I've recently decided to learn more about systems programming, and felt it would be helpful to see what my code is actually doing under the hood.
To do this, I wrote a short LinkedList class in C++ and decided to trace it using dtruss
(read: dtrace).
My expectation was that any instructions that extend the heap (e.g. using the new
keyword, or instantiating LinkedList objects) would invoke the mmap
or sbrk
/break
system calls. This was not the case!
In fact, running dtruss
with the -s switch, I don't see any system calls being invoked from inside my LinkedList::Add
function! Testing, I'm certain elements are being added.
Can anyone explain why I don't see references to mmap
/sbrk
in my dtruss output?
Bonus points if someone could explain the purpose of mprotect
and madvise
.
I've included my LinkedList class, main.cpp, and dtruss output below.
Thank you!
dtruss output
SYSCALL(args) = return
Created new LinkedList
Created new LinkedList
Destroyed a LinkedList
open("/dev/dtracehelper\0", 0x2, 0xFFFFFFFFE3236D70) = 3 0
ioctl(0x3, 0x80086804, 0x7FFEE3236CD0) = 0 0
close(0x3) = 0 0
access("/AppleInternal/XBS/.isChrooted\0", 0x0, 0x0) = -1 Err#2
thread_selfid(0x0, 0x0, 0x0) = 198178 0
bsdthread_register(0x7FFF5BAB5C50, 0x7FFF5BAB5C40, 0x2000) = 1073742047 0
issetugid(0x0, 0x0, 0x0) = 0 0
mprotect(0x10C9D0000, 0x1000, 0x0) = 0 0
mprotect(0x10C9D5000, 0x1000, 0x0) = 0 0
mprotect(0x10C9D6000, 0x1000, 0x0) = 0 0
mprotect(0x10C9DB000, 0x1000, 0x0) = 0 0
mprotect(0x10C9CE000, 0x88, 0x1) = 0 0
mprotect(0x10C9DC000, 0x1000, 0x1) = 0 0
mprotect(0x10C9CE000, 0x88, 0x3) = 0 0
mprotect(0x10C9CE000, 0x88, 0x1) = 0 0
getpid(0x0, 0x0, 0x0) = 1698 0
stat64("/AppleInternal/XBS/.isChrooted\0", 0x7FFEE32362E8, 0x0) = -1 Err#2
stat64("/AppleInternal\0", 0x7FFEE3236380, 0x0) = -1 Err#2
csops(0x6A2, 0x7, 0x7FFEE3235E20) = -1 Err#22
sysctl([CTL_KERN, 14, 1, 1698, 0, 0] (4), 0x7FFEE3235F68, 0x7FFEE3235F60, 0x0, 0x0) = 0 0
csops(0x6A2, 0x7, 0x7FFEE3235710) = -1 Err#22
getrlimit(0x1008, 0x7FFEE32374F0, 0x0) = 0 0
fstat64(0x1, 0x7FFEE3237508, 0x0) = 0 0
ioctl(0x1, 0x4004667A, 0x7FFEE3237554) = 0 0
write_nocancel(0x1, "Created new LinkedList\n\0", 0x17) = 23 0
write_nocancel(0x1, "Created new LinkedList\n\0", 0x17) = 23 0
write_nocancel(0x1, "Destroyed a LinkedList\n\0", 0x17) = 23 0
LinkedList.cpp
#include <iostream>
#include "LinkedList.h"
using namespace std;
LinkedList::LinkedList() {
this->length = 0;
this->head = NULL;
this->tail = NULL;
cout << "Created new LinkedList" << endl;
}
LinkedList::~LinkedList() {
Node* curr;
Node* temp;
curr = this->head;
while ( curr ) {
temp = curr;
curr = curr->next;
delete temp;
}
cout << "Destroyed a LinkedList" << endl;
}
void LinkedList::Add(int v) {
Node* n = new Node();
n->val = v;
n->next = NULL;
if (!this->head) {
this->head = n;
this->tail = n;
} else {
this->tail->next = n;
this->tail = n;
}
}
main.cpp
#include <iostream>
#include "LinkedList.h"
using namespace std;
int main() {
LinkedList l; // You should require a heap increase, right?
LinkedList* ll = new LinkedList(); // Surely you require more heap!
for (int i=0; i<1000; i++)
l.Add(i);
return 0;
}
I found that Mac OS doesn't use sbrk/brk/break()
for memory management like most UNIX/Linuxes. Basically, it's using the Mach kernel that Apple inherited from NeXT so the memory calls are going to be mpadvise(2)
and mprotect(2)
which offer finer grain control than sbrk()
.
From "Mac OS X and iOS Internals" by Jonathan Levin:
So to interpret your memory allocations you'd need to know the mprotect(2)
arguments from the sys/mman.h
header.
#define PROT_NONE 0x00 /* [MC2] no permissions */
#define PROT_READ 0x01 /* [MC2] pages can be read */
#define PROT_WRITE 0x02 /* [MC2] pages can be written */
#define PROT_EXEC 0x04 /* [MC2] pages can be executed */
....
And so your system calls would imply:
mprotect(0x10C9D0000, 0x1000, 0x0) = 0 0
mprotect(0x10C9D5000, 0x1000, 0x0) = 0 0
mprotect(0x10C9D6000, 0x1000, 0x0) = 0 0
mprotect(0x10C9DB000, 0x1000, 0x0) = 0 0
mprotect(0x10C9CE000, 0x88, 0x1) = 0 0 <-- Allow reads starting at 0x10C9CE000 for 136 bytes
mprotect(0x10C9DC000, 0x1000, 0x1) = 0 0
mprotect(0x10C9CE000, 0x88, 0x3) = 0 0 <-- Allow reads and writes starting at 0x10C9CE000 for 136 bytes
mprotect(0x10C9CE000, 0x88, 0x1) = 0 0
Regarding mmap(2)
, on Linux systems it's used to map the object code of the shared libraries but not used for malloc/free
or new/delete
.
References:
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