)
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b = append(b, "\x00\x00\x00\x00"[:speculativeLength]...)
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return b, pos
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}
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func finishSpeculativeLength(b []byte, pos int) []byte {
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mlen := len(b) - pos - speculativeLength
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msiz := protowire.SizeVarint(uint64(mlen))
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if msiz != speculativeLength {
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for i := 0; i < msiz-speculativeLength; i++ {
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b = append(b, 0)
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}
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copy(b[pos+msiz:], b[pos+speculativeLength:])
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b = b[:pos+msiz+mlen]
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}
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protowire.AppendVarint(b[:pos], uint64(mlen))
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return b
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}
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