434 lines
10 KiB
Go
434 lines
10 KiB
Go
package terraform
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import (
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"fmt"
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"log"
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"sort"
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"sync"
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"github.com/hashicorp/go-multierror"
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"github.com/hashicorp/terraform/config"
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"github.com/hashicorp/terraform/config/module"
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)
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// InputMode defines what sort of input will be asked for when Input
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// is called on Context.
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type InputMode byte
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const (
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// InputModeVar asks for all variables
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InputModeVar InputMode = 1 << iota
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// InputModeVarUnset asks for variables which are not set yet
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InputModeVarUnset
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// InputModeProvider asks for provider variables
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InputModeProvider
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// InputModeStd is the standard operating mode and asks for both variables
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// and providers.
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InputModeStd = InputModeVar | InputModeProvider
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)
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// ContextOpts are the user-configurable options to create a context with
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// NewContext.
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type ContextOpts struct {
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Diff *Diff
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Hooks []Hook
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Module *module.Tree
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Parallelism int
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State *State
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Providers map[string]ResourceProviderFactory
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Provisioners map[string]ResourceProvisionerFactory
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Variables map[string]string
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UIInput UIInput
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}
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// Context represents all the context that Terraform needs in order to
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// perform operations on infrastructure. This structure is built using
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// NewContext. See the documentation for that.
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type Context struct {
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diff *Diff
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diffLock sync.RWMutex
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hooks []Hook
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module *module.Tree
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providers map[string]ResourceProviderFactory
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provisioners map[string]ResourceProvisionerFactory
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sh *stopHook
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state *State
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stateLock sync.RWMutex
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uiInput UIInput
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variables map[string]string
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l sync.Mutex // Lock acquired during any task
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parallelSem Semaphore
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providerInputConfig map[string]map[string]interface{}
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runCh <-chan struct{}
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}
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// NewContext creates a new Context structure.
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//
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// Once a Context is creator, the pointer values within ContextOpts
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// should not be mutated in any way, since the pointers are copied, not
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// the values themselves.
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func NewContext(opts *ContextOpts) *Context {
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// Copy all the hooks and add our stop hook. We don't append directly
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// to the Config so that we're not modifying that in-place.
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sh := new(stopHook)
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hooks := make([]Hook, len(opts.Hooks)+1)
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copy(hooks, opts.Hooks)
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hooks[len(opts.Hooks)] = sh
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state := opts.State
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if state == nil {
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state = new(State)
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state.init()
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}
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// Determine parallelism, default to 10. We do this both to limit
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// CPU pressure but also to have an extra guard against rate throttling
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// from providers.
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par := opts.Parallelism
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if par == 0 {
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par = 10
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}
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return &Context{
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diff: opts.Diff,
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hooks: hooks,
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module: opts.Module,
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providers: opts.Providers,
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provisioners: opts.Provisioners,
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state: state,
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uiInput: opts.UIInput,
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variables: opts.Variables,
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parallelSem: NewSemaphore(par),
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providerInputConfig: make(map[string]map[string]interface{}),
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sh: sh,
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}
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}
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// Graph returns the graph for this config.
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func (c *Context) Graph() (*Graph, error) {
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return c.GraphBuilder().Build(RootModulePath)
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}
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// GraphBuilder returns the GraphBuilder that will be used to create
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// the graphs for this context.
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func (c *Context) GraphBuilder() GraphBuilder {
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// TODO test
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providers := make([]string, 0, len(c.providers))
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for k, _ := range c.providers {
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providers = append(providers, k)
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}
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provisioners := make([]string, 0, len(c.provisioners))
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for k, _ := range c.provisioners {
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provisioners = append(provisioners, k)
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}
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return &BuiltinGraphBuilder{
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Root: c.module,
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Diff: c.diff,
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Providers: providers,
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Provisioners: provisioners,
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State: c.state,
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}
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}
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// Input asks for input to fill variables and provider configurations.
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// This modifies the configuration in-place, so asking for Input twice
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// may result in different UI output showing different current values.
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func (c *Context) Input(mode InputMode) error {
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v := c.acquireRun()
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defer c.releaseRun(v)
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if mode&InputModeVar != 0 {
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// Walk the variables first for the root module. We walk them in
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// alphabetical order for UX reasons.
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rootConf := c.module.Config()
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names := make([]string, len(rootConf.Variables))
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m := make(map[string]*config.Variable)
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for i, v := range rootConf.Variables {
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names[i] = v.Name
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m[v.Name] = v
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}
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sort.Strings(names)
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for _, n := range names {
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// If we only care about unset variables, then if the variabel
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// is set, continue on.
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if mode&InputModeVarUnset != 0 {
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if _, ok := c.variables[n]; ok {
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continue
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}
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}
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v := m[n]
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switch v.Type() {
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case config.VariableTypeMap:
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continue
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case config.VariableTypeString:
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// Good!
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default:
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panic(fmt.Sprintf("Unknown variable type: %#v", v.Type()))
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}
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var defaultString string
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if v.Default != nil {
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defaultString = v.Default.(string)
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}
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// Ask the user for a value for this variable
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var value string
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for {
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var err error
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value, err = c.uiInput.Input(&InputOpts{
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Id: fmt.Sprintf("var.%s", n),
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Query: fmt.Sprintf("var.%s", n),
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Default: defaultString,
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Description: v.Description,
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})
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if err != nil {
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return fmt.Errorf(
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"Error asking for %s: %s", n, err)
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}
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if value == "" && v.Required() {
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// Redo if it is required.
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continue
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}
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if value == "" {
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// No value, just exit the loop. With no value, we just
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// use whatever is currently set in variables.
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break
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}
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break
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}
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if value != "" {
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c.variables[n] = value
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}
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}
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}
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if mode&InputModeProvider != 0 {
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// Do the walk
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if _, err := c.walk(walkInput); err != nil {
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return err
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}
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}
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return nil
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}
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// Apply applies the changes represented by this context and returns
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// the resulting state.
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//
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// In addition to returning the resulting state, this context is updated
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// with the latest state.
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func (c *Context) Apply() (*State, error) {
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v := c.acquireRun()
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defer c.releaseRun(v)
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// Copy our own state
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c.state = c.state.DeepCopy()
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// Do the walk
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_, err := c.walk(walkApply)
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// Clean out any unused things
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c.state.prune()
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return c.state, err
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}
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// Plan generates an execution plan for the given context.
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//
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// The execution plan encapsulates the context and can be stored
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// in order to reinstantiate a context later for Apply.
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//
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// Plan also updates the diff of this context to be the diff generated
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// by the plan, so Apply can be called after.
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func (c *Context) Plan(opts *PlanOpts) (*Plan, error) {
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v := c.acquireRun()
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defer c.releaseRun(v)
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p := &Plan{
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Module: c.module,
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Vars: c.variables,
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State: c.state,
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}
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var operation walkOperation
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if opts != nil && opts.Destroy {
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operation = walkPlanDestroy
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} else {
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// Set our state to be something temporary. We do this so that
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// the plan can update a fake state so that variables work, then
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// we replace it back with our old state.
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old := c.state
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if old == nil {
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c.state = &State{}
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c.state.init()
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} else {
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c.state = old.DeepCopy()
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}
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defer func() {
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c.state = old
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}()
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operation = walkPlan
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}
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// Setup our diff
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c.diffLock.Lock()
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c.diff = new(Diff)
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c.diff.init()
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c.diffLock.Unlock()
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// Do the walk
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if _, err := c.walk(operation); err != nil {
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return nil, err
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}
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p.Diff = c.diff
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return p, nil
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}
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// Refresh goes through all the resources in the state and refreshes them
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// to their latest state. This will update the state that this context
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// works with, along with returning it.
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//
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// Even in the case an error is returned, the state will be returned and
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// will potentially be partially updated.
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func (c *Context) Refresh() (*State, error) {
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v := c.acquireRun()
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defer c.releaseRun(v)
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// Copy our own state
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c.state = c.state.DeepCopy()
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// Do the walk
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if _, err := c.walk(walkRefresh); err != nil {
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return nil, err
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}
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// Clean out any unused things
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c.state.prune()
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return c.state, nil
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}
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// Stop stops the running task.
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//
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// Stop will block until the task completes.
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func (c *Context) Stop() {
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c.l.Lock()
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ch := c.runCh
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// If we aren't running, then just return
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if ch == nil {
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c.l.Unlock()
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return
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}
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// Tell the hook we want to stop
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c.sh.Stop()
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// Wait for us to stop
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c.l.Unlock()
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<-ch
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}
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// Validate validates the configuration and returns any warnings or errors.
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func (c *Context) Validate() ([]string, []error) {
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v := c.acquireRun()
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defer c.releaseRun(v)
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var errs error
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// Validate the configuration itself
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if err := c.module.Validate(); err != nil {
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errs = multierror.Append(errs, err)
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}
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// This only needs to be done for the root module, since inter-module
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// variables are validated in the module tree.
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if config := c.module.Config(); config != nil {
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// Validate the user variables
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if err := smcUserVariables(config, c.variables); len(err) > 0 {
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errs = multierror.Append(errs, err...)
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}
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}
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// Walk
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walker, err := c.walk(walkValidate)
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if err != nil {
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return nil, multierror.Append(errs, err).Errors
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}
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// Return the result
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rerrs := multierror.Append(errs, walker.ValidationErrors...)
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return walker.ValidationWarnings, rerrs.Errors
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}
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// Module returns the module tree associated with this context.
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func (c *Context) Module() *module.Tree {
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return c.module
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}
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// Variables will return the mapping of variables that were defined
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// for this Context. If Input was called, this mapping may be different
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// than what was given.
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func (c *Context) Variables() map[string]string {
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return c.variables
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}
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// SetVariable sets a variable after a context has already been built.
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func (c *Context) SetVariable(k, v string) {
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c.variables[k] = v
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}
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func (c *Context) acquireRun() chan<- struct{} {
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c.l.Lock()
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defer c.l.Unlock()
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// Wait for no channel to exist
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for c.runCh != nil {
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c.l.Unlock()
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ch := c.runCh
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<-ch
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c.l.Lock()
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}
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ch := make(chan struct{})
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c.runCh = ch
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return ch
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}
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func (c *Context) releaseRun(ch chan<- struct{}) {
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c.l.Lock()
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defer c.l.Unlock()
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close(ch)
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c.runCh = nil
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c.sh.Reset()
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}
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func (c *Context) walk(operation walkOperation) (*ContextGraphWalker, error) {
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// Build the graph
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graph, err := c.GraphBuilder().Build(RootModulePath)
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if err != nil {
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return nil, err
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}
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// Walk the graph
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log.Printf("[INFO] Starting graph walk: %s", operation.String())
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walker := &ContextGraphWalker{Context: c, Operation: operation}
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return walker, graph.Walk(walker)
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}
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