+def check_file_hash(filename, hash_filename):
+ """Check the file's integrity with a given hash."""
+ return sha1_file(filename) == open(hash_filename).read().split()[0].strip()
+
+def sha1_file(filename):
+ """Calculate sha1 hash of file."""
+ try:
+ try:
+ import hashlib
+ m = hashlib.sha1()
+ except:
+ import sha
+ m = sha.new()
+ f = file(filename, 'rb')
+ while True:
+ # 256 KB seems ideal for speed/memory tradeoff
+ # It wont get much faster with bigger blocks, but
+ # heap peak grows
+ block = f.read(256 * 1024)
+ if len(block) == 0:
+ # end of file
+ break
+ m.update(block)
+ # Simple trick to keep total heap even lower
+ # Delete the previous block, so while next one is read
+ # we wont have two allocated blocks with same size
+ del block
+ return m.hexdigest()
+ except IOError:
+ raise BootManagerException("Cannot calculate SHA1 hash of {}".format(filename))
+
+def display_disks_status(PARTITIONS, message, log):
+ log.write("{} - PARTITIONS status - BEG\n".format(message))
+ sysexec_noerr("vgdisplay", log)
+ sysexec_noerr("pvdisplay", log)
+ for name, path in PARTITIONS.items():
+ log.write("PARTITIONS[{}]={}\n".format(name,path))
+ sysexec_noerr("ls -l {}".format(path), log)
+ log.write("{} - PARTITIONS status - END\n".format(message))