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Release 4.7 drivers/irqchip/irq-metag-ext.c

Directory: drivers/irqchip
/*
 * Meta External interrupt code.
 *
 * Copyright (C) 2005-2012 Imagination Technologies Ltd.
 *
 * External interrupts on Meta are configured at two-levels, in the CPU core and
 * in the external trigger block. Interrupts from SoC peripherals are
 * multiplexed onto a single Meta CPU "trigger" - traditionally it has always
 * been trigger 2 (TR2). For info on how de-multiplexing happens check out
 * meta_intc_irq_demux().
 */

#include <linux/interrupt.h>
#include <linux/irqchip/metag-ext.h>
#include <linux/irqdomain.h>
#include <linux/io.h>
#include <linux/of.h>
#include <linux/slab.h>
#include <linux/syscore_ops.h>

#include <asm/irq.h>
#include <asm/hwthread.h>


#define HWSTAT_STRIDE 8

#define HWVEC_BLK_STRIDE 0x1000

/**
 * struct meta_intc_priv - private meta external interrupt data
 * @nr_banks:           Number of interrupt banks
 * @domain:             IRQ domain for all banks of external IRQs
 * @unmasked:           Record of unmasked IRQs
 * @levels_altered:     Record of altered level bits
 */

struct meta_intc_priv {
	
unsigned int		nr_banks;
	
struct irq_domain	*domain;

	
unsigned long		unmasked[4];

#ifdef CONFIG_METAG_SUSPEND_MEM
	
unsigned long		levels_altered[4];
#endif
};

/* Private data for the one and only external interrupt controller */

static struct meta_intc_priv meta_intc_priv;

/**
 * meta_intc_offset() - Get the offset into the bank of a hardware IRQ number
 * @hw:         Hardware IRQ number (within external trigger block)
 *
 * Returns:     Bit offset into the IRQ's bank registers
 */

static unsigned int meta_intc_offset(irq_hw_number_t hw) { return hw & 0x1f; }

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/** * meta_intc_bank() - Get the bank number of a hardware IRQ number * @hw: Hardware IRQ number (within external trigger block) * * Returns: Bank number indicating which register the IRQ's bits are */
static unsigned int meta_intc_bank(irq_hw_number_t hw) { return hw >> 5; }

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/** * meta_intc_stat_addr() - Get the address of a HWSTATEXT register * @hw: Hardware IRQ number (within external trigger block) * * Returns: Address of a HWSTATEXT register containing the status bit for * the specified hardware IRQ number */
static void __iomem *meta_intc_stat_addr(irq_hw_number_t hw) { return (void __iomem *)(HWSTATEXT + HWSTAT_STRIDE * meta_intc_bank(hw)); }

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/** * meta_intc_level_addr() - Get the address of a HWLEVELEXT register * @hw: Hardware IRQ number (within external trigger block) * * Returns: Address of a HWLEVELEXT register containing the sense bit for * the specified hardware IRQ number */
static void __iomem *meta_intc_level_addr(irq_hw_number_t hw) { return (void __iomem *)(HWLEVELEXT + HWSTAT_STRIDE * meta_intc_bank(hw)); }

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/** * meta_intc_mask_addr() - Get the address of a HWMASKEXT register * @hw: Hardware IRQ number (within external trigger block) * * Returns: Address of a HWMASKEXT register containing the mask bit for the * specified hardware IRQ number */
static void __iomem *meta_intc_mask_addr(irq_hw_number_t hw) { return (void __iomem *)(HWMASKEXT + HWSTAT_STRIDE * meta_intc_bank(hw)); }

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/** * meta_intc_vec_addr() - Get the vector address of a hardware interrupt * @hw: Hardware IRQ number (within external trigger block) * * Returns: Address of a HWVECEXT register controlling the core trigger to * vector the IRQ onto */
static inline void __iomem *meta_intc_vec_addr(irq_hw_number_t hw) { return (void __iomem *)(HWVEC0EXT + HWVEC_BLK_STRIDE * meta_intc_bank(hw) + HWVECnEXT_STRIDE * meta_intc_offset(hw)); }

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/** * meta_intc_startup_irq() - set up an external irq * @data: data for the external irq to start up * * Multiplex interrupts for irq onto TR2. Clear any pending interrupts and * unmask irq, both using the appropriate callbacks. */
static unsigned int meta_intc_startup_irq(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; void __iomem *vec_addr = meta_intc_vec_addr(hw); int thread = hard_processor_id(); /* Perform any necessary acking. */ if (data->chip->irq_ack) data->chip->irq_ack(data); /* Wire up this interrupt to the core with HWVECxEXT. */ metag_out32(TBI_TRIG_VEC(TBID_SIGNUM_TR2(thread)), vec_addr); /* Perform any necessary unmasking. */ data->chip->irq_unmask(data); return 0; }

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/** * meta_intc_shutdown_irq() - turn off an external irq * @data: data for the external irq to turn off * * Mask irq using the appropriate callback and stop muxing it onto TR2. */
static void meta_intc_shutdown_irq(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; void __iomem *vec_addr = meta_intc_vec_addr(hw); /* Mask the IRQ */ data->chip->irq_mask(data); /* * Disable the IRQ at the core by removing the interrupt from * the HW vector mapping. */ metag_out32(0, vec_addr); }

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/** * meta_intc_ack_irq() - acknowledge an external irq * @data: data for the external irq to ack * * Clear down an edge interrupt in the status register. */
static void meta_intc_ack_irq(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *stat_addr = meta_intc_stat_addr(hw); /* Ack the int, if it is still 'on'. * NOTE - this only works for edge triggered interrupts. */ if (metag_in32(stat_addr) & bit) metag_out32(bit, stat_addr); }

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/** * record_irq_is_masked() - record the IRQ masked so it doesn't get handled * @data: data for the external irq to record * * This should get called whenever an external IRQ is masked (by whichever * callback is used). It records the IRQ masked so that it doesn't get handled * if it still shows up in the status register. */
static void record_irq_is_masked(struct irq_data *data) { struct meta_intc_priv *priv = &meta_intc_priv; irq_hw_number_t hw = data->hwirq; clear_bit(meta_intc_offset(hw), &priv->unmasked[meta_intc_bank(hw)]); }

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/** * record_irq_is_unmasked() - record the IRQ unmasked so it can be handled * @data: data for the external irq to record * * This should get called whenever an external IRQ is unmasked (by whichever * callback is used). It records the IRQ unmasked so that it gets handled if it * shows up in the status register. */
static void record_irq_is_unmasked(struct irq_data *data) { struct meta_intc_priv *priv = &meta_intc_priv; irq_hw_number_t hw = data->hwirq; set_bit(meta_intc_offset(hw), &priv->unmasked[meta_intc_bank(hw)]); }

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/* * For use by wrapper IRQ drivers */ /** * meta_intc_mask_irq_simple() - minimal mask used by wrapper IRQ drivers * @data: data for the external irq being masked * * This should be called by any wrapper IRQ driver mask functions. it doesn't do * any masking but records the IRQ as masked so that the core code knows the * mask has taken place. It is the callers responsibility to ensure that the IRQ * won't trigger an interrupt to the core. */
void meta_intc_mask_irq_simple(struct irq_data *data) { record_irq_is_masked(data); }

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/** * meta_intc_unmask_irq_simple() - minimal unmask used by wrapper IRQ drivers * @data: data for the external irq being unmasked * * This should be called by any wrapper IRQ driver unmask functions. it doesn't * do any unmasking but records the IRQ as unmasked so that the core code knows * the unmask has taken place. It is the callers responsibility to ensure that * the IRQ can now trigger an interrupt to the core. */
void meta_intc_unmask_irq_simple(struct irq_data *data) { record_irq_is_unmasked(data); }

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/** * meta_intc_mask_irq() - mask an external irq using HWMASKEXT * @data: data for the external irq to mask * * This is a default implementation of a mask function which makes use of the * HWMASKEXT registers available in newer versions. * * Earlier versions without these registers should use SoC level IRQ masking * which call the meta_intc_*_simple() functions above, or if that isn't * available should use the fallback meta_intc_*_nomask() functions below. */
static void meta_intc_mask_irq(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *mask_addr = meta_intc_mask_addr(hw); unsigned long flags; record_irq_is_masked(data); /* update the interrupt mask */ __global_lock2(flags); metag_out32(metag_in32(mask_addr) & ~bit, mask_addr); __global_unlock2(flags); }

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/** * meta_intc_unmask_irq() - unmask an external irq using HWMASKEXT * @data: data for the external irq to unmask * * This is a default implementation of an unmask function which makes use of the * HWMASKEXT registers available on new versions. It should be paired with * meta_intc_mask_irq() above. */
static void meta_intc_unmask_irq(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *mask_addr = meta_intc_mask_addr(hw); unsigned long flags; record_irq_is_unmasked(data); /* update the interrupt mask */ __global_lock2(flags); metag_out32(metag_in32(mask_addr) | bit, mask_addr); __global_unlock2(flags); }

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/** * meta_intc_mask_irq_nomask() - mask an external irq by unvectoring * @data: data for the external irq to mask * * This is the version of the mask function for older versions which don't have * HWMASKEXT registers, or a SoC level means of masking IRQs. Instead the IRQ is * unvectored from the core and retriggered if necessary later. */
static void meta_intc_mask_irq_nomask(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; void __iomem *vec_addr = meta_intc_vec_addr(hw); record_irq_is_masked(data); /* there is no interrupt mask, so unvector the interrupt */ metag_out32(0, vec_addr); }

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/** * meta_intc_unmask_edge_irq_nomask() - unmask an edge irq by revectoring * @data: data for the external irq to unmask * * This is the version of the unmask function for older versions which don't * have HWMASKEXT registers, or a SoC level means of masking IRQs. Instead the * IRQ is revectored back to the core and retriggered if necessary. * * The retriggering done by this function is specific to edge interrupts. */
static void meta_intc_unmask_edge_irq_nomask(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *stat_addr = meta_intc_stat_addr(hw); void __iomem *vec_addr = meta_intc_vec_addr(hw); unsigned int thread = hard_processor_id(); record_irq_is_unmasked(data); /* there is no interrupt mask, so revector the interrupt */ metag_out32(TBI_TRIG_VEC(TBID_SIGNUM_TR2(thread)), vec_addr); /* * Re-trigger interrupt * * Writing a 1 toggles, and a 0->1 transition triggers. We only * retrigger if the status bit is already set, which means we * need to clear it first. Retriggering is fundamentally racy * because if the interrupt fires again after we clear it we * could end up clearing it again and the interrupt handler * thinking it hasn't fired. Therefore we need to keep trying to * retrigger until the bit is set. */ if (metag_in32(stat_addr) & bit) { metag_out32(bit, stat_addr); while (!(metag_in32(stat_addr) & bit)) metag_out32(bit, stat_addr); } }

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/** * meta_intc_unmask_level_irq_nomask() - unmask a level irq by revectoring * @data: data for the external irq to unmask * * This is the version of the unmask function for older versions which don't * have HWMASKEXT registers, or a SoC level means of masking IRQs. Instead the * IRQ is revectored back to the core and retriggered if necessary. * * The retriggering done by this function is specific to level interrupts. */
static void meta_intc_unmask_level_irq_nomask(struct irq_data *data) { irq_hw_number_t hw = data->hwirq; unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *stat_addr = meta_intc_stat_addr(hw); void __iomem *vec_addr = meta_intc_vec_addr(hw); unsigned int thread = hard_processor_id(); record_irq_is_unmasked(data); /* there is no interrupt mask, so revector the interrupt */ metag_out32(TBI_TRIG_VEC(TBID_SIGNUM_TR2(thread)), vec_addr); /* Re-trigger interrupt */ /* Writing a 1 triggers interrupt */ if (metag_in32(stat_addr) & bit) metag_out32(bit, stat_addr); }

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/** * meta_intc_irq_set_type() - set the type of an external irq * @data: data for the external irq to set the type of * @flow_type: new irq flow type * * Set the flow type of an external interrupt. This updates the irq chip and irq * handler depending on whether the irq is edge or level sensitive (the polarity * is ignored), and also sets up the bit in HWLEVELEXT so the hardware knows * when to trigger. */
static int meta_intc_irq_set_type(struct irq_data *data, unsigned int flow_type) { #ifdef CONFIG_METAG_SUSPEND_MEM struct meta_intc_priv *priv = &meta_intc_priv; #endif irq_hw_number_t hw = data->hwirq; unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *level_addr = meta_intc_level_addr(hw); unsigned long flags; unsigned int level; /* update the chip/handler */ if (flow_type & IRQ_TYPE_LEVEL_MASK) irq_set_chip_handler_name_locked(data, &meta_intc_level_chip, handle_level_irq, NULL); else irq_set_chip_handler_name_locked(data, &meta_intc_edge_chip, handle_edge_irq, NULL); /* and clear/set the bit in HWLEVELEXT */ __global_lock2(flags); level = metag_in32(level_addr); if (flow_type & IRQ_TYPE_LEVEL_MASK) level |= bit; else level &= ~bit; metag_out32(level, level_addr); #ifdef CONFIG_METAG_SUSPEND_MEM priv->levels_altered[meta_intc_bank(hw)] |= bit; #endif __global_unlock2(flags); return 0; }

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/** * meta_intc_irq_demux() - external irq de-multiplexer * @irq: the virtual interrupt number * @desc: the interrupt description structure for this irq * * The cpu receives an interrupt on TR2 when a SoC interrupt has occurred. It is * this function's job to demux this irq and figure out exactly which external * irq needs servicing. * * Whilst using TR2 to detect external interrupts is a software convention it is * (hopefully) unlikely to change. */
static void meta_intc_irq_demux(struct irq_desc *desc) { struct meta_intc_priv *priv = &meta_intc_priv; irq_hw_number_t hw; unsigned int bank, irq_no, status; void __iomem *stat_addr = meta_intc_stat_addr(0); /* * Locate which interrupt has caused our handler to run. */ for (bank = 0; bank < priv->nr_banks; ++bank) { /* Which interrupts are currently pending in this bank? */ recalculate: status = metag_in32(stat_addr) & priv->unmasked[bank]; for (hw = bank*32; status; status >>= 1, ++hw) { if (status & 0x1) { /* * Map the hardware IRQ number to a virtual * Linux IRQ number. */ irq_no = irq_linear_revmap(priv->domain, hw); /* * Only fire off external interrupts that are * registered to be handled by the kernel. * Other external interrupts are probably being * handled by other Meta hardware threads. */ generic_handle_irq(irq_no); /* * The handler may have re-enabled interrupts * which could have caused a nested invocation * of this code and make the copy of the * status register we are using invalid. */ goto recalculate; } } stat_addr += HWSTAT_STRIDE; } }

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#ifdef CONFIG_SMP /** * meta_intc_set_affinity() - set the affinity for an interrupt * @data: data for the external irq to set the affinity of * @cpumask: cpu mask representing cpus which can handle the interrupt * @force: whether to force (ignored) * * Revector the specified external irq onto a specific cpu's TR2 trigger, so * that that cpu tends to be the one who handles it. */
static int meta_intc_set_affinity(struct irq_data *data, const struct cpumask *cpumask, bool force) { irq_hw_number_t hw = data->hwirq; void __iomem *vec_addr = meta_intc_vec_addr(hw); unsigned int cpu, thread; /* * Wire up this interrupt from HWVECxEXT to the Meta core. * * Note that we can't wire up HWVECxEXT to interrupt more than * one cpu (the interrupt code doesn't support it), so we just * pick the first cpu we find in 'cpumask'. */ cpu = cpumask_any_and(cpumask, cpu_online_mask); thread = cpu_2_hwthread_id[cpu]; metag_out32(TBI_TRIG_VEC(TBID_SIGNUM_TR2(thread)), vec_addr); return 0; }

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#else #define meta_intc_set_affinity NULL #endif #ifdef CONFIG_PM_SLEEP #define META_INTC_CHIP_FLAGS (IRQCHIP_MASK_ON_SUSPEND \ | IRQCHIP_SKIP_SET_WAKE) #else #define META_INTC_CHIP_FLAGS 0 #endif /* public edge/level irq chips which SoCs can override */ struct irq_chip meta_intc_edge_chip = { .irq_startup = meta_intc_startup_irq, .irq_shutdown = meta_intc_shutdown_irq, .irq_ack = meta_intc_ack_irq, .irq_mask = meta_intc_mask_irq, .irq_unmask = meta_intc_unmask_irq, .irq_set_type = meta_intc_irq_set_type, .irq_set_affinity = meta_intc_set_affinity, .flags = META_INTC_CHIP_FLAGS, }; struct irq_chip meta_intc_level_chip = { .irq_startup = meta_intc_startup_irq, .irq_shutdown = meta_intc_shutdown_irq, .irq_set_type = meta_intc_irq_set_type, .irq_mask = meta_intc_mask_irq, .irq_unmask = meta_intc_unmask_irq, .irq_set_affinity = meta_intc_set_affinity, .flags = META_INTC_CHIP_FLAGS, }; /** * meta_intc_map() - map an external irq * @d: irq domain of external trigger block * @irq: virtual irq number * @hw: hardware irq number within external trigger block * * This sets up a virtual irq for a specified hardware interrupt. The irq chip * and handler is configured, using the HWLEVELEXT registers to determine * edge/level flow type. These registers will have been set when the irq type is * set (or set to a default at init time). */
static int meta_intc_map(struct irq_domain *d, unsigned int irq, irq_hw_number_t hw) { unsigned int bit = 1 << meta_intc_offset(hw); void __iomem *level_addr = meta_intc_level_addr(hw); /* Go by the current sense in the HWLEVELEXT register */ if (metag_in32(level_addr) & bit) irq_set_chip_and_handler(irq, &meta_intc_level_chip, handle_level_irq); else irq_set_chip_and_handler(irq, &meta_intc_edge_chip, handle_edge_irq); return 0; }

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static const struct irq_domain_ops meta_intc_domain_ops = { .map = meta_intc_map, .xlate = irq_domain_xlate_twocell, }; #ifdef CONFIG_METAG_SUSPEND_MEM /** * struct meta_intc_context - suspend context * @levels: State of HWLEVELEXT registers * @masks: State of HWMASKEXT registers * @vectors: State of HWVECEXT registers * @txvecint: State of TxVECINT registers * * This structure stores the IRQ state across suspend. */ struct meta_intc_context { u32 levels[4]; u32 masks[4]; u8 vectors[4*32]; u8 txvecint[4][4]; }; /* suspend context */ static struct meta_intc_context *meta_intc_context; /** * meta_intc_suspend() - store irq state * * To avoid interfering with other threads we only save the IRQ state of IRQs in * use by Linux. */
static int meta_intc_suspend(void) { struct meta_intc_priv *priv = &meta_intc_priv; int i, j; irq_hw_number_t hw; unsigned int bank; unsigned long flags; struct meta_intc_context *context; void __iomem *level_addr, *mask_addr, *vec_addr; u32 mask, bit; context = kzalloc(sizeof(*context), GFP_ATOMIC); if (!context) return -ENOMEM; hw = 0; level_addr = meta_intc_level_addr(0); mask_addr = meta_intc_mask_addr(0); for (bank = 0; bank < priv->nr_banks; ++bank) { vec_addr = meta_intc_vec_addr(hw); /* create mask of interrupts in use */ mask = 0; for (bit = 1; bit; bit <<= 1) { i = irq_linear_revmap(priv->domain, hw); /* save mapped irqs which are enabled or have actions */ if (i && (!irqd_irq_disabled(irq_get_irq_data(i)) || irq_has_action(i))) { mask |= bit; /* save trigger vector */ context->vectors[hw] = metag_in32(vec_addr); } ++hw; vec_addr += HWVECnEXT_STRIDE; } /* save level state if any IRQ levels altered */ if (priv->levels_altered[bank]) context->levels[bank] = metag_in32(level_addr); /* save mask state if any IRQs in use */ if (mask) context->masks[bank] = metag_in32(mask_addr); level_addr += HWSTAT_STRIDE; mask_addr += HWSTAT_STRIDE; } /* save trigger matrixing */ __global_lock2(flags); for (i = 0; i < 4; ++i) for (j = 0; j < 4; ++j) context->txvecint[i][j] = metag_in32(T0VECINT_BHALT + TnVECINT_STRIDE*i + 8*j); __global_unlock2(flags); meta_intc_context = context; return 0; }

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/** * meta_intc_resume() - restore saved irq state * * Restore the saved IRQ state and drop it. */
static void meta_intc_resume(void) { struct meta_intc_priv *priv = &meta_intc_priv; int i, j; irq_hw_number_t hw; unsigned int bank; unsigned long flags; struct meta_intc_context *context = meta_intc_context; void __iomem *level_addr, *mask_addr, *vec_addr; u32 mask, bit, tmp; meta_intc_context = NULL; hw = 0; level_addr = meta_intc_level_addr(0); mask_addr = meta_intc_mask_addr(0); for (bank = 0; bank < priv->nr_banks; ++bank) { vec_addr = meta_intc_vec_addr(hw); /* create mask of interrupts in use */ mask = 0; for (bit = 1; bit; bit <<= 1) { i = irq_linear_revmap(priv->domain, hw); /* restore mapped irqs, enabled or with actions */ if (i && (!irqd_irq_disabled(irq_get_irq_data(i)) || irq_has_action(i))) { mask |= bit; /* restore trigger vector */ metag_out32(context->vectors[hw], vec_addr); } ++hw; vec_addr += HWVECnEXT_STRIDE; } if (mask) { /* restore mask state */ __global_lock2(flags); tmp = metag_in32(mask_addr); tmp = (tmp & ~mask) | (context->masks[bank] & mask); metag_out32(tmp, mask_addr); __global_unlock2(flags); } mask = priv->levels_altered[bank]; if (mask) { /* restore level state */ __global_lock2(flags); tmp = metag_in32(level_addr); tmp = (tmp & ~mask) | (context->levels[bank] & mask); metag_out32(tmp, level_addr); __global_unlock2(flags); } level_addr += HWSTAT_STRIDE; mask_addr += HWSTAT_STRIDE; } /* restore trigger matrixing */ __global_lock2(flags); for (i = 0; i < 4; ++i) { for (j = 0; j < 4; ++j) { metag_out32(context->txvecint[i][j], T0VECINT_BHALT + TnVECINT_STRIDE*i + 8*j); } } __global_unlock2(flags); kfree(context); }

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static struct syscore_ops meta_intc_syscore_ops = { .suspend = meta_intc_suspend, .resume = meta_intc_resume, };
static void __init meta_intc_init_syscore_ops(struct meta_intc_priv *priv) { register_syscore_ops(&meta_intc_syscore_ops); }

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#else #define meta_intc_init_syscore_ops(priv) do {} while (0) #endif /** * meta_intc_init_cpu() - register with a Meta cpu * @priv: private interrupt controller data * @cpu: the CPU to register on * * Configure @cpu's TR2 irq so that we can demux external irqs. */
static void __init meta_intc_init_cpu(struct meta_intc_priv *priv, int cpu) { unsigned int thread = cpu_2_hwthread_id[cpu]; unsigned int signum = TBID_SIGNUM_TR2(thread); int irq = tbisig_map(signum); /* Register the multiplexed IRQ handler */ irq_set_chained_handler(irq, meta_intc_irq_demux); irq_set_irq_type(irq, IRQ_TYPE_LEVEL_LOW); }

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/** * meta_intc_no_mask() - indicate lack of HWMASKEXT registers * * Called from SoC code (or init code below) to dynamically indicate the lack of * HWMASKEXT registers (for example depending on some SoC revision register). * This alters the irq mask and unmask callbacks to use the fallback * unvectoring/retriggering technique instead of using HWMASKEXT registers. */
void __init meta_intc_no_mask(void) { meta_intc_edge_chip.irq_mask = meta_intc_mask_irq_nomask; meta_intc_edge_chip.irq_unmask = meta_intc_unmask_edge_irq_nomask; meta_intc_level_chip.irq_mask = meta_intc_mask_irq_nomask; meta_intc_level_chip.irq_unmask = meta_intc_unmask_level_irq_nomask; }

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/** * init_external_IRQ() - initialise the external irq controller * * Set up the external irq controller using device tree properties. This is * called from init_IRQ(). */
int __init init_external_IRQ(void) { struct meta_intc_priv *priv = &meta_intc_priv; struct device_node *node; int ret, cpu; u32 val; bool no_masks = false; node = of_find_compatible_node(NULL, NULL, "img,meta-intc"); if (!node) return -ENOENT; /* Get number of banks */ ret = of_property_read_u32(node, "num-banks", &val); if (ret) { pr_err("meta-intc: No num-banks property found\n"); return ret; } if (val < 1 || val > 4) { pr_err("meta-intc: num-banks (%u) out of range\n", val); return -EINVAL; } priv->nr_banks = val; /* Are any mask registers present? */ if (of_get_property(node, "no-mask", NULL)) no_masks = true; /* No HWMASKEXT registers present? */ if (no_masks) meta_intc_no_mask(); /* Set up an IRQ domain */ /* * This is a legacy IRQ domain for now until all the platform setup code * has been converted to devicetree. */ priv->domain = irq_domain_add_linear(node, priv->nr_banks*32, &meta_intc_domain_ops, priv); if (unlikely(!priv->domain)) { pr_err("meta-intc: cannot add IRQ domain\n"); return -ENOMEM; } /* Setup TR2 for all cpus. */ for_each_possible_cpu(cpu) meta_intc_init_cpu(priv, cpu); /* Set up system suspend/resume callbacks */ meta_intc_init_syscore_ops(priv); pr_info("meta-intc: External IRQ controller initialised (%u IRQs)\n", priv->nr_banks*32); return 0; }

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Directory: drivers/irqchip
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