/**
* ZuluSCSI™ - Copyright (c) 2022-2025 Rabbit Hole Computing™
*
* ZuluSCSI™ firmware is licensed under the GPL version 3 or any later version.
*
* https://www.gnu.org/licenses/gpl-3.0.html
* ----
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
**/
// GPIO definitions for BSv2-based hardware
#pragma once
#include
// SCSI data input/output port.
// The data bus uses external bidirectional buffer, with
// direction controlled by DATA_DIR pin.
#define SCSI_IO_DB0 0
#define SCSI_IO_DB1 1
#define SCSI_IO_DB2 2
#define SCSI_IO_DB3 3
#define SCSI_IO_DB4 4
#define SCSI_IO_DB5 5
#define SCSI_IO_DB6 6
#define SCSI_IO_DB7 7
#define SCSI_IO_DBP 8
#define SCSI_IO_DATA_MASK 0x1FF
#define SCSI_IO_SHIFT 0
// Data direction control
#define SCSI_DATA_DIR 9
// SCSI output status lines
#define SCSI_OUT_IO 22
#define SCSI_OUT_CD 18
#define SCSI_OUT_MSG 20
#define SCSI_OUT_RST 22
#define SCSI_OUT_BSY 27
#define SCSI_OUT_REQ 17
#define SCSI_OUT_SEL 19
// SCSI input status signals
#define SCSI_IN_SEL 18
#define SCSI_IN_ACK 26
#define SCSI_IN_ATN 28
#define SCSI_IN_BSY 20
#define SCSI_IN_RST 21
// Status LED pins
#define LED_PIN 25
// SD card pins in SDIO mode
#define SDIO_CLK 10
#define SDIO_CMD 11
#define SDIO_D0 12
#define SDIO_D1 13
#define SDIO_D2 14
#define SDIO_D3 15
// SD card pins in SPI mode
#define SD_SPI spi0
#define SD_SPI_SCK 10
#define SD_SPI_MOSI 11
#define SD_SPI_MISO 12
#define SD_SPI_CS 15
// Other pins
#define SWO_PIN 16
// Below are GPIO access definitions that are used from scsiPhy.cpp.
// Write a single SCSI pin.
// Example use: SCSI_OUT(ATN, 1) sets SCSI_ATN to low (active) state.
#define SCSI_OUT(pin, state) \
*(state ? &sio_hw->gpio_clr : &sio_hw->gpio_set) = 1 << (SCSI_OUT_ ## pin)
// Read a single SCSI pin.
// Example use: SCSI_IN(ATN), returns 1 for active low state.
#define SCSI_IN(pin) \
((sio_hw->gpio_in & (1 << (SCSI_IN_ ## pin))) ? 0 : 1)
// Enable driving of shared control pins
#define SCSI_ENABLE_CONTROL_OUT() \
(sio_hw->gpio_oe_set = (1 << SCSI_OUT_CD) | \
(1 << SCSI_OUT_MSG))
// Set SCSI data bus to output
#define SCSI_ENABLE_DATA_OUT() \
(sio_hw->gpio_set = (1 << SCSI_DATA_DIR), \
sio_hw->gpio_oe_set = SCSI_IO_DATA_MASK)
// Write SCSI data bus, also sets REQ to inactive.
#define SCSI_OUT_DATA(data) \
gpio_put_masked(SCSI_IO_DATA_MASK | (1 << SCSI_OUT_REQ), \
g_scsi_parity_lookup[(uint8_t)(data)] | (1 << SCSI_OUT_REQ)), \
SCSI_ENABLE_DATA_OUT()
// Release SCSI data bus and REQ signal
#define SCSI_RELEASE_DATA_REQ() \
(sio_hw->gpio_oe_clr = SCSI_IO_DATA_MASK, \
sio_hw->gpio_clr = (1 << SCSI_DATA_DIR), \
sio_hw->gpio_set = (1 << SCSI_OUT_REQ))
// Release all SCSI outputs
#define SCSI_RELEASE_OUTPUTS() \
SCSI_RELEASE_DATA_REQ(), \
sio_hw->gpio_set = (1 << SCSI_OUT_IO) | \
(1 << SCSI_OUT_CD) | \
(1 << SCSI_OUT_MSG) | \
(1 << SCSI_OUT_RST) | \
(1 << SCSI_OUT_BSY) | \
(1 << SCSI_OUT_REQ) | \
(1 << SCSI_OUT_SEL), \
delay(1), \
sio_hw->gpio_oe_clr = (1 << SCSI_OUT_CD) | \
(1 << SCSI_OUT_MSG)
// Read SCSI data bus
#define SCSI_IN_DATA() \
(~sio_hw->gpio_in & SCSI_IO_DATA_MASK) >> SCSI_IO_SHIFT