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82 lines
1.6 KiB
Plaintext
82 lines
1.6 KiB
Plaintext
@startuml
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Participant "Calling\nThread" as t
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Participant "Limiter\nlogic" as l
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Participant "Allocated\nnanos" as a
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Participant "Elapsed\nnanos" as e
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Participant "Clock\nSource" as c
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t -> l : acquire(nanos)
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group allocate start time
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l -> a : getAndIncrement(nanos)
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activate a #black
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note over l,a
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**allocated** is an atomic accumulator
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which represents scheduled time. Each
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op causes it to be atomically incremented
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by a time slice of nanos.
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end note
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a -> l : <scheduled_at>
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deactivate a
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end
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group calculate delay (cached)
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l -> e : get()
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activate e
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note over e
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**elapsed** is an
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atomic register
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which caches
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system time.
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end note
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e -> l : <elapsed>
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deactivate e
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l -> l : delay = \nelapsed - scheduled_at
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note right
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**delay** measures external delay
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that causes an op to fire after
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the ideal time. **positive delay**
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thus means the rate limiter doesn't
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need to impose its own blocking delay
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in order to ensure delay>=0.
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end note
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end
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group if delay<0 (cached)
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note over l,c
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If delay<0, then this operation is too soon according
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to the cached clock value. Since this could be stale
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and cause us to block needlessly, we update the cached
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clock value and recompute delay.
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end note
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l -> c : get() (~25ns)
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activate c #orange
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c -> l : <elapsed>
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deactivate c
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l -> e : store(<elapsed>)
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activate e #black
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e -> l
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deactivate e
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l -> l : delay = \nelapsed - scheduled_at
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group if delay<0 (updated)
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l->l: sleep(-delay);\ndelay=0
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note right
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If delay is negative, we sleep
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in the calling thread and
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set delay=0
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end note
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activate l
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deactivate l
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end
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end
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l->t: <delay>
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@enduml |