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# frozen_string_literal: true
module Rack
class QueryParser
(require_relative 'core_ext/regexp'; using ::Rack::RegexpExtensions) if RUBY_VERSION < '2.4'
DEFAULT_SEP = /[&;] */n
COMMON_SEP = { ";" => /[;] */n, ";," => /[;,] */n, "&" => /[&] */n }
# ParameterTypeError is the error that is raised when incoming structural
# parameters (parsed by parse_nested_query) contain conflicting types.
class ParameterTypeError < TypeError; end
# InvalidParameterError is the error that is raised when incoming structural
# parameters (parsed by parse_nested_query) contain invalid format or byte
# sequence.
class InvalidParameterError < ArgumentError; end
# ParamsTooDeepError is the error that is raised when params are recursively
# nested over the specified limit.
class ParamsTooDeepError < RangeError; end
def self.make_default(key_space_limit, param_depth_limit)
new Params, key_space_limit, param_depth_limit
end
attr_reader :key_space_limit, :param_depth_limit
def initialize(params_class, key_space_limit, param_depth_limit)
@params_class = params_class
@key_space_limit = key_space_limit
@param_depth_limit = param_depth_limit
end
# Stolen from Mongrel, with some small modifications:
# Parses a query string by breaking it up at the '&'
# and ';' characters. You can also use this to parse
# cookies by changing the characters used in the second
# parameter (which defaults to '&;').
def parse_query(qs, d = nil, &unescaper)
unescaper ||= method(:unescape)
params = make_params
(qs || '').split(d ? (COMMON_SEP[d] || /[#{d}] */n) : DEFAULT_SEP).each do |p|
next if p.empty?
k, v = p.split('=', 2).map!(&unescaper)
if cur = params[k]
if cur.class == Array
params[k] << v
else
params[k] = [cur, v]
end
else
params[k] = v
end
end
return params.to_h
end
# parse_nested_query expands a query string into structural types. Supported
# types are Arrays, Hashes and basic value types. It is possible to supply
# query strings with parameters of conflicting types, in this case a
# ParameterTypeError is raised. Users are encouraged to return a 400 in this
# case.
def parse_nested_query(qs, d = nil)
params = make_params
unless qs.nil? || qs.empty?
(qs || '').split(d ? (COMMON_SEP[d] || /[#{d}] */n) : DEFAULT_SEP).each do |p|
k, v = p.split('=', 2).map! { |s| unescape(s) }
normalize_params(params, k, v, param_depth_limit)
end
end
return params.to_h
rescue ArgumentError => e
raise InvalidParameterError, e.message, e.backtrace
end
# normalize_params recursively expands parameters into structural types. If
# the structural types represented by two different parameter names are in
# conflict, a ParameterTypeError is raised.
def normalize_params(params, name, v, depth)
raise ParamsTooDeepError if depth <= 0
name =~ %r(\A[\[\]]*([^\[\]]+)\]*)
k = $1 || ''
after = $' || ''
if k.empty?
if !v.nil? && name == "[]"
return Array(v)
else
return
end
end
if after == ''
params[k] = v
elsif after == "["
params[name] = v
elsif after == "[]"
params[k] ||= []
raise ParameterTypeError, "expected Array (got #{params[k].class.name}) for param `#{k}'" unless params[k].is_a?(Array)
params[k] << v
elsif after =~ %r(^\[\]\[([^\[\]]+)\]$) || after =~ %r(^\[\](.+)$)
child_key = $1
params[k] ||= []
raise ParameterTypeError, "expected Array (got #{params[k].class.name}) for param `#{k}'" unless params[k].is_a?(Array)
if params_hash_type?(params[k].last) && !params_hash_has_key?(params[k].last, child_key)
normalize_params(params[k].last, child_key, v, depth - 1)
else
params[k] << normalize_params(make_params, child_key, v, depth - 1)
end
else
params[k] ||= make_params
raise ParameterTypeError, "expected Hash (got #{params[k].class.name}) for param `#{k}'" unless params_hash_type?(params[k])
params[k] = normalize_params(params[k], after, v, depth - 1)
end
params
end
def make_params
@params_class.new @key_space_limit
end
def new_space_limit(key_space_limit)
self.class.new @params_class, key_space_limit, param_depth_limit
end
def new_depth_limit(param_depth_limit)
self.class.new @params_class, key_space_limit, param_depth_limit
end
private
def params_hash_type?(obj)
obj.kind_of?(@params_class)
end
def params_hash_has_key?(hash, key)
return false if /\[\]/.match?(key)
key.split(/[\[\]]+/).inject(hash) do |h, part|
next h if part == ''
return false unless params_hash_type?(h) && h.key?(part)
h[part]
end
true
end
def unescape(s)
Utils.unescape(s)
end
class Params
def initialize(limit)
@limit = limit
@size = 0
@params = {}
end
def [](key)
@params[key]
end
def []=(key, value)
@size += key.size if key && !@params.key?(key)
raise ParamsTooDeepError, 'exceeded available parameter key space' if @size > @limit
@params[key] = value
end
def key?(key)
@params.key?(key)
end
# Recursively unwraps nested `Params` objects and constructs an object
# of the same shape, but using the objects' internal representations
# (Ruby hashes) in place of the objects. The result is a hash consisting
# purely of Ruby primitives.
#
# Mutation warning!
#
# 1. This method mutates the internal representation of the `Params`
# objects in order to save object allocations.
#
# 2. The value you get back is a reference to the internal hash
# representation, not a copy.
#
# 3. Because the `Params` object's internal representation is mutable
# through the `#[]=` method, it is not thread safe. The result of
# getting the hash representation while another thread is adding a
# key to it is non-deterministic.
#
def to_h
@params.each do |key, value|
case value
when self
# Handle circular references gracefully.
@params[key] = @params
when Params
@params[key] = value.to_h
when Array
value.map! { |v| v.kind_of?(Params) ? v.to_h : v }
else
# Ignore anything that is not a `Params` object or
# a collection that can contain one.
end
end
@params
end
alias_method :to_params_hash, :to_h
end
end
end
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