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gerrit.openbmc.org / openbmc / openbmc-tools / a3db66b3874e5139ad3497681c2bb52859f365ce / . / dbus-vis / dbus_timeline_vis.js
blob: 9c2dd2ada625d2f2c6c99dcc9f51015181a08d8c [file] [log] [blame]
// This file deals with preprocessing the parsed DBus timeline data.
// Data and Timestamps are separate b/c dbus-pcap does not include
// timestamps in JSON output so we need to export both formats
// (JSON and text)
var Data_DBus = [];
var Timestamps_DBus = [];
// Main view object
var dbus_timeline_view = new DBusTimelineView();
var sensors_timeline_view = new DBusTimelineView(); // Same DBusTimelineView type, just that it will have only sensor propertieschanged events
// group-by condition changes
{
const tags = [
'dbus_column1', 'dbus_column2', 'dbus_column3', 'dbus_column4',
'dbus_column5', 'dbus_column6', 'dbus_column7'
];
for (let i = 0; i < 7; i++) {
document.getElementById(tags[i]).addEventListener(
'click', OnGroupByConditionChanged_DBus);
}
}
// Called from renderer.Render()
function draw_timeline_sensors(ctx) {
sensors_timeline_view.Render(ctx);
}
// Called from renderer.Render()
function draw_timeline_dbus(ctx) {
dbus_timeline_view.Render(ctx);
}
let Canvas_DBus = document.getElementById('my_canvas_dbus');
const IDXES = {
'Type': 0,
'Timestamp': 1,
'Serial': 2,
'Sender': 3,
'Destination': 4,
'Path': 5,
'Interface': 6,
'Member': 7
};
// This "group" is based on the content of the DBus
// It is independent of the "group_by" of the meta-data (sender/destination/
// path/interface/member) of a DBus message
//
// Input is processed message and some basic statistics needed for categorizing
//
const DBusMessageContentKey = function(msg, cxn_occ) {
let ret = undefined;
const type = msg[IDXES["Type"]];
const dest = msg[IDXES["Destination"]];
const path = msg[IDXES["Path"]];
const iface = msg[IDXES["Interface"]];
const member = msg[IDXES["Member"]];
const sender = msg[IDXES["Sender"]];
if (sender == "s" || sender == "sss") {
console.log(msg)
}
if (type == "sig") {
if (path.indexOf("/xyz/openbmc_project/sensors/") != -1 &&
iface == "org.freedesktop.DBus.Properties" &&
member == "PropertiesChanged") {
ret = "Sensor PropertiesChanged Signals";
}
} else if (type == "mc") {
if (dest == "xyz.openbmc_project.Ipmi.Host" &&
path == "/xyz/openbmc_project/Ipmi" &&
iface == "xyz.openbmc_project.Ipmi.Server" &&
member == "execute") {
ret = "IPMI Daemon";
}
}
if (ret == undefined && cxn_occ[sender] <= 10) {
ret = "Total 10 messages or less"
}
if (ret == undefined && type == "mc") {
if (path.indexOf("/xyz/openbmc_project/sensors/") == 0 &&
iface == "org.freedesktop.DBus.Properties" &&
(member.startsWith("Get") || member.startsWith("Set"))) {
ret = "Sensor Get/Set";
}
}
if (ret == undefined) {
ret = "Uncategorized";
}
return ret;
}
function Group_DBus(preprocessed, group_by) {
let grouped = {}; // [content key][sort key] -> packet
let cxn_occ = {}; // How many times have a specific service appeared?
preprocessed.forEach((pp) => {
const cxn = pp[IDXES["Sender"]];
if (cxn_occ[cxn] == undefined) {
cxn_occ[cxn] = 0;
}
cxn_occ[cxn]++;
});
for (var n = 0; n < preprocessed.length; n++) {
var key = '';
for (var i = 0; i < group_by.length; i++) {
if (i > 0) key += ' ';
key += ('' + preprocessed[n][IDXES[group_by[i]]]);
}
// "Content Key" is displayed on the "Column Headers"
const content_group = DBusMessageContentKey(preprocessed[n], cxn_occ);
// Initialize the "Collapsed" array here
// TODO: this should ideally not be specific to the dbus_interface_view instance
if (dbus_timeline_view.HeaderCollapsed[content_group] == undefined) {
dbus_timeline_view.HeaderCollapsed[content_group] = false; // Not collapsed by default
}
if (grouped[content_group] == undefined) {
grouped[content_group] = [];
}
let grouped1 = grouped[content_group];
if (grouped1[key] == undefined) grouped1[key] = [];
grouped1[key].push(preprocessed[n]);
}
return grouped;
}
function OnGroupByConditionChanged_DBus() {
var tags = [
'dbus_column1', 'dbus_column2', 'dbus_column3', 'dbus_column4',
'dbus_column5', 'dbus_column6', 'dbus_column7'
];
const v = dbus_timeline_view;
v.GroupBy = [];
v.GroupByStr = '';
for (let i = 0; i < tags.length; i++) {
let cb = document.getElementById(tags[i]);
if (cb.checked) {
v.GroupBy.push(cb.value);
if (v.GroupByStr.length > 0) {
v.GroupByStr += ', ';
}
v.GroupByStr += cb.value;
}
}
let preproc = Preprocess_DBusPcap(
Data_DBus, Timestamps_DBus); // should be from dbus_pcap
let grouped = Group_DBus(preproc, v.GroupBy);
GenerateTimeLine_DBus(grouped);
dbus_timeline_view.IsCanvasDirty = true;
}
// Todo: put g_StartingSec somewhere that's common between sensors and non-sensors
function GenerateTimeLine_DBus(grouped) {
let intervals = [];
let titles = [];
g_StartingSec = undefined;
// First, turn "content keys" into headers in the flattened layout
const content_keys = Object.keys(grouped);
const keys = Object.keys(grouped);
let sortedKeys = keys.slice();
let interval_idx = 0; // The overall index into the intervals array
for (let x=0; x<content_keys.length; x++) {
const content_key = content_keys[x];
// Per-content key
const grouped1 = grouped[content_key];
const keys1 = Object.keys(grouped1);
let the_header = { "header":true, "title":content_key, "intervals_idxes":[] };
titles.push(the_header);
// TODO: this currently depends on the dbus_timeline_view instance
const collapsed = dbus_timeline_view.HeaderCollapsed[content_key];
for (let i = 0; i < keys1.length; i++) {
// The Title array controls which lines are drawn. If we con't push the header
// it will not be drawn (thus giving a "collapsed" visual effect.)
if (!collapsed) {
titles.push({ "header":false, "title":keys1[i], "intervals_idxes":[interval_idx] });
}
line = [];
for (let j = 0; j < grouped1[keys1[i]].length; j++) {
let entry = grouped1[keys1[i]][j];
let t0 = parseFloat(entry[1]) / 1000.0;
let t1 = parseFloat(entry[8]) / 1000.0;
// Modify time shift delta if IPMI dataset is loaded first
if (g_StartingSec == undefined) {
g_StartingSec = t0;
}
g_StartingSec = Math.min(g_StartingSec, t0);
const outcome = entry[9];
line.push([t0, t1, entry, outcome, 0]);
}
the_header.intervals_idxes.push(interval_idx); // Keep the indices into the intervals array for use in rendering
intervals.push(line);
interval_idx ++;
}
// Compute a set of "merged intervals" for each content_key
let rise_fall_edges = [];
the_header.intervals_idxes.forEach((i) => {
intervals[i].forEach((t0t1) => {
if (t0t1[0] <= t0t1[1]) { // For errored-out method calls, the end time will be set to a value smaller than the start time
rise_fall_edges.push([t0t1[0], 0]); // 0 is a rising edge
rise_fall_edges.push([t0t1[1], 1]); // 1 is a falling edge
}
})
});
let merged_intervals = [],
current_interval = [undefined, undefined, 0]; // start, end, weight
rise_fall_edges.sort();
let i = 0, level = 0;
while (i<rise_fall_edges.length) {
let timestamp = rise_fall_edges[i][0];
while (i < rise_fall_edges.length && timestamp == rise_fall_edges[i][0]) {
switch (rise_fall_edges[i][1]) {
case 0: { // rising edge
if (level == 0) {
current_interval[0] = timestamp;
current_interval[2] ++;
}
level ++;
break;
}
case 1: { // falling edge
level --;
if (level == 0) {
current_interval[1] = timestamp;
merged_intervals.push(current_interval);
current_interval = [undefined, undefined, 0];
}
break;
}
}
i++;
}
}
the_header.merged_intervals = merged_intervals;
}
// Time shift
for (let i = 0; i < intervals.length; i++) {
for (let j = 0; j < intervals[i].length; j++) {
let x = intervals[i][j];
x[0] -= g_StartingSec;
x[1] -= g_StartingSec;
}
}
// merged intervals should be time-shifted as well
titles.forEach((t) => {
if (t.header == true) {
t.merged_intervals.forEach((mi) => {
mi[0] -= g_StartingSec;
mi[1] -= g_StartingSec;
})
}
})
dbus_timeline_view.Intervals = intervals.slice();
dbus_timeline_view.Titles = titles.slice();
dbus_timeline_view.LayoutForOverlappingIntervals();
}
Canvas_DBus.onmousemove =
function(event) {
const v = dbus_timeline_view;
v.MouseState.x = event.pageX - this.offsetLeft;
v.MouseState.y = event.pageY - this.offsetTop;
if (v.MouseState.pressed == true &&
v.MouseState.hoveredSide == 'timeline') { // Update highlighted area
v.HighlightedRegion.t1 = v.MouseXToTimestamp(v.MouseState.x);
}
v.OnMouseMove();
v.IsCanvasDirty = true;
v.linked_views.forEach(function(u) {
u.MouseState.x = event.pageX - Canvas_DBus.offsetLeft;
u.MouseState.y = undefined; // Do not highlight any entry or the horizontal scroll bars
if (u.MouseState.pressed == true &&
v.MouseState.hoveredSide == 'timeline') { // Update highlighted area
u.HighlightedRegion.t1 = u.MouseXToTimestamp(u.MouseState.x);
}
u.OnMouseMove();
u.IsCanvasDirty = true;
});
}
Canvas_DBus.onmousedown = function(event) {
if (event.button == 0) {
dbus_timeline_view.OnMouseDown();
}
};
Canvas_DBus.onmouseup =
function(event) {
if (event.button == 0) {
dbus_timeline_view.OnMouseUp();
}
}
Canvas_DBus.onmouseleave =
function(event) {
dbus_timeline_view.OnMouseLeave();
}
Canvas_DBus.onwheel = function(event) {
dbus_timeline_view.OnMouseWheel(event);
}