# # This file defines probes for local features that vmalloc requires. # Such probes are interpreted by the "iffe" language interpreter. # Results are stored in the FEATURE directory. Some of the # {lib,hdr,sys,typ} tests may also be done in the AST features/lib; # repeating them here allows for single standalone and AST sources. # ref -D_def_map_ast=1 lib atexit,getpagesize,mallinfo,mallopt,memalign,mstats lib onexit,pvalloc,strdup,valloc,vmalloc lib _malloc,__malloc,__libc_malloc hdr alloca,malloc,stat,stdlib,unistd mem mallinfo.arena,mstats.bytes_total malloc.h sys stat typ ssize_t tst mem_sbrk note{ brk()/sbrk() work as expected }end execute{ #include #include #undef uchar #define uchar unsigned char int main() { uchar *brk0, *brk1; /* allocate a big chunk */ if(!(brk0 = (uchar*)sbrk(0)) || brk0 == (uchar*)(-1)) return 1; brk0 += 256*1024; if(brk(brk0) != 0) return 1; if((brk1 = (uchar*)sbrk(0)) != brk0) return 1; /* now return half of it */ brk1 -= 128*1024; if(brk(brk1) != 0 ) return 1; if((brk0 = (uchar*)sbrk(0)) != brk1) return 1; return 0; } }end tst map_malloc note{ map malloc to _ast_malloc }end noexecute{ #if __CYGWIN__ int main() { return 1; } #else static int user = 0; _BEGIN_EXTERNS_ #if _lib_strdup extern char* strdup _ARG_((const char*)); #define LOCAL() strdup("s") #else extern void* calloc _ARG_((unsigned int, unsigned int)); #define LOCAL() calloc(1,1) #endif #if __CYGWIN__ #define extern __declspec(dllexport) #endif #define HT double static HT heap[1024 * 4]; static HT* hp = &heap[1]; static HT* op; #define MALLOC(n) if(user)return&heap[0];op=hp;hp+=(n+sizeof(HT)-1)/sizeof(HT);return(void*)op; #define INTERCEPTED(p) (((char*)(p))==((char*)&heap[0])) #if _STD_ extern void free(void* p) { } extern void _free(void* p) { } extern void __free(void* p) { } extern void __libc_free(void* p) { } extern void* malloc(unsigned int n) { MALLOC(n); } extern void* _malloc(unsigned int n) { MALLOC(n); } extern void* __malloc(unsigned int n) { MALLOC(n); } extern void* __libc_malloc(unsigned int n) { MALLOC(n); } #else extern void free(p) char* p; { } extern void _free(p) char* p; { } extern void __free(p) char* p; { } extern void __libc_free(p) char* p; { } extern void* malloc(n) unsigned int n; { MALLOC(n); } extern void* _malloc(n) unsigned int n; { MALLOC(n); } extern void* __malloc(n) unsigned int n; { MALLOC(n); } extern void* __libc_malloc(n) unsigned int n; { MALLOC(n); } #endif _END_EXTERNS_ int main() { user = 1; return !INTERCEPTED(LOCAL()); } #endif }end tst map_malloc note{ map malloc to _ast_malloc -- wimp-o mach? }end noexecute{ #if _map_malloc int main() { return 0; } #else _BEGIN_EXTERNS_ #if _STD_ void* calloc(unsigned n, unsigned m) { exit(1); } #else void* calloc(n, m) unsigned n, m; { exit(1); } #endif _END_EXTERNS_ int main() { return 0; } #endif }end lib alloca note{ alloca exists }end link{ #if _hdr_alloca #include #endif int main() { alloca(10); } }end tst mal_alloca note{ alloca is based on malloc() }end execute{ #if __CYGWIN__ int main() { return 1; } #else #if _hdr_alloca #include #endif #if _STD_ void* malloc(unsigned int size) #else void* malloc(size) unsigned int size; #endif { exit(0); return 0; } int main() { alloca(10); return 1; } #endif }end tst stk_down note{ stack grows downward }end execute{ static growdown() { static char* addr = 0; char array[4]; if(!addr) { addr = &array[0]; return growdown(); } else if(addr < &array[0]) return 0; else return 1; } int main() { return growdown() ? 0 : 1; } }end cat{ #include "FEATURE/mmap" #if _BLD_INSTRUMENT || cray || _UWIN && _BLD_ast #undef _map_malloc #define _std_malloc 1 /* defer to standard malloc */ #endif #if _mmap_anon #define _mem_mmap_anon 1 #endif #if _mmap_devzero #define _mem_mmap_zero 1 #endif }end