// (c) Copyright gosec's authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package analyzers import ( "errors" "fmt" "go/token" "strings" "golang.org/x/tools/go/analysis" "golang.org/x/tools/go/analysis/passes/buildssa" "golang.org/x/tools/go/ssa" "github.com/securego/gosec/v2/issue" ) const defaultIssueDescription = "Use of hardcoded IV/nonce for encryption" func newHardCodedNonce(id string, description string) *analysis.Analyzer { return &analysis.Analyzer{ Name: id, Doc: description, Run: runHardCodedNonce, Requires: []*analysis.Analyzer{buildssa.Analyzer}, } } func runHardCodedNonce(pass *analysis.Pass) (interface{}, error) { ssaResult, err := getSSAResult(pass) if err != nil { return nil, fmt.Errorf("building ssa representation: %w", err) } // Holds the function name as key, the number of arguments that the function accepts, and at which index of those accepted arguments is the nonce/IV // Example "Test" 3, 1 -- means the function "Test" which accepts 3 arguments, and has the nonce arg as second argument calls := map[string][]int{ "(crypto/cipher.AEAD).Seal": {4, 1}, "(crypto/cipher.AEAD).Open": {4, 1}, "crypto/cipher.NewCBCDecrypter": {2, 1}, "crypto/cipher.NewCBCEncrypter": {2, 1}, "crypto/cipher.NewCFBDecrypter": {2, 1}, "crypto/cipher.NewCFBEncrypter": {2, 1}, "crypto/cipher.NewCTR": {2, 1}, "crypto/cipher.NewOFB": {2, 1}, } ssaPkgFunctions := ssaResult.SSA.SrcFuncs args := getArgsFromTrackedFunctions(ssaPkgFunctions, calls) if args == nil { return nil, errors.New("no tracked functions found, resulting in no variables to track") } var issues []*issue.Issue for _, arg := range args { if arg == nil { continue } i, err := raiseIssue(*arg, calls, ssaPkgFunctions, pass, "") if err != nil { return issues, fmt.Errorf("raising issue error: %w", err) } issues = append(issues, i...) } return issues, nil } func raiseIssue(val ssa.Value, funcsToTrack map[string][]int, ssaFuncs []*ssa.Function, pass *analysis.Pass, issueDescription string, ) ([]*issue.Issue, error) { var err error var gosecIssue []*issue.Issue if issueDescription == "" { issueDescription = defaultIssueDescription } switch valType := (val).(type) { case *ssa.Slice: issueDescription += " by passing hardcoded slice/array" tmp, hasErr := iterateThroughReferrers(val, funcsToTrack, pass.Analyzer.Name, issueDescription, pass.Fset, issue.High) gosecIssue = append(gosecIssue, tmp...) err = hasErr case *ssa.UnOp: // Check if it's a dereference operation (a.k.a pointer) if valType.Op == token.MUL { issueDescription += " by passing pointer which points to hardcoded variable" tmp, hasErr := iterateThroughReferrers(val, funcsToTrack, pass.Analyzer.Name, issueDescription, pass.Fset, issue.Low) gosecIssue = append(gosecIssue, tmp...) err = hasErr } // When the value assigned to a variable is a function call. // It goes and check if this function contains call to crypto/rand.Read // in it's body(Assuming that calling crypto/rand.Read in a function, // is used for the generation of nonce/iv ) case *ssa.Call: if callValue := valType.Call.Value; callValue != nil { if calledFunction, ok := callValue.(*ssa.Function); ok { if contains, funcErr := isFuncContainsCryptoRand(calledFunction); !contains && funcErr == nil { issueDescription += " by passing a value from function which doesn't use crypto/rand" tmp, hasErr := iterateThroughReferrers(val, funcsToTrack, pass.Analyzer.Name, issueDescription, pass.Fset, issue.Medium) gosecIssue = append(gosecIssue, tmp...) err = hasErr } else if funcErr != nil { err = funcErr } } } // only checks from strings->[]byte // might need to add additional types case *ssa.Convert: if valType.Type().String() == "[]byte" && valType.X.Type().String() == "string" { issueDescription += " by passing converted string" tmp, hasErr := iterateThroughReferrers(val, funcsToTrack, pass.Analyzer.Name, issueDescription, pass.Fset, issue.High) gosecIssue = append(gosecIssue, tmp...) err = hasErr } case *ssa.Parameter: // arg given to tracked function is wrapped in another function, example: // func encrypt(..,nonce,...){ // aesgcm.Seal(nonce) // } // save parameter position, by checking the name of the variable used in // tracked functions and comparing it with the name of the arg if valType.Parent() != nil { trackedFunctions := make(map[string][]int) for index, funcArgs := range valType.Parent().Params { if funcArgs.Name() == valType.Name() && funcArgs.Type() == valType.Type() { trackedFunctions[valType.Parent().String()] = []int{len(valType.Parent().Params), index} } } result := getArgsFromTrackedFunctions(ssaFuncs, trackedFunctions) issueDescription += " by passing a parameter to a function and" // recursively backtrack to where the origin of a variable passed to multiple functions is for _, trackedVariable := range result { if trackedVariable == nil { continue } tmp, hasErr := raiseIssue(*trackedVariable, trackedFunctions, ssaFuncs, pass, issueDescription) gosecIssue = append(gosecIssue, tmp...) err = hasErr } } } return gosecIssue, err } // iterateThroughReferrers iterates through all places that use the `variable` argument and check if it's used in one of the tracked functions. func iterateThroughReferrers(variable ssa.Value, funcsToTrack map[string][]int, analyzerID string, issueDescription string, fileSet *token.FileSet, issueConfidence issue.Score, ) ([]*issue.Issue, error) { if funcsToTrack == nil || variable == nil || analyzerID == "" || issueDescription == "" || fileSet == nil { return nil, errors.New("received a nil object") } var gosecIssues []*issue.Issue refs := variable.Referrers() if refs == nil { return gosecIssues, nil } // Go trough all functions that use the given arg variable for _, ref := range *refs { // Iterate trough the functions we are interested for trackedFunc := range funcsToTrack { // Split the functions we are interested in, by the '.' because we will use the function name to do the comparison // MIGHT GIVE SOME FALSE POSITIVES THIS WAY trackedFuncParts := strings.Split(trackedFunc, ".") trackedFuncPartsName := trackedFuncParts[len(trackedFuncParts)-1] if strings.Contains(ref.String(), trackedFuncPartsName) { gosecIssues = append(gosecIssues, newIssue(analyzerID, issueDescription, fileSet, ref.Pos(), issue.High, issueConfidence)) } } } return gosecIssues, nil } // isFuncContainsCryptoRand checks whether a function contains a call to crypto/rand.Read in it's function body. func isFuncContainsCryptoRand(funcCall *ssa.Function) (bool, error) { if funcCall == nil { return false, errors.New("passed ssa.Function object is nil") } for _, block := range funcCall.Blocks { for _, instr := range block.Instrs { if call, ok := instr.(*ssa.Call); ok { if calledFunction, ok := call.Call.Value.(*ssa.Function); ok { if calledFunction.Pkg != nil && calledFunction.Pkg.Pkg.Path() == "crypto/rand" && calledFunction.Name() == "Read" { return true, nil } } } } } return false, nil } func addToVarsMap(value ssa.Value, mapToAddTo map[string]*ssa.Value) { key := value.Name() + value.Type().String() + value.String() + value.Parent().String() mapToAddTo[key] = &value } func isContainedInMap(value ssa.Value, mapToCheck map[string]*ssa.Value) bool { key := value.Name() + value.Type().String() + value.String() + value.Parent().String() _, contained := mapToCheck[key] return contained } func getArgsFromTrackedFunctions(ssaFuncs []*ssa.Function, trackedFunc map[string][]int) map[string]*ssa.Value { values := make(map[string]*ssa.Value) for _, pkgFunc := range ssaFuncs { for _, funcBlock := range pkgFunc.Blocks { for _, funcBlocInstr := range funcBlock.Instrs { iterateTrackedFunctionsAndAddArgs(funcBlocInstr, trackedFunc, values) } } } return values } func iterateTrackedFunctionsAndAddArgs(funcBlocInstr ssa.Instruction, trackedFunc map[string][]int, values map[string]*ssa.Value) { if funcCall, ok := (funcBlocInstr).(*ssa.Call); ok { for trackedFuncName, trackedFuncArgsInfo := range trackedFunc { // only process functions that have the same number of arguments as the ones we track if len(funcCall.Call.Args) == trackedFuncArgsInfo[0] { tmpArg := funcCall.Call.Args[trackedFuncArgsInfo[1]] // check if the function is called from an object or directly from the package if funcCall.Call.Method != nil { if methodFullname := funcCall.Call.Method.FullName(); methodFullname == trackedFuncName { if !isContainedInMap(tmpArg, values) { addToVarsMap(tmpArg, values) } } } else if funcCall.Call.Value.String() == trackedFuncName { if !isContainedInMap(tmpArg, values) { addToVarsMap(tmpArg, values) } } } } } }