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由 Peter Oskolkov 提交于
openeuler inclusion category: feature bugzilla: https://gitee.com/openeuler/kernel/issues/I4L9RU CVE: NA ------------------- As Paul Turner presented at LPC in 2013 ... - pdf: http://pdxplumbers.osuosl.org/2013/ocw//system/presentations/1653/original/LPC%20-%20User%20Threading.pdf - video: https://www.youtube.com/watch?v=KXuZi9aeGTw ... Google has developed an M:N userspace threading subsystem backed by Google-private SwitchTo Linux Kernel API (page 17 in the pdf referenced above). This subsystem provides latency-sensitive services at Google with fine-grained user-space control/scheduling over what is running when, and this subsystem is used widely internally (called schedulers or fibers). This patchset is the first step to open-source this work. As explained in the linked pdf and video, SwitchTo API has three core operations: wait, resume, and swap (=switch). So this patchset adds a FUTEX_SWAP operation that, in addition to FUTEX_WAIT and FUTEX_WAKE, will provide a foundation on top of which user-space threading libraries can be built. Another common use case for FUTEX_SWAP is message passing a-la RPC between tasks: task/thread T1 prepares a message, wakes T2 to work on it, and waits for the results; when T2 is done, it wakes T1 and waits for more work to arrive. Currently the simplest way to implement this is a. T1: futex-wake T2, futex-wait b. T2: wakes, does what it has been woken to do c. T2: futex-wake T1, futex-wait With FUTEX_SWAP, steps a and c above can be reduced to one futex operation that runs 5-10 times faster. Patches in this patchset: Patch 1: (this patch) introduce FUTEX_SWAP futex operation that, internally, does wake + wait. The purpose of this patch is to work out the API. Patch 2: a first rough attempt to make FUTEX_SWAP faster than what wake + wait can do. Patch 3: a selftest that can also be used to benchmark FUTEX_SWAP vs FUTEX_WAKE + FUTEX_WAIT. Tested: see patch 3 in this patchset. Signed-off-by: NPeter Oskolkov <posk@google.com>
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