Hendrik Lipka
A library to read and write all 25* serial SPI eeprom devices from Microchip (from 25xx010 to 25xx1024).
Dependents: RobotRic VITI2_ihm_2
Diff: Ser25lcxxx.cpp
- Revision:
- 0:238ca4fdef8c
- Child:
- 1:c29a67c7034d
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/Ser25lcxxx.cpp Wed Jan 26 22:14:41 2011 +0000
@@ -0,0 +1,177 @@
+#include "Ser25lcxxx.h"
+#include "wait_api.h"
+
+#define HIGH(x) ((x&0xff00)>>8)
+#define LOW(x) (x&0xff)
+
+Ser25LCxxx::Ser25LCxxx(SPI *spi, PinName enable, int bytes, int pagesize) {
+ _spi=spi;
+ _enable=new DigitalOut(enable);
+ _size=bytes;
+ _pageSize=pagesize;
+ _enable->write(1);
+}
+
+Ser25LCxxx::~Ser25LCxxx() {
+ delete _enable;
+}
+
+char* Ser25LCxxx::read(unsigned int startAdr, unsigned int len) {
+ // assertion
+ if (startAdr+len>_size)
+ return NULL;
+ char* ret=(char*)malloc(len);
+ _enable->write(0);
+ wait_us(1);
+ // send address
+ if (_size<512) { // 256 and 128 bytes
+ _spi->write(0x03);
+ _spi->write(LOW(startAdr));
+ } else if (512==_size) { // 4k variant adds 9th address bit to command
+ _spi->write(startAdr>255?0xb:0x3);
+ _spi->write(LOW(startAdr));
+ } else if (_size<131072) { // everything up to 512k
+ _spi->write(0x03);
+ _spi->write(HIGH(startAdr));
+ _spi->write(LOW(startAdr));
+ } else { // 25xx1024, needs 3 byte address
+ _spi->write(0x03);
+ _spi->write(startAdr>>16);
+ _spi->write(HIGH(startAdr));
+ _spi->write(LOW(startAdr));
+ }
+ // read data into buffer
+ for (int i=0;i<len;i++) {
+ ret[i]=_spi->write(0);
+ }
+ wait_us(1);
+ _enable->write(1);
+ return ret;
+}
+
+bool Ser25LCxxx::write(unsigned int startAdr, unsigned int len, const char* data) {
+ if (startAdr+len>_size)
+ return -1;
+
+ int ofs=0;
+ while (ofs<len) {
+ // calculate amount of data to write into current page
+ int pageLen=_pageSize-((startAdr+ofs)%_pageSize);
+ if (ofs+pageLen>len)
+ pageLen=len-ofs;
+ // write single page
+ bool b=writePage(startAdr+ofs,pageLen,data+ofs);
+ if (!b)
+ return false;
+ // and switch to next page
+ ofs+=pageLen;
+ }
+ return true;
+}
+
+bool Ser25LCxxx::writePage(unsigned int startAdr, unsigned int len, const char* data) {
+ enableWrite();
+
+ _enable->write(0);
+ wait_us(1);
+
+ if (_size<512) { // 256 and 128 bytes
+ _spi->write(0x02);
+ _spi->write(LOW(startAdr));
+ } else if (512==_size) { // 4k variant adds 9th address bit to command
+ _spi->write(startAdr>255?0xa:0x2);
+ _spi->write(LOW(startAdr));
+ } else if (_size<131072) { // everything up to 512k
+ _spi->write(0x02);
+ _spi->write(HIGH(startAdr));
+ _spi->write(LOW(startAdr));
+ } else { // 25xx1024, needs 3 byte address
+ _spi->write(0x02);
+ _spi->write(startAdr>>16);
+ _spi->write(HIGH(startAdr));
+ _spi->write(LOW(startAdr));
+ }
+
+ // do real write
+ for (int i=0;i<len;i++) {
+ _spi->write(data[i]);
+ }
+ wait_us(1);
+ // disable to start physical write
+ _enable->write(1);
+
+ waitForWrite();
+
+ return true;
+}
+
+bool Ser25LCxxx::clearPage(unsigned int pageNum) {
+ enableWrite();
+ if (_size<65535) {
+ char* s=(char*)malloc(_pageSize);
+ for (int i=0;i<_pageSize;i++) {
+ s[i]=0xff;
+ }
+ bool b=writePage(_pageSize*pageNum,_pageSize,s);
+ delete s;
+ return b;
+ } else {
+ _enable->write(0);
+ wait_us(1);
+ _spi->write(0x42);
+ _spi->write(HIGH(_pageSize*pageNum));
+ _spi->write(LOW(_pageSize*pageNum));
+ wait_us(1);
+ _enable->write(1);
+
+ waitForWrite();
+ }
+ return true;
+}
+
+void Ser25LCxxx::clearMem() {
+ enableWrite();
+ if (_size<65535) {
+ for (int i=0;i<_size/_pageSize;i++) {
+ if (!clearPage(i))
+ break;
+ }
+ }
+ else
+ {
+ _enable->write(0);
+ wait_us(1);
+ _spi->write(0xc7);
+ wait_us(1);
+ _enable->write(1);
+
+ waitForWrite();
+ }
+}
+
+int Ser25LCxxx::readStatus() {
+ _enable->write(0);
+ wait_us(1);
+ _spi->write(0x5);
+ int status=_spi->write(0x00);
+ wait_us(1);
+ _enable->write(1);
+ return status;
+}
+
+void Ser25LCxxx::waitForWrite() {
+ while (true) {
+ if (0==readStatus()&1)
+ break;
+ wait_us(10);
+ }
+}
+
+void Ser25LCxxx::enableWrite()
+{
+ _enable->write(0);
+ wait_us(1);
+ _spi->write(0x06);
+ wait_us(1);
+ _enable->write(1);
+}
25LCxxx SPI EEPROM