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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [ARM9_STR91X_IAR/] [Library/] [source/] [91x_uart.c] - Blame information for rev 794

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1 577 jeremybenn
/******************** (C) COPYRIGHT 2006 STMicroelectronics ********************
2
* File Name          : 91x_uart.c
3
* Author             : MCD Application Team
4
* Date First Issued  : 05/18/2006 : Version 1.0
5
* Description        : This file provides all the UART software functions.
6
********************************************************************************
7
* History:
8
* 05/24/2006 : Version 1.1
9
* 05/18/2006 : Version 1.0
10
********************************************************************************
11
* THE PRESENT SOFTWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
12
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
13
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
14
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
15
* CONTENT OF SUCH SOFTWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
16
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
17
*******************************************************************************/
18
 
19
/* Includes ------------------------------------------------------------------*/
20
#include "91x_uart.h"
21
#include "91x_scu.h"
22
 
23
/* Private typedef -----------------------------------------------------------*/
24
/* Private define ------------------------------------------------------------*/
25
/* UART IrDA Mask */
26
#define UART_IrDA_Disable_Mask          0xFFFD  /* IrDA Disable Mask */
27
#define UART_IrDA_Enable_Mask           0x0002  /* IrDA Enable Mask */
28
#define IrDA_LowPower_Enable_Mask       0x0004 /*IrDA lower power mode enable*/
29
#define IrDA_LowPower_Disable_Mask      0xFFFB /*IrDA lower power mode enable*/
30
 
31
/* UART Mask */
32
#define UART_Enable_Mask                0x0001  /* UART Enable Mask */
33
#define UART_Disable_Mask               0xFFFE  /* UART Disable Mask */
34
 
35
/* UART LoopBack */
36
#define UART_LoopBack_Disable_Mask      0xFF7F  /* LoopBack Disable Mask */
37
#define UART_LoopBack_Enable_Mask       0x0080  /* LoopBack Enable Mask */
38
 
39
#define UART_WordLength_Mask            0xFF9F  /* UART Word Length Mask */
40
#define UART_Parity_Mask                0xFF79  /* UART Parity Mask */
41
#define UART_HardwareFlowControl_Mask   0x3FFF  /* UART Hardware Flow Control Mask */
42
#define UART_TxRxFIFOLevel_Mask         0xFFC0  /* UART Tx Rx FIFO Level Mask */
43
#define UART_BreakChar_Mask             0x0001  /* UART Break Character send Mask*/
44
#define UART_FLAG_Mask                  0x1F    /* UART Flag Mask */
45
#define UART_Mode_Mask                  0xFCFF  /* UART Mode Mask */
46
#define UART_RTS_LowLevel_Mask          0x0800  /* RTS signal is low */
47
#define UART_RTS_HighLevel_Mask         0xF7FF  /* RTS signal is High */
48
#define UART_DTR_LowLevel_Mask          0x0400  /* DTR signal is low */
49
#define UART_DTR_HighLevel_Mask         0xFBFF  /* DTR signal is High */
50
#define UART_ClearFlag_Mask             0xAA    /* Clear Flag Mask */
51
 
52
/* Private macro -------------------------------------------------------------*/
53
/* Private variables ---------------------------------------------------------*/
54
/* Private function prototypes -----------------------------------------------*/
55
/* Private functions ---------------------------------------------------------*/
56
 
57
  /*******************************************************************************
58
* Function Name  : UART_DeInit
59
* Description    : Deinitializes the UARTx peripheral registers
60
*                  to their default reset values.
61
* Input          : UARTx: where x can be 0,1 or 2 to select the UART peripheral.
62
* Output         : None
63
* Return         : None
64
*******************************************************************************/
65
void UART_DeInit(UART_TypeDef* UARTx)
66
{
67
  /* Reset the UARTx registers values */
68
  if(UARTx == UART0)
69
  {
70
    SCU_APBPeriphReset(__UART0,ENABLE);
71
    SCU_APBPeriphReset(__UART0,DISABLE);
72
  }
73
  else if(UARTx == UART1)
74
  {
75
    SCU_APBPeriphReset(__UART1,ENABLE);
76
    SCU_APBPeriphReset(__UART1,DISABLE);
77
  }
78
  else if(UARTx == UART2)
79
  {
80
    SCU_APBPeriphReset(__UART2,ENABLE);
81
    SCU_APBPeriphReset(__UART2,DISABLE);
82
  }
83
}
84
 
85
/*******************************************************************************
86
* Function Name  : UART_Init
87
* Description    : Initializes the UARTx peripheral according to the specified
88
*                  parameters in the UART_InitStruct .
89
* Input          : - UARTx: where x can be 0,1or 2 to select the UART peripheral.
90
*                  - UART_InitStruct: pointer to a UART_InitTypeDef structure
91
*                    that contains the configuration information for the
92
*                    specified UART peripheral.
93
* Output         : None
94
* Return         : None
95
*******************************************************************************/
96
void UART_Init(UART_TypeDef* UARTx, UART_InitTypeDef* UART_InitStruct)
97
{
98
 
99
  u64 UART_MainClock = 0;
100
  u32 IntegerDivider = 0;
101
  u32 FractionalDivider = 0;
102
 
103
  /* Clear the LCR[6:5] bits */
104
  UARTx->LCR &= UART_WordLength_Mask;
105
  /* Set the LCR[6:5] bits according to UART_WordLength value */
106
  UARTx->LCR |= UART_InitStruct->UART_WordLength;
107
 
108
  /* Choose Stop Bits */
109
  if(UART_InitStruct->UART_StopBits == UART_StopBits_2)
110
  {
111
    /* 2 Stop Bit */
112
    UARTx->LCR |= UART_StopBits_2;
113
  }
114
  else
115
  {
116
    /* One Stop Bits */
117
    UARTx->LCR &= UART_StopBits_1;
118
  }
119
 
120
  /* Configure the Parity */
121
  /* Clear the LCR[7]and LCR[2:1] bits */
122
  UARTx->LCR &= UART_Parity_Mask;
123
  /* Set the LCR[7]and LCR[2:1] bits according to UART_Parity value */
124
  UARTx->LCR |= UART_InitStruct->UART_Parity;
125
 
126
  /* Configure the BaudRate */
127
  UART_MainClock = (SCU_GetMCLKFreqValue())*1000;
128
  if((SCU->CLKCNTR & 0x200) != 0x200)
129
  {
130
    UART_MainClock = UART_MainClock/2;
131
  }
132
  /* Determine the integer part */
133
  IntegerDivider = ((100) * (UART_MainClock) / (16 * (UART_InitStruct->UART_BaudRate)));
134
  UARTx->IBRD = IntegerDivider / 100;
135
 
136
  /* Determine the fractional part */
137
  FractionalDivider = IntegerDivider - (100 * (UARTx->IBRD));
138
  UARTx->FBRD = ((((FractionalDivider * 64) + 50) / 100));
139
 
140
  /* Choose the Hardware Flow Control */
141
  /* Clear the CR[15:14] bits */
142
  UARTx->CR &=  UART_HardwareFlowControl_Mask;
143
  /* Set the CR[15:14] bits according to UART_HardwareFlowControl value */
144
  UARTx->CR |= UART_InitStruct->UART_HardwareFlowControl;
145
 
146
  /* Configure the UART mode */
147
  /* Clear the CR[9:8] bits */
148
  UARTx->CR &= UART_Mode_Mask;
149
  /* Set the CR[9:8] bits according to UART_Mode value */
150
  UARTx->CR |= UART_InitStruct->UART_Mode;
151
 
152
  /* Enable or disable the FIFOs */
153
  /* Set the FIFOs Levels */
154
  if(UART_InitStruct->UART_FIFO == UART_FIFO_Enable)
155
  {
156
    /* Enable the FIFOs */
157
    UARTx->LCR |= UART_FIFO_Enable;
158
 
159
    /* Clear TXIFLSEL and RXIFLSEL bits */
160
    UARTx->IFLS &=  UART_TxRxFIFOLevel_Mask;
161
 
162
    /* Set RXIFLSEL bits according to UART_RxFIFOLevel value */
163
    UARTx->IFLS |= (UART_InitStruct->UART_RxFIFOLevel << 3);
164
 
165
    /* Set TXIFLSEL bits according to UART_TxFIFOLevel value */
166
    UARTx->IFLS |= UART_InitStruct->UART_TxFIFOLevel;
167
  }
168
  else
169
  {
170
    /* Disable the FIFOs */
171
    UARTx->LCR &= UART_FIFO_Disable;
172
  }
173
}
174
 
175
/*******************************************************************************
176
* Function Name  : UART_StructInit
177
* Description    : Fills each UART_InitStruct member with its reset value.
178
* Input          : UART_InitStruct: pointer to a UART_InitTypeDef structure which
179
*                  will be initialized.
180
* Output         : None
181
* Return         : None
182
*******************************************************************************/
183
void UART_StructInit(UART_InitTypeDef* UART_InitStruct)
184
{
185
  /* Reset the  UART_InitStruct members */
186
  UART_InitStruct->UART_WordLength = UART_WordLength_8D;
187
  UART_InitStruct->UART_StopBits = UART_StopBits_1;
188
  UART_InitStruct->UART_Parity = UART_Parity_Odd ;
189
  UART_InitStruct->UART_BaudRate = 9600;
190
  UART_InitStruct->UART_HardwareFlowControl = UART_HardwareFlowControl_None;
191
  UART_InitStruct->UART_Mode = UART_Mode_Tx_Rx;
192
  UART_InitStruct->UART_FIFO = UART_FIFO_Enable;
193
  UART_InitStruct->UART_TxFIFOLevel = UART_FIFOLevel_1_2;
194
  UART_InitStruct->UART_RxFIFOLevel = UART_FIFOLevel_1_2;
195
}
196
 
197
/*******************************************************************************
198
* Function Name  : UART_Cmd
199
* Description    : Enables or disables the specified UART peripheral.
200
* Input          : - UARTx: where x can be 0,1 or 2 to select the UART peripheral
201
*                  - NewState: new state of the UARTx peripheral.
202
*                    This parameter can be: ENABLE or DISABLE.
203
* Output         : None
204
* Return         : None
205
*******************************************************************************/
206
void UART_Cmd(UART_TypeDef* UARTx, FunctionalState NewState)
207
{
208
  if (NewState == ENABLE)
209
  {
210
    /* Enable the selected UART by setting the UARTEN bit in the CR register */
211
    UARTx->CR |= UART_Enable_Mask;
212
  }
213
  else
214
  {
215
    /* Disable the selected UART by clearing the UARTEN bit in the CR register */
216
    UARTx->CR &= UART_Disable_Mask;
217
  }
218
}
219
 
220
/*******************************************************************************
221
* Function Name  : UART_ITConfig
222
* Description    : Enables or disables the specified UART interrupts.
223
* Input          : - UARTx: where x can be 0,1 or 2 to select the UART peripheral
224
*                  - UART_IT: specifies the UART interrupts sources to be
225
*                    enabled or disabled. This parameter can be any combination
226
*                    of the following values:
227
*                       - UART_IT_OverrunError: Overrun Error interrupt
228
*                       - UART_IT_BreakError: Break Error interrupt
229
*                       - UART_IT_ParityError: Parity Error interrupt
230
*                       - UART_IT_FrameError: Frame Error interrupt
231
*                       - UART_IT_ReceiveTimeOut: Receive Time Out interrupt
232
*                       - UART_IT_Transmit: Transmit interrupt
233
*                       - UART_IT_Receive: Receive interrupt
234
*                       - UART_IT_DSR: DSR interrupt
235
*                       - UART_IT_DCD: DCD interrupt
236
*                       - UART_IT_CTS: CTS interrupt
237
*                       - UART_IT_RI: RI interrupt
238
*                  - NewState: new state of the UARTx peripheral.
239
*                  This parameter can be: ENABLE or DISABLE.
240
* Output         : None
241
* Return         : None
242
*******************************************************************************/
243
void UART_ITConfig(UART_TypeDef* UARTx, u16 UART_IT, FunctionalState NewState)
244
{
245
 if(NewState == ENABLE)
246
  {
247
    /* Enables the selected interrupts */
248
    UARTx->IMSC |= UART_IT;
249
  }
250
  else
251
  {
252
    /* Disables the selected interrupts */
253
    UARTx->IMSC &= ~UART_IT;
254
  }
255
}
256
 
257
/*******************************************************************************
258
* Function Name  : UART_DMAConfig
259
* Description    : Configures the UARTx’s DMA interface.
260
* Input          : - UARTx: where x can be 1 or 2 to select the UART peripheral
261
*                  - UART_DMAOnError: specifies the DMA on error request.
262
*                    This parameter can be:
263
*                         - UART_DMAOnError_Enable: DMA receive request enabled
264
*                           when the UART error interrupt is asserted.
265
*                         - UART_DMAOnError_Disable: DMA receive request disabled
266
*                           when the UART error interrupt is asserted.
267
* Output         : None
268
* Return         : None
269
*******************************************************************************/
270
void UART_DMAConfig(UART_TypeDef* UARTx, u16 UART_DMAOnError)
271
{
272
  if(UART_DMAOnError == UART_DMAOnError_Enable)
273
  {
274
    UARTx->DMACR &= UART_DMAOnError_Enable;
275
  }
276
  else
277
  {
278
    UARTx->DMACR |= UART_DMAOnError_Disable;
279
  }
280
}
281
 
282
/*******************************************************************************
283
* Function Name  : UART_DMACmd
284
* Description    : Enables or disables the UARTx’s DMA interface.
285
* Input          : - UARTx: where x can be 1 or 2 to select the UART peripheral
286
*                  - UART_DMAReq: enables or disables the request of DMA from UART.
287
*                    This parameter can be:
288
*                     - UART_DMAReq_Tx: Transmit DMA Enable
289
*                     - UART_DMAReq_Rx: Receive DMA Enable
290
*                  - NewState: new state of the UARTx peripheral.
291
*                    This parameter can be: ENABLE or DISABLE.
292
* Output         : None
293
* Return         : None
294
*******************************************************************************/
295
void UART_DMACmd(UART_TypeDef* UARTx, u8 UART_DMAReq, FunctionalState NewState)
296
{
297
  if(UART_DMAReq == UART_DMAReq_Tx)
298
  {
299
    if(NewState == ENABLE)
300
    {
301
      UARTx->DMACR |=  UART_DMAReq_Tx;
302
    }
303
    else
304
    {
305
      UARTx->DMACR &= ~UART_DMAReq_Tx;
306
    }
307
  }
308
 
309
   if(UART_DMAReq == UART_DMAReq_Rx)
310
  {
311
    if(NewState == ENABLE)
312
    {
313
      UARTx->DMACR |=  UART_DMAReq_Rx;
314
    }
315
    else
316
    {
317
      UARTx->DMACR &= ~UART_DMAReq_Rx;
318
    }
319
  }
320
}
321
 
322
/*******************************************************************************
323
* Function Name  : UART_LoopBackConfig
324
* Description    : Enables or disables the LoopBack mode.
325
* Input          : - UARTx: where x can be 0,1 or 2 to select the UART peripheral
326
*                  - NewState: new state of the UARTx peripheral.
327
*                    This parameter can be: ENABLE or DISABLE.
328
* Output         : None
329
* Return         : None
330
*******************************************************************************/
331
void UART_LoopBackConfig(UART_TypeDef* UARTx, FunctionalState NewState)
332
{
333
  if (NewState == ENABLE)
334
  {
335
    /* Enable the LoopBack mode of the specified UART */
336
    UARTx->CR |= UART_LoopBack_Enable_Mask;
337
  }
338
  else
339
  {
340
    /* Disable the LoopBack mode of the specified UART */
341
    UARTx->CR &= UART_LoopBack_Disable_Mask;
342
  }
343
}
344
 
345
/*******************************************************************************
346
* Function Name  : UART_GetFlagStatus
347
* Description    : Checks whether the specified UART flag is set or not.
348
* Input          : - UARTx: where x can be 0,1 or 2 to select the UART peripheral
349
*                  - UART_FLAG: specifies the flag to check.
350
*                    This parameter can be one of the following values:
351
*                     - UART_FLAG_OverrunError: Overrun error flag
352
*                     - UART_FLAG_Break: break error flag
353
*                     - UART_FLAG_ParityError: parity error flag
354
*                     - UART_FLAG_FrameError: frame error flag
355
*                     - UART_FLAG_RI: RI flag
356
*                     - UART_FLAG_TxFIFOEmpty: Transmit FIFO Empty flag
357
*                     - UART_FLAG_RxFIFOFull: Receive FIFO Full flag
358
*                     - UART_FLAG_TxFIFOFull: Transmit FIFO Full flag
359
*                     - UART_FLAG_RxFIFOEmpty: Receive FIFO Empty flag
360
*                     - UART_FLAG_Busy: UART Busy flag
361
*                     - UART_FLAG_CTS: CTS flag
362
*                     - UART_FLAG_DCD: DCD flag
363
*                     - UART_FLAG_DSR: DSR flag
364
*                     - UART_RawIT_OverrunError: Overrun Error interrupt flag
365
*                     - UART_RawIT_BreakError: Break Error interrupt flag
366
*                     - UART_RawIT_ParityError: Parity Error interrupt flag
367
*                     - UART_RawIT_FrameError: Frame Error interrupt flag
368
*                     - UART_RawIT_ReceiveTimeOut: ReceiveTimeOut interrupt flag
369
*                     - UART_RawIT_Transmit: Transmit interrupt flag
370
*                     - UART_RawIT_Receive: Receive interrupt flag
371
*                     - UART_RawIT_DSR: DSR interrupt flag
372
*                     - UART_RawIT_DCD: DCD interrupt flag
373
*                     - UART_RawIT_CTS: CTS interrupt flag
374
*                     - UART_RawIT_RI: RI interrupt flag
375
* Output         : None
376
* Return         : The new state of UART_FLAG (SET or RESET).
377
*******************************************************************************/
378
FlagStatus UART_GetFlagStatus(UART_TypeDef* UARTx, u16 UART_FLAG)
379
{
380
 
381
  u32 UARTReg = 0, FlagPos = 0;
382
  u32 StatusReg = 0;
383
 
384
  /* Get the UART register index */
385
  UARTReg = UART_FLAG >> 5;
386
 
387
  /* Get the flag position */
388
  FlagPos = UART_FLAG & UART_FLAG_Mask;
389
 
390
  if(UARTReg == 1) /* The flag to check is in RSR register */
391
  {
392
    StatusReg = UARTx->RSECR;
393
  }
394
  else if (UARTReg == 2) /* The flag to check is in FR register */
395
  {
396
    StatusReg = UARTx->FR;
397
  }
398
  else if(UARTReg == 3) /* The flag to check is in RIS register */
399
  {
400
    StatusReg = UARTx->RIS;
401
  }
402
 
403
  if((StatusReg & (1 << FlagPos))!= RESET)
404
  {
405
    return SET;
406
  }
407
  else
408
  {
409
    return RESET;
410
  }
411
}
412
 
413
/*******************************************************************************
414
* Function Name  : UART_ClearFlag
415
* Description    : Clears the UARTx’s flags(Frame, Parity, Break, Overrun error).
416
* Input          : - UARTx: where x can be 0,1or 2 to select the UART peripheral.
417
* Output         : None
418
* Return         : None
419
*******************************************************************************/
420
void UART_ClearFlag(UART_TypeDef* UARTx)
421
{
422
  /* Clear the flag */
423
  UARTx->RSECR = UART_ClearFlag_Mask;
424
}
425
 
426
/*******************************************************************************
427
* Function Name  : UART_GetITStatus
428
* Description    : Checks whether the specified UART interrupt has occured or not.
429
* Input          : - UARTx: where x can be 0,1or 2 to select the UART peripheral.
430
*                  - UART_IT: specifies the interrupt pending bit to be checked.
431
*                    This parameter can be one of the following values:
432
*                       - UART_IT_OverrunError: Overrun Error interrupt
433
*                       - UART_IT_BreakError: Break Error interrupt
434
*                       - UART_IT_ParityError: Parity Error interrupt
435
*                       - UART_IT_FrameError: Frame Error interrupt
436
*                       - UART_IT_ReceiveTimeOut: Receive Time Out interrupt
437
*                       - UART_IT_Transmit: Transmit interrupt
438
*                       - UART_IT_Receive: Receive interrupt
439
*                       - UART_IT_DSR: DSR interrupt
440
*                       - UART_IT_DCD: DCD interrupt
441
*                       - UART_IT_CTS: CTS interrupt
442
*                       - UART_IT_RI: RI interrupt
443
* Output         : None
444
* Return         : The new state of UART_IT (SET or RESET).
445
*******************************************************************************/
446
ITStatus UART_GetITStatus(UART_TypeDef* UARTx, u16 UART_IT)
447
{
448
  if((UARTx->MIS & UART_IT) != RESET)
449
  {
450
    return SET;
451
  }
452
  else
453
  {
454
    return RESET;
455
  }
456
}
457
 
458
/*******************************************************************************
459
* Function Name  : UART_ClearITPendingBit
460
* Description    : Clears the UARTx’s interrupt pending bits.
461
* Input          : - UARTx: where x can be 0,1or 2 to select the UART peripheral.
462
*                  - UART_IT: specifies the interrupt pending bit to clear.
463
*                    More than one interrupt can be cleared using the “|” operator.
464
*                    This parameter can be:
465
*                       - UART_IT_OverrunError: Overrun Error interrupt
466
*                       - UART_IT_BreakError: Break Error interrupt
467
*                       - UART_IT_ParityError: Parity Error interrupt
468
*                       - UART_IT_FrameError: Frame Error interrupt
469
*                       - UART_IT_ReceiveTimeOut: Receive Time Out interrupt
470
*                       - UART_IT_Transmit: Transmit interrupt
471
*                       - UART_IT_Receive: Receive interrupt
472
*                       - UART_IT_DSR: DSR interrupt
473
*                       - UART_IT_DCD: DCD interrupt
474
*                       - UART_IT_CTS: CTS interrupt
475
*                       - UART_IT_RI: RI interrupt
476
* Output         : None
477
* Return         : None
478
*******************************************************************************/
479
void UART_ClearITPendingBit(UART_TypeDef* UARTx, u16 UART_IT)
480
{
481
  /* Clear the specified interrupt */
482
  UARTx->ICR &= UART_IT;
483
}
484
 
485
/*******************************************************************************
486
* Function Name  : UART_IrDALowPowerConfig
487
* Description    : Sets the IrDA low power mode
488
* Input          : - IrDAx: where x can be 0,1 or 2 to select the UART/IrDA peripheral.
489
*                  - NewState: new state of the UARTIrDA peripheral.
490
*                    This parameter can be: ENABLE or DISABLE.
491
* Output         : None
492
* Return         : None
493
*******************************************************************************/
494
void UART_IrDALowPowerConfig(u8 IrDAx, FunctionalState NewState)
495
{
496
  UART_TypeDef* UARTx;
497
 
498
  switch(IrDAx)
499
  {
500
    case IrDA0: UARTx = UART0;
501
    break;
502
    case IrDA1: UARTx = UART1;
503
    break;
504
    case IrDA2: UARTx = UART2;
505
    break;
506
  }
507
 
508
  if (NewState == ENABLE)
509
  {
510
    UARTx->CR |= IrDA_LowPower_Enable_Mask;
511
  }
512
  else
513
  {
514
    UARTx->CR &= IrDA_LowPower_Disable_Mask;
515
  }
516
}
517
 
518
/*******************************************************************************
519
* Function Name  : UART_IrDASetCounter
520
* Description    : Sets the IrDA counter divisor value.
521
* Input          : - UARTx: where x can be 0,1 or 2 to select the UART/IrDA peripheral.
522
*                  - IrDA_Counter: IrDA counter divisor new value n low power mode(Hz).
523
* Output         : None
524
* Return         : None
525
*******************************************************************************/
526
void UART_IrDASetCounter(u8 IrDAx, u32 IrDA_Counter)
527
{
528
  UART_TypeDef* UARTx;
529
  u32 APBClock;
530
  switch(IrDAx)
531
  {
532
    case IrDA0: UARTx = UART0;
533
    break;
534
    case IrDA1: UARTx = UART1;
535
    break;
536
    case IrDA2: UARTx = UART2;
537
    break;
538
  }
539
   /* Get the APB frequency */
540
  APBClock = (SCU_GetPCLKFreqValue())*1000;
541
  /* Determine the Counter Divisor part */
542
  UARTx->ILPR = (((APBClock*10) / ( IrDA_Counter)) + 5 )/10;
543
 }
544
 
545
/*******************************************************************************
546
* Function Name  : UART_IrDACmd
547
* Description    : Enables or disables the UARTx’s IrDA interface.
548
* Input          : - IrDAx: where x can be 0,1 or 2 to select the UART/IrDA peripheral
549
*                  - NewState: new state of the UARTx peripheral.
550
*                    This parameter can be: ENABLE or DISABLE.
551
* Output         : None
552
* Return         : None
553
*******************************************************************************/
554
void UART_IrDACmd(u8 IrDAx, FunctionalState NewState)
555
{
556
  UART_TypeDef* UARTx;
557
 
558
  switch(IrDAx)
559
  {
560
    case IrDA0: UARTx = UART0;
561
    break;
562
    case IrDA1: UARTx = UART1;
563
    break;
564
    case IrDA2: UARTx = UART2;
565
    break;
566
  }
567
  if(NewState == ENABLE)
568
  {
569
    /* Enable the IrDA mode of the specified UART */
570
    UARTx->CR |= UART_IrDA_Enable_Mask;
571
  }
572
  else
573
  {
574
    /* Disable the IrDA mode of the specified UART */
575
    UARTx->CR &= UART_IrDA_Disable_Mask;
576
  }
577
}
578
 
579
/*******************************************************************************
580
* Function Name  : UART_SendData
581
* Description    : Transmits signle Byte of data through the UARTx peripheral.
582
* Input          : - UARTx: where x can be 0,1 or 2 to select the UART peripheral.
583
*                  - Data: the byte to transmit
584
* Output         : None
585
* Return         : None
586
*******************************************************************************/
587
void UART_SendData(UART_TypeDef* UARTx, u8 Data)
588
{
589
  /* Transmit one byte */
590
  UARTx->DR = Data;
591
}
592
 
593
/*******************************************************************************
594
* Function Name  : UART_ReceiveData
595
* Description    : Returns the most recent received Byte by the UARTx peripheral.
596
* Input          : UARTx: where x can be 0,1 or 2 to select the UART peripheral.
597
* Output         : None
598
* Return         : The received data
599
*******************************************************************************/
600
u8 UART_ReceiveData(UART_TypeDef* UARTx)
601
{
602
  /* Receive one byte */
603
  return ((u8)UARTx->DR);
604
}
605
 
606
/*******************************************************************************
607
* Function Name  : UART_SendBreak
608
* Description    : Transmits break characters.
609
* Input          : UARTx: where x can be 0,1 or 2 to select the UART peripheral.
610
* Output         : None
611
* Return         : None
612
*******************************************************************************/
613
void UART_SendBreak(UART_TypeDef* UARTx)
614
{
615
  /* Send break characters */
616
  UARTx->LCR |= UART_BreakChar_Mask;
617
}
618
 
619
/*******************************************************************************
620
* Function Name  : UART_RTSConfig
621
* Description    : Sets or Resets the RTS signal
622
* Input          : - LevelState: new state of the RTS signal for UART0 only.
623
*                    This parameter can be: LowLevel or HighLevel
624
* Output         : None
625
* Return         : None
626
*******************************************************************************/
627
void UART_RTSConfig(UART_LevelTypeDef LevelState)
628
{
629
  if(LevelState == LowLevel)
630
  {
631
    UART0->CR |= UART_RTS_LowLevel_Mask;
632
  }
633
  else
634
  {
635
    UART0->CR &= UART_RTS_HighLevel_Mask;
636
  }
637
}
638
 
639
/*******************************************************************************
640
* Function Name  : UART_DTRConfig
641
* Description    : Sets or Resets the DTR signal for UART0 only
642
* Input          : - LevelState: new state of the DTR signal.
643
*                    This parameter can be: LowLevel or HighLevel
644
* Output         : None
645
* Return         : None
646
*******************************************************************************/
647
void UART_DTRConfig(UART_LevelTypeDef LevelState)
648
{
649
  if(LevelState == LowLevel)
650
  {
651
    UART0->CR |= UART_DTR_LowLevel_Mask;
652
  }
653
  else
654
  {
655
    UART0->CR &= UART_DTR_HighLevel_Mask;
656
  }
657
}
658
/******************* (C) COPYRIGHT 2006 STMicroelectronics *****END OF FILE****/

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