// license:BSD-3-Clause
// copyright-holders:Olivier Galibert
#include "i6300esb.h"
const device_type I6300ESB_WATCHDOG = &device_creator<i6300esb_watchdog_device>;
const device_type I6300ESB_LPC = &device_creator<i6300esb_lpc_device>;
DEVICE_ADDRESS_MAP_START(map, 32, i6300esb_watchdog_device)
ADDRESS_MAP_END
i6300esb_watchdog_device::i6300esb_watchdog_device(const machine_config &mconfig, std::string tag, device_t *owner, UINT32 clock)
: pci_device(mconfig, I6300ESB_WATCHDOG, "i6300ESB southbridge watchdog", tag, owner, clock, "i6300esb_watchdog", __FILE__)
{
}
void i6300esb_watchdog_device::device_start()
{
pci_device::device_start();
add_map(16, M_MEM, FUNC(i6300esb_watchdog_device::map));
}
void i6300esb_watchdog_device::device_reset()
{
pci_device::device_reset();
command = 0x000f;
command_mask = 0x0140;
status = 0x0280;
}
DEVICE_ADDRESS_MAP_START(config_map, 32, i6300esb_lpc_device)
AM_RANGE(0x40, 0x43) AM_READWRITE (pmbase_r, pmbase_w)
AM_RANGE(0x44, 0x47) AM_READWRITE8 (acpi_cntl_r, acpi_cntl_w, 0x000000ff)
AM_RANGE(0x4c, 0x4f) AM_READWRITE16(bios_cntl_r, bios_cntl_w, 0xffff0000)
AM_RANGE(0x54, 0x57) AM_READWRITE8 (tco_cntl_r, tco_cntl_w, 0x000000ff)
AM_RANGE(0x58, 0x5b) AM_READWRITE (gpio_base_r, gpio_base_w)
AM_RANGE(0x5c, 0x5f) AM_READWRITE8 (gpio_cntl_r, gpio_cntl_w, 0x000000ff)
AM_RANGE(0x60, 0x63) AM_READWRITE8 (pirq_rout_r, pirq_rout_w, 0xffffffff)
AM_RANGE(0x64, 0x67) AM_READWRITE8 (serirq_cntl_r, serirq_cntl_w, 0x000000ff)
AM_RANGE(0x68, 0x6b) AM_READWRITE8 (pirq2_rout_r, pirq2_rout_w, 0xffffffff)
AM_RANGE(0x88, 0x8b) AM_READWRITE8 (d31_err_cfg_r, d31_err_cfg_w, 0x000000ff)
AM_RANGE(0x88, 0x8b) AM_READWRITE8 (d31_err_sts_r, d31_err_sts_w, 0x00ff0000)
AM_RANGE(0x90, 0x93) AM_READWRITE16(pci_dma_cfg_r, pci_dma_cfg_w, 0x0000ffff)
AM_RANGE(0xa0, 0xa3) AM_READWRITE16(gen_pmcon_1_r, gen_pmcon_1_w, 0x0000ffff)
AM_RANGE(0xa0, 0xa3) AM_READWRITE8 (gen_pmcon_2_r, gen_pmcon_2_w, 0x00ff0000)
AM_RANGE(0xa4, 0xa7) AM_READWRITE8 (gen_pmcon_3_r, gen_pmcon_3_w, 0x000000ff)
AM_RANGE(0xac, 0xaf) AM_READWRITE (rst_cnt2_r, rst_cnt2_w)
AM_RANGE(0xb0, 0xb3) AM_READWRITE8 (apm_cnt_r, apm_cnt_w, 0x00ff0000)
AM_RANGE(0xb0, 0xb3) AM_READWRITE8 (apm_sts_r, apm_sts_w, 0xff000000)
AM_RANGE(0xb8, 0xbb) AM_READWRITE (gpi_rout_r, gpi_rout_w)
AM_RANGE(0xc0, 0xc3) AM_READWRITE8 (mon_fwd_en_r, mon_fwd_en_w, 0x000000ff)
AM_RANGE(0xc4, 0xcb) AM_READWRITE16(mon_trp_rng_r, mon_trp_rng_w, 0xffffffff)
AM_RANGE(0xcc, 0xcf) AM_READWRITE16(mon_trp_msk_r, mon_trp_msk_w, 0x0000ffff)
AM_RANGE(0xd0, 0xd3) AM_READWRITE (gen_cntl_r, gen_cntl_w)
AM_RANGE(0xd4, 0xd7) AM_READWRITE8 (gen_sta_r, gen_sta_w, 0x000000ff)
AM_RANGE(0xd4, 0xd7) AM_READWRITE8 (back_cntl_r, back_cntl_w, 0x0000ff00)
AM_RANGE(0xd8, 0xdb) AM_READWRITE8 (rtc_conf_r, rtc_conf_w, 0x000000ff)
AM_RANGE(0xe0, 0xe3) AM_READWRITE8 (lpc_if_com_range_r, lpc_if_com_range_w, 0x000000ff)
AM_RANGE(0xe0, 0xe3) AM_READWRITE8 (lpc_if_fdd_lpt_range_r, lpc_if_fdd_lpt_range_w, 0x0000ff00)
AM_RANGE(0xe0, 0xe3) AM_READWRITE8 (lpc_if_sound_range_r, lpc_if_sound_range_w, 0x00ff0000)
AM_RANGE(0xe0, 0xe3) AM_READWRITE8 (fwh_dec_en1_r, fwh_dec_en1_w, 0xff000000)
AM_RANGE(0xe4, 0xe7) AM_READWRITE16(gen1_dec_r, gen1_dec_w, 0x0000ffff)
AM_RANGE(0xe4, 0xe7) AM_READWRITE16(lpc_en_r, lpc_en_w, 0xffff0000)
AM_RANGE(0xe8, 0xeb) AM_READWRITE (fwh_sel1_r, fwh_sel1_w)
AM_RANGE(0xec, 0xef) AM_READWRITE16(gen2_dec_r, gen2_dec_w, 0x0000ffff)
AM_RANGE(0xec, 0xef) AM_READWRITE16(fwh_sel2_r, fwh_sel2_w, 0xffff0000)
AM_RANGE(0xf0, 0xf3) AM_READWRITE8 (fwh_dec_en2_r, fwh_dec_en2_w, 0x000000ff)
AM_RANGE(0xf0, 0xf3) AM_READWRITE16(func_dis_r, func_dis_w, 0xffff0000)
AM_RANGE(0xf4, 0xf7) AM_READWRITE (etr1_r, etr1_w)
AM_RANGE(0xf8, 0xfb) AM_READ (mfid_r)
AM_RANGE(0xfc, 0xff) AM_READWRITE (unk_fc_r, unk_fc_w)
AM_INHERIT_FROM(pci_device::config_map)
ADDRESS_MAP_END
DEVICE_ADDRESS_MAP_START(internal_io_map, 32, i6300esb_lpc_device)
if(lpc_en & 0x2000) {
AM_RANGE(0x004c, 0x004f) AM_READWRITE8(siu_config_port_r, siu_config_port_w, 0x00ff0000)
AM_RANGE(0x004c, 0x004f) AM_READWRITE8(siu_data_port_r, siu_data_port_w, 0xff000000)
}
AM_RANGE(0x0060, 0x0063) AM_READWRITE8( nmi_sc_r, nmi_sc_w, 0x0000ff00)
AM_RANGE(0x0080, 0x0083) AM_WRITE8( nop_w, 0x000000ff) // POST/non-existing, used for delays by the bios/os
AM_RANGE(0x00ec, 0x00ef) AM_WRITE8( nop_w, 0x0000ff00) // Non-existing, used for delays by the bios/os
ADDRESS_MAP_END
i6300esb_lpc_device::i6300esb_lpc_device(const machine_config &mconfig, std::string tag, device_t *owner, UINT32 clock)
: pci_device(mconfig, I6300ESB_LPC, "i6300ESB southbridge ISA/LPC bridge", tag, owner, clock, "i6300esb_lpc", __FILE__),
acpi(*this, "acpi"),
rtc (*this, "rtc"),
pit (*this, "pit")
{
}
void i6300esb_lpc_device::device_start()
{
pci_device::device_start();
}
void i6300esb_lpc_device::device_reset()
{
pci_device::device_reset();
tco_cntl = 0x00;
serirq_cntl = 0x10;
memset(pirq_rout, 0x80, sizeof(pirq_rout));
d31_err_cfg = 0x00;
d31_err_sts = 0x00;
pci_dma_cfg = 0x0000;
func_dis = 0x0080;
etr1 = 0x00000000;
siu_config_port = 0;
siu_config_state = 0;
gen_pmcon_1 = 0;
gen_pmcon_2 = 0;
gen_pmcon_3 = 0;
rst_cnt2 = 0;
apm_cnt = 0;
apm_sts = 0;
gpi_rout = 0;
mon_fwd_en = 0;
memset(mon_trp_rng, 0, sizeof(mon_trp_rng));
mon_trp_msk = 0;
nmi_sc = 0;
gen_sta = 0x00;
}
void i6300esb_lpc_device::reset_all_mappings()
{
pci_device::reset_all_mappings();
pmbase = 0;
acpi_cntl = 0;
gpio_base = 0;
gpio_cntl = 0x00;
back_cntl = 0x0f;
lpc_if_com_range = 0x00;
lpc_if_fdd_lpt_range = 0x00;
lpc_if_sound_range = 0x00;
fwh_dec_en1 = 0xff;
fwh_dec_en2 = 0x0f;
gen1_dec = 0x0000;
lpc_en = 0x0000;
fwh_sel1 = 0x00112233;
gen_cntl = 0x00000080;
rtc_conf = 0x00;
}
READ32_MEMBER (i6300esb_lpc_device::pmbase_r)
{
return pmbase | 1;
}
WRITE32_MEMBER(i6300esb_lpc_device::pmbase_w)
{
COMBINE_DATA(&pmbase);
pmbase &= 0x0000ff80;
logerror("%s: pmbase = %08x\n", tag().c_str(), pmbase);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::acpi_cntl_r)
{
return acpi_cntl;
}
WRITE8_MEMBER(i6300esb_lpc_device::acpi_cntl_w)
{
acpi_cntl = data;
logerror("%s: acpi_cntl = %08x\n", tag().c_str(), acpi_cntl);
remap_cb();
}
READ16_MEMBER (i6300esb_lpc_device::bios_cntl_r)
{
return pmbase | 1;
}
WRITE16_MEMBER(i6300esb_lpc_device::bios_cntl_w)
{
COMBINE_DATA(&bios_cntl);
logerror("%s: bios_cntl = %08x\n", tag().c_str(), bios_cntl);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::tco_cntl_r)
{
return tco_cntl;
}
WRITE8_MEMBER (i6300esb_lpc_device::tco_cntl_w)
{
tco_cntl = data;
logerror("%s: tco_cntl = %02x\n", tag().c_str(), tco_cntl);
}
READ32_MEMBER (i6300esb_lpc_device::gpio_base_r)
{
return gpio_base | 1;
}
WRITE32_MEMBER(i6300esb_lpc_device::gpio_base_w)
{
COMBINE_DATA(&gpio_base);
gpio_base &= 0x0000ffc0;
logerror("%s: gpio_base = %08x\n", tag().c_str(), gpio_base);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::gpio_cntl_r)
{
return gpio_cntl;
}
WRITE8_MEMBER (i6300esb_lpc_device::gpio_cntl_w)
{
gpio_cntl = data;
logerror("%s: gpio_cntl = %02x\n", tag().c_str(), gpio_cntl);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::pirq_rout_r)
{
return pirq_rout[offset];
}
WRITE8_MEMBER (i6300esb_lpc_device::pirq_rout_w)
{
pirq_rout[offset] = data;
logerror("%s: pirq_rout[%d] = %02x\n", tag().c_str(), offset, pirq_rout[offset]);
}
READ8_MEMBER (i6300esb_lpc_device::serirq_cntl_r)
{
return serirq_cntl;
}
WRITE8_MEMBER (i6300esb_lpc_device::serirq_cntl_w)
{
serirq_cntl = data;
logerror("%s: serirq_cntl = %02x\n", tag().c_str(), serirq_cntl);
}
READ8_MEMBER (i6300esb_lpc_device::pirq2_rout_r)
{
return pirq_rout_r(space, offset+4);
}
WRITE8_MEMBER (i6300esb_lpc_device::pirq2_rout_w)
{
pirq_rout_w(space, offset+4, data);
}
READ8_MEMBER (i6300esb_lpc_device::d31_err_cfg_r)
{
return d31_err_cfg;
}
WRITE8_MEMBER (i6300esb_lpc_device::d31_err_cfg_w)
{
d31_err_cfg = data;
logerror("%s: d31_err_cfg = %02x\n", tag().c_str(), d31_err_cfg);
}
READ8_MEMBER (i6300esb_lpc_device::d31_err_sts_r)
{
return d31_err_sts;
}
WRITE8_MEMBER (i6300esb_lpc_device::d31_err_sts_w)
{
d31_err_sts &= ~data;
logerror("%s: d31_err_sts = %02x\n", tag().c_str(), d31_err_sts);
}
READ16_MEMBER (i6300esb_lpc_device::pci_dma_cfg_r)
{
return pci_dma_cfg;
}
WRITE16_MEMBER(i6300esb_lpc_device::pci_dma_cfg_w)
{
COMBINE_DATA(&pci_dma_cfg);
logerror("%s: pci_dma_cfg = %04x\n", tag().c_str(), pci_dma_cfg);
}
READ16_MEMBER (i6300esb_lpc_device::gen_pmcon_1_r)
{
return gen_pmcon_1;
}
WRITE16_MEMBER(i6300esb_lpc_device::gen_pmcon_1_w)
{
COMBINE_DATA(&gen_pmcon_1);
logerror("%s: gen_pmcon_1 = %04x\n", tag().c_str(), gen_pmcon_1);
}
READ8_MEMBER (i6300esb_lpc_device::gen_pmcon_2_r)
{
return gen_pmcon_2;
}
WRITE8_MEMBER (i6300esb_lpc_device::gen_pmcon_2_w)
{
gen_pmcon_2 = data;
logerror("%s: gen_pmcon_2 = %02x\n", tag().c_str(), gen_pmcon_2);
}
READ8_MEMBER (i6300esb_lpc_device::gen_pmcon_3_r)
{
return gen_pmcon_3;
}
WRITE8_MEMBER (i6300esb_lpc_device::gen_pmcon_3_w)
{
gen_pmcon_3 = data;
logerror("%s: gen_pmcon_3 = %02x\n", tag().c_str(), gen_pmcon_3);
}
READ32_MEMBER (i6300esb_lpc_device::rst_cnt2_r)
{
return rst_cnt2;
}
WRITE32_MEMBER(i6300esb_lpc_device::rst_cnt2_w)
{
COMBINE_DATA(&rst_cnt2);
logerror("%s: rst_cnt2 = %08x\n", tag().c_str(), rst_cnt2);
}
READ8_MEMBER (i6300esb_lpc_device::apm_cnt_r)
{
return apm_cnt;
}
WRITE8_MEMBER (i6300esb_lpc_device::apm_cnt_w)
{
apm_cnt = data;
logerror("%s: apm_cnt = %02x\n", tag().c_str(), apm_cnt);
}
READ8_MEMBER (i6300esb_lpc_device::apm_sts_r)
{
return apm_sts;
}
WRITE8_MEMBER (i6300esb_lpc_device::apm_sts_w)
{
apm_sts = data;
logerror("%s: apm_sts = %02x\n", tag().c_str(), apm_sts);
}
READ32_MEMBER (i6300esb_lpc_device::gpi_rout_r)
{
return gpi_rout;
}
WRITE32_MEMBER(i6300esb_lpc_device::gpi_rout_w)
{
COMBINE_DATA(&gpi_rout);
logerror("%s: gpi_rout = %08x\n", tag().c_str(), gpi_rout);
}
READ8_MEMBER (i6300esb_lpc_device::mon_fwd_en_r)
{
return mon_fwd_en;
}
WRITE8_MEMBER (i6300esb_lpc_device::mon_fwd_en_w)
{
mon_fwd_en = data;
logerror("%s: mon_fwd_en = %02x\n", tag().c_str(), mon_fwd_en);
}
READ16_MEMBER (i6300esb_lpc_device::mon_trp_rng_r)
{
return mon_trp_rng[offset];
}
WRITE16_MEMBER(i6300esb_lpc_device::mon_trp_rng_w)
{
COMBINE_DATA(&mon_trp_rng[offset]);
logerror("%s: mon_trp_rng[%d] = %04x\n", tag().c_str(), 4+offset, mon_trp_rng[offset]);
}
READ16_MEMBER (i6300esb_lpc_device::mon_trp_msk_r)
{
return mon_trp_msk;
}
WRITE16_MEMBER(i6300esb_lpc_device::mon_trp_msk_w)
{
COMBINE_DATA(&mon_trp_msk);
logerror("%s: mon_trp_msk = %04x\n", tag().c_str(), mon_trp_msk);
}
READ32_MEMBER (i6300esb_lpc_device::gen_cntl_r)
{
return gen_cntl;
}
WRITE32_MEMBER(i6300esb_lpc_device::gen_cntl_w)
{
COMBINE_DATA(&gen_cntl);
logerror("%s: gen_cntl = %08x\n", tag().c_str(), gen_cntl);
}
READ8_MEMBER (i6300esb_lpc_device::gen_sta_r)
{
return gen_sta;
}
WRITE8_MEMBER (i6300esb_lpc_device::gen_sta_w)
{
gen_sta = data;
logerror("%s: gen_sta = %02x\n", tag().c_str(), gen_sta);
}
READ8_MEMBER (i6300esb_lpc_device::back_cntl_r)
{
return back_cntl;
}
WRITE8_MEMBER (i6300esb_lpc_device::back_cntl_w)
{
back_cntl = data;
logerror("%s: back_cntl = %02x\n", tag().c_str(), back_cntl);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::rtc_conf_r)
{
return rtc_conf;
}
WRITE8_MEMBER (i6300esb_lpc_device::rtc_conf_w)
{
rtc_conf = data;
logerror("%s: rtc_conf = %02x\n", tag().c_str(), rtc_conf);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::lpc_if_com_range_r)
{
return lpc_if_com_range;
}
WRITE8_MEMBER (i6300esb_lpc_device::lpc_if_com_range_w)
{
lpc_if_com_range = data;
logerror("%s: lpc_if_com_range = %02x\n", tag().c_str(), lpc_if_com_range);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::lpc_if_fdd_lpt_range_r)
{
return lpc_if_fdd_lpt_range;
}
WRITE8_MEMBER (i6300esb_lpc_device::lpc_if_fdd_lpt_range_w)
{
COMBINE_DATA(&lpc_if_fdd_lpt_range);
logerror("%s: lpc_if_fdd_lpt_range = %02x\n", tag().c_str(), lpc_if_fdd_lpt_range);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::lpc_if_sound_range_r)
{
return lpc_if_sound_range;
}
WRITE8_MEMBER (i6300esb_lpc_device::lpc_if_sound_range_w)
{
COMBINE_DATA(&lpc_if_sound_range);
logerror("%s: lpc_if_sound_range = %02x\n", tag().c_str(), lpc_if_sound_range);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::fwh_dec_en1_r)
{
return fwh_dec_en1;
}
WRITE8_MEMBER (i6300esb_lpc_device::fwh_dec_en1_w)
{
fwh_dec_en1 = data | 0x80;
logerror("%s: fwh_dec_en1 = %02x\n", tag().c_str(), fwh_dec_en1);
remap_cb();
}
READ16_MEMBER (i6300esb_lpc_device::gen1_dec_r)
{
return gen1_dec;
}
WRITE16_MEMBER(i6300esb_lpc_device::gen1_dec_w)
{
COMBINE_DATA(&gen1_dec);
logerror("%s: gen1_dec = %04x\n", tag().c_str(), gen1_dec);
remap_cb();
}
READ16_MEMBER (i6300esb_lpc_device::lpc_en_r)
{
return lpc_en;
}
WRITE16_MEMBER(i6300esb_lpc_device::lpc_en_w)
{
COMBINE_DATA(&lpc_en);
logerror("%s: lpc_en = %04x\n", tag().c_str(), lpc_en);
remap_cb();
}
READ32_MEMBER (i6300esb_lpc_device::fwh_sel1_r)
{
return fwh_sel1;
}
WRITE32_MEMBER(i6300esb_lpc_device::fwh_sel1_w)
{
COMBINE_DATA(&fwh_sel1);
logerror("%s: fwh_sel1 = %08x\n", tag().c_str(), fwh_sel1);
remap_cb();
}
READ16_MEMBER (i6300esb_lpc_device::gen2_dec_r)
{
return gen2_dec;
}
WRITE16_MEMBER(i6300esb_lpc_device::gen2_dec_w)
{
COMBINE_DATA(&gen2_dec);
logerror("%s: gen2_dec = %04x\n", tag().c_str(), gen2_dec);
remap_cb();
}
READ16_MEMBER (i6300esb_lpc_device::fwh_sel2_r)
{
return fwh_sel2;
}
WRITE16_MEMBER(i6300esb_lpc_device::fwh_sel2_w)
{
COMBINE_DATA(&fwh_sel2);
logerror("%s: fwh_sel2 = %04x\n", tag().c_str(), fwh_sel2);
remap_cb();
}
READ8_MEMBER (i6300esb_lpc_device::fwh_dec_en2_r)
{
return fwh_dec_en2;
}
WRITE8_MEMBER (i6300esb_lpc_device::fwh_dec_en2_w)
{
fwh_dec_en2 = data;
logerror("%s: fwh_dec_en2 = %02x\n", tag().c_str(), fwh_dec_en2);
remap_cb();
}
READ16_MEMBER (i6300esb_lpc_device::func_dis_r)
{
return func_dis;
}
WRITE16_MEMBER(i6300esb_lpc_device::func_dis_w)
{
COMBINE_DATA(&func_dis);
logerror("%s: func_dis = %04x\n", tag().c_str(), func_dis);
}
READ32_MEMBER (i6300esb_lpc_device::etr1_r)
{
return etr1;
}
WRITE32_MEMBER(i6300esb_lpc_device::etr1_w)
{
COMBINE_DATA(&etr1);
logerror("%s: etr1 = %08x\n", tag().c_str(), etr1);
}
READ32_MEMBER (i6300esb_lpc_device::mfid_r)
{
return 0xf66;
}
READ32_MEMBER (i6300esb_lpc_device::unk_fc_r)
{
logerror("%s: read undocumented config reg fc\n", tag().c_str());
return 0;
}
WRITE32_MEMBER(i6300esb_lpc_device::unk_fc_w)
{
logerror("%s: write undocumented config reg fc (%08x)\n", tag().c_str(), data);
}
READ8_MEMBER (i6300esb_lpc_device::siu_config_port_r)
{
return siu_config_port;
}
WRITE8_MEMBER (i6300esb_lpc_device::siu_config_port_w)
{
siu_config_port = data;
switch(siu_config_state) {
case 0:
siu_config_state = data == 0x80 ? 1 : 0;
break;
case 1:
siu_config_state = data == 0x86 ? 2 : data == 0x80 ? 1 : 0;
if(siu_config_state == 2)
logerror("%s: siu configuration active\n", tag().c_str());
break;
case 2:
siu_config_state = data == 0x68 ? 3 : 2;
break;
case 3:
siu_config_state = data == 0x08 ? 0 : data == 0x68 ? 3 : 2;
if(!siu_config_state)
logerror("%s: siu configuration disabled\n", tag().c_str());
break;
}
}
READ8_MEMBER (i6300esb_lpc_device::siu_data_port_r)
{
logerror("%s: siu config read port %02x\n", tag().c_str(), siu_config_port);
return 0xff;
}
WRITE8_MEMBER (i6300esb_lpc_device::siu_data_port_w)
{
if(siu_config_state < 2) {
logerror("%s: siu config write port with config disabled (port=%02x, data=%02x)\n", tag().c_str(), siu_config_port, data);
return;
}
logerror("%s: siu config write port %02x, %02x\n", tag().c_str(), siu_config_port, data);
}
READ8_MEMBER (i6300esb_lpc_device::nmi_sc_r)
{
nmi_sc ^= 0x10;
return nmi_sc;
}
WRITE8_MEMBER (i6300esb_lpc_device::nmi_sc_w)
{
nmi_sc = data;
logerror("%s: nmi_sc = %02x\n", tag().c_str(), nmi_sc);
}
WRITE8_MEMBER (i6300esb_lpc_device::nop_w)
{
}
void i6300esb_lpc_device::map_bios(address_space *memory_space, UINT32 start, UINT32 end, int idsel)
{
// Ignore idsel, a16 inversion for now
UINT32 mask = m_region->bytes() - 1;
memory_space->install_rom(start, end, m_region->base() + (start & mask));
}
void i6300esb_lpc_device::map_extra(UINT64 memory_window_start, UINT64 memory_window_end, UINT64 memory_offset, address_space *memory_space,
UINT64 io_window_start, UINT64 io_window_end, UINT64 io_offset, address_space *io_space)
{
if(fwh_dec_en1 & 0x80) {
map_bios(memory_space, 0xfff80000, 0xffffffff, 7);
map_bios(memory_space, 0xffb80000, 0xffbfffff, 7);
map_bios(memory_space, 0x000e0000, 0x000fffff, 7);
}
if(fwh_dec_en1 & 0x40) {
map_bios(memory_space, 0xfff00000, 0xfff7ffff, 6);
map_bios(memory_space, 0xffb00000, 0xffb7ffff, 6);
}
if(fwh_dec_en1 & 0x20) {
map_bios(memory_space, 0xffe80000, 0xffefffff, 5);
map_bios(memory_space, 0xffa80000, 0xffafffff, 5);
}
if(fwh_dec_en1 & 0x10) {
map_bios(memory_space, 0xffe00000, 0xffe7ffff, 4);
map_bios(memory_space, 0xffa00000, 0xffa7ffff, 4);
}
if(fwh_dec_en1 & 0x08) {
map_bios(memory_space, 0xffd80000, 0xffdfffff, 3);
map_bios(memory_space, 0xff980000, 0xff9fffff, 3);
}
if(fwh_dec_en1 & 0x04) {
map_bios(memory_space, 0xffd00000, 0xffd7ffff, 2);
map_bios(memory_space, 0xff900000, 0xff97ffff, 2);
}
if(fwh_dec_en1 & 0x02) {
map_bios(memory_space, 0xffc80000, 0xffcfffff, 1);
map_bios(memory_space, 0xff880000, 0xff8fffff, 1);
}
if(fwh_dec_en1 & 0x01) {
map_bios(memory_space, 0xffc00000, 0xffc7ffff, 0);
map_bios(memory_space, 0xff800000, 0xff87ffff, 0);
}
io_space->install_device(0, 0xffff, *this, &i6300esb_lpc_device::internal_io_map);
if(acpi_cntl & 0x10)
acpi->map_device(memory_window_start, memory_window_end, 0, memory_space, io_window_start, io_window_end, pmbase, io_space);
if(gpio_cntl & 0x10)
logerror("%s: Warning: gpio range enabled at %04x-%04x\n", tag().c_str(), gpio_base, gpio_base+63);
UINT32 hpet = 0xfed00000 + ((gen_cntl & 0x00018000) >> 3);
logerror("%s: Warning: hpet at %08x-%08x\n", tag().c_str(), hpet, hpet+0x3ff);
if(lpc_en & 0x1000)
logerror("%s: Warning: superio at 2e-2f\n", tag().c_str());
if(lpc_en & 0x0800)
logerror("%s: Warning: mcu at 62/66\n", tag().c_str());
if(lpc_en & 0x0400)
logerror("%s: Warning: mcu at 60/64\n", tag().c_str());
if(lpc_en & 0x0200)
logerror("%s: Warning: gameport at 208-20f\n", tag().c_str());
if(lpc_en & 0x0100)
logerror("%s: Warning: gameport at 200-207\n", tag().c_str());
if(lpc_en & 0x0008) {
UINT16 fdc = lpc_if_fdd_lpt_range & 0x10 ? 0x370 : 0x3f0;
logerror("%s: Warning: floppy at %04x-%04x\n", tag().c_str(), fdc, fdc+7);
}
if(lpc_en & 0x0004) {
static const UINT16 lpt_pos[4] = { 0x378, 0x278, 0x3bc, 0x000 };
UINT16 lpt = lpt_pos[lpc_if_fdd_lpt_range & 3];
if(lpt)
logerror("%s: Warning: lpt at %04x-%04x %04x-%04x\n", tag().c_str(), lpt, lpt+7, lpt+0x400, lpt+0x407);
}
static const UINT16 com_pos[8] = { 0x3f8, 0x2f8, 0x220, 0x228, 0x238, 0x2e8, 0x338, 0x3e8 };
if(lpc_en & 0x0002) {
UINT16 comb = com_pos[(lpc_if_com_range >> 4) & 7];
logerror("%s: Warning: comb at %04x-%04x\n", tag().c_str(), comb, comb+7);
}
if(lpc_en & 0x0001) {
UINT16 coma = com_pos[lpc_if_com_range & 7];
logerror("%s: Warning: coma at %04x-%04x\n", tag().c_str(), coma, coma+7);
}
rtc->map_device(memory_window_start, memory_window_end, 0, memory_space, io_window_start, io_window_end, 0, io_space);
if(rtc_conf & 4)
rtc->map_extdevice(memory_window_start, memory_window_end, 0, memory_space, io_window_start, io_window_end, 0, io_space);
pit->map_device(memory_window_start, memory_window_end, 0, memory_space, io_window_start, io_window_end, 0, io_space);
}