index -summary -history -testscript perl / python problems -with callframes -with structures -largefile seeks -broken builds systems -freeBSD/darwin -linux/solaris -64on32 mix -distro makers -win32/other (2) libraries - libc ..(3264)
- zlib ..(-32-)
- gtk2 ..(-64-)
converting -old non-off_t code -going largefile -longlong default -face dualmode -make twinlibs -and defend (it) programming -largefile default -off_t in headers -make export64 -find mismatch -the autowrappers -environ changes -best practice? old library -dualmode renames -the extra function -largefile64_source -glibc headers -libgz example *** new library -dual export -largefiles win32 -compat32 calls -compat32 library -long32 dualmode links -some quotes -sitemap / mpl -large.file Group* -ac-archive Site*
(C) 2010-03-27 Guido U. Draheim |
glibc headersThe GNU C runtime library (abbreviated "glibc" - not to be confused with the GNOME runtime library "glib") is a classic example of a dualmode library. Their header files do the following: features.h/* These are defined by the user (or the compiler) to specify the desired environment: _XOPEN_SOURCE Includes POSIX and XPG things. Set to 500 if Single Unix conformance is wanted, to 600 for the sixth revision, to 700 for the seventh revision. _LARGEFILE_SOURCE Some more functions for correct standard I/O. _LARGEFILE64_SOURCE Additional functionality from LFS for large files. _FILE_OFFSET_BITS=N Select default filesystem interface. _GNU_SOURCE All of the above, plus GNU extensions. These are defined by this file and are used by the header files to decide what to declare or define: __USE_LARGEFILE Define correct standard I/O things. __USE_LARGEFILE64 Define LFS things with separate names. __USE_FILE_OFFSET64 Define 64bit interface as default. */ #ifdef _GNU_SOURCE #define _LARGEFILE64_SOURCE 1 #endif #ifdef _XOPEN_SOURCE #define _LARGEFILE_SOURCE 1 #endif #ifdef _LARGEFILE_SOURCE #define __USE_LARGEFILE 1 #endif #ifdef _LARGEFILE64_SOURCE #define __USE_LARGEFILE64 1 #endif #if defined _FILE_OFFSET_BITS && _FILE_OFFSET_BITS == 64 # define __USE_FILE_OFFSET64 1 #endif /* If we don't have __REDIRECT, prototypes will be missing if __USE_FILE_OFFSET64 but not __USE_LARGEFILE[64]. */ # if defined __USE_FILE_OFFSET64 && !defined __REDIRECT # define __USE_LARGEFILE 1 # define __USE_LARGEFILE64 1 # endifsys/types.h #ifndef __ino_t_defined # ifndef __USE_FILE_OFFSET64 typedef __ino_t ino_t; # else typedef __ino64_t ino_t; # endif # define __ino_t_defined #endif #if defined __USE_LARGEFILE64 && !defined __ino64_t_defined typedef __ino64_t ino64_t; # define __ino64_t_defined #endif #ifndef __off_t_defined # ifndef __USE_FILE_OFFSET64 typedef __off_t off_t; # else typedef __off64_t off_t; # endif # define __off_t_defined #endif #if defined __USE_LARGEFILE64 && !defined __off64_t_defined typedef __off64_t off64_t; # define __off64_t_defined #endif #ifndef __USE_FILE_OFFSET64 # ifndef __blkcnt_t_defined typedef __blkcnt_t blkcnt_t; /* Type to count number of disk blocks. */ # define __blkcnt_t_defined # endif # ifndef __fsblkcnt_t_defined typedef __fsblkcnt_t fsblkcnt_t; /* Type to count file system blocks. */ # define __fsblkcnt_t_defined # endif # ifndef __fsfilcnt_t_defined typedef __fsfilcnt_t fsfilcnt_t; /* Type to count file system inodes. */ # define __fsfilcnt_t_defined # endif #else # ifndef __blkcnt_t_defined typedef __blkcnt64_t blkcnt_t; /* Type to count number of disk blocks. */ # define __blkcnt_t_defined # endif # ifndef __fsblkcnt_t_defined typedef __fsblkcnt64_t fsblkcnt_t; /* Type to count file system blocks. */ # define __fsblkcnt_t_defined # endif # ifndef __fsfilcnt_t_defined typedef __fsfilcnt64_t fsfilcnt_t; /* Type to count file system inodes. */ # define __fsfilcnt_t_defined # endif #endif #ifdef __USE_LARGEFILE64 typedef __blkcnt64_t blkcnt64_t; /* Type to count number of disk blocks. */ typedef __fsblkcnt64_t fsblkcnt64_t; /* Type to count file system blocks. */ typedef __fsfilcnt64_t fsfilcnt64_t; /* Type to count file system inodes. */ #endifsys/mman.h #ifndef __USE_FILE_OFFSET64 extern void *mmap (void *__addr, size_t __len, int __prot, int __flags, int __fd, __off_t __offset) __THROW; #else # ifdef __REDIRECT_NTH extern void * __REDIRECT_NTH (mmap, (void *__addr, size_t __len, int __prot, int __flags, int __fd, __off64_t __offset), mmap64); # else # define mmap mmap64 # endif #endif #ifdef __USE_LARGEFILE64 extern void *mmap64 (void *__addr, size_t __len, int __prot, int __flags, int __fd, __off64_t __offset) __THROW; #endifstdio.h /* The type of the second argument to `fgetpos' and `fsetpos'. */ __BEGIN_NAMESPACE_STD #ifndef __USE_FILE_OFFSET64 typedef _G_fpos_t fpos_t; #else typedef _G_fpos64_t fpos_t; #endif __END_NAMESPACE_STD #ifdef __USE_LARGEFILE64 typedef _G_fpos64_t fpos64_t; #endif * The Single Unix Specification, Version 2, specifies an alternative, more adequate interface for the two functions above which deal with file offset. `long int' is not the right type. These definitions are originally defined in the Large File Support API. */ #if defined __USE_LARGEFILE || defined __USE_XOPEN2K # ifndef __USE_FILE_OFFSET64 /* Seek to a certain position on STREAM. This function is a possible cancellation point and therefore not marked with __THROW. */ extern int fseeko (FILE *__stream, __off_t __off, int __whence); /* Return the current position of STREAM. This function is a possible cancellation point and therefore not marked with __THROW. */ extern __off_t ftello (FILE *__stream) __wur; # else # ifdef __REDIRECT extern int __REDIRECT (fseeko, (FILE *__stream, __off64_t __off, int __whence), fseeko64); extern __off64_t __REDIRECT (ftello, (FILE *__stream), ftello64); # else # define fseeko fseeko64 # define ftello ftello64 # endif # endif #endif #ifndef __USE_FILE_OFFSET64 /* Get STREAM's position. This function is a possible cancellation point and therefore not marked with __THROW. */ extern int fgetpos (FILE *__restrict __stream, fpos_t *__restrict __pos); /* Set STREAM's position. This function is a possible cancellation point and therefore not marked with __THROW. */ extern int fsetpos (FILE *__stream, __const fpos_t *__pos); #else # ifdef __REDIRECT extern int __REDIRECT (fgetpos, (FILE *__restrict __stream, fpos_t *__restrict __pos), fgetpos64); extern int __REDIRECT (fsetpos, (FILE *__stream, __const fpos_t *__pos), fsetpos64); # else # define fgetpos fgetpos64 # define fsetpos fsetpos64 # endif #endif #ifdef __USE_LARGEFILE64 extern int fseeko64 (FILE *__stream, __off64_t __off, int __whence); extern __off64_t ftello64 (FILE *__stream) __wur; extern int fgetpos64 (FILE *__restrict __stream, fpos64_t *__restrict __pos); extern int fsetpos64 (FILE *__stream, __const fpos64_t *__pos); #endif The stdio.h library does also define fopen64 and freopen64 functions which is simply because the FILE-handle needs to know which of its member attributes should be used to store the current seek offset in the target file handle. And it needs to know the implementation defined maximum of a file - which is in relation of the filesystem maximum just as well of the representation maximum. The corresponding Unix calls "open" and "open64" are defined in fcntl.h fcntl.h#ifndef __USE_FILE_OFFSET64 extern int open (__const char *__file, int __oflag, ...) __nonnull ((1)); #else # ifdef __REDIRECT extern int __REDIRECT (open, (__const char *__file, int __oflag, ...), open64) __nonnull ((1)); # else # define open open64 # endif #endif #ifdef __USE_LARGEFILE64 extern int open64 (__const char *__file, int __oflag, ...) __nonnull ((1)); #endif # ifndef __USE_FILE_OFFSET64 extern int lockf (int __fd, int __cmd, __off_t __len); # else # ifdef __REDIRECT extern int __REDIRECT (lockf, (int __fd, int __cmd, __off64_t __len), lockf64); # else # define lockf lockf64 # endif # endif # ifdef __USE_LARGEFILE64 extern int lockf64 (int __fd, int __cmd, __off64_t __len); # endif #endif The __REDIRECT macro shown above is defined in "cdefs.h" - basically one needs to detect whether the compiler supports directives to emit en "alias" export for the same function code in the compiled library. cdefs.h/* __asm__ ("xyz") is used throughout the headers to rename functions at the assembly language level. This is wrapped by the __REDIRECT macro, in order to support compilers that can do this some other way. When compilers don't support asm-names at all, we have to do preprocessor tricks instead (which don't have exactly the right semantics, but it's the best we can do). Example: int __REDIRECT(setpgrp, (__pid_t pid, __pid_t pgrp), setpgid); */ #if defined __GNUC__ && __GNUC__ >= 2 # define __REDIRECT(name, proto, alias) name proto __asm__ (__ASMNAME (#alias)) # ifdef __cplusplus # define __REDIRECT_NTH(name, proto, alias) \ name proto __THROW __asm__ (__ASMNAME (#alias)) # else # define __REDIRECT_NTH(name, proto, alias) \ name proto __asm__ (__ASMNAME (#alias)) __THROW # endif # define __ASMNAME(cname) __ASMNAME2 (__USER_LABEL_PREFIX__, cname) # define __ASMNAME2(prefix, cname) __STRING (prefix) cname /* #elif __SOME_OTHER_COMPILER__ # define __REDIRECT(name, proto, alias) name proto; \ _Pragma("let " #name " = " #alias) */ #endif |