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nexedi
gitlab-ce
Commits
1e49a8bc
Commit
1e49a8bc
authored
Aug 31, 2016
by
Lin Jen-Shin
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Introduction to PipelineDuration
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lib/gitlab/ci/pipeline_duration.rb
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lib/gitlab/ci/pipeline_duration.rb
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1e49a8bc
module
Gitlab
module
Ci
# The problem this class is trying to solve is finding the total running
# time amongst all the jobs, excluding retries and pending (queue) time.
# We could reduce this problem down to finding the union of periods.
#
# So each job would be represented as a `Period`, which consists of
# `Period#first` and `Period#last`. A simple example here would be:
#
# * A (1, 3)
# * B (2, 4)
# * C (6, 7)
#
# Here A begins from 1, and ends to 3. B begins from 2, and ends to 4.
# C begins from 6, and ends to 7. Visually it could be viewed as:
#
# 0 1 2 3 4 5 6 7
# AAAAAAA
# BBBBBBB
# CCCC
#
# The union of A, B, and C would be (1, 4) and (6, 7), therefore the
# total running time should be:
#
# (4 - 1) + (7 - 6) => 4
#
# And the pending (queue) time would be (4, 6) like this: (marked as X)
#
# 0 1 2 3 4 5 6 7
# AAAAAAA
# BBBBBBB
# CCCC
# XXXXX
#
# Which could be calculated by having (1, 7) as total time, minus
# the running time we have above, 4. The full calculation would be:
#
# total = (7 - 1)
# duration = (4 - 1) + (7 - 6)
# pending = total - duration # 6 - 4 => 2
#
# Which the answer to pending would be 2 in this example.
#
# The algorithm used here for union would be described as follow.
# First we make sure that all periods are sorted by `Period#first`.
# Then we try to merge periods by iterating through the first period
# to the last period. The goal would be merging all overlapped periods
# so that in the end all the periods are discrete. When all periods
# are discrete, we're free to just sum all the periods to get real
# running time.
#
# Here we begin from A, and compare it to B. We could find that
# before A ends, B already started. That is `B.first <= A.last`
# that is `2 <= 3` which means A and B are overlapping!
#
# When we found that two periods are overlapping, we would need to merge
# them into a new period and disregard the old periods. To make a new
# period, we take `A.first` as the new first because remember? we sorted
# them, so `A.first` must be smaller or equal to `B.first`. And we take
# `[A.last, B.last].max` as the new last because we want whoever ended
# later. This could be broken into two cases:
#
# 0 1 2 3 4
# AAAAAAA
# BBBBBBB
#
# Or:
#
# 0 1 2 3 4
# AAAAAAAAAA
# BBBB
#
# So that we need to take whoever ends later. Back to our example,
# after merging and discard A and B it could be visually viewed as:
#
# 0 1 2 3 4 5 6 7
# DDDDDDDDDD
# CCCC
#
# Now we could go on and compare the newly created D and the old C.
# We could figure out that D and C are not overlapping by checking
# `C.first <= D.last` is `false`. Therefore we need to keep both C
# and D. The example would end here because there are no more jobs.
#
# After having the union of all periods, the rest is simple and
# described in the beginning. To summarise:
#
# duration = (4 - 1) + (7 - 6)
# total = (7 - 1)
# pending = total - duration # 6 - 4 => 2
#
# Note that the pending time is actually not the final pending time
# for pipelines, because we still need to accumulate the pending time
# before the first job (A in this example) even started! That is:
#
# total_pending = pipeline.started_at - pipeline.created_at + pending
#
# Would be the final answer. We deal with that in pipeline itself
# but not here because here we try not to be depending on pipeline
# and it's trivial enough to get that information.
class
PipelineDuration
PeriodStruct
=
Struct
.
new
(
:first
,
:last
)
class
Period
<
PeriodStruct
...
...
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