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|
// license:BSD-3-Clause
// copyright-holders:Patrick Mackinlay
/*
* Sony NEWS M68K systems.
*
* Sources:
* - http://wiki.netbsd.org/ports/news68k/
*
* TODO:
* - mouse/keyboard
* - graphics/slots
*/
#include "emu.h"
#include "cpu/m68000/m68000.h"
// memory
#include "machine/ram.h"
// various hardware
#include "machine/timekpr.h"
#include "machine/z80scc.h"
#include "machine/am79c90.h"
#include "machine/upd765.h"
#include "machine/dmac_0266.h"
#include "machine/news_hid.h"
#include "machine/ncr5380.h"
// video
#include "screen.h"
#include "video/bt45x.h"
// busses and connectors
#include "machine/nscsi_bus.h"
#include "bus/nscsi/cd.h"
#include "bus/nscsi/hd.h"
#include "bus/rs232/rs232.h"
#include "machine/input_merger.h"
#include "imagedev/floppy.h"
#include "formats/pc_dsk.h"
#include "debugger.h"
#define VERBOSE 0
#include "logmacro.h"
#define GRAPHICS 0
class news_68k_state : public driver_device
{
public:
news_68k_state(machine_config const &mconfig, device_type type, char const *tag)
: driver_device(mconfig, type, tag)
, m_cpu(*this, "cpu")
, m_ram(*this, "ram")
, m_dma(*this, "dma")
, m_rtc(*this, "rtc")
, m_scc(*this, "scc")
, m_net(*this, "net")
, m_fdc(*this, "fdc")
, m_scsi(*this, "scsi:7:cxd1180")
, m_hid(*this, "hid")
, m_serial(*this, "serial%u", 0U)
, m_irq5(*this, "irq5")
, m_irq7(*this, "irq7")
, m_sw1(*this, "SW1")
, m_eprom(*this, "eprom")
, m_led(*this, "led%u", 0U)
#if GRAPHICS
, m_screen(*this, "screen")
, m_ramdac(*this, "ramdac")
, m_vram(*this, "vram")
#endif
{
}
void nws1580(machine_config &config);
void init_common();
protected:
// driver_device overrides
virtual void machine_start() override;
virtual void machine_reset() override;
// address maps
void cpu_map(address_map &map);
void cpu_autovector_map(address_map &map);
// machine config
void common(machine_config &config);
enum irq_number : unsigned
{
IPIRQ1 = 0,
IPIRQ3 = 1,
LANCE = 2,
VME4 = 3,
VME2 = 4,
FDC = 5,
PRINTER = 6,
SCSI = 7,
};
template <irq_number Number> void irq_w(int state);
void int_check();
void timer(s32 param);
void timer_w(u8 data);
u32 bus_error_r();
#if GRAPHICS
u32 screen_update(screen_device &screen, bitmap_rgb32 &bitmap, rectangle const &cliprect) { return 0; }
#endif
private:
// devices
required_device<m68030_device> m_cpu;
required_device<ram_device> m_ram;
required_device<dmac_0266_device> m_dma;
required_device<m48t02_device> m_rtc;
required_device<z80scc_device> m_scc;
required_device<am7990_device> m_net;
required_device<upd72067_device> m_fdc;
required_device<cxd1180_device> m_scsi;
required_device<news_hid_hle_device> m_hid;
required_device_array<rs232_port_device, 2> m_serial;
required_device<input_merger_device> m_irq5;
required_device<input_merger_device> m_irq7;
required_ioport m_sw1;
required_region_ptr<u32> m_eprom;
std::unique_ptr<u16[]> m_net_ram;
output_finder<2> m_led;
#if GRAPHICS
required_device<screen_device> m_screen;
required_device<bt458_device> m_ramdac;
required_device<ram_device> m_vram;
#endif
emu_timer *m_timer;
u8 m_intst;
u8 m_parity_vector;
bool m_int_state[2];
bool m_scc_irq_state;
bool m_parity_irq_state;
};
void news_68k_state::machine_start()
{
m_led.resolve();
m_net_ram = std::make_unique<u16[]>(8192);
m_timer = timer_alloc(FUNC(news_68k_state::timer), this);
m_intst = 0;
for (bool &int_state : m_int_state)
int_state = false;
m_scc_irq_state = false;
m_parity_irq_state = false;
}
void news_68k_state::machine_reset()
{
// eprom is mapped at 0 after reset
m_cpu->space(0).install_rom(0x00000000, 0x0000ffff, m_eprom);
}
void news_68k_state::init_common()
{
// HACK: hardwire the rate
m_fdc->set_rate(500000);
}
void news_68k_state::cpu_map(address_map &map)
{
map(0xe0000000, 0xe000ffff).rom().region("eprom", 0);
// 0xe0c40000 // centronics
map(0xe0c80000, 0xe0c80003).m(m_fdc, FUNC(upd72067_device::map));
map(0xe0c80100, 0xe0c80100).rw(m_fdc, FUNC(upd72067_device::dma_r), FUNC(upd72067_device::dma_w));
map(0xe0cc0000, 0xe0cc0007).m(m_scsi, FUNC(ncr5380_device::map));
map(0xe0d00000, 0xe0d00007).m(m_hid, FUNC(news_hid_hle_device::map_68k));
map(0xe0d40000, 0xe0d40003).rw(m_scc, FUNC(z80scc_device::ab_dc_r), FUNC(z80scc_device::ab_dc_w));
map(0xe0d80000, 0xe0d807ff).rw(m_rtc, FUNC(m48t02_device::read), FUNC(m48t02_device::write));
map(0xe0dc0000, 0xe0dc0000).lw8([this](u8 data) { m_led[0] = BIT(data, 0); m_led[1] = BIT(data, 1); }, "led_w");
map(0xe0e00000, 0xe0e03fff).lrw16(
[this](offs_t offset) { return m_net_ram[offset]; }, "net_ram_r",
[this](offs_t offset, u16 data, u16 mem_mask) { COMBINE_DATA(&m_net_ram[offset]); }, "net_ram_w");
map(0xe0e80000, 0xe0e80017).m(m_dma, FUNC(dmac_0266_device::map));
// e0ec0000 // sound board
map(0xe0f00000, 0xe0f00003).rw(m_net, FUNC(am7990_device::regs_r), FUNC(am7990_device::regs_w));
// e0f40000
//map(0xe0f40000, 0xe0f40000).lr8([]() { return 0xfb; }, "scc_ridsr_r");
map(0xe1000000, 0xe1000000).w(FUNC(news_68k_state::timer_w));
map(0xe1080000, 0xe1080000).lw8([this](u8 data) { LOG("parity check enable 0x%02x\n", data); }, "parity_check_enable_w");
map(0xe1180000, 0xe1180000).lw8([this](u8 data) { m_cpu->set_input_line(INPUT_LINE_IRQ2, bool(data)); }, "irq2_w");
map(0xe1200000, 0xe1200000).lw8([this](u8 data) { m_cpu->space(0).install_ram(0, m_ram->mask(), 0xc0000000, m_ram->pointer()); }, "ram_enable");
map(0xe1280000, 0xe1280000).lw8([this](u8 data) { m_cpu->set_input_line(INPUT_LINE_IRQ1, bool(data)); }, "ast_w");
map(0xe1300000, 0xe1300000).lw8([this](u8 data) { LOG("cache enable 0x%02x (%s)\n", data, machine().describe_context()); }, "cache_enable_w");
// 0xe1380000 // power on/off
map(0xe1900000, 0xe1900000).lw8([this](u8 data) { LOG("cache clear 0x%02x\n", data); }, "cache_clear_w");
map(0xe1a00000, 0xe1a00000).lw8([this](u8 data) { LOG("parity interrupt clear 0x%02x\n", data); }, "parity_interrupt_clear_w");
// 0xe1b00000 // fdc vfo external/internal
map(0xe1c00000, 0xe1c000ff).rom().region("idrom", 0);
map(0xe1c00100, 0xe1c00103).lr8([this]() { return u8(m_sw1->read()); }, "sw1_r");
// HACK: disable fdc irq for NetBSD
map(0xe1c00200, 0xe1c00200).lrw8([this]() { return m_intst; }, "intst_r", [this](u8 data) { irq_w<FDC>(0); m_parity_vector = data; }, "parity_vector_w");
// external I/O
map(0xf0000000, 0xffffffff).r(FUNC(news_68k_state::bus_error_r));
#if GRAPHICS
// POPC
//map(0xf0fc0000, 0xf0fc0003).unmaprw();
// f0fc0000 & 0x40 == 0x00 -> popm
// f0fc0000 & 0xc0 == 0xc0 -> popc
map(0xf0fc0000, 0xf0fc0001).lr16([]() {return 0x00c0; }, "popc_probe"); // lower 2 bits give busy state
map(0xf0fc4000, 0xf0fc4007).m(m_ramdac, FUNC(bt458_device::map)).umask32(0x00ff00ff);
//map(0xf0fc0000, 0xf10bffff).rom().region("krom", 0);
#endif
// 0xf0c30000 expansion lance #1
// 0xf0c20000 lance #1 memory
// 0xf0c38000 lance #1 etherid
// 0xf0c70000 expansion lance #2
// 0xf0c60000 lance #2 memory
// 0xf0c78000 lance #2 etherid
// 0xf0d04000 isdn?
// 0xf0f00000 nwb512_base
// 0xf0fc0000 nwb512krom_base
// 0xf0700000 nwb225_base
// 0xf0600000 nwb225krom_base
}
void news_68k_state::cpu_autovector_map(address_map &map)
{
map(0xfffffff3, 0xfffffff3).lr8(NAME([]() { return m68000_base_device::autovector(1); }));
map(0xfffffff5, 0xfffffff5).lr8(NAME([]() { return m68000_base_device::autovector(2); }));
map(0xfffffff7, 0xfffffff7).lr8(NAME([]() { return m68000_base_device::autovector(3); }));
map(0xfffffff9, 0xfffffff9).lr8(NAME([]() { return m68000_base_device::autovector(4); }));
map(0xfffffffb, 0xfffffffb).lr8(NAME([this]() { return m_scc_irq_state ? m_scc->m1_r() : m68000_base_device::autovector(5); }));
map(0xfffffffd, 0xfffffffd).lr8(NAME([]() { return m68000_base_device::autovector(6); }));
map(0xffffffff, 0xffffffff).lr8(NAME([this]() { return m_parity_irq_state ? m_parity_vector : m68000_base_device::autovector(7); }));
}
template <news_68k_state::irq_number Number> void news_68k_state::irq_w(int state)
{
LOG("irq number %d state %d\n", Number, state);
if (state)
m_intst |= 1U << Number;
else
m_intst &= ~(1U << Number);
int_check();
}
void news_68k_state::int_check()
{
// TODO: assume 43334443, masking?
static int const int_line[] = { INPUT_LINE_IRQ3, INPUT_LINE_IRQ4 };
static u8 const int_mask[] = { 0x71, 0x8e };
for (unsigned i = 0; i < std::size(m_int_state); i++)
{
bool const int_state = m_intst & int_mask[i];
if (m_int_state[i] != int_state)
{
m_int_state[i] = int_state;
m_cpu->set_input_line(int_line[i], int_state);
}
}
}
void news_68k_state::timer_w(u8 data)
{
LOG("timer_w 0x%02x\n", data);
if (data)
m_timer->adjust(attotime::from_hz(100));
else
m_cpu->set_input_line(INPUT_LINE_IRQ6, CLEAR_LINE);
}
void news_68k_state::timer(s32 param)
{
m_cpu->set_input_line(INPUT_LINE_IRQ6, ASSERT_LINE);
}
u32 news_68k_state::bus_error_r()
{
if (!machine().side_effects_disabled())
m_cpu->set_input_line(M68K_LINE_BUSERROR, ASSERT_LINE);
return 0;
}
static void news_scsi_devices(device_slot_interface &device)
{
device.option_add("harddisk", NSCSI_HARDDISK);
device.option_add("cdrom", NSCSI_CDROM);
}
void news_68k_state::common(machine_config &config)
{
M68030(config, m_cpu, 50_MHz_XTAL / 2);
m_cpu->set_addrmap(AS_PROGRAM, &news_68k_state::cpu_map);
m_cpu->set_addrmap(m68000_base_device::AS_CPU_SPACE, &news_68k_state::cpu_autovector_map);
// 16 SIMM slots for RAM arranged as two groups of 8 slots, with each bank
// corresponding to a pair of slots in each group; first bank soldered in
RAM(config, m_ram);
m_ram->set_default_size("8M");
// TODO: assume only 1M modules are supported
m_ram->set_extra_options("4M,12M,16M");
m_ram->set_default_value(0);
M48T02(config, m_rtc);
DMAC_0266(config, m_dma, 0);
m_dma->set_bus(m_cpu, 0);
INPUT_MERGER_ANY_HIGH(config, m_irq5);
m_irq5->output_handler().set_inputline(m_cpu, INPUT_LINE_IRQ5);
SCC85C30(config, m_scc, 3993600);
m_scc->out_int_callback().set(
[this](int state)
{
m_scc_irq_state = bool(state);
m_irq5->in_w<2>(state);
});
// scc channel A
RS232_PORT(config, m_serial[0], default_rs232_devices, GRAPHICS ? nullptr : "terminal");
m_serial[0]->cts_handler().set(m_scc, FUNC(z80scc_device::ctsa_w));
m_serial[0]->dcd_handler().set(m_scc, FUNC(z80scc_device::dcda_w));
m_serial[0]->rxd_handler().set(m_scc, FUNC(z80scc_device::rxa_w));
m_scc->out_rtsa_callback().set(m_serial[0], FUNC(rs232_port_device::write_rts));
m_scc->out_txda_callback().set(m_serial[0], FUNC(rs232_port_device::write_txd));
// scc channel B
RS232_PORT(config, m_serial[1], default_rs232_devices, nullptr);
m_serial[1]->cts_handler().set(m_scc, FUNC(z80scc_device::ctsb_w));
m_serial[1]->dcd_handler().set(m_scc, FUNC(z80scc_device::dcdb_w));
m_serial[1]->rxd_handler().set(m_scc, FUNC(z80scc_device::rxb_w));
m_scc->out_rtsb_callback().set(m_serial[1], FUNC(rs232_port_device::write_rts));
m_scc->out_txdb_callback().set(m_serial[1], FUNC(rs232_port_device::write_txd));
AM7990(config, m_net);
m_net->intr_out().set(FUNC(news_68k_state::irq_w<LANCE>)).invert();
m_net->dma_in().set([this](offs_t offset) { return m_net_ram[(offset >> 1) & 0x1fff]; });
m_net->dma_out().set([this](offs_t offset, u16 data, u16 mem_mask) { COMBINE_DATA(&m_net_ram[(offset >> 1) & 0x1fff]); });
INPUT_MERGER_ANY_HIGH(config, m_irq7);
m_irq7->output_handler().set_inputline(m_cpu, INPUT_LINE_IRQ7);
UPD72067(config, m_fdc, 16_MHz_XTAL);
m_fdc->intrq_wr_callback().set(FUNC(news_68k_state::irq_w<FDC>));
m_fdc->drq_wr_callback().set(m_irq7, FUNC(input_merger_device::in_w<0>));
FLOPPY_CONNECTOR(config, "fdc:0", "35hd", FLOPPY_35_HD, true, floppy_image_device::default_pc_floppy_formats).enable_sound(false);
// scsi bus and devices
NSCSI_BUS(config, "scsi");
/*
* CDC WREN V HH 94221-5 (5.25" half-height SCSI-1 single-ended)
* 1544 cylinders, 5 heads, 52 sectors/cylinder, ~170MiB formatted
*
* Vendor Product Rev. Vendor-specific
* CDC 94221-5 5457 00018715
*/
NSCSI_CONNECTOR(config, "scsi:0", news_scsi_devices, "harddisk");
NSCSI_CONNECTOR(config, "scsi:1", news_scsi_devices, nullptr);
NSCSI_CONNECTOR(config, "scsi:2", news_scsi_devices, nullptr);
NSCSI_CONNECTOR(config, "scsi:3", news_scsi_devices, nullptr);
NSCSI_CONNECTOR(config, "scsi:4", news_scsi_devices, nullptr);
NSCSI_CONNECTOR(config, "scsi:5", news_scsi_devices, nullptr);
NSCSI_CONNECTOR(config, "scsi:6", news_scsi_devices, nullptr);
// scsi host adapter
NSCSI_CONNECTOR(config, "scsi:7").option_set("cxd1180", CXD1180).machine_config(
[this](device_t *device)
{
cxd1180_device &adapter = downcast<cxd1180_device &>(*device);
adapter.irq_handler().set(*this, FUNC(news_68k_state::irq_w<SCSI>));
adapter.irq_handler().append(m_dma, FUNC(dmac_0266_device::eop_w));
adapter.drq_handler().set(m_dma, FUNC(dmac_0266_device::req_w));
subdevice<dmac_0266_device>(":dma")->dma_r_cb().set(adapter, FUNC(cxd1180_device::dma_r));
subdevice<dmac_0266_device>(":dma")->dma_w_cb().set(adapter, FUNC(cxd1180_device::dma_w));
});
NEWS_HID_HLE(config, m_hid);
#if GRAPHICS
m_hid->irq_out<news_hid_hle_device::KEYBOARD>().set(m_irq5, FUNC(input_merger_device::in_w<0>));
m_hid->irq_out<news_hid_hle_device::MOUSE>().set(m_irq5, FUNC(input_merger_device::in_w<1>));
SCREEN(config, m_screen, SCREEN_TYPE_RASTER);
m_screen->set_raw(64.0_MHz_XTAL, 1024, 0, 1024, 768, 0, 768);
m_screen->set_screen_update(FUNC(news_68k_state::screen_update));
// AM81C458-80JC
BT458(config, m_ramdac, 64.0_MHz_XTAL);
// 32 x MB81461-12 (256Kbit ZIP VRAM)
RAM(config, m_vram);
m_vram->set_default_size("1MiB");
m_vram->set_default_value(0);
#endif
}
void news_68k_state::nws1580(machine_config &config)
{
common(config);
}
static INPUT_PORTS_START(nws15x0)
PORT_START("SW1")
PORT_DIPNAME(0x07, 0x07, "Display") PORT_DIPLOCATION("SW1:1,2,3")
PORT_DIPSETTING(0x07, "Console")
PORT_DIPSETTING(0x06, "NWB-512")
PORT_DIPSETTING(0x03, "NWB-225A")
PORT_DIPSETTING(0x00, "Autoselect")
PORT_DIPNAME(0x08, 0x08, "Boot Device") PORT_DIPLOCATION("SW1:4")
PORT_DIPSETTING(0x08, "SCSI")
PORT_DIPSETTING(0x00, "Floppy")
PORT_DIPNAME(0x10, 0x10, "Automatic Boot") PORT_DIPLOCATION("SW1:5")
PORT_DIPSETTING(0x10, DEF_STR(Off))
PORT_DIPSETTING(0x00, DEF_STR(On))
PORT_DIPNAME(0x20, 0x20, "Diagnostic Mode") PORT_DIPLOCATION("SW1:6")
PORT_DIPSETTING(0x20, DEF_STR(Off))
PORT_DIPSETTING(0x00, DEF_STR(On))
PORT_DIPUNUSED_DIPLOC(0xc0, 0xc0, "SW1:7,8")
INPUT_PORTS_END
ROM_START(nws1580)
ROM_REGION32_BE(0x10000, "eprom", 0)
ROM_SYSTEM_BIOS(0, "nws1580", "NWS-1580 v1.3")
ROMX_LOAD("pws-1500__ver_1.3__8906.bin", 0x00000, 0x10000, CRC(76395ad9) SHA1(c2ae00218c23cef6519a4d7c74ac2c552790dfd4), ROM_BIOS(0))
// MB7114 256x4 TTL PROM
ROM_REGION32_BE(0x100, "idrom", 0)
ROM_LOAD("n1580_50093.ic63", 0x000, 0x100, CRC(a7f293d6) SHA1(21deffed69e07af515ffc5511bdbf73a2a4c14fb))
// 2 x HN62321BP (128K x 8-bit mask ROM)
ROM_REGION32_BE(0x100000, "krom", ROMREGION_ERASEFF)
ROM_LOAD64_BYTE("aa1.ic14", 0x00000, 0x20000, CRC(db274954) SHA1(4bc9b8a862ce9bdbf43c70f84921253876e21e58))
ROM_LOAD64_BYTE("aa2.ic15", 0x00001, 0x20000, CRC(0d7686c7) SHA1(b0be18166b4690518e6a11ea194cc1c7a1ea6347))
ROM_END
/* YEAR NAME PARENT COMPAT MACHINE INPUT CLASS INIT COMPANY FULLNAME FLAGS */
COMP(1988, nws1580, 0, 0, nws1580, nws15x0, news_68k_state, init_common, "Sony", "NWS-1580", MACHINE_NOT_WORKING)
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