uptime-kuma/server/modules/apicache/apicache.js

749 lines
25 KiB
JavaScript

let url = require("url");
let MemoryCache = require("./memory-cache");
let t = {
ms: 1,
second: 1000,
minute: 60000,
hour: 3600000,
day: 3600000 * 24,
week: 3600000 * 24 * 7,
month: 3600000 * 24 * 30,
};
let instances = [];
let matches = function (a) {
return function (b) {
return a === b;
};
};
let doesntMatch = function (a) {
return function (b) {
return !matches(a)(b);
};
};
let logDuration = function (d, prefix) {
let str = d > 1000 ? (d / 1000).toFixed(2) + "sec" : d + "ms";
return "\x1b[33m- " + (prefix ? prefix + " " : "") + str + "\x1b[0m";
};
function getSafeHeaders(res) {
return res.getHeaders ? res.getHeaders() : res._headers;
}
function ApiCache() {
let memCache = new MemoryCache();
let globalOptions = {
debug: false,
defaultDuration: 3600000,
enabled: true,
appendKey: [],
jsonp: false,
redisClient: false,
headerBlacklist: [],
statusCodes: {
include: [],
exclude: [],
},
events: {
expire: undefined,
},
headers: {
// 'cache-control': 'no-cache' // example of header overwrite
},
trackPerformance: false,
respectCacheControl: false,
};
let middlewareOptions = [];
let instance = this;
let index = null;
let timers = {};
let performanceArray = []; // for tracking cache hit rate
instances.push(this);
this.id = instances.length;
function debug(a, b, c, d) {
let arr = ["\x1b[36m[apicache]\x1b[0m", a, b, c, d].filter(function (arg) {
return arg !== undefined;
});
let debugEnv = process.env.DEBUG && process.env.DEBUG.split(",").indexOf("apicache") !== -1;
return (globalOptions.debug || debugEnv) && console.log.apply(null, arr);
}
function shouldCacheResponse(request, response, toggle) {
let opt = globalOptions;
let codes = opt.statusCodes;
if (!response) {
return false;
}
if (toggle && !toggle(request, response)) {
return false;
}
if (codes.exclude && codes.exclude.length && codes.exclude.indexOf(response.statusCode) !== -1) {
return false;
}
if (codes.include && codes.include.length && codes.include.indexOf(response.statusCode) === -1) {
return false;
}
return true;
}
function addIndexEntries(key, req) {
let groupName = req.apicacheGroup;
if (groupName) {
debug("group detected \"" + groupName + "\"");
let group = (index.groups[groupName] = index.groups[groupName] || []);
group.unshift(key);
}
index.all.unshift(key);
}
function filterBlacklistedHeaders(headers) {
return Object.keys(headers)
.filter(function (key) {
return globalOptions.headerBlacklist.indexOf(key) === -1;
})
.reduce(function (acc, header) {
acc[header] = headers[header];
return acc;
}, {});
}
function createCacheObject(status, headers, data, encoding) {
return {
status: status,
headers: filterBlacklistedHeaders(headers),
data: data,
encoding: encoding,
timestamp: new Date().getTime() / 1000, // seconds since epoch. This is used to properly decrement max-age headers in cached responses.
};
}
function cacheResponse(key, value, duration) {
let redis = globalOptions.redisClient;
let expireCallback = globalOptions.events.expire;
if (redis && redis.connected) {
try {
redis.hset(key, "response", JSON.stringify(value));
redis.hset(key, "duration", duration);
redis.expire(key, duration / 1000, expireCallback || function () {});
} catch (err) {
debug("[apicache] error in redis.hset()");
}
} else {
memCache.add(key, value, duration, expireCallback);
}
// add automatic cache clearing from duration, includes max limit on setTimeout
timers[key] = setTimeout(function () {
instance.clear(key, true);
}, Math.min(duration, 2147483647));
}
function accumulateContent(res, content) {
if (content) {
if (typeof content == "string") {
res._apicache.content = (res._apicache.content || "") + content;
} else if (Buffer.isBuffer(content)) {
let oldContent = res._apicache.content;
if (typeof oldContent === "string") {
oldContent = !Buffer.from ? new Buffer(oldContent) : Buffer.from(oldContent);
}
if (!oldContent) {
oldContent = !Buffer.alloc ? new Buffer(0) : Buffer.alloc(0);
}
res._apicache.content = Buffer.concat(
[oldContent, content],
oldContent.length + content.length
);
} else {
res._apicache.content = content;
}
}
}
function makeResponseCacheable(req, res, next, key, duration, strDuration, toggle) {
// monkeypatch res.end to create cache object
res._apicache = {
write: res.write,
writeHead: res.writeHead,
end: res.end,
cacheable: true,
content: undefined,
};
// append header overwrites if applicable
Object.keys(globalOptions.headers).forEach(function (name) {
res.setHeader(name, globalOptions.headers[name]);
});
res.writeHead = function () {
// add cache control headers
if (!globalOptions.headers["cache-control"]) {
if (shouldCacheResponse(req, res, toggle)) {
res.setHeader("cache-control", "max-age=" + (duration / 1000).toFixed(0));
} else {
res.setHeader("cache-control", "no-cache, no-store, must-revalidate");
}
}
res._apicache.headers = Object.assign({}, getSafeHeaders(res));
return res._apicache.writeHead.apply(this, arguments);
};
// patch res.write
res.write = function (content) {
accumulateContent(res, content);
return res._apicache.write.apply(this, arguments);
};
// patch res.end
res.end = function (content, encoding) {
if (shouldCacheResponse(req, res, toggle)) {
accumulateContent(res, content);
if (res._apicache.cacheable && res._apicache.content) {
addIndexEntries(key, req);
let headers = res._apicache.headers || getSafeHeaders(res);
let cacheObject = createCacheObject(
res.statusCode,
headers,
res._apicache.content,
encoding
);
cacheResponse(key, cacheObject, duration);
// display log entry
let elapsed = new Date() - req.apicacheTimer;
debug("adding cache entry for \"" + key + "\" @ " + strDuration, logDuration(elapsed));
debug("_apicache.headers: ", res._apicache.headers);
debug("res.getHeaders(): ", getSafeHeaders(res));
debug("cacheObject: ", cacheObject);
}
}
return res._apicache.end.apply(this, arguments);
};
next();
}
function sendCachedResponse(request, response, cacheObject, toggle, next, duration) {
if (toggle && !toggle(request, response)) {
return next();
}
let headers = getSafeHeaders(response);
// Modified by @louislam, removed Cache-control, since I don't need client side cache!
// Original Source: https://github.com/kwhitley/apicache/blob/0d5686cc21fad353c6dddee646288c2fca3e4f50/src/apicache.js#L254
Object.assign(headers, filterBlacklistedHeaders(cacheObject.headers || {}));
// only embed apicache headers when not in production environment
if (process.env.NODE_ENV !== "production") {
Object.assign(headers, {
"apicache-store": globalOptions.redisClient ? "redis" : "memory",
"apicache-version": "1.6.2-modified",
});
}
// unstringify buffers
let data = cacheObject.data;
if (data && data.type === "Buffer") {
data =
typeof data.data === "number" ? new Buffer.alloc(data.data) : new Buffer.from(data.data);
}
// test Etag against If-None-Match for 304
let cachedEtag = cacheObject.headers.etag;
let requestEtag = request.headers["if-none-match"];
if (requestEtag && cachedEtag === requestEtag) {
response.writeHead(304, headers);
return response.end();
}
response.writeHead(cacheObject.status || 200, headers);
return response.end(data, cacheObject.encoding);
}
function syncOptions() {
for (let i in middlewareOptions) {
Object.assign(middlewareOptions[i].options, globalOptions, middlewareOptions[i].localOptions);
}
}
this.clear = function (target, isAutomatic) {
let group = index.groups[target];
let redis = globalOptions.redisClient;
if (group) {
debug("clearing group \"" + target + "\"");
group.forEach(function (key) {
debug("clearing cached entry for \"" + key + "\"");
clearTimeout(timers[key]);
delete timers[key];
if (!globalOptions.redisClient) {
memCache.delete(key);
} else {
try {
redis.del(key);
} catch (err) {
console.log("[apicache] error in redis.del(\"" + key + "\")");
}
}
index.all = index.all.filter(doesntMatch(key));
});
delete index.groups[target];
} else if (target) {
debug("clearing " + (isAutomatic ? "expired" : "cached") + " entry for \"" + target + "\"");
clearTimeout(timers[target]);
delete timers[target];
// clear actual cached entry
if (!redis) {
memCache.delete(target);
} else {
try {
redis.del(target);
} catch (err) {
console.log("[apicache] error in redis.del(\"" + target + "\")");
}
}
// remove from global index
index.all = index.all.filter(doesntMatch(target));
// remove target from each group that it may exist in
Object.keys(index.groups).forEach(function (groupName) {
index.groups[groupName] = index.groups[groupName].filter(doesntMatch(target));
// delete group if now empty
if (!index.groups[groupName].length) {
delete index.groups[groupName];
}
});
} else {
debug("clearing entire index");
if (!redis) {
memCache.clear();
} else {
// clear redis keys one by one from internal index to prevent clearing non-apicache entries
index.all.forEach(function (key) {
clearTimeout(timers[key]);
delete timers[key];
try {
redis.del(key);
} catch (err) {
console.log("[apicache] error in redis.del(\"" + key + "\")");
}
});
}
this.resetIndex();
}
return this.getIndex();
};
function parseDuration(duration, defaultDuration) {
if (typeof duration === "number") {
return duration;
}
if (typeof duration === "string") {
let split = duration.match(/^([\d\.,]+)\s?(\w+)$/);
if (split.length === 3) {
let len = parseFloat(split[1]);
let unit = split[2].replace(/s$/i, "").toLowerCase();
if (unit === "m") {
unit = "ms";
}
return (len || 1) * (t[unit] || 0);
}
}
return defaultDuration;
}
this.getDuration = function (duration) {
return parseDuration(duration, globalOptions.defaultDuration);
};
/**
* Return cache performance statistics (hit rate). Suitable for putting into a route:
* <code>
* app.get('/api/cache/performance', (req, res) => {
* res.json(apicache.getPerformance())
* })
* </code>
*/
this.getPerformance = function () {
return performanceArray.map(function (p) {
return p.report();
});
};
this.getIndex = function (group) {
if (group) {
return index.groups[group];
} else {
return index;
}
};
this.middleware = function cache(strDuration, middlewareToggle, localOptions) {
let duration = instance.getDuration(strDuration);
let opt = {};
middlewareOptions.push({
options: opt,
});
let options = function (localOptions) {
if (localOptions) {
middlewareOptions.find(function (middleware) {
return middleware.options === opt;
}).localOptions = localOptions;
}
syncOptions();
return opt;
};
options(localOptions);
/**
* A Function for non tracking performance
*/
function NOOPCachePerformance() {
this.report = this.hit = this.miss = function () {}; // noop;
}
/**
* A function for tracking and reporting hit rate. These statistics are returned by the getPerformance() call above.
*/
function CachePerformance() {
/**
* Tracks the hit rate for the last 100 requests.
* If there have been fewer than 100 requests, the hit rate just considers the requests that have happened.
*/
this.hitsLast100 = new Uint8Array(100 / 4); // each hit is 2 bits
/**
* Tracks the hit rate for the last 1000 requests.
* If there have been fewer than 1000 requests, the hit rate just considers the requests that have happened.
*/
this.hitsLast1000 = new Uint8Array(1000 / 4); // each hit is 2 bits
/**
* Tracks the hit rate for the last 10000 requests.
* If there have been fewer than 10000 requests, the hit rate just considers the requests that have happened.
*/
this.hitsLast10000 = new Uint8Array(10000 / 4); // each hit is 2 bits
/**
* Tracks the hit rate for the last 100000 requests.
* If there have been fewer than 100000 requests, the hit rate just considers the requests that have happened.
*/
this.hitsLast100000 = new Uint8Array(100000 / 4); // each hit is 2 bits
/**
* The number of calls that have passed through the middleware since the server started.
*/
this.callCount = 0;
/**
* The total number of hits since the server started
*/
this.hitCount = 0;
/**
* The key from the last cache hit. This is useful in identifying which route these statistics apply to.
*/
this.lastCacheHit = null;
/**
* The key from the last cache miss. This is useful in identifying which route these statistics apply to.
*/
this.lastCacheMiss = null;
/**
* Return performance statistics
*/
this.report = function () {
return {
lastCacheHit: this.lastCacheHit,
lastCacheMiss: this.lastCacheMiss,
callCount: this.callCount,
hitCount: this.hitCount,
missCount: this.callCount - this.hitCount,
hitRate: this.callCount == 0 ? null : this.hitCount / this.callCount,
hitRateLast100: this.hitRate(this.hitsLast100),
hitRateLast1000: this.hitRate(this.hitsLast1000),
hitRateLast10000: this.hitRate(this.hitsLast10000),
hitRateLast100000: this.hitRate(this.hitsLast100000),
};
};
/**
* Computes a cache hit rate from an array of hits and misses.
* @param {Uint8Array} array An array representing hits and misses.
* @returns a number between 0 and 1, or null if the array has no hits or misses
*/
this.hitRate = function (array) {
let hits = 0;
let misses = 0;
for (let i = 0; i < array.length; i++) {
let n8 = array[i];
for (let j = 0; j < 4; j++) {
switch (n8 & 3) {
case 1:
hits++;
break;
case 2:
misses++;
break;
}
n8 >>= 2;
}
}
let total = hits + misses;
if (total == 0) {
return null;
}
return hits / total;
};
/**
* Record a hit or miss in the given array. It will be recorded at a position determined
* by the current value of the callCount variable.
* @param {Uint8Array} array An array representing hits and misses.
* @param {boolean} hit true for a hit, false for a miss
* Each element in the array is 8 bits, and encodes 4 hit/miss records.
* Each hit or miss is encoded as to bits as follows:
* 00 means no hit or miss has been recorded in these bits
* 01 encodes a hit
* 10 encodes a miss
*/
this.recordHitInArray = function (array, hit) {
let arrayIndex = ~~(this.callCount / 4) % array.length;
let bitOffset = (this.callCount % 4) * 2; // 2 bits per record, 4 records per uint8 array element
let clearMask = ~(3 << bitOffset);
let record = (hit ? 1 : 2) << bitOffset;
array[arrayIndex] = (array[arrayIndex] & clearMask) | record;
};
/**
* Records the hit or miss in the tracking arrays and increments the call count.
* @param {boolean} hit true records a hit, false records a miss
*/
this.recordHit = function (hit) {
this.recordHitInArray(this.hitsLast100, hit);
this.recordHitInArray(this.hitsLast1000, hit);
this.recordHitInArray(this.hitsLast10000, hit);
this.recordHitInArray(this.hitsLast100000, hit);
if (hit) {
this.hitCount++;
}
this.callCount++;
};
/**
* Records a hit event, setting lastCacheMiss to the given key
* @param {string} key The key that had the cache hit
*/
this.hit = function (key) {
this.recordHit(true);
this.lastCacheHit = key;
};
/**
* Records a miss event, setting lastCacheMiss to the given key
* @param {string} key The key that had the cache miss
*/
this.miss = function (key) {
this.recordHit(false);
this.lastCacheMiss = key;
};
}
let perf = globalOptions.trackPerformance ? new CachePerformance() : new NOOPCachePerformance();
performanceArray.push(perf);
let cache = function (req, res, next) {
function bypass() {
debug("bypass detected, skipping cache.");
return next();
}
// initial bypass chances
if (!opt.enabled) {
return bypass();
}
if (
req.headers["x-apicache-bypass"] ||
req.headers["x-apicache-force-fetch"] ||
(opt.respectCacheControl && req.headers["cache-control"] == "no-cache")
) {
return bypass();
}
// REMOVED IN 0.11.1 TO CORRECT MIDDLEWARE TOGGLE EXECUTE ORDER
// if (typeof middlewareToggle === 'function') {
// if (!middlewareToggle(req, res)) return bypass()
// } else if (middlewareToggle !== undefined && !middlewareToggle) {
// return bypass()
// }
// embed timer
req.apicacheTimer = new Date();
// In Express 4.x the url is ambigious based on where a router is mounted. originalUrl will give the full Url
let key = req.originalUrl || req.url;
// Remove querystring from key if jsonp option is enabled
if (opt.jsonp) {
key = url.parse(key).pathname;
}
// add appendKey (either custom function or response path)
if (typeof opt.appendKey === "function") {
key += "$$appendKey=" + opt.appendKey(req, res);
} else if (opt.appendKey.length > 0) {
let appendKey = req;
for (let i = 0; i < opt.appendKey.length; i++) {
appendKey = appendKey[opt.appendKey[i]];
}
key += "$$appendKey=" + appendKey;
}
// attempt cache hit
let redis = opt.redisClient;
let cached = !redis ? memCache.getValue(key) : null;
// send if cache hit from memory-cache
if (cached) {
let elapsed = new Date() - req.apicacheTimer;
debug("sending cached (memory-cache) version of", key, logDuration(elapsed));
perf.hit(key);
return sendCachedResponse(req, res, cached, middlewareToggle, next, duration);
}
// send if cache hit from redis
if (redis && redis.connected) {
try {
redis.hgetall(key, function (err, obj) {
if (!err && obj && obj.response) {
let elapsed = new Date() - req.apicacheTimer;
debug("sending cached (redis) version of", key, logDuration(elapsed));
perf.hit(key);
return sendCachedResponse(
req,
res,
JSON.parse(obj.response),
middlewareToggle,
next,
duration
);
} else {
perf.miss(key);
return makeResponseCacheable(
req,
res,
next,
key,
duration,
strDuration,
middlewareToggle
);
}
});
} catch (err) {
// bypass redis on error
perf.miss(key);
return makeResponseCacheable(req, res, next, key, duration, strDuration, middlewareToggle);
}
} else {
perf.miss(key);
return makeResponseCacheable(req, res, next, key, duration, strDuration, middlewareToggle);
}
};
cache.options = options;
return cache;
};
this.options = function (options) {
if (options) {
Object.assign(globalOptions, options);
syncOptions();
if ("defaultDuration" in options) {
// Convert the default duration to a number in milliseconds (if needed)
globalOptions.defaultDuration = parseDuration(globalOptions.defaultDuration, 3600000);
}
if (globalOptions.trackPerformance) {
debug("WARNING: using trackPerformance flag can cause high memory usage!");
}
return this;
} else {
return globalOptions;
}
};
this.resetIndex = function () {
index = {
all: [],
groups: {},
};
};
this.newInstance = function (config) {
let instance = new ApiCache();
if (config) {
instance.options(config);
}
return instance;
};
this.clone = function () {
return this.newInstance(this.options());
};
// initialize index
this.resetIndex();
}
module.exports = new ApiCache();