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# -*- python -*- # # $Id$ # # wireshark_gen.py (part of idl2wrs) # # Author : Frank Singleton (frank.singleton@ericsson.com) # # Copyright (C) 2001 Frank Singleton, Ericsson Inc. # # This file is a backend to "omniidl", used to generate "Wireshark" # dissectors from CORBA IDL descriptions. The output language generated # is "C". It will generate code to use the GIOP/IIOP get_CDR_XXX API. # # Please see packet-giop.h in Wireshark distro for API description. # Wireshark is available at http://www.wireshark.org/ # # Omniidl is part of the OmniOrb distribution, and is available at # http://omniorb.sourceforge.net # # 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; either version 2 of the License, or # (at your option) any later version. # # 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., 59 Temple Place - Suite 330, Boston, MA # 02111-1307, USA. # # Description: # # Omniidl Back-end which parses an IDL list of "Operation" nodes # passed from wireshark_be2.py and generates "C" code for compiling # as a plugin for the Wireshark IP Protocol Analyser. # # # Strategy (sneaky but ...) # # problem: I dont know what variables to declare until AFTER the helper functions # have been built, so ... # # There are 2 passes through genHelpers, the first one is there just to # make sure the fn_hash data struct is populated properly. # The second pass is the real thing, generating code and declaring # variables (from the 1st pass) properly. # """Wireshark IDL compiler back-end.""" from omniidl import idlast, idltype, idlutil, output import sys, string import tempfile # # Output class, generates "C" src code for the sub-dissector # # in: # # # self - me # st - output stream # node - a reference to an Operations object. # name - scoped name (Module::Module::Interface:: .. ::Operation # # # TODO -- FS # # 1. generate hf[] data for searchable fields (but what is searchable?) [done, could be improved] # 2. add item instead of add_text() [done] # 3. sequence handling [done] # 4. User Exceptions [done] # 5. Fix arrays, and structs containing arrays [done] # 6. Handle pragmas. # 7. Exception can be common to many operations, so handle them outside the # operation helper functions [done] # 8. Automatic variable declaration [done, improve, still get some collisions.add variable delegator function ] # For example, mutlidimensional arrays. # 9. wchar and wstring handling [giop API needs improving] # 10. Support Fixed [done] # 11. Support attributes (get/set) [started, needs language mapping option, perhaps wireshark GUI option # to set the attribute function prefix or suffix ? ] For now the prefix is "_get" and "_set" # eg: attribute string apple => _get_apple and _set_apple # # 12. Implement IDL "union" code [done] # 13. Implement support for plugins [done] # 14. Dont generate code for empty operations (cf: exceptions without members) # 15. Generate code to display Enums numerically and symbolically [done] # 16. Place structs/unions in subtrees # 17. Recursive struct and union handling [done] # 18. Improve variable naming for display (eg: structs, unions etc) [done] # # Also test, Test, TEST # # # Strategy: # For every operation and attribute do # For return val and all parameters do # find basic IDL type for each parameter # output get_CDR_xxx # output exception handling code # output attribute handling code # # class wireshark_gen_C: # # Turn DEBUG stuff on/off # DEBUG = 0 # # Some string constants for our templates # c_u_octet8 = "guint64 u_octet8;" c_s_octet8 = "gint64 s_octet8;" c_u_octet4 = "guint32 u_octet4;" c_s_octet4 = "gint32 s_octet4;" c_u_octet2 = "guint16 u_octet2;" c_s_octet2 = "gint16 s_octet2;" c_u_octet1 = "guint8 u_octet1;" c_s_octet1 = "gint8 s_octet1;" c_float = "gfloat my_float;" c_double = "gdouble my_double;" c_seq = "gchar *seq = NULL;" # pointer to buffer of gchars c_i = "guint32 i_"; # loop index c_i_lim = "guint32 u_octet4_loop_"; # loop limit c_u_disc = "guint32 disc_u_"; # unsigned int union discriminant variable name (enum) c_s_disc = "gint32 disc_s_"; # signed int union discriminant variable name (other cases, except Enum) # # Constructor # def __init__(self, st, protocol_name, dissector_name ,description): self.st = output.Stream(tempfile.TemporaryFile(),4) # for first pass only self.st_save = st # where 2nd pass should go self.protoname = protocol_name # Protocol Name (eg: ECHO) self.dissname = dissector_name # Dissector name (eg: echo) self.description = description # Detailed Protocol description (eg: Echo IDL Example) self.exlist = [] # list of exceptions used in operations. #self.curr_sname # scoped name of current opnode or exnode I am visiting, used for generating "C" var declares self.fn_hash = {} # top level hash to contain key = function/exception and val = list of variable declarations # ie a hash of lists self.fn_hash_built = 0 # flag to indicate the 1st pass is complete, and the fn_hash is correctly # populated with operations/vars and exceptions/vars # # genCode() # # Main entry point, controls sequence of # generated code. # # def genCode(self,oplist, atlist, enlist, stlist, unlist): # operation,attribute,enums,struct and union lists self.genHelpers(oplist,stlist,unlist) # sneaky .. call it now, to populate the fn_hash # so when I come to that operation later, I have the variables to # declare already. self.genExceptionHelpers(oplist) # sneaky .. call it now, to populate the fn_hash # so when I come to that exception later, I have the variables to # declare already. self.genAttributeHelpers(atlist) # sneaky .. call it now, to populate the fn_hash # so when I come to that exception later, I have the variables to # declare already. self.fn_hash_built = 1 # DONE, so now I know , see genOperation() self.st = self.st_save self.genHeader() # initial dissector comments self.genEthCopyright() # Wireshark Copyright comments. self.genGPL() # GPL license self.genIncludes() self.genProtocol() self.genDeclares(oplist,atlist,enlist,stlist,unlist) if (len(atlist) > 0): self.genAtList(atlist) # string constant declares for Attributes if (len(enlist) > 0): self.genEnList(enlist) # string constant declares for Enums self.genExceptionHelpers(oplist) # helper function to decode user exceptions that have members self.genExceptionDelegator(oplist) # finds the helper function to decode a user exception if (len(atlist) > 0): self.genAttributeHelpers(atlist) # helper function to decode "attributes" self.genHelpers(oplist,stlist,unlist) # operation, struct and union decode helper functions self.genMainEntryStart(oplist) self.genOpDelegator(oplist) self.genAtDelegator(atlist) self.genMainEntryEnd() self.gen_proto_register(oplist, atlist, stlist, unlist) self.gen_proto_reg_handoff(oplist) # All the dissectors are now built-in #self.gen_plugin_register() #self.dumpvars() # debug # # genHeader # # Generate Standard Wireshark Header Comments # # def genHeader(self): self.st.out(self.template_Header,dissector_name=self.dissname) if self.DEBUG: print "XXX genHeader" # # genEthCopyright # # Wireshark Copyright Info # # def genEthCopyright(self): if self.DEBUG: print "XXX genEthCopyright" self.st.out(self.template_wireshark_copyright) # # genGPL # # GPL licencse # # def genGPL(self): if self.DEBUG: print "XXX genGPL" self.st.out(self.template_GPL) # # genIncludes # # GPL licencse # # def genIncludes(self): if self.DEBUG: print "XXX genIncludes" self.st.out(self.template_Includes) # # genOpDeclares() # # Generate hf variables for operation filters # # in: opnode ( an operation node) # def genOpDeclares(self, op): if self.DEBUG: print "XXX genOpDeclares" print "XXX return type = " , op.returnType().kind() sname = self.namespace(op, "_") rt = op.returnType() if (rt.kind() != idltype.tk_void): if (rt.kind() == idltype.tk_alias): # a typdef return val possibly ? #self.get_CDR_alias(rt, rt.name() ) self.st.out(self.template_hf, name=sname + "_return") else: self.st.out(self.template_hf, name=sname + "_return") for p in op.parameters(): self.st.out(self.template_hf, name=sname + "_" + p.identifier()) # # genAtDeclares() # # Generate hf variables for attributes # # in: at ( an attribute) # def genAtDeclares(self, at): if self.DEBUG: print "XXX genAtDeclares" for decl in at.declarators(): sname = self.namespace(decl, "_") self.st.out(self.template_hf, name="get" + "_" + sname + "_" + decl.identifier()) if not at.readonly(): self.st.out(self.template_hf, name="set" + "_" + sname + "_" + decl.identifier()) # # genStDeclares() # # Generate hf variables for structs # # in: st ( a struct) # def genStDeclares(self, st): if self.DEBUG: print "XXX genStDeclares" sname = self.namespace(st, "_") for m in st.members(): for decl in m.declarators(): self.st.out(self.template_hf, name=sname + "_" + decl.identifier()) # # genExDeclares() # # Generate hf variables for user exception filters # # in: exnode ( an exception node) # def genExDeclares(self,ex): if self.DEBUG: print "XXX genExDeclares" sname = self.namespace(ex, "_") for m in ex.members(): for decl in m.declarators(): self.st.out(self.template_hf, name=sname + "_" + decl.identifier()) # # genUnionDeclares() # # Generate hf variables for union filters # # in: un ( an union) # def genUnionDeclares(self,un): if self.DEBUG: print "XXX genUnionDeclares" sname = self.namespace(un, "_") self.st.out(self.template_hf, name=sname + "_" + un.identifier()) for uc in un.cases(): # for all UnionCase objects in this union for cl in uc.labels(): # for all Caselabel objects in this UnionCase self.st.out(self.template_hf, name=sname + "_" + uc.declarator().identifier()) # # genDeclares # # generate function prototypes if required # # Currently this is used for struct and union helper function declarations. # def genDeclares(self,oplist,atlist,enlist,stlist,unlist): if self.DEBUG: print "XXX genDeclares" # prototype for operation filters self.st.out(self.template_hf_operations) #operation specific filters if (len(oplist) > 0): self.st.out(self.template_proto_register_op_filter_comment) for op in oplist: self.genOpDeclares(op) #attribute filters if (len(atlist) > 0): self.st.out(self.template_proto_register_at_filter_comment) for at in atlist: self.genAtDeclares(at) #struct filters if (len(stlist) > 0): self.st.out(self.template_proto_register_st_filter_comment) for st in stlist: self.genStDeclares(st) # exception List filters exlist = self.get_exceptionList(oplist) # grab list of exception nodes if (len(exlist) > 0): self.st.out(self.template_proto_register_ex_filter_comment) for ex in exlist: if (ex.members()): # only if has members self.genExDeclares(ex) #union filters if (len(unlist) > 0): self.st.out(self.template_proto_register_un_filter_comment) for un in unlist: self.genUnionDeclares(un) # prototype for start_dissecting() self.st.out(self.template_prototype_start_dissecting) # struct prototypes if len(stlist): self.st.out(self.template_prototype_struct_start) for st in stlist: #print st.repoId() sname = self.namespace(st, "_") self.st.out(self.template_prototype_struct_body, stname=st.repoId(),name=sname) self.st.out(self.template_prototype_struct_end) # union prototypes if len(unlist): self.st.out(self.template_prototype_union_start) for un in unlist: sname = self.namespace(un, "_") self.st.out(self.template_prototype_union_body, unname=un.repoId(),name=sname) self.st.out(self.template_prototype_union_end) # # genProtocol # # def genProtocol(self): self.st.out(self.template_protocol, dissector_name=self.dissname) self.st.out(self.template_init_boundary) # # genMainEntryStart # def genMainEntryStart(self,oplist): self.st.out(self.template_main_dissector_start, dissname=self.dissname, disprot=self.protoname) self.st.inc_indent() self.st.out(self.template_main_dissector_switch_msgtype_start) self.st.out(self.template_main_dissector_switch_msgtype_start_request_reply) self.st.inc_indent() # # genMainEntryEnd # def genMainEntryEnd(self): self.st.out(self.template_main_dissector_switch_msgtype_end_request_reply) self.st.dec_indent() self.st.out(self.template_main_dissector_switch_msgtype_all_other_msgtype) self.st.dec_indent() self.st.out(self.template_main_dissector_end) # # genAtList # # in: atlist # # out: C code for IDL attribute decalarations. # # NOTE: Mapping of attributes to operation(function) names is tricky. # # The actual accessor function names are language-mapping specific. The attribute name # is subject to OMG IDL's name scoping rules; the accessor function names are # guaranteed not to collide with any legal operation names specifiable in OMG IDL. # # eg: # # static const char get_Penguin_Echo_get_width_at[] = "get_width" ; # static const char set_Penguin_Echo_set_width_at[] = "set_width" ; # # or: # # static const char get_Penguin_Echo_get_width_at[] = "_get_width" ; # static const char set_Penguin_Echo_set_width_at[] = "_set_width" ; # # TODO: Implement some language dependant templates to handle naming conventions # language <=> attribute. for C, C++. Java etc # # OR, just add a runtime GUI option to select language binding for attributes -- FS # # # # ie: def genAtlist(self,atlist,language) # def genAtList(self,atlist): self.st.out(self.template_comment_attributes_start) for n in atlist: for i in n.declarators(): # sname = self.namespace(i, "_") atname = i.identifier() self.st.out(self.template_attributes_declare_Java_get, sname=sname, atname=atname) if not n.readonly(): self.st.out(self.template_attributes_declare_Java_set, sname=sname, atname=atname) self.st.out(self.template_comment_attributes_end) # # genEnList # # in: enlist # # out: C code for IDL Enum decalarations using "static const value_string" template # def genEnList(self,enlist): self.st.out(self.template_comment_enums_start) for enum in enlist: sname = self.namespace(enum, "_") self.st.out(self.template_comment_enum_comment, ename=enum.repoId()) self.st.out(self.template_value_string_start, valstringname=sname) for enumerator in enum.enumerators(): self.st.out(self.template_value_string_entry, intval=str(self.valFromEnum(enum,enumerator)), description=enumerator.identifier()) #atname = n.identifier() self.st.out(self.template_value_string_end, valstringname=sname) self.st.out(self.template_comment_enums_end) # # genExceptionDelegator # # in: oplist # # out: C code for User exception delegator # # eg: # # def genExceptionDelegator(self,oplist): self.st.out(self.template_main_exception_delegator_start) self.st.inc_indent() exlist = self.get_exceptionList(oplist) # grab list of ALL UNIQUE exception nodes for ex in exlist: if self.DEBUG: print "XXX Exception " , ex.repoId() print "XXX Exception Identifier" , ex.identifier() print "XXX Exception Scoped Name" , ex.scopedName() if (ex.members()): # only if has members sname = self.namespace(ex, "_") exname = ex.repoId() self.st.out(self.template_ex_delegate_code, sname=sname, exname=ex.repoId()) self.st.dec_indent() self.st.out(self.template_main_exception_delegator_end) # # genAttribueHelpers() # # Generate private helper functions to decode Attributes. # # in: atlist # # For readonly attribute - generate get_xxx() # If NOT readonly attribute - also generate set_xxx() # def genAttributeHelpers(self,atlist): if self.DEBUG: print "XXX genAttributeHelpers: atlist = ", atlist self.st.out(self.template_attribute_helpers_start) for attrib in atlist: for decl in attrib.declarators(): self.genAtHelper(attrib,decl,"get") # get accessor if not attrib.readonly(): self.genAtHelper(attrib,decl,"set") # set accessor self.st.out(self.template_attribute_helpers_end) # # genAtHelper() # # Generate private helper functions to decode an attribute # # in: at - attribute node # in: decl - declarator belonging to this attribute # in: order - to generate a "get" or "set" helper def genAtHelper(self,attrib,decl,order): if self.DEBUG: print "XXX genAtHelper" sname = order + "_" + self.namespace(decl, "_") # must use set or get prefix to avoid collision self.curr_sname = sname # update current opnode/exnode scoped name if not self.fn_hash_built: self.fn_hash[sname] = [] # init empty list as val for this sname key # but only if the fn_hash is not already built self.st.out(self.template_attribute_helper_function_start, sname=sname, atname=decl.repoId()) self.st.inc_indent() if (len(self.fn_hash[sname]) > 0): self.st.out(self.template_helper_function_vars_start) self.dumpCvars(sname) self.st.out(self.template_helper_function_vars_end ) self.getCDR(attrib.attrType(), sname + "_" + decl.identifier() ) self.st.dec_indent() self.st.out(self.template_attribute_helper_function_end) # # genExceptionHelpers() # # Generate private helper functions to decode Exceptions used # within operations # # in: oplist # def genExceptionHelpers(self,oplist): exlist = self.get_exceptionList(oplist) # grab list of exception nodes if self.DEBUG: print "XXX genExceptionHelpers: exlist = ", exlist self.st.out(self.template_exception_helpers_start) for ex in exlist: if (ex.members()): # only if has members #print "XXX Exception = " + ex.identifier() self.genExHelper(ex) self.st.out(self.template_exception_helpers_end) # # genExhelper() # # Generate private helper functions to decode User Exceptions # # in: exnode ( an exception node) # def genExHelper(self,ex): if self.DEBUG: print "XXX genExHelper" sname = self.namespace(ex, "_") self.curr_sname = sname # update current opnode/exnode scoped name if not self.fn_hash_built: self.fn_hash[sname] = [] # init empty list as val for this sname key # but only if the fn_hash is not already built self.st.out(self.template_exception_helper_function_start, sname=sname, exname=ex.repoId()) self.st.inc_indent() if (len(self.fn_hash[sname]) > 0): self.st.out(self.template_helper_function_vars_start) self.dumpCvars(sname) self.st.out(self.template_helper_function_vars_end ) for m in ex.members(): if self.DEBUG: print "XXX genExhelper, member = ", m, "member type = ", m.memberType() for decl in m.declarators(): if self.DEBUG: print "XXX genExhelper, d = ", decl if decl.sizes(): # an array indices = self.get_indices_from_sizes(decl.sizes()) string_indices = '%i ' % indices # convert int to string self.st.out(self.template_get_CDR_array_comment, aname=decl.identifier(), asize=string_indices) self.st.out(self.template_get_CDR_array_start, aname=decl.identifier(), aval=string_indices) self.addvar(self.c_i + decl.identifier() + ";") self.st.inc_indent() self.getCDR(m.memberType(), sname + "_" + decl.identifier() ) self.st.dec_indent() self.st.out(self.template_get_CDR_array_end) else: self.getCDR(m.memberType(), sname + "_" + decl.identifier() ) self.st.dec_indent() self.st.out(self.template_exception_helper_function_end) # # genHelpers() # # Generate private helper functions for each IDL operation. # Generate private helper functions for each IDL struct. # Generate private helper functions for each IDL union. # # # in: oplist, stlist, unlist # def genHelpers(self,oplist,stlist,unlist): for op in oplist: self.genOperation(op) for st in stlist: self.genStructHelper(st) for un in unlist: self.genUnionHelper(un) # # genOperation() # # Generate private helper functions for a specificIDL operation. # # in: opnode # def genOperation(self,opnode): if self.DEBUG: print "XXX genOperation called" sname = self.namespace(opnode, "_") if not self.fn_hash_built: self.fn_hash[sname] = [] # init empty list as val for this sname key # but only if the fn_hash is not already built self.curr_sname = sname # update current opnode's scoped name opname = opnode.identifier() self.st.out(self.template_helper_function_comment, repoid=opnode.repoId() ) self.st.out(self.template_helper_function_start, sname=sname) self.st.inc_indent() if (len(self.fn_hash[sname]) > 0): self.st.out(self.template_helper_function_vars_start) self.dumpCvars(sname) self.st.out(self.template_helper_function_vars_end ) self.st.out(self.template_helper_switch_msgtype_start) self.st.out(self.template_helper_switch_msgtype_request_start) self.st.inc_indent() self.genOperationRequest(opnode) self.st.out(self.template_helper_switch_msgtype_request_end) self.st.dec_indent() self.st.out(self.template_helper_switch_msgtype_reply_start) self.st.inc_indent() self.st.out(self.template_helper_switch_rep_status_start) self.st.out(self.template_helper_switch_msgtype_reply_no_exception_start) self.st.inc_indent() self.genOperationReply(opnode) self.st.out(self.template_helper_switch_msgtype_reply_no_exception_end) self.st.dec_indent() self.st.out(self.template_helper_switch_msgtype_reply_user_exception_start) self.st.inc_indent() self.genOpExceptions(opnode) self.st.out(self.template_helper_switch_msgtype_reply_user_exception_end) self.st.dec_indent() self.st.out(self.template_helper_switch_msgtype_reply_default_start) self.st.out(self.template_helper_switch_msgtype_reply_default_end) self.st.out(self.template_helper_switch_rep_status_end) self.st.dec_indent() self.st.out(self.template_helper_switch_msgtype_default_start) self.st.out(self.template_helper_switch_msgtype_default_end) self.st.out(self.template_helper_switch_msgtype_end) self.st.dec_indent() self.st.out(self.template_helper_function_end, sname=sname) # # Decode function parameters for a GIOP request message # # def genOperationRequest(self,opnode): for p in opnode.parameters(): if p.is_in(): if self.DEBUG: print "XXX parameter = " ,p print "XXX parameter type = " ,p.paramType() print "XXX parameter type kind = " ,p.paramType().kind() self.getCDR(p.paramType(), self.curr_sname + "_" + p.identifier()) # # Decode function parameters for a GIOP reply message # def genOperationReply(self,opnode): rt = opnode.returnType() # get return type if self.DEBUG: print "XXX genOperationReply" print "XXX opnode = " , opnode print "XXX return type = " , rt print "XXX return type.unalias = " , rt.unalias() print "XXX return type.kind() = " , rt.kind(); sname = self.namespace(opnode, "_") if (rt.kind() == idltype.tk_alias): # a typdef return val possibly ? #self.getCDR(rt.decl().alias().aliasType(),"dummy") # return value maybe a typedef self.get_CDR_alias(rt, sname + "_return" ) #self.get_CDR_alias(rt, rt.name() ) else: self.getCDR(rt, sname + "_return") # return value is NOT an alias for p in opnode.parameters(): if p.is_out(): # out or inout self.getCDR(p.paramType(), self.curr_sname + "_" + p.identifier()) #self.st.dec_indent() def genOpExceptions(self,opnode): for ex in opnode.raises(): if ex.members(): #print ex.members() for m in ex.members(): t=0 #print m.memberType(), m.memberType().kind() # # Delegator for Operations # def genOpDelegator(self,oplist): for op in oplist: iname = "/".join(op.scopedName()[:-1]) opname = op.identifier() sname = self.namespace(op, "_") self.st.out(self.template_op_delegate_code, interface=iname, sname=sname, opname=opname) # # Delegator for Attributes # def genAtDelegator(self,atlist): for a in atlist: for i in a.declarators(): atname = i.identifier() sname = self.namespace(i, "_") self.st.out(self.template_at_delegate_code_get, sname=sname) if not a.readonly(): self.st.out(self.template_at_delegate_code_set, sname=sname) # # Add a variable declaration to the hash of list # def addvar(self, var): if not ( var in self.fn_hash[self.curr_sname] ): self.fn_hash[self.curr_sname].append(var) # # Print the variable declaration from the hash of list # def dumpvars(self): for fn in self.fn_hash.keys(): print "FN = " + fn for v in self.fn_hash[fn]: print "-> " + v # # Print the "C" variable declaration from the hash of list # for a given scoped operation name (eg: tux_penguin_eat) # def dumpCvars(self, sname): for v in self.fn_hash[sname]: self.st.out(v) # # Given an enum node, and a enumerator node, return # the enumerator's numerical value. # # eg: enum Color {red,green,blue} should return # val = 1 for green # def valFromEnum(self,enumNode, enumeratorNode): if self.DEBUG: print "XXX valFromEnum, enumNode = ", enumNode, " from ", enumNode.repoId() print "XXX valFromEnum, enumeratorNode = ", enumeratorNode, " from ", enumeratorNode.repoId() if isinstance(enumeratorNode,idlast.Enumerator): value = enumNode.enumerators().index(enumeratorNode) return value ## tk_null = 0 ## tk_void = 1 ## tk_short = 2 ## tk_long = 3 ## tk_ushort = 4 ## tk_ulong = 5 ## tk_float = 6 ## tk_double = 7 ## tk_boolean = 8 ## tk_char = 9 ## tk_octet = 10 ## tk_any = 11 ## tk_TypeCode = 12 ## tk_Principal = 13 ## tk_objref = 14 ## tk_struct = 15 ## tk_union = 16 ## tk_enum = 17 ## tk_string = 18 ## tk_sequence = 19 ## tk_array = 20 ## tk_alias = 21 ## tk_except = 22 ## tk_longlong = 23 ## tk_ulonglong = 24 ## tk_longdouble = 25 ## tk_wchar = 26 ## tk_wstring = 27 ## tk_fixed = 28 ## tk_value = 29 ## tk_value_box = 30 ## tk_native = 31 ## tk_abstract_interface = 32 # # getCDR() # # This is the main "iterator" function. It takes a node, and tries to output # a get_CDR_XXX accessor method(s). It can call itself multiple times # if I find nested structures etc. # def getCDR(self,type,name="fred"): pt = type.unalias().kind() # param CDR type pn = name # param name if self.DEBUG: print "XXX getCDR: kind = " , pt print "XXX getCDR: name = " , pn if pt == idltype.tk_ulong: self.get_CDR_ulong(pn) elif pt == idltype.tk_longlong: self.get_CDR_longlong(pn) elif pt == idltype.tk_ulonglong: self.get_CDR_ulonglong(pn) elif pt == idltype.tk_void: self.get_CDR_void(pn) elif pt == idltype.tk_short: self.get_CDR_short(pn) elif pt == idltype.tk_long: self.get_CDR_long(pn) elif pt == idltype.tk_ushort: self.get_CDR_ushort(pn) elif pt == idltype.tk_float: self.get_CDR_float(pn) elif pt == idltype.tk_double: self.get_CDR_double(pn) elif pt == idltype.tk_fixed: self.get_CDR_fixed(type.unalias(),pn) elif pt == idltype.tk_boolean: self.get_CDR_boolean(pn) elif pt == idltype.tk_char: self.get_CDR_char(pn) elif pt == idltype.tk_octet: self.get_CDR_octet(pn) elif pt == idltype.tk_any: self.get_CDR_any(pn) elif pt == idltype.tk_string: self.get_CDR_string(pn) elif pt == idltype.tk_wstring: self.get_CDR_wstring(pn) elif pt == idltype.tk_wchar: self.get_CDR_wchar(pn) elif pt == idltype.tk_enum: #print type.decl() self.get_CDR_enum(pn,type) #self.get_CDR_enum(pn) elif pt == idltype.tk_struct: self.get_CDR_struct(type,pn) elif pt == idltype.tk_TypeCode: # will I ever get here ? self.get_CDR_TypeCode(pn) elif pt == idltype.tk_sequence: if type.unalias().seqType().kind() == idltype.tk_octet: self.get_CDR_sequence_octet(type,pn) else: self.get_CDR_sequence(type,pn) elif pt == idltype.tk_objref: self.get_CDR_objref(type,pn) elif pt == idltype.tk_array: pn = pn # Supported elsewhere elif pt == idltype.tk_union: self.get_CDR_union(type,pn) elif pt == idltype.tk_alias: if self.DEBUG: print "XXXXX Alias type XXXXX " , type self.get_CDR_alias(type,pn) else: self.genWARNING("Unknown typecode = " + '%i ' % pt) # put comment in source code # # get_CDR_XXX methods are here .. # # def get_CDR_ulong(self,pn): self.st.out(self.template_get_CDR_ulong, hfname=pn) def get_CDR_short(self,pn): self.st.out(self.template_get_CDR_short, hfname=pn) def get_CDR_void(self,pn): self.st.out(self.template_get_CDR_void, hfname=pn) def get_CDR_long(self,pn): self.st.out(self.template_get_CDR_long, hfname=pn) def get_CDR_ushort(self,pn): self.st.out(self.template_get_CDR_ushort, hfname=pn) def get_CDR_float(self,pn): self.st.out(self.template_get_CDR_float, hfname=pn) def get_CDR_double(self,pn): self.st.out(self.template_get_CDR_double, hfname=pn) def get_CDR_longlong(self,pn): self.st.out(self.template_get_CDR_longlong, hfname=pn) def get_CDR_ulonglong(self,pn): self.st.out(self.template_get_CDR_ulonglong, hfname=pn) def get_CDR_boolean(self,pn): self.st.out(self.template_get_CDR_boolean, hfname=pn) def get_CDR_fixed(self,type,pn): if self.DEBUG: print "XXXX calling get_CDR_fixed, type = ", type print "XXXX calling get_CDR_fixed, type.digits() = ", type.digits() print "XXXX calling get_CDR_fixed, type.scale() = ", type.scale() string_digits = '%i ' % type.digits() # convert int to string string_scale = '%i ' % type.scale() # convert int to string string_length = '%i ' % self.dig_to_len(type.digits()) # how many octets to hilight for a number of digits self.st.out(self.template_get_CDR_fixed, varname=pn, digits=string_digits, scale=string_scale, length=string_length ) self.addvar(self.c_seq) def get_CDR_char(self,pn): self.st.out(self.template_get_CDR_char, hfname=pn) def get_CDR_octet(self,pn): self.st.out(self.template_get_CDR_octet, hfname=pn) def get_CDR_any(self,pn): self.st.out(self.template_get_CDR_any, varname=pn) def get_CDR_enum(self,pn,type): #self.st.out(self.template_get_CDR_enum, hfname=pn) sname = self.namespace(type.unalias(), "_") self.st.out(self.template_get_CDR_enum_symbolic, valstringarray=sname,hfname=pn) self.addvar(self.c_u_octet4) def get_CDR_string(self,pn): self.st.out(self.template_get_CDR_string, hfname=pn) def get_CDR_wstring(self,pn): self.st.out(self.template_get_CDR_wstring, varname=pn) self.addvar(self.c_u_octet4) self.addvar(self.c_seq) def get_CDR_wchar(self,pn): self.st.out(self.template_get_CDR_wchar, varname=pn) self.addvar(self.c_s_octet1) self.addvar(self.c_seq) def get_CDR_TypeCode(self,pn): self.st.out(self.template_get_CDR_TypeCode, varname=pn) self.addvar(self.c_u_octet4) def get_CDR_objref(self,type,pn): self.st.out(self.template_get_CDR_object) def get_CDR_sequence_len(self,pn): self.st.out(self.template_get_CDR_sequence_length, seqname=pn) def get_CDR_union(self,type,pn): if self.DEBUG: print "XXX Union type =" , type, " pn = ",pn print "XXX Union type.decl()" , type.decl() print "XXX Union Scoped Name" , type.scopedName() # If I am a typedef union {..}; node then find the union node if isinstance(type.decl(), idlast.Declarator): ntype = type.decl().alias().aliasType().decl() else: ntype = type.decl() # I am a union node if self.DEBUG: print "XXX Union ntype =" , ntype sname = self.namespace(ntype, "_") self.st.out(self.template_union_start, name=sname ) # Output a call to the union helper function so I can handle recursive union also. self.st.out(self.template_decode_union,name=sname) self.st.out(self.template_union_end, name=sname ) # # getCDR_hf() # # This takes a node, and tries to output the appropriate item for the # hf array. # def getCDR_hf(self,type,desc,filter,hf_name="fred"): pt = type.unalias().kind() # param CDR type pn = hf_name # param name if self.DEBUG: print "XXX getCDR_hf: kind = " , pt print "XXX getCDR_hf: name = " , pn if pt == idltype.tk_ulong: self.get_CDR_ulong_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_longlong: self.get_CDR_longlong_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_ulonglong: self.get_CDR_ulonglong_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_void: pt = pt # no hf_ variables needed elif pt == idltype.tk_short: self.get_CDR_short_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_long: self.get_CDR_long_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_ushort: self.get_CDR_ushort_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_float: self.get_CDR_float_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_double: self.get_CDR_double_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_fixed: pt = pt # no hf_ variables needed elif pt == idltype.tk_boolean: self.get_CDR_boolean_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_char: self.get_CDR_char_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_octet: self.get_CDR_octet_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_any: pt = pt # no hf_ variables needed elif pt == idltype.tk_string: self.get_CDR_string_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_wstring: self.get_CDR_wstring_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_wchar: self.get_CDR_wchar_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_enum: self.get_CDR_enum_hf(pn, type, desc, filter, self.dissname) elif pt == idltype.tk_struct: pt = pt # no hf_ variables needed (should be already contained in struct members) elif pt == idltype.tk_TypeCode: # will I ever get here ? self.get_CDR_TypeCode_hf(pn, desc, filter, self.dissname) elif pt == idltype.tk_sequence: if type.unalias().seqType().kind() == idltype.tk_octet: self.get_CDR_sequence_octet_hf(type, pn, desc, filter, self.dissname) else: self.get_CDR_sequence_hf(type, pn, desc, filter, self.dissname) elif pt == idltype.tk_objref: pt = pt # no object specific hf_ variables used, use generic ones from giop dissector elif pt == idltype.tk_array: pt = pt # Supported elsewhere elif pt == idltype.tk_union: pt = pt # no hf_ variables needed (should be already contained in union members) elif pt == idltype.tk_alias: if self.DEBUG: print "XXXXX Alias type hf XXXXX " , type self.get_CDR_alias_hf(type,pn) else: self.genWARNING("Unknown typecode = " + '%i ' % pt) # put comment in source code # # get_CDR_XXX_hf methods are here .. # # def get_CDR_ulong_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_ulong_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_short_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_short_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_long_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_long_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_ushort_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_ushort_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_float_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_float_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_double_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_double_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_longlong_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_longlong_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_ulonglong_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_ulonglong_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_boolean_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_boolean_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_char_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_char_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_octet_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_octet_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_enum_hf(self,pn,type,desc,filter,diss): sname = self.namespace(type.unalias(), "_") self.st.out(self.template_get_CDR_enum_symbolic_hf, valstringarray=sname,hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_string_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_string_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_wstring_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_wstring_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) # self.addvar(self.c_u_octet4) # self.addvar(self.c_seq) def get_CDR_wchar_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_wchar_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) # self.addvar(self.c_s_octet1) # self.addvar(self.c_seq) def get_CDR_TypeCode_hf(self,pn,desc,filter,diss): self.st.out(self.template_get_CDR_TypeCode_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_sequence_octet_hf(self,type,pn,desc,filter,diss): self.st.out(self.template_get_CDR_sequence_octet_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_sequence_hf(self,type,pn,desc,filter,diss): self.st.out(self.template_get_CDR_sequence_hf, hfname=pn, dissector_name=diss, descname=desc, filtername=filter) def get_CDR_alias_hf(self,type,pn): if self.DEBUG: print "XXX get_CDR_alias_hf, type = " ,type , " pn = " , pn print "XXX get_CDR_alias_hf, type.decl() = " ,type.decl() print "XXX get_CDR_alias_hf, type.decl().alias() = " ,type.decl().alias() decl = type.decl() # get declarator object if (decl.sizes()): # a typedef array #indices = self.get_indices_from_sizes(decl.sizes()) #string_indices = '%i ' % indices # convert int to string #self.st.out(self.template_get_CDR_array_comment, aname=pn, asize=string_indices) #self.st.out(self.template_get_CDR_array_start, aname=pn, aval=string_indices) #self.addvar(self.c_i + pn + ";") #self.st.inc_indent() self.getCDR_hf(type.decl().alias().aliasType(), pn ) #self.st.dec_indent() #self.st.out(self.template_get_CDR_array_end) else: # a simple typdef if self.DEBUG: print "XXX get_CDR_alias_hf, type = " ,type , " pn = " , pn print "XXX get_CDR_alias_hf, type.decl() = " ,type.decl() self.getCDR_hf(type, decl.identifier() ) # # Code to generate Union Helper functions # # in: un - a union node # # def genUnionHelper(self,un): if self.DEBUG: print "XXX genUnionHelper called" print "XXX Union type =" , un print "XXX Union type.switchType()" , un.switchType() print "XXX Union Scoped Name" , un.scopedName() sname = self.namespace(un, "_") self.curr_sname = sname # update current opnode/exnode/stnode/unnode scoped name if not self.fn_hash_built: self.fn_hash[sname] = [] # init empty list as val for this sname key # but only if the fn_hash is not already built self.st.out(self.template_union_helper_function_start, sname=sname, unname=un.repoId()) self.st.inc_indent() if (len(self.fn_hash[sname]) > 0): self.st.out(self.template_helper_function_vars_start) self.dumpCvars(sname) self.st.out(self.template_helper_function_vars_end ) st = un.switchType().unalias() # may be typedef switch type, so find real type self.st.out(self.template_comment_union_code_start, uname=un.repoId() ) self.getCDR(st, sname + "_" + un.identifier()); # Depending on what kind of discriminant I come accross (enum,integer,char, # short, boolean), make sure I cast the return value of the get_XXX accessor # to an appropriate value. Omniidl idlast.CaseLabel.value() accessor will # return an integer, or an Enumerator object that is then converted to its # integer equivalent. # # # NOTE - May be able to skip some of this stuff, but leave it in for now -- FS # if (st.kind() == idltype.tk_enum): std = st.decl() self.st.out(self.template_comment_union_code_discriminant, uname=std.repoId() ) self.st.out(self.template_union_code_save_discriminant_enum, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") elif (st.kind() == idltype.tk_long): self.st.out(self.template_union_code_save_discriminant_long, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") elif (st.kind() == idltype.tk_ulong): self.st.out(self.template_union_code_save_discriminant_ulong, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") elif (st.kind() == idltype.tk_short): self.st.out(self.template_union_code_save_discriminant_short, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") elif (st.kind() == idltype.tk_ushort): self.st.out(self.template_union_code_save_discriminant_ushort, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") elif (st.kind() == idltype.tk_boolean): self.st.out(self.template_union_code_save_discriminant_boolean, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") elif (st.kind() == idltype.tk_char): self.st.out(self.template_union_code_save_discriminant_char, discname=un.identifier() ) self.addvar(self.c_s_disc + un.identifier() + ";") else: print "XXX Unknown st.kind() = ", st.kind() # # Loop over all cases in this union # for uc in un.cases(): # for all UnionCase objects in this union for cl in uc.labels(): # for all Caselabel objects in this UnionCase # get integer value, even if discriminant is # an Enumerator node if isinstance(cl.value(),idlast.Enumerator): if self.DEBUG: print "XXX clv.identifier()", cl.value().identifier() print "XXX clv.repoId()", cl.value().repoId() print "XXX clv.scopedName()", cl.value().scopedName() # find index of enumerator in enum declaration # eg: RED is index 0 in enum Colors { RED, BLUE, GREEN } clv = self.valFromEnum(std,cl.value()) else: clv = cl.value() #print "XXX clv = ",clv # # if char, dont convert to int, but put inside single quotes so that it is understood by C. # eg: if (disc == 'b').. # # TODO : handle \xxx chars generically from a function or table lookup rather than # a whole bunch of "if" statements. -- FS if (st.kind() == idltype.tk_char): if (clv == '\n'): # newline string_clv = "'\\n'" elif (clv == '\t'): # tab string_clv = "'\\t'" else: string_clv = "'" + clv + "'" else: string_clv = '%i ' % clv # # If default case, then skp comparison with discriminator # if not cl.default(): self.st.out(self.template_comment_union_code_label_compare_start, discname=un.identifier(),labelval=string_clv ) self.st.inc_indent() else: self.st.out(self.template_comment_union_code_label_default_start ) self.getCDR(uc.caseType(),sname + "_" + uc.declarator().identifier()) if not cl.default(): self.st.dec_indent() self.st.out(self.template_comment_union_code_label_compare_end ) else: self.st.out(self.template_comment_union_code_label_default_end ) self.st.dec_indent() self.st.out(self.template_union_helper_function_end) # # Currently, get_CDR_alias is geared to finding typdef # def get_CDR_alias(self,type,pn): if self.DEBUG: print "XXX get_CDR_alias, type = " ,type , " pn = " , pn print "XXX get_CDR_alias, type.decl() = " ,type.decl() print "XXX get_CDR_alias, type.decl().alias() = " ,type.decl().alias() decl = type.decl() # get declarator object if (decl.sizes()): # a typedef array indices = self.get_indices_from_sizes(decl.sizes()) string_indices = '%i ' % indices # convert int to string self.st.out(self.template_get_CDR_array_comment, aname=pn, asize=string_indices) self.st.out(self.template_get_CDR_array_start, aname=pn, aval=string_indices) self.addvar(self.c_i + pn + ";") self.st.inc_indent() self.getCDR(type.decl().alias().aliasType(), pn ) self.st.dec_indent() self.st.out(self.template_get_CDR_array_end) else: # a simple typdef if self.DEBUG: print "XXX get_CDR_alias, type = " ,type , " pn = " , pn print "XXX get_CDR_alias, type.decl() = " ,type.decl() self.getCDR(type, pn ) # # Handle structs, including recursive # def get_CDR_struct(self,type,pn): # If I am a typedef struct {..}; node then find the struct node if isinstance(type.decl(), idlast.Declarator): ntype = type.decl().alias().aliasType().decl() else: ntype = type.decl() # I am a struct node sname = self.namespace(ntype, "_") self.st.out(self.template_structure_start, name=sname ) # Output a call to the struct helper function so I can handle recursive structs also. self.st.out(self.template_decode_struct,name=sname) self.st.out(self.template_structure_end, name=sname ) # # genStructhelper() # # Generate private helper functions to decode a struct # # in: stnode ( a struct node) # def genStructHelper(self,st): if self.DEBUG: print "XXX genStructHelper" sname = self.namespace(st, "_") self.curr_sname = sname # update current opnode/exnode/stnode scoped name if not self.fn_hash_built: self.fn_hash[sname] = [] # init empty list as val for this sname key # but only if the fn_hash is not already built self.st.out(self.template_struct_helper_function_start, sname=sname, stname=st.repoId()) self.st.inc_indent() if (len(self.fn_hash[sname]) > 0): self.st.out(self.template_helper_function_vars_start) self.dumpCvars(sname) self.st.out(self.template_helper_function_vars_end ) for m in st.members(): for decl in m.declarators(): if decl.sizes(): # an array indices = self.get_indices_from_sizes(decl.sizes()) string_indices = '%i ' % indices # convert int to string self.st.out(self.template_get_CDR_array_comment, aname=decl.identifier(), asize=string_indices) self.st.out(self.template_get_CDR_array_start, aname=decl.identifier(), aval=string_indices) self.addvar(self.c_i + decl.identifier() + ";") self.st.inc_indent() self.getCDR(m.memberType(), sname + "_" + decl.identifier() ) self.st.dec_indent() self.st.out(self.template_get_CDR_array_end) else: self.getCDR(m.memberType(), sname + "_" + decl.identifier() ) self.st.dec_indent() self.st.out(self.template_struct_helper_function_end) # # Generate code to access a sequence of a type # def get_CDR_sequence(self,type, pn): self.st.out(self.template_get_CDR_sequence_length, seqname=pn ) self.st.out(self.template_get_CDR_sequence_loop_start, seqname=pn ) self.addvar(self.c_i_lim + pn + ";" ) self.addvar(self.c_i + pn + ";") self.st.inc_indent() self.getCDR(type.unalias().seqType(), pn ) # and start all over with the type self.st.dec_indent() self.st.out(self.template_get_CDR_sequence_loop_end) # # Generate code to access a sequence of octet # def get_CDR_sequence_octet(self,type, pn): self.st.out(self.template_get_CDR_sequence_length, seqname=pn) self.st.out(self.template_get_CDR_sequence_octet, seqname=pn) self.addvar(self.c_i_lim + pn + ";") self.addvar("gchar * binary_seq_" + pn + ";") self.addvar("gchar * text_seq_" + pn + ";") # # namespace() # # in - op node # # out - scoped operation name, using sep character instead of "::" # # eg: Penguin::Echo::echoWString => Penguin_Echo_echoWString if sep = "_" # # def namespace(self,node,sep): sname = string.replace(idlutil.ccolonName(node.scopedName()), '::', sep) #print "XXX namespace: sname = " + sname return sname # # generate code for plugin initialisation # def gen_plugin_register(self): self.st.out(self.template_plugin_register, description=self.description, protocol_name=self.protoname, dissector_name=self.dissname) # # generate register_giop_user_module code, and register only # unique interfaces that contain operations. Also output # a heuristic register in case we want to use that. # # TODO - make this a command line option # # -e explicit # -h heuristic # def gen_proto_reg_handoff(self, oplist): self.st.out(self.template_proto_reg_handoff_start, dissector_name=self.dissname) self.st.inc_indent() for iname in self.get_intlist(oplist): self.st.out(self.template_proto_reg_handoff_body, dissector_name=self.dissname, protocol_name=self.protoname, interface=iname ) self.st.out(self.template_proto_reg_handoff_heuristic, dissector_name=self.dissname, protocol_name=self.protoname) self.st.dec_indent() self.st.out(self.template_proto_reg_handoff_end) # # generate hf_ array element for operation, attribute, enums, struct and union lists # def genOp_hf(self,op): sname = self.namespace(op, "_") opname = sname[string.find(sname, "_")+1:] opname = opname[:string.find(opname, "_")] rt = op.returnType() if (rt.kind() != idltype.tk_void): if (rt.kind() == idltype.tk_alias): # a typdef return val possibly ? self.getCDR_hf(rt, rt.name(),\ opname + "." + op.identifier() + ".return", sname + "_return") else: self.getCDR_hf(rt, "Return value",\ opname + "." + op.identifier() + ".return", sname + "_return") for p in op.parameters(): self.getCDR_hf(p.paramType(), p.identifier(),\ opname + "." + op.identifier() + "." + p.identifier(), sname + "_" + p.identifier()) def genAt_hf(self,at): for decl in at.declarators(): sname = self.namespace(decl, "_") atname = sname[string.find(sname, "_")+1:] atname = atname[:string.find(atname, "_")] self.getCDR_hf(at.attrType(), decl.identifier(),\ atname + "." + decl.identifier() + ".get", "get" + "_" + sname + "_" + decl.identifier()) if not at.readonly(): self.getCDR_hf(at.attrType(), decl.identifier(),\ atname + "." + decl.identifier() + ".set", "set" + "_" + sname + "_" + decl.identifier()) def genSt_hf(self,st): sname = self.namespace(st, "_") stname = sname[string.find(sname, "_")+1:] stname = stname[:string.find(stname, "_")] for m in st.members(): for decl in m.declarators(): self.getCDR_hf(m.memberType(), st.identifier() + "_" + decl.identifier(),\ st.identifier() + "." + decl.identifier(), sname + "_" + decl.identifier()) def genEx_hf(self,ex): sname = self.namespace(ex, "_") exname = sname[string.find(sname, "_")+1:] exname = exname[:string.find(exname, "_")] for m in ex.members(): for decl in m.declarators(): self.getCDR_hf(m.memberType(), ex.identifier() + "_" + decl.identifier(),\ exname + "." + ex.identifier() + "_" + decl.identifier(), sname + "_" + decl.identifier()) def genUnion_hf(self,un): sname = self.namespace(un, "_") unname = sname[:string.rfind(sname, "_")] unname = string.replace(unname, "_", ".") self.getCDR_hf(un.switchType().unalias(), un.identifier(),\ unname + "." + un.identifier(), sname + "_" + un.identifier()) for uc in un.cases(): # for all UnionCase objects in this union for cl in uc.labels(): # for all Caselabel objects in this UnionCase self.getCDR_hf(uc.caseType(), un.identifier() + "_" + uc.declarator().identifier(),\ unname + "." + un.identifier() + "." + uc.declarator().identifier(),\ sname + "_" + uc.declarator().identifier()) # # generate proto_register_<protoname> code, # # in - oplist[], atlist[], stline[], unlist[] # def gen_proto_register(self, oplist, atlist, stlist, unlist): self.st.out(self.template_proto_register_start, dissector_name=self.dissname) #operation specific filters self.st.out(self.template_proto_register_op_filter_comment) for op in oplist: self.genOp_hf(op) #attribute filters self.st.out(self.template_proto_register_at_filter_comment) for at in atlist: self.genAt_hf(at) #struct filters self.st.out(self.template_proto_register_st_filter_comment) for st in stlist: if (st.members()): # only if has members self.genSt_hf(st) # exception List filters exlist = self.get_exceptionList(oplist) # grab list of exception nodes self.st.out(self.template_proto_register_ex_filter_comment) for ex in exlist: if (ex.members()): # only if has members self.genEx_hf(ex) # Union filters self.st.out(self.template_proto_register_un_filter_comment) for un in unlist: self.genUnion_hf(un) self.st.out(self.template_proto_register_end, description=self.description, protocol_name=self.protoname, dissector_name=self.dissname) # # in - oplist[] # # out - a list of unique interface names. This will be used in # register_giop_user_module(dissect_giop_auto, "TEST IDL", "Penguin/Echo" ); so the operation # name must be removed from the scope. And we also only want unique interfaces. # def get_intlist(self,oplist): int_hash = {} # holds a hash of unique interfaces for op in oplist: sc = op.scopedName() # eg: penguin,tux,bite sc1 = sc[:-1] # drop last entry sn = idlutil.slashName(sc1) # penguin/tux if not int_hash.has_key(sn): int_hash[sn] = 0; # dummy val, but at least key is unique ret = int_hash.keys() ret.sort() return ret # # in - oplist[] # # out - a list of exception nodes (unique). This will be used in # to generate dissect_exception_XXX functions. # def get_exceptionList(self,oplist): ex_hash = {} # holds a hash of unique exceptions. for op in oplist: for ex in op.raises(): if not ex_hash.has_key(ex): ex_hash[ex] = 0; # dummy val, but at least key is unique if self.DEBUG: print "XXX Exception = " + ex.identifier() ret = ex_hash.keys() ret.sort() return ret # # Simple function to take a list of array sizes and find the # total number of elements # # # eg: temp[4][3] = 12 elements # def get_indices_from_sizes(self,sizelist): val = 1; for i in sizelist: val = val * i return val # # Determine how many octets contain requested number # of digits for an "fixed" IDL type "on the wire" # def dig_to_len(self,dignum): return (dignum/2) + 1 # # Output some TODO comment # def genTODO(self,message): self.st.out(self.template_debug_TODO, message=message) # # Output some WARNING comment # def genWARNING(self,message): self.st.out(self.template_debug_WARNING, message=message) # # Templates for C code # template_helper_function_comment = """\ /* * @repoid@ */""" template_helper_function_vars_start = """\ /* Operation specific Variable declarations Begin */""" template_helper_function_vars_end = """\ /* Operation specific Variable declarations End */ (void)item; /* Avoid coverity param_set_but_unused parse warning */ """ template_helper_function_start = """\ static void decode_@sname@(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, proto_item *item _U_, int *offset _U_, MessageHeader *header, const gchar *operation _U_, gboolean stream_is_big_endian _U_) {""" template_helper_function_end = """\ } """ # # proto_reg_handoff() templates # template_proto_reg_handoff_start = """\ /* register me as handler for these interfaces */ void proto_reg_handoff_giop_@dissector_name@(void) {""" template_proto_reg_handoff_body = """ /* Register for Explicit Dissection */ register_giop_user_module(dissect_@dissector_name@, \"@protocol_name@\", \"@interface@\", proto_@dissector_name@ ); /* explicit dissector */""" template_proto_reg_handoff_heuristic = """ /* Register for Heuristic Dissection */ register_giop_user(dissect_@dissector_name@, \"@protocol_name@\" ,proto_@dissector_name@); /* heuristic dissector */""" template_proto_reg_handoff_end = """\ } """ # # Initialize the protocol # template_protocol = """ /* Initialise the protocol and subtree pointers */ static int proto_@dissector_name@ = -1; static gint ett_@dissector_name@ = -1; """ # # Initialize the boundary Alignment # template_init_boundary = """ /* Initialise the initial Alignment */ static guint32 boundary = GIOP_HEADER_SIZE; /* initial value */""" # # plugin_register and plugin_reg_handoff templates # template_plugin_register = """ #if 0 WS_DLL_PUBLIC_NOEXTERN void plugin_register(void) { if (proto_@dissector_name@ == -1) { proto_register_giop_@dissector_name@(); } } WS_DLL_PUBLIC_NOEXTERN void plugin_reg_handoff(void){ proto_register_handoff_giop_@dissector_name@(); } #endif """ # # proto_register_<dissector name>(void) templates # template_proto_register_start = """ /* Register the protocol with Wireshark */ void proto_register_giop_@dissector_name@(void) { /* setup list of header fields */ static hf_register_info hf[] = { /* field that indicates the currently ongoing request/reply exchange */ {&hf_operationrequest, {"Request_Operation","giop-@dissector_name@.Request_Operation",FT_STRING,BASE_NONE,NULL,0x0,NULL,HFILL}},""" template_proto_register_end = """ }; /* setup protocol subtree array */ static gint *ett[] = { &ett_@dissector_name@, }; /* Register the protocol name and description */ proto_@dissector_name@ = proto_register_protocol(\"@description@\" , \"@protocol_name@\", \"giop-@dissector_name@\" ); proto_register_field_array(proto_@dissector_name@, hf, array_length(hf)); proto_register_subtree_array(ett,array_length(ett)); } """ template_proto_register_op_filter_comment = """\ /* Operation filters */""" template_proto_register_at_filter_comment = """\ /* Attribute filters */""" template_proto_register_st_filter_comment = """\ /* Struct filters */""" template_proto_register_ex_filter_comment = """\ /* User exception filters */""" template_proto_register_un_filter_comment = """\ /* Union filters */""" # # template for delegation code # template_op_delegate_code = """\ if (strcmp(operation, "@opname@") == 0 && (!idlname || strcmp(idlname, \"@interface@\") == 0)) { item = process_RequestOperation(tvb, pinfo, ptree, header, operation); /* fill-up Request_Operation field & info column */ tree = start_dissecting(tvb, pinfo, ptree, offset); decode_@sname@(tvb, pinfo, tree, item, offset, header, operation, stream_is_big_endian); return TRUE; } """ # # Templates for the helper functions # # # template_helper_switch_msgtype_start = """\ switch(header->message_type) {""" template_helper_switch_msgtype_default_start = """\ default: /* Unknown GIOP Message */ expert_add_info_format(pinfo, item, PI_MALFORMED, PI_ERROR, "Unknown GIOP message %d", header->message_type);""" template_helper_switch_msgtype_default_end = """\ break;""" template_helper_switch_msgtype_end = """\ } /* switch(header->message_type) */""" template_helper_switch_msgtype_request_start = """\ case Request:""" template_helper_switch_msgtype_request_end = """\ break;""" template_helper_switch_msgtype_reply_start = """\ case Reply:""" template_helper_switch_msgtype_reply_no_exception_start = """\ case NO_EXCEPTION:""" template_helper_switch_msgtype_reply_no_exception_end = """\ break;""" template_helper_switch_msgtype_reply_user_exception_start = """\ case USER_EXCEPTION:""" template_helper_switch_msgtype_reply_user_exception_end = """\ break;""" template_helper_switch_msgtype_reply_default_start = """\ default: /* Unknown Exception */ expert_add_info_format(pinfo, item, PI_MALFORMED, PI_ERROR, "Unknown exception %d", header->rep_status);""" template_helper_switch_msgtype_reply_default_end = """\ break;""" template_helper_switch_msgtype_reply_end = """\ break;""" template_helper_switch_msgtype_default_start = """\ default: /* Unknown GIOP Message */ expert_add_info_format(pinfo, item, PI_MALFORMED, PI_ERROR, "Unknown GIOP message %d", header->message_type);""" template_helper_switch_msgtype_default_end = """\ break;""" template_helper_switch_rep_status_start = """\ switch(header->rep_status) {""" template_helper_switch_rep_status_default_start = """\ default: /* Unknown Reply Status */ expert_add_info_format(pinfo, item, PI_MALFORMED, PI_ERROR, "Unknown reply status %d", header->rep_status);""" template_helper_switch_rep_status_default_end = """\ break;""" template_helper_switch_rep_status_end = """\ } /* switch(header->rep_status) */ break;""" # # Templates for get_CDR_xxx accessors # template_get_CDR_ulong = """\ proto_tree_add_uint(tree, hf_@hfname@, tvb, *offset-4, 4, get_CDR_ulong(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_short = """\ proto_tree_add_int(tree, hf_@hfname@, tvb, *offset-2, 2, get_CDR_short(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_void = """\ /* Function returns void */ """ template_get_CDR_long = """\ proto_tree_add_int(tree, hf_@hfname@, tvb, *offset-4, 4, get_CDR_long(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_ushort = """\ proto_tree_add_uint(tree, hf_@hfname@, tvb, *offset-2, 2, get_CDR_ushort(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_float = """\ proto_tree_add_float(tree, hf_@hfname@, tvb, *offset-4, 4, get_CDR_float(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_double = """\ proto_tree_add_double(tree, hf_@hfname@, tvb, *offset-8, 8, get_CDR_double(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_longlong = """\ proto_tree_add_int64(tree, hf_@hfname@, tvb, *offset-8, 8, get_CDR_long_long(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_ulonglong = """\ proto_tree_add_uint64(tree, hf_@hfname@, tvb, *offset-8, 8, get_CDR_ulong_long(tvb,offset,stream_is_big_endian, boundary)); """ template_get_CDR_boolean = """\ proto_tree_add_boolean(tree, hf_@hfname@, tvb, *offset-1, 1, get_CDR_boolean(tvb,offset)); """ template_get_CDR_char = """\ proto_tree_add_uint(tree, hf_@hfname@, tvb, *offset-1, 1, get_CDR_char(tvb,offset)); """ template_get_CDR_octet = """\ proto_tree_add_uint(tree, hf_@hfname@, tvb, *offset-1, 1, get_CDR_octet(tvb,offset)); """ template_get_CDR_any = """\ get_CDR_any(tvb, pinfo, tree, item, offset, stream_is_big_endian, boundary, header); """ template_get_CDR_fixed = """\ get_CDR_fixed(tvb, pinfo, item, &seq, offset, @digits@, @scale@); proto_tree_add_text(tree,tvb,*offset-@length@, @length@, "@varname@ < @digits@, @scale@> = %s",seq); """ template_get_CDR_enum_symbolic = """\ u_octet4 = get_CDR_enum(tvb,offset,stream_is_big_endian, boundary); /* coverity[returned_pointer] */ item = proto_tree_add_uint(tree, hf_@hfname@, tvb, *offset-4, 4, u_octet4); """ template_get_CDR_string = """\ giop_add_CDR_string(tree, tvb, offset, stream_is_big_endian, boundary, hf_@hfname@); """ template_get_CDR_wstring = """\ u_octet4 = get_CDR_wstring(tvb, &seq, offset, stream_is_big_endian, boundary, header); proto_tree_add_text(tree,tvb,*offset-u_octet4,u_octet4,"@varname@ (%u) = %s", u_octet4, (u_octet4 > 0) ? seq : \"\"); """ template_get_CDR_wchar = """\ s_octet1 = get_CDR_wchar(tvb, &seq, offset, header); if (tree) { if (s_octet1 > 0) proto_tree_add_text(tree,tvb,*offset-1-s_octet1,1,"length = %u",s_octet1); if (s_octet1 < 0) s_octet1 = -s_octet1; if (s_octet1 > 0) proto_tree_add_text(tree,tvb,*offset-s_octet1,s_octet1,"@varname@ = %s",seq); } """ template_get_CDR_TypeCode = """\ u_octet4 = get_CDR_typeCode(tvb, pinfo, tree, offset, stream_is_big_endian, boundary, header); """ template_get_CDR_object = """\ get_CDR_object(tvb, pinfo, tree, offset, stream_is_big_endian, boundary); """ template_get_CDR_sequence_length = """\ u_octet4_loop_@seqname@ = get_CDR_ulong(tvb, offset, stream_is_big_endian, boundary); /* coverity[returned_pointer] */ item = proto_tree_add_uint(tree, hf_@seqname@, tvb,*offset-4, 4, u_octet4_loop_@seqname@); """ template_get_CDR_sequence_loop_start = """\ for (i_@seqname@=0; i_@seqname@ < u_octet4_loop_@seqname@; i_@seqname@++) { """ template_get_CDR_sequence_loop_end = """\ } """ template_get_CDR_sequence_octet = """\ if (u_octet4_loop_@seqname@ > 0 && tree) { get_CDR_octet_seq(tvb, &binary_seq_@seqname@, offset, u_octet4_loop_@seqname@); text_seq_@seqname@ = make_printable_string(binary_seq_@seqname@, u_octet4_loop_@seqname@); proto_tree_add_text(tree, tvb, *offset - u_octet4_loop_@seqname@, u_octet4_loop_@seqname@, \"@seqname@: %s\", text_seq_@seqname@); } """ template_get_CDR_array_start = """\ for (i_@aname@=0; i_@aname@ < @aval@; i_@aname@++) { """ template_get_CDR_array_end = """\ } """ template_get_CDR_array_comment = """\ /* Array: @aname@[ @asize@] */ """ template_structure_start = """\ /* Begin struct \"@name@\" */""" template_structure_end = """\ /* End struct \"@name@\" */""" template_union_start = """\ /* Begin union \"@name@\" */""" template_union_end = """\ /* End union \"@name@\" */""" # # Templates for get_CDR_xxx_hf accessors # template_get_CDR_ulong_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT32,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_short_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_INT16,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_long_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_INT32,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_ushort_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT16,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_float_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_FLOAT,BASE_NONE,NULL,0x0,NULL,HFILL}},""" template_get_CDR_double_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_DOUBLE,BASE_NONE,NULL,0x0,NULL,HFILL}},""" template_get_CDR_longlong_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_INT64,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_ulonglong_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT64,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_boolean_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_BOOLEAN,8,NULL,0x01,NULL,HFILL}},""" template_get_CDR_char_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT8,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_octet_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT8,BASE_HEX,NULL,0x0,NULL,HFILL}},""" template_get_CDR_enum_symbolic_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT32,BASE_DEC,VALS(@valstringarray@),0x0,NULL,HFILL}},""" template_get_CDR_string_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_STRING,BASE_NONE,NULL,0x0,NULL,HFILL}},""" template_get_CDR_wstring_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_STRING,BASE_NONE,NULL,0x0,NULL,HFILL}},""" template_get_CDR_wchar_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT16,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_TypeCode_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT32,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_sequence_hf = """\ {&hf_@hfname@, {"Seq length of @descname@","giop-@dissector_name@.@filtername@",FT_UINT32,BASE_DEC,NULL,0x0,NULL,HFILL}},""" template_get_CDR_sequence_octet_hf = """\ {&hf_@hfname@, {"@descname@","giop-@dissector_name@.@filtername@",FT_UINT8,BASE_HEX,NULL,0x0,NULL,HFILL}},""" # # Program Header Template # template_Header = """\ /* packet-@dissector_name@.c * * $Id$ * * Routines for IDL dissection * * Autogenerated from idl2wrs * Copyright 2001 Frank Singleton <frank.singleton@@ericsson.com> */ """ template_wireshark_copyright = """\ /* * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1999 - 2012 Gerald Combs */ """ # # GPL Template # template_GPL = """\ /* * 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; either version 2 * of the License, or (at your option) any later version. * * 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 Street, Fifth Floor, Boston, MA 02110-1301 USA. */ """ # # Includes template # template_Includes = """\ #include "config.h" #include <gmodule.h> #include <string.h> #include <glib.h> #include <epan/packet.h> #include <epan/proto.h> #include <epan/dissectors/packet-giop.h> #include <epan/expert.h> /* plugins are DLLs */ #define WS_BUILD_DLL #include "ws_symbol_export.h" #ifdef _MSC_VER /* disable warning: "unreference local variable" */ #pragma warning(disable:4101) #endif """ # # Main dissector entry templates # template_main_dissector_start = """\ /* * Called once we accept the packet as being for us; it sets the * Protocol and Info columns and creates the top-level protocol * tree item. */ static proto_tree * start_dissecting(tvbuff_t *tvb, packet_info *pinfo, proto_tree *ptree, int *offset) { proto_item *ti = NULL; proto_tree *tree = NULL; /* init later, inside if(tree) */ col_set_str(pinfo->cinfo, COL_PROTOCOL, \"@disprot@\"); /* * Do not clear COL_INFO, as nothing is being written there by * this dissector yet. So leave it as is from the GIOP dissector. * TODO: add something useful to COL_INFO * col_clear(pinfo->cinfo, COL_INFO); */ if (ptree) { ti = proto_tree_add_item(ptree, proto_@dissname@, tvb, *offset, -1, ENC_NA); tree = proto_item_add_subtree(ti, ett_@dissname@); } return tree; } static proto_item* process_RequestOperation(tvbuff_t *tvb, packet_info *pinfo, proto_tree *ptree, MessageHeader *header, const gchar *operation) { proto_item *pi; if(header->message_type == Reply) { /* fill-up info column */ col_append_fstr(pinfo->cinfo, COL_INFO, " op = %s",operation); } /* fill-up the field */ pi=proto_tree_add_string(ptree, hf_operationrequest, tvb, 0, 0, operation); PROTO_ITEM_SET_GENERATED(pi); return pi; } static gboolean dissect_@dissname@(tvbuff_t *tvb, packet_info *pinfo, proto_tree *ptree, int *offset, MessageHeader *header, const gchar *operation, gchar *idlname) { proto_item *item _U_; proto_tree *tree _U_; gboolean stream_is_big_endian = is_big_endian(header); /* get endianess */ /* If we have a USER Exception, then decode it and return */ if ((header->message_type == Reply) && (header->rep_status == USER_EXCEPTION)) { return decode_user_exception(tvb, pinfo, ptree, offset, header, operation, stream_is_big_endian); } """ template_main_dissector_switch_msgtype_start = """\ switch(header->message_type) { """ template_main_dissector_switch_msgtype_start_request_reply = """\ case Request: case Reply: """ template_main_dissector_switch_msgtype_end_request_reply = """\ break; """ template_main_dissector_switch_msgtype_all_other_msgtype = """\ case CancelRequest: case LocateRequest: case LocateReply: case CloseConnection: case MessageError: case Fragment: return FALSE; /* not handled yet */ default: return FALSE; /* not handled yet */ } /* switch */ """ template_main_dissector_end = """\ return FALSE; } /* End of main dissector */ """ #-------------------------------------------------------------# # Exception handling templates # #-------------------------------------------------------------# template_exception_helpers_start = """\ /* Begin Exception Helper Functions */ """ template_exception_helpers_end = """\ /* End Exception Helper Functions */ """ # # template for Main delegator for exception handling # template_main_exception_delegator_start = """\ /* * Main delegator for exception handling * */ static gboolean decode_user_exception(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *ptree _U_, int *offset _U_, MessageHeader *header, const gchar *operation _U_, gboolean stream_is_big_endian _U_) { proto_tree *tree _U_; if (!header->exception_id) return FALSE; """ # # template for exception delegation code body # template_ex_delegate_code = """\ if (strcmp(header->exception_id, "@exname@") == 0) { tree = start_dissecting(tvb, pinfo, ptree, offset); decode_ex_@sname@(tvb, pinfo, tree, offset, header, operation, stream_is_big_endian); /* @exname@ */ return TRUE; } """ # # End of Main delegator for exception handling # template_main_exception_delegator_end = """ return FALSE; /* user exception not found */ } """ # # template for exception helper code # template_exception_helper_function_start = """\ /* Exception = @exname@ */ static void decode_ex_@sname@(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, int *offset _U_, MessageHeader *header _U_, const gchar *operation _U_, gboolean stream_is_big_endian _U_) { proto_item *item _U_; """ template_exception_helper_function_end = """\ } """ # # template for struct helper code # template_struct_helper_function_start = """\ /* Struct = @stname@ */ static void decode_@sname@_st(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, proto_item *item _U_, int *offset _U_, MessageHeader *header _U_, const gchar *operation _U_, gboolean stream_is_big_endian _U_) { """ template_struct_helper_function_end = """\ } """ # # template for union helper code # template_union_helper_function_start = """\ /* Union = @unname@ */ static void decode_@sname@_un(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, int *offset _U_, MessageHeader *header _U_, const gchar *operation _U_, gboolean stream_is_big_endian _U_) { proto_item* item _U_; """ template_union_helper_function_end = """\ } """ #-------------------------------------------------------------# # Value string templates # #-------------------------------------------------------------# template_value_string_start = """\ static const value_string @valstringname@[] = { """ template_value_string_entry = """\ { @intval@, \"@description@\" },""" template_value_string_end = """\ { 0, NULL }, }; """ #-------------------------------------------------------------# # Enum handling templates # #-------------------------------------------------------------# template_comment_enums_start = """\ /* * IDL Enums Start */ """ template_comment_enums_end = """\ /* * IDL Enums End */ """ template_comment_enum_comment = """\ /* * Enum = @ename@ */""" #-------------------------------------------------------------# # Attribute handling templates # #-------------------------------------------------------------# template_comment_attributes_start = """\ /* * IDL Attributes Start */ """ # # get/set accessor method names are language mapping dependant. # template_attributes_declare_Java_get = """static const char get_@sname@_at[] = \"_get_@atname@\" ;""" template_attributes_declare_Java_set = """static const char set_@sname@_at[] = \"_set_@atname@\" ;""" template_comment_attributes_end = """ /* * IDL Attributes End */ """ # # template for Attribute delegation code # # Note: _get_xxx() should only be called for Reply with NO_EXCEPTION # Note: _set_xxx() should only be called for Request # # template_at_delegate_code_get = """\ if (strcmp(operation, get_@sname@_at) == 0 && (header->message_type == Reply) && (header->rep_status == NO_EXCEPTION) ) { tree = start_dissecting(tvb, pinfo, ptree, offset); decode_get_@sname@_at(tvb, pinfo, tree, offset, header, operation, stream_is_big_endian); return TRUE; } """ template_at_delegate_code_set = """\ if (strcmp(operation, set_@sname@_at) == 0 && (header->message_type == Request) ) { tree = start_dissecting(tvb, pinfo, ptree, offset); decode_set_@sname@_at(tvb, pinfo, tree, offset, header, operation, stream_is_big_endian); return TRUE; } """ template_attribute_helpers_start = """\ /* Begin Attribute Helper Functions */ """ template_attribute_helpers_end = """\ /* End Attribute Helper Functions */ """ # # template for attribute helper code # template_attribute_helper_function_start = """\ /* Attribute = @atname@ */ static void decode_@sname@_at(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, int *offset _U_, MessageHeader *header _U_, const gchar *operation _U_, gboolean stream_is_big_endian _U_) { proto_item* item _U_; """ template_attribute_helper_function_end = """\ } """ #-------------------------------------------------------------# # Debugging templates # #-------------------------------------------------------------# # # Template for outputting TODO "C" comments # so user know I need ti improve something. # template_debug_TODO = """\ /* TODO - @message@ */ """ # # Template for outputting WARNING "C" comments # so user know if I have found a problem. # template_debug_WARNING = """\ /* WARNING - @message@ */ """ #-------------------------------------------------------------# # IDL Union templates # #-------------------------------------------------------------# template_comment_union_code_start = """\ /* * IDL Union Start - @uname@ */ """ template_comment_union_code_end = """ /* * IDL union End - @uname@ */ """ template_comment_union_code_discriminant = """\ /* * IDL Union - Discriminant - @uname@ */ """ # # Cast Unions types to something appropriate # Enum value cast to guint32, all others cast to gint32 # as omniidl accessor returns integer or Enum. # template_union_code_save_discriminant_enum = """\ disc_s_@discname@ = (gint32) u_octet4; /* save Enum Value discriminant and cast to gint32 */ """ template_union_code_save_discriminant_long = """\ disc_s_@discname@ = (gint32) s_octet4; /* save gint32 discriminant and cast to gint32 */ """ template_union_code_save_discriminant_ulong = """\ disc_s_@discname@ = (gint32) u_octet4; /* save guint32 discriminant and cast to gint32 */ """ template_union_code_save_discriminant_short = """\ disc_s_@discname@ = (gint32) s_octet2; /* save gint16 discriminant and cast to gint32 */ """ template_union_code_save_discriminant_ushort = """\ disc_s_@discname@ = (gint32) u_octet2; /* save guint16 discriminant and cast to gint32 */ """ template_union_code_save_discriminant_char = """\ disc_s_@discname@ = (gint32) u_octet1; /* save guint1 discriminant and cast to gint32 */ """ template_union_code_save_discriminant_boolean = """\ disc_s_@discname@ = (gint32) u_octet1; /* save guint1 discriminant and cast to gint32 */ """ template_comment_union_code_label_compare_start = """\ if (disc_s_@discname@ == @labelval@) { """ template_comment_union_code_label_compare_end = """\ return; /* End Compare for this discriminant type */ } """ template_comment_union_code_label_default_start = """ /* Default Union Case Start */ """ template_comment_union_code_label_default_end = """\ /* Default Union Case End */ """ # # Templates for function prototypes. # This is used in genDeclares() for declaring function prototypes # for structs and union helper functions. # template_hf_operations = """ static int hf_operationrequest = -1;/* Request_Operation field */ """ template_hf = """\ static int hf_@name@ = -1;""" template_prototype_start_dissecting = """ static proto_tree *start_dissecting(tvbuff_t *tvb, packet_info *pinfo, proto_tree *ptree, int *offset); """ template_prototype_struct_start = """\ /* Struct prototype declaration Start */ """ template_prototype_struct_end = """\ /* Struct prototype declaration End */ """ template_prototype_struct_body = """\ /* Struct = @stname@ */ static void decode_@name@_st(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, proto_item *item _U_, int *offset _U_, MessageHeader *header _U_, const gchar *operation _U_, gboolean stream_is_big_endian _U_); """ template_decode_struct = """\ decode_@name@_st(tvb, pinfo, tree, item, offset, header, operation, stream_is_big_endian);""" template_prototype_union_start = """\ /* Union prototype declaration Start */""" template_prototype_union_end = """\ /* Union prototype declaration End */""" template_prototype_union_body = """ /* Union = @unname@ */ static void decode_@name@_un(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, int *offset _U_, MessageHeader *header _U_, const gchar *operation _U_, gboolean stream_is_big_endian _U_); """ template_decode_union = """ decode_@name@_un(tvb, pinfo, tree, offset, header, operation, stream_is_big_endian); """