Module Pulselib__PulseOperations
module Import : sig ... end
For
open
ing in other modules.
include module type of Import
type access_mode
=
Imported types for ease of use and so we can write variants without the corresponding module prefix
type 'abductive_domain_t execution_domain_base_t
= 'abductive_domain_t Pulselib.PulseDomainInterface.ExecutionDomain.base_t
=
|
ContinueProgram of 'abductive_domain_t
|
ExitProgram of Pulselib.PulseDomainInterface.AbductiveDomain.summary
|
AbortProgram of Pulselib.PulseDomainInterface.AbductiveDomain.summary
|
LatentAbortProgram of
{
astate : Pulselib.PulseDomainInterface.AbductiveDomain.summary;
latent_issue : Pulselib.PulseDomainInterface.LatentIssue.t;
}
|
LatentInvalidAccess of
{
astate : Pulselib.PulseDomainInterface.AbductiveDomain.summary;
address : Pulselib.PulseBasicInterface.AbstractValue.t;
must_be_valid : Pulselib.PulseBasicInterface.Trace.t;
calling_context : (Pulselib.PulseBasicInterface.CallEvent.t * IBase.Location.t) list;
}
|
ISLLatentMemoryError of Pulselib.PulseDomainInterface.AbductiveDomain.summary
type 'astate base_error
= 'astate Pulselib.PulseDomainInterface.AccessResult.error
=
|
PotentialInvalidAccess of
{
astate : 'astate;
address : Pulselib.PulseBasicInterface.AbstractValue.t;
must_be_valid : Pulselib.PulseBasicInterface.Trace.t;
}
|
PotentialInvalidAccessSummary of
{
astate : Pulselib.PulseDomainInterface.AbductiveDomain.summary;
address : Pulselib.PulseBasicInterface.AbstractValue.t;
must_be_valid : Pulselib.PulseBasicInterface.Trace.t;
}
|
ReportableError of
{
astate : 'astate;
diagnostic : Pulselib.PulseBasicInterface.Diagnostic.t;
}
|
ISLError of 'astate
Monadic syntax
include module type of IStdlib.IResult.Let_syntax
include module type of IStdlib.IStd.Result.Monad_infix
val let+ : ('ok, 'err) IStdlib.IStd.result -> ('ok -> 'okk) -> ('okk, 'err) IStdlib.IStd.result
val let* : ('ok, 'err) IStdlib.IStd.result -> ('ok -> ('okk, 'err) IStdlib.IStd.result) -> ('okk, 'err) IStdlib.IStd.result
val let<*> : 'a Pulselib.PulseDomainInterface.AccessResult.t -> ('a -> 'b Pulselib.PulseDomainInterface.AccessResult.t list) -> 'b Pulselib.PulseDomainInterface.AccessResult.t list
monadic "bind" but not really that turns an
AccessResult.t
into a list ofAccessResult.t
s (not really because the first type is not anAccessResult.t list
but just anAccessResult.t
)
val let<+> : 'a Pulselib.PulseDomainInterface.AccessResult.t -> ('a -> 'abductive_domain_t) -> 'abductive_domain_t execution_domain_base_t Pulselib.PulseDomainInterface.AccessResult.t list
monadic "map" but even less really that turns an
AccessResult.t
into an analysis result
val check_addr_access : access_mode -> IBase.Location.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
Check that the
address
is not known to be invalid
module Closures : sig ... end
val eval : access_mode -> IBase.Location.t -> IR.Exp.t -> t -> (t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) Pulselib.PulseDomainInterface.AccessResult.t
Use the stack and heap to evaluate the given expression down to an abstract address representing its value.
Return an error state if it traverses some known invalid address or if the end destination is known to be invalid.
val eval_structure_isl : access_mode -> IBase.Location.t -> IR.Exp.t -> t -> (bool * (t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) Pulselib.PulseDomainInterface.AccessResult.t list) Pulselib.PulseDomainInterface.AccessResult.t
Similar to eval but apply to data structures and ISL abduction. Return a list of abduced states (ISLOk and ISLErs); The boolean indicates whether it is data structures or not.
val prune : IBase.Location.t -> condition:IR.Exp.t -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
val eval_deref : IBase.Location.t -> IR.Exp.t -> t -> (t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) Pulselib.PulseDomainInterface.AccessResult.t
Like
eval
but evaluates*exp
.
val eval_deref_isl : IBase.Location.t -> IR.Exp.t -> t -> (t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) Pulselib.PulseDomainInterface.AccessResult.t list
val eval_access : access_mode -> IBase.Location.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> Pulselib.PulseDomainInterface.BaseMemory.Access.t -> t -> (t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) Pulselib.PulseDomainInterface.AccessResult.t
Like
eval
but starts from an address instead of an expression, checks that it is valid, and if so dereferences it according to the access.
val havoc_id : IR.Ident.t -> Pulselib.PulseBasicInterface.ValueHistory.t -> t -> t
val havoc_field : IBase.Location.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> IR.Fieldname.t -> Pulselib.PulseBasicInterface.ValueHistory.t -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
val realloc_pvar : IR.Tenv.t -> IR.Pvar.t -> IR.Typ.t -> IBase.Location.t -> t -> t
val write_id : IR.Ident.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t
val write_field : IBase.Location.t -> ref:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> IR.Fieldname.t -> obj:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
write the edge
ref --.field--> obj
val write_arr_index : IBase.Location.t -> ref:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> index:Pulselib.PulseBasicInterface.AbstractValue.t -> obj:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
write the edge
ref[index]--> obj
val write_deref : IBase.Location.t -> ref:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> obj:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
write the edge
ref --*--> obj
val write_deref_biad_isl : IBase.Location.t -> ref:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> Pulselib.PulseBasicInterface.AbstractValue.t Absint.HilExp.Access.t -> obj:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t list
val invalidate : IBase.Location.t -> Pulselib.PulseBasicInterface.Invalidation.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
record that the address is invalid
val invalidate_biad_isl : IBase.Location.t -> Pulselib.PulseBasicInterface.Invalidation.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t list
record that the address is invalid. If the address has not been allocated, abduce ISL specs for both invalid (null, free, unint) and allocated heap.
val allocate : IR.Procname.t -> IBase.Location.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t
val add_dynamic_type : IR.Typ.t -> Pulselib.PulseBasicInterface.AbstractValue.t -> t -> t
val remove_allocation_attr : Pulselib.PulseBasicInterface.AbstractValue.t -> t -> t
val invalidate_access : IBase.Location.t -> Pulselib.PulseBasicInterface.Invalidation.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> Pulselib.PulseDomainInterface.BaseMemory.Access.t -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
record that what the address points via the access to is invalid
val invalidate_array_elements : IBase.Location.t -> Pulselib.PulseBasicInterface.Invalidation.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
record that all the array elements that address points to is invalid
val shallow_copy : IBase.Location.t -> (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> (t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) Pulselib.PulseDomainInterface.AccessResult.t
returns the address of a new cell with the same edges as the original
val get_dynamic_type_unreachable_values : IR.Var.t list -> t -> (IR.Var.t * IR.Typ.t) list
Given a list of variables, computes the unreachable values if the variables were removed from the stack, then return the dynamic types of those values if they are available
val remove_vars : IR.Tenv.t -> IR.Var.t list -> IBase.Location.t -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
val check_address_escape : IBase.Location.t -> IR.Procdesc.t -> Pulselib.PulseBasicInterface.AbstractValue.t -> Pulselib.PulseBasicInterface.ValueHistory.t -> t -> t Pulselib.PulseDomainInterface.AccessResult.t
val get_captured_actuals : IBase.Location.t -> captured_vars:(IR.Var.t * IR.Pvar.capture_mode) list -> actual_closure:(Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t) -> t -> (t * (IR.Var.t * (Pulselib.PulseBasicInterface.AbstractValue.t * Pulselib.PulseBasicInterface.ValueHistory.t)) list) Pulselib.PulseDomainInterface.AccessResult.t