11bb92983SJerome Forissier /* SPDX-License-Identifier: BSD-2-Clause */ 27315b7b4SJens Wiklander /* 3e9f46c74SJens Wiklander * Copyright (c) 2016-2019, Linaro Limited 47315b7b4SJens Wiklander */ 57315b7b4SJens Wiklander #ifndef __KERNEL_INTERRUPT_H 67315b7b4SJens Wiklander #define __KERNEL_INTERRUPT_H 77315b7b4SJens Wiklander 8702fe5a7SClément Léger #include <dt-bindings/interrupt-controller/irq.h> 933a0c835SEtienne Carriere #include <kernel/dt_driver.h> 10f932e355SEtienne Carriere #include <mm/core_memprot.h> 117315b7b4SJens Wiklander #include <sys/queue.h> 12f932e355SEtienne Carriere #include <tee_api_types.h> 13f932e355SEtienne Carriere #include <types_ext.h> 141c832d7cSdavidwang #include <util.h> 157315b7b4SJens Wiklander 161c832d7cSdavidwang #define ITRF_TRIGGER_LEVEL BIT(0) 171c832d7cSdavidwang #define ITRF_SHARED BIT(1) 187315b7b4SJens Wiklander 19ec740b9fSJens Wiklander /* Forward the interrupt only to the current CPU */ 20ec740b9fSJens Wiklander #define ITR_CPU_MASK_TO_THIS_CPU BIT(31) 21ec740b9fSJens Wiklander /* Forward the interrupt to all CPUs except the current CPU */ 22ec740b9fSJens Wiklander #define ITR_CPU_MASK_TO_OTHER_CPUS BIT(30) 23ec740b9fSJens Wiklander 24f932e355SEtienne Carriere struct itr_handler; 25f932e355SEtienne Carriere 26a009881dSEtienne Carriere /* 27a009881dSEtienne Carriere * struct itr_chip - Interrupt controller 28a009881dSEtienne Carriere * 29a009881dSEtienne Carriere * @ops Operation callback functions 30f932e355SEtienne Carriere * @name Controller name, for debug purpose 31f932e355SEtienne Carriere * @handlers Registered handlers list head 32a009881dSEtienne Carriere * @dt_get_irq Device tree node parsing function 33a009881dSEtienne Carriere */ 347315b7b4SJens Wiklander struct itr_chip { 357315b7b4SJens Wiklander const struct itr_ops *ops; 36f932e355SEtienne Carriere const char *name; 37f932e355SEtienne Carriere SLIST_HEAD(, itr_handler) handlers; 38702fe5a7SClément Léger /* 39702fe5a7SClément Léger * dt_get_irq - parse a device tree interrupt property 40702fe5a7SClément Léger * 4150cbe7ebSEtienne Carriere * @properties Big-endian interrupt property array from device tree 42702fe5a7SClément Léger * @count number of elements in @properties 43702fe5a7SClément Léger * @type If not NULL, output interrupt type (IRQ_TYPE_* defines) 44702fe5a7SClément Léger * or IRQ_TYPE_NONE if unknown 45702fe5a7SClément Léger * @prio If not NULL, output interrupt priority value or 0 if unknown 46702fe5a7SClément Léger */ 47702fe5a7SClément Léger int (*dt_get_irq)(const uint32_t *properties, int count, uint32_t *type, 48702fe5a7SClément Léger uint32_t *prio); 497315b7b4SJens Wiklander }; 507315b7b4SJens Wiklander 51a009881dSEtienne Carriere /* 52a009881dSEtienne Carriere * struct itr_ops - Interrupt controller operations 53*2a50ce7dSEtienne Carriere * @configure Configure an interrupt 54a009881dSEtienne Carriere * @enable Enable an interrupt 55a009881dSEtienne Carriere * @disable Disable an interrupt 56f932e355SEtienne Carriere * @mask Mask an interrupt, may be called from an interrupt context 57f932e355SEtienne Carriere * @unmask Unmask an interrupt, may be called from an interrupt context 58a009881dSEtienne Carriere * @raise_pi Raise per-cpu interrupt or NULL if not applicable 59a009881dSEtienne Carriere * @raise_sgi Raise a SGI or NULL if not applicable to that controller 60a009881dSEtienne Carriere * @set_affinity Set interrupt/cpu affinity or NULL if not applicable 61f932e355SEtienne Carriere * 62*2a50ce7dSEtienne Carriere * Handlers @enable, @disable, @mask, @unmask and @configure are mandated. 63*2a50ce7dSEtienne Carriere * Handlers @mask and @unmask have unpaged memory constraints. 64*2a50ce7dSEtienne Carriere * See itr_chip_is_valid(). 65a009881dSEtienne Carriere */ 667315b7b4SJens Wiklander struct itr_ops { 67*2a50ce7dSEtienne Carriere void (*configure)(struct itr_chip *chip, size_t it, uint32_t type, 68702fe5a7SClément Léger uint32_t prio); 697315b7b4SJens Wiklander void (*enable)(struct itr_chip *chip, size_t it); 707315b7b4SJens Wiklander void (*disable)(struct itr_chip *chip, size_t it); 71f932e355SEtienne Carriere void (*mask)(struct itr_chip *chip, size_t it); 72f932e355SEtienne Carriere void (*unmask)(struct itr_chip *chip, size_t it); 7326ed70ecSGuanchao Liang void (*raise_pi)(struct itr_chip *chip, size_t it); 7426ed70ecSGuanchao Liang void (*raise_sgi)(struct itr_chip *chip, size_t it, 75ec740b9fSJens Wiklander uint32_t cpu_mask); 7626ed70ecSGuanchao Liang void (*set_affinity)(struct itr_chip *chip, size_t it, 7726ed70ecSGuanchao Liang uint8_t cpu_mask); 787315b7b4SJens Wiklander }; 797315b7b4SJens Wiklander 8033a0c835SEtienne Carriere /* 8133a0c835SEtienne Carriere * struct itr_desc - Interrupt description 8233a0c835SEtienne Carriere * @chip Interrupt controller reference 8333a0c835SEtienne Carriere * @itr_num Interrupt number 8433a0c835SEtienne Carriere * 8533a0c835SEtienne Carriere * This struct is used for binding interrupt device data between 8633a0c835SEtienne Carriere * drivers when using DT_DRIVERS means. See itr_dt_get_func type 8733a0c835SEtienne Carriere * definition. 8833a0c835SEtienne Carriere */ 8933a0c835SEtienne Carriere struct itr_desc { 9033a0c835SEtienne Carriere struct itr_chip *chip; 9133a0c835SEtienne Carriere size_t itr_num; 9233a0c835SEtienne Carriere }; 9333a0c835SEtienne Carriere 94a009881dSEtienne Carriere /* Interrupt handler return value */ 957315b7b4SJens Wiklander enum itr_return { 967315b7b4SJens Wiklander ITRR_NONE, 977315b7b4SJens Wiklander ITRR_HANDLED, 987315b7b4SJens Wiklander }; 997315b7b4SJens Wiklander 100a009881dSEtienne Carriere /* Interrupt handler signature */ 101acc5dd21SLudovic Barre typedef enum itr_return (*itr_handler_t)(struct itr_handler *h); 102acc5dd21SLudovic Barre 103a009881dSEtienne Carriere /* 104a009881dSEtienne Carriere * struct itr_handler - Interrupt handler reference 105a009881dSEtienne Carriere * @it Interrupt number 106f932e355SEtienne Carriere * @flags Property bit flags (ITRF_*) or 0 107a009881dSEtienne Carriere * @data Private data for that interrupt handler 108f932e355SEtienne Carriere * @chip Interrupt controller chip device 109a009881dSEtienne Carriere * @link Reference in controller handler list 110a009881dSEtienne Carriere */ 1117315b7b4SJens Wiklander struct itr_handler { 1127315b7b4SJens Wiklander size_t it; 1137315b7b4SJens Wiklander uint32_t flags; 114acc5dd21SLudovic Barre itr_handler_t handler; 1157315b7b4SJens Wiklander void *data; 116f932e355SEtienne Carriere struct itr_chip *chip; 1177315b7b4SJens Wiklander SLIST_ENTRY(itr_handler) link; 1187315b7b4SJens Wiklander }; 1197315b7b4SJens Wiklander 120f932e355SEtienne Carriere #define ITR_HANDLER(_chip, _itr_num, _flags, _fn, _priv) \ 121f932e355SEtienne Carriere ((struct itr_handler){ \ 122f932e355SEtienne Carriere .chip = (_chip), .it = (_itr_num), .flags = (_flags), \ 123f932e355SEtienne Carriere .handler = (_fn), .data = (_priv), \ 124f932e355SEtienne Carriere }) 125f932e355SEtienne Carriere 126f932e355SEtienne Carriere /* 127f932e355SEtienne Carriere * Return true only if interrupt chip provides required handlers 128f932e355SEtienne Carriere * @chip: Interrupt controller reference 129f932e355SEtienne Carriere */ 130f932e355SEtienne Carriere static inline bool itr_chip_is_valid(struct itr_chip *chip) 131f932e355SEtienne Carriere { 132f932e355SEtienne Carriere return chip && is_unpaged(chip) && chip->ops && 133f932e355SEtienne Carriere is_unpaged((void *)chip->ops) && 134f932e355SEtienne Carriere chip->ops->mask && is_unpaged(chip->ops->mask) && 135f932e355SEtienne Carriere chip->ops->unmask && is_unpaged(chip->ops->unmask) && 136f932e355SEtienne Carriere chip->ops->enable && chip->ops->disable && 137*2a50ce7dSEtienne Carriere chip->ops->configure; 138f932e355SEtienne Carriere } 139f932e355SEtienne Carriere 140f932e355SEtienne Carriere /* 141f932e355SEtienne Carriere * Initialise an interrupt controller handle 142f932e355SEtienne Carriere * @chip Interrupt controller 143f932e355SEtienne Carriere */ 144f932e355SEtienne Carriere TEE_Result itr_chip_init(struct itr_chip *chip); 145f932e355SEtienne Carriere 14601980f3fSEtienne Carriere /* 147a009881dSEtienne Carriere * Initialise main interrupt controller driver 148a009881dSEtienne Carriere * @data Main controller main data reference to register 14901980f3fSEtienne Carriere */ 15001980f3fSEtienne Carriere void interrupt_main_init(struct itr_chip *data); 15101980f3fSEtienne Carriere 152e050e0a7SEtienne Carriere /* Retrieve main interrupt controller reference */ 153e050e0a7SEtienne Carriere struct itr_chip *interrupt_get_main_chip(void); 154245a552cSJens Wiklander /* Retrieve main interrupt controller reference, or NULL on failure */ 155245a552cSJens Wiklander struct itr_chip *interrupt_get_main_chip_may_fail(void); 156e050e0a7SEtienne Carriere 15767729d8dSLudovic Barre #ifdef CFG_DT 15867729d8dSLudovic Barre /* 159702fe5a7SClément Léger * Get the DT interrupt property at @node. In the DT an interrupt property can 160702fe5a7SClément Léger * specify additional information which can be retrieved with @type and @prio. 16167729d8dSLudovic Barre * 16267729d8dSLudovic Barre * @fdt reference to the Device Tree 163702fe5a7SClément Léger * @node is the node offset to read the interrupt property from 164702fe5a7SClément Léger * @type interrupt type (IRQ_TYPE_* defines) if specified by interrupt property 165702fe5a7SClément Léger * or IRQ_TYPE_NONE if not. Can be NULL if not needed 166702fe5a7SClément Léger * @prio interrupt priority if specified by interrupt property or 0 if not. Can 167702fe5a7SClément Léger * be NULL if not needed 16867729d8dSLudovic Barre * 16967729d8dSLudovic Barre * Returns the interrupt number if value >= 0 17067729d8dSLudovic Barre * otherwise DT_INFO_INVALID_INTERRUPT 17167729d8dSLudovic Barre */ 172702fe5a7SClément Léger int dt_get_irq_type_prio(const void *fdt, int node, uint32_t *type, 173702fe5a7SClément Léger uint32_t *prio); 174702fe5a7SClément Léger 175702fe5a7SClément Léger /* 176702fe5a7SClément Léger * Get the DT interrupt property at @node 177702fe5a7SClément Léger */ 178702fe5a7SClément Léger static inline int dt_get_irq(const void *fdt, int node) 179702fe5a7SClément Léger { 180702fe5a7SClément Léger return dt_get_irq_type_prio(fdt, node, NULL, NULL); 181702fe5a7SClément Léger } 18267729d8dSLudovic Barre #endif 18367729d8dSLudovic Barre 184e9f46c74SJens Wiklander /* 185e9f46c74SJens Wiklander * __weak overridable function which is called when a secure interrupt is 186e9f46c74SJens Wiklander * received. The default function calls panic() immediately, platforms which 187e9f46c74SJens Wiklander * expects to receive secure interrupts should override this function. 188e9f46c74SJens Wiklander */ 189358bf47cSEtienne Carriere void interrupt_main_handler(void); 190e9f46c74SJens Wiklander 191f932e355SEtienne Carriere /* 192f932e355SEtienne Carriere * Interrupt controller chip API functions 193f932e355SEtienne Carriere */ 194f932e355SEtienne Carriere 195f932e355SEtienne Carriere /* 196f932e355SEtienne Carriere * interrupt_call_handlers() - Call registered handlers for an interrupt 197f932e355SEtienne Carriere * @chip Interrupt controller 198f932e355SEtienne Carriere * @itr_num Interrupt number 199f932e355SEtienne Carriere * 200f932e355SEtienne Carriere * This function is called from an interrupt context by a primary interrupt 201f932e355SEtienne Carriere * handler. This function calls the handlers registered for that interrupt. 202f932e355SEtienne Carriere * If interrupt is not handled, it is masked. 203f932e355SEtienne Carriere */ 204f932e355SEtienne Carriere void interrupt_call_handlers(struct itr_chip *chip, size_t itr_num); 205f932e355SEtienne Carriere 206f932e355SEtienne Carriere /* 207f932e355SEtienne Carriere * interrupt_mask() - Mask an interrupt 208f932e355SEtienne Carriere * @chip Interrupt controller 209f932e355SEtienne Carriere * @itr_num Interrupt number 210f932e355SEtienne Carriere * 211f932e355SEtienne Carriere * This function may be called in interrupt context 212f932e355SEtienne Carriere */ 213f932e355SEtienne Carriere static inline void interrupt_mask(struct itr_chip *chip, size_t itr_num) 214f932e355SEtienne Carriere { 215f932e355SEtienne Carriere chip->ops->mask(chip, itr_num); 216f932e355SEtienne Carriere } 217f932e355SEtienne Carriere 218f932e355SEtienne Carriere /* 219f932e355SEtienne Carriere * interrupt_unmask() - Unmask an interrupt 220f932e355SEtienne Carriere * @chip Interrupt controller 221f932e355SEtienne Carriere * @itr_num Interrupt number 222f932e355SEtienne Carriere * 223f932e355SEtienne Carriere * This function may be called in interrupt context 224f932e355SEtienne Carriere */ 225f932e355SEtienne Carriere static inline void interrupt_unmask(struct itr_chip *chip, size_t itr_num) 226f932e355SEtienne Carriere { 227f932e355SEtienne Carriere chip->ops->unmask(chip, itr_num); 228f932e355SEtienne Carriere } 229f932e355SEtienne Carriere 230f932e355SEtienne Carriere /* 231f932e355SEtienne Carriere * interrupt_enable() - Enable an interrupt 232f932e355SEtienne Carriere * @chip Interrupt controller 233f932e355SEtienne Carriere * @itr_num Interrupt number 234f932e355SEtienne Carriere */ 235f932e355SEtienne Carriere static inline void interrupt_enable(struct itr_chip *chip, size_t itr_num) 236f932e355SEtienne Carriere { 237f932e355SEtienne Carriere chip->ops->enable(chip, itr_num); 238f932e355SEtienne Carriere } 239f932e355SEtienne Carriere 240f932e355SEtienne Carriere /* 241f932e355SEtienne Carriere * interrupt_disable() - Disable an interrupt 242f932e355SEtienne Carriere * @chip Interrupt controller 243f932e355SEtienne Carriere * @itr_num Interrupt number 244f932e355SEtienne Carriere */ 245f932e355SEtienne Carriere static inline void interrupt_disable(struct itr_chip *chip, size_t itr_num) 246f932e355SEtienne Carriere { 247f932e355SEtienne Carriere chip->ops->disable(chip, itr_num); 248f932e355SEtienne Carriere } 249f932e355SEtienne Carriere 250f932e355SEtienne Carriere /* 251b2d6db21SEtienne Carriere * interrupt_can_raise_pi() - Return whether controller embeds raise_pi 252b2d6db21SEtienne Carriere * @chip Interrupt controller 253b2d6db21SEtienne Carriere */ 254b2d6db21SEtienne Carriere static inline bool interrupt_can_raise_pi(struct itr_chip *chip) 255b2d6db21SEtienne Carriere { 256b2d6db21SEtienne Carriere return chip->ops->raise_pi; 257b2d6db21SEtienne Carriere } 258b2d6db21SEtienne Carriere 259b2d6db21SEtienne Carriere /* 260b2d6db21SEtienne Carriere * interrupt_can_raise_sgi() - Return whether controller embeds raise_sgi 261b2d6db21SEtienne Carriere * @chip Interrupt controller 262b2d6db21SEtienne Carriere */ 263b2d6db21SEtienne Carriere static inline bool interrupt_can_raise_sgi(struct itr_chip *chip) 264b2d6db21SEtienne Carriere { 265b2d6db21SEtienne Carriere return chip->ops->raise_sgi; 266b2d6db21SEtienne Carriere } 267b2d6db21SEtienne Carriere 268b2d6db21SEtienne Carriere /* 269b2d6db21SEtienne Carriere * interrupt_can_set_affinity() - Return whether controller embeds set_affinity 270b2d6db21SEtienne Carriere * @chip Interrupt controller 271b2d6db21SEtienne Carriere */ 272b2d6db21SEtienne Carriere static inline bool interrupt_can_set_affinity(struct itr_chip *chip) 273b2d6db21SEtienne Carriere { 274b2d6db21SEtienne Carriere return chip->ops->set_affinity; 275b2d6db21SEtienne Carriere } 276b2d6db21SEtienne Carriere 277b2d6db21SEtienne Carriere /* 278b2d6db21SEtienne Carriere * interrupt_raise_pi() - Raise a peripheral interrupt of a controller 279b2d6db21SEtienne Carriere * @chip Interrupt controller 280b2d6db21SEtienne Carriere * @itr_num Interrupt number to raise 281b2d6db21SEtienne Carriere */ 282b2d6db21SEtienne Carriere static inline void interrupt_raise_pi(struct itr_chip *chip, size_t itr_num) 283b2d6db21SEtienne Carriere { 284b2d6db21SEtienne Carriere assert(interrupt_can_raise_pi(chip)); 285b2d6db21SEtienne Carriere chip->ops->raise_pi(chip, itr_num); 286b2d6db21SEtienne Carriere } 287b2d6db21SEtienne Carriere 288b2d6db21SEtienne Carriere /* 289b2d6db21SEtienne Carriere * interrupt_raise_sgi() - Raise a software generiated interrupt of a controller 290b2d6db21SEtienne Carriere * @chip Interrupt controller 291b2d6db21SEtienne Carriere * @itr_num Interrupt number to raise 292ec740b9fSJens Wiklander * @cpu_mask: A bitfield of CPUs to forward the interrupt to, unless 293ec740b9fSJens Wiklander * ITR_CPU_MASK_TO_THIS_CPU or ITR_CPU_MASK_TO_OTHER_CPUS 294ec740b9fSJens Wiklander * (mutually exclusive) are set. 295b2d6db21SEtienne Carriere */ 296b2d6db21SEtienne Carriere static inline void interrupt_raise_sgi(struct itr_chip *chip, size_t itr_num, 297ec740b9fSJens Wiklander uint32_t cpu_mask) 298b2d6db21SEtienne Carriere { 299b2d6db21SEtienne Carriere assert(interrupt_can_raise_sgi(chip)); 300b2d6db21SEtienne Carriere chip->ops->raise_sgi(chip, itr_num, cpu_mask); 301b2d6db21SEtienne Carriere } 302b2d6db21SEtienne Carriere 303b2d6db21SEtienne Carriere /* 304b2d6db21SEtienne Carriere * interrupt_set_affinity() - Set CPU affinity for a controller interrupt 305b2d6db21SEtienne Carriere * @chip Interrupt controller 306b2d6db21SEtienne Carriere * @itr_num Interrupt number to raise 307b2d6db21SEtienne Carriere * @cpu_mask Mask of the CPUs targeted by the interrupt 308b2d6db21SEtienne Carriere */ 309b2d6db21SEtienne Carriere static inline void interrupt_set_affinity(struct itr_chip *chip, size_t itr_num, 310b2d6db21SEtienne Carriere uint8_t cpu_mask) 311b2d6db21SEtienne Carriere { 312b2d6db21SEtienne Carriere assert(interrupt_can_set_affinity(chip)); 313b2d6db21SEtienne Carriere chip->ops->set_affinity(chip, itr_num, cpu_mask); 314b2d6db21SEtienne Carriere } 315b2d6db21SEtienne Carriere 316b2d6db21SEtienne Carriere /* 317f932e355SEtienne Carriere * interrupt_configure() - Configure an interrupt in an interrupt controller 318f932e355SEtienne Carriere * @chip Interrupt controller 319f932e355SEtienne Carriere * @itr_num Interrupt number 320f932e355SEtienne Carriere * @type Interrupt trigger type (IRQ_TYPE_* defines) or IRQ_TYPE_NONE 321f932e355SEtienne Carriere * @prio Interrupt priority or 0 322f932e355SEtienne Carriere * 323f932e355SEtienne Carriere * Interrupt consumers that get their interrupt from the DT do not need to 324f932e355SEtienne Carriere * call interrupt_configure() since the interrupt configuration has already 325f932e355SEtienne Carriere * been done by interrupt controller based on the DT bidings. 326f932e355SEtienne Carriere */ 327f932e355SEtienne Carriere TEE_Result interrupt_configure(struct itr_chip *chip, size_t itr_num, 328f932e355SEtienne Carriere uint32_t type, uint32_t prio); 329f932e355SEtienne Carriere 330f932e355SEtienne Carriere /* 331f932e355SEtienne Carriere * interrupt_add_and_configure_handler() - Register and configure a handler 332f932e355SEtienne Carriere * @hdl Interrupt handler to register 333f932e355SEtienne Carriere * @type Interrupt trigger type (IRQ_TYPE_* defines) or IRQ_TYPE_NONE 334f932e355SEtienne Carriere * @prio Interrupt priority or 0 335f932e355SEtienne Carriere */ 336f932e355SEtienne Carriere TEE_Result interrupt_add_configure_handler(struct itr_handler *hdl, 337f932e355SEtienne Carriere uint32_t type, uint32_t prio); 338f932e355SEtienne Carriere 339f932e355SEtienne Carriere /* 340f932e355SEtienne Carriere * interrupt_add_handler() - Register an interrupt handler 341f932e355SEtienne Carriere * @hdl Interrupt handler to register 342f932e355SEtienne Carriere * 343f932e355SEtienne Carriere * This helper function assumes interrupt type is set to IRQ_TYPE_NONE 344f932e355SEtienne Carriere * and interrupt priority to 0. 345f932e355SEtienne Carriere */ 346f932e355SEtienne Carriere static inline TEE_Result interrupt_add_handler(struct itr_handler *hdl) 347f932e355SEtienne Carriere { 348f932e355SEtienne Carriere return interrupt_add_configure_handler(hdl, IRQ_TYPE_NONE, 0); 349f932e355SEtienne Carriere } 350f932e355SEtienne Carriere 351f932e355SEtienne Carriere /* 352e9376d02SEtienne Carriere * interrupt_create_handler() - Allocate/register an interrupt callback handler 35377c4fee6SEtienne Carriere * @itr_chip Interrupt chip obtained from interrupt_dt_get_by_*() or like 35477c4fee6SEtienne Carriere * @itr_num Interrupt number obtained from interrupt_dt_get_by_*() or like 355e9376d02SEtienne Carriere * @callback Callback handler function 356e9376d02SEtienne Carriere * @priv Private dat to pssa to @callback 357e9376d02SEtienne Carriere * @flags INTERRUPT_FLAGS_* or 0 358e9376d02SEtienne Carriere * @out_hdl Output allocated and registered handler or NULL 359e9376d02SEtienne Carriere * 360e9376d02SEtienne Carriere * This function differs from interrupt_add_handler() in that the 361e9376d02SEtienne Carriere * interrupt is not reconfigured. interrupt_create_handler() expects 36277c4fee6SEtienne Carriere * @itr_chip and @itr_num were obtained from a call 36377c4fee6SEtienne Carriere * to interrupt_dt_get_by_index() or interrupt_dt_get_by_name() that 36477c4fee6SEtienne Carriere * are in charge of configuring the interrupt according to its DT property. 365e9376d02SEtienne Carriere */ 366e9376d02SEtienne Carriere TEE_Result interrupt_create_handler(struct itr_chip *itr_chip, size_t itr_num, 367e9376d02SEtienne Carriere itr_handler_t callback, void *priv, 368e9376d02SEtienne Carriere uint32_t flags, 369e9376d02SEtienne Carriere struct itr_handler **out_hdl); 370e9376d02SEtienne Carriere 371e9376d02SEtienne Carriere /* 372f932e355SEtienne Carriere * interrupt_add_handler_with_chip() - Register an interrupt handler providing 373f932e355SEtienne Carriere * the interrupt chip reference in specific argument @chip. 374f932e355SEtienne Carriere * @chip Interrupt controller 375f932e355SEtienne Carriere * @h Interrupt handler to register 376f932e355SEtienne Carriere */ 377f932e355SEtienne Carriere static inline TEE_Result interrupt_add_handler_with_chip(struct itr_chip *chip, 378f932e355SEtienne Carriere struct itr_handler *h) 379f932e355SEtienne Carriere { 380f932e355SEtienne Carriere h->chip = chip; 381f932e355SEtienne Carriere return interrupt_add_handler(h); 382f932e355SEtienne Carriere } 383f932e355SEtienne Carriere 384f932e355SEtienne Carriere /* 385f932e355SEtienne Carriere * interrupt_remove_handler() - Remove a registered interrupt handler 386f932e355SEtienne Carriere * @hdl Interrupt handler to remove 387f932e355SEtienne Carriere * 388f932e355SEtienne Carriere * This function is the counterpart of interrupt_add_handler(). 389f932e355SEtienne Carriere * This function may panic on non-NULL invalid @hdl reference. 390f932e355SEtienne Carriere */ 391f932e355SEtienne Carriere void interrupt_remove_handler(struct itr_handler *hdl); 392f932e355SEtienne Carriere 393f932e355SEtienne Carriere /* 3941b5c7ca4SEtienne Carriere * interrupt_alloc_add_conf_handler() - Allocate, configure, register a handler 3951b5c7ca4SEtienne Carriere * @chip Interrupt controller 3961b5c7ca4SEtienne Carriere * @itr_num Interrupt number 3971b5c7ca4SEtienne Carriere * @handler Interrupt handler to register 3981b5c7ca4SEtienne Carriere * @flags Bitmask flag ITRF_* 3991b5c7ca4SEtienne Carriere * @data Private data reference passed to @handler 4001b5c7ca4SEtienne Carriere * @type Interrupt trigger type (IRQ_TYPE_* defines) or IRQ_TYPE_NONE 4011b5c7ca4SEtienne Carriere * @prio Interrupt priority or 0 4021b5c7ca4SEtienne Carriere * @out_hdl NULL or output pointer to allocated struct itr_handler 4031b5c7ca4SEtienne Carriere */ 4041b5c7ca4SEtienne Carriere TEE_Result interrupt_alloc_add_conf_handler(struct itr_chip *chip, 4051b5c7ca4SEtienne Carriere size_t it_num, 4061b5c7ca4SEtienne Carriere itr_handler_t handler, 4071b5c7ca4SEtienne Carriere uint32_t flags, void *data, 4081b5c7ca4SEtienne Carriere uint32_t type, uint32_t prio, 4091b5c7ca4SEtienne Carriere struct itr_handler **out_hdl); 4101b5c7ca4SEtienne Carriere 4111b5c7ca4SEtienne Carriere /* 412f932e355SEtienne Carriere * interrupt_alloc_add_handler() - Allocate and register an interrupt handler 413f932e355SEtienne Carriere * @chip Interrupt controller 414f932e355SEtienne Carriere * @itr_num Interrupt number 415f932e355SEtienne Carriere * @handler Interrupt handler to register 416f932e355SEtienne Carriere * @flags Bitmask flag ITRF_* 417f932e355SEtienne Carriere * @data Private data reference passed to @handler 418f932e355SEtienne Carriere * @out_hdl NULL or output pointer to allocated struct itr_handler 419f932e355SEtienne Carriere */ 4201b5c7ca4SEtienne Carriere static inline TEE_Result interrupt_alloc_add_handler(struct itr_chip *chip, 4211b5c7ca4SEtienne Carriere size_t it_num, 4221b5c7ca4SEtienne Carriere itr_handler_t handler, 4231b5c7ca4SEtienne Carriere uint32_t flags, 424f932e355SEtienne Carriere void *data, 4251b5c7ca4SEtienne Carriere struct itr_handler **hdl) 4261b5c7ca4SEtienne Carriere { 4271b5c7ca4SEtienne Carriere return interrupt_alloc_add_conf_handler(chip, it_num, handler, flags, 4281b5c7ca4SEtienne Carriere data, IRQ_TYPE_NONE, 0, hdl); 4291b5c7ca4SEtienne Carriere } 430f932e355SEtienne Carriere 431f932e355SEtienne Carriere /* 432f932e355SEtienne Carriere * interrupt_remove_free_handler() - Remove/free a registered interrupt handler 433f932e355SEtienne Carriere * @hdl Interrupt handler to remove and free 434f932e355SEtienne Carriere * 4351b5c7ca4SEtienne Carriere * This function is the counterpart of interrupt_alloc_add_handler() 4361b5c7ca4SEtienne Carriere * and interrupt_alloc_add_conf_handler(). 437f932e355SEtienne Carriere * This function may panic on non-NULL invalid @hdl reference. 438f932e355SEtienne Carriere */ 439f932e355SEtienne Carriere void interrupt_remove_free_handler(struct itr_handler *hdl); 44033a0c835SEtienne Carriere 44133a0c835SEtienne Carriere /* 44233a0c835SEtienne Carriere * itr_dt_get_func - Typedef of function to get an interrupt in DT node 44333a0c835SEtienne Carriere * 44433a0c835SEtienne Carriere * @args Reference to phandle arguments 44533a0c835SEtienne Carriere * @data Pointer to data given at interrupt_register_provider() call 44633a0c835SEtienne Carriere * @itr_desc_p Pointer to the struct itr_desc to fill 44733a0c835SEtienne Carriere * Return TEE_SUCCESS in case of success. 44833a0c835SEtienne Carriere * Return TEE_ERROR_DEFER_DRIVER_INIT if controller is not initialized. 44933a0c835SEtienne Carriere * Return another TEE_Result code otherwise. 45033a0c835SEtienne Carriere * 45133a0c835SEtienne Carriere * Upon success, the interrupt is configured and consumer can add a handler 45233a0c835SEtienne Carriere * function to the interrupt. Yet, the interrupt is not enabled until consumer 45333a0c835SEtienne Carriere * calls interrupt_enable(). 45433a0c835SEtienne Carriere */ 45533a0c835SEtienne Carriere typedef TEE_Result (*itr_dt_get_func)(struct dt_pargs *args, void *data, 45633a0c835SEtienne Carriere struct itr_desc *itr_desc_p); 45733a0c835SEtienne Carriere 45833a0c835SEtienne Carriere #ifdef CFG_DT 45933a0c835SEtienne Carriere /** 46033a0c835SEtienne Carriere * interrupt_register_provider() - Register an interrupt provider 46133a0c835SEtienne Carriere * 46233a0c835SEtienne Carriere * @fdt Device tree to work on 46333a0c835SEtienne Carriere * @node Node offset of the interrupt controller in the DT 46433a0c835SEtienne Carriere * @dt_get_itr Callback to match the devicetree interrupt reference with 46533a0c835SEtienne Carriere * @data Data which will be passed to the get_dt_its callback 46633a0c835SEtienne Carriere */ 46733a0c835SEtienne Carriere TEE_Result interrupt_register_provider(const void *fdt, int node, 46833a0c835SEtienne Carriere itr_dt_get_func dt_get_itr, void *data); 46933a0c835SEtienne Carriere 47033a0c835SEtienne Carriere /** 47133a0c835SEtienne Carriere * interrupt_dt_get_by_index() - Get an interrupt from DT by interrupt index 47233a0c835SEtienne Carriere * 47333a0c835SEtienne Carriere * Interrupt index (@index) refers to the index of the target interrupt to be 47433a0c835SEtienne Carriere * retrieved as DT binding property "interrupts" may define several 47533a0c835SEtienne Carriere * interrupts. 47633a0c835SEtienne Carriere * 47733a0c835SEtienne Carriere * @fdt Device tree to work on 47833a0c835SEtienne Carriere * @node Node offset of the subnode containing interrupt(s) references 4792e6b9fc5SEtienne Carriere * @index Index in "interrupts" or "interrupts-extended" property list 48033a0c835SEtienne Carriere * @chip Output interrupt controller reference upon success 48133a0c835SEtienne Carriere * @itr_num Output interrupt number upon success 48233a0c835SEtienne Carriere * 48333a0c835SEtienne Carriere * Return TEE_SUCCESS in case of success 48433a0c835SEtienne Carriere * Return TEE_ERROR_DEFER_DRIVER_INIT if interrupt driver is not yet initialized 48533a0c835SEtienne Carriere * Return TEE_ERROR_ITEM_NOT_FOUND if the DT does not reference target interrupt 48633a0c835SEtienne Carriere * Return any other TEE_Result compliant code in case of error 48733a0c835SEtienne Carriere */ 48833a0c835SEtienne Carriere TEE_Result interrupt_dt_get_by_index(const void *fdt, int node, 48933a0c835SEtienne Carriere unsigned int index, struct itr_chip **chip, 49033a0c835SEtienne Carriere size_t *itr_num); 49133a0c835SEtienne Carriere 49233a0c835SEtienne Carriere /** 49333a0c835SEtienne Carriere * interrupt_dt_get_by_name() - Get an interrupt from DT by interrupt name 49433a0c835SEtienne Carriere * 49533a0c835SEtienne Carriere * @fdt Device tree to work on 49633a0c835SEtienne Carriere * @node Node offset of the subnode containing interrupt(s) references 49733a0c835SEtienne Carriere * @name Name identifier used in "interrupt-names" property 49833a0c835SEtienne Carriere * @chip Output interrupt controller reference upon success 49933a0c835SEtienne Carriere * @itr_num Output interrupt number upon success 50033a0c835SEtienne Carriere * 50133a0c835SEtienne Carriere * Return TEE_SUCCESS in case of success 50233a0c835SEtienne Carriere * Return TEE_ERROR_DEFER_DRIVER_INIT if interrupt driver is not yet initialized 50333a0c835SEtienne Carriere * Return TEE_ERROR_ITEM_NOT_FOUND if the DT does not reference target interrupt 50433a0c835SEtienne Carriere * Return any other TEE_Result compliant code in case of error 50533a0c835SEtienne Carriere */ 50633a0c835SEtienne Carriere TEE_Result interrupt_dt_get_by_name(const void *fdt, int node, const char *name, 50733a0c835SEtienne Carriere struct itr_chip **chip, size_t *itr_num); 50833a0c835SEtienne Carriere #else 50933a0c835SEtienne Carriere static inline TEE_Result interrupt_register_provider(const void *dt __unused, 51033a0c835SEtienne Carriere int node __unused, 51133a0c835SEtienne Carriere itr_dt_get_func f __unused, 51233a0c835SEtienne Carriere void *data __unused) 51333a0c835SEtienne Carriere { 51433a0c835SEtienne Carriere return TEE_ERROR_NOT_IMPLEMENTED; 51533a0c835SEtienne Carriere } 51633a0c835SEtienne Carriere 51733a0c835SEtienne Carriere static inline TEE_Result interrupt_dt_get_by_index(const void *fdt __unused, 51833a0c835SEtienne Carriere int node __unused, 51933a0c835SEtienne Carriere unsigned int index __unused, 52033a0c835SEtienne Carriere struct itr_chip **c __unused, 52133a0c835SEtienne Carriere size_t *itr_num __unused) 52233a0c835SEtienne Carriere { 52333a0c835SEtienne Carriere return TEE_ERROR_NOT_IMPLEMENTED; 52433a0c835SEtienne Carriere } 52533a0c835SEtienne Carriere 52633a0c835SEtienne Carriere static inline TEE_Result interrupt_dt_get_by_name(const void *fdt __unused, 52733a0c835SEtienne Carriere int node __unused, 52833a0c835SEtienne Carriere const char *name __unused, 52933a0c835SEtienne Carriere struct itr_chip **ch __unused, 53033a0c835SEtienne Carriere size_t *itr_num __unused) 53133a0c835SEtienne Carriere { 53233a0c835SEtienne Carriere return TEE_ERROR_NOT_IMPLEMENTED; 53333a0c835SEtienne Carriere } 53433a0c835SEtienne Carriere #endif /*CFG_DT*/ 53533a0c835SEtienne Carriere 53633a0c835SEtienne Carriere /* 53733a0c835SEtienne Carriere * Helper function for when caller retrieves the first interrupt defined 5382e6b9fc5SEtienne Carriere * in "interrupts" or "interrupts-extended" DT binding property list. 53933a0c835SEtienne Carriere */ 54033a0c835SEtienne Carriere static inline TEE_Result interrupt_dt_get(const void *fdt, int node, 54133a0c835SEtienne Carriere struct itr_chip **chip, 54233a0c835SEtienne Carriere size_t *itr_num) 54333a0c835SEtienne Carriere { 54433a0c835SEtienne Carriere return interrupt_dt_get_by_index(fdt, node, 0, chip, itr_num); 54533a0c835SEtienne Carriere } 5467315b7b4SJens Wiklander #endif /*__KERNEL_INTERRUPT_H*/ 547