2003-11-30 11:37:43 +00:00
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// minimalistic monitor
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// to be loaded with the UART boot feature
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// capable of reading and writing bytes, commanded by UART
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#include "sh7034.h"
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#include "minimon.h"
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// scalar types
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typedef unsigned char UINT8;
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typedef unsigned short UINT16;
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typedef unsigned long UINT32;
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typedef void(*tpFunc)(void); // type for exec
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typedef int(*tpMain)(void); // type for start vector to main()
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// prototypes
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int main(void);
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// our binary has to start with a vector to the entry point
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tpMain start_vector[] __attribute__ ((section (".startvector"))) = {main};
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UINT8 uart_read(void)
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{
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UINT8 byte;
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while (!(SSR1 & SCI_RDRF)); // wait for char to be available
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byte = RDR1;
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SSR1 &= ~SCI_RDRF;
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return byte;
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}
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void uart_write(UINT8 byte)
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{
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while (!(SSR1 & SCI_TDRE)); // wait for transmit buffer empty
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TDR1 = byte;
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SSR1 &= ~SCI_TDRE;
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}
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int main(void)
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{
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UINT8 cmd;
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UINT32 addr;
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UINT32 size;
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UINT32 content;
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volatile UINT8* paddr = 0;
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2008-10-30 00:34:43 +00:00
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volatile UINT8* pflash = 0; // flash base address
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2003-11-30 11:37:43 +00:00
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while (1)
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{
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cmd = uart_read();
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switch (cmd)
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{
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case BAUDRATE:
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content = uart_read();
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uart_write(cmd); // acknowledge by returning the command value
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while (!(SSR1 & SCI_TEND)); // wait for empty shift register, before changing baudrate
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BRR1 = content;
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break;
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case ADDRESS:
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addr = (uart_read() << 24) | (uart_read() << 16) | (uart_read() << 8) | uart_read();
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paddr = (UINT8*)addr;
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pflash = (UINT8*)(addr & 0xFFF80000); // round down to 512k align
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uart_write(cmd); // acknowledge by returning the command value
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break;
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case BYTE_READ:
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content = *paddr++;
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uart_write(content); // the content is the ack
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break;
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case BYTE_WRITE:
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content = uart_read();
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*paddr++ = content;
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uart_write(cmd); // acknowledge by returning the command value
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break;
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case BYTE_READ16:
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size = 16;
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while (size--)
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{
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content = *paddr++;
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uart_write(content); // the content is the ack
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}
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break;
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case BYTE_WRITE16:
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size = 16;
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while (size--)
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{
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content = uart_read();
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*paddr++ = content;
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}
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uart_write(cmd); // acknowledge by returning the command value
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break;
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case BYTE_FLASH:
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content = uart_read();
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pflash[0x5555] = 0xAA; // set flash to command mode
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pflash[0x2AAA] = 0x55;
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pflash[0x5555] = 0xA0; // byte program command
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*paddr++ = content;
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uart_write(cmd); // acknowledge by returning the command value
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break;
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case BYTE_FLASH16:
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size = 16;
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while (size--)
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{
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content = uart_read();
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pflash[0x5555] = 0xAA; // set flash to command mode
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pflash[0x2AAA] = 0x55;
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pflash[0x5555] = 0xA0; // byte program command
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*paddr++ = content;
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}
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uart_write(cmd); // acknowledge by returning the command value
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break;
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case HALFWORD_READ:
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content = *(UINT16*)paddr;
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paddr += 2;
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uart_write(content >> 8); // highbyte
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uart_write(content & 0xFF); // lowbyte
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break;
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case HALFWORD_WRITE:
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content = uart_read() << 8 | uart_read();
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*(UINT16*)paddr = content;
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paddr += 2;
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uart_write(cmd); // acknowledge by returning the command value
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break;
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case EXECUTE:
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{
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tpFunc pFunc = (tpFunc)paddr;
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pFunc();
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uart_write(cmd); // acknowledge by returning the command value
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}
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break;
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default:
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{
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volatile UINT16* pPortB = (UINT16*)0x05FFFFC2;
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*pPortB |= 1 << 6; // bit 6 is red LED on
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uart_write(~cmd); // error acknowledge
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}
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} // case
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}
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return 0;
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}
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