Category: Computer

Computer is miraculous!

Bitwarden Docker Installation

Posted on by Bian Xi Leave a Comment on Bitwarden Docker Installation

Bitwarden Docker Installation

Update: Bitwarden could not detect new and update password in browsers in most of cases. No matter how easy it can be used, without this auto detection feature, it is useless.

Bitwarden is an opensource password manager, can be self-hosted, and can be installed as docker container. It supports many browsers and OSes.

Steps

Create docker-compose.yaml

Create docker-compose.yaml, and make sure

  • SIGNUPS_ALLOWED is 'true'
# docker-compose.yml
version: '3'

services:
  bitwarden:
    image: bitwardenrs/server
    restart: always
    ports:
      - 8000:80
    volumes:
      - ./bw-data:/data
    environment:
      WEBSOCKET_ENABLED: 'true' # Required to use websockets
      SIGNUPS_ALLOWED: 'true'   # set to false to disable signups

Create

Run following command, in the directory contains docker-compose.yaml

docker-compose up -d

Configure HTTPS in NGINX

Without HTTPS, bitwarden doesn't allow new user registration.

Add following statements in server location definition.

server {
    server_name  nginx_host;
    listen 443 ssl;

    ...

    location /bw {
        rewrite /bw(.*) /$1 break;
        proxy_pass  'http://192.168.1.222:8000';
        proxy_redirect     off;
        proxy_set_header   Host $host;
    }
    ...
}

Then the URL of bitwarden will be https://nginx_host/bw/

Register

Access https://nginx_host/bw/, and register email and password.

Disable new user creation

  • Destory old bitwarden instance
docker-compose down
  • Update docker-compose.yaml file
SIGNUPS_ALLOWED: 'false';
  • Recreate instance
docker-compose up -d

Trun on 2FA

In website, go to Settings => Two-step Login ...

Install clients

Go to bitwarden website to install.

References

Run Bitwarden Password Manager in Docker Container
Install and Deploy - Linux
The Best Password Managers to Secure Your Digital Life
Host your own FREE Password Manager with your Synology NAS
Install and Sync All of Your Devices
Connect Clients to your Instance
Request Hosting Installation Id & Key

Hashicorp Vault docker installation and client testing

Posted on by Bian Xi Leave a Comment on Hashicorp Vault docker installation and client testing

Hashicorp Vault docker installation and client testing

Vault Server Installation

Create one folder with 3 subfolders

mkdir -p vault/{config,file,logs}

Create vault configuration file

Create vault/config/vault.json

{
  "backend": {
    "file": {
      "path": "/vault/file"
    }
  },
  "listener": {
    "tcp":{
      "address": "0.0.0.0:8200",
      "tls_disable": 1
    }
  },
  "ui": true
}

Create docker-compose.yml

Create file vault/docker-compose.yml

version: '3.7'
services:
  vault:
    image: vault:latest
    container_name: vault
    ports:
      - "8200:8200"
    restart: unless-stopped
    volumes:
      -  ./logs:/vault/logs
      -  ./file:/vault/file
      -  ./config:/vault/config
    cap_add:
      - IPC_LOCK
    entrypoint: vault server -config=/vault/config/vault.json

Create container

Run docker-compose command in vault folder

cd vault
docker-compose up -d

Access WebUI

Access http://localhost:8200/ from browser

  • Select 5 as Key shares, and 3 as Key threshold, and Initialize
  • Download keys into a Json file
  • Use 3 keys to unseal vault
  • Use root token to login

Client installation

Ubuntu x86

  • Add the HashiCorp GPG key
# curl -fsSL https://apt.releases.hashicorp.com/gpg | apt-key add -
  • Add the official HashiCorp Linux repository
# apt-add-repository "deb [arch=amd64] https://apt.releases.hashicorp.com $(lsb_release -cs) main"
  • Install vault
# apt-get install vault
  • Verify
# vault

Connect to vault

  • Set environment
$ export VAULT_ADDR='http://127.0.0.1:8200'
$ export VAULT_TOKEN="<token>"
  • Check status
$ vault status
...
Sealed          false
...

Secrets operations

Subcommand kv v1 kv v2 Description
delete x x Delete versions of secrets stored in K/V
destroy x Permanently remove one or more versions of secrets
enable-versioning x Turns on versioning for an existing K/V v1 store
get x x Retrieve data
list x x List data or secrets
metadata x Interact with Vault\'s Key-Value storage
patch x Update secrets without overwriting existing secrets
put x x Sets or update secrets (this replaces existing secrets)
rollback x Rolls back to a previous version of secrets
undelete x Restore the deleted version of secrets

Example:

vault-getting-started:~# vault login root
Success! You are now authenticated. The token information displayed below
is already stored in the token helper. You do NOT need to run "vault login"
again. Future Vault requests will automatically use this token.

Key                  Value
---                  -----
token                root
token_accessor       rSn3h08ikdez4zch5ghr4wYY
token_duration       ∞
token_renewable      false
token_policies       ["root"]
identity_policies    []
policies             ["root"]
vault-getting-started:~# vault kv put secret/hello foo=world
Key              Value
---              -----
created_time     2021-11-25T06:15:45.332182013Z
deletion_time    n/a
destroyed        false
version          1
vault-getting-started:~# vault kv put secret/hello foo=world excited=yes
Key              Value
---              -----
created_time     2021-11-25T06:15:48.808651794Z
deletion_time    n/a
destroyed        false
version          2
vault-getting-started:~# vault kv get secret/hello
====== Metadata ======
Key              Value
---              -----
created_time     2021-11-25T06:15:48.808651794Z
deletion_time    n/a
destroyed        false
version          2

===== Data =====
Key        Value
---        -----
excited    yes
foo        world
vault-getting-started:~# vault kv get -field=excited secret/hello
yes
vault-getting-started:~# vault kv get -format=json secret/hello | jq -r .data.data.excited
yes
vault-getting-started:~# vault kv delete secret/hello
Success! Data deleted (if it existed) at: secret/hello
vault-getting-started:~#

Secret Engine

The driver to save secret in different way, type of secret.

List

Every path has it's own secret type

$ vault secrets list

Path          Type         Accessor              Description
----          ----         --------              -----------
cubbyhole/    cubbyhole    cubbyhole_78189996    per-token private secret storage
identity/     identity     identity_ac07951e     identity store
kv/           kv           kv_15087625           n/a
secret/       kv           kv_4b990c45           key/value secret storage
sys/          system       system_adff0898       system endpoints used for control, policy and debugging

Enable

Set one path to specific secret type

$ vault secrets enable -path=kv kv

Success! Enabled the kv secrets engine at: kv/

or

$ vault secrets enable kv

Create secret

$ vault kv put kv/hello target=world
Success! Data written to: kv/hello

Get secret

$ vault kv get kv/hello

===== Data =====
Key       Value
---       -----
target    world

Delete secret

$ vault kv delete kv/hello
Success! Data deleted (if it existed) at: kv/hello

List

$ vault kv list kv/

Keys
----
hello

Disable

$ vault secrets disable kv/

Success! Disabled the secrets engine (if it existed) at: kv/

Dynamic Secrets

When using secret engine such as aws engine.

$ vault secrets enable -path=aws aws

Success! Enabled the aws secrets engine at: aws/

More Info: Dynamic Secrets

Authentication

Token

  • Create token
$ vault token create
Key                  Value
---                  -----
token                s.iyNUhq8Ov4hIAx6snw5mB2nL
token_accessor       maMfHsZfwLB6fi18Zenj3qh6
token_duration       ∞
token_renewable      false
token_policies       ["root"]
identity_policies    []
policies             ["root"]
  • Login
$ vault login s.iyNUhq8Ov4hIAx6snw5mB2nL

Success! You are now authenticated. The token information displayed below
is already stored in the token helper. You do NOT need to run "vault login"
again. Future Vault requests will automatically use this token.

Key                  Value
---                  -----
token                s.iyNUhq8Ov4hIAx6snw5mB2nL
token_accessor       maMfHsZfwLB6fi18Zenj3qh6
token_duration       ∞
token_renewable      false
token_policies       ["root"]
identity_policies    []
policies             ["root"]
  • Revoke
$ vault token revoke s.iyNUhq8Ov4hIAx6snw5mB2nL

Success! Revoked token (if it existed)

GitHub

  • Enable
$ vault auth enable github

Success! Enabled github auth method at: github/
  • Set organization
$ vault write auth/github/config organization=hashicorp

Success! Data written to: auth/github/config
  • Configure the GitHub engineering team authentication to be granted the default and applications policies
$ vault write auth/github/map/teams/engineering value=default,applications

Success! Data written to: auth/github/map/teams/engineering
  • List
$ vault auth list

Path       Type      Description
----       ----      -----------
github/    github    n/a
token/     token     token based credentials
  • Set login method
$ vault login -method=github

GitHub Personal Access Token (will be hidden):
Success! You are now authenticated. The token information displayed below
is already stored in the token helper. You do NOT need to run "vault login"
again. Future Vault requests will automatically use this token.

Key                    Value
---                    -----
token                  s.DNtKCjVQ1TxAzgMqtDuwjjC2
token_accessor         e7zLJuPg2tLpav66ZSu5AyDC
token_duration         768h
token_renewable        true
token_policies         [default applications]
token_meta_org         hashicorp
token_meta_username    my-user
  • Login
$ vault login root
  • Revoke all tokens generated the github auth method
$ vault token revoke -mode path auth/github
  • Disable the github auth method
$ vault auth disable github

Success! Disabled the auth method (if it existed) at: github/

Policy

  • Policy for token

The policy path secret/data/* is related to all secret path secret/*.
The policy path secret/data/foo is related to secret path secret/foo.

  • Policy for approle

The policy path secret/approle/* is related to role_id + secret_id authentication.

Policy for token

  • Create
$ vault policy write my-policy - << EOF
# Dev servers have version 2 of KV secrets engine mounted by default, so will
# need these paths to grant permissions:
path "secret/data/*" {
  capabilities = ["create", "update"]
}

path "secret/data/foo" {
  capabilities = ["read"]
}
EOF
  • List
$ vault policy list

default
my-policy
root
  • Show
$ vault policy read my-policy

# Dev servers have version 2 of KV secrets engine mounted by default, so will
# need these paths to grant permissions:
path "secret/data/*" {
  capabilities = ["create", "update"]
}

path "secret/data/foo" {
  capabilities = ["read"]
}
  • Create token
$ export VAULT_TOKEN="$(vault token create -field token -policy=my-policy)"
  • Check policy
$ vault token lookup | grep policies
policies            [default my-policy]
  • Write success
$ vault kv put secret/creds password="my-long-password"

Key              Value
---              -----
created_time     2018-05-22T18:05:42.537496856Z
deletion_time    n/a
destroyed        false
version          1
  • Write failed
$ vault kv put secret/foo robot=beepboop

Error writing data to secret/data/foo: Error making API request.

URL: PUT http://localhost:8200/v1/secret/data/foo
Code: 403. Errors:

* 1 error occurred:
  * permission denied

Policy for approle

  • Enable
$ vault auth enable approle
Success! Enabled approle auth method at: approle/
  • Create my-role link to my-policy
$ vault write auth/approle/role/my-role \
    secret_id_ttl=10m \
    token_num_uses=10 \
    token_ttl=20m \
    token_max_ttl=30m \
    secret_id_num_uses=40 \
    token_policies=my-policy
Success! Data written to: auth/approle/role/my-role
  • Create role_id
$ export ROLE_ID="$(vault read -field=role_id auth/approle/role/my-role/role-id)"
  • Create secret_id
$ export SECRET_ID="$(vault write -f -field=secret_id auth/approle/role/my-role/secret-id)"
  • Login
$ vault write auth/approle/login role_id="$ROLE_ID" secret_id="$SECRET_ID"
Key                     Value
---                     -----
token                   s.Sh9h1wZ9ycATeSaASoOQvovr
token_accessor          xCgUIu6WWLM9opkEkAiNLsRc
token_duration          20m
token_renewable         true
token_policies          ["default" "my-policy"]
identity_policies       []
policies                ["default" "my-policy"]
token_meta_role_name    my-role

References

vault-docker
Install Vault

Thinking about the future of Chef

Posted on by Bian Xi Leave a Comment on Thinking about the future of Chef

Thinking about the future of Chef

DevOps tools

These few days, I was thinking about how to manage my servers. Thinking about any DevOps tools to be used.

Looking for Ansible, the center management tool, which is called Ansible Tower, offers free for handling up to 10 nodes...

Looking for Chef, free for 25 nodes? That was 2014. Then now, free for 5 nodes...

Looking for Puppet, I bad experience in the past due to it's OS support, and I'm a scripter, perfer Chef's imperative language, not Puppet's declarative language.

Serverless

Chef people mentioned the word Serverless couple of years back, read some on-line documents, didn't understand how Chef goes serverless...

Today, After read another document, understand the real serverless meaning. It means Stateless for all servers, such as Core OS, no Chef required. True?

Ruby

Is Ruby hard to learn? I really don't feel it, and I think it is easy comparing with other OO Languages. But some people from DevOps team told me Ansible is easy, Ruby is hard. Hmmm...

Ruby is dying, maybe, it is not an OS default language, will not be the choice for sysadm.

JavaScript and Python

Running some servers using NodeJS, it solved some issues, but not a well structured programming language. Easy to start, hard to master.

Python, learnt and coded AI program, felt messy. Maybe I'm wrong.

A nature language is easy to start but hard to master, will this be the future of programming language as well? Or, nothing to master, just tell enough...

References

Who killed the Chef? The case against Opscode Chef in 2020
Introduction to is Ansible free?
Chef Enterprise Now Free Up to 25 Nodes
Open Source Chef vs Hosted Chef vs. On Premises Chef
Chef vs. Puppet: Methodologies, Concepts, and Support

Windows 11 on RAMOS

Posted on by Bian Xi Leave a Comment on Windows 11 on RAMOS

Windows 11 on RAMOS

To install Windows 11 on ramdisk, the software of ramdisk can be downloaded from https://www.romexsoftware.com/en-us/primo-ramdisk/.

In fact, I'm more interesting in RAM disk card.

References

How to install Windows 11 into memory instead of hard drive
【Fun科技】把Win11装在128G的内存条里:能跑的比PCIe5.0固态硬盘还要快么?

Docker vs Podman

Posted on by Bian Xi Leave a Comment on Docker vs Podman

Docker vs Podman

Daemon

Podman has no daemon, which can run under normal user.

Docker has daemon dockerd running as root.

Unix socket

Docker uses Unix socket /var/run/docker.sock

All the REST API commands are implemented using this socket.

For example,


`docker version` command is implemented via following API.

curl --unix-socket /var/run/docker.sock http:/v2/version



## References

[Watch on Captionz
what is podman vs docker (beginner - intermediate) anthony explains](https://youtu.be/lkg5QJsoCCQ)

Turn on Hibernate in Windows 11

Posted on by Bian Xi Leave a Comment on Turn on Hibernate in Windows 11

Turn on Hibernate in Windows 11

In post Turn on Hibernate in Windows 10, describe how to turn on Hibernate in Windows 10.

In Windows 11, even click on Change settings that are currently unavailable, Hibernate option is still missing.

Enable command

Run following command in Administrator command line to show the Hibernate option

powercfg /h /type full

References

How to Enable Hibernate Mode on Windows 11

Cooling Method: Positive Pressure vs Negative Pressure

Posted on by Bian Xi Leave a Comment on Cooling Method: Positive Pressure vs Negative Pressure

Cooling Method: Positive Pressure vs Negative Pressure

Positive

Total air cumulatived by fans inwards the case.

Negative

Total air cumulatived by fans outwards the case.

Compare

Positive pressure can have better air flow direction. The dust comes from only inwards fans.

References

How To: Properly Plan And Pick Parts For An Air-Cooled PC, Part 2