+2007-02-19 Thiemo Seufer <ths@mips.com>
+ Nigel Stephens <nigel@mips.com>
+ David Ung <davidu@mips.com>
+
+ * cp1.c (value_fpr): Don't inherit existing FPR_STATE for
+ uninterpreted formats. If fmt is one of the uninterpreted types
+ don't update the FPR_STATE. Handle fmt_uninterpreted_32 like
+ fmt_word, and fmt_uninterpreted_64 like fmt_long.
+ (store_fpr): When writing an invalid odd register, set the
+ matching even register to fmt_unknown, not the following register.
+ * interp.c (sim_open): If STATE_MEM_SIZE isn't set then set it to
+ the the memory window at offset 0 set by --memory-size command
+ line option.
+ (sim_store_register): Handle storing 4 bytes to an 8 byte floating
+ point register.
+ (sim_fetch_register): Likewise for reading 4 bytes from an 8 byte
+ register.
+ (sim_monitor): When returning the memory size to the MIPS
+ application, use the value in STATE_MEM_SIZE, not an arbitrary
+ hardcoded value.
+ (cop_lw): Don' mess around with FPR_STATE, just pass
+ fmt_uninterpreted_32 to StoreFPR.
+ (cop_sw): Similarly.
+ (cop_ld): Pass fmt_uninterpreted_64 not fmt_uninterpreted.
+ (cop_sd): Similarly.
+ * mips.igen (not_word_value): Single version for mips32, mips64
+ and mips16.
+
2007-02-19 Thiemo Seufer <ths@mips.com>
Nigel Stephens <nigel@mips.com>
int err = 0;
/* Treat unused register values, as fixed-point 64bit values. */
- if ((fmt == fmt_uninterpreted) || (fmt == fmt_unknown))
+ if (fmt == fmt_unknown)
{
#if 1
- /* If request to read data as "uninterpreted", then use the current
+ /* If request to read data as "unknown", then use the current
encoding: */
fmt = FPR_STATE[fpr];
#else
}
/* For values not yet accessed, set to the desired format. */
- if (FPR_STATE[fpr] == fmt_uninterpreted)
+ if (fmt < fmt_uninterpreted)
{
- FPR_STATE[fpr] = fmt;
+ if (FPR_STATE[fpr] == fmt_uninterpreted)
+ {
+ FPR_STATE[fpr] = fmt;
#ifdef DEBUG
- printf ("DBG: Register %d was fmt_uninterpreted. Now %s\n", fpr,
- fpu_format_name (fmt));
+ printf ("DBG: Register %d was fmt_uninterpreted. Now %s\n", fpr,
+ fpu_format_name (fmt));
#endif /* DEBUG */
- }
- if (fmt != FPR_STATE[fpr])
- {
- sim_io_eprintf (SD, "FPR %d (format %s) being accessed with format %s - setting to unknown (PC = 0x%s)\n",
- fpr, fpu_format_name (FPR_STATE[fpr]),
- fpu_format_name (fmt), pr_addr (cia));
- FPR_STATE[fpr] = fmt_unknown;
+ }
+ else if (fmt != FPR_STATE[fpr])
+ {
+ sim_io_eprintf (SD, "FPR %d (format %s) being accessed with format %s - setting to unknown (PC = 0x%s)\n",
+ fpr, fpu_format_name (FPR_STATE[fpr]),
+ fpu_format_name (fmt), pr_addr (cia));
+ FPR_STATE[fpr] = fmt_unknown;
+ }
}
if (FPR_STATE[fpr] == fmt_unknown)
{
switch (fmt)
{
+ case fmt_uninterpreted_32:
case fmt_single:
case fmt_word:
value = (FGR[fpr] & 0xFFFFFFFF);
break;
+ case fmt_uninterpreted_64:
case fmt_uninterpreted:
case fmt_double:
case fmt_long:
{
switch (fmt)
{
+ case fmt_uninterpreted_32:
case fmt_single:
case fmt_word:
value = (FGR[fpr] & 0xFFFFFFFF);
break;
+ case fmt_uninterpreted_64:
case fmt_uninterpreted:
case fmt_double:
case fmt_long:
else
{
FPR_STATE[fpr] = fmt_unknown;
- FPR_STATE[fpr + 1] = fmt_unknown;
+ FPR_STATE[fpr ^ 1] = fmt_unknown;
SignalException (ReservedInstruction, 0);
}
break;
/* Note that the monitor code essentially assumes this layout of memory.
If you change these, change the monitor code, too. */
+/* FIXME Currently addresses are truncated to 32-bits, see
+ mips/sim-main.c:address_translation(). If that changes, then these
+ values will need to be extended, and tested for more carefully. */
#define K0BASE (0x80000000)
#define K0SIZE (0x20000000)
#define K1BASE (0xA0000000)
if (board == NULL)
{
/* Allocate core managed memory */
-
+ sim_memopt *entry, *match = NULL;
+ address_word mem_size = 0;
+ int mapped = 0;
/* For compatibility with the old code - under this (at level one)
are the kernel spaces K0 & K1. Both of these map to a single
smaller sub region */
sim_do_command(sd," memory region 0x7fff8000,0x8000") ; /* MTZ- 32 k stack */
- sim_do_commandf (sd, "memory alias 0x%lx@1,0x%lx%%0x%lx,0x%0x",
- K1BASE, K0SIZE,
- MEM_SIZE, /* actual size */
- K0BASE);
-
+
+ /* Look for largest memory region defined on command-line at
+ phys address 0. */
+#ifdef SIM_HAVE_FLATMEM
+ mem_size = STATE_MEM_SIZE (sd);
+#endif
+ for (entry = STATE_MEMOPT (sd); entry != NULL; entry = entry->next)
+ {
+ /* If we find an entry at address 0, then we will end up
+ allocating a new buffer in the "memory alias" command
+ below. The region at address 0 will be deleted. */
+ address_word size = (entry->modulo != 0
+ ? entry->modulo : entry->nr_bytes);
+ if (entry->addr == 0
+ && (!match || entry->level < match->level))
+ match = entry;
+ else if (entry->addr == K0BASE || entry->addr == K1BASE)
+ mapped = 1;
+ else
+ {
+ sim_memopt *alias;
+ for (alias = entry->alias; alias != NULL; alias = alias->next)
+ {
+ if (alias->addr == 0
+ && (!match || entry->level < match->level))
+ match = entry;
+ else if (alias->addr == K0BASE || alias->addr == K1BASE)
+ mapped = 1;
+ }
+ }
+ }
+
+ if (!mapped)
+ {
+ if (match)
+ {
+ /* Get existing memory region size. */
+ mem_size = (match->modulo != 0
+ ? match->modulo : match->nr_bytes);
+ /* Delete old region. */
+ sim_do_commandf (sd, "memory delete %d:0x%lx@%d",
+ match->space, match->addr, match->level);
+ }
+ else if (mem_size == 0)
+ mem_size = MEM_SIZE;
+ /* Limit to KSEG1 size (512MB) */
+ if (mem_size > K1SIZE)
+ mem_size = K1SIZE;
+ /* memory alias K1BASE@1,K1SIZE%MEMSIZE,K0BASE */
+ sim_do_commandf (sd, "memory alias 0x%lx@1,0x%lx%%0x%lx,0x%0x",
+ K1BASE, K1SIZE, (long)mem_size, K0BASE);
+ }
+
device_init(sd);
}
else if (board != NULL
}
else
{
- cpu->fgr[rn - FGR_BASE] = T2H_8 (*(unsigned64*)memory);
- return 8;
+ if (length == 8)
+ {
+ cpu->fgr[rn - FGR_BASE] = T2H_8 (*(unsigned64*)memory);
+ return 8;
+ }
+ else
+ {
+ cpu->fgr[rn - FGR_BASE] = T2H_4 (*(unsigned32*)memory);
+ return 4;
+ }
}
}
}
else
{
- cpu->registers[rn] = T2H_8 (*(unsigned64*)memory);
- return 8;
+ if (length == 8)
+ {
+ cpu->registers[rn] = T2H_8 (*(unsigned64*)memory);
+ return 8;
+ }
+ else
+ {
+ cpu->registers[rn] = (signed32) T2H_4(*(unsigned32*)memory);
+ return 4;
+ }
}
return 0;
}
else
{
- *(unsigned64*)memory = H2T_8 (cpu->fgr[rn - FGR_BASE]);
- return 8;
+ if (length == 8)
+ {
+ *(unsigned64*)memory = H2T_8 (cpu->fgr[rn - FGR_BASE]);
+ return 8;
+ }
+ else
+ {
+ *(unsigned32*)memory = H2T_4 ((unsigned32)(cpu->fgr[rn - FGR_BASE]));
+ return 4;
+ }
}
}
}
else
{
- *(unsigned64*)memory = H2T_8 ((unsigned64)(cpu->registers[rn]));
- return 8;
+ if (length == 8)
+ {
+ *(unsigned64*)memory =
+ H2T_8 ((unsigned64) (cpu->registers[rn]));
+ return 8;
+ }
+ else
+ {
+ *(unsigned32*)memory = H2T_4 ((unsigned32)(cpu->registers[rn]));
+ return 4;
+ }
}
return 0;
/* [A0 + 4] = instruction cache size */
/* [A0 + 8] = data cache size */
{
- unsigned_4 value = MEM_SIZE /* FIXME STATE_MEM_SIZE (sd) */;
+ unsigned_4 value;
unsigned_4 zero = 0;
+ address_word mem_size;
+ sim_memopt *entry, *match = NULL;
+
+ /* Search for memory region mapped to KSEG0 or KSEG1. */
+ for (entry = STATE_MEMOPT (sd);
+ entry != NULL;
+ entry = entry->next)
+ {
+ if ((entry->addr == K0BASE || entry->addr == K1BASE)
+ && (!match || entry->level < match->level))
+ match = entry;
+ else
+ {
+ sim_memopt *alias;
+ for (alias = entry->alias;
+ alias != NULL;
+ alias = alias->next)
+ if ((alias->addr == K0BASE || alias->addr == K1BASE)
+ && (!match || entry->level < match->level))
+ match = entry;
+ }
+ }
+
+ /* Get region size, limit to KSEG1 size (512MB). */
+ SIM_ASSERT (match != NULL);
+ mem_size = (match->modulo != 0
+ ? match->modulo : match->nr_bytes);
+ if (mem_size > K1SIZE)
+ mem_size = K1SIZE;
+
+ value = mem_size;
H2T (value);
sim_write (sd, A0 + 0, (char *)&value, 4);
sim_write (sd, A0 + 4, (char *)&zero, 4);
#ifdef DEBUG
printf("DBG: COP_LW: memword = 0x%08X (uword64)memword = 0x%s\n",memword,pr_addr(memword));
#endif
- StoreFPR(coproc_reg,fmt_word,(uword64)memword);
- FPR_STATE[coproc_reg] = fmt_uninterpreted;
+ StoreFPR(coproc_reg,fmt_uninterpreted_32,(uword64)memword);
break;
}
case 1:
if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT)
{
- StoreFPR(coproc_reg,fmt_uninterpreted,memword);
+ StoreFPR(coproc_reg,fmt_uninterpreted_64,memword);
break;
}
case 1:
if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT)
{
- FP_formats hold;
- hold = FPR_STATE[coproc_reg];
- FPR_STATE[coproc_reg] = fmt_word;
- value = (unsigned int)ValueFPR(coproc_reg,fmt_uninterpreted);
- FPR_STATE[coproc_reg] = hold;
+ value = (unsigned int)ValueFPR(coproc_reg,fmt_uninterpreted_32);
break;
}
case 1:
if (CURRENT_FLOATING_POINT == HARD_FLOATING_POINT)
{
- value = ValueFPR(coproc_reg,fmt_uninterpreted);
+ value = ValueFPR(coproc_reg,fmt_uninterpreted_64);
break;
}
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