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mirror of https://github.com/ergochat/ergo.git synced 2024-12-22 10:42:52 +01:00

refactor [dk]lines, implement #144

This commit is contained in:
Shivaram Lingamneni 2019-01-22 05:01:01 -05:00
parent f154ea9583
commit 6bdc6af186
6 changed files with 563 additions and 397 deletions

View File

@ -4,33 +4,21 @@
package irc
import (
"encoding/json"
"fmt"
"net"
"strings"
"sync"
"time"
"encoding/json"
"github.com/oragono/oragono/irc/utils"
"github.com/tidwall/buntdb"
)
const (
keyDlineEntry = "bans.dline %s"
keyDlineEntry = "bans.dlinev2 %s"
)
// IPRestrictTime contains the expiration info about the given IP.
type IPRestrictTime struct {
// Duration is how long this block lasts for.
Duration time.Duration `json:"duration"`
// Expires is when this block expires.
Expires time.Time `json:"expires"`
}
// IsExpired returns true if the time has expired.
func (iptime *IPRestrictTime) IsExpired() bool {
return iptime.Expires.Before(time.Now())
}
// IPBanInfo holds info about an IP/net ban.
type IPBanInfo struct {
// Reason is the ban reason.
@ -39,30 +27,38 @@ type IPBanInfo struct {
OperReason string `json:"oper_reason"`
// OperName is the oper who set the ban.
OperName string `json:"oper_name"`
// Time holds details about the duration, if it exists.
Time *IPRestrictTime `json:"time"`
// time of ban creation
TimeCreated time.Time
// duration of the ban; 0 means "permanent"
Duration time.Duration
}
func (info IPBanInfo) timeLeft() time.Duration {
return info.TimeCreated.Add(info.Duration).Sub(time.Now())
}
func (info IPBanInfo) TimeLeft() string {
if info.Duration == 0 {
return "indefinite"
} else {
return info.timeLeft().Truncate(time.Second).String()
}
}
// BanMessage returns the ban message.
func (info IPBanInfo) BanMessage(message string) string {
message = fmt.Sprintf(message, info.Reason)
if info.Time != nil {
message += fmt.Sprintf(" [%s]", info.Time.Duration.String())
if info.Duration != 0 {
message += fmt.Sprintf(" [%s]", info.TimeLeft())
}
return message
}
// dLineAddr contains the address itself and expiration time for a given network.
type dLineAddr struct {
// Address is the address that is blocked.
Address net.IP
// Info contains information on the ban.
Info IPBanInfo
}
// dLineNet contains the net itself and expiration time for a given network.
type dLineNet struct {
// Network is the network that is blocked.
// This is always an IPv6 CIDR; IPv4 CIDRs are translated with the 4-in-6 prefix,
// individual IPv4 and IPV6 addresses are translated to the relevant /128.
Network net.IPNet
// Info contains information on the ban.
Info IPBanInfo
@ -71,17 +67,25 @@ type dLineNet struct {
// DLineManager manages and dlines.
type DLineManager struct {
sync.RWMutex // tier 1
// addresses that are dlined
addresses map[string]*dLineAddr
// networks that are dlined
networks map[string]*dLineNet
persistenceMutex sync.Mutex // tier 2
// networks that are dlined:
// XXX: the keys of this map (which are also the database persistence keys)
// are the human-readable representations returned by NetToNormalizedString
networks map[string]dLineNet
// this keeps track of expiration timers for temporary bans
expirationTimers map[string]*time.Timer
server *Server
}
// NewDLineManager returns a new DLineManager.
func NewDLineManager() *DLineManager {
func NewDLineManager(server *Server) *DLineManager {
var dm DLineManager
dm.addresses = make(map[string]*dLineAddr)
dm.networks = make(map[string]*dLineNet)
dm.networks = make(map[string]dLineNet)
dm.expirationTimers = make(map[string]*time.Timer)
dm.server = server
dm.loadFromDatastore()
return &dm
}
@ -92,154 +96,208 @@ func (dm *DLineManager) AllBans() map[string]IPBanInfo {
dm.RLock()
defer dm.RUnlock()
for name, info := range dm.addresses {
allb[name] = info.Info
}
for name, info := range dm.networks {
allb[name] = info.Info
// map keys are already the human-readable forms, just return a copy of the map
for key, info := range dm.networks {
allb[key] = info.Info
}
return allb
}
// AddNetwork adds a network to the blocked list.
func (dm *DLineManager) AddNetwork(network net.IPNet, length *IPRestrictTime, reason, operReason, operName string) {
netString := network.String()
dln := dLineNet{
Network: network,
Info: IPBanInfo{
Time: length,
func (dm *DLineManager) AddNetwork(network net.IPNet, duration time.Duration, reason, operReason, operName string) error {
dm.persistenceMutex.Lock()
defer dm.persistenceMutex.Unlock()
// assemble ban info
info := IPBanInfo{
Reason: reason,
OperReason: operReason,
OperName: operName,
},
TimeCreated: time.Now(),
Duration: duration,
}
id := dm.addNetworkInternal(network, info)
return dm.persistDline(id, info)
}
func (dm *DLineManager) addNetworkInternal(network net.IPNet, info IPBanInfo) (id string) {
network = utils.NormalizeNet(network)
id = utils.NetToNormalizedString(network)
var timeLeft time.Duration
if info.Duration != 0 {
timeLeft = info.timeLeft()
if timeLeft <= 0 {
return
}
}
dm.Lock()
dm.networks[netString] = &dln
dm.Unlock()
defer dm.Unlock()
dm.networks[id] = dLineNet{
Network: network,
Info: info,
}
dm.cancelTimer(id)
if info.Duration == 0 {
return
}
// set up new expiration timer
timeCreated := info.TimeCreated
processExpiration := func() {
dm.Lock()
defer dm.Unlock()
netBan, ok := dm.networks[id]
if ok && netBan.Info.TimeCreated.Equal(timeCreated) {
delete(dm.networks, id)
// TODO(slingamn) here's where we'd remove it from the radix tree
}
}
dm.expirationTimers[id] = time.AfterFunc(timeLeft, processExpiration)
return
}
func (dm *DLineManager) cancelTimer(id string) {
oldTimer := dm.expirationTimers[id]
if oldTimer != nil {
oldTimer.Stop()
delete(dm.expirationTimers, id)
}
}
func (dm *DLineManager) persistDline(id string, info IPBanInfo) error {
// save in datastore
dlineKey := fmt.Sprintf(keyDlineEntry, id)
// assemble json from ban info
b, err := json.Marshal(info)
if err != nil {
dm.server.logger.Error("internal", "couldn't marshal d-line", err.Error())
return err
}
bstr := string(b)
var setOptions *buntdb.SetOptions
if info.Duration != 0 {
setOptions = &buntdb.SetOptions{Expires: true, TTL: info.Duration}
}
err = dm.server.store.Update(func(tx *buntdb.Tx) error {
_, _, err := tx.Set(dlineKey, bstr, setOptions)
return err
})
if err != nil {
dm.server.logger.Error("internal", "couldn't store d-line", err.Error())
}
return err
}
func (dm *DLineManager) unpersistDline(id string) error {
dlineKey := fmt.Sprintf(keyDlineEntry, id)
return dm.server.store.Update(func(tx *buntdb.Tx) error {
_, err := tx.Delete(dlineKey)
return err
})
}
// RemoveNetwork removes a network from the blocked list.
func (dm *DLineManager) RemoveNetwork(network net.IPNet) {
netString := network.String()
func (dm *DLineManager) RemoveNetwork(network net.IPNet) error {
dm.persistenceMutex.Lock()
defer dm.persistenceMutex.Unlock()
id := utils.NetToNormalizedString(utils.NormalizeNet(network))
present := func() bool {
dm.Lock()
delete(dm.networks, netString)
dm.Unlock()
defer dm.Unlock()
_, ok := dm.networks[id]
delete(dm.networks, id)
dm.cancelTimer(id)
return ok
}()
if !present {
return errNoExistingBan
}
return dm.unpersistDline(id)
}
// AddIP adds an IP address to the blocked list.
func (dm *DLineManager) AddIP(addr net.IP, length *IPRestrictTime, reason, operReason, operName string) {
addrString := addr.String()
dla := dLineAddr{
Address: addr,
Info: IPBanInfo{
Time: length,
Reason: reason,
OperReason: operReason,
OperName: operName,
},
}
dm.Lock()
dm.addresses[addrString] = &dla
dm.Unlock()
func (dm *DLineManager) AddIP(addr net.IP, duration time.Duration, reason, operReason, operName string) error {
return dm.AddNetwork(utils.NormalizeIPToNet(addr), duration, reason, operReason, operName)
}
// RemoveIP removes an IP from the blocked list.
func (dm *DLineManager) RemoveIP(addr net.IP) {
addrString := addr.String()
dm.Lock()
delete(dm.addresses, addrString)
dm.Unlock()
// RemoveIP removes an IP address from the blocked list.
func (dm *DLineManager) RemoveIP(addr net.IP) error {
return dm.RemoveNetwork(utils.NormalizeIPToNet(addr))
}
// CheckIP returns whether or not an IP address was banned, and how long it is banned for.
func (dm *DLineManager) CheckIP(addr net.IP) (isBanned bool, info *IPBanInfo) {
// check IP addr
addrString := addr.String()
dm.RLock()
addrInfo := dm.addresses[addrString]
dm.RUnlock()
if addrInfo != nil {
if addrInfo.Info.Time != nil {
if addrInfo.Info.Time.IsExpired() {
// ban on IP has expired, remove it from our blocked list
dm.RemoveIP(addr)
} else {
return true, &addrInfo.Info
}
} else {
return true, &addrInfo.Info
}
}
// check networks
doCleanup := false
defer func() {
if doCleanup {
go func() {
dm.Lock()
defer dm.Unlock()
for key, netInfo := range dm.networks {
if netInfo.Info.Time.IsExpired() {
delete(dm.networks, key)
}
}
}()
}
}()
func (dm *DLineManager) CheckIP(addr net.IP) (isBanned bool, info IPBanInfo) {
addr = addr.To16() // almost certainly unnecessary
dm.RLock()
defer dm.RUnlock()
for _, netInfo := range dm.networks {
if netInfo.Info.Time != nil && netInfo.Info.Time.IsExpired() {
// expired ban, ignore and clean up later
doCleanup = true
} else if netInfo.Network.Contains(addr) {
return true, &netInfo.Info
// check networks
// TODO(slingamn) use a radix tree as the data plane for this
for _, netBan := range dm.networks {
if netBan.Network.Contains(addr) {
return true, netBan.Info
}
}
// no matches!
return false, nil
isBanned = false
return
}
func (s *Server) loadDLines() {
s.dlines = NewDLineManager()
func (dm *DLineManager) loadFromDatastore() {
dlinePrefix := fmt.Sprintf(keyDlineEntry, "")
dm.server.store.View(func(tx *buntdb.Tx) error {
tx.AscendGreaterOrEqual("", dlinePrefix, func(key, value string) bool {
if !strings.HasPrefix(key, dlinePrefix) {
return false
}
// load from datastore
s.store.View(func(tx *buntdb.Tx) error {
//TODO(dan): We could make this safer
tx.AscendKeys("bans.dline *", func(key, value string) bool {
// get address name
key = key[len("bans.dline "):]
key = strings.TrimPrefix(key, dlinePrefix)
// load addr/net
var hostAddr net.IP
var hostNet *net.IPNet
_, hostNet, err := net.ParseCIDR(key)
hostNet, err := utils.NormalizedNetFromString(key)
if err != nil {
hostAddr = net.ParseIP(key)
dm.server.logger.Error("internal", "bad dline cidr", err.Error())
return true
}
// load ban info
var info IPBanInfo
json.Unmarshal([]byte(value), &info)
err = json.Unmarshal([]byte(value), &info)
if err != nil {
dm.server.logger.Error("internal", "bad dline data", err.Error())
return true
}
// set opername if it isn't already set
if info.OperName == "" {
info.OperName = s.name
info.OperName = dm.server.name
}
// add to the server
if hostNet == nil {
s.dlines.AddIP(hostAddr, info.Time, info.Reason, info.OperReason, info.OperName)
} else {
s.dlines.AddNetwork(*hostNet, info.Time, info.Reason, info.OperReason, info.OperName)
}
dm.addNetworkInternal(hostNet, info)
return true // true to continue I guess?
return true
})
return nil
})
}
func (s *Server) loadDLines() {
s.dlines = NewDLineManager(s)
}

View File

@ -9,9 +9,7 @@ package irc
import (
"bytes"
"encoding/base64"
"encoding/json"
"fmt"
"net"
"os"
"runtime"
"runtime/debug"
@ -30,7 +28,6 @@ import (
"github.com/oragono/oragono/irc/modes"
"github.com/oragono/oragono/irc/sno"
"github.com/oragono/oragono/irc/utils"
"github.com/tidwall/buntdb"
"golang.org/x/crypto/bcrypt"
)
@ -578,6 +575,33 @@ func debugHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
return false
}
// helper for parsing the reason args to DLINE and KLINE
func getReasonsFromParams(params []string, currentArg int) (reason, operReason string) {
reason = "No reason given"
operReason = ""
if len(params) > currentArg {
reasons := strings.SplitN(strings.Join(params[currentArg:], " "), "|", 2)
if len(reasons) == 1 {
reason = strings.TrimSpace(reasons[0])
} else if len(reasons) == 2 {
reason = strings.TrimSpace(reasons[0])
operReason = strings.TrimSpace(reasons[1])
}
}
return
}
func formatBanForListing(client *Client, key string, info IPBanInfo) string {
desc := info.Reason
if info.OperReason != "" && info.OperReason != info.Reason {
desc = fmt.Sprintf("%s | %s", info.Reason, info.OperReason)
}
if info.Duration != 0 {
desc = fmt.Sprintf("%s [%s]", desc, info.TimeLeft())
}
return fmt.Sprintf(client.t("Ban - %[1]s - added by %[2]s - %[3]s"), key, info.OperName, desc)
}
// DLINE [ANDKILL] [MYSELF] [duration] <ip>/<net> [ON <server>] [reason [| oper reason]]
// DLINE LIST
func dlineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *ResponseBuffer) bool {
@ -599,7 +623,7 @@ func dlineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
}
for key, info := range bans {
rb.Notice(fmt.Sprintf(client.t("Ban - %[1]s - added by %[2]s - %[3]s"), key, info.OperName, info.BanMessage("%s")))
client.Notice(formatBanForListing(client, key, info))
}
return false
@ -622,8 +646,9 @@ func dlineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
// duration
duration, err := custime.ParseDuration(msg.Params[currentArg])
durationIsUsed := err == nil
if durationIsUsed {
if err != nil {
duration = 0
} else {
currentArg++
}
@ -636,32 +661,17 @@ func dlineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
currentArg++
// check host
var hostAddr net.IP
var hostNet *net.IPNet
hostNet, err := utils.NormalizedNetFromString(hostString)
_, hostNet, err = net.ParseCIDR(hostString)
if err != nil {
hostAddr = net.ParseIP(hostString)
}
if hostAddr == nil && hostNet == nil {
rb.Add(nil, server.name, ERR_UNKNOWNERROR, client.nick, msg.Command, client.t("Could not parse IP address or CIDR network"))
return false
}
if hostNet == nil {
hostString = hostAddr.String()
if !dlineMyself && hostAddr.Equal(client.IP()) {
rb.Add(nil, server.name, ERR_UNKNOWNERROR, client.nick, msg.Command, client.t("This ban matches you. To DLINE yourself, you must use the command: /DLINE MYSELF <arguments>"))
return false
}
} else {
hostString = hostNet.String()
if !dlineMyself && hostNet.Contains(client.IP()) {
rb.Add(nil, server.name, ERR_UNKNOWNERROR, client.nick, msg.Command, client.t("This ban matches you. To DLINE yourself, you must use the command: /DLINE MYSELF <arguments>"))
return false
}
}
// check remote
if len(msg.Params) > currentArg && msg.Params[currentArg] == "ON" {
@ -670,71 +680,23 @@ func dlineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
}
// get comment(s)
reason := "No reason given"
operReason := "No reason given"
if len(msg.Params) > currentArg {
tempReason := strings.TrimSpace(msg.Params[currentArg])
if len(tempReason) > 0 && tempReason != "|" {
tempReasons := strings.SplitN(tempReason, "|", 2)
if tempReasons[0] != "" {
reason = tempReasons[0]
}
if len(tempReasons) > 1 && tempReasons[1] != "" {
operReason = tempReasons[1]
} else {
operReason = reason
}
}
}
reason, operReason := getReasonsFromParams(msg.Params, currentArg)
operName := oper.Name
if operName == "" {
operName = server.name
}
// assemble ban info
var banTime *IPRestrictTime
if durationIsUsed {
banTime = &IPRestrictTime{
Duration: duration,
Expires: time.Now().Add(duration),
}
}
info := IPBanInfo{
Reason: reason,
OperReason: operReason,
OperName: operName,
Time: banTime,
}
// save in datastore
err = server.store.Update(func(tx *buntdb.Tx) error {
dlineKey := fmt.Sprintf(keyDlineEntry, hostString)
// assemble json from ban info
b, err := json.Marshal(info)
if err != nil {
return err
}
tx.Set(dlineKey, string(b), nil)
return nil
})
err = server.dlines.AddNetwork(hostNet, duration, reason, operReason, operName)
if err != nil {
rb.Notice(fmt.Sprintf(client.t("Could not successfully save new D-LINE: %s"), err.Error()))
return false
}
if hostNet == nil {
server.dlines.AddIP(hostAddr, banTime, reason, operReason, operName)
} else {
server.dlines.AddNetwork(*hostNet, banTime, reason, operReason, operName)
}
var snoDescription string
if durationIsUsed {
hostString = utils.NetToNormalizedString(hostNet)
if duration != 0 {
rb.Notice(fmt.Sprintf(client.t("Added temporary (%[1]s) D-Line for %[2]s"), duration.String(), hostString))
snoDescription = fmt.Sprintf(ircfmt.Unescape("%s [%s]$r added temporary (%s) D-Line for %s"), client.nick, operName, duration.String(), hostString)
} else {
@ -747,16 +709,9 @@ func dlineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
if andKill {
var clientsToKill []*Client
var killedClientNicks []string
var toKill bool
for _, mcl := range server.clients.AllClients() {
if hostNet == nil {
toKill = hostAddr.Equal(mcl.IP())
} else {
toKill = hostNet.Contains(mcl.IP())
}
if toKill {
if hostNet.Contains(mcl.IP()) {
clientsToKill = append(clientsToKill, mcl)
killedClientNicks = append(killedClientNicks, mcl.nick)
}
@ -1047,7 +1002,7 @@ func klineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
}
for key, info := range bans {
client.Notice(fmt.Sprintf(client.t("Ban - %[1]s - added by %[2]s - %[3]s"), key, info.OperName, info.BanMessage("%s")))
client.Notice(formatBanForListing(client, key, info))
}
return false
@ -1070,8 +1025,9 @@ func klineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
// duration
duration, err := custime.ParseDuration(msg.Params[currentArg])
durationIsUsed := err == nil
if durationIsUsed {
if err != nil {
duration = 0
} else {
currentArg++
}
@ -1112,63 +1068,16 @@ func klineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *Res
}
// get comment(s)
reason := "No reason given"
operReason := "No reason given"
if len(msg.Params) > currentArg {
tempReason := strings.TrimSpace(msg.Params[currentArg])
if len(tempReason) > 0 && tempReason != "|" {
tempReasons := strings.SplitN(tempReason, "|", 2)
if tempReasons[0] != "" {
reason = tempReasons[0]
}
if len(tempReasons) > 1 && tempReasons[1] != "" {
operReason = tempReasons[1]
} else {
operReason = reason
}
}
}
// assemble ban info
var banTime *IPRestrictTime
if durationIsUsed {
banTime = &IPRestrictTime{
Duration: duration,
Expires: time.Now().Add(duration),
}
}
info := IPBanInfo{
Reason: reason,
OperReason: operReason,
OperName: operName,
Time: banTime,
}
// save in datastore
err = server.store.Update(func(tx *buntdb.Tx) error {
klineKey := fmt.Sprintf(keyKlineEntry, mask)
// assemble json from ban info
b, err := json.Marshal(info)
if err != nil {
return err
}
tx.Set(klineKey, string(b), nil)
return nil
})
reason, operReason := getReasonsFromParams(msg.Params, currentArg)
err = server.klines.AddMask(mask, duration, reason, operReason, operName)
if err != nil {
rb.Notice(fmt.Sprintf(client.t("Could not successfully save new K-LINE: %s"), err.Error()))
return false
}
server.klines.AddMask(mask, banTime, reason, operReason, operName)
var snoDescription string
if durationIsUsed {
if duration != 0 {
rb.Notice(fmt.Sprintf(client.t("Added temporary (%[1]s) K-Line for %[2]s"), duration.String(), mask))
snoDescription = fmt.Sprintf(ircfmt.Unescape("%s [%s]$r added temporary (%s) K-Line for %s"), client.nick, operName, duration.String(), mask)
} else {
@ -2219,52 +2128,21 @@ func unDLineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *R
hostString := msg.Params[0]
// check host
var hostAddr net.IP
var hostNet *net.IPNet
hostNet, err := utils.NormalizedNetFromString(hostString)
_, hostNet, err := net.ParseCIDR(hostString)
if err != nil {
hostAddr = net.ParseIP(hostString)
}
if hostAddr == nil && hostNet == nil {
rb.Add(nil, server.name, ERR_UNKNOWNERROR, client.nick, msg.Command, client.t("Could not parse IP address or CIDR network"))
return false
}
if hostNet == nil {
hostString = hostAddr.String()
} else {
hostString = hostNet.String()
}
// save in datastore
err = server.store.Update(func(tx *buntdb.Tx) error {
dlineKey := fmt.Sprintf(keyDlineEntry, hostString)
// check if it exists or not
val, err := tx.Get(dlineKey)
if val == "" {
return errNoExistingBan
} else if err != nil {
return err
}
tx.Delete(dlineKey)
return nil
})
err = server.dlines.RemoveNetwork(hostNet)
if err != nil {
rb.Add(nil, server.name, ERR_UNKNOWNERROR, client.nick, msg.Command, fmt.Sprintf(client.t("Could not remove ban [%s]"), err.Error()))
return false
}
if hostNet == nil {
server.dlines.RemoveIP(hostAddr)
} else {
server.dlines.RemoveNetwork(*hostNet)
}
hostString = utils.NetToNormalizedString(hostNet)
rb.Notice(fmt.Sprintf(client.t("Removed D-Line for %s"), hostString))
server.snomasks.Send(sno.LocalXline, fmt.Sprintf(ircfmt.Unescape("%s$r removed D-Line for %s"), client.nick, hostString))
return false
@ -2288,29 +2166,13 @@ func unKLineHandler(server *Server, client *Client, msg ircmsg.IrcMessage, rb *R
mask = mask + "@*"
}
// save in datastore
err := server.store.Update(func(tx *buntdb.Tx) error {
klineKey := fmt.Sprintf(keyKlineEntry, mask)
// check if it exists or not
val, err := tx.Get(klineKey)
if val == "" {
return errNoExistingBan
} else if err != nil {
return err
}
tx.Delete(klineKey)
return nil
})
err := server.klines.RemoveMask(mask)
if err != nil {
rb.Add(nil, server.name, ERR_UNKNOWNERROR, client.nick, msg.Command, fmt.Sprintf(client.t("Could not remove ban [%s]"), err.Error()))
return false
}
server.klines.RemoveMask(mask)
rb.Notice(fmt.Sprintf(client.t("Removed K-Line for %s"), mask))
server.snomasks.Send(sno.LocalXline, fmt.Sprintf(ircfmt.Unescape("%s$r removed K-Line for %s"), client.nick, mask))
return false

View File

@ -5,14 +5,17 @@ package irc
import (
"encoding/json"
"fmt"
"strings"
"sync"
"time"
"github.com/goshuirc/irc-go/ircmatch"
"github.com/tidwall/buntdb"
)
const (
keyKlineEntry = "bans.kline %s"
keyKlineEntry = "bans.klinev2 %s"
)
// KLineInfo contains the address itself and expiration time for a given network.
@ -28,14 +31,22 @@ type KLineInfo struct {
// KLineManager manages and klines.
type KLineManager struct {
sync.RWMutex // tier 1
persistenceMutex sync.Mutex // tier 2
// kline'd entries
entries map[string]*KLineInfo
entries map[string]KLineInfo
expirationTimers map[string]*time.Timer
server *Server
}
// NewKLineManager returns a new KLineManager.
func NewKLineManager() *KLineManager {
func NewKLineManager(s *Server) *KLineManager {
var km KLineManager
km.entries = make(map[string]*KLineInfo)
km.entries = make(map[string]KLineInfo)
km.expirationTimers = make(map[string]*time.Timer)
km.server = s
km.loadFromDatastore()
return &km
}
@ -53,97 +64,176 @@ func (km *KLineManager) AllBans() map[string]IPBanInfo {
}
// AddMask adds to the blocked list.
func (km *KLineManager) AddMask(mask string, length *IPRestrictTime, reason, operReason, operName string) {
kln := KLineInfo{
Mask: mask,
Matcher: ircmatch.MakeMatch(mask),
Info: IPBanInfo{
Time: length,
func (km *KLineManager) AddMask(mask string, duration time.Duration, reason, operReason, operName string) error {
km.persistenceMutex.Lock()
defer km.persistenceMutex.Unlock()
info := IPBanInfo{
Reason: reason,
OperReason: operReason,
OperName: operName,
},
TimeCreated: time.Now(),
Duration: duration,
}
km.addMaskInternal(mask, info)
return km.persistKLine(mask, info)
}
func (km *KLineManager) addMaskInternal(mask string, info IPBanInfo) {
kln := KLineInfo{
Mask: mask,
Matcher: ircmatch.MakeMatch(mask),
Info: info,
}
var timeLeft time.Duration
if info.Duration > 0 {
timeLeft = info.timeLeft()
if timeLeft <= 0 {
return
}
}
km.Lock()
km.entries[mask] = &kln
km.Unlock()
defer km.Unlock()
km.entries[mask] = kln
km.cancelTimer(mask)
if info.Duration == 0 {
return
}
// set up new expiration timer
timeCreated := info.TimeCreated
processExpiration := func() {
km.Lock()
defer km.Unlock()
maskBan, ok := km.entries[mask]
if ok && maskBan.Info.TimeCreated.Equal(timeCreated) {
delete(km.entries, mask)
}
}
km.expirationTimers[mask] = time.AfterFunc(timeLeft, processExpiration)
}
func (km *KLineManager) cancelTimer(id string) {
oldTimer := km.expirationTimers[id]
if oldTimer != nil {
oldTimer.Stop()
delete(km.expirationTimers, id)
}
}
func (km *KLineManager) persistKLine(mask string, info IPBanInfo) error {
// save in datastore
klineKey := fmt.Sprintf(keyKlineEntry, mask)
// assemble json from ban info
b, err := json.Marshal(info)
if err != nil {
return err
}
bstr := string(b)
var setOptions *buntdb.SetOptions
if info.Duration != 0 {
setOptions = &buntdb.SetOptions{Expires: true, TTL: info.Duration}
}
err = km.server.store.Update(func(tx *buntdb.Tx) error {
_, _, err := tx.Set(klineKey, bstr, setOptions)
return err
})
return err
}
func (km *KLineManager) unpersistKLine(mask string) error {
// save in datastore
klineKey := fmt.Sprintf(keyKlineEntry, mask)
return km.server.store.Update(func(tx *buntdb.Tx) error {
_, err := tx.Delete(klineKey)
return err
})
}
// RemoveMask removes a mask from the blocked list.
func (km *KLineManager) RemoveMask(mask string) {
func (km *KLineManager) RemoveMask(mask string) error {
km.persistenceMutex.Lock()
defer km.persistenceMutex.Unlock()
present := func() bool {
km.Lock()
defer km.Unlock()
_, ok := km.entries[mask]
if ok {
delete(km.entries, mask)
km.Unlock()
}
km.cancelTimer(mask)
return ok
}()
if !present {
return errNoExistingBan
}
return km.unpersistKLine(mask)
}
// CheckMasks returns whether or not the hostmask(s) are banned, and how long they are banned for.
func (km *KLineManager) CheckMasks(masks ...string) (isBanned bool, info *IPBanInfo) {
doCleanup := false
defer func() {
// asynchronously remove expired bans
if doCleanup {
go func() {
km.Lock()
defer km.Unlock()
for key, entry := range km.entries {
if entry.Info.Time.IsExpired() {
delete(km.entries, key)
}
}
}()
}
}()
func (km *KLineManager) CheckMasks(masks ...string) (isBanned bool, info IPBanInfo) {
km.RLock()
defer km.RUnlock()
for _, entryInfo := range km.entries {
if entryInfo.Info.Time != nil && entryInfo.Info.Time.IsExpired() {
doCleanup = true
continue
}
matches := false
for _, mask := range masks {
if entryInfo.Matcher.Match(mask) {
matches = true
break
return true, entryInfo.Info
}
}
if matches {
return true, &entryInfo.Info
}
}
// no matches!
return false, nil
isBanned = false
return
}
func (s *Server) loadKLines() {
s.klines = NewKLineManager()
func (km *KLineManager) loadFromDatastore() {
// load from datastore
s.store.View(func(tx *buntdb.Tx) error {
//TODO(dan): We could make this safer
tx.AscendKeys("bans.kline *", func(key, value string) bool {
klinePrefix := fmt.Sprintf(keyKlineEntry, "")
km.server.store.View(func(tx *buntdb.Tx) error {
tx.AscendGreaterOrEqual("", klinePrefix, func(key, value string) bool {
if !strings.HasPrefix(key, klinePrefix) {
return false
}
// get address name
key = key[len("bans.kline "):]
mask := key
mask := strings.TrimPrefix(key, klinePrefix)
// load ban info
var info IPBanInfo
json.Unmarshal([]byte(value), &info)
err := json.Unmarshal([]byte(value), &info)
if err != nil {
km.server.logger.Error("internal", "couldn't unmarshal kline", err.Error())
return true
}
// add oper name if it doesn't exist already
if info.OperName == "" {
info.OperName = s.name
info.OperName = km.server.name
}
// add to the server
s.klines.AddMask(mask, info.Time, info.Reason, info.OperReason, info.OperName)
km.addMaskInternal(mask, info)
return true // true to continue I guess?
return true
})
return nil
})
}
func (s *Server) loadKLines() {
s.klines = NewKLineManager(s)
}

View File

@ -285,11 +285,10 @@ func (server *Server) checkBans(ipaddr net.IP) (banned bool, message string) {
if err != nil {
// too many connections too quickly from client, tell them and close the connection
duration := server.connectionThrottler.BanDuration()
length := &IPRestrictTime{
Duration: duration,
Expires: time.Now().Add(duration),
if duration == 0 {
return false, ""
}
server.dlines.AddIP(ipaddr, length, server.connectionThrottler.BanMessage(), "Exceeded automated connection throttle", "auto.connection.throttler")
server.dlines.AddIP(ipaddr, duration, server.connectionThrottler.BanMessage(), "Exceeded automated connection throttle", "auto.connection.throttler")
// they're DLINE'd for 15 minutes or whatever, so we can reset the connection throttle now,
// and once their temporary DLINE is finished they can fill up the throttler again
@ -409,11 +408,7 @@ func (server *Server) tryRegister(c *Client) {
// check KLINEs
isBanned, info := server.klines.CheckMasks(c.AllNickmasks()...)
if isBanned {
reason := info.Reason
if info.Time != nil {
reason += fmt.Sprintf(" [%s]", info.Time.Duration.String())
}
c.Quit(fmt.Sprintf(c.t("You are banned from this server (%s)"), reason))
c.Quit(info.BanMessage(c.t("You are banned from this server (%s)")))
c.destroy(false)
return
}

View File

@ -9,6 +9,11 @@ import (
"strings"
)
var (
// subnet mask for an ipv6 /128:
mask128 = net.CIDRMask(128, 128)
)
// IPString returns a simple IP string from the given net.Addr.
func IPString(addr net.Addr) string {
addrStr := addr.String()
@ -94,3 +99,60 @@ func IsHostname(name string) bool {
return true
}
// NormalizeIPToNet represents an address (v4 or v6) as the v6 /128 CIDR
// containing only it.
func NormalizeIPToNet(addr net.IP) (network net.IPNet) {
// represent ipv4 addresses as ipv6 addresses, using the 4-in-6 prefix
// (actually this should be a no-op for any address returned by ParseIP)
addr = addr.To16()
// the network corresponding to this address is now an ipv6 /128:
return net.IPNet{
IP: addr,
Mask: mask128,
}
}
// NormalizeNet normalizes an IPNet to a v6 CIDR, using the 4-in-6 prefix.
// (this is like IP.To16(), but for IPNet instead of IP)
func NormalizeNet(network net.IPNet) (result net.IPNet) {
if len(network.IP) == 16 {
return network
}
ones, _ := network.Mask.Size()
return net.IPNet{
IP: network.IP.To16(),
// include the 96 bits of the 4-in-6 prefix
Mask: net.CIDRMask(96+ones, 128),
}
}
// Given a network, produce a human-readable string
// (i.e., CIDR if it's actually a network, IPv6 address if it's a v6 /128,
// dotted quad if it's a v4 /32).
func NetToNormalizedString(network net.IPNet) string {
ones, bits := network.Mask.Size()
if ones == bits && ones == len(network.IP)*8 {
// either a /32 or a /128, output the address:
return network.IP.String()
}
return network.String()
}
// Parse a human-readable description (an address or CIDR, either v4 or v6)
// into a normalized v6 net.IPNet.
func NormalizedNetFromString(str string) (result net.IPNet, err error) {
_, network, err := net.ParseCIDR(str)
if err == nil {
return NormalizeNet(*network), nil
}
ip := net.ParseIP(str)
if ip == nil {
err = &net.AddrError{
Err: "Couldn't interpret as either CIDR or address",
Addr: str,
}
return
}
return NormalizeIPToNet(ip), nil
}

View File

@ -4,8 +4,16 @@
package utils
import "net"
import "reflect"
import "testing"
func assertEqual(supplied, expected interface{}, t *testing.T) {
if !reflect.DeepEqual(supplied, expected) {
t.Errorf("expected %v but got %v", expected, supplied)
}
}
// hostnames from https://github.com/DanielOaks/irc-parser-tests
var (
goodHostnames = []string{
@ -47,3 +55,94 @@ func TestIsHostname(t *testing.T) {
}
}
}
func TestNormalizeToNet(t *testing.T) {
a := net.ParseIP("8.8.8.8")
b := net.ParseIP("8.8.4.4")
if a == nil || b == nil {
panic("something has gone very wrong")
}
aNetwork := NormalizeIPToNet(a)
bNetwork := NormalizeIPToNet(b)
assertEqual(aNetwork.Contains(a), true, t)
assertEqual(bNetwork.Contains(b), true, t)
assertEqual(aNetwork.Contains(b), false, t)
assertEqual(bNetwork.Contains(a), false, t)
c := net.ParseIP("2001:4860:4860::8888")
d := net.ParseIP("2001:db8::1")
if c == nil || d == nil {
panic("something has gone very wrong")
}
cNetwork := NormalizeIPToNet(c)
dNetwork := NormalizeIPToNet(d)
assertEqual(cNetwork.Contains(c), true, t)
assertEqual(dNetwork.Contains(d), true, t)
assertEqual(dNetwork.Contains(c), false, t)
assertEqual(dNetwork.Contains(a), false, t)
assertEqual(cNetwork.Contains(b), false, t)
assertEqual(aNetwork.Contains(c), false, t)
assertEqual(bNetwork.Contains(c), false, t)
assertEqual(NetToNormalizedString(aNetwork), "8.8.8.8", t)
assertEqual(NetToNormalizedString(bNetwork), "8.8.4.4", t)
assertEqual(NetToNormalizedString(cNetwork), "2001:4860:4860::8888", t)
assertEqual(NetToNormalizedString(dNetwork), "2001:db8::1", t)
}
func TestNormalizedNetToString(t *testing.T) {
_, network, err := net.ParseCIDR("8.8.0.0/16")
if err != nil {
panic(err)
}
assertEqual(NetToNormalizedString(*network), "8.8.0.0/16", t)
normalized := NormalizeNet(*network)
assertEqual(normalized.Contains(net.ParseIP("8.8.4.4")), true, t)
assertEqual(normalized.Contains(net.ParseIP("1.1.1.1")), false, t)
assertEqual(NetToNormalizedString(normalized), "8.8.0.0/16", t)
_, network, err = net.ParseCIDR("8.8.4.4/32")
if err != nil {
panic(err)
}
assertEqual(NetToNormalizedString(*network), "8.8.4.4", t)
normalized = NormalizeNet(*network)
assertEqual(normalized.Contains(net.ParseIP("8.8.4.4")), true, t)
assertEqual(normalized.Contains(net.ParseIP("8.8.8.8")), false, t)
assertEqual(NetToNormalizedString(normalized), "8.8.4.4", t)
}
func TestNormalizedNet(t *testing.T) {
_, network, err := net.ParseCIDR("::ffff:8.8.4.4/128")
assertEqual(err, nil, t)
assertEqual(NetToNormalizedString(*network), "8.8.4.4", t)
normalizedNet := NormalizeIPToNet(net.ParseIP("8.8.4.4"))
assertEqual(NetToNormalizedString(normalizedNet), "8.8.4.4", t)
_, network, err = net.ParseCIDR("::ffff:8.8.0.0/112")
assertEqual(err, nil, t)
assertEqual(NetToNormalizedString(*network), "8.8.0.0/16", t)
_, v4Network, err := net.ParseCIDR("8.8.0.0/16")
assertEqual(err, nil, t)
normalizedNet = NormalizeNet(*v4Network)
assertEqual(NetToNormalizedString(normalizedNet), "8.8.0.0/16", t)
}
func TestNormalizedNetFromString(t *testing.T) {
network, err := NormalizedNetFromString("8.8.4.4/16")
assertEqual(err, nil, t)
assertEqual(NetToNormalizedString(network), "8.8.0.0/16", t)
assertEqual(network.Contains(net.ParseIP("8.8.8.8")), true, t)
network, err = NormalizedNetFromString("2001:0db8::1")
assertEqual(err, nil, t)
assertEqual(NetToNormalizedString(network), "2001:db8::1", t)
assertEqual(network.Contains(net.ParseIP("2001:0db8::1")), true, t)
}