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I'm doing some experiment on SSDs to check weather they have data loss under power fault. At the first step I write a random data on SSD and then in the next step I inject a power fault to it. At the end I read from the SSD and check weather the data match to data I've written before power fault. Unfortunately all the tests passed without any data loss.

Here's a sample code for my experiment.

#include <iostream>
#include <cstdlib>
#include <cstdio>
#include <unistd.h>
using namespace std;

int main()
{
   FILE *fp = fopen("/dev/sdb", "rb+");

   char* writeBuffer = (char*) malloc(4096 * 16 * sizeof(char));
   char* readBuffer = (char*) malloc(4096 * 16 * sizeof(char));

   for(int i = 0; i < 4096 * 16; i++)
     readBuffer[i] = rand() % 256;

   fseeko64(fp, (unsigned long long int) 6107552 * 4096, SEEK_SET);
   int writeBytes = fwrite((void*) writeBuffer, sizeof(char), 4096 * 16, fp);

   sleep(2); // power fault injection

   fseeko64(fp, (unsigned long long int) 6107552 * 4096, SEEK_SET);
   int readBytes = fread((void*) readBuffer, sizeof(char), 4096 * 16, fp);

   cout << "Write Bytes : " << writeBytes
        << "    Read Bytes : " << readBytes << endl;

   fclose(fp);
   return 0;
}

I executed the code above while running blktrace on /dev/sdb. I got the following result. fread() has no trace in blktrace output.

  blktrace -d /dev/sdb -o - | blkparse -i -
  8,16   3        1     0.000000000    74  Q   W 48860416 + 8 [kworker/u16:1]
  8,16   3        2     0.000005829    74  G   W 48860416 + 8 [kworker/u16:1]
  8,16   3        3     0.000007357    74  P   N [kworker/u16:1]
  8,16   3        4     0.000010943    74  Q   W 48860424 + 8 [kworker/u16:1]
  8,16   3        5     0.000012601    74  M   W 48860424 + 8 [kworker/u16:1]
  8,16   3        6     0.000014427    74  Q   W 48860432 + 8 [kworker/u16:1]
  8,16   3        7     0.000014899    74  M   W 48860432 + 8 [kworker/u16:1]
  8,16   3        8     0.000016525    74  Q   W 48860440 + 8 [kworker/u16:1]
  8,16   3        9     0.000016780    74  M   W 48860440 + 8 [kworker/u16:1]
  8,16   3       10     0.000018818    74  Q   W 48860448 + 8 [kworker/u16:1]
  8,16   3       11     0.000019168    74  M   W 48860448 + 8 [kworker/u16:1]
  8,16   3       12     0.000022649    74  Q   W 48860456 + 8 [kworker/u16:1]
  8,16   3       13     0.000022929    74  M   W 48860456 + 8 [kworker/u16:1]
  8,16   3       14     0.000024345    74  Q   W 48860464 + 8 [kworker/u16:1]
  8,16   3       15     0.000024682    74  M   W 48860464 + 8 [kworker/u16:1]
  8,16   3       16     0.000025933    74  Q   W 48860472 + 8 [kworker/u16:1]
  8,16   3       17     0.000026205    74  M   W 48860472 + 8 [kworker/u16:1]
  8,16   3       18     0.000027480    74  Q   W 48860480 + 8 [kworker/u16:1]
  8,16   3       19     0.000027803    74  M   W 48860480 + 8 [kworker/u16:1]
  8,16   3       20     0.000029141    74  Q   W 48860488 + 8 [kworker/u16:1]
  8,16   3       21     0.000029416    74  M   W 48860488 + 8 [kworker/u16:1]
  8,16   3       22     0.000030519    74  Q   W 48860496 + 8 [kworker/u16:1]
  8,16   3       23     0.000030856    74  M   W 48860496 + 8 [kworker/u16:1]
  8,16   3       24     0.000032865    74  Q   W 48860504 + 8 [kworker/u16:1]
  8,16   3       25     0.000033172    74  M   W 48860504 + 8 [kworker/u16:1]
  8,16   3       26     0.000034933    74  Q   W 48860512 + 8 [kworker/u16:1]
  8,16   3       27     0.000035258    74  M   W 48860512 + 8 [kworker/u16:1]
  8,16   3       28     0.000036723    74  Q   W 48860520 + 8 [kworker/u16:1]
  8,16   3       29     0.000037081    74  M   W 48860520 + 8 [kworker/u16:1]
  8,16   3       30     0.000044758    74  Q   W 48860528 + 8 [kworker/u16:1]
  8,16   3       31     0.000045026    74  M   W 48860528 + 8 [kworker/u16:1]
  8,16   3       32     0.000046789    74  Q   W 48860536 + 8 [kworker/u16:1]
  8,16   3       33     0.000047079    74  M   W 48860536 + 8 [kworker/u16:1]
  8,16   3       34     0.000048702    74  I   W 48860416 + 128 [kworker/u16:1]
  8,16   3       35     0.000050392    74  U   N [kworker/u16:1] 1
  8,16   3       36     0.000052170    74  D   W 48860416 + 128 [kworker/u16:1]
  8,16   2        1     0.000885952     0  C   W 48860416 + 128 [0]

How can I disable reading from buffer?

5
  • 1
    sleep(2); // power fault injection why do you think it works like that?
    – Marek R
    Aug 14, 2017 at 12:28
  • What do you mean by ..in the next step I inject a power fault to it. ? Do you mean you cut the power supply? Also as Marek mentioned, what is the sleep(2); // power fault injection for?
    – Griffin
    Aug 14, 2017 at 12:37
  • The full code is about 5 thousands lines of code, to simplify it I just bring a portion of it. Power Fault injection is made by another thread using serial port and arduino with SSD driver.
    – Mehrshad
    Aug 14, 2017 at 12:47
  • That doesn't answer what is the sleep(2); // power fault injection for?
    – Griffin
    Aug 14, 2017 at 13:31
  • We sleep to make sure that fwrite has completed its work.
    – Mehrshad
    Aug 14, 2017 at 19:03

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