package controller import ( "errors" "fmt" "math" "strconv" "strings" ) const defaultSearchOutput = outputObjects var errInvalidNumberOfArguments = errors.New("invalid number of arguments") var errKeyNotFound = errors.New("key not found") var errIDNotFound = errors.New("id not found") func errInvalidArgument(arg string) error { return fmt.Errorf("invalid argument '%s'", arg) } func errDuplicateArgument(arg string) error { return fmt.Errorf("duplicate argument '%s'", arg) } func token(line string) (newLine, token string) { for i := 0; i < len(line); i++ { if line[i] == ' ' { return line[i+1:], line[:i] } } return "", line } func tokenlc(line string) (newLine, token string) { for i := 0; i < len(line); i++ { ch := line[i] if ch == ' ' { return line[i+1:], line[:i] } if ch >= 'A' && ch <= 'Z' { lc := make([]byte, 0, 16) if i > 0 { lc = append(lc, []byte(line[:i])...) } lc = append(lc, ch+32) i++ for ; i < len(line); i++ { ch = line[i] if ch == ' ' { return line[i+1:], string(lc) } if ch >= 'A' && ch <= 'Z' { lc = append(lc, ch+32) } else { lc = append(lc, ch) } } return "", string(lc) } } return "", line } func lc(s1, s2 string) bool { if len(s1) != len(s2) { return false } for i := 0; i < len(s1); i++ { ch := s1[i] if ch >= 'A' && ch <= 'Z' { if ch+32 != s2[i] { return false } } else if ch != s2[i] { return false } } return true } type whereT struct { field string minx bool min float64 maxx bool max float64 } func (where whereT) match(value float64) bool { if !where.minx { if value < where.min { return false } } else { if value <= where.min { return false } } if !where.maxx { if value > where.max { return false } } else { if value >= where.max { return false } } return true } type searchScanBaseTokens struct { key string cursor uint64 output outputT precision uint64 lineout string fence bool glob string wheres []whereT nofields bool limit uint64 sparse uint8 } func parseSearchScanBaseTokens(cmd, line string) (lineout string, t searchScanBaseTokens, err error) { if line, t.key = token(line); t.key == "" { err = errInvalidNumberOfArguments return } var slimit string var ssparse string var scursor string for { nline, wtok := token(line) if len(wtok) > 0 { if (wtok[0] == 'C' || wtok[0] == 'c') && strings.ToLower(wtok) == "cursor" { line = nline if scursor != "" { err = errDuplicateArgument(strings.ToUpper(wtok)) return } if line, scursor = token(line); scursor == "" { err = errInvalidNumberOfArguments return } continue } else if (wtok[0] == 'W' || wtok[0] == 'w') && strings.ToLower(wtok) == "where" { line = nline var field, smin, smax string if line, field = token(line); field == "" { err = errInvalidNumberOfArguments return } if line, smin = token(line); smin == "" { err = errInvalidNumberOfArguments return } if line, smax = token(line); smax == "" { err = errInvalidNumberOfArguments return } var minx, maxx bool var min, max float64 if strings.ToLower(smin) == "-inf" { min = math.Inf(-1) } else { if strings.HasPrefix(smin, "(") { minx = true smin = smin[1:] } min, err = strconv.ParseFloat(smin, 64) if err != nil { err = errInvalidArgument(smin) return } } if strings.ToLower(smax) == "+inf" { max = math.Inf(+1) } else { if strings.HasPrefix(smax, "(") { maxx = true smax = smax[1:] } max, err = strconv.ParseFloat(smax, 64) if err != nil { err = errInvalidArgument(smax) return } } t.wheres = append(t.wheres, whereT{field, minx, min, maxx, max}) continue } else if (wtok[0] == 'N' || wtok[0] == 'n') && strings.ToLower(wtok) == "nofields" { line = nline if t.nofields { err = errDuplicateArgument(strings.ToUpper(wtok)) return } t.nofields = true continue } else if (wtok[0] == 'L' || wtok[0] == 'l') && strings.ToLower(wtok) == "limit" { line = nline if slimit != "" { err = errDuplicateArgument(strings.ToUpper(wtok)) return } if line, slimit = token(line); slimit == "" { err = errInvalidNumberOfArguments return } continue } else if (wtok[0] == 'S' || wtok[0] == 's') && strings.ToLower(wtok) == "sparse" { line = nline if ssparse != "" { err = errDuplicateArgument(strings.ToUpper(wtok)) return } if line, ssparse = token(line); ssparse == "" { err = errInvalidNumberOfArguments return } continue } else if (wtok[0] == 'F' || wtok[0] == 'f') && strings.ToLower(wtok) == "fence" { line = nline if t.fence { err = errDuplicateArgument(strings.ToUpper(wtok)) return } t.fence = true continue } else if (wtok[0] == 'M' || wtok[0] == 'm') && strings.ToLower(wtok) == "match" { line = nline if t.glob != "" { err = errDuplicateArgument(strings.ToUpper(wtok)) return } if line, t.glob = token(line); t.glob == "" { err = errInvalidNumberOfArguments return } continue } } break } // check to make sure that there aren't any conflicts if cmd == "scan" { if ssparse != "" { err = errors.New("SPARSE is not allowed for SCAN") return } if t.fence { err = errors.New("FENCE is not allowed for SCAN") return } } if ssparse != "" && slimit != "" { err = errors.New("LIMIT is not allowed when SPARSE is specified") return } if scursor != "" && ssparse != "" { err = errors.New("CURSOR is not allowed when SPARSE is specified") return } if scursor != "" && t.fence { err = errors.New("CURSOR is not allowed when FENCE is specified") return } t.output = defaultSearchOutput var nline string var sprecision string var which string if nline, which = token(line); which != "" { updline := true switch strings.ToLower(which) { default: if cmd == "scan" { err = errInvalidArgument(which) return } updline = false case "count": t.output = outputCount case "objects": t.output = outputObjects case "points": t.output = outputPoints case "hashes": t.output = outputHashes if nline, sprecision = token(nline); sprecision == "" { err = errInvalidNumberOfArguments return } case "bounds": t.output = outputBounds case "ids": t.output = outputIDs } if updline { line = nline } } if scursor != "" { if t.cursor, err = strconv.ParseUint(scursor, 10, 64); err != nil { err = errInvalidArgument(scursor) return } } if sprecision != "" { if t.precision, err = strconv.ParseUint(sprecision, 10, 64); err != nil || t.precision == 0 || t.precision > 64 { err = errInvalidArgument(sprecision) return } } if slimit != "" { if t.limit, err = strconv.ParseUint(slimit, 10, 64); err != nil || t.limit == 0 { err = errInvalidArgument(slimit) return } } if ssparse != "" { var sparse uint64 if sparse, err = strconv.ParseUint(ssparse, 10, 8); err != nil || sparse == 0 || sparse > 8 { err = errInvalidArgument(ssparse) return } t.sparse = uint8(sparse) t.limit = math.MaxUint64 } lineout = line return }