Merge branch 'pm-fixes-32' of git://git.kernel.org/pub/scm/linux/kernel/git/khilman/linux-omap-pm into omap-fixes-for-linus
This commit is contained in:
Tony Lindgren
commit
ab8d64d7d4
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@ -541,7 +541,7 @@ static int __init pm_dbg_init(void)
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printk(KERN_ERR "%s: only OMAP3 supported\n", __func__);
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return -ENODEV;
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}
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d = debugfs_create_dir("pm_debug", NULL);
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if (IS_ERR(d))
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return PTR_ERR(d);
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@ -551,7 +551,7 @@ static int __init pm_dbg_init(void)
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(void) debugfs_create_file("time", S_IRUGO,
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d, (void *)DEBUG_FILE_TIMERS, &debug_fops);
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pwrdm_for_each(pwrdms_setup, (void *)d);
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pwrdm_for_each_nolock(pwrdms_setup, (void *)d);
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pm_dbg_dir = debugfs_create_dir("registers", d);
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if (IS_ERR(pm_dbg_dir))
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@ -51,97 +51,112 @@ static void (*_omap_sram_idle)(u32 *addr, int save_state);
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static struct powerdomain *mpu_pwrdm;
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/* PRCM Interrupt Handler for wakeups */
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/*
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* PRCM Interrupt Handler Helper Function
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*
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* The purpose of this function is to clear any wake-up events latched
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* in the PRCM PM_WKST_x registers. It is possible that a wake-up event
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* may occur whilst attempting to clear a PM_WKST_x register and thus
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* set another bit in this register. A while loop is used to ensure
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* that any peripheral wake-up events occurring while attempting to
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* clear the PM_WKST_x are detected and cleared.
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*/
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static int prcm_clear_mod_irqs(s16 module, u8 regs)
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{
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u32 wkst, fclk, iclk, clken;
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u16 wkst_off = (regs == 3) ? OMAP3430ES2_PM_WKST3 : PM_WKST1;
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u16 fclk_off = (regs == 3) ? OMAP3430ES2_CM_FCLKEN3 : CM_FCLKEN1;
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u16 iclk_off = (regs == 3) ? CM_ICLKEN3 : CM_ICLKEN1;
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u16 grpsel_off = (regs == 3) ?
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OMAP3430ES2_PM_MPUGRPSEL3 : OMAP3430_PM_MPUGRPSEL;
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int c = 0;
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wkst = prm_read_mod_reg(module, wkst_off);
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wkst &= prm_read_mod_reg(module, grpsel_off);
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if (wkst) {
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iclk = cm_read_mod_reg(module, iclk_off);
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fclk = cm_read_mod_reg(module, fclk_off);
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while (wkst) {
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clken = wkst;
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cm_set_mod_reg_bits(clken, module, iclk_off);
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/*
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* For USBHOST, we don't know whether HOST1 or
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* HOST2 woke us up, so enable both f-clocks
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*/
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if (module == OMAP3430ES2_USBHOST_MOD)
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clken |= 1 << OMAP3430ES2_EN_USBHOST2_SHIFT;
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cm_set_mod_reg_bits(clken, module, fclk_off);
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prm_write_mod_reg(wkst, module, wkst_off);
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wkst = prm_read_mod_reg(module, wkst_off);
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c++;
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}
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cm_write_mod_reg(iclk, module, iclk_off);
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cm_write_mod_reg(fclk, module, fclk_off);
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}
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return c;
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}
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static int _prcm_int_handle_wakeup(void)
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{
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int c;
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c = prcm_clear_mod_irqs(WKUP_MOD, 1);
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c += prcm_clear_mod_irqs(CORE_MOD, 1);
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c += prcm_clear_mod_irqs(OMAP3430_PER_MOD, 1);
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if (omap_rev() > OMAP3430_REV_ES1_0) {
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c += prcm_clear_mod_irqs(CORE_MOD, 3);
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c += prcm_clear_mod_irqs(OMAP3430ES2_USBHOST_MOD, 1);
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}
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return c;
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}
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/*
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* PRCM Interrupt Handler
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*
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* The PRM_IRQSTATUS_MPU register indicates if there are any pending
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* interrupts from the PRCM for the MPU. These bits must be cleared in
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* order to clear the PRCM interrupt. The PRCM interrupt handler is
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* implemented to simply clear the PRM_IRQSTATUS_MPU in order to clear
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* the PRCM interrupt. Please note that bit 0 of the PRM_IRQSTATUS_MPU
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* register indicates that a wake-up event is pending for the MPU and
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* this bit can only be cleared if the all the wake-up events latched
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* in the various PM_WKST_x registers have been cleared. The interrupt
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* handler is implemented using a do-while loop so that if a wake-up
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* event occurred during the processing of the prcm interrupt handler
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* (setting a bit in the corresponding PM_WKST_x register and thus
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* preventing us from clearing bit 0 of the PRM_IRQSTATUS_MPU register)
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* this would be handled.
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*/
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static irqreturn_t prcm_interrupt_handler (int irq, void *dev_id)
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{
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u32 wkst, irqstatus_mpu;
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u32 fclk, iclk;
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u32 irqstatus_mpu;
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int c = 0;
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/* WKUP */
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wkst = prm_read_mod_reg(WKUP_MOD, PM_WKST);
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if (wkst) {
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iclk = cm_read_mod_reg(WKUP_MOD, CM_ICLKEN);
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fclk = cm_read_mod_reg(WKUP_MOD, CM_FCLKEN);
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cm_set_mod_reg_bits(wkst, WKUP_MOD, CM_ICLKEN);
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cm_set_mod_reg_bits(wkst, WKUP_MOD, CM_FCLKEN);
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prm_write_mod_reg(wkst, WKUP_MOD, PM_WKST);
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while (prm_read_mod_reg(WKUP_MOD, PM_WKST))
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cpu_relax();
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cm_write_mod_reg(iclk, WKUP_MOD, CM_ICLKEN);
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cm_write_mod_reg(fclk, WKUP_MOD, CM_FCLKEN);
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}
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do {
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irqstatus_mpu = prm_read_mod_reg(OCP_MOD,
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OMAP3_PRM_IRQSTATUS_MPU_OFFSET);
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/* CORE */
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wkst = prm_read_mod_reg(CORE_MOD, PM_WKST1);
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if (wkst) {
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iclk = cm_read_mod_reg(CORE_MOD, CM_ICLKEN1);
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fclk = cm_read_mod_reg(CORE_MOD, CM_FCLKEN1);
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cm_set_mod_reg_bits(wkst, CORE_MOD, CM_ICLKEN1);
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cm_set_mod_reg_bits(wkst, CORE_MOD, CM_FCLKEN1);
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prm_write_mod_reg(wkst, CORE_MOD, PM_WKST1);
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while (prm_read_mod_reg(CORE_MOD, PM_WKST1))
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cpu_relax();
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cm_write_mod_reg(iclk, CORE_MOD, CM_ICLKEN1);
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cm_write_mod_reg(fclk, CORE_MOD, CM_FCLKEN1);
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}
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wkst = prm_read_mod_reg(CORE_MOD, OMAP3430ES2_PM_WKST3);
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if (wkst) {
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iclk = cm_read_mod_reg(CORE_MOD, CM_ICLKEN3);
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fclk = cm_read_mod_reg(CORE_MOD, OMAP3430ES2_CM_FCLKEN3);
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cm_set_mod_reg_bits(wkst, CORE_MOD, CM_ICLKEN3);
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cm_set_mod_reg_bits(wkst, CORE_MOD, OMAP3430ES2_CM_FCLKEN3);
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prm_write_mod_reg(wkst, CORE_MOD, OMAP3430ES2_PM_WKST3);
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while (prm_read_mod_reg(CORE_MOD, OMAP3430ES2_PM_WKST3))
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cpu_relax();
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cm_write_mod_reg(iclk, CORE_MOD, CM_ICLKEN3);
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cm_write_mod_reg(fclk, CORE_MOD, OMAP3430ES2_CM_FCLKEN3);
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}
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if (irqstatus_mpu & (OMAP3430_WKUP_ST | OMAP3430_IO_ST)) {
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c = _prcm_int_handle_wakeup();
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/* PER */
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wkst = prm_read_mod_reg(OMAP3430_PER_MOD, PM_WKST);
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if (wkst) {
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iclk = cm_read_mod_reg(OMAP3430_PER_MOD, CM_ICLKEN);
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fclk = cm_read_mod_reg(OMAP3430_PER_MOD, CM_FCLKEN);
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cm_set_mod_reg_bits(wkst, OMAP3430_PER_MOD, CM_ICLKEN);
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cm_set_mod_reg_bits(wkst, OMAP3430_PER_MOD, CM_FCLKEN);
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prm_write_mod_reg(wkst, OMAP3430_PER_MOD, PM_WKST);
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while (prm_read_mod_reg(OMAP3430_PER_MOD, PM_WKST))
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cpu_relax();
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cm_write_mod_reg(iclk, OMAP3430_PER_MOD, CM_ICLKEN);
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cm_write_mod_reg(fclk, OMAP3430_PER_MOD, CM_FCLKEN);
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}
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if (omap_rev() > OMAP3430_REV_ES1_0) {
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/* USBHOST */
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wkst = prm_read_mod_reg(OMAP3430ES2_USBHOST_MOD, PM_WKST);
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if (wkst) {
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iclk = cm_read_mod_reg(OMAP3430ES2_USBHOST_MOD,
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CM_ICLKEN);
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fclk = cm_read_mod_reg(OMAP3430ES2_USBHOST_MOD,
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CM_FCLKEN);
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cm_set_mod_reg_bits(wkst, OMAP3430ES2_USBHOST_MOD,
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CM_ICLKEN);
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cm_set_mod_reg_bits(wkst, OMAP3430ES2_USBHOST_MOD,
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CM_FCLKEN);
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prm_write_mod_reg(wkst, OMAP3430ES2_USBHOST_MOD,
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PM_WKST);
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while (prm_read_mod_reg(OMAP3430ES2_USBHOST_MOD,
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PM_WKST))
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cpu_relax();
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cm_write_mod_reg(iclk, OMAP3430ES2_USBHOST_MOD,
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CM_ICLKEN);
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cm_write_mod_reg(fclk, OMAP3430ES2_USBHOST_MOD,
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CM_FCLKEN);
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/*
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* Is the MPU PRCM interrupt handler racing with the
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* IVA2 PRCM interrupt handler ?
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*/
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WARN(c == 0, "prcm: WARNING: PRCM indicated MPU wakeup "
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"but no wakeup sources are marked\n");
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} else {
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/* XXX we need to expand our PRCM interrupt handler */
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WARN(1, "prcm: WARNING: PRCM interrupt received, but "
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"no code to handle it (%08x)\n", irqstatus_mpu);
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}
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}
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irqstatus_mpu = prm_read_mod_reg(OCP_MOD,
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OMAP3_PRM_IRQSTATUS_MPU_OFFSET);
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prm_write_mod_reg(irqstatus_mpu, OCP_MOD,
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OMAP3_PRM_IRQSTATUS_MPU_OFFSET);
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prm_write_mod_reg(irqstatus_mpu, OCP_MOD,
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OMAP3_PRM_IRQSTATUS_MPU_OFFSET);
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while (prm_read_mod_reg(OCP_MOD, OMAP3_PRM_IRQSTATUS_MPU_OFFSET))
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cpu_relax();
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} while (prm_read_mod_reg(OCP_MOD, OMAP3_PRM_IRQSTATUS_MPU_OFFSET));
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return IRQ_HANDLED;
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}
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@ -624,6 +639,16 @@ static void __init prcm_setup_regs(void)
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prm_write_mod_reg(OMAP3430_IO_EN | OMAP3430_WKUP_EN,
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OCP_MOD, OMAP3_PRM_IRQENABLE_MPU_OFFSET);
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/* Enable GPIO wakeups in PER */
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prm_write_mod_reg(OMAP3430_EN_GPIO2 | OMAP3430_EN_GPIO3 |
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OMAP3430_EN_GPIO4 | OMAP3430_EN_GPIO5 |
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OMAP3430_EN_GPIO6, OMAP3430_PER_MOD, PM_WKEN);
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/* and allow them to wake up MPU */
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prm_write_mod_reg(OMAP3430_GRPSEL_GPIO2 | OMAP3430_EN_GPIO3 |
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OMAP3430_GRPSEL_GPIO4 | OMAP3430_EN_GPIO5 |
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OMAP3430_GRPSEL_GPIO6,
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OMAP3430_PER_MOD, OMAP3430_PM_MPUGRPSEL);
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/* Don't attach IVA interrupts */
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prm_write_mod_reg(0, WKUP_MOD, OMAP3430_PM_IVAGRPSEL);
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prm_write_mod_reg(0, CORE_MOD, OMAP3430_PM_IVAGRPSEL1);
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@ -273,35 +273,50 @@ struct powerdomain *pwrdm_lookup(const char *name)
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}
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/**
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* pwrdm_for_each - call function on each registered clockdomain
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* pwrdm_for_each_nolock - call function on each registered clockdomain
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* @fn: callback function *
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*
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* Call the supplied function for each registered powerdomain. The
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* callback function can return anything but 0 to bail out early from
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* the iterator. The callback function is called with the pwrdm_rwlock
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* held for reading, so no powerdomain structure manipulation
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* functions should be called from the callback, although hardware
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* powerdomain control functions are fine. Returns the last return
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* value of the callback function, which should be 0 for success or
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* anything else to indicate failure; or -EINVAL if the function
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* pointer is null.
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* the iterator. Returns the last return value of the callback function, which
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* should be 0 for success or anything else to indicate failure; or -EINVAL if
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* the function pointer is null.
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*/
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int pwrdm_for_each(int (*fn)(struct powerdomain *pwrdm, void *user),
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void *user)
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int pwrdm_for_each_nolock(int (*fn)(struct powerdomain *pwrdm, void *user),
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void *user)
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{
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struct powerdomain *temp_pwrdm;
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unsigned long flags;
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int ret = 0;
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if (!fn)
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return -EINVAL;
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read_lock_irqsave(&pwrdm_rwlock, flags);
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list_for_each_entry(temp_pwrdm, &pwrdm_list, node) {
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ret = (*fn)(temp_pwrdm, user);
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if (ret)
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break;
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}
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return ret;
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}
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/**
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* pwrdm_for_each - call function on each registered clockdomain
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* @fn: callback function *
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*
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* This function is the same as 'pwrdm_for_each_nolock()', but keeps the
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* &pwrdm_rwlock locked for reading, so no powerdomain structure manipulation
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* functions should be called from the callback, although hardware powerdomain
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* control functions are fine.
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*/
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int pwrdm_for_each(int (*fn)(struct powerdomain *pwrdm, void *user),
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void *user)
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{
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unsigned long flags;
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int ret;
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read_lock_irqsave(&pwrdm_rwlock, flags);
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ret = pwrdm_for_each_nolock(fn, user);
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read_unlock_irqrestore(&pwrdm_rwlock, flags);
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return ret;
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@ -135,6 +135,8 @@ struct powerdomain *pwrdm_lookup(const char *name);
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int pwrdm_for_each(int (*fn)(struct powerdomain *pwrdm, void *user),
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void *user);
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int pwrdm_for_each_nolock(int (*fn)(struct powerdomain *pwrdm, void *user),
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void *user);
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int pwrdm_add_clkdm(struct powerdomain *pwrdm, struct clockdomain *clkdm);
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int pwrdm_del_clkdm(struct powerdomain *pwrdm, struct clockdomain *clkdm);
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