sh2_scif.c

来自「eCos操作系统源码」· C语言 代码 · 共 429 行

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//=============================================================================////      sh2_scif.c////      Simple driver for the SH2 Serial Communication Interface with FIFO////=============================================================================//####ECOSGPLCOPYRIGHTBEGIN####// -------------------------------------------// This file is part of eCos, the Embedded Configurable Operating System.// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.//// eCos 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.//// eCos is distributed in the hope that it will be useful, but WITHOUT ANY// WARRANTY; without even the implied warranty of MERCHANTABILITY or// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License// for more details.//// You should have received a copy of the GNU General Public License along// with eCos; if not, write to the Free Software Foundation, Inc.,// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.//// As a special exception, if other files instantiate templates or use macros// or inline functions from this file, or you compile this file and link it// with other works to produce a work based on this file, this file does not// by itself cause the resulting work to be covered by the GNU General Public// License. However the source code for this file must still be made available// in accordance with section (3) of the GNU General Public License.//// This exception does not invalidate any other reasons why a work based on// this file might be covered by the GNU General Public License.//// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.// at http://sources.redhat.com/ecos/ecos-license/// -------------------------------------------//####ECOSGPLCOPYRIGHTEND####//=============================================================================//#####DESCRIPTIONBEGIN####//// Author(s):   jskov// Contributors:jskov// Date:        2001-01-16// Description: Simple driver for the SH Serial Communication Interface//              The driver can be used for either the SCIF or the IRDA//              modules (the latter can act as the former).//              Clients of this file can configure the behavior with://              CYGNUM_SCIF_PORTS: number of SCI ports//// Note:        It should be possible to configure a channel to IRDA mode.//              Worry about that when some board needs it.////####DESCRIPTIONEND####////=============================================================================#include <pkgconf/hal.h>#ifdef CYGNUM_HAL_SH_SH2_SCIF_PORTS#include <cyg/hal/hal_io.h>             // IO macros#include <cyg/hal/drv_api.h>            // CYG_ISR_HANDLED#include <cyg/hal/hal_misc.h>           // Helper functions#include <cyg/hal/hal_intr.h>           // HAL_ENABLE/MASK/UNMASK_INTERRUPTS#include <cyg/hal/hal_arch.h>           // SAVE/RESTORE GP#include <cyg/hal/hal_if.h>             // Calling-if API#include <cyg/hal/sh_regs.h>            // serial register definitions#include <cyg/hal/sh_stub.h>            // target_register_t#define CYGPRI_HAL_SH_SH2_SCIF_PRIVATE#include <cyg/hal/sh2_scif.h>           // our header//--------------------------------------------------------------------------voidcyg_hal_plf_scif_init_channel(channel_data_t* chan){    cyg_uint8* base = chan->base;    cyg_uint8 tmp;    cyg_uint16 sr;    int baud_rate = CYGNUM_HAL_SH_SH2_SCIF_BAUD_RATE;    // Disable everything.    HAL_WRITE_UINT8(base+_REG_SCSCR, 0);    // Reset FIFO.    HAL_WRITE_UINT8(base+_REG_SCFCR,                     CYGARC_REG_SCIF_SCFCR_TFRST|CYGARC_REG_SCIF_SCFCR_RFRST);    HAL_WRITE_UINT16(base+_REG_SCFER, 0);    // 8-1-no parity. This is also fine for IrDA mode    HAL_WRITE_UINT8(base+_REG_SCSMR, 0);    if (chan->irda_mode)        HAL_WRITE_UINT8(base+_REG_SCIMR, CYGARC_REG_SCIF_SCIMR_IRMOD);    else {        HAL_WRITE_UINT8(base+_REG_SCIMR, 0);    }    // Set speed to CYGNUM_HAL_SH_SH2_SCIF_DEFAULT_BAUD_RATE    HAL_READ_UINT8(base+_REG_SCSMR, tmp);    tmp &= ~CYGARC_REG_SCIF_SCSMR_CKSx_MASK;    tmp |= CYGARC_SCBRR_CKSx(baud_rate);    HAL_WRITE_UINT8(base+_REG_SCSMR, tmp);    HAL_WRITE_UINT8(base+_REG_SCBRR, CYGARC_SCBRR_N(baud_rate));    // Let things settle: Here we should should wait the equivalent of    // one bit interval,    // i.e. 1/CYGNUM_HAL_SH_SH2_SCIF_DEFAULT_BAUD_RATE second, but    // until we have something like the Linux delay loop, it's hard to    // do reliably. So just move on and hope for the best (this is    // unlikely to cause problems since the CPU has just come out of    // reset anyway).    // Clear status register (read back first).    HAL_READ_UINT16(base+_REG_SCSSR, sr);    HAL_WRITE_UINT16(base+_REG_SCSSR, 0);    HAL_WRITE_UINT8(base+_REG_SC2SSR, CYGARC_REG_SCIF_SC2SSR_BITRATE_16|CYGARC_REG_SCIF_SC2SSR_EI);    // Bring FIFO out of reset and set to trigger on every char in    // FIFO (or C-c input would not be processed).    HAL_WRITE_UINT8(base+_REG_SCFCR,                     CYGARC_REG_SCIF_SCFCR_RTRG_1|CYGARC_REG_SCIF_SCFCR_TTRG_1);    // Leave Tx/Rx interrupts disabled, but enable Rx/Tx (only Rx for IrDA)    if (chan->irda_mode)        HAL_WRITE_UINT8(base+_REG_SCSCR, CYGARC_REG_SCIF_SCSCR_RE);#ifdef CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTX    else if (chan->async_rxtx_mode)        HAL_WRITE_UINT8(base+_REG_SCSCR, CYGARC_REG_SCIF_SCSCR_RE);#endif     else        HAL_WRITE_UINT8(base+_REG_SCSCR, CYGARC_REG_SCIF_SCSCR_TE|CYGARC_REG_SCIF_SCSCR_RE);}//static cyg_boolcyg_hal_plf_scif_getc_nonblock(void* __ch_data, cyg_uint8* ch){    cyg_uint8* base = ((channel_data_t*)__ch_data)->base;    cyg_uint16 fdr, sr;    cyg_bool res = false;    HAL_READ_UINT16(base+_REG_SCSSR, sr);    if (sr & CYGARC_REG_SCIF_SCSSR_ER) {        cyg_uint8 ssr2;        HAL_WRITE_UINT16(base+_REG_SCFER, 0);        HAL_READ_UINT8(base+_REG_SC2SSR, ssr2);        ssr2 &= ~CYGARC_REG_SCIF_SC2SSR_ORER;        HAL_WRITE_UINT8(base+_REG_SC2SSR, ssr2);        HAL_WRITE_UINT16(base+_REG_SCSSR,                         CYGARC_REG_SCIF_SCSSR_CLEARMASK & ~(CYGARC_REG_SCIF_SCSSR_BRK | CYGARC_REG_SCIF_SCSSR_FER | CYGARC_REG_SCIF_SCSSR_PER));    }    HAL_READ_UINT16(base+_REG_SCFDR, fdr);    if (0 != (fdr & CYGARC_REG_SCIF_SCFDR_RCOUNT_MASK)) {        HAL_READ_UINT8(base+_REG_SCFRDR, *ch);        // Clear DR/RDF flags        HAL_READ_UINT16(base+_REG_SCSSR, sr);        HAL_WRITE_UINT16(base+_REG_SCSSR,                         CYGARC_REG_SCIF_SCSSR_CLEARMASK & ~(CYGARC_REG_SCIF_SCSSR_RDF | CYGARC_REG_SCIF_SCSSR_DR));        res = true;    }    return res;}cyg_uint8cyg_hal_plf_scif_getc(void* __ch_data){    cyg_uint8 ch;    CYGARC_HAL_SAVE_GP();    while(!cyg_hal_plf_scif_getc_nonblock(__ch_data, &ch));    CYGARC_HAL_RESTORE_GP();    return ch;}voidcyg_hal_plf_scif_putc(void* __ch_data, cyg_uint8 c){    channel_data_t* chan = (channel_data_t*)__ch_data;    cyg_uint8* base = chan->base;    cyg_uint16 fdr, sr;    cyg_uint8 scscr = 0;    CYGARC_HAL_SAVE_GP();    HAL_READ_UINT8(base+_REG_SCSCR, scscr);    if (chan->irda_mode) {        HAL_WRITE_UINT8(base+_REG_SCSCR, scscr|CYGARC_REG_SCIF_SCSCR_TE);    }#ifdef CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTX    if (chan->async_rxtx_mode) {        HAL_WRITE_UINT8(base+_REG_SCSCR, (scscr|CYGARC_REG_SCIF_SCSCR_TE)&~CYGARC_REG_SCIF_SCSCR_RE);    }#endif    do {        HAL_READ_UINT16(base+_REG_SCFDR, fdr);    } while (((fdr & CYGARC_REG_SCIF_SCFDR_TCOUNT_MASK) >> CYGARC_REG_SCIF_SCFDR_TCOUNT_shift) == 16);    HAL_WRITE_UINT8(base+_REG_SCFTDR, c);    // Clear FIFO-empty/transmit end flags (read back SR first)    HAL_READ_UINT16(base+_REG_SCSSR, sr);    HAL_WRITE_UINT16(base+_REG_SCSSR, CYGARC_REG_SCIF_SCSSR_CLEARMASK                        & ~(CYGARC_REG_SCIF_SCSSR_TDFE | CYGARC_REG_SCIF_SCSSR_TEND ));    // Hang around until all characters have been safely sent.    do {        HAL_READ_UINT16(base+_REG_SCSSR, sr);    } while ((sr & CYGARC_REG_SCIF_SCSSR_TEND) == 0);    if (chan->irda_mode) {#ifdef CYGHWR_HAL_SH_SH2_SCIF_IRDA_TXRX_COMPENSATION        // In IrDA mode there will be generated spurious RX events when        // the TX unit is switched on. Eat that character.        cyg_uint8 _junk;        HAL_READ_UINT8(base+_REG_SCFRDR, _junk);        // Clear buffer full flag (read back first)        HAL_READ_UINT16(base+_REG_SCSSR, sr);        HAL_WRITE_UINT16(base+_REG_SCSSR,                          CYGARC_REG_SCIF_SCSSR_CLEARMASK & ~(CYGARC_REG_SCIF_SCSSR_RDF|CYGARC_REG_SCIF_SCSSR_DR));#endif // CYGHWR_HAL_SH_SH2_SCIF_IRDA_TXRX_COMPENSATION        // Disable transmitter again        HAL_WRITE_UINT8(base+_REG_SCSCR, scscr);    }#ifdef CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTX    if (chan->async_rxtx_mode) {        // Disable transmitter, enable receiver        HAL_WRITE_UINT8(base+_REG_SCSCR, scscr);    }#endif // CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTX    CYGARC_HAL_RESTORE_GP();}static channel_data_t channels[CYGNUM_HAL_SH_SH2_SCIF_PORTS];static voidcyg_hal_plf_scif_write(void* __ch_data, const cyg_uint8* __buf,                          cyg_uint32 __len){    CYGARC_HAL_SAVE_GP();    while(__len-- > 0)        cyg_hal_plf_scif_putc(__ch_data, *__buf++);    CYGARC_HAL_RESTORE_GP();}static voidcyg_hal_plf_scif_read(void* __ch_data, cyg_uint8* __buf, cyg_uint32 __len){    CYGARC_HAL_SAVE_GP();    while(__len-- > 0)        *__buf++ = cyg_hal_plf_scif_getc(__ch_data);    CYGARC_HAL_RESTORE_GP();}cyg_boolcyg_hal_plf_scif_getc_timeout(void* __ch_data, cyg_uint8* ch){    channel_data_t* chan = (channel_data_t*)__ch_data;    int delay_count;    cyg_bool res;    CYGARC_HAL_SAVE_GP();    delay_count = chan->msec_timeout * 10; // delay in .1 ms steps    for(;;) {        res = cyg_hal_plf_scif_getc_nonblock(__ch_data, ch);        if (res || 0 == delay_count--)            break;                CYGACC_CALL_IF_DELAY_US(100);    }    CYGARC_HAL_RESTORE_GP();    return res;}static intcyg_hal_plf_scif_control(void *__ch_data, __comm_control_cmd_t __func, ...){    static int irq_state = 0;    channel_data_t* chan = (channel_data_t*)__ch_data;    cyg_uint8 scr;    int ret = 0;    CYGARC_HAL_SAVE_GP();    switch (__func) {    case __COMMCTL_IRQ_ENABLE:        irq_state = 1;        HAL_INTERRUPT_UNMASK(chan->isr_vector);        HAL_READ_UINT8(chan->base+_REG_SCSCR, scr);        scr |= CYGARC_REG_SCIF_SCSCR_RIE;        HAL_WRITE_UINT8(chan->base+_REG_SCSCR, scr);        break;    case __COMMCTL_IRQ_DISABLE:        ret = irq_state;        irq_state = 0;        HAL_INTERRUPT_UNMASK(chan->isr_vector);        HAL_READ_UINT8(chan->base+_REG_SCSCR, scr);        scr &= ~CYGARC_REG_SCIF_SCSCR_RIE;        HAL_WRITE_UINT8(chan->base+_REG_SCSCR, scr);        break;    case __COMMCTL_DBG_ISR_VECTOR:        ret = chan->isr_vector;        break;    case __COMMCTL_SET_TIMEOUT:    {        va_list ap;        va_start(ap, __func);        ret = chan->msec_timeout;        chan->msec_timeout = va_arg(ap, cyg_uint32);        va_end(ap);    }            default:        break;    }    CYGARC_HAL_RESTORE_GP();    return ret;}static intcyg_hal_plf_scif_isr(void *__ch_data, int* __ctrlc,                      CYG_ADDRWORD __vector, CYG_ADDRWORD __data){    cyg_uint8 c;    cyg_uint16 fdr, sr;    cyg_uint8* base = ((channel_data_t*)__ch_data)->base;    int res = 0;    CYGARC_HAL_SAVE_GP();    *__ctrlc = 0;    HAL_READ_UINT16(base+_REG_SCFDR, fdr);    if ((fdr & CYGARC_REG_SCIF_SCFDR_RCOUNT_MASK) != 0) {        HAL_READ_UINT8(base+_REG_SCFRDR, c);        // Clear buffer full flag (read back first).        HAL_READ_UINT16(base+_REG_SCSSR, sr);        HAL_WRITE_UINT16(base+_REG_SCSSR,                          CYGARC_REG_SCIF_SCSSR_CLEARMASK & ~CYGARC_REG_SCIF_SCSSR_RDF);        if( cyg_hal_is_break( &c , 1 ) )            *__ctrlc = 1;        res = CYG_ISR_HANDLED;    }    CYGARC_HAL_RESTORE_GP();    return res;}voidcyg_hal_plf_scif_init(int scif_index, int comm_index,                       int rcv_vect, cyg_uint8* base, bool irda_mode){    channel_data_t* chan = &channels[scif_index];    hal_virtual_comm_table_t* comm;    int cur = CYGACC_CALL_IF_SET_CONSOLE_COMM(CYGNUM_CALL_IF_SET_COMM_ID_QUERY_CURRENT);    // Initialize channel table    chan->base = base;    chan->isr_vector = rcv_vect;    chan->msec_timeout = 1000;    chan->irda_mode = irda_mode;#ifdef CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTX    chan->async_rxtx_mode = false;#endif    // Disable interrupts.    HAL_INTERRUPT_MASK(chan->isr_vector);    // Init channel    cyg_hal_plf_scif_init_channel(chan);    // Setup procs in the vector table    // Initialize channel procs    CYGACC_CALL_IF_SET_CONSOLE_COMM(comm_index);    comm = CYGACC_CALL_IF_CONSOLE_PROCS();    CYGACC_COMM_IF_CH_DATA_SET(*comm, chan);    CYGACC_COMM_IF_WRITE_SET(*comm, cyg_hal_plf_scif_write);    CYGACC_COMM_IF_READ_SET(*comm, cyg_hal_plf_scif_read);    CYGACC_COMM_IF_PUTC_SET(*comm, cyg_hal_plf_scif_putc);    CYGACC_COMM_IF_GETC_SET(*comm, cyg_hal_plf_scif_getc);    CYGACC_COMM_IF_CONTROL_SET(*comm, cyg_hal_plf_scif_control);    CYGACC_COMM_IF_DBG_ISR_SET(*comm, cyg_hal_plf_scif_isr);    CYGACC_COMM_IF_GETC_TIMEOUT_SET(*comm, cyg_hal_plf_scif_getc_timeout);    // Restore original console    CYGACC_CALL_IF_SET_CONSOLE_COMM(cur);}#ifdef CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTXvoidcyg_hal_plf_scif_sync_rxtx(int scif_index, bool async_rxtx_mode){    channel_data_t* chan = &channels[scif_index];    chan->async_rxtx_mode = async_rxtx_mode;    if (async_rxtx_mode)        HAL_WRITE_UINT8(chan->base+_REG_SCSCR, CYGARC_REG_SCIF_SCSCR_RE);    else        HAL_WRITE_UINT8(chan->base+_REG_SCSCR, CYGARC_REG_SCIF_SCSCR_RE|CYGARC_REG_SCIF_SCSCR_TE);}#endif // CYGHWR_HAL_SH_SH2_SCIF_ASYNC_RXTX#endif // CYGNUM_HAL_SH_SH2_SCIF_PORTS//-----------------------------------------------------------------------------// end of sh2_scif.c

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