particle-os/debian-forge-composer
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions
debian-forge-composer/internal/weldr/api.go
Brian C. Lane d42d5fa17f blueprints: Fix commit message when version is empty 
With an empty or missing version number the commit message would not
include the version (which is set to 0.0.0 by calling Initialize).  This
adds a call to Initialize() in the API code before constructing the
commit message. It also moves the check for non-empty blueprint name
into the Initialize call where it belongs.
2022-09-30 17:42:07 +02:00

3424 lines
98 KiB
Go
Raw Blame History

package weldr
import (
"archive/tar"
"bytes"
"context"
"crypto/rand"
"encoding/json"
"errors"
errors_package "errors"
"fmt"
"io"
"io/ioutil"
"log"
"math"
"math/big"
"net"
"net/http"
"net/url"
"os"
"path"
"regexp"
"sort"
"strconv"
"strings"
"time"
"github.com/BurntSushi/toml"
"github.com/gobwas/glob"
"github.com/google/uuid"
"github.com/julienschmidt/httprouter"
"github.com/osbuild/osbuild-composer/pkg/jobqueue"
"github.com/osbuild/osbuild-composer/internal/blueprint"
"github.com/osbuild/osbuild-composer/internal/common"
"github.com/osbuild/osbuild-composer/internal/container"
"github.com/osbuild/osbuild-composer/internal/distro"
"github.com/osbuild/osbuild-composer/internal/distroregistry"
"github.com/osbuild/osbuild-composer/internal/dnfjson"
"github.com/osbuild/osbuild-composer/internal/osbuild"
"github.com/osbuild/osbuild-composer/internal/ostree"
"github.com/osbuild/osbuild-composer/internal/reporegistry"
"github.com/osbuild/osbuild-composer/internal/rpmmd"
"github.com/osbuild/osbuild-composer/internal/store"
"github.com/osbuild/osbuild-composer/internal/target"
"github.com/osbuild/osbuild-composer/internal/worker"
)
type API struct {
store *store.Store
workers *worker.Server
solver *dnfjson.BaseSolver
archName string
repoRegistry *reporegistry.RepoRegistry
logger *log.Logger
router *httprouter.Router
server http.Server
compatOutputDir string
hostDistroName string // Name of the host distro
distroRegistry *distroregistry.Registry // Available distros
distros []string // Supported distro names
// List of ImageType names, which should not be exposed by the API
distrosImageTypeDenylist map[string][]string
}
type ComposeState int
const (
ComposeWaiting ComposeState = iota
ComposeRunning
ComposeFinished
ComposeFailed
)
// ToString converts ImageBuildState into a human readable string
func (cs ComposeState) ToString() string {
switch cs {
case ComposeWaiting:
return "WAITING"
case ComposeRunning:
return "RUNNING"
case ComposeFinished:
return "FINISHED"
case ComposeFailed:
return "FAILED"
default:
panic("invalid ComposeState value")
}
}
// systemRepoNames returns a list of the system repos
// NOTE: The system repos have no concept of id vs. name so the id is returned
func (api *API) systemRepoNames() (names []string) {
repos, err := api.repoRegistry.ReposByArchName(api.hostDistroName, api.archName, false)
if err == nil {
for _, repo := range repos {
names = append(names, repo.Name)
}
}
return names
}
// validDistros returns a list of distributions that also have repositories
func validDistros(rr *reporegistry.RepoRegistry, dr *distroregistry.Registry, arch string, logger *log.Logger) []string {
distros := []string{}
for _, d := range dr.List() {
_, found := rr.DistroHasRepos(d, arch)
if found {
distros = append(distros, d)
} else {
logger.Printf("Distro %s has no repositories, skipping.", d)
}
}
// NOTE: distro list is already sorted, so result will be sorted
return distros
}
var ValidBlueprintName = regexp.MustCompile(`^[a-zA-Z0-9._-]+$`)
// NewTestAPI is used for the test framework, sets up a single distro
func NewTestAPI(solver *dnfjson.BaseSolver, arch distro.Arch, dr *distroregistry.Registry,
rr *reporegistry.RepoRegistry, logger *log.Logger,
store *store.Store, workers *worker.Server, compatOutputDir string,
distrosImageTypeDenylist map[string][]string) *API {
// Use the first entry as the host distribution
hostDistro := dr.GetDistro(dr.List()[0])
api := &API{
store: store,
workers: workers,
solver: solver,
archName: arch.Name(),
repoRegistry: rr,
logger: logger,
compatOutputDir: compatOutputDir,
hostDistroName: hostDistro.Name(),
distroRegistry: dr,
distros: validDistros(rr, dr, arch.Name(), logger),
distrosImageTypeDenylist: distrosImageTypeDenylist,
}
return setupRouter(api)
}
func New(repoPaths []string, stateDir string, solver *dnfjson.BaseSolver, dr *distroregistry.Registry,
logger *log.Logger, workers *worker.Server, distrosImageTypeDenylist map[string][]string) (*API, error) {
if logger == nil {
logger = log.New(os.Stdout, "", 0)
}
hostDistroName, _, _, err := common.GetHostDistroName()
if err != nil {
return nil, fmt.Errorf("failed to read host distro information")
}
archName := common.CurrentArch()
rr, err := reporegistry.New(repoPaths)
if err != nil {
return nil, fmt.Errorf("error loading repository definitions: %v", err)
}
var hostArch distro.Arch
hostDistro := dr.GetDistro(hostDistroName)
if hostDistro != nil {
// get canonical distro name if the host distro is supported
hostDistroName = hostDistro.Name()
hostArch, err = hostDistro.GetArch(archName)
if err != nil {
return nil, fmt.Errorf("Host distro does not support host architecture: %v", err)
}
// Check if repositories for the host distro and arch were loaded
_, err = rr.ReposByArchName(hostDistroName, archName, false)
if err != nil {
log.Printf("loaded repository definitions don't contain any for the host distro/arch: %v", err)
}
} else {
log.Printf("host distro %q is not supported: only cross-distro builds are available", hostDistroName)
}
store := store.New(&stateDir, hostArch, logger)
compatOutputDir := path.Join(stateDir, "outputs")
api := &API{
store: store,
workers: workers,
solver: solver,
archName: archName,
repoRegistry: rr,
logger: logger,
compatOutputDir: compatOutputDir,
hostDistroName: hostDistroName,
distroRegistry: dr,
distros: validDistros(rr, dr, archName, logger),
distrosImageTypeDenylist: distrosImageTypeDenylist,
}
return setupRouter(api), nil
}
func setupRouter(api *API) *API {
api.router = httprouter.New()
api.router.RedirectTrailingSlash = false
api.router.RedirectFixedPath = false
api.router.MethodNotAllowed = http.HandlerFunc(methodNotAllowedHandler)
api.router.NotFound = http.HandlerFunc(notFoundHandler)
api.router.GET("/api/status", api.statusHandler)
api.router.GET("/api/v:version/projects/source/list", api.sourceListHandler)
api.router.GET("/api/v:version/projects/source/info/", api.sourceEmptyInfoHandler)
api.router.GET("/api/v:version/projects/source/info/:sources", api.sourceInfoHandler)
api.router.POST("/api/v:version/projects/source/new", api.sourceNewHandler)
api.router.DELETE("/api/v:version/projects/source/delete/*source", api.sourceDeleteHandler)
api.router.GET("/api/v:version/projects/depsolve", api.projectsDepsolveHandler)
api.router.GET("/api/v:version/projects/depsolve/*projects", api.projectsDepsolveHandler)
api.router.GET("/api/v:version/modules/list", api.modulesListHandler)
api.router.GET("/api/v:version/modules/list/*modules", api.modulesListHandler)
api.router.GET("/api/v:version/projects/list", api.projectsListHandler)
api.router.GET("/api/v:version/projects/list/", api.projectsListHandler)
// these are the same, except that modules/info also includes dependencies
api.router.GET("/api/v:version/modules/info", api.modulesInfoHandler)
api.router.GET("/api/v:version/modules/info/*modules", api.modulesInfoHandler)
api.router.GET("/api/v:version/projects/info", api.modulesInfoHandler)
api.router.GET("/api/v:version/projects/info/*modules", api.modulesInfoHandler)
api.router.GET("/api/v:version/blueprints/list", api.blueprintsListHandler)
api.router.GET("/api/v:version/blueprints/info/*blueprints", api.blueprintsInfoHandler)
api.router.GET("/api/v:version/blueprints/depsolve/*blueprints", api.blueprintsDepsolveHandler)
api.router.GET("/api/v:version/blueprints/freeze/*blueprints", api.blueprintsFreezeHandler)
api.router.GET("/api/v:version/blueprints/diff/:blueprint/:from/:to", api.blueprintsDiffHandler)
api.router.GET("/api/v:version/blueprints/changes/*blueprints", api.blueprintsChangesHandler)
api.router.POST("/api/v:version/blueprints/new", api.blueprintsNewHandler)
api.router.POST("/api/v:version/blueprints/workspace", api.blueprintsWorkspaceHandler)
api.router.POST("/api/v:version/blueprints/undo/:blueprint/:commit", api.blueprintUndoHandler)
api.router.POST("/api/v:version/blueprints/tag/:blueprint", api.blueprintsTagHandler)
api.router.DELETE("/api/v:version/blueprints/delete/:blueprint", api.blueprintDeleteHandler)
api.router.DELETE("/api/v:version/blueprints/workspace/:blueprint", api.blueprintDeleteWorkspaceHandler)
api.router.POST("/api/v:version/compose", api.composeHandler)
api.router.DELETE("/api/v:version/compose/delete/:uuids", api.composeDeleteHandler)
api.router.GET("/api/v:version/compose/types", api.composeTypesHandler)
api.router.GET("/api/v:version/compose/queue", api.composeQueueHandler)
api.router.GET("/api/v:version/compose/status/:uuids", api.composeStatusHandler)
api.router.GET("/api/v:version/compose/info/:uuid", api.composeInfoHandler)
api.router.GET("/api/v:version/compose/finished", api.composeFinishedHandler)
api.router.GET("/api/v:version/compose/failed", api.composeFailedHandler)
api.router.GET("/api/v:version/compose/image/:uuid", api.composeImageHandler)
api.router.GET("/api/v:version/compose/metadata/:uuid", api.composeMetadataHandler)
api.router.GET("/api/v:version/compose/results/:uuid", api.composeResultsHandler)
api.router.GET("/api/v:version/compose/logs/:uuid", api.composeLogsHandler)
api.router.GET("/api/v:version/compose/log/:uuid", api.composeLogHandler)
api.router.POST("/api/v:version/compose/uploads/schedule/:uuid", api.uploadsScheduleHandler)
api.router.DELETE("/api/v:version/compose/cancel/:uuid", api.composeCancelHandler)
api.router.DELETE("/api/v:version/upload/delete/:uuid", api.uploadsDeleteHandler)
api.router.GET("/api/v:version/upload/info/:uuid", api.uploadsInfoHandler)
api.router.GET("/api/v:version/upload/log/:uuid", api.uploadsLogHandler)
api.router.POST("/api/v:version/upload/reset/:uuid", api.uploadsResetHandler)
api.router.DELETE("/api/v:version/upload/cancel/:uuid", api.uploadsCancelHandler)
api.router.GET("/api/v:version/upload/providers", api.providersHandler)
api.router.POST("/api/v:version/upload/providers/save", api.providersSaveHandler)
api.router.DELETE("/api/v:version/upload/providers/delete/:provider/:profile", api.providersDeleteHandler)
api.router.GET("/api/v:version/distros/list", api.distrosListHandler)
return api
}
func (api *API) Serve(listener net.Listener) error {
api.server = http.Server{
Handler: api,
ReadHeaderTimeout: 5 * time.Second,
}
err := api.server.Serve(listener)
if err != nil && err != http.ErrServerClosed {
return err
}
return nil
}
func (api *API) Shutdown(ctx context.Context) error {
return api.server.Shutdown(ctx)
}
func (api *API) ServeHTTP(writer http.ResponseWriter, request *http.Request) {
if api.logger != nil {
log.Println(request.Method, request.URL.Path)
}
writer.Header().Set("Content-Type", "application/json; charset=utf-8")
api.router.ServeHTTP(writer, request)
}
// PreloadMetadata loads the metadata for all supported distros
// This starts a background depsolve for all known distros in order to preload the
// metadata.
func (api *API) PreloadMetadata() {
for _, distro := range api.distros {
go func(distro string) {
d := api.getDistro(distro)
if d == nil {
log.Printf("GetDistro - unknown distribution: %s", distro)
return
}
repos, err := api.allRepositories(distro)
if err != nil {
log.Printf("Error getting repositories for distro %s: %s", distro, err)
return
}
solver := api.solver.NewWithConfig(d.ModulePlatformID(), d.Releasever(), api.archName)
_, err = solver.Depsolve([]rpmmd.PackageSet{{Include: []string{"filesystem"}, Repositories: repos}})
if err != nil {
log.Printf("Problem preloading distro metadata for %s: %s", distro, err)
}
}(distro)
}
}
type composeStatus struct {
State ComposeState
Queued time.Time
Started time.Time
Finished time.Time
Result *osbuild.Result
}
func composeStateFromJobStatus(js *worker.JobStatus, result *worker.OSBuildJobResult) ComposeState {
if js.Canceled {
return ComposeFailed
}
if js.Started.IsZero() {
return ComposeWaiting
}
if js.Finished.IsZero() {
return ComposeRunning
}
if result.Success {
return ComposeFinished
}
return ComposeFailed
}
// Returns the state of the image in `compose` and the times the job was
// queued, started, and finished. Assumes that there's only one image in the
// compose.
func (api *API) getComposeStatus(compose store.Compose) *composeStatus {
jobId := compose.ImageBuild.JobID
// backwards compatibility: composes that were around before splitting
// the job queue from the store still contain their valid status and
// times. Return those here as a fallback.
if jobId == uuid.Nil {
var state ComposeState
switch compose.ImageBuild.QueueStatus {
case common.IBWaiting:
state = ComposeWaiting
case common.IBRunning:
state = ComposeRunning
case common.IBFinished:
state = ComposeFinished
case common.IBFailed:
state = ComposeFailed
}
return &composeStatus{
State: state,
Queued: compose.ImageBuild.JobCreated,
Started: compose.ImageBuild.JobStarted,
Finished: compose.ImageBuild.JobFinished,
Result: &osbuild.Result{},
}
}
// All jobs are "osbuild" jobs.
var result worker.OSBuildJobResult
jobInfo, err := api.workers.OSBuildJobInfo(jobId, &result)
if err != nil {
panic(err)
}
return &composeStatus{
State: composeStateFromJobStatus(jobInfo.JobStatus, &result),
Queued: jobInfo.JobStatus.Queued,
Started: jobInfo.JobStatus.Started,
Finished: jobInfo.JobStatus.Finished,
Result: result.OSBuildOutput,
}
}
// Opens the image file for `compose`. This asks the worker server for the
// artifact first, and then falls back to looking in
// `{outputs}/{composeId}/{imageBuildId}` for backwards compatibility.
func (api *API) openImageFile(composeId uuid.UUID, compose store.Compose) (io.Reader, int64, error) {
name := compose.ImageBuild.ImageType.Filename()
reader, size, err := api.workers.JobArtifact(compose.ImageBuild.JobID, name)
if err != nil {
if api.compatOutputDir == "" || err != jobqueue.ErrNotExist {
return nil, 0, err
}
p := path.Join(api.compatOutputDir, composeId.String(), "0", name)
f, err := os.Open(p)
if err != nil {
return nil, 0, err
}
info, err := f.Stat()
if err != nil {
return nil, 0, err
}
reader = f
size = info.Size()
}
return reader, size, nil
}
// isImageTypeAllowed checks the given ImageType and Distro names against
// the distro-specific ImageType Denylist provided to the API from configuration.
// If the given ImageType is not allowed the method returns an `false`.
// Otherwise `true` is returned.
func (api *API) isImageTypeAllowed(distroName, imageType string) (bool, error) {
for deniedDistro, deniedImgTypes := range api.distrosImageTypeDenylist {
deniedDistroPattern, err := glob.Compile(deniedDistro)
if err != nil {
// the bool return value here does not have any real meaning
return true, err
}
if deniedDistroPattern.Match(distroName) {
for _, deniedImgType := range deniedImgTypes {
deniedImageTypePattern, err := glob.Compile(deniedImgType)
if err != nil {
// the bool return value here does not have any real meaning
return true, err
}
if deniedImageTypePattern.Match(imageType) {
return false, nil
}
}
}
}
return true, nil
}
// getImageType returns the ImageType for the selected distro
// This is necessary because different distros support different image types, and the image
// type may have a different package set than other distros.
func (api *API) getImageType(distroName, imageType string) (distro.ImageType, error) {
imgAllowed, err := api.isImageTypeAllowed(distroName, imageType)
if err != nil {
return nil, fmt.Errorf("error while checking if image type is allowed: %v", err)
}
if !imgAllowed {
return nil, fmt.Errorf("image type %q for distro %q is denied by configuration", imageType, distroName)
}
distro := api.getDistro(distroName)
if distro == nil {
return nil, fmt.Errorf("GetDistro - unknown distribution: %s", distroName)
}
arch, err := distro.GetArch(api.archName)
if err != nil {
return nil, err
}
return arch.GetImageType(imageType)
}
func (api *API) parseDistro(query url.Values) (string, error) {
if distro := query.Get("distro"); distro != "" {
if common.IsStringInSortedSlice(api.distros, distro) {
return distro, nil
}
return "", errors_package.New("Invalid distro: " + distro)
}
return api.hostDistroName, nil
}
// getDistro returns the named distro or nil
// It excludes unsupported distros by first checking the api.distros list
func (api *API) getDistro(name string) distro.Distro {
if !common.IsStringInSortedSlice(api.distros, name) {
return nil
}
return api.distroRegistry.GetDistro(name)
}
func verifyRequestVersion(writer http.ResponseWriter, params httprouter.Params, minVersion uint) bool {
versionString := params.ByName("version")
version, err := strconv.ParseUint(versionString, 10, 0)
var MaxApiVersion uint = 1
if err != nil || uint(version) < minVersion || uint(version) > MaxApiVersion {
notFoundHandler(writer, nil)
return false
}
return true
}
func isRequestVersionAtLeast(params httprouter.Params, minVersion uint) bool {
versionString := params.ByName("version")
version, err := strconv.ParseUint(versionString, 10, 0)
common.PanicOnError(err)
return uint(version) >= minVersion
}
func methodNotAllowedHandler(writer http.ResponseWriter, request *http.Request) {
writer.WriteHeader(http.StatusMethodNotAllowed)
}
func notFoundHandler(writer http.ResponseWriter, request *http.Request) {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
}
func notImplementedHandler(writer http.ResponseWriter, httpRequest *http.Request, _ httprouter.Params) {
writer.WriteHeader(http.StatusNotImplemented)
}
func statusResponseOK(writer http.ResponseWriter) {
type reply struct {
Status bool `json:"status"`
}
writer.WriteHeader(http.StatusOK)
err := json.NewEncoder(writer).Encode(reply{true})
common.PanicOnError(err)
}
type responseError struct {
Code int `json:"code,omitempty"`
ID string `json:"id"`
Msg string `json:"msg"`
}
// verifyStringsWithRegex checks a slice of strings against a regex of allowed characters
// it writes the InvalidChars error to the writer and returns false if any of them fail the check
// It will also return an error if the string is empty
func verifyStringsWithRegex(writer http.ResponseWriter, strings []string, re *regexp.Regexp) bool {
for _, s := range strings {
if len(s) > 0 && re.MatchString(s) {
continue
}
errors := responseError{
ID: "InvalidChars",
Msg: "Invalid characters in API path",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return false
}
return true
}
func statusResponseError(writer http.ResponseWriter, code int, errors ...responseError) {
type reply struct {
Status bool `json:"status"`
Errors []responseError `json:"errors,omitempty"`
}
writer.WriteHeader(code)
err := json.NewEncoder(writer).Encode(reply{false, errors})
common.PanicOnError(err)
}
func (api *API) statusHandler(writer http.ResponseWriter, request *http.Request, _ httprouter.Params) {
type reply struct {
API string `json:"api"`
DBSupported bool `json:"db_supported"`
DBVersion string `json:"db_version"`
SchemaVersion string `json:"schema_version"`
Backend string `json:"backend"`
Build string `json:"build"`
Messages []string `json:"msgs"`
}
err := json.NewEncoder(writer).Encode(reply{
API: "1",
DBSupported: true,
DBVersion: "0",
SchemaVersion: "0",
Backend: "osbuild-composer",
Build: common.BuildVersion(),
Messages: make([]string, 0),
})
common.PanicOnError(err)
}
func (api *API) sourceListHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type reply struct {
Sources []string `json:"sources"`
}
// The v0 API used the repo Name, a descriptive string, as the key
// In the v1 API this was changed to separate the Name and the Id (a short identifier)
var names []string
if isRequestVersionAtLeast(params, 1) {
names = api.store.ListSourcesById()
} else {
names = api.store.ListSourcesByName()
}
names = append(names, api.systemRepoNames()...)
err := json.NewEncoder(writer).Encode(reply{
Sources: names,
})
common.PanicOnError(err)
}
func (api *API) sourceEmptyInfoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
}
// getSourceConfigs retrieves the list of sources from the system repos an store
// Returning a list of store.SourceConfig entries indexed by the id of the source
func (api *API) getSourceConfigs(params httprouter.Params) (map[string]store.SourceConfig, []responseError) {
names := params.ByName("sources")
sources := map[string]store.SourceConfig{}
errors := []responseError{}
repos, err := api.repoRegistry.ReposByArchName(api.hostDistroName, api.archName, false)
if err != nil {
error := responseError{
ID: "InternalError",
Msg: fmt.Sprintf("error while getting system repos: %v", err),
}
errors = append(errors, error)
}
// if names is "*" we want all sources
if names == "*" {
sources = api.store.GetAllSourcesByID()
for _, repo := range repos {
sources[repo.Name] = store.NewSourceConfig(repo, true)
}
} else {
for _, name := range strings.Split(names, ",") {
// check if the source is one of the base repos
found := false
for _, repo := range repos {
if name == repo.Name {
sources[repo.Name] = store.NewSourceConfig(repo, true)
found = true
break
}
}
if found {
continue
}
// check if the source is in the store
if source := api.store.GetSource(name); source != nil {
sources[name] = *source
} else {
error := responseError{
ID: "UnknownSource",
Msg: fmt.Sprintf("%s is not a valid source", name),
}
errors = append(errors, error)
}
}
}
return sources, errors
}
// sourceInfoHandler routes the call to the correct API version handler
func (api *API) sourceInfoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
versionString := params.ByName("version")
version, err := strconv.ParseUint(versionString, 10, 0)
if err != nil {
notFoundHandler(writer, nil)
return
}
switch version {
case 0:
api.sourceInfoHandlerV0(writer, request, params)
case 1:
api.sourceInfoHandlerV1(writer, request, params)
default:
notFoundHandler(writer, nil)
}
}
// sourceInfoHandlerV0 handles the API v0 response
func (api *API) sourceInfoHandlerV0(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
sources, errors := api.getSourceConfigs(params)
// V0 responses use the source name as the key
v0Sources := make(map[string]SourceConfigV0, len(sources))
for _, s := range sources {
v0Sources[s.Name] = NewSourceConfigV0(s)
}
q, err := url.ParseQuery(request.URL.RawQuery)
if err != nil {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid query string: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
format := q.Get("format")
if format == "json" || format == "" {
err := json.NewEncoder(writer).Encode(SourceInfoResponseV0{
Sources: v0Sources,
Errors: errors,
})
common.PanicOnError(err)
} else if format == "toml" {
encoder := toml.NewEncoder(writer)
encoder.Indent = ""
err := encoder.Encode(sources)
common.PanicOnError(err)
} else {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid format parameter: %s", format),
}
statusResponseError(writer, http.StatusBadRequest, errors)
}
}
// sourceInfoHandlerV1 handles the API v0 response
func (api *API) sourceInfoHandlerV1(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
sources, errors := api.getSourceConfigs(params)
// V1 responses use the source id as the key
v1Sources := make(map[string]SourceConfigV1, len(sources))
for id, s := range sources {
v1Sources[id] = NewSourceConfigV1(id, s)
}
q, err := url.ParseQuery(request.URL.RawQuery)
if err != nil {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid query string: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
format := q.Get("format")
if format == "json" || format == "" {
err := json.NewEncoder(writer).Encode(SourceInfoResponseV1{
Sources: v1Sources,
Errors: errors,
})
common.PanicOnError(err)
} else if format == "toml" {
encoder := toml.NewEncoder(writer)
encoder.Indent = ""
err := encoder.Encode(sources)
common.PanicOnError(err)
} else {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid format parameter: %s", format),
}
statusResponseError(writer, http.StatusBadRequest, errors)
}
}
// DecodeSourceConfigV0 parses a request.Body into a SourceConfigV0
func DecodeSourceConfigV0(body io.Reader, contentType string) (source SourceConfigV0, err error) {
if contentType == "application/json" {
err = json.NewDecoder(body).Decode(&source)
} else if contentType == "text/x-toml" {
// Read all of body in case it needs to be parsed twice
var data []byte
data, err = ioutil.ReadAll(body)
if err != nil {
return source, err
}
// First try to parse [ID]\n...SOURCE... form
var srcMap map[string]SourceConfigV0
err = toml.Unmarshal(data, &srcMap)
if err != nil {
// Failed, parse it again without [ID] mapping
err = toml.Unmarshal(data, &source)
} else {
// It is possible more than 1 source could be posted. We only use the first, after sorting
keys := make([]string, 0, len(srcMap))
for k := range srcMap {
keys = append(keys, k)
}
sort.Strings(keys)
source = srcMap[keys[0]]
}
} else {
err = errors_package.New("blueprint must be in json or toml format")
}
return source, err
}
// DecodeSourceConfigV1 parses a request.Body into a SourceConfigV1
func DecodeSourceConfigV1(body io.Reader, contentType string) (source SourceConfigV1, err error) {
if contentType == "application/json" {
err = json.NewDecoder(body).Decode(&source)
} else if contentType == "text/x-toml" {
// Read all of body in case it needs to be parsed twice
var data []byte
data, err = ioutil.ReadAll(body)
if err != nil {
return source, err
}
// First try to parse [ID]\n...SOURCE... form
var srcMap map[string]SourceConfigV1
err = toml.Unmarshal(data, &srcMap)
if err != nil {
// Failed, parse it without [ID]
err = toml.Unmarshal(data, &source)
} else {
// It is possible more than 1 source could be posted. We only use the first, after sorting
keys := make([]string, 0, len(srcMap))
for k := range srcMap {
keys = append(keys, k)
}
sort.Strings(keys)
source = srcMap[keys[0]]
// If no id was set, use the ID from the map
if len(source.ID) == 0 {
source.ID = keys[0]
}
}
} else {
err = errors_package.New("blueprint must be in json or toml format")
}
if err == nil && len(source.GetKey()) == 0 {
err = errors_package.New("'id' field is missing from request")
}
return source, err
}
func (api *API) sourceNewHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) { // TODO: version 1 API
return
}
contentType := request.Header["Content-Type"]
if len(contentType) == 0 {
errors := responseError{
ID: "HTTPError",
Msg: "malformed Content-Type header",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if request.ContentLength == 0 {
errors := responseError{
ID: "ProjectsError",
Msg: "Missing source",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var source SourceConfig
var err error
if isRequestVersionAtLeast(params, 1) {
source, err = DecodeSourceConfigV1(request.Body, contentType[0])
} else {
source, err = DecodeSourceConfigV0(request.Body, contentType[0])
}
// Basic check of the source, should at least have a name and type
if err == nil {
if len(source.GetName()) == 0 {
err = errors_package.New("'name' field is missing from request")
} else if len(source.GetType()) == 0 {
err = errors_package.New("'type' field is missing from request")
} else if len(source.SourceConfig().URL) == 0 {
err = errors_package.New("'url' field is missing from request")
}
}
if err != nil {
errors := responseError{
ID: "ProjectsError",
Msg: "Problem parsing POST body: " + err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// If there is a list of distros, check to make sure they are valid
invalid := []string{}
for _, d := range source.SourceConfig().Distros {
if !common.IsStringInSortedSlice(api.distros, d) {
invalid = append(invalid, d)
}
}
if len(invalid) > 0 {
errors := responseError{
ID: "ProjectsError",
Msg: "Invalid distributions: " + strings.Join(invalid, ","),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// Is there an existing System Repo using this id?
for _, n := range api.systemRepoNames() {
if n == source.GetKey() {
// Users cannot replace system repos
errors := responseError{
ID: "SystemSource",
Msg: fmt.Sprintf("%s is a system source, it cannot be changed.", source.GetKey()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
}
api.store.PushSource(source.GetKey(), source.SourceConfig())
statusResponseOK(writer)
}
func (api *API) sourceDeleteHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
name := strings.Split(params.ByName("source"), ",")
if name[0] == "/" {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
// Check for system repos and return an error
for _, id := range api.systemRepoNames() {
if id == name[0][1:] {
errors := responseError{
ID: "SystemSource",
Msg: id + " is a system source, it cannot be deleted.",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
}
// Return an error for unknown sources
s := api.store.GetSource(name[0][1:])
if s == nil {
errors := responseError{
ID: "UnknownSource",
Msg: name[0][1:] + " is not a valid source.",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// Only delete the first name, which will have a / at the start because of the /*source route
if isRequestVersionAtLeast(params, 1) {
api.store.DeleteSourceByID(name[0][1:])
} else {
api.store.DeleteSourceByName(name[0][1:])
}
statusResponseOK(writer)
}
func (api *API) modulesListHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type module struct {
Name string `json:"name"`
GroupType string `json:"group_type"`
}
type reply struct {
Total uint `json:"total"`
Offset uint `json:"offset"`
Limit uint `json:"limit"`
Modules []module `json:"modules"`
}
offset, limit, err := parseOffsetAndLimit(request.URL.Query())
if err != nil {
errors := responseError{
ID: "BadLimitOrOffset",
Msg: fmt.Sprintf("BadRequest: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
modulesParam := params.ByName("modules")
// Optional distro parameter
// If it is empty it will return api.hostDistroName
distroName, err := api.parseDistro(request.URL.Query())
if err != nil {
errors := responseError{
ID: "DistroError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var names []string
if modulesParam != "" && modulesParam != "/" {
// we have modules for search
// remove leading /
modulesParam = modulesParam[1:]
names = strings.Split(modulesParam, ",")
}
packages, err := api.fetchPackageList(distroName, names)
if err != nil {
errors := responseError{
ID: "ModulesError",
Msg: fmt.Sprintf("msg: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if len(packages) == 0 {
errors := responseError{
ID: "UnknownModule",
Msg: "No packages have been found.",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
packageInfos := packages.ToPackageInfos()
total := uint(len(packageInfos))
start := min(offset, total)
n := min(limit, total-start)
modules := make([]module, n)
for i := uint(0); i < n; i++ {
modules[i] = module{packageInfos[start+i].Name, "rpm"}
}
err = json.NewEncoder(writer).Encode(reply{
Total: total,
Offset: offset,
Limit: limit,
Modules: modules,
})
common.PanicOnError(err)
}
func (api *API) projectsListHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type reply struct {
Total uint `json:"total"`
Offset uint `json:"offset"`
Limit uint `json:"limit"`
Projects []rpmmd.PackageInfo `json:"projects"`
}
offset, limit, err := parseOffsetAndLimit(request.URL.Query())
if err != nil {
errors := responseError{
ID: "BadLimitOrOffset",
Msg: fmt.Sprintf("BadRequest: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// Optional distro parameter
// If it is empty it will return api.hostDistroName
distroName, err := api.parseDistro(request.URL.Query())
if err != nil {
errors := responseError{
ID: "DistroError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
availablePackages, err := api.fetchPackageList(distroName, []string{})
if err != nil {
errors := responseError{
ID: "ProjectsError",
Msg: fmt.Sprintf("msg: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
packageInfos := availablePackages.ToPackageInfos()
total := uint(len(packageInfos))
start := min(offset, total)
n := min(limit, total-start)
packages := make([]rpmmd.PackageInfo, n)
for i := uint(0); i < n; i++ {
packages[i] = packageInfos[start+i]
}
err = json.NewEncoder(writer).Encode(reply{
Total: total,
Offset: offset,
Limit: limit,
Projects: packages,
})
common.PanicOnError(err)
}
func (api *API) modulesInfoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type projectsReply struct {
Projects []rpmmd.PackageInfo `json:"projects"`
}
type modulesReply struct {
Modules []rpmmd.PackageInfo `json:"modules"`
}
// handle both projects/info and modules/info, the latter includes dependencies
modulesRequested := strings.HasPrefix(request.URL.Path, "/api/v0/modules") ||
strings.HasPrefix(request.URL.Path, "/api/v1/modules")
var errorId, unknownErrorId string
if modulesRequested {
errorId = "ModulesError"
unknownErrorId = "UnknownModule"
} else {
errorId = "ProjectsError"
unknownErrorId = "UnknownProject"
}
modules := params.ByName("modules")
if modules == "" || modules == "/" {
errors := responseError{
ID: unknownErrorId,
Msg: "No packages specified.",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// remove leading /
modules = modules[1:]
names := strings.Split(modules, ",")
// Optional distro parameter
// If it is empty it will return api.hostDistroName
distroName, err := api.parseDistro(request.URL.Query())
if err != nil {
errors := responseError{
ID: "DistroError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
foundPackages, err := api.fetchPackageList(distroName, names)
if err != nil {
errors := responseError{
ID: errorId,
Msg: fmt.Sprintf("msg: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if len(foundPackages) == 0 {
errors := responseError{
ID: unknownErrorId,
Msg: "No packages have been found.",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
packageInfos := foundPackages.ToPackageInfos()
if modulesRequested {
repos, err := api.allRepositories(distroName)
if err != nil {
errors := responseError{
ID: "InternalError",
Msg: fmt.Sprintf("error while getting system repos: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
d := api.getDistro(distroName)
if d == nil {
errors := responseError{
ID: "DistroError",
Msg: fmt.Sprintf("Unknown distribution: %s", distroName),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
solver := api.solver.NewWithConfig(d.ModulePlatformID(), d.Releasever(), api.archName)
for i := range packageInfos {
pkgName := packageInfos[i].Name
solved, err := solver.Depsolve([]rpmmd.PackageSet{{Include: []string{pkgName}, Repositories: repos}})
if err != nil {
errors := responseError{
ID: errorId,
Msg: fmt.Sprintf("Cannot depsolve package %s: %s", packageInfos[i].Name, err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
packageInfos[i].Dependencies = solved
}
if err := solver.CleanCache(); err != nil {
// log and ignore
log.Printf("Error during rpm repo cache cleanup: %s", err.Error())
}
}
if modulesRequested {
err = json.NewEncoder(writer).Encode(modulesReply{packageInfos})
} else {
err = json.NewEncoder(writer).Encode(projectsReply{packageInfos})
}
common.PanicOnError(err)
}
func (api *API) projectsDepsolveHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type reply struct {
Projects []rpmmd.PackageSpec `json:"projects"`
}
projects := params.ByName("projects")
if projects == "" || projects == "/" {
errors := responseError{
ID: "UnknownProject",
Msg: "No packages specified.",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// remove leading /
projects = projects[1:]
names := strings.Split(projects, ",")
// Optional distro parameter
// If it is empty it will return api.hostDistroName
distroName, err := api.parseDistro(request.URL.Query())
if err != nil {
errors := responseError{
ID: "DistroError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
d := api.getDistro(distroName)
if d == nil {
errors := responseError{
ID: "DistroError",
Msg: fmt.Sprintf("Unknown distribution: %s", distroName),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
repos, err := api.allRepositories(distroName)
if err != nil {
errors := responseError{
ID: "ProjectsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
solver := api.solver.NewWithConfig(d.ModulePlatformID(), d.Releasever(), api.archName)
deps, err := solver.Depsolve([]rpmmd.PackageSet{{Include: names, Repositories: repos}})
if err != nil {
errors := responseError{
ID: "ProjectsError",
Msg: fmt.Sprintf("BadRequest: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if err := solver.CleanCache(); err != nil {
// log and ignore
log.Printf("Error during rpm repo cache cleanup: %s", err.Error())
}
err = json.NewEncoder(writer).Encode(reply{Projects: deps})
common.PanicOnError(err)
}
func (api *API) blueprintsListHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type reply struct {
Total uint `json:"total"`
Offset uint `json:"offset"`
Limit uint `json:"limit"`
Blueprints []string `json:"blueprints"`
}
offset, limit, err := parseOffsetAndLimit(request.URL.Query())
if err != nil {
errors := responseError{
ID: "BadLimitOrOffset",
Msg: fmt.Sprintf("BadRequest: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
names := api.store.ListBlueprints()
total := uint(len(names))
offset = min(offset, total)
limit = min(limit, total-offset)
err = json.NewEncoder(writer).Encode(reply{
Total: total,
Offset: offset,
Limit: limit,
Blueprints: names[offset : offset+limit],
})
common.PanicOnError(err)
}
func (api *API) blueprintsInfoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type change struct {
Changed bool `json:"changed"`
Name string `json:"name"`
}
type reply struct {
Blueprints []blueprint.Blueprint `json:"blueprints"`
Changes []change `json:"changes"`
Errors []responseError `json:"errors"`
}
names := strings.Split(params.ByName("blueprints"), ",")
if names[0] == "/" {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
// Remove the leading / from the first entry (check above ensures it is not just a /
names[0] = names[0][1:]
if !verifyStringsWithRegex(writer, names, ValidBlueprintName) {
return
}
query, err := url.ParseQuery(request.URL.RawQuery)
if err != nil {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid query string: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
blueprints := []blueprint.Blueprint{}
changes := []change{}
blueprintErrors := []responseError{}
for _, name := range names {
blueprint, changed := api.store.GetBlueprint(name)
if blueprint == nil {
blueprintErrors = append(blueprintErrors, responseError{
ID: "UnknownBlueprint",
Msg: fmt.Sprintf("%s: ", name),
})
continue
}
blueprints = append(blueprints, *blueprint)
changes = append(changes, change{changed, blueprint.Name})
}
format := query.Get("format")
if format == "json" || format == "" {
err := json.NewEncoder(writer).Encode(reply{
Blueprints: blueprints,
Changes: changes,
Errors: blueprintErrors,
})
common.PanicOnError(err)
} else if format == "toml" {
// lorax concatenates multiple blueprints with `\n\n` here,
// which is never useful. Deviate by only returning the first
// blueprint.
if len(blueprints) > 1 {
errors := responseError{
ID: "HTTPError",
Msg: "toml format only supported when requesting one blueprint",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if len(blueprintErrors) > 0 {
statusResponseError(writer, http.StatusBadRequest, blueprintErrors...)
return
}
encoder := toml.NewEncoder(writer)
encoder.Indent = ""
err := encoder.Encode(blueprints[0])
common.PanicOnError(err)
} else {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid format parameter: %s", format),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
}
func (api *API) blueprintsDepsolveHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type entry struct {
Blueprint blueprint.Blueprint `json:"blueprint"`
Dependencies []rpmmd.PackageSpec `json:"dependencies"`
}
type reply struct {
Blueprints []entry `json:"blueprints"`
Errors []responseError `json:"errors"`
}
names := strings.Split(params.ByName("blueprints"), ",")
if names[0] == "/" {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
// Remove the leading / from the first entry (check above ensures it is not just a /
names[0] = names[0][1:]
if !verifyStringsWithRegex(writer, names, ValidBlueprintName) {
return
}
blueprints := []entry{}
blueprintsErrors := []responseError{}
for _, name := range names {
blueprint, _ := api.store.GetBlueprint(name)
if blueprint == nil {
blueprintsErrors = append(blueprintsErrors, responseError{
ID: "UnknownBlueprint",
Msg: fmt.Sprintf("%s: blueprint not found", name),
})
continue
}
dependencies, err := api.depsolveBlueprint(*blueprint)
if err != nil {
blueprintsErrors = append(blueprintsErrors, responseError{
ID: "BlueprintsError",
Msg: fmt.Sprintf("%s: %s", name, err.Error()),
})
dependencies = []rpmmd.PackageSpec{}
}
blueprints = append(blueprints, entry{*blueprint, dependencies})
}
err := json.NewEncoder(writer).Encode(reply{
Blueprints: blueprints,
Errors: blueprintsErrors,
})
common.PanicOnError(err)
}
// setPkgEVRA replaces the version globs in the blueprint with their EVRA values from the dependencies
//
// The dependencies must be pre-sorted for this function to work properly
// It will return an error if it cannot find a package in the dependencies
func setPkgEVRA(dependencies []rpmmd.PackageSpec, packages []blueprint.Package) error {
for pkgIndex, pkg := range packages {
i := sort.Search(len(dependencies), func(i int) bool {
return dependencies[i].Name >= pkg.Name
})
if i < len(dependencies) && dependencies[i].Name == pkg.Name {
if dependencies[i].Epoch == 0 {
packages[pkgIndex].Version = fmt.Sprintf("%s-%s.%s", dependencies[i].Version, dependencies[i].Release, dependencies[i].Arch)
} else {
packages[pkgIndex].Version = fmt.Sprintf("%d:%s-%s.%s", dependencies[i].Epoch, dependencies[i].Version, dependencies[i].Release, dependencies[i].Arch)
}
} else {
// Packages should not be missing from the depsolve results
return fmt.Errorf("%s missing from depsolve results", pkg.Name)
}
}
return nil
}
func (api *API) blueprintsFreezeHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type blueprintFrozen struct {
Blueprint blueprint.Blueprint `json:"blueprint"`
}
type reply struct {
Blueprints []blueprintFrozen `json:"blueprints"`
Errors []responseError `json:"errors"`
}
names := strings.Split(params.ByName("blueprints"), ",")
if names[0] == "/" {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
// Remove the leading / from the first entry (check above ensures it is not just a /
names[0] = names[0][1:]
if !verifyStringsWithRegex(writer, names, ValidBlueprintName) {
return
}
blueprints := []blueprintFrozen{}
errors := []responseError{}
for _, name := range names {
bp, _ := api.store.GetBlueprint(name)
if bp == nil {
rerr := responseError{
ID: "UnknownBlueprint",
Msg: fmt.Sprintf("%s: blueprint not found", name),
}
errors = append(errors, rerr)
break
}
// Make a copy of the blueprint since we will be replacing the version globs
blueprint := bp.DeepCopy()
dependencies, err := api.depsolveBlueprint(blueprint)
if err != nil {
rerr := responseError{
ID: "BlueprintsError",
Msg: fmt.Sprintf("%s: %s", name, err.Error()),
}
errors = append(errors, rerr)
break
}
// Sort dependencies by Name (names should be unique so no need to sort by EVRA)
sort.Slice(dependencies, func(i, j int) bool {
return dependencies[i].Name < dependencies[j].Name
})
err = setPkgEVRA(dependencies, blueprint.Packages)
if err != nil {
rerr := responseError{
ID: "BlueprintsError",
Msg: fmt.Sprintf("%s: %s", name, err.Error()),
}
errors = append(errors, rerr)
break
}
err = setPkgEVRA(dependencies, blueprint.Modules)
if err != nil {
rerr := responseError{
ID: "BlueprintsError",
Msg: fmt.Sprintf("%s: %s", name, err.Error()),
}
errors = append(errors, rerr)
break
}
blueprints = append(blueprints, blueprintFrozen{blueprint})
}
format := request.URL.Query().Get("format")
if format == "toml" {
// lorax concatenates multiple blueprints with `\n\n` here,
// which is never useful. Deviate by only returning the first
// blueprint.
if len(blueprints) == 0 {
// lorax-composer just outputs an empty string if there were no blueprints
writer.WriteHeader(http.StatusOK)
fmt.Fprintf(writer, "")
return
} else if len(blueprints) > 1 {
errors := responseError{
ID: "HTTPError",
Msg: "toml format only supported when requesting one blueprint",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
encoder := toml.NewEncoder(writer)
encoder.Indent = ""
err := encoder.Encode(blueprints[0].Blueprint)
common.PanicOnError(err)
} else {
err := json.NewEncoder(writer).Encode(reply{
Blueprints: blueprints,
Errors: errors,
})
common.PanicOnError(err)
}
}
func (api *API) blueprintsDiffHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type pack struct {
Package blueprint.Package `json:"Package"`
}
type diff struct {
New *pack `json:"new"`
Old *pack `json:"old"`
}
type reply struct {
Diffs []diff `json:"diff"`
}
name := params.ByName("blueprint")
if !verifyStringsWithRegex(writer, []string{name}, ValidBlueprintName) {
return
}
fromCommit := params.ByName("from")
if !verifyStringsWithRegex(writer, []string{fromCommit}, ValidBlueprintName) {
return
}
toCommit := params.ByName("to")
if !verifyStringsWithRegex(writer, []string{toCommit}, ValidBlueprintName) {
return
}
if len(name) == 0 || len(fromCommit) == 0 || len(toCommit) == 0 {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
if fromCommit != "NEWEST" {
errors := responseError{
ID: "UnknownCommit",
Msg: fmt.Sprintf("ggit-error: revspec '%s' not found (-3)", fromCommit),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if toCommit != "WORKSPACE" {
errors := responseError{
ID: "UnknownCommit",
Msg: fmt.Sprintf("ggit-error: revspec '%s' not found (-3)", toCommit),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// Fetch old and new blueprint details from store and return error if not found
oldBlueprint := api.store.GetBlueprintCommitted(name)
newBlueprint, _ := api.store.GetBlueprint(name)
if oldBlueprint == nil || newBlueprint == nil {
errors := responseError{
ID: "UnknownBlueprint",
Msg: fmt.Sprintf("Unknown blueprint name: %s", name),
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
newSlice := newBlueprint.Packages
oldMap := make(map[string]blueprint.Package)
diffs := []diff{}
for _, oldPackage := range oldBlueprint.Packages {
oldMap[oldPackage.Name] = oldPackage
}
// For each package in new blueprint check if the old one contains it
for _, newPackage := range newSlice {
oldPackage, found := oldMap[newPackage.Name]
// If found remove from old packages map but otherwise create a diff with the added package
if found {
delete(oldMap, oldPackage.Name)
// Create a diff if the versions changed
if oldPackage.Version != newPackage.Version {
diffs = append(diffs, diff{Old: &pack{oldPackage}, New: &pack{newPackage}})
}
} else {
diffs = append(diffs, diff{Old: nil, New: &pack{newPackage}})
}
}
// All packages remaining in the old packages map have been removed in the new blueprint so create a diff
for _, oldPackage := range oldMap {
diffs = append(diffs, diff{Old: &pack{oldPackage}, New: nil})
}
err := json.NewEncoder(writer).Encode(reply{diffs})
common.PanicOnError(err)
}
func (api *API) blueprintsChangesHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type change struct {
Changes []blueprint.Change `json:"changes"`
Name string `json:"name"`
Total int `json:"total"`
}
type reply struct {
BlueprintsChanges []change `json:"blueprints"`
Errors []responseError `json:"errors"`
Limit uint `json:"limit"`
Offset uint `json:"offset"`
}
names := strings.Split(params.ByName("blueprints"), ",")
if names[0] == "/" {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
// Remove the leading / from the first entry (check above ensures it is not just a /
names[0] = names[0][1:]
if !verifyStringsWithRegex(writer, names, ValidBlueprintName) {
return
}
offset, limit, err := parseOffsetAndLimit(request.URL.Query())
if err != nil {
errors := responseError{
ID: "BadLimitOrOffset",
Msg: fmt.Sprintf("BadRequest: %s", err.Error()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
allChanges := []change{}
errors := []responseError{}
for _, name := range names {
bpChanges := api.store.GetBlueprintChanges(name)
// Reverse the changes, newest first
reversed := make([]blueprint.Change, 0, len(bpChanges))
for i := len(bpChanges) - 1; i >= 0; i-- {
reversed = append(reversed, bpChanges[i])
}
if bpChanges != nil {
change := change{
Changes: reversed,
Name: name,
Total: len(bpChanges),
}
allChanges = append(allChanges, change)
} else {
error := responseError{
ID: "UnknownBlueprint",
Msg: name,
}
errors = append(errors, error)
}
}
err = json.NewEncoder(writer).Encode(reply{
BlueprintsChanges: allChanges,
Errors: errors,
Offset: offset,
Limit: limit,
})
common.PanicOnError(err)
}
func (api *API) blueprintsNewHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
contentType := request.Header["Content-Type"]
if len(contentType) == 0 {
errors := responseError{
ID: "BlueprintsError",
Msg: "missing Content-Type header",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if request.ContentLength == 0 {
errors := responseError{
ID: "BlueprintsError",
Msg: "Missing blueprint",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var blueprint blueprint.Blueprint
var err error
if contentType[0] == "application/json" {
err = json.NewDecoder(request.Body).Decode(&blueprint)
} else if contentType[0] == "text/x-toml" {
_, err = toml.NewDecoder(request.Body).Decode(&blueprint)
} else {
err = errors_package.New("blueprint must be in json or toml format")
}
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: "400 Bad Request: The browser (or proxy) sent a request that this server could not understand: " + err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if !verifyStringsWithRegex(writer, []string{blueprint.Name}, ValidBlueprintName) {
return
}
// Check the blueprint's distro to make sure it is valid
if len(blueprint.Distro) > 0 {
if !common.IsStringInSortedSlice(api.distros, blueprint.Distro) {
errors := responseError{
ID: "BlueprintsError",
Msg: fmt.Sprintf("'%s' is not a valid distribution", blueprint.Distro),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
}
// Make sure the blueprint has default values and that the version is valid
err = blueprint.Initialize()
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
commitMsg := "Recipe " + blueprint.Name + ", version " + blueprint.Version + " saved."
err = api.store.PushBlueprint(blueprint, commitMsg)
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
statusResponseOK(writer)
}
func (api *API) blueprintsWorkspaceHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
contentType := request.Header["Content-Type"]
if len(contentType) == 0 {
errors := responseError{
ID: "BlueprintsError",
Msg: "missing Content-Type header",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if request.ContentLength == 0 {
errors := responseError{
ID: "BlueprintsError",
Msg: "Missing blueprint",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var blueprint blueprint.Blueprint
var err error
if contentType[0] == "application/json" {
err = json.NewDecoder(request.Body).Decode(&blueprint)
} else if contentType[0] == "text/x-toml" {
_, err = toml.NewDecoder(request.Body).Decode(&blueprint)
} else {
err = errors_package.New("blueprint must be in json or toml format")
}
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: "400 Bad Request: The browser (or proxy) sent a request that this server could not understand: " + err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
if !verifyStringsWithRegex(writer, []string{blueprint.Name}, ValidBlueprintName) {
return
}
err = api.store.PushBlueprintToWorkspace(blueprint)
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
statusResponseOK(writer)
}
func (api *API) blueprintUndoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
name := params.ByName("blueprint")
if !verifyStringsWithRegex(writer, []string{name}, ValidBlueprintName) {
return
}
commit := params.ByName("commit")
if !verifyStringsWithRegex(writer, []string{commit}, ValidBlueprintName) {
return
}
bpChange, err := api.store.GetBlueprintChange(name, commit)
if err != nil {
errors := responseError{
ID: "UnknownCommit",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
bp := bpChange.Blueprint
if len(bpChange.Blueprint.Name) == 0 {
errors := responseError{
ID: "BlueprintsError",
Msg: fmt.Sprintf("no blueprint found for commit %s", commit),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
commitMsg := name + ".toml reverted to commit " + commit
err = api.store.PushBlueprint(bp, commitMsg)
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
statusResponseOK(writer)
}
func (api *API) blueprintDeleteHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
name := params.ByName("blueprint")
if !verifyStringsWithRegex(writer, []string{name}, ValidBlueprintName) {
return
}
if err := api.store.DeleteBlueprint(name); err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
statusResponseOK(writer)
}
func (api *API) blueprintDeleteWorkspaceHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
name := params.ByName("blueprint")
if !verifyStringsWithRegex(writer, []string{name}, ValidBlueprintName) {
return
}
if err := api.store.DeleteBlueprintFromWorkspace(name); err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
statusResponseOK(writer)
}
// blueprintsTagHandler tags the current blueprint commit as a new revision
func (api *API) blueprintsTagHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
name := params.ByName("blueprint")
if !verifyStringsWithRegex(writer, []string{name}, ValidBlueprintName) {
return
}
err := api.store.TagBlueprint(name)
if err != nil {
errors := responseError{
ID: "BlueprintsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
statusResponseOK(writer)
}
// depsolveBlueprintForImageType handles depsolving the blueprint package list and
// the packages required for the image type.
// NOTE: The imageType *must* be from the same distribution as the blueprint.
func (api *API) depsolveBlueprintForImageType(bp blueprint.Blueprint, options distro.ImageOptions, imageType distro.ImageType) (map[string][]rpmmd.PackageSpec, error) {
// Depsolve using the host distro if none has been specified
if bp.Distro == "" {
bp.Distro = api.hostDistroName
}
if bp.Distro != imageType.Arch().Distro().Name() {
return nil, fmt.Errorf("Blueprint distro %s does not match imageType distro %s", bp.Distro, imageType.Arch().Distro().Name())
}
imageTypeRepos, err := api.allRepositoriesByImageType(imageType)
if err != nil {
return nil, err
}
platformID := imageType.Arch().Distro().ModulePlatformID()
releasever := imageType.Arch().Distro().Releasever()
solver := api.solver.NewWithConfig(platformID, releasever, api.archName)
packageSets := imageType.PackageSets(bp, options, imageTypeRepos)
depsolvedSets := make(map[string][]rpmmd.PackageSpec, len(packageSets))
for name, pkgSet := range packageSets {
res, err := solver.Depsolve(pkgSet)
if err != nil {
return nil, err
}
depsolvedSets[name] = res
}
if err := solver.CleanCache(); err != nil {
// log and ignore
log.Printf("Error during rpm repo cache cleanup: %s", err.Error())
}
return depsolvedSets, nil
}
func (api *API) resolveContainersForImageType(bp blueprint.Blueprint, imageType distro.ImageType) ([]container.Spec, error) {
specs := make([]container.Spec, len(bp.Containers))
// shortcut
if len(bp.Containers) == 0 {
return specs, nil
}
job := worker.ContainerResolveJob{
Arch: api.archName,
Specs: make([]worker.ContainerSpec, len(bp.Containers)),
}
for i, c := range bp.Containers {
job.Specs[i] = worker.ContainerSpec{
Source: c.Source,
Name: c.Name,
TLSVerify: c.TLSVerify,
}
}
jobId, err := api.workers.EnqueueContainerResolveJob(&job, "")
if err != nil {
return specs, err
}
var result worker.ContainerResolveJobResult
for {
jobInfo, err := api.workers.ContainerResolveJobInfo(jobId, &result)
if err != nil {
return specs, err
}
if result.JobError != nil {
return specs, errors.New(result.JobError.Reason)
} else if jobInfo.JobStatus.Canceled {
return specs, fmt.Errorf("Failed to resolve containers: job cancelled")
} else if !jobInfo.JobStatus.Finished.IsZero() {
break
}
time.Sleep(time.Millisecond * 250)
}
if len(result.Specs) != len(specs) {
panic("programming error: input / output length don't match")
}
for i, s := range result.Specs {
specs[i].Source = s.Source
specs[i].Digest = s.Digest
specs[i].LocalName = s.Name
specs[i].TLSVerify = s.TLSVerify
specs[i].ImageID = s.ImageID
}
return specs, nil
}
// Schedule new compose by first translating the appropriate blueprint into a pipeline and then
// pushing it into the channel for waiting builds.
func (api *API) composeHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
// https://weldr.io/lorax/pylorax.api.html#pylorax.api.v0.v0_compose_start
type ComposeRequest struct {
BlueprintName string `json:"blueprint_name"`
ComposeType string `json:"compose_type"`
Size uint64 `json:"size"`
OSTree ostree.RequestParams `json:"ostree"`
Branch string `json:"branch"`
Upload *uploadRequest `json:"upload"`
}
type ComposeReply struct {
BuildID uuid.UUID `json:"build_id"`
Status bool `json:"status"`
}
contentType := request.Header["Content-Type"]
if len(contentType) != 1 || contentType[0] != "application/json" {
errors := responseError{
ID: "MissingPost",
Msg: "blueprint must be json",
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var cr ComposeRequest
err := json.NewDecoder(request.Body).Decode(&cr)
if err != nil {
errors := responseError{
Code: http.StatusNotFound,
ID: "HTTPError",
Msg: "Not Found",
}
statusResponseError(writer, http.StatusNotFound, errors)
return
}
if !verifyStringsWithRegex(writer, []string{cr.BlueprintName}, ValidBlueprintName) {
return
}
bp := api.store.GetBlueprintCommitted(cr.BlueprintName)
if bp == nil {
errors := responseError{
ID: "UnknownBlueprint",
Msg: fmt.Sprintf("Unknown blueprint name: %s", cr.BlueprintName),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
distroName := bp.Distro
if distroName == "" {
distroName = api.hostDistroName
}
if api.getDistro(distroName) == nil {
errors := responseError{
ID: "DistroError",
Msg: fmt.Sprintf("Unknown distribution: %s", distroName),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// Get the imageType that corresponds to the distribution selected by the blueprint
imageType, err := api.getImageType(distroName, cr.ComposeType)
if err != nil {
errors := responseError{
ID: "ComposeError",
Msg: fmt.Sprintf("Failed to get compose type %q: %v", cr.ComposeType, err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeID := uuid.New()
var targets []*target.Target
// Always instruct the worker to upload the artifact back to the server
workerServerTarget := target.NewWorkerServerTarget()
workerServerTarget.ImageName = imageType.Filename()
workerServerTarget.OsbuildArtifact.ExportFilename = imageType.Filename()
workerServerTarget.OsbuildArtifact.ExportName = imageType.Exports()[0]
targets = append(targets, workerServerTarget)
if isRequestVersionAtLeast(params, 1) && cr.Upload != nil {
t := uploadRequestToTarget(*cr.Upload, imageType)
targets = append(targets, t)
}
// Check for test parameter
q, err := url.ParseQuery(request.URL.RawQuery)
if err != nil {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid query string: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
testMode := q.Get("test")
if testMode == "1" || testMode == "2" {
// Fake a parent commit for test requests
cr.OSTree.Parent = "02604b2da6e954bd34b8b82a835e5a77d2b60ffa"
} else {
ostreeParams, err := ostree.ResolveParams(cr.OSTree, imageType.OSTreeRef())
if err != nil {
errors := responseError{
ID: "OSTreeOptionsError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
cr.OSTree = ostreeParams
}
var size uint64
// check if filesytem customizations have been set.
// if compose size parameter is set, take the larger of
// the two values
if minSize := bp.Customizations.GetFilesystemsMinSize(); bp.Customizations != nil && minSize > 0 && minSize > cr.Size {
size = imageType.Size(minSize)
} else {
size = imageType.Size(cr.Size)
}
bigSeed, err := rand.Int(rand.Reader, big.NewInt(math.MaxInt64))
if err != nil {
panic("cannot generate a manifest seed: " + err.Error())
}
seed := bigSeed.Int64()
options := distro.ImageOptions{
Size: size,
OSTree: ostree.RequestParams{
Ref: cr.OSTree.Ref,
Parent: cr.OSTree.Parent,
URL: cr.OSTree.URL,
},
}
options.Facts = &distro.FactsImageOptions{
ApiType: "weldr",
}
packageSets, err := api.depsolveBlueprintForImageType(*bp, options, imageType)
if err != nil {
errors := responseError{
ID: "DepsolveError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusInternalServerError, errors)
return
}
imageRepos, err := api.allRepositoriesByImageType(imageType)
// this should not happen if the api.depsolveBlueprintForImageType() call above worked
if err != nil {
errors := responseError{
ID: "InternalError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusInternalServerError, errors)
return
}
containerSpecs, err := api.resolveContainersForImageType(*bp, imageType)
if err != nil {
errors := responseError{
ID: "ContainerResolveError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusInternalServerError, errors)
return
}
manifest, err := imageType.Manifest(bp.Customizations,
options,
imageRepos,
packageSets,
containerSpecs,
seed)
if err != nil {
errors := responseError{
ID: "ManifestCreationFailed",
Msg: fmt.Sprintf("failed to create osbuild manifest: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var packages []rpmmd.PackageSpec
// TODO: introduce a way to query these from the manifest / image type
// BUG: installer/container image types will have empty package sets
if packages = packageSets["packages"]; len(packages) == 0 {
if packages = packageSets["os"]; len(packages) == 0 {
packages = packageSets["ostree-tree"]
}
}
if testMode == "1" {
// Create a failed compose
err = api.store.PushTestCompose(composeID, manifest, imageType, bp, size, targets, false, packages)
} else if testMode == "2" {
// Create a successful compose
err = api.store.PushTestCompose(composeID, manifest, imageType, bp, size, targets, true, packages)
} else {
var jobId uuid.UUID
jobId, err = api.workers.EnqueueOSBuild(api.archName, &worker.OSBuildJob{
Manifest: manifest,
Targets: targets,
PipelineNames: &worker.PipelineNames{
Build: imageType.BuildPipelines(),
Payload: imageType.PayloadPipelines(),
},
}, "")
if err == nil {
err = api.store.PushCompose(composeID, manifest, imageType, bp, size, targets, jobId, packages)
}
}
// TODO: we should probably do some kind of blueprint validation in future
// for now, let's just 500 and bail out
if err != nil {
log.Println("error when pushing new compose: ", err.Error())
errors := responseError{
ID: "ComposePushErrored",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusInternalServerError, errors)
return
}
err = json.NewEncoder(writer).Encode(ComposeReply{
BuildID: composeID,
Status: true,
})
common.PanicOnError(err)
}
func (api *API) composeDeleteHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
type composeDeleteStatus struct {
UUID uuid.UUID `json:"uuid"`
Status bool `json:"status"`
}
type composeDeleteError struct {
ID string `json:"id"`
Msg string `json:"msg"`
}
uuidsParam := params.ByName("uuids")
results := []composeDeleteStatus{}
errors := []composeDeleteError{}
uuidStrings := strings.Split(uuidsParam, ",")
for _, uuidString := range uuidStrings {
id, err := uuid.Parse(uuidString)
if err != nil {
errors = append(errors, composeDeleteError{
"UnknownUUID",
fmt.Sprintf("%s is not a valid uuid", uuidString),
})
continue
}
compose, exists := api.store.GetCompose(id)
if !exists {
errors = append(errors, composeDeleteError{
"UnknownUUID",
fmt.Sprintf("compose %s doesn't exist", id),
})
continue
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFinished && composeStatus.State != ComposeFailed {
errors = append(errors, composeDeleteError{
"BuildInWrongState",
fmt.Sprintf("Compose %s is not in FINISHED or FAILED.", id),
})
continue
}
err = api.store.DeleteCompose(id)
if err != nil {
errors = append(errors, composeDeleteError{
"ComposeError",
fmt.Sprintf("%s: %s", id, err.Error()),
})
continue
}
// Delete artifacts from the worker server or — if that doesn't
// have this job — the compat output dir. Ignore errors,
// because there's no point of reporting them to the client
// after the compose itself has already been deleted.
err = api.workers.DeleteArtifacts(compose.ImageBuild.JobID)
if err == jobqueue.ErrNotExist && api.compatOutputDir != "" {
_ = os.RemoveAll(path.Join(api.compatOutputDir, id.String()))
}
results = append(results, composeDeleteStatus{id, true})
}
reply := struct {
UUIDs []composeDeleteStatus `json:"uuids"`
Errors []composeDeleteError `json:"errors"`
}{results, errors}
err := json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
func (api *API) composeCancelHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
id, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(id)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("Compose %s doesn't exist", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeWaiting && composeStatus.State != ComposeRunning {
errors := responseError{
ID: "BuildInWrongState",
Msg: fmt.Sprintf("Build %s is not in WAITING or RUNNING.", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
err = api.workers.Cancel(compose.ImageBuild.JobID)
if err != nil {
errors := responseError{
ID: "InternalServerError",
Msg: fmt.Sprintf("Internal server error: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
reply := CancelComposeStatusV0{id, true}
_ = json.NewEncoder(writer).Encode(reply)
}
func (api *API) composeTypesHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
// Optional distro parameter
// If it is empty it will return api.hostDistroName
distroName, err := api.parseDistro(request.URL.Query())
if err != nil {
errors := responseError{
ID: "DistroError",
Msg: err.Error(),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
d := api.getDistro(distroName)
if d == nil {
errors := responseError{
ID: "DistroError",
Msg: fmt.Sprintf("Unknown distribution: %s", distroName),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
// Get the distro specific arch so that we can return the correct list of image types
arch, err := d.GetArch(api.archName)
if err != nil {
errors := responseError{
ID: "DistroError",
Msg: fmt.Sprintf("Unknown arch: %s", api.archName),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
type composeType struct {
Name string `json:"name"`
Enabled bool `json:"enabled"`
}
var reply struct {
Types []composeType `json:"types"`
}
for _, format := range arch.ListImageTypes() {
imgAllowed, err := api.isImageTypeAllowed(distroName, format)
if err != nil {
errors := responseError{
ID: "InternalError",
Msg: fmt.Sprintf("Error while checking if image type is allowed: %v", err),
}
statusResponseError(writer, http.StatusInternalServerError, errors)
return
}
if !imgAllowed {
continue
}
reply.Types = append(reply.Types, composeType{format, true})
}
err = json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
func (api *API) composeQueueHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
reply := struct {
New []*ComposeEntry `json:"new"`
Run []*ComposeEntry `json:"run"`
}{[]*ComposeEntry{}, []*ComposeEntry{}}
includeUploads := isRequestVersionAtLeast(params, 1)
composes := api.store.GetAllComposes()
for id, compose := range composes {
composeStatus := api.getComposeStatus(compose)
switch composeStatus.State {
case ComposeWaiting:
reply.New = append(reply.New, composeToComposeEntry(id, compose, composeStatus, includeUploads))
case ComposeRunning:
reply.Run = append(reply.Run, composeToComposeEntry(id, compose, composeStatus, includeUploads))
}
}
err := json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
func (api *API) composeStatusHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
// TODO: lorax has some params: /api/v0/compose/status/<uuids>[?blueprint=<blueprint_name>&status=<compose_status>&type=<compose_type>]
if !verifyRequestVersion(writer, params, 0) {
return
}
var reply struct {
UUIDs []*ComposeEntry `json:"uuids"`
}
uuidsParam := params.ByName("uuids")
composes := api.store.GetAllComposes()
uuids := []uuid.UUID{}
if uuidsParam != "*" {
for _, uuidString := range strings.Split(uuidsParam, ",") {
id, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
uuids = append(uuids, id)
}
} else {
for id := range composes {
uuids = append(uuids, id)
}
}
q, err := url.ParseQuery(request.URL.RawQuery)
if err != nil {
errors := responseError{
ID: "InvalidChars",
Msg: fmt.Sprintf("invalid query string: %v", err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
filterBlueprint := q.Get("blueprint")
if len(filterBlueprint) > 0 && !verifyStringsWithRegex(writer, []string{filterBlueprint}, ValidBlueprintName) {
return
}
filterStatus := q.Get("status")
filterImageType := q.Get("type")
filteredUUIDs := []uuid.UUID{}
for _, id := range uuids {
compose, exists := composes[id]
if !exists {
continue
}
composeStatus := api.getComposeStatus(compose)
if filterBlueprint != "" && compose.Blueprint.Name != filterBlueprint {
continue
} else if filterStatus != "" && composeStatus.State.ToString() != filterStatus {
continue
} else if filterImageType != "" && compose.ImageBuild.ImageType.Name() != filterImageType {
continue
}
filteredUUIDs = append(filteredUUIDs, id)
}
reply.UUIDs = []*ComposeEntry{}
includeUploads := isRequestVersionAtLeast(params, 1)
for _, id := range filteredUUIDs {
if compose, exists := composes[id]; exists {
composeStatus := api.getComposeStatus(compose)
reply.UUIDs = append(reply.UUIDs, composeToComposeEntry(id, compose, composeStatus, includeUploads))
}
}
sortComposeEntries(reply.UUIDs)
err = json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
func (api *API) composeInfoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
id, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(id)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
var reply struct {
ID uuid.UUID `json:"id"`
Config string `json:"config"` // anaconda config, let's ignore this field
Blueprint *blueprint.Blueprint `json:"blueprint"` // blueprint not frozen!
Commit string `json:"commit"` // empty for now
Deps struct {
Packages []rpmmd.PackageSpec `json:"packages"`
} `json:"deps"`
ComposeType string `json:"compose_type"`
QueueStatus string `json:"queue_status"`
ImageSize uint64 `json:"image_size"`
Uploads []uploadResponse `json:"uploads,omitempty"`
}
reply.ID = id
reply.Blueprint = compose.Blueprint
// Weldr API assumes only one image build per compose, that's why only the
// 1st build is considered
composeStatus := api.getComposeStatus(compose)
reply.ComposeType = compose.ImageBuild.ImageType.Name()
reply.QueueStatus = composeStatus.State.ToString()
reply.ImageSize = compose.ImageBuild.Size
if isRequestVersionAtLeast(params, 1) {
reply.Uploads = targetsToUploadResponses(compose.ImageBuild.Targets, composeStatus.State)
}
// Add package dependencies from the compose
// This information may not be included for the compose
dependencies := compose.Packages
// Sort dependencies by Name (names should be unique so no need to sort by EVRA)
sort.Slice(dependencies, func(i, j int) bool {
return dependencies[i].Name < dependencies[j].Name
})
reply.Deps.Packages = dependencies
err = json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
func (api *API) composeImageHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
uuid, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(uuid)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("Compose %s doesn't exist", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFinished {
errors := responseError{
ID: "BuildInWrongState",
Msg: fmt.Sprintf("Build %s is in wrong state: %s", uuidString, composeStatus.State.ToString()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
imageName := compose.ImageBuild.ImageType.Filename()
imageMime := compose.ImageBuild.ImageType.MIMEType()
reader, fileSize, err := api.openImageFile(uuid, compose)
if err != nil {
errors := responseError{
ID: "InternalServerError",
Msg: fmt.Sprintf("Error accessing image file for compose %s: %v", uuid, err),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
writer.Header().Set("Content-Disposition", "attachment; filename="+uuid.String()+"-"+imageName)
writer.Header().Set("Content-Type", imageMime)
writer.Header().Set("Content-Length", fmt.Sprintf("%d", fileSize))
_, err = io.Copy(writer, reader)
common.PanicOnError(err)
}
// composeMetadataHandler returns a tar of the metadata used to compose the requested UUID
func (api *API) composeMetadataHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
uuid, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(uuid)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("Compose %s doesn't exist", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFinished && composeStatus.State != ComposeFailed {
errors := responseError{
ID: "BuildInWrongState",
Msg: fmt.Sprintf("Build %s is in wrong state: %s", uuidString, composeStatus.State.ToString()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
metadata, err := json.Marshal(&compose.ImageBuild.Manifest)
common.PanicOnError(err)
writer.Header().Set("Content-Disposition", "attachment; filename="+uuid.String()+"-metadata.tar")
writer.Header().Set("Content-Type", "application/x-tar")
// NOTE: Do not set Content-Length, it will use chunked transfer encoding automatically
tw := tar.NewWriter(writer)
hdr := &tar.Header{
Name: uuid.String() + ".json",
Mode: 0600,
Size: int64(len(metadata)),
ModTime: time.Now().Truncate(time.Second),
}
err = tw.WriteHeader(hdr)
common.PanicOnError(err)
_, err = tw.Write(metadata)
common.PanicOnError(err)
err = tw.Close()
common.PanicOnError(err)
}
// composeResultsHandler returns a tar of the metadata, logs, and image from a compose
func (api *API) composeResultsHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
uuid, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(uuid)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("Compose %s doesn't exist", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFinished && composeStatus.State != ComposeFailed {
errors := responseError{
ID: "BuildInWrongState",
Msg: fmt.Sprintf("Build %s is in wrong state: %s", uuidString, composeStatus.State.ToString()),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
metadata, err := json.Marshal(&compose.ImageBuild.Manifest)
common.PanicOnError(err)
writer.Header().Set("Content-Disposition", "attachment; filename="+uuid.String()+".tar")
writer.Header().Set("Content-Type", "application/x-tar")
// NOTE: Do not set Content-Length, it should use chunked transfer encoding automatically
tw := tar.NewWriter(writer)
hdr := &tar.Header{
Name: uuid.String() + ".json",
Mode: 0644,
Size: int64(len(metadata)),
ModTime: time.Now().Truncate(time.Second),
}
err = tw.WriteHeader(hdr)
common.PanicOnError(err)
_, err = tw.Write(metadata)
common.PanicOnError(err)
// Add the logs
var fileContents bytes.Buffer
if composeStatus.Result != nil {
err = composeStatus.Result.Write(&fileContents)
common.PanicOnError(err)
hdr = &tar.Header{
Name: "logs/osbuild.log",
Mode: 0644,
Size: int64(fileContents.Len()),
ModTime: time.Now().Truncate(time.Second),
}
err = tw.WriteHeader(hdr)
common.PanicOnError(err)
_, err = tw.Write(fileContents.Bytes())
common.PanicOnError(err)
}
reader, fileSize, err := api.openImageFile(uuid, compose)
if err == nil {
hdr = &tar.Header{
Name: uuid.String() + "-" + compose.ImageBuild.ImageType.Filename(),
Mode: 0644,
Size: int64(fileSize),
ModTime: time.Now().Truncate(time.Second),
}
err = tw.WriteHeader(hdr)
common.PanicOnError(err)
_, err = io.Copy(tw, reader)
common.PanicOnError(err)
}
err = tw.Close()
common.PanicOnError(err)
}
func (api *API) composeLogsHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
id, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(id)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("Compose %s doesn't exist", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFinished && composeStatus.State != ComposeFailed {
errors := responseError{
ID: "BuildInWrongState",
Msg: fmt.Sprintf("Build %s not in FINISHED or FAILED state.", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
writer.Header().Set("Content-Disposition", "attachment; filename="+id.String()+"-logs.tar")
writer.Header().Set("Content-Type", "application/x-tar")
tw := tar.NewWriter(writer)
// tar format needs to contain file size before the actual file content, therefore the intermediate buffer
var fileContents bytes.Buffer
err = composeStatus.Result.Write(&fileContents)
common.PanicOnError(err)
header := &tar.Header{
Name: "logs/osbuild.log",
Mode: 0644,
Size: int64(fileContents.Len()),
ModTime: time.Now().Truncate(time.Second),
}
err = tw.WriteHeader(header)
common.PanicOnError(err)
_, err = io.Copy(tw, &fileContents)
common.PanicOnError(err)
err = tw.Close()
common.PanicOnError(err)
}
func (api *API) composeLogHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
// TODO: implement size param
if !verifyRequestVersion(writer, params, 0) {
return
}
uuidString := params.ByName("uuid")
id, err := uuid.Parse(uuidString)
if err != nil {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("%s is not a valid build uuid", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
compose, exists := api.store.GetCompose(id)
if !exists {
errors := responseError{
ID: "UnknownUUID",
Msg: fmt.Sprintf("Compose %s doesn't exist", uuidString),
}
statusResponseError(writer, http.StatusBadRequest, errors)
return
}
composeStatus := api.getComposeStatus(compose)
if composeStatus.State == ComposeWaiting {
errors := responseError{
ID: "BuildInWrongState",
Msg: fmt.Sprintf("Build %s has not started yet. No logs to view.", uuidString),
}
statusResponseError(writer, http.StatusOK, errors) // weirdly, Lorax returns 200 in this case
return
}
if composeStatus.State == ComposeRunning {
fmt.Fprintf(writer, "Build %s is still running.\n", uuidString)
return
}
err = composeStatus.Result.Write(writer)
common.PanicOnError(err)
}
func (api *API) composeFinishedHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
reply := struct {
Finished []*ComposeEntry `json:"finished"`
}{[]*ComposeEntry{}}
includeUploads := isRequestVersionAtLeast(params, 1)
for id, compose := range api.store.GetAllComposes() {
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFinished {
continue
}
reply.Finished = append(reply.Finished, composeToComposeEntry(id, compose, composeStatus, includeUploads))
}
sortComposeEntries(reply.Finished)
err := json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
func (api *API) composeFailedHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 0) {
return
}
reply := struct {
Failed []*ComposeEntry `json:"failed"`
}{[]*ComposeEntry{}}
includeUploads := isRequestVersionAtLeast(params, 1)
for id, compose := range api.store.GetAllComposes() {
composeStatus := api.getComposeStatus(compose)
if composeStatus.State != ComposeFailed {
continue
}
reply.Failed = append(reply.Failed, composeToComposeEntry(id, compose, composeStatus, includeUploads))
}
sortComposeEntries(reply.Failed)
err := json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
// fetchPackageList returns the package list or the selected distribution
func (api *API) fetchPackageList(distroName string, names []string) (packages rpmmd.PackageList, err error) {
d := api.getDistro(distroName)
if d == nil {
return nil, fmt.Errorf("GetDistro - unknown distribution: %s", distroName)
}
repos, err := api.allRepositories(distroName)
if err != nil {
return nil, err
}
solver := api.solver.NewWithConfig(d.ModulePlatformID(), d.Releasever(), api.archName)
if len(names) == 0 {
packages, err = solver.FetchMetadata(repos)
} else {
packages, err = solver.SearchMetadata(repos, names)
}
if err != nil {
return nil, err
}
if err := solver.CleanCache(); err != nil {
// log and ignore
log.Printf("Error during rpm repo cache cleanup: %s", err.Error())
}
return packages, nil
}
// Returns only user-defined repositories, which should be used only for
// payload package sets.
func (api *API) payloadRepositories(distroName string) []rpmmd.RepoConfig {
distroSourceConfigs := api.store.GetAllDistroSources(distroName)
payloadRepos := make([]rpmmd.RepoConfig, 0, len(distroSourceConfigs))
for id, source := range distroSourceConfigs {
payloadRepos = append(payloadRepos, source.RepoConfig(id))
}
return payloadRepos
}
// Returns all configured repositories as rpmmd.RepoConfig.
// The first returned slice represents the Base repos (depending on the image
// type), while the second value represents the payload repos (defined by user).
// The difference from allRepositories() is that this method may return additional repositories,
// which are needed to build the specific image type. The allRepositories() can't do this, because
// it is used in places where image types are not considered.
func (api *API) allRepositoriesByImageType(imageType distro.ImageType) ([]rpmmd.RepoConfig, error) {
repos, err := api.repoRegistry.ReposByImageType(imageType)
if err != nil {
return nil, err
}
payloadRepos := api.payloadRepositories(imageType.Arch().Distro().Name())
// tag payload repositories with the payload package set names and add them to list of repos
for _, pr := range payloadRepos {
pr.ImageTypeTags = imageType.PayloadPackageSets()
repos = append(repos, pr)
}
return repos, nil
}
// Returns all configured repositories (base + sources) as rpmmd.RepoConfig
func (api *API) allRepositories(distroName string) ([]rpmmd.RepoConfig, error) {
repos, err := api.repoRegistry.ReposByArchName(distroName, api.archName, false)
if err != nil {
return nil, err
}
payloadRepos := api.payloadRepositories(distroName)
repos = append(repos, payloadRepos...)
return repos, nil
}
func (api *API) depsolveBlueprint(bp blueprint.Blueprint) ([]rpmmd.PackageSpec, error) {
// Depsolve using the host distro if none has been specified
if bp.Distro == "" {
bp.Distro = api.hostDistroName
}
d := api.getDistro(bp.Distro)
if d == nil {
return nil, fmt.Errorf("GetDistro - unknown distribution: %s", bp.Distro)
}
repos, err := api.allRepositories(bp.Distro)
if err != nil {
return nil, err
}
solver := api.solver.NewWithConfig(d.ModulePlatformID(), d.Releasever(), api.archName)
solved, err := solver.Depsolve([]rpmmd.PackageSet{{Include: bp.GetPackages(), Repositories: repos}})
if err != nil {
return nil, err
}
if err := solver.CleanCache(); err != nil {
// log and ignore
log.Printf("Error during rpm repo cache cleanup: %s", err.Error())
}
return solved, nil
}
func (api *API) uploadsScheduleHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) uploadsDeleteHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) uploadsInfoHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) uploadsLogHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) uploadsResetHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) uploadsCancelHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) providersHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) providersSaveHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) providersDeleteHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
// TODO: implement this route (it is v1 only)
notImplementedHandler(writer, request, params)
}
func (api *API) distrosListHandler(writer http.ResponseWriter, request *http.Request, params httprouter.Params) {
if !verifyRequestVersion(writer, params, 1) {
return
}
var reply struct {
Distros []string `json:"distros"`
}
reply.Distros = api.distros
err := json.NewEncoder(writer).Encode(reply)
common.PanicOnError(err)
}
Reference in a new issue View git blame Copy permalink