@ -2,7 +2,14 @@
""" A place for common utilities between wubloader components """
import base64
import datetime
import errno
import itertools
import logging
import os
import sys
from collections import namedtuple
import dateutil . parser
import yaml
@ -73,3 +80,190 @@ def format_bustime(bustime, round="millisecond"):
else :
raise ValueError ( " Bad rounding value: {!r} " . format ( round ) )
return sign + " : " . join ( parts )
def unpadded_b64_decode ( s ) :
""" Decode base64-encoded string that has had its padding removed """
# right-pad with '=' to multiple of 4
s = s + ' = ' * ( - len ( s ) % 4 )
return base64 . b64decode ( s , " -_ " )
class SegmentInfo (
namedtuple ( ' SegmentInfoBase ' , [
' path ' , ' stream ' , ' variant ' , ' start ' , ' duration ' , ' is_partial ' , ' hash '
] )
) :
""" Info parsed from a segment path, including original path. """
@property
def end ( self ) :
return self . start + self . duration
def parse_segment_path ( path ) :
""" Parse segment path, returning a SegmentInfo. If path is only the trailing part,
eg . just a filename , it will leave unknown fields as None . """
parts = path . split ( ' / ' )
# left-pad parts with None up to 4 parts
parts = [ None ] * ( 4 - len ( parts ) ) + parts
# pull info out of path parts
stream , variant , hour , filename = parts [ - 4 : ]
# split filename, which should be TIME-DURATION-TYPE-HASH.ts
try :
if not filename . endswith ( ' .ts ' ) :
raise ValueError ( " Does not end in .ts " )
filename = filename [ : - len ( ' .ts ' ) ] # chop off .ts
parts = filename . split ( ' - ' , 3 )
if len ( parts ) != 4 :
raise ValueError ( " Not enough dashes in filename " )
time , duration , type , hash = parts
if type not in ( ' full ' , ' partial ' ) :
raise ValueError ( " Unknown type {!r} " . format ( type ) )
return SegmentInfo (
path = path ,
stream = stream ,
variant = variant ,
start = dateutil . parser . parse ( " {} : {} " . format ( hour , time ) ) ,
duration = datetime . timedelta ( seconds = float ( duration ) ) ,
is_partial = type == " partial " ,
hash = unpadded_b64_decode ( hash ) ,
)
except ValueError as e :
# wrap error but preserve original traceback
_ , _ , tb = sys . exc_info ( )
raise ValueError , ValueError ( " Bad path {!r} : {} " . format ( path , e ) ) , tb
def get_best_segments ( hours_path , start , end ) :
""" Return a list of the best sequence of non-overlapping segments
we have for a given time range . Hours path should be the directory containing hour directories .
The first segment may start before the time range , and the last may end after it .
The returned list contains items that are either :
SegmentInfo : a segment
None : represents a discontinuity between the previous segment and the next one .
ie . as long as two segments appear next to each other , we guarentee there is no gap between
them , the second one starts right as the first one finishes .
Similarly , unless the first item is None , the first segment starts < = the start of the time
range , and unless the last item is None , the last segment ends > = the end of the time range .
Example :
Suppose you ask for a time range from 10 to 60. We have 10 - second segments covering
the following times :
5 to 15
15 to 25
30 to 40
40 to 50
Then the output would look like :
segment from 5 to 15
segment from 15 to 25
None , as the previous segment ends 5 sec before the next one begins
segment from 30 to 40
segment from 40 to 50
None , as the previous segment ends 10 sec before the requested end time of 60.
Note that any is_partial = True segment will be followed by a None , since we can ' t guarentee
it joins on to the next segment fully intact .
"""
# Note: The exact equality checks in this function are not vulnerable to floating point error,
# but only because all input dates and durations are only precise to the millisecond, and
# python's datetime types represent these as integer microseconds internally. So the parsing
# to these types is exact, and all operations on them are exact, so all operations are exact.
result = [ ]
for hour in hour_paths_for_range ( hours_path , start , end ) :
# best_segments_by_start will give us the best available segment for each unique start time
for segment in best_segments_by_start ( hour ) :
# special case: first segment
if not result :
# first segment is allowed to be before start as long as it includes it
if segment . start < = start < segment . end :
# segment covers start
result . append ( segment )
elif start < segment . start < end :
# segment is after start (but before end), so there was no segment that covers start
# so we begin with a None
result . append ( None )
result . append ( segment )
else :
# segment is before start, and doesn't cover start, or starts after end.
# ignore and go to next.
continue
else :
# normal case: check against previous segment end time
prev_end = result [ - 1 ] . end
if segment . start < prev_end :
# Overlap! This shouldn't happen, though it might be possible due to weirdness
# if the stream drops then starts again quickly. We simply ignore the overlapping
# segment and let the algorithm continue.
logging . warning ( " Overlapping segments: {} overlaps end of {} " . format ( segment , result [ - 1 ] ) )
continue
if result [ - 1 ] . is_partial or prev_end < segment . start :
# there's a gap between prev end and this start, so add a None
result . append ( None )
result . append ( segment )
# check if we've reached the end
if end < = segment . end :
break
# this is a weird little construct that says "if we broke from the inner loop,
# then also break from the outer one. otherwise continue."
else :
continue
break
# check if we need a trailing None because last segment is partial or doesn't reach end
if result and ( result [ - 1 ] . is_partial or result [ - 1 ] . end < end ) :
result . append ( None )
return result
def hour_paths_for_range ( hours_path , start , end ) :
""" Generate a list of hour paths to check when looking for segments between start and end. """
# truncate start and end to the hour
def truncate ( dt ) :
return dt . replace ( microsecond = 0 , second = 0 , minute = 0 )
current = truncate ( start )
end = truncate ( end )
# Begin in the hour prior to start, as there may be a segment that starts in that hour
# but contains the start time, eg. if the start time is 01:00:01 and there's a segment
# at 00:59:59 which goes for 3 seconds.
# Checking the entire hour when in most cases it won't be needed is wasteful, but it's also
# pretty quick and the complexity of only checking this case when needed just isn't worth it.
current - = datetime . timedelta ( hours = 1 )
while current < = end :
yield os . path . join ( hours_path , current . strftime ( " % Y- % m- %d T % H " ) )
current + = datetime . timedelta ( hours = 1 )
def best_segments_by_start ( hour ) :
""" Within a given hour path, yield the " best " segment per unique segment start time.
Best is defined as non - partial , or failing that the longest partial .
Note this means this function may perform os . stat ( ) s in order to find the longest partial .
"""
try :
segment_paths = os . listdir ( hour )
except OSError as e :
if e . errno != errno . ENOENT :
raise
# path does not exist, treat it as having no files
return
segment_paths . sort ( )
# note we only parse them as we need them, which is unlikely to save us much time overall
# but is easy enough to do, so we might as well.
parsed = ( parse_segment_path ( os . path . join ( hour , name ) ) for name in segment_paths )
for start_time , segments in itertools . groupby ( parsed , key = lambda segment : segment . start ) :
segments = list ( segments )
full_segments = [ segment for segment in segments if not segment . is_partial ]
if full_segments :
if len ( full_segments ) != 1 :
logging . warning ( " Multiple versions of full segment at start_time {} : {} " . format (
start_time , " , " . join ( map ( str , segments ) )
) )
# we have to pick one, so might as well make it consistent by sorting by path
full_segments . sort ( key = lambda segment : segment . path )
yield full_segments [ 0 ]
continue
# no full segments, fall back to measuring partials.
yield max ( segments , key = lambda segment : os . stat ( segment . path ) . st_size )
Mike Lang
6 years ago