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nixpkgs/nixos/tests/sssd-ldap.nix
Silvan Mosberger 4f0dadbf38 treewide: format all inactive Nix files 
After final improvements to the official formatter implementation,
this commit now performs the first treewide reformat of Nix files using it.
This is part of the implementation of RFC 166.

Only "inactive" files are reformatted, meaning only files that
aren't being touched by any PR with activity in the past 2 months.
This is to avoid conflicts for PRs that might soon be merged.
Later we can do a full treewide reformat to get the rest,
which should not cause as many conflicts.

A CI check has already been running for some time to ensure that new and
already-formatted files are formatted, so the files being reformatted here
should also stay formatted.

This commit was automatically created and can be verified using

    nix-build a08b3a4d19.tar.gz \
      --argstr baseRev b32a094368
    result/bin/apply-formatting $NIXPKGS_PATH
2024-12-10 20:26:33 +01:00

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let
dbDomain = "example.org";
dbSuffix = "dc=example,dc=org";
ldapRootUser = "admin";
ldapRootPassword = "foobar";
testUser = "alice";
testPassword = "foobar";
testNewPassword = "barfoo";
in
import ./make-test-python.nix (
{ pkgs, ... }:
{
name = "sssd-ldap";
meta = with pkgs.lib.maintainers; {
maintainers = [
bbigras
s1341
];
};
nodes.machine =
{ pkgs, ... }:
{
security.pam.services.systemd-user.makeHomeDir = true;
environment.etc."cert.pem".text = builtins.readFile ./common/acme/server/acme.test.cert.pem;
environment.etc."key.pem".text = builtins.readFile ./common/acme/server/acme.test.key.pem;
services.openldap = {
enable = true;
urlList = [
"ldap:///"
"ldaps:///"
];
settings = {
attrs = {
olcTLSCACertificateFile = "/etc/cert.pem";
olcTLSCertificateFile = "/etc/cert.pem";
olcTLSCertificateKeyFile = "/etc/key.pem";
olcTLSCipherSuite = "HIGH:MEDIUM:+3DES:+RC4:+aNULL";
olcTLSCRLCheck = "none";
olcTLSVerifyClient = "never";
olcTLSProtocolMin = "3.1";
};
children = {
"cn=schema".includes = [
"${pkgs.openldap}/etc/schema/core.ldif"
"${pkgs.openldap}/etc/schema/cosine.ldif"
"${pkgs.openldap}/etc/schema/inetorgperson.ldif"
"${pkgs.openldap}/etc/schema/nis.ldif"
];
"olcDatabase={1}mdb" = {
attrs = {
objectClass = [
"olcDatabaseConfig"
"olcMdbConfig"
];
olcDatabase = "{1}mdb";
olcDbDirectory = "/var/lib/openldap/db";
olcSuffix = dbSuffix;
olcRootDN = "cn=${ldapRootUser},${dbSuffix}";
olcRootPW = ldapRootPassword;
olcAccess = [
# custom access rules for userPassword attributes
''
{0}to attrs=userPassword
by self write
by anonymous auth
by * none''
# allow read on anything else
''
{1}to *
by * read''
];
};
};
};
};
declarativeContents = {
${dbSuffix} = ''
dn: ${dbSuffix}
objectClass: top
objectClass: dcObject
objectClass: organization
o: ${dbDomain}
dn: ou=posix,${dbSuffix}
objectClass: top
objectClass: organizationalUnit
dn: ou=accounts,ou=posix,${dbSuffix}
objectClass: top
objectClass: organizationalUnit
dn: uid=${testUser},ou=accounts,ou=posix,${dbSuffix}
objectClass: person
objectClass: posixAccount
userPassword: ${testPassword}
homeDirectory: /home/${testUser}
uidNumber: 1234
gidNumber: 1234
cn: ""
sn: ""
'';
};
};
services.sssd = {
enable = true;
# just for testing purposes, don't put this into the Nix store in production!
environmentFile = "${pkgs.writeText "ldap-root" "LDAP_BIND_PW=${ldapRootPassword}"}";
config = ''
[sssd]
config_file_version = 2
services = nss, pam, sudo
domains = ${dbDomain}
[domain/${dbDomain}]
auth_provider = ldap
id_provider = ldap
ldap_uri = ldaps://127.0.0.1:636
ldap_tls_reqcert = allow
ldap_tls_cacert = /etc/cert.pem
ldap_search_base = ${dbSuffix}
ldap_default_bind_dn = cn=${ldapRootUser},${dbSuffix}
ldap_default_authtok_type = password
ldap_default_authtok = $LDAP_BIND_PW
'';
};
};
testScript = ''
machine.start()
machine.wait_for_unit("openldap.service")
machine.wait_for_unit("sssd.service")
result = machine.execute("getent passwd ${testUser}")
if result[0] == 0:
assert "${testUser}" in result[1]
else:
machine.wait_for_console_text("Backend is online")
machine.succeed("getent passwd ${testUser}")
with subtest("Log in as ${testUser}"):
machine.wait_until_tty_matches("1", "login: ")
machine.send_chars("${testUser}\n")
machine.wait_until_tty_matches("1", "login: ${testUser}")
machine.wait_until_succeeds("pgrep login")
machine.wait_until_tty_matches("1", "Password: ")
machine.send_chars("${testPassword}\n")
machine.wait_until_succeeds("pgrep -u ${testUser} bash")
machine.send_chars("touch done\n")
machine.wait_for_file("/home/${testUser}/done")
with subtest("Change ${testUser}'s password"):
machine.send_chars("passwd\n")
machine.wait_until_tty_matches("1", "Current Password: ")
machine.send_chars("${testPassword}\n")
machine.wait_until_tty_matches("1", "New Password: ")
machine.send_chars("${testNewPassword}\n")
machine.wait_until_tty_matches("1", "Reenter new Password: ")
machine.send_chars("${testNewPassword}\n")
machine.wait_until_tty_matches("1", "passwd: password updated successfully")
with subtest("Log in as ${testUser} with new password in virtual console 2"):
machine.send_key("alt-f2")
machine.wait_until_succeeds("[ $(fgconsole) = 2 ]")
machine.wait_for_unit("getty@tty2.service")
machine.wait_until_succeeds("pgrep -f 'agetty.*tty2'")
machine.wait_until_tty_matches("2", "login: ")
machine.send_chars("${testUser}\n")
machine.wait_until_tty_matches("2", "login: ${testUser}")
machine.wait_until_succeeds("pgrep login")
machine.wait_until_tty_matches("2", "Password: ")
machine.send_chars("${testNewPassword}\n")
machine.wait_until_succeeds("pgrep -u ${testUser} bash")
machine.send_chars("touch done2\n")
machine.wait_for_file("/home/${testUser}/done2")
'';
}
)
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