Modularizando o src
Dependencies: EALib EthernetInterface_vz mbed-rtos mbed
Fork of header_main_colinas_V0-20-09-14 by
configs.cpp
- Committer:
- klauss
- Date:
- 2014-11-24
- Revision:
- 74:81c47fff88a5
- Parent:
- 33:735fd60e96d8
- Child:
- 86:bf7b0d4c3232
File content as of revision 74:81c47fff88a5:
#include "configs.h" //***************************************************************************** // Pins/Modules Config //***************************************************************************** InterruptIn NextData(p8); //IO 96 InterruptIn FrameSync(p17); // GCLK1 //Ticker ticker; // Timer para Debug DigitalOut RST(p29); // Pino de reset para o CPLD DigitalIn PPD(p25); // Pino de conexao com o cristal do CPLD DigitalOut ENABLE_F_REG(p18); // Configuracao da Alimentacao do CPLD DigitalOut ENABLE_F_RX(p19); DigitalOut ENABLE_F_TX(p20); Serial Uart3(p9,p10); // default baudrate = 9600; Sem paridade, 8bits, 1 stop-bit void start_cpld( void ) { //CPLD Start static uint16_t reset = 10000; ENABLE_F_REG = 1; ENABLE_F_TX = 1; ENABLE_F_RX = 1; DataReady = 0; RST = 1; while( reset-- > 1 ){} RST = 0; } ///< Configure LPC4088 void config_lpc( void ){ Uart3.attach(&SerialRecvInterrupt, Uart3.RxIrq); // UART3_IRQ configuration Uart3.format(8,SerialBase::Forced1,1); // UART3 mode configuration Uart3.baud(2000000); NVIC_SetPriority(UART3_IRQn,1); pc.baud(115200); // USART to PC USB USART NextData.rise(&get2); // Extern Pin Interrupt FrameSync.rise(&RXFrameSync); // FrameSync for RX - Interrupt __enable_irq(); //ticker.attach(&timer,0.01); // Timer para Debug } static uint8_t itoh[16]; static uint8_t hexbuf[10]; uint8_t *hextoascii ( uint8_t src ) { hexbuf[0] = itoh[(src>>4) & 0x0f]; hexbuf[1] = itoh[src & 0x0f]; hexbuf[2] = 0; return hexbuf; } void uart3_puts(uint8_t *src, uint16_t size){ // Print a string in UART3 while (size--){ while ( !(LPC_UART3->LSR &= (1<<5)) ) {} LPC_UART3->THR = *src++; } } void uart0_puts( uint8_t *src) { // Print a string in UART3 uint16_t size = 300; while (size--){ while ( !(LPC_UART0->LSR & (1<<5)) ) {} LPC_UART0->THR = *src++; } } void uart0_putsx(volatile uint8_t *src ){ // Print a string in UART0 uint16_t size = 300;//sizeof( src ); uint8_t *buff; while (size--) { buff = hextoascii(*(src++)); for ( uint8_t i = 0; i < 3; i++ ){ while ( !(LPC_UART0->LSR &= (1<<5)) ) {} LPC_UART0->THR = buff[i]; //*src++; } } } void uart0_text( const char* src){ // Print a string of constant in UART0 static uint16_t size; size = sizeof (src); while (size--){ while ( !(LPC_UART0->LSR &= (1<<5)) ) {} LPC_UART0->THR = *src++; } }