soju/service.go

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package soju
import (
"context"
"crypto/sha1"
"crypto/sha256"
"crypto/sha512"
"encoding/hex"
"flag"
"fmt"
"io/ioutil"
"sort"
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"strconv"
"strings"
"time"
"unicode"
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"gopkg.in/irc.v4"
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"git.sr.ht/~emersion/soju/database"
)
const serviceNick = "BouncerServ"
Implement casemapping TL;DR: supports for casemapping, now logs are saved in casemapped/canonical/tolower form (eg. in the #channel directory instead of #Channel... or something) == What is casemapping? == see <https://modern.ircdocs.horse/#casemapping-parameter> == Casemapping and multi-upstream == Since each upstream does not necessarily use the same casemapping, and since casemappings cannot coexist [0], 1. soju must also update the database accordingly to upstreams' casemapping, otherwise it will end up inconsistent, 2. soju must "normalize" entity names and expose only one casemapping that is a subset of all supported casemappings (here, ascii). [0] On some upstreams, "emersion[m]" and "emersion{m}" refer to the same user (upstreams that advertise rfc1459 for example), while on others (upstreams that advertise ascii) they don't. Once upstream's casemapping is known (default to rfc1459), entity names in map keys are made into casemapped form, for upstreamConn, upstreamChannel and network. downstreamConn advertises "CASEMAPPING=ascii", and always casemap map keys with ascii. Some functions require the caller to casemap their argument (to avoid needless calls to casemapping functions). == Message forwarding and casemapping == downstream message handling (joins and parts basically): When relaying entity names from downstreams to upstreams, soju uses the upstream casemapping, in order to not get in the way of the user. This does not brings any issue, as long as soju replies with the ascii casemapping in mind (solves point 1.). marshalEntity/marshalUserPrefix: When relaying entity names from upstreams with non-ascii casemappings, soju *partially* casemap them: it only change the case of characters which are not ascii letters. ASCII case is thus kept intact, while special symbols like []{} are the same every time soju sends them to downstreams (solves point 2.). == Casemapping changes == Casemapping changes are not fully supported by this patch and will result in loss of history. This is a limitation of the protocol and should be solved by the RENAME spec.
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const serviceNickCM = "bouncerserv"
const serviceRealname = "soju bouncer service"
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// maxRSABits is the maximum number of RSA key bits used when generating a new
// private key.
const maxRSABits = 8192
var servicePrefix = &irc.Prefix{
Name: serviceNick,
User: serviceNick,
Host: serviceNick,
}
type serviceContext struct {
context.Context
nick string // optional
network *network // optional
user *user // optional
srv *Server
admin bool
print func(string)
}
type serviceCommandSet map[string]*serviceCommand
type serviceCommand struct {
usage string
desc string
handle func(ctx *serviceContext, params []string) error
children serviceCommandSet
admin bool
global bool
}
func sendServiceNOTICE(dc *downstreamConn, text string) {
dc.SendMessage(context.TODO(), &irc.Message{
Prefix: servicePrefix,
Command: "NOTICE",
Params: []string{dc.nick, text},
})
}
func sendServicePRIVMSG(dc *downstreamConn, text string) {
dc.SendMessage(context.TODO(), &irc.Message{
Prefix: servicePrefix,
Command: "PRIVMSG",
Params: []string{dc.nick, text},
})
}
func splitWords(s string) ([]string, error) {
var words []string
var lastWord strings.Builder
escape := false
prev := ' '
wordDelim := ' '
for _, r := range s {
if escape {
// last char was a backslash, write the byte as-is.
lastWord.WriteRune(r)
escape = false
} else if r == '\\' {
escape = true
} else if wordDelim == ' ' && unicode.IsSpace(r) {
// end of last word
if !unicode.IsSpace(prev) {
words = append(words, lastWord.String())
lastWord.Reset()
}
} else if r == wordDelim {
// wordDelim is either " or ', switch back to
// space-delimited words.
wordDelim = ' '
} else if r == '"' || r == '\'' {
if wordDelim == ' ' {
// start of (double-)quoted word
wordDelim = r
} else {
// either wordDelim is " and r is ' or vice-versa
lastWord.WriteRune(r)
}
} else {
lastWord.WriteRune(r)
}
prev = r
}
if !unicode.IsSpace(prev) {
words = append(words, lastWord.String())
}
if wordDelim != ' ' {
return nil, fmt.Errorf("unterminated quoted string")
}
if escape {
return nil, fmt.Errorf("unterminated backslash sequence")
}
return words, nil
}
func handleServicePRIVMSG(ctx *serviceContext, text string) error {
words, err := splitWords(text)
if err != nil {
return fmt.Errorf(`failed to parse command: %v`, err)
}
return handleServiceCommand(ctx, words)
}
func handleServiceCommand(ctx *serviceContext, words []string) error {
cmd, params, err := serviceCommands.Get(words)
if err != nil {
return fmt.Errorf(`%v (type "help" for a list of commands)`, err)
}
if cmd.admin && !ctx.admin {
return fmt.Errorf("you must be an admin to use this command")
}
if !cmd.global && ctx.user == nil {
return fmt.Errorf("this command must be run as a user (try running with user run)")
}
if cmd.handle == nil {
if len(cmd.children) > 0 {
var l []string
appendServiceCommandSetHelp(cmd.children, words, ctx.admin, ctx.user == nil, &l)
ctx.print("available commands: " + strings.Join(l, ", "))
return nil
}
// Pretend the command does not exist if it has neither children nor handler.
// This is obviously a bug but it is better to not die anyway.
var logger Logger
if ctx.user != nil {
logger = ctx.user.logger
} else {
logger = ctx.srv.Logger
}
logger.Printf("command without handler and subcommands invoked:", words[0])
return fmt.Errorf("command %q not found", words[0])
}
return cmd.handle(ctx, params)
}
func (cmds serviceCommandSet) Get(params []string) (*serviceCommand, []string, error) {
if len(params) == 0 {
return nil, nil, fmt.Errorf("no command specified")
}
name := params[0]
params = params[1:]
cmd, ok := cmds[name]
if !ok {
for k := range cmds {
if !strings.HasPrefix(k, name) {
continue
}
if cmd != nil {
return nil, params, fmt.Errorf("command %q is ambiguous", name)
}
cmd = cmds[k]
}
}
if cmd == nil {
return nil, params, fmt.Errorf("command %q not found", name)
}
if len(params) == 0 || len(cmd.children) == 0 {
return cmd, params, nil
}
return cmd.children.Get(params)
}
func (cmds serviceCommandSet) Names() []string {
l := make([]string, 0, len(cmds))
for name := range cmds {
l = append(l, name)
}
sort.Strings(l)
return l
}
var serviceCommands serviceCommandSet
func init() {
serviceCommands = serviceCommandSet{
"help": {
usage: "[command]",
desc: "print help message",
handle: handleServiceHelp,
global: true,
},
"network": {
children: serviceCommandSet{
"create": {
usage: "-addr <addr> [-name name] [-username username] [-pass pass] [-realname realname] [-certfp fingerprint] [-nick nick] [-auto-away auto-away] [-enabled enabled] [-connect-command command]...",
desc: "add a new network",
handle: handleServiceNetworkCreate,
},
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"status": {
desc: "show a list of saved networks and their current status",
handle: handleServiceNetworkStatus,
},
"update": {
usage: "[name] [-addr addr] [-name name] [-username username] [-pass pass] [-realname realname] [-certfp fingerprint] [-nick nick] [-auto-away auto-away] [-enabled enabled] [-connect-command command]...",
desc: "update a network",
handle: handleServiceNetworkUpdate,
},
"delete": {
usage: "[name]",
desc: "delete a network",
handle: handleServiceNetworkDelete,
},
"quote": {
usage: "[name] <command>",
desc: "send a raw line to a network",
handle: handleServiceNetworkQuote,
},
},
},
"certfp": {
children: serviceCommandSet{
"generate": {
usage: "[-key-type rsa|ecdsa|ed25519] [-bits N] [-network name]",
desc: "generate a new self-signed certificate, defaults to using RSA-3072 key",
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handle: handleServiceCertFPGenerate,
},
"fingerprint": {
usage: "[-network name]",
desc: "show fingerprints of certificate",
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handle: handleServiceCertFPFingerprints,
},
},
},
"sasl": {
children: serviceCommandSet{
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"status": {
usage: "[-network name]",
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desc: "show SASL status",
handle: handleServiceSASLStatus,
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},
"set-plain": {
usage: "[-network name] <username> <password>",
desc: "set SASL PLAIN credentials",
handle: handleServiceSASLSetPlain,
},
"reset": {
usage: "[-network name]",
desc: "disable SASL authentication and remove stored credentials",
handle: handleServiceSASLReset,
},
},
},
"user": {
children: serviceCommandSet{
"status": {
desc: "show a list of users and their current status",
handle: handleUserStatus,
admin: true,
global: true,
},
"create": {
usage: "-username <username> -password <password> [-disable-password] [-admin true|false] [-nick <nick>] [-realname <realname>] [-enabled true|false]",
desc: "create a new soju user",
handle: handleUserCreate,
admin: true,
global: true,
},
"update": {
usage: "[username] [-password <password>] [-disable-password] [-admin true|false] [-nick <nick>] [-realname <realname>] [-enabled true|false]",
desc: "update a user",
handle: handleUserUpdate,
global: true,
},
"delete": {
usage: "<username> [confirmation token]",
desc: "delete a user",
handle: handleUserDelete,
global: true,
},
"run": {
usage: "<username> <command>",
desc: "run a command as another user",
handle: handleUserRun,
admin: true,
global: true,
},
},
global: true,
},
"channel": {
children: serviceCommandSet{
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"status": {
usage: "[-network name]",
desc: "show a list of saved channels and their current status",
handle: handleServiceChannelStatus,
},
"update": {
usage: "<name> [-detached <true|false>] [-relay-detached <default|none|highlight|message>] [-reattach-on <default|none|highlight|message>] [-detach-after <duration>] [-detach-on <default|none|highlight|message>]",
desc: "update a channel",
handle: handleServiceChannelUpdate,
},
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"delete": {
usage: "<name>",
desc: "delete a channel",
handle: handleServiceChannelDelete,
},
},
},
"server": {
children: serviceCommandSet{
"status": {
desc: "show server statistics",
handle: handleServiceServerStatus,
admin: true,
global: true,
},
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"notice": {
usage: "<notice>",
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desc: "broadcast a notice to all connected bouncer users",
handle: handleServiceServerNotice,
admin: true,
global: true,
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},
},
admin: true,
},
}
}
func appendServiceCommandSetHelp(cmds serviceCommandSet, prefix []string, admin bool, global bool, l *[]string) {
for _, name := range cmds.Names() {
cmd := cmds[name]
if cmd.admin && !admin {
continue
}
if !cmd.global && global {
continue
}
words := append(prefix, name)
if len(cmd.children) == 0 {
s := strings.Join(words, " ")
*l = append(*l, s)
} else {
appendServiceCommandSetHelp(cmd.children, words, admin, global, l)
}
}
}
func handleServiceHelp(ctx *serviceContext, params []string) error {
if len(params) > 0 {
cmd, rest, err := serviceCommands.Get(params)
if err != nil {
return err
}
words := params[:len(params)-len(rest)]
if len(cmd.children) > 0 {
var l []string
appendServiceCommandSetHelp(cmd.children, words, ctx.admin, ctx.user == nil, &l)
ctx.print("available commands: " + strings.Join(l, ", "))
} else {
text := strings.Join(words, " ")
if cmd.usage != "" {
text += " " + cmd.usage
}
text += ": " + cmd.desc
ctx.print(text)
}
} else {
var l []string
appendServiceCommandSetHelp(serviceCommands, nil, ctx.admin, ctx.user == nil, &l)
ctx.print("available commands: " + strings.Join(l, ", "))
}
return nil
}
func newFlagSet() *flag.FlagSet {
fs := flag.NewFlagSet("", flag.ContinueOnError)
fs.SetOutput(ioutil.Discard)
return fs
}
type stringSliceFlag []string
func (v *stringSliceFlag) String() string {
return fmt.Sprint([]string(*v))
}
func (v *stringSliceFlag) Set(s string) error {
*v = append(*v, s)
return nil
}
// stringPtrFlag is a flag value populating a string pointer. This allows to
// disambiguate between a flag that hasn't been set and a flag that has been
// set to an empty string.
type stringPtrFlag struct {
ptr **string
}
func (f stringPtrFlag) String() string {
if f.ptr == nil || *f.ptr == nil {
return ""
}
return **f.ptr
}
func (f stringPtrFlag) Set(s string) error {
*f.ptr = &s
return nil
}
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type boolPtrFlag struct {
ptr **bool
}
func (f boolPtrFlag) String() string {
if f.ptr == nil || *f.ptr == nil {
return "<nil>"
}
return strconv.FormatBool(**f.ptr)
}
func (f boolPtrFlag) Set(s string) error {
v, err := strconv.ParseBool(s)
if err != nil {
return err
}
*f.ptr = &v
return nil
}
func getNetworkFromArg(ctx *serviceContext, params []string) (*network, []string, error) {
name, params := popArg(params)
if name == "" {
if ctx.network == nil {
return nil, params, fmt.Errorf("no network selected, a name argument is required")
}
return ctx.network, params, nil
} else {
net := ctx.user.getNetwork(name)
if net == nil {
return nil, params, fmt.Errorf("unknown network %q", name)
}
return net, params, nil
}
}
type networkFlagSet struct {
*flag.FlagSet
Addr, Name, Nick, Username, Pass, Realname, CertFP *string
AutoAway, Enabled *bool
ConnectCommands []string
}
func newNetworkFlagSet() *networkFlagSet {
fs := &networkFlagSet{FlagSet: newFlagSet()}
fs.Var(stringPtrFlag{&fs.Addr}, "addr", "")
fs.Var(stringPtrFlag{&fs.Name}, "name", "")
fs.Var(stringPtrFlag{&fs.Nick}, "nick", "")
fs.Var(stringPtrFlag{&fs.Username}, "username", "")
fs.Var(stringPtrFlag{&fs.Pass}, "pass", "")
fs.Var(stringPtrFlag{&fs.Realname}, "realname", "")
fs.Var(stringPtrFlag{&fs.CertFP}, "certfp", "")
fs.Var(boolPtrFlag{&fs.AutoAway}, "auto-away", "")
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fs.Var(boolPtrFlag{&fs.Enabled}, "enabled", "")
fs.Var((*stringSliceFlag)(&fs.ConnectCommands), "connect-command", "")
return fs
}
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func (fs *networkFlagSet) update(network *database.Network) error {
if fs.Addr != nil {
if addrParts := strings.SplitN(*fs.Addr, "://", 2); len(addrParts) == 2 {
scheme := addrParts[0]
switch scheme {
case "ircs", "irc+insecure", "unix":
default:
return fmt.Errorf("unknown scheme %q (supported schemes: ircs, irc+insecure, unix)", scheme)
}
}
network.Addr = *fs.Addr
}
if fs.Name != nil {
if *fs.Name == "*" {
return fmt.Errorf("the network name %q is reserved for multi-upstream mode", *fs.Name)
}
network.Name = *fs.Name
}
if fs.Nick != nil {
network.Nick = *fs.Nick
}
if fs.Username != nil {
network.Username = *fs.Username
}
if fs.Pass != nil {
network.Pass = *fs.Pass
}
if fs.Realname != nil {
network.Realname = *fs.Realname
}
if fs.CertFP != nil {
certFP := strings.ToLower(strings.ReplaceAll(*fs.CertFP, ":", ""))
if _, err := hex.DecodeString(certFP); err != nil {
return fmt.Errorf("the certificate fingerprint must be hex-encoded")
}
if len(certFP) == 0 {
network.CertFP = ""
} else if len(certFP) == 64 {
network.CertFP = "sha-256:" + certFP
} else if len(certFP) == 128 {
network.CertFP = "sha-512:" + certFP
} else {
return fmt.Errorf("the certificate fingerprint must be a SHA256 or SHA512 hash")
}
}
if fs.AutoAway != nil {
network.AutoAway = *fs.AutoAway
}
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if fs.Enabled != nil {
network.Enabled = *fs.Enabled
}
if fs.ConnectCommands != nil {
if len(fs.ConnectCommands) == 1 && fs.ConnectCommands[0] == "" {
network.ConnectCommands = nil
} else {
if len(fs.ConnectCommands) > 20 {
return fmt.Errorf("too many -connect-command flags supplied")
}
for _, command := range fs.ConnectCommands {
_, err := irc.ParseMessage(command)
if err != nil {
return fmt.Errorf("flag -connect-command must be a valid raw irc command string: %q: %v", command, err)
}
}
network.ConnectCommands = fs.ConnectCommands
}
}
return nil
}
func handleServiceNetworkCreate(ctx *serviceContext, params []string) error {
fs := newNetworkFlagSet()
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
if fs.Addr == nil {
return fmt.Errorf("flag -addr is required")
}
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record := &database.Network{
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Addr: *fs.Addr,
Enabled: true,
}
if err := fs.update(record); err != nil {
return err
}
network, err := ctx.user.createNetwork(ctx, record)
if err != nil {
return fmt.Errorf("could not create network: %v", err)
}
ctx.print(fmt.Sprintf("created network %q", network.GetName()))
return nil
}
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func handleServiceNetworkStatus(ctx *serviceContext, params []string) error {
if len(params) != 0 {
return fmt.Errorf("expected no argument")
}
n := 0
for _, net := range ctx.user.networks {
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var statuses []string
var details string
if uc := net.conn; uc != nil {
if ctx.nick != "" && ctx.nick != uc.nick {
statuses = append(statuses, "connected as "+uc.nick)
} else {
statuses = append(statuses, "connected")
}
Implement casemapping TL;DR: supports for casemapping, now logs are saved in casemapped/canonical/tolower form (eg. in the #channel directory instead of #Channel... or something) == What is casemapping? == see <https://modern.ircdocs.horse/#casemapping-parameter> == Casemapping and multi-upstream == Since each upstream does not necessarily use the same casemapping, and since casemappings cannot coexist [0], 1. soju must also update the database accordingly to upstreams' casemapping, otherwise it will end up inconsistent, 2. soju must "normalize" entity names and expose only one casemapping that is a subset of all supported casemappings (here, ascii). [0] On some upstreams, "emersion[m]" and "emersion{m}" refer to the same user (upstreams that advertise rfc1459 for example), while on others (upstreams that advertise ascii) they don't. Once upstream's casemapping is known (default to rfc1459), entity names in map keys are made into casemapped form, for upstreamConn, upstreamChannel and network. downstreamConn advertises "CASEMAPPING=ascii", and always casemap map keys with ascii. Some functions require the caller to casemap their argument (to avoid needless calls to casemapping functions). == Message forwarding and casemapping == downstream message handling (joins and parts basically): When relaying entity names from downstreams to upstreams, soju uses the upstream casemapping, in order to not get in the way of the user. This does not brings any issue, as long as soju replies with the ascii casemapping in mind (solves point 1.). marshalEntity/marshalUserPrefix: When relaying entity names from upstreams with non-ascii casemappings, soju *partially* casemap them: it only change the case of characters which are not ascii letters. ASCII case is thus kept intact, while special symbols like []{} are the same every time soju sends them to downstreams (solves point 2.). == Casemapping changes == Casemapping changes are not fully supported by this patch and will result in loss of history. This is a limitation of the protocol and should be solved by the RENAME spec.
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details = fmt.Sprintf("%v channels", uc.channels.Len())
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} else if !net.Enabled {
statuses = append(statuses, "disabled")
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} else {
statuses = append(statuses, "disconnected")
if net.lastError != nil {
details = net.lastError.Error()
}
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}
if net == ctx.network {
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statuses = append(statuses, "current")
}
name := net.GetName()
if name != net.Addr {
name = fmt.Sprintf("%v (%v)", name, net.Addr)
}
s := fmt.Sprintf("%v [%v]", name, strings.Join(statuses, ", "))
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if details != "" {
s += ": " + details
}
ctx.print(s)
n++
}
if n == 0 {
ctx.print(`No network configured, add one with "network create".`)
}
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return nil
}
func handleServiceNetworkUpdate(ctx *serviceContext, params []string) error {
net, params, err := getNetworkFromArg(ctx, params)
if err != nil {
return err
}
fs := newNetworkFlagSet()
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
record := net.Network // copy network record because we'll mutate it
if err := fs.update(&record); err != nil {
return err
}
network, err := ctx.user.updateNetwork(ctx, &record)
if err != nil {
return fmt.Errorf("could not update network: %v", err)
}
ctx.print(fmt.Sprintf("updated network %q", network.GetName()))
return nil
}
func handleServiceNetworkDelete(ctx *serviceContext, params []string) error {
if len(params) != 1 {
return fmt.Errorf("expected exactly one argument")
}
net, params, err := getNetworkFromArg(ctx, params)
if err != nil {
return err
}
if err := ctx.user.deleteNetwork(ctx, net.ID); err != nil {
return err
}
ctx.print(fmt.Sprintf("deleted network %q", net.GetName()))
return nil
}
func handleServiceNetworkQuote(ctx *serviceContext, params []string) error {
if len(params) != 1 && len(params) != 2 {
return fmt.Errorf("expected one or two arguments")
}
raw := params[len(params)-1]
params = params[:len(params)-1]
net, params, err := getNetworkFromArg(ctx, params)
if err != nil {
return err
}
uc := net.conn
if uc == nil {
return fmt.Errorf("network %q is not currently connected", net.GetName())
}
m, err := irc.ParseMessage(raw)
if err != nil {
return fmt.Errorf("failed to parse command %q: %v", raw, err)
}
uc.SendMessage(ctx, m)
ctx.print(fmt.Sprintf("sent command to %q", net.GetName()))
return nil
}
func sendCertfpFingerprints(ctx *serviceContext, cert []byte) {
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sha1Sum := sha1.Sum(cert)
ctx.print("SHA-1 fingerprint: " + hex.EncodeToString(sha1Sum[:]))
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sha256Sum := sha256.Sum256(cert)
ctx.print("SHA-256 fingerprint: " + hex.EncodeToString(sha256Sum[:]))
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sha512Sum := sha512.Sum512(cert)
ctx.print("SHA-512 fingerprint: " + hex.EncodeToString(sha512Sum[:]))
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}
func getNetworkFromFlag(ctx *serviceContext, name string) (*network, error) {
if name == "" {
if ctx.network == nil {
return nil, fmt.Errorf("no network selected, -network is required")
}
return ctx.network, nil
} else {
net := ctx.user.getNetwork(name)
if net == nil {
return nil, fmt.Errorf("unknown network %q", name)
}
return net, nil
}
}
func handleServiceCertFPGenerate(ctx *serviceContext, params []string) error {
fs := newFlagSet()
netName := fs.String("network", "", "select a network")
keyType := fs.String("key-type", "rsa", "key type to generate (rsa, ecdsa, ed25519)")
bits := fs.Int("bits", 3072, "size of key to generate, meaningful only for RSA")
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
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if *bits <= 0 || *bits > maxRSABits {
return fmt.Errorf("invalid value for -bits")
}
net, err := getNetworkFromFlag(ctx, *netName)
if err != nil {
return err
}
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privKey, cert, err := generateCertFP(*keyType, *bits)
if err != nil {
return err
}
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net.SASL.External.CertBlob = cert
net.SASL.External.PrivKeyBlob = privKey
net.SASL.Mechanism = "EXTERNAL"
if err := ctx.srv.db.StoreNetwork(ctx, ctx.user.ID, &net.Network); err != nil {
return err
}
ctx.print("certificate generated")
sendCertfpFingerprints(ctx, cert)
return nil
}
func handleServiceCertFPFingerprints(ctx *serviceContext, params []string) error {
fs := newFlagSet()
netName := fs.String("network", "", "select a network")
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
net, err := getNetworkFromFlag(ctx, *netName)
if err != nil {
return err
}
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if net.SASL.Mechanism != "EXTERNAL" {
return fmt.Errorf("CertFP not set up")
}
sendCertfpFingerprints(ctx, net.SASL.External.CertBlob)
return nil
}
func handleServiceSASLStatus(ctx *serviceContext, params []string) error {
fs := newFlagSet()
netName := fs.String("network", "", "select a network")
if err := fs.Parse(params); err != nil {
return err
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}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
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net, err := getNetworkFromFlag(ctx, *netName)
if err != nil {
return err
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}
switch net.SASL.Mechanism {
case "PLAIN":
ctx.print(fmt.Sprintf("SASL PLAIN enabled with username %q", net.SASL.Plain.Username))
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case "EXTERNAL":
ctx.print("SASL EXTERNAL (CertFP) enabled")
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case "":
ctx.print("SASL is disabled")
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}
if uc := net.conn; uc != nil {
if uc.account != "" {
ctx.print(fmt.Sprintf("Authenticated on upstream network with account %q", uc.account))
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} else {
ctx.print("Unauthenticated on upstream network")
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}
} else {
ctx.print("Disconnected from upstream network")
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}
return nil
}
func handleServiceSASLSetPlain(ctx *serviceContext, params []string) error {
fs := newFlagSet()
netName := fs.String("network", "", "select a network")
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() != 2 {
return fmt.Errorf("expected exactly 2 arguments")
}
net, err := getNetworkFromFlag(ctx, *netName)
if err != nil {
return err
}
net.SASL.Plain.Username = fs.Arg(0)
net.SASL.Plain.Password = fs.Arg(1)
net.SASL.Mechanism = "PLAIN"
if err := ctx.srv.db.StoreNetwork(ctx, ctx.user.ID, &net.Network); err != nil {
return err
}
ctx.print("credentials saved")
return nil
}
func handleServiceSASLReset(ctx *serviceContext, params []string) error {
fs := newFlagSet()
netName := fs.String("network", "", "select a network")
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
net, err := getNetworkFromFlag(ctx, *netName)
if err != nil {
return err
}
net.SASL.Plain.Username = ""
net.SASL.Plain.Password = ""
net.SASL.External.CertBlob = nil
net.SASL.External.PrivKeyBlob = nil
net.SASL.Mechanism = ""
if err := ctx.srv.db.StoreNetwork(ctx, ctx.user.ID, &net.Network); err != nil {
return err
}
ctx.print("credentials reset")
return nil
}
func handleUserStatus(ctx *serviceContext, params []string) error {
if len(params) != 0 {
return fmt.Errorf("expected no argument")
}
// Limit to a small amount of users to avoid sending
// thousands of messages on large instances.
users := make([]database.User, 0, 50)
ctx.srv.lock.Lock()
n := len(ctx.srv.users)
for _, user := range ctx.srv.users {
if len(users) == cap(users) {
break
}
users = append(users, user.User)
}
ctx.srv.lock.Unlock()
for _, user := range users {
var attrs []string
if user.Admin {
attrs = append(attrs, "admin")
}
if !user.Enabled {
attrs = append(attrs, "disabled")
}
line := user.Username
if len(attrs) > 0 {
line += " (" + strings.Join(attrs, ", ") + ")"
}
networks, err := ctx.srv.db.ListNetworks(ctx, user.ID)
if err != nil {
return fmt.Errorf("could not get networks of user %q: %v", user.Username, err)
}
line += fmt.Sprintf(": %d networks", len(networks))
ctx.print(line)
}
if n > len(users) {
ctx.print(fmt.Sprintf("(%d more users omitted)", n-len(users)))
}
return nil
}
func handleUserCreate(ctx *serviceContext, params []string) error {
fs := newFlagSet()
username := fs.String("username", "", "")
password := fs.String("password", "", "")
disablePassword := fs.Bool("disable-password", false, "")
nick := fs.String("nick", "", "")
realname := fs.String("realname", "", "")
admin := fs.Bool("admin", false, "")
enabled := fs.Bool("enabled", true, "")
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
if *username == "" {
return fmt.Errorf("flag -username is required")
}
if *password != "" && *disablePassword {
return fmt.Errorf("flags -password and -disable-password are mutually exclusive")
}
if *password == "" && !*disablePassword {
return fmt.Errorf("flag -password is required")
}
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user := &database.User{
Username: *username,
Nick: *nick,
Realname: *realname,
Admin: *admin,
Enabled: *enabled,
}
if !*disablePassword {
if err := user.SetPassword(*password); err != nil {
return err
}
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}
if _, err := ctx.srv.createUser(ctx, user); err != nil {
return fmt.Errorf("could not create user: %v", err)
}
ctx.print(fmt.Sprintf("created user %q", *username))
return nil
}
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func popArg(params []string) (string, []string) {
if len(params) > 0 && !strings.HasPrefix(params[0], "-") {
return params[0], params[1:]
}
return "", params
}
func handleUserUpdate(ctx *serviceContext, params []string) error {
var password, nick, realname *string
var admin, enabled *bool
var disablePassword bool
fs := newFlagSet()
fs.Var(stringPtrFlag{&password}, "password", "")
fs.BoolVar(&disablePassword, "disable-password", false, "")
fs.Var(stringPtrFlag{&nick}, "nick", "")
fs.Var(stringPtrFlag{&realname}, "realname", "")
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fs.Var(boolPtrFlag{&admin}, "admin", "")
fs.Var(boolPtrFlag{&enabled}, "enabled", "")
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username, params := popArg(params)
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
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}
if username == "" && ctx.user == nil {
return fmt.Errorf("cannot determine the user to update")
}
if password != nil && disablePassword {
return fmt.Errorf("flags -password and -disable-password are mutually exclusive")
}
if username != "" && (ctx.user == nil || username != ctx.user.Username) {
if !ctx.admin {
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return fmt.Errorf("you must be an admin to update other users")
}
if nick != nil {
return fmt.Errorf("cannot update -nick of other user")
}
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if realname != nil {
return fmt.Errorf("cannot update -realname of other user")
}
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var hashed *string
if password != nil {
var passwordRecord database.User
if err := passwordRecord.SetPassword(*password); err != nil {
return err
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}
hashed = &passwordRecord.Password
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}
if disablePassword {
hashedStr := ""
hashed = &hashedStr
}
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u := ctx.srv.getUser(username)
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if u == nil {
return fmt.Errorf("unknown username %q", username)
}
done := make(chan error, 1)
event := eventUserUpdate{
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password: hashed,
admin: admin,
enabled: enabled,
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done: done,
}
select {
case <-ctx.Done():
return ctx.Err()
case u.events <- event:
}
// TODO: send context to the other side
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if err := <-done; err != nil {
return err
}
ctx.print(fmt.Sprintf("updated user %q", username))
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} else {
if admin != nil {
return fmt.Errorf("cannot update -admin of own user")
}
if enabled != nil {
return fmt.Errorf("cannot update -enabled of own user")
}
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err := ctx.user.updateUser(ctx, func(record *database.User) error {
if password != nil {
if err := record.SetPassword(*password); err != nil {
return err
}
}
if disablePassword {
record.Password = ""
}
if nick != nil {
record.Nick = *nick
}
if realname != nil {
record.Realname = *realname
}
return nil
})
if err != nil {
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return err
}
ctx.print(fmt.Sprintf("updated user %q", ctx.user.Username))
}
return nil
}
func handleUserDelete(ctx *serviceContext, params []string) error {
if len(params) != 1 && len(params) != 2 {
return fmt.Errorf("expected one or two arguments")
}
username := params[0]
hashBytes := sha1.Sum([]byte(username))
hash := fmt.Sprintf("%x", hashBytes[0:3])
self := ctx.user != nil && ctx.user.Username == username
if !ctx.admin && !self {
return fmt.Errorf("only admins may delete other users")
}
u := ctx.srv.getUser(username)
if u == nil {
return fmt.Errorf("unknown username %q", username)
}
if len(params) < 2 {
ctx.print(fmt.Sprintf(`To confirm user deletion, send "user delete %s %s"`, username, hash))
return nil
}
if token := params[1]; token != hash {
return fmt.Errorf("provided confirmation token doesn't match user")
}
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var deleteCtx context.Context = ctx
if self {
ctx.print(fmt.Sprintf("Goodbye %s, deleting your account. There will be no further confirmation.", username))
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// We can't use ctx here, because it'll be cancelled once we close the
// downstream connection
deleteCtx = context.TODO()
}
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if err := u.stop(deleteCtx); err != nil {
return fmt.Errorf("failed to stop user: %v", err)
}
if err := ctx.srv.db.DeleteUser(deleteCtx, u.ID); err != nil {
return fmt.Errorf("failed to delete user: %v", err)
}
if !self {
ctx.print(fmt.Sprintf("deleted user %q", username))
}
return nil
}
func handleUserRun(ctx *serviceContext, params []string) error {
if len(params) < 2 {
return fmt.Errorf("expected at least two arguments")
}
username := params[0]
params = params[1:]
if ctx.user != nil && username == ctx.user.Username {
return handleServiceCommand(ctx, params)
}
u := ctx.srv.getUser(username)
if u == nil {
return fmt.Errorf("unknown username %q", username)
}
printCh := make(chan string, 1)
retCh := make(chan error, 1)
ev := eventUserRun{
params: params,
print: printCh,
ret: retCh,
}
select {
case <-ctx.Done():
return ctx.Err()
case u.events <- ev:
}
for {
select {
case <-ctx.Done():
// This handles a possible race condition:
// - we send ev to u.events
// - the user goroutine for u stops (because of a crash or user deletion)
// - we would block on printCh
// Quitting on ctx.Done() prevents us from blocking indefinitely
// in case the event is never processed.
// TODO: Properly fix this condition by flushing the u.events queue
// and running close(ev.print) in a defer
return fmt.Errorf("timeout executing command")
case text, ok := <-printCh:
if ok {
ctx.print(text)
}
case ret := <-retCh:
return ret
}
}
}
func handleServiceChannelStatus(ctx *serviceContext, params []string) error {
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var defaultNetworkName string
if ctx.network != nil {
defaultNetworkName = ctx.network.GetName()
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}
fs := newFlagSet()
networkName := fs.String("network", defaultNetworkName, "")
if err := fs.Parse(params); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
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n := 0
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sendNetwork := func(net *network) {
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var channels []*database.Channel
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net.channels.ForEach(func(_ string, ch *database.Channel) {
channels = append(channels, ch)
})
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sort.Slice(channels, func(i, j int) bool {
return strings.ReplaceAll(channels[i].Name, "#", "") <
strings.ReplaceAll(channels[j].Name, "#", "")
})
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for _, ch := range channels {
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var uch *upstreamChannel
if net.conn != nil {
uch = net.conn.channels.Get(ch.Name)
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}
name := ch.Name
if *networkName == "" {
name += "/" + net.GetName()
}
var status string
if uch != nil {
status = "joined"
} else if net.conn != nil {
status = "parted"
} else {
status = "disconnected"
}
if ch.Detached {
status += ", detached"
}
s := fmt.Sprintf("%v [%v]", name, status)
ctx.print(s)
n++
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}
}
if *networkName == "" {
for _, net := range ctx.user.networks {
sendNetwork(net)
}
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} else {
net := ctx.user.getNetwork(*networkName)
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if net == nil {
return fmt.Errorf("unknown network %q", *networkName)
}
sendNetwork(net)
}
if n == 0 {
ctx.print("No channel configured.")
}
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return nil
}
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func parseFilter(filter string) (database.MessageFilter, error) {
switch filter {
case "default":
return database.FilterDefault, nil
case "none":
return database.FilterNone, nil
case "highlight":
return database.FilterHighlight, nil
case "message":
return database.FilterMessage, nil
}
return 0, fmt.Errorf("unknown filter: %q", filter)
}
type channelFlagSet struct {
*flag.FlagSet
Detached *bool
RelayDetached, ReattachOn, DetachAfter, DetachOn *string
}
func newChannelFlagSet() *channelFlagSet {
fs := &channelFlagSet{FlagSet: newFlagSet()}
fs.Var(boolPtrFlag{&fs.Detached}, "detached", "")
fs.Var(stringPtrFlag{&fs.RelayDetached}, "relay-detached", "")
fs.Var(stringPtrFlag{&fs.ReattachOn}, "reattach-on", "")
fs.Var(stringPtrFlag{&fs.DetachAfter}, "detach-after", "")
fs.Var(stringPtrFlag{&fs.DetachOn}, "detach-on", "")
return fs
}
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func (fs *channelFlagSet) update(channel *database.Channel) error {
if fs.RelayDetached != nil {
filter, err := parseFilter(*fs.RelayDetached)
if err != nil {
return err
}
channel.RelayDetached = filter
}
if fs.ReattachOn != nil {
filter, err := parseFilter(*fs.ReattachOn)
if err != nil {
return err
}
channel.ReattachOn = filter
}
if fs.DetachAfter != nil {
dur, err := time.ParseDuration(*fs.DetachAfter)
if err != nil || dur < 0 {
return fmt.Errorf("unknown duration for -detach-after %q (duration format: 0, 300s, 22h30m, ...)", *fs.DetachAfter)
}
channel.DetachAfter = dur
}
if fs.DetachOn != nil {
filter, err := parseFilter(*fs.DetachOn)
if err != nil {
return err
}
channel.DetachOn = filter
}
return nil
}
func stripNetworkSuffix(ctx *serviceContext, name string) (string, *network, error) {
if ctx.network != nil {
return name, ctx.network, nil
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}
l := strings.SplitN(name, "/", 2)
if len(l) != 2 {
return "", nil, fmt.Errorf("missing network name")
}
name = l[0]
netName := l[1]
for _, network := range ctx.user.networks {
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if netName == network.GetName() {
return name, network, nil
}
}
return "", nil, fmt.Errorf("unknown network %q", netName)
}
func handleServiceChannelUpdate(ctx *serviceContext, params []string) error {
if len(params) < 1 {
return fmt.Errorf("expected at least one argument")
}
name := params[0]
fs := newChannelFlagSet()
if err := fs.Parse(params[1:]); err != nil {
return err
}
if fs.NArg() > 0 {
return fmt.Errorf("unexpected argument: %v", fs.Arg(0))
}
name, network, err := stripNetworkSuffix(ctx, name)
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if err != nil {
return err
}
ch := network.channels.Get(name)
Implement casemapping TL;DR: supports for casemapping, now logs are saved in casemapped/canonical/tolower form (eg. in the #channel directory instead of #Channel... or something) == What is casemapping? == see <https://modern.ircdocs.horse/#casemapping-parameter> == Casemapping and multi-upstream == Since each upstream does not necessarily use the same casemapping, and since casemappings cannot coexist [0], 1. soju must also update the database accordingly to upstreams' casemapping, otherwise it will end up inconsistent, 2. soju must "normalize" entity names and expose only one casemapping that is a subset of all supported casemappings (here, ascii). [0] On some upstreams, "emersion[m]" and "emersion{m}" refer to the same user (upstreams that advertise rfc1459 for example), while on others (upstreams that advertise ascii) they don't. Once upstream's casemapping is known (default to rfc1459), entity names in map keys are made into casemapped form, for upstreamConn, upstreamChannel and network. downstreamConn advertises "CASEMAPPING=ascii", and always casemap map keys with ascii. Some functions require the caller to casemap their argument (to avoid needless calls to casemapping functions). == Message forwarding and casemapping == downstream message handling (joins and parts basically): When relaying entity names from downstreams to upstreams, soju uses the upstream casemapping, in order to not get in the way of the user. This does not brings any issue, as long as soju replies with the ascii casemapping in mind (solves point 1.). marshalEntity/marshalUserPrefix: When relaying entity names from upstreams with non-ascii casemappings, soju *partially* casemap them: it only change the case of characters which are not ascii letters. ASCII case is thus kept intact, while special symbols like []{} are the same every time soju sends them to downstreams (solves point 2.). == Casemapping changes == Casemapping changes are not fully supported by this patch and will result in loss of history. This is a limitation of the protocol and should be solved by the RENAME spec.
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if ch == nil {
return fmt.Errorf("unknown channel %q", name)
}
if err := fs.update(ch); err != nil {
return err
}
if fs.Detached != nil && *fs.Detached != ch.Detached {
if *fs.Detached {
network.detach(ch)
} else {
network.attach(ctx, ch)
}
}
if network.conn != nil {
network.conn.updateChannelAutoDetach(name)
}
if err := ctx.srv.db.StoreChannel(ctx, network.ID, ch); err != nil {
return fmt.Errorf("failed to update channel: %v", err)
}
ctx.print(fmt.Sprintf("updated channel %q", name))
return nil
}
func handleServiceChannelDelete(ctx *serviceContext, params []string) error {
if len(params) != 1 {
return fmt.Errorf("expected exactly one argument")
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}
name := params[0]
name, network, err := stripNetworkSuffix(ctx, name)
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if err != nil {
return err
}
if err := network.deleteChannel(ctx, name); err != nil {
return fmt.Errorf("failed to delete channel: %v", err)
}
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if uc := network.conn; uc != nil {
uc.SendMessage(ctx, &irc.Message{
Command: "PART",
Params: []string{name},
})
}
ctx.print(fmt.Sprintf("deleted channel %q", name))
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return nil
}
func handleServiceServerStatus(ctx *serviceContext, params []string) error {
if len(params) != 0 {
return fmt.Errorf("expected no argument")
}
dbStats, err := ctx.srv.db.Stats(ctx)
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if err != nil {
return err
}
serverStats := ctx.srv.Stats()
ctx.print(fmt.Sprintf("%v/%v users, %v downstreams, %v upstreams, %v networks, %v channels", serverStats.Users, dbStats.Users, serverStats.Downstreams, serverStats.Upstreams, dbStats.Networks, dbStats.Channels))
return nil
}
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func handleServiceServerNotice(ctx *serviceContext, params []string) error {
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if len(params) != 1 {
return fmt.Errorf("expected exactly one argument")
}
text := params[0]
var logger Logger
if ctx.user != nil {
logger = ctx.user.logger
} else {
logger = ctx.srv.Logger
}
logger.Printf("broadcasting bouncer-wide NOTICE: %v", text)
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broadcastMsg := &irc.Message{
Prefix: servicePrefix,
Command: "NOTICE",
Params: []string{"$" + ctx.srv.Config().Hostname, text},
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}
var err error
sent := 0
total := 0
ctx.srv.forEachUser(func(u *user) {
total++
select {
case <-ctx.Done():
err = ctx.Err()
case u.events <- eventBroadcast{broadcastMsg}:
sent++
}
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})
logger.Printf("broadcast bouncer-wide NOTICE to %v/%v downstreams", sent, total)
ctx.print(fmt.Sprintf("sent to %v/%v downstream connections", sent, total))
return err
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}