// license:BSD-3-Clause
// copyright-holders:Joakim Larsson Edstrom
/*
* The Dbox-1 CPU board.
*__________________________________________________________________________________________________________
* |
* |
* _______________ |
* ___ | | ________ ________ |
* | | |_______________| | | | | |
* | | | FLASH | | FLASH | |
* | | | 29F800B| | 29F800B| |
* | | | | | | |
* | | ____________ | 1Mb | | 1Mb | |
* | | | | | | | | |
* |___| | CPU32 | | | | | |
* | 68340PV16E | |________| |________| |
* | | |
* | | |
* _______________ |____________| _____ |
* | | | | |
* | SCSI | |_____| _____ _____ |
* | CONTROLLER | +-+ _____ | | | | |
* | LSI 53CF54-2 | |X| | | |DRAM | |DRAM | |
* | | |T| |_____| |42460| |42460| |
* | | |A| | | | | |
* | | |L| ---------------- |512Kb| |512Kb| |
* |_______________| +-+ | | | | | | |
* 3.6864 ---------------- |_____| |_____| |
* |
*__________________________________________________________________________________________________________|
*
* History of Nokia Multimedia Division
*-------------------------------------
* Luxor AB was a swedish home electronics and computer manufacturer located in Motala from 1923 and acquired
* by Nokia 1985. Luxor designed among other things TV setsm Radios and the famous ABC-80. The Nokia Multimedia
* Division was formed in Linköping as a result of the Luxor aquesition. Their main design was a satellite
* receiver, the first satellite in Europe was launched in 1988 and the market was growing fast however it took
* a long time, almost 10 years before the breakthrough came for Nokia, a deal with the Kirsch Gruppe was struck and
* in 1996 the 68340 based Dbox-1 was released in Germany. The original design was expensive, so soon a cost reduced
* version based on PPC, the Dbox-2, was released. The boxes sold in millions but the margins were negative or very
* low at best and the Kirsch Gruppe went bankrupt in 2002 and Nokia decided to shutdown the facility in Linköping.
*
* The heavily subsidiced Dbox was very popular in Holland since Kirsch Gruppe didn't lock use to themselfs. This was
* corrected in a forced firmware upgrade leaving the "customers" in Holland without a working box. Pretty soon a
* shareware software developed by Uli Hermann appeared called DVB98 and later DVB2000 reenabling the boxes in Holland
* and blocking upgrades. Uli's software was by many considered better than the original software.
*
* Misc links about Nokia Multimedia Division and this board:
* http://www.siliconinvestor.com/readmsg.aspx?msgid=5097482
* http://www.sat-digest.com/SatXpress/Digital/MM/Mediamaster.htm
* http://www.telecompaper.com/news/beta-research-publishes-dbox-specifications--163443
* https://de.wikipedia.org/wiki/D-box
* http://dvb2000.org/dvb2000/
*
* Misc findings
*--------------
* - Serial port on the back runs at 19200 at issues modem commands when attached to terminal
* - It is possible to attach a BDM emulator and retrieve the ROM through it.
* - It is possible to flash new firmware through BDM by adding jumper XP06 (under the modem board)
* - The bootstrap is based on RTXC 3.2g RTOS
* - The bootstrap jumps to firmware from 0xb82 to RAM at 0x800000
*
* Identified chips/devices
*-----------------
* Motorola 68340 CPU
* Philips SAA7124 Digital Video Encoder
* LSI 53CF54-2 SCSI controller
* Crystal CL4922-CL Mpeg Audio Decoder System
* Rockwell R6653-16 Single Device Data/Fax Modem Data Pump
* Philips 8020401TM100 <modem related, unknown purpose>
* C-cube CL9100 MPEG2 decoder
* Lucent AV6220A MPEG2 demultiplexer w. crypto interface
* CI Common Interface module
* LSI L2A0371 Tuner
* 2 x 29F800B-90 (2Mb FLASH) - schematics shows a 29F400 as second device so firmware checks device ID
* 2 x 42260-60 (1Mb DRAM)
* Siemens SDA5708 dot matrix display, SPI like connection
* - http://arduinotehniq.blogspot.se/2015/07/sda5708-display-8-character-7x5-dot.html
* - charset stored at 0x808404 to 0x808780, 7 bytes per character
*
* Known Nokia Receivers
* -----------------------------
* D-box SCART, built-in Irdeto CAM, modem, SCSI
* 9200 SCART, SCSI
* 9500 SCART, built-in Irdeto CAM, modem, SCSI
* 9600 SCART
* 9602 SCART, modem
* 9610 SCART, modem, SCSI
* 8200 RF, SCSI
* 8500 RF, built-in Irdeto CAM, modem, SCSI
* 8600 RF
*
* Known board revs and changes
* -----------------------------
* Main Board 55 31893-11 DVB 9500 S
* Main Board 55 31893-33 DVB 9500 S - GALs named after functions in schematics
* Main Board 55 31893-46 D-box - OE* IP09 tied to GND, only one flash IP02
* Main Board 55 31893-89 DVB 9500 S - OE* IP09 tied to GND
*
* Address Map
* --------------------------------------------------------------------------
* Address Range Memory Space (physical) Notes
* --------------------------------------------------------------------------
* 0xffffffff (top of memory)
* 0x00FFF780-0x00FFF7BF DMA offset to SIM40
* 0x00FFF700-0x00FFF721 Serial devices offset to SIM40
* 0x00FFF600-0x00FFF67F Timers offset to SIM40
* 0x00FFF000-0x00FFF07F SIM40 programmed base adress (MCR)
* 0x00700000-0x0077ffff RAM
* 0x00780000-0x007807ff I/O area
* 0x00800000-0x008fffff RAM
* 0x00000000-0x0001ffff bootstrap
* --------------------------------------------------------------------------
*
* Init sequence
* -------------
* MCR : 0x6301 Timer/wd disabled, show cycles, ext arbit,
* user access to SIM40, IARB = 1
* MBAR : 0x00FFF101 SIM40 base = 0x00fff000
* VBR : 0x008096F8 VBR - Vector Base Register
* SIM40 + 0x0006: 0xE8 AVR - Auto Vector Register
* SIM40 + 0x0021: 0x0C SWIV_SYPCR
* SIM40 + 0x001F: 0x00 PPARB - Port B pin assignment
* SIM40 + 0x0011: 0xFF PORTA - Port A Data
* SIM40 + 0x0013: 0x16 DDRA - Port A Data direction
* SIM40 + 0x0700: 0x00 Serial port
* SIM40 + 0x071F: 0xFF Serial port
* SIM40 + 0x0004: 0x7F03 SYNCR
* SIM40 + 0x0040: 0x003FFFF5 CS0 mask 1 - block size = 4194304 (4MB)
* SIM40 + 0x0044: 0x00000003 CS0 base 1 - base addr = 0x000000
* SIM40 + 0x0048: 0x003FFFF5 CS1 mask 1 - block size = 4194304 (4MB)
* SIM40 + 0x004C: 0x00800003 CS1 base 1 - base addr = 0x800000
* SIM40 + 0x0050: 0x00007FFF CS2 mask 1 - block size = 65536 (64KB)
* SIM40 + 0x0054: 0x00700003 CS2 base 1
* SIM40 + 0x0058: 0x000007F2 CS3 mask 1 - block size = 2048 (2KB)
* SIM40 + 0x005C: 0x00780003 CS3 base 1
* SIM40 + 0x001F: 0x40 PBARB Port B Pin Assignment
* -------------------------------------------------------------
* The bootstrap copies the firmware to RAM and jumps to it
* -------------------------------------------------------------
*
* --- PC > 0x700000
* SIM40 + 0x0022: 0x0140 PICR Periodic Interrupt Control Register
* SIM40 + 0x0024: 0x0029 PICR Periodic Interrupt Timer Register
*
* Serial port setup
* ------------------
* --- PC < 0x1FFFF so bootstrap code
* SIM40 + 0x0700: 0x00 Serial Module - MCR High Byte
* - The serial module is enabled
* - ignore FREEZE
* - The crystal clock is the clear-to-send input capture clock for both channels
* SIM40 + 0x071F: 0xFF Serial Module - OUTPUT PORT (OP)4 BIT RESET - all cleared
* SIM40 + 0x0700: 0x00 Serial Module - MCR High Byte
* - The serial module is enabled
* - ignore FREEZE
* - The crystal clock is the clear-to-send input capture clock for both channels
* SIM40 + 0x0701: 0x8A Serial Module - MCR Low Byte
* - The serial control regosters are only accessable from supervisor mode
* - IARB = 0x0A - serial module has priority level 10d
* SIM40 + 0x0704: 0x01 Serial Module - ILR Interrupt Level
* SIM40 + 0x0705: 0x44 Serial Module - IVR Interrupt Vector
* SIM40 + 0x0714: 0x80 Serial Module - ACR Auxiliary Control
* - Set 2 of the available baud rates is selected.
* - CTS state change has no effect
* --- setup Channel A
* SIM40 + 0x0712: 0x20 Serial Module - CRA Command Register A
* - Reset the receiver
* SIM40 + 0x0712: 0x30 Serial Module - CRA Command Register A
* - Reset the transmitter
* SIM40 + 0x0710: 0x93 Serial Module - MR1A Mode Register 1A
* - Upon receipt of a valid start bit, RTS≈ is negated if the channel's FIFO is full.
* RTS≈ is reasserted when the FIFO has an empty position available.
* - No Parity
* - Eight bits
* SIM40 + 0x0720: 0x07 Serial Module - MR2A Mode Register 2A
* - No CTS or RTS controll
* - 1 STOP bit
* SIM40 + 0x0711: 0xCC Serial Module - CSRA Clock Select Register A
* - 19200 baud TXc
* - 19200 baud Rxc
* SIM40 + 0x0712: 0x41 Serial Module - CRA Command Register A
* - Reset Error status
* - Enable Receiver
* - Check for charcters in channel A
* SIM40 + 0x0711: btst #0 Serial Module - SRA Status Register A
* --- if there is
* store all characters in buffer at (A6) 0x88FFD0
* --- setup Channel B (See details as for channel A above)
* SIM40 + 0x071A: 0x20 Serial Module - CRB Command Register B
* SIM40 + 0x071A: 0x30 Serial Module - CRB Command Register B
* SIM40 + 0x0718: 0x93 Serial Module - MR1B Mode Register 1B
* SIM40 + 0x0721: 0x07 Serial Module - MR2B Mode Register 2B
* SIM40 + 0x0719: 0xCC Serial Module - CSRB Clock Select Register B
* SIM40 + 0x071A: 0x41 Serial Module - CRB Command Register B
* - Check for characters in channel B
* SIM40 + 0x0719: btst #0 Serial Module - SRB Status Register B
* --- if there is
* store all characters in buffer at (A6) 0x88FFD0
* ---
* - Check bit 0 set on Input Port
* SIM40 + 0x071D: btst #0 Input Port - IP
* --- if bit 0 is set
* 0x00801208: 0x80
* SIM40 + 0x071A: 0x81 Serial Module - CRB Command Register B
* ---
* SIM40 + 0x0720: 0x41 Serial Module - MR2A Mode register 2A
* SIM40 + 0x071D: 0x03 OPCR Output Port Control Register
* SIM40 + 0x0715: 0x03 IER Interrupt Enable Register
*
* Timer setup
* ------------
* SIM40 + 0x0640: 0x03 MCR Timer 2
* tbc...
*
* -------------------------------------------------------------
* The bootstrap copies the firmware to RAM and jumps to it
* -------------------------------------------------------------
*
* --- PC > 0x700000 so probably init of the RTXC tick timer setup?!
* SIM40 + 0x0022: 0x0140 PICR Periodic Interrupt Control Register
* SIM40 + 0x0024: 0x0029 PICR Periodic Interrupt Timer Register
*
* Serial port setup
* ------------------
* --- PC < 0x1FFFF so bootstrap code
* SIM40 + 0x0700: 0x00 Serial Module - MCR High Byte
* - The serial module is enabled
* - ignore FREEZE
* - The crystal clock is the clear-to-send input capture clock for both channels
* SIM40 + 0x071F: 0xFF Serial Module - OUTPUT PORT (OP)4 BIT RESET - all cleared
* SIM40 + 0x0700: 0x00 Serial Module - MCR High Byte
* - The serial module is enabled
* - ignore FREEZE
* - The crystal clock is the clear-to-send input capture clock for both channels
* SIM40 + 0x0701: 0x8A Serial Module - MCR Low Byte
* - The serial control regosters are only accessable from supervisor mode
* - IARB = 0x0A - serial module has priority level 10d
* SIM40 + 0x0704: 0x01 Serial Module - ILR Interrupt Level
* SIM40 + 0x0705: 0x44 Serial Module - IVR Interrupt Vector
* SIM40 + 0x0714: 0x80 Serial Module - ACR Auxiliary Control
* - Set 2 of the available baud rates is selected.
* - CTS state change has no effect
* --- setup Channel A
* SIM40 + 0x0712: 0x20 Serial Module - CRA Command Register A
* - Reset the receiver
* SIM40 + 0x0712: 0x30 Serial Module - CRA Command Register A
* - Reset the transmitter
* SIM40 + 0x0710: 0x93 Serial Module - MR1A Mode Register 1A
* - Upon receipt of a valid start bit, RTS≈ is negated if the channel's FIFO is full.
* RTS≈ is reasserted when the FIFO has an empty position available.
* - No Parity
* - Eight bits
* SIM40 + 0x0720: 0x07 Serial Module - MR2A Mode Register 2A
* - No CTS or RTS controll
* - 1 STOP bit
* SIM40 + 0x0711: 0xCC Serial Module - CSRA Clock Select Register A
* - 19200 baud TXc
* - 19200 baud Rxc
* SIM40 + 0x0712: 0x41 Serial Module - CRA Command Register A
* - Reset Error status
* - Enable Receiver
* - Check for charcters in channel A
* SIM40 + 0x0711: btst #0 Serial Module - SRA Status Register A
* --- if there is
* store all characters in buffer at (A6) 0x88FFD0
* --- setup Channel B (See details as for channel A above)
* SIM40 + 0x071A: 0x20 Serial Module - CRB Command Register B
* SIM40 + 0x071A: 0x30 Serial Module - CRB Command Register B
* SIM40 + 0x0718: 0x93 Serial Module - MR1B Mode Register 1B
* SIM40 + 0x0721: 0x07 Serial Module - MR2B Mode Register 2B
* SIM40 + 0x0719: 0xCC Serial Module - CSRB Clock Select Register B
* SIM40 + 0x071A: 0x41 Serial Module - CRB Command Register B
* - Check for characters in channel B
* SIM40 + 0x0719: btst #0 Serial Module - SRB Status Register B
* --- if there is
* store all characters in buffer at (A6) 0x88FFD0
* ---
* - Check bit 0 set on Input Port
* SIM40 + 0x071D: btst #0 Input Port - IP
* --- if bit 0 is set
* 0x00801208: 0x80
* SIM40 + 0x071A: 0x81 Serial Module - CRB Command Register B
* ---
* SIM40 + 0x0720: 0x41 Serial Module - MR2A Mode register 2A
* SIM40 + 0x071D: 0x03 OPCR Output Port Control Register
* SIM40 + 0x0715: 0x03 IER Interrupt Enable Register
*
* Timer setup
* ------------
* SIM40 + 0x0640: 0x03 MCR Timer 2
* tbc...
*
* // Tricks with the CS0 and the GAL:s
* 008004d8 SIM40 + 0x0044: 0x00000053 CS0 base 1 - base addr = 0x000000, Supervisor Data Space, No CPU Space, Valid CS
* 008004e2 SIM40 + 0x0040: 0x003FFF05 CS0 mask 1 - block size = 4194304 (4MB),
* ... strange series of operations between 800834 and 8008D4, suspecting GAL:s to be involved in some magic here
* 008004ee SIM40 + 0x0040: 0x003FFFF5 CS0 mask 1 - block size = 4194304 (4MB), Mask all accesses
* 008004f8 SIM40 + 0x0044: 0x0000005b CS0 base 1 - base addr = 0x000000, Supervisor Data Space, Write Protect, No CPU Space, Valid CS
*
* LED Dot Matrix Display hookup
* -------------------------------------
* "DISPLAY CONN ALT" connected to the SDA5708
* pin signal connected to
* 1 VCC +5v
* 2 LOAD1* PA2 68340 pin 121 IP01
* 3 DATA D8 68340 pin 134 IP01
* 4 SDCLK Q6 74138 pin 9 IP12
* 5 RESET* Q4 74259 pin 9 IP16
* 6 GND GND
*
* IP12 74138 hookup
* pin signal connected to
* 1 A0 A8 68340 pin 46 IP01
* 2 A1 A9 68340 pin 47 IP01
* 3 A2 A10 68340 pin 48 IP01
* 4 E1* CS3 68340 pin 5 IP01
* 5 E2* CS3 68340 pin 5 IP01
* 6 E3 +5v
* 9 Q6 SDCLK SDA5708 pin 4
* 14 Q1 Enable* 74259 pin 14 IP16
*
* IP16 74259 hookup
* pin signal connected to
* 1 A0 A0 68340 pin 113 IP01
* 2 A1 A1 68340 pin 37 IP01
* 3 A2 A2 68340 pin 38 IP01
* 9 Q4 Reset* SDA5708 pin 5
* 13 D D8 68340 pin 134 IP01
* 14 Enable* Q1 74138 pin 14 IP12
* 15 Clear* System reset
*
* Address map decoding
* --------------------
* IP06 GAL16V8 - DRAM-PS8V0.9
* pin signal connected to
* 1 Q V-FIFO-CLK inverted SCSI_CLK, origin to be found
* 2 I1 SCSI_CLK
* 3 I2 A0 68340 pin 113 IP01
* 4 I3 CS1 68340 pin 2 IP01
* 5 I4 A19 68340 pin 62 IP01
* 6 I5 A21 68340 pin 64 IP01
* 7 I6 BG 68340 pin 101 IP01
* 8 I7 SIZ0 68340 pin 105 IP01
* 9 I8 R/W 68340 pin 107 IP01
* 11 I9/OE* GND via an 100R resistor
* 12 O0 FC2 68340 pin 71 IP01
* 13 O1 I8 GAL168V pin 9 IP07 SCSI GAL
* 14 O2 nc
* 15 O3 RAS1 514260 pin 14 IP10-11 512KB DRAM each (IP11 is empty socket)
* 16 O4 LCAS 514260 pin 29 IP09-11 512KB DRAM each (IP11 is empty socket)
* 17 O5 UCAS 514260 pin 28 IP09-11 512KB DRAM each (IP11 is empty socket)
* 18 O6 RAS0 514260 pin 14 IP09 512KB DRAM
* 19 O7 I2 GAL16V8 pin 3 IP07 SCSI GAL (ANDed with !CS1) DMA_REQ
* +I1 GAL16V8 pin 2 IP08 LOGC GAL (ANDed with !CS1) DMA_REQ
* +G1 74257 pin 1 IP04-05 MUXes
*
* IP07 GAL16V8 - SCSI-PS8V0.8
* pin signal connected to
* 1 Q V-FIFO-CLK inverted SCSI_CLK, origin to be found
* 2 I1 R/W 68340 pin 107 IP01
* 3 I2 DMA_REQ
* 4 I3 Q 7474 pin 5 IP25
* 5 I4 DACK1 68340 pin 15
* 6 I5 D0 74138 pin 15 IP12
* 7 I6 !BG 7404<-68340 pin 101 IP01 Inverted Bus Grant
* 8 I7 3 7408 pin 3 IP23 OE for IP10
* 9 I8 O1 GAL16V pin 18 IP06 DRAM GAL
* 11 I9/OE* GND via an 100R resistor
* 12 O0 DREQ1 68340 pin 16
* 13 O1 WE 514260 pin 13 IP10 512KB DRAM
* 14 O2 DMA_ACK
* 15 O3 CS_SCSI
* 16 O4 RD_SCSI
* 17 O5 WE 514260 pin 13 IP11 empty socket
* 18 O6 WR_SCSI
* 19 O7 MWE
* +WE 514260 pin 13 IP09 512KB DRAM
*
* Interrupt sources
* ----------------------------------------------------------
* Description Device Lvl IRQ
* /Board Vector
* ----------------------------------------------------------
* IRQ7 CTRL20 IP19 circuit
* IRQ6 SCSI/DEMUX INT
* IRQ5 CAM module INT
* IRQ3 Audio/Video INT
*
* TODO:
* - Dump/understand the address decoder GAL:s IP06-IP08 (3 x 16V8)
* - Fix debug terminal
* - write demuxer
*
****************************************************************************/
#include "emu.h"
#include "machine/68340.h"
#include "machine/intelfsh.h"
#include "video/sda5708.h"
#include "machine/latch8.h" // IP16
#include "sda5708.lh"
#include "bus/rs232/rs232.h"
//**************************************************************************
// MACROS / CONSTANTS
//**************************************************************************
//#define LOG_GENERAL (1U << 0) // Already defined in logmacro.h
#define LOG_SETUP (1U << 1)
#define LOG_DISPLAY (1U << 2)
#define LOG_FLASH (1U << 3)
#define VERBOSE (LOG_FLASH)
#define LOG_OUTPUT_FUNC printf
#include "logmacro.h"
//#define LOG(...) LOGMASKED(LOG_GENERAL, __VA_ARGS__) // Already defined in logmacro.h
#define LOGSETUP(...) LOGMASKED(LOG_SETUP, __VA_ARGS__)
#define LOGDISPLAY(...) LOGMASKED(LOG_DISPLAY, __VA_ARGS__)
#define LOGFLASH(...) LOGMASKED(LOG_FLASH, __VA_ARGS__)
#ifdef _MSC_VER
#define FUNCNAME __func__
#else
#define FUNCNAME __PRETTY_FUNCTION__
#endif
#define LOCALFLASH 0 // 1 = local flash rom implementation 0 = intelflash_device
class dbox_state : public driver_device
{
public:
dbox_state(const machine_config &mconfig, device_type type, const char *tag)
: driver_device(mconfig, type, tag)
, m_maincpu(*this, "maincpu")
, m_display(*this, "display")
, m_ip16_74259(*this, "hct259.ip16")
{ }
void dbox(machine_config &config);
void init_dbox();
private:
required_device<m68340_cpu_device> m_maincpu;
required_device<sda5708_device> m_display;
required_device<latch8_device> m_ip16_74259;
virtual void machine_reset() override;
virtual void machine_start() override;
DECLARE_WRITE8_MEMBER(sda5708_reset);
DECLARE_WRITE8_MEMBER(sda5708_clk);
DECLARE_WRITE8_MEMBER(write_pa);
void dbox_map(address_map &map);
#if LOCALFLASH
DECLARE_READ16_MEMBER(sysflash_r);
DECLARE_WRITE16_MEMBER(sysflash_w);
private:
uint16_t * m_sysflash;
uint32_t m_sf_mode;
uint32_t m_sf_state;
#endif
};
void dbox_state::machine_start()
{
LOG("%s\n", FUNCNAME);
#if LOCALFLASH
save_pointer (NAME (m_sysflash), sizeof(m_sysflash));
m_sysflash = (uint16_t*)(memregion ("flash")->base());
m_sf_mode = 0;
m_sf_state = 0;
#endif
}
void dbox_state::machine_reset()
{
LOG("%s\n", FUNCNAME);
m_maincpu->tgate2_w(ASSERT_LINE); // Pulled high by resistor when not used as Rx from descrambler device
}
// TODO: Hookup the reset latch correctly
WRITE8_MEMBER (dbox_state::sda5708_reset){
LOGDISPLAY("%s - not implemented\n", FUNCNAME);
}
WRITE8_MEMBER (dbox_state::sda5708_clk){
LOGDISPLAY("%s\n", FUNCNAME);
m_display->sdclk_w(CLEAR_LINE);
m_display->data_w((0x80 & data) != 0 ? ASSERT_LINE : CLEAR_LINE);
m_display->sdclk_w(ASSERT_LINE);
}
WRITE8_MEMBER (dbox_state::write_pa){
LOGDISPLAY("%s\n", FUNCNAME);
m_display->load_w((0x04 & data) == 0 ? ASSERT_LINE : CLEAR_LINE);
}
#if LOCALFLASH
/* Lcoal emulation of the 29F800B 8Mbit flashes if the intelflsh bugs, relies on a complete command cycle is done per device, not in parallell */
/* TODO: Make a flash device of this and support programming per sector and persistance, as settings etc may be stored in a 8Kb sector */
WRITE16_MEMBER (dbox_state::sysflash_w){
LOGFLASH("%s pc:%08x offset:%08x data:%08x mask:%08x\n", FUNCNAME, m_maincpu->pc(), offset, data, mem_mask);
/*Data bits DQ15–DQ8 are don’t cares for unlock and command cycles.*/
m_sf_state = ((m_sf_state << 8) & 0xffffff00) | (data & 0xff);
switch (m_sf_state)
{
case 0xf0:// Reset command, to get back to reading flash data
m_sf_mode = 0;
m_sf_state = 0;
LOGFLASH("- Reset command\n");
break;
case 0xaa: // Building a multi byte command
m_sf_mode = 1;
break;
case 0xaa55: // Building a multi byte command
case 0xaa55a0: // Program Data
case 0xaa5580: // Erase
case 0xaa5580aa: // Chip or Sector Erase
break;
case 0xaa5590: // Autoselect mode
m_sf_mode = 4;
m_sf_state = 0;
LOGFLASH("- Autoselect Mode\n");
break;
case 0xb0: // Erase Suspend Mode
m_sf_mode = 2;
m_sf_state = 0;
LOGFLASH("- Erase Suspend Mode\n");
break;
case 0x30: // Erase Resume Mode
m_sf_mode = 3;
m_sf_state = 0;
LOGFLASH("- Erase Resume Mode\n");
break;
}
}
READ16_MEMBER (dbox_state::sysflash_r){
if (m_sf_mode == 0)
{
return m_sysflash[offset];
}
else
{
if (m_sf_mode == 4)
{
switch (offset & 0xff)
{
case 0x00: LOGFLASH("- Manufacturer ID\n"); return 01; break; // Manufacturer ID
// case 0x01: LOGFLASH("- Device ID\n"); return 0x22d6; break; // Device ID (Top Boot Block) 29F800TA
case 0x01: LOGFLASH("- Device ID\n"); return 0x2258; break; // Device ID (Bottom Boot Block) 29F800BA
case 0x02: LOGFLASH("- Sector %02x protection: 1 (hardcoded)\n", offset >> 12); return 01; break;
default: LOGFLASH(" - Unhandled Mode:%d State:%08x\n", m_sf_mode, m_sf_state);
}
}
}
return 0;
}
/* End of flash emulation */
#endif
void dbox_state::dbox_map(address_map &map)
{
// CS0 - bootrom
// 008004ee Address mask CS0 00000040, 003ffff5 (ffffffff) - Mask: 003fff00 FCM:0f DD:1 PS: 16-Bit
// 008004f8 Base address CS0 00000044, 0000005b (ffffffff) - Base: 00000000 BFC:05 WP:1 FTE:0 NCS:1 Valid: Yes
#if LOCALFLASH
map(0x000000, 0x3fffff).rom().r(FUNC(dbox_state::sysflash_r)).region("flash", 0);
map(0x000000, 0x3fffff).w(FUNC(dbox_state::sysflash_w));
#else
map(0x000000, 0x3fffff).rw("flash", FUNC(intelfsh16_device::read), FUNC(intelfsh16_device::write));
#endif
// CS2 - CS demux
// 0000009a Address mask CS2 00000050, 00007fff (ffffffff) - Mask: 00007f00 FCM:0f DD:3 PS: External DSACK response
// 000000a2 Base address CS2 00000054, 00700003 (ffffffff) - Base: 00700000 BFC:00 WP:0 FTE:0 NCS:1 Valid: Yes
//map(0x700000, 0x77ffff)
// CS3 - 8 bit devices
// 000000aa Address mask CS3 00000058, 000007f2 (ffffffff) - Mask: 00000700 FCM:0f DD:0 PS: 8-bit
// 000000b2 Base address CS3 0000005c, 00780003 (ffffffff) - Base: 00780000 BFC:00 WP:0 FTE:0 NCS:1 Valid: Yes
// map(0x780000, 0x7807ff)
map(0x780100, 0x7801ff).w(FUNC(dbox_state::sda5708_reset));
map(0x780600, 0x7806ff).w(FUNC(dbox_state::sda5708_clk));
// CS1 - RAM area
// 0000008a Address mask CS1 00000048, 003ffff5 (ffffffff) - Mask: 003fff00 FCM:0f DD:1 PS: 16-Bit
// 00000092 Base address CS1 0000004c, 00800003 (ffffffff) - Base: 00800000 BFC:00 WP:0 FTE:0 NCS:1 Valid: Yes
map(0x800000, 0xcfffff).ram();
}
/* Input ports */
static INPUT_PORTS_START( dbox )
INPUT_PORTS_END
void dbox_state::dbox(machine_config &config)
{
M68340(config, m_maincpu, 0); // The 68340 has an internal VCO as clock source, hence need no CPU clock
m_maincpu->set_crystal(XTAL(32'768)); // The dbox uses the VCO and has a crystal as VCO reference and to synthesize internal clocks from
m_maincpu->set_addrmap(AS_PROGRAM, &dbox_state::dbox_map);
m_maincpu->pa_out_callback().set(FUNC(dbox_state::write_pa));
/* Timer 2 is used to communicate with the descrambler module TODO: Write the descrambler module */
//m_maincpu->tout2_out_callback().set("dcs", FUNC(descrambler_device::txd_receiver));
//m_maincpu->tgate2_in_callback().set("dsc", FUNC(descrambler_device::rxd_receiver));
/* Configure the serial ports */
subdevice<mc68340_serial_module_device>("maincpu:serial")->a_tx_cb().set("rs232", FUNC(rs232_port_device::write_txd));
subdevice<mc68340_serial_module_device>("maincpu:serial")->b_tx_cb().set("modem", FUNC(rs232_port_device::write_txd));
rs232_port_device &rs232(RS232_PORT(config, "rs232", default_rs232_devices, nullptr));
rs232.rxd_handler().set("maincpu:serial", FUNC(mc68340_serial_module_device::rx_a_w));
rs232_port_device &modem(RS232_PORT(config, "modem", default_rs232_devices, nullptr));
modem.rxd_handler().set("maincpu:serial", FUNC(mc68340_serial_module_device::rx_b_w));
/* Add the boot flash */
AMD_29F800B_16BIT(config, "flash");
/* LED Matrix Display */
SDA5708(config, m_display, 0);
config.set_default_layout(layout_sda5708);
/* IP16 74256 8 bit latch */
LATCH8(config, m_ip16_74259);
m_ip16_74259->write_cb<4>().set("display", FUNC(sda5708_device::reset_w));
}
void dbox_state::init_dbox()
{
}
// TODO: Figure out correct ROM address map
// TODO: Figure out what DVB2000 is doing
ROM_START( dbox )
ROM_REGION16_BE(0x400000, "flash", ROMREGION_ERASEFF)
ROM_DEFAULT_BIOS("b200uns")
ROM_SYSTEM_BIOS(0, "b200uns", "Nokia Bootloader B200uns")
ROMX_LOAD( "b200uns.bin", 0x000000, 0x020000, CRC(0ff53e1f) SHA1(52002ee22c032775dac383d408c44abe9244724f), ROM_BIOS(0) )
ROM_SYSTEM_BIOS(1, "b210uns", "Nokia Bootloader B210uns")
ROMX_LOAD( "b210uns.bin", 0x000000, 0x020000, CRC(e8de221c) SHA1(db6e20ae73b11e8051f389968803732bd73fc1e4), ROM_BIOS(1) )
ROM_SYSTEM_BIOS(2, "nbc106.bin", "Nokia Bootloader CI v1.06")
ROMX_LOAD( "bootci106.bin", 0x000000, 0x020000, BAD_DUMP CRC(641762a9) SHA1(7c5233390cc66d3ddf4c730a3418ccfba1dc2905), ROM_BIOS(2) )
ROM_END
COMP( 1996, dbox, 0, 0, dbox, dbox, dbox_state, init_dbox, "Nokia Multimedia", "D-box 1, Kirsch gruppe", MACHINE_NOT_WORKING | MACHINE_NO_SOUND )