一、 介绍
三方库指其他公司或者组织提供的服务或者模块,例如常见的开源 OpenCV 库,能持续繁荣 OpenAtom OpenHarmony(简称“OpenHarmony”)的生态建设。本文介绍如何在 RK3568 开发板上成功移植 OpenJPEG 开源库。OpenJPEG 是一个用 C 语言编写的开源 jpeg 2000 编解码器,可以对图片进行深度压缩和解压等。下面以 OpenJPEG 为例,总结移植三方库到 OpenHarmony 的经验。二、开发步骤
三方库主要是基于标准 Linux 系统的 c/c++ 开源库,所以三方库的移植工作,首先是在标准 Linux 系统搭建环境、编译与验证,然后将三方库的编译加入到 OpenHarmony 工程的构建中。
三方库移植的主要开发步骤如下:
1.在标准Linux系统下载三方库源码,搭建开发环境,编译整个源码工程;
2.分析在标准Linux系统的编译过程文件,提取编译需要的源文件、编译依赖等信息;
3.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;
4.验证编译结果,在OpenHarmony的out目录是否生成目标库;
5.测试demo/测试单元用例执行。
注:标准系统编译构方法可参考 标准系统编译构建指导
https://gitee.com/openharmony/docs/blob/master/zh-cn/device-dev/subsystems/subsys-build-standard-large.md
三、开源库的下载与编译
下面以 OpenJPEG 开源库为例,详细的介绍开发流程。
1.搜索OpenJPEG开源库
本示例的代码库链接地址:https://github.com/uclouvain/openjpeg
2.下载代码
在 OpenHarmony/third_party 目录下,输入以下命令克隆 OpenJPEG 的源代码:
git clone git@github.com:uclouvain/openjpeg.git
然后切换到 openjpeg-2.1 分支:
git checkout -b openjp-2.1
3. 执行编译
代码仓库的 INSTALL.md 中详细介绍了使用 CMake 编译 OpenJPEG 库的步骤。本文参考该文档编译了 OpenJPEG 库。若在移植过程中对该库的编译选项有疑惑的地方,可参考该文档。INSTALL 文档中详细的介绍了编译步骤,如下图:
可以按以上信息,根据如下步骤编译 openjpeg 工程,具体如下:
在 openjpeg 的目录下,按以下步骤编译:
mkdir buildcd buildcmake .. -DCMAKE_BUILD_TYPE=Releasemake
4. 编译过程
整个编译过程如下:
water@ubuntu:~/openjpeg/openjpeg/build$ make[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/thread.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/bio.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/cio.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/dwt.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/event.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/ht_dec.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/image.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/invert.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/j2k.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/jp2.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/mct.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/mqc.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/openjpeg.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/opj_clock.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/pi.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/t1.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/t2.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/tcd.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/tgt.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/function_list.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/opj_malloc.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2_static.dir/sparse_array.c.o[] Linking C static library ../../../bin/libopenjp2.a[] Built target openjp2_static[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/thread.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/bio.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/cio.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/dwt.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/event.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/ht_dec.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/image.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/invert.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/j2k.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/jp2.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/mct.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/mqc.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/openjpeg.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/opj_clock.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/pi.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/t1.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/t2.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/tcd.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/tgt.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/function_list.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/opj_malloc.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/sparse_array.c.o[] Linking C shared library ../../../bin/libopenjp2.so[] Built target openjp2[] Building C object src/bin/jp2/CMakeFiles/opj_dump.dir/opj_dump.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_dump.dir/convert.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_dump.dir/convertbmp.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_dump.dir/index.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_dump.dir/__/common/color.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_dump.dir/__/common/opj_getopt.c.o[] Linking C executable ../../../bin/opj_dump[] Built target opj_dump[] Building C object src/bin/jp2/CMakeFiles/opj_compress.dir/opj_compress.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_compress.dir/convert.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_compress.dir/convertbmp.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_compress.dir/index.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_compress.dir/__/common/color.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_compress.dir/__/common/opj_getopt.c.o[] Linking C executable ../../../bin/opj_compress[] Built target opj_compress[] Building C object src/bin/jp2/CMakeFiles/opj_decompress.dir/opj_decompress.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_decompress.dir/convert.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_decompress.dir/convertbmp.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_decompress.dir/index.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_decompress.dir/__/common/color.c.o[] Building C object src/bin/jp2/CMakeFiles/opj_decompress.dir/__/common/opj_getopt.c.o[] Linking C executable ../../../bin/opj_decompress[] Built target opj_decompress
依据上述信息中生成 openjp2 库(libopenjp2.so)的过程可以知道编译库需要的 C 源文件,具体内如下所示:
[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/thread.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/bio.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/cio.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/dwt.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/event.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/ht_dec.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/image.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/invert.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/j2k.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/jp2.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/mct.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/mqc.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/openjpeg.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/opj_clock.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/pi.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/t1.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/t2.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/tcd.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/tgt.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/function_list.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/opj_malloc.c.o[] Building C object src/lib/openjp2/CMakeFiles/openjp2.dir/sparse_array.c.o[] Linking C shared library ../../../bin/libopenjp2.so[] Built target openjp2
有了以上信息我们可以在后续分析的编译文件中对比验证,编译库需要的源文件。
5. 查看结果
整个的 build 目录结构如下:
water@ubuntu:~/openjpeg/openjpeg/build$ tree -L 2.├── bin│ ├── libopenjp2.a│ ├── libopenjp2.so -> libopenjp2.so.7│ ├── libopenjp2.so.2.5.0│ ├── libopenjp2.so.7 -> libopenjp2.so.2.5.0│ ├── opj_compress│ ├── opj_decompress│ └── opj_dump├── CMakeCache.txt├── CMakeFiles│ ├── 3.16.3│ ├── CheckIncludeFiles│ ├── CheckTypeSize│ ├── cmake.check_cache│ ├── CMakeDirectoryInformation.cmake│ ├── CMakeError.log│ ├── CMakeOutput.log│ ├── CMakeTmp│ ├── Export│ ├── Makefile2│ ├── Makefile.cmake│ ├── progress.marks│ ├── TargetDirectories.txt│ ├── TestEndianess.bin│ └── TestLargeFiles.c├── cmake_install.cmake├── CPackConfig.cmake├── CPackSourceConfig.cmake├── CTestCustom.cmake├── libopenjp2.pc├── LICENSE.txt├── Makefile├── OpenJPEGConfig.cmake├── src│ ├── bin│ └── lib├── thirdparty│ ├── CMakeFiles│ ├── cmake_install.cmake│ └── Makefile└── wrapping├── CMakeFiles├── cmake_install.cmake└── Makefile
四、 分析编译过程
1. 查看生成的库
首先在 openjpeg/build/bin 目录可以看出我们需要编译生成的目标文件,分别为 libopenjp2.a、libopenjp2.so.2.5.0、opj_compress、opj_decompress、opj_dump,还有一些链接符号,经过阅读代码发现 opj_compress、opj_decompress 和 opj_dump 为一些测试相关的文件,因此可以不加入到代码工程。
2. 分析生成过程
从 build 目录下的 Makefile 开始分析生成 libopenjp2.so 所依赖的 C 源文件、cflag 标志、需要包含的头文件和需要链接的库等信息。
在 openjpeg/build/Makefile 中,可以找到如下信息:
#=============================================================================# Target rules for targets named openjp2# Build rule for target.openjp2: cmake_check_build_system$(MAKE) -f CMakeFiles/Makefile2 openjp2.PHONY : openjp2# fast build rule for target.openjp2/fast:$(MAKE) -f src/lib/openjp2/CMakeFiles/openjp2.dir/build.make src/lib/openjp2/CMakeFiles/openjp2.dir/build.PHONY : openjp2/fast
由上述信息可以发现生成 openjp2 目标是依赖 CMakeFiles/Makefile2 文件。
因此再分析 openjpeg/build/CMakeFiles/Makefile2 这个文件,具体内如下:
src/lib/openjp2/CMakeFiles/openjp2.dir/all:$(MAKE) -f src/lib/openjp2/CMakeFiles/openjp2.dir/build.make src/lib/openjp2/CMakeFiles/openjp2.dir/depend$(MAKE) -f src/lib/openjp2/CMakeFiles/openjp2.dir/build.make src/lib/openjp2/CMakeFiles/openjp2.dir/build@$(CMAKE_COMMAND) -E cmake_echo_color --switch=$(COLOR) --progress-dir=/home/water/openjpeg/openjpeg/build/CMakeFiles --progress-num=1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23 "Built target openjp2".PHONY : src/lib/openjp2/CMakeFiles/openjp2.dir/allsrc/lib/openjp2/CMakeFiles/openjp2.dir/rule: cmake_check_build_system$(CMAKE_COMMAND) -E cmake_progress_start /home/water/openjpeg/openjpeg/build/CMakeFiles 23$(MAKE) -f CMakeFiles/Makefile2 src/lib/openjp2/CMakeFiles/openjp2.dir/all$(CMAKE_COMMAND) -E cmake_progress_start /home/water/openjpeg/openjpeg/build/CMakeFiles 0.PHONY : src/lib/openjp2/CMakeFiles/openjp2.dir/ruleopenjp2: src/lib/openjp2/CMakeFiles/openjp2.dir/rule.PHONY : openjp2src/lib/openjp2/CMakeFiles/openjp2.dir/clean:$(MAKE) -f src/lib/openjp2/CMakeFiles/openjp2.dir/build.make src/lib/openjp2/CMakeFiles/openjp2.dir/clean.PHONY : src/lib/openjp2/CMakeFiles/openjp2.dir/clean
由以上内容可以发现最终是根据 src/lib/openjp2/CMakeFiles/openjp2.dir/build.make 来编译生成 openjp2 库。
因此需要再分析 openjpeg/build/src/lib/openjp2/CMakeFiles/openjp2.dir/build.mak。
build.make 文件节选:
//包含depend.make文件include src/lib/openjp2/CMakeFiles/openjp2.dir/depend.make//包含flags.make文件,C_FLAG相关信息include src/lib/openjp2/CMakeFiles/openjp2.dir/flags.make//依赖link.txt,链接相关信息cd /home/water/openharmony/third_party/openjpeg/build/src/lib/openjp2 && $(CMAKE_COMMAND) -E cmake_link_script CMakeFiles/openjp2.dir/link.txt --verbose=$(VERBOSE)cd /home/water/openharmony/third_party/openjpeg/build/src/lib/openjp2 && $(CMAKE_COMMAND) -E cmake_symlink_library ../../../bin/libopenjp2.so.2.5.0 ../../../bin/libopenjp2.so.7 ../../../bin/libopenjp2.so//编译依赖的Copenjp2_OBJECTS ="CMakeFiles/openjp2.dir/thread.c.o""CMakeFiles/openjp2.dir/bio.c.o""CMakeFiles/openjp2.dir/cio.c.o""CMakeFiles/openjp2.dir/dwt.c.o""CMakeFiles/openjp2.dir/event.c.o""CMakeFiles/openjp2.dir/ht_dec.c.o""CMakeFiles/openjp2.dir/image.c.o""CMakeFiles/openjp2.dir/invert.c.o""CMakeFiles/openjp2.dir/j2k.c.o""CMakeFiles/openjp2.dir/jp2.c.o""CMakeFiles/openjp2.dir/mct.c.o""CMakeFiles/openjp2.dir/mqc.c.o""CMakeFiles/openjp2.dir/openjpeg.c.o""CMakeFiles/openjp2.dir/opj_clock.c.o""CMakeFiles/openjp2.dir/pi.c.o""CMakeFiles/openjp2.dir/t1.c.o""CMakeFiles/openjp2.dir/t2.c.o""CMakeFiles/openjp2.dir/tcd.c.o""CMakeFiles/openjp2.dir/tgt.c.o""CMakeFiles/openjp2.dir/function_list.c.o""CMakeFiles/openjp2.dir/opj_malloc.c.o""CMakeFiles/openjp2.dir/sparse_array.c.o"
通过分析 build.make 文件发现需要依赖 depend.make、flags.make 和 link.txt,由以上内容可以分析出如下信息:
下面看下 flags.make 和 link.txt 文件的具体内容。
link.txt 的内容如下:
/usr/bin/cc -fPIC -O3 -DNDEBUG -shared -Wl,-soname,libopenjp2.so.7 -o ../../../bin/libopenjp2.so.2.5.0 CMakeFiles/openjp2.dir/thread.c.o CMakeFiles/openjp2.dir/bio.c.o CMakeFiles/openjp2.dir/cio.c.o CMakeFiles/openjp2.dir/dwt.c.o CMakeFiles/openjp2.dir/event.c.o CMakeFiles/openjp2.dir/ht_dec.c.o CMakeFiles/openjp2.dir/image.c.o CMakeFiles/openjp2.dir/invert.c.o CMakeFiles/openjp2.dir/j2k.c.o CMakeFiles/openjp2.dir/jp2.c.o CMakeFiles/openjp2.dir/mct.c.o CMakeFiles/openjp2.dir/mqc.c.o CMakeFiles/openjp2.dir/openjpeg.c.o CMakeFiles/openjp2.dir/opj_clock.c.o CMakeFiles/openjp2.dir/pi.c.o CMakeFiles/openjp2.dir/t1.c.o CMakeFiles/openjp2.dir/t2.c.o CMakeFiles/openjp2.dir/tcd.c.o CMakeFiles/openjp2.dir/tgt.c.o CMakeFiles/openjp2.dir/function_list.c.o CMakeFiles/openjp2.dir/opj_malloc.c.o CMakeFiles/openjp2.dir/sparse_array.c.o -lm -lpthread
从以上内容可以发现需要链接 -lm、-lpthread 这两个库。
flags.make 中的内容如下:
# CMAKE generated file: DO NOT EDIT!# Generated by "Unix Makefiles" Generator, CMake Version 3.16# compile C with /usr/bin/ccC_FLAGS = -fPIC -Wall -Wextra -Wconversion -Wunused-parameter -Wdeclaration-after-statement -Werror=declaration-after-statementC_DEFINES = -DMUTEX_pthread -Dopenjp2_EXPORTSC_INCLUDES = -I/home/water/openjpeg/openjpeg/build/src/lib/openjp2
从以上内容可以发现编译需要的 C_FLAGS 信息。
3.提取有效信息
从上述分析可以提取以下信息:
需要包含的源文件:openjpeg/src/lib/openjp2/bio.copenjpeg/src/lib/openjp2/cio.copenjpeg/src/lib/openjp2/dwt.copenjpeg/src/lib/openjp2/event.copenjpeg/src/lib/openjp2/function_list.copenjpeg/src/lib/openjp2/ht_dec.copenjpeg/src/lib/openjp2/image.copenjpeg/src/lib/openjp2/invert.copenjpeg/src/lib/openjp2/j2k.copenjpeg/src/lib/openjp2/jp2.copenjpeg/src/lib/openjp2/mct.copenjpeg/src/lib/openjp2/mqc.copenjpeg/src/lib/openjp2/openjpeg.copenjpeg/src/lib/openjp2/opj_clock.copenjpeg/src/lib/openjp2/opj_malloc.copenjpeg/src/lib/openjp2/pi.copenjpeg/src/lib/openjp2/sparse_array.copenjpeg/src/lib/openjp2/t1.copenjpeg/src/lib/openjp2/t2.copenjpeg/src/lib/openjp2/tcd.copenjpeg/src/lib/openjp2/tgt.copenjpeg/src/lib/openjp2/thread.c需要包含的头文件:src/lib/openjp2需要链接的库:-lm -lpthread编译器需要添加的C_FLAGS标记:C_FLAGS = -O3 -DNDEBUG -fPIC -ffast-math -Wall -Wextra -Wconversion -Wunused-parameter -Wdeclaration-after-statement -Werror=declaration-after-statement
从上述内容中我们可以获取到编译 libopenjp2.so 所需的源文件、头文件、链接库、C_FLAGS 等信息。接下来就可以根据这些信息在 OpenHarmony 的三方库文件夹下的 openjpeg 目录下编写 BUILD.gn 脚本,把 openjpeg 加入到 OpenHarmony 的编译体系中。
五、将三方库加入OpenHarmony的编译体系
接下来演示一下如何把 OpenJPEG 开源库通过 BUILD.gn 脚本添加到 OpenHarmony 工程中
表1:添加到工程后的目录结构
1.OpenHarmony/build/subsystem_config.json 中添加 subsystem 节点。
"openjpeg": {"path": "third_party/openjpeg","name": "openjpeg"}
2.OpenHarmony/productdefine/common/products/rk3568.json 文件里面加入如下内容,添加板级相关的信息:
{"product_name": "rk3568","product_company": "hihope","product_device": "rk3568","version": "2.0","type": "standard","product_build_path": "device/hihope/build","parts":{"openjpeg:openjpeg_lib":{} #新增openjpeg_lib}}
3.third_partyopenjpeg ests 下添加 ohos.build 文件,以便系统可以编译 tests 目录下的测试文件:
third_partyopenjpeg ests下添加ohos.build文件:{"subsystem": "openjpeg","parts": {"openjpeg_lib": {"module_list":["//third_party/openjpeg/tests:test_tile_decoder", #新增测试文件test_tile_decoder"//third_party/openjpeg/tests:test_tile_encoder", #新增测试文件test_tile_encoder...........]}}}
4.OpenHarmony//third_party/openjpeg/ 目录添加 BUILD.gn 文件,根据不同的系统生成静态或者动态库,如下:
if (defined(ohos_lite)) {import("//build/lite/config/component/lite_component.gni")} else {import("//build/ohos.gni")}#编译CFLAG标记和需要链接的库config("openjpeg_cflag_config") {cflags = ["-O3" ,"-DNDEBUG","-fPIC","-ffast-math","-Wall","-Wextra","-Wconversion","-Wunused-parameter","-Wdeclaration-after-statement","-Werror=declaration-after-statement",]ldflags = ["-lm","-lpthread",]}#需要包含的头文件config("openjpeg_config") {include_dirs = ["//third_party/openjpeg/src/lib/openjp2"]}#需要包含的源文件ohos_source_set("libopenjpeg_source") {sources = ["//third_party/openjpeg/src/lib/openjp2/thread.c","//third_party/openjpeg/src/lib/openjp2/bio.c","//third_party/openjpeg/src/lib/openjp2/cio.c","//third_party/openjpeg/src/lib/openjp2/dwt.c","//third_party/openjpeg/src/lib/openjp2/event.c","//third_party/openjpeg/src/lib/openjp2/ht_dec.c","//third_party/openjpeg/src/lib/openjp2/image.c","//third_party/openjpeg/src/lib/openjp2/invert.c","//third_party/openjpeg/src/lib/openjp2/j2k.c","//third_party/openjpeg/src/lib/openjp2/jp2.c","//third_party/openjpeg/src/lib/openjp2/mct.c","//third_party/openjpeg/src/lib/openjp2/mqc.c","//third_party/openjpeg/src/lib/openjp2/openjpeg.c","//third_party/openjpeg/src/lib/openjp2/opj_clock.c","//third_party/openjpeg/src/lib/openjp2/pi.c","//third_party/openjpeg/src/lib/openjp2/t1.c","//third_party/openjpeg/src/lib/openjp2/t2.c","//third_party/openjpeg/src/lib/openjp2/tcd.c","//third_party/openjpeg/src/lib/openjp2/tgt.c","//third_party/openjpeg/src/lib/openjp2/function_list.c","//third_party/linu/src/lib/openjp2/opj_malloc.c","//third_party/openjpeg/src/lib/openjp2/sparse_array.c",]}#根据不同系统编译不同类型的库lite类型的设备可以编程静态库,也可编成动态库if (defined(ohos_lite)) {lite_library("libjpeg") {if (ohos_kernel_type == "liteos_m") {target_type = "static_library" #编译成静态库libopenjpeg.a} else {target_type = "shared_library" #编成动态库libopenjpeg.z.so}sources = libopenjpeg_source #依赖的源文件public_configs = [ ":openjpeg_config" ] #依赖的头文件configs = [ ":openjpeg_cflag_config" ] #依赖的CFLAGS配置信息}} else {#标准系统编成动态库,libopenjpeg.z.soohos_shared_library("openjpeg") {deps = [ ":libopenjpeg_source" ] #依赖的源文件public_configs = [ ":openjpeg_config" ] #依赖的头文件配置信息configs = [ ":openjpeg_cflag_config" ] #依赖的CFLAGS配置信息part_name = "openjpeg_lib"}}
5.third_party/openjpeg/tests/ 目录添加 BUILD.gn 文件,编译测试文件,由于测试文件会依赖 OpenJPEG 库,根据依赖关系(如下图中的 deps)会链接到 thirdparty/openjpeg 下面的 BUILD.gn(即步骤 4 中的 BUILD.gn),最终此文件会编译生成 libopenjpeg 库。
third_party/openjpeg/tests/BUILD.gn 的内容如下:
以上几个文件的具体调用关系如下图所示:
通过 git status --ignored 命令可以查看我们修改什么内容,具体内如下:
通过以上操作以后,就可以在 OpenHarmony 编译源码了,编译命令如下:
./build.sh --product-name rk3568 --ccache
编译完成以后可以在 /out/rk3568/packages/phone/system/lib 目录下看到编译生成的 libopenjpeg.z.so 文件。
water@ubuntu:~/OpenHarmony/out/rk3568/packages/phone/system/lib$ ls -l libopenjpeg.z.so-rwxr-xr-x 1 root root 286148 Mar 23 18:59 libopenjpeg.z.so
同时,还可以在 out/rk3568/packages/phone/system/bin 目录下看到我们编译的测试文件 test_tile_encoder,如下所示:
water@ubuntu:~/openharmony/out/rk3568/packages/phone/system/bin$ ls -l test_test_decode_area test_tile_decoder test_tile_encoder
把编译完成的镜像文件烧录到 RK3568 开发板中,运行测试文件验证整个库的移植情况。
六、测试验证
在开源库的 tests 目录下有很多测试用例,在 test 目录下的 CMakeLists.txt 文件会生成一些测试文件来进行验证,其中会给出一些测试方法,具体如下:
代码工程编译完成后,将镜像文件烧录到 RK3568 开发板中,在开发板 /system/bin 文件夹下可以发现,有编译 tests 目录后生成的测试文件,如下所示:
# ls -l test_*test_decode_area test_open_jpeg.sh test_tile_decoder test_tile_encoder
在 data 目录下创建 test 目录:
pwd/datamkdir test
把测试用例文件从 /bin 目录下拷贝到 data/test 目录下:
pwd/datacp /bin/test_* ./
添加可执行权限:
chmod +x test_tile_decoder
输入如下命令:
./test_tile_encoder 3 2000 2000 1000 1000 8 1 tte1.j2k 64 64 4 1 1 1 256 256
运行 test_tile_encoder,测试结果如下:
至此,整个 OpenJPEG 开源库在 OpenHarmony 上的移植就完毕,感兴趣的开发者可以动手移植自己的三方库了。
附录
开发过程中遇到的问题:
In file included from ../../third_party/openjpeg/src/lib/openjp2/thread.c:431:../../third_party/openjpeg/src/lib/openjp2/opj_includes.h:40:10: fatal error: 'opj_config_private.h' file not found#include "opj_config_private.h"
由于 opj_config_private.h 是由 cmake 生成的,因此需要在 Linux 下编译整个 OpenJPEG 源码,然后把生成的 opj_config_private.h 拷贝到相应的目录下:cp ./build/src/lib/openjp2/opj_config_private.h /src/lib/./build/src/bin/common/opj_apps_config.h/cp ./build/src/lib/openjp2/opj_config.h /src/lib/openjp2/cp ./build/src/bin/common/opj_apps_config.h ./src/bin/common/
遇到重定义问题,在 third_party/openjpeg/tests/pdf2jp2.c 文件中把这行定义注释掉:
../../third_party/openjpeg/tests/pdf2jp2.c:45:9: error: '_GNU_SOURCE' macro redefined [-Werror,-Wmacro-redefined]
RK3568 开发板相关的操作可以参考如下文档:
RK3568 开发板标准设备上手-HelloWorld
https://gitee.com/openharmony-sig/knowledge_demo_temp/tree/master/docs/rk3568_helloworld
审核编辑 :李倩
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