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1078 lines
34 KiB
1078 lines
34 KiB
# pylint: disable=too-many-lines
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import os
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import pathlib
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from argparse import ArgumentTypeError
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from collections import defaultdict
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from contextlib import contextmanager
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from inspect import getsourcefile
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from tempfile import NamedTemporaryFile
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from typing import Union, List, Optional
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import pytest
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from solc_select import solc_select
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from solc_select.solc_select import valid_version as solc_valid_version
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from slither import Slither
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from slither.core.cfg.node import Node, NodeType
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from slither.core.declarations import Function, Contract
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from slither.core.variables.state_variable import StateVariable
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from slither.slithir.operations import (
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OperationWithLValue,
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Phi,
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Assignment,
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HighLevelCall,
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Return,
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Operation,
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Binary,
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BinaryType,
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InternalCall,
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Index,
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InitArray,
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)
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from slither.slithir.utils.ssa import is_used_later
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from slither.slithir.variables import (
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Constant,
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ReferenceVariable,
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LocalIRVariable,
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StateIRVariable,
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)
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# Directory of currently executing script. Will be used as basis for temporary file names.
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SCRIPT_DIR = pathlib.Path(getsourcefile(lambda: 0)).parent
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def valid_version(ver: str) -> bool:
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"""Wrapper function to check if the solc-version is valid
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The solc_select function raises and exception but for checks below,
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only a bool is needed.
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"""
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try:
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solc_valid_version(ver)
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return True
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except ArgumentTypeError:
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return False
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def have_ssa_if_ir(function: Function):
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"""Verifies that all nodes in a function that have IR also have SSA IR"""
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for n in function.nodes:
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if n.irs:
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assert n.irs_ssa
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# pylint: disable=too-many-branches
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def ssa_basic_properties(function: Function):
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"""Verifies that basic properties of ssa holds
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1. Every name is defined only once
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2. A l-value is never index zero - there is always a zero-value available for each var
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3. Every r-value is at least defined at some point
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4. The number of ssa defs is >= the number of assignments to var
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5. Function parameters SSA are stored in function.parameters_ssa
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- if function parameter is_storage it refers to a fake variable
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6. Function returns SSA are stored in function.returns_ssa
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- if function return is_storage it refers to a fake variable
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"""
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ssa_lvalues = set()
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ssa_rvalues = set()
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lvalue_assignments = {}
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for n in function.nodes:
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for ir in n.irs:
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if isinstance(ir, OperationWithLValue):
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name = ir.lvalue.name
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if name in lvalue_assignments:
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lvalue_assignments[name] += 1
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else:
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lvalue_assignments[name] = 1
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for ssa in n.irs_ssa:
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if isinstance(ssa, OperationWithLValue):
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# 1
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assert ssa.lvalue not in ssa_lvalues
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ssa_lvalues.add(ssa.lvalue)
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# 2 (if Local/State Var)
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if isinstance(ssa.lvalue, (StateIRVariable, LocalIRVariable)):
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assert ssa.lvalue.index > 0
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for rvalue in filter(
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lambda x: not isinstance(x, (StateIRVariable, Constant)), ssa.read
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):
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ssa_rvalues.add(rvalue)
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# 3
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# Each var can have one non-defined value, the value initially held. Typically,
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# var_0, i_0, state_0 or similar.
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undef_vars = set()
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for rvalue in ssa_rvalues:
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if rvalue not in ssa_lvalues:
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assert rvalue.non_ssa_version not in undef_vars
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undef_vars.add(rvalue.non_ssa_version)
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# 4
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ssa_defs = defaultdict(int)
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for v in ssa_lvalues:
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ssa_defs[v.name] += 1
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for (k, n) in lvalue_assignments.items():
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assert ssa_defs[k] >= n
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# Helper 5/6
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def check_property_5_and_6(variables, ssavars):
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for var in filter(lambda x: x.name, variables):
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ssa_vars = [x for x in ssavars if x.non_ssa_version == var]
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assert len(ssa_vars) == 1
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ssa_var = ssa_vars[0]
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assert var.is_storage == ssa_var.is_storage
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if ssa_var.is_storage:
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assert len(ssa_var.refers_to) == 1
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assert ssa_var.refers_to[0].location == "reference_to_storage"
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# 5
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check_property_5_and_6(function.parameters, function.parameters_ssa)
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# 6
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check_property_5_and_6(function.returns, function.returns_ssa)
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def ssa_phi_node_properties(f: Function):
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"""Every phi-function should have as many args as predecessors
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This does not apply if the phi-node refers to state variables,
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they make use os special phi-nodes for tracking potential values
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a state variable can have
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"""
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for node in f.nodes:
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for ssa in node.irs_ssa:
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if isinstance(ssa, Phi):
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n = len(ssa.read)
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if not isinstance(ssa.lvalue, StateIRVariable):
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assert len(node.fathers) == n
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# TODO (hbrodin): This should probably go into another file, not specific to SSA
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def dominance_properties(f: Function):
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"""Verifies properties related to dominators holds
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1. Every node have an immediate dominator except entry_node which have none
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2. From every node immediate dominator there is a path via its successors to the node
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"""
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def find_path(from_node: Node, to: Node) -> bool:
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visited = set()
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worklist = list(from_node.sons)
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while worklist:
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first, *worklist = worklist
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if first == to:
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return True
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visited.add(first)
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for successor in first.sons:
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if successor not in visited:
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worklist.append(successor)
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return False
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for node in f.nodes:
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if node is f.entry_point:
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assert node.immediate_dominator is None
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else:
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assert node.immediate_dominator is not None
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assert find_path(node.immediate_dominator, node)
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def phi_values_inserted(f: Function):
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"""Verifies that phi-values are inserted at the right places
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For every node that has a dominance frontier, any def (including
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phi) should be a phi function in its dominance frontier
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"""
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def have_phi_for_var(node: Node, var):
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"""Checks if a node has a phi-instruction for var
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The ssa version would ideally be checked, but then
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more data flow analysis would be needed, for cases
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where a new def for var is introduced before reaching
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DF
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"""
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non_ssa = var.non_ssa_version
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for ssa in node.irs_ssa:
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if isinstance(ssa, Phi):
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if non_ssa in map(lambda ssa_var: ssa_var.non_ssa_version, ssa.read):
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return True
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return False
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for node in filter(lambda n: n.dominance_frontier, f.nodes):
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for df in node.dominance_frontier:
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for ssa in node.irs_ssa:
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if isinstance(ssa, OperationWithLValue):
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if is_used_later(node, ssa.lvalue):
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assert have_phi_for_var(df, ssa.lvalue)
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@contextmanager
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def select_solc_version(version: Optional[str]):
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"""Selects solc version to use for running tests.
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If no version is provided, latest is used."""
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# If no solc_version selected just use the latest avail
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if not version:
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# This sorts the versions numerically
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vers = sorted(
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map(
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lambda x: (int(x[0]), int(x[1]), int(x[2])),
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map(lambda x: x.split(".", 3), solc_select.installed_versions()),
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)
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)
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ver = list(vers)[-1]
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version = ".".join(map(str, ver))
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env = dict(os.environ)
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env_restore = dict(env)
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env["SOLC_VERSION"] = version
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os.environ.clear()
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os.environ.update(env)
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yield version
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os.environ.clear()
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os.environ.update(env_restore)
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@contextmanager
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def slither_from_source(source_code: str, solc_version: Optional[str] = None):
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"""Yields a Slither instance using source_code string and solc_version
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Creates a temporary file and changes the solc-version temporary to solc_version.
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"""
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fname = ""
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try:
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with NamedTemporaryFile(dir=SCRIPT_DIR, mode="w", suffix=".sol", delete=False) as f:
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fname = f.name
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f.write(source_code)
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with select_solc_version(solc_version):
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yield Slither(fname)
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finally:
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pathlib.Path(fname).unlink()
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def verify_properties_hold(source_code_or_slither: Union[str, Slither]):
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"""Ensures that basic properties of SSA hold true"""
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def verify_func(func: Function):
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have_ssa_if_ir(func)
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phi_values_inserted(func)
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ssa_basic_properties(func)
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ssa_phi_node_properties(func)
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dominance_properties(func)
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def verify(slither):
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for cu in slither.compilation_units:
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for func in cu.functions_and_modifiers:
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_dump_function(func)
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verify_func(func)
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for contract in cu.contracts:
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for f in contract.functions:
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if f.is_constructor or f.is_constructor_variables:
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_dump_function(f)
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verify_func(f)
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if isinstance(source_code_or_slither, Slither):
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verify(source_code_or_slither)
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else:
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with slither_from_source(source_code_or_slither) as slither:
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verify(slither)
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def _dump_function(f: Function):
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"""Helper function to print nodes/ssa ir for a function or modifier"""
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print(f"---- {f.name} ----")
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for n in f.nodes:
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print(n)
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for ir in n.irs_ssa:
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print(f"\t{ir}")
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print("")
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def _dump_functions(c: Contract):
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"""Helper function to print functions and modifiers of a contract"""
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for f in c.functions_and_modifiers:
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_dump_function(f)
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def get_filtered_ssa(f: Union[Function, Node], flt) -> List[Operation]:
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"""Returns a list of all ssanodes filtered by filter for all nodes in function f"""
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if isinstance(f, Function):
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return [ssanode for node in f.nodes for ssanode in node.irs_ssa if flt(ssanode)]
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assert isinstance(f, Node)
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return [ssanode for ssanode in f.irs_ssa if flt(ssanode)]
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def get_ssa_of_type(f: Union[Function, Node], ssatype) -> List[Operation]:
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"""Returns a list of all ssanodes of a specific type for all nodes in function f"""
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return get_filtered_ssa(f, lambda ssanode: isinstance(ssanode, ssatype))
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def test_multi_write():
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contract = """
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pragma solidity ^0.8.11;
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contract Test {
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function multi_write(uint val) external pure returns(uint) {
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val = 1;
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val = 2;
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val = 3;
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}
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}"""
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verify_properties_hold(contract)
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def test_single_branch_phi():
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contract = """
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pragma solidity ^0.8.11;
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contract Test {
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function single_branch_phi(uint val) external pure returns(uint) {
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if (val == 3) {
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val = 9;
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}
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return val;
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}
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}
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"""
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verify_properties_hold(contract)
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def test_basic_phi():
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contract = """
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pragma solidity ^0.8.11;
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contract Test {
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function basic_phi(uint val) external pure returns(uint) {
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if (val == 3) {
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val = 9;
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} else {
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val = 1;
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}
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return val;
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}
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}
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"""
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verify_properties_hold(contract)
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def test_basic_loop_phi():
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contract = """
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pragma solidity ^0.8.11;
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contract Test {
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function basic_loop_phi(uint val) external pure returns(uint) {
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for (uint i=0;i<128;i++) {
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val = val + 1;
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}
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return val;
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}
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}
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"""
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verify_properties_hold(contract)
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@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
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def test_phi_propagation_loop():
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contract = """
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pragma solidity ^0.8.11;
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contract Test {
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function looping(uint v) external pure returns(uint) {
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uint val = 0;
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for (uint i=0;i<v;i++) {
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if (val > i) {
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val = i;
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} else {
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val = 3;
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}
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}
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return val;
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}
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}
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"""
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verify_properties_hold(contract)
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@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
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def test_free_function_properties():
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contract = """
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pragma solidity ^0.8.11;
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function free_looping(uint v) returns(uint) {
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uint val = 0;
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for (uint i=0;i<v;i++) {
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if (val > i) {
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val = i;
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} else {
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val = 3;
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}
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}
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return val;
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}
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contract Test {}
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"""
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verify_properties_hold(contract)
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def test_ssa_inter_transactional():
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source = """
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pragma solidity ^0.8.11;
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contract A {
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uint my_var_A;
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uint my_var_B;
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function direct_set(uint i) public {
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my_var_A = i;
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}
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function direct_set_plus_one(uint i) public {
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my_var_A = i + 1;
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}
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function indirect_set() public {
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my_var_B = my_var_A;
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}
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}
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"""
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with slither_from_source(source) as slither:
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c = slither.contracts[0]
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variables = c.variables_as_dict
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funcs = c.available_functions_as_dict()
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direct_set = funcs["direct_set(uint256)"]
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# Skip entry point and go straight to assignment ir
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assign1 = direct_set.nodes[1].irs_ssa[0]
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assert isinstance(assign1, Assignment)
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assign2 = direct_set.nodes[1].irs_ssa[0]
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assert isinstance(assign2, Assignment)
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indirect_set = funcs["indirect_set()"]
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phi = indirect_set.entry_point.irs_ssa[0]
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assert isinstance(phi, Phi)
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# phi rvalues come from 1, initial value of my_var_a and 2, assignment in direct_set
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assert len(phi.rvalues) == 3
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assert all(x.non_ssa_version == variables["my_var_A"] for x in phi.rvalues)
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assert assign1.lvalue in phi.rvalues
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assert assign2.lvalue in phi.rvalues
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@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
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def test_ssa_phi_callbacks():
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source = """
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pragma solidity ^0.8.11;
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contract A {
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uint my_var_A;
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uint my_var_B;
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function direct_set(uint i) public {
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my_var_A = i;
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}
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function use_a() public {
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// Expect a phi-node here
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my_var_B = my_var_A;
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B b = new B();
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my_var_A = 3;
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b.do_stuff();
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// Expect a phi-node here
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my_var_B = my_var_A;
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}
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}
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contract B {
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function do_stuff() public returns (uint) {
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// This could be calling back into A
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}
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}
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"""
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with slither_from_source(source) as slither:
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c = slither.get_contract_from_name("A")[0]
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_dump_functions(c)
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f = [x for x in c.functions if x.name == "use_a"][0]
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var_a = [x for x in c.variables if x.name == "my_var_A"][0]
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entry_phi = [
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x
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for x in f.entry_point.irs_ssa
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if isinstance(x, Phi) and x.lvalue.non_ssa_version == var_a
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][0]
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# The four potential sources are:
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# 1. initial value
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# 2. my_var_A = i;
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# 3. my_var_A = 3;
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# 4. phi-value after call to b.do_stuff(), which could be reentrant.
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assert len(entry_phi.rvalues) == 4
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# Locate the first high-level call (should be b.do_stuff())
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call_node = [x for y in f.nodes for x in y.irs_ssa if isinstance(x, HighLevelCall)][0]
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n = call_node.node
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# Get phi-node after call
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after_call_phi = n.irs_ssa[n.irs_ssa.index(call_node) + 1]
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# The two sources for this phi node is
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# 1. my_var_A = i;
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# 2. my_var_A = 3;
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assert isinstance(after_call_phi, Phi)
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assert len(after_call_phi.rvalues) == 2
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@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
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def test_storage_refers_to():
|
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"""Test the storage aspects of the SSA IR
|
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When declaring a var as being storage, start tracking what storage it refers_to.
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When a phi-node is created, ensure refers_to is propagated to the phi-node.
|
|
Assignments also propagate refers_to.
|
|
Whenever a ReferenceVariable is the destination of an assignment (e.g. s.v = 10)
|
|
below, create additional versions of the variables it refers to record that a a
|
|
write was made. In the current implementation, this is referenced by phis.
|
|
"""
|
|
source = """
|
|
contract A{
|
|
|
|
struct St{
|
|
int v;
|
|
}
|
|
|
|
St state0;
|
|
St state1;
|
|
|
|
function f() public{
|
|
St storage s = state0;
|
|
if(true){
|
|
s = state1;
|
|
}
|
|
s.v = 10;
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(source) as slither:
|
|
c = slither.contracts[0]
|
|
f = c.functions[0]
|
|
|
|
phinodes = get_ssa_of_type(f, Phi)
|
|
# Expect 2 in entrypoint (state0/state1 initial values), 1 at 'ENDIF' and two related to the
|
|
# ReferenceVariable write s.v = 10.
|
|
assert len(phinodes) == 5
|
|
|
|
# Assign s to state0, s to state1, s.v to 10
|
|
assigns = get_ssa_of_type(f, Assignment)
|
|
assert len(assigns) == 3
|
|
|
|
# The IR variables have is_storage
|
|
assert all(x.lvalue.is_storage for x in assigns if isinstance(x, LocalIRVariable))
|
|
|
|
# s.v ReferenceVariable points to one of the phi vars...
|
|
ref0 = [x.lvalue for x in assigns if isinstance(x.lvalue, ReferenceVariable)][0]
|
|
sphis = [x for x in phinodes if x.lvalue == ref0.points_to]
|
|
assert len(sphis) == 1
|
|
sphi = sphis[0]
|
|
|
|
# ...and that phi refers to the two entry phi-values
|
|
entryphi = [x for x in phinodes if x.lvalue in sphi.lvalue.refers_to]
|
|
assert len(entryphi) == 2
|
|
|
|
# The remaining two phis are the ones recording that write through ReferenceVariable occured
|
|
for ephi in entryphi:
|
|
phinodes.remove(ephi)
|
|
phinodes.remove(sphi)
|
|
assert len(phinodes) == 2
|
|
|
|
# And they are recorded in one of the entry phis
|
|
assert phinodes[0].lvalue in entryphi[0].rvalues or entryphi[1].rvalues
|
|
assert phinodes[1].lvalue in entryphi[0].rvalues or entryphi[1].rvalues
|
|
|
|
|
|
@pytest.mark.skipif(
|
|
not valid_version("0.4.0"), reason="Solidity version 0.4.0 not available on this platform"
|
|
)
|
|
def test_initial_version_exists_for_locals():
|
|
"""
|
|
In solidity you can write statements such as
|
|
uint a = a + 1, this test ensures that can be handled for local variables.
|
|
"""
|
|
src = """
|
|
contract C {
|
|
function func() internal {
|
|
uint a = a + 1;
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(src, "0.4.0") as slither:
|
|
verify_properties_hold(slither)
|
|
c = slither.contracts[0]
|
|
f = c.functions[0]
|
|
|
|
addition = get_ssa_of_type(f, Binary)[0]
|
|
assert addition.type == BinaryType.ADDITION
|
|
assert isinstance(addition.variable_right, Constant)
|
|
a_0 = addition.variable_left
|
|
assert a_0.index == 0
|
|
assert a_0.name == "a"
|
|
|
|
assignment = get_ssa_of_type(f, Assignment)[0]
|
|
a_1 = assignment.lvalue
|
|
assert a_1.index == 1
|
|
assert a_1.name == "a"
|
|
assert assignment.rvalue == addition.lvalue
|
|
|
|
assert a_0.non_ssa_version == a_1.non_ssa_version
|
|
|
|
|
|
@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
|
|
@pytest.mark.skipif(
|
|
not valid_version("0.4.0"), reason="Solidity version 0.4.0 not available on this platform"
|
|
)
|
|
def test_initial_version_exists_for_state_variables():
|
|
"""
|
|
In solidity you can write statements such as
|
|
uint a = a + 1, this test ensures that can be handled for state variables.
|
|
"""
|
|
src = """
|
|
contract C {
|
|
uint a = a + 1;
|
|
}
|
|
"""
|
|
with slither_from_source(src, "0.4.0") as slither:
|
|
verify_properties_hold(slither)
|
|
c = slither.contracts[0]
|
|
f = c.functions[0] # There will be one artificial ctor function for the state vars
|
|
|
|
addition = get_ssa_of_type(f, Binary)[0]
|
|
assert addition.type == BinaryType.ADDITION
|
|
assert isinstance(addition.variable_right, Constant)
|
|
a_0 = addition.variable_left
|
|
assert isinstance(a_0, StateIRVariable)
|
|
assert a_0.name == "a"
|
|
|
|
assignment = get_ssa_of_type(f, Assignment)[0]
|
|
a_1 = assignment.lvalue
|
|
assert isinstance(a_1, StateIRVariable)
|
|
assert a_1.index == a_0.index + 1
|
|
assert a_1.name == "a"
|
|
assert assignment.rvalue == addition.lvalue
|
|
|
|
assert a_0.non_ssa_version == a_1.non_ssa_version
|
|
assert isinstance(a_0.non_ssa_version, StateVariable)
|
|
|
|
# No conditional/other function interaction so no phis
|
|
assert len(get_ssa_of_type(f, Phi)) == 0
|
|
|
|
|
|
@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
|
|
def test_initial_version_exists_for_state_variables_function_assign():
|
|
"""
|
|
In solidity you can write statements such as
|
|
uint a = a + 1, this test ensures that can be handled for local variables.
|
|
"""
|
|
# TODO (hbrodin): Could be a detector that a is not used in f
|
|
src = """
|
|
contract C {
|
|
uint a = f();
|
|
|
|
function f() internal returns(uint) {
|
|
return a;
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(src) as slither:
|
|
verify_properties_hold(slither)
|
|
c = slither.contracts[0]
|
|
f, ctor = c.functions
|
|
if f.is_constructor_variables:
|
|
f, ctor = ctor, f
|
|
|
|
# ctor should have a single call to f that assigns to a
|
|
# temporary variable, that is then assigned to a
|
|
|
|
call = get_ssa_of_type(ctor, InternalCall)[0]
|
|
assert call.function == f
|
|
assign = get_ssa_of_type(ctor, Assignment)[0]
|
|
assert assign.rvalue == call.lvalue
|
|
assert isinstance(assign.lvalue, StateIRVariable)
|
|
assert assign.lvalue.name == "a"
|
|
|
|
# f should have a phi node on entry of a0, a1 and should return
|
|
# a2
|
|
phi = get_ssa_of_type(f, Phi)[0]
|
|
assert len(phi.rvalues) == 2
|
|
assert assign.lvalue in phi.rvalues
|
|
|
|
|
|
@pytest.mark.skipif(
|
|
not valid_version("0.4.0"), reason="Solidity version 0.4.0 not available on this platform"
|
|
)
|
|
def test_return_local_before_assign():
|
|
src = """
|
|
// this require solidity < 0.5
|
|
// a variable can be returned before declared. Ensure it can be
|
|
// handled by Slither.
|
|
contract A {
|
|
function local(bool my_bool) internal returns(uint){
|
|
if(my_bool){
|
|
return a_local;
|
|
}
|
|
|
|
uint a_local = 10;
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(src, "0.4.0") as slither:
|
|
f = slither.contracts[0].functions[0]
|
|
|
|
ret = get_ssa_of_type(f, Return)[0]
|
|
assert len(ret.values) == 1
|
|
assert ret.values[0].index == 0
|
|
|
|
assign = get_ssa_of_type(f, Assignment)[0]
|
|
assert assign.lvalue.index == 1
|
|
assert assign.lvalue.non_ssa_version == ret.values[0].non_ssa_version
|
|
|
|
|
|
@pytest.mark.skipif(
|
|
not valid_version("0.5.0"), reason="Solidity version 0.5.0 not available on this platform"
|
|
)
|
|
def test_shadow_local():
|
|
src = """
|
|
contract A {
|
|
// this require solidity 0.5
|
|
function shadowing_local() internal{
|
|
uint local = 0;
|
|
{
|
|
uint local = 1;
|
|
{
|
|
uint local = 2;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(src, "0.5.0") as slither:
|
|
_dump_functions(slither.contracts[0])
|
|
f = slither.contracts[0].functions[0]
|
|
|
|
# Ensure all assignments are to a variable of index 1
|
|
# not using the same IR var.
|
|
assert all(map(lambda x: x.lvalue.index == 1, get_ssa_of_type(f, Assignment)))
|
|
|
|
|
|
@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
|
|
def test_multiple_named_args_returns():
|
|
"""Verifies that named arguments and return values have correct versions
|
|
|
|
Each arg/ret have an initial version, version 0, and is written once and should
|
|
then have version 1.
|
|
"""
|
|
src = """
|
|
contract A {
|
|
function multi(uint arg1, uint arg2) internal returns (uint ret1, uint ret2) {
|
|
arg1 = arg1 + 1;
|
|
arg2 = arg2 + 2;
|
|
ret1 = arg1 + 3;
|
|
ret2 = arg2 + 4;
|
|
}
|
|
}"""
|
|
with slither_from_source(src) as slither:
|
|
verify_properties_hold(slither)
|
|
f = slither.contracts[0].functions[0]
|
|
|
|
# Ensure all LocalIRVariables (not TemporaryVariables) have index 1
|
|
assert all(
|
|
map(
|
|
lambda x: x.lvalue.index == 1 or not isinstance(x.lvalue, LocalIRVariable),
|
|
get_ssa_of_type(f, OperationWithLValue),
|
|
)
|
|
)
|
|
|
|
|
|
@pytest.mark.xfail(reason="Tests for wanted state of SSA IR, not current.", strict=True)
|
|
def test_memory_array():
|
|
src = """
|
|
contract MemArray {
|
|
struct A {
|
|
uint val1;
|
|
uint val2;
|
|
}
|
|
|
|
function test_array() internal {
|
|
A[] memory a= new A[](4);
|
|
// Create REF_0 -> a_1[2]
|
|
accept_array_entry(a[2]);
|
|
|
|
// Create REF_1 -> a_1[3]
|
|
accept_array_entry(a[3]);
|
|
|
|
A memory alocal;
|
|
accept_array_entry(alocal);
|
|
|
|
}
|
|
|
|
// val_1 = ϕ(val_0, REF_0, REF_1, alocal_1)
|
|
// val_0 is an unknown external value
|
|
function accept_array_entry(A memory val) public returns (uint) {
|
|
uint zero = 0;
|
|
b(zero);
|
|
// Create REF_2 -> val_1.val1
|
|
return b(val.val1);
|
|
}
|
|
|
|
function b(uint arg) public returns (uint){
|
|
// arg_1 = ϕ(arg_0, zero_1, REF_2)
|
|
return arg + 1;
|
|
}
|
|
}"""
|
|
with slither_from_source(src) as slither:
|
|
c = slither.contracts[0]
|
|
|
|
ftest_array, faccept, fb = c.functions
|
|
|
|
# Locate REF_0/REF_1/alocal (they are all args to the call)
|
|
accept_args = [x.arguments[0] for x in get_ssa_of_type(ftest_array, InternalCall)]
|
|
|
|
# Check entrypoint of accept_array_entry, it should contain a phi-node
|
|
# of expected rvalues
|
|
[phi_entry_accept] = get_ssa_of_type(faccept.entry_point, Phi)
|
|
for arg in accept_args:
|
|
assert arg in phi_entry_accept.rvalues
|
|
# NOTE(hbrodin): There should be an additional val_0 in the phi-node.
|
|
# That additional val_0 indicates an external caller of this function.
|
|
assert len(phi_entry_accept.rvalues) == len(accept_args) + 1
|
|
|
|
# Args used to invoke b
|
|
b_args = [x.arguments[0] for x in get_ssa_of_type(faccept, InternalCall)]
|
|
|
|
# Check entrypoint of B, it should contain a phi-node of expected
|
|
# rvalues
|
|
[phi_entry_b] = get_ssa_of_type(fb.entry_point, Phi)
|
|
for arg in b_args:
|
|
assert arg in phi_entry_b.rvalues
|
|
|
|
# NOTE(hbrodin): There should be an additional arg_0 (see comment about phi_entry_accept).
|
|
assert len(phi_entry_b.rvalues) == len(b_args) + 1
|
|
|
|
|
|
@pytest.mark.xfail(reason="Tests for wanted state of SSA IR, not current.", strict=True)
|
|
def test_storage_array():
|
|
src = """
|
|
contract StorageArray {
|
|
struct A {
|
|
uint val1;
|
|
uint val2;
|
|
}
|
|
|
|
// NOTE(hbrodin): a is never written, should only become a_0. Same for astorage (astorage_0). Phi-nodes at entry
|
|
// should only add new versions of a state variable if it is actually written.
|
|
A[] a;
|
|
A astorage;
|
|
|
|
function test_array() internal {
|
|
accept_array_entry(a[2]);
|
|
accept_array_entry(a[3]);
|
|
accept_array_entry(astorage);
|
|
}
|
|
|
|
function accept_array_entry(A storage val) internal returns (uint) {
|
|
// val is either a[2], a[3] or astorage_0. Ideally this could be identified.
|
|
uint five = 5;
|
|
|
|
// NOTE(hbrodin): If the following line is enabled, there would ideally be a phi-node representing writes
|
|
// to either a or astorage.
|
|
//val.val2 = 4;
|
|
b(five);
|
|
return b(val.val1);
|
|
}
|
|
|
|
function b(uint value) public returns (uint){
|
|
// Expect a phi-node at the entrypoint
|
|
// value_1 = ϕ(value_0, five_0, REF_x), where REF_x is the reference to val.val1 in accept_array_entry.
|
|
return value + 1;
|
|
}
|
|
}"""
|
|
with slither_from_source(src) as slither:
|
|
c = slither.contracts[0]
|
|
_dump_functions(c)
|
|
ftest, faccept, fb = c.functions
|
|
|
|
# None of a/astorage is written so expect that there are no phi-nodes at entrypoint.
|
|
assert len(get_ssa_of_type(ftest.entry_point, Phi)) == 0
|
|
|
|
# Expect all references to start from index 0 (no writes)
|
|
assert all(x.variable_left.index == 0 for x in get_ssa_of_type(ftest, Index))
|
|
|
|
[phi_entry_accept] = get_ssa_of_type(faccept.entry_point, Phi)
|
|
assert len(phi_entry_accept.rvalues) == 3 # See comment in b above
|
|
|
|
[phi_entry_b] = get_ssa_of_type(fb.entry_point, Phi)
|
|
assert len(phi_entry_b.rvalues) == 3 # See comment in b above
|
|
|
|
|
|
@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
|
|
def test_issue_468():
|
|
"""
|
|
Ensure issue 468 is corrected as per
|
|
https://github.com/crytic/slither/issues/468#issuecomment-620974151
|
|
The one difference is that we allow the phi-function at entry of f to
|
|
hold exit state which contains init state and state from branch, which
|
|
is a bit redundant. This could be further simplified.
|
|
"""
|
|
source = """
|
|
contract State {
|
|
int state = 0;
|
|
function f(int a) public returns (int) {
|
|
// phi-node here for state
|
|
if (a < 1) {
|
|
state += 1;
|
|
}
|
|
// phi-node here for state
|
|
return state;
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(source) as slither:
|
|
c = slither.get_contract_from_name("State")[0]
|
|
f = [x for x in c.functions if x.name == "f"][0]
|
|
|
|
# Check that there is an entry point phi values for each later value
|
|
# plus one additional which is the initial value
|
|
entry_ssa = f.entry_point.irs_ssa
|
|
assert len(entry_ssa) == 1
|
|
phi_entry = entry_ssa[0]
|
|
assert isinstance(phi_entry, Phi)
|
|
|
|
# Find the second phi function
|
|
endif_node = [x for x in f.nodes if x.type == NodeType.ENDIF][0]
|
|
assert len(endif_node.irs_ssa) == 1
|
|
phi_endif = endif_node.irs_ssa[0]
|
|
assert isinstance(phi_endif, Phi)
|
|
|
|
# Ensure second phi-function contains init-phi and one additional
|
|
assert len(phi_endif.rvalues) == 2
|
|
assert phi_entry.lvalue in phi_endif.rvalues
|
|
|
|
# Find return-statement and ensure it returns the phi_endif
|
|
return_node = [x for x in f.nodes if x.type == NodeType.RETURN][0]
|
|
assert len(return_node.irs_ssa) == 1
|
|
ret = return_node.irs_ssa[0]
|
|
assert len(ret.values) == 1
|
|
assert phi_endif.lvalue in ret.values
|
|
|
|
# Ensure that the phi_endif (which is the end-state for function as well) is in the entry_phi
|
|
assert phi_endif.lvalue in phi_entry.rvalues
|
|
|
|
|
|
@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
|
|
def test_issue_434():
|
|
source = """
|
|
contract Contract {
|
|
int public a;
|
|
function f() public {
|
|
g();
|
|
a += 1;
|
|
}
|
|
|
|
function e() public {
|
|
a -= 1;
|
|
}
|
|
|
|
function g() public {
|
|
e();
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(source) as slither:
|
|
c = slither.get_contract_from_name("Contract")[0]
|
|
|
|
e = [x for x in c.functions if x.name == "e"][0]
|
|
f = [x for x in c.functions if x.name == "f"][0]
|
|
g = [x for x in c.functions if x.name == "g"][0]
|
|
|
|
# Ensure there is a phi-node at the beginning of f and e
|
|
phi_entry_e = get_ssa_of_type(e.entry_point, Phi)[0]
|
|
phi_entry_f = get_ssa_of_type(f.entry_point, Phi)[0]
|
|
# But not at g
|
|
assert len(get_ssa_of_type(g, Phi)) == 0
|
|
|
|
# Ensure that the final states of f and e are in the entry-states
|
|
add_f = get_filtered_ssa(
|
|
f, lambda x: isinstance(x, Binary) and x.type == BinaryType.ADDITION
|
|
)[0]
|
|
sub_e = get_filtered_ssa(
|
|
e, lambda x: isinstance(x, Binary) and x.type == BinaryType.SUBTRACTION
|
|
)[0]
|
|
assert add_f.lvalue in phi_entry_f.rvalues
|
|
assert add_f.lvalue in phi_entry_e.rvalues
|
|
assert sub_e.lvalue in phi_entry_f.rvalues
|
|
assert sub_e.lvalue in phi_entry_e.rvalues
|
|
|
|
# Ensure there is a phi-node after call to g
|
|
call = get_ssa_of_type(f, InternalCall)[0]
|
|
idx = call.node.irs_ssa.index(call)
|
|
aftercall_phi = call.node.irs_ssa[idx + 1]
|
|
assert isinstance(aftercall_phi, Phi)
|
|
|
|
# Ensure that phi node ^ is used in the addition afterwards
|
|
assert aftercall_phi.lvalue in (add_f.variable_left, add_f.variable_right)
|
|
|
|
|
|
@pytest.mark.xfail(strict=True, reason="Fails in current slither version. Fix in #1102.")
|
|
def test_issue_473():
|
|
source = """
|
|
contract Contract {
|
|
function f() public returns (int) {
|
|
int a = 1;
|
|
if (a > 0) {
|
|
a = 2;
|
|
}
|
|
if (a == 3) {
|
|
a = 6;
|
|
}
|
|
return a;
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(source) as slither:
|
|
c = slither.get_contract_from_name("Contract")[0]
|
|
f = c.functions[0]
|
|
|
|
phis = get_ssa_of_type(f, Phi)
|
|
return_value = get_ssa_of_type(f, Return)[0]
|
|
|
|
# There shall be two phi functions
|
|
assert len(phis) == 2
|
|
first_phi = phis[0]
|
|
second_phi = phis[1]
|
|
|
|
# The second phi is the one being returned, if it's the first swap them (iteration order)
|
|
if first_phi.lvalue in return_value.values:
|
|
first_phi, second_phi = second_phi, first_phi
|
|
|
|
# First phi is for [a=1 or a=2]
|
|
assert len(first_phi.rvalues) == 2
|
|
|
|
# second is for [a=6 or first phi]
|
|
assert first_phi.lvalue in second_phi.rvalues
|
|
assert len(second_phi.rvalues) == 2
|
|
|
|
# return is for second phi
|
|
assert len(return_value.values) == 1
|
|
assert second_phi.lvalue in return_value.values
|
|
|
|
|
|
def test_issue_1748():
|
|
source = """
|
|
contract Contract {
|
|
uint[] arr;
|
|
function foo(uint i) public {
|
|
arr = [1];
|
|
}
|
|
}
|
|
"""
|
|
with slither_from_source(source) as slither:
|
|
c = slither.get_contract_from_name("Contract")[0]
|
|
f = c.functions[0]
|
|
operations = f.slithir_operations
|
|
assign_op = operations[0]
|
|
assert isinstance(assign_op, InitArray)
|
|
|