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ergo/irc/accounts.go
Daniel Oaks 7cf8aaccf6
Merge pull request #352 from slingamn/chanreglimit.1
track channel registrations per account
2019-02-18 07:08:57 +10:00

1327 lines
39 KiB
Go

// Copyright (c) 2016-2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package irc
import (
"encoding/json"
"errors"
"fmt"
"net/smtp"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"unicode"
"github.com/oragono/oragono/irc/caps"
"github.com/oragono/oragono/irc/passwd"
"github.com/oragono/oragono/irc/utils"
"github.com/tidwall/buntdb"
)
const (
keyAccountExists = "account.exists %s"
keyAccountVerified = "account.verified %s"
keyAccountCallback = "account.callback %s"
keyAccountVerificationCode = "account.verificationcode %s"
keyAccountName = "account.name %s" // stores the 'preferred name' of the account, not casemapped
keyAccountRegTime = "account.registered.time %s"
keyAccountCredentials = "account.credentials %s"
keyAccountAdditionalNicks = "account.additionalnicks %s"
keyAccountEnforcement = "account.customenforcement %s"
keyAccountVHost = "account.vhost %s"
keyCertToAccount = "account.creds.certfp %s"
keyAccountChannels = "account.channels %s"
keyVHostQueueAcctToId = "vhostQueue %s"
vhostRequestIdx = "vhostQueue"
)
// everything about accounts is persistent; therefore, the database is the authoritative
// source of truth for all account information. anything on the heap is just a cache
type AccountManager struct {
// XXX these are up here so they can be aligned to a 64-bit boundary, please forgive me
// autoincrementing ID for vhost requests:
vhostRequestID uint64
vhostRequestPendingCount uint64
sync.RWMutex // tier 2
serialCacheUpdateMutex sync.Mutex // tier 3
vHostUpdateMutex sync.Mutex // tier 3
server *Server
// track clients logged in to accounts
accountToClients map[string][]*Client
nickToAccount map[string]string
skeletonToAccount map[string]string
accountToMethod map[string]NickReservationMethod
}
func NewAccountManager(server *Server) *AccountManager {
am := AccountManager{
accountToClients: make(map[string][]*Client),
nickToAccount: make(map[string]string),
skeletonToAccount: make(map[string]string),
accountToMethod: make(map[string]NickReservationMethod),
server: server,
}
am.buildNickToAccountIndex()
am.initVHostRequestQueue()
return &am
}
func (am *AccountManager) buildNickToAccountIndex() {
if !am.server.AccountConfig().NickReservation.Enabled {
return
}
nickToAccount := make(map[string]string)
skeletonToAccount := make(map[string]string)
accountToMethod := make(map[string]NickReservationMethod)
existsPrefix := fmt.Sprintf(keyAccountExists, "")
am.serialCacheUpdateMutex.Lock()
defer am.serialCacheUpdateMutex.Unlock()
err := am.server.store.View(func(tx *buntdb.Tx) error {
err := tx.AscendGreaterOrEqual("", existsPrefix, func(key, value string) bool {
if !strings.HasPrefix(key, existsPrefix) {
return false
}
account := strings.TrimPrefix(key, existsPrefix)
if _, err := tx.Get(fmt.Sprintf(keyAccountVerified, account)); err == nil {
nickToAccount[account] = account
accountName, err := tx.Get(fmt.Sprintf(keyAccountName, account))
if err != nil {
am.server.logger.Error("internal", "missing account name for", account)
} else {
skeleton, _ := Skeleton(accountName)
skeletonToAccount[skeleton] = account
}
}
if rawNicks, err := tx.Get(fmt.Sprintf(keyAccountAdditionalNicks, account)); err == nil {
additionalNicks := unmarshalReservedNicks(rawNicks)
for _, nick := range additionalNicks {
cfnick, _ := CasefoldName(nick)
nickToAccount[cfnick] = account
skeleton, _ := Skeleton(nick)
skeletonToAccount[skeleton] = account
}
}
if methodStr, err := tx.Get(fmt.Sprintf(keyAccountEnforcement, account)); err == nil {
method, err := nickReservationFromString(methodStr)
if err == nil {
accountToMethod[account] = method
}
}
return true
})
return err
})
if err != nil {
am.server.logger.Error("internal", "couldn't read reserved nicks", err.Error())
} else {
am.Lock()
am.nickToAccount = nickToAccount
am.skeletonToAccount = skeletonToAccount
am.accountToMethod = accountToMethod
am.Unlock()
}
}
func (am *AccountManager) initVHostRequestQueue() {
if !am.server.AccountConfig().VHosts.Enabled {
return
}
am.vHostUpdateMutex.Lock()
defer am.vHostUpdateMutex.Unlock()
// the db maps the account name to the autoincrementing integer ID of its request
// create an numerically ordered index on ID, so we can list the oldest requests
// finally, collect the integer id of the newest request and the total request count
var total uint64
var lastIDStr string
err := am.server.store.Update(func(tx *buntdb.Tx) error {
err := tx.CreateIndex(vhostRequestIdx, fmt.Sprintf(keyVHostQueueAcctToId, "*"), buntdb.IndexInt)
if err != nil {
return err
}
return tx.Descend(vhostRequestIdx, func(key, value string) bool {
if lastIDStr == "" {
lastIDStr = value
}
total++
return true
})
})
if err != nil {
am.server.logger.Error("internal", "could not create vhost queue index", err.Error())
}
lastID, _ := strconv.ParseUint(lastIDStr, 10, 64)
am.server.logger.Debug("services", fmt.Sprintf("vhost queue length is %d, autoincrementing id is %d", total, lastID))
atomic.StoreUint64(&am.vhostRequestID, lastID)
atomic.StoreUint64(&am.vhostRequestPendingCount, total)
}
func (am *AccountManager) NickToAccount(nick string) string {
cfnick, err := CasefoldName(nick)
if err != nil {
return ""
}
am.RLock()
defer am.RUnlock()
return am.nickToAccount[cfnick]
}
// Given a nick, looks up the account that owns it and the method (none/timeout/strict)
// used to enforce ownership.
func (am *AccountManager) EnforcementStatus(cfnick, skeleton string) (account string, method NickReservationMethod) {
config := am.server.Config()
if !config.Accounts.NickReservation.Enabled {
return "", NickReservationNone
}
am.RLock()
defer am.RUnlock()
// given an account, combine stored enforcement method with the config settings
// to compute the actual enforcement method
finalEnforcementMethod := func(account_ string) (result NickReservationMethod) {
result = am.accountToMethod[account_]
// if they don't have a custom setting, or customization is disabled, use the default
if result == NickReservationOptional || !config.Accounts.NickReservation.AllowCustomEnforcement {
result = config.Accounts.NickReservation.Method
}
if result == NickReservationOptional {
// enforcement was explicitly enabled neither in the config or by the user
result = NickReservationNone
}
return
}
nickAccount := am.nickToAccount[cfnick]
skelAccount := am.skeletonToAccount[skeleton]
if nickAccount == "" && skelAccount == "" {
return "", NickReservationNone
} else if nickAccount != "" && (skelAccount == nickAccount || skelAccount == "") {
return nickAccount, finalEnforcementMethod(nickAccount)
} else if skelAccount != "" && nickAccount == "" {
return skelAccount, finalEnforcementMethod(skelAccount)
} else {
// nickAccount != skelAccount and both are nonempty:
// two people have competing claims on (this casefolding of) this nick!
nickMethod := finalEnforcementMethod(nickAccount)
skelMethod := finalEnforcementMethod(skelAccount)
switch {
case nickMethod == NickReservationNone && skelMethod == NickReservationNone:
return nickAccount, NickReservationNone
case skelMethod == NickReservationNone:
return nickAccount, nickMethod
case nickMethod == NickReservationNone:
return skelAccount, skelMethod
default:
// nobody can use this nick
return "!", NickReservationStrict
}
}
}
// Looks up the enforcement method stored in the database for an account
// (typically you want EnforcementStatus instead, which respects the config)
func (am *AccountManager) getStoredEnforcementStatus(account string) string {
am.RLock()
defer am.RUnlock()
return nickReservationToString(am.accountToMethod[account])
}
// Sets a custom enforcement method for an account and stores it in the database.
func (am *AccountManager) SetEnforcementStatus(account string, method NickReservationMethod) (err error) {
config := am.server.Config()
if !(config.Accounts.NickReservation.Enabled && config.Accounts.NickReservation.AllowCustomEnforcement) {
return errFeatureDisabled
}
var serialized string
if method == NickReservationOptional {
serialized = "" // normally this is "default", but we're going to delete the key
} else {
serialized = nickReservationToString(method)
}
key := fmt.Sprintf(keyAccountEnforcement, account)
am.Lock()
defer am.Unlock()
currentMethod := am.accountToMethod[account]
if method != currentMethod {
if method == NickReservationOptional {
delete(am.accountToMethod, account)
} else {
am.accountToMethod[account] = method
}
return am.server.store.Update(func(tx *buntdb.Tx) (err error) {
if serialized != "" {
_, _, err = tx.Set(key, nickReservationToString(method), nil)
} else {
_, err = tx.Delete(key)
}
return
})
}
return nil
}
func (am *AccountManager) AccountToClients(account string) (result []*Client) {
cfaccount, err := CasefoldName(account)
if err != nil {
return
}
am.RLock()
defer am.RUnlock()
return am.accountToClients[cfaccount]
}
func (am *AccountManager) Register(client *Client, account string, callbackNamespace string, callbackValue string, passphrase string, certfp string) error {
casefoldedAccount, err := CasefoldName(account)
skeleton, skerr := Skeleton(account)
if err != nil || skerr != nil || account == "" || account == "*" {
return errAccountCreation
}
if restrictedNicknames[casefoldedAccount] || restrictedNicknames[skeleton] {
return errAccountAlreadyRegistered
}
config := am.server.AccountConfig()
// final "is registration allowed" check, probably redundant:
if !(config.Registration.Enabled || callbackNamespace == "admin") {
return errFeatureDisabled
}
// if nick reservation is enabled, you can only register your current nickname
// as an account; this prevents "land-grab" situations where someone else
// registers your nick out from under you and then NS GHOSTs you
// n.b. client is nil during a SAREGISTER:
if config.NickReservation.Enabled && client != nil && client.NickCasefolded() != casefoldedAccount {
return errAccountMustHoldNick
}
// can't register a guest nickname
renamePrefix := strings.ToLower(config.NickReservation.RenamePrefix)
if renamePrefix != "" && strings.HasPrefix(casefoldedAccount, renamePrefix) {
return errAccountAlreadyRegistered
}
accountKey := fmt.Sprintf(keyAccountExists, casefoldedAccount)
accountNameKey := fmt.Sprintf(keyAccountName, casefoldedAccount)
callbackKey := fmt.Sprintf(keyAccountCallback, casefoldedAccount)
registeredTimeKey := fmt.Sprintf(keyAccountRegTime, casefoldedAccount)
credentialsKey := fmt.Sprintf(keyAccountCredentials, casefoldedAccount)
verificationCodeKey := fmt.Sprintf(keyAccountVerificationCode, casefoldedAccount)
certFPKey := fmt.Sprintf(keyCertToAccount, certfp)
credStr, err := am.serializeCredentials(passphrase, certfp)
if err != nil {
return err
}
registeredTimeStr := strconv.FormatInt(time.Now().Unix(), 10)
callbackSpec := fmt.Sprintf("%s:%s", callbackNamespace, callbackValue)
var setOptions *buntdb.SetOptions
ttl := config.Registration.VerifyTimeout
if ttl != 0 {
setOptions = &buntdb.SetOptions{Expires: true, TTL: ttl}
}
err = func() error {
am.serialCacheUpdateMutex.Lock()
defer am.serialCacheUpdateMutex.Unlock()
// can't register an account with the same name as a registered nick
if am.NickToAccount(casefoldedAccount) != "" {
return errAccountAlreadyRegistered
}
return am.server.store.Update(func(tx *buntdb.Tx) error {
_, err := am.loadRawAccount(tx, casefoldedAccount)
if err != errAccountDoesNotExist {
return errAccountAlreadyRegistered
}
if certfp != "" {
// make sure certfp doesn't already exist because that'd be silly
_, err := tx.Get(certFPKey)
if err != buntdb.ErrNotFound {
return errCertfpAlreadyExists
}
}
tx.Set(accountKey, "1", setOptions)
tx.Set(accountNameKey, account, setOptions)
tx.Set(registeredTimeKey, registeredTimeStr, setOptions)
tx.Set(credentialsKey, credStr, setOptions)
tx.Set(callbackKey, callbackSpec, setOptions)
if certfp != "" {
tx.Set(certFPKey, casefoldedAccount, setOptions)
}
return nil
})
}()
if err != nil {
return err
}
code, err := am.dispatchCallback(client, casefoldedAccount, callbackNamespace, callbackValue)
if err != nil {
am.Unregister(casefoldedAccount)
return errCallbackFailed
} else {
return am.server.store.Update(func(tx *buntdb.Tx) error {
_, _, err = tx.Set(verificationCodeKey, code, setOptions)
return err
})
}
}
// validatePassphrase checks whether a passphrase is allowed by our rules
func validatePassphrase(passphrase string) error {
// sanity check the length
if len(passphrase) == 0 || len(passphrase) > 600 {
return errAccountBadPassphrase
}
// for now, just enforce that spaces are not allowed
for _, r := range passphrase {
if unicode.IsSpace(r) {
return errAccountBadPassphrase
}
}
return nil
}
// helper to assemble the serialized JSON for an account's credentials
func (am *AccountManager) serializeCredentials(passphrase string, certfp string) (result string, err error) {
var creds AccountCredentials
creds.Version = 1
// we need at least one of passphrase and certfp:
if passphrase == "" && certfp == "" {
return "", errAccountBadPassphrase
}
// but if we have one, it's fine if the other is missing, it just means no
// credential of that type will be accepted.
creds.Certificate = certfp
if passphrase != "" {
if validatePassphrase(passphrase) != nil {
return "", errAccountBadPassphrase
}
bcryptCost := int(am.server.Config().Accounts.Registration.BcryptCost)
creds.PassphraseHash, err = passwd.GenerateFromPassword([]byte(passphrase), bcryptCost)
if err != nil {
am.server.logger.Error("internal", "could not hash password", err.Error())
return "", errAccountCreation
}
}
credText, err := json.Marshal(creds)
if err != nil {
am.server.logger.Error("internal", "could not marshal credentials", err.Error())
return "", errAccountCreation
}
return string(credText), nil
}
// changes the password for an account
func (am *AccountManager) setPassword(account string, password string) (err error) {
casefoldedAccount, err := CasefoldName(account)
if err != nil {
return err
}
act, err := am.LoadAccount(casefoldedAccount)
if err != nil {
return err
}
credStr, err := am.serializeCredentials(password, act.Credentials.Certificate)
if err != nil {
return err
}
credentialsKey := fmt.Sprintf(keyAccountCredentials, casefoldedAccount)
return am.server.store.Update(func(tx *buntdb.Tx) error {
_, _, err := tx.Set(credentialsKey, credStr, nil)
return err
})
}
func (am *AccountManager) dispatchCallback(client *Client, casefoldedAccount string, callbackNamespace string, callbackValue string) (string, error) {
if callbackNamespace == "*" || callbackNamespace == "none" || callbackNamespace == "admin" {
return "", nil
} else if callbackNamespace == "mailto" {
return am.dispatchMailtoCallback(client, casefoldedAccount, callbackValue)
} else {
return "", errors.New(fmt.Sprintf("Callback not implemented: %s", callbackNamespace))
}
}
func (am *AccountManager) dispatchMailtoCallback(client *Client, casefoldedAccount string, callbackValue string) (code string, err error) {
config := am.server.AccountConfig().Registration.Callbacks.Mailto
code = utils.GenerateSecretToken()
subject := config.VerifyMessageSubject
if subject == "" {
subject = fmt.Sprintf(client.t("Verify your account on %s"), am.server.name)
}
messageStrings := []string{
fmt.Sprintf("From: %s\r\n", config.Sender),
fmt.Sprintf("To: %s\r\n", callbackValue),
fmt.Sprintf("Subject: %s\r\n", subject),
"\r\n", // end headers, begin message body
fmt.Sprintf(client.t("Account: %s"), casefoldedAccount) + "\r\n",
fmt.Sprintf(client.t("Verification code: %s"), code) + "\r\n",
"\r\n",
client.t("To verify your account, issue one of these commands:") + "\r\n",
fmt.Sprintf("/MSG NickServ VERIFY %s %s", casefoldedAccount, code) + "\r\n",
}
var message []byte
for i := 0; i < len(messageStrings); i++ {
message = append(message, []byte(messageStrings[i])...)
}
addr := fmt.Sprintf("%s:%d", config.Server, config.Port)
var auth smtp.Auth
if config.Username != "" && config.Password != "" {
auth = smtp.PlainAuth("", config.Username, config.Password, config.Server)
}
// TODO: this will never send the password in plaintext over a nonlocal link,
// but it might send the email in plaintext, regardless of the value of
// config.TLS.InsecureSkipVerify
err = smtp.SendMail(addr, auth, config.Sender, []string{callbackValue}, message)
if err != nil {
am.server.logger.Error("internal", "Failed to dispatch e-mail", err.Error())
}
return
}
func (am *AccountManager) Verify(client *Client, account string, code string) error {
casefoldedAccount, err := CasefoldName(account)
if err != nil || account == "" || account == "*" {
return errAccountVerificationFailed
}
verifiedKey := fmt.Sprintf(keyAccountVerified, casefoldedAccount)
accountKey := fmt.Sprintf(keyAccountExists, casefoldedAccount)
accountNameKey := fmt.Sprintf(keyAccountName, casefoldedAccount)
registeredTimeKey := fmt.Sprintf(keyAccountRegTime, casefoldedAccount)
verificationCodeKey := fmt.Sprintf(keyAccountVerificationCode, casefoldedAccount)
callbackKey := fmt.Sprintf(keyAccountCallback, casefoldedAccount)
credentialsKey := fmt.Sprintf(keyAccountCredentials, casefoldedAccount)
var raw rawClientAccount
func() {
am.serialCacheUpdateMutex.Lock()
defer am.serialCacheUpdateMutex.Unlock()
err = am.server.store.Update(func(tx *buntdb.Tx) error {
raw, err = am.loadRawAccount(tx, casefoldedAccount)
if err == errAccountDoesNotExist {
return errAccountDoesNotExist
} else if err != nil {
return errAccountVerificationFailed
} else if raw.Verified {
return errAccountAlreadyVerified
}
// actually verify the code
// a stored code of "" means a none callback / no code required
success := false
storedCode, err := tx.Get(verificationCodeKey)
if err == nil {
// this is probably unnecessary
if storedCode == "" || utils.SecretTokensMatch(storedCode, code) {
success = true
}
}
if !success {
return errAccountVerificationInvalidCode
}
// verify the account
tx.Set(verifiedKey, "1", nil)
// don't need the code anymore
tx.Delete(verificationCodeKey)
// re-set all other keys, removing the TTL
tx.Set(accountKey, "1", nil)
tx.Set(accountNameKey, raw.Name, nil)
tx.Set(registeredTimeKey, raw.RegisteredAt, nil)
tx.Set(callbackKey, raw.Callback, nil)
tx.Set(credentialsKey, raw.Credentials, nil)
var creds AccountCredentials
// XXX we shouldn't do (de)serialization inside the txn,
// but this is like 2 usec on my system
json.Unmarshal([]byte(raw.Credentials), &creds)
if creds.Certificate != "" {
certFPKey := fmt.Sprintf(keyCertToAccount, creds.Certificate)
tx.Set(certFPKey, casefoldedAccount, nil)
}
return nil
})
if err == nil {
skeleton, _ := Skeleton(raw.Name)
am.Lock()
am.nickToAccount[casefoldedAccount] = casefoldedAccount
am.skeletonToAccount[skeleton] = casefoldedAccount
am.Unlock()
}
}()
if err != nil {
return err
}
nick := "[server admin]"
if client != nil {
nick = client.Nick()
}
am.server.logger.Info("accounts", "client", nick, "registered account", casefoldedAccount)
raw.Verified = true
clientAccount, err := am.deserializeRawAccount(raw)
if err != nil {
return err
}
if client != nil {
am.Login(client, clientAccount)
}
return nil
}
func marshalReservedNicks(nicks []string) string {
return strings.Join(nicks, ",")
}
func unmarshalReservedNicks(nicks string) (result []string) {
if nicks == "" {
return
}
return strings.Split(nicks, ",")
}
func (am *AccountManager) SetNickReserved(client *Client, nick string, saUnreserve bool, reserve bool) error {
cfnick, err := CasefoldName(nick)
skeleton, skerr := Skeleton(nick)
// garbage nick, or garbage options, or disabled
nrconfig := am.server.AccountConfig().NickReservation
if err != nil || skerr != nil || cfnick == "" || (reserve && saUnreserve) || !nrconfig.Enabled {
return errAccountNickReservationFailed
}
// the cache is in sync with the DB while we hold serialCacheUpdateMutex
am.serialCacheUpdateMutex.Lock()
defer am.serialCacheUpdateMutex.Unlock()
// find the affected account, which is usually the client's:
account := client.Account()
if saUnreserve {
// unless this is a sadrop:
account = am.NickToAccount(cfnick)
if account == "" {
// nothing to do
return nil
}
}
if account == "" {
return errAccountNotLoggedIn
}
am.Lock()
accountForNick := am.nickToAccount[cfnick]
var accountForSkeleton string
if reserve {
accountForSkeleton = am.skeletonToAccount[skeleton]
}
am.Unlock()
if reserve && (accountForNick != "" || accountForSkeleton != "") {
return errNicknameReserved
} else if !reserve && !saUnreserve && accountForNick != account {
return errNicknameReserved
} else if !reserve && cfnick == account {
return errAccountCantDropPrimaryNick
}
nicksKey := fmt.Sprintf(keyAccountAdditionalNicks, account)
unverifiedAccountKey := fmt.Sprintf(keyAccountExists, cfnick)
err = am.server.store.Update(func(tx *buntdb.Tx) error {
if reserve {
// unverified accounts don't show up in NickToAccount yet (which is intentional),
// however you shouldn't be able to reserve a nick out from under them
_, err := tx.Get(unverifiedAccountKey)
if err == nil {
return errNicknameReserved
}
}
rawNicks, err := tx.Get(nicksKey)
if err != nil && err != buntdb.ErrNotFound {
return err
}
nicks := unmarshalReservedNicks(rawNicks)
if reserve {
if len(nicks) >= nrconfig.AdditionalNickLimit {
return errAccountTooManyNicks
}
nicks = append(nicks, nick)
} else {
// compute (original reserved nicks) minus cfnick
var newNicks []string
for _, reservedNick := range nicks {
cfreservednick, _ := CasefoldName(reservedNick)
if cfreservednick != cfnick {
newNicks = append(newNicks, reservedNick)
} else {
// found the original, unfolded version of the nick we're dropping;
// recompute the true skeleton from it
skeleton, _ = Skeleton(reservedNick)
}
}
nicks = newNicks
}
marshaledNicks := marshalReservedNicks(nicks)
_, _, err = tx.Set(nicksKey, string(marshaledNicks), nil)
return err
})
if err == errAccountTooManyNicks || err == errNicknameReserved {
return err
} else if err != nil {
return errAccountNickReservationFailed
}
// success
am.Lock()
defer am.Unlock()
if reserve {
am.nickToAccount[cfnick] = account
am.skeletonToAccount[skeleton] = account
} else {
delete(am.nickToAccount, cfnick)
delete(am.skeletonToAccount, skeleton)
}
return nil
}
func (am *AccountManager) checkPassphrase(accountName, passphrase string) (account ClientAccount, err error) {
account, err = am.LoadAccount(accountName)
if err != nil {
return
}
if !account.Verified {
err = errAccountUnverified
return
}
switch account.Credentials.Version {
case 0:
err = handleLegacyPasswordV0(am.server, accountName, account.Credentials, passphrase)
case 1:
if passwd.CompareHashAndPassword(account.Credentials.PassphraseHash, []byte(passphrase)) != nil {
err = errAccountInvalidCredentials
}
default:
err = errAccountInvalidCredentials
}
return
}
func (am *AccountManager) AuthenticateByPassphrase(client *Client, accountName string, passphrase string) error {
account, err := am.checkPassphrase(accountName, passphrase)
if err != nil {
return err
}
am.Login(client, account)
return nil
}
func (am *AccountManager) LoadAccount(accountName string) (result ClientAccount, err error) {
casefoldedAccount, err := CasefoldName(accountName)
if err != nil {
err = errAccountDoesNotExist
return
}
var raw rawClientAccount
am.server.store.View(func(tx *buntdb.Tx) error {
raw, err = am.loadRawAccount(tx, casefoldedAccount)
return nil
})
if err != nil {
return
}
result, err = am.deserializeRawAccount(raw)
return
}
func (am *AccountManager) deserializeRawAccount(raw rawClientAccount) (result ClientAccount, err error) {
result.Name = raw.Name
regTimeInt, _ := strconv.ParseInt(raw.RegisteredAt, 10, 64)
result.RegisteredAt = time.Unix(regTimeInt, 0)
e := json.Unmarshal([]byte(raw.Credentials), &result.Credentials)
if e != nil {
am.server.logger.Error("internal", "could not unmarshal credentials", e.Error())
err = errAccountDoesNotExist
return
}
result.AdditionalNicks = unmarshalReservedNicks(raw.AdditionalNicks)
result.Verified = raw.Verified
if raw.VHost != "" {
e := json.Unmarshal([]byte(raw.VHost), &result.VHost)
if e != nil {
am.server.logger.Warning("internal", "could not unmarshal vhost for account", result.Name, e.Error())
// pretend they have no vhost and move on
}
}
return
}
func (am *AccountManager) loadRawAccount(tx *buntdb.Tx, casefoldedAccount string) (result rawClientAccount, err error) {
accountKey := fmt.Sprintf(keyAccountExists, casefoldedAccount)
accountNameKey := fmt.Sprintf(keyAccountName, casefoldedAccount)
registeredTimeKey := fmt.Sprintf(keyAccountRegTime, casefoldedAccount)
credentialsKey := fmt.Sprintf(keyAccountCredentials, casefoldedAccount)
verifiedKey := fmt.Sprintf(keyAccountVerified, casefoldedAccount)
callbackKey := fmt.Sprintf(keyAccountCallback, casefoldedAccount)
nicksKey := fmt.Sprintf(keyAccountAdditionalNicks, casefoldedAccount)
vhostKey := fmt.Sprintf(keyAccountVHost, casefoldedAccount)
_, e := tx.Get(accountKey)
if e == buntdb.ErrNotFound {
err = errAccountDoesNotExist
return
}
result.Name, _ = tx.Get(accountNameKey)
result.RegisteredAt, _ = tx.Get(registeredTimeKey)
result.Credentials, _ = tx.Get(credentialsKey)
result.Callback, _ = tx.Get(callbackKey)
result.AdditionalNicks, _ = tx.Get(nicksKey)
result.VHost, _ = tx.Get(vhostKey)
if _, e = tx.Get(verifiedKey); e == nil {
result.Verified = true
}
return
}
func (am *AccountManager) Unregister(account string) error {
config := am.server.Config()
casefoldedAccount, err := CasefoldName(account)
if err != nil {
return errAccountDoesNotExist
}
accountKey := fmt.Sprintf(keyAccountExists, casefoldedAccount)
accountNameKey := fmt.Sprintf(keyAccountName, casefoldedAccount)
registeredTimeKey := fmt.Sprintf(keyAccountRegTime, casefoldedAccount)
credentialsKey := fmt.Sprintf(keyAccountCredentials, casefoldedAccount)
callbackKey := fmt.Sprintf(keyAccountCallback, casefoldedAccount)
verificationCodeKey := fmt.Sprintf(keyAccountVerificationCode, casefoldedAccount)
verifiedKey := fmt.Sprintf(keyAccountVerified, casefoldedAccount)
nicksKey := fmt.Sprintf(keyAccountAdditionalNicks, casefoldedAccount)
vhostKey := fmt.Sprintf(keyAccountVHost, casefoldedAccount)
vhostQueueKey := fmt.Sprintf(keyVHostQueueAcctToId, casefoldedAccount)
channelsKey := fmt.Sprintf(keyAccountChannels, casefoldedAccount)
var clients []*Client
var registeredChannels []string
// on our way out, unregister all the account's channels and delete them from the db
defer func() {
for _, channelName := range registeredChannels {
info := am.server.channelRegistry.LoadChannel(channelName)
if info != nil && info.Founder == casefoldedAccount {
am.server.channelRegistry.Delete(channelName, *info)
}
channel := am.server.channels.Get(channelName)
if channel != nil {
channel.SetUnregistered(casefoldedAccount)
}
}
}()
var credText string
var rawNicks string
am.serialCacheUpdateMutex.Lock()
defer am.serialCacheUpdateMutex.Unlock()
var accountName string
var channelsStr string
am.server.store.Update(func(tx *buntdb.Tx) error {
tx.Delete(accountKey)
accountName, _ = tx.Get(accountNameKey)
tx.Delete(accountNameKey)
tx.Delete(verifiedKey)
tx.Delete(registeredTimeKey)
tx.Delete(callbackKey)
tx.Delete(verificationCodeKey)
rawNicks, _ = tx.Get(nicksKey)
tx.Delete(nicksKey)
credText, err = tx.Get(credentialsKey)
tx.Delete(credentialsKey)
tx.Delete(vhostKey)
channelsStr, _ = tx.Get(channelsKey)
tx.Delete(channelsKey)
_, err := tx.Delete(vhostQueueKey)
am.decrementVHostQueueCount(casefoldedAccount, err)
return nil
})
if err == nil {
var creds AccountCredentials
if err = json.Unmarshal([]byte(credText), &creds); err == nil && creds.Certificate != "" {
certFPKey := fmt.Sprintf(keyCertToAccount, creds.Certificate)
am.server.store.Update(func(tx *buntdb.Tx) error {
if account, err := tx.Get(certFPKey); err == nil && account == casefoldedAccount {
tx.Delete(certFPKey)
}
return nil
})
}
}
skeleton, _ := Skeleton(accountName)
additionalNicks := unmarshalReservedNicks(rawNicks)
registeredChannels = unmarshalRegisteredChannels(channelsStr)
am.Lock()
defer am.Unlock()
clients = am.accountToClients[casefoldedAccount]
delete(am.accountToClients, casefoldedAccount)
delete(am.nickToAccount, casefoldedAccount)
delete(am.skeletonToAccount, skeleton)
for _, nick := range additionalNicks {
delete(am.nickToAccount, nick)
additionalSkel, _ := Skeleton(nick)
delete(am.skeletonToAccount, additionalSkel)
}
for _, client := range clients {
if config.Accounts.RequireSasl.Enabled {
client.Quit(client.t("You are no longer authorized to be on this server"))
// destroy acquires a semaphore so we can't call it while holding a lock
go client.destroy(false)
} else {
am.logoutOfAccount(client)
}
}
if err != nil {
return errAccountDoesNotExist
}
return nil
}
func unmarshalRegisteredChannels(channelsStr string) (result []string) {
if channelsStr != "" {
result = strings.Split(channelsStr, ",")
}
return
}
func (am *AccountManager) ChannelsForAccount(account string) (channels []string) {
cfaccount, err := CasefoldName(account)
if err != nil {
return
}
var channelStr string
key := fmt.Sprintf(keyAccountChannels, cfaccount)
am.server.store.View(func(tx *buntdb.Tx) error {
channelStr, _ = tx.Get(key)
return nil
})
return unmarshalRegisteredChannels(channelStr)
}
func (am *AccountManager) AuthenticateByCertFP(client *Client) error {
if client.certfp == "" {
return errAccountInvalidCredentials
}
var account string
var rawAccount rawClientAccount
certFPKey := fmt.Sprintf(keyCertToAccount, client.certfp)
err := am.server.store.Update(func(tx *buntdb.Tx) error {
var err error
account, _ = tx.Get(certFPKey)
if account == "" {
return errAccountInvalidCredentials
}
rawAccount, err = am.loadRawAccount(tx, account)
if err != nil || !rawAccount.Verified {
return errAccountUnverified
}
return nil
})
if err != nil {
return err
}
// ok, we found an account corresponding to their certificate
clientAccount, err := am.deserializeRawAccount(rawAccount)
if err != nil {
return err
}
am.Login(client, clientAccount)
return nil
}
// represents someone's status in hostserv
type VHostInfo struct {
ApprovedVHost string
Enabled bool
RequestedVHost string
RejectedVHost string
RejectionReason string
LastRequestTime time.Time
}
// pair type, <VHostInfo, accountName>
type PendingVHostRequest struct {
VHostInfo
Account string
}
// callback type implementing the actual business logic of vhost operations
type vhostMunger func(input VHostInfo) (output VHostInfo, err error)
func (am *AccountManager) VHostSet(account string, vhost string) (result VHostInfo, err error) {
munger := func(input VHostInfo) (output VHostInfo, err error) {
output = input
output.Enabled = true
output.ApprovedVHost = vhost
return
}
return am.performVHostChange(account, munger)
}
func (am *AccountManager) VHostRequest(account string, vhost string) (result VHostInfo, err error) {
munger := func(input VHostInfo) (output VHostInfo, err error) {
output = input
output.RequestedVHost = vhost
output.RejectedVHost = ""
output.RejectionReason = ""
output.LastRequestTime = time.Now().UTC()
return
}
return am.performVHostChange(account, munger)
}
func (am *AccountManager) VHostApprove(account string) (result VHostInfo, err error) {
munger := func(input VHostInfo) (output VHostInfo, err error) {
output = input
output.Enabled = true
output.ApprovedVHost = input.RequestedVHost
output.RequestedVHost = ""
output.RejectionReason = ""
return
}
return am.performVHostChange(account, munger)
}
func (am *AccountManager) VHostReject(account string, reason string) (result VHostInfo, err error) {
munger := func(input VHostInfo) (output VHostInfo, err error) {
output = input
output.RejectedVHost = output.RequestedVHost
output.RequestedVHost = ""
output.RejectionReason = reason
return
}
return am.performVHostChange(account, munger)
}
func (am *AccountManager) VHostSetEnabled(client *Client, enabled bool) (result VHostInfo, err error) {
munger := func(input VHostInfo) (output VHostInfo, err error) {
output = input
output.Enabled = enabled
return
}
return am.performVHostChange(client.Account(), munger)
}
func (am *AccountManager) performVHostChange(account string, munger vhostMunger) (result VHostInfo, err error) {
account, err = CasefoldName(account)
if err != nil || account == "" {
err = errAccountDoesNotExist
return
}
am.vHostUpdateMutex.Lock()
defer am.vHostUpdateMutex.Unlock()
clientAccount, err := am.LoadAccount(account)
if err != nil {
err = errAccountDoesNotExist
return
} else if !clientAccount.Verified {
err = errAccountUnverified
return
}
result, err = munger(clientAccount.VHost)
if err != nil {
return
}
vhtext, err := json.Marshal(result)
if err != nil {
err = errAccountUpdateFailed
return
}
vhstr := string(vhtext)
key := fmt.Sprintf(keyAccountVHost, account)
queueKey := fmt.Sprintf(keyVHostQueueAcctToId, account)
err = am.server.store.Update(func(tx *buntdb.Tx) error {
if _, _, err := tx.Set(key, vhstr, nil); err != nil {
return err
}
// update request queue
if clientAccount.VHost.RequestedVHost == "" && result.RequestedVHost != "" {
id := atomic.AddUint64(&am.vhostRequestID, 1)
if _, _, err = tx.Set(queueKey, strconv.FormatUint(id, 10), nil); err != nil {
return err
}
atomic.AddUint64(&am.vhostRequestPendingCount, 1)
} else if clientAccount.VHost.RequestedVHost != "" && result.RequestedVHost == "" {
_, err = tx.Delete(queueKey)
am.decrementVHostQueueCount(account, err)
}
return nil
})
if err != nil {
err = errAccountUpdateFailed
return
}
am.applyVhostToClients(account, result)
return result, nil
}
// XXX annoying helper method for keeping the queue count in sync with the DB
// `err` is the buntdb error returned from deleting the queue key
func (am *AccountManager) decrementVHostQueueCount(account string, err error) {
if err == nil {
// successfully deleted a queue entry, do a 2's complement decrement:
atomic.AddUint64(&am.vhostRequestPendingCount, ^uint64(0))
} else if err != buntdb.ErrNotFound {
am.server.logger.Error("internal", "buntdb dequeue error", account, err.Error())
}
}
func (am *AccountManager) VHostListRequests(limit int) (requests []PendingVHostRequest, total int) {
am.vHostUpdateMutex.Lock()
defer am.vHostUpdateMutex.Unlock()
total = int(atomic.LoadUint64(&am.vhostRequestPendingCount))
prefix := fmt.Sprintf(keyVHostQueueAcctToId, "")
accounts := make([]string, 0, limit)
err := am.server.store.View(func(tx *buntdb.Tx) error {
return tx.Ascend(vhostRequestIdx, func(key, value string) bool {
accounts = append(accounts, strings.TrimPrefix(key, prefix))
return len(accounts) < limit
})
})
if err != nil {
am.server.logger.Error("internal", "couldn't traverse vhost queue", err.Error())
return
}
for _, account := range accounts {
accountInfo, err := am.LoadAccount(account)
if err == nil {
requests = append(requests, PendingVHostRequest{
Account: account,
VHostInfo: accountInfo.VHost,
})
} else {
am.server.logger.Error("internal", "corrupt account", account, err.Error())
}
}
return
}
func (am *AccountManager) applyVHostInfo(client *Client, info VHostInfo) {
// if hostserv is disabled in config, then don't grant vhosts
// that were previously approved while it was enabled
if !am.server.AccountConfig().VHosts.Enabled {
return
}
vhost := ""
if info.Enabled {
vhost = info.ApprovedVHost
}
oldNickmask := client.NickMaskString()
updated := client.SetVHost(vhost)
if updated {
// TODO: doing I/O here is kind of a kludge
go client.sendChghost(oldNickmask, client.Hostname())
}
}
func (am *AccountManager) applyVhostToClients(account string, result VHostInfo) {
am.RLock()
clients := am.accountToClients[account]
am.RUnlock()
for _, client := range clients {
am.applyVHostInfo(client, result)
}
}
func (am *AccountManager) Login(client *Client, account ClientAccount) {
changed := client.SetAccountName(account.Name)
if !changed {
return
}
client.nickTimer.Touch()
am.applyVHostInfo(client, account.VHost)
casefoldedAccount := client.Account()
am.Lock()
defer am.Unlock()
am.accountToClients[casefoldedAccount] = append(am.accountToClients[casefoldedAccount], client)
}
func (am *AccountManager) Logout(client *Client) {
am.Lock()
defer am.Unlock()
casefoldedAccount := client.Account()
if casefoldedAccount == "" {
return
}
am.logoutOfAccount(client)
clients := am.accountToClients[casefoldedAccount]
if len(clients) <= 1 {
delete(am.accountToClients, casefoldedAccount)
return
}
remainingClients := make([]*Client, len(clients)-1)
remainingPos := 0
for currentPos := 0; currentPos < len(clients); currentPos++ {
if clients[currentPos] != client {
remainingClients[remainingPos] = clients[currentPos]
remainingPos++
}
}
am.accountToClients[casefoldedAccount] = remainingClients
return
}
var (
// EnabledSaslMechanisms contains the SASL mechanisms that exist and that we support.
// This can be moved to some other data structure/place if we need to load/unload mechs later.
EnabledSaslMechanisms = map[string]func(*Server, *Client, string, []byte, *ResponseBuffer) bool{
"PLAIN": authPlainHandler,
"EXTERNAL": authExternalHandler,
}
)
// AccountCredentials stores the various methods for verifying accounts.
type AccountCredentials struct {
Version uint
PassphraseSalt []byte // legacy field, not used by v1 and later
PassphraseHash []byte
Certificate string // fingerprint
}
// ClientAccount represents a user account.
type ClientAccount struct {
// Name of the account.
Name string
// RegisteredAt represents the time that the account was registered.
RegisteredAt time.Time
Credentials AccountCredentials
Verified bool
AdditionalNicks []string
VHost VHostInfo
}
// convenience for passing around raw serialized account data
type rawClientAccount struct {
Name string
RegisteredAt string
Credentials string
Callback string
Verified bool
AdditionalNicks string
VHost string
}
// logoutOfAccount logs the client out of their current account.
func (am *AccountManager) logoutOfAccount(client *Client) {
if client.Account() == "" {
// already logged out
return
}
client.SetAccountName("")
go client.nickTimer.Touch()
// dispatch account-notify
// TODO: doing the I/O here is kind of a kludge, let's move this somewhere else
go func() {
for friend := range client.Friends(caps.AccountNotify) {
friend.Send(nil, client.NickMaskString(), "ACCOUNT", "*")
}
}()
}