pep8'd what I could, including tabs to spaces

nginx
Markus Pawlata 2018-11-30 01:28:24 +01:00
parent a45ecc76b0
commit 48bf325d77
11 changed files with 1251 additions and 949 deletions

1
.gitignore vendored
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@ -5,3 +5,4 @@ scanner/floatapp/app.cfg
*.pyc
*.min.css
*.min.js
.vscode

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@ -1,49 +1,90 @@
import os.path
from datetime import datetime
def message(category, text):
if message.level <= 0:
sep = " "
else:
sep = "--"
print "%s %s%s[%s]%s%s" % (datetime.now().isoformat(), max(0, message.level) * " |", sep, category, max(1, (14 - len(category))) * " ", text)
print "%s %s%s[%s]%s%s" % (
datetime.now().isoformat(),
max(0, message.level) * " |",
sep,
category,
max(1, (14 - len(category))) * " ",
text)
message.level = -1
def next_level():
message.level += 1
def back_level():
message.level -= 1
def set_cache_path_base(base):
trim_base.base = base
def untrim_base(path):
return os.path.join(trim_base.base, path)
def trim_base_custom(path, base):
if path.startswith(base):
path = path[len(base):]
if path.startswith('/'):
path = path[1:]
return path
def trim_base(path):
return trim_base_custom(path, trim_base.base)
def cache_base(path, filepath=False):
if len(path) == 0:
return "root"
elif filepath and len(path.split(os.sep)) < 2:
path = "root-" + path
path = trim_base(path).replace('/', '-').replace(' ', '_').replace('(', '').replace('&', '').replace(',', '').replace(')', '').replace('#', '').replace('[', '').replace(']', '').replace('"', '').replace("'", '').replace('_-_', '-').lower()
path = trim_base(path).replace(
'/', '-').replace(
' ', '_').replace(
'(', '').replace(
'&', '').replace(
',', '').replace(
')', '').replace(
'#', '').replace(
'[', '').replace(
']', '').replace(
'"', '').replace(
"'", '').replace(
'_-_', '-').lower()
while path.find("--") != -1:
path = path.replace("--", "-")
while path.find("__") != -1:
path = path.replace("__", "_")
return path
def json_cache(path):
return cache_base(path) + ".json"
def image_cache(path, size, square=False):
if square:
suffix = str(size) + "s"
else:
suffix = str(size)
return cache_base(path, True) + "_" + suffix + ".jpg"
def video_cache(path):
return cache_base(path, True) + ".mp4"
def file_mtime(path):
return datetime.fromtimestamp(int(os.path.getmtime(path)))

View File

@ -10,6 +10,7 @@ import gc
import tempfile
from VideoToolWrapper import *
def make_photo_thumbs(self, original_path, thumb_path, size):
# The pool methods use a queue.Queue to pass tasks to the worker processes.
# Everything that goes through the queue.Queue must be pickable, and since
@ -17,6 +18,7 @@ def make_photo_thumbs(self, original_path, thumb_path, size):
# This is why we have this "dummy" function, so that it's pickable.
self._photo_thumbnail(original_path, thumb_path, size[0], size[1])
class Album(object):
def __init__(self, path):
self._path = trim_base(path)
@ -24,20 +26,26 @@ class Album(object):
self._albums = list()
self._photos_sorted = True
self._albums_sorted = True
@property
def photos(self):
return self._photos
@property
def albums(self):
return self._albums
@property
def path(self):
return self._path
def __str__(self):
return self.path
@property
def cache_path(self):
return json_cache(self.path)
@property
def date(self):
self._sort()
@ -48,14 +56,18 @@ class Album(object):
elif len(self._albums) == 0:
return self._photos[-1].date
return max(self._photos[-1].date, self._albums[-1].date)
def __cmp__(self, other):
return cmp(self.date, other.date)
def add_photo(self, photo):
self._photos.append(photo)
self._photos_sorted = False
def add_album(self, album):
self._albums.append(album)
self._albums_sorted = False
def _sort(self):
if not self._photos_sorted:
self._photos.sort()
@ -63,6 +75,7 @@ class Album(object):
if not self._albums_sorted:
self._albums.sort()
self._albums_sorted = True
@property
def empty(self):
if len(self._photos) != 0:
@ -79,12 +92,14 @@ class Album(object):
fp = open(os.path.join(base_dir, self.cache_path), 'w')
json.dump(self, fp, cls=PhotoAlbumEncoder)
fp.close()
@staticmethod
def from_cache(path):
fp = open(path, "r")
dictionary = json.load(fp)
fp.close()
return Album.from_dict(dictionary)
@staticmethod
def from_dict(dictionary, cripple=True):
album = Album(dictionary["path"])
@ -95,26 +110,39 @@ class Album(object):
album.add_album(Album.from_dict(subalbum), cripple)
album._sort()
return album
def to_dict(self, cripple=True):
self._sort()
subalbums = []
if cripple:
for sub in self._albums:
if not sub.empty:
subalbums.append({ "path": trim_base_custom(sub.path, self._path), "date": sub.date })
subalbums.append({
"path": trim_base_custom(sub.path, self._path),
"date": sub.date
})
else:
for sub in self._albums:
if not sub.empty:
subalbums.append(sub)
return { "path": self.path, "date": self.date, "albums": subalbums, "photos": self._photos }
return {
"path": self.path,
"date": self.date,
"albums": subalbums,
"photos": self._photos
}
def photo_from_path(self, path):
for photo in self._photos:
if trim_base(path) == photo._path:
return photo
return None
class Photo(object):
thumb_sizes = [ (75, True), (150, True), (640, False), (1024, False), (1600, False) ]
thumb_sizes = [
(75, True), (150, True), (640, False), (1024, False), (1600, False)]
def __init__(self, path, thumb_path=None, attributes=None):
self._path = trim_base(path)
self.is_valid = True
@ -165,7 +193,11 @@ class Photo(object):
exif = {}
for tag, value in info.items():
decoded = TAGS.get(tag, tag)
if (isinstance(value, tuple) or isinstance(value, list)) and (isinstance(decoded, str) or isinstance(decoded, unicode)) and decoded.startswith("DateTime") and len(value) >= 1:
if ((isinstance(value, tuple) or isinstance(value, list)) and
(isinstance(decoded, str) or
isinstance(decoded, unicode)) and
decoded.startswith("DateTime") and
len(value) >= 1):
value = value[0]
if isinstance(value, str) or isinstance(value, unicode):
value = value.strip().partition("\x00")[0]
@ -179,11 +211,15 @@ class Photo(object):
exif[decoded] = value
if "Orientation" in exif:
self._orientation = exif["Orientation"];
self._orientation = exif["Orientation"]
if self._orientation in range(5, 9):
self._attributes["size"] = (self._attributes["size"][1], self._attributes["size"][0])
if self._orientation - 1 < len(self._photo_metadata.orientation_list):
self._attributes["orientation"] = self._photo_metadata.orientation_list[self._orientation - 1]
self._attributes["size"] = (
self._attributes["size"][1], self._attributes["size"][0])
if self._orientation - 1 < len(
self._photo_metadata.orientation_list):
self._attributes["orientation"] = (
self._photo_metadata.orientation_list[
self._orientation - 1])
if "Make" in exif:
self._attributes["make"] = exif["Make"]
if "Model" in exif:
@ -247,19 +283,120 @@ class Photo(object):
except TypeError:
self._attributes["dateTime"] = exif["DateTime"]
_photo_metadata.flash_dictionary = {0x0: "No Flash", 0x1: "Fired",0x5: "Fired, Return not detected",0x7: "Fired, Return detected",0x8: "On, Did not fire",0x9: "On, Fired",0xd: "On, Return not detected",0xf: "On, Return detected",0x10: "Off, Did not fire",0x14: "Off, Did not fire, Return not detected",0x18: "Auto, Did not fire",0x19: "Auto, Fired",0x1d: "Auto, Fired, Return not detected",0x1f: "Auto, Fired, Return detected",0x20: "No flash function",0x30: "Off, No flash function",0x41: "Fired, Red-eye reduction",0x45: "Fired, Red-eye reduction, Return not detected",0x47: "Fired, Red-eye reduction, Return detected",0x49: "On, Red-eye reduction",0x4d: "On, Red-eye reduction, Return not detected",0x4f: "On, Red-eye reduction, Return detected",0x50: "Off, Red-eye reduction",0x58: "Auto, Did not fire, Red-eye reduction",0x59: "Auto, Fired, Red-eye reduction",0x5d: "Auto, Fired, Red-eye reduction, Return not detected",0x5f: "Auto, Fired, Red-eye reduction, Return detected"}
_photo_metadata.light_source_dictionary = {0: "Unknown", 1: "Daylight", 2: "Fluorescent", 3: "Tungsten (incandescent light)", 4: "Flash", 9: "Fine weather", 10: "Cloudy weather", 11: "Shade", 12: "Daylight fluorescent (D 5700 - 7100K)", 13: "Day white fluorescent (N 4600 - 5400K)", 14: "Cool white fluorescent (W 3900 - 4500K)", 15: "White fluorescent (WW 3200 - 3700K)", 17: "Standard light A", 18: "Standard light B", 19: "Standard light C", 20: "D55", 21: "D65", 22: "D75", 23: "D50", 24: "ISO studio tungsten"}
_photo_metadata.metering_list = ["Unknown", "Average", "Center-weighted average", "Spot", "Multi-spot", "Multi-segment", "Partial"]
_photo_metadata.exposure_list = ["Not Defined", "Manual", "Program AE", "Aperture-priority AE", "Shutter speed priority AE", "Creative (Slow speed)", "Action (High speed)", "Portrait", "Landscape", "Bulb"]
_photo_metadata.orientation_list = ["Horizontal (normal)", "Mirror horizontal", "Rotate 180", "Mirror vertical", "Mirror horizontal and rotate 270 CW", "Rotate 90 CW", "Mirror horizontal and rotate 90 CW", "Rotate 270 CW"]
_photo_metadata.sensing_method_list = ["Not defined", "One-chip color area sensor", "Two-chip color area sensor", "Three-chip color area sensor", "Color sequential area sensor", "Trilinear sensor", "Color sequential linear sensor"]
_photo_metadata.scene_capture_type_list = ["Standard", "Landscape", "Portrait", "Night scene"]
_photo_metadata.subject_distance_range_list = ["Unknown", "Macro", "Close view", "Distant view"]
_photo_metadata.flash_dictionary = {
0x0: "No Flash",
0x1: "Fired",
0x5: "Fired, Return not detected",
0x7: "Fired, Return detected",
0x8: "On, Did not fire",
0x9: "On, Fired",
0xd: "On, Return not detected",
0xf: "On, Return detected",
0x10: "Off, Did not fire",
0x14: "Off, Did not fire, Return not detected",
0x18: "Auto, Did not fire",
0x19: "Auto, Fired",
0x1d: "Auto, Fired, Return not detected",
0x1f: "Auto, Fired, Return detected",
0x20: "No flash function",
0x30: "Off, No flash function",
0x41: "Fired, Red-eye reduction",
0x45: "Fired, Red-eye reduction, Return not detected",
0x47: "Fired, Red-eye reduction, Return detected",
0x49: "On, Red-eye reduction",
0x4d: "On, Red-eye reduction, Return not detected",
0x4f: "On, Red-eye reduction, Return detected",
0x50: "Off, Red-eye reduction",
0x58: "Auto, Did not fire, Red-eye reduction",
0x59: "Auto, Fired, Red-eye reduction",
0x5d: "Auto, Fired, Red-eye reduction, Return not detected",
0x5f: "Auto, Fired, Red-eye reduction, Return detected"
}
_photo_metadata.light_source_dictionary = {
0: "Unknown",
1: "Daylight",
2: "Fluorescent",
3: "Tungsten (incandescent light)",
4: "Flash",
9: "Fine weather",
10: "Cloudy weather",
11: "Shade",
12: "Daylight fluorescent (D 5700 - 7100K)",
13: "Day white fluorescent (N 4600 - 5400K)",
14: "Cool white fluorescent (W 3900 - 4500K)",
15: "White fluorescent (WW 3200 - 3700K)",
17: "Standard light A",
18: "Standard light B",
19: "Standard light C",
20: "D55",
21: "D65",
22: "D75",
23: "D50",
24: "ISO studio tungsten"
}
_photo_metadata.metering_list = [
"Unknown",
"Average",
"Center-weighted average",
"Spot",
"Multi-spot",
"Multi-segment",
"Partial"
]
_photo_metadata.exposure_list = [
"Not Defined",
"Manual",
"Program AE",
"Aperture-priority AE",
"Shutter speed priority AE",
"Creative (Slow speed)",
"Action (High speed)",
"Portrait",
"Landscape",
"Bulb"
]
_photo_metadata.orientation_list = [
"Horizontal (normal)",
"Mirror horizontal",
"Rotate 180",
"Mirror vertical",
"Mirror horizontal and rotate 270 CW",
"Rotate 90 CW",
"Mirror horizontal and rotate 90 CW",
"Rotate 270 CW"
]
_photo_metadata.sensing_method_list = [
"Not defined",
"One-chip color area sensor",
"Two-chip color area sensor",
"Three-chip color area sensor",
"Color sequential area sensor",
"Trilinear sensor",
"Color sequential linear sensor"
]
_photo_metadata.scene_capture_type_list = [
"Standard",
"Landscape",
"Portrait",
"Night scene"
]
_photo_metadata.subject_distance_range_list = [
"Unknown",
"Macro",
"Close view",
"Distant view"
]
def _video_metadata(self, path, original=True):
p = VideoProbeWrapper().call('-show_format', '-show_streams', '-of', 'json', '-loglevel', '0', path)
if p == False:
p = VideoProbeWrapper().call(
'-show_format',
'-show_streams',
'-of',
'json',
'-loglevel',
'0',
path)
if p is False:
self.is_valid = False
return
info = json.loads(p)
@ -272,7 +409,8 @@ class Photo(object):
if "tags" in s and "rotate" in s["tags"]:
self._attributes["rotate"] = s["tags"]["rotate"]
if original:
self._attributes["originalSize"] = (int(s["width"]), int(s["height"]))
self._attributes["originalSize"] = (
int(s["width"]), int(s["height"]))
# we break, because a video can contain several streams
# this way we only get/use values from the first stream
break
@ -287,7 +425,9 @@ class Photo(object):
# lets use this
try:
self._attributes["dateTimeVideo"] = datetime.strptime(info['format']['tags']['creation_time'], '%Y-%m-%d %H:%M:%S')
self._attributes["dateTimeVideo"] = datetime.strptime(
info['format']['tags']['creation_time'],
'%Y-%m-%d %H:%M:%S')
except KeyboardInterrupt:
raise
except TypeError:
@ -314,13 +454,15 @@ class Photo(object):
mirror = image.transpose(Image.FLIP_TOP_BOTTOM)
elif self._orientation == 5:
# Horizontal Mirror + Rotation 270
mirror = image.transpose(Image.FLIP_TOP_BOTTOM).transpose(Image.ROTATE_270)
mirror = image.transpose(
Image.FLIP_TOP_BOTTOM).transpose(Image.ROTATE_270)
elif self._orientation == 6:
# Rotation 270
mirror = image.transpose(Image.ROTATE_270)
elif self._orientation == 7:
# Vertical Mirror + Rotation 270
mirror = image.transpose(Image.FLIP_LEFT_RIGHT).transpose(Image.ROTATE_270)
mirror = image.transpose(
Image.FLIP_LEFT_RIGHT).transpose(Image.ROTATE_270)
elif self._orientation == 8:
# Rotation 90
mirror = image.transpose(Image.ROTATE_90)
@ -329,12 +471,16 @@ class Photo(object):
self._thumbnail(image, original_path, thumb_path, size, square)
def _thumbnail(self, image, original_path, thumb_path, size, square):
thumb_path = os.path.join(thumb_path, image_cache(self._path, size, square))
info_string = "%s -> %spx" % (os.path.basename(original_path), str(size))
thumb_path = os.path.join(
thumb_path, image_cache(self._path, size, square))
info_string = "%s -> %spx" % (
os.path.basename(original_path),
str(size))
if square:
info_string += ", square"
message("thumbing", info_string)
if os.path.exists(thumb_path) and file_mtime(thumb_path) >= self._attributes["dateTimeFile"]:
if os.path.exists(thumb_path) and file_mtime(
thumb_path) >= self._attributes["dateTimeFile"]:
return
gc.collect()
try:
@ -386,7 +532,8 @@ class Photo(object):
try:
for size in Photo.thumb_sizes:
pool.apply_async(make_photo_thumbs, args = (self, original_path, thumb_path, size))
pool.apply_async(make_photo_thumbs, args=(
self, original_path, thumb_path, size))
except:
pool.terminate()
@ -394,7 +541,7 @@ class Photo(object):
pool.join()
def _video_thumbnails(self, thumb_path, original_path):
(tfd, tfn) = tempfile.mkstemp();
(tfd, tfn) = tempfile.mkstemp()
p = VideoTranscodeWrapper().call(
'-i', original_path, # original file to extract thumbs from
'-f', 'image2', # extract image
@ -405,8 +552,10 @@ class Photo(object):
'-y', # don't prompt for overwrite
tfn # temporary file to store extracted image
)
if p == False:
message("couldn't extract video frame", os.path.basename(original_path))
if p is False:
message(
"couldn't extract video frame",
os.path.basename(original_path))
try:
os.unlink(tfn)
except:
@ -439,7 +588,8 @@ class Photo(object):
mirror = image.transpose(Image.ROTATE_90)
for size in Photo.thumb_sizes:
if size[1]:
self._thumbnail(mirror, original_path, thumb_path, size[0], size[1])
self._thumbnail(
mirror, original_path, thumb_path, size[0], size[1])
try:
os.unlink(tfn)
except:
@ -452,7 +602,9 @@ class Photo(object):
transcode_cmd = [
'-i', original_path, # original file to be encoded
'-c:v', 'libx264', # set h264 as videocodec
'-preset', 'slow', # set specific preset that provides a certain encoding speed to compression ratio
# set specific preset that provides a certain encoding speed to
# compression ratio
'-preset', 'slow',
'-profile:v', 'baseline', # set output to specific h264 profile
'-level', '3.0', # sets highest compatibility with target devices
'-crf', '20', # set quality
@ -461,7 +613,8 @@ class Photo(object):
'-c:a', 'aac', # set aac as audiocodec
'-ac', '2', # force two audiochannels
'-ab', '160k', # set audiobitrate to 160Kbps
'-maxrate', '10000000', # limits max rate, will degrade CRF if needed
# limits max rate, will degrade CRF if needed
'-maxrate', '10000000',
'-bufsize', '10000000', # define how much the client should buffer
'-f', 'mp4', # fileformat mp4
'-threads', str(num_of_cores), # number of cores (all minus one)
@ -471,7 +624,9 @@ class Photo(object):
filters = []
info_string = "%s -> mp4, h264" % (os.path.basename(original_path))
message("transcoding", info_string)
if os.path.exists(transcode_path) and file_mtime(transcode_path) >= self._attributes["dateTimeFile"]:
if (os.path.exists(transcode_path) and
file_mtime(
transcode_path) >= self._attributes["dateTimeFile"]):
self._video_metadata(transcode_path, False)
return
if "originalSize" in self._attributes:
@ -501,17 +656,19 @@ class Photo(object):
tmp_transcode_cmd = transcode_cmd[:]
transcode_cmd.append(transcode_path)
p = VideoTranscodeWrapper().call(*transcode_cmd)
if p == False:
if p is False:
# add another option, try transcoding again
# done to avoid this error;
# x264 [error]: baseline profile doesn't support 4:2:2
message("transcoding failure, trying yuv420p", os.path.basename(original_path))
message(
"transcoding failure, trying yuv420p",
os.path.basename(original_path))
tmp_transcode_cmd.append('-pix_fmt')
tmp_transcode_cmd.append('yuv420p')
tmp_transcode_cmd.append(transcode_path)
p = VideoTranscodeWrapper().call(*tmp_transcode_cmd)
if p == False:
if p is False:
message("transcoding failure", os.path.basename(original_path))
try:
os.unlink(transcode_path)
@ -524,25 +681,33 @@ class Photo(object):
@property
def name(self):
return os.path.basename(self._path)
def __str__(self):
return self.name
@property
def path(self):
return self._path
@property
def image_caches(self):
caches = []
if "mediaType" in self._attributes and self._attributes["mediaType"] == "video":
if ("mediaType" in self._attributes and
self._attributes["mediaType"] == "video"):
for size in Photo.thumb_sizes:
if size[1]:
caches.append(image_cache(self._path, size[0], size[1]))
caches.append(video_cache(self._path))
else:
caches = [image_cache(self._path, size[0], size[1]) for size in Photo.thumb_sizes]
caches = [
image_cache(self._path, size[0], size[1])
for size in Photo.thumb_sizes
]
return caches
@property
def date(self):
correct_date = None;
correct_date = None
if not self.is_valid:
correct_date = datetime(1900, 1, 1)
if "dateTimeVideo" in self._attributes:
@ -565,6 +730,7 @@ class Photo(object):
@property
def attributes(self):
return self._attributes
@staticmethod
def from_dict(dictionary, basepath):
del dictionary["date"]
@ -573,17 +739,21 @@ class Photo(object):
for key, value in dictionary.items():
if key.startswith("dateTime"):
try:
dictionary[key] = datetime.strptime(dictionary[key], "%a %b %d %H:%M:%S %Y")
dictionary[key] = datetime.strptime(
dictionary[key],
"%a %b %d %H:%M:%S %Y")
except KeyboardInterrupt:
raise
except:
pass
return Photo(path, None, dictionary)
def to_dict(self):
photo = {"name": self.name, "date": self.date}
photo.update(self.attributes)
return photo
class PhotoAlbumEncoder(json.JSONEncoder):
def default(self, obj):
if isinstance(obj, datetime):
@ -591,4 +761,3 @@ class PhotoAlbumEncoder(json.JSONEncoder):
if isinstance(obj, Album) or isinstance(obj, Photo):
return obj.to_dict()
return json.JSONEncoder.default(self, obj)

View File

@ -6,10 +6,13 @@ from PhotoAlbum import Photo, Album, PhotoAlbumEncoder
from CachePath import *
import json
class TreeWalker:
def __init__(self, album_path, cache_path):
self.album_path = os.path.abspath(album_path).decode(sys.getfilesystemencoding())
self.cache_path = os.path.abspath(cache_path).decode(sys.getfilesystemencoding())
self.album_path = os.path.abspath(
album_path).decode(sys.getfilesystemencoding())
self.cache_path = os.path.abspath(
cache_path).decode(sys.getfilesystemencoding())
set_cache_path_base(self.album_path)
self.all_albums = list()
self.all_photos = list()
@ -17,6 +20,7 @@ class TreeWalker:
self.big_lists()
self.remove_stale()
message("complete", "")
def walk(self, path):
next_level()
if not os.access(path, os.R_OK | os.X_OK):
@ -54,7 +58,8 @@ class TreeWalker:
raise
except:
next_level()
message("unicode error", entry.decode(sys.getfilesystemencoding(), "replace"))
message("unicode error", entry.decode(
sys.getfilesystemencoding(), "replace"))
back_level()
continue
entry = os.path.join(path, entry)
@ -67,18 +72,24 @@ class TreeWalker:
cache_hit = False
if cached_album:
cached_photo = cached_album.photo_from_path(entry)
if cached_photo and file_mtime(entry) <= cached_photo.attributes["dateTimeFile"]:
if (cached_photo and file_mtime(
entry) <= cached_photo.attributes["dateTimeFile"]):
cache_file = None
if "mediaType" in cached_photo.attributes:
if cached_photo.attributes["mediaType"] == "video":
# if video
cache_file = os.path.join(self.cache_path, video_cache(entry))
cache_file = os.path.join(
self.cache_path, video_cache(entry))
else:
# if image
cache_file = os.path.join(self.cache_path, image_cache(entry, 1024, False))
cache_file = os.path.join(
self.cache_path,
image_cache(entry, 1024, False))
else:
# if image
cache_file = os.path.join(self.cache_path, image_cache(entry, 1024, False))
cache_file = os.path.join(
self.cache_path,
image_cache(entry, 1024, False))
# at this point we have full path to cache image/video
# check if it actually exists
@ -104,6 +115,7 @@ class TreeWalker:
message("empty", os.path.basename(path))
back_level()
return album
def big_lists(self):
photo_list = []
self.all_photos.sort()
@ -113,9 +125,11 @@ class TreeWalker:
fp = open(os.path.join(self.cache_path, "all_photos.json"), 'w')
json.dump(photo_list, fp, cls=PhotoAlbumEncoder)
fp.close()
def remove_stale(self):
message("cleanup", "building stale list")
all_cache_entries = { "all_photos.json": True, "latest_photos.json": True }
all_cache_entries = {"all_photos.json": True,
"latest_photos.json": True}
for album in self.all_albums:
all_cache_entries[album.cache_path] = True
for photo in self.all_photos:

View File

@ -2,6 +2,7 @@ from CachePath import message
import os
import subprocess
class VideoToolWrapper(object):
def call(self, *args):
path = args[-1]
@ -34,12 +35,14 @@ class VideoToolWrapper(object):
except:
pass
class VideoTranscodeWrapper(VideoToolWrapper):
def __init__(self):
self.wrappers = ['avconv', 'ffmpeg']
self.check_output = False
self.cleanup = True
class VideoProbeWrapper(VideoToolWrapper):
def __init__(self):
self.wrappers = ['avprobe', 'ffprobe']

View File

@ -3,7 +3,9 @@ from flask_login import LoginManager
import os.path
app = Flask(__name__)
app.config.from_pyfile(os.path.join(os.path.dirname(os.path.abspath(__file__)), "app.cfg"))
app.config.from_pyfile(
os.path.join(os.path.dirname(os.path.abspath(__file__)), "app.cfg"))
login_manager = LoginManager()
import login
login_manager.setup_app(app)

View File

@ -1,51 +1,85 @@
from floatapp import app
from floatapp.login import admin_required, login_required, is_authenticated, query_is_photo_user, query_is_admin_user, photo_user, admin_user
from floatapp.jsonp import jsonp
from process import send_process
from TreeWalker import TreeWalker
from flask import Response, abort, json, request, jsonify
from flask_login import login_user, current_user
from random import shuffle
import os
from mimetypes import guess_type
from random import shuffle
from flask import Response, abort, json, jsonify, request
from flask_login import current_user, login_user
from floatapp import app
from floatapp.jsonp import jsonp
from floatapp.login import (admin_required, admin_user, is_authenticated,
login_required, photo_user, query_is_admin_user,
query_is_photo_user)
from process import send_process
from TreeWalker import TreeWalker
cwd = os.path.dirname(os.path.abspath(__file__))
@app.route("/scan")
@admin_required
def scan_photos():
global cwd
response = send_process([ "stdbuf", "-oL", os.path.abspath(os.path.join(cwd, "../main.py")),
os.path.abspath(app.config["ALBUM_PATH"]), os.path.abspath(app.config["CACHE_PATH"]) ],
response = send_process([
"stdbuf",
"-oL",
os.path.abspath(os.path.join(cwd, "../venv/bin/python")),
os.path.abspath(os.path.join(cwd, "../main.py")),
os.path.abspath(app.config["ALBUM_PATH"]),
os.path.abspath(app.config["CACHE_PATH"])
],
os.path.join(cwd, "scanner.pid"))
response.headers.add("X-Accel-Buffering", "no")
response.cache_control.no_cache = True
return response
@app.route("/auth")
def login():
success = False
if current_user.is_authenticated():
if current_user.is_authenticated:
success = True
elif query_is_photo_user(request.form) or query_is_photo_user(request.args):
elif (query_is_photo_user(request.form) or
query_is_photo_user(request.args)):
success = login_user(photo_user, remember=True)
elif query_is_admin_user(request.form) or query_is_admin_user(request.args):
elif (query_is_admin_user(request.form) or
query_is_admin_user(request.args)):
success = login_user(admin_user, remember=True)
if not success:
abort(403)
return ""
def cache_base(path):
path = path.replace('/', '-').replace(' ', '_').replace('(', '').replace('&', '').replace(',', '').replace(')', '').replace('#', '').replace('[', '').replace(']', '').replace('"', '').replace("'", '').replace('_-_', '-').lower()
path = path.replace(
'/', '-').replace(
' ', '_').replace(
'(', '').replace(
'&', '').replace(
',', '').replace(
')', '').replace(
'#', '').replace(
'[', '').replace(
']', '').replace(
'"', '').replace(
"'", '').replace(
'_-_', '-').lower()
while path.find("--") != -1:
path = path.replace("--", "-")
while path.find("__") != -1:
path = path.replace("__", "_")
if len(path) == 0:
path = "root"
return path
auth_list = []
def read_auth_list():
global auth_list, cwd
f = open(os.path.join(cwd, "auth.txt"), "r")
@ -57,24 +91,31 @@ def read_auth_list():
f.close()
auth_list = paths
# TODO: Make this run via inotify
read_auth_list()
def check_permissions(path):
if not is_authenticated():
for auth_path in auth_list:
if path.startswith(auth_path):
abort(403)
@app.route("/albums/<path:path>")
def albums(path):
check_permissions(path)
return accel_redirect(app.config["ALBUM_ACCEL"], app.config["ALBUM_PATH"], path)
return accel_redirect(
app.config["ALBUM_ACCEL"], app.config["ALBUM_PATH"], path)
@app.route("/cache/<path:path>")
def cache(path):
check_permissions(path)
return accel_redirect(app.config["CACHE_ACCEL"], app.config["CACHE_PATH"], path)
return accel_redirect(
app.config["CACHE_ACCEL"], app.config["CACHE_PATH"], path)
def accel_redirect(internal, real, relative_name):
real_path = os.path.join(real, relative_name)
@ -94,6 +135,7 @@ def accel_redirect(internal, real, relative_name):
response.cache_control.max_age = 29030400
return response
@app.route("/photos")
@jsonp
def photos():

View File

@ -5,6 +5,7 @@ import re
jsonp_validator = re.compile("^[a-zA-Z0-9_\-.]{1,128}$")
def jsonp(f):
"""Wraps JSONified output for JSONP"""
@wraps(f)
@ -12,7 +13,8 @@ def jsonp(f):
callback = request.args.get('callback', False)
if callback and jsonp_validator.match(callback):
content = str(callback) + '(' + str(f(*args, **kwargs).data) + ')'
return current_app.response_class(content, mimetype='application/javascript')
return current_app.response_class(
content, mimetype='application/javascript')
else:
return f(*args, **kwargs)
return decorated_function

View File

@ -3,6 +3,7 @@ from flask import request, abort
from flask_login import current_user, UserMixin
from functools import wraps
class User(UserMixin):
def __init__(self, id, admin=False):
self.admin = admin
@ -11,6 +12,7 @@ class User(UserMixin):
photo_user = User("user")
admin_user = User("admin", True)
@login_manager.user_loader
def load_user(id):
if id == "user":
@ -19,35 +21,48 @@ def load_user(id):
return admin_user
return None
@login_manager.unauthorized_handler
def unauthorized():
return abort(403)
def login_required(fn):
@wraps(fn)
def decorated_view(*args, **kwargs):
if query_is_admin_user(request.args) or query_is_photo_user(request.args) or current_user.is_authenticated():
if (query_is_admin_user(request.args) or
query_is_photo_user(request.args) or
current_user.is_authenticated):
return fn(*args, **kwargs)
return app.login_manager.unauthorized()
return decorated_view
def admin_required(fn):
@wraps(fn)
def decorated_view(*args, **kwargs):
if query_is_admin_user(request.args) or (current_user.is_authenticated() and current_user.admin):
if (query_is_admin_user(request.args) or
(current_user.is_authenticated and current_user.admin)):
return fn(*args, **kwargs)
return app.login_manager.unauthorized()
return decorated_view
def query_is_photo_user(query):
username = query.get("username", None)
password = query.get("password", None)
return username == app.config["PHOTO_USERNAME"] and password == app.config["PHOTO_PASSWORD"]
return username == (app.config["PHOTO_USERNAME"] and
password == app.config["PHOTO_PASSWORD"])
def query_is_admin_user(query):
username = query.get("username", None)
password = query.get("password", None)
return username == app.config["ADMIN_USERNAME"] and password == app.config["ADMIN_PASSWORD"]
return username == (app.config["ADMIN_USERNAME"] and
password == app.config["ADMIN_PASSWORD"])
def is_authenticated():
return query_is_admin_user(request.args) or query_is_photo_user(request.args) or current_user.is_authenticated()
return (query_is_admin_user(request.args) or
query_is_photo_user(request.args) or
current_user.is_authenticated)

View File

@ -3,10 +3,12 @@ import subprocess
import os
import sys
class ProcessWrapper(object):
def __init__(self, process, done):
self.process = process
self.done = done
def close(self):
self.done()
if self.process.returncode is not None:
@ -14,10 +16,13 @@ class ProcessWrapper(object):
self.process.stdout.close()
self.process.terminate()
self.process.wait()
def __iter__(self):
return self
def __del__(self):
self.close()
def next(self):
try:
data = self.process.stdout.readline()
@ -29,6 +34,7 @@ class ProcessWrapper(object):
self.close()
raise StopIteration()
def send_process(args, pid_file):
def setup_proc():
f = open(pid_file, "w")
@ -36,17 +42,22 @@ def send_process(args, pid_file):
f.close()
os.close(0)
os.dup2(1, 2)
def tear_down_proc():
try:
os.unlink(pid_file)
except:
pass
if os.path.exists(pid_file):
f = open(pid_file, "r")
pid = f.read()
f.close()
if os.path.exists("/proc/%s/status" % pid):
return Response("Scanner is already running.\n", mimetype="text/plain")
process = subprocess.Popen(args, close_fds=True, stdout=subprocess.PIPE, preexec_fn=setup_proc)
return Response(
"Scanner is already running.\n", mimetype="text/plain")
process = subprocess.Popen(
args, close_fds=True, stdout=subprocess.PIPE, preexec_fn=setup_proc)
response = ProcessWrapper(process, tear_down_proc)
return Response(response, direct_passthrough=True, mimetype="text/plain")

View File

@ -5,6 +5,7 @@ from CachePath import message
import sys
import os
def main():
reload(sys)
sys.setdefaultencoding("UTF-8")
@ -12,6 +13,7 @@ def main():
if len(sys.argv) != 3:
print "usage: %s ALBUM_PATH CACHE_PATH" % sys.argv[0]
return
try:
os.umask(022)
TreeWalker(sys.argv[1], sys.argv[2])