ref: 548a48d1561dd77dbc082dddf0f9a2776ee91914
dir: /sys/src/9/imx8/clock.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "sysreg.h" static uvlong freq; enum { Enable = 1<<0, Imask = 1<<1, Istatus = 1<<2, }; void clockshutdown(void) { } static void localclockintr(Ureg *ureg, void *) { timerintr(ureg, 0); } void clockinit(void) { syswr(PMCR_EL0, 1<<6 | 7); syswr(PMCNTENSET, 1<<31); syswr(PMUSERENR_EL0, 1<<2); syswr(CNTKCTL_EL1, 1<<1); syswr(CNTP_TVAL_EL0, ~0UL); syswr(CNTP_CTL_EL0, Enable); if(m->machno == 0){ freq = sysrd(CNTFRQ_EL0); print("timer frequency %lld Hz\n", freq); } intrenable(IRQcntpns, localclockintr, nil, BUSUNKNOWN, "clock"); } void timerset(uvlong next) { uvlong now; long period; now = fastticks(nil); period = next - now; syswr(CNTP_TVAL_EL0, period); } uvlong fastticks(uvlong *hz) { if(hz) *hz = freq; return sysrd(CNTPCT_EL0); } ulong perfticks(void) { return fastticks(nil); } ulong µs(void) { uvlong hz; uvlong t = fastticks(&hz); return (t * 1000000ULL) / hz; } void microdelay(int n) { ulong now; now = µs(); while(µs() - now < n); } void delay(int n) { while(--n >= 0) microdelay(1000); } void synccycles(void) { static Ref r1, r2; int s; s = splhi(); r2.ref = 0; incref(&r1); while(r1.ref != conf.nmach) ; // syswr(PMCR_EL0, 1<<6 | 7); incref(&r2); while(r2.ref != conf.nmach) ; r1.ref = 0; splx(s); }