matrix-go-test/vendor/maunium.net/go/mautrix/crypto/olm/inboundgroupsession.go
2023-02-08 18:23:21 +01:00

302 lines
10 KiB
Go

package olm
// #cgo LDFLAGS: -lolm -lstdc++
// #include <olm/olm.h>
import "C"
import (
"encoding/base64"
"unsafe"
"maunium.net/go/mautrix/id"
)
// InboundGroupSession stores an inbound encrypted messaging session for a
// group.
type InboundGroupSession struct {
int *C.OlmInboundGroupSession
mem []byte
}
// InboundGroupSessionFromPickled loads an InboundGroupSession from a pickled
// base64 string. Decrypts the InboundGroupSession using the supplied key.
// Returns error on failure. If the key doesn't match the one used to encrypt
// the InboundGroupSession then the error will be "BAD_SESSION_KEY". If the
// base64 couldn't be decoded then the error will be "INVALID_BASE64".
func InboundGroupSessionFromPickled(pickled, key []byte) (*InboundGroupSession, error) {
if len(pickled) == 0 {
return nil, EmptyInput
}
lenKey := len(key)
if lenKey == 0 {
key = []byte(" ")
}
s := NewBlankInboundGroupSession()
return s, s.Unpickle(pickled, key)
}
// NewInboundGroupSession creates a new inbound group session from a key
// exported from OutboundGroupSession.Key(). Returns error on failure.
// If the sessionKey is not valid base64 the error will be
// "OLM_INVALID_BASE64". If the session_key is invalid the error will be
// "OLM_BAD_SESSION_KEY".
func NewInboundGroupSession(sessionKey []byte) (*InboundGroupSession, error) {
if len(sessionKey) == 0 {
return nil, EmptyInput
}
s := NewBlankInboundGroupSession()
r := C.olm_init_inbound_group_session(
(*C.OlmInboundGroupSession)(s.int),
(*C.uint8_t)(&sessionKey[0]),
C.size_t(len(sessionKey)))
if r == errorVal() {
return nil, s.lastError()
}
return s, nil
}
// InboundGroupSessionImport imports an inbound group session from a previous
// export. Returns error on failure. If the sessionKey is not valid base64
// the error will be "OLM_INVALID_BASE64". If the session_key is invalid the
// error will be "OLM_BAD_SESSION_KEY".
func InboundGroupSessionImport(sessionKey []byte) (*InboundGroupSession, error) {
if len(sessionKey) == 0 {
return nil, EmptyInput
}
s := NewBlankInboundGroupSession()
r := C.olm_import_inbound_group_session(
(*C.OlmInboundGroupSession)(s.int),
(*C.uint8_t)(&sessionKey[0]),
C.size_t(len(sessionKey)))
if r == errorVal() {
return nil, s.lastError()
}
return s, nil
}
// inboundGroupSessionSize is the size of an inbound group session object in
// bytes.
func inboundGroupSessionSize() uint {
return uint(C.olm_inbound_group_session_size())
}
// newInboundGroupSession initialises an empty InboundGroupSession.
func NewBlankInboundGroupSession() *InboundGroupSession {
memory := make([]byte, inboundGroupSessionSize())
return &InboundGroupSession{
int: C.olm_inbound_group_session(unsafe.Pointer(&memory[0])),
mem: memory,
}
}
// lastError returns an error describing the most recent error to happen to an
// inbound group session.
func (s *InboundGroupSession) lastError() error {
return convertError(C.GoString(C.olm_inbound_group_session_last_error((*C.OlmInboundGroupSession)(s.int))))
}
// Clear clears the memory used to back this InboundGroupSession.
func (s *InboundGroupSession) Clear() error {
r := C.olm_clear_inbound_group_session((*C.OlmInboundGroupSession)(s.int))
if r == errorVal() {
return s.lastError()
}
return nil
}
// pickleLen returns the number of bytes needed to store an inbound group
// session.
func (s *InboundGroupSession) pickleLen() uint {
return uint(C.olm_pickle_inbound_group_session_length((*C.OlmInboundGroupSession)(s.int)))
}
// Pickle returns an InboundGroupSession as a base64 string. Encrypts the
// InboundGroupSession using the supplied key.
func (s *InboundGroupSession) Pickle(key []byte) []byte {
if len(key) == 0 {
panic(NoKeyProvided)
}
pickled := make([]byte, s.pickleLen())
r := C.olm_pickle_inbound_group_session(
(*C.OlmInboundGroupSession)(s.int),
unsafe.Pointer(&key[0]),
C.size_t(len(key)),
unsafe.Pointer(&pickled[0]),
C.size_t(len(pickled)))
if r == errorVal() {
panic(s.lastError())
}
return pickled[:r]
}
func (s *InboundGroupSession) Unpickle(pickled, key []byte) error {
if len(key) == 0 {
return NoKeyProvided
} else if len(pickled) == 0 {
return EmptyInput
}
r := C.olm_unpickle_inbound_group_session(
(*C.OlmInboundGroupSession)(s.int),
unsafe.Pointer(&key[0]),
C.size_t(len(key)),
unsafe.Pointer(&pickled[0]),
C.size_t(len(pickled)))
if r == errorVal() {
return s.lastError()
}
return nil
}
func (s *InboundGroupSession) GobEncode() ([]byte, error) {
pickled := s.Pickle(pickleKey)
length := base64.RawStdEncoding.DecodedLen(len(pickled))
rawPickled := make([]byte, length)
_, err := base64.RawStdEncoding.Decode(rawPickled, pickled)
return rawPickled, err
}
func (s *InboundGroupSession) GobDecode(rawPickled []byte) error {
if s == nil || s.int == nil {
*s = *NewBlankInboundGroupSession()
}
length := base64.RawStdEncoding.EncodedLen(len(rawPickled))
pickled := make([]byte, length)
base64.RawStdEncoding.Encode(pickled, rawPickled)
return s.Unpickle(pickled, pickleKey)
}
func (s *InboundGroupSession) MarshalJSON() ([]byte, error) {
pickled := s.Pickle(pickleKey)
quotes := make([]byte, len(pickled)+2)
quotes[0] = '"'
quotes[len(quotes)-1] = '"'
copy(quotes[1:len(quotes)-1], pickled)
return quotes, nil
}
func (s *InboundGroupSession) UnmarshalJSON(data []byte) error {
if len(data) == 0 || data[0] != '"' || data[len(data)-1] != '"' {
return InputNotJSONString
}
if s == nil || s.int == nil {
*s = *NewBlankInboundGroupSession()
}
return s.Unpickle(data[1:len(data)-1], pickleKey)
}
func clone(original []byte) []byte {
clone := make([]byte, len(original))
copy(clone, original)
return clone
}
// decryptMaxPlaintextLen returns the maximum number of bytes of plain-text a
// given message could decode to. The actual size could be different due to
// padding. Returns error on failure. If the message base64 couldn't be
// decoded then the error will be "INVALID_BASE64". If the message is for an
// unsupported version of the protocol then the error will be
// "BAD_MESSAGE_VERSION". If the message couldn't be decoded then the error
// will be "BAD_MESSAGE_FORMAT".
func (s *InboundGroupSession) decryptMaxPlaintextLen(message []byte) (uint, error) {
if len(message) == 0 {
return 0, EmptyInput
}
// olm_group_decrypt_max_plaintext_length destroys the input, so we have to clone it
message = clone(message)
r := C.olm_group_decrypt_max_plaintext_length(
(*C.OlmInboundGroupSession)(s.int),
(*C.uint8_t)(&message[0]),
C.size_t(len(message)))
if r == errorVal() {
return 0, s.lastError()
}
return uint(r), nil
}
// Decrypt decrypts a message using the InboundGroupSession. Returns the the
// plain-text and message index on success. Returns error on failure. If the
// base64 couldn't be decoded then the error will be "INVALID_BASE64". If the
// message is for an unsupported version of the protocol then the error will be
// "BAD_MESSAGE_VERSION". If the message couldn't be decoded then the error
// will be BAD_MESSAGE_FORMAT". If the MAC on the message was invalid then the
// error will be "BAD_MESSAGE_MAC". If we do not have a session key
// corresponding to the message's index (ie, it was sent before the session key
// was shared with us) the error will be "OLM_UNKNOWN_MESSAGE_INDEX".
func (s *InboundGroupSession) Decrypt(message []byte) ([]byte, uint, error) {
if len(message) == 0 {
return nil, 0, EmptyInput
}
decryptMaxPlaintextLen, err := s.decryptMaxPlaintextLen(message)
if err != nil {
return nil, 0, err
}
plaintext := make([]byte, decryptMaxPlaintextLen)
var messageIndex uint32
r := C.olm_group_decrypt(
(*C.OlmInboundGroupSession)(s.int),
(*C.uint8_t)(&message[0]),
C.size_t(len(message)),
(*C.uint8_t)(&plaintext[0]),
C.size_t(len(plaintext)),
(*C.uint32_t)(&messageIndex))
if r == errorVal() {
return nil, 0, s.lastError()
}
return plaintext[:r], uint(messageIndex), nil
}
// sessionIdLen returns the number of bytes needed to store a session ID.
func (s *InboundGroupSession) sessionIdLen() uint {
return uint(C.olm_inbound_group_session_id_length((*C.OlmInboundGroupSession)(s.int)))
}
// ID returns a base64-encoded identifier for this session.
func (s *InboundGroupSession) ID() id.SessionID {
sessionID := make([]byte, s.sessionIdLen())
r := C.olm_inbound_group_session_id(
(*C.OlmInboundGroupSession)(s.int),
(*C.uint8_t)(&sessionID[0]),
C.size_t(len(sessionID)))
if r == errorVal() {
panic(s.lastError())
}
return id.SessionID(sessionID[:r])
}
// FirstKnownIndex returns the first message index we know how to decrypt.
func (s *InboundGroupSession) FirstKnownIndex() uint32 {
return uint32(C.olm_inbound_group_session_first_known_index((*C.OlmInboundGroupSession)(s.int)))
}
// IsVerified check if the session has been verified as a valid session. (A
// session is verified either because the original session share was signed, or
// because we have subsequently successfully decrypted a message.)
func (s *InboundGroupSession) IsVerified() uint {
return uint(C.olm_inbound_group_session_is_verified((*C.OlmInboundGroupSession)(s.int)))
}
// exportLen returns the number of bytes needed to export an inbound group
// session.
func (s *InboundGroupSession) exportLen() uint {
return uint(C.olm_export_inbound_group_session_length((*C.OlmInboundGroupSession)(s.int)))
}
// Export returns the base64-encoded ratchet key for this session, at the given
// index, in a format which can be used by
// InboundGroupSession.InboundGroupSessionImport(). Encrypts the
// InboundGroupSession using the supplied key. Returns error on failure.
// if we do not have a session key corresponding to the given index (ie, it was
// sent before the session key was shared with us) the error will be
// "OLM_UNKNOWN_MESSAGE_INDEX".
func (s *InboundGroupSession) Export(messageIndex uint32) (string, error) {
key := make([]byte, s.exportLen())
r := C.olm_export_inbound_group_session(
(*C.OlmInboundGroupSession)(s.int),
(*C.uint8_t)(&key[0]),
C.size_t(len(key)),
C.uint32_t(messageIndex))
if r == errorVal() {
return "", s.lastError()
}
return string(key[:r]), nil
}