traceroute_map/app/static/index.js

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const linkArc = (d) => {
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const r = Math.hypot(d.target.x - d.source.x, d.target.y - d.source.y) * 3;
return `
M${d.source.x},${d.source.y}
A${r},${r} 0 0,1 ${d.target.x},${d.target.y}
`;
};
const drag = (simulation) => {
function dragstarted(event, d) {
if (!event.active) simulation.alphaTarget(0.3).restart();
d.fx = d.x;
d.fy = d.y;
}
function dragged(event, d) {
d.fx = event.x;
d.fy = event.y;
}
function dragended(event, d) {
if (!event.active) simulation.alphaTarget(0);
d.fx = null;
d.fy = null;
}
return d3
.drag()
.on("start", dragstarted)
.on("drag", dragged)
.on("end", dragended);
};
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// const drawChart = (data) => {
// // Specify the dimensions of the chart.
// const width = 1600;
// const height = 1200;
//
// // Specify the color scale.
// const color = d3.scaleOrdinal(d3.schemeCategory10);
//
// // The force simulation mutates links and nodes, so create a copy
// // so that re-evaluating this cell produces the same result.
// const links = data.links.map((d) => ({ ...d }));
// const nodes = data.nodes.map((d) => ({ ...d }));
//
// // Create a simulation with several forces.
// const simulation = d3
// .forceSimulation(nodes)
// .force(
// "link",
// d3.forceLink(links).id((d) => d.id),
// )
// .force("charge", d3.forceManyBody())
// .force("x", d3.forceX())
// .force("y", d3.forceY());
//
// // Create the SVG container.
// const svg = d3
// .create("svg")
// .attr("width", width)
// .attr("height", height)
// .attr("viewBox", [-width / 2, -height / 2, width, height])
// .attr("style", "max-width: 100%; height: auto;");
//
// // Add a line for each link, and a circle for each node.
// const link = svg
// .append("g")
// .attr("stroke", "#999")
// .attr("stroke-opacity", 0.6)
// .selectAll("line")
// .data(links)
// .join("line")
// .attr("stroke-width", 1); // (d) => Math.sqrt(d.value));
//
// const node = svg
// .append("g")
// .attr("stroke", "#fff")
// .attr("stroke-width", 1.5)
// .selectAll("circle")
// .data(nodes)
// .join("circle")
// .attr("r", 5)
// .attr("fill", (d) => color(d.group));
//
// node.append("title").text((d) => d.id);
//
// // Add a drag behavior.
// node.call(
// d3.drag().on("start", dragstarted).on("drag", dragged).on("end", dragended),
// );
//
// // Set the position attributes of links and nodes each time the simulation ticks.
// simulation.on("tick", () => {
// link
// .attr("x1", (d) => d.source.x)
// .attr("y1", (d) => d.source.y)
// .attr("x2", (d) => d.target.x)
// .attr("y2", (d) => d.target.y);
//
// node.attr("cx", (d) => d.x).attr("cy", (d) => d.y);
// });
//
// // Reheat the simulation when drag starts, and fix the subject position.
// function dragstarted(event) {
// if (!event.active) simulation.alphaTarget(0.3).restart();
// event.subject.fx = event.subject.x;
// event.subject.fy = event.subject.y;
// }
//
// // Update the subject (dragged node) position during drag.
// function dragged(event) {
// event.subject.fx = event.x;
// event.subject.fy = event.y;
// }
//
// // Restore the target alpha so the simulation cools after dragging ends.
// // Unfix the subject position now that its no longer being dragged.
// function dragended(event) {
// if (!event.active) simulation.alphaTarget(0);
// event.subject.fx = null;
// event.subject.fy = null;
// }
//
// // When this cell is re-run, stop the previous simulation. (This doesnt
// // really matter since the target alpha is zero and the simulation will
// // stop naturally, but its a good practice.)
// // invalidation.then(() => simulation.stop());
//
// return svg.node();
// };
const drawChart2 = (data) => {
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// Data parsing
const nodes = Array.from(
new Set(data.flatMap((l) => [l.source, l.target])),
(id) => ({ id }),
);
const links = data.map((d) => Object.create(d));
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// Styles
const width = window.visualViewport.width;
const height = window.visualViewport.height - 10;
const colors = Array.from(new Set(data.map((d) => d.traceId)));
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const color = d3.scaleOrdinal(colors, d3.schemeCategory10);
const simulation = d3
.forceSimulation(nodes)
.force(
"link",
d3.forceLink(links).id((d) => d.id),
)
.force("charge", d3.forceManyBody().strength(-400))
.force("x", d3.forceX())
.force("y", d3.forceY());
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// Canvas settings
const svg = d3
.create("svg")
.attr("width", width)
.attr("height", height)
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.attr("viewBox", [-width / 2, -height / 2, width, height])
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.attr("style", "max-width: 100%; height: auto; font: 14px monospace;");
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// Pre-type arrowheads, as they don't inherit styles.
svg
.append("defs")
.selectAll("marker")
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.data(colors)
.join("marker")
.attr("id", (d) => `arrow-${d}`)
.attr("viewBox", "0 -5 10 10")
.attr("refX", 15)
.attr("refY", -0.5)
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.attr("markerWidth", 5)
.attr("markerHeight", 5)
.attr("orient", "auto")
.append("path")
.attr("fill", color)
.attr("d", "M0,-5L10,0L0,5");
const link = svg
.append("g")
.attr("fill", "none")
.attr("stroke-width", 1.5)
.selectAll("path")
.data(links)
.join("path")
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.attr("stroke", (d) => color(d.traceId))
.attr(
"marker-end",
(d) => `url(${new URL(`#arrow-${d.traceId}`, location)})`,
);
const node = svg
.append("g")
.attr("fill", "currentColor")
.attr("stroke-linecap", "round")
.attr("stroke-linejoin", "round")
.selectAll("g")
.data(nodes)
.join("g")
.call(drag(simulation));
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// Node "icon"
node
.append("circle")
.attr("stroke", "white")
.attr("stroke-width", 1.5)
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.attr("r", 5);
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// Node text
node
.append("text")
.attr("x", 8)
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.attr("y", 4)
.text((d) => (d.id.endsWith("*") ? "*" : d.id))
.clone(true)
.lower()
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.attr("fill", "black")
.attr("stroke", "white")
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.attr("stroke-width", 2);
simulation.on("tick", () => {
link.attr("d", linkArc);
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// link
// .attr("x1", (d) => d.source.x)
// .attr("y1", (d) => d.source.y)
// .attr("x2", (d) => d.target.x)
// .attr("y2", (d) => d.target.y);
node.attr("transform", (d) => `translate(${d.x},${d.y})`);
});
// invalidation.then(() => simulation.stop());
return Object.assign(svg.node(), { scales: { color } });
};
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const drawSigma = (data) => {
// Create a graphology graph
const graph = new graphology.MultiDirectedGraph();
data.nodes.forEach((n, i) => {
console.log("Node:", n);
try {
graph.addNode(n.id, n);
} catch (e) {
console.log("Node add:", e);
}
});
data.links.forEach((l, i) => {
graph.addEdge(l.source, l.target, l);
});
// Instantiate sigma.js and render the graph
const renderer = new Sigma(graph, document.getElementById("container"), {
labelThreshold: -10000,
});
};
const getNodeID = (hop, prevId, trace) => {
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if (prevId === null) {
return trace.origin;
}
if (hop.name === "*") {
return `${trace.id}-${hop.number}-*`;
}
return hop.ip;
};
const parseNodesAndLinks = (traces) => {
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const nodes = [];
const links = [];
const colors = Array.from(new Set(traces.map((t) => t.id)));
const color = d3.scaleOrdinal(colors, d3.schemeCategory10);
traces.forEach((trace) => {
let prevId = null;
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let latestNumber = null;
trace.hops.forEach((hop) => {
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const id = getNodeID(hop, prevId, trace);
// New node
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nodes.push({
id: id,
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label: id.endsWith("*") ? "*" : id,
x: trace.id,
y: hop.number / 2,
size: 9,
labelSize: 30,
color: color(trace.id),
});
if (prevId) {
// New link
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links.push({
label: "asd",
source: prevId,
target: id,
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traceId: trace.id,
origin: trace.origin,
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size: 1,
color: color(trace.id),
});
}
prevId = id;
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latestNumber = hop.number;
});
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/**
* Last "destination" node, just for candy
*/
nodes.push({
id: trace.id,
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label: trace.target,
x: trace.id,
y: (latestNumber + 1) / 2,
size: 8,
color: "black",
});
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links.push({
source: prevId,
target: trace.id,
});
});
// { id: ip, group: origin, radius: 2 }
// { source: prev.ip, target: ip, value: latency }
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return {
nodes,
links,
};
};
async function main() {
const response = await fetch("/trace/");
const traces = await response.json();
console.log("Traces:", traces);
const data = parseNodesAndLinks(traces);
console.log("Data:", data);
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// const chart = drawChart2(data.links);
const chart = drawSigma(data);
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// container.append(chart);
}
main();