mirror of
https://github.com/superseriousbusiness/gotosocial.git
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888 lines
33 KiB
Go
888 lines
33 KiB
Go
package wazero
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import (
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"context"
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"errors"
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"fmt"
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"io"
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"io/fs"
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"math"
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"net"
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"time"
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"github.com/tetratelabs/wazero/api"
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experimentalsys "github.com/tetratelabs/wazero/experimental/sys"
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"github.com/tetratelabs/wazero/internal/engine/interpreter"
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"github.com/tetratelabs/wazero/internal/engine/wazevo"
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"github.com/tetratelabs/wazero/internal/filecache"
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"github.com/tetratelabs/wazero/internal/internalapi"
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"github.com/tetratelabs/wazero/internal/platform"
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internalsock "github.com/tetratelabs/wazero/internal/sock"
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internalsys "github.com/tetratelabs/wazero/internal/sys"
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"github.com/tetratelabs/wazero/internal/wasm"
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"github.com/tetratelabs/wazero/sys"
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)
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// RuntimeConfig controls runtime behavior, with the default implementation as
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// NewRuntimeConfig
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//
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// The example below explicitly limits to Wasm Core 1.0 features as opposed to
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// relying on defaults:
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//
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// rConfig = wazero.NewRuntimeConfig().WithCoreFeatures(api.CoreFeaturesV1)
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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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// - RuntimeConfig is immutable. Each WithXXX function returns a new instance
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// including the corresponding change.
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type RuntimeConfig interface {
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// WithCoreFeatures sets the WebAssembly Core specification features this
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// runtime supports. Defaults to api.CoreFeaturesV2.
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//
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// Example of disabling a specific feature:
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// features := api.CoreFeaturesV2.SetEnabled(api.CoreFeatureMutableGlobal, false)
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// rConfig = wazero.NewRuntimeConfig().WithCoreFeatures(features)
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//
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// # Why default to version 2.0?
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//
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// Many compilers that target WebAssembly require features after
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// api.CoreFeaturesV1 by default. For example, TinyGo v0.24+ requires
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// api.CoreFeatureBulkMemoryOperations. To avoid runtime errors, wazero
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// defaults to api.CoreFeaturesV2, even though it is not yet a Web
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// Standard (REC).
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WithCoreFeatures(api.CoreFeatures) RuntimeConfig
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// WithMemoryLimitPages overrides the maximum pages allowed per memory. The
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// default is 65536, allowing 4GB total memory per instance if the maximum is
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// not encoded in a Wasm binary. Setting a value larger than default will panic.
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//
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// This example reduces the largest possible memory size from 4GB to 128KB:
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// rConfig = wazero.NewRuntimeConfig().WithMemoryLimitPages(2)
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//
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// Note: Wasm has 32-bit memory and each page is 65536 (2^16) bytes. This
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// implies a max of 65536 (2^16) addressable pages.
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#grow-mem
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WithMemoryLimitPages(memoryLimitPages uint32) RuntimeConfig
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// WithMemoryCapacityFromMax eagerly allocates max memory, unless max is
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// not defined. The default is false, which means minimum memory is
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// allocated and any call to grow memory results in re-allocations.
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//
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// This example ensures any memory.grow instruction will never re-allocate:
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// rConfig = wazero.NewRuntimeConfig().WithMemoryCapacityFromMax(true)
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//
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#grow-mem
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//
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// Note: if the memory maximum is not encoded in a Wasm binary, this
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// results in allocating 4GB. See the doc on WithMemoryLimitPages for detail.
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WithMemoryCapacityFromMax(memoryCapacityFromMax bool) RuntimeConfig
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// WithDebugInfoEnabled toggles DWARF based stack traces in the face of
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// runtime errors. Defaults to true.
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//
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// Those who wish to disable this, can like so:
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//
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// r := wazero.NewRuntimeWithConfig(wazero.NewRuntimeConfig().WithDebugInfoEnabled(false)
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//
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// When disabled, a stack trace message looks like:
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//
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// wasm stack trace:
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// .runtime._panic(i32)
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// .myFunc()
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// .main.main()
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// .runtime.run()
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// ._start()
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//
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// When enabled, the stack trace includes source code information:
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//
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// wasm stack trace:
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// .runtime._panic(i32)
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// 0x16e2: /opt/homebrew/Cellar/tinygo/0.26.0/src/runtime/runtime_tinygowasm.go:73:6
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// .myFunc()
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// 0x190b: /Users/XXXXX/wazero/internal/testing/dwarftestdata/testdata/main.go:19:7
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// .main.main()
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// 0x18ed: /Users/XXXXX/wazero/internal/testing/dwarftestdata/testdata/main.go:4:3
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// .runtime.run()
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// 0x18cc: /opt/homebrew/Cellar/tinygo/0.26.0/src/runtime/scheduler_none.go:26:10
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// ._start()
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// 0x18b6: /opt/homebrew/Cellar/tinygo/0.26.0/src/runtime/runtime_wasm_wasi.go:22:5
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//
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// Note: This only takes into effect when the original Wasm binary has the
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// DWARF "custom sections" that are often stripped, depending on
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// optimization flags passed to the compiler.
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WithDebugInfoEnabled(bool) RuntimeConfig
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// WithCompilationCache configures how runtime caches the compiled modules. In the default configuration, compilation results are
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// only in-memory until Runtime.Close is closed, and not shareable by multiple Runtime.
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//
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// Below defines the shared cache across multiple instances of Runtime:
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//
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// // Creates the new Cache and the runtime configuration with it.
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// cache := wazero.NewCompilationCache()
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// defer cache.Close()
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// config := wazero.NewRuntimeConfig().WithCompilationCache(c)
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//
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// // Creates two runtimes while sharing compilation caches.
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// foo := wazero.NewRuntimeWithConfig(context.Background(), config)
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// bar := wazero.NewRuntimeWithConfig(context.Background(), config)
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//
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// # Cache Key
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//
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// Cached files are keyed on the version of wazero. This is obtained from go.mod of your application,
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// and we use it to verify the compatibility of caches against the currently-running wazero.
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// However, if you use this in tests of a package not named as `main`, then wazero cannot obtain the correct
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// version of wazero due to the known issue of debug.BuildInfo function: https://github.com/golang/go/issues/33976.
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// As a consequence, your cache won't contain the correct version information and always be treated as `dev` version.
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// To avoid this issue, you can pass -ldflags "-X github.com/tetratelabs/wazero/internal/version.version=foo" when running tests.
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WithCompilationCache(CompilationCache) RuntimeConfig
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// WithCustomSections toggles parsing of "custom sections". Defaults to false.
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//
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// When enabled, it is possible to retrieve custom sections from a CompiledModule:
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//
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// config := wazero.NewRuntimeConfig().WithCustomSections(true)
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// r := wazero.NewRuntimeWithConfig(ctx, config)
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// c, err := r.CompileModule(ctx, wasm)
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// customSections := c.CustomSections()
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WithCustomSections(bool) RuntimeConfig
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// WithCloseOnContextDone ensures the executions of functions to be terminated under one of the following circumstances:
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//
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// - context.Context passed to the Call method of api.Function is canceled during execution. (i.e. ctx by context.WithCancel)
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// - context.Context passed to the Call method of api.Function reaches timeout during execution. (i.e. ctx by context.WithTimeout or context.WithDeadline)
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// - Close or CloseWithExitCode of api.Module is explicitly called during execution.
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//
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// This is especially useful when one wants to run untrusted Wasm binaries since otherwise, any invocation of
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// api.Function can potentially block the corresponding Goroutine forever. Moreover, it might block the
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// entire underlying OS thread which runs the api.Function call. See "Why it's safe to execute runtime-generated
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// machine codes against async Goroutine preemption" section in RATIONALE.md for detail.
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//
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// Upon the termination of the function executions, api.Module is closed.
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//
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// Note that this comes with a bit of extra cost when enabled. The reason is that internally this forces
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// interpreter and compiler runtimes to insert the periodical checks on the conditions above. For that reason,
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// this is disabled by default.
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//
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// See examples in context_done_example_test.go for the end-to-end demonstrations.
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//
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// When the invocations of api.Function are closed due to this, sys.ExitError is raised to the callers and
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// the api.Module from which the functions are derived is made closed.
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WithCloseOnContextDone(bool) RuntimeConfig
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}
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// NewRuntimeConfig returns a RuntimeConfig using the compiler if it is supported in this environment,
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// or the interpreter otherwise.
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func NewRuntimeConfig() RuntimeConfig {
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return newRuntimeConfig()
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}
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type newEngine func(context.Context, api.CoreFeatures, filecache.Cache) wasm.Engine
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type runtimeConfig struct {
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enabledFeatures api.CoreFeatures
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memoryLimitPages uint32
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memoryCapacityFromMax bool
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engineKind engineKind
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dwarfDisabled bool // negative as defaults to enabled
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newEngine newEngine
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cache CompilationCache
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storeCustomSections bool
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ensureTermination bool
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}
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// engineLessConfig helps avoid copy/pasting the wrong defaults.
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var engineLessConfig = &runtimeConfig{
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enabledFeatures: api.CoreFeaturesV2,
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memoryLimitPages: wasm.MemoryLimitPages,
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memoryCapacityFromMax: false,
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dwarfDisabled: false,
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}
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type engineKind int
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const (
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engineKindCompiler engineKind = iota
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engineKindInterpreter
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engineKindCount
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)
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// NewRuntimeConfigCompiler compiles WebAssembly modules into
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// runtime.GOARCH-specific assembly for optimal performance.
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//
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// The default implementation is AOT (Ahead of Time) compilation, applied at
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// Runtime.CompileModule. This allows consistent runtime performance, as well
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// the ability to reduce any first request penalty.
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//
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// Note: While this is technically AOT, this does not imply any action on your
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// part. wazero automatically performs ahead-of-time compilation as needed when
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// Runtime.CompileModule is invoked.
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//
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// # Warning
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//
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// - This panics at runtime if the runtime.GOOS or runtime.GOARCH does not
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// support compiler. Use NewRuntimeConfig to safely detect and fallback to
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// NewRuntimeConfigInterpreter if needed.
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//
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// - If you are using wazero in buildmode=c-archive or c-shared, make sure that you set up the alternate signal stack
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// by using, e.g. `sigaltstack` combined with `SA_ONSTACK` flag on `sigaction` on Linux,
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// before calling any api.Function. This is because the Go runtime does not set up the alternate signal stack
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// for c-archive or c-shared modes, and wazero uses the different stack than the calling Goroutine.
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// Hence, the signal handler might get invoked on the wazero's stack, which may cause a stack overflow.
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// https://github.com/tetratelabs/wazero/blob/2092c0a879f30d49d7b37f333f4547574b8afe0d/internal/integration_test/fuzz/fuzz/tests/sigstack.rs#L19-L36
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func NewRuntimeConfigCompiler() RuntimeConfig {
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ret := engineLessConfig.clone()
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ret.engineKind = engineKindCompiler
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ret.newEngine = wazevo.NewEngine
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return ret
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}
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// NewRuntimeConfigInterpreter interprets WebAssembly modules instead of compiling them into assembly.
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func NewRuntimeConfigInterpreter() RuntimeConfig {
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ret := engineLessConfig.clone()
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ret.engineKind = engineKindInterpreter
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ret.newEngine = interpreter.NewEngine
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return ret
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}
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// clone makes a deep copy of this runtime config.
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func (c *runtimeConfig) clone() *runtimeConfig {
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ret := *c // copy except maps which share a ref
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return &ret
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}
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// WithCoreFeatures implements RuntimeConfig.WithCoreFeatures
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func (c *runtimeConfig) WithCoreFeatures(features api.CoreFeatures) RuntimeConfig {
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ret := c.clone()
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ret.enabledFeatures = features
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return ret
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}
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// WithCloseOnContextDone implements RuntimeConfig.WithCloseOnContextDone
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func (c *runtimeConfig) WithCloseOnContextDone(ensure bool) RuntimeConfig {
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ret := c.clone()
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ret.ensureTermination = ensure
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return ret
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}
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// WithMemoryLimitPages implements RuntimeConfig.WithMemoryLimitPages
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func (c *runtimeConfig) WithMemoryLimitPages(memoryLimitPages uint32) RuntimeConfig {
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ret := c.clone()
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// This panics instead of returning an error as it is unlikely.
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if memoryLimitPages > wasm.MemoryLimitPages {
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panic(fmt.Errorf("memoryLimitPages invalid: %d > %d", memoryLimitPages, wasm.MemoryLimitPages))
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}
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ret.memoryLimitPages = memoryLimitPages
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return ret
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}
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// WithCompilationCache implements RuntimeConfig.WithCompilationCache
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func (c *runtimeConfig) WithCompilationCache(ca CompilationCache) RuntimeConfig {
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ret := c.clone()
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ret.cache = ca
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return ret
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}
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// WithMemoryCapacityFromMax implements RuntimeConfig.WithMemoryCapacityFromMax
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func (c *runtimeConfig) WithMemoryCapacityFromMax(memoryCapacityFromMax bool) RuntimeConfig {
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ret := c.clone()
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ret.memoryCapacityFromMax = memoryCapacityFromMax
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return ret
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}
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// WithDebugInfoEnabled implements RuntimeConfig.WithDebugInfoEnabled
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func (c *runtimeConfig) WithDebugInfoEnabled(dwarfEnabled bool) RuntimeConfig {
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ret := c.clone()
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ret.dwarfDisabled = !dwarfEnabled
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return ret
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}
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// WithCustomSections implements RuntimeConfig.WithCustomSections
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func (c *runtimeConfig) WithCustomSections(storeCustomSections bool) RuntimeConfig {
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ret := c.clone()
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ret.storeCustomSections = storeCustomSections
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return ret
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}
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// CompiledModule is a WebAssembly module ready to be instantiated (Runtime.InstantiateModule) as an api.Module.
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//
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// In WebAssembly terminology, this is a decoded, validated, and possibly also compiled module. wazero avoids using
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// the name "Module" for both before and after instantiation as the name conflation has caused confusion.
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// See https://www.w3.org/TR/2019/REC-wasm-core-1-20191205/#semantic-phases%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 CompiledModule it compiled.
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type CompiledModule interface {
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// Name returns the module name encoded into the binary or empty if not.
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Name() string
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// ImportedFunctions returns all the imported functions
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// (api.FunctionDefinition) in this module or nil if there are none.
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//
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// Note: Unlike ExportedFunctions, there is no unique constraint on
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// imports.
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ImportedFunctions() []api.FunctionDefinition
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// ExportedFunctions returns all the exported functions
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// (api.FunctionDefinition) in this module keyed on export name.
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ExportedFunctions() map[string]api.FunctionDefinition
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// ImportedMemories returns all the imported memories
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// (api.MemoryDefinition) in this module or nil if there are none.
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//
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// ## Notes
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// - As of WebAssembly Core Specification 2.0, there can be at most one
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// memory.
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// - Unlike ExportedMemories, there is no unique constraint on imports.
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ImportedMemories() []api.MemoryDefinition
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// ExportedMemories returns all the exported memories
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// (api.MemoryDefinition) 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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ExportedMemories() map[string]api.MemoryDefinition
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// CustomSections returns all the custom sections
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// (api.CustomSection) in this module keyed on the section name.
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CustomSections() []api.CustomSection
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// Close releases all the allocated resources for this CompiledModule.
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//
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// Note: It is safe to call Close while having outstanding calls from an
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// api.Module instantiated from this.
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Close(context.Context) error
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}
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// compile-time check to ensure compiledModule implements CompiledModule
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var _ CompiledModule = &compiledModule{}
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type compiledModule struct {
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module *wasm.Module
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// compiledEngine holds an engine on which `module` is compiled.
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compiledEngine wasm.Engine
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// closeWithModule prevents leaking compiled code when a module is compiled implicitly.
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closeWithModule bool
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typeIDs []wasm.FunctionTypeID
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}
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// Name implements CompiledModule.Name
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func (c *compiledModule) Name() (moduleName string) {
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if ns := c.module.NameSection; ns != nil {
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moduleName = ns.ModuleName
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}
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return
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}
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// Close implements CompiledModule.Close
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func (c *compiledModule) Close(context.Context) error {
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c.compiledEngine.DeleteCompiledModule(c.module)
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// It is possible the underlying may need to return an error later, but in any case this matches api.Module.Close.
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return nil
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}
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// ImportedFunctions implements CompiledModule.ImportedFunctions
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func (c *compiledModule) ImportedFunctions() []api.FunctionDefinition {
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return c.module.ImportedFunctions()
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}
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// ExportedFunctions implements CompiledModule.ExportedFunctions
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func (c *compiledModule) ExportedFunctions() map[string]api.FunctionDefinition {
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return c.module.ExportedFunctions()
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}
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// ImportedMemories implements CompiledModule.ImportedMemories
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func (c *compiledModule) ImportedMemories() []api.MemoryDefinition {
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return c.module.ImportedMemories()
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}
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// ExportedMemories implements CompiledModule.ExportedMemories
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func (c *compiledModule) ExportedMemories() map[string]api.MemoryDefinition {
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return c.module.ExportedMemories()
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}
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// CustomSections implements CompiledModule.CustomSections
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func (c *compiledModule) CustomSections() []api.CustomSection {
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ret := make([]api.CustomSection, len(c.module.CustomSections))
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for i, d := range c.module.CustomSections {
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ret[i] = &customSection{data: d.Data, name: d.Name}
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}
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return ret
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}
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// customSection implements wasm.CustomSection
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type customSection struct {
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internalapi.WazeroOnlyType
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name string
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data []byte
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}
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// Name implements wasm.CustomSection.Name
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func (c *customSection) Name() string {
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return c.name
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}
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// Data implements wasm.CustomSection.Data
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func (c *customSection) Data() []byte {
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return c.data
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}
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// ModuleConfig configures resources needed by functions that have low-level interactions with the host operating
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// system. Using this, resources such as STDIN can be isolated, so that the same module can be safely instantiated
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// multiple times.
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//
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// Here's an example:
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//
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// // Initialize base configuration:
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// config := wazero.NewModuleConfig().WithStdout(buf).WithSysNanotime()
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//
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// // Assign different configuration on each instantiation
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// mod, _ := r.InstantiateModule(ctx, compiled, config.WithName("rotate").WithArgs("rotate", "angle=90", "dir=cw"))
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//
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// While wazero supports Windows as a platform, host functions using ModuleConfig follow a UNIX dialect.
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// See RATIONALE.md for design background and relationship to WebAssembly System Interfaces (WASI).
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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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// - ModuleConfig is immutable. Each WithXXX function returns a new instance
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// including the corresponding change.
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type ModuleConfig interface {
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// WithArgs assigns command-line arguments visible to an imported function that reads an arg vector (argv). Defaults to
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// none. Runtime.InstantiateModule errs if any arg is empty.
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//
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// These values are commonly read by the functions like "args_get" in "wasi_snapshot_preview1" although they could be
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// read by functions imported from other modules.
|
|
//
|
|
// Similar to os.Args and exec.Cmd Env, many implementations would expect a program name to be argv[0]. However, neither
|
|
// WebAssembly nor WebAssembly System Interfaces (WASI) define this. Regardless, you may choose to set the first
|
|
// argument to the same value set via WithName.
|
|
//
|
|
// Note: This does not default to os.Args as that violates sandboxing.
|
|
//
|
|
// See https://linux.die.net/man/3/argv and https://en.wikipedia.org/wiki/Null-terminated_string
|
|
WithArgs(...string) ModuleConfig
|
|
|
|
// WithEnv sets an environment variable visible to a Module that imports functions. Defaults to none.
|
|
// Runtime.InstantiateModule errs if the key is empty or contains a NULL(0) or equals("") character.
|
|
//
|
|
// Validation is the same as os.Setenv on Linux and replaces any existing value. Unlike exec.Cmd Env, this does not
|
|
// default to the current process environment as that would violate sandboxing. This also does not preserve order.
|
|
//
|
|
// Environment variables are commonly read by the functions like "environ_get" in "wasi_snapshot_preview1" although
|
|
// they could be read by functions imported from other modules.
|
|
//
|
|
// While similar to process configuration, there are no assumptions that can be made about anything OS-specific. For
|
|
// example, neither WebAssembly nor WebAssembly System Interfaces (WASI) define concerns processes have, such as
|
|
// case-sensitivity on environment keys. For portability, define entries with case-insensitively unique keys.
|
|
//
|
|
// See https://linux.die.net/man/3/environ and https://en.wikipedia.org/wiki/Null-terminated_string
|
|
WithEnv(key, value string) ModuleConfig
|
|
|
|
// WithFS is a convenience that calls WithFSConfig with an FSConfig of the
|
|
// input for the root ("/") guest path.
|
|
WithFS(fs.FS) ModuleConfig
|
|
|
|
// WithFSConfig configures the filesystem available to each guest
|
|
// instantiated with this configuration. By default, no file access is
|
|
// allowed, so functions like `path_open` result in unsupported errors
|
|
// (e.g. syscall.ENOSYS).
|
|
WithFSConfig(FSConfig) ModuleConfig
|
|
|
|
// WithName configures the module name. Defaults to what was decoded from
|
|
// the name section. Empty string ("") clears any name.
|
|
WithName(string) ModuleConfig
|
|
|
|
// WithStartFunctions configures the functions to call after the module is
|
|
// instantiated. Defaults to "_start".
|
|
//
|
|
// Clearing the default is supported, via `WithStartFunctions()`.
|
|
//
|
|
// # Notes
|
|
//
|
|
// - If a start function doesn't exist, it is skipped. However, any that
|
|
// do exist are called in order.
|
|
// - Start functions are not intended to be called multiple times.
|
|
// Functions that should be called multiple times should be invoked
|
|
// manually via api.Module's `ExportedFunction` method.
|
|
// - Start functions commonly exit the module during instantiation,
|
|
// preventing use of any functions later. This is the case in "wasip1",
|
|
// which defines the default value "_start".
|
|
// - See /RATIONALE.md for motivation of this feature.
|
|
WithStartFunctions(...string) ModuleConfig
|
|
|
|
// WithStderr configures where standard error (file descriptor 2) is written. Defaults to io.Discard.
|
|
//
|
|
// This writer is most commonly used by the functions like "fd_write" in "wasi_snapshot_preview1" although it could
|
|
// be used by functions imported from other modules.
|
|
//
|
|
// # Notes
|
|
//
|
|
// - The caller is responsible to close any io.Writer they supply: It is not closed on api.Module Close.
|
|
// - This does not default to os.Stderr as that both violates sandboxing and prevents concurrent modules.
|
|
//
|
|
// See https://linux.die.net/man/3/stderr
|
|
WithStderr(io.Writer) ModuleConfig
|
|
|
|
// WithStdin configures where standard input (file descriptor 0) is read. Defaults to return io.EOF.
|
|
//
|
|
// This reader is most commonly used by the functions like "fd_read" in "wasi_snapshot_preview1" although it could
|
|
// be used by functions imported from other modules.
|
|
//
|
|
// # Notes
|
|
//
|
|
// - The caller is responsible to close any io.Reader they supply: It is not closed on api.Module Close.
|
|
// - This does not default to os.Stdin as that both violates sandboxing and prevents concurrent modules.
|
|
//
|
|
// See https://linux.die.net/man/3/stdin
|
|
WithStdin(io.Reader) ModuleConfig
|
|
|
|
// WithStdout configures where standard output (file descriptor 1) is written. Defaults to io.Discard.
|
|
//
|
|
// This writer is most commonly used by the functions like "fd_write" in "wasi_snapshot_preview1" although it could
|
|
// be used by functions imported from other modules.
|
|
//
|
|
// # Notes
|
|
//
|
|
// - The caller is responsible to close any io.Writer they supply: It is not closed on api.Module Close.
|
|
// - This does not default to os.Stdout as that both violates sandboxing and prevents concurrent modules.
|
|
//
|
|
// See https://linux.die.net/man/3/stdout
|
|
WithStdout(io.Writer) ModuleConfig
|
|
|
|
// WithWalltime configures the wall clock, sometimes referred to as the
|
|
// real time clock. sys.Walltime returns the current unix/epoch time,
|
|
// seconds since midnight UTC 1 January 1970, with a nanosecond fraction.
|
|
// This defaults to a fake result that increases by 1ms on each reading.
|
|
//
|
|
// Here's an example that uses a custom clock:
|
|
// moduleConfig = moduleConfig.
|
|
// WithWalltime(func(context.Context) (sec int64, nsec int32) {
|
|
// return clock.walltime()
|
|
// }, sys.ClockResolution(time.Microsecond.Nanoseconds()))
|
|
//
|
|
// # Notes:
|
|
// - This does not default to time.Now as that violates sandboxing.
|
|
// - This is used to implement host functions such as WASI
|
|
// `clock_time_get` with the `realtime` clock ID.
|
|
// - Use WithSysWalltime for a usable implementation.
|
|
WithWalltime(sys.Walltime, sys.ClockResolution) ModuleConfig
|
|
|
|
// WithSysWalltime uses time.Now for sys.Walltime with a resolution of 1us
|
|
// (1000ns).
|
|
//
|
|
// See WithWalltime
|
|
WithSysWalltime() ModuleConfig
|
|
|
|
// WithNanotime configures the monotonic clock, used to measure elapsed
|
|
// time in nanoseconds. Defaults to a fake result that increases by 1ms
|
|
// on each reading.
|
|
//
|
|
// Here's an example that uses a custom clock:
|
|
// moduleConfig = moduleConfig.
|
|
// WithNanotime(func(context.Context) int64 {
|
|
// return clock.nanotime()
|
|
// }, sys.ClockResolution(time.Microsecond.Nanoseconds()))
|
|
//
|
|
// # Notes:
|
|
// - This does not default to time.Since as that violates sandboxing.
|
|
// - This is used to implement host functions such as WASI
|
|
// `clock_time_get` with the `monotonic` clock ID.
|
|
// - Some compilers implement sleep by looping on sys.Nanotime (e.g. Go).
|
|
// - If you set this, you should probably set WithNanosleep also.
|
|
// - Use WithSysNanotime for a usable implementation.
|
|
WithNanotime(sys.Nanotime, sys.ClockResolution) ModuleConfig
|
|
|
|
// WithSysNanotime uses time.Now for sys.Nanotime with a resolution of 1us.
|
|
//
|
|
// See WithNanotime
|
|
WithSysNanotime() ModuleConfig
|
|
|
|
// WithNanosleep configures the how to pause the current goroutine for at
|
|
// least the configured nanoseconds. Defaults to return immediately.
|
|
//
|
|
// This example uses a custom sleep function:
|
|
// moduleConfig = moduleConfig.
|
|
// WithNanosleep(func(ns int64) {
|
|
// rel := unix.NsecToTimespec(ns)
|
|
// remain := unix.Timespec{}
|
|
// for { // loop until no more time remaining
|
|
// err := unix.ClockNanosleep(unix.CLOCK_MONOTONIC, 0, &rel, &remain)
|
|
// --snip--
|
|
//
|
|
// # Notes:
|
|
// - This does not default to time.Sleep as that violates sandboxing.
|
|
// - This is used to implement host functions such as WASI `poll_oneoff`.
|
|
// - Some compilers implement sleep by looping on sys.Nanotime (e.g. Go).
|
|
// - If you set this, you should probably set WithNanotime also.
|
|
// - Use WithSysNanosleep for a usable implementation.
|
|
WithNanosleep(sys.Nanosleep) ModuleConfig
|
|
|
|
// WithOsyield yields the processor, typically to implement spin-wait
|
|
// loops. Defaults to return immediately.
|
|
//
|
|
// # Notes:
|
|
// - This primarily supports `sched_yield` in WASI
|
|
// - This does not default to runtime.osyield as that violates sandboxing.
|
|
WithOsyield(sys.Osyield) ModuleConfig
|
|
|
|
// WithSysNanosleep uses time.Sleep for sys.Nanosleep.
|
|
//
|
|
// See WithNanosleep
|
|
WithSysNanosleep() ModuleConfig
|
|
|
|
// WithRandSource configures a source of random bytes. Defaults to return a
|
|
// deterministic source. You might override this with crypto/rand.Reader
|
|
//
|
|
// This reader is most commonly used by the functions like "random_get" in
|
|
// "wasi_snapshot_preview1", "seed" in AssemblyScript standard "env", and
|
|
// "getRandomData" when runtime.GOOS is "js".
|
|
//
|
|
// Note: The caller is responsible to close any io.Reader they supply: It
|
|
// is not closed on api.Module Close.
|
|
WithRandSource(io.Reader) ModuleConfig
|
|
}
|
|
|
|
type moduleConfig struct {
|
|
name string
|
|
nameSet bool
|
|
startFunctions []string
|
|
stdin io.Reader
|
|
stdout io.Writer
|
|
stderr io.Writer
|
|
randSource io.Reader
|
|
walltime sys.Walltime
|
|
walltimeResolution sys.ClockResolution
|
|
nanotime sys.Nanotime
|
|
nanotimeResolution sys.ClockResolution
|
|
nanosleep sys.Nanosleep
|
|
osyield sys.Osyield
|
|
args [][]byte
|
|
// environ is pair-indexed to retain order similar to os.Environ.
|
|
environ [][]byte
|
|
// environKeys allow overwriting of existing values.
|
|
environKeys map[string]int
|
|
// fsConfig is the file system configuration for ABI like WASI.
|
|
fsConfig FSConfig
|
|
// sockConfig is the network listener configuration for ABI like WASI.
|
|
sockConfig *internalsock.Config
|
|
}
|
|
|
|
// NewModuleConfig returns a ModuleConfig that can be used for configuring module instantiation.
|
|
func NewModuleConfig() ModuleConfig {
|
|
return &moduleConfig{
|
|
startFunctions: []string{"_start"},
|
|
environKeys: map[string]int{},
|
|
}
|
|
}
|
|
|
|
// clone makes a deep copy of this module config.
|
|
func (c *moduleConfig) clone() *moduleConfig {
|
|
ret := *c // copy except maps which share a ref
|
|
ret.environKeys = make(map[string]int, len(c.environKeys))
|
|
for key, value := range c.environKeys {
|
|
ret.environKeys[key] = value
|
|
}
|
|
return &ret
|
|
}
|
|
|
|
// WithArgs implements ModuleConfig.WithArgs
|
|
func (c *moduleConfig) WithArgs(args ...string) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.args = toByteSlices(args)
|
|
return ret
|
|
}
|
|
|
|
func toByteSlices(strings []string) (result [][]byte) {
|
|
if len(strings) == 0 {
|
|
return
|
|
}
|
|
result = make([][]byte, len(strings))
|
|
for i, a := range strings {
|
|
result[i] = []byte(a)
|
|
}
|
|
return
|
|
}
|
|
|
|
// WithEnv implements ModuleConfig.WithEnv
|
|
func (c *moduleConfig) WithEnv(key, value string) ModuleConfig {
|
|
ret := c.clone()
|
|
// Check to see if this key already exists and update it.
|
|
if i, ok := ret.environKeys[key]; ok {
|
|
ret.environ[i+1] = []byte(value) // environ is pair-indexed, so the value is 1 after the key.
|
|
} else {
|
|
ret.environKeys[key] = len(ret.environ)
|
|
ret.environ = append(ret.environ, []byte(key), []byte(value))
|
|
}
|
|
return ret
|
|
}
|
|
|
|
// WithFS implements ModuleConfig.WithFS
|
|
func (c *moduleConfig) WithFS(fs fs.FS) ModuleConfig {
|
|
var config FSConfig
|
|
if fs != nil {
|
|
config = NewFSConfig().WithFSMount(fs, "")
|
|
}
|
|
return c.WithFSConfig(config)
|
|
}
|
|
|
|
// WithFSConfig implements ModuleConfig.WithFSConfig
|
|
func (c *moduleConfig) WithFSConfig(config FSConfig) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.fsConfig = config
|
|
return ret
|
|
}
|
|
|
|
// WithName implements ModuleConfig.WithName
|
|
func (c *moduleConfig) WithName(name string) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.nameSet = true
|
|
ret.name = name
|
|
return ret
|
|
}
|
|
|
|
// WithStartFunctions implements ModuleConfig.WithStartFunctions
|
|
func (c *moduleConfig) WithStartFunctions(startFunctions ...string) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.startFunctions = startFunctions
|
|
return ret
|
|
}
|
|
|
|
// WithStderr implements ModuleConfig.WithStderr
|
|
func (c *moduleConfig) WithStderr(stderr io.Writer) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.stderr = stderr
|
|
return ret
|
|
}
|
|
|
|
// WithStdin implements ModuleConfig.WithStdin
|
|
func (c *moduleConfig) WithStdin(stdin io.Reader) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.stdin = stdin
|
|
return ret
|
|
}
|
|
|
|
// WithStdout implements ModuleConfig.WithStdout
|
|
func (c *moduleConfig) WithStdout(stdout io.Writer) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.stdout = stdout
|
|
return ret
|
|
}
|
|
|
|
// WithWalltime implements ModuleConfig.WithWalltime
|
|
func (c *moduleConfig) WithWalltime(walltime sys.Walltime, resolution sys.ClockResolution) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.walltime = walltime
|
|
ret.walltimeResolution = resolution
|
|
return ret
|
|
}
|
|
|
|
// We choose arbitrary resolutions here because there's no perfect alternative. For example, according to the
|
|
// source in time.go, windows monotonic resolution can be 15ms. This chooses arbitrarily 1us for wall time and
|
|
// 1ns for monotonic. See RATIONALE.md for more context.
|
|
|
|
// WithSysWalltime implements ModuleConfig.WithSysWalltime
|
|
func (c *moduleConfig) WithSysWalltime() ModuleConfig {
|
|
return c.WithWalltime(platform.Walltime, sys.ClockResolution(time.Microsecond.Nanoseconds()))
|
|
}
|
|
|
|
// WithNanotime implements ModuleConfig.WithNanotime
|
|
func (c *moduleConfig) WithNanotime(nanotime sys.Nanotime, resolution sys.ClockResolution) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.nanotime = nanotime
|
|
ret.nanotimeResolution = resolution
|
|
return ret
|
|
}
|
|
|
|
// WithSysNanotime implements ModuleConfig.WithSysNanotime
|
|
func (c *moduleConfig) WithSysNanotime() ModuleConfig {
|
|
return c.WithNanotime(platform.Nanotime, sys.ClockResolution(1))
|
|
}
|
|
|
|
// WithNanosleep implements ModuleConfig.WithNanosleep
|
|
func (c *moduleConfig) WithNanosleep(nanosleep sys.Nanosleep) ModuleConfig {
|
|
ret := *c // copy
|
|
ret.nanosleep = nanosleep
|
|
return &ret
|
|
}
|
|
|
|
// WithOsyield implements ModuleConfig.WithOsyield
|
|
func (c *moduleConfig) WithOsyield(osyield sys.Osyield) ModuleConfig {
|
|
ret := *c // copy
|
|
ret.osyield = osyield
|
|
return &ret
|
|
}
|
|
|
|
// WithSysNanosleep implements ModuleConfig.WithSysNanosleep
|
|
func (c *moduleConfig) WithSysNanosleep() ModuleConfig {
|
|
return c.WithNanosleep(platform.Nanosleep)
|
|
}
|
|
|
|
// WithRandSource implements ModuleConfig.WithRandSource
|
|
func (c *moduleConfig) WithRandSource(source io.Reader) ModuleConfig {
|
|
ret := c.clone()
|
|
ret.randSource = source
|
|
return ret
|
|
}
|
|
|
|
// toSysContext creates a baseline wasm.Context configured by ModuleConfig.
|
|
func (c *moduleConfig) toSysContext() (sysCtx *internalsys.Context, err error) {
|
|
var environ [][]byte // Intentionally doesn't pre-allocate to reduce logic to default to nil.
|
|
// Same validation as syscall.Setenv for Linux
|
|
for i := 0; i < len(c.environ); i += 2 {
|
|
key, value := c.environ[i], c.environ[i+1]
|
|
keyLen := len(key)
|
|
if keyLen == 0 {
|
|
err = errors.New("environ invalid: empty key")
|
|
return
|
|
}
|
|
valueLen := len(value)
|
|
result := make([]byte, keyLen+valueLen+1)
|
|
j := 0
|
|
for ; j < keyLen; j++ {
|
|
if k := key[j]; k == '=' { // NUL enforced in NewContext
|
|
err = errors.New("environ invalid: key contains '=' character")
|
|
return
|
|
} else {
|
|
result[j] = k
|
|
}
|
|
}
|
|
result[j] = '='
|
|
copy(result[j+1:], value)
|
|
environ = append(environ, result)
|
|
}
|
|
|
|
var fs []experimentalsys.FS
|
|
var guestPaths []string
|
|
if f, ok := c.fsConfig.(*fsConfig); ok {
|
|
fs, guestPaths = f.preopens()
|
|
}
|
|
|
|
var listeners []*net.TCPListener
|
|
if n := c.sockConfig; n != nil {
|
|
if listeners, err = n.BuildTCPListeners(); err != nil {
|
|
return
|
|
}
|
|
}
|
|
|
|
return internalsys.NewContext(
|
|
math.MaxUint32,
|
|
c.args,
|
|
environ,
|
|
c.stdin,
|
|
c.stdout,
|
|
c.stderr,
|
|
c.randSource,
|
|
c.walltime, c.walltimeResolution,
|
|
c.nanotime, c.nanotimeResolution,
|
|
c.nanosleep, c.osyield,
|
|
fs, guestPaths,
|
|
listeners,
|
|
)
|
|
}
|