Compare commits

..

6 Commits

Author SHA1 Message Date
gitea 30d0207368 Bugfix in script deploy_music.sh 2024-04-17 20:26:08 +02:00
gitea d27b477db8 Adding playlists, various bufixes and installation scripts
Adding playlists, various bufixes and installation scripts

Fixing

Rename

KUUUURWA

Install script music bot

fx

Fix ?

fix

Synchro

test

test

Undo

tst

test

tst

Undo changes

test

fx

tst

fx

Test commit of two files priority queue.
2024-04-17 19:41:32 +02:00
gitea ca6896ebcf Fixing the bug in the conjurer_musician.py file.
Fx

Fix

fx

Fix ?

Revert "Fix"

This reverts commit 4e185f7b34dfede04ed36ab9813bd9d1f7fb8b35.

Adding deploy for music bot
2024-04-17 19:41:32 +02:00
gitea 0375b0a892 Liq radio + some comments and nice stuff
fix

fix

Fix ?

fx

Liquidsoap init

test

test2

test

Tst

tst

fix

PLS

tst

tst

test

test

fix

tst

aa

aa# Please enter the commit message for your changes. Lines starting

Ping

fix?

fix

fix

Working version

Upgrade

Fix

fix

metadata

test

fix

fix# Please enter the commit message for your changes. Lines starting

Fix

aa

fix

fix

test

FIx

test

test

test

fix

fix

fix?

aa

fix

test

Final v.00

HLS

Serve
2024-04-17 19:38:53 +02:00
gitea 1caecceb10 Logging + playlist + plans
Fix logger
2024-04-17 19:38:52 +02:00
gitea 5cb51fb296 Logging added to music service 2024-04-10 20:37:45 +02:00
17 changed files with 162133 additions and 1074 deletions
-4
View File
@@ -197,7 +197,3 @@ node_modules/prettier/esm/parser-postcss.mjs
node_modules/prettier/esm/parser-typescript.mjs
node_modules/prettier/esm/parser-yaml.mjs
node_modules/prettier/esm/standalone.mjs
cr_results.json
not_in_db.json
rr_results.json
s_results.json
+170 -261
View File
@@ -46,12 +46,7 @@ from spotify_dl import youtube as youtube_download
from communication_subroutine import comm_subroutine, IN_COMM_Q, OUT_COMM_Q
# *=========================== Classes definition
# The above code is defining a TypedDict called `Music_Config` in Python. This TypedDict has three
# keys: "ctx" which is an optional string, "queue" which is a list of strings, and "requester" which
# is a list of strings. This TypedDict is used to define the structure of a dictionary that should
# have these specific keys and value types.
Music_Config = TypedDict(
"Music_Config",
{
@@ -63,10 +58,6 @@ Music_Config = TypedDict(
class QueryControl:
"""
This class `QueryControl` is used to manage queries with information about the author, UUID,
content, logger, context, and replies.
"""
def __init__(self, query_author, query_uuid, query_content, uplogger, ctx) -> None:
self.author = query_author
self.uuid = query_uuid
@@ -79,58 +70,6 @@ class QueryControl:
)
self.replies = []
class MusicFileList(object):
"""
The `MusicFileList` class manages a list of music files, with the ability to refresh the list from a
file service or local directory and update the list with new items.
"""
def __init__(self, uplogger) -> None:
self.music_file_list = []
self.file_service_active = False
self.logger = uplogger
self.logger.info("Created Playlist organizer class")
def refresh_file_list(self):
"""
The `refresh_file_list` function attempts to connect to a file service to retrieve a list of music
files, and if unsuccessful, it populates the list by scanning a local directory for .mp3 files.
"""
try:
self.logger.info("Attempt to connect to file service")
response = requests.get(f"{FILE_SERVICE_ADDRESS}{GET_MP3}", timeout=360)
self.music_file_list = response.json()["music_file_list"]
self.file_service_active = True
except requests.exceptions.RequestException as e:
for mp3_item in Path.glob(Path(MUSIC_FOLDER), "**/*.mp3"):
temp_music_file = mp3_item.as_posix()
if platform == "win32":
temp_music_file = temp_music_file.replace("/", "\\")
self.music_file_list.append(temp_music_file)
self.file_service_active = False
self.logger.error(e.strerror)
self.logger.error("Service Unavailable")
def get_file_list(self):
"""
The `get_file_list` function returns the list of music files stored in the object.
:return: The `music_file_list` attribute is being returned.
"""
return self.music_file_list
def update_file_list(self, item):
"""
The `update_file_list` function appends an item to a music file list and sends a POST request with
the item data to a file service address.
:param item: The `item` parameter in the `update_file_list` method is the file that you want to add
to the `music_file_list` attribute of the class instance. It is then sent as a JSON payload in a
POST request to a file service address along with the endpoint `SEND_MP3`
"""
self.music_file_list.append(item)
post_data = {"item": str(item)}
requests.post(f"{FILE_SERVICE_ADDRESS}{SEND_MP3}", json=post_data, timeout=360)
# *=========================================== Predefines
formatter = logging.Formatter("%(asctime)s - %(name)s - %(levelname)s - %(message)s")
@@ -154,8 +93,6 @@ FILE_SERVICE_ADDRESS = "http://192.168.1.15:5000"
GET_MP3 = "/mp3"
SEND_MP3 = "/update_mp3"
GET_PLAYLIST = "/get_music"
ADD_TO_PRIO_PLAYLIST = "/add_to_priority"
CLEAR_PRIO = "/clear_pr_pls"
LIBRARIAN_SERVICE_ADDRESS = "http://192.168.1.192:5001"
SEND_QUERY = "/query"
TIME_BETWEEN_CALLS = 100000
@@ -256,6 +193,60 @@ logger.info("Playlist generation")
# *=========================================== Load Data files
class MusicFileList(object):
"""
The `MusicFileList` class manages a list of music files, with the ability to refresh the list from a
file service or local directory and update the list with new items.
"""
def __init__(self, uplogger) -> None:
self.music_file_list = []
self.file_service_active = False
self.logger = uplogger
self.logger.info("Created Playlist organizer class")
def refresh_file_list(self):
"""
The `refresh_file_list` function attempts to connect to a file service to retrieve a list of music
files, and if unsuccessful, it populates the list by scanning a local directory for .mp3 files.
"""
try:
self.logger.info("Attempt to connect to file service")
response = requests.get(f"{FILE_SERVICE_ADDRESS}{GET_MP3}", timeout=360)
self.music_file_list = response.json()["music_file_list"]
self.file_service_active = True
except requests.exceptions.RequestException as e:
for mp3_item in Path.glob(Path(MUSIC_FOLDER), "**/*.mp3"):
temp_music_file = mp3_item.as_posix()
if platform == "win32":
temp_music_file = temp_music_file.replace("/", "\\")
self.music_file_list.append(temp_music_file)
self.file_service_active = False
self.logger.error(e.strerror)
self.logger.error("Service Unavailable")
def get_file_list(self):
"""
The `get_file_list` function returns the list of music files stored in the object.
:return: The `music_file_list` attribute is being returned.
"""
return self.music_file_list
def update_file_list(self, item):
"""
The `update_file_list` function appends an item to a music file list and sends a POST request with
the item data to a file service address.
:param item: The `item` parameter in the `update_file_list` method is the file that you want to add
to the `music_file_list` attribute of the class instance. It is then sent as a JSON payload in a
POST request to a file service address along with the endpoint `SEND_MP3`
"""
self.music_file_list.append(item)
post_data = {"item": str(item)}
requests.post(f"{FILE_SERVICE_ADDRESS}{SEND_MP3}", json=post_data, timeout=360)
music_file_list = []
music_file_list = MusicFileList(logger)
music_file_list.refresh_file_list()
@@ -292,8 +283,6 @@ for key in word_reactions:
word_reactions[key][2] = datetime.now()
logger.info("Done")
# *=========================================== Create Client
logger.info("Creating discord bot")
client = commands.Bot(intents=intents, command_prefix="$")
@@ -314,6 +303,9 @@ async def on_ready():
@client.event
# trunk-ignore(pylint/R0915)
# trunk-ignore(pylint/R0914)
# trunk-ignore(pylint/R0912)
async def on_message(message):
"""
Handle incoming messages in a Discord server, perform various
@@ -350,8 +342,8 @@ async def on_message(message):
if isinstance(message.channel, discord.DMChannel):
channel = client.get_channel(1064888712565100614)
await channel.send("Słyszałem ja żem że: " + message.content)
return
channel = message.channel
else:
channel = message.channel
await client.process_commands(message)
message.content = message.content.lower()
@@ -567,6 +559,8 @@ async def disconnect(ctx):
await voice_client.disconnect()
# trunk-ignore(pylint/R0915)
# trunk-ignore(pylint/R0912)
async def play(ctx, zamawial=None, arg=None):
"""
Play a music file, retrieve metadata about the file, and send a
@@ -686,53 +680,23 @@ async def check_music():
await asyncio.sleep(2)
@tasks.loop(seconds=3)
# trunk-ignore(pylint/R0915)
async def check_data_q():
"""
This function checks the data queue for any new entries and processes them accordingly.
"""
channel = client.get_channel(1062047367337095268)
try:
fresh_data = IN_COMM_Q.get(block=False)
entries = []
if fresh_data.stop:
searcher = fresh_data.author
ctx = fresh_data.ctx
query = fresh_data.content
l_p = 1
for doi in fresh_data.entries:
logger.info(doi)
desc = fresh_data.entries[doi]
title = desc['Title'][0]
entries.append(f"{l_p}. {title} pod linkiem https://www.sci-hub.se/{doi} i jest to {desc['type']}\n")
l_p+=1
message = '*Z podłogi wysuwa się winda na książki*'
message += f' Dzielny poszukiwaczu @{searcher} w odpowiedzi na twoje zapytanie {query} nr {fresh_data.uuid}'
message += 'nasza biblioteka służy Ci odpowiedzią. Przy dźwięku fanfar winda się otwiera a w środku '
if len(entries)<1:
message += "niestety nie ma nic"
elif len(entries)>=1 and len(entries)<5:
message += " znajduje się coś:\n"
for item in entries:
message+=item
else:
message+= " znajduje się cholernie dużo:\n"
for item in entries:
message+=item
if len(message) > 1500:
await ctx.send(message)
message = ""
await ctx.send(message)
#Kept for sentimental reasons
#await ctx.send(f"O. A tak będzie wyglądało coś ciekawego w przyszłości: {data}")
data = IN_COMM_Q.get(block=False)
await channel.send(f"O. A tak będzie wyglądało coś ciekawego w przyszłości: {data}")
except Empty:
pass
@tasks.loop(seconds=120)
# trunk-ignore(pylint/R0915)
async def check_self():
"""
The function `check_data` periodically checks for conditions to send messages and manage log files
in a Discord channel.
"""
# trunk-ignore(codespell/misspelled)
# logger.info("Heartbeat of cleanup proc")
channel = client.get_channel(1062047367337095268)
messages = [message async for message in channel.history(limit=1)]
@@ -795,7 +759,9 @@ async def check_self():
await channel.send(
"*Przeciąga się za barem* No dobra - porobione to można dalej pi... *Zauważa spojrzenie Hammera* eprzyć o głupotach z klientami... Szefie... *Bierze 'ukradkowy' łyk z piersiówki*"
)
# trunk-ignore(pylint/W0603)
global LAST_SPONTANEOUS_CALL
# trunk-ignore(pylint/W0603)
global TIME_BETWEEN_CALLS
tdelta = datetime.now() - LAST_SPONTANEOUS_CALL
tdelta = tdelta.total_seconds()
@@ -831,6 +797,7 @@ async def get_random_cyclic_message():
mess_key = list(cyclic_words.keys())[messnum]
return cyclic_words[mess_key][0]
ai_check2 = random.randint(0, 10)
# trunk-ignore(pylint/W0603)
global MESSAGE_TABLE
if ai_check2 < 6:
logger.info("Dykteryjka")
@@ -864,6 +831,10 @@ async def get_random_cyclic_message():
return result
# trunk-ignore(pylint/R0912)
# trunk-ignore(pylint/R0913)
# trunk-ignore(pylint/R0914)
# trunk-ignore(pylint/R0915)
async def handle_response(
prompt, vykidailo, bartender, history, username, request_type
):
@@ -1052,6 +1023,8 @@ async def handle_response(
return result, MESSAGE_TABLE
# trunk-ignore(pylint/R0915)
# trunk-ignore(pylint/R0914)
async def get_file(ctx, source, link):
"""
Take in three parameters: "ctx" (context),
@@ -1074,10 +1047,8 @@ async def get_file(ctx, source, link):
dir_path = None
item_type, item_id = spotify.parse_spotify_url(link)
if item_id:
coro = asyncio.to_thread(spotify.fetch_tracks, args=(spotify_ctrl, item_type, link))
file_list = await coro
coro = asyncio.to_thread(spotify.get_item_name, args=(spotify_ctrl, item_type, item_id))
directory_name = await coro
file_list = spotify.fetch_tracks(spotify_ctrl, item_type, link)
directory_name = spotify.get_item_name(spotify_ctrl, item_type, item_id)
url_data = {"urls": []}
url_dict = {}
url_dict["save_path"] = Path(
@@ -1272,6 +1243,9 @@ async def get_stats(ctx, history_limit):
yield name, how_many
# trunk-ignore(pylint/R0915)
# trunk-ignore(pylint/R0912)
# trunk-ignore(pylint/R0914)
async def wyszukaj(ctx, how_many=0, slowa_kluczowe=None):
"""
Take in a context object and an optional integer parameter "how_many" and perform search
@@ -1301,7 +1275,6 @@ async def wyszukaj(ctx, how_many=0, slowa_kluczowe=None):
json=jrequest,
timeout=360,
)
return_data = await coroutine
if not return_data.status_code == 200:
await ctx.send("Wołaj szefa - coś się wyjebało")
@@ -1431,6 +1404,8 @@ async def dej_co_z_jutuba(ctx):
description="Jeśli nie wiesz jak użyć tej komendy to nawet nie próbuj",
guild=discord.Object(id=664789470779932693),
)
# trunk-ignore(pylint/R0914)
# trunk-ignore(pylint/R0912)
async def update_banlist(ctx):
"""
Update a banlist in a Discord guild from preprovided list in channel.
@@ -1725,63 +1700,6 @@ async def zagraj_mi_kawalek(ctx):
"Obawiam się że nie mogę nic znaleźć u siebie. Spróbuj komendy '$dej_co_ze_spotifaja' jeśli masz link"
)
@client.hybrid_command(
name="dodaj_do_ulubionych",
description="Dodaje do listy ulubionych w radiu",
guild=discord.Object(id=664789470779932693),
)
async def dodaj_do_ulubionych(ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
async with ctx.typing():
logger.info("Zaczynam szukać timestamp %s", datetime.now())
dlugosc_playlisty = ctx.message.content.split()[1]
word_list = ctx.message.content.split()
jrequest = {
"lista_slow": word_list,
"dlugosc_plejlisty": dlugosc_playlisty,
"UUID": str(uuid.uuid4()),
}
coroutine = asyncio.to_thread(
requests.post,
f"{FILE_SERVICE_ADDRESS}{ADD_TO_PRIO_PLAYLIST}",
json=jrequest,
timeout=360,
)
_ = await coroutine
@client.hybrid_command(
name="wyczysc_ulubione",
description="Czysci liste ulubionych w radiu",
guild=discord.Object(id=664789470779932693),
)
async def wyczysc_ulubione(ctx):
"""
Generate a playlist in queue. First word in this command shall be int defining length of the playlist.
Rest of the line are search terms.
:param ctx: ctx stands for "context" and is a parameter commonly used in Discord.py commands. It
represents the context in which the command was invoked, including information such as the message,
the channel, the server, and the user who invoked the command. This parameter is required in all
Discord.py commands
"""
async with ctx.typing():
coroutine = asyncio.to_thread(
requests.post,
f"{FILE_SERVICE_ADDRESS}{CLEAR_PRIO}",
json={},
timeout=360,
)
_ = await coroutine
@client.hybrid_command(
name="zrob_mi_plejliste",
@@ -2002,6 +1920,8 @@ async def get_image_stable_diffusion(ctx):
description="Gra muzyke wyszukana na bazie tematow konwersacji na kanale NZ",
guild=discord.Object(id=664789470779932693),
)
# trunk-ignore(pylint/R0912)
# trunk-ignore(pylint/R0915)
async def zagraj_muzyke_mego_ludu(ctx):
"""
Play completeley random playlist based on messaging history.
@@ -2145,26 +2065,55 @@ async def parametry_muzyki_mego_ludu(
logger.info(exce)
class DoSearchView(discord.ui.View):
def __init__(self, uuid, result_list, *args, **kwargs) -> None:
super().__init__(*args, **kwargs)
self.uuid = uuid
self.result_list = result_list
@discord.ui.button(
label="Nastepna strona", style=discord.ButtonStyle.primary, row=0
)
async def next_callback(self, interaction, button):
# emoji = await ctx.guild.fetch_emoji(id)
# button.emoji=1102174413887111189
logger.info("Pressed")
await interaction.response.edit_message(
content="You clicked the button!"
) # Send a message when the button is clicked
@discord.ui.button(label="Wyszukaj wiecej", style=discord.ButtonStyle.danger, row=0)
async def reset_callback(self, interaction, button):
# emoji = await ctx.guild.fetch_emoji(id)
# button.emoji=1102174413887111189
logger.info("Pressed")
await interaction.response.edit_message(
content="You clicked the button!"
) # Send a message when the button is clicked
@discord.ui.button(
label="Poprzednia Strona", style=discord.ButtonStyle.primary, row=0
)
async def perv_callback(self, interaction, button):
# emoji = await ctx.guild.fetch_emoji(id)
# button.emoji=1102174413887111189
logger.info("Pressed")
await interaction.response.edit_message(
content="You clicked the button!"
) # Send a message when the button is clicked
@client.hybrid_command(
name="wyszukaj_linki_do_dokumentow",
description="Szuka linkow doi w bazie crossref i podaje linki do scihuba",
guild=discord.Object(id=664789470779932693),
)
async def wyszukaj_linki_do_dokumentow(ctx):
"""
The function `wyszukaj_linki_do_dokumentow` searches for links to documents in a crossref database and provides links to scihub.
:param ctx: The `ctx` parameter is typically used in Discord.py, a Python library for creating Discord bots.
It represents the context of the command being executed, including information about the message, the server,
and the user who invoked the command.
"""
query = ctx.message.content
query_uuid = uuid.uuid4()
#TODO: TESTING ONLY!!
#query_uuid = uuid.UUID('{12345678-1234-5678-1234-567812345678}')
ctx.message.content = ctx.message.content.replace("$wyszukaj_linki_do_dokumentow", "")
json_query = {"UUID": str(query_uuid), "query": str(query), "page": 1, "deep_search": False}
# query_uuid = "test"
# 3 wyslij Librariana
json_query = {"UUID": str(query_uuid), "query": str(query)[30:], "page": 1}
coroutine = asyncio.to_thread(
requests.post,
f"{LIBRARIAN_SERVICE_ADDRESS}{SEND_QUERY}",
@@ -2173,8 +2122,8 @@ async def wyszukaj_linki_do_dokumentow(ctx):
)
await ctx.send(
"*Conjurer powoli notuje podane przez Ciebie. Podchodzi do sprytnie ukrytej przy barze rury od poczty pneumatycznej i" +
" wrzuca twój liścik do środka* To teraz trza poczekać kilka godzin. Biblioteka to 3/4 stacji."+
" A przecież pół stacji to browar, motelik dla zabaw cielesnych i ten Bar. Więc 12/8 stacji teraz będzie ciężko pracować"
" wrzuca twój liścik do środka* To teraz trza poczekać kilka godzin. Biblioteka to te 3/4 stacji."+
" A przecież pół stacji to browar, motelik dla zabaw cielesnych i ten Bar. Więc te 12/8 stacji teraz będzie ciężko pracować"
)
query_response = await coroutine
if not query_response.status_code == 200:
@@ -2196,87 +2145,46 @@ async def wyszukaj_linki_do_dokumentow(ctx):
await ctx.send(f"No dobra poszło. Zapamiętaj proszę {query_uuid} - to identyfikator twojego zapytania. Jesteś {queue_size} w kolejce."+
" Zapytania obsługuje algorytm zasilany czterema chomikami zapierdalającymi w kołowrotku - więc wyniki najwcześniej za kilka godzi - ale mogą być też dni.")
@client.hybrid_command(
name="glebokie_gardlo",
description="Przygotowuje drinka o nazwie głębokie gardło",
guild=discord.Object(id=664789470779932693),
)
async def wyszukaj_linki_do_dokumentow_deep(ctx):
"""
The function `wyszukaj_linki_do_dokumentow_deep` performs a deep search for links to documents in
a crossref database and provides links to scihub.
'''
async def wyswietl_wyniki_wyszukiwania(ctx):
:param ctx: The `ctx` parameter is typically used in Discord.py, a Python library for creating Discord bots.
It represents the context of the command being executed, including information about the message, the server,
and the user who invoked the command.
"""
# TODO: Implement deep search logic here
query = ctx.message.content.replace("$glebokie_gardlo", "")
allowed = False
for role in ctx.message.author.roles:
if role.name == "Bartender":
allowed = True
if role.name == "Scribe":
allowed = True
if role.name == "Thane":
allowed = True
if not allowed:
if ctx.message.author.nick:
username = ctx.message.author.nick
else:
username = ctx.message.author.name
vykidailo = False
bartender = False
prompt = "Przygotuj mi drinka o nazwie Głębokie Gardło, inspirowanego tym sławnym filmem oraz skandalem Watergate"
for role in ctx.message.author.roles:
if role.name == "Vykidailo":
vykidailo = True
if role.name == "Bartender":
bartender = True
global MESSAGE_TABLE # pylint: disable=global-statement
# 4 zwroc 4 wyniki od librariana
# 5 przyciski przy każdym wierszu pozwalają sprawdzić czy plik istnieje na scihubie - jeśli tak podaje link do sciagniecia
# 6 ostatni wiersz to dalej, wróć, skasuj, zaciagnij kolejne wyniki (jeśli jest ich więcej niż 1000)
result_view = DoSearchView(
uuid=str(query_uuid), result_list=query_response.json()["data"]
)
resulttab = []
resultlink = []
hit, fetched, total, _ = query_response.json()["data"][0]
answer = query_response.json()["data"][1]
result, MESSAGE_TABLE = await handle_response(
prompt, vykidailo, bartender, MESSAGE_TABLE, username, "CONVERSATION"
for item in answer:
resulttab.append(str(item["title"]))
item_link = "https://sci-hub.se/" + str(item["DOI"])
resultlink.append(item_link)
logger.info(len(resulttab))
for i in range(0, min(4, len(resulttab))):
logger.info(i)
logger.info(resulttab[i])
logger.info(resultlink[i])
url = resultlink[i]
logger.info(url)
temp_label = str(resulttab[i])
temp_label = temp_label.strip("[']")
result_view.add_item(
discord.ui.Button(label=str(temp_label[0:79]), row=i + 1, url=url)
)
await ctx.send(result)
return
query_uuid = uuid.uuid4()
#TODO: TESTING ONLY!!
#query_uuid = uuid.UUID('{12345678-1234-5678-1234-567812345678}')
json_query = {"UUID": str(query_uuid), "query": str(query), "page": 1, "deep_search": True}
coroutine = asyncio.to_thread(
requests.post,
f"{LIBRARIAN_SERVICE_ADDRESS}{SEND_QUERY}",
json=json_query,
timeout=360,
)
labelka = (
"Wyniki wyszukiwania dla: "
+ str(query)[30:]
+ f"\nWszystkich {total} sprawdzonych: {fetched} znalezionych: {hit} "
) # ile znaleziono artykułów w ogóle, ile zostało po refine
await ctx.send(
"*Conjurer mruga okiem i zamiast drinka wyjmuje dysk usb z terminala. Podchodzi do sprytnie ukrytej przy barze rury od poczty pneumatycznej i" +
" wrzuca ten dysk do środk* To teraz trza poczekać kilka godzin. TO będzie głębokie wyszukanie"+
" Rozgląda się dookoła i stawia przed tobą mętnego drinka o zapachu mięty, gwiezdnego pyłu i oleju silnikowego"
)
query_response = await coroutine
if not query_response.status_code == 200:
await ctx.send("*Z rury wydobywa się dym. Conjurer łapie pierwszą ciecz pod ręką i pryska na rurę. Następuje drobna eksplozja i wszystko zaczyna się palić."+
" Conjurer jest skonfundowany..* Wołaj szefa - mam nieodparte wrażenie że się coś wyjebało")
return
query, query_uuid, queue_size = (
query_response.json()["data"][0],
query_response.json()["data"][1],
query_response.json()["data"][2],
)
if ctx.message.author.nick:
username = ctx.message.author.nick
else:
username = ctx.message.author.name
query_object = QueryControl(username, query_uuid, query, logger, ctx)
OUT_COMM_Q.put(query_object)
await ctx.send(f"Wypij wypi {query_uuid} - to identyfikator twojego zapytania. Jesteś {queue_size} w kolejce niestety kolejka obowiazuje zawsze."+
" Zapytania obsługuje algorytm zasilany czterema chomikami zapierdalającymi w kołowrotku - więc wyniki najwcześniej za kilka godzin - ale mogą być też dni. Głębokie zabawy trwają dłużej. *Znowu mruga*")
labelka, view=result_view
) # Send a message with our View class that contains the button
'''
@client.hybrid_command(
name="krecimy_pornola",
@@ -2315,22 +2223,23 @@ async def krecimy_pornola(ctx):
# *================================== Run
if __name__ == "__main__":
# TODO: wpakowac kondzia w wątki odpalic asynchronicznie rownolegle z flaskiem do sterowania nim
logger.info("Starting discord bot")
threads = []
logger.info("Starting discord bot: Creating threads")
threads.append(threading.Thread(target=client.run, args=(TOKEN,)))
threads.append(threading.Thread(target=comm_subroutine, args=(logger,)))
logger.info("Starting discord bot: Starting threads")
WRK_CNT = 0
i = 0
for worker in threads:
WRK_CNT+=1
logger.info("Starting discord bot: Starting thread {WRK_CNT}")
i+=1
logger.info("Starting discord bot: Starting thread {i}")
worker.start()
logger.info("Starting discord bot: Joining threads")
WRK_CNT=0
i=0
for worker in threads:
WRK_CNT+=1
logger.info("Starting discord bot: Joining thread {WRK_CNT}")
i+=1
logger.info("Starting discord bot: Joining thread {i}")
worker.join()
# widok - generuje się 5 stron po 4 linki
View File
View File
View File
+15 -61
View File
@@ -1,7 +1,6 @@
import logging
import threading
import json
import time
from queue import Queue, Empty
from flask import Flask, jsonify, request
from waitress import serve
@@ -10,34 +9,28 @@ HOST_ADDRESS = "192.168.1.191"
PORT_ADDRESS = 5000
OUT_COMM_Q = Queue()
IN_COMM_Q = Queue()
awaiting_q = []
incoming_q = Queue()
internal_q = Queue()
app = Flask(__name__)
@app.route("/conjurer", methods=["POST"])
def answer_external_command():
"""
The function `answer_external_command` logs the request data, loads the data as JSON, logs the
record, and then puts the record into an incoming queue before returning a success message.
:return: The function `answer_external_command()` is returning a JSON response with the message
"SUCCESS".
"""
app.logger.info(request)
record = json.loads(request.data)
app.logger.info(record)
app.logger.info("DATA RECEIVED")
incoming_q.put(record)
while True:
try:
q_data = internal_q.get(block=False)
except Empty:
break
if q_data.uuid in record:
pass
return jsonify("SUCCESS")
@app.route("/conjurer", methods=["GET"])
def check_alive():
"""
The function "check_alive" returns a JSON response with the message "ALIVE" when the "/conjurer"
route is accessed via a GET request.
:return: The code snippet is a Flask route that listens for GET requests to the "/conjurer"
endpoint. When a GET request is made to this endpoint, the function check_alive() is called, which
returns a JSON response with the message "ALIVE".
"""
return jsonify("ALIVE")
def flask_debug(_logger):
@@ -59,58 +52,19 @@ def waitress_run(_logger):
serve(app, host=HOST_ADDRESS, port=PORT_ADDRESS)
def scan_queue(_logger):
"""
The function `scan_queue` reads data from a queue, logs it, and appends it to another queue.
:param _logger: The `_logger` parameter is typically an instance of a logging object that is used to
record and store log messages. It is commonly used to track the flow of the program, record errors,
and provide information for debugging purposes. In this code snippet, the `_logger` object is used
to log the
"""
while True:
data = OUT_COMM_Q.get()
_logger.info(data)
awaiting_q.append(data)
def scan_incoming(_logger):
"""
The `scan_incoming` function continuously checks for incoming data, processes it, and logs when data
is found.
:param _logger: The `_logger` parameter in the `scan_incoming` function is a logger object that is
used to log messages or information during the execution of the function. It is typically used for
debugging, monitoring, or tracking the flow of the program. In this case, the `_logger` is being
used
"""
while True:
try:
answer = incoming_q.get(block=False)
_logger.info("DATA FOUND")
for record in awaiting_q:
if record.uuid in answer.keys():
record.stop = True
record.entries = answer[record.uuid]
IN_COMM_Q.put(record)
except Empty:
time.sleep(1)
internal_q.put(data)
query_list.append(data)
def comm_subroutine(logger):
"""
The `comm_subroutine` function starts multiple threads to run different tasks concurrently.
:param logger: The `logger` parameter in the `comm_subroutine` function is an instance of a logger
object that is used for logging messages at various levels (e.g., debug, info, warning, error). In
the provided code snippet, the logger is used to log messages at the "info" level
"""
#logger.setLevel(logging.DEBUG)
logger.info("Started")
threads = []
#threads.append(threading.Thread(target=flask_debug, args=(logger,)))
threads.append(threading.Thread(target=waitress_run, args=(logger,)))
threads.append(threading.Thread(target=flask_debug, args=(logger,)))
#threads.append(threading.Thread(target=waitress_run, args=(logger,)))
threads.append(threading.Thread(target=scan_queue,args=(logger,)))
threads.append(threading.Thread(target=scan_incoming,args=(logger,)))
for worker in threads:
worker.start()
+179 -339
View File
@@ -1,311 +1,231 @@
"""
This module contains the implementation of the Librarian class and
related functions for searching and refining queries.
Classes:
- Librarian: Represents a librarian object that performs search and
refinement operations on queries
Functions:
- flask_debug: Starts a Flask application in debug mode without using the reloader.
- waitress_run: Serves the Flask application using the Waitress WSGI server.
- BackgroundTaskSearch: Represents a background task for running the
Librarian object asynchronously
"""
import asyncio
import json
import logging
import netrc
import re
import threading
import time
from json.decoder import JSONDecodeError
from logging import handlers
from queue import Queue
from typing import Callable
from urllib.request import urlopen
from uuid import UUID
import requests
import scrape_bot
import search_bot
from flask import Flask, jsonify, request
from habanero import Crossref
from waitress import serve
# Constants
NETRC_FILE = r"C:\Users\Activcom.pl\.netrc"
HOST_ADDRESS = "192.168.1.192"
PORT_ADDRESS = 5001
MAIN_BOT_ADDRESS = "http://192.168.1.191:5000"
SEND_RESULTS = "/conjurer"
BDSM_UUID_TEST = "96b7f85a-1142-4908-8986-62a2ea25a147"
MAX_CR_RESULTS = 7000
ENCODING = "utf-8"
app = Flask(__name__)
librarian_queue = Queue()
librarian_list = []
# trunk-ignore(pylint/R0902)
class Librarian(object):
"""
Represents a librarian object that performs search and refinement operations on queries.
"""
def __init__(self, _app, query, uuid, _deep_search) -> None:
"""
Initializes a Librarian object.
Args:
- _app: The Flask application object.
- query: The query to be searched.
- uuid: The unique identifier for the search.
Attributes:
- cr: The Crossref object for performing the search.
- query: The query to be searched.
- uuid: The unique identifier for the search.
- limit: The maximum number of search results to fetch.
- fetched: The number of search results fetched so far.
- hit: The number of search results that match the refinement criteria.
- total: The total number of search results.
- app: The Flask application object.
- live_results: A list to store live search results.
- final_result: A list to store the final refined search results.
- not_in_db: A list to store search results that are not in the local database.
- search_result_from_cr: A dictionary to store the search results from Crossref.
- done: A flag indicating if the search is done.
"""
def __init__(self, app, query, uuid) -> None:
netrc_mod = netrc.netrc(NETRC_FILE)
auth_tokens = netrc_mod.authenticators("crossref")
self.cr = Crossref(
mailto=auth_tokens[0],
ua_string=f"Conjurer project. mailto:{auth_tokens[0]}"
)
authTokens = netrc_mod.authenticators("crossref")
self.cr = Crossref(mailto=authTokens[0])
self.query = query
self.uuid = str(uuid)
self.limit = MAX_CR_RESULTS
self.limit = 3000
self.fetched = 0
self.hit = 0
self.total = 0
self.app = _app
self.app = app
self.logger = app.logger
self.live_results = []
self.final_result = {}
self.not_in_db = {}
self.search_result_from_cr = {}
self.done = False
self.deep_search = _deep_search
async def search_crossref(self, query, deep_search=False):
"""
Performs a search on Crossref for the given query.
Args:
- query: The query to be searched.
Returns:
- result: The search result from Crossref.
Raises:
- None.
"""
async def search_crossref(self, query):
self.app.logger.info("STARTED SEARCH")
if not deep_search:
cr_result = self.cr.works(query=query, limit=1000)
self.search_result_from_cr.update(cr_result)
self.total = cr_result["message"]["total-results"]
self.fetched += len(cr_result["message"]["items"])
self.app.logger.info(self.total)
self.app.logger.info(self.fetched)
while self.total > self.fetched and self.limit > self.fetched:
tmp_result = self.cr.works(query=query, limit=1000, offset=self.fetched)
cr_result["message"]["items"].extend(tmp_result["message"]["items"])
self.total = tmp_result["message"]["total-results"]
self.fetched = len(cr_result["message"]["items"])
self.app.logger.info(self.total)
self.app.logger.info(self.fetched)
time.sleep(0.1)
result = self.cr.works(query=query, limit=1000)
self.search_result_from_cr.update(result)
self.total = result["message"]["total-results"]
self.fetched += len(result["message"]["items"])
self.logger.info(self.total)
self.logger.info(self.fetched)
while self.total > self.fetched and self.limit > self.fetched:
result = self.cr.works(query=query, limit=1000)
self.search_result_from_cr.update(result)
self.total = result["message"]["total-results"]
self.fetched += len(result["message"]["items"])
self.logger.info(self.total)
self.logger.info(self.fetched)
else:
cr_result = self.cr.works(query=query, cursor_max=10000, cursor='*', progress_bar = True)
result = cr_result[0]
for item in cr_result[1:]:
result["message"]["items"].extend(item["message"]["items"])
self.total = item["message"]["total-results"]
self.fetched = len(result["message"]["items"])
self.app.logger.info(self.total)
self.app.logger.info(self.fetched)
cr_result = result
self.app.logger.info("Total, fetched:")
self.app.logger.info(self.total)
self.app.logger.info(self.fetched)
self.search_result_from_cr.update(cr_result)
self.total = cr_result["message"]["total-results"]
self.app.logger.info("CROSSREF DONE")
time.sleep(1)
self.app.logger.info("CROSSREF DONE")
# TODO: add to sql with UUID
# sql row - title, doi, author, uuid, last retrieved, is_available
self.app.logger.info("CROSSREF DONE")
with open("cr_results.json", "r+", encoding="utf-8") as data_file:
# First we load existing data into a dict.
try:
file_data = json.load(data_file)
except JSONDecodeError:
file_data = {}
data_file.truncate(0)
data_file.seek(0)
tmp = {self.uuid : self.search_result_from_cr}
if file_data:
file_data.update(tmp)
else:
file_data = tmp
json.dump(file_data, data_file, indent=4)
return cr_result
async def refine_search(self, unrefined_result):
"""
Refines the search query based on the unrefined search result.
Args:
- unrefined_result: The unrefined search result.
Returns:
- refined_result: The refined search result.
Raises:
- None.
"""
summarized_results = []
self.app.logger.info("REFINE: Removing all derived works from the list")
for item in unrefined_result["message"]["items"]:
summarized_results.append(
{
"DOI": item["DOI"],
"title": item["title"] if "title" in item else None,
"type": item["type"] if "type" in item else None,
}
)
partial_result = {
self.uuid: {
"total_results": self.search_result_from_cr["message"][
"total-results"
],
"on_page": 1,
"summary": summarized_results,
"results": self.search_result_from_cr["message"]["items"],
}
}
self.app.logger.info("REFINE: Dumping to file")
temp = []
refined_result = {}
for key in partial_result:
self.app.logger.info("KEY:")
self.app.logger.info(key)
for item in partial_result[self.uuid]["summary"]:
if item["title"]:
temp.append(item)
for item in temp:
refined_result[item["DOI"]]= item
with open("rr_results.json", "r+", encoding="utf-8") as data_file:
# First we load existing data into a dict.
try:
file_data = json.load(data_file)
except JSONDecodeError:
file_data = {}
summarized_results = []
self.app.logger.info("REFINE: Removing all derived works from the list")
for item in self.search_result_from_cr["message"]["items"]:
container = "NO"
if "container-title" in item:
container = "YES"
else:
summarized_results.append(
{
"DOI": item["DOI"],
"title": item["title"] if "title" in item else None,
"type": item["type"] if "type" in item else None,
"container": container,
}
)
result = {
self.uuid: {
"total_results": self.search_result_from_cr["message"][
"total-results"
],
"on_page": 1,
"summary": summarized_results,
"results": self.search_result_from_cr["message"]["items"],
}
}
if file_data:
file_data.update(result)
else:
file_data = result
self.app.logger.info("REFINE: Dumping to file")
data_file.truncate(0)
data_file.seek(0)
tmp = {self.uuid: refined_result}
if file_data:
file_data.update(tmp)
else:
file_data = tmp
json.dump(file_data, data_file, indent=4)
return refined_result
return result
async def check_if_exists(self, refined_result):
"""
Checks if the given DOI exists.
Args:
- doi: The DOI to be checked.
- brute_force: A flag indicating if brute force method should be used.
Returns:
- result: The search result.
Raises:
- None.
"""
result = {}
async def check_dois_in_local_db(self, doi):
self.app.logger.info("REFINE: Running search in the backend app")
dois = []
for item, value in refined_result.items():
dois.append([item, value])
coro = asyncio.to_thread(
search_bot.search_for_doi, dois, self.live_results, self.app.logger
search_bot.search_for_doi, doi, self.live_results, self.app.logger
)
result = await coro
result_list = []
result_no_db = []
for item in result:
return result
async def check_if_exists_brute_force(self, page_url):
self.app.logger.error("REFINE: Brute force search!")
if not page_url.startswith(("http:", "https:")):
raise ValueError("URL must start with 'http:' or 'https:'")
# trunk-ignore(bandit/B310)
with urlopen(page_url) as response:
data = response.read()
text = data.decode("utf-8")
for line in text.splitlines():
if re.match(
r".*Unfortunately, Sci-Hub doesn't have the requested document.*",
line,
):
return False
if m := re.match(
r".*<embed type=\"application.pdf\"\s*src=\"(.*\.pdf)", line
):
direct_download_link = "https:" + str(m.group(1))
self.app.logger.info(direct_download_link)
return True
return False
async def check_if_exists(self, doi, brute_force=False):
result = {}
result = await self.check_dois_in_local_db(doi)
if brute_force and not result:
for item in doi:
item_link = "https://sci-hub.se/" + item[0]
tmp = {
"DOI": item["DOI"],
"exists": await self.check_if_exists_brute_force(item_link),
"data": item,
}
result.update(tmp)
return result
async def refine_query(self, unrefined_reqult, brute_force=False):
temp = []
refined_result = []
for key in unrefined_reqult:
self.logger.info("KEY:")
self.logger.info(key)
for item in unrefined_reqult[self.uuid]["summary"]:
if item["container"] == "NO" and item["title"]:
refined_result.append(item)
for item in refined_result:
temp.append([item["DOI"], item])
refined_result = await self.check_if_exists(temp)
temp = []
for item in refined_result:
if item["exists"]:
result_list.append(item)
temp.append(item["data"])
refined_result = temp
self.hit = len(refined_result)
return refined_result
# TODO: DOłożyć sprawdzenie czy w rafinowanym pliku już nie mamy częściowego wyniku
async def answer_query(self):
# TODO: DOłożyć sprawdzenie czy w rafinowanym pliku już nie mamy częściowego wyniku tutaj bo zanim w ogóle otworzymy nierafinowany
# Search sql for UUID
# SQL SELECT * FROM RESULTS WHERE UUID = uuid
self.logger.info(f"Search started {self.uuid}")
uuid_found = False
database = None
query = self.query
with open("cr_results.json", "r+", encoding="utf-8") as cr_file:
# tu logika komunikacji z SQL i cała logika związana z wyszukaniem
# ale tymczasowo plik
try:
database = json.load(cr_file)
except JSONDecodeError:
pass
if database:
for item in database.keys():
if item in self.uuid:
self.result = await self.refine_query(database)
return self.result
answer = await self.search_crossref(query=query)
database.update(answer)
cr_file.truncate(0)
cr_file.seek(0)
json.dump(database, cr_file)
self.result = await self.refine_query(answer)
return self.result
else:
result_no_db.append(item)
self.hit = len(result)
return result_list, result_no_db
answer = await self.search_crossref(query=query)
database = answer
cr_file.truncate(0)
cr_file.seek(0)
json.dump(database, cr_file)
self.result = await self.refine_query(answer)
self.app.logger.info("Refined")
self.done = True
return self.result
async def answer_query(self, deep_search=False):
"""
Answers the search query.
Args:
- None.
Returns:
- result: The search result.
Raises:
- None.
"""
self.app.logger.info(f"Search started {self.uuid}")
cr_result = await self.search_crossref(query=self.query, deep_search=deep_search)
refined_result = await self.refine_search(cr_result)
answer, negative_answer = await self.check_if_exists(refined_result)
self.app.logger.info("Returning result")
self.app.logger.info(answer)
self.app.logger.info(negative_answer)
for item in answer:
self.final_result[item["DOI"]] = {"Title": item["data"]["title"], "type": item["data"]["type"]}
for item in negative_answer:
self.not_in_db[item["DOI"]] = {"Title": item["data"]["title"], "type": item["data"]["type"]}
self.app.logger.info("Returning result case2")
self.app.logger.info(self.final_result)
return self.final_result
# ============================= FLASK INTERNALS===============================
def flask_debug():
"""
Starts a Flask application in debug mode without using the reloader.
Args:
- None.
Returns:
- None.
Raises:
- None.
The `flask_debug` function starts a Flask application in debug mode without using the reloader.
Do not use for production for fucks sake.
"""
# trunk-ignore(bandit/B201)
app.run(debug=True, use_reloader=False, host=HOST_ADDRESS, port=PORT_ADDRESS)
@@ -313,86 +233,33 @@ def flask_debug():
def waitress_run():
"""
Serves the Flask application using the Waitress WSGI server.
Args:
- None.
Returns:
- None.
Raises:
- None.
The `waitress_run` function serves the `app` on host "0.0.0.0"
and port 5000 using the Waitress WSGI server.
"""
serve(app, host=HOST_ADDRESS, port=PORT_ADDRESS)
class BackgroundTaskSearch(threading.Thread):
"""
A background task for searching and saving results to files.
This class extends the `threading.Thread` class and is responsible for running
the search task in the background. It retrieves queries from a queue, performs
the search, and saves the results to files.
Attributes:
app (App): The application instance.
"""
def run(self):
"""
Run the background task.
This method is called when the thread is started. It creates a new event loop,
runs the `_run` method, and closes the event loop.
"""
loop = asyncio.new_event_loop()
loop = asyncio.new_event_loop() # loop = asyncio.get_event_loop()
loop.run_until_complete(self._run())
loop.close()
async def _run(self):
"""
Perform the search task.
This method is an asynchronous coroutine that runs in a loop. It retrieves a
librarian from the queue, answers the query, and saves the results to files.
It also sends the results to a remote server.
The search task continues running indefinitely until the thread is stopped.
"""
while True:
database = None
ndb_database = None
librarian = librarian_queue.get()
self.app.logger.info("STARTED")
result = await librarian.answer_query(librarian.deep_search)
result = await librarian.answer_query()
result = {librarian.uuid: result}
self.app.logger.info("Saving to file")
# Save results to "not_in_db.json" file
with open("not_in_db.json", "r+", encoding="utf-8") as ndb_file:
try:
ndb_database = json.load(ndb_file)
except JSONDecodeError:
pass
if ndb_database:
ndb_database.update(librarian.not_in_db)
else:
ndb_database = librarian.not_in_db
ndb_file.truncate(0)
ndb_file.seek(0)
json.dump(ndb_database, ndb_file)
# Save results to "s_results.json" file
with open("s_results.json", "r+", encoding="utf-8") as s_file:
try:
database = json.load(s_file)
except JSONDecodeError:
pass
if database:
self.app.logger.info(database)
self.app.logger.info(result)
database.update(result)
database.extend(result)
else:
database = result
self.app.logger.info("DUMPING DATA")
@@ -409,8 +276,7 @@ class BackgroundTaskSearch(threading.Thread):
timeout=360,
)
self.app.logger.info("SENT")
result = await coroutine
self.app.logger.info(result.status_code)
_ = await coroutine
self.app.logger.info("SEND CONFIRMED")
time.sleep(1)
@@ -418,26 +284,15 @@ class BackgroundTaskSearch(threading.Thread):
# ==================================SERVER ROUTES==========================================
@app.route("/query", methods=["POST"])
async def query_database():
"""
Endpoint for querying the database.
This function receives a POST request containing a JSON payload with a query and a UUID.
It creates a Librarian object with the query and UUID,
and adds it to the librarian_queue and librarian_list.
Finally, it returns a JSON response indicating the success
of the operation, along with the query, UUID,
and the current size of the librarian_queue.
Returns:
tuple: A tuple containing a JSON response and a status code.
"""
record = json.loads(request.data)
app.logger.info(record)
app.logger.info(record["query"])
app.logger.info(record["UUID"])
uuid = record["UUID"]
deep_search = record["deep_search"]
cl = Librarian(app, record["query"], uuid, deep_search)
# TODO: TESTING ONLY======================
uuid = UUID("{12345678-1234-5678-1234-567812345678}")
cl = Librarian(app, record["query"], uuid)
librarian_queue.put(cl)
librarian_list.append(cl)
answer_data = (record["query"], record["UUID"], librarian_queue.qsize())
@@ -450,12 +305,6 @@ async def query_database():
@app.route("/get_partial_result", methods=["POST"])
async def get_partial():
"""
Retrieves the partial result for a given UUID.
Returns:
A JSON response containing the partial result.
"""
record = json.loads(request.data)
app.logger.info(record)
app.logger.info(record["UUID"])
@@ -472,31 +321,22 @@ async def get_partial():
# =======================================MAIN===================================================
if __name__ == "__main__":
app.logger.setLevel(logging.DEBUG)
h1 = handlers.RotatingFileHandler(
filename="D:\\logs\\librarian.log",
encoding="utf-8",
mode="a",
maxBytes=6 * 1024 * 1024,
backupCount=6,
)
app.logger.addHandler(h1)
logger = logging.getLogger("conjurer_musician")
logger.setLevel(logging.DEBUG)
threads = []
threads.append(threading.Thread(target=waitress_run))
# threads.append(threading.Thread(target=flask_debug))
# threads.append(threading.Thread(target=waitress_run))
threads.append(threading.Thread(target=flask_debug))
bgtask = BackgroundTaskSearch()
bgtask.app = app
threads.append(bgtask)
threads.append(threading.Thread(target=scrape_bot.scraper, args=(app.logger,)))
i = 0
for worker in threads:
try:
app.logger.info("App number: %s", i)
logger.info(f"App number: {i}")
i += 1
worker.start()
except RuntimeError as e:
app.logger.error("Exploded")
logger.error("Exploded")
print(str(e))
for worker in threads:
worker.join()
@@ -1,33 +1,11 @@
#!/bin/bash
# This script sets up a virtual environment for the Conjurer Librarian service and installs the required dependencies.
# Create a virtual environment at /home/pi/Conjurer_librarian/env
python3 -m venv /home/pi/Conjurer_librarian/env
# Copy the Conjurer Librarian Python script to the appropriate directory
cp /home/pi/conjurer/conjurer_librarian/conjurer_librarian.py ./Conjurer_librarian/
# Copy the requirements file to the appropriate directory
cp /home/pi/conjurer/conjurer_librarian/requirements_librarian.txt ./Conjurer_librarian/
# Change directory to /home/pi/Conjurer_librarian
cp /home/pi/conjurer/conjurer_librarian/conjurer_librarian.py ./Conjurer_librarian/
cp /home/pi/conjurer/conjurer_librarian/requirements_librarian.txt ./Conjurer_librarian/
cd /home/pi/Conjurer_librarian
touch /home/pi/Conjurer/rr_results.json
touch /home/pi/Conjurer/cr_results.json
touch /home/pi/Conjurer/s_results.json
touch /home/pi/Conjurer/rr_results.json
touch /home/pi/Conjurer/not_in_db.json
# Activate the virtual environment
source /home/pi/Conjurer_librarian/env/bin/activate
# Upgrade pip
./env/bin/python3 -m pip install --upgrade pip
# Install the required dependencies
./env/bin/python3 -m pip install -r requirements_librarian.txt
# Deactivate the virtual environment
deactivate
cp /home/pi/conjurer/conjurer_librarian/conjurer_librarian.py ./Conjurer_librarian/
-1
View File
@@ -1 +0,0 @@
c:\conjurer\env\Scripts\activate.bat && c:\conjurer\conjurer_librarian\conjurer_librarian.py
-134
View File
@@ -1,134 +0,0 @@
"""
This module contains the code for the scrape bot.
"""
import json
import logging
import random
import re
import time
from json import JSONDecodeError
from queue import Queue
from threading import Thread
from urllib.request import urlopen
from requests import ConnectionError as RequestsConnectionError
from requests import ConnectTimeout, Timeout
SCR_DATABASE_PATH = r"C:\\Database\\chunks\\"
SCR_FILENAME = "40_chunk.txt"
SCR_ENCODING = "utf-8"
WORK_Q = Queue()
random.seed()
def load_ndb_to_q(logger):
"""
This function loads items from the not_in_db.json file into the work queue.
"""
logger.info("Loader started")
while True:
with open("not_in_db.json", "r+", encoding="utf-8") as ndb_file:
try:
ndb_database = json.load(ndb_file)
for _ in range (1,10):
key = next(iter(ndb_database))
item = ndb_database.pop(key)
logger.info(key)
url = f"https://sci-hub.se/{key}"
WORK_Q.put([item, url, False])
ndb_file.truncate(0)
ndb_file.seek(0)
json.dump(ndb_database, ndb_file, indent=4)
except JSONDecodeError:
time.sleep(60 * 60 * 3)
time.sleep(60*60*3)
def check_if_exists_brute_force(logger):
"""
This function checks if a document exists using brute force search.
"""
# Function code here
while True:
logger.info("Scraper tick")
item = WORK_Q.get()
page_url = item[1]
logger.error("REFINE: Brute force search!")
if not page_url.startswith(("http:", "https:")):
raise ValueError("URL must start with 'http:' or 'https:'")
blocked = True
try:
# trunk-ignore(bandit/B310)
with urlopen(page_url) as response:
data = response.read()
text = data.decode("utf-8")
if item[2]:
logger.info("Already found")
time.sleep(180)
blocked = False
else:
for line in text.splitlines():
if re.match(
r".*Unfortunately, Sci-Hub doesn't have the requested document.*",
line,
):
blocked = False
logger.info("Not found")
item[2] = False
if m := re.match(
r".*<embed type=\"application.pdf\"\s*src=\"(.*\.pdf)", line
):
blocked = False
direct_download_link = "https:" + str(m.group(1))
logger.info(direct_download_link)
with open(
SCR_DATABASE_PATH + SCR_FILENAME,
"a",
encoding=SCR_ENCODING,
) as operated_file:
operated_file.write("\n")
operated_file.write(item[0])
item[2] = True
except (
Timeout,
ConnectTimeout,
ConnectionRefusedError,
ConnectionError,
RequestsConnectionError,
):
pass
if blocked:
logger.info(item)
logger.info(text)
logger.error("Got blocked. Fuck.")
time.sleep(60 * 60 * 72)
# trunk-ignore(bandit/B311)
rand = random.randint(1, 60)
logger.info(f"Sleeping for {2*rand} minutes")
time.sleep(120 * rand)
def scraper(logger=None):
"""
This function is responsible for scraping data.
"""
if not logger:
logger = logging.getLogger()
logger.setLevel("DEBUG")
h1 = logging.StreamHandler()
logger.addHandler(h1)
logger.info("No logger set. Test run")
loader = Thread(target=load_ndb_to_q, args=(logger,))
_scraper = Thread(target=check_if_exists_brute_force, args=(logger,))
loader.start()
_scraper.start()
loader.join()
_scraper.join()
if __name__ == "__main__":
scraper()
+51 -110
View File
@@ -1,135 +1,82 @@
"""
This module contains functions for searching for DOI (Digital Object Identifier)
in a list of live results.
It includes a producer-consumer pattern implementation using threads and queues.
Functions:
- producer: Reads lines from a file and puts them into an output queue.
- consumer: Consumes items from an input queue and checks if DOI exists in the live results list.
- search_for_doi: Searches for DOI in live results using the producer-consumer pattern.
Global Variables:
- MAXTHREADS: Maximum number of worker threads.
- DATABASE_PATH: Path to the database files.
- ENCODING: Encoding of the database files.
- CHUNK: File name pattern for the database files.
- _sentinel: Sentinel object used to signal termination.
- result_list: List to store the search results.
- WORK_Q_SIZE: Maximum size of the work queue.
"""
# TODO: Wpiemdolić to wszystko w klasę z loggerem przysłanym z góry
from queue import Empty, Queue
from queue import Queue, Empty
from threading import Thread
q = Queue()
# DATA FOR TEST ONLY
# MAXTHREADS = 5
# DATABASE_PATH = r'C:\\Database\\chunks_1\\'
#TODO: TO w klasie jako parametry wybierane czy robimy pelen run czy testowy
#MAXTHREADS = 3
MAXTHREADS = 1
# DEPLOYMENT DATA
MAXTHREADS = 41
DATABASE_PATH = r"C:\\Database\\chunks\\"
#DATABASE_PATH = r'C:\\Database\\chunks_1\\'
DATABASE_PATH = r'C:\\Database\\chunks\\'
ENCODING = "utf-8"
CHUNK = "_chunk.txt"
CHUNk = "_chunk.txt"
_sentinel = object()
WORK_Q_SIZE = 15500000
result_list = []
#TODO: Wpiemdolić to wszystko w klasę z loggerem przysłanym z góry
def producer(out_q, control_q, filename, _logger):
"""
Produces items from the output queue and puts them into the control queue.
Args:
out_q (Queue): Output queue.
control_q (Queue): Control queue.
filename (str): Name of the file.
_logger: Logger object for logging.
"""
def producer(out_q, control_q, filename):
with open(DATABASE_PATH + filename, "r+", encoding=ENCODING) as operated_file:
_logger.info(f"Worker {filename} ")
while True:
line = operated_file.readline()
if not line:
break
lines = operated_file.readlines()
for line in lines:
out_q.put(line)
try:
check = control_q.get(block=False)
except Empty:
check = False
pass
if check is _sentinel:
_logger.info("TERM signal received")
print("TERM signal received")
control_q.put(check)
break
_logger.info(f"Worker finished: {filename}")
out_q.put(_sentinel)
# IMPORTANT!!! ONLY ONE CONSUMER THREAD AS WE ARE NOT PUTTING SENTINELS BACK
def consumer(in_q, control_q, doi, live_results, result_list, _logger, ):
"""
Consumes items from an input queue and checks if DOI exists in the live results list.
Args:
in_q (Queue): Input queue.
control_q (Queue): Control queue.
doi (list): List of DOI to search for.
live_results (list): List to store the search results.
_logger: Logger object for logging.
"""
print(f"Worker finished: {filename}")
out_q.put(_sentinel)
#IMPORTANT!!! ONLY ONE CONSUMER THREAD AS WE ARE NOT PUTTING SENTINELS BACK
#TODO: Change doi to tuple list and only put term when all doi are found => (doi, True)
def consumer(in_q, control_q, doi, live_results, logger):
sentinels = 0
for item in doi:
result_list.append({"DOI": item[0], "exists": False, "data": item[1]})
result_list.append({"DOI" : item[0], "exists" : False, "data" : item[1]})
while True:
#if in_q.empty():
# print("Queue empty!")
#if in_q.full():
# print("Queue full!")
done_check = True
data = in_q.get()
if data is _sentinel:
_logger.info("Worker finished")
logger.info("Worker finished")
sentinels += 1
else:
for item in result_list:
if item["DOI"] in data and not item["exists"]:
_logger.info(data)
_logger.info("HIT")
if item["DOI"] in data:
logger.info(data)
logger.info("HIT")
item["exists"] = True
live_results.append(item)
done_check = done_check and item["exists"]
if done_check:
control_q.put(_sentinel)
if sentinels >= MAXTHREADS:
_logger.info("All workers finished")
logger.info("All workers finished")
break
def search_for_doi(doi, live_results, _logger):
"""
Search for DOI in live_results using _logger for logging.
Args:
doi (list): List of DOI to search for.
live_results (list): List to store the search results.
_logger: Logger object for logging.
"""
result_list = []
def search_for_doi(doi, live_results, logger):
threads = []
work_q = Queue(maxsize=WORK_Q_SIZE)
work_q = Queue(maxsize=200000)
control_q = Queue()
t_cons = Thread(
target=consumer, args=(work_q, control_q, doi, live_results, result_list, _logger)
)
_logger.info("Consumer thread created")
t_cons = Thread(target = consumer, args = (work_q, control_q, doi, live_results, logger))
logger.info("Consumer thread created")
threads.append(t_cons)
for i in range(0, MAXTHREADS):
# TEST DATA
# filename = "test" + str(i) + CHUNk
# DEPLOYMENT DATA
filename = str(i) + CHUNK
_logger.info(f"Creating worker thread no: {i}")
threads.append(
Thread(target=producer, args=(work_q, control_q, filename, _logger))
)
for i in range(0,MAXTHREADS):
#filename = "test" + str(i) + CHUNk
filename = "40" + CHUNk
#filename = str(i) + CHUNk
logger.info(f"Creating worker thread no: {i}")
threads.append(Thread(target = producer, args = (work_q, control_q, filename)))
for worker in threads:
worker.start()
for worker in threads:
@@ -137,29 +84,23 @@ def search_for_doi(doi, live_results, _logger):
return result_list
if __name__ == "__main__":
import logging
logger = logging.getLogger()
logger.setLevel("DEBUG")
h1 = logging.StreamHandler()
logger.addHandler(h1)
logger.info("TEST RUN")
live_result = []
logger.info(
search_for_doi(
[
("10.1002/9781118786352.wbieg0998.pub2", "DATA"),
("10.1002/j.2050-0416.2002.tb00563.x", "DATA"),
("10.1111/j.1365-2958.1994.tb00448.x", "DATA"),
("10.2165/00128415-200309690-00017", "DATA"),
("10.5772/48313", "DATA"),
("10.15803/ijnc.7.2_419", "DATA"),
("10.1051/0004-6361/201321596e", "DATA"),
("10.2307/40835941", "DATA"),
],
live_result,
logger,
)
)
logger.info(search_for_doi([
("10.1002/9781118786352.wbieg0998.pub2","DATA"),
("10.1002/j.2050-0416.2002.tb00563.x","DATA"),
("10.1111/j.1365-2958.1994.tb00448.x","DATA"),
("10.2165/00128415-200309690-00017","DATA"),
("10.5772/48313","DATA"),
("10.15803/ijnc.7.2_419","DATA"),
("10.1051/0004-6361/201321596e","DATA"),
("10.2307/40835941","DATA"),
], live_result, logger))
logger.info(live_result)
+32 -84
View File
@@ -35,11 +35,9 @@ if platform in ("linux", "linux2"):
LOGSTORE = "/home/pi/RetroPie/logs/"
ENCODING = "utf-8"
MUSIC_FOLDER = "/home/pi/RetroPie/mp3/"
PRIORITY_FOLDER = "/home/pi/RetroPie/mp3/Magiczne i chuj/"
music_file_list = []
priority_list = []
def create_playlist():
@@ -65,16 +63,6 @@ def create_playlist():
except json.JSONDecodeError:
pass
with open("/home/pi/Conjurer/prio_playlist.json", "r+", encoding="utf-8") as r_file:
with open("/home/pi/Conjurer/hit.playlist", "w", encoding="utf-8") as w_file:
try:
playlist = json.load(r_file)
for item in playlist:
w_file.write(item)
w_file.write("\n")
except json.JSONDecodeError:
pass
def rescan():
"""
@@ -82,30 +70,17 @@ def rescan():
and adds them to a list of music files.
"""
logging.info("Rescan triggered")
for mp3_item in Path.glob(Path(MUSIC_FOLDER), "**/*.mp3"):
temp_music_file = mp3_item.as_posix()
if platform == "win32":
temp_music_file = temp_music_file.replace("/", "\\")
music_file_list.append(temp_music_file)
for mp3_item in Path.glob(Path(PRIORITY_FOLDER), "**/*.mp3"):
temp_music_file = mp3_item.as_posix()
if platform == "win32":
temp_music_file = temp_music_file.replace("/", "\\")
priority_list.append(temp_music_file)
with open("/home/pi/Conjurer/playlist.json", "r+", encoding="utf-8") as s_file:
database = music_file_list
# self.app.logger.info("DUMPING DATA")
s_file.truncate(0)
s_file.seek(0)
json.dump(database, s_file)
with open("/home/pi/Conjurer/prio_playlist.json", "r+", encoding="utf-8") as s_file:
# self.app.logger.info("DUMPING DATA")
s_file.truncate(0)
s_file.seek(0)
json.dump(priority_list, s_file)
create_playlist()
@@ -227,9 +202,7 @@ def wyszukaj(word_list, how_many, _logger=None, return_to_bot=True):
return_list.append(search_weight[itr])
if not return_to_bot:
with open(
"/home/pi/Conjurer/priority_queue.playlist",
"r+",
encoding="utf-8",
"/home/pi/Conjurer/priority_queue.playlist", "r+", encoding="utf-8"
) as s_file:
s_file.write(search_weight[itr][1])
break
@@ -241,8 +214,9 @@ def wyszukaj(word_list, how_many, _logger=None, return_to_bot=True):
if not return_to_bot:
with open(
"/home/pi/Conjurer/priority_queue.playlist", "a", encoding="utf-8"
"/home/pi/Conjurer/priority_queue.playlist", "r+", encoding="utf-8"
) as s_file:
s_file.truncate(0)
for item in return_list:
s_file.write(item[1] + "\n")
return return_list
@@ -279,36 +253,24 @@ def remove_characters(string, character):
@app.route("/stream", methods=["GET"])
def stream_music():
"""
The function `stream_music` is a route handler for the "/stream" endpoint.
It returns a JSON response containing a key "music_file_list" with the value of the variable `music_file_list`.
:return: A JSON response containing a key "music_file_list" with the value of the variable `music_file_list`.
The function `get_music_list` returns a JSON object containing a list of music files.
:return: A JSON response containing a key "music_file_list" with the value of the variable
`music_file_list`.
"""
return send_from_directory("/tmp/hls", "stream.m3u8")
@app.route("/<string:file_name>")
@app.route('/<string:file_name>')
def stream(file_name):
"""
Stream the specified file from the video directory.
Args:
file_name (str): The name of the file to be streamed.
Returns:
Response: The response containing the streamed file.
"""
video_dir = "/tmp/hls"
video_dir = '/tmp/hls'
return send_from_directory(video_dir, file_name)
@app.route("/stream_mp3", methods=["GET"])
def stream_music_mp3():
"""
The function `stream_music_mp3` is a route handler for the "/stream_mp3" endpoint.
It redirects the user to the URL "http://www.example.com" with a status code of 302.
:return: A redirect response to "http://www.example.com" with a status code of 302.
The function `get_music_list` returns a JSON object containing a list of music files.
:return: A JSON response containing a key "music_file_list" with the value of the variable
`music_file_list`.
"""
return redirect("http://www.example.com", code=302)
@@ -316,18 +278,19 @@ def stream_music_mp3():
@app.route("/clear_pr_pls", methods=["GET"])
def clear_pr_pls():
"""
The function `clear_pr_pls` clears the contents of the priority queue playlist file.
:return: A JSON response indicating the success of the operation.
The function `get_music_list` returns a JSON object containing a list of music files.
:return: A JSON response containing a key "music_file_list" with the value of the variable
`music_file_list`.
"""
with open(
"/home/pi/Conjurer/priority_queue.playlist", "w", encoding="utf-8"
) as s_file:
) as s_file:
s_file.truncate(0)
return_data = jsonify(isError=False, message="Success", statusCode=200, data=[])
return return_data, 200
@app.route("/mp3", methods=["GET"])
def get_music_list():
"""
@@ -362,22 +325,20 @@ def update_music_list():
@app.route("/get_music", methods=["POST"])
def look_for_playlist():
"""
The function `look_for_playlist` receives a POST request with a JSON payload, logs the received
The function `update_music_list` receives a POST request with a JSON payload, logs the received
item, adds it to a music file list, and returns a success message along with the updated record.
:return: A tuple containing a JSON response and a status code. The JSON response includes keys `isError`,
`message`, `statusCode`, and `data`, with values indicating the success of the operation and the
data that was received and added to the `music_file_list`. The status code returned is 200,
indicating a successful response.
:return: The function `update_music_list` is returning a tuple containing a JSON response and a
status code. The JSON response includes keys `isError`, `message`, `statusCode`, and `data`,
with values indicating the success of the operation and the data that was
received and added to the `music_file_list`.
The status code returned is 200, indicating a successful response.
"""
record = json.loads(request.data)
app.logger.info(record)
app.logger.info(record["lista_slow"])
app.logger.info(record["UUID"])
app.logger.info(record["dlugosc_plejlisty"])
return_data = wyszukaj(
record["lista_slow"], record["dlugosc_plejlisty"], app.logger, True
)
return_data = wyszukaj(record["lista_slow"], record["dlugosc_plejlisty"], app.logger, True)
return_data = (
jsonify(isError=False, message="Success", statusCode=200, data=return_data),
@@ -385,26 +346,23 @@ def look_for_playlist():
)
return return_data
@app.route("/add_to_priority", methods=["POST"])
def add_to_priority():
"""
The function `add_to_priority` receives a POST request with a JSON payload, logs the received
The function `update_music_list` receives a POST request with a JSON payload, logs the received
item, adds it to a music file list, and returns a success message along with the updated record.
:return: A tuple containing a JSON response and a status code. The JSON response includes keys `isError`,
`message`, `statusCode`, and `data`, with values indicating the success of the operation and the
data that was received and added to the `music_file_list`. The status code returned is 200,
indicating a successful response.
:return: The function `update_music_list` is returning a tuple containing a JSON response and a
status code. The JSON response includes keys `isError`, `message`, `statusCode`, and `data`,
with values indicating the success of the operation and the data that was
received and added to the `music_file_list`.
The status code returned is 200, indicating a successful response.
"""
record = json.loads(request.data)
app.logger.info(record)
app.logger.info(record["lista_slow"])
app.logger.info(record["UUID"])
app.logger.info(record["dlugosc_plejlisty"])
return_data = wyszukaj(
record["lista_slow"], record["dlugosc_plejlisty"], app.logger, False
)
return_data = wyszukaj(record["lista_slow"], record["dlugosc_plejlisty"], app.logger, False)
return_data = (
jsonify(isError=False, message="Success", statusCode=200, data=return_data),
@@ -424,18 +382,8 @@ def flask_debug():
def waitress_run():
"""
The `waitress_run` function serves the `app` on host HOST_ADDRESS
The `waitress_run` function serves the `app` on host "0.0.0.0"
and port 5000 using the Waitress WSGI server.
This function starts the Waitress server and listens for incoming requests
on the specified host and port. It uses the `serve` function from the Waitress
library to handle the serving process.
Parameters:
None
Returns:
None
"""
serve(app, host=HOST_ADDRESS, port=PORT_ADDRESS)
@@ -459,7 +407,7 @@ if __name__ == "__main__":
rescan()
logger.info("Started")
threads = []
# threads.append(threading.Thread(target=flask_debug))
#threads.append(threading.Thread(target=flask_debug))
threads.append(threading.Thread(target=waitress_run))
threads.append(threading.Thread(target=thread_rescan))
+25 -48
View File
@@ -1,71 +1,48 @@
# FILEPATH: /home/mtuszowski/conjurer/conjurer_musician/radio_conjurer.liq
# This script sets up a Liquidsoap radio stream with various features and configurations.
# Load icecast credentials from a JSON file
let json.parse credentials = file.contents("/home/pi/Conjurer/icecast_credentials.json")
# Enable replaygain metadata processing
enable_replaygain_metadata()
# Define playlists to be used in the stream
s1 = replaygain(playlist(reload_mode="watch", "/home/pi/Conjurer/all_playlist.playlist"))
s2 = replaygain(playlist(reload_mode="watch", "/home/pi/Conjurer/priority_queue.playlist"))
s3 = replaygain(playlist(reload_mode="watch", "/home/pi/Conjurer/hit.playlist"))
# Randomly select a playlist with weights
s = random(id="randomizer", weights=[1, 3, 2], [s1, s2, s3])
s = random(id="randomizer", weights=[7000, 100], [s2, s1])
# Set up an interactive harbor for controlling the stream
interactive.harbor(port = 9999)
# Set up interactive controls for bass boost
f = interactive.float("f", description="Frequency", min=0., max=1000., unit="Hz", 200.)
g = interactive.float("g", description="Gain", min=0., max=20., unit="dB", 8.)
f = interactive.float("f", description="Frequency", min=0., max=1000.,unit="Hz", 200.)
g = interactive.float("g", description="Gain", min=0., max=20.,unit="dB", 8.)
b = bass_boost(frequency=f, gain=g, s)
s = add([s, b])
# Set up interactive control for main volume
a = interactive.float("main_volume", min=0., max=20., 1.)
s = compress.multiband.interactive(bands=3, s)
# Apply audio processing effects
s = nrj(normalize(s))
s = nrj(normalize (s))
s = crossfade(fade_out=3., fade_in=3., duration=5., s)
s = amplify(a, s)
s = amplify(a,s)
# Skip blank sections in the stream
s = blank.skip(max_blank=2., s)
# Configure logging settings
emergency = single("/home/pi/RetroPie/mp3/Youtube/Dr. Peacock - Trip to Ireland [GvrvQTUbUcA].mp3")
radio = fallback(id="switcher",track_sensitive = false, [s, emergency])
handle_metadata = fun (m) -> begin
print(m["title"])
print(m["artist"])
print(m["filename"])
end
radio.on_metadata(handle_metadata)
interactive.persistent("script.params")
log_to_stdout = true
log_to_file = true
logpath = "/home/pi/Conjurer/radio_log.log"
loglevel = 4
set("log.stdout", log_to_stdout)
set("log.level", loglevel)
loglevel = 3
# Enable logging to file
set("log.file", log_to_file)
set("log.file.path", logpath)
# Enable logging on Standard Output and set logging level.
set("log.stdout",log_to_stdout)
set("log.level",loglevel)
# Set up emergency fallback track
emergency = single("/home/pi/RetroPie/mp3/Youtube/Dr. Peacock - Trip to Ireland [GvrvQTUbUcA].mp3")
# Enable logging to file. See variable: logpath
set("log.file",log_to_file)
set("log.file.path",logpath)
# Create a fallback stream with the main stream and emergency track
radio = fallback(id="switcher", track_sensitive=false, [s, emergency])
# Handle metadata events
handle_metadata = fun (m) -> begin
log.info(m["title"])
log.info(m["artist"])
log.info(m["filename"])
end
radio.on_metadata(handle_metadata)
# Enable persistent script parameters
interactive.persistent("script.params")
# Configure output formats and destinations
output.file.hls("/tmp/hls", [("mp3-low", %mp3(bitrate=96)), ("mp3-hi", %mp3(bitrate=160))], radio)
output.icecast(%mp3, host="retropie", port=8000, password=credentials.password, icy_metadata="true", mount="mp3-stream", radio)
output.file.hls("/tmp/hls",[("mp3-low", %mp3(bitrate=96)), ("mp3-hi", %mp3(bitrate=160))],radio)
output.icecast(%mp3, host="retropie", port=8000,password=credentials.password, icy_metadata="true", mount="mp3-stream", radio)
+1
View File
File diff suppressed because one or more lines are too long
+1 -6
View File
@@ -8,14 +8,9 @@ cp /home/pi/conjurer/conjurer_musician/requirements_musician.txt /home/pi/Conjur
cp /home/pi/conjurer/conjurer_musician/conjurer_musician.py /home/pi/Conjurer/
cp /home/pi/conjurer/conjurer_musician/radio_conjurer.liq /home/pi/Conjurer/
touch /home/pi/Conjurer/discord_mus_service.log
touch /home/pi/Conjurer/all_playlist.txt
touch /home/pi/Conjurer/playlist.json
touch /home/pi/Conjurer/prio_playlist.json
touch /home/pi/Conjurer/all_playlist.playlist
touch /home/pi/Conjurer/priority_queue.playlist
touch /home/pi/Conjurer/hit.playlist
touch /home/pi/Conjurer/radio_log.log
./env/bin/python3 -m pip install --upgrade pip
./env/bin/python3 -m pip install -r requirements_musician.txt
+161654
View File
File diff suppressed because one or more lines are too long
+1
View File
@@ -0,0 +1 @@
{"12345678-1234-5678-1234-567812345678": [{"DOI": "10.1057/9781137435026", "title": ["Queer BDSM Intimacies"], "type": "book", "container": "NO"}]}