package terraform import ( "fmt" "log" "sort" "github.com/hashicorp/hcl2/hcl" "github.com/hashicorp/hcl2/hcldec" "github.com/zclconf/go-cty/cty" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/configs" "github.com/hashicorp/terraform/tfdiags" ) // Input asks for input to fill variables and provider configurations. // This modifies the configuration in-place, so asking for Input twice // may result in different UI output showing different current values. func (c *Context) Input(mode InputMode) tfdiags.Diagnostics { var diags tfdiags.Diagnostics defer c.acquireRun("input")() if c.uiInput == nil { log.Printf("[TRACE] Context.Input: uiInput is nil, so skipping") return diags } if mode&InputModeVar != 0 { log.Printf("[TRACE] Context.Input: Prompting for variables") // Walk the variables first for the root module. We walk them in // alphabetical order for UX reasons. configs := c.config.Module.Variables names := make([]string, 0, len(configs)) for name := range configs { names = append(names, name) } sort.Strings(names) Variables: for _, n := range names { v := configs[n] // If we only care about unset variables, then we should set any // variable that is already set. if mode&InputModeVarUnset != 0 { if _, isSet := c.variables[n]; isSet { continue } } // this should only happen during tests if c.uiInput == nil { log.Println("[WARN] Context.uiInput is nil during input walk") continue } // Ask the user for a value for this variable var rawValue string retry := 0 for { var err error rawValue, err = c.uiInput.Input(&InputOpts{ Id: fmt.Sprintf("var.%s", n), Query: fmt.Sprintf("var.%s", n), Description: v.Description, }) if err != nil { diags = diags.Append(tfdiags.Sourceless( tfdiags.Error, "Failed to request interactive input", fmt.Sprintf("Terraform attempted to request a value for var.%s interactively, but encountered an error: %s.", n, err), )) return diags } if rawValue == "" && v.Default == cty.NilVal { // Redo if it is required, but abort if we keep getting // blank entries if retry > 2 { diags = diags.Append(tfdiags.Sourceless( tfdiags.Error, "Required variable not assigned", fmt.Sprintf("The variable %q is required, so Terraform cannot proceed without a defined value for it.", n), )) continue Variables } retry++ continue } break } val, valDiags := v.ParsingMode.Parse(n, rawValue) diags = diags.Append(valDiags) if diags.HasErrors() { continue } c.variables[n] = &InputValue{ Value: val, SourceType: ValueFromInput, } } } if mode&InputModeProvider != 0 { log.Printf("[TRACE] Context.Input: Prompting for provider arguments") // We prompt for input only for provider configurations defined in // the root module. At the time of writing that is an arbitrary // restriction, but we have future plans to support "count" and // "for_each" on modules that will then prevent us from supporting // input for child module configurations anyway (since we'd need to // dynamic-expand first), and provider configurations in child modules // are not recommended since v0.11 anyway, so this restriction allows // us to keep this relatively simple without significant hardship. pcs := make(map[string]*configs.Provider) pas := make(map[string]addrs.ProviderConfig) for _, pc := range c.config.Module.ProviderConfigs { addr := pc.Addr() pcs[addr.String()] = pc pas[addr.String()] = addr log.Printf("[TRACE] Context.Input: Provider %s declared at %s", addr, pc.DeclRange) } // We also need to detect _implied_ provider configs from resources. // These won't have *configs.Provider objects, but they will still // exist in the map and we'll just treat them as empty below. for _, rc := range c.config.Module.ManagedResources { pa := rc.ProviderConfigAddr() if pa.Alias != "" { continue // alias configurations cannot be implied } if _, exists := pcs[pa.String()]; !exists { pcs[pa.String()] = nil pas[pa.String()] = pa log.Printf("[TRACE] Context.Input: Provider %s implied by resource block at %s", pa, rc.DeclRange) } } for _, rc := range c.config.Module.DataResources { pa := rc.ProviderConfigAddr() if pa.Alias != "" { continue // alias configurations cannot be implied } if _, exists := pcs[pa.String()]; !exists { pcs[pa.String()] = nil pas[pa.String()] = pa log.Printf("[TRACE] Context.Input: Provider %s implied by data block at %s", pa, rc.DeclRange) } } for pk, pa := range pas { pc := pcs[pk] // will be nil if this is an implied config // Wrap the input into a namespace input := &PrefixUIInput{ IdPrefix: pk, QueryPrefix: pk + ".", UIInput: c.uiInput, } schema := c.schemas.ProviderConfig(pa.Type) if schema == nil { // Could either be an incorrect config or just an incomplete // mock in tests. We'll let a later pass decide, and just // ignore this for the purposes of gathering input. log.Printf("[TRACE] Context.Input: No schema available for provider type %q", pa.Type) continue } // For our purposes here we just want to detect if attrbutes are // set in config at all, so rather than doing a full decode // (which would require us to prepare an evalcontext, etc) we'll // use the low-level HCL API to process only the top-level // structure. var attrExprs hcl.Attributes // nil if there is no config if pc != nil && pc.Config != nil { lowLevelSchema := schemaForInputSniffing(hcldec.ImpliedSchema(schema.DecoderSpec())) content, _, diags := pc.Config.PartialContent(lowLevelSchema) if diags.HasErrors() { log.Printf("[TRACE] Context.Input: %s has decode error, so ignoring: %s", pa, diags.Error()) continue } attrExprs = content.Attributes } keys := make([]string, 0, len(schema.Attributes)) for key := range schema.Attributes { keys = append(keys, key) } sort.Strings(keys) vals := map[string]cty.Value{} for _, key := range keys { attrS := schema.Attributes[key] if attrS.Optional { continue } if attrExprs != nil { if _, exists := attrExprs[key]; exists { continue } } if !attrS.Type.Equals(cty.String) { continue } log.Printf("[TRACE] Context.Input: Prompting for %s argument %s", pa, key) rawVal, err := input.Input(&InputOpts{ Id: key, Query: key, Description: attrS.Description, }) if err != nil { log.Printf("[TRACE] Context.Input: Failed to prompt for %s argument %s: %s", pa, key, err) continue } vals[key] = cty.StringVal(rawVal) } c.providerInputConfig[pk] = vals log.Printf("[TRACE] Context.Input: Input for %s: %#v", pk, vals) } } return diags } // schemaForInputSniffing returns a transformed version of a given schema // that marks all attributes as optional, which the Context.Input method can // use to detect whether a required argument is set without missing arguments // themselves generating errors. func schemaForInputSniffing(schema *hcl.BodySchema) *hcl.BodySchema { ret := &hcl.BodySchema{ Attributes: make([]hcl.AttributeSchema, len(schema.Attributes)), Blocks: schema.Blocks, } for i, attrS := range schema.Attributes { ret.Attributes[i] = attrS ret.Attributes[i].Required = false } return ret }