Commit 043ae76b authored by Jeff Garzik's avatar Jeff Garzik

Add new PC300 WAN driver (courtesy Cyclades), and my own changes:

* patch added stuff to include/linux.  move these three new headers
  to drivers/net/wan.
* change the code to support these changes
* slightly better Config.in entry. needs more work, though.
parent 386d0ce7
...@@ -426,3 +426,25 @@ CONFIG_C101 ...@@ -426,3 +426,25 @@ CONFIG_C101
If unsure, say N here. If unsure, say N here.
Cyclades-PC300 support
CONFIG_PC300
This is a driver for the Cyclades-PC300 synchronous communication
boards. These boards provide synchronous serial interfaces to your
Linux box (interfaces currently available are RS-232/V.35, X.21 and
T1/E1). If you wish to support Multilink PPP, please select the
option below this one and read the file README.mlppp provided by PC300
package.
If you want to compile this as a module ( = code which can be
inserted in and removed from the running kernel whenever you want),
say M here and read Documentation/modules.txt. The module will be
called pc300.o.
If you haven't heard about it, it's safe to say N.
Cyclades-PC300 Sync TTY (to MLPPP) support
CONFIG_PC300_MLPPP
Say 'Y' to this option if you are planning to use Multilink PPP over the
PC300 synchronous communication boards.
...@@ -66,6 +66,17 @@ if [ "$CONFIG_WAN" = "y" ]; then ...@@ -66,6 +66,17 @@ if [ "$CONFIG_WAN" = "y" ]; then
else else
comment ' X.25/LAPB support is disabled' comment ' X.25/LAPB support is disabled'
fi fi
dep_tristate ' Cyclades-PC300 support (RS-232/V.35, X.21, T1/E1 boards)' CONFIG_PC300 $CONFIG_HDLC $CONFIG_PCI
if [ "$CONFIG_PC300" != "n" ]; then
if [ "$CONFIG_PPP" != "n" -a "$CONFIG_PPP_MULTLINK" != "n" -a "$CONFIG_PPP_SYNCTTY" != "n" -a "$CONFIG_HDLC_PPP" = "y" ]; then
bool ' Cyclades-PC300 MLPPP support' CONFIG_PC300_MLPPP
else
comment ' Cyclades-PC300 MLPPP support is disabled.'+ comment ' Refer to the file README.mlppp, provided by PC300 package.'
fi
fi
dep_tristate ' SDL RISCom/N2 support' CONFIG_N2 $CONFIG_HDLC dep_tristate ' SDL RISCom/N2 support' CONFIG_N2 $CONFIG_HDLC
dep_tristate ' Moxa C101 support' CONFIG_C101 $CONFIG_HDLC dep_tristate ' Moxa C101 support' CONFIG_C101 $CONFIG_HDLC
dep_tristate ' FarSync T-Series support' CONFIG_FARSYNC $CONFIG_HDLC dep_tristate ' FarSync T-Series support' CONFIG_FARSYNC $CONFIG_HDLC
......
...@@ -8,7 +8,7 @@ ...@@ -8,7 +8,7 @@
O_TARGET := wan.o O_TARGET := wan.o
export-objs := z85230.o syncppp.o comx.o sdladrv.o cycx_drv.o hdlc_generic.o \ export-objs := z85230.o syncppp.o comx.o sdladrv.o cycx_drv.o hdlc_generic.o \
dlci.o dlci.o pc300_drv.o
wanpipe-y := sdlamain.o sdla_ft1.o wanpipe-y := sdlamain.o sdla_ft1.o
wanpipe-$(CONFIG_WANPIPE_X25) += sdla_x25.o wanpipe-$(CONFIG_WANPIPE_X25) += sdla_x25.o
...@@ -30,6 +30,10 @@ hdlc-$(CONFIG_HDLC_PPP) += hdlc_ppp.o ...@@ -30,6 +30,10 @@ hdlc-$(CONFIG_HDLC_PPP) += hdlc_ppp.o
hdlc-$(CONFIG_HDLC_X25) += hdlc_x25.o hdlc-$(CONFIG_HDLC_X25) += hdlc_x25.o
hdlc-objs := $(hdlc-y) hdlc-objs := $(hdlc-y)
pc300-y := pc300_drv.o
pc300-$(CONFIG_PC300_MLPPP) += pc300_tty.o
pc300-objs := $(pc300-y)
obj-$(CONFIG_HOSTESS_SV11) += z85230.o syncppp.o hostess_sv11.o obj-$(CONFIG_HOSTESS_SV11) += z85230.o syncppp.o hostess_sv11.o
obj-$(CONFIG_SEALEVEL_4021) += z85230.o syncppp.o sealevel.o obj-$(CONFIG_SEALEVEL_4021) += z85230.o syncppp.o sealevel.o
obj-$(CONFIG_COMX) += comx.o obj-$(CONFIG_COMX) += comx.o
...@@ -63,6 +67,7 @@ endif ...@@ -63,6 +67,7 @@ endif
obj-$(CONFIG_CYCLADES_SYNC) += cycx_drv.o cyclomx.o obj-$(CONFIG_CYCLADES_SYNC) += cycx_drv.o cyclomx.o
obj-$(CONFIG_LAPBETHER) += lapbether.o obj-$(CONFIG_LAPBETHER) += lapbether.o
obj-$(CONFIG_SBNI) += sbni.o obj-$(CONFIG_SBNI) += sbni.o
obj-$(CONFIG_PC300) += pc300.o
obj-$(CONFIG_HDLC) += hdlc.o obj-$(CONFIG_HDLC) += hdlc.o
ifeq ($(CONFIG_HDLC_PPP),y) ifeq ($(CONFIG_HDLC_PPP),y)
obj-$(CONFIG_HDLC) += syncppp.o obj-$(CONFIG_HDLC) += syncppp.o
......
/*
* hd64572.h Description of the Hitachi HD64572 (SCA-II), valid for
* CPU modes 0 & 2.
*
* Author: Ivan Passos <ivan@cyclades.com>
*
* Copyright: (c) 2000-2001 Cyclades Corp.
*
* 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 of the License, or (at your option) any later version.
*
* $Log: hd64572.h,v $
* Revision 3.1 2001/06/15 12:41:10 regina
* upping major version number
*
* Revision 1.1.1.1 2001/06/13 20:24:49 daniela
* PC300 initial CVS version (3.4.0-pre1)
*
* Revision 1.0 2000/01/25 ivan
* Initial version.
*
*/
#ifndef _HD64572_H
#define _HD64572_H
/* Illegal Access Register */
#define ILAR 0x00
/* Wait Controller Registers */
#define PABR0L 0x20 /* Physical Addr Boundary Register 0 L */
#define PABR0H 0x21 /* Physical Addr Boundary Register 0 H */
#define PABR1L 0x22 /* Physical Addr Boundary Register 1 L */
#define PABR1H 0x23 /* Physical Addr Boundary Register 1 H */
#define WCRL 0x24 /* Wait Control Register L */
#define WCRM 0x25 /* Wait Control Register M */
#define WCRH 0x26 /* Wait Control Register H */
/* Interrupt Registers */
#define IVR 0x60 /* Interrupt Vector Register */
#define IMVR 0x64 /* Interrupt Modified Vector Register */
#define ITCR 0x68 /* Interrupt Control Register */
#define ISR0 0x6c /* Interrupt Status Register 0 */
#define ISR1 0x70 /* Interrupt Status Register 1 */
#define IER0 0x74 /* Interrupt Enable Register 0 */
#define IER1 0x78 /* Interrupt Enable Register 1 */
/* Register Access Macros (chan is 0 or 1 in _any_ case) */
#define M_REG(reg, chan) (reg + 0x80*chan) /* MSCI */
#define DRX_REG(reg, chan) (reg + 0x40*chan) /* DMA Rx */
#define DTX_REG(reg, chan) (reg + 0x20*(2*chan + 1)) /* DMA Tx */
#define TRX_REG(reg, chan) (reg + 0x20*chan) /* Timer Rx */
#define TTX_REG(reg, chan) (reg + 0x10*(2*chan + 1)) /* Timer Tx */
#define ST_REG(reg, chan) (reg + 0x80*chan) /* Status Cnt */
#define IR0_DRX(val, chan) ((val)<<(8*(chan))) /* Int DMA Rx */
#define IR0_DTX(val, chan) ((val)<<(4*(2*chan + 1))) /* Int DMA Tx */
#define IR0_M(val, chan) ((val)<<(8*(chan))) /* Int MSCI */
/* MSCI Channel Registers */
#define MD0 0x138 /* Mode reg 0 */
#define MD1 0x139 /* Mode reg 1 */
#define MD2 0x13a /* Mode reg 2 */
#define MD3 0x13b /* Mode reg 3 */
#define CTL 0x130 /* Control reg */
#define RXS 0x13c /* RX clock source */
#define TXS 0x13d /* TX clock source */
#define EXS 0x13e /* External clock input selection */
#define TMCT 0x144 /* Time constant (Tx) */
#define TMCR 0x145 /* Time constant (Rx) */
#define CMD 0x128 /* Command reg */
#define ST0 0x118 /* Status reg 0 */
#define ST1 0x119 /* Status reg 1 */
#define ST2 0x11a /* Status reg 2 */
#define ST3 0x11b /* Status reg 3 */
#define ST4 0x11c /* Status reg 4 */
#define FST 0x11d /* frame Status reg */
#define IE0 0x120 /* Interrupt enable reg 0 */
#define IE1 0x121 /* Interrupt enable reg 1 */
#define IE2 0x122 /* Interrupt enable reg 2 */
#define IE4 0x124 /* Interrupt enable reg 4 */
#define FIE 0x125 /* Frame Interrupt enable reg */
#define SA0 0x140 /* Syn Address reg 0 */
#define SA1 0x141 /* Syn Address reg 1 */
#define IDL 0x142 /* Idle register */
#define TRBL 0x100 /* TX/RX buffer reg L */
#define TRBK 0x101 /* TX/RX buffer reg K */
#define TRBJ 0x102 /* TX/RX buffer reg J */
#define TRBH 0x103 /* TX/RX buffer reg H */
#define TRC0 0x148 /* TX Ready control reg 0 */
#define TRC1 0x149 /* TX Ready control reg 1 */
#define RRC 0x14a /* RX Ready control reg */
#define CST0 0x108 /* Current Status Register 0 */
#define CST1 0x109 /* Current Status Register 1 */
#define CST2 0x10a /* Current Status Register 2 */
#define CST3 0x10b /* Current Status Register 3 */
#define GPO 0x131 /* General Purpose Output Pin Ctl Reg */
#define TFS 0x14b /* Tx Start Threshold Ctl Reg */
#define TFN 0x143 /* Inter-transmit-frame Time Fill Ctl Reg */
#define TBN 0x110 /* Tx Buffer Number Reg */
#define RBN 0x111 /* Rx Buffer Number Reg */
#define TNR0 0x150 /* Tx DMA Request Ctl Reg 0 */
#define TNR1 0x151 /* Tx DMA Request Ctl Reg 1 */
#define TCR 0x152 /* Tx DMA Critical Request Reg */
#define RNR 0x154 /* Rx DMA Request Ctl Reg */
#define RCR 0x156 /* Rx DMA Critical Request Reg */
/* Timer Registers */
#define TCNTL 0x200 /* Timer Upcounter L */
#define TCNTH 0x201 /* Timer Upcounter H */
#define TCONRL 0x204 /* Timer Constant Register L */
#define TCONRH 0x205 /* Timer Constant Register H */
#define TCSR 0x206 /* Timer Control/Status Register */
#define TEPR 0x207 /* Timer Expand Prescale Register */
/* DMA registers */
#define PCR 0x40 /* DMA priority control reg */
#define DRR 0x44 /* DMA reset reg */
#define DMER 0x07 /* DMA Master Enable reg */
#define BTCR 0x08 /* Burst Tx Ctl Reg */
#define BOLR 0x0c /* Back-off Length Reg */
#define DSR_RX(chan) (0x48 + 2*chan) /* DMA Status Reg (Rx) */
#define DSR_TX(chan) (0x49 + 2*chan) /* DMA Status Reg (Tx) */
#define DIR_RX(chan) (0x4c + 2*chan) /* DMA Interrupt Enable Reg (Rx) */
#define DIR_TX(chan) (0x4d + 2*chan) /* DMA Interrupt Enable Reg (Tx) */
#define FCT_RX(chan) (0x50 + 2*chan) /* Frame End Interrupt Counter (Rx) */
#define FCT_TX(chan) (0x51 + 2*chan) /* Frame End Interrupt Counter (Tx) */
#define DMR_RX(chan) (0x54 + 2*chan) /* DMA Mode Reg (Rx) */
#define DMR_TX(chan) (0x55 + 2*chan) /* DMA Mode Reg (Tx) */
#define DCR_RX(chan) (0x58 + 2*chan) /* DMA Command Reg (Rx) */
#define DCR_TX(chan) (0x59 + 2*chan) /* DMA Command Reg (Tx) */
/* DMA Channel Registers */
#define DARL 0x80 /* Dest Addr Register L (single-block, RX only) */
#define DARH 0x81 /* Dest Addr Register H (single-block, RX only) */
#define DARB 0x82 /* Dest Addr Register B (single-block, RX only) */
#define DARBH 0x83 /* Dest Addr Register BH (single-block, RX only) */
#define SARL 0x80 /* Source Addr Register L (single-block, TX only) */
#define SARH 0x81 /* Source Addr Register H (single-block, TX only) */
#define SARB 0x82 /* Source Addr Register B (single-block, TX only) */
#define DARBH 0x83 /* Source Addr Register BH (single-block, TX only) */
#define BARL 0x80 /* Buffer Addr Register L (chained-block) */
#define BARH 0x81 /* Buffer Addr Register H (chained-block) */
#define BARB 0x82 /* Buffer Addr Register B (chained-block) */
#define BARBH 0x83 /* Buffer Addr Register BH (chained-block) */
#define CDAL 0x84 /* Current Descriptor Addr Register L */
#define CDAH 0x85 /* Current Descriptor Addr Register H */
#define CDAB 0x86 /* Current Descriptor Addr Register B */
#define CDABH 0x87 /* Current Descriptor Addr Register BH */
#define EDAL 0x88 /* Error Descriptor Addr Register L */
#define EDAH 0x89 /* Error Descriptor Addr Register H */
#define EDAB 0x8a /* Error Descriptor Addr Register B */
#define EDABH 0x8b /* Error Descriptor Addr Register BH */
#define BFLL 0x90 /* RX Buffer Length L (only RX) */
#define BFLH 0x91 /* RX Buffer Length H (only RX) */
#define BCRL 0x8c /* Byte Count Register L */
#define BCRH 0x8d /* Byte Count Register H */
/* Block Descriptor Structure */
typedef struct {
unsigned long next; /* pointer to next block descriptor */
unsigned long ptbuf; /* buffer pointer */
unsigned short len; /* data length */
unsigned char status; /* status */
unsigned char filler[5]; /* alignment filler (16 bytes) */
} pcsca_bd_t;
/*
Descriptor Status definitions:
Bit Transmission Reception
7 EOM EOM
6 - Short Frame
5 - Abort
4 - Residual bit
3 Underrun Overrun
2 - CRC
1 Ownership Ownership
0 EOT -
*/
#define DST_EOT 0x01 /* End of transmit command */
#define DST_OSB 0x02 /* Ownership bit */
#define DST_CRC 0x04 /* CRC Error */
#define DST_OVR 0x08 /* Overrun */
#define DST_UDR 0x08 /* Underrun */
#define DST_RBIT 0x10 /* Residual bit */
#define DST_ABT 0x20 /* Abort */
#define DST_SHRT 0x40 /* Short Frame */
#define DST_EOM 0x80 /* End of Message */
/* Status Counter Registers */
#define CMCR 0x158 /* Counter Master Ctl Reg */
#define TECNTL 0x160 /* Tx EOM Counter L */
#define TECNTM 0x161 /* Tx EOM Counter M */
#define TECNTH 0x162 /* Tx EOM Counter H */
#define TECCR 0x163 /* Tx EOM Counter Ctl Reg */
#define URCNTL 0x164 /* Underrun Counter L */
#define URCNTH 0x165 /* Underrun Counter H */
#define URCCR 0x167 /* Underrun Counter Ctl Reg */
#define RECNTL 0x168 /* Rx EOM Counter L */
#define RECNTM 0x169 /* Rx EOM Counter M */
#define RECNTH 0x16a /* Rx EOM Counter H */
#define RECCR 0x16b /* Rx EOM Counter Ctl Reg */
#define ORCNTL 0x16c /* Overrun Counter L */
#define ORCNTH 0x16d /* Overrun Counter H */
#define ORCCR 0x16f /* Overrun Counter Ctl Reg */
#define CECNTL 0x170 /* CRC Counter L */
#define CECNTH 0x171 /* CRC Counter H */
#define CECCR 0x173 /* CRC Counter Ctl Reg */
#define ABCNTL 0x174 /* Abort frame Counter L */
#define ABCNTH 0x175 /* Abort frame Counter H */
#define ABCCR 0x177 /* Abort frame Counter Ctl Reg */
#define SHCNTL 0x178 /* Short frame Counter L */
#define SHCNTH 0x179 /* Short frame Counter H */
#define SHCCR 0x17b /* Short frame Counter Ctl Reg */
#define RSCNTL 0x17c /* Residual bit Counter L */
#define RSCNTH 0x17d /* Residual bit Counter H */
#define RSCCR 0x17f /* Residual bit Counter Ctl Reg */
/* Register Programming Constants */
#define IR0_DMIC 0x00000001
#define IR0_DMIB 0x00000002
#define IR0_DMIA 0x00000004
#define IR0_EFT 0x00000008
#define IR0_DMAREQ 0x00010000
#define IR0_TXINT 0x00020000
#define IR0_RXINTB 0x00040000
#define IR0_RXINTA 0x00080000
#define IR0_TXRDY 0x00100000
#define IR0_RXRDY 0x00200000
#define MD0_CRC16_0 0x00
#define MD0_CRC16_1 0x01
#define MD0_CRC32 0x02
#define MD0_CRC_CCITT 0x03
#define MD0_CRCC0 0x04
#define MD0_CRCC1 0x08
#define MD0_AUTO_ENA 0x10
#define MD0_ASYNC 0x00
#define MD0_BY_MSYNC 0x20
#define MD0_BY_BISYNC 0x40
#define MD0_BY_EXT 0x60
#define MD0_BIT_SYNC 0x80
#define MD0_TRANSP 0xc0
#define MD1_NOADDR 0x00
#define MD1_SADDR1 0x40
#define MD1_SADDR2 0x80
#define MD1_DADDR 0xc0
#define MD2_F_DUPLEX 0x00
#define MD2_AUTO_ECHO 0x01
#define MD2_LOOP_HI_Z 0x02
#define MD2_LOOP_MIR 0x03
#define MD2_ADPLL_X8 0x00
#define MD2_ADPLL_X16 0x08
#define MD2_ADPLL_X32 0x10
#define MD2_NRZ 0x00
#define MD2_NRZI 0x20
#define MD2_NRZ_IEEE 0x40
#define MD2_MANCH 0x00
#define MD2_FM1 0x20
#define MD2_FM0 0x40
#define MD2_FM 0x80
#define CTL_RTS 0x01
#define CTL_DTR 0x02
#define CTL_SYN 0x04
#define CTL_IDLC 0x10
#define CTL_UDRNC 0x20
#define CTL_URSKP 0x40
#define CTL_URCT 0x80
#define RXS_BR0 0x01
#define RXS_BR1 0x02
#define RXS_BR2 0x04
#define RXS_BR3 0x08
#define RXS_ECLK 0x00
#define RXS_ECLK_NS 0x20
#define RXS_IBRG 0x40
#define RXS_PLL1 0x50
#define RXS_PLL2 0x60
#define RXS_PLL3 0x70
#define RXS_DRTXC 0x80
#define TXS_BR0 0x01
#define TXS_BR1 0x02
#define TXS_BR2 0x04
#define TXS_BR3 0x08
#define TXS_ECLK 0x00
#define TXS_IBRG 0x40
#define TXS_RCLK 0x60
#define TXS_DTRXC 0x80
#define EXS_RES0 0x01
#define EXS_RES1 0x02
#define EXS_RES2 0x04
#define EXS_TES0 0x10
#define EXS_TES1 0x20
#define EXS_TES2 0x40
#define CMD_RX_RST 0x11
#define CMD_RX_ENA 0x12
#define CMD_RX_DIS 0x13
#define CMD_RX_CRC_INIT 0x14
#define CMD_RX_MSG_REJ 0x15
#define CMD_RX_MP_SRCH 0x16
#define CMD_RX_CRC_EXC 0x17
#define CMD_RX_CRC_FRC 0x18
#define CMD_TX_RST 0x01
#define CMD_TX_ENA 0x02
#define CMD_TX_DISA 0x03
#define CMD_TX_CRC_INIT 0x04
#define CMD_TX_CRC_EXC 0x05
#define CMD_TX_EOM 0x06
#define CMD_TX_ABORT 0x07
#define CMD_TX_MP_ON 0x08
#define CMD_TX_BUF_CLR 0x09
#define CMD_TX_DISB 0x0b
#define CMD_CH_RST 0x21
#define CMD_SRCH_MODE 0x31
#define CMD_NOP 0x00
#define ST0_RXRDY 0x01
#define ST0_TXRDY 0x02
#define ST0_RXINTB 0x20
#define ST0_RXINTA 0x40
#define ST0_TXINT 0x80
#define ST1_IDLE 0x01
#define ST1_ABORT 0x02
#define ST1_CDCD 0x04
#define ST1_CCTS 0x08
#define ST1_SYN_FLAG 0x10
#define ST1_CLMD 0x20
#define ST1_TXIDLE 0x40
#define ST1_UDRN 0x80
#define ST2_CRCE 0x04
#define ST2_ONRN 0x08
#define ST2_RBIT 0x10
#define ST2_ABORT 0x20
#define ST2_SHORT 0x40
#define ST2_EOM 0x80
#define ST3_RX_ENA 0x01
#define ST3_TX_ENA 0x02
#define ST3_DCD 0x04
#define ST3_CTS 0x08
#define ST3_SRCH_MODE 0x10
#define ST3_SLOOP 0x20
#define ST3_GPI 0x80
#define ST4_RDNR 0x01
#define ST4_RDCR 0x02
#define ST4_TDNR 0x04
#define ST4_TDCR 0x08
#define ST4_OCLM 0x20
#define ST4_CFT 0x40
#define ST4_CGPI 0x80
#define FST_CRCEF 0x04
#define FST_OVRNF 0x08
#define FST_RBIF 0x10
#define FST_ABTF 0x20
#define FST_SHRTF 0x40
#define FST_EOMF 0x80
#define IE0_RXRDY 0x01
#define IE0_TXRDY 0x02
#define IE0_RXINTB 0x20
#define IE0_RXINTA 0x40
#define IE0_TXINT 0x80
#define IE1_IDLD 0x01
#define IE1_ABTD 0x02
#define IE1_CDCD 0x04
#define IE1_CCTS 0x08
#define IE1_SYNCD 0x10
#define IE1_CLMD 0x20
#define IE1_IDL 0x40
#define IE1_UDRN 0x80
#define IE2_CRCE 0x04
#define IE2_OVRN 0x08
#define IE2_RBIT 0x10
#define IE2_ABT 0x20
#define IE2_SHRT 0x40
#define IE2_EOM 0x80
#define IE4_RDNR 0x01
#define IE4_RDCR 0x02
#define IE4_TDNR 0x04
#define IE4_TDCR 0x08
#define IE4_OCLM 0x20
#define IE4_CFT 0x40
#define IE4_CGPI 0x80
#define FIE_CRCEF 0x04
#define FIE_OVRNF 0x08
#define FIE_RBIF 0x10
#define FIE_ABTF 0x20
#define FIE_SHRTF 0x40
#define FIE_EOMF 0x80
#define DSR_DWE 0x01
#define DSR_DE 0x02
#define DSR_REF 0x04
#define DSR_UDRF 0x04
#define DSR_COA 0x08
#define DSR_COF 0x10
#define DSR_BOF 0x20
#define DSR_EOM 0x40
#define DSR_EOT 0x80
#define DIR_REF 0x04
#define DIR_UDRF 0x04
#define DIR_COA 0x08
#define DIR_COF 0x10
#define DIR_BOF 0x20
#define DIR_EOM 0x40
#define DIR_EOT 0x80
#define DMR_CNTE 0x02
#define DMR_NF 0x04
#define DMR_SEOME 0x08
#define DMR_TMOD 0x10
#define DCR_SW_ABT 0x01
#define DCR_FCT_CLR 0x02
#define PCR_PR0 0x01
#define PCR_PR1 0x02
#define PCR_PR2 0x04
#define PCR_CCC 0x08
#define PCR_BRC 0x10
#define PCR_OSB 0x40
#define PCR_BURST 0x80
#endif /* (_HD64572_H) */
/*
* falc.h Description of the Siemens FALC T1/E1 framer.
*
* Author: Ivan Passos <ivan@cyclades.com>
*
* Copyright: (c) 2000-2001 Cyclades Corp.
*
* 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 of the License, or (at your option) any later version.
*
* $Log: falc-lh.h,v $
* Revision 3.1 2001/06/15 12:41:10 regina
* upping major version number
*
* Revision 1.1.1.1 2001/06/13 20:24:47 daniela
* PC300 initial CVS version (3.4.0-pre1)
*
* Revision 1.1 2000/05/15 ivan
* Included DJA bits for the LIM2 register.
*
* Revision 1.0 2000/02/22 ivan
* Initial version.
*
*/
#ifndef _FALC_LH_H
#define _FALC_LH_H
#define NUM_OF_T1_CHANNELS 24
#define NUM_OF_E1_CHANNELS 32
/*>>>>>>>>>>>>>>>>> FALC Register Bits (Transmit Mode) <<<<<<<<<<<<<<<<<<< */
/* CMDR (Command Register)
---------------- E1 & T1 ------------------------------ */
#define CMDR_RMC 0x80
#define CMDR_RRES 0x40
#define CMDR_XREP 0x20
#define CMDR_XRES 0x10
#define CMDR_XHF 0x08
#define CMDR_XTF 0x04
#define CMDR_XME 0x02
#define CMDR_SRES 0x01
/* MODE (Mode Register)
----------------- E1 & T1 ----------------------------- */
#define MODE_MDS2 0x80
#define MODE_MDS1 0x40
#define MODE_MDS0 0x20
#define MODE_BRAC 0x10
#define MODE_HRAC 0x08
/* IPC (Interrupt Port Configuration)
----------------- E1 & T1 ----------------------------- */
#define IPC_VIS 0x80
#define IPC_SCI 0x04
#define IPC_IC1 0x02
#define IPC_IC0 0x01
/* CCR1 (Common Configuration Register 1)
----------------- E1 & T1 ----------------------------- */
#define CCR1_SFLG 0x80
#define CCR1_XTS16RA 0x40
#define CCR1_BRM 0x40
#define CCR1_CASSYM 0x20
#define CCR1_EDLX 0x20
#define CCR1_EITS 0x10
#define CCR1_ITF 0x08
#define CCR1_RFT1 0x02
#define CCR1_RFT0 0x01
/* CCR3 (Common Configuration Register 3)
---------------- E1 & T1 ------------------------------ */
#define CCR3_PRE1 0x80
#define CCR3_PRE0 0x40
#define CCR3_EPT 0x20
#define CCR3_RADD 0x10
#define CCR3_RCRC 0x04
#define CCR3_XCRC 0x02
/* RTR1-4 (Receive Timeslot Register 1-4)
---------------- E1 & T1 ------------------------------ */
#define RTR1_TS0 0x80
#define RTR1_TS1 0x40
#define RTR1_TS2 0x20
#define RTR1_TS3 0x10
#define RTR1_TS4 0x08
#define RTR1_TS5 0x04
#define RTR1_TS6 0x02
#define RTR1_TS7 0x01
#define RTR2_TS8 0x80
#define RTR2_TS9 0x40
#define RTR2_TS10 0x20
#define RTR2_TS11 0x10
#define RTR2_TS12 0x08
#define RTR2_TS13 0x04
#define RTR2_TS14 0x02
#define RTR2_TS15 0x01
#define RTR3_TS16 0x80
#define RTR3_TS17 0x40
#define RTR3_TS18 0x20
#define RTR3_TS19 0x10
#define RTR3_TS20 0x08
#define RTR3_TS21 0x04
#define RTR3_TS22 0x02
#define RTR3_TS23 0x01
#define RTR4_TS24 0x80
#define RTR4_TS25 0x40
#define RTR4_TS26 0x20
#define RTR4_TS27 0x10
#define RTR4_TS28 0x08
#define RTR4_TS29 0x04
#define RTR4_TS30 0x02
#define RTR4_TS31 0x01
/* TTR1-4 (Transmit Timeslot Register 1-4)
---------------- E1 & T1 ------------------------------ */
#define TTR1_TS0 0x80
#define TTR1_TS1 0x40
#define TTR1_TS2 0x20
#define TTR1_TS3 0x10
#define TTR1_TS4 0x08
#define TTR1_TS5 0x04
#define TTR1_TS6 0x02
#define TTR1_TS7 0x01
#define TTR2_TS8 0x80
#define TTR2_TS9 0x40
#define TTR2_TS10 0x20
#define TTR2_TS11 0x10
#define TTR2_TS12 0x08
#define TTR2_TS13 0x04
#define TTR2_TS14 0x02
#define TTR2_TS15 0x01
#define TTR3_TS16 0x80
#define TTR3_TS17 0x40
#define TTR3_TS18 0x20
#define TTR3_TS19 0x10
#define TTR3_TS20 0x08
#define TTR3_TS21 0x04
#define TTR3_TS22 0x02
#define TTR3_TS23 0x01
#define TTR4_TS24 0x80
#define TTR4_TS25 0x40
#define TTR4_TS26 0x20
#define TTR4_TS27 0x10
#define TTR4_TS28 0x08
#define TTR4_TS29 0x04
#define TTR4_TS30 0x02
#define TTR4_TS31 0x01
/* IMR0-4 (Interrupt Mask Register 0-4)
----------------- E1 & T1 ----------------------------- */
#define IMR0_RME 0x80
#define IMR0_RFS 0x40
#define IMR0_T8MS 0x20
#define IMR0_ISF 0x20
#define IMR0_RMB 0x10
#define IMR0_CASC 0x08
#define IMR0_RSC 0x08
#define IMR0_CRC6 0x04
#define IMR0_CRC4 0x04
#define IMR0_PDEN 0x02
#define IMR0_RPF 0x01
#define IMR1_CASE 0x80
#define IMR1_RDO 0x40
#define IMR1_ALLS 0x20
#define IMR1_XDU 0x10
#define IMR1_XMB 0x08
#define IMR1_XLSC 0x02
#define IMR1_XPR 0x01
#define IMR1_LLBSC 0x80
#define IMR2_FAR 0x80
#define IMR2_LFA 0x40
#define IMR2_MFAR 0x20
#define IMR2_T400MS 0x10
#define IMR2_LMFA 0x10
#define IMR2_AIS 0x08
#define IMR2_LOS 0x04
#define IMR2_RAR 0x02
#define IMR2_RA 0x01
#define IMR3_ES 0x80
#define IMR3_SEC 0x40
#define IMR3_LMFA16 0x20
#define IMR3_AIS16 0x10
#define IMR3_RA16 0x08
#define IMR3_API 0x04
#define IMR3_XSLP 0x20
#define IMR3_XSLN 0x10
#define IMR3_LLBSC 0x08
#define IMR3_XRS 0x04
#define IMR3_SLN 0x02
#define IMR3_SLP 0x01
#define IMR4_LFA 0x80
#define IMR4_FER 0x40
#define IMR4_CER 0x20
#define IMR4_AIS 0x10
#define IMR4_LOS 0x08
#define IMR4_CVE 0x04
#define IMR4_SLIP 0x02
#define IMR4_EBE 0x01
/* FMR0-5 for E1 and T1 (Framer Mode Register ) */
#define FMR0_XC1 0x80
#define FMR0_XC0 0x40
#define FMR0_RC1 0x20
#define FMR0_RC0 0x10
#define FMR0_EXTD 0x08
#define FMR0_ALM 0x04
#define E1_FMR0_FRS 0x02
#define T1_FMR0_FRS 0x08
#define FMR0_SRAF 0x04
#define FMR0_EXLS 0x02
#define FMR0_SIM 0x01
#define FMR1_MFCS 0x80
#define FMR1_AFR 0x40
#define FMR1_ENSA 0x20
#define FMR1_CTM 0x80
#define FMR1_SIGM 0x40
#define FMR1_EDL 0x20
#define FMR1_PMOD 0x10
#define FMR1_XFS 0x08
#define FMR1_CRC 0x08
#define FMR1_ECM 0x04
#define FMR1_IMOD 0x02
#define FMR1_XAIS 0x01
#define FMR2_RFS1 0x80
#define FMR2_RFS0 0x40
#define FMR2_MCSP 0x40
#define FMR2_RTM 0x20
#define FMR2_SSP 0x20
#define FMR2_DAIS 0x10
#define FMR2_SAIS 0x08
#define FMR2_PLB 0x04
#define FMR2_AXRA 0x02
#define FMR2_ALMF 0x01
#define FMR2_EXZE 0x01
#define LOOP_RTM 0x40
#define LOOP_SFM 0x40
#define LOOP_ECLB 0x20
#define LOOP_CLA 0x1f
/*--------------------- E1 ----------------------------*/
#define FMR3_XLD 0x20
#define FMR3_XLU 0x10
/*--------------------- T1 ----------------------------*/
#define FMR4_AIS3 0x80
#define FMR4_TM 0x40
#define FMR4_XRA 0x20
#define FMR4_SSC1 0x10
#define FMR4_SSC0 0x08
#define FMR4_AUTO 0x04
#define FMR4_FM1 0x02
#define FMR4_FM0 0x01
#define FMR5_SRS 0x80
#define FMR5_EIBR 0x40
#define FMR5_XLD 0x20
#define FMR5_XLU 0x10
/* LOOP (Channel Loop Back)
------------------ E1 & T1 ---------------------------- */
#define LOOP_SFM 0x40
#define LOOP_ECLB 0x20
#define LOOP_CLA4 0x10
#define LOOP_CLA3 0x08
#define LOOP_CLA2 0x04
#define LOOP_CLA1 0x02
#define LOOP_CLA0 0x01
/* XSW (Transmit Service Word Pulseframe)
------------------- E1 --------------------------- */
#define XSW_XSIS 0x80
#define XSW_XTM 0x40
#define XSW_XRA 0x20
#define XSW_XY0 0x10
#define XSW_XY1 0x08
#define XSW_XY2 0x04
#define XSW_XY3 0x02
#define XSW_XY4 0x01
/* XSP (Transmit Spare Bits)
------------------- E1 --------------------------- */
#define XSP_XAP 0x80
#define XSP_CASEN 0x40
#define XSP_TT0 0x20
#define XSP_EBP 0x10
#define XSP_AXS 0x08
#define XSP_XSIF 0x04
#define XSP_XS13 0x02
#define XSP_XS15 0x01
/* XC0/1 (Transmit Control 0/1)
------------------ E1 & T1 ---------------------------- */
#define XC0_SA8E 0x80
#define XC0_SA7E 0x40
#define XC0_SA6E 0x20
#define XC0_SA5E 0x10
#define XC0_SA4E 0x08
#define XC0_BRM 0x80
#define XC0_MFBS 0x40
#define XC0_SFRZ 0x10
#define XC0_XCO2 0x04
#define XC0_XCO1 0x02
#define XC0_XCO0 0x01
#define XC1_XTO5 0x20
#define XC1_XTO4 0x10
#define XC1_XTO3 0x08
#define XC1_XTO2 0x04
#define XC1_XTO1 0x02
#define XC1_XTO0 0x01
/* RC0/1 (Receive Control 0/1)
------------------ E1 & T1 ---------------------------- */
#define RC0_SICS 0x40
#define RC0_CRCI 0x20
#define RC0_XCRCI 0x10
#define RC0_RDIS 0x08
#define RC0_RCO2 0x04
#define RC0_RCO1 0x02
#define RC0_RCO0 0x01
#define RC1_SWD 0x80
#define RC1_ASY4 0x40
#define RC1_RRAM 0x40
#define RC1_RTO5 0x20
#define RC1_RTO4 0x10
#define RC1_RTO3 0x08
#define RC1_RTO2 0x04
#define RC1_RTO1 0x02
#define RC1_RTO0 0x01
/* XPM0-2 (Transmit Pulse Mask 0-2)
--------------------- E1 & T1 ------------------------- */
#define XPM0_XP12 0x80
#define XPM0_XP11 0x40
#define XPM0_XP10 0x20
#define XPM0_XP04 0x10
#define XPM0_XP03 0x08
#define XPM0_XP02 0x04
#define XPM0_XP01 0x02
#define XPM0_XP00 0x01
#define XPM1_XP30 0x80
#define XPM1_XP24 0x40
#define XPM1_XP23 0x20
#define XPM1_XP22 0x10
#define XPM1_XP21 0x08
#define XPM1_XP20 0x04
#define XPM1_XP14 0x02
#define XPM1_XP13 0x01
#define XPM2_XLHP 0x80
#define XPM2_XLT 0x40
#define XPM2_DAXLT 0x20
#define XPM2_XP34 0x08
#define XPM2_XP33 0x04
#define XPM2_XP32 0x02
#define XPM2_XP31 0x01
/* TSWM (Transparent Service Word Mask)
------------------ E1 ---------------------------- */
#define TSWM_TSIS 0x80
#define TSWM_TSIF 0x40
#define TSWM_TRA 0x20
#define TSWM_TSA4 0x10
#define TSWM_TSA5 0x08
#define TSWM_TSA6 0x04
#define TSWM_TSA7 0x02
#define TSWM_TSA8 0x01
/* IDLE <Idle Channel Code Register>
------------------ E1 & T1 ----------------------- */
#define IDLE_IDL7 0x80
#define IDLE_IDL6 0x40
#define IDLE_IDL5 0x20
#define IDLE_IDL4 0x10
#define IDLE_IDL3 0x08
#define IDLE_IDL2 0x04
#define IDLE_IDL1 0x02
#define IDLE_IDL0 0x01
/* XSA4-8 <Transmit SA4-8 Register(Read/Write) >
-------------------E1 ----------------------------- */
#define XSA4_XS47 0x80
#define XSA4_XS46 0x40
#define XSA4_XS45 0x20
#define XSA4_XS44 0x10
#define XSA4_XS43 0x08
#define XSA4_XS42 0x04
#define XSA4_XS41 0x02
#define XSA4_XS40 0x01
#define XSA5_XS57 0x80
#define XSA5_XS56 0x40
#define XSA5_XS55 0x20
#define XSA5_XS54 0x10
#define XSA5_XS53 0x08
#define XSA5_XS52 0x04
#define XSA5_XS51 0x02
#define XSA5_XS50 0x01
#define XSA6_XS67 0x80
#define XSA6_XS66 0x40
#define XSA6_XS65 0x20
#define XSA6_XS64 0x10
#define XSA6_XS63 0x08
#define XSA6_XS62 0x04
#define XSA6_XS61 0x02
#define XSA6_XS60 0x01
#define XSA7_XS77 0x80
#define XSA7_XS76 0x40
#define XSA7_XS75 0x20
#define XSA7_XS74 0x10
#define XSA7_XS73 0x08
#define XSA7_XS72 0x04
#define XSA7_XS71 0x02
#define XSA7_XS70 0x01
#define XSA8_XS87 0x80
#define XSA8_XS86 0x40
#define XSA8_XS85 0x20
#define XSA8_XS84 0x10
#define XSA8_XS83 0x08
#define XSA8_XS82 0x04
#define XSA8_XS81 0x02
#define XSA8_XS80 0x01
/* XDL1-3 (Transmit DL-Bit Register1-3 (read/write))
----------------------- T1 --------------------- */
#define XDL1_XDL17 0x80
#define XDL1_XDL16 0x40
#define XDL1_XDL15 0x20
#define XDL1_XDL14 0x10
#define XDL1_XDL13 0x08
#define XDL1_XDL12 0x04
#define XDL1_XDL11 0x02
#define XDL1_XDL10 0x01
#define XDL2_XDL27 0x80
#define XDL2_XDL26 0x40
#define XDL2_XDL25 0x20
#define XDL2_XDL24 0x10
#define XDL2_XDL23 0x08
#define XDL2_XDL22 0x04
#define XDL2_XDL21 0x02
#define XDL2_XDL20 0x01
#define XDL3_XDL37 0x80
#define XDL3_XDL36 0x40
#define XDL3_XDL35 0x20
#define XDL3_XDL34 0x10
#define XDL3_XDL33 0x08
#define XDL3_XDL32 0x04
#define XDL3_XDL31 0x02
#define XDL3_XDL30 0x01
/* ICB1-4 (Idle Channel Register 1-4)
------------------ E1 ---------------------------- */
#define E1_ICB1_IC0 0x80
#define E1_ICB1_IC1 0x40
#define E1_ICB1_IC2 0x20
#define E1_ICB1_IC3 0x10
#define E1_ICB1_IC4 0x08
#define E1_ICB1_IC5 0x04
#define E1_ICB1_IC6 0x02
#define E1_ICB1_IC7 0x01
#define E1_ICB2_IC8 0x80
#define E1_ICB2_IC9 0x40
#define E1_ICB2_IC10 0x20
#define E1_ICB2_IC11 0x10
#define E1_ICB2_IC12 0x08
#define E1_ICB2_IC13 0x04
#define E1_ICB2_IC14 0x02
#define E1_ICB2_IC15 0x01
#define E1_ICB3_IC16 0x80
#define E1_ICB3_IC17 0x40
#define E1_ICB3_IC18 0x20
#define E1_ICB3_IC19 0x10
#define E1_ICB3_IC20 0x08
#define E1_ICB3_IC21 0x04
#define E1_ICB3_IC22 0x02
#define E1_ICB3_IC23 0x01
#define E1_ICB4_IC24 0x80
#define E1_ICB4_IC25 0x40
#define E1_ICB4_IC26 0x20
#define E1_ICB4_IC27 0x10
#define E1_ICB4_IC28 0x08
#define E1_ICB4_IC29 0x04
#define E1_ICB4_IC30 0x02
#define E1_ICB4_IC31 0x01
/* ICB1-4 (Idle Channel Register 1-4)
------------------ T1 ---------------------------- */
#define T1_ICB1_IC1 0x80
#define T1_ICB1_IC2 0x40
#define T1_ICB1_IC3 0x20
#define T1_ICB1_IC4 0x10
#define T1_ICB1_IC5 0x08
#define T1_ICB1_IC6 0x04
#define T1_ICB1_IC7 0x02
#define T1_ICB1_IC8 0x01
#define T1_ICB2_IC9 0x80
#define T1_ICB2_IC10 0x40
#define T1_ICB2_IC11 0x20
#define T1_ICB2_IC12 0x10
#define T1_ICB2_IC13 0x08
#define T1_ICB2_IC14 0x04
#define T1_ICB2_IC15 0x02
#define T1_ICB2_IC16 0x01
#define T1_ICB3_IC17 0x80
#define T1_ICB3_IC18 0x40
#define T1_ICB3_IC19 0x20
#define T1_ICB3_IC20 0x10
#define T1_ICB3_IC21 0x08
#define T1_ICB3_IC22 0x04
#define T1_ICB3_IC23 0x02
#define T1_ICB3_IC24 0x01
/* FMR3 (Framer Mode Register 3)
--------------------E1------------------------ */
#define FMR3_CMI 0x08
#define FMR3_SYNSA 0x04
#define FMR3_CFRZ 0x02
#define FMR3_EXTIW 0x01
/* CCB1-3 (Clear Channel Register)
------------------- T1 ----------------------- */
#define CCB1_CH1 0x80
#define CCB1_CH2 0x40
#define CCB1_CH3 0x20
#define CCB1_CH4 0x10
#define CCB1_CH5 0x08
#define CCB1_CH6 0x04
#define CCB1_CH7 0x02
#define CCB1_CH8 0x01
#define CCB2_CH9 0x80
#define CCB2_CH10 0x40
#define CCB2_CH11 0x20
#define CCB2_CH12 0x10
#define CCB2_CH13 0x08
#define CCB2_CH14 0x04
#define CCB2_CH15 0x02
#define CCB2_CH16 0x01
#define CCB3_CH17 0x80
#define CCB3_CH18 0x40
#define CCB3_CH19 0x20
#define CCB3_CH20 0x10
#define CCB3_CH21 0x08
#define CCB3_CH22 0x04
#define CCB3_CH23 0x02
#define CCB3_CH24 0x01
/* LIM0/1 (Line Interface Mode 0/1)
------------------- E1 & T1 --------------------------- */
#define LIM0_XFB 0x80
#define LIM0_XDOS 0x40
#define LIM0_SCL1 0x20
#define LIM0_SCL0 0x10
#define LIM0_EQON 0x08
#define LIM0_ELOS 0x04
#define LIM0_LL 0x02
#define LIM0_MAS 0x01
#define LIM1_EFSC 0x80
#define LIM1_RIL2 0x40
#define LIM1_RIL1 0x20
#define LIM1_RIL0 0x10
#define LIM1_DCOC 0x08
#define LIM1_JATT 0x04
#define LIM1_RL 0x02
#define LIM1_DRS 0x01
/* PCDR (Pulse Count Detection Register(Read/Write))
------------------ E1 & T1 ------------------------- */
#define PCDR_PCD7 0x80
#define PCDR_PCD6 0x40
#define PCDR_PCD5 0x20
#define PCDR_PCD4 0x10
#define PCDR_PCD3 0x08
#define PCDR_PCD2 0x04
#define PCDR_PCD1 0x02
#define PCDR_PCD0 0x01
#define PCRR_PCR7 0x80
#define PCRR_PCR6 0x40
#define PCRR_PCR5 0x20
#define PCRR_PCR4 0x10
#define PCRR_PCR3 0x08
#define PCRR_PCR2 0x04
#define PCRR_PCR1 0x02
#define PCRR_PCR0 0x01
/* LIM2 (Line Interface Mode 2)
------------------ E1 & T1 ---------------------------- */
#define LIM2_DJA2 0x20
#define LIM2_DJA1 0x10
#define LIM2_LOS2 0x02
#define LIM2_LOS1 0x01
/* LCR1 (Loop Code Register 1) */
#define LCR1_EPRM 0x80
#define LCR1_XPRBS 0x40
/* SIC1 (System Interface Control 1) */
#define SIC1_SRSC 0x80
#define SIC1_RBS1 0x20
#define SIC1_RBS0 0x10
#define SIC1_SXSC 0x08
#define SIC1_XBS1 0x02
#define SIC1_XBS0 0x01
/* DEC (Disable Error Counter)
------------------ E1 & T1 ---------------------------- */
#define DEC_DCEC3 0x20
#define DEC_DBEC 0x10
#define DEC_DCEC1 0x08
#define DEC_DCEC 0x08
#define DEC_DEBC 0x04
#define DEC_DCVC 0x02
#define DEC_DFEC 0x01
/* FALC Register Bits (Receive Mode)
---------------------------------------------------------------------------- */
/* FRS0/1 (Framer Receive Status Register 0/1)
----------------- E1 & T1 ---------------------------------- */
#define FRS0_LOS 0x80
#define FRS0_AIS 0x40
#define FRS0_LFA 0x20
#define FRS0_RRA 0x10
#define FRS0_API 0x08
#define FRS0_NMF 0x04
#define FRS0_LMFA 0x02
#define FRS0_FSRF 0x01
#define FRS1_TS16RA 0x40
#define FRS1_TS16LOS 0x20
#define FRS1_TS16AIS 0x10
#define FRS1_TS16LFA 0x08
#define FRS1_EXZD 0x80
#define FRS1_LLBDD 0x10
#define FRS1_LLBAD 0x08
#define FRS1_XLS 0x02
#define FRS1_XLO 0x01
#define FRS1_PDEN 0x40
/* FRS2/3 (Framer Receive Status Register 2/3)
----------------- T1 ---------------------------------- */
#define FRS2_ESC2 0x80
#define FRS2_ESC1 0x40
#define FRS2_ESC0 0x20
#define FRS3_FEH5 0x20
#define FRS3_FEH4 0x10
#define FRS3_FEH3 0x08
#define FRS3_FEH2 0x04
#define FRS3_FEH1 0x02
#define FRS3_FEH0 0x01
/* RSW (Receive Service Word Pulseframe)
----------------- E1 ------------------------------ */
#define RSW_RSI 0x80
#define RSW_RRA 0x20
#define RSW_RYO 0x10
#define RSW_RY1 0x08
#define RSW_RY2 0x04
#define RSW_RY3 0x02
#define RSW_RY4 0x01
/* RSP (Receive Spare Bits / Additional Status)
---------------- E1 ------------------------------- */
#define RSP_SI1 0x80
#define RSP_SI2 0x40
#define RSP_LLBDD 0x10
#define RSP_LLBAD 0x08
#define RSP_RSIF 0x04
#define RSP_RS13 0x02
#define RSP_RS15 0x01
/* FECL (Framing Error Counter)
---------------- E1 & T1 -------------------------- */
#define FECL_FE7 0x80
#define FECL_FE6 0x40
#define FECL_FE5 0x20
#define FECL_FE4 0x10
#define FECL_FE3 0x08
#define FECL_FE2 0x04
#define FECL_FE1 0x02
#define FECL_FE0 0x01
#define FECH_FE15 0x80
#define FECH_FE14 0x40
#define FECH_FE13 0x20
#define FECH_FE12 0x10
#define FECH_FE11 0x08
#define FECH_FE10 0x04
#define FECH_FE9 0x02
#define FECH_FE8 0x01
/* CVCl (Code Violation Counter)
----------------- E1 ------------------------- */
#define CVCL_CV7 0x80
#define CVCL_CV6 0x40
#define CVCL_CV5 0x20
#define CVCL_CV4 0x10
#define CVCL_CV3 0x08
#define CVCL_CV2 0x04
#define CVCL_CV1 0x02
#define CVCL_CV0 0x01
#define CVCH_CV15 0x80
#define CVCH_CV14 0x40
#define CVCH_CV13 0x20
#define CVCH_CV12 0x10
#define CVCH_CV11 0x08
#define CVCH_CV10 0x04
#define CVCH_CV9 0x02
#define CVCH_CV8 0x01
/* CEC1-3L (CRC Error Counter)
------------------ E1 ----------------------------- */
#define CEC1L_CR7 0x80
#define CEC1L_CR6 0x40
#define CEC1L_CR5 0x20
#define CEC1L_CR4 0x10
#define CEC1L_CR3 0x08
#define CEC1L_CR2 0x04
#define CEC1L_CR1 0x02
#define CEC1L_CR0 0x01
#define CEC1H_CR15 0x80
#define CEC1H_CR14 0x40
#define CEC1H_CR13 0x20
#define CEC1H_CR12 0x10
#define CEC1H_CR11 0x08
#define CEC1H_CR10 0x04
#define CEC1H_CR9 0x02
#define CEC1H_CR8 0x01
#define CEC2L_CR7 0x80
#define CEC2L_CR6 0x40
#define CEC2L_CR5 0x20
#define CEC2L_CR4 0x10
#define CEC2L_CR3 0x08
#define CEC2L_CR2 0x04
#define CEC2L_CR1 0x02
#define CEC2L_CR0 0x01
#define CEC2H_CR15 0x80
#define CEC2H_CR14 0x40
#define CEC2H_CR13 0x20
#define CEC2H_CR12 0x10
#define CEC2H_CR11 0x08
#define CEC2H_CR10 0x04
#define CEC2H_CR9 0x02
#define CEC2H_CR8 0x01
#define CEC3L_CR7 0x80
#define CEC3L_CR6 0x40
#define CEC3L_CR5 0x20
#define CEC3L_CR4 0x10
#define CEC3L_CR3 0x08
#define CEC3L_CR2 0x04
#define CEC3L_CR1 0x02
#define CEC3L_CR0 0x01
#define CEC3H_CR15 0x80
#define CEC3H_CR14 0x40
#define CEC3H_CR13 0x20
#define CEC3H_CR12 0x10
#define CEC3H_CR11 0x08
#define CEC3H_CR10 0x04
#define CEC3H_CR9 0x02
#define CEC3H_CR8 0x01
/* CECL (CRC Error Counter)
------------------ T1 ----------------------------- */
#define CECL_CR7 0x80
#define CECL_CR6 0x40
#define CECL_CR5 0x20
#define CECL_CR4 0x10
#define CECL_CR3 0x08
#define CECL_CR2 0x04
#define CECL_CR1 0x02
#define CECL_CR0 0x01
#define CECH_CR15 0x80
#define CECH_CR14 0x40
#define CECH_CR13 0x20
#define CECH_CR12 0x10
#define CECH_CR11 0x08
#define CECH_CR10 0x04
#define CECH_CR9 0x02
#define CECH_CR8 0x01
/* EBCL (E Bit Error Counter)
------------------- E1 & T1 ------------------------- */
#define EBCL_EB7 0x80
#define EBCL_EB6 0x40
#define EBCL_EB5 0x20
#define EBCL_EB4 0x10
#define EBCL_EB3 0x08
#define EBCL_EB2 0x04
#define EBCL_EB1 0x02
#define EBCL_EB0 0x01
#define EBCH_EB15 0x80
#define EBCH_EB14 0x40
#define EBCH_EB13 0x20
#define EBCH_EB12 0x10
#define EBCH_EB11 0x08
#define EBCH_EB10 0x04
#define EBCH_EB9 0x02
#define EBCH_EB8 0x01
/* RSA4-8 (Receive Sa4-8-Bit Register)
-------------------- E1 --------------------------- */
#define RSA4_RS47 0x80
#define RSA4_RS46 0x40
#define RSA4_RS45 0x20
#define RSA4_RS44 0x10
#define RSA4_RS43 0x08
#define RSA4_RS42 0x04
#define RSA4_RS41 0x02
#define RSA4_RS40 0x01
#define RSA5_RS57 0x80
#define RSA5_RS56 0x40
#define RSA5_RS55 0x20
#define RSA5_RS54 0x10
#define RSA5_RS53 0x08
#define RSA5_RS52 0x04
#define RSA5_RS51 0x02
#define RSA5_RS50 0x01
#define RSA6_RS67 0x80
#define RSA6_RS66 0x40
#define RSA6_RS65 0x20
#define RSA6_RS64 0x10
#define RSA6_RS63 0x08
#define RSA6_RS62 0x04
#define RSA6_RS61 0x02
#define RSA6_RS60 0x01
#define RSA7_RS77 0x80
#define RSA7_RS76 0x40
#define RSA7_RS75 0x20
#define RSA7_RS74 0x10
#define RSA7_RS73 0x08
#define RSA7_RS72 0x04
#define RSA7_RS71 0x02
#define RSA7_RS70 0x01
#define RSA8_RS87 0x80
#define RSA8_RS86 0x40
#define RSA8_RS85 0x20
#define RSA8_RS84 0x10
#define RSA8_RS83 0x08
#define RSA8_RS82 0x04
#define RSA8_RS81 0x02
#define RSA8_RS80 0x01
/* RSA6S (Receive Sa6 Bit Status Register)
------------------------ T1 ------------------------- */
#define RSA6S_SX 0x20
#define RSA6S_SF 0x10
#define RSA6S_SE 0x08
#define RSA6S_SC 0x04
#define RSA6S_SA 0x02
#define RSA6S_S8 0x01
/* RDL1-3 Receive DL-Bit Register1-3)
------------------------ T1 ------------------------- */
#define RDL1_RDL17 0x80
#define RDL1_RDL16 0x40
#define RDL1_RDL15 0x20
#define RDL1_RDL14 0x10
#define RDL1_RDL13 0x08
#define RDL1_RDL12 0x04
#define RDL1_RDL11 0x02
#define RDL1_RDL10 0x01
#define RDL2_RDL27 0x80
#define RDL2_RDL26 0x40
#define RDL2_RDL25 0x20
#define RDL2_RDL24 0x10
#define RDL2_RDL23 0x08
#define RDL2_RDL22 0x04
#define RDL2_RDL21 0x02
#define RDL2_RDL20 0x01
#define RDL3_RDL37 0x80
#define RDL3_RDL36 0x40
#define RDL3_RDL35 0x20
#define RDL3_RDL34 0x10
#define RDL3_RDL33 0x08
#define RDL3_RDL32 0x04
#define RDL3_RDL31 0x02
#define RDL3_RDL30 0x01
/* SIS (Signaling Status Register)
-------------------- E1 & T1 -------------------------- */
#define SIS_XDOV 0x80
#define SIS_XFW 0x40
#define SIS_XREP 0x20
#define SIS_RLI 0x08
#define SIS_CEC 0x04
#define SIS_BOM 0x01
/* RSIS (Receive Signaling Status Register)
-------------------- E1 & T1 --------------------------- */
#define RSIS_VFR 0x80
#define RSIS_RDO 0x40
#define RSIS_CRC16 0x20
#define RSIS_RAB 0x10
#define RSIS_HA1 0x08
#define RSIS_HA0 0x04
#define RSIS_HFR 0x02
#define RSIS_LA 0x01
/* RBCL/H (Receive Byte Count Low/High)
------------------- E1 & T1 ----------------------- */
#define RBCL_RBC7 0x80
#define RBCL_RBC6 0x40
#define RBCL_RBC5 0x20
#define RBCL_RBC4 0x10
#define RBCL_RBC3 0x08
#define RBCL_RBC2 0x04
#define RBCL_RBC1 0x02
#define RBCL_RBC0 0x01
#define RBCH_OV 0x10
#define RBCH_RBC11 0x08
#define RBCH_RBC10 0x04
#define RBCH_RBC9 0x02
#define RBCH_RBC8 0x01
/* ISR1-3 (Interrupt Status Register 1-3)
------------------ E1 & T1 ------------------------------ */
#define FISR0_RME 0x80
#define FISR0_RFS 0x40
#define FISR0_T8MS 0x20
#define FISR0_ISF 0x20
#define FISR0_RMB 0x10
#define FISR0_CASC 0x08
#define FISR0_RSC 0x08
#define FISR0_CRC6 0x04
#define FISR0_CRC4 0x04
#define FISR0_PDEN 0x02
#define FISR0_RPF 0x01
#define FISR1_CASE 0x80
#define FISR1_LLBSC 0x80
#define FISR1_RDO 0x40
#define FISR1_ALLS 0x20
#define FISR1_XDU 0x10
#define FISR1_XMB 0x08
#define FISR1_XLSC 0x02
#define FISR1_XPR 0x01
#define FISR2_FAR 0x80
#define FISR2_LFA 0x40
#define FISR2_MFAR 0x20
#define FISR2_T400MS 0x10
#define FISR2_LMFA 0x10
#define FISR2_AIS 0x08
#define FISR2_LOS 0x04
#define FISR2_RAR 0x02
#define FISR2_RA 0x01
#define FISR3_ES 0x80
#define FISR3_SEC 0x40
#define FISR3_LMFA16 0x20
#define FISR3_AIS16 0x10
#define FISR3_RA16 0x08
#define FISR3_API 0x04
#define FISR3_XSLP 0x20
#define FISR3_XSLN 0x10
#define FISR3_LLBSC 0x08
#define FISR3_XRS 0x04
#define FISR3_SLN 0x02
#define FISR3_SLP 0x01
/* GIS (Global Interrupt Status Register)
--------------------- E1 & T1 --------------------- */
#define GIS_ISR3 0x08
#define GIS_ISR2 0x04
#define GIS_ISR1 0x02
#define GIS_ISR0 0x01
/* VSTR (Version Status Register)
--------------------- E1 & T1 --------------------- */
#define VSTR_VN3 0x08
#define VSTR_VN2 0x04
#define VSTR_VN1 0x02
#define VSTR_VN0 0x01
/*>>>>>>>>>>>>>>>>>>>>> Local Control Structures <<<<<<<<<<<<<<<<<<<<<<<<< */
/* Write-only Registers (E1/T1 control mode write registers) */
#define XFIFOH 0x00 /* Tx FIFO High Byte */
#define XFIFOL 0x01 /* Tx FIFO Low Byte */
#define CMDR 0x02 /* Command Reg */
#define DEC 0x60 /* Disable Error Counter */
#define TEST2 0x62 /* Manuf. Test Reg 2 */
#define XS(nbr) (0x70 + (nbr)) /* Tx CAS Reg (0 to 15) */
/* Read-write Registers (E1/T1 status mode read registers) */
#define MODE 0x03 /* Mode Reg */
#define RAH1 0x04 /* Receive Address High 1 */
#define RAH2 0x05 /* Receive Address High 2 */
#define RAL1 0x06 /* Receive Address Low 1 */
#define RAL2 0x07 /* Receive Address Low 2 */
#define IPC 0x08 /* Interrupt Port Configuration */
#define CCR1 0x09 /* Common Configuration Reg 1 */
#define CCR3 0x0A /* Common Configuration Reg 3 */
#define PRE 0x0B /* Preamble Reg */
#define RTR1 0x0C /* Receive Timeslot Reg 1 */
#define RTR2 0x0D /* Receive Timeslot Reg 2 */
#define RTR3 0x0E /* Receive Timeslot Reg 3 */
#define RTR4 0x0F /* Receive Timeslot Reg 4 */
#define TTR1 0x10 /* Transmit Timeslot Reg 1 */
#define TTR2 0x11 /* Transmit Timeslot Reg 2 */
#define TTR3 0x12 /* Transmit Timeslot Reg 3 */
#define TTR4 0x13 /* Transmit Timeslot Reg 4 */
#define IMR0 0x14 /* Interrupt Mask Reg 0 */
#define IMR1 0x15 /* Interrupt Mask Reg 1 */
#define IMR2 0x16 /* Interrupt Mask Reg 2 */
#define IMR3 0x17 /* Interrupt Mask Reg 3 */
#define IMR4 0x18 /* Interrupt Mask Reg 4 */
#define IMR5 0x19 /* Interrupt Mask Reg 5 */
#define FMR0 0x1A /* Framer Mode Reigster 0 */
#define FMR1 0x1B /* Framer Mode Reigster 1 */
#define FMR2 0x1C /* Framer Mode Reigster 2 */
#define LOOP 0x1D /* Channel Loop Back */
#define XSW 0x1E /* Transmit Service Word */
#define FMR4 0x1E /* Framer Mode Reg 4 */
#define XSP 0x1F /* Transmit Spare Bits */
#define FMR5 0x1F /* Framer Mode Reg 5 */
#define XC0 0x20 /* Transmit Control 0 */
#define XC1 0x21 /* Transmit Control 1 */
#define RC0 0x22 /* Receive Control 0 */
#define RC1 0x23 /* Receive Control 1 */
#define XPM0 0x24 /* Transmit Pulse Mask 0 */
#define XPM1 0x25 /* Transmit Pulse Mask 1 */
#define XPM2 0x26 /* Transmit Pulse Mask 2 */
#define TSWM 0x27 /* Transparent Service Word Mask */
#define TEST1 0x28 /* Manuf. Test Reg 1 */
#define IDLE 0x29 /* Idle Channel Code */
#define XSA4 0x2A /* Transmit SA4 Bit Reg */
#define XDL1 0x2A /* Transmit DL-Bit Reg 2 */
#define XSA5 0x2B /* Transmit SA4 Bit Reg */
#define XDL2 0x2B /* Transmit DL-Bit Reg 2 */
#define XSA6 0x2C /* Transmit SA4 Bit Reg */
#define XDL3 0x2C /* Transmit DL-Bit Reg 2 */
#define XSA7 0x2D /* Transmit SA4 Bit Reg */
#define CCB1 0x2D /* Clear Channel Reg 1 */
#define XSA8 0x2E /* Transmit SA4 Bit Reg */
#define CCB2 0x2E /* Clear Channel Reg 2 */
#define FMR3 0x2F /* Framer Mode Reg. 3 */
#define CCB3 0x2F /* Clear Channel Reg 3 */
#define ICB1 0x30 /* Idle Channel Reg 1 */
#define ICB2 0x31 /* Idle Channel Reg 2 */
#define ICB3 0x32 /* Idle Channel Reg 3 */
#define ICB4 0x33 /* Idle Channel Reg 4 */
#define LIM0 0x34 /* Line Interface Mode 0 */
#define LIM1 0x35 /* Line Interface Mode 1 */
#define PCDR 0x36 /* Pulse Count Detection */
#define PCRR 0x37 /* Pulse Count Recovery */
#define LIM2 0x38 /* Line Interface Mode Reg 2 */
#define LCR1 0x39 /* Loop Code Reg 1 */
#define LCR2 0x3A /* Loop Code Reg 2 */
#define LCR3 0x3B /* Loop Code Reg 3 */
#define SIC1 0x3C /* System Interface Control 1 */
/* Read-only Registers (E1/T1 control mode read registers) */
#define RFIFOH 0x00 /* Receive FIFO */
#define RFIFOL 0x01 /* Receive FIFO */
#define FRS0 0x4C /* Framer Receive Status 0 */
#define FRS1 0x4D /* Framer Receive Status 1 */
#define RSW 0x4E /* Receive Service Word */
#define FRS2 0x4E /* Framer Receive Status 2 */
#define RSP 0x4F /* Receive Spare Bits */
#define FRS3 0x4F /* Framer Receive Status 3 */
#define FECL 0x50 /* Framing Error Counter */
#define FECH 0x51 /* Framing Error Counter */
#define CVCL 0x52 /* Code Violation Counter */
#define CVCH 0x53 /* Code Violation Counter */
#define CECL 0x54 /* CRC Error Counter 1 */
#define CECH 0x55 /* CRC Error Counter 1 */
#define EBCL 0x56 /* E-Bit Error Counter */
#define EBCH 0x57 /* E-Bit Error Counter */
#define BECL 0x58 /* Bit Error Counter Low */
#define BECH 0x59 /* Bit Error Counter Low */
#define CEC3 0x5A /* CRC Error Counter 3 (16-bit) */
#define RSA4 0x5C /* Receive SA4 Bit Reg */
#define RDL1 0x5C /* Receive DL-Bit Reg 1 */
#define RSA5 0x5D /* Receive SA5 Bit Reg */
#define RDL2 0x5D /* Receive DL-Bit Reg 2 */
#define RSA6 0x5E /* Receive SA6 Bit Reg */
#define RDL3 0x5E /* Receive DL-Bit Reg 3 */
#define RSA7 0x5F /* Receive SA7 Bit Reg */
#define RSA8 0x60 /* Receive SA8 Bit Reg */
#define RSA6S 0x61 /* Receive SA6 Bit Status Reg */
#define TSR0 0x62 /* Manuf. Test Reg 0 */
#define TSR1 0x63 /* Manuf. Test Reg 1 */
#define SIS 0x64 /* Signaling Status Reg */
#define RSIS 0x65 /* Receive Signaling Status Reg */
#define RBCL 0x66 /* Receive Byte Control */
#define RBCH 0x67 /* Receive Byte Control */
#define FISR0 0x68 /* Interrupt Status Reg 0 */
#define FISR1 0x69 /* Interrupt Status Reg 1 */
#define FISR2 0x6A /* Interrupt Status Reg 2 */
#define FISR3 0x6B /* Interrupt Status Reg 3 */
#define GIS 0x6E /* Global Interrupt Status */
#define VSTR 0x6F /* Version Status */
#define RS(nbr) (0x70 + (nbr)) /* Rx CAS Reg (0 to 15) */
#endif /* _FALC_LH_H */
/*
* pc300.h Cyclades-PC300(tm) Kernel API Definitions.
*
* Author: Ivan Passos <ivan@cyclades.com>
*
* Copyright: (c) 1999-2002 Cyclades Corp.
*
* 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 of the License, or (at your option) any later version.
*
* $Log: pc300.h,v $
* Revision 3.12 2002/03/07 14:17:09 henrique
* License data fixed
*
* Revision 3.11 2002/01/28 21:09:39 daniela
* Included ';' after pc300hw.bus.
*
* Revision 3.10 2002/01/17 17:58:52 ivan
* Support for PC300-TE/M (PMC).
*
* Revision 3.9 2001/09/28 13:30:53 daniela
* Renamed dma_start routine to rx_dma_start.
*
* Revision 3.8 2001/09/24 13:03:45 daniela
* Fixed BOF interrupt treatment. Created dma_start routine.
*
* Revision 3.7 2001/08/10 17:19:58 daniela
* Fixed IOCTLs defines.
*
* Revision 3.6 2001/07/18 19:24:42 daniela
* Included kernel version.
*
* Revision 3.5 2001/07/05 18:38:08 daniela
* DMA transmission bug fix.
*
* Revision 3.4 2001/06/26 17:10:40 daniela
* New configuration parameters (line code, CRC calculation and clock).
*
* Revision 3.3 2001/06/22 13:13:02 regina
* MLPPP implementation
*
* Revision 3.2 2001/06/18 17:56:09 daniela
* Increased DEF_MTU and TX_QUEUE_LEN.
*
* Revision 3.1 2001/06/15 12:41:10 regina
* upping major version number
*
* Revision 1.1.1.1 2001/06/13 20:25:06 daniela
* PC300 initial CVS version (3.4.0-pre1)
*
* Revision 2.3 2001/03/05 daniela
* Created struct pc300conf, to provide the hardware information to pc300util.
* Inclusion of 'alloc_ramsize' field on structure 'pc300hw'.
*
* Revision 2.2 2000/12/22 daniela
* Structures and defines to support pc300util: statistics, status,
* loopback tests, trace.
*
* Revision 2.1 2000/09/28 ivan
* Inclusion of 'iophys' and 'iosize' fields on structure 'pc300hw', to
* allow release of I/O region at module unload.
* Changed location of include files.
*
* Revision 2.0 2000/03/27 ivan
* Added support for the PC300/TE cards.
*
* Revision 1.1 2000/01/31 ivan
* Replaced 'pc300[drv|sca].h' former PC300 driver include files.
*
* Revision 1.0 1999/12/16 ivan
* First official release.
* Inclusion of 'nchan' field on structure 'pc300hw', to allow variable
* number of ports per card.
* Inclusion of 'if_ptr' field on structure 'pc300dev'.
*
* Revision 0.6 1999/11/17 ivan
* Changed X.25-specific function names to comply with adopted convention.
*
* Revision 0.5 1999/11/16 Daniela Squassoni
* X.25 support.
*
* Revision 0.4 1999/11/15 ivan
* Inclusion of 'clock' field on structure 'pc300hw'.
*
* Revision 0.3 1999/11/10 ivan
* IOCTL name changing.
* Inclusion of driver function prototypes.
*
* Revision 0.2 1999/11/03 ivan
* Inclusion of 'tx_skb' and union 'ifu' on structure 'pc300dev'.
*
* Revision 0.1 1999/01/15 ivan
* Initial version.
*
*/
#ifndef _PC300_H
#define _PC300_H
#include <linux/hdlc.h>
#include "hd64572.h"
#include "pc300-falc-lh.h"
#ifndef CY_TYPES
#define CY_TYPES
#if defined(__alpha__)
typedef unsigned long ucdouble; /* 64 bits, unsigned */
typedef unsigned int uclong; /* 32 bits, unsigned */
#else
typedef unsigned long uclong; /* 32 bits, unsigned */
#endif
typedef unsigned short ucshort; /* 16 bits, unsigned */
typedef unsigned char ucchar; /* 8 bits, unsigned */
#endif /* CY_TYPES */
#define PC300_PROTO_MLPPP 1
#define PC300_KERNEL "2.4.x" /* Kernel supported by this driver */
#define PC300_DEVNAME "hdlc" /* Dev. name base (for hdlc0, hdlc1, etc.) */
#define PC300_MAXINDEX 100 /* Max dev. name index (the '0' in hdlc0) */
#define PC300_MAXCARDS 4 /* Max number of cards per system */
#define PC300_MAXCHAN 2 /* Number of channels per card */
#define PC300_PLX_WIN 0x80 /* PLX control window size (128b) */
#define PC300_RAMSIZE 0x40000 /* RAM window size (256Kb) */
#define PC300_SCASIZE 0x400 /* SCA window size (1Kb) */
#define PC300_FALCSIZE 0x400 /* FALC window size (1Kb) */
#define PC300_OSC_CLOCK 24576000
#define PC300_PCI_CLOCK 33000000
#define BD_DEF_LEN 0x0800 /* DMA buffer length (2KB) */
#define DMA_TX_MEMSZ 0x8000 /* Total DMA Tx memory size (32KB/ch) */
#define DMA_RX_MEMSZ 0x10000 /* Total DMA Rx memory size (64KB/ch) */
#define N_DMA_TX_BUF (DMA_TX_MEMSZ / BD_DEF_LEN) /* DMA Tx buffers */
#define N_DMA_RX_BUF (DMA_RX_MEMSZ / BD_DEF_LEN) /* DMA Rx buffers */
/* DMA Buffer Offsets */
#define DMA_TX_BASE ((N_DMA_TX_BUF + N_DMA_RX_BUF) * \
PC300_MAXCHAN * sizeof(pcsca_bd_t))
#define DMA_RX_BASE (DMA_TX_BASE + PC300_MAXCHAN*DMA_TX_MEMSZ)
/* DMA Descriptor Offsets */
#define DMA_TX_BD_BASE 0x0000
#define DMA_RX_BD_BASE (DMA_TX_BD_BASE + ((PC300_MAXCHAN*DMA_TX_MEMSZ / \
BD_DEF_LEN) * sizeof(pcsca_bd_t)))
/* DMA Descriptor Macros */
#define TX_BD_ADDR(chan, n) (DMA_TX_BD_BASE + \
((N_DMA_TX_BUF*chan) + n) * sizeof(pcsca_bd_t))
#define RX_BD_ADDR(chan, n) (DMA_RX_BD_BASE + \
((N_DMA_RX_BUF*chan) + n) * sizeof(pcsca_bd_t))
/* Macro to access the FALC registers (TE only) */
#define F_REG(reg, chan) (0x200*(chan) + ((reg)<<2))
/***************************************
* Memory access functions/macros *
* (required to support Alpha systems) *
***************************************/
#ifdef __KERNEL__
#define cpc_writeb(port,val) {writeb((ucchar)(val),(ulong)(port)); mb();}
#define cpc_writew(port,val) {writew((ushort)(val),(ulong)(port)); mb();}
#define cpc_writel(port,val) {writel((uclong)(val),(ulong)(port)); mb();}
#define cpc_readb(port) readb(port)
#define cpc_readw(port) readw(port)
#define cpc_readl(port) readl(port)
#else /* __KERNEL__ */
#define cpc_writeb(port,val) (*(volatile ucchar *)(port) = (ucchar)(val))
#define cpc_writew(port,val) (*(volatile ucshort *)(port) = (ucshort)(val))
#define cpc_writel(port,val) (*(volatile uclong *)(port) = (uclong)(val))
#define cpc_readb(port) (*(volatile ucchar *)(port))
#define cpc_readw(port) (*(volatile ucshort *)(port))
#define cpc_readl(port) (*(volatile uclong *)(port))
#endif /* __KERNEL__ */
/****** Data Structures *****************************************************/
/*
* RUNTIME_9050 - PLX PCI9050-1 local configuration and shared runtime
* registers. This structure can be used to access the 9050 registers
* (memory mapped).
*/
struct RUNTIME_9050 {
uclong loc_addr_range[4]; /* 00-0Ch : Local Address Ranges */
uclong loc_rom_range; /* 10h : Local ROM Range */
uclong loc_addr_base[4]; /* 14-20h : Local Address Base Addrs */
uclong loc_rom_base; /* 24h : Local ROM Base */
uclong loc_bus_descr[4]; /* 28-34h : Local Bus Descriptors */
uclong rom_bus_descr; /* 38h : ROM Bus Descriptor */
uclong cs_base[4]; /* 3C-48h : Chip Select Base Addrs */
uclong intr_ctrl_stat; /* 4Ch : Interrupt Control/Status */
uclong init_ctrl; /* 50h : EEPROM ctrl, Init Ctrl, etc */
};
#define PLX_9050_LINT1_ENABLE 0x01
#define PLX_9050_LINT1_POL 0x02
#define PLX_9050_LINT1_STATUS 0x04
#define PLX_9050_LINT2_ENABLE 0x08
#define PLX_9050_LINT2_POL 0x10
#define PLX_9050_LINT2_STATUS 0x20
#define PLX_9050_INTR_ENABLE 0x40
#define PLX_9050_SW_INTR 0x80
/* Masks to access the init_ctrl PLX register */
#define PC300_CLKSEL_MASK (0x00000004UL)
#define PC300_CHMEDIA_MASK(chan) (0x00000020UL<<(chan*3))
#define PC300_CTYPE_MASK (0x00000800UL)
/* CPLD Registers (base addr = falcbase, TE only) */
/* CPLD v. 0 */
#define CPLD_REG1 0x140 /* Chip resets, DCD/CTS status */
#define CPLD_REG2 0x144 /* Clock enable , LED control */
/* CPLD v. 2 or higher */
#define CPLD_V2_REG1 0x100 /* Chip resets, DCD/CTS status */
#define CPLD_V2_REG2 0x104 /* Clock enable , LED control */
#define CPLD_ID_REG 0x108 /* CPLD version */
/* CPLD Register bit description: for the FALC bits, they should always be
set based on the channel (use (bit<<(2*ch)) to access the correct bit for
that channel) */
#define CPLD_REG1_FALC_RESET 0x01
#define CPLD_REG1_SCA_RESET 0x02
#define CPLD_REG1_GLOBAL_CLK 0x08
#define CPLD_REG1_FALC_DCD 0x10
#define CPLD_REG1_FALC_CTS 0x20
#define CPLD_REG2_FALC_TX_CLK 0x01
#define CPLD_REG2_FALC_RX_CLK 0x02
#define CPLD_REG2_FALC_LED1 0x10
#define CPLD_REG2_FALC_LED2 0x20
/* Structure with FALC-related fields (TE only) */
#define PC300_FALC_MAXLOOP 0x0000ffff /* for falc_issue_cmd() */
typedef struct falc {
ucchar sync; /* If true FALC is synchronized */
ucchar active; /* if TRUE then already active */
ucchar loop_active; /* if TRUE a line loopback UP was received */
ucchar loop_gen; /* if TRUE a line loopback UP was issued */
ucchar num_channels;
ucchar offset; /* 1 for T1, 0 for E1 */
ucchar full_bandwidth;
ucchar xmb_cause;
ucchar multiframe_mode;
/* Statistics */
ucshort pden; /* Pulse Density violation count */
ucshort los; /* Loss of Signal count */
ucshort losr; /* Loss of Signal recovery count */
ucshort lfa; /* Loss of frame alignment count */
ucshort farec; /* Frame Alignment Recovery count */
ucshort lmfa; /* Loss of multiframe alignment count */
ucshort ais; /* Remote Alarm indication Signal count */
ucshort sec; /* One-second timer */
ucshort es; /* Errored second */
ucshort rai; /* remote alarm received */
ucshort bec;
ucshort fec;
ucshort cvc;
ucshort cec;
ucshort ebc;
/* Status */
ucchar red_alarm;
ucchar blue_alarm;
ucchar loss_fa;
ucchar yellow_alarm;
ucchar loss_mfa;
ucchar prbs;
} falc_t;
typedef struct falc_status {
ucchar sync; /* If true FALC is synchronized */
ucchar red_alarm;
ucchar blue_alarm;
ucchar loss_fa;
ucchar yellow_alarm;
ucchar loss_mfa;
ucchar prbs;
} falc_status_t;
typedef struct rsv_x21_status {
ucchar dcd;
ucchar dsr;
ucchar cts;
ucchar rts;
ucchar dtr;
} rsv_x21_status_t;
typedef struct pc300stats {
int hw_type;
uclong line_on;
uclong line_off;
struct net_device_stats gen_stats;
falc_t te_stats;
} pc300stats_t;
typedef struct pc300status {
int hw_type;
rsv_x21_status_t gen_status;
falc_status_t te_status;
} pc300status_t;
typedef struct pc300loopback {
char loop_type;
char loop_on;
} pc300loopback_t;
typedef struct pc300patterntst {
char patrntst_on; /* 0 - off; 1 - on; 2 - read num_errors */
ucshort num_errors;
} pc300patterntst_t;
typedef struct pc300dev {
void *if_ptr; /* General purpose pointer */
struct pc300ch *chan;
ucchar trace_on;
uclong line_on; /* DCD(X.21, RSV) / sync(TE) change counters */
uclong line_off;
#ifdef __KERNEL__
char name[16];
hdlc_device *hdlc;
void *private;
struct sk_buff *tx_skb;
union { /* This union has all the protocol-specific structures */
struct ppp_device pppdev;
}ifu;
#ifdef CONFIG_PC300_MLPPP
void *cpc_tty; /* information to PC300 TTY driver */
#endif
#endif /* __KERNEL__ */
}pc300dev_t;
typedef struct pc300hw {
int type; /* RSV, X21, etc. */
int bus; /* Bus (PCI, PMC, etc.) */
int nchan; /* number of channels */
int irq; /* interrupt request level */
uclong clock; /* Board clock */
ucchar cpld_id; /* CPLD ID (TE only) */
ucshort cpld_reg1; /* CPLD reg 1 (TE only) */
ucshort cpld_reg2; /* CPLD reg 2 (TE only) */
ucshort gpioc_reg; /* PLX GPIOC reg */
ucshort intctl_reg; /* PLX Int Ctrl/Status reg */
uclong iophys; /* PLX registers I/O base */
uclong iosize; /* PLX registers I/O size */
uclong plxphys; /* PLX registers MMIO base (physical) */
uclong plxbase; /* PLX registers MMIO base (virtual) */
uclong plxsize; /* PLX registers MMIO size */
uclong scaphys; /* SCA registers MMIO base (physical) */
uclong scabase; /* SCA registers MMIO base (virtual) */
uclong scasize; /* SCA registers MMIO size */
uclong ramphys; /* On-board RAM MMIO base (physical) */
uclong rambase; /* On-board RAM MMIO base (virtual) */
uclong alloc_ramsize; /* RAM MMIO size allocated by the PCI bridge */
uclong ramsize; /* On-board RAM MMIO size */
uclong falcphys; /* FALC registers MMIO base (physical) */
uclong falcbase; /* FALC registers MMIO base (virtual) */
uclong falcsize; /* FALC registers MMIO size */
} pc300hw_t;
typedef struct pc300chconf {
sync_serial_settings phys_settings; /* Clock type/rate (in bps),
loopback mode */
raw_hdlc_proto proto_settings; /* Encoding, parity (CRC) */
uclong media; /* HW media (RS232, V.35, etc.) */
uclong proto; /* Protocol (PPP, X.25, etc.) */
ucchar monitor; /* Monitor mode (0 = off, !0 = on) */
/* TE-specific parameters */
ucchar lcode; /* Line Code (AMI, B8ZS, etc.) */
ucchar fr_mode; /* Frame Mode (ESF, D4, etc.) */
ucchar lbo; /* Line Build Out */
ucchar rx_sens; /* Rx Sensitivity (long- or short-haul) */
uclong tslot_bitmap; /* bit[i]=1 => timeslot _i_ is active */
} pc300chconf_t;
typedef struct pc300ch {
struct pc300 *card;
int channel;
pc300dev_t d;
pc300chconf_t conf;
ucchar tx_first_bd; /* First TX DMA block descr. w/ data */
ucchar tx_next_bd; /* Next free TX DMA block descriptor */
ucchar rx_first_bd; /* First free RX DMA block descriptor */
ucchar rx_last_bd; /* Last free RX DMA block descriptor */
ucchar nfree_tx_bd; /* Number of free TX DMA block descriptors */
falc_t falc; /* FALC structure (TE only) */
} pc300ch_t;
typedef struct pc300 {
pc300hw_t hw; /* hardware config. */
pc300ch_t chan[PC300_MAXCHAN];
#ifdef __KERNEL__
spinlock_t card_lock;
#endif /* __KERNEL__ */
} pc300_t;
typedef struct pc300conf {
pc300hw_t hw;
pc300chconf_t conf;
} pc300conf_t;
/* DEV ioctl() commands */
#define N_SPPP_IOCTLS 2
enum pc300_ioctl_cmds {
SIOCCPCRESERVED = (SIOCDEVPRIVATE + N_SPPP_IOCTLS),
SIOCGPC300CONF,
SIOCSPC300CONF,
SIOCGPC300STATUS,
SIOCGPC300FALCSTATUS,
SIOCGPC300UTILSTATS,
SIOCGPC300UTILSTATUS,
SIOCSPC300TRACE,
SIOCSPC300LOOPBACK,
SIOCSPC300PATTERNTEST,
};
/* Loopback types - PC300/TE boards */
enum pc300_loopback_cmds {
PC300LOCLOOP = 1,
PC300REMLOOP,
PC300PAYLOADLOOP,
PC300GENLOOPUP,
PC300GENLOOPDOWN,
};
/* Control Constant Definitions */
#define PC300_RSV 0x01
#define PC300_X21 0x02
#define PC300_TE 0x03
#define PC300_PCI 0x00
#define PC300_PMC 0x01
#define PC300_LC_AMI 0x01
#define PC300_LC_B8ZS 0x02
#define PC300_LC_NRZ 0x03
#define PC300_LC_HDB3 0x04
/* Framing (T1) */
#define PC300_FR_ESF 0x01
#define PC300_FR_D4 0x02
#define PC300_FR_ESF_JAPAN 0x03
/* Framing (E1) */
#define PC300_FR_MF_CRC4 0x04
#define PC300_FR_MF_NON_CRC4 0x05
#define PC300_FR_UNFRAMED 0x06
#define PC300_LBO_0_DB 0x00
#define PC300_LBO_7_5_DB 0x01
#define PC300_LBO_15_DB 0x02
#define PC300_LBO_22_5_DB 0x03
#define PC300_RX_SENS_SH 0x01
#define PC300_RX_SENS_LH 0x02
#define PC300_TX_TIMEOUT (2*HZ)
#define PC300_TX_QUEUE_LEN 100
#define PC300_DEF_MTU 1600
#ifdef __KERNEL__
/* Function Prototypes */
int dma_buf_write(pc300_t *, int, ucchar *, int);
int dma_buf_read(pc300_t *, int, struct sk_buff *);
void tx_dma_start(pc300_t *, int);
void rx_dma_start(pc300_t *, int);
void tx_dma_stop(pc300_t *, int);
void rx_dma_stop(pc300_t *, int);
int cpc_queue_xmit(struct sk_buff *, struct net_device *);
void cpc_net_rx(hdlc_device *);
void cpc_sca_status(pc300_t *, int);
int cpc_change_mtu(struct net_device *, int);
int cpc_ioctl(struct net_device *, struct ifreq *, int);
int ch_config(pc300dev_t *);
int rx_config(pc300dev_t *);
int tx_config(pc300dev_t *);
void cpc_opench(pc300dev_t *);
void cpc_closech(pc300dev_t *);
int cpc_open(struct net_device *dev);
int cpc_close(struct net_device *dev);
int cpc_set_media(hdlc_device *, int);
#endif /* __KERNEL__ */
#endif /* _PC300_H */
This source diff could not be displayed because it is too large. You can view the blob instead.
/*
* pc300_tty.c Cyclades-PC300(tm) TTY Driver.
*
* Author: Regina Kodato <reginak@cyclades.com>
*
* Copyright: (c) 1999-2002 Cyclades Corp.
*
* 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 of the License, or (at your option) any later version.
*
* $Log: pc300_tty.c,v $
* Revision 3.7 2002/03/07 14:17:09 henrique
* License data fixed
*
* Revision 3.6 2001/12/10 12:29:42 regina
* Fix the MLPPP bug
*
* Revision 3.5 2001/10/31 11:20:05 regina
* automatic pppd starts
*
* Revision 3.4 2001/08/06 12:01:51 regina
* problem in DSR_DE bit
*
* Revision 3.3 2001/07/26 22:58:41 regina
* update EDA value
*
* Revision 3.2 2001/07/12 13:11:20 regina
* bug fix - DCD-OFF in pc300 tty driver
*
* DMA transmission bug fix
*
* Revision 3.1 2001/06/22 13:13:02 regina
* MLPPP implementation
*
*/
#include <linux/module.h>
#include <linux/version.h>
#include <linux/kernel.h>
#include <linux/pci.h>
#include <linux/errno.h>
#include <linux/string.h>
#include <linux/sched.h>
#include <linux/init.h>
#include <linux/netdevice.h>
#include <linux/spinlock.h>
#include <linux/malloc.h>
#include <linux/if.h>
#include <asm/io.h>
#include <asm/uaccess.h>
#include <linux/skbuff.h>
/* TTY includes */
#include <linux/tty.h>
#include <linux/tty_flip.h>
#include <linux/serial.h>
#include "pc300.h"
/* defines and macros */
/* TTY Global definitions */
#define CPC_TTY_NPORTS 8 /* maximum number of the sync tty connections */
#define CPC_TTY_MAJOR CYCLADES_MAJOR
#define CPC_TTY_MINOR_START 240 /* minor of the first PC300 interface */
#define CPC_TTY_MAX_MTU 2000
/* tty interface state */
#define CPC_TTY_ST_IDLE 0
#define CPC_TTY_ST_INIT 1 /* configured with MLPPP and up */
#define CPC_TTY_ST_OPEN 2 /* opened by application */
#define CPC_TTY_LOCK(card,flags)\
do {\
spin_lock_irqsave(&card->card_lock, flags); \
} while (0)
#define CPC_TTY_UNLOCK(card,flags) \
do {\
spin_unlock_irqrestore(&card->card_lock, flags); \
} while (0)
//#define CPC_TTY_DBG(format,a...) printk(format,##a)
#define CPC_TTY_DBG(format,a...)
/* data structures */
typedef struct _st_cpc_rx_buf {
struct _st_cpc_rx_buf *next;
int size;
unsigned char data[1];
} st_cpc_rx_buf;
struct st_cpc_rx_list {
st_cpc_rx_buf *first;
st_cpc_rx_buf *last;
};
typedef struct _st_cpc_tty_area {
int state; /* state of the TTY interface */
int num_open;
unsigned int tty_minor; /* minor this interface */
volatile struct st_cpc_rx_list buf_rx; /* ptr. to reception buffer */
unsigned char* buf_tx; /* ptr. to transmission buffer */
pc300dev_t* pc300dev; /* ptr. to info struct in PC300 driver */
unsigned char name[20]; /* interf. name + "-tty" */
struct tty_struct *tty;
struct tq_struct tty_tx_task_queue; /* tx task - tx interrupt */
struct tq_struct tty_rx_task_queue; /* rx task - rx interrupt */
} st_cpc_tty_area;
/* TTY data structures */
static struct tty_struct *cpc_tty_serial_table[CPC_TTY_NPORTS];
static struct termios *cpc_tty_serial_termios[CPC_TTY_NPORTS];
static struct termios *cpc_tty_serial_termios_locked[CPC_TTY_NPORTS];
static struct tty_driver serial_drv, callout_drv;
/* local variables */
st_cpc_tty_area cpc_tty_area[CPC_TTY_NPORTS];
int cpc_tty_cnt=0; /* number of intrfaces configured with MLPPP */
int cpc_tty_refcount;
int cpc_tty_unreg_flag = 0;
/* TTY functions prototype */
static int cpc_tty_open(struct tty_struct *tty, struct file *flip);
static void cpc_tty_close(struct tty_struct *tty, struct file *flip);
static int cpc_tty_write(struct tty_struct *tty, int from_user,
const unsigned char *buf, int count);
static int cpc_tty_write_room(struct tty_struct *tty);
static int cpc_tty_chars_in_buffer(struct tty_struct *tty);
static int cpc_tty_ioctl(struct tty_struct *tty, struct file *file,
unsigned int cmd, unsigned long arg);
static void cpc_tty_flush_buffer(struct tty_struct *tty);
static void cpc_tty_hangup(struct tty_struct *tty);
static void cpc_tty_rx_task(void *data);
static void cpc_tty_tx_task(void *data);
static int cpc_tty_send_to_card(pc300dev_t *dev,void *buf, int len);
static void cpc_tty_trace(pc300dev_t *dev, char* buf, int len, char rxtx);
static void cpc_tty_dtr_off(pc300dev_t *pc300dev);
static void cpc_tty_dtr_on(pc300dev_t *pc300dev);
/* functions called by PC300 driver */
void cpc_tty_init(pc300dev_t *dev);
void cpc_tty_unregister_service(pc300dev_t *pc300dev);
void cpc_tty_receive(pc300dev_t *pc300dev);
void cpc_tty_trigger_poll(pc300dev_t *pc300dev);
void cpc_tty_reset_var(void);
/*
* PC300 TTY clear DTR signal
*/
static void cpc_tty_dtr_off(pc300dev_t *pc300dev)
{
pc300ch_t *pc300chan = (pc300ch_t *)pc300dev->chan;
pc300_t *card = (pc300_t *) pc300chan->card;
int ch = pc300chan->channel;
unsigned long flags;
CPC_TTY_DBG("%s-tty: Clear signal DTR\n",
((struct net_device*)(pc300dev->hdlc))->name);
CPC_TTY_LOCK(card, flags);
cpc_writeb(card->hw.scabase + M_REG(CTL,ch),
cpc_readb(card->hw.scabase+M_REG(CTL,ch))& CTL_DTR);
CPC_TTY_UNLOCK(card,flags);
}
/*
* PC300 TTY set DTR signal to ON
*/
static void cpc_tty_dtr_on(pc300dev_t *pc300dev)
{
pc300ch_t *pc300chan = (pc300ch_t *)pc300dev->chan;
pc300_t *card = (pc300_t *) pc300chan->card;
int ch = pc300chan->channel;
unsigned long flags;
CPC_TTY_DBG("%s-tty: Set signal DTR\n",
((struct net_device*)(pc300dev->hdlc))->name);
CPC_TTY_LOCK(card, flags);
cpc_writeb(card->hw.scabase + M_REG(CTL,ch),
cpc_readb(card->hw.scabase+M_REG(CTL,ch))& ~CTL_DTR);
CPC_TTY_UNLOCK(card,flags);
}
/*
* PC300 TTY initialization routine
*
* This routine is called by the PC300 driver during board configuration
* (ioctl=SIOCSP300CONF). At this point the adapter is completely
* initialized.
* o verify kernel version (only 2.4.x)
* o register TTY driver
* o init cpc_tty_area struct
*/
void cpc_tty_init(pc300dev_t *pc300dev)
{
int port, aux;
st_cpc_tty_area * cpc_tty;
if (LINUX_VERSION_CODE < KERNEL_VERSION(2,4,0)) {
printk("%s-tty: Error: TTY driver is supported on 2.4.X kernel!\n",
((struct net_device*)(pc300dev->hdlc))->name);
return;
}
/* hdlcX - X=interface number */
port = ((struct net_device*)(pc300dev->hdlc))->name[4] - '0';
if (port >= CPC_TTY_NPORTS) {
printk("%s-tty: invalid interface selected (0-%i): %i",
((struct net_device*)(pc300dev->hdlc))->name,
CPC_TTY_NPORTS-1,port);
return;
}
if (cpc_tty_cnt == 0) { /* first TTY connection -> register driver */
CPC_TTY_DBG("%s-tty: driver init, major:%i, minor range:%i=%i\n",
((struct net_device*)(pc300dev->hdlc))->name,
CPC_TTY_MAJOR, CPC_TTY_MINOR_START,
CPC_TTY_MINOR_START+CPC_TTY_NPORTS);
/* initialize tty driver struct */
memset(&serial_drv,0,sizeof(struct tty_driver));
serial_drv.magic = TTY_DRIVER_MAGIC;
serial_drv.driver_name = "pc300_tty";
serial_drv.name = "ttyCP";
serial_drv.major = CPC_TTY_MAJOR;
serial_drv.minor_start = CPC_TTY_MINOR_START;
serial_drv.num = CPC_TTY_NPORTS;
serial_drv.type = TTY_DRIVER_TYPE_SERIAL;
serial_drv.subtype = SERIAL_TYPE_NORMAL;
serial_drv.init_termios = tty_std_termios;
serial_drv.init_termios.c_cflag = B9600|CS8|CREAD|HUPCL|CLOCAL;
serial_drv.flags = TTY_DRIVER_REAL_RAW;
serial_drv.refcount = &cpc_tty_refcount;
/* tty data structures */
serial_drv.table = cpc_tty_serial_table;
serial_drv.termios = cpc_tty_serial_termios;
serial_drv.termios_locked = cpc_tty_serial_termios_locked;
/* interface routines from the upper tty layer to the tty driver */
serial_drv.open = cpc_tty_open;
serial_drv.close = cpc_tty_close;
serial_drv.write = cpc_tty_write;
serial_drv.write_room = cpc_tty_write_room;
serial_drv.chars_in_buffer = cpc_tty_chars_in_buffer;
serial_drv.ioctl = cpc_tty_ioctl;
serial_drv.flush_buffer = cpc_tty_flush_buffer;
serial_drv.hangup = cpc_tty_hangup;
/* the callout device is just like normal device except for major */
/* number and the subtype code */
callout_drv = serial_drv;
callout_drv.name = "cucp";
callout_drv.major = CPC_TTY_MAJOR + 1;
callout_drv.subtype = SERIAL_TYPE_CALLOUT;
callout_drv.read_proc = 0;
callout_drv.proc_entry = 0;
/* register the TTY driver */
if (tty_register_driver(&serial_drv)) {
printk("%s-tty: Failed to register serial driver! ",
((struct net_device*)(pc300dev->hdlc))->name);
return;
}
if (tty_register_driver(&callout_drv)) {
CPC_TTY_DBG("%s-tty: Failed to register callout driver! ",
((struct net_device*)(pc300dev->hdlc))->name);
return;
}
memset((void *)cpc_tty_area, 0,
sizeof(st_cpc_tty_area) * CPC_TTY_NPORTS);
}
cpc_tty = &cpc_tty_area[port];
if (cpc_tty->state != CPC_TTY_ST_IDLE) {
CPC_TTY_DBG("%s-tty: TTY port %i, already in use.\n",
((struct net_device*)(pc300dev->hdlc))->name,port);
return;
}
cpc_tty_cnt++;
cpc_tty->state = CPC_TTY_ST_INIT;
cpc_tty->num_open= 0;
cpc_tty->tty_minor = port + CPC_TTY_MINOR_START;
cpc_tty->pc300dev = pc300dev;
cpc_tty->tty_tx_task_queue.routine = cpc_tty_tx_task;
cpc_tty->tty_tx_task_queue.data = (void *)cpc_tty;
cpc_tty->tty_rx_task_queue.routine = cpc_tty_rx_task;
cpc_tty->tty_rx_task_queue.data = (void *) port;
cpc_tty->buf_rx.first = cpc_tty->buf_rx.last = 0;
pc300dev->cpc_tty = (void *)cpc_tty;
aux = strlen(((struct net_device*)(pc300dev->hdlc))->name);
memcpy(cpc_tty->name,((struct net_device*)(pc300dev->hdlc))->name,aux);
memcpy(&cpc_tty->name[aux], "-tty", 5);
cpc_open((struct net_device *)pc300dev->hdlc);
cpc_tty_dtr_off(pc300dev);
CPC_TTY_DBG("%s: Initializing TTY Sync Driver, tty major#%d minor#%i\n",
cpc_tty->name,CPC_TTY_MAJOR,cpc_tty->tty_minor);
return;
}
/*
* PC300 TTY OPEN routine
*
* This routine is called by the tty driver to open the interface
* o verify minor
* o allocate buffer to Rx and Tx
*/
static int cpc_tty_open(struct tty_struct *tty, struct file *flip)
{
int port ;
st_cpc_tty_area *cpc_tty;
if (!tty) {
return -ENODEV;
}
port = minor(tty->device) - tty->driver.minor_start;
if ((port < 0) || (port >= CPC_TTY_NPORTS)){
CPC_TTY_DBG("pc300_tty: open invalid minor %i\n",MINOR(tty->device));
return -ENODEV;
}
cpc_tty = &cpc_tty_area[port];
if (cpc_tty->state == CPC_TTY_ST_IDLE){
CPC_TTY_DBG("%s: open - invalid interface, minor=%i\n",
cpc_tty->name, MINOR(tty->device));
return -ENODEV;
}
if (cpc_tty->num_open == 0) { /* first open of this tty */
if (!cpc_tty_area[port].buf_tx){
cpc_tty_area[port].buf_tx = kmalloc(CPC_TTY_MAX_MTU,GFP_KERNEL);
if (cpc_tty_area[port].buf_tx == 0){
CPC_TTY_DBG("%s: error in memory allocation\n",cpc_tty->name);
return -ENOMEM;
}
}
if (cpc_tty_area[port].buf_rx.first) {
unsigned char * aux;
while (cpc_tty_area[port].buf_rx.first) {
aux = (unsigned char *)cpc_tty_area[port].buf_rx.first;
cpc_tty_area[port].buf_rx.first = cpc_tty_area[port].buf_rx.first->next;
kfree(aux);
}
cpc_tty_area[port].buf_rx.first = NULL;
cpc_tty_area[port].buf_rx.last = NULL;
}
cpc_tty_area[port].state = CPC_TTY_ST_OPEN;
cpc_tty_area[port].tty = tty;
tty->driver_data = &cpc_tty_area[port];
cpc_tty_dtr_on(cpc_tty->pc300dev);
}
cpc_tty->num_open++;
CPC_TTY_DBG("%s: opening TTY driver\n", cpc_tty->name);
/* avisar driver PC300 */
return 0;
}
/*
* PC300 TTY CLOSE routine
*
* This routine is called by the tty driver to close the interface
* o call close channel in PC300 driver (cpc_closech)
* o free Rx and Tx buffers
*/
static void cpc_tty_close(struct tty_struct *tty, struct file *flip)
{
st_cpc_tty_area *cpc_tty;
unsigned long flags;
int res;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlx-tty: no TTY in close \n");
return;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty)|| (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n",cpc_tty->name);
return;
}
if (!cpc_tty->num_open) {
CPC_TTY_DBG("%s: TTY is closed\n",cpc_tty->name);
return;
}
if (--cpc_tty->num_open > 0) {
CPC_TTY_DBG("%s: TTY closed\n",cpc_tty->name);
return;
}
cpc_tty_dtr_off(cpc_tty->pc300dev);
CPC_TTY_LOCK(cpc_tty->pc300dev->chan->card, flags); /* lock irq */
cpc_tty->tty = NULL;
cpc_tty->state = CPC_TTY_ST_INIT;
CPC_TTY_UNLOCK(cpc_tty->pc300dev->chan->card, flags); /* unlock irq */
if (cpc_tty->buf_rx.first) {
unsigned char * aux;
while (cpc_tty->buf_rx.first) {
aux = (unsigned char *)cpc_tty->buf_rx.first;
cpc_tty->buf_rx.first = cpc_tty->buf_rx.first->next;
kfree(aux);
}
cpc_tty->buf_rx.first = NULL;
cpc_tty->buf_rx.last = NULL;
}
if (cpc_tty->buf_tx) {
kfree(cpc_tty->buf_tx);
cpc_tty->buf_tx = NULL;
}
CPC_TTY_DBG("%s: TTY closed\n",cpc_tty->name);
if (!cpc_tty_refcount && cpc_tty_unreg_flag) {
cpc_tty_unreg_flag = 0;
CPC_TTY_DBG("%s: unregister the tty driver\n", cpc_tty->name);
if ((res=tty_unregister_driver(&serial_drv))) {
CPC_TTY_DBG("%s: ERROR ->unregister the tty driver error=%d\n",
cpc_tty->name,res);
}
if ((res=tty_unregister_driver(&callout_drv))) {
CPC_TTY_DBG("%s: ERROR ->unregister the tty driver error=%d\n",
cpc_tty->name,res);
}
}
return;
}
/*
* PC300 TTY WRITE routine
*
* This routine is called by the tty driver to write a series of characters
* to the tty device. The characters may come from user or kernel space.
* o verify the DCD signal
* o send characters to board and start the transmission
*/
static int cpc_tty_write(struct tty_struct *tty, int from_user,
const unsigned char *buf, int count)
{
st_cpc_tty_area *cpc_tty;
pc300ch_t *pc300chan;
pc300_t *card;
int ch;
unsigned long flags;
struct net_device_stats *stats;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlcX-tty: no TTY in write\n");
return -ENODEV;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty) || (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n", cpc_tty->name);
return -ENODEV;
}
if (count > CPC_TTY_MAX_MTU) {
CPC_TTY_DBG("%s: count is invalid\n",cpc_tty->name);
return -EINVAL; /* frame too big */
}
CPC_TTY_DBG("%s: cpc_tty_write %s data len=%i\n",cpc_tty->name,
(from_user)?"from user" : "from kernel",count);
pc300chan = (pc300ch_t *)((pc300dev_t*)cpc_tty->pc300dev)->chan;
stats = &((pc300dev_t*)cpc_tty->pc300dev)->hdlc->stats;
card = (pc300_t *) pc300chan->card;
ch = pc300chan->channel;
/* verify DCD signal*/
if (cpc_readb(card->hw.scabase + M_REG(ST3,ch)) & ST3_DCD) {
/* DCD is OFF */
CPC_TTY_DBG("%s : DCD is OFF\n", cpc_tty->name);
stats->tx_errors++;
stats->tx_carrier_errors++;
CPC_TTY_LOCK(card, flags);
cpc_writeb(card->hw.scabase + M_REG(CMD, ch), CMD_TX_BUF_CLR);
if (card->hw.type == PC300_TE) {
cpc_writeb(card->hw.falcbase + card->hw.cpld_reg2,
cpc_readb(card->hw.falcbase + card->hw.cpld_reg2) &
~(CPLD_REG2_FALC_LED1 << (2 *ch)));
}
CPC_TTY_UNLOCK(card, flags);
return -EINVAL;
}
if (from_user) {
unsigned char *buf_tmp;
buf_tmp = cpc_tty->buf_tx;
if (copy_from_user(buf_tmp, buf, count)) {
/* failed to copy from user */
CPC_TTY_DBG("%s: error in copy from user\n",cpc_tty->name);
return -EINVAL;
}
if (cpc_tty_send_to_card(cpc_tty->pc300dev, (void*) buf_tmp,count)) {
/* failed to send */
CPC_TTY_DBG("%s: transmission error\n",cpc_tty->name);
return 0;
}
} else {
if (cpc_tty_send_to_card(cpc_tty->pc300dev, (void*)buf, count)) {
/* failed to send */
CPC_TTY_DBG("%s: trasmition error\n", cpc_tty->name);
return 0;
}
}
return count;
}
/*
* PC300 TTY Write Room routine
*
* This routine returns the numbers of characteres the tty driver will accept
* for queuing to be written.
* o return MTU
*/
static int cpc_tty_write_room(struct tty_struct *tty)
{
st_cpc_tty_area *cpc_tty;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlcX-tty: no TTY to write room\n");
return -ENODEV;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty) || (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n",cpc_tty->name);
return -ENODEV;
}
CPC_TTY_DBG("%s: write room\n",cpc_tty->name);
return CPC_TTY_MAX_MTU;
}
/*
* PC300 TTY chars in buffer routine
*
* This routine returns the chars number in the transmission buffer
* o returns 0
*/
static int cpc_tty_chars_in_buffer(struct tty_struct *tty)
{
st_cpc_tty_area *cpc_tty;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlcX-tty: no TTY to chars in buffer\n");
return -ENODEV;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty) || (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n",cpc_tty->name);
return -ENODEV;
}
return(0);
}
/*
* PC300 TTY IOCTL routine
*
* This routine treats TIOCMBIS (set DTR signal) and TIOCMBIC (clear DTR
* signal)IOCTL commands.
*/
static int cpc_tty_ioctl(struct tty_struct *tty, struct file *file,
unsigned int cmd, unsigned long arg)
{
st_cpc_tty_area *cpc_tty;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlcX-tty: no TTY to chars in buffer\n");
return -ENODEV;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty) || (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n",cpc_tty->name);
return -ENODEV;
}
CPC_TTY_DBG("%s: IOCTL cmd %x\n",cpc_tty->name,cmd);
switch (cmd) {
case TIOCMBIS : /* set DTR */
cpc_tty_dtr_on(cpc_tty->pc300dev);
break;
case TIOCMBIC: /* clear DTR */
cpc_tty_dtr_off(cpc_tty->pc300dev);
break;
default :
return -ENOIOCTLCMD;
}
return 0;
}
/*
* PC300 TTY Flush Buffer routine
*
* This routine resets the transmission buffer
*/
static void cpc_tty_flush_buffer(struct tty_struct *tty)
{
st_cpc_tty_area *cpc_tty;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlcX-tty: no TTY to flush buffer\n");
return;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty) || (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n",cpc_tty->name);
return;
}
CPC_TTY_DBG("%s: call wake_up_interruptible\n",cpc_tty->name);
wake_up_interruptible(&tty->write_wait);
if ((tty->flags & (1 << TTY_DO_WRITE_WAKEUP)) && tty->ldisc.write_wakeup){
CPC_TTY_DBG("%s: call line disc. wake up\n",cpc_tty->name);
tty->ldisc.write_wakeup(tty);
}
return;
}
/*
* PC300 TTY Hangup routine
*
* This routine is called by the tty driver to hangup the interface
* o clear DTR signal
*/
static void cpc_tty_hangup(struct tty_struct *tty)
{
st_cpc_tty_area *cpc_tty;
int res;
if (!tty || !tty->driver_data ) {
CPC_TTY_DBG("hdlcX-tty: no TTY to hangup\n");
return ;
}
cpc_tty = (st_cpc_tty_area *) tty->driver_data;
if ((cpc_tty->tty != tty) || (cpc_tty->state != CPC_TTY_ST_OPEN)) {
CPC_TTY_DBG("%s: TTY is not opened\n",cpc_tty->name);
return ;
}
if (!cpc_tty_refcount && cpc_tty_unreg_flag) {
cpc_tty_unreg_flag = 0;
CPC_TTY_DBG("%s: unregister the tty driver\n", cpc_tty->name);
if ((res=tty_unregister_driver(&serial_drv))) {
CPC_TTY_DBG("%s: ERROR ->unregister the tty driver error=%d\n",
cpc_tty->name,res);
}
if ((res=tty_unregister_driver(&callout_drv))) {
CPC_TTY_DBG("%s: ERROR ->unregister the tty driver error=%d\n",
cpc_tty->name,res);
}
}
cpc_tty_dtr_off(cpc_tty->pc300dev);
}
/*
* PC300 TTY RX task routine
* This routine treats RX task
* o verify read buffer
* o call the line disc. read
* o free memory
*/
static void cpc_tty_rx_task(void * data)
{
int port, i, j;
st_cpc_tty_area *cpc_tty;
volatile st_cpc_rx_buf * buf;
char flags=0,flg_rx=1;
if (cpc_tty_cnt == 0) return;
for (i=0; (i < 4) && flg_rx ; i++) {
flg_rx = 0;
port = (int) data;
for (j=0; j < CPC_TTY_NPORTS; j++) {
cpc_tty = &cpc_tty_area[port];
if ((buf=cpc_tty->buf_rx.first) != 0) {
if (cpc_tty->tty && (cpc_tty->tty->ldisc.receive_buf)) {
CPC_TTY_DBG("%s: call line disc. receive_buf\n",cpc_tty->name);
cpc_tty->tty->ldisc.receive_buf(cpc_tty->tty, buf->data,
&flags, buf->size);
}
cpc_tty->buf_rx.first = cpc_tty->buf_rx.first->next;
kfree((unsigned char *)buf);
buf = cpc_tty->buf_rx.first;
flg_rx = 1;
}
if (++port == CPC_TTY_NPORTS) port = 0;
}
}
}
/*
* PC300 TTY RX task routine
*
* This routine treats RX interrupt.
* o read all frames in card
* o verify the frame size
* o read the frame in rx buffer
*/
static void cpc_tty_rx_disc_frame(pc300ch_t *pc300chan)
{
volatile pcsca_bd_t * ptdescr;
volatile unsigned char status;
pc300_t *card = (pc300_t *)pc300chan->card;
int ch = pc300chan->channel;
/* dma buf read */
ptdescr = (pcsca_bd_t *)(card->hw.rambase +
RX_BD_ADDR(ch, pc300chan->rx_first_bd));
while (pc300chan->rx_first_bd != pc300chan->rx_last_bd) {
status = cpc_readb(&ptdescr->status);
cpc_writeb(&ptdescr->status, 0);
cpc_writeb(&ptdescr->len, 0);
pc300chan->rx_first_bd = (pc300chan->rx_first_bd + 1) &
(N_DMA_RX_BUF - 1);
if (status & DST_EOM) {
break; /* end of message */
}
ptdescr = (pcsca_bd_t *)(card->hw.rambase + cpc_readl(&ptdescr->next));
}
}
void cpc_tty_receive(pc300dev_t *pc300dev)
{
st_cpc_tty_area *cpc_tty;
pc300ch_t *pc300chan = (pc300ch_t *)pc300dev->chan;
pc300_t *card = (pc300_t *)pc300chan->card;
int ch = pc300chan->channel;
volatile pcsca_bd_t * ptdescr;
struct net_device_stats *stats = &pc300dev->hdlc->stats;
int rx_len, rx_aux;
volatile unsigned char status;
unsigned short first_bd = pc300chan->rx_first_bd;
st_cpc_rx_buf *new;
unsigned char dsr_rx;
if (pc300dev->cpc_tty == NULL) {
return;
}
dsr_rx = cpc_readb(card->hw.scabase + DSR_RX(ch));
cpc_tty = (st_cpc_tty_area *)pc300dev->cpc_tty;
while (1) {
rx_len = 0;
ptdescr = (pcsca_bd_t *)(card->hw.rambase + RX_BD_ADDR(ch, first_bd));
while ((status = cpc_readb(&ptdescr->status)) & DST_OSB) {
rx_len += cpc_readw(&ptdescr->len);
first_bd = (first_bd + 1) & (N_DMA_RX_BUF - 1);
if (status & DST_EOM) {
break;
}
ptdescr=(pcsca_bd_t*)(card->hw.rambase+cpc_readl(&ptdescr->next));
}
if (!rx_len) {
if (dsr_rx & DSR_BOF) {
/* update EDA */
cpc_writel(card->hw.scabase + DRX_REG(EDAL, ch),
RX_BD_ADDR(ch, pc300chan->rx_last_bd));
}
return;
}
if (rx_len > CPC_TTY_MAX_MTU) {
/* Free RX descriptors */
CPC_TTY_DBG("%s: frame size is invalid.\n",cpc_tty->name);
stats->rx_errors++;
stats->rx_frame_errors++;
cpc_tty_rx_disc_frame(pc300chan);
continue;
}
new = (st_cpc_rx_buf *) kmalloc(rx_len + sizeof(st_cpc_rx_buf), GFP_ATOMIC);
if (new == 0) {
cpc_tty_rx_disc_frame(pc300chan);
continue;
}
/* dma buf read */
ptdescr = (pcsca_bd_t *)(card->hw.rambase +
RX_BD_ADDR(ch, pc300chan->rx_first_bd));
rx_len = 0; /* counter frame size */
while ((status = cpc_readb(&ptdescr->status)) & DST_OSB) {
rx_aux = cpc_readw(&ptdescr->len);
if ((status & (DST_OVR | DST_CRC | DST_RBIT | DST_SHRT | DST_ABT))
|| (rx_aux > BD_DEF_LEN)) {
CPC_TTY_DBG("%s: reception error\n", cpc_tty->name);
stats->rx_errors++;
if (status & DST_OVR) {
stats->rx_fifo_errors++;
}
if (status & DST_CRC) {
stats->rx_crc_errors++;
}
if ((status & (DST_RBIT | DST_SHRT | DST_ABT)) ||
(rx_aux > BD_DEF_LEN)) {
stats->rx_frame_errors++;
}
/* discard remainig descriptors used by the bad frame */
CPC_TTY_DBG("%s: reception error - discard descriptors",
cpc_tty->name);
cpc_tty_rx_disc_frame(pc300chan);
rx_len = 0;
kfree((unsigned char *)new);
break; /* read next frame - while(1) */
}
if (cpc_tty->state != CPC_TTY_ST_OPEN) {
/* Free RX descriptors */
cpc_tty_rx_disc_frame(pc300chan);
stats->rx_dropped++;
rx_len = 0;
kfree((unsigned char *)new);
break; /* read next frame - while(1) */
}
/* read the segment of the frame */
if (rx_aux != 0) {
memcpy_fromio((new->data + rx_len),
(void *)(card->hw.rambase +
cpc_readl(&ptdescr->ptbuf)), rx_aux);
rx_len += rx_aux;
}
cpc_writeb(&ptdescr->status,0);
cpc_writeb(&ptdescr->len, 0);
pc300chan->rx_first_bd = (pc300chan->rx_first_bd + 1) &
(N_DMA_RX_BUF -1);
if (status & DST_EOM)break;
ptdescr = (pcsca_bd_t *) (card->hw.rambase +
cpc_readl(&ptdescr->next));
}
/* update pointer */
pc300chan->rx_last_bd = (pc300chan->rx_first_bd - 1) &
(N_DMA_RX_BUF - 1) ;
if (!(dsr_rx & DSR_BOF)) {
/* update EDA */
cpc_writel(card->hw.scabase + DRX_REG(EDAL, ch),
RX_BD_ADDR(ch, pc300chan->rx_last_bd));
}
if (rx_len != 0) {
stats->rx_bytes += rx_len;
if (pc300dev->trace_on) {
cpc_tty_trace(pc300dev, new->data,rx_len, 'R');
}
new->size = rx_len;
new->next = 0;
if (cpc_tty->buf_rx.first == 0) {
cpc_tty->buf_rx.first = new;
cpc_tty->buf_rx.last = new;
} else {
cpc_tty->buf_rx.last->next = new;
cpc_tty->buf_rx.last = new;
}
schedule_task(&(cpc_tty->tty_rx_task_queue));
stats->rx_packets++;
}
}
}
/*
* PC300 TTY TX task routine
*
* This routine treats TX interrupt.
* o if need call line discipline wakeup
* o call wake_up_interruptible
*/
static void cpc_tty_tx_task(void *data)
{
st_cpc_tty_area *cpc_tty = (st_cpc_tty_area *) data;
struct tty_struct *tty;
CPC_TTY_DBG("%s: cpc_tty_tx_task init\n",cpc_tty->name);
if ((tty = cpc_tty->tty) == 0) {
CPC_TTY_DBG("%s: the interface is not opened\n",cpc_tty->name);
return;
}
if ((tty->flags & (1 << TTY_DO_WRITE_WAKEUP)) && tty->ldisc.write_wakeup){
CPC_TTY_DBG("%s:call line disc. wakeup\n",cpc_tty->name);
tty->ldisc.write_wakeup (tty);
}
wake_up_interruptible(&tty->write_wait);
}
/*
* PC300 TTY send to card routine
*
* This routine send data to card.
* o clear descriptors
* o write data to DMA buffers
* o start the transmission
*/
static int cpc_tty_send_to_card(pc300dev_t *dev,void* buf, int len)
{
pc300ch_t *chan = (pc300ch_t *)dev->chan;
pc300_t *card = (pc300_t *)chan->card;
int ch = chan->channel;
struct net_device_stats *stats = &dev->hdlc->stats;
unsigned long flags;
volatile pcsca_bd_t * ptdescr;
int i, nchar;
int tosend = len;
int nbuf = ((len - 1)/BD_DEF_LEN) + 1;
unsigned char *pdata=buf;
CPC_TTY_DBG("%s:cpc_tty_send_to_cars len=%i",
(st_cpc_tty_area *)dev->cpc_tty->name,len);
if (nbuf >= card->chan[ch].nfree_tx_bd) {
return 1;
}
/* write buffer to DMA buffers */
CPC_TTY_DBG("%s: call dma_buf_write\n",
(st_cpc_tty_area *)dev->cpc_tty->name);
for (i = 0 ; i < nbuf ; i++) {
ptdescr = (pcsca_bd_t *)(card->hw.rambase +
TX_BD_ADDR(ch, card->chan[ch].tx_next_bd));
nchar = (BD_DEF_LEN > tosend) ? tosend : BD_DEF_LEN;
if (cpc_readb(&ptdescr->status) & DST_OSB) {
memcpy_toio((void *)(card->hw.rambase +
cpc_readl(&ptdescr->ptbuf)),
&pdata[len - tosend],
nchar);
card->chan[ch].nfree_tx_bd--;
if ((i + 1) == nbuf) {
/* This must be the last BD to be used */
cpc_writeb(&ptdescr->status, DST_EOM);
} else {
cpc_writeb(&ptdescr->status, 0);
}
cpc_writew(&ptdescr->len, nchar);
} else {
CPC_TTY_DBG("%s: error in dma_buf_write\n",
(st_cpc_tty_area *)dev->cpc_tty->name);
stats->tx_dropped++;
return 1;
}
tosend -= nchar;
card->chan[ch].tx_next_bd =
(card->chan[ch].tx_next_bd + 1) & (N_DMA_TX_BUF - 1);
}
if (dev->trace_on) {
cpc_tty_trace(dev, buf, len,'T');
}
/* start transmission */
CPC_TTY_DBG("%s: start transmission\n",
(st_cpc_tty_area *)dev->cpc_tty->name);
CPC_TTY_LOCK(card, flags);
cpc_writeb(card->hw.scabase + DTX_REG(EDAL, ch),
TX_BD_ADDR(ch, chan->tx_next_bd));
cpc_writeb(card->hw.scabase + M_REG(CMD, ch), CMD_TX_ENA);
cpc_writeb(card->hw.scabase + DSR_TX(ch), DSR_DE);
if (card->hw.type == PC300_TE) {
cpc_writeb(card->hw.falcbase + card->hw.cpld_reg2,
cpc_readb(card->hw.falcbase + card->hw.cpld_reg2) |
(CPLD_REG2_FALC_LED1 << (2 * ch)));
}
CPC_TTY_UNLOCK(card, flags);
return 0;
}
/*
* PC300 TTY trace routine
*
* This routine send trace of connection to application.
* o clear descriptors
* o write data to DMA buffers
* o start the transmission
*/
static void cpc_tty_trace(pc300dev_t *dev, char* buf, int len, char rxtx)
{
struct sk_buff *skb;
if ((skb = dev_alloc_skb(10 + len)) == NULL) {
/* out of memory */
CPC_TTY_DBG("%s: tty_trace - out of memory\n",
((struct net_device *)(dev->hdlc))->name);
return;
}
skb_put (skb, 10 + len);
skb->dev = (struct net_device *) dev->hdlc;
skb->protocol = htons(ETH_P_CUST);
skb->mac.raw = skb->data;
skb->pkt_type = PACKET_HOST;
skb->len = 10 + len;
memcpy(skb->data,((struct net_device *)(dev->hdlc))->name,5);
skb->data[5] = '[';
skb->data[6] = rxtx;
skb->data[7] = ']';
skb->data[8] = ':';
skb->data[9] = ' ';
memcpy(&skb->data[10], buf, len);
netif_rx(skb);
}
/*
* PC300 TTY unregister service routine
*
* This routine unregister one interface.
*/
void cpc_tty_unregister_service(pc300dev_t *pc300dev)
{
st_cpc_tty_area *cpc_tty;
ulong flags;
int res;
if ((cpc_tty= (st_cpc_tty_area *) pc300dev->cpc_tty) == 0) {
CPC_TTY_DBG("%s: interface is not TTY\n",
((struct net_device *)(pc300dev->hdlc))->name);
return;
}
CPC_TTY_DBG("%s: cpc_tty_unregister_service", cpc_tty->name);
if (cpc_tty->pc300dev != pc300dev) {
CPC_TTY_DBG("%s: invalid tty ptr=%s\n",
((struct net_device *)(pc300dev->hdlc))->name, cpc_tty->name);
return;
}
if (--cpc_tty_cnt == 0) {
if (cpc_tty_refcount) {
CPC_TTY_DBG("%s: unregister is not possible, refcount=%d",
cpc_tty->name, cpc_tty_refcount);
cpc_tty_cnt++;
cpc_tty_unreg_flag = 1;
return;
} else {
CPC_TTY_DBG("%s: unregister the tty driver\n", cpc_tty->name);
if ((res=tty_unregister_driver(&serial_drv))) {
CPC_TTY_DBG("%s: ERROR ->unregister the tty driver error=%d\n",
cpc_tty->name,res);
}
if ((res=tty_unregister_driver(&callout_drv))) {
CPC_TTY_DBG("%s: ERROR ->unregister the tty driver error=%d\n",
cpc_tty->name,res);
}
}
}
CPC_TTY_LOCK(pc300dev->chan->card,flags);
cpc_tty->tty = NULL;
CPC_TTY_UNLOCK(pc300dev->chan->card, flags);
cpc_tty->tty_minor = 0;
cpc_tty->state = CPC_TTY_ST_IDLE;
}
/*
* PC300 TTY trigger poll routine
* This routine is called by pc300driver to treats Tx interrupt.
*/
void cpc_tty_trigger_poll(pc300dev_t *pc300dev)
{
st_cpc_tty_area *cpc_tty = (st_cpc_tty_area *)pc300dev->cpc_tty;
if (!cpc_tty) {
return;
}
schedule_task(&(cpc_tty->tty_tx_task_queue));
}
/*
* PC300 TTY reset var routine
* This routine is called by pc300driver to init the TTY area.
*/
void cpc_tty_reset_var(void)
{
int i ;
CPC_TTY_DBG("hdlcX-tty: reset variables\n");
/* reset the tty_driver structure - serial_drv */
memset(&serial_drv, 0, sizeof(struct tty_driver));
memset(&callout_drv, 0, sizeof(struct tty_driver));
for (i=0; i < CPC_TTY_NPORTS; i++){
memset(&cpc_tty_area[i],0, sizeof(st_cpc_tty_area));
}
}
...@@ -2924,10 +2924,12 @@ ...@@ -2924,10 +2924,12 @@
0105 Cyclom_8Y above first megabyte 0105 Cyclom_8Y above first megabyte
0200 Cyclom_Z below first megabyte 0200 Cyclom_Z below first megabyte
0201 Cyclom_Z above first megabyte 0201 Cyclom_Z above first megabyte
0300 PC300 RX 2 0300 PC300/RSV or /X21 (2 ports)
0301 PC300 RX 1 0301 PC300/RSV or /X21 (1 ports)
0310 PC300 TE 2 0310 PC300/TE (2 ports)
0311 PC300 TE 1 0311 PC300/TE (1 port)
0320 PC300/TE-M (2 ports)
0321 PC300/TE-M (1 port)
120f Essential Communications 120f Essential Communications
0001 Roadrunner serial HIPPI 0001 Roadrunner serial HIPPI
1210 Hyperparallel Technologies 1210 Hyperparallel Technologies
......
...@@ -1236,6 +1236,8 @@ ...@@ -1236,6 +1236,8 @@
#define PCI_DEVICE_ID_PC300_RX_1 0x0301 #define PCI_DEVICE_ID_PC300_RX_1 0x0301
#define PCI_DEVICE_ID_PC300_TE_2 0x0310 #define PCI_DEVICE_ID_PC300_TE_2 0x0310
#define PCI_DEVICE_ID_PC300_TE_1 0x0311 #define PCI_DEVICE_ID_PC300_TE_1 0x0311
#define PCI_DEVICE_ID_PC300_TE_M_2 0x0320
#define PCI_DEVICE_ID_PC300_TE_M_1 0x0321
#define PCI_VENDOR_ID_ESSENTIAL 0x120f #define PCI_VENDOR_ID_ESSENTIAL 0x120f
#define PCI_DEVICE_ID_ESSENTIAL_ROADRUNNER 0x0001 #define PCI_DEVICE_ID_ESSENTIAL_ROADRUNNER 0x0001
......
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