1 /*
2  * Copyright  2017-2019 NXP
3  * All rights reserved.
4  *
5  *
6  * SPDX-License-Identifier: BSD-3-Clause
7  */
8 
9 #ifndef _FSL_CS42888_H_
10 #define _FSL_CS42888_H_
11 
12 #include "fsl_codec_i2c.h"
13 
14 /*!
15  * @addtogroup cs42888
16  * @ingroup codec
17  * @{
18  */
19 
20 /*******************************************************************************
21  * Definitions
22  ******************************************************************************/
23 /*! @name Driver version */
24 /*@{*/
25 /*! @brief cs42888 driver version 2.1.3. */
26 #define FSL_CS42888_DRIVER_VERSION (MAKE_VERSION(2, 1, 3))
27 /*@}*/
28 
29 /*! @brief CS42888 handle size */
30 #ifndef CS42888_I2C_HANDLER_SIZE
31 #define CS42888_I2C_HANDLER_SIZE CODEC_I2C_MASTER_HANDLER_SIZE
32 #endif
33 
34 /*! @brief Define the register address of CS42888. */
35 #define CS42888_ID                 0x01U
36 #define CS42888_POWER_CONTROL      0x02U
37 #define CS42888_FUNCTIONAL_MODE    0x03U
38 #define CS42888_INTERFACE_FORMATS  0x04U
39 #define CS42888_ADC_CONTROL        0x05U
40 #define CS42888_TRANSITION_CONTROL 0x06U
41 #define CS42888_CHANNEL_MUTE       0x07U
42 #define CS42888_VOL_CONTROL_AOUT1  0x08U
43 #define CS42888_VOL_CONTROL_AOUT2  0x09U
44 #define CS42888_VOL_CONTROL_AOUT3  0x0AU
45 #define CS42888_VOL_CONTROL_AOUT4  0x0BU
46 #define CS42888_VOL_CONTROL_AOUT5  0x0CU
47 #define CS42888_VOL_CONTROL_AOUT6  0x0DU
48 #define CS42888_VOL_CONTROL_AOUT7  0x0EU
49 #define CS42888_VOL_CONTROL_AOUT8  0x0FU
50 #define CS42888_DAC_CHANNEL_INVERT 0x10U
51 #define CS42888_VOL_CONTROL_AIN1   0x11U
52 #define CS42888_VOL_CONTROL_AIN2   0x12U
53 #define CS42888_VOL_CONTROL_AIN3   0x13U
54 #define CS42888_VOL_CONTROL_AIN4   0x14U
55 #define CS42888_ADC_CHANNEL_INVERT 0x17U
56 #define CS42888_STATUS_CONTROL     0x18U
57 #define CS42888_STATUS             0x19U
58 #define CS42888_STATUS_MASK        0x1AU
59 #define CS42888_MUTEC_PIN_CONTROL  0x1BU
60 
61 #define CS42888_POWER_CONTROL_PDN_MASK  0x1U
62 #define CS42888_POWER_CONTROL_PDN_SHIFT 0U
63 #define CS42888_POWER_CONTROL_PDN(x) \
64     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_SHIFT)) & CS42888_POWER_CONTROL_PDN_MASK)
65 #define CS42888_POWER_CONTROL_PDN_DAC1_MASK  0x2U
66 #define CS42888_POWER_CONTROL_PDN_DAC1_SHIFT 2U
67 #define CS42888_POWER_CONTROL_PDN_DAC1(x) \
68     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_DAC1_SHIFT)) & CS42888_POWER_CONTROL_PDN_DAC1_MASK)
69 #define CS42888_POWER_CONTROL_PDN_DAC2_MASK  0x4U
70 #define CS42888_POWER_CONTROL_PDN_DAC2_SHIFT 3U
71 #define CS42888_POWER_CONTROL_PDN_DAC2(x) \
72     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_DAC2_SHIFT)) & CS42888_POWER_CONTROL_PDN_DAC2_MASK)
73 #define CS42888_POWER_CONTROL_PDN_DAC3_MASK  0x8U
74 #define CS42888_POWER_CONTROL_PDN_DAC3_SHIFT 4U
75 #define CS42888_POWER_CONTROL_PDN_DAC3(x) \
76     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_DAC3_SHIFT)) & CS42888_POWER_CONTROL_PDN_DAC3_MASK)
77 #define CS42888_POWER_CONTROL_PDN_DAC4_MASK  0x10U
78 #define CS42888_POWER_CONTROL_PDN_DAC4_SHIFT 5U
79 #define CS42888_POWER_CONTROL_PDN_DAC4(x) \
80     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_DAC4_SHIFT)) & CS42888_POWER_CONTROL_PDN_DAC4_MASK)
81 #define CS42888_POWER_CONTROL_PDN_ADC1_MASK  0x20U
82 #define CS42888_POWER_CONTROL_PDN_ADC1_SHIFT 5U
83 #define CS42888_POWER_CONTROL_PDN_ADC1(x) \
84     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_ADC1_SHIFT)) & CS42888_POWER_CONTROL_PDN_ADC1_MASK)
85 #define CS42888_POWER_CONTROL_PDN_ADC2_MASK  0x40U
86 #define CS42888_POWER_CONTROL_PDN_ADC2_SHIFT 6U
87 #define CS42888_POWER_CONTROL_PDN_ADC2(x) \
88     (((uint8_t)((uint8_t)(x) << CS42888_POWER_CONTROL_PDN_ADC2_SHIFT)) & CS42888_POWER_CONTROL_PDN_ADC2_MASK)
89 
90 #define CS42888_FUNCTIONAL_MODE_ADC_FM_MASK  0x30U
91 #define CS42888_FUNCTIONAL_MODE_ADC_FM_SHIFT 4U
92 #define CS42888_FUNCTIONAL_MODE_ADC_FM(x) \
93     (((uint8_t)((uint8_t)(x) << CS42888_FUNCTIONAL_MODE_ADC_FM_SHIFT)) & CS42888_FUNCTIONAL_MODE_ADC_FM_MASK)
94 #define CS42888_FUNCTIONAL_MODE_DAC_FM_MASK  0xC0U
95 #define CS42888_FUNCTIONAL_MODE_DAC_FM_SHIFT 6U
96 #define CS42888_FUNCTIONAL_MODE_DAC_FM(x) \
97     (((uint8_t)((uint8_t)(x) << CS42888_FUNCTIONAL_MODE_DAC_FM_SHIFT)) & CS42888_FUNCTIONAL_MODE_DAC_FM_MASK)
98 
99 #define CS42888_INTERFACE_FORMATS_DAC_DIF_MASK  0x38U
100 #define CS42888_INTERFACE_FORMATS_DAC_DIF_SHIFT 3U
101 #define CS42888_INTERFACE_FORMATS_DAC_DIF(x) \
102     (((uint8_t)((uint8_t)(x) << CS42888_INTERFACE_FORMATS_DAC_DIF_SHIFT)) & CS42888_INTERFACE_FORMATS_DAC_DIF_MASK)
103 
104 /*! @brief CS42888 volume setting range */
105 #define CS42888_AOUT_MAX_VOLUME_VALUE 0xFFU
106 
107 /*! @brief Cache register number */
108 #define CS42888_CACHEREGNUM 28U
109 
110 /*! @brief CS42888 I2C address. */
111 #define CS42888_I2C_ADDR 0x48U
112 
113 /*! @brief CS42888 I2C baudrate */
114 #define CS42888_I2C_BITRATE (100000U)
115 
116 /*! @brief cs42888 reset function pointer */
117 typedef void (*cs42888_reset)(bool state);
118 
119 /*! @brief CS42888 support modes. */
120 typedef enum _CS42888_func_mode
121 {
122     kCS42888_ModeMasterSSM = 0x0, /*!< master single speed mode */
123     kCS42888_ModeMasterDSM = 0x1, /*!< master dual speed mode */
124     kCS42888_ModeMasterQSM = 0x2, /*!< master quad speed mode */
125     kCS42888_ModeSlave     = 0x3, /*!< master single speed mode */
126 } cs42888_func_mode;
127 
128 /*! @brief Modules in CS42888 board. */
129 typedef enum _CS42888_module
130 {
131     kCS42888_ModuleDACPair1 = 0x2,  /*!< DAC pair1 (AOUT1 and AOUT2) module in CS42888 */
132     kCS42888_ModuleDACPair2 = 0x4,  /*!< DAC pair2 (AOUT3 and AOUT4) module in CS42888 */
133     kCS42888_ModuleDACPair3 = 0x8,  /*!< DAC pair3 (AOUT5 and AOUT6) module in CS42888 */
134     kCS42888_ModuleDACPair4 = 0x10, /*!< DAC pair4 (AOUT7 and AOUT8) module in CS42888 */
135     kCS42888_ModuleADCPair1 = 0x20, /*!< ADC pair1 (AIN1 and AIN2) module in CS42888 */
136     kCS42888_ModuleADCPair2 = 0x40, /*!< ADC pair2 (AIN3 and AIN4) module in CS42888 */
137 } cs42888_module_t;
138 
139 /*! @brief CS42888 supported audio bus type. */
140 typedef enum _CS42888_bus
141 {
142     kCS42888_BusLeftJustified  = 0x0, /*!< Left justified format, up to 24 bits.*/
143     kCS42888_BusI2S            = 0x1, /*!< I2S format, up to 24 bits */
144     kCS42888_BusRightJustified = 0x2, /*!< Right justified, can support 16bits and 24 bits */
145     kCS42888_BusOL1            = 0x4, /*!< One-Line #1 mode */
146     kCS42888_BusOL2            = 0x5, /*!< One-Line #2 mode */
147     kCS42888_BusTDM            = 0x6  /*!< TDM mode */
148 } cs42888_bus_t;
149 
150 /*! @brief CS428888 play channel
151  * @anchor _cs42888_play_channel
152  */
153 enum
154 {
155     kCS42888_AOUT1 = 1U, /*!< aout1 */
156     kCS42888_AOUT2 = 2U, /*!< aout2 */
157     kCS42888_AOUT3 = 3U, /*!< aout3 */
158     kCS42888_AOUT4 = 4U, /*!< aout4 */
159     kCS42888_AOUT5 = 5U, /*!< aout5 */
160     kCS42888_AOUT6 = 6U, /*!< aout6 */
161     kCS42888_AOUT7 = 7U, /*!< aout7 */
162     kCS42888_AOUT8 = 8U, /*!< aout8 */
163 };
164 
165 /*! @brief cs42888 audio format */
166 typedef struct _cs42888_audio_format
167 {
168     uint32_t mclk_HZ;    /*!< master clock frequency */
169     uint32_t sampleRate; /*!< sample rate */
170     uint32_t bitWidth;   /*!< bit width */
171 } cs42888_audio_format_t;
172 
173 /*! @brief Initialize structure of CS42888 */
174 typedef struct cs42888_config
175 {
176     cs42888_bus_t bus;             /*!< Audio transfer protocol */
177     cs42888_audio_format_t format; /*!< cs42888 audio format */
178     cs42888_func_mode ADCMode;     /*!< CS42888 ADC function mode. */
179     cs42888_func_mode DACMode;     /*!< CS42888 DAC function mode. */
180     bool master;                   /*!< true is master, false is slave */
181     codec_i2c_config_t i2cConfig;  /*!< i2c bus configuration */
182     uint8_t slaveAddress;          /*!< slave address */
183     cs42888_reset reset;           /*!< reset function pointer */
184 } cs42888_config_t;
185 
186 /*! @brief cs42888 handler */
187 typedef struct _cs42888_handle
188 {
189     cs42888_config_t *config;                    /*!< cs42888 config pointer */
190     uint8_t i2cHandle[CS42888_I2C_HANDLER_SIZE]; /*!< i2c handle pointer */
191 } cs42888_handle_t;
192 
193 /*******************************************************************************
194  * API
195  ******************************************************************************/
196 #if defined(__cplusplus)
197 extern "C" {
198 #endif
199 
200 /*!
201  * @brief CS42888 initialize function.
202  *
203  * The second parameter is NULL to CS42888 in this version. If users want
204  * to change the settings, they have to use cs42888_write_reg() or cs42888_modify_reg()
205  * to set the register value of CS42888.
206  * Note: If the codec_config is NULL, it would initialize CS42888 using default settings.
207  * The default setting:
208  * codec_config->bus = kCS42888_BusI2S
209  * codec_config->ADCmode = kCS42888_ModeSlave
210  * codec_config->DACmode = kCS42888_ModeSlave
211  *
212  * @param handle CS42888 handle structure.
213  * @param config CS42888 configuration structure.
214  */
215 status_t CS42888_Init(cs42888_handle_t *handle, cs42888_config_t *config);
216 
217 /*!
218  * @brief Deinit the CS42888 codec.
219  *
220  * This function close all modules in CS42888 to save power.
221  *
222  * @param handle CS42888 handle structure pointer.
223  */
224 status_t CS42888_Deinit(cs42888_handle_t *handle);
225 
226 /*!
227  * @brief Set the audio transfer protocol.
228  *
229  * CS42888 only supports I2S, left justified, right justified, PCM A, PCM B format.
230  *
231  * @param handle CS42888 handle structure.
232  * @param protocol Audio data transfer protocol.
233  * @param bitWidth bit width
234  */
235 status_t CS42888_SetProtocol(cs42888_handle_t *handle, cs42888_bus_t protocol, uint32_t bitWidth);
236 
237 /*!
238  * @brief Set CS42888 to differernt working mode.
239  *
240  * @deprecated api, Do not use it anymore. It has been superceded by @ref CS42888_SelectFunctionalMode.
241  *
242  * @param handle CS42888 handle structure.
243  * @param mode differenht working mode of CS42888.
244  */
245 void CS42888_SetFuncMode(cs42888_handle_t *handle, cs42888_func_mode mode);
246 
247 /*!
248  * @brief Set CS42888 to differernt functional mode.
249  *
250  * @param handle CS42888 handle structure.
251  * @param adcMode differenht working mode of CS42888.
252  * @param dacMode differenht working mode of CS42888.
253  */
254 status_t CS42888_SelectFunctionalMode(cs42888_handle_t *handle, cs42888_func_mode adcMode, cs42888_func_mode dacMode);
255 
256 /*!
257  * @brief Set the volume of different modules in CS42888.
258  *
259  * This function would set the volume of CS42888 modules. Uses need to appoint the module.
260  * The function assume that left channel and right channel has the same volume.
261  *
262  * @param handle CS42888 handle structure.
263  * @param channel AOUT channel, it shall be 1~8.
264  * @param volume Volume value need to be set.
265  */
266 status_t CS42888_SetAOUTVolume(cs42888_handle_t *handle, uint8_t channel, uint8_t volume);
267 
268 /*!
269  * @brief Set the volume of different modules in CS42888.
270  *
271  * This function would set the volume of CS42888 modules. Uses need to appoint the module.
272  * The function assume that left channel and right channel has the same volume.
273  *
274  * @param handle CS42888 handle structure.
275  * @param channel AIN channel, it shall be 1~4.
276  * @param volume Volume value need to be set.
277  */
278 status_t CS42888_SetAINVolume(cs42888_handle_t *handle, uint8_t channel, uint8_t volume);
279 
280 /*!
281  * @brief Get the volume of different AOUT channel in CS42888.
282  *
283  * This function gets the volume of CS42888 modules. Uses need to appoint the module.
284  * The function assume that left channel and right channel has the same volume.
285  *
286  * @param handle CS42888 handle structure.
287  * @param channel AOUT channel, it shall be 1~8.
288  */
289 uint8_t CS42888_GetAOUTVolume(cs42888_handle_t *handle, uint8_t channel);
290 
291 /*!
292  * @brief Get the volume of different AIN channel in CS42888.
293  *
294  * This function gets the volume of CS42888 modules. Uses need to appoint the module.
295  * The function assume that left channel and right channel has the same volume.
296  *
297  * @param handle CS42888 handle structure.
298  * @param channel AIN channel, it shall be 1~4.
299  */
300 uint8_t CS42888_GetAINVolume(cs42888_handle_t *handle, uint8_t channel);
301 
302 /*!
303  * @brief Mute modules in CS42888.
304  *
305  * @param handle CS42888 handle structure.
306  * @param channelMask Channel mask for mute. Mute channel 0, it shall be 0x1, while mute channel 0 and 1, it shall
307  * be 0x3. Mute all channel, it shall be 0xFF. Each bit represent one channel, 1 means mute, 0 means unmute.
308  */
309 status_t CS42888_SetMute(cs42888_handle_t *handle, uint8_t channelMask);
310 
311 /*!
312  * @brief Mute channel modules in CS42888.
313  *
314  * @param handle CS42888 handle structure.
315  * @param channel reference _cs42888_play_channel.
316  * @param isMute true is mute, falase is unmute.
317  */
318 status_t CS42888_SetChannelMute(cs42888_handle_t *handle, uint8_t channel, bool isMute);
319 
320 /*!
321  * @brief Enable/disable expected devices.
322  *
323  * @param handle CS42888 handle structure.
324  * @param module Module expected to enable.
325  * @param isEnabled Enable or disable moudles.
326  */
327 status_t CS42888_SetModule(cs42888_handle_t *handle, cs42888_module_t module, bool isEnabled);
328 
329 /*!
330  * @brief Configure the data format of audio data.
331  *
332  * This function would configure the registers about the sample rate, bit depths.
333  *
334  * @param handle CS42888 handle structure pointer.
335  * @param mclk Master clock frequency of I2S.
336  * @param sample_rate Sample rate of audio file running in CS42888. CS42888 now
337  * supports 8k, 11.025k, 12k, 16k, 22.05k, 24k, 32k, 44.1k, 48k and 96k sample rate.
338  * @param bits Bit depth of audio file (CS42888 only supports 16bit, 20bit, 24bit
339  * and 32 bit in HW).
340  */
341 status_t CS42888_ConfigDataFormat(cs42888_handle_t *handle, uint32_t mclk, uint32_t sample_rate, uint32_t bits);
342 
343 /*!
344  * @brief Write register to CS42888 using I2C.
345  *
346  * @param handle CS42888 handle structure.
347  * @param reg The register address in CS42888.
348  * @param val Value needs to write into the register.
349  */
350 status_t CS42888_WriteReg(cs42888_handle_t *handle, uint8_t reg, uint8_t val);
351 
352 /*!
353  * @brief Read register from CS42888 using I2C.
354  * @param handle CS42888 handle structure.
355  * @param reg The register address in CS42888.
356  * @param val Value written to.
357  */
358 status_t CS42888_ReadReg(cs42888_handle_t *handle, uint8_t reg, uint8_t *val);
359 
360 /*!
361  * @brief Modify some bits in the register using I2C.
362  * @param handle CS42888 handle structure.
363  * @param reg The register address in CS42888.
364  * @param mask The mask code for the bits want to write. The bit you want to write should be 0.
365  * @param val Value needs to write into the register.
366  */
367 status_t CS42888_ModifyReg(cs42888_handle_t *handle, uint8_t reg, uint8_t mask, uint8_t val);
368 
369 #if defined(__cplusplus)
370 }
371 #endif
372 
373 /*! @} */
374 
375 #endif /* _FSL_CS42888_H_ */
376