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apache / airavata-sandbox / 18664ec8acb5d11b81555adb06bb69f8b4f2a5f1 / . / Interacting_with_Airavata_using_ipython_Notebook / Admin-User / thrift / protocol / TCompactProtocol.py
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#
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
#
from struct import pack, unpack
from lib.thrift.protocol.TProtocol import *
__all__ = ['TCompactProtocol', 'TCompactProtocolFactory']
CLEAR = 0
FIELD_WRITE = 1
VALUE_WRITE = 2
CONTAINER_WRITE = 3
BOOL_WRITE = 4
FIELD_READ = 5
CONTAINER_READ = 6
VALUE_READ = 7
BOOL_READ = 8
def make_helper(v_from, container):
def helper(func):
def nested(self, *args, **kwargs):
assert self.state in (v_from, container), (self.state, v_from, container)
return func(self, *args, **kwargs)
return nested
return helper
writer = make_helper(VALUE_WRITE, CONTAINER_WRITE)
reader = make_helper(VALUE_READ, CONTAINER_READ)
def makeZigZag(n, bits):
return (n << 1) ^ (n >> (bits - 1))
def fromZigZag(n):
return (n >> 1) ^ -(n & 1)
def writeVarint(trans, n):
out = []
while True:
if n & ~0x7f == 0:
out.append(n)
break
else:
out.append((n & 0xff) | 0x80)
n = n >> 7
trans.write(''.join(map(chr, out)))
def readVarint(trans):
result = 0
shift = 0
while True:
x = trans.readAll(1)
byte = ord(x)
result |= (byte & 0x7f) << shift
if byte >> 7 == 0:
return result
shift += 7
class CompactType:
STOP = 0x00
TRUE = 0x01
FALSE = 0x02
BYTE = 0x03
I16 = 0x04
I32 = 0x05
I64 = 0x06
DOUBLE = 0x07
BINARY = 0x08
LIST = 0x09
SET = 0x0A
MAP = 0x0B
STRUCT = 0x0C
CTYPES = {TType.STOP: CompactType.STOP,
TType.BOOL: CompactType.TRUE, # used for collection
TType.BYTE: CompactType.BYTE,
TType.I16: CompactType.I16,
TType.I32: CompactType.I32,
TType.I64: CompactType.I64,
TType.DOUBLE: CompactType.DOUBLE,
TType.STRING: CompactType.BINARY,
TType.STRUCT: CompactType.STRUCT,
TType.LIST: CompactType.LIST,
TType.SET: CompactType.SET,
TType.MAP: CompactType.MAP
}
TTYPES = {}
for k, v in CTYPES.items():
TTYPES[v] = k
TTYPES[CompactType.FALSE] = TType.BOOL
del k
del v
class TCompactProtocol(TProtocolBase):
"""Compact implementation of the Thrift protocol driver."""
PROTOCOL_ID = 0x82
VERSION = 1
VERSION_MASK = 0x1f
TYPE_MASK = 0xe0
TYPE_SHIFT_AMOUNT = 5
def __init__(self, trans):
TProtocolBase.__init__(self, trans)
self.state = CLEAR
self.__last_fid = 0
self.__bool_fid = None
self.__bool_value = None
self.__structs = []
self.__containers = []
def __writeVarint(self, n):
writeVarint(self.trans, n)
def writeMessageBegin(self, name, type, seqid):
assert self.state == CLEAR
self.__writeUByte(self.PROTOCOL_ID)
self.__writeUByte(self.VERSION | (type << self.TYPE_SHIFT_AMOUNT))
self.__writeVarint(seqid)
self.__writeString(name)
self.state = VALUE_WRITE
def writeMessageEnd(self):
assert self.state == VALUE_WRITE
self.state = CLEAR
def writeStructBegin(self, name):
assert self.state in (CLEAR, CONTAINER_WRITE, VALUE_WRITE), self.state
self.__structs.append((self.state, self.__last_fid))
self.state = FIELD_WRITE
self.__last_fid = 0
def writeStructEnd(self):
assert self.state == FIELD_WRITE
self.state, self.__last_fid = self.__structs.pop()
def writeFieldStop(self):
self.__writeByte(0)
def __writeFieldHeader(self, type, fid):
delta = fid - self.__last_fid
if 0 < delta <= 15:
self.__writeUByte(delta << 4 | type)
else:
self.__writeByte(type)
self.__writeI16(fid)
self.__last_fid = fid
def writeFieldBegin(self, name, type, fid):
assert self.state == FIELD_WRITE, self.state
if type == TType.BOOL:
self.state = BOOL_WRITE
self.__bool_fid = fid
else:
self.state = VALUE_WRITE
self.__writeFieldHeader(CTYPES[type], fid)
def writeFieldEnd(self):
assert self.state in (VALUE_WRITE, BOOL_WRITE), self.state
self.state = FIELD_WRITE
def __writeUByte(self, byte):
self.trans.write(pack('!B', byte))
def __writeByte(self, byte):
self.trans.write(pack('!b', byte))
def __writeI16(self, i16):
self.__writeVarint(makeZigZag(i16, 16))
def __writeSize(self, i32):
self.__writeVarint(i32)
def writeCollectionBegin(self, etype, size):
assert self.state in (VALUE_WRITE, CONTAINER_WRITE), self.state
if size <= 14:
self.__writeUByte(size << 4 | CTYPES[etype])
else:
self.__writeUByte(0xf0 | CTYPES[etype])
self.__writeSize(size)
self.__containers.append(self.state)
self.state = CONTAINER_WRITE
writeSetBegin = writeCollectionBegin
writeListBegin = writeCollectionBegin
def writeMapBegin(self, ktype, vtype, size):
assert self.state in (VALUE_WRITE, CONTAINER_WRITE), self.state
if size == 0:
self.__writeByte(0)
else:
self.__writeSize(size)
self.__writeUByte(CTYPES[ktype] << 4 | CTYPES[vtype])
self.__containers.append(self.state)
self.state = CONTAINER_WRITE
def writeCollectionEnd(self):
assert self.state == CONTAINER_WRITE, self.state
self.state = self.__containers.pop()
writeMapEnd = writeCollectionEnd
writeSetEnd = writeCollectionEnd
writeListEnd = writeCollectionEnd
def writeBool(self, bool):
if self.state == BOOL_WRITE:
if bool:
ctype = CompactType.TRUE
else:
ctype = CompactType.FALSE
self.__writeFieldHeader(ctype, self.__bool_fid)
elif self.state == CONTAINER_WRITE:
if bool:
self.__writeByte(CompactType.TRUE)
else:
self.__writeByte(CompactType.FALSE)
else:
raise AssertionError("Invalid state in compact protocol")
writeByte = writer(__writeByte)
writeI16 = writer(__writeI16)
@writer
def writeI32(self, i32):
self.__writeVarint(makeZigZag(i32, 32))
@writer
def writeI64(self, i64):
self.__writeVarint(makeZigZag(i64, 64))
@writer
def writeDouble(self, dub):
self.trans.write(pack('!d', dub))
def __writeString(self, s):
self.__writeSize(len(s))
self.trans.write(s)
writeString = writer(__writeString)
def readFieldBegin(self):
assert self.state == FIELD_READ, self.state
type = self.__readUByte()
if type & 0x0f == TType.STOP:
return (None, 0, 0)
delta = type >> 4
if delta == 0:
fid = self.__readI16()
else:
fid = self.__last_fid + delta
self.__last_fid = fid
type = type & 0x0f
if type == CompactType.TRUE:
self.state = BOOL_READ
self.__bool_value = True
elif type == CompactType.FALSE:
self.state = BOOL_READ
self.__bool_value = False
else:
self.state = VALUE_READ
return (None, self.__getTType(type), fid)
def readFieldEnd(self):
assert self.state in (VALUE_READ, BOOL_READ), self.state
self.state = FIELD_READ
def __readUByte(self):
result, = unpack('!B', self.trans.readAll(1))
return result
def __readByte(self):
result, = unpack('!b', self.trans.readAll(1))
return result
def __readVarint(self):
return readVarint(self.trans)
def __readZigZag(self):
return fromZigZag(self.__readVarint())
def __readSize(self):
result = self.__readVarint()
if result < 0:
raise TException("Length < 0")
return result
def readMessageBegin(self):
assert self.state == CLEAR
proto_id = self.__readUByte()
if proto_id != self.PROTOCOL_ID:
raise TProtocolException(TProtocolException.BAD_VERSION,
'Bad protocol id in the message: %d' % proto_id)
ver_type = self.__readUByte()
type = (ver_type & self.TYPE_MASK) >> self.TYPE_SHIFT_AMOUNT
version = ver_type & self.VERSION_MASK
if version != self.VERSION:
raise TProtocolException(TProtocolException.BAD_VERSION,
'Bad version: %d (expect %d)' % (version, self.VERSION))
seqid = self.__readVarint()
name = self.__readString()
return (name, type, seqid)
def readMessageEnd(self):
assert self.state == CLEAR
assert len(self.__structs) == 0
def readStructBegin(self):
assert self.state in (CLEAR, CONTAINER_READ, VALUE_READ), self.state
self.__structs.append((self.state, self.__last_fid))
self.state = FIELD_READ
self.__last_fid = 0
def readStructEnd(self):
assert self.state == FIELD_READ
self.state, self.__last_fid = self.__structs.pop()
def readCollectionBegin(self):
assert self.state in (VALUE_READ, CONTAINER_READ), self.state
size_type = self.__readUByte()
size = size_type >> 4
type = self.__getTType(size_type)
if size == 15:
size = self.__readSize()
self.__containers.append(self.state)
self.state = CONTAINER_READ
return type, size
readSetBegin = readCollectionBegin
readListBegin = readCollectionBegin
def readMapBegin(self):
assert self.state in (VALUE_READ, CONTAINER_READ), self.state
size = self.__readSize()
types = 0
if size > 0:
types = self.__readUByte()
vtype = self.__getTType(types)
ktype = self.__getTType(types >> 4)
self.__containers.append(self.state)
self.state = CONTAINER_READ
return (ktype, vtype, size)
def readCollectionEnd(self):
assert self.state == CONTAINER_READ, self.state
self.state = self.__containers.pop()
readSetEnd = readCollectionEnd
readListEnd = readCollectionEnd
readMapEnd = readCollectionEnd
def readBool(self):
if self.state == BOOL_READ:
return self.__bool_value == CompactType.TRUE
elif self.state == CONTAINER_READ:
return self.__readByte() == CompactType.TRUE
else:
raise AssertionError("Invalid state in compact protocol: %d" %
self.state)
readByte = reader(__readByte)
__readI16 = __readZigZag
readI16 = reader(__readZigZag)
readI32 = reader(__readZigZag)
readI64 = reader(__readZigZag)
@reader
def readDouble(self):
buff = self.trans.readAll(8)
val, = unpack('!d', buff)
return val
def __readString(self):
len = self.__readSize()
return self.trans.readAll(len)
readString = reader(__readString)
def __getTType(self, byte):
return TTYPES[byte & 0x0f]
class TCompactProtocolFactory:
def __init__(self):
pass
def getProtocol(self, trans):
return TCompactProtocol(trans)