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|
#!/usr/bin/env python
# Kamek - build tool for custom C++ code in New Super Mario Bros. Wii
# All rights reserved (c) Treeki 2010 - 2012
# Header files compiled by Treeki, Tempus and megazig
# Requires PyYAML and pyelftools
version_str = 'Kamek 0.2 by Treeki'
import binascii
import os
import os.path
import shutil
import struct
import subprocess
import sys
import tempfile
import yaml
import elftools.elf.elffile
import hooks
u32 = struct.Struct('>I')
verbose = True
use_rels = True
use_mw = False
use_wine = False
mw_path = ''
gcc_path = ''
gcc_type = 'powerpc-eabi'
show_cmd = False
delete_temp = True
override_config_file = None
only_build = None
fast_hack = False
def parse_cmd_options():
global use_rels, use_mw, use_wine, show_cmd, delete_temp, only_build, fast_hack
global override_config_file, gcc_type, gcc_path, mw_path
if '--no-rels' in sys.argv:
use_rels = False
if '--use-mw' in sys.argv:
use_mw = True
if '--use-wine' in sys.argv:
use_wine = True
if '--show-cmd' in sys.argv:
show_cmd = True
if '--keep-temp' in sys.argv:
delete_temp = False
if '--fast-hack' in sys.argv:
fast_hack = True
only_build = []
for arg in sys.argv:
if arg.startswith('--configs='):
override_config_file = arg[10:]
if arg.startswith('--build='):
only_build.append(arg[8:])
if arg.startswith('--gcc-type='):
gcc_type = arg[11:]
if arg.startswith('--gcc-path='):
gcc_path = arg[11:] + '/'
if arg.startswith('--mw-path='):
mw_path = arg[10:] + '/'
if len(only_build) == 0:
only_build = None
def print_debug(s):
if verbose: print '* '+str(s)
def read_configs(filename):
with open(filename, 'r') as f:
data = f.read()
return yaml.safe_load(data)
current_unique_id = 0
def generate_unique_id():
# this is used for temporary filenames, to ensure that .o files
# do not overwrite each other
global current_unique_id
current_unique_id += 1
return current_unique_id
def align_addr_up(addr, align):
align -= 1
return (addr + align) & ~align
def generate_riiv_mempatch(offset, data):
return '<memory offset="0x%08X" value="%s" />' % (offset, binascii.hexlify(data))
def generate_ocarina_patch(destOffset, data):
out = []
count = len(data)
sourceOffset = 0
destOffset -= 0x80000000
for i in xrange(count >> 2):
out.append('%08X %s' % (destOffset | 0x4000000, binascii.hexlify(data[sourceOffset:sourceOffset+4])))
sourceOffset += 4
destOffset += 4
# take care
remainder = count % 4
if remainder == 3:
out.append('%08X 0000%s' % (destOffset | 0x2000000, binascii.hexlify(data[sourceOffset:sourceOffset+2])))
out.append('%08X 000000%s' % (destOffset, binascii.hexlify(data[sourceOffset+2])))
elif remainder == 2:
out.append('%08X 0000%s' % (destOffset | 0x2000000, binascii.hexlify(data[sourceOffset:sourceOffset+2])))
elif remainder == 1:
out.append('%08X 000000%s' % (destOffset, binascii.hexlify(data[sourceOffset])))
return '\n'.join(out)
def generate_kamek_patches(patchlist):
kamekpatch = ''
for patch in patchlist:
if len(patch[1]) > 4:
# block patch
kamekpatch += u32.pack(align_addr_up(len(patch[1]), 4) / 4)
kamekpatch += u32.pack(patch[0])
kamekpatch += patch[1]
# align it
if len(patch[1]) % 4 != 0:
kamekpatch += '\0' * (4 - (len(patch[1]) % 4))
else:
# single patch
kamekpatch += u32.pack(patch[0])
kamekpatch += patch[1]
kamekpatch += u32.pack(0xFFFFFFFF)
return kamekpatch
class DyLinkCreator(object):
R_PPC_ADDR32 = 1
R_PPC_ADDR16_LO = 4
R_PPC_ADDR16_HI = 5
R_PPC_ADDR16_HA = 6
R_PPC_REL24 = 10
VALID_RELOCS = set([1, 4, 5, 6, 10])
def __init__(self, other=None):
if other:
self._relocs = other._relocs[:]
self._targets = other._targets[:]
self._target_lookups = other._target_lookups.copy()
else:
self._relocs = []
self._targets = []
self._target_lookups = {}
self.elf = None
def set_elf(self, stream):
if self.elf != None:
raise ValueError('ELF already set')
self.elf = elftools.elf.elffile.ELFFile(stream)
self.code = self.elf.get_section_by_name('.text').data()
self._add_relocs(self.elf.get_section_by_name('.rela.text'))
def _add_relocs(self, section):
sym_values = {}
sym_section = self.elf.get_section_by_name('.symtab')
for reloc in section.iter_relocations():
entry = reloc.entry
#print entry
sym_id = entry['r_info_sym']
try:
sym_value, sym_name = sym_values[sym_id]
except KeyError:
sym = sym_section.get_symbol(sym_id)
sym_value = sym.entry['st_value']
sym_name = sym.name
sym_values[sym_id] = (sym_value, sym_name)
#print hex(sym_value)
self.add_reloc(entry['r_info_type'], entry['r_offset'], sym_value+entry['r_addend'], sym_name)
def add_reloc(self, reltype, addr, target, name="UNKNOWN NAME"):
if reltype not in self.VALID_RELOCS:
raise ValueError('Unknown/unsupported rel type: %d (%x => %x)' % (reltype, addr, target))
try:
target_id = self._target_lookups[target]
except KeyError:
target_id = len(self._targets)
self._target_lookups[target] = target_id
self._targets.append(target)
if target <= 0:
print("Warning: The following reloc (%x) points to %d: Is this right? %s" % (addr, target, name))
self._relocs.append((reltype, addr, target_id))
def build_reloc_data(self):
header_struct = struct.Struct('>8sI')
rel_struct_pack = struct.Struct('>II').pack
target_struct_pack = struct.Struct('>I').pack
rel_data = map(lambda x: rel_struct_pack((x[0] << 24) | x[2], x[1]), self._relocs)
target_data = map(target_struct_pack, self._targets)
header = header_struct.pack('NewerREL', 12 + (len(self._relocs) * 8))
return header + ''.join(rel_data) + ''.join(target_data)
class KamekModule(object):
_requiredFields = ['source_files']
def __init__(self, filename):
# load the module data
self.modulePath = os.path.normpath(filename)
self.moduleName = os.path.basename(self.modulePath)
self.moduleDir = os.path.dirname(self.modulePath)
with open(self.modulePath, 'r') as f:
self.rawData = f.read()
self.data = yaml.safe_load(self.rawData)
if not isinstance(self.data, dict):
raise ValueError, 'the module file %s is an invalid format (it should be a YAML mapping)' % self.moduleName
# verify it
for field in self._requiredFields:
if field not in self.data:
raise ValueError, 'Missing field in the module file %s: %s' % (self.moduleName, field)
class KamekBuilder(object):
def __init__(self, project, configs):
self.project = project
self.configs = configs
def build(self):
print_debug('Starting build')
self._prepare_dirs()
for config in self.configs:
if only_build != None and config['short_name'] not in only_build:
continue
self._set_config(config)
self._configTempDir = tempfile.mkdtemp()
print_debug('Temp files for this configuration are in: '+self._configTempDir)
if 'dynamic_link' in self._config and self._config['dynamic_link']:
self.dynamic_link_base = DyLinkCreator()
else:
self.dynamic_link_base = None
self._builtCodeAddr = 0x80001800
if 'code_address' in self.project.data:
self._builtCodeAddr = self.project.data['code_address']
# hook setup
self._hook_contexts = {}
for name, hookType in hooks.HookTypes.iteritems():
if hookType.has_context:
self._hook_contexts[hookType] = hookType.context_type()
self._compile_modules()
# figure out how many copies we need to build
# this is a mess!
if 'multi_build' in self._config:
self._multi_build = self._config['multi_build']
else:
self._multi_build = {self._config['short_name']: self._config['linker_script']}
for s_name, s_script in self._multi_build.iteritems():
self.current_build_name = s_name
self._patches = []
self._rel_patches = []
self._hooks = []
self._create_hooks()
self._link(s_name, s_script)
self._read_symbol_map()
if self.dynamic_link_base:
self.dynamic_link = DyLinkCreator(self.dynamic_link_base)
self.dynamic_link.set_elf(open(self._currentOutFile, 'rb'))
for hook in self._hooks:
hook.create_patches()
self._create_patch(s_name)
if delete_temp:
shutil.rmtree(self._configTempDir)
def _prepare_dirs(self):
self._outDir = self.project.makeRelativePath(self.project.data['output_dir'])
print_debug('Project will be built in: '+self._outDir)
if not os.path.isdir(self._outDir):
os.makedirs(self._outDir)
print_debug('Created that directory')
def _set_config(self, config):
self._config = config
print_debug('---')
print_debug('Building for configuration: '+config['friendly_name'])
self.config_short_name = config['short_name']
if 'rel_area_start' in config:
self._rel_area = (config['rel_area_start'], config['rel_area_end'])
else:
self._rel_area = (-50, -50)
def _create_hooks(self):
print_debug('---')
print_debug('Creating hooks')
for m in self.project.modules:
if 'hooks' in m.data:
for hookData in m.data['hooks']:
assert 'name' in hookData and 'type' in hookData
#print_debug('Hook: %s : %s' % (m.moduleName, hookData['name']))
if hookData['type'] in hooks.HookTypes:
hookType = hooks.HookTypes[hookData['type']]
hook = hookType(self, m, hookData)
self._hooks.append(hook)
else:
raise ValueError, 'Unknown hook type: %s' % hookData['type']
def _compile_modules(self):
print_debug('---')
print_debug('Compiling modules')
if use_mw:
# metrowerks setup
cc_command = ['%smwcceppc.exe' % mw_path, '-I.', '-I-', '-I.', '-nostdinc', '-Cpp_exceptions', 'off', '-Os', '-proc', 'gekko', '-fp', 'hard', '-enum', 'int', '-sdata', '0', '-sdata2', '0', '-g', '-RTTI', 'off', '-use_lmw_stmw', 'on']
as_command = ['%smwasmeppc.exe' % mw_path, '-I.', '-I-', '-I.', '-nostdinc', '-proc', 'gekko', '-d', '__MWERKS__']
if 'defines' in self._config:
for d in self._config['defines']:
cc_command.append('-d')
cc_command.append(d)
as_command.append('-d')
as_command.append(d)
for i in self._config['include_dirs']:
cc_command.append('-I%s' % i)
#cc_command.append(i)
as_command.append('-I%s' % i)
#as_command.append(i)
if use_wine:
cc_command.insert(0, 'wine')
as_command.insert(0, 'wine')
else:
# gcc setup
cc_command = ['%s%s-g++' % (gcc_path, gcc_type), '-nodefaultlibs', '-I.', '-fno-builtin', '-Os', '-fno-exceptions', '-fno-rtti', '-mno-sdata']
as_command = cc_command
if 'defines' in self._config:
for d in self._config['defines']:
cc_command.append('-D%s' % d)
for i in self._config['include_dirs']:
cc_command.append('-I%s' % i)
self._moduleFiles = []
if fast_hack:
fast_cpp_path = os.path.join(self._configTempDir, 'fasthack.cpp')
fast_cpp = open(fast_cpp_path, 'w')
for m in self.project.modules:
for normal_sourcefile in m.data['source_files']:
print_debug('Compiling %s : %s' % (m.moduleName, normal_sourcefile))
objfile = os.path.join(self._configTempDir, '%d.o' % generate_unique_id())
sourcefile = os.path.join(m.moduleDir, normal_sourcefile)
if sourcefile.endswith('.o'):
new_command = ['cp', sourcefile, objfile]
else:
# todo: better extension detection
if sourcefile.endswith('.s') or sourcefile.endswith('.S'):
command = as_command
elif sourcefile.endswith('.cpp') and fast_hack:
fast_cpp.write('//\n// %s\n//\n\n' % sourcefile)
fast_cpp.write(open(sourcefile, 'r').read())
fast_cpp.write('\n')
continue
else:
command = cc_command
new_command = command + ['-c', '-o', objfile, sourcefile]
if 'cc_args' in m.data:
new_command += m.data['cc_args']
if show_cmd:
print_debug(new_command)
errorVal = subprocess.call(new_command)
if errorVal != 0:
print 'BUILD FAILED!'
print 'compiler returned %d - an error occurred while compiling %s' % (errorVal, sourcefile)
sys.exit(1)
self._moduleFiles.append(objfile)
if fast_hack:
fast_cpp.close()
print_debug('Fast compilation!!')
objfile = os.path.join(self._configTempDir, 'fasthack.o')
new_command = cc_command + ['-c', '-o', objfile, fast_cpp_path]
if show_cmd:
print_debug(new_command)
errorVal = subprocess.call(new_command)
if errorVal != 0:
print 'BUILD FAILED!'
print 'compiler returned %d - an error occurred while compiling the fast hack' % errorVal
sys.exit(1)
self._moduleFiles.append(objfile)
print_debug('Compilation complete')
def _link(self, short_name, script_file):
print_debug('---')
print_debug('Linking %s (%s)...' % (short_name, script_file))
nice_name = '%s_%s' % (self._config['short_name'], short_name)
print_debug('---')
self._currentMapFile = '%s/%s_linkmap.map' % (self._outDir, nice_name)
outname = 'object.plf' if self.dynamic_link_base else 'object.bin'
self._currentOutFile = '%s/%s_%s' % (self._outDir, nice_name, outname)
ld_command = ['%s%s-ld' % (gcc_path, gcc_type), '-L.']
ld_command.append('-o')
ld_command.append(self._currentOutFile)
if self.dynamic_link_base:
ld_command.append('-r')
ld_command.append('--oformat=elf32-powerpc')
else:
ld_command.append('--oformat=binary')
ld_command.append('-Ttext')
ld_command.append('0x%08X' % self._builtCodeAddr)
ld_command.append('-T')
ld_command.append(script_file)
ld_command.append('-Map')
ld_command.append(self._currentMapFile)
ld_command.append('--no-demangle') # for debugging
#ld_command.append('--verbose')
ld_command += self._moduleFiles
if show_cmd:
print_debug(ld_command)
errorVal = subprocess.call(ld_command)
if errorVal != 0:
print 'BUILD FAILED!'
print 'ld returned %d' % errorVal
sys.exit(1)
print_debug('Successfully linked %s' % short_name)
def _read_symbol_map(self):
print_debug('---')
print_debug('Reading symbol map')
self._symbols = []
file = open(self._currentMapFile, 'r')
for line in file:
if '__text_start' in line:
self._textSegStart = int(line.split()[0],0)
break
# now read the individual symbols
# this is probably a bad method to parse it, but whatever
for line in file:
if '__text_end' in line:
self._textSegEnd = int(line.split()[0],0)
break
if not line.startswith(' '): continue
sym = line.split()
sym[0] = int(sym[0],0)
self._symbols.append(sym)
# we've found __text_end, so now we should be at the output section
currentEndAddress = self._textSegEnd
for line in file:
if line[0] == '.':
# probably a segment
data = line.split()
if len(data) < 3: continue
segAddr = int(data[1],0)
segSize = int(data[2],0)
if segAddr+segSize > currentEndAddress:
currentEndAddress = segAddr+segSize
self._codeStart = self._textSegStart
self._codeEnd = currentEndAddress
file.close()
print_debug('Read, %d symbol(s) parsed' % len(self._symbols))
# next up, run it through c++filt
print_debug('Running c++filt')
p = subprocess.Popen(gcc_type + '-c++filt', stdin=subprocess.PIPE, stdout=subprocess.PIPE)
symbolNameList = [sym[1] for sym in self._symbols]
filtResult = p.communicate('\n'.join(symbolNameList))
filteredSymbols = filtResult[0].split('\n')
for sym, filt in zip(self._symbols, filteredSymbols):
sym.append(filt)
print_debug('Done. All symbols complete.')
print_debug('Generated code is at 0x%08X .. 0x%08X' % (self._codeStart, self._codeEnd - 4))
def find_func_by_symbol(self, find_symbol):
for sym in self._symbols:
#if show_cmd:
# out = "0x%08x - %s - %s" % (sym[0], sym[1], sym[2])
# print_debug(out)
if sym[2] == find_symbol:
return sym[0]
raise ValueError, 'Cannot find function: %s' % find_symbol
def add_patch(self, offset, data):
if offset >= self._rel_area[0] and offset <= self._rel_area[1] and use_rels:
self._rel_patches.append((offset, data))
else:
self._patches.append((offset, data))
def _create_patch(self, short_name):
print_debug('---')
print_debug('Creating patch')
nice_name = '%s_%s' % (self._config['short_name'], short_name)
# convert the .rel patches to KamekPatcher format
if len(self._rel_patches) > 0:
kamekpatch = generate_kamek_patches(self._rel_patches)
#self._patches.append((0x817F4800, kamekpatch))
self._patches.append((0x80002F60, kamekpatch))
if self.dynamic_link:
# put together the dynamic link files
dlcode = open('%s/%s_dlcode.bin' % (self._outDir, nice_name), 'wb')
dlcode.write(self.dynamic_link.code)
dlcode.close()
dlrelocs = open('%s/%s_dlrelocs.bin' % (self._outDir, nice_name), 'wb')
dlrelocs.write(self.dynamic_link.build_reloc_data())
dlrelocs.close()
else:
# add the outfile as a patch if not using dynamic linking
file = open(self._currentOutFile, 'rb')
patch = (self._codeStart, file.read())
file.close()
self._patches.append(patch)
# generate a Riivolution patch
riiv = open('%s/%s_riiv.xml' % (self._outDir, nice_name), 'w')
for patch in self._patches:
riiv.write(generate_riiv_mempatch(*patch) + '\n')
riiv.close()
# generate an Ocarina patch
ocarina = open('%s/%s_ocarina.txt' % (self._outDir, nice_name), 'w')
for patch in self._patches:
ocarina.write(generate_ocarina_patch(*patch) + '\n')
ocarina.close()
# generate a KamekPatcher patch
kpatch = open('%s/%s_loader.bin' % (self._outDir, nice_name), 'wb')
kpatch.write(generate_kamek_patches(self._patches))
kpatch.close()
print_debug('Patches generated')
class KamekProject(object):
_requiredFields = ['output_dir', 'modules']
def __init__(self, filename):
# load the project data
self.projectPath = os.path.abspath(filename)
self.projectName = os.path.basename(self.projectPath)
self.projectDir = os.path.dirname(self.projectPath)
with open(self.projectPath, 'r') as f:
self.rawData = f.read()
self.data = yaml.safe_load(self.rawData)
if not isinstance(self.data, dict):
raise ValueError, 'the project file is an invalid format (it should be a YAML mapping)'
# verify it
for field in self._requiredFields:
if field not in self.data:
raise ValueError, 'Missing field in the project file: %s' % field
# load each module
self.modules = []
for moduleName in self.data['modules']:
modulePath = self.makeRelativePath(moduleName)
self.modules.append(KamekModule(modulePath))
def makeRelativePath(self, path):
return os.path.normpath(os.path.join(self.projectDir, path))
def build(self):
# compile everything in the project
builder = KamekBuilder(self, self.configs)
builder.build()
def main():
print version_str
print
if len(sys.argv) < 2:
print 'No input file specified'
sys.exit()
parse_cmd_options()
project = KamekProject(os.path.normpath(sys.argv[1]))
if override_config_file:
project.configs = read_configs(override_config_file)
else:
project.configs = read_configs('kamek_configs.yaml')
project.build()
if __name__ == '__main__':
main()
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