1 /*
2 * Copyright (c) 2016, Freescale Semiconductor, Inc.
3 * Copyright 2017-2020 NXP
4 * All rights reserved.
5 *
6 *
7 * SPDX-License-Identifier: BSD-3-Clause
8 */
9
10 #ifndef _FSL_SPDIF_H_
11 #define _FSL_SPDIF_H_
12
13 #include "fsl_common.h"
14
15 /*!
16 * @addtogroup spdif
17 * @{
18 */
19
20 /*******************************************************************************
21 * Definitions
22 ******************************************************************************/
23
24 /*! @name Driver version */
25 /*@{*/
26 #define FSL_SPDIF_DRIVER_VERSION (MAKE_VERSION(2, 0, 6)) /*!< Version 2.0.6 */
27 /*@}*/
28
29 /*! @brief SPDIF return status*/
30 enum
31 {
32 kStatus_SPDIF_RxDPLLLocked = MAKE_STATUS(kStatusGroup_SPDIF, 0), /*!< SPDIF Rx PLL locked. */
33 kStatus_SPDIF_TxFIFOError = MAKE_STATUS(kStatusGroup_SPDIF, 1), /*!< SPDIF Tx FIFO error. */
34 kStatus_SPDIF_TxFIFOResync = MAKE_STATUS(kStatusGroup_SPDIF, 2), /*!< SPDIF Tx left and right FIFO resync. */
35 kStatus_SPDIF_RxCnew = MAKE_STATUS(kStatusGroup_SPDIF, 3), /*!< SPDIF Rx status channel value updated. */
36 kStatus_SPDIF_ValidatyNoGood = MAKE_STATUS(kStatusGroup_SPDIF, 4), /*!< SPDIF validaty flag not good. */
37 kStatus_SPDIF_RxIllegalSymbol = MAKE_STATUS(kStatusGroup_SPDIF, 5), /*!< SPDIF Rx receive illegal symbol. */
38 kStatus_SPDIF_RxParityBitError = MAKE_STATUS(kStatusGroup_SPDIF, 6), /*!< SPDIF Rx parity bit error. */
39 kStatus_SPDIF_UChannelOverrun = MAKE_STATUS(kStatusGroup_SPDIF, 7), /*!< SPDIF receive U channel overrun. */
40 kStatus_SPDIF_QChannelOverrun = MAKE_STATUS(kStatusGroup_SPDIF, 8), /*!< SPDIF receive Q channel overrun. */
41 kStatus_SPDIF_UQChannelSync = MAKE_STATUS(kStatusGroup_SPDIF, 9), /*!< SPDIF U/Q channel sync found. */
42 kStatus_SPDIF_UQChannelFrameError = MAKE_STATUS(kStatusGroup_SPDIF, 10), /*!< SPDIF U/Q channel frame error. */
43 kStatus_SPDIF_RxFIFOError = MAKE_STATUS(kStatusGroup_SPDIF, 11), /*!< SPDIF Rx FIFO error. */
44 kStatus_SPDIF_RxFIFOResync = MAKE_STATUS(kStatusGroup_SPDIF, 12), /*!< SPDIF Rx left and right FIFO resync. */
45 kStatus_SPDIF_LockLoss = MAKE_STATUS(kStatusGroup_SPDIF, 13), /*!< SPDIF Rx PLL clock lock loss. */
46 kStatus_SPDIF_TxIdle = MAKE_STATUS(kStatusGroup_SPDIF, 14), /*!< SPDIF Tx is idle */
47 kStatus_SPDIF_RxIdle = MAKE_STATUS(kStatusGroup_SPDIF, 15), /*!< SPDIF Rx is idle */
48 kStatus_SPDIF_QueueFull = MAKE_STATUS(kStatusGroup_SPDIF, 16) /*!< SPDIF queue full */
49 };
50
51 /*! @brief SPDIF Rx FIFO full falg select, it decides when assert the rx full flag */
52 typedef enum _spdif_rxfull_select
53 {
54 kSPDIF_RxFull1Sample = 0x0u, /*!< Rx full at least 1 sample in left and right FIFO */
55 kSPDIF_RxFull4Samples, /*!< Rx full at least 4 sample in left and right FIFO*/
56 kSPDIF_RxFull8Samples, /*!< Rx full at least 8 sample in left and right FIFO*/
57 kSPDIF_RxFull16Samples, /*!< Rx full at least 16 sample in left and right FIFO*/
58 } spdif_rxfull_select_t;
59
60 /*! @brief SPDIF tx FIFO EMPTY falg select, it decides when assert the tx empty flag */
61 typedef enum _spdif_txempty_select
62 {
63 kSPDIF_TxEmpty0Sample = 0x0u, /*!< Tx empty at most 0 sample in left and right FIFO */
64 kSPDIF_TxEmpty4Samples, /*!< Tx empty at most 4 sample in left and right FIFO*/
65 kSPDIF_TxEmpty8Samples, /*!< Tx empty at most 8 sample in left and right FIFO*/
66 kSPDIF_TxEmpty12Samples, /*!< Tx empty at most 12 sample in left and right FIFO*/
67 } spdif_txempty_select_t;
68
69 /*! @brief SPDIF U channel source */
70 typedef enum _spdif_uchannel_source
71 {
72 kSPDIF_NoUChannel = 0x0U, /*!< No embedded U channel */
73 kSPDIF_UChannelFromRx = 0x1U, /*!< U channel from receiver, it is CD mode */
74 kSPDIF_UChannelFromTx = 0x3U, /*!< U channel from on chip tx */
75 } spdif_uchannel_source_t;
76
77 /*! @brief SPDIF clock gain*/
78 typedef enum _spdif_gain_select
79 {
80 kSPDIF_GAIN_24 = 0x0U, /*!< Gain select is 24 */
81 kSPDIF_GAIN_16, /*!< Gain select is 16 */
82 kSPDIF_GAIN_12, /*!< Gain select is 12 */
83 kSPDIF_GAIN_8, /*!< Gain select is 8 */
84 kSPDIF_GAIN_6, /*!< Gain select is 6 */
85 kSPDIF_GAIN_4, /*!< Gain select is 4 */
86 kSPDIF_GAIN_3, /*!< Gain select is 3 */
87 } spdif_gain_select_t;
88
89 /*! @brief SPDIF tx data source */
90 typedef enum _spdif_tx_source
91 {
92 kSPDIF_txFromReceiver = 0x1U, /*!< Tx data directly through SPDIF receiver */
93 kSPDIF_txNormal = 0x5U, /*!< Normal operation, data from processor */
94 } spdif_tx_source_t;
95
96 /*! @brief SPDIF tx data source */
97 typedef enum _spdif_validity_config
98 {
99 kSPDIF_validityFlagAlwaysSet = 0x0U, /*!< Outgoing validity flags always set */
100 kSPDIF_validityFlagAlwaysClear, /*!< Outgoing validity flags always clear */
101 } spdif_validity_config_t;
102
103 /*! @brief The SPDIF interrupt enable flag */
104 enum
105 {
106 kSPDIF_RxDPLLLocked = SPDIF_SIE_LOCK_MASK, /*!< SPDIF DPLL locked */
107 kSPDIF_TxFIFOError = SPDIF_SIE_TXUNOV_MASK, /*!< Tx FIFO underrun or overrun */
108 kSPDIF_TxFIFOResync = SPDIF_SIE_TXRESYN_MASK, /*!< Tx FIFO left and right channel resync */
109 kSPDIF_RxControlChannelChange = SPDIF_SIE_CNEW_MASK, /*!< SPDIF Rx control channel value changed */
110 kSPDIF_ValidityFlagNoGood = SPDIF_SIE_VALNOGOOD_MASK, /*!< SPDIF validity flag no good */
111 kSPDIF_RxIllegalSymbol = SPDIF_SIE_SYMERR_MASK, /*!< SPDIF receiver found illegal symbol */
112 kSPDIF_RxParityBitError = SPDIF_SIE_BITERR_MASK, /*!< SPDIF receiver found parity bit error */
113 kSPDIF_UChannelReceiveRegisterFull = SPDIF_SIE_URXFUL_MASK, /*!< SPDIF U channel revceive register full */
114 kSPDIF_UChannelReceiveRegisterOverrun = SPDIF_SIE_URXOV_MASK, /*!< SPDIF U channel receive register overrun */
115 kSPDIF_QChannelReceiveRegisterFull = SPDIF_SIE_QRXFUL_MASK, /*!< SPDIF Q channel receive reigster full */
116 kSPDIF_QChannelReceiveRegisterOverrun = SPDIF_SIE_QRXOV_MASK, /*!< SPDIF Q channel receive register overrun */
117 kSPDIF_UQChannelSync = SPDIF_SIE_UQSYNC_MASK, /*!< SPDIF U/Q channel sync found */
118 kSPDIF_UQChannelFrameError = SPDIF_SIE_UQERR_MASK, /*!< SPDIF U/Q channel frame error */
119 kSPDIF_RxFIFOError = SPDIF_SIE_RXFIFOUNOV_MASK, /*!< SPDIF Rx FIFO underrun/overrun */
120 kSPDIF_RxFIFOResync = SPDIF_SIE_RXFIFORESYN_MASK, /*!< SPDIF Rx left and right FIFO resync */
121 kSPDIF_LockLoss = SPDIF_SIE_LOCKLOSS_MASK, /*!< SPDIF receiver loss of lock */
122 kSPDIF_TxFIFOEmpty = SPDIF_SIE_TXEM_MASK, /*!< SPDIF Tx FIFO empty */
123 kSPDIF_RxFIFOFull = SPDIF_SIE_RXFIFOFUL_MASK, /*!< SPDIF Rx FIFO full */
124 kSPDIF_AllInterrupt = kSPDIF_RxDPLLLocked | kSPDIF_TxFIFOError | kSPDIF_TxFIFOResync |
125 kSPDIF_RxControlChannelChange | kSPDIF_ValidityFlagNoGood | kSPDIF_RxIllegalSymbol |
126 kSPDIF_RxParityBitError | kSPDIF_UChannelReceiveRegisterFull |
127 kSPDIF_UChannelReceiveRegisterOverrun | kSPDIF_QChannelReceiveRegisterFull |
128 kSPDIF_QChannelReceiveRegisterOverrun | kSPDIF_UQChannelSync | kSPDIF_UQChannelFrameError |
129 kSPDIF_RxFIFOError | kSPDIF_RxFIFOResync | kSPDIF_LockLoss | kSPDIF_TxFIFOEmpty |
130 kSPDIF_RxFIFOFull, /*!< all interrupt */
131 };
132
133 /*! @brief The DMA request sources */
134 enum
135 {
136 kSPDIF_RxDMAEnable = SPDIF_SCR_DMA_RX_EN_MASK, /*!< Rx FIFO full */
137 kSPDIF_TxDMAEnable = SPDIF_SCR_DMA_TX_EN_MASK, /*!< Tx FIFO empty */
138 };
139
140 /*! @brief SPDIF user configuration structure */
141 typedef struct _spdif_config
142 {
143 bool isTxAutoSync; /*!< If auto sync mechanism open */
144 bool isRxAutoSync; /*!< If auto sync mechanism open */
145 uint8_t DPLLClkSource; /*!< SPDIF DPLL clock source, range from 0~15, meaning is chip-specific */
146 uint8_t txClkSource; /*!< SPDIF tx clock source, range from 0~7, meaning is chip-specific */
147 spdif_rxfull_select_t rxFullSelect; /*!< SPDIF rx buffer full select */
148 spdif_txempty_select_t txFullSelect; /*!< SPDIF tx buffer empty select */
149 spdif_uchannel_source_t uChannelSrc; /*!< U channel source */
150 spdif_tx_source_t txSource; /*!< SPDIF tx data source */
151 spdif_validity_config_t validityConfig; /*!< Validity flag config */
152 spdif_gain_select_t gain; /*!< Rx receive clock measure gain parameter. */
153 } spdif_config_t;
154
155 /*!@brief SPDIF transfer queue size, user can refine it according to use case. */
156 #define SPDIF_XFER_QUEUE_SIZE (4U)
157
158 /*! @brief SPDIF transfer structure */
159 typedef struct _spdif_transfer
160 {
161 uint8_t *data; /*!< Data start address to transfer. */
162 uint8_t *qdata; /*!< Data buffer for Q channel */
163 uint8_t *udata; /*!< Data buffer for C channel */
164 size_t dataSize; /*!< Transfer size. */
165 } spdif_transfer_t;
166
167 typedef struct _spdif_handle spdif_handle_t;
168
169 /*! @brief SPDIF transfer callback prototype */
170 typedef void (*spdif_transfer_callback_t)(SPDIF_Type *base, spdif_handle_t *handle, status_t status, void *userData);
171
172 /*! @brief SPDIF handle structure */
173 struct _spdif_handle
174 {
175 uint32_t state; /*!< Transfer status */
176 spdif_transfer_callback_t callback; /*!< Callback function called at transfer event*/
177 void *userData; /*!< Callback parameter passed to callback function*/
178 spdif_transfer_t spdifQueue[SPDIF_XFER_QUEUE_SIZE]; /*!< Transfer queue storing queued transfer */
179 size_t transferSize[SPDIF_XFER_QUEUE_SIZE]; /*!< Data bytes need to transfer */
180 volatile uint8_t queueUser; /*!< Index for user to queue transfer */
181 volatile uint8_t queueDriver; /*!< Index for driver to get the transfer data and size */
182 uint8_t watermark; /*!< Watermark value */
183 };
184
185 /*******************************************************************************
186 * API
187 ******************************************************************************/
188
189 #if defined(__cplusplus)
190 extern "C" {
191 #endif /*_cplusplus*/
192
193 /*!
194 * @name Initialization and deinitialization
195 * @{
196 */
197
198 /*!
199 * @brief Initializes the SPDIF peripheral.
200 *
201 * Ungates the SPDIF clock, resets the module, and configures SPDIF with a configuration structure.
202 * The configuration structure can be custom filled or set with default values by
203 * SPDIF_GetDefaultConfig().
204 *
205 * @note This API should be called at the beginning of the application to use
206 * the SPDIF driver. Otherwise, accessing the SPDIF module can cause a hard fault
207 * because the clock is not enabled.
208 *
209 * @param base SPDIF base pointer
210 * @param config SPDIF configuration structure.
211 */
212 void SPDIF_Init(SPDIF_Type *base, const spdif_config_t *config);
213
214 /*!
215 * @brief Sets the SPDIF configuration structure to default values.
216 *
217 * This API initializes the configuration structure for use in SPDIF_Init.
218 * The initialized structure can remain unchanged in SPDIF_Init, or it can be modified
219 * before calling SPDIF_Init.
220 * This is an example.
221 @code
222 spdif_config_t config;
223 SPDIF_GetDefaultConfig(&config);
224 @endcode
225 *
226 * @param config pointer to master configuration structure
227 */
228 void SPDIF_GetDefaultConfig(spdif_config_t *config);
229
230 /*!
231 * @brief De-initializes the SPDIF peripheral.
232 *
233 * This API gates the SPDIF clock. The SPDIF module can't operate unless SPDIF_Init is called to enable the clock.
234 *
235 * @param base SPDIF base pointer
236 */
237 void SPDIF_Deinit(SPDIF_Type *base);
238
239 /*!
240 * @brief Get the instance number for SPDIF.
241 *
242 * @param base SPDIF base pointer.
243 */
244 uint32_t SPDIF_GetInstance(SPDIF_Type *base);
245
246 /*!
247 * @brief Resets the SPDIF Tx.
248 *
249 * This function makes Tx FIFO in reset mode.
250 *
251 * @param base SPDIF base pointer
252 */
SPDIF_TxFIFOReset(SPDIF_Type * base)253 static inline void SPDIF_TxFIFOReset(SPDIF_Type *base)
254 {
255 base->SCR |= SPDIF_SCR_RXFIFO_RST_MASK;
256 }
257
258 /*!
259 * @brief Resets the SPDIF Rx.
260 *
261 * This function enables the software reset and FIFO reset of SPDIF Rx. After reset, clear the reset bit.
262 *
263 * @param base SPDIF base pointer
264 */
SPDIF_RxFIFOReset(SPDIF_Type * base)265 static inline void SPDIF_RxFIFOReset(SPDIF_Type *base)
266 {
267 base->SCR |= SPDIF_SCR_RXFIFO_RST_MASK;
268 }
269
270 /*!
271 * @brief Enables/disables the SPDIF Tx.
272 *
273 * @param base SPDIF base pointer
274 * @param enable True means enable SPDIF Tx, false means disable.
275 */
276 void SPDIF_TxEnable(SPDIF_Type *base, bool enable);
277
278 /*!
279 * @brief Enables/disables the SPDIF Rx.
280 *
281 * @param base SPDIF base pointer
282 * @param enable True means enable SPDIF Rx, false means disable.
283 */
SPDIF_RxEnable(SPDIF_Type * base,bool enable)284 static inline void SPDIF_RxEnable(SPDIF_Type *base, bool enable)
285 {
286 if (enable)
287 {
288 /* Open Rx FIFO */
289 base->SCR &= ~(SPDIF_SCR_RXFIFO_CTRL_MASK | SPDIF_SCR_RXFIFO_OFF_ON_MASK);
290 }
291 else
292 {
293 base->SCR |= SPDIF_SCR_RXFIFO_OFF_ON_MASK;
294 }
295 }
296
297 /*! @} */
298
299 /*!
300 * @name Status
301 * @{
302 */
303
304 /*!
305 * @brief Gets the SPDIF status flag state.
306 *
307 * @param base SPDIF base pointer
308 * @return SPDIF status flag value. Use the _spdif_interrupt_enable_t to get the status value needed.
309 */
SPDIF_GetStatusFlag(SPDIF_Type * base)310 static inline uint32_t SPDIF_GetStatusFlag(SPDIF_Type *base)
311 {
312 return base->SIS;
313 }
314
315 /*!
316 * @brief Clears the SPDIF status flag state.
317 *
318 * @param base SPDIF base pointer
319 * @param mask State mask. It can be a combination of the _spdif_interrupt_enable_t member. Notice these members
320 * cannot be included, as these flags cannot be cleared by writing 1 to these bits:
321 * @arg kSPDIF_UChannelReceiveRegisterFull
322 * @arg kSPDIF_QChannelReceiveRegisterFull
323 * @arg kSPDIF_TxFIFOEmpty
324 * @arg kSPDIF_RxFIFOFull
325 */
SPDIF_ClearStatusFlags(SPDIF_Type * base,uint32_t mask)326 static inline void SPDIF_ClearStatusFlags(SPDIF_Type *base, uint32_t mask)
327 {
328 base->SIC = mask;
329 }
330
331 /*! @} */
332
333 /*!
334 * @name Interrupts
335 * @{
336 */
337
338 /*!
339 * @brief Enables the SPDIF Tx interrupt requests.
340 *
341 * @param base SPDIF base pointer
342 * @param mask interrupt source
343 * The parameter can be a combination of the following sources if defined.
344 * @arg kSPDIF_WordStartInterruptEnable
345 * @arg kSPDIF_SyncErrorInterruptEnable
346 * @arg kSPDIF_FIFOWarningInterruptEnable
347 * @arg kSPDIF_FIFORequestInterruptEnable
348 * @arg kSPDIF_FIFOErrorInterruptEnable
349 */
SPDIF_EnableInterrupts(SPDIF_Type * base,uint32_t mask)350 static inline void SPDIF_EnableInterrupts(SPDIF_Type *base, uint32_t mask)
351 {
352 base->SIE |= mask;
353 }
354
355 /*!
356 * @brief Disables the SPDIF Tx interrupt requests.
357 *
358 * @param base SPDIF base pointer
359 * @param mask interrupt source
360 * The parameter can be a combination of the following sources if defined.
361 * @arg kSPDIF_WordStartInterruptEnable
362 * @arg kSPDIF_SyncErrorInterruptEnable
363 * @arg kSPDIF_FIFOWarningInterruptEnable
364 * @arg kSPDIF_FIFORequestInterruptEnable
365 * @arg kSPDIF_FIFOErrorInterruptEnable
366 */
SPDIF_DisableInterrupts(SPDIF_Type * base,uint32_t mask)367 static inline void SPDIF_DisableInterrupts(SPDIF_Type *base, uint32_t mask)
368 {
369 base->SIE &= ~mask;
370 }
371
372 /*! @} */
373
374 /*!
375 * @name DMA Control
376 * @{
377 */
378
379 /*!
380 * @brief Enables/disables the SPDIF DMA requests.
381 * @param base SPDIF base pointer
382 * @param mask SPDIF DMA enable mask, The parameter can be a combination of the following sources if defined
383 * @arg kSPDIF_RxDMAEnable
384 * @arg kSPDIF_TxDMAEnable
385 * @param enable True means enable DMA, false means disable DMA.
386 */
SPDIF_EnableDMA(SPDIF_Type * base,uint32_t mask,bool enable)387 static inline void SPDIF_EnableDMA(SPDIF_Type *base, uint32_t mask, bool enable)
388 {
389 if (enable)
390 {
391 base->SCR |= mask;
392 }
393 else
394 {
395 base->SCR &= ~mask;
396 }
397 }
398
399 /*!
400 * @brief Gets the SPDIF Tx left data register address.
401 *
402 * This API is used to provide a transfer address for the SPDIF DMA transfer configuration.
403 *
404 * @param base SPDIF base pointer.
405 * @return data register address.
406 */
SPDIF_TxGetLeftDataRegisterAddress(SPDIF_Type * base)407 static inline uint32_t SPDIF_TxGetLeftDataRegisterAddress(SPDIF_Type *base)
408 {
409 return (uint32_t)(&(base->STL));
410 }
411
412 /*!
413 * @brief Gets the SPDIF Tx right data register address.
414 *
415 * This API is used to provide a transfer address for the SPDIF DMA transfer configuration.
416 *
417 * @param base SPDIF base pointer.
418 * @return data register address.
419 */
SPDIF_TxGetRightDataRegisterAddress(SPDIF_Type * base)420 static inline uint32_t SPDIF_TxGetRightDataRegisterAddress(SPDIF_Type *base)
421 {
422 return (uint32_t)(&(base->STR));
423 }
424
425 /*!
426 * @brief Gets the SPDIF Rx left data register address.
427 *
428 * This API is used to provide a transfer address for the SPDIF DMA transfer configuration.
429 *
430 * @param base SPDIF base pointer.
431 * @return data register address.
432 */
SPDIF_RxGetLeftDataRegisterAddress(SPDIF_Type * base)433 static inline uint32_t SPDIF_RxGetLeftDataRegisterAddress(SPDIF_Type *base)
434 {
435 return (uint32_t)(&(base->SRL));
436 }
437
438 /*!
439 * @brief Gets the SPDIF Rx right data register address.
440 *
441 * This API is used to provide a transfer address for the SPDIF DMA transfer configuration.
442 *
443 * @param base SPDIF base pointer.
444 * @return data register address.
445 */
SPDIF_RxGetRightDataRegisterAddress(SPDIF_Type * base)446 static inline uint32_t SPDIF_RxGetRightDataRegisterAddress(SPDIF_Type *base)
447 {
448 return (uint32_t)(&(base->SRR));
449 }
450
451 /*! @} */
452
453 /*!
454 * @name Bus Operations
455 * @{
456 */
457
458 /*!
459 * @brief Configures the SPDIF Tx sample rate.
460 *
461 * The audio format can be changed at run-time. This function configures the sample rate.
462 *
463 * @param base SPDIF base pointer.
464 * @param sampleRate_Hz SPDIF sample rate frequency in Hz.
465 * @param sourceClockFreq_Hz SPDIF tx clock source frequency in Hz.
466 */
467 void SPDIF_TxSetSampleRate(SPDIF_Type *base, uint32_t sampleRate_Hz, uint32_t sourceClockFreq_Hz);
468
469 /*!
470 * @brief Configures the SPDIF Rx audio format.
471 *
472 * The audio format can be changed at run-time. This function configures the sample rate and audio data
473 * format to be transferred.
474 *
475 * @param base SPDIF base pointer.
476 * @param clockSourceFreq_Hz SPDIF system clock frequency in hz.
477 */
478 uint32_t SPDIF_GetRxSampleRate(SPDIF_Type *base, uint32_t clockSourceFreq_Hz);
479
480 /*!
481 * @brief Sends data using a blocking method.
482 *
483 * @note This function blocks by polling until data is ready to be sent.
484 *
485 * @param base SPDIF base pointer.
486 * @param buffer Pointer to the data to be written.
487 * @param size Bytes to be written.
488 */
489 void SPDIF_WriteBlocking(SPDIF_Type *base, uint8_t *buffer, uint32_t size);
490
491 /*!
492 * @brief Writes data into SPDIF FIFO.
493 *
494 * @param base SPDIF base pointer.
495 * @param data Data needs to be written.
496 */
SPDIF_WriteLeftData(SPDIF_Type * base,uint32_t data)497 static inline void SPDIF_WriteLeftData(SPDIF_Type *base, uint32_t data)
498 {
499 base->STL = data;
500 }
501
502 /*!
503 * @brief Writes data into SPDIF FIFO.
504 *
505 * @param base SPDIF base pointer.
506 * @param data Data needs to be written.
507 */
SPDIF_WriteRightData(SPDIF_Type * base,uint32_t data)508 static inline void SPDIF_WriteRightData(SPDIF_Type *base, uint32_t data)
509 {
510 base->STR = data;
511 }
512
513 /*!
514 * @brief Writes data into SPDIF FIFO.
515 *
516 * @param base SPDIF base pointer.
517 * @param data Data needs to be written.
518 */
SPDIF_WriteChannelStatusHigh(SPDIF_Type * base,uint32_t data)519 static inline void SPDIF_WriteChannelStatusHigh(SPDIF_Type *base, uint32_t data)
520 {
521 base->STCSCH = data;
522 }
523
524 /*!
525 * @brief Writes data into SPDIF FIFO.
526 *
527 * @param base SPDIF base pointer.
528 * @param data Data needs to be written.
529 */
SPDIF_WriteChannelStatusLow(SPDIF_Type * base,uint32_t data)530 static inline void SPDIF_WriteChannelStatusLow(SPDIF_Type *base, uint32_t data)
531 {
532 base->STCSCL = data;
533 }
534
535 /*!
536 * @brief Receives data using a blocking method.
537 *
538 * @note This function blocks by polling until data is ready to be sent.
539 *
540 * @param base SPDIF base pointer.
541 * @param buffer Pointer to the data to be read.
542 * @param size Bytes to be read.
543 */
544 void SPDIF_ReadBlocking(SPDIF_Type *base, uint8_t *buffer, uint32_t size);
545
546 /*!
547 * @brief Reads data from the SPDIF FIFO.
548 *
549 * @param base SPDIF base pointer.
550 * @return Data in SPDIF FIFO.
551 */
SPDIF_ReadLeftData(SPDIF_Type * base)552 static inline uint32_t SPDIF_ReadLeftData(SPDIF_Type *base)
553 {
554 return base->SRL;
555 }
556
557 /*!
558 * @brief Reads data from the SPDIF FIFO.
559 *
560 * @param base SPDIF base pointer.
561 * @return Data in SPDIF FIFO.
562 */
SPDIF_ReadRightData(SPDIF_Type * base)563 static inline uint32_t SPDIF_ReadRightData(SPDIF_Type *base)
564 {
565 return base->SRR;
566 }
567
568 /*!
569 * @brief Reads data from the SPDIF FIFO.
570 *
571 * @param base SPDIF base pointer.
572 * @return Data in SPDIF FIFO.
573 */
SPDIF_ReadChannelStatusHigh(SPDIF_Type * base)574 static inline uint32_t SPDIF_ReadChannelStatusHigh(SPDIF_Type *base)
575 {
576 return base->SRCSH;
577 }
578
579 /*!
580 * @brief Reads data from the SPDIF FIFO.
581 *
582 * @param base SPDIF base pointer.
583 * @return Data in SPDIF FIFO.
584 */
SPDIF_ReadChannelStatusLow(SPDIF_Type * base)585 static inline uint32_t SPDIF_ReadChannelStatusLow(SPDIF_Type *base)
586 {
587 return base->SRCSL;
588 }
589
590 /*!
591 * @brief Reads data from the SPDIF FIFO.
592 *
593 * @param base SPDIF base pointer.
594 * @return Data in SPDIF FIFO.
595 */
SPDIF_ReadQChannel(SPDIF_Type * base)596 static inline uint32_t SPDIF_ReadQChannel(SPDIF_Type *base)
597 {
598 return base->SRQ;
599 }
600
601 /*!
602 * @brief Reads data from the SPDIF FIFO.
603 *
604 * @param base SPDIF base pointer.
605 * @return Data in SPDIF FIFO.
606 */
SPDIF_ReadUChannel(SPDIF_Type * base)607 static inline uint32_t SPDIF_ReadUChannel(SPDIF_Type *base)
608 {
609 return base->SRU;
610 }
611
612 /*! @} */
613
614 /*!
615 * @name Transactional
616 * @{
617 */
618
619 /*!
620 * @brief Initializes the SPDIF Tx handle.
621 *
622 * This function initializes the Tx handle for the SPDIF Tx transactional APIs. Call
623 * this function once to get the handle initialized.
624 *
625 * @param base SPDIF base pointer
626 * @param handle SPDIF handle pointer.
627 * @param callback Pointer to the user callback function.
628 * @param userData User parameter passed to the callback function
629 */
630 void SPDIF_TransferTxCreateHandle(SPDIF_Type *base,
631 spdif_handle_t *handle,
632 spdif_transfer_callback_t callback,
633 void *userData);
634
635 /*!
636 * @brief Initializes the SPDIF Rx handle.
637 *
638 * This function initializes the Rx handle for the SPDIF Rx transactional APIs. Call
639 * this function once to get the handle initialized.
640 *
641 * @param base SPDIF base pointer.
642 * @param handle SPDIF handle pointer.
643 * @param callback Pointer to the user callback function.
644 * @param userData User parameter passed to the callback function.
645 */
646 void SPDIF_TransferRxCreateHandle(SPDIF_Type *base,
647 spdif_handle_t *handle,
648 spdif_transfer_callback_t callback,
649 void *userData);
650
651 /*!
652 * @brief Performs an interrupt non-blocking send transfer on SPDIF.
653 *
654 * @note This API returns immediately after the transfer initiates.
655 * Call the SPDIF_TxGetTransferStatusIRQ to poll the transfer status and check whether
656 * the transfer is finished. If the return status is not kStatus_SPDIF_Busy, the transfer
657 * is finished.
658 *
659 * @param base SPDIF base pointer.
660 * @param handle Pointer to the spdif_handle_t structure which stores the transfer state.
661 * @param xfer Pointer to the spdif_transfer_t structure.
662 * @retval kStatus_Success Successfully started the data receive.
663 * @retval kStatus_SPDIF_TxBusy Previous receive still not finished.
664 * @retval kStatus_InvalidArgument The input parameter is invalid.
665 */
666 status_t SPDIF_TransferSendNonBlocking(SPDIF_Type *base, spdif_handle_t *handle, spdif_transfer_t *xfer);
667
668 /*!
669 * @brief Performs an interrupt non-blocking receive transfer on SPDIF.
670 *
671 * @note This API returns immediately after the transfer initiates.
672 * Call the SPDIF_RxGetTransferStatusIRQ to poll the transfer status and check whether
673 * the transfer is finished. If the return status is not kStatus_SPDIF_Busy, the transfer
674 * is finished.
675 *
676 * @param base SPDIF base pointer
677 * @param handle Pointer to the spdif_handle_t structure which stores the transfer state.
678 * @param xfer Pointer to the spdif_transfer_t structure.
679 * @retval kStatus_Success Successfully started the data receive.
680 * @retval kStatus_SPDIF_RxBusy Previous receive still not finished.
681 * @retval kStatus_InvalidArgument The input parameter is invalid.
682 */
683 status_t SPDIF_TransferReceiveNonBlocking(SPDIF_Type *base, spdif_handle_t *handle, spdif_transfer_t *xfer);
684
685 /*!
686 * @brief Gets a set byte count.
687 *
688 * @param base SPDIF base pointer.
689 * @param handle Pointer to the spdif_handle_t structure which stores the transfer state.
690 * @param count Bytes count sent.
691 * @retval kStatus_Success Succeed get the transfer count.
692 * @retval kStatus_NoTransferInProgress There is not a non-blocking transaction currently in progress.
693 */
694 status_t SPDIF_TransferGetSendCount(SPDIF_Type *base, spdif_handle_t *handle, size_t *count);
695
696 /*!
697 * @brief Gets a received byte count.
698 *
699 * @param base SPDIF base pointer.
700 * @param handle Pointer to the spdif_handle_t structure which stores the transfer state.
701 * @param count Bytes count received.
702 * @retval kStatus_Success Succeed get the transfer count.
703 * @retval kStatus_NoTransferInProgress There is not a non-blocking transaction currently in progress.
704 */
705 status_t SPDIF_TransferGetReceiveCount(SPDIF_Type *base, spdif_handle_t *handle, size_t *count);
706
707 /*!
708 * @brief Aborts the current send.
709 *
710 * @note This API can be called any time when an interrupt non-blocking transfer initiates
711 * to abort the transfer early.
712 *
713 * @param base SPDIF base pointer.
714 * @param handle Pointer to the spdif_handle_t structure which stores the transfer state.
715 */
716 void SPDIF_TransferAbortSend(SPDIF_Type *base, spdif_handle_t *handle);
717
718 /*!
719 * @brief Aborts the current IRQ receive.
720 *
721 * @note This API can be called when an interrupt non-blocking transfer initiates
722 * to abort the transfer early.
723 *
724 * @param base SPDIF base pointer
725 * @param handle Pointer to the spdif_handle_t structure which stores the transfer state.
726 */
727 void SPDIF_TransferAbortReceive(SPDIF_Type *base, spdif_handle_t *handle);
728
729 /*!
730 * @brief Tx interrupt handler.
731 *
732 * @param base SPDIF base pointer.
733 * @param handle Pointer to the spdif_handle_t structure.
734 */
735 void SPDIF_TransferTxHandleIRQ(SPDIF_Type *base, spdif_handle_t *handle);
736
737 /*!
738 * @brief Tx interrupt handler.
739 *
740 * @param base SPDIF base pointer.
741 * @param handle Pointer to the spdif_handle_t structure.
742 */
743 void SPDIF_TransferRxHandleIRQ(SPDIF_Type *base, spdif_handle_t *handle);
744
745 /*! @} */
746
747 #if defined(__cplusplus)
748 }
749 #endif /*_cplusplus*/
750
751 /*! @} */
752
753 #endif /* _FSL_SPDIF_H_ */
754