mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-11-14 05:21:08 +00:00
1e7b32490d
This allows for building GoToSocial with [SQLite transpiled to WASM](https://github.com/ncruces/go-sqlite3) and accessed through [Wazero](https://wazero.io/).
762 lines
27 KiB
Go
762 lines
27 KiB
Go
// Package api includes constants and interfaces used by both end-users and internal implementations.
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package api
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import (
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"context"
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"fmt"
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"math"
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"github.com/tetratelabs/wazero/internal/internalapi"
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)
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// ExternType classifies imports and exports with their respective types.
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#external-types%E2%91%A0
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type ExternType = byte
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const (
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ExternTypeFunc ExternType = 0x00
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ExternTypeTable ExternType = 0x01
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ExternTypeMemory ExternType = 0x02
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ExternTypeGlobal ExternType = 0x03
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)
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// The below are exported to consolidate parsing behavior for external types.
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const (
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// ExternTypeFuncName is the name of the WebAssembly 1.0 (20191205) Text Format field for ExternTypeFunc.
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ExternTypeFuncName = "func"
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// ExternTypeTableName is the name of the WebAssembly 1.0 (20191205) Text Format field for ExternTypeTable.
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ExternTypeTableName = "table"
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// ExternTypeMemoryName is the name of the WebAssembly 1.0 (20191205) Text Format field for ExternTypeMemory.
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ExternTypeMemoryName = "memory"
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// ExternTypeGlobalName is the name of the WebAssembly 1.0 (20191205) Text Format field for ExternTypeGlobal.
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ExternTypeGlobalName = "global"
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)
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// ExternTypeName returns the name of the WebAssembly 1.0 (20191205) Text Format field of the given type.
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#exports%E2%91%A4
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func ExternTypeName(et ExternType) string {
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switch et {
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case ExternTypeFunc:
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return ExternTypeFuncName
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case ExternTypeTable:
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return ExternTypeTableName
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case ExternTypeMemory:
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return ExternTypeMemoryName
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case ExternTypeGlobal:
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return ExternTypeGlobalName
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}
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return fmt.Sprintf("%#x", et)
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}
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// ValueType describes a parameter or result type mapped to a WebAssembly
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// function signature.
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//
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// The following describes how to convert between Wasm and Golang types:
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//
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// - ValueTypeI32 - EncodeU32 DecodeU32 for uint32 / EncodeI32 DecodeI32 for int32
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// - ValueTypeI64 - uint64(int64)
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// - ValueTypeF32 - EncodeF32 DecodeF32 from float32
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// - ValueTypeF64 - EncodeF64 DecodeF64 from float64
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// - ValueTypeExternref - unintptr(unsafe.Pointer(p)) where p is any pointer
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// type in Go (e.g. *string)
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//
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// e.g. Given a Text Format type use (param i64) (result i64), no conversion is
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// necessary.
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//
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// results, _ := fn(ctx, input)
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// result := result[0]
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//
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// e.g. Given a Text Format type use (param f64) (result f64), conversion is
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// necessary.
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//
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// results, _ := fn(ctx, api.EncodeF64(input))
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// result := api.DecodeF64(result[0])
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//
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// Note: This is a type alias as it is easier to encode and decode in the
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// binary format.
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#binary-valtype
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type ValueType = byte
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const (
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// ValueTypeI32 is a 32-bit integer.
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ValueTypeI32 ValueType = 0x7f
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// ValueTypeI64 is a 64-bit integer.
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ValueTypeI64 ValueType = 0x7e
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// ValueTypeF32 is a 32-bit floating point number.
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ValueTypeF32 ValueType = 0x7d
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// ValueTypeF64 is a 64-bit floating point number.
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ValueTypeF64 ValueType = 0x7c
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// ValueTypeExternref is a externref type.
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//
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// Note: in wazero, externref type value are opaque raw 64-bit pointers,
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// and the ValueTypeExternref type in the signature will be translated as
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// uintptr in wazero's API level.
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//
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// For example, given the import function:
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// (func (import "env" "f") (param externref) (result externref))
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//
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// This can be defined in Go as:
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// r.NewHostModuleBuilder("env").
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// NewFunctionBuilder().
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// WithFunc(func(context.Context, _ uintptr) (_ uintptr) { return }).
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// Export("f")
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//
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// Note: The usage of this type is toggled with api.CoreFeatureBulkMemoryOperations.
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ValueTypeExternref ValueType = 0x6f
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)
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// ValueTypeName returns the type name of the given ValueType as a string.
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// These type names match the names used in the WebAssembly text format.
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//
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// Note: This returns "unknown", if an undefined ValueType value is passed.
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func ValueTypeName(t ValueType) string {
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switch t {
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case ValueTypeI32:
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return "i32"
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case ValueTypeI64:
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return "i64"
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case ValueTypeF32:
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return "f32"
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case ValueTypeF64:
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return "f64"
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case ValueTypeExternref:
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return "externref"
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}
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return "unknown"
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}
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// Module is a sandboxed, ready to execute Wasm module. This can be used to get exported functions, etc.
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//
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// In WebAssembly terminology, this corresponds to a "Module Instance", but wazero calls pre-instantiation module as
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// "Compiled Module" as in wazero.CompiledModule, therefore we call this post-instantiation module simply "Module".
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#module-instances%E2%91%A0
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//
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// # Notes
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//
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// - This is an interface for decoupling, not third-party implementations.
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// All implementations are in wazero.
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// - Closing the wazero.Runtime closes any Module it instantiated.
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type Module interface {
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fmt.Stringer
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// Name is the name this module was instantiated with. Exported functions can be imported with this name.
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Name() string
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// Memory returns a memory defined in this module or nil if there are none wasn't.
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Memory() Memory
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// ExportedFunction returns a function exported from this module or nil if it wasn't.
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//
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// Note: The default wazero.ModuleConfig attempts to invoke `_start`, which
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// in rare cases can close the module. When in doubt, check IsClosed prior
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// to invoking a function export after instantiation.
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ExportedFunction(name string) Function
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// ExportedFunctionDefinitions returns all the exported function
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// definitions in this module, keyed on export name.
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ExportedFunctionDefinitions() map[string]FunctionDefinition
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// TODO: Table
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// ExportedMemory returns a memory exported from this module or nil if it wasn't.
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//
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// WASI modules require exporting a Memory named "memory". This means that a module successfully initialized
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// as a WASI Command or Reactor will never return nil for this name.
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//
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// See https://github.com/WebAssembly/WASI/blob/snapshot-01/design/application-abi.md#current-unstable-abi
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ExportedMemory(name string) Memory
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// ExportedMemoryDefinitions returns all the exported memory definitions
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// in this module, keyed on export name.
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//
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// Note: As of WebAssembly Core Specification 2.0, there can be at most one
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// memory.
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ExportedMemoryDefinitions() map[string]MemoryDefinition
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// ExportedGlobal a global exported from this module or nil if it wasn't.
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ExportedGlobal(name string) Global
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// CloseWithExitCode releases resources allocated for this Module. Use a non-zero exitCode parameter to indicate a
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// failure to ExportedFunction callers.
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//
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// The error returned here, if present, is about resource de-allocation (such as I/O errors). Only the last error is
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// returned, so a non-nil return means at least one error happened. Regardless of error, this Module will
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// be removed, making its name available again.
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//
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// Calling this inside a host function is safe, and may cause ExportedFunction callers to receive a sys.ExitError
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// with the exitCode.
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CloseWithExitCode(ctx context.Context, exitCode uint32) error
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// Closer closes this module by delegating to CloseWithExitCode with an exit code of zero.
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Closer
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// IsClosed returns true if the module is closed, so no longer usable.
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//
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// This can happen for the following reasons:
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// - Closer was called directly.
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// - A guest function called Closer indirectly, such as `_start` calling
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// `proc_exit`, which internally closed the module.
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// - wazero.RuntimeConfig `WithCloseOnContextDone` was enabled and a
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// context completion closed the module.
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//
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// Where any of the above are possible, check this value before calling an
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// ExportedFunction, even if you didn't formerly receive a sys.ExitError.
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// sys.ExitError is only returned on non-zero code, something that closes
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// the module successfully will not result it one.
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IsClosed() bool
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internalapi.WazeroOnly
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}
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// Closer closes a resource.
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//
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// # Notes
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//
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// - This is an interface for decoupling, not third-party implementations.
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// All implementations are in wazero.
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type Closer interface {
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// Close closes the resource.
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//
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// Note: The context parameter is used for value lookup, such as for
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// logging. A canceled or otherwise done context will not prevent Close
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// from succeeding.
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Close(context.Context) error
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}
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// ExportDefinition is a WebAssembly type exported in a module
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// (wazero.CompiledModule).
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#exports%E2%91%A0
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//
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// # Notes
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//
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// - This is an interface for decoupling, not third-party implementations.
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// All implementations are in wazero.
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type ExportDefinition interface {
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// ModuleName is the possibly empty name of the module defining this
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// export.
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//
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// Note: This may be different from Module.Name, because a compiled module
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// can be instantiated multiple times as different names.
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ModuleName() string
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// Index is the position in the module's index, imports first.
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Index() uint32
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// Import returns true with the module and name when this was imported.
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// Otherwise, it returns false.
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//
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// Note: Empty string is valid for both names in the WebAssembly Core
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// Specification, so "" "" is possible.
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Import() (moduleName, name string, isImport bool)
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// ExportNames include all exported names.
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//
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// Note: The empty name is allowed in the WebAssembly Core Specification,
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// so "" is possible.
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ExportNames() []string
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internalapi.WazeroOnly
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}
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// MemoryDefinition is a WebAssembly memory exported in a module
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// (wazero.CompiledModule). Units are in pages (64KB).
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#exports%E2%91%A0
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//
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// # Notes
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//
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// - This is an interface for decoupling, not third-party implementations.
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// All implementations are in wazero.
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type MemoryDefinition interface {
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ExportDefinition
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// Min returns the possibly zero initial count of 64KB pages.
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Min() uint32
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// Max returns the possibly zero max count of 64KB pages, or false if
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// unbounded.
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Max() (uint32, bool)
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internalapi.WazeroOnly
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}
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// FunctionDefinition is a WebAssembly function exported in a module
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// (wazero.CompiledModule).
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#exports%E2%91%A0
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//
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// # Notes
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//
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// - This is an interface for decoupling, not third-party implementations.
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// All implementations are in wazero.
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type FunctionDefinition interface {
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ExportDefinition
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// Name is the module-defined name of the function, which is not necessarily
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// the same as its export name.
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Name() string
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// DebugName identifies this function based on its Index or Name in the
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// module. This is used for errors and stack traces. e.g. "env.abort".
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//
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// When the function name is empty, a substitute name is generated by
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// prefixing '$' to its position in the index. Ex ".$0" is the
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// first function (possibly imported) in an unnamed module.
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//
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// The format is dot-delimited module and function name, but there are no
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// restrictions on the module and function name. This means either can be
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// empty or include dots. e.g. "x.x.x" could mean module "x" and name "x.x",
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// or it could mean module "x.x" and name "x".
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//
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// Note: This name is stable regardless of import or export. For example,
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// if Import returns true, the value is still based on the Name or Index
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// and not the imported function name.
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DebugName() string
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// GoFunction is non-nil when implemented by the embedder instead of a wasm
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// binary, e.g. via wazero.HostModuleBuilder
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//
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// The expected results are nil, GoFunction or GoModuleFunction.
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GoFunction() interface{}
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// ParamTypes are the possibly empty sequence of value types accepted by a
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// function with this signature.
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//
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// See ValueType documentation for encoding rules.
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ParamTypes() []ValueType
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// ParamNames are index-correlated with ParamTypes or nil if not available
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// for one or more parameters.
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ParamNames() []string
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// ResultTypes are the results of the function.
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//
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// When WebAssembly 1.0 (20191205), there can be at most one result.
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#result-types%E2%91%A0
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//
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// See ValueType documentation for encoding rules.
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ResultTypes() []ValueType
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// ResultNames are index-correlated with ResultTypes or nil if not
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// available for one or more results.
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ResultNames() []string
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internalapi.WazeroOnly
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}
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// Function is a WebAssembly function exported from an instantiated module
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// (wazero.Runtime InstantiateModule).
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#syntax-func
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//
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// # Notes
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//
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// - This is an interface for decoupling, not third-party implementations.
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// All implementations are in wazero.
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type Function interface {
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// Definition is metadata about this function from its defining module.
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Definition() FunctionDefinition
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// Call invokes the function with the given parameters and returns any
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// results or an error for any failure looking up or invoking the function.
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//
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// Encoding is described in Definition, and supplying an incorrect count of
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// parameters vs FunctionDefinition.ParamTypes is an error.
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//
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// If the exporting Module was closed during this call, the error returned
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// may be a sys.ExitError. See Module.CloseWithExitCode for details.
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//
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// Call is not goroutine-safe, therefore it is recommended to create
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// another Function if you want to invoke the same function concurrently.
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// On the other hand, sequential invocations of Call is allowed.
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// However, this should not be called multiple times until the previous Call returns.
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//
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// To safely encode/decode params/results expressed as uint64, users are encouraged to
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// use api.EncodeXXX or DecodeXXX functions. See the docs on api.ValueType.
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//
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// When RuntimeConfig.WithCloseOnContextDone is toggled, the invocation of this Call method is ensured to be closed
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// whenever one of the three conditions is met. In the event of close, sys.ExitError will be returned and
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// the api.Module from which this api.Function is derived will be made closed. See the documentation of
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// WithCloseOnContextDone on wazero.RuntimeConfig for detail. See examples in context_done_example_test.go for
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// the end-to-end demonstrations of how these terminations can be performed.
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Call(ctx context.Context, params ...uint64) ([]uint64, error)
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// CallWithStack is an optimized variation of Call that saves memory
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// allocations when the stack slice is reused across calls.
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//
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// Stack length must be at least the max of parameter or result length.
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// The caller adds parameters in order to the stack, and reads any results
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// in order from the stack, except in the error case.
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//
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// For example, the following reuses the same stack slice to call searchFn
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// repeatedly saving one allocation per iteration:
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//
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// stack := make([]uint64, 4)
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// for i, search := range searchParams {
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// // copy the next params to the stack
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// copy(stack, search)
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// if err := searchFn.CallWithStack(ctx, stack); err != nil {
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// return err
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// } else if stack[0] == 1 { // found
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// return i // searchParams[i] matched!
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// }
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// }
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//
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// # Notes
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//
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// - This is similar to GoModuleFunction, except for using calling functions
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// instead of implementing them. Moreover, this is used regardless of
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// whether the callee is a host or wasm defined function.
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CallWithStack(ctx context.Context, stack []uint64) error
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internalapi.WazeroOnly
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}
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// GoModuleFunction is a Function implemented in Go instead of a wasm binary.
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// The Module parameter is the calling module, used to access memory or
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// exported functions. See GoModuleFunc for an example.
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//
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// The stack is includes any parameters encoded according to their ValueType.
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// Its length is the max of parameter or result length. When there are results,
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// write them in order beginning at index zero. Do not use the stack after the
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// function returns.
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//
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// Here's a typical way to read three parameters and write back one.
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//
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// // read parameters off the stack in index order
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// argv, argvBuf := api.DecodeU32(stack[0]), api.DecodeU32(stack[1])
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//
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// // write results back to the stack in index order
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// stack[0] = api.EncodeU32(ErrnoSuccess)
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//
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// This function can be non-deterministic or cause side effects. It also
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// has special properties not defined in the WebAssembly Core specification.
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// Notably, this uses the caller's memory (via Module.Memory). See
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// https://www.w3.org/TR/wasm-core-1/#host-functions%E2%91%A0
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//
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// Most end users will not define functions directly with this, as they will
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// use reflection or code generators instead. These approaches are more
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// idiomatic as they can map go types to ValueType. This type is exposed for
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// those willing to trade usability and safety for performance.
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//
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// To safely decode/encode values from/to the uint64 stack, users are encouraged to use
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// api.EncodeXXX or api.DecodeXXX functions. See the docs on api.ValueType.
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type GoModuleFunction interface {
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Call(ctx context.Context, mod Module, stack []uint64)
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}
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// GoModuleFunc is a convenience for defining an inlined function.
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//
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// For example, the following returns an uint32 value read from parameter zero:
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//
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// api.GoModuleFunc(func(ctx context.Context, mod api.Module, stack []uint64) {
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// offset := api.DecodeU32(stack[0]) // read the parameter from the stack
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//
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// ret, ok := mod.Memory().ReadUint32Le(offset)
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// if !ok {
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// panic("out of memory")
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// }
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//
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// stack[0] = api.EncodeU32(ret) // add the result back to the stack.
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// })
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type GoModuleFunc func(ctx context.Context, mod Module, stack []uint64)
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// Call implements GoModuleFunction.Call.
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func (f GoModuleFunc) Call(ctx context.Context, mod Module, stack []uint64) {
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f(ctx, mod, stack)
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}
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|
|
// GoFunction is an optimized form of GoModuleFunction which doesn't require
|
|
// the Module parameter. See GoFunc for an example.
|
|
//
|
|
// For example, this function does not need to use the importing module's
|
|
// memory or exported functions.
|
|
type GoFunction interface {
|
|
Call(ctx context.Context, stack []uint64)
|
|
}
|
|
|
|
// GoFunc is a convenience for defining an inlined function.
|
|
//
|
|
// For example, the following returns the sum of two uint32 parameters:
|
|
//
|
|
// api.GoFunc(func(ctx context.Context, stack []uint64) {
|
|
// x, y := api.DecodeU32(stack[0]), api.DecodeU32(stack[1])
|
|
// stack[0] = api.EncodeU32(x + y)
|
|
// })
|
|
type GoFunc func(ctx context.Context, stack []uint64)
|
|
|
|
// Call implements GoFunction.Call.
|
|
func (f GoFunc) Call(ctx context.Context, stack []uint64) {
|
|
f(ctx, stack)
|
|
}
|
|
|
|
// Global is a WebAssembly 1.0 (20191205) global exported from an instantiated module (wazero.Runtime InstantiateModule).
|
|
//
|
|
// For example, if the value is not mutable, you can read it once:
|
|
//
|
|
// offset := module.ExportedGlobal("memory.offset").Get()
|
|
//
|
|
// Globals are allowed by specification to be mutable. However, this can be disabled by configuration. When in doubt,
|
|
// safe cast to find out if the value can change. Here's an example:
|
|
//
|
|
// offset := module.ExportedGlobal("memory.offset")
|
|
// if _, ok := offset.(api.MutableGlobal); ok {
|
|
// // value can change
|
|
// } else {
|
|
// // value is constant
|
|
// }
|
|
//
|
|
// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#globals%E2%91%A0
|
|
//
|
|
// # Notes
|
|
//
|
|
// - This is an interface for decoupling, not third-party implementations.
|
|
// All implementations are in wazero.
|
|
type Global interface {
|
|
fmt.Stringer
|
|
|
|
// Type describes the numeric type of the global.
|
|
Type() ValueType
|
|
|
|
// Get returns the last known value of this global.
|
|
//
|
|
// See Type for how to decode this value to a Go type.
|
|
Get() uint64
|
|
}
|
|
|
|
// MutableGlobal is a Global whose value can be updated at runtime (variable).
|
|
//
|
|
// # Notes
|
|
//
|
|
// - This is an interface for decoupling, not third-party implementations.
|
|
// All implementations are in wazero.
|
|
type MutableGlobal interface {
|
|
Global
|
|
|
|
// Set updates the value of this global.
|
|
//
|
|
// See Global.Type for how to encode this value from a Go type.
|
|
Set(v uint64)
|
|
|
|
internalapi.WazeroOnly
|
|
}
|
|
|
|
// Memory allows restricted access to a module's memory. Notably, this does not allow growing.
|
|
//
|
|
// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#storage%E2%91%A0
|
|
//
|
|
// # Notes
|
|
//
|
|
// - This is an interface for decoupling, not third-party implementations.
|
|
// All implementations are in wazero.
|
|
// - This includes all value types available in WebAssembly 1.0 (20191205) and all are encoded little-endian.
|
|
type Memory interface {
|
|
// Definition is metadata about this memory from its defining module.
|
|
Definition() MemoryDefinition
|
|
|
|
// Size returns the memory size in bytes available.
|
|
// e.g. If the underlying memory has 1 page: 65536
|
|
//
|
|
// # Notes
|
|
//
|
|
// - This overflows (returns zero) if the memory has the maximum 65536 pages.
|
|
// As a workaround until wazero v2 to fix the return type, use Grow(0) to obtain the current pages and
|
|
// multiply by 65536.
|
|
//
|
|
// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#-hrefsyntax-instr-memorymathsfmemorysize%E2%91%A0
|
|
Size() uint32
|
|
|
|
// Grow increases memory by the delta in pages (65536 bytes per page).
|
|
// The return val is the previous memory size in pages, or false if the
|
|
// delta was ignored as it exceeds MemoryDefinition.Max.
|
|
//
|
|
// # Notes
|
|
//
|
|
// - This is the same as the "memory.grow" instruction defined in the
|
|
// WebAssembly Core Specification, except returns false instead of -1.
|
|
// - When this returns true, any shared views via Read must be refreshed.
|
|
//
|
|
// See MemorySizer Read and https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#grow-mem
|
|
Grow(deltaPages uint32) (previousPages uint32, ok bool)
|
|
|
|
// ReadByte reads a single byte from the underlying buffer at the offset or returns false if out of range.
|
|
ReadByte(offset uint32) (byte, bool)
|
|
|
|
// ReadUint16Le reads a uint16 in little-endian encoding from the underlying buffer at the offset in or returns
|
|
// false if out of range.
|
|
ReadUint16Le(offset uint32) (uint16, bool)
|
|
|
|
// ReadUint32Le reads a uint32 in little-endian encoding from the underlying buffer at the offset in or returns
|
|
// false if out of range.
|
|
ReadUint32Le(offset uint32) (uint32, bool)
|
|
|
|
// ReadFloat32Le reads a float32 from 32 IEEE 754 little-endian encoded bits in the underlying buffer at the offset
|
|
// or returns false if out of range.
|
|
// See math.Float32bits
|
|
ReadFloat32Le(offset uint32) (float32, bool)
|
|
|
|
// ReadUint64Le reads a uint64 in little-endian encoding from the underlying buffer at the offset or returns false
|
|
// if out of range.
|
|
ReadUint64Le(offset uint32) (uint64, bool)
|
|
|
|
// ReadFloat64Le reads a float64 from 64 IEEE 754 little-endian encoded bits in the underlying buffer at the offset
|
|
// or returns false if out of range.
|
|
//
|
|
// See math.Float64bits
|
|
ReadFloat64Le(offset uint32) (float64, bool)
|
|
|
|
// Read reads byteCount bytes from the underlying buffer at the offset or
|
|
// returns false if out of range.
|
|
//
|
|
// For example, to search for a NUL-terminated string:
|
|
// buf, _ = memory.Read(offset, byteCount)
|
|
// n := bytes.IndexByte(buf, 0)
|
|
// if n < 0 {
|
|
// // Not found!
|
|
// }
|
|
//
|
|
// Write-through
|
|
//
|
|
// This returns a view of the underlying memory, not a copy. This means any
|
|
// writes to the slice returned are visible to Wasm, and any updates from
|
|
// Wasm are visible reading the returned slice.
|
|
//
|
|
// For example:
|
|
// buf, _ = memory.Read(offset, byteCount)
|
|
// buf[1] = 'a' // writes through to memory, meaning Wasm code see 'a'.
|
|
//
|
|
// If you don't intend-write through, make a copy of the returned slice.
|
|
//
|
|
// When to refresh Read
|
|
//
|
|
// The returned slice disconnects on any capacity change. For example,
|
|
// `buf = append(buf, 'a')` might result in a slice that is no longer
|
|
// shared. The same exists Wasm side. For example, if Wasm changes its
|
|
// memory capacity, ex via "memory.grow"), the host slice is no longer
|
|
// shared. Those who need a stable view must set Wasm memory min=max, or
|
|
// use wazero.RuntimeConfig WithMemoryCapacityPages to ensure max is always
|
|
// allocated.
|
|
Read(offset, byteCount uint32) ([]byte, bool)
|
|
|
|
// WriteByte writes a single byte to the underlying buffer at the offset in or returns false if out of range.
|
|
WriteByte(offset uint32, v byte) bool
|
|
|
|
// WriteUint16Le writes the value in little-endian encoding to the underlying buffer at the offset in or returns
|
|
// false if out of range.
|
|
WriteUint16Le(offset uint32, v uint16) bool
|
|
|
|
// WriteUint32Le writes the value in little-endian encoding to the underlying buffer at the offset in or returns
|
|
// false if out of range.
|
|
WriteUint32Le(offset, v uint32) bool
|
|
|
|
// WriteFloat32Le writes the value in 32 IEEE 754 little-endian encoded bits to the underlying buffer at the offset
|
|
// or returns false if out of range.
|
|
//
|
|
// See math.Float32bits
|
|
WriteFloat32Le(offset uint32, v float32) bool
|
|
|
|
// WriteUint64Le writes the value in little-endian encoding to the underlying buffer at the offset in or returns
|
|
// false if out of range.
|
|
WriteUint64Le(offset uint32, v uint64) bool
|
|
|
|
// WriteFloat64Le writes the value in 64 IEEE 754 little-endian encoded bits to the underlying buffer at the offset
|
|
// or returns false if out of range.
|
|
//
|
|
// See math.Float64bits
|
|
WriteFloat64Le(offset uint32, v float64) bool
|
|
|
|
// Write writes the slice to the underlying buffer at the offset or returns false if out of range.
|
|
Write(offset uint32, v []byte) bool
|
|
|
|
// WriteString writes the string to the underlying buffer at the offset or returns false if out of range.
|
|
WriteString(offset uint32, v string) bool
|
|
|
|
internalapi.WazeroOnly
|
|
}
|
|
|
|
// CustomSection contains the name and raw data of a custom section.
|
|
//
|
|
// # Notes
|
|
//
|
|
// - This is an interface for decoupling, not third-party implementations.
|
|
// All implementations are in wazero.
|
|
type CustomSection interface {
|
|
// Name is the name of the custom section
|
|
Name() string
|
|
// Data is the raw data of the custom section
|
|
Data() []byte
|
|
|
|
internalapi.WazeroOnly
|
|
}
|
|
|
|
// EncodeExternref encodes the input as a ValueTypeExternref.
|
|
//
|
|
// See DecodeExternref
|
|
func EncodeExternref(input uintptr) uint64 {
|
|
return uint64(input)
|
|
}
|
|
|
|
// DecodeExternref decodes the input as a ValueTypeExternref.
|
|
//
|
|
// See EncodeExternref
|
|
func DecodeExternref(input uint64) uintptr {
|
|
return uintptr(input)
|
|
}
|
|
|
|
// EncodeI32 encodes the input as a ValueTypeI32.
|
|
func EncodeI32(input int32) uint64 {
|
|
return uint64(uint32(input))
|
|
}
|
|
|
|
// DecodeI32 decodes the input as a ValueTypeI32.
|
|
func DecodeI32(input uint64) int32 {
|
|
return int32(input)
|
|
}
|
|
|
|
// EncodeU32 encodes the input as a ValueTypeI32.
|
|
func EncodeU32(input uint32) uint64 {
|
|
return uint64(input)
|
|
}
|
|
|
|
// DecodeU32 decodes the input as a ValueTypeI32.
|
|
func DecodeU32(input uint64) uint32 {
|
|
return uint32(input)
|
|
}
|
|
|
|
// EncodeI64 encodes the input as a ValueTypeI64.
|
|
func EncodeI64(input int64) uint64 {
|
|
return uint64(input)
|
|
}
|
|
|
|
// EncodeF32 encodes the input as a ValueTypeF32.
|
|
//
|
|
// See DecodeF32
|
|
func EncodeF32(input float32) uint64 {
|
|
return uint64(math.Float32bits(input))
|
|
}
|
|
|
|
// DecodeF32 decodes the input as a ValueTypeF32.
|
|
//
|
|
// See EncodeF32
|
|
func DecodeF32(input uint64) float32 {
|
|
return math.Float32frombits(uint32(input))
|
|
}
|
|
|
|
// EncodeF64 encodes the input as a ValueTypeF64.
|
|
//
|
|
// See EncodeF32
|
|
func EncodeF64(input float64) uint64 {
|
|
return math.Float64bits(input)
|
|
}
|
|
|
|
// DecodeF64 decodes the input as a ValueTypeF64.
|
|
//
|
|
// See EncodeF64
|
|
func DecodeF64(input uint64) float64 {
|
|
return math.Float64frombits(input)
|
|
}
|