opentofu/internal/command/meta_providers.go
James Bardin 53901a7e62 Add basic global schema cache
Add a single global schema cache for providers. This allows multiple
provider instances to share a single copy of the schema, and prevents
loading the schema multiple times for a given provider type during a
single command.

This does not currently work with some provider releases, which are
using GetProviderSchema to trigger certain initializations. A new server
capability will be introduced to trigger reloading their schemas, but
not store duplicate results.
2023-07-06 10:37:35 -04:00

507 lines
20 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package command
import (
"bytes"
"errors"
"fmt"
"log"
"os"
"os/exec"
"strings"
plugin "github.com/hashicorp/go-plugin"
"github.com/hashicorp/terraform/internal/addrs"
terraformProvider "github.com/hashicorp/terraform/internal/builtin/providers/terraform"
"github.com/hashicorp/terraform/internal/getproviders"
"github.com/hashicorp/terraform/internal/logging"
tfplugin "github.com/hashicorp/terraform/internal/plugin"
tfplugin6 "github.com/hashicorp/terraform/internal/plugin6"
"github.com/hashicorp/terraform/internal/providercache"
"github.com/hashicorp/terraform/internal/providers"
"github.com/hashicorp/terraform/internal/tfdiags"
)
// The TF_DISABLE_PLUGIN_TLS environment variable is intended only for use by
// the plugin SDK test framework, to reduce startup overhead when rapidly
// launching and killing lots of instances of the same provider.
//
// This is not intended to be set by end-users.
var enableProviderAutoMTLS = os.Getenv("TF_DISABLE_PLUGIN_TLS") == ""
// providerInstaller returns an object that knows how to install providers and
// how to recover the selections from a prior installation process.
//
// The resulting provider installer is constructed from the results of
// the other methods providerLocalCacheDir, providerGlobalCacheDir, and
// providerInstallSource.
//
// Only one object returned from this method should be live at any time,
// because objects inside contain caches that must be maintained properly.
// Because this method wraps a result from providerLocalCacheDir, that
// limitation applies also to results from that method.
func (m *Meta) providerInstaller() *providercache.Installer {
return m.providerInstallerCustomSource(m.providerInstallSource())
}
// providerInstallerCustomSource is a variant of providerInstaller that
// allows the caller to specify a different installation source than the one
// that would naturally be selected.
//
// The result of this method has the same dependencies and constraints as
// providerInstaller.
//
// The result of providerInstallerCustomSource differs from
// providerInstaller only in how it determines package installation locations
// during EnsureProviderVersions. A caller that doesn't call
// EnsureProviderVersions (anything other than "terraform init") can safely
// just use the providerInstaller method unconditionally.
func (m *Meta) providerInstallerCustomSource(source getproviders.Source) *providercache.Installer {
targetDir := m.providerLocalCacheDir()
globalCacheDir := m.providerGlobalCacheDir()
inst := providercache.NewInstaller(targetDir, source)
if globalCacheDir != nil {
inst.SetGlobalCacheDir(globalCacheDir)
inst.SetGlobalCacheDirMayBreakDependencyLockFile(m.PluginCacheMayBreakDependencyLockFile)
}
var builtinProviderTypes []string
for ty := range m.internalProviders() {
builtinProviderTypes = append(builtinProviderTypes, ty)
}
inst.SetBuiltInProviderTypes(builtinProviderTypes)
unmanagedProviderTypes := make(map[addrs.Provider]struct{}, len(m.UnmanagedProviders))
for ty := range m.UnmanagedProviders {
unmanagedProviderTypes[ty] = struct{}{}
}
inst.SetUnmanagedProviderTypes(unmanagedProviderTypes)
return inst
}
// providerCustomLocalDirectorySource produces a provider source that consults
// only the given local filesystem directories for plugins to install.
//
// This is used to implement the -plugin-dir option for "terraform init", where
// the result of this method is used instead of what would've been returned
// from m.providerInstallSource.
//
// If the given list of directories is empty then the resulting source will
// have no providers available for installation at all.
func (m *Meta) providerCustomLocalDirectorySource(dirs []string) getproviders.Source {
var ret getproviders.MultiSource
for _, dir := range dirs {
ret = append(ret, getproviders.MultiSourceSelector{
Source: getproviders.NewFilesystemMirrorSource(dir),
})
}
return ret
}
// providerLocalCacheDir returns an object representing the
// configuration-specific local cache directory. This is the
// only location consulted for provider plugin packages for Terraform
// operations other than provider installation.
//
// Only the provider installer (in "terraform init") is permitted to make
// modifications to this cache directory. All other commands must treat it
// as read-only.
//
// Only one object returned from this method should be live at any time,
// because objects inside contain caches that must be maintained properly.
func (m *Meta) providerLocalCacheDir() *providercache.Dir {
m.fixupMissingWorkingDir()
dir := m.WorkingDir.ProviderLocalCacheDir()
return providercache.NewDir(dir)
}
// providerGlobalCacheDir returns an object representing the shared global
// provider cache directory, used as a read-through cache when installing
// new provider plugin packages.
//
// This function may return nil, in which case there is no global cache
// configured and new packages should be downloaded directly into individual
// configuration-specific cache directories.
//
// Only one object returned from this method should be live at any time,
// because objects inside contain caches that must be maintained properly.
func (m *Meta) providerGlobalCacheDir() *providercache.Dir {
dir := m.PluginCacheDir
if dir == "" {
return nil // cache disabled
}
return providercache.NewDir(dir)
}
// providerInstallSource returns an object that knows how to consult one or
// more external sources to determine the availability of and package
// locations for versions of Terraform providers that are available for
// automatic installation.
//
// This returns the standard provider install source that consults a number
// of directories selected either automatically or via the CLI configuration.
// Users may choose to override this during a "terraform init" command by
// specifying one or more -plugin-dir options, in which case the installation
// process will construct its own source consulting only those directories
// and use that instead.
func (m *Meta) providerInstallSource() getproviders.Source {
// A provider source should always be provided in normal use, but our
// unit tests might not always populate Meta fully and so we'll be robust
// by returning a non-nil source that just always answers that no plugins
// are available.
if m.ProviderSource == nil {
// A multi-source with no underlying sources is effectively an
// always-empty source.
return getproviders.MultiSource(nil)
}
return m.ProviderSource
}
// providerDevOverrideInitWarnings returns a diagnostics that contains at
// least one warning if and only if there is at least one provider development
// override in effect. If not, the result is always empty. The result never
// contains error diagnostics.
//
// The init command can use this to include a warning that the results
// may differ from what's expected due to the development overrides. For
// other commands, providerDevOverrideRuntimeWarnings should be used.
func (m *Meta) providerDevOverrideInitWarnings() tfdiags.Diagnostics {
if len(m.ProviderDevOverrides) == 0 {
return nil
}
var detailMsg strings.Builder
detailMsg.WriteString("The following provider development overrides are set in the CLI configuration:\n")
for addr, path := range m.ProviderDevOverrides {
detailMsg.WriteString(fmt.Sprintf(" - %s in %s\n", addr.ForDisplay(), path))
}
detailMsg.WriteString("\nSkip terraform init when using provider development overrides. It is not necessary and may error unexpectedly.")
return tfdiags.Diagnostics{
tfdiags.Sourceless(
tfdiags.Warning,
"Provider development overrides are in effect",
detailMsg.String(),
),
}
}
// providerDevOverrideRuntimeWarnings returns a diagnostics that contains at
// least one warning if and only if there is at least one provider development
// override in effect. If not, the result is always empty. The result never
// contains error diagnostics.
//
// Certain commands can use this to include a warning that their results
// may differ from what's expected due to the development overrides. It's
// not necessary to bother the user with this warning on every command, but
// it's helpful to return it on commands that have externally-visible side
// effects and on commands that are used to verify conformance to schemas.
//
// See providerDevOverrideInitWarnings for warnings specific to the init
// command.
func (m *Meta) providerDevOverrideRuntimeWarnings() tfdiags.Diagnostics {
if len(m.ProviderDevOverrides) == 0 {
return nil
}
var detailMsg strings.Builder
detailMsg.WriteString("The following provider development overrides are set in the CLI configuration:\n")
for addr, path := range m.ProviderDevOverrides {
detailMsg.WriteString(fmt.Sprintf(" - %s in %s\n", addr.ForDisplay(), path))
}
detailMsg.WriteString("\nThe behavior may therefore not match any released version of the provider and applying changes may cause the state to become incompatible with published releases.")
return tfdiags.Diagnostics{
tfdiags.Sourceless(
tfdiags.Warning,
"Provider development overrides are in effect",
detailMsg.String(),
),
}
}
// providerFactories uses the selections made previously by an installer in
// the local cache directory (m.providerLocalCacheDir) to produce a map
// from provider addresses to factory functions to create instances of
// those providers.
//
// providerFactories will return an error if the installer's selections cannot
// be honored with what is currently in the cache, such as if a selected
// package has been removed from the cache or if the contents of a selected
// package have been modified outside of the installer. If it returns an error,
// the returned map may be incomplete or invalid, but will be as complete
// as possible given the cause of the error.
func (m *Meta) providerFactories() (map[addrs.Provider]providers.Factory, error) {
locks, diags := m.lockedDependencies()
if diags.HasErrors() {
return nil, fmt.Errorf("failed to read dependency lock file: %s", diags.Err())
}
// We'll always run through all of our providers, even if one of them
// encounters an error, so that we can potentially report multiple errors
// where appropriate and so that callers can potentially make use of the
// partial result we return if e.g. they want to enumerate which providers
// are available, or call into one of the providers that didn't fail.
errs := make(map[addrs.Provider]error)
// For the providers from the lock file, we expect them to be already
// available in the provider cache because "terraform init" should already
// have put them there.
providerLocks := locks.AllProviders()
cacheDir := m.providerLocalCacheDir()
// The internal providers are _always_ available, even if the configuration
// doesn't request them, because they don't need any special installation
// and they'll just be ignored if not used.
internalFactories := m.internalProviders()
// We have two different special cases aimed at provider development
// use-cases, which are not for "production" use:
// - The CLI config can specify that a particular provider should always
// use a plugin from a particular local directory, ignoring anything the
// lock file or cache directory might have to say about it. This is useful
// for manual testing of local development builds.
// - The Terraform SDK test harness (and possibly other callers in future)
// can ask that we use its own already-started provider servers, which we
// call "unmanaged" because Terraform isn't responsible for starting
// and stopping them. This is intended for automated testing where a
// calling harness is responsible both for starting the provider server
// and orchestrating one or more non-interactive Terraform runs that then
// exercise it.
// Unmanaged providers take precedence over overridden providers because
// overrides are typically a "session-level" setting while unmanaged
// providers are typically scoped to a single unattended command.
devOverrideProviders := m.ProviderDevOverrides
unmanagedProviders := m.UnmanagedProviders
factories := make(map[addrs.Provider]providers.Factory, len(providerLocks)+len(internalFactories)+len(unmanagedProviders))
for name, factory := range internalFactories {
factories[addrs.NewBuiltInProvider(name)] = factory
}
for provider, lock := range providerLocks {
reportError := func(thisErr error) {
errs[provider] = thisErr
// We'll populate a provider factory that just echoes our error
// again if called, which allows us to still report a helpful
// error even if it gets detected downstream somewhere from the
// caller using our partial result.
factories[provider] = providerFactoryError(thisErr)
}
if locks.ProviderIsOverridden(provider) {
// Overridden providers we'll handle with the other separate
// loops below, for dev overrides etc.
continue
}
version := lock.Version()
cached := cacheDir.ProviderVersion(provider, version)
if cached == nil {
reportError(fmt.Errorf(
"there is no package for %s %s cached in %s",
provider, version, cacheDir.BasePath(),
))
continue
}
// The cached package must match one of the checksums recorded in
// the lock file, if any.
if allowedHashes := lock.PreferredHashes(); len(allowedHashes) != 0 {
matched, err := cached.MatchesAnyHash(allowedHashes)
if err != nil {
reportError(fmt.Errorf(
"failed to verify checksum of %s %s package cached in in %s: %s",
provider, version, cacheDir.BasePath(), err,
))
continue
}
if !matched {
reportError(fmt.Errorf(
"the cached package for %s %s (in %s) does not match any of the checksums recorded in the dependency lock file",
provider, version, cacheDir.BasePath(),
))
continue
}
}
factories[provider] = providerFactory(cached)
}
for provider, localDir := range devOverrideProviders {
factories[provider] = devOverrideProviderFactory(provider, localDir)
}
for provider, reattach := range unmanagedProviders {
factories[provider] = unmanagedProviderFactory(provider, reattach)
}
var err error
if len(errs) > 0 {
err = providerPluginErrors(errs)
}
return factories, err
}
func (m *Meta) internalProviders() map[string]providers.Factory {
return map[string]providers.Factory{
"terraform": func() (providers.Interface, error) {
return terraformProvider.NewProvider(), nil
},
}
}
// providerFactory produces a provider factory that runs up the executable
// file in the given cache package and uses go-plugin to implement
// providers.Interface against it.
func providerFactory(meta *providercache.CachedProvider) providers.Factory {
return func() (providers.Interface, error) {
execFile, err := meta.ExecutableFile()
if err != nil {
return nil, err
}
config := &plugin.ClientConfig{
HandshakeConfig: tfplugin.Handshake,
Logger: logging.NewProviderLogger(""),
AllowedProtocols: []plugin.Protocol{plugin.ProtocolGRPC},
Managed: true,
Cmd: exec.Command(execFile),
AutoMTLS: enableProviderAutoMTLS,
VersionedPlugins: tfplugin.VersionedPlugins,
SyncStdout: logging.PluginOutputMonitor(fmt.Sprintf("%s:stdout", meta.Provider)),
SyncStderr: logging.PluginOutputMonitor(fmt.Sprintf("%s:stderr", meta.Provider)),
}
client := plugin.NewClient(config)
rpcClient, err := client.Client()
if err != nil {
return nil, err
}
raw, err := rpcClient.Dispense(tfplugin.ProviderPluginName)
if err != nil {
return nil, err
}
// store the client so that the plugin can kill the child process
protoVer := client.NegotiatedVersion()
switch protoVer {
case 5:
p := raw.(*tfplugin.GRPCProvider)
p.PluginClient = client
p.Addr = meta.Provider
return p, nil
case 6:
p := raw.(*tfplugin6.GRPCProvider)
p.PluginClient = client
p.Addr = meta.Provider
return p, nil
default:
panic("unsupported protocol version")
}
}
}
func devOverrideProviderFactory(provider addrs.Provider, localDir getproviders.PackageLocalDir) providers.Factory {
// A dev override is essentially a synthetic cache entry for our purposes
// here, so that's how we'll construct it. The providerFactory function
// doesn't actually care about the version, so we can leave it
// unspecified: overridden providers are not explicitly versioned.
log.Printf("[DEBUG] Provider %s is overridden to load from %s", provider, localDir)
return providerFactory(&providercache.CachedProvider{
Provider: provider,
Version: getproviders.UnspecifiedVersion,
PackageDir: string(localDir),
})
}
// unmanagedProviderFactory produces a provider factory that uses the passed
// reattach information to connect to go-plugin processes that are already
// running, and implements providers.Interface against it.
func unmanagedProviderFactory(provider addrs.Provider, reattach *plugin.ReattachConfig) providers.Factory {
return func() (providers.Interface, error) {
config := &plugin.ClientConfig{
HandshakeConfig: tfplugin.Handshake,
Logger: logging.NewProviderLogger("unmanaged."),
AllowedProtocols: []plugin.Protocol{plugin.ProtocolGRPC},
Managed: false,
Reattach: reattach,
SyncStdout: logging.PluginOutputMonitor(fmt.Sprintf("%s:stdout", provider)),
SyncStderr: logging.PluginOutputMonitor(fmt.Sprintf("%s:stderr", provider)),
}
if reattach.ProtocolVersion == 0 {
// As of the 0.15 release, sdk.v2 doesn't include the protocol
// version in the ReattachConfig (only recently added to
// go-plugin), so client.NegotiatedVersion() always returns 0. We
// assume that an unmanaged provider reporting protocol version 0 is
// actually using proto v5 for backwards compatibility.
if defaultPlugins, ok := tfplugin.VersionedPlugins[5]; ok {
config.Plugins = defaultPlugins
} else {
return nil, errors.New("no supported plugins for protocol 0")
}
} else if plugins, ok := tfplugin.VersionedPlugins[reattach.ProtocolVersion]; !ok {
return nil, fmt.Errorf("no supported plugins for protocol %d", reattach.ProtocolVersion)
} else {
config.Plugins = plugins
}
client := plugin.NewClient(config)
rpcClient, err := client.Client()
if err != nil {
return nil, err
}
raw, err := rpcClient.Dispense(tfplugin.ProviderPluginName)
if err != nil {
return nil, err
}
// store the client so that the plugin can kill the child process
protoVer := client.NegotiatedVersion()
switch protoVer {
case 0, 5:
// As of the 0.15 release, sdk.v2 doesn't include the protocol
// version in the ReattachConfig (only recently added to
// go-plugin), so client.NegotiatedVersion() always returns 0. We
// assume that an unmanaged provider reporting protocol version 0 is
// actually using proto v5 for backwards compatibility.
p := raw.(*tfplugin.GRPCProvider)
p.PluginClient = client
return p, nil
case 6:
p := raw.(*tfplugin6.GRPCProvider)
p.PluginClient = client
return p, nil
default:
return nil, fmt.Errorf("unsupported protocol version %d", protoVer)
}
}
}
// providerFactoryError is a stub providers.Factory that returns an error
// when called. It's used to allow providerFactories to still produce a
// factory for each available provider in an error case, for situations
// where the caller can do something useful with that partial result.
func providerFactoryError(err error) providers.Factory {
return func() (providers.Interface, error) {
return nil, err
}
}
// providerPluginErrors is an error implementation we can return from
// Meta.providerFactories to capture potentially multiple errors about the
// locally-cached plugins (or lack thereof) for particular external providers.
//
// Some functions closer to the UI layer can sniff for this error type in order
// to return a more helpful error message.
type providerPluginErrors map[addrs.Provider]error
func (errs providerPluginErrors) Error() string {
if len(errs) == 1 {
for addr, err := range errs {
return fmt.Sprintf("%s: %s", addr, err)
}
}
var buf bytes.Buffer
fmt.Fprintf(&buf, "missing or corrupted provider plugins:")
for addr, err := range errs {
fmt.Fprintf(&buf, "\n - %s: %s", addr, err)
}
return buf.String()
}