package main import ( "fmt" "github.com/golang/protobuf/proto" "github.com/golang/snappy" "github.com/jordanorelli/hyperstone/bit" "github.com/jordanorelli/hyperstone/dota" "os" ) const ( sTableRingSize = 32 ) type stringTables struct { tables []stringTable idx map[string]*stringTable br *bit.BufReader scratch []byte } func (s *stringTables) String() string { if s.scratch == nil { return fmt.Sprintf("{%v %v %v nil}", s.tables, s.idx, s.br) } if len(s.scratch) > 32 { return fmt.Sprintf("{%v %v %v %x...}", s.tables, s.idx, s.br, s.scratch[:32]) } return fmt.Sprintf("{%v %v %v %x}", s.tables, s.idx, s.br, s.scratch) } func newStringTables() *stringTables { return &stringTables{ tables: make([]stringTable, 0, 64), idx: make(map[string]*stringTable, 64), br: new(bit.BufReader), scratch: make([]byte, 1<<16), } } type stringTable struct { name string entries []stringTableEntry byteSize int bitSize int // this is in the protobuf message but I don't know what it does. } func (s stringTable) String() string { return fmt.Sprintf("{%s %s}", s.name, s.entries) } func (t *stringTable) create(br *bit.BufReader, entries int) { t.entries = make([]stringTableEntry, entries) var ( base uint64 entry *stringTableEntry ) for i := range t.entries { entry = &t.entries[i] if i > 32 { base++ } // sequential index flag should always be true in create if !bit.ReadBool(br) { panic("weird") } // key flag if bit.ReadBool(br) { // backreading flag if bit.ReadBool(br) { entry.key = t.entries[base+br.ReadBits(5)].key[:br.ReadBits(5)] + bit.ReadString(br) } else { entry.key = bit.ReadString(br) } } // value flag if bit.ReadBool(br) { if t.byteSize != 0 { entry.value = make([]byte, t.byteSize) br.Read(entry.value) } else { size, _ := br.ReadBits(14), br.ReadBits(3) entry.value = make([]byte, size) br.Read(entry.value) } } } } type stringTableEntry struct { key string value []byte } func (s stringTableEntry) String() string { if s.value == nil { return fmt.Sprintf("{%s nil}", s.key) } if len(s.value) > 32 { return fmt.Sprintf("{%s %x}", s.key, s.value[:32]) } return fmt.Sprintf("{%s %x}", s.key, s.value) } func (s *stringTables) handle(m proto.Message) { switch v := m.(type) { case *dota.CSVCMsg_CreateStringTable: prettyPrint(m) s.handleCreate(v) // fmt.Println(s) case *dota.CSVCMsg_UpdateStringTable: prettyPrint(m) s.handleUpdate(v) case *dota.CSVCMsg_ClearAllStringTables: // prettyPrint(m) case *dota.CDemoStringTables: // prettyPrint(m) } } func (s *stringTables) handleCreate(m *dota.CSVCMsg_CreateStringTable) { fmt.Printf("create %s\n", m.GetName()) if m.GetUserDataFixedSize() { s.tables = append(s.tables, stringTable{name: m.GetName(), byteSize: int(m.GetUserDataSize()), bitSize: int(m.GetUserDataSizeBits())}) } else { s.tables = append(s.tables, stringTable{name: m.GetName()}) } s.idx[m.GetName()] = &s.tables[len(s.tables)-1] table := &s.tables[len(s.tables)-1] sd := m.GetStringData() if sd == nil || len(sd) == 0 { return } if m.GetDataCompressed() { switch string(sd[:4]) { case "LZSS": // TODO: not this panic("no lzss support!") default: var err error sd, err = snappy.Decode(s.scratch, sd) if err != nil { fmt.Fprintf(os.Stderr, "stringtable decode error: %v", err) return } } } s.br.SetSource(sd) table.create(s.br, int(m.GetNumEntries())) } func (s *stringTables) handleUpdate(m *dota.CSVCMsg_UpdateStringTable) { // hazard table := &s.tables[m.GetTableId()] s.br.SetSource(m.GetStringData()) fmt.Printf("update %s\n", table.name) table.update(s.br, int(m.GetNumChangedEntries())) } func (t *stringTable) update(br *bit.BufReader, changed int) { var ( idx = -1 entry *stringTableEntry ) h := newIntRing(32) for i := 0; i < changed; i++ { // sequential index flag should rarely be true in update if bit.ReadBool(br) { idx++ } else { idx = int(bit.ReadVarInt(br)) + 1 } h.add(idx) for idx > len(t.entries)-1 { t.entries = append(t.entries, stringTableEntry{}) } entry = &t.entries[idx] fmt.Printf("%s -> ", entry) // key flag if bit.ReadBool(br) { // backreading flag if bit.ReadBool(br) { prev, pLen := h.at(int(br.ReadBits(5))), int(br.ReadBits(5)) if prev < len(t.entries) { prevEntry := &t.entries[prev] entry.key = prevEntry.key[:pLen] + bit.ReadString(br) } else { panic("backread error") } } else { entry.key = bit.ReadString(br) } } // value flag if bit.ReadBool(br) { if t.byteSize != 0 { if entry.value == nil { entry.value = make([]byte, t.byteSize) } } else { size, _ := int(br.ReadBits(14)), br.ReadBits(3) if len(entry.value) < size { entry.value = make([]byte, size) } else { entry.value = entry.value[:size] } } br.Read(entry.value) } fmt.Printf("%s\n", entry) } }