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package initwd
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import (
"fmt"
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"io/ioutil"
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"log"
"os"
"path/filepath"
"sort"
"strings"
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"github.com/hashicorp/terraform/internal/copy"
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"github.com/hashicorp/terraform/internal/earlyconfig"
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version "github.com/hashicorp/go-version"
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"github.com/hashicorp/terraform-config-inspect/tfconfig"
"github.com/hashicorp/terraform/internal/modsdir"
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"github.com/hashicorp/terraform/internal/registry"
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"github.com/hashicorp/terraform/internal/tfdiags"
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)
const initFromModuleRootCallName = "root"
const initFromModuleRootKeyPrefix = initFromModuleRootCallName + "."
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// DirFromModule populates the given directory (which must exist and be
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// empty) with the contents of the module at the given source address.
//
// It does this by installing the given module and all of its descendent
// modules in a temporary root directory and then copying the installed
// files into suitable locations. As a consequence, any diagnostics it
// generates will reveal the location of this temporary directory to the
// user.
//
// This rather roundabout installation approach is taken to ensure that
// installation proceeds in a manner identical to normal module installation.
//
// If the given source address specifies a sub-directory of the given
// package then only the sub-directory and its descendents will be copied
// into the given root directory, which will cause any relative module
// references using ../ from that module to be unresolvable. Error diagnostics
// are produced in that case, to prompt the user to rewrite the source strings
// to be absolute references to the original remote module.
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func DirFromModule ( rootDir , modulesDir , sourceAddr string , reg * registry . Client , hooks ModuleInstallHooks ) tfdiags . Diagnostics {
var diags tfdiags . Diagnostics
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// The way this function works is pretty ugly, but we accept it because
// -from-module is a less important case than normal module installation
// and so it's better to keep this ugly complexity out here rather than
// adding even more complexity to the normal module installer.
// The target directory must exist but be empty.
{
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entries , err := ioutil . ReadDir ( rootDir )
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if err != nil {
if os . IsNotExist ( err ) {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Target directory does not exist" ,
fmt . Sprintf ( "Cannot initialize non-existent directory %s." , rootDir ) ,
) )
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} else {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to read target directory" ,
fmt . Sprintf ( "Error reading %s to ensure it is empty: %s." , rootDir , err ) ,
) )
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}
return diags
}
haveEntries := false
for _ , entry := range entries {
if entry . Name ( ) == "." || entry . Name ( ) == ".." || entry . Name ( ) == ".terraform" {
continue
}
haveEntries = true
}
if haveEntries {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Can't populate non-empty directory" ,
fmt . Sprintf ( "The target directory %s is not empty, so it cannot be initialized with the -from-module=... option." , rootDir ) ,
) )
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return diags
}
}
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instDir := filepath . Join ( rootDir , ".terraform/init-from-module" )
inst := NewModuleInstaller ( instDir , reg )
log . Printf ( "[DEBUG] installing modules in %s to initialize working directory from %q" , instDir , sourceAddr )
os . RemoveAll ( instDir ) // if this fails then we'll fail on MkdirAll below too
err := os . MkdirAll ( instDir , os . ModePerm )
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if err != nil {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to create temporary directory" ,
fmt . Sprintf ( "Failed to create temporary directory %s: %s." , instDir , err ) ,
) )
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return diags
}
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instManifest := make ( modsdir . Manifest )
retManifest := make ( modsdir . Manifest )
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fakeFilename := fmt . Sprintf ( "-from-module=%q" , sourceAddr )
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fakePos := tfconfig . SourcePos {
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Filename : fakeFilename ,
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Line : 1 ,
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}
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// -from-module allows relative paths but it's different than a normal
// module address where it'd be resolved relative to the module call
// (which is synthetic, here.) To address this, we'll just patch up any
// relative paths to be absolute paths before we run, ensuring we'll
// get the right result. This also, as an important side-effect, ensures
// that the result will be "downloaded" with go-getter (copied from the
// source location), rather than just recorded as a relative path.
{
maybePath := filepath . ToSlash ( sourceAddr )
if maybePath == "." || strings . HasPrefix ( maybePath , "./" ) || strings . HasPrefix ( maybePath , "../" ) {
if wd , err := os . Getwd ( ) ; err == nil {
sourceAddr = filepath . Join ( wd , sourceAddr )
log . Printf ( "[TRACE] -from-module relative path rewritten to absolute path %s" , sourceAddr )
}
}
}
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// Now we need to create an artificial root module that will seed our
// installation process.
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fakeRootModule := & tfconfig . Module {
ModuleCalls : map [ string ] * tfconfig . ModuleCall {
initFromModuleRootCallName : {
Name : initFromModuleRootCallName ,
Source : sourceAddr ,
Pos : fakePos ,
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} ,
} ,
}
// wrapHooks filters hook notifications to only include Download calls
// and to trim off the initFromModuleRootCallName prefix. We'll produce
// our own Install notifications directly below.
wrapHooks := installHooksInitDir {
Wrapped : hooks ,
}
configload: Don't download the same module source multiple times
It is common for the same module source package to be referenced multiple
times in the same configuration, either because there are literally
multiple instances of the same module source or because a single package
(or repository) contains multiple modules in sub-directories and many
of them are referenced.
To optimize this, here we introduce a simple caching behavior where the
module installer will detect if it's asked to install multiple times from
the same source and produce the second and subsequent directories by
copying the first, rather than by downloading again over the network.
This optimization is applied once all of the go-getter detection has
completed and sub-directory portions have been trimmed, so it is also
able to normalize differently-specified source addresses that all
ultimately detect to the same resolved address. When installing, we
always extract the entire specified package (or repository) and then
reference the specified sub-directory, so we can safely re-use existing
directories when the base package is the same, even if the sub-directory
is different.
However, as a result we do not yet address the fact that the same package
will be stored multiple times _on disk_, which may still be problematic
when referencing large repositories multiple times in
disk-storage-constrained environments. We could address this in a
subsequent change by investigating the use of symlinks where possible.
Since the Registry installer is implemented just as an extra resolution
step in front of go-getter, this optimization applies to registry
modules too. This does not apply to local relative references, which will
continue to just resolve into the already-prepared directory of their
parent module.
The cache of previously installed paths lives only for the duration of
one call to InstallModules, so we will never re-use directories that
were created by previous runs of "terraform init" and there is no risk
that older versions will pollute the cache when attempting an upgrade
from a source address that doesn't explicitly specify a version.
No additional tests are added here because the existing module installer
tests (when TF_ACC=1) already cover the case of installing multiple
modules from the same source.
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getter := reusingGetter { }
command: "terraform init" can partially initialize for 0.12upgrade
There are a few constructs from 0.11 and prior that cause 0.12 parsing to
fail altogether, which previously created a chicken/egg problem because
we need to install the providers in order to run "terraform 0.12upgrade"
and thus fix the problem.
This changes "terraform init" to use the new "early configuration" loader
for module and provider installation. This is built on the more permissive
parser in the terraform-config-inspect package, and so it allows us to
read out the top-level blocks from the configuration while accepting
legacy HCL syntax.
In the long run this will let us do version compatibility detection before
attempting a "real" config load, giving us better error messages for any
future syntax additions, but in the short term the key thing is that it
allows us to install the dependencies even if the configuration isn't
fully valid.
Because backend init still requires full configuration, this introduces a
new mode of terraform init where it detects heuristically if it seems like
we need to do a configuration upgrade and does a partial init if so,
before finally directing the user to run "terraform 0.12upgrade" before
running any other commands.
The heuristic here is based on two assumptions:
- If the "early" loader finds no errors but the normal loader does, the
configuration is likely to be valid for Terraform 0.11 but not 0.12.
- If there's already a version constraint in the configuration that
excludes Terraform versions prior to v0.12 then the configuration is
probably _already_ upgraded and so it's just a normal syntax error,
even if the early loader didn't detect it.
Once the upgrade process is removed in 0.13.0 (users will be required to
go stepwise 0.11 -> 0.12 -> 0.13 to upgrade after that), some of this can
be simplified to remove that special mode, but the idea of doing the
dependency version checks against the liberal parser will remain valuable
to increase our chances of reporting version-based incompatibilities
rather than syntax errors as we add new features in future.
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_ , instDiags := inst . installDescendentModules ( fakeRootModule , rootDir , instManifest , true , wrapHooks , getter )
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diags = append ( diags , instDiags ... )
if instDiags . HasErrors ( ) {
return diags
}
// If all of that succeeded then we'll now migrate what was installed
// into the final directory structure.
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err = os . MkdirAll ( modulesDir , os . ModePerm )
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if err != nil {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to create local modules directory" ,
fmt . Sprintf ( "Failed to create modules directory %s: %s." , modulesDir , err ) ,
) )
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return diags
}
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recordKeys := make ( [ ] string , 0 , len ( instManifest ) )
for k := range instManifest {
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recordKeys = append ( recordKeys , k )
}
sort . Strings ( recordKeys )
for _ , recordKey := range recordKeys {
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record := instManifest [ recordKey ]
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if record . Key == initFromModuleRootCallName {
// We've found the module the user requested, which we must
// now copy into rootDir so it can be used directly.
log . Printf ( "[TRACE] copying new root module from %s to %s" , record . Dir , rootDir )
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err := copy . CopyDir ( rootDir , record . Dir )
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if err != nil {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to copy root module" ,
fmt . Sprintf ( "Error copying root module %q from %s to %s: %s." , sourceAddr , record . Dir , rootDir , err ) ,
) )
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continue
}
// We'll try to load the newly-copied module here just so we can
// sniff for any module calls that ../ out of the root directory
// and must thus be rewritten to be absolute addresses again.
// For now we can't do this rewriting automatically, but we'll
// generate an error to help the user do it manually.
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mod , _ := earlyconfig . LoadModule ( rootDir ) // ignore diagnostics since we're just doing value-add here anyway
if mod != nil {
for _ , mc := range mod . ModuleCalls {
if pathTraversesUp ( mc . Source ) {
packageAddr , givenSubdir := splitAddrSubdir ( sourceAddr )
newSubdir := filepath . Join ( givenSubdir , mc . Source )
if pathTraversesUp ( newSubdir ) {
// This should never happen in any reasonable
// configuration since this suggests a path that
// traverses up out of the package root. We'll just
// ignore this, since we'll fail soon enough anyway
// trying to resolve this path when this module is
// loaded.
continue
}
var newAddr = packageAddr
if newSubdir != "" {
newAddr = fmt . Sprintf ( "%s//%s" , newAddr , filepath . ToSlash ( newSubdir ) )
}
diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Root module references parent directory" ,
fmt . Sprintf ( "The requested module %q refers to a module via its parent directory. To use this as a new root module this source string must be rewritten as a remote source address, such as %q." , sourceAddr , newAddr ) ,
) )
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continue
}
}
}
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retManifest [ "" ] = modsdir . Record {
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Key : "" ,
Dir : rootDir ,
}
continue
}
if ! strings . HasPrefix ( record . Key , initFromModuleRootKeyPrefix ) {
// Ignore the *real* root module, whose key is empty, since
// we're only interested in the module named "root" and its
// descendents.
continue
}
newKey := record . Key [ len ( initFromModuleRootKeyPrefix ) : ]
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instPath := filepath . Join ( modulesDir , newKey )
tempPath := filepath . Join ( instDir , record . Key )
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// tempPath won't be present for a module that was installed from
// a relative path, so in that case we just record the installation
// directory and assume it was already copied into place as part
// of its parent.
if _ , err := os . Stat ( tempPath ) ; err != nil {
if ! os . IsNotExist ( err ) {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to stat temporary module install directory" ,
fmt . Sprintf ( "Error from stat %s for module %s: %s." , instPath , newKey , err ) ,
) )
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continue
}
var parentKey string
if lastDot := strings . LastIndexByte ( newKey , '.' ) ; lastDot != - 1 {
parentKey = newKey [ : lastDot ]
}
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var parentOld modsdir . Record
// "" is the root module; all other modules get `root.` added as a prefix
if parentKey == "" {
parentOld = instManifest [ parentKey ]
} else {
parentOld = instManifest [ initFromModuleRootKeyPrefix + parentKey ]
}
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parentNew := retManifest [ parentKey ]
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// We need to figure out which portion of our directory is the
// parent package path and which portion is the subdirectory
// under that.
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var baseDirRel string
baseDirRel , err = filepath . Rel ( parentOld . Dir , record . Dir )
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if err != nil {
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// This error may occur when installing a local module with a
// relative path, for e.g. if the source is in a directory above
// the destination ("../")
if parentOld . Dir == "." {
absDir , err := filepath . Abs ( parentOld . Dir )
if err != nil {
diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to determine module install directory" ,
fmt . Sprintf ( "Error determine relative source directory for module %s: %s." , newKey , err ) ,
) )
continue
}
baseDirRel , err = filepath . Rel ( absDir , record . Dir )
if err != nil {
diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to determine relative module source location" ,
fmt . Sprintf ( "Error determining relative source for module %s: %s." , newKey , err ) ,
) )
continue
}
} else {
diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to determine relative module source location" ,
fmt . Sprintf ( "Error determining relative source for module %s: %s." , newKey , err ) ,
) )
}
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}
newDir := filepath . Join ( parentNew . Dir , baseDirRel )
log . Printf ( "[TRACE] relative reference for %s rewritten from %s to %s" , newKey , record . Dir , newDir )
newRecord := record // shallow copy
newRecord . Dir = newDir
newRecord . Key = newKey
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retManifest [ newKey ] = newRecord
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hooks . Install ( newRecord . Key , newRecord . Version , newRecord . Dir )
continue
}
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err = os . MkdirAll ( instPath , os . ModePerm )
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if err != nil {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to create module install directory" ,
fmt . Sprintf ( "Error creating directory %s for module %s: %s." , instPath , newKey , err ) ,
) )
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continue
}
// We copy rather than "rename" here because renaming between directories
// can be tricky in edge-cases like network filesystems, etc.
log . Printf ( "[TRACE] copying new module %s from %s to %s" , newKey , record . Dir , instPath )
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err := copy . CopyDir ( instPath , tempPath )
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if err != nil {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to copy descendent module" ,
fmt . Sprintf ( "Error copying module %q from %s to %s: %s." , newKey , tempPath , rootDir , err ) ,
) )
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continue
}
subDir , err := filepath . Rel ( tempPath , record . Dir )
if err != nil {
// Should never happen, because we constructed both directories
// from the same base and so they must have a common prefix.
panic ( err )
}
newRecord := record // shallow copy
newRecord . Dir = filepath . Join ( instPath , subDir )
newRecord . Key = newKey
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retManifest [ newKey ] = newRecord
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hooks . Install ( newRecord . Key , newRecord . Version , newRecord . Dir )
}
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retManifest . WriteSnapshotToDir ( modulesDir )
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if err != nil {
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diags = diags . Append ( tfdiags . Sourceless (
tfdiags . Error ,
"Failed to write module manifest" ,
fmt . Sprintf ( "Error writing module manifest: %s." , err ) ,
) )
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}
if ! diags . HasErrors ( ) {
// Try to clean up our temporary directory, but don't worry if we don't
// succeed since it shouldn't hurt anything.
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os . RemoveAll ( instDir )
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}
return diags
}
func pathTraversesUp ( path string ) bool {
return strings . HasPrefix ( filepath . ToSlash ( path ) , "../" )
}
// installHooksInitDir is an adapter wrapper for an InstallHooks that
// does some fakery to make downloads look like they are happening in their
// final locations, rather than in the temporary loader we use.
//
// It also suppresses "Install" calls entirely, since InitDirFromModule
// does its own installation steps after the initial installation pass
// has completed.
type installHooksInitDir struct {
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Wrapped ModuleInstallHooks
ModuleInstallHooksImpl
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}
func ( h installHooksInitDir ) Download ( moduleAddr , packageAddr string , version * version . Version ) {
if ! strings . HasPrefix ( moduleAddr , initFromModuleRootKeyPrefix ) {
// We won't announce the root module, since hook implementations
// don't expect to see that and the caller will usually have produced
// its own user-facing notification about what it's doing anyway.
return
}
trimAddr := moduleAddr [ len ( initFromModuleRootKeyPrefix ) : ]
h . Wrapped . Download ( trimAddr , packageAddr , version )
}