#define CHUNCK_SIZE 16
+/**
+ * Erase EEPROM.
+ * \param eep is the Kblock context.
+ * \param addr eeprom address where start to erase
+ * \param size number of byte to erase
+ */
bool eeprom_erase(Eeprom *eep, e2addr_t addr, e2_size_t size)
{
uint8_t tmp[CHUNCK_SIZE] = { [0 ... (CHUNCK_SIZE - 1)] = 0xFF };
return true;
}
+/**
+ * Verify EEPROM.
+ * \param eep is the Kblock context.
+ * \param addr eeprom address where start to verify.
+ * \param buf buffer of data to compare with eeprom data read.
+ * \param size number of byte to verify.
+ */
bool eeprom_verify(Eeprom *eep, e2addr_t addr, const void *buf, size_t size)
{
uint8_t verify_buf[CHUNCK_SIZE];
STATIC_ASSERT(countof(addr_buf) <= sizeof(e2addr_t));
-
/* clamp size to memory limit (otherwise may roll back) */
- ASSERT(idx <= blk->blk_cnt);
+ ASSERT(idx < blk->priv.blk_start + blk->blk_cnt);
size = MIN(size, blk->blk_size - offset);
if (mem_info[eep->type].has_dev_addr)
STATIC_ASSERT(countof(addr_buf) <= sizeof(e2addr_t));
/* clamp size to memory limit (otherwise may roll back) */
- ASSERT(idx <= blk->blk.blk_cnt);
+ ASSERT(idx < blk->blk.priv.blk_start + blk->blk.blk_cnt);
size = MIN(size, blk->blk.blk_size - offset);
e2dev_addr_t dev_addr;
/**
* Initialize EEPROM module.
- * \param b is the Kblock context.
+ * \param eep is the Kblock context.
* \param type is the eeprom device we want to initialize (\see EepromType)
* \param i2c context for i2c channel
* \param addr is the i2c devide address (usually pins A0, A1, A2).
+ * \param verify enable the write check.
*/
void eeprom_init_5(Eeprom *eep, I2c *i2c, EepromType type, e2dev_addr_t addr, bool verify)
{