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204 lines
9.5 KiB
Groff
204 lines
9.5 KiB
Groff
.\" $Id$
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.\"
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.TH libcurl 3 "19 March 2002" "libcurl 7.9.6" "libcurl overview"
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.SH NAME
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libcurl \- client-side URL transfers
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.SH DESCRIPTION
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This is an short overview on how to use libcurl in your C programs. There are
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specific man pages for each function mentioned in here. There are also the
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\fIlibcurl-easy(3)\fP man page, the \fIlibcurl-multi(3)\fP man page, the
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\fIlibcurl-share(3)\fP man page and the \fIlibcurl-tutorial(3)\fP man page for
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in-depth understanding on how to program with libcurl.
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There are more than thirty custom bindings available that bring libcurl access
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to your favourite language. Look elsewhere for documentation on those.
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libcurl has a global constant environment that you must set up and
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maintain while using libcurl. This essentially means you call
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\fIcurl_global_init(3)\fP at the start of your program and
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\fIcurl_global_cleanup(3)\fP at the end. See GLOBAL CONSTANTS below
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for details.
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To transfer files, you always set up an "easy handle" using
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\fIcurl_easy_init(3)\fP, but when you want the file(s) transferred you have
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the option of using the "easy" interface, or the "multi" interface.
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The easy interface is a synchronous interface with which you call
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\fIcurl_easy_perform(3)\fP and let it perform the transfer. When it is
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completed, the function return and you can continue. More details are found in
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the \fIlibcurl-easy(3)\fP man page.
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The multi interface on the other hand is an asynchronous interface, that you
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call and that performs only a little piece of the transfer on each invoke. It
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is perfect if you want to do things while the transfer is in progress, or
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similar. The multi interface allows you to select() on libcurl action, and
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even to easily download multiple files simultaneously using a single thread. See further deails in the \fIlibcurl-multi(3)\fP man page.
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You can have multiple easy handles share certain data, even if they are used
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in different threads. This magic is setup using the share interface, as
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described in the \fIlibcurl-share(3)\fP man page.
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There is also a series of other helpful functions to use, including these:
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.RS
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.IP curl_version_info()
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gets detailed libcurl (and other used libraries) version info
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.IP curl_getdate()
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converts a date string to time_t
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.IP curl_easy_getinfo()
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get information about a performed transfer
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.IP curl_formadd()
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helps building an HTTP form POST
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.IP curl_formfree()
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free a list built with \fIcurl_formadd(3)\fP
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.IP curl_slist_append()
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builds a linked list
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.IP curl_slist_free_all()
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frees a whole curl_slist
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.RE
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.SH "LINKING WITH LIBCURL"
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On unix-like machines, there's a tool named curl-config that gets installed
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with the rest of the curl stuff when 'make install' is performed.
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curl-config is added to make it easier for applications to link with libcurl
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and developers to learn about libcurl and how to use it.
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Run 'curl-config --libs' to get the (additional) linker options you need to
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link with the particular version of libcurl you've installed. See the
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\fIcurl-config(1)\fP man page for further details.
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Unix-like operating system that ship libcurl as part of their distributions
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often don't provide the curl-config tool, but simply install the library and
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headers in the common path for this purpose.
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.SH "LIBCURL SYMBOL NAMES"
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All public functions in the libcurl interface are prefixed with 'curl_' (with
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a lowercase c). You can find other functions in the library source code, but
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other prefixes indicate that the functions are private and may change without
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further notice in the next release.
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Only use documented functions and functionality!
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.SH "PORTABILITY"
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libcurl works
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.B exactly
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the same, on any of the platforms it compiles and builds on.
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.SH "THREADS"
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Never ever call curl-functions simultaneously using the same handle from
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several threads. libcurl is thread-safe and can be used in any number of
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threads, but you must use separate curl handles if you want to use libcurl in
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more than one thread simultaneously.
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The global environment functions are not thread-safe. See GLOBAL CONSTANTS
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below for details.
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.SH "PERSISTENT CONNECTIONS"
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Persistent connections means that libcurl can re-use the same connection for
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several transfers, if the conditions are right.
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libcurl will \fBalways\fP attempt to use persistent connections. Whenever you
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use \fIcurl_easy_perform(3)\fP or \fIcurl_multi_perform(3)\fP, libcurl will
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attempt to use an existing connection to do the transfer, and if none exists
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it'll open a new one that will be subject for re-use on a possible following
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call to \fIcurl_easy_perform(3)\fP or \fIcurl_multi_perform(3)\fP.
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To allow libcurl to take full advantage of persistent connections, you should
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do as many of your file transfers as possible using the same curl handle. When
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you call \fIcurl_easy_cleanup(3)\fP, all the possibly open connections held by
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libcurl will be closed and forgotten.
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Note that the options set with \fIcurl_easy_setopt(3)\fP will be used in on
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every repeated \fIcurl_easy_perform(3)\fP call.
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.SH "GLOBAL CONSTANTS"
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There are a variety of constants that libcurl uses, mainly through its
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internal use of other libraries, which are too complicated for the
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library loader to set up. Therefore, a program must call a library
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function after the program is loaded and running to finish setting up
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the library code. For example, when libcurl is built for SSL
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capability via the GNU TLS library, there is an elaborate tree inside
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that library that describes the SSL protocol.
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\fIcurl_global_init()\fP is the function that you must call. This may
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allocate resources (e.g. the memory for the GNU TLS tree mentioned
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above), so the companion function \fIcurl_global_cleanup()\fP releases
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them.
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The basic rule for constructing a program that uses libcurl is this:
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Call \fIcurl_global_init()\fP, with a \fICURL_GLOBAL_ALL\fP argument,
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immediately after the program starts, while it is still only one
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thread and before it uses libcurl at all. Call
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\fIcurl_global_cleanup()\fP immediately before the program exits, when
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the program is again only one thread and after its last use of
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libcurl.
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You can call both of these multiple times, as long as all calls meet
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these requirements and the number of calls to each is the same.
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It isn't actually required that the functions be called at the beginning
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and end of the program -- that's just usually the easiest way to do it.
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It \fIis\fP required that the functions be called when no other thread
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in the program is running.
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These global constant functions are \fInot thread safe\fP, so you must
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not call them when any other thread in the program is running. It
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isn't good enough that no other thread is using libcurl at the time,
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because these functions internally call similar functions of other
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libraries, and those functions are similarly thread-unsafe. You can't
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generally know what these libraries are, or whether other threads are
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using them.
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The global constant situation merits special consideration when the
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code you are writing to use libcurl is not the main program, but rather
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a modular piece of a program, e.g. another library. As a module,
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your code doesn't know about other parts of the program -- it doesn't
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know whether they use libcurl or not. And its code doesn't necessarily
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run at the start and end of the whole program.
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A module like this must have global constant functions of its own,
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just like \fIcurl_global_init()\fP and \fIcurl_global_cleanup()\fP.
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The module thus has control at the beginning and end of the program
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and has a place to call the libcurl functions. Note that if multiple
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modules in the program use libcurl, they all will separately call the
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libcurl functions, and that's OK because only the first
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\fIcurl_global_init()\fP and the last \fIcurl_global_cleanup()\fP in a
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program changes anything. (libcurl uses a reference count in static
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memory).
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In a C++ module, it is common to deal with the global constant
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situation by defining a special class that represents the global
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constant environment of the module. A program always has exactly one
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object of the class, in static storage. That way, the program
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automatically calls the constructor of the object as the program
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starts up and the destructor as it terminates. As the author of this
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libcurl-using module, you can make the constructor call
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\fIcurl_global_init()\fP and the destructor call
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\fIcurl_global_cleanup()\fP and satisfy libcurl's requirements without
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your user having to think about it.
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\fIcurl_global_init()\fP has an argument that tells what particular
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parts of the global constant environment to set up. In order to
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successfully use any value except \fICURL_GLOBAL_ALL\fP (which says to
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set up the whole thing), you must have specific knowledge of internal
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workings of libcurl and all other parts of the program of which it is
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part.
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A special part of the global constant environment is the identity of
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the memory allocator. \fIcurl_global_init()\fP selects the system
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default memory allocator, but you can use \fIcurl_global_init_mem()\fP
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to supply one of your own. However, there is no way to use
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\fIcurl_global_init_mem()\fP in a modular program -- all modules in
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the program that might use libcurl would have to agree on one
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allocator.
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There is a failsafe in libcurl that makes it usable in simple
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situations without you having to worry about the global constant
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environment at all: \fIcurl_easy_init()\fP sets up the environment
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itself if it hasn't been done yet. The resources it acquires to do so
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get released by the operating system automatically when the program
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exits.
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This failsafe feature exists mainly for backward compatibility because
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there was a time when the global functions didn't exist. Because it
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is sufficient only in the simplest of programs, it is not recommended
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for any program to rely on it.
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