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wanpipe/patches/kdrivers/include/sdla_te1.h

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/*
* Copyright (c) 2001
* Alex Feldman <al.feldman@sangoma.com>. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Alex Feldman.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Alex Feldman AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL Alex Feldman OR THE VOICES IN HIS HEAD
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*
* $Id: sdla_te1.h,v 1.72 2008-04-02 20:52:09 sangoma Exp $
*/
/*****************************************************************************
* sdla_te1.h Sangoma TE1 configuration definitions.
*
* Author: Alex Feldman
*
* ============================================================================
* Aprl 30, 2001 Alex Feldman Initial version.
****************************************************************************
*/
#ifndef _SDLA_TE1_H
# define _SDLA_TE1_H
#ifdef SDLA_TE1
# define WP_EXTERN
#else
# define WP_EXTERN extern
#endif
/************************************************************************
* DEFINES AND MACROS *
***********************************************************************/
/*
*************************************************************************
* DEFINES AND MACROS *
*************************************************************************
*/
#define WAN_TE_CHIP_PMC 0x00
#define WAN_TE_CHIP_DM 0x01
#define NUM_OF_T1_CHANNELS 24
#define NUM_OF_E1_TIMESLOTS 31
#define NUM_OF_E1_CHANNELS 32
#define ENABLE_ALL_CHANNELS 0xFFFFFFFF
#define E1_FRAMING_TIMESLOT 0
#define E1_SIGNALING_TIMESLOT 16
#define WAN_TE_SIG_POLL 0x01
#define WAN_TE_SIG_INTR 0x02
/* Framer Alarm bit mask */
#define WAN_TE_ALARM_LIU 0x80000000
#define WAN_TE_ALARM_FRAMER_MASK 0x0000FFFF
#define WAN_TE_ALARM_LIU_MASK 0x00F00000
#define WAN_TE_BIT_ALARM_ALOS 0x00000001
#define WAN_TE_BIT_ALARM_LOS 0x00000002
#define WAN_TE_BIT_ALARM_ALTLOS 0x00000004
#define WAN_TE_BIT_ALARM_OOF 0x00000008
#define WAN_TE_BIT_ALARM_RED 0x00000010
#define WAN_TE_BIT_ALARM_AIS 0x00000020
#define WAN_TE_BIT_ALARM_OOSMF 0x00000040
#define WAN_TE_BIT_ALARM_OOCMF 0x00000080
#define WAN_TE_BIT_ALARM_OOOF 0x00000100
#define WAN_TE_BIT_ALARM_RAI 0x00000200
#define WAN_TE_BIT_ALARM_YEL 0x00000400
#define WAN_TE_BIT_ALARM_LOF 0x00000800
#define WAN_TE_BIT_LOOPUP_CODE 0x00002000
#define WAN_TE_BIT_LOOPDOWN_CODE 0x00004000
#define WAN_TE_BIT_ALARM_LIU 0x00100000
#define WAN_TE_BIT_ALARM_LIU_SC 0x00100000
#define WAN_TE_BIT_ALARM_LIU_OC 0x00200000
#define WAN_TE_BIT_ALARM_LIU_LOS 0x00400000
#define IS_TE_ALARM(alarm, mask) (alarm & mask)
#define IS_TE_ALARM_ALOS(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_ALOS)
#define IS_TE_ALARM_LOS(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_LOS)
#define IS_TE_ALARM_OOF(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_OOF)
#define IS_TE_ALARM_LOF(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_LOF)
#define IS_TE_ALARM_RED(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_RED)
#define IS_TE_ALARM_AIS(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_AIS)
#define IS_TE_ALARM_OOSMF(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_OOSMF)
#define IS_TE_ALARM_OOCMF(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_OOCMF)
#define IS_TE_ALARM_OOOF(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_OOOF)
#define IS_TE_ALARM_RAI(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_RAI)
#define IS_TE_ALARM_YEL(alarm) IS_TE_ALARM(alarm, WAN_TE_BIT_ALARM_YEL)
/* Needed for backward compatibility */
#ifndef IS_TE_ALOS_ALARM
#define IS_TE_ALOS_ALARM IS_TE_ALARM_ALOS
#endif
#ifndef IS_TE_LOS_ALARM
#define IS_TE_LOS_ALARM IS_TE_ALARM_LOS
#endif
#ifndef IS_TE_RED_ALARM
#define IS_TE_RED_ALARM IS_TE_ALARM_RED
#endif
#ifndef IS_TE_AIS_ALARM
#define IS_TE_AIS_ALARM IS_TE_ALARM_AIS
#endif
#ifndef IS_TE_RAI_ALARM
#define IS_TE_RAI_ALARM IS_TE_ALARM_RAI
#endif
#ifndef IS_TE_YEL_ALARM
#define IS_TE_YEL_ALARM IS_TE_ALARM_YEL
#endif
#ifndef IS_TE_OOF_ALARM
#define IS_TE_OOF_ALARM IS_TE_ALARM_OOF
#endif
/* Performance monitor counters bit mask */
#define WAN_TE_BIT_PMON_LCV 0x01 /* line code violation counter */
#define WAN_TE_BIT_PMON_BEE 0x02 /* bit errror event (T1) */
#define WAN_TE_BIT_PMON_OOF 0x04 /* frame out of sync counter */
#define WAN_TE_BIT_PMON_FEB 0x08 /* far end block counter */
#define WAN_TE_BIT_PMON_CRC4 0x10 /* crc4 error counter (E1) */
#define WAN_TE_BIT_PMON_FER 0x20 /* framing bit error (T1-pmc) */
#define WAN_TE_BIT_PMON_FAS 0x40 /* Frame Alginment signal (E1) */
/* T1/E1 statistics bit mask */
#define WAN_TE_STATS_BIT_ALARM 0x0001
#define WAN_TE_STATS_BIT_RXLEVEL 0x0002
/* For T1 only */
#define WAN_T1_LBO_NONE 0x00
#define WAN_T1_LBO_0_DB 0x01
#define WAN_T1_LBO_75_DB 0x02
#define WAN_T1_LBO_15_DB 0x03
#define WAN_T1_LBO_225_DB 0x04
#define WAN_T1_0_110 0x05
#define WAN_T1_110_220 0x06
#define WAN_T1_220_330 0x07
#define WAN_T1_330_440 0x08
#define WAN_T1_440_550 0x09
#define WAN_T1_550_660 0x0A
/* For E1 only */
#define WAN_E1_120 0x0B
#define WAN_E1_75 0x0C
/* T1/E1 8 ports */
#define WAN_T1_0_133 0x0D
#define WAN_T1_133_266 0x0E
#define WAN_T1_266_399 0x0F
#define WAN_T1_399_533 0x10
#define WAN_T1_533_655 0x11
/* T1/E1: Recever */
#define WAN_TE1_RX_SLEVEL_NONE 0
#define WAN_TE1_RX_SLEVEL_43_DB 430 /* 43 dB E1, RMONEN=0 */
#define WAN_TE1_RX_SLEVEL_36_DB 360 /* 36 dB T1, RMONEN=0 */
#define WAN_TE1_RX_SLEVEL_30_DB 300 /* 30 dB RMONEN=0 | 1 */
#define WAN_TE1_RX_SLEVEL_225_DB 225 /* 22.5 dB RMONEN=1 */
#define WAN_TE1_RX_SLEVEL_18_DB 180 /* 18 dB RMONEN=0 */
#define WAN_TE1_RX_SLEVEL_175_DB 175 /* 17.5 dB RMONEN=1 */
#define WAN_TE1_RX_SLEVEL_12_DB 120 /* 12 dB RMONEN=0 | 1 */
#define WAN_TE1_RX_SLEVEL_DECODE(slevel) \
((slevel) == WAN_TE1_RX_SLEVEL_43_DB) ? "43dB" : \
((slevel) == WAN_TE1_RX_SLEVEL_36_DB) ? "36dB" : \
((slevel) == WAN_TE1_RX_SLEVEL_30_DB) ? "30dB" : \
((slevel) == WAN_TE1_RX_SLEVEL_225_DB) ? "22.5dB" : \
((slevel) == WAN_TE1_RX_SLEVEL_18_DB) ? "18dB" : \
((slevel) == WAN_TE1_RX_SLEVEL_175_DB) ? "17.5dB" : \
((slevel) == WAN_TE1_RX_SLEVEL_12_DB) ? "12dB" : "0dB"
/* For T1 only (long or short haul) */
#define WAN_T1_LONG_HAUL 0x01
#define WAN_T1_SHORT_HAUL 0x02
/* Line loopback modes */
#define WAN_TE1_LB_NONE 0x00
#define WAN_TE1_LINELB_MODE 0x01
#define WAN_TE1_PAYLB_MODE 0x02
#define WAN_TE1_DDLB_MODE 0x03
#define WAN_TE1_TX_LINELB_MODE 0x04
#define WAN_TE1_LIU_ALB_MODE 0x05
#define WAN_TE1_LIU_LLB_MODE 0x06
#define WAN_TE1_LIU_RLB_MODE 0x07
#define WAN_TE1_LIU_DLB_MODE 0x08
#define WAN_TE1_TX_PAYLB_MODE 0x09
#define WAN_TE1_PCLB_MODE 0x0A
#define WAN_TE1_LB_MODE_DECODE(mode) \
((mode) == WAN_TE1_LINELB_MODE) ? "Line/Remote Loopback" : \
((mode) == WAN_TE1_PAYLB_MODE) ? "Payload Loopback" : \
((mode) == WAN_TE1_DDLB_MODE) ? "Diagnostic Digital Loopback" : \
((mode) == WAN_TE1_TX_LINELB_MODE) ? "TX Line Loopback" : \
((mode) == WAN_TE1_LIU_ALB_MODE) ? "Analog LIU Loopback" : \
((mode) == WAN_TE1_LIU_LLB_MODE) ? "Local LIU Loopback" : \
((mode) == WAN_TE1_LIU_RLB_MODE) ? "Remote LIU Loopback" : \
((mode) == WAN_TE1_LIU_DLB_MODE) ? "Dual LIU Loopback" : \
((mode) == WAN_TE1_TX_PAYLB_MODE) ? "TX Payload Loopback" : \
((mode) == WAN_TE1_PCLB_MODE) ? "Per-channel Loopback" : \
"Unknown Loopback"
/* Line loopback activate/deactive modes */
#define WAN_TE1_LB_ENABLE 0x01
#define WAN_TE1_LB_DISABLE 0x02
#define WAN_TE1_LB_ACTION_DECODE(action) \
((action) == WAN_TE1_LB_ENABLE) ? "Enable" : \
((action) == WAN_TE1_LB_DISABLE) ? "Disable" : \
"Unknown"
/* T1/E1 front end Master clock source */
#define WAN_TE1_REFCLK_OSC 0x00
#define WAN_TE1_REFCLK_LINE1 0x01
#define WAN_TE1_REFCLK_LINE2 0x02
#define WAN_TE1_REFCLK_LINE3 0x03
#define WAN_TE1_REFCLK_LINE4 0x04
/* Loopback commands (T1.107-1995 p.44) */
#define WAN_T1_FDL_MSG_TIME 250 /* 250 us */
#define WAN_T1_ESF_LINELB_TX_CNT 10
#define WAN_T1_D4_LINELB_TX_CNT 5
#define RBOC_CODE_YEL 0x00
#define LINELB_ACTIVATE_CODE 0x07
#define LINELB_DEACTIVATE_CODE 0x1C
#define PAYLB_ACTIVATE_CODE 0x0A
#define PAYLB_DEACTIVATE_CODE 0x19
#define UNIVLB_DEACTIVATE_CODE 0x12
#define WAN_TE1_BOC_LB_CODE_DECODE(boc) \
((boc) == LINELB_ACTIVATE_CODE) ? "LINELB Activate" : \
((boc) == LINELB_DEACTIVATE_CODE) ? "LINELB Deactivate" : \
((boc) == PAYLB_ACTIVATE_CODE) ? "PAYLB Activate" : \
((boc) == PAYLB_DEACTIVATE_CODE) ? "PAYLB Deactivate" : \
((boc) == UNIVLB_DEACTIVATE_CODE) ? "Universal LB Deactivate" : \
"Unsupported BOC"
/* Interrupt polling delay */
#define POLLING_TE1_TIMER 1 /* 1 sec */
#define WAN_T1_ALARM_THRESHOLD_LOF_ON (3) /* 2-3 sec */
#define WAN_T1_ALARM_THRESHOLD_LOF_OFF (1) /* 10 sec */
#define WAN_T1_ALARM_THRESHOLD_AIS_ON (3) // must be 2.5s
#define WAN_T1_ALARM_THRESHOLD_AIS_OFF (1) // must be 10s
#define WAN_T1_ALARM_THRESHOLD_LOS_ON (3) // must be 2.5s
#define WAN_T1_ALARM_THRESHOLD_LOS_OFF (1) // must be 10s
#define WAN_T1_ALARM_THRESHOLD_RAI_ON (4) // in loopback condition we have to set higher debounce time
#define WAN_T1_ALARM_THRESHOLD_RAI_OFF (1) // must be 10s
/* TE1 critical flag */
#define TE_TIMER_RUNNING 0x01
#define TE_TIMER_KILL 0x02
#define LINELB_WAITING 0x03
#define LINELB_CODE_BIT 0x04
#define LINELB_CHANNEL_BIT 0x05
#define TE_CONFIGURED 0x06
#define TE_TIMER_EVENT_PENDING 0x07
#define TE_TIMER_EVENT_INPROGRESS 0x08
#define TE_AIS_TX_STARTUP 0x09
#define TE_CONFIG_PAUSED 0x0A
/* TE1 sw irq types */
enum {
WAN_TE1_SWIRQ_TYPE_NONE = 0,
WAN_TE1_SWIRQ_TYPE_LINK,
WAN_TE1_SWIRQ_TYPE_ALARM_AIS,
WAN_TE1_SWIRQ_TYPE_ALARM_LOS,
WAN_TE1_SWIRQ_TYPE_ALARM_LOF,
WAN_TE1_SWIRQ_TYPE_ALARM_RAI,
WAN_TE1_SWIRQ_MAX
};
#define WAN_TE1_SWIRQ_TYPE_DECODE(type) \
((type) == WAN_TE1_SWIRQ_TYPE_LINK) ? "T1/E1 Link" : \
((type) == WAN_TE1_SWIRQ_TYPE_ALARM_AIS) ? "T1/E1 Alarm (AIS)" :\
((type) == WAN_TE1_SWIRQ_TYPE_ALARM_LOS) ? "T1/E1 Alarm (LOS)" :\
((type) == WAN_TE1_SWIRQ_TYPE_ALARM_LOF) ? "T1/E1 Alarm (LOF)" :\
((type) == WAN_TE1_SWIRQ_TYPE_ALARM_RAI) ? "T1/E1 Alarm (RAI)" :\
"Unknown"
enum {
WAN_TE1_SWIRQ_SUBTYPE_NONE = 0,
WAN_TE1_SWIRQ_SUBTYPE_LINKDOWN,
WAN_TE1_SWIRQ_SUBTYPE_LINKREADY,
WAN_TE1_SWIRQ_SUBTYPE_LINKCRIT,
WAN_TE1_SWIRQ_SUBTYPE_LINKUP,
WAN_TE1_SWIRQ_SUBTYPE_ALARM_ON,
WAN_TE1_SWIRQ_SUBTYPE_ALARM_OFF
};
#define WAN_TE1_SWIRQ_SUBTYPE_DECODE(subtype) \
((subtype) == WAN_TE1_SWIRQ_SUBTYPE_LINKDOWN) ? "Down" : \
((subtype) == WAN_TE1_SWIRQ_SUBTYPE_LINKREADY) ? "Ready" : \
((subtype) == WAN_TE1_SWIRQ_SUBTYPE_LINKCRIT) ? "Crit" : \
((subtype) == WAN_TE1_SWIRQ_SUBTYPE_LINKUP) ? "UP" : \
((subtype) == WAN_TE1_SWIRQ_SUBTYPE_ALARM_ON) ? "activating" : \
((subtype) == WAN_TE1_SWIRQ_SUBTYPE_ALARM_OFF) ? "deactivating" : \
"Unknown"
/* TE1 timer flags (polling) */
#define TE_LINELB_TIMER 0x01
#define TE_LINKDOWN_TIMER 0x02
#define TE_SET_INTR 0x03
#define TE_RBS_READ 0x04
#define TE_LINKUP_TIMER 0x05
#define TE_SET_RBS 0x06
#define TE_UPDATE_PMON 0x07
#define TE_SET_LB_MODE 0x08
#define TE_RBS_ENABLE 0x09
#define TE_RBS_DISABLE 0x0A
#define TE_POLL_CONFIG 0x0B
#define TE_POLL_READ 0x0C
#define TE_POLL_WRITE 0x0D
#define TE_POLL_CONFIG_VERIFY 0x0E
#define TE_LINKCRIT_TIMER 0x0F
#define WAN_TE_POLL_LINKREADY 0x10
#define WAN_TE_POLL_BERT 0x11
#define WAN_TE_POLL_ALARM_PENDING 0x12
/* TE1 T1/E1 interrupt setting delay */
#define INTR_TE1_TIMER 150 /* 50 ms */
/* T1/E1 RBS flags (bit-map) */
#define WAN_TE_RBS_NONE 0x00
#define WAN_TE_RBS_UPDATE 0x01
#define WAN_TE_RBS_REPORT 0x02
#define IS_T1_CARD(card) IS_T1_FEMEDIA(&(card)->fe)
#define IS_E1_CARD(card) IS_E1_FEMEDIA(&(card)->fe)
#define IS_TE1_CARD(card) IS_TE1_FEMEDIA(&(card)->fe)
#define FE_LBO(fe_cfg) (fe_cfg)->cfg.te_cfg.lbo
#define FE_CLK(fe_cfg) (fe_cfg)->cfg.te_cfg.te_clock
#define FE_REFCLK(fe_cfg) (fe_cfg)->cfg.te_cfg.te_ref_clock
#define FE_HIMPEDANCE_MODE(fe_cfg) (fe_cfg)->cfg.te_cfg.high_impedance_mode
#define FE_ACTIVE_CH(fe_cfg) (fe_cfg)->cfg.te_cfg.active_ch
#define FE_SIG_MODE(fe_cfg) (fe_cfg)->cfg.te_cfg.sig_mode
#define FE_RX_SLEVEL(fe_cfg) (fe_cfg)->cfg.te_cfg.rx_slevel
#define GET_TE_START_CHANNEL(fe) \
(IS_T1_FEMEDIA(fe) ? 1 : \
IS_E1_FEMEDIA(fe) ? 0 :0)
#define GET_TE_CHANNEL_RANGE(fe) \
(IS_T1_FEMEDIA(fe) ? NUM_OF_T1_CHANNELS :\
IS_E1_FEMEDIA(fe) ? NUM_OF_E1_CHANNELS :0)
#define WAN_TE_PRN_ALARM(alarm, bit) ((alarm) & (bit)) ? "ON" : "OFF"
#define WAN_TE_PRN_ALARM_ALOS(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_ALOS)
#define WAN_TE_PRN_ALARM_LOS(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_LOS)
#define WAN_TE_PRN_ALARM_OOF(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_OOF)
#define WAN_TE_PRN_ALARM_LOF(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_LOF)
#define WAN_TE_PRN_ALARM_RED(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_RED)
#define WAN_TE_PRN_ALARM_AIS(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_AIS)
#define WAN_TE_PRN_ALARM_OOSMF(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_OOSMF)
#define WAN_TE_PRN_ALARM_OOCMF(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_OOCMF)
#define WAN_TE_PRN_ALARM_OOOF(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_OOOF)
#define WAN_TE_PRN_ALARM_RAI(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_RAI)
#define WAN_TE_PRN_ALARM_YEL(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_YEL)
#define WAN_TE_PRN_ALARM_LIU_SC(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_LIU_SC)
#define WAN_TE_PRN_ALARM_LIU_OC(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_LIU_OC)
#define WAN_TE_PRN_ALARM_LIU_LOS(alarm) WAN_TE_PRN_ALARM(alarm, WAN_TE_BIT_ALARM_LIU_LOS)
#define TECLK_DECODE(fe_cfg) \
(FE_CLK(fe_cfg) == WAN_NORMAL_CLK) ? "Normal" : \
(FE_CLK(fe_cfg) == WAN_MASTER_CLK) ? "Master" : "Unknown"
#define LBO_DECODE(fe_cfg) \
(FE_LBO(fe_cfg) == WAN_T1_LBO_0_DB) ? "0db" : \
(FE_LBO(fe_cfg) == WAN_T1_LBO_75_DB) ? "7.5db" : \
(FE_LBO(fe_cfg) == WAN_T1_LBO_15_DB) ? "15dB" : \
(FE_LBO(fe_cfg) == WAN_T1_LBO_225_DB) ? "22.5dB" : \
(FE_LBO(fe_cfg) == WAN_T1_0_110) ? "0-110ft" : \
(FE_LBO(fe_cfg) == WAN_T1_110_220) ? "110-220ft" : \
(FE_LBO(fe_cfg) == WAN_T1_220_330) ? "220-330ft" : \
(FE_LBO(fe_cfg) == WAN_T1_330_440) ? "330-440ft" : \
(FE_LBO(fe_cfg) == WAN_T1_440_550) ? "440-550ft" : \
(FE_LBO(fe_cfg) == WAN_T1_550_660) ? "550-660ft" : \
(FE_LBO(fe_cfg) == WAN_T1_0_133) ? "0-133ft" : \
(FE_LBO(fe_cfg) == WAN_T1_133_266) ? "133-266ft" : \
(FE_LBO(fe_cfg) == WAN_T1_266_399) ? "266-399ft" : \
(FE_LBO(fe_cfg) == WAN_T1_399_533) ? "399-533ft" : \
(FE_LBO(fe_cfg) == WAN_T1_533_655) ? "5330-599ft": \
(FE_LBO(fe_cfg) == WAN_E1_120) ? "120OH" : \
(FE_LBO(fe_cfg) == WAN_E1_75) ? "75OH" : \
"Unknown"
/* E1 signalling insertion mode */
#define WAN_TE1_SIG_NONE 0x00 /* default */
#define WAN_TE1_SIG_CCS 0x01 /* E1 CCS - default */
#define WAN_TE1_SIG_CAS 0x02 /* E1 CAS */
#define TE1SIG_DECODE(fe_cfg) \
((FE_SIG_MODE(fe_cfg)) == WAN_TE1_SIG_CCS) ? "CCS" : \
((FE_SIG_MODE(fe_cfg)) == WAN_TE1_SIG_CAS) ? "CAS" : \
"Unknown"
/* Front-End UDP command */
#define WAN_FE_SET_LB_MODE WAN_FE_LB_MODE
#define WAN_FE_GET_STAT (WAN_FE_UDP_CMD_START + 0)
#define WAN_FE_LB_MODE (WAN_FE_UDP_CMD_START + 1)
#define WAN_FE_FLUSH_PMON (WAN_FE_UDP_CMD_START + 2)
#define WAN_FE_GET_CFG (WAN_FE_UDP_CMD_START + 3)
#define WAN_FE_SET_DEBUG_MODE (WAN_FE_UDP_CMD_START + 4)
#define WAN_FE_TX_MODE (WAN_FE_UDP_CMD_START + 5)
#define WAN_FE_BERT_MODE (WAN_FE_UDP_CMD_START + 6)
#define WAN_FE_SET_CFG (WAN_FE_UDP_CMD_START + 7)
/* FE interrupt types bit-map */
#define WAN_TE_INTR_NONE 0x00
#define WAN_TE_INTR_GLOBAL 0x01
#define WAN_TE_INTR_BASIC 0x02
#define WAN_TE_INTR_SIGNALLING 0x04
#define WAN_TE_INTR_FXS_DTMF 0x08
#define WAN_TE_INTR_PMON 0x10
/*----------------------------------------------------------------------------
* T1/E1 configuration structures.
*/
typedef struct sdla_te_cfg {
u_int8_t lbo;
u_int8_t te_clock;
u_int32_t active_ch;
u_int32_t te_rbs_ch;
u_int8_t high_impedance_mode;
int rx_slevel; /* only for high_impedance_mode=YES */
u_int8_t te_ref_clock;
u_int8_t sig_mode;
u_int8_t ignore_yel_alarm;
u_int8_t ais_maintenance;
u_int8_t ais_auto_on_los;
u_int8_t ignore_debounce_alarm;
u_int8_t ignore_poll_mode;
} sdla_te_cfg_t;
/* Performamce monitor counters */
typedef struct {
u_int16_t mask;
u_int32_t lcv_errors; /* Line code violation (T1/E1) */
u_int16_t lcv_diff;
u_int32_t bee_errors; /* Bit errors (T1) */
u_int16_t bee_diff;
u_int32_t oof_errors; /* Frame out of sync (T1) */
u_int16_t oof_diff;
u_int32_t crc4_errors; /* CRC4 errors (E1) */
u_int16_t crc4_diff;
u_int32_t fas_errors; /* Frame Aligment Signal (E1)*/
u_int16_t fas_diff;
u_int32_t feb_errors; /* Far End Block errors (E1) */
u_int16_t feb_diff;
u_int32_t fer_errors; /* Framing bit errors (T1) */
u_int16_t fer_diff;
u_int32_t sync_errors;
} sdla_te_pmon_t;
#define WAN_PMON_SYNC_ERROR(card) do { \
sdla_te_pmon_t *pmon; \
pmon = &card->fe.fe_stats.te_pmon; \
pmon->sync_errors++; \
} while (0);
#define WAN_TE_RXLEVEL_LEN 20
typedef struct {
u_int16_t mask;
sdla_te_pmon_t pmon;
char rxlevel[WAN_TE_RXLEVEL_LEN];
} sdla_te_stats_t;
#define WAN_TE_BERT_CMD_NONE 0x00
#define WAN_TE_BERT_CMD_STOP 0x01
#define WAN_TE_BERT_CMD_START 0x02
#define WAN_TE_BERT_CMD_STATUS 0x03
#define WAN_TE_BERT_CMD_EIB 0x04
#define WAN_TE_BERT_CMD_RESET 0x05
#define WAN_TE_BERT_CMD_RUNNING 0x06
#define WAN_TE_BERT_CMD_DECODE(cmd) \
((cmd) == WAN_TE_BERT_CMD_STOP) ? "Stop" : \
((cmd) == WAN_TE_BERT_CMD_START) ? "Start" : \
((cmd) == WAN_TE_BERT_CMD_STATUS) ? "Status" : \
((cmd) == WAN_TE_BERT_CMD_EIB) ? "Error Insert Bit" : \
((cmd) == WAN_TE_BERT_CMD_RESET) ? "Reset Status" : \
((cmd) == WAN_TE_BERT_CMD_RUNNING) ? "Running" : \
"Unknown"
/* BERT: Pattern type */
#define WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E7 0x01
#define WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E11 0x02
#define WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E15 0x03
#define WAN_TE_BERT_PATTERN_PSEUDORANDOM_QRSS 0x04
#define WAN_TE_BERT_PATTERN_REPETITIVE 0x05
#define WAN_TE_BERT_PATTERN_WORD 0x06
#define WAN_TE_BERT_PATTERN_DALY 0x07
#define WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E9 0x08
#define WAN_TE_BERT_PATTERN_DECODE(type) \
((type) == WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E7) ? "PseudoRandom 2E7-1" : \
((type) == WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E11) ? "PseudoRandom 2E11-1" : \
((type) == WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E15) ? "PseudoRandom 2E15-1" : \
((type) == WAN_TE_BERT_PATTERN_PSEUDORANDOM_QRSS) ? "PseudoRandom QRSS" : \
((type) == WAN_TE_BERT_PATTERN_REPETITIVE) ? "Repetitive Pattern" : \
((type) == WAN_TE_BERT_PATTERN_WORD) ? "Alternating Word Pattern" : \
((type) == WAN_TE_BERT_PATTERN_DALY) ? "Daly Pattern" : \
((type) == WAN_TE_BERT_PATTERN_PSEUDORANDOM_2E9) ? "PseudoRandom 2E-9-1" : "Unknown"
#define WAN_TE_BERT_LOOPBACK_NONE 0x00
#define WAN_TE_BERT_LOOPBACK_PAYLOAD 0x01
#define WAN_TE_BERT_LOOPBACK_LINE 0x02
#define WAN_TE_BERT_LOOPBACK_DECODE(type) \
((type) == WAN_TE_BERT_LOOPBACK_NONE) ? "Loopback (None)" : \
((type) == WAN_TE_BERT_LOOPBACK_PAYLOAD) ? "Payload Loopback" : \
((type) == WAN_TE_BERT_LOOPBACK_LINE) ? "Line Loopback" : \
"Unknown"
/* BERT: Errot Insert Bits */
#define WAN_TE_BERT_EIB_NONE 0x00
#define WAN_TE_BERT_EIB_SINGLE 0x01
#define WAN_TE_BERT_EIB1 0x02
#define WAN_TE_BERT_EIB2 0x03
#define WAN_TE_BERT_EIB3 0x04
#define WAN_TE_BERT_EIB4 0x05
#define WAN_TE_BERT_EIB5 0x06
#define WAN_TE_BERT_EIB6 0x07
#define WAN_TE_BERT_EIB7 0x08
#define WAN_TE_BERT_EIB_DECODE(eib) \
((eib) == WAN_TE_BERT_EIB_NONE) ? "No error insertion" : \
((eib) == WAN_TE_BERT_EIB_SINGLE) ? "Single Bit Error Insert" : \
((eib) == WAN_TE_BERT_EIB1) ? "EIB 10E-1" : \
((eib) == WAN_TE_BERT_EIB2) ? "EIB 10E-2" : \
((eib) == WAN_TE_BERT_EIB3) ? "EIB 10E-3" : \
((eib) == WAN_TE_BERT_EIB4) ? "EIB 10E-4" : \
((eib) == WAN_TE_BERT_EIB5) ? "EIB 10E-5" : \
((eib) == WAN_TE_BERT_EIB6) ? "EIB 10E-6" : \
((eib) == WAN_TE_BERT_EIB7) ? "EIB 10E-7" : \
"Unknown"
#define WAN_TE_BERT_STATUS_AUTO 0x00
#define WAN_TE_BERT_STATUS_MANUAL 0x01
#define WAN_TE_BERT_STATUS_RUNNING 0x02
#define WAN_TE_BERT_STATUS_STOPPED 0x03
#define WAN_TE_BERT_FLAG_VERBOSE 1
#define WAN_TE_BERT_FLAG_READY 2
#define WAN_TE_BERT_FLAG_INLOCK 3
#define WAN_TE_BERT_RC_SUCCESS 0
#define WAN_TE_BERT_RC_EINVAL 1
#define WAN_TE_BERT_RC_FAILED 2
#define WAN_TE_BERT_RC_RUNNING 3
#define WAN_TE_BERT_RC_STOPPED 4
#define WAN_TE_BERT_RC_DECODE(rc) \
((rc) == WAN_TE_BERT_RC_SUCCESS) ? "Success" : \
((rc) == WAN_TE_BERT_RC_EINVAL) ? "Invalid parameter" : \
((rc) == WAN_TE_BERT_RC_FAILED) ? "Failed" : \
((rc) == WAN_TE_BERT_RC_RUNNING) ? "BERT is still running" : \
((rc) == WAN_TE_BERT_RC_STOPPED) ? "BERT is not running" : \
"Unknown"
typedef struct
{
u_int32_t chan_map; /* */
u_int16_t pattern_type; /* pattern type */
u_int16_t pattern_len; /* pattern length */
u_int32_t pattern; /* pattern */
int count;
u_int8_t lb_type;
u_int16_t eib;
} sdla_te_bert_cfg_t;
typedef struct
{
int avail_sec; /* out: */
int err_sec; /* out: */
int err_free_sec; /* out: */
unsigned long bit_cnt; /* out: */
unsigned long err_cnt; /* out: */
int inlock; /* out: */
} sdla_te_bert_stats_t;
typedef struct
{
u_int32_t chan_map;
u_int8_t lb_type;
} sdla_te_bert_stop_t;
typedef struct
{
u_int8_t cmd;
int verbose;
int rc;
u_int8_t status;
union {
sdla_te_bert_cfg_t cfg;
sdla_te_bert_stats_t stats;
sdla_te_bert_stop_t stop;
} un;
} sdla_te_bert_t;
/*
******************************************************************************
STRUCTURES AND TYPEDEFS
******************************************************************************
*/
#ifdef WAN_KERNEL
/* Connection status threshold */
/* Original 5
** Note (May 7 2009: We are waiting at least 10 sec anyway for other alarms */
#define WAN_TE1_STATUS_THRESHOLD 3 /* Feb 18, 2010.
* DavidR: changed to 3 from 1 to
* avoid line bouncing during port
* startup. */
#define WAN_TE1_LBO(fe) FE_LBO(&((fe)->fe_cfg))
#define WAN_TE1_CLK(fe) FE_CLK(&((fe)->fe_cfg))
#define WAN_TE1_REFCLK(fe) FE_REFCLK(&((fe)->fe_cfg))
#define WAN_TE1_HI_MODE(fe) FE_HIMPEDANCE_MODE(&((fe)->fe_cfg))
#define WAN_TE1_ACTIVE_CH(fe) FE_ACTIVE_CH(&((fe)->fe_cfg))
#define WAN_TE1_SIG_MODE(fe) FE_SIG_MODE(&((fe)->fe_cfg))
#define TE_LBO_DECODE(fe) LBO_DECODE(&((fe)->fe_cfg))
#define TE_CLK_DECODE(fe) TECLK_DECODE(&((fe)->fe_cfg))
#define WAN_TE1_SIG_DECODE(fe) TE1SIG_DECODE(&((fe)->fe_cfg))
/* Read/Write to front-end register */
#if 0
#if 0
#define READ_REG(reg) card->wandev.read_front_end_reg(card, reg)
#define WRITE_REG(reg, value) card->wandev.write_front_end_reg(card, reg, (unsigned char)(value))
#endif
#define WRITE_REG(reg,val) \
fe->write_fe_reg( \
fe->card, \
(int)((reg) + (fe->fe_cfg.line_no*PMC4_LINE_DELTA)), \
(int)(val))
#define WRITE_REG_LINE(fe_line_no, reg,val) \
fe->write_fe_reg( \
fe->card, \
(int)((reg) + (fe_line_no)*PMC4_LINE_DELTA), \
(int)(val))
#define READ_REG(reg) \
fe->read_fe_reg( \
fe->card, \
(int)((reg) + (fe->fe_cfg.line_no*PMC4_LINE_DELTA)))
#define READ_REG_LINE(fe_line_no, reg) \
fe->read_fe_reg( \
fe->card, \
(int)((reg) + (fe_line_no)*PMC4_LINE_DELTA))
#endif
/* -----------------------------------------------------------------------------
* Constants for the SET_T1_E1_SIGNALING_CFG/READ_T1_E1_SIGNALING_CFG commands
* ---------------------------------------------------------------------------*/
/* the structure for setting the signaling permission */
#pragma pack(1)
typedef struct {
unsigned char time_slot[32];
} te_signaling_perm_t;
#pragma pack()
/* settings for the signaling permission structure */
#define TE_SIG_DISABLED 0x00 /* signaling is disabled */
#define TE_RX_SIG_ENABLED 0x01 /* receive signaling is enabled */
#define TE_TX_SIG_ENABLED 0x02 /* transmit signaling is enabled */
#define TE_SET_TX_SIG_BITS 0x80 /* a flag indicating that outgoing
signaling bits should be set */
/* the structure used for the
* SET_T1_E1_SIGNALING_CFG/READ_T1_E1_SIGNALING_CFG command
*/
#pragma pack(1)
typedef struct {
/* signaling permission structure */
te_signaling_perm_t sig_perm;
/* loop signaling processing counter */
unsigned char sig_processing_counter;
/* pointer to the signaling permission structure */
unsigned long ptr_te_sig_perm_struct;
/* pointer to the receive signaling structure */
unsigned long ptr_te_Rx_sig_struct;
/* pointer to the transmit signaling structure */
unsigned long ptr_te_Tx_sig_struct;
} te_signaling_cfg_t;
#pragma pack()
/* the structure used for reading and setting the signaling bits */
#pragma pack(1)
typedef struct {
unsigned char time_slot[32];
} te_signaling_status_t;
#pragma pack()
typedef struct {
unsigned long ch_map;
int rbs_channel; /* tx rbs per channel */
unsigned char rbs_abcd; /* tx rbs pec channel */
unsigned char lb_type; /* loopback type */
unsigned short reg; /* fe register */
unsigned char value; /* fe register value */
} sdla_te_event_t;
typedef struct {
unsigned char lb_tx_cmd;
unsigned char lb_tx_mode;
unsigned char lb_tx_code;
unsigned long lb_tx_cnt;
unsigned long critical;
//unsigned char timer_cmd;
//unsigned long timer_ch_map;
//int timer_channel; /* tx rbs per channel */
//int timer_delay;
//unsigned char timer_abcd; /* tx rbs pec channel */
unsigned char SIGX_chg_30_25;
unsigned char SIGX_chg_24_17;
unsigned char SIGX_chg_16_9;
unsigned char SIGX_chg_8_1;
unsigned long ptr_te_sig_perm_off;
unsigned long ptr_te_Rx_sig_off;
unsigned long ptr_te_Tx_sig_off;
unsigned char intr_src1;
unsigned char intr_src2;
unsigned char intr_src3;
unsigned int max_channels;
unsigned long rx_rbs_status;
unsigned char rx_rbs[32];
unsigned char tx_rbs[32];
unsigned long tx_rbs_A;
unsigned long tx_rbs_B;
unsigned long tx_rbs_C;
unsigned long tx_rbs_D;
unsigned long rx_rbs_A;
unsigned long rx_rbs_B;
unsigned long rx_rbs_C;
unsigned long rx_rbs_D;
unsigned char xlpg_scale;
u_int16_t status_cnt;
int reg_dbg_busy;
int reg_dbg_ready;
unsigned char reg_dbg_value;
wan_ticks_t crit_alarm_start;
unsigned int lb_mode_map;
int tx_yel_alarm;
unsigned int bert_flag;
wan_ticks_t bert_start;
sdla_te_bert_cfg_t bert_cfg;
sdla_te_bert_stats_t bert_stats;
uint8_t tx_ais_alarm;
wan_ticks_t tx_ais_startup_timeout;
} sdla_te_param_t;
/*
******************************************************************************
FUNCTION PROTOTYPES
******************************************************************************
*/
WP_EXTERN int sdla_te_default_cfg(void* pfe, void* fe_cfg, int media);
WP_EXTERN int sdla_te_copycfg(void* pfe, void* fe_cfg);
WP_EXTERN int sdla_te_iface_init(void *p_fe, void *p_fe_iface);
WP_EXTERN int sdla_ds_te1_iface_init(void *p_fe, void *p_fe_iface);
#endif /* WAN_KERNEL */
#undef WP_EXTERN
/* Deprecated defines */
#define WAN_TE_ALARM_MASK_FRAMER WAN_TE_ALARM_FRAMER_MASK
#define WAN_TE_ALARM_MASK_LIU WAN_TE_ALARM_LIU_MASK
#define WAN_TE_BIT_ALOS_ALARM WAN_TE_BIT_ALARM_ALOS
#define WAN_TE_BIT_LOS_ALARM WAN_TE_BIT_ALARM_LOS
#define WAN_TE_BIT_ALTLOS_ALARM WAN_TE_BIT_ALARM_ALTLOS
#define WAN_TE_BIT_OOF_ALARM WAN_TE_BIT_ALARM_OOF
#define WAN_TE_BIT_RED_ALARM WAN_TE_BIT_ALARM_RED
#define WAN_TE_BIT_AIS_ALARM WAN_TE_BIT_ALARM_AIS
#define WAN_TE_BIT_OOSMF_ALARM WAN_TE_BIT_ALARM_OOSMF
#define WAN_TE_BIT_OOCMF_ALARM WAN_TE_BIT_ALARM_OOCMF
#define WAN_TE_BIT_OOOF_ALARM WAN_TE_BIT_ALARM_OOOF
#define WAN_TE_BIT_RAI_ALARM WAN_TE_BIT_ALARM_RAI
#define WAN_TE_BIT_YEL_ALARM WAN_TE_BIT_ALARM_YEL
#define WAN_TE_BIT_LIU_ALARM WAN_TE_BIT_ALARM_LIU
#define WAN_TE_BIT_LIU_ALARM_SC WAN_TE_BIT_ALARM_LIU_SC
#define WAN_TE_BIT_LIU_ALARM_OC WAN_TE_BIT_ALARM_LIU_OC
#define WAN_TE_BIT_LIU_ALARM_LOS WAN_TE_BIT_ALARM_LIU_LOS
#define WAN_TE_ALARM(alarm, bit) ((alarm) & (bit)) ? "ON" : "OFF"
#define WAN_TE_ALOS_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_ALOS_ALARM)
#define WAN_TE_LOS_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_LOS_ALARM)
#define WAN_TE_OOF_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_OOF_ALARM)
#define WAN_TE_RED_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_RED_ALARM)
#define WAN_TE_AIS_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_AIS_ALARM)
#define WAN_TE_OOSMF_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_OOSMF_ALARM)
#define WAN_TE_OOCMF_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_OOCMF_ALARM)
#define WAN_TE_OOOF_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_OOOF_ALARM)
#define WAN_TE_RAI_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_RAI_ALARM)
#define WAN_TE_YEL_ALARM(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_YEL_ALARM)
#define WAN_TE_LIU_ALARM_SC(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_LIU_ALARM_SC)
#define WAN_TE_LIU_ALARM_OC(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_LIU_ALARM_OC)
#define WAN_TE_LIU_ALARM_LOS(alarm) WAN_TE_ALARM(alarm, WAN_TE_BIT_LIU_ALARM_LOS)
#endif /* _SDLA_TE1_H */
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