Flash Memory Issue

Hello,

I think you should read up on flash handling before doing this. I suggest that you check out the flash_fds or the flash_fs example, but I can try to explain why this is not working.

And by the way, if you upload the examples that you use to test it is faster for us to browse your code, and find the references to the SDK\softdevice functions you are using.

Are you sure that you have pasted the implementation you are using? I suspect you have removed at least one APP_ERROR_CHECK(err_code)?

Flash operations are fairly slow, compared to the runtime of your application. If I try to run your application implementation, the first write_SNV() is working fine, but the next is generating an error because APP_ERROR_CHECK(err_code) is called with err_code = 17, returned from sd_flash_write(). This is because there is already a flash operation ongoing. 

If the first flash write is not yet done, it is not possible to read out the flash that you are not yet finished writing in between.

This is why I recommend you looking into the flash_fs example. When you set up a proper flash handler, you can wait for the flash callback before you try to read it back. Try to search for the flash tickets here on devzone. There are probably hundreds of flash related tickets related to this kind of issue. 

Best regards,

Edvin

Hi Edvin,

Sorry for the late reply.Can I add a handler in my current code?

I am trying this. Is this the correct way?
Or any suggestion to fix the issue in this code?

uint32_t write_SNV(int address,uint8_t value)
{
    uint32_t val;
    val=value;
    ret_code_t         err_code;
    err_code=NRF_ERROR_BUSY;
   // NRF_LOG_INFO("Data Write in Flash");

   // err_code = sd_flash_write(p_addr+address, &val, sizeof(val));
    

    while(err_code!=NRF_SUCCESS)
    {
    err_code = sd_flash_write(p_addr+address, &val, sizeof(val));
    }
    
//    APP_ERROR_CHECK(err_code);


  if(err_code==NRF_ERROR_INTERNAL)
  {
   NRF_LOG_INFO("NRF_ERROR_INTERNAL");
  }
  else if(err_code==NRF_ERROR_INVALID_ADDR)
  {
   NRF_LOG_INFO("NRF_ERROR_INVALID_ADDR");
  } 
  else if(err_code==NRF_ERROR_BUSY)
  {
   NRF_LOG_INFO("NRF_ERROR_BUSY");
  }
  else if(err_code==NRF_ERROR_FORBIDDEN)
  {
   NRF_LOG_INFO("NRF_ERROR_FORBIDDEN");
  }
  else if(err_code==NRF_SUCCESS)
  {
   NRF_LOG_INFO("NRF_SUCCESS");
  }

    return err_code;
}

Edvin said:

Look at the header file (.h file) that declares (not defines, declares) the function that writes to flash. Do you find anything there that you can use to read?

Yes, I have found this function.

ret_code_t nrf_fstorage_read(nrf_fstorage_t const * p_fs,
                             uint32_t               src,
                             void                 * p_dest,
                             uint32_t               len)
{
    NRF_FSTORAGE_PARAM_CHECK(p_fs,        NRF_ERROR_NULL);
    NRF_FSTORAGE_PARAM_CHECK(p_dest,      NRF_ERROR_NULL);
    NRF_FSTORAGE_PARAM_CHECK(p_fs->p_api, NRF_ERROR_INVALID_STATE);
    NRF_FSTORAGE_PARAM_CHECK(len,         NRF_ERROR_INVALID_LENGTH);

    /* Source addres must be word-aligned. */
    NRF_FSTORAGE_PARAM_CHECK(addr_is_aligned32(src),                NRF_ERROR_INVALID_ADDR);
    NRF_FSTORAGE_PARAM_CHECK(addr_is_within_bounds(p_fs, src, len), NRF_ERROR_INVALID_ADDR);

    return (p_fs->p_api)->read(p_fs, src, p_dest, len);
}

Edvin said:

Do you intend to ever update these values? Or do you write them once, and never update them?

Yes, I have to update values again and again. 

Edvin said:

Do you have any other flash dependent components in your application? Peer manager, for example, for storing bonding information? If so, this will take the top 3 pages of your flash (3*4096 bytes). 

Yes, I have enabled bonding.

Edvin said:

Do you plan to have a bootloader? If so, that will also use some space in the top of your flash, where the size depends on what bootloader you are using. 

Yes, I have to add a secure bootloader in the future.

Edvin said:

If the answer to all of the questions above is no, then you can use for example 0x000FF000.

Now from what address I should start save values? 

I could tell you an address. You should use the page below the FDS pages that the peer manager uses. The peer manager uses the pages directly below the bootloader, so you should use the address of the page below the that again. E.g:

IF your bootloader starts at 0x000F8000, then you will have the FDS pages (used by the peer manager) at:

0x000F7000 -> 0x000F7FFF,
0x000F6000 -> 0x000F6FFF, and
0x000F5000 -> 0x000F5FFF

So you can for example use the page 

0x000F4000 -> 0x000F4FFF for your flash data.

Remember to set aside an extra page of reserved data in your bootloader. Let me know when you start on that what SDK version you are using and I can tell you the variable you need to change.

Also let me know if you have changed the number of flash pages used by FDS. By default it is 3 in our examples. 

How do you intend to update the flash data? Perhaps you can explain how you intend to do it. Hint: Before erasing an entire page, you can only change bits in flash from 1's to 0's. 

BR,

Edvin

Hi Edvin

Edvin said:

Remember to set aside an extra page of reserved data in your bootloader. Let me know when you start on that what SDK version you are using and I can tell you the variable you need to change.

 I am using nRF5SDK17009d13099 SDK.

Edvin said:

Also let me know if you have changed the number of flash pages used by FDS. By default it is 3 in our examples.

I think I didn't change any page.

I am trying to use the example flash_fstorage. I am using the following command to read the value from flash but getting the following values shown in the screenshot.

    NRF_LOG_INFO("Writing \"%s\" to flash.", m_hello_world);
    rc = nrf_fstorage_write(&fstorage, 0x3f000, m_hello_world, sizeof(m_hello_world), NULL);
    APP_ERROR_CHECK(rc);

    wait_for_flash_ready(&fstorage);
    NRF_LOG_INFO("Done.");



    rc = nrf_fstorage_read(&fstorage, 0x3f000, m_hello_world_f, sizeof(m_hello_world_f));
    APP_ERROR_CHECK(rc);


    for(int i=0;i<sizeof(m_hello_world_f);i++)
    {
     NRF_LOG_INFO("Read Data : %c",m_hello_world_f[i]);
    }

Is there any simple file where I can just call read/write functions to save/read from flash?
Thanks!

I guess there is something in that flash area already. Are you running the unmodified flash_fstorage example, or did you add it to another project?

Try to comment out the nrf_fstorage_write() and see what it prints if you don't write anything. Also, %c will only print characters if it is an ascii value. Try to print using %02x:

If it doesn't print FF for all the values, it means that the flash is not empty. Also, you can use NRF_LOG_RAW_INFO(); if you don't want the linefeed after every char:

    NRF_LOG_INFO("Reading from flash hex:");
    for(uint8_t i=0; i<sizeof(m_hello_world); i++)
    {
        NRF_LOG_RAW_INFO("%02x:", m_hello_world[i]);
    }
    NRF_LOG_RAW_INFO("\r\n");
    NRF_LOG_INFO("Reading from flash char:");
    for(uint8_t i=0; i<sizeof(m_hello_world); i++)
    {
        NRF_LOG_RAW_INFO("%c", m_hello_world[i]);
    }
    NRF_LOG_RAW_INFO("\r\n");
    NRF_LOG_INFO("done");

I suspect that there is some data in that flash area before you try to write to it. As I mentioned, writing to flash can only change 1's to 0's, so you need to erase the page first. Try using "nrfjprog --eraseall" befoe programming the example. Also, if you add things to your project, then the address 0x3F000 may already be used by the application .hex file.

Regarding everything else: So you are using SDK17, and you use the peer manager. Look at the sdk_config.h file of the project that uses the peer manager, and search for FDS_VIRTUAL_PAGES. This sets the number of FDS pages. By default it is 3.

The secure_bootloader\pca10056_s140_ble bootloader has a flash start address of 0xf8000. So if you use this one, then it means that the FDS pages are on 0xF7000, 0xF6000 and 0xF5000. You can use 0xF4000->0xF4FFF. 

In your bootloader project, when you get this far, check it's sdk_config.h file. Look for NRF_DFU_APP_DATA_AREA_SIZE.

This is the parameter saying how much of the flash beneath the bootloader that is reserved for application flash use, and this area will not be overwritten during a DFU. 

By default it is set to 12288. This is the number of bytes that are protected. One flash page is 4096 bytes long, so this corresponds to 3 pages (the FDS pages). If you want to add another page for custom data, please increase this number by 4096.

BR,

Edvin

Edvin said:

I guess there is something in that flash area already. Are you running the unmodified flash_fstorage example, or did you add it to another project?

I am using the unmodified flash_fstorage example.


Here is the data I have read after implementing your code part.

Edvin said:

I guess there is something in that flash area already. Are you running the unmodified flash_fstorage example, or did you add it to another project?

I am using the unmodified flash_fstorage example.


Here is the data I have read after implementing your code part.

You need to erase your chip before programming it. I guess the content of that area is from another project that you tested once.

Edvin said:

Try using "nrfjprog --eraseall"

Edvin said:

You need to erase your chip before programming it. I guess the content of that area is from another project that you tested once.

good

I am trying to save different data in the same location but getting different data. 

    char  m_hello_world[]   ="hello world";

    NRF_LOG_INFO("Writing \"%s\" to flash.", m_hello_world);
    rc = nrf_fstorage_write(&fstorage, 0x3f000, m_hello_world, sizeof(m_hello_world), NULL);
    APP_ERROR_CHECK(rc);

    wait_for_flash_ready(&fstorage);
    NRF_LOG_INFO("Done.");

 
    rc = nrf_fstorage_read(&fstorage, 0x3f000, m_hello_world_f, sizeof(m_hello_world_f));
    APP_ERROR_CHECK(rc);


    NRF_LOG_INFO("Reading from flash hex:");
    for(uint8_t i=0; i<sizeof(m_hello_world_f); i++)
    {
        NRF_LOG_RAW_INFO("%02x:", m_hello_world_f[i]);
    }
    NRF_LOG_RAW_INFO("\r\n");
    NRF_LOG_INFO("Reading from flash char:");
    for(uint8_t i=0; i<sizeof(m_hello_world_f); i++)
    {
        NRF_LOG_RAW_INFO("%c", m_hello_world_f[i]);
    }
    NRF_LOG_RAW_INFO("\r\n");
    NRF_LOG_INFO("done");


    char m_hello_world_1[]="AllWell";


    NRF_LOG_INFO("Writing \"%s\" to flash.", m_hello_world_1);
    rc = nrf_fstorage_write(&fstorage, 0x3f000, m_hello_world_1, sizeof(m_hello_world_1), NULL);
    APP_ERROR_CHECK(rc);

    wait_for_flash_ready(&fstorage);
    NRF_LOG_INFO("Done.");

 
    rc = nrf_fstorage_read(&fstorage, 0x3f000, m_hello_world_f, sizeof(m_hello_world_1));
    APP_ERROR_CHECK(rc);


    NRF_LOG_INFO("Reading from flash hex:");
    for(uint8_t i=0; i<sizeof(m_hello_world_f); i++)
    {
        NRF_LOG_RAW_INFO("%02x:", m_hello_world_f[i]);
    }
    NRF_LOG_RAW_INFO("\r\n");
    NRF_LOG_INFO("Reading from flash char:");
    for(uint8_t i=0; i<sizeof(m_hello_world_f); i++)
    {
        NRF_LOG_RAW_INFO("%c", m_hello_world_f[i]);
    }
    NRF_LOG_RAW_INFO("\r\n");
    NRF_LOG_INFO("done");

You don't erase the page in between.

I have tried to say several times that when you write to flash, you can only change bits from 1 to 0. That means if you write a byte 0x0F to a byte that was already 0xFF, then it will have the value 0x0F after you write. If you write the byte 0xDD to a byte that already have 0xFF 0x0F,  then it will end up with the value 0x0D. That is how flash works. you need to erase the page using sd_flash_page_erase(), which will clear the entire flash page, and set it to all 0xFF.

Edit: one of the 0xFF above should have been 0x0F. fixed now.