# nghttp2 - HTTP/2 C Library # Copyright (c) 2013 Tatsuhiro Tsujikawa # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # The above copyright notice and this permission notice shall be # included in all copies or substantial portions of the Software. # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, # EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. cimport cnghttp2 from libc.stdlib cimport malloc, free from libc.string cimport memcpy, memset from libc.stdint cimport uint8_t, uint16_t, uint32_t, int32_t import logging DEFAULT_HEADER_TABLE_SIZE = cnghttp2.NGHTTP2_DEFAULT_HEADER_TABLE_SIZE DEFLATE_MAX_HEADER_TABLE_SIZE = 4096 HD_ENTRY_OVERHEAD = 32 class HDTableEntry: def __init__(self, name, namelen, value, valuelen): self.name = name self.namelen = namelen self.value = value self.valuelen = valuelen def space(self): return self.namelen + self.valuelen + HD_ENTRY_OVERHEAD cdef _get_pybytes(uint8_t *b, uint16_t blen): return b[:blen] cdef class HDDeflater: '''Performs header compression. The constructor takes |hd_table_bufsize_max| parameter, which limits the usage of header table in the given amount of bytes. This is necessary because the header compressor and decompressor share the same amount of header table and the decompressor decides that number. The compressor may not want to use all header table size because of limited memory availability. In that case, the |hd_table_bufsize_max| can be used to cap the upper limit of table size whatever the header table size is chosen by the decompressor. The default value of |hd_table_bufsize_max| is 4096 bytes. The following example shows how to compress request header sets: import binascii, nghttp2 deflater = nghttp2.HDDeflater() res = deflater.deflate([(b'foo', b'bar'), (b'baz', b'buz')]) print(binascii.b2a_hex(res)) ''' cdef cnghttp2.nghttp2_hd_deflater *_deflater def __cinit__(self, hd_table_bufsize_max = DEFLATE_MAX_HEADER_TABLE_SIZE): rv = cnghttp2.nghttp2_hd_deflate_new(&self._deflater, hd_table_bufsize_max) if rv != 0: raise Exception(_strerror(rv)) def __dealloc__(self): cnghttp2.nghttp2_hd_deflate_del(self._deflater) def deflate(self, headers): '''Compresses the |headers|. The |headers| must be sequence of tuple of name/value pair, which are sequence of bytes (not unicode string). This function returns the encoded header block in byte string. An exception will be raised on error. ''' cdef cnghttp2.nghttp2_nv *nva = \ malloc(sizeof(cnghttp2.nghttp2_nv)*\ len(headers)) cdef cnghttp2.nghttp2_nv *nvap = nva for k, v in headers: nvap[0].name = k nvap[0].namelen = len(k) nvap[0].value = v nvap[0].valuelen = len(v) nvap[0].flags = cnghttp2.NGHTTP2_NV_FLAG_NONE nvap += 1 cdef size_t outcap = 0 cdef ssize_t rv cdef uint8_t *out cdef size_t outlen outlen = cnghttp2.nghttp2_hd_deflate_bound(self._deflater, nva, len(headers)) out = malloc(outlen) rv = cnghttp2.nghttp2_hd_deflate_hd(self._deflater, out, outlen, nva, len(headers)) free(nva) if rv < 0: free(out) raise Exception(_strerror(rv)) cdef bytes res try: res = out[:rv] finally: free(out) return res def change_table_size(self, hd_table_bufsize_max): '''Changes header table size to |hd_table_bufsize_max| byte. An exception will be raised on error. ''' cdef int rv rv = cnghttp2.nghttp2_hd_deflate_change_table_size(self._deflater, hd_table_bufsize_max) if rv != 0: raise Exception(_strerror(rv)) def get_hd_table(self): '''Returns copy of current dynamic header table.''' cdef size_t length = cnghttp2.nghttp2_hd_deflate_get_num_table_entries( self._deflater) cdef const cnghttp2.nghttp2_nv *nv res = [] for i in range(62, length + 1): nv = cnghttp2.nghttp2_hd_deflate_get_table_entry(self._deflater, i) k = _get_pybytes(nv.name, nv.namelen) v = _get_pybytes(nv.value, nv.valuelen) res.append(HDTableEntry(k, nv.namelen, v, nv.valuelen)) return res cdef class HDInflater: '''Performs header decompression. The following example shows how to compress request header sets: data = b'0082c5ad82bd0f000362617a0362757a' inflater = nghttp2.HDInflater() hdrs = inflater.inflate(data) print(hdrs) ''' cdef cnghttp2.nghttp2_hd_inflater *_inflater def __cinit__(self): rv = cnghttp2.nghttp2_hd_inflate_new(&self._inflater) if rv != 0: raise Exception(_strerror(rv)) def __dealloc__(self): cnghttp2.nghttp2_hd_inflate_del(self._inflater) def inflate(self, data): '''Decompresses the compressed header block |data|. The |data| must be byte string (not unicode string). ''' cdef cnghttp2.nghttp2_nv nv cdef int inflate_flags cdef ssize_t rv cdef uint8_t *buf = data cdef size_t buflen = len(data) res = [] while True: inflate_flags = 0 rv = cnghttp2.nghttp2_hd_inflate_hd(self._inflater, &nv, &inflate_flags, buf, buflen, 1) if rv < 0: raise Exception(_strerror(rv)) buf += rv buflen -= rv if inflate_flags & cnghttp2.NGHTTP2_HD_INFLATE_EMIT: # may throw res.append((nv.name[:nv.namelen], nv.value[:nv.valuelen])) if inflate_flags & cnghttp2.NGHTTP2_HD_INFLATE_FINAL: break cnghttp2.nghttp2_hd_inflate_end_headers(self._inflater) return res def change_table_size(self, hd_table_bufsize_max): '''Changes header table size to |hd_table_bufsize_max| byte. An exception will be raised on error. ''' cdef int rv rv = cnghttp2.nghttp2_hd_inflate_change_table_size(self._inflater, hd_table_bufsize_max) if rv != 0: raise Exception(_strerror(rv)) def get_hd_table(self): '''Returns copy of current dynamic header table.''' cdef size_t length = cnghttp2.nghttp2_hd_inflate_get_num_table_entries( self._inflater) cdef const cnghttp2.nghttp2_nv *nv res = [] for i in range(62, length + 1): nv = cnghttp2.nghttp2_hd_inflate_get_table_entry(self._inflater, i) k = _get_pybytes(nv.name, nv.namelen) v = _get_pybytes(nv.value, nv.valuelen) res.append(HDTableEntry(k, nv.namelen, v, nv.valuelen)) return res cdef _strerror(int liberror_code): return cnghttp2.nghttp2_strerror(liberror_code).decode('utf-8') def print_hd_table(hdtable): '''Convenient function to print |hdtable| to the standard output. This function does not work if header name/value cannot be decoded using UTF-8 encoding. s=N means the entry occupies N bytes in header table. ''' idx = 0 for entry in hdtable: idx += 1 print('[{}] (s={}) {}: {}'\ .format(idx, entry.space(), entry.name.decode('utf-8'), entry.value.decode('utf-8'))) try: import socket import io import asyncio import traceback import sys import email.utils import datetime import time from urllib.parse import urlparse except ImportError: asyncio = None # body generator flags DATA_OK = 0 DATA_EOF = 1 DATA_DEFERRED = 2 class _ByteIOWrapper: def __init__(self, b): self.b = b def generate(self, n): data = self.b.read1(n) if not data: return None, DATA_EOF return data, DATA_OK def wrap_body(body): if body is None: return body elif isinstance(body, str): return _ByteIOWrapper(io.BytesIO(body.encode('utf-8'))).generate elif isinstance(body, bytes): return _ByteIOWrapper(io.BytesIO(body)).generate elif isinstance(body, io.IOBase): return _ByteIOWrapper(body).generate else: # assume that callable in the form f(n) returning tuple byte # string and flag. return body cdef _get_stream_user_data(cnghttp2.nghttp2_session *session, int32_t stream_id): cdef void *stream_user_data stream_user_data = cnghttp2.nghttp2_session_get_stream_user_data\ (session, stream_id) if stream_user_data == NULL: return None return stream_user_data cdef size_t _make_nva(cnghttp2.nghttp2_nv **nva_ptr, headers): cdef cnghttp2.nghttp2_nv *nva cdef size_t nvlen nvlen = len(headers) nva = malloc(sizeof(cnghttp2.nghttp2_nv) * nvlen) for i, (k, v) in enumerate(headers): nva[i].name = k nva[i].namelen = len(k) nva[i].value = v nva[i].valuelen = len(v) nva[i].flags = cnghttp2.NGHTTP2_NV_FLAG_NONE nva_ptr[0] = nva return nvlen cdef int server_on_header(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, const uint8_t *name, size_t namelen, const uint8_t *value, size_t valuelen, uint8_t flags, void *user_data): cdef http2 = <_HTTP2SessionCoreBase>user_data logging.debug('server_on_header, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) handler = _get_stream_user_data(session, frame.hd.stream_id) return on_header(name, namelen, value, valuelen, flags, handler) cdef int client_on_header(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, const uint8_t *name, size_t namelen, const uint8_t *value, size_t valuelen, uint8_t flags, void *user_data): cdef http2 = <_HTTP2SessionCoreBase>user_data logging.debug('client_on_header, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) if frame.hd.type == cnghttp2.NGHTTP2_HEADERS: handler = _get_stream_user_data(session, frame.hd.stream_id) elif frame.hd.type == cnghttp2.NGHTTP2_PUSH_PROMISE: handler = _get_stream_user_data(session, frame.push_promise.promised_stream_id) return on_header(name, namelen, value, valuelen, flags, handler) cdef int on_header(const uint8_t *name, size_t namelen, const uint8_t *value, size_t valuelen, uint8_t flags, object handler): if not handler: return 0 key = name[:namelen] values = value[:valuelen].split(b'\x00') if key == b':scheme': handler.scheme = values[0] elif key == b':method': handler.method = values[0] elif key == b':authority' or key == b'host': handler.host = values[0] elif key == b':path': handler.path = values[0] elif key == b':status': handler.status = values[0] if key == b'cookie': handler.cookies.extend(values) else: for v in values: handler.headers.append((key, v)) return 0 cdef int server_on_begin_request_headers(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): cdef http2 = <_HTTP2SessionCore>user_data handler = http2._make_handler(frame.hd.stream_id) cnghttp2.nghttp2_session_set_stream_user_data(session, frame.hd.stream_id, handler) return 0 cdef int server_on_begin_headers(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): if frame.hd.type == cnghttp2.NGHTTP2_HEADERS: if frame.headers.cat == cnghttp2.NGHTTP2_HCAT_REQUEST: return server_on_begin_request_headers(session, frame, user_data) return 0 cdef int server_on_frame_recv(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): cdef http2 = <_HTTP2SessionCore>user_data logging.debug('server_on_frame_recv, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) if frame.hd.type == cnghttp2.NGHTTP2_DATA: if frame.hd.flags & cnghttp2.NGHTTP2_FLAG_END_STREAM: handler = _get_stream_user_data(session, frame.hd.stream_id) if not handler: return 0 try: handler.on_request_done() except: sys.stderr.write(traceback.format_exc()) return http2._rst_stream(frame.hd.stream_id) elif frame.hd.type == cnghttp2.NGHTTP2_HEADERS: if frame.headers.cat == cnghttp2.NGHTTP2_HCAT_REQUEST: handler = _get_stream_user_data(session, frame.hd.stream_id) if not handler: return 0 if handler.cookies: handler.headers.append((b'cookie', b'; '.join(handler.cookies))) handler.cookies = None try: handler.on_headers() if frame.hd.flags & cnghttp2.NGHTTP2_FLAG_END_STREAM: handler.on_request_done() except: sys.stderr.write(traceback.format_exc()) return http2._rst_stream(frame.hd.stream_id) elif frame.hd.type == cnghttp2.NGHTTP2_SETTINGS: if (frame.hd.flags & cnghttp2.NGHTTP2_FLAG_ACK): http2._stop_settings_timer() return 0 cdef int on_data_chunk_recv(cnghttp2.nghttp2_session *session, uint8_t flags, int32_t stream_id, const uint8_t *data, size_t length, void *user_data): cdef http2 = <_HTTP2SessionCoreBase>user_data handler = _get_stream_user_data(session, stream_id) if not handler: return 0 try: handler.on_data(data[:length]) except: sys.stderr.write(traceback.format_exc()) return http2._rst_stream(stream_id) return 0 cdef int server_on_frame_send(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): cdef http2 = <_HTTP2SessionCore>user_data logging.debug('server_on_frame_send, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) if frame.hd.type == cnghttp2.NGHTTP2_PUSH_PROMISE: # For PUSH_PROMISE, send push response immediately handler = _get_stream_user_data\ (session, frame.push_promise.promised_stream_id) if not handler: return 0 http2.send_response(handler) elif frame.hd.type == cnghttp2.NGHTTP2_SETTINGS: if (frame.hd.flags & cnghttp2.NGHTTP2_FLAG_ACK) != 0: return 0 http2._start_settings_timer() elif frame.hd.type == cnghttp2.NGHTTP2_HEADERS: if (frame.hd.flags & cnghttp2.NGHTTP2_FLAG_END_STREAM) and \ cnghttp2.nghttp2_session_check_server_session(session): # Send RST_STREAM if remote is not closed yet if cnghttp2.nghttp2_session_get_stream_remote_close( session, frame.hd.stream_id) == 0: http2._rst_stream(frame.hd.stream_id, cnghttp2.NGHTTP2_NO_ERROR) cdef int server_on_frame_not_send(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, int lib_error_code, void *user_data): cdef http2 = <_HTTP2SessionCore>user_data logging.debug('server_on_frame_not_send, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) if frame.hd.type == cnghttp2.NGHTTP2_PUSH_PROMISE: # We have to remove handler here. Without this, it is not # removed until session is terminated. handler = _get_stream_user_data\ (session, frame.push_promise.promised_stream_id) if not handler: return 0 http2._remove_handler(handler) cdef int on_stream_close(cnghttp2.nghttp2_session *session, int32_t stream_id, uint32_t error_code, void *user_data): cdef http2 = <_HTTP2SessionCoreBase>user_data logging.debug('on_stream_close, stream_id:%s', stream_id) handler = _get_stream_user_data(session, stream_id) if not handler: return 0 try: handler.on_close(error_code) except: sys.stderr.write(traceback.format_exc()) http2._remove_handler(handler) return 0 cdef ssize_t data_source_read(cnghttp2.nghttp2_session *session, int32_t stream_id, uint8_t *buf, size_t length, uint32_t *data_flags, cnghttp2.nghttp2_data_source *source, void *user_data): cdef http2 = <_HTTP2SessionCoreBase>user_data generator = source.ptr http2.enter_callback() try: data, flag = generator(length) except: sys.stderr.write(traceback.format_exc()) return cnghttp2.NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE; finally: http2.leave_callback() if flag == DATA_DEFERRED: return cnghttp2.NGHTTP2_ERR_DEFERRED if data: nread = len(data) memcpy(buf, data, nread) else: nread = 0 if flag == DATA_EOF: data_flags[0] = cnghttp2.NGHTTP2_DATA_FLAG_EOF if cnghttp2.nghttp2_session_check_server_session(session): # Send RST_STREAM if remote is not closed yet if cnghttp2.nghttp2_session_get_stream_remote_close( session, stream_id) == 0: http2._rst_stream(stream_id, cnghttp2.NGHTTP2_NO_ERROR) elif flag != DATA_OK: return cnghttp2.NGHTTP2_ERR_TEMPORAL_CALLBACK_FAILURE return nread cdef int client_on_begin_headers(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): cdef http2 = <_HTTP2ClientSessionCore>user_data if frame.hd.type == cnghttp2.NGHTTP2_PUSH_PROMISE: # Generate a temporary handler until the headers are all received push_handler = BaseResponseHandler() http2._add_handler(push_handler, frame.push_promise.promised_stream_id) cnghttp2.nghttp2_session_set_stream_user_data(session, frame.push_promise.promised_stream_id, push_handler) return 0 cdef int client_on_frame_recv(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): cdef http2 = <_HTTP2ClientSessionCore>user_data logging.debug('client_on_frame_recv, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) if frame.hd.type == cnghttp2.NGHTTP2_DATA: if frame.hd.flags & cnghttp2.NGHTTP2_FLAG_END_STREAM: handler = _get_stream_user_data(session, frame.hd.stream_id) if not handler: return 0 try: handler.on_response_done() except: sys.stderr.write(traceback.format_exc()) return http2._rst_stream(frame.hd.stream_id) elif frame.hd.type == cnghttp2.NGHTTP2_HEADERS: if frame.headers.cat == cnghttp2.NGHTTP2_HCAT_RESPONSE or frame.headers.cat == cnghttp2.NGHTTP2_HCAT_PUSH_RESPONSE: handler = _get_stream_user_data(session, frame.hd.stream_id) if not handler: return 0 # TODO handle 1xx non-final response if handler.cookies: handler.headers.append((b'cookie', b'; '.join(handler.cookies))) handler.cookies = None try: handler.on_headers() if frame.hd.flags & cnghttp2.NGHTTP2_FLAG_END_STREAM: handler.on_response_done() except: sys.stderr.write(traceback.format_exc()) return http2._rst_stream(frame.hd.stream_id) elif frame.hd.type == cnghttp2.NGHTTP2_SETTINGS: if (frame.hd.flags & cnghttp2.NGHTTP2_FLAG_ACK): http2._stop_settings_timer() elif frame.hd.type == cnghttp2.NGHTTP2_PUSH_PROMISE: handler = _get_stream_user_data(session, frame.hd.stream_id) if not handler: return 0 # Get the temporary push_handler which now should have all of the header data push_handler = _get_stream_user_data(session, frame.push_promise.promised_stream_id) if not push_handler: return 0 # Remove the temporary handler http2._remove_handler(push_handler) cnghttp2.nghttp2_session_set_stream_user_data(session, frame.push_promise.promised_stream_id, NULL) try: handler.on_push_promise(push_handler) except: sys.stderr.write(traceback.format_exc()) return http2._rst_stream(frame.hd.stream_id) return 0 cdef int client_on_frame_send(cnghttp2.nghttp2_session *session, const cnghttp2.nghttp2_frame *frame, void *user_data): cdef http2 = <_HTTP2ClientSessionCore>user_data logging.debug('client_on_frame_send, type:%s, stream_id:%s', frame.hd.type, frame.hd.stream_id) if frame.hd.type == cnghttp2.NGHTTP2_SETTINGS: if (frame.hd.flags & cnghttp2.NGHTTP2_FLAG_ACK) != 0: return 0 http2._start_settings_timer() cdef class _HTTP2SessionCoreBase: cdef cnghttp2.nghttp2_session *session cdef transport cdef handler_class cdef handlers cdef settings_timer cdef inside_callback def __cinit__(self, transport, handler_class=None): self.session = NULL self.transport = transport self.handler_class = handler_class self.handlers = set() self.settings_timer = None self.inside_callback = False def __dealloc__(self): cnghttp2.nghttp2_session_del(self.session) def data_received(self, data): cdef ssize_t rv rv = cnghttp2.nghttp2_session_mem_recv(self.session, data, len(data)) if rv < 0: raise Exception('nghttp2_session_mem_recv failed: {}'.format\ (_strerror(rv))) self.send_data() OUTBUF_MAX = 65535 SETTINGS_TIMEOUT = 5.0 def send_data(self): cdef ssize_t outbuflen cdef const uint8_t *outbuf while True: if self.transport.get_write_buffer_size() > self.OUTBUF_MAX: break outbuflen = cnghttp2.nghttp2_session_mem_send(self.session, &outbuf) if outbuflen == 0: break if outbuflen < 0: raise Exception('nghttp2_session_mem_send faild: {}'.format\ (_strerror(outbuflen))) self.transport.write(outbuf[:outbuflen]) if self.transport.get_write_buffer_size() == 0 and \ cnghttp2.nghttp2_session_want_read(self.session) == 0 and \ cnghttp2.nghttp2_session_want_write(self.session) == 0: self.transport.close() def resume(self, stream_id): cnghttp2.nghttp2_session_resume_data(self.session, stream_id) if not self.inside_callback: self.send_data() def enter_callback(self): self.inside_callback = True def leave_callback(self): self.inside_callback = False def _make_handler(self, stream_id): logging.debug('_make_handler, stream_id:%s', stream_id) handler = self.handler_class(self, stream_id) self.handlers.add(handler) return handler def _remove_handler(self, handler): logging.debug('_remove_handler, stream_id:%s', handler.stream_id) self.handlers.remove(handler) def _add_handler(self, handler, stream_id): logging.debug('_add_handler, stream_id:%s', stream_id) handler.stream_id = stream_id handler.http2 = self handler.remote_address = self._get_remote_address() handler.client_certificate = self._get_client_certificate() self.handlers.add(handler) def _rst_stream(self, stream_id, error_code=cnghttp2.NGHTTP2_INTERNAL_ERROR): cdef int rv rv = cnghttp2.nghttp2_submit_rst_stream\ (self.session, cnghttp2.NGHTTP2_FLAG_NONE, stream_id, error_code) return rv def _get_remote_address(self): return self.transport.get_extra_info('peername') def _get_client_certificate(self): sock = self.transport.get_extra_info('socket') try: return sock.getpeercert() except AttributeError: return None def _start_settings_timer(self): loop = asyncio.get_event_loop() self.settings_timer = loop.call_later(self.SETTINGS_TIMEOUT, self._settings_timeout) def _stop_settings_timer(self): if self.settings_timer: self.settings_timer.cancel() self.settings_timer = None def _settings_timeout(self): cdef int rv logging.debug('_settings_timeout') self.settings_timer = None rv = cnghttp2.nghttp2_session_terminate_session\ (self.session, cnghttp2.NGHTTP2_SETTINGS_TIMEOUT) try: self.send_data() except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return def _log_request(self, handler): now = datetime.datetime.now() tv = time.mktime(now.timetuple()) datestr = email.utils.formatdate(timeval=tv, localtime=False, usegmt=True) try: method = handler.method.decode('utf-8') except: method = handler.method try: path = handler.path.decode('utf-8') except: path = handler.path logging.info('%s - - [%s] "%s %s HTTP/2" %s - %s', handler.remote_address[0], datestr, method, path, handler.status, 'P' if handler.pushed else '-') def close(self): rv = cnghttp2.nghttp2_session_terminate_session\ (self.session, cnghttp2.NGHTTP2_NO_ERROR) try: self.send_data() except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return cdef class _HTTP2SessionCore(_HTTP2SessionCoreBase): def __cinit__(self, *args, **kwargs): cdef cnghttp2.nghttp2_session_callbacks *callbacks cdef cnghttp2.nghttp2_settings_entry iv[2] cdef int rv super(_HTTP2SessionCore, self).__init__(*args, **kwargs) rv = cnghttp2.nghttp2_session_callbacks_new(&callbacks) if rv != 0: raise Exception('nghttp2_session_callbacks_new failed: {}'.format\ (_strerror(rv))) cnghttp2.nghttp2_session_callbacks_set_on_header_callback( callbacks, server_on_header) cnghttp2.nghttp2_session_callbacks_set_on_begin_headers_callback( callbacks, server_on_begin_headers) cnghttp2.nghttp2_session_callbacks_set_on_frame_recv_callback( callbacks, server_on_frame_recv) cnghttp2.nghttp2_session_callbacks_set_on_stream_close_callback( callbacks, on_stream_close) cnghttp2.nghttp2_session_callbacks_set_on_frame_send_callback( callbacks, server_on_frame_send) cnghttp2.nghttp2_session_callbacks_set_on_frame_not_send_callback( callbacks, server_on_frame_not_send) cnghttp2.nghttp2_session_callbacks_set_on_data_chunk_recv_callback( callbacks, on_data_chunk_recv) rv = cnghttp2.nghttp2_session_server_new(&self.session, callbacks, self) cnghttp2.nghttp2_session_callbacks_del(callbacks) if rv != 0: raise Exception('nghttp2_session_server_new failed: {}'.format\ (_strerror(rv))) iv[0].settings_id = cnghttp2.NGHTTP2_SETTINGS_MAX_CONCURRENT_STREAMS iv[0].value = 100 iv[1].settings_id = cnghttp2.NGHTTP2_SETTINGS_INITIAL_WINDOW_SIZE iv[1].value = cnghttp2.NGHTTP2_INITIAL_WINDOW_SIZE rv = cnghttp2.nghttp2_submit_settings(self.session, cnghttp2.NGHTTP2_FLAG_NONE, iv, sizeof(iv) / sizeof(iv[0])) if rv != 0: raise Exception('nghttp2_submit_settings failed: {}'.format\ (_strerror(rv))) def send_response(self, handler): cdef cnghttp2.nghttp2_data_provider prd cdef cnghttp2.nghttp2_data_provider *prd_ptr cdef cnghttp2.nghttp2_nv *nva cdef size_t nvlen cdef int rv logging.debug('send_response, stream_id:%s', handler.stream_id) nva = NULL nvlen = _make_nva(&nva, handler.response_headers) if handler.response_body: prd.source.ptr = handler.response_body prd.read_callback = data_source_read prd_ptr = &prd else: prd_ptr = NULL rv = cnghttp2.nghttp2_submit_response(self.session, handler.stream_id, nva, nvlen, prd_ptr) free(nva) if rv != 0: # TODO Ignore return value self._rst_stream(handler.stream_id) raise Exception('nghttp2_submit_response failed: {}'.format\ (_strerror(rv))) self._log_request(handler) def push(self, handler, promised_handler): cdef cnghttp2.nghttp2_nv *nva cdef size_t nvlen cdef int32_t promised_stream_id self.handlers.add(promised_handler) nva = NULL nvlen = _make_nva(&nva, promised_handler.headers) promised_stream_id = cnghttp2.nghttp2_submit_push_promise\ (self.session, cnghttp2.NGHTTP2_FLAG_NONE, handler.stream_id, nva, nvlen, promised_handler) if promised_stream_id < 0: raise Exception('nghttp2_submit_push_promise failed: {}'.format\ (_strerror(promised_stream_id))) promised_handler.stream_id = promised_stream_id logging.debug('push, stream_id:%s', promised_stream_id) return promised_handler def connection_lost(self): for handler in self.handlers: handler.on_close(cnghttp2.NGHTTP2_INTERNAL_ERROR) self.handlers = set() cdef class _HTTP2ClientSessionCore(_HTTP2SessionCoreBase): def __cinit__(self, *args, **kwargs): cdef cnghttp2.nghttp2_session_callbacks *callbacks cdef cnghttp2.nghttp2_settings_entry iv[2] cdef int rv super(_HTTP2ClientSessionCore, self).__init__(*args, **kwargs) rv = cnghttp2.nghttp2_session_callbacks_new(&callbacks) if rv != 0: raise Exception('nghttp2_session_callbacks_new failed: {}'.format\ (_strerror(rv))) cnghttp2.nghttp2_session_callbacks_set_on_header_callback( callbacks, client_on_header) cnghttp2.nghttp2_session_callbacks_set_on_begin_headers_callback( callbacks, client_on_begin_headers) cnghttp2.nghttp2_session_callbacks_set_on_frame_recv_callback( callbacks, client_on_frame_recv) cnghttp2.nghttp2_session_callbacks_set_on_stream_close_callback( callbacks, on_stream_close) cnghttp2.nghttp2_session_callbacks_set_on_frame_send_callback( callbacks, client_on_frame_send) cnghttp2.nghttp2_session_callbacks_set_on_data_chunk_recv_callback( callbacks, on_data_chunk_recv) rv = cnghttp2.nghttp2_session_client_new(&self.session, callbacks, self) cnghttp2.nghttp2_session_callbacks_del(callbacks) if rv != 0: raise Exception('nghttp2_session_client_new failed: {}'.format\ (_strerror(rv))) iv[0].settings_id = cnghttp2.NGHTTP2_SETTINGS_MAX_CONCURRENT_STREAMS iv[0].value = 100 iv[1].settings_id = cnghttp2.NGHTTP2_SETTINGS_INITIAL_WINDOW_SIZE iv[1].value = cnghttp2.NGHTTP2_INITIAL_WINDOW_SIZE rv = cnghttp2.nghttp2_submit_settings(self.session, cnghttp2.NGHTTP2_FLAG_NONE, iv, sizeof(iv) / sizeof(iv[0])) if rv != 0: raise Exception('nghttp2_submit_settings failed: {}'.format\ (_strerror(rv))) def send_request(self, method, scheme, host, path, headers, body, handler): cdef cnghttp2.nghttp2_data_provider prd cdef cnghttp2.nghttp2_data_provider *prd_ptr cdef cnghttp2.nghttp2_priority_spec *pri_ptr cdef cnghttp2.nghttp2_nv *nva cdef size_t nvlen cdef int32_t stream_id body = wrap_body(body) custom_headers = _encode_headers(headers) headers = [ (b':method', method.encode('utf-8')), (b':scheme', scheme.encode('utf-8')), (b':authority', host.encode('utf-8')), (b':path', path.encode('utf-8')) ] headers.extend(custom_headers) nva = NULL nvlen = _make_nva(&nva, headers) if body: prd.source.ptr = body prd.read_callback = data_source_read prd_ptr = &prd else: prd_ptr = NULL # TODO: Enable priorities pri_ptr = NULL stream_id = cnghttp2.nghttp2_submit_request\ (self.session, pri_ptr, nva, nvlen, prd_ptr, handler) free(nva) if stream_id < 0: raise Exception('nghttp2_submit_request failed: {}'.format\ (_strerror(stream_id))) logging.debug('request, stream_id:%s', stream_id) self._add_handler(handler, stream_id) cnghttp2.nghttp2_session_set_stream_user_data(self.session, stream_id, handler) return handler def push(self, push_promise, handler): if handler: # push_promise accepted, fill in the handler with the stored # headers from the push_promise handler.status = push_promise.status handler.scheme = push_promise.scheme handler.method = push_promise.method handler.host = push_promise.host handler.path = push_promise.path handler.cookies = push_promise.cookies handler.stream_id = push_promise.stream_id handler.http2 = self handler.pushed = True self._add_handler(handler, handler.stream_id) cnghttp2.nghttp2_session_set_stream_user_data(self.session, handler.stream_id, handler) else: # push_promise rejected, reset the stream self._rst_stream(push_promise.stream_id, error_code=cnghttp2.NGHTTP2_NO_ERROR) if asyncio: class BaseRequestHandler: """HTTP/2 request (stream) handler base class. The class is used to handle the HTTP/2 stream. By default, it does not nothing. It must be subclassed to handle each event callback method. The first callback method invoked is on_headers(). It is called when HEADERS frame, which includes request header fields, is arrived. If request has request body, on_data(data) is invoked for each chunk of received data. When whole request is received, on_request_done() is invoked. When stream is closed, on_close(error_code) is called. The application can send response using send_response() method. It can be used in on_headers(), on_data() or on_request_done(). The application can push resource using push() method. It must be used before send_response() call. The following instance variables are available: client_address Contains a tuple of the form (host, port) referring to the client's address. client_certificate May contain the client certifcate in its non-binary form stream_id Stream ID of this stream scheme Scheme of the request URI. This is a value of :scheme header field. method Method of this stream. This is a value of :method header field. host This is a value of :authority or host header field. path This is a value of :path header field. headers Request header fields """ def __init__(self, http2, stream_id): self.headers = [] self.cookies = [] # Stream ID. For promised stream, it is initially -1. self.stream_id = stream_id self.http2 = http2 # address of the client self.remote_address = self.http2._get_remote_address() # certificate of the client self._client_certificate = self.http2._get_client_certificate() # :scheme header field in request self.scheme = None # :method header field in request self.method = None # :authority or host header field in request self.host = None # :path header field in request self.path = None # HTTP status self.status = None # True if this is a handler for pushed resource self.pushed = False @property def client_address(self): return self.remote_address @property def client_certificate(self): return self._client_certificate def on_headers(self): '''Called when request HEADERS is arrived. ''' pass def on_data(self, data): '''Called when a chunk of request body is arrived. This method will be called multiple times until all data are received. ''' pass def on_request_done(self): '''Called when whole request was received ''' pass def on_close(self, error_code): '''Called when stream is about to close. ''' pass def send_response(self, status=200, headers=None, body=None): '''Send response. The status is HTTP status code. The headers is additional response headers. The :status header field is appended by the library. The body is the response body. It could be None if response body is empty. Or it must be instance of either str, bytes, io.IOBase or callable, called body generator, which takes one parameter, size. The body generator generates response body. It can pause generation of response so that it can wait for slow backend data generation. When invoked, it should return tuple, byte string and flag. The flag is either DATA_OK, DATA_EOF and DATA_DEFERRED. For non-empty byte string and it is not the last chunk of response, DATA_OK is returned as flag. If this is the last chunk of the response (byte string is possibly None), DATA_EOF must be returned as flag. If there is no data available right now, but additional data are anticipated, return tuple (None, DATA_DEFERRD). When data arrived, call resume() and restart response body transmission. Only the body generator can pause response body generation; instance of io.IOBase must not block. If instance of str is specified as body, it is encoded using UTF-8. The headers is a list of tuple of the form (name, value). The name and value can be either unicode string or byte string. On error, exception will be thrown. ''' if self.status is not None: raise Exception('response has already been sent') if not status: raise Exception('status must not be empty') body = wrap_body(body) self._set_response_prop(status, headers, body) self.http2.send_response(self) def push(self, path, method='GET', request_headers=None, status=200, headers=None, body=None): '''Push a resource. The path is a path portion of request URI for this resource. The method is a method to access this resource. The request_headers is additional request headers to access this resource. The :scheme, :method, :authority and :path are appended by the library. The :scheme and :authority are inherited from the request (not request_headers parameter). The status is HTTP status code. The headers is additional response headers. The :status header field is appended by the library. The body is the response body. It has the same semantics of body parameter of send_response(). The headers and request_headers are a list of tuple of the form (name, value). The name and value can be either unicode string or byte string. On error, exception will be thrown. ''' if not status: raise Exception('status must not be empty') if not method: raise Exception('method must not be empty') if not path: raise Exception('path must not be empty') body = wrap_body(body) promised_handler = self.http2._make_handler(-1) promised_handler.pushed = True promised_handler.scheme = self.scheme promised_handler.method = method.encode('utf-8') promised_handler.host = self.host promised_handler.path = path.encode('utf-8') promised_handler._set_response_prop(status, headers, body) headers = [ (b':method', promised_handler.method), (b':scheme', promised_handler.scheme), (b':authority', promised_handler.host), (b':path', promised_handler.path) ] headers.extend(_encode_headers(request_headers)) promised_handler.headers = headers return self.http2.push(self, promised_handler) def _set_response_prop(self, status, headers, body): self.status = status if headers is None: headers = [] self.response_headers = [(b':status', str(status).encode('utf-8'))] self.response_headers.extend(_encode_headers(headers)) self.response_body = body def resume(self): self.http2.resume(self.stream_id) def _encode_headers(headers): if not headers: return [] return [(k if isinstance(k, bytes) else k.encode('utf-8'), v if isinstance(v, bytes) else v.encode('utf-8')) \ for k, v in headers] class _HTTP2Session(asyncio.Protocol): def __init__(self, RequestHandlerClass): asyncio.Protocol.__init__(self) self.RequestHandlerClass = RequestHandlerClass self.http2 = None def connection_made(self, transport): address = transport.get_extra_info('peername') logging.info('connection_made, address:%s, port:%s', address[0], address[1]) self.transport = transport sock = self.transport.get_extra_info('socket') try: sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) except OSError as e: logging.info('failed to set tcp-nodelay: %s', str(e)) ssl_ctx = self.transport.get_extra_info('sslcontext') if ssl_ctx: protocol = sock.selected_npn_protocol() logging.info('npn, protocol:%s', protocol) if protocol is None or protocol.encode('utf-8') != \ cnghttp2.NGHTTP2_PROTO_VERSION_ID: self.transport.abort() return try: self.http2 = _HTTP2SessionCore\ (self.transport, self.RequestHandlerClass) except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.abort() return def connection_lost(self, exc): logging.info('connection_lost') if self.http2: self.http2.connection_lost() self.http2 = None def data_received(self, data): try: self.http2.data_received(data) except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return def resume_writing(self): try: self.http2.send_data() except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return class HTTP2Server: '''HTTP/2 server. This class builds on top of the asyncio event loop. On construction, RequestHandlerClass must be given, which must be a subclass of BaseRequestHandler class. ''' def __init__(self, address, RequestHandlerClass, ssl=None): '''address is a tuple of the listening address and port (e.g., ('127.0.0.1', 8080)). RequestHandlerClass must be a subclass of BaseRequestHandler class to handle a HTTP/2 stream. The ssl can be ssl.SSLContext instance. If it is not None, the resulting server is SSL/TLS capable. ''' def session_factory(): return _HTTP2Session(RequestHandlerClass) self.loop = asyncio.get_event_loop() if ssl: ssl.set_npn_protocols([cnghttp2.NGHTTP2_PROTO_VERSION_ID\ .decode('utf-8')]) coro = self.loop.create_server(session_factory, host=address[0], port=address[1], ssl=ssl) self.server = self.loop.run_until_complete(coro) logging.info('listen, address:%s, port:%s', address[0], address[1]) def serve_forever(self): try: self.loop.run_forever() finally: self.server.close() self.loop.close() class BaseResponseHandler: """HTTP/2 response (stream) handler base class. The class is used to handle the HTTP/2 stream. By default, it does not nothing. It must be subclassed to handle each event callback method. The first callback method invoked is on_headers(). It is called when HEADERS frame, which includes response header fields, is arrived. If response has a body, on_data(data) is invoked for each chunk of received data. When whole response is received, on_response_done() is invoked. When stream is closed or underlying connection is lost, on_close(error_code) is called. The application can send follow up requests using HTTP2Client.send_request() method. The application can handle push resource using on_push_promise() method. The following instance variables are available: server_address Contains a tuple of the form (host, port) referring to the server's address. stream_id Stream ID of this stream scheme Scheme of the request URI. This is a value of :scheme header field. method Method of this stream. This is a value of :method header field. host This is a value of :authority or host header field. path This is a value of :path header field. headers Response header fields. There is a special exception. If this object is passed to push_promise(), this instance variable contains pushed request header fields. """ def __init__(self, http2=None, stream_id=-1): self.headers = [] self.cookies = [] # Stream ID. For promised stream, it is initially -1. self.stream_id = stream_id self.http2 = http2 # address of the server self.remote_address = None # :scheme header field in request self.scheme = None # :method header field in request self.method = None # :authority or host header field in request self.host = None # :path header field in request self.path = None # HTTP status self.status = None # True if this is a handler for pushed resource self.pushed = False @property def server_address(self): return self.remote_address def on_headers(self): '''Called when response HEADERS is arrived. ''' pass def on_data(self, data): '''Called when a chunk of response body is arrived. This method will be called multiple times until all data are received. ''' pass def on_response_done(self): '''Called when whole response was received ''' pass def on_close(self, error_code): '''Called when stream is about to close. ''' pass def on_push_promise(self, push_promise): '''Called when a push is promised. Default behavior is to cancel the push. If application overrides this method, it should call either accept_push or reject_push. ''' self.reject_push(push_promise) def reject_push(self, push_promise): '''Convenience method equivalent to calling accept_push with a falsy value. ''' self.http2.push(push_promise, None) def accept_push(self, push_promise, handler=None): '''Accept a push_promise and provider a handler for the new stream. If a falsy value is supplied for the handler, the push is rejected. ''' self.http2.push(push_promise, handler) def resume(self): self.http2.resume(self.stream_id) class _HTTP2ClientSession(asyncio.Protocol): def __init__(self, client): asyncio.Protocol.__init__(self) self.http2 = None self.pending = [] self.client = client def connection_made(self, transport): address = transport.get_extra_info('peername') logging.info('connection_made, address:%s, port:%s', address[0], address[1]) self.transport = transport sock = self.transport.get_extra_info('socket') sock.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) ssl_ctx = self.transport.get_extra_info('sslcontext') if ssl_ctx: protocol = sock.selected_npn_protocol() logging.info('npn, protocol:%s', protocol) if protocol is None or protocol.encode('utf-8') != \ cnghttp2.NGHTTP2_PROTO_VERSION_ID: self.transport.abort() self.http2 = _HTTP2ClientSessionCore(self.transport) # Clear pending requests send_pending = self.pending self.pending = [] for method,scheme,host,path,headers,body,handler in send_pending: self.send_request(method=method, scheme=scheme, host=host, path=path,\ headers=headers, body=body, handler=handler) self.http2.send_data() def connection_lost(self, exc): logging.info('connection_lost') if self.http2: self.http2 = None self.client.close() def data_received(self, data): try: self.http2.data_received(data) except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return def resume_writing(self): try: self.http2.send_data() except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return def send_request(self, method, scheme, host, path, headers, body, handler): try: # Waiting until connection established if not self.http2: self.pending.append([method, scheme, host, path, headers, body, handler]) return self.http2.send_request(method=method, scheme=scheme, host=host, path=path,\ headers=headers, body=body, handler=handler) self.http2.send_data() except Exception as err: sys.stderr.write(traceback.format_exc()) self.transport.close() return def close(self): if self.http2: self.http2.close() class HTTP2Client: '''HTTP/2 client. This class builds on top of the asyncio event loop. ''' def __init__(self, address, loop=None, ssl=None): '''address is a tuple of the connect address and port (e.g., ('127.0.0.1', 8080)). The ssl can be ssl.SSLContext instance. If it is not None, the resulting client is SSL/TLS capable. ''' self.address = address self.session = _HTTP2ClientSession(self) def session_factory(): return self.session if ssl: ssl.set_npn_protocols([cnghttp2.NGHTTP2_PROTO_VERSION_ID\ .decode('utf-8')]) self.loop = loop if not self.loop: self.loop = asyncio.get_event_loop() coro = self.loop.create_connection(session_factory, host=address[0], port=address[1], ssl=ssl) if ssl: self.scheme = 'https' else: self.scheme = 'http' self.transport,_ = self.loop.run_until_complete(coro) logging.info('connect, address:%s, port:%s', self.address[0], self.address[1]) @property def io_loop(self): return self.loop def close(self): self.session.close() def send_request(self, method='GET', url='/', headers=None, body=None, handler=None): url = urlparse(url) scheme = url.scheme if url.scheme else self.scheme host = url.netloc if url.netloc else self.address[0]+':'+str(self.address[1]) path = url.path if url.params: path += ';'+url.params if url.query: path += '?'+url.query if url.fragment: path += '#'+url.fragment self.session.send_request(method=method, scheme=scheme, host=host, path=path,\ headers=headers, body=body, handler=handler)