#!/usr/bin/env python # # Looks for registration routines in the protocol dissectors, # and assembles C code to call all the routines. # # This is a Python version of the make-reg-dotc shell script. # Running the shell script on Win32 is very very slow because of # all the process-launching that goes on --- multiple greps and # seds for each input file. I wrote this python version so that # less processes would have to be started. # # $Id: make-dissector-reg.py 30447 2009-10-09 20:47:18Z krj $ import os import sys import re import pickle from stat import * VERSION_KEY = '_VERSION' CUR_VERSION = '$Id: make-dissector-reg.py 30447 2009-10-09 20:47:18Z krj $' # # The first argument is the directory in which the source files live. # srcdir = sys.argv[1] # # The second argument is either "plugin" or "dissectors"; if it's # "plugin", we build a plugin.c for a plugin, and if it's # "dissectors", we build a register.c for libwireshark. # registertype = sys.argv[2] if registertype == "plugin" or registertype == "plugin_wtap": tmp_filename = "plugin.c-tmp" final_filename = "plugin.c" cache_filename = None preamble = """\ /* * Do not modify this file. * * It is created automatically by Makefile or Makefile.nmake. */ """ elif registertype == "dissectors": tmp_filename = "register.c-tmp" final_filename = "register.c" cache_filename = "register-cache.pkl" preamble = """\ /* * Do not modify this file. * * It is created automatically by the "register.c" target in * epan/dissectors/Makefile or Makefile.nmake using information in * epan/dissectors/register-cache.pkl. * * You can force this file to be regenerated completely by deleting * it along with epan/dissectors/register-cache.pkl. */ """ else: print "Unknown output type '%s'" % registertype sys.exit(1) # # All subsequent arguments are the files to scan. # files = sys.argv[3:] # Create the proper list of filenames filenames = [] for file in files: if os.path.isfile(file): filenames.append(file) else: filenames.append(os.path.join(srcdir, file)) if len(filenames) < 1: print "No files found" sys.exit(1) # Look through all files, applying the regex to each line. # If the pattern matches, save the "symbol" section to the # appropriate array. regs = { 'proto_reg': [], 'handoff_reg': [], 'wtap_register': [], } # For those that don't know Python, r"" indicates a raw string, # devoid of Python escapes. proto_regex0 = r"^(?Pproto_register_[_A-Za-z0-9]+)\s*\([^;]+$" proto_regex1 = r"void\s+(?Pproto_register_[_A-Za-z0-9]+)\s*\([^;]+$" handoff_regex0 = r"^(?Pproto_reg_handoff_[_A-Za-z0-9]+)\s*\([^;]+$" handoff_regex1 = r"void\s+(?Pproto_reg_handoff_[_A-Za-z0-9]+)\s*\([^;]+$" wtap_reg_regex0 = r"^(?Pwtap_register_[_A-Za-z0-9]+)\s*\([^;]+$" wtap_reg_regex1 = r"void\s+(?Pwtap_register_[_A-Za-z0-9]+)\s*\([^;]+$" # This table drives the pattern-matching and symbol-harvesting patterns = [ ( 'proto_reg', re.compile(proto_regex0) ), ( 'proto_reg', re.compile(proto_regex1) ), ( 'handoff_reg', re.compile(handoff_regex0) ), ( 'handoff_reg', re.compile(handoff_regex1) ), ( 'wtap_register', re.compile(wtap_reg_regex0) ), ( 'wtap_register', re.compile(wtap_reg_regex1) ), ] # Open our registration symbol cache cache = None if cache_filename: try: cache_file = open(cache_filename, 'rb') cache = pickle.load(cache_file) cache_file.close() if not cache.has_key(VERSION_KEY) or cache[VERSION_KEY] != CUR_VERSION: cache = {VERSION_KEY: CUR_VERSION} except: cache = {VERSION_KEY: CUR_VERSION} # Grep for filename in filenames: file = open(filename) cur_mtime = os.fstat(file.fileno())[ST_MTIME] if cache and cache.has_key(filename): cdict = cache[filename] if cur_mtime == cdict['mtime']: # print "Pulling %s from cache" % (filename) regs['proto_reg'].extend(cdict['proto_reg']) regs['handoff_reg'].extend(cdict['handoff_reg']) regs['wtap_register'].extend(cdict['wtap_register']) file.close() continue # We don't have a cache entry if cache is not None: cache[filename] = { 'mtime': cur_mtime, 'proto_reg': [], 'handoff_reg': [], 'wtap_register': [], } # print "Searching %s" % (filename) for line in file.readlines(): for action in patterns: regex = action[1] match = regex.search(line) if match: symbol = match.group("symbol") sym_type = action[0] regs[sym_type].append(symbol) if cache is not None: # print "Caching %s for %s: %s" % (sym_type, filename, symbol) cache[filename][sym_type].append(symbol) file.close() if cache is not None and cache_filename is not None: cache_file = open(cache_filename, 'wb') pickle.dump(cache, cache_file) cache_file.close() # Make sure we actually processed something if len(regs['proto_reg']) < 1: print "No protocol registrations found" sys.exit(1) # Sort the lists to make them pretty regs['proto_reg'].sort() regs['handoff_reg'].sort() regs['wtap_register'].sort() reg_code = open(tmp_filename, "w") reg_code.write(preamble) # Make the routine to register all protocols if registertype == "plugin" or registertype == "plugin_wtap": reg_code.write(""" #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include "moduleinfo.h" #ifndef ENABLE_STATIC G_MODULE_EXPORT const gchar version[] = VERSION; /* Start the functions we need for the plugin stuff */ G_MODULE_EXPORT void plugin_register (void) { """); else: reg_code.write(""" #include "register.h" void register_all_protocols(register_cb cb, gpointer client_data) { """); for symbol in regs['proto_reg']: if registertype == "plugin" or registertype == "plugin_wtap": line = " {extern void %s (void); %s ();}\n" % (symbol, symbol) else: line = " {extern void %s (void); if(cb) (*cb)(RA_REGISTER, \"%s\", client_data); %s ();}\n" % (symbol, symbol, symbol) reg_code.write(line) reg_code.write("}\n") # Make the routine to register all protocol handoffs if registertype == "plugin" or registertype == "plugin_wtap": reg_code.write(""" G_MODULE_EXPORT void plugin_reg_handoff(void) { """); else: reg_code.write(""" void register_all_protocol_handoffs(register_cb cb, gpointer client_data) { """); for symbol in regs['handoff_reg']: if registertype == "plugin" or registertype == "plugin_wtap": line = " {extern void %s (void); %s ();}\n" % (symbol, symbol) else: line = " {extern void %s (void); if(cb) (*cb)(RA_HANDOFF, \"%s\", client_data); %s ();}\n" % (symbol, symbol, symbol) reg_code.write(line) reg_code.write("}\n") if registertype == "plugin": reg_code.write("#endif\n"); elif registertype == "plugin_wtap": reg_code.write(""" G_MODULE_EXPORT void register_wtap_module(void) { """); for symbol in regs['wtap_register']: line = " {extern void %s (void); %s ();}\n" % (symbol, symbol) reg_code.write(line) reg_code.write("}\n"); reg_code.write("#endif\n"); else: reg_code.write(""" static gulong proto_reg_count(void) { """); line = " return %d;\n" % len(regs['proto_reg']) reg_code.write(line) reg_code.write(""" } """); reg_code.write(""" static gulong handoff_reg_count(void) { """); line = " return %d;\n" % len(regs['handoff_reg']) reg_code.write(line) reg_code.write(""" } """); reg_code.write(""" gulong register_count(void) { """); line = " return proto_reg_count() + handoff_reg_count();" reg_code.write(line) reg_code.write(""" }\n """); # Close the file reg_code.close() # Remove the old final_file if it exists. try: os.stat(final_filename) os.remove(final_filename) except OSError: pass # Move from tmp file to final file os.rename(tmp_filename, final_filename)