36e0204a8f
Change-Id: I6674421d3afdbfab6acd97851cb062341b88a90e
74 lines
2.5 KiB
Markdown
74 lines
2.5 KiB
Markdown
# Redis Storage
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This storage system separates chihaya server from storage service, chihaya server achieves HA by storing all peer data in Redis, the storage service gets HA by creating cluster. If one chihaya node goes down, peer data will still be available in Redis service.
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The HA of storage service is not considered here, it's another topic. In case Redis service is a single node, peer data will be unavailable if the node is down. So you should setup a Redis cluster for chihaya server in production.
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## Use Case
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When one chihaya instance is down, the Redis can continuily serve peer data through other chihaya instances.
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## Configuration
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```yaml
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chihaya:
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storage:
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name: redis
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config:
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# The frequency which stale peers are removed.
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gc_interval: 14m
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# The frequency which metrics are pushed into a local Prometheus endpoint.
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prometheus_reporting_interval: 1s
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# The amount of time until a peer is considered stale.
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# To avoid churn, keep this slightly larger than `announce_interval`
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peer_lifetime: 16m
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# The address of redis storage.
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redis_broker: "redis://pwd@127.0.0.1:6379/0"
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# The timeout for reading a command reply from redis.
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redis_read_timeout: 15s
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# The timeout for writing a command to redis.
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redis_write_timeout: 15s
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# The timeout for connecting to redis server.
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redis_connect_timeout: 15s
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```
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## Implementation
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Seeders and Leechers for a particular InfoHash are stored with a redis hash structure, the infohash is used as hash key, peer key is field, last modified time is value.
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All the InfoHashes (swarms) are also stored into redis hash, IP family is the key, infohash is field, last modified time is value.
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Here is an example
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```
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- IPv4
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- IPv4_S_<infohash 1>: <modification time>
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- IPv4_L_<infohash 1>: <modification time>
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- IPv4_S_<infohash 2>: <modification time>
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- IPv4_S_<infohash 1>
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- <peer 1 key>: <modification time>
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- <peer 2 key>: <modification time>
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- IPv4_L_<infohash 1>
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- <peer 3 key>: <modification time>
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- IPv4_S_<infohash 2>
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- <peer 3 key>: <modification time>
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```
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In this case, prometheus will record two swarms, three seeders and one leecher.
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So tree keys are used to record the count of swarms, seeders and leechers for each group (IPv4, IPv6).
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```
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- IPv4_infohash_count: 2
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- IPv4_S_count: 3
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- IPv4_L_count: 1
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```
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Note: IPv4_infohash_count has the different meaning with `memory` storage, it represents the number of infohashes reported by seeder.
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