epicyon/media.py

686 lines
21 KiB
Python

__filename__ = "media.py"
__author__ = "Bob Mottram"
__license__ = "AGPL3+"
__version__ = "1.3.0"
__maintainer__ = "Bob Mottram"
__email__ = "bob@libreserver.org"
__status__ = "Production"
__module_group__ = "Timeline"
import os
import time
import datetime
import subprocess
import random
from random import randint
from hashlib import sha1
from auth import create_password
from utils import get_base_content_from_post
from utils import get_full_domain
from utils import get_image_extensions
from utils import get_video_extensions
from utils import get_audio_extensions
from utils import get_media_extensions
from utils import has_object_dict
from utils import acct_dir
from shutil import copyfile
from shutil import rmtree
from shutil import move
from city import spoof_geolocation
# music file ID3 v1 genres
music_genre = {
0: "Blues",
96: "Big Band",
1: "Classic Rock",
97: "Chorus",
2: "Country",
98: "Easy Listening",
3: "Dance",
99: "Acoustic",
4: "Disco",
100: "Humour",
5: "Funk",
101: "Speech",
6: "Grunge",
102: "Chanson",
7: "Hip Hop",
103: "Opera",
8: "Jazz",
104: "Chamber Music",
9: "Metal",
105: "Sonata",
10: "New Age",
106: "Symphony",
11: "Oldies",
107: "Booty Bass",
12: "Other",
108: "Primus",
13: "Pop",
109: "Porn Groove",
14: "RnB",
110: "Satire",
15: "Rap",
111: "Slow Jam",
16: "Reggae",
112: "Club",
17: "Rock",
113: "Tango",
18: "Techno",
114: "Samba",
19: "Industrial",
115: "Folklore",
20: "Alternative",
116: "Ballad",
21: "Ska",
117: "Power Ballad",
22: "Death Metal",
118: "Rhythmic Soul",
23: "Pranks",
119: "Freestyle",
24: "Soundtrack",
120: "Duet",
25: "Euro-Techno",
121: "Punk Rock",
26: "Ambient",
122: "Drum Solo",
27: "Trip Hop",
123: "A Cappella",
28: "Vocal",
124: "Euro House",
29: "Jazz Funk",
125: "Dance Hall",
30: "Fusion",
126: "Goa",
31: "Trance",
127: "Drum and Bass",
32: "Classical",
128: "Club House",
33: "Instrumental",
129: "Hardcore",
34: "Acid",
130: "Terror",
35: "House",
131: "Indie",
36: "Game",
132: "BritPop",
37: "Sound Clip",
133: "Negerpunk",
38: "Gospel",
134: "Polsk Punk",
39: "Noise",
135: "Beat",
40: "AlternRock",
136: "Christian Gangsta Rap",
41: "Bass",
137: "Heavy Metal",
42: "Soul",
138: "Black Metal",
43: "Punk",
139: "Crossover",
44: "Space",
140: "Contemporary Christian",
45: "Meditative",
141: "Christian Rock",
46: "Instrumental Pop",
142: "Merengue",
47: "Instrumental Rock",
143: "Salsa",
48: "Ethnic",
144: "Thrash Metal",
49: "Gothic",
145: "Anime",
50: "Darkwave",
146: "JPop",
51: "Techno Industrial",
147: "Synthpop",
52: "Electronic",
148: "Abstract",
53: "Pop Folk",
149: "Art Rock",
54: "Eurodance",
150: "Baroque",
55: "Dream",
151: "Bhangra",
56: "Southern Rock",
152: "Big Beat",
57: "Comedy",
153: "Breakbeat",
58: "Cult",
154: "Chillout",
59: "Gangsta Rap",
155: "Downtempo",
60: "Top 40",
156: "Dub",
61: "Christian Rap",
157: "EBM",
62: "Pop Funk",
158: "Eclectic",
63: "Jungle",
159: "Electro",
64: "Native American",
160: "Electroclash",
65: "Cabaret",
161: "Emo",
66: "New Wave",
162: "Experimental",
67: "Psychedelic",
163: "Garage",
68: "Rave",
164: "Global",
69: "Showtunes",
165: "IDM",
70: "Trailer",
166: "Illbient",
71: "Lo Fi",
167: "Industro Goth",
72: "Tribal",
168: "Jam Band",
73: "Acid Punk",
169: "Krautrock",
74: "Acid Jazz",
170: "Leftfield",
75: "Polka",
171: "Lounge",
76: "Retro",
172: "Math Rock",
77: "Musical",
173: "New Romantic",
78: "Rock and Roll",
174: "Nu-Breakz",
79: "Hard Rock",
175: "Post Punk",
80: "Folk",
176: "Post Rock",
81: "Folk Rock",
177: "Psytrance",
82: "National Folk",
178: "Shoegaze",
83: "Swing",
179: "Space Rock",
84: "Fast Fusion",
180: "Trop Rock",
85: "Bebob",
181: "World Music",
86: "Latin",
182: "Neoclassical",
87: "Revival",
183: "Audiobook",
88: "Celtic",
184: "Audio Theatre",
89: "Bluegrass",
185: "Neue Deutsche Welle",
90: "Avantgarde",
186: "Podcast",
91: "Gothic Rock",
187: "Indie Rock",
92: "Progressive Rock",
188: "G Funk",
93: "Psychedelic Rock",
189: "Dubstep",
94: "Symphonic Rock",
190: "Garage Rock",
95: "Slow Rock",
191: "Psybient"
}
def _get_blur_hash() -> str:
"""You may laugh, but this is a lot less computationally intensive,
especially on large images, while still providing some visual variety
in the timeline
"""
hashes = [
"UfGuaW01%gRi%MM{azofozo0V@xuozn#ofs.",
"UFD]o8-;9FIU~qD%j[%M-;j[ofWB?bt7IURj",
"UyO|v_1#im=s%y#U%OxDwRt3W9R-ogjHj[WX",
"U96vAQt6H;WBt7ofWBa#MbWBo#j[byaze-oe",
"UJKA.q01M|IV%LM|RjNGIVj[f6oLjrofaeof",
"U9MPjn]?~Cxut~.PS1%1xXIo0fEer_$*^jxG",
"UtLENXWCRjju~qayaeaz00j[ofayIVkCkCfQ",
"UHGbeg-pbzWZ.ANI$wsQ$H-;E9W?0Nx]?FjE",
"UcHU%#4n_ND%?bxatRWBIU%MazxtNaRjs:of",
"ULR:TsWr~6xZofWWf6s-~6oK9eR,oes-WXNJ",
"U77VQB-:MaMx%L%MogRkMwkCxuoIS*WYjEsl",
"U%Nm{8R+%MxuE1t6WBNG-=RjoIt6~Vj]RkR*",
"UCM7u;?boft7oft7ayj[~qt7WBoft7oft7Rj"
]
return random.choice(hashes)
def _replace_silo_domain(post_json_object: {},
silo_domain: str, replacement_domain: str,
system_language: str) -> None:
"""Replace a silo domain with a replacement domain
"""
if not replacement_domain:
return
if not has_object_dict(post_json_object):
return
if not post_json_object['object'].get('content'):
return
content_str = get_base_content_from_post(post_json_object, system_language)
if silo_domain not in content_str:
return
content_str = content_str.replace(silo_domain, replacement_domain)
post_json_object['object']['content'] = content_str
if post_json_object['object'].get('contentMap'):
post_json_object['object']['contentMap'][system_language] = content_str
def replace_you_tube(post_json_object: {}, replacement_domain: str,
system_language: str) -> None:
"""Replace YouTube with a replacement domain
This denies Google some, but not all, tracking data
"""
_replace_silo_domain(post_json_object, 'www.youtube.com',
replacement_domain, system_language)
def replace_twitter(post_json_object: {}, replacement_domain: str,
system_language: str) -> None:
"""Replace Twitter with a replacement domain
This allows you to view twitter posts without having a twitter account
"""
twitter_domains = ('mobile.twitter.com', 'twitter.com')
for tw_domain in twitter_domains:
_replace_silo_domain(post_json_object, tw_domain,
replacement_domain, system_language)
def _remove_meta_data(image_filename: str, output_filename: str) -> None:
"""Attempts to do this with pure python didn't work well,
so better to use a dedicated tool if one is installed
"""
copyfile(image_filename, output_filename)
if not os.path.isfile(output_filename):
print('ERROR: unable to remove metadata from ' + image_filename)
return
if os.path.isfile('/usr/bin/exiftool'):
print('Removing metadata from ' + output_filename + ' using exiftool')
os.system('exiftool -all= ' + output_filename) # nosec
elif os.path.isfile('/usr/bin/mogrify'):
print('Removing metadata from ' + output_filename + ' using mogrify')
os.system('/usr/bin/mogrify -strip ' + output_filename) # nosec
def _spoof_meta_data(base_dir: str, nickname: str, domain: str,
output_filename: str, spoof_city: str,
content_license_url: str) -> None:
"""Spoof image metadata using a decoy model for a given city
"""
if not os.path.isfile(output_filename):
print('ERROR: unable to spoof metadata within ' + output_filename)
return
# get the random seed used to generate a unique pattern for this account
decoy_seed_filename = acct_dir(base_dir, nickname, domain) + '/decoyseed'
decoy_seed = 63725
if os.path.isfile(decoy_seed_filename):
with open(decoy_seed_filename, 'r') as fp_seed:
decoy_seed = int(fp_seed.read())
else:
decoy_seed = randint(10000, 10000000000000000)
try:
with open(decoy_seed_filename, 'w+') as fp_seed:
fp_seed.write(str(decoy_seed))
except OSError:
print('EX: unable to write ' + decoy_seed_filename)
if os.path.isfile('/usr/bin/exiftool'):
print('Spoofing metadata in ' + output_filename + ' using exiftool')
curr_time_adjusted = \
datetime.datetime.utcnow() - \
datetime.timedelta(minutes=randint(2, 120))
published = curr_time_adjusted.strftime("%Y:%m:%d %H:%M:%S+00:00")
(latitude, longitude, latitude_ref, longitude_ref,
cam_make, cam_model, cam_serial_number) = \
spoof_geolocation(base_dir, spoof_city, curr_time_adjusted,
decoy_seed, None, None)
if os.system('exiftool -artist=@"' + nickname + '@' + domain + '" ' +
'-Make="' + cam_make + '" ' +
'-Model="' + cam_model + '" ' +
'-Comment="' + str(cam_serial_number) + '" ' +
'-DateTimeOriginal="' + published + '" ' +
'-FileModifyDate="' + published + '" ' +
'-CreateDate="' + published + '" ' +
'-GPSLongitudeRef=' + longitude_ref + ' ' +
'-GPSAltitude=0 ' +
'-GPSLongitude=' + str(longitude) + ' ' +
'-GPSLatitudeRef=' + latitude_ref + ' ' +
'-GPSLatitude=' + str(latitude) + ' ' +
'-copyright="' + content_license_url + '" ' +
'-Comment="" ' +
output_filename) != 0: # nosec
print('ERROR: exiftool failed to run')
else:
print('ERROR: exiftool is not installed')
return
def get_music_metadata(filename: str) -> {}:
"""Returns metadata for a music file
"""
result = None
try:
result = subprocess.run(['exiftool', '-v3', filename],
stdout=subprocess.PIPE)
except BaseException as ex:
print('EX: get_music_metadata failed ' + str(ex))
if not result:
return {}
if not result.stdout:
return {}
try:
id3_lines = result.stdout.decode('utf-8').split('\n')
except BaseException:
print('EX: get_music_metadata unable to decode output')
return {}
fieldnames = (
'Title', 'Artist', 'Genre', 'Track', 'Album', 'Length', 'Band'
)
music_metadata = {}
for line in id3_lines:
for field in fieldnames:
if field + ' = ' not in line:
continue
field_value = line.split(field + ' = ')[1]
if '>' in field_value:
field_value = field_value.split('>')[0].strip()
if ':' in field_value and ' ' in field_value:
words = field_value.split(' ')
new_value = ''
for wrd in words:
if ':' not in wrd:
new_value += wrd + ' '
field_value = new_value.strip()
if field == 'Genre' and field_value.isdigit():
if music_genre.get(int(field_value)):
field_value = music_genre[int(field_value)]
music_metadata[field.lower()] = field_value
return music_metadata
def convert_image_to_low_bandwidth(image_filename: str) -> None:
"""Converts an image to a low bandwidth version
"""
low_bandwidth_filename = image_filename + '.low'
if os.path.isfile(low_bandwidth_filename):
try:
os.remove(low_bandwidth_filename)
except OSError:
print('EX: convert_image_to_low_bandwidth unable to delete ' +
low_bandwidth_filename)
cmd = \
'/usr/bin/convert +noise Multiplicative ' + \
'-evaluate median 10% -dither Floyd-Steinberg ' + \
'-monochrome ' + image_filename + ' ' + low_bandwidth_filename
print('Low bandwidth image conversion: ' + cmd)
subprocess.call(cmd, shell=True)
# wait for conversion to happen
ctr = 0
while not os.path.isfile(low_bandwidth_filename):
print('Waiting for low bandwidth image conversion ' + str(ctr))
time.sleep(0.2)
ctr += 1
if ctr > 100:
print('WARN: timed out waiting for low bandwidth image conversion')
break
if os.path.isfile(low_bandwidth_filename):
try:
os.remove(image_filename)
except OSError:
print('EX: convert_image_to_low_bandwidth unable to delete ' +
image_filename)
os.rename(low_bandwidth_filename, image_filename)
if os.path.isfile(image_filename):
print('Image converted to low bandwidth ' + image_filename)
else:
print('Low bandwidth converted image not found: ' +
low_bandwidth_filename)
def process_meta_data(base_dir: str, nickname: str, domain: str,
image_filename: str, output_filename: str,
city: str, content_license_url: str) -> None:
"""Handles image metadata. This tries to spoof the metadata
if possible, but otherwise just removes it
"""
# first remove the metadata
_remove_meta_data(image_filename, output_filename)
# now add some spoofed data to misdirect surveillance capitalists
_spoof_meta_data(base_dir, nickname, domain, output_filename, city,
content_license_url)
def _is_media(image_filename: str) -> bool:
"""Is the given file a media file?
"""
if not os.path.isfile(image_filename):
print('WARN: Media file does not exist ' + image_filename)
return False
permitted_media = get_media_extensions()
for permit in permitted_media:
if image_filename.endswith('.' + permit):
return True
print('WARN: ' + image_filename + ' is not a permitted media type')
return False
def create_media_dirs(base_dir: str, media_path: str) -> None:
"""Creates stored media directories
"""
if not os.path.isdir(base_dir + '/media'):
os.mkdir(base_dir + '/media')
if not os.path.isdir(base_dir + '/' + media_path):
os.mkdir(base_dir + '/' + media_path)
def get_media_path() -> str:
"""Returns the path for stored media
"""
curr_time = datetime.datetime.utcnow()
weeks_since_epoch = \
int((curr_time - datetime.datetime(1970, 1, 1)).days / 7)
return 'media/' + str(weeks_since_epoch)
def get_attachment_media_type(filename: str) -> str:
"""Returns the type of media for the given file
image, video or audio
"""
media_type = None
image_types = get_image_extensions()
for mtype in image_types:
if filename.endswith('.' + mtype):
return 'image'
video_types = get_video_extensions()
for mtype in video_types:
if filename.endswith('.' + mtype):
return 'video'
audio_types = get_audio_extensions()
for mtype in audio_types:
if filename.endswith('.' + mtype):
return 'audio'
return media_type
def _update_etag(media_filename: str) -> None:
""" calculate the etag, which is a sha1 of the data
"""
# only create etags for media
if '/media/' not in media_filename:
return
# check that the media exists
if not os.path.isfile(media_filename):
return
# read the binary data
data = None
try:
with open(media_filename, 'rb') as media_file:
data = media_file.read()
except OSError:
print('EX: _update_etag unable to read ' + str(media_filename))
if not data:
return
# calculate hash
etag = sha1(data).hexdigest() # nosec
# save the hash
try:
with open(media_filename + '.etag', 'w+', encoding='utf-8') as efile:
efile.write(etag)
except OSError:
print('EX: _update_etag unable to write ' +
str(media_filename) + '.etag')
def attach_media(base_dir: str, http_prefix: str,
nickname: str, domain: str, port: int,
post_json: {}, image_filename: str,
media_type: str, description: str,
city: str, low_bandwidth: bool,
content_license_url: str) -> {}:
"""Attaches media to a json object post
The description can be None
"""
if not _is_media(image_filename):
return post_json
file_extension = None
accepted_types = get_media_extensions()
for mtype in accepted_types:
if image_filename.endswith('.' + mtype):
if mtype == 'jpg':
mtype = 'jpeg'
if mtype == 'mp3':
mtype = 'mpeg'
file_extension = mtype
if not file_extension:
return post_json
media_type = media_type + '/' + file_extension
print('Attached media type: ' + media_type)
if file_extension == 'jpeg':
file_extension = 'jpg'
if media_type == 'audio/mpeg':
file_extension = 'mp3'
domain = get_full_domain(domain, port)
mpath = get_media_path()
media_path = mpath + '/' + create_password(32) + '.' + file_extension
if base_dir:
create_media_dirs(base_dir, mpath)
media_filename = base_dir + '/' + media_path
media_path = \
media_path.replace('media/', 'system/media_attachments/files/', 1)
attachment_json = {
'mediaType': media_type,
'name': description,
'type': 'Document',
'url': http_prefix + '://' + domain + '/' + media_path
}
if media_type.startswith('image/'):
attachment_json['blurhash'] = _get_blur_hash()
# find the dimensions of the image and add them as metadata
attach_image_width, attach_image_height = \
get_image_dimensions(image_filename)
if attach_image_width and attach_image_height:
attachment_json['width'] = attach_image_width
attachment_json['height'] = attach_image_height
post_json['attachment'] = [attachment_json]
if base_dir:
if media_type.startswith('image/'):
if low_bandwidth:
convert_image_to_low_bandwidth(image_filename)
process_meta_data(base_dir, nickname, domain,
image_filename, media_filename, city,
content_license_url)
else:
copyfile(image_filename, media_filename)
_update_etag(media_filename)
return post_json
def archive_media(base_dir: str, archive_directory: str,
max_weeks: int) -> None:
"""Any media older than the given number of weeks gets archived
"""
if max_weeks == 0:
return
curr_time = datetime.datetime.utcnow()
weeks_since_epoch = int((curr_time - datetime.datetime(1970, 1, 1)).days/7)
min_week = weeks_since_epoch - max_weeks
if archive_directory:
if not os.path.isdir(archive_directory):
os.mkdir(archive_directory)
if not os.path.isdir(archive_directory + '/media'):
os.mkdir(archive_directory + '/media')
for _, dirs, _ in os.walk(base_dir + '/media'):
for week_dir in dirs:
if int(week_dir) < min_week:
if archive_directory:
move(os.path.join(base_dir + '/media', week_dir),
archive_directory + '/media')
else:
# archive to /dev/null
rmtree(os.path.join(base_dir + '/media', week_dir),
ignore_errors=False, onerror=None)
break
def path_is_video(path: str) -> bool:
"""Is the given path a video file?
"""
if path.endswith('.ogv') or \
path.endswith('.mp4'):
return True
return False
def path_is_audio(path: str) -> bool:
"""Is the given path an audio file?
"""
if path.endswith('.ogg') or \
path.endswith('.opus') or \
path.endswith('.flac') or \
path.endswith('.mp3'):
return True
return False
def get_image_dimensions(image_filename: str) -> (int, int):
"""Returns the dimensions of an image file
"""
try:
result = subprocess.run(['identify', '-format', '"%wx%h"',
image_filename], stdout=subprocess.PIPE)
except BaseException:
print('EX: get_image_dimensions unable to run identify command')
return None, None
if not result:
return None, None
dimensions_str = result.stdout.decode('utf-8').replace('"', '')
if 'x' not in dimensions_str:
return None, None
width_str = dimensions_str.split('x')[0]
if not width_str.isdigit():
return None, None
height_str = dimensions_str.split('x')[1]
if not height_str.isdigit():
return None, None
return int(width_str), int(height_str)