mirror of
https://github.com/aquasecurity/kube-bench.git
synced 2024-12-19 05:08:07 +00:00
a6ee61fd08
* removed version prior to 1.11 * removed references to kubernetes versions prior to 1.11
330 lines
7.9 KiB
Go
330 lines
7.9 KiB
Go
// Copyright © 2017 Aqua Security Software Ltd. <info@aquasec.com>
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package check
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import (
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"bytes"
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"fmt"
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"io"
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"os"
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"os/exec"
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"regexp"
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"strings"
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"github.com/golang/glog"
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)
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// NodeType indicates the type of node (master, node).
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type NodeType string
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// State is the state of a control check.
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type State string
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const (
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// PASS check passed.
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PASS State = "PASS"
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// FAIL check failed.
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FAIL State = "FAIL"
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// WARN could not carry out check.
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WARN State = "WARN"
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// INFO informational message
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INFO State = "INFO"
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// MASTER a master node
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MASTER NodeType = "master"
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// NODE a node
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NODE NodeType = "node"
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// FEDERATED a federated deployment.
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FEDERATED NodeType = "federated"
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// MANUAL Check Type
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MANUAL string = "manual"
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)
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// Check contains information about a recommendation in the
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// CIS Kubernetes document.
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type Check struct {
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ID string `yaml:"id" json:"test_number"`
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Text string `json:"test_desc"`
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Audit string `json:"audit"`
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AuditConfig string `yaml:"audit_config"`
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Type string `json:"type"`
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Commands []*exec.Cmd `json:"omit"`
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ConfigCommands []*exec.Cmd `json:"omit"`
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Tests *tests `json:"omit"`
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Set bool `json:"omit"`
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Remediation string `json:"remediation"`
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TestInfo []string `json:"test_info"`
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State `json:"status"`
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ActualValue string `json:"actual_value"`
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Scored bool `json:"scored"`
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ExpectedResult string `json:"expected_result"`
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}
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// Runner wraps the basic Run method.
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type Runner interface {
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// Run runs a given check and returns the execution state.
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Run(c *Check) State
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}
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// NewRunner constructs a default Runner.
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func NewRunner() Runner {
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return &defaultRunner{}
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}
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type defaultRunner struct{}
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func (r *defaultRunner) Run(c *Check) State {
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return c.run()
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}
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// Run executes the audit commands specified in a check and outputs
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// the results.
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func (c *Check) run() State {
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// Since this is an Scored check
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// without tests return a 'WARN' to alert
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// the user that this check needs attention
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if c.Scored && len(strings.TrimSpace(c.Type)) == 0 && c.Tests == nil {
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c.State = WARN
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return c.State
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}
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// If check type is skip, force result to INFO
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if c.Type == "skip" {
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c.State = INFO
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return c.State
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}
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// If check type is manual force result to WARN
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if c.Type == MANUAL {
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c.State = WARN
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return c.State
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}
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lastCommand := c.Audit
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hasAuditConfig := c.ConfigCommands != nil
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state, finalOutput, retErrmsgs := performTest(c.Audit, c.Commands, c.Tests)
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if len(state) > 0 {
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c.State = state
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return c.State
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}
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errmsgs := retErrmsgs
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// If something went wrong with the 'Audit' command
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// and an 'AuditConfig' command was provided, use it to
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// execute tests
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if (finalOutput == nil || !finalOutput.testResult) && hasAuditConfig {
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lastCommand = c.AuditConfig
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nItems := len(c.Tests.TestItems)
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// The reason we're creating a copy of the "tests"
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// is so that tests can executed
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// with the AuditConfig command
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// against the Path only
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currentTests := &tests{
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BinOp: c.Tests.BinOp,
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TestItems: make([]*testItem, nItems),
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}
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for i := 0; i < nItems; i++ {
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ti := c.Tests.TestItems[i]
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nti := &testItem{
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// Path is used to test Command Param values
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// AuditConfig ==> Path
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Path: ti.Path,
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Set: ti.Set,
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Compare: ti.Compare,
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}
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currentTests.TestItems[i] = nti
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}
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state, finalOutput, retErrmsgs = performTest(c.AuditConfig, c.ConfigCommands, currentTests)
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if len(state) > 0 {
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c.State = state
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return c.State
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}
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errmsgs += retErrmsgs
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}
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if finalOutput != nil && finalOutput.testResult {
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c.State = PASS
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c.ActualValue = finalOutput.actualResult
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c.ExpectedResult = finalOutput.ExpectedResult
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glog.V(3).Infof("Check.ID: %s Command: %q TestResult: %t Score: %q \n", c.ID, lastCommand, finalOutput.testResult, c.State)
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} else {
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if c.Scored {
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c.State = FAIL
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} else {
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c.State = WARN
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}
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}
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if finalOutput == nil {
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glog.V(3).Infof("Check.ID: %s Command: %q TestResult: <<EMPTY>> \n", c.ID, lastCommand)
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}
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if errmsgs != "" {
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glog.V(2).Info(errmsgs)
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}
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return c.State
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}
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// textToCommand transforms an input text representation of commands to be
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// run into a slice of commands.
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// TODO: Make this more robust.
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func textToCommand(s string) []*exec.Cmd {
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glog.V(3).Infof("textToCommand: %q\n", s)
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cmds := []*exec.Cmd{}
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cp := strings.Split(s, "|")
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for _, v := range cp {
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v = strings.Trim(v, " ")
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// TODO:
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// GOAL: To split input text into arguments for exec.Cmd.
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//
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// CHALLENGE: The input text may contain quoted strings that
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// must be passed as a unit to exec.Cmd.
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// eg. bash -c 'foo bar'
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// 'foo bar' must be passed as unit to exec.Cmd if not the command
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// will fail when it is executed.
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// eg. exec.Cmd("bash", "-c", "foo bar")
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//
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// PROBLEM: Current solution assumes the grouped string will always
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// be at the end of the input text.
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re := regexp.MustCompile(`^(.*)(['"].*['"])$`)
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grps := re.FindStringSubmatch(v)
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var cs []string
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if len(grps) > 0 {
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s := strings.Trim(grps[1], " ")
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cs = strings.Split(s, " ")
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s1 := grps[len(grps)-1]
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s1 = strings.Trim(s1, "'\"")
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cs = append(cs, s1)
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} else {
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cs = strings.Split(v, " ")
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}
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cmd := exec.Command(cs[0], cs[1:]...)
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cmds = append(cmds, cmd)
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}
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return cmds
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}
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func isShellCommand(s string) bool {
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cmd := exec.Command("/bin/sh", "-c", "command -v "+s)
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out, err := cmd.Output()
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if err != nil {
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fmt.Fprintf(os.Stderr, "%s\n", err)
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os.Exit(1)
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}
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if strings.Contains(string(out), s) {
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return true
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}
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return false
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}
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func performTest(audit string, commands []*exec.Cmd, tests *tests) (State, *testOutput, string) {
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if len(strings.TrimSpace(audit)) == 0 {
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return "", failTestItem("missing command"), ""
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}
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var out bytes.Buffer
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state, retErrmsgs := runExecCommands(audit, commands, &out)
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if len(state) > 0 {
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return state, nil, ""
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}
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errmsgs := retErrmsgs
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finalOutput := tests.execute(out.String())
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if finalOutput == nil {
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errmsgs += fmt.Sprintf("Final output is <<EMPTY>>. Failed to run: %s\n", audit)
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}
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return "", finalOutput, errmsgs
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}
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func runExecCommands(audit string, commands []*exec.Cmd, out *bytes.Buffer) (State, string) {
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var err error
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errmsgs := ""
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// Check if command exists or exit with WARN.
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for _, cmd := range commands {
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if !isShellCommand(cmd.Path) {
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return WARN, errmsgs
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}
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}
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// Run commands.
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n := len(commands)
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if n == 0 {
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// Likely a warning message.
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return WARN, errmsgs
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}
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// Each command runs,
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// cmd0 out -> cmd1 in, cmd1 out -> cmd2 in ... cmdn out -> os.stdout
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// cmd0 err should terminate chain
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cs := commands
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// Initialize command pipeline
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cs[n-1].Stdout = out
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i := 1
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for i < n {
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cs[i-1].Stdout, err = cs[i].StdinPipe()
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if err != nil {
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errmsgs += fmt.Sprintf("failed to run: %s, command: %s, error: %s\n", audit, cs[i].Args, err)
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}
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i++
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}
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// Start command pipeline
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i = 0
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for i < n {
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err := cs[i].Start()
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if err != nil {
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errmsgs += fmt.Sprintf("failed to run: %s, command: %s, error: %s\n", audit, cs[i].Args, err)
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}
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i++
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}
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// Complete command pipeline
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i = 0
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for i < n {
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err := cs[i].Wait()
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if err != nil {
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errmsgs += fmt.Sprintf("failed to run: %s, command: %s, error: %s\n", audit, cs[i].Args, err)
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}
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if i < n-1 {
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cs[i].Stdout.(io.Closer).Close()
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}
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i++
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}
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glog.V(3).Infof("Command %q - Output:\n\n %s\n", audit, out.String())
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return "", errmsgs
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}
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