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Diff: eeprom_lib.h
- Revision:
- 5:266d466bd7b2
- Parent:
- 4:e323cdfbc089
diff -r e323cdfbc089 -r 266d466bd7b2 eeprom_lib.h --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/eeprom_lib.h Wed Jul 04 19:29:09 2018 +0000 @@ -0,0 +1,536 @@ +#ifndef __EEPROM__H_ +#define __EEPROM__H_ + +// Includes +#include <string> + +#include "mbed.h" + +// Example +/* +#include <string> + +#include "mbed.h" +#include "eeprom.h" + +#define EEPROM_ADDR 0x0 // I2c EEPROM address is 0x00 + +#define SDA p9 // I2C SDA pin +#define SCL p10 // I2C SCL pin + +#define MIN(X,Y) ((X) < (Y) ? (X) : (Y)) +#define MAX(X,Y) ((X) > (Y) ? (X) : (Y)) + +DigitalOut led2(LED2); + +typedef struct _MyData { + int16_t sdata; + int32_t idata; + float fdata; + } MyData; + +static void myerror(std::string msg) +{ + printf("Error %s\n",msg.c_str()); + exit(1); +} + +void eeprom_test(void) +{ + EEPROM ep(SDA,SCL,EEPROM_ADDR,EEPROM::T24C64); // 24C64 eeprom with sda = p9 and scl = p10 + uint8_t data[256],data_r[256]; + int8_t ival; + uint16_t s; + int16_t sdata,sdata_r; + int32_t ldata[1024]; + int32_t eeprom_size,max_size; + uint32_t addr; + int32_t idata,idata_r; + uint32_t i,j,k,l,t,id; + float fdata,fdata_r; + MyData md,md_r; + + eeprom_size = ep.getSize(); + max_size = MIN(eeprom_size,256); + + printf("Test EEPROM I2C model %s of %d bytes\n\n",ep.getName(),eeprom_size); + + // Test sequential read byte (max_size first bytes) + for(i = 0;i < max_size;i++) { + ep.read(i,ival); + data_r[i] = ival; + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + } + + printf("Test sequential read %d first bytes :\n",max_size); + for(i = 0;i < max_size/16;i++) { + for(j = 0;j < 16;j++) { + addr = i * 16 + j; + printf("%3d ",(uint8_t)data_r[addr]); + } + printf("\n"); + } + + // Test sequential read byte (max_size last bytes) + for(i = 0;i < max_size;i++) { + addr = eeprom_size - max_size + i; + ep.read(addr,ival); + data_r[i] = ival; + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + } + + printf("\nTest sequential read %d last bytes :\n",max_size); + for(i = 0;i < max_size/16;i++) { + for(j = 0;j < 16;j++) { + addr = i * 16 + j; + printf("%3d ",(uint8_t)data_r[addr]); + } + printf("\n"); + } + + // Test write byte (max_size first bytes) + for(i = 0;i < max_size;i++) + data[i] = i; + + for(i = 0;i < max_size;i++) { + ep.write(i,(int8_t)data[i]); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + } + + // Test read byte (max_size first bytes) + for(i = 0;i < max_size;i++) { + ep.read(i,(int8_t&)ival); + data_r[i] = (uint8_t)ival; + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + } + + printf("\nTest write and read %d first bytes :\n",max_size); + for(i = 0;i < max_size/16;i++) { + for(j = 0;j < 16;j++) { + addr = i * 16 + j; + printf("%3d ",(uint8_t)data_r[addr]); + } + printf("\n"); + } + + // Test current address read byte (max_size first bytes) + ep.read((uint32_t)0,(int8_t&)ival); // current address is 0 + data_r[0] = (uint8_t)ival; + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + for(i = 1;i < max_size;i++) { + ep.read((int8_t&)ival); + data_r[i] = (uint8_t)ival; + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + } + + printf("\nTest current address read %d first bytes :\n",max_size); + for(i = 0;i < max_size/16;i++) { + for(j = 0;j < 16;j++) { + addr = i * 16 + j; + printf("%3d ",(uint8_t)data_r[addr]); + } + printf("\n"); + } + + // Test sequential read byte (first max_size bytes) + ep.read((uint32_t)0,(int8_t *)data_r,(uint32_t) max_size); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + printf("\nTest sequential read %d first bytes :\n",max_size); + for(i = 0;i < max_size/16;i++) { + for(j = 0;j < 16;j++) { + addr = i * 16 + j; + printf("%3d ",(uint8_t)data_r[addr]); + } + printf("\n"); + } + + // Test write short, long, float + sdata = -15202; + addr = eeprom_size - 16; + ep.write(addr,(int16_t)sdata); // short write at address eeprom_size - 16 + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + idata = 45123; + addr = eeprom_size - 12; + ep.write(addr,(int32_t)idata); // long write at address eeprom_size - 12 + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + fdata = -12.26; + addr = eeprom_size - 8; + ep.write(addr,(float)fdata); // float write at address eeprom_size - 8 + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + // Test read short, long, float + printf("\nTest write and read short (%d), long (%d), float (%f) :\n", + sdata,idata,fdata); + + ep.read((uint32_t)(eeprom_size - 16),(int16_t&)sdata_r); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + printf("sdata %d\n",sdata_r); + + ep.read((uint32_t)(eeprom_size - 12),(int32_t&)idata_r); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + printf("idata %d\n",idata_r); + + ep.read((uint32_t)(eeprom_size - 8),fdata_r); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + printf("fdata %f\n",fdata_r); + + // Test read and write a structure + md.sdata = -15203; + md.idata = 45124; + md.fdata = -12.27; + + ep.write((uint32_t)(eeprom_size - 32),(void *)&md,sizeof(md)); // write a structure eeprom_size - 32 + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + printf("\nTest write and read a structure (%d %d %f) :\n",md.sdata,md.idata,md.fdata); + + ep.read((uint32_t)(eeprom_size - 32),(void *)&md_r,sizeof(md_r)); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + printf("md.sdata %d\n",md_r.sdata); + printf("md.idata %d\n",md_r.idata); + printf("md.fdata %f\n",md_r.fdata); + + // Test read and write of an array of the first max_size bytes + for(i = 0;i < max_size;i++) + data[i] = max_size - i - 1; + + ep.write((uint32_t)(0),data,(uint32_t)max_size); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + ep.read((uint32_t)(0),data_r,(uint32_t)max_size); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + printf("\nTest write and read an array of the first %d bytes :\n",max_size); + for(i = 0;i < max_size/16;i++) { + for(j = 0;j < 16;j++) { + addr = i * 16 + j; + printf("%3d ",(uint8_t)data_r[addr]); + } + printf("\n"); + } + printf("\n"); + + // Test write and read an array of int32 + s = eeprom_size / 4; // size of eeprom in int32 + int ldata_size = sizeof(ldata) / 4; // size of data array in int32 + l = s / ldata_size; // loop index + + // size of read / write in bytes + t = eeprom_size; + if(t > ldata_size * 4) + t = ldata_size * 4; + + printf("Test write and read an array of %d int32 (write entire memory) :\n",t/4); + + // Write entire eeprom + if(l) { + for(k = 0;k < l;k++) { + for(i = 0;i < ldata_size;i++) + ldata[i] = ldata_size * k + i; + + addr = k * ldata_size * 4; + ep.write(addr,(void *)ldata,t); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + } + + printf("Write OK\n"); + + // Read entire eeprom + id = 0; + for(k = 0;k < l;k++) { + addr = k * ldata_size * 4; + ep.read(addr,(void *)ldata,t); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + // format outputs with 8 words rows + for(i = 0;i < ldata_size / 8;i++) { + id++; + printf("%4d ",id); + for(j = 0;j < 8;j++) { + addr = i * 8 + j; + printf("%5d ",ldata[addr]); + } + printf("\n"); + } + } + } + else { + for(i = 0;i < s;i++) + ldata[i] = i; + + addr = 0; + ep.write(addr,(void *)ldata,t); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + printf("Write OK\n"); + + // Read entire eeprom + id = 0; + + addr = 0; + ep.read(addr,(void *)ldata,t); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + // format outputs with 8 words rows + for(i = 0;i < s / 8;i++) { + id++; + printf("%4d ",id); + for(j = 0;j < 8;j++) { + addr = i * 8 + j; + printf("%5d ",ldata[addr]); + } + printf("\n"); + } + } + + // clear eeprom + printf("\nClear eeprom\n"); + + ep.clear(); + if(ep.getError() != 0) + myerror(ep.getErrorMessage()); + + printf("End\n"); + +} + +int main() +{ + + eeprom_test(); + + return(0); +} +*/ + +// Defines +#define EEPROM_Address 0xa0 + +#define EEPROM_NoError 0x00 +#define EEPROM_BadAddress 0x01 +#define EEPROM_I2cError 0x02 +#define EEPROM_ParamError 0x03 +#define EEPROM_OutOfRange 0x04 +#define EEPROM_MallocError 0x05 + +#define EEPROM_MaxError 6 + +static std::string _ErrorMessageEEPROM[EEPROM_MaxError] = { + "", + "Bad chip address", + "I2C error (nack)", + "Invalid parameter", + "Data address out of range", + "Memory allocation error" + }; + +/** EEPROM Class +*/ +class EEPROM { +public: + enum TypeEeprom {T24C01=128,T24C02=256,T24C04=512,T24C08=1024,T24C16=2048, + T24C32=4096,T24C64=8192,T24C128=16384,T24C256=32768, + T24C512=65536,T24C1024=131072,T24C1025=131073} Type; + + /** + * Constructor, initialize the eeprom on i2c interface. + * @param sda sda i2c pin (PinName) + * @param scl scl i2c pin (PinName) + * @param address eeprom address, according to eeprom type (uint8_t) + * @param type eeprom type (TypeEeprom) + * @return none + */ + EEPROM(PinName sda, PinName scl, uint8_t address, TypeEeprom type); + + /** + * Random read byte + * @param address start address (uint32_t) + * @param data byte to read (int8_t&) + * @return none + */ + void read(uint32_t address, int8_t& data); + + /** + * Random read short + * @param address start address (uint32_t) + * @param data short to read (int16_t&) + * @return none + */ + void read(uint32_t address, int16_t& data); + + /** + * Random read long + * @param address start address (uint32_t) + * @param data long to read (int32_t&) + * @return none + */ + void read(uint32_t address, int32_t& data); + + /** + * Random read float + * @param address start address (uint32_t) + * @param data float to read (float&) + * @return none + */ + void read(uint32_t address, float& data); + + /** + * Random read anything + * @param address start address (uint32_t) + * @param data data to read (void *) + * @param size number of bytes to read (uint32_t) + * @return none + */ + void read(uint32_t address, void *data, uint32_t size); + + /** + * Current address read byte + * @param data byte to read (int8_t&) + * @return none + */ + void read(int8_t& data); + + /** + * Sequential read byte + * @param address start address (uint32_t) + * @param data bytes array to read (int8_t[]&) + * @param size number of bytes to read (uint32_t) + * @return none + */ + void read(uint32_t address, int8_t *data, uint32_t size); + + /** + * Write byte + * @param address start address (uint32_t) + * @param data byte to write (int8_t) + * @return none + */ + void write(uint32_t address, int8_t data); + + /** + * Write short + * @param address start address (uint32_t) + * @param data short to write (int16_t) + * @return none + */ + void write(uint32_t address, int16_t data); + + /** + * Write long + * @param address start address (uint32_t) + * @param data long to write (int32_t) + * @return none + */ + void write(uint32_t address, int32_t data); + + /** + * Write float + * @param address start address (uint32_t) + * @param data float to write (float) + * @return none + */ + void write(uint32_t address, float data); + + /** + * Write anything (use the page write mode) + * @param address start address (uint32_t) + * @param data data to write (void *) + * @param size number of bytes to write (uint32_t) + * @return none + */ + void write(uint32_t address, void *data, uint32_t size); + + /** + * Write array of bytes (use the page mode) + * @param address start address (uint32_t) + * @param data bytes array to write (int8_t[]) + * @param size number of bytes to write (uint32_t) + * @return none + */ + void write(uint32_t address, int8_t data[], uint32_t size); + + /** + * Wait eeprom ready + * @param none + * @return none + */ + void ready(void); + + /** + * Get eeprom size in bytes + * @param none + * @return size in bytes (uint32_t) + */ + uint32_t getSize(void); + + /** + * Get eeprom name + * @param none + * @return name (const char*) + */ + const char* getName(void); + + /** + * Clear eeprom (write with 0) + * @param none + * @return none + */ + void clear(void); + + /** + * Get the current error number (EEPROM_NoError if no error) + * @param none + * @return none + */ + uint8_t getError(void); + + /** + * Get current error message + * @param none + * @return current error message(std::string) + */ + std::string getErrorMessage(void) + { + return(_ErrorMessageEEPROM[_errnum]); + } + +//---------- local variables ---------- +private: + I2C _i2c; // Local i2c communication interface instance + int _address; // Local i2c address + uint8_t _errnum; // Error number + TypeEeprom _type; // EEPROM type + uint8_t _page_write; // Page write size + uint8_t _page_number; // Number of page + uint32_t _size; // Size in bytes + bool checkAddress(uint32_t address); // Check address range + static const char * const _name[]; // eeprom name +//------------------------------------- +}; +#endif