ref: 95cc910349d0aa1e39d6c0786db577b8075eeb60
dir: /pkg/wince/wince-cabgen/
#!/usr/bin/env python
import os
import re
import shutil
import struct
import sys
import tempfile
CAB_HEADER = "MSCE".encode("ascii")
ARCHITECTURES = {
"shx-sh3": 103,
"shx-sh4": 104,
"i386": 386,
"i486": 486,
"i586": 586,
"powerpc-601": 601,
"powerpc-603": 603,
"powerpc-604": 604,
"powerpc-620": 620,
"powerpc-mpc821": 821,
"arm720": 1824,
"arm820": 2080,
"arm920": 2336,
"strongarm": 2577,
"mips-r4000": 4000,
"sh3": 10003,
"sh3e": 10004,
"sh4": 10005,
"alpha-21064": 21064,
"arm7tdmi": 70001,
}
DIR_VARIABLES = {
"PROGRAMS": "%CE1%", # \Program Files
"WINDOWS": "%CE2%", # \Windows
"DESKTOP": "%CE3%", # \Windows\Desktop
"STARTUP": "%CE4%", # \Windows\StartUp
"DOCUMENTS": "%CE5%", # \My Documents
"PROGRAMS_ACCESSORIES": "%CE6%", # \Program Files\Accessories
"PROGRAMS_COMMUNICATIONS": "%CE7%", # \Program Files\Communications
"PROGRAMS_GAMES": "%CE8%", # \Program Files\Games
"PROGRAMS_OUTLOOK": "%CE9%", # \Program Files\Pocket Outlook
"PROGRAMS_OFFICE": "%CE10%", # \Program Files\Office
"WINDOWS_PROGRAMS": "%CE11%", # \Windows\Programs
"WINDOWS_ACCESSORIES": "%CE12%", # \Windows\Programs\Accessories
"WINDOWS_COMMUNICATIONS": "%CE13%", # \Windows\Programs\Communications
"WINDOWS_GAMES": "%CE14%", # \Windows\Programs\Games
"FONTS": "%CE15%", # \Windows\Fonts
"RECENT": "%CE16%", # \Windows\Recent
"FAVORITES": "%CE17%", # \Windows\Favorites
"START_PROGRAMS": "%CE11%", # \Windows\Start Menu\Programs
"START_ACCESSORIES": "%CE12%", # \Windows\Start Menu\Accessories
"START_COMMUNICATIONS": "%CE13%", # \Windows\Start Menu\Communications
"START_GAMES": "%CE14%", # \Windows\Start Menu\Games
"START": "%CE17%", # \Windows\Start Menu
}
def write_int16(f, value):
f.write(struct.pack("<H", value))
def write_int32(f, value):
f.write(struct.pack("<I", value))
# Pad a string with NUL characters so that it has a length that is
# a multiple of 4. At least one NUL is always added.
def pad_string(s):
pad_len = 4 - (len(s) % 4)
return s + (pad_len * "\x00")
class HeaderSection:
def __init__(self, cab_header):
self.cab_header = cab_header
self.arch = None
self.app_name = None
self.provider = None
self.unsupported = None
def __len__(self):
return 100 # header has fixed size
def set_meta(self, arch, app_name, provider, unsupported):
if arch not in ARCHITECTURES:
raise Exception("Unknown architecture '%s'" % arch)
self.arch = ARCHITECTURES[arch]
dictionary = self.cab_header.dictionary
self.app_name = app_name
dictionary.get(self.app_name)
self.provider = provider
dictionary.get(self.provider)
self.unsupported = unsupported
dictionary.get(self.unsupported)
def write(self, stream):
# Basic header
stream.write(CAB_HEADER)
write_int32(stream, 0)
write_int32(stream, len(self.cab_header))
write_int32(stream, 0)
write_int32(stream, 1)
write_int32(stream, self.arch)
# minimum Windows CE version:
write_int32(stream, 0)
write_int32(stream, 0)
write_int32(stream, 0)
write_int32(stream, 0)
write_int32(stream, 0)
write_int32(stream, 0)
dictionary = self.cab_header.dictionary
# Write number of entries in other sections:
for section in self.cab_header.sections:
if section is not self:
write_int16(stream, section.num_entries())
# Write offsets of other sections:
for section in self.cab_header.sections:
if section is not self:
offset = self.cab_header.get_section_offset(section)
write_int32(stream, offset)
# Special strings:
special_strings = (
self.app_name,
self.provider,
self.unsupported
)
dictionary_offset = self.cab_header.get_section_offset(dictionary)
for s in special_strings:
s_offset = dictionary.get_offset(s)
write_int16(stream, dictionary_offset + s_offset)
write_int16(stream, len(s) + 1)
# Two left-over fields of unknown use:
write_int16(stream, 0)
write_int16(stream, 0)
class StringDictionary:
def __init__(self, cab_header):
self.cab_header = cab_header
self.string_list = []
self.strings = {}
self.length = 0
self.index = 1
# Get the length of the dictionary, in bytes.
def __len__(self):
return self.length
# Get the number of entries in the dictionary.
def num_entries(self):
return len(self.strings)
# Get the ID for the given string, adding it if necessary.
def get(self, s):
# Is this a new string? Add it to the dictionary.
if s not in self.strings:
offset = self.length
padded = pad_string(s)
self.strings[s] = (self.index, offset)
self.string_list.append((self.index, padded))
self.length += len(padded) + 4
self.index += 1
return self.strings[s][0]
# Get the offset of a particular string within the dictionary.
def get_offset(self, s):
return self.strings[s][1] + 4
# Write the dictionary to the output stream.
def write(self, stream):
# Write out all strings:
for i, s in self.string_list:
write_int16(stream, i)
write_int16(stream, len(s))
stream.write(s.encode("ascii"))
class DirectoryList:
def __init__(self, cab_header):
self.cab_header = cab_header
self.directories_list = []
self.directories = {}
self.length = 0
self.index = 1
def __len__(self):
return self.length
def num_entries(self):
return len(self.directories_list)
# Find whether the specified directory exists in the list
def find(self, dir):
key = dir.lower()
if key in self.directories:
return self.directories[key]
else:
return None
# Get the ID for the given directory, adding it if necessary.
def get(self, dir):
key = dir.lower()
dictionary = self.cab_header.dictionary
# Add new directory?
if key not in self.directories:
# Separate into individual directories, and map to strings:
#dir_path = dir.split("\\")
#if dir_path[0] == "":
# dir_path = dir_path[1:]
dir_path = [ dir ]
dir_path = list(map(lambda x: dictionary.get(x), dir_path))
self.directories[key] = self.index
self.directories_list.append((self.index, dir_path))
self.length += 6 + 2 * len(dir_path)
self.index += 1
return self.directories[key]
# Write the directory list to the specified stream.
def write(self, stream):
for i, dir in self.directories_list:
write_int16(stream, i)
write_int16(stream, 2 * len(dir) + 2)
for subdir in dir:
write_int16(stream, subdir)
write_int16(stream, 0)
class FileList:
def __init__(self, cab_header):
self.cab_header = cab_header
self.files = []
self.length = 0
self.index = 1
# Get the length of this section, in bytes.
def __len__(self):
return self.length
# Query whether the file list contains a particular file.
def find(self, filename):
dirname, sep, target_basename = filename.rpartition("\\")
target_basename = pad_string(target_basename)
target_dir_id = self.cab_header.directory_list.find(dirname)
if target_dir_id is None:
return None
else:
# Search the list of files:
for i, dir_id, basename, file_no, flags in self.files:
if dir_id == target_dir_id and basename == target_basename:
return file_no
else:
return None
# Get the number of entries in the file list
def num_entries(self):
return len(self.files)
# Add a file to the list.
def add(self, filename, file_no, flags=0):
dirname, sep, basename = filename.rpartition("\\")
dir_id = self.cab_header.directory_list.get(dirname)
padded = pad_string(basename)
self.files.append((self.index, dir_id, padded, file_no, flags))
self.length += 12 + len(padded)
self.index += 1
# Write this section to the output stream.
def write(self, stream):
for i, dir_id, filename, file_no, flags in self.files:
write_int16(stream, i)
write_int16(stream, dir_id)
write_int16(stream, file_no)
write_int32(stream, flags)
write_int16(stream, len(filename))
stream.write(filename.encode("ascii"))
# TODO?
class RegHiveList:
def __len__(self):
return 0
def num_entries(self):
return 0
def write(self, stream):
pass
class RegKeyList():
def __len__(self):
return 0
def num_entries(self):
return 0
def write(self, stream):
pass
class LinkList:
def __init__(self, cab_header):
self.cab_header = cab_header
self.links = []
self.length = 0
self.index = 1
def __len__(self):
return self.length
def num_entries(self):
return len(self.links)
# Determine the target type (dir/file) and ID:
def __find_target(self, target):
file_id = self.cab_header.file_list.find(target)
if file_id is not None:
return 1, file_id
dir_list = self.cab_header.get_section(DirectoryList)
dir_id = dir_list.find(target)
if dir_id is not None:
return 0, dir_id
raise Exception("Link target '%s' not found" % target)
def add(self, target, destination):
target_type, target_id = self.__find_target(target)
dest_path = destination.split("\\")
# Leading \:
if dest_path[0] == "":
dest_path = dest_path[1:]
# %CEn% to specify the install root is handled differently for
# links than it is for files/dirs.
match = re.match(r"\%CE(\d+)\%", dest_path[0])
if match:
base_dir = int(match.group(1))
dest_path = dest_path[1:]
else:
base_dir = 0
# Map dirs that make up the path to strings.
dictionary = self.cab_header.dictionary
dest_path = list(map(lambda x: dictionary.get(x), dest_path))
self.links.append((self.index, target_type, target_id,
base_dir, dest_path))
self.index += 1
self.length += 14 + 2 * len(dest_path)
def write(self, stream):
for i, target_type, target_id, base_dir, dest_path in self.links:
write_int16(stream, i)
write_int16(stream, 0)
write_int16(stream, base_dir)
write_int16(stream, target_id)
write_int16(stream, target_type)
write_int16(stream, 2 * len(dest_path) + 2)
for subdir in dest_path:
write_int16(stream, subdir)
write_int16(stream, 0)
class CabHeaderFile:
def __init__(self):
self.dictionary = StringDictionary(self)
self.directory_list = DirectoryList(self)
self.file_list = FileList(self)
self.sections = [
HeaderSection(self),
self.dictionary,
self.directory_list,
self.file_list,
RegHiveList(),
RegKeyList(),
LinkList(self)
]
def set_meta(self, *args):
header_section = self.get_section(HeaderSection)
header_section.set_meta(*args)
def add_file(self, filename, file_no, flags=0):
files_section = self.get_section(FileList)
files_section.add(filename, file_no, flags)
def add_link(self, target, destination):
links_section = self.get_section(LinkList)
links_section.add(target, destination)
def get_section(self, section_class):
for section in self.sections:
if isinstance(section, section_class):
return section
else:
raise Exception("Can't find section of class %s" % section_class)
def get_section_offset(self, section):
offset = 0
for s in self.sections:
if section is s:
return offset
offset += len(s)
else:
raise Exception("Section %s not found in list")
def __len__(self):
result = 0
for s in self.sections:
result += len(s)
return result
def write(self, stream):
old_pos = 0
for section in self.sections:
section.write(stream)
pos = stream.tell()
if pos != old_pos + len(section):
print(section)
raise Exception("Section is %i bytes long, but %i written" % \
(len(section), pos - old_pos))
old_pos = pos
class CabFile:
def __init__(self, config):
self.cab_header = CabHeaderFile()
self.__process_meta(config)
self.__process_files(config["files"])
if "links" in config:
self.__process_links(config["links"])
# Metadata:
def __process_meta(self, config):
arch = config.get("arch") or "strongarm"
app_name = config.get("app_name")
provider = config.get("provider")
unsupported = config.get("unsupported") or ""
if app_name is None or provider is None:
raise Exception("Application name and provider must be specified")
self.cab_header.set_meta(arch, app_name, provider, unsupported)
self.app_name = app_name
# Get the shortened 8.3 filename used for the specified file
# within the CAB.
def __shorten_name(self, filename, file_no):
# Strip down to base filename without extension:
basename = os.path.basename(filename)
if "." in basename:
basename = basename.rpartition(".")[0]
# Remove non-alphanumeric characters:
def only_alnum(x):
if x.isalnum():
return x
else:
return ""
cleaned_name = "".join(map(only_alnum, basename))
short_name = cleaned_name[0:8]
if len(short_name) < 8:
short_name = "0" * (8 - len(short_name)) + short_name
return "%s.%03i" % (short_name, file_no)
# Process the list of files to install:
def __process_files(self, files):
self.files = [ self.app_name ]
for filename, source_file in files.items():
file_no = len(self.files)
filename = expand_path(filename)
self.cab_header.add_file(filename, file_no)
self.files.append(source_file)
# Process the list of links:
def __process_links(self, links):
for destination, target in links.items():
target = expand_path(target)
destination = expand_path(destination)
self.cab_header.add_link(target, destination)
# Write the header file:
def __write_header(self, dir):
basename = self.__shorten_name(self.files[0], 0)
filename = os.path.join(dir, basename)
stream = open(filename, "wb")
self.cab_header.write(stream)
stream.close()
return [ filename ]
# Write the files:
def __write_files(self, dir):
result = []
for file_no in range(1, len(self.files)):
source_file = self.files[file_no]
basename = self.__shorten_name(source_file, file_no)
filename = os.path.join(dir, basename)
shutil.copy(source_file, filename)
result.append(filename)
return result
# Output to a file:
def write(self, filename):
temp_dir = tempfile.mkdtemp()
header = self.__write_header(temp_dir)
files = self.__write_files(temp_dir)
files.reverse()
args = [ "lcab", "-n" ] + header + files + [ filename ]
os.spawnlp(os.P_WAIT, "lcab", *args)
# Clean up:
for tmpfile in header + files:
os.remove(tmpfile)
os.rmdir(temp_dir)
def expand_path(filename):
# Replace Unix-style / path separators with DOS-style \
filename = filename.replace("/", "\\")
# Expand $(xyz) path variables to their Windows equivalents:
def replace_var(match):
var_name = match.group(1)
if not var_name in DIR_VARIABLES:
raise Exception("Unknown variable '%s'" % var_name)
else:
return DIR_VARIABLES[var_name]
return re.sub(r"\$\((.*?)\)", replace_var, filename)
def read_config_file(filename):
f = open(filename)
data = f.readlines()
data = "".join(data)
f.close()
prog = compile(data, filename, "exec")
result = {}
eval(prog, result)
return result
# List the files that the output CAB depends on.
def print_dependencies(filename):
config = read_config_file(filename)
files_list = config["files"]
for dest, source_file in files_list.items():
print(source_file)
if len(sys.argv) < 3:
print("Usage: %s <config file> <output file>" % sys.argv[0])
sys.exit(0)
if sys.argv[1] == "-d":
print_dependencies(sys.argv[2])
else:
config = read_config_file(sys.argv[1])
cab_file = CabFile(config)
cab_file.write(sys.argv[2])