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1346 lines
61 KiB
Groff
1346 lines
61 KiB
Groff
.\" **************************************************************************
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.\" * _ _ ____ _
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.\" * Project ___| | | | _ \| |
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.\" * / __| | | | |_) | |
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.\" * | (__| |_| | _ <| |___
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.\" * \___|\___/|_| \_\_____|
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.\" *
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.\" * Copyright (C) 1998 - 2009, Daniel Stenberg, <daniel@haxx.se>, et al.
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.\" *
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.\" * This software is licensed as described in the file COPYING, which
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.\" * you should have received as part of this distribution. The terms
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.\" * are also available at http://curl.haxx.se/docs/copyright.html.
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.\" *
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.\" * You may opt to use, copy, modify, merge, publish, distribute and/or sell
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.\" * copies of the Software, and permit persons to whom the Software is
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.\" * furnished to do so, under the terms of the COPYING file.
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.\" *
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.\" * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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.\" * KIND, either express or implied.
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.\" *
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.\" * $Id$
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.\" **************************************************************************
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.\"
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.TH libcurl-tutorial 3 "4 Mar 2009" "libcurl" "libcurl programming"
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.SH NAME
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libcurl-tutorial \- libcurl programming tutorial
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.SH "Objective"
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This document attempts to describe the general principles and some basic
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approaches to consider when programming with libcurl. The text will focus
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mainly on the C interface but might apply fairly well on other interfaces as
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well as they usually follow the C one pretty closely.
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This document will refer to 'the user' as the person writing the source code
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that uses libcurl. That would probably be you or someone in your position.
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What will be generally referred to as 'the program' will be the collected
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source code that you write that is using libcurl for transfers. The program
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is outside libcurl and libcurl is outside of the program.
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To get more details on all options and functions described herein, please
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refer to their respective man pages.
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.SH "Building"
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There are many different ways to build C programs. This chapter will assume a
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UNIX-style build process. If you use a different build system, you can still
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read this to get general information that may apply to your environment as
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well.
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.IP "Compiling the Program"
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Your compiler needs to know where the libcurl headers are located. Therefore
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you must set your compiler's include path to point to the directory where you
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installed them. The 'curl-config'[3] tool can be used to get this information:
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$ curl-config --cflags
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.IP "Linking the Program with libcurl"
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When having compiled the program, you need to link your object files to create
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a single executable. For that to succeed, you need to link with libcurl and
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possibly also with other libraries that libcurl itself depends on. Like the
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OpenSSL libraries, but even some standard OS libraries may be needed on the
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command line. To figure out which flags to use, once again the 'curl-config'
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tool comes to the rescue:
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$ curl-config --libs
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.IP "SSL or Not"
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libcurl can be built and customized in many ways. One of the things that
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varies from different libraries and builds is the support for SSL-based
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transfers, like HTTPS and FTPS. If a supported SSL library was detected
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properly at build-time, libcurl will be built with SSL support. To figure out
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if an installed libcurl has been built with SSL support enabled, use
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\&'curl-config' like this:
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$ curl-config --feature
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And if SSL is supported, the keyword 'SSL' will be written to stdout,
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possibly together with a few other features that could be either on or off on
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for different libcurls.
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See also the "Features libcurl Provides" further down.
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.IP "autoconf macro"
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When you write your configure script to detect libcurl and setup variables
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accordingly, we offer a prewritten macro that probably does everything you
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need in this area. See docs/libcurl/libcurl.m4 file - it includes docs on how
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to use it.
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.SH "Portable Code in a Portable World"
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The people behind libcurl have put a considerable effort to make libcurl work
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on a large amount of different operating systems and environments.
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You program libcurl the same way on all platforms that libcurl runs on. There
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are only very few minor considerations that differ. If you just make sure to
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write your code portable enough, you may very well create yourself a very
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portable program. libcurl shouldn't stop you from that.
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.SH "Global Preparation"
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The program must initialize some of the libcurl functionality globally. That
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means it should be done exactly once, no matter how many times you intend to
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use the library. Once for your program's entire life time. This is done using
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curl_global_init()
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and it takes one parameter which is a bit pattern that tells libcurl what to
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initialize. Using \fICURL_GLOBAL_ALL\fP will make it initialize all known
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internal sub modules, and might be a good default option. The current two bits
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that are specified are:
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.RS
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.IP "CURL_GLOBAL_WIN32"
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which only does anything on Windows machines. When used on
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a Windows machine, it'll make libcurl initialize the win32 socket
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stuff. Without having that initialized properly, your program cannot use
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sockets properly. You should only do this once for each application, so if
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your program already does this or of another library in use does it, you
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should not tell libcurl to do this as well.
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.IP CURL_GLOBAL_SSL
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which only does anything on libcurls compiled and built SSL-enabled. On these
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systems, this will make libcurl initialize the SSL library properly for this
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application. This only needs to be done once for each application so if your
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program or another library already does this, this bit should not be needed.
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.RE
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libcurl has a default protection mechanism that detects if
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\fIcurl_global_init(3)\fP hasn't been called by the time
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\fIcurl_easy_perform(3)\fP is called and if that is the case, libcurl runs the
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function itself with a guessed bit pattern. Please note that depending solely
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on this is not considered nice nor very good.
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When the program no longer uses libcurl, it should call
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\fIcurl_global_cleanup(3)\fP, which is the opposite of the init call. It will
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then do the reversed operations to cleanup the resources the
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\fIcurl_global_init(3)\fP call initialized.
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Repeated calls to \fIcurl_global_init(3)\fP and \fIcurl_global_cleanup(3)\fP
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should be avoided. They should only be called once each.
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.SH "Features libcurl Provides"
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It is considered best-practice to determine libcurl features at run-time
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rather than at build-time (if possible of course). By calling
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\fIcurl_version_info(3)\fP and checking out the details of the returned
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struct, your program can figure out exactly what the currently running libcurl
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supports.
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.SH "Handle the Easy libcurl"
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libcurl first introduced the so called easy interface. All operations in the
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easy interface are prefixed with 'curl_easy'.
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Recent libcurl versions also offer the multi interface. More about that
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interface, what it is targeted for and how to use it is detailed in a separate
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chapter further down. You still need to understand the easy interface first,
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so please continue reading for better understanding.
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To use the easy interface, you must first create yourself an easy handle. You
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need one handle for each easy session you want to perform. Basically, you
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should use one handle for every thread you plan to use for transferring. You
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must never share the same handle in multiple threads.
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Get an easy handle with
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easyhandle = curl_easy_init();
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It returns an easy handle. Using that you proceed to the next step: setting
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up your preferred actions. A handle is just a logic entity for the upcoming
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transfer or series of transfers.
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You set properties and options for this handle using
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\fIcurl_easy_setopt(3)\fP. They control how the subsequent transfer or
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transfers will be made. Options remain set in the handle until set again to
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something different. Alas, multiple requests using the same handle will use
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the same options.
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Many of the options you set in libcurl are "strings", pointers to data
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terminated with a zero byte. When you set strings with
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\fIcurl_easy_setopt(3)\fP, libcurl makes its own copy so that they don't
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need to be kept around in your application after being set[4].
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One of the most basic properties to set in the handle is the URL. You set
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your preferred URL to transfer with CURLOPT_URL in a manner similar to:
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.nf
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curl_easy_setopt(handle, CURLOPT_URL, "http://domain.com/");
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.fi
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Let's assume for a while that you want to receive data as the URL identifies a
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remote resource you want to get here. Since you write a sort of application
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that needs this transfer, I assume that you would like to get the data passed
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to you directly instead of simply getting it passed to stdout. So, you write
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your own function that matches this prototype:
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size_t write_data(void *buffer, size_t size, size_t nmemb, void *userp);
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You tell libcurl to pass all data to this function by issuing a function
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similar to this:
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curl_easy_setopt(easyhandle, CURLOPT_WRITEFUNCTION, write_data);
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You can control what data your callback function gets in the fourth argument
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by setting another property:
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curl_easy_setopt(easyhandle, CURLOPT_WRITEDATA, &internal_struct);
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Using that property, you can easily pass local data between your application
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and the function that gets invoked by libcurl. libcurl itself won't touch the
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data you pass with \fICURLOPT_WRITEDATA\fP.
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libcurl offers its own default internal callback that will take care of the data
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if you don't set the callback with \fICURLOPT_WRITEFUNCTION\fP. It will then
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simply output the received data to stdout. You can have the default callback
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write the data to a different file handle by passing a 'FILE *' to a file
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opened for writing with the \fICURLOPT_WRITEDATA\fP option.
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Now, we need to take a step back and have a deep breath. Here's one of those
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rare platform-dependent nitpicks. Did you spot it? On some platforms[2],
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libcurl won't be able to operate on files opened by the program. Thus, if you
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use the default callback and pass in an open file with
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\fICURLOPT_WRITEDATA\fP, it will crash. You should therefore avoid this to
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make your program run fine virtually everywhere.
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(\fICURLOPT_WRITEDATA\fP was formerly known as \fICURLOPT_FILE\fP. Both names
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still work and do the same thing).
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If you're using libcurl as a win32 DLL, you MUST use the
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\fICURLOPT_WRITEFUNCTION\fP if you set \fICURLOPT_WRITEDATA\fP - or you will
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experience crashes.
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There are of course many more options you can set, and we'll get back to a few
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of them later. Let's instead continue to the actual transfer:
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success = curl_easy_perform(easyhandle);
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\fIcurl_easy_perform(3)\fP will connect to the remote site, do the necessary
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commands and receive the transfer. Whenever it receives data, it calls the
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callback function we previously set. The function may get one byte at a time,
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or it may get many kilobytes at once. libcurl delivers as much as possible as
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often as possible. Your callback function should return the number of bytes it
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\&"took care of". If that is not the exact same amount of bytes that was
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passed to it, libcurl will abort the operation and return with an error code.
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When the transfer is complete, the function returns a return code that informs
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you if it succeeded in its mission or not. If a return code isn't enough for
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you, you can use the CURLOPT_ERRORBUFFER to point libcurl to a buffer of yours
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where it'll store a human readable error message as well.
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If you then want to transfer another file, the handle is ready to be used
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again. Mind you, it is even preferred that you re-use an existing handle if
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you intend to make another transfer. libcurl will then attempt to re-use the
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previous connection.
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For some protocols, downloading a file can involve a complicated process of
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logging in, setting the transfer mode, changing the current directory and
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finally transferring the file data. libcurl takes care of all that
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complication for you. Given simply the URL to a file, libcurl will take care
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of all the details needed to get the file moved from one machine to another.
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.SH "Multi-threading Issues"
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The first basic rule is that you must \fBnever\fP share a libcurl handle (be
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it easy or multi or whatever) between multiple threads. Only use one handle in
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one thread at a time.
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libcurl is completely thread safe, except for two issues: signals and SSL/TLS
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handlers. Signals are used for timing out name resolves (during DNS lookup) -
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when built without c-ares support and not on Windows.
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If you are accessing HTTPS or FTPS URLs in a multi-threaded manner, you are
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then of course using the underlying SSL library multi-threaded and those libs
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might have their own requirements on this issue. Basically, you need to
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provide one or two functions to allow it to function properly. For all
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details, see this:
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OpenSSL
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http://www.openssl.org/docs/crypto/threads.html#DESCRIPTION
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GnuTLS
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http://www.gnu.org/software/gnutls/manual/html_node/Multi_002dthreaded-applications.html
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NSS
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is claimed to be thread-safe already without anything required.
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yassl
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Required actions unknown.
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When using multiple threads you should set the CURLOPT_NOSIGNAL option to 1
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for all handles. Everything will or might work fine except that timeouts are
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not honored during the DNS lookup - which you can work around by building
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libcurl with c-ares support. c-ares is a library that provides asynchronous
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name resolves. On some platforms, libcurl simply will not function properly
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multi-threaded unless this option is set.
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Also, note that CURLOPT_DNS_USE_GLOBAL_CACHE is not thread-safe.
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.SH "When It Doesn't Work"
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There will always be times when the transfer fails for some reason. You might
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have set the wrong libcurl option or misunderstood what the libcurl option
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actually does, or the remote server might return non-standard replies that
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confuse the library which then confuses your program.
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There's one golden rule when these things occur: set the CURLOPT_VERBOSE
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option to 1. It'll cause the library to spew out the entire protocol
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details it sends, some internal info and some received protocol data as well
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(especially when using FTP). If you're using HTTP, adding the headers in the
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received output to study is also a clever way to get a better understanding
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why the server behaves the way it does. Include headers in the normal body
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output with CURLOPT_HEADER set 1.
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Of course, there are bugs left. We need to know about them to be able
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to fix them, so we're quite dependent on your bug reports! When you do report
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suspected bugs in libcurl, please include as many details as you possibly can: a
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protocol dump that CURLOPT_VERBOSE produces, library version, as much as
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possible of your code that uses libcurl, operating system name and version,
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compiler name and version etc.
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If CURLOPT_VERBOSE is not enough, you increase the level of debug data your
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application receive by using the CURLOPT_DEBUGFUNCTION.
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Getting some in-depth knowledge about the protocols involved is never wrong,
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and if you're trying to do funny things, you might very well understand
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libcurl and how to use it better if you study the appropriate RFC documents
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at least briefly.
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.SH "Upload Data to a Remote Site"
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libcurl tries to keep a protocol independent approach to most transfers, thus
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uploading to a remote FTP site is very similar to uploading data to a HTTP
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server with a PUT request.
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Of course, first you either create an easy handle or you re-use one existing
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one. Then you set the URL to operate on just like before. This is the remote
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URL, that we now will upload.
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Since we write an application, we most likely want libcurl to get the upload
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data by asking us for it. To make it do that, we set the read callback and
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the custom pointer libcurl will pass to our read callback. The read callback
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should have a prototype similar to:
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size_t function(char *bufptr, size_t size, size_t nitems, void *userp);
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Where bufptr is the pointer to a buffer we fill in with data to upload and
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size*nitems is the size of the buffer and therefore also the maximum amount
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of data we can return to libcurl in this call. The 'userp' pointer is the
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custom pointer we set to point to a struct of ours to pass private data
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between the application and the callback.
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curl_easy_setopt(easyhandle, CURLOPT_READFUNCTION, read_function);
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curl_easy_setopt(easyhandle, CURLOPT_READDATA, &filedata);
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Tell libcurl that we want to upload:
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curl_easy_setopt(easyhandle, CURLOPT_UPLOAD, 1L);
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A few protocols won't behave properly when uploads are done without any prior
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knowledge of the expected file size. So, set the upload file size using the
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CURLOPT_INFILESIZE_LARGE for all known file sizes like this[1]:
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.nf
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/* in this example, file_size must be an curl_off_t variable */
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curl_easy_setopt(easyhandle, CURLOPT_INFILESIZE_LARGE, file_size);
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.fi
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When you call \fIcurl_easy_perform(3)\fP this time, it'll perform all the
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necessary operations and when it has invoked the upload it'll call your
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supplied callback to get the data to upload. The program should return as much
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data as possible in every invoke, as that is likely to make the upload perform
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as fast as possible. The callback should return the number of bytes it wrote
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in the buffer. Returning 0 will signal the end of the upload.
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.SH "Passwords"
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Many protocols use or even require that user name and password are provided
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to be able to download or upload the data of your choice. libcurl offers
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several ways to specify them.
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Most protocols support that you specify the name and password in the URL
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itself. libcurl will detect this and use them accordingly. This is written
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like this:
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protocol://user:password@example.com/path/
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If you need any odd letters in your user name or password, you should enter
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them URL encoded, as %XX where XX is a two-digit hexadecimal number.
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libcurl also provides options to set various passwords. The user name and
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password as shown embedded in the URL can instead get set with the
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CURLOPT_USERPWD option. The argument passed to libcurl should be a char * to
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a string in the format "user:password". In a manner like this:
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curl_easy_setopt(easyhandle, CURLOPT_USERPWD, "myname:thesecret");
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Another case where name and password might be needed at times, is for those
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users who need to authenticate themselves to a proxy they use. libcurl offers
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another option for this, the CURLOPT_PROXYUSERPWD. It is used quite similar
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to the CURLOPT_USERPWD option like this:
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curl_easy_setopt(easyhandle, CURLOPT_PROXYUSERPWD, "myname:thesecret");
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There's a long time UNIX "standard" way of storing ftp user names and
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passwords, namely in the $HOME/.netrc file. The file should be made private
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so that only the user may read it (see also the "Security Considerations"
|
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chapter), as it might contain the password in plain text. libcurl has the
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ability to use this file to figure out what set of user name and password to
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use for a particular host. As an extension to the normal functionality,
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libcurl also supports this file for non-FTP protocols such as HTTP. To make
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curl use this file, use the CURLOPT_NETRC option:
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curl_easy_setopt(easyhandle, CURLOPT_NETRC, 1L);
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And a very basic example of how such a .netrc file may look like:
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.nf
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machine myhost.mydomain.com
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login userlogin
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password secretword
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.fi
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All these examples have been cases where the password has been optional, or
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at least you could leave it out and have libcurl attempt to do its job
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without it. There are times when the password isn't optional, like when
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you're using an SSL private key for secure transfers.
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To pass the known private key password to libcurl:
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curl_easy_setopt(easyhandle, CURLOPT_KEYPASSWD, "keypassword");
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.SH "HTTP Authentication"
|
|
The previous chapter showed how to set user name and password for getting
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URLs that require authentication. When using the HTTP protocol, there are
|
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many different ways a client can provide those credentials to the server and
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you can control which way libcurl will (attempt to) use them. The default HTTP
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authentication method is called 'Basic', which is sending the name and
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password in clear-text in the HTTP request, base64-encoded. This is insecure.
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At the time of this writing, libcurl can be built to use: Basic, Digest, NTLM,
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Negotiate, GSS-Negotiate and SPNEGO. You can tell libcurl which one to use
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with CURLOPT_HTTPAUTH as in:
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curl_easy_setopt(easyhandle, CURLOPT_HTTPAUTH, CURLAUTH_DIGEST);
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And when you send authentication to a proxy, you can also set authentication
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type the same way but instead with CURLOPT_PROXYAUTH:
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curl_easy_setopt(easyhandle, CURLOPT_PROXYAUTH, CURLAUTH_NTLM);
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|
|
Both these options allow you to set multiple types (by ORing them together),
|
|
to make libcurl pick the most secure one out of the types the server/proxy
|
|
claims to support. This method does however add a round-trip since libcurl
|
|
must first ask the server what it supports:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTPAUTH,
|
|
CURLAUTH_DIGEST|CURLAUTH_BASIC);
|
|
|
|
For convenience, you can use the 'CURLAUTH_ANY' define (instead of a list
|
|
with specific types) which allows libcurl to use whatever method it wants.
|
|
|
|
When asking for multiple types, libcurl will pick the available one it
|
|
considers "best" in its own internal order of preference.
|
|
|
|
.SH "HTTP POSTing"
|
|
We get many questions regarding how to issue HTTP POSTs with libcurl the
|
|
proper way. This chapter will thus include examples using both different
|
|
versions of HTTP POST that libcurl supports.
|
|
|
|
The first version is the simple POST, the most common version, that most HTML
|
|
pages using the <form> tag uses. We provide a pointer to the data and tell
|
|
libcurl to post it all to the remote site:
|
|
|
|
.nf
|
|
char *data="name=daniel&project=curl";
|
|
curl_easy_setopt(easyhandle, CURLOPT_POSTFIELDS, data);
|
|
curl_easy_setopt(easyhandle, CURLOPT_URL, "http://posthere.com/");
|
|
|
|
curl_easy_perform(easyhandle); /* post away! */
|
|
.fi
|
|
|
|
Simple enough, huh? Since you set the POST options with the
|
|
CURLOPT_POSTFIELDS, this automatically switches the handle to use POST in the
|
|
upcoming request.
|
|
|
|
Ok, so what if you want to post binary data that also requires you to set the
|
|
Content-Type: header of the post? Well, binary posts prevent libcurl from
|
|
being able to do strlen() on the data to figure out the size, so therefore we
|
|
must tell libcurl the size of the post data. Setting headers in libcurl
|
|
requests are done in a generic way, by building a list of our own headers and
|
|
then passing that list to libcurl.
|
|
|
|
.nf
|
|
struct curl_slist *headers=NULL;
|
|
headers = curl_slist_append(headers, "Content-Type: text/xml");
|
|
|
|
/* post binary data */
|
|
curl_easy_setopt(easyhandle, CURLOPT_POSTFIELDS, binaryptr);
|
|
|
|
/* set the size of the postfields data */
|
|
curl_easy_setopt(easyhandle, CURLOPT_POSTFIELDSIZE, 23L);
|
|
|
|
/* pass our list of custom made headers */
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTPHEADER, headers);
|
|
|
|
curl_easy_perform(easyhandle); /* post away! */
|
|
|
|
curl_slist_free_all(headers); /* free the header list */
|
|
.fi
|
|
|
|
While the simple examples above cover the majority of all cases where HTTP
|
|
POST operations are required, they don't do multi-part formposts. Multi-part
|
|
formposts were introduced as a better way to post (possibly large) binary data
|
|
and were first documented in the RFC1867 (updated in RFC2388). They're called
|
|
multi-part because they're built by a chain of parts, each part being a single
|
|
unit of data. Each part has its own name and contents. You can in fact create
|
|
and post a multi-part formpost with the regular libcurl POST support described
|
|
above, but that would require that you build a formpost yourself and provide
|
|
to libcurl. To make that easier, libcurl provides \fIcurl_formadd(3)\fP. Using
|
|
this function, you add parts to the form. When you're done adding parts, you
|
|
post the whole form.
|
|
|
|
The following example sets two simple text parts with plain textual contents,
|
|
and then a file with binary contents and uploads the whole thing.
|
|
|
|
.nf
|
|
struct curl_httppost *post=NULL;
|
|
struct curl_httppost *last=NULL;
|
|
curl_formadd(&post, &last,
|
|
CURLFORM_COPYNAME, "name",
|
|
CURLFORM_COPYCONTENTS, "daniel", CURLFORM_END);
|
|
curl_formadd(&post, &last,
|
|
CURLFORM_COPYNAME, "project",
|
|
CURLFORM_COPYCONTENTS, "curl", CURLFORM_END);
|
|
curl_formadd(&post, &last,
|
|
CURLFORM_COPYNAME, "logotype-image",
|
|
CURLFORM_FILECONTENT, "curl.png", CURLFORM_END);
|
|
|
|
/* Set the form info */
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTPPOST, post);
|
|
|
|
curl_easy_perform(easyhandle); /* post away! */
|
|
|
|
/* free the post data again */
|
|
curl_formfree(post);
|
|
.fi
|
|
|
|
Multipart formposts are chains of parts using MIME-style separators and
|
|
headers. It means that each one of these separate parts get a few headers set
|
|
that describe the individual content-type, size etc. To enable your
|
|
application to handicraft this formpost even more, libcurl allows you to
|
|
supply your own set of custom headers to such an individual form part. You can
|
|
of course supply headers to as many parts as you like, but this little example
|
|
will show how you set headers to one specific part when you add that to the
|
|
post handle:
|
|
|
|
.nf
|
|
struct curl_slist *headers=NULL;
|
|
headers = curl_slist_append(headers, "Content-Type: text/xml");
|
|
|
|
curl_formadd(&post, &last,
|
|
CURLFORM_COPYNAME, "logotype-image",
|
|
CURLFORM_FILECONTENT, "curl.xml",
|
|
CURLFORM_CONTENTHEADER, headers,
|
|
CURLFORM_END);
|
|
|
|
curl_easy_perform(easyhandle); /* post away! */
|
|
|
|
curl_formfree(post); /* free post */
|
|
curl_slist_free_all(headers); /* free custom header list */
|
|
.fi
|
|
|
|
Since all options on an easyhandle are "sticky", they remain the same until
|
|
changed even if you do call \fIcurl_easy_perform(3)\fP, you may need to tell
|
|
curl to go back to a plain GET request if you intend to do one as your
|
|
next request. You force an easyhandle to go back to GET by using the
|
|
CURLOPT_HTTPGET option:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTPGET, 1L);
|
|
|
|
Just setting CURLOPT_POSTFIELDS to "" or NULL will *not* stop libcurl from
|
|
doing a POST. It will just make it POST without any data to send!
|
|
|
|
.SH "Showing Progress"
|
|
|
|
For historical and traditional reasons, libcurl has a built-in progress meter
|
|
that can be switched on and then makes it present a progress meter in your
|
|
terminal.
|
|
|
|
Switch on the progress meter by, oddly enough, setting CURLOPT_NOPROGRESS to
|
|
zero. This option is set to 1 by default.
|
|
|
|
For most applications however, the built-in progress meter is useless and
|
|
what instead is interesting is the ability to specify a progress
|
|
callback. The function pointer you pass to libcurl will then be called on
|
|
irregular intervals with information about the current transfer.
|
|
|
|
Set the progress callback by using CURLOPT_PROGRESSFUNCTION. And pass a
|
|
pointer to a function that matches this prototype:
|
|
|
|
.nf
|
|
int progress_callback(void *clientp,
|
|
double dltotal,
|
|
double dlnow,
|
|
double ultotal,
|
|
double ulnow);
|
|
.fi
|
|
|
|
If any of the input arguments is unknown, a 0 will be passed. The first
|
|
argument, the 'clientp' is the pointer you pass to libcurl with
|
|
CURLOPT_PROGRESSDATA. libcurl won't touch it.
|
|
|
|
.SH "libcurl with C++"
|
|
|
|
There's basically only one thing to keep in mind when using C++ instead of C
|
|
when interfacing libcurl:
|
|
|
|
The callbacks CANNOT be non-static class member functions
|
|
|
|
Example C++ code:
|
|
|
|
.nf
|
|
class AClass {
|
|
static size_t write_data(void *ptr, size_t size, size_t nmemb,
|
|
void *ourpointer)
|
|
{
|
|
/* do what you want with the data */
|
|
}
|
|
}
|
|
.fi
|
|
|
|
.SH "Proxies"
|
|
|
|
What "proxy" means according to Merriam-Webster: "a person authorized to act
|
|
for another" but also "the agency, function, or office of a deputy who acts as
|
|
a substitute for another".
|
|
|
|
Proxies are exceedingly common these days. Companies often only offer Internet
|
|
access to employees through their proxies. Network clients or user-agents ask
|
|
the proxy for documents, the proxy does the actual request and then it returns
|
|
them.
|
|
|
|
libcurl supports SOCKS and HTTP proxies. When a given URL is wanted, libcurl
|
|
will ask the proxy for it instead of trying to connect to the actual host
|
|
identified in the URL.
|
|
|
|
If you're using a SOCKS proxy, you may find that libcurl doesn't quite support
|
|
all operations through it.
|
|
|
|
For HTTP proxies: the fact that the proxy is a HTTP proxy puts certain
|
|
restrictions on what can actually happen. A requested URL that might not be a
|
|
HTTP URL will be still be passed to the HTTP proxy to deliver back to
|
|
libcurl. This happens transparently, and an application may not need to
|
|
know. I say "may", because at times it is very important to understand that
|
|
all operations over a HTTP proxy use the HTTP protocol. For example, you
|
|
can't invoke your own custom FTP commands or even proper FTP directory
|
|
listings.
|
|
|
|
.IP "Proxy Options"
|
|
|
|
To tell libcurl to use a proxy at a given port number:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_PROXY, "proxy-host.com:8080");
|
|
|
|
Some proxies require user authentication before allowing a request, and you
|
|
pass that information similar to this:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_PROXYUSERPWD, "user:password");
|
|
|
|
If you want to, you can specify the host name only in the CURLOPT_PROXY
|
|
option, and set the port number separately with CURLOPT_PROXYPORT.
|
|
|
|
Tell libcurl what kind of proxy it is with CURLOPT_PROXYTYPE (if not, it will
|
|
default to assume a HTTP proxy):
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_PROXYTYPE, CURLPROXY_SOCKS4);
|
|
|
|
.IP "Environment Variables"
|
|
|
|
libcurl automatically checks and uses a set of environment variables to know
|
|
what proxies to use for certain protocols. The names of the variables are
|
|
following an ancient de facto standard and are built up as "[protocol]_proxy"
|
|
(note the lower casing). Which makes the variable \&'http_proxy' checked for a
|
|
name of a proxy to use when the input URL is HTTP. Following the same rule,
|
|
the variable named 'ftp_proxy' is checked for FTP URLs. Again, the proxies are
|
|
always HTTP proxies, the different names of the variables simply allows
|
|
different HTTP proxies to be used.
|
|
|
|
The proxy environment variable contents should be in the format
|
|
\&"[protocol://][user:password@]machine[:port]". Where the protocol:// part is
|
|
simply ignored if present (so http://proxy and bluerk://proxy will do the
|
|
same) and the optional port number specifies on which port the proxy operates
|
|
on the host. If not specified, the internal default port number will be used
|
|
and that is most likely *not* the one you would like it to be.
|
|
|
|
There are two special environment variables. 'all_proxy' is what sets proxy
|
|
for any URL in case the protocol specific variable wasn't set, and
|
|
\&'no_proxy' defines a list of hosts that should not use a proxy even though a
|
|
variable may say so. If 'no_proxy' is a plain asterisk ("*") it matches all
|
|
hosts.
|
|
|
|
To explicitly disable libcurl's checking for and using the proxy environment
|
|
variables, set the proxy name to "" - an empty string - with CURLOPT_PROXY.
|
|
.IP "SSL and Proxies"
|
|
|
|
SSL is for secure point-to-point connections. This involves strong encryption
|
|
and similar things, which effectively makes it impossible for a proxy to
|
|
operate as a "man in between" which the proxy's task is, as previously
|
|
discussed. Instead, the only way to have SSL work over a HTTP proxy is to ask
|
|
the proxy to tunnel trough everything without being able to check or fiddle
|
|
with the traffic.
|
|
|
|
Opening an SSL connection over a HTTP proxy is therefor a matter of asking the
|
|
proxy for a straight connection to the target host on a specified port. This
|
|
is made with the HTTP request CONNECT. ("please mr proxy, connect me to that
|
|
remote host").
|
|
|
|
Because of the nature of this operation, where the proxy has no idea what kind
|
|
of data that is passed in and out through this tunnel, this breaks some of the
|
|
very few advantages that come from using a proxy, such as caching. Many
|
|
organizations prevent this kind of tunneling to other destination port numbers
|
|
than 443 (which is the default HTTPS port number).
|
|
|
|
.IP "Tunneling Through Proxy"
|
|
As explained above, tunneling is required for SSL to work and often even
|
|
restricted to the operation intended for SSL; HTTPS.
|
|
|
|
This is however not the only time proxy-tunneling might offer benefits to
|
|
you or your application.
|
|
|
|
As tunneling opens a direct connection from your application to the remote
|
|
machine, it suddenly also re-introduces the ability to do non-HTTP
|
|
operations over a HTTP proxy. You can in fact use things such as FTP
|
|
upload or FTP custom commands this way.
|
|
|
|
Again, this is often prevented by the administrators of proxies and is
|
|
rarely allowed.
|
|
|
|
Tell libcurl to use proxy tunneling like this:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTPPROXYTUNNEL, 1L);
|
|
|
|
In fact, there might even be times when you want to do plain HTTP
|
|
operations using a tunnel like this, as it then enables you to operate on
|
|
the remote server instead of asking the proxy to do so. libcurl will not
|
|
stand in the way for such innovative actions either!
|
|
|
|
.IP "Proxy Auto-Config"
|
|
|
|
Netscape first came up with this. It is basically a web page (usually using a
|
|
\&.pac extension) with a Javascript that when executed by the browser with the
|
|
requested URL as input, returns information to the browser on how to connect
|
|
to the URL. The returned information might be "DIRECT" (which means no proxy
|
|
should be used), "PROXY host:port" (to tell the browser where the proxy for
|
|
this particular URL is) or "SOCKS host:port" (to direct the browser to a SOCKS
|
|
proxy).
|
|
|
|
libcurl has no means to interpret or evaluate Javascript and thus it doesn't
|
|
support this. If you get yourself in a position where you face this nasty
|
|
invention, the following advice have been mentioned and used in the past:
|
|
|
|
- Depending on the Javascript complexity, write up a script that translates it
|
|
to another language and execute that.
|
|
|
|
- Read the Javascript code and rewrite the same logic in another language.
|
|
|
|
- Implement a Javascript interpreter; people have successfully used the
|
|
Mozilla Javascript engine in the past.
|
|
|
|
- Ask your admins to stop this, for a static proxy setup or similar.
|
|
|
|
.SH "Persistence Is The Way to Happiness"
|
|
|
|
Re-cycling the same easy handle several times when doing multiple requests is
|
|
the way to go.
|
|
|
|
After each single \fIcurl_easy_perform(3)\fP operation, libcurl will keep the
|
|
connection alive and open. A subsequent request using the same easy handle to
|
|
the same host might just be able to use the already open connection! This
|
|
reduces network impact a lot.
|
|
|
|
Even if the connection is dropped, all connections involving SSL to the same
|
|
host again, will benefit from libcurl's session ID cache that drastically
|
|
reduces re-connection time.
|
|
|
|
FTP connections that are kept alive save a lot of time, as the command-
|
|
response round-trips are skipped, and also you don't risk getting blocked
|
|
without permission to login again like on many FTP servers only allowing N
|
|
persons to be logged in at the same time.
|
|
|
|
libcurl caches DNS name resolving results, to make lookups of a previously
|
|
looked up name a lot faster.
|
|
|
|
Other interesting details that improve performance for subsequent requests
|
|
may also be added in the future.
|
|
|
|
Each easy handle will attempt to keep the last few connections alive for a
|
|
while in case they are to be used again. You can set the size of this "cache"
|
|
with the CURLOPT_MAXCONNECTS option. Default is 5. There is very seldom any
|
|
point in changing this value, and if you think of changing this it is often
|
|
just a matter of thinking again.
|
|
|
|
To force your upcoming request to not use an already existing connection (it
|
|
will even close one first if there happens to be one alive to the same host
|
|
you're about to operate on), you can do that by setting CURLOPT_FRESH_CONNECT
|
|
to 1. In a similar spirit, you can also forbid the upcoming request to be
|
|
"lying" around and possibly get re-used after the request by setting
|
|
CURLOPT_FORBID_REUSE to 1.
|
|
|
|
.SH "HTTP Headers Used by libcurl"
|
|
When you use libcurl to do HTTP requests, it'll pass along a series of headers
|
|
automatically. It might be good for you to know and understand these. You
|
|
can replace or remove them by using the CURLOPT_HTTPHEADER option.
|
|
|
|
.IP "Host"
|
|
This header is required by HTTP 1.1 and even many 1.0 servers and should be
|
|
the name of the server we want to talk to. This includes the port number if
|
|
anything but default.
|
|
|
|
.IP "Pragma"
|
|
\&"no-cache". Tells a possible proxy to not grab a copy from the cache but to
|
|
fetch a fresh one.
|
|
|
|
.IP "Accept"
|
|
\&"*/*".
|
|
|
|
.IP "Expect"
|
|
When doing POST requests, libcurl sets this header to \&"100-continue" to ask
|
|
the server for an "OK" message before it proceeds with sending the data part
|
|
of the post. If the POSTed data amount is deemed "small", libcurl will not use
|
|
this header.
|
|
|
|
.SH "Customizing Operations"
|
|
There is an ongoing development today where more and more protocols are built
|
|
upon HTTP for transport. This has obvious benefits as HTTP is a tested and
|
|
reliable protocol that is widely deployed and has excellent proxy-support.
|
|
|
|
When you use one of these protocols, and even when doing other kinds of
|
|
programming you may need to change the traditional HTTP (or FTP or...)
|
|
manners. You may need to change words, headers or various data.
|
|
|
|
libcurl is your friend here too.
|
|
|
|
.IP CUSTOMREQUEST
|
|
If just changing the actual HTTP request keyword is what you want, like when
|
|
GET, HEAD or POST is not good enough for you, CURLOPT_CUSTOMREQUEST is there
|
|
for you. It is very simple to use:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_CUSTOMREQUEST, "MYOWNREQUEST");
|
|
|
|
When using the custom request, you change the request keyword of the actual
|
|
request you are performing. Thus, by default you make a GET request but you can
|
|
also make a POST operation (as described before) and then replace the POST
|
|
keyword if you want to. You're the boss.
|
|
|
|
.IP "Modify Headers"
|
|
HTTP-like protocols pass a series of headers to the server when doing the
|
|
request, and you're free to pass any amount of extra headers that you
|
|
think fit. Adding headers is this easy:
|
|
|
|
.nf
|
|
struct curl_slist *headers=NULL; /* init to NULL is important */
|
|
|
|
headers = curl_slist_append(headers, "Hey-server-hey: how are you?");
|
|
headers = curl_slist_append(headers, "X-silly-content: yes");
|
|
|
|
/* pass our list of custom made headers */
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTPHEADER, headers);
|
|
|
|
curl_easy_perform(easyhandle); /* transfer http */
|
|
|
|
curl_slist_free_all(headers); /* free the header list */
|
|
.fi
|
|
|
|
\&... and if you think some of the internally generated headers, such as
|
|
Accept: or Host: don't contain the data you want them to contain, you can
|
|
replace them by simply setting them too:
|
|
|
|
.nf
|
|
headers = curl_slist_append(headers, "Accept: Agent-007");
|
|
headers = curl_slist_append(headers, "Host: munged.host.line");
|
|
.fi
|
|
|
|
.IP "Delete Headers"
|
|
If you replace an existing header with one with no contents, you will prevent
|
|
the header from being sent. For instance, if you want to completely prevent the
|
|
\&"Accept:" header from being sent, you can disable it with code similar to this:
|
|
|
|
headers = curl_slist_append(headers, "Accept:");
|
|
|
|
Both replacing and canceling internal headers should be done with careful
|
|
consideration and you should be aware that you may violate the HTTP protocol
|
|
when doing so.
|
|
|
|
.IP "Enforcing chunked transfer-encoding"
|
|
|
|
By making sure a request uses the custom header "Transfer-Encoding: chunked"
|
|
when doing a non-GET HTTP operation, libcurl will switch over to "chunked"
|
|
upload, even though the size of the data to upload might be known. By default,
|
|
libcurl usually switches over to chunked upload automatically if the upload
|
|
data size is unknown.
|
|
|
|
.IP "HTTP Version"
|
|
|
|
All HTTP requests includes the version number to tell the server which version
|
|
we support. libcurl speaks HTTP 1.1 by default. Some very old servers don't
|
|
like getting 1.1-requests and when dealing with stubborn old things like that,
|
|
you can tell libcurl to use 1.0 instead by doing something like this:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_HTTP_VERSION, CURL_HTTP_VERSION_1_0);
|
|
|
|
.IP "FTP Custom Commands"
|
|
|
|
Not all protocols are HTTP-like, and thus the above may not help you when
|
|
you want to make, for example, your FTP transfers to behave differently.
|
|
|
|
Sending custom commands to a FTP server means that you need to send the
|
|
commands exactly as the FTP server expects them (RFC959 is a good guide
|
|
here), and you can only use commands that work on the control-connection
|
|
alone. All kinds of commands that require data interchange and thus need
|
|
a data-connection must be left to libcurl's own judgement. Also be aware
|
|
that libcurl will do its very best to change directory to the target
|
|
directory before doing any transfer, so if you change directory (with CWD
|
|
or similar) you might confuse libcurl and then it might not attempt to
|
|
transfer the file in the correct remote directory.
|
|
|
|
A little example that deletes a given file before an operation:
|
|
|
|
.nf
|
|
headers = curl_slist_append(headers, "DELE file-to-remove");
|
|
|
|
/* pass the list of custom commands to the handle */
|
|
curl_easy_setopt(easyhandle, CURLOPT_QUOTE, headers);
|
|
|
|
curl_easy_perform(easyhandle); /* transfer ftp data! */
|
|
|
|
curl_slist_free_all(headers); /* free the header list */
|
|
.fi
|
|
|
|
If you would instead want this operation (or chain of operations) to happen
|
|
_after_ the data transfer took place the option to \fIcurl_easy_setopt(3)\fP
|
|
would instead be called CURLOPT_POSTQUOTE and used the exact same way.
|
|
|
|
The custom FTP command will be issued to the server in the same order they are
|
|
added to the list, and if a command gets an error code returned back from the
|
|
server, no more commands will be issued and libcurl will bail out with an
|
|
error code (CURLE_QUOTE_ERROR). Note that if you use CURLOPT_QUOTE to send
|
|
commands before a transfer, no transfer will actually take place when a quote
|
|
command has failed.
|
|
|
|
If you set the CURLOPT_HEADER to 1, you will tell libcurl to get
|
|
information about the target file and output "headers" about it. The headers
|
|
will be in "HTTP-style", looking like they do in HTTP.
|
|
|
|
The option to enable headers or to run custom FTP commands may be useful to
|
|
combine with CURLOPT_NOBODY. If this option is set, no actual file content
|
|
transfer will be performed.
|
|
|
|
.IP "FTP Custom CUSTOMREQUEST"
|
|
If you do want to list the contents of a FTP directory using your own defined FTP
|
|
command, CURLOPT_CUSTOMREQUEST will do just that. "NLST" is the default one
|
|
for listing directories but you're free to pass in your idea of a good
|
|
alternative.
|
|
|
|
.SH "Cookies Without Chocolate Chips"
|
|
In the HTTP sense, a cookie is a name with an associated value. A server sends
|
|
the name and value to the client, and expects it to get sent back on every
|
|
subsequent request to the server that matches the particular conditions
|
|
set. The conditions include that the domain name and path match and that the
|
|
cookie hasn't become too old.
|
|
|
|
In real-world cases, servers send new cookies to replace existing ones to
|
|
update them. Server use cookies to "track" users and to keep "sessions".
|
|
|
|
Cookies are sent from server to clients with the header Set-Cookie: and
|
|
they're sent from clients to servers with the Cookie: header.
|
|
|
|
To just send whatever cookie you want to a server, you can use CURLOPT_COOKIE
|
|
to set a cookie string like this:
|
|
|
|
curl_easy_setopt(easyhandle, CURLOPT_COOKIE, "name1=var1; name2=var2;");
|
|
|
|
In many cases, that is not enough. You might want to dynamically save
|
|
whatever cookies the remote server passes to you, and make sure those cookies
|
|
are then used accordingly on later requests.
|
|
|
|
One way to do this, is to save all headers you receive in a plain file and
|
|
when you make a request, you tell libcurl to read the previous headers to
|
|
figure out which cookies to use. Set the header file to read cookies from with
|
|
CURLOPT_COOKIEFILE.
|
|
|
|
The CURLOPT_COOKIEFILE option also automatically enables the cookie parser in
|
|
libcurl. Until the cookie parser is enabled, libcurl will not parse or
|
|
understand incoming cookies and they will just be ignored. However, when the
|
|
parser is enabled the cookies will be understood and the cookies will be kept
|
|
in memory and used properly in subsequent requests when the same handle is
|
|
used. Many times this is enough, and you may not have to save the cookies to
|
|
disk at all. Note that the file you specify to CURLOPT_COOKIEFILE doesn't have
|
|
to exist to enable the parser, so a common way to just enable the parser and
|
|
not read any cookies is to use the name of a file you know doesn't exist.
|
|
|
|
If you would rather use existing cookies that you've previously received with
|
|
your Netscape or Mozilla browsers, you can make libcurl use that cookie file
|
|
as input. The CURLOPT_COOKIEFILE is used for that too, as libcurl will
|
|
automatically find out what kind of file it is and act accordingly.
|
|
|
|
Perhaps the most advanced cookie operation libcurl offers, is saving the
|
|
entire internal cookie state back into a Netscape/Mozilla formatted cookie
|
|
file. We call that the cookie-jar. When you set a file name with
|
|
CURLOPT_COOKIEJAR, that file name will be created and all received cookies
|
|
will be stored in it when \fIcurl_easy_cleanup(3)\fP is called. This enables
|
|
cookies to get passed on properly between multiple handles without any
|
|
information getting lost.
|
|
|
|
.SH "FTP Peculiarities We Need"
|
|
|
|
FTP transfers use a second TCP/IP connection for the data transfer. This is
|
|
usually a fact you can forget and ignore but at times this fact will come
|
|
back to haunt you. libcurl offers several different ways to customize how the
|
|
second connection is being made.
|
|
|
|
libcurl can either connect to the server a second time or tell the server to
|
|
connect back to it. The first option is the default and it is also what works
|
|
best for all the people behind firewalls, NATs or IP-masquerading setups.
|
|
libcurl then tells the server to open up a new port and wait for a second
|
|
connection. This is by default attempted with EPSV first, and if that doesn't
|
|
work it tries PASV instead. (EPSV is an extension to the original FTP spec
|
|
and does not exist nor work on all FTP servers.)
|
|
|
|
You can prevent libcurl from first trying the EPSV command by setting
|
|
CURLOPT_FTP_USE_EPSV to zero.
|
|
|
|
In some cases, you will prefer to have the server connect back to you for the
|
|
second connection. This might be when the server is perhaps behind a firewall
|
|
or something and only allows connections on a single port. libcurl then
|
|
informs the remote server which IP address and port number to connect to.
|
|
This is made with the CURLOPT_FTPPORT option. If you set it to "-", libcurl
|
|
will use your system's "default IP address". If you want to use a particular
|
|
IP, you can set the full IP address, a host name to resolve to an IP address
|
|
or even a local network interface name that libcurl will get the IP address
|
|
from.
|
|
|
|
When doing the "PORT" approach, libcurl will attempt to use the EPRT and the
|
|
LPRT before trying PORT, as they work with more protocols. You can disable
|
|
this behavior by setting CURLOPT_FTP_USE_EPRT to zero.
|
|
|
|
.SH "Headers Equal Fun"
|
|
|
|
Some protocols provide "headers", meta-data separated from the normal
|
|
data. These headers are by default not included in the normal data stream,
|
|
but you can make them appear in the data stream by setting CURLOPT_HEADER to
|
|
1.
|
|
|
|
What might be even more useful, is libcurl's ability to separate the headers
|
|
from the data and thus make the callbacks differ. You can for example set a
|
|
different pointer to pass to the ordinary write callback by setting
|
|
CURLOPT_WRITEHEADER.
|
|
|
|
Or, you can set an entirely separate function to receive the headers, by
|
|
using CURLOPT_HEADERFUNCTION.
|
|
|
|
The headers are passed to the callback function one by one, and you can
|
|
depend on that fact. It makes it easier for you to add custom header parsers
|
|
etc.
|
|
|
|
\&"Headers" for FTP transfers equal all the FTP server responses. They aren't
|
|
actually true headers, but in this case we pretend they are! ;-)
|
|
|
|
.SH "Post Transfer Information"
|
|
|
|
[ curl_easy_getinfo ]
|
|
|
|
.SH "Security Considerations"
|
|
|
|
The libcurl project takes security seriously. The library is written with
|
|
caution and precautions are taken to mitigate many kinds of risks encountered
|
|
while operating with potentially malicious servers on the Internet. It is a
|
|
powerful library, however, which allows application writers to make trade offs
|
|
between ease of writing and exposure to potential risky operations. If
|
|
used the right way, you can use libcurl to transfer data pretty safely.
|
|
|
|
Many applications are used in closed networks where users and servers
|
|
can be trusted, but many others are used on arbitrary servers and are fed
|
|
input from potentially untrusted users. Following is a discussion about
|
|
some risks in the ways in which applications commonly use libcurl and
|
|
potential mitigations of those risks. It is by no means comprehensive, but
|
|
shows classes of attacks that robust applications should consider. The
|
|
Common Weakness Enumeration project at http://cwe.mitre.org/ is a good
|
|
reference for many of these and similar types of weaknesses of which
|
|
application writers should be aware.
|
|
|
|
.IP "Command Lines"
|
|
If you use a command line tool (such as curl) that uses libcurl, and you give
|
|
options to the tool on the command line those options can very likely get read
|
|
by other users of your system when they use 'ps' or other tools to list
|
|
currently running processes.
|
|
|
|
To avoid this problem, never feed sensitive things to programs using command
|
|
line options. Write them to a protected file and use the \-K option to
|
|
avoid this.
|
|
|
|
.IP ".netrc"
|
|
\&.netrc is a pretty handy file/feature that allows you to login quickly and
|
|
automatically to frequently visited sites. The file contains passwords in
|
|
clear text and is a real security risk. In some cases, your .netrc is also
|
|
stored in a home directory that is NFS mounted or used on another network
|
|
based file system, so the clear text password will fly through your network
|
|
every time anyone reads that file!
|
|
|
|
To avoid this problem, don't use .netrc files and never store passwords in
|
|
plain text anywhere.
|
|
|
|
.IP "Clear Text Passwords"
|
|
Many of the protocols libcurl supports send name and password unencrypted as
|
|
clear text (HTTP Basic authentication, FTP, TELNET etc). It is very easy for
|
|
anyone on your network or a network nearby yours to just fire up a network
|
|
analyzer tool and eavesdrop on your passwords. Don't let the fact that HTTP
|
|
Basic uses base64 encoded passwords fool you. They may not look readable at a
|
|
first glance, but they very easily "deciphered" by anyone within seconds.
|
|
|
|
To avoid this problem, use HTTP authentication methods or other protocols that
|
|
don't let snoopers see your password: HTTP with Digest, NTLM or GSS
|
|
authentication, HTTPS, FTPS, SCP, SFTP and FTP-Kerberos are a few examples.
|
|
|
|
.IP "Redirects"
|
|
The CURLOPT_FOLLOWLOCATION option automatically follows HTTP redirects sent
|
|
by a remote server. These redirects can refer to any kind of URL, not just
|
|
HTTP. A redirect to a file: URL would cause the libcurl to read (or write)
|
|
arbitrary files from the local filesystem. If the application returns
|
|
the data back to the user (as would happen in some kinds of CGI scripts),
|
|
an attacker could leverage this to read otherwise forbidden data (e.g.
|
|
file://localhost/etc/passwd).
|
|
|
|
If authentication credentials are stored in the ~/.netrc file, or Kerberos
|
|
is in use, any other URL type (not just file:) that requires
|
|
authentication is also at risk. A redirect such as
|
|
ftp://some-internal-server/private-file would then return data even when
|
|
the server is password protected.
|
|
|
|
In the same way, if an unencrypted SSH private key has been configured for
|
|
the user running the libcurl application, SCP: or SFTP: URLs could access
|
|
password or private-key protected resources,
|
|
e.g. sftp://user@some-internal-server/etc/passwd
|
|
|
|
The CURLOPT_REDIR_PROTOCOLS and CURLOPT_NETRC options can be used to
|
|
mitigate against this kind of attack.
|
|
|
|
A redirect can also specify a location available only on the machine running
|
|
libcurl, including servers hidden behind a firewall from the attacker.
|
|
e.g. http://127.0.0.1/ or http://intranet/delete-stuff.cgi?delete=all or
|
|
tftp://bootp-server/pc-config-data
|
|
|
|
Apps can mitigate against this by disabling CURLOPT_FOLLOWLOCATION and
|
|
handling redirects itself, sanitizing URLs as necessary. Alternately, an
|
|
app could leave CURLOPT_FOLLOWLOCATION enabled but set CURLOPT_REDIR_PROTOCOLS
|
|
and install a CURLOPT_OPENSOCKETFUNCTION callback function in which addresses
|
|
are sanitized before use.
|
|
|
|
.IP "Private Resources"
|
|
A user who can control the DNS server of a domain being passed in within
|
|
a URL can change the address of the host to a local, private address
|
|
which the libcurl application will then use. e.g. The innocuous URL
|
|
http://fuzzybunnies.example.com/ could actually resolve to the IP address
|
|
of a server behind a firewall, such as 127.0.0.1 or 10.1.2.3
|
|
Apps can mitigate against this by setting a CURLOPT_OPENSOCKETFUNCTION
|
|
and checking the address before a connection.
|
|
|
|
All the malicious scenarios regarding redirected URLs apply just as well
|
|
to non-redirected URLs, if the user is allowed to specify an arbitrary URL
|
|
that could point to a private resource. For example, a web app providing
|
|
a translation service might happily translate file://localhost/etc/passwd
|
|
and display the result. Apps can mitigate against this with the
|
|
CURLOPT_PROTOCOLS option as well as by similar mitigation techniques for
|
|
redirections.
|
|
|
|
A malicious FTP server could in response to the PASV command return an
|
|
IP address and port number for a server local to the app running libcurl
|
|
but behind a firewall. Apps can mitigate against this by using the
|
|
CURLOPT_FTP_SKIP_PASV_IP option or CURLOPT_FTPPORT.
|
|
|
|
.IP Uploads
|
|
When uploading, a redirect can cause a local (or remote) file to be
|
|
overwritten. Apps must not allow any unsanitized URL to be passed in
|
|
for uploads. Also, CURLOPT_FOLLOWLOCATION should not be used on uploads.
|
|
Instead, the app should handle redirects itself, sanitizing each URL first.
|
|
|
|
.IP Authentication
|
|
Use of CURLOPT_UNRESTRICTED_AUTH could cause authentication information to
|
|
be sent to an unknown second server. Apps can mitigate against this
|
|
by disabling CURLOPT_FOLLOWLOCATION and handling redirects itself,
|
|
sanitizing where necessary.
|
|
|
|
Use of the CURLAUTH_ANY option to CURLOPT_HTTPAUTH could result in user
|
|
name and password being sent in clear text to an HTTP server. Instead,
|
|
use CURLAUTH_ANYSAFE which ensures that the password is encrypted over
|
|
the network, or else fail the request.
|
|
|
|
Use of the CURLUSESSL_TRY option to CURLOPT_USE_SSL could result in user
|
|
name and password being sent in clear text to an FTP server. Instead,
|
|
use CURLUSESSL_CONTROL to ensure that an encrypted connection is used or
|
|
else fail the request.
|
|
|
|
.IP Cookies
|
|
If cookies are enabled and cached, then a user could craft a URL which
|
|
performs some malicious action to a site whose authentication is already
|
|
stored in a cookie. e.g. http://mail.example.com/delete-stuff.cgi?delete=all
|
|
Apps can mitigate against this by disabling cookies or clearing them
|
|
between requests.
|
|
|
|
.IP "Dangerous URLs"
|
|
SCP URLs can contain raw commands within the scp: URL, which is a side effect
|
|
of how the SCP protocol is designed. e.g.
|
|
scp://user:pass@host/a;date >/tmp/test;
|
|
Apps must not allow unsanitized SCP: URLs to be passed in for downloads.
|
|
|
|
.IP "Denial of Service"
|
|
A malicious server could cause libcurl to effectively hang by sending
|
|
a trickle of data through, or even no data at all but just keeping the TCP
|
|
connection open. This could result in a denial-of-service attack. The
|
|
CURLOPT_TIMEOUT and/or CURLOPT_LOW_SPEED_LIMIT options can be used to
|
|
mitigate against this.
|
|
|
|
A malicious server could cause libcurl to effectively hang by starting to
|
|
send data, then severing the connection without cleanly closing the
|
|
TCP connection. The app could install a CURLOPT_SOCKOPTFUNCTION callback
|
|
function and set the TCP SO_KEEPALIVE option to mitigate against this.
|
|
Setting one of the timeout options would also work against this attack.
|
|
|
|
A malicious server could cause libcurl to download an infinite amount of
|
|
data, potentially causing all of memory or disk to be filled. Setting
|
|
the CURLOPT_MAXFILESIZE_LARGE option is not sufficient to guard against this.
|
|
Instead, the app should monitor the amount of data received within the
|
|
write or progress callback and abort once the limit is reached.
|
|
|
|
A malicious HTTP server could cause an infinite redirection loop, causing a
|
|
denial-of-service. This can be mitigated by using the CURLOPT_MAXREDIRS
|
|
option.
|
|
|
|
.IP "Arbitrary Headers"
|
|
User-supplied data must be sanitized when used in options like
|
|
CURLOPT_USERAGENT, CURLOPT_HTTPHEADER, CURLOPT_POSTFIELDS and others that
|
|
are used to generate structured data. Characters like embedded carriage
|
|
returns or ampersands could allow the user to create additional headers or
|
|
fields that could cause malicious transactions.
|
|
|
|
.IP "Server Certificates"
|
|
A secure application should never use the CURLOPT_SSL_VERIFYPEER option to
|
|
disable certificate validation. There are numerous attacks that are enabled
|
|
by apps that fail to properly validate server TLS/SSL certificates,
|
|
thus enabling a malicious server to spoof a legitimate one. HTTPS without
|
|
validated certificates is potentially as insecure as a plain HTTP connection.
|
|
|
|
.IP "Showing What You Do"
|
|
On a related issue, be aware that even in situations like when you have
|
|
problems with libcurl and ask someone for help, everything you reveal in order
|
|
to get best possible help might also impose certain security related
|
|
risks. Host names, user names, paths, operating system specifics, etc (not to
|
|
mention passwords of course) may in fact be used by intruders to gain
|
|
additional information of a potential target.
|
|
|
|
To avoid this problem, you must of course use your common sense. Often, you
|
|
can just edit out the sensitive data or just search/replace your true
|
|
information with faked data.
|
|
|
|
.SH "Multiple Transfers Using the multi Interface"
|
|
|
|
The easy interface as described in detail in this document is a synchronous
|
|
interface that transfers one file at a time and doesn't return until it is
|
|
done.
|
|
|
|
The multi interface, on the other hand, allows your program to transfer
|
|
multiple files in both directions at the same time, without forcing you
|
|
to use multiple threads. The name might make it seem that the multi
|
|
interface is for multi-threaded programs, but the truth is almost the
|
|
reverse. The multi interface can allow a single-threaded application
|
|
to perform the same kinds of multiple, simultaneous transfers that
|
|
multi-threaded programs can perform. It allows many of the benefits
|
|
of multi-threaded transfers without the complexity of managing and
|
|
synchronizing many threads.
|
|
|
|
To use this interface, you are better off if you first understand the basics
|
|
of how to use the easy interface. The multi interface is simply a way to make
|
|
multiple transfers at the same time by adding up multiple easy handles into
|
|
a "multi stack".
|
|
|
|
You create the easy handles you want and you set all the options just like you
|
|
have been told above, and then you create a multi handle with
|
|
\fIcurl_multi_init(3)\fP and add all those easy handles to that multi handle
|
|
with \fIcurl_multi_add_handle(3)\fP.
|
|
|
|
When you've added the handles you have for the moment (you can still add new
|
|
ones at any time), you start the transfers by calling
|
|
\fIcurl_multi_perform(3)\fP.
|
|
|
|
\fIcurl_multi_perform(3)\fP is asynchronous. It will only execute as little as
|
|
possible and then return back control to your program. It is designed to never
|
|
block. If it returns CURLM_CALL_MULTI_PERFORM you better call it again soon,
|
|
as that is a signal that it still has local data to send or remote data to
|
|
receive.
|
|
|
|
The best usage of this interface is when you do a select() on all possible
|
|
file descriptors or sockets to know when to call libcurl again. This also
|
|
makes it easy for you to wait and respond to actions on your own application's
|
|
sockets/handles. You figure out what to select() for by using
|
|
\fIcurl_multi_fdset(3)\fP, that fills in a set of fd_set variables for you
|
|
with the particular file descriptors libcurl uses for the moment.
|
|
|
|
When you then call select(), it'll return when one of the file handles signal
|
|
action and you then call \fIcurl_multi_perform(3)\fP to allow libcurl to do
|
|
what it wants to do. Take note that libcurl does also feature some time-out
|
|
code so we advise you to never use very long timeouts on select() before you
|
|
call \fIcurl_multi_perform(3)\fP, which thus should be called unconditionally
|
|
every now and then even if none of its file descriptors have signaled
|
|
ready. Another precaution you should use: always call
|
|
\fIcurl_multi_fdset(3)\fP immediately before the select() call since the
|
|
current set of file descriptors may change when calling a curl function.
|
|
|
|
If you want to stop the transfer of one of the easy handles in the stack, you
|
|
can use \fIcurl_multi_remove_handle(3)\fP to remove individual easy
|
|
handles. Remember that easy handles should be \fIcurl_easy_cleanup(3)\fPed.
|
|
|
|
When a transfer within the multi stack has finished, the counter of running
|
|
transfers (as filled in by \fIcurl_multi_perform(3)\fP) will decrease. When
|
|
the number reaches zero, all transfers are done.
|
|
|
|
\fIcurl_multi_info_read(3)\fP can be used to get information about completed
|
|
transfers. It then returns the CURLcode for each easy transfer, to allow you
|
|
to figure out success on each individual transfer.
|
|
|
|
.SH "SSL, Certificates and Other Tricks"
|
|
|
|
[ seeding, passwords, keys, certificates, ENGINE, ca certs ]
|
|
|
|
.SH "Sharing Data Between Easy Handles"
|
|
|
|
[ fill in ]
|
|
|
|
.SH "Footnotes"
|
|
|
|
.IP "[1]"
|
|
libcurl 7.10.3 and later have the ability to switch over to chunked
|
|
Transfer-Encoding in cases where HTTP uploads are done with data of an unknown
|
|
size.
|
|
.IP "[2]"
|
|
This happens on Windows machines when libcurl is built and used as a
|
|
DLL. However, you can still do this on Windows if you link with a static
|
|
library.
|
|
.IP "[3]"
|
|
The curl-config tool is generated at build-time (on UNIX-like systems) and
|
|
should be installed with the 'make install' or similar instruction that
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installs the library, header files, man pages etc.
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.IP "[4]"
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This behavior was different in versions before 7.17.0, where strings had to
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remain valid past the end of the \fIcurl_easy_setopt(3)\fP call.
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