static void scsiDeviceStartStopUnit(SCSIDEVICE* scsi) { FileProperties* disk = &propGetGlobalProperties()->media.disks[scsi->diskId]; switch (scsi->cdb[4]) { case 2: // Eject if (diskPresent(scsi->diskId)) { disk->fileName[0] = 0; disk->fileNameInZip[0] = 0; updateExtendedDiskName(scsi->diskId, disk->fileName, disk->fileNameInZip); boardChangeDiskette(scsi->diskId, NULL, NULL); SCSILOG1("hdd %d eject\n", scsi->scsiId); } break; case 3: // Insert if (!diskPresent(scsi->diskId)) { *disk = scsi->disk; updateExtendedDiskName(scsi->diskId, disk->fileName, disk->fileNameInZip); boardChangeDiskette(scsi->diskId, disk->fileName, disk->fileNameInZip); SCSILOG1("hdd %d insert\n", scsi->scsiId); } break; } scsi->motor = scsi->cdb[4] & 1; SCSILOG2("hdd %d motor: %d\n", scsi->scsiId, scsi->motor); }
void scsiDeviceDestroy(SCSIDEVICE* scsi) { SCSILOG1("hdd %d: close\n", scsi->scsiId); if (scsi->deviceType == SDT_CDROM) { archCdromDestroy(scsi->cdrom); } free(scsi); }
void scsiDeviceBusReset(SCSIDEVICE* scsi) { SCSILOG1("SCSI %d: bus reset\n", scsi->scsiId); scsi->keycode = 0; scsi->reset = (scsi->mode & MODE_UNITATTENTION) ? 1 : 0; if (scsi->deviceType == SDT_CDROM) { archCdromBusReset(scsi->cdrom); } }
static int scsiDeviceDiskChanged(SCSIDEVICE* scsi) { FileProperties* pDisk; int changed = diskChanged(scsi->diskId); if (changed) { scsi->motor = 1; pDisk = &propGetGlobalProperties()->media.disks[scsi->diskId]; if (scsi->changeCheck2) { scsi->changeCheck2 = 0; if (scsi->inserted && (strcmp(scsi->disk.fileName, pDisk->fileName) == 0) && (strcmp(scsi->disk.fileNameInZip, pDisk->fileNameInZip) == 0)) { SCSILOG("Disk change invalidity\n\n"); return 0; } } scsi->changed = 1; scsi->disk = *pDisk; scsi->inserted = 1; SCSILOG1("hdd %d: disk change\n", scsi->scsiId); SCSILOG1("filename: %s\n", scsi->disk.fileName); SCSILOG1(" zip: %s\n", scsi->disk.fileNameInZip); } else { if (scsi->inserted & !diskPresent(scsi->diskId)) { scsi->inserted = 0; scsi->motor = 0; scsi->changed = 1; changed = 1; } } if (changed && (scsi->mode & MODE_UNITATTENTION)) { scsi->reset = 1; } return changed; }
void scsiDeviceReset(SCSIDEVICE* scsi) { if (scsi->deviceType == SDT_CDROM) { archCdromHwReset(scsi->cdrom); } scsi->changed = 0; scsi->keycode = 0; scsi->sector = 0; scsi->length = 0; scsi->motor = 1; scsi->changeCheck2 = 1; // the first use always scsi->reset = (scsi->mode & MODE_UNITATTENTION) ? 1 : 0; scsi->disk = propGetGlobalProperties()->media.disks[scsi->diskId]; scsi->inserted = (strlen(scsi->disk.fileName) > 0); if (scsi->inserted) { SCSILOG1("hdd %d: \n", scsi->scsiId); SCSILOG1("filename: %s\n", scsi->disk.fileName); SCSILOG1(" zip: %s\n", scsi->disk.fileNameInZip); } else if ((scsi->mode & MODE_NOVAXIS) && scsi->deviceType != SDT_CDROM) { scsi->enabled = 0; } }
void wd33c93WriteCtrl(WD33C93* wd33c93, UInt16 port, UInt8 value) { //SCSILOG2("wd33c93 write #%X, %X\n", wd33c93->latch, value); switch (wd33c93->latch) { case REG_OWN_ID: wd33c93->regs[REG_OWN_ID] = value; wd33c93->myId = value & 7; SCSILOG1("wd33c93 myid = %X\n", wd33c93->myId); break; case REG_TCH: wd33c93->tc = (wd33c93->tc & 0x0000ffff) + (value << 16); break; case REG_TCM: wd33c93->tc = (wd33c93->tc & 0x00ff00ff) + (value << 8); break; case REG_TCL: wd33c93->tc = (wd33c93->tc & 0x00ffff00) + value; break; case REG_CMD_PHASE: SCSILOG1("wd33c93 CMD_PHASE = %X\n", value); wd33c93->regs[REG_CMD_PHASE] = value; break; case REG_CMD: wd33c93ExecCmd(wd33c93, value); return; case REG_DATA: wd33c93->regs[REG_DATA] = value; if (wd33c93->phase == DataOut) { *wd33c93->pBuf++ = value; --wd33c93->tc; if (--wd33c93->counter == 0) { wd33c93->counter = scsiDeviceDataOut(TARGET, &wd33c93->blockCounter); if (wd33c93->counter) { wd33c93->pBuf = wd33c93->buffer; return; } wd33c93->regs[REG_TLUN] = scsiDeviceGetStatusCode(TARGET); scsiDeviceMsgIn(TARGET); wd33c93->regs[REG_SCSI_STATUS] = SS_XFER_END; wd33c93Disconnect(wd33c93); } } return; case REG_AUX_STATUS: return; default: if (wd33c93->latch <= REG_SRC_ID) { wd33c93->regs[wd33c93->latch] = value; } break; } wd33c93->latch++; wd33c93->latch &= 0x1f; }
static void wd33c93ExecCmd(WD33C93* wd33c93, UInt8 value) { int atn = 0; if (wd33c93->regs[REG_AUX_STATUS] & AS_CIP) { SCSILOG("wd33c93ExecCmd() CIP error\n"); return; } //wd33c93->regs[REG_AUX_STATUS] |= AS_CIP; wd33c93->regs[REG_CMD] = value; switch (value) { case 0x00: /* Reset controller (software reset) */ SCSILOG("wd33c93 [CMD] Reset controller\n"); memset(wd33c93->regs + 1, 0, 0x1a); wd33c93Disconnect(wd33c93); wd33c93->latch = 0; wd33c93->regs[REG_SCSI_STATUS] = (wd33c93->regs[REG_OWN_ID] & OWN_EAF) ? SS_RESET_ADV : SS_RESET; break; case 0x02: /* Assert ATN */ SCSILOG("wd33c93 [CMD] Assert ATN\n"); break; case 0x04: /* Disconnect */ SCSILOG("wd33c93 [CMD] Disconnect\n"); wd33c93Disconnect(wd33c93); break; case 0x06: /* Select with ATN (Lv2) */ atn = 1; case 0x07: /* Select Without ATN (Lv2) */ SCSILOG1("wd33c93 [CMD] Select (ATN %d)\n", atn); wd33c93->targetId = wd33c93->regs[REG_DST_ID] & 7; wd33c93->regs[REG_SCSI_STATUS] = SS_SEL_TIMEOUT; wd33c93->tc = 0; wd33c93->regs[REG_AUX_STATUS] = AS_INT; break; case 0x08: /* Select with ATN and transfer (Lv2) */ atn = 1; case 0x09: /* Select without ATN and Transfer (Lv2) */ SCSILOG1("wd33c93 [CMD] Select and transfer (ATN %d)\n", atn); wd33c93->targetId = wd33c93->regs[REG_DST_ID] & 7; if (!wd33c93->devBusy && wd33c93->targetId < wd33c93->maxDev && /* wd33c93->targetId != wd33c93->myId && */ scsiDeviceSelection(TARGET)) { if (atn) scsiDeviceMsgOut(TARGET, wd33c93->regs[REG_TLUN] | 0x80); wd33c93->devBusy = 1; wd33c93->counter = scsiDeviceExecuteCmd( TARGET, &wd33c93->regs[REG_CDB1], &wd33c93->phase, &wd33c93->blockCounter); switch (wd33c93->phase) { case Status: wd33c93->devBusy = 0; wd33c93->regs[REG_TLUN] = scsiDeviceGetStatusCode(TARGET); scsiDeviceMsgIn(TARGET); wd33c93->regs[REG_SCSI_STATUS] = SS_XFER_END; wd33c93Disconnect(wd33c93); break; case Execute: wd33c93->regs[REG_AUX_STATUS] = AS_CIP | AS_BSY; wd33c93->pBuf = wd33c93->buffer; break; default: wd33c93->devBusy = 0; wd33c93->regs[REG_AUX_STATUS] = AS_CIP | AS_BSY | AS_DBR; wd33c93->pBuf = wd33c93->buffer; } //wd33c93->regs[REG_SRC_ID] |= wd33c93->regs[REG_DST_ID] & 7; } else { //wd33c93->timeout = boardSystemTime() + boardFrequency() / 16384; //wd33c93->timerRunning = 1; //boardTimerAdd(wd33c93->timer, wd33c93->timeout); SCSILOG1("wd33c93 %d timeout\n", wd33c93->targetId); wd33c93->tc = 0; wd33c93->regs[REG_SCSI_STATUS] = SS_SEL_TIMEOUT; wd33c93->regs[REG_AUX_STATUS] = AS_INT; } break; case 0x18: /* Translate Address (Lv2) */ default: SCSILOG1("wd33c93 [CMD] unsupport command %x\n", value); break; } }
void mb89352WriteRegister(MB89352* spc, UInt8 reg, UInt8 value) { int err; int flag; int x; int i; int cmd; //SCSILOG2("SPC write register: %x %x\n", reg, value); switch (reg) { case REG_DREG: // write data Register mb89352WriteDREG(spc, value); break; case REG_SCMD: if (!spc->isEnabled) { break; } // bus reset if (value & 0x10) { if (((spc->regs[REG_SCMD] & 0x10) == 0) & (spc->regs[REG_SCTL] == 0)) { SCSILOG("SPC: bus reset\n"); spc->rst = 1; spc->regs[REG_INTS] |= INTS_ResetCondition; for (i = 0; i < 8; ++i) { scsiDeviceBusReset(spc->scsiDevice[i]); } mb89352Disconnect(spc); // alternative routine } } else { spc->rst = 0; } spc->regs[REG_SCMD] = value; cmd = value >> 5; //SCSILOG1("SPC command: %x\n", cmd); // execute spc command switch (cmd) { case CMD_Set_ACK_REQ: switch (spc->phase) { case DataIn: case Status: case MsgIn: mb89352SetACKREQ(spc, (UInt8*)&spc->regs[REG_TEMP]); break; default: mb89352SetACKREQ(spc, (UInt8*)&spc->regs[REG_TEMPWR]); } break; case CMD_Reset_ACK_REQ: mb89352ResetACKREQ(spc); break; case CMD_Select: if (spc->rst) { spc->regs[REG_INTS] |= INTS_TimeOut; break; } if (spc->regs[REG_PCTL] & 1) { SCSILOG1("reselection error %x", spc->regs[REG_TEMPWR]); spc->regs[REG_INTS] |= INTS_TimeOut; mb89352Disconnect(spc); break; } x = spc->regs[REG_BDID] & spc->regs[REG_TEMPWR]; if (spc->phase == BusFree && x && x != spc->regs[REG_TEMPWR]) { x = spc->regs[REG_TEMPWR] & ~spc->regs[REG_BDID]; // the targetID is calculated. // It is given priority that the number is large. for (spc->targetId = 0; spc->targetId < 8; ++spc->targetId) { x = x >> 1; if (x == 0) { break; } } if (!spc->devBusy && scsiDeviceSelection(TARGET)) { SCSILOG1("selection: %d OK\n", spc->targetId); spc->regs[REG_INTS] |= INTS_CommandComplete; spc->isBusy = 1; spc->msgin = 0; spc->counter = -1; err = 0; if (spc->atn) { spc->phase = MsgOut; spc->nextPhase = Command; spc->regs[REG_PSNS] = PSNS_REQ | PSNS_BSY | PSNS_MSGOUT; } else { spc->phase = Command; spc->nextPhase = -1; spc->regs[REG_PSNS] = PSNS_REQ | PSNS_BSY | PSNS_COMMAND; } } else { err = 1; } } else { err = 1; #ifdef SCSIDEBUG spc->targetId = -1; #endif } if (err) { SCSILOG1("selection: %d error\n", spc->targetId); spc->regs[REG_INTS] |= INTS_TimeOut; mb89352Disconnect(spc); } break; // hardware transfer case CMD_Transfer: SCSILOG2("CMD_Transfer %d (%d)\n", spc->tc, spc->tc / 512); if ((spc->regs[FIX_PCTL] == (spc->regs[REG_PSNS] & 7)) && (spc->regs[REG_PSNS] & (PSNS_REQ | PSNS_BSY))) { spc->isTransfer = 1; // set Xfer in Progress } else { spc->regs[REG_INTS] |= INTS_ServiceRequited; SCSILOG("phase error\n"); } break; case CMD_BusRelease: SCSILOG("CMD_BusRelease\n"); mb89352Disconnect(spc); break; case CMD_SetATN: SCSILOG("CMD_SetATN\n"); spc->atn = PSNS_ATN; break; case CMD_ResetATN: SCSILOG("CMD_ResetATN\n"); spc->atn = 0; break; case CMD_TransferPause: // nothing is done in the initiator. SCSILOG("CMD_TransferPause\n"); break; }