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The I/O operations knobs are prefixed `ops_` rather than `bw_`, as `bw_` refers to the "bandwidth" knobs. Signed-off-by: Fabiano Fidêncio <fabiano.fidencio@intel.com>
45 lines
2.6 KiB
Markdown
45 lines
2.6 KiB
Markdown
# I/O Throttling
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Cloud Hypervisor now supports I/O throttling on virtio-block and virtio-net
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devices. This support is based on the [`rate-limiter` module](https://github.com/firecracker-microvm/firecracker/tree/master/src/rate_limiter)
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from Firecracker. This document explains the user interface of this
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feature, and highlights some internal implementations that can help users
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better understand the expected behavior of I/O throttling in practice.
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Cloud Hypervisor allows to limit both the I/O bandwidth (e.g. bytes/s)
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and I/O operations (ops/s) independently. For virtio-net devices, while
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sharing the same "rate limit" from user inputs (on both bandwidth and
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operations), the RX and TX queues are throttled independently.
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To limit the I/O bandwidth, Cloud Hypervisor
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provides three user options, i.e., `bw_size` (bytes), `bw_one_time_burst`
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(bytes), and `bw_refill_time` (ms). Both `bw_size` and `bw_refill_time`
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are required, while `bw_one_time_burst` is optional.
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Internally, these options define a TokenBucket with a maximum capacity
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(`bw_size` bytes), an initial burst size (`bw_one_time_burst`) and an
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interval for refilling purposes (`bw_refill_time`). The "refill-rate" is
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`bw_size` bytes per `bw_refill_time` ms, and it is the constant rate at
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which the tokens replenish. The refill process only starts happening
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after the initial burst budget is consumed. Consumption from the token
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bucket is unbounded in speed which allows for bursts bound in size by
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the amount of tokens available. Once the token bucket is empty,
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consumption speed is bound by the "refill-rate". Similarly, Cloud
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Hypervisor provides another three options for limiting I/O operations,
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i.e., `ops_size` (I/O operations), `ops_one_time_burst` (I/O operations),
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and `ops_refill_time` (ms).
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One caveat in the I/O throttling is that every-time the bucket gets
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empty, it will stop I/O operations for a fixed amount of time
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(`cool_down_time`). The `cool_down_time` now is fixed at `100 ms`, it
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can have big implications to the actual rate limit (which can be a lot
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different the expected "refill-rate" derived from user inputs). For
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example, to have a 1000 IOPS limit on a virtio-blk device, users should
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be able to provide either of the following two options:
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`ops_size=1000,ops_refill_time=1000` or
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`ops_size=10,ops_refill_time=10`. However, the actual IOPS limits are
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likely to be ~1000 IOPS and ~100 IOPS respectively. The reason is the
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actual rate limit users get can be as low as
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`ops_size/(ops_refill_time+cool_down_time)`. As a result, it is
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generally advisable to keep `bw/ops_refill_time` larger than `100 ms`
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(`cool_down_time`) to make sure the actual rate limit is close to users'
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expectation ("refill-rate").
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