1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3  * altera.c
4  *
5  * altera FPGA driver
6  *
7  * Copyright (C) Altera Corporation 1998-2001
8  * Copyright (C) 2010,2011 NetUP Inc.
9  * Copyright (C) 2010,2011 Igor M. Liplianin <liplianin@netup.ru>
10  */
11 
12 #include <asm/unaligned.h>
13 #include <linux/ctype.h>
14 #include <linux/string.h>
15 #include <linux/firmware.h>
16 #include <linux/slab.h>
17 #include <linux/module.h>
18 #include <misc/altera.h>
19 #include "altera-exprt.h"
20 #include "altera-jtag.h"
21 
22 static int debug = 1;
23 module_param(debug, int, 0644);
24 MODULE_PARM_DESC(debug, "enable debugging information");
25 
26 MODULE_DESCRIPTION("altera FPGA kernel module");
27 MODULE_AUTHOR("Igor M. Liplianin  <liplianin@netup.ru>");
28 MODULE_LICENSE("GPL");
29 
30 #define dprintk(args...) \
31 	if (debug) { \
32 		printk(KERN_DEBUG args); \
33 	}
34 
35 enum altera_fpga_opcode {
36 	OP_NOP = 0,
37 	OP_DUP,
38 	OP_SWP,
39 	OP_ADD,
40 	OP_SUB,
41 	OP_MULT,
42 	OP_DIV,
43 	OP_MOD,
44 	OP_SHL,
45 	OP_SHR,
46 	OP_NOT,
47 	OP_AND,
48 	OP_OR,
49 	OP_XOR,
50 	OP_INV,
51 	OP_GT,
52 	OP_LT,
53 	OP_RET,
54 	OP_CMPS,
55 	OP_PINT,
56 	OP_PRNT,
57 	OP_DSS,
58 	OP_DSSC,
59 	OP_ISS,
60 	OP_ISSC,
61 	OP_DPR = 0x1c,
62 	OP_DPRL,
63 	OP_DPO,
64 	OP_DPOL,
65 	OP_IPR,
66 	OP_IPRL,
67 	OP_IPO,
68 	OP_IPOL,
69 	OP_PCHR,
70 	OP_EXIT,
71 	OP_EQU,
72 	OP_POPT,
73 	OP_ABS = 0x2c,
74 	OP_BCH0,
75 	OP_PSH0 = 0x2f,
76 	OP_PSHL = 0x40,
77 	OP_PSHV,
78 	OP_JMP,
79 	OP_CALL,
80 	OP_NEXT,
81 	OP_PSTR,
82 	OP_SINT = 0x47,
83 	OP_ST,
84 	OP_ISTP,
85 	OP_DSTP,
86 	OP_SWPN,
87 	OP_DUPN,
88 	OP_POPV,
89 	OP_POPE,
90 	OP_POPA,
91 	OP_JMPZ,
92 	OP_DS,
93 	OP_IS,
94 	OP_DPRA,
95 	OP_DPOA,
96 	OP_IPRA,
97 	OP_IPOA,
98 	OP_EXPT,
99 	OP_PSHE,
100 	OP_PSHA,
101 	OP_DYNA,
102 	OP_EXPV = 0x5c,
103 	OP_COPY = 0x80,
104 	OP_REVA,
105 	OP_DSC,
106 	OP_ISC,
107 	OP_WAIT,
108 	OP_VS,
109 	OP_CMPA = 0xc0,
110 	OP_VSC,
111 };
112 
113 struct altera_procinfo {
114 	char			*name;
115 	u8			attrs;
116 	struct altera_procinfo	*next;
117 };
118 
119 /* This function checks if enough parameters are available on the stack. */
120 static int altera_check_stack(int stack_ptr, int count, int *status)
121 {
122 	if (stack_ptr < count) {
123 		*status = -EOVERFLOW;
124 		return 0;
125 	}
126 
127 	return 1;
128 }
129 
130 static void altera_export_int(char *key, s32 value)
131 {
132 	dprintk("Export: key = \"%s\", value = %d\n", key, value);
133 }
134 
135 #define HEX_LINE_CHARS 72
136 #define HEX_LINE_BITS (HEX_LINE_CHARS * 4)
137 
138 static void altera_export_bool_array(char *key, u8 *data, s32 count)
139 {
140 	char string[HEX_LINE_CHARS + 1];
141 	s32 i, offset;
142 	u32 size, line, lines, linebits, value, j, k;
143 
144 	if (count > HEX_LINE_BITS) {
145 		dprintk("Export: key = \"%s\", %d bits, value = HEX\n",
146 							key, count);
147 		lines = (count + (HEX_LINE_BITS - 1)) / HEX_LINE_BITS;
148 
149 		for (line = 0; line < lines; ++line) {
150 			if (line < (lines - 1)) {
151 				linebits = HEX_LINE_BITS;
152 				size = HEX_LINE_CHARS;
153 				offset = count - ((line + 1) * HEX_LINE_BITS);
154 			} else {
155 				linebits =
156 					count - ((lines - 1) * HEX_LINE_BITS);
157 				size = (linebits + 3) / 4;
158 				offset = 0L;
159 			}
160 
161 			string[size] = '\0';
162 			j = size - 1;
163 			value = 0;
164 
165 			for (k = 0; k < linebits; ++k) {
166 				i = k + offset;
167 				if (data[i >> 3] & (1 << (i & 7)))
168 					value |= (1 << (i & 3));
169 				if ((i & 3) == 3) {
170 					sprintf(&string[j], "%1x", value);
171 					value = 0;
172 					--j;
173 				}
174 			}
175 			if ((k & 3) > 0)
176 				sprintf(&string[j], "%1x", value);
177 
178 			dprintk("%s\n", string);
179 		}
180 
181 	} else {
182 		size = (count + 3) / 4;
183 		string[size] = '\0';
184 		j = size - 1;
185 		value = 0;
186 
187 		for (i = 0; i < count; ++i) {
188 			if (data[i >> 3] & (1 << (i & 7)))
189 				value |= (1 << (i & 3));
190 			if ((i & 3) == 3) {
191 				sprintf(&string[j], "%1x", value);
192 				value = 0;
193 				--j;
194 			}
195 		}
196 		if ((i & 3) > 0)
197 			sprintf(&string[j], "%1x", value);
198 
199 		dprintk("Export: key = \"%s\", %d bits, value = HEX %s\n",
200 			key, count, string);
201 	}
202 }
203 
204 static int altera_execute(struct altera_state *astate,
205 				u8 *p,
206 				s32 program_size,
207 				s32 *error_address,
208 				int *exit_code,
209 				int *format_version)
210 {
211 	struct altera_config *aconf = astate->config;
212 	char *msg_buff = astate->msg_buff;
213 	long *stack = astate->stack;
214 	int status = 0;
215 	u32 first_word = 0L;
216 	u32 action_table = 0L;
217 	u32 proc_table = 0L;
218 	u32 str_table = 0L;
219 	u32 sym_table = 0L;
220 	u32 data_sect = 0L;
221 	u32 code_sect = 0L;
222 	u32 debug_sect = 0L;
223 	u32 action_count = 0L;
224 	u32 proc_count = 0L;
225 	u32 sym_count = 0L;
226 	long *vars = NULL;
227 	s32 *var_size = NULL;
228 	char *attrs = NULL;
229 	u8 *proc_attributes = NULL;
230 	u32 pc;
231 	u32 opcode_address;
232 	u32 args[3];
233 	u32 opcode;
234 	u32 name_id;
235 	u8 charbuf[4];
236 	long long_tmp;
237 	u32 variable_id;
238 	u8 *charptr_tmp;
239 	u8 *charptr_tmp2;
240 	long *longptr_tmp;
241 	int version = 0;
242 	int delta = 0;
243 	int stack_ptr = 0;
244 	u32 arg_count;
245 	int done = 0;
246 	int bad_opcode = 0;
247 	u32 count;
248 	u32 index;
249 	u32 index2;
250 	s32 long_count;
251 	s32 long_idx;
252 	s32 long_idx2;
253 	u32 i;
254 	u32 j;
255 	u32 uncomp_size;
256 	u32 offset;
257 	u32 value;
258 	int current_proc = 0;
259 	int reverse;
260 
261 	char *name;
262 
263 	dprintk("%s\n", __func__);
264 
265 	/* Read header information */
266 	if (program_size > 52L) {
267 		first_word    = get_unaligned_be32(&p[0]);
268 		version = (first_word & 1L);
269 		*format_version = version + 1;
270 		delta = version * 8;
271 
272 		action_table  = get_unaligned_be32(&p[4]);
273 		proc_table    = get_unaligned_be32(&p[8]);
274 		str_table  = get_unaligned_be32(&p[4 + delta]);
275 		sym_table  = get_unaligned_be32(&p[16 + delta]);
276 		data_sect  = get_unaligned_be32(&p[20 + delta]);
277 		code_sect  = get_unaligned_be32(&p[24 + delta]);
278 		debug_sect = get_unaligned_be32(&p[28 + delta]);
279 		action_count  = get_unaligned_be32(&p[40 + delta]);
280 		proc_count    = get_unaligned_be32(&p[44 + delta]);
281 		sym_count  = get_unaligned_be32(&p[48 + (2 * delta)]);
282 	}
283 
284 	if ((first_word != 0x4A414D00L) && (first_word != 0x4A414D01L)) {
285 		done = 1;
286 		status = -EIO;
287 		goto exit_done;
288 	}
289 
290 	if (sym_count <= 0)
291 		goto exit_done;
292 
293 	vars = kcalloc(sym_count, sizeof(long), GFP_KERNEL);
294 
295 	if (vars == NULL)
296 		status = -ENOMEM;
297 
298 	if (status == 0) {
299 		var_size = kcalloc(sym_count, sizeof(s32), GFP_KERNEL);
300 
301 		if (var_size == NULL)
302 			status = -ENOMEM;
303 	}
304 
305 	if (status == 0) {
306 		attrs = kzalloc(sym_count, GFP_KERNEL);
307 
308 		if (attrs == NULL)
309 			status = -ENOMEM;
310 	}
311 
312 	if ((status == 0) && (version > 0)) {
313 		proc_attributes = kzalloc(proc_count, GFP_KERNEL);
314 
315 		if (proc_attributes == NULL)
316 			status = -ENOMEM;
317 	}
318 
319 	if (status != 0)
320 		goto exit_done;
321 
322 	delta = version * 2;
323 
324 	for (i = 0; i < sym_count; ++i) {
325 		offset = (sym_table + ((11 + delta) * i));
326 
327 		value = get_unaligned_be32(&p[offset + 3 + delta]);
328 
329 		attrs[i] = p[offset];
330 
331 		/*
332 		 * use bit 7 of attribute byte to indicate that
333 		 * this buffer was dynamically allocated
334 		 * and should be freed later
335 		 */
336 		attrs[i] &= 0x7f;
337 
338 		var_size[i] = get_unaligned_be32(&p[offset + 7 + delta]);
339 
340 		/*
341 		 * Attribute bits:
342 		 * bit 0: 0 = read-only, 1 = read-write
343 		 * bit 1: 0 = not compressed, 1 = compressed
344 		 * bit 2: 0 = not initialized, 1 = initialized
345 		 * bit 3: 0 = scalar, 1 = array
346 		 * bit 4: 0 = Boolean, 1 = integer
347 		 * bit 5: 0 = declared variable,
348 		 *	1 = compiler created temporary variable
349 		 */
350 
351 		if ((attrs[i] & 0x0c) == 0x04)
352 			/* initialized scalar variable */
353 			vars[i] = value;
354 		else if ((attrs[i] & 0x1e) == 0x0e) {
355 			/* initialized compressed Boolean array */
356 			uncomp_size = get_unaligned_le32(&p[data_sect + value]);
357 
358 			/* allocate a buffer for the uncompressed data */
359 			vars[i] = (long)kzalloc(uncomp_size, GFP_KERNEL);
360 			if (vars[i] == 0L)
361 				status = -ENOMEM;
362 			else {
363 				/* set flag so buffer will be freed later */
364 				attrs[i] |= 0x80;
365 
366 				/* uncompress the data */
367 				if (altera_shrink(&p[data_sect + value],
368 						var_size[i],
369 						(u8 *)vars[i],
370 						uncomp_size,
371 						version) != uncomp_size)
372 					/* decompression failed */
373 					status = -EIO;
374 				else
375 					var_size[i] = uncomp_size * 8L;
376 
377 			}
378 		} else if ((attrs[i] & 0x1e) == 0x0c) {
379 			/* initialized Boolean array */
380 			vars[i] = value + data_sect + (long)p;
381 		} else if ((attrs[i] & 0x1c) == 0x1c) {
382 			/* initialized integer array */
383 			vars[i] = value + data_sect;
384 		} else if ((attrs[i] & 0x0c) == 0x08) {
385 			/* uninitialized array */
386 
387 			/* flag attrs so that memory is freed */
388 			attrs[i] |= 0x80;
389 
390 			if (var_size[i] > 0) {
391 				u32 size;
392 
393 				if (attrs[i] & 0x10)
394 					/* integer array */
395 					size = (var_size[i] * sizeof(s32));
396 				else
397 					/* Boolean array */
398 					size = ((var_size[i] + 7L) / 8L);
399 
400 				vars[i] = (long)kzalloc(size, GFP_KERNEL);
401 
402 				if (vars[i] == 0) {
403 					status = -ENOMEM;
404 				} else {
405 					/* zero out memory */
406 					for (j = 0; j < size; ++j)
407 						((u8 *)(vars[i]))[j] = 0;
408 
409 				}
410 			} else
411 				vars[i] = 0;
412 
413 		} else
414 			vars[i] = 0;
415 
416 	}
417 
418 exit_done:
419 	if (status != 0)
420 		done = 1;
421 
422 	altera_jinit(astate);
423 
424 	pc = code_sect;
425 	msg_buff[0] = '\0';
426 
427 	/*
428 	 * For JBC version 2, we will execute the procedures corresponding to
429 	 * the selected ACTION
430 	 */
431 	if (version > 0) {
432 		if (aconf->action == NULL) {
433 			status = -EINVAL;
434 			done = 1;
435 		} else {
436 			int action_found = 0;
437 			for (i = 0; (i < action_count) && !action_found; ++i) {
438 				name_id = get_unaligned_be32(&p[action_table +
439 								(12 * i)]);
440 
441 				name = &p[str_table + name_id];
442 
443 				if (strncasecmp(aconf->action, name, strlen(name)) == 0) {
444 					action_found = 1;
445 					current_proc =
446 						get_unaligned_be32(&p[action_table +
447 								(12 * i) + 8]);
448 				}
449 			}
450 
451 			if (!action_found) {
452 				status = -EINVAL;
453 				done = 1;
454 			}
455 		}
456 
457 		if (status == 0) {
458 			int first_time = 1;
459 			i = current_proc;
460 			while ((i != 0) || first_time) {
461 				first_time = 0;
462 				/* check procedure attribute byte */
463 				proc_attributes[i] =
464 						(p[proc_table +
465 								(13 * i) + 8] &
466 									0x03);
467 
468 				/*
469 				 * BIT0 - OPTIONAL
470 				 * BIT1 - RECOMMENDED
471 				 * BIT6 - FORCED OFF
472 				 * BIT7 - FORCED ON
473 				 */
474 
475 				i = get_unaligned_be32(&p[proc_table +
476 							(13 * i) + 4]);
477 			}
478 
479 			/*
480 			 * Set current_proc to the first procedure
481 			 * to be executed
482 			 */
483 			i = current_proc;
484 			while ((i != 0) &&
485 				((proc_attributes[i] == 1) ||
486 				((proc_attributes[i] & 0xc0) == 0x40))) {
487 				i = get_unaligned_be32(&p[proc_table +
488 							(13 * i) + 4]);
489 			}
490 
491 			if ((i != 0) || ((i == 0) && (current_proc == 0) &&
492 				((proc_attributes[0] != 1) &&
493 				((proc_attributes[0] & 0xc0) != 0x40)))) {
494 				current_proc = i;
495 				pc = code_sect +
496 					get_unaligned_be32(&p[proc_table +
497 								(13 * i) + 9]);
498 				if ((pc < code_sect) || (pc >= debug_sect))
499 					status = -ERANGE;
500 			} else
501 				/* there are no procedures to execute! */
502 				done = 1;
503 
504 		}
505 	}
506 
507 	msg_buff[0] = '\0';
508 
509 	while (!done) {
510 		opcode = (p[pc] & 0xff);
511 		opcode_address = pc;
512 		++pc;
513 
514 		if (debug > 1)
515 			printk("opcode: %02x\n", opcode);
516 
517 		arg_count = (opcode >> 6) & 3;
518 		for (i = 0; i < arg_count; ++i) {
519 			args[i] = get_unaligned_be32(&p[pc]);
520 			pc += 4;
521 		}
522 
523 		switch (opcode) {
524 		case OP_NOP:
525 			break;
526 		case OP_DUP:
527 			if (altera_check_stack(stack_ptr, 1, &status)) {
528 				stack[stack_ptr] = stack[stack_ptr - 1];
529 				++stack_ptr;
530 			}
531 			break;
532 		case OP_SWP:
533 			if (altera_check_stack(stack_ptr, 2, &status))
534 				swap(stack[stack_ptr - 2], stack[stack_ptr - 1]);
535 			break;
536 		case OP_ADD:
537 			if (altera_check_stack(stack_ptr, 2, &status)) {
538 				--stack_ptr;
539 				stack[stack_ptr - 1] += stack[stack_ptr];
540 			}
541 			break;
542 		case OP_SUB:
543 			if (altera_check_stack(stack_ptr, 2, &status)) {
544 				--stack_ptr;
545 				stack[stack_ptr - 1] -= stack[stack_ptr];
546 			}
547 			break;
548 		case OP_MULT:
549 			if (altera_check_stack(stack_ptr, 2, &status)) {
550 				--stack_ptr;
551 				stack[stack_ptr - 1] *= stack[stack_ptr];
552 			}
553 			break;
554 		case OP_DIV:
555 			if (altera_check_stack(stack_ptr, 2, &status)) {
556 				--stack_ptr;
557 				stack[stack_ptr - 1] /= stack[stack_ptr];
558 			}
559 			break;
560 		case OP_MOD:
561 			if (altera_check_stack(stack_ptr, 2, &status)) {
562 				--stack_ptr;
563 				stack[stack_ptr - 1] %= stack[stack_ptr];
564 			}
565 			break;
566 		case OP_SHL:
567 			if (altera_check_stack(stack_ptr, 2, &status)) {
568 				--stack_ptr;
569 				stack[stack_ptr - 1] <<= stack[stack_ptr];
570 			}
571 			break;
572 		case OP_SHR:
573 			if (altera_check_stack(stack_ptr, 2, &status)) {
574 				--stack_ptr;
575 				stack[stack_ptr - 1] >>= stack[stack_ptr];
576 			}
577 			break;
578 		case OP_NOT:
579 			if (altera_check_stack(stack_ptr, 1, &status))
580 				stack[stack_ptr - 1] ^= (-1L);
581 
582 			break;
583 		case OP_AND:
584 			if (altera_check_stack(stack_ptr, 2, &status)) {
585 				--stack_ptr;
586 				stack[stack_ptr - 1] &= stack[stack_ptr];
587 			}
588 			break;
589 		case OP_OR:
590 			if (altera_check_stack(stack_ptr, 2, &status)) {
591 				--stack_ptr;
592 				stack[stack_ptr - 1] |= stack[stack_ptr];
593 			}
594 			break;
595 		case OP_XOR:
596 			if (altera_check_stack(stack_ptr, 2, &status)) {
597 				--stack_ptr;
598 				stack[stack_ptr - 1] ^= stack[stack_ptr];
599 			}
600 			break;
601 		case OP_INV:
602 			if (!altera_check_stack(stack_ptr, 1, &status))
603 				break;
604 			stack[stack_ptr - 1] = stack[stack_ptr - 1] ? 0L : 1L;
605 			break;
606 		case OP_GT:
607 			if (!altera_check_stack(stack_ptr, 2, &status))
608 				break;
609 			--stack_ptr;
610 			stack[stack_ptr - 1] =
611 				(stack[stack_ptr - 1] > stack[stack_ptr]) ?
612 									1L : 0L;
613 
614 			break;
615 		case OP_LT:
616 			if (!altera_check_stack(stack_ptr, 2, &status))
617 				break;
618 			--stack_ptr;
619 			stack[stack_ptr - 1] =
620 				(stack[stack_ptr - 1] < stack[stack_ptr]) ?
621 									1L : 0L;
622 
623 			break;
624 		case OP_RET:
625 			if ((version > 0) && (stack_ptr == 0)) {
626 				/*
627 				 * We completed one of the main procedures
628 				 * of an ACTION.
629 				 * Find the next procedure
630 				 * to be executed and jump to it.
631 				 * If there are no more procedures, then EXIT.
632 				 */
633 				i = get_unaligned_be32(&p[proc_table +
634 						(13 * current_proc) + 4]);
635 				while ((i != 0) &&
636 					((proc_attributes[i] == 1) ||
637 					((proc_attributes[i] & 0xc0) == 0x40)))
638 					i = get_unaligned_be32(&p[proc_table +
639 								(13 * i) + 4]);
640 
641 				if (i == 0) {
642 					/* no procedures to execute! */
643 					done = 1;
644 					*exit_code = 0;	/* success */
645 				} else {
646 					current_proc = i;
647 					pc = code_sect + get_unaligned_be32(
648 								&p[proc_table +
649 								(13 * i) + 9]);
650 					if ((pc < code_sect) ||
651 					    (pc >= debug_sect))
652 						status = -ERANGE;
653 				}
654 
655 			} else
656 				if (altera_check_stack(stack_ptr, 1, &status)) {
657 					pc = stack[--stack_ptr] + code_sect;
658 					if ((pc <= code_sect) ||
659 					    (pc >= debug_sect))
660 						status = -ERANGE;
661 
662 				}
663 
664 			break;
665 		case OP_CMPS:
666 			/*
667 			 * Array short compare
668 			 * ...stack 0 is source 1 value
669 			 * ...stack 1 is source 2 value
670 			 * ...stack 2 is mask value
671 			 * ...stack 3 is count
672 			 */
673 			if (altera_check_stack(stack_ptr, 4, &status)) {
674 				s32 a = stack[--stack_ptr];
675 				s32 b = stack[--stack_ptr];
676 				long_tmp = stack[--stack_ptr];
677 				count = stack[stack_ptr - 1];
678 
679 				if ((count < 1) || (count > 32))
680 					status = -ERANGE;
681 				else {
682 					long_tmp &= ((-1L) >> (32 - count));
683 
684 					stack[stack_ptr - 1] =
685 					((a & long_tmp) == (b & long_tmp))
686 								? 1L : 0L;
687 				}
688 			}
689 			break;
690 		case OP_PINT:
691 			/*
692 			 * PRINT add integer
693 			 * ...stack 0 is integer value
694 			 */
695 			if (!altera_check_stack(stack_ptr, 1, &status))
696 				break;
697 			sprintf(&msg_buff[strlen(msg_buff)],
698 					"%ld", stack[--stack_ptr]);
699 			break;
700 		case OP_PRNT:
701 			/* PRINT finish */
702 			if (debug)
703 				printk(msg_buff, "\n");
704 
705 			msg_buff[0] = '\0';
706 			break;
707 		case OP_DSS:
708 			/*
709 			 * DRSCAN short
710 			 * ...stack 0 is scan data
711 			 * ...stack 1 is count
712 			 */
713 			if (!altera_check_stack(stack_ptr, 2, &status))
714 				break;
715 			long_tmp = stack[--stack_ptr];
716 			count = stack[--stack_ptr];
717 			put_unaligned_le32(long_tmp, &charbuf[0]);
718 			status = altera_drscan(astate, count, charbuf, 0);
719 			break;
720 		case OP_DSSC:
721 			/*
722 			 * DRSCAN short with capture
723 			 * ...stack 0 is scan data
724 			 * ...stack 1 is count
725 			 */
726 			if (!altera_check_stack(stack_ptr, 2, &status))
727 				break;
728 			long_tmp = stack[--stack_ptr];
729 			count = stack[stack_ptr - 1];
730 			put_unaligned_le32(long_tmp, &charbuf[0]);
731 			status = altera_swap_dr(astate, count, charbuf,
732 							0, charbuf, 0);
733 			stack[stack_ptr - 1] = get_unaligned_le32(&charbuf[0]);
734 			break;
735 		case OP_ISS:
736 			/*
737 			 * IRSCAN short
738 			 * ...stack 0 is scan data
739 			 * ...stack 1 is count
740 			 */
741 			if (!altera_check_stack(stack_ptr, 2, &status))
742 				break;
743 			long_tmp = stack[--stack_ptr];
744 			count = stack[--stack_ptr];
745 			put_unaligned_le32(long_tmp, &charbuf[0]);
746 			status = altera_irscan(astate, count, charbuf, 0);
747 			break;
748 		case OP_ISSC:
749 			/*
750 			 * IRSCAN short with capture
751 			 * ...stack 0 is scan data
752 			 * ...stack 1 is count
753 			 */
754 			if (!altera_check_stack(stack_ptr, 2, &status))
755 				break;
756 			long_tmp = stack[--stack_ptr];
757 			count = stack[stack_ptr - 1];
758 			put_unaligned_le32(long_tmp, &charbuf[0]);
759 			status = altera_swap_ir(astate, count, charbuf,
760 							0, charbuf, 0);
761 			stack[stack_ptr - 1] = get_unaligned_le32(&charbuf[0]);
762 			break;
763 		case OP_DPR:
764 			if (!altera_check_stack(stack_ptr, 1, &status))
765 				break;
766 			count = stack[--stack_ptr];
767 			status = altera_set_dr_pre(&astate->js, count, 0, NULL);
768 			break;
769 		case OP_DPRL:
770 			/*
771 			 * DRPRE with literal data
772 			 * ...stack 0 is count
773 			 * ...stack 1 is literal data
774 			 */
775 			if (!altera_check_stack(stack_ptr, 2, &status))
776 				break;
777 			count = stack[--stack_ptr];
778 			long_tmp = stack[--stack_ptr];
779 			put_unaligned_le32(long_tmp, &charbuf[0]);
780 			status = altera_set_dr_pre(&astate->js, count, 0,
781 						charbuf);
782 			break;
783 		case OP_DPO:
784 			/*
785 			 * DRPOST
786 			 * ...stack 0 is count
787 			 */
788 			if (altera_check_stack(stack_ptr, 1, &status)) {
789 				count = stack[--stack_ptr];
790 				status = altera_set_dr_post(&astate->js, count,
791 								0, NULL);
792 			}
793 			break;
794 		case OP_DPOL:
795 			/*
796 			 * DRPOST with literal data
797 			 * ...stack 0 is count
798 			 * ...stack 1 is literal data
799 			 */
800 			if (!altera_check_stack(stack_ptr, 2, &status))
801 				break;
802 			count = stack[--stack_ptr];
803 			long_tmp = stack[--stack_ptr];
804 			put_unaligned_le32(long_tmp, &charbuf[0]);
805 			status = altera_set_dr_post(&astate->js, count, 0,
806 							charbuf);
807 			break;
808 		case OP_IPR:
809 			if (altera_check_stack(stack_ptr, 1, &status)) {
810 				count = stack[--stack_ptr];
811 				status = altera_set_ir_pre(&astate->js, count,
812 								0, NULL);
813 			}
814 			break;
815 		case OP_IPRL:
816 			/*
817 			 * IRPRE with literal data
818 			 * ...stack 0 is count
819 			 * ...stack 1 is literal data
820 			 */
821 			if (altera_check_stack(stack_ptr, 2, &status)) {
822 				count = stack[--stack_ptr];
823 				long_tmp = stack[--stack_ptr];
824 				put_unaligned_le32(long_tmp, &charbuf[0]);
825 				status = altera_set_ir_pre(&astate->js, count,
826 							0, charbuf);
827 			}
828 			break;
829 		case OP_IPO:
830 			/*
831 			 * IRPOST
832 			 * ...stack 0 is count
833 			 */
834 			if (altera_check_stack(stack_ptr, 1, &status)) {
835 				count = stack[--stack_ptr];
836 				status = altera_set_ir_post(&astate->js, count,
837 							0, NULL);
838 			}
839 			break;
840 		case OP_IPOL:
841 			/*
842 			 * IRPOST with literal data
843 			 * ...stack 0 is count
844 			 * ...stack 1 is literal data
845 			 */
846 			if (!altera_check_stack(stack_ptr, 2, &status))
847 				break;
848 			count = stack[--stack_ptr];
849 			long_tmp = stack[--stack_ptr];
850 			put_unaligned_le32(long_tmp, &charbuf[0]);
851 			status = altera_set_ir_post(&astate->js, count, 0,
852 							charbuf);
853 			break;
854 		case OP_PCHR:
855 			if (altera_check_stack(stack_ptr, 1, &status)) {
856 				u8 ch;
857 				count = strlen(msg_buff);
858 				ch = (char) stack[--stack_ptr];
859 				if ((ch < 1) || (ch > 127)) {
860 					/*
861 					 * character code out of range
862 					 * instead of flagging an error,
863 					 * force the value to 127
864 					 */
865 					ch = 127;
866 				}
867 				msg_buff[count] = ch;
868 				msg_buff[count + 1] = '\0';
869 			}
870 			break;
871 		case OP_EXIT:
872 			if (altera_check_stack(stack_ptr, 1, &status))
873 				*exit_code = stack[--stack_ptr];
874 
875 			done = 1;
876 			break;
877 		case OP_EQU:
878 			if (!altera_check_stack(stack_ptr, 2, &status))
879 				break;
880 			--stack_ptr;
881 			stack[stack_ptr - 1] =
882 				(stack[stack_ptr - 1] == stack[stack_ptr]) ?
883 									1L : 0L;
884 			break;
885 		case OP_POPT:
886 			if (altera_check_stack(stack_ptr, 1, &status))
887 				--stack_ptr;
888 
889 			break;
890 		case OP_ABS:
891 			if (!altera_check_stack(stack_ptr, 1, &status))
892 				break;
893 			if (stack[stack_ptr - 1] < 0)
894 				stack[stack_ptr - 1] = 0 - stack[stack_ptr - 1];
895 
896 			break;
897 		case OP_BCH0:
898 			/*
899 			 * Batch operation 0
900 			 * SWP
901 			 * SWPN 7
902 			 * SWP
903 			 * SWPN 6
904 			 * DUPN 8
905 			 * SWPN 2
906 			 * SWP
907 			 * DUPN 6
908 			 * DUPN 6
909 			 */
910 
911 			/* SWP  */
912 			if (altera_check_stack(stack_ptr, 2, &status))
913 				swap(stack[stack_ptr - 2], stack[stack_ptr - 1]);
914 
915 			/* SWPN 7 */
916 			index = 7 + 1;
917 			if (altera_check_stack(stack_ptr, index, &status))
918 				swap(stack[stack_ptr - index], stack[stack_ptr - 1]);
919 
920 			/* SWP  */
921 			if (altera_check_stack(stack_ptr, 2, &status))
922 				swap(stack[stack_ptr - 2], stack[stack_ptr - 1]);
923 
924 			/* SWPN 6 */
925 			index = 6 + 1;
926 			if (altera_check_stack(stack_ptr, index, &status))
927 				swap(stack[stack_ptr - index], stack[stack_ptr - 1]);
928 
929 			/* DUPN 8 */
930 			index = 8 + 1;
931 			if (altera_check_stack(stack_ptr, index, &status)) {
932 				stack[stack_ptr] = stack[stack_ptr - index];
933 				++stack_ptr;
934 			}
935 
936 			/* SWPN 2 */
937 			index = 2 + 1;
938 			if (altera_check_stack(stack_ptr, index, &status))
939 				swap(stack[stack_ptr - index], stack[stack_ptr - 1]);
940 
941 			/* SWP  */
942 			if (altera_check_stack(stack_ptr, 2, &status))
943 				swap(stack[stack_ptr - 2], stack[stack_ptr - 1]);
944 
945 			/* DUPN 6 */
946 			index = 6 + 1;
947 			if (altera_check_stack(stack_ptr, index, &status)) {
948 				stack[stack_ptr] = stack[stack_ptr - index];
949 				++stack_ptr;
950 			}
951 
952 			/* DUPN 6 */
953 			index = 6 + 1;
954 			if (altera_check_stack(stack_ptr, index, &status)) {
955 				stack[stack_ptr] = stack[stack_ptr - index];
956 				++stack_ptr;
957 			}
958 			break;
959 		case OP_PSH0:
960 			stack[stack_ptr++] = 0;
961 			break;
962 		case OP_PSHL:
963 			stack[stack_ptr++] = (s32) args[0];
964 			break;
965 		case OP_PSHV:
966 			stack[stack_ptr++] = vars[args[0]];
967 			break;
968 		case OP_JMP:
969 			pc = args[0] + code_sect;
970 			if ((pc < code_sect) || (pc >= debug_sect))
971 				status = -ERANGE;
972 			break;
973 		case OP_CALL:
974 			stack[stack_ptr++] = pc;
975 			pc = args[0] + code_sect;
976 			if ((pc < code_sect) || (pc >= debug_sect))
977 				status = -ERANGE;
978 			break;
979 		case OP_NEXT:
980 			/*
981 			 * Process FOR / NEXT loop
982 			 * ...argument 0 is variable ID
983 			 * ...stack 0 is step value
984 			 * ...stack 1 is end value
985 			 * ...stack 2 is top address
986 			 */
987 			if (altera_check_stack(stack_ptr, 3, &status)) {
988 				s32 step = stack[stack_ptr - 1];
989 				s32 end = stack[stack_ptr - 2];
990 				s32 top = stack[stack_ptr - 3];
991 				s32 iterator = vars[args[0]];
992 				int break_out = 0;
993 
994 				if (step < 0) {
995 					if (iterator <= end)
996 						break_out = 1;
997 				} else if (iterator >= end)
998 					break_out = 1;
999 
1000 				if (break_out) {
1001 					stack_ptr -= 3;
1002 				} else {
1003 					vars[args[0]] = iterator + step;
1004 					pc = top + code_sect;
1005 					if ((pc < code_sect) ||
1006 					    (pc >= debug_sect))
1007 						status = -ERANGE;
1008 				}
1009 			}
1010 			break;
1011 		case OP_PSTR:
1012 			/*
1013 			 * PRINT add string
1014 			 * ...argument 0 is string ID
1015 			 */
1016 			count = strlen(msg_buff);
1017 			strscpy(&msg_buff[count],
1018 				&p[str_table + args[0]],
1019 				ALTERA_MESSAGE_LENGTH - count);
1020 			break;
1021 		case OP_SINT:
1022 			/*
1023 			 * STATE intermediate state
1024 			 * ...argument 0 is state code
1025 			 */
1026 			status = altera_goto_jstate(astate, args[0]);
1027 			break;
1028 		case OP_ST:
1029 			/*
1030 			 * STATE final state
1031 			 * ...argument 0 is state code
1032 			 */
1033 			status = altera_goto_jstate(astate, args[0]);
1034 			break;
1035 		case OP_ISTP:
1036 			/*
1037 			 * IRSTOP state
1038 			 * ...argument 0 is state code
1039 			 */
1040 			status = altera_set_irstop(&astate->js, args[0]);
1041 			break;
1042 		case OP_DSTP:
1043 			/*
1044 			 * DRSTOP state
1045 			 * ...argument 0 is state code
1046 			 */
1047 			status = altera_set_drstop(&astate->js, args[0]);
1048 			break;
1049 
1050 		case OP_SWPN:
1051 			/*
1052 			 * Exchange top with Nth stack value
1053 			 * ...argument 0 is 0-based stack entry
1054 			 * to swap with top element
1055 			 */
1056 			index = (args[0]) + 1;
1057 			if (altera_check_stack(stack_ptr, index, &status))
1058 				swap(stack[stack_ptr - index], stack[stack_ptr - 1]);
1059 			break;
1060 		case OP_DUPN:
1061 			/*
1062 			 * Duplicate Nth stack value
1063 			 * ...argument 0 is 0-based stack entry to duplicate
1064 			 */
1065 			index = (args[0]) + 1;
1066 			if (altera_check_stack(stack_ptr, index, &status)) {
1067 				stack[stack_ptr] = stack[stack_ptr - index];
1068 				++stack_ptr;
1069 			}
1070 			break;
1071 		case OP_POPV:
1072 			/*
1073 			 * Pop stack into scalar variable
1074 			 * ...argument 0 is variable ID
1075 			 * ...stack 0 is value
1076 			 */
1077 			if (altera_check_stack(stack_ptr, 1, &status))
1078 				vars[args[0]] = stack[--stack_ptr];
1079 
1080 			break;
1081 		case OP_POPE:
1082 			/*
1083 			 * Pop stack into integer array element
1084 			 * ...argument 0 is variable ID
1085 			 * ...stack 0 is array index
1086 			 * ...stack 1 is value
1087 			 */
1088 			if (!altera_check_stack(stack_ptr, 2, &status))
1089 				break;
1090 			variable_id = args[0];
1091 
1092 			/*
1093 			 * If variable is read-only,
1094 			 * convert to writable array
1095 			 */
1096 			if ((version > 0) &&
1097 				((attrs[variable_id] & 0x9c) == 0x1c)) {
1098 				/* Allocate a writable buffer for this array */
1099 				count = var_size[variable_id];
1100 				long_tmp = vars[variable_id];
1101 				longptr_tmp = kcalloc(count, sizeof(long),
1102 								GFP_KERNEL);
1103 				vars[variable_id] = (long)longptr_tmp;
1104 
1105 				if (vars[variable_id] == 0) {
1106 					status = -ENOMEM;
1107 					break;
1108 				}
1109 
1110 				/* copy previous contents into buffer */
1111 				for (i = 0; i < count; ++i) {
1112 					longptr_tmp[i] =
1113 						get_unaligned_be32(&p[long_tmp]);
1114 					long_tmp += sizeof(long);
1115 				}
1116 
1117 				/*
1118 				 * set bit 7 - buffer was
1119 				 * dynamically allocated
1120 				 */
1121 				attrs[variable_id] |= 0x80;
1122 
1123 				/* clear bit 2 - variable is writable */
1124 				attrs[variable_id] &= ~0x04;
1125 				attrs[variable_id] |= 0x01;
1126 
1127 			}
1128 
1129 			/* check that variable is a writable integer array */
1130 			if ((attrs[variable_id] & 0x1c) != 0x18)
1131 				status = -ERANGE;
1132 			else {
1133 				longptr_tmp = (long *)vars[variable_id];
1134 
1135 				/* pop the array index */
1136 				index = stack[--stack_ptr];
1137 
1138 				/* pop the value and store it into the array */
1139 				longptr_tmp[index] = stack[--stack_ptr];
1140 			}
1141 
1142 			break;
1143 		case OP_POPA:
1144 			/*
1145 			 * Pop stack into Boolean array
1146 			 * ...argument 0 is variable ID
1147 			 * ...stack 0 is count
1148 			 * ...stack 1 is array index
1149 			 * ...stack 2 is value
1150 			 */
1151 			if (!altera_check_stack(stack_ptr, 3, &status))
1152 				break;
1153 			variable_id = args[0];
1154 
1155 			/*
1156 			 * If variable is read-only,
1157 			 * convert to writable array
1158 			 */
1159 			if ((version > 0) &&
1160 				((attrs[variable_id] & 0x9c) == 0x0c)) {
1161 				/* Allocate a writable buffer for this array */
1162 				long_tmp =
1163 					(var_size[variable_id] + 7L) >> 3L;
1164 				charptr_tmp2 = (u8 *)vars[variable_id];
1165 				charptr_tmp =
1166 					kzalloc(long_tmp, GFP_KERNEL);
1167 				vars[variable_id] = (long)charptr_tmp;
1168 
1169 				if (vars[variable_id] == 0) {
1170 					status = -ENOMEM;
1171 					break;
1172 				}
1173 
1174 				/* zero the buffer */
1175 				for (long_idx = 0L;
1176 					long_idx < long_tmp;
1177 					++long_idx) {
1178 					charptr_tmp[long_idx] = 0;
1179 				}
1180 
1181 				/* copy previous contents into buffer */
1182 				for (long_idx = 0L;
1183 					long_idx < var_size[variable_id];
1184 					++long_idx) {
1185 					long_idx2 = long_idx;
1186 
1187 					if (charptr_tmp2[long_idx2 >> 3] &
1188 						(1 << (long_idx2 & 7))) {
1189 						charptr_tmp[long_idx >> 3] |=
1190 							(1 << (long_idx & 7));
1191 					}
1192 				}
1193 
1194 				/*
1195 				 * set bit 7 - buffer was
1196 				 * dynamically allocated
1197 				 */
1198 				attrs[variable_id] |= 0x80;
1199 
1200 				/* clear bit 2 - variable is writable */
1201 				attrs[variable_id] &= ~0x04;
1202 				attrs[variable_id] |= 0x01;
1203 
1204 			}
1205 
1206 			/*
1207 			 * check that variable is
1208 			 * a writable Boolean array
1209 			 */
1210 			if ((attrs[variable_id] & 0x1c) != 0x08) {
1211 				status = -ERANGE;
1212 				break;
1213 			}
1214 
1215 			charptr_tmp = (u8 *)vars[variable_id];
1216 
1217 			/* pop the count (number of bits to copy) */
1218 			long_count = stack[--stack_ptr];
1219 
1220 			/* pop the array index */
1221 			long_idx = stack[--stack_ptr];
1222 
1223 			reverse = 0;
1224 
1225 			if (version > 0) {
1226 				/*
1227 				 * stack 0 = array right index
1228 				 * stack 1 = array left index
1229 				 */
1230 
1231 				if (long_idx > long_count) {
1232 					reverse = 1;
1233 					long_tmp = long_count;
1234 					long_count = 1 + long_idx -
1235 								long_count;
1236 					long_idx = long_tmp;
1237 
1238 					/* reverse POPA is not supported */
1239 					status = -ERANGE;
1240 					break;
1241 				} else
1242 					long_count = 1 + long_count -
1243 								long_idx;
1244 
1245 			}
1246 
1247 			/* pop the data */
1248 			long_tmp = stack[--stack_ptr];
1249 
1250 			if (long_count < 1) {
1251 				status = -ERANGE;
1252 				break;
1253 			}
1254 
1255 			for (i = 0; i < long_count; ++i) {
1256 				if (long_tmp & (1L << (s32) i))
1257 					charptr_tmp[long_idx >> 3L] |=
1258 						(1L << (long_idx & 7L));
1259 				else
1260 					charptr_tmp[long_idx >> 3L] &=
1261 						~(1L << (long_idx & 7L));
1262 
1263 				++long_idx;
1264 			}
1265 
1266 			break;
1267 		case OP_JMPZ:
1268 			/*
1269 			 * Pop stack and branch if zero
1270 			 * ...argument 0 is address
1271 			 * ...stack 0 is condition value
1272 			 */
1273 			if (altera_check_stack(stack_ptr, 1, &status)) {
1274 				if (stack[--stack_ptr] == 0) {
1275 					pc = args[0] + code_sect;
1276 					if ((pc < code_sect) ||
1277 					    (pc >= debug_sect))
1278 						status = -ERANGE;
1279 				}
1280 			}
1281 			break;
1282 		case OP_DS:
1283 		case OP_IS:
1284 			/*
1285 			 * DRSCAN
1286 			 * IRSCAN
1287 			 * ...argument 0 is scan data variable ID
1288 			 * ...stack 0 is array index
1289 			 * ...stack 1 is count
1290 			 */
1291 			if (!altera_check_stack(stack_ptr, 2, &status))
1292 				break;
1293 			long_idx = stack[--stack_ptr];
1294 			long_count = stack[--stack_ptr];
1295 			reverse = 0;
1296 			if (version > 0) {
1297 				/*
1298 				 * stack 0 = array right index
1299 				 * stack 1 = array left index
1300 				 * stack 2 = count
1301 				 */
1302 				long_tmp = long_count;
1303 				long_count = stack[--stack_ptr];
1304 
1305 				if (long_idx > long_tmp) {
1306 					reverse = 1;
1307 					long_idx = long_tmp;
1308 				}
1309 			}
1310 
1311 			charptr_tmp = (u8 *)vars[args[0]];
1312 
1313 			if (reverse) {
1314 				/*
1315 				 * allocate a buffer
1316 				 * and reverse the data order
1317 				 */
1318 				charptr_tmp2 = charptr_tmp;
1319 				charptr_tmp = kzalloc((long_count >> 3) + 1,
1320 								GFP_KERNEL);
1321 				if (charptr_tmp == NULL) {
1322 					status = -ENOMEM;
1323 					break;
1324 				}
1325 
1326 				long_tmp = long_idx + long_count - 1;
1327 				long_idx2 = 0;
1328 				while (long_idx2 < long_count) {
1329 					if (charptr_tmp2[long_tmp >> 3] &
1330 							(1 << (long_tmp & 7)))
1331 						charptr_tmp[long_idx2 >> 3] |=
1332 							(1 << (long_idx2 & 7));
1333 					else
1334 						charptr_tmp[long_idx2 >> 3] &=
1335 							~(1 << (long_idx2 & 7));
1336 
1337 					--long_tmp;
1338 					++long_idx2;
1339 				}
1340 			}
1341 
1342 			if (opcode == 0x51) /* DS */
1343 				status = altera_drscan(astate, long_count,
1344 						charptr_tmp, long_idx);
1345 			else /* IS */
1346 				status = altera_irscan(astate, long_count,
1347 						charptr_tmp, long_idx);
1348 
1349 			if (reverse)
1350 				kfree(charptr_tmp);
1351 
1352 			break;
1353 		case OP_DPRA:
1354 			/*
1355 			 * DRPRE with array data
1356 			 * ...argument 0 is variable ID
1357 			 * ...stack 0 is array index
1358 			 * ...stack 1 is count
1359 			 */
1360 			if (!altera_check_stack(stack_ptr, 2, &status))
1361 				break;
1362 			index = stack[--stack_ptr];
1363 			count = stack[--stack_ptr];
1364 
1365 			if (version > 0)
1366 				/*
1367 				 * stack 0 = array right index
1368 				 * stack 1 = array left index
1369 				 */
1370 				count = 1 + count - index;
1371 
1372 			charptr_tmp = (u8 *)vars[args[0]];
1373 			status = altera_set_dr_pre(&astate->js, count, index,
1374 							charptr_tmp);
1375 			break;
1376 		case OP_DPOA:
1377 			/*
1378 			 * DRPOST with array data
1379 			 * ...argument 0 is variable ID
1380 			 * ...stack 0 is array index
1381 			 * ...stack 1 is count
1382 			 */
1383 			if (!altera_check_stack(stack_ptr, 2, &status))
1384 				break;
1385 			index = stack[--stack_ptr];
1386 			count = stack[--stack_ptr];
1387 
1388 			if (version > 0)
1389 				/*
1390 				 * stack 0 = array right index
1391 				 * stack 1 = array left index
1392 				 */
1393 				count = 1 + count - index;
1394 
1395 			charptr_tmp = (u8 *)vars[args[0]];
1396 			status = altera_set_dr_post(&astate->js, count, index,
1397 							charptr_tmp);
1398 			break;
1399 		case OP_IPRA:
1400 			/*
1401 			 * IRPRE with array data
1402 			 * ...argument 0 is variable ID
1403 			 * ...stack 0 is array index
1404 			 * ...stack 1 is count
1405 			 */
1406 			if (!altera_check_stack(stack_ptr, 2, &status))
1407 				break;
1408 			index = stack[--stack_ptr];
1409 			count = stack[--stack_ptr];
1410 
1411 			if (version > 0)
1412 				/*
1413 				 * stack 0 = array right index
1414 				 * stack 1 = array left index
1415 				 */
1416 				count = 1 + count - index;
1417 
1418 			charptr_tmp = (u8 *)vars[args[0]];
1419 			status = altera_set_ir_pre(&astate->js, count, index,
1420 							charptr_tmp);
1421 
1422 			break;
1423 		case OP_IPOA:
1424 			/*
1425 			 * IRPOST with array data
1426 			 * ...argument 0 is variable ID
1427 			 * ...stack 0 is array index
1428 			 * ...stack 1 is count
1429 			 */
1430 			if (!altera_check_stack(stack_ptr, 2, &status))
1431 				break;
1432 			index = stack[--stack_ptr];
1433 			count = stack[--stack_ptr];
1434 
1435 			if (version > 0)
1436 				/*
1437 				 * stack 0 = array right index
1438 				 * stack 1 = array left index
1439 				 */
1440 				count = 1 + count - index;
1441 
1442 			charptr_tmp = (u8 *)vars[args[0]];
1443 			status = altera_set_ir_post(&astate->js, count, index,
1444 							charptr_tmp);
1445 
1446 			break;
1447 		case OP_EXPT:
1448 			/*
1449 			 * EXPORT
1450 			 * ...argument 0 is string ID
1451 			 * ...stack 0 is integer expression
1452 			 */
1453 			if (altera_check_stack(stack_ptr, 1, &status)) {
1454 				name = &p[str_table + args[0]];
1455 				long_tmp = stack[--stack_ptr];
1456 				altera_export_int(name, long_tmp);
1457 			}
1458 			break;
1459 		case OP_PSHE:
1460 			/*
1461 			 * Push integer array element
1462 			 * ...argument 0 is variable ID
1463 			 * ...stack 0 is array index
1464 			 */
1465 			if (!altera_check_stack(stack_ptr, 1, &status))
1466 				break;
1467 			variable_id = args[0];
1468 			index = stack[stack_ptr - 1];
1469 
1470 			/* check variable type */
1471 			if ((attrs[variable_id] & 0x1f) == 0x19) {
1472 				/* writable integer array */
1473 				longptr_tmp = (long *)vars[variable_id];
1474 				stack[stack_ptr - 1] = longptr_tmp[index];
1475 			} else if ((attrs[variable_id] & 0x1f) == 0x1c) {
1476 				/* read-only integer array */
1477 				long_tmp = vars[variable_id] +
1478 						(index * sizeof(long));
1479 				stack[stack_ptr - 1] =
1480 					get_unaligned_be32(&p[long_tmp]);
1481 			} else
1482 				status = -ERANGE;
1483 
1484 			break;
1485 		case OP_PSHA:
1486 			/*
1487 			 * Push Boolean array
1488 			 * ...argument 0 is variable ID
1489 			 * ...stack 0 is count
1490 			 * ...stack 1 is array index
1491 			 */
1492 			if (!altera_check_stack(stack_ptr, 2, &status))
1493 				break;
1494 			variable_id = args[0];
1495 
1496 			/* check that variable is a Boolean array */
1497 			if ((attrs[variable_id] & 0x18) != 0x08) {
1498 				status = -ERANGE;
1499 				break;
1500 			}
1501 
1502 			charptr_tmp = (u8 *)vars[variable_id];
1503 
1504 			/* pop the count (number of bits to copy) */
1505 			count = stack[--stack_ptr];
1506 
1507 			/* pop the array index */
1508 			index = stack[stack_ptr - 1];
1509 
1510 			if (version > 0)
1511 				/*
1512 				 * stack 0 = array right index
1513 				 * stack 1 = array left index
1514 				 */
1515 				count = 1 + count - index;
1516 
1517 			if ((count < 1) || (count > 32)) {
1518 				status = -ERANGE;
1519 				break;
1520 			}
1521 
1522 			long_tmp = 0L;
1523 
1524 			for (i = 0; i < count; ++i)
1525 				if (charptr_tmp[(i + index) >> 3] &
1526 						(1 << ((i + index) & 7)))
1527 					long_tmp |= (1L << i);
1528 
1529 			stack[stack_ptr - 1] = long_tmp;
1530 
1531 			break;
1532 		case OP_DYNA:
1533 			/*
1534 			 * Dynamically change size of array
1535 			 * ...argument 0 is variable ID
1536 			 * ...stack 0 is new size
1537 			 */
1538 			if (!altera_check_stack(stack_ptr, 1, &status))
1539 				break;
1540 			variable_id = args[0];
1541 			long_tmp = stack[--stack_ptr];
1542 
1543 			if (long_tmp > var_size[variable_id]) {
1544 				var_size[variable_id] = long_tmp;
1545 
1546 				if (attrs[variable_id] & 0x10)
1547 					/* allocate integer array */
1548 					long_tmp *= sizeof(long);
1549 				else
1550 					/* allocate Boolean array */
1551 					long_tmp = (long_tmp + 7) >> 3;
1552 
1553 				/*
1554 				 * If the buffer was previously allocated,
1555 				 * free it
1556 				 */
1557 				if (attrs[variable_id] & 0x80) {
1558 					kfree((void *)vars[variable_id]);
1559 					vars[variable_id] = 0;
1560 				}
1561 
1562 				/*
1563 				 * Allocate a new buffer
1564 				 * of the requested size
1565 				 */
1566 				vars[variable_id] = (long)
1567 					kzalloc(long_tmp, GFP_KERNEL);
1568 
1569 				if (vars[variable_id] == 0) {
1570 					status = -ENOMEM;
1571 					break;
1572 				}
1573 
1574 				/*
1575 				 * Set the attribute bit to indicate that
1576 				 * this buffer was dynamically allocated and
1577 				 * should be freed later
1578 				 */
1579 				attrs[variable_id] |= 0x80;
1580 
1581 				/* zero out memory */
1582 				count = ((var_size[variable_id] + 7L) /
1583 									8L);
1584 				charptr_tmp = (u8 *)(vars[variable_id]);
1585 				for (index = 0; index < count; ++index)
1586 					charptr_tmp[index] = 0;
1587 
1588 			}
1589 
1590 			break;
1591 		case OP_EXPV:
1592 			/*
1593 			 * Export Boolean array
1594 			 * ...argument 0 is string ID
1595 			 * ...stack 0 is variable ID
1596 			 * ...stack 1 is array right index
1597 			 * ...stack 2 is array left index
1598 			 */
1599 			if (!altera_check_stack(stack_ptr, 3, &status))
1600 				break;
1601 			if (version == 0) {
1602 				/* EXPV is not supported in JBC 1.0 */
1603 				bad_opcode = 1;
1604 				break;
1605 			}
1606 			name = &p[str_table + args[0]];
1607 			variable_id = stack[--stack_ptr];
1608 			long_idx = stack[--stack_ptr];/* right indx */
1609 			long_idx2 = stack[--stack_ptr];/* left indx */
1610 
1611 			if (long_idx > long_idx2) {
1612 				/* reverse indices not supported */
1613 				status = -ERANGE;
1614 				break;
1615 			}
1616 
1617 			long_count = 1 + long_idx2 - long_idx;
1618 
1619 			charptr_tmp = (u8 *)vars[variable_id];
1620 			charptr_tmp2 = NULL;
1621 
1622 			if ((long_idx & 7L) != 0) {
1623 				s32 k = long_idx;
1624 				charptr_tmp2 =
1625 					kzalloc(((long_count + 7L) / 8L),
1626 							GFP_KERNEL);
1627 				if (charptr_tmp2 == NULL) {
1628 					status = -ENOMEM;
1629 					break;
1630 				}
1631 
1632 				for (i = 0; i < long_count; ++i) {
1633 					if (charptr_tmp[k >> 3] &
1634 							(1 << (k & 7)))
1635 						charptr_tmp2[i >> 3] |=
1636 								(1 << (i & 7));
1637 					else
1638 						charptr_tmp2[i >> 3] &=
1639 								~(1 << (i & 7));
1640 
1641 					++k;
1642 				}
1643 				charptr_tmp = charptr_tmp2;
1644 
1645 			} else if (long_idx != 0)
1646 				charptr_tmp = &charptr_tmp[long_idx >> 3];
1647 
1648 			altera_export_bool_array(name, charptr_tmp,
1649 							long_count);
1650 
1651 			/* free allocated buffer */
1652 			if ((long_idx & 7L) != 0)
1653 				kfree(charptr_tmp2);
1654 
1655 			break;
1656 		case OP_COPY: {
1657 			/*
1658 			 * Array copy
1659 			 * ...argument 0 is dest ID
1660 			 * ...argument 1 is source ID
1661 			 * ...stack 0 is count
1662 			 * ...stack 1 is dest index
1663 			 * ...stack 2 is source index
1664 			 */
1665 			s32 copy_count;
1666 			s32 copy_index;
1667 			s32 copy_index2;
1668 			s32 destleft;
1669 			s32 src_count;
1670 			s32 dest_count;
1671 			int src_reverse = 0;
1672 			int dest_reverse = 0;
1673 
1674 			if (!altera_check_stack(stack_ptr, 3, &status))
1675 				break;
1676 
1677 			copy_count = stack[--stack_ptr];
1678 			copy_index = stack[--stack_ptr];
1679 			copy_index2 = stack[--stack_ptr];
1680 			reverse = 0;
1681 
1682 			if (version > 0) {
1683 				/*
1684 				 * stack 0 = source right index
1685 				 * stack 1 = source left index
1686 				 * stack 2 = destination right index
1687 				 * stack 3 = destination left index
1688 				 */
1689 				destleft = stack[--stack_ptr];
1690 
1691 				if (copy_count > copy_index) {
1692 					src_reverse = 1;
1693 					reverse = 1;
1694 					src_count = 1 + copy_count - copy_index;
1695 					/* copy_index = source start index */
1696 				} else {
1697 					src_count = 1 + copy_index - copy_count;
1698 					/* source start index */
1699 					copy_index = copy_count;
1700 				}
1701 
1702 				if (copy_index2 > destleft) {
1703 					dest_reverse = 1;
1704 					reverse = !reverse;
1705 					dest_count = 1 + copy_index2 - destleft;
1706 					/* destination start index */
1707 					copy_index2 = destleft;
1708 				} else
1709 					dest_count = 1 + destleft - copy_index2;
1710 
1711 				copy_count = (src_count < dest_count) ?
1712 							src_count : dest_count;
1713 
1714 				if ((src_reverse || dest_reverse) &&
1715 					(src_count != dest_count))
1716 					/*
1717 					 * If either the source or destination
1718 					 * is reversed, we can't tolerate
1719 					 * a length mismatch, because we
1720 					 * "left justify" arrays when copying.
1721 					 * This won't work correctly
1722 					 * with reversed arrays.
1723 					 */
1724 					status = -ERANGE;
1725 
1726 			}
1727 
1728 			count = copy_count;
1729 			index = copy_index;
1730 			index2 = copy_index2;
1731 
1732 			/*
1733 			 * If destination is a read-only array,
1734 			 * allocate a buffer and convert it to a writable array
1735 			 */
1736 			variable_id = args[1];
1737 			if ((version > 0) &&
1738 				((attrs[variable_id] & 0x9c) == 0x0c)) {
1739 				/* Allocate a writable buffer for this array */
1740 				long_tmp =
1741 					(var_size[variable_id] + 7L) >> 3L;
1742 				charptr_tmp2 = (u8 *)vars[variable_id];
1743 				charptr_tmp =
1744 					kzalloc(long_tmp, GFP_KERNEL);
1745 				vars[variable_id] = (long)charptr_tmp;
1746 
1747 				if (vars[variable_id] == 0) {
1748 					status = -ENOMEM;
1749 					break;
1750 				}
1751 
1752 				/* zero the buffer */
1753 				for (long_idx = 0L; long_idx < long_tmp;
1754 								++long_idx)
1755 					charptr_tmp[long_idx] = 0;
1756 
1757 				/* copy previous contents into buffer */
1758 				for (long_idx = 0L;
1759 					long_idx < var_size[variable_id];
1760 								++long_idx) {
1761 					long_idx2 = long_idx;
1762 
1763 					if (charptr_tmp2[long_idx2 >> 3] &
1764 						(1 << (long_idx2 & 7)))
1765 						charptr_tmp[long_idx >> 3] |=
1766 							(1 << (long_idx & 7));
1767 
1768 				}
1769 
1770 				/*
1771 				set bit 7 - buffer was dynamically allocated */
1772 				attrs[variable_id] |= 0x80;
1773 
1774 				/* clear bit 2 - variable is writable */
1775 				attrs[variable_id] &= ~0x04;
1776 				attrs[variable_id] |= 0x01;
1777 			}
1778 
1779 			charptr_tmp = (u8 *)vars[args[1]];
1780 			charptr_tmp2 = (u8 *)vars[args[0]];
1781 
1782 			/* check if destination is a writable Boolean array */
1783 			if ((attrs[args[1]] & 0x1c) != 0x08) {
1784 				status = -ERANGE;
1785 				break;
1786 			}
1787 
1788 			if (count < 1) {
1789 				status = -ERANGE;
1790 				break;
1791 			}
1792 
1793 			if (reverse)
1794 				index2 += (count - 1);
1795 
1796 			for (i = 0; i < count; ++i) {
1797 				if (charptr_tmp2[index >> 3] &
1798 							(1 << (index & 7)))
1799 					charptr_tmp[index2 >> 3] |=
1800 							(1 << (index2 & 7));
1801 				else
1802 					charptr_tmp[index2 >> 3] &=
1803 						~(1 << (index2 & 7));
1804 
1805 				++index;
1806 				if (reverse)
1807 					--index2;
1808 				else
1809 					++index2;
1810 			}
1811 
1812 			break;
1813 		}
1814 		case OP_DSC:
1815 		case OP_ISC: {
1816 			/*
1817 			 * DRSCAN with capture
1818 			 * IRSCAN with capture
1819 			 * ...argument 0 is scan data variable ID
1820 			 * ...argument 1 is capture variable ID
1821 			 * ...stack 0 is capture index
1822 			 * ...stack 1 is scan data index
1823 			 * ...stack 2 is count
1824 			 */
1825 			s32 scan_right, scan_left;
1826 			s32 capture_count = 0;
1827 			s32 scan_count = 0;
1828 			s32 capture_index;
1829 			s32 scan_index;
1830 
1831 			if (!altera_check_stack(stack_ptr, 3, &status))
1832 				break;
1833 
1834 			capture_index = stack[--stack_ptr];
1835 			scan_index = stack[--stack_ptr];
1836 
1837 			if (version > 0) {
1838 				/*
1839 				 * stack 0 = capture right index
1840 				 * stack 1 = capture left index
1841 				 * stack 2 = scan right index
1842 				 * stack 3 = scan left index
1843 				 * stack 4 = count
1844 				 */
1845 				scan_right = stack[--stack_ptr];
1846 				scan_left = stack[--stack_ptr];
1847 				capture_count = 1 + scan_index - capture_index;
1848 				scan_count = 1 + scan_left - scan_right;
1849 				scan_index = scan_right;
1850 			}
1851 
1852 			long_count = stack[--stack_ptr];
1853 			/*
1854 			 * If capture array is read-only, allocate a buffer
1855 			 * and convert it to a writable array
1856 			 */
1857 			variable_id = args[1];
1858 			if ((version > 0) &&
1859 				((attrs[variable_id] & 0x9c) == 0x0c)) {
1860 				/* Allocate a writable buffer for this array */
1861 				long_tmp =
1862 					(var_size[variable_id] + 7L) >> 3L;
1863 				charptr_tmp2 = (u8 *)vars[variable_id];
1864 				charptr_tmp =
1865 					kzalloc(long_tmp, GFP_KERNEL);
1866 				vars[variable_id] = (long)charptr_tmp;
1867 
1868 				if (vars[variable_id] == 0) {
1869 					status = -ENOMEM;
1870 					break;
1871 				}
1872 
1873 				/* zero the buffer */
1874 				for (long_idx = 0L; long_idx < long_tmp;
1875 								++long_idx)
1876 					charptr_tmp[long_idx] = 0;
1877 
1878 				/* copy previous contents into buffer */
1879 				for (long_idx = 0L;
1880 					long_idx < var_size[variable_id];
1881 								++long_idx) {
1882 					long_idx2 = long_idx;
1883 
1884 					if (charptr_tmp2[long_idx2 >> 3] &
1885 						(1 << (long_idx2 & 7)))
1886 						charptr_tmp[long_idx >> 3] |=
1887 							(1 << (long_idx & 7));
1888 
1889 				}
1890 
1891 				/*
1892 				 * set bit 7 - buffer was
1893 				 * dynamically allocated
1894 				 */
1895 				attrs[variable_id] |= 0x80;
1896 
1897 				/* clear bit 2 - variable is writable */
1898 				attrs[variable_id] &= ~0x04;
1899 				attrs[variable_id] |= 0x01;
1900 
1901 			}
1902 
1903 			charptr_tmp = (u8 *)vars[args[0]];
1904 			charptr_tmp2 = (u8 *)vars[args[1]];
1905 
1906 			if ((version > 0) &&
1907 					((long_count > capture_count) ||
1908 					(long_count > scan_count))) {
1909 				status = -ERANGE;
1910 				break;
1911 			}
1912 
1913 			/*
1914 			 * check that capture array
1915 			 * is a writable Boolean array
1916 			 */
1917 			if ((attrs[args[1]] & 0x1c) != 0x08) {
1918 				status = -ERANGE;
1919 				break;
1920 			}
1921 
1922 			if (status == 0) {
1923 				if (opcode == 0x82) /* DSC */
1924 					status = altera_swap_dr(astate,
1925 							long_count,
1926 							charptr_tmp,
1927 							scan_index,
1928 							charptr_tmp2,
1929 							capture_index);
1930 				else /* ISC */
1931 					status = altera_swap_ir(astate,
1932 							long_count,
1933 							charptr_tmp,
1934 							scan_index,
1935 							charptr_tmp2,
1936 							capture_index);
1937 
1938 			}
1939 
1940 			break;
1941 		}
1942 		case OP_WAIT:
1943 			/*
1944 			 * WAIT
1945 			 * ...argument 0 is wait state
1946 			 * ...argument 1 is end state
1947 			 * ...stack 0 is cycles
1948 			 * ...stack 1 is microseconds
1949 			 */
1950 			if (!altera_check_stack(stack_ptr, 2, &status))
1951 				break;
1952 			long_tmp = stack[--stack_ptr];
1953 
1954 			if (long_tmp != 0L)
1955 				status = altera_wait_cycles(astate, long_tmp,
1956 								args[0]);
1957 
1958 			long_tmp = stack[--stack_ptr];
1959 
1960 			if ((status == 0) && (long_tmp != 0L))
1961 				status = altera_wait_msecs(astate,
1962 								long_tmp,
1963 								args[0]);
1964 
1965 			if ((status == 0) && (args[1] != args[0]))
1966 				status = altera_goto_jstate(astate,
1967 								args[1]);
1968 
1969 			if (version > 0) {
1970 				--stack_ptr; /* throw away MAX cycles */
1971 				--stack_ptr; /* throw away MAX microseconds */
1972 			}
1973 			break;
1974 		case OP_CMPA: {
1975 			/*
1976 			 * Array compare
1977 			 * ...argument 0 is source 1 ID
1978 			 * ...argument 1 is source 2 ID
1979 			 * ...argument 2 is mask ID
1980 			 * ...stack 0 is source 1 index
1981 			 * ...stack 1 is source 2 index
1982 			 * ...stack 2 is mask index
1983 			 * ...stack 3 is count
1984 			 */
1985 			s32 a, b;
1986 			u8 *source1 = (u8 *)vars[args[0]];
1987 			u8 *source2 = (u8 *)vars[args[1]];
1988 			u8 *mask = (u8 *)vars[args[2]];
1989 			u32 index1;
1990 			u32 index2;
1991 			u32 mask_index;
1992 
1993 			if (!altera_check_stack(stack_ptr, 4, &status))
1994 				break;
1995 
1996 			index1 = stack[--stack_ptr];
1997 			index2 = stack[--stack_ptr];
1998 			mask_index = stack[--stack_ptr];
1999 			long_count = stack[--stack_ptr];
2000 
2001 			if (version > 0) {
2002 				/*
2003 				 * stack 0 = source 1 right index
2004 				 * stack 1 = source 1 left index
2005 				 * stack 2 = source 2 right index
2006 				 * stack 3 = source 2 left index
2007 				 * stack 4 = mask right index
2008 				 * stack 5 = mask left index
2009 				 */
2010 				s32 mask_right = stack[--stack_ptr];
2011 				s32 mask_left = stack[--stack_ptr];
2012 				/* source 1 count */
2013 				a = 1 + index2 - index1;
2014 				/* source 2 count */
2015 				b = 1 + long_count - mask_index;
2016 				a = (a < b) ? a : b;
2017 				/* mask count */
2018 				b = 1 + mask_left - mask_right;
2019 				a = (a < b) ? a : b;
2020 				/* source 2 start index */
2021 				index2 = mask_index;
2022 				/* mask start index */
2023 				mask_index = mask_right;
2024 				long_count = a;
2025 			}
2026 
2027 			long_tmp = 1L;
2028 
2029 			if (long_count < 1)
2030 				status = -ERANGE;
2031 			else {
2032 				count = long_count;
2033 
2034 				for (i = 0; i < count; ++i) {
2035 					if (mask[mask_index >> 3] &
2036 						(1 << (mask_index & 7))) {
2037 						a = source1[index1 >> 3] &
2038 							(1 << (index1 & 7))
2039 								? 1 : 0;
2040 						b = source2[index2 >> 3] &
2041 							(1 << (index2 & 7))
2042 								? 1 : 0;
2043 
2044 						if (a != b) /* failure */
2045 							long_tmp = 0L;
2046 					}
2047 					++index1;
2048 					++index2;
2049 					++mask_index;
2050 				}
2051 			}
2052 
2053 			stack[stack_ptr++] = long_tmp;
2054 
2055 			break;
2056 		}
2057 		default:
2058 			/* Unrecognized opcode -- ERROR! */
2059 			bad_opcode = 1;
2060 			break;
2061 		}
2062 
2063 		if (bad_opcode)
2064 			status = -ENOSYS;
2065 
2066 		if ((stack_ptr < 0) || (stack_ptr >= ALTERA_STACK_SIZE))
2067 			status = -EOVERFLOW;
2068 
2069 		if (status != 0) {
2070 			done = 1;
2071 			*error_address = (s32)(opcode_address - code_sect);
2072 		}
2073 	}
2074 
2075 	altera_free_buffers(astate);
2076 
2077 	/* Free all dynamically allocated arrays */
2078 	if ((attrs != NULL) && (vars != NULL))
2079 		for (i = 0; i < sym_count; ++i)
2080 			if (attrs[i] & 0x80)
2081 				kfree((void *)vars[i]);
2082 
2083 	kfree(vars);
2084 	kfree(var_size);
2085 	kfree(attrs);
2086 	kfree(proc_attributes);
2087 
2088 	return status;
2089 }
2090 
2091 static int altera_get_note(u8 *p, s32 program_size, s32 *offset,
2092 			   char *key, char *value, int keylen, int vallen)
2093 /*
2094  * Gets key and value of NOTE fields in the JBC file.
2095  * Can be called in two modes:  if offset pointer is NULL,
2096  * then the function searches for note fields which match
2097  * the key string provided.  If offset is not NULL, then
2098  * the function finds the next note field of any key,
2099  * starting at the offset specified by the offset pointer.
2100  * Returns 0 for success, else appropriate error code
2101  */
2102 {
2103 	int status = -ENODATA;
2104 	u32 note_strings = 0L;
2105 	u32 note_table = 0L;
2106 	u32 note_count = 0L;
2107 	u32 first_word = 0L;
2108 	int version = 0;
2109 	int delta = 0;
2110 	char *key_ptr;
2111 	char *value_ptr;
2112 	int i;
2113 
2114 	/* Read header information */
2115 	if (program_size > 52L) {
2116 		first_word    = get_unaligned_be32(&p[0]);
2117 		version = (first_word & 1L);
2118 		delta = version * 8;
2119 
2120 		note_strings  = get_unaligned_be32(&p[8 + delta]);
2121 		note_table    = get_unaligned_be32(&p[12 + delta]);
2122 		note_count    = get_unaligned_be32(&p[44 + (2 * delta)]);
2123 	}
2124 
2125 	if ((first_word != 0x4A414D00L) && (first_word != 0x4A414D01L))
2126 		return -EIO;
2127 
2128 	if (note_count <= 0L)
2129 		return status;
2130 
2131 	if (offset == NULL) {
2132 		/*
2133 		 * We will search for the first note with a specific key,
2134 		 * and return only the value
2135 		 */
2136 		for (i = 0; (i < note_count) &&
2137 						(status != 0); ++i) {
2138 			key_ptr = &p[note_strings +
2139 					get_unaligned_be32(
2140 					&p[note_table + (8 * i)])];
2141 			if (key && !strncasecmp(key, key_ptr, strlen(key_ptr))) {
2142 				status = 0;
2143 
2144 				value_ptr = &p[note_strings +
2145 						get_unaligned_be32(
2146 						&p[note_table + (8 * i) + 4])];
2147 
2148 				if (value != NULL)
2149 					strscpy(value, value_ptr, vallen);
2150 
2151 			}
2152 		}
2153 	} else {
2154 		/*
2155 		 * We will search for the next note, regardless of the key,
2156 		 * and return both the value and the key
2157 		 */
2158 
2159 		i = *offset;
2160 
2161 		if ((i >= 0) && (i < note_count)) {
2162 			status = 0;
2163 
2164 			if (key != NULL)
2165 				strscpy(key, &p[note_strings +
2166 						get_unaligned_be32(
2167 						&p[note_table + (8 * i)])],
2168 					keylen);
2169 
2170 			if (value != NULL)
2171 				strscpy(value, &p[note_strings +
2172 						get_unaligned_be32(
2173 						&p[note_table + (8 * i) + 4])],
2174 					vallen);
2175 
2176 			*offset = i + 1;
2177 		}
2178 	}
2179 
2180 	return status;
2181 }
2182 
2183 static int altera_check_crc(u8 *p, s32 program_size)
2184 {
2185 	int status = 0;
2186 	u16 local_expected = 0,
2187 	    local_actual = 0,
2188 	    shift_reg = 0xffff;
2189 	int bit, feedback;
2190 	u8 databyte;
2191 	u32 i;
2192 	u32 crc_section = 0L;
2193 	u32 first_word = 0L;
2194 	int version = 0;
2195 	int delta = 0;
2196 
2197 	if (program_size > 52L) {
2198 		first_word  = get_unaligned_be32(&p[0]);
2199 		version = (first_word & 1L);
2200 		delta = version * 8;
2201 
2202 		crc_section = get_unaligned_be32(&p[32 + delta]);
2203 	}
2204 
2205 	if ((first_word != 0x4A414D00L) && (first_word != 0x4A414D01L))
2206 		status = -EIO;
2207 
2208 	if (crc_section >= program_size)
2209 		status = -EIO;
2210 
2211 	if (status == 0) {
2212 		local_expected = (u16)get_unaligned_be16(&p[crc_section]);
2213 
2214 		for (i = 0; i < crc_section; ++i) {
2215 			databyte = p[i];
2216 			for (bit = 0; bit < 8; bit++) {
2217 				feedback = (databyte ^ shift_reg) & 0x01;
2218 				shift_reg >>= 1;
2219 				if (feedback)
2220 					shift_reg ^= 0x8408;
2221 
2222 				databyte >>= 1;
2223 			}
2224 		}
2225 
2226 		local_actual = (u16)~shift_reg;
2227 
2228 		if (local_expected != local_actual)
2229 			status = -EILSEQ;
2230 
2231 	}
2232 
2233 	if (debug || status) {
2234 		switch (status) {
2235 		case 0:
2236 			printk(KERN_INFO "%s: CRC matched: %04x\n", __func__,
2237 				local_actual);
2238 			break;
2239 		case -EILSEQ:
2240 			printk(KERN_ERR "%s: CRC mismatch: expected %04x, "
2241 				"actual %04x\n", __func__, local_expected,
2242 				local_actual);
2243 			break;
2244 		case -EIO:
2245 			printk(KERN_ERR "%s: error: format isn't "
2246 				"recognized.\n", __func__);
2247 			break;
2248 		default:
2249 			printk(KERN_ERR "%s: CRC function returned error "
2250 				"code %d\n", __func__, status);
2251 			break;
2252 		}
2253 	}
2254 
2255 	return status;
2256 }
2257 
2258 static int altera_get_file_info(u8 *p,
2259 					s32 program_size,
2260 					int *format_version,
2261 					int *action_count,
2262 					int *procedure_count)
2263 {
2264 	int status = -EIO;
2265 	u32 first_word = 0;
2266 	int version = 0;
2267 
2268 	if (program_size <= 52L)
2269 		return status;
2270 
2271 	first_word = get_unaligned_be32(&p[0]);
2272 
2273 	if ((first_word == 0x4A414D00L) || (first_word == 0x4A414D01L)) {
2274 		status = 0;
2275 
2276 		version = (first_word & 1L);
2277 		*format_version = version + 1;
2278 
2279 		if (version > 0) {
2280 			*action_count = get_unaligned_be32(&p[48]);
2281 			*procedure_count = get_unaligned_be32(&p[52]);
2282 		}
2283 	}
2284 
2285 	return status;
2286 }
2287 
2288 static int altera_get_act_info(u8 *p,
2289 					s32 program_size,
2290 					int index,
2291 					char **name,
2292 					char **description,
2293 					struct altera_procinfo **proc_list)
2294 {
2295 	int status = -EIO;
2296 	struct altera_procinfo *procptr = NULL;
2297 	struct altera_procinfo *tmpptr = NULL;
2298 	u32 first_word = 0L;
2299 	u32 action_table = 0L;
2300 	u32 proc_table = 0L;
2301 	u32 str_table = 0L;
2302 	u32 note_strings = 0L;
2303 	u32 action_count = 0L;
2304 	u32 proc_count = 0L;
2305 	u32 act_name_id = 0L;
2306 	u32 act_desc_id = 0L;
2307 	u32 act_proc_id = 0L;
2308 	u32 act_proc_name = 0L;
2309 	u8 act_proc_attribute = 0;
2310 
2311 	if (program_size <= 52L)
2312 		return status;
2313 	/* Read header information */
2314 	first_word = get_unaligned_be32(&p[0]);
2315 
2316 	if (first_word != 0x4A414D01L)
2317 		return status;
2318 
2319 	action_table = get_unaligned_be32(&p[4]);
2320 	proc_table   = get_unaligned_be32(&p[8]);
2321 	str_table = get_unaligned_be32(&p[12]);
2322 	note_strings = get_unaligned_be32(&p[16]);
2323 	action_count = get_unaligned_be32(&p[48]);
2324 	proc_count   = get_unaligned_be32(&p[52]);
2325 
2326 	if (index >= action_count)
2327 		return status;
2328 
2329 	act_name_id = get_unaligned_be32(&p[action_table + (12 * index)]);
2330 	act_desc_id = get_unaligned_be32(&p[action_table + (12 * index) + 4]);
2331 	act_proc_id = get_unaligned_be32(&p[action_table + (12 * index) + 8]);
2332 
2333 	*name = &p[str_table + act_name_id];
2334 
2335 	if (act_desc_id < (note_strings - str_table))
2336 		*description = &p[str_table + act_desc_id];
2337 
2338 	do {
2339 		act_proc_name = get_unaligned_be32(
2340 					&p[proc_table + (13 * act_proc_id)]);
2341 		act_proc_attribute =
2342 			(p[proc_table + (13 * act_proc_id) + 8] & 0x03);
2343 
2344 		procptr =
2345 				kzalloc(sizeof(struct altera_procinfo),
2346 								GFP_KERNEL);
2347 
2348 		if (procptr == NULL)
2349 			status = -ENOMEM;
2350 		else {
2351 			procptr->name = &p[str_table + act_proc_name];
2352 			procptr->attrs = act_proc_attribute;
2353 			procptr->next = NULL;
2354 
2355 			/* add record to end of linked list */
2356 			if (*proc_list == NULL)
2357 				*proc_list = procptr;
2358 			else {
2359 				tmpptr = *proc_list;
2360 				while (tmpptr->next != NULL)
2361 					tmpptr = tmpptr->next;
2362 				tmpptr->next = procptr;
2363 			}
2364 		}
2365 
2366 		act_proc_id = get_unaligned_be32(
2367 				&p[proc_table + (13 * act_proc_id) + 4]);
2368 	} while ((act_proc_id != 0) && (act_proc_id < proc_count));
2369 
2370 	return status;
2371 }
2372 
2373 int altera_init(struct altera_config *config, const struct firmware *fw)
2374 {
2375 	struct altera_state *astate = NULL;
2376 	struct altera_procinfo *proc_list = NULL;
2377 	struct altera_procinfo *procptr = NULL;
2378 	char *key = NULL;
2379 	char *value = NULL;
2380 	char *action_name = NULL;
2381 	char *description = NULL;
2382 	int exec_result = 0;
2383 	int exit_code = 0;
2384 	int format_version = 0;
2385 	int action_count = 0;
2386 	int procedure_count = 0;
2387 	int index = 0;
2388 	s32 offset = 0L;
2389 	s32 error_address = 0L;
2390 	int retval = 0;
2391 
2392 	key = kzalloc(33, GFP_KERNEL);
2393 	if (!key) {
2394 		retval = -ENOMEM;
2395 		goto out;
2396 	}
2397 	value = kzalloc(257, GFP_KERNEL);
2398 	if (!value) {
2399 		retval = -ENOMEM;
2400 		goto free_key;
2401 	}
2402 	astate = kzalloc(sizeof(struct altera_state), GFP_KERNEL);
2403 	if (!astate) {
2404 		retval = -ENOMEM;
2405 		goto free_value;
2406 	}
2407 
2408 	astate->config = config;
2409 	if (!astate->config->jtag_io) {
2410 		if (!IS_ENABLED(CONFIG_HAS_IOPORT)) {
2411 			retval = -ENODEV;
2412 			goto free_state;
2413 		}
2414 		dprintk("%s: using byteblaster!\n", __func__);
2415 		astate->config->jtag_io = netup_jtag_io_lpt;
2416 	}
2417 
2418 	altera_check_crc((u8 *)fw->data, fw->size);
2419 
2420 	if (debug) {
2421 		altera_get_file_info((u8 *)fw->data, fw->size, &format_version,
2422 					&action_count, &procedure_count);
2423 		printk(KERN_INFO "%s: File format is %s ByteCode format\n",
2424 			__func__, (format_version == 2) ? "Jam STAPL" :
2425 						"pre-standardized Jam 1.1");
2426 		while (altera_get_note((u8 *)fw->data, fw->size,
2427 					&offset, key, value, 32, 256) == 0)
2428 			printk(KERN_INFO "%s: NOTE \"%s\" = \"%s\"\n",
2429 					__func__, key, value);
2430 	}
2431 
2432 	if (debug && (format_version == 2) && (action_count > 0)) {
2433 		printk(KERN_INFO "%s: Actions available:\n", __func__);
2434 		for (index = 0; index < action_count; ++index) {
2435 			altera_get_act_info((u8 *)fw->data, fw->size,
2436 						index, &action_name,
2437 						&description,
2438 						&proc_list);
2439 
2440 			if (description == NULL)
2441 				printk(KERN_INFO "%s: %s\n",
2442 						__func__,
2443 						action_name);
2444 			else
2445 				printk(KERN_INFO "%s: %s \"%s\"\n",
2446 						__func__,
2447 						action_name,
2448 						description);
2449 
2450 			procptr = proc_list;
2451 			while (procptr != NULL) {
2452 				if (procptr->attrs != 0)
2453 					printk(KERN_INFO "%s:    %s (%s)\n",
2454 						__func__,
2455 						procptr->name,
2456 						(procptr->attrs == 1) ?
2457 						"optional" : "recommended");
2458 
2459 				proc_list = procptr->next;
2460 				kfree(procptr);
2461 				procptr = proc_list;
2462 			}
2463 		}
2464 
2465 		printk(KERN_INFO "\n");
2466 	}
2467 
2468 	exec_result = altera_execute(astate, (u8 *)fw->data, fw->size,
2469 				&error_address, &exit_code, &format_version);
2470 
2471 	if (exit_code)
2472 		exec_result = -EREMOTEIO;
2473 
2474 	if ((format_version == 2) && (exec_result == -EINVAL)) {
2475 		if (astate->config->action == NULL)
2476 			printk(KERN_ERR "%s: error: no action specified for "
2477 				"Jam STAPL file.\nprogram terminated.\n",
2478 				__func__);
2479 		else
2480 			printk(KERN_ERR "%s: error: action \"%s\""
2481 				" is not supported "
2482 				"for this Jam STAPL file.\n"
2483 				"Program terminated.\n", __func__,
2484 				astate->config->action);
2485 
2486 	} else if (exec_result)
2487 		printk(KERN_ERR "%s: error %d\n", __func__, exec_result);
2488 free_state:
2489 	kfree(astate);
2490 free_value:
2491 	kfree(value);
2492 free_key:
2493 	kfree(key);
2494 out:
2495 	return retval;
2496 }
2497 EXPORT_SYMBOL(altera_init);
2498