import logging from typing import List import schemas from chalicelib.core import events, metadata, projects, performance_event, sessions_favorite from chalicelib.utils import pg_client, helper, metrics_helper from chalicelib.utils import sql_helper as sh logger = logging.getLogger(__name__) SESSION_PROJECTION_BASE_COLS = """s.project_id, s.session_id::text AS session_id, s.user_uuid, s.user_id, s.user_os, s.user_browser, s.user_device, s.user_device_type, s.user_country, s.user_city, s.user_state, s.start_ts, s.duration, s.events_count, s.pages_count, s.errors_count, s.user_anonymous_id, s.platform, s.issue_score, s.timezone, to_jsonb(s.issue_types) AS issue_types """ SESSION_PROJECTION_COLS = SESSION_PROJECTION_BASE_COLS + """, favorite_sessions.session_id NOTNULL AS favorite, COALESCE((SELECT TRUE FROM public.user_viewed_sessions AS fs WHERE s.session_id = fs.session_id AND fs.user_id = %(userId)s LIMIT 1), FALSE) AS viewed """ # This function executes the query and return result def search_sessions(data: schemas.SessionsSearchPayloadSchema, project_id, user_id, errors_only=False, error_status=schemas.ErrorStatus.all, count_only=False, issue=None, ids_only=False, platform="web"): if data.bookmarked: data.startTimestamp, data.endTimestamp = sessions_favorite.get_start_end_timestamp(project_id, user_id) full_args, query_part = search_query_parts(data=data, error_status=error_status, errors_only=errors_only, favorite_only=data.bookmarked, issue=issue, project_id=project_id, user_id=user_id, platform=platform) if data.limit is not None and data.page is not None: full_args["sessions_limit"] = data.limit full_args["sessions_limit_s"] = (data.page - 1) * data.limit full_args["sessions_limit_e"] = data.page * data.limit else: full_args["sessions_limit"] = 200 full_args["sessions_limit_s"] = 0 full_args["sessions_limit_e"] = 200 meta_keys = [] with pg_client.PostgresClient() as cur: if errors_only: main_query = cur.mogrify(f"""SELECT DISTINCT er.error_id, COALESCE((SELECT TRUE FROM public.user_viewed_errors AS ve WHERE er.error_id = ve.error_id AND ve.user_id = %(userId)s LIMIT 1), FALSE) AS viewed {query_part};""", full_args) elif count_only: main_query = cur.mogrify(f"""SELECT COUNT(DISTINCT s.session_id) AS count_sessions, COUNT(DISTINCT s.user_uuid) AS count_users {query_part};""", full_args) elif data.group_by_user: g_sort = "count(full_sessions)" if data.order is None: data.order = schemas.SortOrderType.desc.value else: data.order = data.order if data.sort is not None and data.sort != 'sessionsCount': sort = helper.key_to_snake_case(data.sort) g_sort = f"{'MIN' if data.order == schemas.SortOrderType.desc else 'MAX'}({sort})" else: sort = 'start_ts' meta_keys = metadata.get(project_id=project_id) main_query = cur.mogrify(f"""SELECT COUNT(*) AS count, COALESCE(JSONB_AGG(users_sessions) FILTER (WHERE rn>%(sessions_limit_s)s AND rn<=%(sessions_limit_e)s), '[]'::JSONB) AS sessions FROM (SELECT user_id, count(full_sessions) AS user_sessions_count, jsonb_agg(full_sessions) FILTER (WHERE rn <= 1) AS last_session, MIN(full_sessions.start_ts) AS first_session_ts, ROW_NUMBER() OVER (ORDER BY {g_sort} {data.order}) AS rn FROM (SELECT *, ROW_NUMBER() OVER (PARTITION BY user_id ORDER BY {sort} {data.order}) AS rn FROM (SELECT DISTINCT ON(s.session_id) {SESSION_PROJECTION_COLS} {"," if len(meta_keys) > 0 else ""}{",".join([f'metadata_{m["index"]}' for m in meta_keys])} {query_part} ) AS filtred_sessions ) AS full_sessions GROUP BY user_id ) AS users_sessions;""", full_args) elif ids_only: main_query = cur.mogrify(f"""SELECT DISTINCT ON(s.session_id) s.session_id {query_part} ORDER BY s.session_id desc LIMIT %(sessions_limit)s OFFSET %(sessions_limit_s)s;""", full_args) else: if data.order is None: data.order = schemas.SortOrderType.desc.value else: data.order = data.order sort = 'session_id' if data.sort is not None and data.sort != "session_id": # sort += " " + data.order + "," + helper.key_to_snake_case(data.sort) sort = helper.key_to_snake_case(data.sort) meta_keys = metadata.get(project_id=project_id) main_query = cur.mogrify(f"""SELECT COUNT(full_sessions) AS count, COALESCE(JSONB_AGG(full_sessions) FILTER (WHERE rn>%(sessions_limit_s)s AND rn<=%(sessions_limit_e)s), '[]'::JSONB) AS sessions FROM (SELECT *, ROW_NUMBER() OVER (ORDER BY {sort} {data.order}, issue_score DESC) AS rn FROM (SELECT DISTINCT ON(s.session_id) {SESSION_PROJECTION_COLS} {"," if len(meta_keys) > 0 else ""}{",".join([f'metadata_{m["index"]}' for m in meta_keys])} {query_part} ORDER BY s.session_id desc) AS filtred_sessions ORDER BY {sort} {data.order}, issue_score DESC) AS full_sessions;""", full_args) logging.debug("--------------------") logging.debug(main_query) logging.debug("--------------------") try: cur.execute(main_query) sessions = cur.fetchone() except Exception as err: logging.warning("--------- SESSIONS SEARCH QUERY EXCEPTION -----------") logging.warning(main_query.decode('UTF-8')) logging.warning("--------- PAYLOAD -----------") logging.warning(data.model_dump_json()) logging.warning("--------------------") raise err if errors_only or ids_only: return helper.list_to_camel_case(cur.fetchall()) if count_only: return helper.dict_to_camel_case(sessions) total = sessions["count"] sessions = sessions["sessions"] if data.group_by_user: for i, s in enumerate(sessions): sessions[i] = {**s.pop("last_session")[0], **s} sessions[i].pop("rn") sessions[i]["metadata"] = {k["key"]: sessions[i][f'metadata_{k["index"]}'] for k in meta_keys \ if sessions[i][f'metadata_{k["index"]}'] is not None} else: for i, s in enumerate(sessions): sessions[i]["metadata"] = {k["key"]: sessions[i][f'metadata_{k["index"]}'] for k in meta_keys \ if sessions[i][f'metadata_{k["index"]}'] is not None} # if not data.group_by_user and data.sort is not None and data.sort != "session_id": # sessions = sorted(sessions, key=lambda s: s[helper.key_to_snake_case(data.sort)], # reverse=data.order.upper() == "DESC") return { 'total': total, 'sessions': helper.list_to_camel_case(sessions) } # TODO: remove "table of" search from this function def search2_series(data: schemas.SessionsSearchPayloadSchema, project_id: int, density: int, view_type: schemas.MetricTimeseriesViewType, metric_type: schemas.MetricType, metric_of: schemas.MetricOfTable, metric_value: List): step_size = int(metrics_helper.__get_step_size(endTimestamp=data.endTimestamp, startTimestamp=data.startTimestamp, density=density, factor=1, decimal=True)) extra_event = None if metric_of == schemas.MetricOfTable.visited_url: extra_event = "events.pages" elif metric_of == schemas.MetricOfTable.issues and len(metric_value) > 0: data.filters.append(schemas.SessionSearchFilterSchema(value=metric_value, type=schemas.FilterType.issue, operator=schemas.SearchEventOperator._is)) full_args, query_part = search_query_parts(data=data, error_status=None, errors_only=False, favorite_only=False, issue=None, project_id=project_id, user_id=None, extra_event=extra_event) full_args["step_size"] = step_size sessions = [] with pg_client.PostgresClient() as cur: if metric_type == schemas.MetricType.timeseries: if view_type == schemas.MetricTimeseriesViewType.line_chart: main_query = cur.mogrify(f"""WITH full_sessions AS (SELECT DISTINCT ON(s.session_id) s.session_id, s.start_ts {query_part}) SELECT generated_timestamp AS timestamp, COUNT(s) AS count FROM generate_series(%(startDate)s, %(endDate)s, %(step_size)s) AS generated_timestamp LEFT JOIN LATERAL ( SELECT 1 AS s FROM full_sessions WHERE start_ts >= generated_timestamp AND start_ts <= generated_timestamp + %(step_size)s) AS sessions ON (TRUE) GROUP BY generated_timestamp ORDER BY generated_timestamp;""", full_args) else: main_query = cur.mogrify(f"""SELECT count(DISTINCT s.session_id) AS count {query_part};""", full_args) logging.debug("--------------------") logging.debug(main_query) logging.debug("--------------------") try: cur.execute(main_query) except Exception as err: logging.warning("--------- SESSIONS-SERIES QUERY EXCEPTION -----------") logging.warning(main_query.decode('UTF-8')) logging.warning("--------- PAYLOAD -----------") logging.warning(data.model_dump_json()) logging.warning("--------------------") raise err if view_type == schemas.MetricTimeseriesViewType.line_chart: sessions = cur.fetchall() else: sessions = cur.fetchone()["count"] elif metric_type == schemas.MetricType.table: if isinstance(metric_of, schemas.MetricOfTable): main_col = "user_id" extra_col = "" extra_where = "" pre_query = "" distinct_on = "s.session_id" if metric_of == schemas.MetricOfTable.user_country: main_col = "user_country" elif metric_of == schemas.MetricOfTable.user_device: main_col = "user_device" elif metric_of == schemas.MetricOfTable.user_browser: main_col = "user_browser" elif metric_of == schemas.MetricOfTable.issues: main_col = "issue" extra_col = f", UNNEST(s.issue_types) AS {main_col}" if len(metric_value) > 0: extra_where = [] for i in range(len(metric_value)): arg_name = f"selected_issue_{i}" extra_where.append(f"{main_col} = %({arg_name})s") full_args[arg_name] = metric_value[i] extra_where = f"WHERE ({' OR '.join(extra_where)})" elif metric_of == schemas.MetricOfTable.visited_url: main_col = "path" extra_col = ", path" distinct_on += ",path" main_query = cur.mogrify(f"""{pre_query} SELECT COUNT(*) AS count, SUM(users_sessions.session_count) AS total_sessions, COALESCE(JSONB_AGG(users_sessions) FILTER ( WHERE rn <= 200 ), '[]'::JSONB) AS values FROM (SELECT {main_col} AS name, count(DISTINCT session_id) AS session_count, ROW_NUMBER() OVER (ORDER BY count(full_sessions) DESC) AS rn FROM (SELECT * FROM (SELECT DISTINCT ON({distinct_on}) s.session_id, s.user_uuid, s.user_id, s.user_os, s.user_browser, s.user_device, s.user_device_type, s.user_country, s.issue_types{extra_col} {query_part} ORDER BY s.session_id desc) AS filtred_sessions ) AS full_sessions {extra_where} GROUP BY {main_col} ORDER BY session_count DESC) AS users_sessions;""", full_args) logging.debug("--------------------") logging.debug(main_query) logging.debug("--------------------") cur.execute(main_query) sessions = helper.dict_to_camel_case(cur.fetchone()) for s in sessions["values"]: s.pop("rn") return sessions def search2_table(data: schemas.SessionsSearchPayloadSchema, project_id: int, density: int, metric_of: schemas.MetricOfTable, metric_value: List): step_size = int(metrics_helper.__get_step_size(endTimestamp=data.endTimestamp, startTimestamp=data.startTimestamp, density=density, factor=1, decimal=True)) extra_event = None if metric_of == schemas.MetricOfTable.visited_url: extra_event = "events.pages" elif metric_of == schemas.MetricOfTable.issues and len(metric_value) > 0: data.filters.append(schemas.SessionSearchFilterSchema(value=metric_value, type=schemas.FilterType.issue, operator=schemas.SearchEventOperator._is)) full_args, query_part = search_query_parts(data=data, error_status=None, errors_only=False, favorite_only=False, issue=None, project_id=project_id, user_id=None, extra_event=extra_event) full_args["step_size"] = step_size with pg_client.PostgresClient() as cur: if isinstance(metric_of, schemas.MetricOfTable): main_col = "user_id" extra_col = "" extra_where = "" pre_query = "" distinct_on = "s.session_id" if metric_of == schemas.MetricOfTable.user_country: main_col = "user_country" elif metric_of == schemas.MetricOfTable.user_device: main_col = "user_device" elif metric_of == schemas.MetricOfTable.user_browser: main_col = "user_browser" elif metric_of == schemas.MetricOfTable.issues: main_col = "issue" extra_col = f", UNNEST(s.issue_types) AS {main_col}" if len(metric_value) > 0: extra_where = [] for i in range(len(metric_value)): arg_name = f"selected_issue_{i}" extra_where.append(f"{main_col} = %({arg_name})s") full_args[arg_name] = metric_value[i] extra_where = f"WHERE ({' OR '.join(extra_where)})" elif metric_of == schemas.MetricOfTable.visited_url: main_col = "path" extra_col = ", path" distinct_on += ",path" main_query = cur.mogrify(f"""{pre_query} SELECT COUNT(*) AS count, COALESCE(SUM(users_sessions.session_count),0) AS total_sessions, COALESCE(JSONB_AGG(users_sessions) FILTER ( WHERE rn <= 200 ), '[]'::JSONB) AS values FROM (SELECT {main_col} AS name, count(DISTINCT session_id) AS session_count, ROW_NUMBER() OVER (ORDER BY count(full_sessions) DESC) AS rn FROM (SELECT * FROM (SELECT DISTINCT ON({distinct_on}) s.session_id, s.user_uuid, s.user_id, s.user_os, s.user_browser, s.user_device, s.user_device_type, s.user_country, s.issue_types{extra_col} {query_part} ORDER BY s.session_id desc) AS filtred_sessions ) AS full_sessions {extra_where} GROUP BY {main_col} ORDER BY session_count DESC) AS users_sessions;""", full_args) logging.debug("--------------------") logging.debug(main_query) logging.debug("--------------------") cur.execute(main_query) sessions = helper.dict_to_camel_case(cur.fetchone()) for s in sessions["values"]: s.pop("rn") return sessions def search_table_of_individual_issues(data: schemas.SessionsSearchPayloadSchema, project_id: int): full_args, query_part = search_query_parts(data=data, error_status=None, errors_only=False, favorite_only=False, issue=None, project_id=project_id, user_id=None) with pg_client.PostgresClient() as cur: full_args["issues_limit"] = data.limit full_args["issues_limit_s"] = (data.page - 1) * data.limit full_args["issues_limit_e"] = data.page * data.limit main_query = cur.mogrify(f"""SELECT COUNT(1) AS count, COALESCE(SUM(session_count), 0) AS total_sessions, COALESCE(JSONB_AGG(ranked_issues) FILTER ( WHERE rn > %(issues_limit_s)s AND rn <= %(issues_limit_e)s ), '[]'::JSONB) AS values FROM (SELECT *, ROW_NUMBER() OVER (ORDER BY session_count DESC) AS rn FROM (SELECT type AS name, context_string AS value, COUNT(DISTINCT session_id) AS session_count FROM (SELECT session_id {query_part}) AS filtered_sessions INNER JOIN events_common.issues USING (session_id) INNER JOIN public.issues USING (issue_id) WHERE project_id = %(project_id)s AND timestamp >= %(startDate)s AND timestamp <= %(endDate)s GROUP BY type, context_string ORDER BY session_count DESC) AS filtered_issues ) AS ranked_issues;""", full_args) logging.debug("--------------------") logging.debug(main_query) logging.debug("--------------------") cur.execute(main_query) sessions = helper.dict_to_camel_case(cur.fetchone()) for s in sessions["values"]: s.pop("rn") return sessions def __is_valid_event(is_any: bool, event: schemas.SessionSearchEventSchema2): return not (not is_any and len(event.value) == 0 and event.type not in [schemas.EventType.request_details, schemas.EventType.graphql] \ or event.type in [schemas.PerformanceEventType.location_dom_complete, schemas.PerformanceEventType.location_largest_contentful_paint_time, schemas.PerformanceEventType.location_ttfb, schemas.PerformanceEventType.location_avg_cpu_load, schemas.PerformanceEventType.location_avg_memory_usage ] and (event.source is None or len(event.source) == 0) \ or event.type in [schemas.EventType.request_details, schemas.EventType.graphql] and ( event.filters is None or len(event.filters) == 0)) # this function generates the query and return the generated-query with the dict of query arguments def search_query_parts(data: schemas.SessionsSearchPayloadSchema, error_status, errors_only, favorite_only, issue, project_id, user_id, platform="web", extra_event=None): ss_constraints = [] full_args = {"project_id": project_id, "startDate": data.startTimestamp, "endDate": data.endTimestamp, "projectId": project_id, "userId": user_id} extra_constraints = [ "s.project_id = %(project_id)s", "s.duration IS NOT NULL" ] extra_from = "" events_query_part = "" issues = [] if len(data.filters) > 0: meta_keys = None for i, f in enumerate(data.filters): if not isinstance(f.value, list): f.value = [f.value] filter_type = f.type f.value = helper.values_for_operator(value=f.value, op=f.operator) f_k = f"f_value{i}" full_args = {**full_args, **sh.multi_values(f.value, value_key=f_k)} op = sh.get_sql_operator(f.operator) \ if filter_type not in [schemas.FilterType.events_count] else f.operator is_any = sh.isAny_opreator(f.operator) is_undefined = sh.isUndefined_operator(f.operator) if not is_any and not is_undefined and len(f.value) == 0: continue is_not = False if sh.is_negation_operator(f.operator): is_not = True if filter_type == schemas.FilterType.user_browser: if is_any: extra_constraints.append('s.user_browser IS NOT NULL') ss_constraints.append('ms.user_browser IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f's.user_browser {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.user_browser {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.user_os, schemas.FilterType.user_os_ios]: if is_any: extra_constraints.append('s.user_os IS NOT NULL') ss_constraints.append('ms.user_os IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f's.user_os {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.user_os {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.user_device, schemas.FilterType.user_device_ios]: if is_any: extra_constraints.append('s.user_device IS NOT NULL') ss_constraints.append('ms.user_device IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f's.user_device {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.user_device {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.user_country, schemas.FilterType.user_country_ios]: if is_any: extra_constraints.append('s.user_country IS NOT NULL') ss_constraints.append('ms.user_country IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f's.user_country {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.user_country {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) elif filter_type == schemas.FilterType.user_city: if is_any: extra_constraints.append('s.user_city IS NOT NULL') ss_constraints.append('ms.user_city IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f's.user_city {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.user_city {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) elif filter_type == schemas.FilterType.user_state: if is_any: extra_constraints.append('s.user_state IS NOT NULL') ss_constraints.append('ms.user_state IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f's.user_state {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.user_state {op} %({f_k})s', f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.utm_source]: if is_any: extra_constraints.append('s.utm_source IS NOT NULL') ss_constraints.append('ms.utm_source IS NOT NULL') elif is_undefined: extra_constraints.append('s.utm_source IS NULL') ss_constraints.append('ms.utm_source IS NULL') else: extra_constraints.append( sh.multi_conditions(f's.utm_source {op} %({f_k})s::text', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.utm_source {op} %({f_k})s::text', f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.utm_medium]: if is_any: extra_constraints.append('s.utm_medium IS NOT NULL') ss_constraints.append('ms.utm_medium IS NOT NULL') elif is_undefined: extra_constraints.append('s.utm_medium IS NULL') ss_constraints.append('ms.utm_medium IS NULL') else: extra_constraints.append( sh.multi_conditions(f's.utm_medium {op} %({f_k})s::text', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.utm_medium {op} %({f_k})s::text', f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.utm_campaign]: if is_any: extra_constraints.append('s.utm_campaign IS NOT NULL') ss_constraints.append('ms.utm_campaign IS NOT NULL') elif is_undefined: extra_constraints.append('s.utm_campaign IS NULL') ss_constraints.append('ms.utm_campaign IS NULL') else: extra_constraints.append( sh.multi_conditions(f's.utm_campaign {op} %({f_k})s::text', f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f'ms.utm_campaign {op} %({f_k})s::text', f.value, is_not=is_not, value_key=f_k)) elif filter_type == schemas.FilterType.duration: if len(f.value) > 0 and f.value[0] is not None: extra_constraints.append("s.duration >= %(minDuration)s") ss_constraints.append("ms.duration >= %(minDuration)s") full_args["minDuration"] = f.value[0] if len(f.value) > 1 and f.value[1] is not None and int(f.value[1]) > 0: extra_constraints.append("s.duration <= %(maxDuration)s") ss_constraints.append("ms.duration <= %(maxDuration)s") full_args["maxDuration"] = f.value[1] elif filter_type == schemas.FilterType.referrer: # extra_from += f"INNER JOIN {events.event_type.LOCATION.table} AS p USING(session_id)" if is_any: extra_constraints.append('s.base_referrer IS NOT NULL') else: extra_constraints.append( sh.multi_conditions(f"s.base_referrer {op} %({f_k})s", f.value, is_not=is_not, value_key=f_k)) elif filter_type == events.EventType.METADATA.ui_type: # get metadata list only if you need it if meta_keys is None: meta_keys = metadata.get(project_id=project_id) meta_keys = {m["key"]: m["index"] for m in meta_keys} if f.source in meta_keys.keys(): if is_any: extra_constraints.append(f"s.{metadata.index_to_colname(meta_keys[f.source])} IS NOT NULL") ss_constraints.append(f"ms.{metadata.index_to_colname(meta_keys[f.source])} IS NOT NULL") elif is_undefined: extra_constraints.append(f"s.{metadata.index_to_colname(meta_keys[f.source])} IS NULL") ss_constraints.append(f"ms.{metadata.index_to_colname(meta_keys[f.source])} IS NULL") else: extra_constraints.append( sh.multi_conditions( f"s.{metadata.index_to_colname(meta_keys[f.source])} {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions( f"ms.{metadata.index_to_colname(meta_keys[f.source])} {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.user_id, schemas.FilterType.user_id_ios]: if is_any: extra_constraints.append('s.user_id IS NOT NULL') ss_constraints.append('ms.user_id IS NOT NULL') elif is_undefined: extra_constraints.append('s.user_id IS NULL') ss_constraints.append('ms.user_id IS NULL') else: extra_constraints.append( sh.multi_conditions(f"s.user_id {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f"ms.user_id {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.user_anonymous_id, schemas.FilterType.user_anonymous_id_ios]: if is_any: extra_constraints.append('s.user_anonymous_id IS NOT NULL') ss_constraints.append('ms.user_anonymous_id IS NOT NULL') elif is_undefined: extra_constraints.append('s.user_anonymous_id IS NULL') ss_constraints.append('ms.user_anonymous_id IS NULL') else: extra_constraints.append( sh.multi_conditions(f"s.user_anonymous_id {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f"ms.user_anonymous_id {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) elif filter_type in [schemas.FilterType.rev_id, schemas.FilterType.rev_id_ios]: if is_any: extra_constraints.append('s.rev_id IS NOT NULL') ss_constraints.append('ms.rev_id IS NOT NULL') elif is_undefined: extra_constraints.append('s.rev_id IS NULL') ss_constraints.append('ms.rev_id IS NULL') else: extra_constraints.append( sh.multi_conditions(f"s.rev_id {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f"ms.rev_id {op} %({f_k})s::text", f.value, is_not=is_not, value_key=f_k)) elif filter_type == schemas.FilterType.platform: # op = __ sh.get_sql_operator(f.operator) extra_constraints.append( sh.multi_conditions(f"s.user_device_type {op} %({f_k})s", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f"ms.user_device_type {op} %({f_k})s", f.value, is_not=is_not, value_key=f_k)) elif filter_type == schemas.FilterType.issue: if is_any: extra_constraints.append("array_length(s.issue_types, 1) > 0") ss_constraints.append("array_length(ms.issue_types, 1) > 0") else: if f.source: issues.append(f) extra_constraints.append( sh.multi_conditions(f"%({f_k})s {op} ANY (s.issue_types)", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f"%({f_k})s {op} ANY (ms.issue_types)", f.value, is_not=is_not, value_key=f_k)) elif filter_type == schemas.FilterType.events_count: extra_constraints.append( sh.multi_conditions(f"s.events_count {op} %({f_k})s", f.value, is_not=is_not, value_key=f_k)) ss_constraints.append( sh.multi_conditions(f"ms.events_count {op} %({f_k})s", f.value, is_not=is_not, value_key=f_k)) # --------------------------------------------------------------------------- if len(data.events) > 0: valid_events_count = 0 for event in data.events: is_any = sh.isAny_opreator(event.operator) if not isinstance(event.value, list): event.value = [event.value] if __is_valid_event(is_any=is_any, event=event): valid_events_count += 1 events_query_from = [] event_index = 0 or_events = data.events_order == schemas.SearchEventOrder._or # events_joiner = " FULL JOIN " if or_events else " INNER JOIN LATERAL " events_joiner = " UNION " if or_events else " INNER JOIN LATERAL " for i, event in enumerate(data.events): event_type = event.type is_any = sh.isAny_opreator(event.operator) if not isinstance(event.value, list): event.value = [event.value] if not __is_valid_event(is_any=is_any, event=event): continue op = sh.get_sql_operator(event.operator) is_not = False if sh.is_negation_operator(event.operator): is_not = True op = sh.reverse_sql_operator(op) if event_index == 0 or or_events: event_from = "%s INNER JOIN public.sessions AS ms USING (session_id)" event_where = ["ms.project_id = %(projectId)s", "main.timestamp >= %(startDate)s", "main.timestamp <= %(endDate)s", "ms.start_ts >= %(startDate)s", "ms.start_ts <= %(endDate)s", "ms.duration IS NOT NULL"] if favorite_only and not errors_only: event_from += "INNER JOIN public.user_favorite_sessions AS fs USING(session_id)" event_where.append("fs.user_id = %(userId)s") else: event_from = "%s" event_where = ["main.timestamp >= %(startDate)s", "main.timestamp <= %(endDate)s", "main.session_id=event_0.session_id"] if data.events_order == schemas.SearchEventOrder._then: event_where.append(f"event_{event_index - 1}.timestamp <= main.timestamp") e_k = f"e_value{i}" s_k = e_k + "_source" event.value = helper.values_for_operator(value=event.value, op=event.operator) full_args = {**full_args, **sh.multi_values(event.value, value_key=e_k), **sh.multi_values(event.source, value_key=s_k)} if event_type == events.EventType.CLICK.ui_type: if platform == "web": event_from = event_from % f"{events.EventType.CLICK.table} AS main " if not is_any: if event.operator == schemas.ClickEventExtraOperator._on_selector: event_where.append( sh.multi_conditions(f"main.selector = %({e_k})s", event.value, value_key=e_k)) else: event_where.append( sh.multi_conditions(f"main.{events.EventType.CLICK.column} {op} %({e_k})s", event.value, value_key=e_k)) else: event_from = event_from % f"{events.EventType.CLICK_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.CLICK_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.INPUT.ui_type: if platform == "web": event_from = event_from % f"{events.EventType.INPUT.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.INPUT.column} {op} %({e_k})s", event.value, value_key=e_k)) if event.source is not None and len(event.source) > 0: event_where.append(sh.multi_conditions(f"main.value ILIKE %(custom{i})s", event.source, value_key=f"custom{i}")) full_args = {**full_args, **sh.multi_values(event.source, value_key=f"custom{i}")} else: event_from = event_from % f"{events.EventType.INPUT_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.INPUT_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.LOCATION.ui_type: if platform == "web": event_from = event_from % f"{events.EventType.LOCATION.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.LOCATION.column} {op} %({e_k})s", event.value, value_key=e_k)) else: event_from = event_from % f"{events.EventType.VIEW_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.VIEW_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.SWIPE_IOS.ui_type and platform == "ios": event_from = event_from % f"{events.EventType.SWIPE_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.SWIPE_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.CUSTOM.ui_type: event_from = event_from % f"{events.EventType.CUSTOM.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.CUSTOM.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.REQUEST.ui_type: event_from = event_from % f"{events.EventType.REQUEST.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.REQUEST.column} {op} %({e_k})s", event.value, value_key=e_k)) # elif event_type == events.event_type.GRAPHQL.ui_type: # event_from = event_from % f"{events.event_type.GRAPHQL.table} AS main " # if not is_any: # event_where.append( # _multiple_conditions(f"main.{events.event_type.GRAPHQL.column} {op} %({e_k})s", event.value, # value_key=e_k)) elif event_type == events.EventType.STATEACTION.ui_type: event_from = event_from % f"{events.EventType.STATEACTION.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.STATEACTION.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.ERROR.ui_type: event_from = event_from % f"{events.EventType.ERROR.table} AS main INNER JOIN public.errors AS main1 USING(error_id)" event.source = list(set(event.source)) if not is_any and event.value not in [None, "*", ""]: event_where.append( sh.multi_conditions(f"(main1.message {op} %({e_k})s OR main1.name {op} %({e_k})s)", event.value, value_key=e_k)) if len(event.source) > 0 and event.source[0] not in [None, "*", ""]: event_where.append(sh.multi_conditions(f"main1.source = %({s_k})s", event.source, value_key=s_k)) # ----- IOS elif event_type == events.EventType.CLICK_IOS.ui_type: event_from = event_from % f"{events.EventType.CLICK_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.CLICK_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.INPUT_IOS.ui_type: event_from = event_from % f"{events.EventType.INPUT_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.INPUT_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) if event.source is not None and len(event.source) > 0: event_where.append(sh.multi_conditions(f"main.value ILIKE %(custom{i})s", event.source, value_key="custom{i}")) full_args = {**full_args, **sh.multi_values(event.source, f"custom{i}")} elif event_type == events.EventType.VIEW_IOS.ui_type: event_from = event_from % f"{events.EventType.VIEW_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.VIEW_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.CUSTOM_IOS.ui_type: event_from = event_from % f"{events.EventType.CUSTOM_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.CUSTOM_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.REQUEST_IOS.ui_type: event_from = event_from % f"{events.EventType.REQUEST_IOS.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.REQUEST_IOS.column} {op} %({e_k})s", event.value, value_key=e_k)) elif event_type == events.EventType.CRASH_IOS.ui_type: event_from = event_from % f"{events.EventType.CRASH_IOS.table} AS main INNER JOIN public.crashes_ios AS main1 USING(crash_id)" if not is_any and event.value not in [None, "*", ""]: event_where.append( sh.multi_conditions(f"(main1.reason {op} %({e_k})s OR main1.name {op} %({e_k})s)", event.value, value_key=e_k)) elif event_type == schemas.PerformanceEventType.fetch_failed: event_from = event_from % f"{events.EventType.REQUEST.table} AS main " if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.REQUEST.column} {op} %({e_k})s", event.value, value_key=e_k)) col = performance_event.get_col(event_type) colname = col["column"] event_where.append(f"main.{colname} = FALSE") # elif event_type == schemas.PerformanceEventType.fetch_duration: # event_from = event_from % f"{events.event_type.REQUEST.table} AS main " # if not is_any: # event_where.append( # _multiple_conditions(f"main.{events.event_type.REQUEST.column} {op} %({e_k})s", # event.value, value_key=e_k)) # col = performance_event.get_col(event_type) # colname = col["column"] # tname = "main" # e_k += "_custom" # full_args = {**full_args, **_ sh.multiple_values(event.source, value_key=e_k)} # event_where.append(f"{tname}.{colname} IS NOT NULL AND {tname}.{colname}>0 AND " + # _multiple_conditions(f"{tname}.{colname} {event.sourceOperator} %({e_k})s", # event.source, value_key=e_k)) elif event_type in [schemas.PerformanceEventType.location_dom_complete, schemas.PerformanceEventType.location_largest_contentful_paint_time, schemas.PerformanceEventType.location_ttfb, schemas.PerformanceEventType.location_avg_cpu_load, schemas.PerformanceEventType.location_avg_memory_usage ]: event_from = event_from % f"{events.EventType.LOCATION.table} AS main " col = performance_event.get_col(event_type) colname = col["column"] tname = "main" if col.get("extraJoin") is not None: tname = "ej" event_from += f" INNER JOIN {col['extraJoin']} AS {tname} USING(session_id)" event_where += [f"{tname}.timestamp >= main.timestamp", f"{tname}.timestamp >= %(startDate)s", f"{tname}.timestamp <= %(endDate)s"] if not is_any: event_where.append( sh.multi_conditions(f"main.{events.EventType.LOCATION.column} {op} %({e_k})s", event.value, value_key=e_k)) e_k += "_custom" full_args = {**full_args, **sh.multi_values(event.source, value_key=e_k)} event_where.append(f"{tname}.{colname} IS NOT NULL AND {tname}.{colname}>0 AND " + sh.multi_conditions(f"{tname}.{colname} {event.sourceOperator.value} %({e_k})s", event.source, value_key=e_k)) elif event_type == schemas.EventType.request_details: event_from = event_from % f"{events.EventType.REQUEST.table} AS main " apply = False for j, f in enumerate(event.filters): is_any = sh.isAny_opreator(f.operator) if is_any or len(f.value) == 0: continue f.value = helper.values_for_operator(value=f.value, op=f.operator) op = sh.get_sql_operator(f.operator) e_k_f = e_k + f"_fetch{j}" full_args = {**full_args, **sh.multi_values(f.value, value_key=e_k_f)} if f.type == schemas.FetchFilterType._url: event_where.append( sh.multi_conditions(f"main.{events.EventType.REQUEST.column} {op} %({e_k_f})s::text", f.value, value_key=e_k_f)) apply = True elif f.type == schemas.FetchFilterType._status_code: event_where.append( sh.multi_conditions(f"main.status_code {f.operator} %({e_k_f})s::integer", f.value, value_key=e_k_f)) apply = True elif f.type == schemas.FetchFilterType._method: event_where.append( sh.multi_conditions(f"main.method {op} %({e_k_f})s", f.value, value_key=e_k_f)) apply = True elif f.type == schemas.FetchFilterType._duration: event_where.append( sh.multi_conditions(f"main.duration {f.operator} %({e_k_f})s::integer", f.value, value_key=e_k_f)) apply = True elif f.type == schemas.FetchFilterType._request_body: event_where.append( sh.multi_conditions(f"main.request_body {op} %({e_k_f})s::text", f.value, value_key=e_k_f)) apply = True elif f.type == schemas.FetchFilterType._response_body: event_where.append( sh.multi_conditions(f"main.response_body {op} %({e_k_f})s::text", f.value, value_key=e_k_f)) apply = True else: logging.warning(f"undefined FETCH filter: {f.type}") if not apply: continue elif event_type == schemas.EventType.graphql: event_from = event_from % f"{events.EventType.GRAPHQL.table} AS main " for j, f in enumerate(event.filters): is_any = sh.isAny_opreator(f.operator) if is_any or len(f.value) == 0: continue f.value = helper.values_for_operator(value=f.value, op=f.operator) op = sh.get_sql_operator(f.operator) e_k_f = e_k + f"_graphql{j}" full_args = {**full_args, **sh.multi_values(f.value, value_key=e_k_f)} if f.type == schemas.GraphqlFilterType._name: event_where.append( sh.multi_conditions(f"main.{events.EventType.GRAPHQL.column} {op} %({e_k_f})s", f.value, value_key=e_k_f)) elif f.type == schemas.GraphqlFilterType._method: event_where.append( sh.multi_conditions(f"main.method {op} %({e_k_f})s", f.value, value_key=e_k_f)) elif f.type == schemas.GraphqlFilterType._request_body: event_where.append( sh.multi_conditions(f"main.request_body {op} %({e_k_f})s", f.value, value_key=e_k_f)) elif f.type == schemas.GraphqlFilterType._response_body: event_where.append( sh.multi_conditions(f"main.response_body {op} %({e_k_f})s", f.value, value_key=e_k_f)) else: logging.warning(f"undefined GRAPHQL filter: {f.type}") else: continue if event_index == 0 or or_events: event_where += ss_constraints if is_not: if event_index == 0 or or_events: events_query_from.append(f"""\ (SELECT session_id, 0 AS timestamp FROM sessions WHERE EXISTS(SELECT session_id FROM {event_from} WHERE {" AND ".join(event_where)} AND sessions.session_id=ms.session_id) IS FALSE AND project_id = %(projectId)s AND start_ts >= %(startDate)s AND start_ts <= %(endDate)s AND duration IS NOT NULL ) {"" if or_events else (f"AS event_{event_index}" + ("ON(TRUE)" if event_index > 0 else ""))}\ """) else: events_query_from.append(f"""\ (SELECT event_0.session_id, event_{event_index - 1}.timestamp AS timestamp WHERE EXISTS(SELECT session_id FROM {event_from} WHERE {" AND ".join(event_where)}) IS FALSE ) AS event_{event_index} {"ON(TRUE)" if event_index > 0 else ""}\ """) else: events_query_from.append(f"""\ (SELECT main.session_id, {"MIN" if event_index < (valid_events_count - 1) else "MAX"}(main.timestamp) AS timestamp FROM {event_from} WHERE {" AND ".join(event_where)} GROUP BY 1 ) {"" if or_events else (f"AS event_{event_index} " + ("ON(TRUE)" if event_index > 0 else ""))}\ """) event_index += 1 if event_index > 0: if or_events: events_query_part = f"""SELECT session_id, MIN(timestamp) AS first_event_ts, MAX(timestamp) AS last_event_ts FROM ({events_joiner.join(events_query_from)}) AS u GROUP BY 1""" else: events_query_part = f"""SELECT event_0.session_id, MIN(event_0.timestamp) AS first_event_ts, MAX(event_{event_index - 1}.timestamp) AS last_event_ts FROM {events_joiner.join(events_query_from)} GROUP BY 1""" else: data.events = [] # --------------------------------------------------------------------------- if data.startTimestamp is not None: extra_constraints.append("s.start_ts >= %(startDate)s") if data.endTimestamp is not None: extra_constraints.append("s.start_ts <= %(endDate)s") # if data.platform is not None: # if data.platform == schemas.PlatformType.mobile: # extra_constraints.append(b"s.user_os in ('Android','BlackBerry OS','iOS','Tizen','Windows Phone')") # elif data.platform == schemas.PlatformType.desktop: # extra_constraints.append( # b"s.user_os in ('Chrome OS','Fedora','Firefox OS','Linux','Mac OS X','Ubuntu','Windows')") if errors_only: extra_from += f" INNER JOIN {events.EventType.ERROR.table} AS er USING (session_id) INNER JOIN public.errors AS ser USING (error_id)" extra_constraints.append("ser.source = 'js_exception'") extra_constraints.append("ser.project_id = %(project_id)s") # if error_status != schemas.ErrorStatus.all: # extra_constraints.append("ser.status = %(error_status)s") # full_args["error_status"] = error_status # if favorite_only: # extra_from += " INNER JOIN public.user_favorite_errors AS ufe USING (error_id)" # extra_constraints.append("ufe.user_id = %(userId)s") if favorite_only and not errors_only and user_id is not None: extra_from += """INNER JOIN (SELECT user_id, session_id FROM public.user_favorite_sessions WHERE user_id = %(userId)s) AS favorite_sessions USING (session_id)""" elif not favorite_only and not errors_only and user_id is not None: extra_from += """LEFT JOIN (SELECT user_id, session_id FROM public.user_favorite_sessions WHERE user_id = %(userId)s) AS favorite_sessions USING (session_id)""" extra_join = "" if issue is not None: extra_join = """ INNER JOIN LATERAL(SELECT TRUE FROM events_common.issues INNER JOIN public.issues AS p_issues USING (issue_id) WHERE issues.session_id=f.session_id AND p_issues.type=%(issue_type)s AND p_issues.context_string=%(issue_contextString)s AND timestamp >= f.first_event_ts AND timestamp <= f.last_event_ts) AS issues ON(TRUE) """ full_args["issue_contextString"] = issue["contextString"] full_args["issue_type"] = issue["type"] elif len(issues) > 0: issues_conditions = [] for i, f in enumerate(issues): f_k_v = f"f_issue_v{i}" f_k_s = f_k_v + "_source" full_args = {**full_args, **sh.multi_values(f.value, value_key=f_k_v), f_k_s: f.source} issues_conditions.append(sh.multi_conditions(f"p_issues.type=%({f_k_v})s", f.value, value_key=f_k_v)) issues_conditions[-1] = f"({issues_conditions[-1]} AND p_issues.context_string=%({f_k_s})s)" if len(events_query_part) > 0: extra_join = f""" INNER JOIN LATERAL(SELECT TRUE FROM events_common.issues INNER JOIN public.issues AS p_issues USING (issue_id) WHERE issues.session_id=f.session_id AND timestamp >= f.first_event_ts AND timestamp <= f.last_event_ts AND {" OR ".join(issues_conditions)} ) AS issues ON(TRUE) """ else: extra_join = f""" INNER JOIN LATERAL(SELECT TRUE FROM events_common.issues INNER JOIN public.issues AS p_issues USING (issue_id) WHERE issues.session_id=s.session_id AND timestamp >= %(startDate)s AND timestamp <= %(endDate)s AND {" OR ".join(issues_conditions)} ) AS issues ON(TRUE) """ # full_args["issue_contextString"] = issue["contextString"] # full_args["issue_type"] = issue["type"] if extra_event: extra_join += f"""INNER JOIN {extra_event} AS ev USING(session_id)""" extra_constraints.append("ev.timestamp>=%(startDate)s") extra_constraints.append("ev.timestamp<=%(endDate)s") query_part = f"""\ FROM {f"({events_query_part}) AS f" if len(events_query_part) > 0 else "public.sessions AS s"} {extra_join} {"INNER JOIN public.sessions AS s USING(session_id)" if len(events_query_part) > 0 else ""} {extra_from} WHERE {" AND ".join(extra_constraints)}""" return full_args, query_part def search_by_metadata(tenant_id, user_id, m_key, m_value, project_id=None): if project_id is None: all_projects = projects.get_projects(tenant_id=tenant_id) else: all_projects = [ projects.get_project(tenant_id=tenant_id, project_id=int(project_id), include_last_session=False, include_gdpr=False)] all_projects = {int(p["projectId"]): p["name"] for p in all_projects} project_ids = list(all_projects.keys()) available_keys = metadata.get_keys_by_projects(project_ids) for i in available_keys: available_keys[i]["user_id"] = schemas.FilterType.user_id available_keys[i]["user_anonymous_id"] = schemas.FilterType.user_anonymous_id results = {} for i in project_ids: if m_key not in available_keys[i].values(): available_keys.pop(i) results[i] = {"total": 0, "sessions": [], "missingMetadata": True} project_ids = list(available_keys.keys()) if len(project_ids) > 0: with pg_client.PostgresClient() as cur: sub_queries = [] for i in project_ids: col_name = list(available_keys[i].keys())[list(available_keys[i].values()).index(m_key)] sub_queries.append(cur.mogrify( f"(SELECT COALESCE(COUNT(s.*)) AS count FROM public.sessions AS s WHERE s.project_id = %(id)s AND s.{col_name} = %(value)s) AS \"{i}\"", {"id": i, "value": m_value}).decode('UTF-8')) query = f"""SELECT {", ".join(sub_queries)};""" cur.execute(query=query) rows = cur.fetchone() sub_queries = [] for i in rows.keys(): results[i] = {"total": rows[i], "sessions": [], "missingMetadata": False, "name": all_projects[int(i)]} if rows[i] > 0: col_name = list(available_keys[int(i)].keys())[list(available_keys[int(i)].values()).index(m_key)] sub_queries.append( cur.mogrify( f"""( SELECT * FROM ( SELECT DISTINCT ON(favorite_sessions.session_id, s.session_id) {SESSION_PROJECTION_COLS} FROM public.sessions AS s LEFT JOIN (SELECT session_id FROM public.user_favorite_sessions WHERE user_favorite_sessions.user_id = %(userId)s ) AS favorite_sessions USING (session_id) WHERE s.project_id = %(id)s AND s.duration IS NOT NULL AND s.{col_name} = %(value)s ) AS full_sessions ORDER BY favorite DESC, issue_score DESC LIMIT 10 )""", {"id": i, "value": m_value, "userId": user_id}).decode('UTF-8')) if len(sub_queries) > 0: cur.execute("\nUNION\n".join(sub_queries)) rows = cur.fetchall() for i in rows: results[str(i["project_id"])]["sessions"].append(helper.dict_to_camel_case(i)) return results def get_user_sessions(project_id, user_id, start_date, end_date): with pg_client.PostgresClient() as cur: constraints = ["s.project_id = %(projectId)s", "s.user_id = %(userId)s"] if start_date is not None: constraints.append("s.start_ts >= %(startDate)s") if end_date is not None: constraints.append("s.start_ts <= %(endDate)s") query_part = f"""\ FROM public.sessions AS s WHERE {" AND ".join(constraints)}""" cur.execute(cur.mogrify(f"""\ SELECT s.project_id, s.session_id::text AS session_id, s.user_uuid, s.user_id, s.user_os, s.user_browser, s.user_device, s.user_country, s.start_ts, s.duration, s.events_count, s.pages_count, s.errors_count {query_part} ORDER BY s.session_id LIMIT 50;""", { "projectId": project_id, "userId": user_id, "startDate": start_date, "endDate": end_date })) sessions = cur.fetchall() return helper.list_to_camel_case(sessions) def get_session_user(project_id, user_id): with pg_client.PostgresClient() as cur: query = cur.mogrify( """\ SELECT user_id, count(*) as session_count, max(start_ts) as last_seen, min(start_ts) as first_seen FROM "public".sessions WHERE project_id = %(project_id)s AND user_id = %(userId)s AND duration is not null GROUP BY user_id; """, {"project_id": project_id, "userId": user_id} ) cur.execute(query=query) data = cur.fetchone() return helper.dict_to_camel_case(data) def count_all(): with pg_client.PostgresClient(unlimited_query=True) as cur: cur.execute(query="SELECT COUNT(session_id) AS count FROM public.sessions") row = cur.fetchone() return row.get("count", 0) if row else 0 def session_exists(project_id, session_id): with pg_client.PostgresClient() as cur: query = cur.mogrify("""SELECT 1 FROM public.sessions WHERE session_id=%(session_id)s AND project_id=%(project_id)s LIMIT 1;""", {"project_id": project_id, "session_id": session_id}) cur.execute(query) row = cur.fetchone() return row is not None def check_recording_status(project_id: int) -> dict: query = f""" WITH project_sessions AS (SELECT COUNT(1) AS full_count, COUNT(1) FILTER ( WHERE duration IS NOT NULL) AS nn_duration_count FROM public.sessions WHERE project_id = %(project_id)s AND start_ts >= (extract(EPOCH FROM now() - INTERVAL '1 day')) * 1000 AND start_ts <= (extract(EPOCH FROM now() + INTERVAL '1 day')) * 1000) SELECT CASE WHEN full_count = 0 THEN 0 WHEN nn_duration_count = 0 THEN 1 ELSE 2 END AS recording_status, full_count AS sessions_count FROM project_sessions; """ with pg_client.PostgresClient() as cur: query = cur.mogrify(query, {"project_id": project_id}) cur.execute(query) row = cur.fetchone() return { "recordingStatus": row["recording_status"], "sessionsCount": row["sessions_count"] } def search_sessions_by_ids(project_id: int, session_ids: list, sort_by: str = 'session_id', ascending: bool = False) -> dict: if session_ids is None or len(session_ids) == 0: return {"total": 0, "sessions": []} with pg_client.PostgresClient() as cur: meta_keys = metadata.get(project_id=project_id) params = {"project_id": project_id, "session_ids": tuple(session_ids)} order_direction = 'ASC' if ascending else 'DESC' main_query = cur.mogrify(f"""SELECT {SESSION_PROJECTION_BASE_COLS} {"," if len(meta_keys) > 0 else ""}{",".join([f'metadata_{m["index"]}' for m in meta_keys])} FROM public.sessions AS s WHERE project_id=%(project_id)s AND session_id IN %(session_ids)s ORDER BY {sort_by} {order_direction};""", params) cur.execute(main_query) rows = cur.fetchall() if len(meta_keys) > 0: for s in rows: s["metadata"] = {} for m in meta_keys: s["metadata"][m["key"]] = s.pop(f'metadata_{m["index"]}') return {"total": len(rows), "sessions": helper.list_to_camel_case(rows)}