WebSVN – svnkaklik – Blame – /programy/C/avr/inclinometer/uart2.c

Rev	Author	Line No.	Line
510	kaklik	1	`/! \file uart2.c \brief Dual UART driver with buffer support. /`
		2	`//*****************************************************************************`
		3	`//`
		4	`// File Name : 'uart2.c'`
		5	`// Title : Dual UART driver with buffer support`
		6	`// Author : Pascal Stang - Copyright (C) 2000-2004`
		7	`// Created : 11/20/2000`
		8	`// Revised : 07/04/2004`
		9	`// Version : 1.0`
		10	`// Target MCU : ATMEL AVR Series`
		11	`// Editor Tabs : 4`
		12	`//`
		13	`// Description : This is a UART driver for AVR-series processors with two`
		14	`// hardware UARTs such as the mega161 and mega128`
		15	`//`
		16	`// This code is distributed under the GNU Public License`
		17	`// which can be found at http://www.gnu.org/licenses/gpl.txt`
		18	`//`
		19	`//*****************************************************************************`
		20
		21	`#include <avr/io.h>`
		22	`#include <avr/interrupt.h>`
		23
		24	`#include "buffer.h"`
		25	`#include "uart2.h"`
		26
		27	`// UART global variables`
		28	`// flag variables`
		29	`volatile u08 uartReadyTx[2];`
		30	`volatile u08 uartBufferedTx[2];`
		31	`// receive and transmit buffers`
		32	`cBuffer uartRxBuffer[2];`
		33	`cBuffer uartTxBuffer[2];`
		34	`unsigned short uartRxOverflow[2];`
		35	`#ifndef UART_BUFFER_EXTERNAL_RAM`
		36	`// using internal ram,`
		37	`// automatically allocate space in ram for each buffer`
		38	`static char uart0RxData[UART0_RX_BUFFER_SIZE];`
		39	`static char uart0TxData[UART0_TX_BUFFER_SIZE];`
		40	`static char uart1RxData[UART1_RX_BUFFER_SIZE];`
		41	`static char uart1TxData[UART1_TX_BUFFER_SIZE];`
		42	`#endif`
		43
		44	`typedef void (*voidFuncPtru08)(unsigned char);`
		45	`volatile static voidFuncPtru08 UartRxFunc[2];`
		46
		47	`void uartInit(void)`
		48	`{`
		49	`// initialize both uarts`
		50	`uart0Init();`
		51	`uart1Init();`
		52	`}`
		53
		54	`void uart0Init(void)`
		55	`{`
		56	`// initialize the buffers`
		57	`uart0InitBuffers();`
		58	`// initialize user receive handlers`
		59	`UartRxFunc[0] = 0;`
		60	`// enable RxD/TxD and interrupts`
		61	`outb(UCSR0B, BV(RXCIE)\|BV(TXCIE)\|BV(RXEN)\|BV(TXEN));`
		62	`// set default baud rate`
		63	`uartSetBaudRate(0, UART0_DEFAULT_BAUD_RATE);`
		64	`// initialize states`
		65	`uartReadyTx[0] = TRUE;`
		66	`uartBufferedTx[0] = FALSE;`
		67	`// clear overflow count`
		68	`uartRxOverflow[0] = 0;`
		69	`// enable interrupts`
		70	`sei();`
		71	`}`
		72
		73	`void uart1Init(void)`
		74	`{`
		75	`// initialize the buffers`
		76	`uart1InitBuffers();`
		77	`// initialize user receive handlers`
		78	`UartRxFunc[1] = 0;`
		79	`// enable RxD/TxD and interrupts`
		80	`outb(UCSR1B, BV(RXCIE)\|BV(TXCIE)\|BV(RXEN)\|BV(TXEN));`
		81	`// set default baud rate`
		82	`uartSetBaudRate(1, UART1_DEFAULT_BAUD_RATE);`
		83	`// initialize states`
		84	`uartReadyTx[1] = TRUE;`
		85	`uartBufferedTx[1] = FALSE;`
		86	`// clear overflow count`
		87	`uartRxOverflow[1] = 0;`
		88	`// enable interrupts`
		89	`sei();`
		90	`}`
		91
		92	`void uart0InitBuffers(void)`
		93	`{`
		94	`#ifndef UART_BUFFER_EXTERNAL_RAM`
		95	`// initialize the UART0 buffers`
		96	`bufferInit(&uartRxBuffer[0], uart0RxData, UART0_RX_BUFFER_SIZE);`
		97	`bufferInit(&uartTxBuffer[0], uart0TxData, UART0_TX_BUFFER_SIZE);`
		98	`#else`
		99	`// initialize the UART0 buffers`
		100	`bufferInit(&uartRxBuffer[0], (u08*) UART0_RX_BUFFER_ADDR, UART0_RX_BUFFER_SIZE);`
		101	`bufferInit(&uartTxBuffer[0], (u08*) UART0_TX_BUFFER_ADDR, UART0_TX_BUFFER_SIZE);`
		102	`#endif`
		103	`}`
		104
		105	`void uart1InitBuffers(void)`
		106	`{`
		107	`#ifndef UART_BUFFER_EXTERNAL_RAM`
		108	`// initialize the UART1 buffers`
		109	`bufferInit(&uartRxBuffer[1], uart1RxData, UART1_RX_BUFFER_SIZE);`
		110	`bufferInit(&uartTxBuffer[1], uart1TxData, UART1_TX_BUFFER_SIZE);`
		111	`#else`
		112	`// initialize the UART1 buffers`
		113	`bufferInit(&uartRxBuffer[1], (u08*) UART1_RX_BUFFER_ADDR, UART1_RX_BUFFER_SIZE);`
		114	`bufferInit(&uartTxBuffer[1], (u08*) UART1_TX_BUFFER_ADDR, UART1_TX_BUFFER_SIZE);`
		115	`#endif`
		116	`}`
		117
		118	`void uartSetRxHandler(u08 nUart, void (*rx_func)(unsigned char c))`
		119	`{`
		120	`// make sure the uart number is within bounds`
		121	`if(nUart < 2)`
		122	`{`
		123	`// set the receive interrupt to run the supplied user function`
		124	`UartRxFunc[nUart] = rx_func;`
		125	`}`
		126	`}`
		127
		128	`void uartSetBaudRate(u08 nUart, u32 baudrate)`
		129	`{`
		130	`// calculate division factor for requested baud rate, and set it`
		131	`u16 bauddiv = ((F_CPU+(baudrate8L))/(baudrate16L)-1);`
		132	`if(nUart)`
		133	`{`
		134	`outb(UBRR1L, bauddiv);`
		135	`#ifdef UBRR1H`
		136	`outb(UBRR1H, bauddiv>>8);`
		137	`#endif`
		138	`}`
		139	`else`
		140	`{`
		141	`outb(UBRR0L, bauddiv);`
		142	`#ifdef UBRR0H`
		143	`outb(UBRR0H, bauddiv>>8);`
		144	`#endif`
		145	`}`
		146	`}`
		147
		148	`cBuffer* uartGetRxBuffer(u08 nUart)`
		149	`{`
		150	`// return rx buffer pointer`
		151	`return &uartRxBuffer[nUart];`
		152	`}`
		153
		154	`cBuffer* uartGetTxBuffer(u08 nUart)`
		155	`{`
		156	`// return tx buffer pointer`
		157	`return &uartTxBuffer[nUart];`
		158	`}`
		159
		160	`void uartSendByte(u08 nUart, u08 txData)`
		161	`{`
		162	`// wait for the transmitter to be ready`
		163	`// while(!uartReadyTx[nUart]);`
		164	`// send byte`
		165	`if(nUart)`
		166	`{`
		167	`while(!(UCSR1A & (1<<UDRE)));`
		168	`outb(UDR1, txData);`
		169	`}`
		170	`else`
		171	`{`
		172	`while(!(UCSR0A & (1<<UDRE)));`
		173	`outb(UDR0, txData);`
		174	`}`
		175	`// set ready state to FALSE`
		176	`uartReadyTx[nUart] = FALSE;`
		177	`}`
		178
		179	`void uart0SendByte(u08 data)`
		180	`{`
		181	`// send byte on UART0`
		182	`uartSendByte(0, data);`
		183	`}`
		184
		185	`void uart1SendByte(u08 data)`
		186	`{`
		187	`// send byte on UART1`
		188	`uartSendByte(1, data);`
		189	`}`
		190
		191	`int uart0GetByte(void)`
		192	`{`
		193	`// get single byte from receive buffer (if available)`
		194	`u08 c;`
		195	`if(uartReceiveByte(0,&c))`
		196	`return c;`
		197	`else`
		198	`return -1;`
		199	`}`
		200
		201	`int uart1GetByte(void)`
		202	`{`
		203	`// get single byte from receive buffer (if available)`
		204	`u08 c;`
		205	`if(uartReceiveByte(1,&c))`
		206	`return c;`
		207	`else`
		208	`return -1;`
		209	`}`
		210
		211
		212	`u08 uartReceiveByte(u08 nUart, u08* rxData)`
		213	`{`
		214	`// make sure we have a receive buffer`
		215	`if(uartRxBuffer[nUart].size)`
		216	`{`
		217	`// make sure we have data`
		218	`if(uartRxBuffer[nUart].datalength)`
		219	`{`
		220	`// get byte from beginning of buffer`
		221	`*rxData = bufferGetFromFront(&uartRxBuffer[nUart]);`
		222	`return TRUE;`
		223	`}`
		224	`else`
		225	`return FALSE; // no data`
		226	`}`
		227	`else`
		228	`return FALSE; // no buffer`
		229	`}`
		230
		231	`void uartFlushReceiveBuffer(u08 nUart)`
		232	`{`
		233	`// flush all data from receive buffer`
		234	`bufferFlush(&uartRxBuffer[nUart]);`
		235	`}`
		236
		237	`u08 uartReceiveBufferIsEmpty(u08 nUart)`
		238	`{`
		239	`return (uartRxBuffer[nUart].datalength == 0);`
		240	`}`
		241
		242	`void uartAddToTxBuffer(u08 nUart, u08 data)`
		243	`{`
		244	`// add data byte to the end of the tx buffer`
		245	`bufferAddToEnd(&uartTxBuffer[nUart], data);`
		246	`}`
		247
		248	`void uart0AddToTxBuffer(u08 data)`
		249	`{`
		250	`uartAddToTxBuffer(0,data);`
		251	`}`
		252
		253	`void uart1AddToTxBuffer(u08 data)`
		254	`{`
		255	`uartAddToTxBuffer(1,data);`
		256	`}`
		257
		258	`void uartSendTxBuffer(u08 nUart)`
		259	`{`
		260	`// turn on buffered transmit`
		261	`uartBufferedTx[nUart] = TRUE;`
		262	`// send the first byte to get things going by interrupts`
		263	`uartSendByte(nUart, bufferGetFromFront(&uartTxBuffer[nUart]));`
		264	`}`
		265
		266	`u08 uartSendBuffer(u08 nUart, char *buffer, u16 nBytes)`
		267	`{`
		268	`register u08 first;`
		269	`register u16 i;`
		270
		271	`// check if there's space (and that we have any bytes to send at all)`
		272	`if((uartTxBuffer[nUart].datalength + nBytes < uartTxBuffer[nUart].size) && nBytes)`
		273	`{`
		274	`// grab first character`
		275	`first = *buffer++;`
		276	`// copy user buffer to uart transmit buffer`
		277	`for(i = 0; i < nBytes-1; i++)`
		278	`{`
		279	`// put data bytes at end of buffer`
		280	`bufferAddToEnd(&uartTxBuffer[nUart], *buffer++);`
		281	`}`
		282
		283	`// send the first byte to get things going by interrupts`
		284	`uartBufferedTx[nUart] = TRUE;`
		285	`uartSendByte(nUart, first);`
		286	`// return success`
		287	`return TRUE;`
		288	`}`
		289	`else`
		290	`{`
		291	`// return failure`
		292	`return FALSE;`
		293	`}`
		294	`}`
		295
		296	`// UART Transmit Complete Interrupt Function`
		297	`void uartTransmitService(u08 nUart)`
		298	`{`
		299	`// check if buffered tx is enabled`
		300	`if(uartBufferedTx[nUart])`
		301	`{`
		302	`// check if there's data left in the buffer`
		303	`if(uartTxBuffer[nUart].datalength)`
		304	`{`
		305	`// send byte from top of buffer`
		306	`if(nUart)`
		307	`outb(UDR1, bufferGetFromFront(&uartTxBuffer[1]) );`
		308	`else`
		309	`outb(UDR0, bufferGetFromFront(&uartTxBuffer[0]) );`
		310	`}`
		311	`else`
		312	`{`
		313	`// no data left`
		314	`uartBufferedTx[nUart] = FALSE;`
		315	`// return to ready state`
		316	`uartReadyTx[nUart] = TRUE;`
		317	`}`
		318	`}`
		319	`else`
		320	`{`
		321	`// we're using single-byte tx mode`
		322	`// indicate transmit complete, back to ready`
		323	`uartReadyTx[nUart] = TRUE;`
		324	`}`
		325	`}`
		326
		327	`// UART Receive Complete Interrupt Function`
		328	`void uartReceiveService(u08 nUart)`
		329	`{`
		330	`u08 c;`
		331	`// get received char`
		332	`if(nUart)`
		333	`c = inb(UDR1);`
		334	`else`
		335	`c = inb(UDR0);`
		336
		337	`// if there's a user function to handle this receive event`
		338	`if(UartRxFunc[nUart])`
		339	`{`
		340	`// call it and pass the received data`
		341	`UartRxFunc[nUart](c);`
		342	`}`
		343	`else`
		344	`{`
		345	`// otherwise do default processing`
		346	`// put received char in buffer`
		347	`// check if there's space`
		348	`if( !bufferAddToEnd(&uartRxBuffer[nUart], c) )`
		349	`{`
		350	`// no space in buffer`
		351	`// count overflow`
		352	`uartRxOverflow[nUart]++;`
		353	`}`
		354	`}`
		355	`}`
		356
		357	`UART_INTERRUPT_HANDLER(SIG_UART0_TRANS)`
		358	`{`
		359	`// service UART0 transmit interrupt`
		360	`uartTransmitService(0);`
		361	`}`
		362
		363	`UART_INTERRUPT_HANDLER(SIG_UART1_TRANS)`
		364	`{`
		365	`// service UART1 transmit interrupt`
		366	`uartTransmitService(1);`
		367	`}`
		368
		369	`UART_INTERRUPT_HANDLER(SIG_UART0_RECV)`
		370	`{`
		371	`// service UART0 receive interrupt`
		372	`uartReceiveService(0);`
		373	`}`
		374
		375	`UART_INTERRUPT_HANDLER(SIG_UART1_RECV)`
		376	`{`
		377	`// service UART1 receive interrupt`
		378	`uartReceiveService(1);`
		379	`}`

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(root)/programy/C/avr/inclinometer/uart2.c – Rev 513