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1819 1820 1821 1822 1823 /* SPDX-License-Identifier: GPL-2.0+ */ #ifndef _LINUX_XARRAY_H #define _LINUX_XARRAY_H /* * eXtensible Arrays * Copyright (c) 2017 Microsoft Corporation * Author: Matthew Wilcox <willy@infradead.org> * * See Documentation/core-api/xarray.rst for how to use the XArray. */ #include <linux/bug.h> #include <linux/compiler.h> #include <linux/gfp.h> #include <linux/kconfig.h> #include <linux/kernel.h> #include <linux/rcupdate.h> #include <linux/spinlock.h> #include <linux/types.h> /* * The bottom two bits of the entry determine how the XArray interprets * the contents: * * 00: Pointer entry * 10: Internal entry * x1: Value entry or tagged pointer * * Attempting to store internal entries in the XArray is a bug. * * Most internal entries are pointers to the next node in the tree. * The following internal entries have a special meaning: * * 0-62: Sibling entries * 256: Retry entry * 257: Zero entry * * Errors are also represented as internal entries, but use the negative * space (-4094 to -2). They're never stored in the slots array; only * returned by the normal API. */ #define BITS_PER_XA_VALUE (BITS_PER_LONG - 1) /** * xa_mk_value() - Create an XArray entry from an integer. * @v: Value to store in XArray. * * Context: Any context. * Return: An entry suitable for storing in the XArray. */ static inline void *xa_mk_value(unsigned long v) { WARN_ON((long)v < 0); return (void *)((v << 1) | 1); } /** * xa_to_value() - Get value stored in an XArray entry. * @entry: XArray entry. * * Context: Any context. * Return: The value stored in the XArray entry. */ static inline unsigned long xa_to_value(const void *entry) { return (unsigned long)entry >> 1; } /** * xa_is_value() - Determine if an entry is a value. * @entry: XArray entry. * * Context: Any context. * Return: True if the entry is a value, false if it is a pointer. */ static inline bool xa_is_value(const void *entry) { return (unsigned long)entry & 1; } /** * xa_tag_pointer() - Create an XArray entry for a tagged pointer. * @p: Plain pointer. * @tag: Tag value (0, 1 or 3). * * If the user of the XArray prefers, they can tag their pointers instead * of storing value entries. Three tags are available (0, 1 and 3). * These are distinct from the xa_mark_t as they are not replicated up * through the array and cannot be searched for. * * Context: Any context. * Return: An XArray entry. */ static inline void *xa_tag_pointer(void *p, unsigned long tag) { return (void *)((unsigned long)p | tag); } /** * xa_untag_pointer() - Turn an XArray entry into a plain pointer. * @entry: XArray entry. * * If you have stored a tagged pointer in the XArray, call this function * to get the untagged version of the pointer. * * Context: Any context. * Return: A pointer. */ static inline void *xa_untag_pointer(void *entry) { return (void *)((unsigned long)entry & ~3UL); } /** * xa_pointer_tag() - Get the tag stored in an XArray entry. * @entry: XArray entry. * * If you have stored a tagged pointer in the XArray, call this function * to get the tag of that pointer. * * Context: Any context. * Return: A tag. */ static inline unsigned int xa_pointer_tag(void *entry) { return (unsigned long)entry & 3UL; } /* * xa_mk_internal() - Create an internal entry. * @v: Value to turn into an internal entry. * * Internal entries are used for a number of purposes. Entries 0-255 are * used for sibling entries (only 0-62 are used by the current code). 256 * is used for the retry entry. 257 is used for the reserved / zero entry. * Negative internal entries are used to represent errnos. Node pointers * are also tagged as internal entries in some situations. * * Context: Any context. * Return: An XArray internal entry corresponding to this value. */ static inline void *xa_mk_internal(unsigned long v) { return (void *)((v << 2) | 2); } /* * xa_to_internal() - Extract the value from an internal entry. * @entry: XArray entry. * * Context: Any context. * Return: The value which was stored in the internal entry. */ static inline unsigned long xa_to_internal(const void *entry) { return (unsigned long)entry >> 2; } /* * xa_is_internal() - Is the entry an internal entry? * @entry: XArray entry. * * Context: Any context. * Return: %true if the entry is an internal entry. */ static inline bool xa_is_internal(const void *entry) { return ((unsigned long)entry & 3) == 2; } #define XA_ZERO_ENTRY xa_mk_internal(257) /** * xa_is_zero() - Is the entry a zero entry? * @entry: Entry retrieved from the XArray * * The normal API will return NULL as the contents of a slot containing * a zero entry. You can only see zero entries by using the advanced API. * * Return: %true if the entry is a zero entry. */ static inline bool xa_is_zero(const void *entry) { return unlikely(entry == XA_ZERO_ENTRY); } /** * xa_is_err() - Report whether an XArray operation returned an error * @entry: Result from calling an XArray function * * If an XArray operation cannot complete an operation, it will return * a special value indicating an error. This function tells you * whether an error occurred; xa_err() tells you which error occurred. * * Context: Any context. * Return: %true if the entry indicates an error. */ static inline bool xa_is_err(const void *entry) { return unlikely(xa_is_internal(entry) && entry >= xa_mk_internal(-MAX_ERRNO)); } /** * xa_err() - Turn an XArray result into an errno. * @entry: Result from calling an XArray function. * * If an XArray operation cannot complete an operation, it will return * a special pointer value which encodes an errno. This function extracts * the errno from the pointer value, or returns 0 if the pointer does not * represent an errno. * * Context: Any context. * Return: A negative errno or 0. */ static inline int xa_err(void *entry) { /* xa_to_internal() would not do sign extension. */ if (xa_is_err(entry)) return (long)entry >> 2; return 0; } /** * struct xa_limit - Represents a range of IDs. * @min: The lowest ID to allocate (inclusive). * @max: The maximum ID to allocate (inclusive). * * This structure is used either directly or via the XA_LIMIT() macro * to communicate the range of IDs that are valid for allocation. * Two common ranges are predefined for you: * * xa_limit_32b - [0 - UINT_MAX] * * xa_limit_31b - [0 - INT_MAX] */ struct xa_limit { u32 max; u32 min; }; #define XA_LIMIT(_min, _max) (struct xa_limit) { .min = _min, .max = _max } #define xa_limit_32b XA_LIMIT(0, UINT_MAX) #define xa_limit_31b XA_LIMIT(0, INT_MAX) typedef unsigned __bitwise xa_mark_t; #define XA_MARK_0 ((__force xa_mark_t)0U) #define XA_MARK_1 ((__force xa_mark_t)1U) #define XA_MARK_2 ((__force xa_mark_t)2U) #define XA_PRESENT ((__force xa_mark_t)8U) #define XA_MARK_MAX XA_MARK_2 #define XA_FREE_MARK XA_MARK_0 enum xa_lock_type { XA_LOCK_IRQ = 1, XA_LOCK_BH = 2, }; /* * Values for xa_flags. The radix tree stores its GFP flags in the xa_flags, * and we remain compatible with that. */ #define XA_FLAGS_LOCK_IRQ ((__force gfp_t)XA_LOCK_IRQ) #define XA_FLAGS_LOCK_BH ((__force gfp_t)XA_LOCK_BH) #define XA_FLAGS_TRACK_FREE ((__force gfp_t)4U) #define XA_FLAGS_ZERO_BUSY ((__force gfp_t)8U) #define XA_FLAGS_ALLOC_WRAPPED ((__force gfp_t)16U) #define XA_FLAGS_ACCOUNT ((__force gfp_t)32U) #define XA_FLAGS_MARK(mark) ((__force gfp_t)((1U << __GFP_BITS_SHIFT) << \ (__force unsigned)(mark))) /* ALLOC is for a normal 0-based alloc. ALLOC1 is for an 1-based alloc */ #define XA_FLAGS_ALLOC (XA_FLAGS_TRACK_FREE | XA_FLAGS_MARK(XA_FREE_MARK)) #define XA_FLAGS_ALLOC1 (XA_FLAGS_TRACK_FREE | XA_FLAGS_ZERO_BUSY) /** * struct xarray - The anchor of the XArray. * @xa_lock: Lock that protects the contents of the XArray. * * To use the xarray, define it statically or embed it in your data structure. * It is a very small data structure, so it does not usually make sense to * allocate it separately and keep a pointer to it in your data structure. * * You may use the xa_lock to protect your own data structures as well. */ /* * If all of the entries in the array are NULL, @xa_head is a NULL pointer. * If the only non-NULL entry in the array is at index 0, @xa_head is that * entry. If any other entry in the array is non-NULL, @xa_head points * to an @xa_node. */ struct xarray { spinlock_t xa_lock; /* private: The rest of the data structure is not to be used directly. */ gfp_t xa_flags; void __rcu * xa_head; }; #define XARRAY_INIT(name, flags) { \ .xa_lock = __SPIN_LOCK_UNLOCKED(name.xa_lock), \ .xa_flags = flags, \ .xa_head = NULL, \ } /** * DEFINE_XARRAY_FLAGS() - Define an XArray with custom flags. * @name: A string that names your XArray. * @flags: XA_FLAG values. * * This is intended for file scope definitions of XArrays. It declares * and initialises an empty XArray with the chosen name and flags. It is * equivalent to calling xa_init_flags() on the array, but it does the * initialisation at compiletime instead of runtime. */ #define DEFINE_XARRAY_FLAGS(name, flags) \ struct xarray name = XARRAY_INIT(name, flags) /** * DEFINE_XARRAY() - Define an XArray. * @name: A string that names your XArray. * * This is intended for file scope definitions of XArrays. It declares * and initialises an empty XArray with the chosen name. It is equivalent * to calling xa_init() on the array, but it does the initialisation at * compiletime instead of runtime. */ #define DEFINE_XARRAY(name) DEFINE_XARRAY_FLAGS(name, 0) /** * DEFINE_XARRAY_ALLOC() - Define an XArray which allocates IDs starting at 0. * @name: A string that names your XArray. * * This is intended for file scope definitions of allocating XArrays. * See also DEFINE_XARRAY(). */ #define DEFINE_XARRAY_ALLOC(name) DEFINE_XARRAY_FLAGS(name, XA_FLAGS_ALLOC) /** * DEFINE_XARRAY_ALLOC1() - Define an XArray which allocates IDs starting at 1. * @name: A string that names your XArray. * * This is intended for file scope definitions of allocating XArrays. * See also DEFINE_XARRAY(). */ #define DEFINE_XARRAY_ALLOC1(name) DEFINE_XARRAY_FLAGS(name, XA_FLAGS_ALLOC1) void *xa_load(struct xarray *, unsigned long index); void *xa_store(struct xarray *, unsigned long index, void *entry, gfp_t); void *xa_erase(struct xarray *, unsigned long index); void *xa_store_range(struct xarray *, unsigned long first, unsigned long last, void *entry, gfp_t); bool xa_get_mark(struct xarray *, unsigned long index, xa_mark_t); void xa_set_mark(struct xarray *, unsigned long index, xa_mark_t); void xa_clear_mark(struct xarray *, unsigned long index, xa_mark_t); void *xa_find(struct xarray *xa, unsigned long *index, unsigned long max, xa_mark_t) __attribute__((nonnull(2))); void *xa_find_after(struct xarray *xa, unsigned long *index, unsigned long max, xa_mark_t) __attribute__((nonnull(2))); unsigned int xa_extract(struct xarray *, void **dst, unsigned long start, unsigned long max, unsigned int n, xa_mark_t); void xa_destroy(struct xarray *); /** * xa_init_flags() - Initialise an empty XArray with flags. * @xa: XArray. * @flags: XA_FLAG values. * * If you need to initialise an XArray with special flags (eg you need * to take the lock from interrupt context), use this function instead * of xa_init(). * * Context: Any context. */ static inline void xa_init_flags(struct xarray *xa, gfp_t flags) { spin_lock_init(&xa->xa_lock); xa->xa_flags = flags; xa->xa_head = NULL; } /** * xa_init() - Initialise an empty XArray. * @xa: XArray. * * An empty XArray is full of NULL entries. * * Context: Any context. */ static inline void xa_init(struct xarray *xa) { xa_init_flags(xa, 0); } /** * xa_empty() - Determine if an array has any present entries. * @xa: XArray. * * Context: Any context. * Return: %true if the array contains only NULL pointers. */ static inline bool xa_empty(const struct xarray *xa) { return xa->xa_head == NULL; } /** * xa_marked() - Inquire whether any entry in this array has a mark set * @xa: Array * @mark: Mark value * * Context: Any context. * Return: %true if any entry has this mark set. */ static inline bool xa_marked(const struct xarray *xa, xa_mark_t mark) { return xa->xa_flags & XA_FLAGS_MARK(mark); } /** * xa_for_each_range() - Iterate over a portion of an XArray. * @xa: XArray. * @index: Index of @entry. * @entry: Entry retrieved from array. * @start: First index to retrieve from array. * @last: Last index to retrieve from array. * * During the iteration, @entry will have the value of the entry stored * in @xa at @index. You may modify @index during the iteration if you * want to skip or reprocess indices. It is safe to modify the array * during the iteration. At the end of the iteration, @entry will be set * to NULL and @index will have a value less than or equal to max. * * xa_for_each_range() is O(n.log(n)) while xas_for_each() is O(n). You have * to handle your own locking with xas_for_each(), and if you have to unlock * after each iteration, it will also end up being O(n.log(n)). * xa_for_each_range() will spin if it hits a retry entry; if you intend to * see retry entries, you should use the xas_for_each() iterator instead. * The xas_for_each() iterator will expand into more inline code than * xa_for_each_range(). * * Context: Any context. Takes and releases the RCU lock. */ #define xa_for_each_range(xa, index, entry, start, last) \ for (index = start, \ entry = xa_find(xa, &index, last, XA_PRESENT); \ entry; \ entry = xa_find_after(xa, &index, last, XA_PRESENT)) /** * xa_for_each_start() - Iterate over a portion of an XArray. * @xa: XArray. * @index: Index of @entry. * @entry: Entry retrieved from array. * @start: First index to retrieve from array. * * During the iteration, @entry will have the value of the entry stored * in @xa at @index. You may modify @index during the iteration if you * want to skip or reprocess indices. It is safe to modify the array * during the iteration. At the end of the iteration, @entry will be set * to NULL and @index will have a value less than or equal to max. * * xa_for_each_start() is O(n.log(n)) while xas_for_each() is O(n). You have * to handle your own locking with xas_for_each(), and if you have to unlock * after each iteration, it will also end up being O(n.log(n)). * xa_for_each_start() will spin if it hits a retry entry; if you intend to * see retry entries, you should use the xas_for_each() iterator instead. * The xas_for_each() iterator will expand into more inline code than * xa_for_each_start(). * * Context: Any context. Takes and releases the RCU lock. */ #define xa_for_each_start(xa, index, entry, start) \ xa_for_each_range(xa, index, entry, start, ULONG_MAX) /** * xa_for_each() - Iterate over present entries in an XArray. * @xa: XArray. * @index: Index of @entry. * @entry: Entry retrieved from array. * * During the iteration, @entry will have the value of the entry stored * in @xa at @index. You may modify @index during the iteration if you want * to skip or reprocess indices. It is safe to modify the array during the * iteration. At the end of the iteration, @entry will be set to NULL and * @index will have a value less than or equal to max. * * xa_for_each() is O(n.log(n)) while xas_for_each() is O(n). You have * to handle your own locking with xas_for_each(), and if you have to unlock * after each iteration, it will also end up being O(n.log(n)). xa_for_each() * will spin if it hits a retry entry; if you intend to see retry entries, * you should use the xas_for_each() iterator instead. The xas_for_each() * iterator will expand into more inline code than xa_for_each(). * * Context: Any context. Takes and releases the RCU lock. */ #define xa_for_each(xa, index, entry) \ xa_for_each_start(xa, index, entry, 0) /** * xa_for_each_marked() - Iterate over marked entries in an XArray. * @xa: XArray. * @index: Index of @entry. * @entry: Entry retrieved from array. * @filter: Selection criterion. * * During the iteration, @entry will have the value of the entry stored * in @xa at @index. The iteration will skip all entries in the array * which do not match @filter. You may modify @index during the iteration * if you want to skip or reprocess indices. It is safe to modify the array * during the iteration. At the end of the iteration, @entry will be set to * NULL and @index will have a value less than or equal to max. * * xa_for_each_marked() is O(n.log(n)) while xas_for_each_marked() is O(n). * You have to handle your own locking with xas_for_each(), and if you have * to unlock after each iteration, it will also end up being O(n.log(n)). * xa_for_each_marked() will spin if it hits a retry entry; if you intend to * see retry entries, you should use the xas_for_each_marked() iterator * instead. The xas_for_each_marked() iterator will expand into more inline * code than xa_for_each_marked(). * * Context: Any context. Takes and releases the RCU lock. */ #define xa_for_each_marked(xa, index, entry, filter) \ for (index = 0, entry = xa_find(xa, &index, ULONG_MAX, filter); \ entry; entry = xa_find_after(xa, &index, ULONG_MAX, filter)) #define xa_trylock(xa) spin_trylock(&(xa)->xa_lock) #define xa_lock(xa) spin_lock(&(xa)->xa_lock) #define xa_unlock(xa) spin_unlock(&(xa)->xa_lock) #define xa_lock_bh(xa) spin_lock_bh(&(xa)->xa_lock) #define xa_unlock_bh(xa) spin_unlock_bh(&(xa)->xa_lock) #define xa_lock_irq(xa) spin_lock_irq(&(xa)->xa_lock) #define xa_unlock_irq(xa) spin_unlock_irq(&(xa)->xa_lock) #define xa_lock_irqsave(xa, flags) \ spin_lock_irqsave(&(xa)->xa_lock, flags) #define xa_unlock_irqrestore(xa, flags) \ spin_unlock_irqrestore(&(xa)->xa_lock, flags) #define xa_lock_nested(xa, subclass) \ spin_lock_nested(&(xa)->xa_lock, subclass) #define xa_lock_bh_nested(xa, subclass) \ spin_lock_bh_nested(&(xa)->xa_lock, subclass) #define xa_lock_irq_nested(xa, subclass) \ spin_lock_irq_nested(&(xa)->xa_lock, subclass) #define xa_lock_irqsave_nested(xa, flags, subclass) \ spin_lock_irqsave_nested(&(xa)->xa_lock, flags, subclass) /* * Versions of the normal API which require the caller to hold the * xa_lock. If the GFP flags allow it, they will drop the lock to * allocate memory, then reacquire it afterwards. These functions * may also re-enable interrupts if the XArray flags indicate the * locking should be interrupt safe. */ void *__xa_erase(struct xarray *, unsigned long index); void *__xa_store(struct xarray *, unsigned long index, void *entry, gfp_t); void *__xa_cmpxchg(struct xarray *, unsigned long index, void *old, void *entry, gfp_t); int __must_check __xa_insert(struct xarray *, unsigned long index, void *entry, gfp_t); int __must_check __xa_alloc(struct xarray *, u32 *id, void *entry, struct xa_limit, gfp_t); int __must_check __xa_alloc_cyclic(struct xarray *, u32 *id, void *entry, struct xa_limit, u32 *next, gfp_t); void __xa_set_mark(struct xarray *, unsigned long index, xa_mark_t); void __xa_clear_mark(struct xarray *, unsigned long index, xa_mark_t); /** * xa_store_bh() - Store this entry in the XArray. * @xa: XArray. * @index: Index into array. * @entry: New entry. * @gfp: Memory allocation flags. * * This function is like calling xa_store() except it disables softirqs * while holding the array lock. * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. * Return: The old entry at this index or xa_err() if an error happened. */ static inline void *xa_store_bh(struct xarray *xa, unsigned long index, void *entry, gfp_t gfp) { void *curr; xa_lock_bh(xa); curr = __xa_store(xa, index, entry, gfp); xa_unlock_bh(xa); return curr; } /** * xa_store_irq() - Store this entry in the XArray. * @xa: XArray. * @index: Index into array. * @entry: New entry. * @gfp: Memory allocation flags. * * This function is like calling xa_store() except it disables interrupts * while holding the array lock. * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. * Return: The old entry at this index or xa_err() if an error happened. */ static inline void *xa_store_irq(struct xarray *xa, unsigned long index, void *entry, gfp_t gfp) { void *curr; xa_lock_irq(xa); curr = __xa_store(xa, index, entry, gfp); xa_unlock_irq(xa); return curr; } /** * xa_erase_bh() - Erase this entry from the XArray. * @xa: XArray. * @index: Index of entry. * * After this function returns, loading from @index will return %NULL. * If the index is part of a multi-index entry, all indices will be erased * and none of the entries will be part of a multi-index entry. * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. * Return: The entry which used to be at this index. */ static inline void *xa_erase_bh(struct xarray *xa, unsigned long index) { void *entry; xa_lock_bh(xa); entry = __xa_erase(xa, index); xa_unlock_bh(xa); return entry; } /** * xa_erase_irq() - Erase this entry from the XArray. * @xa: XArray. * @index: Index of entry. * * After this function returns, loading from @index will return %NULL. * If the index is part of a multi-index entry, all indices will be erased * and none of the entries will be part of a multi-index entry. * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. * Return: The entry which used to be at this index. */ static inline void *xa_erase_irq(struct xarray *xa, unsigned long index) { void *entry; xa_lock_irq(xa); entry = __xa_erase(xa, index); xa_unlock_irq(xa); return entry; } /** * xa_cmpxchg() - Conditionally replace an entry in the XArray. * @xa: XArray. * @index: Index into array. * @old: Old value to test against. * @entry: New value to place in array. * @gfp: Memory allocation flags. * * If the entry at @index is the same as @old, replace it with @entry. * If the return value is equal to @old, then the exchange was successful. * * Context: Any context. Takes and releases the xa_lock. May sleep * if the @gfp flags permit. * Return: The old value at this index or xa_err() if an error happened. */ static inline void *xa_cmpxchg(struct xarray *xa, unsigned long index, void *old, void *entry, gfp_t gfp) { void *curr; xa_lock(xa); curr = __xa_cmpxchg(xa, index, old, entry, gfp); xa_unlock(xa); return curr; } /** * xa_cmpxchg_bh() - Conditionally replace an entry in the XArray. * @xa: XArray. * @index: Index into array. * @old: Old value to test against. * @entry: New value to place in array. * @gfp: Memory allocation flags. * * This function is like calling xa_cmpxchg() except it disables softirqs * while holding the array lock. * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. May sleep if the @gfp flags permit. * Return: The old value at this index or xa_err() if an error happened. */ static inline void *xa_cmpxchg_bh(struct xarray *xa, unsigned long index, void *old, void *entry, gfp_t gfp) { void *curr; xa_lock_bh(xa); curr = __xa_cmpxchg(xa, index, old, entry, gfp); xa_unlock_bh(xa); return curr; } /** * xa_cmpxchg_irq() - Conditionally replace an entry in the XArray. * @xa: XArray. * @index: Index into array. * @old: Old value to test against. * @entry: New value to place in array. * @gfp: Memory allocation flags. * * This function is like calling xa_cmpxchg() except it disables interrupts * while holding the array lock. * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. May sleep if the @gfp flags permit. * Return: The old value at this index or xa_err() if an error happened. */ static inline void *xa_cmpxchg_irq(struct xarray *xa, unsigned long index, void *old, void *entry, gfp_t gfp) { void *curr; xa_lock_irq(xa); curr = __xa_cmpxchg(xa, index, old, entry, gfp); xa_unlock_irq(xa); return curr; } /** * xa_insert() - Store this entry in the XArray unless another entry is * already present. * @xa: XArray. * @index: Index into array. * @entry: New entry. * @gfp: Memory allocation flags. * * Inserting a NULL entry will store a reserved entry (like xa_reserve()) * if no entry is present. Inserting will fail if a reserved entry is * present, even though loading from this index will return NULL. * * Context: Any context. Takes and releases the xa_lock. May sleep if * the @gfp flags permit. * Return: 0 if the store succeeded. -EBUSY if another entry was present. * -ENOMEM if memory could not be allocated. */ static inline int __must_check xa_insert(struct xarray *xa, unsigned long index, void *entry, gfp_t gfp) { int err; xa_lock(xa); err = __xa_insert(xa, index, entry, gfp); xa_unlock(xa); return err; } /** * xa_insert_bh() - Store this entry in the XArray unless another entry is * already present. * @xa: XArray. * @index: Index into array. * @entry: New entry. * @gfp: Memory allocation flags. * * Inserting a NULL entry will store a reserved entry (like xa_reserve()) * if no entry is present. Inserting will fail if a reserved entry is * present, even though loading from this index will return NULL. * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. May sleep if the @gfp flags permit. * Return: 0 if the store succeeded. -EBUSY if another entry was present. * -ENOMEM if memory could not be allocated. */ static inline int __must_check xa_insert_bh(struct xarray *xa, unsigned long index, void *entry, gfp_t gfp) { int err; xa_lock_bh(xa); err = __xa_insert(xa, index, entry, gfp); xa_unlock_bh(xa); return err; } /** * xa_insert_irq() - Store this entry in the XArray unless another entry is * already present. * @xa: XArray. * @index: Index into array. * @entry: New entry. * @gfp: Memory allocation flags. * * Inserting a NULL entry will store a reserved entry (like xa_reserve()) * if no entry is present. Inserting will fail if a reserved entry is * present, even though loading from this index will return NULL. * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. May sleep if the @gfp flags permit. * Return: 0 if the store succeeded. -EBUSY if another entry was present. * -ENOMEM if memory could not be allocated. */ static inline int __must_check xa_insert_irq(struct xarray *xa, unsigned long index, void *entry, gfp_t gfp) { int err; xa_lock_irq(xa); err = __xa_insert(xa, index, entry, gfp); xa_unlock_irq(xa); return err; } /** * xa_alloc() - Find somewhere to store this entry in the XArray. * @xa: XArray. * @id: Pointer to ID. * @entry: New entry. * @limit: Range of ID to allocate. * @gfp: Memory allocation flags. * * Finds an empty entry in @xa between @limit.min and @limit.max, * stores the index into the @id pointer, then stores the entry at * that index. A concurrent lookup will not see an uninitialised @id. * * Context: Any context. Takes and releases the xa_lock. May sleep if * the @gfp flags permit. * Return: 0 on success, -ENOMEM if memory could not be allocated or * -EBUSY if there are no free entries in @limit. */ static inline __must_check int xa_alloc(struct xarray *xa, u32 *id, void *entry, struct xa_limit limit, gfp_t gfp) { int err; xa_lock(xa); err = __xa_alloc(xa, id, entry, limit, gfp); xa_unlock(xa); return err; } /** * xa_alloc_bh() - Find somewhere to store this entry in the XArray. * @xa: XArray. * @id: Pointer to ID. * @entry: New entry. * @limit: Range of ID to allocate. * @gfp: Memory allocation flags. * * Finds an empty entry in @xa between @limit.min and @limit.max, * stores the index into the @id pointer, then stores the entry at * that index. A concurrent lookup will not see an uninitialised @id. * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. May sleep if the @gfp flags permit. * Return: 0 on success, -ENOMEM if memory could not be allocated or * -EBUSY if there are no free entries in @limit. */ static inline int __must_check xa_alloc_bh(struct xarray *xa, u32 *id, void *entry, struct xa_limit limit, gfp_t gfp) { int err; xa_lock_bh(xa); err = __xa_alloc(xa, id, entry, limit, gfp); xa_unlock_bh(xa); return err; } /** * xa_alloc_irq() - Find somewhere to store this entry in the XArray. * @xa: XArray. * @id: Pointer to ID. * @entry: New entry. * @limit: Range of ID to allocate. * @gfp: Memory allocation flags. * * Finds an empty entry in @xa between @limit.min and @limit.max, * stores the index into the @id pointer, then stores the entry at * that index. A concurrent lookup will not see an uninitialised @id. * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. May sleep if the @gfp flags permit. * Return: 0 on success, -ENOMEM if memory could not be allocated or * -EBUSY if there are no free entries in @limit. */ static inline int __must_check xa_alloc_irq(struct xarray *xa, u32 *id, void *entry, struct xa_limit limit, gfp_t gfp) { int err; xa_lock_irq(xa); err = __xa_alloc(xa, id, entry, limit, gfp); xa_unlock_irq(xa); return err; } /** * xa_alloc_cyclic() - Find somewhere to store this entry in the XArray. * @xa: XArray. * @id: Pointer to ID. * @entry: New entry. * @limit: Range of allocated ID. * @next: Pointer to next ID to allocate. * @gfp: Memory allocation flags. * * Finds an empty entry in @xa between @limit.min and @limit.max, * stores the index into the @id pointer, then stores the entry at * that index. A concurrent lookup will not see an uninitialised @id. * The search for an empty entry will start at @next and will wrap * around if necessary. * * Context: Any context. Takes and releases the xa_lock. May sleep if * the @gfp flags permit. * Return: 0 if the allocation succeeded without wrapping. 1 if the * allocation succeeded after wrapping, -ENOMEM if memory could not be * allocated or -EBUSY if there are no free entries in @limit. */ static inline int xa_alloc_cyclic(struct xarray *xa, u32 *id, void *entry, struct xa_limit limit, u32 *next, gfp_t gfp) { int err; xa_lock(xa); err = __xa_alloc_cyclic(xa, id, entry, limit, next, gfp); xa_unlock(xa); return err; } /** * xa_alloc_cyclic_bh() - Find somewhere to store this entry in the XArray. * @xa: XArray. * @id: Pointer to ID. * @entry: New entry. * @limit: Range of allocated ID. * @next: Pointer to next ID to allocate. * @gfp: Memory allocation flags. * * Finds an empty entry in @xa between @limit.min and @limit.max, * stores the index into the @id pointer, then stores the entry at * that index. A concurrent lookup will not see an uninitialised @id. * The search for an empty entry will start at @next and will wrap * around if necessary. * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. May sleep if the @gfp flags permit. * Return: 0 if the allocation succeeded without wrapping. 1 if the * allocation succeeded after wrapping, -ENOMEM if memory could not be * allocated or -EBUSY if there are no free entries in @limit. */ static inline int xa_alloc_cyclic_bh(struct xarray *xa, u32 *id, void *entry, struct xa_limit limit, u32 *next, gfp_t gfp) { int err; xa_lock_bh(xa); err = __xa_alloc_cyclic(xa, id, entry, limit, next, gfp); xa_unlock_bh(xa); return err; } /** * xa_alloc_cyclic_irq() - Find somewhere to store this entry in the XArray. * @xa: XArray. * @id: Pointer to ID. * @entry: New entry. * @limit: Range of allocated ID. * @next: Pointer to next ID to allocate. * @gfp: Memory allocation flags. * * Finds an empty entry in @xa between @limit.min and @limit.max, * stores the index into the @id pointer, then stores the entry at * that index. A concurrent lookup will not see an uninitialised @id. * The search for an empty entry will start at @next and will wrap * around if necessary. * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. May sleep if the @gfp flags permit. * Return: 0 if the allocation succeeded without wrapping. 1 if the * allocation succeeded after wrapping, -ENOMEM if memory could not be * allocated or -EBUSY if there are no free entries in @limit. */ static inline int xa_alloc_cyclic_irq(struct xarray *xa, u32 *id, void *entry, struct xa_limit limit, u32 *next, gfp_t gfp) { int err; xa_lock_irq(xa); err = __xa_alloc_cyclic(xa, id, entry, limit, next, gfp); xa_unlock_irq(xa); return err; } /** * xa_reserve() - Reserve this index in the XArray. * @xa: XArray. * @index: Index into array. * @gfp: Memory allocation flags. * * Ensures there is somewhere to store an entry at @index in the array. * If there is already something stored at @index, this function does * nothing. If there was nothing there, the entry is marked as reserved. * Loading from a reserved entry returns a %NULL pointer. * * If you do not use the entry that you have reserved, call xa_release() * or xa_erase() to free any unnecessary memory. * * Context: Any context. Takes and releases the xa_lock. * May sleep if the @gfp flags permit. * Return: 0 if the reservation succeeded or -ENOMEM if it failed. */ static inline __must_check int xa_reserve(struct xarray *xa, unsigned long index, gfp_t gfp) { return xa_err(xa_cmpxchg(xa, index, NULL, XA_ZERO_ENTRY, gfp)); } /** * xa_reserve_bh() - Reserve this index in the XArray. * @xa: XArray. * @index: Index into array. * @gfp: Memory allocation flags. * * A softirq-disabling version of xa_reserve(). * * Context: Any context. Takes and releases the xa_lock while * disabling softirqs. * Return: 0 if the reservation succeeded or -ENOMEM if it failed. */ static inline __must_check int xa_reserve_bh(struct xarray *xa, unsigned long index, gfp_t gfp) { return xa_err(xa_cmpxchg_bh(xa, index, NULL, XA_ZERO_ENTRY, gfp)); } /** * xa_reserve_irq() - Reserve this index in the XArray. * @xa: XArray. * @index: Index into array. * @gfp: Memory allocation flags. * * An interrupt-disabling version of xa_reserve(). * * Context: Process context. Takes and releases the xa_lock while * disabling interrupts. * Return: 0 if the reservation succeeded or -ENOMEM if it failed. */ static inline __must_check int xa_reserve_irq(struct xarray *xa, unsigned long index, gfp_t gfp) { return xa_err(xa_cmpxchg_irq(xa, index, NULL, XA_ZERO_ENTRY, gfp)); } /** * xa_release() - Release a reserved entry. * @xa: XArray. * @index: Index of entry. * * After calling xa_reserve(), you can call this function to release the * reservation. If the entry at @index has been stored to, this function * will do nothing. */ static inline void xa_release(struct xarray *xa, unsigned long index) { xa_cmpxchg(xa, index, XA_ZERO_ENTRY, NULL, 0); } /* Everything below here is the Advanced API. Proceed with caution. */ /* * The xarray is constructed out of a set of 'chunks' of pointers. Choosing * the best chunk size requires some tradeoffs. A power of two recommends * itself so that we can walk the tree based purely on shifts and masks. * Generally, the larger the better; as the number of slots per level of the * tree increases, the less tall the tree needs to be. But that needs to be * balanced against the memory consumption of each node. On a 64-bit system, * xa_node is currently 576 bytes, and we get 7 of them per 4kB page. If we * doubled the number of slots per node, we'd get only 3 nodes per 4kB page. */ #ifndef XA_CHUNK_SHIFT #define XA_CHUNK_SHIFT (CONFIG_BASE_SMALL ? 4 : 6) #endif #define XA_CHUNK_SIZE (1UL << XA_CHUNK_SHIFT) #define XA_CHUNK_MASK (XA_CHUNK_SIZE - 1) #define XA_MAX_MARKS 3 #define XA_MARK_LONGS DIV_ROUND_UP(XA_CHUNK_SIZE, BITS_PER_LONG) /* * @count is the count of every non-NULL element in the ->slots array * whether that is a value entry, a retry entry, a user pointer, * a sibling entry or a pointer to the next level of the tree. * @nr_values is the count of every element in ->slots which is * either a value entry or a sibling of a value entry. */ struct xa_node { unsigned char shift; /* Bits remaining in each slot */ unsigned char offset; /* Slot offset in parent */ unsigned char count; /* Total entry count */ unsigned char nr_values; /* Value entry count */ struct xa_node __rcu *parent; /* NULL at top of tree */ struct xarray *array; /* The array we belong to */ union { struct list_head private_list; /* For tree user */ struct rcu_head rcu_head; /* Used when freeing node */ }; void __rcu *slots[XA_CHUNK_SIZE]; union { unsigned long tags[XA_MAX_MARKS][XA_MARK_LONGS]; unsigned long marks[XA_MAX_MARKS][XA_MARK_LONGS]; }; }; void xa_dump(const struct xarray *); void xa_dump_node(const struct xa_node *); #ifdef XA_DEBUG #define XA_BUG_ON(xa, x) do { \ if (x) { \ xa_dump(xa); \ BUG(); \ } \ } while (0) #define XA_NODE_BUG_ON(node, x) do { \ if (x) { \ if (node) xa_dump_node(node); \ BUG(); \ } \ } while (0) #else #define XA_BUG_ON(xa, x) do { } while (0) #define XA_NODE_BUG_ON(node, x) do { } while (0) #endif /* Private */ static inline void *xa_head(const struct xarray *xa) { return rcu_dereference_check(xa->xa_head, lockdep_is_held(&xa->xa_lock)); } /* Private */ static inline void *xa_head_locked(const struct xarray *xa) { return rcu_dereference_protected(xa->xa_head, lockdep_is_held(&xa->xa_lock)); } /* Private */ static inline void *xa_entry(const struct xarray *xa, const struct xa_node *node, unsigned int offset) { XA_NODE_BUG_ON(node, offset >= XA_CHUNK_SIZE); return rcu_dereference_check(node->slots[offset], lockdep_is_held(&xa->xa_lock)); } /* Private */ static inline void *xa_entry_locked(const struct xarray *xa, const struct xa_node *node, unsigned int offset) { XA_NODE_BUG_ON(node, offset >= XA_CHUNK_SIZE); return rcu_dereference_protected(node->slots[offset], lockdep_is_held(&xa->xa_lock)); } /* Private */ static inline struct xa_node *xa_parent(const struct xarray *xa, const struct xa_node *node) { return rcu_dereference_check(node->parent, lockdep_is_held(&xa->xa_lock)); } /* Private */ static inline struct xa_node *xa_parent_locked(const struct xarray *xa, const struct xa_node *node) { return rcu_dereference_protected(node->parent, lockdep_is_held(&xa->xa_lock)); } /* Private */ static inline void *xa_mk_node(const struct xa_node *node) { return (void *)((unsigned long)node | 2); } /* Private */ static inline struct xa_node *xa_to_node(const void *entry) { return (struct xa_node *)((unsigned long)entry - 2); } /* Private */ static inline bool xa_is_node(const void *entry) { return xa_is_internal(entry) && (unsigned long)entry > 4096; } /* Private */ static inline void *xa_mk_sibling(unsigned int offset) { return xa_mk_internal(offset); } /* Private */ static inline unsigned long xa_to_sibling(const void *entry) { return xa_to_internal(entry); } /** * xa_is_sibling() - Is the entry a sibling entry? * @entry: Entry retrieved from the XArray * * Return: %true if the entry is a sibling entry. */ static inline bool xa_is_sibling(const void *entry) { return IS_ENABLED(CONFIG_XARRAY_MULTI) && xa_is_internal(entry) && (entry < xa_mk_sibling(XA_CHUNK_SIZE - 1)); } #define XA_RETRY_ENTRY xa_mk_internal(256) /** * xa_is_retry() - Is the entry a retry entry? * @entry: Entry retrieved from the XArray * * Return: %true if the entry is a retry entry. */ static inline bool xa_is_retry(const void *entry) { return unlikely(entry == XA_RETRY_ENTRY); } /** * xa_is_advanced() - Is the entry only permitted for the advanced API? * @entry: Entry to be stored in the XArray. * * Return: %true if the entry cannot be stored by the normal API. */ static inline bool xa_is_advanced(const void *entry) { return xa_is_internal(entry) && (entry <= XA_RETRY_ENTRY); } /** * typedef xa_update_node_t - A callback function from the XArray. * @node: The node which is being processed * * This function is called every time the XArray updates the count of * present and value entries in a node. It allows advanced users to * maintain the private_list in the node. * * Context: The xa_lock is held and interrupts may be disabled. * Implementations should not drop the xa_lock, nor re-enable * interrupts. */ typedef void (*xa_update_node_t)(struct xa_node *node); void xa_delete_node(struct xa_node *, xa_update_node_t); /* * The xa_state is opaque to its users. It contains various different pieces * of state involved in the current operation on the XArray. It should be * declared on the stack and passed between the various internal routines. * The various elements in it should not be accessed directly, but only * through the provided accessor functions. The below documentation is for * the benefit of those working on the code, not for users of the XArray. * * @xa_node usually points to the xa_node containing the slot we're operating * on (and @xa_offset is the offset in the slots array). If there is a * single entry in the array at index 0, there are no allocated xa_nodes to * point to, and so we store %NULL in @xa_node. @xa_node is set to * the value %XAS_RESTART if the xa_state is not walked to the correct * position in the tree of nodes for this operation. If an error occurs * during an operation, it is set to an %XAS_ERROR value. If we run off the * end of the allocated nodes, it is set to %XAS_BOUNDS. */ struct xa_state { struct xarray *xa; unsigned long xa_index; unsigned char xa_shift; unsigned char xa_sibs; unsigned char xa_offset; unsigned char xa_pad; /* Helps gcc generate better code */ struct xa_node *xa_node; struct xa_node *xa_alloc; xa_update_node_t xa_update; }; /* * We encode errnos in the xas->xa_node. If an error has happened, we need to * drop the lock to fix it, and once we've done so the xa_state is invalid. */ #define XA_ERROR(errno) ((struct xa_node *)(((unsigned long)errno << 2) | 2UL)) #define XAS_BOUNDS ((struct xa_node *)1UL) #define XAS_RESTART ((struct xa_node *)3UL) #define __XA_STATE(array, index, shift, sibs) { \ .xa = array, \ .xa_index = index, \ .xa_shift = shift, \ .xa_sibs = sibs, \ .xa_offset = 0, \ .xa_pad = 0, \ .xa_node = XAS_RESTART, \ .xa_alloc = NULL, \ .xa_update = NULL \ } /** * XA_STATE() - Declare an XArray operation state. * @name: Name of this operation state (usually xas). * @array: Array to operate on. * @index: Initial index of interest. * * Declare and initialise an xa_state on the stack. */ #define XA_STATE(name, array, index) \ struct xa_state name = __XA_STATE(array, index, 0, 0) /** * XA_STATE_ORDER() - Declare an XArray operation state. * @name: Name of this operation state (usually xas). * @array: Array to operate on. * @index: Initial index of interest. * @order: Order of entry. * * Declare and initialise an xa_state on the stack. This variant of * XA_STATE() allows you to specify the 'order' of the element you * want to operate on.` */ #define XA_STATE_ORDER(name, array, index, order) \ struct xa_state name = __XA_STATE(array, \ (index >> order) << order, \ order - (order % XA_CHUNK_SHIFT), \ (1U << (order % XA_CHUNK_SHIFT)) - 1) #define xas_marked(xas, mark) xa_marked((xas)->xa, (mark)) #define xas_trylock(xas) xa_trylock((xas)->xa) #define xas_lock(xas) xa_lock((xas)->xa) #define xas_unlock(xas) xa_unlock((xas)->xa) #define xas_lock_bh(xas) xa_lock_bh((xas)->xa) #define xas_unlock_bh(xas) xa_unlock_bh((xas)->xa) #define xas_lock_irq(xas) xa_lock_irq((xas)->xa) #define xas_unlock_irq(xas) xa_unlock_irq((xas)->xa) #define xas_lock_irqsave(xas, flags) \ xa_lock_irqsave((xas)->xa, flags) #define xas_unlock_irqrestore(xas, flags) \ xa_unlock_irqrestore((xas)->xa, flags) /** * xas_error() - Return an errno stored in the xa_state. * @xas: XArray operation state. * * Return: 0 if no error has been noted. A negative errno if one has. */ static inline int xas_error(const struct xa_state *xas) { return xa_err(xas->xa_node); } /** * xas_set_err() - Note an error in the xa_state. * @xas: XArray operation state. * @err: Negative error number. * * Only call this function with a negative @err; zero or positive errors * will probably not behave the way you think they should. If you want * to clear the error from an xa_state, use xas_reset(). */ static inline void xas_set_err(struct xa_state *xas, long err) { xas->xa_node = XA_ERROR(err); } /** * xas_invalid() - Is the xas in a retry or error state? * @xas: XArray operation state. * * Return: %true if the xas cannot be used for operations. */ static inline bool xas_invalid(const struct xa_state *xas) { return (unsigned long)xas->xa_node & 3; } /** * xas_valid() - Is the xas a valid cursor into the array? * @xas: XArray operation state. * * Return: %true if the xas can be used for operations. */ static inline bool xas_valid(const struct xa_state *xas) { return !xas_invalid(xas); } /** * xas_is_node() - Does the xas point to a node? * @xas: XArray operation state. * * Return: %true if the xas currently references a node. */ static inline bool xas_is_node(const struct xa_state *xas) { return xas_valid(xas) && xas->xa_node; } /* True if the pointer is something other than a node */ static inline bool xas_not_node(struct xa_node *node) { return ((unsigned long)node & 3) || !node; } /* True if the node represents RESTART or an error */ static inline bool xas_frozen(struct xa_node *node) { return (unsigned long)node & 2; } /* True if the node represents head-of-tree, RESTART or BOUNDS */ static inline bool xas_top(struct xa_node *node) { return node <= XAS_RESTART; } /** * xas_reset() - Reset an XArray operation state. * @xas: XArray operation state. * * Resets the error or walk state of the @xas so future walks of the * array will start from the root. Use this if you have dropped the * xarray lock and want to reuse the xa_state. * * Context: Any context. */ static inline void xas_reset(struct xa_state *xas) { xas->xa_node = XAS_RESTART; } /** * xas_retry() - Retry the operation if appropriate. * @xas: XArray operation state. * @entry: Entry from xarray. * * The advanced functions may sometimes return an internal entry, such as * a retry entry or a zero entry. This function sets up the @xas to restart * the walk from the head of the array if needed. * * Context: Any context. * Return: true if the operation needs to be retried. */ static inline bool xas_retry(struct xa_state *xas, const void *entry) { if (xa_is_zero(entry)) return true; if (!xa_is_retry(entry)) return false; xas_reset(xas); return true; } void *xas_load(struct xa_state *); void *xas_store(struct xa_state *, void *entry); void *xas_find(struct xa_state *, unsigned long max); void *xas_find_conflict(struct xa_state *); bool xas_get_mark(const struct xa_state *, xa_mark_t); void xas_set_mark(const struct xa_state *, xa_mark_t); void xas_clear_mark(const struct xa_state *, xa_mark_t); void *xas_find_marked(struct xa_state *, unsigned long max, xa_mark_t); void xas_init_marks(const struct xa_state *); bool xas_nomem(struct xa_state *, gfp_t); void xas_pause(struct xa_state *); void xas_create_range(struct xa_state *); #ifdef CONFIG_XARRAY_MULTI int xa_get_order(struct xarray *, unsigned long index); void xas_split(struct xa_state *, void *entry, unsigned int order); void xas_split_alloc(struct xa_state *, void *entry, unsigned int order, gfp_t); #else static inline int xa_get_order(struct xarray *xa, unsigned long index) { return 0; } static inline void xas_split(struct xa_state *xas, void *entry, unsigned int order) { xas_store(xas, entry); } static inline void xas_split_alloc(struct xa_state *xas, void *entry, unsigned int order, gfp_t gfp) { } #endif /** * xas_reload() - Refetch an entry from the xarray. * @xas: XArray operation state. * * Use this function to check that a previously loaded entry still has * the same value. This is useful for the lockless pagecache lookup where * we walk the array with only the RCU lock to protect us, lock the page, * then check that the page hasn't moved since we looked it up. * * The caller guarantees that @xas is still valid. If it may be in an * error or restart state, call xas_load() instead. * * Return: The entry at this location in the xarray. */ static inline void *xas_reload(struct xa_state *xas) { struct xa_node *node = xas->xa_node; void *entry; char offset; if (!node) return xa_head(xas->xa); if (IS_ENABLED(CONFIG_XARRAY_MULTI)) { offset = (xas->xa_index >> node->shift) & XA_CHUNK_MASK; entry = xa_entry(xas->xa, node, offset); if (!xa_is_sibling(entry)) return entry; offset = xa_to_sibling(entry); } else { offset = xas->xa_offset; } return xa_entry(xas->xa, node, offset); } /** * xas_set() - Set up XArray operation state for a different index. * @xas: XArray operation state. * @index: New index into the XArray. * * Move the operation state to refer to a different index. This will * have the effect of starting a walk from the top; see xas_next() * to move to an adjacent index. */ static inline void xas_set(struct xa_state *xas, unsigned long index) { xas->xa_index = index; xas->xa_node = XAS_RESTART; } /** * xas_set_order() - Set up XArray operation state for a multislot entry. * @xas: XArray operation state. * @index: Target of the operation. * @order: Entry occupies 2^@order indices. */ static inline void xas_set_order(struct xa_state *xas, unsigned long index, unsigned int order) { #ifdef CONFIG_XARRAY_MULTI xas->xa_index = order < BITS_PER_LONG ? (index >> order) << order : 0; xas->xa_shift = order - (order % XA_CHUNK_SHIFT); xas->xa_sibs = (1 << (order % XA_CHUNK_SHIFT)) - 1; xas->xa_node = XAS_RESTART; #else BUG_ON(order > 0); xas_set(xas, index); #endif } /** * xas_set_update() - Set up XArray operation state for a callback. * @xas: XArray operation state. * @update: Function to call when updating a node. * * The XArray can notify a caller after it has updated an xa_node. * This is advanced functionality and is only needed by the page cache. */ static inline void xas_set_update(struct xa_state *xas, xa_update_node_t update) { xas->xa_update = update; } /** * xas_next_entry() - Advance iterator to next present entry. * @xas: XArray operation state. * @max: Highest index to return. * * xas_next_entry() is an inline function to optimise xarray traversal for * speed. It is equivalent to calling xas_find(), and will call xas_find() * for all the hard cases. * * Return: The next present entry after the one currently referred to by @xas. */ static inline void *xas_next_entry(struct xa_state *xas, unsigned long max) { struct xa_node *node = xas->xa_node; void *entry; if (unlikely(xas_not_node(node) || node->shift || xas->xa_offset != (xas->xa_index & XA_CHUNK_MASK))) return xas_find(xas, max); do { if (unlikely(xas->xa_index >= max)) return xas_find(xas, max); if (unlikely(xas->xa_offset == XA_CHUNK_MASK)) return xas_find(xas, max); entry = xa_entry(xas->xa, node, xas->xa_offset + 1); if (unlikely(xa_is_internal(entry))) return xas_find(xas, max); xas->xa_offset++; xas->xa_index++; } while (!entry); return entry; } /* Private */ static inline unsigned int xas_find_chunk(struct xa_state *xas, bool advance, xa_mark_t mark) { unsigned long *addr = xas->xa_node->marks[(__force unsigned)mark]; unsigned int offset = xas->xa_offset; if (advance) offset++; if (XA_CHUNK_SIZE == BITS_PER_LONG) { if (offset < XA_CHUNK_SIZE) { unsigned long data = *addr & (~0UL << offset); if (data) return __ffs(data); } return XA_CHUNK_SIZE; } return find_next_bit(addr, XA_CHUNK_SIZE, offset); } /** * xas_next_marked() - Advance iterator to next marked entry. * @xas: XArray operation state. * @max: Highest index to return. * @mark: Mark to search for. * * xas_next_marked() is an inline function to optimise xarray traversal for * speed. It is equivalent to calling xas_find_marked(), and will call * xas_find_marked() for all the hard cases. * * Return: The next marked entry after the one currently referred to by @xas. */ static inline void *xas_next_marked(struct xa_state *xas, unsigned long max, xa_mark_t mark) { struct xa_node *node = xas->xa_node; void *entry; unsigned int offset; if (unlikely(xas_not_node(node) || node->shift)) return xas_find_marked(xas, max, mark); offset = xas_find_chunk(xas, true, mark); xas->xa_offset = offset; xas->xa_index = (xas->xa_index & ~XA_CHUNK_MASK) + offset; if (xas->xa_index > max) return NULL; if (offset == XA_CHUNK_SIZE) return xas_find_marked(xas, max, mark); entry = xa_entry(xas->xa, node, offset); if (!entry) return xas_find_marked(xas, max, mark); return entry; } /* * If iterating while holding a lock, drop the lock and reschedule * every %XA_CHECK_SCHED loops. */ enum { XA_CHECK_SCHED = 4096, }; /** * xas_for_each() - Iterate over a range of an XArray. * @xas: XArray operation state. * @entry: Entry retrieved from the array. * @max: Maximum index to retrieve from array. * * The loop body will be executed for each entry present in the xarray * between the current xas position and @max. @entry will be set to * the entry retrieved from the xarray. It is safe to delete entries * from the array in the loop body. You should hold either the RCU lock * or the xa_lock while iterating. If you need to drop the lock, call * xas_pause() first. */ #define xas_for_each(xas, entry, max) \ for (entry = xas_find(xas, max); entry; \ entry = xas_next_entry(xas, max)) /** * xas_for_each_marked() - Iterate over a range of an XArray. * @xas: XArray operation state. * @entry: Entry retrieved from the array. * @max: Maximum index to retrieve from array. * @mark: Mark to search for. * * The loop body will be executed for each marked entry in the xarray * between the current xas position and @max. @entry will be set to * the entry retrieved from the xarray. It is safe to delete entries * from the array in the loop body. You should hold either the RCU lock * or the xa_lock while iterating. If you need to drop the lock, call * xas_pause() first. */ #define xas_for_each_marked(xas, entry, max, mark) \ for (entry = xas_find_marked(xas, max, mark); entry; \ entry = xas_next_marked(xas, max, mark)) /** * xas_for_each_conflict() - Iterate over a range of an XArray. * @xas: XArray operation state. * @entry: Entry retrieved from the array. * * The loop body will be executed for each entry in the XArray that * lies within the range specified by @xas. If the loop terminates * normally, @entry will be %NULL. The user may break out of the loop, * which will leave @entry set to the conflicting entry. The caller * may also call xa_set_err() to exit the loop while setting an error * to record the reason. */ #define xas_for_each_conflict(xas, entry) \ while ((entry = xas_find_conflict(xas))) void *__xas_next(struct xa_state *); void *__xas_prev(struct xa_state *); /** * xas_prev() - Move iterator to previous index. * @xas: XArray operation state. * * If the @xas was in an error state, it will remain in an error state * and this function will return %NULL. If the @xas has never been walked, * it will have the effect of calling xas_load(). Otherwise one will be * subtracted from the index and the state will be walked to the correct * location in the array for the next operation. * * If the iterator was referencing index 0, this function wraps * around to %ULONG_MAX. * * Return: The entry at the new index. This may be %NULL or an internal * entry. */ static inline void *xas_prev(struct xa_state *xas) { struct xa_node *node = xas->xa_node; if (unlikely(xas_not_node(node) || node->shift || xas->xa_offset == 0)) return __xas_prev(xas); xas->xa_index--; xas->xa_offset--; return xa_entry(xas->xa, node, xas->xa_offset); } /** * xas_next() - Move state to next index. * @xas: XArray operation state. * * If the @xas was in an error state, it will remain in an error state * and this function will return %NULL. If the @xas has never been walked, * it will have the effect of calling xas_load(). Otherwise one will be * added to the index and the state will be walked to the correct * location in the array for the next operation. * * If the iterator was referencing index %ULONG_MAX, this function wraps * around to 0. * * Return: The entry at the new index. This may be %NULL or an internal * entry. */ static inline void *xas_next(struct xa_state *xas) { struct xa_node *node = xas->xa_node; if (unlikely(xas_not_node(node) || node->shift || xas->xa_offset == XA_CHUNK_MASK)) return __xas_next(xas); xas->xa_index++; xas->xa_offset++; return xa_entry(xas->xa, node, xas->xa_offset); } #endif /* _LINUX_XARRAY_H */
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 /* SPDX-License-Identifier: GPL-2.0-or-later */ /* * NetLabel Network Address Lists * * This file contains network address list functions used to manage ordered * lists of network addresses for use by the NetLabel subsystem. The NetLabel * system manages static and dynamic label mappings for network protocols such * as CIPSO and RIPSO. * * Author: Paul Moore <paul@paul-moore.com> */ /* * (c) Copyright Hewlett-Packard Development Company, L.P., 2008 */ #ifndef _NETLABEL_ADDRLIST_H #define _NETLABEL_ADDRLIST_H #include <linux/types.h> #include <linux/rcupdate.h> #include <linux/list.h> #include <linux/in6.h> #include <linux/audit.h> /** * struct netlbl_af4list - NetLabel IPv4 address list * @addr: IPv4 address * @mask: IPv4 address mask * @valid: valid flag * @list: list structure, used internally */ struct netlbl_af4list { __be32 addr; __be32 mask; u32 valid; struct list_head list; }; /** * struct netlbl_af6list - NetLabel IPv6 address list * @addr: IPv6 address * @mask: IPv6 address mask * @valid: valid flag * @list: list structure, used internally */ struct netlbl_af6list { struct in6_addr addr; struct in6_addr mask; u32 valid; struct list_head list; }; #define __af4list_entry(ptr) container_of(ptr, struct netlbl_af4list, list) static inline struct netlbl_af4list *__af4list_valid(struct list_head *s, struct list_head *h) { struct list_head *i = s; struct netlbl_af4list *n = __af4list_entry(s); while (i != h && !n->valid) { i = i->next; n = __af4list_entry(i); } return n; } static inline struct netlbl_af4list *__af4list_valid_rcu(struct list_head *s, struct list_head *h) { struct list_head *i = s; struct netlbl_af4list *n = __af4list_entry(s); while (i != h && !n->valid) { i = rcu_dereference(list_next_rcu(i)); n = __af4list_entry(i); } return n; } #define netlbl_af4list_foreach(iter, head) \ for (iter = __af4list_valid((head)->next, head); \ &iter->list != (head); \ iter = __af4list_valid(iter->list.next, head)) #define netlbl_af4list_foreach_rcu(iter, head) \ for (iter = __af4list_valid_rcu((head)->next, head); \ &iter->list != (head); \ iter = __af4list_valid_rcu(iter->list.next, head)) #define netlbl_af4list_foreach_safe(iter, tmp, head) \ for (iter = __af4list_valid((head)->next, head), \ tmp = __af4list_valid(iter->list.next, head); \ &iter->list != (head); \ iter = tmp, tmp = __af4list_valid(iter->list.next, head)) int netlbl_af4list_add(struct netlbl_af4list *entry, struct list_head *head); struct netlbl_af4list *netlbl_af4list_remove(__be32 addr, __be32 mask, struct list_head *head); void netlbl_af4list_remove_entry(struct netlbl_af4list *entry); struct netlbl_af4list *netlbl_af4list_search(__be32 addr, struct list_head *head); struct netlbl_af4list *netlbl_af4list_search_exact(__be32 addr, __be32 mask, struct list_head *head); #ifdef CONFIG_AUDIT void netlbl_af4list_audit_addr(struct audit_buffer *audit_buf, int src, const char *dev, __be32 addr, __be32 mask); #else static inline void netlbl_af4list_audit_addr(struct audit_buffer *audit_buf, int src, const char *dev, __be32 addr, __be32 mask) { } #endif #if IS_ENABLED(CONFIG_IPV6) #define __af6list_entry(ptr) container_of(ptr, struct netlbl_af6list, list) static inline struct netlbl_af6list *__af6list_valid(struct list_head *s, struct list_head *h) { struct list_head *i = s; struct netlbl_af6list *n = __af6list_entry(s); while (i != h && !n->valid) { i = i->next; n = __af6list_entry(i); } return n; } static inline struct netlbl_af6list *__af6list_valid_rcu(struct list_head *s, struct list_head *h) { struct list_head *i = s; struct netlbl_af6list *n = __af6list_entry(s); while (i != h && !n->valid) { i = rcu_dereference(list_next_rcu(i)); n = __af6list_entry(i); } return n; } #define netlbl_af6list_foreach(iter, head) \ for (iter = __af6list_valid((head)->next, head); \ &iter->list != (head); \ iter = __af6list_valid(iter->list.next, head)) #define netlbl_af6list_foreach_rcu(iter, head) \ for (iter = __af6list_valid_rcu((head)->next, head); \ &iter->list != (head); \ iter = __af6list_valid_rcu(iter->list.next, head)) #define netlbl_af6list_foreach_safe(iter, tmp, head) \ for (iter = __af6list_valid((head)->next, head), \ tmp = __af6list_valid(iter->list.next, head); \ &iter->list != (head); \ iter = tmp, tmp = __af6list_valid(iter->list.next, head)) int netlbl_af6list_add(struct netlbl_af6list *entry, struct list_head *head); struct netlbl_af6list *netlbl_af6list_remove(const struct in6_addr *addr, const struct in6_addr *mask, struct list_head *head); void netlbl_af6list_remove_entry(struct netlbl_af6list *entry); struct netlbl_af6list *netlbl_af6list_search(const struct in6_addr *addr, struct list_head *head); struct netlbl_af6list *netlbl_af6list_search_exact(const struct in6_addr *addr, const struct in6_addr *mask, struct list_head *head); #ifdef CONFIG_AUDIT void netlbl_af6list_audit_addr(struct audit_buffer *audit_buf, int src, const char *dev, const struct in6_addr *addr, const struct in6_addr *mask); #else static inline void netlbl_af6list_audit_addr(struct audit_buffer *audit_buf, int src, const char *dev, const struct in6_addr *addr, const struct in6_addr *mask) { } #endif #endif /* IPV6 */ #endif
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1 : 0; ha->sync_cnt = 0; list_add_tail_rcu(&ha->list, &list->list); list->count++; return 0; } static int __hw_addr_add_ex(struct netdev_hw_addr_list *list, const unsigned char *addr, int addr_len, unsigned char addr_type, bool global, bool sync, int sync_count) { struct netdev_hw_addr *ha; if (addr_len > MAX_ADDR_LEN) return -EINVAL; list_for_each_entry(ha, &list->list, list) { if (ha->type == addr_type && !memcmp(ha->addr, addr, addr_len)) { if (global) { /* check if addr is already used as global */ if (ha->global_use) return 0; else ha->global_use = true; } if (sync) { if (ha->synced && sync_count) return -EEXIST; else ha->synced++; } ha->refcount++; return 0; } } return __hw_addr_create_ex(list, addr, addr_len, addr_type, global, sync); } static int __hw_addr_add(struct netdev_hw_addr_list *list, const unsigned char *addr, int addr_len, unsigned char addr_type) { return __hw_addr_add_ex(list, addr, addr_len, addr_type, false, false, 0); } static int __hw_addr_del_entry(struct netdev_hw_addr_list *list, struct netdev_hw_addr *ha, bool global, bool sync) { if (global && !ha->global_use) return -ENOENT; if (sync && !ha->synced) return -ENOENT; if (global) ha->global_use = false; if (sync) ha->synced--; if (--ha->refcount) return 0; list_del_rcu(&ha->list); kfree_rcu(ha, rcu_head); list->count--; return 0; } static int __hw_addr_del_ex(struct netdev_hw_addr_list *list, const unsigned char *addr, int addr_len, unsigned char addr_type, bool global, bool sync) { struct netdev_hw_addr *ha; list_for_each_entry(ha, &list->list, list) { if (!memcmp(ha->addr, addr, addr_len) && (ha->type == addr_type || !addr_type)) return __hw_addr_del_entry(list, ha, global, sync); } return -ENOENT; } static int __hw_addr_del(struct netdev_hw_addr_list *list, const unsigned char *addr, int addr_len, unsigned char addr_type) { return __hw_addr_del_ex(list, addr, addr_len, addr_type, false, false); } static int __hw_addr_sync_one(struct netdev_hw_addr_list *to_list, struct netdev_hw_addr *ha, int addr_len) { int err; err = __hw_addr_add_ex(to_list, ha->addr, addr_len, ha->type, false, true, ha->sync_cnt); if (err && err != -EEXIST) return err; if (!err) { ha->sync_cnt++; ha->refcount++; } return 0; } static void __hw_addr_unsync_one(struct netdev_hw_addr_list *to_list, struct netdev_hw_addr_list *from_list, struct netdev_hw_addr *ha, int addr_len) { int err; err = __hw_addr_del_ex(to_list, ha->addr, addr_len, ha->type, false, true); if (err) return; ha->sync_cnt--; /* address on from list is not marked synced */ __hw_addr_del_entry(from_list, ha, false, false); } static int __hw_addr_sync_multiple(struct netdev_hw_addr_list *to_list, struct netdev_hw_addr_list *from_list, int addr_len) { int err = 0; struct netdev_hw_addr *ha, *tmp; list_for_each_entry_safe(ha, tmp, &from_list->list, list) { if (ha->sync_cnt == ha->refcount) { __hw_addr_unsync_one(to_list, from_list, ha, addr_len); } else { err = __hw_addr_sync_one(to_list, ha, addr_len); if (err) break; } } return err; } /* This function only works where there is a strict 1-1 relationship * between source and destionation of they synch. If you ever need to * sync addresses to more then 1 destination, you need to use * __hw_addr_sync_multiple(). */ int __hw_addr_sync(struct netdev_hw_addr_list *to_list, struct netdev_hw_addr_list *from_list, int addr_len) { int err = 0; struct netdev_hw_addr *ha, *tmp; list_for_each_entry_safe(ha, tmp, &from_list->list, list) { if (!ha->sync_cnt) { err = __hw_addr_sync_one(to_list, ha, addr_len); if (err) break; } else if (ha->refcount == 1) __hw_addr_unsync_one(to_list, from_list, ha, addr_len); } return err; } EXPORT_SYMBOL(__hw_addr_sync); void __hw_addr_unsync(struct netdev_hw_addr_list *to_list, struct netdev_hw_addr_list *from_list, int addr_len) { struct netdev_hw_addr *ha, *tmp; list_for_each_entry_safe(ha, tmp, &from_list->list, list) { if (ha->sync_cnt) __hw_addr_unsync_one(to_list, from_list, ha, addr_len); } } EXPORT_SYMBOL(__hw_addr_unsync); /** * __hw_addr_sync_dev - Synchonize device's multicast list * @list: address list to syncronize * @dev: device to sync * @sync: function to call if address should be added * @unsync: function to call if address should be removed * * This funciton is intended to be called from the ndo_set_rx_mode * function of devices that require explicit address add/remove * notifications. The unsync function may be NULL in which case * the addresses requiring removal will simply be removed without * any notification to the device. **/ int __hw_addr_sync_dev(struct netdev_hw_addr_list *list, struct net_device *dev, int (*sync)(struct net_device *, const unsigned char *), int (*unsync)(struct net_device *, const unsigned char *)) { struct netdev_hw_addr *ha, *tmp; int err; /* first go through and flush out any stale entries */ list_for_each_entry_safe(ha, tmp, &list->list, list) { if (!ha->sync_cnt || ha->refcount != 1) continue; /* if unsync is defined and fails defer unsyncing address */ if (unsync && unsync(dev, ha->addr)) continue; ha->sync_cnt--; __hw_addr_del_entry(list, ha, false, false); } /* go through and sync new entries to the list */ list_for_each_entry_safe(ha, tmp, &list->list, list) { if (ha->sync_cnt) continue; err = sync(dev, ha->addr); if (err) return err; ha->sync_cnt++; ha->refcount++; } return 0; } EXPORT_SYMBOL(__hw_addr_sync_dev); /** * __hw_addr_ref_sync_dev - Synchronize device's multicast address list taking * into account references * @list: address list to synchronize * @dev: device to sync * @sync: function to call if address or reference on it should be added * @unsync: function to call if address or some reference on it should removed * * This function is intended to be called from the ndo_set_rx_mode * function of devices that require explicit address or references on it * add/remove notifications. The unsync function may be NULL in which case * the addresses or references on it requiring removal will simply be * removed without any notification to the device. That is responsibility of * the driver to identify and distribute address or references on it between * internal address tables. **/ int __hw_addr_ref_sync_dev(struct netdev_hw_addr_list *list, struct net_device *dev, int (*sync)(struct net_device *, const unsigned char *, int), int (*unsync)(struct net_device *, const unsigned char *, int)) { struct netdev_hw_addr *ha, *tmp; int err, ref_cnt; /* first go through and flush out any unsynced/stale entries */ list_for_each_entry_safe(ha, tmp, &list->list, list) { /* sync if address is not used */ if ((ha->sync_cnt << 1) <= ha->refcount) continue; /* if fails defer unsyncing address */ ref_cnt = ha->refcount - ha->sync_cnt; if (unsync && unsync(dev, ha->addr, ref_cnt)) continue; ha->refcount = (ref_cnt << 1) + 1; ha->sync_cnt = ref_cnt; __hw_addr_del_entry(list, ha, false, false); } /* go through and sync updated/new entries to the list */ list_for_each_entry_safe(ha, tmp, &list->list, list) { /* sync if address added or reused */ if ((ha->sync_cnt << 1) >= ha->refcount) continue; ref_cnt = ha->refcount - ha->sync_cnt; err = sync(dev, ha->addr, ref_cnt); if (err) return err; ha->refcount = ref_cnt << 1; ha->sync_cnt = ref_cnt; } return 0; } EXPORT_SYMBOL(__hw_addr_ref_sync_dev); /** * __hw_addr_ref_unsync_dev - Remove synchronized addresses and references on * it from device * @list: address list to remove synchronized addresses (references on it) from * @dev: device to sync * @unsync: function to call if address and references on it should be removed * * Remove all addresses that were added to the device by * __hw_addr_ref_sync_dev(). This function is intended to be called from the * ndo_stop or ndo_open functions on devices that require explicit address (or * references on it) add/remove notifications. If the unsync function pointer * is NULL then this function can be used to just reset the sync_cnt for the * addresses in the list. **/ void __hw_addr_ref_unsync_dev(struct netdev_hw_addr_list *list, struct net_device *dev, int (*unsync)(struct net_device *, const unsigned char *, int)) { struct netdev_hw_addr *ha, *tmp; list_for_each_entry_safe(ha, tmp, &list->list, list) { if (!ha->sync_cnt) continue; /* if fails defer unsyncing address */ if (unsync && unsync(dev, ha->addr, ha->sync_cnt)) continue; ha->refcount -= ha->sync_cnt - 1; ha->sync_cnt = 0; __hw_addr_del_entry(list, ha, false, false); } } EXPORT_SYMBOL(__hw_addr_ref_unsync_dev); /** * __hw_addr_unsync_dev - Remove synchronized addresses from device * @list: address list to remove synchronized addresses from * @dev: device to sync * @unsync: function to call if address should be removed * * Remove all addresses that were added to the device by __hw_addr_sync_dev(). * This function is intended to be called from the ndo_stop or ndo_open * functions on devices that require explicit address add/remove * notifications. If the unsync function pointer is NULL then this function * can be used to just reset the sync_cnt for the addresses in the list. **/ void __hw_addr_unsync_dev(struct netdev_hw_addr_list *list, struct net_device *dev, int (*unsync)(struct net_device *, const unsigned char *)) { struct netdev_hw_addr *ha, *tmp; list_for_each_entry_safe(ha, tmp, &list->list, list) { if (!ha->sync_cnt) continue; /* if unsync is defined and fails defer unsyncing address */ if (unsync && unsync(dev, ha->addr)) continue; ha->sync_cnt--; __hw_addr_del_entry(list, ha, false, false); } } EXPORT_SYMBOL(__hw_addr_unsync_dev); static void __hw_addr_flush(struct netdev_hw_addr_list *list) { struct netdev_hw_addr *ha, *tmp; list_for_each_entry_safe(ha, tmp, &list->list, list) { list_del_rcu(&ha->list); kfree_rcu(ha, rcu_head); } list->count = 0; } void __hw_addr_init(struct netdev_hw_addr_list *list) { INIT_LIST_HEAD(&list->list); list->count = 0; } EXPORT_SYMBOL(__hw_addr_init); /* * Device addresses handling functions */ /** * dev_addr_flush - Flush device address list * @dev: device * * Flush device address list and reset ->dev_addr. * * The caller must hold the rtnl_mutex. */ void dev_addr_flush(struct net_device *dev) { /* rtnl_mutex must be held here */ __hw_addr_flush(&dev->dev_addrs); dev->dev_addr = NULL; } EXPORT_SYMBOL(dev_addr_flush); /** * dev_addr_init - Init device address list * @dev: device * * Init device address list and create the first element, * used by ->dev_addr. * * The caller must hold the rtnl_mutex. */ int dev_addr_init(struct net_device *dev) { unsigned char addr[MAX_ADDR_LEN]; struct netdev_hw_addr *ha; int err; /* rtnl_mutex must be held here */ __hw_addr_init(&dev->dev_addrs); memset(addr, 0, sizeof(addr)); err = __hw_addr_add(&dev->dev_addrs, addr, sizeof(addr), NETDEV_HW_ADDR_T_LAN); if (!err) { /* * Get the first (previously created) address from the list * and set dev_addr pointer to this location. */ ha = list_first_entry(&dev->dev_addrs.list, struct netdev_hw_addr, list); dev->dev_addr = ha->addr; } return err; } EXPORT_SYMBOL(dev_addr_init); /** * dev_addr_add - Add a device address * @dev: device * @addr: address to add * @addr_type: address type * * Add a device address to the device or increase the reference count if * it already exists. * * The caller must hold the rtnl_mutex. */ int dev_addr_add(struct net_device *dev, const unsigned char *addr, unsigned char addr_type) { int err; ASSERT_RTNL(); err = dev_pre_changeaddr_notify(dev, addr, NULL); if (err) return err; err = __hw_addr_add(&dev->dev_addrs, addr, dev->addr_len, addr_type); if (!err) call_netdevice_notifiers(NETDEV_CHANGEADDR, dev); return err; } EXPORT_SYMBOL(dev_addr_add); /** * dev_addr_del - Release a device address. * @dev: device * @addr: address to delete * @addr_type: address type * * Release reference to a device address and remove it from the device * if the reference count drops to zero. * * The caller must hold the rtnl_mutex. */ int dev_addr_del(struct net_device *dev, const unsigned char *addr, unsigned char addr_type) { int err; struct netdev_hw_addr *ha; ASSERT_RTNL(); /* * We can not remove the first address from the list because * dev->dev_addr points to that. */ ha = list_first_entry(&dev->dev_addrs.list, struct netdev_hw_addr, list); if (!memcmp(ha->addr, addr, dev->addr_len) && ha->type == addr_type && ha->refcount == 1) return -ENOENT; err = __hw_addr_del(&dev->dev_addrs, addr, dev->addr_len, addr_type); if (!err) call_netdevice_notifiers(NETDEV_CHANGEADDR, dev); return err; } EXPORT_SYMBOL(dev_addr_del); /* * Unicast list handling functions */ /** * dev_uc_add_excl - Add a global secondary unicast address * @dev: device * @addr: address to add */ int dev_uc_add_excl(struct net_device *dev, const unsigned char *addr) { struct netdev_hw_addr *ha; int err; netif_addr_lock_bh(dev); list_for_each_entry(ha, &dev->uc.list, list) { if (!memcmp(ha->addr, addr, dev->addr_len) && ha->type == NETDEV_HW_ADDR_T_UNICAST) { err = -EEXIST; goto out; } } err = __hw_addr_create_ex(&dev->uc, addr, dev->addr_len, NETDEV_HW_ADDR_T_UNICAST, true, false); if (!err) __dev_set_rx_mode(dev); out: netif_addr_unlock_bh(dev); return err; } EXPORT_SYMBOL(dev_uc_add_excl); /** * dev_uc_add - Add a secondary unicast address * @dev: device * @addr: address to add * * Add a secondary unicast address to the device or increase * the reference count if it already exists. */ int dev_uc_add(struct net_device *dev, const unsigned char *addr) { int err; netif_addr_lock_bh(dev); err = __hw_addr_add(&dev->uc, addr, dev->addr_len, NETDEV_HW_ADDR_T_UNICAST); if (!err) __dev_set_rx_mode(dev); netif_addr_unlock_bh(dev); return err; } EXPORT_SYMBOL(dev_uc_add); /** * dev_uc_del - Release secondary unicast address. * @dev: device * @addr: address to delete * * Release reference to a secondary unicast address and remove it * from the device if the reference count drops to zero. */ int dev_uc_del(struct net_device *dev, const unsigned char *addr) { int err; netif_addr_lock_bh(dev); err = __hw_addr_del(&dev->uc, addr, dev->addr_len, NETDEV_HW_ADDR_T_UNICAST); if (!err) __dev_set_rx_mode(dev); netif_addr_unlock_bh(dev); return err; } EXPORT_SYMBOL(dev_uc_del); /** * dev_uc_sync - Synchronize device's unicast list to another device * @to: destination device * @from: source device * * Add newly added addresses to the destination device and release * addresses that have no users left. The source device must be * locked by netif_addr_lock_bh. * * This function is intended to be called from the dev->set_rx_mode * function of layered software devices. This function assumes that * addresses will only ever be synced to the @to devices and no other. */ int dev_uc_sync(struct net_device *to, struct net_device *from) { int err = 0; if (to->addr_len != from->addr_len) return -EINVAL; netif_addr_lock(to); err = __hw_addr_sync(&to->uc, &from->uc, to->addr_len); if (!err) __dev_set_rx_mode(to); netif_addr_unlock(to); return err; } EXPORT_SYMBOL(dev_uc_sync); /** * dev_uc_sync_multiple - Synchronize device's unicast list to another * device, but allow for multiple calls to sync to multiple devices. * @to: destination device * @from: source device * * Add newly added addresses to the destination device and release * addresses that have been deleted from the source. The source device * must be locked by netif_addr_lock_bh. * * This function is intended to be called from the dev->set_rx_mode * function of layered software devices. It allows for a single source * device to be synced to multiple destination devices. */ int dev_uc_sync_multiple(struct net_device *to, struct net_device *from) { int err = 0; if (to->addr_len != from->addr_len) return -EINVAL; netif_addr_lock(to); err = __hw_addr_sync_multiple(&to->uc, &from->uc, to->addr_len); if (!err) __dev_set_rx_mode(to); netif_addr_unlock(to); return err; } EXPORT_SYMBOL(dev_uc_sync_multiple); /** * dev_uc_unsync - Remove synchronized addresses from the destination device * @to: destination device * @from: source device * * Remove all addresses that were added to the destination device by * dev_uc_sync(). This function is intended to be called from the * dev->stop function of layered software devices. */ void dev_uc_unsync(struct net_device *to, struct net_device *from) { if (to->addr_len != from->addr_len) return; /* netif_addr_lock_bh() uses lockdep subclass 0, this is okay for two * reasons: * 1) This is always called without any addr_list_lock, so as the * outermost one here, it must be 0. * 2) This is called by some callers after unlinking the upper device, * so the dev->lower_level becomes 1 again. * Therefore, the subclass for 'from' is 0, for 'to' is either 1 or * larger. */ netif_addr_lock_bh(from); netif_addr_lock(to); __hw_addr_unsync(&to->uc, &from->uc, to->addr_len); __dev_set_rx_mode(to); netif_addr_unlock(to); netif_addr_unlock_bh(from); } EXPORT_SYMBOL(dev_uc_unsync); /** * dev_uc_flush - Flush unicast addresses * @dev: device * * Flush unicast addresses. */ void dev_uc_flush(struct net_device *dev) { netif_addr_lock_bh(dev); __hw_addr_flush(&dev->uc); netif_addr_unlock_bh(dev); } EXPORT_SYMBOL(dev_uc_flush); /** * dev_uc_flush - Init unicast address list * @dev: device * * Init unicast address list. */ void dev_uc_init(struct net_device *dev) { __hw_addr_init(&dev->uc); } EXPORT_SYMBOL(dev_uc_init); /* * Multicast list handling functions */ /** * dev_mc_add_excl - Add a global secondary multicast address * @dev: device * @addr: address to add */ int dev_mc_add_excl(struct net_device *dev, const unsigned char *addr) { struct netdev_hw_addr *ha; int err; netif_addr_lock_bh(dev); list_for_each_entry(ha, &dev->mc.list, list) { if (!memcmp(ha->addr, addr, dev->addr_len) && ha->type == NETDEV_HW_ADDR_T_MULTICAST) { err = -EEXIST; goto out; } } err = __hw_addr_create_ex(&dev->mc, addr, dev->addr_len, NETDEV_HW_ADDR_T_MULTICAST, true, false); if (!err) __dev_set_rx_mode(dev); out: netif_addr_unlock_bh(dev); return err; } EXPORT_SYMBOL(dev_mc_add_excl); static int __dev_mc_add(struct net_device *dev, const unsigned char *addr, bool global) { int err; netif_addr_lock_bh(dev); err = __hw_addr_add_ex(&dev->mc, addr, dev->addr_len, NETDEV_HW_ADDR_T_MULTICAST, global, false, 0); if (!err) __dev_set_rx_mode(dev); netif_addr_unlock_bh(dev); return err; } /** * dev_mc_add - Add a multicast address * @dev: device * @addr: address to add * * Add a multicast address to the device or increase * the reference count if it already exists. */ int dev_mc_add(struct net_device *dev, const unsigned char *addr) { return __dev_mc_add(dev, addr, false); } EXPORT_SYMBOL(dev_mc_add); /** * dev_mc_add_global - Add a global multicast address * @dev: device * @addr: address to add * * Add a global multicast address to the device. */ int dev_mc_add_global(struct net_device *dev, const unsigned char *addr) { return __dev_mc_add(dev, addr, true); } EXPORT_SYMBOL(dev_mc_add_global); static int __dev_mc_del(struct net_device *dev, const unsigned char *addr, bool global) { int err; netif_addr_lock_bh(dev); err = __hw_addr_del_ex(&dev->mc, addr, dev->addr_len, NETDEV_HW_ADDR_T_MULTICAST, global, false); if (!err) __dev_set_rx_mode(dev); netif_addr_unlock_bh(dev); return err; } /** * dev_mc_del - Delete a multicast address. * @dev: device * @addr: address to delete * * Release reference to a multicast address and remove it * from the device if the reference count drops to zero. */ int dev_mc_del(struct net_device *dev, const unsigned char *addr) { return __dev_mc_del(dev, addr, false); } EXPORT_SYMBOL(dev_mc_del); /** * dev_mc_del_global - Delete a global multicast address. * @dev: device * @addr: address to delete * * Release reference to a multicast address and remove it * from the device if the reference count drops to zero. */ int dev_mc_del_global(struct net_device *dev, const unsigned char *addr) { return __dev_mc_del(dev, addr, true); } EXPORT_SYMBOL(dev_mc_del_global); /** * dev_mc_sync - Synchronize device's multicast list to another device * @to: destination device * @from: source device * * Add newly added addresses to the destination device and release * addresses that have no users left. The source device must be * locked by netif_addr_lock_bh. * * This function is intended to be called from the ndo_set_rx_mode * function of layered software devices. */ int dev_mc_sync(struct net_device *to, struct net_device *from) { int err = 0; if (to->addr_len != from->addr_len) return -EINVAL; netif_addr_lock(to); err = __hw_addr_sync(&to->mc, &from->mc, to->addr_len); if (!err) __dev_set_rx_mode(to); netif_addr_unlock(to); return err; } EXPORT_SYMBOL(dev_mc_sync); /** * dev_mc_sync_multiple - Synchronize device's multicast list to another * device, but allow for multiple calls to sync to multiple devices. * @to: destination device * @from: source device * * Add newly added addresses to the destination device and release * addresses that have no users left. The source device must be * locked by netif_addr_lock_bh. * * This function is intended to be called from the ndo_set_rx_mode * function of layered software devices. It allows for a single * source device to be synced to multiple destination devices. */ int dev_mc_sync_multiple(struct net_device *to, struct net_device *from) { int err = 0; if (to->addr_len != from->addr_len) return -EINVAL; netif_addr_lock(to); err = __hw_addr_sync_multiple(&to->mc, &from->mc, to->addr_len); if (!err) __dev_set_rx_mode(to); netif_addr_unlock(to); return err; } EXPORT_SYMBOL(dev_mc_sync_multiple); /** * dev_mc_unsync - Remove synchronized addresses from the destination device * @to: destination device * @from: source device * * Remove all addresses that were added to the destination device by * dev_mc_sync(). This function is intended to be called from the * dev->stop function of layered software devices. */ void dev_mc_unsync(struct net_device *to, struct net_device *from) { if (to->addr_len != from->addr_len) return; /* See the above comments inside dev_uc_unsync(). */ netif_addr_lock_bh(from); netif_addr_lock(to); __hw_addr_unsync(&to->mc, &from->mc, to->addr_len); __dev_set_rx_mode(to); netif_addr_unlock(to); netif_addr_unlock_bh(from); } EXPORT_SYMBOL(dev_mc_unsync); /** * dev_mc_flush - Flush multicast addresses * @dev: device * * Flush multicast addresses. */ void dev_mc_flush(struct net_device *dev) { netif_addr_lock_bh(dev); __hw_addr_flush(&dev->mc); netif_addr_unlock_bh(dev); } EXPORT_SYMBOL(dev_mc_flush); /** * dev_mc_init - Init multicast address list * @dev: device * * Init multicast address list. */ void dev_mc_init(struct net_device *dev) { __hw_addr_init(&dev->mc); } EXPORT_SYMBOL(dev_mc_init);
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SPDX-License-Identifier: GPL-2.0 */ /* * Portions of this file * Copyright(c) 2016 Intel Deutschland GmbH * Copyright (C) 2018 - 2019 Intel Corporation */ #ifndef __MAC80211_DRIVER_OPS #define __MAC80211_DRIVER_OPS #include <net/mac80211.h> #include "ieee80211_i.h" #include "trace.h" #define check_sdata_in_driver(sdata) ({ \ !WARN_ONCE(!(sdata->flags & IEEE80211_SDATA_IN_DRIVER), \ "%s: Failed check-sdata-in-driver check, flags: 0x%x\n", \ sdata->dev ? sdata->dev->name : sdata->name, sdata->flags); \ }) static inline struct ieee80211_sub_if_data * get_bss_sdata(struct ieee80211_sub_if_data *sdata) { if (sdata->vif.type == NL80211_IFTYPE_AP_VLAN) sdata = container_of(sdata->bss, struct ieee80211_sub_if_data, u.ap); return sdata; } static inline void drv_tx(struct ieee80211_local *local, struct ieee80211_tx_control *control, struct sk_buff *skb) { local->ops->tx(&local->hw, control, skb); } static inline void drv_sync_rx_queues(struct ieee80211_local *local, struct sta_info *sta) { if (local->ops->sync_rx_queues) { trace_drv_sync_rx_queues(local, sta->sdata, &sta->sta); local->ops->sync_rx_queues(&local->hw); trace_drv_return_void(local); } } static inline void drv_get_et_strings(struct ieee80211_sub_if_data *sdata, u32 sset, u8 *data) { struct ieee80211_local *local = sdata->local; if (local->ops->get_et_strings) { trace_drv_get_et_strings(local, sset); local->ops->get_et_strings(&local->hw, &sdata->vif, sset, data); trace_drv_return_void(local); } } static inline void drv_get_et_stats(struct ieee80211_sub_if_data *sdata, struct ethtool_stats *stats, u64 *data) { struct ieee80211_local *local = sdata->local; if (local->ops->get_et_stats) { trace_drv_get_et_stats(local); local->ops->get_et_stats(&local->hw, &sdata->vif, stats, data); trace_drv_return_void(local); } } static inline int drv_get_et_sset_count(struct ieee80211_sub_if_data *sdata, int sset) { struct ieee80211_local *local = sdata->local; int rv = 0; if (local->ops->get_et_sset_count) { trace_drv_get_et_sset_count(local, sset); rv = local->ops->get_et_sset_count(&local->hw, &sdata->vif, sset); trace_drv_return_int(local, rv); } return rv; } int drv_start(struct ieee80211_local *local); void drv_stop(struct ieee80211_local *local); #ifdef CONFIG_PM static inline int drv_suspend(struct ieee80211_local *local, struct cfg80211_wowlan *wowlan) { int ret; might_sleep(); trace_drv_suspend(local); ret = local->ops->suspend(&local->hw, wowlan); trace_drv_return_int(local, ret); return ret; } static inline int drv_resume(struct ieee80211_local *local) { int ret; might_sleep(); trace_drv_resume(local); ret = local->ops->resume(&local->hw); trace_drv_return_int(local, ret); return ret; } static inline void drv_set_wakeup(struct ieee80211_local *local, bool enabled) { might_sleep(); if (!local->ops->set_wakeup) return; trace_drv_set_wakeup(local, enabled); local->ops->set_wakeup(&local->hw, enabled); trace_drv_return_void(local); } #endif int drv_add_interface(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata); int drv_change_interface(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, enum nl80211_iftype type, bool p2p); void drv_remove_interface(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata); static inline int drv_config(struct ieee80211_local *local, u32 changed) { int ret; might_sleep(); trace_drv_config(local, changed); ret = local->ops->config(&local->hw, changed); trace_drv_return_int(local, ret); return ret; } static inline void drv_bss_info_changed(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_bss_conf *info, u32 changed) { might_sleep(); if (WARN_ON_ONCE(changed & (BSS_CHANGED_BEACON | BSS_CHANGED_BEACON_ENABLED) && sdata->vif.type != NL80211_IFTYPE_AP && sdata->vif.type != NL80211_IFTYPE_ADHOC && sdata->vif.type != NL80211_IFTYPE_MESH_POINT && sdata->vif.type != NL80211_IFTYPE_OCB)) return; if (WARN_ON_ONCE(sdata->vif.type == NL80211_IFTYPE_P2P_DEVICE || sdata->vif.type == NL80211_IFTYPE_NAN || (sdata->vif.type == NL80211_IFTYPE_MONITOR && !sdata->vif.mu_mimo_owner && !(changed & BSS_CHANGED_TXPOWER)))) return; if (!check_sdata_in_driver(sdata)) return; trace_drv_bss_info_changed(local, sdata, info, changed); if (local->ops->bss_info_changed) local->ops->bss_info_changed(&local->hw, &sdata->vif, info, changed); trace_drv_return_void(local); } static inline u64 drv_prepare_multicast(struct ieee80211_local *local, struct netdev_hw_addr_list *mc_list) { u64 ret = 0; trace_drv_prepare_multicast(local, mc_list->count); if (local->ops->prepare_multicast) ret = local->ops->prepare_multicast(&local->hw, mc_list); trace_drv_return_u64(local, ret); return ret; } static inline void drv_configure_filter(struct ieee80211_local *local, unsigned int changed_flags, unsigned int *total_flags, u64 multicast) { might_sleep(); trace_drv_configure_filter(local, changed_flags, total_flags, multicast); local->ops->configure_filter(&local->hw, changed_flags, total_flags, multicast); trace_drv_return_void(local); } static inline void drv_config_iface_filter(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, unsigned int filter_flags, unsigned int changed_flags) { might_sleep(); trace_drv_config_iface_filter(local, sdata, filter_flags, changed_flags); if (local->ops->config_iface_filter) local->ops->config_iface_filter(&local->hw, &sdata->vif, filter_flags, changed_flags); trace_drv_return_void(local); } static inline int drv_set_tim(struct ieee80211_local *local, struct ieee80211_sta *sta, bool set) { int ret = 0; trace_drv_set_tim(local, sta, set); if (local->ops->set_tim) ret = local->ops->set_tim(&local->hw, sta, set); trace_drv_return_int(local, ret); return ret; } static inline int drv_set_key(struct ieee80211_local *local, enum set_key_cmd cmd, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, struct ieee80211_key_conf *key) { int ret; might_sleep(); sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_set_key(local, cmd, sdata, sta, key); ret = local->ops->set_key(&local->hw, cmd, &sdata->vif, sta, key); trace_drv_return_int(local, ret); return ret; } static inline void drv_update_tkip_key(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_key_conf *conf, struct sta_info *sta, u32 iv32, u16 *phase1key) { struct ieee80211_sta *ista = NULL; if (sta) ista = &sta->sta; sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_update_tkip_key(local, sdata, conf, ista, iv32); if (local->ops->update_tkip_key) local->ops->update_tkip_key(&local->hw, &sdata->vif, conf, ista, iv32, phase1key); trace_drv_return_void(local); } static inline int drv_hw_scan(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_scan_request *req) { int ret; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_hw_scan(local, sdata); ret = local->ops->hw_scan(&local->hw, &sdata->vif, req); trace_drv_return_int(local, ret); return ret; } static inline void drv_cancel_hw_scan(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { might_sleep(); if (!check_sdata_in_driver(sdata)) return; trace_drv_cancel_hw_scan(local, sdata); local->ops->cancel_hw_scan(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline int drv_sched_scan_start(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_sched_scan_request *req, struct ieee80211_scan_ies *ies) { int ret; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_sched_scan_start(local, sdata); ret = local->ops->sched_scan_start(&local->hw, &sdata->vif, req, ies); trace_drv_return_int(local, ret); return ret; } static inline int drv_sched_scan_stop(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { int ret; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_sched_scan_stop(local, sdata); ret = local->ops->sched_scan_stop(&local->hw, &sdata->vif); trace_drv_return_int(local, ret); return ret; } static inline void drv_sw_scan_start(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, const u8 *mac_addr) { might_sleep(); trace_drv_sw_scan_start(local, sdata, mac_addr); if (local->ops->sw_scan_start) local->ops->sw_scan_start(&local->hw, &sdata->vif, mac_addr); trace_drv_return_void(local); } static inline void drv_sw_scan_complete(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { might_sleep(); trace_drv_sw_scan_complete(local, sdata); if (local->ops->sw_scan_complete) local->ops->sw_scan_complete(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline int drv_get_stats(struct ieee80211_local *local, struct ieee80211_low_level_stats *stats) { int ret = -EOPNOTSUPP; might_sleep(); if (local->ops->get_stats) ret = local->ops->get_stats(&local->hw, stats); trace_drv_get_stats(local, stats, ret); return ret; } static inline void drv_get_key_seq(struct ieee80211_local *local, struct ieee80211_key *key, struct ieee80211_key_seq *seq) { if (local->ops->get_key_seq) local->ops->get_key_seq(&local->hw, &key->conf, seq); trace_drv_get_key_seq(local, &key->conf); } static inline int drv_set_frag_threshold(struct ieee80211_local *local, u32 value) { int ret = 0; might_sleep(); trace_drv_set_frag_threshold(local, value); if (local->ops->set_frag_threshold) ret = local->ops->set_frag_threshold(&local->hw, value); trace_drv_return_int(local, ret); return ret; } static inline int drv_set_rts_threshold(struct ieee80211_local *local, u32 value) { int ret = 0; might_sleep(); trace_drv_set_rts_threshold(local, value); if (local->ops->set_rts_threshold) ret = local->ops->set_rts_threshold(&local->hw, value); trace_drv_return_int(local, ret); return ret; } static inline int drv_set_coverage_class(struct ieee80211_local *local, s16 value) { int ret = 0; might_sleep(); trace_drv_set_coverage_class(local, value); if (local->ops->set_coverage_class) local->ops->set_coverage_class(&local->hw, value); else ret = -EOPNOTSUPP; trace_drv_return_int(local, ret); return ret; } static inline void drv_sta_notify(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, enum sta_notify_cmd cmd, struct ieee80211_sta *sta) { sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_sta_notify(local, sdata, cmd, sta); if (local->ops->sta_notify) local->ops->sta_notify(&local->hw, &sdata->vif, cmd, sta); trace_drv_return_void(local); } static inline int drv_sta_add(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta) { int ret = 0; might_sleep(); sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_sta_add(local, sdata, sta); if (local->ops->sta_add) ret = local->ops->sta_add(&local->hw, &sdata->vif, sta); trace_drv_return_int(local, ret); return ret; } static inline void drv_sta_remove(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta) { might_sleep(); sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_sta_remove(local, sdata, sta); if (local->ops->sta_remove) local->ops->sta_remove(&local->hw, &sdata->vif, sta); trace_drv_return_void(local); } #ifdef CONFIG_MAC80211_DEBUGFS static inline void drv_sta_add_debugfs(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, struct dentry *dir) { might_sleep(); sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; if (local->ops->sta_add_debugfs) local->ops->sta_add_debugfs(&local->hw, &sdata->vif, sta, dir); } #endif static inline void drv_sta_pre_rcu_remove(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct sta_info *sta) { might_sleep(); sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_sta_pre_rcu_remove(local, sdata, &sta->sta); if (local->ops->sta_pre_rcu_remove) local->ops->sta_pre_rcu_remove(&local->hw, &sdata->vif, &sta->sta); trace_drv_return_void(local); } __must_check int drv_sta_state(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct sta_info *sta, enum ieee80211_sta_state old_state, enum ieee80211_sta_state new_state); __must_check int drv_sta_set_txpwr(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct sta_info *sta); void drv_sta_rc_update(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, u32 changed); static inline void drv_sta_rate_tbl_update(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta) { sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_sta_rate_tbl_update(local, sdata, sta); if (local->ops->sta_rate_tbl_update) local->ops->sta_rate_tbl_update(&local->hw, &sdata->vif, sta); trace_drv_return_void(local); } static inline void drv_sta_statistics(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, struct station_info *sinfo) { sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_sta_statistics(local, sdata, sta); if (local->ops->sta_statistics) local->ops->sta_statistics(&local->hw, &sdata->vif, sta, sinfo); trace_drv_return_void(local); } int drv_conf_tx(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, u16 ac, const struct ieee80211_tx_queue_params *params); u64 drv_get_tsf(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata); void drv_set_tsf(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, u64 tsf); void drv_offset_tsf(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, s64 offset); void drv_reset_tsf(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata); static inline int drv_tx_last_beacon(struct ieee80211_local *local) { int ret = 0; /* default unsupported op for less congestion */ might_sleep(); trace_drv_tx_last_beacon(local); if (local->ops->tx_last_beacon) ret = local->ops->tx_last_beacon(&local->hw); trace_drv_return_int(local, ret); return ret; } int drv_ampdu_action(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_ampdu_params *params); static inline int drv_get_survey(struct ieee80211_local *local, int idx, struct survey_info *survey) { int ret = -EOPNOTSUPP; trace_drv_get_survey(local, idx, survey); if (local->ops->get_survey) ret = local->ops->get_survey(&local->hw, idx, survey); trace_drv_return_int(local, ret); return ret; } static inline void drv_rfkill_poll(struct ieee80211_local *local) { might_sleep(); if (local->ops->rfkill_poll) local->ops->rfkill_poll(&local->hw); } static inline void drv_flush(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, u32 queues, bool drop) { struct ieee80211_vif *vif = sdata ? &sdata->vif : NULL; might_sleep(); if (sdata && !check_sdata_in_driver(sdata)) return; trace_drv_flush(local, queues, drop); if (local->ops->flush) local->ops->flush(&local->hw, vif, queues, drop); trace_drv_return_void(local); } static inline void drv_channel_switch(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_channel_switch *ch_switch) { might_sleep(); trace_drv_channel_switch(local, sdata, ch_switch); local->ops->channel_switch(&local->hw, &sdata->vif, ch_switch); trace_drv_return_void(local); } static inline int drv_set_antenna(struct ieee80211_local *local, u32 tx_ant, u32 rx_ant) { int ret = -EOPNOTSUPP; might_sleep(); if (local->ops->set_antenna) ret = local->ops->set_antenna(&local->hw, tx_ant, rx_ant); trace_drv_set_antenna(local, tx_ant, rx_ant, ret); return ret; } static inline int drv_get_antenna(struct ieee80211_local *local, u32 *tx_ant, u32 *rx_ant) { int ret = -EOPNOTSUPP; might_sleep(); if (local->ops->get_antenna) ret = local->ops->get_antenna(&local->hw, tx_ant, rx_ant); trace_drv_get_antenna(local, *tx_ant, *rx_ant, ret); return ret; } static inline int drv_remain_on_channel(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_channel *chan, unsigned int duration, enum ieee80211_roc_type type) { int ret; might_sleep(); trace_drv_remain_on_channel(local, sdata, chan, duration, type); ret = local->ops->remain_on_channel(&local->hw, &sdata->vif, chan, duration, type); trace_drv_return_int(local, ret); return ret; } static inline int drv_cancel_remain_on_channel(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { int ret; might_sleep(); trace_drv_cancel_remain_on_channel(local, sdata); ret = local->ops->cancel_remain_on_channel(&local->hw, &sdata->vif); trace_drv_return_int(local, ret); return ret; } static inline int drv_set_ringparam(struct ieee80211_local *local, u32 tx, u32 rx) { int ret = -ENOTSUPP; might_sleep(); trace_drv_set_ringparam(local, tx, rx); if (local->ops->set_ringparam) ret = local->ops->set_ringparam(&local->hw, tx, rx); trace_drv_return_int(local, ret); return ret; } static inline void drv_get_ringparam(struct ieee80211_local *local, u32 *tx, u32 *tx_max, u32 *rx, u32 *rx_max) { might_sleep(); trace_drv_get_ringparam(local, tx, tx_max, rx, rx_max); if (local->ops->get_ringparam) local->ops->get_ringparam(&local->hw, tx, tx_max, rx, rx_max); trace_drv_return_void(local); } static inline bool drv_tx_frames_pending(struct ieee80211_local *local) { bool ret = false; might_sleep(); trace_drv_tx_frames_pending(local); if (local->ops->tx_frames_pending) ret = local->ops->tx_frames_pending(&local->hw); trace_drv_return_bool(local, ret); return ret; } static inline int drv_set_bitrate_mask(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, const struct cfg80211_bitrate_mask *mask) { int ret = -EOPNOTSUPP; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_set_bitrate_mask(local, sdata, mask); if (local->ops->set_bitrate_mask) ret = local->ops->set_bitrate_mask(&local->hw, &sdata->vif, mask); trace_drv_return_int(local, ret); return ret; } static inline void drv_set_rekey_data(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_gtk_rekey_data *data) { if (!check_sdata_in_driver(sdata)) return; trace_drv_set_rekey_data(local, sdata, data); if (local->ops->set_rekey_data) local->ops->set_rekey_data(&local->hw, &sdata->vif, data); trace_drv_return_void(local); } static inline void drv_event_callback(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, const struct ieee80211_event *event) { trace_drv_event_callback(local, sdata, event); if (local->ops->event_callback) local->ops->event_callback(&local->hw, &sdata->vif, event); trace_drv_return_void(local); } static inline void drv_release_buffered_frames(struct ieee80211_local *local, struct sta_info *sta, u16 tids, int num_frames, enum ieee80211_frame_release_type reason, bool more_data) { trace_drv_release_buffered_frames(local, &sta->sta, tids, num_frames, reason, more_data); if (local->ops->release_buffered_frames) local->ops->release_buffered_frames(&local->hw, &sta->sta, tids, num_frames, reason, more_data); trace_drv_return_void(local); } static inline void drv_allow_buffered_frames(struct ieee80211_local *local, struct sta_info *sta, u16 tids, int num_frames, enum ieee80211_frame_release_type reason, bool more_data) { trace_drv_allow_buffered_frames(local, &sta->sta, tids, num_frames, reason, more_data); if (local->ops->allow_buffered_frames) local->ops->allow_buffered_frames(&local->hw, &sta->sta, tids, num_frames, reason, more_data); trace_drv_return_void(local); } static inline void drv_mgd_prepare_tx(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, u16 duration) { might_sleep(); if (!check_sdata_in_driver(sdata)) return; WARN_ON_ONCE(sdata->vif.type != NL80211_IFTYPE_STATION); trace_drv_mgd_prepare_tx(local, sdata, duration); if (local->ops->mgd_prepare_tx) local->ops->mgd_prepare_tx(&local->hw, &sdata->vif, duration); trace_drv_return_void(local); } static inline void drv_mgd_protect_tdls_discover(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { might_sleep(); if (!check_sdata_in_driver(sdata)) return; WARN_ON_ONCE(sdata->vif.type != NL80211_IFTYPE_STATION); trace_drv_mgd_protect_tdls_discover(local, sdata); if (local->ops->mgd_protect_tdls_discover) local->ops->mgd_protect_tdls_discover(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline int drv_add_chanctx(struct ieee80211_local *local, struct ieee80211_chanctx *ctx) { int ret = -EOPNOTSUPP; might_sleep(); trace_drv_add_chanctx(local, ctx); if (local->ops->add_chanctx) ret = local->ops->add_chanctx(&local->hw, &ctx->conf); trace_drv_return_int(local, ret); if (!ret) ctx->driver_present = true; return ret; } static inline void drv_remove_chanctx(struct ieee80211_local *local, struct ieee80211_chanctx *ctx) { might_sleep(); if (WARN_ON(!ctx->driver_present)) return; trace_drv_remove_chanctx(local, ctx); if (local->ops->remove_chanctx) local->ops->remove_chanctx(&local->hw, &ctx->conf); trace_drv_return_void(local); ctx->driver_present = false; } static inline void drv_change_chanctx(struct ieee80211_local *local, struct ieee80211_chanctx *ctx, u32 changed) { might_sleep(); trace_drv_change_chanctx(local, ctx, changed); if (local->ops->change_chanctx) { WARN_ON_ONCE(!ctx->driver_present); local->ops->change_chanctx(&local->hw, &ctx->conf, changed); } trace_drv_return_void(local); } static inline int drv_assign_vif_chanctx(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_chanctx *ctx) { int ret = 0; if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_assign_vif_chanctx(local, sdata, ctx); if (local->ops->assign_vif_chanctx) { WARN_ON_ONCE(!ctx->driver_present); ret = local->ops->assign_vif_chanctx(&local->hw, &sdata->vif, &ctx->conf); } trace_drv_return_int(local, ret); return ret; } static inline void drv_unassign_vif_chanctx(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_chanctx *ctx) { might_sleep(); if (!check_sdata_in_driver(sdata)) return; trace_drv_unassign_vif_chanctx(local, sdata, ctx); if (local->ops->unassign_vif_chanctx) { WARN_ON_ONCE(!ctx->driver_present); local->ops->unassign_vif_chanctx(&local->hw, &sdata->vif, &ctx->conf); } trace_drv_return_void(local); } int drv_switch_vif_chanctx(struct ieee80211_local *local, struct ieee80211_vif_chanctx_switch *vifs, int n_vifs, enum ieee80211_chanctx_switch_mode mode); static inline int drv_start_ap(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { int ret = 0; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_start_ap(local, sdata, &sdata->vif.bss_conf); if (local->ops->start_ap) ret = local->ops->start_ap(&local->hw, &sdata->vif); trace_drv_return_int(local, ret); return ret; } static inline void drv_stop_ap(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { if (!check_sdata_in_driver(sdata)) return; trace_drv_stop_ap(local, sdata); if (local->ops->stop_ap) local->ops->stop_ap(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline void drv_reconfig_complete(struct ieee80211_local *local, enum ieee80211_reconfig_type reconfig_type) { might_sleep(); trace_drv_reconfig_complete(local, reconfig_type); if (local->ops->reconfig_complete) local->ops->reconfig_complete(&local->hw, reconfig_type); trace_drv_return_void(local); } static inline void drv_set_default_unicast_key(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, int key_idx) { if (!check_sdata_in_driver(sdata)) return; WARN_ON_ONCE(key_idx < -1 || key_idx > 3); trace_drv_set_default_unicast_key(local, sdata, key_idx); if (local->ops->set_default_unicast_key) local->ops->set_default_unicast_key(&local->hw, &sdata->vif, key_idx); trace_drv_return_void(local); } #if IS_ENABLED(CONFIG_IPV6) static inline void drv_ipv6_addr_change(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct inet6_dev *idev) { trace_drv_ipv6_addr_change(local, sdata); if (local->ops->ipv6_addr_change) local->ops->ipv6_addr_change(&local->hw, &sdata->vif, idev); trace_drv_return_void(local); } #endif static inline void drv_channel_switch_beacon(struct ieee80211_sub_if_data *sdata, struct cfg80211_chan_def *chandef) { struct ieee80211_local *local = sdata->local; if (local->ops->channel_switch_beacon) { trace_drv_channel_switch_beacon(local, sdata, chandef); local->ops->channel_switch_beacon(&local->hw, &sdata->vif, chandef); } } static inline int drv_pre_channel_switch(struct ieee80211_sub_if_data *sdata, struct ieee80211_channel_switch *ch_switch) { struct ieee80211_local *local = sdata->local; int ret = 0; if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_pre_channel_switch(local, sdata, ch_switch); if (local->ops->pre_channel_switch) ret = local->ops->pre_channel_switch(&local->hw, &sdata->vif, ch_switch); trace_drv_return_int(local, ret); return ret; } static inline int drv_post_channel_switch(struct ieee80211_sub_if_data *sdata) { struct ieee80211_local *local = sdata->local; int ret = 0; if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_post_channel_switch(local, sdata); if (local->ops->post_channel_switch) ret = local->ops->post_channel_switch(&local->hw, &sdata->vif); trace_drv_return_int(local, ret); return ret; } static inline void drv_abort_channel_switch(struct ieee80211_sub_if_data *sdata) { struct ieee80211_local *local = sdata->local; if (!check_sdata_in_driver(sdata)) return; trace_drv_abort_channel_switch(local, sdata); if (local->ops->abort_channel_switch) local->ops->abort_channel_switch(&local->hw, &sdata->vif); } static inline void drv_channel_switch_rx_beacon(struct ieee80211_sub_if_data *sdata, struct ieee80211_channel_switch *ch_switch) { struct ieee80211_local *local = sdata->local; if (!check_sdata_in_driver(sdata)) return; trace_drv_channel_switch_rx_beacon(local, sdata, ch_switch); if (local->ops->channel_switch_rx_beacon) local->ops->channel_switch_rx_beacon(&local->hw, &sdata->vif, ch_switch); } static inline int drv_join_ibss(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { int ret = 0; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_join_ibss(local, sdata, &sdata->vif.bss_conf); if (local->ops->join_ibss) ret = local->ops->join_ibss(&local->hw, &sdata->vif); trace_drv_return_int(local, ret); return ret; } static inline void drv_leave_ibss(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { might_sleep(); if (!check_sdata_in_driver(sdata)) return; trace_drv_leave_ibss(local, sdata); if (local->ops->leave_ibss) local->ops->leave_ibss(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline u32 drv_get_expected_throughput(struct ieee80211_local *local, struct sta_info *sta) { u32 ret = 0; trace_drv_get_expected_throughput(&sta->sta); if (local->ops->get_expected_throughput && sta->uploaded) ret = local->ops->get_expected_throughput(&local->hw, &sta->sta); trace_drv_return_u32(local, ret); return ret; } static inline int drv_get_txpower(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, int *dbm) { int ret; if (!local->ops->get_txpower) return -EOPNOTSUPP; ret = local->ops->get_txpower(&local->hw, &sdata->vif, dbm); trace_drv_get_txpower(local, sdata, *dbm, ret); return ret; } static inline int drv_tdls_channel_switch(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, u8 oper_class, struct cfg80211_chan_def *chandef, struct sk_buff *tmpl_skb, u32 ch_sw_tm_ie) { int ret; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; if (!local->ops->tdls_channel_switch) return -EOPNOTSUPP; trace_drv_tdls_channel_switch(local, sdata, sta, oper_class, chandef); ret = local->ops->tdls_channel_switch(&local->hw, &sdata->vif, sta, oper_class, chandef, tmpl_skb, ch_sw_tm_ie); trace_drv_return_int(local, ret); return ret; } static inline void drv_tdls_cancel_channel_switch(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta) { might_sleep(); if (!check_sdata_in_driver(sdata)) return; if (!local->ops->tdls_cancel_channel_switch) return; trace_drv_tdls_cancel_channel_switch(local, sdata, sta); local->ops->tdls_cancel_channel_switch(&local->hw, &sdata->vif, sta); trace_drv_return_void(local); } static inline void drv_tdls_recv_channel_switch(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_tdls_ch_sw_params *params) { trace_drv_tdls_recv_channel_switch(local, sdata, params); if (local->ops->tdls_recv_channel_switch) local->ops->tdls_recv_channel_switch(&local->hw, &sdata->vif, params); trace_drv_return_void(local); } static inline void drv_wake_tx_queue(struct ieee80211_local *local, struct txq_info *txq) { struct ieee80211_sub_if_data *sdata = vif_to_sdata(txq->txq.vif); if (local->in_reconfig) return; if (!check_sdata_in_driver(sdata)) return; trace_drv_wake_tx_queue(local, sdata, txq); local->ops->wake_tx_queue(&local->hw, &txq->txq); } static inline void schedule_and_wake_txq(struct ieee80211_local *local, struct txq_info *txqi) { ieee80211_schedule_txq(&local->hw, &txqi->txq); drv_wake_tx_queue(local, txqi); } static inline int drv_can_aggregate_in_amsdu(struct ieee80211_local *local, struct sk_buff *head, struct sk_buff *skb) { if (!local->ops->can_aggregate_in_amsdu) return true; return local->ops->can_aggregate_in_amsdu(&local->hw, head, skb); } static inline int drv_get_ftm_responder_stats(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_ftm_responder_stats *ftm_stats) { u32 ret = -EOPNOTSUPP; if (local->ops->get_ftm_responder_stats) ret = local->ops->get_ftm_responder_stats(&local->hw, &sdata->vif, ftm_stats); trace_drv_get_ftm_responder_stats(local, sdata, ftm_stats); return ret; } static inline int drv_start_pmsr(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_pmsr_request *request) { int ret = -EOPNOTSUPP; might_sleep(); if (!check_sdata_in_driver(sdata)) return -EIO; trace_drv_start_pmsr(local, sdata); if (local->ops->start_pmsr) ret = local->ops->start_pmsr(&local->hw, &sdata->vif, request); trace_drv_return_int(local, ret); return ret; } static inline void drv_abort_pmsr(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_pmsr_request *request) { trace_drv_abort_pmsr(local, sdata); might_sleep(); if (!check_sdata_in_driver(sdata)) return; if (local->ops->abort_pmsr) local->ops->abort_pmsr(&local->hw, &sdata->vif, request); trace_drv_return_void(local); } static inline int drv_start_nan(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_nan_conf *conf) { int ret; might_sleep(); check_sdata_in_driver(sdata); trace_drv_start_nan(local, sdata, conf); ret = local->ops->start_nan(&local->hw, &sdata->vif, conf); trace_drv_return_int(local, ret); return ret; } static inline void drv_stop_nan(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { might_sleep(); check_sdata_in_driver(sdata); trace_drv_stop_nan(local, sdata); local->ops->stop_nan(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline int drv_nan_change_conf(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct cfg80211_nan_conf *conf, u32 changes) { int ret; might_sleep(); check_sdata_in_driver(sdata); if (!local->ops->nan_change_conf) return -EOPNOTSUPP; trace_drv_nan_change_conf(local, sdata, conf, changes); ret = local->ops->nan_change_conf(&local->hw, &sdata->vif, conf, changes); trace_drv_return_int(local, ret); return ret; } static inline int drv_add_nan_func(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, const struct cfg80211_nan_func *nan_func) { int ret; might_sleep(); check_sdata_in_driver(sdata); if (!local->ops->add_nan_func) return -EOPNOTSUPP; trace_drv_add_nan_func(local, sdata, nan_func); ret = local->ops->add_nan_func(&local->hw, &sdata->vif, nan_func); trace_drv_return_int(local, ret); return ret; } static inline void drv_del_nan_func(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, u8 instance_id) { might_sleep(); check_sdata_in_driver(sdata); trace_drv_del_nan_func(local, sdata, instance_id); if (local->ops->del_nan_func) local->ops->del_nan_func(&local->hw, &sdata->vif, instance_id); trace_drv_return_void(local); } static inline int drv_set_tid_config(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, struct cfg80211_tid_config *tid_conf) { int ret; might_sleep(); ret = local->ops->set_tid_config(&local->hw, &sdata->vif, sta, tid_conf); trace_drv_return_int(local, ret); return ret; } static inline int drv_reset_tid_config(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, u8 tids) { int ret; might_sleep(); ret = local->ops->reset_tid_config(&local->hw, &sdata->vif, sta, tids); trace_drv_return_int(local, ret); return ret; } static inline void drv_update_vif_offload(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata) { might_sleep(); check_sdata_in_driver(sdata); if (!local->ops->update_vif_offload) return; trace_drv_update_vif_offload(local, sdata); local->ops->update_vif_offload(&local->hw, &sdata->vif); trace_drv_return_void(local); } static inline void drv_sta_set_4addr(struct ieee80211_local *local, struct ieee80211_sub_if_data *sdata, struct ieee80211_sta *sta, bool enabled) { sdata = get_bss_sdata(sdata); if (!check_sdata_in_driver(sdata)) return; trace_drv_sta_set_4addr(local, sdata, sta, enabled); if (local->ops->sta_set_4addr) local->ops->sta_set_4addr(&local->hw, &sdata->vif, sta, enabled); trace_drv_return_void(local); } #endif /* __MAC80211_DRIVER_OPS */
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1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 // SPDX-License-Identifier: GPL-2.0 /* * property.c - Unified device property interface. * * Copyright (C) 2014, Intel Corporation * Authors: Rafael J. Wysocki <rafael.j.wysocki@intel.com> * Mika Westerberg <mika.westerberg@linux.intel.com> */ #include <linux/acpi.h> #include <linux/export.h> #include <linux/kernel.h> #include <linux/of.h> #include <linux/of_address.h> #include <linux/of_graph.h> #include <linux/of_irq.h> #include <linux/property.h> #include <linux/etherdevice.h> #include <linux/phy.h> struct fwnode_handle *dev_fwnode(struct device *dev) { return IS_ENABLED(CONFIG_OF) && dev->of_node ? &dev->of_node->fwnode : dev->fwnode; } EXPORT_SYMBOL_GPL(dev_fwnode); /** * device_property_present - check if a property of a device is present * @dev: Device whose property is being checked * @propname: Name of the property * * Check if property @propname is present in the device firmware description. */ bool device_property_present(struct device *dev, const char *propname) { return fwnode_property_present(dev_fwnode(dev), propname); } EXPORT_SYMBOL_GPL(device_property_present); /** * fwnode_property_present - check if a property of a firmware node is present * @fwnode: Firmware node whose property to check * @propname: Name of the property */ bool fwnode_property_present(const struct fwnode_handle *fwnode, const char *propname) { bool ret; ret = fwnode_call_bool_op(fwnode, property_present, propname); if (ret == false && !IS_ERR_OR_NULL(fwnode) && !IS_ERR_OR_NULL(fwnode->secondary)) ret = fwnode_call_bool_op(fwnode->secondary, property_present, propname); return ret; } EXPORT_SYMBOL_GPL(fwnode_property_present); /** * device_property_read_u8_array - return a u8 array property of a device * @dev: Device to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Function reads an array of u8 properties with @propname from the device * firmware description and stores them to @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected. * %-ENXIO if no suitable firmware interface is present. */ int device_property_read_u8_array(struct device *dev, const char *propname, u8 *val, size_t nval) { return fwnode_property_read_u8_array(dev_fwnode(dev), propname, val, nval); } EXPORT_SYMBOL_GPL(device_property_read_u8_array); /** * device_property_read_u16_array - return a u16 array property of a device * @dev: Device to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Function reads an array of u16 properties with @propname from the device * firmware description and stores them to @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected. * %-ENXIO if no suitable firmware interface is present. */ int device_property_read_u16_array(struct device *dev, const char *propname, u16 *val, size_t nval) { return fwnode_property_read_u16_array(dev_fwnode(dev), propname, val, nval); } EXPORT_SYMBOL_GPL(device_property_read_u16_array); /** * device_property_read_u32_array - return a u32 array property of a device * @dev: Device to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Function reads an array of u32 properties with @propname from the device * firmware description and stores them to @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected. * %-ENXIO if no suitable firmware interface is present. */ int device_property_read_u32_array(struct device *dev, const char *propname, u32 *val, size_t nval) { return fwnode_property_read_u32_array(dev_fwnode(dev), propname, val, nval); } EXPORT_SYMBOL_GPL(device_property_read_u32_array); /** * device_property_read_u64_array - return a u64 array property of a device * @dev: Device to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Function reads an array of u64 properties with @propname from the device * firmware description and stores them to @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected. * %-ENXIO if no suitable firmware interface is present. */ int device_property_read_u64_array(struct device *dev, const char *propname, u64 *val, size_t nval) { return fwnode_property_read_u64_array(dev_fwnode(dev), propname, val, nval); } EXPORT_SYMBOL_GPL(device_property_read_u64_array); /** * device_property_read_string_array - return a string array property of device * @dev: Device to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Function reads an array of string properties with @propname from the device * firmware description and stores them to @val if found. * * Return: number of values read on success if @val is non-NULL, * number of values available on success if @val is NULL, * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO or %-EILSEQ if the property is not an array of strings, * %-EOVERFLOW if the size of the property is not as expected. * %-ENXIO if no suitable firmware interface is present. */ int device_property_read_string_array(struct device *dev, const char *propname, const char **val, size_t nval) { return fwnode_property_read_string_array(dev_fwnode(dev), propname, val, nval); } EXPORT_SYMBOL_GPL(device_property_read_string_array); /** * device_property_read_string - return a string property of a device * @dev: Device to get the property of * @propname: Name of the property * @val: The value is stored here * * Function reads property @propname from the device firmware description and * stores the value into @val if found. The value is checked to be a string. * * Return: %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO or %-EILSEQ if the property type is not a string. * %-ENXIO if no suitable firmware interface is present. */ int device_property_read_string(struct device *dev, const char *propname, const char **val) { return fwnode_property_read_string(dev_fwnode(dev), propname, val); } EXPORT_SYMBOL_GPL(device_property_read_string); /** * device_property_match_string - find a string in an array and return index * @dev: Device to get the property of * @propname: Name of the property holding the array * @string: String to look for * * Find a given string in a string array and if it is found return the * index back. * * Return: %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of strings, * %-ENXIO if no suitable firmware interface is present. */ int device_property_match_string(struct device *dev, const char *propname, const char *string) { return fwnode_property_match_string(dev_fwnode(dev), propname, string); } EXPORT_SYMBOL_GPL(device_property_match_string); static int fwnode_property_read_int_array(const struct fwnode_handle *fwnode, const char *propname, unsigned int elem_size, void *val, size_t nval) { int ret; ret = fwnode_call_int_op(fwnode, property_read_int_array, propname, elem_size, val, nval); if (ret == -EINVAL && !IS_ERR_OR_NULL(fwnode) && !IS_ERR_OR_NULL(fwnode->secondary)) ret = fwnode_call_int_op( fwnode->secondary, property_read_int_array, propname, elem_size, val, nval); return ret; } /** * fwnode_property_read_u8_array - return a u8 array property of firmware node * @fwnode: Firmware node to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Read an array of u8 properties with @propname from @fwnode and stores them to * @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_read_u8_array(const struct fwnode_handle *fwnode, const char *propname, u8 *val, size_t nval) { return fwnode_property_read_int_array(fwnode, propname, sizeof(u8), val, nval); } EXPORT_SYMBOL_GPL(fwnode_property_read_u8_array); /** * fwnode_property_read_u16_array - return a u16 array property of firmware node * @fwnode: Firmware node to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Read an array of u16 properties with @propname from @fwnode and store them to * @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_read_u16_array(const struct fwnode_handle *fwnode, const char *propname, u16 *val, size_t nval) { return fwnode_property_read_int_array(fwnode, propname, sizeof(u16), val, nval); } EXPORT_SYMBOL_GPL(fwnode_property_read_u16_array); /** * fwnode_property_read_u32_array - return a u32 array property of firmware node * @fwnode: Firmware node to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Read an array of u32 properties with @propname from @fwnode store them to * @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_read_u32_array(const struct fwnode_handle *fwnode, const char *propname, u32 *val, size_t nval) { return fwnode_property_read_int_array(fwnode, propname, sizeof(u32), val, nval); } EXPORT_SYMBOL_GPL(fwnode_property_read_u32_array); /** * fwnode_property_read_u64_array - return a u64 array property firmware node * @fwnode: Firmware node to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Read an array of u64 properties with @propname from @fwnode and store them to * @val if found. * * Return: number of values if @val was %NULL, * %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of numbers, * %-EOVERFLOW if the size of the property is not as expected, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_read_u64_array(const struct fwnode_handle *fwnode, const char *propname, u64 *val, size_t nval) { return fwnode_property_read_int_array(fwnode, propname, sizeof(u64), val, nval); } EXPORT_SYMBOL_GPL(fwnode_property_read_u64_array); /** * fwnode_property_read_string_array - return string array property of a node * @fwnode: Firmware node to get the property of * @propname: Name of the property * @val: The values are stored here or %NULL to return the number of values * @nval: Size of the @val array * * Read an string list property @propname from the given firmware node and store * them to @val if found. * * Return: number of values read on success if @val is non-NULL, * number of values available on success if @val is NULL, * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO or %-EILSEQ if the property is not an array of strings, * %-EOVERFLOW if the size of the property is not as expected, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_read_string_array(const struct fwnode_handle *fwnode, const char *propname, const char **val, size_t nval) { int ret; ret = fwnode_call_int_op(fwnode, property_read_string_array, propname, val, nval); if (ret == -EINVAL && !IS_ERR_OR_NULL(fwnode) && !IS_ERR_OR_NULL(fwnode->secondary)) ret = fwnode_call_int_op(fwnode->secondary, property_read_string_array, propname, val, nval); return ret; } EXPORT_SYMBOL_GPL(fwnode_property_read_string_array); /** * fwnode_property_read_string - return a string property of a firmware node * @fwnode: Firmware node to get the property of * @propname: Name of the property * @val: The value is stored here * * Read property @propname from the given firmware node and store the value into * @val if found. The value is checked to be a string. * * Return: %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO or %-EILSEQ if the property is not a string, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_read_string(const struct fwnode_handle *fwnode, const char *propname, const char **val) { int ret = fwnode_property_read_string_array(fwnode, propname, val, 1); return ret < 0 ? ret : 0; } EXPORT_SYMBOL_GPL(fwnode_property_read_string); /** * fwnode_property_match_string - find a string in an array and return index * @fwnode: Firmware node to get the property of * @propname: Name of the property holding the array * @string: String to look for * * Find a given string in a string array and if it is found return the * index back. * * Return: %0 if the property was found (success), * %-EINVAL if given arguments are not valid, * %-ENODATA if the property does not have a value, * %-EPROTO if the property is not an array of strings, * %-ENXIO if no suitable firmware interface is present. */ int fwnode_property_match_string(const struct fwnode_handle *fwnode, const char *propname, const char *string) { const char **values; int nval, ret; nval = fwnode_property_read_string_array(fwnode, propname, NULL, 0); if (nval < 0) return nval; if (nval == 0) return -ENODATA; values = kcalloc(nval, sizeof(*values), GFP_KERNEL); if (!values) return -ENOMEM; ret = fwnode_property_read_string_array(fwnode, propname, values, nval); if (ret < 0) goto out; ret = match_string(values, nval, string); if (ret < 0) ret = -ENODATA; out: kfree(values); return ret; } EXPORT_SYMBOL_GPL(fwnode_property_match_string); /** * fwnode_property_get_reference_args() - Find a reference with arguments * @fwnode: Firmware node where to look for the reference * @prop: The name of the property * @nargs_prop: The name of the property telling the number of * arguments in the referred node. NULL if @nargs is known, * otherwise @nargs is ignored. Only relevant on OF. * @nargs: Number of arguments. Ignored if @nargs_prop is non-NULL. * @index: Index of the reference, from zero onwards. * @args: Result structure with reference and integer arguments. * * Obtain a reference based on a named property in an fwnode, with * integer arguments. * * Caller is responsible to call fwnode_handle_put() on the returned * args->fwnode pointer. * * Returns: %0 on success * %-ENOENT when the index is out of bounds, the index has an empty * reference or the property was not found * %-EINVAL on parse error */ int fwnode_property_get_reference_args(const struct fwnode_handle *fwnode, const char *prop, const char *nargs_prop, unsigned int nargs, unsigned int index, struct fwnode_reference_args *args) { return fwnode_call_int_op(fwnode, get_reference_args, prop, nargs_prop, nargs, index, args); } EXPORT_SYMBOL_GPL(fwnode_property_get_reference_args); /** * fwnode_find_reference - Find named reference to a fwnode_handle * @fwnode: Firmware node where to look for the reference * @name: The name of the reference * @index: Index of the reference * * @index can be used when the named reference holds a table of references. * * Returns pointer to the reference fwnode, or ERR_PTR. Caller is responsible to * call fwnode_handle_put() on the returned fwnode pointer. */ struct fwnode_handle *fwnode_find_reference(const struct fwnode_handle *fwnode, const char *name, unsigned int index) { struct fwnode_reference_args args; int ret; ret = fwnode_property_get_reference_args(fwnode, name, NULL, 0, index, &args); return ret ? ERR_PTR(ret) : args.fwnode; } EXPORT_SYMBOL_GPL(fwnode_find_reference); /** * device_remove_properties - Remove properties from a device object. * @dev: Device whose properties to remove. * * The function removes properties previously associated to the device * firmware node with device_add_properties(). Memory allocated to the * properties will also be released. */ void device_remove_properties(struct device *dev) { struct fwnode_handle *fwnode = dev_fwnode(dev); if (!fwnode) return; if (is_software_node(fwnode->secondary)) { fwnode_remove_software_node(fwnode->secondary); set_secondary_fwnode(dev, NULL); } } EXPORT_SYMBOL_GPL(device_remove_properties); /** * device_add_properties - Add a collection of properties to a device object. * @dev: Device to add properties to. * @properties: Collection of properties to add. * * Associate a collection of device properties represented by @properties with * @dev. The function takes a copy of @properties. * * WARNING: The callers should not use this function if it is known that there * is no real firmware node associated with @dev! In that case the callers * should create a software node and assign it to @dev directly. */ int device_add_properties(struct device *dev, const struct property_entry *properties) { struct fwnode_handle *fwnode; fwnode = fwnode_create_software_node(properties, NULL); if (IS_ERR(fwnode)) return PTR_ERR(fwnode); set_secondary_fwnode(dev, fwnode); return 0; } EXPORT_SYMBOL_GPL(device_add_properties); /** * fwnode_get_name - Return the name of a node * @fwnode: The firmware node * * Returns a pointer to the node name. */ const char *fwnode_get_name(const struct fwnode_handle *fwnode) { return fwnode_call_ptr_op(fwnode, get_name); } EXPORT_SYMBOL_GPL(fwnode_get_name); /** * fwnode_get_name_prefix - Return the prefix of node for printing purposes * @fwnode: The firmware node * * Returns the prefix of a node, intended to be printed right before the node. * The prefix works also as a separator between the nodes. */ const char *fwnode_get_name_prefix(const struct fwnode_handle *fwnode) { return fwnode_call_ptr_op(fwnode, get_name_prefix); } /** * fwnode_get_parent - Return parent firwmare node * @fwnode: Firmware whose parent is retrieved * * Return parent firmware node of the given node if possible or %NULL if no * parent was available. */ struct fwnode_handle *fwnode_get_parent(const struct fwnode_handle *fwnode) { return fwnode_call_ptr_op(fwnode, get_parent); } EXPORT_SYMBOL_GPL(fwnode_get_parent); /** * fwnode_get_next_parent - Iterate to the node's parent * @fwnode: Firmware whose parent is retrieved * * This is like fwnode_get_parent() except that it drops the refcount * on the passed node, making it suitable for iterating through a * node's parents. * * Returns a node pointer with refcount incremented, use * fwnode_handle_node() on it when done. */ struct fwnode_handle *fwnode_get_next_parent(struct fwnode_handle *fwnode) { struct fwnode_handle *parent = fwnode_get_parent(fwnode); fwnode_handle_put(fwnode); return parent; } EXPORT_SYMBOL_GPL(fwnode_get_next_parent); /** * fwnode_count_parents - Return the number of parents a node has * @fwnode: The node the parents of which are to be counted * * Returns the number of parents a node has. */ unsigned int fwnode_count_parents(const struct fwnode_handle *fwnode) { struct fwnode_handle *__fwnode; unsigned int count; __fwnode = fwnode_get_parent(fwnode); for (count = 0; __fwnode; count++) __fwnode = fwnode_get_next_parent(__fwnode); return count; } EXPORT_SYMBOL_GPL(fwnode_count_parents); /** * fwnode_get_nth_parent - Return an nth parent of a node * @fwnode: The node the parent of which is requested * @depth: Distance of the parent from the node * * Returns the nth parent of a node. If there is no parent at the requested * @depth, %NULL is returned. If @depth is 0, the functionality is equivalent to * fwnode_handle_get(). For @depth == 1, it is fwnode_get_parent() and so on. * * The caller is responsible for calling fwnode_handle_put() for the returned * node. */ struct fwnode_handle *fwnode_get_nth_parent(struct fwnode_handle *fwnode, unsigned int depth) { unsigned int i; fwnode_handle_get(fwnode); for (i = 0; i < depth && fwnode; i++) fwnode = fwnode_get_next_parent(fwnode); return fwnode; } EXPORT_SYMBOL_GPL(fwnode_get_nth_parent); /** * fwnode_get_next_child_node - Return the next child node handle for a node * @fwnode: Firmware node to find the next child node for. * @child: Handle to one of the node's child nodes or a %NULL handle. */ struct fwnode_handle * fwnode_get_next_child_node(const struct fwnode_handle *fwnode, struct fwnode_handle *child) { return fwnode_call_ptr_op(fwnode, get_next_child_node, child); } EXPORT_SYMBOL_GPL(fwnode_get_next_child_node); /** * fwnode_get_next_available_child_node - Return the next * available child node handle for a node * @fwnode: Firmware node to find the next child node for. * @child: Handle to one of the node's child nodes or a %NULL handle. */ struct fwnode_handle * fwnode_get_next_available_child_node(const struct fwnode_handle *fwnode, struct fwnode_handle *child) { struct fwnode_handle *next_child = child; if (!fwnode) return NULL; do { next_child = fwnode_get_next_child_node(fwnode, next_child); if (!next_child || fwnode_device_is_available(next_child)) break; } while (next_child); return next_child; } EXPORT_SYMBOL_GPL(fwnode_get_next_available_child_node); /** * device_get_next_child_node - Return the next child node handle for a device * @dev: Device to find the next child node for. * @child: Handle to one of the device's child nodes or a null handle. */ struct fwnode_handle *device_get_next_child_node(struct device *dev, struct fwnode_handle *child) { struct acpi_device *adev = ACPI_COMPANION(dev); struct fwnode_handle *fwnode = NULL, *next; if (dev->of_node) fwnode = &dev->of_node->fwnode; else if (adev) fwnode = acpi_fwnode_handle(adev); /* Try to find a child in primary fwnode */ next = fwnode_get_next_child_node(fwnode, child); if (next) return next; /* When no more children in primary, continue with secondary */ if (fwnode && !IS_ERR_OR_NULL(fwnode->secondary)) next = fwnode_get_next_child_node(fwnode->secondary, child); return next; } EXPORT_SYMBOL_GPL(device_get_next_child_node); /** * fwnode_get_named_child_node - Return first matching named child node handle * @fwnode: Firmware node to find the named child node for. * @childname: String to match child node name against. */ struct fwnode_handle * fwnode_get_named_child_node(const struct fwnode_handle *fwnode, const char *childname) { return fwnode_call_ptr_op(fwnode, get_named_child_node, childname); } EXPORT_SYMBOL_GPL(fwnode_get_named_child_node); /** * device_get_named_child_node - Return first matching named child node handle * @dev: Device to find the named child node for. * @childname: String to match child node name against. */ struct fwnode_handle *device_get_named_child_node(struct device *dev, const char *childname) { return fwnode_get_named_child_node(dev_fwnode(dev), childname); } EXPORT_SYMBOL_GPL(device_get_named_child_node); /** * fwnode_handle_get - Obtain a reference to a device node * @fwnode: Pointer to the device node to obtain the reference to. * * Returns the fwnode handle. */ struct fwnode_handle *fwnode_handle_get(struct fwnode_handle *fwnode) { if (!fwnode_has_op(fwnode, get)) return fwnode; return fwnode_call_ptr_op(fwnode, get); } EXPORT_SYMBOL_GPL(fwnode_handle_get); /** * fwnode_handle_put - Drop reference to a device node * @fwnode: Pointer to the device node to drop the reference to. * * This has to be used when terminating device_for_each_child_node() iteration * with break or return to prevent stale device node references from being left * behind. */ void fwnode_handle_put(struct fwnode_handle *fwnode) { fwnode_call_void_op(fwnode, put); } EXPORT_SYMBOL_GPL(fwnode_handle_put); /** * fwnode_device_is_available - check if a device is available for use * @fwnode: Pointer to the fwnode of the device. */ bool fwnode_device_is_available(const struct fwnode_handle *fwnode) { return fwnode_call_bool_op(fwnode, device_is_available); } EXPORT_SYMBOL_GPL(fwnode_device_is_available); /** * device_get_child_node_count - return the number of child nodes for device * @dev: Device to cound the child nodes for */ unsigned int device_get_child_node_count(struct device *dev) { struct fwnode_handle *child; unsigned int count = 0; device_for_each_child_node(dev, child) count++; return count; } EXPORT_SYMBOL_GPL(device_get_child_node_count); bool device_dma_supported(struct device *dev) { /* For DT, this is always supported. * For ACPI, this depends on CCA, which * is determined by the acpi_dma_supported(). */ if (IS_ENABLED(CONFIG_OF) && dev->of_node) return true; return acpi_dma_supported(ACPI_COMPANION(dev)); } EXPORT_SYMBOL_GPL(device_dma_supported); enum dev_dma_attr device_get_dma_attr(struct device *dev) { enum dev_dma_attr attr = DEV_DMA_NOT_SUPPORTED; if (IS_ENABLED(CONFIG_OF) && dev->of_node) { if (of_dma_is_coherent(dev->of_node)) attr = DEV_DMA_COHERENT; else attr = DEV_DMA_NON_COHERENT; } else attr = acpi_get_dma_attr(ACPI_COMPANION(dev)); return attr; } EXPORT_SYMBOL_GPL(device_get_dma_attr); /** * fwnode_get_phy_mode - Get phy mode for given firmware node * @fwnode: Pointer to the given node * * The function gets phy interface string from property 'phy-mode' or * 'phy-connection-type', and return its index in phy_modes table, or errno in * error case. */ int fwnode_get_phy_mode(struct fwnode_handle *fwnode) { const char *pm; int err, i; err = fwnode_property_read_string(fwnode, "phy-mode", &pm); if (err < 0) err = fwnode_property_read_string(fwnode, "phy-connection-type", &pm); if (err < 0) return err; for (i = 0; i < PHY_INTERFACE_MODE_MAX; i++) if (!strcasecmp(pm, phy_modes(i))) return i; return -ENODEV; } EXPORT_SYMBOL_GPL(fwnode_get_phy_mode); /** * device_get_phy_mode - Get phy mode for given device * @dev: Pointer to the given device * * The function gets phy interface string from property 'phy-mode' or * 'phy-connection-type', and return its index in phy_modes table, or errno in * error case. */ int device_get_phy_mode(struct device *dev) { return fwnode_get_phy_mode(dev_fwnode(dev)); } EXPORT_SYMBOL_GPL(device_get_phy_mode); static void *fwnode_get_mac_addr(struct fwnode_handle *fwnode, const char *name, char *addr, int alen) { int ret = fwnode_property_read_u8_array(fwnode, name, addr, alen); if (ret == 0 && alen == ETH_ALEN && is_valid_ether_addr(addr)) return addr; return NULL; } /** * fwnode_get_mac_address - Get the MAC from the firmware node * @fwnode: Pointer to the firmware node * @addr: Address of buffer to store the MAC in * @alen: Length of the buffer pointed to by addr, should be ETH_ALEN * * Search the firmware node for the best MAC address to use. 'mac-address' is * checked first, because that is supposed to contain to "most recent" MAC * address. If that isn't set, then 'local-mac-address' is checked next, * because that is the default address. If that isn't set, then the obsolete * 'address' is checked, just in case we're using an old device tree. * * Note that the 'address' property is supposed to contain a virtual address of * the register set, but some DTS files have redefined that property to be the * MAC address. * * All-zero MAC addresses are rejected, because those could be properties that * exist in the firmware tables, but were not updated by the firmware. For * example, the DTS could define 'mac-address' and 'local-mac-address', with * zero MAC addresses. Some older U-Boots only initialized 'local-mac-address'. * In this case, the real MAC is in 'local-mac-address', and 'mac-address' * exists but is all zeros. */ void *fwnode_get_mac_address(struct fwnode_handle *fwnode, char *addr, int alen) { char *res; res = fwnode_get_mac_addr(fwnode, "mac-address", addr, alen); if (res) return res; res = fwnode_get_mac_addr(fwnode, "local-mac-address", addr, alen); if (res) return res; return fwnode_get_mac_addr(fwnode, "address", addr, alen); } EXPORT_SYMBOL(fwnode_get_mac_address); /** * device_get_mac_address - Get the MAC for a given device * @dev: Pointer to the device * @addr: Address of buffer to store the MAC in * @alen: Length of the buffer pointed to by addr, should be ETH_ALEN */ void *device_get_mac_address(struct device *dev, char *addr, int alen) { return fwnode_get_mac_address(dev_fwnode(dev), addr, alen); } EXPORT_SYMBOL(device_get_mac_address); /** * fwnode_irq_get - Get IRQ directly from a fwnode * @fwnode: Pointer to the firmware node * @index: Zero-based index of the IRQ * * Returns Linux IRQ number on success. Other values are determined * accordingly to acpi_/of_ irq_get() operation. */ int fwnode_irq_get(struct fwnode_handle *fwnode, unsigned int index) { struct device_node *of_node = to_of_node(fwnode); struct resource res; int ret; if (IS_ENABLED(CONFIG_OF) && of_node) return of_irq_get(of_node, index); ret = acpi_irq_get(ACPI_HANDLE_FWNODE(fwnode), index, &res); if (ret) return ret; return res.start; } EXPORT_SYMBOL(fwnode_irq_get); /** * fwnode_graph_get_next_endpoint - Get next endpoint firmware node * @fwnode: Pointer to the parent firmware node * @prev: Previous endpoint node or %NULL to get the first * * Returns an endpoint firmware node pointer or %NULL if no more endpoints * are available. */ struct fwnode_handle * fwnode_graph_get_next_endpoint(const struct fwnode_handle *fwnode, struct fwnode_handle *prev) { return fwnode_call_ptr_op(fwnode, graph_get_next_endpoint, prev); } EXPORT_SYMBOL_GPL(fwnode_graph_get_next_endpoint); /** * fwnode_graph_get_port_parent - Return the device fwnode of a port endpoint * @endpoint: Endpoint firmware node of the port * * Return: the firmware node of the device the @endpoint belongs to. */ struct fwnode_handle * fwnode_graph_get_port_parent(const struct fwnode_handle *endpoint) { struct fwnode_handle *port, *parent; port = fwnode_get_parent(endpoint); parent = fwnode_call_ptr_op(port, graph_get_port_parent); fwnode_handle_put(port); return parent; } EXPORT_SYMBOL_GPL(fwnode_graph_get_port_parent); /** * fwnode_graph_get_remote_port_parent - Return fwnode of a remote device * @fwnode: Endpoint firmware node pointing to the remote endpoint * * Extracts firmware node of a remote device the @fwnode points to. */ struct fwnode_handle * fwnode_graph_get_remote_port_parent(const struct fwnode_handle *fwnode) { struct fwnode_handle *endpoint, *parent; endpoint = fwnode_graph_get_remote_endpoint(fwnode); parent = fwnode_graph_get_port_parent(endpoint); fwnode_handle_put(endpoint); return parent; } EXPORT_SYMBOL_GPL(fwnode_graph_get_remote_port_parent); /** * fwnode_graph_get_remote_port - Return fwnode of a remote port * @fwnode: Endpoint firmware node pointing to the remote endpoint * * Extracts firmware node of a remote port the @fwnode points to. */ struct fwnode_handle * fwnode_graph_get_remote_port(const struct fwnode_handle *fwnode) { return fwnode_get_next_parent(fwnode_graph_get_remote_endpoint(fwnode)); } EXPORT_SYMBOL_GPL(fwnode_graph_get_remote_port); /** * fwnode_graph_get_remote_endpoint - Return fwnode of a remote endpoint * @fwnode: Endpoint firmware node pointing to the remote endpoint * * Extracts firmware node of a remote endpoint the @fwnode points to. */ struct fwnode_handle * fwnode_graph_get_remote_endpoint(const struct fwnode_handle *fwnode) { return fwnode_call_ptr_op(fwnode, graph_get_remote_endpoint); } EXPORT_SYMBOL_GPL(fwnode_graph_get_remote_endpoint); /** * fwnode_graph_get_remote_node - get remote parent node for given port/endpoint * @fwnode: pointer to parent fwnode_handle containing graph port/endpoint * @port_id: identifier of the parent port node * @endpoint_id: identifier of the endpoint node * * Return: Remote fwnode handle associated with remote endpoint node linked * to @node. Use fwnode_node_put() on it when done. */ struct fwnode_handle * fwnode_graph_get_remote_node(const struct fwnode_handle *fwnode, u32 port_id, u32 endpoint_id) { struct fwnode_handle *endpoint = NULL; while ((endpoint = fwnode_graph_get_next_endpoint(fwnode, endpoint))) { struct fwnode_endpoint fwnode_ep; struct fwnode_handle *remote; int ret; ret = fwnode_graph_parse_endpoint(endpoint, &fwnode_ep); if (ret < 0) continue; if (fwnode_ep.port != port_id || fwnode_ep.id != endpoint_id) continue; remote = fwnode_graph_get_remote_port_parent(endpoint); if (!remote) return NULL; return fwnode_device_is_available(remote) ? remote : NULL; } return NULL; } EXPORT_SYMBOL_GPL(fwnode_graph_get_remote_node); /** * fwnode_graph_get_endpoint_by_id - get endpoint by port and endpoint numbers * @fwnode: parent fwnode_handle containing the graph * @port: identifier of the port node * @endpoint: identifier of the endpoint node under the port node * @flags: fwnode lookup flags * * Return the fwnode handle of the local endpoint corresponding the port and * endpoint IDs or NULL if not found. * * If FWNODE_GRAPH_ENDPOINT_NEXT is passed in @flags and the specified endpoint * has not been found, look for the closest endpoint ID greater than the * specified one and return the endpoint that corresponds to it, if present. * * Do not return endpoints that belong to disabled devices, unless * FWNODE_GRAPH_DEVICE_DISABLED is passed in @flags. * * The returned endpoint needs to be released by calling fwnode_handle_put() on * it when it is not needed any more. */ struct fwnode_handle * fwnode_graph_get_endpoint_by_id(const struct fwnode_handle *fwnode, u32 port, u32 endpoint, unsigned long flags) { struct fwnode_handle *ep = NULL, *best_ep = NULL; unsigned int best_ep_id = 0; bool endpoint_next = flags & FWNODE_GRAPH_ENDPOINT_NEXT; bool enabled_only = !(flags & FWNODE_GRAPH_DEVICE_DISABLED); while ((ep = fwnode_graph_get_next_endpoint(fwnode, ep))) { struct fwnode_endpoint fwnode_ep = { 0 }; int ret; if (enabled_only) { struct fwnode_handle *dev_node; bool available; dev_node = fwnode_graph_get_remote_port_parent(ep); available = fwnode_device_is_available(dev_node); fwnode_handle_put(dev_node); if (!available) continue; } ret = fwnode_graph_parse_endpoint(ep, &fwnode_ep); if (ret < 0) continue; if (fwnode_ep.port != port) continue; if (fwnode_ep.id == endpoint) return ep; if (!endpoint_next) continue; /* * If the endpoint that has just been found is not the first * matching one and the ID of the one found previously is closer * to the requested endpoint ID, skip it. */ if (fwnode_ep.id < endpoint || (best_ep && best_ep_id < fwnode_ep.id)) continue; fwnode_handle_put(best_ep); best_ep = fwnode_handle_get(ep); best_ep_id = fwnode_ep.id; } return best_ep; } EXPORT_SYMBOL_GPL(fwnode_graph_get_endpoint_by_id); /** * fwnode_graph_parse_endpoint - parse common endpoint node properties * @fwnode: pointer to endpoint fwnode_handle * @endpoint: pointer to the fwnode endpoint data structure * * Parse @fwnode representing a graph endpoint node and store the * information in @endpoint. The caller must hold a reference to * @fwnode. */ int fwnode_graph_parse_endpoint(const struct fwnode_handle *fwnode, struct fwnode_endpoint *endpoint) { memset(endpoint, 0, sizeof(*endpoint)); return fwnode_call_int_op(fwnode, graph_parse_endpoint, endpoint); } EXPORT_SYMBOL(fwnode_graph_parse_endpoint); const void *device_get_match_data(struct device *dev) { return fwnode_call_ptr_op(dev_fwnode(dev), device_get_match_data, dev); } EXPORT_SYMBOL_GPL(device_get_match_data); static void * fwnode_graph_devcon_match(struct fwnode_handle *fwnode, const char *con_id, void *data, devcon_match_fn_t match) { struct fwnode_handle *node; struct fwnode_handle *ep; void *ret; fwnode_graph_for_each_endpoint(fwnode, ep) { node = fwnode_graph_get_remote_port_parent(ep); if (!fwnode_device_is_available(node)) continue; ret = match(node, con_id, data); fwnode_handle_put(node); if (ret) { fwnode_handle_put(ep); return ret; } } return NULL; } static void * fwnode_devcon_match(struct fwnode_handle *fwnode, const char *con_id, void *data, devcon_match_fn_t match) { struct fwnode_handle *node; void *ret; int i; for (i = 0; ; i++) { node = fwnode_find_reference(fwnode, con_id, i); if (IS_ERR(node)) break; ret = match(node, NULL, data); fwnode_handle_put(node); if (ret) return ret; } return NULL; } /** * fwnode_connection_find_match - Find connection from a device node * @fwnode: Device node with the connection * @con_id: Identifier for the connection * @data: Data for the match function * @match: Function to check and convert the connection description * * Find a connection with unique identifier @con_id between @fwnode and another * device node. @match will be used to convert the connection description to * data the caller is expecting to be returned. */ void *fwnode_connection_find_match(struct fwnode_handle *fwnode, const char *con_id, void *data, devcon_match_fn_t match) { void *ret; if (!fwnode || !match) return NULL; ret = fwnode_graph_devcon_match(fwnode, con_id, data, match); if (ret) return ret; return fwnode_devcon_match(fwnode, con_id, data, match); } EXPORT_SYMBOL_GPL(fwnode_connection_find_match);
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 /* SPDX-License-Identifier: GPL-2.0 */ #ifndef _LINUX_TTY_H #define _LINUX_TTY_H #include <linux/fs.h> #include <linux/major.h> #include <linux/termios.h> #include <linux/workqueue.h> #include <linux/tty_driver.h> #include <linux/tty_ldisc.h> #include <linux/mutex.h> #include <linux/tty_flags.h> #include <linux/seq_file.h> #include <uapi/linux/tty.h> #include <linux/rwsem.h> #include <linux/llist.h> /* * Lock subclasses for tty locks * * TTY_LOCK_NORMAL is for normal ttys and master ptys. * TTY_LOCK_SLAVE is for slave ptys only. * * Lock subclasses are necessary for handling nested locking with pty pairs. * tty locks which use nested locking: * * legacy_mutex - Nested tty locks are necessary for releasing pty pairs. * The stable lock order is master pty first, then slave pty. * termios_rwsem - The stable lock order is tty_buffer lock->termios_rwsem. * Subclassing this lock enables the slave pty to hold its * termios_rwsem when claiming the master tty_buffer lock. * tty_buffer lock - slave ptys can claim nested buffer lock when handling * signal chars. The stable lock order is slave pty, then * master. */ enum { TTY_LOCK_NORMAL = 0, TTY_LOCK_SLAVE, }; /* * (Note: the *_driver.minor_start values 1, 64, 128, 192 are * hardcoded at present.) */ #define NR_UNIX98_PTY_DEFAULT 4096 /* Default maximum for Unix98 ptys */ #define NR_UNIX98_PTY_RESERVE 1024 /* Default reserve for main devpts */ #define NR_UNIX98_PTY_MAX (1 << MINORBITS) /* Absolute limit */ /* * This character is the same as _POSIX_VDISABLE: it cannot be used as * a c_cc[] character, but indicates that a particular special character * isn't in use (eg VINTR has no character etc) */ #define __DISABLED_CHAR '\0' struct tty_buffer { union { struct tty_buffer *next; struct llist_node free; }; int used; int size; int commit; int read; int flags; /* Data points here */ unsigned long data[]; }; /* Values for .flags field of tty_buffer */ #define TTYB_NORMAL 1 /* buffer has no flags buffer */ static inline unsigned char *char_buf_ptr(struct tty_buffer *b, int ofs) { return ((unsigned char *)b->data) + ofs; } static inline char *flag_buf_ptr(struct tty_buffer *b, int ofs) { return (char *)char_buf_ptr(b, ofs) + b->size; } struct tty_bufhead { struct tty_buffer *head; /* Queue head */ struct work_struct work; struct mutex lock; atomic_t priority; struct tty_buffer sentinel; struct llist_head free; /* Free queue head */ atomic_t mem_used; /* In-use buffers excluding free list */ int mem_limit; struct tty_buffer *tail; /* Active buffer */ }; /* * When a break, frame error, or parity error happens, these codes are * stuffed into the flags buffer. */ #define TTY_NORMAL 0 #define TTY_BREAK 1 #define TTY_FRAME 2 #define TTY_PARITY 3 #define TTY_OVERRUN 4 #define INTR_CHAR(tty) ((tty)->termios.c_cc[VINTR]) #define QUIT_CHAR(tty) ((tty)->termios.c_cc[VQUIT]) #define ERASE_CHAR(tty) ((tty)->termios.c_cc[VERASE]) #define KILL_CHAR(tty) ((tty)->termios.c_cc[VKILL]) #define EOF_CHAR(tty) ((tty)->termios.c_cc[VEOF]) #define TIME_CHAR(tty) ((tty)->termios.c_cc[VTIME]) #define MIN_CHAR(tty) ((tty)->termios.c_cc[VMIN]) #define SWTC_CHAR(tty) ((tty)->termios.c_cc[VSWTC]) #define START_CHAR(tty) ((tty)->termios.c_cc[VSTART]) #define STOP_CHAR(tty) ((tty)->termios.c_cc[VSTOP]) #define SUSP_CHAR(tty) ((tty)->termios.c_cc[VSUSP]) #define EOL_CHAR(tty) ((tty)->termios.c_cc[VEOL]) #define REPRINT_CHAR(tty) ((tty)->termios.c_cc[VREPRINT]) #define DISCARD_CHAR(tty) ((tty)->termios.c_cc[VDISCARD]) #define WERASE_CHAR(tty) ((tty)->termios.c_cc[VWERASE]) #define LNEXT_CHAR(tty) ((tty)->termios.c_cc[VLNEXT]) #define EOL2_CHAR(tty) ((tty)->termios.c_cc[VEOL2]) #define _I_FLAG(tty, f) ((tty)->termios.c_iflag & (f)) #define _O_FLAG(tty, f) ((tty)->termios.c_oflag & (f)) #define _C_FLAG(tty, f) ((tty)->termios.c_cflag & (f)) #define _L_FLAG(tty, f) ((tty)->termios.c_lflag & (f)) #define I_IGNBRK(tty) _I_FLAG((tty), IGNBRK) #define I_BRKINT(tty) _I_FLAG((tty), BRKINT) #define I_IGNPAR(tty) _I_FLAG((tty), IGNPAR) #define I_PARMRK(tty) _I_FLAG((tty), PARMRK) #define I_INPCK(tty) _I_FLAG((tty), INPCK) #define I_ISTRIP(tty) _I_FLAG((tty), ISTRIP) #define I_INLCR(tty) _I_FLAG((tty), INLCR) #define I_IGNCR(tty) _I_FLAG((tty), IGNCR) #define I_ICRNL(tty) _I_FLAG((tty), ICRNL) #define I_IUCLC(tty) _I_FLAG((tty), IUCLC) #define I_IXON(tty) _I_FLAG((tty), IXON) #define I_IXANY(tty) _I_FLAG((tty), IXANY) #define I_IXOFF(tty) _I_FLAG((tty), IXOFF) #define I_IMAXBEL(tty) _I_FLAG((tty), IMAXBEL) #define I_IUTF8(tty) _I_FLAG((tty), IUTF8) #define O_OPOST(tty) _O_FLAG((tty), OPOST) #define O_OLCUC(tty) _O_FLAG((tty), OLCUC) #define O_ONLCR(tty) _O_FLAG((tty), ONLCR) #define O_OCRNL(tty) _O_FLAG((tty), OCRNL) #define O_ONOCR(tty) _O_FLAG((tty), ONOCR) #define O_ONLRET(tty) _O_FLAG((tty), ONLRET) #define O_OFILL(tty) _O_FLAG((tty), OFILL) #define O_OFDEL(tty) _O_FLAG((tty), OFDEL) #define O_NLDLY(tty) _O_FLAG((tty), NLDLY) #define O_CRDLY(tty) _O_FLAG((tty), CRDLY) #define O_TABDLY(tty) _O_FLAG((tty), TABDLY) #define O_BSDLY(tty) _O_FLAG((tty), BSDLY) #define O_VTDLY(tty) _O_FLAG((tty), VTDLY) #define O_FFDLY(tty) _O_FLAG((tty), FFDLY) #define C_BAUD(tty) _C_FLAG((tty), CBAUD) #define C_CSIZE(tty) _C_FLAG((tty), CSIZE) #define C_CSTOPB(tty) _C_FLAG((tty), CSTOPB) #define C_CREAD(tty) _C_FLAG((tty), CREAD) #define C_PARENB(tty) _C_FLAG((tty), PARENB) #define C_PARODD(tty) _C_FLAG((tty), PARODD) #define C_HUPCL(tty) _C_FLAG((tty), HUPCL) #define C_CLOCAL(tty) _C_FLAG((tty), CLOCAL) #define C_CIBAUD(tty) _C_FLAG((tty), CIBAUD) #define C_CRTSCTS(tty) _C_FLAG((tty), CRTSCTS) #define C_CMSPAR(tty) _C_FLAG((tty), CMSPAR) #define L_ISIG(tty) _L_FLAG((tty), ISIG) #define L_ICANON(tty) _L_FLAG((tty), ICANON) #define L_XCASE(tty) _L_FLAG((tty), XCASE) #define L_ECHO(tty) _L_FLAG((tty), ECHO) #define L_ECHOE(tty) _L_FLAG((tty), ECHOE) #define L_ECHOK(tty) _L_FLAG((tty), ECHOK) #define L_ECHONL(tty) _L_FLAG((tty), ECHONL) #define L_NOFLSH(tty) _L_FLAG((tty), NOFLSH) #define L_TOSTOP(tty) _L_FLAG((tty), TOSTOP) #define L_ECHOCTL(tty) _L_FLAG((tty), ECHOCTL) #define L_ECHOPRT(tty) _L_FLAG((tty), ECHOPRT) #define L_ECHOKE(tty) _L_FLAG((tty), ECHOKE) #define L_FLUSHO(tty) _L_FLAG((tty), FLUSHO) #define L_PENDIN(tty) _L_FLAG((tty), PENDIN) #define L_IEXTEN(tty) _L_FLAG((tty), IEXTEN) #define L_EXTPROC(tty) _L_FLAG((tty), EXTPROC) struct device; struct signal_struct; /* * Port level information. Each device keeps its own port level information * so provide a common structure for those ports wanting to use common support * routines. * * The tty port has a different lifetime to the tty so must be kept apart. * In addition be careful as tty -> port mappings are valid for the life * of the tty object but in many cases port -> tty mappings are valid only * until a hangup so don't use the wrong path. */ struct tty_port; struct tty_port_operations { /* Return 1 if the carrier is raised */ int (*carrier_raised)(struct tty_port *port); /* Control the DTR line */ void (*dtr_rts)(struct tty_port *port, int raise); /* Called when the last close completes or a hangup finishes IFF the port was initialized. Do not use to free resources. Called under the port mutex to serialize against activate/shutdowns */ void (*shutdown)(struct tty_port *port); /* Called under the port mutex from tty_port_open, serialized using the port mutex */ /* FIXME: long term getting the tty argument *out* of this would be good for consoles */ int (*activate)(struct tty_port *port, struct tty_struct *tty); /* Called on the final put of a port */ void (*destruct)(struct tty_port *port); }; struct tty_port_client_operations { int (*receive_buf)(struct tty_port *port, const unsigned char *, const unsigned char *, size_t); void (*write_wakeup)(struct tty_port *port); }; extern const struct tty_port_client_operations tty_port_default_client_ops; struct tty_port { struct tty_bufhead buf; /* Locked internally */ struct tty_struct *tty; /* Back pointer */ struct tty_struct *itty; /* internal back ptr */ const struct tty_port_operations *ops; /* Port operations */ const struct tty_port_client_operations *client_ops; /* Port client operations */ spinlock_t lock; /* Lock protecting tty field */ int blocked_open; /* Waiting to open */ int count; /* Usage count */ wait_queue_head_t open_wait; /* Open waiters */ wait_queue_head_t delta_msr_wait; /* Modem status change */ unsigned long flags; /* User TTY flags ASYNC_ */ unsigned long iflags; /* Internal flags TTY_PORT_ */ unsigned char console:1, /* port is a console */ low_latency:1; /* optional: tune for latency */ struct mutex mutex; /* Locking */ struct mutex buf_mutex; /* Buffer alloc lock */ unsigned char *xmit_buf; /* Optional buffer */ unsigned int close_delay; /* Close port delay */ unsigned int closing_wait; /* Delay for output */ int drain_delay; /* Set to zero if no pure time based drain is needed else set to size of fifo */ struct kref kref; /* Ref counter */ void *client_data; }; /* tty_port::iflags bits -- use atomic bit ops */ #define TTY_PORT_INITIALIZED 0 /* device is initialized */ #define TTY_PORT_SUSPENDED 1 /* device is suspended */ #define TTY_PORT_ACTIVE 2 /* device is open */ /* * uart drivers: use the uart_port::status field and the UPSTAT_* defines * for s/w-based flow control steering and carrier detection status */ #define TTY_PORT_CTS_FLOW 3 /* h/w flow control enabled */ #define TTY_PORT_CHECK_CD 4 /* carrier detect enabled */ #define TTY_PORT_KOPENED 5 /* device exclusively opened by kernel */ /* * Where all of the state associated with a tty is kept while the tty * is open. Since the termios state should be kept even if the tty * has been closed --- for things like the baud rate, etc --- it is * not stored here, but rather a pointer to the real state is stored * here. Possible the winsize structure should have the same * treatment, but (1) the default 80x24 is usually right and (2) it's * most often used by a windowing system, which will set the correct * size each time the window is created or resized anyway. * - TYT, 9/14/92 */ struct tty_operations; struct tty_struct { int magic; struct kref kref; struct device *dev; struct tty_driver *driver; const struct tty_operations *ops; int index; /* Protects ldisc changes: Lock tty not pty */ struct ld_semaphore ldisc_sem; struct tty_ldisc *ldisc; struct mutex atomic_write_lock; struct mutex legacy_mutex; struct mutex throttle_mutex; struct rw_semaphore termios_rwsem; struct mutex winsize_mutex; spinlock_t ctrl_lock; spinlock_t flow_lock; /* Termios values are protected by the termios rwsem */ struct ktermios termios, termios_locked; char name[64]; struct pid *pgrp; /* Protected by ctrl lock */ /* * Writes protected by both ctrl lock and legacy mutex, readers must use * at least one of them. */ struct pid *session; unsigned long flags; int count; struct winsize winsize; /* winsize_mutex */ unsigned long stopped:1, /* flow_lock */ flow_stopped:1, unused:BITS_PER_LONG - 2; int hw_stopped; unsigned long ctrl_status:8, /* ctrl_lock */ packet:1, unused_ctrl:BITS_PER_LONG - 9; unsigned int receive_room; /* Bytes free for queue */ int flow_change; struct tty_struct *link; struct fasync_struct *fasync; wait_queue_head_t write_wait; wait_queue_head_t read_wait; struct work_struct hangup_work; void *disc_data; void *driver_data; spinlock_t files_lock; /* protects tty_files list */ struct list_head tty_files; #define N_TTY_BUF_SIZE 4096 int closing; unsigned char *write_buf; int write_cnt; /* If the tty has a pending do_SAK, queue it here - akpm */ struct work_struct SAK_work; struct tty_port *port; } __randomize_layout; /* Each of a tty's open files has private_data pointing to tty_file_private */ struct tty_file_private { struct tty_struct *tty; struct file *file; struct list_head list; }; /* tty magic number */ #define TTY_MAGIC 0x5401 /* * These bits are used in the flags field of the tty structure. * * So that interrupts won't be able to mess up the queues, * copy_to_cooked must be atomic with respect to itself, as must * tty->write. Thus, you must use the inline functions set_bit() and * clear_bit() to make things atomic. */ #define TTY_THROTTLED 0 /* Call unthrottle() at threshold min */ #define TTY_IO_ERROR 1 /* Cause an I/O error (may be no ldisc too) */ #define TTY_OTHER_CLOSED 2 /* Other side (if any) has closed */ #define TTY_EXCLUSIVE 3 /* Exclusive open mode */ #define TTY_DO_WRITE_WAKEUP 5 /* Call write_wakeup after queuing new */ #define TTY_LDISC_OPEN 11 /* Line discipline is open */ #define TTY_PTY_LOCK 16 /* pty private */ #define TTY_NO_WRITE_SPLIT 17 /* Preserve write boundaries to driver */ #define TTY_HUPPED 18 /* Post driver->hangup() */ #define TTY_HUPPING 19 /* Hangup in progress */ #define TTY_LDISC_CHANGING 20 /* Change pending - non-block IO */ #define TTY_LDISC_HALTED 22 /* Line discipline is halted */ /* Values for tty->flow_change */ #define TTY_THROTTLE_SAFE 1 #define TTY_UNTHROTTLE_SAFE 2 static inline void __tty_set_flow_change(struct tty_struct *tty, int val) { tty->flow_change = val; } static inline void tty_set_flow_change(struct tty_struct *tty, int val) { tty->flow_change = val; smp_mb(); } static inline bool tty_io_nonblock(struct tty_struct *tty, struct file *file) { return file->f_flags & O_NONBLOCK || test_bit(TTY_LDISC_CHANGING, &tty->flags); } static inline bool tty_io_error(struct tty_struct *tty) { return test_bit(TTY_IO_ERROR, &tty->flags); } static inline bool tty_throttled(struct tty_struct *tty) { return test_bit(TTY_THROTTLED, &tty->flags); } #ifdef CONFIG_TTY extern void tty_kref_put(struct tty_struct *tty); extern struct pid *tty_get_pgrp(struct tty_struct *tty); extern void tty_vhangup_self(void); extern void disassociate_ctty(int priv); extern dev_t tty_devnum(struct tty_struct *tty); extern void proc_clear_tty(struct task_struct *p); extern struct tty_struct *get_current_tty(void); /* tty_io.c */ extern int __init tty_init(void); extern const char *tty_name(const struct tty_struct *tty); extern struct tty_struct *tty_kopen(dev_t device); extern void tty_kclose(struct tty_struct *tty); extern int tty_dev_name_to_number(const char *name, dev_t *number); extern int tty_ldisc_lock(struct tty_struct *tty, unsigned long timeout); extern void tty_ldisc_unlock(struct tty_struct *tty); extern ssize_t redirected_tty_write(struct kiocb *, struct iov_iter *); #else static inline void tty_kref_put(struct tty_struct *tty) { } static inline struct pid *tty_get_pgrp(struct tty_struct *tty) { return NULL; } static inline void tty_vhangup_self(void) { } static inline void disassociate_ctty(int priv) { } static inline dev_t tty_devnum(struct tty_struct *tty) { return 0; } static inline void proc_clear_tty(struct task_struct *p) { } static inline struct tty_struct *get_current_tty(void) { return NULL; } /* tty_io.c */ static inline int __init tty_init(void) { return 0; } static inline const char *tty_name(const struct tty_struct *tty) { return "(none)"; } static inline struct tty_struct *tty_kopen(dev_t device) { return ERR_PTR(-ENODEV); } static inline void tty_kclose(struct tty_struct *tty) { } static inline int tty_dev_name_to_number(const char *name, dev_t *number) { return -ENOTSUPP; } #endif extern struct ktermios tty_std_termios; extern int vcs_init(void); extern struct class *tty_class; /** * tty_kref_get - get a tty reference * @tty: tty device * * Return a new reference to a tty object. The caller must hold * sufficient locks/counts to ensure that their existing reference cannot * go away */ static inline struct tty_struct *tty_kref_get(struct tty_struct *tty) { if (tty) kref_get(&tty->kref); return tty; } extern const char *tty_driver_name(const struct tty_struct *tty); extern void tty_wait_until_sent(struct tty_struct *tty, long timeout); extern int __tty_check_change(struct tty_struct *tty, int sig); extern int tty_check_change(struct tty_struct *tty); extern void __stop_tty(struct tty_struct *tty); extern void stop_tty(struct tty_struct *tty); extern void __start_tty(struct tty_struct *tty); extern void start_tty(struct tty_struct *tty); extern int tty_register_driver(struct tty_driver *driver); extern int tty_unregister_driver(struct tty_driver *driver); extern struct device *tty_register_device(struct tty_driver *driver, unsigned index, struct device *dev); extern struct device *tty_register_device_attr(struct tty_driver *driver, unsigned index, struct device *device, void *drvdata, const struct attribute_group **attr_grp); extern void tty_unregister_device(struct tty_driver *driver, unsigned index); extern void tty_write_message(struct tty_struct *tty, char *msg); extern int tty_send_xchar(struct tty_struct *tty, char ch); extern int tty_put_char(struct tty_struct *tty, unsigned char c); extern int tty_chars_in_buffer(struct tty_struct *tty); extern int tty_write_room(struct tty_struct *tty); extern void tty_driver_flush_buffer(struct tty_struct *tty); extern void tty_throttle(struct tty_struct *tty); extern void tty_unthrottle(struct tty_struct *tty); extern int tty_throttle_safe(struct tty_struct *tty); extern int tty_unthrottle_safe(struct tty_struct *tty); extern int tty_do_resize(struct tty_struct *tty, struct winsize *ws); extern int is_current_pgrp_orphaned(void); extern void tty_hangup(struct tty_struct *tty); extern void tty_vhangup(struct tty_struct *tty); extern void tty_vhangup_session(struct tty_struct *tty); extern int tty_hung_up_p(struct file *filp); extern void do_SAK(struct tty_struct *tty); extern void __do_SAK(struct tty_struct *tty); extern void tty_open_proc_set_tty(struct file *filp, struct tty_struct *tty); extern int tty_signal_session_leader(struct tty_struct *tty, int exit_session); extern void session_clear_tty(struct pid *session); extern void no_tty(void); extern void tty_buffer_free_all(struct tty_port *port); extern void tty_buffer_flush(struct tty_struct *tty, struct tty_ldisc *ld); extern void tty_buffer_init(struct tty_port *port); extern void tty_buffer_set_lock_subclass(struct tty_port *port); extern bool tty_buffer_restart_work(struct tty_port *port); extern bool tty_buffer_cancel_work(struct tty_port *port); extern void tty_buffer_flush_work(struct tty_port *port); extern speed_t tty_termios_baud_rate(struct ktermios *termios); extern speed_t tty_termios_input_baud_rate(struct ktermios *termios); extern void tty_termios_encode_baud_rate(struct ktermios *termios, speed_t ibaud, speed_t obaud); extern void tty_encode_baud_rate(struct tty_struct *tty, speed_t ibaud, speed_t obaud); /** * tty_get_baud_rate - get tty bit rates * @tty: tty to query * * Returns the baud rate as an integer for this terminal. The * termios lock must be held by the caller and the terminal bit * flags may be updated. * * Locking: none */ static inline speed_t tty_get_baud_rate(struct tty_struct *tty) { return tty_termios_baud_rate(&tty->termios); } extern void tty_termios_copy_hw(struct ktermios *new, struct ktermios *old); extern int tty_termios_hw_change(const struct ktermios *a, const struct ktermios *b); extern int tty_set_termios(struct tty_struct *tty, struct ktermios *kt); extern struct tty_ldisc *tty_ldisc_ref(struct tty_struct *); extern void tty_ldisc_deref(struct tty_ldisc *); extern struct tty_ldisc *tty_ldisc_ref_wait(struct tty_struct *); extern void tty_ldisc_hangup(struct tty_struct *tty, bool reset); extern int tty_ldisc_reinit(struct tty_struct *tty, int disc); extern const struct seq_operations tty_ldiscs_seq_ops; extern void tty_wakeup(struct tty_struct *tty); extern void tty_ldisc_flush(struct tty_struct *tty); extern long tty_ioctl(struct file *file, unsigned int cmd, unsigned long arg); extern int tty_mode_ioctl(struct tty_struct *tty, struct file *file, unsigned int cmd, unsigned long arg); extern long tty_jobctrl_ioctl(struct tty_struct *tty, struct tty_struct *real_tty, struct file *file, unsigned int cmd, unsigned long arg); extern int tty_perform_flush(struct tty_struct *tty, unsigned long arg); extern void tty_default_fops(struct file_operations *fops); extern struct tty_struct *alloc_tty_struct(struct tty_driver *driver, int idx); extern int tty_alloc_file(struct file *file); extern void tty_add_file(struct tty_struct *tty, struct file *file); extern void tty_free_file(struct file *file); extern struct tty_struct *tty_init_dev(struct tty_driver *driver, int idx); extern void tty_release_struct(struct tty_struct *tty, int idx); extern int tty_release(struct inode *inode, struct file *filp); extern void tty_init_termios(struct tty_struct *tty); extern void tty_save_termios(struct tty_struct *tty); extern int tty_standard_install(struct tty_driver *driver, struct tty_struct *tty); extern struct mutex tty_mutex; #define tty_is_writelocked(tty) (mutex_is_locked(&tty->atomic_write_lock)) extern void tty_port_init(struct tty_port *port); extern void tty_port_link_device(struct tty_port *port, struct tty_driver *driver, unsigned index); extern struct device *tty_port_register_device(struct tty_port *port, struct tty_driver *driver, unsigned index, struct device *device); extern struct device *tty_port_register_device_attr(struct tty_port *port, struct tty_driver *driver, unsigned index, struct device *device, void *drvdata, const struct attribute_group **attr_grp); extern struct device *tty_port_register_device_serdev(struct tty_port *port, struct tty_driver *driver, unsigned index, struct device *device); extern struct device *tty_port_register_device_attr_serdev(struct tty_port *port, struct tty_driver *driver, unsigned index, struct device *device, void *drvdata, const struct attribute_group **attr_grp); extern void tty_port_unregister_device(struct tty_port *port, struct tty_driver *driver, unsigned index); extern int tty_port_alloc_xmit_buf(struct tty_port *port); extern void tty_port_free_xmit_buf(struct tty_port *port); extern void tty_port_destroy(struct tty_port *port); extern void tty_port_put(struct tty_port *port); static inline struct tty_port *tty_port_get(struct tty_port *port) { if (port && kref_get_unless_zero(&port->kref)) return port; return NULL; } /* If the cts flow control is enabled, return true. */ static inline bool tty_port_cts_enabled(struct tty_port *port) { return test_bit(TTY_PORT_CTS_FLOW, &port->iflags); } static inline void tty_port_set_cts_flow(struct tty_port *port, bool val) { if (val) set_bit(TTY_PORT_CTS_FLOW, &port->iflags); else clear_bit(TTY_PORT_CTS_FLOW, &port->iflags); } static inline bool tty_port_active(struct tty_port *port) { return test_bit(TTY_PORT_ACTIVE, &port->iflags); } static inline void tty_port_set_active(struct tty_port *port, bool val) { if (val) set_bit(TTY_PORT_ACTIVE, &port->iflags); else clear_bit(TTY_PORT_ACTIVE, &port->iflags); } static inline bool tty_port_check_carrier(struct tty_port *port) { return test_bit(TTY_PORT_CHECK_CD, &port->iflags); } static inline void tty_port_set_check_carrier(struct tty_port *port, bool val) { if (val) set_bit(TTY_PORT_CHECK_CD, &port->iflags); else clear_bit(TTY_PORT_CHECK_CD, &port->iflags); } static inline bool tty_port_suspended(struct tty_port *port) { return test_bit(TTY_PORT_SUSPENDED, &port->iflags); } static inline void tty_port_set_suspended(struct tty_port *port, bool val) { if (val) set_bit(TTY_PORT_SUSPENDED, &port->iflags); else clear_bit(TTY_PORT_SUSPENDED, &port->iflags); } static inline bool tty_port_initialized(struct tty_port *port) { return test_bit(TTY_PORT_INITIALIZED, &port->iflags); } static inline void tty_port_set_initialized(struct tty_port *port, bool val) { if (val) set_bit(TTY_PORT_INITIALIZED, &port->iflags); else clear_bit(TTY_PORT_INITIALIZED, &port->iflags); } static inline bool tty_port_kopened(struct tty_port *port) { return test_bit(TTY_PORT_KOPENED, &port->iflags); } static inline void tty_port_set_kopened(struct tty_port *port, bool val) { if (val) set_bit(TTY_PORT_KOPENED, &port->iflags); else clear_bit(TTY_PORT_KOPENED, &port->iflags); } extern struct tty_struct *tty_port_tty_get(struct tty_port *port); extern void tty_port_tty_set(struct tty_port *port, struct tty_struct *tty); extern int tty_port_carrier_raised(struct tty_port *port); extern void tty_port_raise_dtr_rts(struct tty_port *port); extern void tty_port_lower_dtr_rts(struct tty_port *port); extern void tty_port_hangup(struct tty_port *port); extern void tty_port_tty_hangup(struct tty_port *port, bool check_clocal); extern void tty_port_tty_wakeup(struct tty_port *port); extern int tty_port_block_til_ready(struct tty_port *port, struct tty_struct *tty, struct file *filp); extern int tty_port_close_start(struct tty_port *port, struct tty_struct *tty, struct file *filp); extern void tty_port_close_end(struct tty_port *port, struct tty_struct *tty); extern void tty_port_close(struct tty_port *port, struct tty_struct *tty, struct file *filp); extern int tty_port_install(struct tty_port *port, struct tty_driver *driver, struct tty_struct *tty); extern int tty_port_open(struct tty_port *port, struct tty_struct *tty, struct file *filp); static inline int tty_port_users(struct tty_port *port) { return port->count + port->blocked_open; } extern int tty_register_ldisc(int disc, struct tty_ldisc_ops *new_ldisc); extern int tty_unregister_ldisc(int disc); extern int tty_set_ldisc(struct tty_struct *tty, int disc); extern int tty_ldisc_setup(struct tty_struct *tty, struct tty_struct *o_tty); extern void tty_ldisc_release(struct tty_struct *tty); extern int __must_check tty_ldisc_init(struct tty_struct *tty); extern void tty_ldisc_deinit(struct tty_struct *tty); extern int tty_ldisc_receive_buf(struct tty_ldisc *ld, const unsigned char *p, char *f, int count); /* n_tty.c */ extern void n_tty_inherit_ops(struct tty_ldisc_ops *ops); #ifdef CONFIG_TTY extern void __init n_tty_init(void); #else static inline void n_tty_init(void) { } #endif /* tty_audit.c */ #ifdef CONFIG_AUDIT extern void tty_audit_add_data(struct tty_struct *tty, const void *data, size_t size); extern void tty_audit_exit(void); extern void tty_audit_fork(struct signal_struct *sig); extern void tty_audit_tiocsti(struct tty_struct *tty, char ch); extern int tty_audit_push(void); #else static inline void tty_audit_add_data(struct tty_struct *tty, const void *data, size_t size) { } static inline void tty_audit_tiocsti(struct tty_struct *tty, char ch) { } static inline void tty_audit_exit(void) { } static inline void tty_audit_fork(struct signal_struct *sig) { } static inline int tty_audit_push(void) { return 0; } #endif /* tty_ioctl.c */ extern int n_tty_ioctl_helper(struct tty_struct *tty, struct file *file, unsigned int cmd, unsigned long arg); /* vt.c */ extern int vt_ioctl(struct tty_struct *tty, unsigned int cmd, unsigned long arg); extern long vt_compat_ioctl(struct tty_struct *tty, unsigned int cmd, unsigned long arg); /* tty_mutex.c */ /* functions for preparation of BKL removal */ extern void tty_lock(struct tty_struct *tty); extern int tty_lock_interruptible(struct tty_struct *tty); extern void tty_unlock(struct tty_struct *tty); extern void tty_lock_slave(struct tty_struct *tty); extern void tty_unlock_slave(struct tty_struct *tty); extern void tty_set_lock_subclass(struct tty_struct *tty); #ifdef CONFIG_PROC_FS extern void proc_tty_register_driver(struct tty_driver *); extern void proc_tty_unregister_driver(struct tty_driver *); #else static inline void proc_tty_register_driver(struct tty_driver *d) {} static inline void proc_tty_unregister_driver(struct tty_driver *d) {} #endif #define tty_msg(fn, tty, f, ...) \ fn("%s %s: " f, tty_driver_name(tty), tty_name(tty), ##__VA_ARGS__) #define tty_debug(tty, f, ...) tty_msg(pr_debug, tty, f, ##__VA_ARGS__) #define tty_info(tty, f, ...) tty_msg(pr_info, tty, f, ##__VA_ARGS__) #define tty_notice(tty, f, ...) tty_msg(pr_notice, tty, f, ##__VA_ARGS__) #define tty_warn(tty, f, ...) tty_msg(pr_warn, tty, f, ##__VA_ARGS__) #define tty_err(tty, f, ...) tty_msg(pr_err, tty, f, ##__VA_ARGS__) #define tty_info_ratelimited(tty, f, ...) \ tty_msg(pr_info_ratelimited, tty, f, ##__VA_ARGS__) #endif
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8022 8023 8024 8025 8026 8027 8028 /* SPDX-License-Identifier: GPL-2.0-only */ #ifndef __NET_CFG80211_H #define __NET_CFG80211_H /* * 802.11 device and configuration interface * * Copyright 2006-2010 Johannes Berg <johannes@sipsolutions.net> * Copyright 2013-2014 Intel Mobile Communications GmbH * Copyright 2015-2017 Intel Deutschland GmbH * Copyright (C) 2018-2020 Intel Corporation */ #include <linux/netdevice.h> #include <linux/debugfs.h> #include <linux/list.h> #include <linux/bug.h> #include <linux/netlink.h> #include <linux/skbuff.h> #include <linux/nl80211.h> #include <linux/if_ether.h> #include <linux/ieee80211.h> #include <linux/net.h> #include <net/regulatory.h> /** * DOC: Introduction * * cfg80211 is the configuration API for 802.11 devices in Linux. It bridges * userspace and drivers, and offers some utility functionality associated * with 802.11. cfg80211 must, directly or indirectly via mac80211, be used * by all modern wireless drivers in Linux, so that they offer a consistent * API through nl80211. For backward compatibility, cfg80211 also offers * wireless extensions to userspace, but hides them from drivers completely. * * Additionally, cfg80211 contains code to help enforce regulatory spectrum * use restrictions. */ /** * DOC: Device registration * * In order for a driver to use cfg80211, it must register the hardware device * with cfg80211. This happens through a number of hardware capability structs * described below. * * The fundamental structure for each device is the 'wiphy', of which each * instance describes a physical wireless device connected to the system. Each * such wiphy can have zero, one, or many virtual interfaces associated with * it, which need to be identified as such by pointing the network interface's * @ieee80211_ptr pointer to a &struct wireless_dev which further describes * the wireless part of the interface, normally this struct is embedded in the * network interface's private data area. Drivers can optionally allow creating * or destroying virtual interfaces on the fly, but without at least one or the * ability to create some the wireless device isn't useful. * * Each wiphy structure contains device capability information, and also has * a pointer to the various operations the driver offers. The definitions and * structures here describe these capabilities in detail. */ struct wiphy; /* * wireless hardware capability structures */ /** * enum ieee80211_channel_flags - channel flags * * Channel flags set by the regulatory control code. * * @IEEE80211_CHAN_DISABLED: This channel is disabled. * @IEEE80211_CHAN_NO_IR: do not initiate radiation, this includes * sending probe requests or beaconing. * @IEEE80211_CHAN_RADAR: Radar detection is required on this channel. * @IEEE80211_CHAN_NO_HT40PLUS: extension channel above this channel * is not permitted. * @IEEE80211_CHAN_NO_HT40MINUS: extension channel below this channel * is not permitted. * @IEEE80211_CHAN_NO_OFDM: OFDM is not allowed on this channel. * @IEEE80211_CHAN_NO_80MHZ: If the driver supports 80 MHz on the band, * this flag indicates that an 80 MHz channel cannot use this * channel as the control or any of the secondary channels. * This may be due to the driver or due to regulatory bandwidth * restrictions. * @IEEE80211_CHAN_NO_160MHZ: If the driver supports 160 MHz on the band, * this flag indicates that an 160 MHz channel cannot use this * channel as the control or any of the secondary channels. * This may be due to the driver or due to regulatory bandwidth * restrictions. * @IEEE80211_CHAN_INDOOR_ONLY: see %NL80211_FREQUENCY_ATTR_INDOOR_ONLY * @IEEE80211_CHAN_IR_CONCURRENT: see %NL80211_FREQUENCY_ATTR_IR_CONCURRENT * @IEEE80211_CHAN_NO_20MHZ: 20 MHz bandwidth is not permitted * on this channel. * @IEEE80211_CHAN_NO_10MHZ: 10 MHz bandwidth is not permitted * on this channel. * @IEEE80211_CHAN_NO_HE: HE operation is not permitted on this channel. * @IEEE80211_CHAN_1MHZ: 1 MHz bandwidth is permitted * on this channel. * @IEEE80211_CHAN_2MHZ: 2 MHz bandwidth is permitted * on this channel. * @IEEE80211_CHAN_4MHZ: 4 MHz bandwidth is permitted * on this channel. * @IEEE80211_CHAN_8MHZ: 8 MHz bandwidth is permitted * on this channel. * @IEEE80211_CHAN_16MHZ: 16 MHz bandwidth is permitted * on this channel. * */ enum ieee80211_channel_flags { IEEE80211_CHAN_DISABLED = 1<<0, IEEE80211_CHAN_NO_IR = 1<<1, /* hole at 1<<2 */ IEEE80211_CHAN_RADAR = 1<<3, IEEE80211_CHAN_NO_HT40PLUS = 1<<4, IEEE80211_CHAN_NO_HT40MINUS = 1<<5, IEEE80211_CHAN_NO_OFDM = 1<<6, IEEE80211_CHAN_NO_80MHZ = 1<<7, IEEE80211_CHAN_NO_160MHZ = 1<<8, IEEE80211_CHAN_INDOOR_ONLY = 1<<9, IEEE80211_CHAN_IR_CONCURRENT = 1<<10, IEEE80211_CHAN_NO_20MHZ = 1<<11, IEEE80211_CHAN_NO_10MHZ = 1<<12, IEEE80211_CHAN_NO_HE = 1<<13, IEEE80211_CHAN_1MHZ = 1<<14, IEEE80211_CHAN_2MHZ = 1<<15, IEEE80211_CHAN_4MHZ = 1<<16, IEEE80211_CHAN_8MHZ = 1<<17, IEEE80211_CHAN_16MHZ = 1<<18, }; #define IEEE80211_CHAN_NO_HT40 \ (IEEE80211_CHAN_NO_HT40PLUS | IEEE80211_CHAN_NO_HT40MINUS) #define IEEE80211_DFS_MIN_CAC_TIME_MS 60000 #define IEEE80211_DFS_MIN_NOP_TIME_MS (30 * 60 * 1000) /** * struct ieee80211_channel - channel definition * * This structure describes a single channel for use * with cfg80211. * * @center_freq: center frequency in MHz * @freq_offset: offset from @center_freq, in KHz * @hw_value: hardware-specific value for the channel * @flags: channel flags from &enum ieee80211_channel_flags. * @orig_flags: channel flags at registration time, used by regulatory * code to support devices with additional restrictions * @band: band this channel belongs to. * @max_antenna_gain: maximum antenna gain in dBi * @max_power: maximum transmission power (in dBm) * @max_reg_power: maximum regulatory transmission power (in dBm) * @beacon_found: helper to regulatory code to indicate when a beacon * has been found on this channel. Use regulatory_hint_found_beacon() * to enable this, this is useful only on 5 GHz band. * @orig_mag: internal use * @orig_mpwr: internal use * @dfs_state: current state of this channel. Only relevant if radar is required * on this channel. * @dfs_state_entered: timestamp (jiffies) when the dfs state was entered. * @dfs_cac_ms: DFS CAC time in milliseconds, this is valid for DFS channels. */ struct ieee80211_channel { enum nl80211_band band; u32 center_freq; u16 freq_offset; u16 hw_value; u32 flags; int max_antenna_gain; int max_power; int max_reg_power; bool beacon_found; u32 orig_flags; int orig_mag, orig_mpwr; enum nl80211_dfs_state dfs_state; unsigned long dfs_state_entered; unsigned int dfs_cac_ms; }; /** * enum ieee80211_rate_flags - rate flags * * Hardware/specification flags for rates. These are structured * in a way that allows using the same bitrate structure for * different bands/PHY modes. * * @IEEE80211_RATE_SHORT_PREAMBLE: Hardware can send with short * preamble on this bitrate; only relevant in 2.4GHz band and * with CCK rates. * @IEEE80211_RATE_MANDATORY_A: This bitrate is a mandatory rate * when used with 802.11a (on the 5 GHz band); filled by the * core code when registering the wiphy. * @IEEE80211_RATE_MANDATORY_B: This bitrate is a mandatory rate * when used with 802.11b (on the 2.4 GHz band); filled by the * core code when registering the wiphy. * @IEEE80211_RATE_MANDATORY_G: This bitrate is a mandatory rate * when used with 802.11g (on the 2.4 GHz band); filled by the * core code when registering the wiphy. * @IEEE80211_RATE_ERP_G: This is an ERP rate in 802.11g mode. * @IEEE80211_RATE_SUPPORTS_5MHZ: Rate can be used in 5 MHz mode * @IEEE80211_RATE_SUPPORTS_10MHZ: Rate can be used in 10 MHz mode */ enum ieee80211_rate_flags { IEEE80211_RATE_SHORT_PREAMBLE = 1<<0, IEEE80211_RATE_MANDATORY_A = 1<<1, IEEE80211_RATE_MANDATORY_B = 1<<2, IEEE80211_RATE_MANDATORY_G = 1<<3, IEEE80211_RATE_ERP_G = 1<<4, IEEE80211_RATE_SUPPORTS_5MHZ = 1<<5, IEEE80211_RATE_SUPPORTS_10MHZ = 1<<6, }; /** * enum ieee80211_bss_type - BSS type filter * * @IEEE80211_BSS_TYPE_ESS: Infrastructure BSS * @IEEE80211_BSS_TYPE_PBSS: Personal BSS * @IEEE80211_BSS_TYPE_IBSS: Independent BSS * @IEEE80211_BSS_TYPE_MBSS: Mesh BSS * @IEEE80211_BSS_TYPE_ANY: Wildcard value for matching any BSS type */ enum ieee80211_bss_type { IEEE80211_BSS_TYPE_ESS, IEEE80211_BSS_TYPE_PBSS, IEEE80211_BSS_TYPE_IBSS, IEEE80211_BSS_TYPE_MBSS, IEEE80211_BSS_TYPE_ANY }; /** * enum ieee80211_privacy - BSS privacy filter * * @IEEE80211_PRIVACY_ON: privacy bit set * @IEEE80211_PRIVACY_OFF: privacy bit clear * @IEEE80211_PRIVACY_ANY: Wildcard value for matching any privacy setting */ enum ieee80211_privacy { IEEE80211_PRIVACY_ON, IEEE80211_PRIVACY_OFF, IEEE80211_PRIVACY_ANY }; #define IEEE80211_PRIVACY(x) \ ((x) ? IEEE80211_PRIVACY_ON : IEEE80211_PRIVACY_OFF) /** * struct ieee80211_rate - bitrate definition * * This structure describes a bitrate that an 802.11 PHY can * operate with. The two values @hw_value and @hw_value_short * are only for driver use when pointers to this structure are * passed around. * * @flags: rate-specific flags * @bitrate: bitrate in units of 100 Kbps * @hw_value: driver/hardware value for this rate * @hw_value_short: driver/hardware value for this rate when * short preamble is used */ struct ieee80211_rate { u32 flags; u16 bitrate; u16 hw_value, hw_value_short; }; /** * struct ieee80211_he_obss_pd - AP settings for spatial reuse * * @enable: is the feature enabled. * @sr_ctrl: The SR Control field of SRP element. * @non_srg_max_offset: non-SRG maximum tx power offset * @min_offset: minimal tx power offset an associated station shall use * @max_offset: maximum tx power offset an associated station shall use * @bss_color_bitmap: bitmap that indicates the BSS color values used by * members of the SRG * @partial_bssid_bitmap: bitmap that indicates the partial BSSID values * used by members of the SRG */ struct ieee80211_he_obss_pd { bool enable; u8 sr_ctrl; u8 non_srg_max_offset; u8 min_offset; u8 max_offset; u8 bss_color_bitmap[8]; u8 partial_bssid_bitmap[8]; }; /** * struct cfg80211_he_bss_color - AP settings for BSS coloring * * @color: the current color. * @enabled: HE BSS color is used * @partial: define the AID equation. */ struct cfg80211_he_bss_color { u8 color; bool enabled; bool partial; }; /** * struct ieee80211_he_bss_color - AP settings for BSS coloring * * @color: the current color. * @disabled: is the feature disabled. * @partial: define the AID equation. */ struct ieee80211_he_bss_color { u8 color; bool disabled; bool partial; }; /** * struct ieee80211_sta_ht_cap - STA's HT capabilities * * This structure describes most essential parameters needed * to describe 802.11n HT capabilities for an STA. * * @ht_supported: is HT supported by the STA * @cap: HT capabilities map as described in 802.11n spec * @ampdu_factor: Maximum A-MPDU length factor * @ampdu_density: Minimum A-MPDU spacing * @mcs: Supported MCS rates */ struct ieee80211_sta_ht_cap { u16 cap; /* use IEEE80211_HT_CAP_ */ bool ht_supported; u8 ampdu_factor; u8 ampdu_density; struct ieee80211_mcs_info mcs; }; /** * struct ieee80211_sta_vht_cap - STA's VHT capabilities * * This structure describes most essential parameters needed * to describe 802.11ac VHT capabilities for an STA. * * @vht_supported: is VHT supported by the STA * @cap: VHT capabilities map as described in 802.11ac spec * @vht_mcs: Supported VHT MCS rates */ struct ieee80211_sta_vht_cap { bool vht_supported; u32 cap; /* use IEEE80211_VHT_CAP_ */ struct ieee80211_vht_mcs_info vht_mcs; }; #define IEEE80211_HE_PPE_THRES_MAX_LEN 25 /** * struct ieee80211_sta_he_cap - STA's HE capabilities * * This structure describes most essential parameters needed * to describe 802.11ax HE capabilities for a STA. * * @has_he: true iff HE data is valid. * @he_cap_elem: Fixed portion of the HE capabilities element. * @he_mcs_nss_supp: The supported NSS/MCS combinations. * @ppe_thres: Holds the PPE Thresholds data. */ struct ieee80211_sta_he_cap { bool has_he; struct ieee80211_he_cap_elem he_cap_elem; struct ieee80211_he_mcs_nss_supp he_mcs_nss_supp; u8 ppe_thres[IEEE80211_HE_PPE_THRES_MAX_LEN]; }; /** * struct ieee80211_sband_iftype_data * * This structure encapsulates sband data that is relevant for the * interface types defined in @types_mask. Each type in the * @types_mask must be unique across all instances of iftype_data. * * @types_mask: interface types mask * @he_cap: holds the HE capabilities * @he_6ghz_capa: HE 6 GHz capabilities, must be filled in for a * 6 GHz band channel (and 0 may be valid value). */ struct ieee80211_sband_iftype_data { u16 types_mask; struct ieee80211_sta_he_cap he_cap; struct ieee80211_he_6ghz_capa he_6ghz_capa; }; /** * enum ieee80211_edmg_bw_config - allowed channel bandwidth configurations * * @IEEE80211_EDMG_BW_CONFIG_4: 2.16GHz * @IEEE80211_EDMG_BW_CONFIG_5: 2.16GHz and 4.32GHz * @IEEE80211_EDMG_BW_CONFIG_6: 2.16GHz, 4.32GHz and 6.48GHz * @IEEE80211_EDMG_BW_CONFIG_7: 2.16GHz, 4.32GHz, 6.48GHz and 8.64GHz * @IEEE80211_EDMG_BW_CONFIG_8: 2.16GHz and 2.16GHz + 2.16GHz * @IEEE80211_EDMG_BW_CONFIG_9: 2.16GHz, 4.32GHz and 2.16GHz + 2.16GHz * @IEEE80211_EDMG_BW_CONFIG_10: 2.16GHz, 4.32GHz, 6.48GHz and 2.16GHz+2.16GHz * @IEEE80211_EDMG_BW_CONFIG_11: 2.16GHz, 4.32GHz, 6.48GHz, 8.64GHz and * 2.16GHz+2.16GHz * @IEEE80211_EDMG_BW_CONFIG_12: 2.16GHz, 2.16GHz + 2.16GHz and * 4.32GHz + 4.32GHz * @IEEE80211_EDMG_BW_CONFIG_13: 2.16GHz, 4.32GHz, 2.16GHz + 2.16GHz and * 4.32GHz + 4.32GHz * @IEEE80211_EDMG_BW_CONFIG_14: 2.16GHz, 4.32GHz, 6.48GHz, 2.16GHz + 2.16GHz * and 4.32GHz + 4.32GHz * @IEEE80211_EDMG_BW_CONFIG_15: 2.16GHz, 4.32GHz, 6.48GHz, 8.64GHz, * 2.16GHz + 2.16GHz and 4.32GHz + 4.32GHz */ enum ieee80211_edmg_bw_config { IEEE80211_EDMG_BW_CONFIG_4 = 4, IEEE80211_EDMG_BW_CONFIG_5 = 5, IEEE80211_EDMG_BW_CONFIG_6 = 6, IEEE80211_EDMG_BW_CONFIG_7 = 7, IEEE80211_EDMG_BW_CONFIG_8 = 8, IEEE80211_EDMG_BW_CONFIG_9 = 9, IEEE80211_EDMG_BW_CONFIG_10 = 10, IEEE80211_EDMG_BW_CONFIG_11 = 11, IEEE80211_EDMG_BW_CONFIG_12 = 12, IEEE80211_EDMG_BW_CONFIG_13 = 13, IEEE80211_EDMG_BW_CONFIG_14 = 14, IEEE80211_EDMG_BW_CONFIG_15 = 15, }; /** * struct ieee80211_edmg - EDMG configuration * * This structure describes most essential parameters needed * to describe 802.11ay EDMG configuration * * @channels: bitmap that indicates the 2.16 GHz channel(s) * that are allowed to be used for transmissions. * Bit 0 indicates channel 1, bit 1 indicates channel 2, etc. * Set to 0 indicate EDMG not supported. * @bw_config: Channel BW Configuration subfield encodes * the allowed channel bandwidth configurations */ struct ieee80211_edmg { u8 channels; enum ieee80211_edmg_bw_config bw_config; }; /** * struct ieee80211_sta_s1g_cap - STA's S1G capabilities * * This structure describes most essential parameters needed * to describe 802.11ah S1G capabilities for a STA. * * @s1g_supported: is STA an S1G STA * @cap: S1G capabilities information * @nss_mcs: Supported NSS MCS set */ struct ieee80211_sta_s1g_cap { bool s1g; u8 cap[10]; /* use S1G_CAPAB_ */ u8 nss_mcs[5]; }; /** * struct ieee80211_supported_band - frequency band definition * * This structure describes a frequency band a wiphy * is able to operate in. * * @channels: Array of channels the hardware can operate with * in this band. * @band: the band this structure represents * @n_channels: Number of channels in @channels * @bitrates: Array of bitrates the hardware can operate with * in this band. Must be sorted to give a valid "supported * rates" IE, i.e. CCK rates first, then OFDM. * @n_bitrates: Number of bitrates in @bitrates * @ht_cap: HT capabilities in this band * @vht_cap: VHT capabilities in this band * @s1g_cap: S1G capabilities in this band * @edmg_cap: EDMG capabilities in this band * @s1g_cap: S1G capabilities in this band (S1B band only, of course) * @n_iftype_data: number of iftype data entries * @iftype_data: interface type data entries. Note that the bits in * @types_mask inside this structure cannot overlap (i.e. only * one occurrence of each type is allowed across all instances of * iftype_data). */ struct ieee80211_supported_band { struct ieee80211_channel *channels; struct ieee80211_rate *bitrates; enum nl80211_band band; int n_channels; int n_bitrates; struct ieee80211_sta_ht_cap ht_cap; struct ieee80211_sta_vht_cap vht_cap; struct ieee80211_sta_s1g_cap s1g_cap; struct ieee80211_edmg edmg_cap; u16 n_iftype_data; const struct ieee80211_sband_iftype_data *iftype_data; }; /** * ieee80211_get_sband_iftype_data - return sband data for a given iftype * @sband: the sband to search for the STA on * @iftype: enum nl80211_iftype * * Return: pointer to struct ieee80211_sband_iftype_data, or NULL is none found */ static inline const struct ieee80211_sband_iftype_data * ieee80211_get_sband_iftype_data(const struct ieee80211_supported_band *sband, u8 iftype) { int i; if (WARN_ON(iftype >= NL80211_IFTYPE_MAX)) return NULL; for (i = 0; i < sband->n_iftype_data; i++) { const struct ieee80211_sband_iftype_data *data = &sband->iftype_data[i]; if (data->types_mask & BIT(iftype)) return data; } return NULL; } /** * ieee80211_get_he_iftype_cap - return HE capabilities for an sband's iftype * @sband: the sband to search for the iftype on * @iftype: enum nl80211_iftype * * Return: pointer to the struct ieee80211_sta_he_cap, or NULL is none found */ static inline const struct ieee80211_sta_he_cap * ieee80211_get_he_iftype_cap(const struct ieee80211_supported_band *sband, u8 iftype) { const struct ieee80211_sband_iftype_data *data = ieee80211_get_sband_iftype_data(sband, iftype); if (data && data->he_cap.has_he) return &data->he_cap; return NULL; } /** * ieee80211_get_he_sta_cap - return HE capabilities for an sband's STA * @sband: the sband to search for the STA on * * Return: pointer to the struct ieee80211_sta_he_cap, or NULL is none found */ static inline const struct ieee80211_sta_he_cap * ieee80211_get_he_sta_cap(const struct ieee80211_supported_band *sband) { return ieee80211_get_he_iftype_cap(sband, NL80211_IFTYPE_STATION); } /** * ieee80211_get_he_6ghz_capa - return HE 6 GHz capabilities * @sband: the sband to search for the STA on * @iftype: the iftype to search for * * Return: the 6GHz capabilities */ static inline __le16 ieee80211_get_he_6ghz_capa(const struct ieee80211_supported_band *sband, enum nl80211_iftype iftype) { const struct ieee80211_sband_iftype_data *data = ieee80211_get_sband_iftype_data(sband, iftype); if (WARN_ON(!data || !data->he_cap.has_he)) return 0; return data->he_6ghz_capa.capa; } /** * wiphy_read_of_freq_limits - read frequency limits from device tree * * @wiphy: the wireless device to get extra limits for * * Some devices may have extra limitations specified in DT. This may be useful * for chipsets that normally support more bands but are limited due to board * design (e.g. by antennas or external power amplifier). * * This function reads info from DT and uses it to *modify* channels (disable * unavailable ones). It's usually a *bad* idea to use it in drivers with * shared channel data as DT limitations are device specific. You should make * sure to call it only if channels in wiphy are copied and can be modified * without affecting other devices. * * As this function access device node it has to be called after set_wiphy_dev. * It also modifies channels so they have to be set first. * If using this helper, call it before wiphy_register(). */ #ifdef CONFIG_OF void wiphy_read_of_freq_limits(struct wiphy *wiphy); #else /* CONFIG_OF */ static inline void wiphy_read_of_freq_limits(struct wiphy *wiphy) { } #endif /* !CONFIG_OF */ /* * Wireless hardware/device configuration structures and methods */ /** * DOC: Actions and configuration * * Each wireless device and each virtual interface offer a set of configuration * operations and other actions that are invoked by userspace. Each of these * actions is described in the operations structure, and the parameters these * operations use are described separately. * * Additionally, some operations are asynchronous and expect to get status * information via some functions that drivers need to call. * * Scanning and BSS list handling with its associated functionality is described * in a separate chapter. */ #define VHT_MUMIMO_GROUPS_DATA_LEN (WLAN_MEMBERSHIP_LEN +\ WLAN_USER_POSITION_LEN) /** * struct vif_params - describes virtual interface parameters * @flags: monitor interface flags, unchanged if 0, otherwise * %MONITOR_FLAG_CHANGED will be set * @use_4addr: use 4-address frames * @macaddr: address to use for this virtual interface. * If this parameter is set to zero address the driver may * determine the address as needed. * This feature is only fully supported by drivers that enable the * %NL80211_FEATURE_MAC_ON_CREATE flag. Others may support creating ** only p2p devices with specified MAC. * @vht_mumimo_groups: MU-MIMO groupID, used for monitoring MU-MIMO packets * belonging to that MU-MIMO groupID; %NULL if not changed * @vht_mumimo_follow_addr: MU-MIMO follow address, used for monitoring * MU-MIMO packets going to the specified station; %NULL if not changed */ struct vif_params { u32 flags; int use_4addr; u8 macaddr[ETH_ALEN]; const u8 *vht_mumimo_groups; const u8 *vht_mumimo_follow_addr; }; /** * struct key_params - key information * * Information about a key * * @key: key material * @key_len: length of key material * @cipher: cipher suite selector * @seq: sequence counter (IV/PN) for TKIP and CCMP keys, only used * with the get_key() callback, must be in little endian, * length given by @seq_len. * @seq_len: length of @seq. * @vlan_id: vlan_id for VLAN group key (if nonzero) * @mode: key install mode (RX_TX, NO_TX or SET_TX) */ struct key_params { const u8 *key; const u8 *seq; int key_len; int seq_len; u16 vlan_id; u32 cipher; enum nl80211_key_mode mode; }; /** * struct cfg80211_chan_def - channel definition * @chan: the (control) channel * @width: channel width * @center_freq1: center frequency of first segment * @center_freq2: center frequency of second segment * (only with 80+80 MHz) * @edmg: define the EDMG channels configuration. * If edmg is requested (i.e. the .channels member is non-zero), * chan will define the primary channel and all other * parameters are ignored. * @freq1_offset: offset from @center_freq1, in KHz */ struct cfg80211_chan_def { struct ieee80211_channel *chan; enum nl80211_chan_width width; u32 center_freq1; u32 center_freq2; struct ieee80211_edmg edmg; u16 freq1_offset; }; /* * cfg80211_bitrate_mask - masks for bitrate control */ struct cfg80211_bitrate_mask { struct { u32 legacy; u8 ht_mcs[IEEE80211_HT_MCS_MASK_LEN]; u16 vht_mcs[NL80211_VHT_NSS_MAX]; u16 he_mcs[NL80211_HE_NSS_MAX]; enum nl80211_txrate_gi gi; enum nl80211_he_gi he_gi; enum nl80211_he_ltf he_ltf; } control[NUM_NL80211_BANDS]; }; /** * struct cfg80211_tid_cfg - TID specific configuration * @config_override: Flag to notify driver to reset TID configuration * of the peer. * @tids: bitmap of TIDs to modify * @mask: bitmap of attributes indicating which parameter changed, * similar to &nl80211_tid_config_supp. * @noack: noack configuration value for the TID * @retry_long: retry count value * @retry_short: retry count value * @ampdu: Enable/Disable MPDU aggregation * @rtscts: Enable/Disable RTS/CTS * @amsdu: Enable/Disable MSDU aggregation * @txrate_type: Tx bitrate mask type * @txrate_mask: Tx bitrate to be applied for the TID */ struct cfg80211_tid_cfg { bool config_override; u8 tids; u64 mask; enum nl80211_tid_config noack; u8 retry_long, retry_short; enum nl80211_tid_config ampdu; enum nl80211_tid_config rtscts; enum nl80211_tid_config amsdu; enum nl80211_tx_rate_setting txrate_type; struct cfg80211_bitrate_mask txrate_mask; }; /** * struct cfg80211_tid_config - TID configuration * @peer: Station's MAC address * @n_tid_conf: Number of TID specific configurations to be applied * @tid_conf: Configuration change info */ struct cfg80211_tid_config { const u8 *peer; u32 n_tid_conf; struct cfg80211_tid_cfg tid_conf[]; }; /** * cfg80211_get_chandef_type - return old channel type from chandef * @chandef: the channel definition * * Return: The old channel type (NOHT, HT20, HT40+/-) from a given * chandef, which must have a bandwidth allowing this conversion. */ static inline enum nl80211_channel_type cfg80211_get_chandef_type(const struct cfg80211_chan_def *chandef) { switch (chandef->width) { case NL80211_CHAN_WIDTH_20_NOHT: return NL80211_CHAN_NO_HT; case NL80211_CHAN_WIDTH_20: return NL80211_CHAN_HT20; case NL80211_CHAN_WIDTH_40: if (chandef->center_freq1 > chandef->chan->center_freq) return NL80211_CHAN_HT40PLUS; return NL80211_CHAN_HT40MINUS; default: WARN_ON(1); return NL80211_CHAN_NO_HT; } } /** * cfg80211_chandef_create - create channel definition using channel type * @chandef: the channel definition struct to fill * @channel: the control channel * @chantype: the channel type * * Given a channel type, create a channel definition. */ void cfg80211_chandef_create(struct cfg80211_chan_def *chandef, struct ieee80211_channel *channel, enum nl80211_channel_type chantype); /** * cfg80211_chandef_identical - check if two channel definitions are identical * @chandef1: first channel definition * @chandef2: second channel definition * * Return: %true if the channels defined by the channel definitions are * identical, %false otherwise. */ static inline bool cfg80211_chandef_identical(const struct cfg80211_chan_def *chandef1, const struct cfg80211_chan_def *chandef2) { return (chandef1->chan == chandef2->chan && chandef1->width == chandef2->width && chandef1->center_freq1 == chandef2->center_freq1 && chandef1->freq1_offset == chandef2->freq1_offset && chandef1->center_freq2 == chandef2->center_freq2); } /** * cfg80211_chandef_is_edmg - check if chandef represents an EDMG channel * * @chandef: the channel definition * * Return: %true if EDMG defined, %false otherwise. */ static inline bool cfg80211_chandef_is_edmg(const struct cfg80211_chan_def *chandef) { return chandef->edmg.channels || chandef->edmg.bw_config; } /** * cfg80211_chandef_compatible - check if two channel definitions are compatible * @chandef1: first channel definition * @chandef2: second channel definition * * Return: %NULL if the given channel definitions are incompatible, * chandef1 or chandef2 otherwise. */ const struct cfg80211_chan_def * cfg80211_chandef_compatible(const struct cfg80211_chan_def *chandef1, const struct cfg80211_chan_def *chandef2); /** * cfg80211_chandef_valid - check if a channel definition is valid * @chandef: the channel definition to check * Return: %true if the channel definition is valid. %false otherwise. */ bool cfg80211_chandef_valid(const struct cfg80211_chan_def *chandef); /** * cfg80211_chandef_usable - check if secondary channels can be used * @wiphy: the wiphy to validate against * @chandef: the channel definition to check * @prohibited_flags: the regulatory channel flags that must not be set * Return: %true if secondary channels are usable. %false otherwise. */ bool cfg80211_chandef_usable(struct wiphy *wiphy, const struct cfg80211_chan_def *chandef, u32 prohibited_flags); /** * cfg80211_chandef_dfs_required - checks if radar detection is required * @wiphy: the wiphy to validate against * @chandef: the channel definition to check * @iftype: the interface type as specified in &enum nl80211_iftype * Returns: * 1 if radar detection is required, 0 if it is not, < 0 on error */ int cfg80211_chandef_dfs_required(struct wiphy *wiphy, const struct cfg80211_chan_def *chandef, enum nl80211_iftype iftype); /** * ieee80211_chandef_rate_flags - returns rate flags for a channel * * In some channel types, not all rates may be used - for example CCK * rates may not be used in 5/10 MHz channels. * * @chandef: channel definition for the channel * * Returns: rate flags which apply for this channel */ static inline enum ieee80211_rate_flags ieee80211_chandef_rate_flags(struct cfg80211_chan_def *chandef) { switch (chandef->width) { case NL80211_CHAN_WIDTH_5: return IEEE80211_RATE_SUPPORTS_5MHZ; case NL80211_CHAN_WIDTH_10: return IEEE80211_RATE_SUPPORTS_10MHZ; default: break; } return 0; } /** * ieee80211_chandef_max_power - maximum transmission power for the chandef * * In some regulations, the transmit power may depend on the configured channel * bandwidth which may be defined as dBm/MHz. This function returns the actual * max_power for non-standard (20 MHz) channels. * * @chandef: channel definition for the channel * * Returns: maximum allowed transmission power in dBm for the chandef */ static inline int ieee80211_chandef_max_power(struct cfg80211_chan_def *chandef) { switch (chandef->width) { case NL80211_CHAN_WIDTH_5: return min(chandef->chan->max_reg_power - 6, chandef->chan->max_power); case NL80211_CHAN_WIDTH_10: return min(chandef->chan->max_reg_power - 3, chandef->chan->max_power); default: break; } return chandef->chan->max_power; } /** * enum survey_info_flags - survey information flags * * @SURVEY_INFO_NOISE_DBM: noise (in dBm) was filled in * @SURVEY_INFO_IN_USE: channel is currently being used * @SURVEY_INFO_TIME: active time (in ms) was filled in * @SURVEY_INFO_TIME_BUSY: busy time was filled in * @SURVEY_INFO_TIME_EXT_BUSY: extension channel busy time was filled in * @SURVEY_INFO_TIME_RX: receive time was filled in * @SURVEY_INFO_TIME_TX: transmit time was filled in * @SURVEY_INFO_TIME_SCAN: scan time was filled in * @SURVEY_INFO_TIME_BSS_RX: local BSS receive time was filled in * * Used by the driver to indicate which info in &struct survey_info * it has filled in during the get_survey(). */ enum survey_info_flags { SURVEY_INFO_NOISE_DBM = BIT(0), SURVEY_INFO_IN_USE = BIT(1), SURVEY_INFO_TIME = BIT(2), SURVEY_INFO_TIME_BUSY = BIT(3), SURVEY_INFO_TIME_EXT_BUSY = BIT(4), SURVEY_INFO_TIME_RX = BIT(5), SURVEY_INFO_TIME_TX = BIT(6), SURVEY_INFO_TIME_SCAN = BIT(7), SURVEY_INFO_TIME_BSS_RX = BIT(8), }; /** * struct survey_info - channel survey response * * @channel: the channel this survey record reports, may be %NULL for a single * record to report global statistics * @filled: bitflag of flags from &enum survey_info_flags * @noise: channel noise in dBm. This and all following fields are * optional * @time: amount of time in ms the radio was turn on (on the channel) * @time_busy: amount of time the primary channel was sensed busy * @time_ext_busy: amount of time the extension channel was sensed busy * @time_rx: amount of time the radio spent receiving data * @time_tx: amount of time the radio spent transmitting data * @time_scan: amount of time the radio spent for scanning * @time_bss_rx: amount of time the radio spent receiving data on a local BSS * * Used by dump_survey() to report back per-channel survey information. * * This structure can later be expanded with things like * channel duty cycle etc. */ struct survey_info { struct ieee80211_channel *channel; u64 time; u64 time_busy; u64 time_ext_busy; u64 time_rx; u64 time_tx; u64 time_scan; u64 time_bss_rx; u32 filled; s8 noise; }; #define CFG80211_MAX_WEP_KEYS 4 /** * struct cfg80211_crypto_settings - Crypto settings * @wpa_versions: indicates which, if any, WPA versions are enabled * (from enum nl80211_wpa_versions) * @cipher_group: group key cipher suite (or 0 if unset) * @n_ciphers_pairwise: number of AP supported unicast ciphers * @ciphers_pairwise: unicast key cipher suites * @n_akm_suites: number of AKM suites * @akm_suites: AKM suites * @control_port: Whether user space controls IEEE 802.1X port, i.e., * sets/clears %NL80211_STA_FLAG_AUTHORIZED. If true, the driver is * required to assume that the port is unauthorized until authorized by * user space. Otherwise, port is marked authorized by default. * @control_port_ethertype: the control port protocol that should be * allowed through even on unauthorized ports * @control_port_no_encrypt: TRUE to prevent encryption of control port * protocol frames. * @control_port_over_nl80211: TRUE if userspace expects to exchange control * port frames over NL80211 instead of the network interface. * @control_port_no_preauth: disables pre-auth rx over the nl80211 control * port for mac80211 * @wep_keys: static WEP keys, if not NULL points to an array of * CFG80211_MAX_WEP_KEYS WEP keys * @wep_tx_key: key index (0..3) of the default TX static WEP key * @psk: PSK (for devices supporting 4-way-handshake offload) * @sae_pwd: password for SAE authentication (for devices supporting SAE * offload) * @sae_pwd_len: length of SAE password (for devices supporting SAE offload) */ struct cfg80211_crypto_settings { u32 wpa_versions; u32 cipher_group; int n_ciphers_pairwise; u32 ciphers_pairwise[NL80211_MAX_NR_CIPHER_SUITES]; int n_akm_suites; u32 akm_suites[NL80211_MAX_NR_AKM_SUITES]; bool control_port; __be16 control_port_ethertype; bool control_port_no_encrypt; bool control_port_over_nl80211; bool control_port_no_preauth; struct key_params *wep_keys; int wep_tx_key; const u8 *psk; const u8 *sae_pwd; u8 sae_pwd_len; }; /** * struct cfg80211_beacon_data - beacon data * @head: head portion of beacon (before TIM IE) * or %NULL if not changed * @tail: tail portion of beacon (after TIM IE) * or %NULL if not changed * @head_len: length of @head * @tail_len: length of @tail * @beacon_ies: extra information element(s) to add into Beacon frames or %NULL * @beacon_ies_len: length of beacon_ies in octets * @proberesp_ies: extra information element(s) to add into Probe Response * frames or %NULL * @proberesp_ies_len: length of proberesp_ies in octets * @assocresp_ies: extra information element(s) to add into (Re)Association * Response frames or %NULL * @assocresp_ies_len: length of assocresp_ies in octets * @probe_resp_len: length of probe response template (@probe_resp) * @probe_resp: probe response template (AP mode only) * @ftm_responder: enable FTM responder functionality; -1 for no change * (which also implies no change in LCI/civic location data) * @lci: Measurement Report element content, starting with Measurement Token * (measurement type 8) * @civicloc: Measurement Report element content, starting with Measurement * Token (measurement type 11) * @lci_len: LCI data length * @civicloc_len: Civic location data length */ struct cfg80211_beacon_data { const u8 *head, *tail; const u8 *beacon_ies; const u8 *proberesp_ies; const u8 *assocresp_ies; const u8 *probe_resp; const u8 *lci; const u8 *civicloc; s8 ftm_responder; size_t head_len, tail_len; size_t beacon_ies_len; size_t proberesp_ies_len; size_t assocresp_ies_len; size_t probe_resp_len; size_t lci_len; size_t civicloc_len; }; struct mac_address { u8 addr[ETH_ALEN]; }; /** * struct cfg80211_acl_data - Access control list data * * @acl_policy: ACL policy to be applied on the station's * entry specified by mac_addr * @n_acl_entries: Number of MAC address entries passed * @mac_addrs: List of MAC addresses of stations to be used for ACL */ struct cfg80211_acl_data { enum nl80211_acl_policy acl_policy; int n_acl_entries; /* Keep it last */ struct mac_address mac_addrs[]; }; /** * struct cfg80211_fils_discovery - FILS discovery parameters from * IEEE Std 802.11ai-2016, Annex C.3 MIB detail. * * @min_interval: Minimum packet interval in TUs (0 - 10000) * @max_interval: Maximum packet interval in TUs (0 - 10000) * @tmpl_len: Template length * @tmpl: Template data for FILS discovery frame including the action * frame headers. */ struct cfg80211_fils_discovery { u32 min_interval; u32 max_interval; size_t tmpl_len; const u8 *tmpl; }; /** * struct cfg80211_unsol_bcast_probe_resp - Unsolicited broadcast probe * response parameters in 6GHz. * * @interval: Packet interval in TUs. Maximum allowed is 20 TU, as mentioned * in IEEE P802.11ax/D6.0 26.17.2.3.2 - AP behavior for fast passive * scanning * @tmpl_len: Template length * @tmpl: Template data for probe response */ struct cfg80211_unsol_bcast_probe_resp { u32 interval; size_t tmpl_len; const u8 *tmpl; }; /** * enum cfg80211_ap_settings_flags - AP settings flags * * Used by cfg80211_ap_settings * * @AP_SETTINGS_EXTERNAL_AUTH_SUPPORT: AP supports external authentication */ enum cfg80211_ap_settings_flags { AP_SETTINGS_EXTERNAL_AUTH_SUPPORT = BIT(0), }; /** * struct cfg80211_ap_settings - AP configuration * * Used to configure an AP interface. * * @chandef: defines the channel to use * @beacon: beacon data * @beacon_interval: beacon interval * @dtim_period: DTIM period * @ssid: SSID to be used in the BSS (note: may be %NULL if not provided from * user space) * @ssid_len: length of @ssid * @hidden_ssid: whether to hide the SSID in Beacon/Probe Response frames * @crypto: crypto settings * @privacy: the BSS uses privacy * @auth_type: Authentication type (algorithm) * @smps_mode: SMPS mode * @inactivity_timeout: time in seconds to determine station's inactivity. * @p2p_ctwindow: P2P CT Window * @p2p_opp_ps: P2P opportunistic PS * @acl: ACL configuration used by the drivers which has support for * MAC address based access control * @pbss: If set, start as a PCP instead of AP. Relevant for DMG * networks. * @beacon_rate: bitrate to be used for beacons * @ht_cap: HT capabilities (or %NULL if HT isn't enabled) * @vht_cap: VHT capabilities (or %NULL if VHT isn't enabled) * @he_cap: HE capabilities (or %NULL if HE isn't enabled) * @ht_required: stations must support HT * @vht_required: stations must support VHT * @twt_responder: Enable Target Wait Time * @he_required: stations must support HE * @flags: flags, as defined in enum cfg80211_ap_settings_flags * @he_obss_pd: OBSS Packet Detection settings * @he_bss_color: BSS Color settings * @he_oper: HE operation IE (or %NULL if HE isn't enabled) * @fils_discovery: FILS discovery transmission parameters * @unsol_bcast_probe_resp: Unsolicited broadcast probe response parameters */ struct cfg80211_ap_settings { struct cfg80211_chan_def chandef; struct cfg80211_beacon_data beacon; int beacon_interval, dtim_period; const u8 *ssid; size_t ssid_len; enum nl80211_hidden_ssid hidden_ssid; struct cfg80211_crypto_settings crypto; bool privacy; enum nl80211_auth_type auth_type; enum nl80211_smps_mode smps_mode; int inactivity_timeout; u8 p2p_ctwindow; bool p2p_opp_ps; const struct cfg80211_acl_data *acl; bool pbss; struct cfg80211_bitrate_mask beacon_rate; const struct ieee80211_ht_cap *ht_cap; const struct ieee80211_vht_cap *vht_cap; const struct ieee80211_he_cap_elem *he_cap; const struct ieee80211_he_operation *he_oper; bool ht_required, vht_required, he_required; bool twt_responder; u32 flags; struct ieee80211_he_obss_pd he_obss_pd; struct cfg80211_he_bss_color he_bss_color; struct cfg80211_fils_discovery fils_discovery; struct cfg80211_unsol_bcast_probe_resp unsol_bcast_probe_resp; }; /** * struct cfg80211_csa_settings - channel switch settings * * Used for channel switch * * @chandef: defines the channel to use after the switch * @beacon_csa: beacon data while performing the switch * @counter_offsets_beacon: offsets of the counters within the beacon (tail) * @counter_offsets_presp: offsets of the counters within the probe response * @n_counter_offsets_beacon: number of csa counters the beacon (tail) * @n_counter_offsets_presp: number of csa counters in the probe response * @beacon_after: beacon data to be used on the new channel * @radar_required: whether radar detection is required on the new channel * @block_tx: whether transmissions should be blocked while changing * @count: number of beacons until switch */ struct cfg80211_csa_settings { struct cfg80211_chan_def chandef; struct cfg80211_beacon_data beacon_csa; const u16 *counter_offsets_beacon; const u16 *counter_offsets_presp; unsigned int n_counter_offsets_beacon; unsigned int n_counter_offsets_presp; struct cfg80211_beacon_data beacon_after; bool radar_required; bool block_tx; u8 count; }; #define CFG80211_MAX_NUM_DIFFERENT_CHANNELS 10 /** * struct iface_combination_params - input parameters for interface combinations * * Used to pass interface combination parameters * * @num_different_channels: the number of different channels we want * to use for verification * @radar_detect: a bitmap where each bit corresponds to a channel * width where radar detection is needed, as in the definition of * &struct ieee80211_iface_combination.@radar_detect_widths * @iftype_num: array with the number of interfaces of each interface * type. The index is the interface type as specified in &enum * nl80211_iftype. * @new_beacon_int: set this to the beacon interval of a new interface * that's not operating yet, if such is to be checked as part of * the verification */ struct iface_combination_params { int num_different_channels; u8 radar_detect; int iftype_num[NUM_NL80211_IFTYPES]; u32 new_beacon_int; }; /** * enum station_parameters_apply_mask - station parameter values to apply * @STATION_PARAM_APPLY_UAPSD: apply new uAPSD parameters (uapsd_queues, max_sp) * @STATION_PARAM_APPLY_CAPABILITY: apply new capability * @STATION_PARAM_APPLY_PLINK_STATE: apply new plink state * * Not all station parameters have in-band "no change" signalling, * for those that don't these flags will are used. */ enum station_parameters_apply_mask { STATION_PARAM_APPLY_UAPSD = BIT(0), STATION_PARAM_APPLY_CAPABILITY = BIT(1), STATION_PARAM_APPLY_PLINK_STATE = BIT(2), STATION_PARAM_APPLY_STA_TXPOWER = BIT(3), }; /** * struct sta_txpwr - station txpower configuration * * Used to configure txpower for station. * * @power: tx power (in dBm) to be used for sending data traffic. If tx power * is not provided, the default per-interface tx power setting will be * overriding. Driver should be picking up the lowest tx power, either tx * power per-interface or per-station. * @type: In particular if TPC %type is NL80211_TX_POWER_LIMITED then tx power * will be less than or equal to specified from userspace, whereas if TPC * %type is NL80211_TX_POWER_AUTOMATIC then it indicates default tx power. * NL80211_TX_POWER_FIXED is not a valid configuration option for * per peer TPC. */ struct sta_txpwr { s16 power; enum nl80211_tx_power_setting type; }; /** * struct station_parameters - station parameters * * Used to change and create a new station. * * @vlan: vlan interface station should belong to * @supported_rates: supported rates in IEEE 802.11 format * (or NULL for no change) * @supported_rates_len: number of supported rates * @sta_flags_mask: station flags that changed * (bitmask of BIT(%NL80211_STA_FLAG_...)) * @sta_flags_set: station flags values * (bitmask of BIT(%NL80211_STA_FLAG_...)) * @listen_interval: listen interval or -1 for no change * @aid: AID or zero for no change * @vlan_id: VLAN ID for station (if nonzero) * @peer_aid: mesh peer AID or zero for no change * @plink_action: plink action to take * @plink_state: set the peer link state for a station * @ht_capa: HT capabilities of station * @vht_capa: VHT capabilities of station * @uapsd_queues: bitmap of queues configured for uapsd. same format * as the AC bitmap in the QoS info field * @max_sp: max Service Period. same format as the MAX_SP in the * QoS info field (but already shifted down) * @sta_modify_mask: bitmap indicating which parameters changed * (for those that don't have a natural "no change" value), * see &enum station_parameters_apply_mask * @local_pm: local link-specific mesh power save mode (no change when set * to unknown) * @capability: station capability * @ext_capab: extended capabilities of the station * @ext_capab_len: number of extended capabilities * @supported_channels: supported channels in IEEE 802.11 format * @supported_channels_len: number of supported channels * @supported_oper_classes: supported oper classes in IEEE 802.11 format * @supported_oper_classes_len: number of supported operating classes * @opmode_notif: operating mode field from Operating Mode Notification * @opmode_notif_used: information if operating mode field is used * @support_p2p_ps: information if station supports P2P PS mechanism * @he_capa: HE capabilities of station * @he_capa_len: the length of the HE capabilities * @airtime_weight: airtime scheduler weight for this station * @txpwr: transmit power for an associated station * @he_6ghz_capa: HE 6 GHz Band capabilities of station */ struct station_parameters { const u8 *supported_rates; struct net_device *vlan; u32 sta_flags_mask, sta_flags_set; u32 sta_modify_mask; int listen_interval; u16 aid; u16 vlan_id; u16 peer_aid; u8 supported_rates_len; u8 plink_action; u8 plink_state; const struct ieee80211_ht_cap *ht_capa; const struct ieee80211_vht_cap *vht_capa; u8 uapsd_queues; u8 max_sp; enum nl80211_mesh_power_mode local_pm; u16 capability; const u8 *ext_capab; u8 ext_capab_len; const u8 *supported_channels; u8 supported_channels_len; const u8 *supported_oper_classes; u8 supported_oper_classes_len; u8 opmode_notif; bool opmode_notif_used; int support_p2p_ps; const struct ieee80211_he_cap_elem *he_capa; u8 he_capa_len; u16 airtime_weight; struct sta_txpwr txpwr; const struct ieee80211_he_6ghz_capa *he_6ghz_capa; }; /** * struct station_del_parameters - station deletion parameters * * Used to delete a station entry (or all stations). * * @mac: MAC address of the station to remove or NULL to remove all stations * @subtype: Management frame subtype to use for indicating removal * (10 = Disassociation, 12 = Deauthentication) * @reason_code: Reason code for the Disassociation/Deauthentication frame */ struct station_del_parameters { const u8 *mac; u8 subtype; u16 reason_code; }; /** * enum cfg80211_station_type - the type of station being modified * @CFG80211_STA_AP_CLIENT: client of an AP interface * @CFG80211_STA_AP_CLIENT_UNASSOC: client of an AP interface that is still * unassociated (update properties for this type of client is permitted) * @CFG80211_STA_AP_MLME_CLIENT: client of an AP interface that has * the AP MLME in the device * @CFG80211_STA_AP_STA: AP station on managed interface * @CFG80211_STA_IBSS: IBSS station * @CFG80211_STA_TDLS_PEER_SETUP: TDLS peer on managed interface (dummy entry * while TDLS setup is in progress, it moves out of this state when * being marked authorized; use this only if TDLS with external setup is * supported/used) * @CFG80211_STA_TDLS_PEER_ACTIVE: TDLS peer on managed interface (active * entry that is operating, has been marked authorized by userspace) * @CFG80211_STA_MESH_PEER_KERNEL: peer on mesh interface (kernel managed) * @CFG80211_STA_MESH_PEER_USER: peer on mesh interface (user managed) */ enum cfg80211_station_type { CFG80211_STA_AP_CLIENT, CFG80211_STA_AP_CLIENT_UNASSOC, CFG80211_STA_AP_MLME_CLIENT, CFG80211_STA_AP_STA, CFG80211_STA_IBSS, CFG80211_STA_TDLS_PEER_SETUP, CFG80211_STA_TDLS_PEER_ACTIVE, CFG80211_STA_MESH_PEER_KERNEL, CFG80211_STA_MESH_PEER_USER, }; /** * cfg80211_check_station_change - validate parameter changes * @wiphy: the wiphy this operates on * @params: the new parameters for a station * @statype: the type of station being modified * * Utility function for the @change_station driver method. Call this function * with the appropriate station type looking up the station (and checking that * it exists). It will verify whether the station change is acceptable, and if * not will return an error code. Note that it may modify the parameters for * backward compatibility reasons, so don't use them before calling this. */ int cfg80211_check_station_change(struct wiphy *wiphy, struct station_parameters *params, enum cfg80211_station_type statype); /** * enum rate_info_flags - bitrate info flags * * Used by the driver to indicate the specific rate transmission * type for 802.11n transmissions. * * @RATE_INFO_FLAGS_MCS: mcs field filled with HT MCS * @RATE_INFO_FLAGS_VHT_MCS: mcs field filled with VHT MCS * @RATE_INFO_FLAGS_SHORT_GI: 400ns guard interval * @RATE_INFO_FLAGS_DMG: 60GHz MCS * @RATE_INFO_FLAGS_HE_MCS: HE MCS information * @RATE_INFO_FLAGS_EDMG: 60GHz MCS in EDMG mode */ enum rate_info_flags { RATE_INFO_FLAGS_MCS = BIT(0), RATE_INFO_FLAGS_VHT_MCS = BIT(1), RATE_INFO_FLAGS_SHORT_GI = BIT(2), RATE_INFO_FLAGS_DMG = BIT(3), RATE_INFO_FLAGS_HE_MCS = BIT(4), RATE_INFO_FLAGS_EDMG = BIT(5), }; /** * enum rate_info_bw - rate bandwidth information * * Used by the driver to indicate the rate bandwidth. * * @RATE_INFO_BW_5: 5 MHz bandwidth * @RATE_INFO_BW_10: 10 MHz bandwidth * @RATE_INFO_BW_20: 20 MHz bandwidth * @RATE_INFO_BW_40: 40 MHz bandwidth * @RATE_INFO_BW_80: 80 MHz bandwidth * @RATE_INFO_BW_160: 160 MHz bandwidth * @RATE_INFO_BW_HE_RU: bandwidth determined by HE RU allocation */ enum rate_info_bw { RATE_INFO_BW_20 = 0, RATE_INFO_BW_5, RATE_INFO_BW_10, RATE_INFO_BW_40, RATE_INFO_BW_80, RATE_INFO_BW_160, RATE_INFO_BW_HE_RU, }; /** * struct rate_info - bitrate information * * Information about a receiving or transmitting bitrate * * @flags: bitflag of flags from &enum rate_info_flags * @mcs: mcs index if struct describes an HT/VHT/HE rate * @legacy: bitrate in 100kbit/s for 802.11abg * @nss: number of streams (VHT & HE only) * @bw: bandwidth (from &enum rate_info_bw) * @he_gi: HE guard interval (from &enum nl80211_he_gi) * @he_dcm: HE DCM value * @he_ru_alloc: HE RU allocation (from &enum nl80211_he_ru_alloc, * only valid if bw is %RATE_INFO_BW_HE_RU) * @n_bonded_ch: In case of EDMG the number of bonded channels (1-4) */ struct rate_info { u8 flags; u8 mcs; u16 legacy; u8 nss; u8 bw; u8 he_gi; u8 he_dcm; u8 he_ru_alloc; u8 n_bonded_ch; }; /** * enum bss_param_flags - bitrate info flags * * Used by the driver to indicate the specific rate transmission * type for 802.11n transmissions. * * @BSS_PARAM_FLAGS_CTS_PROT: whether CTS protection is enabled * @BSS_PARAM_FLAGS_SHORT_PREAMBLE: whether short preamble is enabled * @BSS_PARAM_FLAGS_SHORT_SLOT_TIME: whether short slot time is enabled */ enum bss_param_flags { BSS_PARAM_FLAGS_CTS_PROT = 1<<0, BSS_PARAM_FLAGS_SHORT_PREAMBLE = 1<<1, BSS_PARAM_FLAGS_SHORT_SLOT_TIME = 1<<2, }; /** * struct sta_bss_parameters - BSS parameters for the attached station * * Information about the currently associated BSS * * @flags: bitflag of flags from &enum bss_param_flags * @dtim_period: DTIM period for the BSS * @beacon_interval: beacon interval */ struct sta_bss_parameters { u8 flags; u8 dtim_period; u16 beacon_interval; }; /** * struct cfg80211_txq_stats - TXQ statistics for this TID * @filled: bitmap of flags using the bits of &enum nl80211_txq_stats to * indicate the relevant values in this struct are filled * @backlog_bytes: total number of bytes currently backlogged * @backlog_packets: total number of packets currently backlogged * @flows: number of new flows seen * @drops: total number of packets dropped * @ecn_marks: total number of packets marked with ECN CE * @overlimit: number of drops due to queue space overflow * @overmemory: number of drops due to memory limit overflow * @collisions: number of hash collisions * @tx_bytes: total number of bytes dequeued * @tx_packets: total number of packets dequeued * @max_flows: maximum number of flows supported */ struct cfg80211_txq_stats { u32 filled; u32 backlog_bytes; u32 backlog_packets; u32 flows; u32 drops; u32 ecn_marks; u32 overlimit; u32 overmemory; u32 collisions; u32 tx_bytes; u32 tx_packets; u32 max_flows; }; /** * struct cfg80211_tid_stats - per-TID statistics * @filled: bitmap of flags using the bits of &enum nl80211_tid_stats to * indicate the relevant values in this struct are filled * @rx_msdu: number of received MSDUs * @tx_msdu: number of (attempted) transmitted MSDUs * @tx_msdu_retries: number of retries (not counting the first) for * transmitted MSDUs * @tx_msdu_failed: number of failed transmitted MSDUs * @txq_stats: TXQ statistics */ struct cfg80211_tid_stats { u32 filled; u64 rx_msdu; u64 tx_msdu; u64 tx_msdu_retries; u64 tx_msdu_failed; struct cfg80211_txq_stats txq_stats; }; #define IEEE80211_MAX_CHAINS 4 /** * struct station_info - station information * * Station information filled by driver for get_station() and dump_station. * * @filled: bitflag of flags using the bits of &enum nl80211_sta_info to * indicate the relevant values in this struct for them * @connected_time: time(in secs) since a station is last connected * @inactive_time: time since last station activity (tx/rx) in milliseconds * @assoc_at: bootime (ns) of the last association * @rx_bytes: bytes (size of MPDUs) received from this station * @tx_bytes: bytes (size of MPDUs) transmitted to this station * @llid: mesh local link id * @plid: mesh peer link id * @plink_state: mesh peer link state * @signal: The signal strength, type depends on the wiphy's signal_type. * For CFG80211_SIGNAL_TYPE_MBM, value is expressed in _dBm_. * @signal_avg: Average signal strength, type depends on the wiphy's signal_type. * For CFG80211_SIGNAL_TYPE_MBM, value is expressed in _dBm_. * @chains: bitmask for filled values in @chain_signal, @chain_signal_avg * @chain_signal: per-chain signal strength of last received packet in dBm * @chain_signal_avg: per-chain signal strength average in dBm * @txrate: current unicast bitrate from this station * @rxrate: current unicast bitrate to this station * @rx_packets: packets (MSDUs & MMPDUs) received from this station * @tx_packets: packets (MSDUs & MMPDUs) transmitted to this station * @tx_retries: cumulative retry counts (MPDUs) * @tx_failed: number of failed transmissions (MPDUs) (retries exceeded, no ACK) * @rx_dropped_misc: Dropped for un-specified reason. * @bss_param: current BSS parameters * @generation: generation number for nl80211 dumps. * This number should increase every time the list of stations * changes, i.e. when a station is added or removed, so that * userspace can tell whether it got a consistent snapshot. * @assoc_req_ies: IEs from (Re)Association Request. * This is used only when in AP mode with drivers that do not use * user space MLME/SME implementation. The information is provided for * the cfg80211_new_sta() calls to notify user space of the IEs. * @assoc_req_ies_len: Length of assoc_req_ies buffer in octets. * @sta_flags: station flags mask & values * @beacon_loss_count: Number of times beacon loss event has triggered. * @t_offset: Time offset of the station relative to this host. * @local_pm: local mesh STA power save mode * @peer_pm: peer mesh STA power save mode * @nonpeer_pm: non-peer mesh STA power save mode * @expected_throughput: expected throughput in kbps (including 802.11 headers) * towards this station. * @rx_beacon: number of beacons received from this peer * @rx_beacon_signal_avg: signal strength average (in dBm) for beacons received * from this peer * @connected_to_gate: true if mesh STA has a path to mesh gate * @rx_duration: aggregate PPDU duration(usecs) for all the frames from a peer * @tx_duration: aggregate PPDU duration(usecs) for all the frames to a peer * @airtime_weight: current airtime scheduling weight * @pertid: per-TID statistics, see &struct cfg80211_tid_stats, using the last * (IEEE80211_NUM_TIDS) index for MSDUs not encapsulated in QoS-MPDUs. * Note that this doesn't use the @filled bit, but is used if non-NULL. * @ack_signal: signal strength (in dBm) of the last ACK frame. * @avg_ack_signal: average rssi value of ack packet for the no of msdu's has * been sent. * @rx_mpdu_count: number of MPDUs received from this station * @fcs_err_count: number of packets (MPDUs) received from this station with * an FCS error. This counter should be incremented only when TA of the * received packet with an FCS error matches the peer MAC address. * @airtime_link_metric: mesh airtime link metric. * @connected_to_as: true if mesh STA has a path to authentication server */ struct station_info { u64 filled; u32 connected_time; u32 inactive_time; u64 assoc_at; u64 rx_bytes; u64 tx_bytes; u16 llid; u16 plid; u8 plink_state; s8 signal; s8 signal_avg; u8 chains; s8 chain_signal[IEEE80211_MAX_CHAINS]; s8 chain_signal_avg[IEEE80211_MAX_CHAINS]; struct rate_info txrate; struct rate_info rxrate; u32 rx_packets; u32 tx_packets; u32 tx_retries; u32 tx_failed; u32 rx_dropped_misc; struct sta_bss_parameters bss_param; struct nl80211_sta_flag_update sta_flags; int generation; const u8 *assoc_req_ies; size_t assoc_req_ies_len; u32 beacon_loss_count; s64 t_offset; enum nl80211_mesh_power_mode local_pm; enum nl80211_mesh_power_mode peer_pm; enum nl80211_mesh_power_mode nonpeer_pm; u32 expected_throughput; u64 tx_duration; u64 rx_duration; u64 rx_beacon; u8 rx_beacon_signal_avg; u8 connected_to_gate; struct cfg80211_tid_stats *pertid; s8 ack_signal; s8 avg_ack_signal; u16 airtime_weight; u32 rx_mpdu_count; u32 fcs_err_count; u32 airtime_link_metric; u8 connected_to_as; }; #if IS_ENABLED(CONFIG_CFG80211) /** * cfg80211_get_station - retrieve information about a given station * @dev: the device where the station is supposed to be connected to * @mac_addr: the mac address of the station of interest * @sinfo: pointer to the structure to fill with the information * * Returns 0 on success and sinfo is filled with the available information * otherwise returns a negative error code and the content of sinfo has to be * considered undefined. */ int cfg80211_get_station(struct net_device *dev, const u8 *mac_addr, struct station_info *sinfo); #else static inline int cfg80211_get_station(struct net_device *dev, const u8 *mac_addr, struct station_info *sinfo) { return -ENOENT; } #endif /** * enum monitor_flags - monitor flags * * Monitor interface configuration flags. Note that these must be the bits * according to the nl80211 flags. * * @MONITOR_FLAG_CHANGED: set if the flags were changed * @MONITOR_FLAG_FCSFAIL: pass frames with bad FCS * @MONITOR_FLAG_PLCPFAIL: pass frames with bad PLCP * @MONITOR_FLAG_CONTROL: pass control frames * @MONITOR_FLAG_OTHER_BSS: disable BSSID filtering * @MONITOR_FLAG_COOK_FRAMES: report frames after processing * @MONITOR_FLAG_ACTIVE: active monitor, ACKs frames on its MAC address */ enum monitor_flags { MONITOR_FLAG_CHANGED = 1<<__NL80211_MNTR_FLAG_INVALID, MONITOR_FLAG_FCSFAIL = 1<<NL80211_MNTR_FLAG_FCSFAIL, MONITOR_FLAG_PLCPFAIL = 1<<NL80211_MNTR_FLAG_PLCPFAIL, MONITOR_FLAG_CONTROL = 1<<NL80211_MNTR_FLAG_CONTROL, MONITOR_FLAG_OTHER_BSS = 1<<NL80211_MNTR_FLAG_OTHER_BSS, MONITOR_FLAG_COOK_FRAMES = 1<<NL80211_MNTR_FLAG_COOK_FRAMES, MONITOR_FLAG_ACTIVE = 1<<NL80211_MNTR_FLAG_ACTIVE, }; /** * enum mpath_info_flags - mesh path information flags * * Used by the driver to indicate which info in &struct mpath_info it has filled * in during get_station() or dump_station(). * * @MPATH_INFO_FRAME_QLEN: @frame_qlen filled * @MPATH_INFO_SN: @sn filled * @MPATH_INFO_METRIC: @metric filled * @MPATH_INFO_EXPTIME: @exptime filled * @MPATH_INFO_DISCOVERY_TIMEOUT: @discovery_timeout filled * @MPATH_INFO_DISCOVERY_RETRIES: @discovery_retries filled * @MPATH_INFO_FLAGS: @flags filled * @MPATH_INFO_HOP_COUNT: @hop_count filled * @MPATH_INFO_PATH_CHANGE: @path_change_count filled */ enum mpath_info_flags { MPATH_INFO_FRAME_QLEN = BIT(0), MPATH_INFO_SN = BIT(1), MPATH_INFO_METRIC = BIT(2), MPATH_INFO_EXPTIME = BIT(3), MPATH_INFO_DISCOVERY_TIMEOUT = BIT(4), MPATH_INFO_DISCOVERY_RETRIES = BIT(5), MPATH_INFO_FLAGS = BIT(6), MPATH_INFO_HOP_COUNT = BIT(7), MPATH_INFO_PATH_CHANGE = BIT(8), }; /** * struct mpath_info - mesh path information * * Mesh path information filled by driver for get_mpath() and dump_mpath(). * * @filled: bitfield of flags from &enum mpath_info_flags * @frame_qlen: number of queued frames for this destination * @sn: target sequence number * @metric: metric (cost) of this mesh path * @exptime: expiration time for the mesh path from now, in msecs * @flags: mesh path flags * @discovery_timeout: total mesh path discovery timeout, in msecs * @discovery_retries: mesh path discovery retries * @generation: generation number for nl80211 dumps. * This number should increase every time the list of mesh paths * changes, i.e. when a station is added or removed, so that * userspace can tell whether it got a consistent snapshot. * @hop_count: hops to destination * @path_change_count: total number of path changes to destination */ struct mpath_info { u32 filled; u32 frame_qlen; u32 sn; u32 metric; u32 exptime; u32 discovery_timeout; u8 discovery_retries; u8 flags; u8 hop_count; u32 path_change_count; int generation; }; /** * struct bss_parameters - BSS parameters * * Used to change BSS parameters (mainly for AP mode). * * @use_cts_prot: Whether to use CTS protection * (0 = no, 1 = yes, -1 = do not change) * @use_short_preamble: Whether the use of short preambles is allowed * (0 = no, 1 = yes, -1 = do not change) * @use_short_slot_time: Whether the use of short slot time is allowed * (0 = no, 1 = yes, -1 = do not change) * @basic_rates: basic rates in IEEE 802.11 format * (or NULL for no change) * @basic_rates_len: number of basic rates * @ap_isolate: do not forward packets between connected stations * (0 = no, 1 = yes, -1 = do not change) * @ht_opmode: HT Operation mode * (u16 = opmode, -1 = do not change) * @p2p_ctwindow: P2P CT Window (-1 = no change) * @p2p_opp_ps: P2P opportunistic PS (-1 = no change) */ struct bss_parameters { int use_cts_prot; int use_short_preamble; int use_short_slot_time; const u8 *basic_rates; u8 basic_rates_len; int ap_isolate; int ht_opmode; s8 p2p_ctwindow, p2p_opp_ps; }; /** * struct mesh_config - 802.11s mesh configuration * * These parameters can be changed while the mesh is active. * * @dot11MeshRetryTimeout: the initial retry timeout in millisecond units used * by the Mesh Peering Open message * @dot11MeshConfirmTimeout: the initial retry timeout in millisecond units * used by the Mesh Peering Open message * @dot11MeshHoldingTimeout: the confirm timeout in millisecond units used by * the mesh peering management to close a mesh peering * @dot11MeshMaxPeerLinks: the maximum number of peer links allowed on this * mesh interface * @dot11MeshMaxRetries: the maximum number of peer link open retries that can * be sent to establish a new peer link instance in a mesh * @dot11MeshTTL: the value of TTL field set at a source mesh STA * @element_ttl: the value of TTL field set at a mesh STA for path selection * elements * @auto_open_plinks: whether we should automatically open peer links when we * detect compatible mesh peers * @dot11MeshNbrOffsetMaxNeighbor: the maximum number of neighbors to * synchronize to for 11s default synchronization method * @dot11MeshHWMPmaxPREQretries: the number of action frames containing a PREQ * that an originator mesh STA can send to a particular path target * @path_refresh_time: how frequently to refresh mesh paths in milliseconds * @min_discovery_timeout: the minimum length of time to wait until giving up on * a path discovery in milliseconds * @dot11MeshHWMPactivePathTimeout: the time (in TUs) for which mesh STAs * receiving a PREQ shall consider the forwarding information from the * root to be valid. (TU = time unit) * @dot11MeshHWMPpreqMinInterval: the minimum interval of time (in TUs) during * which a mesh STA can send only one action frame containing a PREQ * element * @dot11MeshHWMPperrMinInterval: the minimum interval of time (in TUs) during * which a mesh STA can send only one Action frame containing a PERR * element * @dot11MeshHWMPnetDiameterTraversalTime: the interval of time (in TUs) that * it takes for an HWMP information element to propagate across the mesh * @dot11MeshHWMPRootMode: the configuration of a mesh STA as root mesh STA * @dot11MeshHWMPRannInterval: the interval of time (in TUs) between root * announcements are transmitted * @dot11MeshGateAnnouncementProtocol: whether to advertise that this mesh * station has access to a broader network beyond the MBSS. (This is * missnamed in draft 12.0: dot11MeshGateAnnouncementProtocol set to true * only means that the station will announce others it's a mesh gate, but * not necessarily using the gate announcement protocol. Still keeping the * same nomenclature to be in sync with the spec) * @dot11MeshForwarding: whether the Mesh STA is forwarding or non-forwarding * entity (default is TRUE - forwarding entity) * @rssi_threshold: the threshold for average signal strength of candidate * station to establish a peer link * @ht_opmode: mesh HT protection mode * * @dot11MeshHWMPactivePathToRootTimeout: The time (in TUs) for which mesh STAs * receiving a proactive PREQ shall consider the forwarding information to * the root mesh STA to be valid. * * @dot11MeshHWMProotInterval: The interval of time (in TUs) between proactive * PREQs are transmitted. * @dot11MeshHWMPconfirmationInterval: The minimum interval of time (in TUs) * during which a mesh STA can send only one Action frame containing * a PREQ element for root path confirmation. * @power_mode: The default mesh power save mode which will be the initial * setting for new peer links. * @dot11MeshAwakeWindowDuration: The duration in TUs the STA will remain awake * after transmitting its beacon. * @plink_timeout: If no tx activity is seen from a STA we've established * peering with for longer than this time (in seconds), then remove it * from the STA's list of peers. Default is 30 minutes. * @dot11MeshConnectedToMeshGate: if set to true, advertise that this STA is * connected to a mesh gate in mesh formation info. If false, the * value in mesh formation is determined by the presence of root paths * in the mesh path table * @dot11MeshNolearn: Try to avoid multi-hop path discovery (e.g. PREQ/PREP * for HWMP) if the destination is a direct neighbor. Note that this might * not be the optimal decision as a multi-hop route might be better. So * if using this setting you will likely also want to disable * dot11MeshForwarding and use another mesh routing protocol on top. */ struct mesh_config { u16 dot11MeshRetryTimeout; u16 dot11MeshConfirmTimeout; u16 dot11MeshHoldingTimeout; u16 dot11MeshMaxPeerLinks; u8 dot11MeshMaxRetries; u8 dot11MeshTTL; u8 element_ttl; bool auto_open_plinks; u32 dot11MeshNbrOffsetMaxNeighbor; u8 dot11MeshHWMPmaxPREQretries; u32 path_refresh_time; u16 min_discovery_timeout; u32 dot11MeshHWMPactivePathTimeout; u16 dot11MeshHWMPpreqMinInterval; u16 dot11MeshHWMPperrMinInterval; u16 dot11MeshHWMPnetDiameterTraversalTime; u8 dot11MeshHWMPRootMode; bool dot11MeshConnectedToMeshGate; bool dot11MeshConnectedToAuthServer; u16 dot11MeshHWMPRannInterval; bool dot11MeshGateAnnouncementProtocol; bool dot11MeshForwarding; s32 rssi_threshold; u16 ht_opmode; u32 dot11MeshHWMPactivePathToRootTimeout; u16 dot11MeshHWMProotInterval; u16 dot11MeshHWMPconfirmationInterval; enum nl80211_mesh_power_mode power_mode; u16 dot11MeshAwakeWindowDuration; u32 plink_timeout; bool dot11MeshNolearn; }; /** * struct mesh_setup - 802.11s mesh setup configuration * @chandef: defines the channel to use * @mesh_id: the mesh ID * @mesh_id_len: length of the mesh ID, at least 1 and at most 32 bytes * @sync_method: which synchronization method to use * @path_sel_proto: which path selection protocol to use * @path_metric: which metric to use * @auth_id: which authentication method this mesh is using * @ie: vendor information elements (optional) * @ie_len: length of vendor information elements * @is_authenticated: this mesh requires authentication * @is_secure: this mesh uses security * @user_mpm: userspace handles all MPM functions * @dtim_period: DTIM period to use * @beacon_interval: beacon interval to use * @mcast_rate: multicat rate for Mesh Node [6Mbps is the default for 802.11a] * @basic_rates: basic rates to use when creating the mesh * @beacon_rate: bitrate to be used for beacons * @userspace_handles_dfs: whether user space controls DFS operation, i.e. * changes the channel when a radar is detected. This is required * to operate on DFS channels. * @control_port_over_nl80211: TRUE if userspace expects to exchange control * port frames over NL80211 instead of the network interface. * * These parameters are fixed when the mesh is created. */ struct mesh_setup { struct cfg80211_chan_def chandef; const u8 *mesh_id; u8 mesh_id_len; u8 sync_method; u8 path_sel_proto; u8 path_metric; u8 auth_id; const u8 *ie; u8 ie_len; bool is_authenticated; bool is_secure; bool user_mpm; u8 dtim_period; u16 beacon_interval; int mcast_rate[NUM_NL80211_BANDS]; u32 basic_rates; struct cfg80211_bitrate_mask beacon_rate; bool userspace_handles_dfs; bool control_port_over_nl80211; }; /** * struct ocb_setup - 802.11p OCB mode setup configuration * @chandef: defines the channel to use * * These parameters are fixed when connecting to the network */ struct ocb_setup { struct cfg80211_chan_def chandef; }; /** * struct ieee80211_txq_params - TX queue parameters * @ac: AC identifier * @txop: Maximum burst time in units of 32 usecs, 0 meaning disabled * @cwmin: Minimum contention window [a value of the form 2^n-1 in the range * 1..32767] * @cwmax: Maximum contention window [a value of the form 2^n-1 in the range * 1..32767] * @aifs: Arbitration interframe space [0..255] */ struct ieee80211_txq_params { enum nl80211_ac ac; u16 txop; u16 cwmin; u16 cwmax; u8 aifs; }; /** * DOC: Scanning and BSS list handling * * The scanning process itself is fairly simple, but cfg80211 offers quite * a bit of helper functionality. To start a scan, the scan operation will * be invoked with a scan definition. This scan definition contains the * channels to scan, and the SSIDs to send probe requests for (including the * wildcard, if desired). A passive scan is indicated by having no SSIDs to * probe. Additionally, a scan request may contain extra information elements * that should be added to the probe request. The IEs are guaranteed to be * well-formed, and will not exceed the maximum length the driver advertised * in the wiphy structure. * * When scanning finds a BSS, cfg80211 needs to be notified of that, because * it is responsible for maintaining the BSS list; the driver should not * maintain a list itself. For this notification, various functions exist. * * Since drivers do not maintain a BSS list, there are also a number of * functions to search for a BSS and obtain information about it from the * BSS structure cfg80211 maintains. The BSS list is also made available * to userspace. */ /** * struct cfg80211_ssid - SSID description * @ssid: the SSID * @ssid_len: length of the ssid */ struct cfg80211_ssid { u8 ssid[IEEE80211_MAX_SSID_LEN]; u8 ssid_len; }; /** * struct cfg80211_scan_info - information about completed scan * @scan_start_tsf: scan start time in terms of the TSF of the BSS that the * wireless device that requested the scan is connected to. If this * information is not available, this field is left zero. * @tsf_bssid: the BSSID according to which %scan_start_tsf is set. * @aborted: set to true if the scan was aborted for any reason, * userspace will be notified of that */ struct cfg80211_scan_info { u64 scan_start_tsf; u8 tsf_bssid[ETH_ALEN] __aligned(2); bool aborted; }; /** * struct cfg80211_scan_6ghz_params - relevant for 6 GHz only * * @short_bssid: short ssid to scan for * @bssid: bssid to scan for * @channel_idx: idx of the channel in the channel array in the scan request * which the above info relvant to * @unsolicited_probe: the AP transmits unsolicited probe response every 20 TU * @short_ssid_valid: short_ssid is valid and can be used * @psc_no_listen: when set, and the channel is a PSC channel, no need to wait * 20 TUs before starting to send probe requests. */ struct cfg80211_scan_6ghz_params { u32 short_ssid; u32 channel_idx; u8 bssid[ETH_ALEN]; bool unsolicited_probe; bool short_ssid_valid; bool psc_no_listen; }; /** * struct cfg80211_scan_request - scan request description * * @ssids: SSIDs to scan for (active scan only) * @n_ssids: number of SSIDs * @channels: channels to scan on. * @n_channels: total number of channels to scan * @scan_width: channel width for scanning * @ie: optional information element(s) to add into Probe Request or %NULL * @ie_len: length of ie in octets * @duration: how long to listen on each channel, in TUs. If * %duration_mandatory is not set, this is the maximum dwell time and * the actual dwell time may be shorter. * @duration_mandatory: if set, the scan duration must be as specified by the * %duration field. * @flags: bit field of flags controlling operation * @rates: bitmap of rates to advertise for each band * @wiphy: the wiphy this was for * @scan_start: time (in jiffies) when the scan started * @wdev: the wireless device to scan for * @info: (internal) information about completed scan * @notified: (internal) scan request was notified as done or aborted * @no_cck: used to send probe requests at non CCK rate in 2GHz band * @mac_addr: MAC address used with randomisation * @mac_addr_mask: MAC address mask used with randomisation, bits that * are 0 in the mask should be randomised, bits that are 1 should * be taken from the @mac_addr * @scan_6ghz: relevant for split scan request only, * true if this is the second scan request * @n_6ghz_params: number of 6 GHz params * @scan_6ghz_params: 6 GHz params * @bssid: BSSID to scan for (most commonly, the wildcard BSSID) */ struct cfg80211_scan_request { struct cfg80211_ssid *ssids; int n_ssids; u32 n_channels; enum nl80211_bss_scan_width scan_width; const u8 *ie; size_t ie_len; u16 duration; bool duration_mandatory; u32 flags; u32 rates[NUM_NL80211_BANDS]; struct wireless_dev *wdev; u8 mac_addr[ETH_ALEN] __aligned(2); u8 mac_addr_mask[ETH_ALEN] __aligned(2); u8 bssid[ETH_ALEN] __aligned(2); /* internal */ struct wiphy *wiphy; unsigned long scan_start; struct cfg80211_scan_info info; bool notified; bool no_cck; bool scan_6ghz; u32 n_6ghz_params; struct cfg80211_scan_6ghz_params *scan_6ghz_params; /* keep last */ struct ieee80211_channel *channels[]; }; static inline void get_random_mask_addr(u8 *buf, const u8 *addr, const u8 *mask) { int i; get_random_bytes(buf, ETH_ALEN); for (i = 0; i < ETH_ALEN; i++) { buf[i] &= ~mask[i]; buf[i] |= addr[i] & mask[i]; } } /** * struct cfg80211_match_set - sets of attributes to match * * @ssid: SSID to be matched; may be zero-length in case of BSSID match * or no match (RSSI only) * @bssid: BSSID to be matched; may be all-zero BSSID in case of SSID match * or no match (RSSI only) * @rssi_thold: don't report scan results below this threshold (in s32 dBm) * @per_band_rssi_thold: Minimum rssi threshold for each band to be applied * for filtering out scan results received. Drivers advertize this support * of band specific rssi based filtering through the feature capability * %NL80211_EXT_FEATURE_SCHED_SCAN_BAND_SPECIFIC_RSSI_THOLD. These band * specific rssi thresholds take precedence over rssi_thold, if specified. * If not specified for any band, it will be assigned with rssi_thold of * corresponding matchset. */ struct cfg80211_match_set { struct cfg80211_ssid ssid; u8 bssid[ETH_ALEN]; s32 rssi_thold; s32 per_band_rssi_thold[NUM_NL80211_BANDS]; }; /** * struct cfg80211_sched_scan_plan - scan plan for scheduled scan * * @interval: interval between scheduled scan iterations. In seconds. * @iterations: number of scan iterations in this scan plan. Zero means * infinite loop. * The last scan plan will always have this parameter set to zero, * all other scan plans will have a finite number of iterations. */ struct cfg80211_sched_scan_plan { u32 interval; u32 iterations; }; /** * struct cfg80211_bss_select_adjust - BSS selection with RSSI adjustment. * * @band: band of BSS which should match for RSSI level adjustment. * @delta: value of RSSI level adjustment. */ struct cfg80211_bss_select_adjust { enum nl80211_band band; s8 delta; }; /** * struct cfg80211_sched_scan_request - scheduled scan request description * * @reqid: identifies this request. * @ssids: SSIDs to scan for (passed in the probe_reqs in active scans) * @n_ssids: number of SSIDs * @n_channels: total number of channels to scan * @scan_width: channel width for scanning * @ie: optional information element(s) to add into Probe Request or %NULL * @ie_len: length of ie in octets * @flags: bit field of flags controlling operation * @match_sets: sets of parameters to be matched for a scan result * entry to be considered valid and to be passed to the host * (others are filtered out). * If ommited, all results are passed. * @n_match_sets: number of match sets * @report_results: indicates that results were reported for this request * @wiphy: the wiphy this was for * @dev: the interface * @scan_start: start time of the scheduled scan * @channels: channels to scan * @min_rssi_thold: for drivers only supporting a single threshold, this * contains the minimum over all matchsets * @mac_addr: MAC address used with randomisation * @mac_addr_mask: MAC address mask used with randomisation, bits that * are 0 in the mask should be randomised, bits that are 1 should * be taken from the @mac_addr * @scan_plans: scan plans to be executed in this scheduled scan. Lowest * index must be executed first. * @n_scan_plans: number of scan plans, at least 1. * @rcu_head: RCU callback used to free the struct * @owner_nlportid: netlink portid of owner (if this should is a request * owned by a particular socket) * @nl_owner_dead: netlink owner socket was closed - this request be freed * @list: for keeping list of requests. * @delay: delay in seconds to use before starting the first scan * cycle. The driver may ignore this parameter and start * immediately (or at any other time), if this feature is not * supported. * @relative_rssi_set: Indicates whether @relative_rssi is set or not. * @relative_rssi: Relative RSSI threshold in dB to restrict scan result * reporting in connected state to cases where a matching BSS is determined * to have better or slightly worse RSSI than the current connected BSS. * The relative RSSI threshold values are ignored in disconnected state. * @rssi_adjust: delta dB of RSSI preference to be given to the BSSs that belong * to the specified band while deciding whether a better BSS is reported * using @relative_rssi. If delta is a negative number, the BSSs that * belong to the specified band will be penalized by delta dB in relative * comparisions. */ struct cfg80211_sched_scan_request { u64 reqid; struct cfg80211_ssid *ssids; int n_ssids; u32 n_channels; enum nl80211_bss_scan_width scan_width; const u8 *ie; size_t ie_len; u32 flags; struct cfg80211_match_set *match_sets; int n_match_sets; s32 min_rssi_thold; u32 delay; struct cfg80211_sched_scan_plan *scan_plans; int n_scan_plans; u8 mac_addr[ETH_ALEN] __aligned(2); u8 mac_addr_mask[ETH_ALEN] __aligned(2); bool relative_rssi_set; s8 relative_rssi; struct cfg80211_bss_select_adjust rssi_adjust; /* internal */ struct wiphy *wiphy; struct net_device *dev; unsigned long scan_start; bool report_results; struct rcu_head rcu_head; u32 owner_nlportid; bool nl_owner_dead; struct list_head list; /* keep last */ struct ieee80211_channel *channels[]; }; /** * enum cfg80211_signal_type - signal type * * @CFG80211_SIGNAL_TYPE_NONE: no signal strength information available * @CFG80211_SIGNAL_TYPE_MBM: signal strength in mBm (100*dBm) * @CFG80211_SIGNAL_TYPE_UNSPEC: signal strength, increasing from 0 through 100 */ enum cfg80211_signal_type { CFG80211_SIGNAL_TYPE_NONE, CFG80211_SIGNAL_TYPE_MBM, CFG80211_SIGNAL_TYPE_UNSPEC, }; /** * struct cfg80211_inform_bss - BSS inform data * @chan: channel the frame was received on * @scan_width: scan width that was used * @signal: signal strength value, according to the wiphy's * signal type * @boottime_ns: timestamp (CLOCK_BOOTTIME) when the information was * received; should match the time when the frame was actually * received by the device (not just by the host, in case it was * buffered on the device) and be accurate to about 10ms. * If the frame isn't buffered, just passing the return value of * ktime_get_boottime_ns() is likely appropriate. * @parent_tsf: the time at the start of reception of the first octet of the * timestamp field of the frame. The time is the TSF of the BSS specified * by %parent_bssid. * @parent_bssid: the BSS according to which %parent_tsf is set. This is set to * the BSS that requested the scan in which the beacon/probe was received. * @chains: bitmask for filled values in @chain_signal. * @chain_signal: per-chain signal strength of last received BSS in dBm. */ struct cfg80211_inform_bss { struct ieee80211_channel *chan; enum nl80211_bss_scan_width scan_width; s32 signal; u64 boottime_ns; u64 parent_tsf; u8 parent_bssid[ETH_ALEN] __aligned(2); u8 chains; s8 chain_signal[IEEE80211_MAX_CHAINS]; }; /** * struct cfg80211_bss_ies - BSS entry IE data * @tsf: TSF contained in the frame that carried these IEs * @rcu_head: internal use, for freeing * @len: length of the IEs * @from_beacon: these IEs are known to come from a beacon * @data: IE data */ struct cfg80211_bss_ies { u64 tsf; struct rcu_head rcu_head; int len; bool from_beacon; u8 data[]; }; /** * struct cfg80211_bss - BSS description * * This structure describes a BSS (which may also be a mesh network) * for use in scan results and similar. * * @channel: channel this BSS is on * @scan_width: width of the control channel * @bssid: BSSID of the BSS * @beacon_interval: the beacon interval as from the frame * @capability: the capability field in host byte order * @ies: the information elements (Note that there is no guarantee that these * are well-formed!); this is a pointer to either the beacon_ies or * proberesp_ies depending on whether Probe Response frame has been * received. It is always non-%NULL. * @beacon_ies: the information elements from the last Beacon frame * (implementation note: if @hidden_beacon_bss is set this struct doesn't * own the beacon_ies, but they're just pointers to the ones from the * @hidden_beacon_bss struct) * @proberesp_ies: the information elements from the last Probe Response frame * @hidden_beacon_bss: in case this BSS struct represents a probe response from * a BSS that hides the SSID in its beacon, this points to the BSS struct * that holds the beacon data. @beacon_ies is still valid, of course, and * points to the same data as hidden_beacon_bss->beacon_ies in that case. * @transmitted_bss: pointer to the transmitted BSS, if this is a * non-transmitted one (multi-BSSID support) * @nontrans_list: list of non-transmitted BSS, if this is a transmitted one * (multi-BSSID support) * @signal: signal strength value (type depends on the wiphy's signal_type) * @chains: bitmask for filled values in @chain_signal. * @chain_signal: per-chain signal strength of last received BSS in dBm. * @bssid_index: index in the multiple BSS set * @max_bssid_indicator: max number of members in the BSS set * @priv: private area for driver use, has at least wiphy->bss_priv_size bytes */ struct cfg80211_bss { struct ieee80211_channel *channel; enum nl80211_bss_scan_width scan_width; const struct cfg80211_bss_ies __rcu *ies; const struct cfg80211_bss_ies __rcu *beacon_ies; const struct cfg80211_bss_ies __rcu *proberesp_ies; struct cfg80211_bss *hidden_beacon_bss; struct cfg80211_bss *transmitted_bss; struct list_head nontrans_list; s32 signal; u16 beacon_interval; u16 capability; u8 bssid[ETH_ALEN]; u8 chains; s8 chain_signal[IEEE80211_MAX_CHAINS]; u8 bssid_index; u8 max_bssid_indicator; u8 priv[] __aligned(sizeof(void *)); }; /** * ieee80211_bss_get_elem - find element with given ID * @bss: the bss to search * @id: the element ID * * Note that the return value is an RCU-protected pointer, so * rcu_read_lock() must be held when calling this function. * Return: %NULL if not found. */ const struct element *ieee80211_bss_get_elem(struct cfg80211_bss *bss, u8 id); /** * ieee80211_bss_get_ie - find IE with given ID * @bss: the bss to search * @id: the element ID * * Note that the return value is an RCU-protected pointer, so * rcu_read_lock() must be held when calling this function. * Return: %NULL if not found. */ static inline const u8 *ieee80211_bss_get_ie(struct cfg80211_bss *bss, u8 id) { return (void *)ieee80211_bss_get_elem(bss, id); } /** * struct cfg80211_auth_request - Authentication request data * * This structure provides information needed to complete IEEE 802.11 * authentication. * * @bss: The BSS to authenticate with, the callee must obtain a reference * to it if it needs to keep it. * @auth_type: Authentication type (algorithm) * @ie: Extra IEs to add to Authentication frame or %NULL * @ie_len: Length of ie buffer in octets * @key_len: length of WEP key for shared key authentication * @key_idx: index of WEP key for shared key authentication * @key: WEP key for shared key authentication * @auth_data: Fields and elements in Authentication frames. This contains * the authentication frame body (non-IE and IE data), excluding the * Authentication algorithm number, i.e., starting at the Authentication * transaction sequence number field. * @auth_data_len: Length of auth_data buffer in octets */ struct cfg80211_auth_request { struct cfg80211_bss *bss; const u8 *ie; size_t ie_len; enum nl80211_auth_type auth_type; const u8 *key; u8 key_len, key_idx; const u8 *auth_data; size_t auth_data_len; }; /** * enum cfg80211_assoc_req_flags - Over-ride default behaviour in association. * * @ASSOC_REQ_DISABLE_HT: Disable HT (802.11n) * @ASSOC_REQ_DISABLE_VHT: Disable VHT * @ASSOC_REQ_USE_RRM: Declare RRM capability in this association * @CONNECT_REQ_EXTERNAL_AUTH_SUPPORT: User space indicates external * authentication capability. Drivers can offload authentication to * userspace if this flag is set. Only applicable for cfg80211_connect() * request (connect callback). */ enum cfg80211_assoc_req_flags { ASSOC_REQ_DISABLE_HT = BIT(0), ASSOC_REQ_DISABLE_VHT = BIT(1), ASSOC_REQ_USE_RRM = BIT(2), CONNECT_REQ_EXTERNAL_AUTH_SUPPORT = BIT(3), }; /** * struct cfg80211_assoc_request - (Re)Association request data * * This structure provides information needed to complete IEEE 802.11 * (re)association. * @bss: The BSS to associate with. If the call is successful the driver is * given a reference that it must give back to cfg80211_send_rx_assoc() * or to cfg80211_assoc_timeout(). To ensure proper refcounting, new * association requests while already associating must be rejected. * @ie: Extra IEs to add to (Re)Association Request frame or %NULL * @ie_len: Length of ie buffer in octets * @use_mfp: Use management frame protection (IEEE 802.11w) in this association * @crypto: crypto settings * @prev_bssid: previous BSSID, if not %NULL use reassociate frame. This is used * to indicate a request to reassociate within the ESS instead of a request * do the initial association with the ESS. When included, this is set to * the BSSID of the current association, i.e., to the value that is * included in the Current AP address field of the Reassociation Request * frame. * @flags: See &enum cfg80211_assoc_req_flags * @ht_capa: HT Capabilities over-rides. Values set in ht_capa_mask * will be used in ht_capa. Un-supported values will be ignored. * @ht_capa_mask: The bits of ht_capa which are to be used. * @vht_capa: VHT capability override * @vht_capa_mask: VHT capability mask indicating which fields to use * @fils_kek: FILS KEK for protecting (Re)Association Request/Response frame or * %NULL if FILS is not used. * @fils_kek_len: Length of fils_kek in octets * @fils_nonces: FILS nonces (part of AAD) for protecting (Re)Association * Request/Response frame or %NULL if FILS is not used. This field starts * with 16 octets of STA Nonce followed by 16 octets of AP Nonce. * @s1g_capa: S1G capability override * @s1g_capa_mask: S1G capability override mask */ struct cfg80211_assoc_request { struct cfg80211_bss *bss; const u8 *ie, *prev_bssid; size_t ie_len; struct cfg80211_crypto_settings crypto; bool use_mfp; u32 flags; struct ieee80211_ht_cap ht_capa; struct ieee80211_ht_cap ht_capa_mask; struct ieee80211_vht_cap vht_capa, vht_capa_mask; const u8 *fils_kek; size_t fils_kek_len; const u8 *fils_nonces; struct ieee80211_s1g_cap s1g_capa, s1g_capa_mask; }; /** * struct cfg80211_deauth_request - Deauthentication request data * * This structure provides information needed to complete IEEE 802.11 * deauthentication. * * @bssid: the BSSID of the BSS to deauthenticate from * @ie: Extra IEs to add to Deauthentication frame or %NULL * @ie_len: Length of ie buffer in octets * @reason_code: The reason code for the deauthentication * @local_state_change: if set, change local state only and * do not set a deauth frame */ struct cfg80211_deauth_request { const u8 *bssid; const u8 *ie; size_t ie_len; u16 reason_code; bool local_state_change; }; /** * struct cfg80211_disassoc_request - Disassociation request data * * This structure provides information needed to complete IEEE 802.11 * disassociation. * * @bss: the BSS to disassociate from * @ie: Extra IEs to add to Disassociation frame or %NULL * @ie_len: Length of ie buffer in octets * @reason_code: The reason code for the disassociation * @local_state_change: This is a request for a local state only, i.e., no * Disassociation frame is to be transmitted. */ struct cfg80211_disassoc_request { struct cfg80211_bss *bss; const u8 *ie; size_t ie_len; u16 reason_code; bool local_state_change; }; /** * struct cfg80211_ibss_params - IBSS parameters * * This structure defines the IBSS parameters for the join_ibss() * method. * * @ssid: The SSID, will always be non-null. * @ssid_len: The length of the SSID, will always be non-zero. * @bssid: Fixed BSSID requested, maybe be %NULL, if set do not * search for IBSSs with a different BSSID. * @chandef: defines the channel to use if no other IBSS to join can be found * @channel_fixed: The channel should be fixed -- do not search for * IBSSs to join on other channels. * @ie: information element(s) to include in the beacon * @ie_len: length of that * @beacon_interval: beacon interval to use * @privacy: this is a protected network, keys will be configured * after joining * @control_port: whether user space controls IEEE 802.1X port, i.e., * sets/clears %NL80211_STA_FLAG_AUTHORIZED. If true, the driver is * required to assume that the port is unauthorized until authorized by * user space. Otherwise, port is marked authorized by default. * @control_port_over_nl80211: TRUE if userspace expects to exchange control * port frames over NL80211 instead of the network interface. * @userspace_handles_dfs: whether user space controls DFS operation, i.e. * changes the channel when a radar is detected. This is required * to operate on DFS channels. * @basic_rates: bitmap of basic rates to use when creating the IBSS * @mcast_rate: per-band multicast rate index + 1 (0: disabled) * @ht_capa: HT Capabilities over-rides. Values set in ht_capa_mask * will be used in ht_capa. Un-supported values will be ignored. * @ht_capa_mask: The bits of ht_capa which are to be used. * @wep_keys: static WEP keys, if not NULL points to an array of * CFG80211_MAX_WEP_KEYS WEP keys * @wep_tx_key: key index (0..3) of the default TX static WEP key */ struct cfg80211_ibss_params { const u8 *ssid; const u8 *bssid; struct cfg80211_chan_def chandef; const u8 *ie; u8 ssid_len, ie_len; u16 beacon_interval; u32 basic_rates; bool channel_fixed; bool privacy; bool control_port; bool control_port_over_nl80211; bool userspace_handles_dfs; int mcast_rate[NUM_NL80211_BANDS]; struct ieee80211_ht_cap ht_capa; struct ieee80211_ht_cap ht_capa_mask; struct key_params *wep_keys; int wep_tx_key; }; /** * struct cfg80211_bss_selection - connection parameters for BSS selection. * * @behaviour: requested BSS selection behaviour. * @param: parameters for requestion behaviour. * @band_pref: preferred band for %NL80211_BSS_SELECT_ATTR_BAND_PREF. * @adjust: parameters for %NL80211_BSS_SELECT_ATTR_RSSI_ADJUST. */ struct cfg80211_bss_selection { enum nl80211_bss_select_attr behaviour; union { enum nl80211_band band_pref; struct cfg80211_bss_select_adjust adjust; } param; }; /** * struct cfg80211_connect_params - Connection parameters * * This structure provides information needed to complete IEEE 802.11 * authentication and association. * * @channel: The channel to use or %NULL if not specified (auto-select based * on scan results) * @channel_hint: The channel of the recommended BSS for initial connection or * %NULL if not specified * @bssid: The AP BSSID or %NULL if not specified (auto-select based on scan * results) * @bssid_hint: The recommended AP BSSID for initial connection to the BSS or * %NULL if not specified. Unlike the @bssid parameter, the driver is * allowed to ignore this @bssid_hint if it has knowledge of a better BSS * to use. * @ssid: SSID * @ssid_len: Length of ssid in octets * @auth_type: Authentication type (algorithm) * @ie: IEs for association request * @ie_len: Length of assoc_ie in octets * @privacy: indicates whether privacy-enabled APs should be used * @mfp: indicate whether management frame protection is used * @crypto: crypto settings * @key_len: length of WEP key for shared key authentication * @key_idx: index of WEP key for shared key authentication * @key: WEP key for shared key authentication * @flags: See &enum cfg80211_assoc_req_flags * @bg_scan_period: Background scan period in seconds * or -1 to indicate that default value is to be used. * @ht_capa: HT Capabilities over-rides. Values set in ht_capa_mask * will be used in ht_capa. Un-supported values will be ignored. * @ht_capa_mask: The bits of ht_capa which are to be used. * @vht_capa: VHT Capability overrides * @vht_capa_mask: The bits of vht_capa which are to be used. * @pbss: if set, connect to a PCP instead of AP. Valid for DMG * networks. * @bss_select: criteria to be used for BSS selection. * @prev_bssid: previous BSSID, if not %NULL use reassociate frame. This is used * to indicate a request to reassociate within the ESS instead of a request * do the initial association with the ESS. When included, this is set to * the BSSID of the current association, i.e., to the value that is * included in the Current AP address field of the Reassociation Request * frame. * @fils_erp_username: EAP re-authentication protocol (ERP) username part of the * NAI or %NULL if not specified. This is used to construct FILS wrapped * data IE. * @fils_erp_username_len: Length of @fils_erp_username in octets. * @fils_erp_realm: EAP re-authentication protocol (ERP) realm part of NAI or * %NULL if not specified. This specifies the domain name of ER server and * is used to construct FILS wrapped data IE. * @fils_erp_realm_len: Length of @fils_erp_realm in octets. * @fils_erp_next_seq_num: The next sequence number to use in the FILS ERP * messages. This is also used to construct FILS wrapped data IE. * @fils_erp_rrk: ERP re-authentication Root Key (rRK) used to derive additional * keys in FILS or %NULL if not specified. * @fils_erp_rrk_len: Length of @fils_erp_rrk in octets. * @want_1x: indicates user-space supports and wants to use 802.1X driver * offload of 4-way handshake. * @edmg: define the EDMG channels. * This may specify multiple channels and bonding options for the driver * to choose from, based on BSS configuration. */ struct cfg80211_connect_params { struct ieee80211_channel *channel; struct ieee80211_channel *channel_hint; const u8 *bssid; const u8 *bssid_hint; const u8 *ssid; size_t ssid_len; enum nl80211_auth_type auth_type; const u8 *ie; size_t ie_len; bool privacy; enum nl80211_mfp mfp; struct cfg80211_crypto_settings crypto; const u8 *key; u8 key_len, key_idx; u32 flags; int bg_scan_period; struct ieee80211_ht_cap ht_capa; struct ieee80211_ht_cap ht_capa_mask; struct ieee80211_vht_cap vht_capa; struct ieee80211_vht_cap vht_capa_mask; bool pbss; struct cfg80211_bss_selection bss_select; const u8 *prev_bssid; const u8 *fils_erp_username; size_t fils_erp_username_len; const u8 *fils_erp_realm; size_t fils_erp_realm_len; u16 fils_erp_next_seq_num; const u8 *fils_erp_rrk; size_t fils_erp_rrk_len; bool want_1x; struct ieee80211_edmg edmg; }; /** * enum cfg80211_connect_params_changed - Connection parameters being updated * * This enum provides information of all connect parameters that * have to be updated as part of update_connect_params() call. * * @UPDATE_ASSOC_IES: Indicates whether association request IEs are updated * @UPDATE_FILS_ERP_INFO: Indicates that FILS connection parameters (realm, * username, erp sequence number and rrk) are updated * @UPDATE_AUTH_TYPE: Indicates that authentication type is updated */ enum cfg80211_connect_params_changed { UPDATE_ASSOC_IES = BIT(0), UPDATE_FILS_ERP_INFO = BIT(1), UPDATE_AUTH_TYPE = BIT(2), }; /** * enum wiphy_params_flags - set_wiphy_params bitfield values * @WIPHY_PARAM_RETRY_SHORT: wiphy->retry_short has changed * @WIPHY_PARAM_RETRY_LONG: wiphy->retry_long has changed * @WIPHY_PARAM_FRAG_THRESHOLD: wiphy->frag_threshold has changed * @WIPHY_PARAM_RTS_THRESHOLD: wiphy->rts_threshold has changed * @WIPHY_PARAM_COVERAGE_CLASS: coverage class changed * @WIPHY_PARAM_DYN_ACK: dynack has been enabled * @WIPHY_PARAM_TXQ_LIMIT: TXQ packet limit has been changed * @WIPHY_PARAM_TXQ_MEMORY_LIMIT: TXQ memory limit has been changed * @WIPHY_PARAM_TXQ_QUANTUM: TXQ scheduler quantum */ enum wiphy_params_flags { WIPHY_PARAM_RETRY_SHORT = 1 << 0, WIPHY_PARAM_RETRY_LONG = 1 << 1, WIPHY_PARAM_FRAG_THRESHOLD = 1 << 2, WIPHY_PARAM_RTS_THRESHOLD = 1 << 3, WIPHY_PARAM_COVERAGE_CLASS = 1 << 4, WIPHY_PARAM_DYN_ACK = 1 << 5, WIPHY_PARAM_TXQ_LIMIT = 1 << 6, WIPHY_PARAM_TXQ_MEMORY_LIMIT = 1 << 7, WIPHY_PARAM_TXQ_QUANTUM = 1 << 8, }; #define IEEE80211_DEFAULT_AIRTIME_WEIGHT 256 /* The per TXQ device queue limit in airtime */ #define IEEE80211_DEFAULT_AQL_TXQ_LIMIT_L 5000 #define IEEE80211_DEFAULT_AQL_TXQ_LIMIT_H 12000 /* The per interface airtime threshold to switch to lower queue limit */ #define IEEE80211_AQL_THRESHOLD 24000 /** * struct cfg80211_pmksa - PMK Security Association * * This structure is passed to the set/del_pmksa() method for PMKSA * caching. * * @bssid: The AP's BSSID (may be %NULL). * @pmkid: The identifier to refer a PMKSA. * @pmk: The PMK for the PMKSA identified by @pmkid. This is used for key * derivation by a FILS STA. Otherwise, %NULL. * @pmk_len: Length of the @pmk. The length of @pmk can differ depending on * the hash algorithm used to generate this. * @ssid: SSID to specify the ESS within which a PMKSA is valid when using FILS * cache identifier (may be %NULL). * @ssid_len: Length of the @ssid in octets. * @cache_id: 2-octet cache identifier advertized by a FILS AP identifying the * scope of PMKSA. This is valid only if @ssid_len is non-zero (may be * %NULL). * @pmk_lifetime: Maximum lifetime for PMKSA in seconds * (dot11RSNAConfigPMKLifetime) or 0 if not specified. * The configured PMKSA must not be used for PMKSA caching after * expiration and any keys derived from this PMK become invalid on * expiration, i.e., the current association must be dropped if the PMK * used for it expires. * @pmk_reauth_threshold: Threshold time for reauthentication (percentage of * PMK lifetime, dot11RSNAConfigPMKReauthThreshold) or 0 if not specified. * Drivers are expected to trigger a full authentication instead of using * this PMKSA for caching when reassociating to a new BSS after this * threshold to generate a new PMK before the current one expires. */ struct cfg80211_pmksa { const u8 *bssid; const u8 *pmkid; const u8 *pmk; size_t pmk_len; const u8 *ssid; size_t ssid_len; const u8 *cache_id; u32 pmk_lifetime; u8 pmk_reauth_threshold; }; /** * struct cfg80211_pkt_pattern - packet pattern * @mask: bitmask where to match pattern and where to ignore bytes, * one bit per byte, in same format as nl80211 * @pattern: bytes to match where bitmask is 1 * @pattern_len: length of pattern (in bytes) * @pkt_offset: packet offset (in bytes) * * Internal note: @mask and @pattern are allocated in one chunk of * memory, free @mask only! */ struct cfg80211_pkt_pattern { const u8 *mask, *pattern; int pattern_len; int pkt_offset; }; /** * struct cfg80211_wowlan_tcp - TCP connection parameters * * @sock: (internal) socket for source port allocation * @src: source IP address * @dst: destination IP address * @dst_mac: destination MAC address * @src_port: source port * @dst_port: destination port * @payload_len: data payload length * @payload: data payload buffer * @payload_seq: payload sequence stamping configuration * @data_interval: interval at which to send data packets * @wake_len: wakeup payload match length * @wake_data: wakeup payload match data * @wake_mask: wakeup payload match mask * @tokens_size: length of the tokens buffer * @payload_tok: payload token usage configuration */ struct cfg80211_wowlan_tcp { struct socket *sock; __be32 src, dst; u16 src_port, dst_port; u8 dst_mac[ETH_ALEN]; int payload_len; const u8 *payload; struct nl80211_wowlan_tcp_data_seq payload_seq; u32 data_interval; u32 wake_len; const u8 *wake_data, *wake_mask; u32 tokens_size; /* must be last, variable member */ struct nl80211_wowlan_tcp_data_token payload_tok; }; /** * struct cfg80211_wowlan - Wake on Wireless-LAN support info * * This structure defines the enabled WoWLAN triggers for the device. * @any: wake up on any activity -- special trigger if device continues * operating as normal during suspend * @disconnect: wake up if getting disconnected * @magic_pkt: wake up on receiving magic packet * @patterns: wake up on receiving packet matching a pattern * @n_patterns: number of patterns * @gtk_rekey_failure: wake up on GTK rekey failure * @eap_identity_req: wake up on EAP identity request packet * @four_way_handshake: wake up on 4-way handshake * @rfkill_release: wake up when rfkill is released * @tcp: TCP connection establishment/wakeup parameters, see nl80211.h. * NULL if not configured. * @nd_config: configuration for the scan to be used for net detect wake. */ struct cfg80211_wowlan { bool any, disconnect, magic_pkt, gtk_rekey_failure, eap_identity_req, four_way_handshake, rfkill_release; struct cfg80211_pkt_pattern *patterns; struct cfg80211_wowlan_tcp *tcp; int n_patterns; struct cfg80211_sched_scan_request *nd_config; }; /** * struct cfg80211_coalesce_rules - Coalesce rule parameters * * This structure defines coalesce rule for the device. * @delay: maximum coalescing delay in msecs. * @condition: condition for packet coalescence. * see &enum nl80211_coalesce_condition. * @patterns: array of packet patterns * @n_patterns: number of patterns */ struct cfg80211_coalesce_rules { int delay; enum nl80211_coalesce_condition condition; struct cfg80211_pkt_pattern *patterns; int n_patterns; }; /** * struct cfg80211_coalesce - Packet coalescing settings * * This structure defines coalescing settings. * @rules: array of coalesce rules * @n_rules: number of rules */ struct cfg80211_coalesce { struct cfg80211_coalesce_rules *rules; int n_rules; }; /** * struct cfg80211_wowlan_nd_match - information about the match * * @ssid: SSID of the match that triggered the wake up * @n_channels: Number of channels where the match occurred. This * value may be zero if the driver can't report the channels. * @channels: center frequencies of the channels where a match * occurred (in MHz) */ struct cfg80211_wowlan_nd_match { struct cfg80211_ssid ssid; int n_channels; u32 channels[]; }; /** * struct cfg80211_wowlan_nd_info - net detect wake up information * * @n_matches: Number of match information instances provided in * @matches. This value may be zero if the driver can't provide * match information. * @matches: Array of pointers to matches containing information about * the matches that triggered the wake up. */ struct cfg80211_wowlan_nd_info { int n_matches; struct cfg80211_wowlan_nd_match *matches[]; }; /** * struct cfg80211_wowlan_wakeup - wakeup report * @disconnect: woke up by getting disconnected * @magic_pkt: woke up by receiving magic packet * @gtk_rekey_failure: woke up by GTK rekey failure * @eap_identity_req: woke up by EAP identity request packet * @four_way_handshake: woke up by 4-way handshake * @rfkill_release: woke up by rfkill being released * @pattern_idx: pattern that caused wakeup, -1 if not due to pattern * @packet_present_len: copied wakeup packet data * @packet_len: original wakeup packet length * @packet: The packet causing the wakeup, if any. * @packet_80211: For pattern match, magic packet and other data * frame triggers an 802.3 frame should be reported, for * disconnect due to deauth 802.11 frame. This indicates which * it is. * @tcp_match: TCP wakeup packet received * @tcp_connlost: TCP connection lost or failed to establish * @tcp_nomoretokens: TCP data ran out of tokens * @net_detect: if not %NULL, woke up because of net detect */ struct cfg80211_wowlan_wakeup { bool disconnect, magic_pkt, gtk_rekey_failure, eap_identity_req, four_way_handshake, rfkill_release, packet_80211, tcp_match, tcp_connlost, tcp_nomoretokens; s32 pattern_idx; u32 packet_present_len, packet_len; const void *packet; struct cfg80211_wowlan_nd_info *net_detect; }; /** * struct cfg80211_gtk_rekey_data - rekey data * @kek: key encryption key (@kek_len bytes) * @kck: key confirmation key (@kck_len bytes) * @replay_ctr: replay counter (NL80211_REPLAY_CTR_LEN bytes) * @kek_len: length of kek * @kck_len length of kck * @akm: akm (oui, id) */ struct cfg80211_gtk_rekey_data { const u8 *kek, *kck, *replay_ctr; u32 akm; u8 kek_len, kck_len; }; /** * struct cfg80211_update_ft_ies_params - FT IE Information * * This structure provides information needed to update the fast transition IE * * @md: The Mobility Domain ID, 2 Octet value * @ie: Fast Transition IEs * @ie_len: Length of ft_ie in octets */ struct cfg80211_update_ft_ies_params { u16 md; const u8 *ie; size_t ie_len; }; /** * struct cfg80211_mgmt_tx_params - mgmt tx parameters * * This structure provides information needed to transmit a mgmt frame * * @chan: channel to use * @offchan: indicates wether off channel operation is required * @wait: duration for ROC * @buf: buffer to transmit * @len: buffer length * @no_cck: don't use cck rates for this frame * @dont_wait_for_ack: tells the low level not to wait for an ack * @n_csa_offsets: length of csa_offsets array * @csa_offsets: array of all the csa offsets in the frame */ struct cfg80211_mgmt_tx_params { struct ieee80211_channel *chan; bool offchan; unsigned int wait; const u8 *buf; size_t len; bool no_cck; bool dont_wait_for_ack; int n_csa_offsets; const u16 *csa_offsets; }; /** * struct cfg80211_dscp_exception - DSCP exception * * @dscp: DSCP value that does not adhere to the user priority range definition * @up: user priority value to which the corresponding DSCP value belongs */ struct cfg80211_dscp_exception { u8 dscp; u8 up; }; /** * struct cfg80211_dscp_range - DSCP range definition for user priority * * @low: lowest DSCP value of this user priority range, inclusive * @high: highest DSCP value of this user priority range, inclusive */ struct cfg80211_dscp_range { u8 low; u8 high; }; /* QoS Map Set element length defined in IEEE Std 802.11-2012, 8.4.2.97 */ #define IEEE80211_QOS_MAP_MAX_EX 21 #define IEEE80211_QOS_MAP_LEN_MIN 16 #define IEEE80211_QOS_MAP_LEN_MAX \ (IEEE80211_QOS_MAP_LEN_MIN + 2 * IEEE80211_QOS_MAP_MAX_EX) /** * struct cfg80211_qos_map - QoS Map Information * * This struct defines the Interworking QoS map setting for DSCP values * * @num_des: number of DSCP exceptions (0..21) * @dscp_exception: optionally up to maximum of 21 DSCP exceptions from * the user priority DSCP range definition * @up: DSCP range definition for a particular user priority */ struct cfg80211_qos_map { u8 num_des; struct cfg80211_dscp_exception dscp_exception[IEEE80211_QOS_MAP_MAX_EX]; struct cfg80211_dscp_range up[8]; }; /** * struct cfg80211_nan_conf - NAN configuration * * This struct defines NAN configuration parameters * * @master_pref: master preference (1 - 255) * @bands: operating bands, a bitmap of &enum nl80211_band values. * For instance, for NL80211_BAND_2GHZ, bit 0 would be set * (i.e. BIT(NL80211_BAND_2GHZ)). */ struct cfg80211_nan_conf { u8 master_pref; u8 bands; }; /** * enum cfg80211_nan_conf_changes - indicates changed fields in NAN * configuration * * @CFG80211_NAN_CONF_CHANGED_PREF: master preference * @CFG80211_NAN_CONF_CHANGED_BANDS: operating bands */ enum cfg80211_nan_conf_changes { CFG80211_NAN_CONF_CHANGED_PREF = BIT(0), CFG80211_NAN_CONF_CHANGED_BANDS = BIT(1), }; /** * struct cfg80211_nan_func_filter - a NAN function Rx / Tx filter * * @filter: the content of the filter * @len: the length of the filter */ struct cfg80211_nan_func_filter { const u8 *filter; u8 len; }; /** * struct cfg80211_nan_func - a NAN function * * @type: &enum nl80211_nan_function_type * @service_id: the service ID of the function * @publish_type: &nl80211_nan_publish_type * @close_range: if true, the range should be limited. Threshold is * implementation specific. * @publish_bcast: if true, the solicited publish should be broadcasted * @subscribe_active: if true, the subscribe is active * @followup_id: the instance ID for follow up * @followup_reqid: the requestor instance ID for follow up * @followup_dest: MAC address of the recipient of the follow up * @ttl: time to live counter in DW. * @serv_spec_info: Service Specific Info * @serv_spec_info_len: Service Specific Info length * @srf_include: if true, SRF is inclusive * @srf_bf: Bloom Filter * @srf_bf_len: Bloom Filter length * @srf_bf_idx: Bloom Filter index * @srf_macs: SRF MAC addresses * @srf_num_macs: number of MAC addresses in SRF * @rx_filters: rx filters that are matched with corresponding peer's tx_filter * @tx_filters: filters that should be transmitted in the SDF. * @num_rx_filters: length of &rx_filters. * @num_tx_filters: length of &tx_filters. * @instance_id: driver allocated id of the function. * @cookie: unique NAN function identifier. */ struct cfg80211_nan_func { enum nl80211_nan_function_type type; u8 service_id[NL80211_NAN_FUNC_SERVICE_ID_LEN]; u8 publish_type; bool close_range; bool publish_bcast; bool subscribe_active; u8 followup_id; u8 followup_reqid; struct mac_address followup_dest; u32 ttl; const u8 *serv_spec_info; u8 serv_spec_info_len; bool srf_include; const u8 *srf_bf; u8 srf_bf_len; u8 srf_bf_idx; struct mac_address *srf_macs; int srf_num_macs; struct cfg80211_nan_func_filter *rx_filters; struct cfg80211_nan_func_filter *tx_filters; u8 num_tx_filters; u8 num_rx_filters; u8 instance_id; u64 cookie; }; /** * struct cfg80211_pmk_conf - PMK configuration * * @aa: authenticator address * @pmk_len: PMK length in bytes. * @pmk: the PMK material * @pmk_r0_name: PMK-R0 Name. NULL if not applicable (i.e., the PMK * is not PMK-R0). When pmk_r0_name is not NULL, the pmk field * holds PMK-R0. */ struct cfg80211_pmk_conf { const u8 *aa; u8 pmk_len; const u8 *pmk; const u8 *pmk_r0_name; }; /** * struct cfg80211_external_auth_params - Trigger External authentication. * * Commonly used across the external auth request and event interfaces. * * @action: action type / trigger for external authentication. Only significant * for the authentication request event interface (driver to user space). * @bssid: BSSID of the peer with which the authentication has * to happen. Used by both the authentication request event and * authentication response command interface. * @ssid: SSID of the AP. Used by both the authentication request event and * authentication response command interface. * @key_mgmt_suite: AKM suite of the respective authentication. Used by the * authentication request event interface. * @status: status code, %WLAN_STATUS_SUCCESS for successful authentication, * use %WLAN_STATUS_UNSPECIFIED_FAILURE if user space cannot give you * the real status code for failures. Used only for the authentication * response command interface (user space to driver). * @pmkid: The identifier to refer a PMKSA. */ struct cfg80211_external_auth_params { enum nl80211_external_auth_action action; u8 bssid[ETH_ALEN] __aligned(2); struct cfg80211_ssid ssid; unsigned int key_mgmt_suite; u16 status; const u8 *pmkid; }; /** * struct cfg80211_ftm_responder_stats - FTM responder statistics * * @filled: bitflag of flags using the bits of &enum nl80211_ftm_stats to * indicate the relevant values in this struct for them * @success_num: number of FTM sessions in which all frames were successfully * answered * @partial_num: number of FTM sessions in which part of frames were * successfully answered * @failed_num: number of failed FTM sessions * @asap_num: number of ASAP FTM sessions * @non_asap_num: number of non-ASAP FTM sessions * @total_duration_ms: total sessions durations - gives an indication * of how much time the responder was busy * @unknown_triggers_num: number of unknown FTM triggers - triggers from * initiators that didn't finish successfully the negotiation phase with * the responder * @reschedule_requests_num: number of FTM reschedule requests - initiator asks * for a new scheduling although it already has scheduled FTM slot * @out_of_window_triggers_num: total FTM triggers out of scheduled window */ struct cfg80211_ftm_responder_stats { u32 filled; u32 success_num; u32 partial_num; u32 failed_num; u32 asap_num; u32 non_asap_num; u64 total_duration_ms; u32 unknown_triggers_num; u32 reschedule_requests_num; u32 out_of_window_triggers_num; }; /** * struct cfg80211_pmsr_ftm_result - FTM result * @failure_reason: if this measurement failed (PMSR status is * %NL80211_PMSR_STATUS_FAILURE), this gives a more precise * reason than just "failure" * @burst_index: if reporting partial results, this is the index * in [0 .. num_bursts-1] of the burst that's being reported * @num_ftmr_attempts: number of FTM request frames transmitted * @num_ftmr_successes: number of FTM request frames acked * @busy_retry_time: if failure_reason is %NL80211_PMSR_FTM_FAILURE_PEER_BUSY, * fill this to indicate in how many seconds a retry is deemed possible * by the responder * @num_bursts_exp: actual number of bursts exponent negotiated * @burst_duration: actual burst duration negotiated * @ftms_per_burst: actual FTMs per burst negotiated * @lci_len: length of LCI information (if present) * @civicloc_len: length of civic location information (if present) * @lci: LCI data (may be %NULL) * @civicloc: civic location data (may be %NULL) * @rssi_avg: average RSSI over FTM action frames reported * @rssi_spread: spread of the RSSI over FTM action frames reported * @tx_rate: bitrate for transmitted FTM action frame response * @rx_rate: bitrate of received FTM action frame * @rtt_avg: average of RTTs measured (must have either this or @dist_avg) * @rtt_variance: variance of RTTs measured (note that standard deviation is * the square root of the variance) * @rtt_spread: spread of the RTTs measured * @dist_avg: average of distances (mm) measured * (must have either this or @rtt_avg) * @dist_variance: variance of distances measured (see also @rtt_variance) * @dist_spread: spread of distances measured (see also @rtt_spread) * @num_ftmr_attempts_valid: @num_ftmr_attempts is valid * @num_ftmr_successes_valid: @num_ftmr_successes is valid * @rssi_avg_valid: @rssi_avg is valid * @rssi_spread_valid: @rssi_spread is valid * @tx_rate_valid: @tx_rate is valid * @rx_rate_valid: @rx_rate is valid * @rtt_avg_valid: @rtt_avg is valid * @rtt_variance_valid: @rtt_variance is valid * @rtt_spread_valid: @rtt_spread is valid * @dist_avg_valid: @dist_avg is valid * @dist_variance_valid: @dist_variance is valid * @dist_spread_valid: @dist_spread is valid */ struct cfg80211_pmsr_ftm_result { const u8 *lci; const u8 *civicloc; unsigned int lci_len; unsigned int civicloc_len; enum nl80211_peer_measurement_ftm_failure_reasons failure_reason; u32 num_ftmr_attempts, num_ftmr_successes; s16 burst_index; u8 busy_retry_time; u8 num_bursts_exp; u8 burst_duration; u8 ftms_per_burst; s32 rssi_avg; s32 rssi_spread; struct rate_info tx_rate, rx_rate; s64 rtt_avg; s64 rtt_variance; s64 rtt_spread; s64 dist_avg; s64 dist_variance; s64 dist_spread; u16 num_ftmr_attempts_valid:1, num_ftmr_successes_valid:1, rssi_avg_valid:1, rssi_spread_valid:1, tx_rate_valid:1, rx_rate_valid:1, rtt_avg_valid:1, rtt_variance_valid:1, rtt_spread_valid:1, dist_avg_valid:1, dist_variance_valid:1, dist_spread_valid:1; }; /** * struct cfg80211_pmsr_result - peer measurement result * @addr: address of the peer * @host_time: host time (use ktime_get_boottime() adjust to the time when the * measurement was made) * @ap_tsf: AP's TSF at measurement time * @status: status of the measurement * @final: if reporting partial results, mark this as the last one; if not * reporting partial results always set this flag * @ap_tsf_valid: indicates the @ap_tsf value is valid * @type: type of the measurement reported, note that we only support reporting * one type at a time, but you can report multiple results separately and * they're all aggregated for userspace. */ struct cfg80211_pmsr_result { u64 host_time, ap_tsf; enum nl80211_peer_measurement_status status; u8 addr[ETH_ALEN]; u8 final:1, ap_tsf_valid:1; enum nl80211_peer_measurement_type type; union { struct cfg80211_pmsr_ftm_result ftm; }; }; /** * struct cfg80211_pmsr_ftm_request_peer - FTM request data * @requested: indicates FTM is requested * @preamble: frame preamble to use * @burst_period: burst period to use * @asap: indicates to use ASAP mode * @num_bursts_exp: number of bursts exponent * @burst_duration: burst duration * @ftms_per_burst: number of FTMs per burst * @ftmr_retries: number of retries for FTM request * @request_lci: request LCI information * @request_civicloc: request civic location information * @trigger_based: use trigger based ranging for the measurement * If neither @trigger_based nor @non_trigger_based is set, * EDCA based ranging will be used. * @non_trigger_based: use non trigger based ranging for the measurement * If neither @trigger_based nor @non_trigger_based is set, * EDCA based ranging will be used. * * See also nl80211 for the respective attribute documentation. */ struct cfg80211_pmsr_ftm_request_peer { enum nl80211_preamble preamble; u16 burst_period; u8 requested:1, asap:1, request_lci:1, request_civicloc:1, trigger_based:1, non_trigger_based:1; u8 num_bursts_exp; u8 burst_duration; u8 ftms_per_burst; u8 ftmr_retries; }; /** * struct cfg80211_pmsr_request_peer - peer data for a peer measurement request * @addr: MAC address * @chandef: channel to use * @report_ap_tsf: report the associated AP's TSF * @ftm: FTM data, see &struct cfg80211_pmsr_ftm_request_peer */ struct cfg80211_pmsr_request_peer { u8 addr[ETH_ALEN]; struct cfg80211_chan_def chandef; u8 report_ap_tsf:1; struct cfg80211_pmsr_ftm_request_peer ftm; }; /** * struct cfg80211_pmsr_request - peer measurement request * @cookie: cookie, set by cfg80211 * @nl_portid: netlink portid - used by cfg80211 * @drv_data: driver data for this request, if required for aborting, * not otherwise freed or anything by cfg80211 * @mac_addr: MAC address used for (randomised) request * @mac_addr_mask: MAC address mask used for randomisation, bits that * are 0 in the mask should be randomised, bits that are 1 should * be taken from the @mac_addr * @list: used by cfg80211 to hold on to the request * @timeout: timeout (in milliseconds) for the whole operation, if * zero it means there's no timeout * @n_peers: number of peers to do measurements with * @peers: per-peer measurement request data */ struct cfg80211_pmsr_request { u64 cookie; void *drv_data; u32 n_peers; u32 nl_portid; u32 timeout; u8 mac_addr[ETH_ALEN] __aligned(2); u8 mac_addr_mask[ETH_ALEN] __aligned(2); struct list_head list; struct cfg80211_pmsr_request_peer peers[]; }; /** * struct cfg80211_update_owe_info - OWE Information * * This structure provides information needed for the drivers to offload OWE * (Opportunistic Wireless Encryption) processing to the user space. * * Commonly used across update_owe_info request and event interfaces. * * @peer: MAC address of the peer device for which the OWE processing * has to be done. * @status: status code, %WLAN_STATUS_SUCCESS for successful OWE info * processing, use %WLAN_STATUS_UNSPECIFIED_FAILURE if user space * cannot give you the real status code for failures. Used only for * OWE update request command interface (user space to driver). * @ie: IEs obtained from the peer or constructed by the user space. These are * the IEs of the remote peer in the event from the host driver and * the constructed IEs by the user space in the request interface. * @ie_len: Length of IEs in octets. */ struct cfg80211_update_owe_info { u8 peer[ETH_ALEN] __aligned(2); u16 status; const u8 *ie; size_t ie_len; }; /** * struct mgmt_frame_regs - management frame registrations data * @global_stypes: bitmap of management frame subtypes registered * for the entire device * @interface_stypes: bitmap of management frame subtypes registered * for the given interface * @global_mcast_rx: mcast RX is needed globally for these subtypes * @interface_mcast_stypes: mcast RX is needed on this interface * for these subtypes */ struct mgmt_frame_regs { u32 global_stypes, interface_stypes; u32 global_mcast_stypes, interface_mcast_stypes; }; /** * struct cfg80211_ops - backend description for wireless configuration * * This struct is registered by fullmac card drivers and/or wireless stacks * in order to handle configuration requests on their interfaces. * * All callbacks except where otherwise noted should return 0 * on success or a negative error code. * * All operations are currently invoked under rtnl for consistency with the * wireless extensions but this is subject to reevaluation as soon as this * code is used more widely and we have a first user without wext. * * @suspend: wiphy device needs to be suspended. The variable @wow will * be %NULL or contain the enabled Wake-on-Wireless triggers that are * configured for the device. * @resume: wiphy device needs to be resumed * @set_wakeup: Called when WoWLAN is enabled/disabled, use this callback * to call device_set_wakeup_enable() to enable/disable wakeup from * the device. * * @add_virtual_intf: create a new virtual interface with the given name, * must set the struct wireless_dev's iftype. Beware: You must create * the new netdev in the wiphy's network namespace! Returns the struct * wireless_dev, or an ERR_PTR. For P2P device wdevs, the driver must * also set the address member in the wdev. * * @del_virtual_intf: remove the virtual interface * * @change_virtual_intf: change type/configuration of virtual interface, * keep the struct wireless_dev's iftype updated. * * @add_key: add a key with the given parameters. @mac_addr will be %NULL * when adding a group key. * * @get_key: get information about the key with the given parameters. * @mac_addr will be %NULL when requesting information for a group * key. All pointers given to the @callback function need not be valid * after it returns. This function should return an error if it is * not possible to retrieve the key, -ENOENT if it doesn't exist. * * @del_key: remove a key given the @mac_addr (%NULL for a group key) * and @key_index, return -ENOENT if the key doesn't exist. * * @set_default_key: set the default key on an interface * * @set_default_mgmt_key: set the default management frame key on an interface * * @set_default_beacon_key: set the default Beacon frame key on an interface * * @set_rekey_data: give the data necessary for GTK rekeying to the driver * * @start_ap: Start acting in AP mode defined by the parameters. * @change_beacon: Change the beacon parameters for an access point mode * interface. This should reject the call when AP mode wasn't started. * @stop_ap: Stop being an AP, including stopping beaconing. * * @add_station: Add a new station. * @del_station: Remove a station * @change_station: Modify a given station. Note that flags changes are not much * validated in cfg80211, in particular the auth/assoc/authorized flags * might come to the driver in invalid combinations -- make sure to check * them, also against the existing state! Drivers must call * cfg80211_check_station_change() to validate the information. * @get_station: get station information for the station identified by @mac * @dump_station: dump station callback -- resume dump at index @idx * * @add_mpath: add a fixed mesh path * @del_mpath: delete a given mesh path * @change_mpath: change a given mesh path * @get_mpath: get a mesh path for the given parameters * @dump_mpath: dump mesh path callback -- resume dump at index @idx * @get_mpp: get a mesh proxy path for the given parameters * @dump_mpp: dump mesh proxy path callback -- resume dump at index @idx * @join_mesh: join the mesh network with the specified parameters * (invoked with the wireless_dev mutex held) * @leave_mesh: leave the current mesh network * (invoked with the wireless_dev mutex held) * * @get_mesh_config: Get the current mesh configuration * * @update_mesh_config: Update mesh parameters on a running mesh. * The mask is a bitfield which tells us which parameters to * set, and which to leave alone. * * @change_bss: Modify parameters for a given BSS. * * @set_txq_params: Set TX queue parameters * * @libertas_set_mesh_channel: Only for backward compatibility for libertas, * as it doesn't implement join_mesh and needs to set the channel to * join the mesh instead. * * @set_monitor_channel: Set the monitor mode channel for the device. If other * interfaces are active this callback should reject the configuration. * If no interfaces are active or the device is down, the channel should * be stored for when a monitor interface becomes active. * * @scan: Request to do a scan. If returning zero, the scan request is given * the driver, and will be valid until passed to cfg80211_scan_done(). * For scan results, call cfg80211_inform_bss(); you can call this outside * the scan/scan_done bracket too. * @abort_scan: Tell the driver to abort an ongoing scan. The driver shall * indicate the status of the scan through cfg80211_scan_done(). * * @auth: Request to authenticate with the specified peer * (invoked with the wireless_dev mutex held) * @assoc: Request to (re)associate with the specified peer * (invoked with the wireless_dev mutex held) * @deauth: Request to deauthenticate from the specified peer * (invoked with the wireless_dev mutex held) * @disassoc: Request to disassociate from the specified peer * (invoked with the wireless_dev mutex held) * * @connect: Connect to the ESS with the specified parameters. When connected, * call cfg80211_connect_result()/cfg80211_connect_bss() with status code * %WLAN_STATUS_SUCCESS. If the connection fails for some reason, call * cfg80211_connect_result()/cfg80211_connect_bss() with the status code * from the AP or cfg80211_connect_timeout() if no frame with status code * was received. * The driver is allowed to roam to other BSSes within the ESS when the * other BSS matches the connect parameters. When such roaming is initiated * by the driver, the driver is expected to verify that the target matches * the configured security parameters and to use Reassociation Request * frame instead of Association Request frame. * The connect function can also be used to request the driver to perform a * specific roam when connected to an ESS. In that case, the prev_bssid * parameter is set to the BSSID of the currently associated BSS as an * indication of requesting reassociation. * In both the driver-initiated and new connect() call initiated roaming * cases, the result of roaming is indicated with a call to * cfg80211_roamed(). (invoked with the wireless_dev mutex held) * @update_connect_params: Update the connect parameters while connected to a * BSS. The updated parameters can be used by driver/firmware for * subsequent BSS selection (roaming) decisions and to form the * Authentication/(Re)Association Request frames. This call does not * request an immediate disassociation or reassociation with the current * BSS, i.e., this impacts only subsequent (re)associations. The bits in * changed are defined in &enum cfg80211_connect_params_changed. * (invoked with the wireless_dev mutex held) * @disconnect: Disconnect from the BSS/ESS or stop connection attempts if * connection is in progress. Once done, call cfg80211_disconnected() in * case connection was already established (invoked with the * wireless_dev mutex held), otherwise call cfg80211_connect_timeout(). * * @join_ibss: Join the specified IBSS (or create if necessary). Once done, call * cfg80211_ibss_joined(), also call that function when changing BSSID due * to a merge. * (invoked with the wireless_dev mutex held) * @leave_ibss: Leave the IBSS. * (invoked with the wireless_dev mutex held) * * @set_mcast_rate: Set the specified multicast rate (only if vif is in ADHOC or * MESH mode) * * @set_wiphy_params: Notify that wiphy parameters have changed; * @changed bitfield (see &enum wiphy_params_flags) describes which values * have changed. The actual parameter values are available in * struct wiphy. If returning an error, no value should be changed. * * @set_tx_power: set the transmit power according to the parameters, * the power passed is in mBm, to get dBm use MBM_TO_DBM(). The * wdev may be %NULL if power was set for the wiphy, and will * always be %NULL unless the driver supports per-vif TX power * (as advertised by the nl80211 feature flag.) * @get_tx_power: store the current TX power into the dbm variable; * return 0 if successful * * @set_wds_peer: set the WDS peer for a WDS interface * * @rfkill_poll: polls the hw rfkill line, use cfg80211 reporting * functions to adjust rfkill hw state * * @dump_survey: get site survey information. * * @remain_on_channel: Request the driver to remain awake on the specified * channel for the specified duration to complete an off-channel * operation (e.g., public action frame exchange). When the driver is * ready on the requested channel, it must indicate this with an event * notification by calling cfg80211_ready_on_channel(). * @cancel_remain_on_channel: Cancel an on-going remain-on-channel operation. * This allows the operation to be terminated prior to timeout based on * the duration value. * @mgmt_tx: Transmit a management frame. * @mgmt_tx_cancel_wait: Cancel the wait time from transmitting a management * frame on another channel * * @testmode_cmd: run a test mode command; @wdev may be %NULL * @testmode_dump: Implement a test mode dump. The cb->args[2] and up may be * used by the function, but 0 and 1 must not be touched. Additionally, * return error codes other than -ENOBUFS and -ENOENT will terminate the * dump and return to userspace with an error, so be careful. If any data * was passed in from userspace then the data/len arguments will be present * and point to the data contained in %NL80211_ATTR_TESTDATA. * * @set_bitrate_mask: set the bitrate mask configuration * * @set_pmksa: Cache a PMKID for a BSSID. This is mostly useful for fullmac * devices running firmwares capable of generating the (re) association * RSN IE. It allows for faster roaming between WPA2 BSSIDs. * @del_pmksa: Delete a cached PMKID. * @flush_pmksa: Flush all cached PMKIDs. * @set_power_mgmt: Configure WLAN power management. A timeout value of -1 * allows the driver to adjust the dynamic ps timeout value. * @set_cqm_rssi_config: Configure connection quality monitor RSSI threshold. * After configuration, the driver should (soon) send an event indicating * the current level is above/below the configured threshold; this may * need some care when the configuration is changed (without first being * disabled.) * @set_cqm_rssi_range_config: Configure two RSSI thresholds in the * connection quality monitor. An event is to be sent only when the * signal level is found to be outside the two values. The driver should * set %NL80211_EXT_FEATURE_CQM_RSSI_LIST if this method is implemented. * If it is provided then there's no point providing @set_cqm_rssi_config. * @set_cqm_txe_config: Configure connection quality monitor TX error * thresholds. * @sched_scan_start: Tell the driver to start a scheduled scan. * @sched_scan_stop: Tell the driver to stop an ongoing scheduled scan with * given request id. This call must stop the scheduled scan and be ready * for starting a new one before it returns, i.e. @sched_scan_start may be * called immediately after that again and should not fail in that case. * The driver should not call cfg80211_sched_scan_stopped() for a requested * stop (when this method returns 0). * * @update_mgmt_frame_registrations: Notify the driver that management frame * registrations were updated. The callback is allowed to sleep. * * @set_antenna: Set antenna configuration (tx_ant, rx_ant) on the device. * Parameters are bitmaps of allowed antennas to use for TX/RX. Drivers may * reject TX/RX mask combinations they cannot support by returning -EINVAL * (also see nl80211.h @NL80211_ATTR_WIPHY_ANTENNA_TX). * * @get_antenna: Get current antenna configuration from device (tx_ant, rx_ant). * * @tdls_mgmt: Transmit a TDLS management frame. * @tdls_oper: Perform a high-level TDLS operation (e.g. TDLS link setup). * * @probe_client: probe an associated client, must return a cookie that it * later passes to cfg80211_probe_status(). * * @set_noack_map: Set the NoAck Map for the TIDs. * * @get_channel: Get the current operating channel for the virtual interface. * For monitor interfaces, it should return %NULL unless there's a single * current monitoring channel. * * @start_p2p_device: Start the given P2P device. * @stop_p2p_device: Stop the given P2P device. * * @set_mac_acl: Sets MAC address control list in AP and P2P GO mode. * Parameters include ACL policy, an array of MAC address of stations * and the number of MAC addresses. If there is already a list in driver * this new list replaces the existing one. Driver has to clear its ACL * when number of MAC addresses entries is passed as 0. Drivers which * advertise the support for MAC based ACL have to implement this callback. * * @start_radar_detection: Start radar detection in the driver. * * @end_cac: End running CAC, probably because a related CAC * was finished on another phy. * * @update_ft_ies: Provide updated Fast BSS Transition information to the * driver. If the SME is in the driver/firmware, this information can be * used in building Authentication and Reassociation Request frames. * * @crit_proto_start: Indicates a critical protocol needs more link reliability * for a given duration (milliseconds). The protocol is provided so the * driver can take the most appropriate actions. * @crit_proto_stop: Indicates critical protocol no longer needs increased link * reliability. This operation can not fail. * @set_coalesce: Set coalesce parameters. * * @channel_switch: initiate channel-switch procedure (with CSA). Driver is * responsible for veryfing if the switch is possible. Since this is * inherently tricky driver may decide to disconnect an interface later * with cfg80211_stop_iface(). This doesn't mean driver can accept * everything. It should do it's best to verify requests and reject them * as soon as possible. * * @set_qos_map: Set QoS mapping information to the driver * * @set_ap_chanwidth: Set the AP (including P2P GO) mode channel width for the * given interface This is used e.g. for dynamic HT 20/40 MHz channel width * changes during the lifetime of the BSS. * * @add_tx_ts: validate (if admitted_time is 0) or add a TX TS to the device * with the given parameters; action frame exchange has been handled by * userspace so this just has to modify the TX path to take the TS into * account. * If the admitted time is 0 just validate the parameters to make sure * the session can be created at all; it is valid to just always return * success for that but that may result in inefficient behaviour (handshake * with the peer followed by immediate teardown when the addition is later * rejected) * @del_tx_ts: remove an existing TX TS * * @join_ocb: join the OCB network with the specified parameters * (invoked with the wireless_dev mutex held) * @leave_ocb: leave the current OCB network * (invoked with the wireless_dev mutex held) * * @tdls_channel_switch: Start channel-switching with a TDLS peer. The driver * is responsible for continually initiating channel-switching operations * and returning to the base channel for communication with the AP. * @tdls_cancel_channel_switch: Stop channel-switching with a TDLS peer. Both * peers must be on the base channel when the call completes. * @start_nan: Start the NAN interface. * @stop_nan: Stop the NAN interface. * @add_nan_func: Add a NAN function. Returns negative value on failure. * On success @nan_func ownership is transferred to the driver and * it may access it outside of the scope of this function. The driver * should free the @nan_func when no longer needed by calling * cfg80211_free_nan_func(). * On success the driver should assign an instance_id in the * provided @nan_func. * @del_nan_func: Delete a NAN function. * @nan_change_conf: changes NAN configuration. The changed parameters must * be specified in @changes (using &enum cfg80211_nan_conf_changes); * All other parameters must be ignored. * * @set_multicast_to_unicast: configure multicast to unicast conversion for BSS * * @get_txq_stats: Get TXQ stats for interface or phy. If wdev is %NULL, this * function should return phy stats, and interface stats otherwise. * * @set_pmk: configure the PMK to be used for offloaded 802.1X 4-Way handshake. * If not deleted through @del_pmk the PMK remains valid until disconnect * upon which the driver should clear it. * (invoked with the wireless_dev mutex held) * @del_pmk: delete the previously configured PMK for the given authenticator. * (invoked with the wireless_dev mutex held) * * @external_auth: indicates result of offloaded authentication processing from * user space * * @tx_control_port: TX a control port frame (EAPoL). The noencrypt parameter * tells the driver that the frame should not be encrypted. * * @get_ftm_responder_stats: Retrieve FTM responder statistics, if available. * Statistics should be cumulative, currently no way to reset is provided. * @start_pmsr: start peer measurement (e.g. FTM) * @abort_pmsr: abort peer measurement * * @update_owe_info: Provide updated OWE info to driver. Driver implementing SME * but offloading OWE processing to the user space will get the updated * DH IE through this interface. * * @probe_mesh_link: Probe direct Mesh peer's link quality by sending data frame * and overrule HWMP path selection algorithm. * @set_tid_config: TID specific configuration, this can be peer or BSS specific * This callback may sleep. * @reset_tid_config: Reset TID specific configuration for the peer, for the * given TIDs. This callback may sleep. */ struct cfg80211_ops { int (*suspend)(struct wiphy *wiphy, struct cfg80211_wowlan *wow); int (*resume)(struct wiphy *wiphy); void (*set_wakeup)(struct wiphy *wiphy, bool enabled); struct wireless_dev * (*add_virtual_intf)(struct wiphy *wiphy, const char *name, unsigned char name_assign_type, enum nl80211_iftype type, struct vif_params *params); int (*del_virtual_intf)(struct wiphy *wiphy, struct wireless_dev *wdev); int (*change_virtual_intf)(struct wiphy *wiphy, struct net_device *dev, enum nl80211_iftype type, struct vif_params *params); int (*add_key)(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr, struct key_params *params); int (*get_key)(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr, void *cookie, void (*callback)(void *cookie, struct key_params*)); int (*del_key)(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool pairwise, const u8 *mac_addr); int (*set_default_key)(struct wiphy *wiphy, struct net_device *netdev, u8 key_index, bool unicast, bool multicast); int (*set_default_mgmt_key)(struct wiphy *wiphy, struct net_device *netdev, u8 key_index); int (*set_default_beacon_key)(struct wiphy *wiphy, struct net_device *netdev, u8 key_index); int (*start_ap)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_ap_settings *settings); int (*change_beacon)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_beacon_data *info); int (*stop_ap)(struct wiphy *wiphy, struct net_device *dev); int (*add_station)(struct wiphy *wiphy, struct net_device *dev, const u8 *mac, struct station_parameters *params); int (*del_station)(struct wiphy *wiphy, struct net_device *dev, struct station_del_parameters *params); int (*change_station)(struct wiphy *wiphy, struct net_device *dev, const u8 *mac, struct station_parameters *params); int (*get_station)(struct wiphy *wiphy, struct net_device *dev, const u8 *mac, struct station_info *sinfo); int (*dump_station)(struct wiphy *wiphy, struct net_device *dev, int idx, u8 *mac, struct station_info *sinfo); int (*add_mpath)(struct wiphy *wiphy, struct net_device *dev, const u8 *dst, const u8 *next_hop); int (*del_mpath)(struct wiphy *wiphy, struct net_device *dev, const u8 *dst); int (*change_mpath)(struct wiphy *wiphy, struct net_device *dev, const u8 *dst, const u8 *next_hop); int (*get_mpath)(struct wiphy *wiphy, struct net_device *dev, u8 *dst, u8 *next_hop, struct mpath_info *pinfo); int (*dump_mpath)(struct wiphy *wiphy, struct net_device *dev, int idx, u8 *dst, u8 *next_hop, struct mpath_info *pinfo); int (*get_mpp)(struct wiphy *wiphy, struct net_device *dev, u8 *dst, u8 *mpp, struct mpath_info *pinfo); int (*dump_mpp)(struct wiphy *wiphy, struct net_device *dev, int idx, u8 *dst, u8 *mpp, struct mpath_info *pinfo); int (*get_mesh_config)(struct wiphy *wiphy, struct net_device *dev, struct mesh_config *conf); int (*update_mesh_config)(struct wiphy *wiphy, struct net_device *dev, u32 mask, const struct mesh_config *nconf); int (*join_mesh)(struct wiphy *wiphy, struct net_device *dev, const struct mesh_config *conf, const struct mesh_setup *setup); int (*leave_mesh)(struct wiphy *wiphy, struct net_device *dev); int (*join_ocb)(struct wiphy *wiphy, struct net_device *dev, struct ocb_setup *setup); int (*leave_ocb)(struct wiphy *wiphy, struct net_device *dev); int (*change_bss)(struct wiphy *wiphy, struct net_device *dev, struct bss_parameters *params); int (*set_txq_params)(struct wiphy *wiphy, struct net_device *dev, struct ieee80211_txq_params *params); int (*libertas_set_mesh_channel)(struct wiphy *wiphy, struct net_device *dev, struct ieee80211_channel *chan); int (*set_monitor_channel)(struct wiphy *wiphy, struct cfg80211_chan_def *chandef); int (*scan)(struct wiphy *wiphy, struct cfg80211_scan_request *request); void (*abort_scan)(struct wiphy *wiphy, struct wireless_dev *wdev); int (*auth)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_auth_request *req); int (*assoc)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_assoc_request *req); int (*deauth)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_deauth_request *req); int (*disassoc)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_disassoc_request *req); int (*connect)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_connect_params *sme); int (*update_connect_params)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_connect_params *sme, u32 changed); int (*disconnect)(struct wiphy *wiphy, struct net_device *dev, u16 reason_code); int (*join_ibss)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_ibss_params *params); int (*leave_ibss)(struct wiphy *wiphy, struct net_device *dev); int (*set_mcast_rate)(struct wiphy *wiphy, struct net_device *dev, int rate[NUM_NL80211_BANDS]); int (*set_wiphy_params)(struct wiphy *wiphy, u32 changed); int (*set_tx_power)(struct wiphy *wiphy, struct wireless_dev *wdev, enum nl80211_tx_power_setting type, int mbm); int (*get_tx_power)(struct wiphy *wiphy, struct wireless_dev *wdev, int *dbm); int (*set_wds_peer)(struct wiphy *wiphy, struct net_device *dev, const u8 *addr); void (*rfkill_poll)(struct wiphy *wiphy); #ifdef CONFIG_NL80211_TESTMODE int (*testmode_cmd)(struct wiphy *wiphy, struct wireless_dev *wdev, void *data, int len); int (*testmode_dump)(struct wiphy *wiphy, struct sk_buff *skb, struct netlink_callback *cb, void *data, int len); #endif int (*set_bitrate_mask)(struct wiphy *wiphy, struct net_device *dev, const u8 *peer, const struct cfg80211_bitrate_mask *mask); int (*dump_survey)(struct wiphy *wiphy, struct net_device *netdev, int idx, struct survey_info *info); int (*set_pmksa)(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_pmksa *pmksa); int (*del_pmksa)(struct wiphy *wiphy, struct net_device *netdev, struct cfg80211_pmksa *pmksa); int (*flush_pmksa)(struct wiphy *wiphy, struct net_device *netdev); int (*remain_on_channel)(struct wiphy *wiphy, struct wireless_dev *wdev, struct ieee80211_channel *chan, unsigned int duration, u64 *cookie); int (*cancel_remain_on_channel)(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie); int (*mgmt_tx)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_mgmt_tx_params *params, u64 *cookie); int (*mgmt_tx_cancel_wait)(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie); int (*set_power_mgmt)(struct wiphy *wiphy, struct net_device *dev, bool enabled, int timeout); int (*set_cqm_rssi_config)(struct wiphy *wiphy, struct net_device *dev, s32 rssi_thold, u32 rssi_hyst); int (*set_cqm_rssi_range_config)(struct wiphy *wiphy, struct net_device *dev, s32 rssi_low, s32 rssi_high); int (*set_cqm_txe_config)(struct wiphy *wiphy, struct net_device *dev, u32 rate, u32 pkts, u32 intvl); void (*update_mgmt_frame_registrations)(struct wiphy *wiphy, struct wireless_dev *wdev, struct mgmt_frame_regs *upd); int (*set_antenna)(struct wiphy *wiphy, u32 tx_ant, u32 rx_ant); int (*get_antenna)(struct wiphy *wiphy, u32 *tx_ant, u32 *rx_ant); int (*sched_scan_start)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_sched_scan_request *request); int (*sched_scan_stop)(struct wiphy *wiphy, struct net_device *dev, u64 reqid); int (*set_rekey_data)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_gtk_rekey_data *data); int (*tdls_mgmt)(struct wiphy *wiphy, struct net_device *dev, const u8 *peer, u8 action_code, u8 dialog_token, u16 status_code, u32 peer_capability, bool initiator, const u8 *buf, size_t len); int (*tdls_oper)(struct wiphy *wiphy, struct net_device *dev, const u8 *peer, enum nl80211_tdls_operation oper); int (*probe_client)(struct wiphy *wiphy, struct net_device *dev, const u8 *peer, u64 *cookie); int (*set_noack_map)(struct wiphy *wiphy, struct net_device *dev, u16 noack_map); int (*get_channel)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_chan_def *chandef); int (*start_p2p_device)(struct wiphy *wiphy, struct wireless_dev *wdev); void (*stop_p2p_device)(struct wiphy *wiphy, struct wireless_dev *wdev); int (*set_mac_acl)(struct wiphy *wiphy, struct net_device *dev, const struct cfg80211_acl_data *params); int (*start_radar_detection)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_chan_def *chandef, u32 cac_time_ms); void (*end_cac)(struct wiphy *wiphy, struct net_device *dev); int (*update_ft_ies)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_update_ft_ies_params *ftie); int (*crit_proto_start)(struct wiphy *wiphy, struct wireless_dev *wdev, enum nl80211_crit_proto_id protocol, u16 duration); void (*crit_proto_stop)(struct wiphy *wiphy, struct wireless_dev *wdev); int (*set_coalesce)(struct wiphy *wiphy, struct cfg80211_coalesce *coalesce); int (*channel_switch)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_csa_settings *params); int (*set_qos_map)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_qos_map *qos_map); int (*set_ap_chanwidth)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_chan_def *chandef); int (*add_tx_ts)(struct wiphy *wiphy, struct net_device *dev, u8 tsid, const u8 *peer, u8 user_prio, u16 admitted_time); int (*del_tx_ts)(struct wiphy *wiphy, struct net_device *dev, u8 tsid, const u8 *peer); int (*tdls_channel_switch)(struct wiphy *wiphy, struct net_device *dev, const u8 *addr, u8 oper_class, struct cfg80211_chan_def *chandef); void (*tdls_cancel_channel_switch)(struct wiphy *wiphy, struct net_device *dev, const u8 *addr); int (*start_nan)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_nan_conf *conf); void (*stop_nan)(struct wiphy *wiphy, struct wireless_dev *wdev); int (*add_nan_func)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_nan_func *nan_func); void (*del_nan_func)(struct wiphy *wiphy, struct wireless_dev *wdev, u64 cookie); int (*nan_change_conf)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_nan_conf *conf, u32 changes); int (*set_multicast_to_unicast)(struct wiphy *wiphy, struct net_device *dev, const bool enabled); int (*get_txq_stats)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_txq_stats *txqstats); int (*set_pmk)(struct wiphy *wiphy, struct net_device *dev, const struct cfg80211_pmk_conf *conf); int (*del_pmk)(struct wiphy *wiphy, struct net_device *dev, const u8 *aa); int (*external_auth)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_external_auth_params *params); int (*tx_control_port)(struct wiphy *wiphy, struct net_device *dev, const u8 *buf, size_t len, const u8 *dest, const __be16 proto, const bool noencrypt, u64 *cookie); int (*get_ftm_responder_stats)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_ftm_responder_stats *ftm_stats); int (*start_pmsr)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_pmsr_request *request); void (*abort_pmsr)(struct wiphy *wiphy, struct wireless_dev *wdev, struct cfg80211_pmsr_request *request); int (*update_owe_info)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_update_owe_info *owe_info); int (*probe_mesh_link)(struct wiphy *wiphy, struct net_device *dev, const u8 *buf, size_t len); int (*set_tid_config)(struct wiphy *wiphy, struct net_device *dev, struct cfg80211_tid_config *tid_conf); int (*reset_tid_config)(struct wiphy *wiphy, struct net_device *dev, const u8 *peer, u8 tids); }; /* * wireless hardware and networking interfaces structures * and registration/helper functions */ /** * enum wiphy_flags - wiphy capability flags * * @WIPHY_FLAG_SPLIT_SCAN_6GHZ: if set to true, the scan request will be split * into two, first for legacy bands and second for UHB. * @WIPHY_FLAG_NETNS_OK: if not set, do not allow changing the netns of this * wiphy at all * @WIPHY_FLAG_PS_ON_BY_DEFAULT: if set to true, powersave will be enabled * by default -- this flag will be set depending on the kernel's default * on wiphy_new(), but can be changed by the driver if it has a good * reason to override the default * @WIPHY_FLAG_4ADDR_AP: supports 4addr mode even on AP (with a single station * on a VLAN interface). This flag also serves an extra purpose of * supporting 4ADDR AP mode on devices which do not support AP/VLAN iftype. * @WIPHY_FLAG_4ADDR_STATION: supports 4addr mode even as a station * @WIPHY_FLAG_CONTROL_PORT_PROTOCOL: This device supports setting the * control port protocol ethertype. The device also honours the * control_port_no_encrypt flag. * @WIPHY_FLAG_IBSS_RSN: The device supports IBSS RSN. * @WIPHY_FLAG_MESH_AUTH: The device supports mesh authentication by routing * auth frames to userspace. See @NL80211_MESH_SETUP_USERSPACE_AUTH. * @WIPHY_FLAG_SUPPORTS_FW_ROAM: The device supports roaming feature in the * firmware. * @WIPHY_FLAG_AP_UAPSD: The device supports uapsd on AP. * @WIPHY_FLAG_SUPPORTS_TDLS: The device supports TDLS (802.11z) operation. * @WIPHY_FLAG_TDLS_EXTERNAL_SETUP: The device does not handle TDLS (802.11z) * link setup/discovery operations internally. Setup, discovery and * teardown packets should be sent through the @NL80211_CMD_TDLS_MGMT * command. When this flag is not set, @NL80211_CMD_TDLS_OPER should be * used for asking the driver/firmware to perform a TDLS operation. * @WIPHY_FLAG_HAVE_AP_SME: device integrates AP SME * @WIPHY_FLAG_REPORTS_OBSS: the device will report beacons from other BSSes * when there are virtual interfaces in AP mode by calling * cfg80211_report_obss_beacon(). * @WIPHY_FLAG_AP_PROBE_RESP_OFFLOAD: When operating as an AP, the device * responds to probe-requests in hardware. * @WIPHY_FLAG_OFFCHAN_TX: Device supports direct off-channel TX. * @WIPHY_FLAG_HAS_REMAIN_ON_CHANNEL: Device supports remain-on-channel call. * @WIPHY_FLAG_SUPPORTS_5_10_MHZ: Device supports 5 MHz and 10 MHz channels. * @WIPHY_FLAG_HAS_CHANNEL_SWITCH: Device supports channel switch in * beaconing mode (AP, IBSS, Mesh, ...). * @WIPHY_FLAG_HAS_STATIC_WEP: The device supports static WEP key installation * before connection. * @WIPHY_FLAG_SUPPORTS_EXT_KEK_KCK: The device supports bigger kek and kck keys */ enum wiphy_flags { WIPHY_FLAG_SUPPORTS_EXT_KEK_KCK = BIT(0), /* use hole at 1 */ WIPHY_FLAG_SPLIT_SCAN_6GHZ = BIT(2), WIPHY_FLAG_NETNS_OK = BIT(3), WIPHY_FLAG_PS_ON_BY_DEFAULT = BIT(4), WIPHY_FLAG_4ADDR_AP = BIT(5), WIPHY_FLAG_4ADDR_STATION = BIT(6), WIPHY_FLAG_CONTROL_PORT_PROTOCOL = BIT(7), WIPHY_FLAG_IBSS_RSN = BIT(8), WIPHY_FLAG_MESH_AUTH = BIT(10), /* use hole at 11 */ /* use hole at 12 */ WIPHY_FLAG_SUPPORTS_FW_ROAM = BIT(13), WIPHY_FLAG_AP_UAPSD = BIT(14), WIPHY_FLAG_SUPPORTS_TDLS = BIT(15), WIPHY_FLAG_TDLS_EXTERNAL_SETUP = BIT(16), WIPHY_FLAG_HAVE_AP_SME = BIT(17), WIPHY_FLAG_REPORTS_OBSS = BIT(18), WIPHY_FLAG_AP_PROBE_RESP_OFFLOAD = BIT(19), WIPHY_FLAG_OFFCHAN_TX = BIT(20), WIPHY_FLAG_HAS_REMAIN_ON_CHANNEL = BIT(21), WIPHY_FLAG_SUPPORTS_5_10_MHZ = BIT(22), WIPHY_FLAG_HAS_CHANNEL_SWITCH = BIT(23), WIPHY_FLAG_HAS_STATIC_WEP = BIT(24), }; /** * struct ieee80211_iface_limit - limit on certain interface types * @max: maximum number of interfaces of these types * @types: interface types (bits) */ struct ieee80211_iface_limit { u16 max; u16 types; }; /** * struct ieee80211_iface_combination - possible interface combination * * With this structure the driver can describe which interface * combinations it supports concurrently. * * Examples: * * 1. Allow #STA <= 1, #AP <= 1, matching BI, channels = 1, 2 total: * * .. code-block:: c * * struct ieee80211_iface_limit limits1[] = { * { .max = 1, .types = BIT(NL80211_IFTYPE_STATION), }, * { .max = 1, .types = BIT(NL80211_IFTYPE_AP}, }, * }; * struct ieee80211_iface_combination combination1 = { * .limits = limits1, * .n_limits = ARRAY_SIZE(limits1), * .max_interfaces = 2, * .beacon_int_infra_match = true, * }; * * * 2. Allow #{AP, P2P-GO} <= 8, channels = 1, 8 total: * * .. code-block:: c * * struct ieee80211_iface_limit limits2[] = { * { .max = 8, .types = BIT(NL80211_IFTYPE_AP) | * BIT(NL80211_IFTYPE_P2P_GO), }, * }; * struct ieee80211_iface_combination combination2 = { * .limits = limits2, * .n_limits = ARRAY_SIZE(limits2), * .max_interfaces = 8, * .num_different_channels = 1, * }; * * * 3. Allow #STA <= 1, #{P2P-client,P2P-GO} <= 3 on two channels, 4 total. * * This allows for an infrastructure connection and three P2P connections. * * .. code-block:: c * * struct ieee80211_iface_limit limits3[] = { * { .max = 1, .types = BIT(NL80211_IFTYPE_STATION), }, * { .max = 3, .types = BIT(NL80211_IFTYPE_P2P_GO) | * BIT(NL80211_IFTYPE_P2P_CLIENT), }, * }; * struct ieee80211_iface_combination combination3 = { * .limits = limits3, * .n_limits = ARRAY_SIZE(limits3), * .max_interfaces = 4, * .num_different_channels = 2, * }; * */ struct ieee80211_iface_combination { /** * @limits: * limits for the given interface types */ const struct ieee80211_iface_limit *limits; /** * @num_different_channels: * can use up to this many different channels */ u32 num_different_channels; /** * @max_interfaces: * maximum number of interfaces in total allowed in this group */ u16 max_interfaces; /** * @n_limits: * number of limitations */ u8 n_limits; /** * @beacon_int_infra_match: * In this combination, the beacon intervals between infrastructure * and AP types must match. This is required only in special cases. */ bool beacon_int_infra_match; /** * @radar_detect_widths: * bitmap of channel widths supported for radar detection */ u8 radar_detect_widths; /** * @radar_detect_regions: * bitmap of regions supported for radar detection */ u8 radar_detect_regions; /** * @beacon_int_min_gcd: * This interface combination supports different beacon intervals. * * = 0 * all beacon intervals for different interface must be same. * > 0 * any beacon interval for the interface part of this combination AND * GCD of all beacon intervals from beaconing interfaces of this * combination must be greater or equal to this value. */ u32 beacon_int_min_gcd; }; struct ieee80211_txrx_stypes { u16 tx, rx; }; /** * enum wiphy_wowlan_support_flags - WoWLAN support flags * @WIPHY_WOWLAN_ANY: supports wakeup for the special "any" * trigger that keeps the device operating as-is and * wakes up the host on any activity, for example a * received packet that passed filtering; note that the * packet should be preserved in that case * @WIPHY_WOWLAN_MAGIC_PKT: supports wakeup on magic packet * (see nl80211.h) * @WIPHY_WOWLAN_DISCONNECT: supports wakeup on disconnect * @WIPHY_WOWLAN_SUPPORTS_GTK_REKEY: supports GTK rekeying while asleep * @WIPHY_WOWLAN_GTK_REKEY_FAILURE: supports wakeup on GTK rekey failure * @WIPHY_WOWLAN_EAP_IDENTITY_REQ: supports wakeup on EAP identity request * @WIPHY_WOWLAN_4WAY_HANDSHAKE: supports wakeup on 4-way handshake failure * @WIPHY_WOWLAN_RFKILL_RELEASE: supports wakeup on RF-kill release * @WIPHY_WOWLAN_NET_DETECT: supports wakeup on network detection */ enum wiphy_wowlan_support_flags { WIPHY_WOWLAN_ANY = BIT(0), WIPHY_WOWLAN_MAGIC_PKT = BIT(1), WIPHY_WOWLAN_DISCONNECT = BIT(2), WIPHY_WOWLAN_SUPPORTS_GTK_REKEY = BIT(3), WIPHY_WOWLAN_GTK_REKEY_FAILURE = BIT(4), WIPHY_WOWLAN_EAP_IDENTITY_REQ = BIT(5), WIPHY_WOWLAN_4WAY_HANDSHAKE = BIT(6), WIPHY_WOWLAN_RFKILL_RELEASE = BIT(7), WIPHY_WOWLAN_NET_DETECT = BIT(8), }; struct wiphy_wowlan_tcp_support { const struct nl80211_wowlan_tcp_data_token_feature *tok; u32 data_payload_max; u32 data_interval_max; u32 wake_payload_max; bool seq; }; /** * struct wiphy_wowlan_support - WoWLAN support data * @flags: see &enum wiphy_wowlan_support_flags * @n_patterns: number of supported wakeup patterns * (see nl80211.h for the pattern definition) * @pattern_max_len: maximum length of each pattern * @pattern_min_len: minimum length of each pattern * @max_pkt_offset: maximum Rx packet offset * @max_nd_match_sets: maximum number of matchsets for net-detect, * similar, but not necessarily identical, to max_match_sets for * scheduled scans. * See &struct cfg80211_sched_scan_request.@match_sets for more * details. * @tcp: TCP wakeup support information */ struct wiphy_wowlan_support { u32 flags; int n_patterns; int pattern_max_len; int pattern_min_len; int max_pkt_offset; int max_nd_match_sets; const struct wiphy_wowlan_tcp_support *tcp; }; /** * struct wiphy_coalesce_support - coalesce support data * @n_rules: maximum number of coalesce rules * @max_delay: maximum supported coalescing delay in msecs * @n_patterns: number of supported patterns in a rule * (see nl80211.h for the pattern definition) * @pattern_max_len: maximum length of each pattern * @pattern_min_len: minimum length of each pattern * @max_pkt_offset: maximum Rx packet offset */ struct wiphy_coalesce_support { int n_rules; int max_delay; int n_patterns; int pattern_max_len; int pattern_min_len; int max_pkt_offset; }; /** * enum wiphy_vendor_command_flags - validation flags for vendor commands * @WIPHY_VENDOR_CMD_NEED_WDEV: vendor command requires wdev * @WIPHY_VENDOR_CMD_NEED_NETDEV: vendor command requires netdev * @WIPHY_VENDOR_CMD_NEED_RUNNING: interface/wdev must be up & running * (must be combined with %_WDEV or %_NETDEV) */ enum wiphy_vendor_command_flags { WIPHY_VENDOR_CMD_NEED_WDEV = BIT(0), WIPHY_VENDOR_CMD_NEED_NETDEV = BIT(1), WIPHY_VENDOR_CMD_NEED_RUNNING = BIT(2), }; /** * enum wiphy_opmode_flag - Station's ht/vht operation mode information flags * * @STA_OPMODE_MAX_BW_CHANGED: Max Bandwidth changed * @STA_OPMODE_SMPS_MODE_CHANGED: SMPS mode changed * @STA_OPMODE_N_SS_CHANGED: max N_SS (number of spatial streams) changed * */ enum wiphy_opmode_flag { STA_OPMODE_MAX_BW_CHANGED = BIT(0), STA_OPMODE_SMPS_MODE_CHANGED = BIT(1), STA_OPMODE_N_SS_CHANGED = BIT(2), }; /** * struct sta_opmode_info - Station's ht/vht operation mode information * @changed: contains value from &enum wiphy_opmode_flag * @smps_mode: New SMPS mode value from &enum nl80211_smps_mode of a station * @bw: new max bandwidth value from &enum nl80211_chan_width of a station * @rx_nss: new rx_nss value of a station */ struct sta_opmode_info { u32 changed; enum nl80211_smps_mode smps_mode; enum nl80211_chan_width bw; u8 rx_nss; }; #define VENDOR_CMD_RAW_DATA ((const struct nla_policy *)(long)(-ENODATA)) /** * struct wiphy_vendor_command - vendor command definition * @info: vendor command identifying information, as used in nl80211 * @flags: flags, see &enum wiphy_vendor_command_flags * @doit: callback for the operation, note that wdev is %NULL if the * flags didn't ask for a wdev and non-%NULL otherwise; the data * pointer may be %NULL if userspace provided no data at all * @dumpit: dump callback, for transferring bigger/multiple items. The * @storage points to cb->args[5], ie. is preserved over the multiple * dumpit calls. * @policy: policy pointer for attributes within %NL80211_ATTR_VENDOR_DATA. * Set this to %VENDOR_CMD_RAW_DATA if no policy can be given and the * attribute is just raw data (e.g. a firmware command). * @maxattr: highest attribute number in policy * It's recommended to not have the same sub command with both @doit and * @dumpit, so that userspace can assume certain ones are get and others * are used with dump requests. */ struct wiphy_vendor_command { struct nl80211_vendor_cmd_info info; u32 flags; int (*doit)(struct wiphy *wiphy, struct wireless_dev *wdev, const void *data, int data_len); int (*dumpit)(struct wiphy *wiphy, struct wireless_dev *wdev, struct sk_buff *skb, const void *data, int data_len, unsigned long *storage); const struct nla_policy *policy; unsigned int maxattr; }; /** * struct wiphy_iftype_ext_capab - extended capabilities per interface type * @iftype: interface type * @extended_capabilities: extended capabilities supported by the driver, * additional capabilities might be supported by userspace; these are the * 802.11 extended capabilities ("Extended Capabilities element") and are * in the same format as in the information element. See IEEE Std * 802.11-2012 8.4.2.29 for the defined fields. * @extended_capabilities_mask: mask of the valid values * @extended_capabilities_len: length of the extended capabilities */ struct wiphy_iftype_ext_capab { enum nl80211_iftype iftype; const u8 *extended_capabilities; const u8 *extended_capabilities_mask; u8 extended_capabilities_len; }; /** * struct cfg80211_pmsr_capabilities - cfg80211 peer measurement capabilities * @max_peers: maximum number of peers in a single measurement * @report_ap_tsf: can report assoc AP's TSF for radio resource measurement * @randomize_mac_addr: can randomize MAC address for measurement * @ftm.supported: FTM measurement is supported * @ftm.asap: ASAP-mode is supported * @ftm.non_asap: non-ASAP-mode is supported * @ftm.request_lci: can request LCI data * @ftm.request_civicloc: can request civic location data * @ftm.preambles: bitmap of preambles supported (&enum nl80211_preamble) * @ftm.bandwidths: bitmap of bandwidths supported (&enum nl80211_chan_width) * @ftm.max_bursts_exponent: maximum burst exponent supported * (set to -1 if not limited; note that setting this will necessarily * forbid using the value 15 to let the responder pick) * @ftm.max_ftms_per_burst: maximum FTMs per burst supported (set to 0 if * not limited) * @ftm.trigger_based: trigger based ranging measurement is supported * @ftm.non_trigger_based: non trigger based ranging measurement is supported */ struct cfg80211_pmsr_capabilities { unsigned int max_peers; u8 report_ap_tsf:1, randomize_mac_addr:1; struct { u32 preambles; u32 bandwidths; s8 max_bursts_exponent; u8 max_ftms_per_burst; u8 supported:1, asap:1, non_asap:1, request_lci:1, request_civicloc:1, trigger_based:1, non_trigger_based:1; } ftm; }; /** * struct wiphy_iftype_akm_suites - This structure encapsulates supported akm * suites for interface types defined in @iftypes_mask. Each type in the * @iftypes_mask must be unique across all instances of iftype_akm_suites. * * @iftypes_mask: bitmask of interfaces types * @akm_suites: points to an array of supported akm suites * @n_akm_suites: number of supported AKM suites */ struct wiphy_iftype_akm_suites { u16 iftypes_mask; const u32 *akm_suites; int n_akm_suites; }; /** * struct wiphy - wireless hardware description * @reg_notifier: the driver's regulatory notification callback, * note that if your driver uses wiphy_apply_custom_regulatory() * the reg_notifier's request can be passed as NULL * @regd: the driver's regulatory domain, if one was requested via * the regulatory_hint() API. This can be used by the driver * on the reg_notifier() if it chooses to ignore future * regulatory domain changes caused by other drivers. * @signal_type: signal type reported in &struct cfg80211_bss. * @cipher_suites: supported cipher suites * @n_cipher_suites: number of supported cipher suites * @akm_suites: supported AKM suites. These are the default AKMs supported if * the supported AKMs not advertized for a specific interface type in * iftype_akm_suites. * @n_akm_suites: number of supported AKM suites * @iftype_akm_suites: array of supported akm suites info per interface type. * Note that the bits in @iftypes_mask inside this structure cannot * overlap (i.e. only one occurrence of each type is allowed across all * instances of iftype_akm_suites). * @num_iftype_akm_suites: number of interface types for which supported akm * suites are specified separately. * @retry_short: Retry limit for short frames (dot11ShortRetryLimit) * @retry_long: Retry limit for long frames (dot11LongRetryLimit) * @frag_threshold: Fragmentation threshold (dot11FragmentationThreshold); * -1 = fragmentation disabled, only odd values >= 256 used * @rts_threshold: RTS threshold (dot11RTSThreshold); -1 = RTS/CTS disabled * @_net: the network namespace this wiphy currently lives in * @perm_addr: permanent MAC address of this device * @addr_mask: If the device supports multiple MAC addresses by masking, * set this to a mask with variable bits set to 1, e.g. if the last * four bits are variable then set it to 00-00-00-00-00-0f. The actual * variable bits shall be determined by the interfaces added, with * interfaces not matching the mask being rejected to be brought up. * @n_addresses: number of addresses in @addresses. * @addresses: If the device has more than one address, set this pointer * to a list of addresses (6 bytes each). The first one will be used * by default for perm_addr. In this case, the mask should be set to * all-zeroes. In this case it is assumed that the device can handle * the same number of arbitrary MAC addresses. * @registered: protects ->resume and ->suspend sysfs callbacks against * unregister hardware * @debugfsdir: debugfs directory used for this wiphy (ieee80211/<wiphyname>). * It will be renamed automatically on wiphy renames * @dev: (virtual) struct device for this wiphy. The item in * /sys/class/ieee80211/ points to this. You need use set_wiphy_dev() * (see below). * @wext: wireless extension handlers * @priv: driver private data (sized according to wiphy_new() parameter) * @interface_modes: bitmask of interfaces types valid for this wiphy, * must be set by driver * @iface_combinations: Valid interface combinations array, should not * list single interface types. * @n_iface_combinations: number of entries in @iface_combinations array. * @software_iftypes: bitmask of software interface types, these are not * subject to any restrictions since they are purely managed in SW. * @flags: wiphy flags, see &enum wiphy_flags * @regulatory_flags: wiphy regulatory flags, see * &enum ieee80211_regulatory_flags * @features: features advertised to nl80211, see &enum nl80211_feature_flags. * @ext_features: extended features advertised to nl80211, see * &enum nl80211_ext_feature_index. * @bss_priv_size: each BSS struct has private data allocated with it, * this variable determines its size * @max_scan_ssids: maximum number of SSIDs the device can scan for in * any given scan * @max_sched_scan_reqs: maximum number of scheduled scan requests that * the device can run concurrently. * @max_sched_scan_ssids: maximum number of SSIDs the device can scan * for in any given scheduled scan * @max_match_sets: maximum number of match sets the device can handle * when performing a scheduled scan, 0 if filtering is not * supported. * @max_scan_ie_len: maximum length of user-controlled IEs device can * add to probe request frames transmitted during a scan, must not * include fixed IEs like supported rates * @max_sched_scan_ie_len: same as max_scan_ie_len, but for scheduled * scans * @max_sched_scan_plans: maximum number of scan plans (scan interval and number * of iterations) for scheduled scan supported by the device. * @max_sched_scan_plan_interval: maximum interval (in seconds) for a * single scan plan supported by the device. * @max_sched_scan_plan_iterations: maximum number of iterations for a