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// license:MAME|LGPL-2.1+
// copyright-holders:Michael Zapf
/*******************************************************************************
    SNUG BwG Disk Controller
    Based on WD1773
    Double Density, Double-sided

    * Supports Double Density.
    * As this card includes its own RAM, it does not need to allocate a portion
      of VDP RAM to store I/O buffers.
    * Includes a MM58274C RTC.
    * Support an additional floppy drive, for a total of 4 floppies.

    Reference:
    * BwG Disketten-Controller: Beschreibung der DSR (Description of the DSR)
        <http://home.t-online.de/home/harald.glaab/snug/bwg.pdf>

    +------------------------+
    |   32 KiB EPROM         | --- 1 of 4 pages--> 4000  +------------------+
    |                        |                           |   DSR space      |
    +------------------------+                           |   (Driver)       |
    |   2 KiB  RAM           | --- 1 of 2 pages--> 5c00  +------------------+
    +------------------------+                           |   RAM buffer     |
                                                   5fe0  +------------------+
                                                         |   RTC or WD1773  |
                                                   5fff  +------------------+

    Michael Zapf, September 2010
    January 2012: rewritten as class (MZ)
    February 2014: rewritten for new floppy subsystem (MZ)

    Known issues (Feb 2014):

  1. The BwG controller cannot run with the Geneve or other non-9900 computers.
     The reason for that is the wait state logic. It assumes that when
     executing MOVB @>5FF6,*R2, first a value from 5FF7 is attempted to be read,
     just as the TI console does. In that case, wait states are inserted if
     necessary. The Geneve, however, will try to read a single byte from 5FF6
     only and therefore circumvent the wait state generation. This is in fact
     not an emulation glitch but the behavior of the real expansion card.

    Resolved issues (Feb 2014):

  1. The BwG controller failed to read single-density disks. This only occurs
     with the legacy implementation because the modern floppy implementation
     reproduces the correct recording format on the medium, so the controller
     actually detects FM or MFM.

*******************************************************************************/

#include "emu.h"
#include "peribox.h"
#include "bwg.h"
#include "formats/ti99_dsk.h"
#include "imagedev/flopdrv.h"

// ----------------------------------
// Flags for debugging

// Show read and write accesses
#define TRACE_RW 0

// Show CRU bit accesses
#define TRACE_CRU 0

// Show ready line activity
#define TRACE_READY 0

// Show detailed signal activity
#define TRACE_SIGNALS 0

// Show sector data
#define TRACE_DATA 0

// Show address bus operations
#define TRACE_ADDRESS 0

// Show address bus operations
#define TRACE_MOTOR 0

// ----------------------------------

#define MOTOR_TIMER 1
#define CLOCK_TAG "mm58274c"
#define FDC_TAG "wd1773"

#define BUFFER "ram"

/*
    Modern implementation
*/

snug_bwg_device::snug_bwg_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock)
			: ti_expansion_card_device(mconfig, TI99_BWG, "SNUG BwG Floppy Controller", tag, owner, clock, "ti99_bwg", __FILE__),
				m_wd1773(*this, FDC_TAG),
				m_clock(*this, CLOCK_TAG) { }

/*
    Operate the wait state logic.
*/
void snug_bwg_device::operate_ready_line()
{
	// This is the wait state logic
	if (TRACE_SIGNALS) logerror("bwg: address=%04x, DRQ=%d, INTRQ=%d, MOTOR=%d\n", m_address & 0xffff, m_DRQ, m_IRQ, m_MOTOR_ON);
	line_state nready = (m_dataregLB &&         // Are we accessing 5ff7
			m_WAITena &&                        // and the wait state generation is active (SBO 2)
			(m_DRQ==CLEAR_LINE) &&              // and we are waiting for a byte
			(m_IRQ==CLEAR_LINE) &&              // and there is no interrupt yet
			(m_MOTOR_ON==ASSERT_LINE)           // and the motor is turning?
			)? ASSERT_LINE : CLEAR_LINE;        // In that case, clear READY and thus trigger wait states

	if (TRACE_READY) if (nready==ASSERT_LINE) logerror("bwg: READY line = %d\n", (nready==CLEAR_LINE)? 1:0);
	m_slot->set_ready((nready==CLEAR_LINE)? ASSERT_LINE : CLEAR_LINE);
}

/*
    Callbacks from the WD1773 chip
*/
WRITE_LINE_MEMBER( snug_bwg_device::fdc_irq_w )
{
	if (TRACE_SIGNALS) logerror("bwg: set intrq = %d\n", state);
	m_IRQ = (line_state)state;
	// Unlike the TI FDC, the BwG does not set the INTB line. Anyway, no one cares.
	// We need to explicitly set the READY line to release the datamux
	operate_ready_line();
}

WRITE_LINE_MEMBER( snug_bwg_device::fdc_drq_w )
{
	if (TRACE_SIGNALS) logerror("bwg: set drq = %d\n", state);
	m_DRQ = (line_state)state;

	// We need to explicitly set the READY line to release the datamux
	operate_ready_line();
}

SETADDRESS_DBIN_MEMBER( snug_bwg_device::setaddress_dbin )
{
	// Selection login in the PAL and some circuits on the board

	// Is the card being selected?
	m_address = offset;
	m_inDsrArea = ((m_address & m_select_mask)==m_select_value);

	if (!m_inDsrArea) return;

	if (TRACE_ADDRESS) logerror("bwg: set address = %04x\n", offset & 0xffff);

	// Is the WD chip on the card being selected?
	// We need the even and odd addresses for the wait state generation,
	// but only the even addresses when we access it
	m_WDsel0 = m_inDsrArea && !m_rtc_enabled
			&& ((state==ASSERT_LINE && ((m_address & 0x1ff8)==0x1ff0))    // read
				|| (state==CLEAR_LINE && ((m_address & 0x1ff8)==0x1ff8)));  // write

	m_WDsel = m_WDsel0 && ((m_address & 1)==0);

	// Is the RTC selected on the card? (even addr)
	m_RTCsel = m_inDsrArea && m_rtc_enabled && ((m_address & 0x1fe1)==0x1fe0);

	// RTC disabled:
	// 5c00 - 5fef: RAM
	// 5ff0 - 5fff: Controller (f0 = status, f2 = track, f4 = sector, f6 = data)

	// RTC enabled:
	// 5c00 - 5fdf: RAM
	// 5fe0 - 5fff: Clock (even addr)

	// Is RAM selected? We just check for the last 1K and let the RTC or WD
	// just take control before
	m_lastK = m_inDsrArea && ((m_address & 0x1c00)==0x1c00);

	// Is the data register port of the WD being selected?
	// In fact, the address to read the data from is 5FF6, but the TI-99 datamux
	// fetches both bytes from 5FF7 and 5FF6, the odd one first. The BwG uses
	// the odd address to operate the READY line
	m_dataregLB = m_WDsel0 && ((m_address & 0x07)==0x07);

	// Clear or assert the outgoing READY line
	operate_ready_line();
}

/*
    Read a byte from ROM, RAM, FDC, or RTC. See setaddress_dbin for selection
    logic.
*/
READ8Z_MEMBER(snug_bwg_device::readz)
{
	if (m_inDsrArea && m_selected)
	{
		// 010x xxxx xxxx xxxx
		if (m_lastK)
		{
			// ...1 11xx xxxx xxxx
			if (m_rtc_enabled)
			{
				if (m_RTCsel)
				{
					// .... ..11 111x xxx0
					if (!space.debugger_access()) *value = m_clock->read(space, (m_address & 0x001e) >> 1);
					if (TRACE_RW) logerror("bwg: read RTC: %04x -> %02x\n", m_address & 0xffff, *value);
				}
				else
				{
					*value = m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)];
					if (TRACE_RW) logerror("bwg: read ram: %04x (page %d)-> %02x\n", m_address & 0xffff, m_ram_page, *value);
				}
			}
			else
			{
				if (m_WDsel)
				{
					// .... ..11 1111 0xx0
					// Note that the value is inverted again on the board,
					// so we can drop the inversion
					if (!space.debugger_access()) *value = m_wd1773->gen_r((m_address >> 1)&0x03);
					if (TRACE_RW) logerror("bwg: read FDC: %04x -> %02x\n", m_address & 0xffff, *value);
					if (TRACE_DATA)
					{
						if ((m_address & 0xffff)==0x5ff6) logerror("%02x ", *value);
						else logerror("\n%04x: %02x", m_address&0xffff, *value);
					}
				}
				else
				{
					*value = m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)];
					if (TRACE_RW) logerror("bwg: read ram: %04x (page %d)-> %02x\n", m_address & 0xffff, m_ram_page, *value);
				}
			}
		}
		else
		{
			*value = m_dsrrom[(m_rom_page<<13) | (m_address & 0x1fff)];
			if (TRACE_RW) logerror("bwg: read dsr: %04x (page %d)-> %02x\n", m_address & 0xffff, m_rom_page, *value);
		}
	}
}

/*
    Write a byte
    4000 - 5bff: ROM, ignore write (4 banks)

    rtc disabled:
    5c00 - 5fef: RAM
    5ff0 - 5fff: Controller (f8 = command, fa = track, fc = sector, fe = data)

    rtc enabled:
    5c00 - 5fdf: RAM
    5fe0 - 5fff: Clock (even addr)
*/
WRITE8_MEMBER(snug_bwg_device::write)
{
	if (m_inDsrArea && m_selected)
	{
		if (m_lastK)
		{
			if (m_rtc_enabled)
			{
				if (m_RTCsel)
				{
					// .... ..11 111x xxx0
					if (TRACE_RW) logerror("bwg: write RTC: %04x <- %02x\n", m_address & 0xffff, data);
					if (!space.debugger_access()) m_clock->write(space, (m_address & 0x001e) >> 1, data);
				}
				else
				{
					if (TRACE_RW) logerror("bwg: write ram: %04x (page %d) <- %02x\n", m_address & 0xffff, m_ram_page, data);
					m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)] = data;
				}
			}
			else
			{
				if (m_WDsel)
				{
					// .... ..11 1111 1xx0
					// Note that the value is inverted again on the board,
					// so we can drop the inversion
					if (TRACE_RW) logerror("bwg: write FDC: %04x <- %02x\n", m_address & 0xffff, data);
					if (!space.debugger_access()) m_wd1773->gen_w((m_address >> 1)&0x03, data);
				}
				else
				{
					if (TRACE_RW) logerror("bwg: write ram: %04x (page %d) <- %02x\n", m_address & 0xffff, m_ram_page, data);
					m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)] = data;
				}
			}
		}
	}
}

/*
    CRU read handler. *=inverted.
    bit 0: DSK4 connected*
    bit 1: DSK1 connected*
    bit 2: DSK2 connected*
    bit 3: DSK3 connected*
    bit 4: Dip 1
    bit 5: Dip 2
    bit 6: Dip 3
    bit 7: Dip 4
*/
READ8Z_MEMBER(snug_bwg_device::crureadz)
{
	UINT8 reply = 0;

	if ((offset & 0xff00)==m_cru_base)
	{
		if ((offset & 0x00ff)==0)
		{
			// Check what drives are not connected
			reply = ((m_floppy[0] != NULL)? 0 : 0x02)       // DSK1
					| ((m_floppy[1] != NULL)? 0 : 0x04) // DSK2
					| ((m_floppy[2] != NULL)? 0 : 0x08) // DSK3
					| ((m_floppy[3] != NULL)? 0 : 0x01);    // DSK4

			// DIP switches for step and date/time display
			if (m_dip1 != 0) reply |= 0x10;
			if (m_dip2 != 0) reply |= 0x20;

			// DIP switches for drive range selection
			// 00 = only DSK1; 01 = DSK1+DSK2, 10=DSK1+DSK2+DSK3, 11=all
			reply |= (m_dip34 << 6);

			// Invert all
			*value = ~reply;
		}
		else
			*value = 0;
		if (TRACE_CRU) logerror("bwg: Read CRU = %02x\n", *value);
	}
}

WRITE8_MEMBER(snug_bwg_device::cruwrite)
{
//  int drive, drivebit;

	if ((offset & 0xff00)==m_cru_base)
	{
		int bit = (offset >> 1) & 0x0f;
		switch (bit)
		{
		case 0:
			/* (De)select the card. Indicated by a LED on the board. */
			m_selected = (data != 0);
			if (TRACE_CRU) logerror("bwg: Map DSR (bit 0) = %d\n", m_selected);
			break;

		case 1:
			// Activate motor
			if (data==1 && m_lastval==0)
			{   // on rising edge, set motor_running for 4.23s
				if (TRACE_CRU) logerror("bwg: trigger motor (bit 1)\n");
				set_floppy_motors_running(true);
			}
			m_lastval = data;
			break;

		case 2:
			/* Set disk ready/hold (bit 2) */
			// 0: ignore IRQ and DRQ
			// 1: TMS9900 is stopped until IRQ or DRQ are set
			// OR the motor stops rotating - rotates for 4.23s after write
			// to CRU bit 1
			if (TRACE_CRU) logerror("bwg: arm wait state logic (bit 2) = %d\n", data);
			m_WAITena = (data != 0);
			break;

		case 3:
			// Load disk heads (HLT pin) (bit 3). Not implemented.
			if (TRACE_CRU) logerror("bwg: set head load (bit 3) = %d\n", data);
			break;

		case 4:
			// Select drive 0-2 (DSK1-DSK3) (bits 4-6)
			m_DSEL = (data != 0)? (m_DSEL | 0x01) : (m_DSEL & 0xfe);
			set_drive();
			break;
		case 5:
			m_DSEL = (data != 0)? (m_DSEL | 0x02) : (m_DSEL & 0xfd);
			set_drive();
			break;
		case 6:
			m_DSEL = (data != 0)? (m_DSEL | 0x04) : (m_DSEL & 0xfb);
			set_drive();
			break;

		case 7:
			// Select side of disk (bit 7)
			m_SIDSEL = (data==1)? ASSERT_LINE : CLEAR_LINE;
			if (TRACE_CRU) logerror("bwg: set side (bit 7) = %d\n", data);
			if (m_current_floppy != NULL) m_current_floppy->ss_w(data);
			break;

		case 8:
			// Select drive 3 (DSK4) (bit 8) */
			m_DSEL = (data != 0)? (m_DSEL | 0x08) : (m_DSEL & 0xf7);
			set_drive();
			break;

		case 10:
			/* double density enable (active low) */
			if (TRACE_CRU) logerror("bwg: set double density (bit 10) = %d\n", data);
			m_wd1773->dden_w(data != 0);
			break;

		case 11:
			/* EPROM A13 */
			if (data != 0)
				m_rom_page |= 1;
			else
				m_rom_page &= 0xfe;  // 11111110
			if (TRACE_CRU) logerror("bwg: set ROM page (bit 11) = %d, page = %d\n", bit, m_rom_page);
			break;

		case 13:
			/* RAM A10 */
			m_ram_page = data;
			if (TRACE_CRU) logerror("bwg: set RAM page (bit 13) = %d, page = %d\n", bit, m_ram_page);
			break;

		case 14:
			/* Override FDC with RTC (active high) */
			if (TRACE_CRU) logerror("bwg: turn on RTC (bit 14) = %d\n", data);
			m_rtc_enabled = (data != 0);
			break;

		case 15:
			/* EPROM A14 */
			if (data != 0)
				m_rom_page |= 2;
			else
				m_rom_page &= 0xfd; // 11111101
			if (TRACE_CRU) logerror("bwg: set ROM page (bit 15) = %d, page = %d\n", bit, m_rom_page);
			break;

		case 9:
		case 12:
			/* Unused (bit 3, 9 & 12) */
			if (TRACE_CRU) logerror("bwg: set unknown bit %d = %d\n", bit, data);
			break;
		}
	}
}

/*
    Set the current drive. See also ti_fdc.c
*/
void snug_bwg_device::set_drive()
{
	if (TRACE_CRU) logerror("bwg: new DSEL = %d\n", m_DSEL);

	if ((m_DSEL != 0) && (m_DSEL != 1) && (m_DSEL != 2) && (m_DSEL != 4) && (m_DSEL != 8))
	{
		logerror("bwg: Warning - multiple drives selected\n");
	}

	// The schematics do not reveal any countermeasures against multiple selection
	// so we assume that the highest value wins.

	int bits = m_DSEL & 0x0f;
	int i = -1;

	while (bits != 0)
	{
		bits >>= 1;
		i++;
	}
	if (i != -1)
	{
		m_current_floppy = m_floppy[i];
		if (TRACE_CRU) logerror("bwg: Selected floppy %d\n", i);
	}
	else
	{
		m_current_floppy = NULL;
		if (TRACE_CRU) logerror("bwg: All drives deselected\n");
	}
	m_wd1773->set_floppy(m_current_floppy);
}

/*
    Monoflop has gone back to the OFF state.
*/
void snug_bwg_device::device_timer(emu_timer &timer, device_timer_id id, int param, void *ptr)
{
	set_floppy_motors_running(false);
}

/*
    All floppy motors are operated by the same line.
*/
void snug_bwg_device::set_floppy_motors_running(bool run)
{
	if (run)
	{
		if (TRACE_MOTOR)
			if (m_MOTOR_ON==CLEAR_LINE) logerror("bwg: Motor START\n");
		m_MOTOR_ON = ASSERT_LINE;
		m_motor_on_timer->adjust(attotime::from_msec(4230));
	}
	else
	{
		if (TRACE_MOTOR)
			if (m_MOTOR_ON==ASSERT_LINE) logerror("bwg: Motor STOP\n");
		m_MOTOR_ON = CLEAR_LINE;
	}

	// The motor-on line is connected to pin 20 which is falsely called "MO"
	// in the schematics; should be called "READY" as we are using the WD1773.
	m_wd1773->set_force_ready(run);

	// Set all motors
	for (int i=0; i < 4; i++)
		if (m_floppy[i] != NULL) m_floppy[i]->mon_w((run)? 0 : 1);

	// The motor-on line also connects to the wait state logic
	operate_ready_line();
}

void snug_bwg_device::device_start(void)
{
	logerror("bwg: BWG start\n");
	m_dsrrom = memregion(DSRROM)->base();
	m_buffer_ram = memregion(BUFFER)->base();
	m_motor_on_timer = timer_alloc(MOTOR_TIMER);
	m_cru_base = 0x1100;
}

void snug_bwg_device::device_reset()
{
	logerror("bwg: BWG reset\n");

	if (m_genmod)
	{
		m_select_mask = 0x1fe000;
		m_select_value = 0x174000;
	}
	else
	{
		m_select_mask = 0x7e000;
		m_select_value = 0x74000;
	}

	m_lastval = 0;

	m_DRQ = CLEAR_LINE;
	m_IRQ = CLEAR_LINE;
	m_MOTOR_ON = CLEAR_LINE;

	m_SIDSEL = CLEAR_LINE;

	m_wd1773->set_force_ready(false);

	m_DSEL = 0;
	m_WAITena = false;
	m_selected = false;
	m_debug_dataout = false;
	m_rtc_enabled = false;
	m_dataregLB = false;
	m_lastK = false;
	m_RTCsel = false;
	m_inDsrArea = false;
	m_address = 0;
	m_WDsel = false;
	m_WDsel0 = false;

	for (int i=0; i < 4; i++)
	{
		if (m_floppy[i] != NULL)
			logerror("bwg: Connector %d with %s\n", i, m_floppy[i]->name());
		else
			logerror("bwg: Connector %d has no floppy attached\n", i);
	}

	m_wd1773->set_floppy(m_current_floppy = m_floppy[0]);

	m_dip1 = ioport("BWGDIP1")->read();
	m_dip2 = ioport("BWGDIP2")->read();
	m_dip34 = ioport("BWGDIP34")->read();

	m_rom_page = 0;
	m_ram_page = 0;
}

void snug_bwg_device::device_config_complete()
{
	for (int i=0; i < 4; i++)
		m_floppy[i] = NULL;

	// Seems to be null when doing a "-listslots"
	if (subdevice("0")!=NULL) m_floppy[0] = static_cast<floppy_image_device*>(subdevice("0")->first_subdevice());
	if (subdevice("1")!=NULL) m_floppy[1] = static_cast<floppy_image_device*>(subdevice("1")->first_subdevice());
	if (subdevice("2")!=NULL) m_floppy[2] = static_cast<floppy_image_device*>(subdevice("2")->first_subdevice());
	if (subdevice("3")!=NULL) m_floppy[3] = static_cast<floppy_image_device*>(subdevice("3")->first_subdevice());
}

INPUT_PORTS_START( bwg_fdc )
	PORT_START( "BWGDIP1" )
	PORT_DIPNAME( 0x01, 0x00, "BwG step rate" )
		PORT_DIPSETTING( 0x00, "6 ms")
		PORT_DIPSETTING( 0x01, "20 ms")

	PORT_START( "BWGDIP2" )
	PORT_DIPNAME( 0x01, 0x00, "BwG date/time display" )
		PORT_DIPSETTING( 0x00, "Hide")
		PORT_DIPSETTING( 0x01, "Show")

	PORT_START( "BWGDIP34" )
	PORT_DIPNAME( 0x03, 0x03, "BwG drives" )
		PORT_DIPSETTING( 0x00, "DSK1 only")
		PORT_DIPSETTING( 0x01, "DSK1-DSK2")
		PORT_DIPSETTING( 0x02, "DSK1-DSK3")
		PORT_DIPSETTING( 0x03, "DSK1-DSK4")
INPUT_PORTS_END

FLOPPY_FORMATS_MEMBER(snug_bwg_device::floppy_formats)
	FLOPPY_TI99_SDF_FORMAT,
	FLOPPY_TI99_TDF_FORMAT
FLOPPY_FORMATS_END

static SLOT_INTERFACE_START( bwg_floppies )
	SLOT_INTERFACE( "525dd", FLOPPY_525_DD )        // 40 tracks
	SLOT_INTERFACE( "525qd", FLOPPY_525_QD )        // 80 tracks
	SLOT_INTERFACE( "35dd", FLOPPY_35_DD )          // 80 tracks
SLOT_INTERFACE_END

MACHINE_CONFIG_FRAGMENT( bwg_fdc )
	MCFG_WD1773x_ADD(FDC_TAG, XTAL_8MHz)
	MCFG_WD_FDC_INTRQ_CALLBACK(WRITELINE(snug_bwg_device, fdc_irq_w))
	MCFG_WD_FDC_DRQ_CALLBACK(WRITELINE(snug_bwg_device, fdc_drq_w))

	MCFG_DEVICE_ADD(CLOCK_TAG, MM58274C, 0)
	MCFG_MM58274C_MODE24(1) // 24 hour
	MCFG_MM58274C_DAY1(0)   // sunday

	MCFG_FLOPPY_DRIVE_ADD("0", bwg_floppies, "525dd", snug_bwg_device::floppy_formats)
	MCFG_FLOPPY_DRIVE_ADD("1", bwg_floppies, "525dd", snug_bwg_device::floppy_formats)
	MCFG_FLOPPY_DRIVE_ADD("2", bwg_floppies, NULL, snug_bwg_device::floppy_formats)
	MCFG_FLOPPY_DRIVE_ADD("3", bwg_floppies, NULL, snug_bwg_device::floppy_formats)
MACHINE_CONFIG_END

ROM_START( bwg_fdc )
	ROM_REGION(0x8000, DSRROM, 0)
	ROM_LOAD("bwg.bin", 0x0000, 0x8000, CRC(06f1ec89) SHA1(6ad77033ed268f986d9a5439e65f7d391c4b7651)) /* BwG disk DSR ROM */
	ROM_REGION(0x0800, BUFFER, 0)  /* BwG RAM buffer */
	ROM_FILL(0x0000, 0x0400, 0x00)
ROM_END

machine_config_constructor snug_bwg_device::device_mconfig_additions() const
{
	return MACHINE_CONFIG_NAME( bwg_fdc );
}

ioport_constructor snug_bwg_device::device_input_ports() const
{
	return INPUT_PORTS_NAME( bwg_fdc );
}

const rom_entry *snug_bwg_device::device_rom_region() const
{
	return ROM_NAME( bwg_fdc );
}

const device_type TI99_BWG = &device_creator<snug_bwg_device>;

// ==========================================================================

#define FDCLEG_TAG "wd1773"

/*
    Legacy implementation
*/
snug_bwg_legacy_device::snug_bwg_legacy_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock)
			: ti_expansion_card_device(mconfig, TI99_BWG_LEG, "SNUG BwG Floppy Controller LEGACY", tag, owner, clock, "ti99_bwg_leg", __FILE__),
				m_wd1773(*this, FDCLEG_TAG),
				m_clock(*this, CLOCK_TAG) { }

/*
    Callback called at the end of DVENA pulse
*/
void snug_bwg_legacy_device::device_timer(emu_timer &timer, device_timer_id id, int param, void *ptr)
{
	m_DVENA = CLEAR_LINE;
	set_ready_line();
}


/*
    Operate the wait state logic.
*/
void snug_bwg_legacy_device::set_ready_line()
{
	// This is the wait state logic
	if (TRACE_SIGNALS) logerror("bwg: address=%04x, DRQ=%d, INTRQ=%d, MOTOR=%d\n", m_address & 0xffff, m_DRQ, m_IRQ, m_DVENA);
	line_state nready = (m_dataregLB &&         // Are we accessing 5ff7
			m_WAITena &&                        // and the wait state generation is active (SBO 2)
			(m_DRQ==CLEAR_LINE) &&              // and we are waiting for a byte
			(m_IRQ==CLEAR_LINE) &&              // and there is no interrupt yet
			(m_DVENA==ASSERT_LINE)              // and the motor is turning?
			)? ASSERT_LINE : CLEAR_LINE;        // In that case, clear READY and thus trigger wait states

	if (TRACE_READY) if (nready==ASSERT_LINE) logerror("bwg: READY line = %d\n", (nready==CLEAR_LINE)? 1:0);
	m_slot->set_ready((nready==CLEAR_LINE)? ASSERT_LINE : CLEAR_LINE);
}

/*
    Callback, called from the controller chip whenever DRQ/IRQ state change
*/
WRITE_LINE_MEMBER( snug_bwg_legacy_device::intrq_w )
{
	if (TRACE_SIGNALS) logerror("bwg: set intrq = %d\n", state);
	m_IRQ = (line_state)state;

	// Note that INTB is actually not used in the TI-99 family. But the
	// controller asserts the line nevertheless, probably intended for
	// use in another planned TI system
	m_slot->set_intb(state==ASSERT_LINE);

	// We need to explicitly set the READY line to release the datamux
	set_ready_line();
}

WRITE_LINE_MEMBER( snug_bwg_legacy_device::drq_w )
{
	if (TRACE_SIGNALS) logerror("bwg: set drq = %d\n", state);
	m_DRQ = (line_state)state;

	// We need to explicitly set the READY line to release the datamux
	set_ready_line();
}

SETADDRESS_DBIN_MEMBER( snug_bwg_legacy_device::setaddress_dbin )
{
	// Selection login in the PAL and some circuits on the board

	// Is the card being selected?
	m_address = offset;
	m_inDsrArea = ((m_address & m_select_mask)==m_select_value);

	if (!m_inDsrArea) return;

	if (TRACE_ADDRESS) logerror("bwg: set address = %04x\n", offset & 0xffff);

	// Is the WD chip on the card being selected?
	// We need the even and odd addresses for the wait state generation,
	// but only the even addresses when we access it
	m_WDsel0 = m_inDsrArea && !m_rtc_enabled
			&& ((state==ASSERT_LINE && ((m_address & 0x1ff8)==0x1ff0))    // read
				|| (state==CLEAR_LINE && ((m_address & 0x1ff8)==0x1ff8)));  // write

	m_WDsel = m_WDsel0 && ((m_address & 1)==0);

	// Is the RTC selected on the card? (even addr)
	m_RTCsel = m_inDsrArea && m_rtc_enabled && ((m_address & 0x1fe1)==0x1fe0);

	// RTC disabled:
	// 5c00 - 5fef: RAM
	// 5ff0 - 5fff: Controller (f0 = status, f2 = track, f4 = sector, f6 = data)

	// RTC enabled:
	// 5c00 - 5fdf: RAM
	// 5fe0 - 5fff: Clock (even addr)

	// Is RAM selected? We just check for the last 1K and let the RTC or WD
	// just take control before
	m_lastK = m_inDsrArea && ((m_address & 0x1c00)==0x1c00);

	// Is the data register port of the WD being selected?
	// In fact, the address to read the data from is 5FF6, but the TI-99 datamux
	// fetches both bytes from 5FF7 and 5FF6, the odd one first. The BwG uses
	// the odd address to operate the READY line
	m_dataregLB = m_WDsel0 && ((m_address & 0x07)==0x07);

	// Clear or assert the outgoing READY line
	set_ready_line();
}

/*
    Read a byte from ROM, RAM, FDC, or RTC. See setaddress_dbin for selection
    logic.
*/
READ8Z_MEMBER(snug_bwg_legacy_device::readz)
{
	if (m_inDsrArea && m_selected)
	{
		// 010x xxxx xxxx xxxx
		if (m_lastK)
		{
			// ...1 11xx xxxx xxxx
			if (m_rtc_enabled)
			{
				if (m_RTCsel)
				{
					// .... ..11 111x xxx0
					if (!space.debugger_access()) *value = m_clock->read(space, (m_address & 0x001e) >> 1);
					if (TRACE_RW) logerror("bwg: read RTC: %04x -> %02x\n", m_address & 0xffff, *value);
				}
				else
				{
					*value = m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)];
					if (TRACE_RW) logerror("bwg: read ram: %04x (page %d)-> %02x\n", m_address & 0xffff, m_ram_page, *value);
				}
			}
			else
			{
				if (m_WDsel)
				{
					// .... ..11 1111 0xx0
					// Note that the value is inverted again on the board,
					// so we can drop the inversion
					if (!space.debugger_access()) *value = m_wd1773->read(space, (m_address >> 1)&0x03);
					if (TRACE_RW) logerror("bwg: read FDC: %04x -> %02x\n", m_address & 0xffff, *value);
					if (TRACE_DATA)
					{
						if ((m_address & 0xffff)==0x5ff6) logerror("%02x ", *value);
						else logerror("\n%04x: %02x", m_address&0xffff, *value);
					}
				}
				else
				{
					*value = m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)];
					if (TRACE_RW) logerror("bwg: read ram: %04x (page %d)-> %02x\n", m_address & 0xffff, m_ram_page, *value);
				}
			}
		}
		else
		{
			*value = m_dsrrom[(m_rom_page<<13) | (m_address & 0x1fff)];
			if (TRACE_RW) logerror("bwg: read dsr: %04x (page %d)-> %02x\n", m_address & 0xffff, m_rom_page, *value);
		}
	}
}

/*
    Resets the drive geometry. This is required because the heuristic of
    the default implementation sets the drive geometry to the geometry
    of the medium.
*/
void snug_bwg_legacy_device::set_geometry(legacy_floppy_image_device *drive, floppy_type_t type)
{
	// This assertion may fail when the names of the floppy devices change.
	// Unfortunately, the wd17xx device assumes the floppy drives at root
	// level, so we use an explicitly qualified tag. See peribox.h.
	assert(drive != NULL);
	drive->floppy_drive_set_geometry(type);
}

void snug_bwg_legacy_device::set_all_geometries(floppy_type_t type)
{
	set_geometry(machine().device<legacy_floppy_image_device>(PFLOPPY_0), type);
	set_geometry(machine().device<legacy_floppy_image_device>(PFLOPPY_1), type);
	set_geometry(machine().device<legacy_floppy_image_device>(PFLOPPY_2), type);
}

/*
    Write a byte
    4000 - 5bff: ROM, ignore write (4 banks)

    rtc disabled:
    5c00 - 5fef: RAM
    5ff0 - 5fff: Controller (f8 = command, fa = track, fc = sector, fe = data)

    rtc enabled:
    5c00 - 5fdf: RAM
    5fe0 - 5fff: Clock (even addr)
*/
WRITE8_MEMBER(snug_bwg_legacy_device::write)
{
	if (m_inDsrArea && m_selected)
	{
		if (m_lastK)
		{
			if (m_rtc_enabled)
			{
				if (m_RTCsel)
				{
					// .... ..11 111x xxx0
					if (TRACE_RW) logerror("bwg: write RTC: %04x <- %02x\n", m_address & 0xffff, data);
					if (!space.debugger_access()) m_clock->write(space, (m_address & 0x001e) >> 1, data);
				}
				else
				{
					if (TRACE_RW) logerror("bwg: write ram: %04x (page %d) <- %02x\n", m_address & 0xffff, m_ram_page, data);
					m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)] = data;
				}
			}
			else
			{
				if (m_WDsel)
				{
					// .... ..11 1111 1xx0
					// Note that the value is inverted again on the board,
					// so we can drop the inversion
					if (TRACE_RW) logerror("bwg: write FDC: %04x <- %02x\n", m_address & 0xffff, data);
					if (!space.debugger_access()) m_wd1773->write(space, (m_address >> 1)&0x03, data);
				}
				else
				{
					if (TRACE_RW) logerror("bwg: write ram: %04x (page %d) <- %02x\n", m_address & 0xffff, m_ram_page, data);
					m_buffer_ram[(m_ram_page<<10) | (m_address & 0x03ff)] = data;
				}
			}
		}
	}
}

/*
    CRU read handler. *=inverted.
    bit 0: DSK4 connected*
    bit 1: DSK1 connected*
    bit 2: DSK2 connected*
    bit 3: DSK3 connected*
    bit 4: Dip 1
    bit 5: Dip 2
    bit 6: Dip 3
    bit 7: Dip 4
*/
READ8Z_MEMBER(snug_bwg_legacy_device::crureadz)
{
	UINT8 reply = 0;

	if ((offset & 0xff00)==m_cru_base)
	{
		if ((offset & 0x00ff)==0)
		{
			// Assume that we have 4 drives connected
			// If we want to do that properly, we need to check the actually
			// available drives (not the images!). But why should we connect less?
			reply = 0x00;

			// DIP switches. Note that a closed switch means 0
			// xx01 1111   11 = only dsk1; 10 = 1+2, 01=1/2/3, 00=1-4

			if (m_dip1 != 0) reply |= 0x10;
			if (m_dip2 != 0) reply |= 0x20;
			reply |= (m_dip34 << 6);
			*value = ~reply;
		}
		else
			*value = 0;
		if (TRACE_CRU) logerror("bwg: Read CRU = %02x\n", *value);
	}
}

WRITE8_MEMBER(snug_bwg_legacy_device::cruwrite)
{
	int drive, drivebit;

	if ((offset & 0xff00)==m_cru_base)
	{
		int bit = (offset >> 1) & 0x0f;
		switch (bit)
		{
		case 0:
			/* (De)select the card. Indicated by a LED on the board. */
			m_selected = (data != 0);
			if (TRACE_CRU) logerror("bwg: Map DSR (bit 0) = %d\n", m_selected);
			break;

		case 1:
			/* Activate motor */
			if (data && !m_strobe_motor)
			{   /* on rising edge, set motor_running for 4.23s */
				if (TRACE_CRU) logerror("bwg: trigger motor (bit 1)\n");
				m_DVENA = ASSERT_LINE;
				m_motor_on_timer->adjust(attotime::from_msec(4230));
			}
			m_strobe_motor = (data != 0);
			break;

		case 2:
			/* Set disk ready/hold (bit 2) */
			// 0: ignore IRQ and DRQ
			// 1: TMS9900 is stopped until IRQ or DRQ are set
			// OR the motor stops rotating - rotates for 4.23s after write
			// to CRU bit 1
			if (TRACE_CRU) logerror("bwg: arm wait state logic (bit 2) = %d\n", data);
			m_WAITena = (data != 0);
			break;

		case 4:
		case 5:
		case 6:
		case 8:
			/* Select drive 0-2 (DSK1-DSK3) (bits 4-6) */
			/* Select drive 3 (DSK4) (bit 8) */
			drive = (bit == 8) ? 3 : (bit - 4);     /* drive # (0-3) */
			if (TRACE_CRU) logerror("bwg: set drive (bit %d) = %d\n", bit, data);
			drivebit = 1<<drive;

			if (data != 0)
			{
				if ((m_DSEL & drivebit) == 0)           /* select drive */
				{
					if (m_DSEL != 0)
						logerror("bwg: Multiple drives selected, %02x\n", m_DSEL);
					m_DSEL |= drivebit;
					m_wd1773->set_drive(drive);
				}
			}
			else
				m_DSEL &= ~drivebit;
			break;

		case 7:
			/* Select side of disk (bit 7) */
			m_SIDE = data;
			if (TRACE_CRU) logerror("bwg: set side (bit 7) = %d\n", data);
			m_wd1773->set_side(m_SIDE);
			break;

		case 10:
			/* double density enable (active low) */
			if (TRACE_CRU) logerror("bwg: set double density (bit 10) = %d\n", data);
			m_wd1773->dden_w((data != 0) ? ASSERT_LINE : CLEAR_LINE);
			break;

		case 11:
			/* EPROM A13 */
			if (data != 0)
				m_rom_page |= 1;
			else
				m_rom_page &= 0xfe;  // 11111110
			if (TRACE_CRU) logerror("bwg: set ROM page (bit 11) = %d, page = %d\n", bit, m_rom_page);
			break;

		case 13:
			/* RAM A10 */
			m_ram_page = data;
			if (TRACE_CRU) logerror("bwg: set RAM page (bit 13) = %d, page = %d\n", bit, m_ram_page);
			break;

		case 14:
			/* Override FDC with RTC (active high) */
			if (TRACE_CRU) logerror("bwg: turn on RTC (bit 14) = %d\n", data);
			m_rtc_enabled = (data != 0);
			break;

		case 15:
			/* EPROM A14 */
			if (data != 0)
				m_rom_page |= 2;
			else
				m_rom_page &= 0xfd; // 11111101
			if (TRACE_CRU) logerror("bwg: set ROM page (bit 15) = %d, page = %d\n", bit, m_rom_page);
			break;

		case 3:
			if (TRACE_CRU) logerror("bwg: set head load (bit 3) = %d\n", data);
			break;
		case 9:
		case 12:
			/* Unused (bit 3, 9 & 12) */
			if (TRACE_CRU) logerror("bwg: set unknown bit %d = %d\n", bit, data);
			break;
		}
	}
}

void snug_bwg_legacy_device::device_start(void)
{
	logerror("bwg: BWG start\n");
	m_dsrrom = memregion(DSRROM)->base();
	m_buffer_ram = memregion(BUFFER)->base();
	m_motor_on_timer = timer_alloc(MOTOR_TIMER);
	m_cru_base = 0x1100;
}

void snug_bwg_legacy_device::device_reset()
{
	logerror("bwg: BWG reset\n");

	if (m_genmod)
	{
		m_select_mask = 0x1fe000;
		m_select_value = 0x174000;
	}
	else
	{
		m_select_mask = 0x7e000;
		m_select_value = 0x74000;
	}

	m_strobe_motor = false;
	m_DVENA = CLEAR_LINE;
	m_DSEL = 0;
	m_SIDE = 0;
	ti99_set_80_track_drives(FALSE);
	floppy_type_t type = FLOPPY_STANDARD_5_25_DSDD_40;
	set_all_geometries(type);
	m_DRQ = CLEAR_LINE;
	m_IRQ = CLEAR_LINE;
	m_WAITena = false;
	m_rtc_enabled = false;
	m_selected = false;
	m_dataregLB = false;
	m_inDsrArea = false;

	m_dip1 = ioport("BWGDIP1")->read();
	m_dip2 = ioport("BWGDIP2")->read();
	m_dip34 = ioport("BWGDIP34")->read();

	m_rom_page = 0;
	m_ram_page = 0;
}

INPUT_PORTS_START( bwg_fdc_legacy )
	PORT_START( "BWGDIP1" )
	PORT_DIPNAME( 0x01, 0x00, "BwG step rate" )
		PORT_DIPSETTING( 0x00, "6 ms")
		PORT_DIPSETTING( 0x01, "20 ms")

	PORT_START( "BWGDIP2" )
	PORT_DIPNAME( 0x01, 0x00, "BwG date/time display" )
		PORT_DIPSETTING( 0x00, "Hide")
		PORT_DIPSETTING( 0x01, "Show")

	PORT_START( "BWGDIP34" )
	PORT_DIPNAME( 0x03, 0x03, "BwG drives" )
		PORT_DIPSETTING( 0x00, "DSK1 only")
		PORT_DIPSETTING( 0x01, "DSK1-DSK2")
		PORT_DIPSETTING( 0x02, "DSK1-DSK3")
		PORT_DIPSETTING( 0x03, "DSK1-DSK4")
INPUT_PORTS_END

MACHINE_CONFIG_FRAGMENT( bwg_fdc_legacy )
	MCFG_DEVICE_ADD(FDCLEG_TAG, WD1773, 0)
	MCFG_WD17XX_DEFAULT_DRIVE4_TAGS
	MCFG_WD17XX_INTRQ_CALLBACK(WRITELINE(snug_bwg_legacy_device, intrq_w))
	MCFG_WD17XX_DRQ_CALLBACK(WRITELINE(snug_bwg_legacy_device, drq_w))

	MCFG_DEVICE_ADD(CLOCK_TAG, MM58274C, 0)
	MCFG_MM58274C_MODE24(1) // 24 hour
	MCFG_MM58274C_DAY1(0)   // sunday
MACHINE_CONFIG_END

ROM_START( bwg_fdc_legacy )
	ROM_REGION(0x8000, DSRROM, 0)
	ROM_LOAD("bwg.bin", 0x0000, 0x8000, CRC(06f1ec89) SHA1(6ad77033ed268f986d9a5439e65f7d391c4b7651)) /* BwG disk DSR ROM */
	ROM_REGION(0x0800, BUFFER, 0)  /* BwG RAM buffer */
	ROM_FILL(0x0000, 0x0400, 0x00)
ROM_END

machine_config_constructor snug_bwg_legacy_device::device_mconfig_additions() const
{
	return MACHINE_CONFIG_NAME( bwg_fdc_legacy );
}

const rom_entry *snug_bwg_legacy_device::device_rom_region() const
{
	return ROM_NAME( bwg_fdc_legacy );
}

ioport_constructor snug_bwg_legacy_device::device_input_ports() const
{
	return INPUT_PORTS_NAME( bwg_fdc_legacy );
}

const device_type TI99_BWG_LEG = &device_creator<snug_bwg_legacy_device>;