# Puppet as a Library "PAL"

# Yes, this requires all of puppet for now because 'settings' and many other things...
require_relative '../../puppet'
require_relative '../../puppet/parser/script_compiler'
require_relative '../../puppet/parser/catalog_compiler'

module Puppet
# This is the main entry point for "Puppet As a Library" PAL.
# This file should be required instead of "puppet"
# Initially, this will require ALL of puppet - over time this will change as the monolithical "puppet" is broken up
# into smaller components.
#
# @example Running a snippet of Puppet Language code
#   require 'puppet_pal'
#   result = Puppet::Pal.in_tmp_environment('pal_env', modulepath: ['/tmp/testmodules']) do |pal|
#     pal.evaluate_script_string('1+2+3')
#   end
#   # The result is the value 6
#
# @example Calling a function
#   require 'puppet_pal'
#   result = Puppet::Pal.in_tmp_environment('pal_env', modulepath: ['/tmp/testmodules']) do |pal|
#     pal.call_function('mymodule::myfunction', 10, 20)
#   end
#   # The result is what 'mymodule::myfunction' returns
#
# @api public
module Pal

  # Defines a context in which multiple operations in an env with a script compiler can be performed in a given block.
  # The calls that takes place to PAL inside of the given block are all with the same instance of the compiler.
  # The parameter `configured_by_env` makes it possible to either use the configuration in the environment, or specify
  # `manifest_file` or `code_string` manually. If neither is given, an empty `code_string` is used.
  #
  # @example define a script compiler without any initial logic
  #   pal.with_script_compiler do | compiler |
  #     # do things with compiler
  #   end
  #
  # @example define a script compiler with a code_string containing initial logic
  #   pal.with_script_compiler(code_string: '$myglobal_var = 42')  do | compiler |
  #     # do things with compiler
  #   end
  #
  # @param configured_by_env [Boolean] when true the environment's settings are used, otherwise the given `manifest_file` or `code_string`
  # @param manifest_file [String] a Puppet Language file to load and evaluate before calling the given block, mutually exclusive with `code_string`
  # @param code_string [String] a Puppet Language source string to load and evaluate before calling the given block, mutually exclusive with `manifest_file`
  # @param facts [Hash] optional map of fact name to fact value - if not given will initialize the facts (which is a slow operation)
  #   If given at the environment level, the facts given here are merged with higher priority.
  # @param variables [Hash] optional map of fully qualified variable name to value. If given at the environment level, the variables
  #   given here are merged with higher priority.
  # @param set_local_facts [Boolean] when true, the $facts, $server_facts, and $trusted variables are set for the scope.
  # @param block [Proc] the block performing operations on compiler
  # @return [Object] what the block returns
  # @yieldparam [Puppet::Pal::ScriptCompiler] compiler, a ScriptCompiler to perform operations on.
  #
  def self.with_script_compiler(
      configured_by_env: false,
      manifest_file:     nil,
      code_string:       nil,
      facts:             {},
      variables:         {},
      set_local_facts:   true,
      &block
    )
    # TRANSLATORS: do not translate variable name strings in these assertions
    assert_mutually_exclusive(manifest_file, code_string, 'manifest_file', 'code_string')
    assert_non_empty_string(manifest_file, 'manifest_file', true)
    assert_non_empty_string(code_string, 'code_string', true)
    assert_type(T_BOOLEAN, configured_by_env, "configured_by_env", false)

    if configured_by_env
      unless manifest_file.nil? && code_string.nil?
        # TRANSLATORS: do not translate the variable names in this error message
        raise ArgumentError, _("manifest_file or code_string cannot be given when configured_by_env is true")
      end
      # Use the manifest setting
      manifest_file = Puppet[:manifest]
    else
      # An "undef" code_string is the only way to override Puppet[:manifest] & Puppet[:code] settings since an
      # empty string is taken as Puppet[:code] not being set.
      #
      if manifest_file.nil? && code_string.nil?
        code_string = 'undef'
      end
    end

    previous_tasks_value = Puppet[:tasks]
    previous_code_value = Puppet[:code]
    Puppet[:tasks] = true
    # After the assertions, if code_string is non nil - it has the highest precedence
    Puppet[:code] = code_string unless code_string.nil?

    # If manifest_file is nil, the #main method will use the env configured manifest
    # to do things in the block while a Script Compiler is in effect
    main(
      manifest:                manifest_file,
      facts:                   facts,
      variables:               variables,
      internal_compiler_class: :script,
      set_local_facts:         set_local_facts,
      &block
    )
  ensure
    Puppet[:tasks] = previous_tasks_value
    Puppet[:code] = previous_code_value
  end

  # Evaluates a Puppet Language script string.
  # @param code_string [String] a snippet of Puppet Language source code
  # @return [Object] what the Puppet Language code_string evaluates to
  # @deprecated Use {#with_script_compiler} and then evaluate_string on the given compiler - to be removed in 1.0 version
  #
  def self.evaluate_script_string(code_string)
    # prevent the default loading of Puppet[:manifest] which is the environment's manifest-dir by default settings
    # by setting code_string to 'undef'
    with_script_compiler do |compiler|
      compiler.evaluate_string(code_string)
    end
  end

  # Evaluates a Puppet Language script (.pp) file.
  # @param manifest_file [String] a file with Puppet Language source code
  # @return [Object] what the Puppet Language manifest_file contents evaluates to
  # @deprecated Use {#with_script_compiler} and then evaluate_file on the given compiler - to be removed in 1.0 version
  #
  def self.evaluate_script_manifest(manifest_file)
    with_script_compiler do |compiler|
      compiler.evaluate_file(manifest_file)
    end
  end

  # Defines a context in which multiple operations in an env with a catalog producing compiler can be performed
  # in a given block.
  # The calls that takes place to PAL inside of the given block are all with the same instance of the compiler.
  # The parameter `configured_by_env` makes it possible to either use the configuration in the environment, or specify
  # `manifest_file` or `code_string` manually. If neither is given, an empty `code_string` is used.
  #
  # @example define a catalog compiler without any initial logic
  #   pal.with_catalog_compiler do | compiler |
  #     # do things with compiler
  #   end
  #
  # @example define a catalog compiler with a code_string containing initial logic
  #   pal.with_catalog_compiler(code_string: '$myglobal_var = 42')  do | compiler |
  #     # do things with compiler
  #   end
  #
  # @param configured_by_env [Boolean] when true the environment's settings are used, otherwise the
  #   given `manifest_file` or `code_string`
  # @param manifest_file [String] a Puppet Language file to load and evaluate before calling the given block, mutually exclusive
  #   with `code_string`
  # @param code_string [String] a Puppet Language source string to load and evaluate before calling the given block, mutually
  #   exclusive with `manifest_file`
  # @param facts [Hash] optional map of fact name to fact value - if not given will initialize the facts (which is a slow operation)
  #   If given at the environment level, the facts given here are merged with higher priority.
  # @param variables [Hash] optional map of fully qualified variable name to value. If given at the environment level, the variables
  #   given here are merged with higher priority.
  # @param block [Proc] the block performing operations on compiler
  # @return [Object] what the block returns
  # @yieldparam [Puppet::Pal::CatalogCompiler] compiler, a CatalogCompiler to perform operations on.
  #
  def self.with_catalog_compiler(
    configured_by_env: false,
      manifest_file:     nil,
      code_string:       nil,
      facts:             {},
      variables:         {},
      target_variables:  {},
      &block
  )
    # TRANSLATORS: do not translate variable name strings in these assertions
    assert_mutually_exclusive(manifest_file, code_string, 'manifest_file', 'code_string')
    assert_non_empty_string(manifest_file, 'manifest_file', true)
    assert_non_empty_string(code_string, 'code_string', true)
    assert_type(T_BOOLEAN, configured_by_env, "configured_by_env", false)

    if configured_by_env
      unless manifest_file.nil? && code_string.nil?
        # TRANSLATORS: do not translate the variable names in this error message
        raise ArgumentError, _("manifest_file or code_string cannot be given when configured_by_env is true")
      end
      # Use the manifest setting
      manifest_file = Puppet[:manifest]
    else
      # An "undef" code_string is the only way to override Puppet[:manifest] & Puppet[:code] settings since an
      # empty string is taken as Puppet[:code] not being set.
      #
      if manifest_file.nil? && code_string.nil?
        code_string = 'undef'
      end
    end

    # We need to make sure to set these back when we're done
    previous_tasks_value = Puppet[:tasks]
    previous_code_value = Puppet[:code]

    Puppet[:tasks] = false
    # After the assertions, if code_string is non nil - it has the highest precedence
    Puppet[:code] = code_string unless code_string.nil?

    # If manifest_file is nil, the #main method will use the env configured manifest
    # to do things in the block while a Script Compiler is in effect
    main(
      manifest:                manifest_file,
      facts:                   facts,
      variables:               variables,
      target_variables:        target_variables,
      internal_compiler_class: :catalog,
      set_local_facts:         false,
      &block
    )
  ensure
    # Clean up after ourselves
    Puppet[:tasks] = previous_tasks_value
    Puppet[:code] = previous_code_value
  end

  # Defines the context in which to perform puppet operations (evaluation, etc)
  # The code to evaluate in this context is given in a block.
  #
  # @param env_name [String] a name to use for the temporary environment - this only shows up in errors
  # @param modulepath [Array<String>] an array of directory paths containing Puppet modules, may be empty, defaults to empty array
  # @param settings_hash [Hash] a hash of settings - currently not used for anything, defaults to empty hash
  # @param facts [Hash] optional map of fact name to fact value - if not given will initialize the facts (which is a slow operation)
  # @param variables [Hash] optional map of fully qualified variable name to value
  # @return [Object] returns what the given block returns
  # @yieldparam [Puppet::Pal] context, a context that responds to Puppet::Pal methods
  #
  def self.in_tmp_environment(env_name,
      modulepath:    [],
      settings_hash: {},
      facts:         nil,
      variables:     {},
      &block
    )
    assert_non_empty_string(env_name, _("temporary environment name"))
    # TRANSLATORS: do not translate variable name string in these assertions
    assert_optionally_empty_array(modulepath, 'modulepath')

    unless block_given?
      raise ArgumentError, _("A block must be given to 'in_tmp_environment'") # TRANSLATORS 'in_tmp_environment' is a name, do not translate
    end

    env = Puppet::Node::Environment.create(env_name, modulepath)

    in_environment_context(
      Puppet::Environments::Static.new(env), # The tmp env is the only known env
      env, facts, variables, &block
      )
  end

  # Defines the context in which to perform puppet operations (evaluation, etc)
  # The code to evaluate in this context is given in a block.
  #
  # The name of an environment (env_name) is always given. The location of that environment on disk
  # is then either constructed by:
  # * searching a given envpath where name is a child of a directory on that path, or
  # * it is the directory given in env_dir (which must exist).
  #
  # The env_dir and envpath options are mutually exclusive.
  #
  # @param env_name [String] the name of an existing environment
  # @param modulepath [Array<String>] an array of directory paths containing Puppet modules, overrides the modulepath of an existing env.
  #   Defaults to `{env_dir}/modules` if `env_dir` is given,
  # @param pre_modulepath [Array<String>] like modulepath, but is prepended to the modulepath
  # @param post_modulepath [Array<String>] like modulepath, but is appended to the modulepath
  # @param settings_hash [Hash] a hash of settings - currently not used for anything, defaults to empty hash
  # @param env_dir [String] a reference to a directory being the named environment (mutually exclusive with `envpath`)
  # @param envpath [String] a path of directories in which there are environments to search for `env_name` (mutually exclusive with `env_dir`).
  #   Should be a single directory, or several directories separated with platform specific `File::PATH_SEPARATOR` character.
  # @param facts [Hash] optional map of fact name to fact value - if not given will initialize the facts (which is a slow operation)
  # @param variables [Hash] optional map of fully qualified variable name to value
  # @return [Object] returns what the given block returns
  # @yieldparam [Puppet::Pal] context, a context that responds to Puppet::Pal methods
  #
  # @api public
  def self.in_environment(env_name,
      modulepath:    nil,
      pre_modulepath: [],
      post_modulepath: [],
      settings_hash: {},
      env_dir:       nil,
      envpath:       nil,
      facts:         nil,
      variables:     {},
      &block
    )
    # TRANSLATORS terms in the assertions below are names of terms in code
    assert_non_empty_string(env_name, 'env_name')
    assert_optionally_empty_array(modulepath, 'modulepath', true)
    assert_optionally_empty_array(pre_modulepath, 'pre_modulepath', false)
    assert_optionally_empty_array(post_modulepath, 'post_modulepath', false)
    assert_mutually_exclusive(env_dir, envpath, 'env_dir', 'envpath')

    unless block_given?
      raise ArgumentError, _("A block must be given to 'in_environment'") # TRANSLATORS 'in_environment' is a name, do not translate
    end

    if env_dir
      unless Puppet::FileSystem.exist?(env_dir)
        raise ArgumentError, _("The environment directory '%{env_dir}' does not exist") % { env_dir: env_dir }
      end

      # a nil modulepath for env_dir means it should use its ./modules directory
      mid_modulepath = modulepath.nil? ? [Puppet::FileSystem.expand_path(File.join(env_dir, 'modules'))] : modulepath

      env = Puppet::Node::Environment.create(env_name, pre_modulepath + mid_modulepath + post_modulepath)
      environments = Puppet::Environments::StaticDirectory.new(env_name, env_dir, env) # The env being used is the only one...
    else
      assert_non_empty_string(envpath, 'envpath')

      # The environment is resolved against the envpath. This is setup without a basemodulepath
      # The modulepath defaults to the 'modulepath' in the found env when "Directories" is used
      #
      if envpath.is_a?(String) && envpath.include?(File::PATH_SEPARATOR)
        # potentially more than one directory to search
        env_loaders = Puppet::Environments::Directories.from_path(envpath, [])
        environments = Puppet::Environments::Combined.new(*env_loaders)
      else
        environments = Puppet::Environments::Directories.new(envpath, [])
      end
      env = environments.get(env_name)
      if env.nil?
        raise ArgumentError, _("No directory found for the environment '%{env_name}' on the path '%{envpath}'") % { env_name: env_name, envpath: envpath }
      end
      # A given modulepath should override the default
      mid_modulepath = modulepath.nil? ? env.modulepath : modulepath
      env_path = env.configuration.path_to_env
      env = env.override_with(:modulepath => pre_modulepath + mid_modulepath + post_modulepath)
      # must configure this in case logic looks up the env by name again (otherwise the looked up env does
      # not have the same effective modulepath).
      environments = Puppet::Environments::StaticDirectory.new(env_name, env_path, env) # The env being used is the only one...
    end
    in_environment_context(environments, env, facts, variables, &block)
  end

  # Prepares the puppet context with pal information - and delegates to the block
  # No set up is performed at this step - it is delayed until it is known what the
  # operation is going to be (for example - using a ScriptCompiler).
  #
  def self.in_environment_context(environments, env, facts, variables, &block)
    # Create a default node to use (may be overridden later)
    node = Puppet::Node.new(Puppet[:node_name_value], :environment => env)

    Puppet.override(
      environments: environments,     # The env being used is the only one...
      pal_env: env,                   # provide as convenience
      pal_current_node: node,         # to allow it to be picked up instead of created
      pal_variables: variables,       # common set of variables across several inner contexts
      pal_facts: facts                # common set of facts across several inner contexts (or nil)
    ) do
      # DELAY: prepare_node_facts(node, facts)
      return block.call(self)
    end
  end
  private_class_method :in_environment_context

  # Prepares the node for use by giving it node_facts (if given)
  # If a hash of facts values is given, then the operation of creating a node with facts is much
  # speeded up (as getting a fresh set of facts is avoided in a later step).
  #
  def self.prepare_node_facts(node, facts)
    # Prepare the node with facts if it does not already have them
    if node.facts.nil?
      node_facts = facts.nil? ? nil : Puppet::Node::Facts.new(Puppet[:node_name_value], facts)
      node.fact_merge(node_facts)
      # Add server facts so $server_facts[environment] exists when doing a puppet script
      # SCRIPT TODO: May be needed when running scripts under orchestrator. Leave it for now.
      #
      node.add_server_facts({})
    end
  end
  private_class_method :prepare_node_facts

  def self.add_variables(scope, variables)
    return if variables.nil?
    unless variables.is_a?(Hash)
      raise ArgumentError, _("Given variables must be a hash, got %{type}") % { type: variables.class }
    end

    rich_data_t = Puppet::Pops::Types::TypeFactory.rich_data
    variables.each_pair do |k,v|
      unless k =~ Puppet::Pops::Patterns::VAR_NAME
        raise ArgumentError, _("Given variable '%{varname}' has illegal name") % { varname: k }
      end

      unless rich_data_t.instance?(v)
        raise ArgumentError, _("Given value for '%{varname}' has illegal type - got: %{type}") % { varname: k, type: v.class }
      end

      scope.setvar(k, v)
    end
  end
  private_class_method :add_variables

  # The main routine for script compiler
  # Picks up information from the puppet context and configures a script compiler which is given to
  # the provided block
  #
  def self.main(
    manifest:                nil,
    facts:                   {},
    variables:               {},
    target_variables:        {},
    internal_compiler_class: nil,
    set_local_facts:         true
  )
    # Configure the load path
    env = Puppet.lookup(:pal_env)
    env.each_plugin_directory do |dir|
      $LOAD_PATH << dir unless $LOAD_PATH.include?(dir)
    end

    # Puppet requires Facter, which initializes its lookup paths. Reset Facter to
    # pickup the new $LOAD_PATH.
    Puppet.runtime[:facter].reset

    node = Puppet.lookup(:pal_current_node)
    pal_facts = Puppet.lookup(:pal_facts)
    pal_variables = Puppet.lookup(:pal_variables)

    overrides = {}

    unless facts.nil? || facts.empty?
      pal_facts = pal_facts.merge(facts)
      overrides[:pal_facts] = pal_facts
    end

    prepare_node_facts(node, pal_facts)

    configured_environment = node.environment || Puppet.lookup(:current_environment)

    apply_environment = manifest ?
      configured_environment.override_with(:manifest => manifest) :
      configured_environment

    # Modify the node descriptor to use the special apply_environment.
    # It is based on the actual environment from the node, or the locally
    # configured environment if the node does not specify one.
    # If a manifest file is passed on the command line, it overrides
    # the :manifest setting of the apply_environment.
    node.environment = apply_environment

    # TRANSLATORS, the string "For puppet PAL" is not user facing
    Puppet.override({:current_environment => apply_environment}, "For puppet PAL") do
      begin
        node.sanitize()
        compiler = create_internal_compiler(internal_compiler_class, node)

        case internal_compiler_class
        when :script
          pal_compiler = ScriptCompiler.new(compiler)
          overrides[:pal_script_compiler] = overrides[:pal_compiler] = pal_compiler
        when :catalog
          pal_compiler = CatalogCompiler.new(compiler)
          overrides[:pal_catalog_compiler] = overrides[:pal_compiler] = pal_compiler
        end

        # When scripting the trusted data are always local; default is to set them anyway
        # When compiling for a catalog, the catalog compiler does this
        if set_local_facts
          compiler.topscope.set_trusted(node.trusted_data)

          # Server facts are always about the local node's version etc.
          compiler.topscope.set_server_facts(node.server_facts)

          # Set $facts for the node running the script
          facts_hash = node.facts.nil? ? {} : node.facts.values
          compiler.topscope.set_facts(facts_hash)

          # create the $settings:: variables
          compiler.topscope.merge_settings(node.environment.name, false)
        end

        # Make compiler available to Puppet#lookup and injection in functions
        # TODO: The compiler instances should be available under non PAL use as well!
        # TRANSLATORS: Do not translate, symbolic name
        Puppet.override(overrides, "PAL::with_#{internal_compiler_class}_compiler") do
          compiler.compile do | compiler_yield |
            # In case the variables passed to the compiler are PCore types defined in modules, they
            # need to be deserialized and added from within the this scope, so that loaders are
            # available during deserizlization.
            pal_variables = Puppet::Pops::Serialization::FromDataConverter.convert(pal_variables)
            variables     = Puppet::Pops::Serialization::FromDataConverter.convert(variables)

            # Merge together target variables and plan variables. This will also shadow any
            # collisions with facts and emit a warning.
            topscope_vars = pal_variables.merge(merge_vars(target_variables, variables, node.facts.values))

            add_variables(compiler.topscope, topscope_vars)
            # wrap the internal compiler to prevent it from leaking in the PAL API
            if block_given?
              yield(pal_compiler)
            end
          end
        end

      rescue Puppet::Error
        # already logged and handled by the compiler, including Puppet::ParseErrorWithIssue
        raise

      rescue => detail
        Puppet.log_exception(detail)
        raise
      end
    end
  end
  private_class_method :main

  # Warn and remove variables that will be shadowed by facts of the same
  # name, which are set in scope earlier.
  def self.merge_vars(target_vars, vars, facts)
    # First, shadow plan and target variables by facts of the same name
    vars        = shadow_vars(facts || {}, vars, 'fact', 'plan variable')
    target_vars = shadow_vars(facts || {}, target_vars, 'fact', 'target variable')
    # Then, shadow target variables by plan variables of the same name
    target_vars = shadow_vars(vars, target_vars, 'plan variable', 'target variable')

    target_vars.merge(vars)
  end
  private_class_method :merge_vars

  def self.shadow_vars(vars, other_vars, vars_type, other_vars_type)
    collisions, valid = other_vars.partition do |k, _|
      vars.include?(k)
    end

    if collisions.any?
      names = collisions.map { |k, _| "$#{k}" }.join(', ')
      plural = collisions.length == 1 ? '' : 's'

      Puppet.warning(
        "#{other_vars_type.capitalize}#{plural} #{names} will be overridden by "\
        "#{vars_type}#{plural} of the same name in the apply block"
      )
    end

    valid.to_h
  end
  private_class_method :shadow_vars

  def self.create_internal_compiler(compiler_class_reference, node)
    case compiler_class_reference
    when :script
      Puppet::Parser::ScriptCompiler.new(node.environment, node.name)
    when :catalog
      Puppet::Parser::CatalogCompiler.new(node)
    else
      raise ArgumentError, "Internal Error: Invalid compiler type requested."
    end
  end

  T_STRING = Puppet::Pops::Types::PStringType::NON_EMPTY
  T_STRING_ARRAY = Puppet::Pops::Types::TypeFactory.array_of(T_STRING)
  T_ANY_ARRAY = Puppet::Pops::Types::TypeFactory.array_of_any
  T_BOOLEAN = Puppet::Pops::Types::PBooleanType::DEFAULT

  T_GENERIC_TASK_HASH = Puppet::Pops::Types::TypeFactory.hash_kv(
    Puppet::Pops::Types::TypeFactory.pattern(/\A[a-z][a-z0-9_]*\z/), Puppet::Pops::Types::TypeFactory.data)

  def self.assert_type(type, value, what, allow_nil=false)
    Puppet::Pops::Types::TypeAsserter.assert_instance_of(nil, type, value, allow_nil) { _('Puppet Pal: %{what}') % {what: what} }
  end

  def self.assert_non_empty_string(s, what, allow_nil=false)
    assert_type(T_STRING, s, what, allow_nil)
  end

  def self.assert_optionally_empty_array(a, what, allow_nil=false)
    assert_type(T_STRING_ARRAY, a, what, allow_nil)
  end
  private_class_method :assert_optionally_empty_array

  def self.assert_mutually_exclusive(a, b, a_term, b_term)
    if a && b
      raise ArgumentError, _("Cannot use '%{a_term}' and '%{b_term}' at the same time") % { a_term: a_term, b_term: b_term }
    end
  end
  private_class_method :assert_mutually_exclusive

  def self.assert_block_given(block)
    if block.nil?
      raise ArgumentError, _("A block must be given")
    end
  end
  private_class_method :assert_block_given
end
end