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Typical Software Architecture

Like embedded hardware, embedded software architecture is highly flexible. Simple embedded software (such as electronic toys, calculators, and so on) may be only a few thousand lines of code and perform simple input and output functions. On the other hand, complex embedded systems (such as smartphones, robots, and so on) need more complex software architecture, similar to desktop computers and servers. Simple embedded software is suitable for low-performance chip hardware, has very limited

functionality, and requires tedious secondary development. Complex embedded systems provide more powerful functions, need more convenient interfaces for users, and require the support of more powerful hardware. With the improvement of hardware integration and processing capabilities, the hardware bottleneck has gradually loosened and even broken, so embedded system software now tends to be fully functional and diversified.

Typical, complete embedded system software has the architecture shown in Figure 1-9.

Figure 1-9. Software architecture of an embedded system

An embedded software system is composed of four layers, from bottom to top:

1. Hardware abstraction layer

2. Operating system layer

3. System service layer

4. Application layer

Hardware Abstraction Layer

The hardware abstraction layer (HAL), as a part of the OS, is a software abstraction layer between the embedded system hardware and OS. In general, the HAL includes the bootloader, board support package (BSP), device drivers, and other components. Similar to the BIOS in PCs, the bootloader is a program that runs before the OS kernel executes. It completes the initialization of the hardware, establishes the image of memory space, and consequently enables the hardware and software environment to reach an appropriate state for the final scheduling of the system kernel. From the perspective of end users,

the bootloader is used to load the OS. The BSP achieves the abstraction of the hardware operation, empowering the OS to be independent from the hardware and enabling the OS to run on different hardware architectures.

A unique BSP must be created for each OS. For example, Wind River VxWorks BSP and Microsoft Windows CE BSP have similar functions for an embedded hardware development board, but they feature completely different architectures and interfaces. The concept of a BSP is rarely mentioned when various desktop Windows or Linux operating systems are discussed, because all PCs adopt the unified Intel architecture; the OS may be easily migrated to diversified Intel architecture-based devices without any changes. The BSP is a unique software module in embedded systems. In addition,

device drivers enable the OS to shield the differences between hardware components and peripherals and provide a unified software interface for operating hardware.

Operating System Layer

An OS is a software system for uniformly managing hardware resources. It abstracts many hardware functions and provides them to applications in the form of services. Scheduling, files synchronization, and networking are the most common services provided by the OS. Operating systems are widely used in most desktop and embedded systems. In embedded systems, the OS has its own unique characteristics: stability, customization, modularity, and real-time processing.

The common embedded OS contains embedded Linux, Windows CE, VxWorks, MeeGo, Tizen, Android, Ubuntu, and some operating systems used in specific fields. Embedded Linux is a general Linux kernel tailored, customized, and modified for mobile and embedded products. Windows CE is a customizable embedded OS that Microsoft launched for a variety of embedded systems and products. VxWorks, an embedded realtime operating system (RTOS) from Wind River, supports PowerPC, 68K, CPU32, SPARC, I960, x86, ARM, and MIPS. With outstanding real-time and reliable features, it is widely used in communications, military, aerospace, aviation, and other areas that require highly sophisticated, real-time technologies. In particular, VxWorks is used in the Mars probes by NASA.

System Service Layer

The system service layer is the service interface that the OS provides to the application. Using this interface, applications can access various services provided by the OS. To some extent, it plays the role of a link between the OS and applications. This layer generally includes the file system, graphical user interface (GUI), task manager, and so on. A GUI library provides the application with various GUI programming interfaces, which enables the application to interact with users through application windows, menus, dialog boxes, and other graphic forms instead of a command line.

Application Layer

The application, located at the top level of the software hierarchy, implements the system functionality and business logic. From a functional perspective, all levels of modules in the application aim to perform system functions. From a system perspective, each application is a separate OS process. Typically, applications run in the less-privileged processor mode and use the API system schedule provided by the OS to interact with the OS.

 
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