705 lines
28 KiB
Markdown
705 lines
28 KiB
Markdown
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# The Art Of Scripting HTTP Requests Using Curl
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## Background
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This document assumes that you are familiar with HTML and general networking.
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The increasing amount of applications moving to the web has made "HTTP
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Scripting" more frequently requested and wanted. To be able to automatically
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extract information from the web, to fake users, to post or upload data to
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web servers are all important tasks today.
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Curl is a command line tool for doing all sorts of URL manipulations and
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transfers, but this particular document focuses on how to use it when doing
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HTTP requests for fun and profit. This documents assumes that you know how to
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invoke `curl --help` or `curl --manual` to get basic information about it.
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Curl is not written to do everything for you. It makes the requests, it gets
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the data, it sends data and it retrieves the information. You probably need
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to glue everything together using some kind of script language or repeated
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manual invokes.
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## The HTTP Protocol
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HTTP is the protocol used to fetch data from web servers. It is a simple
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protocol that is built upon TCP/IP. The protocol also allows information to
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get sent to the server from the client using a few different methods, as is
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shown here.
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HTTP is plain ASCII text lines being sent by the client to a server to
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request a particular action, and then the server replies a few text lines
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before the actual requested content is sent to the client.
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The client, curl, sends an HTTP request. The request contains a method (like
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GET, POST, HEAD etc), a number of request headers and sometimes a request
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body. The HTTP server responds with a status line (indicating if things went
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well), response headers and most often also a response body. The "body" part
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is the plain data you requested, like the actual HTML or the image etc.
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## See the Protocol
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Using curl's option [`--verbose`](https://curl.se/docs/manpage.html#-v) (`-v`
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as a short option) displays what kind of commands curl sends to the server,
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as well as a few other informational texts.
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`--verbose` is the single most useful option when it comes to debug or even
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understand the curl<->server interaction.
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Sometimes even `--verbose` is not enough. Then
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[`--trace`](https://curl.se/docs/manpage.html#-trace) and
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[`--trace-ascii`](https://curl.se/docs/manpage.html#--trace-ascii)
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offer even more details as they show **everything** curl sends and
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receives. Use it like this:
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curl --trace-ascii debugdump.txt http://www.example.com/
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## See the Timing
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Many times you may wonder what exactly is taking all the time, or you just
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want to know the amount of milliseconds between two points in a transfer. For
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those, and other similar situations, the
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[`--trace-time`](https://curl.se/docs/manpage.html#--trace-time) option is
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what you need. It prepends the time to each trace output line:
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curl --trace-ascii d.txt --trace-time http://example.com/
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## See which Transfer
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When doing parallel transfers, it is relevant to see which transfer is doing
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what. When response headers are received (and logged) you need to know which
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transfer these are for.
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[`--trace-ids`](https://curl.se/docs/manpage.html#--trace-ids) option is what
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you need. It prepends the transfer and connection identifier to each trace
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output line:
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curl --trace-ascii d.txt --trace-ids http://example.com/
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## See the Response
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By default curl sends the response to stdout. You need to redirect it
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somewhere to avoid that, most often that is done with `-o` or `-O`.
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# URL
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## Spec
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The Uniform Resource Locator format is how you specify the address of a
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particular resource on the Internet. You know these, you have seen URLs like
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https://curl.se or https://example.com a million times. RFC 3986 is the
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canonical spec. The formal name is not URL, it is **URI**.
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## Host
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The hostname is usually resolved using DNS or your /etc/hosts file to an IP
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address and that is what curl communicates with. Alternatively you specify
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the IP address directly in the URL instead of a name.
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For development and other trying out situations, you can point to a different
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IP address for a hostname than what would otherwise be used, by using curl's
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[`--resolve`](https://curl.se/docs/manpage.html#--resolve) option:
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curl --resolve www.example.org:80:127.0.0.1 http://www.example.org/
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## Port number
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Each protocol curl supports operates on a default port number, be it over TCP
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or in some cases UDP. Normally you do not have to take that into
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consideration, but at times you run test servers on other ports or
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similar. Then you can specify the port number in the URL with a colon and a
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number immediately following the hostname. Like when doing HTTP to port
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1234:
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curl http://www.example.org:1234/
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The port number you specify in the URL is the number that the server uses to
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offer its services. Sometimes you may use a proxy, and then you may
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need to specify that proxy's port number separately from what curl needs to
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connect to the server. Like when using an HTTP proxy on port 4321:
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curl --proxy http://proxy.example.org:4321 http://remote.example.org/
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## Username and password
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Some services are setup to require HTTP authentication and then you need to
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provide name and password which is then transferred to the remote site in
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various ways depending on the exact authentication protocol used.
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You can opt to either insert the user and password in the URL or you can
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provide them separately:
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curl http://user:password@example.org/
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or
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curl -u user:password http://example.org/
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You need to pay attention that this kind of HTTP authentication is not what
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is usually done and requested by user-oriented websites these days. They tend
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to use forms and cookies instead.
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## Path part
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The path part is just sent off to the server to request that it sends back
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the associated response. The path is what is to the right side of the slash
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that follows the hostname and possibly port number.
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# Fetch a page
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## GET
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The simplest and most common request/operation made using HTTP is to GET a
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URL. The URL could itself refer to a webpage, an image or a file. The client
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issues a GET request to the server and receives the document it asked for.
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If you issue the command line
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curl https://curl.se
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you get a webpage returned in your terminal window. The entire HTML document
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that that URL holds.
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All HTTP replies contain a set of response headers that are normally hidden,
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use curl's [`--include`](https://curl.se/docs/manpage.html#-i) (`-i`)
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option to display them as well as the rest of the document.
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## HEAD
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You can ask the remote server for ONLY the headers by using the
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[`--head`](https://curl.se/docs/manpage.html#-I) (`-I`) option which makes
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curl issue a HEAD request. In some special cases servers deny the HEAD method
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while others still work, which is a particular kind of annoyance.
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The HEAD method is defined and made so that the server returns the headers
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exactly the way it would do for a GET, but without a body. It means that you
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may see a `Content-Length:` in the response headers, but there must not be an
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actual body in the HEAD response.
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## Multiple URLs in a single command line
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A single curl command line may involve one or many URLs. The most common case
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is probably to just use one, but you can specify any amount of URLs. Yes any.
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No limits. You then get requests repeated over and over for all the given
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URLs.
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Example, send two GET requests:
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curl http://url1.example.com http://url2.example.com
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If you use [`--data`](https://curl.se/docs/manpage.html#-d) to POST to
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the URL, using multiple URLs means that you send that same POST to all the
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given URLs.
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Example, send two POSTs:
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curl --data name=curl http://url1.example.com http://url2.example.com
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## Multiple HTTP methods in a single command line
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Sometimes you need to operate on several URLs in a single command line and do
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different HTTP methods on each. For this, you might enjoy the
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[`--next`](https://curl.se/docs/manpage.html#-:) option. It is basically a
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separator that separates a bunch of options from the next. All the URLs
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before `--next` get the same method and get all the POST data merged into
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one.
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When curl reaches the `--next` on the command line, it resets the method and
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the POST data and allow a new set.
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Perhaps this is best shown with a few examples. To send first a HEAD and then
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a GET:
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curl -I http://example.com --next http://example.com
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To first send a POST and then a GET:
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curl -d score=10 http://example.com/post.cgi --next http://example.com/results.html
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# HTML forms
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## Forms explained
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Forms are the general way a website can present an HTML page with fields for
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the user to enter data in, and then press some kind of 'OK' or 'Submit'
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button to get that data sent to the server. The server then typically uses
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the posted data to decide how to act. Like using the entered words to search
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in a database, or to add the info in a bug tracking system, display the
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entered address on a map or using the info as a login-prompt verifying that
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the user is allowed to see what it is about to see.
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Of course there has to be some kind of program on the server end to receive
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the data you send. You cannot just invent something out of the air.
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## GET
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A GET-form uses the method GET, as specified in HTML like:
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```html
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<form method="GET" action="junk.cgi">
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<input type=text name="birthyear">
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<input type=submit name=press value="OK">
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</form>
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```
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In your favorite browser, this form appears with a text box to fill in and a
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press-button labeled "OK". If you fill in '1905' and press the OK button,
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your browser then creates a new URL to get for you. The URL gets
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`junk.cgi?birthyear=1905&press=OK` appended to the path part of the previous
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URL.
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If the original form was seen on the page `www.example.com/when/birth.html`,
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the second page you get becomes
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`www.example.com/when/junk.cgi?birthyear=1905&press=OK`.
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Most search engines work this way.
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To make curl do the GET form post for you, just enter the expected created
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URL:
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curl "http://www.example.com/when/junk.cgi?birthyear=1905&press=OK"
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## POST
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The GET method makes all input field names get displayed in the URL field of
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your browser. That is generally a good thing when you want to be able to
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bookmark that page with your given data, but it is an obvious disadvantage if
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you entered secret information in one of the fields or if there are a large
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amount of fields creating a long and unreadable URL.
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The HTTP protocol then offers the POST method. This way the client sends the
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data separated from the URL and thus you do not see any of it in the URL
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address field.
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The form would look similar to the previous one:
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```html
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<form method="POST" action="junk.cgi">
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<input type=text name="birthyear">
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<input type=submit name=press value=" OK ">
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</form>
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```
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And to use curl to post this form with the same data filled in as before, we
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could do it like:
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curl --data "birthyear=1905&press=%20OK%20" http://www.example.com/when/junk.cgi
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This kind of POST uses the Content-Type `application/x-www-form-urlencoded`
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and is the most widely used POST kind.
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The data you send to the server MUST already be properly encoded, curl does
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not do that for you. For example, if you want the data to contain a space,
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you need to replace that space with `%20`, etc. Failing to comply with this
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most likely causes your data to be received wrongly and messed up.
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Recent curl versions can in fact url-encode POST data for you, like this:
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curl --data-urlencode "name=I am Daniel" http://www.example.com
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If you repeat `--data` several times on the command line, curl concatenates
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all the given data pieces - and put a `&` symbol between each data segment.
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## File Upload POST
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Back in late 1995 they defined an additional way to post data over HTTP. It
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is documented in the RFC 1867, why this method sometimes is referred to as
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RFC 1867-posting.
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This method is mainly designed to better support file uploads. A form that
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allows a user to upload a file could be written like this in HTML:
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<form method="POST" enctype='multipart/form-data' action="upload.cgi">
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<input name=upload type=file>
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<input type=submit name=press value="OK">
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</form>
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This clearly shows that the Content-Type about to be sent is
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`multipart/form-data`.
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To post to a form like this with curl, you enter a command line like:
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curl --form upload=@localfilename --form press=OK [URL]
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## Hidden Fields
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A common way for HTML based applications to pass state information between
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pages is to add hidden fields to the forms. Hidden fields are already filled
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in, they are not displayed to the user and they get passed along just as all
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the other fields.
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A similar example form with one visible field, one hidden field and one
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submit button could look like:
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```html
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<form method="POST" action="foobar.cgi">
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<input type=text name="birthyear">
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<input type=hidden name="person" value="daniel">
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<input type=submit name="press" value="OK">
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</form>
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```
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To POST this with curl, you do not have to think about if the fields are
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hidden or not. To curl they are all the same:
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curl --data "birthyear=1905&press=OK&person=daniel" [URL]
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## Figure Out What A POST Looks Like
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When you are about to fill in a form and send it to a server by using curl
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instead of a browser, you are of course interested in sending a POST exactly
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the way your browser does.
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An easy way to get to see this, is to save the HTML page with the form on
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your local disk, modify the 'method' to a GET, and press the submit button
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(you could also change the action URL if you want to).
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You then clearly see the data get appended to the URL, separated with a
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`?`-letter as GET forms are supposed to.
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# HTTP upload
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## PUT
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Perhaps the best way to upload data to an HTTP server is to use PUT. Then
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again, this of course requires that someone put a program or script on the
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server end that knows how to receive an HTTP PUT stream.
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Put a file to an HTTP server with curl:
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curl --upload-file uploadfile http://www.example.com/receive.cgi
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# HTTP Authentication
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## Basic Authentication
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HTTP Authentication is the ability to tell the server your username and
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password so that it can verify that you are allowed to do the request you are
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doing. The Basic authentication used in HTTP (which is the type curl uses by
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default) is **plain text** based, which means it sends username and password
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only slightly obfuscated, but still fully readable by anyone that sniffs on
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the network between you and the remote server.
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To tell curl to use a user and password for authentication:
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curl --user name:password http://www.example.com
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## Other Authentication
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The site might require a different authentication method (check the headers
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returned by the server), and then
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[`--ntlm`](https://curl.se/docs/manpage.html#--ntlm),
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[`--digest`](https://curl.se/docs/manpage.html#--digest),
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[`--negotiate`](https://curl.se/docs/manpage.html#--negotiate) or even
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[`--anyauth`](https://curl.se/docs/manpage.html#--anyauth) might be
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options that suit you.
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## Proxy Authentication
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Sometimes your HTTP access is only available through the use of an HTTP
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proxy. This seems to be especially common at various companies. An HTTP proxy
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may require its own user and password to allow the client to get through to
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the Internet. To specify those with curl, run something like:
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curl --proxy-user proxyuser:proxypassword curl.se
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If your proxy requires the authentication to be done using the NTLM method,
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use [`--proxy-ntlm`](https://curl.se/docs/manpage.html#--proxy-ntlm), if
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it requires Digest use
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[`--proxy-digest`](https://curl.se/docs/manpage.html#--proxy-digest).
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If you use any one of these user+password options but leave out the password
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part, curl prompts for the password interactively.
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## Hiding credentials
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Do note that when a program is run, its parameters might be possible to see
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when listing the running processes of the system. Thus, other users may be
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able to watch your passwords if you pass them as plain command line
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options. There are ways to circumvent this.
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It is worth noting that while this is how HTTP Authentication works, many
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websites do not use this concept when they provide logins etc. See the Web
|
||
|
Login chapter further below for more details on that.
|
||
|
|
||
|
# More HTTP Headers
|
||
|
|
||
|
## Referer
|
||
|
|
||
|
An HTTP request may include a 'referer' field (yes it is misspelled), which
|
||
|
can be used to tell from which URL the client got to this particular
|
||
|
resource. Some programs/scripts check the referer field of requests to verify
|
||
|
that this was not arriving from an external site or an unknown page. While
|
||
|
this is a stupid way to check something so easily forged, many scripts still
|
||
|
do it. Using curl, you can put anything you want in the referer-field and
|
||
|
thus more easily be able to fool the server into serving your request.
|
||
|
|
||
|
Use curl to set the referer field with:
|
||
|
|
||
|
curl --referer http://www.example.come http://www.example.com
|
||
|
|
||
|
## User Agent
|
||
|
|
||
|
Similar to the referer field, all HTTP requests may set the User-Agent
|
||
|
field. It names what user agent (client) that is being used. Many
|
||
|
applications use this information to decide how to display pages. Silly web
|
||
|
programmers try to make different pages for users of different browsers to
|
||
|
make them look the best possible for their particular browsers. They usually
|
||
|
also do different kinds of JavaScript etc.
|
||
|
|
||
|
At times, you may learn that getting a page with curl does not return the
|
||
|
same page that you see when getting the page with your browser. Then you know
|
||
|
it is time to set the User Agent field to fool the server into thinking you
|
||
|
are one of those browsers.
|
||
|
|
||
|
To make curl look like Internet Explorer 5 on a Windows 2000 box:
|
||
|
|
||
|
curl --user-agent "Mozilla/4.0 (compatible; MSIE 5.01; Windows NT 5.0)" [URL]
|
||
|
|
||
|
Or why not look like you are using Netscape 4.73 on an old Linux box:
|
||
|
|
||
|
curl --user-agent "Mozilla/4.73 [en] (X11; U; Linux 2.2.15 i686)" [URL]
|
||
|
|
||
|
## Redirects
|
||
|
|
||
|
## Location header
|
||
|
|
||
|
When a resource is requested from a server, the reply from the server may
|
||
|
include a hint about where the browser should go next to find this page, or a
|
||
|
new page keeping newly generated output. The header that tells the browser to
|
||
|
redirect is `Location:`.
|
||
|
|
||
|
Curl does not follow `Location:` headers by default, but simply displays such
|
||
|
pages in the same manner it displays all HTTP replies. It does however
|
||
|
feature an option that makes it attempt to follow the `Location:` pointers.
|
||
|
|
||
|
To tell curl to follow a Location:
|
||
|
|
||
|
curl --location http://www.example.com
|
||
|
|
||
|
If you use curl to POST to a site that immediately redirects you to another
|
||
|
page, you can safely use [`--location`](https://curl.se/docs/manpage.html#-L)
|
||
|
(`-L`) and `--data`/`--form` together. Curl only uses POST in the first
|
||
|
request, and then revert to GET in the following operations.
|
||
|
|
||
|
## Other redirects
|
||
|
|
||
|
Browsers typically support at least two other ways of redirects that curl
|
||
|
does not: first the html may contain a meta refresh tag that asks the browser
|
||
|
to load a specific URL after a set number of seconds, or it may use
|
||
|
JavaScript to do it.
|
||
|
|
||
|
# Cookies
|
||
|
|
||
|
## Cookie Basics
|
||
|
|
||
|
The way the web browsers do "client side state control" is by using
|
||
|
cookies. Cookies are just names with associated contents. The cookies are
|
||
|
sent to the client by the server. The server tells the client for what path
|
||
|
and hostname it wants the cookie sent back, and it also sends an expiration
|
||
|
date and a few more properties.
|
||
|
|
||
|
When a client communicates with a server with a name and path as previously
|
||
|
specified in a received cookie, the client sends back the cookies and their
|
||
|
contents to the server, unless of course they are expired.
|
||
|
|
||
|
Many applications and servers use this method to connect a series of requests
|
||
|
into a single logical session. To be able to use curl in such occasions, we
|
||
|
must be able to record and send back cookies the way the web application
|
||
|
expects them. The same way browsers deal with them.
|
||
|
|
||
|
## Cookie options
|
||
|
|
||
|
The simplest way to send a few cookies to the server when getting a page with
|
||
|
curl is to add them on the command line like:
|
||
|
|
||
|
curl --cookie "name=Daniel" http://www.example.com
|
||
|
|
||
|
Cookies are sent as common HTTP headers. This is practical as it allows curl
|
||
|
to record cookies simply by recording headers. Record cookies with curl by
|
||
|
using the [`--dump-header`](https://curl.se/docs/manpage.html#-D) (`-D`)
|
||
|
option like:
|
||
|
|
||
|
curl --dump-header headers_and_cookies http://www.example.com
|
||
|
|
||
|
(Take note that the
|
||
|
[`--cookie-jar`](https://curl.se/docs/manpage.html#-c) option described
|
||
|
below is a better way to store cookies.)
|
||
|
|
||
|
Curl has a full blown cookie parsing engine built-in that comes in use if you
|
||
|
want to reconnect to a server and use cookies that were stored from a
|
||
|
previous connection (or hand-crafted manually to fool the server into
|
||
|
believing you had a previous connection). To use previously stored cookies,
|
||
|
you run curl like:
|
||
|
|
||
|
curl --cookie stored_cookies_in_file http://www.example.com
|
||
|
|
||
|
Curl's "cookie engine" gets enabled when you use the
|
||
|
[`--cookie`](https://curl.se/docs/manpage.html#-b) option. If you only
|
||
|
want curl to understand received cookies, use `--cookie` with a file that
|
||
|
does not exist. Example, if you want to let curl understand cookies from a
|
||
|
page and follow a location (and thus possibly send back cookies it received),
|
||
|
you can invoke it like:
|
||
|
|
||
|
curl --cookie nada --location http://www.example.com
|
||
|
|
||
|
Curl has the ability to read and write cookie files that use the same file
|
||
|
format that Netscape and Mozilla once used. It is a convenient way to share
|
||
|
cookies between scripts or invokes. The `--cookie` (`-b`) switch
|
||
|
automatically detects if a given file is such a cookie file and parses it,
|
||
|
and by using the `--cookie-jar` (`-c`) option you make curl write a new
|
||
|
cookie file at the end of an operation:
|
||
|
|
||
|
curl --cookie cookies.txt --cookie-jar newcookies.txt \
|
||
|
http://www.example.com
|
||
|
|
||
|
# HTTPS
|
||
|
|
||
|
## HTTPS is HTTP secure
|
||
|
|
||
|
There are a few ways to do secure HTTP transfers. By far the most common
|
||
|
protocol for doing this is what is generally known as HTTPS, HTTP over
|
||
|
SSL. SSL encrypts all the data that is sent and received over the network and
|
||
|
thus makes it harder for attackers to spy on sensitive information.
|
||
|
|
||
|
SSL (or TLS as the current version of the standard is called) offers a set of
|
||
|
advanced features to do secure transfers over HTTP.
|
||
|
|
||
|
Curl supports encrypted fetches when built to use a TLS library and it can be
|
||
|
built to use one out of a fairly large set of libraries - `curl -V` shows
|
||
|
which one your curl was built to use (if any!). To get a page from an HTTPS
|
||
|
server, simply run curl like:
|
||
|
|
||
|
curl https://secure.example.com
|
||
|
|
||
|
## Certificates
|
||
|
|
||
|
In the HTTPS world, you use certificates to validate that you are the one
|
||
|
you claim to be, as an addition to normal passwords. Curl supports client-
|
||
|
side certificates. All certificates are locked with a pass phrase, which you
|
||
|
need to enter before the certificate can be used by curl. The pass phrase
|
||
|
can be specified on the command line or if not, entered interactively when
|
||
|
curl queries for it. Use a certificate with curl on an HTTPS server like:
|
||
|
|
||
|
curl --cert mycert.pem https://secure.example.com
|
||
|
|
||
|
curl also tries to verify that the server is who it claims to be, by
|
||
|
verifying the server's certificate against a locally stored CA cert bundle.
|
||
|
Failing the verification causes curl to deny the connection. You must then
|
||
|
use [`--insecure`](https://curl.se/docs/manpage.html#-k) (`-k`) in case you
|
||
|
want to tell curl to ignore that the server cannot be verified.
|
||
|
|
||
|
More about server certificate verification and ca cert bundles can be read in
|
||
|
the [`SSLCERTS` document](https://curl.se/docs/sslcerts.html).
|
||
|
|
||
|
At times you may end up with your own CA cert store and then you can tell
|
||
|
curl to use that to verify the server's certificate:
|
||
|
|
||
|
curl --cacert ca-bundle.pem https://example.com/
|
||
|
|
||
|
# Custom Request Elements
|
||
|
|
||
|
## Modify method and headers
|
||
|
|
||
|
Doing fancy stuff, you may need to add or change elements of a single curl
|
||
|
request.
|
||
|
|
||
|
For example, you can change the POST method to `PROPFIND` and send the data
|
||
|
as `Content-Type: text/xml` (instead of the default `Content-Type`) like
|
||
|
this:
|
||
|
|
||
|
curl --data "<xml>" --header "Content-Type: text/xml" \
|
||
|
--request PROPFIND example.com
|
||
|
|
||
|
You can delete a default header by providing one without content. Like you
|
||
|
can ruin the request by chopping off the `Host:` header:
|
||
|
|
||
|
curl --header "Host:" http://www.example.com
|
||
|
|
||
|
You can add headers the same way. Your server may want a `Destination:`
|
||
|
header, and you can add it:
|
||
|
|
||
|
curl --header "Destination: http://nowhere" http://example.com
|
||
|
|
||
|
## More on changed methods
|
||
|
|
||
|
It should be noted that curl selects which methods to use on its own
|
||
|
depending on what action to ask for. `-d` makes a POST, `-I` makes a HEAD and
|
||
|
so on. If you use the [`--request`](https://curl.se/docs/manpage.html#-X) /
|
||
|
`-X` option you can change the method keyword curl selects, but you do not
|
||
|
modify curl's behavior. This means that if you for example use -d "data" to
|
||
|
do a POST, you can modify the method to a `PROPFIND` with `-X` and curl still
|
||
|
thinks it sends a POST. You can change the normal GET to a POST method by
|
||
|
simply adding `-X POST` in a command line like:
|
||
|
|
||
|
curl -X POST http://example.org/
|
||
|
|
||
|
curl however still acts as if it sent a GET so it does not send any request
|
||
|
body etc.
|
||
|
|
||
|
# Web Login
|
||
|
|
||
|
## Some login tricks
|
||
|
|
||
|
While not strictly just HTTP related, it still causes a lot of people
|
||
|
problems so here's the executive run-down of how the vast majority of all
|
||
|
login forms work and how to login to them using curl.
|
||
|
|
||
|
It can also be noted that to do this properly in an automated fashion, you
|
||
|
most certainly need to script things and do multiple curl invokes etc.
|
||
|
|
||
|
First, servers mostly use cookies to track the logged-in status of the
|
||
|
client, so you need to capture the cookies you receive in the responses.
|
||
|
Then, many sites also set a special cookie on the login page (to make sure
|
||
|
you got there through their login page) so you should make a habit of first
|
||
|
getting the login-form page to capture the cookies set there.
|
||
|
|
||
|
Some web-based login systems feature various amounts of JavaScript, and
|
||
|
sometimes they use such code to set or modify cookie contents. Possibly they
|
||
|
do that to prevent programmed logins, like this manual describes how to...
|
||
|
Anyway, if reading the code is not enough to let you repeat the behavior
|
||
|
manually, capturing the HTTP requests done by your browsers and analyzing the
|
||
|
sent cookies is usually a working method to work out how to shortcut the
|
||
|
JavaScript need.
|
||
|
|
||
|
In the actual `<form>` tag for the login, lots of sites fill-in
|
||
|
random/session or otherwise secretly generated hidden tags and you may need
|
||
|
to first capture the HTML code for the login form and extract all the hidden
|
||
|
fields to be able to do a proper login POST. Remember that the contents need
|
||
|
to be URL encoded when sent in a normal POST.
|
||
|
|
||
|
# Debug
|
||
|
|
||
|
## Some debug tricks
|
||
|
|
||
|
Many times when you run curl on a site, you notice that the site does not
|
||
|
seem to respond the same way to your curl requests as it does to your
|
||
|
browser's.
|
||
|
|
||
|
Then you need to start making your curl requests more similar to your
|
||
|
browser's requests:
|
||
|
|
||
|
- Use the `--trace-ascii` option to store fully detailed logs of the requests
|
||
|
for easier analyzing and better understanding
|
||
|
|
||
|
- Make sure you check for and use cookies when needed (both reading with
|
||
|
`--cookie` and writing with `--cookie-jar`)
|
||
|
|
||
|
- Set user-agent (with [`-A`](https://curl.se/docs/manpage.html#-A)) to
|
||
|
one like a recent popular browser does
|
||
|
|
||
|
- Set referer (with [`-E`](https://curl.se/docs/manpage.html#-E)) like
|
||
|
it is set by the browser
|
||
|
|
||
|
- If you use POST, make sure you send all the fields and in the same order as
|
||
|
the browser does it.
|
||
|
|
||
|
## Check what the browsers do
|
||
|
|
||
|
A good helper to make sure you do this right, is the web browsers' developers
|
||
|
tools that let you view all headers you send and receive (even when using
|
||
|
HTTPS).
|
||
|
|
||
|
A more raw approach is to capture the HTTP traffic on the network with tools
|
||
|
such as Wireshark or tcpdump and check what headers that were sent and
|
||
|
received by the browser. (HTTPS forces you to use `SSLKEYLOGFILE` to do
|
||
|
that.)
|