// license:BSD-3-Clause // copyright-holders:Barry Rodewald #ifndef __UPD71071_H__ #define __UPD71071_H__ #include "emu.h" struct upd71071_reg { UINT8 initialise; UINT8 channel; UINT16 count_current[4]; UINT16 count_base[4]; UINT32 address_current[4]; UINT32 address_base[4]; UINT16 device_control; UINT8 mode_control[4]; UINT8 status; UINT8 temp_l; UINT8 temp_h; UINT8 request; UINT8 mask; }; class upd71071_device : public device_t { public: upd71071_device(const machine_config &mconfig, std::string tag, device_t *owner, UINT32 clock); ~upd71071_device() {} static void static_set_cpu_tag(device_t &device, std::string tag) { downcast(device).m_cpu.set_tag(tag); } static void set_clock(device_t &device, int clock) { downcast(device).m_upd_clock = clock; } template static devcb_base &set_out_hreq_callback(device_t &device, _Object object) { return downcast(device).m_out_hreq_cb.set_callback(object); } template static devcb_base &set_out_eop_callback(device_t &device, _Object object) { return downcast(device).m_out_eop_cb.set_callback(object); } template static devcb_base &set_dma_read_0_callback(device_t &device, _Object object) { return downcast(device).m_dma_read_0_cb.set_callback(object); } template static devcb_base &set_dma_read_1_callback(device_t &device, _Object object) { return downcast(device).m_dma_read_1_cb.set_callback(object); } template static devcb_base &set_dma_read_2_callback(device_t &device, _Object object) { return downcast(device).m_dma_read_2_cb.set_callback(object); } template static devcb_base &set_dma_read_3_callback(device_t &device, _Object object) { return downcast(device).m_dma_read_3_cb.set_callback(object); } template static devcb_base &set_dma_write_0_callback(device_t &device, _Object object) { return downcast(device).m_dma_write_0_cb.set_callback(object); } template static devcb_base &set_dma_write_1_callback(device_t &device, _Object object) { return downcast(device).m_dma_write_1_cb.set_callback(object); } template static devcb_base &set_dma_write_2_callback(device_t &device, _Object object) { return downcast(device).m_dma_write_2_cb.set_callback(object); } template static devcb_base &set_dma_write_3_callback(device_t &device, _Object object) { return downcast(device).m_dma_write_3_cb.set_callback(object); } template static devcb_base &set_out_dack_0_callback(device_t &device, _Object object) { return downcast(device).m_out_dack_0_cb.set_callback(object); } template static devcb_base &set_out_dack_1_callback(device_t &device, _Object object) { return downcast(device).m_out_dack_1_cb.set_callback(object); } template static devcb_base &set_out_dack_2_callback(device_t &device, _Object object) { return downcast(device).m_out_dack_2_cb.set_callback(object); } template static devcb_base &set_out_dack_3_callback(device_t &device, _Object object) { return downcast(device).m_out_dack_3_cb.set_callback(object); } DECLARE_READ8_MEMBER(read); DECLARE_WRITE8_MEMBER(write); DECLARE_WRITE_LINE_MEMBER(set_hreq); DECLARE_WRITE_LINE_MEMBER(set_eop); int dmarq(int state, int channel); protected: // device-level overrides virtual void device_start() override; private: // internal state void soft_reset(); TIMER_CALLBACK_MEMBER(dma_transfer_timer); struct upd71071_reg m_reg; int m_selected_channel; int m_buswidth; int m_dmarq[4]; emu_timer* m_timer[4]; //int m_in_progress[4]; //int m_transfer_size[4]; int m_base; int m_upd_clock; devcb_write_line m_out_hreq_cb; devcb_write_line m_out_eop_cb; devcb_read16 m_dma_read_0_cb; devcb_read16 m_dma_read_1_cb; devcb_read16 m_dma_read_2_cb; devcb_read16 m_dma_read_3_cb; devcb_write16 m_dma_write_0_cb; devcb_write16 m_dma_write_1_cb; devcb_write16 m_dma_write_2_cb; devcb_write16 m_dma_write_3_cb; devcb_write_line m_out_dack_0_cb; devcb_write_line m_out_dack_1_cb; devcb_write_line m_out_dack_2_cb; devcb_write_line m_out_dack_3_cb; int m_hreq; int m_eop; optional_device m_cpu; }; extern const device_type UPD71071; #define MCFG_UPD71071_CPU(_tag) \ upd71071_device::static_set_cpu_tag(*device, "^" _tag); #define MCFG_UPD71071_CLOCK(_clk) \ upd71071_device::set_clock(*device, _clk); #define MCFG_UPD71071_OUT_HREQ_CB(_devcb) \ devcb = &upd71071_device::set_out_hreq_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_OUT_EOP_CB(_devcb) \ devcb = &upd71071_device::set_out_eop_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_READ_0_CB(_devcb) \ devcb = &upd71071_device::set_dma_read_0_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_READ_1_CB(_devcb) \ devcb = &upd71071_device::set_dma_read_1_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_READ_2_CB(_devcb) \ devcb = &upd71071_device::set_dma_read_2_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_READ_3_CB(_devcb) \ devcb = &upd71071_device::set_dma_read_3_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_WRITE_0_CB(_devcb) \ devcb = &upd71071_device::set_dma_write_0_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_WRITE_1_CB(_devcb) \ devcb = &upd71071_device::set_dma_write_1_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_WRITE_2_CB(_devcb) \ devcb = &upd71071_device::set_dma_write_2_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_DMA_WRITE_3_CB(_devcb) \ devcb = &upd71071_device::set_dma_write_3_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_OUT_DACK_0_CB(_devcb) \ devcb = &upd71071_device::set_out_dack_0_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_OUT_DACK_1_CB(_devcb) \ devcb = &upd71071_device::set_out_dack_1_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_OUT_DACK_2_CB(_devcb) \ devcb = &upd71071_device::set_out_dack_2_callback(*device, DEVCB_##_devcb); #define MCFG_UPD71071_OUT_DACK_3_CB(_devcb) \ devcb = &upd71071_device::set_out_dack_3_callback(*device, DEVCB_##_devcb); #endif /*UPD71071_H_*/