Difference between revisions of "OPS435 Python Assignment 2 C"

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[[Category:OPS435-Python]][[Category:rchan]]
 
[[Category:OPS435-Python]][[Category:rchan]]
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= Overview =
 +
In order to use a physical storage device (e.g. Hard Disk, USB Flash memory, SSD, etc.), the first step is to create partition(s) on it. There many different ways to partition a physical storage device. The two most common partition schemes used on Intel based micro-computer systems are MBR and GPT. Detail about the MBR partition scheme can be found [https://en.wikipedia.org/wiki/Master_boot_record here], and GPT partition scheme can be found at [https://en.wikipedia.org/wiki/GUID_Partition_Table].
 +
 +
On most Linux systems, fdisk or parted can be used to create, view, and manage MBR and GPT partitions.
 +
 +
The task for you in this assignment is to write a python module named "partinfo.py", which contains at least three functions: part_scheme(), mbr_part(), gpt_part(), which can be used to retrieve partition information from a specified physical storage device.
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 +
= Instruction =
 +
== Module name, function names, function parameter(s) and return values ==
 +
Name your python module as "partinfo.py". The module should contains at least the following 3 functions:
 +
* <code>part_scheme()</code> - which when called with a valid physical storage device name, will return the partition scheme used on the device. The returned value should only be
 +
** None - no valid partition scheme found on the device
 +
** MBR - MBR partitions is/are found on the device
 +
** GPT - GUID partitions is/are found on the device
 +
* <code>mbr_part()</code> - which when called with a valid physical storage device name, will return all the partitions (primary, extended, and logical) found on the device. Each partition information returned must contain the following fields:
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** partition number
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** partition flag (bootable or not)
 +
** partition type
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** start sector number (in LBA mode)
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** size of partition in sectors
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* <code>gpt_part()</code> - which when called with a valid physical storage device name, will return all the partitions found on the device. Each partition information returned must contain the following fields:
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** Partition type GUID
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** Unique partition GUID
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** First LBA sector of the partition
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** Last LBA sector of the partition
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** Attribute flags
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** Partition name
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== Module and function documentation ==
 +
Use the python docstring to provide embedded documentation for the module "partinfo.py" and the functions in it.
  
= Overview =
+
== Sample Python codes ==
In order to use a physical storage device (e.g. Hard Disk, USB Flash memeory, SSD, etc.), the first step is to create partition(s) on it. There many different ways to partition a physical storage device. The two most common partition schemes used on Intel based micro-computer systems are MBR and GPT. Detail about the MBR partition scheme can be found at [http], and GPT partition scheme can be found at [http].
+
The following sample python code reads and displays primary partitions on a given physical storage device with MBR partition scheme. Please note that this python script does not check for extended partition and does not try to extract the information for logical partitions even they exist.
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<pre>
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#! /usr/bin/python
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# read and display primary partition info
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# on a physical disk or disk image
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#
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import struct
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import sys
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# ask the user for disk file name
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# if not provided on the command line
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no_arg = len(sys.argv) # one is for command only
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if no_arg <= 1:
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  diskfile=raw_input("Disk file name please: ")
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else:
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  diskfile=sys.argv[1]
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# verify that the file exist
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# notify when file is missing
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try:
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    f=open(diskfile, 'rb')
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    f.seek(446)
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    ptt = f.read(64)
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    pte1 = ptt[0:16]
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    pte2 = ptt[16:32]
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    pte3 = ptt[32:48]
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    pte4 = ptt[48:64]
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    tfmt='<b3sb3sLL'
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    t1 = struct.unpack(tfmt,pte1)
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    t2 = struct.unpack(tfmt,pte2)
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    t3 = struct.unpack(tfmt,pte3)
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    t4 = struct.unpack(tfmt,pte4)
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    print "partition #","boot","start","length","type"
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    print "partition 1:",t1[0],t1[4], t1[5], t1[2]
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    print "partition 2:",t2[0],t2[4], t2[5], t2[2]
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    print "partition 3:",t3[0], t3[4], t3[5], t3[2]
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    print "partition 4:",t4[0], t4[4], t4[5], t4[2]
  
On Linux system, fdisk or parted can be used to create, view, and manage MBR and GPT partition.
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except IOError:
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    print "File missing."
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</pre>
  
 
= Resources =
 
= Resources =

Latest revision as of 10:24, 3 July 2018

Overview

In order to use a physical storage device (e.g. Hard Disk, USB Flash memory, SSD, etc.), the first step is to create partition(s) on it. There many different ways to partition a physical storage device. The two most common partition schemes used on Intel based micro-computer systems are MBR and GPT. Detail about the MBR partition scheme can be found here, and GPT partition scheme can be found at [1].

On most Linux systems, fdisk or parted can be used to create, view, and manage MBR and GPT partitions.

The task for you in this assignment is to write a python module named "partinfo.py", which contains at least three functions: part_scheme(), mbr_part(), gpt_part(), which can be used to retrieve partition information from a specified physical storage device.

Instruction

Module name, function names, function parameter(s) and return values

Name your python module as "partinfo.py". The module should contains at least the following 3 functions:

  • part_scheme() - which when called with a valid physical storage device name, will return the partition scheme used on the device. The returned value should only be
    • None - no valid partition scheme found on the device
    • MBR - MBR partitions is/are found on the device
    • GPT - GUID partitions is/are found on the device
  • mbr_part() - which when called with a valid physical storage device name, will return all the partitions (primary, extended, and logical) found on the device. Each partition information returned must contain the following fields:
    • partition number
    • partition flag (bootable or not)
    • partition type
    • start sector number (in LBA mode)
    • size of partition in sectors
  • gpt_part() - which when called with a valid physical storage device name, will return all the partitions found on the device. Each partition information returned must contain the following fields:
    • Partition type GUID
    • Unique partition GUID
    • First LBA sector of the partition
    • Last LBA sector of the partition
    • Attribute flags
    • Partition name

Module and function documentation

Use the python docstring to provide embedded documentation for the module "partinfo.py" and the functions in it.

Sample Python codes

The following sample python code reads and displays primary partitions on a given physical storage device with MBR partition scheme. Please note that this python script does not check for extended partition and does not try to extract the information for logical partitions even they exist.

#! /usr/bin/python
# read and display primary partition info
# on a physical disk or disk image
#
import struct
import sys

# ask the user for disk file name
# if not provided on the command line
no_arg = len(sys.argv) # one is for command only

if no_arg <= 1:
  diskfile=raw_input("Disk file name please: ")
else:
  diskfile=sys.argv[1]

# verify that the file exist
# notify when file is missing

try:
    f=open(diskfile, 'rb')
    f.seek(446)

    ptt = f.read(64)
    pte1 = ptt[0:16]
    pte2 = ptt[16:32]
    pte3 = ptt[32:48]
    pte4 = ptt[48:64]
    tfmt='<b3sb3sLL'

    t1 = struct.unpack(tfmt,pte1)
    t2 = struct.unpack(tfmt,pte2)
    t3 = struct.unpack(tfmt,pte3)
    t4 = struct.unpack(tfmt,pte4)
    print "partition #","boot","start","length","type"
    print "partition 1:",t1[0],t1[4], t1[5], t1[2]
    print "partition 2:",t2[0],t2[4], t2[5], t2[2]
    print "partition 3:",t3[0], t3[4], t3[5], t3[2]
    print "partition 4:",t4[0], t4[4], t4[5], t4[2]

except IOError:
    print "File missing."

Resources