gotosocial/vendor/github.com/tetratelabs/wazero/internal/sys/sys.go

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package sys
import (
"errors"
"fmt"
"io"
"net"
"time"
experimentalsys "github.com/tetratelabs/wazero/experimental/sys"
"github.com/tetratelabs/wazero/internal/platform"
"github.com/tetratelabs/wazero/sys"
)
// Context holds module-scoped system resources currently only supported by
// built-in host functions.
type Context struct {
args, environ [][]byte
argsSize, environSize uint32
walltime sys.Walltime
walltimeResolution sys.ClockResolution
nanotime sys.Nanotime
nanotimeResolution sys.ClockResolution
nanosleep sys.Nanosleep
osyield sys.Osyield
randSource io.Reader
fsc FSContext
}
// Args is like os.Args and defaults to nil.
//
// Note: The count will never be more than math.MaxUint32.
// See wazero.ModuleConfig WithArgs
func (c *Context) Args() [][]byte {
return c.args
}
// ArgsSize is the size to encode Args as Null-terminated strings.
//
// Note: To get the size without null-terminators, subtract the length of Args from this value.
// See wazero.ModuleConfig WithArgs
// See https://en.wikipedia.org/wiki/Null-terminated_string
func (c *Context) ArgsSize() uint32 {
return c.argsSize
}
// Environ are "key=value" entries like os.Environ and default to nil.
//
// Note: The count will never be more than math.MaxUint32.
// See wazero.ModuleConfig WithEnv
func (c *Context) Environ() [][]byte {
return c.environ
}
// EnvironSize is the size to encode Environ as Null-terminated strings.
//
// Note: To get the size without null-terminators, subtract the length of Environ from this value.
// See wazero.ModuleConfig WithEnv
// See https://en.wikipedia.org/wiki/Null-terminated_string
func (c *Context) EnvironSize() uint32 {
return c.environSize
}
// Walltime implements platform.Walltime.
func (c *Context) Walltime() (sec int64, nsec int32) {
return c.walltime()
}
// WalltimeNanos returns platform.Walltime as epoch nanoseconds.
func (c *Context) WalltimeNanos() int64 {
sec, nsec := c.Walltime()
return (sec * time.Second.Nanoseconds()) + int64(nsec)
}
// WalltimeResolution returns resolution of Walltime.
func (c *Context) WalltimeResolution() sys.ClockResolution {
return c.walltimeResolution
}
// Nanotime implements sys.Nanotime.
func (c *Context) Nanotime() int64 {
return c.nanotime()
}
// NanotimeResolution returns resolution of Nanotime.
func (c *Context) NanotimeResolution() sys.ClockResolution {
return c.nanotimeResolution
}
// Nanosleep implements sys.Nanosleep.
func (c *Context) Nanosleep(ns int64) {
c.nanosleep(ns)
}
// Osyield implements sys.Osyield.
func (c *Context) Osyield() {
c.osyield()
}
// FS returns the possibly empty (UnimplementedFS) file system context.
func (c *Context) FS() *FSContext {
return &c.fsc
}
// RandSource is a source of random bytes and defaults to a deterministic source.
// see wazero.ModuleConfig WithRandSource
func (c *Context) RandSource() io.Reader {
return c.randSource
}
// DefaultContext returns Context with no values set except a possible nil
// sys.FS.
//
// Note: This is only used for testing.
func DefaultContext(fs experimentalsys.FS) *Context {
if sysCtx, err := NewContext(0, nil, nil, nil, nil, nil, nil, nil, 0, nil, 0, nil, nil, []experimentalsys.FS{fs}, []string{""}, nil); err != nil {
panic(fmt.Errorf("BUG: DefaultContext should never error: %w", err))
} else {
return sysCtx
}
}
// NewContext is a factory function which helps avoid needing to know defaults or exporting all fields.
// Note: max is exposed for testing. max is only used for env/args validation.
func NewContext(
max uint32,
args, environ [][]byte,
stdin io.Reader,
stdout, stderr io.Writer,
randSource io.Reader,
walltime sys.Walltime,
walltimeResolution sys.ClockResolution,
nanotime sys.Nanotime,
nanotimeResolution sys.ClockResolution,
nanosleep sys.Nanosleep,
osyield sys.Osyield,
fs []experimentalsys.FS, guestPaths []string,
tcpListeners []*net.TCPListener,
) (sysCtx *Context, err error) {
sysCtx = &Context{args: args, environ: environ}
if sysCtx.argsSize, err = nullTerminatedByteCount(max, args); err != nil {
return nil, fmt.Errorf("args invalid: %w", err)
}
if sysCtx.environSize, err = nullTerminatedByteCount(max, environ); err != nil {
return nil, fmt.Errorf("environ invalid: %w", err)
}
if randSource == nil {
sysCtx.randSource = platform.NewFakeRandSource()
} else {
sysCtx.randSource = randSource
}
if walltime != nil {
if clockResolutionInvalid(walltimeResolution) {
return nil, fmt.Errorf("invalid Walltime resolution: %d", walltimeResolution)
}
sysCtx.walltime = walltime
sysCtx.walltimeResolution = walltimeResolution
} else {
sysCtx.walltime = platform.NewFakeWalltime()
sysCtx.walltimeResolution = sys.ClockResolution(time.Microsecond.Nanoseconds())
}
if nanotime != nil {
if clockResolutionInvalid(nanotimeResolution) {
return nil, fmt.Errorf("invalid Nanotime resolution: %d", nanotimeResolution)
}
sysCtx.nanotime = nanotime
sysCtx.nanotimeResolution = nanotimeResolution
} else {
sysCtx.nanotime = platform.NewFakeNanotime()
sysCtx.nanotimeResolution = sys.ClockResolution(time.Nanosecond)
}
if nanosleep != nil {
sysCtx.nanosleep = nanosleep
} else {
sysCtx.nanosleep = platform.FakeNanosleep
}
if osyield != nil {
sysCtx.osyield = osyield
} else {
sysCtx.osyield = platform.FakeOsyield
}
err = sysCtx.InitFSContext(stdin, stdout, stderr, fs, guestPaths, tcpListeners)
return
}
// clockResolutionInvalid returns true if the value stored isn't reasonable.
func clockResolutionInvalid(resolution sys.ClockResolution) bool {
return resolution < 1 || resolution > sys.ClockResolution(time.Hour.Nanoseconds())
}
// nullTerminatedByteCount ensures the count or Nul-terminated length of the elements doesn't exceed max, and that no
// element includes the nul character.
func nullTerminatedByteCount(max uint32, elements [][]byte) (uint32, error) {
count := uint32(len(elements))
if count > max {
return 0, errors.New("exceeds maximum count")
}
// The buffer size is the total size including null terminators. The null terminator count == value count, sum
// count with each value length. This works because in Go, the length of a string is the same as its byte count.
bufSize, maxSize := uint64(count), uint64(max) // uint64 to allow summing without overflow
for _, e := range elements {
// As this is null-terminated, We have to validate there are no null characters in the string.
for _, c := range e {
if c == 0 {
return 0, errors.New("contains NUL character")
}
}
nextSize := bufSize + uint64(len(e))
if nextSize > maxSize {
return 0, errors.New("exceeds maximum size")
}
bufSize = nextSize
}
return uint32(bufSize), nil
}