old-cross-binutils/gdb/nlm/alpha.c
Stu Grossman 74ace0c87a * nlm/Makefile.in: Add rule for .S.o.
* nlm/aio.h:  Protect from multiple inclusions.
	* nlm/alpha-io.S:  Remove everything we don't need.
	* nlm/{alpha-patch.c, alpha-patch.h, alpha-uart.c, alpha-uart.h}:
	Remove, no longer needed.
	* nlm/alpha.c:  Merge in lots of stuff from previous files.
	* nlm/alpha.h:  Don't #include alpha-patch.h.  Make
	breakpoint_insn extern.
	* Move stuff from alpha-patch.h into here.

	* config/alpha/gdbserve.mt (TDEPFILES):  Get rid of alpha-uart.o.
1994-08-29 21:47:40 +00:00

472 lines
9.6 KiB
C

#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
#include <errno.h>
#include <nwdfs.h>
#include <nwconio.h>
#include <nwadv.h>
#include <nwdbgapi.h>
#include <nwthread.h>
#include <aio.h>
#include "alpha.h"
extern char *mem2hex (void *mem, char *buf, int count, int may_fault);
extern char *hex2mem (char *buf, void *mem, int count, int may_fault);
extern int computeSignal (int exceptionVector);
/* Get the registers out of the frame information. */
void
frame_to_registers (frame, regs)
struct StackFrame *frame;
char *regs;
{
mem2hex (&frame->ExceptionPC, &regs[PC_REGNUM * 8 * 2], 8 * 1, 0);
mem2hex (&frame->ExceptionRegs[SF_IREG_OFFSET], &regs[V0_REGNUM * 8 * 2], 8 * 64, 0);
}
/* Put the registers back into the frame information. */
void
registers_to_frame (regs, frame)
char *regs;
struct StackFrame *frame;
{
hex2mem (&regs[PC_REGNUM * 8 * 2], &frame->ExceptionPC, 8 * 1, 0);
hex2mem (&regs[V0_REGNUM * 8 * 2], &frame->ExceptionRegs[SF_IREG_OFFSET], 8 * 64, 0);
}
union inst
{
LONG l;
struct
{
union
{
struct
{
unsigned hint : 16;
unsigned rb : 5;
unsigned ra : 5;
unsigned opcode : 6;
} jump;
struct
{
signed disp : 21;
unsigned ra : 5;
unsigned opcode : 6;
} branch;
} variant;
} inst;
};
static LONG saved_inst;
static LONG *saved_inst_pc = 0;
static LONG saved_target_inst;
static LONG *saved_target_inst_pc = 0;
void
set_step_traps (frame)
struct StackFrame *frame;
{
union inst inst;
LONG *target;
int opcode;
int ra, rb;
LONG *pc = (LONG *)frame->ExceptionPC;
inst.l = *pc++;
opcode = inst.inst.variant.branch.opcode;
if ((opcode & 0x30) == 0x30) /* A branch of some sort */
target = inst.inst.variant.branch.disp + pc;
else if (opcode == 0x1a) /* jmp, ret, etc... */
target = (LONG *)(frame->ExceptionRegs[SF_IREG_OFFSET
+ inst.inst.variant.jump.rb].lo
& ~3);
else
target = pc;
saved_inst = *pc;
*pc = 0x80; /* call_pal bpt */
saved_inst_pc = pc;
if (target != pc)
{
saved_target_inst = *target;
*target = 0x80; /* call_pal bpt */
saved_target_inst_pc = target;
}
}
/* Remove step breakpoints. Returns non-zero if pc was at a step breakpoint,
zero otherwise. This routine works even if there were no step breakpoints
set. */
int
clear_step_traps (frame)
struct StackFrame *frame;
{
int retcode;
LONG *pc = (LONG *)frame->ExceptionPC;
if (saved_inst_pc == pc || saved_target_inst_pc == pc)
retcode = 1;
else
retcode = 0;
if (saved_inst_pc)
{
*saved_inst_pc = saved_inst;
saved_inst_pc = 0;
}
if (saved_target_inst_pc)
{
*saved_target_inst_pc = saved_target_inst;
saved_target_inst_pc = 0;
}
return retcode;
}
void
do_status (ptr, frame)
char *ptr;
struct StackFrame *frame;
{
int sigval;
sigval = computeSignal (frame->ExceptionNumber);
sprintf (ptr, "T%02x", sigval);
ptr += 3;
sprintf (ptr, "%02x:", PC_REGNUM);
ptr = mem2hex (&frame->ExceptionPC, ptr + 3, 8, 0);
*ptr++ = ';';
sprintf (ptr, "%02x:", SP_REGNUM);
ptr = mem2hex (&frame->ExceptionRegs[SF_IREG_OFFSET + SP_REGNUM], ptr + 3, 8, 0);
*ptr++ = ';';
sprintf (ptr, "%02x:", RA_REGNUM);
ptr = mem2hex (&frame->ExceptionRegs[SF_IREG_OFFSET + RA_REGNUM], ptr + 3, 8, 0);
*ptr++ = ';';
sprintf (ptr, "%02x:", FP_REGNUM);
ptr = mem2hex (&frame->ExceptionRegs[SF_IREG_OFFSET + FP_REGNUM], ptr + 3, 8, 0);
*ptr++ = ';';
*ptr = '\000';
}
/* This section provides stubs and equivalent interfaces for all functions that
the debugger stub needs, but aren't yet implemented (such as the AIO nlm). */
#include <nwtypes.h>
#include <errno.h>
#include <stdio.h>
#include <aio.h>
#define CONST const
#define com1Rbr 0x3f8 /* Receiver Buffer - Read */
#define com1Thr 0x3f8 /* Transmitter Holding - Write */
#define com1Ier 0x3f9 /* Interrupt Enable */
#define com1Iir 0x3fa /* Interrupt Identification */
#define com1Lcr 0x3fb /* Line Control */
#define com1Mcr 0x3fc /* Modem Control */
#define com1Lsr 0x3fd /* Line Status */
#define com1Msr 0x3fe /* Modem Status */
#define com1Scr 0x3ff /* Scratch */
#define com1Dll 0x3f8 /* Divisor Latch - lsb */
#define com1Dlm 0x3f9 /* Divisor Latch - msb */
#define com2Rbr 0x2f8 /* Receiver Buffer - Read */
#define com2Thr 0x2f8 /* Transmitter Holding - Write */
#define com2Ier 0x2f9 /* Interrupt Enable */
#define com2Iir 0x2fa /* Interrupt Identification */
#define com2Lcr 0x2fb /* Line Control */
#define com2Mcr 0x2fc /* Modem Control */
#define com2Lsr 0x2fd /* Line Status */
#define com2Msr 0x2fe /* Modem Status */
#define com2Scr 0x2ff /* Scratch */
#define com2Dll 0x2f8 /* Divisor Latch - lsb */
#define com2Dlm 0x2f9 /* Divisor Latch - msb */
#define COM1 0x8000
#define COM2 0x9000
static ULONG
uart_getchar (void)
{
while ((inVti(com1Lsr) & 1) == 0);
return inVti (com1Rbr);
}
static void
uart_putchar (char c)
{
while ((inVti(com1Lsr) & 0x20) == 0);
outVti (com1Thr,c);
}
static int
uart_init (int baud)
{
int i;
int baudconst;
baudconst = 115200 / baud;
outVti (com1Lcr, 0x87);
outVti (com1Dlm, 0);
outVti (com1Dll, baudconst);
outVti (com1Lcr, 0x07);
outVti (com1Mcr, 0x0F);
outVti (com1Ier, 0x0);
}
int
AIOReadData (int portHandle, char *buffer, LONG length, LONG *numberBytesRead)
{
ULONG c;
while (1)
{
c = uart_getchar ();
if ((c & ~0377) == COM1)
break;
}
*buffer = c;
*numberBytesRead = 1;
return AIO_SUCCESS;
}
int
AIOWriteData (int portHandle, char *buffer, LONG length,
LONG *numberBytesWritten)
{
*numberBytesWritten = length;
while (length-- > 0)
uart_putchar (*buffer++);
return AIO_SUCCESS;
}
int
AIOAcquirePort (int *hardwareType, int *boardNumber, int *portNumber,
int *portHandle)
{
return AIO_SUCCESS;
}
int
AIOConfigurePort (int portHandle, BYTE bitRate, BYTE dataBits, BYTE stopBits,
BYTE parityMode, BYTE flowCtrlMode)
{
uart_init (9600);
return AIO_SUCCESS;
}
int
AIOGetPortConfiguration (int portHandle, AIOPORTCONFIG *pPortConfig,
AIODVRCONFIG *pDvrConfig)
{
fprintf (stderr, "AIOGetPortConfiguration stubbed out\n");
exit (1);
}
int
AIOReleasePort (int portHandle)
{
return AIO_SUCCESS;
}
int
AIOSetExternalControl (int portHandle, int requestType, int requestValue)
{
return AIO_SUCCESS;
}
int
AIOGetExternalStatus (int portHandle, LONG *extStatus, LONG *chgdExtStatus)
{
fprintf (stderr, "AIOGetExternalStatus stubbed out\n");
exit (1);
}
void
StopBell ()
{
}
int
Breakpoint (int __arg)
{
fprintf (stderr, "Breakpoint() stubbed out\n");
exit (1);
}
/*
* strtol : convert a string to long.
*
* Andy Wilson, 2-Oct-89.
*/
/* FIXME: It'd be nice to configure around these, but the include files are too
painful. These macros should at least be more portable than hardwired hex
constants. */
#define ULONG_MAX ((unsigned long)(~0L)) /* 0xFFFFFFFF */
#define LONG_MAX ((long)(ULONG_MAX >> 1)) /* 0x7FFFFFFF */
#define LONG_MIN ((long)(~LONG_MAX)) /* 0x80000000 */
extern int errno;
long
strtol(s, ptr, base)
CONST char *s; char **ptr; int base;
{
extern unsigned long strtoul();
int minus=0;
unsigned long tmp;
CONST char *start=s;
char *eptr;
if (s==NULL)
{
errno = ERANGE;
if (!ptr)
*ptr = (char *)start;
return 0L;
}
while (isspace(*s))
s++;
if (*s == '-') {
s++;
minus = 1;
}
else if (*s == '+')
s++;
/*
* let strtoul do the hard work.
*/
tmp = strtoul(s, &eptr, base);
if (ptr != NULL)
*ptr = (char *)((eptr==s) ? (char *)start : eptr);
if (tmp > (minus ? - (unsigned long) LONG_MIN : (unsigned long) LONG_MAX))
{
errno = ERANGE;
return (minus ? LONG_MIN : LONG_MAX);
}
return (minus ? (long) -tmp : (long) tmp);
}
/*
* strtol : convert a string to long.
*
* Andy Wilson, 2-Oct-89.
*/
#ifndef ULONG_MAX
#define ULONG_MAX ((unsigned long)(~0L)) /* 0xFFFFFFFF */
#endif
extern int errno;
unsigned long
strtoul(s, ptr, base)
CONST char *s; char **ptr; int base;
{
unsigned long total = 0;
unsigned digit;
CONST char *start=s;
int did_conversion=0;
int overflow = 0;
int negate = 0;
unsigned long maxdiv, maxrem;
if (s==NULL)
{
errno = ERANGE;
if (!ptr)
*ptr = (char *)start;
return 0L;
}
while (isspace(*s))
s++;
if (*s == '+')
s++;
else if (*s == '-')
s++, negate = 1;
if (base==0 || base==16) /* the 'base==16' is for handling 0x */
{
int tmp;
/*
* try to infer base from the string
*/
if (*s != '0')
tmp = 10; /* doesn't start with 0 - assume decimal */
else if (s[1] == 'X' || s[1] == 'x')
tmp = 16, s += 2; /* starts with 0x or 0X - hence hex */
else
tmp = 8; /* starts with 0 - hence octal */
if (base==0)
base = (int)tmp;
}
maxdiv = ULONG_MAX / base;
maxrem = ULONG_MAX % base;
while ((digit = *s) != '\0')
{
if (digit >= '0' && digit < ('0'+base))
digit -= '0';
else
if (base > 10)
{
if (digit >= 'a' && digit < ('a'+(base-10)))
digit = digit - 'a' + 10;
else if (digit >= 'A' && digit < ('A'+(base-10)))
digit = digit - 'A' + 10;
else
break;
}
else
break;
did_conversion = 1;
if (total > maxdiv
|| (total == maxdiv && digit > maxrem))
overflow = 1;
total = (total * base) + digit;
s++;
}
if (overflow)
{
errno = ERANGE;
if (ptr != NULL)
*ptr = (char *)s;
return (ULONG_MAX);
}
if (ptr != NULL)
*ptr = (char *) ((did_conversion) ? (char *)s : (char *)start);
return negate ? -total : total;
}