package command import ( "fmt" "io" "os" "path/filepath" "sort" "strings" "github.com/hashicorp/atlas-go/archive" "github.com/hashicorp/atlas-go/v1" "github.com/hashicorp/terraform/terraform" ) type PushCommand struct { Meta // client is the client to use for the actual push operations. // If this isn't set, then the Atlas client is used. This should // really only be set for testing reasons (and is hence not exported). client pushClient } func (c *PushCommand) Run(args []string) int { var atlasAddress, atlasToken string var archiveVCS, moduleUpload bool var name string var overwrite []string args = c.Meta.process(args, true) cmdFlags := c.Meta.flagSet("push") cmdFlags.StringVar(&atlasAddress, "atlas-address", "", "") cmdFlags.StringVar(&c.Meta.statePath, "state", DefaultStateFilename, "path") cmdFlags.StringVar(&atlasToken, "token", "", "") cmdFlags.BoolVar(&moduleUpload, "upload-modules", true, "") cmdFlags.StringVar(&name, "name", "", "") cmdFlags.BoolVar(&archiveVCS, "vcs", true, "") cmdFlags.Var((*FlagStringSlice)(&overwrite), "overwrite", "") cmdFlags.Usage = func() { c.Ui.Error(c.Help()) } if err := cmdFlags.Parse(args); err != nil { return 1 } // Make a map of the set values overwriteMap := make(map[string]struct{}, len(overwrite)) for _, v := range overwrite { overwriteMap[v] = struct{}{} } // This is a map of variables specifically from the CLI that we want to overwrite. // We need this because there is a chance that the user is trying to modify // a variable we don't see in our context, but which exists in this atlas // environment. cliVars := make(map[string]string) for k, v := range c.variables { if _, ok := overwriteMap[k]; ok { if val, ok := v.(string); ok { cliVars[k] = val } else { c.Ui.Error(fmt.Sprintf("Error reading value for variable: %s", k)) return 1 } } } // The pwd is used for the configuration path if one is not given pwd, err := os.Getwd() if err != nil { c.Ui.Error(fmt.Sprintf("Error getting pwd: %s", err)) return 1 } // Get the path to the configuration depending on the args. var configPath string args = cmdFlags.Args() if len(args) > 1 { c.Ui.Error("The apply command expects at most one argument.") cmdFlags.Usage() return 1 } else if len(args) == 1 { configPath = args[0] } else { configPath = pwd } // Verify the state is remote, we can't push without a remote state s, err := c.State() if err != nil { c.Ui.Error(fmt.Sprintf("Failed to read state: %s", err)) return 1 } if !s.State().IsRemote() { c.Ui.Error( "Remote state is not enabled. For Atlas to run Terraform\n" + "for you, remote state must be used and configured. Remote\n" + "state via any backend is accepted, not just Atlas. To\n" + "configure remote state, use the `terraform remote config`\n" + "command.") return 1 } // Build the context based on the arguments given ctx, planned, err := c.Context(contextOpts{ Path: configPath, StatePath: c.Meta.statePath, }) if err != nil { c.Ui.Error(err.Error()) return 1 } if planned { c.Ui.Error( "A plan file cannot be given as the path to the configuration.\n" + "A path to a module (directory with configuration) must be given.") return 1 } // Get the configuration config := ctx.Module().Config() if name == "" { if config.Atlas == nil || config.Atlas.Name == "" { c.Ui.Error( "The name of this Terraform configuration in Atlas must be\n" + "specified within your configuration or the command-line. To\n" + "set it on the command-line, use the `-name` parameter.") return 1 } name = config.Atlas.Name } // Initialize the client if it isn't given. if c.client == nil { // Make sure to nil out our client so our token isn't sitting around defer func() { c.client = nil }() // Initialize it to the default client, we set custom settings later client := atlas.DefaultClient() if atlasAddress != "" { client, err = atlas.NewClient(atlasAddress) if err != nil { c.Ui.Error(fmt.Sprintf("Error initializing Atlas client: %s", err)) return 1 } } client.DefaultHeader.Set(terraform.VersionHeader, terraform.Version) if atlasToken != "" { client.Token = atlasToken } c.client = &atlasPushClient{Client: client} } // Get the variables we already have in atlas atlasVars, err := c.client.Get(name) if err != nil { c.Ui.Error(fmt.Sprintf( "Error looking up previously pushed configuration: %s", err)) return 1 } // Set remote variables in the context if we don't have a value here. These // don't have to be correct, it just prevents the Input walk from prompting // the user for input. ctxVars := ctx.Variables() atlasVarSentry := "ATLAS_78AC153CA649EAA44815DAD6CBD4816D" for k, _ := range atlasVars { if _, ok := ctxVars[k]; !ok { ctx.SetVariable(k, atlasVarSentry) } } // Ask for input if err := ctx.Input(c.InputMode()); err != nil { c.Ui.Error(fmt.Sprintf( "Error while asking for variable input:\n\n%s", err)) return 1 } // Now that we've gone through the input walk, we can be sure we have all // the variables we're going to get. // We are going to keep these separate from the atlas variables until // upload, so we can notify the user which local variables we're sending. serializedVars, err := tfVars(ctx.Variables()) if err != nil { c.Ui.Error(fmt.Sprintf( "An error has occurred while serializing the variables for uploading:\n"+ "%s", err)) return 1 } // Build the archiving options, which includes everything it can // by default according to VCS rules but forcing the data directory. archiveOpts := &archive.ArchiveOpts{ VCS: archiveVCS, Extra: map[string]string{ DefaultDataDir: c.DataDir(), }, } if !moduleUpload { // If we're not uploading modules, then exclude the modules dir. archiveOpts.Exclude = append( archiveOpts.Exclude, filepath.Join(c.DataDir(), "modules")) } println(fmt.Sprintf("%#v", archiveOpts)) archiveR, err := archive.CreateArchive(configPath, archiveOpts) if err != nil { c.Ui.Error(fmt.Sprintf( "An error has occurred while archiving the module for uploading:\n"+ "%s", err)) return 1 } /* f, err := os.Create("ARCHIVE.tar.gz") if err != nil { panic(err) } io.Copy(f, archiveR) f.Close() return 12 */ // List of the vars we're uploading to display to the user. // We always upload all vars from atlas, but only report them if they are overwritten. var setVars []string // variables to upload var uploadVars []atlas.TFVar // first add all the variables we want to send which have been serialized // from the local context. for _, sv := range serializedVars { _, inOverwrite := overwriteMap[sv.Key] _, inAtlas := atlasVars[sv.Key] // We have a variable that's not in atlas, so always send it. if !inAtlas { uploadVars = append(uploadVars, sv) setVars = append(setVars, sv.Key) } // We're overwriting an atlas variable. // We also want to check that we // don't send the dummy sentry value back to atlas. This could happen // if it's specified as an overwrite on the cli, but we didn't set a // new value. if inAtlas && inOverwrite && sv.Value != atlasVarSentry { uploadVars = append(uploadVars, sv) setVars = append(setVars, sv.Key) // remove this value from the atlas vars, because we're going to // send back the remainder regardless. delete(atlasVars, sv.Key) } } // now send back all the existing atlas vars, inserting any overwrites from the cli. for k, av := range atlasVars { if v, ok := cliVars[k]; ok { av.Value = v setVars = append(setVars, k) } uploadVars = append(uploadVars, av) } sort.Strings(setVars) if len(setVars) > 0 { c.Ui.Output( "The following variables will be set or overwritten within Atlas from\n" + "their local values. All other variables are already set within Atlas.\n" + "If you want to modify the value of a variable, use the Atlas web\n" + "interface or set it locally and use the -overwrite flag.\n\n") for _, v := range setVars { c.Ui.Output(fmt.Sprintf(" * %s", v)) } // Newline c.Ui.Output("") } // Upsert! opts := &pushUpsertOptions{ Name: name, Archive: archiveR, Variables: ctx.Variables(), TFVars: uploadVars, } c.Ui.Output("Uploading Terraform configuration...") vsn, err := c.client.Upsert(opts) if err != nil { c.Ui.Error(fmt.Sprintf( "An error occurred while uploading the module:\n\n%s", err)) return 1 } c.Ui.Output(c.Colorize().Color(fmt.Sprintf( "[reset][bold][green]Configuration %q uploaded! (v%d)", name, vsn))) return 0 } func (c *PushCommand) Help() string { helpText := ` Usage: terraform push [options] [DIR] Upload this Terraform module to an Atlas server for remote infrastructure management. Options: -atlas-address= An alternate address to an Atlas instance. Defaults to https://atlas.hashicorp.com -upload-modules=true If true (default), then the modules are locked at their current checkout and uploaded completely. This prevents Atlas from running "terraform get". -name= Name of the configuration in Atlas. This can also be set in the configuration itself. Format is typically: "username/name". -token= Access token to use to upload. If blank or unspecified, the ATLAS_TOKEN environmental variable will be used. -overwrite=foo Variable keys that should overwrite values in Atlas. Otherwise, variables already set in Atlas will overwrite local values. This flag can be repeated. -var 'foo=bar' Set a variable in the Terraform configuration. This flag can be set multiple times. -var-file=foo Set variables in the Terraform configuration from a file. If "terraform.tfvars" is present, it will be automatically loaded if this flag is not specified. -vcs=true If true (default), push will upload only files committed to your VCS, if detected. -no-color If specified, output won't contain any color. ` return strings.TrimSpace(helpText) } func sortedKeys(m map[string]interface{}) []string { var keys []string for k := range m { keys = append(keys, k) } sort.Strings(keys) return keys } // build the set of TFVars for push func tfVars(vars map[string]interface{}) ([]atlas.TFVar, error) { var tfVars []atlas.TFVar var err error RANGE: for _, k := range sortedKeys(vars) { v := vars[k] var hcl []byte tfv := atlas.TFVar{Key: k} switch v := v.(type) { case string: tfv.Value = v default: // everything that's not a string is now HCL encoded hcl, err = encodeHCL(v) if err != nil { break RANGE } tfv.Value = string(hcl) tfv.IsHCL = true } tfVars = append(tfVars, tfv) } return tfVars, err } func (c *PushCommand) Synopsis() string { return "Upload this Terraform module to Atlas to run" } // pushClient is implemented internally to control where pushes go. This is // either to Atlas or a mock for testing. We still return a map to make it // easier to check for variable existence when filtering the overrides. type pushClient interface { Get(string) (map[string]atlas.TFVar, error) Upsert(*pushUpsertOptions) (int, error) } type pushUpsertOptions struct { Name string Archive *archive.Archive Variables map[string]interface{} TFVars []atlas.TFVar } type atlasPushClient struct { Client *atlas.Client } func (c *atlasPushClient) Get(name string) (map[string]atlas.TFVar, error) { user, name, err := atlas.ParseSlug(name) if err != nil { return nil, err } version, err := c.Client.TerraformConfigLatest(user, name) if err != nil { return nil, err } variables := make(map[string]atlas.TFVar) if version == nil { return variables, nil } // Variables is superseded by TFVars if version.TFVars == nil { for k, v := range version.Variables { variables[k] = atlas.TFVar{Key: k, Value: v} } } else { for _, v := range version.TFVars { variables[v.Key] = v } } return variables, nil } func (c *atlasPushClient) Upsert(opts *pushUpsertOptions) (int, error) { user, name, err := atlas.ParseSlug(opts.Name) if err != nil { return 0, err } data := &atlas.TerraformConfigVersion{ TFVars: opts.TFVars, } version, err := c.Client.CreateTerraformConfigVersion( user, name, data, opts.Archive, opts.Archive.Size) if err != nil { return 0, err } return version, nil } type mockPushClient struct { File string GetCalled bool GetName string GetResult map[string]atlas.TFVar GetError error UpsertCalled bool UpsertOptions *pushUpsertOptions UpsertVersion int UpsertError error } func (c *mockPushClient) Get(name string) (map[string]atlas.TFVar, error) { c.GetCalled = true c.GetName = name return c.GetResult, c.GetError } func (c *mockPushClient) Upsert(opts *pushUpsertOptions) (int, error) { f, err := os.Create(c.File) if err != nil { return 0, err } defer f.Close() data := opts.Archive size := opts.Archive.Size if _, err := io.CopyN(f, data, size); err != nil { return 0, err } c.UpsertCalled = true c.UpsertOptions = opts return c.UpsertVersion, c.UpsertError }