ref: 9b9baca20eb6f5b86c460b5e7c0d3733fd5c6983
dir: /libnpe/_npe.c/
#include <npe.h> #include <tos.h> #include <sys/stat.h> #include "_npe.h" static void npe_exit(int x) { exits(x == 0 ? nil : "error"); } int errno = 0; void (*exit)(int) = npe_exit; /* * nsec() is wallclock and can be adjusted by timesync * so need to use cycles() instead, but fall back to * nsec() in case we can't */ uvlong npe_nanosec(void) { static uvlong fasthz, xstart; uvlong x, div; if(fasthz == ~0ULL) return nsec() - xstart; if(fasthz == 0){ if(_tos->cyclefreq){ cycles(&xstart); fasthz = _tos->cyclefreq; } else { xstart = nsec(); fasthz = ~0ULL; fprint(2, "cyclefreq not available, falling back to nsec()\n"); fprint(2, "you might want to disable aux/timesync\n"); return 0; } } cycles(&x); x -= xstart; /* this is ugly */ for(div = Nsec; x < 0x1999999999999999ULL && div > 1 ; div /= 10ULL, x *= 10ULL); return x / (fasthz / div); } void npe_nsleep(uvlong ns) { uvlong start, end; start = npe_nanosec(); end = start + ns; ns = start; do{ if(end - ns > 85*Nmsec) sleep(80); else if (end - ns > 25*Nmsec) sleep(20); else if (end - ns > 1*Nmsec) sleep(1); else break; ns = npe_nanosec(); }while(ns < end); } int npe_mkdirp(char *s, int perm) { char *p; int n; for(p = strchr(s+1, '/'); p; p = strchr(p+1, '/')){ *p = 0; n = access(s, AEXIST) == 0 || mkdir(s, perm) == 0 ? 0 : -1; *p = '/'; if(n != 0) return n; } if(access(s, AEXIST) != 0) return mkdir(s, perm); return 0; } float npe_infinity(void) { union {float f; u32int i;} u; u.i = 0x7f800000; return u.f; } float npe_nan(void) { union {float f; u32int i;} u; u.i = 0x7fbfffff; return u.f; }