//--------------------------------------------------------------------------- // // SCSI Target Emulator PiSCSI // for Raspberry Pi // // Powered by XM6 TypeG Technology. // Copyright (C) 2016-2020 GIMONS // //--------------------------------------------------------------------------- #pragma once #include "hal/bus.h" #include "shared/scsi.h" #include #include #ifdef __linux__ #include #endif //--------------------------------------------------------------------------- // // Connection method definitions // //--------------------------------------------------------------------------- //#define CONNECT_TYPE_STANDARD // Standard (SCSI logic, standard pin assignment) //#define CONNECT_TYPE_FULLSPEC // Full spec (SCSI logic, standard pin assignment) //#define CONNECT_TYPE_AIBOM // AIBOM version (positive logic, unique pin assignment) //#define CONNECT_TYPE_GAMERNIUM // GAMERnium.com version (standard logic, unique pin assignment) #if defined CONNECT_TYPE_STANDARD #include "hal/connection_type/connection_standard.h" #elif defined CONNECT_TYPE_FULLSPEC #include "hal/connection_type/connection_fullspec.h" #elif defined CONNECT_TYPE_AIBOM #include "hal/connection_type/connection_aibom.h" #elif defined CONNECT_TYPE_GAMERNIUM #include "hal/connection_type/connection_gamernium.h" #else #error Invalid connection type or none specified #endif // #define ENABLE_GPIO_TRACE #ifdef ENABLE_GPIO_TRACE #define GPIO_FUNCTION_TRACE LOGTRACE("%s", __PRETTY_FUNCTION__) #else #define GPIO_FUNCTION_TRACE #endif using namespace std; //--------------------------------------------------------------------------- // // Signal control logic and pin assignment customization // //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- // // SIGNAL_CONTROL_MODE: Signal control mode selection // You can customize the signal control logic from Version 1.22 // // 0:SCSI logical specification // Conversion board using 74LS641-1 etc. directly connected or published on HP // True : 0V // False : Open collector output (disconnect from bus) // // 1:Negative logic specification (when using conversion board for negative logic -> SCSI logic) // There is no conversion board with this specification at this time // True : 0V -> (CONVERT) -> 0V // False : 3.3V -> (CONVERT) -> Open collector output // // 2:Positive logic specification (when using the conversion board for positive logic -> SCSI logic) // PiSCSI Adapter Rev.C @132sync etc. // // True : 3.3V -> (CONVERT) -> 0V // False : 0V -> (CONVERT) -> Open collector output // //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- // // Control signal pin assignment setting // GPIO pin mapping table for control signals. // // Control signal: // PIN_ACT // Signal that indicates the status of processing SCSI command. // PIN_ENB // Signal that indicates the valid signal from start to finish. // PIN_TAD // Signal that indicates the input/output direction of the target signal (BSY,IO,CD,MSG,REG). // PIN_IND // Signal that indicates the input/output direction of the initiator signal (SEL, ATN, RST, ACK). // PIN_DTD // Signal that indicates the input/output direction of the data lines (DT0...DT7,DP). // //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- // // Control signal output logic // 0V:FALSE 3.3V:TRUE // // ACT_ON // PIN_ACT signal // ENB_ON // PIN_ENB signal // TAD_IN // PIN_TAD This is the logic when inputting. // IND_IN // PIN_ENB This is the logic when inputting. // DTD_IN // PIN_ENB This is the logic when inputting. // //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- // // SCSI signal pin assignment setting // GPIO pin mapping table for SCSI signals. // PIN_DT0~PIN_SEL // //--------------------------------------------------------------------------- //--------------------------------------------------------------------------- // // Constant declarations (GPIO) // //--------------------------------------------------------------------------- const static int GPIO_INPUT = 0; const static int GPIO_OUTPUT = 1; const static int GPIO_IRQ_IN = 3; const static int GPIO_PULLNONE = 0; const static int GPIO_PULLDOWN = 1; const static int GPIO_PULLUP = 2; //--------------------------------------------------------------------------- // // Constant declarations (Control signals) // //--------------------------------------------------------------------------- #define ACT_OFF !ACT_ON #define ENB_OFF !ENB_ON #define TAD_OUT !TAD_IN #define IND_OUT !IND_IN #define DTD_OUT !DTD_IN //--------------------------------------------------------------------------- // // Constant declarations (SCSI) // //--------------------------------------------------------------------------- #define IN GPIO_INPUT #define OUT GPIO_OUTPUT const static int ON = 1; const static int OFF = 0; //--------------------------------------------------------------------------- // // Class definition // //--------------------------------------------------------------------------- class GPIOBUS : public BUS { public: // Basic Functions GPIOBUS() = default; // Destructor ~GPIOBUS() override = default; // Initialization bool Init(mode_e mode = mode_e::TARGET) override; // Command receive handshake int CommandHandShake(vector&) override; // Data receive handshake int ReceiveHandShake(uint8_t *, int) override; // Data transmission handshake int SendHandShake(uint8_t *, int, int) override; // SEL signal event polling bool PollSelectEvent() override; // Clear SEL signal event void ClearSelectEvent() override; protected: virtual void MakeTable() = 0; bool GetSignal(int pin) const override = 0; void SetSignal(int pin, bool ast) override = 0; bool WaitSignal(int pin, bool ast); // Wait for a signal to change virtual bool WaitREQ(bool ast) = 0; virtual bool WaitACK(bool ast) = 0; // Interrupt control virtual void EnableIRQ() = 0; virtual void DisableIRQ() = 0; // Set GPIO output signal virtual void PinSetSignal(int pin, bool ast) = 0; // Set GPIO drive strength virtual void DrvConfig(uint32_t drive) = 0; // Operation mode mode_e actmode = mode_e::TARGET; #ifdef __linux__ // SEL signal event request struct gpioevent_request selevreq = {}; // epoll file descriptor int epfd = 0; #endif };