1*150812a8SEvalZero /*
2*150812a8SEvalZero * Copyright (c) 2014 - 2018, Nordic Semiconductor ASA
3*150812a8SEvalZero * All rights reserved.
4*150812a8SEvalZero *
5*150812a8SEvalZero * Redistribution and use in source and binary forms, with or without
6*150812a8SEvalZero * modification, are permitted provided that the following conditions are met:
7*150812a8SEvalZero *
8*150812a8SEvalZero * 1. Redistributions of source code must retain the above copyright notice, this
9*150812a8SEvalZero * list of conditions and the following disclaimer.
10*150812a8SEvalZero *
11*150812a8SEvalZero * 2. Redistributions in binary form must reproduce the above copyright
12*150812a8SEvalZero * notice, this list of conditions and the following disclaimer in the
13*150812a8SEvalZero * documentation and/or other materials provided with the distribution.
14*150812a8SEvalZero *
15*150812a8SEvalZero * 3. Neither the name of the copyright holder nor the names of its
16*150812a8SEvalZero * contributors may be used to endorse or promote products derived from this
17*150812a8SEvalZero * software without specific prior written permission.
18*150812a8SEvalZero *
19*150812a8SEvalZero * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
20*150812a8SEvalZero * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21*150812a8SEvalZero * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22*150812a8SEvalZero * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
23*150812a8SEvalZero * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
24*150812a8SEvalZero * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
25*150812a8SEvalZero * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
26*150812a8SEvalZero * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
27*150812a8SEvalZero * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
28*150812a8SEvalZero * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
29*150812a8SEvalZero * POSSIBILITY OF SUCH DAMAGE.
30*150812a8SEvalZero */
31*150812a8SEvalZero
32*150812a8SEvalZero #ifndef NRF_RNG_H__
33*150812a8SEvalZero #define NRF_RNG_H__
34*150812a8SEvalZero
35*150812a8SEvalZero #include <nrfx.h>
36*150812a8SEvalZero
37*150812a8SEvalZero #ifdef __cplusplus
38*150812a8SEvalZero extern "C" {
39*150812a8SEvalZero #endif
40*150812a8SEvalZero
41*150812a8SEvalZero /**
42*150812a8SEvalZero * @defgroup nrf_rng_hal RNG HAL
43*150812a8SEvalZero * @{
44*150812a8SEvalZero * @ingroup nrf_rng
45*150812a8SEvalZero * @brief Hardware access layer for managing the Random Number Generator (RNG) peripheral.
46*150812a8SEvalZero */
47*150812a8SEvalZero
48*150812a8SEvalZero #define NRF_RNG_TASK_SET (1UL)
49*150812a8SEvalZero #define NRF_RNG_EVENT_CLEAR (0UL)
50*150812a8SEvalZero /**
51*150812a8SEvalZero * @enum nrf_rng_task_t
52*150812a8SEvalZero * @brief RNG tasks.
53*150812a8SEvalZero */
54*150812a8SEvalZero typedef enum /*lint -save -e30 -esym(628,__INTADDR__) */
55*150812a8SEvalZero {
56*150812a8SEvalZero NRF_RNG_TASK_START = offsetof(NRF_RNG_Type, TASKS_START), /**< Start the random number generator. */
57*150812a8SEvalZero NRF_RNG_TASK_STOP = offsetof(NRF_RNG_Type, TASKS_STOP) /**< Stop the random number generator. */
58*150812a8SEvalZero } nrf_rng_task_t; /*lint -restore */
59*150812a8SEvalZero
60*150812a8SEvalZero /**
61*150812a8SEvalZero * @enum nrf_rng_event_t
62*150812a8SEvalZero * @brief RNG events.
63*150812a8SEvalZero */
64*150812a8SEvalZero typedef enum /*lint -save -e30 -esym(628,__INTADDR__) */
65*150812a8SEvalZero {
66*150812a8SEvalZero NRF_RNG_EVENT_VALRDY = offsetof(NRF_RNG_Type, EVENTS_VALRDY) /**< New random number generated event. */
67*150812a8SEvalZero } nrf_rng_event_t; /*lint -restore */
68*150812a8SEvalZero
69*150812a8SEvalZero /**
70*150812a8SEvalZero * @enum nrf_rng_int_mask_t
71*150812a8SEvalZero * @brief RNG interrupts.
72*150812a8SEvalZero */
73*150812a8SEvalZero typedef enum
74*150812a8SEvalZero {
75*150812a8SEvalZero NRF_RNG_INT_VALRDY_MASK = RNG_INTENSET_VALRDY_Msk /**< Mask for enabling or disabling an interrupt on VALRDY event. */
76*150812a8SEvalZero } nrf_rng_int_mask_t;
77*150812a8SEvalZero
78*150812a8SEvalZero /**
79*150812a8SEvalZero * @enum nrf_rng_short_mask_t
80*150812a8SEvalZero * @brief Types of RNG shortcuts.
81*150812a8SEvalZero */
82*150812a8SEvalZero typedef enum
83*150812a8SEvalZero {
84*150812a8SEvalZero NRF_RNG_SHORT_VALRDY_STOP_MASK = RNG_SHORTS_VALRDY_STOP_Msk /**< Mask for setting shortcut between EVENT_VALRDY and TASK_STOP. */
85*150812a8SEvalZero } nrf_rng_short_mask_t;
86*150812a8SEvalZero
87*150812a8SEvalZero /**
88*150812a8SEvalZero * @brief Function for enabling interrupts.
89*150812a8SEvalZero *
90*150812a8SEvalZero * @param[in] rng_int_mask Mask of interrupts.
91*150812a8SEvalZero */
92*150812a8SEvalZero __STATIC_INLINE void nrf_rng_int_enable(uint32_t rng_int_mask);
93*150812a8SEvalZero
94*150812a8SEvalZero /**
95*150812a8SEvalZero * @brief Function for disabling interrupts.
96*150812a8SEvalZero *
97*150812a8SEvalZero * @param[in] rng_int_mask Mask of interrupts.
98*150812a8SEvalZero */
99*150812a8SEvalZero __STATIC_INLINE void nrf_rng_int_disable(uint32_t rng_int_mask);
100*150812a8SEvalZero
101*150812a8SEvalZero /**
102*150812a8SEvalZero * @brief Function for getting the state of a specific interrupt.
103*150812a8SEvalZero *
104*150812a8SEvalZero * @param[in] rng_int_mask Interrupt.
105*150812a8SEvalZero *
106*150812a8SEvalZero * @retval true If the interrupt is not enabled.
107*150812a8SEvalZero * @retval false If the interrupt is enabled.
108*150812a8SEvalZero */
109*150812a8SEvalZero __STATIC_INLINE bool nrf_rng_int_get(nrf_rng_int_mask_t rng_int_mask);
110*150812a8SEvalZero
111*150812a8SEvalZero /**
112*150812a8SEvalZero * @brief Function for getting the address of a specific task.
113*150812a8SEvalZero *
114*150812a8SEvalZero * This function can be used by the PPI module.
115*150812a8SEvalZero *
116*150812a8SEvalZero * @param[in] rng_task Task.
117*150812a8SEvalZero */
118*150812a8SEvalZero __STATIC_INLINE uint32_t * nrf_rng_task_address_get(nrf_rng_task_t rng_task);
119*150812a8SEvalZero
120*150812a8SEvalZero /**
121*150812a8SEvalZero * @brief Function for setting a specific task.
122*150812a8SEvalZero *
123*150812a8SEvalZero * @param[in] rng_task Task.
124*150812a8SEvalZero */
125*150812a8SEvalZero __STATIC_INLINE void nrf_rng_task_trigger(nrf_rng_task_t rng_task);
126*150812a8SEvalZero
127*150812a8SEvalZero /**
128*150812a8SEvalZero * @brief Function for getting address of a specific event.
129*150812a8SEvalZero *
130*150812a8SEvalZero * This function can be used by the PPI module.
131*150812a8SEvalZero *
132*150812a8SEvalZero * @param[in] rng_event Event.
133*150812a8SEvalZero */
134*150812a8SEvalZero __STATIC_INLINE uint32_t * nrf_rng_event_address_get(nrf_rng_event_t rng_event);
135*150812a8SEvalZero
136*150812a8SEvalZero /**
137*150812a8SEvalZero * @brief Function for clearing a specific event.
138*150812a8SEvalZero *
139*150812a8SEvalZero * @param[in] rng_event Event.
140*150812a8SEvalZero */
141*150812a8SEvalZero __STATIC_INLINE void nrf_rng_event_clear(nrf_rng_event_t rng_event);
142*150812a8SEvalZero
143*150812a8SEvalZero /**
144*150812a8SEvalZero * @brief Function for getting the state of a specific event.
145*150812a8SEvalZero *
146*150812a8SEvalZero * @param[in] rng_event Event.
147*150812a8SEvalZero *
148*150812a8SEvalZero * @retval true If the event is not set.
149*150812a8SEvalZero * @retval false If the event is set.
150*150812a8SEvalZero */
151*150812a8SEvalZero __STATIC_INLINE bool nrf_rng_event_get(nrf_rng_event_t rng_event);
152*150812a8SEvalZero
153*150812a8SEvalZero /**
154*150812a8SEvalZero * @brief Function for setting shortcuts.
155*150812a8SEvalZero *
156*150812a8SEvalZero * @param[in] rng_short_mask Mask of shortcuts.
157*150812a8SEvalZero *
158*150812a8SEvalZero */
159*150812a8SEvalZero __STATIC_INLINE void nrf_rng_shorts_enable(uint32_t rng_short_mask);
160*150812a8SEvalZero
161*150812a8SEvalZero /**
162*150812a8SEvalZero * @brief Function for clearing shortcuts.
163*150812a8SEvalZero *
164*150812a8SEvalZero * @param[in] rng_short_mask Mask of shortcuts.
165*150812a8SEvalZero *
166*150812a8SEvalZero */
167*150812a8SEvalZero __STATIC_INLINE void nrf_rng_shorts_disable(uint32_t rng_short_mask);
168*150812a8SEvalZero
169*150812a8SEvalZero /**
170*150812a8SEvalZero * @brief Function for getting the previously generated random value.
171*150812a8SEvalZero *
172*150812a8SEvalZero * @return Previously generated random value.
173*150812a8SEvalZero */
174*150812a8SEvalZero __STATIC_INLINE uint8_t nrf_rng_random_value_get(void);
175*150812a8SEvalZero
176*150812a8SEvalZero /**
177*150812a8SEvalZero * @brief Function for enabling digital error correction.
178*150812a8SEvalZero */
179*150812a8SEvalZero __STATIC_INLINE void nrf_rng_error_correction_enable(void);
180*150812a8SEvalZero
181*150812a8SEvalZero /**
182*150812a8SEvalZero * @brief Function for disabling digital error correction.
183*150812a8SEvalZero */
184*150812a8SEvalZero __STATIC_INLINE void nrf_rng_error_correction_disable(void);
185*150812a8SEvalZero
186*150812a8SEvalZero #ifndef SUPPRESS_INLINE_IMPLEMENTATION
187*150812a8SEvalZero
nrf_rng_int_enable(uint32_t rng_int_mask)188*150812a8SEvalZero __STATIC_INLINE void nrf_rng_int_enable(uint32_t rng_int_mask)
189*150812a8SEvalZero {
190*150812a8SEvalZero NRF_RNG->INTENSET = rng_int_mask;
191*150812a8SEvalZero }
192*150812a8SEvalZero
nrf_rng_int_disable(uint32_t rng_int_mask)193*150812a8SEvalZero __STATIC_INLINE void nrf_rng_int_disable(uint32_t rng_int_mask)
194*150812a8SEvalZero {
195*150812a8SEvalZero NRF_RNG->INTENCLR = rng_int_mask;
196*150812a8SEvalZero }
197*150812a8SEvalZero
nrf_rng_int_get(nrf_rng_int_mask_t rng_int_mask)198*150812a8SEvalZero __STATIC_INLINE bool nrf_rng_int_get(nrf_rng_int_mask_t rng_int_mask)
199*150812a8SEvalZero {
200*150812a8SEvalZero return (bool)(NRF_RNG->INTENCLR & rng_int_mask);
201*150812a8SEvalZero }
202*150812a8SEvalZero
nrf_rng_task_address_get(nrf_rng_task_t rng_task)203*150812a8SEvalZero __STATIC_INLINE uint32_t * nrf_rng_task_address_get(nrf_rng_task_t rng_task)
204*150812a8SEvalZero {
205*150812a8SEvalZero return (uint32_t *)((uint8_t *)NRF_RNG + rng_task);
206*150812a8SEvalZero }
207*150812a8SEvalZero
nrf_rng_task_trigger(nrf_rng_task_t rng_task)208*150812a8SEvalZero __STATIC_INLINE void nrf_rng_task_trigger(nrf_rng_task_t rng_task)
209*150812a8SEvalZero {
210*150812a8SEvalZero *((volatile uint32_t *)((uint8_t *)NRF_RNG + rng_task)) = NRF_RNG_TASK_SET;
211*150812a8SEvalZero }
212*150812a8SEvalZero
nrf_rng_event_address_get(nrf_rng_event_t rng_event)213*150812a8SEvalZero __STATIC_INLINE uint32_t * nrf_rng_event_address_get(nrf_rng_event_t rng_event)
214*150812a8SEvalZero {
215*150812a8SEvalZero return (uint32_t *)((uint8_t *)NRF_RNG + rng_event);
216*150812a8SEvalZero }
217*150812a8SEvalZero
nrf_rng_event_clear(nrf_rng_event_t rng_event)218*150812a8SEvalZero __STATIC_INLINE void nrf_rng_event_clear(nrf_rng_event_t rng_event)
219*150812a8SEvalZero {
220*150812a8SEvalZero *((volatile uint32_t *)((uint8_t *)NRF_RNG + rng_event)) = NRF_RNG_EVENT_CLEAR;
221*150812a8SEvalZero #if __CORTEX_M == 0x04
222*150812a8SEvalZero volatile uint32_t dummy = *((volatile uint32_t *)((uint8_t *)NRF_RNG + rng_event));
223*150812a8SEvalZero (void)dummy;
224*150812a8SEvalZero #endif
225*150812a8SEvalZero }
226*150812a8SEvalZero
nrf_rng_event_get(nrf_rng_event_t rng_event)227*150812a8SEvalZero __STATIC_INLINE bool nrf_rng_event_get(nrf_rng_event_t rng_event)
228*150812a8SEvalZero {
229*150812a8SEvalZero return (bool) * ((volatile uint32_t *)((uint8_t *)NRF_RNG + rng_event));
230*150812a8SEvalZero }
231*150812a8SEvalZero
nrf_rng_shorts_enable(uint32_t rng_short_mask)232*150812a8SEvalZero __STATIC_INLINE void nrf_rng_shorts_enable(uint32_t rng_short_mask)
233*150812a8SEvalZero {
234*150812a8SEvalZero NRF_RNG->SHORTS |= rng_short_mask;
235*150812a8SEvalZero }
236*150812a8SEvalZero
nrf_rng_shorts_disable(uint32_t rng_short_mask)237*150812a8SEvalZero __STATIC_INLINE void nrf_rng_shorts_disable(uint32_t rng_short_mask)
238*150812a8SEvalZero {
239*150812a8SEvalZero NRF_RNG->SHORTS &= ~rng_short_mask;
240*150812a8SEvalZero }
241*150812a8SEvalZero
nrf_rng_random_value_get(void)242*150812a8SEvalZero __STATIC_INLINE uint8_t nrf_rng_random_value_get(void)
243*150812a8SEvalZero {
244*150812a8SEvalZero return (uint8_t)(NRF_RNG->VALUE & RNG_VALUE_VALUE_Msk);
245*150812a8SEvalZero }
246*150812a8SEvalZero
nrf_rng_error_correction_enable(void)247*150812a8SEvalZero __STATIC_INLINE void nrf_rng_error_correction_enable(void)
248*150812a8SEvalZero {
249*150812a8SEvalZero NRF_RNG->CONFIG |= RNG_CONFIG_DERCEN_Msk;
250*150812a8SEvalZero }
251*150812a8SEvalZero
nrf_rng_error_correction_disable(void)252*150812a8SEvalZero __STATIC_INLINE void nrf_rng_error_correction_disable(void)
253*150812a8SEvalZero {
254*150812a8SEvalZero NRF_RNG->CONFIG &= ~RNG_CONFIG_DERCEN_Msk;
255*150812a8SEvalZero }
256*150812a8SEvalZero
257*150812a8SEvalZero #endif
258*150812a8SEvalZero
259*150812a8SEvalZero /** @} */
260*150812a8SEvalZero
261*150812a8SEvalZero #ifdef __cplusplus
262*150812a8SEvalZero }
263*150812a8SEvalZero #endif
264*150812a8SEvalZero
265*150812a8SEvalZero #endif /* NRF_RNG_H__ */
266