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$Id$
_ _ ____ _
___| | | | _ \| |
/ __| | | | |_) | |
| (__| |_| | _ <| |___
\___|\___/|_| \_\_____|
PROGRAMMING WITH LIBCURL
About this Document
This document will attempt to describe the general principle and some basic
approaches to consider when programming with libcurl. The text will focus
mainly on the C/C++ interface but might apply fairly well on other interfaces
as well as they usually follow the C one pretty closely.
This document will refer to 'the user' as the person writing the source code
that uses libcurl. That would probably be you or someone in your position.
What will be generally refered to as 'the program' will be the collected
source code that you write that is using libcurl for transfers. The program
is outside libcurl and libcurl is outside of the program.
To get the more details on all options and functions described herein, please
refer to their respective man pages.
Building
There are many different ways to build C programs. This chapter will assume a
unix-style build process. If you use a different build system, you can still
read this to get general information that may apply to your environment as
well.
Compiling the Program
Your compiler needs to know where the libcurl headers are
located. Therefore you must set your compiler's include path to point to
the directory where you installed them. The 'curl-config'[3] tool can be
used to get this information:
$ curl-config --cflags
Linking the Program with libcurl
When having compiled the program, you need to link your object files to
create a single executable. For that to succeed, you need to link with
libcurl and possibly also with other libraries that libcurl itself depends
on. Like OpenSSL librararies, but even some standard OS libraries may be
needed on the command line. To figure out which flags to use, once again
the 'curl-config' tool comes to the rescue:
$ curl-config --libs
SSL or Not
libcurl can be built and customized in many ways. One of the things that
varies from different libraries and builds is the support for SSL-based
transfers, like HTTPS and FTPS. If OpenSSL was detected properly at
build-time, libcurl will be built with SSL support. To figure out if an
installed libcurl has been built with SSL support enabled, use
'curl-config' like this:
$ curl-config --feature
And if SSL is supported, the keyword 'SSL' will be written to stdout,
possibly together with a few other features that can be on and off on
different libcurls.
Portable Code in a Portable World
The people behind libcurl have put a considerable effort to make libcurl work
on a large amount of different operating systems and environments.
You program libcurl the same way on all platforms that libcurl runs on. There
are only very few minor considerations that differs. If you just make sure to
write your code portable enough, you may very well create yourself a very
portable program. libcurl shouldn't stop you from that.
Global Preparation
The program must initialize some of the libcurl functionality globally. That
means it should be done exactly once, no matter how many times you intend to
use the library. Once for your program's entire life time. This is done using
curl_global_init()
and it takes one parameter which is a bit pattern that tells libcurl what to
intialize. Using CURL_GLOBAL_ALL will make it initialize all known internal
sub modules, and might be a good default option. The current two bits that
are specified are:
CURL_GLOBAL_WIN32 which only does anything on Windows machines. When used on
a Windows machine, it'll make libcurl intialize the win32 socket
stuff. Without having that initialized properly, your program cannot use
sockets properly. You should only do this once for each application, so if
your program already does this or of another library in use does it, you
should not tell libcurl to do this as well.
CURL_GLOBAL_SSL which only does anything on libcurls compiled and built
SSL-enabled. On these systems, this will make libcurl init OpenSSL properly
for this application. This is only needed to do once for each application so
if your program or another library already does this, this bit should not be
needed.
libcurl has a default protection mechanism that detects if curl_global_init()
hasn't been called by the time curl_easy_perform() is called and if that is
the case, libcurl runs the function itself with a guessed bit pattern. Please
note that depending solely on this is not considered nice nor very good.
When the program no longer uses libcurl, it should call
curl_global_cleanup(), which is the opposite of the init call. It will then
do the reversed operations to cleanup the resources the curl_global_init()
call initialized.
Repeated calls to curl_global_init() and curl_global_cleanup() should be
avoided. They should be called once each.
Handle the Easy libcurl
libcurl version 7 is oriented around the so called easy interface. All
operations in the easy interface are prefixed with 'curl_easy'.
Future libcurls will also offer the multi interface. More about that
interface, what it is targeted for and how to use it is still only debated on
the libcurl mailing list and developer web pages. Join up to discuss and
figure out!
To use the easy interface, you must first create yourself an easy handle. You
need one handle for each easy session you want to perform. Basicly, you
should use one handle for every thread you plan to use for transferring. You
must never share the same handle in multiple threads.
Get an easy handle with
easyhandle = curl_easy_init();
It returns an easy handle. Using that you proceed to the next step: setting
up your preferred actions. A handle is just a logic entity for the upcoming
transfer or series of transfers. One of the most basic properties to set in
the handle is the URL. You set your preferred URL to transfer with
CURLOPT_URL in a manner similar to:
curl_easy_setopt(easyhandle, CURLOPT_URL, "http://curl.haxx.se/");
Let's assume for a while that you want to receive data as the URL indentifies
a remote resource you want to get here. Since you write a sort of application
that needs this transfer, I assume that you would like to get the data passed
to you directly instead of simply getting it passed to stdout. So, you write
your own function that matches this prototype:
size_t write_data(void *buffer, size_t size, size_t nmemb, void *userp);
You tell libcurl to pass all data to this function by issuing a function
similar to this:
curl_easy_setopt(easyhandle, CURLOPT_WRITEFUNCTION, write_data);
You can control what data your function get in the forth argument by setting
another property:
curl_easy_setopt(easyhandle, CURLOPT_FILE, &internal_struct);
Using that property, you can easily pass local data between your application
and the function that gets invoked by libcurl. libcurl itself won't touch the
data you pass with CURLOPT_FILE.
libcurl offers its own default internal callback that'll take care of the
data if you don't set the callback with CURLOPT_WRITEFUNCTION. It will then
simply output the received data to stdout. You can have the default callback
write the data to a different file handle by passing a 'FILE *' to a file
opened for writing with the CURLOPT_FILE option.
Now, we need to take a step back and have a deep breath. Here's one of those
rare platform-dependent nitpicks. Did you spot it? On some platforms[2],
libcurl won't be able to operate on files opened by the program. Thus, if you
use the default callback and pass in a an open file with CURLOPT_FILE, it
will crash. You should therefore avoid this to make your program run fine
virtually everywhere.
There are of course many more options you can set, and we'll get back to a
few of them later. Let's instead continue to the actual transfer:
success = curl_easy_perform(easyhandle);
The curl_easy_perform() will connect to the remote site, do the necessary
commands and receive the transfer. Whenever it receives data, it calls the
callback function we previously set. The function may get one byte at a time,
or it may get many kilobytes at once. libcurl delivers as much as possible as
often as possible. Your callback function should return the number of bytes
it "took care of". If that is not the exact same amount of bytes that was
passed to it, libcurl will abort the operation and return with an error code.
When the transfer is complete, the function returns a return code that
informs you if it succeeded in its mission or not. If a return code isn't
enough for you, you can use the CURLOPT_ERRORBUFFER to point libcurl to a
buffer of yours where it'll store a human readable error message as well.
If you then want to transfer another file, the handle is ready to be used
again. Mind you, it is even preferred that you re-use an existing handle if
you intend to make another transfer. libcurl will then attempt to re-use the
previous
When It Doesn't Work
There will always be times when the transfer fails for some reason. You might
have set the wrong libcurl option or misunderstood what the libcurl option
actually does, or the remote server might return non-standard replies that
confuse the library which then confuses your program.
There's one golden rule when these things occur: set the CURLOPT_VERBOSE
option to TRUE. It'll cause the library to spew out the entire protocol
details it sends, some internal info and some received protcol data as well
(especially when using FTP). If you're using HTTP, adding the headers in the
received output to study is also a clever way to get a better understanding
wht the server behaves the way it does. Include headers in the normal body
output with CURLOPT_HEADER set TRUE.
Of course there are bugs left. We need to get to know about them to be able
to fix them, so we're quite dependent on your bug reports! When you do report
suspected bugs in libcurl, please include as much details you possibly can: a
protocol dump that CURLOPT_VERBOSE produces, library version, as much as
possible of your code that uses libcurl, operating system name and version,
compiler name and version etc.
Getting some in-depth knowledge about the protocols involved is never wrong,
and if you're trying to funny things, you might very well understand libcurl
and how to use it better if you study the appropriate RFC documents at least
briefly.
Upload Data to a Remote Site
libcurl tries to keep a protocol independent approach to most transfers, thus
uploading to a remote FTP site is very similar to uploading data to a HTTP
server with a PUT request.
Of course, first you either create an easy handle or you re-use one existing
one. Then you set the URL to operate on just like before. This is the remote
URL, that we now will upload.
Since we write an application, we most likely want libcurl to get the upload
data by asking us for it. To make it do that, we set the read callback and
the custom pointer libcurl will pass to our read callback. The read callback
should have a prototype similar to:
size_t function(char *bufptr, size_t size, size_t nitems, void *userp);
Where bufptr is the pointer to a buffer we fill in with data to upload and
size*nitems is the size of the buffer and therefore also the maximum amount
of data we can return to libcurl in this call. The 'userp' pointer is the
custom pointer we set to point to a struct of ours to pass private data
between the application and the callback.
curl_easy_setopt(easyhandle, CURLOPT_READFUNCTION, read_function);
curl_easy_setopt(easyhandle, CURLOPT_INFILE, &filedata);
Tell libcurl that we want to upload:
curl_easy_setopt(easyhandle, CURLOPT_UPLOAD, TRUE);
A few protocols won't behave properly when uploads are done without any prior
knowledge of the expected file size. HTTP PUT is one example [1]. So, set the
upload file size using the CURLOPT_INFILESIZE like this:
curl_easy_setopt(easyhandle, CURLOPT_INFILESIZE, file_size);
When you call curl_easy_perform() this time, it'll perform all the necessary
operations and when it has invoked the upload it'll call your supplied
callback to get the data to upload. The program should return as much data as
possible in every invoke, as that is likely to make the upload perform as
fast as possible. The callback should return the number of bytes it wrote in
the buffer. Returning 0 will signal the end of the upload.
Passwords
Many protocols use or even require that user name and password are provided
to be able to download or upload the data of your choice. libcurl offers
several ways to specify them.
Most protocols support that you specify the name and password in the URL
itself. libcurl will detect this and use them accordingly. This is written
like this:
protocol://user:password@example.com/path/
If you need any odd letters in your user name or password, you should enter
them URL encoded, as %XX where XX is a two-digit hexadecimal number.
libcurl also provides options to set various passwords. The user name and
password as shown embedded in the URL can instead get set with the
CURLOPT_USERPWD option. The argument passed to libcurl should be a char * to
a string in the format "user:password:". In a manner like this:
curl_easy_setopt(easyhandle, CURLOPT_USERPWD, "myname:thesecret");
Another case where name and password might be needed at times, is for those
users who need to athenticate themselves to a proxy they use. libcurl offers
another option for this, the CURLOPT_PROXYUSERPWD. It is used quite similar
to the CURLOPT_USERPWD option like this:
curl_easy_setopt(easyhandle, CURLOPT_PROXYUSERPWD, "myname:thesecret");
There's a long time unix "standard" way of storing ftp user names and
passwords, namely in the $HOME/.netrc file. The file should be made private
so that only the user may read it (see also the "Security Considerations"
chapter), as it might contain the password in plain text. libcurl has the
ability to use this file to figure out what set of user name and password to
use for a particular host. As an extension to the normal functionality,
libcurl also supports this file for non-FTP protocols such as HTTP. To make
curl use this file, use the CURLOPT_NETRC option:
curl_easy_setopt(easyhandle, CURLOPT_NETRC, TRUE);
And a very basic example of how such a .netrc file may look like:
machine myhost.mydomain.com
login userlogin
password secretword
All these examples have been cases where the password has been optional, or
at least you could leave it out and have libcurl attempt to do its job
without it. There are times when the password isn't optional, like when
you're using an SSL private key for secure transfers.
You can in this situation either pass a password to libcurl to use to unlock
the private key, or you can let libcurl prompt the user for it. If you prefer
to ask the user, then you can provide your own callback function that will be
called when libcurl wants the password. That way, you can control how the
question will appear to the user.
To pass the known private key password to libcurl:
curl_easy_setopt(easyhandle, CURLOPT_SSLKEYPASSWD, "keypassword");
To make a password callback:
int enter_passwd(void *ourp, const char *prompt, char *buffer, int len);
curl_easy_setopt(easyhandle, CURLOPT_PASSWDFUNCTION, enter_passwd);
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:
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! */
Simple enough, huh? 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
prevents 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.
struct curl_slist *headers=NULL;
headers = curl_slist_append(headers, "Content-Type: text/xml");
/* post binary data */
curl_easy_setopt(easyhandle, CURLOPT_POSTFIELD, binaryptr);
/* set the size of the postfields data */
curl_easy_setopt(easyhandle, CURLOPT_POSTFIELDSIZE, 23);
/* 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 */
While the simple examples above cover the majority of all cases where HTTP
POST operations are required, they don't do multipart formposts. Multipart
formposts were introduced as a better way to post (possibly large) binary
data and was first documented in the RFC1867. They're called multipart
because they're built by a chain of parts, each being a single unit. Each
part has its own name and contents. You can in fact create and post a
multipart 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 curl_formadd(). 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 upload the whole thing.
struct HttpPost *post=NULL;
struct 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);
The multipart formposts are a chain of parts using MIME-style separators and
headers. That means that each of these separate parts get a few headers set
that describes its individual content-type, size etc. Now, to enable your
application to handicraft this formpost even more, libcurl allows you to
supply your own custom headers to an individual form part. You can of course
supply headers to as many parts you like, but this little example will show
how you have set headers to one specific part when you add that to post
handle:
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(post); /* free custom header list */
Showing Progress
libcurl with C++
There's basicly only one thing to keep in mind when using C++ instead of C
when interfacing libcurl:
"The Callbacks Must Be Plain C"
So if you want a write callback set in libcurl, you should put it within
'extern'. Similar to this:
extern "C" {
size_t write_data(void *ptr, size_t size, size_t nmemb,
void *ourpointer)
{
/* do what you want with the data */
}
}
This will of course effectively turn the callback code into C. There won't be
any "this" pointer available etc.
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 HTTP proxies. Network clients or
user-agents ask the proxy for docuements, the proxy does the actual request
and then it returns them.
libcurl has full support for HTTP proxies, so 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.
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
transparantly, 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 is using the HTTP protocol. For example, you can't invoke your own
custom FTP commands or even proper FTP directory listings.
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");
[ environment variables, SSL, tunneling, automatic proxy config (.pac) ]
Security Considerations
[ ps output, netrc plain text, plain text protocols / base64 ]
Certificates and Other SSL Tricks
Future
-----
Footnotes:
[1] = HTTP PUT without knowing the size prior to transfer is indeed possible,
but libcurl does not support the chunked transfers on uploading that is
necessary for this feature to work. We'd gratefully appreciate patches
that bring this functionality...
[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.
[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 installs the library, header files, man pages etc.
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