1*5113495bSYour Name /*
2*5113495bSYour Name * Copyright (c) 2014-2021 The Linux Foundation. All rights reserved.
3*5113495bSYour Name * Copyright (c) 2021-2023 Qualcomm Innovation Center, Inc. All rights reserved.
4*5113495bSYour Name *
5*5113495bSYour Name * Permission to use, copy, modify, and/or distribute this software for
6*5113495bSYour Name * any purpose with or without fee is hereby granted, provided that the
7*5113495bSYour Name * above copyright notice and this permission notice appear in all
8*5113495bSYour Name * copies.
9*5113495bSYour Name *
10*5113495bSYour Name * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
11*5113495bSYour Name * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
12*5113495bSYour Name * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
13*5113495bSYour Name * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
14*5113495bSYour Name * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
15*5113495bSYour Name * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
16*5113495bSYour Name * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
17*5113495bSYour Name * PERFORMANCE OF THIS SOFTWARE.
18*5113495bSYour Name */
19*5113495bSYour Name
20*5113495bSYour Name /**
21*5113495bSYour Name * DOC: qdf_util.h
22*5113495bSYour Name * This file defines utility functions.
23*5113495bSYour Name */
24*5113495bSYour Name
25*5113495bSYour Name #ifndef _QDF_UTIL_H
26*5113495bSYour Name #define _QDF_UTIL_H
27*5113495bSYour Name
28*5113495bSYour Name #include <i_qdf_util.h>
29*5113495bSYour Name
30*5113495bSYour Name #ifdef QCA_CONFIG_SMP
31*5113495bSYour Name #define QDF_MAX_AVAILABLE_CPU NR_CPUS
32*5113495bSYour Name #else
33*5113495bSYour Name #define QDF_MAX_AVAILABLE_CPU 1
34*5113495bSYour Name #endif
35*5113495bSYour Name
36*5113495bSYour Name typedef __qdf_wait_queue_head_t qdf_wait_queue_head_t;
37*5113495bSYour Name
38*5113495bSYour Name /**
39*5113495bSYour Name * qdf_unlikely - Compiler-dependent macro denoting code unlikely to execute
40*5113495bSYour Name * @_expr: expression to be checked
41*5113495bSYour Name */
42*5113495bSYour Name #define qdf_unlikely(_expr) __qdf_unlikely(_expr)
43*5113495bSYour Name
44*5113495bSYour Name /**
45*5113495bSYour Name * qdf_likely - Compiler-dependent macro denoting code likely to execute
46*5113495bSYour Name * @_expr: expression to be checked
47*5113495bSYour Name */
48*5113495bSYour Name #define qdf_likely(_expr) __qdf_likely(_expr)
49*5113495bSYour Name
50*5113495bSYour Name /**
51*5113495bSYour Name * qdf_wmb - write memory barrier.
52*5113495bSYour Name */
53*5113495bSYour Name #define qdf_wmb() __qdf_wmb()
54*5113495bSYour Name
55*5113495bSYour Name /**
56*5113495bSYour Name * qdf_rmb - read memory barrier.
57*5113495bSYour Name */
58*5113495bSYour Name #define qdf_rmb() __qdf_rmb()
59*5113495bSYour Name
60*5113495bSYour Name /**
61*5113495bSYour Name * qdf_mb - read + write memory barrier.
62*5113495bSYour Name */
63*5113495bSYour Name #define qdf_mb() __qdf_mb()
64*5113495bSYour Name
65*5113495bSYour Name /**
66*5113495bSYour Name * qdf_ioread32 - read a register
67*5113495bSYour Name * @offset: register address
68*5113495bSYour Name */
69*5113495bSYour Name #define qdf_ioread32(offset) __qdf_ioread32(offset)
70*5113495bSYour Name
71*5113495bSYour Name /**
72*5113495bSYour Name * qdf_iowrite32 - write a register
73*5113495bSYour Name * @offset: register address
74*5113495bSYour Name * @value: value to write (32bit value)
75*5113495bSYour Name */
76*5113495bSYour Name #define qdf_iowrite32(offset, value) __qdf_iowrite32(offset, value)
77*5113495bSYour Name
78*5113495bSYour Name /**
79*5113495bSYour Name * qdf_assert - assert "expr" evaluates to false.
80*5113495bSYour Name * @expr: expression to test
81*5113495bSYour Name */
82*5113495bSYour Name #ifdef QDF_DEBUG
83*5113495bSYour Name #define qdf_assert(expr) __qdf_assert(expr)
84*5113495bSYour Name #else
85*5113495bSYour Name #define qdf_assert(expr)
86*5113495bSYour Name #endif /* QDF_DEBUG */
87*5113495bSYour Name
88*5113495bSYour Name /**
89*5113495bSYour Name * qdf_assert_always - always assert "expr" evaluates to false.
90*5113495bSYour Name * @expr: expression to test
91*5113495bSYour Name */
92*5113495bSYour Name #define qdf_assert_always(expr) __qdf_assert(expr)
93*5113495bSYour Name
94*5113495bSYour Name /**
95*5113495bSYour Name * qdf_assert_with_debug - invoke function to dump needed info before assert
96*5113495bSYour Name * @expr: expression to test
97*5113495bSYour Name * @debug_fp: function pointer to be invoked for debugging
98*5113495bSYour Name */
99*5113495bSYour Name #define qdf_assert_with_debug(expr, debug_fp, ...) \
100*5113495bSYour Name __qdf_assert_with_debug(expr, debug_fp, ...)
101*5113495bSYour Name
102*5113495bSYour Name /**
103*5113495bSYour Name * qdf_target_assert_always - always target assert "expr" evaluates to false.
104*5113495bSYour Name * @expr: expression to test
105*5113495bSYour Name */
106*5113495bSYour Name #define qdf_target_assert_always(expr) __qdf_target_assert(expr)
107*5113495bSYour Name
108*5113495bSYour Name #define QDF_SET_PARAM(__param, __val) ((__param) |= (1 << (__val)))
109*5113495bSYour Name #define QDF_HAS_PARAM(__param, __val) ((__param) & (1 << (__val)))
110*5113495bSYour Name #define QDF_CLEAR_PARAM(__param, __val) ((__param) &= (~(1 << (__val))))
111*5113495bSYour Name
112*5113495bSYour Name /**
113*5113495bSYour Name * QDF_MAX - get maximum of two values
114*5113495bSYour Name * @_x: 1st argument
115*5113495bSYour Name * @_y: 2nd argument
116*5113495bSYour Name */
117*5113495bSYour Name #define QDF_MAX(_x, _y) (((_x) > (_y)) ? (_x) : (_y))
118*5113495bSYour Name
119*5113495bSYour Name /**
120*5113495bSYour Name * QDF_MIN - get minimum of two values
121*5113495bSYour Name * @_x: 1st argument
122*5113495bSYour Name * @_y: 2nd argument
123*5113495bSYour Name */
124*5113495bSYour Name #define QDF_MIN(_x, _y) (((_x) < (_y)) ? (_x) : (_y))
125*5113495bSYour Name
126*5113495bSYour Name /**
127*5113495bSYour Name * QDF_IS_ADDR_BROADCAST - is mac address broadcast mac address
128*5113495bSYour Name * @_a: pointer to mac address
129*5113495bSYour Name */
130*5113495bSYour Name #define QDF_IS_ADDR_BROADCAST(_a) \
131*5113495bSYour Name ((_a)[0] == 0xff && \
132*5113495bSYour Name (_a)[1] == 0xff && \
133*5113495bSYour Name (_a)[2] == 0xff && \
134*5113495bSYour Name (_a)[3] == 0xff && \
135*5113495bSYour Name (_a)[4] == 0xff && \
136*5113495bSYour Name (_a)[5] == 0xff)
137*5113495bSYour Name
138*5113495bSYour Name /**
139*5113495bSYour Name * QDF_IS_LAST_3_BYTES_OF_MAC_SAME - check the last 3 bytes
140*5113495bSYour Name * same or not for two mac addresses
141*5113495bSYour Name * @mac1: mac address 1
142*5113495bSYour Name * @mac2: mac address 2
143*5113495bSYour Name */
144*5113495bSYour Name #define QDF_IS_LAST_3_BYTES_OF_MAC_SAME(mac1, mac2) \
145*5113495bSYour Name ((mac1)->bytes[3] == (mac2)->bytes[3] && \
146*5113495bSYour Name (mac1)->bytes[4] == (mac2)->bytes[4] && \
147*5113495bSYour Name (mac1)->bytes[5] == (mac2)->bytes[5])
148*5113495bSYour Name
149*5113495bSYour Name /* Get number of bits from the index bit */
150*5113495bSYour Name #define QDF_GET_BITS(_val, _index, _num_bits) \
151*5113495bSYour Name (((_val) >> (_index)) & ((1 << (_num_bits)) - 1))
152*5113495bSYour Name
153*5113495bSYour Name /* Set val to number of bits from the index bit */
154*5113495bSYour Name #define QDF_SET_BITS(_var, _index, _num_bits, _val) do { \
155*5113495bSYour Name (_var) &= ~(((1 << (_num_bits)) - 1) << (_index)); \
156*5113495bSYour Name (_var) |= (((_val) & ((1 << (_num_bits)) - 1)) << (_index)); \
157*5113495bSYour Name } while (0)
158*5113495bSYour Name
159*5113495bSYour Name #define QDF_SET_BITS64(_var, _tmp, _index, _num_bits, _val) do { \
160*5113495bSYour Name (_var) = (((_var) & 0xffffffff00000000) >> 32); \
161*5113495bSYour Name (_var) &= ~(((1 << (_num_bits)) - 1) << ((_index) - 32)); \
162*5113495bSYour Name (_var) |= (((_val) & ((1 << (_num_bits)) - 1)) << ((_index) - 32)); \
163*5113495bSYour Name (_var) = (((_var) & 0x00000000ffffffff) << 32); \
164*5113495bSYour Name (_var) |= ((_tmp) & 0x00000000ffffffff); \
165*5113495bSYour Name } while (0)
166*5113495bSYour Name
167*5113495bSYour Name /* Get number of bits from the index bit supporting 64 bits */
168*5113495bSYour Name #define QDF_GET_BITS64(_val, _index, _num_bits) \
169*5113495bSYour Name (((_val) >> (_index)) & ((1LLU << (_num_bits)) - 1))
170*5113495bSYour Name
171*5113495bSYour Name #define QDF_DECLARE_EWMA(name, factor, weight) \
172*5113495bSYour Name __QDF_DECLARE_EWMA(name, factor, weight)
173*5113495bSYour Name
174*5113495bSYour Name #define qdf_ewma_tx_lag __qdf_ewma_tx_lag
175*5113495bSYour Name
176*5113495bSYour Name #define qdf_ewma_tx_lag_init(tx_lag) \
177*5113495bSYour Name __qdf_ewma_tx_lag_init(tx_lag)
178*5113495bSYour Name
179*5113495bSYour Name #define qdf_ewma_tx_lag_add(tx_lag, value) \
180*5113495bSYour Name __qdf_ewma_tx_lag_add(tx_lag, value)
181*5113495bSYour Name
182*5113495bSYour Name #define qdf_ewma_tx_lag_read(tx_lag) \
183*5113495bSYour Name __qdf_ewma_tx_lag_read(tx_lag)
184*5113495bSYour Name
185*5113495bSYour Name #define qdf_ewma_rx_rssi __qdf_ewma_rx_rssi
186*5113495bSYour Name
187*5113495bSYour Name #define qdf_ewma_rx_rssi_init(rx_rssi) \
188*5113495bSYour Name __qdf_ewma_rx_rssi_init(rx_rssi)
189*5113495bSYour Name
190*5113495bSYour Name #define qdf_ewma_rx_rssi_add(rx_rssi, value) \
191*5113495bSYour Name __qdf_ewma_rx_rssi_add(rx_rssi, value)
192*5113495bSYour Name
193*5113495bSYour Name #define qdf_ewma_rx_rssi_read(rx_rssi) \
194*5113495bSYour Name __qdf_ewma_rx_rssi_read(rx_rssi)
195*5113495bSYour Name
196*5113495bSYour Name #define QDF_CHAR_BIT 8
197*5113495bSYour Name
198*5113495bSYour Name /**
199*5113495bSYour Name * qdf_bitmap - Define a bitmap
200*5113495bSYour Name * @name: name of the bitmap
201*5113495bSYour Name * @bits: num of bits in the bitmap
202*5113495bSYour Name *
203*5113495bSYour Name * Return: none
204*5113495bSYour Name */
205*5113495bSYour Name #define qdf_bitmap(name, bits) __qdf_bitmap(name, bits)
206*5113495bSYour Name
207*5113495bSYour Name /**
208*5113495bSYour Name * qdf_set_bit() - set bit in address
209*5113495bSYour Name * @nr: bit number to be set
210*5113495bSYour Name * @addr: address buffer pointer
211*5113495bSYour Name *
212*5113495bSYour Name * Return: none
213*5113495bSYour Name */
214*5113495bSYour Name #define qdf_set_bit(nr, addr) __qdf_set_bit(nr, addr)
215*5113495bSYour Name
216*5113495bSYour Name /**
217*5113495bSYour Name * qdf_clear_bit() - clear bit in address
218*5113495bSYour Name * @nr: bit number to be clear
219*5113495bSYour Name * @addr: address buffer pointer
220*5113495bSYour Name *
221*5113495bSYour Name * Return: none
222*5113495bSYour Name */
223*5113495bSYour Name #define qdf_clear_bit(nr, addr) __qdf_clear_bit(nr, addr)
224*5113495bSYour Name
225*5113495bSYour Name /**
226*5113495bSYour Name * qdf_test_bit() - test bit position in address
227*5113495bSYour Name * @nr: bit number to be tested
228*5113495bSYour Name * @addr: address buffer pointer
229*5113495bSYour Name *
230*5113495bSYour Name * Return: none
231*5113495bSYour Name */
232*5113495bSYour Name #define qdf_test_bit(nr, addr) __qdf_test_bit(nr, addr)
233*5113495bSYour Name
234*5113495bSYour Name /**
235*5113495bSYour Name * qdf_test_and_clear_bit() - test and clear bit position in address
236*5113495bSYour Name * @nr: bit number to be tested
237*5113495bSYour Name * @addr: address buffer pointer
238*5113495bSYour Name *
239*5113495bSYour Name * Return: none
240*5113495bSYour Name */
241*5113495bSYour Name #define qdf_test_and_clear_bit(nr, addr) __qdf_test_and_clear_bit(nr, addr)
242*5113495bSYour Name
243*5113495bSYour Name /**
244*5113495bSYour Name * qdf_find_first_bit() - find first bit position in address
245*5113495bSYour Name * @addr: address buffer pointer
246*5113495bSYour Name * @nbits: number of bits
247*5113495bSYour Name *
248*5113495bSYour Name * Return: position first set bit in addr
249*5113495bSYour Name */
250*5113495bSYour Name #define qdf_find_first_bit(addr, nbits) __qdf_find_first_bit(addr, nbits)
251*5113495bSYour Name
252*5113495bSYour Name /**
253*5113495bSYour Name * qdf_bitmap_empty() - Check if bitmap is empty
254*5113495bSYour Name * @addr: Address buffer pointer
255*5113495bSYour Name * @nbits: Number of bits
256*5113495bSYour Name *
257*5113495bSYour Name * Return: True if no bit set, else false
258*5113495bSYour Name */
259*5113495bSYour Name #define qdf_bitmap_empty(addr, nbits) __qdf_bitmap_empty(addr, nbits)
260*5113495bSYour Name
261*5113495bSYour Name /**
262*5113495bSYour Name * qdf_bitmap_and() - AND operation on the bitmap
263*5113495bSYour Name * @dst: Destination buffer pointer
264*5113495bSYour Name * @src1: First source buffer pointer
265*5113495bSYour Name * @src2: Second source buffer pointer
266*5113495bSYour Name * @nbits: Number of bits
267*5113495bSYour Name *
268*5113495bSYour Name * Return: Bitwise and of src1 and src2 in dst
269*5113495bSYour Name */
270*5113495bSYour Name #define qdf_bitmap_and(dst, src1, src2, nbits) \
271*5113495bSYour Name __qdf_bitmap_and(dst, src1, src2, nbits)
272*5113495bSYour Name
273*5113495bSYour Name #define qdf_wait_queue_interruptible(wait_queue, condition) \
274*5113495bSYour Name __qdf_wait_queue_interruptible(wait_queue, condition)
275*5113495bSYour Name
276*5113495bSYour Name /**
277*5113495bSYour Name * qdf_wait_queue_timeout() - wait for specified time on given condition
278*5113495bSYour Name * @wait_queue: wait queue to wait on
279*5113495bSYour Name * @condition: condition to wait on
280*5113495bSYour Name * @timeout: timeout value in jiffies
281*5113495bSYour Name *
282*5113495bSYour Name * Return: 0 if condition becomes false after timeout
283*5113495bSYour Name * 1 or remaining jiffies, if condition becomes true during timeout
284*5113495bSYour Name */
285*5113495bSYour Name #define qdf_wait_queue_timeout(wait_queue, condition, timeout) \
286*5113495bSYour Name __qdf_wait_queue_timeout(wait_queue, \
287*5113495bSYour Name condition, timeout)
288*5113495bSYour Name
289*5113495bSYour Name
290*5113495bSYour Name #define qdf_init_waitqueue_head(_q) __qdf_init_waitqueue_head(_q)
291*5113495bSYour Name
292*5113495bSYour Name #define qdf_wake_up_interruptible(_q) __qdf_wake_up_interruptible(_q)
293*5113495bSYour Name
294*5113495bSYour Name /**
295*5113495bSYour Name * qdf_wake_up() - wakes up sleeping waitqueue
296*5113495bSYour Name * @_q: wait queue, which needs wake up
297*5113495bSYour Name *
298*5113495bSYour Name * Return: none
299*5113495bSYour Name */
300*5113495bSYour Name #define qdf_wake_up(_q) __qdf_wake_up(_q)
301*5113495bSYour Name
302*5113495bSYour Name #define qdf_wake_up_completion(_q) __qdf_wake_up_completion(_q)
303*5113495bSYour Name
304*5113495bSYour Name /**
305*5113495bSYour Name * qdf_container_of() - cast a member of a structure out to the containing
306*5113495bSYour Name * structure
307*5113495bSYour Name * @ptr: the pointer to the member.
308*5113495bSYour Name * @type: the type of the container struct this is embedded in.
309*5113495bSYour Name * @member: the name of the member within the struct.
310*5113495bSYour Name */
311*5113495bSYour Name #define qdf_container_of(ptr, type, member) \
312*5113495bSYour Name __qdf_container_of(ptr, type, member)
313*5113495bSYour Name
314*5113495bSYour Name /**
315*5113495bSYour Name * QDF_IS_PWR2() - test input value is power of 2 integer
316*5113495bSYour Name * @value: input integer
317*5113495bSYour Name */
318*5113495bSYour Name #define QDF_IS_PWR2(value) (((value) ^ ((value)-1)) == ((value) << 1) - 1)
319*5113495bSYour Name
320*5113495bSYour Name /**
321*5113495bSYour Name * qdf_roundup() - roundup the input value
322*5113495bSYour Name * @x: value to roundup
323*5113495bSYour Name * @y: input value rounded to multiple of this
324*5113495bSYour Name *
325*5113495bSYour Name * Return: rounded value
326*5113495bSYour Name */
327*5113495bSYour Name #define qdf_roundup(x, y) __qdf_roundup(x, y)
328*5113495bSYour Name
329*5113495bSYour Name /**
330*5113495bSYour Name * qdf_ceil() - roundup of x/y
331*5113495bSYour Name * @x: dividend
332*5113495bSYour Name * @y: divisor
333*5113495bSYour Name *
334*5113495bSYour Name * Return: rounded value
335*5113495bSYour Name */
336*5113495bSYour Name #define qdf_ceil(x, y) __qdf_ceil(x, y)
337*5113495bSYour Name
338*5113495bSYour Name /**
339*5113495bSYour Name * qdf_in_interrupt - returns true if in interrupt context
340*5113495bSYour Name */
341*5113495bSYour Name #define qdf_in_interrupt __qdf_in_interrupt
342*5113495bSYour Name
343*5113495bSYour Name /**
344*5113495bSYour Name * qdf_is_macaddr_equal() - compare two QDF MacAddress
345*5113495bSYour Name * @mac_addr1: Pointer to one qdf MacAddress to compare
346*5113495bSYour Name * @mac_addr2: Pointer to the other qdf MacAddress to compare
347*5113495bSYour Name *
348*5113495bSYour Name * This function returns a bool that tells if a two QDF MacAddress'
349*5113495bSYour Name * are equivalent.
350*5113495bSYour Name *
351*5113495bSYour Name * Return: true if the MacAddress's are equal
352*5113495bSYour Name * not true if the MacAddress's are not equal
353*5113495bSYour Name */
qdf_is_macaddr_equal(const struct qdf_mac_addr * mac_addr1,const struct qdf_mac_addr * mac_addr2)354*5113495bSYour Name static inline bool qdf_is_macaddr_equal(const struct qdf_mac_addr *mac_addr1,
355*5113495bSYour Name const struct qdf_mac_addr *mac_addr2)
356*5113495bSYour Name {
357*5113495bSYour Name return __qdf_is_macaddr_equal(mac_addr1, mac_addr2);
358*5113495bSYour Name }
359*5113495bSYour Name
360*5113495bSYour Name
361*5113495bSYour Name /**
362*5113495bSYour Name * qdf_is_macaddr_zero() - check for a MacAddress of all zeros.
363*5113495bSYour Name * @mac_addr: pointer to the struct qdf_mac_addr to check.
364*5113495bSYour Name *
365*5113495bSYour Name * This function returns a bool that tells if a MacAddress is made up of
366*5113495bSYour Name * all zeros.
367*5113495bSYour Name *
368*5113495bSYour Name * Return: true if the MacAddress is all Zeros
369*5113495bSYour Name * false if the MacAddress is not all Zeros.
370*5113495bSYour Name */
qdf_is_macaddr_zero(const struct qdf_mac_addr * mac_addr)371*5113495bSYour Name static inline bool qdf_is_macaddr_zero(const struct qdf_mac_addr *mac_addr)
372*5113495bSYour Name {
373*5113495bSYour Name struct qdf_mac_addr zero_mac_addr = QDF_MAC_ADDR_ZERO_INIT;
374*5113495bSYour Name
375*5113495bSYour Name return qdf_is_macaddr_equal(mac_addr, &zero_mac_addr);
376*5113495bSYour Name }
377*5113495bSYour Name
378*5113495bSYour Name /**
379*5113495bSYour Name * qdf_zero_macaddr() - zero out a MacAddress
380*5113495bSYour Name * @mac_addr: pointer to the struct qdf_mac_addr to zero.
381*5113495bSYour Name *
382*5113495bSYour Name * This function zeros out a QDF MacAddress type.
383*5113495bSYour Name *
384*5113495bSYour Name * Return: none
385*5113495bSYour Name */
qdf_zero_macaddr(struct qdf_mac_addr * mac_addr)386*5113495bSYour Name static inline void qdf_zero_macaddr(struct qdf_mac_addr *mac_addr)
387*5113495bSYour Name {
388*5113495bSYour Name __qdf_zero_macaddr(mac_addr);
389*5113495bSYour Name }
390*5113495bSYour Name
391*5113495bSYour Name
392*5113495bSYour Name /**
393*5113495bSYour Name * qdf_is_macaddr_group() - check for a MacAddress is a 'group' address
394*5113495bSYour Name * @mac_addr: pointer to the qdf MacAddress to check
395*5113495bSYour Name *
396*5113495bSYour Name * This function returns a bool that tells if a the input QDF MacAddress
397*5113495bSYour Name * is a "group" address. Group addresses have the 'group address bit' turned
398*5113495bSYour Name * on in the MacAddress. Group addresses are made up of Broadcast and
399*5113495bSYour Name * Multicast addresses.
400*5113495bSYour Name *
401*5113495bSYour Name * Return: true if the input MacAddress is a Group address
402*5113495bSYour Name * false if the input MacAddress is not a Group address
403*5113495bSYour Name */
qdf_is_macaddr_group(struct qdf_mac_addr * mac_addr)404*5113495bSYour Name static inline bool qdf_is_macaddr_group(struct qdf_mac_addr *mac_addr)
405*5113495bSYour Name {
406*5113495bSYour Name return mac_addr->bytes[0] & 0x01;
407*5113495bSYour Name }
408*5113495bSYour Name
409*5113495bSYour Name
410*5113495bSYour Name /**
411*5113495bSYour Name * qdf_is_macaddr_broadcast() - check for a MacAddress is a broadcast address
412*5113495bSYour Name * @mac_addr: Pointer to the qdf MacAddress to check
413*5113495bSYour Name *
414*5113495bSYour Name * This function returns a bool that tells if a the input QDF MacAddress
415*5113495bSYour Name * is a "broadcast" address.
416*5113495bSYour Name *
417*5113495bSYour Name * Return: true if the input MacAddress is a broadcast address
418*5113495bSYour Name * flase if the input MacAddress is not a broadcast address
419*5113495bSYour Name */
qdf_is_macaddr_broadcast(const struct qdf_mac_addr * mac_addr)420*5113495bSYour Name static inline bool qdf_is_macaddr_broadcast(const struct qdf_mac_addr *mac_addr)
421*5113495bSYour Name {
422*5113495bSYour Name struct qdf_mac_addr broadcast_mac_addr = QDF_MAC_ADDR_BCAST_INIT;
423*5113495bSYour Name return qdf_is_macaddr_equal(mac_addr, &broadcast_mac_addr);
424*5113495bSYour Name }
425*5113495bSYour Name
426*5113495bSYour Name /**
427*5113495bSYour Name * qdf_copy_macaddr() - copy a QDF MacAddress
428*5113495bSYour Name * @dst_addr: pointer to the qdf MacAddress to copy TO (the destination)
429*5113495bSYour Name * @src_addr: pointer to the qdf MacAddress to copy FROM (the source)
430*5113495bSYour Name *
431*5113495bSYour Name * This function copies a QDF MacAddress into another QDF MacAddress.
432*5113495bSYour Name *
433*5113495bSYour Name * Return: none
434*5113495bSYour Name */
qdf_copy_macaddr(struct qdf_mac_addr * dst_addr,const struct qdf_mac_addr * src_addr)435*5113495bSYour Name static inline void qdf_copy_macaddr(struct qdf_mac_addr *dst_addr,
436*5113495bSYour Name const struct qdf_mac_addr *src_addr)
437*5113495bSYour Name {
438*5113495bSYour Name *dst_addr = *src_addr;
439*5113495bSYour Name }
440*5113495bSYour Name
441*5113495bSYour Name /**
442*5113495bSYour Name * qdf_set_macaddr_broadcast() - set a QDF MacAddress to the 'broadcast'
443*5113495bSYour Name * @mac_addr: pointer to the qdf MacAddress to set to broadcast
444*5113495bSYour Name *
445*5113495bSYour Name * This function sets a QDF MacAddress to the 'broadcast' MacAddress. Broadcast
446*5113495bSYour Name * MacAddress contains all 0xFF bytes.
447*5113495bSYour Name *
448*5113495bSYour Name * Return: none
449*5113495bSYour Name */
qdf_set_macaddr_broadcast(struct qdf_mac_addr * mac_addr)450*5113495bSYour Name static inline void qdf_set_macaddr_broadcast(struct qdf_mac_addr *mac_addr)
451*5113495bSYour Name {
452*5113495bSYour Name __qdf_set_macaddr_broadcast(mac_addr);
453*5113495bSYour Name }
454*5113495bSYour Name
455*5113495bSYour Name /**
456*5113495bSYour Name * qdf_set_u16() - Assign 16-bit unsigned value to a byte array base on CPU's
457*5113495bSYour Name * endianness.
458*5113495bSYour Name * @ptr: Starting address of a byte array
459*5113495bSYour Name * @value: The value to assign to the byte array
460*5113495bSYour Name *
461*5113495bSYour Name * Caller must validate the byte array has enough space to hold the value
462*5113495bSYour Name *
463*5113495bSYour Name * Return: The address to the byte after the assignment. This may or may not
464*5113495bSYour Name * be valid. Caller to verify.
465*5113495bSYour Name */
qdf_set_u16(uint8_t * ptr,uint16_t value)466*5113495bSYour Name static inline uint8_t *qdf_set_u16(uint8_t *ptr, uint16_t value)
467*5113495bSYour Name {
468*5113495bSYour Name #if defined(ANI_BIG_BYTE_ENDIAN)
469*5113495bSYour Name *(ptr) = (uint8_t) (value >> 8);
470*5113495bSYour Name *(ptr + 1) = (uint8_t) (value);
471*5113495bSYour Name #else
472*5113495bSYour Name *(ptr + 1) = (uint8_t) (value >> 8);
473*5113495bSYour Name *(ptr) = (uint8_t) (value);
474*5113495bSYour Name #endif
475*5113495bSYour Name return ptr + 2;
476*5113495bSYour Name }
477*5113495bSYour Name
478*5113495bSYour Name /**
479*5113495bSYour Name * qdf_get_u16() - Retrieve a 16-bit unsigned value from a byte array base on
480*5113495bSYour Name * CPU's endianness.
481*5113495bSYour Name * @ptr: Starting address of a byte array
482*5113495bSYour Name * @value: Pointer to a caller allocated buffer for 16 bit value. Value is to
483*5113495bSYour Name * assign to this location.
484*5113495bSYour Name *
485*5113495bSYour Name * Caller must validate the byte array has enough space to hold the value
486*5113495bSYour Name *
487*5113495bSYour Name * Return: The address to the byte after the assignment. This may or may not
488*5113495bSYour Name * be valid. Caller to verify.
489*5113495bSYour Name */
qdf_get_u16(uint8_t * ptr,uint16_t * value)490*5113495bSYour Name static inline uint8_t *qdf_get_u16(uint8_t *ptr, uint16_t *value)
491*5113495bSYour Name {
492*5113495bSYour Name #if defined(ANI_BIG_BYTE_ENDIAN)
493*5113495bSYour Name *value = (((uint16_t) (*ptr << 8)) | ((uint16_t) (*(ptr + 1))));
494*5113495bSYour Name #else
495*5113495bSYour Name *value = (((uint16_t) (*(ptr + 1) << 8)) | ((uint16_t) (*ptr)));
496*5113495bSYour Name #endif
497*5113495bSYour Name return ptr + 2;
498*5113495bSYour Name }
499*5113495bSYour Name
500*5113495bSYour Name /**
501*5113495bSYour Name * qdf_get_u32() - retrieve a 32-bit unsigned value from a byte array base on
502*5113495bSYour Name * CPU's endianness.
503*5113495bSYour Name * @ptr: Starting address of a byte array
504*5113495bSYour Name * @value: Pointer to a caller allocated buffer for 32 bit value. Value is to
505*5113495bSYour Name * assign to this location.
506*5113495bSYour Name *
507*5113495bSYour Name * Caller must validate the byte array has enough space to hold the value
508*5113495bSYour Name *
509*5113495bSYour Name * Return: The address to the byte after the assignment. This may or may not
510*5113495bSYour Name * be valid. Caller to verify.
511*5113495bSYour Name */
qdf_get_u32(uint8_t * ptr,uint32_t * value)512*5113495bSYour Name static inline uint8_t *qdf_get_u32(uint8_t *ptr, uint32_t *value)
513*5113495bSYour Name {
514*5113495bSYour Name #if defined(ANI_BIG_BYTE_ENDIAN)
515*5113495bSYour Name *value = ((uint32_t) (*(ptr) << 24) |
516*5113495bSYour Name (uint32_t) (*(ptr + 1) << 16) |
517*5113495bSYour Name (uint32_t) (*(ptr + 2) << 8) | (uint32_t) (*(ptr + 3)));
518*5113495bSYour Name #else
519*5113495bSYour Name *value = ((uint32_t) (*(ptr + 3) << 24) |
520*5113495bSYour Name (uint32_t) (*(ptr + 2) << 16) |
521*5113495bSYour Name (uint32_t) (*(ptr + 1) << 8) | (uint32_t) (*(ptr)));
522*5113495bSYour Name #endif
523*5113495bSYour Name return ptr + 4;
524*5113495bSYour Name }
525*5113495bSYour Name
526*5113495bSYour Name /**
527*5113495bSYour Name * qdf_abs() - Get absolute value
528*5113495bSYour Name * @x: value to be converted
529*5113495bSYour Name */
530*5113495bSYour Name #define qdf_abs(x) __qdf_abs(x)
531*5113495bSYour Name
532*5113495bSYour Name /**
533*5113495bSYour Name * qdf_ntohs() - Convert a 16-bit value from network byte order to host byte order
534*5113495bSYour Name * @x: value to be converted
535*5113495bSYour Name */
536*5113495bSYour Name #define qdf_ntohs(x) __qdf_ntohs(x)
537*5113495bSYour Name
538*5113495bSYour Name /**
539*5113495bSYour Name * qdf_ntohl() - Convert a 32-bit value from network byte order to host byte order
540*5113495bSYour Name * @x: value to be converted
541*5113495bSYour Name */
542*5113495bSYour Name #define qdf_ntohl(x) __qdf_ntohl(x)
543*5113495bSYour Name
544*5113495bSYour Name /**
545*5113495bSYour Name * qdf_htons() - Convert a 16-bit value from host byte order to network byte order
546*5113495bSYour Name * @x: value to be converted
547*5113495bSYour Name */
548*5113495bSYour Name #define qdf_htons(x) __qdf_htons(x)
549*5113495bSYour Name
550*5113495bSYour Name /**
551*5113495bSYour Name * qdf_htonl() - Convert a 32-bit value from host byte order to network byte order
552*5113495bSYour Name * @x: value to be converted
553*5113495bSYour Name */
554*5113495bSYour Name #define qdf_htonl(x) __qdf_htonl(x)
555*5113495bSYour Name
556*5113495bSYour Name /**
557*5113495bSYour Name * qdf_cpu_to_le16() - Convert a 16-bit value from CPU byte order to
558*5113495bSYour Name * little-endian byte order
559*5113495bSYour Name *
560*5113495bSYour Name * @x: value to be converted
561*5113495bSYour Name */
562*5113495bSYour Name #define qdf_cpu_to_le16(x) __qdf_cpu_to_le16(x)
563*5113495bSYour Name
564*5113495bSYour Name /**
565*5113495bSYour Name * qdf_cpu_to_le32() - Convert a 32-bit value from CPU byte order to
566*5113495bSYour Name * little-endian byte order
567*5113495bSYour Name *
568*5113495bSYour Name * @x: value to be converted
569*5113495bSYour Name */
570*5113495bSYour Name #define qdf_cpu_to_le32(x) __qdf_cpu_to_le32(x)
571*5113495bSYour Name
572*5113495bSYour Name /**
573*5113495bSYour Name * qdf_cpu_to_le64() - Convert a 64-bit value from CPU byte order to
574*5113495bSYour Name * little-endian byte order
575*5113495bSYour Name *
576*5113495bSYour Name * @x: value to be converted
577*5113495bSYour Name */
578*5113495bSYour Name #define qdf_cpu_to_le64(x) __qdf_cpu_to_le64(x)
579*5113495bSYour Name
580*5113495bSYour Name /**
581*5113495bSYour Name * qdf_le16_to_cpu() - Convert a 16-bit value from little-endian byte order
582*5113495bSYour Name * to CPU byte order
583*5113495bSYour Name *
584*5113495bSYour Name * @x: value to be converted
585*5113495bSYour Name */
586*5113495bSYour Name #define qdf_le16_to_cpu(x) __qdf_le16_to_cpu(x)
587*5113495bSYour Name
588*5113495bSYour Name /**
589*5113495bSYour Name * qdf_le32_to_cpu() - Convert a 32-bit value from little-endian byte
590*5113495bSYour Name * order to CPU byte order
591*5113495bSYour Name *
592*5113495bSYour Name * @x: value to be converted
593*5113495bSYour Name */
594*5113495bSYour Name #define qdf_le32_to_cpu(x) __qdf_le32_to_cpu(x)
595*5113495bSYour Name
596*5113495bSYour Name /**
597*5113495bSYour Name * qdf_le64_to_cpu() - Convert a 64-bit value from little-endian byte
598*5113495bSYour Name * order to CPU byte order
599*5113495bSYour Name *
600*5113495bSYour Name * @x: value to be converted
601*5113495bSYour Name */
602*5113495bSYour Name #define qdf_le64_to_cpu(x) __qdf_le64_to_cpu(x)
603*5113495bSYour Name
604*5113495bSYour Name /**
605*5113495bSYour Name * qdf_cpu_to_be16() - Convert a 16-bit value from CPU byte order to
606*5113495bSYour Name * big-endian byte order
607*5113495bSYour Name *
608*5113495bSYour Name * @x: value to be converted
609*5113495bSYour Name */
610*5113495bSYour Name #define qdf_cpu_to_be16(x) __qdf_cpu_to_be16(x)
611*5113495bSYour Name
612*5113495bSYour Name /**
613*5113495bSYour Name * qdf_cpu_to_be32() - Convert a 32-bit value from CPU byte order to
614*5113495bSYour Name * big-endian byte order
615*5113495bSYour Name *
616*5113495bSYour Name * @x: value to be converted
617*5113495bSYour Name */
618*5113495bSYour Name #define qdf_cpu_to_be32(x) __qdf_cpu_to_be32(x)
619*5113495bSYour Name
620*5113495bSYour Name /**
621*5113495bSYour Name * qdf_cpu_to_be64() - Convert a 64-bit value from CPU byte order to
622*5113495bSYour Name * big-endian byte order
623*5113495bSYour Name *
624*5113495bSYour Name * @x: value to be converted
625*5113495bSYour Name */
626*5113495bSYour Name #define qdf_cpu_to_be64(x) __qdf_cpu_to_be64(x)
627*5113495bSYour Name
628*5113495bSYour Name
629*5113495bSYour Name /**
630*5113495bSYour Name * qdf_be16_to_cpu() - Convert a 16-bit value from big-endian byte order
631*5113495bSYour Name * to CPU byte order
632*5113495bSYour Name *
633*5113495bSYour Name * @x: value to be converted
634*5113495bSYour Name */
635*5113495bSYour Name #define qdf_be16_to_cpu(x) __qdf_be16_to_cpu(x)
636*5113495bSYour Name
637*5113495bSYour Name /**
638*5113495bSYour Name * qdf_be32_to_cpu() - Convert a 32-bit value from big-endian byte order
639*5113495bSYour Name * to CPU byte order
640*5113495bSYour Name *
641*5113495bSYour Name * @x: value to be converted
642*5113495bSYour Name */
643*5113495bSYour Name #define qdf_be32_to_cpu(x) __qdf_be32_to_cpu(x)
644*5113495bSYour Name
645*5113495bSYour Name /**
646*5113495bSYour Name * qdf_be64_to_cpu() - Convert a 64-bit value from big-endian byte order
647*5113495bSYour Name * to CPU byte order
648*5113495bSYour Name *
649*5113495bSYour Name * @x: value to be converted
650*5113495bSYour Name */
651*5113495bSYour Name #define qdf_be64_to_cpu(x) __qdf_be64_to_cpu(x)
652*5113495bSYour Name
653*5113495bSYour Name /**
654*5113495bSYour Name * qdf_function - replace with the name of the current function
655*5113495bSYour Name */
656*5113495bSYour Name #define qdf_function __qdf_function
657*5113495bSYour Name
658*5113495bSYour Name /**
659*5113495bSYour Name * qdf_min() - minimum of two numbers
660*5113495bSYour Name * @a: first number
661*5113495bSYour Name * @b: second number
662*5113495bSYour Name */
663*5113495bSYour Name #define qdf_min(a, b) __qdf_min(a, b)
664*5113495bSYour Name
665*5113495bSYour Name /**
666*5113495bSYour Name * qdf_ffz() - find first (least significant) zero bit
667*5113495bSYour Name * @mask: the bitmask to check
668*5113495bSYour Name *
669*5113495bSYour Name * Return: The zero-based index of the first zero bit, or -1 if none are found
670*5113495bSYour Name */
671*5113495bSYour Name #define qdf_ffz(mask) __qdf_ffz(mask)
672*5113495bSYour Name
673*5113495bSYour Name /**
674*5113495bSYour Name * qdf_prefetch - prefetches the cacheline for read
675*5113495bSYour Name *
676*5113495bSYour Name * @x: address to be prefetched
677*5113495bSYour Name */
678*5113495bSYour Name #define qdf_prefetch(x) __qdf_prefetch(x)
679*5113495bSYour Name
680*5113495bSYour Name /**
681*5113495bSYour Name * qdf_get_pwr2() - get next power of 2 integer from input value
682*5113495bSYour Name * @value: input value to find next power of 2 integer
683*5113495bSYour Name *
684*5113495bSYour Name * Get next power of 2 integer from input value
685*5113495bSYour Name *
686*5113495bSYour Name * Return: Power of 2 integer
687*5113495bSYour Name */
qdf_get_pwr2(int value)688*5113495bSYour Name static inline int qdf_get_pwr2(int value)
689*5113495bSYour Name {
690*5113495bSYour Name int log2;
691*5113495bSYour Name
692*5113495bSYour Name if (QDF_IS_PWR2(value))
693*5113495bSYour Name return value;
694*5113495bSYour Name
695*5113495bSYour Name log2 = 0;
696*5113495bSYour Name while (value) {
697*5113495bSYour Name value >>= 1;
698*5113495bSYour Name log2++;
699*5113495bSYour Name }
700*5113495bSYour Name return 1 << log2;
701*5113495bSYour Name }
702*5113495bSYour Name
703*5113495bSYour Name static inline
qdf_get_cpu(void)704*5113495bSYour Name int qdf_get_cpu(void)
705*5113495bSYour Name {
706*5113495bSYour Name return __qdf_get_cpu();
707*5113495bSYour Name }
708*5113495bSYour Name
709*5113495bSYour Name /**
710*5113495bSYour Name * qdf_get_hweight8() - count num of 1's in 8-bit bitmap
711*5113495bSYour Name * @w: input bitmap
712*5113495bSYour Name *
713*5113495bSYour Name * Count num of 1's set in the 8-bit bitmap
714*5113495bSYour Name *
715*5113495bSYour Name * Return: num of 1's
716*5113495bSYour Name */
717*5113495bSYour Name static inline
qdf_get_hweight8(unsigned int w)718*5113495bSYour Name unsigned int qdf_get_hweight8(unsigned int w)
719*5113495bSYour Name {
720*5113495bSYour Name unsigned int res = w - ((w >> 1) & 0x55);
721*5113495bSYour Name res = (res & 0x33) + ((res >> 2) & 0x33);
722*5113495bSYour Name return (res + (res >> 4)) & 0x0F;
723*5113495bSYour Name }
724*5113495bSYour Name
725*5113495bSYour Name /**
726*5113495bSYour Name * qdf_get_hweight16() - count num of 1's in 16-bit bitmap
727*5113495bSYour Name * @w: input bitmap
728*5113495bSYour Name *
729*5113495bSYour Name * Count num of 1's set in the 16-bit bitmap
730*5113495bSYour Name *
731*5113495bSYour Name * Return: num of 1's
732*5113495bSYour Name */
733*5113495bSYour Name static inline
qdf_get_hweight16(unsigned int w)734*5113495bSYour Name unsigned int qdf_get_hweight16(unsigned int w)
735*5113495bSYour Name {
736*5113495bSYour Name unsigned int res = (w & 0x5555) + ((w >> 1) & 0x5555);
737*5113495bSYour Name
738*5113495bSYour Name res = (res & 0x3333) + ((res >> 2) & 0x3333);
739*5113495bSYour Name res = (res & 0x0F0F) + ((res >> 4) & 0x0F0F);
740*5113495bSYour Name return (res & 0x00FF) + ((res >> 8) & 0x00FF);
741*5113495bSYour Name }
742*5113495bSYour Name
743*5113495bSYour Name /**
744*5113495bSYour Name * qdf_get_hweight32() - count num of 1's in 32-bit bitmap
745*5113495bSYour Name * @w: input bitmap
746*5113495bSYour Name *
747*5113495bSYour Name * Count num of 1's set in the 32-bit bitmap
748*5113495bSYour Name *
749*5113495bSYour Name * Return: num of 1's
750*5113495bSYour Name */
751*5113495bSYour Name static inline
qdf_get_hweight32(unsigned int w)752*5113495bSYour Name unsigned int qdf_get_hweight32(unsigned int w)
753*5113495bSYour Name {
754*5113495bSYour Name unsigned int res = (w & 0x55555555) + ((w >> 1) & 0x55555555);
755*5113495bSYour Name
756*5113495bSYour Name res = (res & 0x33333333) + ((res >> 2) & 0x33333333);
757*5113495bSYour Name res = (res & 0x0F0F0F0F) + ((res >> 4) & 0x0F0F0F0F);
758*5113495bSYour Name res = (res & 0x00FF00FF) + ((res >> 8) & 0x00FF00FF);
759*5113495bSYour Name return (res & 0x0000FFFF) + ((res >> 16) & 0x0000FFFF);
760*5113495bSYour Name }
761*5113495bSYour Name
762*5113495bSYour Name /**
763*5113495bSYour Name * qdf_device_init_wakeup() - allow a device to wake up the aps system
764*5113495bSYour Name * @qdf_dev: the qdf device context
765*5113495bSYour Name * @enable: enable/disable the device as a wakeup source
766*5113495bSYour Name *
767*5113495bSYour Name * Return: 0 or errno
768*5113495bSYour Name */
qdf_device_init_wakeup(qdf_device_t qdf_dev,bool enable)769*5113495bSYour Name static inline int qdf_device_init_wakeup(qdf_device_t qdf_dev, bool enable)
770*5113495bSYour Name {
771*5113495bSYour Name return __qdf_device_init_wakeup(qdf_dev, enable);
772*5113495bSYour Name }
773*5113495bSYour Name
774*5113495bSYour Name static inline
qdf_get_totalramsize(void)775*5113495bSYour Name uint64_t qdf_get_totalramsize(void)
776*5113495bSYour Name {
777*5113495bSYour Name return __qdf_get_totalramsize();
778*5113495bSYour Name }
779*5113495bSYour Name
780*5113495bSYour Name /**
781*5113495bSYour Name * qdf_get_lower_32_bits() - get lower 32 bits from an address.
782*5113495bSYour Name * @addr: address
783*5113495bSYour Name *
784*5113495bSYour Name * This api returns the lower 32 bits of an address.
785*5113495bSYour Name *
786*5113495bSYour Name * Return: lower 32 bits.
787*5113495bSYour Name */
788*5113495bSYour Name static inline
qdf_get_lower_32_bits(qdf_dma_addr_t addr)789*5113495bSYour Name uint32_t qdf_get_lower_32_bits(qdf_dma_addr_t addr)
790*5113495bSYour Name {
791*5113495bSYour Name return __qdf_get_lower_32_bits(addr);
792*5113495bSYour Name }
793*5113495bSYour Name
794*5113495bSYour Name /**
795*5113495bSYour Name * qdf_get_upper_32_bits() - get upper 32 bits from an address.
796*5113495bSYour Name * @addr: address
797*5113495bSYour Name *
798*5113495bSYour Name * This api returns the upper 32 bits of an address.
799*5113495bSYour Name *
800*5113495bSYour Name * Return: upper 32 bits.
801*5113495bSYour Name */
802*5113495bSYour Name static inline
qdf_get_upper_32_bits(qdf_dma_addr_t addr)803*5113495bSYour Name uint32_t qdf_get_upper_32_bits(qdf_dma_addr_t addr)
804*5113495bSYour Name {
805*5113495bSYour Name return __qdf_get_upper_32_bits(addr);
806*5113495bSYour Name }
807*5113495bSYour Name
808*5113495bSYour Name /**
809*5113495bSYour Name * qdf_rounddown_pow_of_two() - Round down to nearest power of two
810*5113495bSYour Name * @n: number to be tested
811*5113495bSYour Name *
812*5113495bSYour Name * Test if the input number is power of two, and return the nearest power of two
813*5113495bSYour Name *
814*5113495bSYour Name * Return: number rounded down to the nearest power of two
815*5113495bSYour Name */
816*5113495bSYour Name static inline
qdf_rounddown_pow_of_two(unsigned long n)817*5113495bSYour Name unsigned long qdf_rounddown_pow_of_two(unsigned long n)
818*5113495bSYour Name {
819*5113495bSYour Name return __qdf_rounddown_pow_of_two(n);
820*5113495bSYour Name }
821*5113495bSYour Name
822*5113495bSYour Name /**
823*5113495bSYour Name * qdf_set_dma_coherent_mask() - set max number of bits allowed in dma addr
824*5113495bSYour Name * @dev: device pointer
825*5113495bSYour Name * @addr_bits: max number of bits allowed in dma address
826*5113495bSYour Name *
827*5113495bSYour Name * This API sets the maximum allowed number of bits in the dma address.
828*5113495bSYour Name *
829*5113495bSYour Name * Return: 0 - success, non zero - failure
830*5113495bSYour Name */
831*5113495bSYour Name static inline
qdf_set_dma_coherent_mask(struct device * dev,uint8_t addr_bits)832*5113495bSYour Name int qdf_set_dma_coherent_mask(struct device *dev, uint8_t addr_bits)
833*5113495bSYour Name {
834*5113495bSYour Name return __qdf_set_dma_coherent_mask(dev, addr_bits);
835*5113495bSYour Name }
836*5113495bSYour Name
837*5113495bSYour Name /**
838*5113495bSYour Name * qdf_do_div() - wrapper function for kernel macro(do_div).
839*5113495bSYour Name * @dividend: Dividend value
840*5113495bSYour Name * @divisor : Divisor value
841*5113495bSYour Name *
842*5113495bSYour Name * Return: Quotient
843*5113495bSYour Name */
844*5113495bSYour Name static inline
qdf_do_div(uint64_t dividend,uint32_t divisor)845*5113495bSYour Name uint64_t qdf_do_div(uint64_t dividend, uint32_t divisor)
846*5113495bSYour Name {
847*5113495bSYour Name return __qdf_do_div(dividend, divisor);
848*5113495bSYour Name }
849*5113495bSYour Name
850*5113495bSYour Name /**
851*5113495bSYour Name * qdf_do_div_rem() - wrapper function for kernel macro(do_div)
852*5113495bSYour Name * to get remainder.
853*5113495bSYour Name * @dividend: Dividend value
854*5113495bSYour Name * @divisor : Divisor value
855*5113495bSYour Name *
856*5113495bSYour Name * Return: remainder
857*5113495bSYour Name */
858*5113495bSYour Name static inline
qdf_do_div_rem(uint64_t dividend,uint32_t divisor)859*5113495bSYour Name uint64_t qdf_do_div_rem(uint64_t dividend, uint32_t divisor)
860*5113495bSYour Name {
861*5113495bSYour Name return __qdf_do_div_rem(dividend, divisor);
862*5113495bSYour Name }
863*5113495bSYour Name
864*5113495bSYour Name /**
865*5113495bSYour Name * qdf_get_random_bytes() - returns nbytes bytes of random data
866*5113495bSYour Name * @buf: buffer to fill
867*5113495bSYour Name * @nbytes: number of bytes to fill
868*5113495bSYour Name *
869*5113495bSYour Name * Return: random bytes of data
870*5113495bSYour Name */
871*5113495bSYour Name static inline
qdf_get_random_bytes(void * buf,int nbytes)872*5113495bSYour Name void qdf_get_random_bytes(void *buf, int nbytes)
873*5113495bSYour Name {
874*5113495bSYour Name return __qdf_get_random_bytes(buf, nbytes);
875*5113495bSYour Name }
876*5113495bSYour Name
877*5113495bSYour Name /**
878*5113495bSYour Name * qdf_hex_to_bin() - QDF API to Convert hexa decimal ASCII character to
879*5113495bSYour Name * unsigned integer value.
880*5113495bSYour Name * @ch: hexa decimal ASCII character
881*5113495bSYour Name *
882*5113495bSYour Name * Return: For hexa decimal ASCII char return actual decimal value
883*5113495bSYour Name * else -1 for bad input.
884*5113495bSYour Name */
885*5113495bSYour Name static inline
qdf_hex_to_bin(char ch)886*5113495bSYour Name int qdf_hex_to_bin(char ch)
887*5113495bSYour Name {
888*5113495bSYour Name return __qdf_hex_to_bin(ch);
889*5113495bSYour Name }
890*5113495bSYour Name
891*5113495bSYour Name /**
892*5113495bSYour Name * qdf_hex_str_to_binary() - QDF API to Convert string of hexa decimal
893*5113495bSYour Name * ASCII characters to array of unsigned integers.
894*5113495bSYour Name * @dst: output array to hold converted values
895*5113495bSYour Name * @src: input string of hexa decimal ASCII characters
896*5113495bSYour Name * @count: size of dst string
897*5113495bSYour Name *
898*5113495bSYour Name * This function is used to convert string of hexa decimal characters to
899*5113495bSYour Name * array of unsigned integers and caller should ensure:
900*5113495bSYour Name * a) @dst, @src are not NULL,
901*5113495bSYour Name * b) size of @dst should be (size of src / 2)
902*5113495bSYour Name *
903*5113495bSYour Name * Example 1:
904*5113495bSYour Name * src = 11aa, means, src[0] = '1', src[1] = '2', src[2] = 'a', src[3] = 'a'
905*5113495bSYour Name * count = (size of src / 2) = 2
906*5113495bSYour Name * after conversion, dst[0] = 0x11, dst[1] = oxAA and return (0).
907*5113495bSYour Name *
908*5113495bSYour Name * Example 2:
909*5113495bSYour Name * src = 11az, means, src[0] = '1', src[1] = '2', src[2] = 'a', src[3] = 'z'
910*5113495bSYour Name * src[3] is not ASCII hexa decimal character, return negative value (-1).
911*5113495bSYour Name *
912*5113495bSYour Name * Return: For a string of hexa decimal ASCII characters return 0
913*5113495bSYour Name * else -1 for bad input.
914*5113495bSYour Name */
915*5113495bSYour Name static inline
qdf_hex_str_to_binary(u8 * dst,const char * src,size_t count)916*5113495bSYour Name int qdf_hex_str_to_binary(u8 *dst, const char *src, size_t count)
917*5113495bSYour Name {
918*5113495bSYour Name return __qdf_hex_str_to_binary(dst, src, count);
919*5113495bSYour Name }
920*5113495bSYour Name
921*5113495bSYour Name /**
922*5113495bSYour Name * qdf_fls() - find last set bit in a given 32 bit input
923*5113495bSYour Name * @x: 32 bit mask
924*5113495bSYour Name *
925*5113495bSYour Name * Return: zero if the input is zero, otherwise returns the bit
926*5113495bSYour Name * position of the last set bit, where the LSB is 1 and MSB is 32.
927*5113495bSYour Name */
928*5113495bSYour Name static inline
qdf_fls(uint32_t x)929*5113495bSYour Name int qdf_fls(uint32_t x)
930*5113495bSYour Name {
931*5113495bSYour Name return __qdf_fls(x);
932*5113495bSYour Name }
933*5113495bSYour Name
934*5113495bSYour Name
935*5113495bSYour Name /**
936*5113495bSYour Name * qdf_ffs() - find first set bit in a given 32 bit input
937*5113495bSYour Name * @x: 32 bit mask
938*5113495bSYour Name *
939*5113495bSYour Name * Return: zero if the input is zero, otherwise returns the bit
940*5113495bSYour Name * position of the first set bit, where the LSB is 1 and MSB is 32.
941*5113495bSYour Name */
942*5113495bSYour Name static inline
qdf_ffs(uint32_t x)943*5113495bSYour Name int qdf_ffs(uint32_t x)
944*5113495bSYour Name {
945*5113495bSYour Name return __qdf_ffs(x);
946*5113495bSYour Name }
947*5113495bSYour Name
948*5113495bSYour Name /**
949*5113495bSYour Name * qdf_get_smp_processor_id() - Get the current CPU id
950*5113495bSYour Name *
951*5113495bSYour Name * Return: current CPU id
952*5113495bSYour Name */
qdf_get_smp_processor_id(void)953*5113495bSYour Name static inline int qdf_get_smp_processor_id(void)
954*5113495bSYour Name {
955*5113495bSYour Name return __qdf_get_smp_processor_id();
956*5113495bSYour Name }
957*5113495bSYour Name
958*5113495bSYour Name /**
959*5113495bSYour Name * qdf_in_atomic: Check whether current thread running in atomic context
960*5113495bSYour Name *
961*5113495bSYour Name * Return: true if current thread is running in the atomic context
962*5113495bSYour Name * else it will be return false.
963*5113495bSYour Name */
qdf_in_atomic(void)964*5113495bSYour Name static inline bool qdf_in_atomic(void)
965*5113495bSYour Name {
966*5113495bSYour Name return __qdf_in_atomic();
967*5113495bSYour Name }
968*5113495bSYour Name #endif /*_QDF_UTIL_H*/
969