nixcfg/dev_secretmgr
2022-12-25 19:52:28 +01:00

455 lines
15 KiB
Python
Executable file

#!/usr/bin/env nix-shell
#!nix-shell -i python3 -p "python3.withPackages(ps: [ ps.pip ps.consul ps.ldap ps.passlib ps.requests ps.six ps.toml ])"
# DEPENDENCY: python-consul
import consul
# DEPENDENCY: python-ldap
import ldap
# DEPENDENCY: passlib
from passlib.hash import ldap_salted_sha1
# DEPENDENCY: toml
import toml
import os
import sys
import glob
import subprocess
import getpass
import base64
from secrets import token_bytes
"""
TODO: this will be a utility to handle secrets in the Consul database
for the various components of the Deuxfleurs infrastructure
Functionnalities:
- check that secrets are correctly configured
- help user fill in secrets
- create LDAP service users and fill in corresponding secrets
- maybe one day: manage SSL certificates and keys
It uses files placed in <module_name>/secrets/* to know what secrets
it should handle. These secret files contain directives for what to do
about these secrets.
Example directives:
USER <description>
(a secret that must be filled in by the user)
USER_LONG <description>
(the same, indicates that the secret fits on several lines)
CMD <command>
(a secret that is generated by running this command)
CMD_ONCE <command>
(same, but value is not changed when doing a regen)
CONST <constant value>
(the secret has a constant value set here)
CONST_LONG
<constant value, several lines>
(same)
SERVICE_DN <service name> <service description>
(the LDAP DN of a service user)
SERVICE_PASSWORD <service name>
(the LDAP password for the corresponding service user)
SSL_CERT <cert name> <list of domains>
(a SSL domain for the given domains)
SSL_KEY <cert name>
(the SSL key going with corresponding certificate)
RSA_PUBLIC_KEY <key name> <key description>
(a public RSA key)
RSA_PRIVATE_KEY <key name>
(the corresponding private RSA key)
"""
# Parameters
LDAP_URL = "ldap://localhost:1389"
SERVICE_DN_SUFFIX = "ou=services,ou=users,dc=deuxfleurs,dc=fr"
consul_server = consul.Consul()
# ---- UTIL ----
class bcolors:
HEADER = '\033[95m'
OKBLUE = '\033[94m'
OKCYAN = '\033[96m'
OKGREEN = '\033[92m'
WARNING = '\033[93m'
FAIL = '\033[91m'
ENDC = '\033[0m'
BOLD = '\033[1m'
UNDERLINE = '\033[4m'
ldap_admin_conn = None
def get_ldap_admin_conn():
global ldap_admin_conn
if ldap_admin_conn is None:
ldap_admin_conn = ldap.initialize(LDAP_URL)
ldap_user = input("LDAP admin user (full DN, please!): ")
ldap_pass = getpass.getpass("LDAP admin password: ")
ldap_admin_conn.simple_bind_s(ldap_user, ldap_pass)
return ldap_admin_conn
# ---- SECRETS ----
class Secret:
def __init__(self, key, description=None):
self.consul_key = "secrets/" + key
if description != None:
self.description = description
def check(self, value):
return True
def generate(self, old_value):
pass
class UserSecret(Secret):
def __init__(self, example=None, multiline=False, **kwargs):
Secret.__init__(self, **kwargs)
self.example = example
self.multiline = multiline
def generate(self, old_value):
print("Description:", self.description)
print("Enter value for secret, or ^C to skip:")
if self.multiline:
print("THIS IS A LONG VALUE, ENTER SEVERAL LINES AND FINISH WITH A LINE CONTAINING A SINGLE .")
try:
lines = []
while True:
line = input().strip()
if line == ".":
break
lines.append(line)
return "\n".join(lines)
except KeyboardInterrupt:
return None
else:
try:
while True:
line = input().strip()
if line != "":
return line
else:
print("Please enter a non-empty value, or ^C to skip:")
except KeyboardInterrupt:
return None
class CommandSecret(Secret):
def __init__(self, command, rotate=False, **kwargs):
Secret.__init__(self, **kwargs)
self.command = command
self.rotate = rotate
def generate(self, old_value):
if not self.rotate and old_value is not None:
return None
print("Executing command:", self.command)
return subprocess.check_output(["sh", "-c", self.command])
class ConstantSecret(Secret):
def __init__(self, value, **kwargs):
Secret.__init__(self, **kwargs)
self.value = value
def check(self, value):
return value == self.value
def generate(self, old_value):
if old_value != self.value:
return self.value
else:
return None
# ---- SERVICE USERS ----
class ServiceUserPasswordSecret:
def __init__(self, service_user, **kwargs):
Secret.__init__(self, **kwargs)
self.service_user = service_user
def check(self, value):
l = ldap.initialize(LDAP_URL)
try:
l.simple_bind_s(self.service_user.dn, value)
return True
except Exception as e:
return False
def generate(self, old_value):
if old_value != self.service_user.password:
return self.service_user.password
else:
return None
class ServiceUser:
def __init__(self, username, password_secret, user_dn_secret=None, user_name_secret=None, rotate_password=False):
self.username = username
self.password = None
self.dn = "cn={},{}".format(self.username, SERVICE_DN_SUFFIX)
self.rotate_password = rotate_password
self.username_secret = username_secret
self.password_secret = password_secret
self.dn_secret = dn_secret
def secrets(self):
secrets = {}
secrets[self.password_secret] = ServiceUserPasswordSecret(
service_user=self,
key=self.password_secret,
description="LDAP password for service user {}".format(self.username),
)
if self.user_dn_secret != None:
secrets[self.dn_secret] = ConstantSecret(
key=self.dn_secret,
value=self.dn,
description="LDAP DN for service user {}".format(self.username),
)
if self.username_secret != None:
secrets[self.username_secret] = ConstantSecret(
key=self.username_secret,
value=self.username,
description="LDAP username for service user {}".format(self.username),
)
return secrets
# ---- READING secrets.toml FILES ----
class Config:
def __init__(self, cluster_name):
self.cluster_name = cluster_name
self.app_path = os.path.join(".", "cluster", cluster_name)
self.service_users = {}
self.secrets = {}
self.modules = []
def load_module(self, module_name)
secrets_toml_path = os.path.join(self.app_path, module_name, "secrets.toml")
with open(secrets_toml_path) as f:
secrets_toml = toml.load(f)
self.modules.append(module_name)
# Service users, and their associated secrets
if "service_users" in secrets_toml:
for (uname, uargs) in secrets_toml["service_users"].items():
service_user = ServiceUser(uname, **uargs)
for (skey, secret) in service_user.secrets():
if skey in self.secrets:
raise Exception("Duplicate secret: {}".format(skey))
self.secrets[skey] = secret
self.service_users[uname] = service_user
# Other secrets
if "secrets" in secrets_toml:
for (skey, sargs) in secrets_toml["secrets"].items():
ty = sargs["type"]
del sargs["type"]
if ty == "user":
secret = UserSecret(key=skey, **sargs)
elif ty == "command":
secret = CommandSecret(key=skey, **sargs)
elif ty == "constant":
secret = Constantsecret(key=skey, **sargs)
else:
raise Exception("Invalid secret type: {}".format(ty))
if skey in self.secrets:
raise Exception("Duplicate secret: {}".format(skey))
self.secrets[skey] = secret
def check_secrets(self):
print(":: Checking secrets...")
for (_, secret) in self.secrets.items():
_, data = consul_server.kv.get(secret.consul_key)
if data is None:
print(secret.consul_key, bcolors.FAIL, "x", bcolors.ENDC, " missing")
elif not secret.check(data["Value"].decode('ascii').strip()):
print(secret.consul_key, bcolors.FAIL, "x", bcolors.ENDC, " wrong value")
else:
print(secret.consul_key, bcolors.OKGREEN, "", bcolors.ENDC)
print()
def gen_secrets(self):
print(":: Generating missing secrets...")
for (_, secret) in self.secrets.items():
_, data = consul_server.kv.get(secret.consul_key)
if data is None:
value = secret.generate(None)
if value != None:
print("PUT {} = {}".format(secret.consul_key, value))
print(bcolors.OKCYAN, "Value set.", bcolors.ENDC)
else:
print(bcolors.WARNING, "Skipped.", bcolors.ENDC)
print()
def rotate_secrets(self):
print(":: Rotating secrets...")
for (_, secret) in self.secrets.items():
print(": {} ({})".format(secret.consul_key, secret.__class__.__name__))
_, data = consul_server.kv.get(secret.consul_key)
if data is None:
value = secret.generate(None)
else:
value = secret.generate(data["Value"].decode('ascii').strip())
if value != None:
print("PUT {} = {}".format(secret.consul_key, value))
print(bcolors.OKCYAN, "Value set.", bcolors.ENDC)
else:
print(bcolors.WARNING, "Skipped.", bcolors.ENDC)
print()
def check_secrets(modules):
for mod in modules:
print("==== MODULE `{}` ====".format(mod))
modcfg = Config(mod)
modcfg.check_secrets()
print("")
def gen_secrets(modules):
for mod in modules:
print("==== MODULE `{}` ====".format(mod))
modcfg = Config(mod)
modcfg.gen_secrets()
modcfg.check_secrets()
print("")
def rotate_secrets(modules):
for mod in modules:
print("==== MODULE `{}` ====".format(mod))
modcfg = Config(mod)
modcfg.rotate_secrets()
modcfg.check_secrets()
print("")
# ----- old ----
# ---- CHECK COMMAND ----
def check_secrets_services(secrets):
print("Checking secrets for LDAP service users...")
services = get_secrets_services(secrets)
for svc_name, svc in services.items():
for dn_key in svc["dn_at"]:
_, data = consul_server.kv.get(dn_key)
if data is not None:
got_val = data["Value"].decode('ascii').strip()
if got_val != svc["dn"]:
print(svc_name, "wrong DN at", dn_key, bcolors.FAIL, "x", bcolors.ENDC)
print("got:", got_val, "instead of:", svc["dn"])
if svc["pass"] is None:
print(svc_name, bcolors.FAIL, "no password stored", bcolors.ENDC)
else:
for pass_key in svc["pass_at"]:
_, data = consul_server.kv.get(pass_key)
if data is not None:
got_val = data["Value"].decode('ascii').strip()
if got_val != svc["pass"]:
print(svc_name, "wrong pass at", dn_key, bcolors.FAIL, "x", bcolors.ENDC)
l = ldap.initialize(LDAP_URL)
try:
l.simple_bind_s(svc["dn"], svc["pass"])
print(svc_name, bcolors.OKGREEN, "", bcolors.ENDC)
except Exception as e:
print(svc_name, bcolors.FAIL, e, bcolors.ENDC)
print()
# ---- GEN COMMAND ----
def gen_secrets_services(secrets, regen):
print("Generating LDAP service accounts...")
services = get_secrets_services(secrets)
for svc_name, svc in services.items():
print("----")
print("Service:", svc_name)
print("Description:", svc["desc"])
for dn_key in svc["dn_at"]:
_, data = consul_server.kv.get(dn_key)
if data is None or data["Value"].decode('ascii').strip() != svc["dn"]:
print(bcolors.OKCYAN, "Setting DN", bcolors.ENDC, "at", dn_key)
consul_server.kv.put(dn_key, svc["dn"])
if svc["pass"] is None or regen:
print(bcolors.OKCYAN, "Generating new password", bcolors.ENDC)
svc["pass"] = base64.urlsafe_b64encode(token_bytes(12)).decode('ascii')
l = ldap.initialize(LDAP_URL)
try:
l.simple_bind_s(svc["dn"], svc["pass"])
except:
fix_service_user(svc)
for pass_key in svc["pass_at"]:
_, data = consul_server.kv.get(pass_key)
if data is None or data["Value"].decode('ascii').strip() != svc["pass"]:
print(bcolors.OKCYAN, "Setting password", bcolors.ENDC, "at", pass_key)
consul_server.kv.put(pass_key, svc["pass"])
print()
def fix_service_user(svc):
print("Fixing service user", svc["dn"], "...")
l = get_ldap_admin_conn()
res = l.search_s(svc["dn"], ldap.SCOPE_BASE, "objectclass=*")
pass_crypt = ldap_salted_sha1.hash(svc["pass"])
if res is None or len(res) == 0:
print(bcolors.OKCYAN, "Creating entity...", bcolors.ENDC)
l.add_s(svc["dn"],
[
("objectclass", [b"person", b"top"]),
("displayname", [svc["desc"].encode('ascii')]),
("userpassword", [pass_crypt.encode('ascii')]),
])
else:
print(bcolors.OKCYAN, "Resetting entity password", bcolors.ENDC)
l.modify_s(svc["dn"],
[
(ldap.MOD_REPLACE, "userpassword", [pass_crypt.encode('ascii')])
])
# ---- MAIN ----
if __name__ == "__main__":
for i, val in enumerate(sys.argv):
if val == "check":
check_secrets(sys.argv[i+1:])
break
elif val == "gen":
gen_secrets(sys.argv[i+1:])
break
elif val == "rotate":
rotate_secrets(sys.argv[i+1:])
break
else:
print("Usage:")
print(" secretmgr.py [check|gen|rotate] <module name>...")
# vim: set sts=4 ts=4 sw=4 tw=0 ft=python et :