game.c
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/*
* Main program for R4300 for a disk write program. Since this program is
* using host io protocol and host io protocol uses Int 1 and cart int, we
* have to do a certain tricky technique to share these interrupts between
* host io and 64 disk drive. The method I used here is "changing" the
* interrupt service routine of Int 1 and the message queue that the message
* from cartridge will be sent. See the source code of osLeoSwitch() for
* more information.
*/
#include "hostio.h"
#include "../ddwrite.h"
#define KMC 1
#define KMC_DRV 1 /* 1.. use libgultra_rom, 0.. use libgultra_d */
/*
* Stacks for the threads as well as message queues for synchronization
* This stack is ridiculously large, and could also be reclaimed once
* the main thread is started.
*/
u64 bootStack[STACKSIZE/sizeof(u64)];
static void idle(void *);
static void mainproc(void *);
static OSThread idleThread;
static u64 idleThreadStack[STACKSIZE/sizeof(u64)];
static OSThread mainThread;
static u64 mainThreadStack[5 * STACKSIZE/sizeof(u64)];
/*
* Message queues
*/
#define NUM_PI_MSGS 8
static OSMesg PiMessages[NUM_PI_MSGS];
static OSMesg dmaMessageBuf;
static OSMesgQueue PiMessageQ,dmaMessageQ;
static OSMesgQueue diskQ; /* post queue */
static OSMesg diskQBuf;
#define NUM_CMD_MSGS 8
static OSMesg cmdQBuf[8];
/*
* Prototypes
*/
static s32 error_handle(s32, u8);
static void getDiskInfo(ctrlblk *sdata);
static s32 getdata(void *addr, u32 nbytes);
static void formatHook(void);
static void infoHook(DDInfo *info);
/*
* Definition for error handling routine
*/
#define RETRY 0
#define FATAL 1
/*
* These variables are defined in each file to align 16bytes.
* These are for communication to Indy.
*/
#if KMC /* { */
#if KMC_DRV /* { */
#define osSyncPrintf kmc_drv_printf
void kmc_drv_printf(const char *p, ...){}
#endif /* } */
#undef BUFSIZE
#define BUFSIZE 0x100000
#define rdramBuf ((u64 *)0x80200000)
#define DISK_ERROR 0xffffffff
#define DISK_INSERT 0xfffffffe
#define DISK_FORMAT 0xfffffffd
unsigned lba_end;
int kmc_init_flg=0;
extern void ptstart(void);
volatile unsigned *ptwtmode= (unsigned *)0xbff08014;
volatile unsigned *ptstat= (unsigned *)0xbff08004;
volatile unsigned *ptport= (unsigned *)0xbff08000;
volatile unsigned *n64piok= (unsigned *)0xa4600010;
static void putPT(unsigned c)
{
while((*n64piok & 3)!=0) ;
while((*ptstat & 4)==0) ;
*ptport=c;
}
static unsigned getPT(void)
{
while((*n64piok & 3)!=0) ;
while((*ptstat & 2)==0) ;
return *ptport;
}
void romCopy(const char *src, const char *dest, const int len)
{
OSIoMesg dmaIoMesgBuf;
OSMesg dummyMesg;
/*
* Always invalidate cache before dma'ing data into the buffer.
* This is to prevent a flush of the cache in the future from
* potentially trashing some data that has just been dma'ed in.
* Since you don't care if old data makes it from cache out to
* memory, you can use the cheaper osInvalDCache() instead of one
* of the writeback commands
*/
osInvalDCache((void *)dest, (s32) len);
osPiStartDma(&dmaIoMesgBuf, OS_MESG_PRI_NORMAL, OS_READ,
(u32)src, (void *)dest, (u32)len, &dmaMessageQ);
(void) osRecvMesg(&dmaMessageQ, &dummyMesg, OS_MESG_BLOCK);
}
void kmc_dd_status(u8 status, u8 sense, int errno)
{
if(errno==1){
putPT(DISK_INSERT);
return;
}
if(errno==3){
putPT(DISK_FORMAT);
return;
}
putPT(DISK_ERROR);
putPT(status);
putPT(sense);
putPT(errno);
if(errno!=2){
for(;;);
}
}
unsigned kmc_type;
unsigned kmc_addr;
unsigned kmc_iplsize;
int leoid_flg;
#else /* }{ */
extern u64 rdramBuf[];
#endif /* } */
s32 OS_CMD=OS_WRITE;
extern ctrlblk data;
extern s32 transbyte;
void
boot(void)
{
osInitialize();
#if KMC_DRV /* { */
{
unsigned tmp;
tmp=*ptwtmode;
}
#endif /* } */
osCreateThread(&idleThread, 1, idle, (void *)0,
idleThreadStack+STACKSIZE/sizeof(u64), 10);
osStartThread(&idleThread);
/* never reached */
}
static void
idle(void *arg)
{
/*
* Create main thread
*/
osCreateThread(&mainThread, 3, mainproc, arg,
mainThreadStack+STACKSIZE/sizeof(u64), 10);
osStartThread(&mainThread);
/*
* Become the idle thread
*/
osSetThreadPri(0, 0);
for (;;);
}
/*
* This is the main routine of the app.
*/
static void
mainproc(void *arg)
{
LEOError error;
LEOCmd cmdBlock;
unsigned xfer_adr;
s32 curLBA;
u32 transLBA;
u32 needLBAs;
u32 bufferLBAs;
u32 remain;
u32 result;
DDCmd command;
osCreateMesgQueue(&diskQ, &diskQBuf, 1);
osCreatePiManager((OSPri)OS_PRIORITY_PIMGR, &PiMessageQ, PiMessages,
NUM_PI_MSGS);
error = LeoCreateLeoManager((OSPri)OS_PRIORITY_LEOMGR-1,
(OSPri)OS_PRIORITY_LEOMGR,
cmdQBuf, NUM_CMD_MSGS);
if (error == LEO_ERROR_DEVICE_COMMUNICATION_FAILURE)
{
#if KMC /* { */
putPT(DISK_ERROR);
#endif /* } */
osSyncPrintf("leowrite: Drive doesn't exist\n");
for(;;);
}
LeoResetClear();
while(1) /* main loop */
{
#if KMC /* { */
osCreateMesgQueue(&dmaMessageQ, &dmaMessageBuf, 1);
#if KMC_DRV /* { */
putPT(0);
#endif /* } */
cmd_loop:
#if KMC_DRV /* { */
leoid_flg=0;
data.cmdFlags=0;
data.type=getPT(); /* Disk type (not change -1) */
data.offset=getPT(); /* LBA */
data.filesize=getPT(); /* File size */
data.address=(void **)getPT(); /* Start address (not change 0) */
lba_end=getPT(); /* end of LBA */
OS_CMD=getPT();
if(OS_CMD & 2){
data.cmdFlags |= DO_FORMAT;
}
if(OS_CMD & 4){
data.cmdFlags |= SEND_ME_INFO;
goto kmc_send_info;
}
if(OS_CMD & 8){
data.cmdFlags |= SPECD_ID_FILE;
}
if(OS_CMD & 0x10){
leoid_flg=1;
}
OS_CMD= (OS_CMD & 1) ? OS_READ:OS_WRITE; /* 1.. OS_READ , 0.. OS_WRITE */
{
unsigned *dp;
unsigned loop_ct;
loop_ct=sizeof(LEODiskID)/sizeof(unsigned);
dp=(unsigned *)&data.diskID;
do{
*dp=getPT();
++dp;
--loop_ct;
}while(loop_ct) ;
}
if(data.offset==0xffffffff){
goto kmc_end;
}
#else /* }{ */
data.type=0xffffffff;
data.offset=6;
data.filesize=0x1000;
data.cmdFlags=0;
data.diskID.serialNumber.lineNumber=0x7367690000000000ll;
data.diskID.serialNumber.time.pad=0;
data.diskID.serialNumber.time.yearlo=0x96;
data.diskID.serialNumber.time.month=0x10;
data.diskID.serialNumber.time.day=0x23;
data.diskID.serialNumber.time.hour=0x16;
data.diskID.serialNumber.time.minute=0x41;
data.diskID.serialNumber.time.second=0x30;
#endif /* } */
if(kmc_init_flg) goto kmc_next;
kmc_send_info:
#else /* }{ */
/*
* Send 'Ready' to Indy
*/
osWriteHost(rdramBuf, 4);
/*
* First, we get the type, filesize and offset.
*/
osReadHost(&data, sizeof(ctrlblk));
#endif /* } */
if (data.cmdFlags & END_COMMAND)
{
/*
* End of leowrite. Stop the motor of the drive
*/
do
{
LeoSpdlMotor(&cmdBlock, SLEEP, &diskQ);
osRecvMesg(&diskQ, NULL, OS_MESG_BLOCK);
if ((GET_ERROR(cmdBlock) == 0) ||
(GET_ERROR(cmdBlock) == LEO_ERROR_MEDIUM_NOT_PRESENT))
break;
if (error_handle(GET_ERROR(cmdBlock), cmdBlock.header.status) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
#if !KMC /* { */
/*
* Send back the end command
*/
osWriteHost(&data, sizeof(ctrlblk));
#endif /* } */
/* Wait host to kill me */
for(;;);
}
if (data.cmdFlags & SEND_ME_INFO)
{
getDiskInfo(&data);
if ( !(data.cmdFlags & SYS_UNFORMATTED) ) /* if sys is unformatted, might hang */
{
/*
* Stop the motor of the drive
*/
do
{
LeoSpdlMotor(&cmdBlock, SLEEP, &diskQ);
osRecvMesg(&diskQ, NULL, OS_MESG_BLOCK);
if ((GET_ERROR(cmdBlock) == 0) ||
(GET_ERROR(cmdBlock) == LEO_ERROR_MEDIUM_NOT_PRESENT))
break;
if (error_handle(GET_ERROR(cmdBlock), cmdBlock.header.status) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
}
#if KMC /* { */
putPT(data.type);
putPT((unsigned)data.address);
putPT(data.offset);
{
unsigned *dp;
unsigned loop_ct;
loop_ct=sizeof(LEODiskID)/sizeof(unsigned);
dp=(unsigned *)&data.diskID;
do{
putPT(*dp);
++dp;
--loop_ct;
}while(loop_ct) ;
}
#else /* }{ */
osWriteHost(&data, sizeof(ctrlblk));
#endif /* } */
continue;
} /* if (SEND_ME_INFO) */
/*
* If the system area has never been written, format the disk.
* Otherwise, change the area according as the specified parameters.
*/
#if KMC /* { */
if(OS_CMD!=OS_WRITE){
unsigned offset_bak,filesize_bak;
offset_bak=data.offset;
filesize_bak=data.filesize;
getDiskInfo(&data);
data.offset=offset_bak;
data.filesize=filesize_bak;
kmc_init_flg=1;
goto kmc_next;
}
#endif /* } */
if(OS_CMD == OS_WRITE)
{
/*
* まずはフォーマット
*/
command.startLBA = (u32)data.offset;
command.diskType = data.type;
command.loadAddr = data.address;
command.flags = 0;
#ifdef ID_NOT_CHANGE
/* idAddr を 0 にすると、ID を変更しない */
command.idAddr = 0;
#else
command.idAddr = &data.diskID;
if (! (data.cmdFlags & SPECD_ID_FILE) )
{
/* ID が指定されていないときは、シリアル番号のみ上書きする */
command.flags |= DDWRITE_FLG_IDSERIAL;
}
#endif
if (data.offset == 0)
command.iplSize = (u32)((data.filesize + 19719) / 19720);
else
command.iplSize = 0;
command.writeBuf = (void *)rdramBuf;
command.writeSize = BUFSIZE;
command.getdata = getdata;
command.totalSize = 0; /* フォーマットだけしたいので、サイズは0 */
if (data.cmdFlags & DO_FORMAT)
command.flags |= DDWRITE_FLG_FORMAT;
command.formatHook = formatHook;
command.infoHook = infoHook;
/*
* フォーマットする
*/
do{
error = (LEOError)ddWrite(&command);
if (error == 0)
break;
if (error_handle(error, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
}
else
{
/*
* ID を読まないと、エラー47 が起き続けてしまう
*/
do{
LEODiskID dummyDiskID;
LeoReadDiskID(&cmdBlock, &dummyDiskID, &diskQ);
osRecvMesg(&diskQ, NULL, OS_MESG_BLOCK);
if(GET_ERROR(cmdBlock) == 0)
break;
if (error_handle(GET_ERROR(cmdBlock), cmdBlock.header.status) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
}
#if KMC /* { */
kmc_init_flg=1;
kmc_next:
if(leoid_flg){
putPT(0);
goto cmd_loop;
}
#endif /* } */
curLBA = data.offset;
#if KMC /* { */
if(data.filesize!=0){
do{
result = LeoByteToLBA(curLBA, data.filesize, (s32 *)&needLBAs);
if (result == 0) break;
if (error_handle(3, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
if(lba_end!=0){
if(lba_end<(data.offset+needLBAs-1)){
data.filesize=0;
}
}
}
if(data.filesize==0){
do{
result = LeoLBAToByte(curLBA,needLBAs=lba_end - curLBA + 1, (s32 *)&data.filesize);
if(result == 0) break;
if (error_handle(3, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
}
#endif /* } */
/*
* If the filesize is larger than the size of the remained area,
* we quit the operation here.
*/
do{
result = LeoLBAToByte(curLBA, NUM_LBAS - curLBA, (s32 *)&remain);
if(result == 0)
break;
if (error_handle(3, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
if (remain < data.filesize)
{
#if KMC /* { */
kmc_dd_status(cmdBlock.header.status, cmdBlock.header.sense, 2);
putPT(remain);
putPT(data.filesize);
#else /* }{ */
osSyncPrintf("file is too large: remaining disk space %d, filesize %d\n",
remain, data.filesize);
transbyte = -1;
osWriteHost(&transbyte, sizeof(transbyte));
#endif /* } */
/* Wait host to kill me */
for(;;);
}
/*
* Calculate how many lbas are needed to write the file.
*/
do{
result = LeoByteToLBA(curLBA, data.filesize, (s32 *)&needLBAs);
if (result == 0)
break;
if (error_handle(3, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
osSyncPrintf("Use from LBA%d to %u", curLBA,
curLBA + needLBAs - 1);
osSyncPrintf("(%d LBA(s))\n", needLBAs);
/*
* Main loop
*/
#if KMC /* { */
putPT(kmc_type);
putPT(kmc_iplsize);
putPT(kmc_addr);
putPT(remain);
putPT(needLBAs);
#endif /* } */
if (OS_CMD == OS_WRITE)
{
/*
* ライトの準備
*/
command.startLBA = (u32)curLBA;
command.diskType = -1;
command.loadAddr = 0;
command.idAddr = 0; /* ID は一回目で書いている */
command.flags = 0;
command.iplSize = 0;
command.writeBuf = (void *)rdramBuf;
command.writeSize = BUFSIZE;
command.getdata = getdata;
command.totalSize = data.filesize;
command.formatHook = (void (*)(void))0; /* フォーマットされることはない */
command.infoHook = (void (*)(DDInfo *))0;
/*
* ライトする
*/
do{
error = (LEOError)ddWrite(&command);
if (error == 0)
break;
if (error_handle(error, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
putPT(0);
goto cmd_loop;
}
while(data.filesize > 0)
{
/*
* Calculate how many lbas can be stored in the RDRAM buffer.
*/
if (BUFSIZE > remain)
bufferLBAs = NUM_LBAS - curLBA;
else
{
do{
result = LeoByteToLBA(curLBA, BUFSIZE, (s32 *)&bufferLBAs);
if(result == 0)
break;
if (error_handle(3, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
/*
* Since BUFSIZE is smaller than the size of bufferLBAs,
* decrement bufferLBAs.
* XXX we might miss one loop (when BUFSIZE = bufferLBAs)
*/
bufferLBAs --;
}
/*
* Calculate how many lbas and bytes should be transferred this
* time.
*/
transLBA = Min(needLBAs, bufferLBAs);
do{
result = LeoLBAToByte(curLBA, transLBA, (s32 *)&transbyte);
if(result == 0)
break;
if (error_handle(3, 2) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
/*
* Ask host to transfer <transbyte> bytes
*/
#if KMC /* { */
putPT(transbyte);
#endif /* } */
/*
* Write <transLBA> blocks to disk
*/
do{
LeoReadWrite(&cmdBlock, OS_CMD,
(u32)curLBA, (void *)rdramBuf, (u32)transLBA, &diskQ);
osRecvMesg(&diskQ, NULL, OS_MESG_BLOCK);
if(GET_ERROR(cmdBlock) == 0)
break;
if (error_handle(GET_ERROR(cmdBlock), cmdBlock.header.status)== FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
curLBA += transLBA;
needLBAs -= transLBA;
data.filesize -= transbyte;
remain -= transbyte;
#if KMC /* { */
if(OS_CMD==OS_READ){
unsigned size;
unsigned *s;
putPT(1);
osWritebackDCacheAll();
size=transbyte;
s=(unsigned *)rdramBuf;
while(size!=0){
putPT(*(s++));
size -= 4;
}
}
#endif /* } */
} /* while */
#if KMC /* { */
putPT(0);
goto cmd_loop;
kmc_end:
#endif /* } */
/*
* Send end mark to host
*/
#if KMC /* { */
putPT(0);
#else /* }{ */
transbyte = -1;
osWriteHost(&transbyte, sizeof(transbyte));
#endif /* } */
} /* while */
} /* mainproc() */
/*
* Error handling routine. In this version, I don't check the ID blocks.
* XXX need to fix
*/
s32 error_handle(s32 result, u8 status)
{
LEOStatus test;
s32 res;
/*
* If the error is not one of these two, consider it as fatal.
*/
if (!( (result == LEO_ERROR_MEDIUM_NOT_PRESENT) ||
(result == LEO_ERROR_MEDIUM_MAY_HAVE_CHANGED ) )){
#if KMC /* { */
kmc_dd_status(status, (u8)result, 0);
#endif /* } */
return FATAL;
}
/*
* Since this version doesn't check the ID, I don't care if the disk
* might have been changed.
*/
if (result == LEO_ERROR_MEDIUM_MAY_HAVE_CHANGED)
return RETRY;
#if KMC /* { */
kmc_dd_status(status, (u8)result, 1);
#endif /* } */
osSyncPrintf("Insert a disk\n");
/*
* Wait for the users to insert the disk.
* (test_unit_ready command doesn't check the system area).
*/
do
{
res = LeoTestUnitReady(&test);
if ( !( (res == LEO_ERROR_MEDIUM_NOT_PRESENT) ||
(res == LEO_ERROR_MEDIUM_MAY_HAVE_CHANGED) ) )
{
#if KMC /* { */
kmc_dd_status(status, (u8)result, 0);
#endif /* } */
osSyncPrintf("error = 0x%x\n", res);
return FATAL;
}
} while( res != LEO_ERROR_MEDIUM_MAY_HAVE_CHANGED );
return RETRY;
} /* error_handle() */
#define FORMATTED 0
#define UNFORMATTED 1
void getDiskInfo(ctrlblk *sdata)
{
LEOCmd cmdBlock;
LEOError error = 0;
DDInfo info;
s32 result;
result = ddGetInfo(&info);
if (result == LEO_ERROR_UNRECOVERED_READ_ERROR)
{
sdata->cmdFlags |= SYS_UNFORMATTED;
return;
}
sdata->offset = (s32)info.iplSize;
sdata->type = info.diskType;
sdata->address = info.loadAddr;
#if KMC /* { */
kmc_type = sdata->type;
kmc_addr = (unsigned)sdata->address;
kmc_iplsize = sdata->offset;
#endif /* } */
do{
LeoReadDiskID(&cmdBlock, &sdata->diskID, &diskQ);
osRecvMesg(&diskQ, (OSMesg)&error, OS_MESG_BLOCK);
if(error == 0)
return;
else if(error == LEO_ERROR_UNRECOVERED_READ_ERROR)
{
sdata->cmdFlags |= ID_UNFORMATTED;
return;
}
else if (error_handle(GET_ERROR(cmdBlock), cmdBlock.header.status) == FATAL)
{
osSyncPrintf("Fatal error\n");
for(;;);
}
} while(1);
return;
} /* getDiskInfo */
/*
* getdata 関数。関数のポインタを ddwrite に渡す。
*/
static s32 getdata(void *addr, u32 nbytes)
{
unsigned xfer_adr;
#if KMC /* { */
putPT(nbytes);
xfer_adr=getPT();
#if 0 /* { CPU */
{
unsigned size;
unsigned *s,*d;
size=nbytes;
s=(unsigned *)xfer_adr;
d=(unsigned *)addr;
while(size!=0){
*(d++)=*(s++);
size -= 4;
}
}
#else /* }{ DMA */
romCopy((char *)(xfer_adr-0xb0000000),(char *)addr, nbytes);
#endif /* } */
osWritebackDCacheAll();
putPT(1);
#else /* }{ */
osWriteHost((void *)&nbytes, sizeof(nbytes));
osReadHost(addr, nbytes);
#endif /* } */
return 0;
}
static void formatHook(void)
{
/*
* ディスクがフォーマットされるときに、フックされる
*/
kmc_dd_status(0, 0, 3);
return;
}
static void infoHook(DDInfo *info)
{
/*
* ディスクの情報を、システム情報ライト後にフックして知らせる
*/
kmc_type = info->diskType;
kmc_addr = (u32)info->loadAddr;
kmc_iplsize = info->iplSize;
return;
}