from __future__ import absolute_import import cStringIO import json import logging import lxml.html import lxml.etree from PIL import Image from PIL.ExifTags import TAGS import subprocess import traceback import urwid import html2text import netlib.utils from netlib import odict from . import common, signals from .. import utils, encoding from ..contrib import jsbeautifier from ..contrib.wbxml.ASCommandResponse import ASCommandResponse try: import pyamf from pyamf import remoting, flex except ImportError: # pragma nocover pyamf = None try: import cssutils except ImportError: # pragma nocover cssutils = None else: cssutils.log.setLevel(logging.CRITICAL) cssutils.ser.prefs.keepComments = True cssutils.ser.prefs.omitLastSemicolon = False cssutils.ser.prefs.indentClosingBrace = False cssutils.ser.prefs.validOnly = False VIEW_CUTOFF = 1024 * 50 def _view_text(content, total, limit): """ Generates a body for a chunk of text. """ txt = [] for i in netlib.utils.cleanBin(content).splitlines(): txt.append( urwid.Text(("text", i), wrap="any") ) trailer(total, txt, limit) return txt def trailer(clen, txt, limit): rem = clen - limit if rem > 0: txt.append(urwid.Text("")) txt.append( urwid.Text( [ ("highlight", "... %s of data not shown. Press " % netlib.utils.pretty_size(rem)), ("key", "f"), ("highlight", " to load all data.") ] ) ) class ViewAuto: name = "Auto" prompt = ("auto", "a") content_types = [] def __call__(self, hdrs, content, limit): ctype = hdrs.get_first("content-type") if ctype: ct = utils.parse_content_type(ctype) if ctype else None ct = "%s/%s" % (ct[0], ct[1]) if ct in content_types_map: return content_types_map[ct][0](hdrs, content, limit) elif utils.isXML(content): return get("XML")(hdrs, content, limit) return get("Raw")(hdrs, content, limit) class ViewRaw: name = "Raw" prompt = ("raw", "r") content_types = [] def __call__(self, hdrs, content, limit): txt = _view_text(content[:limit], len(content), limit) return "Raw", txt class ViewHex: name = "Hex" prompt = ("hex", "e") content_types = [] def __call__(self, hdrs, content, limit): txt = [] for offset, hexa, s in netlib.utils.hexdump(content[:limit]): txt.append(urwid.Text([ ("offset", offset), " ", ("text", hexa), " ", ("text", s), ])) trailer(len(content), txt, limit) return "Hex", txt class ViewXML: name = "XML" prompt = ("xml", "x") content_types = ["text/xml"] def __call__(self, hdrs, content, limit): parser = lxml.etree.XMLParser( remove_blank_text=True, resolve_entities=False, strip_cdata=False, recover=False ) try: document = lxml.etree.fromstring(content, parser) except lxml.etree.XMLSyntaxError: return None docinfo = document.getroottree().docinfo prev = [] p = document.getroottree().getroot().getprevious() while p is not None: prev.insert( 0, lxml.etree.tostring(p) ) p = p.getprevious() doctype = docinfo.doctype if prev: doctype += "\n".join(prev).strip() doctype = doctype.strip() s = lxml.etree.tostring( document, pretty_print=True, xml_declaration=True, doctype=doctype or None, encoding = docinfo.encoding ) txt = [] for i in s[:limit].strip().split("\n"): txt.append( urwid.Text(("text", i)), ) trailer(len(content), txt, limit) return "XML-like data", txt class ViewJSON: name = "JSON" prompt = ("json", "s") content_types = ["application/json"] def __call__(self, hdrs, content, limit): lines = utils.pretty_json(content) if lines: txt = [] sofar = 0 for i in lines: sofar += len(i) txt.append( urwid.Text(("text", i)), ) if sofar > limit: break trailer(sum(len(i) for i in lines), txt, limit) return "JSON", txt class ViewHTML: name = "HTML" prompt = ("html", "h") content_types = ["text/html"] def __call__(self, hdrs, content, limit): if utils.isXML(content): parser = lxml.etree.HTMLParser( strip_cdata=True, remove_blank_text=True ) d = lxml.html.fromstring(content, parser=parser) docinfo = d.getroottree().docinfo s = lxml.etree.tostring( d, pretty_print=True, doctype=docinfo.doctype ) return "HTML", _view_text(s[:limit], len(s), limit) class ViewHTMLOutline: name = "HTML Outline" prompt = ("html outline", "o") content_types = ["text/html"] def __call__(self, hdrs, content, limit): content = content.decode("utf-8") h = html2text.HTML2Text(baseurl="") h.ignore_images = True h.body_width = 0 content = h.handle(content) txt = _view_text(content[:limit], len(content), limit) return "HTML Outline", txt class ViewURLEncoded: name = "URL-encoded" prompt = ("urlencoded", "u") content_types = ["application/x-www-form-urlencoded"] def __call__(self, hdrs, content, limit): lines = netlib.utils.urldecode(content) if lines: body = common.format_keyvals( [(k + ":", v) for (k, v) in lines], key = "header", val = "text" ) return "URLEncoded form", body class ViewMultipart: name = "Multipart Form" prompt = ("multipart", "m") content_types = ["multipart/form-data"] def __call__(self, hdrs, content, limit): v = utils.multipartdecode(hdrs, content) if v: r = [ urwid.Text(("highlight", "Form data:\n")), ] r.extend(common.format_keyvals( v, key = "header", val = "text" )) return "Multipart form", r if pyamf: class DummyObject(dict): def __init__(self, alias): dict.__init__(self) def __readamf__(self, input): data = input.readObject() self["data"] = data def pyamf_class_loader(s): for i in pyamf.CLASS_LOADERS: if i != pyamf_class_loader: v = i(s) if v: return v return DummyObject pyamf.register_class_loader(pyamf_class_loader) class ViewAMF: name = "AMF" prompt = ("amf", "f") content_types = ["application/x-amf"] def unpack(self, b, seen=set([])): if hasattr(b, "body"): return self.unpack(b.body, seen) if isinstance(b, DummyObject): if id(b) in seen: return "" else: seen.add(id(b)) for k, v in b.items(): b[k] = self.unpack(v, seen) return b elif isinstance(b, dict): for k, v in b.items(): b[k] = self.unpack(v, seen) return b elif isinstance(b, list): return [self.unpack(i) for i in b] elif isinstance(b, flex.ArrayCollection): return [self.unpack(i, seen) for i in b] else: return b def __call__(self, hdrs, content, limit): envelope = remoting.decode(content, strict=False) if not envelope: return None txt = [] for target, message in iter(envelope): if isinstance(message, pyamf.remoting.Request): txt.append(urwid.Text([ ("header", "Request: "), ("text", str(target)), ])) else: txt.append(urwid.Text([ ("header", "Response: "), ("text", "%s, code %s" % (target, message.status)), ])) s = json.dumps(self.unpack(message), indent=4) txt.extend(_view_text(s[:limit], len(s), limit)) return "AMF v%s" % envelope.amfVersion, txt class ViewJavaScript: name = "JavaScript" prompt = ("javascript", "j") content_types = [ "application/x-javascript", "application/javascript", "text/javascript" ] def __call__(self, hdrs, content, limit): opts = jsbeautifier.default_options() opts.indent_size = 2 res = jsbeautifier.beautify(content[:limit], opts) return "JavaScript", _view_text(res, len(res), limit) class ViewCSS: name = "CSS" prompt = ("css", "c") content_types = [ "text/css" ] def __call__(self, hdrs, content, limit): if cssutils: sheet = cssutils.parseString(content) beautified = sheet.cssText else: beautified = content return "CSS", _view_text(beautified, len(beautified), limit) class ViewImage: name = "Image" prompt = ("image", "i") content_types = [ "image/png", "image/jpeg", "image/gif", "image/vnd.microsoft.icon", "image/x-icon", ] def __call__(self, hdrs, content, limit): try: img = Image.open(cStringIO.StringIO(content)) except IOError: return None parts = [ ("Format", str(img.format_description)), ("Size", "%s x %s px" % img.size), ("Mode", str(img.mode)), ] for i in sorted(img.info.keys()): if i != "exif": parts.append( (str(i), str(img.info[i])) ) if hasattr(img, "_getexif"): ex = img._getexif() if ex: for i in sorted(ex.keys()): tag = TAGS.get(i, i) parts.append( (str(tag), str(ex[i])) ) clean = [] for i in parts: clean.append( [netlib.utils.cleanBin(i[0]), netlib.utils.cleanBin(i[1])] ) fmt = common.format_keyvals( clean, key = "header", val = "text" ) return "%s image" % img.format, fmt class ViewProtobuf: """Human friendly view of protocol buffers The view uses the protoc compiler to decode the binary """ name = "Protocol Buffer" prompt = ("protobuf", "p") content_types = [ "application/x-protobuf", "application/x-protobuffer", ] @staticmethod def is_available(): try: p = subprocess.Popen( ["protoc", "--version"], stdout=subprocess.PIPE ) out, _ = p.communicate() return out.startswith("libprotoc") except: return False def decode_protobuf(self, content): # if Popen raises OSError, it will be caught in # get_content_view and fall back to Raw p = subprocess.Popen(['protoc', '--decode_raw'], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = p.communicate(input=content) if out: return out else: return err def __call__(self, hdrs, content, limit): decoded = self.decode_protobuf(content) txt = _view_text(decoded[:limit], len(decoded), limit) return "Protobuf", txt class ViewWBXML: name = "WBXML" prompt = ("wbxml", "w") content_types = [ "application/vnd.wap.wbxml", "application/vnd.ms-sync.wbxml" ] def __call__(self, hdrs, content, limit): try: parser = ASCommandResponse(content) parsedContent = parser.xmlString txt = _view_text(parsedContent, len(parsedContent), limit) return "WBXML", txt except: return None views = [ ViewAuto(), ViewRaw(), ViewHex(), ViewJSON(), ViewXML(), ViewWBXML(), ViewHTML(), ViewHTMLOutline(), ViewJavaScript(), ViewCSS(), ViewURLEncoded(), ViewMultipart(), ViewImage(), ] if pyamf: views.append(ViewAMF()) if ViewProtobuf.is_available(): views.append(ViewProtobuf()) content_types_map = {} for i in views: for ct in i.content_types: l = content_types_map.setdefault(ct, []) l.append(i) view_prompts = [i.prompt for i in views] def get_by_shortcut(c): for i in views: if i.prompt[1] == c: return i def get(name): for i in views: if i.name == name: return i def get_content_view(viewmode, hdrItems, content, limit, is_request): """ Returns a (msg, body) tuple. """ if not content: if is_request: return "No request content (press tab to view response)", "" else: return "No content", "" msg = [] hdrs = odict.ODictCaseless([list(i) for i in hdrItems]) enc = hdrs.get_first("content-encoding") if enc and enc != "identity": decoded = encoding.decode(enc, content) if decoded: content = decoded msg.append("[decoded %s]" % enc) try: ret = viewmode(hdrs, content, limit) # Third-party viewers can fail in unexpected ways... except Exception: s = traceback.format_exc() s = "Content viewer failed: \n" + s signals.add_event(s, "error") ret = None if not ret: ret = get("Raw")(hdrs, content, limit) msg.append("Couldn't parse: falling back to Raw") else: msg.append(ret[0]) return " ".join(msg), ret[1]