opentofu/configs/config_build.go
Martin Atkins 3d551e25e0 configs: BuildConfig sorts child modules by name
This is not strictly necessary, but since this is not a
performance-critical codepath we'll do this because it makes life easier
for callers that want to print out user-facing logs about build process,
or who are logging actions taken as part of a unit test.
2018-02-15 15:56:38 -08:00

159 lines
5.8 KiB
Go

package configs
import (
"sort"
version "github.com/hashicorp/go-version"
"github.com/hashicorp/hcl2/hcl"
)
// BuildConfig constructs a Config from a root module by loading all of its
// descendent modules via the given ModuleWalker.
//
// The result is a module tree that has so far only had basic module- and
// file-level invariants validated. If the returned diagnostics contains errors,
// the returned module tree may be incomplete but can still be used carefully
// for static analysis.
func BuildConfig(root *Module, walker ModuleWalker) (*Config, hcl.Diagnostics) {
var diags hcl.Diagnostics
cfg := &Config{
Module: root,
}
cfg.Root = cfg // Root module is self-referential.
cfg.Children, diags = buildChildModules(cfg, walker)
return cfg, diags
}
func buildChildModules(parent *Config, walker ModuleWalker) (map[string]*Config, hcl.Diagnostics) {
var diags hcl.Diagnostics
ret := map[string]*Config{}
calls := parent.Module.ModuleCalls
// We'll sort the calls by their local names so that they'll appear in a
// predictable order in any logging that's produced during the walk.
callNames := make([]string, 0, len(calls))
for k := range calls {
callNames = append(callNames, k)
}
sort.Strings(callNames)
for _, callName := range callNames {
call := calls[callName]
path := make([]string, len(parent.Path)+1)
copy(path, parent.Path)
path[len(path)-1] = call.Name
req := ModuleRequest{
Name: call.Name,
Path: path,
SourceAddr: call.SourceAddr,
SourceAddrRange: call.SourceAddrRange,
VersionConstraint: call.Version,
Parent: parent,
CallRange: call.DeclRange,
}
mod, ver, modDiags := walker.LoadModule(&req)
diags = append(diags, modDiags...)
if mod == nil {
// nil can be returned if the source address was invalid and so
// nothing could be loaded whatsoever. LoadModule should've
// returned at least one error diagnostic in that case.
continue
}
child := &Config{
Parent: parent,
Root: parent.Root,
Path: path,
Module: mod,
CallRange: call.DeclRange,
SourceAddr: call.SourceAddr,
SourceAddrRange: call.SourceAddrRange,
Version: ver,
}
child.Children, modDiags = buildChildModules(child, walker)
ret[call.Name] = child
}
return ret, diags
}
// A ModuleWalker knows how to find and load a child module given details about
// the module to be loaded and a reference to its partially-loaded parent
// Config.
type ModuleWalker interface {
// LoadModule finds and loads a requested child module.
//
// If errors are detected during loading, implementations should return them
// in the diagnostics object. If the diagnostics object contains any errors
// then the caller will tolerate the returned module being nil or incomplete.
// If no errors are returned, it should be non-nil and complete.
//
// Full validation need not have been performed but an implementation should
// ensure that the basic file- and module-validations performed by the
// LoadConfigDir function (valid syntax, no namespace collisions, etc) have
// been performed before returning a module.
LoadModule(req *ModuleRequest) (*Module, *version.Version, hcl.Diagnostics)
}
// ModuleWalkerFunc is an implementation of ModuleWalker that directly wraps
// a callback function, for more convenient use of that interface.
type ModuleWalkerFunc func(req *ModuleRequest) (*Module, *version.Version, hcl.Diagnostics)
// LoadModule implements ModuleWalker.
func (f ModuleWalkerFunc) LoadModule(req *ModuleRequest) (*Module, *version.Version, hcl.Diagnostics) {
return f(req)
}
// ModuleRequest is used with the ModuleWalker interface to describe a child
// module that must be loaded.
type ModuleRequest struct {
// Name is the "logical name" of the module call within configuration.
// This is provided in case the name is used as part of a storage key
// for the module, but implementations must otherwise treat it as an
// opaque string. It is guaranteed to have already been validated as an
// HCL identifier and UTF-8 encoded.
Name string
// Path is a list of logical names that traverse from the root module to
// this module. This can be used, for example, to form a lookup key for
// each distinct module call in a configuration, allowing for multiple
// calls with the same name at different points in the tree.
Path []string
// SourceAddr is the source address string provided by the user in
// configuration.
SourceAddr string
// SourceAddrRange is the source range for the SourceAddr value as it
// was provided in configuration. This can and should be used to generate
// diagnostics about the source address having invalid syntax, referring
// to a non-existent object, etc.
SourceAddrRange hcl.Range
// VersionConstraint is the version constraint applied to the module in
// configuration. This data structure includes the source range for
// the constraint, which can and should be used to generate diagnostics
// about constraint-related issues, such as constraints that eliminate all
// available versions of a module whose source is otherwise valid.
VersionConstraint VersionConstraint
// Parent is the partially-constructed module tree node that the loaded
// module will be added to. Callers may refer to any field of this
// structure except Children, which is still under construction when
// ModuleRequest objects are created and thus has undefined content.
// The main reason this is provided is so that full module paths can
// be constructed for uniqueness.
Parent *Config
// CallRange is the source range for the header of the "module" block
// in configuration that prompted this request. This can be used as the
// subject of an error diagnostic that relates to the module call itself,
// rather than to either its source address or its version number.
CallRange hcl.Range
}