7c1ea70c7f
Remove Pp before Bd at couple of places |
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arch | ||
atomic | ||
cdb | ||
citrus | ||
compat | ||
compat-43 | ||
compiler_rt | ||
db | ||
dlfcn | ||
gdtoa | ||
gen | ||
gmon | ||
hash | ||
iconv | ||
include | ||
inet | ||
isc | ||
locale | ||
md | ||
misc | ||
nameser | ||
net | ||
nls | ||
quad | ||
regex | ||
resolv | ||
rpc | ||
softfloat | ||
ssp | ||
stdio | ||
stdlib | ||
string | ||
sys | ||
termios | ||
thread-stub | ||
time | ||
tls | ||
uuid | ||
yp | ||
libcincludes.mk | ||
Makefile | ||
Makefile.inc | ||
README | ||
shlib_version |
$NetBSD: README,v 1.7 2017/02/08 13:31:36 riastradh Exp $ libc: The C library. * ELF symbols and source names libc contains symbols for: (a) standard library routines in C and POSIX, (b) published NetBSD-specific nonstandard extensions, (c) internal symbols, and (d) old versions of any published library routines. ** Standard library routines If a library routine is standard and its signature has never changed, it is provided as an ELF global symbol. Its name is declared normally in the appropriate header file. => Example: The names `malloc' and `free' are declared normally in <stdlib.h> (src/include/stdlib.h): void *malloc(size_t); void free(void *); libc provides the following ELF symbols: malloc global free global In the implementation of libc, malloc and free are defined normally in src/lib/libc/stdlib/jemalloc.c: void * malloc(size_t size) { ... void free(void *ptr) { ... ** NetBSD-specific nonstandard extensions If a library routine is nonstandard but published and its signature has never changed, it is provided as an ELF weak symbol aliasing an ELF global symbol of the same name with an underscore prefix. The name is declared normally in the appropriate header file, provided that the relevant feature macro, such as _NETBSD_SOURCE, is defined. Within libc, the name is defined in "namespace.h" (src/lib/libc/include/namespace.h) as a macro expanding to the underscored name, which is included before the relevant header file, so that (a) the definition in a .c file will define the underscored ELF global symbol, and (b) the declaration in the standard header file will match the definition in the .c file. Alongside the definition in the .c file is a __weak_alias directive to create the ELF weak symbol alias. => Example: For the nonstandard extension consttime_memequal, the header file <string.h> (src/include/string.h) declares `consttime_memequal' normally, if the caller defines _NETBSD_SOURCE: #if defined(_NETBSD_SOURCE) ... int consttime_memequal(const void *, const void *, size_t); ... #endif /* _NETBSD_SOURCE */ libc provides the following ELF symbols: _consttime_memequal global consttime_memequal weak alias for _consttime_memequal In the implementation of libc, the header file "namespace.h" (src/lib/libc/include/namespace.h) defines `consttime_memequal' as a macro expanding to `_consttime_memequal': #define consttime_memequal _consttime_memequal The source file src/common/lib/libc/string/consttime_memequal.c includes "namespace.h" and <string.h>, and defines `consttime_memequal' normally: int consttime_memequal(const void *b1, const void *b2, size_t len) { ... Macro expansion replaces `consttime_memequal' by `_consttime_memequal', which is the ELF global symbol this defines. Alongside the definition is __weak_alias(consttime_memequal,_consttime_memequal) to provide `consttime_memequal' as an ELF weak symbol aliasing `_consttime_memequal'. ** Internal symbols If a library routine is internal to libc, it is defined as an ELF global symbol with an underscore prefix. Its name is declared in the appropriate internal header file. => Example: The implementations of opendir and rewinddir use a common subroutine _initdir, which is not part of the libc API or ABI -- it is just an internal subroutine. libc provides the following ELF symbols: _initdir global The name `_initdir' is declared normally in src/lib/libc/gen/dirent_private.h: int _initdir(DIR *, int, const char *); The name `_initdir' is defined normally in src/lib/libc/gen/initdir.c: int _initdir(DIR *dirp, int fd, const char *name) { ... ** Old versions of library routines If the signature or semantics of a library routine foo changed in (for example) NetBSD 6.0, then libc provides (1) an ELF global symbol `_foo' implementing its old signature, (2) an ELF weak symbol `foo' aliasing `_foo', and (3) an ELF global symbol `__foo50' implementing its new signature (yes, `__foo50', not `__foo60'). The name foo is declared in the appropriate header file, under any relevant feature macros, with a __RENAME directive so that for calls to foo, the compiler will generate relocations for __foo50. Old programs, compiled with the old signature, will continue to use the old symbol. => Example: In NetBSD 5.0, time_t was int32_t on every machine. In NetBSD 6.0 and onward, time_t is int64_t on every machine. Consequently, the signature of time(3), written as time_t time(time_t *); was effectively int32_t time(int32_t *); before NetBSD 6.0. In NetBSD 6.0, it changed to be effectively int64_t time(int64_t *); Before NetBSD 6.0, libc provided the following libc symbols: _time global (implementing the old signature) time weak alias for _time In NetBSD 6.0 and later, libc provides the following ELF symbols: _time global (implementing the old signature) time weak alias for _time __time50 global (implementing the new signature) (Note that the only change is to add __time50, so that existing programs linked against old versions of libc will see the same semantics for the symbols that were already there.) The header file <time.h> (src/include/time.h) declares time_t time(time_t *) __RENAME(__time50); so that compiling C programs that call time will yield objects that use the __time50 symbol from libc. However, old programs that were compiled against the 32-bit declaration will continue to use the 32-bit symbol from libc. The header file "namespace.h" (src/lib/libc/include/namespace.h) defines `time' as a macro expanding to `_time': #define time _time The source file src/lib/libc/gen/time.c includes "namespace.h" and <time.h> and defines `time' normally: time_t time(time_t *t) { ... Macro expansion replaces `time' by `_time', but the `__RENAME(__time50)' directive on the declaration <time.h> (to which the "namespace.h" macro expansion also applies) means the ELF global symbol defined here is actually `__time50'. The header file <compat/include/time.h> (src/lib/libc/compat/include/time.h) declares int32_t time(int32_t *); The source file src/lib/libc/compat/gen/compat_time.c includes "namespace.h", <compat/include/time.h>, and <time.h>, but suppresses the normal declaration of `time' in <time.h> by defining __LIBC12_SOURCE__ and thus gets it from <compat/include/time.h> instead. Then compat_time.c defines `time' normally: int32_t time(int32_t *t) { ... Again, macro expansion replaces `time' by `_time', but since there is no __RENAME directive in <compat/include/time.h>, the resulting ELF global symbol is `_time'. (Actually, compat_time.c just has `#define time_t int32_t' and `#include "gen/time.c"' to get the same text of the definition of time. The above definition is what we get effectively by substituting int32_t for the type time_t.) Finally, alongside the definition in compat_time.c is __weak_alias(time,_time) to define `time' as an ELF weak symbol aliasing `_time'. The net effect is that NetBSD 6's libc provides the same definitions as NetBSD 5's libc for the symbols `time' and `_time', so that old programs that were compiled in NetBSD 5 will continue to work with NetBSD 6's libc. But programs compiled in NetBSD 6 will have 64-bit time_t.