1 /*
2 * Copyright 2019-2021 NXP
3 * All rights reserved.
4 *
5 * SPDX-License-Identifier: BSD-3-Clause
6 */
7
8 #ifndef _FSL_ASRC_H_
9 #define _FSL_ASRC_H_
10
11 #include "fsl_common.h"
12
13 /*!
14 * @addtogroup asrc_driver
15 * @{
16 */
17
18 /*******************************************************************************
19 * Definitions
20 ******************************************************************************/
21
22 /*! @name Driver version */
23 /*@{*/
24 #define FSL_ASRC_DRIVER_VERSION (MAKE_VERSION(2, 0, 6)) /*!< Version 2.0.6 */
25 /*@}*/
26
27 /*! @brief ASRC fifo depth */
28 #define FSL_ASRC_INPUT_FIFO_DEPTH (128U)
29 #define FSL_ASRC_OUTPUT_FIFO_DEPTH (64U)
30 /*! @brief ASRC support maximum channel number of context */
31 #define ASRC_SUPPORT_MAXIMUM_CONTEXT_PROCESSOR_NUMBER 4U
32
33 /*! @brief ASRC return status, _asrc_status*/
34 enum
35 {
36 kStatus_ASRCIdle = MAKE_STATUS(kStatusGroup_ASRC, 0), /*!< ASRC is idle. */
37 kStatus_ASRCBusy = MAKE_STATUS(kStatusGroup_ASRC, 1), /*!< ASRC is busy. */
38 kStatus_ASRCInvalidArgument = MAKE_STATUS(kStatusGroup_ASRC, 2), /*!< ASRC invalid argument. */
39 kStatus_ASRCConfigureFailed = MAKE_STATUS(kStatusGroup_ASRC, 3), /*!< ASRC configure failed */
40 kStatus_ASRCConvertError = MAKE_STATUS(kStatusGroup_ASRC, 4), /*!< ASRC convert error failed */
41 kStatus_ASRCNotSupport = MAKE_STATUS(kStatusGroup_ASRC, 5), /*!< ASRC not support */
42 kStatus_ASRCQueueFull = MAKE_STATUS(kStatusGroup_ASRC, 6), /*!< ASRC queue full */
43 kStatus_ASRCQueueIdle = MAKE_STATUS(kStatusGroup_ASRC, 7), /*!< ASRC quue idle */
44 kStatus_ASRCLoadFirmwareFailed = MAKE_STATUS(kStatusGroup_ASRC, 8), /*!< ASRC load firmware failed*/
45 kStatus_ASRCResamplerConfigureFailed = MAKE_STATUS(kStatusGroup_ASRC, 9), /*!< ASRC resampler configured failed */
46 kStatus_ASRCPrefilterConfigureFailed = MAKE_STATUS(kStatusGroup_ASRC, 10), /*!< ASRC prefilter configured failed */
47 };
48
49 /*! @brief asrc context id */
50 typedef enum _asrc_context
51 {
52 kASRC_Context0 = 0, /*!< Context 0 value */
53 kASRC_Context1 = 1, /*!< Context 1 value */
54 kASRC_Context2 = 2, /*!< Context 2 value */
55 kASRC_Context3 = 3, /*!< Context 3 value */
56 } asrc_context_t;
57
58 /*! @brief The ASRC interrupt enable flag, _asrc_interrupt_mask*/
59 enum
60 {
61 kASRC_Context0InputFifoOverflow = 1U, /*!< context 0 input fifo overflow */
62 kASRC_Context1InputFifoOverflow = 1U << 1U, /*!< context 1 input fifo overflow */
63 kASRC_Context2InputFifoOverflow = 1U << 2U, /*!< context 2 input fifo overflow */
64 kASRC_Context3InputFifoOverflow = 1U << 3U, /*!< context 3 input fifo overflow */
65
66 kASRC_Context0OutFifoReadEmpty = 1U << 4U, /*!< context 0 out fifo read empty */
67 kASRC_Context1OutFifoReadEmpty = 1U << 5U, /*!< context 1 out fifo read empty */
68 kASRC_Context2OutFifoReadEmpty = 1U << 6U, /*!< context 2 out fifo read empty */
69 kASRC_Context3OutFifoReadEmpty = 1U << 7U, /*!< context 3 out fifo read empty */
70
71 kASRC_Context0RunStopDone = 1U << 8U, /*!< context 0 run stop done interrupt */
72 kASRC_Context1RunStopDone = 1U << 9U, /*!< context 1 run stop done interrupt */
73 kASRC_Context2RunStopDone = 1U << 10U, /*!< context 2 run stop done interrupt */
74 kASRC_Context3RunStopDone = 1U << 11U, /*!< context 3 run stop done interrupt */
75 kASRC_ContextAllInterruptStatus = 0xFFFU, /*!< all the context interrupt status */
76 };
77
78 /*! @brief ASRC fifo status, _asrc_fifo_status*/
79 enum
80 {
81 kASRC_FifoStatusInputFifoWatermarkFlag =
82 ASRC_SAMPLE_FIFO_STATUS_INFIFO_WTMK_MASK, /*!< input water mark flag raised */
83 kASRC_FifoStatusOutputFifoWatermarkFlag =
84 ASRC_SAMPLE_FIFO_STATUS_OUTFIFO_WTMK_MASK, /*!< output water mark flag raised */
85 };
86
87 /*! @brief arsc data endianness */
88 typedef enum _asrc_data_endianness
89 {
90 kASRC_DataEndianLittle = 0U, /*!< context data little endian */
91 kASRC_DataEndianBig = 1U, /*!< context data big endian */
92 } asrc_data_endianness_t;
93
94 /*! @brief data width */
95 typedef enum _asrc_data_width
96 {
97 kASRC_DataWidth32Bit = 3U, /*!< data width 32bit */
98 kASRC_DataWidth24Bit = 2U, /*!< data width 24bit */
99 kASRC_DataWidth20Bit = 1U, /*!< data width 20bit */
100 kASRC_DataWidth16Bit = 0U, /*!< data width 16bit */
101 } asrc_data_width_t;
102
103 /*! @brief data type */
104 typedef enum _asrc_data_type
105 {
106 kASRC_DataTypeInteger = 0U, /*!< data type int */
107 kASRC_DataTypeFloat = 1U, /*!< data type float, single precision floating point format */
108 } asrc_data_type_t;
109
110 /*! @brief sign extension */
111 typedef enum _asrc_data_sign
112 {
113 kASRC_DataSigned = 0U, /*!< input data is signed */
114 kASRC_DataUnsigned = 1U, /*!< input data is unsinged */
115 } asrc_data_sign_t;
116
117 /*! @brief asrc prefilter and resampler sample buffer init mode */
118 typedef enum _asrc_sampleBuffer_init_mode
119 {
120 kASRC_SampleBufferNoPreFillOnInit = 0U, /*!< do not pre-fill */
121 kASRC_SampleBufferFillFirstSampleOnInit =
122 1U, /*!< replicate the first sample to fill the right half of the sample buffer */
123 kASRC_SampleBufferFillZeroOnInit = 2U, /*!< zero fill the right half og the sample buffer */
124 } asrc_sampleBuffer_init_mode_t;
125
126 /*! @brief asrc prefilter and resampler sample buffer stop mode */
127 typedef enum _asrc_sampleBuffer_stop_mode
128 {
129 kASRC_SampleBufferFillLastSampleOnStop =
130 0U, /*!< replicate the last sample to fill the left half of the sample buffer */
131 kASRC_SampleBufferFillZeroOnStop = 1U, /*!< zero fill the left half of the sample buffer */
132 } asrc_sampleBuffer_stop_mode_t;
133
134 /*! @brief ASRC prefilter stage1 result format */
135 typedef enum _asrc_prefilter_stage1_result
136 {
137 kASRC_PrefilterStage1ResultInt = 0U, /*!< prefilter stage1 results are stored in 32 bit int format */
138 kASRC_PrefilterStage1ResultFloat = 1U, /*!< prefilter stage1 results are stored in 32 bit float format */
139 } asrc_prefilter_stage1_result_t;
140
141 /*! @brief ASRC resampler taps */
142 typedef enum _asrc_resampler_taps
143 {
144 kASRC_ResamplerTaps_32 = 32U, /*!< resampler taps 32 */
145 kASRC_ResamplerTaps_64 = 64U, /*!< resampler taps 64 */
146 kASRC_ResamplerTaps_128 = 128U, /*!< resampler taps 128 */
147 } asrc_resampler_taps_t;
148
149 /*! @brief ASRC support sample rate, _asrc_sample_rate */
150 enum
151 {
152 kASRC_SampleRate_8000 = 8000, /*!< 8K sample rate */
153 kASRC_SampleRate_11025 = 11025, /*!< 11025 sample rate */
154 kASRC_SampleRate_12000 = 12000, /*!< 12K sample rate */
155 kASRC_SampleRate_16000 = 16000, /*!< 16K sample rate */
156 kASRC_SampleRate_22050 = 22050, /*!< 22.05K sample rate */
157 kASRC_SampleRate_24000 = 24000, /*!< 24K sample rate */
158 kASRC_SampleRate_32000 = 32000, /*!< 32K sample rate */
159 kASRC_SampleRate_44100 = 44100, /*!< 44.1K sample rate */
160 kASRC_SampleRate_48000 = 48000, /*!< 48K sample rate */
161 kASRC_SampleRate_64000 = 64000, /*!< 64K sample rate */
162 kASRC_SampleRate_88200 = 88200, /*!< 88.2K sample rate */
163 kASRC_SampleRate_96000 = 96000, /*!< 96K sample rate */
164 kASRC_SampleRate_128000 = 128000, /*!< 128K sample rate */
165 kASRC_SampleRate_176400 = 176400, /*!< 176K sample rate */
166 kASRC_SampleRate_192000 = 192000, /*!< 256K sample rate */
167 kASRC_SampleRate_256000 = 256000, /*!< 256K sample rate */
168 kASRC_SampleRate_352800 = 352800, /*!< 352.8K sample rate */
169 kASRC_SampleRate_384000 = 384000, /*!< 384K sample rate */
170 kASRC_SampleRate_768000 = 768000, /*!< 768K sample rate */
171 };
172
173 /*! @brief asrc context data format */
174 typedef struct _asrc_data_format
175 {
176 uint8_t dataPosition; /*!< context input data sample position */
177 asrc_data_endianness_t dataEndianness; /*!< context input data endianness */
178 asrc_data_width_t dataWidth; /*!< context input data width */
179 asrc_data_type_t dataType; /*!< context input data type */
180 asrc_data_sign_t dataSign; /*!< context input data signed or unsigned */
181 } asrc_data_format_t;
182
183 /*! @brief asrc context access control
184 * The ASRC provides interleaving support in hardware to ensure that a variety of sample source can be internally
185 * combined tp confir with this format. The interleave patter is controlled using 3 register fields: GROUP_LENGTH,
186 * ACCESS_LENGTH, ITERATIONIS. This is intended to support hardware configurations which distribute a single context
187 * across samples from multiple audio sources. Take a example as below: accessGroupLen = 6, the sample group length is 6
188 * samples accessIterations = 2, the 2 sequential ACCESS_LENGTH read from single source accessLen = 2, the 2 samples
189 * fetch from one source.
190 */
191 typedef struct _asrc_access_ctrl
192 {
193 uint8_t accessIterations; /*!< number of sequential fetches per source */
194 uint8_t accessGroupLen; /*!< number of channels in a context */
195 uint8_t accessLen; /*!< number of channels per source1 */
196 } asrc_access_ctrl_t;
197
198 /*! @brief asrc context input configuration */
199 typedef struct _asrc_context_input_config
200 {
201 uint32_t sampleRate; /*!< input audio data sample rate */
202 uint8_t watermark; /*!< input water mark per samples */
203 asrc_access_ctrl_t accessCtrl; /*!< input access control */
204 asrc_data_format_t dataFormat; /*!< input data format */
205 } asrc_context_input_config_t;
206
207 /*! @brief asrc context output configuration */
208 typedef struct _asrc_context_output_config
209 {
210 uint32_t sampleRate; /*!< output audio data sample rate */
211 uint8_t watermark; /*!< output water mark per samples */
212 asrc_access_ctrl_t accessCtrl; /*!< output access control */
213 asrc_data_format_t dataFormat; /*!< output data format */
214 bool enableDither; /*!< output path contains a TPDF dither function. The dither function support all fixed output
215 modes(16, 20, 24, 32bits) dither is not supported in 32bit floating point output mode */
216 bool enableIEC60958; /*!< output IEC60958 bit field insertion enable */
217 } asrc_context_output_config_t;
218
219 /*! @brief asrc context prefilter configuration */
220 typedef struct _asrc_context_prefilter_config
221 {
222 asrc_sampleBuffer_init_mode_t initMode; /*!< prefilter initial mode */
223 asrc_sampleBuffer_stop_mode_t stopMode; /*!< prefilter stop mode */
224 asrc_prefilter_stage1_result_t stage1Result; /*!< stage1 data store format */
225 /*
226 * applciation can untouch below configuration by set filterCoeffAddress to NULL , driver will load it from the
227 * driver firmware table, otherwise driver will use the value directly.
228 */
229 uint32_t filterSt1Taps; /*!< prefilter stage1 taps */
230 uint32_t filterSt2Taps; /*!< prefilter stage2 taps */
231 uint32_t filterSt1Exp; /*!< prefilter stage1 expansion factor */
232 const uint32_t *filterCoeffAddress; /*!< prefilter coeff address */
233 } asrc_context_prefilter_config_t;
234
235 /*! @brief asrc context resampler configuration */
236 typedef struct _asrc_context_resampler_config
237 {
238 asrc_sampleBuffer_init_mode_t initMode; /*!< initial mode */
239 asrc_sampleBuffer_stop_mode_t stopMode; /*!< resampler stop mode */
240 asrc_resampler_taps_t tap; /*!< resampleer taps */
241 /*
242 * applciation can untouch below configuration by set filterCoeffAddress to NULL , driver will load it from the
243 * driver firmware table, otherwise driver will use the value directly.
244 */
245 uint32_t filterPhases; /*!< interpolation phases */
246 uint64_t filterCenterTap; /*!< interpolation center tap */
247 const uint32_t *filterCoeffAddress; /*!< interpolation coeff address */
248 } asrc_context_resampler_config_t;
249
250 /*! @brief asrc context configuration */
251 typedef struct _asrc_context_config
252 {
253 uint8_t contextChannelNums; /*!< context channel numbers */
254 asrc_context_input_config_t contextInput; /*!< context input configuration */
255 asrc_context_output_config_t contextOutput; /*!< context output configuration */
256 asrc_context_prefilter_config_t contextPrefilter; /*!< context pre filter configuration */
257 asrc_context_resampler_config_t contextResampler; /*!< context resampler configuration */
258 } asrc_context_config_t;
259
260 /*! @brief ASRC transfer */
261 typedef struct _asrc_transfer
262 {
263 uint32_t *inDataAddr; /*!< address of audio data to be converted */
264 uint32_t inDataSize; /*!< size of the audio data */
265 uint32_t *outDataAddr; /*!< address of audio data that is been converted */
266 uint32_t outDataSize; /*!< size of the audio data */
267 } asrc_transfer_t;
268 /*******************************************************************************
269 * API
270 ******************************************************************************/
271
272 #if defined(__cplusplus)
273 extern "C" {
274 #endif /*_cplusplus*/
275
276 /*!
277 * @name Initialization and deinitialization
278 * @{
279 */
280
281 /*!
282 * @brief Get instance number of the ASRC peripheral.
283 *
284 * @param base ASRC base pointer.
285 */
286 uint32_t ASRC_GetInstance(ASRC_Type *base);
287
288 /*!
289 * brief Initializes the asrc peripheral.
290 *
291 * This API gates the asrc clock. The asrc module can't operate unless ASRC_Init is called to enable the clock.
292 *
293 * param base asrc base pointer.
294 */
295 void ASRC_Init(ASRC_Type *base);
296
297 /*!
298 * @brief De-initializes the ASRC peripheral.
299 *
300 * This API gates the ASRC clock and disable ASRC module. The ASRC module can't operate unless ASRC_Init
301 *
302 * @param base ASRC base pointer.
303 */
304 void ASRC_Deinit(ASRC_Type *base);
305
306 /*!
307 * @brief ASRC get context default configuration.
308 *
309 * @param config ASRC context configuration pointer.
310 * @param channels input audio data channel numbers.
311 * @param inSampleRate input sample rate.
312 * @param outSampleRate output sample rate.
313 */
314 void ASRC_GetContextDefaultConfig(asrc_context_config_t *config,
315 uint32_t channels,
316 uint32_t inSampleRate,
317 uint32_t outSampleRate);
318
319 /*!
320 * @brief ASRC configure context.
321 *
322 * @param base ASRC base pointer.
323 * @param context index of asrc context, reference asrc_context_t.
324 * @param config ASRC context configuration pointer.
325 * @retval kStatus_InvalidArgument invalid parameters.
326 * kStatus_ASRCConfigureFailed context configure failed.
327 * kStatus_Success context configure success.
328 */
329 status_t ASRC_SetContextConfig(ASRC_Type *base, asrc_context_t context, asrc_context_config_t *config);
330
331 /*!
332 * @brief ASRC configure context output.
333 *
334 * @param base ASRC base pointer.
335 * @param context index of asrc context, reference asrc_context_t.
336 * @param config ASRC context output configuration pointer.
337 */
338 status_t ASRC_SetContextOutputConfig(ASRC_Type *base, asrc_context_t context, asrc_context_output_config_t *config);
339
340 /*!
341 * @brief ASRC configure context input.
342 *
343 * @param base ASRC base pointer.
344 * @param context index of asrc context, reference asrc_context_t.
345 * @param config ASRC context input configuration pointer.
346 */
347 status_t ASRC_SetContextInputConfig(ASRC_Type *base, asrc_context_t context, asrc_context_input_config_t *config);
348
349 /*!
350 * @brief ASRC context enable run.
351 * All control fileds associated with a context must be stable prior to setting context run enable.
352 *
353 * @param base ASRC base pointer.
354 * @param context ASRC context index.
355 * @param enable true is enable, inform the datapath begin processing sample data for the context.
356 * false is disable, data processing will halt immediately.
357 */
ASRC_EnableContextRun(ASRC_Type * base,asrc_context_t context,bool enable)358 static inline void ASRC_EnableContextRun(ASRC_Type *base, asrc_context_t context, bool enable)
359 {
360 if (enable)
361 {
362 base->CTX_CTRL[context] |= ASRC_CTX_CTRL_RUN_EN_MASK;
363 }
364 else
365 {
366 base->CTX_CTRL[context] &= ~ASRC_CTX_CTRL_RUN_EN_MASK;
367 }
368 }
369
370 /*!
371 * @brief ASRC context enable run stop.
372 * This function used to flush the ASRC pipeline and completely end processing for a context.
373 *
374 * @param base ASRC base pointer.
375 * @param context ASRC context index.
376 * @param enable true is enable, false is disable.
377 */
ASRC_EnableContextRunStop(ASRC_Type * base,asrc_context_t context,bool enable)378 static inline void ASRC_EnableContextRunStop(ASRC_Type *base, asrc_context_t context, bool enable)
379 {
380 if (enable)
381 {
382 base->CTX_CTRL[context] |= ASRC_CTX_CTRL_RUN_STOP_MASK;
383 }
384 else
385 {
386 base->CTX_CTRL[context] &= ~ASRC_CTX_CTRL_RUN_STOP_MASK;
387 }
388 }
389
390 /*!
391 * @brief ASRC context input DMA request enable.
392 *
393 * @param base ASRC base pointer.
394 * @param context ASRC context index.
395 * @param enable true is enable, false is disable.
396 */
ASRC_EnableContextInDMA(ASRC_Type * base,asrc_context_t context,bool enable)397 static inline void ASRC_EnableContextInDMA(ASRC_Type *base, asrc_context_t context, bool enable)
398 {
399 if (enable)
400 {
401 base->CTX_CTRL[context] |= ASRC_CTX_CTRL_FWMDE_MASK;
402 }
403 else
404 {
405 base->CTX_CTRL[context] &= ~ASRC_CTX_CTRL_FWMDE_MASK;
406 }
407 }
408
409 /*!
410 * @brief ASRC context output DMA request enable.
411 *
412 * @param base ASRC base pointer.
413 * @param context ASRC context index.
414 * @param enable true is enable, false is disable.
415 */
ASRC_EnableContextOutDMA(ASRC_Type * base,asrc_context_t context,bool enable)416 static inline void ASRC_EnableContextOutDMA(ASRC_Type *base, asrc_context_t context, bool enable)
417 {
418 if (enable)
419 {
420 base->CTX_OUT_CTRL[context] |= ASRC_CTX_OUT_CTRL_FWMDE_MASK;
421 }
422 else
423 {
424 base->CTX_OUT_CTRL[context] &= ~ASRC_CTX_OUT_CTRL_FWMDE_MASK;
425 }
426 }
427
428 /*!
429 * @brief ASRC prefilter bypass mode
430 * This function enable or disable the ASRC prefilter bypass mode.
431 *
432 * @param base ASRC peripheral base address.
433 * @param context context processor number.
434 * @param bypass true is bypass, false is normal mode.
435 */
ASRC_EnablePreFilterBypass(ASRC_Type * base,asrc_context_t context,bool bypass)436 static inline void ASRC_EnablePreFilterBypass(ASRC_Type *base, asrc_context_t context, bool bypass)
437 {
438 if (bypass)
439 {
440 base->CTX_CTRL_EXT1[context] |= ASRC_CTX_CTRL_EXT1_PF_BYPASS_MODE_MASK;
441 base->CTX_CTRL_EXT1[context] &= ~ASRC_CTX_CTRL_EXT1_PF_EXPANSION_FACTOR_MASK;
442 base->CTX_CTRL_EXT2[context] &= ~ASRC_CTX_CTRL_EXT2_ST1_NUM_TAPS_MASK;
443 }
444 else
445 {
446 base->CTX_CTRL_EXT1[context] &= ~ASRC_CTX_CTRL_EXT1_PF_BYPASS_MODE_MASK;
447 }
448 }
449
450 /*!
451 * @brief ASRC resampler bypass mode
452 * This function enable or disable the ASRC resampler bypass mode.
453 *
454 * @param base ASRC peripheral base address.
455 * @param context context processor number.
456 * @param bypass true is bypass, false is normal mode.
457 */
ASRC_EnableResamplerBypass(ASRC_Type * base,asrc_context_t context,bool bypass)458 static inline void ASRC_EnableResamplerBypass(ASRC_Type *base, asrc_context_t context, bool bypass)
459 {
460 if (bypass)
461 {
462 base->CTX_CTRL_EXT1[context] |= ASRC_CTX_CTRL_EXT1_RS_BYPASS_MODE_MASK;
463 }
464 else
465 {
466 base->CTX_CTRL_EXT1[context] &= ~ASRC_CTX_CTRL_EXT1_RS_BYPASS_MODE_MASK;
467 }
468 }
469
470 /*!
471 * @brief ASRC set context channel number.
472 * Note: The maximum channel number in one context can not exceed 32.
473 *
474 * @param base ASRC peripheral base address.
475 * @param context context number.
476 * @param channels channel number, should <= 32.
477 */
ASRC_SetContextChannelNumber(ASRC_Type * base,asrc_context_t context,uint32_t channels)478 static inline void ASRC_SetContextChannelNumber(ASRC_Type *base, asrc_context_t context, uint32_t channels)
479 {
480 base->CTX_CTRL[context] &= ~ASRC_CTX_CTRL_NUM_CH_EN_MASK;
481 base->CTX_CTRL[context] |= ASRC_CTX_CTRL_NUM_CH_EN(channels - 1U);
482 }
483
484 /*!
485 * @brief ASRC get output sample count.
486 *
487 * @param inSampleRate output sample rate.
488 * @param inSamplesSize input sample rate.
489 * @param inWidth input samples buffer size, the size of buffer should be converted to align with 4 byte .
490 * @param outSampleRate input sample width.
491 * @param outWidth Output width.
492 * @retval output samples size.
493 */
494 uint32_t ASRC_GetContextOutSampleSize(
495 uint32_t inSampleRate, uint32_t inSamplesSize, uint32_t inWidth, uint32_t outSampleRate, uint32_t outWidth);
496
497 /*! @} */
498
499 /*!
500 * @name Interrupts
501 * @{
502 */
503
504 /*!
505 * @brief ASRC interrupt enable
506 * This function enable the ASRC interrupt with the provided mask.
507 *
508 * @param base ASRC peripheral base address.
509 * @param mask The interrupts to enable. Logical OR of _asrc_interrupt_mask.
510 */
ASRC_EnableInterrupt(ASRC_Type * base,uint32_t mask)511 static inline void ASRC_EnableInterrupt(ASRC_Type *base, uint32_t mask)
512 {
513 base->IRQ_CTRL &= ~mask;
514 }
515
516 /*!
517 * @brief ASRC interrupt disable
518 * This function disable the ASRC interrupt with the provided mask.
519 *
520 * @param base ASRC peripheral base address.
521 * @param mask The interrupts to disable. Logical OR of _asrc_interrupt_mask.
522 */
ASRC_DisableInterrupt(ASRC_Type * base,uint32_t mask)523 static inline void ASRC_DisableInterrupt(ASRC_Type *base, uint32_t mask)
524 {
525 base->IRQ_CTRL |= mask;
526 }
527 /*! @} */
528
529 /*!
530 * @name Status
531 * @{
532 */
533
534 /*!
535 * @brief Gets the ASRC interrupt status flag state.
536 *
537 * @param base ASRC base pointer
538 * @return ASRC Tx status flag value. Use the Status Mask to get the status value needed.
539 */
ASRC_GetInterruptStatus(ASRC_Type * base)540 static inline uint32_t ASRC_GetInterruptStatus(ASRC_Type *base)
541 {
542 return base->IRQ_FLAGS;
543 }
544
545 /*!
546 * @brief clear the ASRC interrupt status flag state.
547 *
548 * @param base ASRC base pointer
549 * @param status status flag to be cleared.
550 */
ASRC_ClearInterruptStatus(ASRC_Type * base,uint32_t status)551 static inline void ASRC_ClearInterruptStatus(ASRC_Type *base, uint32_t status)
552 {
553 base->IRQ_FLAGS |= status;
554 }
555
556 /*!
557 * @brief Gets the ASRC fifo status flag.
558 *
559 * @param base ASRC base pointer
560 * @param context context id
561 */
ASRC_GetFifoStatus(ASRC_Type * base,asrc_context_t context)562 static inline uint32_t ASRC_GetFifoStatus(ASRC_Type *base, asrc_context_t context)
563 {
564 return (uint32_t)(base->SAMPLE_FIFO_STATUS[context] &
565 (ASRC_SAMPLE_FIFO_STATUS_OUTFIFO_WTMK_MASK | ASRC_SAMPLE_FIFO_STATUS_INFIFO_WTMK_MASK));
566 }
567
568 /*! @} */
569
570 /*!
571 * @name fifo Operations
572 * @{
573 */
574 /*!
575 * @brief write the ASRC context fifo.
576 *
577 * @param base ASRC base pointer.
578 * @param context context id.
579 * @param data data to write.
580 */
ASRC_WriteContextFifo(ASRC_Type * base,asrc_context_t context,uint32_t data)581 static inline void ASRC_WriteContextFifo(ASRC_Type *base, asrc_context_t context, uint32_t data)
582 {
583 base->WRFIFO[context] = data;
584 }
585
586 /*!
587 * @brief read the ASRC context fifo.
588 *
589 * @param base ASRC base pointer.
590 * @param context context id.
591 * @retval read data.
592 */
ASRC_ReadContextFifo(ASRC_Type * base,asrc_context_t context)593 static inline uint32_t ASRC_ReadContextFifo(ASRC_Type *base, asrc_context_t context)
594 {
595 return base->RDFIFO[context];
596 }
597
598 /*!
599 * @brief Get ASRC write fifo address.
600 *
601 * @param base ASRC base pointer.
602 * @param context context id.
603 * @retval write fifo address.
604 */
ASRC_GetWriteContextFifoAddr(ASRC_Type * base,asrc_context_t context)605 static inline uint32_t ASRC_GetWriteContextFifoAddr(ASRC_Type *base, asrc_context_t context)
606 {
607 return (uint32_t)&base->WRFIFO[context];
608 }
609
610 /*!
611 * @brief Get the ASRC read context fifo address.
612 *
613 * @param base ASRC base pointer.
614 * @param context context id.
615 * @retval read fifo address.
616 */
ASRC_GetReadContextFifoAddr(ASRC_Type * base,asrc_context_t context)617 static inline uint32_t ASRC_GetReadContextFifoAddr(ASRC_Type *base, asrc_context_t context)
618 {
619 return (uint32_t)&base->RDFIFO[context];
620 }
621
622 /*!
623 * @brief Get the ASRC read fifo remained samples.
624 * Since the DMA request will be triggered only when the sample group in read fifo is bigger then the watermark, so when
625 * the data size cannot be divisible by the (watermark + 1), then part of sample will left in read fifo, application
626 * should call this api to get the left samples.
627 *
628 * @param base ASRC base pointer.
629 * @param context context id.
630 * @param outAddr address to receive remained sample in read fifo.
631 * @param outWidth output data width.
632 * @param sampleCount specify the read sample count.
633 * @retval sample counts actual read from output fifo.
634 */
635 uint32_t ASRC_ReadFIFORemainedSample(
636 ASRC_Type *base, asrc_context_t context, uint32_t *outAddr, uint32_t outWidth, uint32_t sampleCount);
637
638 /*! @} */
639
640 /*!
641 * @name Transactional
642 * @{
643 */
644
645 /*!
646 * @brief ASRC blocking convert audio sample rate.
647 * This function depends on the configuration of input and output, so it should be called after the
648 * ASRC_SetContextConfig. The data format it supports:
649 * 1.16bit 16bit per sample in input buffer, input buffer size
650 * should be calculate as: samples 2U output buffer size can be calculated by call function
651 * ASRC_GetContextOutSampleSize, the parameter outWidth should be 2
652 * 2.20bit 24bit per sample in input buffer, input buffer size should be calculate as: samples 3U output buffer size can
653 * be calculated by call function ASRC_GetContextOutSampleSize, the outWidth should be 3. 3.24bit 24bit per sample in
654 * input buffer, input buffer size should be calculate as: samples * 3U output buffer size can be calculated by call
655 * function ASRC_GetContextOutSampleSize, the outWidth should be 3. 4.32bit 32bit per sample in input buffer, input
656 * buffer size should be calculate as: samples * 4U output buffer size can be calculated by call function
657 * ASRC_GetContextOutSampleSize, the outWidth should be 4.
658 *
659 * @param base ASRC base pointer.
660 * @param context context id.
661 * @param xfer .xfer configuration.
662 * @retval kStatus_Success.
663 */
664 status_t ASRC_TransferBlocking(ASRC_Type *base, asrc_context_t context, asrc_transfer_t *xfer);
665
666 /*! @} */
667
668 #if defined(__cplusplus)
669 }
670 #endif /*_cplusplus*/
671
672 /*! @} */
673
674 #endif /* _FSL_ASRC_H_ */
675