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[linux/fpc-iii.git] / arch / x86 / include / asm / mach_timer.h
blob853728519ae9b928bf113ead296d50c04388a737
1 /*
2 * Machine specific calibrate_tsc() for generic.
3 * Split out from timer_tsc.c by Osamu Tomita <tomita@cinet.co.jp>
4 */
5 /* ------ Calibrate the TSC -------
6 * Return 2^32 * (1 / (TSC clocks per usec)) for do_fast_gettimeoffset().
7 * Too much 64-bit arithmetic here to do this cleanly in C, and for
8 * accuracy's sake we want to keep the overhead on the CTC speaker (channel 2)
9 * output busy loop as low as possible. We avoid reading the CTC registers
10 * directly because of the awkward 8-bit access mechanism of the 82C54
11 * device.
13 #ifndef _ASM_X86_MACH_DEFAULT_MACH_TIMER_H
14 #define _ASM_X86_MACH_DEFAULT_MACH_TIMER_H
16 #define CALIBRATE_TIME_MSEC 30 /* 30 msecs */
17 #define CALIBRATE_LATCH \
18 ((CLOCK_TICK_RATE * CALIBRATE_TIME_MSEC + 1000/2)/1000)
20 static inline void mach_prepare_counter(void)
22 /* Set the Gate high, disable speaker */
23 outb((inb(0x61) & ~0x02) | 0x01, 0x61);
26 * Now let's take care of CTC channel 2
28 * Set the Gate high, program CTC channel 2 for mode 0,
29 * (interrupt on terminal count mode), binary count,
30 * load 5 * LATCH count, (LSB and MSB) to begin countdown.
32 * Some devices need a delay here.
34 outb(0xb0, 0x43); /* binary, mode 0, LSB/MSB, Ch 2 */
35 outb_p(CALIBRATE_LATCH & 0xff, 0x42); /* LSB of count */
36 outb_p(CALIBRATE_LATCH >> 8, 0x42); /* MSB of count */
39 static inline void mach_countup(unsigned long *count_p)
41 unsigned long count = 0;
42 do {
43 count++;
44 } while ((inb_p(0x61) & 0x20) == 0);
45 *count_p = count;
48 #endif /* _ASM_X86_MACH_DEFAULT_MACH_TIMER_H */