/* $NetBSD: iomd_dma.c,v 1.6 2000/06/29 08:53:01 mrg Exp $ */ /* * Copyright (c) 1995 Scott Stevens * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Scott Stevens. * 4. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * RiscBSD kernel project * * dma.c * * Created : 15/03/97 */ #define DMA_DEBUG #include #include #include #include #include #include #include #include #ifndef CPU_ARM7500 static struct dma_ctrl ctrl[6]; void dma_dumpdc __P((struct dma_ctrl *)); void dma_go(dp) struct dma_ctrl *dp; { #ifdef DMA_DEBUG printf("dma_go()\n"); #endif if(dp->dc_flags & DMA_FL_READY) { dp->dc_flags = DMA_FL_ACTIVE; enable_irq(IRQ_DMACH0 + dp->dc_channel); } else panic("dma not ready"); } int dma_reset(dp) struct dma_ctrl *dp; { #ifdef DMA_DEBUG printf("dma_reset()\n"); dma_dumpdc(dp); #endif *dp->dc_cr = DMA_CR_CLEAR; dp->dc_flags = 0; disable_irq(IRQ_DMACH0 + dp->dc_channel); return(0); } /* * Setup dma transfer, prior to the dma_go call */ int dma_setup(dp, start, len, readp) struct dma_ctrl *dp; int readp; u_char *start; int len; { #ifdef DMA_DEBUG printf("dma_setup(start = %p, len = 0x%08x, readp = %d\n", start, len, readp); #endif if(((u_int)start & (dp->dc_dmasize - 1)) || (len & (dp->dc_dmasize - 1))) { printf("dma_setup: unaligned DMA, %p (0x%08x)\n", start, len); } *dp->dc_cr = DMA_CR_CLEAR | DMA_CR_ENABLE | (readp?DMA_CR_DIR:0) | dp->dc_dmasize; *dp->dc_cr = DMA_CR_ENABLE | (readp?DMA_CR_DIR:0) | dp->dc_dmasize; dp->dc_nextaddr = start; dp->dc_len = len; dp->dc_flags = DMA_FL_READY; return(0); } /* * return true if DMA is active */ int dma_isactive(dp) struct dma_ctrl *dp; { return(dp->dc_flags & DMA_FL_ACTIVE); } /* * return true if interrupt pending */ int dma_isintr(dp) struct dma_ctrl *dp; { #ifdef DMA_DEBUG /* printf("dma_isintr() returning %d\n", *dp->dc_st & DMA_ST_INT);*/ #endif return(*dp->dc_st & DMA_ST_INT); } int dma_intr(dp) struct dma_ctrl *dp; { u_char status = (*dp->dc_st) & DMA_ST_MASK; vm_offset_t cur; int len; int bufap = 0; #ifdef DMA_DEBUG printf("dma_intr() status = 0x%02x\n", status); #endif if(!(dp->dc_flags & DMA_FL_ACTIVE)) { /* interrupt whilst not active */ /* ie. last buffer programmed */ dma_reset(dp); return(0); } switch(status) { case DMA_ST_OVER | DMA_ST_INT: case DMA_ST_OVER | DMA_ST_INT | DMA_ST_CHAN: /* idle, either first buffer or finished */ if(status & DMA_ST_CHAN) { /* fill buffer B */ bufap = 0; goto fill; } else { /* fill buffer A */ bufap = 1; goto fill; } break; case DMA_ST_INT: case DMA_ST_INT | DMA_ST_CHAN: /* buffer ready */ if(status & DMA_ST_CHAN) { /* fill buffer A */ bufap = 1; goto fill; } else { /* fill buffer B */ bufap = 0; goto fill; } break; default: /* Shouldn't be here */ #ifdef DMA_DEBUG printf("DMA ch %d bad status [%x]\n", dp->dc_channel, status); dma_dumpdc(dp); #endif break; } /* return(0);*/ /* XXX */ #define PHYS(x, y) pmap_extract(kernel_pmap, (vaddr_t)x, (paddr_t *)(y)) fill: #ifdef DMA_DEBUG printf("fill:\n"); #endif if (dp->dc_len == 0) goto done; PHYS(dp->dc_nextaddr, &cur); len = NBPG - (cur & PGOFSET); if (len > dp->dc_len) { /* Last buffer */ len = dp->dc_len; } #ifdef DMA_DEBUG dma_dumpdc(dp); /* ptsc_dump_mem(dp->dc_nextaddr, len);*/ #endif /* * Flush the cache for this address */ cpu_cache_purgeD_rng((vm_offset_t)dp->dc_nextaddr, len); dp->dc_nextaddr += len; dp->dc_len -= len; if(bufap) { *dp->dc_cura = (u_int)cur; *dp->dc_enda = ((u_int)cur + len - dp->dc_dmasize) | (dp->dc_len == 0 ? DMA_END_STOP : 0); if (dp->dc_len == 0) { /* Last buffer, fill other buffer with garbage */ *dp->dc_endb = (u_int)cur; } } else { *dp->dc_curb = (u_int)cur; *dp->dc_endb = ((u_int)cur + len - dp->dc_dmasize) | (dp->dc_len == 0 ? DMA_END_STOP : 0); if (dp->dc_len == 0) { /* Last buffer, fill other buffer with garbage */ *dp->dc_enda = (u_int)cur; } } #ifdef DMA_DEBUG dma_dumpdc(dp); /* ptsc_dump_mem(dp->dc_nextaddr - len, len);*/ printf("about to return\n"); #endif return(1); done: #ifdef DMA_DEBUG printf("done:\n"); #endif dp->dc_flags = 0; *dp->dc_cr = 0; disable_irq(IRQ_DMACH0 + dp->dc_channel); #ifdef DMA_DEBUG printf("about to return\n"); #endif return(1); } void dma_dumpdc(dc) struct dma_ctrl *dc; { printf("\ndc:\t%p\n" "dc_channel:\t%p=0x%08x\tdc_flags:\t%p=0x%08x\n" "dc_cura:\t%p=0x%08x\tdc_enda:\t%p=0x%08x\n" "dc_curb:\t%p=0x%08x\tdc_endb:\t%p=0x%08x\n" "dc_cr:\t%p=0x%02x\t\tdc_st:\t%p=0x%02x\n" "dc_nextaddr:\t%p=0x%08x\tdc_len:\t%p=0x%08x\n", dc, &dc->dc_channel, (int)dc->dc_channel, &dc->dc_flags, (int)dc->dc_flags, dc->dc_cura, (int)*dc->dc_cura, dc->dc_enda, (int)*dc->dc_enda, dc->dc_curb, (int)*dc->dc_curb, dc->dc_endb, (int)*dc->dc_endb, dc->dc_cr, (int)*dc->dc_cr, dc->dc_st, (int)(*dc->dc_st) & DMA_ST_MASK, &dc->dc_nextaddr, (int)dc->dc_nextaddr, &dc->dc_len, dc->dc_len); } struct dma_ctrl * dma_init(ch, extp, dmasize, ipl) int ch; int extp; int dmasize; int ipl; { struct dma_ctrl *dp = &ctrl[ch]; int offset = ch * 0x20; volatile u_char *dmaext = (volatile u_char *)(IOMD_ADDRESS(IOMD_DMAEXT)); printf("Initialising DMA channel %d\n", ch); dp->dc_channel = ch; dp->dc_flags = 0; dp->dc_dmasize = dmasize; dp->dc_cura = (volatile u_int *)(IOMD_ADDRESS(IOMD_IO0CURA) + offset); dp->dc_enda = (volatile u_int *)(IOMD_ADDRESS(IOMD_IO0ENDA) + offset); dp->dc_curb = (volatile u_int *)(IOMD_ADDRESS(IOMD_IO0CURB) + offset); dp->dc_endb = (volatile u_int *)(IOMD_ADDRESS(IOMD_IO0ENDB) + offset); dp->dc_cr = (volatile u_char *)(IOMD_ADDRESS(IOMD_IO0CR) + offset); dp->dc_st = (volatile u_char *)(IOMD_ADDRESS(IOMD_IO0ST) + offset); if (extp) *dmaext |= (1 << ch); printf("about to claim interrupt\n"); dp->dc_ih.ih_func = dma_intr; dp->dc_ih.ih_arg = dp; dp->dc_ih.ih_level = ipl; dp->dc_ih.ih_name = "dma"; dp->dc_ih.ih_maskaddr = IOMD_ADDRESS(IOMD_DMARQ); dp->dc_ih.ih_maskbits = (1 << ch); if (irq_claim(IRQ_DMACH0 + ch, &dp->dc_ih)) panic("Cannot install DMA IRQ handler\n"); return(dp); } #else void dma_go(dp) struct dma_ctrl *dp; { panic("dma_go\n"); } int dma_reset(dp) struct dma_ctrl *dp; { panic("dma_reset\n"); return(0); } /* * Setup dma transfer, prior to the dma_go call */ int dma_setup(dp, start, len, readp) struct dma_ctrl *dp; int readp; u_char *start; int len; { panic("dma_setup\n"); return(0); } /* * return true if DMA is active */ int dma_isactive(dp) struct dma_ctrl *dp; { panic("dma_isactive\n"); return(0); } /* * return true if interrupt pending */ int dma_isintr(dp) struct dma_ctrl *dp; { panic("dma_isintr\n"); return(0); } int dma_intr(dp) struct dma_ctrl *dp; { panic("dma_intr\n"); return(0); } void dma_dumpdc(dc) struct dma_ctrl *dc; { panic("dma_dumpdc\n"); } struct dma_ctrl * dma_init(ch, extp, dmasize, ipl) int ch; int extp; int dmasize; int ipl; { panic("dma_init\n"); return(NULL); } #endif