#!/usr/bin/python # -*- coding: utf-8 -*- # Tool to embed file into objects __author__ = __maintainer__ = "Jérôme Carretero " __copyright__ = "Jérôme Carretero, 2014" """ This tool allows to embed file contents in object files (.o). It is not exactly portable, and the file contents are reachable using various non-portable fashions. The goal here is to provide a functional interface to the embedding of file data in objects. See the ``playground/embedded_resources`` example for an example. Usage:: bld( name='pipeline', # ^ Reference this in use="..." for things using the generated code features='file_to_object', source='some.file', # ^ Name of the file to embed in binary section. ) Known issues: - Destination is named like source, with extension renamed to .o eg. some.file -> some.o """ import os from waflib import Task, TaskGen, Errors def filename_c_escape(x): return x.replace("\\", "\\\\") class file_to_object_s(Task.Task): color = 'CYAN' vars = ['DEST_CPU', 'DEST_BINFMT'] def run(self): name = [] for i, x in enumerate(self.inputs[0].name): if x.isalnum(): name.append(x) else: name.append('_') file = self.inputs[0].abspath() size = os.path.getsize(file) if self.env.DEST_CPU in ('x86_64', 'ia', 'aarch64'): unit = 'quad' align = 8 elif self.env.DEST_CPU in ('x86','arm', 'thumb', 'm68k'): unit = 'long' align = 4 else: raise Errors.WafError("Unsupported DEST_CPU, please report bug!") file = filename_c_escape(file) name = "_binary_" + "".join(name) rodata = ".section .rodata" if self.env.DEST_BINFMT == "mac-o": name = "_" + name rodata = ".section __TEXT,__const" with open(self.outputs[0].abspath(), 'w') as f: f.write(\ """ .global %(name)s_start .global %(name)s_end .global %(name)s_size %(rodata)s %(name)s_start: .incbin "%(file)s" %(name)s_end: .align %(align)d %(name)s_size: .%(unit)s 0x%(size)x """ % locals()) class file_to_object_c(Task.Task): color = 'CYAN' def run(self): name = [] for i, x in enumerate(self.inputs[0].name): if x.isalnum(): name.append(x) else: name.append('_') file = self.inputs[0].abspath() size = os.path.getsize(file) name = "_binary_" + "".join(name) data = self.inputs[0].read('rb') lines, line = [], [] for idx_byte, byte in enumerate(data): line.append(byte) if len(line) > 15 or idx_byte == size-1: lines.append(", ".join(("0x%02x" % ord(x)) for x in line)) line = [] data = ",\n ".join(lines) self.outputs[0].write(\ """ unsigned long %(name)s_size = %(size)dL; char const %(name)s_start[] = { %(data)s }; char const %(name)s_end[] = {}; """ % locals()) @TaskGen.feature('file_to_object') @TaskGen.before_method('process_source') def tg_file_to_object(self): bld = self.bld sources = self.to_nodes(self.source) targets = [] for src in sources: if bld.env.F2O_METHOD == ["asm"]: tgt = src.parent.find_or_declare(src.name + '.f2o.s') tsk = self.create_task('file_to_object_s', src, tgt) tsk.cwd = src.parent.abspath() # verify else: tgt = src.parent.find_or_declare(src.name + '.f2o.c') tsk = self.create_task('file_to_object_c', src, tgt) tsk.cwd = src.parent.abspath() # verify targets.append(tgt) self.source = targets def configure(conf): conf.load('gas') conf.env.F2O_METHOD = ["c"]