%(i,len(slivers),esn,nodename)
for sliver in slivers:
print '>>slivername = ',sliver['name']
- pp.pprint(sliver)
+ pretty_printer.pprint(sliver)
assert len(slivers) == esn
slice_name,
sat_name,
value)
- print '%02d:== created SliceAttribute = %d'%(i,sa_id),
- print 'On slice',slice_name,'and node',node
+ print '%02d:== created SliceAttribute = %d'%(i,sa_id),
+ print 'On slice',slice_name,'and node',node
def test05_sa (args=[1,2]):
for i in args:
test05_sa_atom (slice_name(i,1),'net_max','predefined sat/all nodes',None,i)
test05_sa_atom (slice_name(i,1),'net_max','predefined sat/node1',node_name(i,1),i)
+##############################
+# readable dumps
+##############################
+def p_site (s):
+ print (s['site_id'],s['peer_id'],s['login_base'],s['name'],s['node_ids'])
+
+def p_key (k):
+ print (k['key_id'],k['peer_id'],k['key'])
+
+def p_person (p):
+ print (p['person_id'],p['peer_id'],p['email'],'keys:',p['key_ids'],'sites:',p['site_ids'])
+
+def p_node(n):
+ print (n['node_id'],n['peer_id'],n['hostname'],'sls=',n['slice_ids'],'site=',n['site_id'])
+
+def p_slice(s):
+ print (s['slice_id'],s['peer_id'],s['name'],'nodes=',s['node_ids'],'persons=',s['person_ids'])
+ print '---',('sas=',s['slice_attribute_ids'],s['name'],'crp=',s['creator_person_id'])
+
+def p_sat(sat):
+ print (sat['attribute_type_id'],sat['peer_id'], sat['name'], sat['min_role_id'], sat['description'])
+
+def p_sa (sa):
+ print (sa['slice_attribute_id'],sa['peer_id'],sa['name'],'AT_id:',sa['attribute_type_id'])
+ print '---',('v=',sa['value'],'sl=',sa['slice_id'],'n=',sa['node_id'])
+
+def p_sliver (x):
+ print ('SLIVERS for : hostname',x['hostname'])
+ print ('%d config files'%len(x['conf_files']))
+ for sv in x['slivers']:
+ p_sliver_slice(sv,x['hostname'])
+
+import pprint
+pretty_printer=pprint.PrettyPrinter(5)
+
+def p_sliver_slice(sliver,hostname):
+ print 'SLIVER on hostname %s, s='%hostname,sliver['name']
+ print 'KEYS',
+ pretty_printer.pprint(sliver['keys'])
+ print 'ATTRIBUTES',
+ pretty_printer.pprint(sliver['attributes'])
+
+def dump (args=[1,2]):
+ for i in args:
+ print 'SITES'
+ [p_site(x) for x in s[i].GetSites(a[i])]
+ print 'KEYS'
+ [p_key(x) for x in s[i].GetKeys(a[i])]
+ print 'PERSONS'
+ [p_person(x) for x in s[i].GetPersons(a[i])]
+ print 'NODES'
+ [p_node(x) for x in s[i].GetNodes(a[i])]
+ print 'SLICES'
+ [p_slice(x) for x in s[i].GetSlices(a[i])]
+ print 'Slice Attribute Types'
+ [p_sat(x) for x in s[i].GetSliceAttributeTypes(a[i])]
+ print 'Slice Attributes'
+ [p_sa(x) for x in s[i].GetSliceAttributes(a[i])]
+ print 'SLIVERS'
+ [p_sliver(x) for x in s[i].GetSlivers(a[i])]
+
+
+## for usage under the api
+def pt ():
+ for x in GetSites():
+ p_site(x)
+
+def pk ():
+ for x in GetKeys():
+ print (x['key_id'],x['peer_id'],x['key'])
+
+def pp ():
+ for x in GetPersons():
+ p_person(x)
+
+def pn ():
+ for x in GetNodes():
+ p_node(x)
+
+def ps ():
+ for x in GetSlices():
+ p_slice(x)
+
+def psat():
+ for x in GetSliceAttributeTypes():
+ p_sat(x)
+
+def psa():
+ for x in GetSliceAttributes():
+ p_sa(x)
+
+def pv ():
+ for s in GetSlivers():
+ p_sliver(s)
+
+def all():
+ print 'SITES'
+ pt()
+ print 'KEYS'
+ pk()
+ print 'PERSONS'
+ pp()
+ print 'NODES'
+ pn()
+ print 'SLICES'
+ ps()
+ print 'SLICE ATTR TYPES'
+ psat()
+ print 'SLICE ATTRS'
+ psa()
+ print 'SLIVERS'
+ pv()
+
####################
def test_all_init ():
timer_show()
test_all_sats ()
timer_show()
+ dump()
+ timer_show()
message("END")
### ad hoc test sequences
test04_slice_add_lnode([1])
test05_sat()
test05_sa([1])
-# test00_refresh ("populate: refreshing peer 1",[1])
-# test04_slice_add_fnode([1])
-# test00_refresh("populate: refresh all")
+ test00_refresh ("populate: refreshing peer 1",[1])
+ test04_slice_add_fnode([1])
+ test00_refresh("populate: refresh all")
+ dump()
def test_now ():
test_all_init()
usage()
show_test()
func()
-
+ timer_show()
+
if __name__ == '__main__':
normal()
main()