mbed-os/workspace_tools/build_api.py

"""
mbed SDK
Copyright (c) 2011-2013 ARM Limited

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

    http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
"""
from os.path import join, exists, basename
from shutil import rmtree
from types import ListType

from workspace_tools.utils import mkdir
from workspace_tools.toolchains import TOOLCHAIN_CLASSES
from workspace_tools.paths import MBED_TARGETS_PATH, MBED_LIBRARIES, MBED_API, MBED_HAL, MBED_COMMON
from workspace_tools.libraries import Library


def build_project(src_path, build_path, target, toolchain_name,
        libraries_paths=None, options=None, linker_script=None,
        clean=False, notify=None, verbose=False, name=None, macros=None):
    # Toolchain instance
    toolchain = TOOLCHAIN_CLASSES[toolchain_name](target, options, notify, macros)
    toolchain.VERBOSE = verbose
    toolchain.build_all = clean

    src_paths = [src_path] if type(src_path) != ListType else src_path
    if name is None:
        name = basename(src_paths[0])
    toolchain.info("\n>>> BUILD PROJECT: %s (%s, %s)" % (name.upper(), target.name, toolchain_name))
    
    # Scan src_path and libraries_paths for resources
    resources = toolchain.scan_resources(src_paths[0])
    for path in src_paths[1:]:
        resources.add(toolchain.scan_resources(path))
    if libraries_paths is not None:
        src_paths.extend(libraries_paths)
        for path in libraries_paths:
            resources.add(toolchain.scan_resources(path))
    
    if linker_script is not None:
        resources.linker_script = linker_script
    
    # Build Directory
    if clean:
        if exists(build_path):
            rmtree(build_path)
    mkdir(build_path)
    
    # Compile Sources
    for path in src_paths:
        src = toolchain.scan_resources(path)
        objects = toolchain.compile_sources(src, build_path, resources.inc_dirs)
        resources.objects.extend(objects)
    
    # Link Program
    return toolchain.link_program(resources, build_path, name)


"""
src_path: the path of the source directory
build_path: the path of the build directory
target: ['LPC1768', 'LPC11U24', 'LPC2368']
toolchain: ['ARM', 'uARM', 'GCC_ARM', 'GCC_CS', 'GCC_CR']
library_paths: List of paths to additional libraries
clean: Rebuild everything if True
notify: Notify function for logs
verbose: Write the actual tools command lines if True
"""
def build_library(src_paths, build_path, target, toolchain_name,
         dependencies_paths=None, options=None, name=None, clean=False,
         notify=None, verbose=False, macros=None):
    if type(src_paths) != ListType: src_paths = [src_paths]
    
    for src_path in src_paths:
        if not exists(src_path):
            raise Exception("The library source folder does not exist: %s", src_path)
    
    # Toolchain instance
    toolchain = TOOLCHAIN_CLASSES[toolchain_name](target, options, notify, macros)
    toolchain.VERBOSE = verbose
    toolchain.build_all = clean
    
    # The first path will give the name to the library
    name = basename(src_paths[0])
    toolchain.info("\n>>> BUILD LIBRARY %s (%s, %s)" % (name.upper(), target.name, toolchain_name))
    
    # Scan Resources
    resources = []
    for src_path in src_paths:
        resources.append(toolchain.scan_resources(src_path))
    
    # Dependencies Include Paths
    dependencies_include_dir = []
    if dependencies_paths is not None:
        for path in dependencies_paths:
            lib_resources = toolchain.scan_resources(path)
            dependencies_include_dir.extend(lib_resources.inc_dirs)
    
    # Create the desired build directory structure
    bin_path = join(build_path, toolchain.obj_path)
    mkdir(bin_path)
    tmp_path = join(build_path, '.temp', toolchain.obj_path)
    mkdir(tmp_path)
    
    # Copy Headers
    for resource in resources:
        toolchain.copy_files(resource.headers, build_path, rel_path=resource.base_path)
    dependencies_include_dir.extend(toolchain.scan_resources(build_path).inc_dirs)
    
    # Compile Sources
    objects = []
    for resource in resources:
        objects.extend(toolchain.compile_sources(resource, tmp_path, dependencies_include_dir))
    
    toolchain.build_library(objects, bin_path, name)


def build_lib(lib_id, target, toolchain, options=None, verbose=False, clean=False, macros=None):
    lib = Library(lib_id)
    if lib.is_supported(target, toolchain):
        build_library(lib.source_dir, lib.build_dir, target, toolchain,
                      lib.dependencies, options,
                      verbose=verbose, clean=clean, macros=macros)
    else:
        print '\n\nLibrary "%s" is not yet supported on target %s with toolchain %s' % (lib_id, target.name, toolchain)


# We do have unique legacy conventions about how we build and package the mbed library
def build_mbed_libs(target, toolchain_name, options=None, verbose=False, clean=False, macros=None):
    # Check toolchain support
    if toolchain_name not in target.supported_toolchains:
        print '\n%s target is not yet supported by toolchain %s' % (target.name, toolchain_name)
        return
    
    # Toolchain
    toolchain = TOOLCHAIN_CLASSES[toolchain_name](target, options, macros=macros)
    toolchain.VERBOSE = verbose
    toolchain.build_all = clean
    
    # Source and Build Paths
    BUILD_TARGET = join(MBED_LIBRARIES, "TARGET_" + target.name)
    BUILD_TOOLCHAIN = join(BUILD_TARGET, "TOOLCHAIN_" + toolchain.name)
    mkdir(BUILD_TOOLCHAIN)
    
    TMP_PATH = join(MBED_LIBRARIES, '.temp', toolchain.obj_path)
    mkdir(TMP_PATH)
    
    # CMSIS
    toolchain.info("\n>>> BUILD LIBRARY %s (%s, %s)" % ('CMSIS', target.name, toolchain_name))
    cmsis_src = join(MBED_TARGETS_PATH, "cmsis")
    resources = toolchain.scan_resources(cmsis_src)
    
    toolchain.copy_files(resources.headers, BUILD_TARGET)
    toolchain.copy_files(resources.linker_script, BUILD_TOOLCHAIN)
    
    objects = toolchain.compile_sources(resources, TMP_PATH)
    toolchain.copy_files(objects, BUILD_TOOLCHAIN)
    
    # mbed
    toolchain.info("\n>>> BUILD LIBRARY %s (%s, %s)" % ('MBED', target.name, toolchain_name))
    
    # Common Headers
    toolchain.copy_files(toolchain.scan_resources(MBED_API).headers, MBED_LIBRARIES)
    toolchain.copy_files(toolchain.scan_resources(MBED_HAL).headers, MBED_LIBRARIES)
    
    # Target specific sources
    HAL_SRC = join(MBED_TARGETS_PATH, "hal")
    hal_implementation = toolchain.scan_resources(HAL_SRC)
    toolchain.copy_files(hal_implementation.headers, BUILD_TARGET)
    objects  = toolchain.compile_sources(hal_implementation, TMP_PATH, [MBED_LIBRARIES, BUILD_TARGET])
    
    # Common Sources
    mbed_resources = toolchain.scan_resources(MBED_COMMON)
    objects += toolchain.compile_sources(mbed_resources, TMP_PATH, [MBED_LIBRARIES, BUILD_TARGET])
    
    # Keep retargeting as a standalone object to be sure the
    # C standard library symbols get overridden
    retargeting = None
    for o in objects:
        if o.endswith('retarget.o'):
            retargeting = o
    objects.remove(retargeting)
    toolchain.build_library(objects, BUILD_TOOLCHAIN, "mbed")
    toolchain.copy_files(retargeting, BUILD_TOOLCHAIN)