-rw-r--r-- 2665 libntruprime-20240910/scripts-build/fulltest-top raw
#!/usr/bin/env python3
import os
import sys
import subprocess
import multiprocessing
def thread(task):
valgrind,o,p,n,offset = task
command = ['PROJECT-test',o,p,'.',str(n),str(offset)]
if valgrind:
command = ['env','valgrind_multiplier=1','valgrind','-q','--error-exitcode=99']+command
result = subprocess.run(command,stdout=subprocess.PIPE,stderr=subprocess.PIPE,universal_newlines=True)
if result.returncode:
return task,(f'nonzero return code {result.returncode}',result.stdout,result.stderr)
if len(result.stderr) > 0: # bug in test program
return task,(f'nonempty errors',result.stdout,result.stderr)
saidsuccess = False
saidimplementation = False
saiddeclassify = False
for line in result.stdout.splitlines():
x = line.split()
if x == ['all','tests','succeeded']: saidsuccess = True
if len(x) >= 3 and x[2] == 'implementation': saidimplementation = True
if x == ['valgrind','1','declassify','1']: saiddeclassify = True
if not saidsuccess: # bug in test program
return task,(f'did not say all tests succeeded',result.stdout,result.stderr)
if not saidimplementation:
return task,(f'CPU does not support implementation',result.stdout,result.stderr)
if valgrind and not saiddeclassify:
return task,(f'test does not support declassify',result.stdout,result.stderr)
return task,(None,result.stdout,result.stderr)
def checkresult(task,result):
valgrind,o,p,n,offset = task
failure,out,err = result
printtask = f'{o}/{p} impl {n} offset {offset}'
printtask += ' dataflow' if valgrind else ' conventional'
for desc,what in ('output',out),('error',err):
for line in what.splitlines():
print(f'{printtask} {desc}: {line}')
if failure is None:
print(f'{printtask} result: success')
else:
print(f'{printtask} result: {failure}')
sys.stdout.flush()
return failure is None
def doit(todo):
todo = list(todo)
print(f'tests to run: {len(todo)}')
try:
threads = len(os.sched_getaffinity(0))
except:
threads = multiprocessing.cpu_count()
threads = os.getenv('THREADS',default=threads)
threads = int(threads)
threads = max(threads,1)
threads = min(threads,len(todo))
print(f'maximum threads allowed: {threads}')
results = {}
printpos = 0
ok = True
with multiprocessing.Pool(threads) as p:
for task,result in p.imap_unordered(thread,todo,chunksize=1):
results[task] = result
while printpos < len(todo):
task = todo[printpos]
if task not in results: break
if not checkresult(task,results[task]):
ok = False
printpos += 1
assert printpos == len(todo)
return ok