// SPDX-License-Identifier: GPL-2.0 /* * Probe for F81216A LPC to 4 UART * * Copyright (C) 2014-2016 Ricardo Ribalda, Qtechnology A/S */ #include #include #include #include #include #include #include "8250.h" #define ADDR_PORT 0 #define DATA_PORT 1 #define EXIT_KEY 0xAA #define CHIP_ID1 0x20 #define CHIP_ID2 0x21 #define CHIP_ID_F81865 0x0407 #define CHIP_ID_F81866 0x1010 #define CHIP_ID_F81216AD 0x1602 #define CHIP_ID_F81216H 0x0501 #define CHIP_ID_F81216 0x0802 #define VENDOR_ID1 0x23 #define VENDOR_ID1_VAL 0x19 #define VENDOR_ID2 0x24 #define VENDOR_ID2_VAL 0x34 #define IO_ADDR1 0x61 #define IO_ADDR2 0x60 #define LDN 0x7 #define FINTEK_IRQ_MODE 0x70 #define IRQ_SHARE BIT(4) #define IRQ_MODE_MASK (BIT(6) | BIT(5)) #define IRQ_LEVEL_LOW 0 #define IRQ_EDGE_HIGH BIT(5) /* * F81216H clock source register, the value and mask is the same with F81866, * but it's on F0h. * * Clock speeds for UART (register F0h) * 00: 1.8432MHz. * 01: 18.432MHz. * 10: 24MHz. * 11: 14.769MHz. */ #define RS485 0xF0 #define RTS_INVERT BIT(5) #define RS485_URA BIT(4) #define RXW4C_IRA BIT(3) #define TXW4C_IRA BIT(2) #define FIFO_CTRL 0xF6 #define FIFO_MODE_MASK (BIT(1) | BIT(0)) #define FIFO_MODE_128 (BIT(1) | BIT(0)) #define RXFTHR_MODE_MASK (BIT(5) | BIT(4)) #define RXFTHR_MODE_4X BIT(5) #define F81216_LDN_LOW 0x0 #define F81216_LDN_HIGH 0x4 /* * F81866 registers * * The IRQ setting mode of F81866 is not the same with F81216 series. * Level/Low: IRQ_MODE0:0, IRQ_MODE1:0 * Edge/High: IRQ_MODE0:1, IRQ_MODE1:0 * * Clock speeds for UART (register F2h) * 00: 1.8432MHz. * 01: 18.432MHz. * 10: 24MHz. * 11: 14.769MHz. */ #define F81866_IRQ_MODE 0xf0 #define F81866_IRQ_SHARE BIT(0) #define F81866_IRQ_MODE0 BIT(1) #define F81866_FIFO_CTRL FIFO_CTRL #define F81866_IRQ_MODE1 BIT(3) #define F81866_LDN_LOW 0x10 #define F81866_LDN_HIGH 0x16 #define F81866_UART_CLK 0xF2 #define F81866_UART_CLK_MASK (BIT(1) | BIT(0)) #define F81866_UART_CLK_1_8432MHZ 0 #define F81866_UART_CLK_14_769MHZ (BIT(1) | BIT(0)) #define F81866_UART_CLK_18_432MHZ BIT(0) #define F81866_UART_CLK_24MHZ BIT(1) struct fintek_8250 { u16 pid; u16 base_port; u8 index; u8 key; }; static u8 sio_read_reg(struct fintek_8250 *pdata, u8 reg) { outb(reg, pdata->base_port + ADDR_PORT); return inb(pdata->base_port + DATA_PORT); } static void sio_write_reg(struct fintek_8250 *pdata, u8 reg, u8 data) { outb(reg, pdata->base_port + ADDR_PORT); outb(data, pdata->base_port + DATA_PORT); } static void sio_write_mask_reg(struct fintek_8250 *pdata, u8 reg, u8 mask, u8 data) { u8 tmp; tmp = (sio_read_reg(pdata, reg) & ~mask) | (mask & data); sio_write_reg(pdata, reg, tmp); } static int fintek_8250_enter_key(u16 base_port, u8 key) { if (!request_muxed_region(base_port, 2, "8250_fintek")) return -EBUSY; /* Force to deactive all SuperIO in this base_port */ outb(EXIT_KEY, base_port + ADDR_PORT); outb(key, base_port + ADDR_PORT); outb(key, base_port + ADDR_PORT); return 0; } static void fintek_8250_exit_key(u16 base_port) { outb(EXIT_KEY, base_port + ADDR_PORT); release_region(base_port + ADDR_PORT, 2); } static int fintek_8250_check_id(struct fintek_8250 *pdata) { u16 chip; if (sio_read_reg(pdata, VENDOR_ID1) != VENDOR_ID1_VAL) return -ENODEV; if (sio_read_reg(pdata, VENDOR_ID2) != VENDOR_ID2_VAL) return -ENODEV; chip = sio_read_reg(pdata, CHIP_ID1); chip |= sio_read_reg(pdata, CHIP_ID2) << 8; switch (chip) { case CHIP_ID_F81865: case CHIP_ID_F81866: case CHIP_ID_F81216AD: case CHIP_ID_F81216H: case CHIP_ID_F81216: break; default: return -ENODEV; } pdata->pid = chip; return 0; } static int fintek_8250_get_ldn_range(struct fintek_8250 *pdata, int *min, int *max) { switch (pdata->pid) { case CHIP_ID_F81865: case CHIP_ID_F81866: *min = F81866_LDN_LOW; *max = F81866_LDN_HIGH; return 0; case CHIP_ID_F81216AD: case CHIP_ID_F81216H: case CHIP_ID_F81216: *min = F81216_LDN_LOW; *max = F81216_LDN_HIGH; return 0; } return -ENODEV; } static int fintek_8250_rs485_config(struct uart_port *port, struct serial_rs485 *rs485) { uint8_t config = 0; struct fintek_8250 *pdata = port->private_data; if (!pdata) return -EINVAL; /* Hardware do not support same RTS level on send and receive */ if (!(rs485->flags & SER_RS485_RTS_ON_SEND) == !(rs485->flags & SER_RS485_RTS_AFTER_SEND)) return -EINVAL; if (rs485->flags & SER_RS485_ENABLED) { memset(rs485->padding, 0, sizeof(rs485->padding)); config |= RS485_URA; } else { memset(rs485, 0, sizeof(*rs485)); } rs485->flags &= SER_RS485_ENABLED | SER_RS485_RTS_ON_SEND | SER_RS485_RTS_AFTER_SEND; /* Only the first port supports delays */ if (pdata->index) { rs485->delay_rts_before_send = 0; rs485->delay_rts_after_send = 0; } if (rs485->delay_rts_before_send) { rs485->delay_rts_before_send = 1; config |= TXW4C_IRA; } if (rs485->delay_rts_after_send) { rs485->delay_rts_after_send = 1; config |= RXW4C_IRA; } if (rs485->flags & SER_RS485_RTS_ON_SEND) config |= RTS_INVERT; if (fintek_8250_enter_key(pdata->base_port, pdata->key)) return -EBUSY; sio_write_reg(pdata, LDN, pdata->index); sio_write_reg(pdata, RS485, config); fintek_8250_exit_key(pdata->base_port); port->rs485 = *rs485; return 0; } static void fintek_8250_set_irq_mode(struct fintek_8250 *pdata, bool is_level) { sio_write_reg(pdata, LDN, pdata->index); switch (pdata->pid) { case CHIP_ID_F81866: sio_write_mask_reg(pdata, F81866_FIFO_CTRL, F81866_IRQ_MODE1, 0); /* fall through */ case CHIP_ID_F81865: sio_write_mask_reg(pdata, F81866_IRQ_MODE, F81866_IRQ_SHARE, F81866_IRQ_SHARE); sio_write_mask_reg(pdata, F81866_IRQ_MODE, F81866_IRQ_MODE0, is_level ? 0 : F81866_IRQ_MODE0); break; case CHIP_ID_F81216AD: case CHIP_ID_F81216H: case CHIP_ID_F81216: sio_write_mask_reg(pdata, FINTEK_IRQ_MODE, IRQ_SHARE, IRQ_SHARE); sio_write_mask_reg(pdata, FINTEK_IRQ_MODE, IRQ_MODE_MASK, is_level ? IRQ_LEVEL_LOW : IRQ_EDGE_HIGH); break; } } static void fintek_8250_set_max_fifo(struct fintek_8250 *pdata) { switch (pdata->pid) { case CHIP_ID_F81216H: /* 128Bytes FIFO */ case CHIP_ID_F81866: sio_write_mask_reg(pdata, FIFO_CTRL, FIFO_MODE_MASK | RXFTHR_MODE_MASK, FIFO_MODE_128 | RXFTHR_MODE_4X); break; default: /* Default 16Bytes FIFO */ break; } } static void fintek_8250_goto_highspeed(struct uart_8250_port *uart, struct fintek_8250 *pdata) { sio_write_reg(pdata, LDN, pdata->index); switch (pdata->pid) { case CHIP_ID_F81866: /* set uart clock for high speed serial mode */ sio_write_mask_reg(pdata, F81866_UART_CLK, F81866_UART_CLK_MASK, F81866_UART_CLK_14_769MHZ); uart->port.uartclk = 921600 * 16; break; default: /* leave clock speed untouched */ break; } } void fintek_8250_set_termios(struct uart_port *port, struct ktermios *termios, struct ktermios *old) { struct fintek_8250 *pdata = port->private_data; unsigned int baud = tty_termios_baud_rate(termios); int i; u8 reg; static u32 baudrate_table[] = {115200, 921600, 1152000, 1500000}; static u8 clock_table[] = { F81866_UART_CLK_1_8432MHZ, F81866_UART_CLK_14_769MHZ, F81866_UART_CLK_18_432MHZ, F81866_UART_CLK_24MHZ }; /* * We'll use serial8250_do_set_termios() for baud = 0, otherwise It'll * crash on baudrate_table[i] % baud with "division by zero". */ if (!baud) goto exit; switch (pdata->pid) { case CHIP_ID_F81216H: reg = RS485; break; case CHIP_ID_F81866: reg = F81866_UART_CLK; break; default: /* Don't change clocksource with unknown PID */ dev_warn(port->dev, "%s: pid: %x Not support. use default set_termios.\n", __func__, pdata->pid); goto exit; } for (i = 0; i < ARRAY_SIZE(baudrate_table); ++i) { if (baud > baudrate_table[i] || baudrate_table[i] % baud != 0) continue; if (port->uartclk == baudrate_table[i] * 16) break; if (fintek_8250_enter_key(pdata->base_port, pdata->key)) continue; port->uartclk = baudrate_table[i] * 16; sio_write_reg(pdata, LDN, pdata->index); sio_write_mask_reg(pdata, reg, F81866_UART_CLK_MASK, clock_table[i]); fintek_8250_exit_key(pdata->base_port); break; } if (i == ARRAY_SIZE(baudrate_table)) { baud = tty_termios_baud_rate(old); tty_termios_encode_baud_rate(termios, baud, baud); } exit: serial8250_do_set_termios(port, termios, old); } static void fintek_8250_set_termios_handler(struct uart_8250_port *uart) { struct fintek_8250 *pdata = uart->port.private_data; switch (pdata->pid) { case CHIP_ID_F81216H: case CHIP_ID_F81866: uart->port.set_termios = fintek_8250_set_termios; break; default: break; } } static int probe_setup_port(struct fintek_8250 *pdata, struct uart_8250_port *uart) { static const u16 addr[] = {0x4e, 0x2e}; static const u8 keys[] = {0x77, 0xa0, 0x87, 0x67}; struct irq_data *irq_data; bool level_mode = false; int i, j, k, min, max; for (i = 0; i < ARRAY_SIZE(addr); i++) { for (j = 0; j < ARRAY_SIZE(keys); j++) { pdata->base_port = addr[i]; pdata->key = keys[j]; if (fintek_8250_enter_key(addr[i], keys[j])) continue; if (fintek_8250_check_id(pdata) || fintek_8250_get_ldn_range(pdata, &min, &max)) { fintek_8250_exit_key(addr[i]); continue; } for (k = min; k < max; k++) { u16 aux; sio_write_reg(pdata, LDN, k); aux = sio_read_reg(pdata, IO_ADDR1); aux |= sio_read_reg(pdata, IO_ADDR2) << 8; if (aux != uart->port.iobase) continue; pdata->index = k; irq_data = irq_get_irq_data(uart->port.irq); if (irq_data) level_mode = irqd_is_level_type(irq_data); fintek_8250_set_irq_mode(pdata, level_mode); fintek_8250_set_max_fifo(pdata); fintek_8250_goto_highspeed(uart, pdata); fintek_8250_exit_key(addr[i]); return 0; } fintek_8250_exit_key(addr[i]); } } return -ENODEV; } static void fintek_8250_set_rs485_handler(struct uart_8250_port *uart) { struct fintek_8250 *pdata = uart->port.private_data; switch (pdata->pid) { case CHIP_ID_F81216AD: case CHIP_ID_F81216H: case CHIP_ID_F81866: case CHIP_ID_F81865: uart->port.rs485_config = fintek_8250_rs485_config; break; default: /* No RS485 Auto direction functional */ break; } } int fintek_8250_probe(struct uart_8250_port *uart) { struct fintek_8250 *pdata; struct fintek_8250 probe_data; if (probe_setup_port(&probe_data, uart)) return -ENODEV; pdata = devm_kzalloc(uart->port.dev, sizeof(*pdata), GFP_KERNEL); if (!pdata) return -ENOMEM; memcpy(pdata, &probe_data, sizeof(probe_data)); uart->port.private_data = pdata; fintek_8250_set_rs485_handler(uart); fintek_8250_set_termios_handler(uart); return 0; }