1
0
mirror of https://github.com/securego/gosec.git synced 2024-12-28 21:08:22 +02:00
gosec/analyzers/hardcodedNonce.go
Dimitar Banchev 7f8f654235 Updated analyzer to use new way of initialization
* Removed old way of initializing analyzers
* Added the new analyzer to the rest of the default analyzers
* Fixed small bug in the rule
* Removed the test for the new analyzer from the file responsible for testing the rules
* Merged the diffrent examples into 1 variable
* Added tests for the analyzer
* Removed code that was used for testing rules, but it was used to test the analyzer
2024-08-30 19:35:07 +02:00

234 lines
9.0 KiB
Go

// (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 defaultWhat = "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},
}
var issues []*issue.Issue
var ssaPkgFunctions = ssaResult.SSA.SrcFuncs
var savedArgsFromFunctions = *iterateAndGetArgsFromTrackedFunctions(ssaPkgFunctions, &calls)
for _, savedArg := range savedArgsFromFunctions {
tmp, err := raiseIssue(savedArg, &calls, ssaPkgFunctions, pass, "")
issues = append(issues, tmp...)
if err != nil {
return nil, err
}
}
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 = nil
var gosecIssue []*issue.Issue = nil
if issueDescription == "" {
issueDescription = defaultWhat
}
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, 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.High, 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 calledFunction, ok := valType.Call.Value.(*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.High, 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, 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()
//}
// 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 := iterateAndGetArgsFromTrackedFunctions(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 {
tmp, hasErr := raiseIssue(trackedVariable, &trackedFunctions, ssaFuncs, pass, issueDescription)
gosecIssue = append(gosecIssue, tmp...)
err = hasErr
}
}
}
return gosecIssue, err
}
// Iterate 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, issueSeverity issue.Score, 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 = nil
// Go trough all functions that use the given arg variable
for _, referrer := range *(*variable).Referrers() {
// 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(referrer.String(), trackedFuncPartsName) {
gosecIssues = append(gosecIssues, newIssue(analyzerID, issueDescription, fileSet, referrer.Pos(), issueSeverity, issueConfidence))
}
}
}
return gosecIssues, nil
}
// Check 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 iterateAndGetArgsFromTrackedFunctions(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 {
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)
}
}
}
}
}
}
}
}
return &values
}