zulip/static/js/activity.js

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"use strict";
const _ = require("lodash");
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const keydown_util = require("./keydown_util");
const {ListCursor} = require("./list_cursor");
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const people = require("./people");
const {UserSearch} = require("./user_search");
const user_status = require("./user_status");
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/*
Helpers for detecting user activity and managing user idle states
*/
/* Broadcast "idle" to server after 5 minutes of local inactivity */
const DEFAULT_IDLE_TIMEOUT_MS = 5 * 60 * 1000;
/* Time between keep-alive pings */
const ACTIVE_PING_INTERVAL_MS = 50 * 1000;
/* Keep in sync with views.py:update_active_status_backend() */
exports.ACTIVE = "active";
exports.IDLE = "idle";
// When you open Zulip in a new browser window, client_is_active
// should be true. When a server-initiated reload happens, however,
// it should be initialized to false. We handle this with a check for
// whether the window is focused at initialization time.
exports.client_is_active = document.hasFocus && document.hasFocus();
// new_user_input is a more strict version of client_is_active used
// primarily for analytics. We initialize this to true, to count new
// page loads, but set it to false in the onload function in reload.js
// if this was a server-initiated-reload to avoid counting a
// server-initiated reload as user activity.
exports.new_user_input = true;
exports.set_new_user_input = function (value) {
exports.new_user_input = value;
};
function update_pm_count_in_dom(count_span, value_span, count) {
const li = count_span.parents("li");
if (count === 0) {
count_span.hide();
li.removeClass("user-with-count");
value_span.text("");
return;
}
count_span.show();
li.addClass("user-with-count");
value_span.text(count);
}
function get_pm_list_item(user_id) {
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return buddy_list.find_li({
key: user_id,
});
}
function set_pm_count(user_ids_string, count) {
const count_span = get_pm_list_item(user_ids_string).find(".count");
const value_span = count_span.find(".value");
update_pm_count_in_dom(count_span, value_span, count);
}
exports.update_dom_with_unread_counts = function (counts) {
// counts is just a data object that gets calculated elsewhere
// Our job is to update some DOM elements.
for (const [user_ids_string, count] of counts.pm_count) {
// TODO: just use user_ids_string in our markup
const is_pm = !user_ids_string.includes(",");
if (is_pm) {
set_pm_count(user_ids_string, count);
}
}
};
function mark_client_idle() {
// When we become idle, we don't immediately send anything to the
// server; instead, we wait for our next periodic update, since
// this data is fundamentally not timely.
exports.client_is_active = false;
}
exports.redraw_user = function (user_id) {
if (page_params.realm_presence_disabled) {
return;
}
const filter_text = exports.get_filter_text();
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if (!buddy_data.matches_filter(filter_text, user_id)) {
return;
}
const info = buddy_data.get_item(user_id);
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buddy_list.insert_or_move({
key: user_id,
item: info,
});
};
exports.searching = function () {
return exports.user_filter && exports.user_filter.searching();
};
exports.build_user_sidebar = function () {
if (page_params.realm_presence_disabled) {
return undefined;
}
const filter_text = exports.get_filter_text();
const user_ids = buddy_data.get_filtered_and_sorted_user_ids(filter_text);
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blueslip.measure_time("buddy_list.populate", () => {
buddy_list.populate({keys: user_ids});
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});
return user_ids; // for testing
};
function do_update_users_for_search() {
// Hide all the popovers but not userlist sidebar
// when the user is searching.
popovers.hide_all_except_sidebars();
exports.build_user_sidebar();
exports.user_cursor.reset();
}
const update_users_for_search = _.throttle(do_update_users_for_search, 50);
exports.compute_active_status = function () {
// The overall algorithm intent for the `status` field is to send
// `ACTIVE` (aka green circle) if we know the user is at their
// computer, and IDLE (aka orange circle) if the user might not
// be:
//
// * For the webapp, we just know whether this window has focus.
// * For the electron desktop app, we also know whether the
// user is active or idle elsewhere on their system.
//
// The check for `get_idle_on_system === undefined` is feature
// detection; older desktop app releases never set that property.
if (
window.electron_bridge !== undefined &&
window.electron_bridge.get_idle_on_system !== undefined
) {
if (window.electron_bridge.get_idle_on_system()) {
return exports.IDLE;
}
return exports.ACTIVE;
}
if (exports.client_is_active) {
return exports.ACTIVE;
}
return exports.IDLE;
};
exports.send_presence_to_server = function (want_redraw) {
// Zulip has 2 data feeds coming from the server to the client:
// The server_events data, and this presence feed. Data from
// server_events is nicely serialized, but if we've been offline
// and not running for a while (e.g. due to suspend), we can end
// up with inconsistent state where users appear in presence that
// don't appear in people.js. We handle this in 2 stages. First,
// here, we trigger an extra run of the clock-jump check that
// detects whether this device just resumed from suspend. This
// ensures that server_events.suspect_offline is always up-to-date
// before we initiate a presence request.
//
// If we did just resume, it will also trigger an immediate
// server_events request to the server (the success handler to
// which will clear suspect_offline and potentially trigger a
// reload if the device was offline for more than
// DEFAULT_EVENT_QUEUE_TIMEOUT_SECS).
if (page_params.is_web_public_visitor) {
return;
}
server_events.check_for_unsuspend();
channel.post({
url: "/json/users/me/presence",
data: {
status: exports.compute_active_status(),
ping_only: !want_redraw,
new_user_input: exports.new_user_input,
slim_presence: true,
},
idempotent: true,
success(data) {
// Update Zephyr mirror activity warning
if (data.zephyr_mirror_active === false) {
$("#zephyr-mirror-error").addClass("show");
} else {
$("#zephyr-mirror-error").removeClass("show");
}
exports.new_user_input = false;
if (want_redraw) {
presence.set_info(data.presences, data.server_timestamp);
exports.redraw();
}
},
});
};
function mark_client_active() {
if (!exports.client_is_active) {
exports.client_is_active = true;
exports.send_presence_to_server(false);
}
}
exports.initialize = function () {
$("html").on("mousemove", () => {
exports.new_user_input = true;
});
$(window).on("focus", mark_client_active);
$(window).idle({
idle: DEFAULT_IDLE_TIMEOUT_MS,
onIdle: mark_client_idle,
onActive: mark_client_active,
keepTracking: true,
});
exports.set_cursor_and_filter();
exports.build_user_sidebar();
buddy_list.start_scroll_handler();
// Let the server know we're here, but pass "false" for
// want_redraw, since we just got all this info in page_params.
exports.send_presence_to_server(false);
function get_full_presence_list_update() {
exports.send_presence_to_server(true);
}
setInterval(get_full_presence_list_update, ACTIVE_PING_INTERVAL_MS);
};
exports.update_presence_info = function (user_id, info, server_time) {
presence: Prep for upcoming changes to server data. In the next commit we're going to change what the server sends for the following: - page_params - server responses to /json/users/me/presence We will **not** yet be changing the format of the data that we get in events when users update their presence. It's also just a bit in flux what our final formats will be for various presence payloads, and different optimizations may lead us to use different data structures in different payloads. So for now we decouple these two things: raw_info: this is intended to represent a snapshot of the latest data from the server, including some data like timestamps that are only used in downstream calculations and not user-facing exports.presence_info: this is calculated info for modules like buddy_data that just need to know active vs. idle and last_active_date Another change that happens here is we rename set_info_for_user to update_info_for_event, which just makes it clear that the function expects data in the "event" format (as opposed to the format for page_params or server responses). As of now keeping the intermediate raw_info data around feels slightly awkward, because we just immediately calculate presence_info for any kind of update. This may be sorta surprising if you just skim the code and see the various timeout constants. You would think we might be automatically expiring "active" statuses in the client due to the simple passage of time, but in fact the precise places we do this are all triggered by new data from the server and we re-calculate statuses immediately. (There are indirect ways that clients have timing logic, since they ask the server for new data at various intervals, but a smarter client could simply expire users on its own, or at least with a more efficient transfer of info between it and the server. One of the thing that complicates client-side logic is that server and client clocks may be out of sync. Also, it's not inherently super expensive to get updates from the server.)
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presence.update_info_from_event(user_id, info, server_time);
exports.redraw_user(user_id);
pm_list.update_private_messages();
};
exports.on_set_away = function (user_id) {
user_status.set_away(user_id);
exports.redraw_user(user_id);
pm_list.update_private_messages();
};
exports.on_revoke_away = function (user_id) {
user_status.revoke_away(user_id);
exports.redraw_user(user_id);
pm_list.update_private_messages();
};
exports.redraw = function () {
exports.build_user_sidebar();
exports.user_cursor.redraw();
pm_list.update_private_messages();
};
exports.reset_users = function () {
// Call this when we're leaving the search widget.
exports.build_user_sidebar();
exports.user_cursor.clear();
};
exports.narrow_for_user = function (opts) {
const user_id = buddy_list.get_key_from_li({li: opts.li});
return exports.narrow_for_user_id({user_id});
};
exports.narrow_for_user_id = function (opts) {
const person = people.get_by_user_id(opts.user_id);
const email = person.email;
narrow.by("pm-with", email, {trigger: "sidebar"});
exports.user_filter.clear_and_hide_search();
};
function keydown_enter_key() {
const user_id = exports.user_cursor.get_key();
if (user_id === undefined) {
return;
}
exports.narrow_for_user_id({user_id});
popovers.hide_all();
}
exports.set_cursor_and_filter = function () {
exports.user_cursor = new ListCursor({
list: buddy_list,
highlight_class: "highlighted_user",
});
exports.user_filter = new UserSearch({
update_list: update_users_for_search,
reset_items: exports.reset_users,
on_focus: () => exports.user_cursor.reset(),
});
const $input = exports.user_filter.input_field();
$input.on("blur", () => exports.user_cursor.clear());
keydown_util.handle({
elem: $input,
handlers: {
enter_key() {
keydown_enter_key();
return true;
},
up_arrow() {
exports.user_cursor.prev();
return true;
},
down_arrow() {
exports.user_cursor.next();
return true;
},
},
});
};
exports.initiate_search = function () {
if (exports.user_filter) {
exports.user_filter.initiate_search();
}
};
exports.escape_search = function () {
if (exports.user_filter) {
exports.user_filter.escape_search();
}
};
exports.get_filter_text = function () {
if (!exports.user_filter) {
// This may be overly defensive, but there may be
// situations where get called before everything is
// fully initialized. The empty string is a fine
// default here.
blueslip.warn("get_filter_text() is called before initialization");
return "";
}
return exports.user_filter.text();
};
window.activity = exports;