Update missing parts, improve til, and more
- Node
- Updated configuration to initialize the interface to all the smart
contracts
- Common
- Moved BlockData and BatchData types to common so that they can be
shared among: historydb, til and synchronizer
- Remove hash.go (it was never used)
- Remove slot.go (it was never used)
- Remove smartcontractparams.go (it was never used, and appropriate
structs are defined in `eth/`)
- Comment state / status method until requirements of this method are
properly defined, and move it to Synchronizer
- Synchronizer
- Simplify `Sync` routine to only sync one block per call, and return
useful information.
- Use BlockData and BatchData from common
- Check that events belong to the expected block hash
- In L1Batch, query L1UserTxs from HistoryDB
- Fill ERC20 token information
- Test AddTokens with test.Client
- HistryDB
- Use BlockData and BatchData from common
- Add `GetAllTokens` method
- Uncomment and update GetL1UserTxs (with corresponding tests)
- Til
- Rename all instances of RegisterToken to AddToken (to follow the smart
contract implementation naming)
- Use BlockData and BatchData from common
- Move testL1CoordinatorTxs and testL2Txs to a separate struct
from BatchData in Context
- Start Context with BatchNum = 1 (which the protocol defines to be the
first batchNum)
- In every Batch, set StateRoot and ExitRoot to a non-nil big.Int
(zero).
- In all L1Txs, if LoadAmount is not used, set it to 0; if Amount is not
used, set it to 0; so that no *big.Int is nil.
- In L1UserTx, don't set BatchNum, because when L1UserTxs are created
and obtained by the synchronizer, the BatchNum is not known yet (it's
a synchronizer job to set it)
- In L1UserTxs, set `UserOrigin` and set `ToForgeL1TxsNum`.
4 years ago |
|
package til
import ( "bufio" "bytes" "fmt" "io" "math/big" "sort" "strconv"
"github.com/hermeznetwork/hermez-node/common" "github.com/hermeznetwork/hermez-node/log" "github.com/hermeznetwork/tracerr" )
var eof = rune(0) var errof = fmt.Errorf("eof in parseline") var commentLine = fmt.Errorf("comment in parseline") //nolint:golint
var newEventLine = fmt.Errorf("newEventLine") //nolint:golint
var setTypeLine = fmt.Errorf("setTypeLine") //nolint:golint
// setType defines the type of the set
type setType string
// SetTypeBlockchain defines the type 'Blockchain' of the set
var SetTypeBlockchain = setType("Blockchain")
// SetTypePoolL2 defines the type 'PoolL2' of the set
var SetTypePoolL2 = setType("PoolL2")
// TypeNewBatch is used for testing purposes only, and represents the
// common.TxType of a new batch
var TypeNewBatch common.TxType = "InstrTypeNewBatch"
// TypeNewBatchL1 is used for testing purposes only, and represents the
// common.TxType of a new batch
var TypeNewBatchL1 common.TxType = "InstrTypeNewBatchL1"
// TypeNewBlock is used for testing purposes only, and represents the
// common.TxType of a new ethereum block
var TypeNewBlock common.TxType = "InstrTypeNewBlock"
// TypeAddToken is used for testing purposes only, and represents the
// common.TxType of a new Token regsitration.
// It has 'nolint:gosec' as the string 'Token' triggers gosec as a potential
// leaked Token (which is not the case).
var TypeAddToken common.TxType = "InstrTypeAddToken" //nolint:gosec
// TxTypeCreateAccountDepositCoordinator is used for testing purposes only,
// and represents the common.TxType of a create acount deposit made by the
// coordinator
var TxTypeCreateAccountDepositCoordinator common.TxType = "TypeCreateAccountDepositCoordinator"
//nolint
const ( ILLEGAL token = iota WS EOF
IDENT // val
)
// Instruction is the data structure that represents one line of code
type Instruction struct { LineNum int Literal string From string To string Amount *big.Int DepositAmount *big.Int Fee uint8 TokenID common.TokenID Typ common.TxType // D: Deposit, T: Transfer, E: ForceExit
}
// parsedSet contains the full Set of Instructions representing a full code
type parsedSet struct { typ setType instructions []Instruction users []string }
func (i Instruction) String() string { buf := bytes.NewBufferString("") fmt.Fprintf(buf, "Type: %s, ", i.Typ) fmt.Fprintf(buf, "From: %s, ", i.From) if i.Typ == common.TxTypeTransfer || i.Typ == common.TxTypeDepositTransfer || i.Typ == common.TxTypeCreateAccountDepositTransfer { fmt.Fprintf(buf, "To: %s, ", i.To) }
if i.Typ == common.TxTypeDeposit || i.Typ == common.TxTypeDepositTransfer || i.Typ == common.TxTypeCreateAccountDepositTransfer { fmt.Fprintf(buf, "DepositAmount: %d, ", i.DepositAmount) } if i.Typ != common.TxTypeDeposit { fmt.Fprintf(buf, "Amount: %d, ", i.Amount) } if i.Typ == common.TxTypeTransfer || i.Typ == common.TxTypeDepositTransfer || i.Typ == common.TxTypeCreateAccountDepositTransfer { fmt.Fprintf(buf, "Fee: %d, ", i.Fee) } fmt.Fprintf(buf, "TokenID: %d\n", i.TokenID) return buf.String() }
// Raw returns a string with the raw representation of the Instruction
func (i Instruction) raw() string { buf := bytes.NewBufferString("") fmt.Fprintf(buf, "%s", i.Typ) fmt.Fprintf(buf, "(%d)", i.TokenID) fmt.Fprintf(buf, "%s", i.From) if i.Typ == common.TxTypeTransfer || i.Typ == common.TxTypeDepositTransfer || i.Typ == common.TxTypeCreateAccountDepositTransfer { fmt.Fprintf(buf, "-%s", i.To) } fmt.Fprintf(buf, ":") if i.Typ == common.TxTypeDeposit || i.Typ == common.TxTypeDepositTransfer || i.Typ == common.TxTypeCreateAccountDepositTransfer { fmt.Fprintf(buf, "%d", i.DepositAmount) } if i.Typ != common.TxTypeDeposit { fmt.Fprintf(buf, "%d", i.Amount) } if i.Typ == common.TxTypeTransfer { fmt.Fprintf(buf, "(%d)", i.Fee) } return buf.String() }
type token int
type scanner struct { r *bufio.Reader }
func isWhitespace(ch rune) bool { return ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r' || ch == '\v' || ch == '\f' }
func isLetter(ch rune) bool { return (ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') }
func isComment(ch rune) bool { return ch == '/' }
func isDigit(ch rune) bool { return (ch >= '0' && ch <= '9') }
// newScanner creates a new scanner with the given io.Reader
func newScanner(r io.Reader) *scanner { return &scanner{r: bufio.NewReader(r)} }
func (s *scanner) read() rune { ch, _, err := s.r.ReadRune() if err != nil { return eof } return ch }
func (s *scanner) unread() { _ = s.r.UnreadRune() }
// scan returns the token and literal string of the current value
func (s *scanner) scan() (tok token, lit string) { ch := s.read()
if isWhitespace(ch) { // space
s.unread() return s.scanWhitespace() } else if isLetter(ch) || isDigit(ch) { // letter/digit
s.unread() return s.scanIndent() } else if isComment(ch) { // comment
s.unread() return s.scanIndent() }
if ch == eof { return EOF, "" }
return ILLEGAL, string(ch) }
func (s *scanner) scanWhitespace() (token token, lit string) { var buf bytes.Buffer buf.WriteRune(s.read())
for { if ch := s.read(); ch == eof { break } else if !isWhitespace(ch) { s.unread() break } else { _, _ = buf.WriteRune(ch) } } return WS, buf.String() }
func (s *scanner) scanIndent() (tok token, lit string) { var buf bytes.Buffer buf.WriteRune(s.read())
for { if ch := s.read(); ch == eof { break } else if !isLetter(ch) && !isDigit(ch) { s.unread() break } else { _, _ = buf.WriteRune(ch) } }
if len(buf.String()) == 1 { return token(rune(buf.String()[0])), buf.String() } return IDENT, buf.String() }
// parser defines the parser
type parser struct { s *scanner buf struct { tok token lit string n int } }
// newParser creates a new parser from a io.Reader
func newParser(r io.Reader) *parser { return &parser{s: newScanner(r)} }
func (p *parser) scan() (tok token, lit string) { // if there is a token in the buffer return it
if p.buf.n != 0 { p.buf.n = 0 return p.buf.tok, p.buf.lit } tok, lit = p.s.scan()
p.buf.tok, p.buf.lit = tok, lit
return }
func (p *parser) scanIgnoreWhitespace() (tok token, lit string) { tok, lit = p.scan() if tok == WS { tok, lit = p.scan() } return }
// parseLine parses the current line
func (p *parser) parseLine(setType setType) (*Instruction, error) { c := &Instruction{} tok, lit := p.scanIgnoreWhitespace() if tok == EOF { return nil, tracerr.Wrap(errof) } c.Literal += lit if lit == "/" { _, _ = p.s.r.ReadString('\n') return nil, commentLine } else if lit == ">" { if setType == SetTypePoolL2 { return c, tracerr.Wrap(fmt.Errorf("Unexpected '>' at PoolL2Txs set")) } _, lit = p.scanIgnoreWhitespace() if lit == "batch" { _, _ = p.s.r.ReadString('\n') return &Instruction{Typ: TypeNewBatch}, newEventLine } else if lit == "batchL1" { _, _ = p.s.r.ReadString('\n') return &Instruction{Typ: TypeNewBatchL1}, newEventLine } else if lit == "block" { _, _ = p.s.r.ReadString('\n') return &Instruction{Typ: TypeNewBlock}, newEventLine } else { return c, tracerr.Wrap(fmt.Errorf("Unexpected '> %s', expected '> batch' or '> block'", lit)) } } else if lit == "Type" { if err := p.expectChar(c, ":"); err != nil { return c, tracerr.Wrap(err) } _, lit = p.scanIgnoreWhitespace() if lit == "Blockchain" { return &Instruction{Typ: "Blockchain"}, setTypeLine } else if lit == "PoolL2" { return &Instruction{Typ: "PoolL2"}, setTypeLine } else { return c, tracerr.Wrap(fmt.Errorf("Invalid set type: '%s'. Valid set types: 'Blockchain', 'PoolL2'", lit)) } } else if lit == "AddToken" { if err := p.expectChar(c, "("); err != nil { return c, tracerr.Wrap(err) } _, lit = p.scanIgnoreWhitespace() c.Literal += lit tidI, err := strconv.Atoi(lit) if err != nil { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(err) } c.TokenID = common.TokenID(tidI) if err := p.expectChar(c, ")"); err != nil { return c, tracerr.Wrap(err) } c.Typ = TypeAddToken line, _ := p.s.r.ReadString('\n') c.Literal += line return c, newEventLine }
if setType == "" { return c, tracerr.Wrap(fmt.Errorf("Set type not defined")) } transferring := false fee := false
if setType == SetTypeBlockchain { switch lit { case "Deposit": c.Typ = common.TxTypeDeposit case "Exit": c.Typ = common.TxTypeExit fee = true case "Transfer": c.Typ = common.TxTypeTransfer transferring = true fee = true case "CreateAccountDeposit": c.Typ = common.TxTypeCreateAccountDeposit case "CreateAccountDepositTransfer": c.Typ = common.TxTypeCreateAccountDepositTransfer transferring = true case "CreateAccountCoordinator": c.Typ = TxTypeCreateAccountDepositCoordinator // transferring is false, as the Coordinator tx transfer will be 0
case "DepositTransfer": c.Typ = common.TxTypeDepositTransfer transferring = true case "ForceTransfer": c.Typ = common.TxTypeForceTransfer transferring = true case "ForceExit": c.Typ = common.TxTypeForceExit default: return c, tracerr.Wrap(fmt.Errorf("Unexpected Blockchain tx type: %s", lit)) } } else if setType == SetTypePoolL2 { switch lit { case "PoolTransfer": c.Typ = common.TxTypeTransfer transferring = true fee = true case "PoolTransferToEthAddr": c.Typ = common.TxTypeTransferToEthAddr transferring = true fee = true case "PoolTransferToBJJ": c.Typ = common.TxTypeTransferToBJJ transferring = true fee = true case "PoolExit": c.Typ = common.TxTypeExit fee = true default: return c, tracerr.Wrap(fmt.Errorf("Unexpected PoolL2 tx type: %s", lit)) } } else { return c, tracerr.Wrap(fmt.Errorf("Invalid set type: '%s'. Valid set types: 'Blockchain', 'PoolL2'", setType)) }
if err := p.expectChar(c, "("); err != nil { return c, tracerr.Wrap(err) } _, lit = p.scanIgnoreWhitespace() c.Literal += lit tidI, err := strconv.Atoi(lit) if err != nil { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(err) } c.TokenID = common.TokenID(tidI) if err := p.expectChar(c, ")"); err != nil { return c, tracerr.Wrap(err) } _, lit = p.scanIgnoreWhitespace() c.Literal += lit c.From = lit if c.Typ == TxTypeCreateAccountDepositCoordinator { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, nil } _, lit = p.scanIgnoreWhitespace() c.Literal += lit if transferring { if lit != "-" { return c, tracerr.Wrap(fmt.Errorf("Expected '-', found '%s'", lit)) } _, lit = p.scanIgnoreWhitespace() c.Literal += lit c.To = lit _, lit = p.scanIgnoreWhitespace() c.Literal += lit } if lit != ":" { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(fmt.Errorf("Expected ':', found '%s'", lit)) } if c.Typ == common.TxTypeDepositTransfer || c.Typ == common.TxTypeCreateAccountDepositTransfer { // deposit case
_, lit = p.scanIgnoreWhitespace() c.Literal += lit depositAmount, ok := new(big.Int).SetString(lit, 10) if !ok { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(fmt.Errorf("Can not parse number for DepositAmount")) } c.DepositAmount = depositAmount if err := p.expectChar(c, ","); err != nil { return c, tracerr.Wrap(err) } } _, lit = p.scanIgnoreWhitespace() c.Literal += lit amount, ok := new(big.Int).SetString(lit, 10) if !ok { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(fmt.Errorf("Can not parse number for Amount: %s", lit)) } if c.Typ == common.TxTypeDeposit || c.Typ == common.TxTypeCreateAccountDeposit { c.DepositAmount = amount } else { c.Amount = amount } if fee { if err := p.expectChar(c, "("); err != nil { return c, tracerr.Wrap(err) } _, lit = p.scanIgnoreWhitespace() c.Literal += lit fee, err := strconv.Atoi(lit) if err != nil { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(err) } if fee > common.MaxFeePlan-1 { line, _ := p.s.r.ReadString('\n') c.Literal += line return c, tracerr.Wrap(fmt.Errorf("Fee %d can not be bigger than 255", fee)) } c.Fee = uint8(fee)
if err := p.expectChar(c, ")"); err != nil { return c, tracerr.Wrap(err) } }
if tok == EOF { return nil, tracerr.Wrap(errof) } return c, nil }
func (p *parser) expectChar(c *Instruction, ch string) error { _, lit := p.scanIgnoreWhitespace() c.Literal += lit if lit != ch { line, _ := p.s.r.ReadString('\n') c.Literal += line return tracerr.Wrap(fmt.Errorf("Expected '%s', found '%s'", ch, lit)) } return nil }
func idxTokenIDToString(idx string, tid common.TokenID) string { return idx + strconv.Itoa(int(tid)) }
// parse parses through reader
func (p *parser) parse() (*parsedSet, error) { ps := &parsedSet{} i := 0 // lines will start counting at line 1
users := make(map[string]bool) for { i++ instruction, err := p.parseLine(ps.typ) if tracerr.Unwrap(err) == errof { break } if tracerr.Unwrap(err) == setTypeLine { if ps.typ != "" { return ps, tracerr.Wrap(fmt.Errorf("Line %d: Instruction of 'Type: %s' when there is already a previous instruction 'Type: %s' defined", i, instruction.Typ, ps.typ)) } if instruction.Typ == "PoolL2" { ps.typ = SetTypePoolL2 } else if instruction.Typ == "Blockchain" { ps.typ = SetTypeBlockchain } else { log.Fatalf("Line %d: Invalid set type: '%s'. Valid set types: 'Blockchain', 'PoolL2'", i, instruction.Typ) } continue } if tracerr.Unwrap(err) == commentLine { continue } instruction.LineNum = i if tracerr.Unwrap(err) == newEventLine { if instruction.Typ == TypeAddToken && instruction.TokenID == common.TokenID(0) { return ps, tracerr.Wrap(fmt.Errorf("Line %d: AddToken can not register TokenID 0", i)) } ps.instructions = append(ps.instructions, *instruction) continue } if err != nil { return ps, tracerr.Wrap(fmt.Errorf("Line %d: %s, err: %s", i, instruction.Literal, err.Error())) } if ps.typ == "" { return ps, tracerr.Wrap(fmt.Errorf("Line %d: Set type not defined", i)) } ps.instructions = append(ps.instructions, *instruction) users[instruction.From] = true if instruction.Typ == common.TxTypeTransfer || instruction.Typ == common.TxTypeTransferToEthAddr || instruction.Typ == common.TxTypeTransferToBJJ { // type: Transfer
users[instruction.To] = true } } for u := range users { ps.users = append(ps.users, u) } sort.Strings(ps.users) return ps, nil }
|