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Release 4.11 drivers/tty/serial/rp2.c

/*
 * Driver for Comtrol RocketPort EXPRESS/INFINITY cards
 *
 * Copyright (C) 2012 Kevin Cernekee <cernekee@gmail.com>
 *
 * Inspired by, and loosely based on:
 *
 *   ar933x_uart.c
 *     Copyright (C) 2011 Gabor Juhos <juhosg@openwrt.org>
 *
 *   rocketport_infinity_express-linux-1.20.tar.gz
 *     Copyright (C) 2004-2011 Comtrol, Inc.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 as published
 * by the Free Software Foundation.
 */

#include <linux/bitops.h>
#include <linux/compiler.h>
#include <linux/completion.h>
#include <linux/console.h>
#include <linux/delay.h>
#include <linux/firmware.h>
#include <linux/init.h>
#include <linux/io.h>
#include <linux/ioport.h>
#include <linux/irq.h>
#include <linux/kernel.h>
#include <linux/log2.h>
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/serial.h>
#include <linux/serial_core.h>
#include <linux/slab.h>
#include <linux/sysrq.h>
#include <linux/tty.h>
#include <linux/tty_flip.h>
#include <linux/types.h>


#define DRV_NAME			"rp2"


#define RP2_FW_NAME			"rp2.fw"

#define RP2_UCODE_BYTES			0x3f


#define PORTS_PER_ASIC			16

#define ALL_PORTS_MASK			(BIT(PORTS_PER_ASIC) - 1)


#define UART_CLOCK			44236800

#define DEFAULT_BAUD_DIV		(UART_CLOCK / (9600 * 16))

#define FIFO_SIZE			512

/* BAR0 registers */

#define RP2_FPGA_CTL0			0x110

#define RP2_FPGA_CTL1			0x11c

#define RP2_IRQ_MASK			0x1ec

#define RP2_IRQ_MASK_EN_m		BIT(0)

#define RP2_IRQ_STATUS			0x1f0

/* BAR1 registers */

#define RP2_ASIC_SPACING		0x1000

#define RP2_ASIC_OFFSET(i)		((i) << ilog2(RP2_ASIC_SPACING))


#define RP2_PORT_BASE			0x000

#define RP2_PORT_SPACING		0x040


#define RP2_UCODE_BASE			0x400

#define RP2_UCODE_SPACING		0x80


#define RP2_CLK_PRESCALER		0xc00

#define RP2_CH_IRQ_STAT			0xc04

#define RP2_CH_IRQ_MASK			0xc08

#define RP2_ASIC_IRQ			0xd00

#define RP2_ASIC_IRQ_EN_m		BIT(20)

#define RP2_GLOBAL_CMD			0xd0c

#define RP2_ASIC_CFG			0xd04

/* port registers */

#define RP2_DATA_DWORD			0x000


#define RP2_DATA_BYTE			0x008

#define RP2_DATA_BYTE_ERR_PARITY_m	BIT(8)

#define RP2_DATA_BYTE_ERR_OVERRUN_m	BIT(9)

#define RP2_DATA_BYTE_ERR_FRAMING_m	BIT(10)

#define RP2_DATA_BYTE_BREAK_m		BIT(11)

/* This lets uart_insert_char() drop bytes received on a !CREAD port */

#define RP2_DUMMY_READ			BIT(16)


#define RP2_DATA_BYTE_EXCEPTION_MASK	(RP2_DATA_BYTE_ERR_PARITY_m | \
                                         RP2_DATA_BYTE_ERR_OVERRUN_m | \
                                         RP2_DATA_BYTE_ERR_FRAMING_m | \
                                         RP2_DATA_BYTE_BREAK_m)


#define RP2_RX_FIFO_COUNT		0x00c

#define RP2_TX_FIFO_COUNT		0x00e


#define RP2_CHAN_STAT			0x010

#define RP2_CHAN_STAT_RXDATA_m		BIT(0)

#define RP2_CHAN_STAT_DCD_m		BIT(3)

#define RP2_CHAN_STAT_DSR_m		BIT(4)

#define RP2_CHAN_STAT_CTS_m		BIT(5)

#define RP2_CHAN_STAT_RI_m		BIT(6)

#define RP2_CHAN_STAT_OVERRUN_m		BIT(13)

#define RP2_CHAN_STAT_DSR_CHANGED_m	BIT(16)

#define RP2_CHAN_STAT_CTS_CHANGED_m	BIT(17)

#define RP2_CHAN_STAT_CD_CHANGED_m	BIT(18)

#define RP2_CHAN_STAT_RI_CHANGED_m	BIT(22)

#define RP2_CHAN_STAT_TXEMPTY_m		BIT(25)


#define RP2_CHAN_STAT_MS_CHANGED_MASK	(RP2_CHAN_STAT_DSR_CHANGED_m | \
                                         RP2_CHAN_STAT_CTS_CHANGED_m | \
                                         RP2_CHAN_STAT_CD_CHANGED_m | \
                                         RP2_CHAN_STAT_RI_CHANGED_m)


#define RP2_TXRX_CTL			0x014

#define RP2_TXRX_CTL_MSRIRQ_m		BIT(0)

#define RP2_TXRX_CTL_RXIRQ_m		BIT(2)

#define RP2_TXRX_CTL_RX_TRIG_s		3

#define RP2_TXRX_CTL_RX_TRIG_m		(0x3 << RP2_TXRX_CTL_RX_TRIG_s)

#define RP2_TXRX_CTL_RX_TRIG_1		(0x1 << RP2_TXRX_CTL_RX_TRIG_s)

#define RP2_TXRX_CTL_RX_TRIG_256	(0x2 << RP2_TXRX_CTL_RX_TRIG_s)

#define RP2_TXRX_CTL_RX_TRIG_448	(0x3 << RP2_TXRX_CTL_RX_TRIG_s)

#define RP2_TXRX_CTL_RX_EN_m		BIT(5)

#define RP2_TXRX_CTL_RTSFLOW_m		BIT(6)

#define RP2_TXRX_CTL_DTRFLOW_m		BIT(7)

#define RP2_TXRX_CTL_TX_TRIG_s		16

#define RP2_TXRX_CTL_TX_TRIG_m		(0x3 << RP2_TXRX_CTL_RX_TRIG_s)

#define RP2_TXRX_CTL_DSRFLOW_m		BIT(18)

#define RP2_TXRX_CTL_TXIRQ_m		BIT(19)

#define RP2_TXRX_CTL_CTSFLOW_m		BIT(23)

#define RP2_TXRX_CTL_TX_EN_m		BIT(24)

#define RP2_TXRX_CTL_RTS_m		BIT(25)

#define RP2_TXRX_CTL_DTR_m		BIT(26)

#define RP2_TXRX_CTL_LOOP_m		BIT(27)

#define RP2_TXRX_CTL_BREAK_m		BIT(28)

#define RP2_TXRX_CTL_CMSPAR_m		BIT(29)

#define RP2_TXRX_CTL_nPARODD_m		BIT(30)

#define RP2_TXRX_CTL_PARENB_m		BIT(31)


#define RP2_UART_CTL			0x018

#define RP2_UART_CTL_MODE_s		0

#define RP2_UART_CTL_MODE_m		(0x7 << RP2_UART_CTL_MODE_s)

#define RP2_UART_CTL_MODE_rs232		(0x1 << RP2_UART_CTL_MODE_s)

#define RP2_UART_CTL_FLUSH_RX_m		BIT(3)

#define RP2_UART_CTL_FLUSH_TX_m		BIT(4)

#define RP2_UART_CTL_RESET_CH_m		BIT(5)

#define RP2_UART_CTL_XMIT_EN_m		BIT(6)

#define RP2_UART_CTL_DATABITS_s		8

#define RP2_UART_CTL_DATABITS_m		(0x3 << RP2_UART_CTL_DATABITS_s)

#define RP2_UART_CTL_DATABITS_8		(0x3 << RP2_UART_CTL_DATABITS_s)

#define RP2_UART_CTL_DATABITS_7		(0x2 << RP2_UART_CTL_DATABITS_s)

#define RP2_UART_CTL_DATABITS_6		(0x1 << RP2_UART_CTL_DATABITS_s)

#define RP2_UART_CTL_DATABITS_5		(0x0 << RP2_UART_CTL_DATABITS_s)

#define RP2_UART_CTL_STOPBITS_m		BIT(10)


#define RP2_BAUD			0x01c

/* ucode registers */

#define RP2_TX_SWFLOW			0x02

#define RP2_TX_SWFLOW_ena		0x81

#define RP2_TX_SWFLOW_dis		0x9d


#define RP2_RX_SWFLOW			0x0c

#define RP2_RX_SWFLOW_ena		0x81

#define RP2_RX_SWFLOW_dis		0x8d


#define RP2_RX_FIFO			0x37

#define RP2_RX_FIFO_ena			0x08

#define RP2_RX_FIFO_dis			0x81


static struct uart_driver rp2_uart_driver = {
	.owner				= THIS_MODULE,
	.driver_name			= DRV_NAME,
	.dev_name			= "ttyRP",
	.nr				= CONFIG_SERIAL_RP2_NR_UARTS,
};

struct rp2_card;


struct rp2_uart_port {
	
struct uart_port		port;
	
int				idx;
	
int				ignore_rx;
	
struct rp2_card			*card;
	
void __iomem			*asic_base;
	
void __iomem			*base;
	
void __iomem			*ucode;
};


struct rp2_card {
	
struct pci_dev			*pdev;
	
struct rp2_uart_port		*ports;
	
int				n_ports;
	
int				initialized_ports;
	
int				minor_start;
	
int				smpte;
	
void __iomem			*bar0;
	
void __iomem			*bar1;
	
spinlock_t			card_lock;
	
struct completion		fw_loaded;
};


#define RP_ID(prod) PCI_VDEVICE(RP, (prod))

#define RP_CAP(ports, smpte) (((ports) << 8) | ((smpte) << 0))


static inline void rp2_decode_cap(const struct pci_device_id *id, int *ports, int *smpte) { *ports = id->driver_data >> 8; *smpte = id->driver_data & 0xff; }

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static DEFINE_SPINLOCK(rp2_minor_lock); static int rp2_minor_next;
static int rp2_alloc_ports(int n_ports) { int ret = -ENOSPC; spin_lock(&rp2_minor_lock); if (rp2_minor_next + n_ports <= CONFIG_SERIAL_RP2_NR_UARTS) { /* sorry, no support for hot unplugging individual cards */ ret = rp2_minor_next; rp2_minor_next += n_ports; } spin_unlock(&rp2_minor_lock); return ret; }

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static inline struct rp2_uart_port *port_to_up(struct uart_port *port) { return container_of(port, struct rp2_uart_port, port); }

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static void rp2_rmw(struct rp2_uart_port *up, int reg, u32 clr_bits, u32 set_bits) { u32 tmp = readl(up->base + reg); tmp &= ~clr_bits; tmp |= set_bits; writel(tmp, up->base + reg); }

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static void rp2_rmw_clr(struct rp2_uart_port *up, int reg, u32 val) { rp2_rmw(up, reg, val, 0); }

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static void rp2_rmw_set(struct rp2_uart_port *up, int reg, u32 val) { rp2_rmw(up, reg, 0, val); }

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static void rp2_mask_ch_irq(struct rp2_uart_port *up, int ch_num, int is_enabled) { unsigned long flags, irq_mask; spin_lock_irqsave(&up->card->card_lock, flags); irq_mask = readl(up->asic_base + RP2_CH_IRQ_MASK); if (is_enabled) irq_mask &= ~BIT(ch_num); else irq_mask |= BIT(ch_num); writel(irq_mask, up->asic_base + RP2_CH_IRQ_MASK); spin_unlock_irqrestore(&up->card->card_lock, flags); }

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static unsigned int rp2_uart_tx_empty(struct uart_port *port) { struct rp2_uart_port *up = port_to_up(port); unsigned long tx_fifo_bytes, flags; /* * This should probably check the transmitter, not the FIFO. * But the TXEMPTY bit doesn't seem to work unless the TX IRQ is * enabled. */ spin_lock_irqsave(&up->port.lock, flags); tx_fifo_bytes = readw(up->base + RP2_TX_FIFO_COUNT); spin_unlock_irqrestore(&up->port.lock, flags); return tx_fifo_bytes ? 0 : TIOCSER_TEMT; }

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static unsigned int rp2_uart_get_mctrl(struct uart_port *port) { struct rp2_uart_port *up = port_to_up(port); u32 status; status = readl(up->base + RP2_CHAN_STAT); return ((status & RP2_CHAN_STAT_DCD_m) ? TIOCM_CAR : 0) | ((status & RP2_CHAN_STAT_DSR_m) ? TIOCM_DSR : 0) | ((status & RP2_CHAN_STAT_CTS_m) ? TIOCM_CTS : 0) | ((status & RP2_CHAN_STAT_RI_m) ? TIOCM_RI : 0); }

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static void rp2_uart_set_mctrl(struct uart_port *port, unsigned int mctrl) { rp2_rmw(port_to_up(port), RP2_TXRX_CTL, RP2_TXRX_CTL_DTR_m | RP2_TXRX_CTL_RTS_m | RP2_TXRX_CTL_LOOP_m, ((mctrl & TIOCM_DTR) ? RP2_TXRX_CTL_DTR_m : 0) | ((mctrl & TIOCM_RTS) ? RP2_TXRX_CTL_RTS_m : 0) | ((mctrl & TIOCM_LOOP) ? RP2_TXRX_CTL_LOOP_m : 0)); }

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static void rp2_uart_start_tx(struct uart_port *port) { rp2_rmw_set(port_to_up(port), RP2_TXRX_CTL, RP2_TXRX_CTL_TXIRQ_m); }

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static void rp2_uart_stop_tx(struct uart_port *port) { rp2_rmw_clr(port_to_up(port), RP2_TXRX_CTL, RP2_TXRX_CTL_TXIRQ_m); }

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static void rp2_uart_stop_rx(struct uart_port *port) { rp2_rmw_clr(port_to_up(port), RP2_TXRX_CTL, RP2_TXRX_CTL_RXIRQ_m); }

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static void rp2_uart_break_ctl(struct uart_port *port, int break_state) { unsigned long flags; spin_lock_irqsave(&port->lock, flags); rp2_rmw(port_to_up(port), RP2_TXRX_CTL, RP2_TXRX_CTL_BREAK_m, break_state ? RP2_TXRX_CTL_BREAK_m : 0); spin_unlock_irqrestore(&port->lock, flags); }

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static void rp2_uart_enable_ms(struct uart_port *port) { rp2_rmw_set(port_to_up(port), RP2_TXRX_CTL, RP2_TXRX_CTL_MSRIRQ_m); }

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static void __rp2_uart_set_termios(struct rp2_uart_port *up, unsigned long cfl, unsigned long ifl, unsigned int baud_div) { /* baud rate divisor (calculated elsewhere). 0 = divide-by-1 */ writew(baud_div - 1, up->base + RP2_BAUD); /* data bits and stop bits */ rp2_rmw(up, RP2_UART_CTL, RP2_UART_CTL_STOPBITS_m | RP2_UART_CTL_DATABITS_m, ((cfl & CSTOPB) ? RP2_UART_CTL_STOPBITS_m : 0) | (((cfl & CSIZE) == CS8) ? RP2_UART_CTL_DATABITS_8 : 0) | (((cfl & CSIZE) == CS7) ? RP2_UART_CTL_DATABITS_7 : 0) | (((cfl & CSIZE) == CS6) ? RP2_UART_CTL_DATABITS_6 : 0) | (((cfl & CSIZE) == CS5) ? RP2_UART_CTL_DATABITS_5 : 0)); /* parity and hardware flow control */ rp2_rmw(up, RP2_TXRX_CTL, RP2_TXRX_CTL_PARENB_m | RP2_TXRX_CTL_nPARODD_m | RP2_TXRX_CTL_CMSPAR_m | RP2_TXRX_CTL_DTRFLOW_m | RP2_TXRX_CTL_DSRFLOW_m | RP2_TXRX_CTL_RTSFLOW_m | RP2_TXRX_CTL_CTSFLOW_m, ((cfl & PARENB) ? RP2_TXRX_CTL_PARENB_m : 0) | ((cfl & PARODD) ? 0 : RP2_TXRX_CTL_nPARODD_m) | ((cfl & CMSPAR) ? RP2_TXRX_CTL_CMSPAR_m : 0) | ((cfl & CRTSCTS) ? (RP2_TXRX_CTL_RTSFLOW_m | RP2_TXRX_CTL_CTSFLOW_m) : 0)); /* XON/XOFF software flow control */ writeb((ifl & IXON) ? RP2_TX_SWFLOW_ena : RP2_TX_SWFLOW_dis, up->ucode + RP2_TX_SWFLOW); writeb((ifl & IXOFF) ? RP2_RX_SWFLOW_ena : RP2_RX_SWFLOW_dis, up->ucode + RP2_RX_SWFLOW); }

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static void rp2_uart_set_termios(struct uart_port *port, struct ktermios *new, struct ktermios *old) { struct rp2_uart_port *up = port_to_up(port); unsigned long flags; unsigned int baud, baud_div; baud = uart_get_baud_rate(port, new, old, 0, port->uartclk / 16); baud_div = uart_get_divisor(port, baud); if (tty_termios_baud_rate(new)) tty_termios_encode_baud_rate(new, baud, baud); spin_lock_irqsave(&port->lock, flags); /* ignore all characters if CREAD is not set */ port->ignore_status_mask = (new->c_cflag & CREAD) ? 0 : RP2_DUMMY_READ; __rp2_uart_set_termios(up, new->c_cflag, new->c_iflag, baud_div); uart_update_timeout(port, new->c_cflag, baud); spin_unlock_irqrestore(&port->lock, flags); }

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static void rp2_rx_chars(struct rp2_uart_port *up) { u16 bytes = readw(up->base + RP2_RX_FIFO_COUNT); struct tty_port *port = &up->port.state->port; for (; bytes != 0; bytes--) { u32 byte = readw(up->base + RP2_DATA_BYTE) | RP2_DUMMY_READ; char ch = byte & 0xff; if (likely(!(byte & RP2_DATA_BYTE_EXCEPTION_MASK))) { if (!uart_handle_sysrq_char(&up->port, ch)) uart_insert_char(&up->port, byte, 0, ch, TTY_NORMAL); } else { char flag = TTY_NORMAL; if (byte & RP2_DATA_BYTE_BREAK_m) flag = TTY_BREAK; else if (byte & RP2_DATA_BYTE_ERR_FRAMING_m) flag = TTY_FRAME; else if (byte & RP2_DATA_BYTE_ERR_PARITY_m) flag = TTY_PARITY; uart_insert_char(&up->port, byte, RP2_DATA_BYTE_ERR_OVERRUN_m, ch, flag); } up->port.icount.rx++; } spin_unlock(&up->port.lock); tty_flip_buffer_push(port); spin_lock(&up->port.lock); }

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static void rp2_tx_chars(struct rp2_uart_port *up) { u16 max_tx = FIFO_SIZE - readw(up->base + RP2_TX_FIFO_COUNT); struct circ_buf *xmit = &up->port.state->xmit; if (uart_tx_stopped(&up->port)) { rp2_uart_stop_tx(&up->port); return; } for (; max_tx != 0; max_tx--) { if (up->port.x_char) { writeb(up->port.x_char, up->base + RP2_DATA_BYTE); up->port.x_char = 0; up->port.icount.tx++; continue; } if (uart_circ_empty(xmit)) { rp2_uart_stop_tx(&up->port); break; } writeb(xmit->buf[xmit->tail], up->base + RP2_DATA_BYTE); xmit->tail = (xmit->tail + 1) & (UART_XMIT_SIZE - 1); up->port.icount.tx++; } if (uart_circ_chars_pending(xmit) < WAKEUP_CHARS) uart_write_wakeup(&up->port); }

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static void rp2_ch_interrupt(struct rp2_uart_port *up) { u32 status; spin_lock(&up->port.lock); /* * The IRQ status bits are clear-on-write. Other status bits in * this register aren't, so it's harmless to write to them. */ status = readl(up->base + RP2_CHAN_STAT); writel(status, up->base + RP2_CHAN_STAT); if (status & RP2_CHAN_STAT_RXDATA_m) rp2_rx_chars(up); if (status & RP2_CHAN_STAT_TXEMPTY_m) rp2_tx_chars(up); if (status & RP2_CHAN_STAT_MS_CHANGED_MASK) wake_up_interruptible(&up->port.state->port.delta_msr_wait); spin_unlock(&up->port.lock); }

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static int rp2_asic_interrupt(struct rp2_card *card, unsigned int asic_id) { void __iomem *base = card->bar1 + RP2_ASIC_OFFSET(asic_id); int ch, handled = 0; unsigned long status = readl(base + RP2_CH_IRQ_STAT) & ~readl(base + RP2_CH_IRQ_MASK); for_each_set_bit(ch, &status, PORTS_PER_ASIC) { rp2_ch_interrupt(&card->ports[ch]); handled++; } return handled; }

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static irqreturn_t rp2_uart_interrupt(int irq, void *dev_id) { struct rp2_card *card = dev_id; int handled; handled = rp2_asic_interrupt(card, 0); if (card->n_ports >= PORTS_PER_ASIC) handled += rp2_asic_interrupt(card, 1); return handled ? IRQ_HANDLED : IRQ_NONE; }

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static inline void rp2_flush_fifos(struct rp2_uart_port *up) { rp2_rmw_set(up, RP2_UART_CTL, RP2_UART_CTL_FLUSH_RX_m | RP2_UART_CTL_FLUSH_TX_m); readl(up->base + RP2_UART_CTL); udelay(10); rp2_rmw_clr(up, RP2_UART_CTL, RP2_UART_CTL_FLUSH_RX_m | RP2_UART_CTL_FLUSH_TX_m); }

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static int rp2_uart_startup(struct uart_port *port) { struct rp2_uart_port *up = port_to_up(port); rp2_flush_fifos(up); rp2_rmw(up, RP2_TXRX_CTL, RP2_TXRX_CTL_MSRIRQ_m, RP2_TXRX_CTL_RXIRQ_m); rp2_rmw(up, RP2_TXRX_CTL, RP2_TXRX_CTL_RX_TRIG_m, RP2_TXRX_CTL_RX_TRIG_1); rp2_rmw(up, RP2_CHAN_STAT, 0, 0); rp2_mask_ch_irq(up, up->idx, 1); return 0; }

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static void rp2_uart_shutdown(struct uart_port *port) { struct rp2_uart_port *up = port_to_up(port); unsigned long flags; rp2_uart_break_ctl(port, 0); spin_lock_irqsave(&port->lock, flags); rp2_mask_ch_irq(up, up->idx, 0); rp2_rmw(up, RP2_CHAN_STAT, 0, 0); spin_unlock_irqrestore(&port->lock, flags); }

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static const char *rp2_uart_type(struct uart_port *port) { return (port->type == PORT_RP2) ? "RocketPort 2 UART" : NULL; }

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static void rp2_uart_release_port(struct uart_port *port) { /* Nothing to release ... */ }

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static int rp2_uart_request_port(struct uart_port *port) { /* UARTs always present */ return 0; }

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static void rp2_uart_config_port(struct uart_port *port, int flags) { if (flags & UART_CONFIG_TYPE) port->type = PORT_RP2; }

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static int rp2_uart_verify_port(struct uart_port *port, struct serial_struct *ser) { if (ser->type != PORT_UNKNOWN && ser->type != PORT_RP2) return -EINVAL; return 0; }

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static const struct uart_ops rp2_uart_ops = { .tx_empty = rp2_uart_tx_empty, .set_mctrl = rp2_uart_set_mctrl, .get_mctrl = rp2_uart_get_mctrl, .stop_tx = rp2_uart_stop_tx, .start_tx = rp2_uart_start_tx, .stop_rx = rp2_uart_stop_rx, .enable_ms = rp2_uart_enable_ms, .break_ctl = rp2_uart_break_ctl, .startup = rp2_uart_startup, .shutdown = rp2_uart_shutdown, .set_termios = rp2_uart_set_termios, .type = rp2_uart_type, .release_port = rp2_uart_release_port, .request_port = rp2_uart_request_port, .config_port = rp2_uart_config_port, .verify_port = rp2_uart_verify_port, };
static void rp2_reset_asic(struct rp2_card *card, unsigned int asic_id) { void __iomem *base = card->bar1 + RP2_ASIC_OFFSET(asic_id); u32 clk_cfg; writew(1, base + RP2_GLOBAL_CMD); readw(base + RP2_GLOBAL_CMD); msleep(100); writel(0, base + RP2_CLK_PRESCALER); /* TDM clock configuration */ clk_cfg = readw(base + RP2_ASIC_CFG); clk_cfg = (clk_cfg & ~BIT(8)) | BIT(9); writew(clk_cfg, base + RP2_ASIC_CFG); /* IRQ routing */ writel(ALL_PORTS_MASK, base + RP2_CH_IRQ_MASK); writel(RP2_ASIC_IRQ_EN_m, base + RP2_ASIC_IRQ); }

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static void rp2_init_card(struct rp2_card *card) { writel(4, card->bar0 + RP2_FPGA_CTL0); writel(0, card->bar0 + RP2_FPGA_CTL1); rp2_reset_asic(card, 0); if (card->n_ports >= PORTS_PER_ASIC) rp2_reset_asic(card, 1); writel(RP2_IRQ_MASK_EN_m, card->bar0 + RP2_IRQ_MASK); }

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static void rp2_init_port(struct rp2_uart_port *up, const struct firmware *fw) { int i; writel(RP2_UART_CTL_RESET_CH_m, up->base + RP2_UART_CTL); readl(up->base + RP2_UART_CTL); udelay(1); writel(0, up->base + RP2_TXRX_CTL); writel(0, up->base + RP2_UART_CTL); readl(up->base + RP2_UART_CTL); udelay(1); rp2_flush_fifos(up); for (i = 0; i < min_t(int, fw->size, RP2_UCODE_BYTES); i++) writeb(fw->data[i], up->ucode + i); __rp2_uart_set_termios(up, CS8 | CREAD | CLOCAL, 0, DEFAULT_BAUD_DIV); rp2_uart_set_mctrl(&up->port, 0); writeb(RP2_RX_FIFO_ena, up->ucode + RP2_RX_FIFO); rp2_rmw(up, RP2_UART_CTL, RP2_UART_CTL_MODE_m, RP2_UART_CTL_XMIT_EN_m | RP2_UART_CTL_MODE_rs232); rp2_rmw_set(up, RP2_TXRX_CTL, RP2_TXRX_CTL_TX_EN_m | RP2_TXRX_CTL_RX_EN_m); }

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static void rp2_remove_ports(struct rp2_card *card) { int i; for (i = 0; i < card->initialized_ports; i++) uart_remove_one_port(&rp2_uart_driver, &card->ports[i].port); card->initialized_ports = 0; }

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static void rp2_fw_cb(const struct firmware *fw, void *context) { struct rp2_card *card = context; resource_size_t phys_base; int i, rc = -ENOENT; if (!fw) { dev_err(&card->pdev->dev, "cannot find '%s' firmware image\n", RP2_FW_NAME); goto no_fw; } phys_base = pci_resource_start(card->pdev, 1); for (i = 0; i < card->n_ports; i++) { struct rp2_uart_port *rp = &card->ports[i]; struct uart_port *p; int j = (unsigned)i % PORTS_PER_ASIC; rp->asic_base = card->bar1; rp->base = card->bar1 + RP2_PORT_BASE + j*RP2_PORT_SPACING; rp->ucode = card->bar1 + RP2_UCODE_BASE + j*RP2_UCODE_SPACING; rp->card = card; rp->idx = j; p = &rp->port; p->line = card->minor_start + i; p->dev = &card->pdev->dev; p->type = PORT_RP2; p->iotype = UPIO_MEM32; p->uartclk = UART_CLOCK; p->regshift = 2; p->fifosize = FIFO_SIZE; p->ops = &rp2_uart_ops; p->irq = card->pdev->irq; p->membase = rp->base; p->mapbase = phys_base + RP2_PORT_BASE + j*RP2_PORT_SPACING; if (i >= PORTS_PER_ASIC) { rp->asic_base += RP2_ASIC_SPACING; rp->base += RP2_ASIC_SPACING; rp->ucode += RP2_ASIC_SPACING; p->mapbase += RP2_ASIC_SPACING; } rp2_init_port(rp, fw); rc = uart_add_one_port(&rp2_uart_driver, p); if (rc) { dev_err(&card->pdev->dev, "error registering port %d: %d\n", i, rc); rp2_remove_ports(card); break; } card->initialized_ports++; } release_firmware(fw); no_fw: /* * rp2_fw_cb() is called from a workqueue long after rp2_probe() * has already returned success. So if something failed here, * we'll just leave the now-dormant device in place until somebody * unbinds it. */ if (rc) dev_warn(&card->pdev->dev, "driver initialization failed\n"); complete(&card->fw_loaded); }

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static int rp2_probe(struct pci_dev *pdev, const struct pci_device_id *id) { struct rp2_card *card; struct rp2_uart_port *ports; void __iomem * const *bars; int rc; card = devm_kzalloc(&pdev->dev, sizeof(*card), GFP_KERNEL); if (!card) return -ENOMEM; pci_set_drvdata(pdev, card); spin_lock_init(&card->card_lock); init_completion(&card->fw_loaded); rc = pcim_enable_device(pdev); if (rc) return rc; rc = pcim_iomap_regions_request_all(pdev, 0x03, DRV_NAME); if (rc) return rc; bars = pcim_iomap_table(pdev); card->bar0 = bars[0]; card->bar1 = bars[1]; card->pdev = pdev; rp2_decode_cap(id, &card->n_ports, &card->smpte); dev_info(&pdev->dev, "found new card with %d ports\n", card->n_ports); card->minor_start = rp2_alloc_ports(card->n_ports); if (card->minor_start < 0) { dev_err(&pdev->dev, "too many ports (try increasing CONFIG_SERIAL_RP2_NR_UARTS)\n"); return -EINVAL; } rp2_init_card(card); ports = devm_kzalloc(&pdev->dev, sizeof(*ports) * card->n_ports, GFP_KERNEL); if (!ports) return -ENOMEM; card->ports = ports; rc = devm_request_irq(&pdev->dev, pdev->irq, rp2_uart_interrupt, IRQF_SHARED, DRV_NAME, card); if (rc) return rc; /* * Only catastrophic errors (e.g. ENOMEM) are reported here. * If the FW image is missing, we'll find out in rp2_fw_cb() * and print an error message. */ rc = request_firmware_nowait(THIS_MODULE, 1, RP2_FW_NAME, &pdev->dev, GFP_KERNEL, card, rp2_fw_cb); if (rc) return rc; dev_dbg(&pdev->dev, "waiting for firmware blob...\n"); return 0; }

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static void rp2_remove(struct pci_dev *pdev) { struct rp2_card *card = pci_get_drvdata(pdev); wait_for_completion(&card->fw_loaded); rp2_remove_ports(card); }

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static const struct pci_device_id rp2_pci_tbl[] = { /* RocketPort INFINITY cards */ { RP_ID(0x0040), RP_CAP(8, 0) }, /* INF Octa, RJ45, selectable */ { RP_ID(0x0041), RP_CAP(32, 0) }, /* INF 32, ext interface */ { RP_ID(0x0042), RP_CAP(8, 0) }, /* INF Octa, ext interface */ { RP_ID(0x0043), RP_CAP(16, 0) }, /* INF 16, ext interface */ { RP_ID(0x0044), RP_CAP(4, 0) }, /* INF Quad, DB, selectable */ { RP_ID(0x0045), RP_CAP(8, 0) }, /* INF Octa, DB, selectable */ { RP_ID(0x0046), RP_CAP(4, 0) }, /* INF Quad, ext interface */ { RP_ID(0x0047), RP_CAP(4, 0) }, /* INF Quad, RJ45 */ { RP_ID(0x004a), RP_CAP(4, 0) }, /* INF Plus, Quad */ { RP_ID(0x004b), RP_CAP(8, 0) }, /* INF Plus, Octa */ { RP_ID(0x004c), RP_CAP(8, 0) }, /* INF III, Octa */ { RP_ID(0x004d), RP_CAP(4, 0) }, /* INF III, Quad */ { RP_ID(0x004e), RP_CAP(2, 0) }, /* INF Plus, 2, RS232 */ { RP_ID(0x004f), RP_CAP(2, 1) }, /* INF Plus, 2, SMPTE */ { RP_ID(0x0050), RP_CAP(4, 0) }, /* INF Plus, Quad, RJ45 */ { RP_ID(0x0051), RP_CAP(8, 0) }, /* INF Plus, Octa, RJ45 */ { RP_ID(0x0052), RP_CAP(8, 1) }, /* INF Octa, SMPTE */ /* RocketPort EXPRESS cards */ { RP_ID(0x0060), RP_CAP(8, 0) }, /* EXP Octa, RJ45, selectable */ { RP_ID(0x0061), RP_CAP(32, 0) }, /* EXP 32, ext interface */ { RP_ID(0x0062), RP_CAP(8, 0) }, /* EXP Octa, ext interface */ { RP_ID(0x0063), RP_CAP(16, 0) }, /* EXP 16, ext interface */ { RP_ID(0x0064), RP_CAP(4, 0) }, /* EXP Quad, DB, selectable */ { RP_ID(0x0065), RP_CAP(8, 0) }, /* EXP Octa, DB, selectable */ { RP_ID(0x0066), RP_CAP(4, 0) }, /* EXP Quad, ext interface */ { RP_ID(0x0067), RP_CAP(4, 0) }, /* EXP Quad, RJ45 */ { RP_ID(0x0068), RP_CAP(8, 0) }, /* EXP Octa, RJ11 */ { RP_ID(0x0072), RP_CAP(8, 1) }, /* EXP Octa, SMPTE */ { } }; MODULE_DEVICE_TABLE(pci, rp2_pci_tbl); static struct pci_driver rp2_pci_driver = { .name = DRV_NAME, .id_table = rp2_pci_tbl, .probe = rp2_probe, .remove = rp2_remove, };
static int __init rp2_uart_init(void) { int rc; rc = uart_register_driver(&rp2_uart_driver); if (rc) return rc; rc = pci_register_driver(&rp2_pci_driver); if (rc) { uart_unregister_driver(&rp2_uart_driver); return rc; } return 0; }

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static void __exit rp2_uart_exit(void) { pci_unregister_driver(&rp2_pci_driver); uart_unregister_driver(&rp2_uart_driver); }

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module_init(rp2_uart_init); module_exit(rp2_uart_exit); MODULE_DESCRIPTION("Comtrol RocketPort EXPRESS/INFINITY driver"); MODULE_AUTHOR("Kevin Cernekee <cernekee@gmail.com>"); MODULE_LICENSE("GPL v2"); MODULE_FIRMWARE(RP2_FW_NAME);

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