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HW#3: Due Nov 9 NOTE. Submit both hardcopy and softcopy. 1. Formal verification of a flash memory reading unit (70 pts) – Show the correctness of the flash_read()

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Presentation on theme: "HW#3: Due Nov 9 NOTE. Submit both hardcopy and softcopy. 1. Formal verification of a flash memory reading unit (70 pts) – Show the correctness of the flash_read()"— Presentation transcript:

1 HW#3: Due Nov 9 NOTE. Submit both hardcopy and softcopy. 1. Formal verification of a flash memory reading unit (70 pts) – Show the correctness of the flash_read() By using randomized testing – Randomly select the physical sectors to write four characters and set the corresponding SAMs By using exhaustive testing – Create 43680 (16*15*14*13) distinct test cases » Do not print test cases in your hardcopy to save trees By using CBMC – Create environment model satisfying the invariant formula by using __CPROVER_assume() and nested loops – Submit the above three answers The above three versions of code including the target program and your environment Describe your environment model in detail Compare the three verification results (i.e., time, memory usage, assert violation, etc)

2 typedef struct _SAM_type{ unsigned char offset[SECT_PER_U]; }SAM_type; typedef struct _PU_type{ unsigned char sect[SECT_PER_U]; }PU_type; // Environment assumption // 0. Each unit contains 4 sectors. // 1. There is one logical unit containing "abcd" // 2. There are 4 physical units // 3. The value of SAM table is 255 if the corresponding // physical sector does not have a valid data void flash_read(char *buf, SAM_type *SAM, PU_type *pu ){ unsigned char nSamIdx = 0; unsigned char pu_id = 0; unsigned char n_scts = 4; // number of sectors to read unsigned char offset = 0; //offset of the physical sector to read unsigned char pBuf = 0; while(n_scts > 0){ pu_id=0; offset = 255; // read 1 character while(1) { if (SAM[pu_id].offset[nSamIdx] != 255){ offset = SAM[pu_id].offset[nSamIdx++]; buf[pBuf] = PU[pu_id].sect[offset]; break; } pu_id ++; } n_scts--; pBuf ++; }

3 2. Write down a C program to solve the Tower of Hanoi game (3 poles and 5 disks) in a random manner (10 pts) Do not solve the game using an intelligent strategy, but random sequence of moving choices Obtain 100 random solutions and get the average step #. Describe the shortest solution among the above 100 solutions 3. Write down a C program to solve the Tower of Hanoi game (3 poles and 5 disks) by using CBMC (20 pts) Hint: the C program will be quite similar to the random one Find the shortest solution by analyzing counter examples. Also explain why your solution is the shortest one. – Use non-determinism and __CPROVER_assume() properly for the moving choice – Use assert statement to detect when all the disks are moved to the destination

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