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150 строки
6.2 KiB
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150 строки
6.2 KiB
Plaintext
= Ruby Security
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The Ruby programming language is large and complex and there are many security
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pitfalls often encountered by newcomers and experienced Rubyists alike.
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This document aims to discuss many of these pitfalls and provide more secure
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alternatives where applicable.
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Please check the full list of publicly known CVEs and how to correctly report a
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security vulnerability, at: http://www.ruby-lang.org/en/security/
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Japanese version is here: http://www.ruby-lang.org/ja/security/
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Security vulnerabilities should be reported via an email to
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mailto:security@ruby-lang.org ({the PGP public
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key}[http://www.ruby-lang.org/security.asc]), which is a private mailing list.
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Reported problems will be published after fixes.
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== <code>$SAFE</code>
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Ruby provides a mechanism to restrict what operations can be performed by Ruby
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code in the form of the <code>$SAFE</code> variable.
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However, <code>$SAFE</code> does not provide a secure environment for executing
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untrusted code even at its maximum level of +4+. <code>$SAFE</code> is
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inherently flawed as a security mechanism, as it relies on every unsafe
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operation performed by any C method to be guarded by a <code>$SAFE</code>
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check. If this check is ever missed, the entire security of the system is
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compromised. <code>$SAFE</code> also does not offer any protection against
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denial of service attacks.
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If you need to execute untrusted code, you should use an operating system level
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sandboxing mechanism. On Linux, ptrace or LXC can be used to sandbox
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potentially malicious code. Other similar mechanisms exist on every major
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operating system.
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== +Marshal.load+
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Ruby's +Marshal+ module provides methods for serializing and deserializing Ruby
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object trees to and from a binary data format.
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Never use +Marshal.load+ to deserialize untrusted or user supplied data.
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Because +Marshal+ can deserialize to almost any Ruby object and has full
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control over instance variables, it is possible to craft a malicious payload
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that executes code shortly after deserialization.
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If you need to deserialize untrusted data, you should use JSON as it is only
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capable of returning 'primitive' types such as strings, arrays, hashes, numbers
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and nil. If you need to deserialize other classes, you should handle this
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manually. Never deserialize to a user specified class.
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== YAML
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YAML is a popular human readable data serialization format used by many Ruby
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programs for configuration and database persistance of Ruby object trees.
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Similar to +Marshal+, it is able to deserialize into arbitrary Ruby classes.
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For example, the following YAML data will create an +ERB+ object when
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deserialized:
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!ruby/object:ERB
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src: puts `uname`
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Because of this, many of the security considerations applying to Marshal are
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also applicable to YAML. Do not use YAML to deserialize untrusted data.
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== Symbols
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Symbols are often seen as syntax sugar for simple strings, but they play a much
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more crucial role. The MRI Ruby implementation uses Symbols internally for
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method, variable and constant names. The reason for this is that symbols are
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simply integers with names attached to them, so they are faster to look up in
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hashtables.
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Once a symbol is created, the memory used by it is never freed. If you convert
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user input to symbols with +to_sym+ or +intern+, it is possible for an attacker
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to mount a denial of service attack against your application by flooding it
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with unique strings. Because each string is kept in memory until the Ruby
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process exits, this will cause memory consumption to grow and grow until Ruby
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runs out of memory and crashes.
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Be careful with passing user input to methods such as +send+,
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+instance_variable_get+ or +_set+, +const_get+ or +_set+, etc. as these methods
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will convert string parameters to symbols internally and pose the same DoS
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potential as direct conversion through +to_sym+/+intern+.
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The workaround to this is simple - don't convert user input to symbols. You
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should attempt to leave user input in string form instead.
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== Regular expressions
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Ruby's regular expression syntax has some minor differences when compared to
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other languages. In Ruby, the <code>^</code> and <code>$</code> anchors do not
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refer to the beginning and end of the string, rather the beginning and end of a
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*line*.
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This means that if you're using a regular expression like
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<code>/^[a-z]+$/</code> to restrict a string to only letters, an attacker can
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bypass this check by passing a string containing a letter, then a newline, then
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any string of their choosing.
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If you want to match the beginning and end of the entire string in Ruby, use
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the anchors +\A+ and +\z+.
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== +eval+
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Never pass untrusted or user controlled input to +eval+.
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Unless you are implementing a REPL like +irb+ or +pry+, +eval+ is almost
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certainly not what you want. Do not attempt to filter user input before passing
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it to +eval+ - this approach is fraught with danger and will most likely open
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your application up to a serious remote code execution vulnerability.
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== +send+
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'Global functions' in Ruby (+puts+, +exit+, etc.) are actually private instance
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methods on +Object+. This means it is possible to invoke these methods with
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+send+, even if the call to +send+ has an explicit receiver.
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For example, the following code snippet writes "Hello world" to the terminal:
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1.send(:puts, "Hello world")
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You should never call +send+ with user supplied input as the first parameter.
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Doing so can introduce a denial of service vulnerability:
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foo.send(params[:bar]) # params[:bar] is "exit!"
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If an attacker can control the first two arguments to +send+, remote code
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execution is possible:
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# params is { :a => "eval", :b => "...ruby code to be executed..." }
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foo.send(params[:a], params[:b])
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When dispatching a method call based on user input, carefully verify that the
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method name. If possible, check it against a whitelist of safe method names.
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Note that the use of +public_send+ is also dangerous, as +send+ itself is
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public:
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1.public_send("send", "eval", "...ruby code to be executed...")
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== DRb
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As DRb allows remote clients to invoke arbitrary methods, it is not suitable to
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expose to untrusted clients.
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When using DRb, try to avoid exposing it over the network if possible. If this
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isn't possible and you need to expose DRb to the world, you *must* configure an
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appropriate security policy with <code>DRb::ACL</code>.
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