89 lines
2.8 KiB
Ruby
89 lines
2.8 KiB
Ruby
# frozen_string_literal: true
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module DeclarativePolicy
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# This object represents one step in the runtime decision of whether
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# an ability is allowed. It contains a Rule and a context (instance
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# of DeclarativePolicy::Base), which contains the user, the subject,
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# and the cache. It also contains an "action", which is the symbol
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# :prevent or :enable.
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class Step
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attr_reader :context, :rule, :action
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def initialize(context, rule, action)
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@context = context
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@rule = rule
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@action = action
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end
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# In the flattening process, duplicate steps may be generated in the
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# same rule. This allows us to eliminate those (see Runner#steps_by_score
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# and note its use of a Set)
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def ==(other)
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@context == other.context && @rule == other.rule && @action == other.action
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end
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# In the runner, steps are sorted dynamically by score, so that
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# we are sure to compute them in close to the optimal order.
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#
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# See also Rule#score, ManifestCondition#score, and Runner#steps_by_score.
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def score
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# we slightly prefer the preventative actions
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# since they are more likely to short-circuit
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case @action
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when :prevent
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@rule.score(@context) * (7.0 / 8)
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when :enable
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@rule.score(@context)
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end
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end
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def with_action(action)
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Step.new(@context, @rule, action)
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end
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def enable?
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@action == :enable
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end
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def prevent?
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@action == :prevent
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end
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# This rather complex method allows us to split rules into parts so that
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# they can be sorted independently for better optimization
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def flattened(roots)
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case @rule
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when Rule::Or
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# A single `Or` step is the same as each of its elements as separate steps
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@rule.rules.flat_map { |r| Step.new(@context, r, @action).flattened(roots) }
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when Rule::Ability
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# This looks like a weird micro-optimization but it buys us quite a lot
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# in some cases. If we depend on an Ability (i.e. a `can?(...)` rule),
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# and that ability *only* has :enable actions (modulo some actions that
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# we already have taken care of), then its rules can be safely inlined.
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steps = @context.runner(@rule.ability).steps.reject { |s| roots.include?(s) }
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if steps.all?(&:enable?)
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# in the case that we are a :prevent step, each inlined step becomes
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# an independent :prevent, even though it was an :enable in its initial
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# context.
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steps.map! { |s| s.with_action(:prevent) } if prevent?
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steps.flat_map { |s| s.flattened(roots) }
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else
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[self]
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end
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else
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[self]
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end
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end
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def pass?
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@rule.pass?(@context)
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end
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def repr
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"#{@action} when #{@rule.repr} (#{@context.repr})"
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end
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end
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end
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