import operator, string, random, mmap, os, time, copy import abc from email.utils import formatdate import contrib.pyparsing as pp from netlib import http_status, tcp, http_uastrings import utils BLOCKSIZE = 1024 TRUNCATE = 1024 class FileAccessDenied(Exception): pass class ParseException(Exception): def __init__(self, msg, s, col): Exception.__init__(self) self.msg = msg self.s = s self.col = col def marked(self): return "%s\n%s"%(self.s, " "*(self.col-1) + "^") def __str__(self): return "%s at char %s"%(self.msg, self.col) def send_chunk(fp, val, blocksize, start, end): """ (start, end): Inclusive lower bound, exclusive upper bound. """ for i in range(start, end, blocksize): fp.write( val[i:min(i+blocksize, end)] ) return end-start def write_values(fp, vals, actions, sofar=0, skip=0, blocksize=BLOCKSIZE): """ vals: A list of values, which may be strings or Value objects. actions: A list of (offset, action, arg) tuples. Action may be "pause" or "disconnect". Both vals and actions are in reverse order, with the first items last. Return True if connection should disconnect. """ sofar = 0 try: while vals: v = vals.pop() offset = 0 while actions and actions[-1][0] < (sofar + len(v)): a = actions.pop() offset += send_chunk(fp, v, blocksize, offset, a[0]-sofar-offset) if a[1] == "pause": time.sleep(a[2]) elif a[1] == "disconnect": return True elif a[1] == "inject": send_chunk(fp, a[2], blocksize, 0, len(a[2])) send_chunk(fp, v, blocksize, offset, len(v)) sofar += len(v) # Remainders while actions: a = actions.pop() if a[1] == "pause": time.sleep(a[2]) elif a[1] == "disconnect": return True elif a[1] == "inject": send_chunk(fp, a[2], blocksize, 0, len(a[2])) except tcp.NetLibDisconnect: # pragma: no cover return True def serve(msg, fp, settings, request_host=None): """ fp: The file pointer to write to. request_host: If this a request, this is the connecting host. If None, we assume it's a response. Used to decide what standard modifications to make if raw is not set. Calling this function may modify the object. """ msg = msg.resolve(settings, request_host) started = time.time() vals = msg.values(settings) vals.reverse() actions = msg.actions[:] actions.sort() actions.reverse() actions = [i.intermediate(settings) for i in actions] disconnect = write_values(fp, vals, actions[:]) duration = time.time() - started ret = dict( disconnect = disconnect, started = started, duration = duration, ) ret.update(msg.log(settings)) return ret DATATYPES = dict( ascii_letters = string.ascii_letters, ascii_lowercase = string.ascii_lowercase, ascii_uppercase = string.ascii_uppercase, digits = string.digits, hexdigits = string.hexdigits, octdigits = string.octdigits, punctuation = string.punctuation, whitespace = string.whitespace, ascii = string.printable, bytes = "".join(chr(i) for i in range(256)) ) v_integer = pp.Regex(r"\d+")\ .setName("integer")\ .setParseAction(lambda toks: int(toks[0])) v_literal = pp.MatchFirst( [ pp.QuotedString("\"", escChar="\\", unquoteResults=True, multiline=True), pp.QuotedString("'", escChar="\\", unquoteResults=True, multiline=True), ] ) v_naked_literal = pp.MatchFirst( [ v_literal, pp.Word("".join(i for i in pp.printables if i not in ",:\n@\'\"")) ] ) class LiteralGenerator: def __init__(self, s): self.s = s def __len__(self): return len(self.s) def __getitem__(self, x): return self.s.__getitem__(x) def __getslice__(self, a, b): return self.s.__getslice__(a, b) def __repr__(self): return '"%s"'%self.s class RandomGenerator: def __init__(self, dtype, length): self.dtype = dtype self.length = length def __len__(self): return self.length def __getitem__(self, x): return random.choice(DATATYPES[self.dtype]) def __getslice__(self, a, b): b = min(b, self.length) chars = DATATYPES[self.dtype] return "".join(random.choice(chars) for x in range(a, b)) def __repr__(self): return "%s random from %s"%(self.length, self.dtype) class FileGenerator: def __init__(self, path): self.path = path self.fp = file(path, "rb") self.map = mmap.mmap(self.fp.fileno(), 0, access=mmap.ACCESS_READ) def __len__(self): return len(self.map) def __getitem__(self, x): return self.map.__getitem__(x) def __getslice__(self, a, b): return self.map.__getslice__(a, b) def __repr__(self): return "<%s"%self.path class _Token(object): """ A specification token. Tokens are immutable. """ __metaclass__ = abc.ABCMeta @abc.abstractmethod def expr(klass): # pragma: no cover """ A parse expression. """ return None @abc.abstractmethod def spec(self): # pragma: no cover """ A parseable specification for this token. """ return None def resolve(self, msg, settings): """ Resolves this token to ready it for transmission. This means that the calculated offsets of actions are fixed. """ return self def __repr__(self): return self.spec() class _ValueLiteral(_Token): def __init__(self, val): self.val = val.decode("string_escape") def get_generator(self, settings): return LiteralGenerator(self.val) def freeze(self, settings): return self class ValueLiteral(_ValueLiteral): @classmethod def expr(klass): e = v_literal.copy() return e.setParseAction(lambda x: klass(*x)) def spec(self): return '"%s"'%self.val.encode("string_escape") class ValueNakedLiteral(_ValueLiteral): @classmethod def expr(klass): e = v_naked_literal.copy() return e.setParseAction(lambda x: klass(*x)) def spec(self): return self.val.encode("string_escape") class ValueGenerate(_Token): def __init__(self, usize, unit, datatype): if not unit: unit = "b" self.usize, self.unit, self.datatype = usize, unit, datatype def bytes(self): return self.usize * utils.SIZE_UNITS[self.unit] def get_generator(self, settings): return RandomGenerator(self.datatype, self.bytes()) def freeze(self, settings): g = self.get_generator(settings) return ValueLiteral(g[:].encode("string_escape")) @classmethod def expr(klass): e = pp.Literal("@").suppress() + v_integer u = reduce(operator.or_, [pp.Literal(i) for i in utils.SIZE_UNITS.keys()]) e = e + pp.Optional(u, default=None) s = pp.Literal(",").suppress() s += reduce(operator.or_, [pp.Literal(i) for i in DATATYPES.keys()]) e += pp.Optional(s, default="bytes") return e.setParseAction(lambda x: klass(*x)) def spec(self): s = "@%s"%self.usize if self.unit != "b": s += self.unit if self.datatype != "bytes": s += ",%s"%self.datatype return s class ValueFile(_Token): def __init__(self, path): self.path = str(path) @classmethod def expr(klass): e = pp.Literal("<").suppress() e = e + v_naked_literal return e.setParseAction(lambda x: klass(*x)) def freeze(self, settings): return self def get_generator(self, settings): uf = settings.get("unconstrained_file_access") sd = settings.get("staticdir") if not sd: raise FileAccessDenied("File access disabled.") sd = os.path.normpath(os.path.abspath(sd)) s = os.path.expanduser(self.path) s = os.path.normpath(os.path.abspath(os.path.join(sd, s))) if not uf and not s.startswith(sd): raise FileAccessDenied("File access outside of configured directory") if not os.path.isfile(s): raise FileAccessDenied("File not readable") return FileGenerator(s) def spec(self): return '<"%s"'%self.path.encode("string_escape") Value = pp.MatchFirst( [ ValueGenerate.expr(), ValueFile.expr(), ValueLiteral.expr() ] ) NakedValue = pp.MatchFirst( [ ValueGenerate.expr(), ValueFile.expr(), ValueLiteral.expr(), ValueNakedLiteral.expr(), ] ) Offset = pp.MatchFirst( [ v_integer, pp.Literal("r"), pp.Literal("a") ] ) class Raw(_Token): @classmethod def expr(klass): e = pp.Literal("r").suppress() return e.setParseAction(lambda x: klass(*x)) def spec(self): return "r" def freeze(self, settings): return self class _Component(_Token): """ A value component of the primary specification of an HTTP message. """ @abc.abstractmethod def values(self, settings): # pragma: no cover """ A sequence of value objects. """ return None def string(self, settings=None): """ A string representation of the object. """ return "".join(i[:] for i in self.values(settings or {})) class _Header(_Component): def __init__(self, key, value): self.key, self.value = key, value def values(self, settings): return [ self.key.get_generator(settings), ": ", self.value.get_generator(settings), "\r\n", ] class Header(_Header): @classmethod def expr(klass): e = pp.Literal("h").suppress() e += Value e += pp.Literal("=").suppress() e += Value return e.setParseAction(lambda x: klass(*x)) def spec(self): return "h%s=%s"%(self.key.spec(), self.value.spec()) def freeze(self, settings): return Header(self.key.freeze(settings), self.value.freeze(settings)) class ShortcutContentType(_Header): def __init__(self, value): _Header.__init__(self, ValueLiteral("Content-Type"), value) @classmethod def expr(klass): e = pp.Literal("c").suppress() e = e + Value return e.setParseAction(lambda x: klass(*x)) def spec(self): return "c%s"%(self.value.spec()) def freeze(self, settings): return ShortcutContentType(self.value.freeze(settings)) class ShortcutLocation(_Header): def __init__(self, value): _Header.__init__(self, ValueLiteral("Location"), value) @classmethod def expr(klass): e = pp.Literal("l").suppress() e = e + Value return e.setParseAction(lambda x: klass(*x)) def spec(self): return "l%s"%(self.value.spec()) def freeze(self, settings): return ShortcutLocation(self.value.freeze(settings)) class ShortcutUserAgent(_Header): def __init__(self, value): self.specvalue = value if isinstance(value, basestring): value = ValueLiteral(http_uastrings.get_by_shortcut(value)[2]) _Header.__init__(self, ValueLiteral("User-Agent"), value) @classmethod def expr(klass): e = pp.Literal("u").suppress() u = reduce(operator.or_, [pp.Literal(i[1]) for i in http_uastrings.UASTRINGS]) e += u | Value return e.setParseAction(lambda x: klass(*x)) def spec(self): return "u%s"%self.specvalue def freeze(self, settings): return ShortcutUserAgent(self.value.freeze(settings)) class Body(_Component): def __init__(self, value): self.value = value @classmethod def expr(klass): e = pp.Literal("b").suppress() e = e + Value return e.setParseAction(lambda x: klass(*x)) def values(self, settings): return [ self.value.get_generator(settings), ] def spec(self): return "b%s"%(self.value.spec()) def freeze(self, settings): return Body(self.value.freeze(settings)) class Path(_Component): def __init__(self, value): if isinstance(value, basestring): value = ValueLiteral(value) self.value = value @classmethod def expr(klass): e = Value | NakedValue return e.setParseAction(lambda x: klass(*x)) def values(self, settings): return [ self.value.get_generator(settings), ] def spec(self): return "%s"%(self.value.spec()) def freeze(self, settings): return Path(self.value.freeze(settings)) class Method(_Component): methods = [ "get", "head", "post", "put", "delete", "options", "trace", "connect", ] def __init__(self, value): # If it's a string, we were passed one of the methods, so we upper-case # it to be canonical. The user can specify a different case by using a # string value literal. if isinstance(value, basestring): value = ValueLiteral(value.upper()) self.value = value @classmethod def expr(klass): parts = [pp.CaselessLiteral(i) for i in klass.methods] m = pp.MatchFirst(parts) spec = m | Value.copy() spec = spec.setParseAction(lambda x: klass(*x)) return spec def values(self, settings): return [ self.value.get_generator(settings) ] def spec(self): s = self.value.spec() if s[1:-1].lower() in self.methods: s = s[1:-1].lower() return "%s"%s def freeze(self, settings): return Method(self.value.freeze(settings)) class Code(_Component): def __init__(self, code): self.code = str(code) @classmethod def expr(klass): e = v_integer.copy() return e.setParseAction(lambda x: klass(*x)) def values(self, settings): return [LiteralGenerator(self.code)] def spec(self): return "%s"%(self.code) def freeze(self, settings): return Code(self.code) class Reason(_Component): def __init__(self, value): self.value = value @classmethod def expr(klass): e = pp.Literal("m").suppress() e = e + Value return e.setParseAction(lambda x: klass(*x)) def values(self, settings): return [self.value.get_generator(settings)] def spec(self): return "m%s"%(self.value.spec()) def freeze(self, settings): return Reason(self.value.freeze(settings)) class _Action(_Token): """ An action that operates on the raw data stream of the message. All actions have one thing in common: an offset that specifies where the action should take place. """ def __init__(self, offset): self.offset = offset def resolve(self, msg, settings): """ Resolves offset specifications to a numeric offset. Returns a copy of the action object. """ c = copy.copy(self) l = msg.length(settings) if c.offset == "r": c.offset = random.randrange(l) elif c.offset == "a": c.offset = l + 1 return c def __cmp__(self, other): return cmp(self.offset, other.offset) def __repr__(self): return self.spec() @abc.abstractmethod def spec(self): # pragma: no cover pass @abc.abstractmethod def intermediate(self): # pragma: no cover pass class PauseAt(_Action): def __init__(self, offset, seconds): _Action.__init__(self, offset) self.seconds = seconds @classmethod def expr(klass): e = pp.Literal("p").suppress() e += Offset e += pp.Literal(",").suppress() e += pp.MatchFirst( [ v_integer, pp.Literal("f") ] ) return e.setParseAction(lambda x: klass(*x)) def spec(self): return "p%s,%s"%(self.offset, self.seconds) def intermediate(self, settings): return (self.offset, "pause", self.seconds) def freeze(self, settings): return self class DisconnectAt(_Action): def __init__(self, offset): _Action.__init__(self, offset) @classmethod def expr(klass): e = pp.Literal("d").suppress() e += Offset return e.setParseAction(lambda x: klass(*x)) def spec(self): return "d%s"%self.offset def intermediate(self, settings): return (self.offset, "disconnect") def freeze(self, settings): return self class InjectAt(_Action): def __init__(self, offset, value): _Action.__init__(self, offset) self.value = value @classmethod def expr(klass): e = pp.Literal("i").suppress() e += Offset e += pp.Literal(",").suppress() e += Value return e.setParseAction(lambda x: klass(*x)) def spec(self): return "i%s,%s"%(self.offset, self.value.spec()) def intermediate(self, settings): return ( self.offset, "inject", self.value.get_generator(settings) ) def freeze(self, settings): return InjectAt(self.offset, self.value.freeze(settings)) class _Message(object): __metaclass__ = abc.ABCMeta version = "HTTP/1.1" def __init__(self, tokens): self.tokens = tokens def _get_tokens(self, klass): return [i for i in self.tokens if isinstance(i, klass)] def _get_token(self, klass): l = self._get_tokens(klass) if l: return l[0] @property def raw(self): return bool(self._get_token(Raw)) @property def actions(self): return self._get_tokens(_Action) @property def body(self): return self._get_token(Body) @property def headers(self): return self._get_tokens(_Header) def length(self, settings): """ Calculate the length of the base message without any applied actions. """ return sum(len(x) for x in self.values(settings)) def preview_safe(self): """ Return a copy of this message that issafe for previews. """ tokens = [i for i in self.tokens if not isinstance(i, PauseAt)] return self.__class__(tokens) def maximum_length(self, settings): """ Calculate the maximum length of the base message with all applied actions. """ l = self.length(settings) for i in self.actions: if isinstance(i, InjectAt): l += len(i.value.get_generator(settings)) return l def resolve(self, settings, request_host): tokens = self.tokens[:] if not self.raw: if not utils.get_header("Content-Length", self.headers): length = 0 if not self.body else len(self.body.value.get_generator(settings)) tokens.append( Header( ValueLiteral("Content-Length"), ValueLiteral(str(length)), ) ) if request_host: if not utils.get_header("Host", self.headers): tokens.append( Header( ValueLiteral("Host"), ValueLiteral(request_host) ) ) else: if not utils.get_header("Date", self.headers): tokens.append( Header( ValueLiteral("Date"), ValueLiteral(formatdate(timeval=None, localtime=False, usegmt=True)) ) ) intermediate = self.__class__(tokens) return self.__class__([i.resolve(intermediate, settings) for i in tokens]) @abc.abstractmethod def preamble(self, settings): # pragma: no cover pass @abc.abstractmethod def expr(klass): # pragma: no cover pass def log(self, settings): """ A dictionary that should be logged if this message is served. """ ret = {} for i in self.logattrs: v = getattr(self, i) # Careful not to log any VALUE specs without sanitizing them first. We truncate at 1k. if hasattr(v, "values"): v = [x[:TRUNCATE] for x in v.values(settings)] v = "".join(v).encode("string_escape") elif hasattr(v, "__len__"): v = v[:TRUNCATE] v = v.encode("string_escape") ret[i] = v ret["spec"] = self.spec() return ret def values(self, settings): vals = self.preamble(settings) vals.append("\r\n") for h in self.headers: vals.extend(h.values(settings)) vals.append("\r\n") if self.body: vals.append(self.body.value.get_generator(settings)) return vals def freeze(self, settings, request_host=None): r = self.resolve(settings, request_host=None) return self.__class__([i.freeze(settings) for i in r.tokens]) def __repr__(self): return self.spec() Sep = pp.Optional(pp.Literal(":")).suppress() class Response(_Message): comps = ( Body, Header, PauseAt, DisconnectAt, InjectAt, ShortcutContentType, ShortcutLocation, Raw, Reason ) logattrs = ["code", "reason", "version", "body"] @property def code(self): return self._get_token(Code) @property def reason(self): return self._get_token(Reason) def preamble(self, settings): l = [self.version, " "] l.extend(self.code.values(settings)) l.append(" ") if self.reason: l.extend(self.reason.values(settings)) else: l.append(LiteralGenerator(http_status.RESPONSES.get(int(self.code.code), "Unknown code"))) return l @classmethod def expr(klass): parts = [i.expr() for i in klass.comps] atom = pp.MatchFirst(parts) resp = pp.And( [ Code.expr(), pp.ZeroOrMore(Sep + atom) ] ) return resp def spec(self): return ":".join([i.spec() for i in self.tokens]) class Request(_Message): comps = ( Body, Header, PauseAt, DisconnectAt, InjectAt, ShortcutContentType, ShortcutUserAgent, Raw ) logattrs = ["method", "path", "body"] @property def method(self): return self._get_token(Method) @property def path(self): return self._get_token(Path) def preamble(self, settings): v = self.method.values(settings) v.append(" ") v.extend(self.path.values(settings)) v.append(" ") v.append(self.version) return v @classmethod def expr(klass): parts = [i.expr() for i in klass.comps] atom = pp.MatchFirst(parts) resp = pp.And( [ Method.expr(), Sep, Path.expr(), pp.ZeroOrMore(Sep + atom) ] ) return resp def spec(self): return ":".join([i.spec() for i in self.tokens]) class PathodErrorResponse(Response): pass def make_error_response(reason, body=None): tokens = [ Code("800"), Header(ValueLiteral("Content-Type"), ValueLiteral("text/plain")), Reason(ValueLiteral(reason)), Body(ValueLiteral("pathod error: " + (body or reason))), ] return PathodErrorResponse(tokens) FILESTART = "+" def read_file(settings, s): uf = settings.get("unconstrained_file_access") sd = settings.get("staticdir") if not sd: raise FileAccessDenied("File access disabled.") sd = os.path.normpath(os.path.abspath(sd)) s = s[1:] s = os.path.expanduser(s) s = os.path.normpath(os.path.abspath(os.path.join(sd, s))) if not uf and not s.startswith(sd): raise FileAccessDenied("File access outside of configured directory") if not os.path.isfile(s): raise FileAccessDenied("File not readable") return file(s, "rb").read() def parse_response(settings, s): """ May raise ParseException or FileAccessDenied """ try: s = s.decode("ascii") except UnicodeError: raise ParseException("Spec must be valid ASCII.", 0, 0) if s.startswith(FILESTART): s = read_file(settings, s) try: return Response(Response.expr().parseString(s, parseAll=True)) except pp.ParseException, v: raise ParseException(v.msg, v.line, v.col) def parse_request(settings, s): """ May raise ParseException or FileAccessDenied """ try: s = s.decode("ascii") except UnicodeError: raise ParseException("Spec must be valid ASCII.", 0, 0) if s.startswith(FILESTART): s = read_file(settings, s) try: return Request(Request.expr().parseString(s, parseAll=True)) except pp.ParseException, v: raise ParseException(v.msg, v.line, v.col)