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gerrit.onosproject.org / onos / 24c849c488bd3746efbb1362ae5c6d81bdea8305 / . / web / gui / src / main / webapp / network.js
blob: 6cf189986dd8cb927bc86c144b24d7d4f3975b25 [file] [log] [blame]
/*
ONOS network topology viewer - PoC version 1.0
@author Simon Hunt
*/
(function (onos) {
'use strict';
var api = onos.api;
var config = {
options: {
layering: true,
collisionPrevention: true
},
XjsonUrl: 'rs/topology/graph',
jsonUrl: 'network.json',
iconUrl: {
device: 'img/device.png',
host: 'img/host.png',
pkt: 'img/pkt.png',
opt: 'img/opt.png'
},
mastHeight: 36,
force: {
note: 'node.class or link.class is used to differentiate',
linkDistance: {
infra: 240,
host: 100
},
linkStrength: {
infra: 1.0,
host: 0.4
},
charge: {
device: -800,
host: -400
},
ticksWithoutCollisions: 50,
marginLR: 20,
marginTB: 20,
translate: function() {
return 'translate(' +
config.force.marginLR + ',' +
config.force.marginTB + ')';
}
},
labels: {
imgPad: 16,
padLR: 8,
padTB: 6,
marginLR: 3,
marginTB: 2
},
icons: {
w: 32,
h: 32,
xoff: -12,
yoff: -8
},
constraints: {
ypos: {
host: 0.15,
switch: 0.3,
roadm: 0.7
}
},
hostLinkWidth: 1.0,
mouseOutTimerDelayMs: 120
},
view = {},
network = {},
selected = {},
highlighted = null;
function loadNetworkView() {
// Hey, here I am, calling something on the ONOS api:
api.printTime();
resize();
d3.json(config.jsonUrl, function (err, data) {
if (err) {
alert('Oops! Error reading JSON...\n\n' +
'URL: ' + config.jsonUrl + '\n\n' +
'Error: ' + err.message);
return;
}
console.log("here is the JSON data...");
console.log(data);
network.data = data;
drawNetwork();
});
$(document).on('click', '.select-object', function() {
// when any object of class "select-object" is clicked...
// TODO: get a reference to the object via lookup...
var obj = network.lookup[$(this).data('id')];
if (obj) {
selectObject(obj);
}
// stop propagation of event (I think) ...
return false;
});
$(window).on('resize', resize);
}
// ========================================================
function drawNetwork() {
$('#view').empty();
prepareNodesAndLinks();
createLayout();
console.log("\n\nHere is the augmented network object...");
console.warn(network);
}
function prepareNodesAndLinks() {
network.lookup = {};
network.nodes = [];
network.links = [];
var nw = network.forceWidth,
nh = network.forceHeight;
function yPosConstraintForNode(n) {
return config.constraints.ypos[n.type || 'host'];
}
// Note that both 'devices' and 'hosts' get mapped into the nodes array
// first, the devices...
network.data.devices.forEach(function(n) {
var ypc = yPosConstraintForNode(n),
ix = Math.random() * 0.6 * nw + 0.2 * nw,
iy = ypc * nh,
node = {
id: n.id,
labels: n.labels,
class: 'device',
icon: 'device',
type: n.type,
x: ix,
y: iy,
constraint: {
weight: 0.7,
y: iy
}
};
network.lookup[n.id] = node;
network.nodes.push(node);
});
// then, the hosts...
network.data.hosts.forEach(function(n) {
var ypc = yPosConstraintForNode(n),
ix = Math.random() * 0.6 * nw + 0.2 * nw,
iy = ypc * nh,
node = {
id: n.id,
labels: n.labels,
class: 'host',
icon: 'host',
type: n.type,
x: ix,
y: iy,
constraint: {
weight: 0.7,
y: iy
}
};
network.lookup[n.id] = node;
network.nodes.push(node);
});
// now, process the explicit links...
network.data.links.forEach(function(n) {
var src = network.lookup[n.src],
dst = network.lookup[n.dst],
id = src.id + "~" + dst.id;
var link = {
class: 'infra',
id: id,
type: n.type,
width: n.linkWidth,
source: src,
target: dst,
strength: config.force.linkStrength.infra
};
network.links.push(link);
});
// finally, infer host links...
network.data.hosts.forEach(function(n) {
var src = network.lookup[n.id],
dst = network.lookup[n.cp.device],
id = src.id + "~" + dst.id;
var link = {
class: 'host',
id: id,
type: 'hostLink',
width: config.hostLinkWidth,
source: src,
target: dst,
strength: config.force.linkStrength.host
};
network.links.push(link);
});
}
function createLayout() {
var cfg = config.force;
network.force = d3.layout.force()
.size([network.forceWidth, network.forceHeight])
.nodes(network.nodes)
.links(network.links)
.linkStrength(function(d) { return cfg.linkStrength[d.class]; })
.linkDistance(function(d) { return cfg.linkDistance[d.class]; })
.charge(function(d) { return cfg.charge[d.class]; })
.on('tick', tick);
network.svg = d3.select('#view').append('svg')
.attr('width', view.width)
.attr('height', view.height)
.append('g')
.attr('transform', config.force.translate());
// .attr('id', 'zoomable')
// .call(d3.behavior.zoom().on("zoom", zoomRedraw));
// function zoomRedraw() {
// d3.select("#zoomable").attr("transform",
// "translate(" + d3.event.translate + ")"
// + " scale(" + d3.event.scale + ")");
// }
// TODO: svg.append('defs') for markers?
// TODO: move glow/blur stuff to util script
var glow = network.svg.append('filter')
.attr('x', '-50%')
.attr('y', '-50%')
.attr('width', '200%')
.attr('height', '200%')
.attr('id', 'blue-glow');
glow.append('feColorMatrix')
.attr('type', 'matrix')
.attr('values', '0 0 0 0 0 ' +
'0 0 0 0 0 ' +
'0 0 0 0 .7 ' +
'0 0 0 1 0 ');
glow.append('feGaussianBlur')
.attr('stdDeviation', 3)
.attr('result', 'coloredBlur');
glow.append('feMerge').selectAll('feMergeNode')
.data(['coloredBlur', 'SourceGraphic'])
.enter().append('feMergeNode')
.attr('in', String);
// TODO: legend (and auto adjust on scroll)
// $('#view').on('scroll', function() {
//
// });
network.link = network.svg.append('g').selectAll('.link')
.data(network.force.links(), function(d) {return d.id})
.enter().append('line')
.attr('class', function(d) {return 'link ' + d.class});
// == define node drag behavior...
network.draggedThreshold = d3.scale.linear()
.domain([0, 0.1])
.range([5, 20])
.clamp(true);
function dragged(d) {
var threshold = network.draggedThreshold(network.force.alpha()),
dx = d.oldX - d.px,
dy = d.oldY - d.py;
if (Math.abs(dx) >= threshold || Math.abs(dy) >= threshold) {
d.dragged = true;
}
return d.dragged;
}
network.drag = d3.behavior.drag()
.origin(function(d) { return d; })
.on('dragstart', function(d) {
d.oldX = d.x;
d.oldY = d.y;
d.dragged = false;
d.fixed |= 2;
})
.on('drag', function(d) {
d.px = d3.event.x;
d.py = d3.event.y;
if (dragged(d)) {
if (!network.force.alpha()) {
network.force.alpha(.025);
}
}
})
.on('dragend', function(d) {
if (!dragged(d)) {
selectObject(d, this);
}
d.fixed &= ~6;
});
$('#view').on('click', function(e) {
if (!$(e.target).closest('.node').length) {
deselectObject();
}
});
network.node = network.svg.selectAll('.node')
.data(network.force.nodes(), function(d) {return d.id})
.enter().append('g')
.attr('class', function(d) {
var cls = 'node ' + d.class;
if (d.type) {
cls += ' ' + d.type;
}
return cls;
})
.attr('transform', function(d) {
return translate(d.x, d.y);
})
.call(network.drag)
.on('mouseover', function(d) {
if (!selected.obj) {
if (network.mouseoutTimeout) {
clearTimeout(network.mouseoutTimeout);
network.mouseoutTimeout = null;
}
highlightObject(d);
}
})
.on('mouseout', function(d) {
if (!selected.obj) {
if (network.mouseoutTimeout) {
clearTimeout(network.mouseoutTimeout);
network.mouseoutTimeout = null;
}
network.mouseoutTimeout = setTimeout(function() {
highlightObject(null);
}, config.mouseOutTimerDelayMs);
}
});
network.nodeRect = network.node.append('rect')
.attr('rx', 5)
.attr('ry', 5);
// note that width/height are adjusted to fit the label text
network.node.each(function(d) {
var node = d3.select(this),
rect = node.select('rect'),
icon = iconUrl(d),
text = node.append('text')
// TODO: add label cycle behavior
.text(d.id)
.attr('dy', '1.1em');
if (icon) {
var cfg = config.icons;
node.append('svg:image')
.attr('width', cfg.w)
.attr('height', cfg.h)
.attr('xlink:href', icon);
// note, icon relative positioning (x,y) is done after we have
// adjusted the bounds of the rectangle...
}
});
// this function is scheduled to happen soon after the given thread ends
setTimeout(function() {
network.node.each(function(d) {
// for every node, recompute size, padding, etc. so text fits
var node = d3.select(this),
text = node.selectAll('text'),
bounds = {},
first = true;
// NOTE: probably unnecessary code if we only have one line.
text.each(function() {
var box = this.getBBox();
if (first || box.x < bounds.x1) {
bounds.x1 = box.x;
}
if (first || box.y < bounds.y1) {
bounds.y1 = box.y;
}
if (first || box.x + box.width < bounds.x2) {
bounds.x2 = box.x + box.width;
}
if (first || box.y + box.height < bounds.y2) {
bounds.y2 = box.y + box.height;
}
first = false;
}).attr('text-anchor', 'middle');
var lab = config.labels,
oldWidth = bounds.x2 - bounds.x1;
bounds.x1 -= oldWidth / 2;
bounds.x2 -= oldWidth / 2;
bounds.x1 -= (lab.padLR + lab.imgPad);
bounds.y1 -= lab.padTB;
bounds.x2 += lab.padLR;
bounds.y2 += lab.padTB;
node.select('rect')
.attr('x', bounds.x1)
.attr('y', bounds.y1)
.attr('width', bounds.x2 - bounds.x1)
.attr('height', bounds.y2 - bounds.y1);
node.select('image')
.attr('x', bounds.x1 + config.icons.xoff)
.attr('y', bounds.y1 + config.icons.yoff);
d.extent = {
left: bounds.x1 - lab.marginLR,
right: bounds.x2 + lab.marginLR,
top: bounds.y1 - lab.marginTB,
bottom: bounds.y2 + lab.marginTB
};
d.edge = {
left : new geo.LineSegment(bounds.x1, bounds.y1, bounds.x1, bounds.y2),
right : new geo.LineSegment(bounds.x2, bounds.y1, bounds.x2, bounds.y2),
top : new geo.LineSegment(bounds.x1, bounds.y1, bounds.x2, bounds.y1),
bottom : new geo.LineSegment(bounds.x1, bounds.y2, bounds.x2, bounds.y2)
};
// ====
});
network.numTicks = 0;
network.preventCollisions = false;
network.force.start();
for (var i = 0; i < config.force.ticksWithoutCollisions; i++) {
network.force.tick();
}
network.preventCollisions = true;
$('#view').css('visibility', 'visible');
});
}
function iconUrl(d) {
return config.iconUrl[d.icon];
}
function translate(x, y) {
return 'translate(' + x + ',' + y + ')';
}
function preventCollisions() {
var quadtree = d3.geom.quadtree(network.nodes);
network.nodes.forEach(function(n) {
var nx1 = n.x + n.extent.left,
nx2 = n.x + n.extent.right,
ny1 = n.y + n.extent.top,
ny2 = n.y + n.extent.bottom;
quadtree.visit(function(quad, x1, y1, x2, y2) {
if (quad.point && quad.point !== n) {
// check if the rectangles intersect
var p = quad.point,
px1 = p.x + p.extent.left,
px2 = p.x + p.extent.right,
py1 = p.y + p.extent.top,
py2 = p.y + p.extent.bottom,
ix = (px1 <= nx2 && nx1 <= px2 && py1 <= ny2 && ny1 <= py2);
if (ix) {
var xa1 = nx2 - px1, // shift n left , p right
xa2 = px2 - nx1, // shift n right, p left
ya1 = ny2 - py1, // shift n up , p down
ya2 = py2 - ny1, // shift n down , p up
adj = Math.min(xa1, xa2, ya1, ya2);
if (adj == xa1) {
n.x -= adj / 2;
p.x += adj / 2;
} else if (adj == xa2) {
n.x += adj / 2;
p.x -= adj / 2;
} else if (adj == ya1) {
n.y -= adj / 2;
p.y += adj / 2;
} else if (adj == ya2) {
n.y += adj / 2;
p.y -= adj / 2;
}
}
return ix;
}
});
});
}
function tick(e) {
network.numTicks++;
if (config.options.layering) {
// adjust the y-coord of each node, based on y-pos constraints
network.nodes.forEach(function (n) {
var z = e.alpha * n.constraint.weight;
if (!isNaN(n.constraint.y)) {
n.y = (n.constraint.y * z + n.y * (1 - z));
}
});
}
if (config.options.collisionPrevention && network.preventCollisions) {
preventCollisions();
}
// TODO: use intersection technique for source end of link also
network.link
.attr('x1', function(d) {
return d.source.x;
})
.attr('y1', function(d) {
return d.source.y;
})
.each(function(d) {
var x = d.target.x,
y = d.target.y,
line = new geo.LineSegment(d.source.x, d.source.y, x, y);
for (var e in d.target.edge) {
var ix = line.intersect(d.target.edge[e].offset(x,y));
if (ix.in1 && ix.in2) {
x = ix.x;
y = ix.y;
break;
}
}
d3.select(this)
.attr('x2', x)
.attr('y2', y);
});
network.node
.attr('transform', function(d) {
return translate(d.x, d.y);
});
}
// $('#docs-close').on('click', function() {
// deselectObject();
// return false;
// });
// $(document).on('click', '.select-object', function() {
// var obj = graph.data[$(this).data('name')];
// if (obj) {
// selectObject(obj);
// }
// return false;
// });
function selectObject(obj, el) {
var node;
if (el) {
node = d3.select(el);
} else {
network.node.each(function(d) {
if (d == obj) {
node = d3.select(el = this);
}
});
}
if (!node) return;
if (node.classed('selected')) {
deselectObject();
return;
}
deselectObject(false);
selected = {
obj : obj,
el : el
};
highlightObject(obj);
node.classed('selected', true);
// TODO animate incoming info pane
// resize(true);
// TODO: check bounds of selected node and scroll into view if needed
}
function deselectObject(doResize) {
// Review: logic of 'resize(...)' function.
if (doResize || typeof doResize == 'undefined') {
resize(false);
}
// deselect all nodes in the network...
network.node.classed('selected', false);
selected = {};
highlightObject(null);
}
function highlightObject(obj) {
if (obj) {
if (obj != highlighted) {
// TODO set or clear "inactive" class on nodes, based on criteria
network.node.classed('inactive', function(d) {
// return (obj !== d &&
// d.relation(obj.id));
return (obj !== d);
});
// TODO: same with links
network.link.classed('inactive', function(d) {
return (obj !== d.source && obj !== d.target);
});
}
highlighted = obj;
} else {
if (highlighted) {
// clear the inactive flag (no longer suppressed visually)
network.node.classed('inactive', false);
network.link.classed('inactive', false);
}
highlighted = null;
}
}
function resize(showDetails) {
console.log("resize() called...");
var $details = $('#details');
if (typeof showDetails == 'boolean') {
var showingDetails = showDetails;
// TODO: invoke $details.show() or $details.hide()...
// $details[showingDetails ? 'show' : 'hide']();
}
view.height = window.innerHeight - config.mastHeight;
view.width = window.innerWidth;
$('#view')
.css('height', view.height + 'px')
.css('width', view.width + 'px');
network.forceWidth = view.width - config.force.marginLR;
network.forceHeight = view.height - config.force.marginTB;
}
// ======================================================================
// register with the UI framework
api.addView('network', {
load: loadNetworkView
});
}(ONOS));