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## The contents of this file are subject to the Mozilla Public License
## Version 1.1 (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.mozilla.org/MPL/
##
## Software distributed under the License is distributed on an "AS IS"
## basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the
## License for the specific language governing rights and limitations
## under the License.
##
## The Original Code is RabbitMQ.
##
## The Initial Developers of the Original Code are LShift Ltd,
## Cohesive Financial Technologies LLC, and Rabbit Technologies Ltd.
##
## Portions created before 22-Nov-2008 00:00:00 GMT by LShift Ltd,
## Cohesive Financial Technologies LLC, or Rabbit Technologies Ltd
## are Copyright (C) 2007-2008 LShift Ltd, Cohesive Financial
## Technologies LLC, and Rabbit Technologies Ltd.
##
## Portions created by LShift Ltd are Copyright (C) 2007-2009 LShift
## Ltd. Portions created by Cohesive Financial Technologies LLC are
## Copyright (C) 2007-2009 Cohesive Financial Technologies
## LLC. Portions created by Rabbit Technologies Ltd are Copyright
## (C) 2007-2009 Rabbit Technologies Ltd.
##
## All Rights Reserved.
##
## Contributor(s): ______________________________________.
##
from __future__ import nested_scopes
import sys
sys.path.append("../rabbitmq-codegen") # in case we're next to an experimental revision
sys.path.append("codegen") # in case we're building from a distribution package
from amqp_codegen import *
import string
import re
erlangTypeMap = {
'octet': 'octet',
'shortstr': 'shortstr',
'longstr': 'longstr',
'short': 'shortint',
'long': 'longint',
'longlong': 'longlongint',
'bit': 'bit',
'table': 'table',
'timestamp': 'timestamp',
}
# Coming up with a proper encoding of AMQP tables in JSON is too much
# hassle at this stage. Given that the only default value we are
# interested in is for the empty table, we only support that.
def convertTable(d):
if len(d) == 0:
return "[]"
else: raise 'Non-empty table defaults not supported', d
erlangDefaultValueTypeConvMap = {
bool : lambda x: str(x).lower(),
str : lambda x: "<<\"" + x + "\">>",
int : lambda x: str(x),
float : lambda x: str(x),
dict: convertTable,
unicode: lambda x: "<<\"" + x.encode("utf-8") + "\">>"
}
def erlangize(s):
s = s.replace('-', '_')
s = s.replace(' ', '_')
return s
AmqpMethod.erlangName = lambda m: "'" + erlangize(m.klass.name) + '.' + erlangize(m.name) + "'"
def erlangConstantName(s):
return '_'.join(re.split('[- ]', s.upper()))
class PackedMethodBitField:
def __init__(self, index):
self.index = index
self.domain = 'bit'
self.contents = []
def extend(self, f):
self.contents.append(f)
def count(self):
return len(self.contents)
def full(self):
return self.count() == 8
def genErl(spec):
def erlType(domain):
return erlangTypeMap[spec.resolveDomain(domain)]
def fieldTypeList(fields):
return '[' + ', '.join([erlType(f.domain) for f in fields]) + ']'
def fieldNameList(fields):
return '[' + ', '.join([erlangize(f.name) for f in fields]) + ']'
def fieldTempList(fields):
return '[' + ', '.join(['F' + str(f.index) for f in fields]) + ']'
def fieldMapList(fields):
return ', '.join([erlangize(f.name) + " = F" + str(f.index) for f in fields])
def genLookupMethodName(m):
print "lookup_method_name({%d, %d}) -> %s;" % (m.klass.index, m.index, m.erlangName())
def genMethodId(m):
print "method_id(%s) -> {%d, %d};" % (m.erlangName(), m.klass.index, m.index)
def genMethodHasContent(m):
print "method_has_content(%s) -> %s;" % (m.erlangName(), str(m.hasContent).lower())
def genMethodIsSynchronous(m):
hasNoWait = "nowait" in fieldNameList(m.arguments)
if m.isSynchronous and hasNoWait:
print "is_method_synchronous(#%s{nowait = NoWait}) -> not(NoWait);" % (m.erlangName())
else:
print "is_method_synchronous(#%s{}) -> %s;" % (m.erlangName(), str(m.isSynchronous).lower())
def genMethodFieldTypes(m):
"""Not currently used - may be useful in future?"""
print "method_fieldtypes(%s) -> %s;" % (m.erlangName(), fieldTypeList(m.arguments))
def genMethodFieldNames(m):
print "method_fieldnames(%s) -> %s;" % (m.erlangName(), fieldNameList(m.arguments))
def packMethodFields(fields):
packed = []
bitfield = None
for f in fields:
if erlType(f.domain) == 'bit':
if not(bitfield) or bitfield.full():
bitfield = PackedMethodBitField(f.index)
packed.append(bitfield)
bitfield.extend(f)
else:
bitfield = None
packed.append(f)
return packed
def methodFieldFragment(f):
type = erlType(f.domain)
p = 'F' + str(f.index)
if type == 'shortstr':
return p+'Len:8/unsigned, '+p+':'+p+'Len/binary'
elif type == 'longstr':
return p+'Len:32/unsigned, '+p+':'+p+'Len/binary'
elif type == 'octet':
return p+':8/unsigned'
elif type == 'shortint':
return p+':16/unsigned'
elif type == 'longint':
return p+':32/unsigned'
elif type == 'longlongint':
return p+':64/unsigned'
elif type == 'timestamp':
return p+':64/unsigned'
elif type == 'bit':
return p+'Bits:8'
elif type == 'table':
return p+'Len:32/unsigned, '+p+'Tab:'+p+'Len/binary'
def genFieldPostprocessing(packed):
for f in packed:
type = erlType(f.domain)
if type == 'bit':
for index in range(f.count()):
print " F%d = ((F%dBits band %d) /= 0)," % \
(f.index + index,
f.index,
1 << index)
elif type == 'table':
print " F%d = rabbit_binary_parser:parse_table(F%dTab)," % \
(f.index, f.index)
else:
pass
def genDecodeMethodFields(m):
packedFields = packMethodFields(m.arguments)
binaryPattern = ', '.join([methodFieldFragment(f) for f in packedFields])
if binaryPattern:
restSeparator = ', '
else:
restSeparator = ''
recordConstructorExpr = '#%s{%s}' % (m.erlangName(), fieldMapList(m.arguments))
print "decode_method_fields(%s, <<%s>>) ->" % (m.erlangName(), binaryPattern)
genFieldPostprocessing(packedFields)
print " %s;" % (recordConstructorExpr,)
def genDecodeProperties(c):
print "decode_properties(%d, PropBin) ->" % (c.index)
print " %s = rabbit_binary_parser:parse_properties(%s, PropBin)," % \
(fieldTempList(c.fields), fieldTypeList(c.fields))
print " #'P_%s'{%s};" % (erlangize(c.name), fieldMapList(c.fields))
def genFieldPreprocessing(packed):
for f in packed:
type = erlType(f.domain)
if type == 'bit':
print " F%dBits = (%s)," % \
(f.index,
' bor '.join(['(bitvalue(F%d) bsl %d)' % (x.index, x.index - f.index)
for x in f.contents]))
elif type == 'table':
print " F%dTab = rabbit_binary_generator:generate_table(F%d)," % (f.index, f.index)
print " F%dLen = size(F%dTab)," % (f.index, f.index)
elif type in ['shortstr', 'longstr']:
print " F%dLen = size(F%d)," % (f.index, f.index)
else:
pass
def genEncodeMethodFields(m):
packedFields = packMethodFields(m.arguments)
print "encode_method_fields(#%s{%s}) ->" % (m.erlangName(), fieldMapList(m.arguments))
genFieldPreprocessing(packedFields)
print " <<%s>>;" % (', '.join([methodFieldFragment(f) for f in packedFields]))
def genEncodeProperties(c):
print "encode_properties(#'P_%s'{%s}) ->" % (erlangize(c.name), fieldMapList(c.fields))
print " rabbit_binary_generator:encode_properties(%s, %s);" % \
(fieldTypeList(c.fields), fieldTempList(c.fields))
def messageConstantClass(cls):
# We do this because 0.8 uses "soft error" and 8.1 uses "soft-error".
return erlangConstantName(cls)
def genLookupException(c,v,cls):
mCls = messageConstantClass(cls)
if mCls == 'SOFT_ERROR': genLookupException1(c,'false')
elif mCls == 'HARD_ERROR': genLookupException1(c, 'true')
elif mCls == '': pass
else: raise 'Unknown constant class', cls
def genLookupException1(c,hardErrorBoolStr):
n = erlangConstantName(c)
print 'lookup_amqp_exception(%s) -> {%s, ?%s, <<"%s">>};' % \
(n.lower(), hardErrorBoolStr, n, n)
def genAmqpException(c,v,cls):
n = erlangConstantName(c)
print 'amqp_exception(?%s) -> %s;' % \
(n, n.lower())
methods = spec.allMethods()
print """-module(rabbit_framing).
-include("rabbit_framing.hrl").
-export([lookup_method_name/1]).
-export([method_id/1]).
-export([method_has_content/1]).
-export([is_method_synchronous/1]).
-export([method_fieldnames/1]).
-export([decode_method_fields/2]).
-export([decode_properties/2]).
-export([encode_method_fields/1]).
-export([encode_properties/1]).
-export([lookup_amqp_exception/1]).
-export([amqp_exception/1]).
bitvalue(true) -> 1;
bitvalue(false) -> 0;
bitvalue(undefined) -> 0.
"""
for m in methods: genLookupMethodName(m)
print "lookup_method_name({_ClassId, _MethodId} = Id) -> exit({unknown_method_id, Id})."
for m in methods: genMethodId(m)
print "method_id(Name) -> exit({unknown_method_name, Name})."
for m in methods: genMethodHasContent(m)
print "method_has_content(Name) -> exit({unknown_method_name, Name})."
for m in methods: genMethodIsSynchronous(m)
print "is_method_synchronous(Name) -> exit({unknown_method_name, Name})."
for m in methods: genMethodFieldNames(m)
print "method_fieldnames(Name) -> exit({unknown_method_name, Name})."
for m in methods: genDecodeMethodFields(m)
print "decode_method_fields(Name, BinaryFields) ->"
print " rabbit_misc:frame_error(Name, BinaryFields)."
for c in spec.allClasses(): genDecodeProperties(c)
print "decode_properties(ClassId, _BinaryFields) -> exit({unknown_class_id, ClassId})."
for m in methods: genEncodeMethodFields(m)
print "encode_method_fields(Record) -> exit({unknown_method_name, element(1, Record)})."
for c in spec.allClasses(): genEncodeProperties(c)
print "encode_properties(Record) -> exit({unknown_properties_record, Record})."
for (c,v,cls) in spec.constants: genLookupException(c,v,cls)
print "lookup_amqp_exception(Code) ->"
print " rabbit_log:warning(\"Unknown AMQP error code '~p'~n\", [Code]),"
print " {true, ?INTERNAL_ERROR, <<\"INTERNAL_ERROR\">>}."
for(c,v,cls) in spec.constants: genAmqpException(c,v,cls)
print "amqp_exception(_Code) -> undefined."
def genHrl(spec):
def erlType(domain):
return erlangTypeMap[spec.resolveDomain(domain)]
def fieldNameList(fields):
return ', '.join([erlangize(f.name) for f in fields])
def fieldNameListDefaults(fields):
def fillField(field):
result = erlangize(f.name)
if field.defaultvalue != None:
conv_fn = erlangDefaultValueTypeConvMap[type(field.defaultvalue)]
result += ' = ' + conv_fn(field.defaultvalue)
return result
return ', '.join([fillField(f) for f in fields])
methods = spec.allMethods()
print "-define(PROTOCOL_VERSION_MAJOR, %d)." % (spec.major)
print "-define(PROTOCOL_VERSION_MINOR, %d)." % (spec.minor)
print "-define(PROTOCOL_PORT, %d)." % (spec.port)
for (c,v,cls) in spec.constants:
print "-define(%s, %s)." % (erlangConstantName(c), v)
print "%% Method field records."
for m in methods:
print "-record(%s, {%s})." % (m.erlangName(), fieldNameListDefaults(m.arguments))
print "%% Class property records."
for c in spec.allClasses():
print "-record('P_%s', {%s})." % (erlangize(c.name), fieldNameList(c.fields))
def generateErl(specPath):
genErl(AmqpSpec(specPath))
def generateHrl(specPath):
genHrl(AmqpSpec(specPath))
if __name__ == "__main__":
do_main(generateHrl, generateErl)
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