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in arch/x86/include/asm/switch_to.h , there's the definition of macro switch_to, the key lines which do the real thread switch miracle read like this:

asm volatile("pushfl\n\t"       /* save    flags */ \
              pushl %%ebp\n\t"      /* save    EBP   */ \
              "movl %%esp,%[prev_sp]\n\t"   /* save    ESP   */ \
              "movl %[next_sp],%%esp\n\t"   /* restore ESP   */ \
              "movl $1f,%[prev_ip]\n\t" /* save    EIP   */ \
              "pushl %[next_ip]\n\t"    /* restore EIP   */ \
              __switch_canary                   \
              "jmp __switch_to\n"   /* regparm call  */ \
              "1:\t"                        \
              "popl %%ebp\n\t"      /* restore EBP   */ \
              "popfl\n"         /* restore flags */ \

I understand how it works, like the kernel stack pointer backup/restore, and how the push next->eip and jmp __switch_to with a ret instruction at the end of the function, which is actually a "fake" call instruction matched with a real ret instruction, and effectively make the next->eip the return point of the next thread.

What I don't understand is, why the hack? why not just call __switch_to, then after it ret, jmp to next->eip, which is more clean and reader-friendly.

Thanks in advanced.

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1 Answer 1

up vote 5 down vote accepted

There's two reasons for doing it this way.

One is to allow complete flexibility of operand/register allocation for [next_ip]. If you want to be able to do the jmp %[next_ip] after the call __switch_to then it is necessary to have %[next_ip] allocated to a nonvolatile register (i.e. one that, by the ABI definitions, will retain its value when making a function call).

That introduces a restriction in the compiler's ability to optimize, and the resulting code for context_switch() (the 'caller' - where switch_to() is used) might not be as good as could be. But for what benefit ?

Well - that's where the second reason comes in, none, really, because call __switch_to would be equivalent to:

pushl 1f
jmp __switch_to
1: jmp %[next_ip]

i.e. it pushes the return address; you'd end up with a sequence push/jmp (== call)/ret/jmp while if you do not want to return to this place (and this code doesn't), you save on code branches by "faking" a call because you'd only have to do push/jmp/ret. The code makes itself tail recursive here.

Yes, it's a small optimization, but avoiding a branch reduces latency and latency is critical for context switches.

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But wouldn't it effectively kill the return-prediction stack? – harold Feb 22 '13 at 12:37
yes - but the jmp to register target does that as well, as you never want to return to switch_to(), really (until the next context switch). No difference between both as far as that. – FrankH. Feb 22 '13 at 13:20

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