// license:BSD-3-Clause
// copyright-holders:David Haywood
/* 68307 SIM module */
#include "emu.h"
#include "68307.h"
READ16_MEMBER( m68307cpu_device::m68307_internal_sim_r )
{
m68307cpu_device *m68k = this;
m68307_sim* sim = m68k->m68307SIM;
assert(sim != nullptr);
int pc = space.device().safe_pc();
if (sim)
{
switch (offset<<1)
{
case m68307SIM_PADAT: return sim->read_padat(this, space, mem_mask);
case m68307SIM_PBDAT: return sim->read_pbdat(this, space, mem_mask);
case m68307SIM_LICR2: return (sim->m_licr2);
case m68307SIM_BR0: return (sim->m_br[0]);
case m68307SIM_OR0: return (sim->m_or[0]);
case m68307SIM_BR1: return (sim->m_br[1]);
case m68307SIM_OR1: return (sim->m_or[1]);
case m68307SIM_BR2: return (sim->m_br[2]);
case m68307SIM_OR2: return (sim->m_or[2]);
case m68307SIM_BR3: return (sim->m_br[3]);
case m68307SIM_OR3: return (sim->m_or[3]);
default:
logerror("%08x m68307_internal_sim_r %08x, (%04x)\n", pc, offset*2,mem_mask);
return 0xff;
}
}
return 0x0000;
}
WRITE16_MEMBER( m68307cpu_device::m68307_internal_sim_w )
{
m68307cpu_device *m68k = this;
m68307_sim* sim = m68k->m68307SIM;
assert(sim != nullptr);
int pc = space.device().safe_pc();
if (sim)
{
switch (offset<<1)
{
case m68307SIM_PACNT:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Port A (8-bit) Control Register - PACNT)\n", pc, offset*2,data,mem_mask);
sim->write_pacnt(data,mem_mask);
break;
case m68307SIM_PADDR:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Port A (8-bit) Direction Register - PADDR)\n", pc, offset*2,data,mem_mask);
sim->write_paddr(data,mem_mask);
break;
case m68307SIM_PADAT:
sim->write_padat(this, space, data,mem_mask);
break;
case m68307SIM_PBCNT:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Port B (16-bit) Control Register - PBCNT)\n", pc, offset*2,data,mem_mask);
sim->write_pbcnt(data,mem_mask);
break;
case m68307SIM_PBDDR:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Port B (16-bit) Direction Register - PBDDR)\n", pc, offset*2,data,mem_mask);
sim->write_pbddr(data,mem_mask);
break;
case m68307SIM_PBDAT:
sim->write_pbdat(this, space, data, mem_mask);
break;
case m68307SIM_LICR1:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Latched Interrupt Control Register 1 - LICR1)\n", pc, offset*2,data,mem_mask);
sim->write_licr1(this,data,mem_mask);
break;
case m68307SIM_LICR2:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Latched Interrupt Control Register 2 - LICR2)\n", pc, offset*2,data,mem_mask);
sim->write_licr2(this,data,mem_mask);
break;
case m68307SIM_PICR:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Peripheral Interrupt Control Register - PICR)\n", pc, offset*2,data,mem_mask);
sim->write_picr(this,data,mem_mask);
break;
case m68307SIM_PIVR:
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x) (Peripheral Interrupt Vector Register - PIVR)\n", pc, offset*2,data,mem_mask);
sim->write_pivr(this,data,mem_mask);
break;
case m68307SIM_BR0:
COMBINE_DATA(&sim->m_br[0]);
break;
case m68307SIM_OR0:
COMBINE_DATA(&sim->m_or[0]);
break;
case m68307SIM_BR1:
COMBINE_DATA(&sim->m_br[1]);
break;
case m68307SIM_OR1:
COMBINE_DATA(&sim->m_or[1]);
break;
case m68307SIM_BR2:
COMBINE_DATA(&sim->m_br[2]);
break;
case m68307SIM_OR2:
COMBINE_DATA(&sim->m_or[2]);
break;
case m68307SIM_BR3:
COMBINE_DATA(&sim->m_br[3]);
break;
case m68307SIM_OR3:
COMBINE_DATA(&sim->m_or[3]);
break;
default :
logerror("%08x m68307_internal_sim_w %08x, %04x (%04x)\n", pc, offset*2,data,mem_mask);
break;
}
}
}
void m68307_sim::write_pacnt(UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_pacnt);
}
void m68307_sim::write_paddr(UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_paddr);
}
UINT16 m68307_sim::read_padat(m68307cpu_device* m68k, address_space &space, UINT16 mem_mask)
{
int pc = space.device().safe_pc();
if (!m68k->m_m68307_porta_r.isnull())
{
// for general purpose bits, if configured as 'output' then anything output gets latched
// and anything configured as input is read from the port
UINT8 outputbits = m_paddr;
UINT8 inputbits = ~m_paddr;
UINT8 general_purpose_bits = ~m_pacnt;
UINT8 indat = m68k->m_m68307_porta_r(space, false, (inputbits & general_purpose_bits)&mem_mask) & ((inputbits & general_purpose_bits) & mem_mask); // read general purpose input lines
indat |= m68k->m_m68307_porta_r(space, true, (inputbits & ~general_purpose_bits)&mem_mask) & ((inputbits & ~general_purpose_bits)& mem_mask); // read dedicated input lines
UINT8 outdat = (m_padat & outputbits) & general_purpose_bits; // read general purpose output lines (reads latched data)
return (indat | outdat);
}
else
{
m68k->logerror("%08x m68307_internal_sim_r (%04x) (Port A (8-bit) Data Register - PADAT)\n", pc, mem_mask);
}
return 0xffff;
}
void m68307_sim::write_padat(m68307cpu_device* m68k, address_space &space, UINT16 data, UINT16 mem_mask)
{
int pc = space.device().safe_pc();
COMBINE_DATA(&m_padat);
if (!m68k->m_m68307_porta_w.isnull())
{
m68k->m_m68307_porta_w(space, false, data, 0xff);
}
else
{
m68k->logerror("%08x m68307_internal_sim_w %04x (%04x) (Port A (8-bit) Data Register - PADAT)\n", pc, data,mem_mask);
}
}
void m68307_sim::write_pbcnt(UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_pbcnt);
}
void m68307_sim::write_pbddr(UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_pbddr);
}
UINT16 m68307_sim::read_pbdat(m68307cpu_device* m68k, address_space &space, UINT16 mem_mask)
{
int pc = space.device().safe_pc();
if (!m68k->m_m68307_portb_r.isnull())
{
// for general purpose bits, if configured as 'output' then anything output gets latched
// and anything configured as input is read from the port
UINT16 outputbits = m_pbddr;
UINT16 inputbits = ~m_pbddr;
UINT16 general_purpose_bits = ~m_pbcnt;
UINT16 indat = m68k->m_m68307_portb_r(space, false, (inputbits & general_purpose_bits)&mem_mask) & ((inputbits & general_purpose_bits) & mem_mask); // read general purpose input lines
indat |= m68k->m_m68307_portb_r(space, true, (inputbits & ~general_purpose_bits)&mem_mask) & ((inputbits & ~general_purpose_bits)& mem_mask); // read dedicated input lines
UINT16 outdat = (m_pbdat & outputbits) & general_purpose_bits; // read general purpose output lines (reads latched data)
return (indat | outdat);
}
else
{
m68k->logerror("%08x m68307_internal_sim_r (%04x) (Port B (16-bit) Data Register - PBDAT)\n", pc, mem_mask);
}
return 0xffff;
}
void m68307_sim::write_pbdat(m68307cpu_device* m68k, address_space &space, UINT16 data, UINT16 mem_mask)
{
int pc = space.device().safe_pc();
COMBINE_DATA(&m_pbdat);
if (!m68k->m_m68307_portb_w.isnull())
{
m68k->m_m68307_portb_w(space, false, data, mem_mask);
}
else
{
m68k->logerror("%08x m68307_internal_sim_w %04x (%04x) (Port B (16-bit) Data Register - PBDAT)\n", pc, data,mem_mask);
}
}
void m68307_sim::write_licr1(m68307cpu_device* m68k, UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_licr1);
data = m_licr1;
m68k->logerror("m_licr1 value %04x : Details :\n", data);
m68k->logerror("int4ipl %01x\n", (data>>0)&7);
m68k->logerror("pir4 %01x\n", (data>>3)&1);
m68k->logerror("int3ipl %01x\n", (data>>4)&7);
m68k->logerror("pir3 %01x\n", (data>>7)&1);
m68k->logerror("int2ipl %01x\n", (data>>8)&7);
m68k->logerror("pir2 %01x\n", (data>>11)&1);
m68k->logerror("int1ipl %01x\n", (data>>12)&7);
m68k->logerror("pir1 %01x\n", (data>>15)&1);
m68k->logerror("\n");
}
void m68307_sim::write_licr2(m68307cpu_device* m68k, UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_licr2);
UINT16 newdata = m_licr2;
m68k->logerror("m_licr2 value %04x : Details :\n", newdata);
m68k->logerror("int8ipl %01x\n", (newdata>>0)&7);
m68k->logerror("pir8 %01x\n", (newdata>>3)&1);
m68k->logerror("int7ipl %01x\n", (newdata>>4)&7);
m68k->logerror("pir7 %01x\n", (newdata>>7)&1);
m68k->logerror("int6ipl %01x\n", (newdata>>8)&7);
m68k->logerror("pir6 %01x\n", (newdata>>11)&1);
m68k->logerror("int5ipl %01x\n", (newdata>>12)&7);
m68k->logerror("pir5 %01x\n", (newdata>>15)&1);
m68k->logerror("\n");
if (data & 0x0008) m_licr2 = m_licr2 & ~0x0008;
if (data & 0x0080) m_licr2 = m_licr2 & ~0x0080;
if (data & 0x0800) m_licr2 = m_licr2 & ~0x0800;
if (data & 0x8000) m_licr2 = m_licr2 & ~0x8000;
}
void m68307_sim::write_picr(m68307cpu_device* m68k, UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_picr);
data = m_picr;
m68k->logerror("picr value %04x : Details :\n", data);
m68k->logerror("mbipl %01x\n", (data>>0)&7);
m68k->logerror("uaipl %01x\n", (data>>4)&7);
m68k->logerror("t2ipl %01x\n", (data>>8)&7);
m68k->logerror("t1ipl %01x\n", (data>>12)&7);
m68k->logerror("\n");
}
void m68307_sim::write_pivr(m68307cpu_device* m68k, UINT16 data, UINT16 mem_mask)
{
COMBINE_DATA(&m_pivr);
data = m_pivr;
m68k->logerror("pivr value %04x : Details :\n", data);
m68k->logerror("unused %01x\n", (data>>0)&0xf);
m68k->logerror("high vector %01x\n", (data>>4)&0xf);
}
void m68307_sim::reset(void)
{
for (int i=0;i<4;i++)
{
m_br[i] = 0xc001;
m_or[i] = 0xdffd;
}
}