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# MySQL Connector/Python - MySQL driver written in Python. # Copyright (c) 2009, 2015, Oracle and/or its affiliates. All rights reserved. # MySQL Connector/Python is licensed under the terms of the GPLv2 # <http://www.gnu.org/licenses/old-licenses/gpl-2.0.html>, like most # MySQL Connectors. There are special exceptions to the terms and # conditions of the GPLv2 as it is applied to this software, see the # FOSS License Exception # <http://www.mysql.com/about/legal/licensing/foss-exception.html>. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA """Utilities """ from __future__ import print_function __MYSQL_DEBUG__ = False import struct from .catch23 import struct_unpack def intread(buf): """Unpacks the given buffer to an integer""" try: if isinstance(buf, int): return buf length = len(buf) if length == 1: return buf[0] elif length <= 4: tmp = buf + b'\x00'*(4-length) return struct_unpack('<I', tmp)[0] else: tmp = buf + b'\x00'*(8-length) return struct_unpack('<Q', tmp)[0] except: raise def int1store(i): """ Takes an unsigned byte (1 byte) and packs it as a bytes-object. Returns string. """ if i < 0 or i > 255: raise ValueError('int1store requires 0 <= i <= 255') else: return bytearray(struct.pack('<B', i)) def int2store(i): """ Takes an unsigned short (2 bytes) and packs it as a bytes-object. Returns string. """ if i < 0 or i > 65535: raise ValueError('int2store requires 0 <= i <= 65535') else: return bytearray(struct.pack('<H', i)) def int3store(i): """ Takes an unsigned integer (3 bytes) and packs it as a bytes-object. Returns string. """ if i < 0 or i > 16777215: raise ValueError('int3store requires 0 <= i <= 16777215') else: return bytearray(struct.pack('<I', i)[0:3]) def int4store(i): """ Takes an unsigned integer (4 bytes) and packs it as a bytes-object. Returns string. """ if i < 0 or i > 4294967295: raise ValueError('int4store requires 0 <= i <= 4294967295') else: return bytearray(struct.pack('<I', i)) def int8store(i): """ Takes an unsigned integer (8 bytes) and packs it as string. Returns string. """ if i < 0 or i > 18446744073709551616: raise ValueError('int8store requires 0 <= i <= 2^64') else: return bytearray(struct.pack('<Q', i)) def intstore(i): """ Takes an unsigned integers and packs it as a bytes-object. This function uses int1store, int2store, int3store, int4store or int8store depending on the integer value. returns string. """ if i < 0 or i > 18446744073709551616: raise ValueError('intstore requires 0 <= i <= 2^64') if i <= 255: formed_string = int1store elif i <= 65535: formed_string = int2store elif i <= 16777215: formed_string = int3store elif i <= 4294967295: formed_string = int4store else: formed_string = int8store return formed_string(i) def lc_int(i): """ Takes an unsigned integer and packs it as bytes, with the information of how much bytes the encoded int takes. """ if i < 0 or i > 18446744073709551616: raise ValueError('Requires 0 <= i <= 2^64') if i < 251: return bytearray(struct.pack('<B', i)) elif i <= 65535: return b'\xfc' + bytearray(struct.pack('<H', i)) elif i <= 16777215: return b'\xfd' + bytearray(struct.pack('<I', i)[0:3]) else: return b'\xfe' + bytearray(struct.pack('<Q', i)) def read_bytes(buf, size): """ Reads bytes from a buffer. Returns a tuple with buffer less the read bytes, and the bytes. """ res = buf[0:size] return (buf[size:], res) def read_lc_string(buf): """ Takes a buffer and reads a length coded string from the start. This is how Length coded strings work If the string is 250 bytes long or smaller, then it looks like this: <-- 1b --> +----------+------------------------- | length | a string goes here +----------+------------------------- If the string is bigger than 250, then it looks like this: <- 1b -><- 2/3/8 -> +------+-----------+------------------------- | type | length | a string goes here +------+-----------+------------------------- if type == \xfc: length is code in next 2 bytes elif type == \xfd: length is code in next 3 bytes elif type == \xfe: length is code in next 8 bytes NULL has a special value. If the buffer starts with \xfb then it's a NULL and we return None as value. Returns a tuple (trucated buffer, bytes). """ if buf[0] == 251: # \xfb # NULL value return (buf[1:], None) length = lsize = 0 fst = buf[0] if fst <= 250: # \xFA length = fst return (buf[1 + length:], buf[1:length + 1]) elif fst == 252: lsize = 2 elif fst == 253: lsize = 3 if fst == 254: lsize = 8 length = intread(buf[1:lsize + 1]) return (buf[lsize + length + 1:], buf[lsize + 1:length + lsize + 1]) def read_lc_string_list(buf): """Reads all length encoded strings from the given buffer Returns a list of bytes """ byteslst = [] sizes = {252: 2, 253: 3, 254: 8} buf_len = len(buf) pos = 0 while pos < buf_len: first = buf[pos] if first == 255: # Special case when MySQL error 1317 is returned by MySQL. # We simply return None. return None if first == 251: # NULL value byteslst.append(None) pos += 1 else: if first <= 250: length = first byteslst.append(buf[(pos + 1):length + (pos + 1)]) pos += 1 + length else: lsize = 0 try: lsize = sizes[first] except KeyError: return None length = intread(buf[(pos + 1):lsize + (pos + 1)]) byteslst.append( buf[pos + 1 + lsize:length + lsize + (pos + 1)]) pos += 1 + lsize + length return tuple(byteslst) def read_string(buf, end=None, size=None): """ Reads a string up until a character or for a given size. Returns a tuple (trucated buffer, string). """ if end is None and size is None: raise ValueError('read_string() needs either end or size') if end is not None: try: idx = buf.index(end) except ValueError: raise ValueError("end byte not present in buffer") return (buf[idx + 1:], buf[0:idx]) elif size is not None: return read_bytes(buf, size) raise ValueError('read_string() needs either end or size (weird)') def read_int(buf, size): """Read an integer from buffer Returns a tuple (truncated buffer, int) """ try: res = intread(buf[0:size]) except: raise return (buf[size:], res) def read_lc_int(buf): """ Takes a buffer and reads an length code string from the start. Returns a tuple with buffer less the integer and the integer read. """ if not buf: raise ValueError("Empty buffer.") lcbyte = buf[0] if lcbyte == 251: return (buf[1:], None) elif lcbyte < 251: return (buf[1:], int(lcbyte)) elif lcbyte == 252: return (buf[3:], struct_unpack('<xH', buf[0:3])[0]) elif lcbyte == 253: return (buf[4:], struct_unpack('<I', buf[1:4] + b'\x00')[0]) elif lcbyte == 254: return (buf[9:], struct_unpack('<xQ', buf[0:9])[0]) else: raise ValueError("Failed reading length encoded integer") # # For debugging # def _digest_buffer(buf): """Debug function for showing buffers""" if not isinstance(buf, str): return ''.join(["\\x%02x" % c for c in buf]) return ''.join(["\\x%02x" % ord(c) for c in buf]) def print_buffer(abuffer, prefix=None, limit=30): """Debug function printing output of _digest_buffer()""" if prefix: if limit and limit > 0: digest = _digest_buffer(abuffer[0:limit]) else: digest = _digest_buffer(abuffer) print(prefix + ': ' + digest) else: print(_digest_buffer(abuffer))