gotosocial/vendor/github.com/tetratelabs/wazero/internal/wasm/module_instance.go

package wasm

import (
	"context"
	"errors"
	"fmt"

	"github.com/tetratelabs/wazero/api"
	"github.com/tetratelabs/wazero/sys"
)

// FailIfClosed returns a sys.ExitError if CloseWithExitCode was called.
func (m *ModuleInstance) FailIfClosed() (err error) {
	if closed := m.Closed.Load(); closed != 0 {
		switch closed & exitCodeFlagMask {
		case exitCodeFlagResourceClosed:
		case exitCodeFlagResourceNotClosed:
			// This happens when this module is closed asynchronously in CloseModuleOnCanceledOrTimeout,
			// and the closure of resources have been deferred here.
			_ = m.ensureResourcesClosed(context.Background())
		}
		return sys.NewExitError(uint32(closed >> 32)) // Unpack the high order bits as the exit code.
	}
	return nil
}

// CloseModuleOnCanceledOrTimeout take a context `ctx`, which might be a Cancel or Timeout context,
// and spawns the Goroutine to check the context is canceled ot deadline exceeded. If it reaches
// one of the conditions, it sets the appropriate exit code.
//
// Callers of this function must invoke the returned context.CancelFunc to release the spawned Goroutine.
func (m *ModuleInstance) CloseModuleOnCanceledOrTimeout(ctx context.Context) context.CancelFunc {
	// Creating an empty channel in this case is a bit more efficient than
	// creating a context.Context and canceling it with the same effect. We
	// really just need to be notified when to stop listening to the users
	// context. Closing the channel will unblock the select in the goroutine
	// causing it to return an stop listening to ctx.Done().
	cancelChan := make(chan struct{})
	go m.closeModuleOnCanceledOrTimeout(ctx, cancelChan)
	return func() { close(cancelChan) }
}

// closeModuleOnCanceledOrTimeout is extracted from CloseModuleOnCanceledOrTimeout for testing.
func (m *ModuleInstance) closeModuleOnCanceledOrTimeout(ctx context.Context, cancelChan <-chan struct{}) {
	select {
	case <-ctx.Done():
		select {
		case <-cancelChan:
			// In some cases by the time this goroutine is scheduled, the caller
			// has already closed both the context and the cancelChan. In this
			// case go will randomize which branch of the outer select to enter
			// and we don't want to close the module.
		default:
			// This is the same logic as CloseWithCtxErr except this calls closeWithExitCodeWithoutClosingResource
			// so that we can defer the resource closure in FailIfClosed.
			switch {
			case errors.Is(ctx.Err(), context.Canceled):
				// TODO: figure out how to report error here.
				_ = m.closeWithExitCodeWithoutClosingResource(sys.ExitCodeContextCanceled)
			case errors.Is(ctx.Err(), context.DeadlineExceeded):
				// TODO: figure out how to report error here.
				_ = m.closeWithExitCodeWithoutClosingResource(sys.ExitCodeDeadlineExceeded)
			}
		}
	case <-cancelChan:
	}
}

// CloseWithCtxErr closes the module with an exit code based on the type of
// error reported by the context.
//
// If the context's error is unknown or nil, the module does not close.
func (m *ModuleInstance) CloseWithCtxErr(ctx context.Context) {
	switch {
	case errors.Is(ctx.Err(), context.Canceled):
		// TODO: figure out how to report error here.
		_ = m.CloseWithExitCode(ctx, sys.ExitCodeContextCanceled)
	case errors.Is(ctx.Err(), context.DeadlineExceeded):
		// TODO: figure out how to report error here.
		_ = m.CloseWithExitCode(ctx, sys.ExitCodeDeadlineExceeded)
	}
}

// Name implements the same method as documented on api.Module
func (m *ModuleInstance) Name() string {
	return m.ModuleName
}

// String implements the same method as documented on api.Module
func (m *ModuleInstance) String() string {
	return fmt.Sprintf("Module[%s]", m.Name())
}

// Close implements the same method as documented on api.Module.
func (m *ModuleInstance) Close(ctx context.Context) (err error) {
	return m.CloseWithExitCode(ctx, 0)
}

// CloseWithExitCode implements the same method as documented on api.Module.
func (m *ModuleInstance) CloseWithExitCode(ctx context.Context, exitCode uint32) (err error) {
	if !m.setExitCode(exitCode, exitCodeFlagResourceClosed) {
		return nil // not an error to have already closed
	}
	_ = m.s.deleteModule(m)
	return m.ensureResourcesClosed(ctx)
}

// IsClosed implements the same method as documented on api.Module.
func (m *ModuleInstance) IsClosed() bool {
	return m.Closed.Load() != 0
}

func (m *ModuleInstance) closeWithExitCodeWithoutClosingResource(exitCode uint32) (err error) {
	if !m.setExitCode(exitCode, exitCodeFlagResourceNotClosed) {
		return nil // not an error to have already closed
	}
	_ = m.s.deleteModule(m)
	return nil
}

// closeWithExitCode is the same as CloseWithExitCode besides this doesn't delete it from Store.moduleList.
func (m *ModuleInstance) closeWithExitCode(ctx context.Context, exitCode uint32) (err error) {
	if !m.setExitCode(exitCode, exitCodeFlagResourceClosed) {
		return nil // not an error to have already closed
	}
	return m.ensureResourcesClosed(ctx)
}

type exitCodeFlag = uint64

const exitCodeFlagMask = 0xff

const (
	// exitCodeFlagResourceClosed indicates that the module was closed and resources were already closed.
	exitCodeFlagResourceClosed = 1 << iota
	// exitCodeFlagResourceNotClosed indicates that the module was closed while resources are not closed yet.
	exitCodeFlagResourceNotClosed
)

func (m *ModuleInstance) setExitCode(exitCode uint32, flag exitCodeFlag) bool {
	closed := flag | uint64(exitCode)<<32 // Store exitCode as high-order bits.
	return m.Closed.CompareAndSwap(0, closed)
}

// ensureResourcesClosed ensures that resources assigned to ModuleInstance is released.
// Only one call will happen per module, due to external atomic guards on Closed.
func (m *ModuleInstance) ensureResourcesClosed(ctx context.Context) (err error) {
	if closeNotifier := m.CloseNotifier; closeNotifier != nil { // experimental
		closeNotifier.CloseNotify(ctx, uint32(m.Closed.Load()>>32))
		m.CloseNotifier = nil
	}

	if sysCtx := m.Sys; sysCtx != nil { // nil if from HostModuleBuilder
		err = sysCtx.FS().Close()
		m.Sys = nil
	}

	if mem := m.MemoryInstance; mem != nil {
		if mem.expBuffer != nil {
			mem.expBuffer.Free()
			mem.expBuffer = nil
		}
	}

	if m.CodeCloser != nil {
		if e := m.CodeCloser.Close(ctx); err == nil {
			err = e
		}
		m.CodeCloser = nil
	}
	return err
}

// Memory implements the same method as documented on api.Module.
func (m *ModuleInstance) Memory() api.Memory {
	return m.MemoryInstance
}

// ExportedMemory implements the same method as documented on api.Module.
func (m *ModuleInstance) ExportedMemory(name string) api.Memory {
	_, err := m.getExport(name, ExternTypeMemory)
	if err != nil {
		return nil
	}
	// We Assume that we have at most one memory.
	return m.MemoryInstance
}

// ExportedMemoryDefinitions implements the same method as documented on
// api.Module.
func (m *ModuleInstance) ExportedMemoryDefinitions() map[string]api.MemoryDefinition {
	// Special case as we currently only support one memory.
	if mem := m.MemoryInstance; mem != nil {
		// Now, find out if it is exported
		for name, exp := range m.Exports {
			if exp.Type == ExternTypeMemory {
				return map[string]api.MemoryDefinition{name: mem.definition}
			}
		}
	}
	return map[string]api.MemoryDefinition{}
}

// ExportedFunction implements the same method as documented on api.Module.
func (m *ModuleInstance) ExportedFunction(name string) api.Function {
	exp, err := m.getExport(name, ExternTypeFunc)
	if err != nil {
		return nil
	}
	return m.Engine.NewFunction(exp.Index)
}

// ExportedFunctionDefinitions implements the same method as documented on
// api.Module.
func (m *ModuleInstance) ExportedFunctionDefinitions() map[string]api.FunctionDefinition {
	result := map[string]api.FunctionDefinition{}
	for name, exp := range m.Exports {
		if exp.Type == ExternTypeFunc {
			result[name] = m.Source.FunctionDefinition(exp.Index)
		}
	}
	return result
}

// GlobalVal is an internal hack to get the lower 64 bits of a global.
func (m *ModuleInstance) GlobalVal(idx Index) uint64 {
	return m.Globals[idx].Val
}

// ExportedGlobal implements the same method as documented on api.Module.
func (m *ModuleInstance) ExportedGlobal(name string) api.Global {
	exp, err := m.getExport(name, ExternTypeGlobal)
	if err != nil {
		return nil
	}
	g := m.Globals[exp.Index]
	if g.Type.Mutable {
		return mutableGlobal{g: g}
	}
	return constantGlobal{g: g}
}

// NumGlobal implements experimental.InternalModule.
func (m *ModuleInstance) NumGlobal() int {
	return len(m.Globals)
}

// Global implements experimental.InternalModule.
func (m *ModuleInstance) Global(idx int) api.Global {
	return constantGlobal{g: m.Globals[idx]}
}
[experiment] add alternative wasm sqlite3 implementation available via build-tag (#2863) This allows for building GoToSocial with [SQLite transpiled to WASM](https://github.com/ncruces/go-sqlite3) and accessed through [Wazero](https://wazero.io/). 2024-05-27 15:46:15 +00:00			`package wasm`

			`import (`
			`"context"`
			`"errors"`
			`"fmt"`

			`"github.com/tetratelabs/wazero/api"`
			`"github.com/tetratelabs/wazero/sys"`
			`)`

			`// FailIfClosed returns a sys.ExitError if CloseWithExitCode was called.`
			`func (m *ModuleInstance) FailIfClosed() (err error) {`
			`if closed := m.Closed.Load(); closed != 0 {`
			`switch closed & exitCodeFlagMask {`
			`case exitCodeFlagResourceClosed:`
			`case exitCodeFlagResourceNotClosed:`
			`// This happens when this module is closed asynchronously in CloseModuleOnCanceledOrTimeout,`
			`// and the closure of resources have been deferred here.`
			`_ = m.ensureResourcesClosed(context.Background())`
			`}`
			`return sys.NewExitError(uint32(closed >> 32)) // Unpack the high order bits as the exit code.`
			`}`
			`return nil`
			`}`

			// CloseModuleOnCanceledOrTimeout take a context `ctx`, which might be a Cancel or Timeout context,
			`// and spawns the Goroutine to check the context is canceled ot deadline exceeded. If it reaches`
			`// one of the conditions, it sets the appropriate exit code.`
			`//`
			`// Callers of this function must invoke the returned context.CancelFunc to release the spawned Goroutine.`
			`func (m *ModuleInstance) CloseModuleOnCanceledOrTimeout(ctx context.Context) context.CancelFunc {`
			`// Creating an empty channel in this case is a bit more efficient than`
			`// creating a context.Context and canceling it with the same effect. We`
			`// really just need to be notified when to stop listening to the users`
			`// context. Closing the channel will unblock the select in the goroutine`
			`// causing it to return an stop listening to ctx.Done().`
			`cancelChan := make(chan struct{})`
			`go m.closeModuleOnCanceledOrTimeout(ctx, cancelChan)`
			`return func() { close(cancelChan) }`
			`}`

			`// closeModuleOnCanceledOrTimeout is extracted from CloseModuleOnCanceledOrTimeout for testing.`
			`func (m *ModuleInstance) closeModuleOnCanceledOrTimeout(ctx context.Context, cancelChan <-chan struct{}) {`
			`select {`
			`case <-ctx.Done():`
			`select {`
			`case <-cancelChan:`
			`// In some cases by the time this goroutine is scheduled, the caller`
			`// has already closed both the context and the cancelChan. In this`
			`// case go will randomize which branch of the outer select to enter`
			`// and we don't want to close the module.`
			`default:`
			`// This is the same logic as CloseWithCtxErr except this calls closeWithExitCodeWithoutClosingResource`
			`// so that we can defer the resource closure in FailIfClosed.`
			`switch {`
			`case errors.Is(ctx.Err(), context.Canceled):`
			`// TODO: figure out how to report error here.`
			`_ = m.closeWithExitCodeWithoutClosingResource(sys.ExitCodeContextCanceled)`
			`case errors.Is(ctx.Err(), context.DeadlineExceeded):`
			`// TODO: figure out how to report error here.`
			`_ = m.closeWithExitCodeWithoutClosingResource(sys.ExitCodeDeadlineExceeded)`
			`}`
			`}`
			`case <-cancelChan:`
			`}`
			`}`

			`// CloseWithCtxErr closes the module with an exit code based on the type of`
			`// error reported by the context.`
			`//`
			`// If the context's error is unknown or nil, the module does not close.`
			`func (m *ModuleInstance) CloseWithCtxErr(ctx context.Context) {`
			`switch {`
			`case errors.Is(ctx.Err(), context.Canceled):`
			`// TODO: figure out how to report error here.`
			`_ = m.CloseWithExitCode(ctx, sys.ExitCodeContextCanceled)`
			`case errors.Is(ctx.Err(), context.DeadlineExceeded):`
			`// TODO: figure out how to report error here.`
			`_ = m.CloseWithExitCode(ctx, sys.ExitCodeDeadlineExceeded)`
			`}`
			`}`

			`// Name implements the same method as documented on api.Module`
			`func (m *ModuleInstance) Name() string {`
			`return m.ModuleName`
			`}`

			`// String implements the same method as documented on api.Module`
			`func (m *ModuleInstance) String() string {`
			`return fmt.Sprintf("Module[%s]", m.Name())`
			`}`

			`// Close implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) Close(ctx context.Context) (err error) {`
			`return m.CloseWithExitCode(ctx, 0)`
			`}`

			`// CloseWithExitCode implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) CloseWithExitCode(ctx context.Context, exitCode uint32) (err error) {`
			`if !m.setExitCode(exitCode, exitCodeFlagResourceClosed) {`
			`return nil // not an error to have already closed`
			`}`
			`_ = m.s.deleteModule(m)`
			`return m.ensureResourcesClosed(ctx)`
			`}`

			`// IsClosed implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) IsClosed() bool {`
			`return m.Closed.Load() != 0`
			`}`

			`func (m *ModuleInstance) closeWithExitCodeWithoutClosingResource(exitCode uint32) (err error) {`
			`if !m.setExitCode(exitCode, exitCodeFlagResourceNotClosed) {`
			`return nil // not an error to have already closed`
			`}`
			`_ = m.s.deleteModule(m)`
			`return nil`
			`}`

			`// closeWithExitCode is the same as CloseWithExitCode besides this doesn't delete it from Store.moduleList.`
			`func (m *ModuleInstance) closeWithExitCode(ctx context.Context, exitCode uint32) (err error) {`
			`if !m.setExitCode(exitCode, exitCodeFlagResourceClosed) {`
			`return nil // not an error to have already closed`
			`}`
			`return m.ensureResourcesClosed(ctx)`
			`}`

			`type exitCodeFlag = uint64`

			`const exitCodeFlagMask = 0xff`

			`const (`
			`// exitCodeFlagResourceClosed indicates that the module was closed and resources were already closed.`
			`exitCodeFlagResourceClosed = 1 << iota`
			`// exitCodeFlagResourceNotClosed indicates that the module was closed while resources are not closed yet.`
			`exitCodeFlagResourceNotClosed`
			`)`

			`func (m *ModuleInstance) setExitCode(exitCode uint32, flag exitCodeFlag) bool {`
			`closed := flag \| uint64(exitCode)<<32 // Store exitCode as high-order bits.`
			`return m.Closed.CompareAndSwap(0, closed)`
			`}`

			`// ensureResourcesClosed ensures that resources assigned to ModuleInstance is released.`
			`// Only one call will happen per module, due to external atomic guards on Closed.`
			`func (m *ModuleInstance) ensureResourcesClosed(ctx context.Context) (err error) {`
			`if closeNotifier := m.CloseNotifier; closeNotifier != nil { // experimental`
			`closeNotifier.CloseNotify(ctx, uint32(m.Closed.Load()>>32))`
			`m.CloseNotifier = nil`
			`}`

			`if sysCtx := m.Sys; sysCtx != nil { // nil if from HostModuleBuilder`
			`err = sysCtx.FS().Close()`
			`m.Sys = nil`
			`}`

			`if mem := m.MemoryInstance; mem != nil {`
			`if mem.expBuffer != nil {`
			`mem.expBuffer.Free()`
			`mem.expBuffer = nil`
			`}`
			`}`

			`if m.CodeCloser != nil {`
			`if e := m.CodeCloser.Close(ctx); err == nil {`
			`err = e`
			`}`
			`m.CodeCloser = nil`
			`}`
			`return err`
			`}`

			`// Memory implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) Memory() api.Memory {`
			`return m.MemoryInstance`
			`}`

			`// ExportedMemory implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) ExportedMemory(name string) api.Memory {`
			`_, err := m.getExport(name, ExternTypeMemory)`
			`if err != nil {`
			`return nil`
			`}`
			`// We Assume that we have at most one memory.`
			`return m.MemoryInstance`
			`}`

			`// ExportedMemoryDefinitions implements the same method as documented on`
			`// api.Module.`
			`func (m *ModuleInstance) ExportedMemoryDefinitions() map[string]api.MemoryDefinition {`
			`// Special case as we currently only support one memory.`
			`if mem := m.MemoryInstance; mem != nil {`
			`// Now, find out if it is exported`
			`for name, exp := range m.Exports {`
			`if exp.Type == ExternTypeMemory {`
			`return map[string]api.MemoryDefinition{name: mem.definition}`
			`}`
			`}`
			`}`
			`return map[string]api.MemoryDefinition{}`
			`}`

			`// ExportedFunction implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) ExportedFunction(name string) api.Function {`
			`exp, err := m.getExport(name, ExternTypeFunc)`
			`if err != nil {`
			`return nil`
			`}`
			`return m.Engine.NewFunction(exp.Index)`
			`}`

			`// ExportedFunctionDefinitions implements the same method as documented on`
			`// api.Module.`
			`func (m *ModuleInstance) ExportedFunctionDefinitions() map[string]api.FunctionDefinition {`
			`result := map[string]api.FunctionDefinition{}`
			`for name, exp := range m.Exports {`
			`if exp.Type == ExternTypeFunc {`
			`result[name] = m.Source.FunctionDefinition(exp.Index)`
			`}`
			`}`
			`return result`
			`}`

			`// GlobalVal is an internal hack to get the lower 64 bits of a global.`
			`func (m *ModuleInstance) GlobalVal(idx Index) uint64 {`
			`return m.Globals[idx].Val`
			`}`

			`// ExportedGlobal implements the same method as documented on api.Module.`
			`func (m *ModuleInstance) ExportedGlobal(name string) api.Global {`
			`exp, err := m.getExport(name, ExternTypeGlobal)`
			`if err != nil {`
			`return nil`
			`}`
			`g := m.Globals[exp.Index]`
			`if g.Type.Mutable {`
			`return mutableGlobal{g: g}`
			`}`
			`return constantGlobal{g: g}`
			`}`

			`// NumGlobal implements experimental.InternalModule.`
			`func (m *ModuleInstance) NumGlobal() int {`
			`return len(m.Globals)`
			`}`

			`// Global implements experimental.InternalModule.`
			`func (m *ModuleInstance) Global(idx int) api.Global {`
			`return constantGlobal{g: m.Globals[idx]}`
			`}`