package soju import ( "fmt" "strings" "time" "unicode" "unicode/utf8" "gopkg.in/irc.v3" "git.sr.ht/~emersion/soju/database" "git.sr.ht/~emersion/soju/xirc" ) // TODO: generalize and move helpers to the xirc package const maxSASLLength = 400 type userModes string func (ms userModes) Has(c byte) bool { return strings.IndexByte(string(ms), c) >= 0 } func (ms *userModes) Add(c byte) { if !ms.Has(c) { *ms += userModes(c) } } func (ms *userModes) Del(c byte) { i := strings.IndexByte(string(*ms), c) if i >= 0 { *ms = (*ms)[:i] + (*ms)[i+1:] } } func (ms *userModes) Apply(s string) error { var plusMinus byte for i := 0; i < len(s); i++ { switch c := s[i]; c { case '+', '-': plusMinus = c default: switch plusMinus { case '+': ms.Add(c) case '-': ms.Del(c) default: return fmt.Errorf("malformed modestring %q: missing plus/minus", s) } } } return nil } type channelModeType byte // standard channel mode types, as explained in https://modern.ircdocs.horse/#mode-message const ( // modes that add or remove an address to or from a list modeTypeA channelModeType = iota // modes that change a setting on a channel, and must always have a parameter modeTypeB // modes that change a setting on a channel, and must have a parameter when being set, and no parameter when being unset modeTypeC // modes that change a setting on a channel, and must not have a parameter modeTypeD ) var stdChannelModes = map[byte]channelModeType{ 'b': modeTypeA, // ban list 'e': modeTypeA, // ban exception list 'I': modeTypeA, // invite exception list 'k': modeTypeB, // channel key 'l': modeTypeC, // channel user limit 'i': modeTypeD, // channel is invite-only 'm': modeTypeD, // channel is moderated 'n': modeTypeD, // channel has no external messages 's': modeTypeD, // channel is secret 't': modeTypeD, // channel has protected topic } type channelModes map[byte]string // applyChannelModes parses a mode string and mode arguments from a MODE message, // and applies the corresponding channel mode and user membership changes on that channel. // // If ch.modes is nil, channel modes are not updated. // // needMarshaling is a list of indexes of mode arguments that represent entities // that must be marshaled when sent downstream. func applyChannelModes(ch *upstreamChannel, modeStr string, arguments []string) (needMarshaling map[int]struct{}, err error) { needMarshaling = make(map[int]struct{}, len(arguments)) nextArgument := 0 var plusMinus byte outer: for i := 0; i < len(modeStr); i++ { mode := modeStr[i] if mode == '+' || mode == '-' { plusMinus = mode continue } if plusMinus != '+' && plusMinus != '-' { return nil, fmt.Errorf("malformed modestring %q: missing plus/minus", modeStr) } for _, membership := range ch.conn.availableMemberships { if membership.Mode == mode { if nextArgument >= len(arguments) { return nil, fmt.Errorf("malformed modestring %q: missing mode argument for %c%c", modeStr, plusMinus, mode) } member := arguments[nextArgument] m := ch.Members.Value(member) if m != nil { if plusMinus == '+' { m.Add(ch.conn.availableMemberships, membership) } else { // TODO: for upstreams without multi-prefix, query the user modes again m.Remove(membership) } } needMarshaling[nextArgument] = struct{}{} nextArgument++ continue outer } } mt, ok := ch.conn.availableChannelModes[mode] if !ok { continue } if mt == modeTypeA { nextArgument++ } else if mt == modeTypeB || (mt == modeTypeC && plusMinus == '+') { if plusMinus == '+' { var argument string // some sentitive arguments (such as channel keys) can be omitted for privacy // (this will only happen for RPL_CHANNELMODEIS, never for MODE messages) if nextArgument < len(arguments) { argument = arguments[nextArgument] } if ch.modes != nil { ch.modes[mode] = argument } } else { delete(ch.modes, mode) } nextArgument++ } else if mt == modeTypeC || mt == modeTypeD { if plusMinus == '+' { if ch.modes != nil { ch.modes[mode] = "" } } else { delete(ch.modes, mode) } } } return needMarshaling, nil } func (cm channelModes) Format() (modeString string, parameters []string) { var modesWithValues strings.Builder var modesWithoutValues strings.Builder parameters = make([]string, 0, 16) for mode, value := range cm { if value != "" { modesWithValues.WriteString(string(mode)) parameters = append(parameters, value) } else { modesWithoutValues.WriteString(string(mode)) } } modeString = "+" + modesWithValues.String() + modesWithoutValues.String() return } const stdChannelTypes = "#&+!" type membership struct { Mode byte Prefix byte } var stdMemberships = []membership{ {'q', '~'}, // founder {'a', '&'}, // protected {'o', '@'}, // operator {'h', '%'}, // halfop {'v', '+'}, // voice } // memberships always sorted by descending membership rank type memberships []membership func (m *memberships) Add(availableMemberships []membership, newMembership membership) { l := *m i := 0 for _, availableMembership := range availableMemberships { if i >= len(l) { break } if l[i] == availableMembership { if availableMembership == newMembership { // we already have this membership return } i++ continue } if availableMembership == newMembership { break } } // insert newMembership at i l = append(l, membership{}) copy(l[i+1:], l[i:]) l[i] = newMembership *m = l } func (m *memberships) Remove(oldMembership membership) { l := *m for i, currentMembership := range l { if currentMembership == oldMembership { *m = append(l[:i], l[i+1:]...) return } } } func (m memberships) Format(dc *downstreamConn) string { if !dc.caps.IsEnabled("multi-prefix") { if len(m) == 0 { return "" } return string(m[0].Prefix) } prefixes := make([]byte, len(m)) for i, membership := range m { prefixes[i] = membership.Prefix } return string(prefixes) } func parseMessageParams(msg *irc.Message, out ...*string) error { if len(msg.Params) < len(out) { return newNeedMoreParamsError(msg.Command) } for i := range out { if out[i] != nil { *out[i] = msg.Params[i] } } return nil } func copyClientTags(tags irc.Tags) irc.Tags { t := make(irc.Tags, len(tags)) for k, v := range tags { if strings.HasPrefix(k, "+") { t[k] = v } } return t } type batch struct { Type string Params []string Outer *batch // if not-nil, this batch is nested in Outer Label string } type casemapping func(string) string func casemapNone(name string) string { return name } // CasemapASCII of name is the canonical representation of name according to the // ascii casemapping. func casemapASCII(name string) string { nameBytes := []byte(name) for i, r := range nameBytes { if 'A' <= r && r <= 'Z' { nameBytes[i] = r + 'a' - 'A' } } return string(nameBytes) } // casemapRFC1459 of name is the canonical representation of name according to the // rfc1459 casemapping. func casemapRFC1459(name string) string { nameBytes := []byte(name) for i, r := range nameBytes { if 'A' <= r && r <= 'Z' { nameBytes[i] = r + 'a' - 'A' } else if r == '{' { nameBytes[i] = '[' } else if r == '}' { nameBytes[i] = ']' } else if r == '\\' { nameBytes[i] = '|' } else if r == '~' { nameBytes[i] = '^' } } return string(nameBytes) } // casemapRFC1459Strict of name is the canonical representation of name // according to the rfc1459-strict casemapping. func casemapRFC1459Strict(name string) string { nameBytes := []byte(name) for i, r := range nameBytes { if 'A' <= r && r <= 'Z' { nameBytes[i] = r + 'a' - 'A' } else if r == '{' { nameBytes[i] = '[' } else if r == '}' { nameBytes[i] = ']' } else if r == '\\' { nameBytes[i] = '|' } } return string(nameBytes) } func parseCasemappingToken(tokenValue string) (casemap casemapping, ok bool) { switch tokenValue { case "ascii": casemap = casemapASCII case "rfc1459": casemap = casemapRFC1459 case "rfc1459-strict": casemap = casemapRFC1459Strict default: return nil, false } return casemap, true } func partialCasemap(higher casemapping, name string) string { nameFullyCM := []byte(higher(name)) nameBytes := []byte(name) for i, r := range nameBytes { if !('A' <= r && r <= 'Z') && !('a' <= r && r <= 'z') { nameBytes[i] = nameFullyCM[i] } } return string(nameBytes) } type casemapMap struct { innerMap map[string]casemapEntry casemap casemapping } type casemapEntry struct { originalKey string value interface{} } func newCasemapMap(size int) casemapMap { return casemapMap{ innerMap: make(map[string]casemapEntry, size), casemap: casemapNone, } } func (cm *casemapMap) OriginalKey(name string) (key string, ok bool) { entry, ok := cm.innerMap[cm.casemap(name)] if !ok { return "", false } return entry.originalKey, true } func (cm *casemapMap) Has(name string) bool { _, ok := cm.innerMap[cm.casemap(name)] return ok } func (cm *casemapMap) Len() int { return len(cm.innerMap) } func (cm *casemapMap) SetValue(name string, value interface{}) { nameCM := cm.casemap(name) entry, ok := cm.innerMap[nameCM] if !ok { cm.innerMap[nameCM] = casemapEntry{ originalKey: name, value: value, } return } entry.value = value cm.innerMap[nameCM] = entry } func (cm *casemapMap) Delete(name string) { delete(cm.innerMap, cm.casemap(name)) } func (cm *casemapMap) SetCasemapping(newCasemap casemapping) { cm.casemap = newCasemap newInnerMap := make(map[string]casemapEntry, len(cm.innerMap)) for _, entry := range cm.innerMap { newInnerMap[cm.casemap(entry.originalKey)] = entry } cm.innerMap = newInnerMap } type upstreamChannelCasemapMap struct{ casemapMap } func (cm *upstreamChannelCasemapMap) Value(name string) *upstreamChannel { entry, ok := cm.innerMap[cm.casemap(name)] if !ok { return nil } return entry.value.(*upstreamChannel) } type channelCasemapMap struct{ casemapMap } func (cm *channelCasemapMap) Value(name string) *database.Channel { entry, ok := cm.innerMap[cm.casemap(name)] if !ok { return nil } return entry.value.(*database.Channel) } type membershipsCasemapMap struct{ casemapMap } func (cm *membershipsCasemapMap) Value(name string) *memberships { entry, ok := cm.innerMap[cm.casemap(name)] if !ok { return nil } return entry.value.(*memberships) } type deliveredCasemapMap struct{ casemapMap } func (cm *deliveredCasemapMap) Value(name string) deliveredClientMap { entry, ok := cm.innerMap[cm.casemap(name)] if !ok { return nil } return entry.value.(deliveredClientMap) } type monitorCasemapMap struct{ casemapMap } func (cm *monitorCasemapMap) Value(name string) (online bool) { entry, ok := cm.innerMap[cm.casemap(name)] if !ok { return false } return entry.value.(bool) } func isWordBoundary(r rune) bool { switch r { case '-', '_', '|': // inspired from weechat.look.highlight_regex return false default: return !unicode.IsLetter(r) && !unicode.IsNumber(r) } } func isHighlight(text, nick string) bool { for { i := strings.Index(text, nick) if i < 0 { return false } left, _ := utf8.DecodeLastRuneInString(text[:i]) right, _ := utf8.DecodeRuneInString(text[i+len(nick):]) if isWordBoundary(left) && isWordBoundary(right) { return true } text = text[i+len(nick):] } } // parseChatHistoryBound parses the given CHATHISTORY parameter as a bound. // The zero time is returned on error. func parseChatHistoryBound(param string) time.Time { parts := strings.SplitN(param, "=", 2) if len(parts) != 2 { return time.Time{} } switch parts[0] { case "timestamp": timestamp, err := time.Parse(xirc.ServerTimeLayout, parts[1]) if err != nil { return time.Time{} } return timestamp default: return time.Time{} } } // whoxFields is the list of all WHOX field letters, by order of appearance in // RPL_WHOSPCRPL messages. var whoxFields = []byte("tcuihsnfdlaor") type whoxInfo struct { Token string Username string Hostname string Server string Nickname string Flags string Account string Realname string } func (info *whoxInfo) get(field byte) string { switch field { case 't': return info.Token case 'c': return "*" case 'u': return info.Username case 'i': return "255.255.255.255" case 'h': return info.Hostname case 's': return info.Server case 'n': return info.Nickname case 'f': return info.Flags case 'd': return "0" case 'l': // idle time return "0" case 'a': account := "0" // WHOX uses "0" to mean "no account" if info.Account != "" && info.Account != "*" { account = info.Account } return account case 'o': return "0" case 'r': return info.Realname } return "" } func generateWHOXReply(prefix *irc.Prefix, nick, fields string, info *whoxInfo) *irc.Message { if fields == "" { return &irc.Message{ Prefix: prefix, Command: irc.RPL_WHOREPLY, Params: []string{nick, "*", info.Username, info.Hostname, info.Server, info.Nickname, info.Flags, "0 " + info.Realname}, } } fieldSet := make(map[byte]bool) for i := 0; i < len(fields); i++ { fieldSet[fields[i]] = true } var values []string for _, field := range whoxFields { if !fieldSet[field] { continue } values = append(values, info.get(field)) } return &irc.Message{ Prefix: prefix, Command: xirc.RPL_WHOSPCRPL, Params: append([]string{nick}, values...), } } type capRegistry struct { Available map[string]string Enabled map[string]struct{} } func newCapRegistry() capRegistry { return capRegistry{ Available: make(map[string]string), Enabled: make(map[string]struct{}), } } func (cr *capRegistry) IsAvailable(name string) bool { _, ok := cr.Available[name] return ok } func (cr *capRegistry) IsEnabled(name string) bool { _, ok := cr.Enabled[name] return ok } func (cr *capRegistry) Del(name string) { delete(cr.Available, name) delete(cr.Enabled, name) } func (cr *capRegistry) SetEnabled(name string, enabled bool) { if enabled { cr.Enabled[name] = struct{}{} } else { delete(cr.Enabled, name) } } func isNumeric(cmd string) bool { if len(cmd) != 3 { return false } for i := 0; i < 3; i++ { if cmd[i] < '0' || cmd[i] > '9' { return false } } return true }