COMP 4511 System and Kernel
Programming in Linux
Programming Assignment #4
Assignment 4 System Call Implementation
Concatenating several files into one is a common task that many users perform in the user
level. For example,
$ cat file1 file2 file3 > newfile
Your task is to create a new system call that can concatenate multiple files into a target new
file. The new system call interface is as follows:
long sys_xmerge(void* args, size_t argslen);
The usage of void* is a trick to bypass the limitation of syscall. The above prototype of the
syscall allows to you to change the number and types of arguments. You would pass a
void* pointer to the syscall, where all the arguments will be packed. argslen is the
length of the void* buffer that the kernel should access.
Arguments (packed inside void*):
__user const char *outfile; // name of the output file
__user const char **infiles; // names of input files (Array)
unsigned int num_files; // number of input files
int oflags;// the open flag for the outfile
mode_t mode; // permission mode for newly created outfile
// the number of files that have been read into outfile
__user int *ofile_count;
Note:
__user is used to mark a pointer as userspace. It is a flag to indicate that the pointer exists
in userspace and that it should not be dereferenced. copy_from_user and
copy_to_user should be used to handle the memory access. For details, please check
the Appendix section.
Return value:
On success, the syscall should return the number of bytes successfully concatenated;
Otherwise, it needs to return appropriate -errno on failure.
Implementation Details
Your system call should open each of the files listed in infiles in order, read their content,
and then concatenate their content into the file named in outfile.
The newly created file should have a permission mode as defined in the mode parameter.
See open(2) or create(2) for description of this parameter.
The oflags parameter should behave exactly as the flags parameter to the open(2) syscall.
Please consult the man page for more info. You should support the following flags only (the
only affect the outfile):
O_APPEND, O_CREATE, O_TRUNC, and O_EXCL.
Verifications
The most important thing is to ensure the validity of the input arguments. You must check
for ALL possible bad conditions that could occur as the result of bad inputs to the syscall. In
this case, the syscall should return the proper negative errno value (e.g., -EINVAL, -EPERM,
EACCESS, and etc). Consult the system errno table and pick the right error numbers for
different conditions.
The possible kinds of errors of sys_xmerge are:
missing arguments passed;
null arguments;
pointers to bad addresses;
buffers and their declared lengths not matching;
invalid flags;
file(s) cannot be opened, read, written;
As the system call, you code must be efficient. For example, you might be better read in
data in chunks that are native to the system this code is compiled on, the system page size
(PAGE_CACHE_SIZE or PAGE_SIZE).
Cautions
Allocate one page as a temporary buffer.
Do not waste extra kernel memory (dynamic or stack) for the syscall.
Make sure no memory leak occurs.
Test Program
Write a C program called test_xmerge.c that will call your syscall (see the lab example).
You need to add argc and argv in the main function as parameters.The program should
output some indication of success and uses perror() to print out information about what
errors occurred. For example,
$ ./test_xmerge [flags] outfile infile infile2
where flags is:
-a: append mode (O APPEND)
-c: O CREATE
-t: O TRUNC
-e: O EXCL
-m ARG: set default mode to ARG (e.g., octal 755, see chmod(2) and umask(1))
-h: print short usage string
Submission
xmerge.c
o For the implementation of syscall
o You should place xmerge.c in /home/oslab/linux-
3.10.94/os_lab
o We assume that a 32-bit kernel is used
o We assume that the syscall number is 355 (should be unused)
355 i386xmergesys_xmerge
test_xmerge.c
o For testing the syscall
Appendix
The following user space memory access API may be useful for this assignment. You
are not required to use all of the following functions
Function Description
access_ok Check the validity of the user space memory pointer
get_user Gets a simple variable from user space
put_user Puts a simple variable to user space
clear_user Clears, or zeros, a block in user space
copy_to_user Copies a block of data from the kernel to user space
copy_from_user Copies a block of data from user space to the kernel
strnlen_user Gets the size of a string buffer in user space
strncpy_from_user Copies a string from user space to the kernel
You can also call other syscalls. For example: sys_open, sys_read, and
sys_close are useful syscalls for file I/O
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