mirror of
https://github.com/curl/curl.git
synced 2024-11-27 05:50:21 +08:00
82b55efdba
It's not quite fair to list TFTP is a "crappy" member of the libcurl family so I removed its mentioning.
489 lines
20 KiB
Plaintext
489 lines
20 KiB
Plaintext
_ _ ____ _
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/ __| | | | |_) | |
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| (__| |_| | _ <| |___
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\___|\___/|_| \_\_____|
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INTERNALS
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The project is split in two. The library and the client. The client part uses
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the library, but the library is designed to allow other applications to use
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it.
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The largest amount of code and complexity is in the library part.
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GIT
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===
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All changes to the sources are committed to the git repository as soon as
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they're somewhat verified to work. Changes shall be commited as independently
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as possible so that individual changes can be easier spotted and tracked
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afterwards.
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Tagging shall be used extensively, and by the time we release new archives we
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should tag the sources with a name similar to the released version number.
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Portability
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===========
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We write curl and libcurl to compile with C89 compilers. On 32bit and up
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machines. Most of libcurl assumes more or less POSIX compliance but that's
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not a requirement.
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We write libcurl to build and work with lots of third party tools, and we
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want it to remain functional and buildable with these and later versions
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(older versions may still work but is not what we work hard to maintain):
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OpenSSL 0.9.6
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GnuTLS 1.2
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zlib 1.1.4
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libssh2 0.16
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c-ares 1.5.0
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libidn 0.4.1
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*yassl 1.4.0 (http://curl.haxx.se/mail/lib-2008-02/0093.html)
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openldap 2.0
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MIT krb5 lib 1.2.4
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qsossl V5R2M0
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NSS 3.11.x
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Heimdal ?
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* = only partly functional, but that's due to bugs in the third party lib, not
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because of libcurl code
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On systems where configure runs, we aim at working on them all - if they have
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a suitable C compiler. On systems that don't run configure, we strive to keep
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curl running fine on:
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Windows 98
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AS/400 V5R2M0
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Symbian 9.1
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Windows CE ?
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TPF ?
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When writing code (mostly for generating stuff included in release tarballs)
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we use a few "build tools" and we make sure that we remain functional with
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these versions:
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GNU Libtool 1.4.2
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GNU Autoconf 2.57
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GNU Automake 1.7 (we currently avoid 1.10 due to Solaris-related bugs)
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GNU M4 1.4
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perl 4
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roffit 0.5
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groff ? (any version that supports "groff -Tps -man [in] [out]")
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ps2pdf (gs) ?
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Windows vs Unix
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===============
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There are a few differences in how to program curl the unix way compared to
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the Windows way. The four perhaps most notable details are:
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1. Different function names for socket operations.
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In curl, this is solved with defines and macros, so that the source looks
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the same at all places except for the header file that defines them. The
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macros in use are sclose(), sread() and swrite().
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2. Windows requires a couple of init calls for the socket stuff.
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That's taken care of by the curl_global_init() call, but if other libs also
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do it etc there might be reasons for applications to alter that behaviour.
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3. The file descriptors for network communication and file operations are
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not easily interchangable as in unix.
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We avoid this by not trying any funny tricks on file descriptors.
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4. When writing data to stdout, Windows makes end-of-lines the DOS way, thus
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destroying binary data, although you do want that conversion if it is
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text coming through... (sigh)
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We set stdout to binary under windows
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Inside the source code, We make an effort to avoid '#ifdef [Your OS]'. All
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conditionals that deal with features *should* instead be in the format
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'#ifdef HAVE_THAT_WEIRD_FUNCTION'. Since Windows can't run configure scripts,
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we maintain two curl_config-win32.h files (one in lib/ and one in src/) that
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are supposed to look exactly as a curl_config.h file would have looked like on
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a Windows machine!
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Generally speaking: always remember that this will be compiled on dozens of
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operating systems. Don't walk on the edge.
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Library
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=======
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There are plenty of entry points to the library, namely each publicly defined
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function that libcurl offers to applications. All of those functions are
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rather small and easy-to-follow. All the ones prefixed with 'curl_easy' are
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put in the lib/easy.c file.
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curl_global_init_() and curl_global_cleanup() should be called by the
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application to initialize and clean up global stuff in the library. As of
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today, it can handle the global SSL initing if SSL is enabled and it can init
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the socket layer on windows machines. libcurl itself has no "global" scope.
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All printf()-style functions use the supplied clones in lib/mprintf.c. This
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makes sure we stay absolutely platform independent.
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curl_easy_init() allocates an internal struct and makes some initializations.
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The returned handle does not reveal internals. This is the 'SessionHandle'
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struct which works as an "anchor" struct for all curl_easy functions. All
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connections performed will get connect-specific data allocated that should be
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used for things related to particular connections/requests.
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curl_easy_setopt() takes three arguments, where the option stuff must be
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passed in pairs: the parameter-ID and the parameter-value. The list of
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options is documented in the man page. This function mainly sets things in
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the 'SessionHandle' struct.
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curl_easy_perform() does a whole lot of things:
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It starts off in the lib/easy.c file by calling Curl_perform() and the main
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work then continues in lib/url.c. The flow continues with a call to
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Curl_connect() to connect to the remote site.
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o Curl_connect()
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... analyzes the URL, it separates the different components and connects to
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the remote host. This may involve using a proxy and/or using SSL. The
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Curl_resolv() function in lib/hostip.c is used for looking up host names
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(it does then use the proper underlying method, which may vary between
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platforms and builds).
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When Curl_connect is done, we are connected to the remote site. Then it is
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time to tell the server to get a document/file. Curl_do() arranges this.
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This function makes sure there's an allocated and initiated 'connectdata'
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struct that is used for this particular connection only (although there may
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be several requests performed on the same connect). A bunch of things are
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inited/inherited from the SessionHandle struct.
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o Curl_do()
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Curl_do() makes sure the proper protocol-specific function is called. The
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functions are named after the protocols they handle. Curl_ftp(),
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Curl_http(), Curl_dict(), etc. They all reside in their respective files
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(ftp.c, http.c and dict.c). HTTPS is handled by Curl_http() and FTPS by
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Curl_ftp().
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The protocol-specific functions of course deal with protocol-specific
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negotiations and setup. They have access to the Curl_sendf() (from
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lib/sendf.c) function to send printf-style formatted data to the remote
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host and when they're ready to make the actual file transfer they call the
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Curl_Transfer() function (in lib/transfer.c) to setup the transfer and
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returns.
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If this DO function fails and the connection is being re-used, libcurl will
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then close this connection, setup a new connection and re-issue the DO
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request on that. This is because there is no way to be perfectly sure that
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we have discovered a dead connection before the DO function and thus we
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might wrongly be re-using a connection that was closed by the remote peer.
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Some time during the DO function, the Curl_setup_transfer() function must
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be called with some basic info about the upcoming transfer: what socket(s)
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to read/write and the expected file tranfer sizes (if known).
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o Transfer()
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Curl_perform() then calls Transfer() in lib/transfer.c that performs the
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entire file transfer.
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During transfer, the progress functions in lib/progress.c are called at a
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frequent interval (or at the user's choice, a specified callback might get
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called). The speedcheck functions in lib/speedcheck.c are also used to
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verify that the transfer is as fast as required.
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o Curl_done()
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Called after a transfer is done. This function takes care of everything
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that has to be done after a transfer. This function attempts to leave
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matters in a state so that Curl_do() should be possible to call again on
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the same connection (in a persistent connection case). It might also soon
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be closed with Curl_disconnect().
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o Curl_disconnect()
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When doing normal connections and transfers, no one ever tries to close any
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connections so this is not normally called when curl_easy_perform() is
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used. This function is only used when we are certain that no more transfers
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is going to be made on the connection. It can be also closed by force, or
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it can be called to make sure that libcurl doesn't keep too many
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connections alive at the same time (there's a default amount of 5 but that
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can be changed with the CURLOPT_MAXCONNECTS option).
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This function cleans up all resources that are associated with a single
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connection.
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Curl_perform() is the function that does the main "connect - do - transfer -
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done" loop. It loops if there's a Location: to follow.
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When completed, the curl_easy_cleanup() should be called to free up used
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resources. It runs Curl_disconnect() on all open connectons.
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A quick roundup on internal function sequences (many of these call
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protocol-specific function-pointers):
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curl_connect - connects to a remote site and does initial connect fluff
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This also checks for an existing connection to the requested site and uses
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that one if it is possible.
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curl_do - starts a transfer
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curl_transfer() - transfers data
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curl_done - ends a transfer
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curl_disconnect - disconnects from a remote site. This is called when the
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disconnect is really requested, which doesn't necessarily have to be
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exactly after curl_done in case we want to keep the connection open for
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a while.
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HTTP(S)
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HTTP offers a lot and is the protocol in curl that uses the most lines of
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code. There is a special file (lib/formdata.c) that offers all the multipart
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post functions.
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base64-functions for user+password stuff (and more) is in (lib/base64.c) and
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all functions for parsing and sending cookies are found in (lib/cookie.c).
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HTTPS uses in almost every means the same procedure as HTTP, with only two
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exceptions: the connect procedure is different and the function used to read
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or write from the socket is different, although the latter fact is hidden in
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the source by the use of curl_read() for reading and curl_write() for writing
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data to the remote server.
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http_chunks.c contains functions that understands HTTP 1.1 chunked transfer
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encoding.
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An interesting detail with the HTTP(S) request, is the add_buffer() series of
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functions we use. They append data to one single buffer, and when the
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building is done the entire request is sent off in one single write. This is
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done this way to overcome problems with flawed firewalls and lame servers.
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FTP
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The Curl_if2ip() function can be used for getting the IP number of a
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specified network interface, and it resides in lib/if2ip.c.
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Curl_ftpsendf() is used for sending FTP commands to the remote server. It was
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made a separate function to prevent us programmers from forgetting that they
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must be CRLF terminated. They must also be sent in one single write() to make
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firewalls and similar happy.
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Kerberos
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The kerberos support is mainly in lib/krb4.c and lib/security.c.
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TELNET
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Telnet is implemented in lib/telnet.c.
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FILE
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The file:// protocol is dealt with in lib/file.c.
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LDAP
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Everything LDAP is in lib/ldap.c.
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GENERAL
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URL encoding and decoding, called escaping and unescaping in the source code,
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is found in lib/escape.c.
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While transfering data in Transfer() a few functions might get used.
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curl_getdate() in lib/parsedate.c is for HTTP date comparisons (and more).
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lib/getenv.c offers curl_getenv() which is for reading environment variables
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in a neat platform independent way. That's used in the client, but also in
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lib/url.c when checking the proxy environment variables. Note that contrary
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to the normal unix getenv(), this returns an allocated buffer that must be
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free()ed after use.
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lib/netrc.c holds the .netrc parser
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lib/timeval.c features replacement functions for systems that don't have
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gettimeofday() and a few support functions for timeval convertions.
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A function named curl_version() that returns the full curl version string is
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found in lib/version.c.
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Persistent Connections
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======================
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The persistent connection support in libcurl requires some considerations on
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how to do things inside of the library.
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o The 'SessionHandle' struct returned in the curl_easy_init() call must never
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hold connection-oriented data. It is meant to hold the root data as well as
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all the options etc that the library-user may choose.
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o The 'SessionHandle' struct holds the "connection cache" (an array of
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pointers to 'connectdata' structs). There's one connectdata struct
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allocated for each connection that libcurl knows about. Note that when you
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use the multi interface, the multi handle will hold the connection cache
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and not the particular easy handle. This of course to allow all easy handles
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in a multi stack to be able to share and re-use connections.
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o This enables the 'curl handle' to be reused on subsequent transfers.
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o When we are about to perform a transfer with curl_easy_perform(), we first
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check for an already existing connection in the cache that we can use,
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otherwise we create a new one and add to the cache. If the cache is full
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already when we add a new connection, we close one of the present ones. We
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select which one to close dependent on the close policy that may have been
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previously set.
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o When the transfer operation is complete, we try to leave the connection
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open. Particular options may tell us not to, and protocols may signal
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closure on connections and then we don't keep it open of course.
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o When curl_easy_cleanup() is called, we close all still opened connections,
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unless of course the multi interface "owns" the connections.
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You do realize that the curl handle must be re-used in order for the
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persistent connections to work.
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multi interface/non-blocking
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============================
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We make an effort to provide a non-blocking interface to the library, the
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multi interface. To make that interface work as good as possible, no
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low-level functions within libcurl must be written to work in a blocking
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manner.
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One of the primary reasons we introduced c-ares support was to allow the name
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resolve phase to be perfectly non-blocking as well.
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The ultimate goal is to provide the easy interface simply by wrapping the
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multi interface functions and thus treat everything internally as the multi
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interface is the single interface we have.
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The FTP and the SFTP/SCP protocols are thus perfect examples of how we adapt
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and adjust the code to allow non-blocking operations even on multi-stage
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protocols. The DICT, LDAP and TELNET are crappy examples and they are subject
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for rewrite in the future to better fit the libcurl protocol family.
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SSL libraries
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=============
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Originally libcurl supported SSLeay for SSL/TLS transports, but that was then
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extended to its successor OpenSSL but has since also been extended to several
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other SSL/TLS libraries and we expect and hope to further extend the support
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in future libcurl versions.
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To deal with this internally in the best way possible, we have a generic SSL
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function API as provided by the sslgen.[ch] system, and they are the only SSL
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functions we must use from within libcurl. sslgen is then crafted to use the
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appropriate lower-level function calls to whatever SSL library that is in
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use.
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Library Symbols
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===============
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All symbols used internally in libcurl must use a 'Curl_' prefix if they're
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used in more than a single file. Single-file symbols must be made static.
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Public ("exported") symbols must use a 'curl_' prefix. (There are exceptions,
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but they are to be changed to follow this pattern in future versions.)
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Return Codes and Informationals
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===============================
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I've made things simple. Almost every function in libcurl returns a CURLcode,
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that must be CURLE_OK if everything is OK or otherwise a suitable error code
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as the curl/curl.h include file defines. The very spot that detects an error
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must use the Curl_failf() function to set the human-readable error
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description.
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In aiding the user to understand what's happening and to debug curl usage, we
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must supply a fair amount of informational messages by using the Curl_infof()
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function. Those messages are only displayed when the user explicitly asks for
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them. They are best used when revealing information that isn't otherwise
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obvious.
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API/ABI
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=======
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We make an effort to not export or show internals or how internals work, as
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that makes it easier to keep a solid API/ABI over time. See docs/libcurl/ABI
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for our promise to users.
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Client
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======
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main() resides in src/main.c together with most of the client code.
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src/hugehelp.c is automatically generated by the mkhelp.pl perl script to
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display the complete "manual" and the src/urlglob.c file holds the functions
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used for the URL-"globbing" support. Globbing in the sense that the {} and []
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expansion stuff is there.
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The client mostly messes around to setup its 'config' struct properly, then
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it calls the curl_easy_*() functions of the library and when it gets back
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control after the curl_easy_perform() it cleans up the library, checks status
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and exits.
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When the operation is done, the ourWriteOut() function in src/writeout.c may
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be called to report about the operation. That function is using the
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curl_easy_getinfo() function to extract useful information from the curl
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session.
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Recent versions may loop and do all this several times if many URLs were
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specified on the command line or config file.
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Memory Debugging
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================
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The file lib/memdebug.c contains debug-versions of a few functions. Functions
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such as malloc, free, fopen, fclose, etc that somehow deal with resources
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that might give us problems if we "leak" them. The functions in the memdebug
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system do nothing fancy, they do their normal function and then log
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information about what they just did. The logged data can then be analyzed
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after a complete session,
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memanalyze.pl is the perl script present in tests/ that analyzes a log file
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generated by the memory tracking system. It detects if resources are
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allocated but never freed and other kinds of errors related to resource
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management.
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Internally, definition of preprocessor symbol DEBUGBUILD restricts code which
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is only compiled for debug enabled builds. And symbol CURLDEBUG is used to
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differentiate code which is _only_ used for memory tracking/debugging.
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Use -DCURLDEBUG when compiling to enable memory debugging, this is also
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switched on by running configure with --enable-curldebug. Use -DDEBUGBUILD
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when compiling to enable a debug build or run configure with --enable-debug.
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curl --version will list 'Debug' feature for debug enabled builds, and
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will list 'TrackMemory' feature for curl debug memory tracking capable
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builds. These features are independent and can be controlled when running
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the configure script. When --enable-debug is given both features will be
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enabled, unless some restriction prevents memory tracking from being used.
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Test Suite
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==========
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Since November 2000, a test suite has evolved. It is placed in its own
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subdirectory directly off the root in the curl archive tree, and it contains
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a bunch of scripts and a lot of test case data.
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The main test script is runtests.pl that will invoke the two servers
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httpserver.pl and ftpserver.pl before all the test cases are performed. The
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test suite currently only runs on unix-like platforms.
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You'll find a complete description of the test case data files in the
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tests/README file.
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The test suite automatically detects if curl was built with the memory
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debugging enabled, and if it was it will detect memory leaks too.
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Building Releases
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=================
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There's no magic to this. When you consider everything stable enough to be
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released, run the 'maketgz' script (using 'make distcheck' will give you a
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pretty good view on the status of the current sources). maketgz prompts for
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version number of the client and the library before it creates a release
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archive. maketgz uses 'make dist' for the actual archive building, why you
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need to fill in the Makefile.am files properly for which files that should
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be included in the release archives.
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NOTE: you need to have curl checked out from git to be able to do a proper
|
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release build. The release tarballs do not have everything setup in order to
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do releases properly.
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