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authorDaniel Jacobowitz <drow@false.org>2006-12-16 19:18:37 +0000
committerDaniel Jacobowitz <drow@false.org>2006-12-16 19:18:37 +0000
commitf3d770869cf88d003628a609062d4d43d65ed665 (patch)
tree8c8e2a0c90bf3619806235ba5fb092e4a70eb4bb
parent6213115e4729c432a7cad5ce4c4e05c13bebd26f (diff)
downloadgdb-f3d770869cf88d003628a609062d4d43d65ed665.zip
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* dve3900-rom.c: Delete file.
* Makefile.in (dve3900-rom.o): Delete.
-rw-r--r--gdb/ChangeLog5
-rw-r--r--gdb/Makefile.in3
-rw-r--r--gdb/dve3900-rom.c1069
3 files changed, 5 insertions, 1072 deletions
diff --git a/gdb/ChangeLog b/gdb/ChangeLog
index f608302..dc39ab4 100644
--- a/gdb/ChangeLog
+++ b/gdb/ChangeLog
@@ -1,5 +1,10 @@
2006-12-16 Daniel Jacobowitz <dan@codesourcery.com>
+ * dve3900-rom.c: Delete file.
+ * Makefile.in (dve3900-rom.o): Delete.
+
+2006-12-16 Daniel Jacobowitz <dan@codesourcery.com>
+
* vx-share/README: Delete file.
2006-12-16 Mark Kettenis <kettenis@gnu.org>
diff --git a/gdb/Makefile.in b/gdb/Makefile.in
index 35550cd..29c6ee4 100644
--- a/gdb/Makefile.in
+++ b/gdb/Makefile.in
@@ -1945,9 +1945,6 @@ dsrec.o: dsrec.c $(defs_h) $(serial_h) $(srec_h) $(gdb_assert_h) \
dummy-frame.o: dummy-frame.c $(defs_h) $(dummy_frame_h) $(regcache_h) \
$(frame_h) $(inferior_h) $(gdb_assert_h) $(frame_unwind_h) \
$(command_h) $(gdbcmd_h) $(gdb_string_h)
-dve3900-rom.o: dve3900-rom.c $(defs_h) $(gdbcore_h) $(target_h) $(monitor_h) \
- $(serial_h) $(inferior_h) $(command_h) $(gdb_string_h) $(regcache_h) \
- $(mips_tdep_h)
dwarf2expr.o: dwarf2expr.c $(defs_h) $(symtab_h) $(gdbtypes_h) $(value_h) \
$(gdbcore_h) $(elf_dwarf2_h) $(dwarf2expr_h)
dwarf2-frame.o: dwarf2-frame.c $(defs_h) $(dwarf2expr_h) $(elf_dwarf2_h) \
diff --git a/gdb/dve3900-rom.c b/gdb/dve3900-rom.c
deleted file mode 100644
index 4a9001c..0000000
--- a/gdb/dve3900-rom.c
+++ /dev/null
@@ -1,1069 +0,0 @@
-/* Remote debugging interface for Densan DVE-R3900 ROM monitor for
- GDB, the GNU debugger.
- Copyright (C) 1997, 1998, 2000, 2001 Free Software Foundation, Inc.
-
- This file is part of GDB.
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 51 Franklin Street, Fifth Floor,
- Boston, MA 02110-1301, USA. */
-
-#include "defs.h"
-#include "gdbcore.h"
-#include "target.h"
-#include "monitor.h"
-#include "serial.h"
-#include "inferior.h"
-#include "command.h"
-#include "gdb_string.h"
-#include <time.h>
-#include "regcache.h"
-#include "mips-tdep.h"
-
-/* Type of function passed to bfd_map_over_sections. */
-
-typedef void (*section_map_func) (bfd * abfd, asection * sect, void *obj);
-
-/* Packet escape character used by Densan monitor. */
-
-#define PESC 0xdc
-
-/* Maximum packet size. This is actually smaller than necessary
- just to be safe. */
-
-#define MAXPSIZE 1024
-
-/* External functions. */
-
-extern void report_transfer_performance (unsigned long, time_t, time_t);
-
-/* Certain registers are "bitmapped", in that the monitor can only display
- them or let the user modify them as a series of named bitfields.
- This structure describes a field in a bitmapped register. */
-
-struct bit_field
- {
- char *prefix; /* string appearing before the value */
- char *suffix; /* string appearing after the value */
- char *user_name; /* name used by human when entering field value */
- int length; /* number of bits in the field */
- int start; /* starting (least significant) bit number of field */
- };
-
-/* Local functions for register manipulation. */
-
-static void r3900_supply_register (char *regname, int regnamelen,
- char *val, int vallen);
-static void fetch_bad_vaddr (void);
-static unsigned long fetch_fields (struct bit_field *bf);
-static void fetch_bitmapped_register (int regno, struct bit_field *bf);
-static void r3900_fetch_registers (int regno);
-static void store_bitmapped_register (int regno, struct bit_field *bf);
-static void r3900_store_registers (int regno);
-
-/* Local functions for fast binary loading. */
-
-static void write_long (char *buf, long n);
-static void write_long_le (char *buf, long n);
-static int debug_readchar (int hex);
-static void debug_write (unsigned char *buf, int buflen);
-static void ignore_packet (void);
-static void send_packet (char type, unsigned char *buf, int buflen, int seq);
-static void process_read_request (unsigned char *buf, int buflen);
-static void count_section (bfd * abfd, asection * s,
- unsigned int *section_count);
-static void load_section (bfd * abfd, asection * s, unsigned int *data_count);
-static void r3900_load (char *filename, int from_tty);
-
-/* Miscellaneous local functions. */
-
-static void r3900_open (char *args, int from_tty);
-
-
-/* Pointers to static functions in monitor.c for fetching and storing
- registers. We can't use these function in certain cases where the Densan
- monitor acts perversely: for registers that it displays in bit-map
- format, and those that can't be modified at all. In those cases
- we have to use our own functions to fetch and store their values. */
-
-static void (*orig_monitor_fetch_registers) (int regno);
-static void (*orig_monitor_store_registers) (int regno);
-
-/* Pointer to static function in monitor. for loading programs.
- We use this function for loading S-records via the serial link. */
-
-static void (*orig_monitor_load) (char *file, int from_tty);
-
-/* This flag is set if a fast ethernet download should be used. */
-
-static int ethernet = 0;
-
-/* This array of registers needs to match the indexes used by GDB. The
- whole reason this exists is because the various ROM monitors use
- different names than GDB does, and don't support all the registers
- either. */
-
-static char *r3900_regnames[] =
-{
- "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7",
- "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15",
- "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23",
- "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31",
-
- "S", /* PS_REGNUM */
- "l", /* MIPS_EMBED_LO_REGNUM */
- "h", /* MIPS_EMBED_HI_REGNUM */
- "B", /* MIPS_EMBED_BADVADDR_REGNUM */
- "Pcause", /* MIPS_EMBED_CAUSE_REGNUM */
- "p" /* MIPS_EMBED_PC_REGNUM */
-};
-
-
-/* Table of register names produced by monitor's register dump command. */
-
-static struct reg_entry
- {
- char *name;
- int regno;
- }
-reg_table[] =
-{
- {
- "r0_zero", 0
- }
- ,
- {
- "r1_at", 1
- }
- ,
- {
- "r2_v0", 2
- }
- ,
- {
- "r3_v1", 3
- }
- ,
- {
- "r4_a0", 4
- }
- ,
- {
- "r5_a1", 5
- }
- ,
- {
- "r6_a2", 6
- }
- ,
- {
- "r7_a3", 7
- }
- ,
- {
- "r8_t0", 8
- }
- ,
- {
- "r9_t1", 9
- }
- ,
- {
- "r10_t2", 10
- }
- ,
- {
- "r11_t3", 11
- }
- ,
- {
- "r12_t4", 12
- }
- ,
- {
- "r13_t5", 13
- }
- ,
- {
- "r14_t6", 14
- }
- ,
- {
- "r15_t7", 15
- }
- ,
- {
- "r16_s0", 16
- }
- ,
- {
- "r17_s1", 17
- }
- ,
- {
- "r18_s2", 18
- }
- ,
- {
- "r19_s3", 19
- }
- ,
- {
- "r20_s4", 20
- }
- ,
- {
- "r21_s5", 21
- }
- ,
- {
- "r22_s6", 22
- }
- ,
- {
- "r23_s7", 23
- }
- ,
- {
- "r24_t8", 24
- }
- ,
- {
- "r25_t9", 25
- }
- ,
- {
- "r26_k0", 26
- }
- ,
- {
- "r27_k1", 27
- }
- ,
- {
- "r28_gp", 28
- }
- ,
- {
- "r29_sp", 29
- }
- ,
- {
- "r30_fp", 30
- }
- ,
- {
- "r31_ra", 31
- }
- ,
- {
- "HI", MIPS_EMBED_HI_REGNUM
- }
- ,
- {
- "LO", MIPS_EMBED_LO_REGNUM
- }
- ,
- {
- "PC", MIPS_EMBED_PC_REGNUM
- }
- ,
- {
- "BadV", MIPS_EMBED_BADVADDR_REGNUM
- }
- ,
- {
- NULL, 0
- }
-};
-
-
-/* The monitor displays the cache register along with the status register,
- as if they were a single register. So when we want to fetch the
- status register, parse but otherwise ignore the fields of the
- cache register that the monitor displays. Register fields that should
- be ignored have a length of zero in the tables below. */
-
-static struct bit_field status_fields[] =
-{
- /* Status register portion */
- {"SR[<CU=", " ", "cu", 4, 28},
- {"RE=", " ", "re", 1, 25},
- {"BEV=", " ", "bev", 1, 22},
- {"TS=", " ", "ts", 1, 21},
- {"Nmi=", " ", "nmi", 1, 20},
- {"INT=", " ", "int", 6, 10},
- {"SW=", ">]", "sw", 2, 8},
- {"[<KUO=", " ", "kuo", 1, 5},
- {"IEO=", " ", "ieo", 1, 4},
- {"KUP=", " ", "kup", 1, 3},
- {"IEP=", " ", "iep", 1, 2},
- {"KUC=", " ", "kuc", 1, 1},
- {"IEC=", ">]", "iec", 1, 0},
-
- /* Cache register portion (dummy for parsing only) */
- {"CR[<IalO=", " ", "ialo", 0, 13},
- {"DalO=", " ", "dalo", 0, 12},
- {"IalP=", " ", "ialp", 0, 11},
- {"DalP=", " ", "dalp", 0, 10},
- {"IalC=", " ", "ialc", 0, 9},
- {"DalC=", ">] ", "dalc", 0, 8},
-
- {NULL, NULL, 0, 0} /* end of table marker */
-};
-
-
-#if 0 /* FIXME: Enable when we add support for modifying cache register. */
-static struct bit_field cache_fields[] =
-{
- /* Status register portion (dummy for parsing only) */
- {"SR[<CU=", " ", "cu", 0, 28},
- {"RE=", " ", "re", 0, 25},
- {"BEV=", " ", "bev", 0, 22},
- {"TS=", " ", "ts", 0, 21},
- {"Nmi=", " ", "nmi", 0, 20},
- {"INT=", " ", "int", 0, 10},
- {"SW=", ">]", "sw", 0, 8},
- {"[<KUO=", " ", "kuo", 0, 5},
- {"IEO=", " ", "ieo", 0, 4},
- {"KUP=", " ", "kup", 0, 3},
- {"IEP=", " ", "iep", 0, 2},
- {"KUC=", " ", "kuc", 0, 1},
- {"IEC=", ">]", "iec", 0, 0},
-
- /* Cache register portion */
- {"CR[<IalO=", " ", "ialo", 1, 13},
- {"DalO=", " ", "dalo", 1, 12},
- {"IalP=", " ", "ialp", 1, 11},
- {"DalP=", " ", "dalp", 1, 10},
- {"IalC=", " ", "ialc", 1, 9},
- {"DalC=", ">] ", "dalc", 1, 8},
-
- {NULL, NULL, NULL, 0, 0} /* end of table marker */
-};
-#endif
-
-
-static struct bit_field cause_fields[] =
-{
- {"<BD=", " ", "bd", 1, 31},
- {"CE=", " ", "ce", 2, 28},
- {"IP=", " ", "ip", 6, 10},
- {"SW=", " ", "sw", 2, 8},
- {"EC=", ">]", "ec", 5, 2},
-
- {NULL, NULL, NULL, 0, 0} /* end of table marker */
-};
-
-
-/* The monitor prints register values in the form
-
- regname = xxxx xxxx
-
- We look up the register name in a table, and remove the embedded space in
- the hex value before passing it to monitor_supply_register. */
-
-static void
-r3900_supply_register (char *regname, int regnamelen, char *val, int vallen)
-{
- int regno = -1;
- int i;
- char valbuf[10];
- char *p;
-
- /* Perform some sanity checks on the register name and value. */
- if (regnamelen < 2 || regnamelen > 7 || vallen != 9)
- return;
-
- /* Look up the register name. */
- for (i = 0; reg_table[i].name != NULL; i++)
- {
- int rlen = strlen (reg_table[i].name);
- if (rlen == regnamelen && strncmp (regname, reg_table[i].name, rlen) == 0)
- {
- regno = reg_table[i].regno;
- break;
- }
- }
- if (regno == -1)
- return;
-
- /* Copy the hex value to a buffer and eliminate the embedded space. */
- for (i = 0, p = valbuf; i < vallen; i++)
- if (val[i] != ' ')
- *p++ = val[i];
- *p = '\0';
-
- monitor_supply_register (regno, valbuf);
-}
-
-
-/* Fetch the BadVaddr register. Unlike the other registers, this
- one can't be modified, and the monitor won't even prompt to let
- you modify it. */
-
-static void
-fetch_bad_vaddr (void)
-{
- char buf[20];
-
- monitor_printf ("xB\r");
- monitor_expect ("BadV=", NULL, 0);
- monitor_expect_prompt (buf, sizeof (buf));
- monitor_supply_register (mips_regnum (current_gdbarch)->badvaddr, buf);
-}
-
-
-/* Read a series of bit fields from the monitor, and return their
- combined binary value. */
-
-static unsigned long
-fetch_fields (struct bit_field *bf)
-{
- char buf[20];
- unsigned long val = 0;
- unsigned long bits;
-
- for (; bf->prefix != NULL; bf++)
- {
- monitor_expect (bf->prefix, NULL, 0); /* get prefix */
- monitor_expect (bf->suffix, buf, sizeof (buf)); /* hex value, suffix */
- if (bf->length != 0)
- {
- bits = strtoul (buf, NULL, 16); /* get field value */
- bits &= ((1 << bf->length) - 1); /* mask out useless bits */
- val |= bits << bf->start; /* insert into register */
- }
-
- }
-
- return val;
-}
-
-
-static void
-fetch_bitmapped_register (int regno, struct bit_field *bf)
-{
- unsigned long val;
- unsigned char regbuf[MAX_REGISTER_SIZE];
- char *regname = NULL;
-
- if (regno >= sizeof (r3900_regnames) / sizeof (r3900_regnames[0]))
- internal_error (__FILE__, __LINE__,
- _("fetch_bitmapped_register: regno out of bounds"));
- else
- regname = r3900_regnames[regno];
-
- monitor_printf ("x%s\r", regname);
- val = fetch_fields (bf);
- monitor_printf (".\r");
- monitor_expect_prompt (NULL, 0);
-
- /* supply register stores in target byte order, so swap here */
-
- store_unsigned_integer (regbuf, register_size (current_gdbarch, regno), val);
- regcache_raw_supply (current_regcache, regno, regbuf);
-
-}
-
-
-/* Fetch all registers (if regno is -1), or one register from the
- monitor. For most registers, we can use the generic monitor_
- monitor_fetch_registers function. But others are displayed in
- a very unusual fashion by the monitor, and must be handled specially. */
-
-static void
-r3900_fetch_registers (int regno)
-{
- if (regno == mips_regnum (current_gdbarch)->badvaddr)
- fetch_bad_vaddr ();
- else if (regno == PS_REGNUM)
- fetch_bitmapped_register (PS_REGNUM, status_fields);
- else if (regno == mips_regnum (current_gdbarch)->cause)
- fetch_bitmapped_register (mips_regnum (current_gdbarch)->cause,
- cause_fields);
- else
- orig_monitor_fetch_registers (regno);
-}
-
-
-/* Write the new value of the bitmapped register to the monitor. */
-
-static void
-store_bitmapped_register (int regno, struct bit_field *bf)
-{
- unsigned long oldval, newval;
- char *regname = NULL;
-
- if (regno >= sizeof (r3900_regnames) / sizeof (r3900_regnames[0]))
- internal_error (__FILE__, __LINE__,
- _("fetch_bitmapped_register: regno out of bounds"));
- else
- regname = r3900_regnames[regno];
-
- /* Fetch the current value of the register. */
- monitor_printf ("x%s\r", regname);
- oldval = fetch_fields (bf);
- newval = read_register (regno);
-
- /* To save time, write just the fields that have changed. */
- for (; bf->prefix != NULL; bf++)
- {
- if (bf->length != 0)
- {
- unsigned long oldbits, newbits, mask;
-
- mask = (1 << bf->length) - 1;
- oldbits = (oldval >> bf->start) & mask;
- newbits = (newval >> bf->start) & mask;
- if (oldbits != newbits)
- monitor_printf ("%s %lx ", bf->user_name, newbits);
- }
- }
-
- monitor_printf (".\r");
- monitor_expect_prompt (NULL, 0);
-}
-
-
-static void
-r3900_store_registers (int regno)
-{
- if (regno == PS_REGNUM)
- store_bitmapped_register (PS_REGNUM, status_fields);
- else if (regno == mips_regnum (current_gdbarch)->cause)
- store_bitmapped_register (mips_regnum (current_gdbarch)->cause,
- cause_fields);
- else
- orig_monitor_store_registers (regno);
-}
-
-
-/* Write a 4-byte integer to the buffer in big-endian order. */
-
-static void
-write_long (char *buf, long n)
-{
- buf[0] = (n >> 24) & 0xff;
- buf[1] = (n >> 16) & 0xff;
- buf[2] = (n >> 8) & 0xff;
- buf[3] = n & 0xff;
-}
-
-
-/* Write a 4-byte integer to the buffer in little-endian order. */
-
-static void
-write_long_le (char *buf, long n)
-{
- buf[0] = n & 0xff;
- buf[1] = (n >> 8) & 0xff;
- buf[2] = (n >> 16) & 0xff;
- buf[3] = (n >> 24) & 0xff;
-}
-
-
-/* Read a character from the monitor. If remote debugging is on,
- print the received character. If HEX is non-zero, print the
- character in hexadecimal; otherwise, print it in ASCII. */
-
-static int
-debug_readchar (int hex)
-{
- char buf[10];
- int c = monitor_readchar ();
-
- if (remote_debug > 0)
- {
- if (hex)
- sprintf (buf, "[%02x]", c & 0xff);
- else if (c == '\0')
- strcpy (buf, "\\0");
- else
- {
- buf[0] = c;
- buf[1] = '\0';
- }
- puts_debug ("Read -->", buf, "<--");
- }
- return c;
-}
-
-
-/* Send a buffer of characters to the monitor. If remote debugging is on,
- print the sent buffer in hex. */
-
-static void
-debug_write (unsigned char *buf, int buflen)
-{
- char s[10];
-
- monitor_write (buf, buflen);
-
- if (remote_debug > 0)
- {
- while (buflen-- > 0)
- {
- sprintf (s, "[%02x]", *buf & 0xff);
- puts_debug ("Sent -->", s, "<--");
- buf++;
- }
- }
-}
-
-
-/* Ignore a packet sent to us by the monitor. It send packets
- when its console is in "communications interface" mode. A packet
- is of this form:
-
- start of packet flag (one byte: 0xdc)
- packet type (one byte)
- length (low byte)
- length (high byte)
- data (length bytes)
-
- The last two bytes of the data field are a checksum, but we don't
- bother to verify it.
- */
-
-static void
-ignore_packet (void)
-{
- int c = -1;
- int len;
-
- /* Ignore lots of trash (messages about section addresses, for example)
- until we see the start of a packet. */
- for (len = 0; len < 256; len++)
- {
- c = debug_readchar (0);
- if (c == PESC)
- break;
- }
- if (len == 8)
- error (_("Packet header byte not found; %02x seen instead."), c);
-
- /* Read the packet type and length. */
- c = debug_readchar (1); /* type */
-
- c = debug_readchar (1); /* low byte of length */
- len = c & 0xff;
-
- c = debug_readchar (1); /* high byte of length */
- len += (c & 0xff) << 8;
-
- /* Ignore the rest of the packet. */
- while (len-- > 0)
- c = debug_readchar (1);
-}
-
-
-/* Encapsulate some data into a packet and send it to the monitor.
-
- The 'p' packet is a special case. This is a packet we send
- in response to a read ('r') packet from the monitor. This function
- appends a one-byte sequence number to the data field of such a packet.
- */
-
-static void
-send_packet (char type, unsigned char *buf, int buflen, int seq)
-{
- unsigned char hdr[4];
- int len = buflen;
- int sum, i;
-
- /* If this is a 'p' packet, add one byte for a sequence number. */
- if (type == 'p')
- len++;
-
- /* If the buffer has a non-zero length, add two bytes for a checksum. */
- if (len > 0)
- len += 2;
-
- /* Write the packet header. */
- hdr[0] = PESC;
- hdr[1] = type;
- hdr[2] = len & 0xff;
- hdr[3] = (len >> 8) & 0xff;
- debug_write (hdr, sizeof (hdr));
-
- if (len)
- {
- /* Write the packet data. */
- debug_write (buf, buflen);
-
- /* Write the sequence number if this is a 'p' packet. */
- if (type == 'p')
- {
- hdr[0] = seq;
- debug_write (hdr, 1);
- }
-
- /* Write the checksum. */
- sum = 0;
- for (i = 0; i < buflen; i++)
- {
- int tmp = (buf[i] & 0xff);
- if (i & 1)
- sum += tmp;
- else
- sum += tmp << 8;
- }
- if (type == 'p')
- {
- if (buflen & 1)
- sum += (seq & 0xff);
- else
- sum += (seq & 0xff) << 8;
- }
- sum = (sum & 0xffff) + ((sum >> 16) & 0xffff);
- sum += (sum >> 16) & 1;
- sum = ~sum;
-
- hdr[0] = (sum >> 8) & 0xff;
- hdr[1] = sum & 0xff;
- debug_write (hdr, 2);
- }
-}
-
-
-/* Respond to an expected read request from the monitor by sending
- data in chunks. Handle all acknowledgements and handshaking packets.
-
- The monitor expects a response consisting of a one or more 'p' packets,
- each followed by a portion of the data requested. The 'p' packet
- contains only a four-byte integer, the value of which is the number
- of bytes of data we are about to send. Following the 'p' packet,
- the monitor expects the data bytes themselves in raw, unpacketized,
- form, without even a checksum.
- */
-
-static void
-process_read_request (unsigned char *buf, int buflen)
-{
- unsigned char len[4];
- int i, chunk;
- unsigned char seq;
-
- /* Discard the read request. FIXME: we have to hope it's for
- the exact number of bytes we want to send; should check for this. */
- ignore_packet ();
-
- for (i = chunk = 0, seq = 0; i < buflen; i += chunk, seq++)
- {
- /* Don't send more than MAXPSIZE bytes at a time. */
- chunk = buflen - i;
- if (chunk > MAXPSIZE)
- chunk = MAXPSIZE;
-
- /* Write a packet containing the number of bytes we are sending. */
- write_long_le (len, chunk);
- send_packet ('p', len, sizeof (len), seq);
-
- /* Write the data in raw form following the packet. */
- debug_write (&buf[i], chunk);
-
- /* Discard the ACK packet. */
- ignore_packet ();
- }
-
- /* Send an "end of data" packet. */
- send_packet ('e', "", 0, 0);
-}
-
-
-/* Count loadable sections (helper function for r3900_load). */
-
-static void
-count_section (bfd *abfd, asection *s, unsigned int *section_count)
-{
- if (s->flags & SEC_LOAD && bfd_section_size (abfd, s) != 0)
- (*section_count)++;
-}
-
-
-/* Load a single BFD section (helper function for r3900_load).
-
- WARNING: this code is filled with assumptions about how
- the Densan monitor loads programs. The monitor issues
- packets containing read requests, but rather than respond
- to them in an general way, we expect them to following
- a certain pattern.
-
- For example, we know that the monitor will start loading by
- issuing an 8-byte read request for the binary file header.
- We know this is coming and ignore the actual contents
- of the read request packet.
- */
-
-static void
-load_section (bfd *abfd, asection *s, unsigned int *data_count)
-{
- if (s->flags & SEC_LOAD)
- {
- bfd_size_type section_size = bfd_section_size (abfd, s);
- bfd_vma section_base = bfd_section_lma (abfd, s);
- unsigned char *buffer;
- unsigned char header[8];
-
- /* Don't output zero-length sections. */
- if (section_size == 0)
- return;
- if (data_count)
- *data_count += section_size;
-
- /* Print some fluff about the section being loaded. */
- printf_filtered ("Loading section %s, size 0x%lx lma ",
- bfd_section_name (abfd, s), (long) section_size);
- deprecated_print_address_numeric (section_base, 1, gdb_stdout);
- printf_filtered ("\n");
- gdb_flush (gdb_stdout);
-
- /* Write the section header (location and size). */
- write_long (&header[0], (long) section_base);
- write_long (&header[4], (long) section_size);
- process_read_request (header, sizeof (header));
-
- /* Read the section contents into a buffer, write it out,
- then free the buffer. */
- buffer = (unsigned char *) xmalloc (section_size);
- bfd_get_section_contents (abfd, s, buffer, 0, section_size);
- process_read_request (buffer, section_size);
- xfree (buffer);
- }
-}
-
-
-/* When the ethernet is used as the console port on the Densan board,
- we can use the "Rm" command to do a fast binary load. The format
- of the download data is:
-
- number of sections (4 bytes)
- starting address (4 bytes)
- repeat for each section:
- location address (4 bytes)
- section size (4 bytes)
- binary data
-
- The 4-byte fields are all in big-endian order.
-
- Using this command is tricky because we have to put the monitor
- into a special funky "communications interface" mode, in which
- it sends and receives packets of data along with the normal prompt.
- */
-
-static void
-r3900_load (char *filename, int from_tty)
-{
- bfd *abfd;
- unsigned int data_count = 0;
- time_t start_time, end_time; /* for timing of download */
- int section_count = 0;
- unsigned char buffer[8];
-
- /* If we are not using the ethernet, use the normal monitor load,
- which sends S-records over the serial link. */
- if (!ethernet)
- {
- orig_monitor_load (filename, from_tty);
- return;
- }
-
- /* Open the file. */
- if (filename == NULL || filename[0] == 0)
- filename = get_exec_file (1);
- abfd = bfd_openr (filename, 0);
- if (!abfd)
- error (_("Unable to open file %s."), filename);
- if (bfd_check_format (abfd, bfd_object) == 0)
- error (_("File is not an object file."));
-
- /* Output the "vconsi" command to get the monitor in the communication
- state where it will accept a load command. This will cause
- the monitor to emit a packet before each prompt, so ignore the packet. */
- monitor_printf ("vconsi\r");
- ignore_packet ();
- monitor_expect_prompt (NULL, 0);
-
- /* Output the "Rm" (load) command and respond to the subsequent "open"
- packet by sending an ACK packet. */
- monitor_printf ("Rm\r");
- ignore_packet ();
- send_packet ('a', "", 0, 0);
-
- /* Output the fast load header (number of sections and starting address). */
- bfd_map_over_sections ((bfd *) abfd, (section_map_func) count_section,
- &section_count);
- write_long (&buffer[0], (long) section_count);
- if (exec_bfd)
- write_long (&buffer[4], (long) bfd_get_start_address (exec_bfd));
- else
- write_long (&buffer[4], 0);
- process_read_request (buffer, sizeof (buffer));
-
- /* Output the section data. */
- start_time = time (NULL);
- bfd_map_over_sections (abfd, (section_map_func) load_section, &data_count);
- end_time = time (NULL);
-
- /* Acknowledge the close packet and put the monitor back into
- "normal" mode so it won't send packets any more. */
- ignore_packet ();
- send_packet ('a', "", 0, 0);
- monitor_expect_prompt (NULL, 0);
- monitor_printf ("vconsx\r");
- monitor_expect_prompt (NULL, 0);
-
- /* Print start address and download performance information. */
- printf_filtered ("Start address 0x%lx\n", (long) bfd_get_start_address (abfd));
- report_transfer_performance (data_count, start_time, end_time);
-
- /* Finally, make the PC point at the start address */
- if (exec_bfd)
- write_pc (bfd_get_start_address (exec_bfd));
-
- inferior_ptid = null_ptid; /* No process now */
-
- /* This is necessary because many things were based on the PC at the
- time that we attached to the monitor, which is no longer valid
- now that we have loaded new code (and just changed the PC).
- Another way to do this might be to call normal_stop, except that
- the stack may not be valid, and things would get horribly
- confused... */
- clear_symtab_users ();
-}
-
-
-/* Commands to send to the monitor when first connecting:
- * The bare carriage return forces a prompt from the monitor
- (monitor doesn't prompt immediately after a reset).
- * The "vconsx" switches the monitor back to interactive mode
- in case an aborted download had left it in packet mode.
- * The "Xtr" command causes subsequent "t" (trace) commands to display
- the general registers only.
- * The "Xxr" command does the same thing for the "x" (examine
- registers) command.
- * The "bx" command clears all breakpoints.
- */
-
-static char *r3900_inits[] =
-{"\r", "vconsx\r", "Xtr\r", "Xxr\r", "bx\r", NULL};
-static char *dummy_inits[] =
-{NULL};
-
-static struct target_ops r3900_ops;
-static struct monitor_ops r3900_cmds;
-
-static void
-r3900_open (char *args, int from_tty)
-{
- char buf[64];
- int i;
-
- monitor_open (args, &r3900_cmds, from_tty);
-
- /* We have to handle sending the init strings ourselves, because
- the first two strings we send (carriage returns) may not be echoed
- by the monitor, but the rest will be. */
- monitor_printf_noecho ("\r\r");
- for (i = 0; r3900_inits[i] != NULL; i++)
- {
- monitor_printf (r3900_inits[i]);
- monitor_expect_prompt (NULL, 0);
- }
-
- /* Attempt to determine whether the console device is ethernet or serial.
- This will tell us which kind of load to use (S-records over a serial
- link, or the Densan fast binary multi-section format over the net). */
-
- ethernet = 0;
- monitor_printf ("v\r");
- if (monitor_expect ("console device :", NULL, 0) != -1)
- if (monitor_expect ("\n", buf, sizeof (buf)) != -1)
- if (strstr (buf, "ethernet") != NULL)
- ethernet = 1;
- monitor_expect_prompt (NULL, 0);
-}
-
-void
-_initialize_r3900_rom (void)
-{
- r3900_cmds.flags = MO_NO_ECHO_ON_OPEN |
- MO_ADDR_BITS_REMOVE |
- MO_CLR_BREAK_USES_ADDR |
- MO_GETMEM_READ_SINGLE |
- MO_PRINT_PROGRAM_OUTPUT;
-
- r3900_cmds.init = dummy_inits;
- r3900_cmds.cont = "g\r";
- r3900_cmds.step = "t\r";
- r3900_cmds.set_break = "b %A\r"; /* COREADDR */
- r3900_cmds.clr_break = "b %A,0\r"; /* COREADDR */
- r3900_cmds.fill = "fx %A s %x %x\r"; /* COREADDR, len, val */
-
- r3900_cmds.setmem.cmdb = "sx %A %x\r"; /* COREADDR, val */
- r3900_cmds.setmem.cmdw = "sh %A %x\r"; /* COREADDR, val */
- r3900_cmds.setmem.cmdl = "sw %A %x\r"; /* COREADDR, val */
-
- r3900_cmds.getmem.cmdb = "sx %A\r"; /* COREADDR */
- r3900_cmds.getmem.cmdw = "sh %A\r"; /* COREADDR */
- r3900_cmds.getmem.cmdl = "sw %A\r"; /* COREADDR */
- r3900_cmds.getmem.resp_delim = " : ";
- r3900_cmds.getmem.term = " ";
- r3900_cmds.getmem.term_cmd = ".\r";
-
- r3900_cmds.setreg.cmd = "x%s %x\r"; /* regname, val */
-
- r3900_cmds.getreg.cmd = "x%s\r"; /* regname */
- r3900_cmds.getreg.resp_delim = "=";
- r3900_cmds.getreg.term = " ";
- r3900_cmds.getreg.term_cmd = ".\r";
-
- r3900_cmds.dump_registers = "x\r";
- r3900_cmds.register_pattern =
- "\\([a-zA-Z0-9_]+\\) *=\\([0-9a-f]+ [0-9a-f]+\\b\\)";
- r3900_cmds.supply_register = r3900_supply_register;
- /* S-record download, via "keyboard port". */
- r3900_cmds.load = "r0\r";
- r3900_cmds.prompt = "#";
- r3900_cmds.line_term = "\r";
- r3900_cmds.target = &r3900_ops;
- r3900_cmds.stopbits = SERIAL_1_STOPBITS;
- r3900_cmds.regnames = r3900_regnames;
- r3900_cmds.magic = MONITOR_OPS_MAGIC;
-
- init_monitor_ops (&r3900_ops);
-
- r3900_ops.to_shortname = "r3900";
- r3900_ops.to_longname = "R3900 monitor";
- r3900_ops.to_doc = "Debug using the DVE R3900 monitor.\n\
-Specify the serial device it is connected to (e.g. /dev/ttya).";
- r3900_ops.to_open = r3900_open;
-
- /* Override the functions to fetch and store registers. But save the
- addresses of the default functions, because we will use those functions
- for "normal" registers. */
-
- orig_monitor_fetch_registers = r3900_ops.to_fetch_registers;
- orig_monitor_store_registers = r3900_ops.to_store_registers;
- r3900_ops.to_fetch_registers = r3900_fetch_registers;
- r3900_ops.to_store_registers = r3900_store_registers;
-
- /* Override the load function, but save the address of the default
- function to use when loading S-records over a serial link. */
- orig_monitor_load = r3900_ops.to_load;
- r3900_ops.to_load = r3900_load;
-
- add_target (&r3900_ops);
-}