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// (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 {
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if contains , funcErr := isFuncContainsCryptoRand ( calledFunction ) ; ! contains && funcErr == nil {
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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
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} else if funcErr != nil {
err = funcErr
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}
}
// 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
}