+++ /dev/null
-/*
-<:copyright-gpl
- Copyright 2002 Broadcom Corp. All Rights Reserved.
-
- This program is free software; you can distribute it and/or modify it
- under the terms of the GNU General Public License (Version 2) as
- published by the Free Software Foundation.
-
- This program is distributed in the hope it will be useful, but WITHOUT
- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
- for more details.
-
- You should have received a copy of the GNU General Public License along
- with this program; if not, write to the Free Software Foundation, Inc.,
- 59 Temple Place - Suite 330, Boston MA 02111-1307, USA.
-:>
-*/
-/***************************************************************************
- * File Name : bcm63xx_led.c
- *
- * Description:
- *
- * This file contains bcm963xx board led control API functions.
- *
- * To use it, do the following
- *
- * 1). define in the board.c the following led mappping (this is for 6345GW board):
- * const LED_MAP_PAIR cLedMapping45GW[] =
- * { // led name Initial state physical pin (ledMask)
- * {kLedUsb, kLedStateOff, GPIO_LED_PIN_7},
- * {kLedAdsl, kLedStateOff, GPIO_LED_PIN_8},
- * {kLedPPP, kLedStateOff, GPIO_LED_PIN_9}, // PPP and WanData share PIN_9
- * {kLedWanData, kLedStateOff, GPIO_LED_PIN_9},
- * {kLedWireless, kLedStateOff, GPIO_LED_PIN_10},
- * {kLedEnd, kLedStateOff, 0 } // NOTE: kLedEnd has to be at the end.
- *
- * 2). };To initialize led API and initial state of the leds, call the following function with the mapping
- * pointer from the above struct
- *
- * boardLedInit((PLED_MAP_PAIR) &cLedMapping45R);
- *
- * 3). Sample call for kernel mode:
- *
- * kerSysLedCtrl(kLedAdsl, kLedStateBlinkOnce); // kLedxxx defines in board.h
- *
- * 4). Sample call for user mode
- *
- * sysLedCtrl(kLedAdsl, kLedStateBlinkOnce); // kLedxxx defines in board_api.h
- *
- *
- * Created on : 10/28/2002 seanl
- *
- ***************************************************************************/
-
-/* Includes. */
-#include <linux/init.h>
-#include <linux/fs.h>
-#include <linux/capability.h>
-#include <linux/slab.h>
-#include <linux/errno.h>
-#include <linux/module.h>
-#include <linux/netdevice.h>
-#include <asm/uaccess.h>
-
-#include <bcm_map_part.h>
-#include <board.h>
-
-#define k100ms (HZ / 10) // ~100 ms
-#define kFastBlinkCount 0 // ~100ms
-#define kSlowBlinkCount 5 // ~600ms
-
-#define MAX_VIRT_LEDS 12
-
-// uncomment // for debug led
-//#define DEBUG_LED
-
-// global variables:
-struct timer_list gLedTimer;
-int gTimerOn = FALSE;
-int gLedCount = 0;
-
-typedef struct ledinfo
-{
- unsigned short ledMask; // mask for led: ie. giop 10 = 0x0400
- unsigned short ledActiveLow; // GPIO bit reset to turn on LED
- unsigned short ledMaskFail; // mask for led: ie. giop 10 = 0x0400
- unsigned short ledActiveLowFail;// GPIO bit reset to turn on LED
- BOARD_LED_STATE ledState; // current led state
- BOARD_LED_STATE savedLedState; // used in blink once for restore to the orignal ledState
- int blinkCountDown; // if == 0, do blink (toggle). Is assgined value and dec by 1 at each timer.
-} LED_INFO, *PLED_INFO;
-
-static PLED_INFO gLed = NULL;
-static PLED_INFO gpVirtLeds[MAX_VIRT_LEDS];
-static HANDLE_LED_FUNC gLedHwFunc[MAX_VIRT_LEDS];
-static HANDLE_LED_FUNC gLedHwFailFunc[MAX_VIRT_LEDS];
-
-#if 0 /* BROKEN */
-#if defined(CONFIG_BCM96348) || defined(CONFIG_BCM96338)
-static int gLedOffInBridgeMode = 1;
-#elif defined(CONFIG_BCM96345)
-static int gLedOffInBridgeMode = 0;
-#endif
-#endif
-
-void ledTimerExpire(void);
-int initLedInfo( PLED_MAP_PAIR pCurMap, PLED_INFO pCurLed );
-
-//**************************************************************************************
-// LED operations
-//**************************************************************************************
-
-// turn led on and set the ledState
-void ledOn(PLED_INFO pLed)
-{
- if( pLed->ledMask )
- {
- GPIO->GPIODir |= pLed->ledMask; // turn on the direction bit in case was turned off by some one
- if( pLed->ledActiveLow )
- GPIO->GPIOio &= ~pLed->ledMask; // turn on the led
- else
- GPIO->GPIOio |= pLed->ledMask; // turn on the led
- pLed->ledState = pLed->savedLedState = kLedStateOn;
- }
-}
-
-
-// turn led off and set the ledState
-void ledOff(PLED_INFO pLed)
-{
- if( pLed->ledMask )
- {
- GPIO->GPIODir |= pLed->ledMask; // turn on the direction bit in case was turned off by some one
- if( pLed->ledActiveLow )
- GPIO->GPIOio |= pLed->ledMask; // turn off the led
- else
- GPIO->GPIOio &= ~pLed->ledMask; // turn off the led
- pLed->ledState = pLed->savedLedState = kLedStateOff;
- }
-}
-
-// turn led on and set the ledState
-void ledOnFail(PLED_INFO pLed)
-{
- if( pLed->ledMaskFail )
- {
- GPIO->GPIODir |= pLed->ledMaskFail; // turn on the direction bit in case was turned off by some one
- if( pLed->ledActiveLowFail )
- GPIO->GPIOio &= ~pLed->ledMaskFail;// turn on the led
- else
- GPIO->GPIOio |= pLed->ledMaskFail; // turn on the led
- pLed->ledState = pLed->savedLedState = kLedStateFail;
- }
-}
-
-
-// turn led off and set the ledState
-void ledOffFail(PLED_INFO pLed)
-{
- if( pLed->ledMaskFail )
- {
- GPIO->GPIODir |= pLed->ledMaskFail; // turn on the direction bit in case was turned off by some one
- if( pLed->ledActiveLowFail )
- GPIO->GPIOio |= pLed->ledMaskFail; // turn off the led
- else
- GPIO->GPIOio &= ~pLed->ledMaskFail;// turn off the led
- pLed->ledState = pLed->savedLedState = kLedStateOff;
- }
-}
-
-
-// toggle the led and return the current ledState
-BOARD_LED_STATE ledToggle(PLED_INFO pLed)
-{
- GPIO->GPIODir |= pLed->ledMask; // turn on the direction bit in case was turned off by some one
- if (GPIO->GPIOio & pLed->ledMask)
- {
- GPIO->GPIOio &= ~(pLed->ledMask);
- return( (pLed->ledActiveLow) ? kLedStateOn : kLedStateOff );
- }
- else
- {
- GPIO->GPIOio |= pLed->ledMask;
- return( (pLed->ledActiveLow) ? kLedStateOff : kLedStateOn );
- }
-}
-
-
-// led timer. Will return if timer is already on
-void ledTimerStart(void)
-{
- if (gTimerOn)
- return;
-
-#if defined(DEBUG_LED)
- printk("led: add_timer\n");
-#endif
-
- init_timer(&gLedTimer);
- gLedTimer.function = (void*)ledTimerExpire;
- gLedTimer.expires = jiffies + k100ms; // timer expires in ~100ms
- add_timer (&gLedTimer);
- gTimerOn = TRUE;
-}
-
-
-// led timer expire kicks in about ~100ms and perform the led operation according to the ledState and
-// restart the timer according to ledState
-void ledTimerExpire(void)
-{
- int i;
- PLED_INFO pCurLed;
-
- gTimerOn = FALSE;
-
- for (i = 0, pCurLed = gLed; i < gLedCount; i++, pCurLed++)
- {
-#if defined(DEBUG_LED)
- printk("led[%d]: Mask=0x%04x, State = %d, blcd=%d\n", i, pCurLed->ledMask, pCurLed->ledState, pCurLed->blinkCountDown);
-#endif
- switch (pCurLed->ledState)
- {
- case kLedStateOn:
- case kLedStateOff:
- case kLedStateFail:
- pCurLed->blinkCountDown = 0; // reset the blink count down
- break;
-
- case kLedStateBlinkOnce:
- ledToggle(pCurLed);
- pCurLed->blinkCountDown = 0; // reset to 0
- pCurLed->ledState = pCurLed->savedLedState;
- if (pCurLed->ledState == kLedStateSlowBlinkContinues ||
- pCurLed->ledState == kLedStateFastBlinkContinues)
- ledTimerStart(); // start timer if in blinkContinues stats
- break;
-
- case kLedStateSlowBlinkContinues:
- if (pCurLed->blinkCountDown-- == 0)
- {
- pCurLed->blinkCountDown = kSlowBlinkCount;
- ledToggle(pCurLed);
- }
- ledTimerStart();
- break;
-
- case kLedStateFastBlinkContinues:
- if (pCurLed->blinkCountDown-- == 0)
- {
- pCurLed->blinkCountDown = kFastBlinkCount;
- ledToggle(pCurLed);
- }
- ledTimerStart();
- break;
-
- default:
- printk("Invalid state = %d\n", pCurLed->ledState);
- }
- }
-}
-
-// initialize the gLedCount and allocate and fill gLed struct
-void __init boardLedInit(PLED_MAP_PAIR cLedMapping)
-{
- PLED_MAP_PAIR p1, p2;
- PLED_INFO pCurLed;
- int needTimer = FALSE;
- int alreadyUsed = 0;
-
-#if defined(CONFIG_BCM96348) || defined(CONFIG_BCM96338)
- /* Set blink rate for BCM6348/BCM6338 hardware LEDs. */
- GPIO->LEDCtrl &= ~LED_INTERVAL_SET_MASK;
- GPIO->LEDCtrl |= LED_INTERVAL_SET_80MS;
-#endif
-
- memset( gpVirtLeds, 0x00, sizeof(gpVirtLeds) );
- memset( gLedHwFunc, 0x00, sizeof(gLedHwFunc) );
- memset( gLedHwFailFunc, 0x00, sizeof(gLedHwFailFunc) );
-
- gLedCount = 0;
-
- // Check for multiple LED names and multiple LED GPIO pins that share the
- // same physical board LED.
- for( p1 = cLedMapping; p1->ledName != kLedEnd; p1++ )
- {
- alreadyUsed = 0;
- for( p2 = cLedMapping; p2 != p1; p2++ )
- {
- if( (p1->ledMask && p1->ledMask == p2->ledMask) ||
- (p1->ledMaskFail && p1->ledMaskFail == p2->ledMaskFail) )
- {
- alreadyUsed = 1;
- break;
- }
- }
-
- if( alreadyUsed == 0 )
- gLedCount++;
- }
-
- gLed = (PLED_INFO) kmalloc((gLedCount * sizeof(LED_INFO)), GFP_KERNEL);
- if( gLed == NULL )
- {
- printk( "LED memory allocation error.\n" );
- return;
- }
-
- memset( gLed, 0x00, gLedCount * sizeof(LED_INFO) );
-
- // initial the gLed with unique ledMask and initial state. If more than 1 ledNames share the physical led
- // (ledMask) the first defined led's ledInitState will be used.
- pCurLed = gLed;
- for( p1 = cLedMapping; p1->ledName != kLedEnd; p1++ )
- {
- if( (int) p1->ledName > MAX_VIRT_LEDS )
- continue;
-
- alreadyUsed = 0;
- for( p2 = cLedMapping; p2 != p1; p2++ )
- {
- if( (p1->ledMask && p1->ledMask == p2->ledMask) ||
- (p1->ledMaskFail && p1->ledMaskFail == p2->ledMaskFail) )
- {
- alreadyUsed = 1;
- break;
- }
- }
-
- if( alreadyUsed == 0 )
- {
- // Initialize the board LED for the first time.
- needTimer = initLedInfo( p1, pCurLed );
- gpVirtLeds[(int) p1->ledName] = pCurLed;
- pCurLed++;
- }
- else
- {
- PLED_INFO pLed;
- for( pLed = gLed; pLed != pCurLed; pLed++ )
- {
- // Find the LED_INFO structure that has already been initialized.
- if((pLed->ledMask && pLed->ledMask == p1->ledMask) ||
- (pLed->ledMaskFail && pLed->ledMaskFail==p1->ledMaskFail))
- {
- // The board LED has already been initialized but possibly
- // not completely initialized.
- if( p1->ledMask )
- {
- pLed->ledMask = p1->ledMask;
- pLed->ledActiveLow = p1->ledActiveLow;
- }
- if( p1->ledMaskFail )
- {
- pLed->ledMaskFail = p1->ledMaskFail;
- pLed->ledActiveLowFail = p1->ledActiveLowFail;
- }
- gpVirtLeds[(int) p1->ledName] = pLed;
- break;
- }
- }
- }
- }
-
- if (needTimer)
- ledTimerStart();
-
-#if defined(DEBUG_LED)
- int i;
- for (i=0; i < gLedCount; i++)
- printk("initLed: led[%d]: mask=0x%04x, state=%d\n", i,(gLed+i)->ledMask, (gLed+i)->ledState);
-#endif
-
-}
-
-// Initialize a structure that contains information about a physical board LED
-// control. The board LED may contain more than one GPIO pin to control a
-// normal condition (green) or a failure condition (red).
-int initLedInfo( PLED_MAP_PAIR pCurMap, PLED_INFO pCurLed )
-{
- int needTimer = FALSE;
- pCurLed->ledState = pCurLed->savedLedState = pCurMap->ledInitState;
- pCurLed->ledMask = pCurMap->ledMask;
- pCurLed->ledActiveLow = pCurMap->ledActiveLow;
- pCurLed->ledMaskFail = pCurMap->ledMaskFail;
- pCurLed->ledActiveLowFail = pCurMap->ledActiveLowFail;
-
- switch (pCurLed->ledState)
- {
- case kLedStateOn:
- pCurLed->blinkCountDown = 0; // reset the blink count down
- ledOn(pCurLed);
- break;
- case kLedStateOff:
- pCurLed->blinkCountDown = 0; // reset the blink count down
- ledOff(pCurLed);
- break;
- case kLedStateFail:
- pCurLed->blinkCountDown = 0; // reset the blink count down
- ledOnFail(pCurLed);
- break;
- case kLedStateBlinkOnce:
- pCurLed->blinkCountDown = 1;
- needTimer = TRUE;
- break;
- case kLedStateSlowBlinkContinues:
- pCurLed->blinkCountDown = kSlowBlinkCount;
- needTimer = TRUE;
- break;
- case kLedStateFastBlinkContinues:
- pCurLed->blinkCountDown = kFastBlinkCount;
- needTimer = TRUE;
- break;
- default:
- printk("Invalid state = %d\n", pCurLed->ledState);
- }
-
- return( needTimer );
-}
-
-#if 0 /* BROKEN */
-// Determines if there is at least one interface in bridge mode. Bridge mode
-// is determined by the cfm convention of naming bridge interfaces nas17
-// through nas24.
-static int isBridgedProtocol(void)
-{
- extern int dev_get(const char *name);
- const int firstBridgeId = 17;
- const int lastBridgeId = 24;
- int i;
- int ret = FALSE;
- char name[16];
-
- for( i = firstBridgeId; i <= lastBridgeId; i++ )
- {
- sprintf( name, "nas%d", i );
-
- if( dev_get(name) )
- {
- ret = TRUE;
- break;
- }
- }
-
- return(ret);
-}
-#endif
-
-// led ctrl. Maps the ledName to the corresponding ledInfoPtr and perform the led operation
-void boardLedCtrl(BOARD_LED_NAME ledName, BOARD_LED_STATE ledState)
-{
- PLED_INFO ledInfoPtr;
-
- // do the mapping from virtual to physical led
- if( (int) ledName < MAX_VIRT_LEDS )
- ledInfoPtr = gpVirtLeds[(int) ledName];
- else
- ledInfoPtr = NULL;
-
- if (ledInfoPtr == NULL)
- return;
-
- if( ledState != kLedStateFail && gLedHwFunc[(int) ledName] )
- {
- (*gLedHwFunc[(int) ledName]) (ledName, ledState);
- ledOffFail(ledInfoPtr);
- return;
- }
- else
- if( ledState == kLedStateFail && gLedHwFailFunc[(int) ledName] )
- {
- (*gLedHwFailFunc[(int) ledName]) (ledName, ledState);
- ledOff(ledInfoPtr);
- return;
- }
-
-#if 0 /* BROKEN */
- // Do not blink the WAN Data LED if at least one interface is in bridge mode.
- if(gLedOffInBridgeMode == 1 && (ledName == kLedWanData || ledName == kLedPPP))
- {
- static int BridgedProtocol = -1;
-
- if( BridgedProtocol == -1 )
- BridgedProtocol = isBridgedProtocol();
-
- if( BridgedProtocol == TRUE )
- return;
- }
-#endif
-
- // If the state is kLedStateFail and there is not a failure LED defined
- // in the board parameters, change the state to kLedStateFastBlinkContinues.
- if( ledState == kLedStateFail && ledInfoPtr->ledMaskFail == 0 )
- ledState = kLedStateFastBlinkContinues;
-
- switch (ledState)
- {
- case kLedStateOn:
- // First, turn off the complimentary (failure) LED GPIO.
- if( ledInfoPtr->ledMaskFail )
- ledOffFail(ledInfoPtr);
- else
- if( gLedHwFailFunc[(int) ledName] )
- (*gLedHwFailFunc[(int) ledName]) (ledName, kLedStateOff);
-
- // Next, turn on the specified LED GPIO.
- ledOn(ledInfoPtr);
- break;
-
- case kLedStateOff:
- // First, turn off the complimentary (failure) LED GPIO.
- if( ledInfoPtr->ledMaskFail )
- ledOffFail(ledInfoPtr);
- else
- if( gLedHwFailFunc[(int) ledName] )
- (*gLedHwFailFunc[(int) ledName]) (ledName, kLedStateOff);
-
- // Next, turn off the specified LED GPIO.
- ledOff(ledInfoPtr);
- break;
-
- case kLedStateFail:
- // First, turn off the complimentary (normal) LED GPIO.
- if( ledInfoPtr->ledMask )
- ledOff(ledInfoPtr);
- else
- if( gLedHwFunc[(int) ledName] )
- (*gLedHwFunc[(int) ledName]) (ledName, kLedStateOff);
-
- // Next, turn on (red) the specified LED GPIO.
- ledOnFail(ledInfoPtr);
- break;
-
- case kLedStateBlinkOnce:
- // skip blinkOnce if it is already in Slow/Fast blink continues state
- if (ledInfoPtr->savedLedState == kLedStateSlowBlinkContinues ||
- ledInfoPtr->savedLedState == kLedStateFastBlinkContinues)
- ;
- else
- {
- if (ledInfoPtr->blinkCountDown == 0) // skip the call if it is 1
- {
- ledToggle(ledInfoPtr);
- ledInfoPtr->blinkCountDown = 1; // it will be reset to 0 when timer expires
- ledInfoPtr->ledState = kLedStateBlinkOnce;
- ledTimerStart();
- }
- }
- break;
-
- case kLedStateSlowBlinkContinues:
- ledInfoPtr->blinkCountDown = kSlowBlinkCount;
- ledInfoPtr->ledState = kLedStateSlowBlinkContinues;
- ledInfoPtr->savedLedState = kLedStateSlowBlinkContinues;
- ledTimerStart();
- break;
-
- case kLedStateFastBlinkContinues:
- ledInfoPtr->blinkCountDown = kFastBlinkCount;
- ledInfoPtr->ledState = kLedStateFastBlinkContinues;
- ledInfoPtr->savedLedState = kLedStateFastBlinkContinues;
- ledTimerStart();
- break;
-
- default:
- printk("Invalid led state\n");
- }
-}
-
-// This function is called for an LED that is controlled by hardware.
-void kerSysLedRegisterHwHandler( BOARD_LED_NAME ledName,
- HANDLE_LED_FUNC ledHwFunc, int ledFailType )
-{
- if( (int) ledName < MAX_VIRT_LEDS )
- {
- if( ledFailType == 1 )
- gLedHwFailFunc[(int) ledName] = ledHwFunc;
- else
- gLedHwFunc[(int) ledName] = ledHwFunc;
- }
-}
-
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