Mercurial > hg
view mercurial/hgweb/server.py @ 14451:c78d41db6f88
patch: refactor file creation/removal detection
The patcher has to know if a file is being created or removed to check if the
target already exists, or to actually unlink the file when a hunk emptying it
is applied. This was done by embedding the creation/removal information in the
first (and only) hunk attached to the file.
There are two problems with this approach:
- creation/removal is really a property of the file being patched and not its
hunk.
- for regular patches, file creation cannot be deduced at parsing time: there
are case where the *stripped* file paths must be compared. Modifying hunks
after their creation is clumsy and prevent further refactorings related to
copies handling.
Instead, we delegate this job to selectfile() which has all the relevant
information, and remove the hunk createfile() and rmfile() methods.
| author | Patrick Mezard <pmezard@gmail.com> |
|---|---|
| date | Fri, 27 May 2011 21:50:09 +0200 |
| parents | ce99d887585f |
| children | a7d5816087a9 |
line wrap: on
line source
# hgweb/server.py - The standalone hg web server. # # Copyright 21 May 2005 - (c) 2005 Jake Edge <jake@edge2.net> # Copyright 2005-2007 Matt Mackall <mpm@selenic.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. import os, sys, errno, urllib, BaseHTTPServer, socket, SocketServer, traceback from mercurial import util, error from mercurial.hgweb import common from mercurial.i18n import _ def _splitURI(uri): """ Return path and query splited from uri Just like CGI environment, the path is unquoted, the query is not. """ if '?' in uri: path, query = uri.split('?', 1) else: path, query = uri, '' return urllib.unquote(path), query class _error_logger(object): def __init__(self, handler): self.handler = handler def flush(self): pass def write(self, str): self.writelines(str.split('\n')) def writelines(self, seq): for msg in seq: self.handler.log_error("HG error: %s", msg) class _httprequesthandler(BaseHTTPServer.BaseHTTPRequestHandler): url_scheme = 'http' @staticmethod def preparehttpserver(httpserver, ssl_cert): """Prepare .socket of new HTTPServer instance""" pass def __init__(self, *args, **kargs): self.protocol_version = 'HTTP/1.1' BaseHTTPServer.BaseHTTPRequestHandler.__init__(self, *args, **kargs) def _log_any(self, fp, format, *args): fp.write("%s - - [%s] %s\n" % (self.client_address[0], self.log_date_time_string(), format % args)) fp.flush() def log_error(self, format, *args): self._log_any(self.server.errorlog, format, *args) def log_message(self, format, *args): self._log_any(self.server.accesslog, format, *args) def log_request(self, code='-', size='-'): xheaders = [h for h in self.headers.items() if h[0].startswith('x-')] self.log_message('"%s" %s %s%s', self.requestline, str(code), str(size), ''.join([' %s:%s' % h for h in sorted(xheaders)])) def do_write(self): try: self.do_hgweb() except socket.error, inst: if inst[0] != errno.EPIPE: raise def do_POST(self): try: self.do_write() except Exception: self._start_response("500 Internal Server Error", []) self._write("Internal Server Error") tb = "".join(traceback.format_exception(*sys.exc_info())) self.log_error("Exception happened during processing " "request '%s':\n%s", self.path, tb) def do_GET(self): self.do_POST() def do_hgweb(self): path, query = _splitURI(self.path) env = {} env['GATEWAY_INTERFACE'] = 'CGI/1.1' env['REQUEST_METHOD'] = self.command env['SERVER_NAME'] = self.server.server_name env['SERVER_PORT'] = str(self.server.server_port) env['REQUEST_URI'] = self.path env['SCRIPT_NAME'] = self.server.prefix env['PATH_INFO'] = path[len(self.server.prefix):] env['REMOTE_HOST'] = self.client_address[0] env['REMOTE_ADDR'] = self.client_address[0] if query: env['QUERY_STRING'] = query if self.headers.typeheader is None: env['CONTENT_TYPE'] = self.headers.type else: env['CONTENT_TYPE'] = self.headers.typeheader length = self.headers.getheader('content-length') if length: env['CONTENT_LENGTH'] = length for header in [h for h in self.headers.keys() if h not in ('content-type', 'content-length')]: hkey = 'HTTP_' + header.replace('-', '_').upper() hval = self.headers.getheader(header) hval = hval.replace('\n', '').strip() if hval: env[hkey] = hval env['SERVER_PROTOCOL'] = self.request_version env['wsgi.version'] = (1, 0) env['wsgi.url_scheme'] = self.url_scheme if env.get('HTTP_EXPECT', '').lower() == '100-continue': self.rfile = common.continuereader(self.rfile, self.wfile.write) env['wsgi.input'] = self.rfile env['wsgi.errors'] = _error_logger(self) env['wsgi.multithread'] = isinstance(self.server, SocketServer.ThreadingMixIn) env['wsgi.multiprocess'] = isinstance(self.server, SocketServer.ForkingMixIn) env['wsgi.run_once'] = 0 self.close_connection = True self.saved_status = None self.saved_headers = [] self.sent_headers = False self.length = None for chunk in self.server.application(env, self._start_response): self._write(chunk) def send_headers(self): if not self.saved_status: raise AssertionError("Sending headers before " "start_response() called") saved_status = self.saved_status.split(None, 1) saved_status[0] = int(saved_status[0]) self.send_response(*saved_status) should_close = True for h in self.saved_headers: self.send_header(*h) if h[0].lower() == 'content-length': should_close = False self.length = int(h[1]) # The value of the Connection header is a list of case-insensitive # tokens separated by commas and optional whitespace. if 'close' in [token.strip().lower() for token in self.headers.get('connection', '').split(',')]: should_close = True if should_close: self.send_header('Connection', 'close') self.close_connection = should_close self.end_headers() self.sent_headers = True def _start_response(self, http_status, headers, exc_info=None): code, msg = http_status.split(None, 1) code = int(code) self.saved_status = http_status bad_headers = ('connection', 'transfer-encoding') self.saved_headers = [h for h in headers if h[0].lower() not in bad_headers] return self._write def _write(self, data): if not self.saved_status: raise AssertionError("data written before start_response() called") elif not self.sent_headers: self.send_headers() if self.length is not None: if len(data) > self.length: raise AssertionError("Content-length header sent, but more " "bytes than specified are being written.") self.length = self.length - len(data) self.wfile.write(data) self.wfile.flush() class _httprequesthandleropenssl(_httprequesthandler): """HTTPS handler based on pyOpenSSL""" url_scheme = 'https' @staticmethod def preparehttpserver(httpserver, ssl_cert): try: import OpenSSL OpenSSL.SSL.Context except ImportError: raise util.Abort(_("SSL support is unavailable")) ctx = OpenSSL.SSL.Context(OpenSSL.SSL.SSLv23_METHOD) ctx.use_privatekey_file(ssl_cert) ctx.use_certificate_file(ssl_cert) sock = socket.socket(httpserver.address_family, httpserver.socket_type) httpserver.socket = OpenSSL.SSL.Connection(ctx, sock) httpserver.server_bind() httpserver.server_activate() def setup(self): self.connection = self.request self.rfile = socket._fileobject(self.request, "rb", self.rbufsize) self.wfile = socket._fileobject(self.request, "wb", self.wbufsize) def do_write(self): import OpenSSL try: _httprequesthandler.do_write(self) except OpenSSL.SSL.SysCallError, inst: if inst.args[0] != errno.EPIPE: raise def handle_one_request(self): import OpenSSL try: _httprequesthandler.handle_one_request(self) except (OpenSSL.SSL.SysCallError, OpenSSL.SSL.ZeroReturnError): self.close_connection = True pass class _httprequesthandlerssl(_httprequesthandler): """HTTPS handler based on Pythons ssl module (introduced in 2.6)""" url_scheme = 'https' @staticmethod def preparehttpserver(httpserver, ssl_cert): try: import ssl ssl.wrap_socket except ImportError: raise util.Abort(_("SSL support is unavailable")) httpserver.socket = ssl.wrap_socket(httpserver.socket, server_side=True, certfile=ssl_cert, ssl_version=ssl.PROTOCOL_SSLv23) def setup(self): self.connection = self.request self.rfile = socket._fileobject(self.request, "rb", self.rbufsize) self.wfile = socket._fileobject(self.request, "wb", self.wbufsize) try: from threading import activeCount _mixin = SocketServer.ThreadingMixIn except ImportError: if hasattr(os, "fork"): _mixin = SocketServer.ForkingMixIn else: class _mixin: pass def openlog(opt, default): if opt and opt != '-': return open(opt, 'a') return default class MercurialHTTPServer(object, _mixin, BaseHTTPServer.HTTPServer): # SO_REUSEADDR has broken semantics on windows if os.name == 'nt': allow_reuse_address = 0 def __init__(self, ui, app, addr, handler, **kwargs): BaseHTTPServer.HTTPServer.__init__(self, addr, handler, **kwargs) self.daemon_threads = True self.application = app handler.preparehttpserver(self, ui.config('web', 'certificate')) prefix = ui.config('web', 'prefix', '') if prefix: prefix = '/' + prefix.strip('/') self.prefix = prefix alog = openlog(ui.config('web', 'accesslog', '-'), sys.stdout) elog = openlog(ui.config('web', 'errorlog', '-'), sys.stderr) self.accesslog = alog self.errorlog = elog self.addr, self.port = self.socket.getsockname()[0:2] self.fqaddr = socket.getfqdn(addr[0]) class IPv6HTTPServer(MercurialHTTPServer): address_family = getattr(socket, 'AF_INET6', None) def __init__(self, *args, **kwargs): if self.address_family is None: raise error.RepoError(_('IPv6 is not available on this system')) super(IPv6HTTPServer, self).__init__(*args, **kwargs) def create_server(ui, app): if ui.config('web', 'certificate'): if sys.version_info >= (2, 6): handler = _httprequesthandlerssl else: handler = _httprequesthandleropenssl else: handler = _httprequesthandler if ui.configbool('web', 'ipv6'): cls = IPv6HTTPServer else: cls = MercurialHTTPServer # ugly hack due to python issue5853 (for threaded use) import mimetypes; mimetypes.init() address = ui.config('web', 'address', '') port = util.getport(ui.config('web', 'port', 8000)) try: return cls(ui, app, (address, port), handler) except socket.error, inst: raise util.Abort(_("cannot start server at '%s:%d': %s") % (address, port, inst.args[1]))