sparc/sparc/bsd_fdintr.s

1.22       pk /*	$NetBSD: bsd_fdintr.s,v 1.22 2002/12/06 15:37:55 pk Exp $ */
 1.4       pk
 1.1       pk /*
 1.1       pk  * Copyright (c) 1995 Paul Kranenburg
 1.1       pk  * All rights reserved.
 1.1       pk  *
 1.1       pk  * Redistribution and use in source and binary forms, with or without
 1.1       pk  * modification, are permitted provided that the following conditions
 1.1       pk  * are met:
 1.1       pk  * 1. Redistributions of source code must retain the above copyright
 1.1       pk  *    notice, this list of conditions and the following disclaimer.
 1.1       pk  * 2. Redistributions in binary form must reproduce the above copyright
 1.1       pk  *    notice, this list of conditions and the following disclaimer in the
 1.1       pk  *    documentation and/or other materials provided with the distribution.
 1.1       pk  * 3. All advertising materials mentioning features or use of this software
 1.1       pk  *    must display the following acknowledgement:
 1.1       pk  *      This product includes software developed by Paul Kranenburg.
 1.1       pk  * 4. The name of the author may not be used to endorse or promote products
 1.1       pk  *    derived from this software without specific prior written permission
 1.1       pk  *
 1.1       pk  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1       pk  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1       pk  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1       pk  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1       pk  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.1       pk  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.1       pk  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.1       pk  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 1.1       pk  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 1.1       pk  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1       pk  *
 1.1       pk  */
1.13      mrg
 1.1       pk #ifndef FDC_C_HANDLER
 1.6  mycroft #include "assym.h"
 1.9       pk #include <machine/param.h>
1.14       pk #include <machine/asm.h>
1.22       pk #include <machine/intr.h>
 1.9       pk #include <machine/psl.h>
 1.1       pk #include <sparc/sparc/intreg.h>
 1.1       pk #include <sparc/sparc/auxreg.h>
 1.1       pk #include <sparc/sparc/vaddrs.h>
 1.1       pk #include <sparc/dev/fdreg.h>
 1.1       pk #include <sparc/dev/fdvar.h>
 1.9       pk
 1.9       pk #define FD_SET_SWINTR_4C				\
1.10       pk 	sethi	%hi(INTRREG_VA), %l5;			\
1.10       pk 	ldub	[%l5 + %lo(INTRREG_VA)], %l6;		\
 1.9       pk 	or	%l6, IE_L4, %l6;			\
1.10       pk 	stb	%l6, [%l5 + %lo(INTRREG_VA)]
 1.9       pk
1.22       pk ! raise(0,IPL_SOFTFDC)	! NOTE: CPU#0
 1.9       pk #define FD_SET_SWINTR_4M				\
1.22       pk 	sethi	%hi(PINTR_SINTRLEV(IPL_SOFTFDC)), %l5;	\
 1.9       pk 	set	ICR_PI_SET, %l6;			\
 1.9       pk 	st	%l5, [%l6]
 1.9       pk
 1.9       pk /* set software interrupt */
1.10       pk #if (defined(SUN4) || defined(SUN4C)) && !defined(SUN4M)
 1.9       pk #define FD_SET_SWINTR	FD_SET_SWINTR_4C
1.10       pk #elif !(defined(SUN4) || defined(SUN4C)) && defined(SUN4M)
 1.9       pk #define FD_SET_SWINTR	FD_SET_SWINTR_4M
 1.9       pk #else
 1.9       pk #define FD_SET_SWINTR					\
1.14       pk 	sethi	%hi(_C_LABEL(cputyp)), %l5;		\
1.14       pk 	ld	[%l5 + %lo(_C_LABEL(cputyp))], %l5;	\
 1.9       pk 	cmp	%l5, CPU_SUN4M;				\
 1.9       pk 	be	8f;					\
 1.9       pk 	FD_SET_SWINTR_4C;				\
 1.9       pk 	ba,a	9f;					\
 1.9       pk 8:							\
 1.9       pk 	FD_SET_SWINTR_4M;				\
 1.9       pk 9:
 1.9       pk #endif
 1.9       pk
1.11       pk ! flip TC bit in auxreg
1.11       pk ! assumes %l6 remains unchanged between ASSERT and DEASSERT
1.11       pk #define FD_ASSERT_TC_4C					\
1.11       pk 	sethi	%hi(AUXREG_VA), %l6;			\
1.11       pk 	ldub	[%l6 + %lo(AUXREG_VA) + 3], %l7;	\
1.11       pk 	or	%l7, AUXIO4C_MB1|AUXIO4C_FTC, %l7;	\
1.11       pk 	stb	%l7, [%l6 + %lo(AUXREG_VA) + 3];
1.11       pk
1.11       pk #define FD_DEASSERT_TC_4C				\
1.11       pk 	ldub	[%l6 + %lo(AUXREG_VA) + 3], %l7;	\
1.11       pk 	andn	%l7, AUXIO4C_FTC, %l7;			\
1.11       pk 	or	%l7, AUXIO4C_MB1, %l7;			\
1.11       pk 	stb	%l7, [%l6 + %lo(AUXREG_VA) + 3];
1.11       pk
1.11       pk ! flip TC bit in auxreg
1.11       pk #define FD_ASSERT_TC_4M					\
1.11       pk 	sethi	%hi(AUXREG_VA), %l6;			\
1.11       pk 	ldub	[%l6 + %lo(AUXREG_VA) + 3], %l7;	\
1.11       pk 	or	%l7, AUXIO4M_MB1|AUXIO4M_FTC, %l7;	\
1.11       pk 	stb	%l7, [%l6 + %lo(AUXREG_VA) + 3];
1.11       pk
1.11       pk #define FD_DEASSERT_TC_4M
1.11       pk
1.11       pk /*
1.11       pk  * flip TC bit in auxreg
1.11       pk  * assumes %l5 remains unchanged between ASSERT and DEASSERT
1.11       pk  */
1.11       pk #if (defined(SUN4) || defined(SUN4C)) && !defined(SUN4M)
1.11       pk #define FD_ASSERT_TC		FD_ASSERT_TC_4C
1.11       pk #define FD_DEASSERT_TC		FD_DEASSERT_TC_4C
1.11       pk #elif !(defined(SUN4) || defined(SUN4C)) && defined(SUN4M)
1.11       pk #define FD_ASSERT_TC		FD_ASSERT_TC_4M
1.11       pk #define FD_DEASSERT_TC		FD_DEASSERT_TC_4M
1.11       pk #else
1.11       pk #define FD_ASSERT_TC					\
1.14       pk 	sethi	%hi(_C_LABEL(cputyp)), %l5;		\
1.14       pk 	ld	[%l5 + %lo(_C_LABEL(cputyp))], %l5;	\
1.11       pk 	cmp	%l5, CPU_SUN4M;				\
1.11       pk 	be	8f;					\
1.11       pk 	 nop;						\
1.11       pk 	FD_ASSERT_TC_4C;				\
1.11       pk 	ba,a	9f;					\
1.11       pk 8:							\
1.11       pk 	FD_ASSERT_TC_4M;				\
1.11       pk 9:
1.11       pk #define FD_DEASSERT_TC					\
1.11       pk 	cmp	%l5, CPU_SUN4M;				\
1.11       pk 	be	8f;					\
1.11       pk 	 nop;						\
1.11       pk 	FD_DEASSERT_TC_4C;				\
1.11       pk 	ba,a	9f;					\
1.11       pk 8:							\
1.11       pk 	FD_DEASSERT_TC_4M;				\
1.11       pk 9:
1.11       pk #endif
1.11       pk
1.11       pk
 1.1       pk /* Timeout waiting for chip ready */
 1.1       pk #define POLL_TIMO	100000
 1.1       pk
 1.1       pk /*
 1.1       pk  * register mnemonics. note overlapping assignments.
 1.1       pk  */
 1.1       pk #define R_fdc	%l0
 1.1       pk #define R_msr	%l1
 1.1       pk #define R_fifo	%l2
 1.1       pk #define R_buf	%l3
 1.1       pk #define R_tc	%l4
 1.1       pk #define R_stat	%l3
 1.1       pk #define R_nstat	%l4
 1.1       pk #define R_stcnt	%l5
1.21       pk /* use %l6 and %l7 as short-term temporaries */
 1.1       pk
 1.1       pk
 1.1       pk 	.seg	"data"
 1.1       pk 	.align	8
 1.1       pk /* A save haven for three precious registers */
 1.1       pk save_l:
 1.1       pk 	.word	0
 1.1       pk 	.word	0
 1.1       pk 	.word	0
 1.1       pk /* Pointer to a `struct fdcio', set in fd.c */
1.14       pk 	.global _C_LABEL(fdciop)
1.14       pk _C_LABEL(fdciop):
 1.1       pk 	.word	0
 1.1       pk
 1.1       pk 	.seg	"text"
 1.1       pk 	.align	4
 1.1       pk
1.19      mrg /* XXXSMP: kernel lock perimeter? */
1.15       pk _ENTRY(_C_LABEL(fdchwintr))
 1.1       pk 	set	save_l, %l7
 1.1       pk 	std	%l0, [%l7]
 1.1       pk 	st	%l2, [%l7 + 8]
 1.2       pk
1.21       pk 	! tally interrupt (uvmexp.intrs++)
1.14       pk 	sethi	%hi(_C_LABEL(uvmexp)+V_INTR), %l7
1.14       pk 	ld	[%l7 + %lo(_C_LABEL(uvmexp)+V_INTR)], %l6
1.12      mrg 	inc	%l6
1.14       pk 	st	%l6, [%l7 + %lo(_C_LABEL(uvmexp)+V_INTR)]
 1.1       pk
 1.1       pk 	! load fdc, if it's NULL there's nothing to do: schedule soft interrupt
1.14       pk 	sethi	%hi(_C_LABEL(fdciop)), %l7
1.14       pk 	ld	[%l7 + %lo(_C_LABEL(fdciop))], R_fdc
 1.3       pk
1.21       pk 	! tally interrupt (fdcio_intrcnt.ev_count++)
1.21       pk 	ldd	[R_fdc + FDC_EVCNT], %l6
1.21       pk 	addcc	%l7, 1, %l7
1.21       pk 	addx	%l6, 0, %l6
1.21       pk 	std	%l6, [R_fdc + FDC_EVCNT]
 1.1       pk
1.20  thorpej 	/*
1.20  thorpej 	 * load chips register addresses
1.20  thorpej 	 * NOTE: we ignore the bus tag here and assume the bus handle
1.20  thorpej 	 *	 is the virtual address of the chip's registers.
1.20  thorpej 	 */
1.17       pk 	ld	[R_fdc + FDC_REG_HANDLE], %l7	! get chip registers bus handle
 1.1       pk 	ld	[R_fdc + FDC_REG_MSR], R_msr	! get chip MSR reg addr
1.17       pk 	add	R_msr, %l7, R_msr
 1.1       pk 	ld	[R_fdc + FDC_REG_FIFO], R_fifo	! get chip FIFO reg addr
1.17       pk 	add	R_fifo, %l7, R_fifo
 1.1       pk 	!!ld	[R_fdc + FDC_REG_DOR], R_dor	! get chip DOR reg addr
1.17       pk 	!!add	R_dor, %l7, R_dor
 1.1       pk
 1.1       pk 	! find out what we are supposed to do
1.18       pk 	ld	[R_fdc + FDC_ITASK], %l7	! get task from fdc
1.18       pk 	cmp	%l7, FDC_ITASK_SENSEI
 1.1       pk 	be	sensei
1.18       pk 	 !nop
1.18       pk 	cmp	%l7, FDC_ITASK_RESULT
1.18       pk 	be	resultphase
1.18       pk 	 !nop
1.18       pk 	cmp	%l7, FDC_ITASK_DMA
1.18       pk 	bne,a	ssi				! a spurious interrupt
1.18       pk 	 mov	FDC_ISTATUS_SPURIOUS, %l7	! set status and post sw intr
 1.1       pk
 1.1       pk 	! pseudo DMA
 1.1       pk 	ld	[R_fdc + FDC_TC], R_tc		! residual count
 1.1       pk 	ld	[R_fdc + FDC_DATA], R_buf	! IO buffer
 1.1       pk
 1.1       pk 	ldub	[R_msr], %l7			! get MSR value
 1.1       pk nextc:
 1.1       pk 	btst	NE7_RQM, %l7			! room in fifo?
 1.1       pk 	bnz,a	0f
 1.1       pk 	 btst	NE7_NDM, %l7			! overrun?
 1.1       pk
 1.1       pk 	! we filled/emptied the FIFO; update fdc->sc_buf & fdc->sc_tc
 1.1       pk 	st	R_tc, [R_fdc + FDC_TC]
 1.1       pk 	b	x
 1.1       pk 	st	R_buf, [R_fdc + FDC_DATA]
 1.1       pk
 1.1       pk 0:
 1.1       pk 	bz	resultphase			! overrun/underrun
 1.1       pk 	btst	NE7_DIO, %l7			! IO direction
 1.1       pk 	bz	1f
 1.1       pk 	 deccc	R_tc
 1.1       pk 	ldub	[R_fifo], %l7			! reading:
 1.1       pk 	b	2f
 1.1       pk 	stb	%l7, [R_buf]			!    *fdc->sc_bufp = *reg_fifo
 1.1       pk
 1.1       pk 1:
 1.1       pk 	ldub	[R_buf], %l7			! writing:
 1.1       pk 	stb	%l7, [R_fifo]			!    *reg_fifo = *fdc->sc_bufp
 1.1       pk 2:
 1.1       pk 	inc	R_buf				! fdc->sc_bufp++
 1.1       pk 	bne,a	nextc				! if (--fdc->sc_tc) goto ...
 1.1       pk 	 ldub	[R_msr], %l7			! get MSR value
 1.1       pk
 1.9       pk 	! xfer done: update fdc->sc_buf & fdc->sc_tc, mark istate DONE
 1.1       pk 	st	R_tc, [R_fdc + FDC_TC]
 1.1       pk 	st	R_buf, [R_fdc + FDC_DATA]
 1.1       pk
 1.1       pk 	! flip TC bit in auxreg
1.11       pk 	FD_ASSERT_TC
 1.1       pk
 1.1       pk 	! we have some time to kill; anticipate on upcoming
 1.1       pk 	! result phase.
 1.1       pk 	add	R_fdc, FDC_STATUS, R_stat	! &fdc->sc_status[0]
 1.1       pk 	mov	-1, %l7
 1.1       pk 	st	%l7, [R_fdc + FDC_NSTAT]	! fdc->sc_nstat = -1;
 1.1       pk
1.11       pk 	FD_DEASSERT_TC
1.11       pk 	b,a	resultphase1
 1.1       pk
 1.1       pk
 1.1       pk sensei:
 1.1       pk 	ldub	[R_msr], %l7
 1.1       pk 	set	POLL_TIMO, %l6
 1.1       pk 1:	deccc	%l6				! timeout?
1.18       pk 	be,a	ssi				! if so, set status
1.18       pk 	 mov	FDC_ISTATUS_ERROR, %l7		! and post sw interrupt
 1.1       pk 	and	%l7, (NE7_RQM | NE7_DIO | NE7_CB), %l7
 1.1       pk 	cmp	%l7, NE7_RQM
 1.1       pk 	bne,a	1b				! loop till chip ready
 1.1       pk 	 ldub	[R_msr], %l7
 1.1       pk 	mov	NE7CMD_SENSEI, %l7
 1.1       pk 	stb	%l7, [R_fifo]
 1.1       pk
 1.1       pk resultphase:
 1.1       pk 	! prepare for result phase
 1.1       pk 	add	R_fdc, FDC_STATUS, R_stat	! &fdc->sc_status[0]
 1.1       pk 	mov	-1, %l7
 1.1       pk 	st	%l7, [R_fdc + FDC_NSTAT]	! fdc->sc_nstat = -1;
 1.1       pk
 1.1       pk resultphase1:
 1.1       pk 	clr	R_stcnt
 1.1       pk 	ldub	[R_msr], %l7
 1.1       pk 	set	POLL_TIMO, %l6
 1.1       pk 1:	deccc	%l6				! timeout?
1.18       pk 	be,a	ssi				! if so, set status
1.18       pk 	 mov	FDC_ISTATUS_ERROR, %l7		! and post sw interrupt
 1.1       pk 	and	%l7, (NE7_RQM | NE7_DIO | NE7_CB), %l7
 1.1       pk 	cmp	%l7, NE7_RQM
 1.1       pk 	be	3f				! done
 1.1       pk 	cmp	%l7, (NE7_RQM | NE7_DIO | NE7_CB)
 1.1       pk 	bne,a	1b				! loop till chip ready
 1.1       pk 	 ldub	[R_msr], %l7
 1.1       pk
 1.1       pk 	cmp	R_stcnt, FDC_NSTATUS		! status overrun?
 1.1       pk 	bge	2f				! if so, load but dont store
 1.1       pk 	ldub	[R_fifo], %l7			! load the status byte
 1.1       pk 	stb	%l7, [R_stat]
 1.1       pk 	inc	R_stat
 1.1       pk 	inc	R_stcnt
 1.1       pk 2:	b	1b
 1.1       pk 	 ldub	[R_msr], %l7
 1.1       pk
 1.1       pk 3:
 1.9       pk 	! got status, update sc_nstat and mark istate DONE
 1.1       pk 	st	R_stcnt, [R_fdc + FDC_NSTAT]
1.18       pk 	mov	FDC_ISTATUS_DONE, %l7
 1.1       pk
 1.1       pk ssi:
 1.1       pk 	! set software interrupt
1.18       pk 	! enter here with status in %l7
1.18       pk 	st	%l7, [R_fdc + FDC_ISTATUS]
 1.9       pk 	FD_SET_SWINTR
 1.1       pk
 1.1       pk x:
 1.1       pk 	/*
 1.1       pk 	 * Restore psr -- note: psr delay honored by pc restore loads.
 1.1       pk 	 */
 1.1       pk 	set	save_l, %l7
 1.1       pk 	ldd	[%l7], %l0
 1.1       pk 	mov	%l0, %psr
 1.1       pk 	 nop
 1.1       pk 	ld	[%l7 + 8], %l2
 1.1       pk 	jmp	%l1
 1.1       pk 	rett	%l2
 1.1       pk #endif