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lnrpc/signrpc: add and generate new set of protos for Signer service

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This commit is contained in:
Olaoluwa Osuntokun 2018-10-22 17:30:02 -07:00
parent a432f9a4c8
commit bbbdd7f6e9
No known key found for this signature in database
GPG Key ID: CE58F7F8E20FD9A2
3 changed files with 665 additions and 0 deletions
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66
lnrpc/signrpc/driver.go Normal file
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@ -0,0 +1,66 @@
// +build signrpc
package signrpc
import (
"fmt"
"github.com/lightningnetwork/lnd/lnrpc"
)
// createNewSubServer is a helper method that will create the new signer sub
// server given the main config dispatcher method. If we're unable to find the
// config that is meant for us in the config dispatcher, then we'll exit with
// an error.
func createNewSubServer(configRegistry lnrpc.SubServerConfigDispatcher) (
lnrpc.SubServer, lnrpc.MacaroonPerms, error) {
// We'll attempt to look up the config that we expect, according to our
// subServerName name. If we can't find this, then we'll exit with an
// error, as we're unable to properly initialize ourselves without this
// config.
signServerConf, ok := configRegistry.FetchConfig(subServerName)
if !ok {
return nil, nil, fmt.Errorf("unable to find config for "+
"subserver type %s", subServerName)
}
// Now that we've found an object mapping to our service name, we'll
// ensure that it's the type we need.
config, ok := signServerConf.(*Config)
if !ok {
return nil, nil, fmt.Errorf("wrong type of config for "+
"subserver %s, expected %T got %T", subServerName,
&Config{}, signServerConf)
}
// If the macaroon service is set (we should use macaroons), then
// ensure that we know where to look for them, or create them if not
// found.
switch {
case config.MacService != nil && config.NetworkDir == "":
return nil, nil, fmt.Errorf("NetworkDir must be set to create " +
"Signrpc")
case config.Signer == nil:
return nil, nil, fmt.Errorf("Signer must be set to create " +
"Signrpc")
}
return New(config)
}
func init() {
subServer := &lnrpc.SubServerDriver{
SubServerName: subServerName,
New: func(c lnrpc.SubServerConfigDispatcher) (lnrpc.SubServer, lnrpc.MacaroonPerms, error) {
return createNewSubServer(c)
},
}
// If the build tag is active, then we'll register ourselves as a
// sub-RPC server within the global lnrpc package namespace.
if err := lnrpc.RegisterSubServer(subServer); err != nil {
panic(fmt.Sprintf("failed to register sub server driver '%s': %v",
subServerName, err))
}
}

481
lnrpc/signrpc/signer.pb.go Normal file
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@ -0,0 +1,481 @@
// Code generated by protoc-gen-go. DO NOT EDIT.
// source: signer.proto
/*
Package signrpc is a generated protocol buffer package.
It is generated from these files:
signer.proto
It has these top-level messages:
KeyLocator
KeyDescriptor
TxOut
SignDescriptor
SignReq
SignResp
*/
package signrpc
import proto "github.com/golang/protobuf/proto"
import fmt "fmt"
import math "math"
import (
context "golang.org/x/net/context"
grpc "google.golang.org/grpc"
)
// Reference imports to suppress errors if they are not otherwise used.
var _ = proto.Marshal
var _ = fmt.Errorf
var _ = math.Inf
// This is a compile-time assertion to ensure that this generated file
// is compatible with the proto package it is being compiled against.
// A compilation error at this line likely means your copy of the
// proto package needs to be updated.
const _ = proto.ProtoPackageIsVersion2 // please upgrade the proto package
type KeyLocator struct {
// / The family of key being identified.
KeyFamily int32 `protobuf:"varint,1,opt,name=key_family,json=keyFamily" json:"key_family,omitempty"`
// / The precise index of the key being identified.
KeyIndex int32 `protobuf:"varint,2,opt,name=key_index,json=keyIndex" json:"key_index,omitempty"`
}
func (m *KeyLocator) Reset() { *m = KeyLocator{} }
func (m *KeyLocator) String() string { return proto.CompactTextString(m) }
func (*KeyLocator) ProtoMessage() {}
func (*KeyLocator) Descriptor() ([]byte, []int) { return fileDescriptor0, []int{0} }
func (m *KeyLocator) GetKeyFamily() int32 {
if m != nil {
return m.KeyFamily
}
return 0
}
func (m *KeyLocator) GetKeyIndex() int32 {
if m != nil {
return m.KeyIndex
}
return 0
}
type KeyDescriptor struct {
// Types that are valid to be assigned to Key:
// *KeyDescriptor_RawKeyBytes
// *KeyDescriptor_KeyLoc
Key isKeyDescriptor_Key `protobuf_oneof:"key"`
}
func (m *KeyDescriptor) Reset() { *m = KeyDescriptor{} }
func (m *KeyDescriptor) String() string { return proto.CompactTextString(m) }
func (*KeyDescriptor) ProtoMessage() {}
func (*KeyDescriptor) Descriptor() ([]byte, []int) { return fileDescriptor0, []int{1} }
type isKeyDescriptor_Key interface {
isKeyDescriptor_Key()
}
type KeyDescriptor_RawKeyBytes struct {
RawKeyBytes []byte `protobuf:"bytes,1,opt,name=raw_key_bytes,json=rawKeyBytes,proto3,oneof"`
}
type KeyDescriptor_KeyLoc struct {
KeyLoc *KeyLocator `protobuf:"bytes,2,opt,name=key_loc,json=keyLoc,oneof"`
}
func (*KeyDescriptor_RawKeyBytes) isKeyDescriptor_Key() {}
func (*KeyDescriptor_KeyLoc) isKeyDescriptor_Key() {}
func (m *KeyDescriptor) GetKey() isKeyDescriptor_Key {
if m != nil {
return m.Key
}
return nil
}
func (m *KeyDescriptor) GetRawKeyBytes() []byte {
if x, ok := m.GetKey().(*KeyDescriptor_RawKeyBytes); ok {
return x.RawKeyBytes
}
return nil
}
func (m *KeyDescriptor) GetKeyLoc() *KeyLocator {
if x, ok := m.GetKey().(*KeyDescriptor_KeyLoc); ok {
return x.KeyLoc
}
return nil
}
// XXX_OneofFuncs is for the internal use of the proto package.
func (*KeyDescriptor) XXX_OneofFuncs() (func(msg proto.Message, b *proto.Buffer) error, func(msg proto.Message, tag, wire int, b *proto.Buffer) (bool, error), func(msg proto.Message) (n int), []interface{}) {
return _KeyDescriptor_OneofMarshaler, _KeyDescriptor_OneofUnmarshaler, _KeyDescriptor_OneofSizer, []interface{}{
(*KeyDescriptor_RawKeyBytes)(nil),
(*KeyDescriptor_KeyLoc)(nil),
}
}
func _KeyDescriptor_OneofMarshaler(msg proto.Message, b *proto.Buffer) error {
m := msg.(*KeyDescriptor)
// key
switch x := m.Key.(type) {
case *KeyDescriptor_RawKeyBytes:
b.EncodeVarint(1<<3 | proto.WireBytes)
b.EncodeRawBytes(x.RawKeyBytes)
case *KeyDescriptor_KeyLoc:
b.EncodeVarint(2<<3 | proto.WireBytes)
if err := b.EncodeMessage(x.KeyLoc); err != nil {
return err
}
case nil:
default:
return fmt.Errorf("KeyDescriptor.Key has unexpected type %T", x)
}
return nil
}
func _KeyDescriptor_OneofUnmarshaler(msg proto.Message, tag, wire int, b *proto.Buffer) (bool, error) {
m := msg.(*KeyDescriptor)
switch tag {
case 1: // key.raw_key_bytes
if wire != proto.WireBytes {
return true, proto.ErrInternalBadWireType
}
x, err := b.DecodeRawBytes(true)
m.Key = &KeyDescriptor_RawKeyBytes{x}
return true, err
case 2: // key.key_loc
if wire != proto.WireBytes {
return true, proto.ErrInternalBadWireType
}
msg := new(KeyLocator)
err := b.DecodeMessage(msg)
m.Key = &KeyDescriptor_KeyLoc{msg}
return true, err
default:
return false, nil
}
}
func _KeyDescriptor_OneofSizer(msg proto.Message) (n int) {
m := msg.(*KeyDescriptor)
// key
switch x := m.Key.(type) {
case *KeyDescriptor_RawKeyBytes:
n += proto.SizeVarint(1<<3 | proto.WireBytes)
n += proto.SizeVarint(uint64(len(x.RawKeyBytes)))
n += len(x.RawKeyBytes)
case *KeyDescriptor_KeyLoc:
s := proto.Size(x.KeyLoc)
n += proto.SizeVarint(2<<3 | proto.WireBytes)
n += proto.SizeVarint(uint64(s))
n += s
case nil:
default:
panic(fmt.Sprintf("proto: unexpected type %T in oneof", x))
}
return n
}
type TxOut struct {
// / The value of the output being spent.
Value int64 `protobuf:"varint,1,opt,name=value" json:"value,omitempty"`
// / The script of the output being spent.
PkScript []byte `protobuf:"bytes,2,opt,name=pk_script,json=pkScript,proto3" json:"pk_script,omitempty"`
}
func (m *TxOut) Reset() { *m = TxOut{} }
func (m *TxOut) String() string { return proto.CompactTextString(m) }
func (*TxOut) ProtoMessage() {}
func (*TxOut) Descriptor() ([]byte, []int) { return fileDescriptor0, []int{2} }
func (m *TxOut) GetValue() int64 {
if m != nil {
return m.Value
}
return 0
}
func (m *TxOut) GetPkScript() []byte {
if m != nil {
return m.PkScript
}
return nil
}
type SignDescriptor struct {
// *
// A descriptor that precisely describes *which* key to use for signing. This
// may provide the raw public key directly, or require the Signer to re-derive
// the key according to the populated derivation path.
KeyDesc *KeyDescriptor `protobuf:"bytes,1,opt,name=key_desc,json=keyDesc" json:"key_desc,omitempty"`
// *
// A scalar value that will be added to the private key corresponding to the
// above public key to obtain the private key to be used to sign this input.
// This value is typically derived via the following computation:
//
// derivedKey = privkey + sha256(perCommitmentPoint || pubKey) mod N
SingleTweak []byte `protobuf:"bytes,2,opt,name=single_tweak,json=singleTweak,proto3" json:"single_tweak,omitempty"`
// *
// A private key that will be used in combination with its corresponding
// private key to derive the private key that is to be used to sign the target
// input. Within the Lightning protocol, this value is typically the
// commitment secret from a previously revoked commitment transaction. This
// value is in combination with two hash values, and the original private key
// to derive the private key to be used when signing.
//
// k = (privKey*sha256(pubKey || tweakPub) +
// tweakPriv*sha256(tweakPub || pubKey)) mod N
DoubleTweak []byte `protobuf:"bytes,3,opt,name=double_tweak,json=doubleTweak,proto3" json:"double_tweak,omitempty"`
// *
// The full script required to properly redeem the output. This field will
// only be populated if a p2wsh or a p2sh output is being signed.
WitnessScript []byte `protobuf:"bytes,4,opt,name=witness_script,json=witnessScript,proto3" json:"witness_script,omitempty"`
// *
// A description of the output being spent. The value and script MUST be provided.
Output *TxOut `protobuf:"bytes,5,opt,name=output" json:"output,omitempty"`
// *
// The target sighash type that should be used when generating the final
// sighash, and signature.
Sighash uint32 `protobuf:"varint,7,opt,name=sighash" json:"sighash,omitempty"`
// *
// The target input within the transaction that should be signed.
InputIndex int32 `protobuf:"varint,8,opt,name=input_index,json=inputIndex" json:"input_index,omitempty"`
}
func (m *SignDescriptor) Reset() { *m = SignDescriptor{} }
func (m *SignDescriptor) String() string { return proto.CompactTextString(m) }
func (*SignDescriptor) ProtoMessage() {}
func (*SignDescriptor) Descriptor() ([]byte, []int) { return fileDescriptor0, []int{3} }
func (m *SignDescriptor) GetKeyDesc() *KeyDescriptor {
if m != nil {
return m.KeyDesc
}
return nil
}
func (m *SignDescriptor) GetSingleTweak() []byte {
if m != nil {
return m.SingleTweak
}
return nil
}
func (m *SignDescriptor) GetDoubleTweak() []byte {
if m != nil {
return m.DoubleTweak
}
return nil
}
func (m *SignDescriptor) GetWitnessScript() []byte {
if m != nil {
return m.WitnessScript
}
return nil
}
func (m *SignDescriptor) GetOutput() *TxOut {
if m != nil {
return m.Output
}
return nil
}
func (m *SignDescriptor) GetSighash() uint32 {
if m != nil {
return m.Sighash
}
return 0
}
func (m *SignDescriptor) GetInputIndex() int32 {
if m != nil {
return m.InputIndex
}
return 0
}
type SignReq struct {
// / The raw bytes of the transaction to be signed.
RawTxBytes []byte `protobuf:"bytes,1,opt,name=raw_tx_bytes,json=rawTxBytes,proto3" json:"raw_tx_bytes,omitempty"`
// / A set of sign descriptors, for each input to be signed.
SignDescs []*SignDescriptor `protobuf:"bytes,2,rep,name=sign_descs,json=signDescs" json:"sign_descs,omitempty"`
}
func (m *SignReq) Reset() { *m = SignReq{} }
func (m *SignReq) String() string { return proto.CompactTextString(m) }
func (*SignReq) ProtoMessage() {}
func (*SignReq) Descriptor() ([]byte, []int) { return fileDescriptor0, []int{4} }
func (m *SignReq) GetRawTxBytes() []byte {
if m != nil {
return m.RawTxBytes
}
return nil
}
func (m *SignReq) GetSignDescs() []*SignDescriptor {
if m != nil {
return m.SignDescs
}
return nil
}
type SignResp struct {
// *
// A set of signatures realized in a fixed 64-byte format ordered in ascending
// input order.
RawSigs [][]byte `protobuf:"bytes,1,rep,name=raw_sigs,json=rawSigs,proto3" json:"raw_sigs,omitempty"`
}
func (m *SignResp) Reset() { *m = SignResp{} }
func (m *SignResp) String() string { return proto.CompactTextString(m) }
func (*SignResp) ProtoMessage() {}
func (*SignResp) Descriptor() ([]byte, []int) { return fileDescriptor0, []int{5} }
func (m *SignResp) GetRawSigs() [][]byte {
if m != nil {
return m.RawSigs
}
return nil
}
func init() {
proto.RegisterType((*KeyLocator)(nil), "signrpc.KeyLocator")
proto.RegisterType((*KeyDescriptor)(nil), "signrpc.KeyDescriptor")
proto.RegisterType((*TxOut)(nil), "signrpc.TxOut")
proto.RegisterType((*SignDescriptor)(nil), "signrpc.SignDescriptor")
proto.RegisterType((*SignReq)(nil), "signrpc.SignReq")
proto.RegisterType((*SignResp)(nil), "signrpc.SignResp")
}
// Reference imports to suppress errors if they are not otherwise used.
var _ context.Context
var _ grpc.ClientConn
// This is a compile-time assertion to ensure that this generated file
// is compatible with the grpc package it is being compiled against.
const _ = grpc.SupportPackageIsVersion4
// Client API for Signer service
type SignerClient interface {
// *
// SignOutputRaw is a method that can be used to generated a signature for a
// set of inputs/outputs to a transaction. Each request specifies details
// concerning how the outputs should be signed, which keys they should be
// signed with, and also any optional tweaks. The return value is a fixed
// 64-byte signature (the same format as we use on the wire in Lightning).
//
// If we're unable to sign using the specified keys, then an error will be
// returned.
SignOutputRaw(ctx context.Context, in *SignReq, opts ...grpc.CallOption) (*SignResp, error)
}
type signerClient struct {
cc *grpc.ClientConn
}
func NewSignerClient(cc *grpc.ClientConn) SignerClient {
return &signerClient{cc}
}
func (c *signerClient) SignOutputRaw(ctx context.Context, in *SignReq, opts ...grpc.CallOption) (*SignResp, error) {
out := new(SignResp)
err := grpc.Invoke(ctx, "/signrpc.Signer/SignOutputRaw", in, out, c.cc, opts...)
if err != nil {
return nil, err
}
return out, nil
}
// Server API for Signer service
type SignerServer interface {
// *
// SignOutputRaw is a method that can be used to generated a signature for a
// set of inputs/outputs to a transaction. Each request specifies details
// concerning how the outputs should be signed, which keys they should be
// signed with, and also any optional tweaks. The return value is a fixed
// 64-byte signature (the same format as we use on the wire in Lightning).
//
// If we're unable to sign using the specified keys, then an error will be
// returned.
SignOutputRaw(context.Context, *SignReq) (*SignResp, error)
}
func RegisterSignerServer(s *grpc.Server, srv SignerServer) {
s.RegisterService(&_Signer_serviceDesc, srv)
}
func _Signer_SignOutputRaw_Handler(srv interface{}, ctx context.Context, dec func(interface{}) error, interceptor grpc.UnaryServerInterceptor) (interface{}, error) {
in := new(SignReq)
if err := dec(in); err != nil {
return nil, err
}
if interceptor == nil {
return srv.(SignerServer).SignOutputRaw(ctx, in)
}
info := &grpc.UnaryServerInfo{
Server: srv,
FullMethod: "/signrpc.Signer/SignOutputRaw",
}
handler := func(ctx context.Context, req interface{}) (interface{}, error) {
return srv.(SignerServer).SignOutputRaw(ctx, req.(*SignReq))
}
return interceptor(ctx, in, info, handler)
}
var _Signer_serviceDesc = grpc.ServiceDesc{
ServiceName: "signrpc.Signer",
HandlerType: (*SignerServer)(nil),
Methods: []grpc.MethodDesc{
{
MethodName: "SignOutputRaw",
Handler: _Signer_SignOutputRaw_Handler,
},
},
Streams: []grpc.StreamDesc{},
Metadata: "signer.proto",
}
func init() { proto.RegisterFile("signer.proto", fileDescriptor0) }
var fileDescriptor0 = []byte{
// 465 bytes of a gzipped FileDescriptorProto
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0x00,
}

118
lnrpc/signrpc/signer.proto Normal file
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@ -0,0 +1,118 @@
syntax = "proto3";
package signrpc;
message KeyLocator {
/// The family of key being identified.
int32 key_family = 1;
/// The precise index of the key being identified.
int32 key_index = 2;
}
message KeyDescriptor {
oneof key {
/**
The raw bytes of the key being identified. Either this or the KeyLocator
must be specified.
*/
bytes raw_key_bytes = 1;
/**
The key locator that identifies which key to use for signing. Either this
or the raw bytes of the target key must be specified.
*/
KeyLocator key_loc = 2;
}
}
message TxOut {
/// The value of the output being spent.
int64 value = 1;
/// The script of the output being spent.
bytes pk_script = 2;
}
message SignDescriptor {
/**
A descriptor that precisely describes *which* key to use for signing. This
may provide the raw public key directly, or require the Signer to re-derive
the key according to the populated derivation path.
*/
KeyDescriptor key_desc = 1;
/**
A scalar value that will be added to the private key corresponding to the
above public key to obtain the private key to be used to sign this input.
This value is typically derived via the following computation:
* derivedKey = privkey + sha256(perCommitmentPoint || pubKey) mod N
*/
bytes single_tweak = 2;
/**
A private key that will be used in combination with its corresponding
private key to derive the private key that is to be used to sign the target
input. Within the Lightning protocol, this value is typically the
commitment secret from a previously revoked commitment transaction. This
value is in combination with two hash values, and the original private key
to derive the private key to be used when signing.
* k = (privKey*sha256(pubKey || tweakPub) +
tweakPriv*sha256(tweakPub || pubKey)) mod N
*/
bytes double_tweak = 3;
/**
The full script required to properly redeem the output. This field will
only be populated if a p2wsh or a p2sh output is being signed.
*/
bytes witness_script = 4;
/**
A description of the output being spent. The value and script MUST be provided.
*/
TxOut output = 5;
/**
The target sighash type that should be used when generating the final
sighash, and signature.
*/
uint32 sighash = 7;
/**
The target input within the transaction that should be signed.
*/
int32 input_index = 8;
}
message SignReq {
/// The raw bytes of the transaction to be signed.
bytes raw_tx_bytes = 1;
/// A set of sign descriptors, for each input to be signed.
repeated SignDescriptor sign_descs = 2;
}
message SignResp {
/**
A set of signatures realized in a fixed 64-byte format ordered in ascending
input order.
*/
repeated bytes raw_sigs = 1;
}
service Signer {
/**
SignOutputRaw is a method that can be used to generated a signature for a
set of inputs/outputs to a transaction. Each request specifies details
concerning how the outputs should be signed, which keys they should be
signed with, and also any optional tweaks. The return value is a fixed
64-byte signature (the same format as we use on the wire in Lightning).
If we're unable to sign using the specified keys, then an error will be
returned.
*/
rpc SignOutputRaw(SignReq) returns (SignResp);
}