overleaf/services/clsi/test/smoke/js/SmokeTests.js

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const request = require('request')
const Settings = require('settings-sharelatex')
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const buildUrl = (path) =>
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`http://${Settings.internal.clsi.host}:${Settings.internal.clsi.port}/${path}`
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const url = buildUrl(`project/smoketest-${process.pid}/compile`)
module.exports = {
sendNewResult(res) {
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this._run((error) => this._sendResponse(res, error))
},
sendLastResult(res) {
this._sendResponse(res, this._lastError)
},
triggerRun(cb) {
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this._run((error) => {
this._lastError = error
cb(error)
})
},
_lastError: new Error('SmokeTestsPending'),
_sendResponse(res, error) {
let code, body
if (error) {
code = 500
body = error.message
} else {
code = 200
body = 'OK'
}
res.contentType('text/plain')
res.status(code).send(body)
},
_run(done) {
request.post(
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{
url,
json: {
compile: {
resources: [
{
path: 'main.tex',
content: `\
% Membrane-like surface
% Author: Yotam Avital
\\documentclass{article}
\\usepackage{tikz}
\\usetikzlibrary{calc,fadings,decorations.pathreplacing}
\\begin{document}
\\begin{tikzpicture}
\\def\\nuPi{3.1459265}
\\foreach \\i in {5,4,...,2}{% This one doesn't matter
\\foreach \\j in {3,2,...,0}{% This will crate a membrane
% with the front lipids visible
% top layer
\\pgfmathsetmacro{\\dx}{rand*0.1}% A random variance in the x coordinate
\\pgfmathsetmacro{\\dy}{rand*0.1}% A random variance in the y coordinate,
% gives a hight fill to the lipid
\\pgfmathsetmacro{\\rot}{rand*0.1}% A random variance in the
% molecule orientation
\\shade[ball color=red] ({\\i+\\dx+\\rot},{0.5*\\j+\\dy+0.4*sin(\\i*\\nuPi*10)}) circle(0.45);
\\shade[ball color=gray] (\\i+\\dx,{0.5*\\j+\\dy+0.4*sin(\\i*\\nuPi*10)-0.9}) circle(0.45);
\\shade[ball color=gray] (\\i+\\dx-\\rot,{0.5*\\j+\\dy+0.4*sin(\\i*\\nuPi*10)-1.8}) circle(0.45);
% bottom layer
\\pgfmathsetmacro{\\dx}{rand*0.1}
\\pgfmathsetmacro{\\dy}{rand*0.1}
\\pgfmathsetmacro{\\rot}{rand*0.1}
\\shade[ball color=gray] (\\i+\\dx+\\rot,{0.5*\\j+\\dy+0.4*sin(\\i*\\nuPi*10)-2.8}) circle(0.45);
\\shade[ball color=gray] (\\i+\\dx,{0.5*\\j+\\dy+0.4*sin(\\i*\\nuPi*10)-3.7}) circle(0.45);
\\shade[ball color=red] (\\i+\\dx-\\rot,{0.5*\\j+\\dy+0.4*sin(\\i*\\nuPi*10)-4.6}) circle(0.45);
}
}
\\end{tikzpicture}
\\end{document}\
`
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}
]
}
}
},
(error, response, body) => {
if (error) return done(error)
if (!body || !body.compile || !body.compile.outputFiles) {
return done(new Error('response payload incomplete'))
}
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let pdfFound = false
let logFound = false
for (const file of body.compile.outputFiles) {
if (file.type === 'pdf') pdfFound = true
if (file.type === 'log') logFound = true
}
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if (!pdfFound) return done(new Error('no pdf returned'))
if (!logFound) return done(new Error('no log returned'))
done()
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}
)
}
}