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// memory/vm related tapset
// Copyright (C) 2005, 2006 IBM Corp.
// Copyright (C) 2006 Intel Corporation.
//
// This file is part of systemtap, and is free software. You can
// redistribute it and/or modify it under the terms of the GNU General
// Public License (GPL); either version 2, or (at your option) any
// later version.
/**
* probe vm.pagefault - Records that a page fault occurred.
* @address: The address of the faulting memory access; i.e. the address that caused the page fault.
* @write_access: Indicates whether this was a write or read access; <command>1</command> indicates a write,
* while <command>0</command> indicates a read.
*
* Context: The process which triggered the fault
*/
probe vm.pagefault = kernel.function("__handle_mm_fault@mm/memory.c") ?,
kernel.function("handle_mm_fault@mm/memory.c") ?
{
write_access = $write_access
address = $address
}
/**
* probe vm.pagefault.return - Indicates what type of fault occurred.
* @fault_type: Returns either
* <command>0</command> (VM_FAULT_OOM) for out of memory faults,
* <command>2</command> (VM_FAULT_MINOR) for minor faults, <command>3</command> (VM_FAULT_MAJOR) for
* major faults, or <command>1</command> (VM_FAULT_SIGBUS) if the fault was neither OOM, minor fault,
* nor major fault.
*/
probe vm.pagefault.return = kernel.function("__handle_mm_fault@mm/memory.c").return ?,
kernel.function("handle_mm_fault@mm/memory.c").return ?
{
fault_type = $return
}
/**
* sfunction addr_to_node - Returns which node a given address belongs to within a NUMA system.
* @addr: The address of the faulting memory access.
*
*/
function addr_to_node:long(addr:long) %{ /* pure */
int nid;
int pfn = __pa(THIS->addr) >> PAGE_SHIFT;
for_each_online_node(nid)
if ( NODE_DATA(nid)->node_start_pfn <= pfn &&
pfn < (NODE_DATA(nid)->node_start_pfn +
NODE_DATA(nid)->node_spanned_pages) )
{
THIS->__retvalue = nid;
break;
}
%}
/* Return whether a page to be copied is a zero page. */
function _IS_ZERO_PAGE:long(from:long, vaddr:long) %{ /* pure */
THIS->__retvalue = (THIS->from == (long) ZERO_PAGE(THIS->vaddr));
%}
/**
* probe vm.write_shared - Attempts at writing to a shared page.
* @address: The address of the shared write.
*
* Context:
* The context is the process attempting the write.
*
* Fires when a process attempts to write to a shared page.
* If a copy is necessary, this will be followed by a
* <command>vm.write_shared_copy</command>.
*/
probe vm.write_shared = kernel.function("do_wp_page") {
address = $address
}
/**
* probe vm.write_shared_copy- Page copy for shared page write.
* @address: The address of the shared write.
* @zero: Boolean indicating whether it is a zero page
* (can do a clear instead of a copy).
*
* Context:
* The process attempting the write.
*
* Fires when a write to a shared page requires a page copy. This is
* always preceded by a <command>vm.shared_write</command>.
*/
probe vm.write_shared_copy = kernel.function("copy_cow_page")? {
address = $address
zero = _IS_ZERO_PAGE($from, address);
}
/**
* probe vm.mmap - Fires when an <command>mmap</command> is requested.
* @address: The requested address
* @length: The length of the memory segment
*
* Context:
* The process calling <command>mmap</command>.
*/
probe vm.mmap = kernel.function("do_mmap"), kernel.function("do_mmap2")? {
address = $addr
length = $len
}
/**
* probe vm.munmap - Fires when an <command>munmap</command> is requested.
* @address: The requested address
* @length: The length of the memory segment
*
* Context:
* The process calling <command>munmap</command>.
*/
probe vm.munmap = kernel.function("do_munmap") {
address = $start
length = $len
}
/**
* probe vm.brk - Fires when a <command>brk</command> is requested (i.e. the heap will be resized).
* @address: The requested address
* @length: The length of the memory segment
*
* Context:
* The process calling <command>brk</command>.
*/
probe vm.brk = kernel.function("do_brk") {
address = $addr
length = $len
}
/**
* probe vm.oom_kill - Fires when a thread is selected for termination by the OOM killer.
* @task: The task being killed
*
* Context:
* The process that tried to consume excessive memory, and thus
* triggered the OOM. <remark>(is this correct?)</remark>
*/
probe vm.oom_kill = kernel.function("__oom_kill_task") {
task = $p
}
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