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I read the linux kernel document, and this file descript static-key:http://lxr.linux.no/linux+v3.11.1/Documentation/static-keys.txt

So, what's difference between static-key and __builtin_expect? They are all imply we can use them to implement likyly() and unlikely().

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up vote 3 down vote accepted
  • __builtin_expect introduces a true test-and-branch instruction in the code which needs to be evaluated by the CPU, while the instructions from the more likelier path-to-be-followed continue to be pre-fetched into the CPU pipeline.

  • static_key_* introduces a NOP instruction that occupies sufficient space in the code that can be later patched during run-time to add a jmp <label>. This can be used to accommodate debugging prints with zero-impact on the regular working case i.e while the code is not being debugged.

From the Linux kernel documentation for static-keys,

gcc (v4.5) adds a new 'asm goto' statement that allows branching to a label:
gcc.gnu.org/ml/gcc-patches/2009-07/msg01556.html

Using the 'asm goto', we can create branches that are either taken or not taken by default, without the need to check memory. Then, at run-time, we can patch the branch site to change the branch direction.

For example, if we have a simple branch that is disabled by default:

if (static_key_false(&key))
        printk("I am the true branch\n");

Thus, by default the 'printk' will not be emitted. And the code generated will consist of a single atomic 'no-op' instruction (5 bytes on x86), in the straight-line code path. When the branch is 'flipped', we will patch the 'no-op' in the straight-line code-path with a 'jump' instruction to the out-of-line true branch. Thus, changing branch direction is expensive but branch selection is basically 'free'. That is the basic tradeoff of this optimization.

This low-level patching mechanism is called 'jump label patching`, the basis of static-keys.

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