10.替换 printk
时间:2006-09-17 来源:pgpxc
替换 printk
10.1. 替换 printk
在 节 1.2.1.2 中, 我说过最好不要在X中进行内核模块编程。在真正的内核模块开发中的确是这样。但在实际应用中,你想在任何加载模块的tty[1]终端中显示信息。 实现的方法是使用 current 指针,一个指向当前运行进程的指针,来获取当前任务的tty终端的结构体。然后,我们找到在该tty结构体中用来向tty写入字符信息的函数的指针。通过指针我们使用该函数来向终端写入信息。 Example 10-1. print_string.c /* print_string.c - Send output to the tty you're running on, regardless of whether it's
* through X11, telnet, etc. We do this by printing the string to the tty associated
* with the current task.
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/sched.h> // For current
#include <linux/tty.h> // For the tty declarations
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Peter Jay Salzman");
void print_string(char *str)
{
struct tty_struct *my_tty;
my_tty = current->tty; // The tty for the current task /* If my_tty is NULL, the current task has no tty you can print to (this is possible,
* for example, if it's a daemon). If so, there's nothing we can do.
*/
if (my_tty != NULL) { /* my_tty->driver is a struct which holds the tty's functions, one of which (write)
* is used to write strings to the tty. It can be used to take a string either
* from the user's memory segment or the kernel's memory segment.
*
* The function's 1st parameter is the tty to write to, because the same function
* would normally be used for all tty's of a certain type. The 2nd parameter
* controls whether the function receives a string from kernel memory (false, 0) or
* from user memory (true, non zero). The 3rd parameter is a pointer to a string.
* The 4th parameter is the length of the string.
*/
(*(my_tty->driver).write)(
my_tty, // The tty itself
0, // We don't take the string from user space
str, // String
strlen(str)); // Length /* ttys were originally hardware devices, which (usually) strictly followed the
* ASCII standard. In ASCII, to move to a new line you need two characters, a
* carriage return and a line feed. On Unix, the ASCII line feed is used for both
* purposes - so we can't just use \n, because it wouldn't have a carriage return
* and the next line will start at the column right after the line feed.
*
* BTW, this is why text files are different between Unix and MS Windows. In CP/M
* and its derivatives, like MS-DOS and MS Windows, the ASCII standard was strictly
* adhered to, and therefore a newline requirs both a LF and a CR.
*/
(*(my_tty->driver).write)(my_tty, 0, "\015\012", 2);
}
}
int print_string_init(void)
{
print_string("The module has been inserted. Hello world!");
return 0;
}
void print_string_exit(void)
{
print_string("The module has been removed. Farewell world!");
}
module_init(print_string_init);
module_exit(print_string_exit);
注意
[1] Teletype(tty), 原先是一种用来和Unix系统交互的键盘和打印机结合起来的装置。现在,它只是一个用来同Unix或类似的系统交流文字流的抽象的设备,而不管它具体是显示器,X中的xterm,还是一个通过telnet的网络连接。
在 节 1.2.1.2 中, 我说过最好不要在X中进行内核模块编程。在真正的内核模块开发中的确是这样。但在实际应用中,你想在任何加载模块的tty[1]终端中显示信息。 实现的方法是使用 current 指针,一个指向当前运行进程的指针,来获取当前任务的tty终端的结构体。然后,我们找到在该tty结构体中用来向tty写入字符信息的函数的指针。通过指针我们使用该函数来向终端写入信息。 Example 10-1. print_string.c /* print_string.c - Send output to the tty you're running on, regardless of whether it's
* through X11, telnet, etc. We do this by printing the string to the tty associated
* with the current task.
*/
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/sched.h> // For current
#include <linux/tty.h> // For the tty declarations
MODULE_LICENSE("GPL");
MODULE_AUTHOR("Peter Jay Salzman");
void print_string(char *str)
{
struct tty_struct *my_tty;
my_tty = current->tty; // The tty for the current task /* If my_tty is NULL, the current task has no tty you can print to (this is possible,
* for example, if it's a daemon). If so, there's nothing we can do.
*/
if (my_tty != NULL) { /* my_tty->driver is a struct which holds the tty's functions, one of which (write)
* is used to write strings to the tty. It can be used to take a string either
* from the user's memory segment or the kernel's memory segment.
*
* The function's 1st parameter is the tty to write to, because the same function
* would normally be used for all tty's of a certain type. The 2nd parameter
* controls whether the function receives a string from kernel memory (false, 0) or
* from user memory (true, non zero). The 3rd parameter is a pointer to a string.
* The 4th parameter is the length of the string.
*/
(*(my_tty->driver).write)(
my_tty, // The tty itself
0, // We don't take the string from user space
str, // String
strlen(str)); // Length /* ttys were originally hardware devices, which (usually) strictly followed the
* ASCII standard. In ASCII, to move to a new line you need two characters, a
* carriage return and a line feed. On Unix, the ASCII line feed is used for both
* purposes - so we can't just use \n, because it wouldn't have a carriage return
* and the next line will start at the column right after the line feed.
*
* BTW, this is why text files are different between Unix and MS Windows. In CP/M
* and its derivatives, like MS-DOS and MS Windows, the ASCII standard was strictly
* adhered to, and therefore a newline requirs both a LF and a CR.
*/
(*(my_tty->driver).write)(my_tty, 0, "\015\012", 2);
}
}
int print_string_init(void)
{
print_string("The module has been inserted. Hello world!");
return 0;
}
void print_string_exit(void)
{
print_string("The module has been removed. Farewell world!");
}
module_init(print_string_init);
module_exit(print_string_exit);
注意
[1] Teletype(tty), 原先是一种用来和Unix系统交互的键盘和打印机结合起来的装置。现在,它只是一个用来同Unix或类似的系统交流文字流的抽象的设备,而不管它具体是显示器,X中的xterm,还是一个通过telnet的网络连接。
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