from math import ceil from django.conf import settings from numpy import array_split from core.lib.opensearch import client, run_main_query def construct_query(net, nicks): # Construct the query query_nicks = [{"match": {"nick": x}} for x in nicks] query_users = [{"match": {"user": x}} for x in nicks] query_should = query_nicks + query_users # print("QUERY SHOULD", query_should) # Get the initial query query = { "size": settings.NICKTRACE_QUERY_SIZE, "query": { "bool": { "must": [ {"match": {"net": net}}, {"match": {"type": "nick"}}, { "bool": { "should": query_should, } }, ] } }, } return query def get_nicks(request, net, nicks, iter=True): """ Get all related nicknames of the given nickname by tracking nickname changes. """ # Split query into chunks split_nicks = array_split( nicks, ceil(len(nicks) / settings.NICKTRACE_MAX_CHUNK_SIZE) ) nicks = [] for nicks_chunked in split_nicks: if len(nicks_chunked) == 0: break query = construct_query(net, nicks_chunked) results = run_main_query(client, request.user, query, custom_query=True) if "hits" in results.keys(): if "hits" in results["hits"]: for item in results["hits"]["hits"]: element = item["_source"] element["id"] = item["_id"] # Split the timestamp into date and time ts = element["ts"] ts_spl = ts.split("T") date = ts_spl[0] time = ts_spl[1] element["date"] = date element["time"] = time if element["nick"] not in nicks: nicks.append(element["nick"]) if element["user"] not in nicks: nicks.append(element["user"]) # Run the search again, passing in all the users we found # Nicknames we find from the repeated search nicks_searched = [] if iter: nicks_l2 = [] loop = 0 while loop < settings.NICKTRACE_MAX_ITERATIONS: loop += 1 nicks_not_searched = [x for x in nicks if x not in nicks_searched] nicks_l2 = get_nicks(request, net, nicks, False) # Add all the nicks we just searched for to the list for x in nicks_not_searched: if x not in nicks_not_searched: nicks_searched.append(x) # If all of the nicks we received now, we already know about if set(nicks_l2).issubset(set(nicks)): break for x in nicks_l2: if x not in nicks: nicks.append(x) return nicks