# encoding: utf-8 require "logstash/filters/base" require "logstash/namespace" # This filter helps automatically parse messages (or specific event fields) # which are of the `foo=bar` variety. # # For example, if you have a log message which contains `ip=1.2.3.4 # error=REFUSED`, you can parse those automatically by configuring: # [source,ruby] # filter { # kv { } # } # # The above will result in a message of `ip=1.2.3.4 error=REFUSED` having # the fields: # # * `ip: 1.2.3.4` # * `error: REFUSED` # # This is great for postfix, iptables, and other types of logs that # tend towards `key=value` syntax. # # You can configure any arbitrary strings to split your data on, # in case your data is not structured using `=` signs and whitespace. # For example, this filter can also be used to parse query parameters like # `foo=bar&baz=fizz` by setting the `field_split` parameter to `&`. class LogStash::Filters::KV < LogStash::Filters::Base config_name "kv" # Constants used for transform check TRANSFORM_LOWERCASE_KEY = "lowercase" TRANSFORM_UPPERCASE_KEY = "uppercase" TRANSFORM_CAPITALIZE_KEY = "capitalize" # A string of characters to trim from the value. This is useful if your # values are wrapped in brackets or are terminated with commas (like postfix # logs). # # These characters form a regex character class and thus you must escape special regex # characters like `[` or `]` using `\`. # # Only leading and trailing characters are trimed from the value. # # For example, to trim `<`, `>`, `[`, `]` and `,` characters from values: # [source,ruby] # filter { # kv { # trim_value => "<>\[\]," # } # } config :trim_value, :validate => :string # A string of characters to trim from the key. This is useful if your # keys are wrapped in brackets or start with space. # # These characters form a regex character class and thus you must escape special regex # characters like `[` or `]` using `\`. # # Only leading and trailing characters are trimed from the key. # # For example, to trim `<` `>` `[` `]` and `,` characters from keys: # [source,ruby] # filter { # kv { # trim_key => "<>\[\]," # } # } config :trim_key, :validate => :string # A string of characters to remove from the value. # # These characters form a regex character class and thus you must escape special regex # characters like `[` or `]` using `\`. # # Contrary to trim option, all characters are removed from the value, whatever their position. # # For example, to remove `<`, `>`, `[`, `]` and `,` characters from values: # [source,ruby] # filter { # kv { # remove_char_value => "<>\[\]," # } # } config :remove_char_value, :validate => :string # A string of characters to remove from the key. # # These characters form a regex character class and thus you must escape special regex # characters like `[` or `]` using `\`. # # Contrary to trim option, all characters are removed from the key, whatever their position. # # For example, to remove `<` `>` `[` `]` and `,` characters from keys: # [source,ruby] # filter { # kv { # remove_char_key => "<>\[\]," # } # } config :remove_char_key, :validate => :string # Transform values to lower case, upper case or capitals. # # For example, to capitalize all values: # [source,ruby] # filter { # kv { # transform_value => "capitalize" # } # } config :transform_value, :validate => [TRANSFORM_LOWERCASE_KEY, TRANSFORM_UPPERCASE_KEY, TRANSFORM_CAPITALIZE_KEY] # Transform keys to lower case, upper case or capitals. # # For example, to lowercase all keys: # [source,ruby] # filter { # kv { # transform_key => "lowercase" # } # } config :transform_key, :validate => [TRANSFORM_LOWERCASE_KEY, TRANSFORM_UPPERCASE_KEY, TRANSFORM_CAPITALIZE_KEY] # A string of characters to use as single-character field delimiters for parsing out key-value pairs. # # These characters form a regex character class and thus you must escape special regex # characters like `[` or `]` using `\`. # # #### Example with URL Query Strings # # For example, to split out the args from a url query string such as # `?pin=12345~0&d=123&e=foo@bar.com&oq=bobo&ss=12345`: # [source,ruby] # filter { # kv { # field_split => "&?" # } # } # # The above splits on both `&` and `?` characters, giving you the following # fields: # # * `pin: 12345~0` # * `d: 123` # * `e: foo@bar.com` # * `oq: bobo` # * `ss: 12345` config :field_split, :validate => :string, :default => ' ' # A regex expression to use as field delimiter for parsing out key-value pairs. # Useful to define multi-character field delimiters. # Setting the field_split_pattern options will take precedence over the field_split option. # # Note that you should avoid using captured groups in your regex and you should be # cautious with lookaheads or lookbehinds and positional anchors. # # For example, to split fields on a repetition of one or more colons # `k1=v1:k2=v2::k3=v3:::k4=v4`: # [source,ruby] # filter { kv { field_split_pattern => ":+" } } # # To split fields on a regex character that need escaping like the plus sign # `k1=v1++k2=v2++k3=v3++k4=v4`: # [source,ruby] # filter { kv { field_split_pattern => "\\+\\+" } } config :field_split_pattern, :validate => :string # A non-empty string of characters to use as single-character value delimiters for parsing out key-value pairs. # # These characters form a regex character class and thus you must escape special regex # characters like `[` or `]` using `\`. # # For example, to identify key-values such as # `key1:value1 key2:value2`: # [source,ruby] # filter { kv { value_split => ":" } } config :value_split, :validate => :string, :default => '=' # A regex expression to use as value delimiter for parsing out key-value pairs. # Useful to define multi-character value delimiters. # Setting the value_split_pattern options will take precedence over the value_split option. # # Note that you should avoid using captured groups in your regex and you should be # cautious with lookaheads or lookbehinds and positional anchors. # # See field_split_pattern for examples. config :value_split_pattern, :validate => :string # A string to prepend to all of the extracted keys. # # For example, to prepend arg_ to all keys: # [source,ruby] # filter { kv { prefix => "arg_" } } config :prefix, :validate => :string, :default => '' # The field to perform `key=value` searching on # # For example, to process the `not_the_message` field: # [source,ruby] # filter { kv { source => "not_the_message" } } config :source, :validate => :string, :default => "message" # The name of the container to put all of the key-value pairs into. # # If this setting is omitted, fields will be written to the root of the # event, as individual fields. # # For example, to place all keys into the event field kv: # [source,ruby] # filter { kv { target => "kv" } } config :target, :validate => :string # An array specifying the parsed keys which should be added to the event. # By default all keys will be added. # # For example, consider a source like `Hey, from=, to=def foo=bar`. # To include `from` and `to`, but exclude the `foo` key, you could use this configuration: # [source,ruby] # filter { # kv { # include_keys => [ "from", "to" ] # } # } config :include_keys, :validate => :array, :default => [] # An array specifying the parsed keys which should not be added to the event. # By default no keys will be excluded. # # For example, consider a source like `Hey, from=, to=def foo=bar`. # To exclude `from` and `to`, but retain the `foo` key, you could use this configuration: # [source,ruby] # filter { # kv { # exclude_keys => [ "from", "to" ] # } # } config :exclude_keys, :validate => :array, :default => [] # A hash specifying the default keys and their values which should be added to the event # in case these keys do not exist in the source field being parsed. # [source,ruby] # filter { # kv { # default_keys => [ "from", "logstash@example.com", # "to", "default@dev.null" ] # } # } config :default_keys, :validate => :hash, :default => {} # A bool option for removing duplicate key/value pairs. When set to false, only # one unique key/value pair will be preserved. # # For example, consider a source like `from=me from=me`. `[from]` will map to # an Array with two elements: `["me", "me"]`. To only keep unique key/value pairs, # you could use this configuration: # [source,ruby] # filter { # kv { # allow_duplicate_values => false # } # } config :allow_duplicate_values, :validate => :boolean, :default => true # A boolean specifying whether to treat square brackets, angle brackets, # and parentheses as value "wrappers" that should be removed from the value. # [source,ruby] # filter { # kv { # include_brackets => true # } # } # # For example, the result of this line: # `bracketsone=(hello world) bracketstwo=[hello world] bracketsthree=` # # will be: # # * bracketsone: hello world # * bracketstwo: hello world # * bracketsthree: hello world # # instead of: # # * bracketsone: (hello # * bracketstwo: [hello # * bracketsthree: :boolean, :default => true # A boolean specifying whether to drill down into values # and recursively get more key-value pairs from it. # The extra key-value pairs will be stored as subkeys of the root key. # # Default is not to recursive values. # [source,ruby] # filter { # kv { # recursive => "true" # } # } # config :recursive, :validate => :boolean, :default => false def register if @value_split.empty? raise LogStash::ConfigurationError, I18n.t( "logstash.runner.configuration.invalid_plugin_register", :plugin => "filter", :type => "kv", :error => "Configuration option 'value_split' must be a non-empty string" ) end if @field_split_pattern && @field_split_pattern.empty? raise LogStash::ConfigurationError, I18n.t( "logstash.runner.configuration.invalid_plugin_register", :plugin => "filter", :type => "kv", :error => "Configuration option 'field_split_pattern' must be a non-empty string" ) end if @value_split_pattern && @value_split_pattern.empty? raise LogStash::ConfigurationError, I18n.t( "logstash.runner.configuration.invalid_plugin_register", :plugin => "filter", :type => "kv", :error => "Configuration option 'value_split_pattern' must be a non-empty string" ) end @trim_value_re = Regexp.new("^[#{@trim_value}]|[#{@trim_value}]$") if @trim_value @trim_key_re = Regexp.new("^[#{@trim_key}]|[#{@trim_key}]$") if @trim_key @remove_char_value_re = Regexp.new("[#{@remove_char_value}]") if @remove_char_value @remove_char_key_re = Regexp.new("[#{@remove_char_key}]") if @remove_char_key field_split = Regexp::compile(@field_split_pattern || /[#{@field_split}]/) value_split = Regexp::compile(@value_split_pattern || /[#{@value_split}]/) optional_whitespace = /\s*/ eof = /$/ value_pattern = begin # each component expression within value_pattern _must_ capture exactly once. value_patterns = [] value_patterns << quoted_capture(%q(")) # quoted double value_patterns << quoted_capture(%q(')) # quoted single if @include_brackets value_patterns << quoted_capture('(', ')') # bracketed paren value_patterns << quoted_capture('[', ']') # bracketed square value_patterns << quoted_capture('<', '>') # bracketed angle end # an unquoted value is a _captured_ sequence of characters or escaped spaces before a `field_split` or EOF. value_patterns << /((?:\\ |.)+?)(?=#{Regexp::union(field_split, eof)})/ Regexp.union(*value_patterns) end # a key is a _captured_ sequence of characters or escaped spaces before optional whitespace # and followed by either a `value_split`, a `field_split`, or EOF. key_pattern = /((?:\\ |.)+?)(?=#{optional_whitespace}#{Regexp::union(value_split, field_split, eof)})/ @scan_re = /#{field_split}?#{key_pattern}#{optional_whitespace}(?:#{value_split}#{optional_whitespace}#{value_pattern})?(?=#{Regexp::union(field_split, eof)})/ @value_split_re = value_split @logger.debug? && @logger.debug("KV scan regex", :regex => @scan_re.inspect) end def filter(event) kv = Hash.new value = event.get(@source) case value when nil # Nothing to do when String kv = parse(value, event, kv) when Array value.each { |v| kv = parse(v, event, kv) } else @logger.warn("kv filter has no support for this type of data", :type => value.class, :value => value) end # Add default key-values for missing keys kv = @default_keys.merge(kv) return if kv.empty? if @target @logger.debug? && @logger.debug("Overwriting existing target field", :target => @target) event.set(@target, kv) else kv.each{|k, v| event.set(k, v)} end filter_matched(event) end private def has_value_splitter?(s) s =~ @value_split_re end # Helper function for generating single-capture `Regexp` that, when matching a string bound by the given quotes # or brackets, will capture the content that is between the quotes or brackets. # # @api private # @param quote_sequence [String] a character sequence that begins a quoted expression # @param close_quote_sequence [String] a character sequence that ends a quoted expression; (default: quote_sequence) # @return [Regexp] with a single capture group representing content that is between the given quotes def quoted_capture(quote_sequence, close_quote_sequence=quote_sequence) fail('quote_sequence must be non-empty!') if quote_sequence.nil? || quote_sequence.empty? fail('close_quote_sequence must be non-empty!') if close_quote_sequence.nil? || close_quote_sequence.empty? open_pattern = /#{Regexp.quote(quote_sequence)}/ close_pattern = /#{Regexp.quote(close_quote_sequence)}/ # matches a sequence of zero or more characters that is followed by the `close_quote_sequence` quoted_value_pattern = /(?:.)*?(?=#{Regexp.quote(close_quote_sequence)})/ /#{open_pattern}(#{quoted_value_pattern})#{close_pattern}/ end def transform(text, method) case method when TRANSFORM_LOWERCASE_KEY return text.downcase when TRANSFORM_UPPERCASE_KEY return text.upcase when TRANSFORM_CAPITALIZE_KEY return text.capitalize end end def parse(text, event, kv_keys) # short circuit parsing if the text does not contain the @value_split return kv_keys unless has_value_splitter?(text) # Interpret dynamic keys for @include_keys and @exclude_keys include_keys = @include_keys.map{|key| event.sprintf(key)} exclude_keys = @exclude_keys.map{|key| event.sprintf(key)} text.scan(@scan_re) do |key, *value_candidates| value = value_candidates.compact.first next if value.nil? || value.empty? key = @trim_key ? key.gsub(@trim_key_re, "") : key key = @remove_char_key ? key.gsub(@remove_char_key_re, "") : key key = @transform_key ? transform(key, @transform_key) : key # Bail out as per the values of include_keys and exclude_keys next if not include_keys.empty? and not include_keys.include?(key) # next unless include_keys.include?(key) next if exclude_keys.include?(key) key = event.sprintf(@prefix) + key value = @trim_value ? value.gsub(@trim_value_re, "") : value value = @remove_char_value ? value.gsub(@remove_char_value_re, "") : value value = @transform_value ? transform(value, @transform_value) : value # Bail out if inserting duplicate value in key mapping when unique_values # option is set to true. next if not @allow_duplicate_values and kv_keys.has_key?(key) and kv_keys[key].include?(value) # recursively get more kv pairs from the value if @recursive innerKv = parse(value, event, {}) value = innerKv unless innerKv.empty? end if kv_keys.has_key?(key) if kv_keys[key].is_a?(Array) kv_keys[key].push(value) else kv_keys[key] = [kv_keys[key], value] end else kv_keys[key] = value end end return kv_keys end end