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package providercache
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import (
"context"
"fmt"
"sort"
"strings"
"github.com/apparentlymart/go-versions/versions"
"github.com/hashicorp/terraform/addrs"
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copydir "github.com/hashicorp/terraform/internal/copy"
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"github.com/hashicorp/terraform/internal/depsfile"
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"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
command: Unmanaged providers
This adds supports for "unmanaged" providers, or providers with process
lifecycles not controlled by Terraform. These providers are assumed to
be started before Terraform is launched, and are assumed to shut
themselves down after Terraform has finished running.
To do this, we must update the go-plugin dependency to v1.3.0, which
added support for the "test mode" plugin serving that powers all this.
As a side-effect of not needing to manage the process lifecycle anymore,
Terraform also no longer needs to worry about the provider's binary, as
it won't be used for anything anymore. Because of this, we can disable
the init behavior that concerns itself with downloading that provider's
binary, checking its version, and otherwise managing the binary.
This is all managed on a per-provider basis, so managed providers that
Terraform downloads, starts, and stops can be used in the same commands
as unmanaged providers. The TF_REATTACH_PROVIDERS environment variable
is added, and is a JSON encoding of the provider's address to the
information we need to connect to it.
This change enables two benefits: first, delve and other debuggers can
now be attached to provider server processes, and Terraform can connect.
This allows for attaching debuggers to provider processes, which before
was difficult to impossible. Second, it allows the SDK test framework to
host the provider in the same process as the test driver, while running
a production Terraform binary against the provider. This allows for Go's
built-in race detector and test coverage tooling to work as expected in
provider tests.
Unmanaged providers are expected to work in the exact same way as
managed providers, with one caveat: Terraform kills provider processes
and restarts them once per graph walk, meaning multiple times during
most Terraform CLI commands. As unmanaged providers can't be killed by
Terraform, and have no visibility into graph walks, unmanaged providers
are likely to have differences in how their global mutable state behaves
when compared to managed providers. Namely, unmanaged providers are
likely to retain global state when managed providers would have reset
it. Developers relying on global state should be aware of this.
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// unmanagedProviderTypes is a set of provider addresses that should be
// considered implemented, but that Terraform does not manage the
// lifecycle for, and therefore does not need to worry about the
// installation of.
unmanagedProviderTypes map [ addrs . Provider ] struct { }
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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 {
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targetDir : targetDir ,
source : source ,
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}
}
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// ProviderSource returns the getproviders.Source that the installer would
// use for installing any new providers.
func ( i * Installer ) ProviderSource ( ) getproviders . Source {
return i . source
}
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// 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
}
command: Unmanaged providers
This adds supports for "unmanaged" providers, or providers with process
lifecycles not controlled by Terraform. These providers are assumed to
be started before Terraform is launched, and are assumed to shut
themselves down after Terraform has finished running.
To do this, we must update the go-plugin dependency to v1.3.0, which
added support for the "test mode" plugin serving that powers all this.
As a side-effect of not needing to manage the process lifecycle anymore,
Terraform also no longer needs to worry about the provider's binary, as
it won't be used for anything anymore. Because of this, we can disable
the init behavior that concerns itself with downloading that provider's
binary, checking its version, and otherwise managing the binary.
This is all managed on a per-provider basis, so managed providers that
Terraform downloads, starts, and stops can be used in the same commands
as unmanaged providers. The TF_REATTACH_PROVIDERS environment variable
is added, and is a JSON encoding of the provider's address to the
information we need to connect to it.
This change enables two benefits: first, delve and other debuggers can
now be attached to provider server processes, and Terraform can connect.
This allows for attaching debuggers to provider processes, which before
was difficult to impossible. Second, it allows the SDK test framework to
host the provider in the same process as the test driver, while running
a production Terraform binary against the provider. This allows for Go's
built-in race detector and test coverage tooling to work as expected in
provider tests.
Unmanaged providers are expected to work in the exact same way as
managed providers, with one caveat: Terraform kills provider processes
and restarts them once per graph walk, meaning multiple times during
most Terraform CLI commands. As unmanaged providers can't be killed by
Terraform, and have no visibility into graph walks, unmanaged providers
are likely to have differences in how their global mutable state behaves
when compared to managed providers. Namely, unmanaged providers are
likely to retain global state when managed providers would have reset
it. Developers relying on global state should be aware of this.
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// SetUnmanagedProviderTypes tells the receiver to consider the providers
// indicated by the passed addrs.Providers as unmanaged. Terraform does not
// need to control the lifecycle of these providers, and they are assumed to be
// running already when Terraform is started. Because these are essentially
// processes, not binaries, Terraform will not do any work to ensure presence
// or versioning of these binaries.
func ( i * Installer ) SetUnmanagedProviderTypes ( types map [ addrs . Provider ] struct { } ) {
i . unmanagedProviderTypes = 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 , locks * depsfile . Locks , reqs getproviders . Requirements , mode InstallMode ) ( * depsfile . Locks , error ) {
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errs := map [ addrs . Provider ] error { }
evts := installerEventsForContext ( ctx )
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// We'll work with a copy of the given locks, so we can modify it and
// return the updated locks without affecting the caller's object.
// We'll add or replace locks in here during our work so that the final
// locks file reflects what the installer has selected.
locks = locks . DeepCopy ( )
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if cb := evts . PendingProviders ; cb != nil {
cb ( reqs )
}
// 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
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// source about. If we're in the normal (non-upgrade) mode then we'll
// just ask the source to confirm the continued existence of what
// was locked, or otherwise we'll find the newest version matching the
// configured version constraint.
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mightNeed := map [ addrs . Provider ] getproviders . VersionSet { }
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locked := map [ addrs . Provider ] bool { }
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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
}
command: Unmanaged providers
This adds supports for "unmanaged" providers, or providers with process
lifecycles not controlled by Terraform. These providers are assumed to
be started before Terraform is launched, and are assumed to shut
themselves down after Terraform has finished running.
To do this, we must update the go-plugin dependency to v1.3.0, which
added support for the "test mode" plugin serving that powers all this.
As a side-effect of not needing to manage the process lifecycle anymore,
Terraform also no longer needs to worry about the provider's binary, as
it won't be used for anything anymore. Because of this, we can disable
the init behavior that concerns itself with downloading that provider's
binary, checking its version, and otherwise managing the binary.
This is all managed on a per-provider basis, so managed providers that
Terraform downloads, starts, and stops can be used in the same commands
as unmanaged providers. The TF_REATTACH_PROVIDERS environment variable
is added, and is a JSON encoding of the provider's address to the
information we need to connect to it.
This change enables two benefits: first, delve and other debuggers can
now be attached to provider server processes, and Terraform can connect.
This allows for attaching debuggers to provider processes, which before
was difficult to impossible. Second, it allows the SDK test framework to
host the provider in the same process as the test driver, while running
a production Terraform binary against the provider. This allows for Go's
built-in race detector and test coverage tooling to work as expected in
provider tests.
Unmanaged providers are expected to work in the exact same way as
managed providers, with one caveat: Terraform kills provider processes
and restarts them once per graph walk, meaning multiple times during
most Terraform CLI commands. As unmanaged providers can't be killed by
Terraform, and have no visibility into graph walks, unmanaged providers
are likely to have differences in how their global mutable state behaves
when compared to managed providers. Namely, unmanaged providers are
likely to retain global state when managed providers would have reset
it. Developers relying on global state should be aware of this.
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if _ , ok := i . unmanagedProviderTypes [ provider ] ; ok {
// unmanaged providers do not require installation
continue
}
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acceptableVersions := versions . MeetingConstraints ( versionConstraints )
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if ! mode . forceQueryAllProviders ( ) {
// If we're not forcing potential changes of version then an
// existing selection from the lock file takes priority over
// the currently-configured version constraints.
if lock := locks . Provider ( provider ) ; lock != nil {
if ! acceptableVersions . Has ( lock . Version ( ) ) {
err := fmt . Errorf (
"locked provider %s %s does not match configured version constraint %s; must use terraform init -upgrade to allow selection of new versions" ,
provider , lock . Version ( ) , getproviders . VersionConstraintsString ( versionConstraints ) ,
)
errs [ provider ] = err
// This is a funny case where we're returning an error
// before we do any querying at all. To keep the event
// stream consistent without introducing an extra event
// type, we'll emit an artificial QueryPackagesBegin for
// this provider before we indicate that it failed using
// QueryPackagesFailure.
if cb := evts . QueryPackagesBegin ; cb != nil {
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cb ( provider , versionConstraints , true )
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}
if cb := evts . QueryPackagesFailure ; cb != nil {
cb ( provider , err )
}
continue
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}
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acceptableVersions = versions . Only ( lock . Version ( ) )
locked [ provider ] = true
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}
}
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 {
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if err := ctx . Err ( ) ; err != nil {
// If our context has been cancelled or reached a timeout then
// we'll abort early, because subsequent operations against
// that context will fail immediately anyway.
return nil , err
}
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if cb := evts . QueryPackagesBegin ; cb != nil {
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cb ( provider , reqs [ provider ] , locked [ provider ] )
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}
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available , warnings , err := i . source . AvailableVersions ( ctx , provider )
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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
}
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if len ( warnings ) > 0 {
if cb := evts . QueryPackagesWarning ; cb != nil {
cb ( provider , warnings )
}
}
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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.
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if locked [ provider ] {
// This situation should be a rare one: it suggests that a
// version was previously available but was yanked for some
// reason.
lock := locks . Provider ( provider )
err = fmt . Errorf ( "the previously-selected version %s is no longer available" , lock . Version ( ) )
} else {
err = fmt . Errorf ( "no available releases match the given constraints %s" , getproviders . VersionConstraintsString ( reqs [ provider ] ) )
}
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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).
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authResults := map [ addrs . Provider ] * getproviders . PackageAuthenticationResult { } // record auth results for all successfully fetched providers
targetPlatform := i . targetDir . targetPlatform // we inherit this to behave correctly in unit tests
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for provider , version := range need {
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if err := ctx . Err ( ) ; err != nil {
// If our context has been cancelled or reached a timeout then
// we'll abort early, because subsequent operations against
// that context will fail immediately anyway.
return nil , err
}
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lock := locks . Provider ( provider )
var preferredHashes [ ] getproviders . Hash
if lock != nil && lock . Version ( ) == version { // hash changes are expected if the version is also changing
preferredHashes = lock . PreferredHashes ( )
}
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// If our target directory already has the provider version that fulfills the lock file, carry on
if installed := i . targetDir . ProviderVersion ( provider , version ) ; installed != nil {
if len ( preferredHashes ) > 0 {
if matches , _ := installed . MatchesAnyHash ( preferredHashes ) ; matches {
continue
}
}
}
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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 )
}
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if _ , err := cached . ExecutableFile ( ) ; err != nil {
err := fmt . Errorf ( "provider binary not found: %s" , err )
errs [ provider ] = err
if cb := evts . LinkFromCacheFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
err := i . targetDir . LinkFromOtherCache ( cached , preferredHashes )
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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 )
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errs [ provider ] = err
if cb := evts . LinkFromCacheFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
// The LinkFromOtherCache call above should've verified that
// the package matches one of the hashes previously recorded,
// if any. We'll now augment those hashes with one freshly
// calculated from the package we just linked, which allows
// the lock file to gradually transition to recording newer hash
// schemes when they become available.
var newHashes [ ] getproviders . Hash
if lock != nil && lock . Version ( ) == version {
// If the version we're installing is identical to the
// one we previously locked then we'll keep all of the
// hashes we saved previously and add to it. Otherwise
// we'll be starting fresh, because each version has its
// own set of packages and thus its own hashes.
newHashes = append ( newHashes , preferredHashes ... )
// NOTE: The behavior here is unfortunate when a particular
// provider version was already cached on the first time
// the current configuration requested it, because that
// means we don't currently get the opportunity to fetch
// and verify the checksums for the new package from
// upstream. That's currently unavoidable because upstream
// checksums are in the "ziphash" format and so we can't
// verify them against our cache directory's unpacked
// packages: we'd need to go fetch the package from the
// origin and compare against it, which would defeat the
// purpose of the global cache.
//
// If we fetch from upstream on the first encounter with
// a particular provider then we'll end up in the other
// codepath below where we're able to also include the
// checksums from the origin registry.
}
newHash , err := cached . Hash ( )
if err != nil {
err := fmt . Errorf ( "after linking %s from provider cache at %s, failed to compute a checksum for it: %s" , provider , i . globalCacheDir . baseDir , err )
errs [ provider ] = err
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if cb := evts . LinkFromCacheFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
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// The hashes slice gets deduplicated in the lock file
// implementation, so we don't worry about potentially
// creating a duplicate here.
newHashes = append ( newHashes , newHash )
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locks . SetProvider ( provider , version , reqs [ provider ] , newHashes )
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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 )
}
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meta , err := i . source . PackageMeta ( ctx , provider , version , targetPlatform )
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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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authResult , err := installTo . InstallPackage ( ctx , meta , preferredHashes )
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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
}
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if _ , err := new . ExecutableFile ( ) ; err != nil {
err := fmt . Errorf ( "provider binary not found: %s" , err )
errs [ provider ] = err
if cb := evts . FetchPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
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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).
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// We also don't do a hash check here because we already did that
// as part of the installTo.InstallPackage call above.
err := linkTo . LinkFromOtherCache ( new , nil )
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if err != nil {
errs [ provider ] = err
if cb := evts . FetchPackageFailure ; cb != nil {
cb ( provider , version , err )
}
continue
}
}
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authResults [ provider ] = authResult
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// The InstallPackage call above should've verified that
// the package matches one of the hashes previously recorded,
// if any. We'll now augment those hashes with a new set populated
// with the hashes returned by the upstream source and from the
// package we've just installed, which allows the lock file to
// gradually transition to newer hash schemes when they become
// available.
//
// This is assuming that if a package matches both a hash we saw before
// _and_ a new hash then the new hash is a valid substitute for
// the previous hash.
//
// The hashes slice gets deduplicated in the lock file
// implementation, so we don't worry about potentially
// creating duplicates here.
var newHashes [ ] getproviders . Hash
if lock != nil && lock . Version ( ) == version {
// If the version we're installing is identical to the
// one we previously locked then we'll keep all of the
// hashes we saved previously and add to it. Otherwise
// we'll be starting fresh, because each version has its
// own set of packages and thus its own hashes.
newHashes = append ( newHashes , preferredHashes ... )
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}
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newHash , err := new . Hash ( )
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if err != nil {
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err := fmt . Errorf ( "after installing %s, failed to compute a checksum for it: %s" , provider , err )
errs [ provider ] = err
if cb := evts . FetchPackageFailure ; cb != nil {
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cb ( provider , version , err )
}
continue
}
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newHashes = append ( newHashes , newHash )
if authResult . SignedByAnyParty ( ) {
// We'll trust new hashes from upstream only if they were verified
// as signed by a suitable key. Otherwise, we'd record only
// a new hash we just calculated ourselves from the bytes on disk,
// and so the hashes would cover only the current platform.
newHashes = append ( newHashes , meta . AcceptableHashes ( ) ... )
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}
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locks . SetProvider ( provider , version , reqs [ provider ] , newHashes )
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if cb := evts . FetchPackageSuccess ; cb != nil {
cb ( provider , version , new . PackageDir , authResult )
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}
}
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// Emit final event for fetching if any were successfully fetched
if cb := evts . ProvidersFetched ; cb != nil && len ( authResults ) > 0 {
cb ( authResults )
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}
if len ( errs ) > 0 {
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return locks , InstallerError {
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ProviderErrors : errs ,
}
}
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return locks , nil
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}
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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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}
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return strings . TrimSpace ( b . String ( ) )
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}