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module.go
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module.go
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// Copyright (c) 2022 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package fx
import (
"fmt"
"go.uber.org/dig"
"go.uber.org/fx/fxevent"
"go.uber.org/fx/internal/fxreflect"
"go.uber.org/multierr"
)
// A container represents a set of constructors to provide
// dependencies, and a set of functions to invoke once all the
// dependencies have been initialized.
//
// This definition corresponds to the dig.Container and dig.Scope.
type container interface {
Invoke(interface{}, ...dig.InvokeOption) error
Provide(interface{}, ...dig.ProvideOption) error
Decorate(interface{}, ...dig.DecorateOption) error
}
// Module is a named group of zero or more fx.Options.
// A Module creates a scope in which certain operations are taken
// place. For more information, see [Decorate], [Replace], or [Invoke].
func Module(name string, opts ...Option) Option {
mo := moduleOption{
name: name,
options: opts,
}
return mo
}
type moduleOption struct {
name string
options []Option
}
func (o moduleOption) String() string {
return fmt.Sprintf("fx.Module(%q, %v)", o.name, o.options)
}
func (o moduleOption) apply(mod *module) {
// This get called on any submodules' that are declared
// as part of another module.
// 1. Create a new module with the parent being the specified
// module.
// 2. Apply child Options on the new module.
// 3. Append it to the parent module.
newModule := &module{
name: o.name,
parent: mod,
app: mod.app,
}
for _, opt := range o.options {
opt.apply(newModule)
}
mod.modules = append(mod.modules, newModule)
}
type module struct {
parent *module
name string
scope scope
provides []provide
invokes []invoke
decorators []decorator
modules []*module
app *App
log fxevent.Logger
fallbackLogger fxevent.Logger
logConstructor *provide
}
// scope is a private wrapper interface for dig.Container and dig.Scope.
// We can consider moving this into Fx using type constraints after Go 1.20
// is released and 1.17 is deprecated.
type scope interface {
Decorate(f interface{}, opts ...dig.DecorateOption) error
Invoke(f interface{}, opts ...dig.InvokeOption) error
Provide(f interface{}, opts ...dig.ProvideOption) error
Scope(name string, opts ...dig.ScopeOption) *dig.Scope
String() string
}
// builds the Scopes using the App's Container. Note that this happens
// after applyModules' are called because the App's Container needs to
// be built for any Scopes to be initialized, and applys' should be called
// before the Container can get initialized.
func (m *module) build(app *App, root *dig.Container) {
if m.parent == nil {
m.scope = root
} else {
parentScope := m.parent.scope
m.scope = parentScope.Scope(m.name)
// use parent module's logger by default
m.log = m.parent.log
}
if m.logConstructor != nil {
// Since user supplied a custom logger, use a buffered logger
// to hold all messages until user supplied logger is
// instantiated. Then we flush those messages after fully
// constructing the custom logger.
m.fallbackLogger, m.log = m.log, new(logBuffer)
}
for _, mod := range m.modules {
mod.build(app, root)
}
}
func (m *module) provideAll() {
for _, p := range m.provides {
m.provide(p)
}
for _, m := range m.modules {
m.provideAll()
}
}
func (m *module) provide(p provide) {
if m.app.err != nil {
return
}
if p.IsSupply {
m.supply(p)
return
}
funcName := fxreflect.FuncName(p.Target)
var info dig.ProvideInfo
opts := []dig.ProvideOption{
dig.FillProvideInfo(&info),
dig.Export(!p.Private),
dig.WithProviderCallback(func(ci dig.CallbackInfo) {
m.log.LogEvent(&fxevent.Run{
Name: funcName,
Kind: "provide",
ModuleName: m.name,
Err: ci.Error,
})
}),
}
if err := runProvide(m.scope, p, opts...); err != nil {
m.app.err = err
}
outputNames := make([]string, len(info.Outputs))
for i, o := range info.Outputs {
outputNames[i] = o.String()
}
m.log.LogEvent(&fxevent.Provided{
ConstructorName: funcName,
StackTrace: p.Stack.Strings(),
ModuleName: m.name,
OutputTypeNames: outputNames,
Err: m.app.err,
Private: p.Private,
})
}
func (m *module) supply(p provide) {
typeName := p.SupplyType.String()
opts := []dig.ProvideOption{
dig.Export(!p.Private),
dig.WithProviderCallback(func(ci dig.CallbackInfo) {
m.log.LogEvent(&fxevent.Run{
Name: fmt.Sprintf("stub(%v)", typeName),
Kind: "supply",
ModuleName: m.name,
})
}),
}
if err := runProvide(m.scope, p, opts...); err != nil {
m.app.err = err
}
m.log.LogEvent(&fxevent.Supplied{
TypeName: typeName,
StackTrace: p.Stack.Strings(),
ModuleName: m.name,
Err: m.app.err,
})
}
// Constructs custom loggers for all modules in the tree
func (m *module) constructAllCustomLoggers() {
if m.logConstructor != nil {
if buffer, ok := m.log.(*logBuffer); ok {
// default to parent's logger if custom logger constructor fails
if err := m.constructCustomLogger(buffer); err != nil {
m.app.err = multierr.Append(m.app.err, err)
m.log = m.fallbackLogger
buffer.Connect(m.log)
}
}
m.fallbackLogger = nil
} else if m.parent != nil {
m.log = m.parent.log
}
for _, mod := range m.modules {
mod.constructAllCustomLoggers()
}
}
// Mirroring the behavior of app.constructCustomLogger
func (m *module) constructCustomLogger(buffer *logBuffer) (err error) {
p := m.logConstructor
fname := fxreflect.FuncName(p.Target)
defer func() {
m.log.LogEvent(&fxevent.LoggerInitialized{
Err: err,
ConstructorName: fname,
})
}()
// TODO: Use dig.FillProvideInfo to inspect the provided constructor
// and fail the application if its signature didn't match.
if err := m.scope.Provide(p.Target); err != nil {
return fmt.Errorf("fx.WithLogger(%v) from:\n%+v\nin Module: %q\nFailed: %w",
fname, p.Stack, m.name, err)
}
return m.scope.Invoke(func(log fxevent.Logger) {
m.log = log
buffer.Connect(log)
})
}
func (m *module) executeInvokes() error {
for _, m := range m.modules {
if err := m.executeInvokes(); err != nil {
return err
}
}
for _, invoke := range m.invokes {
if err := m.executeInvoke(invoke); err != nil {
return err
}
}
return nil
}
func (m *module) executeInvoke(i invoke) (err error) {
fnName := fxreflect.FuncName(i.Target)
m.log.LogEvent(&fxevent.Invoking{
FunctionName: fnName,
ModuleName: m.name,
})
err = runInvoke(m.scope, i)
m.log.LogEvent(&fxevent.Invoked{
FunctionName: fnName,
ModuleName: m.name,
Err: err,
Trace: fmt.Sprintf("%+v", i.Stack), // format stack trace as multi-line
})
return err
}
func (m *module) decorateAll() error {
for _, d := range m.decorators {
if err := m.decorate(d); err != nil {
return err
}
}
for _, m := range m.modules {
if err := m.decorateAll(); err != nil {
return err
}
}
return nil
}
func (m *module) decorate(d decorator) (err error) {
if d.IsReplace {
return m.replace(d)
}
funcName := fxreflect.FuncName(d.Target)
var info dig.DecorateInfo
opts := []dig.DecorateOption{
dig.FillDecorateInfo(&info),
dig.WithDecoratorCallback(func(ci dig.CallbackInfo) {
m.log.LogEvent(&fxevent.Run{
Name: funcName,
Kind: "decorate",
ModuleName: m.name,
Err: ci.Error,
})
}),
}
err = runDecorator(m.scope, d, opts...)
outputNames := make([]string, len(info.Outputs))
for i, o := range info.Outputs {
outputNames[i] = o.String()
}
m.log.LogEvent(&fxevent.Decorated{
DecoratorName: funcName,
StackTrace: d.Stack.Strings(),
ModuleName: m.name,
OutputTypeNames: outputNames,
Err: err,
})
return err
}
func (m *module) replace(d decorator) error {
typeName := d.ReplaceType.String()
opts := []dig.DecorateOption{
dig.WithDecoratorCallback(func(ci dig.CallbackInfo) {
m.log.LogEvent(&fxevent.Run{
Name: fmt.Sprintf("stub(%v)", typeName),
Kind: "replace",
ModuleName: m.name,
Err: ci.Error,
})
}),
}
err := runDecorator(m.scope, d, opts...)
m.log.LogEvent(&fxevent.Replaced{
ModuleName: m.name,
StackTrace: d.Stack.Strings(),
OutputTypeNames: []string{typeName},
Err: err,
})
return err
}