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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [sh/] [sh2/] [v2_0/] [include/] [mod_regs_ser.h] - Rev 174
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//============================================================================= // // mod_regs_ser.h // // SCI, SCIF, and IRDA (serial) Module register definitions // //============================================================================= //####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: 2000-10-30 // Note: All three serial module definitions kept in the same file // since they share some of the information. //####DESCRIPTIONEND#### // //============================================================================= #ifdef CYGARC_SH_MOD_SCI //++++++ Module SCI ++++++++++++++++++++++++++++++++++++++++++++++++++++++++ //-------------------------------------------------------------------------- // Serial registers. All 8 bit registers. #define CYGARC_REG_SCI_SCSMR0 0xffff81a0 // serial mode register #define CYGARC_REG_SCI_SCBRR0 0xffff81a1 // bit rate register #define CYGARC_REG_SCI_SCSCR0 0xffff81a2 // serial control register #define CYGARC_REG_SCI_SCTDR0 0xffff81a3 // transmit data register #define CYGARC_REG_SCI_SCSSR0 0xffff81a4 // serial status register #define CYGARC_REG_SCI_SCRDR0 0xffff81a5 // receive data register #define CYGARC_REG_SCI_SCSMR1 0xffff81b0 // serial mode register // Serial Mode Register #define CYGARC_REG_SCI_SCSMR_CA 0x80 // communication mode #define CYGARC_REG_SCI_SCSMR_CHR 0x40 // character length (7 if set) #define CYGARC_REG_SCI_SCSMR_PE 0x20 // parity enable #define CYGARC_REG_SCI_SCSMR_OE 0x10 // parity mode #define CYGARC_REG_SCI_SCSMR_STOP 0x08 // stop bit length #define CYGARC_REG_SCI_SCSMR_MP 0x04 // multiprocessor mode #define CYGARC_REG_SCI_SCSMR_CKS1 0x02 // clock select 1 #define CYGARC_REG_SCI_SCSMR_CKS0 0x01 // clock select 0 #define CYGARC_REG_SCI_SCSMR_CKSx_MASK 0x03 // mask // Serial Control Register #define CYGARC_REG_SCI_SCSCR_TIE 0x80 // transmit interrupt enable #define CYGARC_REG_SCI_SCSCR_RIE 0x40 // receive interrupt enable #define CYGARC_REG_SCI_SCSCR_TE 0x20 // transmit enable #define CYGARC_REG_SCI_SCSCR_RE 0x10 // receive enable #define CYGARC_REG_SCI_SCSCR_MPIE 0x08 // multiprocessor interrupt enable #define CYGARC_REG_SCI_SCSCR_TEIE 0x04 // transmit-end interrupt enable #define CYGARC_REG_SCI_SCSCR_CKE1 0x02 // clock enable 1 #define CYGARC_REG_SCI_SCSCR_CKE0 0x01 // clock enable 0 // Serial Status Register #define CYGARC_REG_SCI_SCSSR_TDRE 0x80 // transmit data register empty #define CYGARC_REG_SCI_SCSSR_RDRF 0x40 // receive data register full #define CYGARC_REG_SCI_SCSSR_ORER 0x20 // overrun error #define CYGARC_REG_SCI_SCSSR_FER 0x10 // framing error #define CYGARC_REG_SCI_SCSSR_PER 0x08 // parity error #define CYGARC_REG_SCI_SCSSR_TEND 0x04 // transmit end #define CYGARC_REG_SCI_SCSSR_MPB 0x02 // multiprocessor bit #define CYGARC_REG_SCI_SCSSR_MPBT 0x01 // multiprocessor bit transfer // When clearing the status register, always write the value: // CYGARC_REG_SCSSR_CLEARMASK & ~bit // to prevent other bits than the one of interest to be cleared. #define CYGARC_REG_SCI_SCSSR_CLEARMASK 0xf8 #if (CYGARC_SH_MOD_SCI >= 2) # define CYGARC_REG_SCI_SCSPTR 0xfffffe7c // serial port register #endif #endif // CYGARC_SH_MOD_SCI // Baud rate values calculation, depending on peripheral clock (Pf) // n is CKS setting (0-3) // N = (Pf/(64*2^(2n-1)*B))-1 // With CYGARC_SCBRR_CKSx providing the values 1, 4, 16, 64 we get // N = (Pf/(32*_CKS*B))-1 // // The CYGARC_SCBRR_OPTIMAL_CKS macro should compute the minimal CKS // setting for the given baud rate and peripheral clock. // // The error of the CKS+count value can be computed by: // E(%) = ((Pf/((N+1)*B*(64^(n-1)))-1)*100 // #define CYGARC_SCBRR_PRESCALE(_b_) \ ((((CYGHWR_HAL_SH_ONCHIP_PERIPHERAL_SPEED/32/1/(_b_))-1)<256) ? 1 : \ (((CYGHWR_HAL_SH_ONCHIP_PERIPHERAL_SPEED/32/4/(_b_))-1)<256) ? 4 : \ (((CYGHWR_HAL_SH_ONCHIP_PERIPHERAL_SPEED/32/16/(_b_))-1)<256) ? 16 : 64) // Add half the divisor to reduce rounding errors to .5 #define CYGARC_SCBRR_ROUNDING(_b_) \ 16*CYGARC_SCBRR_PRESCALE(_b_)*(_b_) // These two macros provide the static values we need to stuff into the // registers. #define CYGARC_SCBRR_CKSx(_b_) \ ((1 == CYGARC_SCBRR_PRESCALE(_b_)) ? 0 : \ (4 == CYGARC_SCBRR_PRESCALE(_b_)) ? 1 : \ (16 == CYGARC_SCBRR_PRESCALE(_b_)) ? 2 : 3) #define CYGARC_SCBRR_N(_b_) \ (((_b_) < 4800) ? 0 : \ ((_b_) > 115200) ? 0 : \ (((CYGHWR_HAL_SH_ONCHIP_PERIPHERAL_SPEED+CYGARC_SCBRR_ROUNDING(_b_))/32/CYGARC_SCBRR_PRESCALE(_b_)/(_b_))-1)) //++++++ Module SCIF +++++++++++++++++++++++++++++++++++++++++++++++++++++++ #ifdef CYGARC_SH_MOD_SCIF //-------------------------------------------------------------------------- // Serial w FIFO registers (and IRDA) #define CYGARC_REG_SCIF_SCSMR1 0xfffffcc0 // 8 #define CYGARC_REG_SCIF_SCBRR1 0xfffffcc2 // 8 #define CYGARC_REG_SCIF_SCSCR1 0xfffffcc4 // 8 #define CYGARC_REG_SCIF_SCFTDR1 0xfffffcc6 // 8 #define CYGARC_REG_SCIF_SC1SSR1 0xfffffcc8 // 16 #define CYGARC_REG_SCIF_SC2SSR1 0xfffffcca // 8 #define CYGARC_REG_SCIF_SCFRDR1 0xfffffccc // 8 #define CYGARC_REG_SCIF_SCFCR1 0xfffffcce // 8 #define CYGARC_REG_SCIF_SCFDR1 0xfffffcd0 // 16 #define CYGARC_REG_SCIF_SCFER1 0xfffffcd2 // 16 #define CYGARC_REG_SCIF_SCIFMR1 0xfffffcd4 // 8 #define CYGARC_REG_SCIF_SCSMR2 0xfffffce0 // 8 #define CYGARC_REG_SCIF_SCBRR2 0xfffffce2 // 8 #define CYGARC_REG_SCIF_SCSCR2 0xfffffce4 // 8 #define CYGARC_REG_SCIF_SCFTDR2 0xfffffce6 // 8 #define CYGARC_REG_SCIF_SC1SSR2 0xfffffce8 // 16 #define CYGARC_REG_SCIF_SC2SSR2 0xfffffcea // 8 #define CYGARC_REG_SCIF_SCFRDR2 0xfffffcec // 8 #define CYGARC_REG_SCIF_SCFCR2 0xfffffcee // 8 #define CYGARC_REG_SCIF_SCFDR2 0xfffffcf0 // 16 #define CYGARC_REG_SCIF_SCFER2 0xfffffcf2 // 16 #define CYGARC_REG_SCIF_SCIFMR2 0xfffffcf4 // 8 // Serial Mode Register #define CYGARC_REG_SCIF_SCSMR_CA 0x80 // async(0)/sync(1) #define CYGARC_REG_SCIF_SCSMR_CHR 0x40 // character length (7 if set) #define CYGARC_REG_SCIF_SCSMR_PE 0x20 // parity enable #define CYGARC_REG_SCIF_SCSMR_OE 0x10 // parity mode (odd if set) #define CYGARC_REG_SCIF_SCSMR_STOP 0x08 // stop bit length #define CYGARC_REG_SCIF_SCSMR_MP 0x04 // MP mode #define CYGARC_REG_SCIF_SCSMR_CKS1 0x02 // clock select 1 #define CYGARC_REG_SCIF_SCSMR_CKS0 0x01 // clock select 0 #define CYGARC_REG_SCIF_SCSMR_CKSx_MASK 0x03 // mask // Serial Control Register #define CYGARC_REG_SCIF_SCSCR_TIE 0x80 // transmit interrupt enable #define CYGARC_REG_SCIF_SCSCR_RIE 0x40 // receive interrupt enable #define CYGARC_REG_SCIF_SCSCR_TE 0x20 // transmit enable #define CYGARC_REG_SCIF_SCSCR_RE 0x10 // receive enable #define CYGARC_REG_SCIF_SCSCR_MPIE 0x08 // MP interrupt enable #define CYGARC_REG_SCIF_SCSCR_CKE1 0x02 // clock enable 1 #define CYGARC_REG_SCIF_SCSCR_CKE0 0x01 // clock enable 0 // Serial Status Register 1 #define CYGARC_REG_SCIF_SCSSR_PER_MASK 0xf000 // number of parity errors #define CYGARC_REG_SCIF_SCSSR_PER_shift 12 #define CYGARC_REG_SCIF_SCSSR_FER_MASK 0x0f00 // number of framing errors #define CYGARC_REG_SCIF_SCSSR_FER_shift 8 #define CYGARC_REG_SCIF_SCSSR_ER 0x0080 // receive error #define CYGARC_REG_SCIF_SCSSR_TEND 0x0040 // transmit end #define CYGARC_REG_SCIF_SCSSR_TDFE 0x0020 // transmit fifo data empty #define CYGARC_REG_SCIF_SCSSR_BRK 0x0010 // break detection #define CYGARC_REG_SCIF_SCSSR_FER 0x0008 // framing error #define CYGARC_REG_SCIF_SCSSR_PER 0x0004 // parity error #define CYGARC_REG_SCIF_SCSSR_RDF 0x0002 // receive fifo data full #define CYGARC_REG_SCIF_SCSSR_DR 0x0001 // receive data ready // When clearing the status register, always write the value: // CYGARC_REG_SCSSR_CLEARMASK & ~bit // to prevent other bits than the one of interest to be cleared. #define CYGARC_REG_SCIF_SCSSR_CLEARMASK 0x00f3 // Serial Status Register 2 #define CYGARC_REG_SCIF_SC2SSR_TLM 0x80 // Transmit LSB(0)/MSB(1) #define CYGARC_REG_SCIF_SC2SSR_RLM 0x40 // Receive LSB(0)/MSB(1) #define CYGARC_REG_SCIF_SC2SSR_BITRATE_4 0x00 // Bitrate #define CYGARC_REG_SCIF_SC2SSR_BITRATE_8 0x10 #define CYGARC_REG_SCIF_SC2SSR_BITRATE_16 0x20 #define CYGARC_REG_SCIF_SC2SSR_MPB 0x08 // MP data received #define CYGARC_REG_SCIF_SC2SSR_MPBT 0x04 // MP data transmited #define CYGARC_REG_SCIF_SC2SSR_EI 0x02 // Ignore RX errors #define CYGARC_REG_SCIF_SC2SSR_ORER 0x01 // overrun error // Serial FIFO Control Register #define CYGARC_REG_SCIF_SCFCR_RTRG_MASK 0xc0 // receive fifo data trigger #define CYGARC_REG_SCIF_SCFCR_RTRG_1 0x00 // trigger on 1 char #define CYGARC_REG_SCIF_SCFCR_RTRG_4 0x40 // trigger on 4 chars #define CYGARC_REG_SCIF_SCFCR_RTRG_8 0x80 // trigger on 8 chars #define CYGARC_REG_SCIF_SCFCR_RTRG_14 0xc0 // trigger on 14 chars #define CYGARC_REG_SCIF_SCFCR_TTRG_MASK 0x30 // transmit fifo data trigger #define CYGARC_REG_SCIF_SCFCR_TTRG_8 0x00 // trigger on 8 chars #define CYGARC_REG_SCIF_SCFCR_TTRG_4 0x10 // trigger on 4 chars #define CYGARC_REG_SCIF_SCFCR_TTRG_2 0x20 // trigger on 2 chars #define CYGARC_REG_SCIF_SCFCR_TTRG_1 0x30 // trigger on 1 char #define CYGARC_REG_SCIF_SCFCR_MCE 0x08 // modem control enable #define CYGARC_REG_SCIF_SCFCR_TFRST 0x04 // transmit fifo reset #define CYGARC_REG_SCIF_SCFCR_RFRST 0x02 // receive fifo reset #define CYGARC_REG_SCIF_SCFCR_LOOP 0x01 // loop back test // Serial FIFO Data Count Set Register #define CYGARC_REG_SCIF_SCFDR_RCOUNT_MASK 0x001f // number of chars in r fifo #define CYGARC_REG_SCIF_SCFDR_RCOUNT_shift 0 #define CYGARC_REG_SCIF_SCFDR_TCOUNT_MASK 0x1f00 // number of chars in t fifo #define CYGARC_REG_SCIF_SCFDR_TCOUNT_shift 8 // Serial IrDA Mode Register #define CYGARC_REG_SCIF_SCIMR_IRMOD 0x80 #define CYGARC_REG_SCIF_SCIMR_PSEL 0x40 #define CYGARC_REG_SCIF_SCIMR_RIVS 0x20 #endif // CYGARC_SH_MOD_SCIF