#include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "error.h" #include "sd.h" static int scsitest(SDreq* r) { r->write = 0; memset(r->cmd, 0, sizeof(r->cmd)); r->cmd[1] = r->lun<<5; r->clen = 6; r->data = nil; r->dlen = 0; r->flags = 0; r->status = ~0; // cgascreenputs("A", 1); return r->unit->dev->ifc->rio(r); } int scsiverify(SDunit* unit) { static SDreq *r; int i, status; static uchar *inquiry; if((r = sdmalloc(r, sizeof(SDreq))) == nil) return 0; if((inquiry = sdmalloc(inquiry, sizeof(unit->inquiry))) == nil) return 0; r->unit = unit; r->lun = 0; /* ??? */ memset(unit->inquiry, 0, sizeof(unit->inquiry)); r->write = 0; r->cmd[0] = 0x12; r->cmd[1] = r->lun<<5; r->cmd[4] = sizeof(unit->inquiry)-1; r->clen = 6; r->data = inquiry; r->dlen = sizeof(unit->inquiry)-1; r->flags = 0; r->status = ~0; // cgascreenputs("B", 1); if(unit->dev->ifc->rio(r) != SDok){ return 0; } memmove(unit->inquiry, inquiry, r->dlen); SET(status); for(i = 0; i < 3; i++){ while((status = scsitest(r)) == SDbusy) ; if(status == SDok || status != SDcheck) break; if(!(r->flags & SDvalidsense)) break; if((r->sense[2] & 0x0F) != 0x02) continue; /* * Unit is 'not ready'. * If it is in the process of becoming ready or needs * an initialising command, set status so it will be spun-up * below. * If there's no medium, that's OK too, but don't * try to spin it up. */ if(r->sense[12] == 0x04){ if(r->sense[13] == 0x02 || r->sense[13] == 0x01){ status = SDok; break; } } if(r->sense[12] == 0x3A) break; } if(status == SDok){ /* * Try to ensure a direct-access device is spinning. * Don't wait for completion, ignore the result. */ if((unit->inquiry[0] & 0x1F) == 0){ memset(r->cmd, 0, sizeof(r->cmd)); r->write = 0; r->cmd[0] = 0x1B; r->cmd[1] = (r->lun<<5)|0x01; r->cmd[4] = 1; r->clen = 6; r->data = nil; r->dlen = 0; r->flags = 0; r->status = ~0; unit->dev->ifc->rio(r); } } // free(r); if(status == SDok || status == SDcheck) return 1; return 0; } int return0(void*) { return 0; } static int scsirio(SDreq* r) { /* * Perform an I/O request, returning * -1 failure * 0 ok * 1 no medium present * 2 retry * The contents of r may be altered so the * caller should re-initialise if necesary. */ r->status = ~0; // cgascreenputs("C", 1); switch(r->unit->dev->ifc->rio(r)){ default: break; case SDcheck: if(!(r->flags & SDvalidsense)) break; switch(r->sense[2] & 0x0F){ case 0x00: /* no sense */ case 0x01: /* recovered error */ return 2; case 0x06: /* check condition */ /* * 0x28 - not ready to ready transition, * medium may have changed. * 0x29 - power on or some type of reset. */ if(r->sense[12] == 0x28 && r->sense[13] == 0) return 2; if(r->sense[12] == 0x29) return 2; break; case 0x02: /* not ready */ /* * If no medium present, bail out. * If unit is becoming ready, rather than not * not ready, wait a little then poke it again. */ if(r->sense[12] == 0x3A) break; if(r->sense[12] != 0x04 || r->sense[13] != 0x01) break; tsleep(nil, return0, 0, 500); scsitest(r); return 2; default: break; } break; case SDok: return 0; } return -1; } static void cap10(SDreq *r) { r->cmd[0] = 0x25; r->cmd[1] = r->lun<<5; r->clen = 10; r->dlen = 8; } static void cap16(SDreq *r) { uint i; i = 32; r->cmd[0] = 0x9e; r->cmd[1] = 0x10; r->cmd[10] = i>>24; r->cmd[11] = i>>16; r->cmd[12] = i>>8; r->cmd[13] = i; r->clen = 16; r->dlen = i; } static uint belong(uchar *u) { return u[0]<<24 | u[1]<<16 | u[2]<<8 | u[3]; } static uvlong capreply(SDreq *r, ulong *secsize) { uchar *u; ulong ss; uvlong s; *secsize = 0; u = r->data; if(r->clen == 16){ s = (uvlong)belong(u)<<32 | belong(u + 4); ss = belong(u + 8); }else{ s = belong(u); ss = belong(u + 4); } /* * Some ATAPI CD readers lie about the block size. * Since we don't read audio via this interface * it's okay to always fudge this. */ if(ss == 2352) ss = 2048; /* * Devices with removable media may return 0 sectors * when they have empty media (e.g. sata dvd writers); * if so, keep the count zero. * * Read-capacity returns the LBA of the last sector, * therefore the number of sectors must be incremented. */ if(s != 0) s++; *secsize = ss; return s; } int scsionline(SDunit* unit) { int ok, retries; void (*cap)(SDreq*); static SDreq *r; static uchar *p; if((r = sdmalloc(r, sizeof(SDreq))) == nil) return 0; if((p = sdmalloc(p, 32)) == nil) return 0; ok = 0; cap = cap10; r->unit = unit; r->lun = 0; /* ??? */ for(retries = 0; retries < 10; retries++){ /* * Read-capacity is mandatory for DA, WORM, CD-ROM and * MO. It may return 'not ready' if type DA is not * spun up, type MO or type CD-ROM are not loaded or just * plain slow getting their act together after a reset. */ r->write = 0; r->data = p; r->flags = 0; memset(r->cmd, 0, sizeof r->cmd); cap(r); r->status = ~0; switch(scsirio(r)){ default: break; case 0: unit->sectors = capreply(r, &unit->secsize); if(unit->secsize == 0) continue; if(unit->sectors == 0xffffffff && cap == cap10){ cap = cap16; continue; } ok = 1; break; case 1: ok = 1; break; case 2: continue; } break; } return ok; } int scsiexec(SDunit* unit, int write, uchar* cmd, int clen, void* data, int* dlen) { static SDreq *r; int status; if((r = sdmalloc(r, sizeof(SDreq))) == nil) return SDmalloc; r->unit = unit; r->lun = cmd[1]>>5; /* ??? */ r->write = write; memmove(r->cmd, cmd, clen); r->clen = clen; r->data = data; if(dlen) r->dlen = *dlen; r->flags = 0; r->status = ~0; /* * Call the device-specific I/O routine. * There should be no calls to 'error()' below this * which percolate back up. */ // cgascreenputs("D", 1); switch(status = unit->dev->ifc->rio(r)){ case SDok: if(dlen) *dlen = r->rlen; /*FALLTHROUGH*/ case SDcheck: /*FALLTHROUGH*/ default: /* * It's more complicated than this. There are conditions * which are 'ok' but for which the returned status code * is not 'SDok'. * Also, not all conditions require a reqsense, might * need to do a reqsense here and make it available to the * caller somehow. * * MaƱana. */ break; } return status; } static void scsifmt10(SDreq *r, int write, int lun, ulong nb, uvlong bno) { uchar *c; c = r->cmd; if(write == 0) c[0] = 0x28; else c[0] = 0x2A; c[1] = lun<<5; c[2] = bno>>24; c[3] = bno>>16; c[4] = bno>>8; c[5] = bno; c[6] = 0; c[7] = nb>>8; c[8] = nb; c[9] = 0; r->clen = 10; } static void scsifmt16(SDreq *r, int write, int lun, ulong nb, uvlong bno) { uchar *c; c = r->cmd; if(write == 0) c[0] = 0x88; else c[0] = 0x8A; c[1] = lun<<5; /* so wrong */ c[2] = bno>>56; c[3] = bno>>48; c[4] = bno>>40; c[5] = bno>>32; c[6] = bno>>24; c[7] = bno>>16; c[8] = bno>>8; c[9] = bno; c[10] = nb>>24; c[11] = nb>>16; c[12] = nb>>8; c[13] = nb; c[14] = 0; c[15] = 0; r->clen = 16; } long scsibio(SDunit* unit, int lun, int write, void* data, long nb, uvlong bno) { static SDreq *r; long rlen; if((r = sdmalloc(r, sizeof(SDreq))) == nil) return SDmalloc; r->unit = unit; r->lun = lun; again: r->write = write; if(bno > 0xffffffff) scsifmt16(r, write, lun, nb, bno); else scsifmt10(r, write, lun, nb, bno); r->data = data; r->dlen = nb*unit->secsize; r->flags = 0; r->status = ~0; // cgascreenputs("E", 1); switch(scsirio(r)){ default: rlen = -1; break; case 0: rlen = r->rlen; break; case 2: rlen = -1; if(!(r->flags & SDvalidsense)) break; switch(r->sense[2] & 0x0F){ default: break; case 0x01: /* recovered error */ print("%s: recovered error at sector %llud\n", unit->name, bno); rlen = r->rlen; break; case 0x06: /* check condition */ /* * Check for a removeable media change. * If so, mark it by zapping the geometry info * to force an online request. */ if(r->sense[12] != 0x28 || r->sense[13] != 0) break; if(unit->inquiry[1] & 0x80) unit->sectors = 0; break; case 0x02: /* not ready */ /* * If unit is becoming ready, * rather than not not ready, try again. */ if(r->sense[12] == 0x04 && r->sense[13] == 0x01) goto again; break; } break; } return rlen; } SDev* scsiid(SDev* sdev, SDifc* ifc) { static char idno[16] = "0123456789abcdef"; static char *p = idno; while(sdev){ if(sdev->ifc == ifc){ sdev->idno = *p++; if(p >= &idno[sizeof(idno)]) break; } sdev = sdev->next; } return nil; }