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ergo/irc/client_lookup_set.go
2019-05-09 05:03:21 -04:00

409 lines
10 KiB
Go

// Copyright (c) 2012-2014 Jeremy Latt
// Copyright (c) 2016-2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package irc
import (
"fmt"
"log"
"regexp"
"strings"
"github.com/goshuirc/irc-go/ircmatch"
"github.com/oragono/oragono/irc/caps"
"github.com/oragono/oragono/irc/modes"
"sync"
)
// ExpandUserHost takes a userhost, and returns an expanded version.
func ExpandUserHost(userhost string) (expanded string) {
expanded = userhost
// fill in missing wildcards for nicks
//TODO(dan): this would fail with dan@lol, fix that.
if !strings.Contains(expanded, "!") {
expanded += "!*"
}
if !strings.Contains(expanded, "@") {
expanded += "@*"
}
return
}
// ClientManager keeps track of clients by nick, enforcing uniqueness of casefolded nicks
type ClientManager struct {
sync.RWMutex // tier 2
byNick map[string]*Client
bySkeleton map[string]*Client
}
// Initialize initializes a ClientManager.
func (clients *ClientManager) Initialize() {
clients.byNick = make(map[string]*Client)
clients.bySkeleton = make(map[string]*Client)
}
// Count returns how many clients are in the manager.
func (clients *ClientManager) Count() int {
clients.RLock()
defer clients.RUnlock()
count := len(clients.byNick)
return count
}
// Get retrieves a client from the manager, if they exist.
func (clients *ClientManager) Get(nick string) *Client {
casefoldedName, err := CasefoldName(nick)
if err == nil {
clients.RLock()
defer clients.RUnlock()
cli := clients.byNick[casefoldedName]
return cli
}
return nil
}
func (clients *ClientManager) removeInternal(client *Client) (err error) {
// requires holding the writable Lock()
oldcfnick, oldskeleton := client.uniqueIdentifiers()
if oldcfnick == "*" || oldcfnick == "" {
return errNickMissing
}
currentEntry, present := clients.byNick[oldcfnick]
if present {
if currentEntry == client {
delete(clients.byNick, oldcfnick)
} else {
// this shouldn't happen, but we can ignore it
client.server.logger.Warning("internal", "clients for nick out of sync", oldcfnick)
err = errNickMissing
}
} else {
err = errNickMissing
}
currentEntry, present = clients.bySkeleton[oldskeleton]
if present {
if currentEntry == client {
delete(clients.bySkeleton, oldskeleton)
} else {
client.server.logger.Warning("internal", "clients for skeleton out of sync", oldskeleton)
err = errNickMissing
}
} else {
err = errNickMissing
}
return
}
// Remove removes a client from the lookup set.
func (clients *ClientManager) Remove(client *Client) error {
clients.Lock()
defer clients.Unlock()
return clients.removeInternal(client)
}
// Resume atomically replaces `oldClient` with `newClient`, updating
// newClient's data to match. It is the caller's responsibility first
// to verify that the resume is allowed, and then later to call oldClient.destroy().
func (clients *ClientManager) Resume(newClient, oldClient *Client) (err error) {
clients.Lock()
defer clients.Unlock()
// atomically grant the new client the old nick
err = clients.removeInternal(oldClient)
if err != nil {
// oldClient no longer owns its nick, fail out
return err
}
// nick has been reclaimed, grant it to the new client
clients.removeInternal(newClient)
oldcfnick, oldskeleton := oldClient.uniqueIdentifiers()
clients.byNick[oldcfnick] = newClient
clients.bySkeleton[oldskeleton] = newClient
newClient.copyResumeData(oldClient)
return nil
}
// SetNick sets a client's nickname, validating it against nicknames in use
func (clients *ClientManager) SetNick(client *Client, session *Session, newNick string) error {
newcfnick, err := CasefoldName(newNick)
if err != nil {
return err
}
newSkeleton, err := Skeleton(newNick)
if err != nil {
return err
}
reservedAccount, method := client.server.accounts.EnforcementStatus(newcfnick, newSkeleton)
account := client.Account()
bouncerAllowed := client.server.accounts.BouncerAllowed(account, session)
clients.Lock()
defer clients.Unlock()
currentClient := clients.byNick[newcfnick]
// the client may just be changing case
if currentClient != nil && currentClient != client && session != nil {
// these conditions forbid reattaching to an existing session:
if client.Registered() || !bouncerAllowed || account == "" || account != currentClient.Account() || client.isTor != currentClient.isTor || client.HasMode(modes.TLS) != currentClient.HasMode(modes.TLS) {
return errNicknameInUse
}
if !currentClient.AddSession(session) {
return errNicknameInUse
}
// successful reattach!
return nil
}
// analogous checks for skeletons
skeletonHolder := clients.bySkeleton[newSkeleton]
if skeletonHolder != nil && skeletonHolder != client {
return errNicknameInUse
}
if method == NickReservationStrict && reservedAccount != "" && reservedAccount != account {
return errNicknameReserved
}
clients.removeInternal(client)
clients.byNick[newcfnick] = client
clients.bySkeleton[newSkeleton] = client
client.updateNick(newNick, newcfnick, newSkeleton)
return nil
}
func (clients *ClientManager) AllClients() (result []*Client) {
clients.RLock()
defer clients.RUnlock()
result = make([]*Client, len(clients.byNick))
i := 0
for _, client := range clients.byNick {
result[i] = client
i++
}
return
}
// AllWithCaps returns all clients with the given capabilities.
func (clients *ClientManager) AllWithCaps(capabs ...caps.Capability) (sessions []*Session) {
clients.RLock()
defer clients.RUnlock()
for _, client := range clients.byNick {
for _, session := range client.Sessions() {
if session.capabilities.HasAll(capabs...) {
sessions = append(sessions, session)
}
}
}
return
}
// AllWithCapsNotify returns all clients with the given capabilities, and that support cap-notify.
func (clients *ClientManager) AllWithCapsNotify(capabs ...caps.Capability) (sessions []*Session) {
capabs = append(capabs, caps.CapNotify)
clients.RLock()
defer clients.RUnlock()
for _, client := range clients.byNick {
for _, session := range client.Sessions() {
// cap-notify is implicit in cap version 302 and above
if session.capabilities.HasAll(capabs...) || 302 <= session.capVersion {
sessions = append(sessions, session)
}
}
}
return
}
// FindAll returns all clients that match the given userhost mask.
func (clients *ClientManager) FindAll(userhost string) (set ClientSet) {
set = make(ClientSet)
userhost, err := Casefold(ExpandUserHost(userhost))
if err != nil {
return set
}
matcher := ircmatch.MakeMatch(userhost)
clients.RLock()
defer clients.RUnlock()
for _, client := range clients.byNick {
if matcher.Match(client.NickMaskCasefolded()) {
set.Add(client)
}
}
return set
}
// Find returns the first client that matches the given userhost mask.
func (clients *ClientManager) Find(userhost string) *Client {
userhost, err := Casefold(ExpandUserHost(userhost))
if err != nil {
return nil
}
matcher := ircmatch.MakeMatch(userhost)
var matchedClient *Client
clients.RLock()
defer clients.RUnlock()
for _, client := range clients.byNick {
if matcher.Match(client.NickMaskCasefolded()) {
matchedClient = client
break
}
}
return matchedClient
}
//
// usermask to regexp
//
//TODO(dan): move this over to generally using glob syntax instead?
// kinda more expected in normal ban/etc masks, though regex is useful (probably as an extban?)
// UserMaskSet holds a set of client masks and lets you match hostnames to them.
type UserMaskSet struct {
sync.RWMutex
masks map[string]bool
regexp *regexp.Regexp
}
// NewUserMaskSet returns a new UserMaskSet.
func NewUserMaskSet() *UserMaskSet {
return &UserMaskSet{
masks: make(map[string]bool),
}
}
// Add adds the given mask to this set.
func (set *UserMaskSet) Add(mask string) (added bool) {
casefoldedMask, err := Casefold(mask)
if err != nil {
log.Println(fmt.Sprintf("ERROR: Could not add mask to usermaskset: [%s]", mask))
return false
}
set.Lock()
added = !set.masks[casefoldedMask]
if added {
set.masks[casefoldedMask] = true
}
set.Unlock()
if added {
set.setRegexp()
}
return
}
// AddAll adds the given masks to this set.
func (set *UserMaskSet) AddAll(masks []string) (added bool) {
set.Lock()
defer set.Unlock()
for _, mask := range masks {
if !added && !set.masks[mask] {
added = true
}
set.masks[mask] = true
}
if added {
set.setRegexp()
}
return
}
// Remove removes the given mask from this set.
func (set *UserMaskSet) Remove(mask string) (removed bool) {
set.Lock()
removed = set.masks[mask]
if removed {
delete(set.masks, mask)
}
set.Unlock()
if removed {
set.setRegexp()
}
return
}
// Match matches the given n!u@h.
func (set *UserMaskSet) Match(userhost string) bool {
set.RLock()
regexp := set.regexp
set.RUnlock()
if regexp == nil {
return false
}
return regexp.MatchString(userhost)
}
// String returns the masks in this set.
func (set *UserMaskSet) String() string {
set.RLock()
masks := make([]string, len(set.masks))
index := 0
for mask := range set.masks {
masks[index] = mask
index++
}
set.RUnlock()
return strings.Join(masks, " ")
}
func (set *UserMaskSet) Length() int {
set.RLock()
defer set.RUnlock()
return len(set.masks)
}
// setRegexp generates a regular expression from the set of user mask
// strings. Masks are split at the two types of wildcards, `*` and
// `?`. All the pieces are meta-escaped. `*` is replaced with `.*`,
// the regexp equivalent. Likewise, `?` is replaced with `.`. The
// parts are re-joined and finally all masks are joined into a big
// or-expression.
func (set *UserMaskSet) setRegexp() {
var re *regexp.Regexp
set.RLock()
maskExprs := make([]string, len(set.masks))
index := 0
for mask := range set.masks {
manyParts := strings.Split(mask, "*")
manyExprs := make([]string, len(manyParts))
for mindex, manyPart := range manyParts {
oneParts := strings.Split(manyPart, "?")
oneExprs := make([]string, len(oneParts))
for oindex, onePart := range oneParts {
oneExprs[oindex] = regexp.QuoteMeta(onePart)
}
manyExprs[mindex] = strings.Join(oneExprs, ".")
}
maskExprs[index] = strings.Join(manyExprs, ".*")
index++
}
set.RUnlock()
if index > 0 {
expr := "^" + strings.Join(maskExprs, "|") + "$"
re, _ = regexp.Compile(expr)
}
set.Lock()
set.regexp = re
set.Unlock()
}