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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gc
import (
"bufio"
"bytes"
"cmd/compile/internal/base"
"cmd/compile/internal/coverage"
"cmd/compile/internal/dwarfgen"
"cmd/compile/internal/escape"
"cmd/compile/internal/inline"
"cmd/compile/internal/inline/interleaved"
"cmd/compile/internal/ir"
"cmd/compile/internal/logopt"
"cmd/compile/internal/loopvar"
"cmd/compile/internal/noder"
"cmd/compile/internal/pgo"
"cmd/compile/internal/pkginit"
"cmd/compile/internal/reflectdata"
"cmd/compile/internal/rttype"
"cmd/compile/internal/ssa"
"cmd/compile/internal/ssagen"
"cmd/compile/internal/staticinit"
"cmd/compile/internal/typecheck"
"cmd/compile/internal/types"
"cmd/internal/dwarf"
"cmd/internal/obj"
"cmd/internal/objabi"
"cmd/internal/src"
"flag"
"fmt"
"internal/buildcfg"
"log"
"os"
"runtime"
)
// handlePanic ensures that we print out an "internal compiler error" for any panic
// or runtime exception during front-end compiler processing (unless there have
// already been some compiler errors). It may also be invoked from the explicit panic in
// hcrash(), in which case, we pass the panic on through.
func handlePanic() {
if err := recover(); err != nil {
if err == "-h" {
// Force real panic now with -h option (hcrash) - the error
// information will have already been printed.
panic(err)
}
base.Fatalf("panic: %v", err)
}
}
// Main parses flags and Go source files specified in the command-line
// arguments, type-checks the parsed Go package, compiles functions to machine
// code, and finally writes the compiled package definition to disk.
func Main(archInit func(*ssagen.ArchInfo)) {
base.Timer.Start("fe", "init")
defer handlePanic()
archInit(&ssagen.Arch)
base.Ctxt = obj.Linknew(ssagen.Arch.LinkArch)
base.Ctxt.DiagFunc = base.Errorf
base.Ctxt.DiagFlush = base.FlushErrors
base.Ctxt.Bso = bufio.NewWriter(os.Stdout)
// UseBASEntries is preferred because it shaves about 2% off build time, but LLDB, dsymutil, and dwarfdump
// on Darwin don't support it properly, especially since macOS 10.14 (Mojave). This is exposed as a flag
// to allow testing with LLVM tools on Linux, and to help with reporting this bug to the LLVM project.
// See bugs 31188 and 21945 (CLs 170638, 98075, 72371).
base.Ctxt.UseBASEntries = base.Ctxt.Headtype != objabi.Hdarwin
base.DebugSSA = ssa.PhaseOption
base.ParseFlags()
if os.Getenv("GOGC") == "" { // GOGC set disables starting heap adjustment
// More processors will use more heap, but assume that more memory is available.
// So 1 processor -> 40MB, 4 -> 64MB, 12 -> 128MB
base.AdjustStartingHeap(uint64(32+8*base.Flag.LowerC) << 20)
}
types.LocalPkg = types.NewPkg(base.Ctxt.Pkgpath, "")
// pseudo-package, for scoping
types.BuiltinPkg = types.NewPkg("go.builtin", "") // TODO(gri) name this package go.builtin?
types.BuiltinPkg.Prefix = "go:builtin"
// pseudo-package, accessed by import "unsafe"
types.UnsafePkg = types.NewPkg("unsafe", "unsafe")
// Pseudo-package that contains the compiler's builtin
// declarations for package runtime. These are declared in a
// separate package to avoid conflicts with package runtime's
// actual declarations, which may differ intentionally but
// insignificantly.
ir.Pkgs.Runtime = types.NewPkg("go.runtime", "runtime")
ir.Pkgs.Runtime.Prefix = "runtime"
// pseudo-packages used in symbol tables
ir.Pkgs.Itab = types.NewPkg("go.itab", "go.itab")
ir.Pkgs.Itab.Prefix = "go:itab"
// pseudo-package used for methods with anonymous receivers
ir.Pkgs.Go = types.NewPkg("go", "")
// pseudo-package for use with code coverage instrumentation.
ir.Pkgs.Coverage = types.NewPkg("go.coverage", "runtime/coverage")
ir.Pkgs.Coverage.Prefix = "runtime/coverage"
// Record flags that affect the build result. (And don't
// record flags that don't, since that would cause spurious
// changes in the binary.)
dwarfgen.RecordFlags("B", "N", "l", "msan", "race", "asan", "shared", "dynlink", "dwarf", "dwarflocationlists", "dwarfbasentries", "smallframes", "spectre")
if !base.EnableTrace && base.Flag.LowerT {
log.Fatalf("compiler not built with support for -t")
}
// Enable inlining (after RecordFlags, to avoid recording the rewritten -l). For now:
// default: inlining on. (Flag.LowerL == 1)
// -l: inlining off (Flag.LowerL == 0)
// -l=2, -l=3: inlining on again, with extra debugging (Flag.LowerL > 1)
if base.Flag.LowerL <= 1 {
base.Flag.LowerL = 1 - base.Flag.LowerL
}
if base.Flag.SmallFrames {
ir.MaxStackVarSize = 128 * 1024
ir.MaxImplicitStackVarSize = 16 * 1024
}
if base.Flag.Dwarf {
base.Ctxt.DebugInfo = dwarfgen.Info
base.Ctxt.GenAbstractFunc = dwarfgen.AbstractFunc
base.Ctxt.DwFixups = obj.NewDwarfFixupTable(base.Ctxt)
} else {
// turn off inline generation if no dwarf at all
base.Flag.GenDwarfInl = 0
base.Ctxt.Flag_locationlists = false
}
if base.Ctxt.Flag_locationlists && len(base.Ctxt.Arch.DWARFRegisters) == 0 {
log.Fatalf("location lists requested but register mapping not available on %v", base.Ctxt.Arch.Name)
}
types.ParseLangFlag()
symABIs := ssagen.NewSymABIs()
if base.Flag.SymABIs != "" {
symABIs.ReadSymABIs(base.Flag.SymABIs)
}
if objabi.LookupPkgSpecial(base.Ctxt.Pkgpath).NoInstrument {
base.Flag.Race = false
base.Flag.MSan = false
base.Flag.ASan = false
}
ssagen.Arch.LinkArch.Init(base.Ctxt)
startProfile()
if base.Flag.Race || base.Flag.MSan || base.Flag.ASan {
base.Flag.Cfg.Instrumenting = true
}
if base.Flag.Dwarf {
dwarf.EnableLogging(base.Debug.DwarfInl != 0)
}
if base.Debug.SoftFloat != 0 {
ssagen.Arch.SoftFloat = true
}
if base.Flag.JSON != "" { // parse version,destination from json logging optimization.
logopt.LogJsonOption(base.Flag.JSON)
}
ir.EscFmt = escape.Fmt
ir.IsIntrinsicCall = ssagen.IsIntrinsicCall
inline.SSADumpInline = ssagen.DumpInline
ssagen.InitEnv()
ssagen.InitTables()
types.PtrSize = ssagen.Arch.LinkArch.PtrSize
types.RegSize = ssagen.Arch.LinkArch.RegSize
types.MaxWidth = ssagen.Arch.MAXWIDTH
typecheck.Target = new(ir.Package)
base.AutogeneratedPos = makePos(src.NewFileBase("<autogenerated>", "<autogenerated>"), 1, 0)
typecheck.InitUniverse()
typecheck.InitRuntime()
rttype.Init()
// Parse and typecheck input.
noder.LoadPackage(flag.Args())
// As a convenience to users (toolchain maintainers, in particular),
// when compiling a package named "main", we default the package
// path to "main" if the -p flag was not specified.
if base.Ctxt.Pkgpath == obj.UnlinkablePkg && types.LocalPkg.Name == "main" {
base.Ctxt.Pkgpath = "main"
types.LocalPkg.Path = "main"
types.LocalPkg.Prefix = "main"
}
dwarfgen.RecordPackageName()
// Prepare for backend processing.
ssagen.InitConfig()
// Apply coverage fixups, if applicable.
coverage.Fixup()
// Read profile file and build profile-graph and weighted-call-graph.
base.Timer.Start("fe", "pgo-load-profile")
var profile *pgo.Profile
if base.Flag.PgoProfile != "" {
var err error
profile, err = pgo.New(base.Flag.PgoProfile)
if err != nil {
log.Fatalf("%s: PGO error: %v", base.Flag.PgoProfile, err)
}
}
// Interleaved devirtualization and inlining.
base.Timer.Start("fe", "devirtualize-and-inline")
interleaved.DevirtualizeAndInlinePackage(typecheck.Target, profile)
noder.MakeWrappers(typecheck.Target) // must happen after inlining
// Get variable capture right in for loops.
var transformed []loopvar.VarAndLoop
for _, fn := range typecheck.Target.Funcs {
transformed = append(transformed, loopvar.ForCapture(fn)...)
}
ir.CurFunc = nil
// Build init task, if needed.
pkginit.MakeTask()
// Generate ABI wrappers. Must happen before escape analysis
// and doesn't benefit from dead-coding or inlining.
symABIs.GenABIWrappers()
// Escape analysis.
// Required for moving heap allocations onto stack,
// which in turn is required by the closure implementation,
// which stores the addresses of stack variables into the closure.
// If the closure does not escape, it needs to be on the stack
// or else the stack copier will not update it.
// Large values are also moved off stack in escape analysis;
// because large values may contain pointers, it must happen early.
base.Timer.Start("fe", "escapes")
escape.Funcs(typecheck.Target.Funcs)
loopvar.LogTransformations(transformed)
// Collect information for go:nowritebarrierrec
// checking. This must happen before transforming closures during Walk
// We'll do the final check after write barriers are
// inserted.
if base.Flag.CompilingRuntime {
ssagen.EnableNoWriteBarrierRecCheck()
}
ir.CurFunc = nil
reflectdata.WriteBasicTypes()
// Compile top-level declarations.
//
// There are cyclic dependencies between all of these phases, so we
// need to iterate all of them until we reach a fixed point.
base.Timer.Start("be", "compilefuncs")
for nextFunc, nextExtern := 0, 0; ; {
reflectdata.WriteRuntimeTypes()
if nextExtern < len(typecheck.Target.Externs) {
switch n := typecheck.Target.Externs[nextExtern]; n.Op() {
case ir.ONAME:
dumpGlobal(n)
case ir.OLITERAL:
dumpGlobalConst(n)
case ir.OTYPE:
reflectdata.NeedRuntimeType(n.Type())
}
nextExtern++
continue
}
if nextFunc < len(typecheck.Target.Funcs) {
enqueueFunc(typecheck.Target.Funcs[nextFunc])
nextFunc++
continue
}
// The SSA backend supports using multiple goroutines, so keep it
// as late as possible to maximize how much work we can batch and
// process concurrently.
if len(compilequeue) != 0 {
compileFunctions()
continue
}
// Finalize DWARF inline routine DIEs, then explicitly turn off
// further DWARF inlining generation to avoid problems with
// generated method wrappers.
//
// Note: The DWARF fixup code for inlined calls currently doesn't
// allow multiple invocations, so we intentionally run it just
// once after everything else. Worst case, some generated
// functions have slightly larger DWARF DIEs.
if base.Ctxt.DwFixups != nil {
base.Ctxt.DwFixups.Finalize(base.Ctxt.Pkgpath, base.Debug.DwarfInl != 0)
base.Ctxt.DwFixups = nil
base.Flag.GenDwarfInl = 0
continue // may have called reflectdata.TypeLinksym (#62156)
}
break
}
base.Timer.AddEvent(int64(len(typecheck.Target.Funcs)), "funcs")
if base.Flag.CompilingRuntime {
// Write barriers are now known. Check the call graph.
ssagen.NoWriteBarrierRecCheck()
}
// Add keep relocations for global maps.
if base.Debug.WrapGlobalMapCtl != 1 {
staticinit.AddKeepRelocations()
}
// Write object data to disk.
base.Timer.Start("be", "dumpobj")
dumpdata()
base.Ctxt.NumberSyms()
dumpobj()
if base.Flag.AsmHdr != "" {
dumpasmhdr()
}
ssagen.CheckLargeStacks()
typecheck.CheckFuncStack()
if len(compilequeue) != 0 {
base.Fatalf("%d uncompiled functions", len(compilequeue))
}
logopt.FlushLoggedOpts(base.Ctxt, base.Ctxt.Pkgpath)
base.ExitIfErrors()
base.FlushErrors()
base.Timer.Stop()
if base.Flag.Bench != "" {
if err := writebench(base.Flag.Bench); err != nil {
log.Fatalf("cannot write benchmark data: %v", err)
}
}
}
func writebench(filename string) error {
f, err := os.OpenFile(filename, os.O_WRONLY|os.O_CREATE|os.O_APPEND, 0666)
if err != nil {
return err
}
var buf bytes.Buffer
fmt.Fprintln(&buf, "commit:", buildcfg.Version)
fmt.Fprintln(&buf, "goos:", runtime.GOOS)
fmt.Fprintln(&buf, "goarch:", runtime.GOARCH)
base.Timer.Write(&buf, "BenchmarkCompile:"+base.Ctxt.Pkgpath+":")
n, err := f.Write(buf.Bytes())
if err != nil {
return err
}
if n != buf.Len() {
panic("bad writer")
}
return f.Close()
}
func makePos(b *src.PosBase, line, col uint) src.XPos {
return base.Ctxt.PosTable.XPos(src.MakePos(b, line, col))
}
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