runtime/foundry_nodes.py - third_party/opencircuitdesign.com/open_pdks - Git at Google

 #!/usr/bin/env python3

 # foundry_nodes.py ---
 #
 # This script runs in cloudV and discovers the set of foundry-
 # node names that are on the system and which support digital
 # synthesis.  It returns the list of discovered nodes in JSON
 # data format (output to stdout).
 #
 # Note that as this runs on the cloudV server, it is written
 # in python 2.7 syntax

 from __future__ import print_function

 import os
 import re
 import sys
 import json
 import glob

 def print_usage():
      print('Usage: foundry_nodes.py [all|<tag>]')

 if __name__ == '__main__':
     arguments = []
     for item in sys.argv[1:]:
         arguments.append(item)

     dolist = 'active'
     if len(arguments) == 1:
         dolist = arguments[0]
     elif len(arguments) != 0:
         print_usage()
         sys.exit(0)

     # Search the /ef/ tree and find all foundry name (root name of the
     # directory above the foundry node name).  If nothing is found,
     # assume that this is the project name.  If the project name
     # is already set, then generate an error.

     proclist = []

     for procnode in glob.glob('/ef/tech/*/*/.ef-config/nodeinfo.json'):
         try:
             with open(procnode, 'r') as ifile:
                 process = json.load(ifile)
         except:
             pass
         else:
             nodename = process['node']
             rootpath = os.path.split(procnode)[0]
             techroot = os.path.realpath(rootpath + '/techdir')
             qflowlist = glob.glob(techroot + '/libs.tech/qflow/' + nodename + '*.sh')


             if 'status' in process:
                 status = process['status']
             else:
                 # Default behavior is that nodes with "LEGACY" in the name
                 # are inactive, and all others are active.
                 if 'LEGACY' in nodename:
                     status = 'legacy'
                 else:
                     status = 'active'

             # Do not record process nodes that do not match the status-match
             # argument (unless the argument is "all").
             if dolist != 'all':
                 if status != dolist:
                     continue

             # Try to find available standard cell sets if they are not marked
             # as an entry in the nodeinfo.json file.  If they are an entry in nodeinfo.json,
             # check if it is just a list of names.  If so, look up each name entry and
             # expand it into a dictionary.  If it is already a dictionary, then just copy
             # it to the output.
             validcells = []
             if 'stdcells' in process:
                 for name in process['stdcells'][:]:
                     if type(name) is not dict:
                         process['stdcells'].remove(name)
                         validcells.append(name)

             stdcells = []
             for qflowdefs in qflowlist:
                 stdcellname = os.path.split(qflowdefs)[1]
                 validname = os.path.splitext(stdcellname)[0]
                 if validcells == [] or validname in validcells:

                     stdcelldef = {}
                     stdcelldef['name'] = validname

                     # Read the qflow .sh file for the name of the preferred liberty format
                     # file and the name of the verilog file.  Pull the path name from the
                     # verilog file since there may be other supporting files that need to
                     # be read from that path.

                     # Diagnostic
                     # print("Reading file " + qflowdefs, file=sys.stderr)
                     with open(qflowdefs, 'r') as ifile:
                         nodevars = ifile.read().splitlines()

                     try:
                         libline = next(item for item in nodevars if 'libertyfile' in item and item.strip()[0] != '#')
                         lfile = libline.split('=')[1].strip()
                         lfile = lfile.split()[0]
                         stdcelldef['libertyfile'] = lfile
                     except:
                         pass

                     try:
                         vlgline = next(item for item in nodevars if 'verilogfile' in item and item.strip()[0] != '#')
                         vfile = vlgline.split('=')[1].strip()
                         vfile = vfile.split()[0]
                         if os.path.exists(vfile):
                             stdcelldef['verilogpath'] = os.path.split(vfile)[0]
                         else:
                             print("Warning:  bad verilogfile path " + vfile, file=sys.stderr)
                     except:
                         pass

                     stdcells.append(stdcelldef)

             process['stdcells'] = stdcells
             proclist.append(process)

     if len(proclist) > 0:
         json.dump(proclist, sys.stdout, indent=4)
     else:
         print("Error, no process nodes found!", file=sys.stderr)
	#!/usr/bin/env python3

	# foundry_nodes.py ---
	#
	# This script runs in cloudV and discovers the set of foundry-
	# node names that are on the system and which support digital
	# synthesis. It returns the list of discovered nodes in JSON
	# data format (output to stdout).
	#
	# Note that as this runs on the cloudV server, it is written
	# in python 2.7 syntax

	from __future__ import print_function

	import os
	import re
	import sys
	import json
	import glob

	def print_usage():
	print('Usage: foundry_nodes.py [all\|<tag>]')

	if __name__ == '__main__':
	arguments = []
	for item in sys.argv[1:]:
	arguments.append(item)

	dolist = 'active'
	if len(arguments) == 1:
	dolist = arguments[0]
	elif len(arguments) != 0:
	print_usage()
	sys.exit(0)

	# Search the /ef/ tree and find all foundry name (root name of the
	# directory above the foundry node name). If nothing is found,
	# assume that this is the project name. If the project name
	# is already set, then generate an error.

	proclist = []

	for procnode in glob.glob('/ef/tech///.ef-config/nodeinfo.json'):
	try:
	with open(procnode, 'r') as ifile:
	process = json.load(ifile)
	except:
	pass
	else:
	nodename = process['node']
	rootpath = os.path.split(procnode)[0]
	techroot = os.path.realpath(rootpath + '/techdir')
	qflowlist = glob.glob(techroot + '/libs.tech/qflow/' + nodename + '*.sh')


	if 'status' in process:
	status = process['status']
	else:
	# Default behavior is that nodes with "LEGACY" in the name
	# are inactive, and all others are active.
	if 'LEGACY' in nodename:
	status = 'legacy'
	else:
	status = 'active'

	# Do not record process nodes that do not match the status-match
	# argument (unless the argument is "all").
	if dolist != 'all':
	if status != dolist:
	continue

	# Try to find available standard cell sets if they are not marked
	# as an entry in the nodeinfo.json file. If they are an entry in nodeinfo.json,
	# check if it is just a list of names. If so, look up each name entry and
	# expand it into a dictionary. If it is already a dictionary, then just copy
	# it to the output.
	validcells = []
	if 'stdcells' in process:
	for name in process['stdcells'][:]:
	if type(name) is not dict:
	process['stdcells'].remove(name)
	validcells.append(name)

	stdcells = []
	for qflowdefs in qflowlist:
	stdcellname = os.path.split(qflowdefs)[1]
	validname = os.path.splitext(stdcellname)[0]
	if validcells == [] or validname in validcells:

	stdcelldef = {}
	stdcelldef['name'] = validname

	# Read the qflow .sh file for the name of the preferred liberty format
	# file and the name of the verilog file. Pull the path name from the
	# verilog file since there may be other supporting files that need to
	# be read from that path.

	# Diagnostic
	# print("Reading file " + qflowdefs, file=sys.stderr)
	with open(qflowdefs, 'r') as ifile:
	nodevars = ifile.read().splitlines()

	try:
	libline = next(item for item in nodevars if 'libertyfile' in item and item.strip()[0] != '#')
	lfile = libline.split('=')[1].strip()
	lfile = lfile.split()[0]
	stdcelldef['libertyfile'] = lfile
	except:
	pass

	try:
	vlgline = next(item for item in nodevars if 'verilogfile' in item and item.strip()[0] != '#')
	vfile = vlgline.split('=')[1].strip()
	vfile = vfile.split()[0]
	if os.path.exists(vfile):
	stdcelldef['verilogpath'] = os.path.split(vfile)[0]
	else:
	print("Warning: bad verilogfile path " + vfile, file=sys.stderr)
	except:
	pass

	stdcells.append(stdcelldef)

	process['stdcells'] = stdcells
	proclist.append(process)

	if len(proclist) > 0:
	json.dump(proclist, sys.stdout, indent=4)
	else:
	print("Error, no process nodes found!", file=sys.stderr)