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commit not-yet-working micro-sd code

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This commit is contained in:
Romain Dolbeau 2023-09-16 15:16:40 +02:00
parent f9886f7280
commit 12690cfbf0
14 changed files with 1290 additions and 24 deletions
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1
nubus-to-ztex-gateware/DeclROM/DepVideo.inc
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@ -30,6 +30,7 @@ RB24s = HRES*4
DrHwNuBusFPGA = 0xBEEF /* placeholder for GoboFB */
DrHwNuBusFPGADsk = 0xBEEE /* placeholder for RAM Dsk */
DrHwNuBusFPGAAudio = 0xBEED /* placeholder for Audio */
DrHwNuBusFPGASDCard = 0xBEEC /* placeholder for SD Card */
typeDrive = 0x1000 /* placeholder for RAM Dsk*/
typeAudio = 0x1001 /* placeholder for Audio*/

3
nubus-to-ztex-gateware/DeclROM/Makefile
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@ -24,7 +24,8 @@ endif
CSRC_VIDEO=NuBusFPGADrvr_OpenClose.c NuBusFPGADrvr_Ctrl.c NuBusFPGADrvr_Status.c NuBusFPGAPrimaryInit_Primary.c NuBusFPGAPrimaryInit_RamInit.c NuBusFPGASecondaryInit_Secondary.c
CSRC_RAMDSK=NuBusFPGARAMDskDrvr_OpenClose.c NuBusFPGARAMDskDrvr_Ctrl.c NuBusFPGARAMDskDrvr_Prime.c NuBusFPGARAMDskDrvr_Status.c myrle.c
CSRC=${CSRC_VIDEO} ${CSRC_RAMDSK}
CSRC_SDCARD=NuBusFPGASDCardDrvr_OpenClose.c NuBusFPGASDCardDrvr_Ctrl.c NuBusFPGASDCardDrvr_Prime.c NuBusFPGASDCardDrvr_Status.c
CSRC=${CSRC_VIDEO} ${CSRC_RAMDSK} ${CSRC_SDCARD}
CSRC_ASM=${CSRC:.c=.s}
GEN_ASM=VidRomDef.s VidRomDir.s VidRomName.s VidRomRes.s VidRomRsrcDir.s

2
nubus-to-ztex-gateware/DeclROM/NuBusFPGARAMDskDrvr.h
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@ -8,7 +8,7 @@
#include <MacMemory.h>
#include <Disks.h>
#define ENABLE_DMA 1
// #define ENABLE_DMA 1
#include "NuBusFPGADrvr.h"

4
nubus-to-ztex-gateware/DeclROM/NuBusFPGARAMDskDrvr_Prime.c
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@ -9,6 +9,8 @@ __attribute__ ((section (".text.dskdriver"))) static inline void waitSome(unsign
}
}
// CLEANME: use the proper CSR accessor from nubusfpga_csr_exchange_with_mem.h
#ifdef ENABLE_DMA
__attribute__ ((section (".text.dskdriver"))) static void startOneOp(struct RAMDrvContext *ctx, const AuxDCEPtr dce) {
if (ctx->op.blk_todo > 0) {
@ -17,7 +19,7 @@ __attribute__ ((section (".text.dskdriver"))) static void startOneOp(struct RAMD
ctx->op.blk_doing = 32768; // nice Po2
}
write_reg(dce, DMA_BLK_ADDR, revb(ctx->dma_blk_base + ctx->op.blk_offset));
write_reg(dce, DMA_DMA_ADDR, revb(ctx->op.ioBuffer + (ctx->op.blk_done << ctx->dma_blk_size_shift)));
write_reg(dce, DMA_DMA_ADDR, revb((uint32_t)(ctx->op.ioBuffer + (ctx->op.blk_done << ctx->dma_blk_size_shift))));
ctx->op.blk_done += ctx->op.blk_doing;
ctx->op.blk_todo -= ctx->op.blk_doing;
ctx->op.blk_offset += ctx->op.blk_doing;

119
nubus-to-ztex-gateware/DeclROM/NuBusFPGASDCardDrvr.h Normal file
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@ -0,0 +1,119 @@
#ifndef __NUBUSFPGARAMDSKDRVR_H__
#define __NUBUSFPGARAMDSKDRVR_H__
#include <Files.h>
#include <Devices.h>
#include <Slots.h>
#include <MacErrors.h>
#include <MacMemory.h>
#include <Disks.h>
#include "NuBusFPGADrvr.h"
struct SDCardContext {
DrvSts2 drvsts;
unsigned int dma_blk_size;
unsigned int dma_blk_size_mask;
unsigned int dma_blk_size_shift;
unsigned int dma_blk_per_sdblk;
unsigned int dma_blk_per_sdblk_lshift;
char slot;
char toto;
unsigned int max_rd_blk_len;
SlotIntQElement *siqel;
};
#include "nubusfpga_csr_common.h"
#include "../nubusfpga_csr_sdblock2mem.h"
#include "../nubusfpga_csr_sdcore.h"
//#include "../nubusfpga_csr_sdirq.h"
#include "../nubusfpga_csr_sdmem2block.h"
#include "../nubusfpga_csr_sdphy.h"
#include "../nubusfpga_csr_exchange_with_sd.h"
/* basically Litex BIOS code */
#ifndef CONFIG_CLOCK_FREQUENCY
#define CONFIG_CLOCK_FREQUENCY 100000000
#endif
#define CLKGEN_STATUS_BUSY 0x1
#define CLKGEN_STATUS_PROGDONE 0x2
#define CLKGEN_STATUS_LOCKED 0x4
#define SD_CMD_RESPONSE_SIZE 16
#define SD_OK 0
#define SD_CRCERROR 1
#define SD_TIMEOUT 2
#define SD_WRITEERROR 3
#define SD_SWITCH_CHECK 0
#define SD_SWITCH_SWITCH 1
#define SD_SPEED_SDR12 0
#define SD_SPEED_SDR25 1
#define SD_SPEED_SDR50 2
#define SD_SPEED_SDR104 3
#define SD_SPEED_DDR50 4
#define SD_DRIVER_STRENGTH_B 0
#define SD_DRIVER_STRENGTH_A 1
#define SD_DRIVER_STRENGTH_C 2
#define SD_DRIVER_STRENGTH_D 3
#define SD_GROUP_ACCESSMODE 0
#define SD_GROUP_COMMANDSYSTEM 1
#define SD_GROUP_DRIVERSTRENGTH 2
#define SD_GROUP_POWERLIMIT 3
#define SDCARD_STREAM_STATUS_OK 0b000
#define SDCARD_STREAM_STATUS_TIMEOUT 0b001
#define SDCARD_STREAM_STATUS_DATAACCEPTED 0b010
#define SDCARD_STREAM_STATUS_CRCERROR 0b101
#define SDCARD_STREAM_STATUS_WRITEERROR 0b110
#define SDCARD_CTRL_DATA_TRANSFER_NONE 0
#define SDCARD_CTRL_DATA_TRANSFER_READ 1
#define SDCARD_CTRL_DATA_TRANSFER_WRITE 2
#define SDCARD_CTRL_RESPONSE_NONE 0
#define SDCARD_CTRL_RESPONSE_SHORT 1
#define SDCARD_CTRL_RESPONSE_LONG 2
#define SDCARD_CTRL_RESPONSE_SHORT_BUSY 3
//#define SDCARD_DEBUG
//#define SDCARD_CMD23_SUPPORT /* SET_BLOCK_COUNT */
#define SDCARD_CMD18_SUPPORT /* READ_MULTIPLE_BLOCK */
#define SDCARD_CMD25_SUPPORT /* WRITE_MULTIPLE_BLOCK */
#ifndef SDCARD_CLK_FREQ_INIT
#define SDCARD_CLK_FREQ_INIT 400000
#endif
#ifndef SDCARD_CLK_FREQ
#define SDCARD_CLK_FREQ 25000000
//#define SDCARD_CLK_FREQ 12500000
#endif
/* ctrl */
OSErr cNuBusFPGASDCardCtl(CntrlParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce) __attribute__ ((section (".text.sddriver")));
/* open, close */
OSErr cNuBusFPGASDCardOpen(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce) __attribute__ ((section (".text.sddriver")));
OSErr cNuBusFPGASDCardClose(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce) __attribute__ ((section (".text.sddriver")));
void busy_wait(int d) __attribute__ ((section (".text.sddriver")));
void delay(int d) __attribute__ ((section (".text.sddriver")));
int sdcard_read(uint32_t sc, struct SDCardContext *ctx, uint32_t block, uint32_t count, uint8_t* buf) __attribute__ ((section (".text.sddriver")));
int sdcard_write(uint32_t sc, struct SDCardContext *ctx, uint32_t block, uint32_t count, uint8_t* buf) __attribute__ ((section (".text.sddriver")));
/* prime */
OSErr cNuBusFPGASDCardPrime(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce) __attribute__ ((section (".text.sddriver")));
void waitSome(unsigned long bound) __attribute__ ((section (".text.sddriver")));
/* status */
OSErr cNuBusFPGASDCardStatus(CntrlParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce) __attribute__ ((section (".text.sddriver")));
uint32_t rledec(uint32_t* out, const uint32_t* in, const uint32_t len) __attribute__ ((section (".text.sddriver")));
#endif

23
nubus-to-ztex-gateware/DeclROM/NuBusFPGASDCardDrvr.s Normal file
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@ -0,0 +1,23 @@
NuBusFPGASDCardDrvr:
.word 0x4f00 /* 0x4f00: ctl, status, read, write, needsLock [Devices.a] */
.word 0
.word 0
.word 0
/* Entry point offset table */
/* we can directly call the C version if it has the right calling convention */
.word cNuBusFPGASDCardOpen - NuBusFPGASDCardDrvr /* open routine */
.word cNuBusFPGASDCardPrime - NuBusFPGASDCardDrvr /* prime */
.word cNuBusFPGASDCardCtl - NuBusFPGASDCardDrvr /* control */
.word cNuBusFPGASDCardStatus- NuBusFPGASDCardDrvr /* status */
.word cNuBusFPGASDCardClose - NuBusFPGASDCardDrvr /* close */
_NuBusFPGASDCardTitle:
.byte _NuBusFPGASDCardTitle_StringEnd-.-1 /* pascal string length */
.ascii ".NuBusFPGASDCard_Drvr"
_NuBusFPGASDCardTitle_StringEnd:
.word 0 /* version number */
/* for entry points: */
/* A0 pointer to driver parameter block */
/* A1 pointer to driver device control entry */
ALIGN 2

59
nubus-to-ztex-gateware/DeclROM/NuBusFPGASDCardDrvr_Ctrl.c Normal file
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@ -0,0 +1,59 @@
#include "NuBusFPGASDCardDrvr.h"
#if 0
OSErr changeSDCardIRQ(AuxDCEPtr dce, char en, OSErr err) {
struct SDCardContext *ctx = *(struct SDCardContext**)dce->dCtlStorage;
if (en != ctx->irqen) {
/* write_reg(dce, GOBOFB_DEBUG, 0xBEEF0005); */
/* write_reg(dce, GOBOFB_DEBUG, en); */
if (en) {
if (SIntInstall(ctx->siqel, dce->dCtlSlot)) {
return err;
}
} else {
if (SIntRemove(ctx->siqel, dce->dCtlSlot)) {
return err;
}
}
write_reg(dce, DMA_IRQ_CTL, en ? revb(0x3) : revb(0x2)); // 0x2: always clear pending interrupt
ctx->irqen = en;
}
return noErr;
}
#endif
#pragma parameter __D0 cNuBusFPGASDCardCtl(__A0, __A1)
OSErr cNuBusFPGASDCardCtl(CntrlParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce)
{
OSErr ret = noErr;
struct SDCardContext *ctx;
/* write_reg(dce, GOBOFB_DEBUG, 0xDEAD0002); */
/* write_reg(dce, GOBOFB_DEBUG, pb->csCode); */
ctx = *(struct SDCardContext**)dce->dCtlStorage;
if (ctx) {
switch (pb->csCode)
{
case kFormat:
ret = noErr;
break;
default:
ret = controlErr;
break;
}
} else {
ret = offLinErr; /* r/w requested for an off-line drive */
goto done;
}
done:
if (!(pb->ioTrap & (1<<noQueueBit)))
IODone((DCtlPtr)dce, ret);
return ret;
}

873
nubus-to-ztex-gateware/DeclROM/NuBusFPGASDCardDrvr_OpenClose.c Normal file
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@ -0,0 +1,873 @@
#include "NuBusFPGASDCardDrvr.h"
#include <Disks.h>
/* FYI, missing in library with Retro68 */
/* void AddDrive(short drvrRefNum, short drvNum, DrvQElPtr qEl); */
/* re-implement with Retro68 features */
/* drVNum to high-order bits of num, drvrRefNum in low-order */
/* not sure how to do "parameter" without output ? */
#pragma parameter __D0 AddDrive(__D0, __A0)
__attribute__ ((section (".text.sddriver"))) static inline int dupAddDrive(unsigned long num, DrvQElPtr qEl) {
asm volatile(".word 0xA04E" : : "d" (num), "a" (qEl));
return num; // should cost nothing, num is already in D0
}
static int sdcard_init(struct SDCardContext* sdcc, uint32_t sc) __attribute__ ((section (".text.sddriver")));
#include <ROMDefs.h>
#pragma parameter __D0 cNuBusFPGASDCardOpen(__A0, __A1)
OSErr cNuBusFPGASDCardOpen(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce)
{
DrvSts2 *dsptr; // pointer to the DrvSts2 in our context
int drvnum = 1;
struct SDCardContext *ctx;
OSErr ret = noErr;
char busMode;
char slot;
busMode = 1;
SwapMMUMode ( &busMode ); // to32 // this likely won't work on older MacII ???
if (dce->dCtlDevBase == 0) { // for some unknown reason, we get an empty dCtlDevBase...
if ((dce->dCtlSlot > 0xE) || (dce->dCtlSlot < 0x9)) { // safety net
SpBlock mySpBlock;
SInfoRecord mySInfoRecord;
mySpBlock.spResult = (long)&mySInfoRecord;
mySpBlock.spSlot = 0x9; // start at first
mySpBlock.spID = 0;
mySpBlock.spExtDev = 0;
mySpBlock.spCategory = catProto;
mySpBlock.spCType = 0x1000; // typeDrive;
mySpBlock.spDrvrSW = drSwApple;
mySpBlock.spDrvrHW = 0xbeec; // DrHwNuBusFPGADsk
mySpBlock.spTBMask = 0;
ret = SNextTypeSRsrc(&mySpBlock);
if (ret)
goto done;
slot = mySpBlock.spSlot;
} else {
slot = dce->dCtlSlot;
}
dce->dCtlDevBase = 0xF0000000ul | ((unsigned long)slot << 24);
}
/* write_reg(dce, GOBOFB_DEBUG, 0xDEAD0000); */
/* write_reg(dce, GOBOFB_DEBUG, dce->dCtlSlot); */
if (dce->dCtlStorage == nil) {
DrvQElPtr dq;
for(dq = (DrvQElPtr)(GetDrvQHdr())->qHead; dq; dq = (DrvQElPtr)dq->qLink) {
if (dq->dQDrive >= drvnum)
drvnum = dq->dQDrive+1;
}
ReserveMemSys(sizeof(struct SDCardContext));
dce->dCtlStorage = NewHandleSysClear(sizeof(struct SDCardContext));
if (dce->dCtlStorage == nil) {
ret = openErr;
goto done;
}
HLock(dce->dCtlStorage);
ctx = *(struct SDCardContext **)dce->dCtlStorage;
ctx->slot = slot;
ctx->toto = 0; // removeme
/* init the SDCard, this will also fill out dsptr->driveSize & dsptr->driveS1 */
if (!sdcard_init(ctx, dce->dCtlDevBase)) {
ret = openErr;
HUnlock(dce->dCtlStorage);
DisposeHandle(dce->dCtlStorage);
dce->dCtlStorage = NULL;
goto done;
}
ctx->dma_blk_size = exchange_with_sd_blk_size_read(dce->dCtlDevBase);
ctx->dma_blk_size_mask = ctx->dma_blk_size - 1; // size is Po2
ctx->dma_blk_size_shift = 0;
while ((1 << ctx->dma_blk_size_shift) < ctx->dma_blk_size) // fixme
ctx->dma_blk_size_shift++;
ctx->dma_blk_per_sdblk_lshift = 9 - ctx->dma_blk_size_shift;
ctx->dma_blk_per_sdblk = 1 << ctx->dma_blk_per_sdblk_lshift; // 512 / ctx->dma_blk_size
dsptr = &ctx->drvsts;
// dsptr->track /* current track */
dsptr->writeProt = 0; /* bit 7 = 1 if volume is locked */
dsptr->diskInPlace = 8; /* disk in drive */
// dsptr->installed /* drive installed */
// dsptr->sides /* -1 for 2-sided, 0 for 1-sided */
// dsptr->QLink /* next queue entry */
dsptr->qType = 1; /* 1 for HD20 */ /* Files 2-85 (p173) : 1 to enable S1 */
dsptr->dQDrive = drvnum; /* drive number */
dsptr->dQRefNum = dce->dCtlRefNum; /* driver reference number */
// dsptr->dQFSID /* file system ID */
/* driveSize & driveS1 filled by sdcard_init */
//dsptr->driveSize = ((DRIVE_SIZE_BYTES/512ul) & 0x0000FFFFul); /* (no comments in Disks.h) */
//dsptr->driveS1 = ((DRIVE_SIZE_BYTES/512ul) & 0xFFFF0000ul) >> 16; /* */
// dsptr->driveType
// dsptr->driveManf
// dsptr->driveChar
// dsptr->driveMisc
// MyAddDrive(dsptr->dQRefNum, drvnum, (DrvQElPtr)&dsptr->qLink);
// write_reg(dce, GOBOFB_DEBUG, 0x0000DEAD);
// add the drive
//MyAddDrive(dsptr->dQRefNum, drvnum, (DrvQElPtr)&dsptr->qLink);
dupAddDrive((dsptr->dQRefNum & 0xFFFF) | (drvnum << 16), (DrvQElPtr)&dsptr->qLink);
#if 0
ctx->dma_blk_size = revb( read_reg(dce, DMA_BLK_SIZE) );
ctx->dma_blk_size_mask = ctx->dma_blk_size - 1; // size is Po2
ctx->dma_blk_size_shift = 0;
while ((1 << ctx->dma_blk_size_shift) < ctx->dma_blk_size) // fixme
ctx->dma_blk_size_shift++;
ctx->dma_blk_base = revb( read_reg(dce, DMA_BLK_BASE) );
ctx->dma_mem_size = revb( read_reg(dce, DMA_MEM_SIZE) );
/* write_reg(dce, GOBOFB_DEBUG, 0xD1580002); */
/* write_reg(dce, GOBOFB_DEBUG, ctx->dma_blk_size); */
/* write_reg(dce, GOBOFB_DEBUG, ctx->dma_blk_size_mask); */
/* write_reg(dce, GOBOFB_DEBUG, ctx->dma_blk_size_shift); */
/* write_reg(dce, GOBOFB_DEBUG, ctx->dma_blk_base); */
/* write_reg(dce, GOBOFB_DEBUG, ctx->dma_mem_size); */
{
SlotIntQElement *siqel = (SlotIntQElement *)NewPtrSysClear(sizeof(SlotIntQElement));
if (siqel == NULL) {
return openErr;
}
siqel->sqType = sIQType;
siqel->sqPrio = 7;
siqel->sqAddr = dskIrq;
siqel->sqParm = (long)dce;
ctx->siqel = siqel;
ctx->irqen = 0;
ctx->op.blk_todo = 0;
ctx->op.blk_done = 0;
ctx->op.blk_offset = 0;
ctx->op.blk_doing = 0;
ctx->op.ioBuffer = 0;
ctx->op.write = 0;
}
#endif
// auto-mount
if (0) {
ParamBlockRec pbr;
pbr.volumeParam.ioVRefNum = dsptr->dQDrive;
ret = PBMountVol(&pbr);
}
}
SwapMMUMode ( &busMode );
done:
return ret;
}
#pragma parameter __D0 cNuBusFPGASDCardClose(__A0, __A1)
OSErr cNuBusFPGASDCardClose(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce)
{
OSErr ret = noErr;
struct SDCardContext *ctx = *(struct SDCardContext**)dce->dCtlStorage;
/* dce->dCtlDevBase = 0xfc000000; */
/* write_reg(dce, GOBOFB_DEBUG, 0xDEAD0001); */
if (dce->dCtlStorage) {
//DisposePtr((Ptr)ctx->siqel);
/* HUnlock(dce->dCtlStorage); */ /* not needed before DisposeHandle */
DisposeHandle(dce->dCtlStorage);
dce->dCtlStorage = NULL;
}
return ret;
}
/*-----------------------------------------------------------------------*/
/* Helpers */
/*-----------------------------------------------------------------------*/
#define max(x, y) (((x) > (y)) ? (x) : (y))
#define min(x, y) (((x) < (y)) ? (x) : (y))
/* In MacOS
Delay(unsigned long numTicks, unsigned long * finalTicks)
has ticks in 1/60th of a second or 16.6666 ms
*/
/* in NetBSD/sparc busy_wait is 1ms * d */
void busy_wait(int d) {
waitSome(d * 20000); // improveme
return;
}
/* in NetBSD/sparc delay is 1us * d */
void delay(int d) {
waitSome(d * 20); // improveme
return;
}
/*-----------------------------------------------------------------------*/
/* SDCard command helpers */
/*-----------------------------------------------------------------------*/
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_wait_cmd_done(uint32_t sc) {
unsigned int event;
#ifdef SDCARD_DEBUG
uint32_t r[SD_CMD_RESPONSE_SIZE/4];
#endif
for (;;) {
event = sdcore_cmd_event_read(sc);
#ifdef SDCARD_DEBUG
printf("cmdevt: %08x\n", event);
#endif
delay(10);
if (event & 0x1)
break;
}
#ifdef SDCARD_DEBUG
csr_rd_buf_uint32(sc, sc->sc_bhregs_sdcore + (CSR_SDCORE_CMD_RESPONSE_ADDR - CSR_SDCORE_BASE), r, SD_CMD_RESPONSE_SIZE/4);
printf("%08x %08x %08x %08x\n", r[0], r[1], r[2], r[3]);
#endif
if (event & 0x4)
return SD_TIMEOUT;
if (event & 0x8)
return SD_CRCERROR;
return SD_OK;
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_wait_data_done(uint32_t sc) {
unsigned int event;
for (;;) {
event = sdcore_data_event_read(sc);
#ifdef SDCARD_DEBUG
printf("dataevt: %08x\n", event);
#endif
if (event & 0x1)
break;
delay(10);
}
if (event & 0x4)
return SD_TIMEOUT;
else if (event & 0x8)
return SD_CRCERROR;
return SD_OK;
}
/*-----------------------------------------------------------------------*/
/* SDCard clocker functions */
/*-----------------------------------------------------------------------*/
/* round up to closest power-of-two */
__attribute__ ((section (".text.sddriver"))) static inline uint32_t pow2_round_up(uint32_t r) {
r--;
r |= r >> 1;
r |= r >> 2;
r |= r >> 4;
r |= r >> 8;
r |= r >> 16;
r++;
return r;
}
__attribute__ ((section (".text.sddriver"))) static inline void sdcard_set_clk_freq(uint32_t sc, uint32_t clk_freq, int show) {
uint32_t divider;
divider = clk_freq ? CONFIG_CLOCK_FREQUENCY/clk_freq : 256;
divider = pow2_round_up(divider);
divider = min(max(divider, 2), 256);
#ifdef SDCARD_DEBUG
show = 1;
#endif
if (show) {
/* this is the *effective* new clk_freq */
clk_freq = CONFIG_CLOCK_FREQUENCY/divider;
/*
printf("Setting SDCard clk freq to ");
if (clk_freq > 1000000)
printf("%d MHz\n", clk_freq/1000000);
else
printf("%d KHz\n", clk_freq/1000);
*/
}
sdphy_clocker_divider_write(sc, divider);
}
/*-----------------------------------------------------------------------*/
/* SDCard commands functions */
/*-----------------------------------------------------------------------*/
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_send_command(uint32_t sc, uint32_t arg, uint8_t cmd, uint8_t rsp) {
sdcore_cmd_argument_write(sc, arg);
sdcore_cmd_command_write(sc, (cmd << 8) | rsp);
sdcore_cmd_send_write(sc, 1);
return sdcard_wait_cmd_done(sc);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_go_idle(uint32_t sc) {
#ifdef SDCARD_DEBUG
printf("CMD0: GO_IDLE\n");
#endif
return sdcard_send_command(sc, 0, 0, SDCARD_CTRL_RESPONSE_NONE);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_send_ext_csd(uint32_t sc) {
uint32_t arg = 0x000001aa;
#ifdef SDCARD_DEBUG
printf("CMD8: SEND_EXT_CSD, arg: 0x%08x\n", arg);
#endif
return sdcard_send_command(sc, arg, 8, SDCARD_CTRL_RESPONSE_SHORT);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_app_cmd(uint32_t sc, uint16_t rca) {
#ifdef SDCARD_DEBUG
printf("CMD55: APP_CMD\n");
#endif
return sdcard_send_command(sc, rca << 16, 55, SDCARD_CTRL_RESPONSE_SHORT);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_app_send_op_cond(uint32_t sc, int hcs) {
uint32_t arg = 0x10ff8000;
if (hcs)
arg |= 0x60000000;
#ifdef SDCARD_DEBUG
printf("ACMD41: APP_SEND_OP_COND, arg: %08x\n", arg);
#endif
return sdcard_send_command(sc, arg, 41, SDCARD_CTRL_RESPONSE_SHORT_BUSY);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_all_send_cid(uint32_t sc) {
#ifdef SDCARD_DEBUG
printf("CMD2: ALL_SEND_CID\n");
#endif
return sdcard_send_command(sc, 0, 2, SDCARD_CTRL_RESPONSE_LONG);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_set_relative_address(uint32_t sc) {
#ifdef SDCARD_DEBUG
printf("CMD3: SET_RELATIVE_ADDRESS\n");
#endif
return sdcard_send_command(sc, 0, 3, SDCARD_CTRL_RESPONSE_SHORT);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_send_cid(uint32_t sc, uint16_t rca) {
#ifdef SDCARD_DEBUG
printf("CMD10: SEND_CID\n");
#endif
return sdcard_send_command(sc, rca << 16, 10, SDCARD_CTRL_RESPONSE_LONG);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_send_csd(uint32_t sc, uint16_t rca) {
#ifdef SDCARD_DEBUG
printf("CMD9: SEND_CSD\n");
#endif
return sdcard_send_command(sc, rca << 16, 9, SDCARD_CTRL_RESPONSE_LONG);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_select_card(uint32_t sc, uint16_t rca) {
#ifdef SDCARD_DEBUG
printf("CMD7: SELECT_CARD\n");
#endif
return sdcard_send_command(sc, rca << 16, 7, SDCARD_CTRL_RESPONSE_SHORT_BUSY);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_app_set_bus_width(uint32_t sc) {
#ifdef SDCARD_DEBUG
printf("ACMD6: SET_BUS_WIDTH\n");
#endif
return sdcard_send_command(sc, 2, 6, SDCARD_CTRL_RESPONSE_SHORT);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_switch(uint32_t sc, unsigned int mode, unsigned int group, unsigned int value) {
unsigned int arg;
arg = (mode << 31) | 0xffffff;
arg &= ~(0xf << (group * 4));
arg |= value << (group * 4);
//device_printf(sc->dk.sc_dev, "switch arg is 0x%08x\n", arg);
#ifdef SDCARD_DEBUG
printf("CMD6: SWITCH_FUNC\n");
#endif
sdcore_block_length_write(sc, 64);
sdcore_block_count_write(sc, 1);
while (sdcard_send_command(sc, arg, 6,
(SDCARD_CTRL_DATA_TRANSFER_READ << 5) |
SDCARD_CTRL_RESPONSE_SHORT) != SD_OK);
return sdcard_wait_data_done(sc);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_app_send_scr(uint32_t sc) {
#ifdef SDCARD_DEBUG
printf("CMD51: APP_SEND_SCR\n");
#endif
sdcore_block_length_write(sc, 8);
sdcore_block_count_write(sc, 1);
while (sdcard_send_command(sc, 0, 51,
(SDCARD_CTRL_DATA_TRANSFER_READ << 5) |
SDCARD_CTRL_RESPONSE_SHORT) != SD_OK);
return sdcard_wait_data_done(sc);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_app_set_blocklen(uint32_t sc, unsigned int blocklen) {
#ifdef SDCARD_DEBUG
printf("CMD16: SET_BLOCKLEN\n");
#endif
return sdcard_send_command(sc, blocklen, 16, SDCARD_CTRL_RESPONSE_SHORT);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_write_single_block(uint32_t sc, unsigned int blockaddr) {
#ifdef SDCARD_DEBUG
printf("CMD24: WRITE_SINGLE_BLOCK\n");
#endif
sdcore_block_length_write(sc, 512);
sdcore_block_count_write(sc, 1);
while (sdcard_send_command(sc, blockaddr, 24,
(SDCARD_CTRL_DATA_TRANSFER_WRITE << 5) |
SDCARD_CTRL_RESPONSE_SHORT) != SD_OK);
return SD_OK;
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_write_multiple_block(uint32_t sc, unsigned int blockaddr, unsigned int blockcnt) {
#ifdef SDCARD_DEBUG
printf("CMD25: WRITE_MULTIPLE_BLOCK\n");
#endif
sdcore_block_length_write(sc, 512);
sdcore_block_count_write(sc, blockcnt);
while (sdcard_send_command(sc, blockaddr, 25,
(SDCARD_CTRL_DATA_TRANSFER_WRITE << 5) |
SDCARD_CTRL_RESPONSE_SHORT) != SD_OK);
return SD_OK;
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_read_single_block(uint32_t sc, unsigned int blockaddr) {
#ifdef SDCARD_DEBUG
printf("CMD17: READ_SINGLE_BLOCK\n");
#endif
sdcore_block_length_write(sc, 512);
sdcore_block_count_write(sc, 1);
while (sdcard_send_command(sc, blockaddr, 17,
(SDCARD_CTRL_DATA_TRANSFER_READ << 5) |
SDCARD_CTRL_RESPONSE_SHORT) != SD_OK);
return sdcard_wait_data_done(sc);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_read_multiple_block(uint32_t sc, unsigned int blockaddr, unsigned int blockcnt) {
#ifdef SDCARD_DEBUG
printf("CMD18: READ_MULTIPLE_BLOCK\n");
#endif
sdcore_block_length_write(sc, 512);
sdcore_block_count_write(sc, blockcnt);
while (sdcard_send_command(sc, blockaddr, 18,
(SDCARD_CTRL_DATA_TRANSFER_READ << 5) |
SDCARD_CTRL_RESPONSE_SHORT) != SD_OK);
return sdcard_wait_data_done(sc);
}
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_stop_transmission(uint32_t sc) {
#ifdef SDCARD_DEBUG
printf("CMD12: STOP_TRANSMISSION\n");
#endif
return sdcard_send_command(sc, 0, 12, SDCARD_CTRL_RESPONSE_SHORT_BUSY);
}
#if 0
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_send_status(uint32_t sc, uint16_t rca) {
#ifdef SDCARD_DEBUG
printf("CMD13: SEND_STATUS\n");
#endif
return sdcard_send_command(sc, rca << 16, 13, SDCARD_CTRL_RESPONSE_SHORT);
}
#endif
#if 0
__attribute__ ((section (".text.sddriver"))) static inline int sdcard_set_block_count(uint32_t sc, unsigned int blockcnt) {
#ifdef SDCARD_DEBUG
printf("CMD23: SET_BLOCK_COUNT\n");
#endif
return sdcard_send_command(sc, blockcnt, 23, SDCARD_CTRL_RESPONSE_SHORT);
}
#endif
__attribute__ ((section (".text.sddriver"))) static inline uint16_t sdcard_decode_rca(uint32_t sc) {
uint32_t r[SD_CMD_RESPONSE_SIZE/4];
csr_rd_buf_uint32(sc, CSR_SDCORE_CMD_RESPONSE_ADDR, r, SD_CMD_RESPONSE_SIZE/4);
return (r[3] >> 16) & 0xffff;
}
__attribute__ ((section (".text.sddriver"))) static inline void sdcard_decode_cid(uint32_t sc) {
uint32_t r[SD_CMD_RESPONSE_SIZE/4];
csr_rd_buf_uint32(sc, CSR_SDCORE_CMD_RESPONSE_ADDR, r, SD_CMD_RESPONSE_SIZE/4);
/* aprint_normal_dev(sc->dk.sc_dev, */
/* "CID Register: 0x%08x%08x%08x%08x " */
/* "Manufacturer ID: 0x%x " */
/* "Application ID 0x%x " */
/* "Product name: %c%c%c%c%c " */
/* "CRC: %02x " */
/* "Production date(m/yy): %d/%d " */
/* "PSN: %08x " */
/* "OID: %c%c\n", */
/* r[0], r[1], r[2], r[3], */
/* (r[0] >> 16) & 0xffff, */
/* r[0] & 0xffff, */
/* (r[1] >> 24) & 0xff, (r[1] >> 16) & 0xff, */
/* (r[1] >> 8) & 0xff, (r[1] >> 0) & 0xff, (r[2] >> 24) & 0xff, */
/* r[3] & 0xff, */
/* (r[3] >> 8) & 0x0f, (r[3] >> 12) & 0xff, */
/* (r[3] >> 24) | (r[2] << 8), */
/* (r[0] >> 16) & 0xff, (r[0] >> 8) & 0xff */
/* ); */
}
__attribute__ ((section (".text.sddriver"))) static inline void sdcard_decode_csd(struct SDCardContext* sdcc, uint32_t sc) {
uint32_t r[SD_CMD_RESPONSE_SIZE/4];
csr_rd_buf_uint32(sc, CSR_SDCORE_CMD_RESPONSE_ADDR, r, SD_CMD_RESPONSE_SIZE/4);
/* FIXME: only support CSR structure version 2.0 */
//sc->max_rd_blk_len = (1 << ((r[1] >> 16) & 0xf));
//sc->max_size_in_blk = ((r[2] >> 16) + ((r[1] & 0xff) << 16) + 1) * 512 * 2;
uint32_t max_size_in_blk = ((r[2] >> 16) + ((r[1] & 0xff) << 16) + 1) * 512 * 2; // weird spec in 512KiB unit
if (max_size_in_blk >= 4194304) // 2 GiB
max_size_in_blk = 4194303; // 2 GiB - 512 B
#define MAX_DSK_SIZE_MB 80
if (max_size_in_blk >= (MAX_DSK_SIZE_MB*(1048576/512))) // TEMPORARY FOR TESTING
max_size_in_blk = (MAX_DSK_SIZE_MB*(1048576/512)); // TEMPORARY FOR TESTING
sdcc->drvsts.driveSize = max_size_in_blk & 0x0000FFFF;
sdcc->drvsts.driveS1 = (max_size_in_blk & 0xFFFF0000) >> 16;
sdcc->max_rd_blk_len = (1 << ((r[1] >> 16) & 0xf)); // READ_BL_LEN ? should always be 9 ?
/* aprint_normal_dev(sc->dk.sc_dev, */
/* "CSD Register: 0x%08x%08x%08x%08x " */
/* "Max data transfer rate: %d MB/s " */
/* "Max read block length: %d bytes " */
/* "Device size: %d GiB (%d blocks)\n", */
/* r[0], r[1], r[2], r[3], */
/* (r[0] >> 24) & 0xff, */
/* sc->max_rd_blk_len, */
/* ((r[2] >> 16) + ((r[1] & 0xff) << 16) + 1) * 512 / (1024 * 1024), */
/* sc->max_size_in_blk */
/* ); */
}
/*-----------------------------------------------------------------------*/
/* SDCard user functions */
/*-----------------------------------------------------------------------*/
static int sdcard_init(struct SDCardContext* sdcc, uint32_t sc) {
uint16_t rca, timeout;
int res;
/* Set SD clk freq to Initialization frequency */
sdcard_set_clk_freq(sc, SDCARD_CLK_FREQ_INIT, 0);
busy_wait(1);
for (timeout=1000; timeout>0; timeout--) {
/* Set SDCard in SPI Mode (generate 80 dummy clocks) */
sdphy_init_initialize_write(sc, 1);
busy_wait(1);
/* Set SDCard in Idle state */
if (sdcard_go_idle(sc) == SD_OK)
break;
busy_wait(1);
}
if (timeout == 0) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard timeout (1)\n");
return 0;
}
/* Set SDCard voltages, only supported by ver2.00+ SDCards */
if ((res = sdcard_send_ext_csd(sc)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_send_ext_csd failed\n");
return 0;
}
/* Set SD clk freq to Operational frequency */
sdcard_set_clk_freq(sc, SDCARD_CLK_FREQ, 0);
busy_wait(1);
/* Set SDCard in Operational state */
for (timeout=1000; timeout>0; timeout--) {
sdcard_app_cmd(sc, 0);
if ((res = sdcard_app_send_op_cond(sc, 1)) != SD_OK)
break;
busy_wait(1);
}
if (timeout == 0) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard timeout (2)\n");
return 0;
}
/* Send identification */
if ((res = sdcard_all_send_cid(sc)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_all_send_cid failed (%d)\n", res);
return 0;
}
sdcard_decode_cid(sc);
/* Set Relative Card Address (RCA) */
if ((res = sdcard_set_relative_address(sc)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_set_relative_address failed (%d)\n", res);
return 0;
}
rca = sdcard_decode_rca(sc);
//device_printf(sc->dk.sc_dev, "rca is 0x%08x\n", rca);
/* Set CID */
if ((res = sdcard_send_cid(sc, rca)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_send_cid failed (%d)\n", res);
return 0;
}
#ifdef SDCARD_DEBUG
/* FIXME: add cid decoding (optional) */
#endif
/* Set CSD */
if ((res = sdcard_send_csd(sc, rca)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_send_csd failed (%d)\n", res);
return 0;
}
sdcard_decode_csd(sdcc, sc);
/* Select card */
if ((res = sdcard_select_card(sc, rca)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_select_card failed (%d)\n", res);
return 0;
}
/* Set bus width */
if ((res = sdcard_app_cmd(sc, rca)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_app_cmd failed (%d)\n", res);
return 0;
}
if((res = sdcard_app_set_bus_width(sc)) != SD_OK){
//aprint_error_dev(sc->dk.sc_dev, "sdcard_app_set_bus_width failed (%d)\n", res);
return 0;
}
/* Switch speed */
if ((res = sdcard_switch(sc, SD_SWITCH_SWITCH, SD_GROUP_ACCESSMODE, SD_SPEED_SDR25)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_switch failed (%d)\n", res);
return 0;
}
/* Send SCR */
/* FIXME: add scr decoding (optional) */
if ((res = sdcard_app_cmd(sc, rca)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_app_cmd failed (%d)\n", res);
return 0;
}
if ((res = sdcard_app_send_scr(sc)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_app_send_scr failed (%d)\n", res);
return 0;
}
/* Set block length */
if ((res = sdcard_app_set_blocklen(sc, 512)) != SD_OK) {
//aprint_error_dev(sc->dk.sc_dev, "sdcard_app_set_blocklen failed (%d)\n", res);
return 0;
}
return 1;
}
#if 1
__attribute__ ((section (".text.sddriver"))) static inline void do_copy_rev(uint32_t *src, uint32_t *dst, uint32_t size) {
uint32_t i;
for (i = 0 ; i < size/4 ; i++) {
dst[i] = revb(src[i]);
}
}
#endif
__attribute__ ((section (".text.sddriver"))) static inline OSErr start_dma_read(uint32_t sc, struct SDCardContext *ctx, uint32_t count, uint8_t* buf) {
unsigned int dma_blk_cnt = count << ctx->dma_blk_per_sdblk_lshift;
exchange_with_sd_blk_addr_write(sc, 0);
exchange_with_sd_dma_addr_write(sc, buf);
exchange_with_sd_blk_cnt_write(sc, dma_blk_cnt | 0x80000000); // MSb==1, read
return noErr;
}
__attribute__ ((section (".text.sddriver"))) static inline OSErr start_dma_write(uint32_t sc, struct SDCardContext *ctx, uint32_t count, uint8_t* buf) {
unsigned int dma_blk_cnt = count << ctx->dma_blk_per_sdblk_lshift;
exchange_with_sd_blk_addr_write(sc, 0);
exchange_with_sd_dma_addr_write(sc, buf);
exchange_with_sd_blk_cnt_write(sc, dma_blk_cnt); // MSb==0, write
return noErr;
}
#if 0
#define DMA_STATUS_CHECK_BITS (0x01F)
__attribute__ ((section (".text.sddriver"))) static inline OSErr wait_dma(uint32_t sc, uint32_t blk_count, OSErr err) {
unsigned long count, max_count, delay;
unsigned long blk_cnt, status;
OSErr ret = noErr;
max_count = 32 * blk_count;
delay = blk_count >> 2;
if (delay > 65536)
delay = 65536;
waitSome(delay);
count = 0;
blk_cnt = exchange_with_sd_blk_cnt_blk_cnt_read(sc);
status = exchange_with_sd_dma_status_read(sc) & DMA_STATUS_CHECK_BITS;
while (((blk_cnt != 0) ||
(status != 0)) &&
(count < max_count)) {
count ++;
waitSome(delay);
if (blk_cnt) blk_cnt = exchange_with_sd_blk_cnt_blk_cnt_read(sc);
if (status) status = exchange_with_sd_dma_status_read(sc) & DMA_STATUS_CHECK_BITS;
}
if (blk_cnt || status) {
ret = err;
}
return ret;
}
#endif
int sdcard_read(uint32_t sc, struct SDCardContext *ctx, uint32_t block, uint32_t count, uint8_t* buf) {
while (count) {
uint32_t nblocks;
//uint64_t buf_hw_addr = ((uint64_t)((uint32_t)buf));// << 32;
uint32_t buf_hw_addr = (uint32_t)buf; // TEMPORARY FOR TESTING
uint32_t stage_addr_dma = 0x80000000; // DDR // TEMPORARY FOR TESTING
uint32_t stage_addr_cpu = sc << 4; // superslot // TEMPORARY FOR TESTING
#ifdef SDCARD_CMD18_SUPPORT
nblocks = count;
if (nblocks > 16)
nblocks = 16;
#else
nblocks = 1;
#endif
#if 1
/* Initialize DMA Writer */
sdblock2mem_dma_enable_write(sc, 0);
/* sdblock2mem_dma_base_write takes an uint64_t */
////sdblock2mem_dma_base_write(sc, buf_hw_addr);
sdblock2mem_dma_base_write(sc, stage_addr_dma);
sdblock2mem_dma_length_write(sc, 512*nblocks);
sdblock2mem_dma_enable_write(sc, 1);
#else
start_dma_write(sc, ctx, nblocks, buf_hw_addr); // read from sdcard, write to memory
#endif
/* Read Block(s) from SDCard */
#ifdef SDCARD_CMD23_SUPPORT
sdcard_set_block_count(sc, nblocks);
#endif
if (nblocks > 1)
sdcard_read_multiple_block(sc, block, nblocks);
else
sdcard_read_single_block(sc, block);
#if 1
//int timeout = 64 * nblocks;
int timeout = 1024 * nblocks;
/* Wait for DMA Writer to complete */
while (((sdblock2mem_dma_done_read(sc) & 0x1) == 0) && timeout) {
//delay(2);
delay(20);
timeout --;
}
if ((sdblock2mem_dma_done_read(sc) & 0x1) == 0) {
/* device_printf(sc->dk.sc_dev, "%s: SD card timeout\n", __PRETTY_FUNCTION__); */
return 1;
}
#else
if (wait_dma(sc, nblocks, readErr) != noErr)
return 1;
#endif
/* Stop transmission (Only for multiple block reads) */
if (nblocks > 1)
sdcard_stop_transmission(sc);
BlockMoveData((void*)stage_addr_cpu, (void*)buf_hw_addr, 512*nblocks);
//do_copy_rev((void*)stage_addr_cpu, (void*)buf_hw_addr, 512*nblocks);
/* Update Block/Buffer/Count */
block += nblocks;
buf += 512*nblocks;
count -= nblocks;
}
return 0;
}
int sdcard_write(uint32_t sc, struct SDCardContext *ctx, uint32_t block, uint32_t count, uint8_t* buf) {
while (count) {
uint32_t nblocks;
//uint64_t buf_hw_addr = ((uint64_t)((uint32_t)buf));// << 32;
uint32_t buf_hw_addr = (uint32_t)buf; // TEMPORARY FOR TESTING
uint32_t stage_addr_dma = 0x80000000; // DDR // TEMPORARY FOR TESTING
uint32_t stage_addr_cpu = sc << 4; // superslot // TEMPORARY FOR TESTING
#ifdef SDCARD_CMD25_SUPPORT
nblocks = count;
if (nblocks > 16)
nblocks = 16;
#else
nblocks = 1;
#endif
BlockMoveData((void*)buf_hw_addr, (void*)stage_addr_cpu, 512*nblocks);
//do_copy_rev((void*)buf_hw_addr, (void*)stage_addr_cpu, 512*nblocks);
#if 1
/* Initialize DMA Reader */
sdmem2block_dma_enable_write(sc, 0);
/* sdblock2mem_dma_base_write takes an uint64_t */
////sdmem2block_dma_base_write(sc, buf_hw_addr);
sdmem2block_dma_base_write(sc, stage_addr_dma);
sdmem2block_dma_length_write(sc, 512*nblocks);
sdmem2block_dma_enable_write(sc, 1);
#else
start_dma_read(sc, ctx, nblocks, buf_hw_addr); // write to sdcard, read from memory
#endif
/* Write Block(s) to SDCard */
#ifdef SDCARD_CMD23_SUPPORT
sdcard_set_block_count(sc, nblocks);
#endif
if (nblocks > 1)
sdcard_write_multiple_block(sc, block, nblocks);
else
sdcard_write_single_block(sc, block);
/* Stop transmission (Only for multiple block writes) */
if (nblocks > 1)
sdcard_stop_transmission(sc);
#if 1
/* Wait for DMA Reader to complete */
//int timeout = 64 * nblocks;
int timeout = 1024 * nblocks;
while (((sdmem2block_dma_done_read(sc) & 0x1) == 0) && timeout) {
//delay(2);
delay(20);
timeout --;
}
if ((sdmem2block_dma_done_read(sc) & 0x1) == 0) {
/* device_printf(sc->dk.sc_dev, "%s: SD card timeout\n", __PRETTY_FUNCTION__); */
return 1;
}
#else
if (wait_dma(sc, nblocks, writErr) != noErr)
return 1;
#endif
/* Update Block/Buffer/Count */
block += nblocks;
buf += 512*nblocks;
count -= nblocks;
}
return 0;
}

111
nubus-to-ztex-gateware/DeclROM/NuBusFPGASDCardDrvr_Prime.c Normal file
View File

@ -0,0 +1,111 @@
#include "NuBusFPGASDCardDrvr.h"
/* #include <DriverServices.h> */
inline void waitSome(unsigned long bound) {
unsigned long i;
for (i = 0 ; i < bound ; i++) {
asm volatile("nop");
}
}
__attribute__ ((section (".text.sddriver"))) static OSErr doSync(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce, struct SDCardContext *ctx) {
OSErr ret = noErr;
unsigned char* superslot = (unsigned char*)(((unsigned long)ctx->slot) << 28ul);
unsigned long abs_offset = 0;
/* IOParamPtr: Devices 1-53 (p73) */
/* **** WHERE **** */
switch(pb->ioPosMode & 0x000F) { // ignore rdVerify
case fsAtMark:
abs_offset = dce->dCtlPosition;
break;
case fsFromStart:
abs_offset = pb->ioPosOffset;
break;
case fsFromMark:
abs_offset = dce->dCtlPosition + pb->ioPosOffset;
break;
default:
break;
}
/* **** WHAT **** */
/* Devices 1-33 (p53) */
if ((pb->ioTrap & 0x00FF) == aRdCmd) {
if(!(pb->ioPosMode & 0x40)) { // rdVerify, let's ignore it for now
if (abs_offset & 0x01FF) {
ret = paramErr;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x804) = abs_offset;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x808) = pb->ioReqCount;
goto done;
}
if (pb->ioReqCount & 0x01FF) {
ret = paramErr;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x804) = abs_offset;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x808) = pb->ioReqCount;
goto done;
}
if (sdcard_read(dce->dCtlDevBase, ctx, abs_offset >> 9, pb->ioReqCount >> 9, pb->ioBuffer)) {
ret = readErr;
goto done;
}
}
pb->ioActCount = pb->ioReqCount;
dce->dCtlPosition = abs_offset + pb->ioReqCount;
pb->ioPosOffset = dce->dCtlPosition;
} else if ((pb->ioTrap & 0x00FF) == aWrCmd) {
if (abs_offset & 0x01FF) {
ret = paramErr;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x804) = abs_offset;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x808) = pb->ioReqCount;
goto done;
}
if (pb->ioReqCount & 0x01FF) {
ret = paramErr;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x804) = abs_offset;
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x808) = pb->ioReqCount;
goto done;
}
if (sdcard_write(dce->dCtlDevBase, ctx, abs_offset >> 9, pb->ioReqCount >> 9, pb->ioBuffer)) {
ret = writErr;
goto done;
}
pb->ioActCount = pb->ioReqCount;
dce->dCtlPosition = abs_offset + pb->ioReqCount;
pb->ioPosOffset = dce->dCtlPosition;
} else {
ret = paramErr;
goto done;
}
done:
if (ret != noErr)
*(uint32_t*)(dce->dCtlDevBase | 0x00902000 | 0x800) = ret | (((pb->ioTrap & 0x00FF) == aRdCmd) ? 0x11000000 : 0x22000000);
return ret;
}
/* Devices 1-34 (p54) */
#pragma parameter __D0 cNuBusFPGASDCardPrime(__A0, __A1)
OSErr cNuBusFPGASDCardPrime(IOParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce) {
OSErr ret = noErr;
struct SDCardContext *ctx;
unsigned long abs_offset = 0;
ctx = *(struct SDCardContext**)dce->dCtlStorage;
if (ctx) {
ret = doSync(pb, dce, ctx);
if (!(pb->ioTrap & (1<<noQueueBit))) {
IODone((DCtlPtr)dce, ret);
}
goto done;
} else {
ret = offLinErr; /* r/w requested for an off-line drive */
if (!(pb->ioTrap & (1<<noQueueBit)))
IODone((DCtlPtr)dce, ret);
goto done;
}
done:
return ret;
}

30
nubus-to-ztex-gateware/DeclROM/NuBusFPGASDCardDrvr_Status.c Normal file
View File

@ -0,0 +1,30 @@
#include "NuBusFPGASDCardDrvr.h"
#pragma parameter __D0 cNuBusFPGASDCardStatus(__A0, __A1)
OSErr cNuBusFPGASDCardStatus(CntrlParamPtr pb, /* DCtlPtr */ AuxDCEPtr dce)
{
OSErr ret = noErr;
struct SDCardContext *ctx;
/* write_reg(dce, GOBOFB_DEBUG, 0xDEAD0004); */
/* write_reg(dce, GOBOFB_DEBUG, pb->csCode); */
ctx = *(struct SDCardContext**)dce->dCtlStorage;
if (ctx) {
switch (pb->csCode)
{
default:
ret = statusErr;
break;
}
} else {
ret = offLinErr; /* r/w requested for an off-line drive */
goto done;
}
done:
if (!(pb->ioTrap & (1<<noQueueBit)))
IODone((DCtlPtr)dce, ret);
return ret;
}

3
nubus-to-ztex-gateware/DeclROM/gen_mode.c
View File

@ -269,7 +269,8 @@ int main(int argc, char **argv) {
fprintf(fd, "\tOSLstEntry\tsRsrc_GoboFB_R%hux%hu,_sRsrc_GoboFB_R%hux%hu/* video sRsrc List */\n", hres, vres, hres, vres);
}
}
fprintf(fd, "\tOSLstEntry\tsRsrc_RAMDsk,_sRsrc_RAMDsk\n");
//fprintf(fd, "\tOSLstEntry\tsRsrc_RAMDsk,_sRsrc_RAMDsk\n");
fprintf(fd, "\tOSLstEntry\tsRsrc_SDCard,_sRsrc_SDCard\n");
fprintf(fd, "\tOSLstEntry\tsRsrc_HDMIAudio,_sRsrc_HDMIAudio\n");
fprintf(fd, "\tDatLstEntry endOfList, 0\n");

6
nubus-to-ztex-gateware/DeclROM/linker.ld
View File

@ -33,6 +33,12 @@ SECTIONS {
*(.text.dskdriver_init)
*(.text.dskdriver)
PROVIDE(_RAMDskEnd020Drvr = .);
PROVIDE(_SDCardDrvrMacOS68020 = .);
PROVIDE(entry_SDCardDrvrMacOS68020 = (0x02000000 | ((_SDCardDrvrMacOS68020 - _SDCardDrvrDir) & 0xFFFFFF)));
*(.text.sddriver_init)
*(.text.sddriver)
PROVIDE(_SDCardEnd020Drvr = .);
/* and at the end the ROM block, missing only the CRC */
. = ALIGN(4);

40
nubus-to-ztex-gateware/DeclROM/nubusfpga_csr_common.h
View File

@ -3,6 +3,8 @@
/* from hw/common.h, +a32 */
#define CONFIG_CSR_DATA_WIDTH 32
/* CSR data width (subreg. width) in bytes, for direct comparson to sizeof() */
#define CSR_DW_BYTES (CONFIG_CSR_DATA_WIDTH/8)
#define CSR_OFFSET_BYTES 4
@ -20,13 +22,13 @@
* | 4 | 1 1 1 1 2 2 2 2 |
* | 8 | 1 1 1 1 1 1 1 1 |
* +-----+-----------------+ */
__attribute__ ((section (".text.primary"))) static inline int num_subregs(int csr_bytes)
static inline int num_subregs(int csr_bytes)
{
return (csr_bytes - 1) / CSR_DW_BYTES + 1;
}
/* Read a CSR of size 'csr_bytes' located at address 'a'. */
__attribute__ ((section (".text.primary"))) static inline uint64_t _csr_rd(uint32_t a32, unsigned long a, int csr_bytes)
static inline uint64_t _csr_rd(uint32_t a32, unsigned long a, int csr_bytes)
{
uint64_t r = __builtin_bswap32(*((uint32_t*)(a32 + a)));
for (int i = 1; i < num_subregs(csr_bytes); i++) {
@ -38,7 +40,7 @@ __attribute__ ((section (".text.primary"))) static inline uint64_t _csr_rd(uint3
}
/* Write value 'v' to a CSR of size 'csr_bytes' located at address 'a'. */
__attribute__ ((section (".text.primary"))) static inline void _csr_wr(uint32_t a32, unsigned long a, uint64_t v, int csr_bytes)
static inline void _csr_wr(uint32_t a32, unsigned long a, uint64_t v, int csr_bytes)
{
int ns = num_subregs(csr_bytes);
for (int i = 0; i < ns; i++) {
@ -49,42 +51,42 @@ __attribute__ ((section (".text.primary"))) static inline void _csr_wr(uint32_t
// FIXME: - should we provide 24, 40, 48, and 56 bit csr_[rd|wr] methods?
__attribute__ ((section (".text.primary"))) static inline uint8_t csr_rd_uint8(uint32_t a32, unsigned long a)
static inline uint8_t csr_rd_uint8(uint32_t a32, unsigned long a)
{
return _csr_rd(a32, a, sizeof(uint8_t));
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_uint8(uint32_t a32, uint8_t v, unsigned long a)
static inline void csr_wr_uint8(uint32_t a32, uint8_t v, unsigned long a)
{
_csr_wr(a32, a, v, sizeof(uint8_t));
}
__attribute__ ((section (".text.primary"))) static inline uint16_t csr_rd_uint16(uint32_t a32, unsigned long a)
static inline uint16_t csr_rd_uint16(uint32_t a32, unsigned long a)
{
return _csr_rd(a32, a, sizeof(uint16_t));
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_uint16(uint32_t a32, uint16_t v, unsigned long a)
static inline void csr_wr_uint16(uint32_t a32, uint16_t v, unsigned long a)
{
_csr_wr(a32, a, v, sizeof(uint16_t));
}
__attribute__ ((section (".text.primary"))) static inline uint32_t csr_rd_uint32(uint32_t a32, unsigned long a)
static inline uint32_t csr_rd_uint32(uint32_t a32, unsigned long a)
{
return _csr_rd(a32, a, sizeof(uint32_t));
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_uint32(uint32_t a32, uint32_t v, unsigned long a)
static inline void csr_wr_uint32(uint32_t a32, uint32_t v, unsigned long a)
{
_csr_wr(a32, a, v, sizeof(uint32_t));
}
__attribute__ ((section (".text.primary"))) static inline uint64_t csr_rd_uint64(uint32_t a32, unsigned long a)
static inline uint64_t csr_rd_uint64(uint32_t a32, unsigned long a)
{
return _csr_rd(a32, a, sizeof(uint64_t));
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_uint64(uint32_t a32, uint64_t v, unsigned long a)
static inline void csr_wr_uint64(uint32_t a32, uint64_t v, unsigned long a)
{
_csr_wr(a32, a, v, sizeof(uint64_t));
}
@ -159,34 +161,34 @@ __attribute__ ((section (".text.primary"))) static inline void csr_wr_uint64(uin
} \
}
__attribute__ ((section (".text.primary"))) static inline void csr_rd_buf_uint8(uint32_t a32, unsigned long a, uint8_t *buf, int cnt)
static inline void csr_rd_buf_uint8(uint32_t a32, unsigned long a, uint8_t *buf, int cnt)
{
_csr_rd_buf(a32, a, buf, cnt);
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_buf_uint8(uint32_t a32, unsigned long a,
static inline void csr_wr_buf_uint8(uint32_t a32, unsigned long a,
const uint8_t *buf, int cnt)
{
_csr_wr_buf(a32, a, buf, cnt);
}
__attribute__ ((section (".text.primary"))) static inline void csr_rd_buf_uint16(uint32_t a32, unsigned long a, uint16_t *buf, int cnt)
static inline void csr_rd_buf_uint16(uint32_t a32, unsigned long a, uint16_t *buf, int cnt)
{
_csr_rd_buf(a32, a, buf, cnt);
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_buf_uint16(uint32_t a32, unsigned long a,
static inline void csr_wr_buf_uint16(uint32_t a32, unsigned long a,
const uint16_t *buf, int cnt)
{
_csr_wr_buf(a32, a, buf, cnt);
}
__attribute__ ((section (".text.primary"))) static inline void csr_rd_buf_uint32(uint32_t a32, unsigned long a, uint32_t *buf, int cnt)
static inline void csr_rd_buf_uint32(uint32_t a32, unsigned long a, uint32_t *buf, int cnt)
{
_csr_rd_buf(a32, a, buf, cnt);
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_buf_uint32(uint32_t a32, unsigned long a,
static inline void csr_wr_buf_uint32(uint32_t a32, unsigned long a,
const uint32_t *buf, int cnt)
{
_csr_wr_buf(a32, a, buf, cnt);
@ -196,12 +198,12 @@ __attribute__ ((section (".text.primary"))) static inline void csr_wr_buf_uint32
* about a >= 64bit left shift! */
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wshift-count-overflow"
__attribute__ ((section (".text.primary"))) static inline void csr_rd_buf_uint64(uint32_t a32, unsigned long a, uint64_t *buf, int cnt)
static inline void csr_rd_buf_uint64(uint32_t a32, unsigned long a, uint64_t *buf, int cnt)
{
_csr_rd_buf(a32, a, buf, cnt);
}
__attribute__ ((section (".text.primary"))) static inline void csr_wr_buf_uint64(uint32_t a32, unsigned long a,
static inline void csr_wr_buf_uint64(uint32_t a32, unsigned long a,
const uint64_t *buf, int cnt)
{
_csr_wr_buf(a32, a, buf, cnt);

40
nubus-to-ztex-gateware/DeclROM/vid_decl_rom.s
View File

@ -9,6 +9,7 @@
sRsrc_Board = 1 /* board sResource (>0 & <128) */
.include "VidRomDef.s"
sRsrc_RAMDsk = 0x90 /* functional sResources */
sRsrc_SDCard = 0x91 /* functional sResources */
sRsrc_HDMIAudio = 0xA0 /* functional sResources */
.global DeclROMDir
@ -122,7 +123,7 @@ _GoboFBDrvrDir:
.section .text.begin
.include "VidRomRes.s"
/* ////////////////////////////////////////////// RAM DISK */
.section .text.begin
ALIGN 2
_sRsrc_RAMDsk:
@ -158,7 +159,44 @@ _RAMDskDrvrDir:
.include "NuBusFPGARAMDskDrvr.s" /* driver code */
/* _RAMDskEnd020Drvr: */ /* supplied by linker script */
/* ////////////////////////////////////////////// SDCARD */
.section .text.begin
ALIGN 2
_sRsrc_SDCard:
OSLstEntry sRsrcType,_SDCardType /* video type descriptor */
OSLstEntry sRsrcName,_SDCardName /* offset to driver name string */
OSLstEntry sRsrcDrvrDir,_SDCardDrvrDir /* offset to driver directory */
DatLstEntry sRsrcFlags,6 /* force 32 bits mode & open */
DatLstEntry sRsrcHWDevId,2 /* hardware device ID */
.long EndOfList /* end of list */
ALIGN 2
_SDCardType:
.short catProto /* <Category> */
.short typeDrive /* custom */ /* <Type> */
.short drSwApple /* <DrvrSw> */
.short DrHwNuBusFPGASDCard /* <DrvrHw> */
_SDCardName:
.string "SDCard_NuBusFPGA" /* video driver name */
ALIGN 2
.section .text.begin
.global _SDCardDrvrDir
_SDCardDrvrDir:
/* OSLstEntry sMacOS68020,_SDCardDrvrMacOS68020 */ /* driver directory for Mac OS */
.long entry_SDCardDrvrMacOS68020
.long EndOfList
ALIGN 2
.section .text.sddriver_init
/* _SDCardDrvrMacOS68020: */ /* supplied by linker script */
.long _SDCardEnd020Drvr-. /* physical block size */
.include "NuBusFPGASDCardDrvr.s" /* driver code */
/* _SDCardEnd020Drvr: */ /* supplied by linker script */
/* ////////////////////////////////////////////// HDMI AUDIO */
.section .text.begin
ALIGN 2
_sRsrc_HDMIAudio: