// license:BSD-3-Clause // copyright-holders:Ryan Holtz /***************************************************************************** SunPlus SPG2xx-series SoC peripheral emulation TODO: - Serial UART - I2C - SPI **********************************************************************/ #include "emu.h" #include "spg2xx.h" DEFINE_DEVICE_TYPE(SPG24X, spg24x_device, "spg24x", "SPG240-series System-on-a-Chip") // 256 sprites DEFINE_DEVICE_TYPE(SPG2XX_128, spg2xx_128_device, "spg2xx_128", "SPG2xx-series System-on-a-Chip (128 sprites)") // exact SPG part number unknown DEFINE_DEVICE_TYPE(SPG28X, spg28x_device, "spg28x", "SPG280-series System-on-a-Chip") // 64 sprites spg2xx_device::spg2xx_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock, uint16_t sprite_limit, address_map_constructor internal) : unsp_device(mconfig, type, tag, owner, clock, internal), device_mixer_interface(mconfig, *this, 2), m_spg_audio(*this, "spgaudio"), m_spg_io(*this, "spgio"), m_spg_sysdma(*this, "spgsysdma"), m_spg_video(*this, "spgvideo"), m_sprite_limit(sprite_limit), m_porta_out(*this), m_portb_out(*this), m_portc_out(*this), m_porta_in(*this), m_portb_in(*this), m_portc_in(*this), m_adc_in(*this), m_guny_in(*this), m_gunx_in(*this), m_i2c_w(*this), m_i2c_r(*this), m_uart_tx(*this), m_spi_tx(*this), m_chip_sel(*this), m_screen(*this, finder_base::DUMMY_TAG) { } spg24x_device::spg24x_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : spg2xx_device(mconfig, SPG24X, tag, owner, clock, 256, address_map_constructor(FUNC(spg24x_device::internal_map), this)) { } spg24x_device::spg24x_device(const machine_config &mconfig, device_type type, const char *tag, device_t *owner, uint32_t clock, uint16_t sprite_limit, address_map_constructor internal) : spg2xx_device(mconfig, type, tag, owner, clock, sprite_limit, internal) { } spg2xx_128_device::spg2xx_128_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : spg24x_device(mconfig, SPG2XX_128, tag, owner, clock, 128, address_map_constructor(FUNC(spg2xx_128_device::internal_map), this)) { } spg28x_device::spg28x_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock) : spg24x_device(mconfig, SPG28X, tag, owner, clock, 64, address_map_constructor(FUNC(spg28x_device::internal_map), this)) { } void spg2xx_device::internal_map(address_map &map) { map(0x000000, 0x0027ff).ram(); map(0x002800, 0x0028ff).rw(m_spg_video, FUNC(spg2xx_video_device::video_r), FUNC(spg2xx_video_device::video_w)); map(0x002900, 0x0029ff).ram().share("spgvideo:scrollram"); map(0x002a00, 0x002aff).ram().share("spgvideo:hcompram"); // not all models? map(0x002b00, 0x002bff).ram().share("spgvideo:paletteram"); map(0x002c00, 0x002fff).ram().share("spgvideo:spriteram"); map(0x003000, 0x0031ff).rw(m_spg_audio, FUNC(spg2xx_audio_device::audio_r), FUNC(spg2xx_audio_device::audio_w)); map(0x003200, 0x0033ff).rw(m_spg_audio, FUNC(spg2xx_audio_device::audio_phase_r), FUNC(spg2xx_audio_device::audio_phase_w)); map(0x003400, 0x0037ff).rw(m_spg_audio, FUNC(spg2xx_audio_device::audio_ctrl_r), FUNC(spg2xx_audio_device::audio_ctrl_w)); map(0x003d00, 0x003d2f).rw(m_spg_io, FUNC(spg2xx_io_device::io_r), FUNC(spg2xx_io_device::io_w)); map(0x003d30, 0x003dff).rw(m_spg_io, FUNC(spg2xx_io_device::io_extended_r), FUNC(spg2xx_io_device::io_extended_w)); map(0x003e00, 0x003e03).rw(m_spg_sysdma, FUNC(spg2xx_sysdma_device::dma_r), FUNC(spg2xx_sysdma_device::dma_w)); } void spg2xx_device::device_start() { unsp_device::device_start(); m_porta_out.resolve_safe(); m_portb_out.resolve_safe(); m_portc_out.resolve_safe(); m_porta_in.resolve_safe(0); m_portb_in.resolve_safe(0); m_portc_in.resolve_safe(0); m_adc_in.resolve_all_safe(0x0fff); m_guny_in.resolve_safe(0); m_gunx_in.resolve_safe(0); m_i2c_w.resolve_safe(); m_i2c_r.resolve_safe(0); m_uart_tx.resolve_safe(); m_spi_tx.resolve_safe(); m_chip_sel.resolve_safe(); save_item(NAME(m_sprite_limit)); save_item(NAME(m_pal_flag)); save_item(NAME(m_fiq_vector)); } void spg2xx_device::device_reset() { unsp_device::device_reset(); m_fiq_vector = 0xff; } void spg2xx_device::fiq_vector_w(uint8_t data) { m_fiq_vector = data; } WRITE_LINE_MEMBER(spg2xx_device::videoirq_w) { if (m_fiq_vector == 0) { set_state_unsynced(UNSP_FIQ_LINE, state); } else { set_state_unsynced(UNSP_IRQ0_LINE, state); } } WRITE_LINE_MEMBER(spg2xx_device::timerirq_w) { set_state_unsynced(UNSP_IRQ2_LINE, state); } WRITE_LINE_MEMBER(spg2xx_device::uartirq_w) { set_state_unsynced(UNSP_IRQ3_LINE, state); } WRITE_LINE_MEMBER(spg2xx_device::audioirq_w) { set_state_unsynced(UNSP_IRQ4_LINE, state); } WRITE_LINE_MEMBER(spg2xx_device::audiochirq_w) { set_state_unsynced(UNSP_FIQ_LINE, state); } WRITE_LINE_MEMBER(spg2xx_device::extirq_w) { set_state_unsynced(UNSP_IRQ5_LINE, state); } WRITE_LINE_MEMBER(spg2xx_device::ffreq1_w) { set_state_unsynced(UNSP_IRQ6_LINE, state); } WRITE_LINE_MEMBER(spg2xx_device::ffreq2_w) { set_state_unsynced(UNSP_IRQ7_LINE, state); } uint16_t spg2xx_device::space_r(offs_t offset) { address_space &cpuspace = this->space(AS_PROGRAM); return cpuspace.read_word(offset); } void spg2xx_device::configure_spg_io(spg2xx_io_device* io) { io->porta_in().set(FUNC(spg2xx_device::porta_r)); io->portb_in().set(FUNC(spg2xx_device::portb_r)); io->portc_in().set(FUNC(spg2xx_device::portc_r)); io->porta_out().set(FUNC(spg2xx_device::porta_w)); io->portb_out().set(FUNC(spg2xx_device::portb_w)); io->portc_out().set(FUNC(spg2xx_device::portc_w)); io->adc_in<0>().set(FUNC(spg2xx_device::adc_r<0>)); io->adc_in<1>().set(FUNC(spg2xx_device::adc_r<1>)); io->adc_in<2>().set(FUNC(spg2xx_device::adc_r<2>)); io->adc_in<3>().set(FUNC(spg2xx_device::adc_r<3>)); io->i2c_w().set(FUNC(spg2xx_device::eepromx_w)); io->i2c_r().set(FUNC(spg2xx_device::eepromx_r)); io->uart_tx().set(FUNC(spg2xx_device::uart_tx_w)); io->spi_tx().set(FUNC(spg2xx_device::spi_tx_w)); io->chip_select().set(FUNC(spg2xx_device::cs_w)); io->pal_read_callback().set(FUNC(spg2xx_device::get_pal_ntsc)); io->write_timer_irq_callback().set(FUNC(spg2xx_device::timerirq_w)); io->write_uart_adc_irq_callback().set(FUNC(spg2xx_device::uartirq_w)); io->write_external_irq_callback().set(FUNC(spg2xx_device::extirq_w)); io->write_ffrq_tmr1_irq_callback().set(FUNC(spg2xx_device::ffreq1_w)); io->write_ffrq_tmr2_irq_callback().set(FUNC(spg2xx_device::ffreq2_w)); io->write_fiq_vector_callback().set(FUNC(spg2xx_device::fiq_vector_w)); m_spg_video->guny_in().set(FUNC(spg2xx_device::guny_in_r)); m_spg_video->gunx_in().set(FUNC(spg2xx_device::gunx_in_r)); } void spg24x_device::device_add_mconfig(machine_config &config) { SPG2XX_AUDIO(config, m_spg_audio, DERIVED_CLOCK(1, 1)); m_spg_audio->write_irq_callback().set(FUNC(spg24x_device::audioirq_w)); m_spg_audio->channel_irq_callback().set(FUNC(spg24x_device::audiochirq_w)); m_spg_audio->space_read_callback().set(FUNC(spg24x_device::space_r)); m_spg_audio->add_route(0, *this, 1.0, AUTO_ALLOC_INPUT, 0); m_spg_audio->add_route(1, *this, 1.0, AUTO_ALLOC_INPUT, 1); SPG24X_IO(config, m_spg_io, DERIVED_CLOCK(1, 1), DEVICE_SELF, m_screen); SPG2XX_SYSDMA(config, m_spg_sysdma, DERIVED_CLOCK(1, 1), DEVICE_SELF); SPG24X_VIDEO(config, m_spg_video, DERIVED_CLOCK(1, 1), DEVICE_SELF, m_screen); m_spg_video->sprlimit_read_callback().set(FUNC(spg24x_device::get_sprlimit)); m_spg_video->write_video_irq_callback().set(FUNC(spg24x_device::videoirq_w)); configure_spg_io(m_spg_io); }