2013-07-02 00:09:10 +08:00
/*
* A4A , A4B , A8A , A8B TDM FXS / FXO Interface Driver for DAHDI Telephony interface
*
* Copyright ( C ) 2013 Digium , Inc .
* All rights reserved .
*
*/
/*
* See http : //www.asterisk.org for more information about
* the Asterisk project . Please do not directly contact
* any of the maintainers of this project for assistance ;
* the project provides a web site , mailing lists and IRC
* channels for your use .
*
* This program is free software , distributed under the terms of
* the GNU General Public License Version 2 as published by the
* Free Software Foundation . See the LICENSE file included with
* this program for more details .
*/
# define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
# include <linux/version.h>
# include <linux/kernel.h>
# include <linux/errno.h>
# include <linux/module.h>
# include <linux/init.h>
# include <linux/pci.h>
# include <linux/sched.h>
# include <linux/workqueue.h>
# include <linux/delay.h>
# include <linux/moduleparam.h>
# include <linux/firmware.h>
# include <linux/crc32.h>
# include <stdbool.h>
# if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 30)
/* Define this if you would like to load the modules in parallel. While this
* can speed up loads when multiple cards handled by this driver are installed ,
* it also makes it impossible to abort module loads with ctrl - c */
# undef USE_ASYNC_INIT
# include <linux/async.h>
# else
# undef USE_ASYNC_INIT
# endif
# include <dahdi/kernel.h>
# include <dahdi/wctdm_user.h>
2017-06-02 01:05:57 +08:00
# if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 11, 0)
# include <linux/sched/signal.h>
# endif /* 4.11.0 */
2013-07-02 00:09:10 +08:00
# include "proslic.h"
# include <dahdi/kernel.h>
# include <linux/version.h>
# include <linux/mutex.h>
# include <oct612x.h>
# include "wcxb.h"
# include "wcxb_spi.h"
# include "wcxb_flash.h"
/*!
* \ brief Default ringer debounce ( in ms )
*/
# define DEFAULT_RING_DEBOUNCE 1024
# define POLARITY_DEBOUNCE 64 /* Polarity debounce (in ms) */
# define OHT_TIMER 6000 /* How long after RING to retain OHT */
# define FLAG_EXPRESS (1 << 0)
# define NUM_MODULES 8
# define CMD_WR(addr, val) (((addr<<8)&0xff00) | (val&0xff))
enum battery_state {
BATTERY_UNKNOWN = 0 ,
BATTERY_DEBOUNCING_PRESENT ,
BATTERY_DEBOUNCING_PRESENT_FROM_LOST_ALARM ,
BATTERY_DEBOUNCING_PRESENT_ALARM ,
BATTERY_PRESENT ,
BATTERY_DEBOUNCING_LOST ,
BATTERY_DEBOUNCING_LOST_FROM_PRESENT_ALARM ,
BATTERY_DEBOUNCING_LOST_ALARM ,
BATTERY_LOST ,
} ;
enum ring_detector_state {
RINGOFF = 0 ,
DEBOUNCING_RINGING_POSITIVE ,
DEBOUNCING_RINGING_NEGATIVE ,
RINGING ,
DEBOUNCING_RINGOFF ,
} ;
enum polarity_state {
UNKNOWN_POLARITY = 0 ,
POLARITY_DEBOUNCE_POSITIVE ,
POLARITY_POSITIVE ,
POLARITY_DEBOUNCE_NEGATIVE ,
POLARITY_NEGATIVE ,
} ;
struct wcaxx_chan {
struct dahdi_chan chan ;
struct dahdi_echocan_state ec ;
int timeslot ;
unsigned int hwpreec_enabled : 1 ;
} ;
struct fxo {
enum ring_detector_state ring_state : 4 ;
enum battery_state battery_state : 4 ;
enum polarity_state polarity_state : 4 ;
u8 ring_polarity_change_count : 4 ;
u8 hook_ring_shadow ;
s8 line_voltage_status ;
int offhook ;
int neonmwi_state ;
int neonmwi_last_voltage ;
unsigned int neonmwi_debounce ;
unsigned int neonmwi_offcounter ;
unsigned long display_fxovoltage ;
unsigned long ringdebounce_timer ;
unsigned long battdebounce_timer ;
unsigned long poldebounce_timer ;
} ;
struct fxs {
int idletxhookstate ; /* IDLE changing hook state */
/* lasttxhook reflects the last value written to the proslic's reg 64
* ( LINEFEED_CONTROL ) in bits 0 - 2. Bit 4 indicates if the last write is
* pending i . e . it is in process of being written to the register NOTE :
* in order for this value to actually be written to the proslic , the
* appropriate matching value must be written into the sethook variable
* so that it gets queued and handled by the voicebus ISR .
*/
u8 lasttxhook ;
u8 linefeed_control_shadow ;
u8 hook_state_shadow ;
u8 oht_active : 1 ;
u8 off_hook : 1 ;
int palarms ;
struct dahdi_vmwi_info vmwisetting ;
int vmwi_active_messages ;
int vmwi_linereverse ;
int reversepolarity ; /* polarity reversal */
struct {
u8 vals [ 12 ] ;
} calregs ;
unsigned long check_alarm ;
unsigned long check_proslic ;
unsigned long oppending_timeout ;
unsigned long ohttimer ;
} ;
# define fxs_lf(fxs, value) _fxs_lf((fxs), SLIC_LF_##value)
static inline bool _fxs_lf ( const struct fxs * fxs , const unsigned value )
{
return ( fxs - > lasttxhook & SLIC_LF_SETMASK ) = = value ;
}
enum module_type {
NONE = 0 ,
FXS ,
FXO ,
} ;
# define MODULE_POLL_TIME_MS 10
struct wcaxx_mod_poll {
struct wcxb_spi_message m ;
struct wcxb_spi_transfer t ;
struct wcaxx_module * mod ;
struct wcaxx * wc ;
u8 buffer [ 6 ] ;
u8 master_buffer [ 6 ] ;
} ;
struct wcaxx_module {
union modtypes {
struct fxo fxo ;
struct fxs fxs ;
} mod ;
u8 card ;
u8 subaddr ;
enum module_type type ;
int sethook ; /* pending hook state command */
int dacssrc ;
struct wcxb_spi_device * spi ;
struct wcaxx_mod_poll * mod_poll ;
} ;
struct _device_desc {
const char * name ;
unsigned int ports ;
} ;
static const struct _device_desc device_a8a = { " Wildcard A8A " , 8 } ;
static const struct _device_desc device_a8b = { " Wildcard A8B " , 8 } ;
static const struct _device_desc device_a4a = { " Wildcard A4A " , 4 } ;
static const struct _device_desc device_a4b = { " Wildcard A4B " , 4 } ;
struct wcaxx {
const struct _device_desc * desc ;
const char * board_name ;
unsigned long framecount ;
unsigned long module_poll_time ;
int mods_per_board ;
spinlock_t reglock ;
struct wcaxx_module mods [ NUM_MODULES ] ;
struct wcxb xb ;
struct dahdi_span span ;
struct wcaxx_chan * chans [ NUM_MODULES ] ;
struct dahdi_echocan_state * ec [ NUM_MODULES ] ;
int companding ;
struct dahdi_device * ddev ;
struct wcxb_spi_master * master ;
# define INITIALIZED 0
unsigned long bit_flags ;
/* 4 SPI devices that are matched to the chip selects. The 4 port
* modules will share a single SPI device since they use the same chip
* select . */
struct wcxb_spi_device * spi_devices [ 4 ] ;
struct vpm450m * vpm ;
struct list_head card_node ;
u16 num ;
} ;
static inline bool is_pcie ( const struct wcaxx * wc )
{
return ( wc - > desc = = & device_a8b ) | | ( wc - > desc = = & device_a4b ) ;
}
static inline bool is_four_port ( const struct wcaxx * wc )
{
return ( 4 = = wc - > desc - > ports ) ;
}
# include <linux/slab.h>
# include <linux/vmalloc.h>
# include <linux/string.h>
# include <linux/time.h>
# include <linux/version.h>
# include <linux/firmware.h>
# include "oct6100api/oct6100_api.h"
# define ECHOCAN_NUM_CHANS 8
# define FLAG_DTMF (1 << 0)
# define FLAG_MUTE (1 << 1)
# define FLAG_ECHO (1 << 2)
# define OCT_CHIP_ID 0
# define OCT_MAX_TDM_STREAMS 4
# define OCT_TONEEVENT_BUFFER_SIZE 128
# define SOUT_STREAM 1
# define RIN_STREAM 0
# define SIN_STREAM 2
static int vpmsupport = 1 ;
static int wcaxx_vpm_init ( struct wcaxx * wc ) ;
static void echocan_free ( struct dahdi_chan * chan ,
struct dahdi_echocan_state * ec ) ;
static const struct dahdi_echocan_features vpm_ec_features = {
. NLP_automatic = 1 ,
. CED_tx_detect = 1 ,
. CED_rx_detect = 1 ,
} ;
static const struct dahdi_echocan_ops vpm_ec_ops = {
. echocan_free = echocan_free ,
} ;
struct vpm450m {
tPOCT6100_INSTANCE_API pApiInstance ;
struct oct612x_context context ;
UINT32 aulEchoChanHndl [ 32 ] ;
int chanflags [ 32 ] ;
int ecmode [ 32 ] ;
int numchans ;
} ;
static int wcaxx_oct612x_write ( struct oct612x_context * context ,
u32 address , u16 value )
{
struct wcaxx * wc = dev_get_drvdata ( context - > dev ) ;
wcxb_set_echocan_reg ( & wc - > xb , address , value ) ;
return 0 ;
}
static int wcaxx_oct612x_read ( struct oct612x_context * context , u32 address ,
u16 * value )
{
struct wcaxx * wc = dev_get_drvdata ( context - > dev ) ;
* value = wcxb_get_echocan_reg ( & wc - > xb , address ) ;
return 0 ;
}
static int wcaxx_oct612x_write_smear ( struct oct612x_context * context ,
u32 address , u16 value , size_t count )
{
unsigned int i ;
struct wcaxx * wc = dev_get_drvdata ( context - > dev ) ;
for ( i = 0 ; i < count ; + + i )
wcxb_set_echocan_reg ( & wc - > xb , address + ( i < < 1 ) , value ) ;
return 0 ;
}
static int wcaxx_oct612x_write_burst ( struct oct612x_context * context ,
u32 address , const u16 * buffer ,
size_t count )
{
unsigned int i ;
struct wcaxx * wc = dev_get_drvdata ( context - > dev ) ;
for ( i = 0 ; i < count ; + + i )
wcxb_set_echocan_reg ( & wc - > xb , address + ( i < < 1 ) , buffer [ i ] ) ;
return 0 ;
}
static int wcaxx_oct612x_read_burst ( struct oct612x_context * context ,
u32 address , u16 * buffer , size_t count )
{
unsigned int i ;
struct wcaxx * wc = dev_get_drvdata ( context - > dev ) ;
for ( i = 0 ; i < count ; + + i )
buffer [ i ] = wcxb_get_echocan_reg ( & wc - > xb , address + ( i < < 1 ) ) ;
return 0 ;
}
static const struct oct612x_ops wcaxx_oct612x_ops = {
. write = wcaxx_oct612x_write ,
. read = wcaxx_oct612x_read ,
. write_smear = wcaxx_oct612x_write_smear ,
. write_burst = wcaxx_oct612x_write_burst ,
. read_burst = wcaxx_oct612x_read_burst ,
} ;
static void vpm450m_setecmode ( struct vpm450m * vpm450m , int channel , int mode )
{
tOCT6100_CHANNEL_MODIFY * modify ;
UINT32 ulResult ;
if ( vpm450m - > ecmode [ channel ] = = mode )
return ;
modify = kzalloc ( sizeof ( tOCT6100_CHANNEL_MODIFY ) , GFP_ATOMIC ) ;
if ( ! modify ) {
pr_notice ( " Unable to allocate memory for setec! \n " ) ;
return ;
}
Oct6100ChannelModifyDef ( modify ) ;
modify - > ulEchoOperationMode = mode ;
modify - > ulChannelHndl = vpm450m - > aulEchoChanHndl [ channel ] ;
ulResult = Oct6100ChannelModify ( vpm450m - > pApiInstance , modify ) ;
if ( ulResult ! = GENERIC_OK ) {
pr_notice ( " Failed to apply echo can changes on channel %d %d %08x! \n " ,
vpm450m - > aulEchoChanHndl [ channel ] , channel , ulResult ) ;
} else {
# ifdef OCTASIC_DEBUG
pr_debug ( " Echo can on channel %d set to %d \n " , channel , mode ) ;
# endif
vpm450m - > ecmode [ channel ] = mode ;
}
kfree ( modify ) ;
}
static void vpm450m_setec ( struct vpm450m * vpm450m , int channel , int eclen )
{
if ( eclen ) {
vpm450m - > chanflags [ channel ] | = FLAG_ECHO ;
vpm450m_setecmode ( vpm450m , channel ,
cOCT6100_ECHO_OP_MODE_NORMAL ) ;
} else {
vpm450m - > chanflags [ channel ] & = ~ FLAG_ECHO ;
if ( vpm450m - > chanflags [ channel ] & ( FLAG_DTMF | FLAG_MUTE ) ) {
vpm450m_setecmode ( vpm450m , channel ,
cOCT6100_ECHO_OP_MODE_HT_RESET ) ;
} else {
vpm450m_setecmode ( vpm450m , channel ,
cOCT6100_ECHO_OP_MODE_POWER_DOWN ) ;
}
}
}
static UINT32 tdmmode_chan_to_slot_map ( int mode , int channel )
{
/* Four phases on the tdm bus, skip three of them per channel */
/* Due to a bug in the octasic, we had to move the data onto phase 2 */
return 1 + ( channel * 4 ) ;
}
static int echocan_initialize_channel ( struct vpm450m * vpm ,
int channel , int mode )
{
tOCT6100_CHANNEL_OPEN ChannelOpen ;
UINT32 law_to_use = cOCT6100_PCM_U_LAW ;
UINT32 tdmslot_setting ;
UINT32 ulResult ;
if ( 0 > channel | | ECHOCAN_NUM_CHANS < = channel )
return - 1 ;
tdmslot_setting = tdmmode_chan_to_slot_map ( mode , channel ) ;
/* Fill Open channel structure with defaults */
Oct6100ChannelOpenDef ( & ChannelOpen ) ;
/* Assign the handle memory.*/
ChannelOpen . pulChannelHndl = & vpm - > aulEchoChanHndl [ channel ] ;
ChannelOpen . ulUserChanId = channel ;
/* Enable Tone disabling for Fax and Modems */
ChannelOpen . fEnableToneDisabler = TRUE ;
/* Passthrough TDM data by default, no echocan */
ChannelOpen . ulEchoOperationMode = cOCT6100_ECHO_OP_MODE_POWER_DOWN ;
/* Configure the TDM settings.*/
/* Input from the framer */
ChannelOpen . TdmConfig . ulSinStream = SIN_STREAM ;
ChannelOpen . TdmConfig . ulSinTimeslot = tdmslot_setting ;
ChannelOpen . TdmConfig . ulSinPcmLaw = law_to_use ;
/* Input from the Host (pre-framer) */
ChannelOpen . TdmConfig . ulRinStream = RIN_STREAM ;
ChannelOpen . TdmConfig . ulRinTimeslot = tdmslot_setting ;
ChannelOpen . TdmConfig . ulRinPcmLaw = law_to_use ;
/* Output to the Host */
ChannelOpen . TdmConfig . ulSoutStream = SOUT_STREAM ;
ChannelOpen . TdmConfig . ulSoutTimeslot = tdmslot_setting ;
ChannelOpen . TdmConfig . ulSoutPcmLaw = law_to_use ;
/* From asterisk after echo-cancellation - goes nowhere */
ChannelOpen . TdmConfig . ulRoutStream = cOCT6100_UNASSIGNED ;
ChannelOpen . TdmConfig . ulRoutTimeslot = cOCT6100_UNASSIGNED ;
ChannelOpen . TdmConfig . ulRoutPcmLaw = law_to_use ;
/* Set the desired VQE features.*/
ChannelOpen . VqeConfig . fEnableNlp = TRUE ;
ChannelOpen . VqeConfig . fRinDcOffsetRemoval = TRUE ;
ChannelOpen . VqeConfig . fSinDcOffsetRemoval = TRUE ;
ChannelOpen . VqeConfig . ulComfortNoiseMode =
cOCT6100_COMFORT_NOISE_NORMAL ;
/* Open the channel.*/
ulResult = Oct6100ChannelOpen ( vpm - > pApiInstance , & ChannelOpen ) ;
return ulResult ;
}
static struct vpm450m * init_vpm450m ( struct wcaxx * wc , int isalaw ,
const struct firmware * firmware )
{
tOCT6100_CHIP_OPEN * ChipOpen ;
tOCT6100_GET_INSTANCE_SIZE InstanceSize ;
tOCT6100_CHANNEL_OPEN * ChannelOpen ;
UINT32 ulResult ;
struct vpm450m * vpm450m ;
int x , i ;
vpm450m = kzalloc ( sizeof ( struct vpm450m ) , GFP_KERNEL ) ;
if ( ! vpm450m ) {
dev_info ( & wc - > xb . pdev - > dev , " Unable to allocate vpm450m struct \n " ) ;
return NULL ;
}
vpm450m - > context . dev = & wc - > xb . pdev - > dev ;
vpm450m - > context . ops = & wcaxx_oct612x_ops ;
ChipOpen = kzalloc ( sizeof ( tOCT6100_CHIP_OPEN ) , GFP_KERNEL ) ;
if ( ! ChipOpen ) {
dev_info ( & wc - > xb . pdev - > dev , " Unable to allocate ChipOpen \n " ) ;
kfree ( vpm450m ) ;
return NULL ;
}
ChannelOpen = kzalloc ( sizeof ( tOCT6100_CHANNEL_OPEN ) , GFP_KERNEL ) ;
if ( ! ChannelOpen ) {
dev_info ( & wc - > xb . pdev - > dev , " Unable to allocate ChannelOpen \n " ) ;
kfree ( vpm450m ) ;
kfree ( ChipOpen ) ;
return NULL ;
}
for ( x = 0 ; x < ARRAY_SIZE ( vpm450m - > ecmode ) ; x + + )
vpm450m - > ecmode [ x ] = - 1 ;
vpm450m - > numchans = ECHOCAN_NUM_CHANS ;
dev_info ( & wc - > xb . pdev - > dev , " Echo cancellation for %d channels \n " ,
wc - > desc - > ports ) ;
Oct6100ChipOpenDef ( ChipOpen ) ;
ChipOpen - > pProcessContext = & vpm450m - > context ;
/* Change default parameters as needed */
/* upclk oscillator is at 33.33 Mhz */
ChipOpen - > ulUpclkFreq = cOCT6100_UPCLK_FREQ_33_33_MHZ ;
/* mclk will be generated by internal PLL at 133 Mhz */
ChipOpen - > fEnableMemClkOut = TRUE ;
ChipOpen - > ulMemClkFreq = cOCT6100_MCLK_FREQ_133_MHZ ;
/* User defined Chip ID.*/
ChipOpen - > ulUserChipId = OCT_CHIP_ID ;
/* Set the maximums that the chip needs to support */
ChipOpen - > ulMaxChannels = vpm450m - > numchans ;
ChipOpen - > ulMaxTdmStreams = OCT_MAX_TDM_STREAMS ;
/* External Memory Settings */
/* Use DDR memory.*/
ChipOpen - > ulMemoryType = cOCT6100_MEM_TYPE_DDR ;
ChipOpen - > ulNumMemoryChips = 1 ;
ChipOpen - > ulMemoryChipSize = cOCT6100_MEMORY_CHIP_SIZE_32MB ;
ChipOpen - > pbyImageFile = ( PUINT8 ) firmware - > data ;
ChipOpen - > ulImageSize = firmware - > size ;
/* Set TDM data stream frequency */
for ( i = 0 ; i < ChipOpen - > ulMaxTdmStreams ; i + + )
ChipOpen - > aulTdmStreamFreqs [ i ] = cOCT6100_TDM_STREAM_FREQ_8MHZ ;
/* Configure TDM sampling */
ChipOpen - > ulTdmSampling = cOCT6100_TDM_SAMPLE_AT_FALLING_EDGE ;
/* Disable to save RAM footprint space */
ChipOpen - > fEnableChannelRecording = FALSE ;
/* In this example we will maintain the API using polling so interrupts
* must be disabled */
ChipOpen - > InterruptConfig . ulErrorH100Config =
cOCT6100_INTERRUPT_DISABLE ;
ChipOpen - > InterruptConfig . ulErrorMemoryConfig =
cOCT6100_INTERRUPT_DISABLE ;
ChipOpen - > InterruptConfig . ulFatalGeneralConfig =
cOCT6100_INTERRUPT_DISABLE ;
ChipOpen - > InterruptConfig . ulFatalMemoryConfig =
cOCT6100_INTERRUPT_DISABLE ;
ChipOpen - > ulSoftToneEventsBufSize = OCT_TONEEVENT_BUFFER_SIZE ;
/* Inserting default values into tOCT6100_GET_INSTANCE_SIZE structure
* parameters . */
Oct6100GetInstanceSizeDef ( & InstanceSize ) ;
/* Get the size of the OCT6100 instance structure. */
ulResult = Oct6100GetInstanceSize ( ChipOpen , & InstanceSize ) ;
if ( ulResult ! = cOCT6100_ERR_OK ) {
dev_info ( & wc - > xb . pdev - > dev , " Unable to get instance size: %x \n " ,
ulResult ) ;
return NULL ;
}
vpm450m - > pApiInstance = vmalloc ( InstanceSize . ulApiInstanceSize ) ;
if ( ! vpm450m - > pApiInstance ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Out of memory (can't allocate %d bytes)! \n " ,
InstanceSize . ulApiInstanceSize ) ;
return NULL ;
}
/* Perform the actual configuration of the chip. */
wcxb_enable_echocan_dram ( & wc - > xb ) ;
ulResult = Oct6100ChipOpen ( vpm450m - > pApiInstance , ChipOpen ) ;
if ( ulResult ! = cOCT6100_ERR_OK ) {
dev_info ( & wc - > xb . pdev - > dev , " Unable to Oct6100ChipOpen: %x \n " ,
ulResult ) ;
return NULL ;
}
/* OCT6100 is now booted and channels can be opened */
/* Open all channels */
for ( i = 0 ; i < ECHOCAN_NUM_CHANS ; i + + ) {
ulResult = echocan_initialize_channel ( vpm450m , i , isalaw ) ;
if ( 0 ! = ulResult ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Unable to echocan_initialize_channel: %x \n " ,
ulResult ) ;
return NULL ;
}
}
if ( vpmsupport )
wcxb_enable_echocan ( & wc - > xb ) ;
else
wcxb_disable_echocan ( & wc - > xb ) ;
kfree ( ChipOpen ) ;
kfree ( ChannelOpen ) ;
return vpm450m ;
}
static void release_vpm450m ( struct vpm450m * vpm450m )
{
UINT32 ulResult ;
tOCT6100_CHIP_CLOSE ChipClose ;
Oct6100ChipCloseDef ( & ChipClose ) ;
ulResult = Oct6100ChipClose ( vpm450m - > pApiInstance , & ChipClose ) ;
if ( ulResult ! = cOCT6100_ERR_OK )
pr_notice ( " Failed to close chip, code %08x! \n " , ulResult ) ;
vfree ( vpm450m - > pApiInstance ) ;
kfree ( vpm450m ) ;
}
static const char * wcaxx_echocan_name ( const struct dahdi_chan * chan )
{
struct wcaxx * wc = chan - > pvt ;
if ( wc - > vpm )
return " VPMOCT032 " ;
else
return NULL ;
}
static int wcaxx_echocan_create ( struct dahdi_chan * chan ,
struct dahdi_echocanparams * ecp ,
struct dahdi_echocanparam * p ,
struct dahdi_echocan_state * * ec )
{
struct wcaxx * wc = chan - > pvt ;
int channel ;
const struct dahdi_echocan_ops * ops ;
const struct dahdi_echocan_features * features ;
if ( ! vpmsupport | | ! wc - > vpm )
return - ENODEV ;
ops = & vpm_ec_ops ;
features = & vpm_ec_features ;
if ( ecp - > param_count > 0 ) {
dev_warn ( & wc - > xb . pdev - > dev ,
" %s echo canceller does not support parameters; failing request \n " ,
chan - > ec_factory - > get_name ( chan ) ) ;
return - EINVAL ;
}
* ec = wc - > ec [ chan - > chanpos - 1 ] ;
( * ec ) - > ops = ops ;
( * ec ) - > features = * features ;
channel = chan - > chanpos - 1 ;
if ( wc - > vpm )
vpm450m_setec ( wc - > vpm , channel , ecp - > tap_length ) ;
return 0 ;
}
static void echocan_free ( struct dahdi_chan * chan ,
struct dahdi_echocan_state * ec )
{
struct wcaxx * wc = chan - > pvt ;
int channel ;
memset ( ec , 0 , sizeof ( * ec ) ) ;
channel = chan - > chanpos - 1 ;
if ( wc - > vpm )
vpm450m_setec ( wc - > vpm , channel , 0 ) ;
}
static int wcaxx_vpm_init ( struct wcaxx * wc )
{
int companding = 0 ;
struct firmware embedded_firmware ;
const struct firmware * firmware = & embedded_firmware ;
# if !defined(HOTPLUG_FIRMWARE)
extern void _binary_dahdi_fw_oct6114_032_bin_size ;
extern u8 _binary_dahdi_fw_oct6114_032_bin_start [ ] ;
# else
static const char oct032_firmware [ ] = " dahdi-fw-oct6114-032.bin " ;
# endif
int res ;
if ( ! vpmsupport ) {
dev_info ( & wc - > xb . pdev - > dev , " VPM: Support Disabled \n " ) ;
return - 1 ;
}
wcxb_reset_echocan ( & wc - > xb ) ;
if ( ! wcxb_is_echocan_present ( & wc - > xb ) ) {
dev_info ( & wc - > xb . pdev - > dev , " VPM not present. \n " ) ;
return - 1 ;
}
# if defined(HOTPLUG_FIRMWARE)
res = request_firmware ( & firmware , oct032_firmware , & wc - > xb . pdev - > dev ) ;
if ( ( 0 ! = res ) | | ! firmware ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" VPM450: firmware %s not available from userspace \n " ,
oct032_firmware ) ;
return - 1 ;
}
# else
embedded_firmware . data = _binary_dahdi_fw_oct6114_032_bin_start ;
/* Yes... this is weird. objcopy gives us a symbol containing
the size of the firmware , not a pointer a variable containing
the size . The only way we can get the value of the symbol
is to take its address , so we define it as a pointer and
then cast that value to the proper type .
*/
embedded_firmware . size = ( size_t ) & _binary_dahdi_fw_oct6114_032_bin_size ;
# endif
wc - > vpm = init_vpm450m ( wc , companding , firmware ) ;
if ( ! wc - > vpm ) {
dev_notice ( & wc - > xb . pdev - > dev , " VPM450: Failed to initialize \n " ) ;
if ( firmware ! = & embedded_firmware )
release_firmware ( firmware ) ;
return - EIO ;
}
if ( firmware ! = & embedded_firmware )
release_firmware ( firmware ) ;
dev_info ( & wc - > xb . pdev - > dev ,
" VPM450: Present and operational servicing %d span \n " , 1 ) ;
return 0 ;
}
static inline bool is_initialized ( struct wcaxx * wc )
{
return ( test_bit ( INITIALIZED , & wc - > bit_flags ) > 0 ) ;
}
static inline struct wcxb_spi_device *
_get_spi_device_for_8_port ( struct wcaxx * wc , unsigned int port , bool altcs )
{
switch ( port ) {
case 0 :
return wc - > spi_devices [ 0 ] ;
case 1 :
return ( altcs ) ? wc - > spi_devices [ 0 ] : wc - > spi_devices [ 1 ] ;
case 2 :
WARN_ON ( ! altcs ) ;
return wc - > spi_devices [ 0 ] ;
case 3 :
WARN_ON ( ! altcs ) ;
return wc - > spi_devices [ 0 ] ;
case 4 :
return wc - > spi_devices [ 2 ] ;
case 5 :
return ( altcs ) ? wc - > spi_devices [ 2 ] : wc - > spi_devices [ 3 ] ;
case 6 :
WARN_ON ( ! altcs ) ;
return wc - > spi_devices [ 2 ] ;
case 7 :
WARN_ON ( ! altcs ) ;
return wc - > spi_devices [ 2 ] ;
default :
WARN_ON ( 1 ) ;
return wc - > spi_devices [ 0 ] ;
}
}
static inline struct wcxb_spi_device *
_get_spi_device_for_4_port ( struct wcaxx * wc , unsigned int port )
{
if ( port > 3 ) {
WARN_ON ( 1 ) ;
return wc - > spi_devices [ 0 ] ;
} else {
return wc - > spi_devices [ port ] ;
}
}
static inline struct wcxb_spi_device *
get_spi_device_for_port ( struct wcaxx * wc , unsigned int port , bool altcs )
{
if ( is_four_port ( wc ) )
return _get_spi_device_for_4_port ( wc , port ) ;
else
return _get_spi_device_for_8_port ( wc , port , altcs ) ;
}
static u8 wcaxx_getreg ( struct wcaxx * wc ,
struct wcaxx_module * const mod , int addr ) ;
static void wcaxx_setreg ( struct wcaxx * wc , struct wcaxx_module * const mod ,
int addr , int val ) ;
static DEFINE_MUTEX ( card_list_lock ) ;
static LIST_HEAD ( card_list ) ;
# include "adt_lec.h"
/*
Experimental max loop current limit for the proslic
Loop current limit is from 20 mA to 41 mA in steps of 3
( according to datasheet )
So set the value below to :
0x00 : 20 mA ( default )
0x01 : 23 mA
0x02 : 26 mA
0x03 : 29 mA
0x04 : 32 mA
0x05 : 35 mA
0x06 : 37 mA
0x07 : 41 mA
*/
static int loopcurrent = 20 ;
/* Following define is a logical exclusive OR to determine if the polarity of
* an fxs line is to be reversed . The items taken into account are :
* overall polarity reversal for the module ,
* polarity reversal for the port ,
* and the state of the line reversal MWI indicator
*/
# define POLARITY_XOR(fxs) \
( ( reversepolarity ! = 0 ) ^ ( ( fxs ) - > reversepolarity ! = 0 ) ^ \
( ( fxs ) - > vmwi_linereverse ! = 0 ) )
static int reversepolarity ;
static alpha indirect_regs [ ] = {
{ 0 , 255 , " DTMF_ROW_0_PEAK " , 0x55C2 } ,
{ 1 , 255 , " DTMF_ROW_1_PEAK " , 0x51E6 } ,
{ 2 , 255 , " DTMF_ROW2_PEAK " , 0x4B85 } ,
{ 3 , 255 , " DTMF_ROW3_PEAK " , 0x4937 } ,
{ 4 , 255 , " DTMF_COL1_PEAK " , 0x3333 } ,
{ 5 , 255 , " DTMF_FWD_TWIST " , 0x0202 } ,
{ 6 , 255 , " DTMF_RVS_TWIST " , 0x0202 } ,
{ 7 , 255 , " DTMF_ROW_RATIO_TRES " , 0x0198 } ,
{ 8 , 255 , " DTMF_COL_RATIO_TRES " , 0x0198 } ,
{ 9 , 255 , " DTMF_ROW_2ND_ARM " , 0x0611 } ,
{ 10 , 255 , " DTMF_COL_2ND_ARM " , 0x0202 } ,
{ 11 , 255 , " DTMF_PWR_MIN_TRES " , 0x00E5 } ,
{ 12 , 255 , " DTMF_OT_LIM_TRES " , 0x0A1C } ,
{ 13 , 0 , " OSC1_COEF " , 0x7B30 } ,
{ 14 , 1 , " OSC1X " , 0x0063 } ,
{ 15 , 2 , " OSC1Y " , 0x0000 } ,
{ 16 , 3 , " OSC2_COEF " , 0x7870 } ,
{ 17 , 4 , " OSC2X " , 0x007D } ,
{ 18 , 5 , " OSC2Y " , 0x0000 } ,
{ 19 , 6 , " RING_V_OFF " , 0x0000 } ,
{ 20 , 7 , " RING_OSC " , 0x7EF0 } ,
{ 21 , 8 , " RING_X " , 0x0160 } ,
{ 22 , 9 , " RING_Y " , 0x0000 } ,
{ 23 , 255 , " PULSE_ENVEL " , 0x2000 } ,
{ 24 , 255 , " PULSE_X " , 0x2000 } ,
{ 25 , 255 , " PULSE_Y " , 0x0000 } ,
{ 26 , 13 , " RECV_DIGITAL_GAIN " , 0x2000 } , /* playback volume set lower */
{ 27 , 14 , " XMIT_DIGITAL_GAIN " , 0x4000 } ,
{ 28 , 15 , " LOOP_CLOSE_TRES " , 0x1000 } ,
{ 29 , 16 , " RING_TRIP_TRES " , 0x3600 } ,
{ 30 , 17 , " COMMON_MIN_TRES " , 0x1000 } ,
{ 31 , 18 , " COMMON_MAX_TRES " , 0x0200 } ,
{ 32 , 19 , " PWR_ALARM_Q1Q2 " , 0x07C0 } ,
{ 33 , 20 , " PWR_ALARM_Q3Q4 " , 0x4C00 /* 0x2600 */ } ,
{ 34 , 21 , " PWR_ALARM_Q5Q6 " , 0x1B80 } ,
{ 35 , 22 , " LOOP_CLOSURE_FILTER " , 0x8000 } ,
{ 36 , 23 , " RING_TRIP_FILTER " , 0x0320 } ,
{ 37 , 24 , " TERM_LP_POLE_Q1Q2 " , 0x008C } ,
{ 38 , 25 , " TERM_LP_POLE_Q3Q4 " , 0x0100 } ,
{ 39 , 26 , " TERM_LP_POLE_Q5Q6 " , 0x0010 } ,
{ 40 , 27 , " CM_BIAS_RINGING " , 0x0C00 } ,
{ 41 , 64 , " DCDC_MIN_V " , 0x0C00 } ,
{ 42 , 255 , " DCDC_XTRA " , 0x1000 } ,
{ 43 , 66 , " LOOP_CLOSE_TRES_LOW " , 0x1000 } ,
} ;
/* Undefine to enable Power alarm / Transistor debug -- note: do not
enable for normal operation ! */
/* #define PAQ_DEBUG */
# define DEBUG_CARD (1 << 0)
# define DEBUG_ECHOCAN (1 << 1)
# include "fxo_modes.h"
static inline struct dahdi_chan *
get_dahdi_chan ( const struct wcaxx * wc , struct wcaxx_module * const mod )
{
return wc - > span . chans [ mod - > card ] ;
}
static inline void mod_hooksig ( struct wcaxx * wc ,
struct wcaxx_module * mod ,
enum dahdi_rxsig rxsig )
{
dahdi_hooksig ( get_dahdi_chan ( wc , mod ) , rxsig ) ;
}
static void wcaxx_release ( struct wcaxx * wc ) ;
static int fxovoltage ;
static unsigned int battdebounce ;
static unsigned int battalarm ;
static unsigned int battthresh ;
static int debug ;
static int int_mode ;
# ifdef DEBUG
static int robust ;
static int digitalloopback ;
# endif
static int lowpower ;
static int boostringer ;
static int fastringer ;
static int _opermode ;
static char * opermode = " FCC " ;
static int fxshonormode ;
static int alawoverride ;
static char * companding = " auto " ;
static int fastpickup = - 1 ; /* -1 auto, 0 no, 1 yes */
static int fxotxgain ;
static int fxorxgain ;
static int fxstxgain ;
static int fxsrxgain ;
static int nativebridge ;
static int ringdebounce = DEFAULT_RING_DEBOUNCE ;
static int latency = WCXB_DEFAULT_LATENCY ;
static unsigned int max_latency = WCXB_DEFAULT_MAXLATENCY ;
static int forceload ;
# define MS_PER_HOOKCHECK (1)
# define NEONMWI_ON_DEBOUNCE (100 / MS_PER_HOOKCHECK)
static int neonmwi_monitor ;
static int neonmwi_level = 75 ; /* neon mwi trip voltage */
static int neonmwi_envelope = 10 ;
/* Time in milliseconds the monitor is checked before saying no message is
* waiting */
static int neonmwi_offlimit = 16000 ;
static int neonmwi_offlimit_cycles ;
static int wcaxx_init_proslic ( struct wcaxx * wc ,
struct wcaxx_module * const mod , int fast ,
int manual , int sane ) ;
struct wcaxx_setreg_memory {
struct wcxb_spi_message m ;
struct wcxb_spi_transfer t ;
u8 buffer [ 3 ] ;
} ;
/**
* wcxb_spi_complete_setreg - Cleanup after a SPI write .
*
* We don ' t care about the results of setreg . Just go ahead and free up the
* messages .
*
*/
static void wcaxx_complete_setreg ( void * arg )
{
struct wcaxx_setreg_memory * setreg = arg ;
kfree ( setreg ) ;
}
static void wcaxx_setreg ( struct wcaxx * wc , struct wcaxx_module * mod ,
int addr , int val )
{
struct wcaxx_setreg_memory * setreg = kzalloc ( sizeof ( * setreg ) ,
GFP_ATOMIC ) ;
struct wcxb_spi_message * const m = & setreg - > m ;
struct wcxb_spi_transfer * const t = & setreg - > t ;
if ( ! setreg ) {
WARN_ON_ONCE ( ! setreg ) ;
return ;
}
wcxb_spi_message_init ( m ) ;
t - > tx_buf = setreg - > buffer ;
wcxb_spi_message_add_tail ( t , m ) ;
if ( FXO = = mod - > type ) {
static const int ADDRS [ 4 ] = { 0x00 , 0x08 , 0x04 , 0x0c } ;
setreg - > buffer [ 0 ] = 0x20 | ADDRS [ mod - > subaddr ] ;
} else {
setreg - > buffer [ 0 ] = 1 < < mod - > subaddr ;
}
setreg - > buffer [ 1 ] = ( addr ) & 0x7f ;
setreg - > buffer [ 2 ] = val ;
t - > len = 3 ;
m - > complete = & wcaxx_complete_setreg ;
m - > arg = setreg ;
wcxb_spi_async ( mod - > spi , m ) ;
}
/**
* wcaxx_fsxinit - Initilize all SPI devices to 3 byte mode .
*
* All the modules on the card need to be initialized to 3 byte mode in order to
* talk to the daisy - chained SLIC / DAA on the quad modules .
*
*/
static void wcaxx_fxsinit ( struct wcxb_spi_device * const spi )
{
int res ;
u8 data_byte [ 2 ] = { 0 , 0x80 } ;
struct wcxb_spi_transfer t ;
struct wcxb_spi_message m ;
memset ( & t , 0 , sizeof ( t ) ) ;
wcxb_spi_message_init ( & m ) ;
t . tx_buf = data_byte ;
t . len = sizeof ( data_byte ) ;
wcxb_spi_message_add_tail ( & t , & m ) ;
res = wcxb_spi_sync ( spi , & m ) ;
WARN_ON_ONCE ( 0 ! = res ) ;
return ;
}
static u8
wcaxx_getreg ( struct wcaxx * wc , struct wcaxx_module * const mod , int addr )
{
int res ;
u8 buffer [ 3 ] ;
struct wcxb_spi_message m ;
struct wcxb_spi_transfer t ;
memset ( & t , 0 , sizeof ( t ) ) ;
wcxb_spi_message_init ( & m ) ;
t . tx_buf = t . rx_buf = buffer ;
t . len = sizeof ( buffer ) ;
wcxb_spi_message_add_tail ( & t , & m ) ;
if ( FXO = = mod - > type ) {
static const int ADDRS [ 4 ] = { 0x00 , 0x08 , 0x04 , 0x0c } ;
buffer [ 0 ] = 0x60 | ADDRS [ mod - > subaddr ] ;
buffer [ 1 ] = addr & 0x7f ;
buffer [ 2 ] = 0 ;
} else {
buffer [ 0 ] = 1 < < mod - > subaddr ;
buffer [ 1 ] = ( addr | 0x80 ) & 0xff ;
buffer [ 2 ] = 0 ;
}
res = wcxb_spi_sync ( mod - > spi , & m ) ;
WARN_ON_ONCE ( 0 ! = res ) ;
return buffer [ 2 ] ;
}
static int wcaxx_getregs ( struct wcaxx * wc , struct wcaxx_module * const mod ,
int * const addresses , const size_t count )
{
int x ;
for ( x = 0 ; x < count ; + + x )
addresses [ x ] = wcaxx_getreg ( wc , mod , addresses [ x ] ) ;
return 0 ;
}
static int wait_access ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
unsigned char data = 0 ;
int count = 0 ;
# define MAX 10 /* attempts */
/* Wait for indirect access */
while ( count + + < MAX ) {
data = wcaxx_getreg ( wc , mod , I_STATUS ) ;
if ( ! data )
return 0 ;
}
if ( count > ( MAX - 1 ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ##### Loop error (%02x) ##### \n " , data ) ;
}
return 0 ;
}
static unsigned char translate_3215 ( unsigned char address )
{
int x ;
for ( x = 0 ; x < ARRAY_SIZE ( indirect_regs ) ; x + + ) {
if ( indirect_regs [ x ] . address = = address ) {
address = indirect_regs [ x ] . altaddr ;
break ;
}
}
return address ;
}
static int wcaxx_proslic_setreg_indirect ( struct wcaxx * wc ,
struct wcaxx_module * const mod ,
unsigned char address ,
unsigned short data )
{
int res = - 1 ;
address = translate_3215 ( address ) ;
if ( address = = 255 )
return 0 ;
if ( ! wait_access ( wc , mod ) ) {
wcaxx_setreg ( wc , mod , IDA_LO , ( u8 ) ( data & 0xFF ) ) ;
wcaxx_setreg ( wc , mod , IDA_HI , ( u8 ) ( ( data & 0xFF00 ) > > 8 ) ) ;
wcaxx_setreg ( wc , mod , IAA , address ) ;
res = 0 ;
} ;
return res ;
}
static int wcaxx_proslic_getreg_indirect ( struct wcaxx * wc ,
struct wcaxx_module * const mod ,
unsigned char address )
{
int res = - 1 ;
char * p = NULL ;
address = translate_3215 ( address ) ;
if ( address = = 255 )
return 0 ;
if ( ! wait_access ( wc , mod ) ) {
wcaxx_setreg ( wc , mod , IAA , address ) ;
if ( ! wait_access ( wc , mod ) ) {
int addresses [ 2 ] = { IDA_LO , IDA_HI } ;
wcaxx_getregs ( wc , mod , addresses ,
ARRAY_SIZE ( addresses ) ) ;
res = addresses [ 0 ] | ( addresses [ 1 ] < < 8 ) ;
} else
p = " Failed to wait inside \n " ;
} else
p = " failed to wait \n " ;
if ( p )
dev_notice ( & wc - > xb . pdev - > dev , " %s " , p ) ;
return res ;
}
static int
wcaxx_proslic_init_indirect_regs ( struct wcaxx * wc , struct wcaxx_module * mod )
{
unsigned char i ;
for ( i = 0 ; i < ARRAY_SIZE ( indirect_regs ) ; i + + ) {
if ( wcaxx_proslic_setreg_indirect ( wc , mod ,
indirect_regs [ i ] . address ,
indirect_regs [ i ] . initial ) )
return - 1 ;
}
return 0 ;
}
static int wcaxx_proslic_verify_indirect_regs ( struct wcaxx * wc ,
struct wcaxx_module * mod )
{
int passed = 1 ;
unsigned short i , initial ;
int j ;
for ( i = 0 ; i < ARRAY_SIZE ( indirect_regs ) ; i + + ) {
j = wcaxx_proslic_getreg_indirect ( wc , mod ,
( u8 ) indirect_regs [ i ] . address ) ;
if ( j < 0 ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Failed to read indirect register %d \n " , i ) ;
return - 1 ;
}
initial = indirect_regs [ i ] . initial ;
if ( ( j ! = initial ) & & ( indirect_regs [ i ] . altaddr ! = 255 ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" !!!!!!! %s iREG %X = %X should be %X \n " ,
indirect_regs [ i ] . name ,
indirect_regs [ i ] . address , j , initial ) ;
passed = 0 ;
}
}
if ( passed ) {
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Init Indirect Registers completed successfully. \n " ) ;
}
} else {
dev_notice ( & wc - > xb . pdev - > dev ,
" !!!!! Init Indirect Registers UNSUCCESSFULLY. \n " ) ;
return - 1 ;
}
return 0 ;
}
/**
* wcaxx_proslic_check_oppending -
*
* Ensures that a write to the line feed register on the SLIC has been
* processed . If it hasn ' t after the timeout value , then it will resend the
* command and wait for another timeout period .
*
*/
static void wcaxx_proslic_check_oppending ( struct wcaxx * wc ,
struct wcaxx_module * const mod )
{
struct fxs * const fxs = & mod - > mod . fxs ;
unsigned long flags ;
if ( ! ( fxs - > lasttxhook & SLIC_LF_OPPENDING ) )
return ;
/* Monitor the Pending LF state change, for the next 100ms */
spin_lock_irqsave ( & wc - > reglock , flags ) ;
if ( ! ( fxs - > lasttxhook & SLIC_LF_OPPENDING ) ) {
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
return ;
}
if ( ( fxs - > linefeed_control_shadow & SLIC_LF_SETMASK ) = =
( fxs - > lasttxhook & SLIC_LF_SETMASK ) ) {
fxs - > lasttxhook & = SLIC_LF_SETMASK ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" SLIC_LF OK: card=%d shadow=%02x "
" lasttxhook=%02x framecount=%ld \n " , mod - > card ,
fxs - > linefeed_control_shadow ,
fxs - > lasttxhook , wc - > framecount ) ;
}
} else if ( time_after ( wc - > framecount , fxs - > oppending_timeout ) ) {
/* Check again in 100 ms */
fxs - > oppending_timeout = wc - > framecount + 100 ;
wcaxx_setreg ( wc , mod , LINE_STATE , fxs - > lasttxhook ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" SLIC_LF RETRY: card=%d shadow=%02x "
" lasttxhook=%02x framecount=%ld \n " , mod - > card ,
fxs - > linefeed_control_shadow ,
fxs - > lasttxhook , wc - > framecount ) ;
}
}
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
}
/* 256ms interrupt */
static void wcaxx_proslic_recheck_sanity ( struct wcaxx * wc ,
struct wcaxx_module * const mod )
{
struct fxs * const fxs = & mod - > mod . fxs ;
int res ;
unsigned long flags ;
const unsigned int MAX_ALARMS = 10 ;
# ifdef PAQ_DEBUG
res = mod - > isrshadow [ 1 ] ;
res & = ~ 0x3 ;
if ( res ) {
mod - > isrshadow [ 1 ] = 0 ;
fxs - > palarms + + ;
if ( fxs - > palarms < MAX_ALARMS ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Power alarm (%02x) on module %d, resetting! \n " ,
res , card + 1 ) ;
mod - > sethook = CMD_WR ( 19 , res ) ;
/* Update shadow register to avoid extra power alarms
* until next read */
mod - > isrshadow [ 1 ] = 0 ;
} else {
if ( fxs - > palarms = = MAX_ALARMS ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Too many power alarms on card %d, NOT resetting! \n " ,
card + 1 ) ;
}
}
}
# else
spin_lock_irqsave ( & wc - > reglock , flags ) ;
/* reg 64 has to be zero at last isr read */
res = ! fxs - > linefeed_control_shadow & &
! ( fxs - > lasttxhook & SLIC_LF_OPPENDING ) & & /* not a transition */
fxs - > lasttxhook ; /* not an intended zero */
if ( res ) {
fxs - > palarms + + ;
if ( fxs - > palarms < MAX_ALARMS ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Power alarm on module %d, resetting! \n " ,
mod - > card + 1 ) ;
if ( fxs - > lasttxhook = = SLIC_LF_RINGING ) {
fxs - > lasttxhook = POLARITY_XOR ( fxs ) ?
SLIC_LF_ACTIVE_REV :
SLIC_LF_ACTIVE_FWD ;
}
fxs - > lasttxhook | = SLIC_LF_OPPENDING ;
mod - > sethook = CMD_WR ( LINE_STATE , fxs - > lasttxhook ) ;
fxs - > oppending_timeout = wc - > framecount + 100 ;
/* Update shadow register to avoid extra power alarms
* until next read */
fxs - > linefeed_control_shadow = fxs - > lasttxhook ;
} else {
if ( fxs - > palarms = = MAX_ALARMS ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Too many power alarms on card %d, "
" NOT resetting! \n " , mod - > card + 1 ) ;
}
}
}
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
# endif
}
static inline bool is_fxo_ringing ( const struct fxo * const fxo )
{
return ( ( fxo - > hook_ring_shadow & 0x60 ) & &
( ( fxo - > battery_state = = BATTERY_PRESENT ) | |
( fxo - > battery_state = = BATTERY_DEBOUNCING_LOST ) ) ) ;
}
static inline bool is_fxo_ringing_positive ( const struct fxo * const fxo )
{
return ( ( ( fxo - > hook_ring_shadow & 0x60 ) = = 0x20 ) & &
( ( fxo - > battery_state = = BATTERY_PRESENT ) | |
( fxo - > battery_state = = BATTERY_DEBOUNCING_LOST ) ) ) ;
}
static inline bool is_fxo_ringing_negative ( const struct fxo * const fxo )
{
return ( ( ( fxo - > hook_ring_shadow & 0x60 ) = = 0x40 ) & &
( ( fxo - > battery_state = = BATTERY_PRESENT ) | |
( fxo - > battery_state = = BATTERY_DEBOUNCING_LOST ) ) ) ;
}
static inline void set_ring ( struct fxo * fxo , enum ring_detector_state new )
{
fxo - > ring_state = new ;
}
static void wcaxx_fxo_ring_detect ( struct wcaxx * wc , struct wcaxx_module * mod )
{
struct fxo * const fxo = & mod - > mod . fxo ;
static const unsigned int POLARITY_CHANGES_NEEDED = 2 ;
/* Look for ring status bits (Ring Detect Signal Negative and Ring
* Detect Signal Positive ) to transition back and forth
* POLARITY_CHANGES_NEEDED times to indicate that a ring is occurring .
* Provide some number of samples to allow for the transitions to occur
* before giving up . NOTE : neon mwi voltages will trigger one of these
* bits to go active but not to have transitions between the two bits
* ( i . e . no negative to positive or positive to negative traversals ) */
switch ( fxo - > ring_state ) {
case DEBOUNCING_RINGING_POSITIVE :
if ( is_fxo_ringing_negative ( fxo ) ) {
if ( + + fxo - > ring_polarity_change_count >
POLARITY_CHANGES_NEEDED ) {
mod_hooksig ( wc , mod , DAHDI_RXSIG_RING ) ;
set_ring ( fxo , RINGING ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" RING on %s! \n " ,
get_dahdi_chan ( wc , mod ) - > name ) ;
}
} else {
set_ring ( fxo , DEBOUNCING_RINGING_NEGATIVE ) ;
}
} else if ( time_after ( wc - > framecount ,
fxo - > ringdebounce_timer ) ) {
set_ring ( fxo , RINGOFF ) ;
}
break ;
case DEBOUNCING_RINGING_NEGATIVE :
if ( is_fxo_ringing_positive ( fxo ) ) {
if ( + + fxo - > ring_polarity_change_count >
POLARITY_CHANGES_NEEDED ) {
mod_hooksig ( wc , mod , DAHDI_RXSIG_RING ) ;
set_ring ( fxo , RINGING ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" RING on %s! \n " ,
get_dahdi_chan ( wc , mod ) - > name ) ;
}
} else {
set_ring ( fxo , DEBOUNCING_RINGING_POSITIVE ) ;
}
} else if ( time_after ( wc - > framecount ,
fxo - > ringdebounce_timer ) ) {
set_ring ( fxo , RINGOFF ) ;
}
break ;
case RINGING :
if ( ! is_fxo_ringing ( fxo ) ) {
set_ring ( fxo , DEBOUNCING_RINGOFF ) ;
fxo - > ringdebounce_timer =
wc - > framecount + ringdebounce / 8 ;
}
break ;
case DEBOUNCING_RINGOFF :
if ( ! is_fxo_ringing ( fxo ) ) {
if ( time_after ( wc - > framecount ,
fxo - > ringdebounce_timer ) ) {
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" NO RING on %s! \n " ,
get_dahdi_chan ( wc , mod ) - > name ) ;
}
mod_hooksig ( wc , mod , DAHDI_RXSIG_OFFHOOK ) ;
set_ring ( fxo , RINGOFF ) ;
}
} else {
set_ring ( fxo , RINGING ) ;
}
break ;
case RINGOFF :
if ( is_fxo_ringing ( fxo ) ) {
/* Look for positive/negative crossings in ring status
* reg */
if ( is_fxo_ringing_positive ( fxo ) )
set_ring ( fxo , DEBOUNCING_RINGING_POSITIVE ) ;
else
set_ring ( fxo , DEBOUNCING_RINGING_NEGATIVE ) ;
fxo - > ringdebounce_timer =
wc - > framecount + ringdebounce / 8 ;
fxo - > ring_polarity_change_count = 0 ;
}
break ;
}
}
# define MS_PER_CHECK_HOOK 1
static void
wcaxx_check_battery_lost ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
struct fxo * const fxo = & mod - > mod . fxo ;
/* possible existing states:
battery lost , no debounce timer
battery lost , debounce timer ( going to battery present )
battery present or unknown , no debounce timer
battery present or unknown , debounce timer ( going to battery lost )
*/
switch ( fxo - > battery_state ) {
case BATTERY_DEBOUNCING_PRESENT_ALARM :
fxo - > battery_state = BATTERY_DEBOUNCING_LOST_FROM_PRESENT_ALARM ;
fxo - > battdebounce_timer = wc - > framecount + battdebounce ;
break ;
case BATTERY_DEBOUNCING_PRESENT :
fxo - > battery_state = BATTERY_LOST ;
break ;
case BATTERY_DEBOUNCING_PRESENT_FROM_LOST_ALARM :
fxo - > battery_state = BATTERY_DEBOUNCING_LOST_ALARM ;
fxo - > battdebounce_timer = wc - > framecount +
battalarm - battdebounce ;
break ;
case BATTERY_UNKNOWN :
mod_hooksig ( wc , mod , DAHDI_RXSIG_ONHOOK ) ;
case BATTERY_PRESENT :
fxo - > battery_state = BATTERY_DEBOUNCING_LOST ;
fxo - > battdebounce_timer = wc - > framecount + battdebounce ;
break ;
case BATTERY_DEBOUNCING_LOST_FROM_PRESENT_ALARM :
case BATTERY_DEBOUNCING_LOST : /* Intentional drop through */
if ( time_after ( wc - > framecount , fxo - > battdebounce_timer ) ) {
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" NO BATTERY on %d/%d! \n " ,
wc - > span . spanno ,
mod - > card + 1 ) ;
}
# ifdef JAPAN
if ( ! wc - > ohdebounce & & wc - > offhook ) {
dahdi_hooksig ( wc - > aspan - > chans [ card ] ,
DAHDI_RXSIG_ONHOOK ) ;
if ( debug ) {
dev_info ( & wc - > vb . pdev - > dev ,
" Signalled On Hook \n " ) ;
}
# ifdef ZERO_BATT_RING
wc - > onhook + + ;
# endif
}
# else
mod_hooksig ( wc , mod , DAHDI_RXSIG_ONHOOK ) ;
# endif
/* set the alarm timer, taking into account that part
* of its time period has already passed while
* debouncing occurred */
fxo - > battery_state = BATTERY_DEBOUNCING_LOST_ALARM ;
fxo - > battdebounce_timer = wc - > framecount +
battalarm - battdebounce ;
}
break ;
case BATTERY_DEBOUNCING_LOST_ALARM :
if ( time_after ( wc - > framecount , fxo - > battdebounce_timer ) ) {
fxo - > battery_state = BATTERY_LOST ;
dahdi_alarm_channel ( get_dahdi_chan ( wc , mod ) ,
DAHDI_ALARM_RED ) ;
}
break ;
case BATTERY_LOST :
break ;
}
}
static void
wcaxx_check_battery_present ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
struct fxo * const fxo = & mod - > mod . fxo ;
switch ( fxo - > battery_state ) {
case BATTERY_DEBOUNCING_PRESENT_FROM_LOST_ALARM :
case BATTERY_DEBOUNCING_PRESENT : /* intentional drop through */
if ( time_after ( wc - > framecount , fxo - > battdebounce_timer ) ) {
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" BATTERY on %d/%d (%s)! \n " ,
wc - > span . spanno , mod - > card + 1 ,
( fxo - > line_voltage_status < 0 ) ?
" - " : " + " ) ;
}
# ifdef ZERO_BATT_RING
if ( wc - > onhook ) {
wc - > onhook = 0 ;
dahdi_hooksig ( wc - > aspan - > chans [ card ] ,
DAHDI_RXSIG_OFFHOOK ) ;
if ( debug ) {
dev_info ( & wc - > vb . pdev - > dev ,
" Signalled Off Hook \n " ) ;
}
}
# else
mod_hooksig ( wc , mod , DAHDI_RXSIG_OFFHOOK ) ;
# endif
/* set the alarm timer, taking into account that part
* of its time period has already passed while
* debouncing occurred */
fxo - > battery_state = BATTERY_DEBOUNCING_PRESENT_ALARM ;
fxo - > battdebounce_timer = wc - > framecount +
battalarm - battdebounce ;
}
break ;
case BATTERY_DEBOUNCING_PRESENT_ALARM :
if ( time_after ( wc - > framecount , fxo - > battdebounce_timer ) ) {
fxo - > battery_state = BATTERY_PRESENT ;
dahdi_alarm_channel ( get_dahdi_chan ( wc , mod ) ,
DAHDI_ALARM_NONE ) ;
}
break ;
case BATTERY_PRESENT :
break ;
case BATTERY_DEBOUNCING_LOST_ALARM :
fxo - > battery_state = BATTERY_DEBOUNCING_PRESENT_FROM_LOST_ALARM ;
fxo - > battdebounce_timer = wc - > framecount + battdebounce ;
break ;
case BATTERY_DEBOUNCING_LOST_FROM_PRESENT_ALARM :
fxo - > battery_state = BATTERY_DEBOUNCING_PRESENT_ALARM ;
fxo - > battdebounce_timer = wc - > framecount +
battalarm - battdebounce ;
break ;
case BATTERY_DEBOUNCING_LOST :
fxo - > battery_state = BATTERY_PRESENT ;
break ;
case BATTERY_UNKNOWN :
mod_hooksig ( wc , mod , DAHDI_RXSIG_OFFHOOK ) ;
case BATTERY_LOST : /* intentional drop through */
fxo - > battery_state = BATTERY_DEBOUNCING_PRESENT ;
fxo - > battdebounce_timer = wc - > framecount + battdebounce ;
break ;
}
}
static void
wcaxx_fxo_stop_debouncing_polarity ( struct wcaxx * wc ,
struct wcaxx_module * const mod )
{
struct fxo * const fxo = & mod - > mod . fxo ;
switch ( fxo - > polarity_state ) {
case UNKNOWN_POLARITY :
break ;
case POLARITY_DEBOUNCE_POSITIVE :
fxo - > polarity_state = POLARITY_NEGATIVE ;
break ;
case POLARITY_POSITIVE :
break ;
case POLARITY_DEBOUNCE_NEGATIVE :
fxo - > polarity_state = POLARITY_POSITIVE ;
break ;
case POLARITY_NEGATIVE :
break ;
} ;
}
static void
wcaxx_fxo_check_polarity ( struct wcaxx * wc , struct wcaxx_module * const mod ,
const bool positive_polarity )
{
struct fxo * const fxo = & mod - > mod . fxo ;
switch ( fxo - > polarity_state ) {
case UNKNOWN_POLARITY :
fxo - > polarity_state = ( positive_polarity ) ? POLARITY_POSITIVE :
POLARITY_NEGATIVE ;
break ;
case POLARITY_DEBOUNCE_POSITIVE :
if ( ! positive_polarity ) {
fxo - > polarity_state = POLARITY_NEGATIVE ;
} else if ( time_after ( wc - > framecount , fxo - > poldebounce_timer ) ) {
fxo - > polarity_state = POLARITY_POSITIVE ;
dahdi_qevent_lock ( get_dahdi_chan ( wc , mod ) ,
DAHDI_EVENT_POLARITY ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" %s: Polarity NEGATIVE -> POSITIVE \n " ,
get_dahdi_chan ( wc , mod ) - > name ) ;
}
}
break ;
case POLARITY_POSITIVE :
if ( ! positive_polarity ) {
fxo - > polarity_state = POLARITY_DEBOUNCE_NEGATIVE ;
fxo - > poldebounce_timer = wc - > framecount +
POLARITY_DEBOUNCE ;
}
break ;
case POLARITY_DEBOUNCE_NEGATIVE :
if ( positive_polarity ) {
fxo - > polarity_state = POLARITY_POSITIVE ;
} else if ( time_after ( wc - > framecount , fxo - > poldebounce_timer ) ) {
dahdi_qevent_lock ( get_dahdi_chan ( wc , mod ) ,
DAHDI_EVENT_POLARITY ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" %s: Polarity POSITIVE -> NEGATIVE \n " ,
get_dahdi_chan ( wc , mod ) - > name ) ;
}
fxo - > polarity_state = POLARITY_NEGATIVE ;
}
break ;
case POLARITY_NEGATIVE :
if ( positive_polarity ) {
fxo - > polarity_state = POLARITY_DEBOUNCE_POSITIVE ;
fxo - > poldebounce_timer = wc - > framecount +
POLARITY_DEBOUNCE ;
}
break ;
} ;
}
static bool is_neon_voltage_present ( const struct fxo * fxo , u8 abs_voltage )
{
return ( fxo - > battery_state = = BATTERY_PRESENT & &
abs_voltage > neonmwi_level & &
( 0 = = fxo - > neonmwi_last_voltage | |
( ( fxo - > line_voltage_status > = fxo - > neonmwi_last_voltage -
neonmwi_envelope ) & &
( fxo - > line_voltage_status < = fxo - > neonmwi_last_voltage +
neonmwi_envelope )
)
)
) ;
}
static void do_neon_monitor ( struct wcaxx * wc ,
struct wcaxx_module * mod , u8 abs_voltage )
{
struct fxo * const fxo = & mod - > mod . fxo ;
struct dahdi_chan * const chan = get_dahdi_chan ( wc , mod ) ;
/* Look for 4 consecutive voltage readings where the voltage is over the
* neon limit but does not vary greatly from the last reading */
if ( is_neon_voltage_present ( fxo , abs_voltage ) ) {
fxo - > neonmwi_last_voltage = fxo - > line_voltage_status ;
if ( NEONMWI_ON_DEBOUNCE = = fxo - > neonmwi_debounce ) {
fxo - > neonmwi_offcounter = neonmwi_offlimit_cycles ;
if ( 0 = = fxo - > neonmwi_state ) {
dahdi_qevent_lock ( chan ,
DAHDI_EVENT_NEONMWI_ACTIVE ) ;
fxo - > neonmwi_state = 1 ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" NEON MWI active for card %d \n " ,
mod - > card + 1 ) ;
}
}
fxo - > neonmwi_debounce + + ;
} else if ( NEONMWI_ON_DEBOUNCE > fxo - > neonmwi_debounce ) {
fxo - > neonmwi_debounce + + ;
} else {
fxo - > neonmwi_offcounter = neonmwi_offlimit_cycles ;
}
} else {
fxo - > neonmwi_debounce = 0 ;
fxo - > neonmwi_last_voltage = 0 ;
}
/* If no neon mwi pulse for given period of time, indicte no neon mwi
* state */
if ( fxo - > neonmwi_state & & 0 < fxo - > neonmwi_offcounter ) {
fxo - > neonmwi_offcounter - - ;
if ( 0 = = fxo - > neonmwi_offcounter ) {
dahdi_qevent_lock ( get_dahdi_chan ( wc , mod ) ,
DAHDI_EVENT_NEONMWI_INACTIVE ) ;
fxo - > neonmwi_state = 0 ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" NEON MWI cleared for card %d \n " ,
mod - > card + 1 ) ;
}
}
}
}
static void
wcaxx_voicedaa_check_hook ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
signed char b ;
u8 abs_voltage ;
struct fxo * const fxo = & mod - > mod . fxo ;
/* Try to track issues that plague slot one FXO's */
b = fxo - > hook_ring_shadow & 0x9b ;
if ( fxo - > offhook ) {
if ( b ! = 0x9 )
wcaxx_setreg ( wc , mod , 5 , 0x9 ) ;
} else {
if ( b ! = 0x8 )
wcaxx_setreg ( wc , mod , 5 , 0x8 ) ;
wcaxx_fxo_ring_detect ( wc , mod ) ;
}
abs_voltage = abs ( fxo - > line_voltage_status ) ;
if ( fxovoltage & & time_after ( wc - > framecount , fxo - > display_fxovoltage ) ) {
/* Every 100 ms */
fxo - > display_fxovoltage = wc - > framecount + 100 ;
dev_info ( & wc - > xb . pdev - > dev ,
" Port %d: Voltage: %d \n " ,
mod - > card + 1 , fxo - > line_voltage_status ) ;
}
if ( unlikely ( DAHDI_RXSIG_INITIAL = =
get_dahdi_chan ( wc , mod ) - > rxhooksig ) ) {
/*
* dahdi - base will set DAHDI_RXSIG_INITIAL after a
* DAHDI_STARTUP or DAHDI_CHANCONFIG ioctl so that new events
* will be queued on the channel with the current received
* hook state . Channels that use robbed - bit signalling always
* report the current received state via the dahdi_rbsbits
* call . Since we only call dahdi_hooksig when we ' ve detected
* a change to report , let ' s forget our current state in order
* to force us to report it again via dahdi_hooksig .
*
*/
fxo - > battery_state = BATTERY_UNKNOWN ;
}
if ( abs_voltage < battthresh ) {
wcaxx_fxo_stop_debouncing_polarity ( wc , mod ) ;
wcaxx_check_battery_lost ( wc , mod ) ;
} else {
wcaxx_check_battery_present ( wc , mod ) ;
wcaxx_fxo_check_polarity ( wc , mod ,
( fxo - > line_voltage_status > 0 ) ) ;
}
/* Look for neon mwi pulse */
if ( neonmwi_monitor & & ! fxo - > offhook )
do_neon_monitor ( wc , mod , abs_voltage ) ;
# undef MS_PER_CHECK_HOOK
}
static void
wcaxx_fxs_hooksig ( struct wcaxx * wc , struct wcaxx_module * const mod ,
enum dahdi_txsig txsig )
{
int x = 0 ;
unsigned long flags ;
struct fxs * const fxs = & mod - > mod . fxs ;
spin_lock_irqsave ( & wc - > reglock , flags ) ;
switch ( txsig ) {
case DAHDI_TXSIG_ONHOOK :
switch ( get_dahdi_chan ( wc , mod ) - > sig ) {
case DAHDI_SIG_FXOGS :
x = ( POLARITY_XOR ( fxs ) ) ?
SLIC_LF_RING_OPEN :
SLIC_LF_TIP_OPEN ;
break ;
case DAHDI_SIG_EM :
case DAHDI_SIG_FXOKS :
case DAHDI_SIG_FXOLS :
default :
x = fxs - > idletxhookstate ;
break ;
}
break ;
case DAHDI_TXSIG_OFFHOOK :
switch ( get_dahdi_chan ( wc , mod ) - > sig ) {
case DAHDI_SIG_EM :
x = ( POLARITY_XOR ( fxs ) ) ?
SLIC_LF_ACTIVE_FWD :
SLIC_LF_ACTIVE_REV ;
break ;
default :
x = fxs - > idletxhookstate ;
break ;
}
break ;
case DAHDI_TXSIG_START :
x = SLIC_LF_RINGING ;
break ;
case DAHDI_TXSIG_KEWL :
x = SLIC_LF_OPEN ;
break ;
default :
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
dev_notice ( & wc - > xb . pdev - > dev ,
" Can't set tx state to %d \n " , txsig ) ;
return ;
}
if ( x ! = fxs - > lasttxhook ) {
fxs - > lasttxhook = x | SLIC_LF_OPPENDING ;
mod - > sethook = CMD_WR ( LINE_STATE , fxs - > lasttxhook ) ;
fxs - > oppending_timeout = wc - > framecount + 100 ;
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Setting FXS hook state to %d (%02x) framecount=%ld \n " ,
txsig , x , wc - > framecount ) ;
}
} else {
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
}
}
static void
wcaxx_fxs_off_hook ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
struct fxs * const fxs = & mod - > mod . fxs ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" fxs_off_hook: Card %d Going off hook \n " , mod - > card ) ;
}
switch ( fxs - > lasttxhook ) {
case SLIC_LF_RINGING : /* Ringing */
case SLIC_LF_OHTRAN_FWD : /* Forward On Hook Transfer */
case SLIC_LF_OHTRAN_REV : /* Reverse On Hook Transfer */
/* just detected OffHook, during Ringing or OnHookTransfer */
fxs - > idletxhookstate = POLARITY_XOR ( fxs ) ?
SLIC_LF_ACTIVE_REV :
SLIC_LF_ACTIVE_FWD ;
break ;
}
if ( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) ! = SLIC_LF_OPEN )
wcaxx_fxs_hooksig ( wc , mod , DAHDI_TXSIG_OFFHOOK ) ;
dahdi_hooksig ( get_dahdi_chan ( wc , mod ) , DAHDI_RXSIG_OFFHOOK ) ;
# ifdef DEBUG
if ( robust )
wcaxx_init_proslic ( wc , mod , 1 , 0 , 1 ) ;
# endif
}
/**
* wcaxx_fxs_on_hook - Report on hook to DAHDI .
* @ wc : Board hosting the module .
* @ card : Index of the module / port to place on hook .
*
* If we are intentionally dropping battery to signal a forward
* disconnect we do not want to place the line " On-Hook " . In this
* case , the core of DAHDI will place us on hook when one of the RBS
* timers expires .
*
*/
static void
wcaxx_fxs_on_hook ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" fxs_on_hook: Card %d Going on hook \n " , mod - > card ) ;
}
if ( ( mod - > mod . fxs . lasttxhook & SLIC_LF_SETMASK ) ! = SLIC_LF_OPEN )
wcaxx_fxs_hooksig ( wc , mod , DAHDI_TXSIG_ONHOOK ) ;
dahdi_hooksig ( get_dahdi_chan ( wc , mod ) , DAHDI_RXSIG_ONHOOK ) ;
}
static void
wcaxx_isr_misc_fxs ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
struct fxs * const fxs = & mod - > mod . fxs ;
unsigned long flags ;
if ( time_after ( wc - > framecount , fxs - > check_alarm ) ) {
/* Accept an alarm once per 10 seconds */
fxs - > check_alarm = wc - > framecount + ( 1000 * 10 ) ;
if ( fxs - > palarms )
fxs - > palarms - - ;
}
if ( fxs - > off_hook & & ! ( fxs - > hook_state_shadow & 1 ) ) {
wcaxx_fxs_on_hook ( wc , mod ) ;
fxs - > off_hook = 0 ;
} else if ( ! fxs - > off_hook & & ( fxs - > hook_state_shadow & 1 ) ) {
wcaxx_fxs_off_hook ( wc , mod ) ;
fxs - > off_hook = 1 ;
}
wcaxx_proslic_check_oppending ( wc , mod ) ;
if ( time_after ( wc - > framecount , fxs - > check_proslic ) ) {
fxs - > check_proslic = wc - > framecount + 250 ; /* every 250ms */
wcaxx_proslic_recheck_sanity ( wc , mod ) ;
}
if ( SLIC_LF_RINGING = = fxs - > lasttxhook ) {
/* RINGing, prepare for OHT */
fxs - > ohttimer = wc - > framecount + OHT_TIMER ;
/* OHT mode when idle */
fxs - > idletxhookstate = POLARITY_XOR ( fxs ) ? SLIC_LF_OHTRAN_REV :
SLIC_LF_OHTRAN_FWD ;
} else if ( fxs - > oht_active ) {
/* check if still OnHook */
if ( ! fxs - > off_hook ) {
if ( time_before ( wc - > framecount , fxs - > ohttimer ) )
return ;
/* Switch to active */
fxs - > idletxhookstate = POLARITY_XOR ( fxs ) ?
SLIC_LF_ACTIVE_REV : SLIC_LF_ACTIVE_FWD ;
spin_lock_irqsave ( & wc - > reglock , flags ) ;
if ( SLIC_LF_OHTRAN_FWD = = fxs - > lasttxhook ) {
/* Apply the change if appropriate */
fxs - > lasttxhook = SLIC_LF_OPPENDING |
SLIC_LF_ACTIVE_FWD ;
/* Data enqueued here */
mod - > sethook = CMD_WR ( LINE_STATE ,
fxs - > lasttxhook ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d OnHookTransfer stop \n " ,
mod - > card ) ;
}
} else if ( SLIC_LF_OHTRAN_REV = = fxs - > lasttxhook ) {
/* Apply the change if appropriate */
fxs - > lasttxhook = SLIC_LF_OPPENDING |
SLIC_LF_ACTIVE_REV ;
/* Data enqueued here */
mod - > sethook = CMD_WR ( LINE_STATE ,
fxs - > lasttxhook ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d OnHookTransfer stop \n " ,
mod - > card ) ;
}
}
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
} else {
fxs - > oht_active = 0 ;
/* Switch to active */
fxs - > idletxhookstate = POLARITY_XOR ( fxs ) ?
SLIC_LF_ACTIVE_REV : SLIC_LF_ACTIVE_FWD ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d OnHookTransfer abort \n " ,
mod - > card ) ;
}
}
}
}
static void wcaxx_handle_receive ( struct wcxb * xb , void * _frame )
{
int i , j ;
struct wcaxx * wc = container_of ( xb , struct wcaxx , xb ) ;
u8 * const frame = _frame ;
wc - > framecount + + ;
if ( time_after ( wc - > framecount , wc - > module_poll_time ) ) {
for ( i = 0 ; i < wc - > mods_per_board ; i + + ) {
struct wcaxx_module * const mod = & wc - > mods [ i ] ;
if ( mod - > mod_poll ) {
wcxb_spi_async ( mod - > spi , & mod - > mod_poll - > m ) ;
mod - > mod_poll = NULL ;
}
}
wc - > module_poll_time = wc - > framecount + MODULE_POLL_TIME_MS ;
}
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/* TODO: This protection needs to be thought about. */
if ( ! test_bit ( DAHDI_FLAGBIT_REGISTERED , & wc - > span . flags ) )
2013-07-02 00:09:10 +08:00
return ;
for ( j = 0 ; j < DAHDI_CHUNKSIZE ; j + + ) {
for ( i = 0 ; i < wc - > span . channels ; i + + ) {
wc - > chans [ i ] - > chan . readchunk [ j ] =
frame [ j * WCXB_DMA_CHAN_SIZE + ( 1 + i * 4 ) ] ;
}
}
for ( i = 0 ; i < wc - > span . channels ; i + + ) {
struct dahdi_chan * const c = wc - > span . chans [ i ] ;
__dahdi_ec_chunk ( c , c - > readchunk , c - > readchunk , c - > writechunk ) ;
}
_dahdi_receive ( & wc - > span ) ;
return ;
}
static void wcaxx_handle_transmit ( struct wcxb * xb , void * _frame )
{
int i , j ;
struct wcaxx * wc = container_of ( xb , struct wcaxx , xb ) ;
u8 * const frame = _frame ;
wcxb_spi_handle_interrupt ( wc - > master ) ;
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/* TODO: This protection needs to be thought about. */
if ( ! test_bit ( DAHDI_FLAGBIT_REGISTERED , & wc - > span . flags ) )
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return ;
_dahdi_transmit ( & wc - > span ) ;
for ( j = 0 ; j < DAHDI_CHUNKSIZE ; j + + ) {
for ( i = 0 ; i < wc - > span . channels ; i + + ) {
struct dahdi_chan * c = & wc - > chans [ i ] - > chan ;
frame [ j * WCXB_DMA_CHAN_SIZE + ( 1 + i * 4 ) ] = c - > writechunk [ j ] ;
}
}
return ;
}
static int wcaxx_voicedaa_insane ( struct wcaxx * wc , struct wcaxx_module * mod )
{
int blah ;
blah = wcaxx_getreg ( wc , mod , 2 ) ;
if ( blah ! = 0x3 )
return - 2 ;
blah = wcaxx_getreg ( wc , mod , 11 ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" VoiceDAA System: %02x \n " , blah & 0xf ) ;
}
return 0 ;
}
static int
wcaxx_proslic_insane ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
int blah , reg1 , insane_report ;
insane_report = 0 ;
blah = wcaxx_getreg ( wc , mod , 0 ) ;
if ( blah ! = 0xff & & ( debug & DEBUG_CARD ) ) {
dev_info ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d, product %d, "
" version %d \n " , mod - > card , ( blah & 0x30 ) > > 4 ,
( blah & 0xf ) ) ;
}
#if 0
if ( ( blah & 0x30 ) > > 4 ) {
dev_info ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d is not a 3210. \n " , mod - > card ) ;
return - 1 ;
}
# endif
if ( ( ( blah & 0xf ) = = 0 ) | | ( ( blah & 0xf ) = = 0xf ) ) {
/* SLIC not loaded */
return - 1 ;
}
/* let's be really sure this is an FXS before we continue */
reg1 = wcaxx_getreg ( wc , mod , 1 ) ;
if ( ( 0x80 ! = ( blah & 0xf0 ) ) | | ( 0x88 ! = reg1 ) ) {
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" DEBUG: not FXS b/c reg0=%x or "
" reg1 != 0x88 (%x). \n " , blah , reg1 ) ;
}
return - 1 ;
}
blah = wcaxx_getreg ( wc , mod , 8 ) ;
if ( blah ! = 0x2 ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d insane (1) %d should be 2 \n " ,
mod - > card , blah ) ;
return - 1 ;
} else if ( insane_report ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d Reg 8 Reads %d Expected "
" is 0x2 \n " , mod - > card , blah ) ;
}
blah = wcaxx_getreg ( wc , mod , 64 ) ;
if ( blah ! = 0x0 ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d insane (2) \n " ,
mod - > card ) ;
return - 1 ;
} else if ( insane_report ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d Reg 64 Reads %d Expected "
" is 0x0 \n " , mod - > card , blah ) ;
}
blah = wcaxx_getreg ( wc , mod , 11 ) ;
if ( blah ! = 0x33 ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d insane (3) \n " , mod - > card ) ;
return - 1 ;
} else if ( insane_report ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d Reg 11 Reads %d "
" Expected is 0x33 \n " , mod - > card , blah ) ;
}
/* Just be sure it's setup right. */
wcaxx_setreg ( wc , mod , 30 , 0 ) ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d seems sane. \n " , mod - > card ) ;
}
return 0 ;
}
static int
wcaxx_proslic_powerleak_test ( struct wcaxx * wc ,
struct wcaxx_module * const mod )
{
unsigned long start ;
unsigned char vbat ;
/* Turn off linefeed */
wcaxx_setreg ( wc , mod , LINE_STATE , 0 ) ;
/* Power down */
wcaxx_setreg ( wc , mod , 14 , 0x10 ) ;
start = jiffies ;
/* TODO: Why is this sleep necessary. Without it, the first read
* comes back with a 0 value . */
msleep ( 20 ) ;
while ( ( vbat = wcaxx_getreg ( wc , mod , 82 ) ) > 0x6 ) {
if ( time_after ( jiffies , start + HZ / 4 ) )
break ;
}
if ( vbat < 0x06 ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Excessive leakage detected on module %d: %d "
" volts (%02x) after %d ms \n " , mod - > card ,
376 * vbat / 1000 , vbat ,
( int ) ( ( jiffies - start ) * 1000 / HZ ) ) ;
return - 1 ;
} else if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Post-leakage voltage: %d volts \n " , 376 * vbat / 1000 ) ;
}
return 0 ;
}
static int wcaxx_powerup_proslic ( struct wcaxx * wc ,
struct wcaxx_module * mod , int fast )
{
unsigned char vbat ;
unsigned long origjiffies ;
int lim ;
/* Set period of DC-DC converter to 1/64 khz */
wcaxx_setreg ( wc , mod , 92 , 0xc0 /* was 0xff */ ) ;
/* Wait for VBat to powerup */
origjiffies = jiffies ;
/* Disable powerdown */
wcaxx_setreg ( wc , mod , 14 , 0 ) ;
/* If fast, don't bother checking anymore */
if ( fast )
return 0 ;
while ( ( vbat = wcaxx_getreg ( wc , mod , 82 ) ) < 0xc0 ) {
/* Wait no more than 500ms */
if ( ( jiffies - origjiffies ) > HZ / 2 )
break ;
}
if ( vbat < 0xc0 ) {
dev_notice ( & wc - > xb . pdev - > dev , " ProSLIC on module %d failed to powerup within %d ms (%d mV only) \n \n -- DID YOU REMEMBER TO PLUG IN THE HD POWER CABLE TO THE TDM CARD?? \n " ,
mod - > card , ( int ) ( ( ( jiffies - origjiffies ) * 1000 / HZ ) ) ,
vbat * 375 ) ;
return - 1 ;
} else if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" ProSLIC on module %d powered up to -%d volts (%02x) "
" in %d ms \n " , mod - > card , vbat * 376 / 1000 , vbat ,
( int ) ( ( ( jiffies - origjiffies ) * 1000 / HZ ) ) ) ;
}
/* Proslic max allowed loop current, reg 71 LOOP_I_LIMIT */
/* If out of range, just set it to the default value */
lim = ( loopcurrent - 20 ) / 3 ;
if ( loopcurrent > 41 ) {
lim = 0 ;
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Loop current out of range! Setting to default 20mA! \n " ) ;
}
} else if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Loop current set to %dmA! \n " , ( lim * 3 ) + 20 ) ;
}
wcaxx_setreg ( wc , mod , LOOP_I_LIMIT , lim ) ;
/* Engage DC-DC converter */
wcaxx_setreg ( wc , mod , 93 , 0x19 /* was 0x19 */ ) ;
return 0 ;
}
static int
wcaxx_proslic_manual_calibrate ( struct wcaxx * wc ,
struct wcaxx_module * const mod )
{
unsigned long origjiffies ;
unsigned char i ;
/* Disable all interupts in DR21-23 */
wcaxx_setreg ( wc , mod , 21 , 0 ) ;
wcaxx_setreg ( wc , mod , 22 , 0 ) ;
wcaxx_setreg ( wc , mod , 23 , 0 ) ;
wcaxx_setreg ( wc , mod , 64 , 0 ) ;
/* (0x18) Calibrations without the ADC and DAC offset and without
* common mode calibration . */
wcaxx_setreg ( wc , mod , 97 , 0x18 ) ;
/* (0x47) Calibrate common mode and differential DAC mode DAC + ILIM */
wcaxx_setreg ( wc , mod , 96 , 0x47 ) ;
origjiffies = jiffies ;
while ( wcaxx_getreg ( wc , mod , 96 ) ! = 0 ) {
if ( ( jiffies - origjiffies ) > 80 )
return - 1 ;
}
/* Initialized DR 98 and 99 to get consistant results. 98 and 99 are
* the results registers and the search should have same intial
* conditions .
*/
/******* The following is the manual gain mismatch calibration ********/
/******* This is also available as a function *************************/
msleep ( 20 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 88 , 0 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 89 , 0 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 90 , 0 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 91 , 0 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 92 , 0 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 93 , 0 ) ;
/* This is necessary if the calibration occurs other than at reset */
wcaxx_setreg ( wc , mod , 98 , 0x10 ) ;
wcaxx_setreg ( wc , mod , 99 , 0x10 ) ;
for ( i = 0x1f ; i > 0 ; i - - ) {
wcaxx_setreg ( wc , mod , 98 , i ) ;
msleep ( 40 ) ;
if ( ( wcaxx_getreg ( wc , mod , 88 ) ) = = 0 )
break ;
}
for ( i = 0x1f ; i > 0 ; i - - ) {
wcaxx_setreg ( wc , mod , 99 , i ) ;
msleep ( 40 ) ;
if ( ( wcaxx_getreg ( wc , mod , 89 ) ) = = 0 )
break ;
}
/******** The preceding is the manual gain mismatch calibration *******/
/******** The following is the longitudinal Balance Cal ***************/
wcaxx_setreg ( wc , mod , 64 , 1 ) ;
msleep ( 100 ) ;
wcaxx_setreg ( wc , mod , 64 , 0 ) ;
/* enable interrupt for the balance Cal */
wcaxx_setreg ( wc , mod , 23 , 0x4 ) ;
/* this is a singular calibration bit for longitudinal calibration */
wcaxx_setreg ( wc , mod , 97 , 0x1 ) ;
wcaxx_setreg ( wc , mod , 96 , 0x40 ) ;
wcaxx_getreg ( wc , mod , 96 ) ; /* Read Reg 96 just cause */
wcaxx_setreg ( wc , mod , 21 , 0xFF ) ;
wcaxx_setreg ( wc , mod , 22 , 0xFF ) ;
wcaxx_setreg ( wc , mod , 23 , 0xFF ) ;
/**The preceding is the longitudinal Balance Cal***/
return 0 ;
}
static int
wcaxx_proslic_calibrate ( struct wcaxx * wc , struct wcaxx_module * mod )
{
unsigned long origjiffies ;
int x ;
/* Perform all calibrations */
wcaxx_setreg ( wc , mod , 97 , 0x1f ) ;
/* Begin, no speedup */
wcaxx_setreg ( wc , mod , 96 , 0x5f ) ;
/* Wait for it to finish */
origjiffies = jiffies ;
while ( wcaxx_getreg ( wc , mod , 96 ) ) {
if ( time_after ( jiffies , ( origjiffies + ( 2 * HZ ) ) ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Timeout waiting for calibration of "
" module %d \n " , mod - > card ) ;
return - 1 ;
}
}
if ( debug & DEBUG_CARD ) {
/* Print calibration parameters */
dev_info ( & wc - > xb . pdev - > dev ,
" Calibration Vector Regs 98 - 107: \n " ) ;
for ( x = 98 ; x < 108 ; x + + ) {
dev_info ( & wc - > xb . pdev - > dev ,
" %d: %02x \n " , x , wcaxx_getreg ( wc , mod , x ) ) ;
}
}
return 0 ;
}
/*********************************************************************
* Set the hwgain on the analog modules
*
* card = the card position for this module ( 0 - 23 )
* gain = gain in dB x10 ( e . g . - 3.5 dB would be gain = - 35 )
* tx = ( 0 for rx ; 1 for tx )
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static int
wcaxx_set_hwgain ( struct wcaxx * wc , struct wcaxx_module * mod ,
__s32 gain , __u32 tx )
{
if ( mod - > type ! = FXO ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Cannot adjust gain. Unsupported module type! \n " ) ;
return - 1 ;
}
if ( tx ) {
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" setting FXO tx gain for card=%d to %d \n " ,
mod - > card , gain ) ;
}
if ( gain > = - 150 & & gain < = 0 ) {
wcaxx_setreg ( wc , mod , 38 , 16 + ( gain / - 10 ) ) ;
wcaxx_setreg ( wc , mod , 40 , 16 + ( - gain % 10 ) ) ;
} else if ( gain < = 120 & & gain > 0 ) {
wcaxx_setreg ( wc , mod , 38 , gain / 10 ) ;
wcaxx_setreg ( wc , mod , 40 , ( gain % 10 ) ) ;
} else {
dev_notice ( & wc - > xb . pdev - > dev ,
" FXO tx gain is out of range (%d) \n " , gain ) ;
return - 1 ;
}
} else { /* rx */
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" setting FXO rx gain for card=%d to %d \n " ,
mod - > card , gain ) ;
}
if ( gain > = - 150 & & gain < = 0 ) {
wcaxx_setreg ( wc , mod , 39 , 16 + ( gain / - 10 ) ) ;
wcaxx_setreg ( wc , mod , 41 , 16 + ( - gain % 10 ) ) ;
} else if ( gain < = 120 & & gain > 0 ) {
wcaxx_setreg ( wc , mod , 39 , gain / 10 ) ;
wcaxx_setreg ( wc , mod , 41 , ( gain % 10 ) ) ;
} else {
dev_notice ( & wc - > xb . pdev - > dev ,
" FXO rx gain is out of range (%d) \n " , gain ) ;
return - 1 ;
}
}
return 0 ;
}
static int set_lasttxhook_interruptible ( struct wcaxx * wc , struct fxs * fxs ,
unsigned newval , int * psethook )
{
int res = 0 ;
unsigned long flags ;
int timeout = 0 ;
do {
spin_lock_irqsave ( & wc - > reglock , flags ) ;
if ( SLIC_LF_OPPENDING & fxs - > lasttxhook ) {
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
if ( timeout + + > 100 )
return - 1 ;
msleep ( 100 ) ;
} else {
fxs - > lasttxhook = ( newval & SLIC_LF_SETMASK ) |
SLIC_LF_OPPENDING ;
* psethook = CMD_WR ( LINE_STATE , fxs - > lasttxhook ) ;
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
break ;
}
} while ( 1 ) ;
return res ;
}
/* Must be called from within an interruptible context */
static int set_vmwi ( struct wcaxx * wc , struct wcaxx_module * const mod )
{
int x ;
struct fxs * const fxs = & mod - > mod . fxs ;
/* Presently only supports line reversal MWI */
if ( ( fxs - > vmwi_active_messages ) & &
( fxs - > vmwisetting . vmwi_type & DAHDI_VMWI_LREV ) )
fxs - > vmwi_linereverse = 1 ;
else
fxs - > vmwi_linereverse = 0 ;
/* Set line polarity for new VMWI state */
if ( POLARITY_XOR ( fxs ) ) {
fxs - > idletxhookstate | = SLIC_LF_REVMASK ;
/* Do not set while currently ringing or open */
if ( ( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) ! = SLIC_LF_RINGING ) & &
( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) ! = SLIC_LF_OPEN ) ) {
x = fxs - > lasttxhook ;
x | = SLIC_LF_REVMASK ;
set_lasttxhook_interruptible ( wc , fxs , x , & mod - > sethook ) ;
}
} else {
fxs - > idletxhookstate & = ~ SLIC_LF_REVMASK ;
/* Do not set while currently ringing or open */
if ( ( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) ! = SLIC_LF_RINGING ) & &
( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) ! = SLIC_LF_OPEN ) ) {
x = fxs - > lasttxhook ;
x & = ~ SLIC_LF_REVMASK ;
set_lasttxhook_interruptible ( wc , fxs , x , & mod - > sethook ) ;
}
}
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Setting VMWI on channel %d, messages=%d, lrev=%d \n " ,
mod - > card , fxs - > vmwi_active_messages ,
fxs - > vmwi_linereverse ) ;
}
return 0 ;
}
static void
wcaxx_voicedaa_set_ts ( struct wcaxx * wc , struct wcaxx_module * mod , int ts )
{
/* 34 bits from framesysc to the first channel, 8 bits in each ts * (th
* e timeslot we ' re assigning + 1 to skip for VPMOCT issue on first
* timeslot + 3 in that there are 4 bytes assigned for each timeslot on
* framer which was copied to this card */
/* 34 + 8 * (ts + 1 + 3) */
wcaxx_setreg ( wc , mod , 34 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) & 0xff ) ;
wcaxx_setreg ( wc , mod , 35 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) > > 8 ) ;
wcaxx_setreg ( wc , mod , 36 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) & 0xff ) ;
wcaxx_setreg ( wc , mod , 37 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) > > 8 ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" voicedaa: card %d new timeslot: %d \n " ,
mod - > card + 1 , ts ) ;
}
}
static int
wcaxx_init_voicedaa ( struct wcaxx * wc , struct wcaxx_module * mod ,
int fast , int manual , int sane )
{
unsigned char reg16 = 0 , reg26 = 0 , reg30 = 0 , reg31 = 0 ;
unsigned long flags ;
unsigned long newjiffies ;
/* Send a short write to the device in order to reset the SPI state
* machine . It may be out of sync since the driver was probing for an
* FXS device on that chip select . */
/* wcxb_spi_short_write(mod->spi); */
spin_lock_irqsave ( & wc - > reglock , flags ) ;
mod - > type = FXO ;
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
2013-11-17 16:34:13 +08:00
if ( ! sane & & wcaxx_voicedaa_insane ( wc , mod ) )
2013-07-02 00:09:10 +08:00
return - 2 ;
/* Software reset */
wcaxx_setreg ( wc , mod , 1 , 0x80 ) ;
msleep ( 100 ) ;
/* Set On-hook speed, Ringer impedence, and ringer threshold */
reg16 | = ( fxo_modes [ _opermode ] . ohs < < 6 ) ;
reg16 | = ( fxo_modes [ _opermode ] . rz < < 1 ) ;
reg16 | = ( fxo_modes [ _opermode ] . rt ) ;
wcaxx_setreg ( wc , mod , 16 , reg16 ) ;
/* Enable ring detector full-wave rectifier mode */
wcaxx_setreg ( wc , mod , 18 , 2 ) ;
wcaxx_setreg ( wc , mod , 24 , 0 ) ;
/* Set DC Termination:
Tip / Ring voltage adjust , minimum operational current , current
limitation */
reg26 | = ( fxo_modes [ _opermode ] . dcv < < 6 ) ;
reg26 | = ( fxo_modes [ _opermode ] . mini < < 4 ) ;
reg26 | = ( fxo_modes [ _opermode ] . ilim < < 1 ) ;
wcaxx_setreg ( wc , mod , 26 , reg26 ) ;
/* Set AC Impedence */
reg30 = ( fxo_modes [ _opermode ] . acim ) ;
wcaxx_setreg ( wc , mod , 30 , reg30 ) ;
/* Misc. DAA parameters */
/* If fast pickup is set, then the off hook counter will be set to 8
* ms , otherwise 128 ms . */
reg31 = ( fastpickup ) ? 0xe3 : 0xa3 ;
reg31 | = ( fxo_modes [ _opermode ] . ohs2 < < 3 ) ;
wcaxx_setreg ( wc , mod , 31 , reg31 ) ;
wcaxx_voicedaa_set_ts ( wc , mod , mod - > card ) ;
/* Enable ISO-Cap */
wcaxx_setreg ( wc , mod , 6 , 0x00 ) ;
/* Turn off the calibration delay when fastpickup is enabled. */
if ( fastpickup )
wcaxx_setreg ( wc , mod , 17 , wcaxx_getreg ( wc , mod , 17 ) | 0x20 ) ;
/* Wait 2000ms for ISO-cap to come up */
newjiffies = jiffies + msecs_to_jiffies ( 2000 ) ;
while ( time_before ( jiffies , newjiffies ) & &
! ( wcaxx_getreg ( wc , mod , 11 ) & 0xf0 ) )
msleep ( 100 ) ;
if ( ! ( wcaxx_getreg ( wc , mod , 11 ) & 0xf0 ) ) {
dev_notice ( & wc - > xb . pdev - > dev , " VoiceDAA did not bring up ISO link properly! \n " ) ;
return - 1 ;
}
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev , " ISO-Cap is now up, line side: %02x rev %02x \n " ,
wcaxx_getreg ( wc , mod , 11 ) > > 4 ,
( wcaxx_getreg ( wc , mod , 13 ) > > 2 ) & 0xf ) ;
}
/* Enable on-hook line monitor */
wcaxx_setreg ( wc , mod , 5 , 0x08 ) ;
/* Take values for fxotxgain and fxorxgain and apply them to module */
wcaxx_set_hwgain ( wc , mod , fxotxgain , 1 ) ;
wcaxx_set_hwgain ( wc , mod , fxorxgain , 0 ) ;
# ifdef DEBUG
if ( digitalloopback ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Turning on digital loopback for port %d. \n " ,
mod - > card + 1 ) ;
wcaxx_setreg ( wc , mod , 10 , 0x01 ) ;
}
# endif
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" DEBUG fxotxgain:%i.%i fxorxgain:%i.%i \n " ,
( wcaxx_getreg ( wc , mod , 38 ) / 16 ) ?
- ( wcaxx_getreg ( wc , mod , 38 ) - 16 ) :
wcaxx_getreg ( wc , mod , 38 ) ,
( wcaxx_getreg ( wc , mod , 40 ) / 16 ) ?
- ( wcaxx_getreg ( wc , mod , 40 ) - 16 ) :
wcaxx_getreg ( wc , mod , 40 ) ,
( wcaxx_getreg ( wc , mod , 39 ) / 16 ) ?
- ( wcaxx_getreg ( wc , mod , 39 ) - 16 ) :
wcaxx_getreg ( wc , mod , 39 ) ,
( wcaxx_getreg ( wc , mod , 41 ) / 16 ) ?
- ( wcaxx_getreg ( wc , mod , 41 ) - 16 ) :
wcaxx_getreg ( wc , mod , 41 ) ) ;
}
return 0 ;
}
static void
wcaxx_proslic_set_ts ( struct wcaxx * wc , struct wcaxx_module * mod , int ts )
{
/* Tx Start low byte 0 */
wcaxx_setreg ( wc , mod , 2 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) & 0xff ) ;
/* Tx Start high byte 0 */
wcaxx_setreg ( wc , mod , 3 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) > > 8 ) ;
/* Rx Start low byte 0 */
wcaxx_setreg ( wc , mod , 4 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) & 0xff ) ;
/* Rx Start high byte 0 */
wcaxx_setreg ( wc , mod , 5 , ( ts * 8 + 42 + ( ts * 3 * 8 ) ) > > 8 ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" proslic: card %d new timeslot: %d \n " ,
mod - > card + 1 , ts ) ;
}
}
static int
wcaxx_init_proslic ( struct wcaxx * wc , struct wcaxx_module * const mod ,
int fast , int manual , int sane )
{
struct fxs * const fxs = & mod - > mod . fxs ;
unsigned short tmp [ 5 ] ;
unsigned long flags ;
unsigned char r19 , r9 ;
int x ;
int fxsmode = 0 ;
int addresses [ ARRAY_SIZE ( fxs - > calregs . vals ) ] ;
#if 0 /* TODO */
if ( wc - > mods [ mod - > card & 0xfc ] . type = = QRV )
return - 2 ;
# endif
spin_lock_irqsave ( & wc - > reglock , flags ) ;
mod - > type = FXS ;
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
/* msleep(100); */
/* Sanity check the ProSLIC */
if ( ! sane & & wcaxx_proslic_insane ( wc , mod ) )
return - 2 ;
/* Initialize VMWI settings */
memset ( & ( fxs - > vmwisetting ) , 0 , sizeof ( fxs - > vmwisetting ) ) ;
fxs - > vmwi_linereverse = 0 ;
/* By default, don't send on hook */
if ( ! reversepolarity ! = ! fxs - > reversepolarity )
fxs - > idletxhookstate = SLIC_LF_ACTIVE_REV ;
else
fxs - > idletxhookstate = SLIC_LF_ACTIVE_FWD ;
if ( sane ) {
/* Make sure we turn off the DC->DC converter to prevent
* anything from blowing up */
wcaxx_setreg ( wc , mod , 14 , 0x10 ) ;
}
if ( wcaxx_proslic_init_indirect_regs ( wc , mod ) ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Indirect Registers failed to initialize on "
" module %d. \n " , mod - > card ) ;
return - 1 ;
}
/* Clear scratch pad area */
wcaxx_proslic_setreg_indirect ( wc , mod , 97 , 0 ) ;
/* Clear digital loopback */
wcaxx_setreg ( wc , mod , 8 , 0 ) ;
/* Revision C optimization */
wcaxx_setreg ( wc , mod , 108 , 0xeb ) ;
/* Disable automatic VBat switching for safety to prevent
* Q7 from accidently turning on and burning out .
* If pulse dialing has trouble at high REN loads change this to 0x17 */
wcaxx_setreg ( wc , mod , 67 , 0x07 ) ;
/* Turn off Q7 */
wcaxx_setreg ( wc , mod , 66 , 1 ) ;
/* Flush ProSLIC digital filters by setting to clear, while
saving old values */
for ( x = 0 ; x < 5 ; x + + ) {
tmp [ x ] = wcaxx_proslic_getreg_indirect ( wc , mod , x + 35 ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , x + 35 , 0x8000 ) ;
}
/* Power up the DC-DC converter */
if ( wcaxx_powerup_proslic ( wc , mod , fast ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Unable to do INITIAL ProSLIC powerup on "
" module %d \n " , mod - > card ) ;
return - 1 ;
}
if ( ! fast ) {
/* Check for power leaks */
if ( wcaxx_proslic_powerleak_test ( wc , mod ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" ProSLIC module %d failed leakage test. "
" Check for short circuit \n " , mod - > card ) ;
}
/* Power up again */
if ( wcaxx_powerup_proslic ( wc , mod , fast ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Unable to do FINAL ProSLIC powerup on "
" module %d \n " , mod - > card ) ;
return - 1 ;
}
# ifndef NO_CALIBRATION
/* Perform calibration */
if ( manual ) {
if ( wcaxx_proslic_manual_calibrate ( wc , mod ) ) {
dev_dbg ( & wc - > xb . pdev - > dev ,
" Proslic failed on Manual Calibration \n " ) ;
if ( wcaxx_proslic_manual_calibrate ( wc , mod ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Proslic Failed on Second Attempt to Calibrate Manually. (Try -DNO_CALIBRATION in Makefile) \n " ) ;
return - 1 ;
}
dev_info ( & wc - > xb . pdev - > dev ,
" Proslic Passed Manual Calibration on Second Attempt \n " ) ;
}
} else {
if ( wcaxx_proslic_calibrate ( wc , mod ) ) {
dev_dbg ( & wc - > xb . pdev - > dev ,
" ProSlic died on Auto Calibration. \n " ) ;
if ( wcaxx_proslic_calibrate ( wc , mod ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" Proslic Failed on Second Attempt to Auto Calibrate \n " ) ;
return - 1 ;
}
dev_info ( & wc - > xb . pdev - > dev ,
" Proslic Passed Auto Calibration on Second Attempt \n " ) ;
}
}
/* Perform DC-DC calibration */
wcaxx_setreg ( wc , mod , 93 , 0x99 ) ;
r19 = wcaxx_getreg ( wc , mod , 107 ) ;
if ( ( r19 < 0x2 ) | | ( r19 > 0xd ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" DC-DC cal has a surprising direct 107 of 0x%02x! \n " ,
r19 ) ;
wcaxx_setreg ( wc , mod , 107 , 0x8 ) ;
}
/* Save calibration vectors */
for ( x = 0 ; x < ARRAY_SIZE ( addresses ) ; x + + )
addresses [ x ] = 96 + x ;
wcaxx_getregs ( wc , mod , addresses , ARRAY_SIZE ( addresses ) ) ;
for ( x = 0 ; x < ARRAY_SIZE ( fxs - > calregs . vals ) ; x + + )
fxs - > calregs . vals [ x ] = addresses [ x ] ;
# endif
} else {
/* Restore calibration registers */
for ( x = 0 ; x < ARRAY_SIZE ( fxs - > calregs . vals ) ; x + + )
wcaxx_setreg ( wc , mod , 96 + x , fxs - > calregs . vals [ x ] ) ;
}
/* Calibration complete, restore original values */
for ( x = 0 ; x < 5 ; x + + )
wcaxx_proslic_setreg_indirect ( wc , mod , x + 35 , tmp [ x ] ) ;
if ( wcaxx_proslic_verify_indirect_regs ( wc , mod ) ) {
dev_info ( & wc - > xb . pdev - > dev , " Indirect Registers failed verification. \n " ) ;
return - 1 ;
}
/* U-Law 8-bit interface */
wcaxx_proslic_set_ts ( wc , mod , mod - > card ) ;
wcaxx_setreg ( wc , mod , 18 , 0xff ) ; /* clear all interrupt */
wcaxx_setreg ( wc , mod , 19 , 0xff ) ;
wcaxx_setreg ( wc , mod , 20 , 0xff ) ;
wcaxx_setreg ( wc , mod , 22 , 0xff ) ;
wcaxx_setreg ( wc , mod , 73 , 0x04 ) ;
wcaxx_setreg ( wc , mod , 69 , 0x4 ) ;
if ( fxshonormode ) {
static const int ACIM2TISS [ 16 ] = { 0x0 , 0x1 , 0x4 , 0x5 , 0x7 ,
0x0 , 0x0 , 0x6 , 0x0 , 0x0 ,
0x0 , 0x2 , 0x0 , 0x3 } ;
fxsmode = ACIM2TISS [ fxo_modes [ _opermode ] . acim ] ;
wcaxx_setreg ( wc , mod , 10 , 0x08 | fxsmode ) ;
if ( fxo_modes [ _opermode ] . ring_osc ) {
wcaxx_proslic_setreg_indirect ( wc , mod , 20 ,
fxo_modes [ _opermode ] . ring_osc ) ;
}
if ( fxo_modes [ _opermode ] . ring_x ) {
wcaxx_proslic_setreg_indirect ( wc , mod , 21 ,
fxo_modes [ _opermode ] . ring_x ) ;
}
}
if ( lowpower )
wcaxx_setreg ( wc , mod , 72 , 0x10 ) ;
if ( fastringer ) {
/* Speed up Ringer */
wcaxx_proslic_setreg_indirect ( wc , mod , 20 , 0x7e6d ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , 21 , 0x01b9 ) ;
/* Beef up Ringing voltage to 89V */
if ( boostringer ) {
wcaxx_setreg ( wc , mod , 74 , 0x3f ) ;
if ( wcaxx_proslic_setreg_indirect ( wc , mod , 21 , 0x247 ) )
return - 1 ;
dev_info ( & wc - > xb . pdev - > dev ,
" Boosting fast ringer on slot %d (89V peak) \n " ,
mod - > card + 1 ) ;
} else if ( lowpower ) {
if ( wcaxx_proslic_setreg_indirect ( wc , mod , 21 , 0x14b ) )
return - 1 ;
dev_info ( & wc - > xb . pdev - > dev ,
" Reducing fast ring power on slot %d "
" (50V peak) \n " , mod - > card + 1 ) ;
} else
dev_info ( & wc - > xb . pdev - > dev ,
" Speeding up ringer on slot %d (25Hz) \n " ,
mod - > card + 1 ) ;
} else {
/* Beef up Ringing voltage to 89V */
if ( boostringer ) {
wcaxx_setreg ( wc , mod , 74 , 0x3f ) ;
if ( wcaxx_proslic_setreg_indirect ( wc , mod , 21 , 0x1d1 ) )
return - 1 ;
dev_info ( & wc - > xb . pdev - > dev ,
" Boosting ringer on slot %d (89V peak) \n " ,
mod - > card + 1 ) ;
} else if ( lowpower ) {
if ( wcaxx_proslic_setreg_indirect ( wc , mod , 21 , 0x108 ) )
return - 1 ;
dev_info ( & wc - > xb . pdev - > dev ,
" Reducing ring power on slot %d "
" (50V peak) \n " , mod - > card + 1 ) ;
}
}
if ( fxstxgain | | fxsrxgain ) {
r9 = wcaxx_getreg ( wc , mod , 9 ) ;
switch ( fxstxgain ) {
case 35 :
r9 + = 8 ;
break ;
case - 35 :
r9 + = 4 ;
break ;
case 0 :
break ;
}
switch ( fxsrxgain ) {
case 35 :
r9 + = 2 ;
break ;
case - 35 :
r9 + = 1 ;
break ;
case 0 :
break ;
}
wcaxx_setreg ( wc , mod , 9 , r9 ) ;
}
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" DEBUG: fxstxgain:%s fxsrxgain:%s \n " ,
( ( wcaxx_getreg ( wc , mod , 9 ) / 8 ) = = 1 ) ?
" 3.5 " : ( ( wcaxx_getreg ( wc , mod , 9 ) / 4 ) = = 1 ) ?
" -3.5 " : " 0.0 " ,
( ( wcaxx_getreg ( wc , mod , 9 ) / 2 ) = = 1 ) ?
" 3.5 " : ( ( wcaxx_getreg ( wc , mod , 9 ) % 2 ) ?
" -3.5 " : " 0.0 " ) ) ;
}
fxs - > lasttxhook = fxs - > idletxhookstate ;
wcaxx_setreg ( wc , mod , LINE_STATE , fxs - > lasttxhook ) ;
/* Preset the shadow register so that we won't get a power alarm when
* we finish initialization , otherwise the line state register may not
* have been read yet . */
fxs - > linefeed_control_shadow = fxs - > lasttxhook ;
return 0 ;
}
static void wcaxx_get_fxs_regs ( struct wcaxx * wc , struct wcaxx_module * mod ,
struct wctdm_regs * regs )
{
int x ;
for ( x = 0 ; x < NUM_INDIRECT_REGS ; x + + )
regs - > indirect [ x ] = wcaxx_proslic_getreg_indirect ( wc , mod , x ) ;
for ( x = 0 ; x < NUM_REGS ; x + + )
regs - > direct [ x ] = wcaxx_getreg ( wc , mod , x ) ;
}
static void wcaxx_get_fxo_regs ( struct wcaxx * wc , struct wcaxx_module * mod ,
struct wctdm_regs * regs )
{
const unsigned int NUM_FXO_REGS = 60 ;
int x ;
for ( x = 0 ; x < NUM_FXO_REGS ; x + + )
regs - > direct [ x ] = wcaxx_getreg ( wc , mod , x ) ;
}
static int
wcaxx_ioctl ( struct dahdi_chan * chan , unsigned int cmd , unsigned long data )
{
struct wctdm_stats stats ;
struct wctdm_regop regop ;
struct wctdm_echo_coefs echoregs ;
struct dahdi_hwgain hwgain ;
struct wcaxx * wc = chan - > pvt ;
int x ;
struct wcaxx_module * const mod = & wc - > mods [ chan - > chanpos - 1 ] ;
struct fxs * const fxs = & mod - > mod . fxs ;
switch ( cmd ) {
case DAHDI_ONHOOKTRANSFER :
if ( mod - > type ! = FXS )
return - EINVAL ;
if ( get_user ( x , ( __user int * ) data ) )
return - EFAULT ;
/* Active mode when idle */
fxs - > idletxhookstate = POLARITY_XOR ( fxs ) ?
SLIC_LF_ACTIVE_REV :
SLIC_LF_ACTIVE_FWD ;
if ( fxs_lf ( fxs , ACTIVE_FWD ) | | fxs_lf ( fxs , ACTIVE_REV ) ) {
int res ;
res = set_lasttxhook_interruptible ( wc , fxs ,
( POLARITY_XOR ( fxs ) ?
SLIC_LF_OHTRAN_REV : SLIC_LF_OHTRAN_FWD ) ,
& mod - > sethook ) ;
if ( debug & DEBUG_CARD ) {
if ( res ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d TIMEOUT: "
" OnHookTransfer start \n " ,
chan - > chanpos - 1 ) ;
} else {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d OnHookTransfer "
" start \n " , chan - > chanpos - 1 ) ;
}
}
}
fxs - > ohttimer = wc - > framecount + x ;
fxs - > oht_active = 1 ;
break ;
case DAHDI_VMWI_CONFIG :
if ( mod - > type ! = FXS )
return - EINVAL ;
if ( copy_from_user ( & ( fxs - > vmwisetting ) ,
( __user void * ) data ,
sizeof ( fxs - > vmwisetting ) ) )
return - EFAULT ;
set_vmwi ( wc , mod ) ;
break ;
case DAHDI_VMWI :
if ( mod - > type ! = FXS )
return - EINVAL ;
if ( get_user ( x , ( __user int * ) data ) )
return - EFAULT ;
if ( 0 > x )
return - EFAULT ;
fxs - > vmwi_active_messages = x ;
set_vmwi ( wc , mod ) ;
break ;
case WCTDM_GET_STATS :
if ( mod - > type = = FXS ) {
stats . tipvolt = wcaxx_getreg ( wc , mod , 80 ) * - 376 ;
stats . ringvolt = wcaxx_getreg ( wc , mod , 81 ) * - 376 ;
stats . batvolt = wcaxx_getreg ( wc , mod , 82 ) * - 376 ;
} else if ( mod - > type = = FXO ) {
stats . tipvolt = ( s8 ) wcaxx_getreg ( wc , mod , 29 ) * 1000 ;
stats . ringvolt = ( s8 ) wcaxx_getreg ( wc , mod , 29 ) * 1000 ;
stats . batvolt = ( s8 ) wcaxx_getreg ( wc , mod , 29 ) * 1000 ;
} else
return - EINVAL ;
if ( copy_to_user ( ( __user void * ) data , & stats , sizeof ( stats ) ) )
return - EFAULT ;
break ;
case WCTDM_GET_REGS :
{
struct wctdm_regs * regs = kzalloc ( sizeof ( * regs ) , GFP_KERNEL ) ;
if ( ! regs )
return - ENOMEM ;
if ( mod - > type = = FXS )
wcaxx_get_fxs_regs ( wc , mod , regs ) ;
else
wcaxx_get_fxo_regs ( wc , mod , regs ) ;
if ( copy_to_user ( ( __user void * ) data , regs , sizeof ( * regs ) ) ) {
kfree ( regs ) ;
return - EFAULT ;
}
kfree ( regs ) ;
break ;
}
case WCTDM_SET_REG :
if ( copy_from_user ( & regop , ( __user void * ) data , sizeof ( regop ) ) )
return - EFAULT ;
if ( regop . indirect ) {
if ( mod - > type ! = FXS )
return - EINVAL ;
dev_info ( & wc - > xb . pdev - > dev ,
" Setting indirect %d to 0x%04x on %d \n " ,
regop . reg , regop . val , chan - > chanpos ) ;
wcaxx_proslic_setreg_indirect ( wc , mod , regop . reg ,
regop . val ) ;
} else {
regop . val & = 0xff ;
if ( regop . reg = = LINE_STATE ) {
/* Set feedback register to indicate the new
* state that is being set */
fxs - > lasttxhook = ( regop . val & 0x0f ) |
SLIC_LF_OPPENDING ;
}
dev_info ( & wc - > xb . pdev - > dev ,
" Setting direct %d to %04x on %d \n " ,
regop . reg , regop . val , chan - > chanpos ) ;
wcaxx_setreg ( wc , mod , regop . reg , regop . val ) ;
}
break ;
case WCTDM_SET_ECHOTUNE :
dev_info ( & wc - > xb . pdev - > dev , " -- Setting echo registers: \n " ) ;
if ( copy_from_user ( & echoregs , ( __user void * ) data ,
sizeof ( echoregs ) ) )
return - EFAULT ;
if ( mod - > type = = FXO ) {
/* Set the ACIM register */
wcaxx_setreg ( wc , mod , 30 , echoregs . acim ) ;
/* Set the digital echo canceller registers */
wcaxx_setreg ( wc , mod , 45 , echoregs . coef1 ) ;
wcaxx_setreg ( wc , mod , 46 , echoregs . coef2 ) ;
wcaxx_setreg ( wc , mod , 47 , echoregs . coef3 ) ;
wcaxx_setreg ( wc , mod , 48 , echoregs . coef4 ) ;
wcaxx_setreg ( wc , mod , 49 , echoregs . coef5 ) ;
wcaxx_setreg ( wc , mod , 50 , echoregs . coef6 ) ;
wcaxx_setreg ( wc , mod , 51 , echoregs . coef7 ) ;
wcaxx_setreg ( wc , mod , 52 , echoregs . coef8 ) ;
dev_info ( & wc - > xb . pdev - > dev , " -- Set echo registers successfully \n " ) ;
break ;
} else {
return - EINVAL ;
}
break ;
case DAHDI_SET_HWGAIN :
if ( copy_from_user ( & hwgain , ( __user void * ) data ,
sizeof ( hwgain ) ) )
return - EFAULT ;
wcaxx_set_hwgain ( wc , mod , hwgain . newgain , hwgain . tx ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Setting hwgain on channel %d to %d for %s direction \n " ,
chan - > chanpos - 1 , hwgain . newgain ,
( ( hwgain . tx ) ? " tx " : " rx " ) ) ;
}
break ;
case DAHDI_TONEDETECT :
/* Hardware DTMF detection is not supported. */
return - ENOSYS ;
case DAHDI_SETPOLARITY :
if ( get_user ( x , ( __user int * ) data ) )
return - EFAULT ;
if ( mod - > type ! = FXS )
return - EINVAL ;
/* Can't change polarity while ringing or when open */
if ( ( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) = = SLIC_LF_RINGING ) | |
( ( fxs - > lasttxhook & SLIC_LF_SETMASK ) = = SLIC_LF_OPEN ) ) {
if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d Unable to Set Polarity \n " ,
chan - > chanpos - 1 ) ;
}
return - EINVAL ;
}
fxs - > reversepolarity = ( x ) ? 1 : 0 ;
if ( POLARITY_XOR ( fxs ) ) {
fxs - > idletxhookstate | = SLIC_LF_REVMASK ;
x = fxs - > lasttxhook & SLIC_LF_SETMASK ;
x | = SLIC_LF_REVMASK ;
if ( x ! = fxs - > lasttxhook ) {
x = set_lasttxhook_interruptible ( wc , fxs , x ,
& mod - > sethook ) ;
if ( ( debug & DEBUG_CARD ) & & x ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d TIMEOUT: Set Reverse Polarity \n " ,
chan - > chanpos - 1 ) ;
} else if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d Set Reverse Polarity \n " ,
chan - > chanpos - 1 ) ;
}
}
} else {
fxs - > idletxhookstate & = ~ SLIC_LF_REVMASK ;
x = fxs - > lasttxhook & SLIC_LF_SETMASK ;
x & = ~ SLIC_LF_REVMASK ;
if ( x ! = fxs - > lasttxhook ) {
x = set_lasttxhook_interruptible ( wc , fxs , x ,
& mod - > sethook ) ;
if ( ( debug & DEBUG_CARD ) & x ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d TIMEOUT: Set Normal Polarity \n " ,
chan - > chanpos - 1 ) ;
} else if ( debug & DEBUG_CARD ) {
dev_info ( & wc - > xb . pdev - > dev ,
" Channel %d Set Normal Polarity \n " ,
chan - > chanpos - 1 ) ;
}
}
}
break ;
default :
return - ENOTTY ;
}
return 0 ;
}
static int wcaxx_open ( struct dahdi_chan * chan )
{
struct wcaxx * const wc = chan - > pvt ;
unsigned long flags ;
struct wcaxx_module * const mod = & wc - > mods [ chan - > chanpos - 1 ] ;
#if 0
if ( wc - > dead )
return - ENODEV ;
# endif
if ( mod - > type = = FXO ) {
/* Reset the mwi indicators */
spin_lock_irqsave ( & wc - > reglock , flags ) ;
mod - > mod . fxo . neonmwi_debounce = 0 ;
mod - > mod . fxo . neonmwi_offcounter = 0 ;
mod - > mod . fxo . neonmwi_state = 0 ;
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
}
return 0 ;
}
static inline struct wcaxx * span_to_wcaxx ( struct dahdi_span * span )
{
struct wcaxx * wc = container_of ( span , struct wcaxx , span ) ;
return wc ;
}
static int wcaxx_watchdog ( struct dahdi_span * span , int event )
{
struct wcaxx * wc = span_to_wcaxx ( span ) ;
dev_info ( & wc - > xb . pdev - > dev , " TDM: Called watchdog \n " ) ;
return 0 ;
}
static int wcaxx_close ( struct dahdi_chan * chan )
{
struct wcaxx * wc ;
int x ;
wc = chan - > pvt ;
for ( x = 0 ; x < wc - > mods_per_board ; x + + ) {
struct wcaxx_module * const mod = & wc - > mods [ x ] ;
if ( FXS = = mod - > type ) {
mod - > mod . fxs . idletxhookstate =
POLARITY_XOR ( & mod - > mod . fxs ) ? SLIC_LF_ACTIVE_REV :
SLIC_LF_ACTIVE_FWD ;
}
}
return 0 ;
}
static int wcaxx_hooksig ( struct dahdi_chan * chan , enum dahdi_txsig txsig )
{
struct wcaxx * wc = chan - > pvt ;
struct wcaxx_module * const mod = & wc - > mods [ chan - > chanpos - 1 ] ;
if ( mod - > type = = FXO ) {
switch ( txsig ) {
case DAHDI_TXSIG_START :
case DAHDI_TXSIG_OFFHOOK :
mod - > mod . fxo . offhook = 1 ;
mod - > sethook = CMD_WR ( 5 , 0x9 ) ;
/* wcaxx_setreg(wc, chan->chanpos - 1, 5, 0x9); */
break ;
case DAHDI_TXSIG_ONHOOK :
mod - > mod . fxo . offhook = 0 ;
mod - > sethook = CMD_WR ( 5 , 0x8 ) ;
/* wcaxx_setreg(wc, chan->chanpos - 1, 5, 0x8); */
break ;
default :
dev_notice ( & wc - > xb . pdev - > dev ,
" Can't set tx state to %d \n " , txsig ) ;
break ;
}
} else if ( mod - > type = = FXS ) {
wcaxx_fxs_hooksig ( wc , mod , txsig ) ;
}
return 0 ;
}
static void wcaxx_dacs_connect ( struct wcaxx * wc , int srccard , int dstcard )
{
struct wcaxx_module * const srcmod = & wc - > mods [ srccard ] ;
struct wcaxx_module * const dstmod = & wc - > mods [ dstcard ] ;
unsigned int type ;
if ( wc - > mods [ dstcard ] . dacssrc > - 1 ) {
dev_notice ( & wc - > xb . pdev - > dev , " wcaxx_dacs_connect: Can't have double sourcing yet! \n " ) ;
return ;
}
type = wc - > mods [ srccard ] . type ;
if ( ( type = = FXS ) | | ( type = = FXO ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" wcaxx_dacs_connect: Unsupported modtype for "
" card %d \n " , srccard ) ;
return ;
}
type = wc - > mods [ dstcard ] . type ;
if ( ( type ! = FXS ) & & ( type ! = FXO ) ) {
dev_notice ( & wc - > xb . pdev - > dev ,
" wcaxx_dacs_connect: Unsupported modtype "
" for card %d \n " , dstcard ) ;
return ;
}
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" connect %d => %d \n " , srccard , dstcard ) ;
}
dstmod - > dacssrc = srccard ;
/* make srccard transmit to srccard+24 on the TDM bus */
if ( srcmod - > type = = FXS ) {
/* proslic */
wcaxx_setreg ( wc , srcmod , PCM_XMIT_START_COUNT_LSB ,
( ( srccard + 24 ) * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , srcmod , PCM_XMIT_START_COUNT_MSB ,
( ( srccard + 24 ) * 8 ) > > 8 ) ;
} else if ( srcmod - > type = = FXO ) {
/* daa TX */
wcaxx_setreg ( wc , srcmod , 34 , ( ( srccard + 24 ) * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , srcmod , 35 , ( ( srccard + 24 ) * 8 ) > > 8 ) ;
}
/* have dstcard receive from srccard+24 on the TDM bus */
if ( dstmod - > type = = FXS ) {
/* proslic */
wcaxx_setreg ( wc , dstmod , PCM_RCV_START_COUNT_LSB ,
( ( srccard + 24 ) * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , dstmod , PCM_RCV_START_COUNT_MSB ,
( ( srccard + 24 ) * 8 ) > > 8 ) ;
} else if ( dstmod - > type = = FXO ) {
/* daa RX */
wcaxx_setreg ( wc , dstmod , 36 , ( ( srccard + 24 ) * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , dstmod , 37 , ( ( srccard + 24 ) * 8 ) > > 8 ) ;
}
}
static void wcaxx_dacs_disconnect ( struct wcaxx * wc , int card )
{
struct wcaxx_module * const mod = & wc - > mods [ card ] ;
struct wcaxx_module * dacssrc ;
if ( mod - > dacssrc < = - 1 )
return ;
dacssrc = & wc - > mods [ mod - > dacssrc ] ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" wcaxx_dacs_disconnect: restoring TX for %d and RX for %d \n " ,
mod - > dacssrc , card ) ;
}
/* restore TX (source card) */
if ( dacssrc - > type = = FXS ) {
wcaxx_setreg ( wc , dacssrc , PCM_XMIT_START_COUNT_LSB ,
( mod - > dacssrc * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , dacssrc , PCM_XMIT_START_COUNT_MSB ,
( mod - > dacssrc * 8 ) > > 8 ) ;
} else if ( dacssrc - > type = = FXO ) {
wcaxx_setreg ( wc , mod , 34 , ( card * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , mod , 35 , ( card * 8 ) > > 8 ) ;
} else {
dev_warn ( & wc - > xb . pdev - > dev ,
" WARNING: wcaxx_dacs_disconnect() called "
" on unsupported modtype \n " ) ;
}
/* restore RX (this card) */
if ( FXS = = mod - > type ) {
wcaxx_setreg ( wc , mod , PCM_RCV_START_COUNT_LSB ,
( card * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , mod , PCM_RCV_START_COUNT_MSB ,
( card * 8 ) > > 8 ) ;
} else if ( FXO = = mod - > type ) {
wcaxx_setreg ( wc , mod , 36 , ( card * 8 ) & 0xff ) ;
wcaxx_setreg ( wc , mod , 37 , ( card * 8 ) > > 8 ) ;
} else {
dev_warn ( & wc - > xb . pdev - > dev ,
" WARNING: wcaxx_dacs_disconnect() called "
" on unsupported modtype \n " ) ;
}
mod - > dacssrc = - 1 ;
}
static int wcaxx_dacs ( struct dahdi_chan * dst , struct dahdi_chan * src )
{
struct wcaxx * wc ;
if ( ! nativebridge )
return 0 ; /* should this return -1 since unsuccessful? */
wc = dst - > pvt ;
if ( src ) {
wcaxx_dacs_connect ( wc , src - > chanpos - 1 , dst - > chanpos - 1 ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" dacs connecct: %d -> %d! \n \n " ,
src - > chanpos , dst - > chanpos ) ;
}
} else {
wcaxx_dacs_disconnect ( wc , dst - > chanpos - 1 ) ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" dacs disconnect: %d! \n " , dst - > chanpos ) ;
}
}
return 0 ;
}
/**
* wcaxx_chanconfig - Called when the channels are being configured .
*
* Ensure that the card is completely ready to go before we allow the channels
* to be completely configured . This is to allow lengthy initialization
* actions to take place in background on driver load and ensure we ' re synced
* up by the time dahdi_cfg is run .
*
*/
static int
wcaxx_chanconfig ( struct file * file , struct dahdi_chan * chan , int sigtype )
{
struct wcaxx * wc = chan - > pvt ;
if ( ( file - > f_flags & O_NONBLOCK ) & & ! is_initialized ( wc ) )
return - EAGAIN ;
return 0 ;
}
/*
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* wcaxx_assigned - Called when span is assigned .
* @ span : The span that is now assigned .
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*
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* This function is called by the core of DAHDI after the span number and
* channel numbers have been assigned .
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*
*/
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static void wcaxx_assigned ( struct dahdi_span * span )
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{
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struct dahdi_span * s ;
struct dahdi_device * ddev = span - > parent ;
struct wcaxx * wc = NULL ;
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list_for_each_entry ( s , & ddev - > spans , device_node ) {
wc = container_of ( s , struct wcaxx , span ) ;
if ( ! test_bit ( DAHDI_FLAGBIT_REGISTERED , & s - > flags ) )
return ;
}
}
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static const struct dahdi_span_ops wcaxx_span_ops = {
. owner = THIS_MODULE ,
. hooksig = wcaxx_hooksig ,
. open = wcaxx_open ,
. close = wcaxx_close ,
. ioctl = wcaxx_ioctl ,
. watchdog = wcaxx_watchdog ,
. chanconfig = wcaxx_chanconfig ,
. dacs = wcaxx_dacs ,
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. assigned = wcaxx_assigned ,
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. echocan_create = wcaxx_echocan_create ,
. echocan_name = wcaxx_echocan_name ,
} ;
static struct wcaxx_chan *
wcaxx_init_chan ( struct wcaxx * wc , struct dahdi_span * s , int channo )
{
struct wcaxx_chan * c ;
c = kzalloc ( sizeof ( * c ) , GFP_KERNEL ) ;
if ( ! c )
return NULL ;
snprintf ( c - > chan . name , sizeof ( c - > chan . name ) , " WCTDM/%d/%d " ,
wc - > num , channo ) ;
c - > chan . chanpos = channo + 1 ;
c - > chan . span = s ;
c - > chan . pvt = wc ;
c - > timeslot = channo ;
return c ;
}
static void wcaxx_init_span ( struct wcaxx * wc )
{
int x ;
struct wcaxx_chan * c ;
struct dahdi_echocan_state * ec [ NUM_MODULES ] = { NULL , } ;
/* DAHDI stuff */
wc - > span . offset = 0 ;
sprintf ( wc - > span . name , " WCTDM/%d " , wc - > num ) ;
snprintf ( wc - > span . desc , sizeof ( wc - > span . desc ) - 1 ,
" %s " , wc - > desc - > name ) ;
if ( wc - > companding = = DAHDI_LAW_DEFAULT ) {
wc - > span . deflaw = DAHDI_LAW_MULAW ;
} else if ( wc - > companding = = DAHDI_LAW_ALAW ) {
/* Force everything to alaw */
wc - > span . deflaw = DAHDI_LAW_ALAW ;
} else {
/* Auto set to ulaw */
wc - > span . deflaw = DAHDI_LAW_MULAW ;
}
wc - > span . ops = & wcaxx_span_ops ;
wc - > span . flags = DAHDI_FLAG_RBS ;
wc - > span . spantype = SPANTYPE_ANALOG_MIXED ;
wc - > span . chans = kmalloc ( sizeof ( wc - > span . chans [ 0 ] ) * wc - > desc - > ports ,
GFP_KERNEL ) ;
if ( ! wc - > span . chans )
return ;
/* allocate channels for the span */
for ( x = 0 ; x < wc - > desc - > ports ; x + + ) {
c = wcaxx_init_chan ( wc , & wc - > span , x ) ;
if ( ! c )
return ;
wc - > chans [ x ] = c ;
wc - > span . chans [ x ] = & c - > chan ;
/* TODO: Should echocan state hide under VPM_ENABLED or does
* software ec use it ? */
ec [ x ] = kzalloc ( sizeof ( * ec [ x ] ) , GFP_KERNEL ) ;
}
wc - > span . channels = wc - > desc - > ports ;
memcpy ( wc - > ec , ec , sizeof ( wc - > ec ) ) ;
memset ( ec , 0 , sizeof ( ec ) ) ;
}
/**
* should_set_alaw ( ) - Should be called after all the spans are initialized .
*
* Returns true if the module companding should be set to alaw , otherwise
* false .
*/
static bool should_set_alaw ( const struct wcaxx * wc )
{
if ( DAHDI_LAW_ALAW = = wc - > companding )
return true ;
else
return false ;
}
static void wcaxx_fixup_span ( struct wcaxx * wc )
{
struct dahdi_span * s ;
int x , y ;
y = 0 ;
s = & wc - > span ;
for ( x = 0 ; x < wc - > desc - > ports ; x + + ) {
struct wcaxx_module * const mod = & wc - > mods [ x ] ;
if ( debug ) {
dev_info ( & wc - > xb . pdev - > dev ,
" fixup_analog: x=%d, y=%d modtype=%d, "
" s->chans[%d]=%p \n " , x , y , mod - > type ,
y , s - > chans [ y ] ) ;
}
if ( mod - > type = = FXO ) {
int val ;
s - > chans [ y + + ] - > sigcap = DAHDI_SIG_FXSKS |
DAHDI_SIG_FXSLS | DAHDI_SIG_SF |
DAHDI_SIG_CLEAR ;
val = should_set_alaw ( wc ) ? 0x20 : 0x28 ;
# ifdef DEBUG
val = ( digitalloopback ) ? 0x30 : val ;
# endif
wcaxx_setreg ( wc , mod , 33 , val ) ;
wcaxx_voicedaa_set_ts ( wc , mod , wc - > chans [ x ] - > timeslot ) ;
} else if ( mod - > type = = FXS ) {
/* NOTE: Digital loopback does not work on the FXS
* modules in the same way since the data is still
* companded by the ProSLIC and doesn ' t appear to have
* perfect symetry . */
s - > chans [ y + + ] - > sigcap = DAHDI_SIG_FXOKS |
DAHDI_SIG_FXOLS | DAHDI_SIG_FXOGS |
DAHDI_SIG_SF | DAHDI_SIG_EM | DAHDI_SIG_CLEAR ;
wcaxx_setreg ( wc , mod , 1 ,
( should_set_alaw ( wc ) ? 0x20 : 0x28 ) ) ;
wcaxx_proslic_set_ts ( wc , mod , wc - > chans [ x ] - > timeslot ) ;
} else {
s - > chans [ y + + ] - > sigcap = 0 ;
}
}
}
static bool wcaxx_init_fxs_port ( struct wcaxx * wc , struct wcaxx_module * mod )
{
u8 readi ;
enum { UNKNOWN = 0 , SANE = 1 } ;
int ret = wcaxx_init_proslic ( wc , mod , 0 , 0 , UNKNOWN ) ;
if ( ! ret ) {
if ( debug & DEBUG_CARD ) {
readi = wcaxx_getreg ( wc , mod , LOOP_I_LIMIT ) ;
dev_info ( & wc - > xb . pdev - > dev ,
" Proslic module %d loop current is %dmA \n " ,
mod - > card , ( ( readi * 3 ) + 20 ) ) ;
}
return true ;
}
if ( ret ! = - 2 ) {
/* Init with Manual Calibration */
if ( ! wcaxx_init_proslic ( wc , mod , 0 , 1 , SANE ) ) {
if ( debug & DEBUG_CARD ) {
readi = wcaxx_getreg ( wc , mod , LOOP_I_LIMIT ) ;
dev_info ( & wc - > xb . pdev - > dev ,
" Proslic module %d loop current is %dmA \n " ,
mod - > card , ( ( readi * 3 ) + 20 ) ) ;
}
} else {
dev_notice ( & wc - > xb . pdev - > dev ,
" Port %d: FAILED FXS (%s) \n " , mod - > card + 1 ,
fxshonormode ? fxo_modes [ _opermode ] . name :
" FCC " ) ;
}
return true ;
}
return false ;
}
static void wcaxx_reset_module ( struct wcaxx * wc , struct wcaxx_module * mod )
{
u32 reg_val = ( 1UL < < ( mod - > spi - > chip_select + 12 ) ) ;
wcxb_gpio_clear ( & wc - > xb , reg_val ) ;
udelay ( 500 ) ;
wcxb_gpio_set ( & wc - > xb , reg_val ) ;
msleep ( 250 ) ; /* TODO: What should this value be? */
}
static bool check_for_single_fxs ( struct wcaxx * wc , unsigned int port )
{
bool result ;
struct wcaxx_module * mod = & wc - > mods [ port ] ;
mod - > spi = get_spi_device_for_port ( wc , mod - > card , false ) ;
mod - > subaddr = 0 ;
wcaxx_reset_module ( wc , mod ) ;
wcaxx_fxsinit ( mod - > spi ) ;
result = wcaxx_init_fxs_port ( wc , mod ) ;
if ( ! result )
mod - > type = NONE ;
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/* It is currently unclear why this read is necessary for some of the
* S100M modules to properly function . */
wcaxx_getreg ( wc , mod , 0x00 ) ;
2013-07-02 00:09:10 +08:00
return result ;
}
static bool check_for_single_fxo ( struct wcaxx * wc , unsigned int port )
{
bool result ;
struct wcaxx_module * mod = & wc - > mods [ port ] ;
mod - > spi = get_spi_device_for_port ( wc , mod - > card , false ) ;
mod - > subaddr = 0 ;
wcaxx_reset_module ( wc , mod ) ;
result = ( wcaxx_init_voicedaa ( wc , mod , 0 , 0 , 0 ) = = 0 ) ;
if ( ! result )
mod - > type = NONE ;
return result ;
}
static bool check_for_quad_fxs ( struct wcaxx * wc , unsigned int base_port )
{
int port ;
int offset ;
struct wcaxx_module * mod = & wc - > mods [ base_port + 1 ] ;
/* Cannot have quad port modules on the 4 port base cards. */
if ( is_four_port ( wc ) )
return false ;
/* We can assume that the base port has already been configured as an
* FXS port if we ' re even in this function */
mod - > spi = get_spi_device_for_port ( wc , mod - > card , true ) ;
mod - > subaddr = offset = 1 ;
if ( wcaxx_init_fxs_port ( wc , mod ) ) {
/* This must be a 4 port FXS module... */
for ( port = base_port + 2 ; port < base_port + 4 ; + + port ) {
mod = & wc - > mods [ port ] ;
mod - > spi = get_spi_device_for_port ( wc , mod - > card , true ) ;
mod - > subaddr = + + offset ;
if ( ! wcaxx_init_fxs_port ( wc , mod ) ) {
/* This means that a quad-module failed to
* setup ports 3 or 4 ? */
dev_err ( & wc - > xb . pdev - > dev ,
" Quad-FXS at base %d failed initialization. \n " ,
base_port ) ;
goto error_exit ;
}
}
return true ;
}
error_exit :
for ( port = base_port + 1 ; port < base_port + 4 ; + + port ) {
mod = & wc - > mods [ port ] ;
mod - > type = NONE ;
}
return false ;
}
static bool check_for_quad_fxo ( struct wcaxx * wc , unsigned int base_port )
{
int port ;
int offset ;
struct wcaxx_module * mod = & wc - > mods [ base_port + 1 ] ;
/* Cannot have quad port modules on the 4 port base cards. */
if ( is_four_port ( wc ) )
return false ;
/* We can assume that the base port has already been configured as an
* FXO port if we ' re even in this function */
mod - > spi = get_spi_device_for_port ( wc , mod - > card , true ) ;
mod - > subaddr = offset = 1 ;
if ( ! wcaxx_init_voicedaa ( wc , mod , 0 , 0 , 0 ) ) {
/* This must be a 4 port FXO module. */
for ( port = base_port + 2 ; port < base_port + 4 ; + + port ) {
mod = & wc - > mods [ port ] ;
mod - > spi = get_spi_device_for_port ( wc , mod - > card , true ) ;
mod - > subaddr = + + offset ;
if ( wcaxx_init_voicedaa ( wc , mod , 0 , 0 , 0 ) ) {
dev_err ( & wc - > xb . pdev - > dev ,
" Quad-FXO at base %d failed initialization. \n " ,
base_port ) ;
goto error_exit ;
}
}
return true ;
}
error_exit :
for ( port = base_port + 1 ; port < base_port + 4 ; + + port ) {
mod = & wc - > mods [ port ] ;
mod - > type = NONE ;
}
return false ;
}
static void __wcaxx_identify_four_port_module_group ( struct wcaxx * wc )
{
int i ;
for ( i = 0 ; i < wc - > desc - > ports ; i + + ) {
if ( ! check_for_single_fxs ( wc , i ) )
check_for_single_fxo ( wc , i ) ;
}
return ;
}
static void
__wcaxx_identify_module_group ( struct wcaxx * wc , unsigned long base )
{
if ( check_for_single_fxs ( wc , base ) ) {
if ( check_for_quad_fxs ( wc , base ) ) {
/* S400M installed */
return ;
} else if ( check_for_single_fxs ( wc , base + 1 ) ) {
/* Two S110M installed */
return ;
} else if ( check_for_single_fxo ( wc , base + 1 ) ) {
/* 1 S110M 1 X100M */
return ;
} else {
/* 1 S110M 1 Empty */
return ;
}
} else if ( check_for_single_fxo ( wc , base ) ) {
if ( check_for_quad_fxo ( wc , base ) ) {
/* X400M installed */
return ;
} else if ( check_for_single_fxo ( wc , base + 1 ) ) {
/* Two X100M installed */
return ;
} else if ( check_for_single_fxs ( wc , base + 1 ) ) {
/* 1 X100M 1 S100M installed */
return ;
} else {
/* 1 X100M 1 Empty */
return ;
}
} else if ( check_for_single_fxs ( wc , base + 1 ) ) {
/* 1 Empty 1 S110M installed */
return ;
} else if ( check_for_single_fxo ( wc , base + 1 ) ) {
/* 1 Empty 1 X100M installed */
return ;
}
/* No module */
return ;
}
/**
* wcaxx_print_moule_configuration - Print the configuration to the kernel log
* @ wc : The card we ' re interested in .
*
* This is to ensure that the module configuration from each card shows up
* sequentially in the kernel log , as opposed to interleaved with one another .
*
*/
static void wcaxx_print_module_configuration ( const struct wcaxx * const wc )
{
int i ;
static DEFINE_MUTEX ( print ) ;
mutex_lock ( & print ) ;
for ( i = 0 ; i < wc - > mods_per_board ; + + i ) {
const struct wcaxx_module * const mod = & wc - > mods [ i ] ;
switch ( mod - > type ) {
case FXO :
dev_info ( & wc - > xb . pdev - > dev ,
" Port %d: Installed -- AUTO FXO (%s mode) \n " ,
i + 1 , fxo_modes [ _opermode ] . name ) ;
break ;
case FXS :
dev_info ( & wc - > xb . pdev - > dev ,
" Port %d: Installed -- AUTO FXS/DPO \n " , i + 1 ) ;
break ;
case NONE :
dev_info ( & wc - > xb . pdev - > dev ,
" Port %d: Not installed \n " , i + 1 ) ;
break ;
}
}
mutex_unlock ( & print ) ;
}
static void wcaxx_identify_modules ( struct wcaxx * wc )
{
int x ;
unsigned long flags ;
/* A8A/A8B - Reset the modules. */
wcxb_gpio_clear ( & wc - > xb , 0xf000 ) ;
msleep ( 50 ) ; /* TODO: what should these values be? */
wcxb_gpio_set ( & wc - > xb , 0xf000 ) ;
msleep ( 250 ) ; /* TODO: What should these values be? */
/* Place all units in the daisy chain mode of operation. This allows
* multiple devices to share a chip select ( like on the X400 and S400
* modules ) */
for ( x = 0 ; x < ARRAY_SIZE ( wc - > spi_devices ) ; + + x )
wcaxx_fxsinit ( wc - > spi_devices [ x ] ) ;
spin_lock_irqsave ( & wc - > reglock , flags ) ;
wc - > mods_per_board = wc - > desc - > ports ;
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
BUG_ON ( wc - > desc - > ports % 4 ) ;
if ( is_four_port ( wc ) ) {
__wcaxx_identify_four_port_module_group ( wc ) ;
} else {
for ( x = 0 ; x < wc - > desc - > ports / 4 ; x + + )
__wcaxx_identify_module_group ( wc , x * 4 ) ;
}
wcaxx_print_module_configuration ( wc ) ;
}
static struct pci_driver wcaxx_driver ;
static void wcaxx_back_out_gracefully ( struct wcaxx * wc )
{
int i ;
unsigned long flags ;
clear_bit ( INITIALIZED , & wc - > bit_flags ) ;
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smp_mb__after_atomic ( ) ;
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/* Make sure we're not on the card list anymore. */
mutex_lock ( & card_list_lock ) ;
list_del ( & wc - > card_node ) ;
mutex_unlock ( & card_list_lock ) ;
wcxb_release ( & wc - > xb ) ;
for ( i = 0 ; i < wc - > mods_per_board ; i + + ) {
struct wcaxx_module * const mod = & wc - > mods [ i ] ;
kfree ( mod - > mod_poll ) ;
mod - > mod_poll = NULL ;
}
kfree ( wc - > span . chans ) ;
wc - > span . chans = NULL ;
spin_lock_irqsave ( & wc - > reglock , flags ) ;
for ( i = 0 ; i < wc - > span . channels ; + + i ) {
kfree ( wc - > chans [ i ] ) ;
kfree ( wc - > ec [ i ] ) ;
wc - > chans [ i ] = NULL ;
wc - > ec [ i ] = NULL ;
}
spin_unlock_irqrestore ( & wc - > reglock , flags ) ;
for ( i = 0 ; i < ARRAY_SIZE ( wc - > spi_devices ) ; i + + )
wcxb_spi_device_destroy ( wc - > spi_devices [ i ] ) ;
wcxb_spi_master_destroy ( wc - > master ) ;
kfree ( wc - > board_name ) ;
if ( wc - > ddev ) {
kfree ( wc - > ddev - > devicetype ) ;
kfree ( wc - > ddev - > location ) ;
kfree ( wc - > ddev - > hardware_id ) ;
dahdi_free_device ( wc - > ddev ) ;
}
kfree ( wc ) ;
}
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static void wcaxx_handle_error ( struct wcxb * xb )
{
struct wcaxx * wc = container_of ( xb , struct wcaxx , xb ) ;
wc - > ddev - > irqmisses + + ;
}
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static const struct wcxb_operations wcxb_operations = {
. handle_receive = wcaxx_handle_receive ,
. handle_transmit = wcaxx_handle_transmit ,
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. handle_error = wcaxx_handle_error ,
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} ;
struct cmd_results {
u8 results [ 8 ] ;
} ;
static int wcaxx_check_firmware ( struct wcaxx * wc )
{
char * filename ;
u32 firmware_version ;
const bool force_firmware = false ;
const unsigned int A4A_VERSION = 0x0a0017 ;
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const unsigned int A4B_VERSION = 0x0d001e ;
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const unsigned int A8A_VERSION = 0x1d0017 ;
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const unsigned int A8B_VERSION = 0x1f001e ;
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if ( wc - > desc = = & device_a8a ) {
firmware_version = A8A_VERSION ;
filename = " dahdi-fw-a8a.bin " ;
} else if ( wc - > desc = = & device_a8b ) {
firmware_version = A8B_VERSION ;
filename = " dahdi-fw-a8b.bin " ;
} else if ( wc - > desc = = & device_a4a ) {
firmware_version = A4A_VERSION ;
filename = " dahdi-fw-a4a.bin " ;
} else if ( wc - > desc = = & device_a4b ) {
firmware_version = A4B_VERSION ;
filename = " dahdi-fw-a4b.bin " ;
} else {
/* This is a bug in the driver code */
WARN_ON ( 1 ) ;
return 0 ;
}
return wcxb_check_firmware ( & wc - > xb , firmware_version ,
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filename , force_firmware , WCXB_RESET_NOW ) ;
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}
static void wcaxx_check_sethook ( struct wcaxx * wc , struct wcaxx_module * mod )
{
if ( mod - > sethook ) {
wcaxx_setreg ( wc , mod , ( ( mod - > sethook > > 8 ) & 0xff ) ,
mod - > sethook & 0xff ) ;
mod - > sethook = 0 ;
}
}
static void wcaxx_poll_fxs_complete ( void * arg )
{
struct wcaxx_mod_poll * poll_fxs = arg ;
struct wcaxx * wc = poll_fxs - > wc ;
struct wcaxx_module * const mod = poll_fxs - > mod ;
if ( ! is_initialized ( wc ) ) {
kfree ( poll_fxs ) ;
return ;
}
mod - > mod . fxs . hook_state_shadow = poll_fxs - > buffer [ 2 ] ;
mod - > mod . fxs . linefeed_control_shadow = poll_fxs - > buffer [ 5 ] ;
wcaxx_isr_misc_fxs ( poll_fxs - > wc , poll_fxs - > mod ) ;
memcpy ( poll_fxs - > buffer , poll_fxs - > master_buffer ,
sizeof ( poll_fxs - > buffer ) ) ;
wcaxx_check_sethook ( poll_fxs - > wc , poll_fxs - > mod ) ;
mod - > mod_poll = poll_fxs ;
}
/**
* wcaxx_start_poll_fxs - Starts the interrupt polling loop for FXS modules .
*
* To stop the polling loop , clear the initialized bit and then flush the
* pending wcxb_spi messages .
*
*/
static int wcaxx_start_poll_fxs ( struct wcaxx * wc , struct wcaxx_module * mod )
{
struct wcaxx_mod_poll * mod_poll = kzalloc ( sizeof ( * mod_poll ) ,
GFP_KERNEL ) ;
struct wcxb_spi_message * m = & mod_poll - > m ;
struct wcxb_spi_transfer * t = & mod_poll - > t ;
WARN_ON ( ! is_initialized ( wc ) ) ;
if ( ! mod_poll )
return - ENOMEM ;
memset ( t , 0 , sizeof ( * t ) ) ;
wcxb_spi_message_init ( m ) ;
t - > tx_buf = t - > rx_buf = mod_poll - > buffer ;
t - > len = sizeof ( mod_poll - > buffer ) ;
wcxb_spi_message_add_tail ( t , m ) ;
mod_poll - > wc = wc ;
mod_poll - > mod = mod ;
mod_poll - > master_buffer [ 0 ] = 1 < < mod_poll - > mod - > subaddr ;
mod_poll - > master_buffer [ 1 ] = ( LOOP_STAT | 0x80 ) & 0xff ;
mod_poll - > master_buffer [ 2 ] = 0 ;
mod_poll - > master_buffer [ 3 ] = mod_poll - > master_buffer [ 0 ] ;
mod_poll - > master_buffer [ 4 ] = ( LINE_STATE | 0x80 ) & 0xff ;
mod_poll - > master_buffer [ 5 ] = 0 ;
memcpy ( mod_poll - > buffer , mod_poll - > master_buffer ,
sizeof ( mod_poll - > buffer ) ) ;
m - > arg = mod_poll ;
m - > complete = & wcaxx_poll_fxs_complete ;
wcxb_spi_async ( mod - > spi , m ) ;
return 0 ;
}
static void wcaxx_poll_fxo_complete ( void * arg )
{
struct wcaxx_mod_poll * poll_fxo = arg ;
struct wcaxx * wc = poll_fxo - > wc ;
struct wcaxx_module * const mod = poll_fxo - > mod ;
if ( ! is_initialized ( wc ) ) {
kfree ( poll_fxo ) ;
return ;
}
mod - > mod . fxo . hook_ring_shadow = poll_fxo - > buffer [ 2 ] ;
mod - > mod . fxo . line_voltage_status = poll_fxo - > buffer [ 5 ] ;
wcaxx_voicedaa_check_hook ( poll_fxo - > wc , poll_fxo - > mod ) ;
memcpy ( poll_fxo - > buffer , poll_fxo - > master_buffer ,
sizeof ( poll_fxo - > buffer ) ) ;
wcaxx_check_sethook ( poll_fxo - > wc , poll_fxo - > mod ) ;
mod - > mod_poll = poll_fxo ;
}
/**
* wcaxx_start_poll_fxo - Starts the interrupt polling loop for FXS modules .
*
* To stop the polling loop , clear the initialized bit and then flush the
* pending wcxb_spi messages .
*
*/
static int wcaxx_start_poll_fxo ( struct wcaxx * wc , struct wcaxx_module * mod )
{
static const int ADDRS [ 4 ] = { 0x00 , 0x08 , 0x04 , 0x0c } ;
struct wcaxx_mod_poll * poll_fxo = kzalloc ( sizeof ( * poll_fxo ) ,
GFP_KERNEL ) ;
struct wcxb_spi_message * m = & poll_fxo - > m ;
struct wcxb_spi_transfer * t = & poll_fxo - > t ;
WARN_ON ( ! is_initialized ( wc ) ) ;
if ( ! poll_fxo )
return - ENOMEM ;
memset ( t , 0 , sizeof ( * t ) ) ;
wcxb_spi_message_init ( m ) ;
t - > tx_buf = t - > rx_buf = poll_fxo - > buffer ;
t - > len = sizeof ( poll_fxo - > buffer ) ;
wcxb_spi_message_add_tail ( t , m ) ;
poll_fxo - > wc = wc ;
poll_fxo - > mod = mod ;
poll_fxo - > master_buffer [ 0 ] = 0x60 | ADDRS [ poll_fxo - > mod - > subaddr ] ;
poll_fxo - > master_buffer [ 1 ] = 5 & 0x7f ; /* Hook / Ring State */
poll_fxo - > master_buffer [ 2 ] = 0 ;
poll_fxo - > master_buffer [ 3 ] = poll_fxo - > master_buffer [ 0 ] ;
poll_fxo - > master_buffer [ 4 ] = 29 & 0x7f ; /* Battery */
poll_fxo - > master_buffer [ 5 ] = 0 ;
memcpy ( poll_fxo - > buffer , poll_fxo - > master_buffer ,
sizeof ( poll_fxo - > buffer ) ) ;
m - > arg = poll_fxo ;
m - > complete = & wcaxx_poll_fxo_complete ;
wcxb_spi_async ( mod - > spi , m ) ;
return 0 ;
}
/**
* wcaxx_read_serial - Returns the serial number of the board .
* @ wc : The board whos serial number we are reading .
*
* The buffer returned is dynamically allocated and must be kfree ' d by the
* caller . If memory could not be allocated , NULL is returned .
*
* Must be called in process context .
*
*/
static char * wcaxx_read_serial ( struct wcaxx * wc )
{
int i ;
static const int MAX_SERIAL = 20 * 5 ;
const unsigned int SERIAL_ADDRESS = 0x1f0000 ;
unsigned char * serial = kzalloc ( MAX_SERIAL + 1 , GFP_KERNEL ) ;
struct wcxb const * xb = & wc - > xb ;
struct wcxb_spi_master * flash_spi_master = NULL ;
struct wcxb_spi_device * flash_spi_device = NULL ;
const unsigned int FLASH_SPI_BASE = 0x200 ;
if ( ! serial )
return NULL ;
flash_spi_master = wcxb_spi_master_create ( & xb - > pdev - > dev ,
xb - > membase + FLASH_SPI_BASE ,
false ) ;
if ( ! flash_spi_master )
return NULL ;
flash_spi_device = wcxb_spi_device_create ( flash_spi_master , 0 ) ;
if ( ! flash_spi_device )
goto error_exit ;
wcxb_flash_read ( flash_spi_device , SERIAL_ADDRESS ,
serial , MAX_SERIAL ) ;
for ( i = 0 ; i < MAX_SERIAL ; + + i ) {
if ( ( serial [ i ] < 0x20 ) | | ( serial [ i ] > 0x7e ) ) {
serial [ i ] = ' \0 ' ;
break ;
}
}
if ( ! i ) {
kfree ( serial ) ;
serial = NULL ;
} else {
/* Limit the size of the buffer to just what is needed to
* actually hold the serial number . */
unsigned char * new_serial ;
new_serial = kasprintf ( GFP_KERNEL , " %s " , serial ) ;
kfree ( serial ) ;
serial = new_serial ;
}
error_exit :
wcxb_spi_device_destroy ( flash_spi_device ) ;
wcxb_spi_master_destroy ( flash_spi_master ) ;
return serial ;
}
static void wcaxx_start_module_polling ( struct wcaxx * wc )
{
int x ;
WARN_ON ( ! is_initialized ( wc ) ) ;
for ( x = 0 ; x < wc - > mods_per_board ; x + + ) {
struct wcaxx_module * const mod = & wc - > mods [ x ] ;
switch ( mod - > type ) {
case FXO :
wcaxx_start_poll_fxo ( wc , mod ) ;
break ;
case FXS :
wcaxx_start_poll_fxs ( wc , mod ) ;
break ;
case NONE :
break ;
}
}
wc - > module_poll_time = wc - > framecount + MODULE_POLL_TIME_MS ;
}
/**
* t43x_assign_num - Assign wc - > num a unique value and place on card_list
*
*/
static void wcaxx_assign_num ( struct wcaxx * wc )
{
mutex_lock ( & card_list_lock ) ;
if ( list_empty ( & card_list ) ) {
wc - > num = 0 ;
list_add ( & wc - > card_node , & card_list ) ;
} else {
struct wcaxx * cur ;
struct list_head * insert_pos ;
int new_num = 0 ;
insert_pos = & card_list ;
list_for_each_entry ( cur , & card_list , card_node ) {
if ( new_num ! = cur - > num )
break ;
new_num + + ;
insert_pos = & cur - > card_node ;
}
wc - > num = new_num ;
list_add_tail ( & wc - > card_node , insert_pos ) ;
}
mutex_unlock ( & card_list_lock ) ;
}
# ifdef USE_ASYNC_INIT
struct async_data {
struct pci_dev * pdev ;
const struct pci_device_id * ent ;
} ;
static int __devinit
__wcaxx_init_one ( struct pci_dev * pdev , const struct pci_device_id * ent ,
async_cookie_t cookie )
# else
static int __devinit
__wcaxx_init_one ( struct pci_dev * pdev , const struct pci_device_id * ent )
# endif
{
struct wcaxx * wc ;
int i , ret ;
int curchan ;
neonmwi_offlimit_cycles = neonmwi_offlimit / MS_PER_HOOKCHECK ;
wc = kzalloc ( sizeof ( * wc ) , GFP_KERNEL ) ;
if ( ! wc )
return - ENOMEM ;
wcaxx_assign_num ( wc ) ;
wc - > desc = ( struct _device_desc * ) ent - > driver_data ;
spin_lock_init ( & wc - > reglock ) ;
wc - > board_name = kasprintf ( GFP_KERNEL , " %s%d " ,
wcaxx_driver . name , wc - > num ) ;
if ( ! wc - > board_name ) {
wcaxx_back_out_gracefully ( wc ) ;
return - ENOMEM ;
}
# ifdef CONFIG_VOICEBUS_DISABLE_ASPM
if ( is_pcie ( wc ) ) {
pci_disable_link_state ( pdev - > bus - > self , PCIE_LINK_STATE_L0S |
PCIE_LINK_STATE_L1 | PCIE_LINK_STATE_CLKPM ) ;
} ;
# endif
pci_set_drvdata ( pdev , wc ) ;
wc - > xb . ops = & wcxb_operations ;
wc - > xb . pdev = pdev ;
wc - > xb . debug = & debug ;
ret = wcxb_init ( & wc - > xb , wc - > board_name , int_mode ) ;
if ( ret ) {
wcaxx_back_out_gracefully ( wc ) ;
return ret ;
}
wcxb_set_minlatency ( & wc - > xb , latency ) ;
wcxb_set_maxlatency ( & wc - > xb , max_latency ) ;
ret = wcaxx_check_firmware ( wc ) ;
if ( ret ) {
wcaxx_back_out_gracefully ( wc ) ;
return ret ;
}
wcxb_lock_latency ( & wc - > xb ) ;
wc - > mods_per_board = NUM_MODULES ;
if ( alawoverride ) {
companding = " alaw " ;
dev_info ( & wc - > xb . pdev - > dev ,
" The module parameter alawoverride has been deprecated. Please use the parameter companding=alaw instead " ) ;
}
if ( ! strcasecmp ( companding , " alaw " ) )
/* Force this card's companding to alaw */
wc - > companding = DAHDI_LAW_ALAW ;
else if ( ! strcasecmp ( companding , " ulaw " ) )
/* Force this card's companding to ulaw */
wc - > companding = DAHDI_LAW_MULAW ;
else
/* Auto detect this card's companding */
wc - > companding = DAHDI_LAW_DEFAULT ;
wc - > master = wcxb_spi_master_create ( & pdev - > dev ,
wc - > xb . membase + 0x280 , true ) ;
for ( i = 0 ; i < ARRAY_SIZE ( wc - > spi_devices ) ; i + + )
wc - > spi_devices [ i ] = wcxb_spi_device_create ( wc - > master , 3 - i ) ;
for ( i = 0 ; i < ARRAY_SIZE ( wc - > mods ) ; i + + ) {
struct wcaxx_module * const mod = & wc - > mods [ i ] ;
mod - > dacssrc = - 1 ;
mod - > card = i ;
mod - > spi = NULL ;
mod - > subaddr = 0 ;
mod - > type = NONE ;
}
ret = wcaxx_vpm_init ( wc ) ;
if ( ! ret )
wcxb_enable_echocan ( & wc - > xb ) ;
/* Now track down what modules are installed */
wcaxx_identify_modules ( wc ) ;
/* Start the hardware processing. */
if ( wcxb_start ( & wc - > xb ) ) {
WARN_ON ( 1 ) ;
return - EIO ;
}
if ( fatal_signal_pending ( current ) ) {
wcaxx_back_out_gracefully ( wc ) ;
return - EINTR ;
}
curchan = 0 ;
wcaxx_init_span ( wc ) ;
wcaxx_fixup_span ( wc ) ;
curchan + = wc - > desc - > ports ;
# ifdef USE_ASYNC_INIT
async_synchronize_cookie ( cookie ) ;
# endif
wc - > ddev = dahdi_create_device ( ) ;
if ( ! wc - > ddev ) {
wcaxx_back_out_gracefully ( wc ) ;
return - ENOMEM ;
}
wc - > ddev - > manufacturer = " Digium " ;
wc - > ddev - > location = kasprintf ( GFP_KERNEL , " PCI Bus %02d Slot %02d " ,
pdev - > bus - > number ,
PCI_SLOT ( pdev - > devfn ) + 1 ) ;
if ( ! wc - > ddev - > location ) {
wcaxx_back_out_gracefully ( wc ) ;
return - ENOMEM ;
}
2013-12-17 08:09:59 +08:00
if ( wc - > vpm )
wc - > ddev - > devicetype = kasprintf ( GFP_KERNEL , " %s (%s) " ,
wc - > desc - > name , " VPMOCT032 " ) ;
else
wc - > ddev - > devicetype = kasprintf ( GFP_KERNEL , " %s " ,
wc - > desc - > name ) ;
2013-07-02 00:09:10 +08:00
if ( ! wc - > ddev - > devicetype ) {
wcaxx_back_out_gracefully ( wc ) ;
return - ENOMEM ;
}
wc - > ddev - > hardware_id = wcaxx_read_serial ( wc ) ;
list_add_tail ( & wc - > span . device_node , & wc - > ddev - > spans ) ;
if ( dahdi_register_device ( wc - > ddev , & wc - > xb . pdev - > dev ) ) {
dev_notice ( & wc - > xb . pdev - > dev , " Unable to register device with DAHDI \n " ) ;
wcaxx_back_out_gracefully ( wc ) ;
return - 1 ;
}
dev_info ( & wc - > xb . pdev - > dev , " Found a %s (SN: %s) \n " ,
wc - > desc - > name , wc - > ddev - > hardware_id ) ;
set_bit ( INITIALIZED , & wc - > bit_flags ) ;
wcaxx_start_module_polling ( wc ) ;
wcxb_unlock_latency ( & wc - > xb ) ;
return 0 ;
}
# ifdef USE_ASYNC_INIT
static __devinit void
wcaxx_init_one_async ( void * data , async_cookie_t cookie )
{
struct async_data * dat = data ;
__wcaxx_init_one ( dat - > pdev , dat - > ent , cookie ) ;
kfree ( dat ) ;
}
static int __devinit
wcaxx_init_one ( struct pci_dev * pdev , const struct pci_device_id * ent )
{
struct async_data * dat ;
dat = kmalloc ( sizeof ( * dat ) , GFP_KERNEL ) ;
/* If we can't allocate the memory for the async_data, odds are we won't
* be able to initialize the device either , but let ' s try synchronously
* anyway . . . */
if ( ! dat )
return __wcaxx_init_one ( pdev , ent , 0 ) ;
dat - > pdev = pdev ;
dat - > ent = ent ;
async_schedule ( wcaxx_init_one_async , dat ) ;
return 0 ;
}
# else
static int __devinit
wcaxx_init_one ( struct pci_dev * pdev , const struct pci_device_id * ent )
{
return __wcaxx_init_one ( pdev , ent ) ;
}
# endif
static void wcaxx_release ( struct wcaxx * wc )
{
if ( is_initialized ( wc ) )
dahdi_unregister_device ( wc - > ddev ) ;
wcaxx_back_out_gracefully ( wc ) ;
}
static void __devexit wcaxx_remove_one ( struct pci_dev * pdev )
{
struct wcaxx * wc = pci_get_drvdata ( pdev ) ;
if ( ! wc )
return ;
dev_info ( & wc - > xb . pdev - > dev , " Removing a %s. \n " , wc - > desc - > name ) ;
flush_scheduled_work ( ) ;
wcxb_stop ( & wc - > xb ) ;
if ( wc - > vpm )
release_vpm450m ( wc - > vpm ) ;
wc - > vpm = NULL ;
wcaxx_release ( wc ) ;
}
static DEFINE_PCI_DEVICE_TABLE ( wcaxx_pci_tbl ) = {
{ 0xd161 , 0x800d , PCI_ANY_ID , PCI_ANY_ID , 0 , 0 ,
( unsigned long ) & device_a8b
} ,
{ 0xd161 , 0x800c , PCI_ANY_ID , PCI_ANY_ID , 0 , 0 ,
( unsigned long ) & device_a8a
} ,
{ 0xd161 , 0x8010 , PCI_ANY_ID , PCI_ANY_ID , 0 , 0 ,
( unsigned long ) & device_a4b
} ,
{ 0xd161 , 0x800f , PCI_ANY_ID , PCI_ANY_ID , 0 , 0 ,
( unsigned long ) & device_a4a
} ,
{ 0 }
} ;
MODULE_DEVICE_TABLE ( pci , wcaxx_pci_tbl ) ;
static void wcaxx_shutdown ( struct pci_dev * pdev )
{
struct wcaxx * wc = pci_get_drvdata ( pdev ) ;
wcxb_stop ( & wc - > xb ) ;
}
static int wcaxx_suspend ( struct pci_dev * pdev , pm_message_t state )
{
return - ENOSYS ;
}
static struct pci_driver wcaxx_driver = {
. name = " wcaxx " ,
. probe = wcaxx_init_one ,
. remove = __devexit_p ( wcaxx_remove_one ) ,
. shutdown = wcaxx_shutdown ,
. suspend = wcaxx_suspend ,
. id_table = wcaxx_pci_tbl ,
} ;
static int __init wcaxx_init ( void )
{
int res ;
int x ;
for ( x = 0 ; x < ARRAY_SIZE ( fxo_modes ) ; x + + ) {
if ( ! strcmp ( fxo_modes [ x ] . name , opermode ) )
break ;
}
if ( x < ARRAY_SIZE ( fxo_modes ) ) {
_opermode = x ;
} else {
pr_notice ( " Invalid/unknown operating mode '%s' specified. Please choose one of: \n " ,
opermode ) ;
for ( x = 0 ; x < ARRAY_SIZE ( fxo_modes ) ; x + + )
pr_notice ( " %s \n " , fxo_modes [ x ] . name ) ;
pr_notice ( " Note this option is CASE SENSITIVE! \n " ) ;
return - ENODEV ;
}
if ( ! strcmp ( opermode , " AUSTRALIA " ) ) {
boostringer = 1 ;
fxshonormode = 1 ;
}
if ( - 1 = = fastpickup ) {
if ( ! strcmp ( opermode , " JAPAN " ) )
fastpickup = 1 ;
else
fastpickup = 0 ;
}
/* for the voicedaa_check_hook defaults, if the user has not
* overridden them by specifying them as module parameters , then get
* the values from the selected operating mode */
if ( ! battdebounce )
battdebounce = fxo_modes [ _opermode ] . battdebounce ;
if ( ! battalarm )
battalarm = fxo_modes [ _opermode ] . battalarm ;
if ( ! battthresh )
battthresh = fxo_modes [ _opermode ] . battthresh ;
2019-01-11 12:46:35 +08:00
res = pci_register_driver ( & wcaxx_driver ) ;
2013-07-02 00:09:10 +08:00
if ( res )
return - ENODEV ;
# ifdef USE_ASYNC_INIT
async_synchronize_full ( ) ;
# endif
return 0 ;
}
static void __exit wcaxx_cleanup ( void )
{
pci_unregister_driver ( & wcaxx_driver ) ;
}
module_param ( debug , int , 0600 ) ;
module_param ( int_mode , int , 0400 ) ;
MODULE_PARM_DESC ( int_mode ,
" 0 = Use MSI interrupt if available. 1 = Legacy interrupt only. \n " ) ;
module_param ( fastpickup , int , 0400 ) ;
MODULE_PARM_DESC ( fastpickup ,
" Set to 1 to shorten the calibration delay when taking an FXO port off "
" hook. This can be required for Type-II CID. If -1 the calibration "
" delay will depend on the current opermode. \n " ) ;
module_param ( fxovoltage , int , 0600 ) ;
module_param ( loopcurrent , int , 0600 ) ;
module_param ( reversepolarity , int , 0600 ) ;
# ifdef DEBUG
module_param ( robust , int , 0600 ) ;
module_param ( digitalloopback , int , 0400 ) ;
MODULE_PARM_DESC ( digitalloopback ,
" Set to 1 to place FXO modules into loopback mode for troubleshooting. " ) ;
# endif
module_param ( opermode , charp , 0600 ) ;
module_param ( lowpower , int , 0600 ) ;
module_param ( boostringer , int , 0600 ) ;
module_param ( fastringer , int , 0600 ) ;
module_param ( fxshonormode , int , 0600 ) ;
module_param ( battdebounce , uint , 0600 ) ;
module_param ( battalarm , uint , 0600 ) ;
module_param ( battthresh , uint , 0600 ) ;
module_param ( nativebridge , int , 0600 ) ;
module_param ( fxotxgain , int , 0600 ) ;
module_param ( fxorxgain , int , 0600 ) ;
module_param ( fxstxgain , int , 0600 ) ;
module_param ( fxsrxgain , int , 0600 ) ;
module_param ( ringdebounce , int , 0600 ) ;
module_param ( latency , int , 0400 ) ;
module_param ( max_latency , int , 0400 ) ;
module_param ( neonmwi_monitor , int , 0600 ) ;
module_param ( neonmwi_level , int , 0600 ) ;
module_param ( neonmwi_envelope , int , 0600 ) ;
module_param ( neonmwi_offlimit , int , 0600 ) ;
module_param ( vpmsupport , int , 0400 ) ;
module_param ( forceload , int , 0600 ) ;
MODULE_PARM_DESC ( forceload ,
" Set to 1 in order to force an FPGA reload after power on. " ) ;
module_param ( companding , charp , 0400 ) ;
MODULE_PARM_DESC ( companding ,
" Change the companding to \" auto \" or \" alaw \" or \" ulaw \" . Auto "
" (default) will set everything to ulaw unless a BRI module is "
" installed. It will use alaw in that case. " ) ;
MODULE_DESCRIPTION ( " A4A,A4B,A8A,A8B Driver for Analog Telephony Cards " ) ;
MODULE_AUTHOR ( " Digium Incorporated <support@digium.com> " ) ;
MODULE_LICENSE ( " GPL v2 " ) ;
module_init ( wcaxx_init ) ;
module_exit ( wcaxx_cleanup ) ;