/* * <:copyright-BRCM:2016:DUAL/GPL:standard * * Copyright (c) 2016 Broadcom * All Rights Reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License, version 2, as published by * the Free Software Foundation (the "GPL"). * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * * A copy of the GPL is available at http://www.broadcom.com/licenses/GPLv2.php, or by * writing to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. * * :> */ #include #include #include #include #include #include #include #include #include #include #include #include #if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 19, 0) #include #endif #include #include #include #include #include #include #include #include #include "board_button.h" #include "board_wl.h" extern int restore_in_progress; static void btnDoPress(BtnInfo *btn, unsigned long currentJiffies); static void btnDoRelease(BtnInfo *btn, unsigned long currentJiffies); static void btnDoHold(BtnInfo *btn, unsigned long currentJiffies); //==================================================================================== // Default Button Callbacks: /* These are the commonly used callbacks. It is possible to register other callbacks using the RegisterPushButtonPress/Hold/Release functions outside of boardparms */ /***************************************************************************/ // BP_BNT_CBACK_NONE void btnHook_DoNothing(unsigned long timeInMs, void* param) { // do nothing... } /***************************************************************************/ // BP_BTN_ACTION_RESTORE_DEFAULTS void btnHook_RestoreToDefault(unsigned long timeInMs, void* param) { if( !restore_in_progress ) { char buf[256] = {}; restore_in_progress = 1; printk(" *** Restore to Factory Default Setting ***\n\n"); #if defined(WIRELESS) board_util_wl_godefault(); #endif kerSysPersistentSet( buf, sizeof(buf), 0 ); #if defined(CONFIG_BCM_PLC_BOOT) kerSysFsFileSet("/data/plc/plc_pconfig_state", buf, 1); #endif kernel_restart(NULL); } } /***************************************************************************/ // BP_BTN_ACTION_PRINT void btnHook_Print(unsigned long timeInMs, void* param) { printk("%s\n", (char *)param); } /***************************************************************************/ // BP_BTN_ACTION_SES implementation in board_wl.c /***************************************************************************/ /***************************************************************************/ // BP_BTN_ACTION_WLAN_DOWN void btnHook_WlanDown(unsigned long timeInMs, void* param) { #if defined(WIRELESS) struct net_device *wlan_dev; printk("Bringing down wireless interface wl0\n"); wlan_dev = dev_get_by_name(&init_net, "wl0"); if (wlan_dev) { netif_carrier_off(wlan_dev); rtnl_lock(); dev_close(wlan_dev); rtnl_unlock(); dev_put(wlan_dev); } #endif } /***************************************************************************/ // BP_BTN_ACTION_PLC_UKE static pushButtonNotifyHook_t gPlcUkeCallback = NULL; void* gPlcUkeCallbackParam = NULL; static pushButtonNotifyHook_t gPlcRandomizeCallback = NULL; void* gPlcRandomizeCallbackParam = NULL; static DEFINE_SPINLOCK(btn_spinlock); void kerSysRegisterPlcUkeCallback( void (* callback)(unsigned long timeInMs, void* param), void* param ) { unsigned long flags; printk("Registering Plc Uke callback: (%pf)\n", callback); spin_lock_irqsave(&btn_spinlock, flags); gPlcUkeCallback = callback; gPlcUkeCallbackParam = param; spin_unlock_irqrestore(&btn_spinlock, flags); } void kerSysDeregisterPlcUkeCallback( void (* callback)(unsigned long timeInMs, void* param) ) { unsigned long flags; printk("Deregistering Plc Uke callback: (%pf)\n", callback); spin_lock_irqsave(&btn_spinlock, flags); if (gPlcUkeCallback == callback) gPlcUkeCallback = NULL; spin_unlock_irqrestore(&btn_spinlock, flags); } void kerSysRegisterPlcRandomizeCallback(void (* callback)(unsigned long timeInMs, void* param), void* param) { unsigned long flags; printk("Registering PLC network key randomize callback: (%pf)\n", callback); spin_lock_irqsave(&btn_spinlock, flags); gPlcRandomizeCallback = callback; gPlcRandomizeCallbackParam = param; spin_unlock_irqrestore(&btn_spinlock, flags); } void kerSysDeregisterPlcRandomizeCallback(void (* callback)(unsigned long timeInMs, void* param)) { unsigned long flags; printk("Deregistering PLC network key randomize callback: (%pf)\n", callback); spin_lock_irqsave(&btn_spinlock, flags); if (gPlcRandomizeCallback == callback) gPlcRandomizeCallback = NULL; spin_unlock_irqrestore(&btn_spinlock, flags); } void btnHook_PlcUke(unsigned long timeInMs, void* param) { unsigned long flags; pushButtonNotifyHook_t hook; void* hookParam; printk(" *** Doing PLC UKE (%pf) ***\n\n", gPlcUkeCallback); spin_lock_irqsave(&btn_spinlock, flags); hook=gPlcUkeCallback; hookParam=gPlcUkeCallbackParam; spin_unlock_irqrestore(&btn_spinlock, flags); if (hook) hook(timeInMs, hookParam); } /***************************************************************************/ // BP_BTN_ACTION_RANDOMIZE_PLC void btnHook_RandomizePlc(unsigned long timeInMs, void* param) { unsigned long flags; pushButtonNotifyHook_t hook; void* hookParam; printk(" *** Randomizing PLC ***\n"); spin_lock_irqsave(&btn_spinlock, flags); hook=gPlcRandomizeCallback; hookParam=gPlcRandomizeCallbackParam; spin_unlock_irqrestore(&btn_spinlock, flags); if (hook) hook(timeInMs, hookParam); } /***************************************************************************/ // BP_BTN_ACTION_RESET void btnHook_Reset(unsigned long timeInMs, void* param) { printk(" *** Restarting System ***\n\n"); kernel_restart(NULL); } pushButtonNotifyHook_t btnHooks[] = { [BP_BTN_ACTION_NONE >> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_DoNothing, [BP_BTN_ACTION_SES >> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_Ses, [BP_BTN_ACTION_RESTORE_DEFAULTS >> BP_BTN_ACTION_SHIFT]= (pushButtonNotifyHook_t)btnHook_RestoreToDefault, [BP_BTN_ACTION_RANDOMIZE_PLC>> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_RandomizePlc, [BP_BTN_ACTION_RESET>> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_Reset, [BP_BTN_ACTION_PRINT>> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_Print, [BP_BTN_ACTION_PLC_UKE>> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_PlcUke, [BP_BTN_ACTION_WLAN_DOWN>> BP_BTN_ACTION_SHIFT] = (pushButtonNotifyHook_t)btnHook_WlanDown, }; //==================================================================================== // Main Button Support: static BtnInfo btnInfo[PB_BUTTON_MAX] = {}; /*************************************************************************** * Function Name: btnThread * Description : This is the thread function that takes care of a button. It is repsonsible for invoking any registered call backs, and doing polling. Assume it will never exit... * Parameters : arg: pointer to the button structure ***************************************************************************/ int btnThread(void * arg) { BtnInfo *btn = (BtnInfo*)arg; unsigned long flags; struct sched_param sp = { .sched_priority = 20 }; // set to be realtime thread with somewhat high priority: sched_setscheduler(current, SCHED_FIFO, &sp); while(1) { // at this point the button is not pressed -- wait for press: wait_event_interruptible(btn->waitq, (btn->events & BTN_EV_PRESSED) != 0); spin_lock_irqsave(&btn->lock, flags); btn->events &= ~ BTN_EV_PRESSED; spin_unlock_irqrestore(&btn->lock, flags); btnDoPress(btn, btn->lastPressJiffies); // at this point the button is down -- wait for release or until next hold event: while(1) { // TBD: instead of waking up every 100ms, we can actually poll the pushButton // library to figure out when the next wakeup time should be. // Note: all times should be read by the ISR, as the thread can be delayed // in heavy traffic, giving inacurate results if read from here wait_event_interruptible_timeout(btn->waitq, btn->events != 0, msecs_to_jiffies(BTN_POLLFREQ)); if (btn->events & BTN_EV_HOLD) { spin_lock_irqsave(&btn->lock, flags); btn->events &= ~BTN_EV_HOLD; spin_unlock_irqrestore(&btn->lock, flags); btnDoHold(btn, btn->lastHoldJiffies); } if (btn->events & BTN_EV_RELEASED) { spin_lock_irqsave(&btn->lock, flags); btn->events &= ~ (BTN_EV_RELEASED | BTN_EV_HOLD); spin_unlock_irqrestore(&btn->lock, flags); btnDoRelease(btn, btn->lastReleaseJiffies); break; } } } } /*************************************************************************** * Function Name: btnPressIsr * Description : This is the default btnPress interrupt handler. It assumes the button drives a gpio and is mapped to an external interrupt. This invokes the doPushButtonPress, and starts the polling timer. * Parameters : irq: the irq number of the button info: a pointer to a BtnInfo structure * Returns : IRQ_HANDLED. ***************************************************************************/ static irqreturn_t btnPressIsr(int irq, void *info) { BtnInfo *btn = (BtnInfo*)info; unsigned long currentJiffies = jiffies; int wasTimerActive; unsigned long flags; if (IsExtIntrShared(extIntrInfo[btn->extIrqIdx]) && !btn->isDown(btn)) { return IRQ_HANDLED; } spin_lock_irqsave(&btn->lock, flags); btn->active=1; btn->lastPressJiffies=currentJiffies; if ( btn->releaseIsr == NULL && btn->poll != NULL){ wasTimerActive = mod_timer(&btn->timer, (currentJiffies + msecs_to_jiffies(BTN_POLLFREQ))); } btn->events |= BTN_EV_PRESSED; btn->disableIrqs(btn); wake_up(&btn->waitq); spin_unlock_irqrestore(&btn->lock, flags); return IRQ_HANDLED; } /*************************************************************************** * Function Name: btnReleaseIsr * Description : This is the default hw btn release interrupt handler. It assumes the button drives a gpio and is mapped to an external interrupt. It is only called if a button is edge detected on both (up and down) edges. This stops the polling timer, and invokes the doRelease callback. * Parameters : irq: the irq number of the button info: a pointer to a BtnInfo structure * Returns : IRQ_HANDLED. ***************************************************************************/ static irqreturn_t btnReleaseIsr(int irq, void *info) { BtnInfo *btn = (BtnInfo*)info; unsigned long flags; if (IsExtIntrShared(extIntrInfo[btn->extIrqIdx]) && !btn->isDown(btn)) return IRQ_HANDLED; spin_lock_irqsave(&btn->lock, flags); btn->active=0; btn->lastReleaseJiffies = jiffies; del_timer(&btn->timer); btn->events |= BTN_EV_RELEASED; wake_up(&btn->waitq); spin_unlock_irqrestore(&btn->lock, flags); return IRQ_HANDLED; } /*************************************************************************** * Function Name: btnIsGpioBtnDown * Description : This a the check to see if a gpio-based button is down based on the gpio level * Parameters : arg: a pointer to a BtnInfo structure * Returns : 1 if the button is down ***************************************************************************/ static bool btnIsGpioBtnDown(BtnInfo *btn) { // check hardware to see if button is actually down: int value; #if !defined(CONFIG_BCM960333) value = kerSysGetGpioValue(btn->gpio); //TBD -- not supported for 60333 yet #elif defined(CONFIG_BCM947189) val=-1; #else value = GPIO->GPIOData & (1 << btn->gpio); #endif if( !value == !btn->gpioActiveHigh ) { return TRUE; } else { return FALSE; } } static void __btnPoll(BtnInfo *btn) { unsigned long currentJiffies = jiffies; int wasTimerActive; unsigned long flags; spin_lock_irqsave(&btn->lock, flags); if (btn->active) { if ( btn->isDown(btn) ) { btn->lastHoldJiffies = currentJiffies; wasTimerActive=mod_timer(&btn->timer, currentJiffies + msecs_to_jiffies(BTN_POLLFREQ)); btn->events |= BTN_EV_HOLD; wake_up(&btn->waitq); } else if (btn->releaseIsr == NULL) { btn->lastReleaseJiffies = currentJiffies; btn->active = 0; del_timer(&btn->timer); btn->events |= BTN_EV_RELEASED; wake_up(&btn->waitq); } else { // hit race condition. releaseIsr is pending (and it will // stop the timer, etc. Do nothing here) } } else { // we should not get here } spin_unlock_irqrestore(&btn->lock, flags); } /*************************************************************************** * Function Name: btnPoll * Description : This is the polling function. It is started when a button press is detected, and stopped when a button release is detected. * Parameters : arg: a pointer to a BtnInfo structure ***************************************************************************/ #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 19, 0) static void btnPoll(unsigned long arg) { BtnInfo *btn = (BtnInfo *)arg; __btnPoll(btn); } #else static void btnPoll(struct timer_list * arg) { BtnInfo *btn = from_timer(btn, arg, timer); __btnPoll(btn); } #endif /*************************************************************************** * Function Name: btnDoPress * Description : This is called when a press has been detected. * Parameters : arg: a pointer to a BtnInfo structure ***************************************************************************/ static void btnDoPress (BtnInfo *btn, unsigned long currentJiffies) { // this is called from the kernel thread context. if (btn->releaseIsr) { // note: releaseIsr implies edge detect btn->enableIrqs(btn); } else { btn->disableIrqs(btn); } doPushButtonPress(btn->btnId, currentJiffies); return; } /*************************************************************************** * Function Name: btnDoRelease * Description : This is called when a release has been detected * Parameters : arg: a pointer to a BtnInfo structure ***************************************************************************/ static void btnDoRelease (BtnInfo *btn, unsigned long currentJiffies) { // this is called from the kernel thread context. doPushButtonRelease(btn->btnId, currentJiffies); if (btn->pressIsr) { btn->enableIrqs(btn); } return; } /*************************************************************************** * Function Name: btnDoHold * Description : This is called when a button hold is detected * Parameters : arg: a pointer to a BtnInfo structure ***************************************************************************/ static void btnDoHold(BtnInfo *btn, unsigned long currentJiffies) { // this is called from the kernel thread context. doPushButtonHold(btn->btnId, currentJiffies); } /*************************************************************************** * Function Name: btnEnableIrq * Description : enable a buttons Irqs ***************************************************************************/ static void btnEnableIrq(BtnInfo *btn) { #if defined(CONFIG_BCM963138) || defined(CONFIG_BCM963148) BcmHalExternalIrqUnmask(btn->extIrqMap); #elif defined(CONFIG_BCM94908) || defined(CONFIG_BCM96858) || \ defined(CONFIG_BCM963158) || defined(CONFIG_BCM96846) || defined(CONFIG_BCM96856) || \ defined(CONFIG_BCM963178) || defined(CONFIG_BCM947622) || defined(CONFIG_BCM96878) || defined(CONFIG_BCM96855) BcmHalExternalIrqClear(btn->extIrqMap); BcmHalExternalIrqUnmask(btn->extIrqMap); #elif defined(CONFIG_BCM947189) #else BcmHalInterruptEnable(btn->extIrqMap); #endif } /*************************************************************************** * Function Name: btnDisableIrq * Description : enable a buttons Irqs ***************************************************************************/ static void btnDisableIrq(BtnInfo *btn) { #if defined(CONFIG_BCM963138) || defined(CONFIG_BCM963148) BcmHalExternalIrqMask(btn->extIrqMap); #elif defined(CONFIG_BCM94908) || defined(CONFIG_BCM96858) || \ defined(CONFIG_BCM963158) || defined(CONFIG_BCM96846) || defined(CONFIG_BCM96856) || \ defined(CONFIG_BCM963178) || defined(CONFIG_BCM947622) || defined(CONFIG_BCM96878) || defined(CONFIG_BCM96855) BcmHalExternalIrqMask(btn->extIrqMap); BcmHalExternalIrqClear(btn->extIrqMap); #elif defined(CONFIG_BCM947189) #else BcmHalInterruptDisable(btn->extIrqMap); #endif } /*************************************************************************** * Function Name: registerBtns * Description : This parses the board parms and sets up all buttons accordingly. ***************************************************************************/ /* Parse board parms and read button Id's. */ /* For now, assume gpio button with ext interrupt. This can be modified going forward however, by changing the callbacks, etc */ int registerBtns(void) { void * iter=NULL; // iterator int ret; unsigned short bpBtnIdx, bpGpio, bpExtIrq; // values read from boardparms unsigned short btnIdx; // actual button index unsigned short gpioNum; // actual gpio number unsigned short extIrqIdx; // actual ext irq unsigned short isGpioActiveHigh; // iff true gpio signal is high when button is pressed unsigned short hasDownIsr; // This is true if isr fires on both up and down BtnInfo * btn; unsigned long flags; unsigned short bpNumHooks = MAX_BTN_HOOKS_PER_BTN; unsigned short bpHooks[MAX_BTN_HOOKS_PER_BTN]; void* bpHookParms[MAX_BTN_HOOKS_PER_BTN]; while(1) { bpNumHooks = MAX_BTN_HOOKS_PER_BTN; ret=BpGetButtonInfo(&iter, &bpBtnIdx, &bpGpio, &bpExtIrq, &bpNumHooks, bpHooks, bpHookParms); if (ret != BP_SUCCESS) { break; } if (bpBtnIdx >= PB_BUTTON_MAX) { printk("registerBtns: Button index %d out of range (max %d)\n", bpBtnIdx, PB_BUTTON_MAX); return -1; } if (bpGpio == BP_NOT_DEFINED) { printk("ERROR: registerBtns: GPIO not set for button %d (not handled yet)\n", bpBtnIdx); return -1; } if (bpExtIrq == BP_EXT_INTR_NONE) { //eventually this will be done via polling. printk("ERROR: registerBtns: ExtIrq not set for button %d (not handled yet)\n", bpBtnIdx); return -1; } btnIdx = bpBtnIdx; hasDownIsr = 0; // not supported as of yet gpioNum = bpGpio & BP_GPIO_NUM_MASK; isGpioActiveHigh = ((bpGpio & BP_ACTIVE_MASK) == BP_ACTIVE_HIGH); extIrqIdx = (bpExtIrq & ~BP_EXT_INTR_FLAGS_MASK) - BP_EXT_INTR_0; if (isGpioActiveHigh != IsExtIntrTypeActHigh(bpExtIrq)) { printk("registerBtns: Error -- mismatch on activehigh/low for button %d\n", bpBtnIdx); return -1; } if (IsExtIntrShared(extIntrInfo[extIrqIdx])) { printk("Error -- shared button (%d) interrupts not handled yet...\n", bpBtnIdx); return -1; } if (IsExtIntrConflict(extIntrInfo[extIrqIdx])) { printk("Error -- Btn conflicting interrupts not handled yet...\n"); return -1; } btn = &btnInfo[btnIdx]; printk("Registering button %d (%p) (bpGpio: %08x, bpExtIrq:%08x (%x))\n", bpBtnIdx, btn, bpGpio, bpExtIrq, extIntrInfo[extIrqIdx]); printk(" extIrqIdx:%d, gpioNum:%d %s\n", extIrqIdx, gpioNum, isGpioActiveHigh?"ACTIVE HIGH":"ACTIVE LOW"); if (btn->isConfigured != 0) { printk("Warning -- button %d defined twice in boardparms \n", btn->btnId); // overriding old definition... memset(btn, 0, sizeof(*btn)); } btn->isConfigured = 1; spin_lock_init(&btn->lock); btn->btnId = PB_BUTTON_0 + btnIdx; btn->gpio = gpioNum; btn->extIrqIdx = extIrqIdx; btn->active = FALSE; btn->gpioActiveHigh = isGpioActiveHigh; btn->events = 0; init_waitqueue_head(&btn->waitq); btn->thread = kthread_run(btnThread, (void *)btn, "btnhandler%d", btnIdx); if (!btn->thread) { printk("ERROR could not start kthread\n"); continue; } spin_lock_irqsave(&btn->lock, flags); // set up data: /* The following is the default callbacks (assuming gpio to extIrq). For any other type of button, simply replace the callbacks */ btn->pressIsr = btnPressIsr; btn->releaseIsr = hasDownIsr ? btnReleaseIsr : NULL; btn->poll = btnPoll; btn->isDown = btnIsGpioBtnDown; btn->enableIrqs = btnEnableIrq; btn->disableIrqs = btnDisableIrq; // set up timer: if (btn->releaseIsr == NULL) { // we're going to have to poll the button to see when it's released: #if LINUX_VERSION_CODE < KERNEL_VERSION(4, 19, 0) init_timer(&btn->timer); btn->timer.function = btn->poll; btn->timer.data = (unsigned long)btn; #else timer_setup(&btn->timer, btn->poll,0); #endif btn->timer.expires = jiffies + msecs_to_jiffies(BTN_POLLFREQ); } // set up external interrupts / gpios: btn->extIrqMap = map_external_irq (bpExtIrq); #if defined(CONFIG_BCM960333) if (IsExtIntrShared(extIntrInfo[btn->extIrqIdx])) printk("Error -- Cannot share ext irqs in 60333 (due to mux... %d)\n", btn->extIrqIdx); mapBcm960333GpioToIntr(btn->gpio, bpExtIrq); #elif defined(CONFIG_BCM963381) || defined(CONFIG_BCM96848) kerSysInitPinmuxInterface(BP_PINMUX_FNTYPE_IRQ | btn->extIrqIdx ); #endif #if 0 // Register button hooks: { int idx; for (idx = 0; idx < bpNumHooks; idx++) { unsigned short bpHook = bpHooks[idx]; void* bpHookParm = bpHookParms[idx]; int timeInMs = (bpHook & BP_BTN_TRIG_TIME_MASK) * BP_BTN_TRIG_TIME_UNIT_IN_MS; int bpType = bpHook & BP_BTN_TRIG_TYPE_MASK; pushButtonNotifyHook_t hook = btnHooks[(bpHook & BP_BTN_ACTION_MASK) >> BP_BTN_ACTION_SHIFT ]; printk(" Button %d: Registering %s hook %pf after %d ms \n", btn->btnId, bpType==BP_BTN_TRIG_PRESS?"press":bpType==BP_BTN_TRIG_HOLD?"hold":"release", hook, timeInMs); switch (bpType) { case BP_BTN_TRIG_PRESS: registerPushButtonPressNotifyHook(btn->btnId, hook, bpHookParm); break; case BP_BTN_TRIG_HOLD: registerPushButtonHoldNotifyHook(btn->btnId, hook, timeInMs, bpHookParm); break; case BP_BTN_TRIG_RELEASE: registerPushButtonReleaseNotifyHook(btn->btnId, hook, timeInMs, bpHookParm); break; } } } #endif spin_unlock_irqrestore(&btn->lock, flags); #if !defined(CONFIG_BCM947189) if (btn->pressIsr) BcmHalMapInterrupt((FN_HANDLER)btn->pressIsr, (void*)btn, btn->extIrqMap); #endif #if !defined(CONFIG_ARM) && !defined(CONFIG_ARM64) if (btn->pressIsr || btn->releaseIsr) BcmHalInterruptEnable(btn->extIrqMap); #endif } return 0; } #if defined(WIRELESS) /************************************************************************** * Name : btnGetSesBtnIdx * * Description: This function returns the Btn Idx assgined for the Wireless * Ses. * * Parameters : [OUT] btnIdx- the idx for wireless SES * * Returns : BP_SUCCESS - Success, value is returned. * BP_VALUE_NOT_DEFINED - At least one return value is not defined * for the board. ***************************************************************************/ int btnGetSesBtnIdx(unsigned short *btnIdx) { void *iter = NULL; unsigned short pusIdx; unsigned short pusGpio; unsigned short pusExtIrq; unsigned short pusNumHooks; unsigned short parrusHooks[MAX_BTN_HOOKS_PER_BTN]; void* bpHookParms[MAX_BTN_HOOKS_PER_BTN]; int i,ret; do { pusNumHooks = MAX_BTN_HOOKS_PER_BTN; ret = BpGetButtonInfo(&iter, &pusIdx, &pusGpio, &pusExtIrq, &pusNumHooks, parrusHooks, bpHookParms); if (ret != BP_SUCCESS) { return BP_VALUE_NOT_DEFINED; } for (i=0; i