#!/usr/bin/python
-import sys, os, getopt, threading
-import ashd.proto, ashd.util
+import sys, os, getopt, socket, logging, time
+import ashd.util, ashd.serve
+try:
+ import pdm.srv
+except:
+ pdm = None
def usage(out):
- out.write("usage: ashd-wsgi [-hA] [-p MODPATH] HANDLER-MODULE [ARGS...]\n")
+ out.write("usage: ashd-wsgi [-hAL] [-m PDM-SPEC] [-p MODPATH] [-t REQUEST-HANDLER[:PAR[=VAL](,PAR[=VAL])...]] HANDLER-MODULE [ARGS...]\n")
+hspec = "free", {}
modwsgi_compat = False
-opts, args = getopt.getopt(sys.argv[1:], "+hAp:")
+setlog = True
+opts, args = getopt.getopt(sys.argv[1:], "+hALp:t:l:m:")
for o, a in opts:
if o == "-h":
usage(sys.stdout)
sys.exit(0)
elif o == "-p":
sys.path.insert(0, a)
+ elif o == "-L":
+ setlog = False
elif o == "-A":
modwsgi_compat = True
+ elif o == "-l":
+ hspec = "free", {"max": a, "abort": "10"}
+ elif o == "-t":
+ hspec = ashd.serve.parsehspec(a)
+ elif o == "-m":
+ if pdm is not None:
+ pdm.srv.listen(a)
if len(args) < 1:
usage(sys.stderr)
sys.exit(1)
+if setlog:
+ logging.basicConfig(format="ashd-wsgi(%(name)s): %(levelname)s: %(message)s")
+log = logging.getLogger("ashd-wsgi")
try:
handlermod = __import__(args[0], fromlist = ["dummy"])
sys.exit(1)
handler = handlermod.application
-class closed(IOError):
- def __init__(self):
- super(closed, self).__init__("The client has closed the connection.")
-
cwd = os.getcwd()
def absolutify(path):
if path[0] != '/':
buf += c
return buf
-def dowsgi(req):
+def mkenv(req):
env = {}
env["wsgi.version"] = 1, 0
for key, val in req.headers:
env["SERVER_PROTOCOL"] = req.ver
env["REQUEST_METHOD"] = req.method
env["REQUEST_URI"] = req.url
- try:
- env["PATH_INFO"] = unquoteurl(req.rest)
- except:
- env["PATH_INFO"] = req.rest
name = req.url
p = name.find('?')
if p >= 0:
else:
env["QUERY_STRING"] = ""
if name[-len(req.rest):] == req.rest:
+ # This is the same hack used in call*cgi.
name = name[:-len(req.rest)]
+ try:
+ pi = unquoteurl(req.rest)
+ except:
+ pi = req.rest
+ if name == '/':
+ # This seems to be normal CGI behavior, but see callcgi.c for
+ # details.
+ pi = "/" + pi
+ name = ""
env["SCRIPT_NAME"] = name
+ env["PATH_INFO"] = pi
if "Host" in req: env["SERVER_NAME"] = req["Host"]
+ if "X-Ash-Server-Address" in req: env["SERVER_ADDR"] = req["X-Ash-Server-Address"]
if "X-Ash-Server-Port" in req: env["SERVER_PORT"] = req["X-Ash-Server-Port"]
if "X-Ash-Protocol" in req and req["X-Ash-Protocol"] == "https": env["HTTPS"] = "on"
if "X-Ash-Address" in req: env["REMOTE_ADDR"] = req["X-Ash-Address"]
- if "Content-Type" in req: env["CONTENT_TYPE"] = req["Content-Type"]
- if "Content-Length" in req: env["CONTENT_LENGTH"] = req["Content-Length"]
+ if "X-Ash-Port" in req: env["REMOTE_PORT"] = req["X-Ash-Port"]
+ if "Content-Type" in req:
+ env["CONTENT_TYPE"] = req["Content-Type"]
+ # The CGI specification does not strictly require this, but
+ # many actualy programs and libraries seem to.
+ del env["HTTP_CONTENT_TYPE"]
+ if "Content-Length" in req:
+ env["CONTENT_LENGTH"] = req["Content-Length"]
+ del env["HTTP_CONTENT_LENGTH"]
if "X-Ash-File" in req: env["SCRIPT_FILENAME"] = absolutify(req["X-Ash-File"])
if "X-Ash-Protocol" in req: env["wsgi.url_scheme"] = req["X-Ash-Protocol"]
env["wsgi.input"] = req.sk
env["wsgi.multithread"] = True
env["wsgi.multiprocess"] = False
env["wsgi.run_once"] = False
+ return env
+
+class request(ashd.serve.wsgirequest):
+ def __init__(self, bkreq, **kw):
+ super(request, self).__init__(**kw)
+ self.bkreq = bkreq.dup()
+
+ def mkenv(self):
+ return mkenv(self.bkreq)
+
+ def handlewsgi(self, env, startreq):
+ return handler(env, startreq)
+
+ def fileno(self):
+ return self.bkreq.bsk.fileno()
- resp = []
- respsent = []
-
- def flushreq():
- if not respsent:
- if not resp:
- raise Exception, "Trying to write data before starting response."
- status, headers = resp
- respsent[:] = [True]
- req.sk.write("HTTP/1.1 %s\n" % status)
- for nm, val in headers:
- req.sk.write("%s: %s\n" % (nm, val))
- req.sk.write("\n")
-
- def write(data):
- if not data:
- return
+ def writehead(self, status, headers):
+ w = self.buffer.extend
+ w("HTTP/1.1 %s\n" % status)
+ for nm, val in headers:
+ w("%s: %s\n" % (nm, val))
+ w("\n")
+
+ def flush(self):
try:
- flushreq()
- req.sk.write(data)
- req.sk.flush()
+ ret = self.bkreq.bsk.send(self.buffer, socket.MSG_DONTWAIT)
+ self.buffer[:ret] = ""
except IOError:
- raise closed()
-
- def startreq(status, headers, exc_info = None):
- if resp:
- if exc_info: # Interesting, this...
- try:
- if respsent:
- raise exc_info[0], exc_info[1], exc_info[2]
- finally:
- exc_info = None # CPython GC bug?
- else:
- raise Exception, "Can only start responding once."
- resp[:] = status, headers
- return write
+ raise ashd.serve.closed()
+
+ def close(self):
+ self.bkreq.close()
- respiter = handler(env, startreq)
- try:
- for data in respiter:
- write(data)
- if resp:
- flushreq()
- finally:
- if hasattr(respiter, "close"):
- respiter.close()
-
-class reqthread(threading.Thread):
- def __init__(self, req):
- super(reqthread, self).__init__(name = "Request handler")
- self.req = req.dup()
-
- def run(self):
- try:
- dowsgi(self.req)
- finally:
- self.req.close()
-
def handle(req):
- reqthread(req).start()
+ reqhandler.handle(request(bkreq=req, handler=reqhandler))
-ashd.util.serveloop(handle)
+if hspec[0] not in ashd.serve.names:
+ sys.stderr.write("ashd-wsgi: no such request handler: %s\n" % hspec[0])
+ sys.exit(1)
+hclass = ashd.serve.names[hspec[0]]
+try:
+ hargs = hclass.parseargs(**hspec[1])
+except ValueError as exc:
+ sys.stderr.write("ashd-wsgi: %s\n" % exc)
+ sys.exit(1)
+
+reqhandler = hclass(**hargs)
+try:
+ ashd.util.serveloop(handle)
+finally:
+ reqhandler.close()