Python command line app for managing groups of secrets (passwords, API keys, etc) and other project variables. Reduces security risks from things like weak default passwords, secrets stored in files in the source code repository directory.
Version: 24.10.12
- Free software: Apache 2.0 License
- Documentation: https://python_secrets.readthedocs.org.
- Uses the openstack/cliff command line framework for a robust and full-featured CLI. It is easy to add new commands and features!
- Supports a "drop-in" model for defining variables in a modular manner (something like the python-update-dotdee program), supporting simplified bulk setting or generating values of variables as needed.
- Like python-update-dotdee, psec produces a single master
.jsonfile to hold variables defined by the drop-in group description files. That means you can use that file directly to set variables to be used from within other programs like Ansible (e.g.ansible-playbook playbook.yml -e @"$(psec secrets path)") - Support multiple simultaneous sets of secrets (environments) for flexibility and scalability in multi-environment deployments and to support different use cases or different combinations of secrets.
- Supports changing the storage location of secrets and variables to allow them to be stored on secure mobile media (such as self-encrypting external SSD or Flash drives) or encrypted disk images mounted at run-time to ensure the confidentiality of data at rest.
- List the groups of variables (and how many secrets in each group).
- Describe secrets by their variable name and type (e.g.,
password,uuid4,random_base64). You can also include a descriptive string to prompt the user for a value, a list of options to choose from (or*for "any value the user enters"), and a list of environment variables to export for other programs to use at run time. - Allows manual entry of values, setting non-secret variables from a default value, or automatic generation of secrets according to their type.
- Manually set
stringvariables based on the output of simple commands. This allows interfacing with external programs for obtaining secrets, such as Vault by Hashicorp. - Generate unique values for variables, or use a single value per type to simplify use of secrets in access control of services while supporting a "break-glass" process to quickly regenerate secrets when needed.
- Show the variables and their unredacted values (or redacted them to maintain secrecy during demonstrations or in documentation).
- Export the variables (optionally with a specific prefix string) to the environment and run a command that inherits them (e.g., to pass variables to terraform for provisioning cloud instances).
- Output the variables and values in multiple different formats (CSV,
JSON, YAML) for use in shell scripts, etc. using
clifffeatures. - Send secrets to other users on demand using GPG encrypted email to protect the secrets while in transit and while at rest in users' email inboxes.
- Makes it easy to store temporary files (e.g., the output from
Jinja template rendering)
that may contain secrets outside of the source repo directory
in an environment-specific
tmp/directory.
- Secrets are stored in unencrypted form in the environments directories. Permissions are set to limit access, but this is not an "encrypt data at rest" solution like Vault by Hashicorp.
- Does not handle secure distributed access for users on remote systems. You must use something like Vault by Hashicorp or libfuse/sshfs for secure (realtime) distributed access.
- Does not handle secure distribution of newly generated secrets out to distributed systems that need them. You will need to use a program like Ansible and related playbooks for pushing out and changing secrets (or for retrieving backups). Look at the D2 Ansible playbooks (https://github.com/davedittrich/ansible-dims-playbooks) for example playbooks for doing these tasks.
- Does not clean up the environment-specific
tmp/directories. (You need to handle that in code, but at least they are less likely to end up in a Git commit.)
There is a separate Usage chapter with individual command documentation.
The remainder of this section covers higher level usage concepts necessary to
best use the python_secrets package in your open source software project.
There are three file system concepts that are important to understand regarding secrets storage:
- The root secrets base directory for secrets storage;
- The environment for organizing a set of secrets and secret group descriptions;
- The secrets file and group descriptions.
psec expects to store all of files in a directory tree known as a
secrets base directory. Originally, this was intended to be located in the
current user's home directory. Unless you over-ride the name of this directory,
it defaults to .secrets on Linux and secrets on Windows.
The ability to locate this directory in a different file system path is supported by command line options and an environment variable so you can store files on an exported file share, in a common location for use by a group on a workstation, or to move the contents to an encrypted disk or a different partition with more disk space.
The first time you use ever use psec, there will likely be no
directory:
$ tree ~/.secrets
/Users/dittrich/.secrets [error opening dir]
0 directories, 0 filesNote
The secrets base directory may be created automatically for you the
first time you create an environment. For more information, see
psec init --help.
Environments are sub-directories within the root secrets directory. You can just create the directory structure without any files. You create one environment per set of unique secrets that you need to manage. This could be one for open source Program A, one for Program B, etc., or it could be one for development, one for testing, one for production, etc. (or any combination).
The command environments create creates an environment. Since this
program is designed to support multiple environments, a name for the new
environment is required. The name of the environment can be provided
explicitly, or it can be inferred from the base name of the current working
directory:
$ pwd
/Users/dittrich/git/python_secrets
$ psec environments create
environment directory /Users/dittrich/.secrets/python_secrets created
$ tree ~/.secrets
/Users/dittrich/.secrets
└── python_secrets
└── secrets.d
2 directories, 0 filesLet's say we want to create empty environments for the three deployments
(development, testing, and production). The names can be assigned
explicitly by (a) giving an argument on the command line, (b) using the -e or
--environment command line flag, or (c) by setting the environment variable
D2_ENVIRONMENT:
$ psec environments create development
environment directory /Users/dittrich/.secrets/development created
$ psec --environment testing environments create
environment directory /Users/dittrich/.secrets/testing created
$ D2_ENVIRONMENT=production psec environments create
environment directory /Users/dittrich/.secrets/production created
$ tree ~/.secrets
/Users/dittrich/.secrets
├── development
│ └── secrets.d
├── production
│ └── secrets.d
├── python_secrets
│ └── secrets.d
└── testing
└── secrets.d
8 directories, 0 filesIf you want to create more than one environment at once, you will have to specify all of the names on the command line as arguments:
$ psec environments create development testing production
environment directory /Users/dittrich/.secrets/development created
environment directory /Users/dittrich/.secrets/testing created
environment directory /Users/dittrich/.secrets/production createdIf you are using one source repository for building multiple deployments, of
course you can't rely on the basename of the directory for all deployments. The
default environment can be set, shown, or unset, using the environments
default command.
$ psec environments default --help
usage: psec environments default [-h] [--unset-default] [environment]
Manage default environment via file in cwd
positional arguments:
environment
optional arguments:
-h, --help show this help message and exit
--unset-default Unset localized environment defaultIf no default is explicitly set, the default that would be applied is returned:
$ cd ~/git/python_secrets
$ psec environments default
default environment is "python_secrets"You can get a list of all available environments at any time, including which one would be the default used by sub-commands:
$ psec environments list
+-------------+---------+
| Environment | Default |
+-------------+---------+
| development | No |
| testing | No |
| production | No |
+-------------+---------+The following shows setting and unsetting the default:
$ psec environments default testing
default environment set to "testing"
$ psec environments default
testing
$ psec environments list
+-------------+---------+
| Environment | Default |
+-------------+---------+
| development | No |
| testing | Yes |
| production | No |
+-------------+---------+
$ psec environments default --unset-default
default environment unsetThe environment directories are useable for storing all secrets and sensitive files (e.g., backups of certificates, databases, etc.) associated with an environment.
For convenience, there is a command environments tree that produces
output similar to the Unix tree command:
$ psec -e d2 environments tree
/Users/dittrich/.secrets/d2
├── backups
│ ├── black.secretsmgmt.tk
│ │ ├── letsencrypt_2018-04-06T23:36:58PDT.tgz
│ │ └── letsencrypt_2018-04-25T16:32:20PDT.tgz
│ ├── green.secretsmgmt.tk
│ │ ├── letsencrypt_2018-04-06T23:45:49PDT.tgz
│ │ └── letsencrypt_2018-04-25T16:32:20PDT.tgz
│ ├── purple.secretsmgmt.tk
│ │ ├── letsencrypt_2018-04-25T16:32:20PDT.tgz
│ │ ├── trident_2018-01-31T23:38:48PST.tar.bz2
│ │ └── trident_2018-02-04T20:05:33PST.tar.bz2
│ └── red.secretsmgmt.tk
│ ├── letsencrypt_2018-04-06T23:45:49PDT.tgz
│ └── letsencrypt_2018-04-25T16:32:20PDT.tgz
├── dittrich.asc
├── keys
│ └── opendkim
│ └── secretsmgmt.tk
│ ├── 201801.private
│ ├── 201801.txt
│ ├── 201802.private
│ └── 201802.txt
├── secrets.d
│ ├── ca.json
│ ├── consul.json
│ ├── jenkins.json
│ ├── rabbitmq.json
│ ├── trident.json
│ ├── vncserver.json
│ └── zookeper.json
├── secrets.json
└── vault_password.txtTo just see the directory structure and not files, add the --no-files option:
$ psec -e d2 environments tree --no-files
/Users/dittrich/.secrets/d2
├── backups
│ ├── black.secretsmgmt.tk
│ ├── green.secretsmgmt.tk
│ ├── purple.secretsmgmt.tk
│ └── red.secretsmgmt.tk
├── keys
│ └── opendkim
│ └── secretsmgmt.tk
└── secrets.dThe environment directories just created are all empty. Secrets are stored in a
JSON file (.json) within the environment's directory, and group descriptions
are stored in a drop-in directory with the same base name, but with an
extention of .d instead of .json (following the Linux drop-in
configuration style directories used by programs like rsyslog, dnsmasq,
etc.)
The default secrets file name is secrets.json, which means the default
descriptions directory would be named secrets.d.
You can define environment variables to point to the secrets base directory in which a set of different environments can be configured at one time, to define the current environment, and to change the name of the secrets file to something else.
$ env | grep ^D2_
D2_SECRETS_BASEDIR=/Users/dittrich/.secrets
D2_ENVIRONMENT=doEach environment is in turn rooted in a directory with the environment's
symbolic name (e.g., do for DigitalOcean in this example, and goSecure
for the GitHub davedittrich/goSecure VPN project.)
$ tree -L 1 ~/.secrets
/Users/dittrich/.secrets
├── do
└── goSecure
3 directories, 0 filesEach set of secrets for a given service or purpose is described in its own file.
.
├── secrets.d
│ ├── ca.json
│ ├── consul.json
│ ├── jenkins.json
│ ├── rabbitmq.json
│ ├── trident.json
│ ├── vncserver.json
│ └── zookeper.json
└── secrets.jsonYou can see one of the descriptions files from the template
in this repository using cat tests/secrets.d/myapp.json:
[
{
"Variable": "myapp_pi_password",
"Type": "password",
"Prompt": "Password for myapp 'pi' user account",
"Export": "DEMO_pi_password"
},
{
"Variable": "myapp_app_password",
"Type": "password",
"Prompt": "Password for myapp web app",
"Export": "DEMO_app_password"
},
{
"Variable": "myapp_client_psk",
"Type": "string",
"Prompt": "Pre-shared key for myapp client WiFi AP",
"Options": "*",
"Export": "DEMO_client_psk"
},
{
"Variable": "myapp_client_ssid",
"Type": "string",
"Prompt": "SSID for myapp client WiFi AP",
"Options": "myapp_ssid,*",
"Export": "DEMO_client_ssid"
},
{
"Variable": "myapp_ondemand_wifi",
"Type": "boolean",
"Prompt": "'Connect on demand' when connected to wifi",
"Options": "true,false",
"Export": "DEMO_ondemand_wifi"
},
{
"Variable": "myapp_optional_setting",
"Type": "boolean",
"Prompt": "Optionally do something",
"Options": "false,true",
"Export": "DEMO_options_setting"
}
]The psec program uses the openstack/cliff command line
interface framework, which supports multiple output formats. The default
format the table format, which makes for nice clean output. (Other
formats will be described later.)
The groups can be listed using the groups list command:
$ psec groups list
+---------+-------+
| Group | Items |
+---------+-------+
| jenkins | 1 |
| myapp | 4 |
| trident | 2 |
+---------+-------+The variables in one or more groups can be shown with
the groups show command:
$ psec groups show trident myapp
+---------+-----------------------+
| Group | Variable |
+---------+-----------------------+
| trident | trident_sysadmin_pass |
| trident | trident_db_pass |
| myapp | myapp_app_password |
| myapp | myapp_client_psk |
| myapp | myapp_client_ssid |
| myapp | myapp_ondemand_wifi |
| myapp | myapp_pi_password |
+---------+-----------------------+When integrating a new open source tool or project, you can create a new group and clone its secrets descriptions. This does not copy any values, just the descriptions, allowing the current environment to manage its own values.
$ psec groups create newgroup --clone-from ~/git/goSecure/secrets/secrets.d/gosecure.json
created new group "newgroup"
$ psec groups list 2>/dev/null
+----------+-------+
| Group | Items |
+----------+-------+
| jenkins | 1 |
| myapp | 5 |
| newgroup | 12 |
| trident | 2 |
+----------+-------+To examine the secrets, use the secrets show command:
$ psec secrets show
+------------------------+----------+----------+------------------------+
| Variable | Type | Value | Export |
+------------------------+----------+----------+------------------------+
| jenkins_admin_password | password | REDACTED | jenkins_admin_password |
| myapp_app_password | password | REDACTED | DEMO_app_password |
| myapp_client_psk | string | REDACTED | DEMO_client_ssid |
| myapp_client_ssid | string | REDACTED | DEMO_client_ssid |
| myapp_ondemand_wifi | boolean | REDACTED | DEMO_ondemand_wifi |
| myapp_pi_password | password | REDACTED | DEMO_pi_password |
| trident_db_pass | password | REDACTED | trident_db_pass |
| trident_sysadmin_pass | password | REDACTED | trident_sysadmin_pass |
+------------------------+----------+----------+------------------------+By default, the values of secrets are redacted when output. To show
the values in clear text in the terminal output, add the --no-redact flag:
$ psec secrets show --no-redact
+------------------------+----------+------------------------------+------------------------+
| Variable | Type | Value | Export |
+------------------------+----------+------------------------------+------------------------+
| jenkins_admin_password | password | fetch.outsider.awning.maroon | jenkins_admin_password |
| myapp_app_password | password | fetch.outsider.awning.maroon | DEMO_app_password |
| myapp_client_psk | string | PSK | DEMO_client_psk |
| myapp_client_ssid | string | SSID | DEMO_client_ssid |
| myapp_ondemand_wifi | boolean | true | DEMO_ondemand_wifi |
| myapp_pi_password | password | fetch.outsider.awning.maroon | DEMO_pi_password |
| trident_db_pass | password | fetch.outsider.awning.maroon | trident_db_pass |
| trident_sysadmin_pass | password | fetch.outsider.awning.maroon | trident_sysadmin_pass |
+------------------------+----------+------------------------------+------------------------+If you don't care about redaction and want to turn it off and save
the dozen keystrokes it takes to type `` --no-redact``, you can export
the environment variable D2_NO_REDACT set to (case-insensitive)
"true", "1", or "yes". Anything else leaves the default the same.
We'll do this now for later examples.
$ export D2_NO_REDACT=trueThe default is also to show all secrets. If you only want to process a subset of secrets, you have two ways to do this.
Specify the variables you want to show on the command line as arguments:
$ psec secrets show rabbitmq_default_user_pass rabbitmq_admin_user_pass +----------------------------+----------+--------------------------------------+ | Variable | Type | Value | +----------------------------+----------+--------------------------------------+ | rabbitmq_default_user_pass | password | handheld.angrily.letdown.frisk | | rabbitmq_admin_user_pass | password | handheld.angrily.letdown.frisk | +----------------------------+----------+--------------------------------------+
Use the
--groupflag and specify the group(s) you want to show as command line arguments:$ psec secrets show --group jenkins trident +----------------------------+----------+--------------------------------------+ | Variable | Type | Value | +----------------------------+----------+--------------------------------------+ | jenkins_admin_password | password | handheld.angrily.letdown.frisk | | trident_db_pass | password | handheld.angrily.letdown.frisk | | trident_sysadmin_pass | password | handheld.angrily.letdown.frisk | +----------------------------+----------+--------------------------------------+
To describe the secrets in the select environment, use the
secrets describe command:
$ psec secrets describe
+----------------------------+----------+--------------------------------------------+
| Variable | Type | Prompt |
+----------------------------+----------+--------------------------------------------+
| google_oauth_client_id | string | Google OAuth2 client id |
| google_oauth_client_secret | string | Google OAuth2 client secret |
| google_oauth_refresh_token | string | Google OAuth2 refresh token |
| google_oauth_username | None | google_oauth_username |
| jenkins_admin_password | password | Password for Jenkins "admin" account |
| myapp_app_password | password | Password for myapp web app |
| myapp_client_psk | string | Pre-shared key for myapp client WiFi AP |
| myapp_client_ssid | string | SSID for myapp client WiFi AP |
| myapp_ondemand_wifi | boolean | "Connect on demand" when connected to wifi |
| myapp_pi_password | password | Password for myapp "pi" user account |
| trident_db_pass | password | Password for Trident postgres database |
| trident_sysadmin_pass | password | Password for Trident sysadmin account |
+----------------------------+----------+--------------------------------------------+
$ psec secrets describe --group trident
+-----------------------+----------+----------------------------------------+
| Variable | Type | Prompt |
+-----------------------+----------+----------------------------------------+
| trident_db_pass | password | Password for Trident postgres database |
| trident_sysadmin_pass | password | Password for Trident sysadmin account |
+-----------------------+----------+----------------------------------------+To get a description of the available secret types, add the --types flag.
$ psec secrets describe --types
+------------------+----------------------------------+
| Type | Description |
+------------------+----------------------------------+
| password | Simple (xkcd) password string |
| string | Simple string |
| boolean | Boolean ("true"/"false") |
| crypt_6 | crypt() SHA512 ("$6$") |
| token_hex | Hexadecimal token |
| token_urlsafe | URL-safe token |
| sha256_digest | DIGEST-SHA256 (user:pass) digest |
| uuid4 | UUID4 token |
| random_base64 | Random BASE64 token |
+------------------+----------------------------------+Note
The type string is for secrets that are managed by another entity that you
must obtain and use to access some remote service (e.g., the pre-shared key for
someone's WiFi network, or an API key for accessing a cloud service provider's
platform). All other types are structured secret types that you generate for
configuring services.
Secrets are generated using the secrets generate command
and are set manually using the secrets set command.
$ psec help secrets generate
usage: psec secrets generate [-h] [-U] [args [args ...]]
Generate values for secrets
positional arguments:
args
optional arguments:
-h, --help show this help message and exit
-U, --unique Generate unique values for each type of secret (default:
False)
..$ psec secrets set --help
usage: psec secrets set [-h] [--undefined] [args [args ...]]
Set values manually for secrets
positional arguments:
args
optional arguments:
-h, --help show this help message and exit
--undefined Set values for undefined variables (default: False)To regenerate all of the non-string secrets at once, using the same value for
each type of secret to simplify things, use the secrets generate command:
$ psec secrets generate
$ psec secrets show --column Variable --column Value
+----------------------------+----------------------------------------------+
| Variable | Value |
+----------------------------+----------------------------------------------+
| trident_db_pass | gargle.earlobe.eggplant.kissable |
| ca_rootca_password | gargle.earlobe.eggplant.kissable |
| consul_key | HEvUAItLFZ0+GjxfwTxLDKq5Fbt86UtXrInzpf71GGY= |
| jenkins_admin_password | gargle.earlobe.eggplant.kissable |
| rabbitmq_default_user_pass | gargle.earlobe.eggplant.kissable |
| rabbitmq_admin_user_pass | gargle.earlobe.eggplant.kissable |
| trident_sysadmin_pass | gargle.earlobe.eggplant.kissable |
| vncserver_password | gargle.earlobe.eggplant.kissable |
| zookeeper_uuid4 | 769a77ad-b06f-4018-857e-23f970c777c2 |
+----------------------------+----------------------------------------------+You can set one or more variables manually using secrets set and
specifying the variable and value in the form variable=value:
$ psec secrets set trident_db_pass="rural coffee purple sedan"
$ psec secrets show --column Variable --column Value
+----------------------------+----------------------------------------------+
| Variable | Value |
+----------------------------+----------------------------------------------+
| trident_db_pass | rural coffee purple sedan |
| ca_rootca_password | gargle.earlobe.eggplant.kissable |
| consul_key | HEvUAItLFZ0+GjxfwTxLDKq5Fbt86UtXrInzpf71GGY= |
| jenkins_admin_password | gargle.earlobe.eggplant.kissable |
| rabbitmq_default_user_pass | gargle.earlobe.eggplant.kissable |
| rabbitmq_admin_user_pass | gargle.earlobe.eggplant.kissable |
| trident_sysadmin_pass | gargle.earlobe.eggplant.kissable |
| vncserver_password | gargle.earlobe.eggplant.kissable |
| zookeeper_uuid4 | 769a77ad-b06f-4018-857e-23f970c777c2 |
+----------------------------+----------------------------------------------+Caution!
Note in the example above that the command argument is
trident_db_pass="rural coffee purple sedan" and not
trident_db_pass='rural coffee purple sedan'.
When using the variable=value form of the secrets set
command with a value that contains spaces, you must quote the value with
the double-quote character (") as opposed to the single-quote
(apostrophe, or ') character. The Bash shell (and possibly other
shells) will not properly parse the command line and the resulting
sys.argv argument vector will be incorrectly set as seen here:
_sys.argv[1:] = {list} <class 'list'>: ['--debug', 'secrets', 'set', 'trident_db_password=rural coffee purple sedan']
0 = {str} '--debug'
1 = {str} 'secrets'
2 = {str} 'set'
3 = {str} 'trident_db_password=rural coffee purple sedan'
__len__ = {int} 4
_sys.argv[1:] = {list} <class 'list'>: ['--debug', 'secrets', 'set', "trident_db_password='rural", 'coffee', 'purple', "sedan'"]
0 = {str} '--debug'
1 = {str} 'secrets'
2 = {str} 'set'
3 = {str} 'trident_db_password=\\'rural'
4 = {str} 'coffee'
5 = {str} 'purple'
6 = {str} 'sedan\\''
__len__ = {int} 7Or you can generate one or more variables in a similar manner by adding
them to the command line as arguments to secrets generate:
$ psec secrets generate rabbitmq_default_user_pass rabbitmq_admin_user_pass
$ psec secrets show --column Variable --column Value
+----------------------------+----------------------------------------------+
| Variable | Value |
+----------------------------+----------------------------------------------+
| trident_db_pass | rural.coffee.purple.sedan |
| ca_rootca_password | gargle.earlobe.eggplant.kissable |
| consul_key | HEvUAItLFZ0+GjxfwTxLDKq5Fbt86UtXrInzpf71GGY= |
| jenkins_admin_password | gargle.earlobe.eggplant.kissable |
| rabbitmq_default_user_pass | embezzle.xerox.excess.skydiver |
| rabbitmq_admin_user_pass | embezzle.xerox.excess.skydiver |
| trident_sysadmin_pass | gargle.earlobe.eggplant.kissable |
| vncserver_password | gargle.earlobe.eggplant.kissable |
| zookeeper_uuid4 | 769a77ad-b06f-4018-857e-23f970c777c2 |
+----------------------------+----------------------------------------------+A set of secrets for an open source project can be bootstrapped using the following steps:
Create a template secrets environment directory that contains just the secrets definitions. This example uses the template found in the davedittrich/goSecure repository (directory https://github.com/davedittrich/goSecure/tree/master/secrets).
Use this template to clone a secrets environment, which will initially be empty:
$ psec environments create test --clone-from ~/git/goSecure/secrets new password variable "gosecure_app_password" is unset new string variable "gosecure_client_ssid" is unset new string variable "gosecure_client_ssid" is unset new string variable "gosecure_client_psk" is unset new password variable "gosecure_pi_password" is unset new string variable "gosecure_pi_pubkey" is unset environment directory /Users/dittrich/.secrets/test created
Note
The warnings about undefined new variables are presented on the standard error file handle (a.k.a.,
&2). You get rid of them on the console by redirectingstderrto/dev/nullor a file:$ psec environments create test --clone-from ~/git/goSecure/secrets 2>/dev/null environment directory /Users/dittrich/.secrets/test created
$ psec -e test secrets show --no-redact --fit-width +-----------------------+----------+-------+ | Variable | Type | Value | +-----------------------+----------+-------+ | gosecure_app_password | password | None | | gosecure_client_ssid | string | None | | gosecure_client_psk | string | None | | gosecure_pi_password | password | None | | gosecure_pi_pubkey | string | None | +-----------------------+----------+-------+
First, generate all secrets whose type is not
string:$ psec -e test secrets generate new password variable "gosecure_app_password" is unset new string variable "gosecure_client_ssid" is unset new string variable "gosecure_client_ssid" is unset new string variable "gosecure_client_psk" is unset new password variable "gosecure_pi_password" is unset new string variable "gosecure_pi_pubkey" is unset $ psec -e test secrets show --no-redact --fit-width +-----------------------+----------+------------------------------+ | Variable | Type | Value | +-----------------------+----------+------------------------------+ | gosecure_app_password | password | brunt.outclass.alike.turbine | | gosecure_client_psk | string | None | | gosecure_client_ssid | string | None | | gosecure_pi_password | password | brunt.outclass.alike.turbine | | gosecure_pi_pubkey | string | None | +-----------------------+----------+------------------------------+
Finally, manually set the remaining
stringtype variables:$ psec -e test secrets set --undefined new string variable "gosecure_client_psk" is unset new string variable "gosecure_client_ssid" is unset new string variable "gosecure_pi_pubkey" is unset Pre-shared key for goSecure client WiFi AP? [None]: atjhK5AlsQMw3Zh SSID for goSecure client WiFi AP? [None]: YourWiFiSSID SSH public key for accessing "pi" account? [None]: @~/.ssh/new_rsa.pub $ psec -e test secrets show --no-redact --fit-width +-----------------------+----------+------------------------------------------------------------------------------------------+ | Variable | Type | Value | +-----------------------+----------+------------------------------------------------------------------------------------------+ | gosecure_app_password | password | brunt.outclass.alike.turbine | | gosecure_client_psk | string | atjhK5AlsQMw3Zh | gosecure_client_ssid | string | YourWiFiSSID | | gosecure_pi_password | password | brunt.outclass.alike.turbine | | gosecure_pi_pubkey | string | ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQC+qUIucrPvRkTmY0tgxr9ac/VtBUHhYHfOdDVpU99AcryLMWiU | | | | uQ2/NVikfOfPo5mt9YTQyqRbeBzKlNgbHnsxh0AZatjhK5AlsQMw3ZhZUcLYZbt7szuQy8ineN0potlCJoVaMSOb | | | | 9htf9gAPvzwxUnHxg35jPCzAXYAi3Erc6y338+CL0XxQvCogXOA+MwH7wZGgdT3WpupLG/7HAr/3KJEQQk1FlS2m | | | | Rd+WuewnLbKkqBP21N+48ccq6XhEhAmlzzr9SENw5DMmrvMAYIYkoTwUeD3Qx4YebjFkCxZw+w7AafEFn0Kz6vCX | | | | 4mp/6ZF/Ko+o04HM2sVr6wtCu2dB dittrich@localhost | +-----------------------+----------+------------------------------------------------------------------------------------------+
Note
If you don't want to see the warnings about new variables that are not
defined, simply add the -q flag.
$ psec -q secrets generate
$ psec -q secrets set --undefined
Pre-shared key for goSecure client WiFi AP? [None]:You are now ready to compile your software, or build your project!
There is also a mechanism to run simple commands (i.e., basic arguments with
no special inline command substitution or variable expansion features of
shells like bash) and use the resulting output as the value.
For this example, let's assume an environment that requires a CIDR notation address for ingres access control (e.g., when using Amazon Web Services to allow control of instances from your remote laptop).
$ psec -e xgt secrets set aws_cidr_allowed=""
$ psec -e secrets show --no-redact aws_cidr_allowed
+------------------+--------+-------+
| Variable | Type | Value |
+------------------+--------+-------+
| aws_cidr_allowed | string | |
+------------------+--------+-------+The psec program has a utility feature that will return
the current routable IP source address as an IP address, or using CIDR
notation. The variable can be set in one of two ways:
Via (non-interactive) inline command subtitution from the terminal shell:
$ psec -e xgt secrets set aws_cidr_allowed="$(psec utils myip --cidr)"Interactively when prompted using simple command line form:
$ psec -e xgt secrets set aws_cidr_allowed aws_cidr_allowed? []: !psec utils myip --cidr
The variable now contains the output of the specified program:
$ psec secrets show --no-redact aws_cidr_allowed
+------------------+--------+------------------+
| Variable | Type | Value |
+------------------+--------+------------------+
| aws_cidr_allowed | string | 93.184.216.34/32 |
+------------------+--------+------------------+Note
If you work from behind a static NAT firewall, this IP address will
likely not change very often (if at all). If you are using a mobile device
that is assigned differing DHCP addresses depending on location, the IP address
may change fairly regularly and the initial AWS Security Group setting will
begin to block access to your cloud instances. Programs like terraform
can refresh their state, allowing you to simply reset the variable used to
create the Security Group and re-apply the plan to regenerate the AWS
Security Group and re-enable your remote access.
The psec program has a mechanism for sharing secrets with
others using GPG encrypted email messages for securing secrets in transit
and at rest in users' inboxes. Email is sent using Google's OAuth2
authenticated SMTP services.
Note
The Electronic Frontier Foundation (EFF) has a Surveillance Self-Defense Guide that includes guides on How to Use PGP for Linux and other operating systems. Follow their instructions if you are new to PGP/GPG.
The command is secrets send.
$ psec secrets send --help
usage: psec secrets send [-h] [-T] [--test-smtp] [-H SMTP_HOST]
[-U SMTP_USERNAME] [-F SMTP_SENDER] [-S SMTP_SUBJECT]
[args [args ...]]
Send secrets using GPG encrypted email. Arguments are [email protected]
and/or VARIABLE references.
positional arguments:
args
optional arguments:
-h, --help show this help message and exit
-T, --refresh-token Refresh Google API Oauth2 token and exit (default:
False)
--test-smtp Test Oauth2 SMTP authentication and exit (default:
False)
-H SMTP_HOST, --smtp-host SMTP_HOST
SMTP host (default: localhost)
-U SMTP_USERNAME, --smtp-username SMTP_USERNAME
SMTP authentication username (default: None)
-F SMTP_SENDER, --from SMTP_SENDER
Sender address (default: 'noreply@nowhere')
-S SMTP_SUBJECT, --subject SMTP_SUBJECT
Subject line (default: 'For Your Information')Any arguments (args) that contain the @ symbol are assumed to be email
addresses while the rest are assumed to be the names of secrets variables
to be sent.
All recipients must have GPG public keys in your keyring. An exception is thrown if no GPG key is associated with the recipient(s) email addresses.
$ psec secrets send [email protected] myapp_app_password
Setting homedir to '/Users/dittrich/.gnupg'
Initialised settings:
binary: /usr/local/bin/gpg
binary version: 1.4.11\ncfg:pubkey:1;2;3;16;17\ncfg:cipher:2;3;4;7;8;9;10;11;12;13\ncfg:ciphername:3DES;CAST5;BLOWFISH;AES;AES192;AES256;TWOFISH;CAMELLIA128;CAMELLIA192;CAMELLIA256\ncfg:digest:1;2;3;8;9;10;11\ncfg:digestname:MD5;SHA1;RIPEMD160;SHA256;SHA384;SHA512;SHA224\ncfg:compress:0;1;2;3\n'
homedir: /Users/dittrich/.gnupg
ignore_homedir_permissions: False
keyring: /Users/dittrich/.gnupg/pubring.gpg
secring: /Users/dittrich/.gnupg/secring.gpg
default_preference_list: SHA512 SHA384 SHA256 AES256 CAMELLIA256 TWOFISH AES192 ZLIB ZIP Uncompressed
keyserver: hkp://wwwkeys.pgp.net
options: None
verbose: False
use_agent: False
Creating the trustdb is only available with GnuPG>=2.x
sent encrypted secrets to [email protected]Use -q to produce no extraneous output.
$ psec -q secrets send [email protected] myapp_app_passwordThe resulting email looks like this:
Message-ID: <[email protected]>
Date: Wed, 26 Sep 2018 22:04:14 -0700 (PDT)
From: [email protected]
X-Google-Original-From: noreply@nowhere
Content-Type: multipart/related; boundary="===============6413073026511107073=="
MIME-Version: 1.0
Subject: For Your Information
To: [email protected]
This is a multi-part message in MIME format.
--===============6413073026511107073==
Content-Type: multipart/alternative; boundary="===============2830935289665347054=="
MIME-Version: 1.0
--===============2830935289665347054==
Content-Type: text/plain; charset="utf-8"
MIME-Version: 1.0
Content-Transfer-Encoding: base64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--===============2830935289665347054==
Content-Type: text/html; charset="utf-8"
MIME-Version: 1.0
Content-Transfer-Encoding: base64
VGhlIGZvbGxvd2luZyBzZWNyZXQgaXMgYmVpbmcgc2hhcmVkIHdpdGggeW91OgoKbXlhcHBfYXBw
X3Bhc3N3b3JkPWJydW50IG91dGNsYXNzIGFsaWtlIHR1cmJpbmU=
--===============2830935289665347054==--
--===============6413073026511107073==--Decrypted, it looks like this:
Date: Wed, 26 Sep 2018 22:04:14 -0700 (PDT)
From: [email protected]
Subject: For Your Information
To: [email protected]
The following secret is being shared with you:
myapp_app_password=brunt.outclass.alike.turbine
--
Sent using psec version 24.10.12
https://pypi.org/project/python-secrets/
https://github.com/davedittrich/python_secretsA group of secrets required for Google's OAuth 2.0 Mechanism is provided and must be set according to Google's instructions. See also:
- https://github.com/google/gmail-oauth2-tools/wiki/OAuth2DotPyRunThrough
- http://blog.macuyiko.com/post/2016/how-to-send-html-mails-with-oauth2-and-gmail-in-python.html
- https://developers.google.com/api-client-library/python/guide/aaa_oauth
- https://github.com/google/gmail-oauth2-tools/blob/master/python/oauth2.py
- https://developers.google.com/identity/protocols/OAuth2
$ psec groups show oauth
+-------+----------------------------+
| Group | Variable |
+-------+----------------------------+
| oauth | google_oauth_client_id |
| oauth | google_oauth_client_secret |
| oauth | google_oauth_refresh_token |
+-------+----------------------------+
Once secrets are created and stored, they will eventually need to be accessed
in order to use them in program execution. This can be done by passing the
.json secrets file itself to a program, or by outputting the variables in
other formats like CSV, JSON, or as environment type variables.
One way to do this is to take advantage of command line options like
Ansible's --extra-vars and passing it a path to the .json secrets
file. (See Passing Variables On The Command Line). Here is how to do
it.
Let's assume we want to use consul_key variable to configure Consul
using Ansible. Here is the variable as stored:
$ psec secrets show consul_key
+------------+-----------+----------------------------------------------+
| Variable | Type | Value |
+------------+-----------+----------------------------------------------+
| consul_key | token_hex | HEvUAItLFZ0+GjxfwTxLDKq5Fbt86UtXrInzpf71GGY= |
+------------+-----------+----------------------------------------------+Using Ansible's debug module, we can verify that this variable is not
set by any previously loaded Ansible inventory:
$ ansible -i localhost, -m debug -a 'var=consul_key' localhost
localhost | SUCCESS => {
"consul_key": "VARIABLE IS NOT DEFINED!"
}In order for Ansible to set the consul_key variable outside of any
pre-defined inventory files, we need to pass a file path to the
--extra-vars option. The path can be obtained using the
psec secrets path command:
$ psec secrets path
/Users/dittrich/.secrets/python_secrets/secrets.jsonIt is possible to run this command in an in-line command expansion operation in
Bash. Ansible expects the file path passed to -extra-vars to start with an
@ character, so the command line to use would look like this:
$ ansible -i localhost, -e @"$(psec secrets path)" -m debug -a 'var=consul_key' localhost
localhost | SUCCESS => {
"consul_key": "HEvUAItLFZ0+GjxfwTxLDKq5Fbt86UtXrInzpf71GGY="
}Ansible now has the value and can use it in templating configuration files, or so forth.
Other programs like Hashicorp terraform look for environment variables that
begin with TF_VAR_ and use them to set terraform variables for use
in modules. To prove we are running in a sub-shell, we will first change the
shell prompt.
$ PS1="test> "
test> psec -e test --export-env-vars --env-var-prefix="TEST_" run bash
$ env | grep '^TEST_'
TEST_gosecure_pi_pubkey=ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQC+qUIucrPvRkTmY0tgxr9ac/VtBUHhYHfOdDVpU99AcryLMWiU [...]
TEST_gosecure_client_psk=atjhK5AlsQMw3Zh
TEST_gosecure_client_ssid=YourWiFiSSID
TEST_gosecure_pi_password=brunt.outclass.alike.turbine
TEST_gosecure_app_password=brunt.outclass.alike.turbine
$ exit
test>
As noted in the Limitations section above, secrets are stored in plaintext plaintext form (i.e., they are not encrypted) in files. Those files are in turn stored in a directory in the file system, subject to Linux file ownership and permission access controls.
The default location for storing these files is in an environment directory in a subdirectory of the user's home directory whose name starts with a period character (a.k.a., a dot). Files (or directories) whose name starts with a period are known as dot files, or hidden files because the ls command does not show it unless you use the -a flag.
The secrets environment directories can also be used to store other files besides secrets. One such use case is storing JSON Web Tokens (JWTs) used as bearer tokens by protocols like Google's OAuth 2.0 Mechanism for securing access to web services and APIs. While this improves security in terms of remote access, is not not without its own risks (including the JWT file being stored in the file system for an indefinite period of time).
- JSON Web Tokens (JWT) are Dangerous for User Sessions—Here’s a Solution, by Raja Rao, June 24, 2021
- Stop Using JSON Web Tokens For Authentication. Use Stateful Sessions Instead, by Francisco Sainz, April 4, 2022
- What’s the Secure Way to Store JWT?, by Yang Liu, July 23, 2020
Besides JWTs, other use cases for storing sensitive files within psec environments include backups of database contents, Let's Encrypt certificates, SSH keys, or other secrets necessary for ensuring cloud instances can be destroyed and recreated without losing state or requiring regeneration (and redistribution or revalidation) of secrets.
The output of init --help mentions this risk and offers a way to mitigate some of the risk by locating the secrets storage base directory within a directory that is stored on an encrypted USB-connected disk device or encrypted disk image, or a removable device or remote file system, that is only mounted when needed and unmounted as soon as possible. This ensures sensitive data that are not being actively used are left encrypted in storage. The D2_SECRETS_BASEDIR environment variable or -d option allow you to specify the directory to use.
The psec CLI has a secure deletion mechanism that over-writes file contents prior to deletion, helping to reduce leaving remnants of secrets in unallocated file system storage, similar to the way the Linux shred command works.
Last, but certainly not least, take the time to read up on Python Security and understand the types and sources of security vulnerabilities related to Python programs. Keep these ideas in mind when using and/or modifying this program.
As part of testing, the Bandit security validation program is used. (See Getting started with Bandit).
In situations where Bandit warnings can safely be ignored, the # nosec
comment appears on source code lines. Comments as to why these can be
safely ignored are included in the code. (Please feel free to issue pull
requests if you disagree.)
One runtime security mechanism employed by psec is control of the process'
umask. This is important when running programs that create files, which
will inherit their permissions per the process umask. The umask will be
inherited by every new child process and can be set in the user's .bashrc
(or other shell initialization) file.
The psec run command can be used to run programs as child processes,
optionally exporting environment variables as well, so controlling the
umask results in improved file permission security regardless of
whether the user knows to set their process umask.
You can see the effect in these two examples.
First, by setting the umask to 0 you see the very permissive file
permissions (as well as getting a warning from psec about finding a file
with lax permissions):
$ psec --umask 0o000 run -- dd if=/dev/random count=1 of=$(psec environments path --tmpdir)/foo
1+0 records in
1+0 records out
512 bytes copied, 0.000019 s, 2.7 MB/s
$ ls -l $(psec environments path --tmpdir)/foo
[!] file /Users/dittrich/.secrets/python_secrets/tmp/foo is mode 0o100666
-rw-rw-rw- 1 dittrich staff 512 Sep 8 13:05 /Users/dittrich/.secrets/python_secrets/tmp/foo
$ rm $(psec environments path --tmpdir)/fooNow when using the default --umask value, the file permissions are restricted
(and thus no more warning):
$ psec run -- dd if=/dev/random count=1 of=$(psec environments path --tmpdir)/foo
1+0 records in
1+0 records out
512 bytes copied, 0.000243 s, 2.1 MB/s
$ ls -l $(psec environments path --tmpdir)/foo
-rw------- 1 dittrich staff 512 Sep 8 13:04 /Users/dittrich/.secrets/python_secrets/tmp/foo
$ rm $(psec environments path --tmpdir)/fooFeature requests (and of course bug reports) are highly encouraged. You can do that by opening an issue on GitHub. Better yet, make a pull request with your own fix or feature. (Check there to see if one may already exist.)
If you want to help, there are some things that are on the "to do" list. These are tracked on this repository's GitHub Projects page.
General or more elaborate potential enhancements are listed here:
Increase test coverage (test driven development is a Good Thing(TM))
The Mantl project (GitHub mantl/mantl) employs a security-setup script that takes care of setting secrets (and non-secret related variables) in a monolithic manner. It has specific command line options, specific secret generation functions, and specific data structures for each of the component subsystems used by mantl/mantl. This method is not modular or extensible, and the security-setup script is not generalized such that it can be used by any other project. These limitations are primary motivators for writing
python_secrets, which could eventually replacesecurity-setup.At this point, the Mantl
security.ymlfile can be read in and values can be manually set, as seen here:$ psec -d ~/git/mantl --secrets-file security.yml secrets show -f yaml secrets descriptions directory not found - Value: admin:password Variable: chronos_http_credentials - Value: chronos Variable: chronos_principal - Value: S0JMz5z8oxQGQXMyZjwE0ZCmu4zeJV4oWDUrdc25MBLx Variable: chronos_secret - Value: 88821cbe-c004-4cff-9f91-2bc36cd347dc Variable: consul_acl_agent_token - Value: f9acbe14-28d3-4d06-a1c9-c617da5ebb4e Variable: consul_acl_mantl_api_token - Value: de54ae85-8226-4146-959f-8926b0b8ee55 Variable: consul_acl_marathon_token - Value: dfc9b244-5140-41ad-b93a-ac5c2451fb95 Variable: consul_acl_master_token - Value: e149b50f-cb5c-4efe-be96-26a52efdc715 Variable: consul_acl_secure_token - Value: 719f2328-6446-4647-adf6-310013bac636 Variable: consul_acl_vault_token - Value: Z0niD1jeiTkx7xaoewJm2A== Variable: consul_gossip_key - Value: true Variable: do_chronos_auth - Value: true Variable: do_chronos_iptables - Value: true Variable: do_chronos_ssl - Value: true Variable: do_consul_auth - Value: true Variable: do_consul_ssl - Value: true Variable: do_mantl_api_auth - Value: true Variable: do_mantlui_auth - Value: true Variable: do_mantlui_ssl - Value: true Variable: do_marathon_auth - Value: true Variable: do_marathon_iptables - Value: true Variable: do_marathon_ssl - Value: true Variable: do_mesos_auth - Value: true Variable: do_mesos_follower_auth - Value: true Variable: do_mesos_framework_auth - Value: true Variable: do_mesos_iptables - Value: true Variable: do_mesos_ssl - Value: false Variable: do_private_docker_registry - Value: mantl-api Variable: mantl_api_principal - Value: Se4R9nRy8WTAgmU9diJyIPwLYsBU+V1yBxTQumiOriK+ Variable: mantl_api_secret - Value: admin:password Variable: marathon_http_credentials - Value: marathon Variable: marathon_principal - Value: +Y5bvIsWliFvcWgbXGWa8kwT6Qf3etogQJe+cK+IV2hX Variable: marathon_secret - Value: - principal: marathon secret: +Y5bvIsWliFvcWgbXGWa8kwT6Qf3etogQJe+cK+IV2hX - principal: chronos secret: S0JMz5z8oxQGQXMyZjwE0ZCmu4zeJV4oWDUrdc25MBLx - principal: mantl-api secret: Se4R9nRy8WTAgmU9diJyIPwLYsBU+V1yBxTQumiOriK+ Variable: mesos_credentials - Value: follower Variable: mesos_follower_principal - Value: Q53uAa2mNM0UNe2RUjrX6k7QvK6ojjH1gHXYLcm3Lmfr Variable: mesos_follower_secret - Value: password Variable: nginx_admin_password - Value: true Variable: security_enabled - Value: chronos Variable: zk_chronos_user - Value: JWPO11z4lU5qeilZ Variable: zk_chronos_user_secret - Value: hsr+R6YQBAOXoY84a8ne8bU0opg= Variable: zk_chronos_user_secret_digest - Value: marathon Variable: zk_marathon_user - Value: UBh77ok2svQAqWox Variable: zk_marathon_user_secret - Value: mo2mQGXcsc21zB4wYD18jn+Csks= Variable: zk_marathon_user_secret_digest - Value: mesos Variable: zk_mesos_user - Value: L3t9FEMsXehqeBvl Variable: zk_mesos_user_secret - Value: bHYvGteRBxou4jqJ8XWAYmOmzxs= Variable: zk_mesos_user_secret_digest - Value: super Variable: zk_super_user - Value: 2DyL/n/GLi3Q0pa75z9OjODGZKC1RCaEiKNV1ZXo1Wpk Variable: zk_super_user_secret $ psec -d ~/git/mantl --secrets-file security.yml secrets show -f csv | grep nginx_admin_password secrets descriptions directory not found "nginx_admin_password","password" $ psec -d ~/git/mantl --secrets-file security.yml secrets set nginx_admin_password=newpassword secrets descriptions directory not found $ psec -d ~/git/mantl --secrets-file security.yml secrets show -f csv | grep nginx_admin_password secrets descriptions directory not found "nginx_admin_password","newpassword"
There are a few things that can be done to use
psecas a replacement for thesecurity-setupscript. These include:- Produce secrets descriptions in a
security.ddirectory. - Remove the variables that are not secrets requiring regeneration for rotation
or "break-glass" procedures (e.g., like
chronos_principal, which is a userID value, anddo_mesos_auth, which is a boolean flag). - Break down more complex data structures (specifically, the
mesos_credentialslist of dictionaries with keysprincipalandsecret). These could instead be discrete variables likemarathon_secret(which appears to be the secret associated with the invariant "variable"marathon_principal).
Note
Alternatively, these kind of variables could be supported by defining a type
invariantorstringand prompting the user to provide a new value (using any current value as the default).- Produce secrets descriptions in a
Tools used in rendering this package:
Development of this program was supported in part under an Open Source Development Grant from the Comcast Innovation Fund.