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下期预告:在OpenHarmony的编译体系下编译speexdsp的so和测试用的可执行文件,以及编译报错的解决办法。
本期为移植speexdsp到OpenHarmony标准系统
的第③期,主要内容如下:
speexdsp移植后已提交至openhamrony sig仓库:https://gitee.com/openharmony-sig/contest/tree/master/2022_OpenHarmony_thirdparty/speexdsp
四、将三方库加入到OpenHarmony的编译体系
根据上一步分析结果,编写gn文件,将三方库加入到OpenHarmony的编译体系。
OpenHarmony编译构建子系统提供了一个基于Gn和ninja的编译构建框架。根据产品配置,编译生成对应的镜像包。其中编译构建流程为:
-
使用Gn配置构建目标。
-
Gn运行后会生成ninja文件。
-
通过运行ninja来执行编译任务。
OpenHarmony三方库编译环境搭建
本次移植时在openharmony3.2Beta1版本上运行的,所以需要准备openharmony3.2Beta1的源码。
先在Widows上安装虚拟机,在虚拟机上安装Ubuntu18.04或者20.04。笔者使用的为Ubuntu20.04。
1.将Ubuntu Shell
环境修改为bash
sudo dpkg-reconfigure dash
2.下载华为集成开发环境 DevEco Device Tool Linux版本,目前最新版本号为3.1.0.200
HUAWEI DevEco Device Tool(以下简称DevEco Device Tool)是OpenHarmony面向智能设备开发者提供的一站式集成开发环境,支持OpenHarmony的组件按需定制,支持代码编辑、编译、烧录和调试等功能,支持C/C++语言,以插件的形式部署在Visual Studio Code上。
-
直接在Ubuntu上打开firefox输入下载地址下载
-
解压DevEco Device Tool安装包,并对解压后的文件赋权
unzip devicetool-linux-tool-3.1.0.200.zip
chmod u+x devicetool-linux-tool-3.1.0.200.sh
-
安装DevEco Device
-
执行命令安装DevEco Device
sudo ./devicetool-linux-tool-3.1.0.200.sh
终端打印出这条信息说明安装成功
3.获取标准系统源码
执行命令sudo apt-get install git git-lfs
安装git客户端和git-lfs
git config
git config
git config
git config --global credential.helper store
执行这个命令会在本地生成一个文本,上边记录配置。然后再拉取代码就不用再输入账号信息了。
-
进入gitee官网个人主页,个人头像下方就是user.name
-
再进入设置点击邮箱管理就可以得到你的your-email-address
-
安装gitee码云repo工具
sudo apt-get install curl
sudo curl https:
sudo chmod a+x /usr/local/bin/repo
sudo pip3 install -i https:
创建源码存放目录
进入创建的源码存放目录,执行以下命令下载源码
sudo ln -sf /usr/bin/python3 /usr/bin/python
repo init -u https:
repo sync -c
repo forall -c 'git lfs pull'
3.在源码目录下执行脚本安装编译器及二进制工具
下载的prebuilts二进制默认存放在与OpenHarmony同目录下的OpenHarmony_2.0_canary_prebuilts下。
bash build/prebuilts_download.sh
4.安装依赖工具
sudo apt-get install binutils git git-lfs gnupg flex bison gperf build-essential zip curl zlib1g-dev gcc-multilib g++-multilib libc6-dev-i386 lib32ncurses5-dev x11proto-core-dev libx11-dev lib32z1-dev ccache libgl1-mesa-dev libxml2-utils xsltproc unzip m4 bc gnutls-bin python3.8 python3-pip ruby
5.最后测试一下OpenHarmony三方库编译环境
在源码根目录下执行编译命令
./build.sh --product-name rk3568 --ccache --build-target=要编译的部件名 --target-cpu arm64
#其中:--product-name rk3568 指定产品名为rk3568
#其中:--ccache 编译使用ccache
#其中:--target-cpu arm64 编译构建64位系统
在源码目录下执行编译zlib命令,生成libzlib.z.so
./build.sh --product-name rk3568 --ccache --build-target=zlib
编译生成了libzlib.z.so,编译环境没问题。
配置speexdsp源码
下载完openharmony3.2Beta1源码后,将speexdsp的源码拷贝到openhamony的third_party目录下。
在OpenHarmony/sources/third_party/speexdsp和OpenHarmony/sources/third_party/speexdsp/libspeexdsp下分别编写一份BUILD.gn文件,完成speexdsp的gn及测试用例的gn化。测试用例指的是测试speexdsp功能的程序。
speexdsp编译gn化,新增工程构建脚本。
OpenHarmony/sources/third_party/speexdsp下添加BUILD.gn脚本文件。
OpenHarmony/sources/third_party/speexdsp/BUILD.gn内容如下:
import("//build/ohos.gni")
config("speexdsp_nowarn_config"){
cflags = [
"-Wno-implicit-function-declaration",
"-Wno-pointer-sign",
"-Wno-unused-variable",
]
}
config("speexdsp_cflag_config"){
cflags = [
"-g",
"-O2",
"-fvisibility=hidden",
"-DHAVE_CONFIG_H",
]
ldflags = [
"-lm"
]
}
ohos_shared_library("speexdsp_share") {
sources = [
"libspeexdsp/preprocess.c",
"libspeexdsp/jitter.c",
"libspeexdsp/mdf.c",
"libspeexdsp/fftwrap.c",
"libspeexdsp/filterbank.c",
"libspeexdsp/resample.c",
"libspeexdsp/buffer.c",
"libspeexdsp/scal.c",
"libspeexdsp/smallft.c",
]
defines = [
"NL_DEBUG",
"speexdsp_EXPORTS",
]
configs = [
":speexdsp_cflag_config",
":speexdsp_nowarn_config"
]
include_dirs = [
".",
"libspeexdsp",
"include"
]
part_name = "speexdsp"
}
代码解析
第一行:
import("//build/ohos.gni")
import函数将ohos.gni文件导入到当前作用域。导入的文件是独立执行的,生成的作用域被复制到当前文件中。一个.gni文件会定义构建参数和模板。build目录下ohos.gni文件内容如下
import("//build/config/sanitizers/sanitizers.gni")
import("//build/ohos/ndk/ndk.gni")
import("//build/ohos/notice/notice.gni")
import("//build/ohos/sa_profile/sa_profile.gni")
import("//build/ohos_var.gni")
import("//build/toolchain/toolchain.gni")
import("//build/templates/cxx/cxx.gni")
if (support_jsapi) {
import("//build/ohos/ace/ace.gni")
import("//build/ohos/app/app.gni")
}
import("//build/templates/common/ohos_templates.gni")
import("//build/templates/cxx/prebuilt.gni")
第三行到第九行:
config("speexdsp_nowarn_config"){
cflags = [
"-Wno-implicit-function-declaration",
"-Wno-pointer-sign",
"-Wno-unused-variable",
]
}
-
configs定义了该模块编译配置的环境变量speexdsp_nowarn_config,第24行ohos_shared_library定义了最终生成的模块名,这里代表此模块为最终生成libspeexdsp.z.so。所以在第五行到第七行中config中添加了编译libspeexdsp.z.so需要添加的编译器标志
-
但是"-Wno-implicit-function-declaration"、"-Wno-pointer-sign""、-Wno-unused-variable"并非是分析speexdsp原生库得来的cflag编译器标志。
-
而是后来在ohos上编译验证过程中,根据编译报错信息添加的。如果不添加它们,执行./build.sh --product-name rk3568 --ccache --build-target=speexdsp命令后,则无法编译生成openharmony上的运行的libspeexdsp.z.so库,会出现编译警告信息-W-implicit-function-declaration、-W-pointer-sign、-W-unused-variable。解决办法就是在gn化时添加cflag标志"-Wno-implicit-function-declaration"、"-Wno-pointer-sign""、-Wno-unused-variable"。
-
clang编译器警告消除:
1.出现警告的就是直接在-W后面加no,比如-Wimplicit-function-declaration改为 -Wno-implicit-function-declaration
2.还有另外的一种方法:-Wimplicit-function-declaration=no
第十一到第二十二行:
config("speexdsp_cflag_config"){
cflags = [
"-g",
"-O2",
"-fvisibility=hidden",
"-DHAVE_CONFIG_H",
]
ldflags = [
"-lm"
]
}
-
configs定义了该模块编译配置的环境变量speexdsp_cflag_config,在第十三行到第十六行添加了编译需要添加的编译器标志 "-g","-O2","-fvisibility=hidden", "-DHAVE_CONFIG_H"。
-
"-g","-O2","-fvisibility=hidden"通过分析原生库config.log和makefile文件,具体请查看第二期内容。
-
"-DHAVE_CONFIG_H"通过分析执行build命令后编译ohos上speexdsp的so库报错信息得来
-
添加"-DHAVE_CONFIG_H"后仍然有报错信息,解决办法是把linux下编译speexdsp原生库./configure后生成的config.h放置在thrid_party/speexdsp下。
第二十四行到第五十二行:
ohos_shared_library("speexdsp_share") {
sources = [
"libspeexdsp/preprocess.c",
"libspeexdsp/jitter.c",
"libspeexdsp/mdf.c",
"libspeexdsp/fftwrap.c",
"libspeexdsp/filterbank.c",
"libspeexdsp/resample.c",
"libspeexdsp/buffer.c",
"libspeexdsp/scal.c",
"libspeexdsp/smallft.c",
]
defines = [
"NL_DEBUG",
"speexdsp_EXPORTS",
]
configs = [
":speexdsp_cflag_config",
":speexdsp_nowarn_config"
]
include_dirs = [
".",
"libspeexdsp",
"include"
]
part_name = "speexdsp"
}
-
第24行ohos_shared_library定义了最终生成的模块名,这里代表此模块为最终生成libspeexdsp.z.so/动态库
如果是生成静态库ohos_static_library(" ") { }
-
第二十五行到第三十五行sources模块包含了需要编译的源码文件
-
第四十六行到五十行include_dirs模块包含了编译依赖的头文件路径
-
第五十一行part_name 该模块编译依赖的编译子系统组件名。该配置项是为了模块最终生成的so文件能在系统编译完后自动拷贝到系统目录中。如果没有配置该项,系统编译完后是不会自动将生成的so文件拷贝到系统目录。
测试用例gn化,新增工程构建脚本
OpenHarmony/sources/third_party/speexdsp/libspeexdsp下添加BUILD.gn脚本文件。
import("//build/ohos.gni")
config("test_nowarn_config"){
cflags = [
"-Wno-sign-compare",
"-Wno-pointer-sign"
]
}
config("speexdsp_cflag_config") {
ldflags = [ "-lm" ]
cflags_cc = [
"-g",
"-O2",
"-fvisibility=hidden",
]
}
config("speexdsp_config") {
include_dirs = [
"//third_party/speexdsp/include"
]
}
ohos_executable("testdenoise"){
public_configs = [
":speexdsp_config",
":test_nowarn_config"
]
sources = [
"testdenoise.c"
]
configs = [
":speexdsp_cflag_config",
]
deps = [
"//third_party/speexdsp:speexdsp_share"
]
part_name = "speexdsp"
}
ohos_executable("testecho"){
public_configs = [
":speexdsp_config",
":test_nowarn_config"
]
sources = [
"testecho.c"
]
configs = [
":speexdsp_cflag_config"
]
deps = [
"//third_party/speexdsp:speexdsp_share"
]
part_name = "speexdsp"
}
ohos_executable("testjitter"){
public_configs = [
":speexdsp_config",
":test_nowarn_config"
]
sources = [
"testjitter.c"
]
configs = [
":speexdsp_cflag_config"
]
deps = [
"//third_party/speexdsp:speexdsp_share"
]
part_name = "speexdsp"
}
ohos_executable("testresample"){
public_configs = [
":speexdsp_config",
":test_nowarn_config"
]
sources = [
"testresample.c"
]
configs = [
":speexdsp_cflag_config"
]
deps = [
"//third_party/speexdsp:speexdsp_share"
]
part_name = "speexdsp"
}
ohos_executable("testresample2"){
public_configs = [
":speexdsp_config",
":test_nowarn_config"
]
sources = [
"testresample2.c"
]
configs = [
":speexdsp_cflag_config"
]
deps = [
"//third_party/speexdsp:speexdsp_share"
]
part_name = "speexdsp"
}
代码解析
测试用例gn化代码解析的内容与speexdsp编译gn化内容相似,这里不做重复解释,只补充以下几点。
-
测试用例是在ohos上测试libspeexdsp.z.so功能用的。
-
第28、48、68、88、108行:gn中的目标类型executable表示生成可执行文件testdenoise、testecho、testjitter、testresample、testresample2。
-
第41、61、81、101、121行:deps表示测试用例模块编译依赖其他模块,这里指的是测试用例的编译依赖。libspeexdsp.z.so库。
-
第45、65、85、105、125行:part_name表示测试用例模块编译依赖的编译子系统组件名。该配置项是为了模块最终生成的so文件能在系统编译完后自动拷贝到系统目录中。如果没有配置该项,系统编译完后是不会自动将生成的so文件拷贝到系统目录。
OpenHarmony/sources/third_party/speexdsp目录下添加ohos.build。
-
定义子系统并加入到编译框架
在系统源码根目录下创建一个目录作为子系统目录,子系统目录可创建在OpenHarmony源码目录任意位置。
-
本项目以third_party/speexdsp作为为子系统目录,子系统名字即为speexdsp。
子系统speexdsp目录下创建ohos.build文件,build构建时会先读取该文件。
"subsystem": "speexdsp",
"parts": {
"speexdsp": {
"module_list": [
"//third_party/speexdsp/libspeexdsp:testdenoise",
"//third_party/speexdsp/libspeexdsp:testecho",
"//third_party/speexdsp/libspeexdsp:testjitter",
"//third_party/speexdsp/libspeexdsp:testresample",
"//third_party/speexdsp/libspeexdsp:testresample2"
],
"inner_kits": [
],
"system_kits": [
],
"test_list": [
]
}
}
}
-
build文件夹下的subsystem_config.json文件,主要包含子系统名称与路径信息,在preloader阶段被加载,根据子系统名称和路径信息查找该路径下的ohos.build文件。
-
其中需要包含module_list、inner_kits、system_kits、test_list四个部分的声明:
-
module_list:部件包含的模块列表
-
inner_kits:部件提供其它部件的接口
-
system_kits:部件提供给生成应用的接口
-
test_list:部件对应模块的测试用例
修改build/subsystem_config.json,新增子系统定义。
在源码/build/subsystem_config.json中增加子系统选项,把子系统speexdsp配置到build/subsystem_config.json。
"speexdsp": {
"path": "third_party/speexdsp",
"name": "speexdsp"
},
注意:要求符合json语法规范,要在}
前加,
(如下图所示)
修改vendor/hihope/rk3568/config.json文件将speexdsp添加至rk3568开发板,在vendor目录下新增产品的定义。
将子系统及其组件加入产品定义中,以rk3568为例,产品定义文件在vendor/hihope/rk3568/config.json,需要将以下内容添加到config.json中:
{
"subsystem": "speexdsp",
"components": [
{
"component": "speexdsp",
"features": []
}
]
},
下期分享内容:在OpenHarmony的编译体系下编译speexdsp的so和测试用的可执行文件,以及编译报错的解决办法
知识点附送
本文中知识点附送
的内容并不和移植speexdsp到openharmony标准系统
直接相关,仅作为拓展阅读的知识点,因此读者可以不作过细的了解。
gn
generate ninja工具,在out目录下生成ninja编译文件*.ninja,gn的可执行文件位置在prebuilts/build-tools/linux-x86目录里
jiajiahao@ubuntu:~/Desktop/OpenHarmony/sources/prebuilts/build-tools/linux-x86/bin$ ./gn --help
Commands (type "gn help " for more help):
analyze: Analyze which targets are affected by a list of files.
args: Display or configure arguments declared by the build.
check: Check header dependencies.
clean: Cleans the output directory.
desc: Show lots of insightful information about a target or config.
format: Format .gn files.
gen: Generate ninja files.
help: Does what you think.
ls: List matching targets.
meta: List target metadata collection results.
path: Find paths between two targets.
refs: Find stuff referencing a target or file.
Target declarations (type "gn help " for more help):
action: Declare a target that runs a script a single time.
action_foreach: Declare a target that runs a script over a set of files.
bundle_data: [iOS/macOS] Declare a target without output.
copy: Declare a target that copies files.
create_bundle: [iOS/macOS] Build an iOS or macOS bundle.
executable: Declare an executable target.
generated_file: Declare a generated_file target.
group: Declare a named group of targets.
loadable_module: Declare a loadable module target.
rust_library: Declare a Rust library target.
rust_proc_macro: Declare a Rust procedural macro target.
shared_library: Declare a shared library target.
source_set: Declare a source set target.
static_library: Declare a static library target.
target: Declare an target with the given programmatic type.
Buildfile functions (type "gn help " for more help):
assert: Assert an expression is true at generation time.
config: Defines a configuration object.
declare_args: Declare build arguments.
defined: Returns whether an identifier is defined.
exec_script: Synchronously run a script and return the output.
foreach: Iterate over a list.
forward_variables_from: Copies variables from a different scope.
get_label_info: Get an attribute from a target's label.
get_path_info: Extract parts of a file or directory name.
get_target_outputs: [file list] Get the list of outputs from a target.
getenv: Get an environment variable.
import: Import a file into the current scope.
not_needed: Mark variables from scope as not needed.
pool: Defines a pool object.
print: Prints to the console.
process_file_template: Do template expansion over a list of files.
read_file: Read a file into a variable.
rebase_path: Rebase a file or directory to another location.
set_default_toolchain: Sets the default toolchain name.
set_defaults: Set default values for a target type.
set_sources_assignment_filter: Set a pattern to filter source files.
split_list: Splits a list into N different sub-lists.
string_join: Concatenates a list of strings with a separator.
string_replace: Replaces substring in the given string.
string_split: Split string into a list of strings.
template: Define a template rule.
tool: Specify arguments to a toolchain tool.
toolchain: Defines a toolchain.
write_file: Write a file to disk.
Built-in predefined variables (type "gn help " for more help):
current_cpu: [string] The processor architecture of the current toolchain.
current_os: [string] The operating system of the current toolchain.
current_toolchain: [string] Label of the current toolchain.
default_toolchain: [string] Label of the default toolchain.
gn_version: [number] The version of gn.
host_cpu: [string] The processor architecture that GN is running on.
host_os: [string] The operating system that GN is running on.
invoker: [string] The invoking scope inside a template.
python_path: [string] Absolute path of Python.
root_build_dir: [string] Directory where build commands are run.
root_gen_dir: [string] Directory for the toolchain's generated files.
root_out_dir: [string] Root directory for toolchain output files.
target_cpu: [string] The desired cpu architecture for the build.
target_gen_dir: [string] Directory for a target's generated files.
target_name: [string] The name of the current target.
target_os: [string] The desired operating system for the build.
target_out_dir: [string] Directory for target output files.
Variables you set in targets (type "gn help " for more help):
aliased_deps: [scope] Set of crate-dependency pairs.
all_dependent_configs: [label list] Configs to be forced on dependents.
allow_circular_includes_from: [label list] Permit includes from deps.
arflags: [string list] Arguments passed to static_library archiver.
args: [string list] Arguments passed to an action.
asmflags: [string list] Flags passed to the assembler.
assert_no_deps: [label pattern list] Ensure no deps on these targets.
bundle_contents_dir: Expansion of {{bundle_contents_dir}} in create_bundle.
bundle_deps_filter: [label list] A list of labels that are filtered out.
bundle_executable_dir: Expansion of {{bundle_executable_dir}} in create_bundle
bundle_resources_dir: Expansion of {{bundle_resources_dir}} in create_bundle.
bundle_root_dir: Expansion of {{bundle_root_dir}} in create_bundle.
cflags: [string list] Flags passed to all C compiler variants.
cflags_c: [string list] Flags passed to the C compiler.
cflags_cc: [string list] Flags passed to the C++ compiler.
cflags_objc: [string list] Flags passed to the Objective C compiler.
cflags_objcc: [string list] Flags passed to the Objective C++ compiler.
check_includes: [boolean] Controls whether a target's files are checked.
code_signing_args: [string list] Arguments passed to code signing script.
code_signing_outputs: [file list] Output files for code signing step.
code_signing_script: [file name] Script for code signing.
code_signing_sources: [file list] Sources for code signing step.
complete_static_lib: [boolean] Links all deps into a static library.
configs: [label list] Configs applying to this target or config.
contents: Contents to write to file.
crate_name: [string] The name for the compiled crate.
crate_root: [string] The root source file for a binary or library.
crate_type: [string] The type of linkage to use on a shared_library.
data: [file list] Runtime data file dependencies.
data_deps: [label list] Non-linked dependencies.
data_keys: [string list] Keys from which to collect metadata.
defines: [string list] C preprocessor defines.
depfile: [string] File name for input dependencies for actions.
deps: [label list] Private linked dependencies.
externs: [scope] Set of Rust crate-dependency pairs.
framework_dirs: [directory list] Additional framework search directories.
frameworks: [name list] Name of frameworks that must be linked.
friend: [label pattern list] Allow targets to include private headers.
include_dirs: [directory list] Additional include directories.
inputs: [file list] Additional compile-time dependencies.
ldflags: [string list] Flags passed to the linker.
lib_dirs: [directory list] Additional library directories.
libs: [string list] Additional libraries to link.
metadata: [scope] Metadata of this target.
output_conversion: Data format for generated_file targets.
output_dir: [directory] Directory to put output file in.
output_extension: [string] Value to use for the output's file extension.
output_name: [string] Name for the output file other than the default.
output_prefix_override: [boolean] Don't use prefix for output name.
outputs: [file list] Output files for actions and copy targets.
partial_info_plist: [filename] Path plist from asset catalog compiler.
pool: [string] Label of the pool used by the action.
precompiled_header: [string] Header file to precompile.
precompiled_header_type: [string] "gcc" or "msvc".
precompiled_source: [file name] Source file to precompile.
product_type: [string] Product type for Xcode projects.
public: [file list] Declare public header files for a target.
public_configs: [label list] Configs applied to dependents.
public_deps: [label list] Declare public dependencies.
rebase: [boolean] Rebase collected metadata as files.
response_file_contents: [string list] Contents of .rsp file for actions.
script: [file name] Script file for actions.
sources: [file list] Source files for a target.
testonly: [boolean] Declares a target must only be used for testing.
visibility: [label list] A list of labels that can depend on a target.
walk_keys: [string list] Key(s) for managing the metadata collection walk.
write_runtime_deps: Writes the target's runtime_deps to the given path.
xcode_extra_attributes: [scope] Extra attributes for Xcode projects.
xcode_test_application_name: [string] Name for Xcode test target.
Other help topics:
all: Print all the help at once
buildargs: How build arguments work.
dotfile: Info about the toplevel .gn file.
execution: Build graph and execution overview.
grammar: Language and grammar for GN build files.
input_conversion: Processing input from exec_script and read_file.
label_pattern: Matching more than one label.
labels: About labels.
metadata_collection: About metadata and its collection.
ninja_rules: How Ninja build rules are named.
nogncheck: Annotating includes for checking.
output_conversion: Specifies how to transform a value to output.
runtime_deps: How runtime dependency computation works.
source_expansion: Map sources to outputs for scripts.
switches: Show available command-line switches.
ninja
ninja构建工具,编译时根据gn生成的*.ninja文件进行编译构建,ninjiad的可执行文件位置在prebuilts/build-tools/linux-x86目录里
jiajiahao@ubuntu:~/Desktop/OpenHarmony/sources/prebuilts/build-tools/linux-x86/bin$ ./ninja --help
usage: ninja [options] [targets...]
if targets are unspecified, builds the 'default' target (see manual).
options:
--version print ninja version ("1.10.1")
-v, --verbose show all command lines while building
-C DIR change to DIR before doing anything else
-f FILE specify input build file [default=build.ninja]
-j N run N jobs in parallel (0 means infinity) [default=18 on this system]
-k N keep going until N jobs fail (0 means infinity) [default=1]
-l N do not start new jobs if the load average is greater than N
-n dry run (don't run commands but act like they succeeded)
-d MODE enable debugging (use '-d list' to list modes)
-t TOOL run a subtool (use '-t list' to list subtools)
terminates toplevel options; further flags are passed to the tool
-w FLAG adjust warnings (use '-w list' to list warnings)
关于deps、external_deps的使用
在添加一个模块的时候,需要在BUILD.gn中声明它的依赖,为了便于后续处理部件间依赖关系,我们将依赖分为两种——部件内依赖deps和部件间依赖external_deps。
依赖分类:
如上图所示,主要分为部件内依赖(图左)和部件间依赖(图右)。
部件内依赖: 现有模块module1属于部件part1,要添加一个属于部件part1的模块module2,module2依赖于module1,这种情况就属于部件内依赖。
部件间依赖: 现有模块module1属于部件part1,要添加一个模块module2,module2依赖于module1,module2属于部件part2。模块module2与模块module1分属于两个不同的部件,这种情况就属于部件间依赖。
部件内依赖示例:
import("//build/ohos.gni")
ohos_shared_library("module1") {
……
part_name = "part1" # 必选,所属部件名称
……
}
import("//build/ohos.gni")
ohos_shared_library("module2") {
……
deps = [
"module1的gn target",
……
] # 部件内模块依赖
part_name = "part1" # 必选,所属部件名称
}
部件间依赖示例:
import("//build/ohos.gni")
ohos_shared_library("module1") {
……
part_name = "part1" # 必选,所属部件名称
……
}
import("//build/ohos.gni")
ohos_shared_library("module2") {
……
external_deps = [
"part1:module1",
……
] # 部件间模块依赖,这里依赖的模块必须是依赖的部件声明在inner_kits中的模块
part_name = "part2" # 必选,所属部件名称
}
注意:部件间依赖要写在external_deps里面,格式为”部件名:模块名"的形式,并且依赖的模块必须是依赖的部件声明在inner_kits中的模块。
查看.ninja_log文件可以知道每个模块编译的开始和结束时间
out/rk3568/.ninja_log文件记录了每个模块编译的开始和结束时间(ms),结束时间和开始时间间隔越短表示模块的编译时间越短,编译性能越高。
从左到右分别表示:start time|end time|mtime|command hash。
mtime(modify time)显示的是文件内容被修改的最后时间
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