from __future__ import absolute_import """M2Crypto wrapper for OpenSSL BIO API. Copyright (c) 1999-2004 Ng Pheng Siong. All rights reserved.""" import logging import io # noqa from M2Crypto import m2, six, util if util.py27plus: from typing import AnyStr, Callable, Iterable, Optional, Union # noqa log = logging.getLogger('BIO') class BIOError(Exception): pass m2.bio_init(BIOError) class BIO(object): """Abstract object interface to the BIO API.""" m2_bio_free = m2.bio_free def __init__(self, bio=None, _pyfree=0, _close_cb=None): # type: (Optional[BIO], int, Optional[Callable]) -> None self.bio = bio self._pyfree = _pyfree self._close_cb = _close_cb self.closed = 0 self.write_closed = 0 def __del__(self): if self._pyfree: self.m2_bio_free(self.bio) def _ptr(self): return self.bio # Deprecated. bio_ptr = _ptr def fileno(self): # type: () -> int return m2.bio_get_fd(self.bio) def readable(self): # type: () -> bool return not self.closed def read(self, size=None): # type: (int) -> Union[bytes, bytearray] if not self.readable(): raise IOError('cannot read') if size is None: buf = bytearray() while 1: data = m2.bio_read(self.bio, 4096) if not data: break buf += data return buf elif size == 0: return b'' elif size < 0: raise ValueError('read count is negative') else: return bytes(m2.bio_read(self.bio, size)) def readline(self, size=4096): # type: (int) -> bytes if not self.readable(): raise IOError('cannot read') buf = m2.bio_gets(self.bio, size) return buf def readlines(self, sizehint='ignored'): # type: (Union[AnyStr, int]) -> Iterable[bytes] if not self.readable(): raise IOError('cannot read') lines = [] while 1: buf = m2.bio_gets(self.bio, 4096) if buf is None: break lines.append(buf) return lines def writeable(self): # type: () -> bool return (not self.closed) and (not self.write_closed) def write(self, data): # type: (AnyStr) -> int """ @return: either data written, or [0, -1] for nothing written, -2 not implemented """ if not self.writeable(): raise IOError('cannot write') if isinstance(data, six.text_type): data = data.encode('utf8') return m2.bio_write(self.bio, data) def write_close(self): # type: () -> None self.write_closed = 1 def flush(self): # type: () -> None """ @return: 1 for success, and 0 or -1 for failure """ m2.bio_flush(self.bio) def reset(self): # type: () -> int """ Sets the bio to its initial state @return: 1 for success, and 0 or -1 for failure """ return m2.bio_reset(self.bio) def close(self): # type: () -> None self.closed = 1 if self._close_cb: self._close_cb() def should_retry(self): # type: () -> int """ Can the call be attempted again, or was there an error ie do_handshake """ return m2.bio_should_retry(self.bio) def should_read(self): # type: () -> int """ Returns whether the cause of the condition is the bio should read more data """ return m2.bio_should_read(self.bio) def should_write(self): # type: () -> int """ Returns whether the cause of the condition is the bio should write more data """ return m2.bio_should_write(self.bio) def tell(self): """ Return the current offset. """ return m2.bio_tell(self.bio) def seek(self, off): """ Seek to the specified absolute offset. """ return m2.bio_seek(self.bio, off) def __enter__(self): return self def __exit__(self, *args): self.close() class MemoryBuffer(BIO): """ Object interface to BIO_s_mem. Empirical testing suggests that this class performs less well than cStringIO, because cStringIO is implemented in C, whereas this class is implemented in Python. Thus, the recommended practice is to use cStringIO for regular work and convert said cStringIO object to a MemoryBuffer object only when necessary. """ def __init__(self, data=None): # type: (Optional[bytes]) -> None if data is not None and not isinstance(data, bytes): raise TypeError( "data must be bytes or None, not %s" % (type(data).__name__, )) BIO.__init__(self) self.bio = m2.bio_new(m2.bio_s_mem()) self._pyfree = 1 if data is not None: m2.bio_write(self.bio, data) def __len__(self): # type: () -> int return m2.bio_ctrl_pending(self.bio) def read(self, size=0): # type: (int) -> bytes if not self.readable(): raise IOError('cannot read') if size: return m2.bio_read(self.bio, size) else: return m2.bio_read(self.bio, m2.bio_ctrl_pending(self.bio)) # Backwards-compatibility. getvalue = read_all = read def write_close(self): # type: () -> None self.write_closed = 1 m2.bio_set_mem_eof_return(self.bio, 0) close = write_close class File(BIO): """ Object interface to BIO_s_fp. This class interfaces Python to OpenSSL functions that expect BIO *. For general file manipulation in Python, use Python's builtin file object. """ def __init__(self, pyfile, close_pyfile=1): # type: (io.BytesIO, int) -> None BIO.__init__(self, _pyfree=1) self.pyfile = pyfile self.close_pyfile = close_pyfile self.bio = m2.bio_new_pyfile(pyfile, m2.bio_noclose) def close(self): # type: () -> None self.closed = 1 if self.close_pyfile: self.pyfile.close() def reset(self): # type: () -> int """ Sets the bio to its initial state @return: 0 for success, and -1 for failure """ return super(File, self).reset() def openfile(filename, mode='rb'): # type: (AnyStr, AnyStr) -> File return File(open(filename, mode)) class IOBuffer(BIO): """ Object interface to BIO_f_buffer. Its principal function is to be BIO_push()'ed on top of a BIO_f_ssl, so that makefile() of said underlying SSL socket works. """ m2_bio_pop = m2.bio_pop m2_bio_free = m2.bio_free def __init__(self, under_bio, mode='rwb', _pyfree=1): # type: (BIO, str, int) -> None BIO.__init__(self, _pyfree=_pyfree) self.io = m2.bio_new(m2.bio_f_buffer()) self.bio = m2.bio_push(self.io, under_bio._ptr()) # This reference keeps the underlying BIO alive while we're not closed. self._under_bio = under_bio if 'w' in mode: self.write_closed = 0 else: self.write_closed = 1 def __del__(self): # type: () -> None if getattr(self, '_pyfree', 0): self.m2_bio_pop(self.bio) self.m2_bio_free(self.io) def close(self): # type: () -> None BIO.close(self) class CipherStream(BIO): """ Object interface to BIO_f_cipher. """ SALT_LEN = m2.PKCS5_SALT_LEN m2_bio_pop = m2.bio_pop m2_bio_free = m2.bio_free def __init__(self, obio): # type: (BIO) -> None BIO.__init__(self, _pyfree=1) self.obio = obio self.bio = m2.bio_new(m2.bio_f_cipher()) self.closed = 0 def __del__(self): # type: () -> None if not getattr(self, 'closed', 1): self.close() def close(self): # type: () -> None self.m2_bio_pop(self.bio) self.m2_bio_free(self.bio) self.closed = 1 def write_close(self): # type: () -> None self.obio.write_close() def set_cipher(self, algo, key, iv, op): # type: (str, AnyStr, AnyStr, int) -> None cipher = getattr(m2, algo, None) if cipher is None: raise ValueError('unknown cipher', algo) else: if not isinstance(key, bytes): key = key.encode('utf8') if not isinstance(iv, bytes): iv = iv.encode('utf8') m2.bio_set_cipher(self.bio, cipher(), key, iv, int(op)) m2.bio_push(self.bio, self.obio._ptr()) class SSLBio(BIO): """ Object interface to BIO_f_ssl """ def __init__(self, _pyfree=1): # type: (int) -> None BIO.__init__(self, _pyfree=_pyfree) self.bio = m2.bio_new(m2.bio_f_ssl()) self.closed = 0 def set_ssl(self, conn, close_flag=m2.bio_noclose): # type: (Connection, int) -> None """ Sets the bio to the SSL pointer which is contained in the connection object. """ self._pyfree = 0 m2.bio_set_ssl(self.bio, conn.ssl, close_flag) if close_flag == m2.bio_noclose: conn.set_ssl_close_flag(m2.bio_close) def do_handshake(self): # type: () -> int """ Do the handshake. Return 1 if the handshake completes Return 0 or a negative number if there is a problem """ return m2.bio_do_handshake(self.bio)