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gerrit.onosproject.org / spring-open / 8d1c63651f340e33605eec2645683ad5f5f27f87 / . / web / ons-demo / js / app.js
blob: 92dd37e3dc806f556995ae858091059aaef80024 [file] [log] [blame]
/*global d3, document∆*/
d3.selection.prototype.moveToFront = function() {
return this.each(function(){
this.parentNode.appendChild(this);
});
};
var line = d3.svg.line()
.x(function(d) {
return d.x;
})
.y(function(d) {
return d.y;
});
var model;
var svg, selectedFlowsView;
var updateTopology;
var colors = [
'color1',
'color2',
'color3',
'color4',
'color5',
'color6',
'color7',
'color8',
'color9',
'color10',
'color11',
'color12'
];
colors.reverse();
var controllerColorMap = {};
function createTopologyView() {
window.addEventListener('resize', function () {
// this is too slow. instead detect first resize event and hide the paths that have explicit matrix applied
// either that or is it possible to position the paths so they get the automatic transform as well?
// updateTopology(svg, model);
});
var svg = d3.select('#svg-container').append('svg:svg');
svg.append("svg:defs").append("svg:marker")
.attr("id", "arrow")
.attr("viewBox", "0 -5 10 10")
.attr("refX", -1)
.attr("markerWidth", 5)
.attr("markerHeight", 5)
.attr("orient", "auto")
.append("svg:path")
.attr("d", "M0,-3L10,0L0,3");
return svg.append('svg:svg').attr('id', 'viewBox').attr('viewBox', '0 0 1000 1000').attr('preserveAspectRatio', 'none').
attr('id', 'viewbox').append('svg:g').attr('transform', 'translate(500 500)');
}
var selectedFlowsData = [
{selected: false, flow: null},
{selected: false, flow: null},
{selected: false, flow: null}
];
function drawFlows() {
// DRAW THE FLOWS
var flows = d3.select('svg').selectAll('.flow').data(selectedFlowsData, function (d) {
return d.flow ? d.flow.flowId.value : null;
});
flows.enter().append("svg:path")
.attr('class', 'flow')
.attr('d', function (d) {
if (!d.flow) {
return;
}
var pts = [];
d.flow.dataPath.flowEntries.forEach(function (flowEntry) {
var s = d3.select(document.getElementById(flowEntry.dpid.value));
var pt = document.querySelector('svg').createSVGPoint();
pt.x = s.attr('x');
pt.y = s.attr('y');
pt = pt.matrixTransform(s[0][0].getCTM());
pts.push(pt);
});
return line(pts);
})
.attr('stroke-dasharray', '3, 10')
.append('svg:animate')
.attr('attributeName', 'stroke-dashoffset')
.attr('attributeType', 'xml')
.attr('from', '500')
.attr('to', '-500')
.attr('dur', '20s')
.attr('repeatCount', 'indefinite');
flows.style('visibility', function (d) {
if (d) {
return d.selected ? '' : 'hidden';
}
})
// "marching ants"
// TODO: this will only be true if there's an iperf session running
flows.select('animate').attr('from', function (d) {
if (d.flow) {
if (d.selected) {
return '500';
} else {
return '-500';
}
}
});
}
function updateFlowView() {
selectedFlowsView.data(selectedFlowsData);
selectedFlowsView.classed('selected', function (d) {
if (d.flow) {
return d.selected;
}
});
selectedFlowsView.select('.flowId')
.text(function (d) {
if (d.flow) {
return d.flow.flowId.value;
}
});
selectedFlowsView.select('.srcDPID')
.text(function (d) {
if (d.flow) {
return d.flow.dataPath.srcPort.dpid.value;
}
});
selectedFlowsView.select('.dstDPID')
.text(function (d) {
if (d.flow) {
return d.flow.dataPath.dstPort.dpid.value;
}
});
}
function createFlowView() {
function rowEnter(d, i) {
var row = d3.select(this);
row.on('click', function () {
selectedFlowsData[i].selected = !selectedFlowsData[i].selected;
updateFlowView();
drawFlows();
});
row.append('div')
.classed('flowIndex', true)
.text(function () {
return i+1;
});
row.append('div')
.classed('flowId', true);
row.append('div')
.classed('srcDPID', true);
row.append('div')
.classed('dstDPID', true);
row.append('div')
.classed('iperf', true);
}
var flows = d3.select('#selectedFlows')
.selectAll('.selectedFlow')
.data(selectedFlowsData)
.enter()
.append('div')
.classed('selectedFlow', true)
.each(rowEnter);
return flows;
}
function updateHeader(model) {
d3.select('#lastUpdate').text(new Date());
d3.select('#activeSwitches').text(model.edgeSwitches.length + model.aggregationSwitches.length + model.coreSwitches.length);
d3.select('#activeFlows').text(model.flows.length);
}
function toRadians (angle) {
return angle * (Math.PI / 180);
}
var widths = {
edge: 6,
aggregation: 12,
core: 18
}
function createRingsFromModel(model) {
var rings = [{
radius: 3,
width: widths.edge,
switches: model.edgeSwitches,
className: 'edge',
angles: []
}, {
radius: 2.25,
width: widths.aggregation,
switches: model.aggregationSwitches,
className: 'aggregation',
angles: []
}, {
radius: 0.75,
width: widths.core,
switches: model.coreSwitches,
className: 'core',
angles: []
}];
var aggRanges = {};
// arrange edge switches at equal increments
var k = 360 / rings[0].switches.length;
rings[0].switches.forEach(function (s, i) {
var angle = k * i;
rings[0].angles[i] = angle;
// record the angle for the agg switch layout
var dpid = s.dpid.split(':');
dpid[7] = '01'; // the last component of the agg switch is always '01'
var aggdpid = dpid.join(':');
var aggRange = aggRanges[aggdpid];
if (!aggRange) {
aggRange = aggRanges[aggdpid] = {};
aggRange.min = aggRange.max = angle;
} else {
aggRange.max = angle;
}
});
// arrange aggregation switches to "fan out" to edge switches
k = 360 / rings[1].switches.length;
rings[1].switches.forEach(function (s, i) {
// rings[1].angles[i] = k * i;
var range = aggRanges[s.dpid];
rings[1].angles[i] = (range.min + range.max)/2;
});
// find the association between core switches and aggregation switches
var aggregationSwitchMap = {};
model.aggregationSwitches.forEach(function (s, i) {
aggregationSwitchMap[s.dpid] = i;
});
// put core switches next to linked aggregation switches
k = 360 / rings[2].switches.length;
rings[2].switches.forEach(function (s, i) {
// rings[2].angles[i] = k * i;
var associatedAggregationSwitches = model.configuration.association[s.dpid];
// TODO: go between if there are multiple
var index = aggregationSwitchMap[associatedAggregationSwitches[0]];
rings[2].angles[i] = rings[1].angles[index];
});
// TODO: construct this form initially rather than converting. it works better because
// it allows binding by dpid
var testRings = [];
rings.forEach(function (ring) {
var testRing = [];
ring.switches.forEach(function (s, i) {
var testSwitch = {
dpid: s.dpid,
state: s.state,
radius: ring.radius,
width: ring.width,
className: ring.className,
angle: ring.angles[i],
controller: s.controller
};
testRing.push(testSwitch);
});
testRings.push(testRing);
});
// return rings;
return testRings;
}
function createLinkMap(model) {
var linkMap = {};
model.links.forEach(function (link) {
var srcDPID = link['src-switch'];
var dstDPID = link['dst-switch'];
var srcMap = linkMap[srcDPID] || {};
srcMap[dstDPID] = link;
linkMap[srcDPID] = srcMap;
});
return linkMap;
}
updateTopology = function(svg, model) {
// DRAW THE SWITCHES
var rings = svg.selectAll('.ring').data(createRingsFromModel(model));
var linkMap = createLinkMap(model);
// var flowMap = createFlowMap(model);
function mouseOverSwitch(data) {
if (data.highlighted) {
return;
}
// only highlight valid link or flow destination by checking for class of existing highlighted circle
var highlighted = svg.selectAll('circle.highlight')[0];
if (highlighted.length == 1) {
var s = d3.select(highlighted[0]);
// only allow links
// edge->edge (flow)
// aggregation->core
// core->core
if (data.className == 'edge' && !s.classed('edge') ||
data.className == 'core' && !s.classed('core') && !s.classed('aggregation') ||
data.className == 'aggregation' && !s.classed('core')) {
return;
}
// don't highlight if there's already a link or flow
// var map = linkMap[data.dpid];
// console.log(map);
// console.log(s.data()[0].dpid);
// console.log(map[s.data()[0].dpid]);
// if (map && map[s.data()[0].dpid]) {
// return;
// }
// the second highlighted switch is the target for a link or flow
data.target = true;
}
d3.select(document.getElementById(data.dpid + '-label')).classed('nolabel', false);
var node = d3.select(document.getElementById(data.dpid));
node.select('circle').classed('highlight', true).transition().duration(100).attr("r", widths.core);
data.highlighted = true;
node.moveToFront();
}
function mouseOutSwitch(data) {
if (data.mouseDown)
return;
d3.select(document.getElementById(data.dpid + '-label')).classed('nolabel', true);
var node = d3.select(document.getElementById(data.dpid));
node.select('circle').classed('highlight', false).transition().duration(100).attr("r", widths[data.className]);
data.highlighted = false;
data.target = false;
}
function mouseDownSwitch(data) {
mouseOverSwitch(data);
data.mouseDown = true;
}
function mouseUpSwitch(data) {
if (data.mouseDown) {
data.mouseDown = false;
d3.event.stopPropagation();
}
}
function doubleClickSwitch(data) {
if (data.state == 'ACTIVE') {
var prompt = 'Deactivate ' + data.dpid + '?';
if (confirm(prompt)) {
switchDown(data);
}
} else {
var prompt = 'Activate ' + data.dpid + '?';
if (confirm(prompt)) {
switchUp(data);
}
}
}
function ringEnter(data, i) {
if (!data.length) {
return;
}
// create the nodes
var nodes = d3.select(this).selectAll("g")
.data(data, function (data) {
return data.dpid;
})
.enter().append("svg:g")
.attr("id", function (data, i) {
return data.dpid;
})
.attr("transform", function(data, i) {
return "rotate(" + data.angle+ ")translate(" + data.radius * 150 + ")rotate(" + (-data.angle) + ")";
});
// add the cirles representing the switches
nodes.append("svg:circle")
.attr("transform", function(data, i) {
var m = document.querySelector('#viewbox').getTransformToElement().inverse();
if (data.scale) {
m = m.scale(data.scale);
}
return "matrix( " + m.a + " " + m.b + " " + m.c + " " + m.d + " " + m.e + " " + m.f + " )";
})
.attr("x", function (data) {
return -data.width / 2;
})
.attr("y", function (data) {
return -data.width / 2;
})
.attr("r", function (data) {
return data.width;
});
// setup the mouseover behaviors
nodes.on('mouseover', mouseOverSwitch);
nodes.on('mouseout', mouseOutSwitch);
nodes.on('mouseup', mouseUpSwitch);
nodes.on('mousedown', mouseDownSwitch);
// only do switch up/down for core switches
if (i == 2) {
nodes.on('dblclick', doubleClickSwitch);
}
}
// append switches
rings.enter().append("svg:g")
.attr("class", "ring")
.each(ringEnter);
function ringUpdate(data, i) {
var nodes = d3.select(this).selectAll("g")
.data(data, function (data) {
return data.dpid;
});
nodes.select('circle').attr('class', function (data, i) {
if (data.state === 'ACTIVE' && data.controller) {
return data.className + ' ' + controllerColorMap[data.controller];
} else {
return data.className + ' ' + 'colorInactive';
}
});
}
// update switches
rings.each(ringUpdate);
// Now setup the labels
// This is done separately because SVG draws in node order and we want the labels
// always on top
var labelRings = svg.selectAll('.labelRing').data(createRingsFromModel(model));
d3.select(document.body).on('mouseup', function () {
function clearHighlight() {
svg.selectAll('circle').each(function (data) {
data.mouseDown = false;
mouseOutSwitch(data);
})
};
var highlighted = svg.selectAll('circle.highlight')[0];
if (highlighted.length == 2) {
var s1Data = d3.select(highlighted[0]).data()[0];
var s2Data = d3.select(highlighted[1]).data()[0];
var srcData, dstData;
if (s1Data.target) {
dstData = s1Data;
srcData = s2Data;
} else {
dstData = s2Data;
srcData = s1Data;
}
if (s1Data.className == 'edge' && s2Data.className == 'edge') {
var prompt = 'Create flow from ' + srcData.dpid + ' to ' + dstData.dpid + '?';
if (confirm(prompt)) {
alert('do create flow');
} else {
alert('do not create flow');
}
} else {
var map = linkMap[srcData.dpid];
if (map && map[dstData.dpid]) {
var prompt = 'Remove link between ' + srcData.dpid + ' and ' + dstData.dpid + '?';
if (confirm(prompt)) {
linkDown(map[dstData.dpid]);
}
} else {
map = linkMap[dstData.dpid];
if (map && map[srcData.dpid]) {
var prompt = 'Remove link between ' + dstData.dpid + ' and ' + srcData.dpid + '?';
if (confirm(prompt)) {
linkDown(map[srcData.dpid]);
}
} else {
var prompt = 'Create link between ' + srcData.dpid + ' and ' + dstData.dpid + '?';
if (confirm(prompt)) {
linkUp(srcData, dstData);
}
}
}
}
clearHighlight();
} else {
clearHighlight();
}
});
function labelRingEnter(data) {
if (!data.length) {
return;
}
// create the nodes
var nodes = d3.select(this).selectAll("g")
.data(data, function (data) {
return data.dpid;
})
.enter().append("svg:g")
.classed('nolabel', true)
.attr("id", function (data) {
return data.dpid + '-label';
})
.attr("transform", function(data, i) {
return "rotate(" + data.angle+ ")translate(" + data.radius * 150 + ")rotate(" + (-data.angle) + ")";
})
// add the text nodes which show on mouse over
nodes.append("svg:text")
.text(function (data) {return data.dpid;})
.attr("x", function (data) {
if (data.angle <= 90 || data.angle >= 270 && data.angle <= 360) {
if (data.className == 'edge') {
return - data.width*3 - 4;
} else {
return - data.width - 4;
}
} else {
if (data.className == 'edge') {
return data.width*3 + 4;
} else {
return data.width + 4;
}
}
})
.attr("y", function (data) {
var y;
if (data.angle <= 90 || data.angle >= 270 && data.angle <= 360) {
if (data.className == 'edge') {
y = data.width*3/2 + 4;
} else {
y = data.width/2 + 4;
}
} else {
if (data.className == 'edge') {
y = data.width*3/2 + 4;
} else {
y = data.width/2 + 4;
}
}
return y - 6;
})
.attr("text-anchor", function (data) {
if (data.angle <= 90 || data.angle >= 270 && data.angle <= 360) {
return "end";
} else {
return "start";
}
})
.attr("transform", function(data) {
var m = document.querySelector('#viewbox').getTransformToElement().inverse();
if (data.scale) {
m = m.scale(data.scale);
}
return "matrix( " + m.a + " " + m.b + " " + m.c + " " + m.d + " " + m.e + " " + m.f + " )";
})
}
labelRings.enter().append("svg:g")
.attr("class", "textRing")
.each(labelRingEnter);
// switches should not change during operation of the ui so no
// rings.exit()
// DRAW THE LINKS
// key on link dpids since these will come/go during demo
var links = d3.select('svg').selectAll('.link').data(model.links, function (d) {
return d['src-switch']+'->'+d['dst-switch'];
});
// add new links
links.enter().append("svg:path")
.attr("class", "link");
links
.attr("d", function (d) {
var src = d3.select(document.getElementById(d['src-switch']));
var dst = d3.select(document.getElementById(d['dst-switch']));
var srcPt = document.querySelector('svg').createSVGPoint();
srcPt.x = src.attr('x');
srcPt.y = src.attr('y');
srcPt = srcPt.matrixTransform(src[0][0].getCTM());
var dstPt = document.querySelector('svg').createSVGPoint();
dstPt.x = dst.attr('x');
dstPt.y = dst.attr('y'); // tmp: make up and down links distinguishable
dstPt = dstPt.matrixTransform(dst[0][0].getCTM());
var midPt = document.querySelector('svg').createSVGPoint();
midPt.x = (srcPt.x + dstPt.x)/2;
midPt.y = (srcPt.y + dstPt.y)/2;
return line([srcPt, midPt, dstPt]);
})
.attr("marker-mid", function(d) { return "url(#arrow)"; });
// remove old links
links.exit().remove();
drawFlows();
}
function updateControllers(model) {
var controllers = d3.select('#controllerList').selectAll('.controller').data(model.controllers);
controllers.enter().append('div')
.each(function (c) {
controllerColorMap[c] = colors.pop();
d3.select(document.body).classed(controllerColorMap[c] + '-selected', true);
})
.text(function (d) {
return d;
});
controllers.attr('class', function (d) {
var color = 'colorInactive';
if (model.activeControllers.indexOf(d) != -1) {
color = controllerColorMap[d];
}
var className = 'controller ' + color;
return className;
});
// this should never be needed
// controllers.exit().remove();
controllers.on('click', function (c) {
var allSelected = true;
for (var key in controllerColorMap) {
if (!d3.select(document.body).classed(controllerColorMap[key] + '-selected')) {
allSelected = false;
break;
}
}
if (allSelected) {
for (var key in controllerColorMap) {
d3.select(document.body).classed(controllerColorMap[key] + '-selected', key == c)
}
} else {
for (var key in controllerColorMap) {
d3.select(document.body).classed(controllerColorMap[key] + '-selected', true)
}
}
// var selected = d3.select(document.body).classed(controllerColorMap[c] + '-selected');
// d3.select(document.body).classed(controllerColorMap[c] + '-selected', !selected);
});
}
function sync(svg, selectedFlowsView) {
var d = Date.now();
updateModel(function (newModel) {
// console.log('Update time: ' + (Date.now() - d)/1000 + 's');
if (!model || JSON.stringify(model) != JSON.stringify(newModel)) {
updateControllers(newModel);
// fake flows right now
var i;
for (i = 0; i < newModel.flows.length && i < selectedFlowsData.length; i+=1) {
var selected = selectedFlowsData[i] ? selectedFlowsData[i].selected : false;
selectedFlowsData[i].flow = newModel.flows[i];
selectedFlowsData[i].selected = selected;
}
updateFlowView(newModel);
updateTopology(svg, newModel);
} else {
// console.log('no change');
}
updateHeader(newModel);
model = newModel;
// do it again in 1s
setTimeout(function () {
sync(svg)
}, 1000);
});
}
svg = createTopologyView();
selectedFlowsView = createFlowView();
// workaround for Chrome v25 bug
// if executed immediately, the view box transform logic doesn't work properly
// fixed in Chrome v27
setTimeout(function () {
// workaround for another Chrome v25 bug
// viewbox transform stuff doesn't work in combination with browser zoom
// also works in Chrome v27
d3.select('#svg-container').style('zoom', window.document.body.clientWidth/window.document.width);
sync(svg, selectedFlowsView);
}, 100);