• D
    tools, perf: add and use optimized ring_buffer_{read_head, write_tail} helpers · 09d62154
    Daniel Borkmann 提交于
    Currently, on x86-64, perf uses LFENCE and MFENCE (rmb() and mb(),
    respectively) when processing events from the perf ring buffer which
    is unnecessarily expensive as we can do more lightweight in particular
    given this is critical fast-path in perf.
    
    According to Peter rmb()/mb() were added back then via a94d342b
    ("tools/perf: Add required memory barriers") at a time where kernel
    still supported chips that needed it, but nowadays support for these
    has been ditched completely, therefore we can fix them up as well.
    
    While for x86-64, replacing rmb() and mb() with smp_*() variants would
    result in just a compiler barrier for the former and LOCK + ADD for
    the latter (__sync_synchronize() uses slower MFENCE by the way), Peter
    suggested we can use smp_{load_acquire,store_release}() instead for
    architectures where its implementation doesn't resolve in slower smp_mb().
    Thus, e.g. in x86-64 we would be able to avoid CPU barrier entirely due
    to TSO. For architectures where the latter needs to use smp_mb() e.g.
    on arm, we stick to cheaper smp_rmb() variant for fetching the head.
    
    This work adds helpers ring_buffer_read_head() and ring_buffer_write_tail()
    for tools infrastructure that either switches to smp_load_acquire() for
    architectures where it is cheaper or uses READ_ONCE() + smp_rmb() barrier
    for those where it's not in order to fetch the data_head from the perf
    control page, and it uses smp_store_release() to write the data_tail.
    Latter is smp_mb() + WRITE_ONCE() combination or a cheaper variant if
    architecture allows for it. Those that rely on smp_rmb() and smp_mb() can
    further improve performance in a follow up step by implementing the two
    under tools/arch/*/include/asm/barrier.h such that they don't have to
    fallback to rmb() and mb() in tools/include/asm/barrier.h.
    
    Switch perf to use ring_buffer_read_head() and ring_buffer_write_tail()
    so it can make use of the optimizations. Later, we convert libbpf as
    well to use the same helpers.
    
    Side note [0]: the topic has been raised of whether one could simply use
    the C11 gcc builtins [1] for the smp_load_acquire() and smp_store_release()
    instead:
    
      __atomic_load_n(ptr, __ATOMIC_ACQUIRE);
      __atomic_store_n(ptr, val, __ATOMIC_RELEASE);
    
    Kernel and (presumably) tooling shipped along with the kernel has a
    minimum requirement of being able to build with gcc-4.6 and the latter
    does not have C11 builtins. While generally the C11 memory models don't
    align with the kernel's, the C11 load-acquire and store-release alone
    /could/ suffice, however. Issue is that this is implementation dependent
    on how the load-acquire and store-release is done by the compiler and
    the mapping of supported compilers must align to be compatible with the
    kernel's implementation, and thus needs to be verified/tracked on a
    case by case basis whether they match (unless an architecture uses them
    also from kernel side). The implementations for smp_load_acquire() and
    smp_store_release() in this patch have been adapted from the kernel side
    ones to have a concrete and compatible mapping in place.
    
      [0] http://patchwork.ozlabs.org/patch/985422/
      [1] https://gcc.gnu.org/onlinedocs/gcc/_005f_005fatomic-Builtins.htmlSigned-off-by: NDaniel Borkmann <daniel@iogearbox.net>
    Acked-by: NPeter Zijlstra (Intel) <peterz@infradead.org>
    Cc: "Paul E. McKenney" <paulmck@linux.vnet.ibm.com>
    Cc: Will Deacon <will.deacon@arm.com>
    Cc: Arnaldo Carvalho de Melo <acme@redhat.com>
    Signed-off-by: NAlexei Starovoitov <ast@kernel.org>
    09d62154
barrier.h 913 字节