#include #include #include #include #include #include #include #include #include #include "omap_serial.h" #include "tty.h" #if NR_RS_LINES > 0 #define UART_FREQ 48000000L /* timer frequency */ #if 0 #define DFLT_BAUD TSPEED_DEF /* default baud rate */ #else #define DFLT_BAUD B115200 /* default baud rate */ #endif #define RS_IBUFSIZE 40960 /* RS232 input buffer size */ #define RS_OBUFSIZE 40960 /* RS232 output buffer size */ /* Input buffer watermarks. * The external device is asked to stop sending when the buffer * exactly reaches high water, or when TTY requests it. Sending restarts * when the input buffer empties below the low watermark. */ #define RS_ILOWWATER (1 * RS_IBUFSIZE / 4) #define RS_IHIGHWATER (3 * RS_IBUFSIZE / 4) /* Output buffer low watermark. * TTY is notified when the output buffer empties below the low watermark, so * it may continue filling the buffer if doing a large write. */ #define RS_OLOWWATER (1 * RS_OBUFSIZE / 4) /* Macros to handle flow control. * Interrupts must be off when they are used. * Time is critical - already the function call for outb() is annoying. * If outb() can be done in-line, tests to avoid it can be dropped. * istart() tells external device we are ready by raising RTS. * istop() tells external device we are not ready by dropping RTS. * DTR is kept high all the time (it probably should be raised by open and * dropped by close of the device). * OUT2 is also kept high all the time. */ #define istart(rs) \ (serial_out((rs), OMAP3_MCR, UART_MCR_OUT2|UART_MCR_RTS|UART_MCR_DTR),\ (rs)->idevready = TRUE) #define istop(rs) \ (serial_out((rs), OMAP3_MCR, UART_MCR_OUT2|UART_MCR_DTR), \ (rs)->idevready = FALSE) /* Macro to tell if device is ready. The rs->cts field is set to UART_MSR_CTS * if CLOCAL is in effect for a line without a CTS wire. */ #define devready(rs) ((serial_in(rs, OMAP3_MSR) | rs->cts) & UART_MSR_CTS) /* Macro to tell if transmitter is ready. */ #define txready(rs) (serial_in(rs, OMAP3_LSR) & UART_LSR_THRE) /* RS232 device structure, one per device. */ typedef struct rs232 { tty_t *tty; /* associated TTY structure */ int icount; /* number of bytes in the input buffer */ char *ihead; /* next free spot in input buffer */ char *itail; /* first byte to give to TTY */ char idevready; /* nonzero if we are ready to receive (RTS) */ char cts; /* normally 0, but MS_CTS if CLOCAL is set */ unsigned char ostate; /* combination of flags: */ #define ODONE 1 /* output completed (< output enable bits) */ #define ORAW 2 /* raw mode for xoff disable (< enab. bits) */ #define OWAKEUP 4 /* tty_wakeup() pending (asm code only) */ #define ODEVREADY UART_MSR_CTS /* external device hardware ready (CTS) */ #define OQUEUED 0x20 /* output buffer not empty */ #define OSWREADY 0x40 /* external device software ready (no xoff) */ #define ODEVHUP UART_MSR_DCD /* external device has dropped carrier */ #define OSOFTBITS (ODONE | ORAW | OWAKEUP | OQUEUED | OSWREADY) /* user-defined bits */ #if (OSOFTBITS | ODEVREADY | ODEVHUP) == OSOFTBITS /* a weak sanity check */ #error /* bits are not unique */ #endif unsigned char oxoff; /* char to stop output */ char inhibited; /* output inhibited? (follows tty_inhibited) */ char drain; /* if set drain output and reconfigure line */ int ocount; /* number of bytes in the output buffer */ char *ohead; /* next free spot in output buffer */ char *otail; /* next char to output */ phys_bytes phys_base; /* UART physical base address (I/O map) */ unsigned int reg_offset; /* UART register offset */ unsigned int ier; /* copy of ier register */ unsigned int scr; /* copy of scr register */ unsigned int fcr; /* copy of fcr register */ unsigned int dll; /* copy of dll register */ unsigned int dlh; /* copy of dlh register */ unsigned int uartclk; /* UART clock rate */ unsigned char lstatus; /* last line status */ int rx_overrun_events; int irq; /* irq for this line */ int irq_hook_id; /* interrupt hook */ int irq_hook_kernel_id; /* id as returned from sys_irqsetpolicy */ char ibuf[RS_IBUFSIZE]; /* input buffer */ char obuf[RS_OBUFSIZE]; /* output buffer */ } rs232_t; static rs232_t rs_lines[NR_RS_LINES]; typedef struct uart_port { phys_bytes base_addr; int irq; } uart_port_t; /* OMAP3 UART base addresses. */ static uart_port_t dm37xx_ports[] = { { OMAP3_UART1_BASE, 72}, /* UART1 */ { OMAP3_UART2_BASE, 73}, /* UART2 */ { OMAP3_UART3_BASE, 74}, /* UART3 */ { 0, 0 } }; static uart_port_t am335x_ports[] = { { 0x44E09000 , 72 }, /* UART0 */ { 0, 0 }, { 0, 0 }, { 0, 0 } }; static int rs_write(tty_t *tp, int try); static void rs_echo(tty_t *tp, int c); static int rs_ioctl(tty_t *tp, int try); static void rs_config(rs232_t *rs); static int rs_read(tty_t *tp, int try); static int rs_icancel(tty_t *tp, int try); static int rs_ocancel(tty_t *tp, int try); static void rs_ostart(rs232_t *rs); static int rs_break_on(tty_t *tp, int try); static int rs_break_off(tty_t *tp, int try); static int rs_close(tty_t *tp, int try); static int rs_open(tty_t *tp, int try); static void rs232_handler(rs232_t *rs); static void rs_reset(rs232_t *rs); static unsigned int check_modem_status(rs232_t *rs); static int termios_baud_rate(struct termios *term); static inline unsigned int readw(vir_bytes addr); static inline unsigned int serial_in(rs232_t *rs, int offset); static inline void serial_out(rs232_t *rs, int offset, int val); static inline void writew(vir_bytes addr, int val); static void write_chars(rs232_t *rs); static void read_chars(rs232_t *rs, unsigned int status); static inline unsigned int readw(vir_bytes addr) { return *((volatile unsigned int *) addr); } static inline void writew(vir_bytes addr, int val) { *((volatile unsigned int *) addr) = val; } static inline unsigned int serial_in(rs232_t *rs, int offset) { offset <<= rs->reg_offset; return readw(rs->phys_base + offset); } static inline void serial_out(rs232_t *rs, int offset, int val) { offset <<= rs->reg_offset; writew(rs->phys_base + offset, val); } static void rs_reset(rs232_t *rs) { u32_t syss; serial_out(rs, OMAP3_SYSC, UART_SYSC_SOFTRESET); /* Poll until done */ do { syss = serial_in(rs, OMAP3_SYSS); } while (!(syss & UART_SYSS_RESETDONE)); } static int rs_write(register tty_t *tp, int try) { /* (*devwrite)() routine for RS232. */ rs232_t *rs = tp->tty_priv; int r, count, ocount; if (rs->inhibited != tp->tty_inhibited) { /* Inhibition state has changed. */ rs->ostate |= OSWREADY; if (tp->tty_inhibited) rs->ostate &= ~OSWREADY; rs->inhibited = tp->tty_inhibited; } if (rs->drain) { /* Wait for the line to drain then reconfigure and continue * output. */ if (rs->ocount > 0) return 0; rs->drain = FALSE; rs_config(rs); } /* While there is something to do. */ for (;;) { ocount = buflen(rs->obuf) - rs->ocount; count = bufend(rs->obuf) - rs->ohead; if (count > ocount) count = ocount; if (count > tp->tty_outleft) count = tp->tty_outleft; if (count == 0 || tp->tty_inhibited) { if (try) return 0; break; } if (try) return 1; /* Copy from user space to the RS232 output buffer. */ if (tp->tty_outcaller == KERNEL) { /* We're trying to print on kernel's behalf */ memcpy(rs->ohead, (char *) tp->tty_outgrant + tp->tty_outcum, count); } else { if ((r = sys_safecopyfrom(tp->tty_outcaller, tp->tty_outgrant, tp->tty_outcum, (vir_bytes) rs->ohead, count)) != OK) { return 0; } } /* Perform output processing on the output buffer. */ out_process(tp, rs->obuf, rs->ohead, bufend(rs->obuf), &count, &ocount); if (count == 0) { break; } /* Assume echoing messed up by output. */ tp->tty_reprint = TRUE; /* Bookkeeping. */ rs->ocount += ocount; rs_ostart(rs); if ((rs->ohead += ocount) >= bufend(rs->obuf)) rs->ohead -= buflen(rs->obuf); tp->tty_outcum += count; if ((tp->tty_outleft -= count) == 0) { /* Output is finished, reply to the writer. */ if (tp->tty_outcaller != KERNEL) chardriver_reply_task(tp->tty_outcaller, tp->tty_outid, tp->tty_outcum); tp->tty_outcum = 0; tp->tty_outcaller = NONE; } } if (tp->tty_outleft > 0 && tp->tty_termios.c_ospeed == B0) { /* Oops, the line has hung up. */ if (tp->tty_outcaller != KERNEL) chardriver_reply_task(tp->tty_outcaller, tp->tty_outid, EIO); tp->tty_outleft = tp->tty_outcum = 0; tp->tty_outcaller = NONE; } return 1; } static void rs_echo(tty_t *tp, int character) { /* Echo one character. (Like rs_write, but only one character, optionally.) */ rs232_t *rs = tp->tty_priv; int count, ocount; ocount = buflen(rs->obuf) - rs->ocount; if (ocount == 0) return; /* output buffer full */ count = 1; *rs->ohead = character; /* add one character */ out_process(tp, rs->obuf, rs->ohead, bufend(rs->obuf), &count, &ocount); if (count == 0) return; rs->ocount += ocount; rs_ostart(rs); if ((rs->ohead += ocount) >= bufend(rs->obuf)) rs->ohead -= buflen(rs->obuf); } static int rs_ioctl(tty_t *tp, int UNUSED(dummy)) { /* Reconfigure the line as soon as the output has drained. */ rs232_t *rs = tp->tty_priv; rs->drain = TRUE; return 0; /* dummy */ } static unsigned int omap_get_divisor(rs232_t *rs, unsigned int baud) { /* Calculate divisor value. The 16750 has two oversampling modes to reach * high baud rates with little error rate (see table 17-1 in OMAP TRM). * Baud rates 460800, 921600, 1843200, and 3686400 use 13x oversampling, * the other rates 16x. The baud rate is calculated as follows: * baud rate = (functional clock / oversampling) / divisor. */ unsigned int oversampling; assert(baud != 0); switch(baud) { case B460800: /* Fall through */ case B921600: /* Fall through */ #if 0 case B1843200: /* Fall through */ case B3686400: #endif oversampling = 13; break; default: oversampling = 16; } return (rs->uartclk / oversampling) / baud; } static int termios_baud_rate(struct termios *term) { int baud; switch(term->c_ospeed) { case B300: baud = 300; break; case B600: baud = 600; break; case B1200: baud = 1200; break; case B2400: baud = 2400; break; case B4800: baud = 4800; break; case B9600: baud = 9600; break; case B38400: baud = 38400; break; case B57600: baud = 57600; break; case B115200: baud = 115200; break; case B0: default: /* Reset the speed to the default speed, then call ourselves * to convert the default speed to a baudrate. This call will * always return a value without inducing another recursive * call. */ term->c_ospeed = DFLT_BAUD; baud = termios_baud_rate(term); } return baud; } static void rs_config(rs232_t *rs) { /* Set various line control parameters for RS232 I/O. */ tty_t *tp = rs->tty; unsigned int divisor, efr, lcr, mcr, baud; /* Fifo and DMA settings */ /* See OMAP35x TRM 17.5.1.1.2 */ lcr = serial_in(rs, OMAP3_LCR); /* 1a */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_B); /* 1b */ efr = serial_in(rs, OMAP3_EFR); /* 2a */ serial_out(rs, OMAP3_EFR, efr | UART_EFR_ECB); /* 2b */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_A); /* 3 */ mcr = serial_in(rs, OMAP3_MCR); /* 4a */ serial_out(rs, OMAP3_MCR, mcr | UART_MCR_TCRTLR); /* 4b */ /* Set up FIFO */ rs->fcr = 0; /* Set FIFO interrupt trigger levels high */ rs->fcr |= (0x3 << OMAP_UART_FCR_RX_FIFO_TRIG_SHIFT); rs->fcr |= (0x3 << OMAP_UART_FCR_TX_FIFO_TRIG_SHIFT); rs->fcr |= UART_FCR_ENABLE_FIFO; serial_out(rs, OMAP3_FCR, rs->fcr); /* 5 */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_B); /* 6 */ /* DMA triggers, not supported by this driver */ /* 7 */ rs->scr = OMAP_UART_SCR_RX_TRIG_GRANU1_MASK; serial_out(rs, OMAP3_SCR, rs->scr); /* 8 */ serial_out(rs, OMAP3_EFR, efr); /* 9 */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_A); /* 10 */ serial_out(rs, OMAP3_MCR, mcr); /* 11 */ serial_out(rs, OMAP3_LCR, lcr); /* 12 */ /* RS232 needs to know the xoff character, and if CTS works. */ rs->oxoff = tp->tty_termios.c_cc[VSTOP]; rs->cts = (tp->tty_termios.c_cflag & CLOCAL) ? UART_MSR_CTS : 0; baud = termios_baud_rate(&tp->tty_termios); /* Look up the 16750 rate divisor from the output speed. */ divisor = omap_get_divisor(rs, baud); rs->dll = divisor & 0xFF; rs->dlh = divisor >> 8; /* Compute line control flag bits. */ lcr = 0; if (tp->tty_termios.c_cflag & PARENB) { lcr |= UART_LCR_PARITY; if (!(tp->tty_termios.c_cflag & PARODD)) lcr |= UART_LCR_EPAR; } if (tp->tty_termios.c_cflag & CSTOPB) lcr |= UART_LCR_STOP; switch(tp->tty_termios.c_cflag & CSIZE) { case CS5: lcr |= UART_LCR_WLEN5; break; case CS6: lcr |= UART_LCR_WLEN6; break; case CS7: lcr |= UART_LCR_WLEN7; break; default: case CS8: lcr |= UART_LCR_WLEN8; break; } /* Lock out interrupts while setting the speed. The receiver register * is going to be hidden by the div_low register, but the input * interrupt handler relies on reading it to clear the interrupt and * avoid looping forever. */ if (sys_irqdisable(&rs->irq_hook_kernel_id) != OK) panic("unable to disable interrupts"); /* Select the baud rate divisor registers and change the rate. */ /* See OMAP35x TRM 17.5.1.1.3 */ serial_out(rs, OMAP3_MDR1, OMAP_MDR1_DISABLE); /* 1 */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_B); /* 2 */ efr = serial_in(rs, OMAP3_EFR); /* 3a */ serial_out(rs, OMAP3_EFR, efr | UART_EFR_ECB); /* 3b */ serial_out(rs, OMAP3_LCR, 0); /* 4 */ serial_out(rs, OMAP3_IER, 0); /* 5 */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_B); /* 6 */ serial_out(rs, OMAP3_DLL, rs->dll); /* 7 */ serial_out(rs, OMAP3_DLH, rs->dlh); /* 7 */ serial_out(rs, OMAP3_LCR, 0); /* 8 */ serial_out(rs, OMAP3_IER, rs->ier); /* 9 */ serial_out(rs, OMAP3_LCR, UART_LCR_CONF_MODE_B); /* 10 */ serial_out(rs, OMAP3_EFR, efr); /* 11 */ serial_out(rs, OMAP3_LCR, lcr); /* 12 */ if (baud > 230400 && baud != 3000000) serial_out(rs, OMAP3_MDR1, OMAP_MDR1_MODE13X); /* 13 */ else serial_out(rs, OMAP3_MDR1, OMAP_MDR1_MODE16X); rs->ostate = devready(rs) | ORAW | OSWREADY; /* reads MSR */ if ((tp->tty_termios.c_lflag & IXON) && rs->oxoff != _POSIX_VDISABLE) rs->ostate &= ~ORAW; (void) serial_in(rs, OMAP3_IIR); if (sys_irqenable(&rs->irq_hook_kernel_id) != OK) panic("unable to enable interrupts"); } void rs_init(tty_t *tp) { /* Initialize RS232 for one line. */ register rs232_t *rs; int line; uart_port_t this_omap3; char l[10]; struct minix_mem_range mr; struct machine machine; /* Associate RS232 and TTY structures. */ line = tp - &tty_table[NR_CONS]; /* See if kernel debugging is enabled; if so, don't initialize this * serial line, making tty not look at the irq and returning ENXIO * for all requests on it from userland. (The kernel will use it.) */ if(env_get_param(SERVARNAME, l, sizeof(l)-1) == OK && atoi(l) == line){ printf("TTY: rs232 line %d not initialized (used by kernel)\n", line); return; } rs = tp->tty_priv = &rs_lines[line]; rs->tty = tp; /* Set up input queue. */ rs->ihead = rs->itail = rs->ibuf; sys_getmachine(&machine); if (BOARD_IS_BBXM(machine.board_id)){ this_omap3 = dm37xx_ports[line]; } else if (BOARD_IS_BB(machine.board_id)){ this_omap3 = am335x_ports[line]; } else { return; } if (this_omap3.base_addr == 0) return; /* Configure memory access */ mr.mr_base = rs->phys_base; mr.mr_limit = rs->phys_base + 0x100; if (sys_privctl(SELF, SYS_PRIV_ADD_MEM, &mr) != OK) { panic("Unable to request access to UART memory"); } rs->phys_base = (vir_bytes) vm_map_phys(SELF, (void *) this_omap3.base_addr, 0x100); if (rs->phys_base == (vir_bytes) MAP_FAILED) { panic("Unable to request access to UART memory"); } rs->reg_offset = 2; rs->uartclk = UART_FREQ; rs->ohead = rs->otail = rs->obuf; /* Override system default baud rate. We do this because u-boot * configures the UART for a baud rate of 115200 b/s and the kernel * directly sends data over serial out upon boot up. If we then * suddenly change the settings, the output will be garbled during * booting. */ tp->tty_termios.c_ospeed = DFLT_BAUD; /* Configure IRQ */ rs->irq = this_omap3.irq; /* callback with irq line number + 1 because using line number 0 fails eslewhere */ rs->irq_hook_kernel_id = rs->irq_hook_id = line + 1; /* sys_irqsetpolicy modifies irq_hook_kernel_id. this modified id * needs to be used in sys_irqenable and similar calls. */ if (sys_irqsetpolicy(rs->irq, 0, &rs->irq_hook_kernel_id) != OK) { printf("RS232: Couldn't obtain hook for irq %d\n", rs->irq); } else { if (sys_irqenable(&rs->irq_hook_kernel_id) != OK) { printf("RS232: Couldn't enable irq %d (hooked)\n", rs->irq); } } /* When we get called back we get called back using the original * hook_id bit set. e.g. if we register with hook_id 5 the callback * calls us with the 5 th bit set */ rs_irq_set |= (1 << (rs->irq_hook_id )); /* Enable interrupts */ rs_reset(rs); rs->ier = UART_IER_RLSI | UART_IER_RDI | UART_IER_MSI; rs_config(rs); /* Fill in TTY function hooks. */ tp->tty_devread = rs_read; tp->tty_devwrite = rs_write; tp->tty_echo = rs_echo; tp->tty_icancel = rs_icancel; tp->tty_ocancel = rs_ocancel; tp->tty_ioctl = rs_ioctl; tp->tty_break_on = rs_break_on; tp->tty_break_off = rs_break_off; tp->tty_open = rs_open; tp->tty_close = rs_close; /* Tell external device we are ready. */ istart(rs); } void rs_interrupt(message *m) { unsigned long irq_set; int line; rs232_t *rs; irq_set = m->m_notify.interrupts; for (line = 0, rs = rs_lines; line < NR_RS_LINES; line++, rs++) { if (irq_set & (1 << rs->irq_hook_id)) { rs232_handler(rs); if (sys_irqenable(&rs->irq_hook_kernel_id) != OK) panic("unable to enable interrupts"); } } } static int rs_icancel(tty_t *tp, int UNUSED(dummy)) { /* Cancel waiting input. */ rs232_t *rs = tp->tty_priv; rs->icount = 0; rs->itail = rs->ihead; istart(rs); return 0; /* dummy */ } static int rs_ocancel(tty_t *tp, int UNUSED(dummy)) { /* Cancel pending output. */ rs232_t *rs = tp->tty_priv; rs->ostate &= ~(ODONE | OQUEUED); rs->ocount = 0; rs->otail = rs->ohead; return 0; /* dummy */ } static int rs_read(tty_t *tp, int try) { /* Process characters from the circular input buffer. */ rs232_t *rs = tp->tty_priv; int icount, count, ostate; if (!(tp->tty_termios.c_cflag & CLOCAL)) { if (try) return 1; /* Send a SIGHUP if hangup detected. */ ostate = rs->ostate; rs->ostate &= ~ODEVHUP; /* save ostate, clear DEVHUP */ if (ostate & ODEVHUP) { sigchar(tp, SIGHUP, 1); tp->tty_termios.c_ospeed = B0;/* Disable further I/O.*/ return 0; } } if (try) { return(rs->icount > 0); } while ((count = rs->icount) > 0) { icount = bufend(rs->ibuf) - rs->itail; if (count > icount) count = icount; /* Perform input processing on (part of) the input buffer. */ if ((count = in_process(tp, rs->itail, count)) == 0) break; rs->icount -= count; if (!rs->idevready && rs->icount < RS_ILOWWATER) istart(rs); if ((rs->itail += count) == bufend(rs->ibuf)) rs->itail = rs->ibuf; } return 0; } static void rs_ostart(rs232_t *rs) { /* Tell RS232 there is something waiting in the output buffer. */ rs->ostate |= OQUEUED; if (txready(rs)) write_chars(rs); } static int rs_break_on(tty_t *tp, int UNUSED(dummy)) { /* Raise break condition */ rs232_t *rs = tp->tty_priv; unsigned int lsr; lsr = serial_in(rs, OMAP3_LSR); serial_out(rs, OMAP3_LSR, lsr | UART_LSR_BI); return 0; /* dummy */ } static int rs_break_off(tty_t *tp, int UNUSED(dummy)) { /* Clear break condition */ rs232_t *rs = tp->tty_priv; unsigned int lsr; lsr = serial_in(rs, OMAP3_LSR); serial_out(rs, OMAP3_LSR, lsr & ~UART_LSR_BI); return 0; /* dummy */ } static int rs_open(tty_t *tp, int UNUSED(dummy)) { /* Set the speed to 115200 by default */ tp->tty_termios.c_ospeed = DFLT_BAUD; return 0; } static int rs_close(tty_t *tp, int UNUSED(dummy)) { /* The line is closed; optionally hang up. */ rs232_t *rs = tp->tty_priv; if (tp->tty_termios.c_cflag & HUPCL) { serial_out(rs, OMAP3_MCR, UART_MCR_OUT2|UART_MCR_RTS); if (rs->ier & UART_IER_THRI) { rs->ier &= ~UART_IER_THRI; serial_out(rs, OMAP3_IER, rs->ier); } } return 0; /* dummy */ } /* Low level (interrupt) routines. */ static void rs232_handler(struct rs232 *rs) { /* Handle interrupt of a UART port */ unsigned int iir, lsr; iir = serial_in(rs, OMAP3_IIR); if (iir & UART_IIR_NO_INT) /* No interrupt */ return; lsr = serial_in(rs, OMAP3_LSR); if (iir & UART_IIR_RDI) { /* Data ready interrupt */ if (lsr & UART_LSR_DR) { read_chars(rs, lsr); } } check_modem_status(rs); if (iir & UART_IIR_THRI) { if (lsr & UART_LSR_THRE) { /* Ready to send and space available */ write_chars(rs); } } } static void read_chars(rs232_t *rs, unsigned int status) { unsigned char c; if(serial_in(rs,OMAP3_LSR) & OMAP3_LSR_RXOE) { rs->rx_overrun_events++; } /* check the line status to know if there are more chars */ while (serial_in(rs, OMAP3_LSR) & UART_LSR_DR) { c = serial_in(rs, OMAP3_RHR); if (!(rs->ostate & ORAW)) { if (c == rs->oxoff) { rs->ostate &= ~OSWREADY; } else if (!(rs->ostate & OSWREADY)) { rs->ostate = OSWREADY; } } if (rs->icount == buflen(rs->ibuf)) { /* no buffer space? keep reading */ continue; } if (++rs->icount == RS_IHIGHWATER && rs->idevready) { istop(rs); } *rs->ihead = c; if (++rs->ihead == bufend(rs->ibuf)) { rs->ihead = rs->ibuf; } if (rs->icount == 1) { rs->tty->tty_events = 1; } } } static void write_chars(rs232_t *rs) { /* If there is output to do and everything is ready, do it (local device is * known ready). * Notify TTY when the buffer goes empty. */ if (rs->ostate >= (ODEVREADY | OQUEUED | OSWREADY)) { /* Bit test allows ORAW and requires the others. */ serial_out(rs, OMAP3_THR, *rs->otail); if (++rs->otail == bufend(rs->obuf)) rs->otail = rs->obuf; if (--rs->ocount == 0) { /* Turn on ODONE flag, turn off OQUEUED */ rs->ostate ^= (ODONE | OQUEUED); rs->tty->tty_events = 1; if (rs->ier & UART_IER_THRI) { rs->ier &= ~UART_IER_THRI; serial_out(rs, OMAP3_IER, rs->ier); } } else { if (rs->icount == RS_OLOWWATER) rs->tty->tty_events = 1; if (!(rs->ier & UART_IER_THRI)) { rs->ier |= UART_IER_THRI; serial_out(rs, OMAP3_IER, rs->ier); } } } } static unsigned int check_modem_status(rs232_t *rs) { /* Check modem status */ unsigned int msr; msr = serial_in(rs, OMAP3_MSR); /* Resets modem interrupt */ if ((msr & (UART_MSR_DCD|UART_MSR_DDCD)) == UART_MSR_DDCD) { rs->ostate |= ODEVHUP; rs->tty->tty_events = 1; } if (!devready(rs)) rs->ostate &= ~ODEVREADY; else rs->ostate |= ODEVREADY; return msr; } #endif /* NR_RS_LINES > 0 */