ref: 1882e954b0a8bdca38eff596783be26ca466f944
dir: /emu/port/random.c/
#include "dat.h" #include "fns.h" static struct { QLock l; Rendez producer; Rendez consumer; Rendez clock; ulong randomcount; uchar buf[1024]; uchar *ep; uchar *rp; uchar *wp; uchar next; uchar bits; uchar wakeme; uchar filled; int kprocstarted; ulong randn; int target; } rb; static int rbnotfull(void *v) { int i; USED(v); i = rb.wp - rb.rp; if(i < 0) i += sizeof(rb.buf); return i < rb.target; } static int rbnotempty(void *v) { USED(v); return rb.wp != rb.rp; } /* * spin counting up */ static void genrandom(void *v) { USED(v); oslopri(); for(;;){ for(;;) if(++rb.randomcount > 65535) break; if(rb.filled || !rbnotfull(0)) Sleep(&rb.producer, rbnotfull, 0); } } /* * produce random bits in a circular buffer */ static void randomclock(void *v) { uchar *p; USED(v); for(;; osmillisleep(20)){ while(!rbnotfull(0)){ rb.filled = 1; Sleep(&rb.clock, rbnotfull, 0); } if(rb.randomcount == 0) continue; rb.bits = (rb.bits<<2) ^ rb.randomcount; rb.randomcount = 0; rb.next++; if(rb.next != 8/2) continue; rb.next = 0; p = rb.wp; *p ^= rb.bits; if(++p == rb.ep) p = rb.buf; rb.wp = p; if(rb.wakeme) Wakeup(&rb.consumer); } } void randominit(void) { rb.target = 16; rb.ep = rb.buf + sizeof(rb.buf); rb.rp = rb.wp = rb.buf; } /* * consume random bytes from a circular buffer */ ulong randomread(void *xp, ulong n) { uchar *e, *p, *r; ulong x; int i; p = xp; if(0)print("A%ld.%d.%lux|", n, rb.target, getcallerpc(&xp)); if(waserror()){ qunlock(&rb.l); nexterror(); } qlock(&rb.l); if(!rb.kprocstarted){ rb.kprocstarted = 1; kproc("genrand", genrandom, 0, 0); kproc("randomclock", randomclock, 0, 0); } for(e = p + n; p < e; ){ r = rb.rp; if(r == rb.wp){ rb.wakeme = 1; Wakeup(&rb.clock); Wakeup(&rb.producer); Sleep(&rb.consumer, rbnotempty, 0); rb.wakeme = 0; continue; } /* * beating clocks will be predictable if * they are synchronized. Use a cheap pseudo * random number generator to obscure any cycles. */ x = rb.randn*1103515245 ^ *r; *p++ = rb.randn = x; if(++r == rb.ep) r = rb.buf; rb.rp = r; } if(rb.filled && rb.wp == rb.rp){ i = 2*rb.target; if(i > sizeof(rb.buf) - 1) i = sizeof(rb.buf) - 1; rb.target = i; rb.filled = 0; } qunlock(&rb.l); poperror(); Wakeup(&rb.clock); Wakeup(&rb.producer); if(0)print("B"); return n; }