Struct libafl::stages::tmin::StdTMinMutationalStage
source · pub struct StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> { /* private fields */ }
Expand description
The default corpus entry minimising mutational stage
Implementations§
source§impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler,
M: Mutator<I, CS::State>,
Z: ExecutionProcessor<OT, State = CS::State>,
CS::State: HasCorpus,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler,
M: Mutator<I, CS::State>,
Z: ExecutionProcessor<OT, State = CS::State>,
CS::State: HasCorpus,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
Trait Implementations§
source§impl<CS: Clone, E: Clone, EM: Clone, F1: Clone, F2: Clone, FF: Clone, I: Clone, IP: Clone, M: Clone, OT: Clone, Z: Clone> Clone for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS: Clone, E: Clone, EM: Clone, F1: Clone, F2: Clone, FF: Clone, I: Clone, IP: Clone, M: Clone, OT: Clone, Z: Clone> Clone for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
source§fn clone(
&self
) -> StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
fn clone( &self ) -> StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
Returns a copy of the value. Read more
1.0.0 · source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
Performs copy-assignment from
source
. Read moresource§impl<CS: Debug, E: Debug, EM: Debug, F1: Debug, F2: Debug, FF: Debug, I: Debug, IP: Debug, M: Debug, OT: Debug, Z: Debug> Debug for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS: Debug, E: Debug, EM: Debug, F1: Debug, F2: Debug, FF: Debug, I: Debug, IP: Debug, M: Debug, OT: Debug, Z: Debug> Debug for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
source§impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> FeedbackFactory<F2, <Z as UsesState>::State, OT> for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> FeedbackFactory<F2, <Z as UsesState>::State, OT> for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
source§fn create_feedback(&self, ctx: &OT) -> F2
fn create_feedback(&self, ctx: &OT) -> F2
Create the feedback from the provided context
source§impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> Stage<E, EM, Z> for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler + RemovableScheduler,
CS::State: HasCorpus + HasSolutions + HasExecutions + HasMaxSize + HasMetadata,
<CS::State as UsesInput>::Input: HasLen + Hash,
E: Executor<EM, Z> + HasObservers<Observers = OT, State = CS::State>,
EM: EventFirer<State = CS::State>,
F1: Feedback<CS::State>,
F2: Feedback<CS::State>,
FF: FeedbackFactory<F2, CS::State, OT>,
M: Mutator<I, CS::State>,
OT: ObserversTuple<CS::State>,
Z: ExecutionProcessor<OT, State = CS::State> + ExecutesInput<E, EM> + HasFeedback<Feedback = F1> + HasScheduler<Scheduler = CS>,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> Stage<E, EM, Z> for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler + RemovableScheduler,
CS::State: HasCorpus + HasSolutions + HasExecutions + HasMaxSize + HasMetadata,
<CS::State as UsesInput>::Input: HasLen + Hash,
E: Executor<EM, Z> + HasObservers<Observers = OT, State = CS::State>,
EM: EventFirer<State = CS::State>,
F1: Feedback<CS::State>,
F2: Feedback<CS::State>,
FF: FeedbackFactory<F2, CS::State, OT>,
M: Mutator<I, CS::State>,
OT: ObserversTuple<CS::State>,
Z: ExecutionProcessor<OT, State = CS::State> + ExecutesInput<E, EM> + HasFeedback<Feedback = F1> + HasScheduler<Scheduler = CS>,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
source§fn perform(
&mut self,
fuzzer: &mut Z,
executor: &mut E,
state: &mut CS::State,
manager: &mut EM
) -> Result<(), Error>
fn perform( &mut self, fuzzer: &mut Z, executor: &mut E, state: &mut CS::State, manager: &mut EM ) -> Result<(), Error>
Run the stage. Read more
source§fn restart_progress_should_run(
&mut self,
state: &mut Self::State
) -> Result<bool, Error>
fn restart_progress_should_run( &mut self, state: &mut Self::State ) -> Result<bool, Error>
This method will be called before every call to
Stage::perform
.
Initialize the restart tracking for this stage, if it is not yet initialized.
On restart, this will be called again.
As long as Stage::clear_restart_progress
, all subsequent calls happen on restart.
Returns true
, if the stage’s Stage::perform
method should run, else false
.source§fn clear_restart_progress(
&mut self,
state: &mut Self::State
) -> Result<(), Error>
fn clear_restart_progress( &mut self, state: &mut Self::State ) -> Result<(), Error>
Clear the current status tracking of the associated stage
source§fn perform_restartable(
&mut self,
fuzzer: &mut Z,
executor: &mut E,
state: &mut Self::State,
manager: &mut EM
) -> Result<(), Error>
fn perform_restartable( &mut self, fuzzer: &mut Z, executor: &mut E, state: &mut Self::State, manager: &mut EM ) -> Result<(), Error>
Run the stage, calling
Stage::restart_progress_should_run
and Stage::clear_restart_progress
appropriatelysource§impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> TMinMutationalStage<CS, E, EM, F1, F2, I, IP, M, OT, Z> for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler + RemovableScheduler,
E: HasObservers<Observers = OT, State = CS::State> + Executor<EM, Z>,
EM: EventFirer<State = CS::State>,
F1: Feedback<CS::State>,
F2: Feedback<CS::State>,
FF: FeedbackFactory<F2, CS::State, OT>,
<CS::State as UsesInput>::Input: HasLen + Hash,
M: Mutator<I, CS::State>,
OT: ObserversTuple<CS::State>,
CS::State: HasCorpus + HasSolutions + HasExecutions + HasMaxSize + HasMetadata,
Z: ExecutionProcessor<OT, State = CS::State> + ExecutesInput<E, EM> + HasFeedback<Feedback = F1> + HasScheduler<Scheduler = CS>,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> TMinMutationalStage<CS, E, EM, F1, F2, I, IP, M, OT, Z> for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler + RemovableScheduler,
E: HasObservers<Observers = OT, State = CS::State> + Executor<EM, Z>,
EM: EventFirer<State = CS::State>,
F1: Feedback<CS::State>,
F2: Feedback<CS::State>,
FF: FeedbackFactory<F2, CS::State, OT>,
<CS::State as UsesInput>::Input: HasLen + Hash,
M: Mutator<I, CS::State>,
OT: ObserversTuple<CS::State>,
CS::State: HasCorpus + HasSolutions + HasExecutions + HasMaxSize + HasMetadata,
Z: ExecutionProcessor<OT, State = CS::State> + ExecutesInput<E, EM> + HasFeedback<Feedback = F1> + HasScheduler<Scheduler = CS>,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
source§fn mutator_mut(&mut self) -> &mut M
fn mutator_mut(&mut self) -> &mut M
The list of mutators, added to this stage (as mutable ref)
source§fn iterations(&self, _state: &mut CS::State) -> Result<usize, Error>
fn iterations(&self, _state: &mut CS::State) -> Result<usize, Error>
Gets the number of iterations from a fixed number of runs
source§impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> UsesState for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler,
M: Mutator<I, CS::State>,
Z: ExecutionProcessor<OT, State = CS::State>,
CS::State: HasCorpus,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> UsesState for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
CS: Scheduler,
M: Mutator<I, CS::State>,
Z: ExecutionProcessor<OT, State = CS::State>,
CS::State: HasCorpus,
IP: MutatedTransformPost<CS::State> + Clone,
I: MutatedTransform<CS::Input, CS::State, Post = IP> + Clone,
Auto Trait Implementations§
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> Freeze for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> RefUnwindSafe for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
M: RefUnwindSafe,
FF: RefUnwindSafe,
CS: RefUnwindSafe,
E: RefUnwindSafe,
EM: RefUnwindSafe,
F1: RefUnwindSafe,
F2: RefUnwindSafe,
I: RefUnwindSafe,
IP: RefUnwindSafe,
OT: RefUnwindSafe,
Z: RefUnwindSafe,
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> Send for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> Sync for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> Unpin for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>
impl<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z> UnwindSafe for StdTMinMutationalStage<CS, E, EM, F1, F2, FF, I, IP, M, OT, Z>where
M: UnwindSafe,
FF: UnwindSafe,
CS: UnwindSafe,
E: UnwindSafe,
EM: UnwindSafe,
F1: UnwindSafe,
F2: UnwindSafe,
I: UnwindSafe,
IP: UnwindSafe,
OT: UnwindSafe,
Z: UnwindSafe,
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