2024-03-15 20:55:33 -06:00
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.\" generated by cd2nroff 0.1 from libcurl-multi.md
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2024-08-02 19:52:59 -06:00
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.TH libcurl-multi 3 "2024-08-02" libcurl
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2024-03-15 20:55:33 -06:00
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.SH NAME
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libcurl\-multi \- how to use the multi interface
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.SH DESCRIPTION
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This is an overview on how to use the libcurl multi interface in your C
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programs. There are specific man pages for each function mentioned in
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here. There is also the \fIlibcurl\-tutorial(3)\fP man page for a complete
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tutorial to programming with libcurl and the \fIlibcurl\-easy(3)\fP man page
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for an overview of the libcurl easy interface.
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All functions in the multi interface are prefixed with curl_multi.
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.SH OBJECTIVES
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The multi interface offers several abilities that the easy interface does not.
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They are mainly:
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1. Enable a "pull" interface. The application that uses libcurl decides where
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and when to ask libcurl to get/send data.
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2. Enable multiple simultaneous transfers in the same thread without making it
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complicated for the application.
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3. Enable the application to wait for action on its own file descriptors and
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curl\(aqs file descriptors simultaneously.
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4. Enable event\-based handling and scaling transfers up to and beyond
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thousands of parallel connections.
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.SH ONE MULTI HANDLE MANY EASY HANDLES
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To use the multi interface, you must first create a \(aqmulti handle\(aq with
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\fIcurl_multi_init(3)\fP. This handle is then used as input to all further
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curl_multi_* functions.
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With a multi handle and the multi interface you can do several simultaneous
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transfers in parallel. Each single transfer is built up around an easy
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handle. You create all the easy handles you need, and setup the appropriate
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options for each easy handle using \fIcurl_easy_setopt(3)\fP.
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There are two flavors of the multi interface, the select() oriented one and
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the event based one we call multi_socket. You benefit from reading through the
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description of both versions to fully understand how they work and
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differentiate. We start out with the select() oriented version.
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When an easy handle is setup and ready for transfer, then instead of using
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\fIcurl_easy_perform(3)\fP like when using the easy interface for transfers,
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you should add the easy handle to the multi handle with
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\fIcurl_multi_add_handle(3)\fP. You can add more easy handles to a multi
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handle at any point, even if other transfers are already running.
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Should you change your mind, the easy handle is again removed from the multi
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stack using \fIcurl_multi_remove_handle(3)\fP. Once removed from the multi
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handle, you can again use other easy interface functions like
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\fIcurl_easy_perform(3)\fP on the handle or whatever you think is
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necessary. You can remove handles at any point during transfers.
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Adding the easy handle to the multi handle does not start the transfer.
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Remember that one of the main ideas with this interface is to let your
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application drive. You drive the transfers by invoking
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\fIcurl_multi_perform(3)\fP. libcurl then transfers data if there is anything
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available to transfer. It uses the callbacks and everything else you have
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setup in the individual easy handles. It transfers data on all current
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transfers in the multi stack that are ready to transfer anything. It may be
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all, it may be none. When there is nothing more to do for now, it returns back
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to the calling application.
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Your application extracts info from libcurl about when it would like to get
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invoked to transfer data or do other work. The most convenient way is to use
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\fIcurl_multi_poll(3)\fP that helps you wait until the application should call
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libcurl again. The older API to accomplish the same thing is
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\fIcurl_multi_fdset(3)\fP that extracts \fIfd_sets\fP from libcurl to use in
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select() or poll() calls in order to get to know when the transfers in the
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multi stack might need attention. Both these APIs allow for your program to
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wait for input on your own private file descriptors at the same time.
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\fIcurl_multi_timeout(3)\fP also helps you with providing a suitable timeout
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period for your select() calls.
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\fIcurl_multi_perform(3)\fP stores the number of still running transfers in
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one of its input arguments, and by reading that you can figure out when all
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the transfers in the multi handles are done. \(aqdone\(aq does not mean
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successful. One or more of the transfers may have failed.
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To get information about completed transfers, to figure out success or not and
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similar, \fIcurl_multi_info_read(3)\fP should be called. It can return a
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message about a current or previous transfer. Repeated invokes of the function
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get more messages until the message queue is empty. The information you
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receive there includes an easy handle pointer which you may use to identify
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which easy handle the information regards.
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When a single transfer is completed, the easy handle is still left added to
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the multi stack. You need to first remove the easy handle with
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\fIcurl_multi_remove_handle(3)\fP and then close it with
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\fIcurl_easy_cleanup(3)\fP, or possibly set new options to it and add it again
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with \fIcurl_multi_add_handle(3)\fP to start another transfer.
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When all transfers in the multi stack are done, close the multi handle with
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\fIcurl_multi_cleanup(3)\fP. Be careful and please note that you \fBMUST\fP
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invoke separate \fIcurl_easy_cleanup(3)\fP calls for every single easy handle
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to clean them up properly.
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If you want to reuse an easy handle that was added to the multi handle for
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transfer, you must first remove it from the multi stack and then re\-add it
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again (possibly after having altered some options at your own choice).
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.SH MULTI_SOCKET
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\fIcurl_multi_socket_action(3)\fP function offers a way for applications to
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not only avoid being forced to use select(), but it also offers a much more
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high\-performance API that makes a significant difference for applications
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using large numbers of simultaneous connections.
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\fIcurl_multi_socket_action(3)\fP is then used instead of
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\fIcurl_multi_perform(3)\fP.
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When using this API, you add easy handles to the multi handle just as with the
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normal multi interface. Then you also set two callbacks with the
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\fICURLMOPT_SOCKETFUNCTION(3)\fP and \fICURLMOPT_TIMERFUNCTION(3)\fP options
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to \fIcurl_multi_setopt(3)\fP. They are two callback functions that libcurl
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calls with information about what sockets to wait for, and for what activity,
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and what the current timeout time is \- if that expires libcurl should be
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notified.
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The multi_socket API is designed to inform your application about which
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sockets libcurl is currently using and for what activities (read and/or write)
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on those sockets your application is expected to wait for.
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Your application must make sure to receive all sockets informed about in the
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\fICURLMOPT_SOCKETFUNCTION(3)\fP callback and make sure it reacts on the given
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activity on them. When a socket has the given activity, you call
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\fIcurl_multi_socket_action(3)\fP specifying which socket and action there
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are.
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The \fICURLMOPT_TIMERFUNCTION(3)\fP callback is called to set a timeout. When
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that timeout expires, your application should call the
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\fIcurl_multi_socket_action(3)\fP function saying it was due to a timeout.
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This API is typically used with an event\-driven underlying functionality (like
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libevent, libev, kqueue, epoll or similar) with which the application
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\&"subscribes" on socket changes. This allows applications and libcurl to much
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better scale upward and beyond thousands of simultaneous transfers without
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losing performance.
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When you have added your initial set of handles, you call
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\fIcurl_multi_socket_action(3)\fP with CURL_SOCKET_TIMEOUT set in the
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\fIsockfd\fP argument, and you get callbacks invoked that set you up and you
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then continue to call \fIcurl_multi_socket_action(3)\fP accordingly when you
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get activity on the sockets you have been asked to wait on, or if the timeout
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timer expires.
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You can poll \fIcurl_multi_info_read(3)\fP to see if any transfer has
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completed, as it then has a message saying so.
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.SH BLOCKING
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A few areas in the code are still using blocking code, even when used from the
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multi interface. While we certainly want and intend for these to get fixed in
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the future, you should be aware of the following current restrictions:
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.nf
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- Name resolves unless the c-ares or threaded-resolver backends are used
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- file:// transfers
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- TELNET transfers
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.fi
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.SH SEE ALSO
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.BR libcurl (3),
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.BR libcurl-easy (3),
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.BR libcurl-errors (3)
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