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kube-bench/check/test.go

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// Copyright © 2017 Aqua Security Software Ltd. <info@aquasec.com>
//
// 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 check
import (
"bytes"
"encoding/json"
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"fmt"
"os"
"regexp"
"strconv"
"strings"
yaml "gopkg.in/yaml.v2"
"k8s.io/client-go/util/jsonpath"
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)
// test:
// flag: OPTION
// set: (true|false)
// compare:
// op: (eq|gt|gte|lt|lte|has)
// value: val
type binOp string
const (
and binOp = "and"
or = "or"
defaultArraySeparator = ","
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)
type testItem struct {
Flag string
Path string
Output string
Value string
Set bool
Compare compare
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}
type compare struct {
Op string
Value string
}
type testOutput struct {
testResult bool
actualResult string
ExpectedResult string
}
func failTestItem(s string) *testOutput {
return &testOutput{testResult: false, actualResult: s}
}
func (t *testItem) execute(s string) *testOutput {
result := &testOutput{}
var match bool
var flagVal string
if t.Flag != "" {
// Flag comparison: check if the flag is present in the input
match = strings.Contains(s, t.Flag)
} else {
// Path != "" - we don't know whether it's YAML or JSON but
// we can just try one then the other
var jsonInterface interface{}
if t.Path != "" {
err := unmarshal(s, &jsonInterface)
if err != nil {
fmt.Fprintf(os.Stderr, "failed to load YAML or JSON from provided input \"%s\": %v\n", s, err)
return failTestItem("failed to load YAML or JSON")
}
}
jsonpathResult, err := executeJSONPath(t.Path, &jsonInterface)
if err != nil {
fmt.Fprintf(os.Stderr, "unable to parse path expression \"%s\": %v\n", t.Path, err)
return failTestItem("error executing path expression")
}
match = (jsonpathResult != "")
flagVal = jsonpathResult
}
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if t.Set {
isset := match
if isset && t.Compare.Op != "" {
if t.Flag != "" {
// Expects flags in the form;
// --flag=somevalue
// flag: somevalue
// --flag
// somevalue
pttn := `(` + t.Flag + `)(=|: *)*([^\s]*) *`
flagRe := regexp.MustCompile(pttn)
vals := flagRe.FindStringSubmatch(s)
if len(vals) > 0 {
if vals[3] != "" {
flagVal = vals[3]
} else {
flagVal = vals[1]
}
} else {
fmt.Fprintf(os.Stderr, "invalid flag in testitem definition")
os.Exit(1)
}
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}
result.ExpectedResult, result.testResult = compareOp(t.Compare.Op, flagVal, t.Compare.Value)
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} else {
result.ExpectedResult = fmt.Sprintf("'%s' is present", t.Flag)
result.testResult = isset
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}
} else {
result.ExpectedResult = fmt.Sprintf("'%s' is not present", t.Flag)
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notset := !match
result.testResult = notset
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}
return result
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}
func compareOp(tCompareOp string, flagVal string, tCompareValue string) (string, bool) {
expectedResultPattern := ""
testResult := false
switch tCompareOp {
case "eq":
expectedResultPattern = "'%s' is equal to '%s'"
value := strings.ToLower(flagVal)
// Do case insensitive comparaison for booleans ...
if value == "false" || value == "true" {
testResult = value == tCompareValue
} else {
testResult = flagVal == tCompareValue
}
case "noteq":
expectedResultPattern = "'%s' is not equal to '%s'"
value := strings.ToLower(flagVal)
// Do case insensitive comparaison for booleans ...
if value == "false" || value == "true" {
testResult = !(value == tCompareValue)
} else {
testResult = !(flagVal == tCompareValue)
}
case "gt", "gte", "lt", "lte":
a, b, err := toNumeric(flagVal, tCompareValue)
if err != nil {
fmt.Fprintf(os.Stderr, "%v\n", err)
os.Exit(1)
}
switch tCompareOp {
case "gt":
expectedResultPattern = "%s is greater than %s"
testResult = a > b
case "gte":
expectedResultPattern = "%s is greater or equal to %s"
testResult = a >= b
case "lt":
expectedResultPattern = "%s is lower than %s"
testResult = a < b
case "lte":
expectedResultPattern = "%s is lower or equal to %s"
testResult = a <= b
}
case "has":
expectedResultPattern = "'%s' has '%s'"
testResult = strings.Contains(flagVal, tCompareValue)
case "nothave":
expectedResultPattern = " '%s' not have '%s'"
testResult = !strings.Contains(flagVal, tCompareValue)
case "regex":
expectedResultPattern = " '%s' matched by '%s'"
opRe := regexp.MustCompile(tCompareValue)
testResult = opRe.MatchString(flagVal)
case "valid_elements":
expectedResultPattern = "'%s' contains valid elements from '%s'"
s := splitAndRemoveLastSeparator(flagVal, defaultArraySeparator)
target := splitAndRemoveLastSeparator(tCompareValue, defaultArraySeparator)
testResult = allElementsValid(s, target)
}
if expectedResultPattern == "" {
return expectedResultPattern, testResult
}
return fmt.Sprintf(expectedResultPattern, flagVal, tCompareValue), testResult
}
func unmarshal(s string, jsonInterface *interface{}) error {
data := []byte(s)
err := json.Unmarshal(data, jsonInterface)
if err != nil {
err := yaml.Unmarshal(data, jsonInterface)
if err != nil {
return err
}
}
return nil
}
func executeJSONPath(path string, jsonInterface interface{}) (string, error) {
j := jsonpath.New("jsonpath")
j.AllowMissingKeys(true)
err := j.Parse(path)
if err != nil {
return "", err
}
buf := new(bytes.Buffer)
err = j.Execute(buf, jsonInterface)
if err != nil {
return "", err
}
jsonpathResult := buf.String()
return jsonpathResult, nil
}
func allElementsValid(s, t []string) bool {
sourceEmpty := len(s) == 0
targetEmpty := len(t) == 0
if sourceEmpty && targetEmpty {
return true
}
// XOR comparison -
// if either value is empty and the other is not empty,
// not all elements are valid
if (sourceEmpty || targetEmpty) && !(sourceEmpty && targetEmpty) {
return false
}
for _, sv := range s {
found := false
for _, tv := range t {
if sv == tv {
found = true
break
}
}
if !found {
return false
}
}
return true
}
func splitAndRemoveLastSeparator(s, sep string) []string {
cleanS := strings.TrimRight(strings.TrimSpace(s), sep)
if len(cleanS) == 0 {
return []string{}
}
ts := strings.Split(cleanS, sep)
for i := range ts {
ts[i] = strings.TrimSpace(ts[i])
}
return ts
}
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type tests struct {
TestItems []*testItem `yaml:"test_items"`
BinOp binOp `yaml:"bin_op"`
}
func (ts *tests) execute(s string) *testOutput {
finalOutput := &testOutput{}
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// If no tests are defined return with empty finalOutput.
// This may be the case for checks of type: "skip".
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if ts == nil {
return finalOutput
}
res := make([]testOutput, len(ts.TestItems))
if len(res) == 0 {
return finalOutput
}
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expectedResultArr := make([]string, len(res))
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for i, t := range ts.TestItems {
res[i] = *(t.execute(s))
expectedResultArr[i] = res[i].ExpectedResult
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}
var result bool
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// If no binary operation is specified, default to AND
switch ts.BinOp {
default:
fmt.Fprintf(os.Stderr, "unknown binary operator for tests %s\n", ts.BinOp)
os.Exit(1)
case and, "":
result = true
for i := range res {
result = result && res[i].testResult
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}
// Generate an AND expected result
finalOutput.ExpectedResult = strings.Join(expectedResultArr, " AND ")
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case or:
result = false
for i := range res {
result = result || res[i].testResult
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}
// Generate an OR expected result
finalOutput.ExpectedResult = strings.Join(expectedResultArr, " OR ")
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}
finalOutput.testResult = result
finalOutput.actualResult = res[0].actualResult
if finalOutput.actualResult == "" {
finalOutput.actualResult = s
}
return finalOutput
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}
func toNumeric(a, b string) (c, d int, err error) {
c, err = strconv.Atoi(strings.TrimSpace(a))
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if err != nil {
return -1, -1, fmt.Errorf("toNumeric - error converting %s: %s", a, err)
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}
d, err = strconv.Atoi(strings.TrimSpace(b))
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if err != nil {
return -1, -1, fmt.Errorf("toNumeric - error converting %s: %s", b, err)
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}
return c, d, nil
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}