cregit-Linux how code gets into the kernel

Release 4.11 drivers/tty/serial/jsm/jsm_cls.c

/*
 * Copyright 2003 Digi International (www.digi.com)
 *      Scott H Kilau <Scott_Kilau at digi dot com>
 *
 * 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 2, or (at your option)
 * any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED; without even the
 * implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
 * PURPOSE.  See the GNU General Public License for more details.
 *
 *      NOTE TO LINUX KERNEL HACKERS:  DO NOT REFORMAT THIS CODE!
 *
 *      This is shared code between Digi's CVS archive and the
 *      Linux Kernel sources.
 *      Changing the source just for reformatting needlessly breaks
 *      our CVS diff history.
 *
 *      Send any bug fixes/changes to:  Eng.Linux at digi dot com.
 *      Thank you.
 *
 */

#include <linux/delay.h>	/* For udelay */
#include <linux/io.h>		/* For read[bwl]/write[bwl] */
#include <linux/serial.h>	/* For struct async_serial */
#include <linux/serial_reg.h>	/* For the various UART offsets */
#include <linux/pci.h>
#include <linux/tty.h>

#include "jsm.h"	/* Driver main header file */

static struct {
	
unsigned int rate;
	
unsigned int cflag;
} 
baud_rates[] = {
	{ 921600, B921600 },
	{ 460800, B460800 },
	{ 230400, B230400 },
	{ 115200, B115200 },
	{  57600, B57600  },
	{  38400, B38400  },
	{  19200, B19200  },
	{   9600, B9600   },
	{   4800, B4800   },
	{   2400, B2400   },
	{   1200, B1200   },
	{    600, B600    },
	{    300, B300    },
	{    200, B200    },
	{    150, B150    },
	{    134, B134    },
	{    110, B110    },
	{     75, B75     },
	{     50, B50     },
};


static void cls_set_cts_flow_control(struct jsm_channel *ch) { u8 lcrb = readb(&ch->ch_cls_uart->lcr); u8 ier = readb(&ch->ch_cls_uart->ier); u8 isr_fcr = 0; /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn on CTS flow control, turn off IXON flow control */ isr_fcr |= (UART_EXAR654_EFR_ECB | UART_EXAR654_EFR_CTSDSR); isr_fcr &= ~(UART_EXAR654_EFR_IXON); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* * Enable interrupts for CTS flow, turn off interrupts for * received XOFF chars */ ier |= (UART_EXAR654_IER_CTSDSR); ier &= ~(UART_EXAR654_IER_XOFF); writeb(ier, &ch->ch_cls_uart->ier); /* Set the usual FIFO values */ writeb((UART_FCR_ENABLE_FIFO), &ch->ch_cls_uart->isr_fcr); writeb((UART_FCR_ENABLE_FIFO | UART_16654_FCR_RXTRIGGER_56 | UART_16654_FCR_TXTRIGGER_16 | UART_FCR_CLEAR_RCVR), &ch->ch_cls_uart->isr_fcr); ch->ch_t_tlevel = 16; }

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static void cls_set_ixon_flow_control(struct jsm_channel *ch) { u8 lcrb = readb(&ch->ch_cls_uart->lcr); u8 ier = readb(&ch->ch_cls_uart->ier); u8 isr_fcr = 0; /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn on IXON flow control, turn off CTS flow control */ isr_fcr |= (UART_EXAR654_EFR_ECB | UART_EXAR654_EFR_IXON); isr_fcr &= ~(UART_EXAR654_EFR_CTSDSR); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Now set our current start/stop chars while in enhanced mode */ writeb(ch->ch_startc, &ch->ch_cls_uart->mcr); writeb(0, &ch->ch_cls_uart->lsr); writeb(ch->ch_stopc, &ch->ch_cls_uart->msr); writeb(0, &ch->ch_cls_uart->spr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* * Disable interrupts for CTS flow, turn on interrupts for * received XOFF chars */ ier &= ~(UART_EXAR654_IER_CTSDSR); ier |= (UART_EXAR654_IER_XOFF); writeb(ier, &ch->ch_cls_uart->ier); /* Set the usual FIFO values */ writeb((UART_FCR_ENABLE_FIFO), &ch->ch_cls_uart->isr_fcr); writeb((UART_FCR_ENABLE_FIFO | UART_16654_FCR_RXTRIGGER_16 | UART_16654_FCR_TXTRIGGER_16 | UART_FCR_CLEAR_RCVR), &ch->ch_cls_uart->isr_fcr); }

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static void cls_set_no_output_flow_control(struct jsm_channel *ch) { u8 lcrb = readb(&ch->ch_cls_uart->lcr); u8 ier = readb(&ch->ch_cls_uart->ier); u8 isr_fcr = 0; /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn off IXON flow control, turn off CTS flow control */ isr_fcr |= (UART_EXAR654_EFR_ECB); isr_fcr &= ~(UART_EXAR654_EFR_CTSDSR | UART_EXAR654_EFR_IXON); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* * Disable interrupts for CTS flow, turn off interrupts for * received XOFF chars */ ier &= ~(UART_EXAR654_IER_CTSDSR); ier &= ~(UART_EXAR654_IER_XOFF); writeb(ier, &ch->ch_cls_uart->ier); /* Set the usual FIFO values */ writeb((UART_FCR_ENABLE_FIFO), &ch->ch_cls_uart->isr_fcr); writeb((UART_FCR_ENABLE_FIFO | UART_16654_FCR_RXTRIGGER_16 | UART_16654_FCR_TXTRIGGER_16 | UART_FCR_CLEAR_RCVR), &ch->ch_cls_uart->isr_fcr); ch->ch_r_watermark = 0; ch->ch_t_tlevel = 16; ch->ch_r_tlevel = 16; }

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static void cls_set_rts_flow_control(struct jsm_channel *ch) { u8 lcrb = readb(&ch->ch_cls_uart->lcr); u8 ier = readb(&ch->ch_cls_uart->ier); u8 isr_fcr = 0; /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn on RTS flow control, turn off IXOFF flow control */ isr_fcr |= (UART_EXAR654_EFR_ECB | UART_EXAR654_EFR_RTSDTR); isr_fcr &= ~(UART_EXAR654_EFR_IXOFF); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* Enable interrupts for RTS flow */ ier |= (UART_EXAR654_IER_RTSDTR); writeb(ier, &ch->ch_cls_uart->ier); /* Set the usual FIFO values */ writeb((UART_FCR_ENABLE_FIFO), &ch->ch_cls_uart->isr_fcr); writeb((UART_FCR_ENABLE_FIFO | UART_16654_FCR_RXTRIGGER_56 | UART_16654_FCR_TXTRIGGER_16 | UART_FCR_CLEAR_RCVR), &ch->ch_cls_uart->isr_fcr); ch->ch_r_watermark = 4; ch->ch_r_tlevel = 8; }

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static void cls_set_ixoff_flow_control(struct jsm_channel *ch) { u8 lcrb = readb(&ch->ch_cls_uart->lcr); u8 ier = readb(&ch->ch_cls_uart->ier); u8 isr_fcr = 0; /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn on IXOFF flow control, turn off RTS flow control */ isr_fcr |= (UART_EXAR654_EFR_ECB | UART_EXAR654_EFR_IXOFF); isr_fcr &= ~(UART_EXAR654_EFR_RTSDTR); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Now set our current start/stop chars while in enhanced mode */ writeb(ch->ch_startc, &ch->ch_cls_uart->mcr); writeb(0, &ch->ch_cls_uart->lsr); writeb(ch->ch_stopc, &ch->ch_cls_uart->msr); writeb(0, &ch->ch_cls_uart->spr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* Disable interrupts for RTS flow */ ier &= ~(UART_EXAR654_IER_RTSDTR); writeb(ier, &ch->ch_cls_uart->ier); /* Set the usual FIFO values */ writeb((UART_FCR_ENABLE_FIFO), &ch->ch_cls_uart->isr_fcr); writeb((UART_FCR_ENABLE_FIFO | UART_16654_FCR_RXTRIGGER_16 | UART_16654_FCR_TXTRIGGER_16 | UART_FCR_CLEAR_RCVR), &ch->ch_cls_uart->isr_fcr); }

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static void cls_set_no_input_flow_control(struct jsm_channel *ch) { u8 lcrb = readb(&ch->ch_cls_uart->lcr); u8 ier = readb(&ch->ch_cls_uart->ier); u8 isr_fcr = 0; /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn off IXOFF flow control, turn off RTS flow control */ isr_fcr |= (UART_EXAR654_EFR_ECB); isr_fcr &= ~(UART_EXAR654_EFR_RTSDTR | UART_EXAR654_EFR_IXOFF); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* Disable interrupts for RTS flow */ ier &= ~(UART_EXAR654_IER_RTSDTR); writeb(ier, &ch->ch_cls_uart->ier); /* Set the usual FIFO values */ writeb((UART_FCR_ENABLE_FIFO), &ch->ch_cls_uart->isr_fcr); writeb((UART_FCR_ENABLE_FIFO | UART_16654_FCR_RXTRIGGER_16 | UART_16654_FCR_TXTRIGGER_16 | UART_FCR_CLEAR_RCVR), &ch->ch_cls_uart->isr_fcr); ch->ch_t_tlevel = 16; ch->ch_r_tlevel = 16; }

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/* * cls_clear_break. * Determines whether its time to shut off break condition. * * No locks are assumed to be held when calling this function. * channel lock is held and released in this function. */
static void cls_clear_break(struct jsm_channel *ch) { unsigned long lock_flags; spin_lock_irqsave(&ch->ch_lock, lock_flags); /* Turn break off, and unset some variables */ if (ch->ch_flags & CH_BREAK_SENDING) { u8 temp = readb(&ch->ch_cls_uart->lcr); writeb((temp & ~UART_LCR_SBC), &ch->ch_cls_uart->lcr); ch->ch_flags &= ~(CH_BREAK_SENDING); jsm_dbg(IOCTL, &ch->ch_bd->pci_dev, "clear break Finishing UART_LCR_SBC! finished: %lx\n", jiffies); } spin_unlock_irqrestore(&ch->ch_lock, lock_flags); }

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static void cls_disable_receiver(struct jsm_channel *ch) { u8 tmp = readb(&ch->ch_cls_uart->ier); tmp &= ~(UART_IER_RDI); writeb(tmp, &ch->ch_cls_uart->ier); }

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static void cls_enable_receiver(struct jsm_channel *ch) { u8 tmp = readb(&ch->ch_cls_uart->ier); tmp |= (UART_IER_RDI); writeb(tmp, &ch->ch_cls_uart->ier); }

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/* Make the UART raise any of the output signals we want up */
static void cls_assert_modem_signals(struct jsm_channel *ch) { if (!ch) return; writeb(ch->ch_mostat, &ch->ch_cls_uart->mcr); }

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static void cls_copy_data_from_uart_to_queue(struct jsm_channel *ch) { int qleft = 0; u8 linestatus = 0; u8 error_mask = 0; u16 head; u16 tail; unsigned long flags; if (!ch) return; spin_lock_irqsave(&ch->ch_lock, flags); /* cache head and tail of queue */ head = ch->ch_r_head & RQUEUEMASK; tail = ch->ch_r_tail & RQUEUEMASK; /* Get our cached LSR */ linestatus = ch->ch_cached_lsr; ch->ch_cached_lsr = 0; /* Store how much space we have left in the queue */ qleft = tail - head - 1; if (qleft < 0) qleft += RQUEUEMASK + 1; /* * Create a mask to determine whether we should * insert the character (if any) into our queue. */ if (ch->ch_c_iflag & IGNBRK) error_mask |= UART_LSR_BI; while (1) { /* * Grab the linestatus register, we need to * check to see if there is any data to read */ linestatus = readb(&ch->ch_cls_uart->lsr); /* Break out if there is no data to fetch */ if (!(linestatus & UART_LSR_DR)) break; /* * Discard character if we are ignoring the error mask * which in this case is the break signal. */ if (linestatus & error_mask) { u8 discard; linestatus = 0; discard = readb(&ch->ch_cls_uart->txrx); continue; } /* * If our queue is full, we have no choice but to drop some * data. The assumption is that HWFLOW or SWFLOW should have * stopped things way way before we got to this point. * * I decided that I wanted to ditch the oldest data first, * I hope thats okay with everyone? Yes? Good. */ while (qleft < 1) { tail = (tail + 1) & RQUEUEMASK; ch->ch_r_tail = tail; ch->ch_err_overrun++; qleft++; } ch->ch_equeue[head] = linestatus & (UART_LSR_BI | UART_LSR_PE | UART_LSR_FE); ch->ch_rqueue[head] = readb(&ch->ch_cls_uart->txrx); qleft--; if (ch->ch_equeue[head] & UART_LSR_PE) ch->ch_err_parity++; if (ch->ch_equeue[head] & UART_LSR_BI) ch->ch_err_break++; if (ch->ch_equeue[head] & UART_LSR_FE) ch->ch_err_frame++; /* Add to, and flip head if needed */ head = (head + 1) & RQUEUEMASK; ch->ch_rxcount++; } /* * Write new final heads to channel structure. */ ch->ch_r_head = head & RQUEUEMASK; ch->ch_e_head = head & EQUEUEMASK; spin_unlock_irqrestore(&ch->ch_lock, flags); }

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static void cls_copy_data_from_queue_to_uart(struct jsm_channel *ch) { u16 tail; int n; int qlen; u32 len_written = 0; struct circ_buf *circ; if (!ch) return; circ = &ch->uart_port.state->xmit; /* No data to write to the UART */ if (uart_circ_empty(circ)) return; /* If port is "stopped", don't send any data to the UART */ if ((ch->ch_flags & CH_STOP) || (ch->ch_flags & CH_BREAK_SENDING)) return; /* We have to do it this way, because of the EXAR TXFIFO count bug. */ if (!(ch->ch_flags & (CH_TX_FIFO_EMPTY | CH_TX_FIFO_LWM))) return; n = 32; /* cache tail of queue */ tail = circ->tail & (UART_XMIT_SIZE - 1); qlen = uart_circ_chars_pending(circ); /* Find minimum of the FIFO space, versus queue length */ n = min(n, qlen); while (n > 0) { writeb(circ->buf[tail], &ch->ch_cls_uart->txrx); tail = (tail + 1) & (UART_XMIT_SIZE - 1); n--; ch->ch_txcount++; len_written++; } /* Update the final tail */ circ->tail = tail & (UART_XMIT_SIZE - 1); if (len_written > ch->ch_t_tlevel) ch->ch_flags &= ~(CH_TX_FIFO_EMPTY | CH_TX_FIFO_LWM); if (uart_circ_empty(circ)) uart_write_wakeup(&ch->uart_port); }

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static void cls_parse_modem(struct jsm_channel *ch, u8 signals) { u8 msignals = signals; jsm_dbg(MSIGS, &ch->ch_bd->pci_dev, "neo_parse_modem: port: %d msignals: %x\n", ch->ch_portnum, msignals); /* * Scrub off lower bits. * They signify delta's, which I don't care about * Keep DDCD and DDSR though */ msignals &= 0xf8; if (msignals & UART_MSR_DDCD) uart_handle_dcd_change(&ch->uart_port, msignals & UART_MSR_DCD); if (msignals & UART_MSR_DDSR) uart_handle_dcd_change(&ch->uart_port, msignals & UART_MSR_CTS); if (msignals & UART_MSR_DCD) ch->ch_mistat |= UART_MSR_DCD; else ch->ch_mistat &= ~UART_MSR_DCD; if (msignals & UART_MSR_DSR) ch->ch_mistat |= UART_MSR_DSR; else ch->ch_mistat &= ~UART_MSR_DSR; if (msignals & UART_MSR_RI) ch->ch_mistat |= UART_MSR_RI; else ch->ch_mistat &= ~UART_MSR_RI; if (msignals & UART_MSR_CTS) ch->ch_mistat |= UART_MSR_CTS; else ch->ch_mistat &= ~UART_MSR_CTS; jsm_dbg(MSIGS, &ch->ch_bd->pci_dev, "Port: %d DTR: %d RTS: %d CTS: %d DSR: %d " "RI: %d CD: %d\n", ch->ch_portnum, !!((ch->ch_mistat | ch->ch_mostat) & UART_MCR_DTR), !!((ch->ch_mistat | ch->ch_mostat) & UART_MCR_RTS), !!((ch->ch_mistat | ch->ch_mostat) & UART_MSR_CTS), !!((ch->ch_mistat | ch->ch_mostat) & UART_MSR_DSR), !!((ch->ch_mistat | ch->ch_mostat) & UART_MSR_RI), !!((ch->ch_mistat | ch->ch_mostat) & UART_MSR_DCD)); }

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/* Parse the ISR register for the specific port */
static inline void cls_parse_isr(struct jsm_board *brd, uint port) { struct jsm_channel *ch; u8 isr = 0; unsigned long flags; /* * No need to verify board pointer, it was already * verified in the interrupt routine. */ if (port >= brd->nasync) return; ch = brd->channels[port]; if (!ch) return; /* Here we try to figure out what caused the interrupt to happen */ while (1) { isr = readb(&ch->ch_cls_uart->isr_fcr); /* Bail if no pending interrupt on port */ if (isr & UART_IIR_NO_INT) break; /* Receive Interrupt pending */ if (isr & (UART_IIR_RDI | UART_IIR_RDI_TIMEOUT)) { /* Read data from uart -> queue */ cls_copy_data_from_uart_to_queue(ch); jsm_check_queue_flow_control(ch); } /* Transmit Hold register empty pending */ if (isr & UART_IIR_THRI) { /* Transfer data (if any) from Write Queue -> UART. */ spin_lock_irqsave(&ch->ch_lock, flags); ch->ch_flags |= (CH_TX_FIFO_EMPTY | CH_TX_FIFO_LWM); spin_unlock_irqrestore(&ch->ch_lock, flags); cls_copy_data_from_queue_to_uart(ch); } /* * CTS/RTS change of state: * Don't need to do anything, the cls_parse_modem * below will grab the updated modem signals. */ /* Parse any modem signal changes */ cls_parse_modem(ch, readb(&ch->ch_cls_uart->msr)); } }

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/* Channel lock MUST be held before calling this function! */
static void cls_flush_uart_write(struct jsm_channel *ch) { u8 tmp = 0; u8 i = 0; if (!ch) return; writeb((UART_FCR_ENABLE_FIFO | UART_FCR_CLEAR_XMIT), &ch->ch_cls_uart->isr_fcr); for (i = 0; i < 10; i++) { /* Check to see if the UART feels it completely flushed FIFO */ tmp = readb(&ch->ch_cls_uart->isr_fcr); if (tmp & UART_FCR_CLEAR_XMIT) { jsm_dbg(IOCTL, &ch->ch_bd->pci_dev, "Still flushing TX UART... i: %d\n", i); udelay(10); } else break; } ch->ch_flags |= (CH_TX_FIFO_EMPTY | CH_TX_FIFO_LWM); }

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/* Channel lock MUST be held before calling this function! */
static void cls_flush_uart_read(struct jsm_channel *ch) { if (!ch) return; /* * For complete POSIX compatibility, we should be purging the * read FIFO in the UART here. * * However, clearing the read FIFO (UART_FCR_CLEAR_RCVR) also * incorrectly flushes write data as well as just basically trashing the * FIFO. * * Presumably, this is a bug in this UART. */ udelay(10); }

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static void cls_send_start_character(struct jsm_channel *ch) { if (!ch) return; if (ch->ch_startc != __DISABLED_CHAR) { ch->ch_xon_sends++; writeb(ch->ch_startc, &ch->ch_cls_uart->txrx); } }

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static void cls_send_stop_character(struct jsm_channel *ch) { if (!ch) return; if (ch->ch_stopc != __DISABLED_CHAR) { ch->ch_xoff_sends++; writeb(ch->ch_stopc, &ch->ch_cls_uart->txrx); } }

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/* * cls_param() * Send any/all changes to the line to the UART. */
static void cls_param(struct jsm_channel *ch) { u8 lcr = 0; u8 uart_lcr = 0; u8 ier = 0; u32 baud = 9600; int quot = 0; struct jsm_board *bd; int i; unsigned int cflag; bd = ch->ch_bd; if (!bd) return; /* * If baud rate is zero, flush queues, and set mval to drop DTR. */ if ((ch->ch_c_cflag & (CBAUD)) == 0) { ch->ch_r_head = 0; ch->ch_r_tail = 0; ch->ch_e_head = 0; ch->ch_e_tail = 0; cls_flush_uart_write(ch); cls_flush_uart_read(ch); /* The baudrate is B0 so all modem lines are to be dropped. */ ch->ch_flags |= (CH_BAUD0); ch->ch_mostat &= ~(UART_MCR_RTS | UART_MCR_DTR); cls_assert_modem_signals(ch); return; } cflag = C_BAUD(ch->uart_port.state->port.tty); baud = 9600; for (i = 0; i < ARRAY_SIZE(baud_rates); i++) { if (baud_rates[i].cflag == cflag) { baud = baud_rates[i].rate; break; } } if (ch->ch_flags & CH_BAUD0) ch->ch_flags &= ~(CH_BAUD0); if (ch->ch_c_cflag & PARENB) lcr |= UART_LCR_PARITY; if (!(ch->ch_c_cflag & PARODD)) lcr |= UART_LCR_EPAR; /* * Not all platforms support mark/space parity, * so this will hide behind an ifdef. */ #ifdef CMSPAR if (ch->ch_c_cflag & CMSPAR) lcr |= UART_LCR_SPAR; #endif if (ch->ch_c_cflag & CSTOPB) lcr |= UART_LCR_STOP; switch (ch->ch_c_cflag & CSIZE) { case CS5: lcr |= UART_LCR_WLEN5; break; case CS6: lcr |= UART_LCR_WLEN6; break; case CS7: lcr |= UART_LCR_WLEN7; break; case CS8: default: lcr |= UART_LCR_WLEN8; break; } ier = readb(&ch->ch_cls_uart->ier); uart_lcr = readb(&ch->ch_cls_uart->lcr); quot = ch->ch_bd->bd_dividend / baud; if (quot != 0) { writeb(UART_LCR_DLAB, &ch->ch_cls_uart->lcr); writeb((quot & 0xff), &ch->ch_cls_uart->txrx); writeb((quot >> 8), &ch->ch_cls_uart->ier); writeb(lcr, &ch->ch_cls_uart->lcr); } if (uart_lcr != lcr) writeb(lcr, &ch->ch_cls_uart->lcr); if (ch->ch_c_cflag & CREAD) ier |= (UART_IER_RDI | UART_IER_RLSI); ier |= (UART_IER_THRI | UART_IER_MSI); writeb(ier, &ch->ch_cls_uart->ier); if (ch->ch_c_cflag & CRTSCTS) cls_set_cts_flow_control(ch); else if (ch->ch_c_iflag & IXON) { /* * If start/stop is set to disable, * then we should disable flow control. */ if ((ch->ch_startc == __DISABLED_CHAR) || (ch->ch_stopc == __DISABLED_CHAR)) cls_set_no_output_flow_control(ch); else cls_set_ixon_flow_control(ch); } else cls_set_no_output_flow_control(ch); if (ch->ch_c_cflag & CRTSCTS) cls_set_rts_flow_control(ch); else if (ch->ch_c_iflag & IXOFF) { /* * If start/stop is set to disable, * then we should disable flow control. */ if ((ch->ch_startc == __DISABLED_CHAR) || (ch->ch_stopc == __DISABLED_CHAR)) cls_set_no_input_flow_control(ch); else cls_set_ixoff_flow_control(ch); } else cls_set_no_input_flow_control(ch); cls_assert_modem_signals(ch); /* get current status of the modem signals now */ cls_parse_modem(ch, readb(&ch->ch_cls_uart->msr)); }

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Konrad Zapalowicz607100.00%1100.00%
Total607100.00%1100.00%

/* * cls_intr() * * Classic specific interrupt handler. */
static irqreturn_t cls_intr(int irq, void *voidbrd) { struct jsm_board *brd = voidbrd; unsigned long lock_flags; unsigned char uart_poll; uint i = 0; /* Lock out the slow poller from running on this board. */ spin_lock_irqsave(&brd->bd_intr_lock, lock_flags); /* * Check the board's global interrupt offset to see if we * acctually do have an interrupt pending on us. */ uart_poll = readb(brd->re_map_membase + UART_CLASSIC_POLL_ADDR_OFFSET); jsm_dbg(INTR, &brd->pci_dev, "%s:%d uart_poll: %x\n", __FILE__, __LINE__, uart_poll); if (!uart_poll) { jsm_dbg(INTR, &brd->pci_dev, "Kernel interrupted to me, but no pending interrupts...\n"); spin_unlock_irqrestore(&brd->bd_intr_lock, lock_flags); return IRQ_NONE; } /* At this point, we have at least SOMETHING to service, dig further. */ /* Parse each port to find out what caused the interrupt */ for (i = 0; i < brd->nasync; i++) cls_parse_isr(brd, i); spin_unlock_irqrestore(&brd->bd_intr_lock, lock_flags); return IRQ_HANDLED; }

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Konrad Zapalowicz143100.00%1100.00%
Total143100.00%1100.00%

/* Inits UART */
static void cls_uart_init(struct jsm_channel *ch) { unsigned char lcrb = readb(&ch->ch_cls_uart->lcr); unsigned char isr_fcr = 0; writeb(0, &ch->ch_cls_uart->ier); /* * The Enhanced Register Set may only be accessed when * the Line Control Register is set to 0xBFh. */ writeb(UART_EXAR654_ENHANCED_REGISTER_SET, &ch->ch_cls_uart->lcr); isr_fcr = readb(&ch->ch_cls_uart->isr_fcr); /* Turn on Enhanced/Extended controls */ isr_fcr |= (UART_EXAR654_EFR_ECB); writeb(isr_fcr, &ch->ch_cls_uart->isr_fcr); /* Write old LCR value back out, which turns enhanced access off */ writeb(lcrb, &ch->ch_cls_uart->lcr); /* Clear out UART and FIFO */ readb(&ch->ch_cls_uart->txrx); writeb((UART_FCR_ENABLE_FIFO|UART_FCR_CLEAR_RCVR|UART_FCR_CLEAR_XMIT), &ch->ch_cls_uart->isr_fcr); udelay(10); ch->ch_flags |= (CH_FIFO_ENABLED | CH_TX_FIFO_EMPTY | CH_TX_FIFO_LWM); readb(&ch->ch_cls_uart->lsr); readb(&ch->ch_cls_uart->msr); }

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Konrad Zapalowicz166100.00%1100.00%
Total166100.00%1100.00%

/* * Turns off UART. */
static void cls_uart_off(struct jsm_channel *ch) { /* Stop all interrupts from accurring. */ writeb(0, &ch->ch_cls_uart->ier); }

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Konrad Zapalowicz24100.00%1100.00%
Total24100.00%1100.00%

/* * cls_get_uarts_bytes_left. * Returns 0 is nothing left in the FIFO, returns 1 otherwise. * * The channel lock MUST be held by the calling function. */
static u32 cls_get_uart_bytes_left(struct jsm_channel *ch) { u8 left = 0; u8 lsr = readb(&ch->ch_cls_uart->lsr); /* Determine whether the Transmitter is empty or not */ if (!(lsr & UART_LSR_TEMT)) left = 1; else { ch->ch_flags |= (CH_TX_FIFO_EMPTY | CH_TX_FIFO_LWM); left = 0; } return left; }

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Konrad Zapalowicz63100.00%1100.00%
Total63100.00%1100.00%

/* * cls_send_break. * Starts sending a break thru the UART. * * The channel lock MUST be held by the calling function. */
static void cls_send_break(struct jsm_channel *ch) { /* Tell the UART to start sending the break */ if (!(ch->ch_flags & CH_BREAK_SENDING)) { u8 temp = readb(&ch->ch_cls_uart->lcr); writeb((temp | UART_LCR_SBC), &ch->ch_cls_uart->lcr); ch->ch_flags |= (CH_BREAK_SENDING); } }

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Konrad Zapalowicz62100.00%1100.00%
Total62100.00%1100.00%

/* * cls_send_immediate_char. * Sends a specific character as soon as possible to the UART, * jumping over any bytes that might be in the write queue. * * The channel lock MUST be held by the calling function. */
static void cls_send_immediate_char(struct jsm_channel *ch, unsigned char c) { writeb(c, &ch->ch_cls_uart->txrx); }

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Konrad Zapalowicz27100.00%1100.00%
Total27100.00%1100.00%

struct board_ops jsm_cls_ops = { .intr = cls_intr, .uart_init = cls_uart_init, .uart_off = cls_uart_off, .param = cls_param, .assert_modem_signals = cls_assert_modem_signals, .flush_uart_write = cls_flush_uart_write, .flush_uart_read = cls_flush_uart_read, .disable_receiver = cls_disable_receiver, .enable_receiver = cls_enable_receiver, .send_break = cls_send_break, .clear_break = cls_clear_break, .send_start_character = cls_send_start_character, .send_stop_character = cls_send_stop_character, .copy_data_from_queue_to_uart = cls_copy_data_from_queue_to_uart, .get_uart_bytes_left = cls_get_uart_bytes_left, .send_immediate_char = cls_send_immediate_char };

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Konrad Zapalowicz394399.97%266.67%
Dan Carpenter10.03%133.33%
Total3944100.00%3100.00%
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