fluent-plugin-secure-forward

Fluentd input/output plugin to forward fluentd messages over SSL with authentication.

Plugin status

NOTE: This plugin will not be updated anymore.

Fluentd v0.14.12 supports event forwarding via encrypted network communication. Use that feature instead of using this plugin.

Overview

This plugin makes you to be able to:

  • protect your data from others in transferring with SSL
    • with certificate signed and registered correctly/publicly
    • with private CA certificates generated by users
    • with automatically generated and self-signed certificates in vulnerable way
  • authenticate by shared_key check from both of client(out_secure_forward) and server(in_secure_forward)
  • authenticate with username / password pairs

Installation

install with gem or fluent-gem command as:

 ### native gem
$ gem install fluent-plugin-secure-forward

 ### fluentd gem
$ fluent-gem install fluent-plugin-secure-forward

Using SSL certificates issued from trusted CA

To communicate over SSL with valid certificate issued from public CA, configure params below for input plugin:

  • secure: set yes or true
  • cert_path: set path of certificate file issued from CA
  • private_key_path: set path of private key file
  • private_key_passphrase: set passphrase of private key
<source>
  @type secure_forward

  # bind 0.0.0.0 # default
  # port 24284 # default
  self_hostname server.fqdn.example.com
  shared_key    secret_string

  secure yes

  cert_path        /path/for/certificate/cert.pem
  private_key_path /path/for/certificate/key.pem
  private_key_passphrase secret_foo_bar_baz
</source>

For output plugin, specify just 2 options below:

  • secure: set yes or true
  • enable_strict_verification: specify yes or true to verify FQDN of servers (input plugin)
<match secret.data.**>
  @type secure_forward

  self_hostname client.fqdn.local
  shared_key    secret_string

  secure yes
  enable_strict_verification yes

  <server>
    host server.fqdn.example.com  # or IP
    # port 24284
  </server>
  <server>
    host 203.0.113.8 # ip address to connect
    hostlabel server.fqdn.example.com # specify hostlabel for FQDN verification if ipaddress is used for host
  </server>
</match>

Using private CA file and key

This plugin has a simple utility command to generate private CA cert/key files just for secure-forward.

$ secure-forward-ca-generate /path/for/dir/of/certs "passphrase for private CA secret key"

This command generates ca_cert.pem and ca_key.pem on /path/for/dir/of/certs. For SSL communication with private CA, users must deploy both files for input plugins, and also must deploy ca_cert.pem for output plugins. And then, configure Fluentd with these files and the passphrase. With this configuration, server certificates are automatically generated and issued by private CA.

<source>
  @type secure_forward

  # bind 0.0.0.0 # default
  # port 24284 # default
  self_hostname myserver.local
  shared_key    secret_string

  secure yes

  ca_cert_path        /path/for/certificate/ca_cert.pem
  ca_private_key_path /path/for/certificate/ca_key.pem
  ca_private_key_passphrase passphrase for private CA secret key
</source>

For output plugin, specify just 2 options below:

  • secure: set yes or true
  • enable_strict_verification: specify yes or true
<match secret.data.**>
  @type secure_forward

  self_hostname myclient.local
  shared_key    secret_string

  secure yes
  ca_cert_path /path/for/certificate/ca_cert.pem
  # enable_strict_verification yes

  <server>
    host server.fqdn.example.com  # or IP
    # port 24284
  </server>
  <server>
    host 203.0.113.8 # ip address to connect
    hostlabel server.fqdn.example.com # specify hostlabel for FQDN verification if ipaddress is used for host
  </server>
</match>

Using insecure self-signed certificates

This is very dangerous and vulnerable to man-in-the-middle attacks

For just testing or data center internal communications, this plugin has a feature to communicate without any verification of certificates. Turn secure option to false to use this feature.

<source>
  @type secure_forward

  self_hostname myserver.local
  shared_key    secret_string

  secure no
</source>

Configure output plugin just same way:

<match data.**>
  @type secure_forward

  self_hostname myclient.local
  shared_key    secret_string

  secure no

  <server>
    host server.fqdn.example.com  # or IP
  </server>
</match>

In this mode, output plugin cannot verify peer node of connections. Man-in-the-middle attackers can spoof messages from output plugins under many various situations.

Configuration

SecureForwardInput

Default settings:

  • listen 0.0.0.0:24284
    • bind 192.168.0.101
    • port 24284
  • allow to accept from any sources
  • allow to connect without authentications
  • use certificate automatically generated
    • generate_private_key_length 2048
    • generate_cert_country US
    • generate_cert_state CA
    • generate_cert_locality Mountain View
    • generate_cert_common_name SAME_WITH_SELF_HOSTNAME_PARAMETER
  • use TLSv1.2

Minimal configurations like below:

<source>
  @type secure_forward
  shared_key         secret_string
  self_hostname      server.fqdn.local  # This fqdn is used as CN (Common Name) of certificates

  secure yes
  # and configurations for certs
</source>

To check username/password from clients, like this:

<source>
  @type secure_forward
  shared_key         secret_string
  self_hostname      server.fqdn.local

  secure yes
  # and configurations for certs

  authentication     yes # Deny clients without valid username/password
  <user>
    username tagomoris
    password foobar012
  </user>
  <user>
    username frsyuki
    password yakiniku
  </user>
</source>

To deny unknown source IP/hosts:

<source>
  @type secure_forward
  shared_key         secret_string
  self_hostname      server.fqdn.local

  secure yes
  # and configurations for certs

  allow_anonymous_source no  # Allow to accept from nodes of <client>
  <client>
    host 192.168.10.30
  </client>
  <client>
    host your.host.fqdn.local
    # wildcard (ex: *.host.fqdn.local) NOT Supported now
  </client>
  <client>
    network 192.168.16.0/24 # network address specification
  </client>
</source>

You can use both of username/password check and client check:

<source>
  @type secure_forward
  shared_key         secret_string
  self_hostname      server.fqdn.local

  secure yes
  # and configurations for certs

  allow_anonymous_source no  # Allow to accept from nodes of <client>
  authentication         yes # Deny clients without valid username/password
  <user>
    username tagomoris
    password foobar012
  </user>
  <user>
    username frsyuki
    password sukiyaki
  </user>
  <user>
    username repeatedly
    password sushi
  </user>
  <client>
    host 192.168.10.30      # allow all users to connect from 192.168.10.30
  </client>
  <client>
    host  192.168.10.31
    users tagomoris,frsyuki # deny repeatedly from 192.168.10.31
  </client>
  <client>
    host 192.168.10.32
    shared_key less_secret_string # limited shared_key for 192.168.10.32
    users      repeatedly         # and repatedly only
  </client>
</source>

SecureForwardOutput

Minimal configurations like this:

<match secret.data.**>
  @type secure_forward
  shared_key secret_string
  self_hostname client.fqdn.local

  secure yes
  # and configurations for certs/verification

  <server>
    host server.fqdn.local  # or IP
    # port 24284
  </server>
</match>

Without hostname ACL (and it's not implemented yet), self_hostname is not checked in any state. ${hostname} placeholder is available for such cases.

<match secret.data.**>
  @type secure_forward
  shared_key secret_string
  self_hostname ${hostname}

  secure yes
  # and configurations for certs/verification

  <server>
    host server.fqdn.local  # or IP
    # port 24284
  </server>
</match>

When specified 2 or more <server>, this plugin uses these nodes in simple round-robin order. And servers with standby yes will be selected until all of non-standby servers goes down.

If server requires username/password, set username and password in <server> section:

<match secret.data.**>
  @type secure_forward
  shared_key secret_string
  self_hostname client.fqdn.local

  secure yes
  # and configurations for certs/verification

  <server>
    host      first.fqdn.local
    hostlabel server.fqdn.local
    username  repeatedly
    password  sushi
  </server>
  <server>
    host      second.fqdn.local
    hostlabel server.fqdn.local
    username  sasatatsu
    password  karaage
  </server>
  <server>
    host      standby.fqdn.local
    hostlabel server.fqdn.local
    username  kzk
    password  hawaii
    standby   yes
  </server>
</match>

Specify hostlabel if server (in_forward) have different hostname (self_host configuration of in_forward) from DNS name (first.fqdn.local, second.fqdn.local or standby.fqdn.local). This configuration variable will be used to check common name (CN) of certifications.

To specify keepalive timeouts, use keepalive configuration with seconds. SSL connection will be disconnected and re-connected for each 1 hour with configuration below. In Default (and with keepalive 0), connections will not be disconnected without any communication troubles. (This feature is for dns name updates, and SSL common key refreshing.)

<match secret.data.**>
  @type secure_forward
  shared_key secret_string
  self_hostname client.fqdn.local

  secure yes
  # and configurations for certs/verification

  keepalive 3600
  <server>
    host server.fqdn.local  # or IP
    # port 24284
  </server>
</match>

If you connect via Proxy, set for proxy_uri in <server> section:

<match secret.data.**>
  @type secure_forward
  shared_key secret_string
  self_hostname client.fqdn.local

  secure yes
  # and configurations for certs/verification

  <server>
    host server.fqdn.local  # or IP
    # port 24284
    proxy_uri http://foo.bar.local:3128
  </server>
</match>

Scenario (developer document)

  • server
    • in_secure_forward
  • client
    • out_secure_forward

Handshake

  1. (client) connect to server
    • on SSL socket handshake, checks certificate and its significate (in client)
  2. (server)
    • check network/domain acl (if enabled)
    • check client dns reverse lookup result (if enabled)
    • disconnect when failed
  3. (server) send HELO
    • ['HELO', options(hash)]
    • options:
    • nonce: string as nonce: used for shared key digest (required, v0.3.2 or later)
    • auth: string or blank_string (string: authentication required, and its salt is this value)
    • keepalive: bool (allowed or not)
  4. (client) send PING
    • ['PING', selfhostname, sharedkey_salt, sha512_hex(sharedkey_salt + selfhostname + nonce + sharedkey), username || '', sha512_hex(auth_salt + username + password) || '']
  5. (server) check PING
    • check sharedkey
    • check username / password (if required)
    • send PONG FAILURE if failed
    • ['PONG', false, 'reason of authentication failure', '', '']
  6. (server) send PONG
    • ['PONG', bool(authentication result), 'reason if authentication failed', selfhostname, sha512_hex(salt + selfhostname + nonce + sharedkey)]
  7. (client) check PONG
    • check sharedkey
    • disconnect when failed
  8. connection established
    • send data from client (until keepalive expiration)

Data transferring

CONSIDER RETURN ACK OR NOT

  • Current version has no ACKs
    • only supports burst transferring (same as ForwardInput/Output)
  • ack for each message ?
  • pipeline mode and one-by-one mode ?
  • data sequence number in keepalive session ?

TODO

  • ACK mode (protocol)
  • support disabling keepalive (input/output)
  • access control (input plugin)
    • network acl / domain acl
    • check connecting source ip and its dns reverse lookup result (for domaian acl)
    • access deny on accept (against DoS)
  • pluggable authentication database (input plugin)
    • RDBMS, LDAP, or ...
    • Authentication by clients certificate
  • TESTS!
  • Copyright (c) 2013- TAGOMORI Satoshi (tagomoris)
  • License
    • Apache License, Version 2.0