mirror of
https://github.com/garrettsworkshop/MacIIROMDiskDriver.git
synced 2024-11-19 14:30:53 +00:00
296 lines
9.3 KiB
C
296 lines
9.3 KiB
C
#include <Memory.h>
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#include <Devices.h>
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#include <Files.h>
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#include <Disks.h>
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#include <Errors.h>
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#include <Events.h>
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#include <OSUtils.h>
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#include "rdisk.h"
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// Switch to 24-bit mode and copy. Call this with
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// PC==0x408XXXXX, not PC==0x008XXXXX
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void RDiskCopy24(char *sourcePtr, char *destPtr, unsigned long byteCount) {
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char mode = true32b;
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SwapMMUMode(&mode);
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BlockMove(sourcePtr, destPtr, byteCount);
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SwapMMUMode(&mode);
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}
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typedef struct RDiskStorage_s {
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DrvSts2 drvsts;
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unsigned long init_done;
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char *ramdisk;
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Ptr ramdisk_alloc;
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char ramdisk_valid;
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} RDiskStorage_t;
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#pragma parameter __D0 RDiskOpen(__A0, __A1)
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OSErr RDiskOpen(IOParamPtr p, DCtlPtr d) {
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DrvQElPtr dq;
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DrvSts2 *status;
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int drvNum;
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RDiskStorage_t *c;
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// Do nothing if already opened
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if (d->dCtlStorage) { return noErr; }
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// Figure out first available drive number
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drvNum = 1;
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for (dq = (DrvQElPtr)(GetDrvQHdr())->qHead; dq; dq = (DrvQElPtr)dq->qLink) {
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if (dq->dQDrive >= drvNum) { drvNum = dq->dQDrive + 1; }
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}
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// Allocate storage struct
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d->dCtlStorage = NewHandleSysClear(sizeof(RDiskStorage_t));
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if (!d->dCtlStorage) { return openErr; }
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// Lock our storage struct and get master pointer
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HLock(d->dCtlStorage);
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c = *(RDiskStorage_t**)d->dCtlStorage;
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// Initialize storage struct fields
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c->init_done = 0;
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c->ramdisk = NULL;
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c->ramdisk_alloc = NULL;
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c->ramdisk_valid = 0;
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// Set drive status
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status = &c->drvsts;
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status->writeProt = 0xF0;
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status->diskInPlace = 0x08;
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status->dQDrive = drvNum;
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status->dQRefNum = d->dCtlRefNum;
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status->driveSize = (RDiskSize / 512) & 0xFFFF;
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status->driveS1 = ((RDiskSize / 512) & 0xFFFF0000) >> 16;
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// Set driver flags?
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/* d->dCtlFlags |= dReadEnableMask | dWritEnableMask |
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dCtlEnableMask | dStatEnableMask |
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dNeedLockMask; // 0x4F */
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// Add drive to drive queue and return
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RDiskAddDrive(status->dQRefNum, drvNum, (DrvQElPtr)&status->qLink);
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return noErr;
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}
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OSErr RDiskInit(IOParamPtr p, DCtlPtr d, RDiskStorage_t *c) {
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char startup = 0, ram = 0;
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// Mark init done
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c->init_done = 1;
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// Read PRAM
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RDiskReadXPRAM(1, 4, &startup);
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RDiskReadXPRAM(1, 5, &ram);
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// Either enable ROM disk or remove ourselves from the drive queue
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if (startup || RDiskIsRPressed()) { // If ROM disk boot set in PRAM or R pressed,*/
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// Set ROM disk attributes
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c->drvsts.writeProt = -1; // Set write protected
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// Clear disk fields (even though we used NewHandleSysClear)
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c->ramdisk = NULL;
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c->ramdisk_alloc = NULL;
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c->ramdisk_valid = 0;
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// If RAM disk set in PRAM or A pressed, enable RAM disk
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if (ram || RDiskIsAPressed()) {
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unsigned long minBufPtr, newBufPtr;
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// Clearing write protect marks RAM disk enabled
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c->drvsts.writeProt = 0;
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// Compute if there is enough high memory
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minBufPtr = ((unsigned long)*MemTop / 2) + 1024;
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newBufPtr = (unsigned long)*BufPtr - RDiskSize;
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// If in 32-bit mode and there is enough high memory, set ramdisk pointer now
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if (*MMU32bit & newBufPtr > minBufPtr && (unsigned long)*BufPtr > newBufPtr) {
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// Allocate RAM disk buffer by lowering BufPtr
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*BufPtr = (Ptr)newBufPtr;
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// Set RAM disk buffer pointer. Defer copying until accRun
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// Don't set ramdisk_alloc because there is nothing to free.
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c->ramdisk = *BufPtr;
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// Copy ROM disk image to RAM disk
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BlockMove(RDiskBuf, c->ramdisk, RDiskSize);
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c->ramdisk_valid = 1;
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} else {
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// Enable accRun to allocate and copy later
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d->dCtlFlags |= dNeedTimeMask;
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d->dCtlDelay = 0x10;
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}
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}
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return noErr;
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} else { // Otherwise if R not held down and ROM boot not set in PRAM,
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// Remove our driver from the drive queue
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DrvQElPtr dq;
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QHdrPtr QHead = DrvQHdr;
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// Loop through entire drive queue, searching for our device or stopping at the end.
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dq = (DrvQElPtr)QHead->qHead;
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while ((dq != (DrvQElPtr)(QHead->qTail)) &&
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(dq->dQRefNum != d->dCtlRefNum)) {
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dq = (DrvQElPtr)(dq->qLink);
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}
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// If we found our driver, remove it from the queue
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if (dq->dQRefNum == d->dCtlRefNum) {
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Dequeue((QElemPtr)dq, QHead);
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if (c->ramdisk_alloc) { DisposePtr(c->ramdisk_alloc); }
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DisposeHandle(d->dCtlStorage);
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}
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d->dCtlStorage = NULL;
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// Return disk offline error
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return offLinErr;
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}
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}
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#pragma parameter __D0 RDiskPrime(__A0, __A1)
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OSErr RDiskPrime(IOParamPtr p, DCtlPtr d) {
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RDiskStorage_t *c;
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char cmd;
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char *disk;
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long offset;
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RDiskCopy_t copy24 = &RDiskCopy24;
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// Return disk offline error if dCtlStorage null
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if (!d->dCtlStorage) { return offLinErr; }
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// Dereference dCtlStorage to get pointer to our context
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c = *(RDiskStorage_t**)d->dCtlStorage;
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// Initialize if this is the first prime call
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if (!c->init_done) {
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OSErr ret = RDiskInit(p, d, c);
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if (ret != noErr) { return ret; }
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}
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// Get pointer to RAM or ROM disk buffer
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disk = c->ramdisk && c->ramdisk_valid ? c->ramdisk : RDiskBuf;
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// Add offset to buffer pointer according to positioning mode
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switch (p->ioPosMode & 0x000F) {
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case fsAtMark: offset = d->dCtlPosition; break;
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case fsFromStart: offset = p->ioPosOffset; break;
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case fsFromMark: offset = d->dCtlPosition + p->ioPosOffset; break;
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default: break;
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}
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disk += offset;
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// Bounds checking
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/*if (offset >= RDiskSize || p->ioReqCount >= RDiskSize ||
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offset + p->ioReqCount >= RDiskSize ||
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disk + offset < disk) { return posErr; }*/
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// Service read or write request
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cmd = p->ioTrap & 0x00FF;
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if (cmd == aRdCmd) { // Read
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// Return immediately if verify operation requested
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//FIXME: follow either old (verify) or new (read uncached) convention
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/*if (p->ioPosMode & rdVerifyMask) {
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return noErr;
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}*/
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// Read from disk into buffer.
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if (*MMU32bit) { BlockMove(disk, p->ioBuffer, p->ioReqCount); }
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else { // 24-bit addressing
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char *buffer = (char*)Translate24To32(StripAddress(p->ioBuffer));
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copy24(disk, buffer, p->ioReqCount);
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}
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// Update count
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p->ioActCount = p->ioReqCount;
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d->dCtlPosition = offset + p->ioReqCount;
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p->ioPosOffset = d->dCtlPosition;
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return noErr;
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} else if (cmd == aWrCmd) { // Write
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// Fail if write protected or RAM disk buffer not set up
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if (c->drvsts.writeProt || !c->ramdisk || !c->ramdisk_valid) { return wPrErr; }
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// Write from buffer into disk.
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if (*MMU32bit) { BlockMove((char*)p->ioBuffer, disk, p->ioReqCount); }
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else { // 24-bit addressing
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char *buffer = (char*)Translate24To32(StripAddress(p->ioBuffer));
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copy24(buffer, disk, p->ioReqCount);
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}
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// Update count and position/offset
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p->ioActCount = p->ioReqCount;
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d->dCtlPosition = offset + p->ioReqCount;
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p->ioPosOffset = d->dCtlPosition;
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return noErr;
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} else { return noErr; }
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//FIXME: Should we fail if cmd isn't read or write?
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}
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OSErr RDiskAccRun(CntrlParamPtr p, DCtlPtr d, RDiskStorage_t *c) {
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// Disable accRun
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d->dCtlDelay = 0;
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d->dCtlFlags &= ~dNeedTimeMask;
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RDiskBreak();
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// Set RAM disk buffer if our disk is writable and no RAM buffer set
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if (!c->drvsts.writeProt && !c->ramdisk) {
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if (*MMU32bit) { // If in 32-bit mode, (implies System 7)
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// Allocate RAM disk buffer on system heap (System 7 can resize system heap)
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c->ramdisk_alloc = NewPtrSys(RDiskSize);
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if (c->ramdisk_alloc) { // If allocation successful,
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// Set RAM disk buffer pointer
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c->ramdisk = c->ramdisk_alloc;
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}
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} else { // Otherwise in 24-bit mode,
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// Put buffer just beyond the 8 MB of RAM which is usable in 24-bit mode
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c->ramdisk = (char*)(8 * 1024 * 1024);
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//FIXME: what if we don't have enough RAM?
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// Will this wrap around and overwrite low memory?
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// That's not the worst, since the system would just crash,
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// but it would be better to switch to read-only status
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}
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// Clear ramdisk_valid just in case, since ROM disk not yet copied to RAM disk
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c->ramdisk_valid = 0;
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}
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if (!c->ramdisk) { // If RAM disk buffer couldn't be allocated,
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// Mark write protected if we couldn't allocate RAM buffer?
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c->drvsts.writeProt = -1;
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} else if (c->ramdisk && !c->ramdisk_valid) { // Else if buffer exists but is not valid,
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RDiskCopy_t copy24 = RDiskCopy24;
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// Copy ROM disk to RAM disk buffer if not yet copied
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if (*MMU32bit) { BlockMove(RDiskBuf, c->ramdisk, RDiskSize); }
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else { copy24(RDiskBuf, c->ramdisk, RDiskSize); }
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c->ramdisk_valid = 1;
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}
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return noErr; // Always return success
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}
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#pragma parameter __D0 RDiskControl(__A0, __A1)
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OSErr RDiskControl(CntrlParamPtr p, DCtlPtr d) {
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RDiskStorage_t *c;
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// Fail if dCtlStorage null
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if (!d->dCtlStorage) { return controlErr; }
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// Dereference dCtlStorage to get pointer to our context
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c = *(RDiskStorage_t**)d->dCtlStorage;
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// Handle control request based on csCode
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switch (p->csCode) {
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case accRun:
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if (!d->dCtlStorage) { return noErr; }
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return RDiskAccRun(p, d, c);
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default: return controlErr;
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}
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}
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#pragma parameter __D0 RDiskStatus(__A0, __A1)
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OSErr RDiskStatus(CntrlParamPtr p, DCtlPtr d) {
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// Fail if dCtlStorage null
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if (!d->dCtlStorage) { return statusErr; }
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// Handle status request based on csCode
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switch (p->csCode) {
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case drvStsCode:
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BlockMove(*d->dCtlStorage, &p->csParam, sizeof(DrvSts2));
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return noErr;
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default: return statusErr;
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}
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}
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#pragma parameter __D0 RDiskClose(__A0, __A1)
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OSErr RDiskClose(IOParamPtr p, DCtlPtr d) {
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// If dCtlStorage not null, dispose of it and its contents
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if (!d->dCtlStorage) { return noErr; }
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RDiskStorage_t *c = *(RDiskStorage_t**)d->dCtlStorage;
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if (c->ramdisk_alloc) { DisposePtr(c->ramdisk_alloc); }
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HUnlock(d->dCtlStorage);
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DisposeHandle(d->dCtlStorage);
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d->dCtlStorage = NULL;
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return noErr;
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}
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