Go 1.17 is not yet released. These are work-in-progress release notes. Go 1.17 is expected to be released in August 2021.
Go 1.17 includes three small enhancements to the language.
s
of
type []T
may now be converted to array pointer type
*[N]T
. If a
is the result of such a
conversion, then corresponding indices that are in range refer to
the same underlying elements: &a[i] == &s[i]
for 0 <= i < N
. The conversion panics if
len(s)
is less than N
.
unsafe.Add
:
unsafe.Add(ptr, len)
adds len
to ptr
and returns the updated pointer
unsafe.Pointer(uintptr(ptr) + uintptr(len))
.
unsafe.Slice
:
For expression ptr
of type *T
,
unsafe.Slice(ptr, len)
returns a slice of
type []T
whose underlying array starts
at ptr
and whose length and capacity
are len
.
The package unsafe enhancements were added to simplify writing code that conforms
to unsafe.Pointer
's safety
rules, but the rules remain unchanged. In particular, existing
programs that correctly use unsafe.Pointer
remain
valid, and new programs must still follow the rules when
using unsafe.Add
or unsafe.Slice
.
Note that the new conversion from slice to array pointer is the first case in which a type conversion can panic at run time. Analysis tools that assume type conversions can never panic should be updated to consider this possibility.
As announced in the Go 1.16 release notes, Go 1.17 requires macOS 10.13 High Sierra or later; support for previous versions has been discontinued.
Go 1.17 adds support of 64-bit ARM architecture on Windows (the
windows/arm64
port). This port supports cgo.
The 64-bit MIPS architecture on OpenBSD (the openbsd/mips64
port) now supports cgo.
In Go 1.16, on the 64-bit x86 and 64-bit ARM architectures on
OpenBSD (the openbsd/amd64
and openbsd/arm64
ports) system calls are made through libc
, instead
of directly using machine instructions. In Go 1.17, this is also
done on the 32-bit x86 and 32-bit ARM architectures on OpenBSD
(the openbsd/386
and openbsd/arm
ports).
This ensures compatibility with OpenBSD 6.9 onwards, which require
system calls to be made through libc
for non-static
Go binaries.
Go programs now maintain stack frame pointers on the 64-bit ARM architecture on all operating systems. Previously it maintained stack frame pointers only on Linux, macOS, and iOS.
The main Go compiler does not yet support the LoongArch
architecture, but we've reserved the GOARCH
value
"loong64
".
This means that Go files named *_loong64.go
will now
be ignored by Go
tools except when that GOARCH value is being used.
If a module specifies go
1.17
or higher in its
go.mod
file, its transitive requirements are now loaded lazily,
avoiding the need to download or read go.mod
files for
otherwise-irrelevant dependencies. To support lazy loading, in Go 1.17 modules
the go
command maintains explicit requirements in
the go.mod
file for every dependency that provides any package
transitively imported by any package or test within the module.
See the design
document for more detail.
Because the number of additional explicit requirements in the go.mod file may
be substantial, in a Go 1.17 module the newly-added requirements
on indirect dependencies are maintained in a
separate require
block from the block containing direct
dependencies.
To facilitate the upgrade to lazy loading, the
go
mod
tidy
subcommand now supports
a -go
flag to set or change the go
version in
the go.mod
file. To enable lazy loading for an existing module
without changing the selected versions of its dependencies, run:
go mod tidy -go=1.17
By default, go
mod
tidy
verifies that
the selected versions of dependencies relevant to the main module are the same
versions that would be used by the prior Go release (Go 1.16 for a module that
specifies go
1.17
), and preserves
the go.sum
entries needed by that release even for dependencies
that are not normally needed by other commands.
The -compat
flag allows that version to be overridden to support
older (or only newer) versions, up to the version specified by
the go
directive in the go.mod
file. To tidy
a go
1.17
module for Go 1.17 only, without saving
checksums for (or checking for consistency with) Go 1.16:
go mod tidy -compat=1.17
Note that even if the main module is tidied with -compat=1.17
,
users who require
the module from a
go
1.16
or earlier module will still be able to
use it, provided that the packages use only compatible language and library
features.
The go
mod
graph
subcommand also
supports the -go
flag, which causes it to report the graph as
seen by the indicated Go version, showing dependencies that may otherwise be
pruned out by lazy loading.
Module authors may deprecate a module by adding a
// Deprecated:
comment to go.mod
, then tagging a new version.
go
get
now prints a warning if a module needed to
build packages named on the command line is deprecated. go
list
-m
-u
prints deprecations for all
dependencies (use -f
or -json
to show the full
message). The go
command considers different major versions to
be distinct modules, so this mechanism may be used, for example, to provide
users with migration instructions for a new major version.
go
get
The go
get
-insecure
flag is
deprecated and has been removed. To permit the use of insecure schemes
when fetching dependencies, please use the GOINSECURE
environment variable. The -insecure
flag also bypassed module
sum validation, use GOPRIVATE
or GONOSUMDB
if
you need that functionality. See go
help
environment
for details.
go
get
prints a deprecation warning when installing
commands outside the main module (without the -d
flag).
go
install
cmd@version
should be used
instead to install a command at a specific version, using a suffix like
@latest
or @v1.2.3
. In Go 1.18, the -d
flag will always be enabled, and go
get
will only
be used to change dependencies in go.mod
.
go.mod
files missing go
directives
If the main module's go.mod
file does not contain
a go
directive and
the go
command cannot update the go.mod
file, the
go
command now assumes go 1.11
instead of the
current release. (go
mod
init
has added
go
directives automatically since
Go 1.12.)
If a module dependency lacks an explicit go.mod
file, or
its go.mod
file does not contain
a go
directive,
the go
command now assumes go 1.16
for that
dependency instead of the current release. (Dependencies developed in GOPATH
mode may lack a go.mod
file, and
the vendor/modules.txt
has to date never recorded
the go
versions indicated by dependencies' go.mod
files.)
vendor
contents
If the main module specifies go
1.17
or higher,
go
mod
vendor
now annotates
vendor/modules.txt
with the go
version indicated by
each vendored module in its own go.mod
file. The annotated
version is used when building the module's packages from vendored source code.
If the main module specifies go
1.17
or higher,
go
mod
vendor
now omits go.mod
and go.sum
files for vendored dependencies, which can otherwise
interfere with the ability of the go
command to identify the correct
module root when invoked within the vendor
tree.
The go
command by default now suppresses SSH password prompts and
Git Credential Manager prompts when fetching Git repositories using SSH, as it
already did previously for other Git password prompts. Users authenticating to
private Git repos with password-protected SSH may configure
an ssh-agent
to enable the go
command to use
password-protected SSH keys.
go
mod
download
When go
mod
download
is invoked without
arguments, it will no longer save sums for downloaded module content to
go.sum
. It may still make changes to go.mod
and
go.sum
needed to load the build list. This is the same as the
behavior in Go 1.15. To save sums for all modules, use go
mod
download
all
.
//go:build
lines
The go
command now understands //go:build
lines
and prefers them over // +build
lines. The new syntax uses
boolean expressions, just like Go, and should be less error-prone.
As of this release, the new syntax is fully supported, and all Go files
should be updated to have both forms with the same meaning. To aid in
migration, gofmt
now automatically
synchronizes the two forms. For more details on the syntax and migration plan,
see
https://golang.org/design/draft-gobuild.
go
run
go
run
now accepts arguments with version suffixes
(for example, go
run
example.com/cmd@v1.0.0
). This causes go
run
to build and run packages in module-aware mode, ignoring the
go.mod
file in the current directory or any parent directory, if
there is one. This is useful for running executables without installing them or
without changing dependencies of the current module.
gofmt
(and go
fmt
) now synchronizes
//go:build
lines with // +build
lines. If a file
only has // +build
lines, they will be moved to the appropriate
location in the file, and matching //go:build
lines will be
added. Otherwise, // +build
lines will be overwritten based on
any existing //go:build
lines. For more information, see
https://golang.org/design/draft-gobuild.
//go:build
and // +build
lines
The vet
tool now verifies that //go:build
and
// +build
lines are in the correct part of the file and
synchronized with each other. If they aren't,
gofmt
can be used to fix them. For more
information, see
https://golang.org/design/draft-gobuild.
signal.Notify
on unbuffered channels
The vet tool now warns about calls to signal.Notify
with incoming signals being sent to an unbuffered channel. Using an unbuffered channel
risks missing signals sent on them as signal.Notify
does not block when
sending to a channel. For example:
c := make(chan os.Signal) // signals are sent on c before the channel is read from. // This signal may be dropped as c is unbuffered. signal.Notify(c, os.Interrupt)
Users of signal.Notify
should use channels with sufficient buffer space to keep up with the
expected signal rate.
The vet tool now warns about methods named As
, Is
or Unwrap
on types implementing the error
interface that have a different signature than the
one expected by the errors
package. The errors.{As,Is,Unwrap}
functions
expect such methods to implement either Is(error)
bool
,
As(interface{})
bool
, or Unwrap()
error
respectively. The functions errors.{As,Is,Unwrap}
will ignore methods with the same
names but a different signature. For example:
type MyError struct { hint string } func (m MyError) Error() string { ... } // MyError implements error. func (MyError) Is(target interface{}) bool { ... } // target is interface{} instead of error. func Foo() bool { x, y := MyError{"A"}, MyError{"B"} return errors.Is(x, y) // returns false as x != y and MyError does not have an `Is(error) bool` function. }
The cover
tool now uses an optimized parser
from golang.org/x/tools/cover
, which may be noticeably faster
when parsing large coverage profiles.
Go 1.17 implements a new way of passing function arguments and results using
registers instead of the stack.
Benchmarks for a representative set of Go packages and programs show
performance improvements of about 5%, and a typical reduction in
binary size of about 2%.
This is currently enabled for Linux, macOS, and Windows on the
64-bit x86 architecture (the linux/amd64
,
darwin/amd64
, and windows/amd64
ports).
This change does not affect the functionality of any safe Go code
and is designed to have no impact on most assembly code.
It may affect code that violates
the unsafe.Pointer
rules when accessing function arguments, or that depends on
undocumented behavior involving comparing function code pointers.
To maintain compatibility with existing assembly functions, the
compiler generates adapter functions that convert between the new
register-based calling convention and the previous stack-based
calling convention.
These adapters are typically invisible to users, except that taking
the address of a Go function in assembly code or taking the address
of an assembly function in Go code
using reflect.ValueOf(fn).Pointer()
or unsafe.Pointer
will now return the address of the
adapter.
Code that depends on the value of these code pointers may no longer
behave as expected.
Adapters also may cause a very small performance overhead in two
cases: calling an assembly function indirectly from Go via
a func
value, and calling Go functions from assembly.
The format of stack traces from the runtime (printed when an uncaught panic
occurs, or when runtime.Stack
is called) is improved. Previously,
the function arguments were printed as hexadecimal words based on the memory
layout. Now each argument in the source code is printed separately, separated
by commas. Aggregate-typed (struct, array, string, slice, interface, and complex)
arguments are delimited by curly braces. A caveat is that the value of an
argument that only lives in a register and is not stored to memory may be
inaccurate. Function return values (which were usually inaccurate) are no longer
printed.
Functions containing closures can now be inlined.
One effect of this change is that a function with a closure may
produce a distinct closure code pointer for each place that the
function is inlined.
Go function values are not directly comparable, but this change
could reveal bugs in code that uses reflect
or unsafe.Pointer
to bypass this language restriction
and compare functions by code pointer.
The runtime/cgo package now provides a new facility that allows to turn any Go values to a safe representation that can be used to pass values between C and Go safely. See runtime/cgo.Handle for more information.
The net/url
and net/http
packages used to accept
";"
(semicolon) as a setting separator in URL queries, in
addition to "&"
(ampersand). Now, settings with non-percent-encoded
semicolons are rejected and net/http
servers will log a warning to
Server.ErrorLog
when encountering one in a request URL.
For example, before Go 1.17 the Query
method of the URL example?a=1;b=2&c=3
would have returned
map[a:[1] b:[2] c:[3]]
, while now it returns map[c:[3]]
.
When encountering such a query string,
URL.Query
and
Request.FormValue
ignore any settings that contain a semicolon,
ParseQuery
returns the remaining settings and an error, and
Request.ParseForm
and
Request.ParseMultipartForm
return an error but still set Request
fields based on the
remaining settings.
net/http
users can restore the original behavior by using the new
AllowQuerySemicolons
handler wrapper. This will also suppress the ErrorLog
warning.
Note that accepting semicolons as query separators can lead to security issues
if different systems interpret cache keys differently.
See issue 25192 for more information.
When Config.NextProtos
is set, servers now enforce that there is an overlap between the configured
protocols and the ALPN protocols advertised by the client, if any. If there is
no mutually supported protocol, the connection is closed with the
no_application_protocol
alert, as required by RFC 7301. This
helps mitigate the ALPACA cross-protocol attack.
As an exception, when the value "h2"
is included in the server's
Config.NextProtos
, HTTP/1.1 clients will be allowed to connect as
if they didn't support ALPN.
See issue 46310 for more information.
As always, there are various minor changes and updates to the library, made with the Go 1 promise of compatibility in mind.
The new methods File.OpenRaw
, Writer.CreateRaw
, Writer.Copy
provide support for cases where performance is a primary concern.
The Writer.WriteRune
method
now writes the replacement character U+FFFD for negative rune values,
as it does for other invalid runes.
The Buffer.WriteRune
method
now writes the replacement character U+FFFD for negative rune values,
as it does for other invalid runes.
The NewReader
function is guaranteed to return a value of the new
type Reader
,
and similarly NewWriter
is guaranteed to return a value of the new
type Writer
.
These new types both implement a Reset
method
(Reader.Reset
,
Writer.Reset
)
that allows reuse of the Reader
or Writer
.
The crypto/ed25519
package has been rewritten, and all
operations are now approximately twice as fast on amd64 and arm64.
The observable behavior has not otherwise changed.
CurveParams
methods now automatically invoke faster and safer dedicated
implementations for known curves (P-224, P-256, and P-521) when
available. Note that this is a best-effort approach and applications
should avoid using the generic, not constant-time CurveParams
methods and instead use dedicated
Curve
implementations
such as P256
.
The P521
curve
implementation has been rewritten using code generated by the
fiat-crypto project,
which is based on a formally-verified model of the arithmetic
operations. It is now constant-time and three times faster on amd64 and
arm64. The observable behavior has not otherwise changed.
The crypto/rand
package now uses the getentropy
syscall on macOS and the getrandom
syscall on Solaris,
Illumos, and DragonFlyBSD.
The new Conn.HandshakeContext
method allows the user to control cancellation of an in-progress TLS
handshake. The provided context is accessible from various callbacks through the new
ClientHelloInfo.Context
and
CertificateRequestInfo.Context
methods. Canceling the context after the handshake has finished has no effect.
Cipher suite ordering is now handled entirely by the
crypto/tls
package. Currently, cipher suites are sorted based
on their security, performance, and hardware support taking into account
both the local and peer's hardware. The order of the
Config.CipherSuites
field is now ignored, as well as the
Config.PreferServerCipherSuites
field. Note that Config.CipherSuites
still allows
applications to choose what TLS 1.0–1.2 cipher suites to enable.
The 3DES cipher suites have been moved to
InsecureCipherSuites
due to fundamental block size-related
weakness. They are still enabled by default but only as a last resort,
thanks to the cipher suite ordering change above.
Beginning in the next release, Go 1.18, the
Config.MinVersion
for crypto/tls
clients will default to TLS 1.2, disabling TLS 1.0
and TLS 1.1 by default. Applications will be able to override the change by
explicitly setting Config.MinVersion
.
This will not affect crypto/tls
servers.
CreateCertificate
now returns an error if the provided private key doesn't match the
parent's public key, if any. The resulting certificate would have failed
to verify.
The temporary GODEBUG=x509ignoreCN=0
flag has been removed.
ParseCertificate
has been rewritten, and now consumes ~70% fewer resources. The observable
behavior has not otherwise changed, except for error messages.
On BSD systems, /etc/ssl/certs
is now searched for trusted
roots. This adds support for the new system trusted certificate store in
FreeBSD 12.2+.
Beginning in the next release, Go 1.18, crypto/x509
will
reject certificates signed with the SHA-1 hash function. This doesn't
apply to self-signed root certificates. Practical attacks against SHA-1
have been demonstrated in 2017 and publicly
trusted Certificate Authorities have not issued SHA-1 certificates since 2015.
The DB.Close
method now closes
the connector
field if the type in this field implements the
io.Closer
interface.
The new
NullInt16
and
NullByte
structs represent the int16 and byte values that may be null. These can be used as
destinations of the Scan
method,
similar to NullString.
The SHT_MIPS_ABIFLAGS
constant has been added.
binary.Uvarint
will stop reading after 10 bytes
to avoid
wasted computations. If more than 10 bytes
are needed, the byte count returned is -11
.
Previous Go versions could return larger negative counts when reading incorrectly encoded varints.
The new
Reader.FieldPos
method returns the line and column corresponding to the start of
a given field in the record most recently returned by
Read
.
When a comment appears within a
Directive
, it is now replaced
with a single space instead of being completely elided.
Invalid element or attribute names with leading, trailing, or multiple
colons are now stored unmodified into the
Name.Local
field.
Flag declarations now panic if an invalid name is specified.
The new
Context.ToolTags
field holds the build tags appropriate to the current Go
toolchain configuration.
The Source
and
Node
functions now
synchronize //go:build
lines with // +build
lines. If a file only has // +build
lines, they will be
moved to the appropriate location in the file, and matching
//go:build
lines will be added. Otherwise,
// +build
lines will be overwritten based on any existing
//go:build
lines. For more information, see
https://golang.org/design/draft-gobuild.
The new SkipObjectResolution
Mode
value instructs the parser not to resolve identifiers to
their declaration. This may improve parsing speed.
The concrete image types (RGBA
, Gray16
and so on)
now implement a new RGBA64Image
interface. The concrete types that previously implemented
draw.Image
now also implement
draw.RGBA64Image
, a
new interface in the image/draw
package.
The new FileInfoToDirEntry
function converts a FileInfo
to a DirEntry
.
The math package now defines three more constants: MaxUint
, MaxInt
and MinInt
.
For 32-bit systems their values are 2^32 - 1
, 2^31 - 1
and -2^31
, respectively.
For 64-bit systems their values are 2^64 - 1
, 2^63 - 1
and -2^63
, respectively.
On Unix systems, the table of MIME types is now read from the local system's Shared MIME-info Database when available.
Part.FileName
now applies
filepath.Base
to the
return value. This mitigates potential path traversal vulnerabilities in
applications that accept multipart messages, such as net/http
servers that call
Request.FormFile
.
The new method IP.IsPrivate
reports whether an address is
a private IPv4 address according to RFC 1918
or a local IPv6 address according RFC 4193.
The Go DNS resolver now only sends one DNS query when resolving an address for an IPv4-only or IPv6-only network, rather than querying for both address families.
The ErrClosed
sentinel error and
ParseError
error type now implement
the net.Error
interface.
The ParseIP
and ParseCIDR
functions now reject IPv4 addresses which contain decimal components with leading zeros.
These components were always interpreted as decimal, but some operating systems treat them as octal.
This mismatch could hypothetically lead to security issues if a Go application was used to validate IP addresses
which were then used in their original form with non-Go applications which interpreted components as octal. Generally,
it is advisable to always re-encode values after validation, which avoids this class of parser misalignment issues.
The net/http
package now uses the new
(*tls.Conn).HandshakeContext
with the Request
context
when performing TLS handshakes in the client or server.
Setting the Server
ReadTimeout
or WriteTimeout
fields to a negative value now indicates no timeout
rather than an immediate timeout.
The ReadRequest
function
now returns an error when the request has multiple Host headers.
When producing a redirect to the cleaned version of a URL,
ServeMux
now always
uses relative URLs in the Location
header. Previously it
would echo the full URL of the request, which could lead to unintended
redirects if the client could be made to send an absolute request URL.
When interpreting certain HTTP headers handled by net/http
,
non-ASCII characters are now ignored or rejected.
If
Request.ParseForm
returns an error when called by
Request.ParseMultipartForm
,
the latter now continues populating
Request.MultipartForm
before returning it.
ResponseRecorder.WriteHeader
now panics when the provided code is not a valid three-digit HTTP status code.
This matches the behavior of ResponseWriter
implementations in the net/http
package.
The new method Values.Has
reports whether a query parameter is set.
The File.WriteString
method
has been optimized to not make a copy of the input string.
The new
StructField.IsExported
and
Method.IsExported
methods report whether a struct field or type method is exported.
They provide a more readable alternative to checking whether PkgPath
is empty.
The new VisibleFields
function
returns all the visible fields in a struct type, including fields inside anonymous struct members.
The ArrayOf
function now panics when
called with a negative length.
Checking the Type.ConvertibleTo
method
is no longer sufficient to guarantee that a call to
Value.Convert
will not panic.
It may panic when converting `[]T` to `*[N]T` if the slice's length is less than N.
See the language changes section above.
New metrics were added that track total bytes and objects allocated and freed. A new metric tracking the distribution of goroutine scheduling latencies was also added.
Block profiles are no longer biased to favor infrequent long events over frequent short events.
The strconv
package now uses Ulf Adams's Ryū algorithm for formatting floating-point numbers.
This algorithm improves performance on most inputs and is more than 99% faster on worst-case inputs.
The new QuotedPrefix
function
returns the quoted string (as understood by
Unquote
)
at the start of input.
The Builder.WriteRune
method
now writes the replacement character U+FFFD for negative rune values,
as it does for other invalid runes.
atomic.Value
now has Swap
and
CompareAndSwap
methods that provide
additional atomic operations.
The GetQueuedCompletionStatus
and
PostQueuedCompletionStatus
functions are now deprecated. These functions have incorrect signatures and are superseded by
equivalents in the golang.org/x/sys/windows
package.
On Unix-like systems, the process group of a child process is now set with signals blocked.
This avoids sending a SIGTTOU
to the child when the parent is in a background process group.
The Windows version of
SysProcAttr
has two new fields. AdditionalInheritedHandles
is
a list of additional handles to be inherited by the new child
process. ParentProcess
permits specifying the
parent process of the new process.
The constant MSG_CMSG_CLOEXEC
is now defined on
DragonFly and all OpenBSD systems (it was already defined on
some OpenBSD systems and all FreeBSD, NetBSD, and Linux systems).
The constants SYS_WAIT6
and WEXITED
are now defined on NetBSD systems (SYS_WAIT6
was
already defined on DragonFly and FreeBSD systems;
WEXITED
was already defined on Darwin, DragonFly,
FreeBSD, Linux, and Solaris systems).
Added a new testing flag -shuffle
which controls the execution order of tests and benchmarks.
The new
T.Setenv
and B.Setenv
methods support setting an environment variable for the duration
of the test or benchmark.
The new SkipFuncCheck
Mode
value changes the template parser to not verify that functions are defined.
The Time
type now has a
GoString
method that
will return a more useful value for times when printed with the
%#v
format specifier in the fmt
package.
The new Time.IsDST
method can be used to check whether the time
is in Daylight Savings Time in its configured location.
The new Time.UnixMilli
and
Time.UnixMicro
methods return the number of milliseconds and microseconds elapsed since
January 1, 1970 UTC respectively.
The new UnixMilli
and
UnixMicro
functions
return the local Time
corresponding to the given Unix time.
The package now accepts comma "," as a separator for fractional seconds when parsing and formatting time. The following time formats are now accepted:
The new constant Layout
defines the reference time.