#!/usr/bin/env python # # mmgen = Multi-Mode GENerator, command-line Bitcoin cold storage solution # Copyright (C)2013-2017 Philemon # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ test/tooltest.py: Tests for the 'mmgen-tool' utility """ import sys,os,subprocess repo_root = os.path.normpath(os.path.abspath(os.path.join(os.path.dirname(sys.argv[0]),os.pardir))) os.chdir(repo_root) sys.path.__setitem__(0,repo_root) # Import this _after_ local path's been added to sys.path from mmgen.common import * from collections import OrderedDict cmd_data = OrderedDict([ ('util', { 'desc': 'base conversion, hashing and file utilities', 'cmd_data': OrderedDict([ ('Strtob58', ()), ('B58tostr', ('Strtob58','io')), ('Hextob58', ()), ('B58tohex', ('Hextob58','io')), ('B58randenc', ()), ('Hextob32', ()), ('B32tohex', ('Hextob32','io')), ('Randhex', ()), ('Id6', ()), ('Id8', ()), ('Str2id6', ()), ('Hash160', ()), ('Hash256', ()), ('Hexreverse', ()), ('Hexlify', ()), ('Hexdump', ()), ('Unhexdump', ('Hexdump','io')), ('Rand2file', ()), ]) } ), ('cryptocoin', { 'desc': 'Cryptocoin address/key commands', 'cmd_data': OrderedDict([ ('Randwif', ()), ('Randpair', ()), # create 3 pairs: uncomp,comp,segwit ('Wif2addr', ('Randpair','o3')), ('Wif2hex', ('Randpair','o3')), ('Privhex2pubhex', ('Wif2hex','o3')), ('Pubhex2addr', ('Privhex2pubhex','o3')), ('Pubhex2redeem_script', ('Privhex2pubhex','o3')), ('Wif2redeem_script', ('Randpair','o3')), ('Wif2segwit_pair', ('Randpair','o2')), ('Privhex2addr', ('Wif2hex','o3')), # compare with output of Randpair ('Hex2wif', ('Wif2hex','io2')), ('Addr2hexaddr', ('Randpair','o2')), ('Hexaddr2addr', ('Addr2hexaddr','io2')), ('Pipetest', ('Randpair','o3')), ]) } ), ('mnemonic', { 'desc': 'mnemonic commands', 'cmd_data': OrderedDict([ ('Hex2mn', ()), ('Mn2hex', ('Hex2mn','io3')), ('Mn_rand128', ()), ('Mn_rand192', ()), ('Mn_rand256', ()), ('Mn_stats', ()), ('Mn_printlist', ()), ]) } ), ('rpc', { 'desc': 'Coin daemon RPC commands', 'cmd_data': OrderedDict([ # ('keyaddrfile_chksum', ()), # interactive ('Addrfile_chksum', ()), ('Getbalance', ()), ('Listaddresses', ()), ('Twview', ()), ('Txview', ()), ]) } ), ]) cfg = { 'name': 'the tool utility', 'enc_passwd': 'Ten Satoshis', 'tmpdir': 'test/tmp10', 'tmpdir_num': 10, 'refdir': 'test/ref', 'txfile': { 'btc': 'FFB367[1.234]{}.rawtx', 'bch': '99BE60-BCH[106.6789]{}.rawtx', 'ltc': '75F455-LTC[106.6789]{}.rawtx', }, 'addrfile': '98831F3A{}[1,31-33,500-501,1010-1011]{}.addrs', 'addrfile_chk': { 'btc': ('6FEF 6FB9 7B13 5D91','3C2C 8558 BB54 079E'), 'ltc': ('AD52 C3FE 8924 AAF0','5738 5C4F 167C F9AE'), } } opts_data = lambda: { 'desc': "Test suite for the 'mmgen-tool' utility", 'usage':'[options] [command]', 'options': """ -h, --help Print this help message --, --longhelp Print help message for long options (common options) -l, --list-cmds List and describe the tests and commands in this test suite -L, --list-names List the names of all tested 'mmgen-tool' commands -s, --system Test scripts and modules installed on system rather than those in the repo root -v, --verbose Produce more verbose output """, 'notes': """ If no command is given, the whole suite of tests is run. """ } sys.argv = [sys.argv[0]] + ['--skip-cfg-file'] + sys.argv[1:] cmd_args = opts.init(opts_data,add_opts=['exact_output','profile']) ref_subdir = '' if g.proto.base_coin == 'BTC' else g.proto.name altcoin_pfx = '' if g.proto.base_coin == 'BTC' else '-'+g.proto.base_coin tn_ext = ('','.testnet')[g.testnet] mmgen_cmd = 'mmgen-tool' if not opt.system: os.environ['PYTHONPATH'] = repo_root mmgen_cmd = os.path.relpath(os.path.join(repo_root,'cmds',mmgen_cmd)) spawn_cmd = ([],['python'])[g.platform == 'win'] + [mmgen_cmd] add_spawn_args = ['--data-dir='+cfg['tmpdir']] + ['--{}{}'.format( k.replace('_','-'),'='+getattr(opt,k) if getattr(opt,k) != True else '') for k in ('testnet','rpc_host','regtest','coin') if getattr(opt,k)] if opt.list_cmds: fs = ' {:<{w}} - {}' Msg('Available commands:') w = max([len(i) for i in cmd_data]) for cmd in cmd_data: Msg(fs.format(cmd,cmd_data[cmd]['desc'],w=w)) Msg('\nAvailable utilities:') Msg(fs.format('clean','Clean the tmp directory',w=w)) sys.exit(0) if opt.list_names: acc = [] for v in cmd_data.values(): acc += v['cmd_data'].keys() tc = sorted(c.lower() for c in acc) msg('{}\n{}'.format(green('Tested commands:'),'\n'.join(tc))) import mmgen.tool tested_in_tool = ('Encrypt','Decrypt','Find_incog_data','Keyaddrfile_chksum','Passwdfile_chksum') ignore = ('Help','Usage') uc = sorted(c.lower() for c in set(mmgen.tool.cmd_data.keys()) - set(acc) - set(ignore) - set(tested_in_tool)) msg('\n{}\n{}'.format(yellow('Untested commands:'),'\n'.join(uc))) die() import binascii from mmgen.test import * from mmgen.tx import is_wif,is_coin_addr msg_w = 35 def test_msg(m): m2 = 'Testing {}'.format(m) msg_r(green(m2+'\n') if opt.verbose else '{:{w}}'.format(m2,w=msg_w+8)) class MMGenToolTestSuite(object): def __init__(self): pass def gen_deps_for_cmd(self,cmd,cdata): fns = [] if cdata: name,code = cdata io,count = (code[:-1],int(code[-1])) if code[-1] in '0123456789' else (code,1) for c in range(count): fns += ['%s%s%s' % ( name, ('',c+1)[count > 1], ('.out','.in')[ch=='i'] ) for ch in io] return fns def get_num_exts_for_cmd(self,cmd,dpy): # dpy required here num = str(tool_cfgs['tmpdir_num']) # return only first file - a hack exts = gen_deps_for_cmd(dpy) return num,exts def do_cmds(self,cmd_group): cdata = cmd_data[cmd_group]['cmd_data'] for cmd in cdata: self.do_cmd(cmd,cdata[cmd]) def do_cmd(self,cmd,cdata): fns = self.gen_deps_for_cmd(cmd,cdata) file_list = [os.path.join(cfg['tmpdir'],fn) for fn in fns] self.__class__.__dict__[cmd](*([self,cmd] + file_list)) def run_cmd(self,name,tool_args,kwargs='',extra_msg='',silent=False,strip=True): sys_cmd = ( spawn_cmd + add_spawn_args + ['-r0','-d',cfg['tmpdir'],name.lower()] + tool_args + kwargs.split() ) if extra_msg: extra_msg = '({})'.format(extra_msg) full_name = ' '.join([name.lower()]+kwargs.split()+extra_msg.split()) if not silent: if opt.verbose: sys.stderr.write(green('Testing {}\nExecuting '.format(full_name))) sys.stderr.write(cyan(' '.join(sys_cmd)+'\n')) else: msg_r('Testing {:{w}}'.format(full_name+':',w=msg_w)) p = subprocess.Popen(sys_cmd,stdout=subprocess.PIPE,stderr=subprocess.PIPE) a,b = p.communicate() retcode = p.wait() if retcode != 0: msg('%s\n%s\n%s'%(red('FAILED'),yellow('Command stderr output:'),b)) die(1,red('Called process returned with an error (retcode %s)' % retcode)) return (a,a.rstrip())[bool(strip)] def run_cmd_chk(self,name,f1,f2,kwargs='',extra_msg='',strip_hex=False): idata = read_from_file(f1).rstrip() odata = read_from_file(f2).rstrip() ret = self.run_cmd(name,[odata],kwargs=kwargs,extra_msg=extra_msg) vmsg('In: ' + repr(odata)) vmsg('Out: ' + repr(ret)) def cmp_equal(a,b): return (a.lstrip('0') == b.lstrip('0')) if strip_hex else (a == b) if cmp_equal(ret,idata): ok() else: die(3,red( "Error: values don't match:\nIn: %s\nOut: %s" % (repr(idata),repr(ret)))) return ret def run_cmd_nochk(self,name,f1,kwargs=''): odata = read_from_file(f1).rstrip() ret = self.run_cmd(name,[odata],kwargs=kwargs) vmsg('In: ' + repr(odata)) vmsg('Out: ' + repr(ret)) return ret def run_cmd_out(self,name,carg=None,Return=False,kwargs='',fn_idx='',extra_msg='',literal=False,chkdata='',hush=False): if carg: write_to_tmpfile(cfg,'%s%s.in' % (name,fn_idx),carg+'\n') ret = self.run_cmd(name,([],[carg])[bool(carg)],kwargs=kwargs,extra_msg=extra_msg) if carg: vmsg('In: ' + repr(carg)) vmsg('Out: ' + (repr(ret),ret.decode('utf8'))[literal]) if ret or ret == '': write_to_tmpfile(cfg,'%s%s.out' % (name,fn_idx),ret+'\n') if chkdata: cmp_or_die(ret,chkdata) return if Return: return ret else: if not hush: ok() else: die(3,red("Error for command '%s'" % name)) def run_cmd_randinput(self,name,strip=True): s = os.urandom(128) fn = name+'.in' write_to_tmpfile(cfg,fn,s,binary=True) ret = self.run_cmd(name,[get_tmpfile_fn(cfg,fn)],strip=strip) fn = name+'.out' write_to_tmpfile(cfg,fn,ret+'\n') ok() vmsg('Returned: %s' % ret) # Util def Strtob58(self,name): self.run_cmd_out(name,getrandstr(16)) def B58tostr(self,name,f1,f2): self.run_cmd_chk(name,f1,f2) def Hextob58(self,name): self.run_cmd_out(name,getrandhex(32)) def B58tohex(self,name,f1,f2): self.run_cmd_chk(name,f1,f2,strip_hex=True) def B58randenc(self,name): ret = self.run_cmd_out(name,Return=True) ok_or_die(ret,is_b58_str,'base 58 string') def Hextob32(self,name): self.run_cmd_out(name,getrandhex(24)) def B32tohex(self,name,f1,f2): self.run_cmd_chk(name,f1,f2,strip_hex=True) def Randhex(self,name): ret = self.run_cmd_out(name,Return=True) ok_or_die(ret,binascii.unhexlify,'hex string') def Id6(self,name): self.run_cmd_randinput(name) def Id8(self,name): self.run_cmd_randinput(name) def Str2id6(self,name): s = getrandstr(120,no_space=True) s2 = ' %s %s %s %s %s ' % (s[:3],s[3:9],s[9:29],s[29:50],s[50:120]) ret1 = self.run_cmd(name,[s],extra_msg='unspaced input'); ok() ret2 = self.run_cmd(name,[s2],extra_msg='spaced input') cmp_or_die(ret1,ret2) vmsg('Returned: %s' % ret1) def Hash160(self,name): self.run_cmd_out(name,getrandhex(16)) def Hash256(self,name): self.run_cmd_out(name,getrandstr(16)) def Hexreverse(self,name): self.run_cmd_out(name,getrandhex(24)) def Hexlify(self,name): self.run_cmd_out(name,getrandstr(24)) def Hexdump(self,name): self.run_cmd_randinput(name,strip=False) def Unhexdump(self,name,fn1,fn2): ret = self.run_cmd(name,[fn2],strip=False) orig = read_from_file(fn1,binary=True) cmp_or_die(orig,ret) def Rand2file(self,name): of = name + '.out' dlen = 1024 self.run_cmd(name,[of,str(1024),'threads=4','silent=1'],strip=False) d = read_from_tmpfile(cfg,of,binary=True) cmp_or_die(dlen,len(d)) # Cryptocoin def Randwif(self,name): for n,k in enumerate(['','compressed=1']): ret = self.run_cmd_out(name,kwargs=k,Return=True,fn_idx=n+1) ok_or_die(ret,is_wif,'WIF key') def Randpair(self,name): for n,k in enumerate(['','compressed=1','segwit=1 compressed=1']): wif,addr = self.run_cmd_out(name,kwargs=k,Return=True,fn_idx=n+1).split() ok_or_die(wif,is_wif,'WIF key',skip_ok=True) ok_or_die(addr,is_coin_addr,'Coin address') def Wif2addr(self,name,f1,f2,f3): for n,f,k,m in ((1,f1,'',''),(2,f2,'','compressed'),(3,f3,'segwit=1','compressed')): wif = read_from_file(f).split()[0] self.run_cmd_out(name,wif,kwargs=k,fn_idx=n,extra_msg=m) def Wif2hex(self,name,f1,f2,f3): for n,f,m in ((1,f1,''),(2,f2,'compressed'),(3,f3,'compressed for segwit')): wif = read_from_file(f).split()[0] self.run_cmd_out(name,wif,fn_idx=n,extra_msg=m) def Privhex2addr(self,name,f1,f2,f3): keys = [read_from_file(f).rstrip() for f in (f1,f2,f3)] for n,k in enumerate(('','compressed=1','compressed=1 segwit=1')): ret = self.run_cmd(name,[keys[n]],kwargs=k).rstrip() iaddr = read_from_tmpfile(cfg,'Randpair{}.out'.format(n+1)).split()[-1] cmp_or_die(iaddr,ret) def Hex2wif(self,name,f1,f2,f3,f4): for n,fi,fo,k in ((1,f1,f2,''),(2,f3,f4,'compressed=1')): ret = self.run_cmd_chk(name,fi,fo,kwargs=k) def Addr2hexaddr(self,name,f1,f2): for n,f,m in ((1,f1,''),(2,f2,'from compressed')): addr = read_from_file(f).split()[-1] self.run_cmd_out(name,addr,fn_idx=n,extra_msg=m) def Hexaddr2addr(self,name,f1,f2,f3,f4): for n,fi,fo,m in ((1,f1,f2,''),(2,f3,f4,'from compressed')): self.run_cmd_chk(name,fi,fo,extra_msg=m) def Privhex2pubhex(self,name,f1,f2,f3): # from Hex2wif addr = read_from_file(f3).strip() self.run_cmd_out(name,addr,kwargs='compressed=1',fn_idx=3) # what about uncompressed? def Pubhex2redeem_script(self,name,f1,f2,f3): # from above addr = read_from_file(f3).strip() self.run_cmd_out(name,addr,fn_idx=3) rs = read_from_tmpfile(cfg,name+'3.out').strip() self.run_cmd_out('pubhex2addr',rs,kwargs='p2sh=1',fn_idx=3,hush=True) addr1 = read_from_tmpfile(cfg,'pubhex2addr3.out').strip() addr2 = read_from_tmpfile(cfg,'Randpair3.out').split()[1] cmp_or_die(addr1,addr2) def Wif2redeem_script(self,name,f1,f2,f3): # compare output with above wif = read_from_file(f3).split()[0] ret1 = self.run_cmd_out(name,wif,fn_idx=3,Return=True) ret2 = read_from_tmpfile(cfg,'Pubhex2redeem_script3.out').strip() cmp_or_die(ret1,ret2) def Wif2segwit_pair(self,name,f1,f2): # does its own checking, so just run wif = read_from_file(f2).split()[0] self.run_cmd_out(name,wif,fn_idx=2) def Pubhex2addr(self,name,f1,f2,f3): addr = read_from_file(f3).strip() self.run_cmd_out(name,addr,fn_idx=3) def Pipetest(self,name,f1,f2,f3): wif = read_from_file(f3).split()[0] cmd = ( '{c} {a} wif2hex {wif} | ' + '{c} {a} privhex2pubhex - compressed=1 | ' + '{c} {a} pubhex2redeem_script - | ' + '{c} {a} pubhex2addr - p2sh=1').format( c=' '.join(spawn_cmd), a=' '.join(add_spawn_args), wif=wif) test_msg('command piping') if opt.verbose: sys.stderr.write(green('Executing ') + cyan(cmd) + '\n') p = subprocess.Popen(cmd,stdout=subprocess.PIPE,stderr=subprocess.PIPE,shell=True) res = p.stdout.read().strip() addr = read_from_tmpfile(cfg,'Wif2addr3.out').strip() cmp_or_die(res,addr) # Mnemonic def Hex2mn(self,name): for n,size,m in ((1,16,'128-bit'),(2,24,'192-bit'),(3,32,'256-bit')): hexnum = getrandhex(size) self.run_cmd_out(name,hexnum,fn_idx=n,extra_msg=m) def Mn2hex(self,name,f1,f2,f3,f4,f5,f6): for f_i,f_o,m in ((f1,f2,'128-bit'),(f3,f4,'192-bit'),(f5,f6,'256-bit')): self.run_cmd_chk(name,f_i,f_o,extra_msg=m,strip_hex=True) def Mn_rand128(self,name): self.run_cmd_out(name) def Mn_rand192(self,name): self.run_cmd_out(name) def Mn_rand256(self,name): self.run_cmd_out(name) def Mn_stats(self,name): self.run_cmd_out(name) def Mn_printlist(self,name): self.run_cmd(name,[]) ok() # RPC def Addrfile_chksum(self,name): fn = os.path.join(cfg['refdir'],ref_subdir,cfg['addrfile'].format(altcoin_pfx,tn_ext)) self.run_cmd_out(name,fn,literal=True,chkdata=cfg['addrfile_chk'][g.coin.lower()][g.testnet]) def Getbalance(self,name): self.run_cmd_out(name,literal=True) def Listaddresses(self,name): self.run_cmd_out(name,literal=True) def Twview(self,name): self.run_cmd_out(name,literal=True) def Txview(self,name): fn = os.path.join(cfg['refdir'],ref_subdir,cfg['txfile'][g.coin.lower()].format(tn_ext)) self.run_cmd_out(name,fn,literal=True) # main() import time start_time = int(time.time()) ts = MMGenToolTestSuite() mk_tmpdir(cfg['tmpdir']) if cmd_args: if len(cmd_args) != 1: die(1,'Only one command may be specified') cmd = cmd_args[0] if cmd in cmd_data: msg('Running tests for %s:' % cmd_data[cmd]['desc']) ts.do_cmds(cmd) elif cmd == 'clean': cleandir(cfg['tmpdir']) sys.exit(0) else: die(1,"'%s': unrecognized command" % cmd) else: cleandir(cfg['tmpdir']) for cmd in cmd_data: msg('Running tests for %s:' % cmd_data[cmd]['desc']) ts.do_cmds(cmd) if cmd is not cmd_data.keys()[-1]: msg('') t = int(time.time()) - start_time msg(green( 'All requested tests finished OK, elapsed time: %02i:%02i' % (t/60,t%60)))