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Author SHA1 Message Date
Tyler Goodlet 9232d09440 Refine history gap/termination signalling
Namely handling backends which do not provide a default "frame
size-duration" in their init-config by making the backfiller guess the
value based on the first frame received.

Deats,
- adjust `start_backfill()` to take a more explicit
  `def_frame_duration: Duration` expected to be unpacked from any
  backend hist init-config by the `tsdb_backfill()` caller which now
  also computes a value from the first received frame when the config
  section isn't provided.
- in `start_backfill()` we now always expect the `def_frame_duration`
  input and always decrement the query range by this value whenever
  a `NoData` is raised by the provider-backend paired with an explicit
  `log.warning()` about the handling.
- also relay any `DataUnavailable.args[0]` message from the provider
  in the handler.
- repair "gap reporting" which checks for expected frame duration vs.
  that received with much better humanized logging on the missing
  segment using `pendulum.Interval/Duration.in_words()` output.
2024-11-19 16:58:06 -05:00
Tyler Goodlet f96bd51442 Only use `frame_types` if delivered during enter
The `open_history_client()` provider endpoint can *optionally*
deliver a `frame_types: dict[int, pendulum.Duration]` subsection in its
`config: dict[str, dict]` (as was implemented with the `ib` backend).
This allows the `tsp` backfilling machinery to use this "recommended
frame duration" to subtract from the `last_start_dt` any time a `NoData`
gap is signalled by the `get_hist()` call allowing gaps to be ignored
safely without missing history by knowing the next earliest dt we can
query from using the `end_dt`. However, currently all crypto$ providers
haven't implemented this feat yet..

As such only try to use the `frame_types` feature if provided when
handling `NoData` conditions inside `tsp.start_backfill()` and otherwise
raise as normal.
2024-11-18 09:45:19 -05:00
1 changed files with 120 additions and 54 deletions

View File

@ -44,8 +44,10 @@ import trio
from trio_typing import TaskStatus
import tractor
from pendulum import (
Interval,
DateTime,
Duration,
duration as mk_duration,
from_timestamp,
)
import numpy as np
@ -214,7 +216,8 @@ async def maybe_fill_null_segments(
# pair, immediately stop backfilling?
if (
start_dt
and end_dt < start_dt
and
end_dt < start_dt
):
await tractor.pause()
break
@ -262,6 +265,7 @@ async def maybe_fill_null_segments(
except tractor.ContextCancelled:
# log.exception
await tractor.pause()
raise
null_segs_detected.set()
# RECHECK for more null-gaps
@ -349,7 +353,7 @@ async def maybe_fill_null_segments(
async def start_backfill(
get_hist,
frame_types: dict[str, Duration] | None,
def_frame_duration: Duration,
mod: ModuleType,
mkt: MktPair,
shm: ShmArray,
@ -379,22 +383,23 @@ async def start_backfill(
update_start_on_prepend: bool = False
if backfill_until_dt is None:
# TODO: drop this right and just expose the backfill
# limits inside a [storage] section in conf.toml?
# when no tsdb "last datum" is provided, we just load
# some near-term history.
# periods = {
# 1: {'days': 1},
# 60: {'days': 14},
# }
# do a decently sized backfill and load it into storage.
# TODO: per-provider default history-durations?
# -[ ] inside the `open_history_client()` config allow
# declaring the history duration limits instead of
# guessing and/or applying the same limits to all?
#
# -[ ] allow declaring (default) per-provider backfill
# limits inside a [storage] sub-section in conf.toml?
#
# NOTE, when no tsdb "last datum" is provided, we just
# load some near-term history by presuming a "decently
# large" 60s duration limit and a much shorter 1s range.
periods = {
1: {'days': 2},
60: {'years': 6},
}
period_duration: int = periods[timeframe]
update_start_on_prepend = True
update_start_on_prepend: bool = True
# NOTE: manually set the "latest" datetime which we intend to
# backfill history "until" so as to adhere to the history
@ -416,7 +421,6 @@ async def start_backfill(
f'backfill_until_dt: {backfill_until_dt}\n'
f'last_start_dt: {last_start_dt}\n'
)
try:
(
array,
@ -426,37 +430,58 @@ async def start_backfill(
timeframe,
end_dt=last_start_dt,
)
except NoData as _daterr:
# 3 cases:
# - frame in the middle of a legit venue gap
# - history actually began at the `last_start_dt`
# - some other unknown error (ib blocking the
# history bc they don't want you seeing how they
# cucked all the tinas..)
if dur := frame_types.get(timeframe):
# decrement by a frame's worth of duration and
# retry a few times.
last_start_dt.subtract(
seconds=dur.total_seconds()
orig_last_start_dt: datetime = last_start_dt
gap_report: str = (
f'EMPTY FRAME for `end_dt: {last_start_dt}`?\n'
f'{mod.name} -> tf@fqme: {timeframe}@{mkt.fqme}\n'
f'last_start_dt: {orig_last_start_dt}\n\n'
f'bf_until: {backfill_until_dt}\n'
)
# EMPTY FRAME signal with 3 (likely) causes:
#
# 1. range contains legit gap in venue history
# 2. history actually (edge case) **began** at the
# value `last_start_dt`
# 3. some other unknown error (ib blocking the
# history-query bc they don't want you seeing how
# they cucked all the tinas.. like with options
# hist)
#
if def_frame_duration:
# decrement by a duration's (frame) worth of time
# as maybe indicated by the backend to see if we
# can get older data before this possible
# "history gap".
last_start_dt: datetime = last_start_dt.subtract(
seconds=def_frame_duration.total_seconds()
)
log.warning(
f'{mod.name} -> EMPTY FRAME for end_dt?\n'
f'tf@fqme: {timeframe}@{mkt.fqme}\n'
'bf_until <- last_start_dt:\n'
f'{backfill_until_dt} <- {last_start_dt}\n'
f'Decrementing `end_dt` by {dur} and retry..\n'
gap_report += (
f'Decrementing `end_dt` and retrying with,\n'
f'def_frame_duration: {def_frame_duration}\n'
f'(new) last_start_dt: {last_start_dt}\n'
)
log.warning(gap_report)
# skip writing to shm/tsdb and try the next
# duration's worth of prior history.
continue
else:
# await tractor.pause()
raise DataUnavailable(gap_report)
# broker says there never was or is no more history to pull
except DataUnavailable:
except DataUnavailable as due:
message: str = due.args[0]
log.warning(
f'NO-MORE-DATA in range?\n'
f'`{mod.name}` halted history:\n'
f'tf@fqme: {timeframe}@{mkt.fqme}\n'
'bf_until <- last_start_dt:\n'
f'{backfill_until_dt} <- {last_start_dt}\n'
f'Provider {mod.name!r} halted backfill due to,\n\n'
f'{message}\n'
f'fqme: {mkt.fqme}\n'
f'timeframe: {timeframe}\n'
f'last_start_dt: {last_start_dt}\n'
f'bf_until: {backfill_until_dt}\n'
)
# UGH: what's a better way?
# TODO: backends are responsible for being correct on
@ -465,34 +490,54 @@ async def start_backfill(
# to halt the request loop until the condition is
# resolved or should the backend be entirely in
# charge of solving such faults? yes, right?
# if timeframe > 1:
# await tractor.pause()
return
time: np.ndarray = array['time']
assert (
array['time'][0]
time[0]
==
next_start_dt.timestamp()
)
diff = last_start_dt - next_start_dt
frame_time_diff_s = diff.seconds
assert time[-1] == next_end_dt.timestamp()
expected_dur: Interval = last_start_dt - next_start_dt
# frame's worth of sample-period-steps, in seconds
frame_size_s: float = len(array) * timeframe
expected_frame_size_s: float = frame_size_s + timeframe
if frame_time_diff_s > expected_frame_size_s:
recv_frame_dur: Duration = (
from_timestamp(array[-1]['time'])
-
from_timestamp(array[0]['time'])
)
if (
(lt_frame := (recv_frame_dur < expected_dur))
or
(null_frame := (frame_size_s == 0))
# ^XXX, should NEVER hit now!
):
# XXX: query result includes a start point prior to our
# expected "frame size" and thus is likely some kind of
# history gap (eg. market closed period, outage, etc.)
# so just report it to console for now.
if lt_frame:
reason = 'Possible GAP (or first-datum)'
else:
assert null_frame
reason = 'NULL-FRAME'
missing_dur: Interval = expected_dur.end - recv_frame_dur.end
log.warning(
'GAP DETECTED:\n'
f'last_start_dt: {last_start_dt}\n'
f'diff: {diff}\n'
f'frame_time_diff_s: {frame_time_diff_s}\n'
f'{timeframe}s-series {reason} detected!\n'
f'fqme: {mkt.fqme}\n'
f'last_start_dt: {last_start_dt}\n\n'
f'recv interval: {recv_frame_dur}\n'
f'expected interval: {expected_dur}\n\n'
f'Missing duration of history of {missing_dur.in_words()!r}\n'
f'{missing_dur}\n'
)
# await tractor.pause()
to_push = diff_history(
array,
@ -567,7 +612,8 @@ async def start_backfill(
# long-term storage.
if (
storage is not None
and write_tsdb
and
write_tsdb
):
log.info(
f'Writing {ln} frame to storage:\n'
@ -688,7 +734,7 @@ async def back_load_from_tsdb(
last_tsdb_dt
and latest_start_dt
):
backfilled_size_s = (
backfilled_size_s: Duration = (
latest_start_dt - last_tsdb_dt
).seconds
# if the shm buffer len is not large enough to contain
@ -911,6 +957,8 @@ async def tsdb_backfill(
f'{pformat(config)}\n'
)
# concurrently load the provider's most-recent-frame AND any
# pre-existing tsdb history already saved in `piker` storage.
dt_eps: list[DateTime, DateTime] = []
async with trio.open_nursery() as tn:
tn.start_soon(
@ -921,7 +969,6 @@ async def tsdb_backfill(
timeframe,
config,
)
tsdb_entry: tuple = await load_tsdb_hist(
storage,
mkt,
@ -950,6 +997,25 @@ async def tsdb_backfill(
mr_end_dt,
) = dt_eps
first_frame_dur_s: Duration = (mr_end_dt - mr_start_dt).seconds
calced_frame_size: Duration = mk_duration(
seconds=first_frame_dur_s,
)
# NOTE, attempt to use the backend declared default frame
# sizing (as allowed by their time-series query APIs) and
# if not provided try to construct a default from the
# first frame received above.
def_frame_durs: dict[
int,
Duration,
]|None = config.get('frame_types', None)
if def_frame_durs:
def_frame_size: Duration = def_frame_durs[timeframe]
assert def_frame_size == calced_frame_size
else:
# use what we calced from first frame above.
def_frame_size = calced_frame_size
# NOTE: when there's no offline data, there's 2 cases:
# - data backend doesn't support timeframe/sample
# period (in which case `dt_eps` should be `None` and
@ -980,7 +1046,7 @@ async def tsdb_backfill(
partial(
start_backfill,
get_hist=get_hist,
frame_types=config.get('frame_types', None),
def_frame_duration=def_frame_size,
mod=mod,
mkt=mkt,
shm=shm,