## 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 Developer of the Original Code is GoPivotal, Inc. ## Copyright (c) 2007-2014 GoPivotal, Inc. All rights reserved. ## 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 # 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 Exception('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) + "'" AmqpClass.erlangName = lambda c: "'" + erlangize(c.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 multiLineFormat(things, prologue, separator, lineSeparator, epilogue, thingsPerLine = 4): r = [prologue] i = 0 for t in things: if i != 0: if i % thingsPerLine == 0: r += [lineSeparator] else: r += [separator] r += [t] i += 1 r += [epilogue] return "".join(r) def prettyType(typeName, subTypes, typesPerLine = 4): """Pretty print a type signature made up of many alternative subtypes""" sTs = multiLineFormat(subTypes, "( ", " | ", "\n | ", " )", thingsPerLine = typesPerLine) return "-type(%s ::\n %s)." % (typeName, sTs) def printFileHeader(): print """%% Autogenerated code. Do not edit. %% %% 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 Developer of the Original Code is GoPivotal, Inc. %% Copyright (c) 2007-2014 GoPivotal, Inc. All rights reserved. %%""" def genErl(spec): def erlType(domain): return erlangize(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 genLookupClassName(c): print "lookup_class_name(%d) -> %s;" % (c.index, c.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 == 'short': return p+':16/unsigned' elif type == 'long': return p+':32/unsigned' elif type == 'longlong': 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, hasContent): 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) # We skip the check on content-bearing methods for # speed. This is a sanity check, not a security thing. elif type == 'shortstr' and not hasContent: print " rabbit_binary_parser:assert_utf8(F%d)," % (f.index) else: pass def genMethodRecord(m): print "method_record(%s) -> #%s{};" % (m.erlangName(), m.erlangName()) 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, m.hasContent) print " %s;" % (recordConstructorExpr,) def genDecodeProperties(c): def presentBin(fields): ps = ', '.join(['P' + str(f.index) + ':1' for f in fields]) return '<<' + ps + ', _:%d, R0/binary>>' % (16 - len(fields),) def writePropFieldLine(field): i = str(field.index) if field.domain == 'bit': print " {F%s, R%s} = {P%s =/= 0, R%s}," % \ (i, str(field.index + 1), i, i) else: print " {F%s, R%s} = if P%s =:= 0 -> {undefined, R%s}; true -> ?%s_VAL(R%s, L%s, V%s, X%s) end," % \ (i, str(field.index + 1), i, i, erlType(field.domain).upper(), i, i, i, i) if len(c.fields) == 0: print "decode_properties(%d, <<>>) ->" % (c.index,) else: print ("decode_properties(%d, %s) ->" % (c.index, presentBin(c.fields))) for field in c.fields: writePropFieldLine(field) print " <<>> = %s," % ('R' + str(len(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 == 'shortstr': print " F%dLen = shortstr_size(F%d)," % (f.index, f.index) elif type == '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): def presentBin(fields): ps = ', '.join(['P' + str(f.index) + ':1' for f in fields]) return '<<' + ps + ', 0:%d>>' % (16 - len(fields),) def writePropFieldLine(field): i = str(field.index) if field.domain == 'bit': print " {P%s, R%s} = {F%s =:= 1, R%s}," % \ (i, str(field.index + 1), i, i) else: print " {P%s, R%s} = if F%s =:= undefined -> {0, R%s}; true -> {1, [?%s_PROP(F%s, L%s) | R%s]} end," % \ (i, str(field.index + 1), i, i, erlType(field.domain).upper(), i, i, i) print "encode_properties(#'P_%s'{%s}) ->" % (erlangize(c.name), fieldMapList(c.fields)) if len(c.fields) == 0: print " <<>>;" else: print " R0 = [<<>>]," for field in c.fields: writePropFieldLine(field) print " list_to_binary([%s | lists:reverse(R%s)]);" % \ (presentBin(c.fields), str(len(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 Exception('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() printFileHeader() module = "rabbit_framing_amqp_%d_%d" % (spec.major, spec.minor) if spec.revision != 0: module = "%s_%d" % (module, spec.revision) if module == "rabbit_framing_amqp_8_0": module = "rabbit_framing_amqp_0_8" print "-module(%s)." % module print """-include("rabbit_framing.hrl"). -export([version/0]). -export([lookup_method_name/1]). -export([lookup_class_name/1]). -export([method_id/1]). -export([method_has_content/1]). -export([is_method_synchronous/1]). -export([method_record/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]). """ print "%% Various types" print "-ifdef(use_specs)." print """-export_type([amqp_field_type/0, amqp_property_type/0, amqp_table/0, amqp_array/0, amqp_value/0, amqp_method_name/0, amqp_method/0, amqp_method_record/0, amqp_method_field_name/0, amqp_property_record/0, amqp_exception/0, amqp_exception_code/0, amqp_class_id/0]). -type(amqp_field_type() :: 'longstr' | 'signedint' | 'decimal' | 'timestamp' | 'table' | 'byte' | 'double' | 'float' | 'long' | 'short' | 'bool' | 'binary' | 'void' | 'array'). -type(amqp_property_type() :: 'shortstr' | 'longstr' | 'octet' | 'short' | 'long' | 'longlong' | 'timestamp' | 'bit' | 'table'). -type(amqp_table() :: [{binary(), amqp_field_type(), amqp_value()}]). -type(amqp_array() :: [{amqp_field_type(), amqp_value()}]). -type(amqp_value() :: binary() | % longstr integer() | % signedint {non_neg_integer(), non_neg_integer()} | % decimal amqp_table() | amqp_array() | byte() | % byte float() | % double integer() | % long integer() | % short boolean() | % bool binary() | % binary 'undefined' | % void non_neg_integer() % timestamp ). """ print prettyType("amqp_method_name()", [m.erlangName() for m in methods]) print prettyType("amqp_method()", ["{%s, %s}" % (m.klass.index, m.index) for m in methods], 6) print prettyType("amqp_method_record()", ["#%s{}" % (m.erlangName()) for m in methods]) fieldNames = set() for m in methods: fieldNames.update(m.arguments) fieldNames = [erlangize(f.name) for f in fieldNames] print prettyType("amqp_method_field_name()", fieldNames) print prettyType("amqp_property_record()", ["#'P_%s'{}" % erlangize(c.name) for c in spec.allClasses()]) print prettyType("amqp_exception()", ["'%s'" % erlangConstantName(c).lower() for (c, v, cls) in spec.constants]) print prettyType("amqp_exception_code()", ["%i" % v for (c, v, cls) in spec.constants]) classIds = set() for m in spec.allMethods(): classIds.add(m.klass.index) print prettyType("amqp_class_id()", ["%i" % ci for ci in classIds]) print prettyType("amqp_class_name()", ["%s" % c.erlangName() for c in spec.allClasses()]) print "-endif. % use_specs" print """ %% Method signatures -ifdef(use_specs). -spec(version/0 :: () -> {non_neg_integer(), non_neg_integer(), non_neg_integer()}). -spec(lookup_method_name/1 :: (amqp_method()) -> amqp_method_name()). -spec(lookup_class_name/1 :: (amqp_class_id()) -> amqp_class_name()). -spec(method_id/1 :: (amqp_method_name()) -> amqp_method()). -spec(method_has_content/1 :: (amqp_method_name()) -> boolean()). -spec(is_method_synchronous/1 :: (amqp_method_record()) -> boolean()). -spec(method_record/1 :: (amqp_method_name()) -> amqp_method_record()). -spec(method_fieldnames/1 :: (amqp_method_name()) -> [amqp_method_field_name()]). -spec(decode_method_fields/2 :: (amqp_method_name(), binary()) -> amqp_method_record() | rabbit_types:connection_exit()). -spec(decode_properties/2 :: (non_neg_integer(), binary()) -> amqp_property_record()). -spec(encode_method_fields/1 :: (amqp_method_record()) -> binary()). -spec(encode_properties/1 :: (amqp_property_record()) -> binary()). -spec(lookup_amqp_exception/1 :: (amqp_exception()) -> {boolean(), amqp_exception_code(), binary()}). -spec(amqp_exception/1 :: (amqp_exception_code()) -> amqp_exception()). -endif. % use_specs bitvalue(true) -> 1; bitvalue(false) -> 0; bitvalue(undefined) -> 0. shortstr_size(S) -> case size(S) of Len when Len =< 255 -> Len; _ -> exit(method_field_shortstr_overflow) end. -define(SHORTSTR_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(LONGSTR_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(SHORT_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(LONG_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(LONGLONG_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(OCTET_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(TABLE_VAL(R, L, V, X), begin <> = R, {rabbit_binary_parser:parse_table(V), X} end). -define(TIMESTAMP_VAL(R, L, V, X), begin <> = R, {V, X} end). -define(SHORTSTR_PROP(X, L), begin L = size(X), if L < 256 -> <>; true -> exit(content_properties_shortstr_overflow) end end). -define(LONGSTR_PROP(X, L), begin L = size(X), <> end). -define(OCTET_PROP(X, L), <>). -define(SHORT_PROP(X, L), <>). -define(LONG_PROP(X, L), <>). -define(LONGLONG_PROP(X, L), <>). -define(TIMESTAMP_PROP(X, L), <>). -define(TABLE_PROP(X, T), begin T = rabbit_binary_generator:generate_table(X), <<(size(T)):32, T/binary>> end). """ version = "{%d, %d, %d}" % (spec.major, spec.minor, spec.revision) if version == '{8, 0, 0}': version = '{0, 8, 0}' print "version() -> %s." % (version) for m in methods: genLookupMethodName(m) print "lookup_method_name({_ClassId, _MethodId} = Id) -> exit({unknown_method_id, Id})." for c in spec.allClasses(): genLookupClassName(c) print "lookup_class_name(ClassId) -> exit({unknown_class_id, ClassId})." 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: genMethodRecord(m) print "method_record(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 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() printFileHeader() 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_dict({"header": generateHrl, "body": generateErl})