act/pkg/model/workflow.go

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package model
import (
"fmt"
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"io"
"reflect"
"regexp"
"strconv"
"strings"
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"github.com/nektos/act/pkg/common"
log "github.com/sirupsen/logrus"
"gopkg.in/yaml.v3"
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)
// Workflow is the structure of the files in .github/workflows
type Workflow struct {
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File string
Name string `yaml:"name"`
RawOn yaml.Node `yaml:"on"`
Env map[string]string `yaml:"env"`
Jobs map[string]*Job `yaml:"jobs"`
Defaults Defaults `yaml:"defaults"`
}
// On events for the workflow
func (w *Workflow) On() []string {
switch w.RawOn.Kind {
case yaml.ScalarNode:
var val string
err := w.RawOn.Decode(&val)
if err != nil {
log.Fatal(err)
}
return []string{val}
case yaml.SequenceNode:
var val []string
err := w.RawOn.Decode(&val)
if err != nil {
log.Fatal(err)
}
return val
case yaml.MappingNode:
var val map[string]interface{}
err := w.RawOn.Decode(&val)
if err != nil {
log.Fatal(err)
}
var keys []string
for k := range val {
keys = append(keys, k)
}
return keys
}
return nil
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}
func (w *Workflow) OnEvent(event string) interface{} {
if w.RawOn.Kind == yaml.MappingNode {
var val map[string]interface{}
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if !decodeNode(w.RawOn, &val) {
return nil
}
return val[event]
}
return nil
}
func (w *Workflow) OnSchedule() []string {
schedules := w.OnEvent("schedule")
if schedules == nil {
return []string{}
}
switch val := schedules.(type) {
case []interface{}:
allSchedules := []string{}
for _, v := range val {
for k, cron := range v.(map[string]interface{}) {
if k != "cron" {
continue
}
allSchedules = append(allSchedules, cron.(string))
}
}
return allSchedules
default:
}
return []string{}
}
type WorkflowDispatchInput struct {
Description string `yaml:"description"`
Required bool `yaml:"required"`
Default string `yaml:"default"`
Type string `yaml:"type"`
Options []string `yaml:"options"`
}
type WorkflowDispatch struct {
Inputs map[string]WorkflowDispatchInput `yaml:"inputs"`
}
func (w *Workflow) WorkflowDispatchConfig() *WorkflowDispatch {
switch w.RawOn.Kind {
case yaml.ScalarNode:
var val string
if !decodeNode(w.RawOn, &val) {
return nil
}
if val == "workflow_dispatch" {
return &WorkflowDispatch{}
}
case yaml.SequenceNode:
var val []string
if !decodeNode(w.RawOn, &val) {
return nil
}
for _, v := range val {
if v == "workflow_dispatch" {
return &WorkflowDispatch{}
}
}
case yaml.MappingNode:
var val map[string]yaml.Node
if !decodeNode(w.RawOn, &val) {
return nil
}
n, found := val["workflow_dispatch"]
var workflowDispatch WorkflowDispatch
if found && decodeNode(n, &workflowDispatch) {
return &workflowDispatch
}
default:
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return nil
}
return nil
}
type WorkflowCallInput struct {
Description string `yaml:"description"`
Required bool `yaml:"required"`
Default string `yaml:"default"`
Type string `yaml:"type"`
}
type WorkflowCallOutput struct {
Description string `yaml:"description"`
Value string `yaml:"value"`
}
type WorkflowCall struct {
Inputs map[string]WorkflowCallInput `yaml:"inputs"`
Outputs map[string]WorkflowCallOutput `yaml:"outputs"`
}
type WorkflowCallResult struct {
Outputs map[string]string
}
func (w *Workflow) WorkflowCallConfig() *WorkflowCall {
if w.RawOn.Kind != yaml.MappingNode {
// The callers expect for "on: workflow_call" and "on: [ workflow_call ]" a non nil return value
return &WorkflowCall{}
}
var val map[string]yaml.Node
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if !decodeNode(w.RawOn, &val) {
return &WorkflowCall{}
}
var config WorkflowCall
node := val["workflow_call"]
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if !decodeNode(node, &config) {
return &WorkflowCall{}
}
return &config
}
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// Job is the structure of one job in a workflow
type Job struct {
Name string `yaml:"name"`
RawNeeds yaml.Node `yaml:"needs"`
RawRunsOn yaml.Node `yaml:"runs-on"`
Env yaml.Node `yaml:"env"`
If yaml.Node `yaml:"if"`
Steps []*Step `yaml:"steps"`
TimeoutMinutes string `yaml:"timeout-minutes"`
Services map[string]*ContainerSpec `yaml:"services"`
Strategy *Strategy `yaml:"strategy"`
RawContainer yaml.Node `yaml:"container"`
Defaults Defaults `yaml:"defaults"`
Outputs map[string]string `yaml:"outputs"`
Uses string `yaml:"uses"`
With map[string]interface{} `yaml:"with"`
RawSecrets yaml.Node `yaml:"secrets"`
fix: continue jobs + steps after failure (#840) * fix: continue jobs + steps after failure To allow proper if expression handling on jobs and steps (like always, success, failure, ...) we need to continue running all executors in the prepared chain. To keep the error handling intact we add an occurred error to the go context and handle it later in the pipeline/chain. Also we add the job result to the needs context to give expressions access to it. The needs object, failure and success functions are split between run context (on jobs) and step context. Closes #442 Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * style: correct linter warnings Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * fix: job if value defaults to success() As described in the documentation, a default value of "success()" is applied when no "if" value is present on the job. https://docs.github.com/en/actions/learn-github-actions/expressions#job-status-check-functions Co-authored-by: Markus Wolf <mail@markus-wolf.de> * fix: check job needs recursively Ensure job result includes results of previous jobs Co-authored-by: Markus Wolf <markus.wolf@new-work.se> * test: add runner test for job status check functions Co-authored-by: Markus Wolf <markus.wolf@new-work.se> * test: add unit tests for run context if evaluation Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * refactor: move if expression evaluation Move if expression evaluation into own function (step context) to better support unit testing. Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * test: add unit tests for step context if evaluation Co-authored-by: Markus Wolf <markus.wolf@new-work.se> * fix: handle job error more resilient The job error is not stored in a context map instead of a context added value. Since context values are immutable an added value requires to keep the new context in all cases. This is fragile since it might slip unnoticed to other parts of the code. Storing the error of a job in the context map will make it more stable, since the map is always there and the context of the pipeline is stable for the whole run. * feat: steps should use a default if expression of success() * test: add integration test for if-expressions * chore: disable editorconfig-checker for yaml multiline string Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> Co-authored-by: Björn Brauer <bjoern.brauer@new-work.se>
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Result string
}
// Strategy for the job
type Strategy struct {
FailFast bool
MaxParallel int
FailFastString string `yaml:"fail-fast"`
MaxParallelString string `yaml:"max-parallel"`
RawMatrix yaml.Node `yaml:"matrix"`
}
// Default settings that will apply to all steps in the job or workflow
type Defaults struct {
Run RunDefaults `yaml:"run"`
}
// Defaults for all run steps in the job or workflow
type RunDefaults struct {
Shell string `yaml:"shell"`
WorkingDirectory string `yaml:"working-directory"`
}
// GetMaxParallel sets default and returns value for `max-parallel`
func (s Strategy) GetMaxParallel() int {
// MaxParallel default value is `GitHub will maximize the number of jobs run in parallel depending on the available runners on GitHub-hosted virtual machines`
// So I take the liberty to hardcode default limit to 4 and this is because:
// 1: tl;dr: self-hosted does only 1 parallel job - https://github.com/actions/runner/issues/639#issuecomment-825212735
// 2: GH has 20 parallel job limit (for free tier) - https://github.com/github/docs/blob/3ae84420bd10997bb5f35f629ebb7160fe776eae/content/actions/reference/usage-limits-billing-and-administration.md?plain=1#L45
// 3: I want to add support for MaxParallel to act and 20! parallel jobs is a bit overkill IMHO
maxParallel := 4
if s.MaxParallelString != "" {
var err error
if maxParallel, err = strconv.Atoi(s.MaxParallelString); err != nil {
log.Errorf("Failed to parse 'max-parallel' option: %v", err)
}
}
return maxParallel
}
// GetFailFast sets default and returns value for `fail-fast`
func (s Strategy) GetFailFast() bool {
// FailFast option is true by default: https://github.com/github/docs/blob/3ae84420bd10997bb5f35f629ebb7160fe776eae/content/actions/reference/workflow-syntax-for-github-actions.md?plain=1#L1107
failFast := true
log.Debug(s.FailFastString)
if s.FailFastString != "" {
var err error
if failFast, err = strconv.ParseBool(s.FailFastString); err != nil {
log.Errorf("Failed to parse 'fail-fast' option: %v", err)
}
}
return failFast
}
func (j *Job) InheritSecrets() bool {
if j.RawSecrets.Kind != yaml.ScalarNode {
return false
}
var val string
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if !decodeNode(j.RawSecrets, &val) {
return false
}
return val == "inherit"
}
func (j *Job) Secrets() map[string]string {
if j.RawSecrets.Kind != yaml.MappingNode {
return nil
}
var val map[string]string
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if !decodeNode(j.RawSecrets, &val) {
return nil
}
return val
}
// Container details for the job
func (j *Job) Container() *ContainerSpec {
var val *ContainerSpec
switch j.RawContainer.Kind {
case yaml.ScalarNode:
val = new(ContainerSpec)
if !decodeNode(j.RawContainer, &val.Image) {
return nil
}
case yaml.MappingNode:
val = new(ContainerSpec)
if !decodeNode(j.RawContainer, val) {
return nil
}
}
return val
}
// Needs list for Job
func (j *Job) Needs() []string {
switch j.RawNeeds.Kind {
case yaml.ScalarNode:
var val string
if !decodeNode(j.RawNeeds, &val) {
return nil
}
return []string{val}
case yaml.SequenceNode:
var val []string
if !decodeNode(j.RawNeeds, &val) {
return nil
}
return val
}
return nil
}
// RunsOn list for Job
func (j *Job) RunsOn() []string {
switch j.RawRunsOn.Kind {
case yaml.MappingNode:
var val struct {
Group string
Labels yaml.Node
}
if !decodeNode(j.RawRunsOn, &val) {
return nil
}
labels := nodeAsStringSlice(val.Labels)
if val.Group != "" {
labels = append(labels, val.Group)
}
return labels
default:
return nodeAsStringSlice(j.RawRunsOn)
}
}
func nodeAsStringSlice(node yaml.Node) []string {
switch node.Kind {
case yaml.ScalarNode:
var val string
if !decodeNode(node, &val) {
return nil
}
return []string{val}
case yaml.SequenceNode:
var val []string
if !decodeNode(node, &val) {
return nil
}
return val
}
return nil
}
func environment(yml yaml.Node) map[string]string {
env := make(map[string]string)
if yml.Kind == yaml.MappingNode {
if !decodeNode(yml, &env) {
return nil
}
}
return env
}
// Environments returns string-based key=value map for a job
func (j *Job) Environment() map[string]string {
return environment(j.Env)
}
// Matrix decodes RawMatrix YAML node
func (j *Job) Matrix() map[string][]interface{} {
if j.Strategy.RawMatrix.Kind == yaml.MappingNode {
var val map[string][]interface{}
if !decodeNode(j.Strategy.RawMatrix, &val) {
return nil
}
return val
}
return nil
}
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// GetMatrixes returns the matrix cross product
// It skips includes and hard fails excludes for non-existing keys
//
//nolint:gocyclo
func (j *Job) GetMatrixes() ([]map[string]interface{}, error) {
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matrixes := make([]map[string]interface{}, 0)
if j.Strategy != nil {
j.Strategy.FailFast = j.Strategy.GetFailFast()
j.Strategy.MaxParallel = j.Strategy.GetMaxParallel()
if m := j.Matrix(); m != nil {
includes := make([]map[string]interface{}, 0)
extraIncludes := make([]map[string]interface{}, 0)
for _, v := range m["include"] {
switch t := v.(type) {
case []interface{}:
for _, i := range t {
i := i.(map[string]interface{})
extraInclude := true
for k := range i {
if _, ok := m[k]; ok {
includes = append(includes, i)
extraInclude = false
break
}
}
if extraInclude {
extraIncludes = append(extraIncludes, i)
}
}
case interface{}:
v := v.(map[string]interface{})
extraInclude := true
for k := range v {
if _, ok := m[k]; ok {
includes = append(includes, v)
extraInclude = false
break
}
}
if extraInclude {
extraIncludes = append(extraIncludes, v)
}
}
}
delete(m, "include")
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excludes := make([]map[string]interface{}, 0)
for _, e := range m["exclude"] {
e := e.(map[string]interface{})
for k := range e {
if _, ok := m[k]; ok {
excludes = append(excludes, e)
} else {
// We fail completely here because that's what GitHub does for non-existing matrix keys, fail on exclude, silent skip on include
return nil, fmt.Errorf("the workflow is not valid. Matrix exclude key %q does not match any key within the matrix", k)
}
}
}
delete(m, "exclude")
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matrixProduct := common.CartesianProduct(m)
MATRIX:
for _, matrix := range matrixProduct {
for _, exclude := range excludes {
if commonKeysMatch(matrix, exclude) {
log.Debugf("Skipping matrix '%v' due to exclude '%v'", matrix, exclude)
continue MATRIX
}
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}
matrixes = append(matrixes, matrix)
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}
for _, include := range includes {
matched := false
for _, matrix := range matrixes {
if commonKeysMatch2(matrix, include, m) {
matched = true
log.Debugf("Adding include values '%v' to existing entry", include)
for k, v := range include {
matrix[k] = v
}
}
}
if !matched {
extraIncludes = append(extraIncludes, include)
}
}
for _, include := range extraIncludes {
log.Debugf("Adding include '%v'", include)
matrixes = append(matrixes, include)
}
if len(matrixes) == 0 {
matrixes = append(matrixes, make(map[string]interface{}))
}
} else {
matrixes = append(matrixes, make(map[string]interface{}))
}
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} else {
matrixes = append(matrixes, make(map[string]interface{}))
log.Debugf("Empty Strategy, matrixes=%v", matrixes)
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}
return matrixes, nil
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}
func commonKeysMatch(a map[string]interface{}, b map[string]interface{}) bool {
for aKey, aVal := range a {
if bVal, ok := b[aKey]; ok && !reflect.DeepEqual(aVal, bVal) {
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return false
}
}
return true
}
func commonKeysMatch2(a map[string]interface{}, b map[string]interface{}, m map[string][]interface{}) bool {
for aKey, aVal := range a {
_, useKey := m[aKey]
if bVal, ok := b[aKey]; useKey && ok && !reflect.DeepEqual(aVal, bVal) {
return false
}
}
return true
}
// JobType describes what type of job we are about to run
type JobType int
const (
// JobTypeDefault is all jobs that have a `run` attribute
JobTypeDefault JobType = iota
// JobTypeReusableWorkflowLocal is all jobs that have a `uses` that is a local workflow in the .github/workflows directory
JobTypeReusableWorkflowLocal
// JobTypeReusableWorkflowRemote is all jobs that have a `uses` that references a workflow file in a github repo
JobTypeReusableWorkflowRemote
// JobTypeInvalid represents a job which is not configured correctly
JobTypeInvalid
)
func (j JobType) String() string {
switch j {
case JobTypeDefault:
return "default"
case JobTypeReusableWorkflowLocal:
return "local-reusable-workflow"
case JobTypeReusableWorkflowRemote:
return "remote-reusable-workflow"
}
return "unknown"
}
// Type returns the type of the job
func (j *Job) Type() (JobType, error) {
isReusable := j.Uses != ""
if isReusable {
isYaml, _ := regexp.MatchString(`\.(ya?ml)(?:$|@)`, j.Uses)
if isYaml {
isLocalPath := strings.HasPrefix(j.Uses, "./")
isRemotePath, _ := regexp.MatchString(`^[^.](.+?/){2,}.+\.ya?ml@`, j.Uses)
hasVersion, _ := regexp.MatchString(`\.ya?ml@`, j.Uses)
if isLocalPath {
return JobTypeReusableWorkflowLocal, nil
} else if isRemotePath && hasVersion {
return JobTypeReusableWorkflowRemote, nil
}
}
return JobTypeInvalid, fmt.Errorf("`uses` key references invalid workflow path '%s'. Must start with './' if it's a local workflow, or must start with '<org>/<repo>/' and include an '@' if it's a remote workflow", j.Uses)
}
return JobTypeDefault, nil
}
// ContainerSpec is the specification of the container to use for the job
type ContainerSpec struct {
Image string `yaml:"image"`
Env map[string]string `yaml:"env"`
Ports []string `yaml:"ports"`
Volumes []string `yaml:"volumes"`
Options string `yaml:"options"`
Credentials map[string]string `yaml:"credentials"`
Entrypoint string
Args string
Name string
Reuse bool
// Gitea specific
Cmd []string `yaml:"cmd"`
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}
// Step is the structure of one step in a job
type Step struct {
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Number int `yaml:"-"`
ID string `yaml:"id"`
If yaml.Node `yaml:"if"`
Name string `yaml:"name"`
Uses string `yaml:"uses"`
Run string `yaml:"run"`
WorkingDirectory string `yaml:"working-directory"`
Shell string `yaml:"shell"`
Env yaml.Node `yaml:"env"`
With map[string]string `yaml:"with"`
RawContinueOnError string `yaml:"continue-on-error"`
TimeoutMinutes string `yaml:"timeout-minutes"`
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}
// String gets the name of step
func (s *Step) String() string {
if s.Name != "" {
return s.Name
} else if s.Uses != "" {
return s.Uses
} else if s.Run != "" {
return s.Run
}
return s.ID
}
// Environments returns string-based key=value map for a step
func (s *Step) Environment() map[string]string {
return environment(s.Env)
}
// GetEnv gets the env for a step
func (s *Step) GetEnv() map[string]string {
env := s.Environment()
for k, v := range s.With {
envKey := regexp.MustCompile("[^A-Z0-9-]").ReplaceAllString(strings.ToUpper(k), "_")
envKey = fmt.Sprintf("INPUT_%s", strings.ToUpper(envKey))
env[envKey] = v
}
return env
}
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// ShellCommand returns the command for the shell
func (s *Step) ShellCommand() string {
shellCommand := ""
// Reference: https://github.com/actions/runner/blob/8109c962f09d9acc473d92c595ff43afceddb347/src/Runner.Worker/Handlers/ScriptHandlerHelpers.cs#L9-L17
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switch s.Shell {
case "", "bash":
shellCommand = "bash --noprofile --norc -e -o pipefail {0}"
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case "pwsh":
shellCommand = "pwsh -command . '{0}'"
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case "python":
shellCommand = "python {0}"
case "sh":
shellCommand = "sh -e {0}"
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case "cmd":
shellCommand = "cmd /D /E:ON /V:OFF /S /C \"CALL \"{0}\"\""
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case "powershell":
shellCommand = "powershell -command . '{0}'"
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default:
shellCommand = s.Shell
}
return shellCommand
}
// StepType describes what type of step we are about to run
type StepType int
const (
// StepTypeRun is all steps that have a `run` attribute
StepTypeRun StepType = iota
// StepTypeUsesDockerURL is all steps that have a `uses` that is of the form `docker://...`
StepTypeUsesDockerURL
// StepTypeUsesActionLocal is all steps that have a `uses` that is a local action in a subdirectory
StepTypeUsesActionLocal
// StepTypeUsesActionRemote is all steps that have a `uses` that is a reference to a github repo
StepTypeUsesActionRemote
// StepTypeReusableWorkflowLocal is all steps that have a `uses` that is a local workflow in the .github/workflows directory
StepTypeReusableWorkflowLocal
// StepTypeReusableWorkflowRemote is all steps that have a `uses` that references a workflow file in a github repo
StepTypeReusableWorkflowRemote
// StepTypeInvalid is for steps that have invalid step action
StepTypeInvalid
)
func (s StepType) String() string {
switch s {
case StepTypeInvalid:
return "invalid"
case StepTypeRun:
return "run"
case StepTypeUsesActionLocal:
return "local-action"
case StepTypeUsesActionRemote:
return "remote-action"
case StepTypeUsesDockerURL:
return "docker"
case StepTypeReusableWorkflowLocal:
return "local-reusable-workflow"
case StepTypeReusableWorkflowRemote:
return "remote-reusable-workflow"
}
return "unknown"
}
// Type returns the type of the step
func (s *Step) Type() StepType {
if s.Run == "" && s.Uses == "" {
return StepTypeInvalid
}
if s.Run != "" {
if s.Uses != "" {
return StepTypeInvalid
}
return StepTypeRun
} else if strings.HasPrefix(s.Uses, "docker://") {
return StepTypeUsesDockerURL
} else if strings.HasPrefix(s.Uses, "./.github/workflows") && (strings.HasSuffix(s.Uses, ".yml") || strings.HasSuffix(s.Uses, ".yaml")) {
return StepTypeReusableWorkflowLocal
} else if !strings.HasPrefix(s.Uses, "./") && strings.Contains(s.Uses, ".github/workflows") && (strings.Contains(s.Uses, ".yml@") || strings.Contains(s.Uses, ".yaml@")) {
return StepTypeReusableWorkflowRemote
} else if strings.HasPrefix(s.Uses, "./") {
return StepTypeUsesActionLocal
}
return StepTypeUsesActionRemote
}
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// ReadWorkflow returns a list of jobs for a given workflow file reader
func ReadWorkflow(in io.Reader) (*Workflow, error) {
w := new(Workflow)
err := yaml.NewDecoder(in).Decode(w)
return w, err
}
// GetJob will get a job by name in the workflow
func (w *Workflow) GetJob(jobID string) *Job {
for id, j := range w.Jobs {
if jobID == id {
if j.Name == "" {
j.Name = id
}
fix: continue jobs + steps after failure (#840) * fix: continue jobs + steps after failure To allow proper if expression handling on jobs and steps (like always, success, failure, ...) we need to continue running all executors in the prepared chain. To keep the error handling intact we add an occurred error to the go context and handle it later in the pipeline/chain. Also we add the job result to the needs context to give expressions access to it. The needs object, failure and success functions are split between run context (on jobs) and step context. Closes #442 Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * style: correct linter warnings Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * fix: job if value defaults to success() As described in the documentation, a default value of "success()" is applied when no "if" value is present on the job. https://docs.github.com/en/actions/learn-github-actions/expressions#job-status-check-functions Co-authored-by: Markus Wolf <mail@markus-wolf.de> * fix: check job needs recursively Ensure job result includes results of previous jobs Co-authored-by: Markus Wolf <markus.wolf@new-work.se> * test: add runner test for job status check functions Co-authored-by: Markus Wolf <markus.wolf@new-work.se> * test: add unit tests for run context if evaluation Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * refactor: move if expression evaluation Move if expression evaluation into own function (step context) to better support unit testing. Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> * test: add unit tests for step context if evaluation Co-authored-by: Markus Wolf <markus.wolf@new-work.se> * fix: handle job error more resilient The job error is not stored in a context map instead of a context added value. Since context values are immutable an added value requires to keep the new context in all cases. This is fragile since it might slip unnoticed to other parts of the code. Storing the error of a job in the context map will make it more stable, since the map is always there and the context of the pipeline is stable for the whole run. * feat: steps should use a default if expression of success() * test: add integration test for if-expressions * chore: disable editorconfig-checker for yaml multiline string Co-authored-by: Björn Brauer <zaubernerd@zaubernerd.de> Co-authored-by: Björn Brauer <bjoern.brauer@new-work.se>
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if j.If.Value == "" {
j.If.Value = "success()"
}
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return j
}
}
return nil
}
// GetJobIDs will get all the job names in the workflow
func (w *Workflow) GetJobIDs() []string {
ids := make([]string, 0)
for id := range w.Jobs {
ids = append(ids, id)
}
return ids
}
var OnDecodeNodeError = func(node yaml.Node, out interface{}, err error) {
log.Fatalf("Failed to decode node %v into %T: %v", node, out, err)
}
func decodeNode(node yaml.Node, out interface{}) bool {
if err := node.Decode(out); err != nil {
if OnDecodeNodeError != nil {
OnDecodeNodeError(node, out, err)
}
return false
}
return true
}