ActiveSupport::MessageVerifier (original) (raw)
Active Support Message Verifier¶ ↑
MessageVerifier makes it easy to generate and verify messages which are signed to prevent tampering.
In a Rails application, you can use Rails.application.message_verifier to manage unique instances of verifiers for each use case. Learn more.
This is useful for cases like remember-me tokens and auto-unsubscribe links where the session store isn’t suitable or available.
First, generate a signed message:
cookies[:remember_me] = Rails.application.message_verifier(:remember_me).generate([@user.id, 2.weeks.from_now])
Later verify that message:
id, time = Rails.application.message_verifier(:remember_me).verify(cookies[:remember_me]) if time.future? self.current_user = User.find(id) end
Signing is not encryption¶ ↑
The signed messages are not encrypted. The payload is merely encoded (Base64 by default) and can be decoded by anyone. The signature is just assuring that the message wasn’t tampered with. For example:
message = Rails.application.message_verifier('my_purpose').generate('never put secrets here')
Base64.decode64(message.split("--").first)
If you also need to encrypt the contents, you must use ActiveSupport::MessageEncryptor instead.
Confine messages to a specific purpose¶ ↑
It’s not recommended to use the same verifier for different purposes in your application. Doing so could allow a malicious actor to re-use a signed message to perform an unauthorized action. You can reduce this risk by confining signed messages to a specific :purpose.
token = @verifier.generate("signed message", purpose: :login)
Then that same purpose must be passed when verifying to get the data back out:
@verifier.verified(token, purpose: :login)
@verifier.verified(token, purpose: :shipping)
@verifier.verified(token)
@verifier.verify(token, purpose: :login)
@verifier.verify(token, purpose: :shipping)
@verifier.verify(token)
Likewise, if a message has no purpose it won’t be returned when verifying with a specific purpose.
token = @verifier.generate("signed message") @verifier.verified(token, purpose: :redirect) @verifier.verified(token)
@verifier.verify(token, purpose: :redirect)
@verifier.verify(token)
Expiring messages¶ ↑
By default messages last forever and verifying one year from now will still return the original value. But messages can be set to expire at a given time with :expires_in or :expires_at.
@verifier.generate("signed message", expires_in: 1.month) @verifier.generate("signed message", expires_at: Time.now.end_of_year)
Messages can then be verified and returned until expiry. Thereafter, the verified method returns nil while verify raises ActiveSupport::MessageVerifier::InvalidSignature.
Rotating keys¶ ↑
MessageVerifier also supports rotating out old configurations by falling back to a stack of verifiers. Call rotate to build and add a verifier so either verified or verify will also try verifying with the fallback.
By default any rotated verifiers use the values of the primary verifier unless specified otherwise.
You’d give your verifier the new defaults:
verifier = ActiveSupport::MessageVerifier.new(@secret, digest: "SHA512", serializer: JSON)
Then gradually rotate the old values out by adding them as fallbacks. Any message generated with the old values will then work until the rotation is removed.
verifier.rotate(old_secret)
verifier.rotate(digest: "SHA256")
verifier.rotate(serializer: Marshal)
Though the above would most likely be combined into one rotation:
verifier.rotate(old_secret, digest: "SHA256", serializer: Marshal)
Namespace
Methods
G
N
V
Class Public methods
new(secret, **options)Link
Initialize a new MessageVerifier with a secret for the signature.
Options¶ ↑
:digest
Digest used for signing. The default is "SHA1". See OpenSSL::Digest for alternatives.
:serializer
The serializer used to serialize message data. You can specify any object that responds to dump and load, or you can choose from several preconfigured serializers: :marshal, :json_allow_marshal, :json, :message_pack_allow_marshal, :message_pack.
The preconfigured serializers include a fallback mechanism to support multiple deserialization formats. For example, the :marshal serializer will serialize using Marshal, but can deserialize using Marshal, ActiveSupport::JSON, or ActiveSupport::MessagePack. This makes it easy to migrate between serializers.
The :marshal, :json_allow_marshal, and :message_pack_allow_marshal serializers support deserializing using Marshal, but the others do not. Beware that Marshal is a potential vector for deserialization attacks in cases where a message signing secret has been leaked. If possible, choose a serializer that does not support Marshal.
The :message_pack and :message_pack_allow_marshal serializers use ActiveSupport::MessagePack, which can roundtrip some Ruby types that are not supported by JSON, and may provide improved performance. However, these require the msgpack gem.
When using Rails, the default depends on config.active_support.message_serializer. Otherwise, the default is :marshal.
:url_safe
By default, MessageVerifier generates RFC 4648 compliant strings which are not URL-safe. In other words, they can contain “+” and “/”. If you want to generate URL-safe strings (in compliance with “Base 64 Encoding with URL and Filename Safe Alphabet” in RFC 4648), you can pass true. Note that MessageVerifier will always accept both URL-safe and URL-unsafe encoded messages, to allow a smooth transition between the two settings.
:force_legacy_metadata_serializer
Whether to use the legacy metadata serializer, which serializes the message first, then wraps it in an envelope which is also serialized. This was the default in Rails 7.0 and below.
If you don’t pass a truthy value, the default is set using config.active_support.use_message_serializer_for_metadata.
def initialize(secret, **options) raise ArgumentError, "Secret should not be nil." unless secret super(**options) @secret = secret @digest = options[:digest]&.to_s || "SHA1" end
Instance Public methods
generate(value, **options)Link
Generates a signed message for the provided value.
The message is signed with the MessageVerifier‘s secret. Returns Base64-encoded message joined with the generated signature.
verifier = ActiveSupport::MessageVerifier.new("secret") verifier.generate("signed message")
Options¶ ↑
:expires_at
The datetime at which the message expires. After this datetime, verification of the message will fail.
message = verifier.generate("hello", expires_at: Time.now.tomorrow) verifier.verified(message)
verifier.verified(message) verifier.verify(message)
:expires_in
The duration for which the message is valid. After this duration has elapsed, verification of the message will fail.
message = verifier.generate("hello", expires_in: 24.hours) verifier.verified(message)
verifier.verified(message) verifier.verify(message)
:purpose
The purpose of the message. If specified, the same purpose must be specified when verifying the message; otherwise, verification will fail. (See verified and verify.)
def generate(value, **options) create_message(value, **options) end
valid_message?(message)Link
Checks if a signed message could have been generated by signing an object with the MessageVerifier‘s secret.
verifier = ActiveSupport::MessageVerifier.new("secret") signed_message = verifier.generate("signed message") verifier.valid_message?(signed_message)
tampered_message = signed_message.chop verifier.valid_message?(tampered_message)
def valid_message?(message) !!catch_and_ignore(:invalid_message_format) { extract_encoded(message) } end
verified(message, **options)Link
Decodes the signed message using the MessageVerifier‘s secret.
verifier = ActiveSupport::MessageVerifier.new("secret")
signed_message = verifier.generate("signed message") verifier.verified(signed_message)
Returns nil if the message was not signed with the same secret.
other_verifier = ActiveSupport::MessageVerifier.new("different_secret") other_verifier.verified(signed_message)
Returns nil if the message is not Base64-encoded.
invalid_message = "f--46a0120593880c733a53b6dad75b42ddc1c8996d" verifier.verified(invalid_message)
Raises any error raised while decoding the signed message.
incompatible_message = "test--dad7b06c94abba8d46a15fafaef56c327665d5ff" verifier.verified(incompatible_message)
Options¶ ↑
:purpose
The purpose that the message was generated with. If the purpose does not match, verified will return nil.
message = verifier.generate("hello", purpose: "greeting") verifier.verified(message, purpose: "greeting") verifier.verified(message, purpose: "chatting") verifier.verified(message)
message = verifier.generate("bye")
verifier.verified(message)
verifier.verified(message, purpose: "greeting")
def verified(message, **options) catch_and_ignore :invalid_message_format do catch_and_raise :invalid_message_serialization do catch_and_ignore :invalid_message_content do read_message(message, **options) end end end end
verify(message, **options)Link
Decodes the signed message using the MessageVerifier‘s secret.
verifier = ActiveSupport::MessageVerifier.new("secret") signed_message = verifier.generate("signed message")
verifier.verify(signed_message)
Raises InvalidSignature if the message was not signed with the same secret or was not Base64-encoded.
other_verifier = ActiveSupport::MessageVerifier.new("different_secret") other_verifier.verify(signed_message)
Options¶ ↑
:purpose
The purpose that the message was generated with. If the purpose does not match, verify will raise ActiveSupport::MessageVerifier::InvalidSignature.
message = verifier.generate("hello", purpose: "greeting") verifier.verify(message, purpose: "greeting") verifier.verify(message, purpose: "chatting") verifier.verify(message)
message = verifier.generate("bye")
verifier.verify(message)
verifier.verify(message, purpose: "greeting")
def verify(message, **options) catch_and_raise :invalid_message_format, as: InvalidSignature do catch_and_raise :invalid_message_serialization do catch_and_raise :invalid_message_content, as: InvalidSignature do read_message(message, **options) end end end end