matrix-go-test/vendor/maunium.net/go/mautrix/crypto/sql_store.go

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2023-02-08 17:23:21 +00:00
// Copyright (c) 2022 Tulir Asokan
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
package crypto
import (
"database/sql"
"database/sql/driver"
"errors"
"fmt"
"strings"
"sync"
"maunium.net/go/mautrix/crypto/olm"
"maunium.net/go/mautrix/crypto/sql_store_upgrade"
"maunium.net/go/mautrix/event"
"maunium.net/go/mautrix/id"
"maunium.net/go/mautrix/util/dbutil"
)
var PostgresArrayWrapper func(interface{}) interface {
driver.Valuer
sql.Scanner
}
// SQLCryptoStore is an implementation of a crypto Store for a database backend.
type SQLCryptoStore struct {
DB *dbutil.Database
AccountID string
DeviceID id.DeviceID
SyncToken string
PickleKey []byte
Account *OlmAccount
olmSessionCache map[id.SenderKey]map[id.SessionID]*OlmSession
olmSessionCacheLock sync.Mutex
}
var _ Store = (*SQLCryptoStore)(nil)
// NewSQLCryptoStore initializes a new crypto Store using the given database, for a device's crypto material.
// The stored material will be encrypted with the given key.
func NewSQLCryptoStore(db *dbutil.Database, log dbutil.DatabaseLogger, accountID string, deviceID id.DeviceID, pickleKey []byte) *SQLCryptoStore {
return &SQLCryptoStore{
DB: db.Child(sql_store_upgrade.VersionTableName, sql_store_upgrade.Table, log),
PickleKey: pickleKey,
AccountID: accountID,
DeviceID: deviceID,
olmSessionCache: make(map[id.SenderKey]map[id.SessionID]*OlmSession),
}
}
// Flush does nothing for this implementation as data is already persisted in the database.
func (store *SQLCryptoStore) Flush() error {
return nil
}
// PutNextBatch stores the next sync batch token for the current account.
func (store *SQLCryptoStore) PutNextBatch(nextBatch string) error {
store.SyncToken = nextBatch
_, err := store.DB.Exec(`UPDATE crypto_account SET sync_token=$1 WHERE account_id=$2`, store.SyncToken, store.AccountID)
return err
}
// GetNextBatch retrieves the next sync batch token for the current account.
func (store *SQLCryptoStore) GetNextBatch() (string, error) {
if store.SyncToken == "" {
err := store.DB.
QueryRow("SELECT sync_token FROM crypto_account WHERE account_id=$1", store.AccountID).
Scan(&store.SyncToken)
if !errors.Is(err, sql.ErrNoRows) {
return "", err
}
}
return store.SyncToken, nil
}
// PutAccount stores an OlmAccount in the database.
func (store *SQLCryptoStore) PutAccount(account *OlmAccount) error {
store.Account = account
bytes := account.Internal.Pickle(store.PickleKey)
_, err := store.DB.Exec(`
INSERT INTO crypto_account (device_id, shared, sync_token, account, account_id) VALUES ($1, $2, $3, $4, $5)
ON CONFLICT (account_id) DO UPDATE SET shared=excluded.shared, sync_token=excluded.sync_token,
account=excluded.account, account_id=excluded.account_id
`, store.DeviceID, account.Shared, store.SyncToken, bytes, store.AccountID)
return err
}
// GetAccount retrieves an OlmAccount from the database.
func (store *SQLCryptoStore) GetAccount() (*OlmAccount, error) {
if store.Account == nil {
row := store.DB.QueryRow("SELECT shared, sync_token, account FROM crypto_account WHERE account_id=$1", store.AccountID)
acc := &OlmAccount{Internal: *olm.NewBlankAccount()}
var accountBytes []byte
err := row.Scan(&acc.Shared, &store.SyncToken, &accountBytes)
if err == sql.ErrNoRows {
return nil, nil
} else if err != nil {
return nil, err
}
err = acc.Internal.Unpickle(accountBytes, store.PickleKey)
if err != nil {
return nil, err
}
store.Account = acc
}
return store.Account, nil
}
// HasSession returns whether there is an Olm session for the given sender key.
func (store *SQLCryptoStore) HasSession(key id.SenderKey) bool {
store.olmSessionCacheLock.Lock()
cache, ok := store.olmSessionCache[key]
store.olmSessionCacheLock.Unlock()
if ok && len(cache) > 0 {
return true
}
var sessionID id.SessionID
err := store.DB.QueryRow("SELECT session_id FROM crypto_olm_session WHERE sender_key=$1 AND account_id=$2 LIMIT 1",
key, store.AccountID).Scan(&sessionID)
if err == sql.ErrNoRows {
return false
}
return len(sessionID) > 0
}
// GetSessions returns all the known Olm sessions for a sender key.
func (store *SQLCryptoStore) GetSessions(key id.SenderKey) (OlmSessionList, error) {
rows, err := store.DB.Query("SELECT session_id, session, created_at, last_encrypted, last_decrypted FROM crypto_olm_session WHERE sender_key=$1 AND account_id=$2 ORDER BY last_decrypted DESC",
key, store.AccountID)
if err != nil {
return nil, err
}
list := OlmSessionList{}
store.olmSessionCacheLock.Lock()
defer store.olmSessionCacheLock.Unlock()
cache := store.getOlmSessionCache(key)
for rows.Next() {
sess := OlmSession{Internal: *olm.NewBlankSession()}
var sessionBytes []byte
var sessionID id.SessionID
err = rows.Scan(&sessionID, &sessionBytes, &sess.CreationTime, &sess.LastEncryptedTime, &sess.LastDecryptedTime)
if err != nil {
return nil, err
} else if existing, ok := cache[sessionID]; ok {
list = append(list, existing)
} else {
err = sess.Internal.Unpickle(sessionBytes, store.PickleKey)
if err != nil {
return nil, err
}
list = append(list, &sess)
cache[sess.ID()] = &sess
}
}
return list, nil
}
func (store *SQLCryptoStore) getOlmSessionCache(key id.SenderKey) map[id.SessionID]*OlmSession {
data, ok := store.olmSessionCache[key]
if !ok {
data = make(map[id.SessionID]*OlmSession)
store.olmSessionCache[key] = data
}
return data
}
// GetLatestSession retrieves the Olm session for a given sender key from the database that has the largest ID.
func (store *SQLCryptoStore) GetLatestSession(key id.SenderKey) (*OlmSession, error) {
store.olmSessionCacheLock.Lock()
defer store.olmSessionCacheLock.Unlock()
row := store.DB.QueryRow("SELECT session_id, session, created_at, last_encrypted, last_decrypted FROM crypto_olm_session WHERE sender_key=$1 AND account_id=$2 ORDER BY last_decrypted DESC LIMIT 1",
key, store.AccountID)
sess := OlmSession{Internal: *olm.NewBlankSession()}
var sessionBytes []byte
var sessionID id.SessionID
err := row.Scan(&sessionID, &sessionBytes, &sess.CreationTime, &sess.LastEncryptedTime, &sess.LastDecryptedTime)
if err == sql.ErrNoRows {
return nil, nil
} else if err != nil {
return nil, err
}
cache := store.getOlmSessionCache(key)
if oldSess, ok := cache[sessionID]; ok {
return oldSess, nil
} else if err = sess.Internal.Unpickle(sessionBytes, store.PickleKey); err != nil {
return nil, err
} else {
cache[sessionID] = &sess
return &sess, nil
}
}
// AddSession persists an Olm session for a sender in the database.
func (store *SQLCryptoStore) AddSession(key id.SenderKey, session *OlmSession) error {
store.olmSessionCacheLock.Lock()
defer store.olmSessionCacheLock.Unlock()
sessionBytes := session.Internal.Pickle(store.PickleKey)
_, err := store.DB.Exec("INSERT INTO crypto_olm_session (session_id, sender_key, session, created_at, last_encrypted, last_decrypted, account_id) VALUES ($1, $2, $3, $4, $5, $6, $7)",
session.ID(), key, sessionBytes, session.CreationTime, session.LastEncryptedTime, session.LastDecryptedTime, store.AccountID)
store.getOlmSessionCache(key)[session.ID()] = session
return err
}
// UpdateSession replaces the Olm session for a sender in the database.
func (store *SQLCryptoStore) UpdateSession(_ id.SenderKey, session *OlmSession) error {
sessionBytes := session.Internal.Pickle(store.PickleKey)
_, err := store.DB.Exec("UPDATE crypto_olm_session SET session=$1, last_encrypted=$2, last_decrypted=$3 WHERE session_id=$4 AND account_id=$5",
sessionBytes, session.LastEncryptedTime, session.LastDecryptedTime, session.ID(), store.AccountID)
return err
}
// PutGroupSession stores an inbound Megolm group session for a room, sender and session.
func (store *SQLCryptoStore) PutGroupSession(roomID id.RoomID, senderKey id.SenderKey, sessionID id.SessionID, session *InboundGroupSession) error {
sessionBytes := session.Internal.Pickle(store.PickleKey)
forwardingChains := strings.Join(session.ForwardingChains, ",")
_, err := store.DB.Exec(`
INSERT INTO crypto_megolm_inbound_session
(session_id, sender_key, signing_key, room_id, session, forwarding_chains, account_id)
VALUES ($1, $2, $3, $4, $5, $6, $7)
ON CONFLICT (session_id, account_id) DO UPDATE
SET withheld_code=NULL, withheld_reason=NULL, sender_key=excluded.sender_key, signing_key=excluded.signing_key,
room_id=excluded.room_id, session=excluded.session, forwarding_chains=excluded.forwarding_chains
`, sessionID, senderKey, session.SigningKey, roomID, sessionBytes, forwardingChains, store.AccountID)
return err
}
// GetGroupSession retrieves an inbound Megolm group session for a room, sender and session.
func (store *SQLCryptoStore) GetGroupSession(roomID id.RoomID, senderKey id.SenderKey, sessionID id.SessionID) (*InboundGroupSession, error) {
var signingKey, forwardingChains, withheldCode sql.NullString
var sessionBytes []byte
err := store.DB.QueryRow(`
SELECT signing_key, session, forwarding_chains, withheld_code
FROM crypto_megolm_inbound_session
WHERE room_id=$1 AND sender_key=$2 AND session_id=$3 AND account_id=$4`,
roomID, senderKey, sessionID, store.AccountID,
).Scan(&signingKey, &sessionBytes, &forwardingChains, &withheldCode)
if err == sql.ErrNoRows {
return nil, nil
} else if err != nil {
return nil, err
} else if withheldCode.Valid {
return nil, fmt.Errorf("%w (%s)", ErrGroupSessionWithheld, withheldCode.String)
}
igs := olm.NewBlankInboundGroupSession()
err = igs.Unpickle(sessionBytes, store.PickleKey)
if err != nil {
return nil, err
}
var chains []string
if forwardingChains.String != "" {
chains = strings.Split(forwardingChains.String, ",")
}
return &InboundGroupSession{
Internal: *igs,
SigningKey: id.Ed25519(signingKey.String),
SenderKey: senderKey,
RoomID: roomID,
ForwardingChains: chains,
}, nil
}
func (store *SQLCryptoStore) PutWithheldGroupSession(content event.RoomKeyWithheldEventContent) error {
_, err := store.DB.Exec("INSERT INTO crypto_megolm_inbound_session (session_id, sender_key, room_id, withheld_code, withheld_reason, account_id) VALUES ($1, $2, $3, $4, $5, $6)",
content.SessionID, content.SenderKey, content.RoomID, content.Code, content.Reason, store.AccountID)
return err
}
func (store *SQLCryptoStore) GetWithheldGroupSession(roomID id.RoomID, senderKey id.SenderKey, sessionID id.SessionID) (*event.RoomKeyWithheldEventContent, error) {
var code, reason sql.NullString
err := store.DB.QueryRow(`
SELECT withheld_code, withheld_reason FROM crypto_megolm_inbound_session
WHERE room_id=$1 AND sender_key=$2 AND session_id=$3 AND account_id=$4`,
roomID, senderKey, sessionID, store.AccountID,
).Scan(&code, &reason)
if err == sql.ErrNoRows {
return nil, nil
} else if err != nil || !code.Valid {
return nil, err
}
return &event.RoomKeyWithheldEventContent{
RoomID: roomID,
Algorithm: id.AlgorithmMegolmV1,
SessionID: sessionID,
SenderKey: senderKey,
Code: event.RoomKeyWithheldCode(code.String),
Reason: reason.String,
}, nil
}
func (store *SQLCryptoStore) scanGroupSessionList(rows dbutil.Rows) (result []*InboundGroupSession, err error) {
for rows.Next() {
var roomID id.RoomID
var signingKey, senderKey, forwardingChains sql.NullString
var sessionBytes []byte
err = rows.Scan(&roomID, &signingKey, &senderKey, &sessionBytes, &forwardingChains)
if err != nil {
return
}
igs := olm.NewBlankInboundGroupSession()
err = igs.Unpickle(sessionBytes, store.PickleKey)
if err != nil {
return
}
var chains []string
if forwardingChains.String != "" {
chains = strings.Split(forwardingChains.String, ",")
}
result = append(result, &InboundGroupSession{
Internal: *igs,
SigningKey: id.Ed25519(signingKey.String),
SenderKey: id.Curve25519(senderKey.String),
RoomID: roomID,
ForwardingChains: chains,
})
}
return
}
func (store *SQLCryptoStore) GetGroupSessionsForRoom(roomID id.RoomID) ([]*InboundGroupSession, error) {
rows, err := store.DB.Query(`
SELECT room_id, signing_key, sender_key, session, forwarding_chains
FROM crypto_megolm_inbound_session WHERE room_id=$1 AND account_id=$2 AND session IS NOT NULL`,
roomID, store.AccountID,
)
if err == sql.ErrNoRows {
return []*InboundGroupSession{}, nil
} else if err != nil {
return nil, err
}
return store.scanGroupSessionList(rows)
}
func (store *SQLCryptoStore) GetAllGroupSessions() ([]*InboundGroupSession, error) {
rows, err := store.DB.Query(`
SELECT room_id, signing_key, sender_key, session, forwarding_chains
FROM crypto_megolm_inbound_session WHERE account_id=$2 AND session IS NOT NULL`,
store.AccountID,
)
if err == sql.ErrNoRows {
return []*InboundGroupSession{}, nil
} else if err != nil {
return nil, err
}
return store.scanGroupSessionList(rows)
}
// AddOutboundGroupSession stores an outbound Megolm session, along with the information about the room and involved devices.
func (store *SQLCryptoStore) AddOutboundGroupSession(session *OutboundGroupSession) error {
sessionBytes := session.Internal.Pickle(store.PickleKey)
_, err := store.DB.Exec(`
INSERT INTO crypto_megolm_outbound_session
(room_id, session_id, session, shared, max_messages, message_count, max_age, created_at, last_used, account_id)
VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9, $10)
ON CONFLICT (account_id, room_id) DO UPDATE
SET session_id=excluded.session_id, session=excluded.session, shared=excluded.shared,
max_messages=excluded.max_messages, message_count=excluded.message_count, max_age=excluded.max_age,
created_at=excluded.created_at, last_used=excluded.last_used, account_id=excluded.account_id
`, session.RoomID, session.ID(), sessionBytes, session.Shared, session.MaxMessages, session.MessageCount,
session.MaxAge, session.CreationTime, session.LastEncryptedTime, store.AccountID)
return err
}
// UpdateOutboundGroupSession replaces an outbound Megolm session with for same room and session ID.
func (store *SQLCryptoStore) UpdateOutboundGroupSession(session *OutboundGroupSession) error {
sessionBytes := session.Internal.Pickle(store.PickleKey)
_, err := store.DB.Exec("UPDATE crypto_megolm_outbound_session SET session=$1, message_count=$2, last_used=$3 WHERE room_id=$4 AND session_id=$5 AND account_id=$6",
sessionBytes, session.MessageCount, session.LastEncryptedTime, session.RoomID, session.ID(), store.AccountID)
return err
}
// GetOutboundGroupSession retrieves the outbound Megolm session for the given room ID.
func (store *SQLCryptoStore) GetOutboundGroupSession(roomID id.RoomID) (*OutboundGroupSession, error) {
var ogs OutboundGroupSession
var sessionBytes []byte
err := store.DB.QueryRow(`
SELECT session, shared, max_messages, message_count, max_age, created_at, last_used
FROM crypto_megolm_outbound_session WHERE room_id=$1 AND account_id=$2`,
roomID, store.AccountID,
).Scan(&sessionBytes, &ogs.Shared, &ogs.MaxMessages, &ogs.MessageCount, &ogs.MaxAge, &ogs.CreationTime, &ogs.LastEncryptedTime)
if err == sql.ErrNoRows {
return nil, nil
} else if err != nil {
return nil, err
}
intOGS := olm.NewBlankOutboundGroupSession()
err = intOGS.Unpickle(sessionBytes, store.PickleKey)
if err != nil {
return nil, err
}
ogs.Internal = *intOGS
ogs.RoomID = roomID
return &ogs, nil
}
// RemoveOutboundGroupSession removes the outbound Megolm session for the given room ID.
func (store *SQLCryptoStore) RemoveOutboundGroupSession(roomID id.RoomID) error {
_, err := store.DB.Exec("DELETE FROM crypto_megolm_outbound_session WHERE room_id=$1 AND account_id=$2",
roomID, store.AccountID)
return err
}
// ValidateMessageIndex returns whether the given event information match the ones stored in the database
// for the given sender key, session ID and index. If the index hasn't been stored, this will store it.
func (store *SQLCryptoStore) ValidateMessageIndex(senderKey id.SenderKey, sessionID id.SessionID, eventID id.EventID, index uint, timestamp int64) (bool, error) {
const validateQuery = `
INSERT INTO crypto_message_index (sender_key, session_id, "index", event_id, timestamp)
VALUES ($1, $2, $3, $4, $5)
-- have to update something so that RETURNING * always returns the row
ON CONFLICT (sender_key, session_id, "index") DO UPDATE SET sender_key=excluded.sender_key
RETURNING event_id, timestamp
`
var expectedEventID id.EventID
var expectedTimestamp int64
err := store.DB.QueryRow(validateQuery, senderKey, sessionID, index, eventID, timestamp).Scan(&expectedEventID, &expectedTimestamp)
if err != nil {
return false, err
}
return expectedEventID == eventID && expectedTimestamp == timestamp, nil
}
// GetDevices returns a map of device IDs to device identities, including the identity and signing keys, for a given user ID.
func (store *SQLCryptoStore) GetDevices(userID id.UserID) (map[id.DeviceID]*id.Device, error) {
var ignore id.UserID
err := store.DB.QueryRow("SELECT user_id FROM crypto_tracked_user WHERE user_id=$1", userID).Scan(&ignore)
if err == sql.ErrNoRows {
return nil, nil
} else if err != nil {
return nil, err
}
rows, err := store.DB.Query("SELECT device_id, identity_key, signing_key, trust, deleted, name FROM crypto_device WHERE user_id=$1 AND deleted=false", userID)
if err != nil {
return nil, err
}
data := make(map[id.DeviceID]*id.Device)
for rows.Next() {
var identity id.Device
err := rows.Scan(&identity.DeviceID, &identity.IdentityKey, &identity.SigningKey, &identity.Trust, &identity.Deleted, &identity.Name)
if err != nil {
return nil, err
}
identity.UserID = userID
data[identity.DeviceID] = &identity
}
return data, nil
}
// GetDevice returns the device dentity for a given user and device ID.
func (store *SQLCryptoStore) GetDevice(userID id.UserID, deviceID id.DeviceID) (*id.Device, error) {
var identity id.Device
err := store.DB.QueryRow(`
SELECT identity_key, signing_key, trust, deleted, name
FROM crypto_device WHERE user_id=$1 AND device_id=$2`,
userID, deviceID,
).Scan(&identity.IdentityKey, &identity.SigningKey, &identity.Trust, &identity.Deleted, &identity.Name)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil
}
return nil, err
}
identity.UserID = userID
identity.DeviceID = deviceID
return &identity, nil
}
// FindDeviceByKey finds a specific device by its sender key.
func (store *SQLCryptoStore) FindDeviceByKey(userID id.UserID, identityKey id.IdentityKey) (*id.Device, error) {
var identity id.Device
err := store.DB.QueryRow(`
SELECT device_id, signing_key, trust, deleted, name
FROM crypto_device WHERE user_id=$1 AND identity_key=$2`,
userID, identityKey,
).Scan(&identity.DeviceID, &identity.SigningKey, &identity.Trust, &identity.Deleted, &identity.Name)
if err != nil {
if err == sql.ErrNoRows {
return nil, nil
}
return nil, err
}
identity.UserID = userID
identity.IdentityKey = identityKey
return &identity, nil
}
const deviceInsertQuery = `
INSERT INTO crypto_device (user_id, device_id, identity_key, signing_key, trust, deleted, name)
VALUES ($1, $2, $3, $4, $5, $6, $7)
ON CONFLICT (user_id, device_id) DO UPDATE
SET identity_key=excluded.identity_key, deleted=excluded.deleted, trust=excluded.trust, name=excluded.name
`
var deviceMassInsertTemplate = strings.ReplaceAll(deviceInsertQuery, "($1, $2, $3, $4, $5, $6, $7)", "%s")
// PutDevice stores a single device for a user, replacing it if it exists already.
func (store *SQLCryptoStore) PutDevice(userID id.UserID, device *id.Device) error {
_, err := store.DB.Exec(deviceInsertQuery,
userID, device.DeviceID, device.IdentityKey, device.SigningKey, device.Trust, device.Deleted, device.Name)
return err
}
// PutDevices stores the device identity information for the given user ID.
func (store *SQLCryptoStore) PutDevices(userID id.UserID, devices map[id.DeviceID]*id.Device) error {
tx, err := store.DB.Begin()
if err != nil {
return err
}
_, err = tx.Exec("INSERT INTO crypto_tracked_user (user_id) VALUES ($1) ON CONFLICT (user_id) DO NOTHING", userID)
if err != nil {
return fmt.Errorf("failed to add user to tracked users list: %w", err)
}
_, err = tx.Exec("UPDATE crypto_device SET deleted=true WHERE user_id=$1", userID)
if err != nil {
_ = tx.Rollback()
return fmt.Errorf("failed to delete old devices: %w", err)
}
if len(devices) == 0 {
err = tx.Commit()
if err != nil {
return fmt.Errorf("failed to commit changes (no devices added): %w", err)
}
return nil
}
deviceBatchLen := 5 // how many devices will be inserted per query
deviceIDs := make([]id.DeviceID, 0, len(devices))
for deviceID := range devices {
deviceIDs = append(deviceIDs, deviceID)
}
const valueStringFormat = "($1, $%d, $%d, $%d, $%d, $%d, $%d)"
for batchDeviceIdx := 0; batchDeviceIdx < len(deviceIDs); batchDeviceIdx += deviceBatchLen {
var batchDevices []id.DeviceID
if batchDeviceIdx+deviceBatchLen < len(deviceIDs) {
batchDevices = deviceIDs[batchDeviceIdx : batchDeviceIdx+deviceBatchLen]
} else {
batchDevices = deviceIDs[batchDeviceIdx:]
}
values := make([]interface{}, 1, len(devices)*6+1)
values[0] = userID
valueStrings := make([]string, 0, len(devices))
i := 2
for _, deviceID := range batchDevices {
identity := devices[deviceID]
values = append(values, deviceID, identity.IdentityKey, identity.SigningKey, identity.Trust, identity.Deleted, identity.Name)
valueStrings = append(valueStrings, fmt.Sprintf(valueStringFormat, i, i+1, i+2, i+3, i+4, i+5))
i += 6
}
valueString := strings.Join(valueStrings, ",")
_, err = tx.Exec(fmt.Sprintf(deviceMassInsertTemplate, valueString), values...)
if err != nil {
_ = tx.Rollback()
return fmt.Errorf("failed to insert new devices: %w", err)
}
}
err = tx.Commit()
if err != nil {
return fmt.Errorf("failed to commit changes: %w", err)
}
return nil
}
// FilterTrackedUsers finds all the user IDs out of the given ones for which the database contains identity information.
func (store *SQLCryptoStore) FilterTrackedUsers(users []id.UserID) ([]id.UserID, error) {
var rows dbutil.Rows
var err error
if store.DB.Dialect == dbutil.Postgres && PostgresArrayWrapper != nil {
rows, err = store.DB.Query("SELECT user_id FROM crypto_tracked_user WHERE user_id = ANY($1)", PostgresArrayWrapper(users))
} else {
queryString := make([]string, len(users))
params := make([]interface{}, len(users))
for i, user := range users {
queryString[i] = fmt.Sprintf("$%d", i+1)
params[i] = user
}
rows, err = store.DB.Query("SELECT user_id FROM crypto_tracked_user WHERE user_id IN ("+strings.Join(queryString, ",")+")", params...)
}
if err != nil {
return users, err
}
var ptr int
for rows.Next() {
err = rows.Scan(&users[ptr])
if err != nil {
return users, err
} else {
ptr++
}
}
return users[:ptr], nil
}
// PutCrossSigningKey stores a cross-signing key of some user along with its usage.
func (store *SQLCryptoStore) PutCrossSigningKey(userID id.UserID, usage id.CrossSigningUsage, key id.Ed25519) error {
_, err := store.DB.Exec(`
INSERT INTO crypto_cross_signing_keys (user_id, usage, key, first_seen_key) VALUES ($1, $2, $3, $4)
ON CONFLICT (user_id, usage) DO UPDATE SET key=excluded.key
`, userID, usage, key, key)
return err
}
// GetCrossSigningKeys retrieves a user's stored cross-signing keys.
func (store *SQLCryptoStore) GetCrossSigningKeys(userID id.UserID) (map[id.CrossSigningUsage]id.CrossSigningKey, error) {
rows, err := store.DB.Query("SELECT usage, key, first_seen_key FROM crypto_cross_signing_keys WHERE user_id=$1", userID)
if err != nil {
return nil, err
}
data := make(map[id.CrossSigningUsage]id.CrossSigningKey)
for rows.Next() {
var usage id.CrossSigningUsage
var key, first id.Ed25519
err = rows.Scan(&usage, &key, &first)
if err != nil {
return nil, err
}
data[usage] = id.CrossSigningKey{Key: key, First: first}
}
return data, nil
}
// PutSignature stores a signature of a cross-signing or device key along with the signer's user ID and key.
func (store *SQLCryptoStore) PutSignature(signedUserID id.UserID, signedKey id.Ed25519, signerUserID id.UserID, signerKey id.Ed25519, signature string) error {
_, err := store.DB.Exec(`
INSERT INTO crypto_cross_signing_signatures (signed_user_id, signed_key, signer_user_id, signer_key, signature) VALUES ($1, $2, $3, $4, $5)
ON CONFLICT (signed_user_id, signed_key, signer_user_id, signer_key) DO UPDATE SET signature=excluded.signature
`, signedUserID, signedKey, signerUserID, signerKey, signature)
return err
}
// GetSignaturesForKeyBy retrieves the stored signatures for a given cross-signing or device key, by the given signer.
func (store *SQLCryptoStore) GetSignaturesForKeyBy(userID id.UserID, key id.Ed25519, signerID id.UserID) (map[id.Ed25519]string, error) {
rows, err := store.DB.Query("SELECT signer_key, signature FROM crypto_cross_signing_signatures WHERE signed_user_id=$1 AND signed_key=$2 AND signer_user_id=$3", userID, key, signerID)
if err != nil {
return nil, err
}
data := make(map[id.Ed25519]string)
for rows.Next() {
var signerKey id.Ed25519
var signature string
err = rows.Scan(&signerKey, &signature)
if err != nil {
return nil, err
}
data[signerKey] = signature
}
return data, nil
}
// IsKeySignedBy returns whether a cross-signing or device key is signed by the given signer.
func (store *SQLCryptoStore) IsKeySignedBy(signedUserID id.UserID, signedKey id.Ed25519, signerUserID id.UserID, signerKey id.Ed25519) (isSigned bool, err error) {
q := `SELECT EXISTS(
SELECT 1 FROM crypto_cross_signing_signatures
WHERE signed_user_id=$1 AND signed_key=$2 AND signer_user_id=$3 AND signer_key=$4
)`
err = store.DB.QueryRow(q, signedUserID, signedKey, signerUserID, signerKey).Scan(&isSigned)
return
}
// DropSignaturesByKey deletes the signatures made by the given user and key from the store. It returns the number of signatures deleted.
func (store *SQLCryptoStore) DropSignaturesByKey(userID id.UserID, key id.Ed25519) (int64, error) {
res, err := store.DB.Exec("DELETE FROM crypto_cross_signing_signatures WHERE signer_user_id=$1 AND signer_key=$2", userID, key)
if err != nil {
return 0, err
}
count, err := res.RowsAffected()
if err != nil {
return 0, err
}
return count, nil
}