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package providercache
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import (
"context"
"fmt"
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"path/filepath"
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"sort"
"strings"
"github.com/apparentlymart/go-versions/versions"
"github.com/hashicorp/terraform/addrs"
"github.com/hashicorp/terraform/internal/copydir"
"github.com/hashicorp/terraform/internal/getproviders"
)
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// Installer is the main type in this package, representing a provider installer
// with a particular configuration-specific cache directory and an optional
// global cache directory.
type Installer struct {
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// targetDir is the cache directory we're ultimately aiming to get the
// requested providers installed into.
targetDir * Dir
// source is the provider source that the installer will use to discover
// what provider versions are available for installation and to
// find the source locations for any versions that are not already
// available via one of the cache directories.
source getproviders . Source
// globalCacheDir is an optional additional directory that will, if
// provided, be treated as a read-through cache when retrieving new
// provider versions. That is, new packages are fetched into this
// directory first and then linked into targetDir, which allows sharing
// both the disk space and the download time for a particular provider
// version between different configurations on the same system.
globalCacheDir * Dir
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// builtInProviderTypes is an optional set of types that should be
// considered valid to appear in the special terraform.io/builtin/...
// namespace, which we use for providers that are built in to Terraform
// and thus do not need any separate installation step.
builtInProviderTypes [ ] string
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}
// NewInstaller constructs and returns a new installer with the given target
// directory and provider source.
//
// A newly-created installer does not have a global cache directory configured,
// but a caller can make a follow-up call to SetGlobalCacheDir to provide
// one prior to taking any installation actions.
//
// The target directory MUST NOT also be an input consulted by the given source,
// or the result is undefined.
func NewInstaller ( targetDir * Dir , source getproviders . Source ) * Installer {
return & Installer {
targetDir : targetDir ,
source : source ,
}
}
// SetGlobalCacheDir activates a second tier of caching for the receiving
// installer, with the given directory used as a read-through cache for
// installation operations that need to retrieve new packages.
//
// The global cache directory for an installer must never be the same as its
// target directory, and must not be used as one of its provider sources.
// If these overlap then undefined behavior will result.
func ( i * Installer ) SetGlobalCacheDir ( cacheDir * Dir ) {
// A little safety check to catch straightforward mistakes where the
// directories overlap. Better to panic early than to do
// possibly-distructive actions on the cache directory downstream.
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if same , err := copydir . SameFile ( i . targetDir . baseDir , cacheDir . baseDir ) ; err == nil && same {
panic ( fmt . Sprintf ( "global cache directory %s must not match the installation target directory %s" , cacheDir . baseDir , i . targetDir . baseDir ) )
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}
i . globalCacheDir = cacheDir
}
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// SetBuiltInProviderTypes tells the receiver to consider the type names in the
// given slice to be valid as providers in the special special
// terraform.io/builtin/... namespace that we use for providers that are
// built in to Terraform and thus do not need a separate installation step.
//
// If a caller requests installation of a provider in that namespace, the
// installer will treat it as a no-op if its name exists in this list, but
// will produce an error if it does not.
//
// The default, if this method isn't called, is for there to be no valid
// builtin providers.
//
// Do not modify the buffer under the given slice after passing it to this
// method.
func ( i * Installer ) SetBuiltInProviderTypes ( types [ ] string ) {
i . builtInProviderTypes = types
}
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// EnsureProviderVersions compares the given provider requirements with what
// is already available in the installer's target directory and then takes
// appropriate installation actions to ensure that suitable packages
// are available in the target cache directory.
//
// The given mode modifies how the operation will treat providers that already
// have acceptable versions available in the target cache directory. See the
// documentation for InstallMode and the InstallMode values for more
// information.
//
// The given context can be used to cancel the overall installation operation
// (causing any operations in progress to fail with an error), and can also
// include an InstallerEvents value for optional intermediate progress
// notifications.
//
// If a given InstallerEvents subscribes to notifications about installation
// failures then those notifications will be redundant with the ones included
// in the final returned error value so callers should show either one or the
// other, and not both.
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func ( i * Installer ) EnsureProviderVersions ( ctx context . Context , reqs getproviders . Requirements , mode InstallMode ) ( getproviders . Selections , error ) {
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// FIXME: Currently the context isn't actually propagated into all of the
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// other functions we call here, because they are not context-aware.
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// Anything that could be making network requests here should take a
// context and ideally respond to the cancellation of that context.
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errs := map [ addrs . Provider ] error { }
evts := installerEventsForContext ( ctx )
if cb := evts . PendingProviders ; cb != nil {
cb ( reqs )
}
// Here we'll keep track of which exact version we've selected for each
// provider in the requirements.
selected := map [ addrs . Provider ] getproviders . Version { }
// Step 1: Which providers might we need to fetch a new version of?
// This produces the subset of requirements we need to ask the provider
// source about.
have := i . targetDir . AllAvailablePackages ( )
mightNeed := map [ addrs . Provider ] getproviders . VersionSet { }
MightNeedProvider :
for provider , versionConstraints := range reqs {
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if provider . IsBuiltIn ( ) {
// Built in providers do not require installation but we'll still
// verify that the requested provider name is valid.
valid := false
for _ , name := range i . builtInProviderTypes {
if name == provider . Type {
valid = true
break
}
}
var err error
if valid {
if len ( versionConstraints ) == 0 {
// Other than reporting an event for the outcome of this
// provider, we'll do nothing else with it: it's just
// automatically available for use.
if cb := evts . BuiltInProviderAvailable ; cb != nil {
cb ( provider )
}
} else {
// A built-in provider is not permitted to have an explicit
// version constraint, because we can only use the version
// that is built in to the current Terraform release.
err = fmt . Errorf ( "built-in providers do not support explicit version constraints" )
}
} else {
err = fmt . Errorf ( "this Terraform release has no built-in provider named %q" , provider . Type )
}
if err != nil {
errs [ provider ] = err
if cb := evts . BuiltInProviderFailure ; cb != nil {
cb ( provider , err )
}
}
continue
}
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acceptableVersions := versions . MeetingConstraints ( versionConstraints )
if mode . forceQueryAllProviders ( ) {
// If our mode calls for us to look for newer versions regardless
// of whether an existing version is acceptable, we "might need"
// _all_ of the requested providers.
mightNeed [ provider ] = acceptableVersions
continue
}
havePackages , ok := have [ provider ]
if ! ok { // If we don't have any versions at all then we'll definitely need it
mightNeed [ provider ] = acceptableVersions
continue
}
// If we already have some versions installed and our mode didn't
// force us to check for new ones anyway then we'll check only if
// there isn't already at least one version in our cache that is
// in the set of acceptable versions.
for _ , pkg := range havePackages {
if acceptableVersions . Has ( pkg . Version ) {
// We will take no further actions for this provider, because
// a version we have is already acceptable.
selected [ provider ] = pkg . Version
if cb := evts . ProviderAlreadyInstalled ; cb != nil {
cb ( provider , pkg . Version )
}
continue MightNeedProvider
}
}
// If we get here then we didn't find any cached version that is
// in our set of acceptable versions.
mightNeed [ provider ] = acceptableVersions
}
// Step 2: Query the provider source for each of the providers we selected
// in the first step and select the latest available version that is
// in the set of acceptable versions.
//
// This produces a set of packages to install to our cache in the next step.
need := map [ addrs . Provider ] getproviders . Version { }
NeedProvider :
for provider , acceptableVersions := range mightNeed {
if cb := evts . QueryPackagesBegin ; cb != nil {
cb ( provider , reqs [ provider ] )
}
available , err := i . source . AvailableVersions ( provider )
if err != nil {
// TODO: Consider retrying a few times for certain types of
// source errors that seem likely to be transient.
errs [ provider ] = err
if cb := evts . QueryPackagesFailure ; cb != nil {
cb ( provider , err )
}
// We will take no further actions for this provider.
continue
}
available . Sort ( ) // put the versions in increasing order of precedence
for i := len ( available ) - 1 ; i >= 0 ; i -- { // walk backwards to consider newer versions first
if acceptableVersions . Has ( available [ i ] ) {
need [ provider ] = available [ i ]
if cb := evts . QueryPackagesSuccess ; cb != nil {
cb ( provider , available [ i ] )
}
continue NeedProvider
}
}
// If we get here then the source has no packages that meet the given
// version constraint, which we model as a query error.
err = fmt . Errorf ( "no available releases match the given constraints %s" , getproviders . VersionConstraintsString ( reqs [ provider ] ) )
errs [ provider ] = err
if cb := evts . QueryPackagesFailure ; cb != nil {
cb ( provider , err )
}
}
// Step 3: For each provider version we've decided we need to install,
// install its package into our target cache (possibly via the global cache).
targetPlatform := i . targetDir . targetPlatform // we inherit this to behave correctly in unit tests
for provider , version := range need {
if i . globalCacheDir != nil {
// Step 3a: If our global cache already has this version available then
// we'll just link it in.
if cached := i . globalCacheDir . ProviderVersion ( provider , version ) ; cached != nil {
if cb := evts . LinkFromCacheBegin ; cb != nil {
cb ( provider , version , i . globalCacheDir . baseDir )
}
err := i . targetDir . LinkFromOtherCache ( cached )
if err != nil {
errs [ provider ] = err
if cb := evts . LinkFromCacheFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
// We'll fetch what we just linked to make sure it actually
// did show up there.
new := i . targetDir . ProviderVersion ( provider , version )
if new == nil {
err := fmt . Errorf ( "after linking %s from provider cache at %s it is still not detected in the target directory; this is a bug in Terraform" , provider , i . globalCacheDir . baseDir )
if cb := evts . LinkFromCacheFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
selected [ provider ] = version
if cb := evts . LinkFromCacheSuccess ; cb != nil {
cb ( provider , version , new . PackageDir )
}
continue // Don't need to do full install, then.
}
}
// Step 3b: Get the package metadata for the selected version from our
// provider source.
//
// This is the step where we might detect and report that the provider
// isn't available for the current platform.
if cb := evts . FetchPackageMeta ; cb != nil {
cb ( provider , version )
}
meta , err := i . source . PackageMeta ( provider , version , targetPlatform )
if err != nil {
errs [ provider ] = err
if cb := evts . FetchPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
// Step 3c: Retrieve the package indicated by the metadata we received,
// either directly into our target directory or via the global cache
// directory.
if cb := evts . FetchPackageBegin ; cb != nil {
cb ( provider , version , meta . Location )
}
var installTo , linkTo * Dir
if i . globalCacheDir != nil {
installTo = i . globalCacheDir
linkTo = i . targetDir
} else {
installTo = i . targetDir
linkTo = nil // no linking needed
}
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err = installTo . InstallPackage ( ctx , meta )
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if err != nil {
// TODO: Consider retrying for certain kinds of error that seem
// likely to be transient. For now, we just treat all errors equally.
errs [ provider ] = err
if cb := evts . FetchPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
new := installTo . ProviderVersion ( provider , version )
if new == nil {
err := fmt . Errorf ( "after installing %s it is still not detected in the target directory; this is a bug in Terraform" , provider )
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errs [ provider ] = err
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if cb := evts . FetchPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
if linkTo != nil {
// We skip emitting the "LinkFromCache..." events here because
// it's simpler for the caller to treat them as mutually exclusive.
// We can just subsume the linking step under the "FetchPackage..."
// series here (and that's why we use FetchPackageFailure below).
err := linkTo . LinkFromOtherCache ( new )
if err != nil {
errs [ provider ] = err
if cb := evts . FetchPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
}
selected [ provider ] = version
if cb := evts . FetchPackageSuccess ; cb != nil {
cb ( provider , version , new . PackageDir )
}
}
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// We'll remember our selections in a lock file inside the target directory,
// so callers can recover those exact selections later by calling
// SelectedPackages on the same installer.
lockEntries := map [ addrs . Provider ] lockFileEntry { }
for provider , version := range selected {
cached := i . targetDir . ProviderVersion ( provider , version )
if cached == nil {
err := fmt . Errorf ( "selected package for %s is no longer present in the target directory; this is a bug in Terraform" , provider )
errs [ provider ] = err
if cb := evts . HashPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
hash , err := cached . Hash ( )
if err != nil {
errs [ provider ] = fmt . Errorf ( "failed to calculate checksum for installed provider %s package: %s" , provider , err )
if cb := evts . HashPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
lockEntries [ provider ] = lockFileEntry {
SelectedVersion : version ,
PackageHash : hash ,
}
}
err := i . lockFile ( ) . Write ( lockEntries )
if err != nil {
// This is one of few cases where this function does _not_ return an
// InstallerError, because failure to write the lock file is a more
// general problem, not specific to a certain provider.
return selected , fmt . Errorf ( "failed to record a manifest of selected providers: %s" , err )
}
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if len ( errs ) > 0 {
return selected , InstallerError {
ProviderErrors : errs ,
}
}
return selected , nil
}
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func ( i * Installer ) lockFile ( ) * lockFile {
return & lockFile {
filename : filepath . Join ( i . targetDir . baseDir , "selections.json" ) ,
}
}
// SelectedPackages returns the metadata about the packages chosen by the
// most recent call to EnsureProviderVersions, which are recorded in a lock
// file in the installer's target directory.
//
// If EnsureProviderVersions has never been run against the current target
// directory, the result is a successful empty response indicating that nothing
// is selected.
//
// SelectedPackages also verifies that the package contents are consistent
// with the checksums that were recorded at installation time, reporting an
// error if not.
func ( i * Installer ) SelectedPackages ( ) ( map [ addrs . Provider ] * CachedProvider , error ) {
entries , err := i . lockFile ( ) . Read ( )
if err != nil {
// Read does not return an error for "file not found", so this should
// always be some other error.
return nil , fmt . Errorf ( "failed to read selections file: %s" , err )
}
ret := make ( map [ addrs . Provider ] * CachedProvider , len ( entries ) )
errs := make ( map [ addrs . Provider ] error )
for provider , entry := range entries {
cached := i . targetDir . ProviderVersion ( provider , entry . SelectedVersion )
if cached == nil {
errs [ provider ] = fmt . Errorf ( "package for selected version %s is no longer available in the local cache directory" , entry . SelectedVersion )
continue
}
ok , err := cached . MatchesHash ( entry . PackageHash )
if err != nil {
errs [ provider ] = fmt . Errorf ( "failed to verify checksum for v%s package: %s" , entry . SelectedVersion , err )
continue
}
if ! ok {
errs [ provider ] = fmt . Errorf ( "checksum mismatch for v%s package" , entry . SelectedVersion )
continue
}
ret [ provider ] = cached
}
if len ( errs ) > 0 {
return ret , InstallerError {
ProviderErrors : errs ,
}
}
return ret , nil
}
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// InstallMode customizes the details of how an install operation treats
// providers that have versions already cached in the target directory.
type InstallMode rune
const (
// InstallNewProvidersOnly is an InstallMode that causes the installer
// to accept any existing version of a requested provider that is already
// cached as long as it's in the given version sets, without checking
// whether new versions are available that are also in the given version
// sets.
InstallNewProvidersOnly InstallMode = 'N'
// InstallUpgrades is an InstallMode that causes the installer to check
// all requested providers to see if new versions are available that
// are also in the given version sets, even if a suitable version of
// a given provider is already available.
InstallUpgrades InstallMode = 'U'
)
func ( m InstallMode ) forceQueryAllProviders ( ) bool {
return m == InstallUpgrades
}
// InstallerError is an error type that may be returned (but is not guaranteed)
// from Installer.EnsureProviderVersions to indicate potentially several
// separate failed installation outcomes for different providers included in
// the overall request.
type InstallerError struct {
ProviderErrors map [ addrs . Provider ] error
}
func ( err InstallerError ) Error ( ) string {
addrs := make ( [ ] addrs . Provider , 0 , len ( err . ProviderErrors ) )
for addr := range err . ProviderErrors {
addrs = append ( addrs , addr )
}
sort . Slice ( addrs , func ( i , j int ) bool {
return addrs [ i ] . LessThan ( addrs [ j ] )
} )
var b strings . Builder
b . WriteString ( "some providers could not be installed:\n" )
for _ , addr := range addrs {
providerErr := err . ProviderErrors [ addr ]
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fmt . Fprintf ( & b , "- %s: %s\n" , addr , providerErr )
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}
return b . String ( )
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}