defmodule PhilomenaQuery.Parse.Parser do @moduledoc """ A search language for safely evaluating user-input queries. The query language supports the following features: - Disjunction (OR/||) - Conjunction (AND/&&/,) - Negation (NOT/-/!) - Expression boosting - Parenthetical grouping Several types of terms are supported: - Booleans - Dates (absolute and relative, time points and ranges) - Floats - Integers - IP Addresses - Literal text - Stemmed text Specific terms can support the following features: - Range queries (.lte/.lt/.gte/.gt) - Fuzzing (~0.5) - Wildcarding (*?) - CIDR masks (/27) The rich search expression grammar is arguably a defining feature of Philomena, and its feature set makes it stand out in comparison to traditional boorus. """ alias PhilomenaQuery.Parse.{ BoolParser, DateParser, FloatParser, IntParser, IpParser, Lexer, LiteralParser, NgramParser, Parser, TermRangeParser } @typedoc """ User-supplied context argument. Provided to `parse/3` and passed to the transform callback. """ @type context :: any() @typedoc "Query in the search engine JSON query language." @type query :: map() @typedoc "Whether the default field is `:term` (not analyzed) or `:ngram` (analyzed)." @type default_field_type :: :term | :ngram @typedoc """ Return value of the transform callback. On `{:ok, query}`, the query is incorporated into the parse tree at the current location. On `{:error, error}`, parsing immediately stops and the error is returned from the parser. """ @type transform_result :: {:ok, query()} | {:error, String.t()} @typedoc """ Type of the transform callback. The transform callback receives the context argument passed to `parse/3` and the remainder of the term. For instance `my:example` would match a transform rule with the key `"my"`, and the remainder passed to the callback would be `"example"`. """ @type transform :: (context, String.t() -> transform_result()) @type t :: %__MODULE__{ default_field: {String.t(), default_field_type()}, bool_fields: [String.t()], date_fields: [String.t()], float_fields: [String.t()], int_fields: [String.t()], ip_fields: [String.t()], literal_fields: [String.t()], ngram_fields: [String.t()], custom_fields: [String.t()], transforms: %{String.t() => transform()}, aliases: %{String.t() => String.t()}, no_downcase_fields: [String.t()], __fields__: map(), __data__: context() } defstruct [ :default_field, bool_fields: [], date_fields: [], float_fields: [], int_fields: [], ip_fields: [], literal_fields: [], ngram_fields: [], custom_fields: [], transforms: %{}, aliases: %{}, no_downcase_fields: [], __fields__: %{}, __data__: nil ] @max_clause_count 512 @doc """ Creates a `Parser` suitable for safely parsing user-input queries. Fields refer to attributes of the indexed document which will be searchable with `m:PhilomenaQuery.Search`. Available options: - `bool_fields` - a list of field names parsed as booleans - `float_fields` - a list of field names parsed as floats - `int_fields` - a list of field names parsed as integers - `ip_fields` - a list of field names parsed as IP CIDR masks - `literal_fields` - wildcardable fields which are searched as the exact value - `ngram_fields` - wildcardable fields which are searched as stemmed values - `custom_fields` - fields which do not exist on the document and are created by a callback - `transforms` - a map of custom field names to transform functions - `aliases` - a map of field names to the names they should have in the search engine - `no_downcase_fields` - a list of field names which do not have string downcasing applied ## Example options = [ bool_fields: ["hidden"], custom_fields: ["example"], transforms: %{"example" => fn _ctx, term -> %{term: %{term => "example"}} end}, aliases: %{"hidden" => "hidden_from_users"} ] Parser.new(options) """ @spec new(keyword()) :: t() def new(options) do parser = struct(Parser, options) fields = Enum.map(parser.bool_fields, fn f -> {f, BoolParser} end) ++ Enum.map(parser.date_fields, fn f -> {f, DateParser} end) ++ Enum.map(parser.float_fields, fn f -> {f, FloatParser} end) ++ Enum.map(parser.int_fields, fn f -> {f, IntParser} end) ++ Enum.map(parser.ip_fields, fn f -> {f, IpParser} end) ++ Enum.map(parser.literal_fields, fn f -> {f, LiteralParser} end) ++ Enum.map(parser.ngram_fields, fn f -> {f, NgramParser} end) ++ Enum.map(parser.custom_fields, fn f -> {f, :custom_field} end) %{parser | __fields__: Map.new(fields)} end @doc """ Parse the query into a definition suitable for the search engine. The parser argument should have been created with a previous call to `parser/1`. When the `context` argument is passed, it becomes the first argument to any transform functions defined in the `transform` option. ## Example iex> Parser.parse(parser, "safe") {:ok, %{term: %{"namespaced_tags.name" => "safe"}}} iex> Parser.parse(nil, "safe OR solo") {:ok, %{ bool: %{ should: [ %{term: %{"namespaced_tags.name" => "safe"}}, %{term: %{"namespaced_tags.name" => "solo"}} ] } }} iex> Parser.parse(parser, ")") {:error, "Imbalanced parentheses."} """ @spec parse(t(), String.t(), context()) :: {:ok, query()} | {:error, String.t()} def parse(parser, input, context \\ nil) def parse(%Parser{} = parser, input, context) do parser = %{parser | __data__: context} with {:ok, input} <- coerce_string(input), {:ok, tokens, _1, _2, _3, _4} <- Lexer.lex(input), {:ok, tokens} <- convert_empty_token_list(tokens), {:ok, {tree, []}} <- search_top(parser, tokens) do {:ok, tree} else {:error, :empty_query} -> {:ok, %{match_none: %{}}} {:ok, {_tree, tokens}} -> {:error, "junk at end of expression: " <> debug_tokens(tokens)} {:error, msg, start_pos, _1, _2, _3} -> {:error, msg <> ", starting at: " <> start_pos} {:error, msg} -> {:error, msg} err -> err # {:error, "unknown parsing error"} end end defp coerce_string(term) when is_binary(term), do: {:ok, term} defp coerce_string(nil), do: {:ok, ""} defp coerce_string(_), do: {:error, "search query is not a string"} defp convert_empty_token_list([]), do: {:error, :empty_query} defp convert_empty_token_list(tokens), do: {:ok, tokens} defp debug_tokens(tokens) do Enum.map_join(tokens, fn {_k, v} -> v end) end # # Predictive LL(1) RD parser for search grammar # defp search_top(parser, tokens), do: search_or(parser, tokens) defp search_or(parser, tokens) do with {:ok, {left, [{:or, _} | r_tokens]}} <- search_and(parser, tokens), {:ok, {right, rest}} <- search_or(parser, r_tokens) do {:ok, {flatten_disjunction_child(left, right), rest}} else value -> value end end defp search_and(parser, tokens) do with {:ok, {left, [{:and, _} | r_tokens]}} <- search_boost(parser, tokens), {:ok, {right, rest}} <- search_and(parser, r_tokens) do {:ok, {flatten_conjunction_child(left, right), rest}} else value -> value end end defp search_boost(parser, tokens) do case search_not(parser, tokens) do {:ok, {child, [{:boost, value} | r_tokens]}} when value >= 0 -> {:ok, {%{function_score: %{query: child, boost: value}}, r_tokens}} {:ok, {_child, [{:boost, _value} | _r_tokens]}} -> {:error, "Boost value must be non-negative."} value -> value end end defp search_not(parser, [{:not, _} | rest]) do case search_group(parser, rest) do {:ok, {child, r_tokens}} -> {:ok, {flatten_negation_child(child), r_tokens}} value -> value end end defp search_not(parser, tokens), do: search_group(parser, tokens) defp search_group(parser, [{:lparen, _} | rest]) do case search_top(parser, rest) do {:ok, {child, [{:rparen, _} | r_tokens]}} -> {:ok, {child, r_tokens}} {:ok, {_child, _tokens}} -> {:error, "Imbalanced parentheses."} value -> value end end defp search_group(_parser, [{:rparen, _} | _rest]) do {:error, "Imbalanced parentheses."} end defp search_group(parser, tokens), do: search_field(parser, tokens) defp search_field(parser, [{:term, value} | r_tokens]) do tokens = TermRangeParser.parse(value, parser.__fields__, parser.default_field) case field_top(parser, tokens) do {:ok, {child, []}} -> {:ok, {child, r_tokens}} err -> err end end defp search_field(_parser, _tokens), do: {:error, "Expected a term."} # # Predictive LL(k) RD parser for search terms in parent grammar # defp field_top(parser, tokens), do: field_term(parser, tokens) defp field_term(parser, custom_field: field_name, range: :eq, value: value) do case parser.transforms[field_name].(parser.__data__, String.trim(value)) do {:ok, child} -> {:ok, {child, []}} err -> err end end defp field_term(parser, [{field_parser, field_name}, {:range, range}, {:value, value}]) do # N.B.: field_parser is an atom case field_parser.parse(value) do {:ok, extra_tokens, _1, _2, _3, _4} -> field_type(parser, [{field_parser, field_name}, {:range, range}] ++ extra_tokens) err -> err end end # Types which do not support ranges defp field_type(parser, [{LiteralParser, field_name}, range: :eq, literal: value]), do: {:ok, {%{term: %{field(parser, field_name) => normalize_value(parser, field_name, value)}}, []}} defp field_type(parser, [{LiteralParser, field_name}, range: :eq, literal: value, fuzz: fuzz]), do: {:ok, {%{ fuzzy: %{ field(parser, field_name) => %{ value: normalize_value(parser, field_name, value), fuzziness: fuzz } } }, []}} defp field_type(_parser, [{LiteralParser, _field_name}, range: :eq, wildcard: "*"]), do: {:ok, {%{match_all: %{}}, []}} defp field_type(parser, [{LiteralParser, field_name}, range: :eq, wildcard: value]), do: {:ok, {%{wildcard: %{field(parser, field_name) => normalize_value(parser, field_name, value)}}, []}} defp field_type(_parser, [{LiteralParser, field_name}, _range, _value]), do: {:error, "range specified for " <> field_name} defp field_type(parser, [{NgramParser, field_name}, range: :eq, literal: value]), do: {:ok, {%{ match_phrase: %{field(parser, field_name) => normalize_value(parser, field_name, value)} }, []}} defp field_type(parser, [{NgramParser, field_name}, range: :eq, literal: value, fuzz: _fuzz]), do: {:ok, {%{ match_phrase: %{field(parser, field_name) => normalize_value(parser, field_name, value)} }, []}} defp field_type(_parser, [{NgramParser, _field_name}, range: :eq, wildcard: "*"]), do: {:ok, {%{match_all: %{}}, []}} defp field_type(parser, [{NgramParser, field_name}, range: :eq, wildcard: value]), do: {:ok, {%{wildcard: %{field(parser, field_name) => normalize_value(parser, field_name, value)}}, []}} defp field_type(_parser, [{NgramParser, field_name}, _range, _value]), do: {:error, "range specified for " <> field_name} defp field_type(parser, [{BoolParser, field_name}, range: :eq, bool: value]), do: {:ok, {%{term: %{field(parser, field_name) => value}}, []}} defp field_type(_parser, [{BoolParser, field_name}, _range, _value]), do: {:error, "range specified for " <> field_name} defp field_type(parser, [{IpParser, field_name}, range: :eq, ip: value]), do: {:ok, {%{term: %{field(parser, field_name) => value}}, []}} defp field_type(_parser, [{IpParser, field_name}, _range, _value]), do: {:error, "range specified for " <> field_name} # Types which do support ranges defp field_type(parser, [{IntParser, field_name}, range: :eq, int: value]), do: {:ok, {%{term: %{field(parser, field_name) => value}}, []}} defp field_type(parser, [{IntParser, field_name}, range: :eq, int_range: [lower, upper]]), do: {:ok, {%{range: %{field(parser, field_name) => %{gte: lower, lte: upper}}}, []}} defp field_type(parser, [{IntParser, field_name}, range: range, int: value]), do: {:ok, {%{range: %{field(parser, field_name) => %{range => value}}}, []}} defp field_type(_parser, [{IntParser, field_name}, range: _range, int_range: _value]), do: {:error, "multiple ranges specified for " <> field_name} defp field_type(parser, [{FloatParser, field_name}, range: :eq, float: value]), do: {:ok, {%{term: %{field(parser, field_name) => value}}, []}} defp field_type(parser, [{FloatParser, field_name}, range: :eq, float_range: [lower, upper]]), do: {:ok, {%{range: %{field(parser, field_name) => %{gte: lower, lte: upper}}}, []}} defp field_type(parser, [{FloatParser, field_name}, range: range, float: value]), do: {:ok, {%{range: %{field(parser, field_name) => %{range => value}}}, []}} defp field_type(_parser, [{FloatParser, field_name}, range: _range, float_range: _value]), do: {:error, "multiple ranges specified for " <> field_name} defp field_type(parser, [{DateParser, field_name}, range: :eq, date: [lower, upper]]), do: {:ok, {%{range: %{field(parser, field_name) => %{gte: lower, lt: upper}}}, []}} defp field_type(parser, [{DateParser, field_name}, range: r, date: [_lower, upper]]) when r in [:lte, :gt], do: {:ok, {%{range: %{field(parser, field_name) => %{r => upper}}}, []}} defp field_type(parser, [{DateParser, field_name}, range: r, date: [lower, _upper]]) when r in [:gte, :lt], do: {:ok, {%{range: %{field(parser, field_name) => %{r => lower}}}, []}} defp field(parser, field_name) do parser.aliases[field_name] || field_name end defp normalize_value(parser, field_name, value) do value |> String.trim() |> maybe_downcase(parser, field_name) end defp maybe_downcase(value, parser, field_name) do if Enum.member?(parser.no_downcase_fields, field_name) do value else String.downcase(value) end end # Flattens the child of a disjunction or conjunction to improve performance. defp flatten_disjunction_child(this_child, %{bool: %{should: next_child}} = child) when child == %{bool: %{should: next_child}} and is_list(next_child) and length(next_child) <= @max_clause_count, do: %{bool: %{should: [this_child | next_child]}} defp flatten_disjunction_child(this_child, next_child), do: %{bool: %{should: [this_child, next_child]}} defp flatten_conjunction_child(this_child, %{bool: %{must: next_child}} = child) when child == %{bool: %{must: next_child}} and is_list(next_child) and length(next_child) <= @max_clause_count, do: %{bool: %{must: [this_child | next_child]}} defp flatten_conjunction_child(this_child, next_child), do: %{bool: %{must: [this_child, next_child]}} # Flattens the child of a negation to eliminate double negation. defp flatten_negation_child(%{bool: %{must_not: next_child}} = child) when child == %{bool: %{must_not: next_child}} and is_map(next_child), do: next_child defp flatten_negation_child(next_child), do: %{bool: %{must_not: next_child}} end