2007-06-13 Markus Deuling <deuling@de.ibm.com>
[deliverable/binutils-gdb.git] / gdb / remote-mips.c
CommitLineData
c906108c 1/* Remote debugging interface for MIPS remote debugging protocol.
0a65a603 2
6aba47ca
DJ
3 Copyright (C) 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002,
4 2003, 2004, 2006, 2007 Free Software Foundation, Inc.
0a65a603 5
c906108c
SS
6 Contributed by Cygnus Support. Written by Ian Lance Taylor
7 <ian@cygnus.com>.
8
c5aa993b 9 This file is part of GDB.
c906108c 10
c5aa993b
JM
11 This program is free software; you can redistribute it and/or modify
12 it under the terms of the GNU General Public License as published by
13 the Free Software Foundation; either version 2 of the License, or
14 (at your option) any later version.
c906108c 15
c5aa993b
JM
16 This program is distributed in the hope that it will be useful,
17 but WITHOUT ANY WARRANTY; without even the implied warranty of
18 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 GNU General Public License for more details.
c906108c 20
c5aa993b
JM
21 You should have received a copy of the GNU General Public License
22 along with this program; if not, write to the Free Software
197e01b6
EZ
23 Foundation, Inc., 51 Franklin Street, Fifth Floor,
24 Boston, MA 02110-1301, USA. */
c906108c
SS
25
26#include "defs.h"
27#include "inferior.h"
28#include "bfd.h"
29#include "symfile.h"
c906108c
SS
30#include "gdbcmd.h"
31#include "gdbcore.h"
32#include "serial.h"
33#include "target.h"
60250e8b 34#include "exceptions.h"
c906108c 35#include "gdb_string.h"
ba79cc81 36#include "gdb_stat.h"
4e052eda 37#include "regcache.h"
59d521c1 38#include <ctype.h>
56cea623 39#include "mips-tdep.h"
c906108c 40\f
c5aa993b 41
c906108c
SS
42/* Breakpoint types. Values 0, 1, and 2 must agree with the watch
43 types passed by breakpoint.c to target_insert_watchpoint.
44 Value 3 is our own invention, and is used for ordinary instruction
45 breakpoints. Value 4 is used to mark an unused watchpoint in tables. */
c5aa993b
JM
46enum break_type
47 {
48 BREAK_WRITE, /* 0 */
49 BREAK_READ, /* 1 */
50 BREAK_ACCESS, /* 2 */
51 BREAK_FETCH, /* 3 */
52 BREAK_UNUSED /* 4 */
53 };
c906108c
SS
54
55/* Prototypes for local functions. */
56
a14ed312 57static int mips_readchar (int timeout);
c906108c 58
a14ed312
KB
59static int mips_receive_header (unsigned char *hdr, int *pgarbage,
60 int ch, int timeout);
c906108c 61
a14ed312
KB
62static int mips_receive_trailer (unsigned char *trlr, int *pgarbage,
63 int *pch, int timeout);
c906108c 64
a14ed312
KB
65static int mips_cksum (const unsigned char *hdr,
66 const unsigned char *data, int len);
c906108c 67
a14ed312 68static void mips_send_packet (const char *s, int get_ack);
c906108c 69
a14ed312 70static void mips_send_command (const char *cmd, int prompt);
c906108c 71
a14ed312 72static int mips_receive_packet (char *buff, int throw_error, int timeout);
c906108c 73
4014092b
AC
74static ULONGEST mips_request (int cmd, ULONGEST addr, ULONGEST data,
75 int *perr, int timeout, char *buff);
c906108c 76
a14ed312 77static void mips_initialize (void);
c906108c 78
a14ed312 79static void mips_open (char *name, int from_tty);
c906108c 80
a14ed312 81static void pmon_open (char *name, int from_tty);
c906108c 82
a14ed312 83static void ddb_open (char *name, int from_tty);
c906108c 84
a14ed312 85static void lsi_open (char *name, int from_tty);
c906108c 86
a14ed312 87static void mips_close (int quitting);
c906108c 88
a14ed312 89static void mips_detach (char *args, int from_tty);
c906108c 90
39f77062
KB
91static void mips_resume (ptid_t ptid, int step,
92 enum target_signal siggnal);
c906108c 93
39f77062
KB
94static ptid_t mips_wait (ptid_t ptid,
95 struct target_waitstatus *status);
c906108c 96
a14ed312 97static int mips_map_regno (int regno);
c906108c 98
56be3814 99static void mips_fetch_registers (struct regcache *regcache, int regno);
c906108c 100
316f2060 101static void mips_prepare_to_store (struct regcache *regcache);
c906108c 102
56be3814 103static void mips_store_registers (struct regcache *regcache, int regno);
c906108c 104
a14ed312 105static unsigned int mips_fetch_word (CORE_ADDR addr);
c906108c 106
a14ed312
KB
107static int mips_store_word (CORE_ADDR addr, unsigned int value,
108 char *old_contents);
c906108c 109
7d12900b 110static int mips_xfer_memory (CORE_ADDR memaddr, gdb_byte *myaddr, int len,
29e57380
C
111 int write,
112 struct mem_attrib *attrib,
113 struct target_ops *target);
c906108c 114
a14ed312 115static void mips_files_info (struct target_ops *ignore);
c906108c 116
a14ed312 117static void mips_mourn_inferior (void);
c906108c 118
a14ed312 119static int pmon_makeb64 (unsigned long v, char *p, int n, int *chksum);
c906108c 120
a14ed312
KB
121static int pmon_zeroset (int recsize, char **buff, int *amount,
122 unsigned int *chksum);
c906108c 123
a14ed312 124static int pmon_checkset (int recsize, char **buff, int *value);
c906108c 125
a14ed312
KB
126static void pmon_make_fastrec (char **outbuf, unsigned char *inbuf,
127 int *inptr, int inamount, int *recsize,
128 unsigned int *csum, unsigned int *zerofill);
c906108c 129
a14ed312 130static int pmon_check_ack (char *mesg);
c906108c 131
a14ed312 132static void pmon_start_download (void);
c906108c 133
a14ed312 134static void pmon_end_download (int final, int bintotal);
c906108c 135
a14ed312 136static void pmon_download (char *buffer, int length);
c906108c 137
a14ed312 138static void pmon_load_fast (char *file);
c906108c 139
a14ed312 140static void mips_load (char *file, int from_tty);
c906108c 141
a14ed312
KB
142static int mips_make_srec (char *buffer, int type, CORE_ADDR memaddr,
143 unsigned char *myaddr, int len);
c906108c 144
a14ed312 145static int set_breakpoint (CORE_ADDR addr, int len, enum break_type type);
c906108c 146
a14ed312 147static int clear_breakpoint (CORE_ADDR addr, int len, enum break_type type);
c906108c 148
a14ed312
KB
149static int common_breakpoint (int set, CORE_ADDR addr, int len,
150 enum break_type type);
c906108c
SS
151
152/* Forward declarations. */
153extern struct target_ops mips_ops;
154extern struct target_ops pmon_ops;
155extern struct target_ops ddb_ops;
c5aa993b 156\f/* *INDENT-OFF* */
c906108c
SS
157/* The MIPS remote debugging interface is built on top of a simple
158 packet protocol. Each packet is organized as follows:
159
c5aa993b
JM
160 SYN The first character is always a SYN (ASCII 026, or ^V). SYN
161 may not appear anywhere else in the packet. Any time a SYN is
162 seen, a new packet should be assumed to have begun.
c906108c
SS
163
164 TYPE_LEN
c5aa993b
JM
165 This byte contains the upper five bits of the logical length
166 of the data section, plus a single bit indicating whether this
167 is a data packet or an acknowledgement. The documentation
168 indicates that this bit is 1 for a data packet, but the actual
169 board uses 1 for an acknowledgement. The value of the byte is
170 0x40 + (ack ? 0x20 : 0) + (len >> 6)
171 (we always have 0 <= len < 1024). Acknowledgement packets do
172 not carry data, and must have a data length of 0.
c906108c
SS
173
174 LEN1 This byte contains the lower six bits of the logical length of
c5aa993b
JM
175 the data section. The value is
176 0x40 + (len & 0x3f)
177
178 SEQ This byte contains the six bit sequence number of the packet.
179 The value is
180 0x40 + seq
181 An acknowlegment packet contains the sequence number of the
182 packet being acknowledged plus 1 modulo 64. Data packets are
183 transmitted in sequence. There may only be one outstanding
184 unacknowledged data packet at a time. The sequence numbers
185 are independent in each direction. If an acknowledgement for
186 the previous packet is received (i.e., an acknowledgement with
187 the sequence number of the packet just sent) the packet just
188 sent should be retransmitted. If no acknowledgement is
189 received within a timeout period, the packet should be
190 retransmitted. This has an unfortunate failure condition on a
191 high-latency line, as a delayed acknowledgement may lead to an
192 endless series of duplicate packets.
193
194 DATA The actual data bytes follow. The following characters are
195 escaped inline with DLE (ASCII 020, or ^P):
196 SYN (026) DLE S
197 DLE (020) DLE D
198 ^C (003) DLE C
199 ^S (023) DLE s
200 ^Q (021) DLE q
201 The additional DLE characters are not counted in the logical
202 length stored in the TYPE_LEN and LEN1 bytes.
c906108c
SS
203
204 CSUM1
205 CSUM2
206 CSUM3
c5aa993b
JM
207 These bytes contain an 18 bit checksum of the complete
208 contents of the packet excluding the SEQ byte and the
209 CSUM[123] bytes. The checksum is simply the twos complement
210 addition of all the bytes treated as unsigned characters. The
211 values of the checksum bytes are:
212 CSUM1: 0x40 + ((cksum >> 12) & 0x3f)
213 CSUM2: 0x40 + ((cksum >> 6) & 0x3f)
214 CSUM3: 0x40 + (cksum & 0x3f)
c906108c
SS
215
216 It happens that the MIPS remote debugging protocol always
217 communicates with ASCII strings. Because of this, this
218 implementation doesn't bother to handle the DLE quoting mechanism,
219 since it will never be required. */
9846de1b 220/* *INDENT-ON* */
c906108c 221
c5aa993b 222
c906108c
SS
223/* The SYN character which starts each packet. */
224#define SYN '\026'
225
226/* The 0x40 used to offset each packet (this value ensures that all of
227 the header and trailer bytes, other than SYN, are printable ASCII
228 characters). */
229#define HDR_OFFSET 0x40
230
231/* The indices of the bytes in the packet header. */
232#define HDR_INDX_SYN 0
233#define HDR_INDX_TYPE_LEN 1
234#define HDR_INDX_LEN1 2
235#define HDR_INDX_SEQ 3
236#define HDR_LENGTH 4
237
238/* The data/ack bit in the TYPE_LEN header byte. */
239#define TYPE_LEN_DA_BIT 0x20
240#define TYPE_LEN_DATA 0
241#define TYPE_LEN_ACK TYPE_LEN_DA_BIT
242
243/* How to compute the header bytes. */
244#define HDR_SET_SYN(data, len, seq) (SYN)
245#define HDR_SET_TYPE_LEN(data, len, seq) \
246 (HDR_OFFSET \
247 + ((data) ? TYPE_LEN_DATA : TYPE_LEN_ACK) \
248 + (((len) >> 6) & 0x1f))
249#define HDR_SET_LEN1(data, len, seq) (HDR_OFFSET + ((len) & 0x3f))
250#define HDR_SET_SEQ(data, len, seq) (HDR_OFFSET + (seq))
251
252/* Check that a header byte is reasonable. */
253#define HDR_CHECK(ch) (((ch) & HDR_OFFSET) == HDR_OFFSET)
254
255/* Get data from the header. These macros evaluate their argument
256 multiple times. */
257#define HDR_IS_DATA(hdr) \
258 (((hdr)[HDR_INDX_TYPE_LEN] & TYPE_LEN_DA_BIT) == TYPE_LEN_DATA)
259#define HDR_GET_LEN(hdr) \
260 ((((hdr)[HDR_INDX_TYPE_LEN] & 0x1f) << 6) + (((hdr)[HDR_INDX_LEN1] & 0x3f)))
261#define HDR_GET_SEQ(hdr) ((unsigned int)(hdr)[HDR_INDX_SEQ] & 0x3f)
262
263/* The maximum data length. */
264#define DATA_MAXLEN 1023
265
266/* The trailer offset. */
267#define TRLR_OFFSET HDR_OFFSET
268
269/* The indices of the bytes in the packet trailer. */
270#define TRLR_INDX_CSUM1 0
271#define TRLR_INDX_CSUM2 1
272#define TRLR_INDX_CSUM3 2
273#define TRLR_LENGTH 3
274
275/* How to compute the trailer bytes. */
276#define TRLR_SET_CSUM1(cksum) (TRLR_OFFSET + (((cksum) >> 12) & 0x3f))
277#define TRLR_SET_CSUM2(cksum) (TRLR_OFFSET + (((cksum) >> 6) & 0x3f))
278#define TRLR_SET_CSUM3(cksum) (TRLR_OFFSET + (((cksum) ) & 0x3f))
279
280/* Check that a trailer byte is reasonable. */
281#define TRLR_CHECK(ch) (((ch) & TRLR_OFFSET) == TRLR_OFFSET)
282
283/* Get data from the trailer. This evaluates its argument multiple
284 times. */
285#define TRLR_GET_CKSUM(trlr) \
286 ((((trlr)[TRLR_INDX_CSUM1] & 0x3f) << 12) \
287 + (((trlr)[TRLR_INDX_CSUM2] & 0x3f) << 6) \
288 + ((trlr)[TRLR_INDX_CSUM3] & 0x3f))
289
290/* The sequence number modulos. */
291#define SEQ_MODULOS (64)
292
293/* PMON commands to load from the serial port or UDP socket. */
294#define LOAD_CMD "load -b -s tty0\r"
295#define LOAD_CMD_UDP "load -b -s udp\r"
296
297/* The target vectors for the four different remote MIPS targets.
298 These are initialized with code in _initialize_remote_mips instead
299 of static initializers, to make it easier to extend the target_ops
300 vector later. */
301struct target_ops mips_ops, pmon_ops, ddb_ops, lsi_ops;
302
c5aa993b
JM
303enum mips_monitor_type
304 {
305 /* IDT/SIM monitor being used: */
306 MON_IDT,
307 /* PMON monitor being used: */
308 MON_PMON, /* 3.0.83 [COGENT,EB,FP,NET] Algorithmics Ltd. Nov 9 1995 17:19:50 */
309 MON_DDB, /* 2.7.473 [DDBVR4300,EL,FP,NET] Risq Modular Systems, Thu Jun 6 09:28:40 PDT 1996 */
310 MON_LSI, /* 4.3.12 [EB,FP], LSI LOGIC Corp. Tue Feb 25 13:22:14 1997 */
311 /* Last and unused value, for sizing vectors, etc. */
312 MON_LAST
313 };
c906108c
SS
314static enum mips_monitor_type mips_monitor = MON_LAST;
315
316/* The monitor prompt text. If the user sets the PMON prompt
317 to some new value, the GDB `set monitor-prompt' command must also
318 be used to inform GDB about the expected prompt. Otherwise, GDB
319 will not be able to connect to PMON in mips_initialize().
320 If the `set monitor-prompt' command is not used, the expected
321 default prompt will be set according the target:
c5aa993b
JM
322 target prompt
323 ----- -----
324 pmon PMON>
325 ddb NEC010>
326 lsi PMON>
327 */
c906108c
SS
328static char *mips_monitor_prompt;
329
330/* Set to 1 if the target is open. */
331static int mips_is_open;
332
333/* Currently active target description (if mips_is_open == 1) */
334static struct target_ops *current_ops;
335
336/* Set to 1 while the connection is being initialized. */
337static int mips_initializing;
338
339/* Set to 1 while the connection is being brought down. */
340static int mips_exiting;
341
342/* The next sequence number to send. */
343static unsigned int mips_send_seq;
344
345/* The next sequence number we expect to receive. */
346static unsigned int mips_receive_seq;
347
348/* The time to wait before retransmitting a packet, in seconds. */
349static int mips_retransmit_wait = 3;
350
351/* The number of times to try retransmitting a packet before giving up. */
352static int mips_send_retries = 10;
353
354/* The number of garbage characters to accept when looking for an
355 SYN for the next packet. */
59d521c1 356static int mips_syn_garbage = 10;
c906108c
SS
357
358/* The time to wait for a packet, in seconds. */
359static int mips_receive_wait = 5;
360
361/* Set if we have sent a packet to the board but have not yet received
362 a reply. */
363static int mips_need_reply = 0;
364
365/* Handle used to access serial I/O stream. */
819cc324 366static struct serial *mips_desc;
c906108c
SS
367
368/* UDP handle used to download files to target. */
819cc324 369static struct serial *udp_desc;
c906108c
SS
370static int udp_in_use;
371
372/* TFTP filename used to download files to DDB board, in the form
373 host:filename. */
374static char *tftp_name; /* host:filename */
375static char *tftp_localname; /* filename portion of above */
376static int tftp_in_use;
377static FILE *tftp_file;
378
379/* Counts the number of times the user tried to interrupt the target (usually
380 via ^C. */
381static int interrupt_count;
382
383/* If non-zero, means that the target is running. */
384static int mips_wait_flag = 0;
385
386/* If non-zero, monitor supports breakpoint commands. */
d4f3574e 387static int monitor_supports_breakpoints = 0;
c906108c
SS
388
389/* Data cache header. */
390
c5aa993b 391#if 0 /* not used (yet?) */
c906108c
SS
392static DCACHE *mips_dcache;
393#endif
394
395/* Non-zero means that we've just hit a read or write watchpoint */
396static int hit_watchpoint;
397
398/* Table of breakpoints/watchpoints (used only on LSI PMON target).
399 The table is indexed by a breakpoint number, which is an integer
400 from 0 to 255 returned by the LSI PMON when a breakpoint is set.
c5aa993b 401 */
c906108c
SS
402#define MAX_LSI_BREAKPOINTS 256
403struct lsi_breakpoint_info
c5aa993b
JM
404 {
405 enum break_type type; /* type of breakpoint */
406 CORE_ADDR addr; /* address of breakpoint */
407 int len; /* length of region being watched */
408 unsigned long value; /* value to watch */
409 }
410lsi_breakpoints[MAX_LSI_BREAKPOINTS];
c906108c
SS
411
412/* Error/warning codes returned by LSI PMON for breakpoint commands.
413 Warning values may be ORed together; error values may not. */
c5aa993b
JM
414#define W_WARN 0x100 /* This bit is set if the error code is a warning */
415#define W_MSK 0x101 /* warning: Range feature is supported via mask */
416#define W_VAL 0x102 /* warning: Value check is not supported in hardware */
417#define W_QAL 0x104 /* warning: Requested qualifiers are not supported in hardware */
418
419#define E_ERR 0x200 /* This bit is set if the error code is an error */
420#define E_BPT 0x200 /* error: No such breakpoint number */
421#define E_RGE 0x201 /* error: Range is not supported */
422#define E_QAL 0x202 /* error: The requested qualifiers can not be used */
423#define E_OUT 0x203 /* error: Out of hardware resources */
424#define E_NON 0x204 /* error: Hardware breakpoint not supported */
c906108c
SS
425
426struct lsi_error
c5aa993b
JM
427 {
428 int code; /* error code */
429 char *string; /* string associated with this code */
430 };
c906108c
SS
431
432struct lsi_error lsi_warning_table[] =
433{
c5aa993b
JM
434 {W_MSK, "Range feature is supported via mask"},
435 {W_VAL, "Value check is not supported in hardware"},
436 {W_QAL, "Requested qualifiers are not supported in hardware"},
437 {0, NULL}
c906108c
SS
438};
439
440struct lsi_error lsi_error_table[] =
c5aa993b
JM
441{
442 {E_BPT, "No such breakpoint number"},
443 {E_RGE, "Range is not supported"},
444 {E_QAL, "The requested qualifiers can not be used"},
445 {E_OUT, "Out of hardware resources"},
446 {E_NON, "Hardware breakpoint not supported"},
447 {0, NULL}
c906108c
SS
448};
449
450/* Set to 1 with the 'set monitor-warnings' command to enable printing
451 of warnings returned by PMON when hardware breakpoints are used. */
452static int monitor_warnings;
453
454
455static void
fba45db2 456close_ports (void)
c906108c
SS
457{
458 mips_is_open = 0;
2cd58942 459 serial_close (mips_desc);
c906108c
SS
460
461 if (udp_in_use)
462 {
2cd58942 463 serial_close (udp_desc);
c906108c
SS
464 udp_in_use = 0;
465 }
466 tftp_in_use = 0;
467}
c5aa993b 468
c906108c
SS
469/* Handle low-level error that we can't recover from. Note that just
470 error()ing out from target_wait or some such low-level place will cause
471 all hell to break loose--the rest of GDB will tend to get left in an
472 inconsistent state. */
473
474static NORETURN void
c5aa993b 475mips_error (char *string,...)
c906108c
SS
476{
477 va_list args;
478
c906108c 479 va_start (args, string);
c5aa993b 480
c906108c 481 target_terminal_ours ();
c5aa993b 482 wrap_here (""); /* Force out any buffered output */
c906108c
SS
483 gdb_flush (gdb_stdout);
484 if (error_pre_print)
ab4e3d93 485 fputs_filtered (error_pre_print, gdb_stderr);
c906108c
SS
486 vfprintf_filtered (gdb_stderr, string, args);
487 fprintf_filtered (gdb_stderr, "\n");
488 va_end (args);
489 gdb_flush (gdb_stderr);
490
491 /* Clean up in such a way that mips_close won't try to talk to the
492 board (it almost surely won't work since we weren't able to talk to
493 it). */
494 close_ports ();
495
496 printf_unfiltered ("Ending remote MIPS debugging.\n");
497 target_mourn_inferior ();
498
315a522e 499 deprecated_throw_reason (RETURN_ERROR);
c906108c
SS
500}
501
502/* putc_readable - print a character, displaying non-printable chars in
503 ^x notation or in hex. */
504
505static void
fba45db2 506fputc_readable (int ch, struct ui_file *file)
c906108c
SS
507{
508 if (ch == '\n')
9846de1b 509 fputc_unfiltered ('\n', file);
c906108c 510 else if (ch == '\r')
9846de1b 511 fprintf_unfiltered (file, "\\r");
c5aa993b 512 else if (ch < 0x20) /* ASCII control character */
9846de1b 513 fprintf_unfiltered (file, "^%c", ch + '@');
c5aa993b 514 else if (ch >= 0x7f) /* non-ASCII characters (rubout or greater) */
9846de1b 515 fprintf_unfiltered (file, "[%02x]", ch & 0xff);
c906108c 516 else
9846de1b 517 fputc_unfiltered (ch, file);
c906108c
SS
518}
519
520
521/* puts_readable - print a string, displaying non-printable chars in
522 ^x notation or in hex. */
523
524static void
98691afe 525fputs_readable (const char *string, struct ui_file *file)
c906108c
SS
526{
527 int c;
528
529 while ((c = *string++) != '\0')
9846de1b 530 fputc_readable (c, file);
c906108c
SS
531}
532
533
534/* Wait until STRING shows up in mips_desc. Returns 1 if successful, else 0 if
535 timed out. TIMEOUT specifies timeout value in seconds.
c5aa993b 536 */
c906108c 537
a78f21af 538static int
98691afe 539mips_expect_timeout (const char *string, int timeout)
c906108c 540{
98691afe 541 const char *p = string;
c906108c
SS
542
543 if (remote_debug)
544 {
9846de1b
JM
545 fprintf_unfiltered (gdb_stdlog, "Expected \"");
546 fputs_readable (string, gdb_stdlog);
547 fprintf_unfiltered (gdb_stdlog, "\", got \"");
c906108c
SS
548 }
549
8edbea78 550 immediate_quit++;
c906108c
SS
551 while (1)
552 {
553 int c;
554
2cd58942
AC
555 /* Must use serial_readchar() here cuz mips_readchar would get
556 confused if we were waiting for the mips_monitor_prompt... */
c906108c 557
2cd58942 558 c = serial_readchar (mips_desc, timeout);
c906108c
SS
559
560 if (c == SERIAL_TIMEOUT)
561 {
562 if (remote_debug)
9846de1b 563 fprintf_unfiltered (gdb_stdlog, "\": FAIL\n");
c906108c
SS
564 return 0;
565 }
566
567 if (remote_debug)
9846de1b 568 fputc_readable (c, gdb_stdlog);
c906108c
SS
569
570 if (c == *p++)
c5aa993b 571 {
c906108c
SS
572 if (*p == '\0')
573 {
8edbea78 574 immediate_quit--;
c906108c 575 if (remote_debug)
9846de1b 576 fprintf_unfiltered (gdb_stdlog, "\": OK\n");
c906108c
SS
577 return 1;
578 }
579 }
580 else
581 {
582 p = string;
583 if (c == *p)
584 p++;
585 }
586 }
587}
588
589/* Wait until STRING shows up in mips_desc. Returns 1 if successful, else 0 if
590 timed out. The timeout value is hard-coded to 2 seconds. Use
591 mips_expect_timeout if a different timeout value is needed.
c5aa993b 592 */
c906108c 593
a78f21af 594static int
98691afe 595mips_expect (const char *string)
c906108c 596{
688991e6 597 return mips_expect_timeout (string, remote_timeout);
c906108c
SS
598}
599
c906108c 600/* Read a character from the remote, aborting on error. Returns
2cd58942
AC
601 SERIAL_TIMEOUT on timeout (since that's what serial_readchar()
602 returns). FIXME: If we see the string mips_monitor_prompt from the
603 board, then we are debugging on the main console port, and we have
604 somehow dropped out of remote debugging mode. In this case, we
605 automatically go back in to remote debugging mode. This is a hack,
606 put in because I can't find any way for a program running on the
607 remote board to terminate without also ending remote debugging
c906108c
SS
608 mode. I assume users won't have any trouble with this; for one
609 thing, the IDT documentation generally assumes that the remote
610 debugging port is not the console port. This is, however, very
611 convenient for DejaGnu when you only have one connected serial
612 port. */
613
614static int
fba45db2 615mips_readchar (int timeout)
c906108c
SS
616{
617 int ch;
618 static int state = 0;
619 int mips_monitor_prompt_len = strlen (mips_monitor_prompt);
620
c906108c
SS
621 {
622 int i;
623
624 i = timeout;
625 if (i == -1 && watchdog > 0)
c5aa993b 626 i = watchdog;
c906108c 627 }
c906108c
SS
628
629 if (state == mips_monitor_prompt_len)
630 timeout = 1;
2cd58942 631 ch = serial_readchar (mips_desc, timeout);
7a292a7a 632
c5aa993b 633 if (ch == SERIAL_TIMEOUT && timeout == -1) /* Watchdog went off */
c906108c
SS
634 {
635 target_mourn_inferior ();
636 error ("Watchdog has expired. Target detached.\n");
637 }
7a292a7a 638
c906108c
SS
639 if (ch == SERIAL_EOF)
640 mips_error ("End of file from remote");
641 if (ch == SERIAL_ERROR)
642 mips_error ("Error reading from remote: %s", safe_strerror (errno));
643 if (remote_debug > 1)
644 {
645 /* Don't use _filtered; we can't deal with a QUIT out of
c5aa993b 646 target_wait, and I think this might be called from there. */
c906108c 647 if (ch != SERIAL_TIMEOUT)
9846de1b 648 fprintf_unfiltered (gdb_stdlog, "Read '%c' %d 0x%x\n", ch, ch, ch);
c906108c 649 else
9846de1b 650 fprintf_unfiltered (gdb_stdlog, "Timed out in read\n");
c906108c
SS
651 }
652
653 /* If we have seen mips_monitor_prompt and we either time out, or
654 we see a @ (which was echoed from a packet we sent), reset the
655 board as described above. The first character in a packet after
656 the SYN (which is not echoed) is always an @ unless the packet is
657 more than 64 characters long, which ours never are. */
658 if ((ch == SERIAL_TIMEOUT || ch == '@')
659 && state == mips_monitor_prompt_len
c5aa993b
JM
660 && !mips_initializing
661 && !mips_exiting)
c906108c
SS
662 {
663 if (remote_debug > 0)
664 /* Don't use _filtered; we can't deal with a QUIT out of
665 target_wait, and I think this might be called from there. */
9846de1b 666 fprintf_unfiltered (gdb_stdlog, "Reinitializing MIPS debugging mode\n");
c906108c
SS
667
668 mips_need_reply = 0;
669 mips_initialize ();
670
671 state = 0;
672
673 /* At this point, about the only thing we can do is abort the command
c5aa993b 674 in progress and get back to command level as quickly as possible. */
c906108c
SS
675
676 error ("Remote board reset, debug protocol re-initialized.");
677 }
678
679 if (ch == mips_monitor_prompt[state])
680 ++state;
681 else
682 state = 0;
683
684 return ch;
685}
686
687/* Get a packet header, putting the data in the supplied buffer.
688 PGARBAGE is a pointer to the number of garbage characters received
689 so far. CH is the last character received. Returns 0 for success,
690 or -1 for timeout. */
691
692static int
fba45db2 693mips_receive_header (unsigned char *hdr, int *pgarbage, int ch, int timeout)
c906108c
SS
694{
695 int i;
696
697 while (1)
698 {
699 /* Wait for a SYN. mips_syn_garbage is intended to prevent
c5aa993b
JM
700 sitting here indefinitely if the board sends us one garbage
701 character per second. ch may already have a value from the
702 last time through the loop. */
c906108c
SS
703 while (ch != SYN)
704 {
705 ch = mips_readchar (timeout);
706 if (ch == SERIAL_TIMEOUT)
c5aa993b 707 return -1;
c906108c
SS
708 if (ch != SYN)
709 {
710 /* Printing the character here lets the user of gdb see
c5aa993b 711 what the program is outputting, if the debugging is
59d521c1
AC
712 being done on the console port. Don't use _filtered:
713 we can't deal with a QUIT out of target_wait and
714 buffered target output confuses the user. */
715 if (!mips_initializing || remote_debug > 0)
716 {
717 if (isprint (ch) || isspace (ch))
718 {
719 fputc_unfiltered (ch, gdb_stdtarg);
720 }
721 else
722 {
723 fputc_readable (ch, gdb_stdtarg);
724 }
725 gdb_flush (gdb_stdtarg);
726 }
727
728 /* Only count unprintable characters. */
729 if (! (isprint (ch) || isspace (ch)))
730 (*pgarbage) += 1;
731
c906108c
SS
732 if (mips_syn_garbage > 0
733 && *pgarbage > mips_syn_garbage)
c5aa993b 734 mips_error ("Debug protocol failure: more than %d characters before a sync.",
c906108c
SS
735 mips_syn_garbage);
736 }
737 }
738
739 /* Get the packet header following the SYN. */
740 for (i = 1; i < HDR_LENGTH; i++)
741 {
742 ch = mips_readchar (timeout);
743 if (ch == SERIAL_TIMEOUT)
c5aa993b 744 return -1;
c906108c 745 /* Make sure this is a header byte. */
c5aa993b 746 if (ch == SYN || !HDR_CHECK (ch))
c906108c
SS
747 break;
748
749 hdr[i] = ch;
750 }
751
752 /* If we got the complete header, we can return. Otherwise we
c5aa993b 753 loop around and keep looking for SYN. */
c906108c 754 if (i >= HDR_LENGTH)
c5aa993b 755 return 0;
c906108c
SS
756 }
757}
758
759/* Get a packet header, putting the data in the supplied buffer.
760 PGARBAGE is a pointer to the number of garbage characters received
761 so far. The last character read is returned in *PCH. Returns 0
762 for success, -1 for timeout, -2 for error. */
763
764static int
fba45db2 765mips_receive_trailer (unsigned char *trlr, int *pgarbage, int *pch, int timeout)
c906108c
SS
766{
767 int i;
768 int ch;
769
770 for (i = 0; i < TRLR_LENGTH; i++)
771 {
772 ch = mips_readchar (timeout);
773 *pch = ch;
774 if (ch == SERIAL_TIMEOUT)
775 return -1;
c5aa993b 776 if (!TRLR_CHECK (ch))
c906108c
SS
777 return -2;
778 trlr[i] = ch;
779 }
780 return 0;
781}
782
783/* Get the checksum of a packet. HDR points to the packet header.
784 DATA points to the packet data. LEN is the length of DATA. */
785
786static int
fba45db2 787mips_cksum (const unsigned char *hdr, const unsigned char *data, int len)
c906108c 788{
52f0bd74
AC
789 const unsigned char *p;
790 int c;
791 int cksum;
c906108c
SS
792
793 cksum = 0;
794
795 /* The initial SYN is not included in the checksum. */
796 c = HDR_LENGTH - 1;
797 p = hdr + 1;
798 while (c-- != 0)
799 cksum += *p++;
c5aa993b 800
c906108c
SS
801 c = len;
802 p = data;
803 while (c-- != 0)
804 cksum += *p++;
805
806 return cksum;
807}
808
809/* Send a packet containing the given ASCII string. */
810
811static void
fba45db2 812mips_send_packet (const char *s, int get_ack)
c906108c
SS
813{
814 /* unsigned */ int len;
815 unsigned char *packet;
52f0bd74 816 int cksum;
c906108c
SS
817 int try;
818
819 len = strlen (s);
820 if (len > DATA_MAXLEN)
821 mips_error ("MIPS protocol data packet too long: %s", s);
822
823 packet = (unsigned char *) alloca (HDR_LENGTH + len + TRLR_LENGTH + 1);
824
825 packet[HDR_INDX_SYN] = HDR_SET_SYN (1, len, mips_send_seq);
826 packet[HDR_INDX_TYPE_LEN] = HDR_SET_TYPE_LEN (1, len, mips_send_seq);
827 packet[HDR_INDX_LEN1] = HDR_SET_LEN1 (1, len, mips_send_seq);
828 packet[HDR_INDX_SEQ] = HDR_SET_SEQ (1, len, mips_send_seq);
829
830 memcpy (packet + HDR_LENGTH, s, len);
831
832 cksum = mips_cksum (packet, packet + HDR_LENGTH, len);
833 packet[HDR_LENGTH + len + TRLR_INDX_CSUM1] = TRLR_SET_CSUM1 (cksum);
834 packet[HDR_LENGTH + len + TRLR_INDX_CSUM2] = TRLR_SET_CSUM2 (cksum);
835 packet[HDR_LENGTH + len + TRLR_INDX_CSUM3] = TRLR_SET_CSUM3 (cksum);
836
837 /* Increment the sequence number. This will set mips_send_seq to
838 the sequence number we expect in the acknowledgement. */
839 mips_send_seq = (mips_send_seq + 1) % SEQ_MODULOS;
840
841 /* We can only have one outstanding data packet, so we just wait for
842 the acknowledgement here. Keep retransmitting the packet until
843 we get one, or until we've tried too many times. */
844 for (try = 0; try < mips_send_retries; try++)
845 {
846 int garbage;
847 int ch;
848
849 if (remote_debug > 0)
850 {
851 /* Don't use _filtered; we can't deal with a QUIT out of
852 target_wait, and I think this might be called from there. */
853 packet[HDR_LENGTH + len + TRLR_LENGTH] = '\0';
9846de1b 854 fprintf_unfiltered (gdb_stdlog, "Writing \"%s\"\n", packet + 1);
c906108c
SS
855 }
856
2cd58942 857 if (serial_write (mips_desc, packet,
c906108c
SS
858 HDR_LENGTH + len + TRLR_LENGTH) != 0)
859 mips_error ("write to target failed: %s", safe_strerror (errno));
860
c5aa993b 861 if (!get_ack)
c906108c
SS
862 return;
863
864 garbage = 0;
865 ch = 0;
866 while (1)
867 {
868 unsigned char hdr[HDR_LENGTH + 1];
869 unsigned char trlr[TRLR_LENGTH + 1];
870 int err;
871 unsigned int seq;
872
873 /* Get the packet header. If we time out, resend the data
874 packet. */
875 err = mips_receive_header (hdr, &garbage, ch, mips_retransmit_wait);
876 if (err != 0)
877 break;
878
879 ch = 0;
880
881 /* If we get a data packet, assume it is a duplicate and
882 ignore it. FIXME: If the acknowledgement is lost, this
883 data packet may be the packet the remote sends after the
884 acknowledgement. */
c5aa993b
JM
885 if (HDR_IS_DATA (hdr))
886 {
887 int i;
888
889 /* Ignore any errors raised whilst attempting to ignore
890 packet. */
891
892 len = HDR_GET_LEN (hdr);
893
894 for (i = 0; i < len; i++)
895 {
896 int rch;
897
688991e6 898 rch = mips_readchar (remote_timeout);
c5aa993b
JM
899 if (rch == SYN)
900 {
901 ch = SYN;
902 break;
903 }
904 if (rch == SERIAL_TIMEOUT)
905 break;
906 /* ignore the character */
907 }
908
909 if (i == len)
688991e6
AC
910 (void) mips_receive_trailer (trlr, &garbage, &ch,
911 remote_timeout);
c5aa993b
JM
912
913 /* We don't bother checking the checksum, or providing an
914 ACK to the packet. */
915 continue;
916 }
c906108c
SS
917
918 /* If the length is not 0, this is a garbled packet. */
919 if (HDR_GET_LEN (hdr) != 0)
920 continue;
921
922 /* Get the packet trailer. */
923 err = mips_receive_trailer (trlr, &garbage, &ch,
924 mips_retransmit_wait);
925
926 /* If we timed out, resend the data packet. */
927 if (err == -1)
928 break;
929
930 /* If we got a bad character, reread the header. */
931 if (err != 0)
932 continue;
933
934 /* If the checksum does not match the trailer checksum, this
935 is a bad packet; ignore it. */
936 if (mips_cksum (hdr, (unsigned char *) NULL, 0)
937 != TRLR_GET_CKSUM (trlr))
938 continue;
939
940 if (remote_debug > 0)
941 {
942 hdr[HDR_LENGTH] = '\0';
943 trlr[TRLR_LENGTH] = '\0';
944 /* Don't use _filtered; we can't deal with a QUIT out of
c5aa993b 945 target_wait, and I think this might be called from there. */
9846de1b
JM
946 fprintf_unfiltered (gdb_stdlog, "Got ack %d \"%s%s\"\n",
947 HDR_GET_SEQ (hdr), hdr + 1, trlr);
c906108c
SS
948 }
949
950 /* If this ack is for the current packet, we're done. */
951 seq = HDR_GET_SEQ (hdr);
952 if (seq == mips_send_seq)
953 return;
954
955 /* If this ack is for the last packet, resend the current
956 packet. */
957 if ((seq + 1) % SEQ_MODULOS == mips_send_seq)
958 break;
959
960 /* Otherwise this is a bad ack; ignore it. Increment the
961 garbage count to ensure that we do not stay in this loop
962 forever. */
963 ++garbage;
964 }
965 }
966
967 mips_error ("Remote did not acknowledge packet");
968}
969
970/* Receive and acknowledge a packet, returning the data in BUFF (which
971 should be DATA_MAXLEN + 1 bytes). The protocol documentation
972 implies that only the sender retransmits packets, so this code just
973 waits silently for a packet. It returns the length of the received
974 packet. If THROW_ERROR is nonzero, call error() on errors. If not,
975 don't print an error message and return -1. */
976
977static int
fba45db2 978mips_receive_packet (char *buff, int throw_error, int timeout)
c906108c
SS
979{
980 int ch;
981 int garbage;
982 int len;
983 unsigned char ack[HDR_LENGTH + TRLR_LENGTH + 1];
984 int cksum;
985
986 ch = 0;
987 garbage = 0;
988 while (1)
989 {
990 unsigned char hdr[HDR_LENGTH];
991 unsigned char trlr[TRLR_LENGTH];
992 int i;
993 int err;
994
995 if (mips_receive_header (hdr, &garbage, ch, timeout) != 0)
996 {
997 if (throw_error)
998 mips_error ("Timed out waiting for remote packet");
999 else
1000 return -1;
1001 }
1002
1003 ch = 0;
1004
1005 /* An acknowledgement is probably a duplicate; ignore it. */
c5aa993b 1006 if (!HDR_IS_DATA (hdr))
c906108c 1007 {
c5aa993b
JM
1008 len = HDR_GET_LEN (hdr);
1009 /* Check if the length is valid for an ACK, we may aswell
1010 try and read the remainder of the packet: */
1011 if (len == 0)
1012 {
1013 /* Ignore the error condition, since we are going to
1014 ignore the packet anyway. */
1015 (void) mips_receive_trailer (trlr, &garbage, &ch, timeout);
1016 }
c906108c
SS
1017 /* Don't use _filtered; we can't deal with a QUIT out of
1018 target_wait, and I think this might be called from there. */
1019 if (remote_debug > 0)
9846de1b 1020 fprintf_unfiltered (gdb_stdlog, "Ignoring unexpected ACK\n");
c906108c
SS
1021 continue;
1022 }
1023
1024 len = HDR_GET_LEN (hdr);
1025 for (i = 0; i < len; i++)
1026 {
1027 int rch;
1028
1029 rch = mips_readchar (timeout);
1030 if (rch == SYN)
1031 {
1032 ch = SYN;
1033 break;
1034 }
1035 if (rch == SERIAL_TIMEOUT)
1036 {
1037 if (throw_error)
1038 mips_error ("Timed out waiting for remote packet");
1039 else
1040 return -1;
1041 }
1042 buff[i] = rch;
1043 }
1044
1045 if (i < len)
1046 {
1047 /* Don't use _filtered; we can't deal with a QUIT out of
1048 target_wait, and I think this might be called from there. */
1049 if (remote_debug > 0)
9846de1b
JM
1050 fprintf_unfiltered (gdb_stdlog,
1051 "Got new SYN after %d chars (wanted %d)\n",
1052 i, len);
c906108c
SS
1053 continue;
1054 }
1055
1056 err = mips_receive_trailer (trlr, &garbage, &ch, timeout);
1057 if (err == -1)
1058 {
1059 if (throw_error)
1060 mips_error ("Timed out waiting for packet");
1061 else
1062 return -1;
1063 }
1064 if (err == -2)
1065 {
1066 /* Don't use _filtered; we can't deal with a QUIT out of
1067 target_wait, and I think this might be called from there. */
1068 if (remote_debug > 0)
9846de1b 1069 fprintf_unfiltered (gdb_stdlog, "Got SYN when wanted trailer\n");
c906108c
SS
1070 continue;
1071 }
1072
1073 /* If this is the wrong sequence number, ignore it. */
1074 if (HDR_GET_SEQ (hdr) != mips_receive_seq)
1075 {
1076 /* Don't use _filtered; we can't deal with a QUIT out of
1077 target_wait, and I think this might be called from there. */
1078 if (remote_debug > 0)
9846de1b 1079 fprintf_unfiltered (gdb_stdlog,
c5aa993b
JM
1080 "Ignoring sequence number %d (want %d)\n",
1081 HDR_GET_SEQ (hdr), mips_receive_seq);
c906108c
SS
1082 continue;
1083 }
1084
1085 if (mips_cksum (hdr, buff, len) == TRLR_GET_CKSUM (trlr))
c5aa993b 1086 break;
c906108c
SS
1087
1088 if (remote_debug > 0)
1089 /* Don't use _filtered; we can't deal with a QUIT out of
1090 target_wait, and I think this might be called from there. */
1091 printf_unfiltered ("Bad checksum; data %d, trailer %d\n",
c5aa993b
JM
1092 mips_cksum (hdr, buff, len),
1093 TRLR_GET_CKSUM (trlr));
c906108c
SS
1094
1095 /* The checksum failed. Send an acknowledgement for the
c5aa993b 1096 previous packet to tell the remote to resend the packet. */
c906108c
SS
1097 ack[HDR_INDX_SYN] = HDR_SET_SYN (0, 0, mips_receive_seq);
1098 ack[HDR_INDX_TYPE_LEN] = HDR_SET_TYPE_LEN (0, 0, mips_receive_seq);
1099 ack[HDR_INDX_LEN1] = HDR_SET_LEN1 (0, 0, mips_receive_seq);
1100 ack[HDR_INDX_SEQ] = HDR_SET_SEQ (0, 0, mips_receive_seq);
1101
1102 cksum = mips_cksum (ack, (unsigned char *) NULL, 0);
1103
1104 ack[HDR_LENGTH + TRLR_INDX_CSUM1] = TRLR_SET_CSUM1 (cksum);
1105 ack[HDR_LENGTH + TRLR_INDX_CSUM2] = TRLR_SET_CSUM2 (cksum);
1106 ack[HDR_LENGTH + TRLR_INDX_CSUM3] = TRLR_SET_CSUM3 (cksum);
1107
1108 if (remote_debug > 0)
1109 {
1110 ack[HDR_LENGTH + TRLR_LENGTH] = '\0';
1111 /* Don't use _filtered; we can't deal with a QUIT out of
1112 target_wait, and I think this might be called from there. */
1113 printf_unfiltered ("Writing ack %d \"%s\"\n", mips_receive_seq,
c5aa993b 1114 ack + 1);
c906108c
SS
1115 }
1116
2cd58942 1117 if (serial_write (mips_desc, ack, HDR_LENGTH + TRLR_LENGTH) != 0)
c906108c
SS
1118 {
1119 if (throw_error)
1120 mips_error ("write to target failed: %s", safe_strerror (errno));
1121 else
1122 return -1;
1123 }
1124 }
1125
1126 if (remote_debug > 0)
1127 {
1128 buff[len] = '\0';
1129 /* Don't use _filtered; we can't deal with a QUIT out of
c5aa993b 1130 target_wait, and I think this might be called from there. */
c906108c
SS
1131 printf_unfiltered ("Got packet \"%s\"\n", buff);
1132 }
1133
1134 /* We got the packet. Send an acknowledgement. */
1135 mips_receive_seq = (mips_receive_seq + 1) % SEQ_MODULOS;
1136
1137 ack[HDR_INDX_SYN] = HDR_SET_SYN (0, 0, mips_receive_seq);
1138 ack[HDR_INDX_TYPE_LEN] = HDR_SET_TYPE_LEN (0, 0, mips_receive_seq);
1139 ack[HDR_INDX_LEN1] = HDR_SET_LEN1 (0, 0, mips_receive_seq);
1140 ack[HDR_INDX_SEQ] = HDR_SET_SEQ (0, 0, mips_receive_seq);
1141
1142 cksum = mips_cksum (ack, (unsigned char *) NULL, 0);
1143
1144 ack[HDR_LENGTH + TRLR_INDX_CSUM1] = TRLR_SET_CSUM1 (cksum);
1145 ack[HDR_LENGTH + TRLR_INDX_CSUM2] = TRLR_SET_CSUM2 (cksum);
1146 ack[HDR_LENGTH + TRLR_INDX_CSUM3] = TRLR_SET_CSUM3 (cksum);
1147
1148 if (remote_debug > 0)
1149 {
1150 ack[HDR_LENGTH + TRLR_LENGTH] = '\0';
1151 /* Don't use _filtered; we can't deal with a QUIT out of
c5aa993b 1152 target_wait, and I think this might be called from there. */
c906108c 1153 printf_unfiltered ("Writing ack %d \"%s\"\n", mips_receive_seq,
c5aa993b 1154 ack + 1);
c906108c
SS
1155 }
1156
2cd58942 1157 if (serial_write (mips_desc, ack, HDR_LENGTH + TRLR_LENGTH) != 0)
c906108c
SS
1158 {
1159 if (throw_error)
1160 mips_error ("write to target failed: %s", safe_strerror (errno));
1161 else
1162 return -1;
1163 }
1164
1165 return len;
1166}
1167\f
1168/* Optionally send a request to the remote system and optionally wait
1169 for the reply. This implements the remote debugging protocol,
1170 which is built on top of the packet protocol defined above. Each
1171 request has an ADDR argument and a DATA argument. The following
1172 requests are defined:
1173
c5aa993b
JM
1174 \0 don't send a request; just wait for a reply
1175 i read word from instruction space at ADDR
1176 d read word from data space at ADDR
1177 I write DATA to instruction space at ADDR
1178 D write DATA to data space at ADDR
1179 r read register number ADDR
1180 R set register number ADDR to value DATA
1181 c continue execution (if ADDR != 1, set pc to ADDR)
1182 s single step (if ADDR != 1, set pc to ADDR)
c906108c
SS
1183
1184 The read requests return the value requested. The write requests
1185 return the previous value in the changed location. The execution
1186 requests return a UNIX wait value (the approximate signal which
1187 caused execution to stop is in the upper eight bits).
1188
1189 If PERR is not NULL, this function waits for a reply. If an error
1190 occurs, it sets *PERR to 1 and sets errno according to what the
1191 target board reports. */
1192
4014092b
AC
1193static ULONGEST
1194mips_request (int cmd,
1195 ULONGEST addr,
1196 ULONGEST data,
1197 int *perr,
1198 int timeout,
1199 char *buff)
c906108c
SS
1200{
1201 char myBuff[DATA_MAXLEN + 1];
1202 int len;
1203 int rpid;
1204 char rcmd;
1205 int rerrflg;
1206 unsigned long rresponse;
1207
1208 if (buff == (char *) NULL)
1209 buff = myBuff;
1210
1211 if (cmd != '\0')
1212 {
1213 if (mips_need_reply)
8e65ff28 1214 internal_error (__FILE__, __LINE__,
e2e0b3e5 1215 _("mips_request: Trying to send command before reply"));
c906108c
SS
1216 sprintf (buff, "0x0 %c 0x%s 0x%s", cmd, paddr_nz (addr), paddr_nz (data));
1217 mips_send_packet (buff, 1);
1218 mips_need_reply = 1;
1219 }
1220
1221 if (perr == (int *) NULL)
1222 return 0;
1223
c5aa993b 1224 if (!mips_need_reply)
8e65ff28 1225 internal_error (__FILE__, __LINE__,
e2e0b3e5 1226 _("mips_request: Trying to get reply before command"));
c906108c
SS
1227
1228 mips_need_reply = 0;
1229
1230 len = mips_receive_packet (buff, 1, timeout);
1231 buff[len] = '\0';
1232
1233 if (sscanf (buff, "0x%x %c 0x%x 0x%lx",
1234 &rpid, &rcmd, &rerrflg, &rresponse) != 4
1235 || (cmd != '\0' && rcmd != cmd))
1236 mips_error ("Bad response from remote board");
1237
1238 if (rerrflg != 0)
1239 {
1240 *perr = 1;
1241
1242 /* FIXME: This will returns MIPS errno numbers, which may or may
c5aa993b
JM
1243 not be the same as errno values used on other systems. If
1244 they stick to common errno values, they will be the same, but
1245 if they don't, they must be translated. */
c906108c
SS
1246 errno = rresponse;
1247
1248 return 0;
1249 }
1250
1251 *perr = 0;
1252 return rresponse;
1253}
1254
1255static void
4efb68b1 1256mips_initialize_cleanups (void *arg)
c906108c
SS
1257{
1258 mips_initializing = 0;
1259}
1260
1261static void
4efb68b1 1262mips_exit_cleanups (void *arg)
c906108c
SS
1263{
1264 mips_exiting = 0;
1265}
1266
1267static void
fba45db2 1268mips_send_command (const char *cmd, int prompt)
c906108c 1269{
2cd58942 1270 serial_write (mips_desc, cmd, strlen (cmd));
c906108c
SS
1271 mips_expect (cmd);
1272 mips_expect ("\n");
1273 if (prompt)
1274 mips_expect (mips_monitor_prompt);
1275}
1276
1277/* Enter remote (dbx) debug mode: */
1278static void
fba45db2 1279mips_enter_debug (void)
c906108c
SS
1280{
1281 /* Reset the sequence numbers, ready for the new debug sequence: */
1282 mips_send_seq = 0;
1283 mips_receive_seq = 0;
1284
1285 if (mips_monitor != MON_IDT)
1286 mips_send_command ("debug\r", 0);
c5aa993b 1287 else /* assume IDT monitor by default */
c906108c
SS
1288 mips_send_command ("db tty0\r", 0);
1289
c5aa993b 1290 sleep (1);
2cd58942 1291 serial_write (mips_desc, "\r", sizeof "\r" - 1);
c906108c
SS
1292
1293 /* We don't need to absorb any spurious characters here, since the
1294 mips_receive_header will eat up a reasonable number of characters
1295 whilst looking for the SYN, however this avoids the "garbage"
1296 being displayed to the user. */
1297 if (mips_monitor != MON_IDT)
1298 mips_expect ("\r");
c5aa993b 1299
c906108c
SS
1300 {
1301 char buff[DATA_MAXLEN + 1];
1302 if (mips_receive_packet (buff, 1, 3) < 0)
1303 mips_error ("Failed to initialize (didn't receive packet).");
1304 }
1305}
1306
1307/* Exit remote (dbx) debug mode, returning to the monitor prompt: */
1308static int
fba45db2 1309mips_exit_debug (void)
c906108c
SS
1310{
1311 int err;
1312 struct cleanup *old_cleanups = make_cleanup (mips_exit_cleanups, NULL);
1313
1314 mips_exiting = 1;
1315
1316 if (mips_monitor != MON_IDT)
1317 {
1318 /* The DDB (NEC) and MiniRISC (LSI) versions of PMON exit immediately,
1319 so we do not get a reply to this command: */
4014092b 1320 mips_request ('x', 0, 0, NULL, mips_receive_wait, NULL);
c906108c
SS
1321 mips_need_reply = 0;
1322 if (!mips_expect (" break!"))
c5aa993b 1323 return -1;
c906108c
SS
1324 }
1325 else
4014092b 1326 mips_request ('x', 0, 0, &err, mips_receive_wait, NULL);
c906108c
SS
1327
1328 if (!mips_expect (mips_monitor_prompt))
1329 return -1;
1330
1331 do_cleanups (old_cleanups);
1332
1333 return 0;
1334}
1335
1336/* Initialize a new connection to the MIPS board, and make sure we are
1337 really connected. */
1338
1339static void
fba45db2 1340mips_initialize (void)
c906108c
SS
1341{
1342 int err;
1343 struct cleanup *old_cleanups = make_cleanup (mips_initialize_cleanups, NULL);
1344 int j;
1345
1346 /* What is this code doing here? I don't see any way it can happen, and
1347 it might mean mips_initializing didn't get cleared properly.
1348 So I'll make it a warning. */
1349
1350 if (mips_initializing)
1351 {
1352 warning ("internal error: mips_initialize called twice");
1353 return;
1354 }
1355
1356 mips_wait_flag = 0;
1357 mips_initializing = 1;
1358
1359 /* At this point, the packit protocol isn't responding. We'll try getting
1360 into the monitor, and restarting the protocol. */
1361
1362 /* Force the system into the monitor. After this we *should* be at
1363 the mips_monitor_prompt. */
1364 if (mips_monitor != MON_IDT)
c5aa993b 1365 j = 0; /* start by checking if we are already at the prompt */
c906108c 1366 else
c5aa993b 1367 j = 1; /* start by sending a break */
c906108c
SS
1368 for (; j <= 4; j++)
1369 {
1370 switch (j)
1371 {
c5aa993b 1372 case 0: /* First, try sending a CR */
2cd58942
AC
1373 serial_flush_input (mips_desc);
1374 serial_write (mips_desc, "\r", 1);
c5aa993b
JM
1375 break;
1376 case 1: /* First, try sending a break */
2cd58942 1377 serial_send_break (mips_desc);
c906108c 1378 break;
c5aa993b 1379 case 2: /* Then, try a ^C */
2cd58942 1380 serial_write (mips_desc, "\003", 1);
c906108c 1381 break;
c5aa993b 1382 case 3: /* Then, try escaping from download */
c906108c 1383 {
c5aa993b
JM
1384 if (mips_monitor != MON_IDT)
1385 {
1386 char tbuff[7];
1387
1388 /* We shouldn't need to send multiple termination
1389 sequences, since the target performs line (or
1390 block) reads, and then processes those
1391 packets. In-case we were downloading a large packet
1392 we flush the output buffer before inserting a
1393 termination sequence. */
2cd58942 1394 serial_flush_output (mips_desc);
c5aa993b 1395 sprintf (tbuff, "\r/E/E\r");
2cd58942 1396 serial_write (mips_desc, tbuff, 6);
c5aa993b
JM
1397 }
1398 else
1399 {
1400 char srec[10];
1401 int i;
1402
1403 /* We are possibly in binary download mode, having
1404 aborted in the middle of an S-record. ^C won't
1405 work because of binary mode. The only reliable way
1406 out is to send enough termination packets (8 bytes)
1407 to fill up and then overflow the largest size
1408 S-record (255 bytes in this case). This amounts to
1409 256/8 + 1 packets.
1410 */
1411
1412 mips_make_srec (srec, '7', 0, NULL, 0);
1413
1414 for (i = 1; i <= 33; i++)
1415 {
2cd58942 1416 serial_write (mips_desc, srec, 8);
c5aa993b 1417
2cd58942 1418 if (serial_readchar (mips_desc, 0) >= 0)
c5aa993b 1419 break; /* Break immediatly if we get something from
c906108c 1420 the board. */
c5aa993b
JM
1421 }
1422 }
1423 }
c906108c
SS
1424 break;
1425 case 4:
1426 mips_error ("Failed to initialize.");
1427 }
1428
1429 if (mips_expect (mips_monitor_prompt))
1430 break;
1431 }
1432
1433 if (mips_monitor != MON_IDT)
1434 {
1435 /* Sometimes PMON ignores the first few characters in the first
1436 command sent after a load. Sending a blank command gets
c5aa993b 1437 around that. */
c906108c
SS
1438 mips_send_command ("\r", -1);
1439
1440 /* Ensure the correct target state: */
1441 if (mips_monitor != MON_LSI)
1442 mips_send_command ("set regsize 64\r", -1);
1443 mips_send_command ("set hostport tty0\r", -1);
1444 mips_send_command ("set brkcmd \"\"\r", -1);
1445 /* Delete all the current breakpoints: */
1446 mips_send_command ("db *\r", -1);
1447 /* NOTE: PMON does not have breakpoint support through the
1448 "debug" mode, only at the monitor command-line. */
1449 }
1450
1451 mips_enter_debug ();
1452
1453 /* Clear all breakpoints: */
1454 if ((mips_monitor == MON_IDT
1455 && clear_breakpoint (-1, 0, BREAK_UNUSED) == 0)
1456 || mips_monitor == MON_LSI)
1457 monitor_supports_breakpoints = 1;
1458 else
1459 monitor_supports_breakpoints = 0;
1460
1461 do_cleanups (old_cleanups);
1462
1463 /* If this doesn't call error, we have connected; we don't care if
1464 the request itself succeeds or fails. */
1465
4014092b 1466 mips_request ('r', 0, 0, &err, mips_receive_wait, NULL);
c906108c
SS
1467}
1468
1469/* Open a connection to the remote board. */
1470static void
fba45db2 1471common_open (struct target_ops *ops, char *name, int from_tty,
98691afe
AC
1472 enum mips_monitor_type new_monitor,
1473 const char *new_monitor_prompt)
c906108c
SS
1474{
1475 char *ptype;
1476 char *serial_port_name;
1477 char *remote_name = 0;
1478 char *local_name = 0;
1479 char **argv;
1480
1481 if (name == 0)
1482 error (
c5aa993b 1483 "To open a MIPS remote debugging connection, you need to specify what serial\n\
c906108c 1484device is attached to the target board (e.g., /dev/ttya).\n"
c5aa993b
JM
1485 "If you want to use TFTP to download to the board, specify the name of a\n"
1486 "temporary file to be used by GDB for downloads as the second argument.\n"
1487 "This filename must be in the form host:filename, where host is the name\n"
1488 "of the host running the TFTP server, and the file must be readable by the\n"
1489 "world. If the local name of the temporary file differs from the name as\n"
1490 "seen from the board via TFTP, specify that name as the third parameter.\n");
c906108c
SS
1491
1492 /* Parse the serial port name, the optional TFTP name, and the
1493 optional local TFTP name. */
1494 if ((argv = buildargv (name)) == NULL)
c5aa993b 1495 nomem (0);
7a292a7a 1496 make_cleanup_freeargv (argv);
c906108c 1497
4fcf66da 1498 serial_port_name = xstrdup (argv[0]);
c5aa993b 1499 if (argv[1]) /* remote TFTP name specified? */
c906108c
SS
1500 {
1501 remote_name = argv[1];
c5aa993b 1502 if (argv[2]) /* local TFTP filename specified? */
c906108c
SS
1503 local_name = argv[2];
1504 }
1505
1506 target_preopen (from_tty);
1507
1508 if (mips_is_open)
1509 unpush_target (current_ops);
1510
1511 /* Open and initialize the serial port. */
2cd58942 1512 mips_desc = serial_open (serial_port_name);
819cc324 1513 if (mips_desc == NULL)
c906108c
SS
1514 perror_with_name (serial_port_name);
1515
1516 if (baud_rate != -1)
1517 {
2cd58942 1518 if (serial_setbaudrate (mips_desc, baud_rate))
c5aa993b 1519 {
2cd58942 1520 serial_close (mips_desc);
c5aa993b
JM
1521 perror_with_name (serial_port_name);
1522 }
c906108c
SS
1523 }
1524
2cd58942 1525 serial_raw (mips_desc);
c906108c
SS
1526
1527 /* Open and initialize the optional download port. If it is in the form
1528 hostname#portnumber, it's a UDP socket. If it is in the form
1529 hostname:filename, assume it's the TFTP filename that must be
1530 passed to the DDB board to tell it where to get the load file. */
1531 if (remote_name)
1532 {
1533 if (strchr (remote_name, '#'))
1534 {
2cd58942 1535 udp_desc = serial_open (remote_name);
c906108c
SS
1536 if (!udp_desc)
1537 perror_with_name ("Unable to open UDP port");
1538 udp_in_use = 1;
1539 }
1540 else
1541 {
1542 /* Save the remote and local names of the TFTP temp file. If
1543 the user didn't specify a local name, assume it's the same
1544 as the part of the remote name after the "host:". */
1545 if (tftp_name)
b8c9b27d 1546 xfree (tftp_name);
c906108c 1547 if (tftp_localname)
b8c9b27d 1548 xfree (tftp_localname);
c906108c 1549 if (local_name == NULL)
c5aa993b
JM
1550 if ((local_name = strchr (remote_name, ':')) != NULL)
1551 local_name++; /* skip over the colon */
c906108c
SS
1552 if (local_name == NULL)
1553 local_name = remote_name; /* local name same as remote name */
4fcf66da
AC
1554 tftp_name = xstrdup (remote_name);
1555 tftp_localname = xstrdup (local_name);
c906108c
SS
1556 tftp_in_use = 1;
1557 }
1558 }
1559
1560 current_ops = ops;
1561 mips_is_open = 1;
1562
1563 /* Reset the expected monitor prompt if it's never been set before. */
1564 if (mips_monitor_prompt == NULL)
4fcf66da 1565 mips_monitor_prompt = xstrdup (new_monitor_prompt);
c906108c
SS
1566 mips_monitor = new_monitor;
1567
1568 mips_initialize ();
1569
1570 if (from_tty)
1571 printf_unfiltered ("Remote MIPS debugging using %s\n", serial_port_name);
1572
1573 /* Switch to using remote target now. */
1574 push_target (ops);
1575
1576 /* FIXME: Should we call start_remote here? */
1577
1578 /* Try to figure out the processor model if possible. */
691c0433 1579 deprecated_mips_set_processor_regs_hack ();
c906108c 1580
a193e397
AC
1581 /* This is really the job of start_remote however, that makes an
1582 assumption that the target is about to print out a status message
1583 of some sort. That doesn't happen here (in fact, it may not be
1584 possible to get the monitor to send the appropriate packet). */
c906108c 1585
35f196d9 1586 reinit_frame_cache ();
c906108c
SS
1587 registers_changed ();
1588 stop_pc = read_pc ();
b04f3ab4 1589 print_stack_frame (get_selected_frame (NULL), 0, SRC_AND_LOC);
b8c9b27d 1590 xfree (serial_port_name);
c906108c
SS
1591}
1592
1593static void
fba45db2 1594mips_open (char *name, int from_tty)
c906108c 1595{
ef31c1ea 1596 const char *monitor_prompt = NULL;
1143fffb
UW
1597 if (gdbarch_bfd_arch_info (current_gdbarch) != NULL
1598 && gdbarch_bfd_arch_info (current_gdbarch)->arch == bfd_arch_mips)
ef31c1ea 1599 {
1143fffb 1600 switch (gdbarch_bfd_arch_info (current_gdbarch)->mach)
ef31c1ea
AC
1601 {
1602 case bfd_mach_mips4100:
1603 case bfd_mach_mips4300:
1604 case bfd_mach_mips4600:
1605 case bfd_mach_mips4650:
1606 case bfd_mach_mips5000:
1607 monitor_prompt = "<RISQ> ";
1608 break;
1609 }
1610 }
1611 if (monitor_prompt == NULL)
1612 monitor_prompt = "<IDT>";
1613 common_open (&mips_ops, name, from_tty, MON_IDT, monitor_prompt);
c906108c
SS
1614}
1615
1616static void
fba45db2 1617pmon_open (char *name, int from_tty)
c906108c
SS
1618{
1619 common_open (&pmon_ops, name, from_tty, MON_PMON, "PMON> ");
1620}
1621
1622static void
fba45db2 1623ddb_open (char *name, int from_tty)
c906108c
SS
1624{
1625 common_open (&ddb_ops, name, from_tty, MON_DDB, "NEC010>");
1626}
1627
1628static void
fba45db2 1629lsi_open (char *name, int from_tty)
c906108c
SS
1630{
1631 int i;
1632
1633 /* Clear the LSI breakpoint table. */
1634 for (i = 0; i < MAX_LSI_BREAKPOINTS; i++)
1635 lsi_breakpoints[i].type = BREAK_UNUSED;
c5aa993b 1636
c906108c
SS
1637 common_open (&lsi_ops, name, from_tty, MON_LSI, "PMON> ");
1638}
1639
1640/* Close a connection to the remote board. */
1641
1642static void
fba45db2 1643mips_close (int quitting)
c906108c
SS
1644{
1645 if (mips_is_open)
1646 {
1647 /* Get the board out of remote debugging mode. */
1648 (void) mips_exit_debug ();
1649
1650 close_ports ();
1651 }
1652}
1653
1654/* Detach from the remote board. */
1655
1656static void
fba45db2 1657mips_detach (char *args, int from_tty)
c906108c
SS
1658{
1659 if (args)
1660 error ("Argument given to \"detach\" when remotely debugging.");
1661
1662 pop_target ();
1663
1664 mips_close (1);
1665
1666 if (from_tty)
1667 printf_unfiltered ("Ending remote MIPS debugging.\n");
1668}
1669
1670/* Tell the target board to resume. This does not wait for a reply
1671 from the board, except in the case of single-stepping on LSI boards,
1672 where PMON does return a reply. */
1673
1674static void
39f77062 1675mips_resume (ptid_t ptid, int step, enum target_signal siggnal)
c906108c
SS
1676{
1677 int err;
1678
1679 /* LSI PMON requires returns a reply packet "0x1 s 0x0 0x57f" after
1680 a single step, so we wait for that. */
4014092b 1681 mips_request (step ? 's' : 'c', 1, siggnal,
c906108c
SS
1682 mips_monitor == MON_LSI && step ? &err : (int *) NULL,
1683 mips_receive_wait, NULL);
1684}
1685
1686/* Return the signal corresponding to SIG, where SIG is the number which
1687 the MIPS protocol uses for the signal. */
a78f21af 1688static enum target_signal
fba45db2 1689mips_signal_from_protocol (int sig)
c906108c
SS
1690{
1691 /* We allow a few more signals than the IDT board actually returns, on
1692 the theory that there is at least *some* hope that perhaps the numbering
1693 for these signals is widely agreed upon. */
1694 if (sig <= 0
1695 || sig > 31)
1696 return TARGET_SIGNAL_UNKNOWN;
1697
1698 /* Don't want to use target_signal_from_host because we are converting
1699 from MIPS signal numbers, not host ones. Our internal numbers
1700 match the MIPS numbers for the signals the board can return, which
1701 are: SIGINT, SIGSEGV, SIGBUS, SIGILL, SIGFPE, SIGTRAP. */
1702 return (enum target_signal) sig;
1703}
1704
1705/* Wait until the remote stops, and return a wait status. */
1706
39f77062
KB
1707static ptid_t
1708mips_wait (ptid_t ptid, struct target_waitstatus *status)
c906108c
SS
1709{
1710 int rstatus;
1711 int err;
1712 char buff[DATA_MAXLEN];
1713 int rpc, rfp, rsp;
1714 char flags[20];
1715 int nfields;
1716 int i;
1717
1718 interrupt_count = 0;
1719 hit_watchpoint = 0;
1720
1721 /* If we have not sent a single step or continue command, then the
1722 board is waiting for us to do something. Return a status
1723 indicating that it is stopped. */
c5aa993b 1724 if (!mips_need_reply)
c906108c
SS
1725 {
1726 status->kind = TARGET_WAITKIND_STOPPED;
1727 status->value.sig = TARGET_SIGNAL_TRAP;
39f77062 1728 return inferior_ptid;
c906108c
SS
1729 }
1730
1731 /* No timeout; we sit here as long as the program continues to execute. */
1732 mips_wait_flag = 1;
4014092b 1733 rstatus = mips_request ('\000', 0, 0, &err, -1, buff);
c906108c
SS
1734 mips_wait_flag = 0;
1735 if (err)
1736 mips_error ("Remote failure: %s", safe_strerror (errno));
1737
1738 /* On returning from a continue, the PMON monitor seems to start
1739 echoing back the messages we send prior to sending back the
1740 ACK. The code can cope with this, but to try and avoid the
1741 unnecessary serial traffic, and "spurious" characters displayed
1742 to the user, we cheat and reset the debug protocol. The problems
1743 seems to be caused by a check on the number of arguments, and the
1744 command length, within the monitor causing it to echo the command
1745 as a bad packet. */
1746 if (mips_monitor == MON_PMON)
1747 {
1748 mips_exit_debug ();
1749 mips_enter_debug ();
1750 }
1751
1752 /* See if we got back extended status. If so, pick out the pc, fp, sp, etc... */
1753
1754 nfields = sscanf (buff, "0x%*x %*c 0x%*x 0x%*x 0x%x 0x%x 0x%x 0x%*x %s",
1755 &rpc, &rfp, &rsp, flags);
1756 if (nfields >= 3)
1757 {
123a958e 1758 char buf[MAX_REGISTER_SIZE];
c906108c 1759
3acba339 1760 store_unsigned_integer (buf, register_size (current_gdbarch, PC_REGNUM), rpc);
23a6d369 1761 regcache_raw_supply (current_regcache, PC_REGNUM, buf);
c906108c 1762
3acba339 1763 store_unsigned_integer (buf, register_size (current_gdbarch, PC_REGNUM), rfp);
23a6d369 1764 regcache_raw_supply (current_regcache, 30, buf); /* This register they are avoiding and so it is unnamed */
c906108c 1765
3acba339 1766 store_unsigned_integer (buf, register_size (current_gdbarch, SP_REGNUM), rsp);
23a6d369 1767 regcache_raw_supply (current_regcache, SP_REGNUM, buf);
c906108c 1768
3acba339 1769 store_unsigned_integer (buf, register_size (current_gdbarch, DEPRECATED_FP_REGNUM), 0);
23a6d369 1770 regcache_raw_supply (current_regcache, DEPRECATED_FP_REGNUM, buf);
c906108c
SS
1771
1772 if (nfields == 9)
1773 {
1774 int i;
1775
1776 for (i = 0; i <= 2; i++)
1777 if (flags[i] == 'r' || flags[i] == 'w')
1778 hit_watchpoint = 1;
1779 else if (flags[i] == '\000')
1780 break;
1781 }
1782 }
1783
1784 if (strcmp (target_shortname, "lsi") == 0)
1785 {
1786#if 0
1787 /* If this is an LSI PMON target, see if we just hit a hardrdware watchpoint.
c5aa993b
JM
1788 Right now, PMON doesn't give us enough information to determine which
1789 breakpoint we hit. So we have to look up the PC in our own table
1790 of breakpoints, and if found, assume it's just a normal instruction
1791 fetch breakpoint, not a data watchpoint. FIXME when PMON
1792 provides some way to tell us what type of breakpoint it is. */
c906108c 1793 int i;
c5aa993b 1794 CORE_ADDR pc = read_pc ();
c906108c
SS
1795
1796 hit_watchpoint = 1;
1797 for (i = 0; i < MAX_LSI_BREAKPOINTS; i++)
1798 {
1799 if (lsi_breakpoints[i].addr == pc
1800 && lsi_breakpoints[i].type == BREAK_FETCH)
1801 {
1802 hit_watchpoint = 0;
1803 break;
1804 }
1805 }
1806#else
1807 /* If a data breakpoint was hit, PMON returns the following packet:
c5aa993b
JM
1808 0x1 c 0x0 0x57f 0x1
1809 The return packet from an ordinary breakpoint doesn't have the
1810 extra 0x01 field tacked onto the end. */
c906108c
SS
1811 if (nfields == 1 && rpc == 1)
1812 hit_watchpoint = 1;
1813#endif
1814 }
1815
1816 /* NOTE: The following (sig) numbers are defined by PMON:
c5aa993b
JM
1817 SPP_SIGTRAP 5 breakpoint
1818 SPP_SIGINT 2
1819 SPP_SIGSEGV 11
1820 SPP_SIGBUS 10
1821 SPP_SIGILL 4
1822 SPP_SIGFPE 8
1823 SPP_SIGTERM 15 */
c906108c
SS
1824
1825 /* Translate a MIPS waitstatus. We use constants here rather than WTERMSIG
1826 and so on, because the constants we want here are determined by the
1827 MIPS protocol and have nothing to do with what host we are running on. */
1828 if ((rstatus & 0xff) == 0)
1829 {
1830 status->kind = TARGET_WAITKIND_EXITED;
1831 status->value.integer = (((rstatus) >> 8) & 0xff);
1832 }
1833 else if ((rstatus & 0xff) == 0x7f)
1834 {
1835 status->kind = TARGET_WAITKIND_STOPPED;
1836 status->value.sig = mips_signal_from_protocol (((rstatus) >> 8) & 0xff);
1837
1838 /* If the stop PC is in the _exit function, assume
1839 we hit the 'break 0x3ff' instruction in _exit, so this
c5aa993b 1840 is not a normal breakpoint. */
c906108c
SS
1841 if (strcmp (target_shortname, "lsi") == 0)
1842 {
1843 char *func_name;
1844 CORE_ADDR func_start;
c5aa993b 1845 CORE_ADDR pc = read_pc ();
c906108c
SS
1846
1847 find_pc_partial_function (pc, &func_name, &func_start, NULL);
1848 if (func_name != NULL && strcmp (func_name, "_exit") == 0
1849 && func_start == pc)
1850 status->kind = TARGET_WAITKIND_EXITED;
1851 }
1852 }
1853 else
1854 {
1855 status->kind = TARGET_WAITKIND_SIGNALLED;
1856 status->value.sig = mips_signal_from_protocol (rstatus & 0x7f);
1857 }
1858
39f77062 1859 return inferior_ptid;
c906108c
SS
1860}
1861
1862/* We have to map between the register numbers used by gdb and the
82e34d2f 1863 register numbers used by the debugging protocol. */
c906108c
SS
1864
1865#define REGNO_OFFSET 96
1866
1867static int
fba45db2 1868mips_map_regno (int regno)
c906108c
SS
1869{
1870 if (regno < 32)
1871 return regno;
56cea623
AC
1872 if (regno >= mips_regnum (current_gdbarch)->fp0
1873 && regno < mips_regnum (current_gdbarch)->fp0 + 32)
1874 return regno - mips_regnum (current_gdbarch)->fp0 + 32;
1875 else if (regno == mips_regnum (current_gdbarch)->pc)
1876 return REGNO_OFFSET + 0;
1877 else if (regno == mips_regnum (current_gdbarch)->cause)
1878 return REGNO_OFFSET + 1;
1879 else if (regno == mips_regnum (current_gdbarch)->hi)
1880 return REGNO_OFFSET + 2;
1881 else if (regno == mips_regnum (current_gdbarch)->lo)
1882 return REGNO_OFFSET + 3;
1883 else if (regno == mips_regnum (current_gdbarch)->fp_control_status)
1884 return REGNO_OFFSET + 4;
1885 else if (regno == mips_regnum (current_gdbarch)->fp_implementation_revision)
1886 return REGNO_OFFSET + 5;
1887 else
1888 /* FIXME: Is there a way to get the status register? */
1889 return 0;
c906108c
SS
1890}
1891
1892/* Fetch the remote registers. */
1893
1894static void
56be3814 1895mips_fetch_registers (struct regcache *regcache, int regno)
c906108c
SS
1896{
1897 unsigned LONGEST val;
1898 int err;
1899
1900 if (regno == -1)
1901 {
f57d151a 1902 for (regno = 0; regno < gdbarch_num_regs (current_gdbarch); regno++)
56be3814 1903 mips_fetch_registers (regcache, regno);
c906108c
SS
1904 return;
1905 }
1906
613e114f 1907 if (regno == DEPRECATED_FP_REGNUM || regno == MIPS_ZERO_REGNUM)
0ba6dca9
AC
1908 /* DEPRECATED_FP_REGNUM on the mips is a hack which is just
1909 supposed to read zero (see also mips-nat.c). */
c906108c
SS
1910 val = 0;
1911 else
1912 {
1913 /* If PMON doesn't support this register, don't waste serial
1914 bandwidth trying to read it. */
1915 int pmon_reg = mips_map_regno (regno);
1916 if (regno != 0 && pmon_reg == 0)
1917 val = 0;
1918 else
1919 {
1920 /* Unfortunately the PMON version in the Vr4300 board has been
1921 compiled without the 64bit register access commands. This
1922 means we cannot get hold of the full register width. */
1923 if (mips_monitor == MON_DDB)
4014092b
AC
1924 val = (unsigned) mips_request ('t', pmon_reg, 0,
1925 &err, mips_receive_wait, NULL);
c906108c 1926 else
4014092b
AC
1927 val = mips_request ('r', pmon_reg, 0,
1928 &err, mips_receive_wait, NULL);
c906108c
SS
1929 if (err)
1930 mips_error ("Can't read register %d: %s", regno,
1931 safe_strerror (errno));
1932 }
1933 }
1934
1935 {
123a958e 1936 char buf[MAX_REGISTER_SIZE];
c906108c
SS
1937
1938 /* We got the number the register holds, but gdb expects to see a
1939 value in the target byte ordering. */
3acba339 1940 store_unsigned_integer (buf, register_size (current_gdbarch, regno), val);
56be3814 1941 regcache_raw_supply (regcache, regno, buf);
c906108c
SS
1942 }
1943}
1944
1945/* Prepare to store registers. The MIPS protocol can store individual
1946 registers, so this function doesn't have to do anything. */
1947
1948static void
316f2060 1949mips_prepare_to_store (struct regcache *regcache)
c906108c
SS
1950{
1951}
1952
1953/* Store remote register(s). */
1954
1955static void
56be3814 1956mips_store_registers (struct regcache *regcache, int regno)
c906108c 1957{
56be3814 1958 ULONGEST val;
c906108c
SS
1959 int err;
1960
1961 if (regno == -1)
1962 {
f57d151a 1963 for (regno = 0; regno < gdbarch_num_regs (current_gdbarch); regno++)
56be3814 1964 mips_store_registers (regcache, regno);
c906108c
SS
1965 return;
1966 }
1967
56be3814
UW
1968 regcache_cooked_read_unsigned (regcache, regno, &val);
1969 mips_request ('R', mips_map_regno (regno), val,
c906108c
SS
1970 &err, mips_receive_wait, NULL);
1971 if (err)
1972 mips_error ("Can't write register %d: %s", regno, safe_strerror (errno));
1973}
1974
1975/* Fetch a word from the target board. */
1976
c5aa993b 1977static unsigned int
fba45db2 1978mips_fetch_word (CORE_ADDR addr)
c906108c
SS
1979{
1980 unsigned int val;
1981 int err;
1982
4014092b 1983 val = mips_request ('d', addr, 0, &err, mips_receive_wait, NULL);
c906108c
SS
1984 if (err)
1985 {
1986 /* Data space failed; try instruction space. */
4014092b 1987 val = mips_request ('i', addr, 0, &err,
c906108c
SS
1988 mips_receive_wait, NULL);
1989 if (err)
c5aa993b
JM
1990 mips_error ("Can't read address 0x%s: %s",
1991 paddr_nz (addr), safe_strerror (errno));
c906108c
SS
1992 }
1993 return val;
1994}
1995
1996/* Store a word to the target board. Returns errno code or zero for
1997 success. If OLD_CONTENTS is non-NULL, put the old contents of that
1998 memory location there. */
1999
2000/* FIXME! make sure only 32-bit quantities get stored! */
2001static int
fba45db2 2002mips_store_word (CORE_ADDR addr, unsigned int val, char *old_contents)
c906108c
SS
2003{
2004 int err;
2005 unsigned int oldcontents;
2006
4014092b 2007 oldcontents = mips_request ('D', addr, val, &err,
c906108c
SS
2008 mips_receive_wait, NULL);
2009 if (err)
2010 {
2011 /* Data space failed; try instruction space. */
4014092b 2012 oldcontents = mips_request ('I', addr, val, &err,
c906108c
SS
2013 mips_receive_wait, NULL);
2014 if (err)
2015 return errno;
2016 }
2017 if (old_contents != NULL)
2018 store_unsigned_integer (old_contents, 4, oldcontents);
2019 return 0;
2020}
2021
2022/* Read or write LEN bytes from inferior memory at MEMADDR,
2023 transferring to or from debugger address MYADDR. Write to inferior
2024 if SHOULD_WRITE is nonzero. Returns length of data written or
2025 read; 0 for error. Note that protocol gives us the correct value
2026 for a longword, since it transfers values in ASCII. We want the
2027 byte values, so we have to swap the longword values. */
2028
4014092b
AC
2029static int mask_address_p = 1;
2030
c906108c 2031static int
7d12900b 2032mips_xfer_memory (CORE_ADDR memaddr, gdb_byte *myaddr, int len, int write,
0a65a603 2033 struct mem_attrib *attrib, struct target_ops *target)
c906108c 2034{
4014092b
AC
2035 int i;
2036 CORE_ADDR addr;
2037 int count;
2038 char *buffer;
2039 int status;
2040
2041 /* PMON targets do not cope well with 64 bit addresses. Mask the
2042 value down to 32 bits. */
2043 if (mask_address_p)
2044 memaddr &= (CORE_ADDR) 0xffffffff;
2045
c906108c 2046 /* Round starting address down to longword boundary. */
4014092b 2047 addr = memaddr & ~3;
c906108c 2048 /* Round ending address up; get number of longwords that makes. */
4014092b 2049 count = (((memaddr + len) - addr) + 3) / 4;
c906108c 2050 /* Allocate buffer of that many longwords. */
4014092b 2051 buffer = alloca (count * 4);
c906108c
SS
2052
2053 if (write)
2054 {
2055 /* Fill start and end extra bytes of buffer with existing data. */
2056 if (addr != memaddr || len < 4)
2057 {
2058 /* Need part of initial word -- fetch it. */
2059 store_unsigned_integer (&buffer[0], 4, mips_fetch_word (addr));
2060 }
2061
2062 if (count > 1)
2063 {
2064 /* Need part of last word -- fetch it. FIXME: we do this even
2065 if we don't need it. */
2066 store_unsigned_integer (&buffer[(count - 1) * 4], 4,
2067 mips_fetch_word (addr + (count - 1) * 4));
2068 }
2069
2070 /* Copy data to be written over corresponding part of buffer */
2071
2072 memcpy ((char *) buffer + (memaddr & 3), myaddr, len);
2073
2074 /* Write the entire buffer. */
2075
2076 for (i = 0; i < count; i++, addr += 4)
2077 {
2078 status = mips_store_word (addr,
c5aa993b 2079 extract_unsigned_integer (&buffer[i * 4], 4),
c906108c
SS
2080 NULL);
2081 /* Report each kilobyte (we download 32-bit words at a time) */
c5aa993b 2082 if (i % 256 == 255)
c906108c
SS
2083 {
2084 printf_unfiltered ("*");
2085 gdb_flush (gdb_stdout);
2086 }
2087 if (status)
2088 {
2089 errno = status;
2090 return 0;
2091 }
2092 /* FIXME: Do we want a QUIT here? */
2093 }
2094 if (count >= 256)
2095 printf_unfiltered ("\n");
2096 }
2097 else
2098 {
2099 /* Read all the longwords */
2100 for (i = 0; i < count; i++, addr += 4)
2101 {
c5aa993b 2102 store_unsigned_integer (&buffer[i * 4], 4, mips_fetch_word (addr));
c906108c
SS
2103 QUIT;
2104 }
2105
2106 /* Copy appropriate bytes out of the buffer. */
2107 memcpy (myaddr, buffer + (memaddr & 3), len);
2108 }
2109 return len;
2110}
2111
2112/* Print info on this target. */
2113
2114static void
fba45db2 2115mips_files_info (struct target_ops *ignore)
c906108c
SS
2116{
2117 printf_unfiltered ("Debugging a MIPS board over a serial line.\n");
2118}
2119
2120/* Kill the process running on the board. This will actually only
2121 work if we are doing remote debugging over the console input. I
2122 think that if IDT/sim had the remote debug interrupt enabled on the
2123 right port, we could interrupt the process with a break signal. */
2124
2125static void
fba45db2 2126mips_kill (void)
c906108c
SS
2127{
2128 if (!mips_wait_flag)
2129 return;
2130
2131 interrupt_count++;
2132
2133 if (interrupt_count >= 2)
2134 {
2135 interrupt_count = 0;
2136
2137 target_terminal_ours ();
2138
2139 if (query ("Interrupted while waiting for the program.\n\
2140Give up (and stop debugging it)? "))
2141 {
2142 /* Clean up in such a way that mips_close won't try to talk to the
2143 board (it almost surely won't work since we weren't able to talk to
2144 it). */
2145 mips_wait_flag = 0;
c5aa993b 2146 close_ports ();
c906108c
SS
2147
2148 printf_unfiltered ("Ending remote MIPS debugging.\n");
2149 target_mourn_inferior ();
2150
315a522e 2151 deprecated_throw_reason (RETURN_QUIT);
c906108c
SS
2152 }
2153
2154 target_terminal_inferior ();
2155 }
2156
2157 if (remote_debug > 0)
2158 printf_unfiltered ("Sending break\n");
2159
2cd58942 2160 serial_send_break (mips_desc);
c906108c
SS
2161
2162#if 0
2163 if (mips_is_open)
2164 {
2165 char cc;
2166
2167 /* Send a ^C. */
2168 cc = '\003';
2cd58942 2169 serial_write (mips_desc, &cc, 1);
c906108c
SS
2170 sleep (1);
2171 target_mourn_inferior ();
2172 }
2173#endif
2174}
2175
2176/* Start running on the target board. */
2177
2178static void
c27cda74 2179mips_create_inferior (char *execfile, char *args, char **env, int from_tty)
c906108c
SS
2180{
2181 CORE_ADDR entry_pt;
2182
2183 if (args && *args)
2184 {
2185 warning ("\
2186Can't pass arguments to remote MIPS board; arguments ignored.");
2187 /* And don't try to use them on the next "run" command. */
2188 execute_command ("set args", 0);
2189 }
2190
2191 if (execfile == 0 || exec_bfd == 0)
2192 error ("No executable file specified");
2193
2194 entry_pt = (CORE_ADDR) bfd_get_start_address (exec_bfd);
2195
2196 init_wait_for_inferior ();
2197
39f77062 2198 /* FIXME: Should we set inferior_ptid here? */
c906108c 2199
281b533b 2200 write_pc (entry_pt);
c906108c
SS
2201}
2202
2203/* Clean up after a process. Actually nothing to do. */
2204
2205static void
fba45db2 2206mips_mourn_inferior (void)
c906108c
SS
2207{
2208 if (current_ops != NULL)
2209 unpush_target (current_ops);
2210 generic_mourn_inferior ();
2211}
2212\f
2213/* We can write a breakpoint and read the shadow contents in one
2214 operation. */
2215
aaab4dba
AC
2216/* Insert a breakpoint. On targets that don't have built-in
2217 breakpoint support, we read the contents of the target location and
2218 stash it, then overwrite it with a breakpoint instruction. ADDR is
8181d85f
DJ
2219 the target location in the target machine. BPT is the breakpoint
2220 being inserted or removed, which contains memory for saving the
2221 target contents. */
c906108c
SS
2222
2223static int
8181d85f 2224mips_insert_breakpoint (struct bp_target_info *bp_tgt)
c906108c
SS
2225{
2226 if (monitor_supports_breakpoints)
8181d85f
DJ
2227 return set_breakpoint (bp_tgt->placed_address, MIPS_INSN32_SIZE,
2228 BREAK_FETCH);
c906108c 2229 else
8181d85f 2230 return memory_insert_breakpoint (bp_tgt);
c906108c
SS
2231}
2232
2233static int
8181d85f 2234mips_remove_breakpoint (struct bp_target_info *bp_tgt)
c906108c
SS
2235{
2236 if (monitor_supports_breakpoints)
8181d85f
DJ
2237 return clear_breakpoint (bp_tgt->placed_address, MIPS_INSN32_SIZE,
2238 BREAK_FETCH);
c906108c 2239 else
8181d85f 2240 return memory_remove_breakpoint (bp_tgt);
c906108c
SS
2241}
2242
c906108c
SS
2243/* Tell whether this target can support a hardware breakpoint. CNT
2244 is the number of hardware breakpoints already installed. This
2245 implements the TARGET_CAN_USE_HARDWARE_WATCHPOINT macro. */
2246
2247int
546143b6 2248mips_can_use_watchpoint (int type, int cnt, int othertype)
c906108c 2249{
c5aa993b 2250 return cnt < MAX_LSI_BREAKPOINTS && strcmp (target_shortname, "lsi") == 0;
c906108c
SS
2251}
2252
2253
2254/* Compute a don't care mask for the region bounding ADDR and ADDR + LEN - 1.
2255 This is used for memory ref breakpoints. */
2256
2257static unsigned long
fba45db2 2258calculate_mask (CORE_ADDR addr, int len)
c906108c
SS
2259{
2260 unsigned long mask;
2261 int i;
2262
2263 mask = addr ^ (addr + len - 1);
2264
2265 for (i = 32; i >= 0; i--)
2266 if (mask == 0)
2267 break;
2268 else
2269 mask >>= 1;
2270
2271 mask = (unsigned long) 0xffffffff >> i;
2272
2273 return mask;
2274}
2275
2276
c906108c
SS
2277/* Set a data watchpoint. ADDR and LEN should be obvious. TYPE is 0
2278 for a write watchpoint, 1 for a read watchpoint, or 2 for a read/write
2279 watchpoint. */
2280
2281int
546143b6 2282mips_insert_watchpoint (CORE_ADDR addr, int len, int type)
c906108c
SS
2283{
2284 if (set_breakpoint (addr, len, type))
2285 return -1;
2286
2287 return 0;
2288}
2289
2290int
546143b6 2291mips_remove_watchpoint (CORE_ADDR addr, int len, int type)
c906108c
SS
2292{
2293 if (clear_breakpoint (addr, len, type))
2294 return -1;
2295
2296 return 0;
2297}
2298
2299int
546143b6 2300mips_stopped_by_watchpoint (void)
c906108c
SS
2301{
2302 return hit_watchpoint;
2303}
2304
2305
2306/* Insert a breakpoint. */
2307
2308static int
fba45db2 2309set_breakpoint (CORE_ADDR addr, int len, enum break_type type)
c906108c
SS
2310{
2311 return common_breakpoint (1, addr, len, type);
2312}
2313
2314
2315/* Clear a breakpoint. */
2316
2317static int
fba45db2 2318clear_breakpoint (CORE_ADDR addr, int len, enum break_type type)
c906108c
SS
2319{
2320 return common_breakpoint (0, addr, len, type);
2321}
2322
2323
2324/* Check the error code from the return packet for an LSI breakpoint
2325 command. If there's no error, just return 0. If it's a warning,
2326 print the warning text and return 0. If it's an error, print
2327 the error text and return 1. <ADDR> is the address of the breakpoint
2328 that was being set. <RERRFLG> is the error code returned by PMON.
2329 This is a helper function for common_breakpoint. */
2330
2331static int
fba45db2 2332check_lsi_error (CORE_ADDR addr, int rerrflg)
c906108c
SS
2333{
2334 struct lsi_error *err;
2335 char *saddr = paddr_nz (addr); /* printable address string */
2336
2337 if (rerrflg == 0) /* no error */
2338 return 0;
2339
2340 /* Warnings can be ORed together, so check them all. */
2341 if (rerrflg & W_WARN)
2342 {
2343 if (monitor_warnings)
2344 {
2345 int found = 0;
2346 for (err = lsi_warning_table; err->code != 0; err++)
2347 {
2348 if ((err->code & rerrflg) == err->code)
2349 {
2350 found = 1;
2351 fprintf_unfiltered (gdb_stderr,
c5aa993b 2352 "common_breakpoint (0x%s): Warning: %s\n",
c906108c
SS
2353 saddr,
2354 err->string);
2355 }
2356 }
2357 if (!found)
2358 fprintf_unfiltered (gdb_stderr,
c5aa993b 2359 "common_breakpoint (0x%s): Unknown warning: 0x%x\n",
c906108c
SS
2360 saddr,
2361 rerrflg);
2362 }
2363 return 0;
2364 }
2365
2366 /* Errors are unique, i.e. can't be ORed together. */
2367 for (err = lsi_error_table; err->code != 0; err++)
2368 {
2369 if ((err->code & rerrflg) == err->code)
2370 {
2371 fprintf_unfiltered (gdb_stderr,
2372 "common_breakpoint (0x%s): Error: %s\n",
2373 saddr,
2374 err->string);
2375 return 1;
2376 }
2377 }
2378 fprintf_unfiltered (gdb_stderr,
2379 "common_breakpoint (0x%s): Unknown error: 0x%x\n",
2380 saddr,
2381 rerrflg);
2382 return 1;
2383}
2384
2385
2386/* This routine sends a breakpoint command to the remote target.
2387
2388 <SET> is 1 if setting a breakpoint, or 0 if clearing a breakpoint.
2389 <ADDR> is the address of the breakpoint.
2390 <LEN> the length of the region to break on.
2391 <TYPE> is the type of breakpoint:
c5aa993b
JM
2392 0 = write (BREAK_WRITE)
2393 1 = read (BREAK_READ)
2394 2 = read/write (BREAK_ACCESS)
2395 3 = instruction fetch (BREAK_FETCH)
c906108c
SS
2396
2397 Return 0 if successful; otherwise 1. */
2398
2399static int
fba45db2 2400common_breakpoint (int set, CORE_ADDR addr, int len, enum break_type type)
c906108c
SS
2401{
2402 char buf[DATA_MAXLEN + 1];
2403 char cmd, rcmd;
2404 int rpid, rerrflg, rresponse, rlen;
2405 int nfields;
2406
bf6ae464 2407 addr = gdbarch_addr_bits_remove (current_gdbarch, addr);
c906108c
SS
2408
2409 if (mips_monitor == MON_LSI)
2410 {
c5aa993b 2411 if (set == 0) /* clear breakpoint */
c906108c
SS
2412 {
2413 /* The LSI PMON "clear breakpoint" has this form:
c5aa993b
JM
2414 <pid> 'b' <bptn> 0x0
2415 reply:
2416 <pid> 'b' 0x0 <code>
c906108c
SS
2417
2418 <bptn> is a breakpoint number returned by an earlier 'B' command.
2419 Possible return codes: OK, E_BPT. */
2420
2421 int i;
2422
2423 /* Search for the breakpoint in the table. */
2424 for (i = 0; i < MAX_LSI_BREAKPOINTS; i++)
2425 if (lsi_breakpoints[i].type == type
2426 && lsi_breakpoints[i].addr == addr
2427 && lsi_breakpoints[i].len == len)
2428 break;
2429
2430 /* Clear the table entry and tell PMON to clear the breakpoint. */
2431 if (i == MAX_LSI_BREAKPOINTS)
2432 {
2433 warning ("common_breakpoint: Attempt to clear bogus breakpoint at %s\n",
2434 paddr_nz (addr));
2435 return 1;
2436 }
2437
2438 lsi_breakpoints[i].type = BREAK_UNUSED;
2439 sprintf (buf, "0x0 b 0x%x 0x0", i);
2440 mips_send_packet (buf, 1);
2441
2442 rlen = mips_receive_packet (buf, 1, mips_receive_wait);
2443 buf[rlen] = '\0';
2444
2445 nfields = sscanf (buf, "0x%x b 0x0 0x%x", &rpid, &rerrflg);
2446 if (nfields != 2)
2447 mips_error ("common_breakpoint: Bad response from remote board: %s", buf);
2448
2449 return (check_lsi_error (addr, rerrflg));
2450 }
c5aa993b
JM
2451 else
2452 /* set a breakpoint */
c906108c
SS
2453 {
2454 /* The LSI PMON "set breakpoint" command has this form:
c5aa993b
JM
2455 <pid> 'B' <addr> 0x0
2456 reply:
2457 <pid> 'B' <bptn> <code>
c906108c
SS
2458
2459 The "set data breakpoint" command has this form:
2460
c5aa993b 2461 <pid> 'A' <addr1> <type> [<addr2> [<value>]]
c906108c 2462
c5aa993b
JM
2463 where: type= "0x1" = read
2464 "0x2" = write
2465 "0x3" = access (read or write)
c906108c
SS
2466
2467 The reply returns two values:
c5aa993b
JM
2468 bptn - a breakpoint number, which is a small integer with
2469 possible values of zero through 255.
2470 code - an error return code, a value of zero indicates a
2471 succesful completion, other values indicate various
2472 errors and warnings.
2473
c906108c
SS
2474 Possible return codes: OK, W_QAL, E_QAL, E_OUT, E_NON.
2475
c5aa993b 2476 */
c906108c
SS
2477
2478 if (type == BREAK_FETCH) /* instruction breakpoint */
2479 {
2480 cmd = 'B';
2481 sprintf (buf, "0x0 B 0x%s 0x0", paddr_nz (addr));
2482 }
c5aa993b
JM
2483 else
2484 /* watchpoint */
c906108c
SS
2485 {
2486 cmd = 'A';
2487 sprintf (buf, "0x0 A 0x%s 0x%x 0x%s", paddr_nz (addr),
c5aa993b 2488 type == BREAK_READ ? 1 : (type == BREAK_WRITE ? 2 : 3),
c906108c
SS
2489 paddr_nz (addr + len - 1));
2490 }
2491 mips_send_packet (buf, 1);
2492
2493 rlen = mips_receive_packet (buf, 1, mips_receive_wait);
2494 buf[rlen] = '\0';
2495
2496 nfields = sscanf (buf, "0x%x %c 0x%x 0x%x",
2497 &rpid, &rcmd, &rresponse, &rerrflg);
2498 if (nfields != 4 || rcmd != cmd || rresponse > 255)
2499 mips_error ("common_breakpoint: Bad response from remote board: %s", buf);
2500
2501 if (rerrflg != 0)
2502 if (check_lsi_error (addr, rerrflg))
2503 return 1;
2504
2505 /* rresponse contains PMON's breakpoint number. Record the
2506 information for this breakpoint so we can clear it later. */
2507 lsi_breakpoints[rresponse].type = type;
2508 lsi_breakpoints[rresponse].addr = addr;
c5aa993b 2509 lsi_breakpoints[rresponse].len = len;
c906108c
SS
2510
2511 return 0;
2512 }
2513 }
2514 else
2515 {
2516 /* On non-LSI targets, the breakpoint command has this form:
c5aa993b
JM
2517 0x0 <CMD> <ADDR> <MASK> <FLAGS>
2518 <MASK> is a don't care mask for addresses.
2519 <FLAGS> is any combination of `r', `w', or `f' for read/write/fetch.
c906108c
SS
2520 */
2521 unsigned long mask;
2522
2523 mask = calculate_mask (addr, len);
2524 addr &= ~mask;
2525
c5aa993b
JM
2526 if (set) /* set a breakpoint */
2527 {
c906108c
SS
2528 char *flags;
2529 switch (type)
2530 {
c5aa993b 2531 case BREAK_WRITE: /* write */
c906108c
SS
2532 flags = "w";
2533 break;
c5aa993b 2534 case BREAK_READ: /* read */
c906108c
SS
2535 flags = "r";
2536 break;
c5aa993b 2537 case BREAK_ACCESS: /* read/write */
c906108c
SS
2538 flags = "rw";
2539 break;
c5aa993b 2540 case BREAK_FETCH: /* fetch */
c906108c
SS
2541 flags = "f";
2542 break;
2543 default:
e2e0b3e5 2544 internal_error (__FILE__, __LINE__, _("failed internal consistency check"));
c906108c
SS
2545 }
2546
2547 cmd = 'B';
2548 sprintf (buf, "0x0 B 0x%s 0x%s %s", paddr_nz (addr),
2549 paddr_nz (mask), flags);
2550 }
2551 else
2552 {
2553 cmd = 'b';
2554 sprintf (buf, "0x0 b 0x%s", paddr_nz (addr));
2555 }
2556
2557 mips_send_packet (buf, 1);
2558
2559 rlen = mips_receive_packet (buf, 1, mips_receive_wait);
2560 buf[rlen] = '\0';
2561
2562 nfields = sscanf (buf, "0x%x %c 0x%x 0x%x",
2563 &rpid, &rcmd, &rerrflg, &rresponse);
2564
2565 if (nfields != 4 || rcmd != cmd)
2566 mips_error ("common_breakpoint: Bad response from remote board: %s",
2567 buf);
2568
2569 if (rerrflg != 0)
2570 {
2571 /* Ddb returns "0x0 b 0x16 0x0\000", whereas
2572 Cogent returns "0x0 b 0xffffffff 0x16\000": */
2573 if (mips_monitor == MON_DDB)
2574 rresponse = rerrflg;
c5aa993b 2575 if (rresponse != 22) /* invalid argument */
c906108c 2576 fprintf_unfiltered (gdb_stderr,
c5aa993b 2577 "common_breakpoint (0x%s): Got error: 0x%x\n",
c906108c
SS
2578 paddr_nz (addr), rresponse);
2579 return 1;
2580 }
2581 }
2582 return 0;
2583}
2584\f
2585static void
fba45db2 2586send_srec (char *srec, int len, CORE_ADDR addr)
c906108c
SS
2587{
2588 while (1)
2589 {
2590 int ch;
2591
2cd58942 2592 serial_write (mips_desc, srec, len);
c906108c 2593
688991e6 2594 ch = mips_readchar (remote_timeout);
c906108c
SS
2595
2596 switch (ch)
2597 {
2598 case SERIAL_TIMEOUT:
2599 error ("Timeout during download.");
2600 break;
2601 case 0x6: /* ACK */
2602 return;
2603 case 0x15: /* NACK */
d4f3574e 2604 fprintf_unfiltered (gdb_stderr, "Download got a NACK at byte %s! Retrying.\n", paddr_u (addr));
c906108c
SS
2605 continue;
2606 default:
2607 error ("Download got unexpected ack char: 0x%x, retrying.\n", ch);
2608 }
2609 }
2610}
2611
2612/* Download a binary file by converting it to S records. */
2613
2614static void
fba45db2 2615mips_load_srec (char *args)
c906108c
SS
2616{
2617 bfd *abfd;
2618 asection *s;
2619 char *buffer, srec[1024];
2620 unsigned int i;
2621 unsigned int srec_frame = 200;
2622 int reclen;
2623 static int hashmark = 1;
2624
2625 buffer = alloca (srec_frame * 2 + 256);
2626
2627 abfd = bfd_openr (args, 0);
2628 if (!abfd)
2629 {
2630 printf_filtered ("Unable to open file %s\n", args);
2631 return;
2632 }
2633
2634 if (bfd_check_format (abfd, bfd_object) == 0)
2635 {
2636 printf_filtered ("File is not an object file\n");
2637 return;
2638 }
2639
2640/* This actually causes a download in the IDT binary format: */
2641 mips_send_command (LOAD_CMD, 0);
2642
2643 for (s = abfd->sections; s; s = s->next)
2644 {
2645 if (s->flags & SEC_LOAD)
2646 {
2647 unsigned int numbytes;
2648
d4f3574e
SS
2649 /* FIXME! vma too small????? */
2650 printf_filtered ("%s\t: 0x%4lx .. 0x%4lx ", s->name,
2651 (long) s->vma,
2c500098 2652 (long) (s->vma + bfd_get_section_size (s)));
c906108c
SS
2653 gdb_flush (gdb_stdout);
2654
2c500098 2655 for (i = 0; i < bfd_get_section_size (s); i += numbytes)
c906108c 2656 {
2c500098 2657 numbytes = min (srec_frame, bfd_get_section_size (s) - i);
c906108c
SS
2658
2659 bfd_get_section_contents (abfd, s, buffer, i, numbytes);
2660
1fa79fac
MS
2661 reclen = mips_make_srec (srec, '3', s->vma + i,
2662 buffer, numbytes);
c906108c
SS
2663 send_srec (srec, reclen, s->vma + i);
2664
9a4105ab
AC
2665 if (deprecated_ui_load_progress_hook)
2666 deprecated_ui_load_progress_hook (s->name, i);
7829b833 2667
c906108c
SS
2668 if (hashmark)
2669 {
2670 putchar_unfiltered ('#');
2671 gdb_flush (gdb_stdout);
2672 }
2673
c5aa993b
JM
2674 } /* Per-packet (or S-record) loop */
2675
c906108c 2676 putchar_unfiltered ('\n');
c5aa993b 2677 } /* Loadable sections */
c906108c 2678 }
c5aa993b 2679 if (hashmark)
c906108c 2680 putchar_unfiltered ('\n');
c5aa993b 2681
c906108c
SS
2682 /* Write a type 7 terminator record. no data for a type 7, and there
2683 is no data, so len is 0. */
2684
2685 reclen = mips_make_srec (srec, '7', abfd->start_address, NULL, 0);
2686
2687 send_srec (srec, reclen, abfd->start_address);
2688
2cd58942 2689 serial_flush_input (mips_desc);
c906108c
SS
2690}
2691
2692/*
2693 * mips_make_srec -- make an srecord. This writes each line, one at a
c5aa993b
JM
2694 * time, each with it's own header and trailer line.
2695 * An srecord looks like this:
c906108c
SS
2696 *
2697 * byte count-+ address
2698 * start ---+ | | data +- checksum
c5aa993b
JM
2699 * | | | |
2700 * S01000006F6B692D746573742E73726563E4
2701 * S315000448600000000000000000FC00005900000000E9
2702 * S31A0004000023C1400037DE00F023604000377B009020825000348D
2703 * S30B0004485A0000000000004E
2704 * S70500040000F6
c906108c 2705 *
c5aa993b 2706 * S<type><length><address><data><checksum>
c906108c
SS
2707 *
2708 * Where
2709 * - length
2710 * is the number of bytes following upto the checksum. Note that
2711 * this is not the number of chars following, since it takes two
2712 * chars to represent a byte.
2713 * - type
2714 * is one of:
2715 * 0) header record
2716 * 1) two byte address data record
2717 * 2) three byte address data record
2718 * 3) four byte address data record
2719 * 7) four byte address termination record
2720 * 8) three byte address termination record
2721 * 9) two byte address termination record
2722 *
2723 * - address
2724 * is the start address of the data following, or in the case of
2725 * a termination record, the start address of the image
2726 * - data
2727 * is the data.
2728 * - checksum
c5aa993b 2729 * is the sum of all the raw byte data in the record, from the length
c906108c
SS
2730 * upwards, modulo 256 and subtracted from 255.
2731 *
2732 * This routine returns the length of the S-record.
2733 *
2734 */
2735
2736static int
fba45db2
KB
2737mips_make_srec (char *buf, int type, CORE_ADDR memaddr, unsigned char *myaddr,
2738 int len)
c906108c
SS
2739{
2740 unsigned char checksum;
2741 int i;
2742
2743 /* Create the header for the srec. addr_size is the number of bytes in the address,
2744 and 1 is the number of bytes in the count. */
2745
2746 /* FIXME!! bigger buf required for 64-bit! */
2747 buf[0] = 'S';
2748 buf[1] = type;
2749 buf[2] = len + 4 + 1; /* len + 4 byte address + 1 byte checksum */
2750 /* This assumes S3 style downloads (4byte addresses). There should
2751 probably be a check, or the code changed to make it more
2752 explicit. */
2753 buf[3] = memaddr >> 24;
2754 buf[4] = memaddr >> 16;
2755 buf[5] = memaddr >> 8;
2756 buf[6] = memaddr;
2757 memcpy (&buf[7], myaddr, len);
2758
2759 /* Note that the checksum is calculated on the raw data, not the
2760 hexified data. It includes the length, address and the data
2761 portions of the packet. */
2762 checksum = 0;
2763 buf += 2; /* Point at length byte */
2764 for (i = 0; i < len + 4 + 1; i++)
2765 checksum += *buf++;
2766
2767 *buf = ~checksum;
2768
2769 return len + 8;
2770}
2771
2772/* The following manifest controls whether we enable the simple flow
2773 control support provided by the monitor. If enabled the code will
2774 wait for an affirmative ACK between transmitting packets. */
2775#define DOETXACK (1)
2776
2777/* The PMON fast-download uses an encoded packet format constructed of
2778 3byte data packets (encoded as 4 printable ASCII characters), and
2779 escape sequences (preceded by a '/'):
2780
c5aa993b
JM
2781 'K' clear checksum
2782 'C' compare checksum (12bit value, not included in checksum calculation)
2783 'S' define symbol name (for addr) terminated with "," and padded to 4char boundary
2784 'Z' zero fill multiple of 3bytes
2785 'B' byte (12bit encoded value, of 8bit data)
2786 'A' address (36bit encoded value)
2787 'E' define entry as original address, and exit load
c906108c
SS
2788
2789 The packets are processed in 4 character chunks, so the escape
2790 sequences that do not have any data (or variable length data)
2791 should be padded to a 4 character boundary. The decoder will give
2792 an error if the complete message block size is not a multiple of
2793 4bytes (size of record).
2794
2795 The encoding of numbers is done in 6bit fields. The 6bit value is
2796 used to index into this string to get the specific character
2797 encoding for the value: */
2798static char encoding[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789,.";
2799
2800/* Convert the number of bits required into an encoded number, 6bits
2801 at a time (range 0..63). Keep a checksum if required (passed
2802 pointer non-NULL). The function returns the number of encoded
2803 characters written into the buffer. */
2804static int
fba45db2 2805pmon_makeb64 (unsigned long v, char *p, int n, int *chksum)
c906108c
SS
2806{
2807 int count = (n / 6);
2808
c5aa993b
JM
2809 if ((n % 12) != 0)
2810 {
2811 fprintf_unfiltered (gdb_stderr,
2812 "Fast encoding bitcount must be a multiple of 12bits: %dbit%s\n", n, (n == 1) ? "" : "s");
2813 return (0);
2814 }
2815 if (n > 36)
2816 {
2817 fprintf_unfiltered (gdb_stderr,
2818 "Fast encoding cannot process more than 36bits at the moment: %dbits\n", n);
2819 return (0);
2820 }
c906108c
SS
2821
2822 /* Deal with the checksum: */
c5aa993b
JM
2823 if (chksum != NULL)
2824 {
2825 switch (n)
2826 {
2827 case 36:
2828 *chksum += ((v >> 24) & 0xFFF);
2829 case 24:
2830 *chksum += ((v >> 12) & 0xFFF);
2831 case 12:
2832 *chksum += ((v >> 0) & 0xFFF);
2833 }
c906108c 2834 }
c906108c 2835
c5aa993b
JM
2836 do
2837 {
2838 n -= 6;
2839 *p++ = encoding[(v >> n) & 0x3F];
2840 }
2841 while (n > 0);
c906108c 2842
c5aa993b 2843 return (count);
c906108c
SS
2844}
2845
2846/* Shorthand function (that could be in-lined) to output the zero-fill
2847 escape sequence into the data stream. */
2848static int
fba45db2 2849pmon_zeroset (int recsize, char **buff, int *amount, unsigned int *chksum)
c906108c
SS
2850{
2851 int count;
2852
c5aa993b 2853 sprintf (*buff, "/Z");
c906108c
SS
2854 count = pmon_makeb64 (*amount, (*buff + 2), 12, chksum);
2855 *buff += (count + 2);
2856 *amount = 0;
c5aa993b 2857 return (recsize + count + 2);
c906108c
SS
2858}
2859
2860static int
fba45db2 2861pmon_checkset (int recsize, char **buff, int *value)
c906108c
SS
2862{
2863 int count;
2864
2865 /* Add the checksum (without updating the value): */
2866 sprintf (*buff, "/C");
2867 count = pmon_makeb64 (*value, (*buff + 2), 12, NULL);
2868 *buff += (count + 2);
2869 sprintf (*buff, "\n");
c5aa993b 2870 *buff += 2; /* include zero terminator */
c906108c
SS
2871 /* Forcing a checksum validation clears the sum: */
2872 *value = 0;
c5aa993b 2873 return (recsize + count + 3);
c906108c
SS
2874}
2875
2876/* Amount of padding we leave after at the end of the output buffer,
2877 for the checksum and line termination characters: */
2878#define CHECKSIZE (4 + 4 + 4 + 2)
2879/* zero-fill, checksum, transfer end and line termination space. */
2880
2881/* The amount of binary data loaded from the object file in a single
2882 operation: */
2883#define BINCHUNK (1024)
2884
2885/* Maximum line of data accepted by the monitor: */
2886#define MAXRECSIZE (550)
2887/* NOTE: This constant depends on the monitor being used. This value
2888 is for PMON 5.x on the Cogent Vr4300 board. */
2889
2890static void
fba45db2
KB
2891pmon_make_fastrec (char **outbuf, unsigned char *inbuf, int *inptr,
2892 int inamount, int *recsize, unsigned int *csum,
2893 unsigned int *zerofill)
c906108c
SS
2894{
2895 int count = 0;
2896 char *p = *outbuf;
2897
2898 /* This is a simple check to ensure that our data will fit within
2899 the maximum allowable record size. Each record output is 4bytes
2900 in length. We must allow space for a pending zero fill command,
2901 the record, and a checksum record. */
c5aa993b
JM
2902 while ((*recsize < (MAXRECSIZE - CHECKSIZE)) && ((inamount - *inptr) > 0))
2903 {
2904 /* Process the binary data: */
2905 if ((inamount - *inptr) < 3)
2906 {
2907 if (*zerofill != 0)
2908 *recsize = pmon_zeroset (*recsize, &p, zerofill, csum);
2909 sprintf (p, "/B");
2910 count = pmon_makeb64 (inbuf[*inptr], &p[2], 12, csum);
2911 p += (2 + count);
2912 *recsize += (2 + count);
2913 (*inptr)++;
2914 }
2915 else
2916 {
2917 unsigned int value = ((inbuf[*inptr + 0] << 16) | (inbuf[*inptr + 1] << 8) | inbuf[*inptr + 2]);
2918 /* Simple check for zero data. TODO: A better check would be
2919 to check the last, and then the middle byte for being zero
2920 (if the first byte is not). We could then check for
2921 following runs of zeros, and if above a certain size it is
2922 worth the 4 or 8 character hit of the byte insertions used
2923 to pad to the start of the zeroes. NOTE: This also depends
2924 on the alignment at the end of the zero run. */
2925 if (value == 0x00000000)
2926 {
2927 (*zerofill)++;
2928 if (*zerofill == 0xFFF) /* 12bit counter */
2929 *recsize = pmon_zeroset (*recsize, &p, zerofill, csum);
2930 }
2931 else
2932 {
2933 if (*zerofill != 0)
2934 *recsize = pmon_zeroset (*recsize, &p, zerofill, csum);
2935 count = pmon_makeb64 (value, p, 24, csum);
2936 p += count;
2937 *recsize += count;
2938 }
2939 *inptr += 3;
2940 }
c906108c 2941 }
c906108c
SS
2942
2943 *outbuf = p;
2944 return;
2945}
2946
2947static int
fba45db2 2948pmon_check_ack (char *mesg)
c906108c
SS
2949{
2950#if defined(DOETXACK)
2951 int c;
2952
2953 if (!tftp_in_use)
2954 {
2cd58942 2955 c = serial_readchar (udp_in_use ? udp_desc : mips_desc,
688991e6 2956 remote_timeout);
c906108c
SS
2957 if ((c == SERIAL_TIMEOUT) || (c != 0x06))
2958 {
2959 fprintf_unfiltered (gdb_stderr,
2960 "Failed to receive valid ACK for %s\n", mesg);
c5aa993b 2961 return (-1); /* terminate the download */
c906108c
SS
2962 }
2963 }
2964#endif /* DOETXACK */
c5aa993b 2965 return (0);
c906108c
SS
2966}
2967
2968/* pmon_download - Send a sequence of characters to the PMON download port,
2969 which is either a serial port or a UDP socket. */
2970
2971static void
fba45db2 2972pmon_start_download (void)
c906108c
SS
2973{
2974 if (tftp_in_use)
2975 {
2976 /* Create the temporary download file. */
2977 if ((tftp_file = fopen (tftp_localname, "w")) == NULL)
2978 perror_with_name (tftp_localname);
2979 }
2980 else
2981 {
2982 mips_send_command (udp_in_use ? LOAD_CMD_UDP : LOAD_CMD, 0);
2983 mips_expect ("Downloading from ");
2984 mips_expect (udp_in_use ? "udp" : "tty0");
2985 mips_expect (", ^C to abort\r\n");
2986 }
2987}
2988
2989static int
2990mips_expect_download (char *string)
2991{
2992 if (!mips_expect (string))
2993 {
2994 fprintf_unfiltered (gdb_stderr, "Load did not complete successfully.\n");
2995 if (tftp_in_use)
2996 remove (tftp_localname); /* Remove temporary file */
2997 return 0;
2998 }
2999 else
3000 return 1;
3001}
3002
688991e6
AC
3003static void
3004pmon_check_entry_address (char *entry_address, int final)
3005{
3006 char hexnumber[9]; /* includes '\0' space */
3007 mips_expect_timeout (entry_address, tftp_in_use ? 15 : remote_timeout);
3008 sprintf (hexnumber, "%x", final);
3009 mips_expect (hexnumber);
3010 mips_expect ("\r\n");
3011}
3012
3013static int
3014pmon_check_total (int bintotal)
3015{
3016 char hexnumber[9]; /* includes '\0' space */
3017 mips_expect ("\r\ntotal = 0x");
3018 sprintf (hexnumber, "%x", bintotal);
3019 mips_expect (hexnumber);
3020 return mips_expect_download (" bytes\r\n");
3021}
3022
c906108c 3023static void
fba45db2 3024pmon_end_download (int final, int bintotal)
c906108c 3025{
c5aa993b 3026 char hexnumber[9]; /* includes '\0' space */
c906108c
SS
3027
3028 if (tftp_in_use)
3029 {
3030 static char *load_cmd_prefix = "load -b -s ";
3031 char *cmd;
3032 struct stat stbuf;
3033
3034 /* Close off the temporary file containing the load data. */
3035 fclose (tftp_file);
3036 tftp_file = NULL;
3037
3038 /* Make the temporary file readable by the world. */
3039 if (stat (tftp_localname, &stbuf) == 0)
3040 chmod (tftp_localname, stbuf.st_mode | S_IROTH);
3041
3042 /* Must reinitialize the board to prevent PMON from crashing. */
3043 mips_send_command ("initEther\r", -1);
3044
3045 /* Send the load command. */
3046 cmd = xmalloc (strlen (load_cmd_prefix) + strlen (tftp_name) + 2);
3047 strcpy (cmd, load_cmd_prefix);
3048 strcat (cmd, tftp_name);
3049 strcat (cmd, "\r");
3050 mips_send_command (cmd, 0);
b8c9b27d 3051 xfree (cmd);
c906108c
SS
3052 if (!mips_expect_download ("Downloading from "))
3053 return;
3054 if (!mips_expect_download (tftp_name))
3055 return;
3056 if (!mips_expect_download (", ^C to abort\r\n"))
3057 return;
3058 }
3059
3060 /* Wait for the stuff that PMON prints after the load has completed.
3061 The timeout value for use in the tftp case (15 seconds) was picked
3062 arbitrarily but might be too small for really large downloads. FIXME. */
688991e6 3063 switch (mips_monitor)
c906108c 3064 {
688991e6
AC
3065 case MON_LSI:
3066 pmon_check_ack ("termination");
3067 pmon_check_entry_address ("Entry address is ", final);
3068 if (!pmon_check_total (bintotal))
3069 return;
3070 break;
3071 default:
3072 pmon_check_entry_address ("Entry Address = ", final);
c906108c 3073 pmon_check_ack ("termination");
688991e6
AC
3074 if (!pmon_check_total (bintotal))
3075 return;
3076 break;
c906108c 3077 }
c906108c
SS
3078
3079 if (tftp_in_use)
3080 remove (tftp_localname); /* Remove temporary file */
3081}
3082
3083static void
fba45db2 3084pmon_download (char *buffer, int length)
c906108c
SS
3085{
3086 if (tftp_in_use)
3087 fwrite (buffer, 1, length, tftp_file);
3088 else
2cd58942 3089 serial_write (udp_in_use ? udp_desc : mips_desc, buffer, length);
c906108c
SS
3090}
3091
3092static void
fba45db2 3093pmon_load_fast (char *file)
c906108c
SS
3094{
3095 bfd *abfd;
3096 asection *s;
3097 unsigned char *binbuf;
3098 char *buffer;
3099 int reclen;
3100 unsigned int csum = 0;
3101 int hashmark = !tftp_in_use;
3102 int bintotal = 0;
3103 int final = 0;
3104 int finished = 0;
3105
c5aa993b
JM
3106 buffer = (char *) xmalloc (MAXRECSIZE + 1);
3107 binbuf = (unsigned char *) xmalloc (BINCHUNK);
c906108c 3108
c5aa993b 3109 abfd = bfd_openr (file, 0);
c906108c 3110 if (!abfd)
c5aa993b
JM
3111 {
3112 printf_filtered ("Unable to open file %s\n", file);
3113 return;
3114 }
c906108c 3115
c5aa993b
JM
3116 if (bfd_check_format (abfd, bfd_object) == 0)
3117 {
3118 printf_filtered ("File is not an object file\n");
3119 return;
3120 }
c906108c
SS
3121
3122 /* Setup the required download state: */
3123 mips_send_command ("set dlproto etxack\r", -1);
3124 mips_send_command ("set dlecho off\r", -1);
3125 /* NOTE: We get a "cannot set variable" message if the variable is
3126 already defined to have the argument we give. The code doesn't
3127 care, since it just scans to the next prompt anyway. */
3128 /* Start the download: */
c5aa993b
JM
3129 pmon_start_download ();
3130
c906108c 3131 /* Zero the checksum */
c5aa993b
JM
3132 sprintf (buffer, "/Kxx\n");
3133 reclen = strlen (buffer);
c906108c 3134 pmon_download (buffer, reclen);
c5aa993b 3135 finished = pmon_check_ack ("/Kxx");
c906108c
SS
3136
3137 for (s = abfd->sections; s && !finished; s = s->next)
c5aa993b
JM
3138 if (s->flags & SEC_LOAD) /* only deal with loadable sections */
3139 {
2c500098
AM
3140 bintotal += bfd_get_section_size (s);
3141 final = (s->vma + bfd_get_section_size (s));
c5aa993b
JM
3142
3143 printf_filtered ("%s\t: 0x%4x .. 0x%4x ", s->name, (unsigned int) s->vma,
2c500098 3144 (unsigned int) (s->vma + bfd_get_section_size (s)));
c5aa993b
JM
3145 gdb_flush (gdb_stdout);
3146
3147 /* Output the starting address */
3148 sprintf (buffer, "/A");
3149 reclen = pmon_makeb64 (s->vma, &buffer[2], 36, &csum);
3150 buffer[2 + reclen] = '\n';
3151 buffer[3 + reclen] = '\0';
3152 reclen += 3; /* for the initial escape code and carriage return */
3153 pmon_download (buffer, reclen);
3154 finished = pmon_check_ack ("/A");
3155
3156 if (!finished)
3157 {
3158 unsigned int binamount;
3159 unsigned int zerofill = 0;
3160 char *bp = buffer;
3161 unsigned int i;
3162
3163 reclen = 0;
3164
2c500098
AM
3165 for (i = 0;
3166 i < bfd_get_section_size (s) && !finished;
3167 i += binamount)
c5aa993b
JM
3168 {
3169 int binptr = 0;
3170
2c500098 3171 binamount = min (BINCHUNK, bfd_get_section_size (s) - i);
c5aa993b
JM
3172
3173 bfd_get_section_contents (abfd, s, binbuf, i, binamount);
3174
3175 /* This keeps a rolling checksum, until we decide to output
3176 the line: */
3177 for (; ((binamount - binptr) > 0);)
3178 {
1fa79fac
MS
3179 pmon_make_fastrec (&bp, binbuf, &binptr, binamount,
3180 &reclen, &csum, &zerofill);
c5aa993b
JM
3181 if (reclen >= (MAXRECSIZE - CHECKSIZE))
3182 {
3183 reclen = pmon_checkset (reclen, &bp, &csum);
3184 pmon_download (buffer, reclen);
3185 finished = pmon_check_ack ("data record");
3186 if (finished)
3187 {
3188 zerofill = 0; /* do not transmit pending zerofills */
3189 break;
3190 }
3191
9a4105ab
AC
3192 if (deprecated_ui_load_progress_hook)
3193 deprecated_ui_load_progress_hook (s->name, i);
7829b833 3194
c5aa993b
JM
3195 if (hashmark)
3196 {
3197 putchar_unfiltered ('#');
3198 gdb_flush (gdb_stdout);
3199 }
3200
3201 bp = buffer;
3202 reclen = 0; /* buffer processed */
3203 }
3204 }
3205 }
3206
3207 /* Ensure no out-standing zerofill requests: */
3208 if (zerofill != 0)
3209 reclen = pmon_zeroset (reclen, &bp, &zerofill, &csum);
3210
3211 /* and then flush the line: */
3212 if (reclen > 0)
3213 {
3214 reclen = pmon_checkset (reclen, &bp, &csum);
3215 /* Currently pmon_checkset outputs the line terminator by
3216 default, so we write out the buffer so far: */
3217 pmon_download (buffer, reclen);
3218 finished = pmon_check_ack ("record remnant");
3219 }
3220 }
3221
3222 putchar_unfiltered ('\n');
3223 }
c906108c
SS
3224
3225 /* Terminate the transfer. We know that we have an empty output
3226 buffer at this point. */
c5aa993b 3227 sprintf (buffer, "/E/E\n"); /* include dummy padding characters */
c906108c
SS
3228 reclen = strlen (buffer);
3229 pmon_download (buffer, reclen);
3230
c5aa993b
JM
3231 if (finished)
3232 { /* Ignore the termination message: */
2cd58942 3233 serial_flush_input (udp_in_use ? udp_desc : mips_desc);
c5aa993b
JM
3234 }
3235 else
3236 { /* Deal with termination message: */
3237 pmon_end_download (final, bintotal);
3238 }
c906108c
SS
3239
3240 return;
3241}
3242
3243/* mips_load -- download a file. */
3244
3245static void
fba45db2 3246mips_load (char *file, int from_tty)
c906108c
SS
3247{
3248 /* Get the board out of remote debugging mode. */
3249 if (mips_exit_debug ())
3250 error ("mips_load: Couldn't get into monitor mode.");
3251
3252 if (mips_monitor != MON_IDT)
c5aa993b 3253 pmon_load_fast (file);
c906108c 3254 else
c5aa993b 3255 mips_load_srec (file);
c906108c
SS
3256
3257 mips_initialize ();
3258
3259 /* Finally, make the PC point at the start address */
3260 if (mips_monitor != MON_IDT)
3261 {
3262 /* Work around problem where PMON monitor updates the PC after a load
c5aa993b
JM
3263 to a different value than GDB thinks it has. The following ensures
3264 that the write_pc() WILL update the PC value: */
8262ee23 3265 deprecated_register_valid[PC_REGNUM] = 0;
c906108c
SS
3266 }
3267 if (exec_bfd)
3268 write_pc (bfd_get_start_address (exec_bfd));
3269
39f77062 3270 inferior_ptid = null_ptid; /* No process now */
c906108c
SS
3271
3272/* This is necessary because many things were based on the PC at the time that
3273 we attached to the monitor, which is no longer valid now that we have loaded
3274 new code (and just changed the PC). Another way to do this might be to call
3275 normal_stop, except that the stack may not be valid, and things would get
3276 horribly confused... */
3277
3278 clear_symtab_users ();
3279}
3280
3281
3282/* Pass the command argument as a packet to PMON verbatim. */
3283
3284static void
fba45db2 3285pmon_command (char *args, int from_tty)
c906108c
SS
3286{
3287 char buf[DATA_MAXLEN + 1];
3288 int rlen;
3289
3290 sprintf (buf, "0x0 %s", args);
3291 mips_send_packet (buf, 1);
3292 printf_filtered ("Send packet: %s\n", buf);
3293
3294 rlen = mips_receive_packet (buf, 1, mips_receive_wait);
3295 buf[rlen] = '\0';
3296 printf_filtered ("Received packet: %s\n", buf);
3297}
3298\f
a78f21af
AC
3299extern initialize_file_ftype _initialize_remote_mips; /* -Wmissing-prototypes */
3300
c906108c 3301void
fba45db2 3302_initialize_remote_mips (void)
c906108c
SS
3303{
3304 /* Initialize the fields in mips_ops that are common to all four targets. */
3305 mips_ops.to_longname = "Remote MIPS debugging over serial line";
3306 mips_ops.to_close = mips_close;
3307 mips_ops.to_detach = mips_detach;
3308 mips_ops.to_resume = mips_resume;
3309 mips_ops.to_fetch_registers = mips_fetch_registers;
3310 mips_ops.to_store_registers = mips_store_registers;
3311 mips_ops.to_prepare_to_store = mips_prepare_to_store;
c8e73a31 3312 mips_ops.deprecated_xfer_memory = mips_xfer_memory;
c906108c
SS
3313 mips_ops.to_files_info = mips_files_info;
3314 mips_ops.to_insert_breakpoint = mips_insert_breakpoint;
3315 mips_ops.to_remove_breakpoint = mips_remove_breakpoint;
546143b6
AC
3316 mips_ops.to_insert_watchpoint = mips_insert_watchpoint;
3317 mips_ops.to_remove_watchpoint = mips_remove_watchpoint;
3318 mips_ops.to_stopped_by_watchpoint = mips_stopped_by_watchpoint;
3319 mips_ops.to_can_use_hw_breakpoint = mips_can_use_watchpoint;
c906108c
SS
3320 mips_ops.to_kill = mips_kill;
3321 mips_ops.to_load = mips_load;
3322 mips_ops.to_create_inferior = mips_create_inferior;
3323 mips_ops.to_mourn_inferior = mips_mourn_inferior;
3324 mips_ops.to_stratum = process_stratum;
3325 mips_ops.to_has_all_memory = 1;
3326 mips_ops.to_has_memory = 1;
3327 mips_ops.to_has_stack = 1;
3328 mips_ops.to_has_registers = 1;
3329 mips_ops.to_has_execution = 1;
3330 mips_ops.to_magic = OPS_MAGIC;
3331
3332 /* Copy the common fields to all four target vectors. */
3333 pmon_ops = ddb_ops = lsi_ops = mips_ops;
3334
3335 /* Initialize target-specific fields in the target vectors. */
3336 mips_ops.to_shortname = "mips";
3337 mips_ops.to_doc = "\
3338Debug a board using the MIPS remote debugging protocol over a serial line.\n\
3339The argument is the device it is connected to or, if it contains a colon,\n\
3340HOST:PORT to access a board over a network";
3341 mips_ops.to_open = mips_open;
3342 mips_ops.to_wait = mips_wait;
3343
3344 pmon_ops.to_shortname = "pmon";
c5aa993b 3345 pmon_ops.to_doc = "\
c906108c
SS
3346Debug a board using the PMON MIPS remote debugging protocol over a serial\n\
3347line. The argument is the device it is connected to or, if it contains a\n\
3348colon, HOST:PORT to access a board over a network";
3349 pmon_ops.to_open = pmon_open;
3350 pmon_ops.to_wait = mips_wait;
3351
3352 ddb_ops.to_shortname = "ddb";
3353 ddb_ops.to_doc = "\
3354Debug a board using the PMON MIPS remote debugging protocol over a serial\n\
3355line. The first argument is the device it is connected to or, if it contains\n\
3356a colon, HOST:PORT to access a board over a network. The optional second\n\
3357parameter is the temporary file in the form HOST:FILENAME to be used for\n\
3358TFTP downloads to the board. The optional third parameter is the local name\n\
3359of the TFTP temporary file, if it differs from the filename seen by the board.";
3360 ddb_ops.to_open = ddb_open;
3361 ddb_ops.to_wait = mips_wait;
3362
3363 lsi_ops.to_shortname = "lsi";
3364 lsi_ops.to_doc = pmon_ops.to_doc;
3365 lsi_ops.to_open = lsi_open;
3366 lsi_ops.to_wait = mips_wait;
3367
3368 /* Add the targets. */
3369 add_target (&mips_ops);
3370 add_target (&pmon_ops);
3371 add_target (&ddb_ops);
3372 add_target (&lsi_ops);
3373
85c07804
AC
3374 add_setshow_zinteger_cmd ("timeout", no_class, &mips_receive_wait, _("\
3375Set timeout in seconds for remote MIPS serial I/O."), _("\
3376Show timeout in seconds for remote MIPS serial I/O."), NULL,
3377 NULL,
3378 NULL, /* FIXME: i18n: */
3379 &setlist, &showlist);
3380
3381 add_setshow_zinteger_cmd ("retransmit-timeout", no_class,
3382 &mips_retransmit_wait, _("\
3383Set retransmit timeout in seconds for remote MIPS serial I/O."), _("\
3384Show retransmit timeout in seconds for remote MIPS serial I/O."), _("\
c906108c 3385This is the number of seconds to wait for an acknowledgement to a packet\n\
85c07804
AC
3386before resending the packet."),
3387 NULL,
3388 NULL, /* FIXME: i18n: */
3389 &setlist, &showlist);
3390
3391 add_setshow_zinteger_cmd ("syn-garbage-limit", no_class,
3392 &mips_syn_garbage, _("\
3393Set the maximum number of characters to ignore when scanning for a SYN."), _("\
3394Show the maximum number of characters to ignore when scanning for a SYN."), _("\
c906108c 3395This is the maximum number of characters GDB will ignore when trying to\n\
cb1a6d5f
AC
3396synchronize with the remote system. A value of -1 means that there is no\n\
3397limit. (Note that these characters are printed out even though they are\n\
85c07804
AC
3398ignored.)"),
3399 NULL,
3400 NULL, /* FIXME: i18n: */
3401 &setlist, &showlist);
c906108c 3402
4d28ad1e
AC
3403 add_setshow_string_cmd ("monitor-prompt", class_obscure,
3404 &mips_monitor_prompt, _("\
3405Set the prompt that GDB expects from the monitor."), _("\
3406Show the prompt that GDB expects from the monitor."), NULL,
3407 NULL,
3408 NULL, /* FIXME: i18n: */
3409 &setlist, &showlist);
c906108c 3410
85c07804
AC
3411 add_setshow_zinteger_cmd ("monitor-warnings", class_obscure,
3412 &monitor_warnings, _("\
3413Set printing of monitor warnings."), _("\
3414Show printing of monitor warnings."), _("\
3415When enabled, monitor warnings about hardware breakpoints will be displayed."),
3416 NULL,
3417 NULL, /* FIXME: i18n: */
3418 &setlist, &showlist);
c906108c 3419
24ec834b 3420 add_com ("pmon", class_obscure, pmon_command,
1bedd215 3421 _("Send a packet to PMON (must be in debug mode)."));
4014092b 3422
5bf193a2
AC
3423 add_setshow_boolean_cmd ("mask-address", no_class, &mask_address_p, _("\
3424Set zeroing of upper 32 bits of 64-bit addresses when talking to PMON targets."), _("\
3425Show zeroing of upper 32 bits of 64-bit addresses when talking to PMON targets."), _("\
3426Use \"on\" to enable the masking and \"off\" to disable it."),
3427 NULL,
3428 NULL, /* FIXME: i18n: */
3429 &setlist, &showlist);
c906108c 3430}
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