Tools/webchecker/webchecker.py - platform/external/python/cpython3 - Gitiles

 #! /usr/bin/env python

 """Web tree checker.

 This utility is handy to check a subweb of the world-wide web for
 errors.  A subweb is specified by giving one or more ``root URLs''; a
 page belongs to the subweb if one of the root URLs is an initial
 prefix of it.

 File URL extension:

 In order to easy the checking of subwebs via the local file system,
 the interpretation of ``file:'' URLs is extended to mimic the behavior
 of your average HTTP daemon: if a directory pathname is given, the
 file index.html in that directory is returned if it exists, otherwise
 a directory listing is returned.  Now, you can point webchecker to the
 document tree in the local file system of your HTTP daemon, and have
 most of it checked.  In fact the default works this way if your local
 web tree is located at /usr/local/etc/httpd/htdpcs (the default for
 the NCSA HTTP daemon and probably others).

 Reports printed:

 When done, it reports links to pages outside the web (unless -q is
 specified), and pages with bad links within the subweb.  When
 interrupted, it print those same reports for the pages that it has
 checked already.

 In verbose mode, additional messages are printed during the
 information gathering phase.  By default, it prints a summary of its
 work status every 50 URLs (adjustable with the -r option), and it
 reports errors as they are encountered.  Use the -q option to disable
 this output.

 Checkpoint feature:

 Whether interrupted or not, it dumps its state (a Python pickle) to a
 checkpoint file and the -R option allows it to restart from the
 checkpoint (assuming that the pages on the subweb that were already
 processed haven't changed).  Even when it has run till completion, -R
 can still be useful -- it will print the reports again, and -Rq prints
 the errors only.  In this case, the checkpoint file is not written
 again.  The checkpoint file can be set with the -d option.

 The checkpoint file is written as a Python pickle.  Remember that
 Python's pickle module is currently quite slow.  Give it the time it
 needs to load and save the checkpoint file.  When interrupted while
 writing the checkpoint file, the old checkpoint file is not
 overwritten, but all work done in the current run is lost.

 Miscellaneous:

 - Webchecker honors the "robots.txt" convention.  Thanks to Skip
 Montanaro for his robotparser.py module (included in this directory)!
 The agent name is hardwired to "webchecker".  URLs that are disallowed
 by the robots.txt file are reported as external URLs.

 - Because the HTML parser is a bit slow, very large HTML files are
 skipped.  The size limit can be set with the -m option.

 - Before fetching a page, it guesses its type based on its extension.
 If it is a known extension and the type is not text/http, the page is
 not fetched.  This is a huge optimization but occasionally it means
 links can be missed.  The mimetypes.py module (also in this directory)
 has a built-in table mapping most currently known suffixes, and in
 addition attempts to read the mime.types configuration files in the
 default locations of Netscape and the NCSA HTTP daemon.

 - It only follows links indicated by <A> tags.  It doesn't follow
 links in <FORM> or <IMG> or whatever other tags might contain
 hyperlinks.  It does honor the <BASE> tag.

 - Checking external links is not done by default; use -x to enable
 this feature.  This is done because checking external links usually
 takes a lot of time.  When enabled, this check is executed during the
 report generation phase (so -x is ignored when -q is specified).  Even
 when -x is enabled, only ``http:'' URLs are checked.


 Usage: webchecker.py [option] ... [rooturl] ...

 Options:

 -R        -- restart from checkpoint file
 -d file   -- checkpoint filename (default %(DUMPFILE)s)
 -m bytes  -- skip HTML pages larger than this size (default %(MAXPAGE)d)
 -q        -- quiet operation (also suppresses external links report)
 -r number -- number of links processed per round (default %(ROUNDSIZE)d)
 -v        -- verbose operation; repeating -v will increase verbosity
 -x        -- check external links (during report phase)

 Arguments:

 rooturl   -- URL to start checking
              (default %(DEFROOT)s)

 """

 __version__ = "0.1"


 import sys
 import os
 from types import *
 import string
 import StringIO
 import getopt
 import pickle

 import urllib
 import urlparse
 import htmllib
 import formatter

 import mimetypes
 import robotparser


 # Tunable parameters
 DEFROOT = "file:/usr/local/etc/httpd/htdocs/"	# Default root URL
 MAXPAGE = 50000				# Ignore files bigger than this
 ROUNDSIZE = 50				# Number of links processed per round
 DUMPFILE = "@webchecker.pickle"		# Pickled checkpoint
 AGENTNAME = "webchecker"		# Agent name for robots.txt parser


 # Global variables
 verbose = 1
 maxpage = MAXPAGE
 roundsize = ROUNDSIZE


 def main():
     global verbose, maxpage, roundsize
     dumpfile = DUMPFILE
     restart = 0
     checkext = 0

     try:
 	opts, args = getopt.getopt(sys.argv[1:], 'Rd:m:qr:vx')
     except getopt.error, msg:
 	sys.stdout = sys.stderr
 	print msg
 	sys.exit(2)
     for o, a in opts:
 	if o == '-R':
 	    restart = 1
 	if o == '-d':
 	    dumpfile = a
 	if o == '-m':
 	    maxpage = string.atoi(a)
 	if o == '-q':
 	    verbose = 0
 	if o == '-r':
 	    roundsize = string.atoi(a)
 	if o == '-v':
 	    verbose = verbose + 1
 	if o == '-x':
 	    checkext = 1

     if verbose:
 	print AGENTNAME, "version", __version__

     if restart:
 	if verbose > 0:
 	    print "Loading checkpoint from %s ..." % dumpfile
 	f = open(dumpfile, "rb")
 	c = pickle.load(f)
 	f.close()
 	if verbose > 0:
 	    print "Done."
 	    print "Root:", string.join(c.roots, "\n      ")
     else:
 	c = Checker()
 	if not args:
 	    args.append(DEFROOT)

     for arg in args:
 	c.addroot(arg)

     if not c.todo:
 	needsave = 0
     else:
 	needsave = 1
     try:
 	c.run()
     except KeyboardInterrupt:
 	if verbose > 0:
 	    print "[run interrupted]"
     try:
 	c.report(checkext)
     except KeyboardInterrupt:
 	if verbose > 0:
 	    print "[report interrupted]"
     if not needsave:
 	if verbose > 0:
 	    print
 	    print "No need to save checkpoint"
     elif dumpfile:
 	if verbose > 0:
 	    print
 	    print "Saving checkpoint to %s ..." % dumpfile
 	newfile = dumpfile + ".new"
 	f = open(newfile, "wb")
 	pickle.dump(c, f)
 	f.flush()
 	f.close()
 	try:
 	    os.unlink(dumpfile)
 	except os.error:
 	    pass
 	os.rename(newfile, dumpfile)
 	if verbose > 0:
 	    print "Done."
 	    if dumpfile == DUMPFILE:
 		print "Use ``%s -R'' to restart." % sys.argv[0]
 	    else:
 		print "Use ``%s -R -d %s'' to restart." % (sys.argv[0],
 							   dumpfile)


 class Checker:

     def __init__(self):
 	self.roots = []
 	self.todo = {}
 	self.done = {}
 	self.ext = {}
 	self.bad = {}
 	self.urlopener = MyURLopener()
 	self.round = 0
 	self.robots = {}

     def __getstate__(self):
 	return (self.roots, self.todo, self.done,
 		self.ext, self.bad, self.round)

     def __setstate__(self, state):
 	(self.roots, self.todo, self.done,
 	 self.ext, self.bad, self.round) = state
 	for root in self.roots:
 	    self.addrobot(root)

     def addroot(self, root):
 	if root not in self.roots:
 	    self.roots.append(root)
 	    self.todo[root] = []
 	    self.addrobot(root)

     def addrobot(self, root):
 	url = urlparse.urljoin(root, "/robots.txt")
 	self.robots[root] = rp = robotparser.RobotFileParser()
 	if verbose > 2:
 	    print "Parsing", url
 	    rp.debug = 1
 	rp.set_url(url)
 	try:
 	    rp.read()
 	except IOError, msg:
 	    if verbose > 1:
 		print "I/O error parsing", url, ":", msg

     def run(self):
 	while self.todo:
 	    self.round = self.round + 1
 	    if verbose > 0:
 		print
 		print "Round", self.round,
 		print "(%d to do, %d done, %d external, %d bad)" % (
 		    len(self.todo), len(self.done),
 		    len(self.ext), len(self.bad))
 		print
 	    urls = self.todo.keys()[:roundsize]
 	    for url in urls:
 		self.dopage(url)
 		self.done[url] = self.todo[url]
 		del self.todo[url]

     def report(self, checkext=0):
 	print
 	if not self.todo: print "Final",
 	else: print "Interim",
 	print "Report (%d to do, %d done, %d external, %d bad)" % (
 	    len(self.todo), len(self.done),
 	    len(self.ext), len(self.bad))
 	if verbose > 0:
 	    self.report_extrefs(checkext)
 	# Report errors last because the output may get truncated
 	self.report_errors()

     def report_extrefs(self, checkext=0):
 	if not self.ext:
 	    print
 	    print "No external URLs"
 	    return
 	print
 	if checkext:
 	    print "External URLs (checking validity):"
 	else:
 	    print "External URLs (not checked):"
 	print
 	urls = self.ext.keys()
 	urls.sort()
 	for url in urls:
 	    show("HREF ", url, " from", self.ext[url])
 	    if not checkext:
 		continue
 	    if verbose > 2: print "Checking", url, "..."
 	    try:
 		f = self.urlopener.open(url)
 		f.close()
 		if verbose > 3: print "OK"
 	    except IOError, msg:
 		print "Error:", msg

     def report_errors(self):
 	if not self.bad:
 	    print
 	    print "No errors"
 	    return
 	print
 	print "Error Report:"
 	urls = self.bad.keys()
 	urls.sort()
 	bysource = {}
 	for url in urls:
 	    try:
 		origins = self.done[url]
 	    except KeyError:
 		origins = self.todo[url]
 	    for source, rawlink in origins:
 		triple = url, rawlink, self.bad[url]
 		try:
 		    bysource[source].append(triple)
 		except KeyError:
 		    bysource[source] = [triple]
 	sources = bysource.keys()
 	sources.sort()
 	for source in sources:
 	    triples = bysource[source]
 	    print
 	    if len(triples) > 1:
 		print len(triples), "Errors in", source
 	    else:
 		print "Error in", source
 	    for url, rawlink, msg in triples:
 		print "  HREF", url,
 		if rawlink != url: print "(%s)" % rawlink,
 		print
 		print "   msg", msg

     def dopage(self, url):
 	if verbose > 1:
 	    if verbose > 2:
 		show("Page  ", url, "  from", self.todo[url])
 	    else:
 		print "Page  ", url
 	page = self.getpage(url)
 	if not page:
 	    return
 	for info in page.getlinkinfos():
 	    link, rawlink = info
 	    origin = url, rawlink
 	    if not self.inroots(link):
 		try:
 		    self.ext[link].append(origin)
 		    if verbose > 3:
 			print "  New ext link", link,
 			if link != rawlink: print "(%s)" % rawlink,
 			print
 		except KeyError:
 		    if verbose > 3:
 			print "  Seen ext link", link,
 			if link != rawlink: print "(%s)" % rawlink,
 			print
 		    self.ext[link] = [origin]
 	    elif self.done.has_key(link):
 		if verbose > 3:
 		    print "  Done link", link
 		self.done[link].append(origin)
 	    elif self.todo.has_key(link):
 		if verbose > 3:
 		    print "  Seen todo link", link
 		self.todo[link].append(origin)
 	    else:
 		if verbose > 3:
 		    print "  New todo link", link
 		self.todo[link] = [origin]

     def inroots(self, url):
 	for root in self.roots:
 	    if url[:len(root)] == root:
 		return self.robots[root].can_fetch(AGENTNAME, url)
 	return 0

     def getpage(self, url):
 	ctype, encoding = mimetypes.guess_type(url)
 	if encoding:
 	    if verbose > 2:
 		print "  Won't bother, URL suggests encoding %s" % `encoding`
 	    return None
 	if ctype and ctype != 'text/html':
 	    if verbose > 2:
 		print "  Won't bother, URL suggests mime type %s" % `ctype`
 	    return None
 	try:
 	    f = self.urlopener.open(url)
 	except IOError, msg:
 	    if (type(msg) == TupleType and
 		len(msg) >= 4 and
 		msg[0] == 'http error' and
 		type(msg[3]) == InstanceType):
 		# Remove the Message instance -- it may contain
 		# a file object which prevents pickling.
 		msg = msg[:3] + msg[4:]
 	    if verbose > 0:
 		print "Error ", msg
 	    if verbose > 0:
 		show(" HREF ", url, "  from", self.todo[url])
 	    self.bad[url] = msg
 	    return None
 	nurl = f.geturl()
 	info = f.info()
 	if info.has_key('content-type'):
 	    ctype = string.lower(info['content-type'])
 	if nurl != url:
 	    if verbose > 1:
 		print " Redirected to", nurl
 	    if not ctype:
 		ctype, encoding = mimetypes.guess_type(nurl)
 	if ctype != 'text/html':
 	    f.close()
 	    if verbose > 2:
 		print "  Not HTML, mime type", ctype
 	    return None
 	text = f.read()
 	f.close()
 	return Page(text, nurl)


 class Page:

     def __init__(self, text, url):
 	self.text = text
 	self.url = url

     def getlinkinfos(self):
 	size = len(self.text)
 	if size > maxpage:
 	    if verbose > 0:
 		print "Skip huge file", self.url
 		print "  (%.0f Kbytes)" % (size*0.001)
 	    return []
 	if verbose > 2:
 	    print "  Parsing", self.url, "(%d bytes)" % size
 	parser = MyHTMLParser(formatter.NullFormatter())
 	parser.feed(self.text)
 	parser.close()
 	rawlinks = parser.getlinks()
 	base = urlparse.urljoin(self.url, parser.getbase() or "")
 	infos = []
 	for rawlink in rawlinks:
 	    t = urlparse.urlparse(rawlink)
 	    t = t[:-1] + ('',)
 	    rawlink = urlparse.urlunparse(t)
 	    link = urlparse.urljoin(base, rawlink)
 	    infos.append((link, rawlink))
 	return infos


 class MyStringIO(StringIO.StringIO):

     def __init__(self, url, info):
 	self.__url = url
 	self.__info = info
 	StringIO.StringIO.__init__(self)

     def info(self):
 	return self.__info

     def geturl(self):
 	return self.__url


 class MyURLopener(urllib.FancyURLopener):

     http_error_default = urllib.URLopener.http_error_default

     def open_file(self, url):
 	path = urllib.url2pathname(urllib.unquote(url))
 	if path[-1] != os.sep:
 	    url = url + '/'
 	if os.path.isdir(path):
 	    indexpath = os.path.join(path, "index.html")
 	    if os.path.exists(indexpath):
 		return self.open_file(url + "index.html")
 	    try:
 		names = os.listdir(path)
 	    except os.error, msg:
 		raise IOError, msg, sys.exc_traceback
 	    names.sort()
 	    s = MyStringIO("file:"+url, {'content-type': 'text/html'})
 	    s.write('<BASE HREF="file:%s">\n' %
 		    urllib.quote(os.path.join(path, "")))
 	    for name in names:
 		q = urllib.quote(name)
 		s.write('<A HREF="%s">%s</A>\n' % (q, q))
 	    s.seek(0)
 	    return s
 	return urllib.FancyURLopener.open_file(self, path)


 class MyHTMLParser(htmllib.HTMLParser):

     def __init__(*args):
 	self = args[0]
 	self.base = None
 	self.links = []
 	apply(htmllib.HTMLParser.__init__, args)

     def start_a(self, attributes):
 	for name, value in attributes:
 	    if name == 'href' and value and value not in self.links:
 		self.links.append(string.strip(value))

     def do_base(self, attributes):
 	for name, value in attributes:
 	    if name == 'href' and value:
 		if verbose > 1:
 		    print "  Base", value
 		self.base = value

     def getlinks(self):
 	return self.links

     def getbase(self):
 	return self.base


 def show(p1, link, p2, origins):
     print p1, link
     i = 0
     for source, rawlink in origins:
 	i = i+1
 	if i == 2:
 	    p2 = ' '*len(p2)
 	print p2, source,
 	if rawlink != link: print "(%s)" % rawlink,
 	print


 if __name__ == '__main__':
     main()
	#! /usr/bin/env python

	"""Web tree checker.

	This utility is handy to check a subweb of the world-wide web for
	errors. A subweb is specified by giving one or more ``root URLs''; a
	page belongs to the subweb if one of the root URLs is an initial
	prefix of it.

	File URL extension:

	In order to easy the checking of subwebs via the local file system,
	the interpretation of ``file:'' URLs is extended to mimic the behavior
	of your average HTTP daemon: if a directory pathname is given, the
	file index.html in that directory is returned if it exists, otherwise
	a directory listing is returned. Now, you can point webchecker to the
	document tree in the local file system of your HTTP daemon, and have
	most of it checked. In fact the default works this way if your local
	web tree is located at /usr/local/etc/httpd/htdpcs (the default for
	the NCSA HTTP daemon and probably others).

	Reports printed:

	When done, it reports links to pages outside the web (unless -q is
	specified), and pages with bad links within the subweb. When
	interrupted, it print those same reports for the pages that it has
	checked already.

	In verbose mode, additional messages are printed during the
	information gathering phase. By default, it prints a summary of its
	work status every 50 URLs (adjustable with the -r option), and it
	reports errors as they are encountered. Use the -q option to disable
	this output.

	Checkpoint feature:

	Whether interrupted or not, it dumps its state (a Python pickle) to a
	checkpoint file and the -R option allows it to restart from the
	checkpoint (assuming that the pages on the subweb that were already
	processed haven't changed). Even when it has run till completion, -R
	can still be useful -- it will print the reports again, and -Rq prints
	the errors only. In this case, the checkpoint file is not written
	again. The checkpoint file can be set with the -d option.

	The checkpoint file is written as a Python pickle. Remember that
	Python's pickle module is currently quite slow. Give it the time it
	needs to load and save the checkpoint file. When interrupted while
	writing the checkpoint file, the old checkpoint file is not
	overwritten, but all work done in the current run is lost.

	Miscellaneous:

	- Webchecker honors the "robots.txt" convention. Thanks to Skip
	Montanaro for his robotparser.py module (included in this directory)!
	The agent name is hardwired to "webchecker". URLs that are disallowed
	by the robots.txt file are reported as external URLs.

	- Because the HTML parser is a bit slow, very large HTML files are
	skipped. The size limit can be set with the -m option.

	- Before fetching a page, it guesses its type based on its extension.
	If it is a known extension and the type is not text/http, the page is
	not fetched. This is a huge optimization but occasionally it means
	links can be missed. The mimetypes.py module (also in this directory)
	has a built-in table mapping most currently known suffixes, and in
	addition attempts to read the mime.types configuration files in the
	default locations of Netscape and the NCSA HTTP daemon.

	- It only follows links indicated by <A> tags. It doesn't follow
	links in <FORM> or <IMG> or whatever other tags might contain
	hyperlinks. It does honor the <BASE> tag.

	- Checking external links is not done by default; use -x to enable
	this feature. This is done because checking external links usually
	takes a lot of time. When enabled, this check is executed during the
	report generation phase (so -x is ignored when -q is specified). Even
	when -x is enabled, only ``http:'' URLs are checked.


	Usage: webchecker.py [option] ... [rooturl] ...

	Options:

	-R -- restart from checkpoint file
	-d file -- checkpoint filename (default %(DUMPFILE)s)
	-m bytes -- skip HTML pages larger than this size (default %(MAXPAGE)d)
	-q -- quiet operation (also suppresses external links report)
	-r number -- number of links processed per round (default %(ROUNDSIZE)d)
	-v -- verbose operation; repeating -v will increase verbosity
	-x -- check external links (during report phase)

	Arguments:

	rooturl -- URL to start checking
	(default %(DEFROOT)s)

	"""

	__version__ = "0.1"


	import sys
	import os
	from types import *
	import string
	import StringIO
	import getopt
	import pickle

	import urllib
	import urlparse
	import htmllib
	import formatter

	import mimetypes
	import robotparser


	# Tunable parameters
	DEFROOT = "file:/usr/local/etc/httpd/htdocs/" # Default root URL
	MAXPAGE = 50000 # Ignore files bigger than this
	ROUNDSIZE = 50 # Number of links processed per round
	DUMPFILE = "@webchecker.pickle" # Pickled checkpoint
	AGENTNAME = "webchecker" # Agent name for robots.txt parser


	# Global variables
	verbose = 1
	maxpage = MAXPAGE
	roundsize = ROUNDSIZE


	def main():
	global verbose, maxpage, roundsize
	dumpfile = DUMPFILE
	restart = 0
	checkext = 0

	try:
	opts, args = getopt.getopt(sys.argv[1:], 'Rd:m:qr:vx')
	except getopt.error, msg:
	sys.stdout = sys.stderr
	print msg
	sys.exit(2)
	for o, a in opts:
	if o == '-R':
	restart = 1
	if o == '-d':
	dumpfile = a
	if o == '-m':
	maxpage = string.atoi(a)
	if o == '-q':
	verbose = 0
	if o == '-r':
	roundsize = string.atoi(a)
	if o == '-v':
	verbose = verbose + 1
	if o == '-x':
	checkext = 1

	if verbose:
	print AGENTNAME, "version", __version__

	if restart:
	if verbose > 0:
	print "Loading checkpoint from %s ..." % dumpfile
	f = open(dumpfile, "rb")
	c = pickle.load(f)
	f.close()
	if verbose > 0:
	print "Done."
	print "Root:", string.join(c.roots, "\n ")
	else:
	c = Checker()
	if not args:
	args.append(DEFROOT)

	for arg in args:
	c.addroot(arg)

	if not c.todo:
	needsave = 0
	else:
	needsave = 1
	try:
	c.run()
	except KeyboardInterrupt:
	if verbose > 0:
	print "[run interrupted]"
	try:
	c.report(checkext)
	except KeyboardInterrupt:
	if verbose > 0:
	print "[report interrupted]"
	if not needsave:
	if verbose > 0:
	print
	print "No need to save checkpoint"
	elif dumpfile:
	if verbose > 0:
	print
	print "Saving checkpoint to %s ..." % dumpfile
	newfile = dumpfile + ".new"
	f = open(newfile, "wb")
	pickle.dump(c, f)
	f.flush()
	f.close()
	try:
	os.unlink(dumpfile)
	except os.error:
	pass
	os.rename(newfile, dumpfile)
	if verbose > 0:
	print "Done."
	if dumpfile == DUMPFILE:
	print "Use ``%s -R'' to restart." % sys.argv[0]
	else:
	print "Use ``%s -R -d %s'' to restart." % (sys.argv[0],
	dumpfile)


	class Checker:

	def __init__(self):
	self.roots = []
	self.todo = {}
	self.done = {}
	self.ext = {}
	self.bad = {}
	self.urlopener = MyURLopener()
	self.round = 0
	self.robots = {}

	def __getstate__(self):
	return (self.roots, self.todo, self.done,
	self.ext, self.bad, self.round)

	def __setstate__(self, state):
	(self.roots, self.todo, self.done,
	self.ext, self.bad, self.round) = state
	for root in self.roots:
	self.addrobot(root)

	def addroot(self, root):
	if root not in self.roots:
	self.roots.append(root)
	self.todo[root] = []
	self.addrobot(root)

	def addrobot(self, root):
	url = urlparse.urljoin(root, "/robots.txt")
	self.robots[root] = rp = robotparser.RobotFileParser()
	if verbose > 2:
	print "Parsing", url
	rp.debug = 1
	rp.set_url(url)
	try:
	rp.read()
	except IOError, msg:
	if verbose > 1:
	print "I/O error parsing", url, ":", msg

	def run(self):
	while self.todo:
	self.round = self.round + 1
	if verbose > 0:
	print
	print "Round", self.round,
	print "(%d to do, %d done, %d external, %d bad)" % (
	len(self.todo), len(self.done),
	len(self.ext), len(self.bad))
	print
	urls = self.todo.keys()[:roundsize]
	for url in urls:
	self.dopage(url)
	self.done[url] = self.todo[url]
	del self.todo[url]

	def report(self, checkext=0):
	print
	if not self.todo: print "Final",
	else: print "Interim",
	print "Report (%d to do, %d done, %d external, %d bad)" % (
	len(self.todo), len(self.done),
	len(self.ext), len(self.bad))
	if verbose > 0:
	self.report_extrefs(checkext)
	# Report errors last because the output may get truncated
	self.report_errors()

	def report_extrefs(self, checkext=0):
	if not self.ext:
	print
	print "No external URLs"
	return
	print
	if checkext:
	print "External URLs (checking validity):"
	else:
	print "External URLs (not checked):"
	print
	urls = self.ext.keys()
	urls.sort()
	for url in urls:
	show("HREF ", url, " from", self.ext[url])
	if not checkext:
	continue
	if verbose > 2: print "Checking", url, "..."
	try:
	f = self.urlopener.open(url)
	f.close()
	if verbose > 3: print "OK"
	except IOError, msg:
	print "Error:", msg

	def report_errors(self):
	if not self.bad:
	print
	print "No errors"
	return
	print
	print "Error Report:"
	urls = self.bad.keys()
	urls.sort()
	bysource = {}
	for url in urls:
	try:
	origins = self.done[url]
	except KeyError:
	origins = self.todo[url]
	for source, rawlink in origins:
	triple = url, rawlink, self.bad[url]
	try:
	bysource[source].append(triple)
	except KeyError:
	bysource[source] = [triple]
	sources = bysource.keys()
	sources.sort()
	for source in sources:
	triples = bysource[source]
	print
	if len(triples) > 1:
	print len(triples), "Errors in", source
	else:
	print "Error in", source
	for url, rawlink, msg in triples:
	print " HREF", url,
	if rawlink != url: print "(%s)" % rawlink,
	print
	print " msg", msg

	def dopage(self, url):
	if verbose > 1:
	if verbose > 2:
	show("Page ", url, " from", self.todo[url])
	else:
	print "Page ", url
	page = self.getpage(url)
	if not page:
	return
	for info in page.getlinkinfos():
	link, rawlink = info
	origin = url, rawlink
	if not self.inroots(link):
	try:
	self.ext[link].append(origin)
	if verbose > 3:
	print " New ext link", link,
	if link != rawlink: print "(%s)" % rawlink,
	print
	except KeyError:
	if verbose > 3:
	print " Seen ext link", link,
	if link != rawlink: print "(%s)" % rawlink,
	print
	self.ext[link] = [origin]
	elif self.done.has_key(link):
	if verbose > 3:
	print " Done link", link
	self.done[link].append(origin)
	elif self.todo.has_key(link):
	if verbose > 3:
	print " Seen todo link", link
	self.todo[link].append(origin)
	else:
	if verbose > 3:
	print " New todo link", link
	self.todo[link] = [origin]

	def inroots(self, url):
	for root in self.roots:
	if url[:len(root)] == root:
	return self.robots[root].can_fetch(AGENTNAME, url)
	return 0

	def getpage(self, url):
	ctype, encoding = mimetypes.guess_type(url)
	if encoding:
	if verbose > 2:
	print " Won't bother, URL suggests encoding %s" % `encoding`
	return None
	if ctype and ctype != 'text/html':
	if verbose > 2:
	print " Won't bother, URL suggests mime type %s" % `ctype`
	return None
	try:
	f = self.urlopener.open(url)
	except IOError, msg:
	if (type(msg) == TupleType and
	len(msg) >= 4 and
	msg[0] == 'http error' and
	type(msg[3]) == InstanceType):
	# Remove the Message instance -- it may contain
	# a file object which prevents pickling.
	msg = msg[:3] + msg[4:]
	if verbose > 0:
	print "Error ", msg
	if verbose > 0:
	show(" HREF ", url, " from", self.todo[url])
	self.bad[url] = msg
	return None
	nurl = f.geturl()
	info = f.info()
	if info.has_key('content-type'):
	ctype = string.lower(info['content-type'])
	if nurl != url:
	if verbose > 1:
	print " Redirected to", nurl
	if not ctype:
	ctype, encoding = mimetypes.guess_type(nurl)
	if ctype != 'text/html':
	f.close()
	if verbose > 2:
	print " Not HTML, mime type", ctype
	return None
	text = f.read()
	f.close()
	return Page(text, nurl)


	class Page:

	def __init__(self, text, url):
	self.text = text
	self.url = url

	def getlinkinfos(self):
	size = len(self.text)
	if size > maxpage:
	if verbose > 0:
	print "Skip huge file", self.url
	print " (%.0f Kbytes)" % (size*0.001)
	return []
	if verbose > 2:
	print " Parsing", self.url, "(%d bytes)" % size
	parser = MyHTMLParser(formatter.NullFormatter())
	parser.feed(self.text)
	parser.close()
	rawlinks = parser.getlinks()
	base = urlparse.urljoin(self.url, parser.getbase() or "")
	infos = []
	for rawlink in rawlinks:
	t = urlparse.urlparse(rawlink)
	t = t[:-1] + ('',)
	rawlink = urlparse.urlunparse(t)
	link = urlparse.urljoin(base, rawlink)
	infos.append((link, rawlink))
	return infos


	class MyStringIO(StringIO.StringIO):

	def __init__(self, url, info):
	self.__url = url
	self.__info = info
	StringIO.StringIO.__init__(self)

	def info(self):
	return self.__info

	def geturl(self):
	return self.__url


	class MyURLopener(urllib.FancyURLopener):

	http_error_default = urllib.URLopener.http_error_default

	def open_file(self, url):
	path = urllib.url2pathname(urllib.unquote(url))
	if path[-1] != os.sep:
	url = url + '/'
	if os.path.isdir(path):
	indexpath = os.path.join(path, "index.html")
	if os.path.exists(indexpath):
	return self.open_file(url + "index.html")
	try:
	names = os.listdir(path)
	except os.error, msg:
	raise IOError, msg, sys.exc_traceback
	names.sort()
	s = MyStringIO("file:"+url, {'content-type': 'text/html'})
	s.write('<BASE HREF="file:%s">\n' %
	urllib.quote(os.path.join(path, "")))
	for name in names:
	q = urllib.quote(name)
	s.write('<A HREF="%s">%s</A>\n' % (q, q))
	s.seek(0)
	return s
	return urllib.FancyURLopener.open_file(self, path)


	class MyHTMLParser(htmllib.HTMLParser):

	def __init__(*args):
	self = args[0]
	self.base = None
	self.links = []
	apply(htmllib.HTMLParser.__init__, args)

	def start_a(self, attributes):
	for name, value in attributes:
	if name == 'href' and value and value not in self.links:
	self.links.append(string.strip(value))

	def do_base(self, attributes):
	for name, value in attributes:
	if name == 'href' and value:
	if verbose > 1:
	print " Base", value
	self.base = value

	def getlinks(self):
	return self.links

	def getbase(self):
	return self.base


	def show(p1, link, p2, origins):
	print p1, link
	i = 0
	for source, rawlink in origins:
	i = i+1
	if i == 2:
	p2 = ' '*len(p2)
	print p2, source,
	if rawlink != link: print "(%s)" % rawlink,
	print


	if __name__ == '__main__':
	main()