serial: ns16550: fix debug uart putc called before init
[platform/kernel/u-boot.git] / cmd / fdc.c
1 // SPDX-License-Identifier: GPL-2.0+
2 /*
3  * (C) Copyright 2001
4  * Denis Peter, MPL AG, d.peter@mpl.ch.
5  */
6 /*
7  * Floppy Disk support
8  */
9
10 #include <common.h>
11 #include <config.h>
12 #include <command.h>
13 #include <image.h>
14
15
16 #undef  FDC_DEBUG
17
18 #ifdef  FDC_DEBUG
19 #define PRINTF(fmt,args...)     printf (fmt ,##args)
20 #else
21 #define PRINTF(fmt,args...)
22 #endif
23
24 /*#if defined(CONFIG_CMD_DATE) */
25 /*#include <rtc.h> */
26 /*#endif */
27
28 typedef struct {
29         int             flags;          /* connected drives ect */
30         unsigned long   blnr;           /* Logical block nr */
31         uchar           drive;          /* drive no */
32         uchar           cmdlen;         /* cmd length */
33         uchar           cmd[16];        /* cmd desc */
34         uchar           dma;            /* if > 0 dma enabled */
35         uchar           result[11];     /* status information */
36         uchar           resultlen;      /* lenght of result */
37 } FDC_COMMAND_STRUCT;
38
39 /* flags: only the lower 8bit used:
40  * bit 0 if set drive 0 is present
41  * bit 1 if set drive 1 is present
42  * bit 2 if set drive 2 is present
43  * bit 3 if set drive 3 is present
44  * bit 4 if set disk in drive 0 is inserted
45  * bit 5 if set disk in drive 1 is inserted
46  * bit 6 if set disk in drive 2 is inserted
47  * bit 7 if set disk in drive 4 is inserted
48  */
49
50 /* cmd indexes */
51 #define COMMAND                 0
52 #define DRIVE                   1
53 #define CONFIG0                 1
54 #define SPEC_HUTSRT             1
55 #define TRACK                   2
56 #define CONFIG1                 2
57 #define SPEC_HLT                2
58 #define HEAD                    3
59 #define CONFIG2                 3
60 #define SECTOR                  4
61 #define SECTOR_SIZE             5
62 #define LAST_TRACK              6
63 #define GAP                     7
64 #define DTL                     8
65 /* result indexes */
66 #define STATUS_0                0
67 #define STATUS_PCN              1
68 #define STATUS_1                1
69 #define STATUS_2                2
70 #define STATUS_TRACK            3
71 #define STATUS_HEAD             4
72 #define STATUS_SECT             5
73 #define STATUS_SECT_SIZE        6
74
75
76 /* Register addresses */
77 #define FDC_BASE        0x3F0
78 #define FDC_SRA         FDC_BASE + 0    /* Status Register A */
79 #define FDC_SRB         FDC_BASE + 1    /* Status Register B */
80 #define FDC_DOR         FDC_BASE + 2    /* Digital Output Register */
81 #define FDC_TDR         FDC_BASE + 3    /* Tape Drive Register */
82 #define FDC_DSR         FDC_BASE + 4    /* Data rate Register */
83 #define FDC_MSR         FDC_BASE + 4    /* Main Status Register */
84 #define FDC_FIFO        FDC_BASE + 5    /* FIFO */
85 #define FDC_DIR         FDC_BASE + 6    /* Digital Input Register */
86 #define FDC_CCR         FDC_BASE + 7    /* Configuration Control */
87 /* Commands */
88 #define FDC_CMD_SENSE_INT       0x08
89 #define FDC_CMD_CONFIGURE       0x13
90 #define FDC_CMD_SPECIFY         0x03
91 #define FDC_CMD_RECALIBRATE     0x07
92 #define FDC_CMD_READ            0x06
93 #define FDC_CMD_READ_TRACK      0x02
94 #define FDC_CMD_READ_ID         0x0A
95 #define FDC_CMD_DUMP_REG        0x0E
96 #define FDC_CMD_SEEK            0x0F
97
98 #define FDC_CMD_SENSE_INT_LEN   0x01
99 #define FDC_CMD_CONFIGURE_LEN   0x04
100 #define FDC_CMD_SPECIFY_LEN     0x03
101 #define FDC_CMD_RECALIBRATE_LEN 0x02
102 #define FDC_CMD_READ_LEN        0x09
103 #define FDC_CMD_READ_TRACK_LEN  0x09
104 #define FDC_CMD_READ_ID_LEN     0x02
105 #define FDC_CMD_DUMP_REG_LEN    0x01
106 #define FDC_CMD_SEEK_LEN        0x03
107
108 #define FDC_FIFO_THR            0x0C
109 #define FDC_FIFO_DIS            0x00
110 #define FDC_IMPLIED_SEEK        0x01
111 #define FDC_POLL_DIS            0x00
112 #define FDC_PRE_TRK             0x00
113 #define FDC_CONFIGURE           FDC_FIFO_THR | (FDC_POLL_DIS<<4) | (FDC_FIFO_DIS<<5) | (FDC_IMPLIED_SEEK << 6)
114 #define FDC_MFM_MODE            0x01 /* MFM enable */
115 #define FDC_SKIP_MODE           0x00 /* skip enable */
116
117 #define FDC_TIME_OUT 100000 /* time out */
118 #define FDC_RW_RETRIES          3 /* read write retries */
119 #define FDC_CAL_RETRIES         3 /* calibration and seek retries */
120
121
122 /* Disk structure */
123 typedef struct  {
124         unsigned int size;      /* nr of sectors total */
125         unsigned int sect;      /* sectors per track */
126         unsigned int head;      /* nr of heads */
127         unsigned int track;     /* nr of tracks */
128         unsigned int stretch;   /* !=0 means double track steps */
129         unsigned char   gap;    /* gap1 size */
130         unsigned char   rate;   /* data rate. |= 0x40 for perpendicular */
131         unsigned char   spec1;  /* stepping rate, head unload time */
132         unsigned char   fmt_gap;/* gap2 size */
133         unsigned char hlt;      /* head load time */
134         unsigned char sect_code;/* Sector Size code */
135         const char      * name; /* used only for predefined formats */
136 } FD_GEO_STRUCT;
137
138
139 /* supported Floppy types (currently only one) */
140 const static FD_GEO_STRUCT floppy_type[2] = {
141         { 2880,18,2,80,0,0x1B,0x00,0xCF,0x6C,16,2,"H1440" },    /*  7 1.44MB 3.5"   */
142         {    0, 0,0, 0,0,0x00,0x00,0x00,0x00, 0,0,NULL    },    /*  end of table    */
143 };
144
145 static FDC_COMMAND_STRUCT cmd; /* global command struct */
146
147 /* If the boot drive number is undefined, we assume it's drive 0             */
148 #ifndef CONFIG_SYS_FDC_DRIVE_NUMBER
149 #define CONFIG_SYS_FDC_DRIVE_NUMBER 0
150 #endif
151
152 /* Hardware access */
153 #ifndef CONFIG_SYS_ISA_IO_STRIDE
154 #define CONFIG_SYS_ISA_IO_STRIDE 1
155 #endif
156
157 #ifndef CONFIG_SYS_ISA_IO_OFFSET
158 #define CONFIG_SYS_ISA_IO_OFFSET 0
159 #endif
160
161 /* Supporting Functions */
162 /* reads a Register of the FDC */
163 unsigned char read_fdc_reg(unsigned int addr)
164 {
165         volatile unsigned char *val =
166                 (volatile unsigned char *)(CONFIG_SYS_ISA_IO_BASE_ADDRESS +
167                                            (addr * CONFIG_SYS_ISA_IO_STRIDE) +
168                                            CONFIG_SYS_ISA_IO_OFFSET);
169
170         return val [0];
171 }
172
173 /* writes a Register of the FDC */
174 void write_fdc_reg(unsigned int addr, unsigned char val)
175 {
176         volatile unsigned char *tmp =
177                 (volatile unsigned char *)(CONFIG_SYS_ISA_IO_BASE_ADDRESS +
178                                            (addr * CONFIG_SYS_ISA_IO_STRIDE) +
179                                            CONFIG_SYS_ISA_IO_OFFSET);
180         tmp[0]=val;
181 }
182
183 /* waits for an interrupt (polling) */
184 int wait_for_fdc_int(void)
185 {
186         unsigned long timeout;
187         timeout = FDC_TIME_OUT;
188         while((read_fdc_reg(FDC_SRA)&0x80)==0) {
189                 timeout--;
190                 udelay(10);
191                 if(timeout==0) /* timeout occurred */
192                         return false;
193         }
194         return true;
195 }
196
197 /* reads a byte from the FIFO of the FDC and checks direction and RQM bit
198    of the MSR. returns -1 if timeout, or byte if ok */
199 int read_fdc_byte(void)
200 {
201         unsigned long timeout;
202         timeout = FDC_TIME_OUT;
203         while((read_fdc_reg(FDC_MSR)&0xC0)!=0xC0) {
204                 /* direction out and ready */
205                 udelay(10);
206                 timeout--;
207                 if(timeout==0) /* timeout occurred */
208                         return -1;
209         }
210         return read_fdc_reg(FDC_FIFO);
211 }
212
213 /* if the direction of the FIFO is wrong, this routine is used to
214    empty the FIFO. Should _not_ be used */
215 int fdc_need_more_output(void)
216 {
217         unsigned char c;
218         while((read_fdc_reg(FDC_MSR)&0xC0)==0xC0)       {
219                         c=(unsigned char)read_fdc_byte();
220                         printf("Error: more output: %x\n",c);
221         }
222         return true;
223 }
224
225
226 /* writes a byte to the FIFO of the FDC and checks direction and RQM bit
227    of the MSR */
228 int write_fdc_byte(unsigned char val)
229 {
230         unsigned long timeout;
231         timeout = FDC_TIME_OUT;
232         while((read_fdc_reg(FDC_MSR)&0xC0)!=0x80) {
233                 /* direction in and ready for byte */
234                 timeout--;
235                 udelay(10);
236                 fdc_need_more_output();
237                 if(timeout==0) /* timeout occurred */
238                         return false;
239         }
240         write_fdc_reg(FDC_FIFO,val);
241         return true;
242 }
243
244 /* sets up all FDC commands and issues it to the FDC. If
245    the command causes direct results (no Execution Phase)
246    the result is be read as well. */
247
248 int fdc_issue_cmd(FDC_COMMAND_STRUCT *pCMD,FD_GEO_STRUCT *pFG)
249 {
250         int i;
251         unsigned long head,track,sect,timeout;
252         track = pCMD->blnr / (pFG->sect * pFG->head); /* track nr */
253         sect =  pCMD->blnr % (pFG->sect * pFG->head); /* remaining blocks */
254         head = sect / pFG->sect; /* head nr */
255         sect =  sect % pFG->sect; /* remaining blocks */
256         sect++; /* sectors are 1 based */
257         PRINTF("Cmd 0x%02x Track %ld, Head %ld, Sector %ld, Drive %d (blnr %ld)\n",
258                 pCMD->cmd[0],track,head,sect,pCMD->drive,pCMD->blnr);
259
260         if(head|=0) { /* max heads = 2 */
261                 pCMD->cmd[DRIVE]=pCMD->drive | 0x04; /* head 1 */
262                 pCMD->cmd[HEAD]=(unsigned char) head; /* head register */
263         }
264         else {
265                 pCMD->cmd[DRIVE]=pCMD->drive; /* head 0 */
266                 pCMD->cmd[HEAD]=(unsigned char) head; /* head register */
267         }
268         pCMD->cmd[TRACK]=(unsigned char) track; /* track */
269         switch (pCMD->cmd[COMMAND]) {
270                 case FDC_CMD_READ:
271                         pCMD->cmd[SECTOR]=(unsigned char) sect; /* sector */
272                         pCMD->cmd[SECTOR_SIZE]=pFG->sect_code; /* sector size code */
273                         pCMD->cmd[LAST_TRACK]=pFG->sect; /* End of track */
274                         pCMD->cmd[GAP]=pFG->gap; /* gap */
275                         pCMD->cmd[DTL]=0xFF; /* DTL */
276                         pCMD->cmdlen=FDC_CMD_READ_LEN;
277                         pCMD->cmd[COMMAND]|=(FDC_MFM_MODE<<6); /* set MFM bit */
278                         pCMD->cmd[COMMAND]|=(FDC_SKIP_MODE<<5); /* set Skip bit */
279                         pCMD->resultlen=0;  /* result only after execution */
280                         break;
281                 case FDC_CMD_SEEK:
282                         pCMD->cmdlen=FDC_CMD_SEEK_LEN;
283                         pCMD->resultlen=0;  /* no result */
284                         break;
285                 case FDC_CMD_CONFIGURE:
286                         pCMD->cmd[CONFIG0]=0;
287                         pCMD->cmd[CONFIG1]=FDC_CONFIGURE; /* FIFO Threshold, Poll, Enable FIFO */
288                         pCMD->cmd[CONFIG2]=FDC_PRE_TRK; /* Precompensation Track */
289                         pCMD->cmdlen=FDC_CMD_CONFIGURE_LEN;
290                         pCMD->resultlen=0;  /* no result */
291                         break;
292                 case FDC_CMD_SPECIFY:
293                         pCMD->cmd[SPEC_HUTSRT]=pFG->spec1;
294                         pCMD->cmd[SPEC_HLT]=(pFG->hlt)<<1; /* head load time */
295                         if(pCMD->dma==0)
296                                 pCMD->cmd[SPEC_HLT]|=0x1; /* no dma */
297                         pCMD->cmdlen=FDC_CMD_SPECIFY_LEN;
298                         pCMD->resultlen=0;  /* no result */
299                         break;
300                 case FDC_CMD_DUMP_REG:
301                         pCMD->cmdlen=FDC_CMD_DUMP_REG_LEN;
302                         pCMD->resultlen=10;  /* 10 byte result */
303                         break;
304                 case FDC_CMD_READ_ID:
305                         pCMD->cmd[COMMAND]|=(FDC_MFM_MODE<<6); /* set MFM bit */
306                         pCMD->cmdlen=FDC_CMD_READ_ID_LEN;
307                         pCMD->resultlen=7;  /* 7 byte result */
308                         break;
309                 case FDC_CMD_RECALIBRATE:
310                         pCMD->cmd[DRIVE]&=0x03; /* don't set the head bit */
311                         pCMD->cmdlen=FDC_CMD_RECALIBRATE_LEN;
312                         pCMD->resultlen=0;  /* no result */
313                         break;
314                         break;
315                 case FDC_CMD_SENSE_INT:
316                         pCMD->cmdlen=FDC_CMD_SENSE_INT_LEN;
317                         pCMD->resultlen=2;
318                         break;
319         }
320         for(i=0;i<pCMD->cmdlen;i++) {
321                 /* PRINTF("write cmd%d = 0x%02X\n",i,pCMD->cmd[i]); */
322                 if (write_fdc_byte(pCMD->cmd[i]) == false) {
323                         PRINTF("Error: timeout while issue cmd%d\n",i);
324                         return false;
325                 }
326         }
327         timeout=FDC_TIME_OUT;
328         for(i=0;i<pCMD->resultlen;i++) {
329                 while((read_fdc_reg(FDC_MSR)&0xC0)!=0xC0) {
330                         timeout--;
331                         if(timeout==0) {
332                                 PRINTF(" timeout while reading result%d MSR=0x%02X\n",i,read_fdc_reg(FDC_MSR));
333                                 return false;
334                         }
335                 }
336                 pCMD->result[i]=(unsigned char)read_fdc_byte();
337         }
338         return true;
339 }
340
341 /* selects the drive assigned in the cmd structur and
342    switches on the Motor */
343 void select_fdc_drive(FDC_COMMAND_STRUCT *pCMD)
344 {
345         unsigned char val;
346
347         val=(1<<(4+pCMD->drive))|pCMD->drive|0xC; /* set reset, dma gate and motor bits */
348         if((read_fdc_reg(FDC_DOR)&val)!=val) {
349                 write_fdc_reg(FDC_DOR,val);
350                 for(val=0;val<255;val++)
351                         udelay(500); /* wait some time to start motor */
352         }
353 }
354
355 /* switches off the Motor of the specified drive */
356 void stop_fdc_drive(FDC_COMMAND_STRUCT *pCMD)
357 {
358         unsigned char val;
359
360         val=(1<<(4+pCMD->drive))|pCMD->drive; /* sets motor bits */
361         write_fdc_reg(FDC_DOR,(read_fdc_reg(FDC_DOR)&~val));
362 }
363
364 /* issues a recalibrate command, waits for interrupt and
365  * issues a sense_interrupt */
366 int fdc_recalibrate(FDC_COMMAND_STRUCT *pCMD,FD_GEO_STRUCT *pFG)
367 {
368         pCMD->cmd[COMMAND]=FDC_CMD_RECALIBRATE;
369         if (fdc_issue_cmd(pCMD, pFG) == false)
370                 return false;
371         while (wait_for_fdc_int() != true);
372
373         pCMD->cmd[COMMAND]=FDC_CMD_SENSE_INT;
374         return(fdc_issue_cmd(pCMD,pFG));
375 }
376
377 /* issues a recalibrate command, waits for interrupt and
378  * issues a sense_interrupt */
379 int fdc_seek(FDC_COMMAND_STRUCT *pCMD,FD_GEO_STRUCT *pFG)
380 {
381         pCMD->cmd[COMMAND]=FDC_CMD_SEEK;
382         if (fdc_issue_cmd(pCMD, pFG) == false)
383                 return false;
384         while (wait_for_fdc_int() != true);
385
386         pCMD->cmd[COMMAND]=FDC_CMD_SENSE_INT;
387         return(fdc_issue_cmd(pCMD,pFG));
388 }
389
390 /* terminates current command, by not servicing the FIFO
391  * waits for interrupt and fills in the result bytes */
392 int fdc_terminate(FDC_COMMAND_STRUCT *pCMD)
393 {
394         int i;
395         for(i=0;i<100;i++)
396                 udelay(500); /* wait 500usec for fifo overrun */
397         while((read_fdc_reg(FDC_SRA)&0x80)==0x00); /* wait as long as no int has occurred */
398         for(i=0;i<7;i++) {
399                 pCMD->result[i]=(unsigned char)read_fdc_byte();
400         }
401         return true;
402 }
403
404 /* reads data from FDC, seek commands are issued automatic */
405 int fdc_read_data(unsigned char *buffer, unsigned long blocks,FDC_COMMAND_STRUCT *pCMD, FD_GEO_STRUCT *pFG)
406 {
407   /* first seek to start address */
408         unsigned long len,readblk,i,timeout,ii,offset;
409         unsigned char c,retriesrw,retriescal;
410         unsigned char *bufferw; /* working buffer */
411         int sect_size;
412         int flags;
413
414         flags=disable_interrupts(); /* switch off all Interrupts */
415         select_fdc_drive(pCMD); /* switch on drive */
416         sect_size=0x080<<pFG->sect_code;
417         retriesrw=0;
418         retriescal=0;
419         offset=0;
420         if (fdc_seek(pCMD, pFG) == false) {
421                 stop_fdc_drive(pCMD);
422                 if (flags)
423                         enable_interrupts();
424                 return false;
425         }
426         if((pCMD->result[STATUS_0]&0x20)!=0x20) {
427                 printf("Seek error Status: %02X\n",pCMD->result[STATUS_0]);
428                 stop_fdc_drive(pCMD);
429                 if (flags)
430                         enable_interrupts();
431                 return false;
432         }
433         /* now determine the next seek point */
434         /*      lastblk=pCMD->blnr + blocks; */
435         /*      readblk=(pFG->head*pFG->sect)-(pCMD->blnr%(pFG->head*pFG->sect)); */
436         readblk=pFG->sect-(pCMD->blnr%pFG->sect);
437         PRINTF("1st nr of block possible read %ld start %ld\n",readblk,pCMD->blnr);
438         if(readblk>blocks) /* is end within 1st track */
439                 readblk=blocks; /* yes, correct it */
440         PRINTF("we read %ld blocks start %ld\n",readblk,pCMD->blnr);
441         bufferw = &buffer[0]; /* setup working buffer */
442         do {
443 retryrw:
444                 len=sect_size * readblk;
445                 pCMD->cmd[COMMAND]=FDC_CMD_READ;
446                 if (fdc_issue_cmd(pCMD, pFG) == false) {
447                         stop_fdc_drive(pCMD);
448                         if (flags)
449                                 enable_interrupts();
450                         return false;
451                 }
452                 for (i=0;i<len;i++) {
453                         timeout=FDC_TIME_OUT;
454                         do {
455                                 c=read_fdc_reg(FDC_MSR);
456                                 if((c&0xC0)==0xC0) {
457                                         bufferw[i]=read_fdc_reg(FDC_FIFO);
458                                         break;
459                                 }
460                                 if((c&0xC0)==0x80) { /* output */
461                                         PRINTF("Transfer error transferred: at %ld, MSR=%02X\n",i,c);
462                                         if(i>6) {
463                                                 for(ii=0;ii<7;ii++) {
464                                                         pCMD->result[ii]=bufferw[(i-7+ii)];
465                                                 } /* for */
466                                         }
467                                         if(retriesrw++>FDC_RW_RETRIES) {
468                                                 if (retriescal++>FDC_CAL_RETRIES) {
469                                                         stop_fdc_drive(pCMD);
470                                                         if (flags)
471                                                                 enable_interrupts();
472                                                         return false;
473                                                 }
474                                                 else {
475                                                         PRINTF(" trying to recalibrate Try %d\n",retriescal);
476                                                         if (fdc_recalibrate(pCMD, pFG) == false) {
477                                                                 stop_fdc_drive(pCMD);
478                                                                 if (flags)
479                                                                         enable_interrupts();
480                                                                 return false;
481                                                         }
482                                                         retriesrw=0;
483                                                         goto retrycal;
484                                                 } /* else >FDC_CAL_RETRIES */
485                                         }
486                                         else {
487                                                 PRINTF("Read retry %d\n",retriesrw);
488                                                 goto retryrw;
489                                         } /* else >FDC_RW_RETRIES */
490                                 }/* if output */
491                                 timeout--;
492                         } while (true);
493                 } /* for len */
494                 /* the last sector of a track or all data has been read,
495                  * we need to get the results */
496                 fdc_terminate(pCMD);
497                 offset+=(sect_size*readblk); /* set up buffer pointer */
498                 bufferw = &buffer[offset];
499                 pCMD->blnr+=readblk; /* update current block nr */
500                 blocks-=readblk; /* update blocks */
501                 if(blocks==0)
502                         break; /* we are finish */
503                 /* setup new read blocks */
504                 /*      readblk=pFG->head*pFG->sect; */
505                 readblk=pFG->sect;
506                 if(readblk>blocks)
507                         readblk=blocks;
508 retrycal:
509                 /* a seek is necessary */
510                 if (fdc_seek(pCMD, pFG) == false) {
511                         stop_fdc_drive(pCMD);
512                         if (flags)
513                                 enable_interrupts();
514                         return false;
515                 }
516                 if((pCMD->result[STATUS_0]&0x20)!=0x20) {
517                         PRINTF("Seek error Status: %02X\n",pCMD->result[STATUS_0]);
518                         stop_fdc_drive(pCMD);
519                         return false;
520                 }
521         } while (true); /* start over */
522         stop_fdc_drive(pCMD); /* switch off drive */
523         if (flags)
524                 enable_interrupts();
525         return true;
526 }
527
528 /* Scan all drives and check if drive is present and disk is inserted */
529 int fdc_check_drive(FDC_COMMAND_STRUCT *pCMD, FD_GEO_STRUCT *pFG)
530 {
531         int i,drives,state;
532   /* OK procedure of data book is satisfied.
533          * trying to get some information over the drives */
534         state=0; /* no drives, no disks */
535         for(drives=0;drives<4;drives++) {
536                 pCMD->drive=drives;
537                 select_fdc_drive(pCMD);
538                 pCMD->blnr=0; /* set to the 1st block */
539                 if (fdc_recalibrate(pCMD, pFG) == false)
540                         continue;
541                 if((pCMD->result[STATUS_0]&0x10)==0x10)
542                         continue;
543                 /* ok drive connected check for disk */
544                 state|=(1<<drives);
545                 pCMD->blnr=pFG->size; /* set to the last block */
546                 if (fdc_seek(pCMD, pFG) == false)
547                         continue;
548                 pCMD->blnr=0; /* set to the 1st block */
549                 if (fdc_recalibrate(pCMD, pFG) == false)
550                         continue;
551                 pCMD->cmd[COMMAND]=FDC_CMD_READ_ID;
552                 if (fdc_issue_cmd(pCMD, pFG) == false)
553                         continue;
554                 state|=(0x10<<drives);
555         }
556         stop_fdc_drive(pCMD);
557         for(i=0;i<4;i++) {
558                 PRINTF("Floppy Drive %d %sconnected %sDisk inserted %s\n",i,
559                         ((state&(1<<i))==(1<<i)) ? "":"not ",
560                         ((state&(0x10<<i))==(0x10<<i)) ? "":"no ",
561                         ((state&(0x10<<i))==(0x10<<i)) ? pFG->name : "");
562         }
563         pCMD->flags=state;
564         return true;
565 }
566
567
568 /**************************************************************************
569 * int fdc_setup
570 * setup the fdc according the datasheet
571 * assuming in PS2 Mode
572 */
573 int fdc_setup(int drive, FDC_COMMAND_STRUCT *pCMD, FD_GEO_STRUCT *pFG)
574 {
575         int i;
576
577 #ifdef CONFIG_SYS_FDC_HW_INIT
578         fdc_hw_init ();
579 #endif
580         /* first, we reset the FDC via the DOR */
581         write_fdc_reg(FDC_DOR,0x00);
582         for(i=0; i<255; i++) /* then we wait some time */
583                 udelay(500);
584         /* then, we clear the reset in the DOR */
585         pCMD->drive=drive;
586         select_fdc_drive(pCMD);
587         /* initialize the CCR */
588         write_fdc_reg(FDC_CCR,pFG->rate);
589         /* then initialize the DSR */
590         write_fdc_reg(FDC_DSR,pFG->rate);
591         if (wait_for_fdc_int() == false) {
592                         PRINTF("Time Out after writing CCR\n");
593                         return false;
594         }
595         /* now issue sense Interrupt and status command
596          * assuming only one drive present (drive 0) */
597         pCMD->dma=0; /* we don't use any dma at all */
598         for(i=0;i<4;i++) {
599                 /* issue sense interrupt for all 4 possible drives */
600                 pCMD->cmd[COMMAND]=FDC_CMD_SENSE_INT;
601                 if (fdc_issue_cmd(pCMD, pFG) == false) {
602                         PRINTF("Sense Interrupt for drive %d failed\n",i);
603                 }
604         }
605         /* issue the configure command */
606         pCMD->drive=drive;
607         select_fdc_drive(pCMD);
608         pCMD->cmd[COMMAND]=FDC_CMD_CONFIGURE;
609         if (fdc_issue_cmd(pCMD, pFG) == false) {
610                 PRINTF(" configure timeout\n");
611                 stop_fdc_drive(pCMD);
612                 return false;
613         }
614         /* issue specify command */
615         pCMD->cmd[COMMAND]=FDC_CMD_SPECIFY;
616         if (fdc_issue_cmd(pCMD, pFG) == false) {
617                 PRINTF(" specify timeout\n");
618                 stop_fdc_drive(pCMD);
619                 return false;
620
621         }
622         /* then, we clear the reset in the DOR */
623         /* fdc_check_drive(pCMD,pFG);   */
624         /*      write_fdc_reg(FDC_DOR,0x04); */
625
626         return true;
627 }
628
629 /****************************************************************************
630  * main routine do_fdcboot
631  */
632 int do_fdcboot (cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[])
633 {
634         FD_GEO_STRUCT *pFG = (FD_GEO_STRUCT *)floppy_type;
635         FDC_COMMAND_STRUCT *pCMD = &cmd;
636         unsigned long addr,imsize;
637 #if defined(CONFIG_IMAGE_FORMAT_LEGACY)
638         image_header_t *hdr;  /* used for fdc boot */
639 #endif
640         unsigned char boot_drive;
641         int i,nrofblk;
642 #if defined(CONFIG_FIT)
643         const void *fit_hdr = NULL;
644 #endif
645
646         switch (argc) {
647         case 1:
648                 addr = CONFIG_SYS_LOAD_ADDR;
649                 boot_drive=CONFIG_SYS_FDC_DRIVE_NUMBER;
650                 break;
651         case 2:
652                 addr = simple_strtoul(argv[1], NULL, 16);
653                 boot_drive=CONFIG_SYS_FDC_DRIVE_NUMBER;
654                 break;
655         case 3:
656                 addr = simple_strtoul(argv[1], NULL, 16);
657                 boot_drive=simple_strtoul(argv[2], NULL, 10);
658                 break;
659         default:
660                 return CMD_RET_USAGE;
661         }
662         /* setup FDC and scan for drives  */
663         if (fdc_setup(boot_drive, pCMD, pFG) == false) {
664                 printf("\n** Error in setup FDC **\n");
665                 return 1;
666         }
667         if (fdc_check_drive(pCMD, pFG) == false) {
668                 printf("\n** Error in check_drives **\n");
669                 return 1;
670         }
671         if((pCMD->flags&(1<<boot_drive))==0) {
672                 /* drive not available */
673                 printf("\n** Drive %d not availabe **\n",boot_drive);
674                 return 1;
675         }
676         if((pCMD->flags&(0x10<<boot_drive))==0) {
677                 /* no disk inserted */
678                 printf("\n** No disk inserted in drive %d **\n",boot_drive);
679                 return 1;
680         }
681         /* ok, we have a valid source */
682         pCMD->drive=boot_drive;
683         /* read first block */
684         pCMD->blnr=0;
685         if (fdc_read_data((unsigned char *)addr, 1, pCMD, pFG) == false) {
686                 printf("\nRead error:");
687                 for(i=0;i<7;i++)
688                         printf("result%d: 0x%02X\n",i,pCMD->result[i]);
689                 return 1;
690         }
691
692         switch (genimg_get_format ((void *)addr)) {
693 #if defined(CONFIG_IMAGE_FORMAT_LEGACY)
694         case IMAGE_FORMAT_LEGACY:
695                 hdr = (image_header_t *)addr;
696                 image_print_contents (hdr);
697
698                 imsize = image_get_image_size (hdr);
699                 break;
700 #endif
701 #if defined(CONFIG_FIT)
702         case IMAGE_FORMAT_FIT:
703                 fit_hdr = (const void *)addr;
704                 puts ("Fit image detected...\n");
705
706                 imsize = fit_get_size (fit_hdr);
707                 break;
708 #endif
709         default:
710                 puts ("** Unknown image type\n");
711                 return 1;
712         }
713
714         nrofblk=imsize/512;
715         if((imsize%512)>0)
716                 nrofblk++;
717         printf("Loading %ld Bytes (%d blocks) at 0x%08lx..\n",imsize,nrofblk,addr);
718         pCMD->blnr=0;
719         if (fdc_read_data((unsigned char *)addr, nrofblk, pCMD, pFG) == false) {
720                 /* read image block */
721                 printf("\nRead error:");
722                 for(i=0;i<7;i++)
723                         printf("result%d: 0x%02X\n",i,pCMD->result[i]);
724                 return 1;
725         }
726         printf("OK %ld Bytes loaded.\n",imsize);
727
728         flush_cache (addr, imsize);
729
730 #if defined(CONFIG_FIT)
731         /* This cannot be done earlier, we need complete FIT image in RAM first */
732         if (genimg_get_format ((void *)addr) == IMAGE_FORMAT_FIT) {
733                 if (!fit_check_format (fit_hdr)) {
734                         puts ("** Bad FIT image format\n");
735                         return 1;
736                 }
737                 fit_print_contents (fit_hdr);
738         }
739 #endif
740
741         /* Loading ok, update default load address */
742         load_addr = addr;
743
744         return bootm_maybe_autostart(cmdtp, argv[0]);
745 }
746
747 U_BOOT_CMD(
748         fdcboot,        3,      1,      do_fdcboot,
749         "boot from floppy device",
750         "loadAddr drive"
751 );