#include <sys/io.h> unsigned char inb(unsigned short int port); unsigned char inb_p(unsigned short int port); unsigned short int inw(unsigned short int port); unsigned short int inw_p(unsigned short int port); unsigned int inl(unsigned short int port); unsigned int inl_p(unsigned short int port); void outb(unsigned char value, unsigned short int port); void outb_p(unsigned char value, unsigned short int port); void outw(unsigned short int value, unsigned short int port); void outw_p(unsigned short int value, unsigned short int port); void outl(unsigned int value, unsigned short int port); void outl_p(unsigned int value, unsigned short int port); void insb(unsigned short int port, void *addr, unsigned long int count); void insw(unsigned short int port, void *addr, unsigned long int count); void insl(unsigned short int port, void *addr, unsigned long int count); void outsb(unsigned short int port, const void *addr, unsigned long int count); void outsw(unsigned short int port, const void *addr, unsigned long int count); void outsl(unsigned short int port, const void *addr, unsigned long int count);
They are primarily designed for internal kernel use, but can be used from user space.
You must compile with -O or -O2 or similar. The functions are defined as inline macros, and will not be substituted in without optimization enabled, causing unresolved references at link time.
You use ioperm(2) or alternatively iopl(2) to tell the kernel to allow the user space application to access the I/O ports in question. Failure to do this will cause the application to receive a segmentation fault.