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Kiita 7bc68f454f feat: 自研shell命令回补
【背景】liteos_a需要支持toybox缺失的自研shell命令

【修改方案】
新增自研shell命令的入口判断场景,使得mksh可以执行自研shell的命令

re #I44U0H

Signed-off-by: yansira <yansira@hotmail.com>
Change-Id: Idf08cb6df456bd6c89fe8fe505317f1c0ca61eda
2021-08-12 21:34:50 +08:00
.gitee add issue and pr template 2021-04-07 14:49:32 +08:00
apps feat: 自研shell命令回补 2021-08-12 21:34:50 +08:00
arch !443 从Make编译切换到GN编译 2021-07-22 01:50:19 +00:00
bsd !429 删除无用的失效的符号链接文件 2021-07-22 01:51:25 +00:00
compat !480 A核代码告警清零 2021-07-31 03:41:03 +00:00
drivers feat: don't apply module_swith on configs of config 2021-07-27 16:46:30 +08:00
figures update openharmony 1.0.1 2021-03-11 18:43:57 +08:00
fs fix: move nuttx head file back 2021-08-05 20:51:28 +08:00
kernel fix: LiteOS_A BBOX Codex整改 2021-08-04 08:32:10 +08:00
lib fix: A核代码告警清零 2021-07-30 17:13:55 +08:00
net chore: enable gn build for lwip_enhanced 2021-08-02 14:18:56 +08:00
platform !473 Revert "fix: 修改默认窗口宽度到400" 2021-08-03 02:58:47 +00:00
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Makefile chore: puts kernel Kconfig configs in kernel_configs dir 2021-08-03 11:19:22 +08:00
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README.md

LiteOS Cortex-A

Introduction

The OpenHarmony LiteOS Cortex-A is a new-generation kernel developed based on the Huawei LiteOS kernel. Huawei LiteOS is a lightweight operating system OS built for the Internet of Things IoT field. With the rapid development of the IoT industry, OpenHarmony LiteOS Cortex-A brings small-sized, low-power, and high-performance experience and builds a unified and open ecosystem for developers. In addition, it provides rich kernel mechanisms, more comprehensive Portable Operating System Interface POSIX, and a unified driver framework, Hardware Driver Foundation HDF, which offers unified access for device developers and friendly development experience for application developers. Figure 1 shows the architecture of the OpenHarmony LiteOS Cortex-A kernel.

Figure 1 Architecture of the OpenHarmony LiteOS Cortex-A kernel

Directory Structure

/kernel/liteos_a
├── apps                   # User-space init and shell application programs
├── arch                   # System architecture, such as ARM
│   └── arm                # Code for ARM architecture
├── bsd                    # Code of the driver and adaptation layer module related to the FreeBSD, such as the USB module
├── compat                 # Kernel API compatibility
│   └── posix              # POSIX APIs
├── drivers                # Kernel drivers
│   └── char               # Character device
│       ├── mem            # Driver for accessing physical input/output (I/O) devices
│       ├── quickstart     # APIs for quick start of the system
│       ├── random         # Driver for random number generators
│       └── video          # Framework of the framebuffer driver
├── fs                     # File system module, which mainly derives from the NuttX open-source project
│   ├── fat                # FAT file system
│   ├── jffs2              # JFFS2 file system
│   ├── include            # Header files exposed externally
│   ├── nfs                # NFS file system
│   ├── proc               # proc file system
│   ├── ramfs              # RAMFS file system
│   └── vfs                # VFS layer
├── kernel                 # Kernel modules including the process, memory, and IPC modules
│   ├── base               # Basic kernel modules including the scheduling and memory modules
│   ├── common             # Common components used by the kernel
│   ├── extended           # Extended kernel modules including the dynamic loading, vDSO, and LiteIPC modules
│   ├── include            # Header files exposed externally
│   └── user               # Init process loading
├── lib                    # Kernel library
├── net                    # Network module, which mainly derives from the lwIP open-source project
├── platform               # Code for supporting different systems on a chip (SOCs), such as Hi3516D V300
│   ├── hw                 # Logic code related to clocks and interrupts
│   ├── include            # Header files exposed externally
│   └── uart               # Logic code related to the serial port
├── platform               # Code for supporting different systems on a chip (SOCs), such as Hi3516D V300
├── security               # Code related to security features, including process permission management and virtual ID mapping management
├── syscall                # System calling
└── tools                  # Building tools as well as related configuration and code

Constraints

  • Programming languages: C and C++
  • Applicable development boards: Hi3518E V300 and Hi3516D V300
  • Hi3518E V300 uses the JFFS2 file system by default, and Hi3516D V300 uses the FAT file system by default.

Usage

OpenHarmony LiteOS Cortex-A supports the Hi3518E V300 and Hi3516D V300. You can develop and run your applications based on both development boards.

Preparations

You need to set up the compilation environment on Linux.

Source Code Acquisition

Download and decompress a set of source code on a Linux server to acquire the source code. For more acquisition methods, see Source Code Acquisition.

Compilation and Building

For details about how to develop the first application, see:

Repositories Involved

Kernel subsystem

drivers_liteos

kernel_liteos_a