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Many a times i read/hear the argument that making a lot of system calls etc would be inefficient since the application make a mode switch i.e goes from user mode to kernel mode and after executing the system call starts executing in the user mode by making a mode switch again.

My question is what is the overhead of a mode switch ? Does cpu cache gets invalidated or tlb entries are flushed out or what happens that causes overhead ?

Please note that i am asking about the overhead involved in mode switch and not context switch. I know that mode switch and context switch are two different things and i am fully aware about overhead associated with a context switch, but what i fail to understand is what overhead is caused by a mode switch ?

If its possible please provide some information about a particular *nix platform like Linux, FreeBSD, Solaris etc.



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how to start a bounty on this question ? –  ghayalcoder Dec 10 '09 at 9:46

2 Answers 2

There should be no CPU cache or TLB flush on a simple mode switch.

A quick test tells me that, on my Linux laptop it takes about 0.11 microsecond for a userspace process to complete a simple syscall that does an insignificant amount of work other than the switch to kernel mode and back. I'm using getuid(), which only copies a single integer from an in-memory struct. strace confirms that the syscall is repeated MAX times.

#include <unistd.h>
#define MAX 100000000
int main() {
  int ii;
  for (ii=0; ii<MAX; ii++) getuid();
  return 0;

This takes about 11 seconds on my laptop, measured using time ./testover, and 11 seconds divided by 100 million gives you 0.11 microsecond.

Technically, that's two mode switches, so I suppose you could claim that a single mode switch takes 0.055 microseconds, but a one-way switch isn't very useful, so I'd consider the there-and-back number to be the more relevant one.

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There are many ways to do a mode switch on the x86 CPUs (which I am assuming here). For a user called function, the normal way is to do a Task jump or Call (referred to as Task Gates and Call Gates). Both of these involve a Task switch (equivalent to a context switch). Add to that a bit of processing before the call, the standard verification after the call, and the return. This rounds up the bare minimum to a safe mode switch.

As for Eric's timing, I am not a Linux expert, but in most OS I have dealt with, simple system calls cache data (if it can be done safely) in the user space to avoid this overhead. And it would seem to me that a getuid() would be a prime candidate for such data caching. Thus Eric's timing could be more a reflection of the overhead of the pre-switch processing in user space than anything else.

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No data caching is happening; that's why I used strace to verify that the system call is taking place. A syscall, by definition, is a call into kernel space. –  Eric Seppanen Dec 7 '09 at 19:11
Also, your assertion that a mode switch is equivalent to a context switch is not true. A context switch involves swapping out the entire CPU state and page tables; this is significant work that is not required for system calls. A syscall is a simple software interrupt (x86 assembly "int $0x80") –  Eric Seppanen Dec 7 '09 at 19:24
So in the syscall there is only a preamble and an INT instruction? –  Juice Dec 7 '09 at 19:47
Juice: The int 0x80 syscall entry on x86 Linux uses a Trap Gate, which does not change the task (tr register). It merely specifies a Segment Selector and Offset to jump to. The Segment Selector itself includes the new privilege level (DPL) - and because we're changing privilege level, we get a new stack segment and stack pointer as well - these are loaded from the TSS. –  caf Dec 7 '09 at 23:24
I was mistaken. For my defense, it has been a while since I played with this stuff. You can do a safe, higher privilege call without a Task switch (with a Call, Interrupt or Trap gate). My apologies. –  Juice Dec 10 '09 at 20:05

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