The latest Go release, version 1.12, arrives six months after Go 1.11. Most of its changes are in the implementation of the toolchain, runtime, and libraries. As always, the release maintains the Go 1 promise of compatibility. We expect almost all Go programs to continue to compile and run as before.
There are no changes to the language specification.
The race detector is now supported on linux/arm64
.
Go 1.12 is the last release that is supported on FreeBSD 10.x, which has already reached end-of-life. Go 1.13 will require FreeBSD 11.2+ or FreeBSD 12.0+. FreeBSD 12.0+ requires a kernel with the COMPAT_FREEBSD11 option set (this is the default).
cgo is now supported on linux/ppc64
.
hurd
is now a recognized value for GOOS
, reserved
for the GNU/Hurd system for use with gccgo
.
Go's new windows/arm
port supports running Go on Windows 10
IoT Core on 32-bit ARM chips such as the Raspberry Pi 3.
Go now supports AIX 7.2 and later on POWER8 architectures (aix/ppc64
). External linking, cgo, pprof and the race detector aren't yet supported.
Go 1.12 is the last release that will run on macOS 10.10 Yosemite. Go 1.13 will require macOS 10.11 El Capitan or later.
libSystem
is now used when making syscalls on Darwin,
ensuring forward-compatibility with future versions of macOS and iOS.
The switch to libSystem
triggered additional App Store
checks for private API usage. Since it is considered private,
syscall.Getdirentries
now always fails with
ENOSYS
on iOS.
go tool vet
no longer supported
The go vet
command has been rewritten to serve as the
base for a range of different source code analysis tools. See
the golang.org/x/tools/go/analysis
package for details. A side-effect is that go tool vet
is no longer supported. External tools that use go tool
vet
must be changed to use go
vet
. Using go vet
instead of go tool
vet
should work with all supported versions of Go.
As part of this change, the experimental -shadow
option
is no longer available with go vet
. Checking for
variable shadowing may now be done using
go get -u golang.org/x/tools/go/analysis/passes/shadow/cmd/shadow go vet -vettool=$(which shadow)
The Go tour is no longer included in the main binary distribution. To
run the tour locally, instead of running go
tool
tour
,
manually install it:
go get -u golang.org/x/tour tour
The build cache is now
required as a step toward eliminating
$GOPATH/pkg
. Setting the environment variable
GOCACHE=off
will cause go
commands that write to the
cache to fail.
Go 1.12 is the last release that will support binary-only packages.
Go 1.12 will translate the C type EGLDisplay
to the Go type uintptr
.
This change is similar to how Go 1.10 and newer treats Darwin's CoreFoundation
and Java's JNI types. See the
cgo documentation
for more information.
Mangled C names are no longer accepted in packages that use Cgo. Use the Cgo
names instead. For example, use the documented cgo name C.char
rather than the mangled name _Ctype_char
that cgo generates.
When GO111MODULE
is set to on
, the go
command now supports module-aware operations outside of a module directory,
provided that those operations do not need to resolve import paths relative to
the current directory or explicitly edit the go.mod
file.
Commands such as go
get
,
go
list
, and
go
mod
download
behave as if in a
module with initially-empty requirements.
In this mode, go
env
GOMOD
reports
the system's null device (/dev/null
or NUL
).
go
commands that download and extract modules are now safe to
invoke concurrently.
The module cache (GOPATH/pkg/mod
) must reside in a filesystem that
supports file locking.
The go
directive in a go.mod
file now indicates the
version of the language used by the files within that module.
It will be set to the current release
(go
1.12
) if no existing version is
present.
If the go
directive for a module specifies a
version newer than the toolchain in use, the go
command
will attempt to build the packages regardless, and will note the mismatch only if
that build fails.
This changed use of the go
directive means that if you
use Go 1.12 to build a module, thus recording go 1.12
in the go.mod
file, you will get an error when
attempting to build the same module with Go 1.11 through Go 1.11.3.
Go 1.11.4 or later will work fine, as will releases older than Go 1.11.
If you must use Go 1.11 through 1.11.3, you can avoid the problem by
setting the language version to 1.11, using the Go 1.12 go tool,
via go mod edit -go=1.11
.
When an import cannot be resolved using the active modules,
the go
command will now try to use the modules mentioned in the
main module's replace
directives before consulting the module
cache and the usual network sources.
If a matching replacement is found but the replace
directive does
not specify a version, the go
command uses a pseudo-version
derived from the zero time.Time
(such
as v0.0.0-00010101000000-000000000000
).
The compiler's live variable analysis has improved. This may mean that
finalizers will be executed sooner in this release than in previous
releases. If that is a problem, consider the appropriate addition of a
runtime.KeepAlive
call.
More functions are now eligible for inlining by default, including
functions that do nothing but call another function.
This extra inlining makes it additionally important to use
runtime.CallersFrames
instead of iterating over the result of
runtime.Callers
directly.
// Old code which no longer works correctly (it will miss inlined call frames). var pcs [10]uintptr n := runtime.Callers(1, pcs[:]) for _, pc := range pcs[:n] { f := runtime.FuncForPC(pc) if f != nil { fmt.Println(f.Name()) } }
// New code which will work correctly. var pcs [10]uintptr n := runtime.Callers(1, pcs[:]) frames := runtime.CallersFrames(pcs[:n]) for { frame, more := frames.Next() fmt.Println(frame.Function) if !more { break } }
Wrappers generated by the compiler to implement method expressions
are no longer reported
by runtime.CallersFrames
and runtime.Stack
. They
are also not printed in panic stack traces.
This change aligns the gc
toolchain to match
the gccgo
toolchain, which already elided such wrappers
from stack traces.
Clients of these APIs might need to adjust for the missing
frames. For code that must interoperate between 1.11 and 1.12
releases, you can replace the method expression x.M
with the function literal func (...) { x.M(...) }
.
The compiler now accepts a -lang
flag to set the Go language
version to use. For example, -lang=go1.8
causes the compiler to
emit an error if the program uses type aliases, which were added in Go 1.9.
Language changes made before Go 1.12 are not consistently enforced.
The compiler toolchain now uses different conventions to call Go functions and assembly functions. This should be invisible to users, except for calls that simultaneously cross between Go and assembly and cross a package boundary. If linking results in an error like "relocation target not defined for ABIInternal (but is defined for ABI0)", please refer to the compatibility section of the ABI design document.
There have been many improvements to the DWARF debug information produced by the compiler, including improvements to argument printing and variable location information.
Go programs now also maintain stack frame pointers on linux/arm64
for the benefit of profiling tools like perf
. The frame pointer
maintenance has a small run-time overhead that varies but averages around 3%.
To build a toolchain that does not use frame pointers, set
GOEXPERIMENT=noframepointer
when running make.bash
.
The obsolete "safe" compiler mode (enabled by the -u
gcflag) has been removed.
godoc
and go
doc
In Go 1.12, godoc
no longer has a command-line interface and
is only a web server. Users should use go
doc
for command-line help output instead. Go 1.12 is the last release that will
include the godoc
webserver; in Go 1.13 it will be available
via go
get
.
go
doc
now supports the -all
flag,
which will cause it to print all exported APIs and their documentation,
as the godoc
command line used to do.
go
doc
also now includes the -src
flag,
which will show the target's source code.
The trace tool now supports plotting mutator utilization curves, including cross-references to the execution trace. These are useful for analyzing the impact of the garbage collector on application latency and throughput.
On arm64
, the platform register was renamed from
R18
to R18_PLATFORM
to prevent accidental
use, as the OS could choose to reserve this register.
Go 1.12 significantly improves the performance of sweeping when a large fraction of the heap remains live. This reduces allocation latency immediately following a garbage collection.
The Go runtime now releases memory back to the operating system more aggressively, particularly in response to large allocations that can't reuse existing heap space.
The Go runtime's timer and deadline code is faster and scales better with higher numbers of CPUs. In particular, this improves the performance of manipulating network connection deadlines.
On Linux, the runtime now uses MADV_FREE
to release unused
memory. This is more efficient but may result in higher reported
RSS. The kernel will reclaim the unused data when it is needed.
To revert to the Go 1.11 behavior (MADV_DONTNEED
), set the
environment variable GODEBUG=madvdontneed=1
.
Adding cpu.extension=off to the GODEBUG environment variable now disables the use of optional CPU instruction set extensions in the standard library and runtime. This is not yet supported on Windows.
Go 1.12 improves the accuracy of memory profiles by fixing overcounting of large heap allocations.
Tracebacks, runtime.Caller
,
and runtime.Callers
no longer include
compiler-generated initialization functions. Doing a traceback
during the initialization of a global variable will now show a
function named PKG.init.ializers
.
Go 1.12 adds opt-in support for TLS 1.3 in the crypto/tls
package as
specified by RFC 8446. It can
be enabled by adding the value tls13=1
to the GODEBUG
environment variable. It will be enabled by default in Go 1.13.
To negotiate TLS 1.3, make sure you do not set an explicit MaxVersion
in
Config
and run your program with
the environment variable GODEBUG=tls13=1
set.
All TLS 1.2 features except TLSUnique
in
ConnectionState
and renegotiation are available in TLS 1.3 and provide equivalent or
better security and performance. Note that even though TLS 1.3 is backwards
compatible with previous versions, certain legacy systems might not work
correctly when attempting to negotiate it. RSA certificate keys too small
to be secure (including 512-bit keys) will not work with TLS 1.3.
TLS 1.3 cipher suites are not configurable. All supported cipher suites are
safe, and if PreferServerCipherSuites
is set in
Config
the preference order
is based on the available hardware.
Early data (also called "0-RTT mode") is not currently supported as a client or server. Additionally, a Go 1.12 server does not support skipping unexpected early data if a client sends it. Since TLS 1.3 0-RTT mode involves clients keeping state regarding which servers support 0-RTT, a Go 1.12 server cannot be part of a load-balancing pool where some other servers do support 0-RTT. If switching a domain from a server that supported 0-RTT to a Go 1.12 server, 0-RTT would have to be disabled for at least the lifetime of the issued session tickets before the switch to ensure uninterrupted operation.
In TLS 1.3 the client is the last one to speak in the handshake, so if it causes
an error to occur on the server, it will be returned on the client by the first
Read
, not by
Handshake
. For
example, that will be the case if the server rejects the client certificate.
Similarly, session tickets are now post-handshake messages, so are only
received by the client upon its first
Read
.
As always, there are various minor changes and updates to the library, made with the Go 1 promise of compatibility in mind.
Reader
's UnreadRune
and
UnreadByte
methods will now return an error
if they are called after Peek
.
The new function ReplaceAll
returns a copy of
a byte slice with all non-overlapping instances of a value replaced by another.
A pointer to a zero-value Reader
is now
functionally equivalent to NewReader
(nil)
.
Prior to Go 1.12, the former could not be used as a substitute for the latter in all cases.
A warning will now be printed to standard error the first time
Reader.Read
is blocked for more than 60 seconds waiting
to read entropy from the kernel.
On FreeBSD, Reader
now uses the getrandom
system call if available, /dev/urandom
otherwise.
This release removes the assembly implementations, leaving only the pure Go version. The Go compiler generates code that is either slightly better or slightly worse, depending on the exact CPU. RC4 is insecure and should only be used for compatibility with legacy systems.
If a client sends an initial message that does not look like TLS, the server
will no longer reply with an alert, and it will expose the underlying
net.Conn
in the new field Conn
of
RecordHeaderError
.
Maps are now printed in key-sorted order to ease testing. The ordering rules are:
reflect.Type
describing the concrete type
and then by concrete value as described in the previous rules.
When printing maps, non-reflexive key values like NaN
were previously
displayed as <nil>
. As of this release, the correct values are printed.
To address some outstanding issues in cmd/doc
,
this package has a new Mode
bit,
PreserveAST
, which controls whether AST data is cleared.
The File
type has a new
LineStart
field,
which returns the position of the start of a given line. This is especially useful
in programs that occasionally handle non-Go files, such as assembly, but wish to use
the token.Pos
mechanism to identify file positions.
The RegisterFormat
function is now safe for concurrent use.
Paletted images with fewer than 16 colors now encode to smaller outputs.
The new StringWriter
interface wraps the
WriteString
function.
The time zone database in $GOROOT/lib/time/zoneinfo.zip
has been updated to version 2018i. Note that this ZIP file is
only used if a time zone database is not provided by the operating
system.
The functions
Sin
,
Cos
,
Tan
,
and Sincos
now
apply Payne-Hanek range reduction to huge arguments. This
produces more accurate answers, but they will not be bit-for-bit
identical with the results in earlier releases.
New extended precision operations Add
, Sub
, Mul
, and Div
are available in uint
, uint32
, and uint64
versions.
The
Dialer.DualStack
setting is now ignored and deprecated;
RFC 6555 Fast Fallback ("Happy Eyeballs") is now enabled by default. To disable, set
Dialer.FallbackDelay
to a negative value.
Similarly, TCP keep-alives are now enabled by default if
Dialer.KeepAlive
is zero.
To disable, set it to a negative value.
On Linux, the splice
system call is now used when copying from a
UnixConn
to a
TCPConn
.
The HTTP server now rejects misdirected HTTP requests to HTTPS servers with a plaintext "400 Bad Request" response.
The new Client.CloseIdleConnections
method calls the Client
's underlying Transport
's CloseIdleConnections
if it has one.
The Transport
no longer rejects HTTP responses which declare
HTTP Trailers but don't use chunked encoding. Instead, the declared trailers are now just ignored.
The Transport
no longer handles MAX_CONCURRENT_STREAMS
values
advertised from HTTP/2 servers as strictly as it did during Go 1.10 and Go 1.11. The default behavior is now back
to how it was in Go 1.9: each connection to a server can have up to MAX_CONCURRENT_STREAMS
requests
active and then new TCP connections are created as needed. In Go 1.10 and Go 1.11 the http2
package
would block and wait for requests to finish instead of creating new connections.
To get the stricter behavior back, import the
golang.org/x/net/http2
package
directly and set
Transport.StrictMaxConcurrentStreams
to
true
.
Parse
,
ParseRequestURI
,
and
URL.Parse
now return an
error for URLs containing ASCII control characters, which includes NULL,
tab, and newlines.
The ReverseProxy
now automatically
proxies WebSocket requests.
The new ProcessState.ExitCode
method
returns the process's exit code.
ModeCharDevice
has been added to the ModeType
bitmask, allowing for
ModeDevice | ModeCharDevice
to be recovered when masking a
FileMode
with ModeType
.
The new function UserHomeDir
returns the
current user's home directory.
RemoveAll
now supports paths longer than 4096 characters
on most Unix systems.
File.Sync
now uses F_FULLFSYNC
on macOS
to correctly flush the file contents to permanent storage.
This may cause the method to run more slowly than in previous releases.
File
now supports
a SyscallConn
method returning
a syscall.RawConn
interface value. This may be used to invoke system-specific
operations on the underlying file descriptor.
The IsAbs
function now returns true when passed
a reserved filename on Windows such as NUL
.
List of reserved names.
A new MapIter
type is
an iterator for ranging over a map. This type is exposed through the
Value
type's new
MapRange
method.
This follows the same iteration semantics as a range statement, with Next
to advance the iterator, and Key
/Value
to access each entry.
Copy
is no longer necessary
to avoid lock contention, so it has been given a partial deprecation comment.
Copy
may still be appropriate if the reason for its use is to make two copies with
different Longest
settings.
A new BuildInfo
type
exposes the build information read from the running binary, available only in
binaries built with module support. This includes the main package path, main
module information, and the module dependencies. This type is given though the
ReadBuildInfo
function
on BuildInfo
.
The new function ReplaceAll
returns a copy of
a string with all non-overlapping instances of a value replaced by another.
A pointer to a zero-value Reader
is now
functionally equivalent to NewReader
(nil)
.
Prior to Go 1.12, the former could not be used as a substitute for the latter in all cases.
The new Builder.Cap
method returns the capacity of the builder's underlying byte slice.
The character mapping functions Map
,
Title
,
ToLower
,
ToLowerSpecial
,
ToTitle
,
ToTitleSpecial
,
ToUpper
, and
ToUpperSpecial
now always guarantee to return valid UTF-8. In earlier releases, if the input was invalid UTF-8 but no character replacements
needed to be applied, these routines incorrectly returned the invalid UTF-8 unmodified.
64-bit inodes are now supported on FreeBSD 12. Some types have been adjusted accordingly.
The Unix socket
(AF_UNIX
)
address family is now supported for compatible versions of Windows.
The new function Syscall18
has been introduced for Windows, allowing for calls with up to 18 arguments.
The Callback
type and NewCallback
function have been renamed;
they are now called
Func
and
FuncOf
, respectively.
This is a breaking change, but WebAssembly support is still experimental
and not yet subject to the
Go 1 compatibility promise. Any code using the
old names will need to be updated.
If a type implements the new
Wrapper
interface,
ValueOf
will use it to return the JavaScript value for that type.
The meaning of the zero
Value
has changed. It now represents the JavaScript undefined
value
instead of the number zero.
This is a breaking change, but WebAssembly support is still experimental
and not yet subject to the
Go 1 compatibility promise. Any code relying on
the zero Value
to mean the number zero will need to be updated.
The new
Value.Truthy
method reports the
JavaScript "truthiness"
of a given value.
The -benchtime
flag now supports setting an explicit iteration count instead of a time when the value ends with an "x
". For example, -benchtime=100x
runs the benchmark 100 times.
When executing a template, long context values are no longer truncated in errors.
executing "tmpl" at <.very.deep.context.v...>: map has no entry for key "notpresent"
is now
executing "tmpl" at <.very.deep.context.value.notpresent>: map has no entry for key "notpresent"
If a user-defined function called by a template panics, the
panic is now caught and returned as an error by
the Execute
or ExecuteTemplate
method.
It is invalid to convert a nil unsafe.Pointer
to uintptr
and back with arithmetic.
(This was already invalid, but will now cause the compiler to misbehave.)