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Current File : /proc/self/root/lib/python3/dist-packages/hpack/hpack.py
# -*- coding: utf-8 -*-
"""
hpack/hpack
~~~~~~~~~~~

Implements the HPACK header compression algorithm as detailed by the IETF.
"""
import logging

from .table import HeaderTable, table_entry_size
from .exceptions import (
    HPACKDecodingError, OversizedHeaderListError, InvalidTableSizeError
)
from .huffman import HuffmanEncoder
from .huffman_constants import (
    REQUEST_CODES, REQUEST_CODES_LENGTH
)
from .huffman_table import decode_huffman
from .struct import HeaderTuple, NeverIndexedHeaderTuple

log = logging.getLogger(__name__)

INDEX_NONE = b'\x00'
INDEX_NEVER = b'\x10'
INDEX_INCREMENTAL = b'\x40'

# Precompute 2^i for 1-8 for use in prefix calcs.
# Zero index is not used but there to save a subtraction
# as prefix numbers are not zero indexed.
_PREFIX_BIT_MAX_NUMBERS = [(2 ** i) - 1 for i in range(9)]

try:  # pragma: no cover
    basestring = basestring
except NameError:  # pragma: no cover
    basestring = (str, bytes)


# We default the maximum header list we're willing to accept to 64kB. That's a
# lot of headers, but if applications want to raise it they can do.
DEFAULT_MAX_HEADER_LIST_SIZE = 2 ** 16


def _unicode_if_needed(header, raw):
    """
    Provides a header as a unicode string if raw is False, otherwise returns
    it as a bytestring.
    """
    name = bytes(header[0])
    value = bytes(header[1])
    if not raw:
        name = name.decode('utf-8')
        value = value.decode('utf-8')
    return header.__class__(name, value)


def encode_integer(integer, prefix_bits):
    """
    This encodes an integer according to the wacky integer encoding rules
    defined in the HPACK spec.
    """
    log.debug("Encoding %d with %d bits", integer, prefix_bits)

    if integer < 0:
        raise ValueError(
            "Can only encode positive integers, got %s" % integer
        )

    if prefix_bits < 1 or prefix_bits > 8:
        raise ValueError(
            "Prefix bits must be between 1 and 8, got %s" % prefix_bits
        )

    max_number = _PREFIX_BIT_MAX_NUMBERS[prefix_bits]

    if integer < max_number:
        return bytearray([integer])  # Seriously?
    else:
        elements = [max_number]
        integer -= max_number

        while integer >= 128:
            elements.append((integer & 127) + 128)
            integer >>= 7

        elements.append(integer)

        return bytearray(elements)


def decode_integer(data, prefix_bits):
    """
    This decodes an integer according to the wacky integer encoding rules
    defined in the HPACK spec. Returns a tuple of the decoded integer and the
    number of bytes that were consumed from ``data`` in order to get that
    integer.
    """
    if prefix_bits < 1 or prefix_bits > 8:
        raise ValueError(
            "Prefix bits must be between 1 and 8, got %s" % prefix_bits
        )

    max_number = _PREFIX_BIT_MAX_NUMBERS[prefix_bits]
    index = 1
    shift = 0
    mask = (0xFF >> (8 - prefix_bits))

    try:
        number = data[0] & mask
        if number == max_number:
            while True:
                next_byte = data[index]
                index += 1

                if next_byte >= 128:
                    number += (next_byte - 128) << shift
                else:
                    number += next_byte << shift
                    break
                shift += 7

    except IndexError:
        raise HPACKDecodingError(
            "Unable to decode HPACK integer representation from %r" % data
        )

    log.debug("Decoded %d, consumed %d bytes", number, index)

    return number, index


def _dict_to_iterable(header_dict):
    """
    This converts a dictionary to an iterable of two-tuples. This is a
    HPACK-specific function because it pulls "special-headers" out first and
    then emits them.
    """
    assert isinstance(header_dict, dict)
    keys = sorted(
        header_dict.keys(),
        key=lambda k: not _to_bytes(k).startswith(b':')
    )
    for key in keys:
        yield key, header_dict[key]


def _to_bytes(string):
    """
    Convert string to bytes.
    """
    if not isinstance(string, basestring):  # pragma: no cover
        string = str(string)

    return string if isinstance(string, bytes) else string.encode('utf-8')


class Encoder:
    """
    An HPACK encoder object. This object takes HTTP headers and emits encoded
    HTTP/2 header blocks.
    """

    def __init__(self):
        self.header_table = HeaderTable()
        self.huffman_coder = HuffmanEncoder(
            REQUEST_CODES, REQUEST_CODES_LENGTH
        )
        self.table_size_changes = []

    @property
    def header_table_size(self):
        """
        Controls the size of the HPACK header table.
        """
        return self.header_table.maxsize

    @header_table_size.setter
    def header_table_size(self, value):
        self.header_table.maxsize = value
        if self.header_table.resized:
            self.table_size_changes.append(value)

    def encode(self, headers, huffman=True):
        """
        Takes a set of headers and encodes them into a HPACK-encoded header
        block.

        :param headers: The headers to encode. Must be either an iterable of
                        tuples, an iterable of :class:`HeaderTuple
                        <hpack.HeaderTuple>`, or a ``dict``.

                        If an iterable of tuples, the tuples may be either
                        two-tuples or three-tuples. If they are two-tuples, the
                        tuples must be of the format ``(name, value)``. If they
                        are three-tuples, they must be of the format
                        ``(name, value, sensitive)``, where ``sensitive`` is a
                        boolean value indicating whether the header should be
                        added to header tables anywhere. If not present,
                        ``sensitive`` defaults to ``False``.

                        If an iterable of :class:`HeaderTuple
                        <hpack.HeaderTuple>`, the tuples must always be
                        two-tuples. Instead of using ``sensitive`` as a third
                        tuple entry, use :class:`NeverIndexedHeaderTuple
                        <hpack.NeverIndexedHeaderTuple>` to request that
                        the field never be indexed.

                        .. warning:: HTTP/2 requires that all special headers
                            (headers whose names begin with ``:`` characters)
                            appear at the *start* of the header block. While
                            this method will ensure that happens for ``dict``
                            subclasses, callers using any other iterable of
                            tuples **must** ensure they place their special
                            headers at the start of the iterable.

                            For efficiency reasons users should prefer to use
                            iterables of two-tuples: fixing the ordering of
                            dictionary headers is an expensive operation that
                            should be avoided if possible.

        :param huffman: (optional) Whether to Huffman-encode any header sent as
                        a literal value. Except for use when debugging, it is
                        recommended that this be left enabled.

        :returns: A bytestring containing the HPACK-encoded header block.
        """
        # Transforming the headers into a header block is a procedure that can
        # be modeled as a chain or pipe. First, the headers are encoded. This
        # encoding can be done a number of ways. If the header name-value pair
        # are already in the header table we can represent them using the
        # indexed representation: the same is true if they are in the static
        # table. Otherwise, a literal representation will be used.
        header_block = []

        # Turn the headers into a list of tuples if possible. This is the
        # natural way to interact with them in HPACK. Because dictionaries are
        # un-ordered, we need to make sure we grab the "special" headers first.
        if isinstance(headers, dict):
            headers = _dict_to_iterable(headers)

        # Before we begin, if the header table size has been changed we need
        # to signal all changes since last emission appropriately.
        if self.header_table.resized:
            header_block.append(self._encode_table_size_change())
            self.header_table.resized = False

        # Add each header to the header block
        for header in headers:
            sensitive = False
            if isinstance(header, HeaderTuple):
                sensitive = not header.indexable
            elif len(header) > 2:
                sensitive = header[2]

            header = (_to_bytes(header[0]), _to_bytes(header[1]))
            header_block.append(self.add(header, sensitive, huffman))

        header_block = b''.join(header_block)

        log.debug("Encoded header block to %s", header_block)

        return header_block

    def add(self, to_add, sensitive, huffman=False):
        """
        This function takes a header key-value tuple and serializes it.
        """
        log.debug(
            "Adding %s to the header table, sensitive:%s, huffman:%s",
            to_add,
            sensitive,
            huffman
        )

        name, value = to_add

        # Set our indexing mode
        indexbit = INDEX_INCREMENTAL if not sensitive else INDEX_NEVER

        # Search for a matching header in the header table.
        match = self.header_table.search(name, value)

        if match is None:
            # Not in the header table. Encode using the literal syntax,
            # and add it to the header table.
            encoded = self._encode_literal(name, value, indexbit, huffman)
            if not sensitive:
                self.header_table.add(name, value)
            return encoded

        # The header is in the table, break out the values. If we matched
        # perfectly, we can use the indexed representation: otherwise we
        # can use the indexed literal.
        index, name, perfect = match

        if perfect:
            # Indexed representation.
            encoded = self._encode_indexed(index)
        else:
            # Indexed literal. We are going to add header to the
            # header table unconditionally. It is a future todo to
            # filter out headers which are known to be ineffective for
            # indexing since they just take space in the table and
            # pushed out other valuable headers.
            encoded = self._encode_indexed_literal(
                index, value, indexbit, huffman
            )
            if not sensitive:
                self.header_table.add(name, value)

        return encoded

    def _encode_indexed(self, index):
        """
        Encodes a header using the indexed representation.
        """
        field = encode_integer(index, 7)
        field[0] |= 0x80  # we set the top bit
        return bytes(field)

    def _encode_literal(self, name, value, indexbit, huffman=False):
        """
        Encodes a header with a literal name and literal value. If ``indexing``
        is True, the header will be added to the header table: otherwise it
        will not.
        """
        if huffman:
            name = self.huffman_coder.encode(name)
            value = self.huffman_coder.encode(value)

        name_len = encode_integer(len(name), 7)
        value_len = encode_integer(len(value), 7)

        if huffman:
            name_len[0] |= 0x80
            value_len[0] |= 0x80

        return b''.join(
            [indexbit, bytes(name_len), name, bytes(value_len), value]
        )

    def _encode_indexed_literal(self, index, value, indexbit, huffman=False):
        """
        Encodes a header with an indexed name and a literal value and performs
        incremental indexing.
        """
        if indexbit != INDEX_INCREMENTAL:
            prefix = encode_integer(index, 4)
        else:
            prefix = encode_integer(index, 6)

        prefix[0] |= ord(indexbit)

        if huffman:
            value = self.huffman_coder.encode(value)

        value_len = encode_integer(len(value), 7)

        if huffman:
            value_len[0] |= 0x80

        return b''.join([bytes(prefix), bytes(value_len), value])

    def _encode_table_size_change(self):
        """
        Produces the encoded form of all header table size change context
        updates.
        """
        block = b''
        for size_bytes in self.table_size_changes:
            size_bytes = encode_integer(size_bytes, 5)
            size_bytes[0] |= 0x20
            block += bytes(size_bytes)
        self.table_size_changes = []
        return block


class Decoder:
    """
    An HPACK decoder object.

    .. versionchanged:: 2.3.0
       Added ``max_header_list_size`` argument.

    :param max_header_list_size: The maximum decompressed size we will allow
        for any single header block. This is a protection against DoS attacks
        that attempt to force the application to expand a relatively small
        amount of data into a really large header list, allowing enormous
        amounts of memory to be allocated.

        If this amount of data is exceeded, a `OversizedHeaderListError
        <hpack.OversizedHeaderListError>` exception will be raised. At this
        point the connection should be shut down, as the HPACK state will no
        longer be usable.

        Defaults to 64kB.
    :type max_header_list_size: ``int``
    """
    def __init__(self, max_header_list_size=DEFAULT_MAX_HEADER_LIST_SIZE):
        self.header_table = HeaderTable()

        #: The maximum decompressed size we will allow for any single header
        #: block. This is a protection against DoS attacks that attempt to
        #: force the application to expand a relatively small amount of data
        #: into a really large header list, allowing enormous amounts of memory
        #: to be allocated.
        #:
        #: If this amount of data is exceeded, a `OversizedHeaderListError
        #: <hpack.OversizedHeaderListError>` exception will be raised. At this
        #: point the connection should be shut down, as the HPACK state will no
        #: longer be usable.
        #:
        #: Defaults to 64kB.
        #:
        #: .. versionadded:: 2.3.0
        self.max_header_list_size = max_header_list_size

        #: Maximum allowed header table size.
        #:
        #: A HTTP/2 implementation should set this to the most recent value of
        #: SETTINGS_HEADER_TABLE_SIZE that it sent *and has received an ACK
        #: for*. Once this setting is set, the actual header table size will be
        #: checked at the end of each decoding run and whenever it is changed,
        #: to confirm that it fits in this size.
        self.max_allowed_table_size = self.header_table.maxsize

    @property
    def header_table_size(self):
        """
        Controls the size of the HPACK header table.
        """
        return self.header_table.maxsize

    @header_table_size.setter
    def header_table_size(self, value):
        self.header_table.maxsize = value

    def decode(self, data, raw=False):
        """
        Takes an HPACK-encoded header block and decodes it into a header set.

        :param data: A bytestring representing a complete HPACK-encoded header
                     block.
        :param raw: (optional) Whether to return the headers as tuples of raw
                    byte strings or to decode them as UTF-8 before returning
                    them. The default value is False, which returns tuples of
                    Unicode strings
        :returns: A list of two-tuples of ``(name, value)`` representing the
                  HPACK-encoded headers, in the order they were decoded.
        :raises HPACKDecodingError: If an error is encountered while decoding
                                    the header block.
        """
        log.debug("Decoding %s", data)

        data_mem = memoryview(data)
        headers = []
        data_len = len(data)
        inflated_size = 0
        current_index = 0

        while current_index < data_len:
            # Work out what kind of header we're decoding.
            # If the high bit is 1, it's an indexed field.
            current = data[current_index]
            indexed = True if current & 0x80 else False

            # Otherwise, if the second-highest bit is 1 it's a field that does
            # alter the header table.
            literal_index = True if current & 0x40 else False

            # Otherwise, if the third-highest bit is 1 it's an encoding context
            # update.
            encoding_update = True if current & 0x20 else False

            if indexed:
                header, consumed = self._decode_indexed(
                    data_mem[current_index:]
                )
            elif literal_index:
                # It's a literal header that does affect the header table.
                header, consumed = self._decode_literal_index(
                    data_mem[current_index:]
                )
            elif encoding_update:
                # It's an update to the encoding context. These are forbidden
                # in a header block after any actual header.
                if headers:
                    raise HPACKDecodingError(
                        "Table size update not at the start of the block"
                    )
                consumed = self._update_encoding_context(
                    data_mem[current_index:]
                )
                header = None
            else:
                # It's a literal header that does not affect the header table.
                header, consumed = self._decode_literal_no_index(
                    data_mem[current_index:]
                )

            if header:
                headers.append(header)
                inflated_size += table_entry_size(*header)

                if inflated_size > self.max_header_list_size:
                    raise OversizedHeaderListError(
                        "A header list larger than %d has been received" %
                        self.max_header_list_size
                    )

            current_index += consumed

        # Confirm that the table size is lower than the maximum. We do this
        # here to ensure that we catch when the max has been *shrunk* and the
        # remote peer hasn't actually done that.
        self._assert_valid_table_size()

        try:
            return [_unicode_if_needed(h, raw) for h in headers]
        except UnicodeDecodeError:
            raise HPACKDecodingError("Unable to decode headers as UTF-8.")

    def _assert_valid_table_size(self):
        """
        Check that the table size set by the encoder is lower than the maximum
        we expect to have.
        """
        if self.header_table_size > self.max_allowed_table_size:
            raise InvalidTableSizeError(
                "Encoder did not shrink table size to within the max"
            )

    def _update_encoding_context(self, data):
        """
        Handles a byte that updates the encoding context.
        """
        # We've been asked to resize the header table.
        new_size, consumed = decode_integer(data, 5)
        if new_size > self.max_allowed_table_size:
            raise InvalidTableSizeError(
                "Encoder exceeded max allowable table size"
            )
        self.header_table_size = new_size
        return consumed

    def _decode_indexed(self, data):
        """
        Decodes a header represented using the indexed representation.
        """
        index, consumed = decode_integer(data, 7)
        header = HeaderTuple(*self.header_table.get_by_index(index))
        log.debug("Decoded %s, consumed %d", header, consumed)
        return header, consumed

    def _decode_literal_no_index(self, data):
        return self._decode_literal(data, False)

    def _decode_literal_index(self, data):
        return self._decode_literal(data, True)

    def _decode_literal(self, data, should_index):
        """
        Decodes a header represented with a literal.
        """
        total_consumed = 0

        # When should_index is true, if the low six bits of the first byte are
        # nonzero, the header name is indexed.
        # When should_index is false, if the low four bits of the first byte
        # are nonzero the header name is indexed.
        if should_index:
            indexed_name = data[0] & 0x3F
            name_len = 6
            not_indexable = False
        else:
            high_byte = data[0]
            indexed_name = high_byte & 0x0F
            name_len = 4
            not_indexable = high_byte & 0x10

        if indexed_name:
            # Indexed header name.
            index, consumed = decode_integer(data, name_len)
            name = self.header_table.get_by_index(index)[0]

            total_consumed = consumed
            length = 0
        else:
            # Literal header name. The first byte was consumed, so we need to
            # move forward.
            data = data[1:]

            length, consumed = decode_integer(data, 7)
            name = data[consumed:consumed + length]
            if len(name) != length:
                raise HPACKDecodingError("Truncated header block")

            if data[0] & 0x80:
                name = decode_huffman(name)
            total_consumed = consumed + length + 1  # Since we moved forward 1.

        data = data[consumed + length:]

        # The header value is definitely length-based.
        length, consumed = decode_integer(data, 7)
        value = data[consumed:consumed + length]
        if len(value) != length:
            raise HPACKDecodingError("Truncated header block")

        if data[0] & 0x80:
            value = decode_huffman(value)

        # Updated the total consumed length.
        total_consumed += length + consumed

        # If we have been told never to index the header field, encode that in
        # the tuple we use.
        if not_indexable:
            header = NeverIndexedHeaderTuple(name, value)
        else:
            header = HeaderTuple(name, value)

        # If we've been asked to index this, add it to the header table.
        if should_index:
            self.header_table.add(name, value)

        log.debug(
            "Decoded %s, total consumed %d bytes, indexed %s",
            header,
            total_consumed,
            should_index
        )

        return header, total_consumed

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