2005-04-16 22:20:36 +00:00
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The intent of this file is to give a brief summary of hugetlbpage support in
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the Linux kernel. This support is built on top of multiple page size support
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that is provided by most modern architectures. For example, i386
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architecture supports 4K and 4M (2M in PAE mode) page sizes, ia64
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architecture supports multiple page sizes 4K, 8K, 64K, 256K, 1M, 4M, 16M,
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256M and ppc64 supports 4K and 16M. A TLB is a cache of virtual-to-physical
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translations. Typically this is a very scarce resource on processor.
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Operating systems try to make best use of limited number of TLB resources.
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This optimization is more critical now as bigger and bigger physical memories
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(several GBs) are more readily available.
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Users can use the huge page support in Linux kernel by either using the mmap
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system call or standard SYSv shared memory system calls (shmget, shmat).
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2005-11-07 08:59:42 +00:00
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First the Linux kernel needs to be built with the CONFIG_HUGETLBFS
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(present under "File systems") and CONFIG_HUGETLB_PAGE (selected
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automatically when CONFIG_HUGETLBFS is selected) configuration
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options.
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2005-04-16 22:20:36 +00:00
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The kernel built with hugepage support should show the number of configured
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2005-11-07 08:59:42 +00:00
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hugepages in the system by running the "cat /proc/meminfo" command.
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2005-04-16 22:20:36 +00:00
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/proc/meminfo also provides information about the total number of hugetlb
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pages configured in the kernel. It also displays information about the
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number of free hugetlb pages at any time. It also displays information about
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the configured hugepage size - this is needed for generating the proper
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alignment and size of the arguments to the above system calls.
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2006-04-11 05:53:04 +00:00
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The output of "cat /proc/meminfo" will have lines like:
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2005-04-16 22:20:36 +00:00
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.....
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HugePages_Total: xxx
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HugePages_Free: yyy
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2006-04-19 05:21:51 +00:00
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HugePages_Rsvd: www
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Hugepagesize: zzz kB
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where:
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HugePages_Total is the size of the pool of hugepages.
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HugePages_Free is the number of hugepages in the pool that are not yet
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allocated.
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HugePages_Rsvd is short for "reserved," and is the number of hugepages
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for which a commitment to allocate from the pool has been made, but no
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allocation has yet been made. It's vaguely analogous to overcommit.
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2005-04-16 22:20:36 +00:00
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/proc/filesystems should also show a filesystem of type "hugetlbfs" configured
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in the kernel.
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/proc/sys/vm/nr_hugepages indicates the current number of configured hugetlb
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pages in the kernel. Super user can dynamically request more (or free some
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2005-11-07 08:59:42 +00:00
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pre-configured) hugepages.
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The allocation (or deallocation) of hugetlb pages is possible only if there are
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2005-04-16 22:20:36 +00:00
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enough physically contiguous free pages in system (freeing of hugepages is
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2006-04-11 05:53:04 +00:00
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possible only if there are enough hugetlb pages free that can be transferred
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2005-04-16 22:20:36 +00:00
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back to regular memory pool).
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2006-04-11 05:53:04 +00:00
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Pages that are used as hugetlb pages are reserved inside the kernel and cannot
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be used for other purposes.
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2005-04-16 22:20:36 +00:00
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Once the kernel with Hugetlb page support is built and running, a user can
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use either the mmap system call or shared memory system calls to start using
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the huge pages. It is required that the system administrator preallocate
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2005-11-07 08:59:42 +00:00
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enough memory for huge page purposes.
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2005-04-16 22:20:36 +00:00
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Use the following command to dynamically allocate/deallocate hugepages:
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echo 20 > /proc/sys/vm/nr_hugepages
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This command will try to configure 20 hugepages in the system. The success
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or failure of allocation depends on the amount of physically contiguous
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memory that is preset in system at this time. System administrators may want
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2006-04-11 05:53:04 +00:00
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to put this command in one of the local rc init files. This will enable the
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2005-04-16 22:20:36 +00:00
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kernel to request huge pages early in the boot process (when the possibility
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of getting physical contiguous pages is still very high).
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If the user applications are going to request hugepages using mmap system
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call, then it is required that system administrator mount a file system of
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type hugetlbfs:
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2007-07-16 06:40:52 +00:00
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mount -t hugetlbfs \
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-o uid=<value>,gid=<value>,mode=<value>,size=<value>,nr_inodes=<value> \
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none /mnt/huge
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2005-04-16 22:20:36 +00:00
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This command mounts a (pseudo) filesystem of type hugetlbfs on the directory
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/mnt/huge. Any files created on /mnt/huge uses hugepages. The uid and gid
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options sets the owner and group of the root of the file system. By default
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the uid and gid of the current process are taken. The mode option sets the
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mode of root of file system to value & 0777. This value is given in octal.
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By default the value 0755 is picked. The size option sets the maximum value of
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memory (huge pages) allowed for that filesystem (/mnt/huge). The size is
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2006-04-11 05:53:04 +00:00
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rounded down to HPAGE_SIZE. The option nr_inodes sets the maximum number of
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2007-07-16 06:40:52 +00:00
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inodes that /mnt/huge can use. If the size or nr_inodes option is not
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2005-04-16 22:20:36 +00:00
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provided on command line then no limits are set. For size and nr_inodes
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2005-11-07 08:59:42 +00:00
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options, you can use [G|g]/[M|m]/[K|k] to represent giga/mega/kilo. For
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2007-07-16 06:40:52 +00:00
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example, size=2K has the same meaning as size=2048.
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2005-04-16 22:20:36 +00:00
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read and write system calls are not supported on files that reside on hugetlb
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file systems.
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2006-04-11 05:53:04 +00:00
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Regular chown, chgrp, and chmod commands (with right permissions) could be
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2005-04-16 22:20:36 +00:00
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used to change the file attributes on hugetlbfs.
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Also, it is important to note that no such mount command is required if the
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applications are going to use only shmat/shmget system calls. Users who
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wish to use hugetlb page via shared memory segment should be a member of
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a supplementary group and system admin needs to configure that gid into
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/proc/sys/vm/hugetlb_shm_group. It is possible for same or different
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2006-04-11 05:53:04 +00:00
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applications to use any combination of mmaps and shm* calls, though the
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mount of filesystem will be required for using mmap calls.
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2005-04-16 22:20:36 +00:00
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*******************************************************************
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/*
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* Example of using hugepage memory in a user application using Sys V shared
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* memory system calls. In this example the app is requesting 256MB of
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* memory that is backed by huge pages. The application uses the flag
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* SHM_HUGETLB in the shmget system call to inform the kernel that it is
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* requesting hugepages.
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*
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* For the ia64 architecture, the Linux kernel reserves Region number 4 for
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* hugepages. That means the addresses starting with 0x800000... will need
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* to be specified. Specifying a fixed address is not required on ppc64,
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* i386 or x86_64.
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*
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* Note: The default shared memory limit is quite low on many kernels,
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* you may need to increase it via:
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*
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* echo 268435456 > /proc/sys/kernel/shmmax
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*
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* This will increase the maximum size per shared memory segment to 256MB.
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* The other limit that you will hit eventually is shmall which is the
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* total amount of shared memory in pages. To set it to 16GB on a system
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* with a 4kB pagesize do:
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*
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* echo 4194304 > /proc/sys/kernel/shmall
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <sys/types.h>
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#include <sys/ipc.h>
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#include <sys/shm.h>
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#include <sys/mman.h>
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#ifndef SHM_HUGETLB
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#define SHM_HUGETLB 04000
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#endif
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#define LENGTH (256UL*1024*1024)
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#define dprintf(x) printf(x)
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/* Only ia64 requires this */
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#ifdef __ia64__
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#define ADDR (void *)(0x8000000000000000UL)
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#define SHMAT_FLAGS (SHM_RND)
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#else
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#define ADDR (void *)(0x0UL)
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#define SHMAT_FLAGS (0)
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#endif
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int main(void)
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{
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int shmid;
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unsigned long i;
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char *shmaddr;
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if ((shmid = shmget(2, LENGTH,
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SHM_HUGETLB | IPC_CREAT | SHM_R | SHM_W)) < 0) {
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perror("shmget");
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exit(1);
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}
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printf("shmid: 0x%x\n", shmid);
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shmaddr = shmat(shmid, ADDR, SHMAT_FLAGS);
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if (shmaddr == (char *)-1) {
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perror("Shared memory attach failure");
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shmctl(shmid, IPC_RMID, NULL);
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exit(2);
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}
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printf("shmaddr: %p\n", shmaddr);
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dprintf("Starting the writes:\n");
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for (i = 0; i < LENGTH; i++) {
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shmaddr[i] = (char)(i);
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if (!(i % (1024 * 1024)))
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dprintf(".");
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}
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dprintf("\n");
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dprintf("Starting the Check...");
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for (i = 0; i < LENGTH; i++)
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if (shmaddr[i] != (char)i)
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printf("\nIndex %lu mismatched\n", i);
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dprintf("Done.\n");
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if (shmdt((const void *)shmaddr) != 0) {
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perror("Detach failure");
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shmctl(shmid, IPC_RMID, NULL);
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exit(3);
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}
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shmctl(shmid, IPC_RMID, NULL);
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return 0;
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}
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*******************************************************************
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/*
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* Example of using hugepage memory in a user application using the mmap
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* system call. Before running this application, make sure that the
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* administrator has mounted the hugetlbfs filesystem (on some directory
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* like /mnt) using the command mount -t hugetlbfs nodev /mnt. In this
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* example, the app is requesting memory of size 256MB that is backed by
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* huge pages.
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*
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* For ia64 architecture, Linux kernel reserves Region number 4 for hugepages.
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* That means the addresses starting with 0x800000... will need to be
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* specified. Specifying a fixed address is not required on ppc64, i386
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* or x86_64.
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <unistd.h>
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#include <sys/mman.h>
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#include <fcntl.h>
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#define FILE_NAME "/mnt/hugepagefile"
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#define LENGTH (256UL*1024*1024)
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#define PROTECTION (PROT_READ | PROT_WRITE)
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/* Only ia64 requires this */
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#ifdef __ia64__
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#define ADDR (void *)(0x8000000000000000UL)
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#define FLAGS (MAP_SHARED | MAP_FIXED)
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#else
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#define ADDR (void *)(0x0UL)
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#define FLAGS (MAP_SHARED)
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#endif
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void check_bytes(char *addr)
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{
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printf("First hex is %x\n", *((unsigned int *)addr));
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}
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void write_bytes(char *addr)
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{
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unsigned long i;
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for (i = 0; i < LENGTH; i++)
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*(addr + i) = (char)i;
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}
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void read_bytes(char *addr)
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{
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unsigned long i;
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check_bytes(addr);
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for (i = 0; i < LENGTH; i++)
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if (*(addr + i) != (char)i) {
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printf("Mismatch at %lu\n", i);
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break;
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}
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}
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int main(void)
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{
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void *addr;
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int fd;
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fd = open(FILE_NAME, O_CREAT | O_RDWR, 0755);
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if (fd < 0) {
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perror("Open failed");
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exit(1);
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}
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addr = mmap(ADDR, LENGTH, PROTECTION, FLAGS, fd, 0);
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if (addr == MAP_FAILED) {
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perror("mmap");
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unlink(FILE_NAME);
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exit(1);
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}
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printf("Returned address is %p\n", addr);
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check_bytes(addr);
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write_bytes(addr);
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read_bytes(addr);
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munmap(addr, LENGTH);
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close(fd);
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unlink(FILE_NAME);
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return 0;
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}
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