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-rw-r--r--gdb/remote-mm.c1684
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diff --git a/gdb/remote-mm.c b/gdb/remote-mm.c
new file mode 100644
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--- /dev/null
+++ b/gdb/remote-mm.c
@@ -0,0 +1,1684 @@
+/* Remote debugging interface for Am290*0 running MiniMON monitor, for GDB.
+ Copyright (C) 1990, 1991 Free Software Foundation, Inc.
+ Originally written by Daniel Mann at AMD.
+
+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., 675 Mass Ave, Cambridge, MA 02139, USA. */
+
+/* This is like remote.c but ecpects MiniMON to be running on the Am29000
+ target hardware.
+ - David Wood (wood@lab.ultra.nyu.edu) at New York University adapted this
+ file to gdb 3.95. I was unable to get this working on sun3os4
+ with termio, only with sgtty. Because we are only attempting to
+ use this module to debug our kernel, which is already loaded when
+ gdb is started up, I did not code up the file downloading facilities.
+ As a result this module has only the stubs to download files.
+ You should get tagged at compile time if you need to make any
+ changes/additions. */
+
+#include <stdio.h>
+#include "defs.h"
+#include "inferior.h"
+#include "wait.h"
+#include "value.h"
+#include <ctype.h>
+#include <fcntl.h>
+#include <signal.h>
+#include <errno.h>
+#include <string.h>
+#include "terminal.h"
+#include "minimon.h"
+#include "target.h"
+
+/* Offset of member MEMBER in a struct of type TYPE. */
+#define offsetof(TYPE, MEMBER) ((int) &((TYPE *)0)->MEMBER)
+
+/* #define DEBUG 1 /* */
+#ifdef DEBUG
+# define DENTER(NAME) (printf("Entering %s\n",NAME), fflush(stdout))
+# define DEXIT(NAME) (printf("Exiting %s\n",NAME), fflush(stdout))
+#else
+# define DENTER(NAME)
+# define DEXIT(NAME)
+#endif
+
+#define DRAIN_INPUT() (msg_recv_serial((union msg_t*)0))
+
+extern int stop_soon_quietly; /* for wait_for_inferior */
+
+extern struct value *call_function_by_hand();
+
+static void mm_resume();
+static void mm_fetch_registers ();
+static int fetch_register ();
+static int mm_store_registers ();
+static int store_register ();
+static int regnum_to_srnum();
+static void mm_close ();
+static char* msg_str();
+static char* error_msg_str();
+static int expect_msg();
+static void init_target_mm();
+static int mm_memory_space();
+
+/*
+ * Processor types.
+ */
+#define TYPE_UNKNOWN 0
+#define TYPE_A29000 1
+#define TYPE_A29030 2
+#define TYPE_A29050 3
+static char *processor_name[] = { "Unknown", "A29000", "A29030", "A29050" };
+static int processor_type=TYPE_UNKNOWN;
+#define FREEZE_MODE (read_register(CPS_REGNUM) && 0x400)
+#define USE_SHADOW_PC ((processor_type == TYPE_A29050) && FREEZE_MODE)
+
+#define LLOG_FILE "minimon.log"
+#if defined (LOG_FILE)
+FILE *log_file;
+#endif
+
+/*
+ * Size of message buffers. I couldn't get memory reads to work when
+ * the byte_count was larger than 512 (it may be a baud rate problem).
+ */
+#define BUFER_SIZE 512
+/*
+ * Size of data area in message buffer on the TARGET (remote system).
+ */
+#define MAXDATA_T (target_config.max_msg_size - \
+ offsetof(struct write_r_msg_t,data[0]))
+/*
+ * Size of data area in message buffer on the HOST (gdb).
+ */
+#define MAXDATA_H (BUFER_SIZE - offsetof(struct write_r_msg_t,data[0]))
+/*
+ * Defined as the minimum size of data areas of the two message buffers
+ */
+#define MAXDATA (MAXDATA_H < MAXDATA_T ? MAXDATA_H : MAXDATA_T)
+
+static char out_buf[BUFER_SIZE];
+static char in_buf[BUFER_SIZE];
+
+int msg_recv_serial();
+int msg_send_serial();
+
+#define MAX_RETRIES 5000
+extern struct target_ops mm_ops; /* Forward declaration */
+struct config_msg_t target_config; /* HIF needs this */
+union msg_t *out_msg_buf = (union msg_t*)out_buf;
+union msg_t *in_msg_buf = (union msg_t*)in_buf;
+
+static int timeout = 5;
+
+/* Descriptor for I/O to remote machine. Initialize it to -1 so that
+ mm_open knows that we don't have a file open when the program
+ starts. */
+int mm_desc = -1;
+
+/* stream which is fdopen'd from mm_desc. Only valid when
+ mm_desc != -1. */
+FILE *mm_stream;
+
+/* Called when SIGALRM signal sent due to alarm() timeout. */
+#ifndef HAVE_TERMIO
+
+#ifndef __STDC__
+# ifndef volatile
+# define volatile /**/
+# endif
+#endif
+volatile int n_alarms;
+
+static void
+mm_timer ()
+{
+#if 0
+ if (kiodebug)
+ printf ("mm_timer called\n");
+#endif
+ n_alarms++;
+}
+#endif /* HAVE_TERMIO */
+
+/* malloc'd name of the program on the remote system. */
+static char *prog_name = NULL;
+
+
+/* Number of SIGTRAPs we need to simulate. That is, the next
+ NEED_ARTIFICIAL_TRAP calls to mm_wait should just return
+ SIGTRAP without actually waiting for anything. */
+
+/**************************************************** REMOTE_CREATE_INFERIOR */
+/* This is called not only when we first attach, but also when the
+ user types "run" after having attached. */
+static void
+mm_create_inferior (execfile, args, env)
+ char *execfile;
+ char *args;
+ char **env;
+{
+#define MAX_TOKENS 25
+#define BUFFER_SIZE 256
+ int token_count;
+ int result;
+ char *token[MAX_TOKENS];
+ char cmd_line[BUFFER_SIZE];
+
+ DENTER("mm_create_inferior()");
+
+ if (args && *args)
+ error ("Can't pass arguments to remote mm process (yet).");
+
+ if (execfile == 0 /* || exec_bfd == 0 */ )
+ error ("No exec file specified");
+
+ if (!mm_stream) {
+ printf("Minimon not open yet.\n");
+ return;
+ }
+
+ /* On ultra3 (NYU) we assume the kernel is already running so there is
+ no file to download.
+ FIXME: Fixed required here -> load your program, possibly with mm_load().
+ */
+ printf_filtered ("\n\
+Assuming you are at NYU debuging a kernel, i.e., no need to download.\n\n");
+
+ /* We will get a task spawn event immediately. */
+#ifdef NOTDEF /* start_remote() now does a wait without a resume
+ so don't use it*/
+ start_remote ();
+#else
+ init_wait_for_inferior ();
+ clear_proceed_status ();
+ stop_soon_quietly = 1;
+ proceed(-1,-1,0);
+ normal_stop ();
+#endif
+ DEXIT("mm_create_inferior()");
+}
+/**************************************************** REMOTE_MOURN_INFERIOR */
+static void
+mm_mourn()
+{
+ DENTER("mm_mourn()");
+ pop_target (); /* Pop back to no-child state */
+ generic_mourn_inferior ();
+ DEXIT("mm_mourn()");
+}
+
+/********************************************************************** damn_b
+*/
+/* Translate baud rates from integers to damn B_codes. Unix should
+ have outgrown this crap years ago, but even POSIX wouldn't buck it. */
+
+#ifndef B19200
+#define B19200 EXTA
+#endif
+#ifndef B38400
+#define B38400 EXTB
+#endif
+
+static struct {int rate, damn_b;} baudtab[] = {
+ {0, B0},
+ {50, B50},
+ {75, B75},
+ {110, B110},
+ {134, B134},
+ {150, B150},
+ {200, B200},
+ {300, B300},
+ {600, B600},
+ {1200, B1200},
+ {1800, B1800},
+ {2400, B2400},
+ {4800, B4800},
+ {9600, B9600},
+ {19200, B19200},
+ {38400, B38400},
+ {-1, -1},
+};
+
+static int damn_b (rate)
+ int rate;
+{
+ int i;
+
+ for (i = 0; baudtab[i].rate != -1; i++)
+ if (rate == baudtab[i].rate) return baudtab[i].damn_b;
+ return B38400; /* Random */
+}
+
+
+/***************************************************************** REMOTE_OPEN
+** Open a connection to remote minimon.
+ NAME is the filename used for communication, then a space,
+ then the baud rate.
+ 'target adapt /dev/ttya 9600 [prognam]' for example.
+ */
+
+static char *dev_name;
+int baudrate = 9600;
+static void
+mm_open (name, from_tty)
+ char *name;
+ int from_tty;
+{
+ TERMINAL sg;
+ unsigned int prl;
+ char *p;
+
+ DENTER("mm_open()");
+
+ /* Find the first whitespace character, it separates dev_name from
+ prog_name. */
+ for (p = name;
+ *p != '\0' && !isspace (*p); p++)
+ ;
+ if (*p == '\0')
+erroid:
+ error ("Usage : <command> <serial-device> <baud-rate> [progname]");
+ dev_name = (char*)malloc (p - name + 1);
+ strncpy (dev_name, name, p - name);
+ dev_name[p - name] = '\0';
+
+ /* Skip over the whitespace after dev_name */
+ for (; isspace (*p); p++)
+ /*EMPTY*/;
+
+ if (1 != sscanf (p, "%d ", &baudrate))
+ goto erroid;
+
+ /* Skip the number and then the spaces */
+ for (; isdigit (*p); p++)
+ /*EMPTY*/;
+ for (; isspace (*p); p++)
+ /*EMPTY*/;
+
+ if (prog_name != NULL)
+ free (prog_name);
+ prog_name = savestring (p, strlen (p));
+
+
+ if (mm_desc >= 0)
+ close (mm_desc);
+
+ mm_desc = open (dev_name, O_RDWR);
+ if (mm_desc < 0)
+ perror_with_name (dev_name);
+ ioctl (mm_desc, TIOCGETP, &sg);
+#ifdef HAVE_TERMIO
+ sg.c_cc[VMIN] = 0; /* read with timeout. */
+ sg.c_cc[VTIME] = timeout * 10;
+ sg.c_lflag &= ~(ICANON | ECHO);
+ sg.c_cflag = (sg.c_cflag & ~CBAUD) | damn_b (baudrate);
+#else
+ sg.sg_ispeed = damn_b (baudrate);
+ sg.sg_ospeed = damn_b (baudrate);
+ sg.sg_flags |= RAW;
+ sg.sg_flags |= ANYP;
+ sg.sg_flags &= ~ECHO;
+#endif
+
+
+ ioctl (mm_desc, TIOCSETP, &sg);
+ mm_stream = fdopen (mm_desc, "r+");
+
+ push_target (&mm_ops);
+
+#ifndef HAVE_TERMIO
+#ifndef NO_SIGINTERRUPT
+ /* Cause SIGALRM's to make reads fail with EINTR instead of resuming
+ the read. */
+ if (siginterrupt (SIGALRM, 1) != 0)
+ perror ("mm_open: error in siginterrupt");
+#endif
+
+ /* Set up read timeout timer. */
+ if ((void (*)) signal (SIGALRM, mm_timer) == (void (*)) -1)
+ perror ("mm_open: error in signal");
+#endif
+
+#if defined (LOG_FILE)
+ log_file = fopen (LOG_FILE, "w");
+ if (log_file == NULL)
+ perror_with_name (LOG_FILE);
+#endif
+ /*
+ ** Initialize target configuration structure (global)
+ */
+ DRAIN_INPUT();
+ out_msg_buf->config_req_msg.code = CONFIG_REQ;
+ out_msg_buf->config_req_msg.length = 4*0;
+ msg_send_serial(out_msg_buf); /* send config request message */
+
+ expect_msg(CONFIG,in_msg_buf,1);
+
+ /* Determine the processor revision level */
+ /* FIXME: this code is the same as in remote-adapt.c */
+ prl = (unsigned int)read_register(CFG_REGNUM) >> 24;
+ if (prl == 0x03) {
+ processor_type = TYPE_A29000;
+ } else if ((prl&0xf0) == 0x40) { /* 29030 = 0x4* */
+ processor_type = TYPE_A29030;
+ fprintf_filtered(stderr,"WARNING: debugging of A29030 not tested.\n");
+ } else if ((prl&0xf0) == 0x20) { /* 29050 = 0x2* */
+ processor_type = TYPE_A29050;
+ fprintf_filtered(stderr,"WARNING: debugging of A29050 not tested.\n");
+ } else {
+ processor_type = TYPE_UNKNOWN;
+ fprintf_filtered(stderr,"WARNING: processor type unknown.\n");
+ }
+
+ /* Print out some stuff, letting the user now what's going on */
+ printf_filtered("Remote debugging on an %s connect to MiniMon via %s.\n",
+ processor_name[processor_type],dev_name);
+ /* FIXME: can this restriction be removed? */
+ printf_filtered("Remote debugging using virtual addresses works only\n");
+ printf_filtered("\twhen virtual addresses map 1:1 to physical addresses.\n")
+;
+ if (processor_type != TYPE_A29050) {
+ fprintf_filtered(stderr,
+ "Freeze-mode debugging not available, and can only be done on an A29050.\n");
+ }
+
+ target_config.code = CONFIG;
+ target_config.length = 0;
+ target_config.processor_id = in_msg_buf->config_msg.processor_id;
+ target_config.version = in_msg_buf->config_msg.version;
+ target_config.I_mem_start = in_msg_buf->config_msg.I_mem_start;
+ target_config.I_mem_size = in_msg_buf->config_msg.I_mem_size;
+ target_config.D_mem_start = in_msg_buf->config_msg.D_mem_start;
+ target_config.D_mem_size = in_msg_buf->config_msg.D_mem_size;
+ target_config.ROM_start = in_msg_buf->config_msg.ROM_start;
+ target_config.ROM_size = in_msg_buf->config_msg.ROM_size;
+ target_config.max_msg_size = in_msg_buf->config_msg.max_msg_size;
+ target_config.max_bkpts = in_msg_buf->config_msg.max_bkpts;
+ target_config.coprocessor = in_msg_buf->config_msg.coprocessor;
+ target_config.reserved = in_msg_buf->config_msg.reserved;
+ if (from_tty) {
+ printf("Connected to MiniMON :\n");
+ printf(" Debugcore version %d.%d\n",
+ 0x0f & (target_config.version >> 4),
+ 0x0f & (target_config.version ) );
+ printf(" Configuration version %d.%d\n",
+ 0x0f & (target_config.version >> 12),
+ 0x0f & (target_config.version >> 8) );
+ printf(" Message system version %d.%d\n",
+ 0x0f & (target_config.version >> 20),
+ 0x0f & (target_config.version >> 16) );
+ printf(" Communication driver version %d.%d\n",
+ 0x0f & (target_config.version >> 28),
+ 0x0f & (target_config.version >> 24) );
+ }
+
+ /* Leave the target running...
+ * The above message stopped the target in the dbg core (MiniMon),
+ * so restart the target out of MiniMon,
+ */
+ out_msg_buf->go_msg.code = GO;
+ out_msg_buf->go_msg.length = 0;
+ msg_send_serial(out_msg_buf);
+ /* No message to expect after a GO */
+
+ DEXIT("mm_open()");
+}
+
+/**************************************************************** REMOTE_CLOSE
+** Close the open connection to the minimon debugger.
+ Use this when you want to detach and do something else
+ with your gdb. */
+static void
+mm_close (quitting) /*FIXME: how is quitting used */
+ int quitting;
+{
+ DENTER("mm_close()");
+
+ if (mm_desc < 0)
+ error ("Can't close remote connection: not debugging remotely.");
+
+ /* We should never get here if there isn't something valid in
+ mm_desc and mm_stream.
+
+ Due to a bug in Unix, fclose closes not only the stdio stream,
+ but also the file descriptor. So we don't actually close
+ mm_desc. */
+ DRAIN_INPUT();
+ fclose (mm_stream);
+ /* close (mm_desc); */
+
+ /* Do not try to close mm_desc again, later in the program. */
+ mm_stream = NULL;
+ mm_desc = -1;
+
+#if defined (LOG_FILE)
+ if (ferror (log_file))
+ printf ("Error writing log file.\n");
+ if (fclose (log_file) != 0)
+ printf ("Error closing log file.\n");
+#endif
+
+ printf ("Ending remote debugging\n");
+
+ DEXIT("mm_close()");
+
+}
+
+/************************************************************* REMOTE_ATACH */
+/* Attach to a program that is already loaded and running
+ * Upon exiting the process's execution is stopped.
+ */
+static void
+mm_attach (args, from_tty)
+ char *args;
+ int from_tty;
+{
+
+ DENTER("mm_attach()");
+
+ if (!mm_stream)
+ printf ("MiniMon not opened yet, use the 'target minimon' command.\n");
+
+ dont_repeat();
+
+ if (from_tty)
+ printf ("Attaching to remote program %s...\n", prog_name);
+
+
+ /* Make sure the target is currently running, it is supposed to be. */
+ /* FIXME: is it ok to send MiniMon a BREAK if it is already stopped in
+ * the dbg core. If so, we don't need to send this GO.
+ */
+ out_msg_buf->go_msg.code = GO;
+ out_msg_buf->go_msg.length = 0;
+ msg_send_serial(out_msg_buf);
+ sleep(2); /* At the worst it will stop, receive a message, continue */
+
+ /* Send the mm a break. */
+ out_msg_buf->break_msg.code = BREAK;
+ out_msg_buf->break_msg.length = 0;
+ msg_send_serial(out_msg_buf);
+
+ mark_breakpoints_out ();
+ init_wait_for_inferior ();
+ clear_proceed_status ();
+ stop_soon_quietly = 1;
+ wait_for_inferior ();
+ stop_soon_quietly = 0;
+ normal_stop ();
+
+ DEXIT("mm_attach()");
+}
+/********************************************************** REMOTE_DETACH */
+/* Terminate the open connection to the remote debugger.
+ Use this when you want to detach and do something else
+ with your gdb. Leave remote process running (with no breakpoints set). */
+static void
+mm_detach (args,from_tty)
+ char *args;
+ int from_tty;
+{
+ DENTER("mm_dettach()");
+ remove_breakpoints(); /* Just in case there were any left in */
+ out_msg_buf->go_msg.code = GO;
+ out_msg_buf->go_msg.length = 0;
+ msg_send_serial(out_msg_buf);
+ pop_target(); /* calls mm_close to do the real work */
+ DEXIT("mm_dettach()");
+}
+
+
+/*************************************************************** REMOTE_RESUME
+** Tell the remote machine to resume. */
+
+static void
+mm_resume (step, sig)
+ int step, sig;
+{
+ DENTER("mm_resume()");
+
+ if (sig)
+ error ("Can't send signals to a remote MiniMon system.");
+
+ if (step) {
+ out_msg_buf->step_msg.code= STEP;
+ out_msg_buf->step_msg.length = 1*4;
+ out_msg_buf->step_msg.count = 1; /* step 1 instruction */
+ msg_send_serial(out_msg_buf);
+ } else {
+ out_msg_buf->go_msg.code= GO;
+ out_msg_buf->go_msg.length = 0;
+ msg_send_serial(out_msg_buf);
+ }
+
+ DEXIT("mm_resume()");
+}
+
+/***************************************************************** REMOTE_WAIT
+** Wait until the remote machine stops, then return,
+ storing status in STATUS just as `wait' would. */
+
+static int
+mm_wait (status)
+ WAITTYPE *status;
+{
+ int i, result;
+ int old_timeout = timeout;
+ int old_immediate_quit = immediate_quit;
+
+ DENTER("mm_wait()");
+ WSETEXIT ((*status), 0);
+
+
+/* wait for message to arrive. It should be:
+ - A HIF service request.
+ - A HIF exit service request.
+ - A CHANNEL0_ACK.
+ - A CHANNEL1 request.
+ - a debugcore HALT message.
+ HIF services must be responded too, and while-looping continued.
+ If the target stops executing, mm_wait() should return.
+*/
+ timeout = 0; /* Wait indefinetly for a message */
+ immediate_quit = 1; /* Helps ability to QUIT */
+ while(1)
+ {
+ while(msg_recv_serial(in_msg_buf)) {
+ QUIT; /* Let user quit if they want */
+ }
+ switch (in_msg_buf->halt_msg.code)
+ {
+ case HIF_CALL:
+ i = in_msg_buf->hif_call_rtn_msg.service_number;
+ result=service_HIF(in_msg_buf);
+ if(i == 1) /* EXIT */
+ goto exit;
+ if(result)
+ printf("Warning: failure during HIF service %d\n", i);
+ break;
+ case CHANNEL0_ACK:
+ service_HIF(in_msg_buf);
+ break;
+ case CHANNEL1:
+ i=in_msg_buf->channel1_msg.length;
+ in_msg_buf->channel1_msg.data[i] = '\0';
+ printf("%s", in_msg_buf->channel1_msg.data);
+ fflush(stdout);
+ /* Send CHANNEL1_ACK message */
+ out_msg_buf->channel1_ack_msg.code = CHANNEL1_ACK;
+ out_msg_buf->channel1_ack_msg.length = 0;
+ result = msg_send_serial(out_msg_buf);
+ break;
+ case HALT:
+ goto halted;
+ default:
+ goto halted;
+ }
+ }
+halted:
+ /* FIXME, these printfs should not be here. This is a source level
+ debugger, guys! */
+ if (in_msg_buf->halt_msg.trap_number== 0)
+ { printf("Am290*0 received vector number %d (break point)\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGTRAP);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 1)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGBUS);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 3
+ || in_msg_buf->halt_msg.trap_number== 4)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGFPE);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 5)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGILL);
+ }
+ else if (in_msg_buf->halt_msg.trap_number >= 6
+ && in_msg_buf->halt_msg.trap_number <= 11)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGSEGV);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 12
+ || in_msg_buf->halt_msg.trap_number== 13)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGILL);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 14)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGALRM);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 15)
+ WSETSTOP ((*status), SIGTRAP);
+ else if (in_msg_buf->halt_msg.trap_number >= 16
+ && in_msg_buf->halt_msg.trap_number <= 21)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGINT);
+ }
+ else if (in_msg_buf->halt_msg.trap_number== 22)
+ { printf("Am290*0 received vector number %d\n",
+ in_msg_buf->halt_msg.trap_number);
+ WSETSTOP ((*status), SIGILL);
+ } /* BREAK message was sent */
+ else if (in_msg_buf->halt_msg.trap_number== 75)
+ WSETSTOP ((*status), SIGTRAP);
+ else
+exit:
+ WSETEXIT ((*status), 0);
+
+ timeout = old_timeout; /* Restore original timeout value */
+ immediate_quit = old_immediate_quit;
+ DEXIT("mm_wait()");
+ return 0;
+}
+
+/******************************************************* REMOTE_FETCH_REGISTERS
+ * Read a remote register 'regno'.
+ * If regno==-1 then read all the registers.
+ */
+static void
+mm_fetch_registers (regno)
+int regno;
+{
+ INT32 *data_p;
+
+ if (regno >= 0) {
+ fetch_register(regno);
+ return;
+ }
+
+ DENTER("mm_fetch_registers()");
+
+/* Gr1/rsp */
+ out_msg_buf->read_req_msg.byte_count = 4*1;
+ out_msg_buf->read_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->read_req_msg.address = 1;
+ msg_send_serial(out_msg_buf);
+ expect_msg(READ_ACK,in_msg_buf,1);
+ data_p = &(in_msg_buf->read_r_ack_msg.data[0]);
+ supply_register (GR1_REGNUM , data_p);
+
+#if defined(GR64_REGNUM) /* Read gr64-127 */
+/* Global Registers gr64-gr95 */
+ out_msg_buf->read_req_msg.code= READ_REQ;
+ out_msg_buf->read_req_msg.length = 4*3;
+ out_msg_buf->read_req_msg.byte_count = 4*32;
+ out_msg_buf->read_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->read_req_msg.address = 64;
+ msg_send_serial(out_msg_buf);
+ expect_msg(READ_ACK,in_msg_buf,1);
+ data_p = &(in_msg_buf->read_r_ack_msg.data[0]);
+
+ for (regno=GR64_REGNUM; regno<GR64_REGNUM+32; regno++) {
+ supply_register (regno, data_p++);
+ }
+#endif /* GR64_REGNUM */
+
+/* Global Registers gr96-gr127 */
+ out_msg_buf->read_req_msg.code= READ_REQ;
+ out_msg_buf->read_req_msg.length = 4*3;
+ out_msg_buf->read_req_msg.byte_count = 4 * 32;
+ out_msg_buf->read_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->read_req_msg.address = 96;
+ msg_send_serial(out_msg_buf);
+ expect_msg(READ_ACK,in_msg_buf,1);
+ data_p = &(in_msg_buf->read_r_ack_msg.data[0]);
+
+ for (regno=GR96_REGNUM; regno<GR96_REGNUM+32; regno++) {
+ supply_register (regno, data_p++);
+ }
+
+/* Local Registers */
+ out_msg_buf->read_req_msg.byte_count = 4 * (128);
+ out_msg_buf->read_req_msg.memory_space = LOCAL_REG;
+ out_msg_buf->read_req_msg.address = 0;
+ msg_send_serial(out_msg_buf);
+ expect_msg(READ_ACK,in_msg_buf,1);
+ data_p = &(in_msg_buf->read_r_ack_msg.data[0]);
+
+ for (regno=LR0_REGNUM; regno<LR0_REGNUM+128; regno++) {
+ supply_register (regno, data_p++);
+ }
+
+/* Protected Special Registers */
+ out_msg_buf->read_req_msg.byte_count = 4*15;
+ out_msg_buf->read_req_msg.memory_space = SPECIAL_REG;
+ out_msg_buf->read_req_msg.address = 0;
+ msg_send_serial( out_msg_buf);
+ expect_msg(READ_ACK,in_msg_buf,1);
+ data_p = &(in_msg_buf->read_r_ack_msg.data[0]);
+
+ for (regno=0; regno<=14; regno++) {
+ supply_register (SR_REGNUM(regno), data_p++);
+ }
+ if (USE_SHADOW_PC) { /* Let regno_to_srnum() handle the register number */
+ fetch_register(NPC_REGNUM);
+ fetch_register(PC_REGNUM);
+ fetch_register(PC2_REGNUM);
+ }
+
+/* Unprotected Special Registers */
+ out_msg_buf->read_req_msg.byte_count = 4*8;
+ out_msg_buf->read_req_msg.memory_space = SPECIAL_REG;
+ out_msg_buf->read_req_msg.address = 128;
+ msg_send_serial( out_msg_buf);
+ expect_msg(READ_ACK,in_msg_buf,1);
+ data_p = &(in_msg_buf->read_r_ack_msg.data[0]);
+
+ for (regno=128; regno<=135; regno++) {
+ supply_register (SR_REGNUM(regno), data_p++);
+ }
+
+ /* There doesn't seem to be any way to get these. */
+ {
+ int val = -1;
+ supply_register (FPE_REGNUM, &val);
+ supply_register (INT_REGNUM, &val);
+ supply_register (FPS_REGNUM, &val);
+ supply_register (EXO_REGNUM, &val);
+ }
+
+ DEXIT("mm_fetch_registerS()");
+}
+
+
+/****************************************************** REMOTE_STORE_REGISTERS
+** Store register regno into the target.
+ * If regno==-1 then store all the registers.
+ */
+
+static int
+mm_store_registers (regno)
+int regno;
+{
+
+ if (regno >= 0)
+ return(store_register(regno));
+
+ DENTER("mm_store_registers()");
+
+ out_msg_buf->write_r_msg.code= WRITE_REQ;
+
+/* Gr1/rsp */
+ out_msg_buf->write_r_msg.byte_count = 4*1;
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->write_r_msg.address = 1;
+ out_msg_buf->write_r_msg.data[0] = read_register (GR1_REGNUM);
+
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+#if defined(GR64_REGNUM)
+/* Global registers gr64-gr95 */
+ out_msg_buf->write_r_msg.byte_count = 4* (32);
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.address = 64;
+
+ for (regno=GR64_REGNUM ; regno<GR64_REGNUM+32 ; regno++)
+ {
+ out_msg_buf->write_r_msg.data[regno-GR64_REGNUM] = read_register (regno);
+ }
+ msg_send_serial(out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+#endif /* GR64_REGNUM */
+
+/* Global registers gr96-gr127 */
+ out_msg_buf->write_r_msg.byte_count = 4* (32);
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.address = 96;
+ for (regno=GR96_REGNUM ; regno<GR96_REGNUM+32 ; regno++)
+ {
+ out_msg_buf->write_r_msg.data[regno-GR96_REGNUM] = read_register (regno);
+ }
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+/* Local Registers */
+ out_msg_buf->write_r_msg.memory_space = LOCAL_REG;
+ out_msg_buf->write_r_msg.byte_count = 4*128;
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.address = 0;
+
+ for (regno = LR0_REGNUM ; regno < LR0_REGNUM+128 ; regno++)
+ {
+ out_msg_buf->write_r_msg.data[regno-LR0_REGNUM] = read_register (regno);
+ }
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+/* Protected Special Registers */
+ /* VAB through TMR */
+ out_msg_buf->write_r_msg.memory_space = SPECIAL_REG;
+ out_msg_buf->write_r_msg.byte_count = 4* 10;
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.address = 0;
+ for (regno = 0 ; regno<=9 ; regno++) /* VAB through TMR */
+ out_msg_buf->write_r_msg.data[regno] = read_register (SR_REGNUM(regno));
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+ /* PC0, PC1, PC2 possibly as shadow registers */
+ out_msg_buf->write_r_msg.byte_count = 4* 3;
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ for (regno=10 ; regno<=12 ; regno++) /* LRU and MMU */
+ out_msg_buf->write_r_msg.data[regno-10] = read_register (SR_REGNUM(regno));
+ if (USE_SHADOW_PC)
+ out_msg_buf->write_r_msg.address = 20; /* SPC0 */
+ else
+ out_msg_buf->write_r_msg.address = 10; /* PC0 */
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+ /* LRU and MMU */
+ out_msg_buf->write_r_msg.byte_count = 4* 2;
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.address = 13;
+ for (regno=13 ; regno<=14 ; regno++) /* LRU and MMU */
+ out_msg_buf->write_r_msg.data[regno-13] = read_register (SR_REGNUM(regno));
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+/* Unprotected Special Registers */
+ out_msg_buf->write_r_msg.byte_count = 4*8;
+ out_msg_buf->write_r_msg.length = 3*4 + out_msg_buf->write_r_msg.byte_count;
+ out_msg_buf->write_r_msg.address = 128;
+ for (regno = 128 ; regno<=135 ; regno++)
+ out_msg_buf->write_r_msg.data[regno-128] = read_register(SR_REGNUM(regno));
+ msg_send_serial( out_msg_buf);
+ expect_msg(WRITE_ACK,in_msg_buf,1);
+
+ registers_changed ();
+ DEXIT("mm_store_registers()");
+}
+
+/*************************************************** REMOTE_PREPARE_TO_STORE */
+/* Get ready to modify the registers array. On machines which store
+ individual registers, this doesn't need to do anything. On machines
+ which store all the registers in one fell swoop, this makes sure
+ that registers contains all the registers from the program being
+ debugged. */
+
+static void
+mm_prepare_to_store ()
+{
+ /* Do nothing, since we can store individual regs */
+}
+
+/******************************************************* REMOTE_XFER_MEMORY */
+static CORE_ADDR
+translate_addr(addr)
+CORE_ADDR addr;
+{
+#if defined(KERNEL_DEBUGGING)
+ /* Check for a virtual address in the kernel */
+ /* Assume physical address of ublock is in paddr_u register */
+ /* FIXME: doesn't work for user virtual addresses */
+ if (addr >= UVADDR) {
+ /* PADDR_U register holds the physical address of the ublock */
+ CORE_ADDR i = (CORE_ADDR)read_register(PADDR_U_REGNUM);
+ return(i + addr - (CORE_ADDR)UVADDR);
+ } else {
+ return(addr);
+ }
+#else
+ return(addr);
+#endif
+}
+/* FIXME! Merge these two. */
+static int
+mm_xfer_inferior_memory (memaddr, myaddr, len, write)
+ CORE_ADDR memaddr;
+ char *myaddr;
+ int len;
+ int write;
+{
+
+ memaddr = translate_addr(memaddr);
+
+ if (write)
+ return mm_write_inferior_memory (memaddr, myaddr, len);
+ else
+ return mm_read_inferior_memory (memaddr, myaddr, len);
+}
+
+/******************************************************* REMOTE_FILES_INFO */
+static void
+mm_files_info ()
+{
+ printf ("\tAttached to %s at %d baud and running program %s.\n",
+ dev_name, baudrate, prog_name);
+}
+
+/************************************************* REMOTE_INSERT_BREAKPOINT */
+static int
+mm_insert_breakpoint (addr, contents_cache)
+ CORE_ADDR addr;
+ char *contents_cache;
+{
+ DENTER("mm_insert_breakpoint()");
+ out_msg_buf->bkpt_set_msg.code = BKPT_SET;
+ out_msg_buf->bkpt_set_msg.length = 4*4;
+ out_msg_buf->bkpt_set_msg.memory_space = I_MEM;
+ out_msg_buf->bkpt_set_msg.bkpt_addr = (ADDR32) addr;
+ out_msg_buf->bkpt_set_msg.pass_count = 1;
+ out_msg_buf->bkpt_set_msg.bkpt_type = -1; /* use illop for 29000 */
+ msg_send_serial( out_msg_buf);
+ if (expect_msg(BKPT_SET_ACK,in_msg_buf,1)) {
+ DEXIT("mm_insert_breakpoint() success");
+ return 0; /* Success */
+ } else {
+ DEXIT("mm_insert_breakpoint() failure");
+ return 1; /* Failure */
+ }
+}
+
+/************************************************* REMOTE_DELETE_BREAKPOINT */
+static int
+mm_remove_breakpoint (addr, contents_cache)
+ CORE_ADDR addr;
+ char *contents_cache;
+{
+ DENTER("mm_remove_breakpoint()");
+ out_msg_buf->bkpt_rm_msg.code = BKPT_RM;
+ out_msg_buf->bkpt_rm_msg.length = 4*3;
+ out_msg_buf->bkpt_rm_msg.memory_space = I_MEM;
+ out_msg_buf->bkpt_rm_msg.bkpt_addr = (ADDR32) addr;
+ msg_send_serial( out_msg_buf);
+ if (expect_msg(BKPT_RM_ACK,in_msg_buf,1)) {
+ DEXIT("mm_remove_breakpoint()");
+ return 0; /* Success */
+ } else {
+ DEXIT("mm_remove_breakpoint()");
+ return 1; /* Failure */
+ }
+}
+
+
+/******************************************************* REMOTE_KILL */
+static void
+mm_kill(arg,from_tty)
+char *arg;
+int from_tty;
+{
+ char buf[4];
+
+ DENTER("mm_kill()");
+#if defined(KERNEL_DEBUGGING)
+ /* We don't ever kill the kernel */
+ if (from_tty) {
+ printf("Kernel not killed, but left in current state.\n");
+ printf("Use detach to leave kernel running.\n");
+ }
+#else
+ out_msg_buf->break_msg.code = BREAK;
+ out_msg_buf->bkpt_set_msg.length = 4*0;
+ expect_msg(HALT,in_msg_buf,from_tty);
+ if (from_tty) {
+ printf("Target has been stopped.");
+ printf("Would you like to do a hardware reset (y/n) [n] ");
+ fgets(buf,3,stdin);
+ if (buf[0] == 'y') {
+ out_msg_buf->reset_msg.code = RESET;
+ out_msg_buf->bkpt_set_msg.length = 4*0;
+ expect_msg(RESET_ACK,in_msg_buf,from_tty);
+ printf("Target has been reset.");
+ }
+ }
+ pop_target();
+#endif
+ DEXIT("mm_kill()");
+}
+
+
+
+/***************************************************************************/
+/*
+ * Load a program into the target.
+ */
+static void
+mm_load(arg_string,from_tty)
+char *arg_string;
+int from_tty;
+{
+ dont_repeat ();
+
+#if defined(KERNEL_DEBUGGING)
+ printf("The kernel had better be loaded already! Loading not done.\n");
+#else
+ if (arg_string == 0)
+ error ("The load command takes a file name");
+
+ arg_string = tilde_expand (arg_string);
+ make_cleanup (free, arg_string);
+ QUIT;
+ immediate_quit++;
+ error("File loading is not yet supported for MiniMon.");
+ /* FIXME, code to load your file here... */
+ /* You may need to do an init_target_mm() */
+ /* init_target_mm(?,?,?,?,?,?,?,?); */
+ immediate_quit--;
+ symbol_file_add (arg_string, from_tty, text_addr, 0);
+#endif
+
+}
+
+/************************************************ REMOTE_WRITE_INFERIOR_MEMORY
+** Copy LEN bytes of data from debugger memory at MYADDR
+ to inferior's memory at MEMADDR. Returns number of bytes written. */
+static int
+mm_write_inferior_memory (memaddr, myaddr, len)
+ CORE_ADDR memaddr;
+ char *myaddr;
+ int len;
+{
+ int i,nwritten;
+
+ /* DENTER("mm_write_inferior_memory()"); */
+ out_msg_buf->write_req_msg.code= WRITE_REQ;
+ out_msg_buf->write_req_msg.memory_space = mm_memory_space(memaddr);
+
+ nwritten=0;
+ while (nwritten < len) {
+ int num_to_write = len - nwritten;
+ if (num_to_write > MAXDATA) num_to_write = MAXDATA;
+ for (i=0 ; i < num_to_write ; i++)
+ out_msg_buf->write_req_msg.data[i] = myaddr[i+nwritten];
+ out_msg_buf->write_req_msg.byte_count = num_to_write;
+ out_msg_buf->write_req_msg.length = 3*4 + num_to_write;
+ out_msg_buf->write_req_msg.address = memaddr + nwritten;
+ msg_send_serial(out_msg_buf);
+
+ if (expect_msg(WRITE_ACK,in_msg_buf,1)) {
+ nwritten += in_msg_buf->write_ack_msg.byte_count;
+ } else {
+ break;
+ }
+ }
+ /* DEXIT("mm_write_inferior_memory()"); */
+ return(nwritten);
+}
+
+/************************************************* REMOTE_READ_INFERIOR_MEMORY
+** Read LEN bytes from inferior memory at MEMADDR. Put the result
+ at debugger address MYADDR. Returns number of bytes read. */
+static int
+mm_read_inferior_memory(memaddr, myaddr, len)
+ CORE_ADDR memaddr;
+ char *myaddr;
+ int len;
+{
+ int i,nread;
+
+ /* DENTER("mm_read_inferior_memory()"); */
+ out_msg_buf->read_req_msg.code= READ_REQ;
+ out_msg_buf->read_req_msg.memory_space = mm_memory_space(memaddr);
+
+ nread=0;
+ while (nread < len) {
+ int num_to_read = (len - nread);
+ if (num_to_read > MAXDATA) num_to_read = MAXDATA;
+ out_msg_buf->read_req_msg.byte_count = num_to_read;
+ out_msg_buf->read_req_msg.length = 3*4 + num_to_read;
+ out_msg_buf->read_req_msg.address = memaddr + nread;
+ msg_send_serial(out_msg_buf);
+
+ if (expect_msg(READ_ACK,in_msg_buf,1)) {
+ for (i=0 ; i<in_msg_buf->read_ack_msg.byte_count ; i++)
+ myaddr[i+nread] = in_msg_buf->read_ack_msg.data[i];
+ nread += in_msg_buf->read_ack_msg.byte_count;
+ } else {
+ break;
+ }
+ }
+ return(nread);
+}
+
+/********************************************************** MSG_SEND_SERIAL
+** This function is used to send a message over the
+** serial line.
+**
+** If the message is successfully sent, a zero is
+** returned. If the message was not sendable, a -1
+** is returned. This function blocks. That is, it
+** does not return until the message is completely
+** sent, or until an error is encountered.
+**
+*/
+
+int
+msg_send_serial(msg_ptr)
+ union msg_t *msg_ptr;
+{
+ INT32 message_size;
+ int byte_count;
+ int result;
+ char c;
+
+ /* Send message header */
+ byte_count = 0;
+ message_size = msg_ptr->generic_msg.length + (2 * sizeof(INT32));
+ do {
+ c = *((char *)msg_ptr+byte_count);
+ result = write(mm_desc, &c, 1);
+ if (result == 1) {
+ byte_count = byte_count + 1;
+ }
+ } while ((byte_count < message_size) );
+
+ return(0);
+} /* end msg_send_serial() */
+
+/********************************************************** MSG_RECV_SERIAL
+** This function is used to receive a message over a
+** serial line.
+**
+** If the message is waiting in the buffer, a zero is
+** returned and the buffer pointed to by msg_ptr is filled
+** in. If no message was available, a -1 is returned.
+** If timeout==0, wait indefinetly for a character.
+**
+*/
+
+int
+msg_recv_serial(msg_ptr)
+union msg_t *msg_ptr;
+{
+ static INT32 length=0;
+ static INT32 byte_count=0;
+ int result;
+ char c;
+ if(msg_ptr == 0) /* re-sync request */
+ { length=0;
+ byte_count=0;
+#ifdef HAVE_TERMIO
+ /* The timeout here is the prevailing timeout set with VTIME */
+ ->"timeout==0 semantics not supported"
+ read(mm_desc, in_buf, BUFER_SIZE);
+#else
+ alarm (1);
+ read(mm_desc, in_buf, BUFER_SIZE);
+ alarm (0);
+#endif
+ return(0);
+ }
+ /* Receive message */
+#ifdef HAVE_TERMIO
+/* Timeout==0, help support the mm_wait() routine */
+ ->"timeout==0 semantics not supported (and its nice if they are)"
+ result = read(mm_desc, &c, 1);
+#else
+ alarm(timeout);
+ result = read(mm_desc, &c, 1);
+ alarm (0);
+#endif
+ if ( result < 0) {
+ if (errno == EINTR) {
+ error ("Timeout reading from remote system.");
+ } else
+ perror_with_name ("remote");
+ } else if (result == 1) {
+ *((char *)msg_ptr+byte_count) = c;
+ byte_count = byte_count + 1;
+ }
+
+ /* Message header received. Save message length. */
+ if (byte_count == (2 * sizeof(INT32)))
+ length = msg_ptr->generic_msg.length;
+
+ if (byte_count >= (length + (2 * sizeof(INT32)))) {
+ /* Message received */
+ byte_count = 0;
+ return(0);
+ } else
+ return (-1);
+
+} /* end msg_recv_serial() */
+
+/********************************************************************* KBD_RAW
+** This function is used to put the keyboard in "raw"
+** mode for BSD Unix. The original status is saved
+** so that it may be restored later.
+*/
+TERMINAL kbd_tbuf;
+
+int
+kbd_raw() {
+ int result;
+ TERMINAL tbuf;
+
+ /* Get keyboard termio (to save to restore original modes) */
+#ifdef HAVE_TERMIO
+ result = ioctl(0, TCGETA, &kbd_tbuf);
+#else
+ result = ioctl(0, TIOCGETP, &kbd_tbuf);
+#endif
+ if (result == -1)
+ return (errno);
+
+ /* Get keyboard TERMINAL (for modification) */
+#ifdef HAVE_TERMIO
+ result = ioctl(0, TCGETA, &tbuf);
+#else
+ result = ioctl(0, TIOCGETP, &tbuf);
+#endif
+ if (result == -1)
+ return (errno);
+
+ /* Set up new parameters */
+#ifdef HAVE_TERMIO
+ tbuf.c_iflag = tbuf.c_iflag &
+ ~(INLCR | ICRNL | IUCLC | ISTRIP | IXON | BRKINT);
+ tbuf.c_lflag = tbuf.c_lflag & ~(ICANON | ISIG | ECHO);
+ tbuf.c_cc[4] = 0; /* MIN */
+ tbuf.c_cc[5] = 0; /* TIME */
+#else
+ /* FIXME: not sure if this is correct (matches HAVE_TERMIO). */
+ tbuf.sg_flags |= RAW;
+ tbuf.sg_flags |= ANYP;
+ tbuf.sg_flags &= ~ECHO;
+#endif
+
+ /* Set keyboard termio to new mode (RAW) */
+#ifdef HAVE_TERMIO
+ result = ioctl(0, TCSETAF, &tbuf);
+#else
+ result = ioctl(0, TIOCSETP, &tbuf);
+#endif
+ if (result == -1)
+ return (errno);
+
+ return (0);
+} /* end kbd_raw() */
+
+
+
+/***************************************************************** KBD_RESTORE
+** This function is used to put the keyboard back in the
+** mode it was in before kbk_raw was called. Note that
+** kbk_raw() must have been called at least once before
+** kbd_restore() is called.
+*/
+
+int
+kbd_restore() {
+ int result;
+
+ /* Set keyboard termio to original mode */
+#ifdef HAVE_TERMIO
+ result = ioctl(0, TCSETAF, &kbd_tbuf);
+#else
+ result = ioctl(0, TIOCGETP, &kbd_tbuf);
+#endif
+
+ if (result == -1)
+ return (errno);
+
+ return(0);
+} /* end kbd_cooked() */
+
+
+/*****************************************************************************/
+/* Fetch a single register indicatated by 'regno'.
+ * Returns 0/-1 on success/failure.
+ */
+static int
+fetch_register (regno)
+ int regno;
+{
+ int result;
+ DENTER("mm_fetch_register()");
+ out_msg_buf->read_req_msg.code= READ_REQ;
+ out_msg_buf->read_req_msg.length = 4*3;
+ out_msg_buf->read_req_msg.byte_count = 4;
+
+ if (regno == GR1_REGNUM)
+ { out_msg_buf->read_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->read_req_msg.address = 1;
+ }
+ else if (regno >= GR96_REGNUM && regno < GR96_REGNUM + 32)
+ { out_msg_buf->read_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->read_req_msg.address = (regno - GR96_REGNUM) + 96;
+ }
+#if defined(GR64_REGNUM)
+ else if (regno >= GR64_REGNUM && regno < GR64_REGNUM + 32 )
+ { out_msg_buf->read_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->read_req_msg.address = (regno - GR64_REGNUM) + 64;
+ }
+#endif /* GR64_REGNUM */
+ else if (regno >= LR0_REGNUM && regno < LR0_REGNUM + 128)
+ { out_msg_buf->read_req_msg.memory_space = LOCAL_REG;
+ out_msg_buf->read_req_msg.address = (regno - LR0_REGNUM);
+ }
+ else if (regno>=FPE_REGNUM && regno<=EXO_REGNUM)
+ { int val = -1;
+ supply_register(160 + (regno - FPE_REGNUM),&val);
+ return 0; /* Pretend Success */
+ }
+ else
+ { out_msg_buf->read_req_msg.memory_space = SPECIAL_REG;
+ out_msg_buf->read_req_msg.address = regnum_to_srnum(regno);
+ }
+
+ msg_send_serial(out_msg_buf);
+
+ if (expect_msg(READ_ACK,in_msg_buf,1)) {
+ supply_register (regno, &(in_msg_buf->read_r_ack_msg.data[0]));
+ result = 0;
+ } else {
+ result = -1;
+ }
+ DEXIT("mm_fetch_register()");
+ return result;
+}
+/*****************************************************************************/
+/* Store a single register indicated by 'regno'.
+ * Returns 0/-1 on success/failure.
+ */
+static int
+store_register (regno)
+ int regno;
+{
+ int result;
+
+ DENTER("store_register()");
+ out_msg_buf->write_req_msg.code= WRITE_REQ;
+ out_msg_buf->write_req_msg.length = 4*4;
+ out_msg_buf->write_req_msg.byte_count = 4;
+ out_msg_buf->write_r_msg.data[0] = read_register (regno);
+
+ if (regno == GR1_REGNUM)
+ { out_msg_buf->write_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->write_req_msg.address = 1;
+ /* Setting GR1 changes the numbers of all the locals, so invalidate the
+ * register cache. Do this *after* calling read_register, because we want
+ * read_register to return the value that write_register has just stuffed
+ * into the registers array, not the value of the register fetched from
+ * the inferior.
+ */
+ registers_changed ();
+ }
+#if defined(GR64_REGNUM)
+ else if (regno >= GR64_REGNUM && regno < GR64_REGNUM + 32 )
+ { out_msg_buf->write_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->write_req_msg.address = (regno - GR64_REGNUM) + 64;
+ }
+#endif /* GR64_REGNUM */
+ else if (regno >= GR96_REGNUM && regno < GR96_REGNUM + 32)
+ { out_msg_buf->write_req_msg.memory_space = GLOBAL_REG;
+ out_msg_buf->write_req_msg.address = (regno - GR96_REGNUM) + 96;
+ }
+ else if (regno >= LR0_REGNUM && regno < LR0_REGNUM + 128)
+ { out_msg_buf->write_req_msg.memory_space = LOCAL_REG;
+ out_msg_buf->write_req_msg.address = (regno - LR0_REGNUM);
+ }
+ else if (regno>=FPE_REGNUM && regno<=EXO_REGNUM)
+ {
+ return 0; /* Pretend Success */
+ }
+ else /* An unprotected or protected special register */
+ { out_msg_buf->write_req_msg.memory_space = SPECIAL_REG;
+ out_msg_buf->write_req_msg.address = regnum_to_srnum(regno);
+ }
+
+ msg_send_serial(out_msg_buf);
+
+ if (expect_msg(WRITE_ACK,in_msg_buf,1)) {
+ result = 0;
+ } else {
+ result = -1;
+ }
+ DEXIT("store_register()");
+ return result;
+}
+/****************************************************************************/
+/*
+ * Convert a gdb special register number to a 29000 special register number.
+ */
+static int
+regnum_to_srnum(regno)
+int regno;
+{
+ switch(regno) {
+ case VAB_REGNUM: return(0);
+ case OPS_REGNUM: return(1);
+ case CPS_REGNUM: return(2);
+ case CFG_REGNUM: return(3);
+ case CHA_REGNUM: return(4);
+ case CHD_REGNUM: return(5);
+ case CHC_REGNUM: return(6);
+ case RBP_REGNUM: return(7);
+ case TMC_REGNUM: return(8);
+ case TMR_REGNUM: return(9);
+ case NPC_REGNUM: return(USE_SHADOW_PC ? (20) : (10));
+ case PC_REGNUM: return(USE_SHADOW_PC ? (21) : (11));
+ case PC2_REGNUM: return(USE_SHADOW_PC ? (22) : (12));
+ case MMU_REGNUM: return(13);
+ case LRU_REGNUM: return(14);
+ case IPC_REGNUM: return(128);
+ case IPA_REGNUM: return(129);
+ case IPB_REGNUM: return(130);
+ case Q_REGNUM: return(131);
+ case ALU_REGNUM: return(132);
+ case BP_REGNUM: return(133);
+ case FC_REGNUM: return(134);
+ case CR_REGNUM: return(135);
+ case FPE_REGNUM: return(160);
+ case INT_REGNUM: return(161);
+ case FPS_REGNUM: return(162);
+ case EXO_REGNUM:return(164);
+ default:
+ return(255); /* Failure ? */
+ }
+}
+/****************************************************************************/
+/*
+ * Initialize the target debugger (minimon only).
+ */
+static void
+init_target_mm(tstart,tend,dstart,dend,entry,ms_size,rs_size,arg_start)
+ADDR32 tstart,tend,dstart,dend,entry;
+INT32 ms_size,rs_size;
+ADDR32 arg_start;
+{
+ out_msg_buf->init_msg.code = INIT;
+ out_msg_buf->init_msg.length= sizeof(struct init_msg_t)-2*sizeof(INT32);
+ out_msg_buf->init_msg.text_start = tstart;
+ out_msg_buf->init_msg.text_end = tend;
+ out_msg_buf->init_msg.data_start = dstart;
+ out_msg_buf->init_msg.data_end = dend;
+ out_msg_buf->init_msg.entry_point = entry;
+ out_msg_buf->init_msg.mem_stack_size = ms_size;
+ out_msg_buf->init_msg.reg_stack_size = rs_size;
+ out_msg_buf->init_msg.arg_start = arg_start;
+ msg_send_serial(out_msg_buf);
+ expect_msg(INIT_ACK,in_msg_buf,1);
+}
+/****************************************************************************/
+/*
+ * Return a pointer to a string representing the given message code.
+ * Not all messages are represented here, only the ones that we expect
+ * to be called with.
+ */
+static char*
+msg_str(code)
+INT32 code;
+{
+ static char cbuf[32];
+
+ switch (code) {
+ case BKPT_SET_ACK: sprintf(cbuf,"%s (%d)","BKPT_SET_ACK",code); break;
+ case BKPT_RM_ACK: sprintf(cbuf,"%s (%d)","BKPT_RM_ACK",code); break;
+ case INIT_ACK: sprintf(cbuf,"%s (%d)","INIT_ACK",code); break;
+ case READ_ACK: sprintf(cbuf,"%s (%d)","READ_ACK",code); break;
+ case WRITE_ACK: sprintf(cbuf,"%s (%d)","WRITE_ACK",code); break;
+ case ERROR: sprintf(cbuf,"%s (%d)","ERROR",code); break;
+ case HALT: sprintf(cbuf,"%s (%d)","HALT",code); break;
+ default: sprintf(cbuf,"UNKNOWN (%d)",code); break;
+ }
+ return(cbuf);
+}
+/****************************************************************************/
+/*
+ * Selected (not all of them) error codes that we might get.
+ */
+static char*
+error_msg_str(code)
+INT32 code;
+{
+ static char cbuf[50];
+
+ switch (code) {
+ case EMFAIL: return("EMFAIL: unrecoverable error");
+ case EMBADADDR: return("EMBADADDR: Illegal address");
+ case EMBADREG: return("EMBADREG: Illegal register ");
+ case EMACCESS: return("EMACCESS: Could not access memory");
+ case EMBADMSG: return("EMBADMSG: Unknown message type");
+ case EMMSG2BIG: return("EMMSG2BIG: Message to large");
+ case EMNOSEND: return("EMNOSEND: Could not send message");
+ case EMNORECV: return("EMNORECV: Could not recv message");
+ case EMRESET: return("EMRESET: Could not RESET target");
+ case EMCONFIG: return("EMCONFIG: Could not get target CONFIG");
+ case EMSTATUS: return("EMSTATUS: Could not get target STATUS");
+ case EMREAD: return("EMREAD: Could not READ target memory");
+ case EMWRITE: return("EMWRITE: Could not WRITE target memory");
+ case EMBKPTSET: return("EMBKPTSET: Could not set breakpoint");
+ case EMBKPTRM: return("EMBKPTRM: Could not remove breakpoint");
+ case EMBKPTSTAT:return("EMBKPTSTAT: Could not get breakpoint status");
+ case EMBKPTNONE:return("EMBKPTNONE: All breakpoints in use");
+ case EMBKPTUSED:return("EMBKPTUSED: Breakpoints already in use");
+ case EMINIT: return("EMINIT: Could not init target memory");
+ case EMGO: return("EMGO: Could not start execution");
+ case EMSTEP: return("EMSTEP: Could not single step");
+ case EMBREAK: return("EMBREAK: Could not BREAK");
+ case EMCOMMERR: return("EMCOMMERR: Communication error");
+ default: sprintf(cbuf,"error number %d",code); break;
+ } /* end switch */
+
+ return (cbuf);
+}
+/****************************************************************************/
+/*
+ * Receive a message and expect it to be of type msgcode.
+ * Returns 0/1 on failure/success.
+ */
+static int
+expect_msg(msgcode,msg_buf,from_tty)
+INT32 msgcode; /* Msg code we expect */
+union msg_t *msg_buf; /* Where to put the message received */
+int from_tty; /* Print message on error if non-zero */
+{
+ /* DENTER("expect_msg()"); */
+ int retries=0;
+ while(msg_recv_serial(msg_buf) && (retries++<MAX_RETRIES));
+ if (retries >= MAX_RETRIES) {
+ printf("Expected msg %s, ",msg_str(msgcode));
+ printf("no message received!\n");
+ /* DEXIT("expect_msg() failure"); */
+ return(0); /* Failure */
+ }
+
+ if (msg_buf->generic_msg.code != msgcode) {
+ if (from_tty) {
+ printf("Expected msg %s, ",msg_str(msgcode));
+ printf("got msg %s\n",msg_str(msg_buf->generic_msg.code));
+ if (msg_buf->generic_msg.code == ERROR)
+ printf("%s\n",error_msg_str(msg_buf->error_msg.error_code));
+ }
+ /* DEXIT("expect_msg() failure"); */
+ return(0); /* Failure */
+ }
+ /* DEXIT("expect_msg() success"); */
+ return(1); /* Success */
+}
+/****************************************************************************/
+/*
+ * Determine the MiniMon memory space qualifier based on the addr.
+ * FIXME: Can't distinguis I_ROM/D_ROM.
+ * FIXME: Doesn't know anything about I_CACHE/D_CACHE.
+ */
+static int
+mm_memory_space(addr)
+CORE_ADDR *addr;
+{
+ ADDR32 tstart = target_config.I_mem_start;
+ ADDR32 tend = tstart + target_config.I_mem_size;
+ ADDR32 dstart = target_config.D_mem_start;
+ ADDR32 dend = tstart + target_config.D_mem_size;
+ ADDR32 rstart = target_config.ROM_start;
+ ADDR32 rend = tstart + target_config.ROM_size;
+
+ if (((ADDR32)addr >= tstart) && ((ADDR32)addr < tend)) {
+ return I_MEM;
+ } else if (((ADDR32)addr >= dstart) && ((ADDR32)addr < dend)) {
+ return D_MEM;
+ } else if (((ADDR32)addr >= rstart) && ((ADDR32)addr < rend)) {
+ /* FIXME: how do we determine between D_ROM and I_ROM */
+ return D_ROM;
+ } else /* FIXME: what do me do now? */
+ return D_MEM; /* Hmmm! */
+}
+
+/****************************************************************************/
+/*
+ * Define the target subroutine names
+ */
+struct target_ops mm_ops = {
+ "minimon", "Remote AMD/Minimon target",
+ "Remote debug an AMD 290*0 using the MiniMon dbg core on the target",
+ mm_open, mm_close,
+ mm_attach, mm_detach, mm_resume, mm_wait,
+ mm_fetch_registers, mm_store_registers,
+ mm_prepare_to_store, 0, 0, /* conv_to, conv_from */
+ mm_xfer_inferior_memory,
+ mm_files_info,
+ mm_insert_breakpoint, mm_remove_breakpoint, /* Breakpoints */
+ 0, 0, 0, 0, 0, /* Terminal handling */
+ mm_kill, /* FIXME, kill */
+ mm_load,
+ call_function_by_hand,
+ 0, /* lookup_symbol */
+ mm_create_inferior, /* create_inferior */
+ mm_mourn, /* mourn_inferior FIXME */
+ process_stratum, 0, /* next */
+ 1, 1, 1, 1, 1, /* all mem, mem, stack, regs, exec */
+ 0,0, /* sections, sections_end */
+ OPS_MAGIC, /* Always the last thing */
+};
+
+void
+_initialize_remote_mm()
+{
+ add_target (&mm_ops);
+}
+
+#ifdef NO_HIF_SUPPORT
+service_HIF(msg)
+union msg_t *msg;
+{
+ return(0); /* Emulate a failure */
+}
+#endif