2019-11-18 13:34:06 +00:00
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package accounting
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import (
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"crypto/ecdsa"
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"crypto/rand"
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"encoding/binary"
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"reflect"
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"github.com/mr-tron/base58"
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2020-03-31 07:05:26 +00:00
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"github.com/nspcc-dev/neofs-api-go/chain"
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"github.com/nspcc-dev/neofs-api-go/decimal"
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"github.com/nspcc-dev/neofs-api-go/internal"
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"github.com/nspcc-dev/neofs-api-go/refs"
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2019-11-18 13:34:06 +00:00
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crypto "github.com/nspcc-dev/neofs-crypto"
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"github.com/pkg/errors"
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)
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type (
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// Cheque structure that describes a user request for withdrawal of funds.
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Cheque struct {
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ID ChequeID
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Owner refs.OwnerID
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Amount *decimal.Decimal
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Height uint64
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Signatures []ChequeSignature
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}
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// BalanceReceiver interface that is used to retrieve user balance by address.
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BalanceReceiver interface {
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Balance(accountAddress string) (*Account, error)
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}
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// ChequeID is identifier of user request for withdrawal of funds.
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ChequeID string
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// CID type alias.
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CID = refs.CID
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// SGID type alias.
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SGID = refs.SGID
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// ChequeSignature contains public key and hash, and is used to verify signatures.
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ChequeSignature struct {
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Key *ecdsa.PublicKey
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Hash []byte
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}
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)
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const (
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// ErrWrongSignature is raised when wrong signature is passed.
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ErrWrongSignature = internal.Error("wrong signature")
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// ErrWrongPublicKey is raised when wrong public key is passed.
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ErrWrongPublicKey = internal.Error("wrong public key")
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// ErrWrongChequeData is raised when passed bytes cannot not be parsed as valid Cheque.
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ErrWrongChequeData = internal.Error("wrong cheque data")
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// ErrInvalidLength is raised when passed bytes cannot not be parsed as valid ChequeID.
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ErrInvalidLength = internal.Error("invalid length")
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u16size = 2
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u64size = 8
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signaturesOffset = chain.AddressLength + refs.OwnerIDSize + u64size + u64size
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)
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// NewChequeID generates valid random ChequeID using crypto/rand.Reader.
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func NewChequeID() (ChequeID, error) {
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d := make([]byte, chain.AddressLength)
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if _, err := rand.Read(d); err != nil {
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return "", err
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}
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id := base58.Encode(d)
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return ChequeID(id), nil
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}
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// String returns string representation of ChequeID.
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func (b ChequeID) String() string { return string(b) }
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// Empty returns true, if ChequeID is empty.
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func (b ChequeID) Empty() bool { return len(b) == 0 }
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// Valid validates ChequeID.
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func (b ChequeID) Valid() bool {
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d, err := base58.Decode(string(b))
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return err == nil && len(d) == chain.AddressLength
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}
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// Bytes returns bytes representation of ChequeID.
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func (b ChequeID) Bytes() []byte {
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d, err := base58.Decode(string(b))
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if err != nil {
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return make([]byte, chain.AddressLength)
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}
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return d
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}
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// Equal checks that current ChequeID is equal to passed ChequeID.
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func (b ChequeID) Equal(b2 ChequeID) bool {
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return b.Valid() && b2.Valid() && string(b) == string(b2)
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}
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// Unmarshal tries to parse []byte into valid ChequeID.
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func (b *ChequeID) Unmarshal(data []byte) error {
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*b = ChequeID(base58.Encode(data))
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if !b.Valid() {
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return ErrInvalidLength
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}
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return nil
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}
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// Size returns size (chain.AddressLength).
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func (b ChequeID) Size() int {
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return chain.AddressLength
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}
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// MarshalTo tries to marshal ChequeID into passed bytes and returns
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// count of copied bytes or error, if bytes len is not enough to contain ChequeID.
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func (b ChequeID) MarshalTo(data []byte) (int, error) {
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if len(data) < chain.AddressLength {
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return 0, ErrInvalidLength
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}
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return copy(data, b.Bytes()), nil
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}
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// Equals checks that m and tx are valid and equal Tx values.
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func (m Tx) Equals(tx Tx) bool {
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return m.From == tx.From &&
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m.To == tx.To &&
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m.Type == tx.Type &&
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m.Amount == tx.Amount
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}
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// Verify validates current Cheque and Signatures that are generated for current Cheque.
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func (b Cheque) Verify() error {
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data := b.marshalBody()
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for i, sign := range b.Signatures {
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if err := crypto.VerifyRFC6979(sign.Key, data, sign.Hash); err != nil {
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return errors.Wrapf(ErrWrongSignature, "item #%d: %s", i, err.Error())
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}
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}
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return nil
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}
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// Sign is used to sign current Cheque and stores result inside b.Signatures.
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func (b *Cheque) Sign(key *ecdsa.PrivateKey) error {
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hash, err := crypto.SignRFC6979(key, b.marshalBody())
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if err != nil {
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return err
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}
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b.Signatures = append(b.Signatures, ChequeSignature{
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Key: &key.PublicKey,
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Hash: hash,
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})
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return nil
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}
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func (b *Cheque) marshalBody() []byte {
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buf := make([]byte, signaturesOffset)
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var offset int
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offset += copy(buf, b.ID.Bytes())
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offset += copy(buf[offset:], b.Owner.Bytes())
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2020-02-11 13:54:43 +00:00
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binary.LittleEndian.PutUint64(buf[offset:], uint64(b.Amount.Value))
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2019-11-18 13:34:06 +00:00
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offset += u64size
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2020-02-11 13:54:43 +00:00
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binary.LittleEndian.PutUint64(buf[offset:], b.Height)
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2019-11-18 13:34:06 +00:00
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return buf
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}
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func (b *Cheque) unmarshalBody(buf []byte) error {
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var offset int
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if len(buf) < signaturesOffset {
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return ErrWrongChequeData
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}
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{ // unmarshal UUID
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if err := b.ID.Unmarshal(buf[offset : offset+chain.AddressLength]); err != nil {
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return err
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}
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offset += chain.AddressLength
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}
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{ // unmarshal OwnerID
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if err := b.Owner.Unmarshal(buf[offset : offset+refs.OwnerIDSize]); err != nil {
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return err
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}
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offset += refs.OwnerIDSize
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}
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{ // unmarshal amount
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2020-02-11 13:54:43 +00:00
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amount := int64(binary.LittleEndian.Uint64(buf[offset:]))
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2019-11-18 13:34:06 +00:00
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b.Amount = decimal.New(amount)
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offset += u64size
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}
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{ // unmarshal height
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2020-02-11 13:54:43 +00:00
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b.Height = binary.LittleEndian.Uint64(buf[offset:])
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2019-11-18 13:34:06 +00:00
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offset += u64size
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}
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return nil
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}
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// MarshalBinary is used to marshal Cheque into bytes.
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func (b Cheque) MarshalBinary() ([]byte, error) {
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var (
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count = len(b.Signatures)
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buf = make([]byte, b.Size())
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offset = copy(buf, b.marshalBody())
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)
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2020-02-11 13:54:43 +00:00
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binary.LittleEndian.PutUint16(buf[offset:], uint16(count))
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2019-11-18 13:34:06 +00:00
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offset += u16size
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for _, sign := range b.Signatures {
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key := crypto.MarshalPublicKey(sign.Key)
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offset += copy(buf[offset:], key)
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offset += copy(buf[offset:], sign.Hash)
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}
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return buf, nil
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}
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// Size returns size of Cheque (count of bytes needs to store it).
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func (b Cheque) Size() int {
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return signaturesOffset + u16size +
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len(b.Signatures)*(crypto.PublicKeyCompressedSize+crypto.RFC6979SignatureSize)
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}
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// UnmarshalBinary tries to parse []byte into valid Cheque.
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func (b *Cheque) UnmarshalBinary(buf []byte) error {
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if err := b.unmarshalBody(buf); err != nil {
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return err
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}
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body := buf[:signaturesOffset]
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2020-02-11 13:54:43 +00:00
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count := int64(binary.LittleEndian.Uint16(buf[signaturesOffset:]))
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2019-11-18 13:34:06 +00:00
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offset := signaturesOffset + u16size
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if ln := count * int64(crypto.PublicKeyCompressedSize+crypto.RFC6979SignatureSize); ln > int64(len(buf[offset:])) {
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return ErrWrongChequeData
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}
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for i := int64(0); i < count; i++ {
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sign := ChequeSignature{
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Key: crypto.UnmarshalPublicKey(buf[offset : offset+crypto.PublicKeyCompressedSize]),
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Hash: make([]byte, crypto.RFC6979SignatureSize),
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}
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offset += crypto.PublicKeyCompressedSize
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if sign.Key == nil {
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return errors.Wrapf(ErrWrongPublicKey, "item #%d", i)
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}
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offset += copy(sign.Hash, buf[offset:offset+crypto.RFC6979SignatureSize])
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if err := crypto.VerifyRFC6979(sign.Key, body, sign.Hash); err != nil {
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return errors.Wrapf(ErrWrongSignature, "item #%d: %s (offset=%d, len=%d)", i, err.Error(), offset, len(sign.Hash))
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}
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b.Signatures = append(b.Signatures, sign)
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}
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return nil
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}
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// ErrNotEnoughFunds generates error using address and amounts.
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func ErrNotEnoughFunds(addr string, needed, residue *decimal.Decimal) error {
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return errors.Errorf("not enough funds (requested=%s, residue=%s, addr=%s", needed, residue, addr)
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}
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func (m *Account) hasLockAcc(addr string) bool {
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for i := range m.LockAccounts {
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if m.LockAccounts[i].Address == addr {
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return true
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}
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}
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return false
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}
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// ValidateLock checks that account can be locked.
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func (m *Account) ValidateLock() error {
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switch {
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case m.Address == "":
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return ErrEmptyAddress
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case m.ParentAddress == "":
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return ErrEmptyParentAddress
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case m.LockTarget == nil:
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return ErrEmptyLockTarget
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}
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switch v := m.LockTarget.Target.(type) {
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case *LockTarget_WithdrawTarget:
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if v.WithdrawTarget.Cheque != m.Address {
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return errors.Errorf("wrong cheque ID: expected %s, has %s", m.Address, v.WithdrawTarget.Cheque)
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}
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case *LockTarget_ContainerCreateTarget:
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switch {
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case v.ContainerCreateTarget.CID.Empty():
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return ErrEmptyContainerID
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}
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}
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return nil
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}
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// CanLock checks possibility to lock funds.
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func (m *Account) CanLock(lockAcc *Account) error {
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switch {
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case m.ActiveFunds.LT(lockAcc.ActiveFunds):
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return ErrNotEnoughFunds(lockAcc.ParentAddress, lockAcc.ActiveFunds, m.ActiveFunds)
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case m.hasLockAcc(lockAcc.Address):
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return errors.Errorf("could not lock account(%s) funds: duplicating lock(%s)", m.Address, lockAcc.Address)
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default:
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return nil
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}
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}
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// LockForWithdraw checks that account contains locked funds by passed ChequeID.
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func (m *Account) LockForWithdraw(chequeID string) bool {
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switch v := m.LockTarget.Target.(type) {
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case *LockTarget_WithdrawTarget:
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return v.WithdrawTarget.Cheque == chequeID
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}
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return false
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}
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// LockForContainerCreate checks that account contains locked funds for container creation.
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func (m *Account) LockForContainerCreate(cid refs.CID) bool {
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switch v := m.LockTarget.Target.(type) {
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case *LockTarget_ContainerCreateTarget:
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return v.ContainerCreateTarget.CID.Equal(cid)
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}
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return false
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}
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// Equal checks that current Settlement is equal to passed Settlement.
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func (m *Settlement) Equal(s *Settlement) bool {
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if s == nil || m.Epoch != s.Epoch || len(m.Transactions) != len(s.Transactions) {
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return false
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}
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return len(m.Transactions) == 0 || reflect.DeepEqual(m.Transactions, s.Transactions)
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}
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2020-05-11 08:59:39 +00:00
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// GetOwnerID is an OwnerID field getter.
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func (m BalanceRequest) GetOwnerID() OwnerID {
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return m.OwnerID
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}
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// SetOwnerID is an OwnerID field setter.
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func (m *BalanceRequest) SetOwnerID(owner OwnerID) {
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m.OwnerID = owner
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}
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2020-05-11 09:54:21 +00:00
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// GetID is an ID field getter.
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func (m GetRequest) GetID() ChequeID {
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return m.ID
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}
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// SetID is an ID field setter.
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func (m *GetRequest) SetID(id ChequeID) {
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m.ID = id
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}
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// GetOwnerID is an OwnerID field getter.
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func (m GetRequest) GetOwnerID() OwnerID {
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return m.OwnerID
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}
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// SetOwnerID is an OwnerID field setter.
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func (m *GetRequest) SetOwnerID(id OwnerID) {
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m.OwnerID = id
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}
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