// license:BSD-3-Clause // copyright-holders:Curt Coder, Joakim Larsson Edstrom /*************************************************************************** Z80-SIO Serial Input/Output **************************************************************************** _____ _____ _____ _____ D1 1|* \_/ |40 D0 _/ |40 D0 _/ |40 D0 D3 2| |39 D2 : |39 D2 : |39 D2 D5 3| |38 D4 : |38 D4 : |38 D4 D7 4| |37 D6 : |37 D6 : |37 D6 _INT 5| |36 _IORQ : |36 _IORQ : |36 _IORQ IEO 6| |35 _CE : |35 _CE : |35 _CE IEI 7| |34 B/_A : |34 B/_A : |34 B/_A _M1 8| |33 C/_D : |33 C/_D : |33 C/_D VDD 9| DIP40 |32 _RD : DIP40 |32 _RD : DIP40 |32 _RD _W//RDYA 10| Z80 |31 GND : Z80 |31 GND : Z80 |31 GND _SYNCA 11| SIO/0 |30 _W/_RDYB: SIO/1 |30 _W/_RDYB: SIO/2 |30 _W/_RDYB RxDA 12| |29 _SYNCB : |29 _SYNCB : |29 _SYNCB _RxCA 13| |28 RxDB : |28 RxDB : |28 _RxCB _TxCA 14| |27 _RxTxCB : |27 _RxCB : |27 _TxCB TxDA 15| |26 TxDB : |26 _TxCB : |26 TxDB _DTRA 16| |25 _DTRB : |25 TxD_B : |25 _DTRB _RTSA 17| |24 _RTSB : |24 _RTSB : |24 _RTSB _CTSA 18| |23 _CTSB : |23 _CTSB : |23 _CTSB _DCDA 19| |22 _DCDB : |22 _DCDB : |22 _DCDB CLK 20|_____________|21 _RESET :_______|21 _RESET :_______|21 _RESET *I *I *I N O *I O N D D D D / D D D D R N D D D D D D D D R*C T 7 5 3 1 C 0 2 4 6 Q T 7 5 3 1 0 2 4 6 Q E +----------------------+ +----------------------+ IEI|34 22| *CE IEI|6 5 4 3 2 1 44 42 40|B/ *A IEO|35 21| B/ *A IEO|8 43 41 |C/ *D *M1| | C/ *D *M1|9 37|*RD +5v| | *RD +5V|10 36|GND *W/ *RDYA| QFP44 | GND *W/ *RDYA|11 PLCC44 35|*W/ *RDYB N/C| Z80 SIO/3 | N/C *SYNCA|12 Z80 SIO/4 34|*SYNCB *SYNCA| Z804C43 | *W/ *RDYB RxDA|13 33|RxDB RxDA| | *SYNCB *RxCA|14 32|*RxCB *RxCA|42 | RxDB *TxCA|15 31|*TxCB *TxCA|43 1 1 | *RxCB TxDA| 19 21 23 25 30|TxDB TxDA`. 2 3 4 5 6 7 8 9 0 1 | *TxCB N/C|18 20 22 24 26 29|N/C `--------------------+ +----------------------+ *D*R*C*D C*R*D*C*R*D*T *D*R*C*D C*R*D*C*R*D N T T T C L E C*T T T x T T T C L E C T T T / R S S D K S D S S R D R S S D K S D S S R C A A A A E B B B B B A A A A E B B B B T T ***************************************************************************/ #ifndef MAME_MACHINE_Z80SIO_H #define MAME_MACHINE_Z80SIO_H #pragma once #include "machine/z80daisy.h" //************************************************************************** // DEVICE CONFIGURATION MACROS //************************************************************************** #define SIO_CHANA_TAG "cha" #define SIO_CHANB_TAG "chb" /* Generic macros */ #define MCFG_Z80SIO_OUT_INT_CB(_devcb) \ downcast(*device).set_out_int_callback(DEVCB_##_devcb); #define MCFG_Z80SIO_CPU(_cputag) \ downcast(*device).set_cputag(_cputag); // Port A callbacks #define MCFG_Z80SIO_OUT_TXDA_CB(_devcb) \ downcast(*device).set_out_txd_callback<0>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_DTRA_CB(_devcb) \ downcast(*device).set_out_dtr_callback<0>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_RTSA_CB(_devcb) \ downcast(*device).set_out_rts_callback<0>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_WRDYA_CB(_devcb) \ downcast(*device).set_out_wrdy_callback<0>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_SYNCA_CB(_devcb) \ downcast(*device).set_out_sync_callback<0>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_RXDRQA_CB(_devcb) \ downcast(*device).set_out_rxdrq_callback<0>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_TXDRQA_CB(_devcb) \ downcast(*device).set_out_txdrq_callback<0>(DEVCB_##_devcb); // Port B callbacks #define MCFG_Z80SIO_OUT_TXDB_CB(_devcb) \ downcast(*device).set_out_txd_callback<1>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_DTRB_CB(_devcb) \ downcast(*device).set_out_dtr_callback<1>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_RTSB_CB(_devcb) \ downcast(*device).set_out_rts_callback<1>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_WRDYB_CB(_devcb) \ downcast(*device).set_out_wrdy_callback<1>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_SYNCB_CB(_devcb) \ downcast(*device).set_out_sync_callback<1>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_RXDRQB_CB(_devcb) \ downcast(*device).set_out_rxdrq_callback<1>(DEVCB_##_devcb); #define MCFG_Z80SIO_OUT_TXDRQB_CB(_devcb) \ downcast(*device).set_out_txdrq_callback<1>(DEVCB_##_devcb); //************************************************************************** // TYPE DEFINITIONS //************************************************************************** // ======================> z80sio_channel class z80sio_device; class z80sio_channel : public device_t { friend class z80sio_device; friend class i8274_new_device; friend class upd7201_new_device; public: z80sio_channel(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); // read register handlers uint8_t do_sioreg_rr0(); uint8_t do_sioreg_rr1(); uint8_t do_sioreg_rr2(); // write register handlers void do_sioreg_wr0(uint8_t data); void do_sioreg_wr0_resets(uint8_t data); void do_sioreg_wr1(uint8_t data); void do_sioreg_wr2(uint8_t data); void do_sioreg_wr3(uint8_t data); void do_sioreg_wr4(uint8_t data); void do_sioreg_wr5(uint8_t data); void do_sioreg_wr6(uint8_t data); void do_sioreg_wr7(uint8_t data); uint8_t control_read(); void control_write(uint8_t data); uint8_t data_read(); void data_write(uint8_t data); DECLARE_WRITE_LINE_MEMBER( write_rx ) { m_rxd = state; } DECLARE_WRITE_LINE_MEMBER( cts_w ); DECLARE_WRITE_LINE_MEMBER( dcd_w ); DECLARE_WRITE_LINE_MEMBER( rxc_w ); DECLARE_WRITE_LINE_MEMBER( txc_w ); DECLARE_WRITE_LINE_MEMBER( sync_w ); // Register state // read registers enum uint8_t m_rr0; // REG_RR0_STATUS uint8_t m_rr1; // REG_RR1_SPEC_RCV_COND // write registers enum uint8_t m_wr0; // REG_WR0_COMMAND_REGPT uint8_t m_wr1; // REG_WR1_INT_DMA_ENABLE uint8_t m_wr2; // REG_WR2_INT_VECTOR uint8_t m_wr3; // REG_WR3_RX_CONTROL uint8_t m_wr4; // REG_WR4_RX_TX_MODES uint8_t m_wr5; // REG_WR5_TX_CONTROL uint8_t m_wr6; // REG_WR6_SYNC_OR_SDLC_A uint8_t m_wr7; // REG_WR7_SYNC_OR_SDLC_F protected: enum { INT_TRANSMIT = 0, INT_EXTERNAL, INT_RECEIVE }; enum { INT_RCV_SPC_PRI_LVL = 0, INT_TRANSMIT_PRI_LVL = 1, INT_EXTERNAL_PRI_LVL = 2 }; // Read registers enum { REG_RR0_STATUS = 0, REG_RR1_SPEC_RCV_COND = 1, REG_RR2_INTERRUPT_VECT = 2 }; // Write registers enum { REG_WR0_COMMAND_REGPT = 0, REG_WR1_INT_DMA_ENABLE = 1, REG_WR2_INT_VECTOR = 2, REG_WR3_RX_CONTROL = 3, REG_WR4_RX_TX_MODES = 4, REG_WR5_TX_CONTROL = 5, REG_WR6_SYNC_OR_SDLC_A = 6, REG_WR7_SYNC_OR_SDLC_F = 7 }; // used in a flag bitmap variable enum : uint8_t { TX_FLAG_CRC = 1U << 0, // include in checksum calculation TX_FLAG_FRAMING = 1U << 1, // tranmitting framing bits TX_FLAG_SPECIAL = 1U << 2 // transmitting checksum or abort sequence }; z80sio_channel( const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock, uint8_t rr1_auto_reset); // device-level overrides virtual void device_resolve_objects() override; virtual void device_start() override; virtual void device_reset() override; void update_dtr_rts_break(); void set_dtr(int state); void set_rts(int state); int get_clock_mode(); int get_rx_word_length(); int get_tx_word_length() const; int get_tx_word_length(uint8_t data) const; // receiver state int m_rx_fifo_depth; uint32_t m_rx_data_fifo; uint32_t m_rx_error_fifo; int m_rx_clock; // receive clock line state int m_rx_count; // clocks until next sample int m_rx_bit; // receive data bit (0 = start bit, 1 = LSB, etc.) uint16_t m_rx_sr; // receive shift register int m_rx_first; // first character received int m_rx_break; // receive break condition int m_rxd; int m_sh; // sync hunt // transmitter state uint8_t m_tx_data; int m_tx_clock; // transmit clock line state int m_tx_count; // clocks until next bit transition int m_tx_bits; // remaining bits in shift register int m_tx_parity; // parity bit position or zero if disabled uint16_t m_tx_sr; // transmit shift register uint16_t m_tx_crc; // calculated transmit checksum uint8_t m_tx_hist; // transmit history (for bitstuffing) uint8_t m_tx_flags; // internal transmit control flags int m_txd; int m_dtr; // data terminal ready int m_rts; // request to send // external/status monitoring int m_ext_latched; // changed data lines int m_brk_latched; // break status latched int m_cts; // clear to send line state int m_dcd; // data carrier detect line state int m_sync; // sync line state // synchronous state int m_index; z80sio_device *m_uart; private: // helpers void out_txd_cb(int state); void out_rts_cb(int state); void out_dtr_cb(int state); void set_ready(bool ready); bool receive_allowed() const; bool transmit_allowed() const; void receive_enabled(); void sync_receive(); void receive_data(); void queue_received(uint16_t data, uint32_t error); void advance_rx_fifo(); void transmit_enable(); void transmit_complete(); void async_tx_setup(); void sync_tx_sr_empty(); void tx_setup(uint16_t data, int bits, int parity, bool framing, bool special); void tx_setup_idle(); void reset_ext_status(); void read_ext(); void trigger_ext_int(); uint8_t const m_rr1_auto_reset; }; // ======================> i8274_channel class i8274_channel : public z80sio_channel { public: i8274_channel(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); }; // ======================> z80sio_device class z80sio_device : public device_t, public device_z80daisy_interface { friend class z80sio_channel; public: // construction/destruction z80sio_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); template devcb_base &set_out_txd_callback(Object &&cb) { return m_out_txd_cb[N].set_callback(std::forward(cb)); } template devcb_base &set_out_dtr_callback(Object &&cb) { return m_out_dtr_cb[N].set_callback(std::forward(cb)); } template devcb_base &set_out_rts_callback(Object &&cb) { return m_out_rts_cb[N].set_callback(std::forward(cb)); } template devcb_base &set_out_wrdy_callback(Object &&cb) { return m_out_wrdy_cb[N].set_callback(std::forward(cb)); } template devcb_base &set_out_sync_callback(Object &&cb) { return m_out_sync_cb[N].set_callback(std::forward(cb)); } template devcb_base &set_out_int_callback(Object &&cb) { return m_out_int_cb.set_callback(std::forward(cb)); } template devcb_base &set_out_rxdrq_callback(Object &&cb) { return m_out_rxdrq_cb[N].set_callback(std::forward(cb)); } template devcb_base &set_out_txdrq_callback(Object &&cb) { return m_out_txdrq_cb[N].set_callback(std::forward(cb)); } auto out_txda_callback() { return m_out_txd_cb[0].bind(); } auto out_txdb_callback() { return m_out_txd_cb[1].bind(); } auto out_dtra_callback() { return m_out_dtr_cb[0].bind(); } auto out_dtrb_callback() { return m_out_dtr_cb[1].bind(); } auto out_rtsa_callback() { return m_out_rts_cb[0].bind(); } auto out_rtsb_callback() { return m_out_rts_cb[1].bind(); } auto out_wrdya_callback() { return m_out_wrdy_cb[0].bind(); } auto out_wrdyb_callback() { return m_out_wrdy_cb[1].bind(); } auto out_synca_callback() { return m_out_sync_cb[0].bind(); } auto out_syncb_callback() { return m_out_sync_cb[1].bind(); } auto out_int_callback() { return m_out_int_cb.bind(); } auto out_rxdrqa_callback() { return m_out_rxdrq_cb[0].bind(); } auto out_rxdrqb_callback() { return m_out_rxdrq_cb[1].bind(); } auto out_txdrqa_callback() { return m_out_txdrq_cb[0].bind(); } auto out_txdrqb_callback() { return m_out_txdrq_cb[1].bind(); } template void set_cputag(T &&tag) { m_hostcpu.set_tag(std::forward(tag)); } DECLARE_READ8_MEMBER( cd_ba_r ); DECLARE_WRITE8_MEMBER( cd_ba_w ); DECLARE_READ8_MEMBER( ba_cd_r ); DECLARE_WRITE8_MEMBER( ba_cd_w ); DECLARE_READ8_MEMBER( da_r ) { return m_chanA->data_read(); } DECLARE_WRITE8_MEMBER( da_w ) { m_chanA->data_write(data); } DECLARE_READ8_MEMBER( db_r ) { return m_chanB->data_read(); } DECLARE_WRITE8_MEMBER( db_w ) { m_chanB->data_write(data); } DECLARE_READ8_MEMBER( ca_r ) { return m_chanA->control_read(); } DECLARE_WRITE8_MEMBER( ca_w ) { m_chanA->control_write(data); } DECLARE_READ8_MEMBER( cb_r ) { return m_chanB->control_read(); } DECLARE_WRITE8_MEMBER( cb_w ) { m_chanB->control_write(data); } // interrupt acknowledge virtual int m1_r(); DECLARE_WRITE_LINE_MEMBER( rxa_w ) { m_chanA->write_rx(state); } DECLARE_WRITE_LINE_MEMBER( rxb_w ) { m_chanB->write_rx(state); } DECLARE_WRITE_LINE_MEMBER( ctsa_w ) { m_chanA->cts_w(state); } DECLARE_WRITE_LINE_MEMBER( ctsb_w ) { m_chanB->cts_w(state); } DECLARE_WRITE_LINE_MEMBER( dcda_w ) { m_chanA->dcd_w(state); } DECLARE_WRITE_LINE_MEMBER( dcdb_w ) { m_chanB->dcd_w(state); } DECLARE_WRITE_LINE_MEMBER( rxca_w ) { m_chanA->rxc_w(state); } DECLARE_WRITE_LINE_MEMBER( rxcb_w ) { m_chanB->rxc_w(state); } DECLARE_WRITE_LINE_MEMBER( txca_w ) { m_chanA->txc_w(state); } DECLARE_WRITE_LINE_MEMBER( txcb_w ) { m_chanB->txc_w(state); } DECLARE_WRITE_LINE_MEMBER( rxtxcb_w ) { m_chanB->rxc_w(state); m_chanB->txc_w(state); } DECLARE_WRITE_LINE_MEMBER( synca_w ) { m_chanA->sync_w(state); } DECLARE_WRITE_LINE_MEMBER( syncb_w ) { m_chanB->sync_w(state); } protected: z80sio_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock); // device-level overrides virtual void device_validity_check(validity_checker &valid) const override; virtual void device_resolve_objects() override; virtual void device_start() override; virtual void device_reset() override; virtual void device_add_mconfig(machine_config &config) override; // device_z80daisy_interface overrides virtual int z80daisy_irq_state() override; virtual int z80daisy_irq_ack() override; virtual void z80daisy_irq_reti() override; // internal interrupt management void check_interrupts(); void reset_interrupts(); void trigger_interrupt(int index, int type); void clear_interrupt(int index, int type); void return_from_interrupt(); virtual uint8_t read_vector(); virtual int const *interrupt_priorities() const; int get_channel_index(z80sio_channel const *ch) const { return (ch == m_chanA) ? 0 : 1; } enum { CHANNEL_A = 0, CHANNEL_B }; required_device m_chanA; required_device m_chanB; optional_device m_hostcpu; // internal state devcb_write_line m_out_txd_cb[2]; devcb_write_line m_out_dtr_cb[2]; devcb_write_line m_out_rts_cb[2]; devcb_write_line m_out_wrdy_cb[2]; devcb_write_line m_out_sync_cb[2]; devcb_write_line m_out_int_cb; devcb_write_line m_out_rxdrq_cb[2]; devcb_write_line m_out_txdrq_cb[2]; int m_int_state[8]; // interrupt state int m_int_source[8]; // interrupt source }; class i8274_new_device : public z80sio_device { public: i8274_new_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); virtual int m1_r() override; protected: i8274_new_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock); // device_t overrides virtual void device_add_mconfig(machine_config &config) override; // device_z80daisy_interface overrides virtual int z80daisy_irq_ack() override; virtual void z80daisy_irq_reti() override; virtual uint8_t read_vector() override; virtual int const *interrupt_priorities() const override; }; class upd7201_new_device : public i8274_new_device { public: upd7201_new_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock); }; // device type declaration DECLARE_DEVICE_TYPE(Z80SIO, z80sio_device) DECLARE_DEVICE_TYPE(I8274_NEW, i8274_new_device) DECLARE_DEVICE_TYPE(UPD7201_NEW, upd7201_new_device) #endif // MAME_MACHINE_Z80SIO_H