@benchristel/supercrawler
v0.16.0
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A web crawler. Supercrawler automatically crawls websites. Define custom handlers to parse content. Obeys robots.txt, rate limits and concurrency limits.
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Node.js Web Crawler
Supercrawler is a Node.js web crawler. It is designed to be highly configurable and easy to use.
When Supercrawler successfully crawls a page (which could be an image, a text document or any other file), it will fire your custom content-type handlers. Define your own custom handlers to parse pages, save data and do anything else you need.
Features
- Link Detection. Supercrawler will parse crawled HTML documents, identify links and add them to the queue.
- Robots Parsing. Supercrawler will request robots.txt and check the rules before crawling. It will also identify any sitemaps.
- Sitemaps Parsing. Supercrawler will read links from XML sitemap files, and add links to the queue.
- Concurrency Limiting. Supercrawler limits the number of requests sent out at any one time.
- Rate limiting. Supercrawler will add a delay between requests to avoid bombarding servers.
- Exponential Backoff Retry. Supercrawler will retry failed requests after 1 hour, then 2 hours, then 4 hours, etc. To use this feature, you must use the database-backed or Redis-backed crawl queue.
- Hostname Balancing. Supercrawler will fairly split requests between different hostnames. To use this feature, you must use the Redis-backed crawl queue.
How It Works
Crawling is controlled by the an instance of the Crawler
object, which acts like a web client. It is responsible for coordinating with the priority queue, sending requests according to the concurrency and rate limits, checking the robots.txt rules and despatching content to the custom content handlers to be processed. Once started, it will automatically crawl pages until you ask it to stop.
The Priority Queue or UrlList keeps track of which URLs need to be crawled, and the order in which they are to be crawled. The Crawler will pass new URLs discovered by the content handlers to the priority queue. When the crawler is ready to crawl the next page, it will call the getNextUrl
method. This method will work out which URL should be crawled next, based on implementation-specific rules. Any retry logic is handled by the queue.
The Content Handlers are functions which take content buffers and do some further processing with them. You will almost certainly want to create your own content handlers to analyze pages or store data, for example. The content handlers tell the Crawler about new URLs that should be crawled in the future. Supercrawler provides content handlers to parse links from HTML pages, analyze robots.txt files for Sitemap:
directives and parse sitemap files for URLs.
Get Started
First, install Supercrawler.
npm install supercrawler --save
Second, create an instance of Crawler
.
var supercrawler = require("supercrawler");
// 1. Create a new instance of the Crawler
// object, providing configuration details.
// Note that configuration cannot be changed
// after the object is created.
var crawler = new supercrawler.Crawler({
// By default, Supercrawler uses a simple
// FIFO queue, which doesn't support
// retries or memory of rawl state. For
// any non-trivial crawl, you should
// create a database. Provide your database
// config to the constructor of DbUrlList.
urlList: new supercrawler.DbUrlList({
db: {
database: "crawler",
username: "root",
password: secrets.db.password,
sequelizeOpts: {
dialect: "mysql",
host: "localhost"
}
}
}),
// Tme (ms) between requests
interval: 1000,
// Maximum number of requests at any
// one time.
concurrentRequestsLimit: 5,
// Time (ms) to cache the results
// of robots.txt queries.
robotsCacheTime: 3600000,
// Query string to use during the crawl.
userAgent: "Mozilla/5.0 (compatible; supercrawler/1.0; +https://github.com/brendonboshell/supercrawler)"
});
Third, add some content handlers.
// Get "Sitemaps:" directives from robots.txt
crawler.addHandler(supercrawler.handlers.robotsParser());
// Crawl sitemap files and extract their URLs.
crawler.addHandler(supercrawler.handlers.sitemapsParser());
// Pick up <a href> links from HTML documents
crawler.addHandler("text/html", supercrawler.handlers.htmlLinkParser({
// Restrict discovered links to the following hostnames.
hostnames: ["example.com"]
}));
// Custom content handler for HTML pages.
crawler.addHandler("text/html", function (context) {
var sizeKb = Buffer.byteLength(context.body) / 1024;
logger.info("Processed", context.url, "Size=", sizeKb, "KB");
});
Fourth, add a URL to the queue and start the crawl.
crawler.getUrlList()
.insertIfNotExists(new supercrawler.Url("http://example.com/"))
.then(function () {
return crawler.start();
});
That's it! Supercrawler will handle the crawling for you. You only have to define your custom behaviour in the content handlers.
Crawler
Each Crawler
instance represents a web crawler. You can configure your
crawler with the following options:
| Option | Description |
| --- | --- |
| urlList | Custom instance of UrlList
type queue. Defaults to FifoUrlList
, which processes URLs in the order that they were added to the queue; once they are removed from the queue, they cannot be recrawled. |
| interval | Number of milliseconds between requests. Defaults to 1000. |
| concurrentRequestsLimit | Maximum number of concurrent requests. Defaults to 5. |
| robotsCacheTime | Number of milliseconds that robots.txt should be cached for. Defaults to 3600000 (1 hour). |
| userAgent | User agent to use for requests. Defaults to Mozilla/5.0 (compatible; supercrawler/1.0; +https://github.com/brendonboshell/supercrawler)
|
Example usage:
var crawler = new supercrawler.Crawler({
interval: 1000,
concurrentRequestsLimit: 1
});
The following methods are available:
| Method | Description |
| --- | --- |
| getUrlList | Get the UrlList
type instance. |
| getInterval | Get the interval setting. |
| getConcurrentRequestsLimit | Get the maximum number of concurrent requests. |
| getUserAgent | Get the user agent. |
| start | Start crawling. |
| stop | Stop crawling. |
| addHandler(handler) | Add a handler for all content types. |
| addHandler(contentType, handler) | Add a handler for a specific content type. |
The Crawler
object fires the following events:
| Event | Description | | --- | --- | | crawlurl(url) | Fires when crawling starts with a new URL. | | urllistempty | Fires when the URL list is empty. |
DbUrlList
DbUrlList
is a queue backed with a database, such as MySQL, Postgres or SQLite. You can use any database engine supported by Sequelize.
If a request fails, this queue will ensure the request gets retried at some point in the future. The next request is schedule 1 hour into the future. After that, the period of delay doubles for each failure.
Options:
| Option | Description | | --- | --- | | opts.db.database | Database name. | | opts.db.username | Database username. | | opts.db.password | Database password. | | opts.db.sequelizeOpts | Options to pass to sequelize. |
Example usage:
new supercrawler.DbUrlList({
db: {
database: "crawler",
username: "root",
password: "password",
sequelizeOpts: {
dialect: "mysql",
host: "localhost"
}
}
})
The following methods are available:
| Method | Description |
| --- | --- |
| insertIfNotExists(url) | Insert a Url
object. |
| upsert(url) | Upsert Url
object. |
| getNextUrl() | Get the next Url
to be crawled. |
RedisUrlList
RedisUrlList
is a queue backed with Redis.
If a request fails, this queue will ensure the request gets retried at some point in the future. The next request is schedule 1 hour into the future. After that, the period of delay doubles for each failure.
It also balances requests between different hostnames. So, for example, if you crawl a sitemap file with 10,000 URLs, the next 10,000 URLs will not be stuck in the same host.
Options:
| Option | Description | | --- | --- | | opts.redis | Options passed to ioredis. | | opts.delayHalfLifeMs | Hostname delay factor half-life. Requests are delayed by an amount of time proportional to the number of pages crawled for a hostname, but this factor exponentially decays over time. Default = 3600000 (1 hour). | | opts.expiryTimeMs | Amount of time before recrawling a successful URL. Default = 2592000000 (30 days). | | opts.initialRetryTimeMs | Amount of time to wait before first retry after a failed URL. Default = 3600000 (1 hour) |
Example usage:
new supercrawler.DbUrlList({
redis: {
host: "127.0.0.1"
}
})
The following methods are available:
| Method | Description |
| --- | --- |
| insertIfNotExists(url) | Insert a Url
object. |
| upsert(url) | Upsert Url
object. |
| getNextUrl() | Get the next Url
to be crawled. |
FifoUrlList
The FifoUrlList
is the default URL queue powering the crawler. You can add
URLs to the queue, and they will be crawled in the same order (FIFO).
Note that, with this queue, URLs are only crawled once, even if the request
fails. If you need retry functionality, you must use DbUrlList
.
The following methods are available:
| Method | Description |
| --- | --- |
| insertIfNotExists(url) | Insert a Url
object. |
| upsert(url) | Upsert Url
object. |
| getNextUrl() | Get the next Url
to be crawled. |
Url
A Url
represents a URL to be crawled, or a URL that has already been
crawled. It is uniquely identified by an absolute-path URL, but also contains
information about errors and status codes.
| Option | Description |
| --- | --- |
| url | Absolute-path string url |
| statusCode | HTTP status code or null
. |
| errorCode | String error code or null
. |
Example usage:
var url = new supercrawler.Url({
url: "https://example.com"
});
You can also call it just a string URL:
var url = new supercrawler.Url("https://example.com");
The following methods are available:
| Method | Description |
| --- | --- |
| getUniqueId | Get the unique identifier for this object. |
| getUrl | Get the absolute-path string URL. |
| getErrorCode | Get the error code, or null
if it is empty. |
| getStatusCode | Get the status code, or null
if it is empty. |
handlers.htmlLinkParser
A function that returns a handler which parses a HTML page and identifies any links.
| Option | Description | | --- | --- | | hostnames | Array of hostnames that are allowed to be crawled. |
Example usage:
var hlp = supercrawler.handlers.htmlLinkParser({
hostnames: ["example.com"]
});
handlers.robotsParser
A function that returns a handler which parses a robots.txt file. Robots.txt
file are automatically crawled, and sent through the same content handler
routines as any other file. This handler will look for any Sitemap:
directives,
and add those XML sitemaps to the crawl.
It will ignore any files that are not /robots.txt
.
If you want to extract the URLs from those XML sitemaps, you will also need to add a sitemap parser.
| Option | Description |
| --- | --- |
| urlFilter(sitemapUrl, robotsTxtUrl) | Function that takes a URL and returns true
if it should be included. |
Example usage:
var rp = supercrawler.handlers.robotsParser();
crawler.addHandler("text/plain", supercrawler.handlers.robotsParser());
handlers.sitemapsParser
A function that returns a handler which parses an XML sitemaps file. It will
pick up any URLs matching sitemapindex > sitemap > loc, urlset > url > loc
.
It will also handle a gzipped file, since that it part of the sitemaps specification.
| Option | Description |
| --- | --- |
| urlFilter | Function that takes a URL and returns true
if it should be included. |
Example usage:
var sp = supercrawler.handlers.sitemapsParser();
crawler.addHandler(supercrawler.handlers.sitemapsParser());
Changelog
0.16.0
- [Added] Support for
gzipContentTypes
option tositemapsParser
. Example:gzipContentTypes: 'application/gzip'
andgzipContentTypes: ['application/gzip']
.
0.15.1
- [Fixed] Support for multiple "User-agent" lines in robots.txt files
0.15.0
- [Added] Redis based queue.
0.14.0
- [Added] Crawler emits
redirect
,links
andhttpError
events.
### 0.13.1
- [Fixed]
DbUrlList
doesn't fetch the existing record from the database unless there was an error.
0.13.0
- [Added]
errorMessage
column onurls
table that gives more information about, e.g., a handlers error that occurred.
0.12.1
- [Fixed] Downgrade to cheerio 0.19, to fix a memory leak issue.
0.12.0
- [Change] Rather than calling content handlers with (body, url), they are
now called with a single
context
argument. This allows you to pass information forwards via handlers. For example, you might cache thecheerio
parsing so you don't parse with every content handler.
0.11.0
- [Added] Event called
handlersError
is emitted if any of the handlers returns an error.
0.10.4
- [Fixed] Shortend
urlHash
field to 40 characters, in case tables are usingutf8mb4
collations for strings.
0.10.3
- [Fixed] URLs are now crawled in a random order. Improved the
getNextUrl
function ofDbUrlList
to use a more optimized query.
0.10.2
- [Fixed] When content handler throws an exception / rejects a Promise, it will
be marked as an error. (And scheduled for a retry if using
DbUrlList
).
0.10.1
- [Fixed] Request sends
Accept-Encoding: gzip, deflate
header, so the responses arrive compressed (saving data transfer).
0.10.0
- [Added] Support for a custom URL filter on the
robotsParser
function.
0.9.1
- [Fixed] Performance improvement for sitemaps parser. Very large sitemap previous took 25 seconds, now takes 1-2 seconds.
0.9.0
- [Added] Support for a custom URL filter on the
sitemapsParser
function.
0.8.0
- [Changed] Sitemaps parser now extracts
<xhtml:link rel="alternate">
URLs, in addition to the<loc>
URLs.
0.7.0
- [Added] Support for optional
insertIfNotExistsBulk
method which can insert a large list of URLs into the crawl queue. - [Changed]
DbUrlList
supports the bulk insert method.
0.6.1
- [Fix] Support sitemaps with content type
application/gzip
as well asapplication/x-gzip
.
0.6.0
- [Added] Crawler fires the
urllistempty
andcrawlurl
events. It also captures theRangeError
event when the URL list is empty.
0.5.0
- [Changed]
htmlLinkParser
now also picks uplink
tags whererel=alternate
.
0.4.0
- [Changed] Supercrawler no longer follows redirects on crawled URLs. Supercrawler will now add a redirected URL to the queue as a separate entry. We still follow redirects for the
/robots.txt
that is used for checking rules; but not for/robots.txt
added to the queue.
0.3.3
- [Fix]
DbUrlList
to mark a URL as taken, and ensure it never returns a URL that is being crawled in another concurrent request. This has required a new field calledholdDate
on theurl
table
### 0.3.2
- [Fix] Time-based unit tests made more reliable.
0.3.1
- [Added] Support for Travis CI.
0.3.0
- [Added] Content type passed as third argument to all content type handlers.
- [Added] Sitemaps parser to extract sitemap URLs and urlset URLs.
- [Changed] Content handlers receive Buffers rather than strings for the first argument.
- [Fix] Robots.txt checking to work for the first crawled URL. There was a bug that caused robots.txt to be ignored if it wasn't in the cache.
0.2.3
- [Added] A robots.txt parser that identifies
Sitemap:
directives.
0.2.2
- [Fixed] Support for URLs up to 10,000 characters long. This required a new
urlHash
SHA1 field on theurl
table, to support the unique index.
0.2.1
- [Added] Extensive documentation.
0.2.0
- [Added] Status code is updated in the queue for successfully crawled pages (HTTP code < 400).
- [Added] A new error type
error.RequestError
for all errors that occur when requesting a page. - [Added]
DbUrlList
queue object that stores URLs in a SQL database. Includes exponetial backoff retry logic. - [Changed] Interface to
DbUrlList
andFifoUrlList
is now via methodsinsertIfNotExists
,upsert
andgetNextUrl
. Previously, it was justinsert
(which also updated) andupsert
, but we need a way to differentiate between discovered URLs which should not update the crawl state.
0.1.0
- [Added]
Crawler
object, supporting rate limiting, concurrent requests limiting, robots.txt caching. - [Added]
FifoUrlList
object, a first-in, first-out in-memory list of URLs to be crawled. - [Added]
Url
object, representing a URL in the crawl queue. - [Added]
htmlLinkParser
, a function to extract links from crawled HTML documents.