gem5/util/cpt_upgraders/memory-per-range.py
Curtis Dunham 87b9da2df4 sim: tag-based checkpoint versioning
This commit addresses gem5 checkpoints' linear versioning bottleneck.
Since development is distributed across many private trees, there exists
a sort of 'race' for checkpoint version numbers: internally a checkpoint
version may be used but then resynchronizing with the external tree causes
a conflict on that version.  This change replaces the linear version number
with a set of unique strings called tags.  Now the only conflicts that can
arise are of tag names, where collisions are much easier to avoid.

The checkpoint upgrader (util/cpt_upgrader.py) upgrades the version
representation, as one would expect. Each tag version implements its
upgrader code in a python file in the util/cpt_upgraders directory
rather than adding a function to the upgrader script itself.

The version tags are stored in the 'Globals' section rather than 'root'
(as the version was previously) because 'Globals' gets unserialized
first and can provide a warning before any other unserialization errors
can occur.
2015-09-02 15:23:30 -05:00

32 lines
1.5 KiB
Python

# The backing store supporting the memories in the system has changed
# in that it is now stored globally per address range. As a result the
# actual storage is separate from the memory controllers themselves.
def upgrader(cpt):
for sec in cpt.sections():
import re
# Search for a physical memory
if re.search('.*sys.*\.physmem$', sec):
# Add the number of stores attribute to the global physmem
cpt.set(sec, 'nbr_of_stores', '1')
# Get the filename and size as this is moving to the
# specific backing store
mem_filename = cpt.get(sec, 'filename')
mem_size = cpt.get(sec, '_size')
cpt.remove_option(sec, 'filename')
cpt.remove_option(sec, '_size')
# Get the name so that we can create the new section
system_name = str(sec).split('.')[0]
section_name = system_name + '.physmem.store0'
cpt.add_section(section_name)
cpt.set(section_name, 'store_id', '0')
cpt.set(section_name, 'range_size', mem_size)
cpt.set(section_name, 'filename', mem_filename)
elif re.search('.*sys.*\.\w*mem$', sec):
# Due to the lack of information about a start address,
# this migration only works if there is a single memory in
# the system, thus starting at 0
raise ValueError("more than one memory detected (" + sec + ")")
legacy_version = 2