## diffname pc/dma.c 1991/0803 ## diff -e /dev/null /n/bootesdump/1991/0803/sys/src/9/safari/dma.c 0a #include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" /* * headland chip set for the safari. */ typedef struct DMAport DMAport; typedef struct DMA DMA; typedef struct DMAxfer DMAxfer; enum { /* * the byte registers for DMA0 are all one byte apart */ Dma0= 0x00, Dma0status= Dma0+0x8, /* status port */ Dma0reset= Dma0+0xD, /* reset port */ /* * the byte registers for DMA1 are all two bytes apart (why?) */ Dma1= 0xC0, Dma1status= Dma1+2*0x8, /* status port */ Dma1reset= Dma1+2*0xD, /* reset port */ }; /* * state of a dma transfer */ struct DMAxfer { Page *pg; /* page used by dma */ void *va; /* virtual address destination/src */ long len; /* bytes to be transferred */ int isread; }; /* * the dma controllers. the first half of this structure specifies * the I/O ports used by the DMA controllers. */ struct DMAport { uchar addr[4]; /* current address (4 channels) */ uchar count[4]; /* current count (4 channels) */ uchar page[4]; /* page registers (4 channels) */ uchar cmd; /* command status register */ uchar req; /* request registers */ uchar sbm; /* single bit mask register */ uchar mode; /* mode register */ uchar cbp; /* clear byte pointer */ uchar mc; /* master clear */ uchar cmask; /* clear mask register */ uchar wam; /* write all mask register bit */ Lock; }; struct DMA { DMAport; Lock; DMAxfer x[4]; }; DMA dma[2] = { { 0x00, 0x02, 0x04, 0x06, 0x01, 0x03, 0x05, 0x07, 0x87, 0x83, 0x81, 0x82, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f }, { 0xc0, 0xc6, 0xca, 0xce, 0xc4, 0xc8, 0xcc, 0xcf, 0x80, 0x8b, 0x89, 0x8a, 0xd0, 0xd2, 0xd4, 0xd6, 0xd8, 0xda, 0xdc, 0xde }, }; /* * setup a dma transfer. if the destination is not in kernel * memory, allocate a page for the transfer. * * we assume BIOS has set up the command register before we * are booted. * * return the updated transfer length (we can't transfer across 64k * boundaries) */ long dmasetup(int chan, void *va, long len, int isread) { DMA *dp; DMAxfer *xp; ulong pa; uchar mode; dp = &dma[(chan>>2)&1]; chan = chan & 3; xp = &dp->x[chan]; /* * if this isn't kernel memory (or crossing 64k boundary), * allocate a page for the DMA. */ pa = ((ulong)va) & ~KZERO; if(!isphys(va) || (pa&0xFFFF0000)!=((pa+len)&0xFFFF0000)){ xp->pg = newpage(1, 0, 0); if(len > BY2PG) len = BY2PG; if(!isread) memmove((void*)(KZERO|xp->pg->pa), va, len); xp->va = va; xp->len = len; xp->isread = isread; pa = xp->pg->pa; } /* * this setup must be atomic */ lock(dp); outb(dp->cbp, 0); /* set count & address to their first byte */ mode = (isread ? 0x44 : 0x48) | chan; outb(dp->mode, mode); /* single mode dma (give CPU a chance at mem) */ outb(dp->addr[chan], pa); /* set address */ outb(dp->addr[chan], pa>>8); outb(dp->page[chan], pa>>16); outb(dp->count[chan], len-1); /* set count */ outb(dp->count[chan], (len-1)>>8); outb(dp->sbm, chan); /* enable the channel */ unlock(dp); return len; } /* * this must be called after a dma has been completed. * * if a page has been allocated for the dma, * copy the data into the actual destination * and free the page. */ void dmaend(int chan) { DMA *dp; DMAxfer *xp; ulong addr; uchar mode; dp = &dma[(chan>>2)&1]; chan = chan & 3; /* * disable the channel */ lock(dp); outb(dp->sbm, 4|chan); unlock(dp); xp = &dp->x[chan]; if(xp->pg == 0) return; /* * copy out of temporary page */ memmove(xp->va, (void*)(KZERO|xp->pg->pa), xp->len); putpage(xp->pg); xp->pg = 0; } . ## diffname pc/dma.c 1991/0925 ## diff -e /n/bootesdump/1991/0803/sys/src/9/safari/dma.c /n/bootesdump/1991/0925/sys/src/9/safari/dma.c 171,172c xp->len = 0; . 164c if(xp->len == 0) . 118c } else xp->len = 0; . 109c if(xp->pg == 0) xp->pg = newpage(1, 0, 0); . ## diffname pc/dma.c 1992/0321 ## diff -e /n/bootesdump/1991/0925/sys/src/9/safari/dma.c /n/bootesdump/1992/0321/sys/src/9/safari/dma.c 2c #include "../port/lib.h" . ## diffname pc/dma.c 1992/0711 ## diff -e /n/bootesdump/1992/0321/sys/src/9/safari/dma.c /n/bootesdump/1992/0711/sys/src/9/safari/dma.c 152,153d ## diffname pc/dma.c 1992/1013 ## diff -e /n/bootesdump/1992/0808/sys/src/9/safari/dma.c /n/bootesdump/1992/1013/sys/src/9/pc/dma.c 108c if((((ulong)va)&0xF0000000) != KZERO || (pa&0xFFFF0000) != ((pa+len)&0xFFFF0000)){ . ## diffname pc/dma.c 1993/0915 ## diff -e /n/bootesdump/1992/1013/sys/src/9/pc/dma.c /n/fornaxdump/1993/0915/sys/src/brazil/pc/dma.c 171c memmove(xp->va, (void*)(xp->pg.va), xp->len); . 119c pa = xp->pg.pa; . 115c memmove((void*)(xp->pg.va), va, len); . 109,111c || (pa&0xFFFF0000) != ((pa+len)&0xFFFF0000) || pa > 16*MB){ . 107c pa = PADDR(va); . 104,105c * if this isn't kernel memory or crossing 64k boundary or above 16 meg * use the allocated low memory page. . 81a * DMA must be in the first 16 meg. This gets called early by main() to * ensure that. */ void dmainit(void) { int i, chan; DMA *dp; DMAxfer *xp; for(i = 0; i < 2; i++){ dp = &dma[i]; for(chan = 0; chan < 4; chan++){ xp = &dp->x[chan]; xp->pg.pa = (ulong)xspanalloc(BY2PG, BY2PG, 0); xp->pg.va = KZERO|xp->pg.pa; } } } /* . 36c Page pg; /* page used by dma */ . ## diffname pc/dma.c 1994/1202 ## diff -e /n/fornaxdump/1993/0915/sys/src/brazil/pc/dma.c /n/fornaxdump/1994/1202/sys/src/brazil/pc/dma.c 185c if(xp->len == 0 || xp->isread) . ## diffname pc/dma.c 1994/1206 ## diff -e /n/fornaxdump/1994/1202/sys/src/brazil/pc/dma.c /n/fornaxdump/1994/1206/sys/src/brazil/pc/dma.c 185c if(xp->len == 0 || !xp->isread) . ## diffname pc/dma.c 1995/0214 ## diff -e /n/fornaxdump/1994/1206/sys/src/brazil/pc/dma.c /n/fornaxdump/1995/0214/sys/src/brazil/pc/dma.c 182c iunlock(dp); . 180c ilock(dp); . 156c iunlock(dp); . 153,154c outb(dp->cbp, 0); /* set count & address to their first byte */ outb(dp->addr[chan], pa>>dp->shift); /* set address */ outb(dp->addr[chan], pa>>(8+dp->shift)); outb(dp->count[chan], (len>>dp->shift)-1); /* set count */ outb(dp->count[chan], ((len>>dp->shift)-1)>>8); . 150,151d 146,147c ilock(dp); . 97a xp->len = 0; xp->isread = 0; . 74,78c 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0 }, { 0xc0, 0xc4, 0xc8, 0xcc, 0xc2, 0xc6, 0xca, 0xce, 0x8f, 0x8b, 0x89, 0x8a, 0xd0, 0xd2, 0xd4, 0xd6, 0xd8, 0xda, 0xdc, 0xde, 1 }, . 65a int shift; . 59,60d ## diffname pc/dma.c 1995/0502 ## diff -e /n/fornaxdump/1995/0214/sys/src/brazil/pc/dma.c /n/fornaxdump/1995/0502/sys/src/brazil/pc/dma.c 164a int dmadone(int chan) { DMA *dp; dp = &dma[(chan>>2)&1]; chan = chan & 3; return inb(dp->cmd) & (1<va, xp->bva, xp->len); . 152c outb(dp->mode, mode); /* single mode dma (give CPU a chance at mem) */ . 143,144c pa = xp->bpa; } else . 139c memmove(xp->bva, va, len); . 135c || pa > 16*MB) { . 122a DMAxfer *xp; . 120d 98,99c xp->bva = xspanalloc(BY2PG, BY2PG, 0); xp->bpa = PADDR(xp->bva); . 36,37c ulong bpa; /* bounce buffer physical address */ void* bva; /* bounce buffer virtual address */ void* va; /* virtual address destination/src */ . 7,9d ## diffname pc/dma.c 1997/0327 ## diff -e /n/fornaxdump/1996/0607/sys/src/brazil/pc/dma.c /n/emeliedump/1997/0327/sys/src/brazil/pc/dma.c 207a int dmacount(int chan) { int retval; DMA *dp; dp = &dma[(chan>>2)&1]; outb(dp->cbp, 0); retval = inb(dp->count[chan]); retval |= inb(dp->count[chan]) << 8; return((retval<shift)+1); } . ## diffname pc/dma.c 1997/0404 ## diff -e /n/emeliedump/1997/0327/sys/src/brazil/pc/dma.c /n/emeliedump/1997/0404/sys/src/brazil/pc/dma.c 220a */ . 208c /* . 133a if(xp->bva == nil) return -1; . 101a xp->bva = (void*)ROUND(v, BY2PG); xp->bpa = PADDR(xp->bva); xp->len = 0; xp->isread = 0; . 92,100c dp = &dma[(chan>>2)&1]; chan = chan & 3; xp = &dp->x[chan]; if(xp->bva != nil) return; v = (ulong)xalloc(BY2PG+BY2PG); if(v == 0 || PADDR(v) >= 16*MB){ print("dmainit: chan %d: 0x%luX out of range\n", chan, v); xfree((void*)v); v = 0; . 90a ulong v; . 88d 86c dmainit(int chan) . 82,83c * DMA must be in the first 16MB. This gets called early by the * initialisation routines of any devices which require DMA to ensure * the allocated bounce buffers are below the 16MB limit. . ## diffname pc/dma.c 1998/1125 ## diff -e /n/emeliedump/1997/0404/sys/src/brazil/pc/dma.c /n/emeliedump/1998/1125/sys/src/brazil/pc/dma.c 140c || pa >= 16*MB) { . ## diffname pc/dma.c 1999/0403 ## diff -e /n/emeliedump/1998/1125/sys/src/brazil/pc/dma.c /n/emeliedump/1999/0403/sys/src/brazil/pc/dma.c 143,144c if(len > xp->blen) len = xp->blen; . 135c * use the bounce buffer. . 108a return 0; . 106a if(xp->bpa >= 16*MB){ xfree(xp->bva); /* doesn't work... */ xp->bva = nil; return 1; } xp->blen = maxtransfer; . 105c xp->bva = xspanalloc(maxtransfer, BY2PG, 64*1024); if(xp->bva == nil) return 1; . 96,103c if(xp->bva != nil){ if(xp->blen < maxtransfer) return 1; return 0; . 92a if(maxtransfer > 64*1024) maxtransfer = 64*1024; . 91d 86,87c int dmainit(int chan, int maxtransfer) . 34a int blen; /* bounce buffer length */ . ## diffname pc/dma.c 1999/0422 ## diff -e /n/emeliedump/1999/0403/sys/src/brazil/pc/dma.c /n/emeliedump/1999/0422/sys/src/brazil/pc/dma.c 110c /* * This will panic with the current * implementation of xspanalloc(). xfree(xp->bva); */ . ## diffname pc/dma.c 1999/0713 ## diff -e /n/emeliedump/1999/0422/sys/src/brazil/pc/dma.c /n/emeliedump/1999/0713/sys/src/brazil/pc/dma.c 92a if(ioalloc(0x00, 0x10, 0) < 0 || ioalloc(0x80, 0x10, 0) < 0 || ioalloc(0xd0, 0x10, 0) < 0) panic("dmainit"); . ## diffname pc/dma.c 1999/0714 ## diff -e /n/emeliedump/1999/0713/sys/src/brazil/pc/dma.c /n/emeliedump/1999/0714/sys/src/brazil/pc/dma.c 93,96c if(once == 0){ if(ioalloc(0x00, 0x10, 0, "dma") < 0 || ioalloc(0x80, 0x10, 0, "dma") < 0 || ioalloc(0xd0, 0x10, 0, "dma") < 0) panic("dmainit"); once = 1; } . 91a static int once; . 11,27d