293 lines
13 KiB
Plaintext
293 lines
13 KiB
Plaintext
@section Cygwin API Questions
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@subsection How does everything work?
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There's a C library which provides a Unix-style API. The
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applications are linked with it and voila - they run on Windows.
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The aim is to add all the goop necessary to make your apps run on
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Windows into the C library. Then your apps should run on Unix and
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Windows with no changes at the source level.
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The C library is in a DLL, which makes basic applications quite small.
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And it allows relatively easy upgrades to the Win32/Unix translation
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layer, providing that DLL changes stay backward-compatible.
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For a good overview of Cygwin, you may want to read the paper on Cygwin
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published by the Usenix Association in conjunction with the 2d Usenix NT
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Symposium in August 1998. It is available in HTML format on the project
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WWW site.
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@subsection Are development snapshots for the Cygwin library available?
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Yes. They're made whenever anything interesting happens inside the
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Cygwin library (usually roughly on a nightly basis, depending on how much
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is going on). They are only intended for those people who wish to
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contribute code to the project. If you aren't going to be happy
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debugging problems in a buggy snapshot, avoid these and wait for a real
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release. The snapshots are available from
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@file{http://cygwin.com/snapshots/}.
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@subsection How is the DOS/Unix CR/LF thing handled?
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Let's start with some background.
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In UNIX, a file is a file and what the file contains is whatever the
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program/programmer/user told it to put into it. In Windows, a file is
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also a file and what the file contains depends not only on the
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program/programmer/user but also the file processing mode.
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When processing in text mode, certain values of data are treated
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specially. A \n (new line) written to the file will prepend a \r
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(carriage return) so that if you `printf("Hello\n") you in fact get
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"Hello\r\n". Upon reading this combination, the \r is removed and the
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number of bytes returned by the read is 1 less than was actually read.
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This tends to confuse programs dependent on ftell() and fseek(). A
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Ctrl-Z encountered while reading a file sets the End Of File flags even
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though it truly isn't the end of file.
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One of Cygwin's goals is to make it possible to easily mix Cygwin-ported
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Unix programs with generic Windows programs. As a result, Cygwin opens
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files in text mode as is normal under Windows. In the accompanying
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tools, tools that deal with binaries (e.g. objdump) operate in Unix
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binary mode and tools that deal with text files (e.g. bash) operate in
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text mode.
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Some people push the notion of globally setting the default processing
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mode to binary via mount point options or by setting the CYGWIN
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environment variable. But that creates a different problem. In
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binary mode, the program receives all of the data in the file, including
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a \r. Since the programs will no longer deal with these properly for
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you, you would have to remove the \r from the relevant text files,
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especially scripts and startup resource files. This is a porter "cop
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out", forcing the user to deal with the \r for the porter.
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It is rather easy for the porter to fix the source code by supplying the
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appropriate file processing mode switches to the open/fopen functions.
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Treat all text files as text and treat all binary files as binary.
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To be specific, you can select binary mode by adding @code{O_BINARY} to
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the second argument of an @code{open} call, or @code{"b"} to second
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argument of an @code{fopen} call. You can also call @code{setmode (fd,
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O_BINARY)}.
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Note that because the open/fopen switches are defined by ANSI, they
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exist under most flavors of Unix; open/fopen will just ignore the switch
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since they have no meaning to UNIX.
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Explanation adapted from mailing list email by Earnie Boyd
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<earnie_boyd@@yahoo.com>.
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@subsection Is the Cygwin library multi-thread-safe?
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Yes.
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There is also extensive support for 'POSIX threads', see the file
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@code{cygwin.din} for the list of POSIX thread functions provided.
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@subsection Why is some functionality only supported in Windows NT?
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Windows 9x: n.
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32 bit extensions and a graphical shell for a 16 bit patch to an
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8 bit operating system originally coded for a 4 bit microprocessor,
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written by a 2 bit company that can't stand 1 bit of competition.
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But seriously, Windows 9x lacks most of the security-related calls and
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has several other deficiencies with respect to its version of the Win32
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API. See the calls.texinfo document for more information as to what
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is not supported in Win 9x.
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@subsection How is fork() implemented?
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Cygwin fork() essentially works like a non-copy on write version
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of fork() (like old Unix versions used to do). Because of this it
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can be a little slow. In most cases, you are better off using the
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spawn family of calls if possible.
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Here's how it works:
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Parent initializes a space in the Cygwin process table for child.
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Parent creates child suspended using Win32 CreateProcess call, giving
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the same path it was invoked with itself. Parent calls setjmp to save
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its own context and then sets a pointer to this in the Cygwin shared
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memory area (shared among all Cygwin tasks). Parent fills in the child's
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.data and .bss subsections by copying from its own address space into
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the suspended child's address space. Parent then starts the child.
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Parent waits on mutex for child to get to safe point. Child starts and
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discovers if has been forked and then longjumps using the saved jump
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buffer. Child sets mutex parent is waiting on and then blocks on
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another mutex waiting for parent to fill in its stack and heap. Parent
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notices child is in safe area, copies stack and heap from itself into
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child, releases the mutex the child is waiting on and returns from the
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fork call. Child wakes from blocking on mutex, recreates any mmapped
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areas passed to it via shared area and then returns from fork itself.
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@subsection How does wildcarding (globbing) work?
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If the DLL thinks it was invoked from a DOS style prompt, it runs a
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`globber' over the arguments provided on the command line. This means
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that if you type @code{LS *.EXE} from DOS, it will do what you might
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expect.
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Beware: globbing uses @code{malloc}. If your application defines
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@code{malloc}, that will get used. This may do horrible things to you.
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@subsection How do symbolic links work?
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Cygwin knows of two ways to create symlinks.
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The old method is the only valid one up to but not including version 1.3.0.
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If it's enabled (from 1.3.0 on by setting `nowinsymlinks' in the environment
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variable CYGWIN) Cygwin generates link files with a magic header. When you
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open a file or directory that is a link to somewhere else, it opens the file
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or directory listed in the magic header. Because we don't want to have to
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open every referenced file to check symlink status, Cygwin marks symlinks
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with the system attribute. Files without the system attribute are not
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checked. Because remote samba filesystems do not enable the system
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attribute by default, symlinks do not work on network drives unless you
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explicitly enable this attribute.
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The new method which is introduced with Cygwin version 1.3.0 is enabled
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by default or if `winsymlinks' is set in the environment variable CYGWIN.
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Using this method, Cygwin generates symlinks by creating Windows shortcuts.
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Cygwin created shortcuts have a special header (which is in that way never
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created by Explorer) and the R/O attribute set. A DOS path is stored in
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the shortcut as usual and the description entry is used to store the POSIX
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path. While the POSIX path is stored as is, the DOS path has perhaps to be
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rearranged to result in a valid path. This may result in a divergence
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between the DOS and the POSIX path when symlinks are moved crossing mount
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points. When a user changes the shortcut, this will be detected by Cygwin
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and it will only use the DOS path then. While Cygwin shortcuts are shown
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without the ".lnk" suffix in `ls' output, non-Cygwin shortcuts are shown
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with the suffix. However, both are treated as symlinks.
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Both, the old and the new symlinks can live peacefully together since Cygwin
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treats both as symlinks regardless of the setting of `(no)winsymlinks' in
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the environment variable CYGWIN.
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@subsection Why do some files, which are not executables have the 'x' type.
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When working out the Unix-style attribute bits on a file, the library
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has to fill out some information not provided by the WIN32 API.
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It guesses that files ending in .exe and .bat are executable, as are
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ones which have a "#!" as their first characters.
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@subsection How secure is Cygwin in a multi-user environment?
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As of version 1.5.13, the Cygwin developers are not aware of any feature
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in the cygwin dll that would allow users to gain privileges or to access
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objects to which they have no rights under Windows. However there is no
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guarantee that Cygwin is as secure as the Windows it runs on. Cygwin
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processes share some variables and are thus easier targets of denial of
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service type of attacks.
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@subsection How do the net-related functions work?
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@strong{(Please note: This section has not yet been updated for the latest
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net release.)}
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The network support in Cygwin is supposed to provide the Unix API, not
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the Winsock API.
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There are differences between the semantics of functions with the same
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name under the API.
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E.g., the select system call on Unix can wait on a standard file handles
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and handles to sockets. The select call in Winsock can only wait on
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sockets. Because of this, cygwin.dll does a lot of nasty stuff behind
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the scenes, trying to persuade various Winsock/win32 functions to do what
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a Unix select would do.
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If you are porting an application which already uses Winsock, then
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using the net support in Cygwin is wrong.
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But you can still use native Winsock, and use Cygwin. The functions
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which cygwin.dll exports are called 'cygwin_<name>'. There
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are a load of defines which map the standard Unix names to the names
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exported by the DLL-- check out include/netdb.h:
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@example
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..etc..
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void cygwin_setprotoent (int);
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void cygwin_setservent (int);
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void cygwin_setrpcent (int);
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..etc..
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#ifndef __INSIDE_CYGWIN_NET__
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#define endprotoent cygwin_endprotoent
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#define endservent cygwin_endservent
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#define endrpcent cygwin_endrpcent
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..etc..
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@end example
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The idea is that you'll get the Unix->Cygwin mapping if you include
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the standard Unix header files. If you use this, you won't need to
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link with libwinsock.a - all the net stuff is inside the DLL.
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The mywinsock.h file is a standard winsock.h which has been hacked to
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remove the bits which conflict with the standard Unix API, or are
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defined in other headers. E.g., in mywinsock.h, the definition of
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struct hostent is removed. This is because on a Unix box, it lives in
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netdb. It isn't a good idea to use it in your applications.
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As of the b19 release, this information may be slightly out of date.
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@subsection I don't want Unix sockets, how do I use normal Win32 winsock?
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@strong{(Please note: This section has not yet been updated for the latest
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net release.)}
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To use the vanilla Win32 winsock, you just need to #define Win32_Winsock
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and #include "windows.h" at the top of your source file(s). You'll also
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want to add -lwsock32 to the compiler's command line so you link against
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libwsock32.a.
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@subsection What version numbers are associated with Cygwin?
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Cygwin versioning is relatively complicated because of its status as a
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shared library. First of all, since October 1998 every Cygwin DLL has
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been named @code{cygwin1.dll} and has a 1 in the release name.
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Additionally, there are DLL major and minor numbers that correspond to
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the name of the release, and a release number. In other words,
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cygwin-1.5.10-2 is @code{cygwin1.dll}, major version 5, minor version
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10, release 2.
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The @code{cygwin1.dll} major version number gets incremented only when a
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change is made that makes existing software incompatible. For example,
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the first major version 5 release, cygwin-1.5.0-1, added 64-bit file I/O
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operations, which required many libraries to be recompiled and relinked.
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The minor version changes every time we make a new backward compatible
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Cygwin release available. There is also a @code{cygwin1.dll} release
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version number. The release number is only incremented if we update an
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existing release in a way that does not effect the DLL (like a missing
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header file).
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There are also Cygwin API major and minor numbers. The major number
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tracks important non-backward-compatible interface changes to the API.
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An executable linked with an earlier major number will not be compatible
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with the latest DLL. The minor number tracks significant API additions
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or changes that will not break older executables but may be required by
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newly compiled ones.
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Then there is a shared memory region compatibility version number. It is
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incremented when incompatible changes are made to the shared memory
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region or to any named shared mutexes, semaphores, etc. Finally there
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is a mount point registry version number which keeps track
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of non-backwards-compatible changes to the registry mount table layout.
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This has been @code{mounts v2} for a long time. For more exciting Cygwin
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version number details, check out the @code{/usr/include/cygwin/version.h}
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file.
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@subsection Why isn't _timezone set correctly?
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@strong{(Please note: This section has not yet been updated for the latest
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net release.)}
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Did you explicitly call tzset() before checking the value of _timezone?
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If not, you must do so.
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@subsection Is there a mouse interface?
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There is no way to capture mouse events from Cygwin. There are
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currently no plans to add support for this.
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