Edit: I have found seq_file that eases writing a lot of data from kernel to user-space. What I am looking for is the opposite; an API that facilitates reading a lot of data (more than one page) from user-space.

Edit 2: I am implementing a port of <stdio.h> as a kernel module that would be able to open /proc (and later, other virtual file systems) similar to FILEs and handle input and output similar to <stdio.h>. You can find the project here.

I have found a LOT of questions on how the kernel can write large amounts of data to /proc (for user-space programs to take), but nothing for the other way around. Let me elaborate:

This question is basically about the algorithm by which the input is tokenized (for example to ints or a mixture of int and string etc), given that the data maybe broken between multiple buffers.

For example, imagine the following data is being sent to the kernel module:

12345678 81234567 78123456 67812345 5678 1234 45678123 3456 7812 23456781

and for the sake of this example, let's say the page size by which Linux feeds the /proc handler is 20 bytes (vs the real 4KB).

The function that reads the data from /proc (in the kernel module) then sees the data as such:

call 1:
"12345678 81234567 78"
call 2:
"123456 67812345 5678"
call 3:
" 1234 45678123 3456 "
call 4:
"7812 23456781"

As you can see, when 78 is read in the first call, it shouldn't be processed yet until the next frames for it to decide whether 78 was a whole number or one cut between frames.

Now I found seq_files that apparently are only for when the kernel wants to write data to user rather than read (or it could be that the HOWTO is horribly written).

What I have done

So far, I have come with the following solution (I am writing from memory, so I may miss a couple error checkings, but bear with me):

In the initialization phase (say init_module):

initialize mutex1 to 1 and mutex2 to 0
create /proc entry
call data_processor

/proc reader:

1. down(mutex1)    /* down_interruptible of course, but let's not get into details */

2. copy_from_user to an internal buffer
   buffer_index = 0
   data_length = whatever the size is

3. strip spaces from end of buffer (except if all left from buffer is 1 space)
   if so, there_was_space_after = 1 else 0

4. up(mutex2)

I will explain why I strip spaces later

get_int function:

wait_for_next = 0
number_was_cut = 0
last_number = 0

    1. down(mutex2)

    2. if (number_was_cut && !isdigit(buffer[buffer_index]))
           break     /* turns out it wasn't really cut
                        as beginning of next buffer is ' ' */
       number_was_cut = 0
       wait_for_next = 0

    3. while (buffer_index < data_length && !isdigit(buffer_index[buffer_index]))
           ++buffer_index;    /* skip white space */

    4. while (buffer_index < data_length && isdigit(buffer[buffer_index]))
           last_number = last_number * 10 + buffer[buffer_index++] - '0';

    5. if (buffer_index >= data_length && !there_was_space_after)
           number_was_cut = 1
           wait_for_next = 1
           up(mutex1)         /* let more data come in */
           up(mutex2)         /* let get_int continue */
} while (wait_for_next)

return last_number

data_processor function (for example):

int first_num = get_int()
int sencod_num = get_int()
for i = first_num to second_num

Explanation: First, see data_processor. It doesn't get involved in complications on how the data are read, so it just gets integers and does whatever it wants with them. Now let's see /proc reader. It basically waits for data_processor to call get_int enough times for all current data to be consumed (step 1) and then copies the next buffer into internal memory, allowing data_processor to continue (step 2). It then needs to strip trailing spaces so get_int could be simplified a bit (step 3). Finally, it signals get_int that it can start reading the data (step 4).

The get_int function first waits for data to arrive (step 1), (ignore step 2 for now) it skips any unwanted characters (step 3) and then starts reading the number (step 4). The end of reading the number is by two possibilities; the end of buffer is reached (in which case, if /proc reader had not stripped any spaces, then the number could be cut between frames) or white space is met. In the former case, it needs to signal /proc reader to read in more data and wait for another cycle to append the rest of the number to the current one and in the later case, it returns the number (step 5). If continuing from last frame, check to see if new frame starts with a number or not. If not, then previous number was actually a whole number and should be returned. Otherwise, it needs to continue appending digits to last number (step 2).


The main problem with this method is that it is overly complicated. It gets much more complicated when get_string is added, or the read integer could be hex etc. Basically, you have to reinvent sscanf! Note that, sscanf could be used in this simple example at step 4 of get_int instead of the while loop (or also with get_string, but that gets more tricky when hex input is also possible (imagine the hex number being cut between 0 and x0212ae4). Even so, it just replaces step 4 of get_int and the rest of the stuff should still remain.

It actually got me many bugs and heavy testing to perfect all the special cases. That's another reason why it doesn't look elegant to me.


I would like to know if there is any better method to handle this. I am aware that using shared memory could be an option, but I'm looking for an algorithm for this task (more out of curiosity since I already have my working solution). More specifically:

  • Is there an already implemented method in the Linux kernel that can be treated like a normal C FILE from which you can take data and it handles the breaking of data into pages itself?
  • If no, am I over-complicating things and am I missing an obvious simple solution?
  • I believe fscanf faces a similar problem. How is this handled by that?

Side question: Is it a terrible thing that I'm blocking the /proc reader on a mutex? I mean, writing data can be blocking, but I'm not sure if that normally happens in user-space or kernel-space.


The request_firmware() interface may be of interest to you; the whole thing gets buffered by the kernel before it's handed to you.

Otherwise, maybe the sysfs binary attributes interface is more useful than proc?

  • Thanks for you response, but could you elaborate a bit more? From what I understand, you could get a whole file with request_firmware, but it's not really meant for initialization data. I am interested in knowing more about sysfs. I am using it for other stuff, but as far as I read they say "use sysfs with small data" and even if I use it with large data, doesn't that have the same problem of giving data to you in separate pages? – Shahbaz Mar 23 '12 at 9:57
  • Any updates or new ideas? – Shahbaz Mar 30 '12 at 13:15

I finally decided to write something proper to solve this problem.


kio in short, will be a port of C's standard stdio.h for kernel modules. It will support either of /proc, /sys and /dev file systems in both read and write modes, whether text or binary. kio follows the standard closely, but has its minor tweaks to ensure safety in kernel space.

Current status:

  • /proc files can be created
  • Read functions are implemented
  • Write functions are implemented
  • The files can be only opened by users once at a time

Implement a separate function get_token(), which:

  1. Reads from internal buffer until it finds a space, then returns the text so far.
  2. When at the end of the buffer, reads more data from user space to the buffer.

This way your other parsing logic is greatly simplified (not having to parse integers manually etc). Simply call sscanf() or strtol() on the returned strings.

The limitation is that you need to impose a maximum length on a single token so that it can fit in the buffer.

  • That wouldn't entirely work. For example 1234abcd is two tokens, one number and then a string. This question is really old, but now that I think about it, probably implementing getc() which handles paging and another function that calls getc and parses integers/strings etc is much simpler. Nevertheless, it feels like rewriting fscanf. – Shahbaz Sep 11 '12 at 12:00

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