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* Continuing sky R5900 / COP2 work. Added extra sanitize tags to hide 

128-bit MIPS part.

[ChangeLog]

Mon Mar 30 18:41:43 1998  Frank Ch. Eigler  <fche@cygnus.com>

	* interp.c (decode_coproc): Continuing COP2 work.
  	(cop_[ls]q): Hide 128-bit COP2 more.

	* sim-main.h (COP_[LS]Q): Hide 128-bit COP2 more.

[ChangeLog.sky]

Mon Mar 30 18:44:15 1998  Frank Ch. Eigler  <fche@cygnus.com>

	* sky-libvpe.c: Code too wide - ran indent on SCEI code.

	* sky-vu.h (vu0_busy*, vu0_macro*): New entry points for COP2
 	interface.

	* sky-vu.c (vu0_busy*, vu0_macro*): Stub functions for above.
This commit is contained in:
Frank Ch. Eigler 1998-03-30 23:56:52 +00:00
parent 0d3e84dd92
commit 6ed00b0607
3 changed files with 114 additions and 62 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

14
sim/mips/ChangeLog
View File

@ -1,3 +1,12 @@
start-sanitize-sky
Mon Mar 30 18:41:43 1998 Frank Ch. Eigler <fche@cygnus.com>
* interp.c (decode_coproc): Continuing COP2 work.
(cop_[ls]q): Hide 128-bit COP2 more.
* sim-main.h (COP_[LS]Q): Hide 128-bit COP2 more.
end-sanitize-sky
Mon Mar 30 14:46:05 1998 Gavin Koch <gavin@cygnus.com>
* configure.in (mipstx39*-*-*): Use gencode simulator rather
@ -30,13 +39,12 @@ start-sanitize-sky
* sim-main.h (status_CU[012]): Added COP[n]-enabled flags for
status register.
end-sanitize-sky
* interp.c (cop_lq, cop_sq): New functions for future 128-bit
access to coprocessor registers.
* sim-main.h (COP_LQ, COP_SQ): New macro front-ends for above.
end-sanitize-sky
Fri Mar 27 16:15:52 1998 Andrew Cagney <cagney@b1.cygnus.com>
* configure: Regenerated to track ../common/aclocal.m4 changes.

151
sim/mips/interp.c
View File

@ -3248,6 +3248,8 @@ cop_ld (SIM_DESC sd,
}
/* start-sanitize-sky */
#ifdef TARGET_SKY
void
cop_lq (SIM_DESC sd,
sim_cpu *cpu,
@ -3258,11 +3260,9 @@ cop_lq (SIM_DESC sd,
{
switch (coproc_num)
{
/* start-sanitize-sky */
case 2:
/* XXX COP2 */
break;
/* end-sanitize-sky */
default:
sim_io_printf(sd,"COP_LQ(%d,%d,??) at PC = 0x%s : TODO (architecture specific)\n",
@ -3272,6 +3272,8 @@ cop_lq (SIM_DESC sd,
return;
}
#endif /* TARGET_SKY */
/* end-sanitize-sky */
unsigned int
@ -3334,6 +3336,8 @@ cop_sd (SIM_DESC sd,
}
/* start-sanitize-sky */
#ifdef TARGET_SKY
unsigned128
cop_sq (SIM_DESC sd,
sim_cpu *cpu,
@ -3341,14 +3345,12 @@ cop_sq (SIM_DESC sd,
int coproc_num,
int coproc_reg)
{
unsigned128 value = {0, 0};
unsigned128 value = U16_8(0, 0);
switch (coproc_num)
{
/* start-sanitize-sky */
case 2:
/* XXX COP2 */
break;
/* end-sanitize-sky */
default:
sim_io_printf(sd,"COP_SQ(%d,%d) at PC = 0x%s : TODO (architecture specific)\n",
@ -3358,6 +3360,8 @@ cop_sq (SIM_DESC sd,
return(value);
}
#endif /* TARGET_SKY */
/* end-sanitize-sky */
void
@ -3513,9 +3517,9 @@ decode_coproc (SIM_DESC sd,
int i_15_11 = (instruction >> 11) & 0x1f;
int i_15_0 = instruction & 0xffff;
int i_10_1 = (instruction >> 1) & 0x3ff;
int i_5_0 = instruction & 0x03f;
int interlock = instruction & 0x01;
unsigned_4 vpe_status = sim_core_read_aligned_4 (cpu, cia, read_map, VPE0_STAT);
int vpe_busy = (vpe_status & 0x00000001);
int co = (instruction >> 25) & 0x01;
/* setup for semantic.c-like actions below */
typedef unsigned_4 instruction_word;
int CIA = cia;
@ -3535,91 +3539,128 @@ decode_coproc (SIM_DESC sd,
if(i_25_21 == 0x08 && i_20_16 == 0x00) /* BC2F */
{
address_word offset = EXTEND16(i_15_0) << 2;
if(! vpe_busy) DELAY_SLOT(cia + 4 + offset);
if(! vu0_busy()) DELAY_SLOT(cia + 4 + offset);
}
else if(i_25_21 == 0x08 && i_20_16==0x02) /* BC2FL */
{
address_word offset = EXTEND16(i_15_0) << 2;
if(! vpe_busy) DELAY_SLOT(cia + 4 + offset);
if(! vu0_busy()) DELAY_SLOT(cia + 4 + offset);
else NULLIFY_NEXT_INSTRUCTION();
}
else if(i_25_21 == 0x08 && i_20_16 == 0x01) /* BC2T */
{
address_word offset = EXTEND16(i_15_0) << 2;
if(vpe_busy) DELAY_SLOT(cia + 4 + offset);
if(vu0_busy()) DELAY_SLOT(cia + 4 + offset);
}
else if(i_25_21 == 0x08 && i_20_16 == 0x03) /* BC2TL */
{
address_word offset = EXTEND16(i_15_0) << 2;
if(vpe_busy) DELAY_SLOT(cia + 4 + offset);
if(vu0_busy()) DELAY_SLOT(cia + 4 + offset);
else NULLIFY_NEXT_INSTRUCTION();
}
else if((i_25_21 == 0x02 && i_10_1 == 0x000) || /* CFC2 */
(i_25_21 == 0x06 && i_10_1 == 0x000)) /* CTC2 */
(i_25_21 == 0x01)) /* QMFC2 */
{
int rt = i_20_16;
int id = i_15_11;
int to_vu = (i_25_21 == 0x06); /* transfer direction */
address_word vu_cr_addr; /* VU control register address */
unsigned_4 data;
if(interlock)
while(vpe_busy)
{
vu0_issue(sd); /* advance one clock cycle */
vpe_status = sim_core_read_aligned_4 (cpu, cia, read_map, VPE0_STAT);
vpe_busy = vpe_status & 0x00000001;
}
/* interlock checking */
if(vu0_busy_in_macro_mode()) /* busy in macro mode */
{
/* interlock bit invalid here */
if(interlock)
; /* XXX: warning */
/* always check data hazard */
while(vu0_macro_hazard_check(id))
vu0_issue(sd);
}
else if(vu0_busy_in_micro_mode() && interlock)
{
while(vu0_busy_in_micro_mode())
vu0_issue(sd);
}
/* compute VU register address */
vu_cr_addr = VU0_MST + (id * 16);
if(i_25_21 == 0x01) /* QMFC2 */
vu_cr_addr = VU0_VF00 + (id * 16);
else /* CFC2 */
vu_cr_addr = VU0_MST + (id * 16);
/* read or write word */
if(to_vu) /* CTC2 */
{
unsigned_4 data = GPR[rt];
sim_core_write_aligned_4(cpu, cia, write_map, vu_cr_addr, data);
}
else /* CFC2 */
{
unsigned_4 data = sim_core_read_aligned_4(cpu, cia, read_map, vu_cr_addr);
GPR[rt] = EXTEND64(data);
}
data = sim_core_read_aligned_4(cpu, cia, read_map, vu_cr_addr);
GPR[rt] = EXTEND64(data);
}
else if((i_25_21 == 0x01) || /* QMFC2 */
(i_25_21 == 0x05)) /* QMTC2 */
else if((i_25_21 == 0x06 && i_10_1 == 0x000) || /* CTC2 */
(i_25_21 == 0x05)) /* QMTC2 */
{
int rt = i_20_16;
int id = i_15_11;
int to_vu = (i_25_21 == 0x05); /* transfer direction */
address_word vu_cr_addr; /* VU control register address */
unsigned_4 data;
if(interlock)
while(vpe_busy)
{
vu0_issue(sd); /* advance one clock cycle */
vpe_status = sim_core_read_aligned_4 (cpu, cia, read_map, VPE0_STAT);
vpe_busy = vpe_status & 0x00000001;
}
/* interlock checking */
if(vu0_busy_in_macro_mode()) /* busy in macro mode */
{
/* interlock bit invalid here */
if(interlock)
; /* XXX: warning */
/* always check data hazard */
while(vu0_macro_hazard_check(id))
vu0_issue(sd);
}
else if(vu0_busy_in_micro_mode())
{
if(interlock)
{
while(! vu0_micro_interlock_released())
vu0_issue(sd);
}
}
/* compute VU register address */
vu_cr_addr = VU0_VF00 + (id * 16);
if(i_25_21 == 0x05) /* QMTC2 */
vu_cr_addr = VU0_VF00 + (id * 16);
else /* CTC2 */
vu_cr_addr = VU0_MST + (id * 16);
/* read or write word */
if(to_vu) /* CTC2 */
{
unsigned_4 data = GPR[rt];
sim_core_write_aligned_4(cpu, cia, write_map, vu_cr_addr, data);
}
else /* CFC2 */
{
unsigned_4 data = sim_core_read_aligned_4(cpu, cia, read_map, vu_cr_addr);
GPR[rt] = EXTEND64(data);
}
data = GPR[rt];
sim_core_write_aligned_4(cpu, cia, write_map, vu_cr_addr, data);
}
/* other COP2 instructions */
else if( 0 /* XXX: ... upper ... */)
{
unsigned_4 vu_upper, vu_lower;
vu_upper =
0x00000000 | /* bits 31 .. 25 */
instruction & 0x01ffffff; /* bits 24 .. 0 */
vu_lower = 0x8000033c; /* NOP */
while(vu0_busy_in_micro_mode())
vu0_issue(sd);
vu0_macro_issue(vu_upper, vu_lower);
}
else if( 0 /* XXX: ... lower ... */)
{
unsigned_4 vu_upper, vu_lower;
vu_upper = 0x000002ff; /* NOP */
vu_lower =
0x10000000 | /* bits 31 .. 25 */
instruction & 0x01ffffff; /* bits 24 .. 0 */
while(vu0_busy_in_micro_mode())
vu0_issue(sd);
vu0_macro_issue(vu_upper, vu_lower);
}
/* XXX */
/* ... other COP2 instructions ... */
else
{
SignalException(ReservedInstruction,instruction);
SignalException(ReservedInstruction, instruction);
/* NOTREACHED */
}

11
sim/mips/sim-main.h
View File

@ -763,23 +763,26 @@ void signal_exception (SIM_DESC sd, sim_cpu *cpu, address_word cia, int exceptio
void cop_lw PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg, unsigned int memword));
void cop_ld PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg, uword64 memword));
void cop_lq PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg, unsigned128 memword));
unsigned int cop_sw PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg));
uword64 cop_sd PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg));
unsigned128 cop_sq PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg));
#define COP_LW(coproc_num,coproc_reg,memword) \
cop_lw (SD, CPU, cia, coproc_num, coproc_reg, memword)
#define COP_LD(coproc_num,coproc_reg,memword) \
cop_ld (SD, CPU, cia, coproc_num, coproc_reg, memword)
#define COP_LQ(coproc_num,coproc_reg,memword) \
cop_lq (SD, CPU, cia, coproc_num, coproc_reg, memword)
#define COP_SW(coproc_num,coproc_reg) \
cop_sw (SD, CPU, cia, coproc_num, coproc_reg)
#define COP_SD(coproc_num,coproc_reg) \
cop_sd (SD, CPU, cia, coproc_num, coproc_reg)
/* start-sanitize-sky */
void cop_lq PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg, unsigned128 memword));
unsigned128 cop_sq PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, int coproc_num, int coproc_reg));
#define COP_LQ(coproc_num,coproc_reg,memword) \
cop_lq (SD, CPU, cia, coproc_num, coproc_reg, memword)
#define COP_SQ(coproc_num,coproc_reg) \
cop_sq (SD, CPU, cia, coproc_num, coproc_reg)
/* end-sanitize-sky */
void decode_coproc PARAMS ((SIM_DESC sd, sim_cpu *cpu, address_word cia, unsigned int instruction));
#define DecodeCoproc(instruction) \