package types import ( "bytes" "encoding/json" "fmt" "sort" "github.com/ipfs/go-cid" logging "github.com/ipfs/go-log" ) var log = logging.Logger("types") type TipSet struct { cids []cid.Cid blks []*BlockHeader height uint64 } // why didnt i just export the fields? Because the struct has methods with the // same names already type expTipSet struct { Cids []cid.Cid Blocks []*BlockHeader Height uint64 } func (ts *TipSet) MarshalJSON() ([]byte, error) { return json.Marshal(expTipSet{ Cids: ts.cids, Blocks: ts.blks, Height: ts.height, }) } func (ts *TipSet) UnmarshalJSON(b []byte) error { var ets expTipSet if err := json.Unmarshal(b, &ets); err != nil { return err } ots, err := NewTipSet(ets.Blocks) if err != nil { return err } *ts = *ots return nil } func tipsetSortFunc(blks []*BlockHeader) func(i, j int) bool { return func(i, j int) bool { ti := blks[i].LastTicket() tj := blks[j].LastTicket() if ti.Equals(tj) { log.Warnf("blocks have same ticket (%s %s)", blks[i].Miner, blks[j].Miner) return blks[i].Cid().KeyString() < blks[j].Cid().KeyString() } return ti.Less(tj) } } func NewTipSet(blks []*BlockHeader) (*TipSet, error) { sort.Slice(blks, tipsetSortFunc(blks)) var ts TipSet ts.cids = []cid.Cid{blks[0].Cid()} ts.blks = blks for _, b := range blks[1:] { if b.Height != blks[0].Height { return nil, fmt.Errorf("cannot create tipset with mismatching heights") } ts.cids = append(ts.cids, b.Cid()) } ts.height = blks[0].Height return &ts, nil } func (ts *TipSet) Cids() []cid.Cid { return ts.cids } func (ts *TipSet) Height() uint64 { return ts.height } func (ts *TipSet) Weight() BigInt { // TODO: implement correctly log.Warn("Called TipSet.Weight: TODO: correct implementation") return BigAdd(ts.blks[0].ParentWeight, NewInt(1)) } func (ts *TipSet) Parents() []cid.Cid { return ts.blks[0].Parents } func (ts *TipSet) Blocks() []*BlockHeader { return ts.blks } func (ts *TipSet) Equals(ots *TipSet) bool { if ts == nil && ots == nil { return true } if ts == nil || ots == nil { return false } if len(ts.blks) != len(ots.blks) { return false } for i, b := range ts.blks { if b.Cid() != ots.blks[i].Cid() { return false } } return true } func (t *Ticket) Less(o *Ticket) bool { return bytes.Compare(t.VDFResult, o.VDFResult) < 0 } func (ts *TipSet) MinTicket() *Ticket { b := ts.MinTicketBlock() return b.Tickets[len(b.Tickets)-1] } func (ts *TipSet) MinTimestamp() uint64 { minTs := ts.Blocks()[0].Timestamp for _, bh := range ts.Blocks()[1:] { if bh.Timestamp < minTs { minTs = bh.Timestamp } } return minTs } func (ts *TipSet) MinTicketBlock() *BlockHeader { blks := ts.Blocks() min := blks[0] for _, b := range blks[1:] { if b.LastTicket().Less(min.LastTicket()) { min = b } } return min } func (ts *TipSet) ParentState() cid.Cid { return ts.blks[0].ParentStateRoot } func (ts *TipSet) Contains(oc cid.Cid) bool { for _, c := range ts.cids { if c == oc { return true } } return false }