""" Mitmproxy Content Views ======================= mitmproxy includes a set of content views which can be used to format/decode/highlight data. While they are currently used for HTTP message bodies only, the may be used in other contexts in the future, e.g. to decode protobuf messages sent as WebSocket frames. Thus, the View API is very minimalistic. The only arguments are `data` and `**metadata`, where `data` is the actual content (as bytes). The contents on metadata depend on the protocol in use. For HTTP, the message headers are passed as the ``headers`` keyword argument. """ from __future__ import (absolute_import, print_function, division) import cStringIO import json import logging import subprocess import sys import lxml.html import lxml.etree from PIL import Image from PIL.ExifTags import TAGS import html2text import six from netlib.odict import ODict from netlib import encoding from netlib.utils import clean_bin, hexdump, urldecode, multipartdecode, parse_content_type from . import utils from .exceptions import ContentViewException 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 # Default view cutoff *in lines* VIEW_CUTOFF = 512 KEY_MAX = 30 def format_dict(d): """ Helper function that transforms the given dictionary into a list of ("key", key ) ("value", value) tuples, where key is padded to a uniform width. """ max_key_len = max(len(k) for k in d.keys()) max_key_len = min(max_key_len, KEY_MAX) for key, value in d.items(): key += ":" key = key.ljust(max_key_len + 2) yield [ ("header", key), ("text", value) ] def format_text(text): """ Helper function that transforms bytes into the view output format. """ for line in text.splitlines(): yield [("text", line)] class View(object): name = None prompt = () content_types = [] def __call__(self, data, **metadata): """ Transform raw data into human-readable output. Args: data: the data to decode/format as bytes. metadata: optional keyword-only arguments for metadata. Implementations must not rely on a given argument being present. Returns: A (description, content generator) tuple. The content generator yields lists of (style, text) tuples, where each list represents a single line. ``text`` is a unfiltered byte string which may need to be escaped, depending on the used output. Caveats: The content generator must not yield tuples of tuples, because urwid cannot process that. You have to yield a *list* of tuples per line. """ raise NotImplementedError() class ViewAuto(View): name = "Auto" prompt = ("auto", "a") content_types = [] def __call__(self, data, **metadata): headers = metadata.get("headers", {}) ctype = headers.get("content-type") if ctype: ct = 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](data, **metadata) elif utils.isXML(data): return get("XML")(data, **metadata) if utils.isMostlyBin(data): return get("Hex")(data) return get("Raw")(data) class ViewRaw(View): name = "Raw" prompt = ("raw", "r") content_types = [] def __call__(self, data, **metadata): return "Raw", format_text(data) class ViewHex(View): name = "Hex" prompt = ("hex", "e") content_types = [] @staticmethod def _format(data): for offset, hexa, s in hexdump(data): yield [ ("offset", offset + " "), ("text", hexa + " "), ("text", s) ] def __call__(self, data, **metadata): return "Hex", self._format(data) class ViewXML(View): name = "XML" prompt = ("xml", "x") content_types = ["text/xml"] def __call__(self, data, **metadata): parser = lxml.etree.XMLParser( remove_blank_text=True, resolve_entities=False, strip_cdata=False, recover=False ) try: document = lxml.etree.fromstring(data, 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 ) return "XML-like data", format_text(s) class ViewJSON(View): name = "JSON" prompt = ("json", "s") content_types = ["application/json"] def __call__(self, data, **metadata): pretty_json = utils.pretty_json(data) if pretty_json: return "JSON", format_text(pretty_json) class ViewHTML(View): name = "HTML" prompt = ("html", "h") content_types = ["text/html"] def __call__(self, data, **metadata): if utils.isXML(data): parser = lxml.etree.HTMLParser( strip_cdata=True, remove_blank_text=True ) d = lxml.html.fromstring(data, parser=parser) docinfo = d.getroottree().docinfo s = lxml.etree.tostring( d, pretty_print=True, doctype=docinfo.doctype ) return "HTML", format_text(s) class ViewHTMLOutline(View): name = "HTML Outline" prompt = ("html outline", "o") content_types = ["text/html"] def __call__(self, data, **metadata): data = data.decode("utf-8") h = html2text.HTML2Text(baseurl="") h.ignore_images = True h.body_width = 0 outline = h.handle(data) return "HTML Outline", format_text(outline) class ViewURLEncoded(View): name = "URL-encoded" prompt = ("urlencoded", "u") content_types = ["application/x-www-form-urlencoded"] def __call__(self, data, **metadata): d = urldecode(data) return "URLEncoded form", format_dict(ODict(d)) class ViewMultipart(View): name = "Multipart Form" prompt = ("multipart", "m") content_types = ["multipart/form-data"] @staticmethod def _format(v): yield [("highlight", "Form data:\n")] for message in format_dict(ODict(v)): yield message def __call__(self, data, **metadata): headers = metadata.get("headers", {}) v = multipartdecode(headers, data) if v: return "Multipart form", self._format(v) 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(View): 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 _format(self, envelope): for target, message in iter(envelope): if isinstance(message, pyamf.remoting.Request): yield [ ("header", "Request: "), ("text", str(target)), ] else: yield [ ("header", "Response: "), ("text", "%s, code %s" % (target, message.status)), ] s = json.dumps(self.unpack(message), indent=4) for msg in format_text(s): yield msg def __call__(self, data, **metadata): envelope = remoting.decode(data, strict=False) if envelope: return "AMF v%s" % envelope.amfVersion, self._format(envelope) class ViewJavaScript(View): name = "JavaScript" prompt = ("javascript", "j") content_types = [ "application/x-javascript", "application/javascript", "text/javascript" ] def __call__(self, data, **metadata): opts = jsbeautifier.default_options() opts.indent_size = 2 res = jsbeautifier.beautify(data, opts) return "JavaScript", format_text(res) class ViewCSS(View): name = "CSS" prompt = ("css", "c") content_types = [ "text/css" ] def __call__(self, data, **metadata): if cssutils: sheet = cssutils.parseString(data) beautified = sheet.cssText else: beautified = data return "CSS", format_text(beautified) class ViewImage(View): name = "Image" prompt = ("image", "i") content_types = [ "image/png", "image/jpeg", "image/gif", "image/vnd.microsoft.icon", "image/x-icon", ] def __call__(self, data, **metadata): try: img = Image.open(cStringIO.StringIO(data)) 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])) ) fmt = format_dict(ODict(parts)) return "%s image" % img.format, fmt class ViewProtobuf(View): """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, data, **metadata): decoded = self.decode_protobuf(data) return "Protobuf", format_text(decoded) class ViewWBXML(View): name = "WBXML" prompt = ("wbxml", "w") content_types = [ "application/vnd.wap.wbxml", "application/vnd.ms-sync.wbxml" ] def __call__(self, data, **metadata): try: parser = ASCommandResponse(data) parsedContent = parser.xmlString if parsedContent: return "WBXML", format_text(parsedContent) 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 add(obj): for i in views: if i.name == obj.name: raise ContentViewException("Duplicate view: " + obj.name) for prompt in view_prompts: if prompt[1] == obj.prompt[1]: raise ContentViewException("Duplicate view shortcut: " + obj.prompt[1]) views.append(obj) for ct in obj.content_types: l = content_types_map.setdefault(ct, []) l.append(obj) view_prompts.append(obj.prompt) def get(name): for i in views: if i.name == name: return i def safe_to_print(lines, encoding="utf8"): """ Wraps a content generator so that each text portion is a *safe to print* unicode string. """ for line in lines: clean_line = [] for (style, text) in line: try: text = clean_bin(text.decode(encoding, "strict")) except UnicodeDecodeError: text = clean_bin(text).decode(encoding, "strict") clean_line.append((style, text)) yield clean_line def get_content_view(viewmode, data, **metadata): """ Args: viewmode: the view to use. data, **metadata: arguments passed to View instance. Returns: A (description, content generator) tuple. In contrast to calling the views directly, text is always safe-to-print unicode. Raises: ContentViewException, if the content view threw an error. """ if not data: return "No content", [] msg = [] headers = metadata.get("headers", {}) enc = headers.get("content-encoding") if enc and enc != "identity": decoded = encoding.decode(enc, data) if decoded: data = decoded msg.append("[decoded %s]" % enc) try: ret = viewmode(data, **metadata) # Third-party viewers can fail in unexpected ways... except Exception as e: six.reraise( ContentViewException, ContentViewException(str(e)), sys.exc_info()[2] ) if not ret: ret = get("Raw")(data, **metadata) msg.append("Couldn't parse: falling back to Raw") else: msg.append(ret[0]) return " ".join(msg), safe_to_print(ret[1])