import os from datetime import datetime from datetime import timezone from functools import wraps from typing import Any from typing import Dict from typing import Union import flask import werkzeug from bson.objectid import ObjectId from flask import current_app as app from flask import redirect from flask import request from flask import session from flask import url_for from flask_wtf.csrf import CSRFProtect from little_boxes import activitypub as ap from little_boxes.activitypub import format_datetime from poussetaches import PousseTaches from core.meta import Box from core.activitypub import _answer_key from config import DB from config import ME from core import activitypub from core.tasks import Tasks _Response = Union[flask.Response, werkzeug.wrappers.Response, str] p = PousseTaches( os.getenv("MICROBLOGPUB_POUSSETACHES_HOST", "http://localhost:7991"), os.getenv("MICROBLOGPUB_INTERNAL_HOST", "http://localhost:5000"), ) csrf = CSRFProtect() back = activitypub.MicroblogPubBackend() ap.use_backend(back) MY_PERSON = ap.Person(**ME) def add_response_headers(headers={}): """This decorator adds the headers passed in to the response""" def decorator(f): @wraps(f) def decorated_function(*args, **kwargs): resp = flask.make_response(f(*args, **kwargs)) h = resp.headers for header, value in headers.items(): h[header] = value return resp return decorated_function return decorator def noindex(f): """This decorator passes X-Robots-Tag: noindex, nofollow""" return add_response_headers({"X-Robots-Tag": "noindex, nofollow"})(f) def login_required(f): @wraps(f) def decorated_function(*args, **kwargs): if not session.get("logged_in"): return redirect(url_for("admin_login", next=request.url)) return f(*args, **kwargs) return decorated_function def _get_ip(): """Guess the IP address from the request. Only used for security purpose (failed logins or bad payload). Geoip will be returned if the "broxy" headers are set (it does Geoip using an offline database and append these special headers). """ ip = request.headers.get("X-Forwarded-For", request.remote_addr) geoip = None if request.headers.get("Broxy-Geoip-Country"): geoip = ( request.headers.get("Broxy-Geoip-Country") + "/" + request.headers.get("Broxy-Geoip-Region") ) return ip, geoip def post_to_outbox(activity: ap.BaseActivity) -> str: if activity.has_type(ap.CREATE_TYPES): activity = activity.build_create() # Assign create a random ID obj_id = back.random_object_id() activity.set_id(back.activity_url(obj_id), obj_id) back.save(Box.OUTBOX, activity) Tasks.cache_actor(activity.id) Tasks.finish_post_to_outbox(activity.id) return activity.id def _build_thread(data, include_children=True): # noqa: C901 data["_requested"] = True app.logger.info(f"_build_thread({data!r})") root_id = data["meta"].get("thread_root_parent", data["activity"]["object"]["id"]) query = { "$or": [{"meta.thread_root_parent": root_id}, {"activity.object.id": root_id}], "meta.deleted": False, } replies = [data] for dat in DB.activities.find(query): print(dat["type"]) if dat["type"][0] == ap.ActivityType.CREATE.value: replies.append(dat) if dat["type"][0] == ap.ActivityType.UPDATE.value: continue else: # Make a Note/Question/... looks like a Create dat = { "activity": {"object": dat["activity"]}, "meta": dat["meta"], "_id": dat["_id"], } replies.append(dat) replies = sorted(replies, key=lambda d: d["activity"]["object"]["published"]) # Index all the IDs in order to build a tree idx = {} replies2 = [] for rep in replies: rep_id = rep["activity"]["object"]["id"] if rep_id in idx: continue idx[rep_id] = rep.copy() idx[rep_id]["_nodes"] = [] replies2.append(rep) # Build the tree for rep in replies2: rep_id = rep["activity"]["object"]["id"] if rep_id == root_id: continue reply_of = ap._get_id(rep["activity"]["object"].get("inReplyTo")) try: idx[reply_of]["_nodes"].append(rep) except KeyError: app.logger.info(f"{reply_of} is not there! skipping {rep}") # Flatten the tree thread = [] def _flatten(node, level=0): node["_level"] = level thread.append(node) for snode in sorted( idx[node["activity"]["object"]["id"]]["_nodes"], key=lambda d: d["activity"]["object"]["published"], ): _flatten(snode, level=level + 1) try: _flatten(idx[root_id]) except KeyError: app.logger.info(f"{root_id} is not there! skipping") return thread def paginated_query(db, q, limit=25, sort_key="_id"): older_than = newer_than = None query_sort = -1 first_page = not request.args.get("older_than") and not request.args.get( "newer_than" ) query_older_than = request.args.get("older_than") query_newer_than = request.args.get("newer_than") if query_older_than: q["_id"] = {"$lt": ObjectId(query_older_than)} elif query_newer_than: q["_id"] = {"$gt": ObjectId(query_newer_than)} query_sort = 1 outbox_data = list(db.find(q, limit=limit + 1).sort(sort_key, query_sort)) outbox_len = len(outbox_data) outbox_data = sorted( outbox_data[:limit], key=lambda x: str(x[sort_key]), reverse=True ) if query_older_than: newer_than = str(outbox_data[0]["_id"]) if outbox_len == limit + 1: older_than = str(outbox_data[-1]["_id"]) elif query_newer_than: older_than = str(outbox_data[-1]["_id"]) if outbox_len == limit + 1: newer_than = str(outbox_data[0]["_id"]) elif first_page and outbox_len == limit + 1: older_than = str(outbox_data[-1]["_id"]) return outbox_data, older_than, newer_than def _add_answers_to_question(raw_doc: Dict[str, Any]) -> None: activity = raw_doc["activity"] if ( ap._has_type(activity["type"], ap.ActivityType.CREATE) and "object" in activity and ap._has_type(activity["object"]["type"], ap.ActivityType.QUESTION) ): for choice in activity["object"].get("oneOf", activity["object"].get("anyOf")): choice["replies"] = { "type": ap.ActivityType.COLLECTION.value, "totalItems": raw_doc["meta"] .get("question_answers", {}) .get(_answer_key(choice["name"]), 0), } now = datetime.now(timezone.utc) if format_datetime(now) >= activity["object"]["endTime"]: activity["object"]["closed"] = activity["object"]["endTime"]