package rules import ( "go/ast" "go/token" "github.com/securego/gosec/v2" "github.com/securego/gosec/v2/issue" ) type implicitAliasing struct { issue.MetaData aliases map[*ast.Object]struct{} rightBrace token.Pos acceptableAlias []*ast.UnaryExpr } func (r *implicitAliasing) ID() string { return r.MetaData.ID } func containsUnary(exprs []*ast.UnaryExpr, expr *ast.UnaryExpr) bool { for _, e := range exprs { if e == expr { return true } } return false } func (r *implicitAliasing) Match(n ast.Node, c *gosec.Context) (*issue.Issue, error) { switch node := n.(type) { case *ast.RangeStmt: // When presented with a range statement, get the underlying Object bound to // by assignment and add it to our set (r.aliases) of objects to check for. if key, ok := node.Value.(*ast.Ident); ok { if key.Obj != nil { if assignment, ok := key.Obj.Decl.(*ast.AssignStmt); ok { if len(assignment.Lhs) < 2 { return nil, nil } if object, ok := assignment.Lhs[1].(*ast.Ident); ok { r.aliases[object.Obj] = struct{}{} if r.rightBrace < node.Body.Rbrace { r.rightBrace = node.Body.Rbrace } } } } } case *ast.UnaryExpr: // If this unary expression is outside of the last range statement we were looking at // then clear the list of objects we're concerned about because they're no longer in // scope if node.Pos() > r.rightBrace { r.aliases = make(map[*ast.Object]struct{}) r.acceptableAlias = make([]*ast.UnaryExpr, 0) } // Short circuit logic to skip checking aliases if we have nothing to check against. if len(r.aliases) == 0 { return nil, nil } // If this unary is at the top level of a return statement then it is okay-- // see *ast.ReturnStmt comment below. if containsUnary(r.acceptableAlias, node) { return nil, nil } // If we find a unary op of & (reference) of an object within r.aliases, complain. if ident, ok := node.X.(*ast.Ident); ok && node.Op.String() == "&" { if _, contains := r.aliases[ident.Obj]; contains { return c.NewIssue(n, r.ID(), r.What, r.Severity, r.Confidence), nil } } case *ast.ReturnStmt: // Returning a rangeStmt yielded value is acceptable since only one value will be returned for _, item := range node.Results { if unary, ok := item.(*ast.UnaryExpr); ok && unary.Op.String() == "&" { r.acceptableAlias = append(r.acceptableAlias, unary) } } } return nil, nil } // NewImplicitAliasing detects implicit memory aliasing of type: for blah := SomeCall() {... SomeOtherCall(&blah) ...} func NewImplicitAliasing(id string, conf gosec.Config) (gosec.Rule, []ast.Node) { return &implicitAliasing{ aliases: make(map[*ast.Object]struct{}), rightBrace: token.NoPos, acceptableAlias: make([]*ast.UnaryExpr, 0), MetaData: issue.MetaData{ ID: id, Severity: issue.Medium, Confidence: issue.Medium, What: "Implicit memory aliasing in for loop.", }, }, []ast.Node{(*ast.RangeStmt)(nil), (*ast.UnaryExpr)(nil), (*ast.ReturnStmt)(nil)} } /* This rule is prone to flag false positives. Within GoSec, the rule is just an AST match-- there are a handful of other implementation strategies which might lend more nuance to the rule at the cost of allowing false negatives. From a tooling side, I'd rather have this rule flag false positives than potentially have some false negatives-- especially if the sentiment of this rule (as I understand it, and Go) is that referencing a rangeStmt-yielded value is kinda strange and does not have a strongly justified use case. Which is to say-- a false positive _should_ just be changed. */