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/*
* drivers / serial / v850e_uart . c - - Serial I / O using V850E on - chip UART or UARTB
*
* Copyright ( C ) 2001 , 02 , 03 NEC Electronics Corporation
* Copyright ( C ) 2001 , 02 , 03 Miles Bader < miles @ gnu . org >
*
* This file is subject to the terms and conditions of the GNU General
* Public License . See the file COPYING in the main directory of this
* archive for more details .
*
* Written by Miles Bader < miles @ gnu . org >
*/
/* This driver supports both the original V850E UART interface (called
merely ` UART ' in the docs ) and the newer ` UARTB ' interface , which is
roughly a superset of the first one . The selection is made at
configure time - - if CONFIG_V850E_UARTB is defined , then UARTB is
presumed , otherwise the old UART - - as these are on - CPU UARTS , a system
can never have both .
The UARTB interface also has a 16 - entry FIFO mode , which is not
yet supported by this driver . */
# include <linux/kernel.h>
# include <linux/init.h>
# include <linux/module.h>
# include <linux/console.h>
# include <linux/tty.h>
# include <linux/tty_flip.h>
# include <linux/serial.h>
# include <linux/serial_core.h>
# include <asm/v850e_uart.h>
/* Initial UART state. This may be overridden by machine-dependent headers. */
# ifndef V850E_UART_INIT_BAUD
# define V850E_UART_INIT_BAUD 115200
# endif
# ifndef V850E_UART_INIT_CFLAGS
# define V850E_UART_INIT_CFLAGS (B115200 | CS8 | CREAD)
# endif
/* A string used for prefixing printed descriptions; since the same UART
macro is actually used on other chips than the V850E . This must be a
constant string . */
# ifndef V850E_UART_CHIP_NAME
# define V850E_UART_CHIP_NAME "V850E"
# endif
# define V850E_UART_MINOR_BASE 64 /* First tty minor number */
/* Low-level UART functions. */
/* Configure and turn on uart channel CHAN, using the termios `control
modes ' bits in CFLAGS , and a baud - rate of BAUD . */
void v850e_uart_configure ( unsigned chan , unsigned cflags , unsigned baud )
{
int flags ;
v850e_uart_speed_t old_speed ;
v850e_uart_config_t old_config ;
v850e_uart_speed_t new_speed = v850e_uart_calc_speed ( baud ) ;
v850e_uart_config_t new_config = v850e_uart_calc_config ( cflags ) ;
/* Disable interrupts while we're twiddling the hardware. */
local_irq_save ( flags ) ;
# ifdef V850E_UART_PRE_CONFIGURE
V850E_UART_PRE_CONFIGURE ( chan , cflags , baud ) ;
# endif
old_config = V850E_UART_CONFIG ( chan ) ;
old_speed = v850e_uart_speed ( chan ) ;
if ( ! v850e_uart_speed_eq ( old_speed , new_speed ) ) {
/* The baud rate has changed. First, disable the UART. */
V850E_UART_CONFIG ( chan ) = V850E_UART_CONFIG_FINI ;
old_config = 0 ; /* Force the uart to be re-initialized. */
/* Reprogram the baud-rate generator. */
v850e_uart_set_speed ( chan , new_speed ) ;
}
if ( ! ( old_config & V850E_UART_CONFIG_ENABLED ) ) {
/* If we are using the uart for the first time, start by
enabling it , which must be done before turning on any
other bits . */
V850E_UART_CONFIG ( chan ) = V850E_UART_CONFIG_INIT ;
/* See the initial state. */
old_config = V850E_UART_CONFIG ( chan ) ;
}
if ( new_config ! = old_config ) {
/* Which of the TXE/RXE bits we'll temporarily turn off
before changing other control bits . */
unsigned temp_disable = 0 ;
/* Which of the TXE/RXE bits will be enabled. */
unsigned enable = 0 ;
unsigned changed_bits = new_config ^ old_config ;
/* Which of RX/TX will be enabled in the new configuration. */
if ( new_config & V850E_UART_CONFIG_RX_BITS )
enable | = ( new_config & V850E_UART_CONFIG_RX_ENABLE ) ;
if ( new_config & V850E_UART_CONFIG_TX_BITS )
enable | = ( new_config & V850E_UART_CONFIG_TX_ENABLE ) ;
/* Figure out which of RX/TX needs to be disabled; note
that this will only happen if they ' re not already
disabled . */
if ( changed_bits & V850E_UART_CONFIG_RX_BITS )
temp_disable
| = ( old_config & V850E_UART_CONFIG_RX_ENABLE ) ;
if ( changed_bits & V850E_UART_CONFIG_TX_BITS )
temp_disable
| = ( old_config & V850E_UART_CONFIG_TX_ENABLE ) ;
/* We have to turn off RX and/or TX mode before changing
any associated control bits . */
if ( temp_disable )
V850E_UART_CONFIG ( chan ) = old_config & ~ temp_disable ;
/* Write the new control bits, while RX/TX are disabled. */
if ( changed_bits & ~ enable )
V850E_UART_CONFIG ( chan ) = new_config & ~ enable ;
v850e_uart_config_delay ( new_config , new_speed ) ;
/* Write the final version, with enable bits turned on. */
V850E_UART_CONFIG ( chan ) = new_config ;
}
local_irq_restore ( flags ) ;
}
/* Low-level console. */
# ifdef CONFIG_V850E_UART_CONSOLE
static void v850e_uart_cons_write ( struct console * co ,
const char * s , unsigned count )
{
if ( count > 0 ) {
unsigned chan = co - > index ;
unsigned irq = V850E_UART_TX_IRQ ( chan ) ;
int irq_was_enabled , irq_was_pending , flags ;
/* We don't want to get `transmission completed'
interrupts , since we ' re busy - waiting , so we disable them
while sending ( we don ' t disable interrupts entirely
because sending over a serial line is really slow ) . We
save the status of the tx interrupt and restore it when
we ' re done so that using printk doesn ' t interfere with
normal serial transmission ( other than interleaving the
output , of course ! ) . This should work correctly even if
this function is interrupted and the interrupt printks
something . */
/* Disable interrupts while fiddling with tx interrupt. */
local_irq_save ( flags ) ;
/* Get current tx interrupt status. */
irq_was_enabled = v850e_intc_irq_enabled ( irq ) ;
irq_was_pending = v850e_intc_irq_pending ( irq ) ;
/* Disable tx interrupt if necessary. */
if ( irq_was_enabled )
v850e_intc_disable_irq ( irq ) ;
/* Turn interrupts back on. */
local_irq_restore ( flags ) ;
/* Send characters. */
while ( count > 0 ) {
int ch = * s + + ;
if ( ch = = ' \n ' ) {
/* We don't have the benefit of a tty
driver , so translate NL into CR LF . */
v850e_uart_wait_for_xmit_ok ( chan ) ;
v850e_uart_putc ( chan , ' \r ' ) ;
}
v850e_uart_wait_for_xmit_ok ( chan ) ;
v850e_uart_putc ( chan , ch ) ;
count - - ;
}
/* Restore saved tx interrupt status. */
if ( irq_was_enabled ) {
/* Wait for the last character we sent to be
completely transmitted ( as we ' ll get an
interrupt interrupt at that point ) . */
v850e_uart_wait_for_xmit_done ( chan ) ;
/* Clear pending interrupts received due
to our transmission , unless there was already
one pending , in which case we want the
handler to be called . */
if ( ! irq_was_pending )
v850e_intc_clear_pending_irq ( irq ) ;
/* ... and then turn back on handling. */
v850e_intc_enable_irq ( irq ) ;
}
}
}
extern struct uart_driver v850e_uart_driver ;
static struct console v850e_uart_cons =
{
. name = " ttyS " ,
. write = v850e_uart_cons_write ,
. device = uart_console_device ,
. flags = CON_PRINTBUFFER ,
. cflag = V850E_UART_INIT_CFLAGS ,
. index = - 1 ,
. data = & v850e_uart_driver ,
} ;
void v850e_uart_cons_init ( unsigned chan )
{
v850e_uart_configure ( chan , V850E_UART_INIT_CFLAGS ,
V850E_UART_INIT_BAUD ) ;
v850e_uart_cons . index = chan ;
register_console ( & v850e_uart_cons ) ;
printk ( " Console: %s on-chip UART channel %d \n " ,
V850E_UART_CHIP_NAME , chan ) ;
}
/* This is what the init code actually calls. */
static int v850e_uart_console_init ( void )
{
v850e_uart_cons_init ( V850E_UART_CONSOLE_CHANNEL ) ;
return 0 ;
}
console_initcall ( v850e_uart_console_init ) ;
# define V850E_UART_CONSOLE &v850e_uart_cons
# else /* !CONFIG_V850E_UART_CONSOLE */
# define V850E_UART_CONSOLE 0
# endif /* CONFIG_V850E_UART_CONSOLE */
/* TX/RX interrupt handlers. */
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static void v850e_uart_stop_tx ( struct uart_port * port ) ;
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void v850e_uart_tx ( struct uart_port * port )
{
struct circ_buf * xmit = & port - > info - > xmit ;
int stopped = uart_tx_stopped ( port ) ;
if ( v850e_uart_xmit_ok ( port - > line ) ) {
int tx_ch ;
if ( port - > x_char ) {
tx_ch = port - > x_char ;
port - > x_char = 0 ;
} else if ( ! uart_circ_empty ( xmit ) & & ! stopped ) {
tx_ch = xmit - > buf [ xmit - > tail ] ;
xmit - > tail = ( xmit - > tail + 1 ) & ( UART_XMIT_SIZE - 1 ) ;
} else
goto no_xmit ;
v850e_uart_putc ( port - > line , tx_ch ) ;
port - > icount . tx + + ;
if ( uart_circ_chars_pending ( xmit ) < WAKEUP_CHARS )
uart_write_wakeup ( port ) ;
}
no_xmit :
if ( uart_circ_empty ( xmit ) | | stopped )
v850e_uart_stop_tx ( port , stopped ) ;
}
static irqreturn_t v850e_uart_tx_irq ( int irq , void * data , struct pt_regs * regs )
{
struct uart_port * port = data ;
v850e_uart_tx ( port ) ;
return IRQ_HANDLED ;
}
static irqreturn_t v850e_uart_rx_irq ( int irq , void * data , struct pt_regs * regs )
{
struct uart_port * port = data ;
unsigned ch_stat = TTY_NORMAL ;
unsigned ch = v850e_uart_getc ( port - > line ) ;
unsigned err = v850e_uart_err ( port - > line ) ;
if ( err ) {
if ( err & V850E_UART_ERR_OVERRUN ) {
ch_stat = TTY_OVERRUN ;
port - > icount . overrun + + ;
} else if ( err & V850E_UART_ERR_FRAME ) {
ch_stat = TTY_FRAME ;
port - > icount . frame + + ;
} else if ( err & V850E_UART_ERR_PARITY ) {
ch_stat = TTY_PARITY ;
port - > icount . parity + + ;
}
}
port - > icount . rx + + ;
tty_insert_flip_char ( port - > info - > tty , ch , ch_stat ) ;
tty_schedule_flip ( port - > info - > tty ) ;
return IRQ_HANDLED ;
}
/* Control functions for the serial framework. */
static void v850e_uart_nop ( struct uart_port * port ) { }
static int v850e_uart_success ( struct uart_port * port ) { return 0 ; }
static unsigned v850e_uart_tx_empty ( struct uart_port * port )
{
return TIOCSER_TEMT ; /* Can't detect. */
}
static void v850e_uart_set_mctrl ( struct uart_port * port , unsigned mctrl )
{
# ifdef V850E_UART_SET_RTS
V850E_UART_SET_RTS ( port - > line , ( mctrl & TIOCM_RTS ) ) ;
# endif
}
static unsigned v850e_uart_get_mctrl ( struct uart_port * port )
{
/* We don't support DCD or DSR, so consider them permanently active. */
int mctrl = TIOCM_CAR | TIOCM_DSR ;
/* We may support CTS. */
# ifdef V850E_UART_CTS
mctrl | = V850E_UART_CTS ( port - > line ) ? TIOCM_CTS : 0 ;
# else
mctrl | = TIOCM_CTS ;
# endif
return mctrl ;
}
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static void v850e_uart_start_tx ( struct uart_port * port )
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{
v850e_intc_disable_irq ( V850E_UART_TX_IRQ ( port - > line ) ) ;
v850e_uart_tx ( port ) ;
v850e_intc_enable_irq ( V850E_UART_TX_IRQ ( port - > line ) ) ;
}
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static void v850e_uart_stop_tx ( struct uart_port * port )
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{
v850e_intc_disable_irq ( V850E_UART_TX_IRQ ( port - > line ) ) ;
}
static void v850e_uart_start_rx ( struct uart_port * port )
{
v850e_intc_enable_irq ( V850E_UART_RX_IRQ ( port - > line ) ) ;
}
static void v850e_uart_stop_rx ( struct uart_port * port )
{
v850e_intc_disable_irq ( V850E_UART_RX_IRQ ( port - > line ) ) ;
}
static void v850e_uart_break_ctl ( struct uart_port * port , int break_ctl )
{
/* Umm, do this later. */
}
static int v850e_uart_startup ( struct uart_port * port )
{
int err ;
/* Alloc RX irq. */
err = request_irq ( V850E_UART_RX_IRQ ( port - > line ) , v850e_uart_rx_irq ,
SA_INTERRUPT , " v850e_uart " , port ) ;
if ( err )
return err ;
/* Alloc TX irq. */
err = request_irq ( V850E_UART_TX_IRQ ( port - > line ) , v850e_uart_tx_irq ,
SA_INTERRUPT , " v850e_uart " , port ) ;
if ( err ) {
free_irq ( V850E_UART_RX_IRQ ( port - > line ) , port ) ;
return err ;
}
v850e_uart_start_rx ( port ) ;
return 0 ;
}
static void v850e_uart_shutdown ( struct uart_port * port )
{
/* Disable port interrupts. */
free_irq ( V850E_UART_TX_IRQ ( port - > line ) , port ) ;
free_irq ( V850E_UART_RX_IRQ ( port - > line ) , port ) ;
/* Turn off xmit/recv enable bits. */
V850E_UART_CONFIG ( port - > line )
& = ~ ( V850E_UART_CONFIG_TX_ENABLE
| V850E_UART_CONFIG_RX_ENABLE ) ;
/* Then reset the channel. */
V850E_UART_CONFIG ( port - > line ) = 0 ;
}
static void
v850e_uart_set_termios ( struct uart_port * port , struct termios * termios ,
struct termios * old )
{
unsigned cflags = termios - > c_cflag ;
/* Restrict flags to legal values. */
if ( ( cflags & CSIZE ) ! = CS7 & & ( cflags & CSIZE ) ! = CS8 )
/* The new value of CSIZE is invalid, use the old value. */
cflags = ( cflags & ~ CSIZE )
| ( old ? ( old - > c_cflag & CSIZE ) : CS8 ) ;
termios - > c_cflag = cflags ;
v850e_uart_configure ( port - > line , cflags ,
uart_get_baud_rate ( port , termios , old ,
v850e_uart_min_baud ( ) ,
v850e_uart_max_baud ( ) ) ) ;
}
static const char * v850e_uart_type ( struct uart_port * port )
{
return port - > type = = PORT_V850E_UART ? " v850e_uart " : 0 ;
}
static void v850e_uart_config_port ( struct uart_port * port , int flags )
{
if ( flags & UART_CONFIG_TYPE )
port - > type = PORT_V850E_UART ;
}
static int
v850e_uart_verify_port ( struct uart_port * port , struct serial_struct * ser )
{
if ( ser - > type ! = PORT_UNKNOWN & & ser - > type ! = PORT_V850E_UART )
return - EINVAL ;
if ( ser - > irq ! = V850E_UART_TX_IRQ ( port - > line ) )
return - EINVAL ;
return 0 ;
}
static struct uart_ops v850e_uart_ops = {
. tx_empty = v850e_uart_tx_empty ,
. get_mctrl = v850e_uart_get_mctrl ,
. set_mctrl = v850e_uart_set_mctrl ,
. start_tx = v850e_uart_start_tx ,
. stop_tx = v850e_uart_stop_tx ,
. stop_rx = v850e_uart_stop_rx ,
. enable_ms = v850e_uart_nop ,
. break_ctl = v850e_uart_break_ctl ,
. startup = v850e_uart_startup ,
. shutdown = v850e_uart_shutdown ,
. set_termios = v850e_uart_set_termios ,
. type = v850e_uart_type ,
. release_port = v850e_uart_nop ,
. request_port = v850e_uart_success ,
. config_port = v850e_uart_config_port ,
. verify_port = v850e_uart_verify_port ,
} ;
/* Initialization and cleanup. */
static struct uart_driver v850e_uart_driver = {
. owner = THIS_MODULE ,
. driver_name = " v850e_uart " ,
. devfs_name = " tts/ " ,
. dev_name = " ttyS " ,
. major = TTY_MAJOR ,
. minor = V850E_UART_MINOR_BASE ,
. nr = V850E_UART_NUM_CHANNELS ,
. cons = V850E_UART_CONSOLE ,
} ;
static struct uart_port v850e_uart_ports [ V850E_UART_NUM_CHANNELS ] ;
static int __init v850e_uart_init ( void )
{
int rval ;
printk ( KERN_INFO " %s on-chip UART \n " , V850E_UART_CHIP_NAME ) ;
rval = uart_register_driver ( & v850e_uart_driver ) ;
if ( rval = = 0 ) {
unsigned chan ;
for ( chan = 0 ; chan < V850E_UART_NUM_CHANNELS ; chan + + ) {
struct uart_port * port = & v850e_uart_ports [ chan ] ;
memset ( port , 0 , sizeof * port ) ;
port - > ops = & v850e_uart_ops ;
port - > line = chan ;
port - > iotype = SERIAL_IO_MEM ;
port - > flags = UPF_BOOT_AUTOCONF ;
/* We actually use multiple IRQs, but the serial
framework seems to mainly use this for
informational purposes anyway . Here we use the TX
irq . */
port - > irq = V850E_UART_TX_IRQ ( chan ) ;
/* The serial framework doesn't really use these
membase / mapbase fields for anything useful , but
it requires that they be something non - zero to
consider the port ` valid ' , and also uses them
for informational purposes . */
port - > membase = ( void * ) V850E_UART_BASE_ADDR ( chan ) ;
port - > mapbase = V850E_UART_BASE_ADDR ( chan ) ;
/* The framework insists on knowing the uart's master
clock freq , though it doesn ' t seem to do anything
useful for us with it . We must make it at least
higher than ( the maximum baud rate * 16 ) , otherwise
the framework will puke during its internal
calculations , and force the baud rate to be 9600.
To be accurate though , just repeat the calculation
we use when actually setting the speed . */
port - > uartclk = v850e_uart_max_clock ( ) * 16 ;
uart_add_one_port ( & v850e_uart_driver , port ) ;
}
}
return rval ;
}
static void __exit v850e_uart_exit ( void )
{
unsigned chan ;
for ( chan = 0 ; chan < V850E_UART_NUM_CHANNELS ; chan + + )
uart_remove_one_port ( & v850e_uart_driver ,
& v850e_uart_ports [ chan ] ) ;
uart_unregister_driver ( & v850e_uart_driver ) ;
}
module_init ( v850e_uart_init ) ;
module_exit ( v850e_uart_exit ) ;
MODULE_AUTHOR ( " Miles Bader " ) ;
MODULE_DESCRIPTION ( " NEC " V850E_UART_CHIP_NAME " on-chip UART " ) ;
MODULE_LICENSE ( " GPL " ) ;