freebsd-dev/sys/amd64/isa/icu_vector.s
Jake Burkholder 41ed17bfec Use %fs to access per-cpu variables in uni-processor kernels the same
as multi-processor kernels.  The old way made it difficult for kernel
modules to be portable between uni-processor and multi-processor
kernels.  It is no longer necessary to jump through hoops.

- always load %fs with the private segment on entry to the kernel
- change the type of the self referntial pointer from struct privatespace
  to struct globaldata
- make the globaldata symbol have value 0 in all cases, so the symbols
  in globals.s are always offsets, not aliases for fields in globaldata
- define the globaldata space used for uniprocessor kernels in C, rather
  than assembler
- change the assmebly language accessors to use %fs, add a macro
  PCPU_ADDR(member, reg), which loads the register reg with the address
  of the per-cpu variable member
2001-01-06 17:40:04 +00:00

155 lines
4.5 KiB
ArmAsm

/*
* from: vector.s, 386BSD 0.1 unknown origin
* $FreeBSD$
*/
/*
* modified for PC98 by Kakefuda
*/
#ifdef PC98
#define ICU_IMR_OFFSET 2 /* IO_ICU{1,2} + 2 */
#else
#define ICU_IMR_OFFSET 1 /* IO_ICU{1,2} + 1 */
#endif
#define ICU_EOI 0x20 /* XXX - define elsewhere */
#define IRQ_BIT(irq_num) (1 << ((irq_num) % 8))
#define IRQ_BYTE(irq_num) ((irq_num) >> 3)
#ifdef AUTO_EOI_1
#define ENABLE_ICU1 /* use auto-EOI to reduce i/o */
#define OUTB_ICU1
#else
#define ENABLE_ICU1 \
movb $ICU_EOI,%al ; /* as soon as possible send EOI ... */ \
OUTB_ICU1 /* ... to clear in service bit */
#define OUTB_ICU1 \
outb %al,$IO_ICU1
#endif
#ifdef AUTO_EOI_2
/*
* The data sheet says no auto-EOI on slave, but it sometimes works.
*/
#define ENABLE_ICU1_AND_2 ENABLE_ICU1
#else
#define ENABLE_ICU1_AND_2 \
movb $ICU_EOI,%al ; /* as above */ \
outb %al,$IO_ICU2 ; /* but do second icu first ... */ \
OUTB_ICU1 /* ... then first icu (if !AUTO_EOI_1) */
#endif
/*
* Macros for interrupt interrupt entry, call to handler, and exit.
*/
#define FAST_INTR(irq_num, vec_name, enable_icus) \
.text ; \
SUPERALIGN_TEXT ; \
IDTVEC(vec_name) ; \
pushl $0 ; /* dummy error code */ \
pushl $0 ; /* dummy trap type */ \
pushal ; \
pushl %ds ; \
pushl %es ; \
pushl %fs ; \
mov $KDSEL,%ax ; \
mov %ax,%ds ; \
mov %ax,%es ; \
mov $KPSEL,%ax ; \
mov %ax,%fs ; \
FAKE_MCOUNT((12+ACTUALLY_PUSHED)*4(%esp)) ; \
incb PCPU(INTR_NESTING_LEVEL) ; \
pushl _intr_unit + (irq_num) * 4 ; \
call *_intr_handler + (irq_num) * 4 ; /* do the work ASAP */ \
enable_icus ; /* (re)enable ASAP (helps edge trigger?) */ \
addl $4,%esp ; \
incl _cnt+V_INTR ; /* book-keeping can wait */ \
movl _intr_countp + (irq_num) * 4,%eax ; \
incl (%eax) ; \
MEXITCOUNT ; \
jmp _doreti
/*
* Slow, threaded interrupts.
*
* XXX Most of the parameters here are obsolete. Fix this when we're
* done.
* XXX we really shouldn't return via doreti if we just schedule the
* interrupt handler and don't run anything. We could just do an
* iret. FIXME.
*/
#define INTR(irq_num, vec_name, icu, enable_icus, reg, maybe_extra_ipending) \
.text ; \
SUPERALIGN_TEXT ; \
IDTVEC(vec_name) ; \
pushl $0 ; /* dummy error code */ \
pushl $0 ; /* dummy trap type */ \
pushal ; \
pushl %ds ; /* save our data and extra segments ... */ \
pushl %es ; \
pushl %fs ; \
mov $KDSEL,%ax ; /* load kernel ds, es and fs */ \
mov %ax,%ds ; \
mov %ax,%es ; \
mov $KPSEL,%ax ; \
mov %ax,%fs ; \
maybe_extra_ipending ; \
movb _imen + IRQ_BYTE(irq_num),%al ; \
orb $IRQ_BIT(irq_num),%al ; \
movb %al,_imen + IRQ_BYTE(irq_num) ; \
outb %al,$icu+ICU_IMR_OFFSET ; \
enable_icus ; \
incb PCPU(INTR_NESTING_LEVEL) ; \
__CONCAT(Xresume,irq_num): ; \
FAKE_MCOUNT(13*4(%esp)) ; /* XXX late to avoid double count */ \
pushl $irq_num; /* pass the IRQ */ \
sti ; \
call _sched_ithd ; \
addl $4, %esp ; /* discard the parameter */ \
MEXITCOUNT ; \
/* We could usually avoid the following jmp by inlining some of */ \
/* _doreti, but it's probably better to use less cache. */ \
jmp _doreti /* and catch up inside doreti */
MCOUNT_LABEL(bintr)
FAST_INTR(0,fastintr0, ENABLE_ICU1)
FAST_INTR(1,fastintr1, ENABLE_ICU1)
FAST_INTR(2,fastintr2, ENABLE_ICU1)
FAST_INTR(3,fastintr3, ENABLE_ICU1)
FAST_INTR(4,fastintr4, ENABLE_ICU1)
FAST_INTR(5,fastintr5, ENABLE_ICU1)
FAST_INTR(6,fastintr6, ENABLE_ICU1)
FAST_INTR(7,fastintr7, ENABLE_ICU1)
FAST_INTR(8,fastintr8, ENABLE_ICU1_AND_2)
FAST_INTR(9,fastintr9, ENABLE_ICU1_AND_2)
FAST_INTR(10,fastintr10, ENABLE_ICU1_AND_2)
FAST_INTR(11,fastintr11, ENABLE_ICU1_AND_2)
FAST_INTR(12,fastintr12, ENABLE_ICU1_AND_2)
FAST_INTR(13,fastintr13, ENABLE_ICU1_AND_2)
FAST_INTR(14,fastintr14, ENABLE_ICU1_AND_2)
FAST_INTR(15,fastintr15, ENABLE_ICU1_AND_2)
#define CLKINTR_PENDING movl $1,CNAME(clkintr_pending)
/* Threaded interrupts */
INTR(0,intr0, IO_ICU1, ENABLE_ICU1, al, CLKINTR_PENDING)
INTR(1,intr1, IO_ICU1, ENABLE_ICU1, al,)
INTR(2,intr2, IO_ICU1, ENABLE_ICU1, al,)
INTR(3,intr3, IO_ICU1, ENABLE_ICU1, al,)
INTR(4,intr4, IO_ICU1, ENABLE_ICU1, al,)
INTR(5,intr5, IO_ICU1, ENABLE_ICU1, al,)
INTR(6,intr6, IO_ICU1, ENABLE_ICU1, al,)
INTR(7,intr7, IO_ICU1, ENABLE_ICU1, al,)
INTR(8,intr8, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(9,intr9, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(10,intr10, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(11,intr11, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(12,intr12, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(13,intr13, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(14,intr14, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
INTR(15,intr15, IO_ICU2, ENABLE_ICU1_AND_2, ah,)
MCOUNT_LABEL(eintr)