SoC Linux Dojo [No.4] Compiling GNU Applications
Recent embedded products are increasingly equipped with Linux® due to the sophistication of their functions.
In this "SoC Linux Dojo", we will target Macnica 's Helio board equipped with Intel® FPGA Cyclone® V SoC, and first, we will write a pre-built SD card binary image to the SD card and confirm that Linux boots. .
After that, prepare a compilation environment (Linux machine + cross-compiler), obtain and compile the Linux kernel source code, create a custom driver, add a user circuit to the SoC FPGA, check the operation of PWM control, etc. We will explain the basic development method in all 8 times.
"SoC Linux Dojo [No.4] Compiling GNU Applications"
Document overview
Busybox is an open source "command set" application primarily used with embedded Linux®.
Each computer program usually has a separate binary file (executable).
Busybox is a single binary that contains many applications.
In this article, I will explain how to compile and install these GNU applications.
<Contents>
1.First of all
2. Compiling GNU Applications
2-1. Cross-compiling and installing Busybox
2-2. Cross-compiling and installing thttpd
Related Documents
SoC Linux Dojo [No.1] Checking Linux boot on Helio board using pre-built SD card image
SoC Linux Dojo [No.2] Preparation of Linux machine
SoC Linux Dojo [Part 3] Cross compiler installation and compilation, GDB debugging
SoC Linux Dojo [No.4] Compiling GNU Applications
SoC Linux Dojo [Part 6] Creating and compiling a custom driver (Part 2)
SoC Linux Dojo [No.7] Addition of user circuit and operation check
List of Intel® FPGA Software Resources