def run(pgmname, argv):
global debug
# Determine system character encodings.
try:
# getdefaultlocale() may sometimes return None.
# Fall back to ASCII encoding in that case.
terminalenc = locale.getdefaultlocale()[1] + ""
except TypeError:
# Invalid locale, fall back to ASCII terminal encoding.
terminalenc = "ascii"
try:
# sys.getfilesystemencoding() was introduced in Python v2.3 and
# it can sometimes return None. Fall back to ASCII if something
# goes wrong.
filesystemenc = sys.getfilesystemencoding() + ""
except (AttributeError, TypeError):
filesystemenc = "ascii"
try:
gopt = getopt.gnu_getopt
except:
# Python <v2.3, GNU-style parameter ordering not supported.
gopt = getopt.getopt
# Parse command line arguments.
short_opts = "a:k:p:e:vh"
long_opts = [
"cert=", "privkey=", "passphrase=", "encoding=", "verbose", "debug",
"help"
]
args = gopt(argv, short_opts, long_opts)
opts = dict(args[0])
pargs = args[1]
if len(pargs) < 2:
raise ValueError("wrong number of arguments")
# Override character encoding of command line and filesystem.
encs = opts.get("--encoding",
opts.get("-e", "%s,%s" % (terminalenc, filesystemenc)))
try:
terminalenc, filesystemenc = encs.split(",")
except (ValueError, TypeError):
raise ValueError("invalid encoding string '%s'" % encs)
# Get input SIS file names.
infiles = [f.decode(terminalenc).encode(filesystemenc) for f in pargs[:-1]]
# Determine output SIS file name.
outfile = pargs[-1].decode(terminalenc).encode(filesystemenc)
if os.path.isdir(outfile):
# Output to directory, use input file name.
outfile = os.path.join(outfile, os.path.basename(infiles[0]))
# Get certificate and its private key file names.
cert = opts.get("--cert", opts.get("-a", None))
privkey = opts.get("--privkey", opts.get("-k", None))
if cert != None and privkey != None:
# Convert file names from terminal encoding to filesystem encoding.
cert = cert.decode(terminalenc).encode(filesystemenc)
privkey = privkey.decode(terminalenc).encode(filesystemenc)
# Read certificate file.
f = file(cert, "rb")
certdata = f.read(MAXCERTIFICATELENGTH + 1)
f.close()
if len(certdata) > MAXCERTIFICATELENGTH:
raise ValueError("certificate file too large")
# Read private key file.
f = file(privkey, "rb")
privkeydata = f.read(MAXPRIVATEKEYLENGTH + 1)
f.close()
if len(privkeydata) > MAXPRIVATEKEYLENGTH:
raise ValueError("private key file too large")
elif cert == None and privkey == None:
# No certificate given, use the Ensymble default certificate.
# defaultcert.py is not imported when not needed. This speeds
# up program start-up a little.
from utils import defaultcert
certdata = defaultcert.cert
privkeydata = defaultcert.privkey
print(
"%s: warning: no certificate given, using "
"insecure built-in one" % pgmname)
else:
raise ValueError("missing certificate or private key")
# Get pass phrase. Pass phrase remains in terminal encoding.
passphrase = opts.get("--passphrase", opts.get("-p", None))
if passphrase == None and privkey != None:
# Private key given without "--passphrase" option, ask it.
if sys.stdin.isatty():
# Standard input is a TTY, ask password interactively.
passphrase = getpass.getpass("Enter private key pass phrase:")
else:
# Not connected to a TTY, read stdin non-interactively instead.
passphrase = sys.stdin.read(MAXPASSPHRASELENGTH + 1)
if len(passphrase) > MAXPASSPHRASELENGTH:
raise ValueError("pass phrase too long")
passphrase = passphrase.strip()
# Determine verbosity.
verbose = False
if "--verbose" in opts.keys() or "-v" in opts.keys():
verbose = True
# Determine if debug output is requested.
if "--debug" in opts.keys():
debug = True
# Enable debug output for OpenSSL-related functions.
cryptutil.setdebug(True)
# Ingredients for successful SIS generation:
#
# terminalenc Terminal character encoding (autodetected)
# filesystemenc File system name encoding (autodetected)
# infiles A list of input SIS file names, filesystemenc encoded
# outfile Output SIS file name, filesystemenc encoded
# cert Certificate in PEM format
# privkey Certificate private key in PEM format
# passphrase Pass phrase of priv. key, terminalenc encoded string
# verbose Boolean indicating verbose terminal output
if verbose:
print
print "Input SIS files %s" % " ".join(
[f.decode(filesystemenc).encode(terminalenc) for f in infiles])
print "Output SIS file %s" % (
outfile.decode(filesystemenc).encode(terminalenc))
print "Certificate %s" % (
(cert and cert.decode(filesystemenc).encode(terminalenc))
or "<default>")
print "Private key %s" % (
(privkey and privkey.decode(filesystemenc).encode(terminalenc))
or "<default>")
print
insis = []
for n in xrange(len(infiles)):
# Read input SIS files.
f = file(infiles[n], "rb")
instring = f.read(MAXSISFILESIZE + 1)
f.close()
if len(instring) > MAXSISFILESIZE:
raise ValueError("%s: input SIS file too large" % infiles[n])
if n == 0:
# Store UIDs for later use.
uids = instring[:16] # UID1, UID2, UID3 and UIDCRC
# Convert input SIS file to SISFields.
sf, rlen = sisfield.SISField(instring[16:], False)
# Ignore extra bytes after SIS file.
if len(instring) > (rlen + 16):
print("%s: %s: warning: %d extra bytes after SIS file (ignored)" %
(pgmname, infiles[n], (len(instring) - (rlen + 16))))
# Try to release some memory early.
del instring
# Check that there are no embedded SIS files.
if len(sf.Data.DataUnits) > 1:
raise ValueError("%s: input SIS file contains "
"embedded SIS files" % infiles[n])
insis.append(sf)
# Temporarily remove the SISDataIndex SISField from the first SISController.
ctrlfield = insis[0].Controller.Data
didxfield = ctrlfield.DataIndex
ctrlfield.DataIndex = None
# Remove old signatures from the first SIS file.
if len(ctrlfield.getsignatures()) > 0:
print(
"%s: warning: removing old signatures "
"from the first input SIS file" % pgmname)
ctrlfield.setsignatures([])
for n in xrange(1, len(insis)):
# Append SISDataUnit SISFields into SISData array of the first SIS file.
insis[0].Data.DataUnits.append(insis[n].Data.DataUnits[0])
# Set data index in SISController SISField.
insis[n].Controller.Data.DataIndex.DataIndex = n
# Embed SISController into SISInstallBlock of the first SIS file.
ctrlfield.InstallBlock.EmbeddedSISFiles.append(
insis[n].Controller.Data)
# Calculate a signature of the modified SISController.
string = ctrlfield.tostring()
string = sisfield.stripheaderandpadding(string)
signature, algoid = sisfile.signstring(privkeydata, passphrase, string)
# Create a SISCertificateChain SISField from certificate data.
sf1 = sisfield.SISBlob(Data=cryptutil.certtobinary(certdata))
sf2 = sisfield.SISCertificateChain(CertificateData=sf1)
# Create a SISSignature SISField from calculated signature.
sf3 = sisfield.SISString(String=algoid)
sf4 = sisfield.SISSignatureAlgorithm(AlgorithmIdentifier=sf3)
sf5 = sisfield.SISBlob(Data=signature)
sf6 = sisfield.SISSignature(SignatureAlgorithm=sf4, SignatureData=sf5)
# Create a new SISSignatureCertificateChain SISField.
sa = sisfield.SISArray(SISFields=[sf6])
sf7 = sisfield.SISSignatureCertificateChain(Signatures=sa,
CertificateChain=sf2)
# Set certificate, restore data index.
ctrlfield.Signature0 = sf7
ctrlfield.DataIndex = didxfield
# Convert SISFields to string.
outstring = insis[0].tostring()
# Write output SIS file.
f = file(outfile, "wb")
f.write(uids)
f.write(outstring)
f.close()
def run(pgmname, argv):
global debug
# Determine system character encodings.
try:
# getdefaultlocale() may sometimes return None.
# Fall back to ASCII encoding in that case.
terminalenc = locale.getdefaultlocale()[1] + ""
except TypeError:
# Invalid locale, fall back to ASCII terminal encoding.
terminalenc = "ascii"
try:
# sys.getfilesystemencoding() was introduced in Python v2.3 and
# it can sometimes return None. Fall back to ASCII if something
# goes wrong.
filesystemenc = sys.getfilesystemencoding() + ""
except (AttributeError, TypeError):
filesystemenc = "ascii"
try:
gopt = getopt.gnu_getopt
except:
# Python <v2.3, GNU-style parameter ordering not supported.
gopt = getopt.getopt
# Parse command line arguments.
short_opts = "ua:k:p:b:d:e:vh"
long_opts = [
"unsign", "cert=", "privkey=", "passphrase=", "execaps=",
"dllcaps=", "encoding=", "verbose", "debug", "help"
]
args = gopt(argv, short_opts, long_opts)
opts = dict(args[0])
pargs = args[1]
if len(pargs) == 0:
raise ValueError("no SIS file name given")
# Override character encoding of command line and filesystem.
encs = opts.get("--encoding", opts.get("-e", "%s,%s" % (terminalenc,
filesystemenc)))
try:
terminalenc, filesystemenc = encs.split(",")
except (ValueError, TypeError):
raise ValueError("invalid encoding string '%s'" % encs)
# Get input SIS file name.
infile = pargs[0].decode(terminalenc).encode(filesystemenc)
# Determine output SIS file name.
if len(pargs) == 1:
# No output file, overwrite original SIS file.
outfile = infile
elif len(pargs) == 2:
outfile = pargs[1].decode(terminalenc).encode(filesystemenc)
if os.path.isdir(outfile):
# Output to directory, use input file name.
outfile = os.path.join(outfile, os.path.basename(infile))
else:
raise ValueError("wrong number of arguments")
# Get unsign option.
unsign = False
if "--unsign" in opts.keys() or "-u" in opts.keys():
unsign = True
# Get certificate and its private key file names.
cert = opts.get("--cert", opts.get("-a", None))
privkey = opts.get("--privkey", opts.get("-k", None))
if unsign:
if cert != None or privkey != None:
raise ValueError("certificate or private key given when unsigning")
elif cert != None and privkey != None:
# Convert file names from terminal encoding to filesystem encoding.
cert = cert.decode(terminalenc).encode(filesystemenc)
privkey = privkey.decode(terminalenc).encode(filesystemenc)
# Read certificate file.
f = file(cert, "rb")
certdata = f.read(MAXCERTIFICATELENGTH + 1)
f.close()
if len(certdata) > MAXCERTIFICATELENGTH:
raise ValueError("certificate file too large")
# Read private key file.
f = file(privkey, "rb")
privkeydata = f.read(MAXPRIVATEKEYLENGTH + 1)
f.close()
if len(privkeydata) > MAXPRIVATEKEYLENGTH:
raise ValueError("private key file too large")
elif cert == None and privkey == None:
# No certificate given, use the Ensymble default certificate.
# defaultcert.py is not imported when not needed. This speeds
# up program start-up a little.
from utils import defaultcert
certdata = defaultcert.cert
privkeydata = defaultcert.privkey
print ("%s: warning: no certificate given, using "
"insecure built-in one" % pgmname)
else:
raise ValueError("missing certificate or private key")
# Get pass phrase. Pass phrase remains in terminal encoding.
passphrase = opts.get("--passphrase", opts.get("-p", None))
if passphrase == None and privkey != None:
# Private key given without "--passphrase" option, ask it.
if sys.stdin.isatty():
# Standard input is a TTY, ask password interactively.
passphrase = getpass.getpass("Enter private key pass phrase:")
else:
# Not connected to a TTY, read stdin non-interactively instead.
passphrase = sys.stdin.read(MAXPASSPHRASELENGTH + 1)
if len(passphrase) > MAXPASSPHRASELENGTH:
raise ValueError("pass phrase too long")
passphrase = passphrase.strip()
# Get EXE capabilities and normalize the names.
execaps = opts.get("--execaps", opts.get("-b", None))
if execaps != None:
execapmask = symbianutil.capstringtomask(execaps)
execaps = symbianutil.capmasktostring(execapmask, True)
else:
execapmask = None
# Get DLL capabilities and normalize the names.
dllcaps = opts.get("--dllcaps", opts.get("-d", None))
if dllcaps != None:
dllcapmask = symbianutil.capstringtomask(dllcaps)
dllcaps = symbianutil.capmasktostring(dllcapmask, True)
else:
dllcapmask = None
# Determine verbosity.
verbose = False
if "--verbose" in opts.keys() or "-v" in opts.keys():
verbose = True
# Determine if debug output is requested.
if "--debug" in opts.keys():
debug = True
# Enable debug output for OpenSSL-related functions.
cryptutil.setdebug(True)
# Ingredients for successful SIS generation:
#
# terminalenc Terminal character encoding (autodetected)
# filesystemenc File system name encoding (autodetected)
# infile Input SIS file name, filesystemenc encoded
# outfile Output SIS file name, filesystemenc encoded
# cert Certificate in PEM format
# privkey Certificate private key in PEM format
# passphrase Pass phrase of priv. key, terminalenc encoded string
# execaps, execapmask Capability names and bitmask for EXE files or None
# dllcaps, dllcapmask Capability names and bitmask for DLL files or None
# verbose Boolean indicating verbose terminal output
if verbose:
print
print "Input SIS file %s" % (
infile.decode(filesystemenc).encode(terminalenc))
print "Output SIS file %s" % (
outfile.decode(filesystemenc).encode(terminalenc))
if unsign:
print "Remove signatures Yes"
else:
print "Certificate %s" % ((cert and
cert.decode(filesystemenc).encode(terminalenc)) or
"<default>")
print "Private key %s" % ((privkey and
privkey.decode(filesystemenc).encode(terminalenc)) or
"<default>")
if execaps != None:
print "EXE capabilities 0x%x (%s)" % (execapmask, execaps)
else:
print "EXE capabilities <not set>"
if dllcaps != None:
print "DLL capabilities 0x%x (%s)" % (dllcapmask, dllcaps)
else:
print "DLL capabilities <not set>"
print
# Read input SIS file.
f = file(infile, "rb")
instring = f.read(MAXSISFILESIZE + 1)
f.close()
if len(instring) > MAXSISFILESIZE:
raise ValueError("input SIS file too large")
# Convert input SIS file to SISFields.
uids = instring[:16] # UID1, UID2, UID3 and UIDCRC
insis, rlen = sisfield.SISField(instring[16:], False)
# Ignore extra bytes after SIS file.
if len(instring) > (rlen + 16):
print ("%s: warning: %d extra bytes after input SIS file (ignored)" %
(pgmname, (len(instring) - (rlen + 16))))
# Try to release some memory early.
del instring
# Check if there are embedded SIS files. Warn if there are.
if len(insis.Data.DataUnits) > 1:
print ("%s: warning: input SIS file contains "
"embedded SIS files (ignored)" % pgmname)
# Modify EXE- and DLL-files according to new capabilities.
if execaps != None or dllcaps != None:
# Generate FileIndex to SISFileDescription mapping.
sisfiledescmap = mapfiledesc(insis.Controller.Data.InstallBlock)
exemods, dllmods = modifycaps(insis, sisfiledescmap,
execapmask, dllcapmask)
print ("%s: %d EXE-files will be modified, "
"%d DLL-files will be modified" % (pgmname, exemods, dllmods))
# Temporarily remove the SISDataIndex SISField from SISController.
ctrlfield = insis.Controller.Data
didxfield = ctrlfield.DataIndex
ctrlfield.DataIndex = None
if not unsign:
# Remove old signatures.
if len(ctrlfield.getsignatures()) > 0:
print ("%s: warning: removing old signatures "
"from input SIS file" % pgmname)
ctrlfield.setsignatures([])
# Calculate a signature of the modified SISController.
string = ctrlfield.tostring()
string = sisfield.stripheaderandpadding(string)
signature, algoid = sisfile.signstring(privkeydata, passphrase, string)
# Create a SISCertificateChain SISField from certificate data.
sf1 = sisfield.SISBlob(Data = cryptutil.certtobinary(certdata))
sf2 = sisfield.SISCertificateChain(CertificateData = sf1)
# Create a SISSignature SISField from calculated signature.
sf3 = sisfield.SISString(String = algoid)
sf4 = sisfield.SISSignatureAlgorithm(AlgorithmIdentifier = sf3)
sf5 = sisfield.SISBlob(Data = signature)
sf6 = sisfield.SISSignature(SignatureAlgorithm = sf4,
SignatureData = sf5)
# Create a new SISSignatureCertificateChain SISField.
sa = sisfield.SISArray(SISFields = [sf6])
sf7 = sisfield.SISSignatureCertificateChain(Signatures = sa,
CertificateChain = sf2)
# Set new certificate.
ctrlfield.Signature0 = sf7
else:
# Unsign, remove old signatures.
ctrlfield.setsignatures([])
# Restore data index.
ctrlfield.DataIndex = didxfield
# Convert SISFields to string.
outstring = insis.tostring()
# Write output SIS file.
f = file(outfile, "wb")
f.write(uids)
f.write(outstring)
f.close()
def run(pgmname, argv):
global debug
# Determine system character encodings.
try:
# getdefaultlocale() may sometimes return None.
# Fall back to ASCII encoding in that case.
terminalenc = locale.getdefaultlocale()[1] + ""
except TypeError:
# Invalid locale, fall back to ASCII terminal encoding.
terminalenc = "ascii"
try:
# sys.getfilesystemencoding() was introduced in Python v2.3 and
# it can sometimes return None. Fall back to ASCII if something
# goes wrong.
filesystemenc = sys.getfilesystemencoding() + ""
except (AttributeError, TypeError):
filesystemenc = "ascii"
try:
gopt = getopt.gnu_getopt
except:
# Python <v2.3, GNU-style parameter ordering not supported.
gopt = getopt.getopt
# Parse command line arguments.
short_opts = "a:k:p:e:vh"
long_opts = [
"cert=", "privkey=", "passphrase=",
"encoding=", "verbose", "debug", "help"
]
args = gopt(argv, short_opts, long_opts)
opts = dict(args[0])
pargs = args[1]
if len(pargs) < 2:
raise ValueError("wrong number of arguments")
# Override character encoding of command line and filesystem.
encs = opts.get("--encoding", opts.get("-e", "%s,%s" % (terminalenc,
filesystemenc)))
try:
terminalenc, filesystemenc = encs.split(",")
except (ValueError, TypeError):
raise ValueError("invalid encoding string '%s'" % encs)
# Get input SIS file names.
infiles = [f.decode(terminalenc).encode(filesystemenc) for f in pargs[:-1]]
# Determine output SIS file name.
outfile = pargs[-1].decode(terminalenc).encode(filesystemenc)
if os.path.isdir(outfile):
# Output to directory, use input file name.
outfile = os.path.join(outfile, os.path.basename(infiles[0]))
# Get certificate and its private key file names.
cert = opts.get("--cert", opts.get("-a", None))
privkey = opts.get("--privkey", opts.get("-k", None))
if cert != None and privkey != None:
# Convert file names from terminal encoding to filesystem encoding.
cert = cert.decode(terminalenc).encode(filesystemenc)
privkey = privkey.decode(terminalenc).encode(filesystemenc)
# Read certificate file.
f = file(cert, "rb")
certdata = f.read(MAXCERTIFICATELENGTH + 1)
f.close()
if len(certdata) > MAXCERTIFICATELENGTH:
raise ValueError("certificate file too large")
# Read private key file.
f = file(privkey, "rb")
privkeydata = f.read(MAXPRIVATEKEYLENGTH + 1)
f.close()
if len(privkeydata) > MAXPRIVATEKEYLENGTH:
raise ValueError("private key file too large")
elif cert == None and privkey == None:
# No certificate given, use the Ensymble default certificate.
# defaultcert.py is not imported when not needed. This speeds
# up program start-up a little.
from utils import defaultcert
certdata = defaultcert.cert
privkeydata = defaultcert.privkey
print ("%s: warning: no certificate given, using "
"insecure built-in one" % pgmname)
else:
raise ValueError("missing certificate or private key")
# Get pass phrase. Pass phrase remains in terminal encoding.
passphrase = opts.get("--passphrase", opts.get("-p", None))
if passphrase == None and privkey != None:
# Private key given without "--passphrase" option, ask it.
if sys.stdin.isatty():
# Standard input is a TTY, ask password interactively.
passphrase = getpass.getpass("Enter private key pass phrase:")
else:
# Not connected to a TTY, read stdin non-interactively instead.
passphrase = sys.stdin.read(MAXPASSPHRASELENGTH + 1)
if len(passphrase) > MAXPASSPHRASELENGTH:
raise ValueError("pass phrase too long")
passphrase = passphrase.strip()
# Determine verbosity.
verbose = False
if "--verbose" in opts.keys() or "-v" in opts.keys():
verbose = True
# Determine if debug output is requested.
if "--debug" in opts.keys():
debug = True
# Enable debug output for OpenSSL-related functions.
cryptutil.setdebug(True)
# Ingredients for successful SIS generation:
#
# terminalenc Terminal character encoding (autodetected)
# filesystemenc File system name encoding (autodetected)
# infiles A list of input SIS file names, filesystemenc encoded
# outfile Output SIS file name, filesystemenc encoded
# cert Certificate in PEM format
# privkey Certificate private key in PEM format
# passphrase Pass phrase of priv. key, terminalenc encoded string
# verbose Boolean indicating verbose terminal output
if verbose:
print
print "Input SIS files %s" % " ".join(
[f.decode(filesystemenc).encode(terminalenc) for f in infiles])
print "Output SIS file %s" % (
outfile.decode(filesystemenc).encode(terminalenc))
print "Certificate %s" % ((cert and
cert.decode(filesystemenc).encode(terminalenc)) or "<default>")
print "Private key %s" % ((privkey and
privkey.decode(filesystemenc).encode(terminalenc)) or "<default>")
print
insis = []
for n in xrange(len(infiles)):
# Read input SIS files.
f = file(infiles[n], "rb")
instring = f.read(MAXSISFILESIZE + 1)
f.close()
if len(instring) > MAXSISFILESIZE:
raise ValueError("%s: input SIS file too large" % infiles[n])
if n == 0:
# Store UIDs for later use.
uids = instring[:16] # UID1, UID2, UID3 and UIDCRC
# Convert input SIS file to SISFields.
sf, rlen = sisfield.SISField(instring[16:], False)
# Ignore extra bytes after SIS file.
if len(instring) > (rlen + 16):
print ("%s: %s: warning: %d extra bytes after SIS file (ignored)" %
(pgmname, infiles[n], (len(instring) - (rlen + 16))))
# Try to release some memory early.
del instring
# Check that there are no embedded SIS files.
if len(sf.Data.DataUnits) > 1:
raise ValueError("%s: input SIS file contains "
"embedded SIS files" % infiles[n])
insis.append(sf)
# Temporarily remove the SISDataIndex SISField from the first SISController.
ctrlfield = insis[0].Controller.Data
didxfield = ctrlfield.DataIndex
ctrlfield.DataIndex = None
# Remove old signatures from the first SIS file.
if len(ctrlfield.getsignatures()) > 0:
print ("%s: warning: removing old signatures "
"from the first input SIS file" % pgmname)
ctrlfield.setsignatures([])
for n in xrange(1, len(insis)):
# Append SISDataUnit SISFields into SISData array of the first SIS file.
insis[0].Data.DataUnits.append(insis[n].Data.DataUnits[0])
# Set data index in SISController SISField.
insis[n].Controller.Data.DataIndex.DataIndex = n
# Embed SISController into SISInstallBlock of the first SIS file.
ctrlfield.InstallBlock.EmbeddedSISFiles.append(insis[n].Controller.Data)
# Calculate a signature of the modified SISController.
string = ctrlfield.tostring()
string = sisfield.stripheaderandpadding(string)
signature, algoid = sisfile.signstring(privkeydata, passphrase, string)
# Create a SISCertificateChain SISField from certificate data.
sf1 = sisfield.SISBlob(Data = cryptutil.certtobinary(certdata))
sf2 = sisfield.SISCertificateChain(CertificateData = sf1)
# Create a SISSignature SISField from calculated signature.
sf3 = sisfield.SISString(String = algoid)
sf4 = sisfield.SISSignatureAlgorithm(AlgorithmIdentifier = sf3)
sf5 = sisfield.SISBlob(Data = signature)
sf6 = sisfield.SISSignature(SignatureAlgorithm = sf4, SignatureData = sf5)
# Create a new SISSignatureCertificateChain SISField.
sa = sisfield.SISArray(SISFields = [sf6])
sf7 = sisfield.SISSignatureCertificateChain(Signatures = sa,
CertificateChain = sf2)
# Set certificate, restore data index.
ctrlfield.Signature0 = sf7
ctrlfield.DataIndex = didxfield
# Convert SISFields to string.
outstring = insis[0].tostring()
# Write output SIS file.
f = file(outfile, "wb")
f.write(uids)
f.write(outstring)
f.close()