delay Delays events relative to a given start time, with an optional speedup.
delay field : time, [start = time, speed = double]
Description The delay
operator replays a dataflow according to a time field by introducing
sleeping periods proportional to the inter-arrival times of the events.
With the speed
option, you can adjust the sleep time of the time series
induced by field
with a multiplicative factor. This has the effect of making
the time series "faster" for values great than 1 and "slower" for values less
than 1. Unless you provide a start time with start
, the operator will anchor
the timestamps in field
to begin with the current wall clock time, as if you
provided start=now()
.
The diagram below illustrates the effect of applying delay
to dataflow. If an
event in the stream has a timestamp the precedes the previous event, delay
emits it instantly. Otherwise delay
sleeps the amount of time to reach the
next timestamp. As shown in the last illustration, the speed
factor has a
scaling effect on the inter-arrival times.
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 0 t 2 t 3 t 1 t 4 t 0 t 1 t 4 t - t 1 0 t - t 4 1 Time Time sleep for sleep for Event Timestamps Event Emission a c d b e a b c d e t 0 t 1 t 4 t - t 1 0 Time sleep for Scaled Event Emission a b c d e s t - t 4 1 s sleep for ' ' '
The options start
and speed
work independently, i.e., you can use them
separately or both together.
field: time
The field in the event containing the timestamp values.
start = time (optional)
The timestamp to anchor the time values around.
Defaults to the first non-null timestamp in field
.
speed = double (optional)
A constant factor to be divided by the inter-arrival time. For example, 2.0
decreases the event gaps by a factor of two, resulting a twice as fast dataflow.
A value of 0.1 creates dataflow that spans ten times the original time frame.
Defaults to 1.0.
Examples Replay logs in real time Replay the M57 Zeek logs with real-world inter-arrival times from the ts
field. For example, if an event arrives at time t and the next event at
time u , then the delay
operator will wait time u - t between emitting the
two events. If t > u then the operator immediately emits next event.
load_http "https://storage.googleapis.com/tenzir-datasets/M57/zeek-all.log.zst"
read_zeek_tsv
delay ts
Replay logs at 10.5 times the original speed load_http "https://storage.googleapis.com/tenzir-datasets/M57/zeek-all.log.zst"
read_zeek_tsv
delay ts, speed = 10.5
Replay and delay after a given timestamp Replay and start delaying only after ts
exceeds 2021-11-17T16:35
and emit
all events prior to that timestamp immediately.
load_file "https://storage.googleapis.com/tenzir-datasets/M57/zeek-all.log.zst"
read_zeek_tsv
delay ts, start = 2021 - 11 - 17T16 : 35 , speed = 10.0
Adjust the timestamp to the present, and then start replaying in 2 hours from
now:
load_file "https://storage.googleapis.com/tenzir-datasets/M57/zeek-all.log.zst"
decompress "zstd"
read_zeek_tsv
timeshift ts
delay ts, start = now () + 2h