nhmk/examples/sleep.c

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2021-07-22 06:35:24 +08:00
/*
* sleep.c - create a /proc file, and if several processes try to open it at
* the same time, put all but one to sleep
*/
#include <linux/kernel.h> /* We're doing kernel work */
#include <linux/module.h> /* Specifically, a module */
#include <linux/proc_fs.h> /* Necessary because we use proc fs */
#include <linux/sched.h> /* For putting processes to sleep and
waking them up */
#include <linux/uaccess.h> /* for get_user and put_user */
/*
* The module's file functions
*/
/*
* Here we keep the last message received, to prove that we can process our
* input
*/
#define MESSAGE_LENGTH 80
static char Message[MESSAGE_LENGTH];
static struct proc_dir_entry *Our_Proc_File;
#define PROC_ENTRY_FILENAME "sleep"
/*
* Since we use the file operations struct, we can't use the special proc
* output provisions - we have to use a standard read function, which is this
* function
*/
static ssize_t module_output(struct file *file, /* see include/linux/fs.h */
char *buf, /* The buffer to put data to
(in the user segment) */
size_t len, /* The length of the buffer */
loff_t * offset)
{
static int finished = 0;
int i;
char message[MESSAGE_LENGTH + 30];
/*
* Return 0 to signify end of file - that we have nothing
* more to say at this point.
*/
if (finished) {
finished = 0;
return 0;
}
/*
* If you don't understand this by now, you're hopeless as a kernel
* programmer.
*/
sprintf(message, "Last input:%s\n", Message);
for (i = 0; i < len && message[i]; i++)
put_user(message[i], buf + i);
finished = 1;
return i; /* Return the number of bytes "read" */
}
/*
* This function receives input from the user when the user writes to the /proc
* file.
*/
static ssize_t module_input(struct file *file, /* The file itself */
const char *buf, /* The buffer with input */
size_t length, /* The buffer's length */
loff_t * offset) /* offset to file - ignore */
{
int i;
/*
* Put the input into Message, where module_output will later be
* able to use it
*/
for (i = 0; i < MESSAGE_LENGTH - 1 && i < length; i++)
get_user(Message[i], buf + i);
/*
* we want a standard, zero terminated string
*/
Message[i] = '\0';
/*
* We need to return the number of input characters used
*/
return i;
}
/*
* 1 if the file is currently open by somebody
*/
int Already_Open = 0;
/*
* Queue of processes who want our file
*/
DECLARE_WAIT_QUEUE_HEAD(WaitQ);
/*
* Called when the /proc file is opened
*/
static int module_open(struct inode *inode, struct file *file)
{
/*
* If the file's flags include O_NONBLOCK, it means the process doesn't
* want to wait for the file. In this case, if the file is already
* open, we should fail with -EAGAIN, meaning "you'll have to try
* again", instead of blocking a process which would rather stay awake.
*/
if ((file->f_flags & O_NONBLOCK) && Already_Open)
return -EAGAIN;
/*
* This is the correct place for try_module_get(THIS_MODULE) because
* if a process is in the loop, which is within the kernel module,
* the kernel module must not be removed.
*/
try_module_get(THIS_MODULE);
/*
* If the file is already open, wait until it isn't
*/
while (Already_Open) {
int i, is_sig = 0;
/*
* This function puts the current process, including any system
* calls, such as us, to sleep. Execution will be resumed right
* after the function call, either because somebody called
* wake_up(&WaitQ) (only module_close does that, when the file
* is closed) or when a signal, such as Ctrl-C, is sent
* to the process
*/
wait_event_interruptible(WaitQ, !Already_Open);
/*
* If we woke up because we got a signal we're not blocking,
* return -EINTR (fail the system call). This allows processes
* to be killed or stopped.
*/
/*
* Emmanuel Papirakis:
*
* This is a little update to work with 2.2.*. Signals now are contained in
* two words (64 bits) and are stored in a structure that contains an array of
* two unsigned longs. We now have to make 2 checks in our if.
*
* Ori Pomerantz:
*
* Nobody promised me they'll never use more than 64 bits, or that this book
* won't be used for a version of Linux with a word size of 16 bits. This code
* would work in any case.
*/
for (i = 0; i < _NSIG_WORDS && !is_sig; i++)
is_sig =
current->pending.signal.sig[i] & ~current->
blocked.sig[i];
if (is_sig) {
/*
* It's important to put module_put(THIS_MODULE) here,
* because for processes where the open is interrupted
* there will never be a corresponding close. If we
* don't decrement the usage count here, we will be
* left with a positive usage count which we'll have no
* way to bring down to zero, giving us an immortal
* module, which can only be killed by rebooting
* the machine.
*/
module_put(THIS_MODULE);
return -EINTR;
}
}
/*
* If we got here, Already_Open must be zero
*/
/*
* Open the file
*/
Already_Open = 1;
return 0; /* Allow the access */
}
/*
* Called when the /proc file is closed
*/
int module_close(struct inode *inode, struct file *file)
{
/*
* Set Already_Open to zero, so one of the processes in the WaitQ will
* be able to set Already_Open back to one and to open the file. All
* the other processes will be called when Already_Open is back to one,
* so they'll go back to sleep.
*/
Already_Open = 0;
/*
* Wake up all the processes in WaitQ, so if anybody is waiting for the
* file, they can have it.
*/
wake_up(&WaitQ);
module_put(THIS_MODULE);
return 0; /* success */
}
/*
* Structures to register as the /proc file, with pointers to all the relevant
* functions.
*/
/*
* File operations for our proc file. This is where we place pointers to all
* the functions called when somebody tries to do something to our file. NULL
* means we don't want to deal with something.
*/
static struct proc_ops File_Ops_4_Our_Proc_File = {
.proc_read = module_output, /* "read" from the file */
.proc_write = module_input, /* "write" to the file */
.proc_open = module_open, /* called when the /proc file is opened */
.proc_release = module_close, /* called when it's closed */
};
/*
* Module initialization and cleanup
*/
/*
* Initialize the module - register the proc file
*/
int init_module()
{
Our_Proc_File = proc_create(PROC_ENTRY_FILENAME, 0644, NULL, &File_Ops_4_Our_Proc_File);
if(Our_Proc_File == NULL)
{
remove_proc_entry(PROC_ENTRY_FILENAME, NULL);
pr_debug("Error: Could not initialize /proc/%s\n", PROC_ENTRY_FILENAME);
return -ENOMEM;
}
proc_set_size(Our_Proc_File, 80);
proc_set_user(Our_Proc_File, GLOBAL_ROOT_UID, GLOBAL_ROOT_GID);
pr_info("/proc/test created\n");
return 0;
}
/*
* Cleanup - unregister our file from /proc. This could get dangerous if
* there are still processes waiting in WaitQ, because they are inside our
* open function, which will get unloaded. I'll explain how to avoid removal
* of a kernel module in such a case in chapter 10.
*/
void cleanup_module()
{
remove_proc_entry(PROC_ENTRY_FILENAME, NULL);
pr_debug("/proc/%s removed\n", PROC_ENTRY_FILENAME);
}
MODULE_LICENSE("GPL");