141 lines
3.8 KiB
Go
141 lines
3.8 KiB
Go
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package redis_rate
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import "github.com/go-redis/redis/v8"
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// pluralkit changes:
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// fly's hosted redis doesn't support replicate commands
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// we can remove it since it's a single host
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// Copyright (c) 2017 Pavel Pravosud
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// https://github.com/rwz/redis-gcra/blob/master/vendor/perform_gcra_ratelimit.lua
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var allowN = redis.NewScript(`
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-- this script has side-effects, so it requires replicate commands mode
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-- redis.replicate_commands()
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local rate_limit_key = KEYS[1]
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local burst = ARGV[1]
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local rate = ARGV[2]
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local period = ARGV[3]
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local cost = tonumber(ARGV[4])
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local emission_interval = period / rate
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local increment = emission_interval * cost
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local burst_offset = emission_interval * burst
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-- redis returns time as an array containing two integers: seconds of the epoch
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-- time (10 digits) and microseconds (6 digits). for convenience we need to
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-- convert them to a floating point number. the resulting number is 16 digits,
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-- bordering on the limits of a 64-bit double-precision floating point number.
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-- adjust the epoch to be relative to Jan 1, 2017 00:00:00 GMT to avoid floating
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-- point problems. this approach is good until "now" is 2,483,228,799 (Wed, 09
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-- Sep 2048 01:46:39 GMT), when the adjusted value is 16 digits.
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local jan_1_2017 = 1483228800
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local now = redis.call("TIME")
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now = (now[1] - jan_1_2017) + (now[2] / 1000000)
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local tat = redis.call("GET", rate_limit_key)
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if not tat then
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tat = now
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else
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tat = tonumber(tat)
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end
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tat = math.max(tat, now)
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local new_tat = tat + increment
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local allow_at = new_tat - burst_offset
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local diff = now - allow_at
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local remaining = diff / emission_interval
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if remaining < 0 then
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local reset_after = tat - now
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local retry_after = diff * -1
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return {
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0, -- allowed
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0, -- remaining
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tostring(retry_after),
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tostring(reset_after),
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}
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end
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local reset_after = new_tat - now
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if reset_after > 0 then
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redis.call("SET", rate_limit_key, new_tat, "EX", math.ceil(reset_after))
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end
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local retry_after = -1
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return {cost, remaining, tostring(retry_after), tostring(reset_after)}
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`)
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var allowAtMost = redis.NewScript(`
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-- this script has side-effects, so it requires replicate commands mode
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-- redis.replicate_commands()
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local rate_limit_key = KEYS[1]
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local burst = ARGV[1]
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local rate = ARGV[2]
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local period = ARGV[3]
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local cost = tonumber(ARGV[4])
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local emission_interval = period / rate
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local burst_offset = emission_interval * burst
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-- redis returns time as an array containing two integers: seconds of the epoch
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-- time (10 digits) and microseconds (6 digits). for convenience we need to
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-- convert them to a floating point number. the resulting number is 16 digits,
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-- bordering on the limits of a 64-bit double-precision floating point number.
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-- adjust the epoch to be relative to Jan 1, 2017 00:00:00 GMT to avoid floating
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-- point problems. this approach is good until "now" is 2,483,228,799 (Wed, 09
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-- Sep 2048 01:46:39 GMT), when the adjusted value is 16 digits.
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local jan_1_2017 = 1483228800
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local now = redis.call("TIME")
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now = (now[1] - jan_1_2017) + (now[2] / 1000000)
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local tat = redis.call("GET", rate_limit_key)
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if not tat then
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tat = now
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else
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tat = tonumber(tat)
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end
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tat = math.max(tat, now)
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local diff = now - (tat - burst_offset)
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local remaining = diff / emission_interval
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if remaining < 1 then
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local reset_after = tat - now
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local retry_after = emission_interval - diff
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return {
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0, -- allowed
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0, -- remaining
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tostring(retry_after),
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tostring(reset_after),
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}
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end
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if remaining < cost then
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cost = remaining
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remaining = 0
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else
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remaining = remaining - cost
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end
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local increment = emission_interval * cost
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local new_tat = tat + increment
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local reset_after = new_tat - now
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if reset_after > 0 then
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redis.call("SET", rate_limit_key, new_tat, "EX", math.ceil(reset_after))
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end
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return {
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cost,
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remaining,
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tostring(-1),
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tostring(reset_after),
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}
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`)
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