/usr/lib/go/pkg/netbsd_amd64/runtime.h is in golang-go-netbsd-amd64 2:1.3.3-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
/*
* basic types
*/
typedef signed char int8;
typedef unsigned char uint8;
typedef signed short int16;
typedef unsigned short uint16;
typedef signed int int32;
typedef unsigned int uint32;
typedef signed long long int int64;
typedef unsigned long long int uint64;
typedef float float32;
typedef double float64;
#ifdef _64BIT
typedef uint64 uintptr;
typedef int64 intptr;
typedef int64 intgo; // Go's int
typedef uint64 uintgo; // Go's uint
#else
typedef uint32 uintptr;
typedef int32 intptr;
typedef int32 intgo; // Go's int
typedef uint32 uintgo; // Go's uint
#endif
#ifdef _64BITREG
typedef uint64 uintreg;
#else
typedef uint32 uintreg;
#endif
/*
* get rid of C types
* the / / / forces a syntax error immediately,
* which will show "last name: XXunsigned".
*/
#define unsigned XXunsigned / / /
#define signed XXsigned / / /
#define char XXchar / / /
#define short XXshort / / /
#define int XXint / / /
#define long XXlong / / /
#define float XXfloat / / /
#define double XXdouble / / /
/*
* defined types
*/
typedef uint8 bool;
typedef uint8 byte;
typedef struct Func Func;
typedef struct G G;
typedef struct Gobuf Gobuf;
typedef struct Lock Lock;
typedef struct M M;
typedef struct P P;
typedef struct Note Note;
typedef struct Slice Slice;
typedef struct Stktop Stktop;
typedef struct String String;
typedef struct FuncVal FuncVal;
typedef struct SigTab SigTab;
typedef struct MCache MCache;
typedef struct FixAlloc FixAlloc;
typedef struct Iface Iface;
typedef struct Itab Itab;
typedef struct InterfaceType InterfaceType;
typedef struct Eface Eface;
typedef struct Type Type;
typedef struct PtrType PtrType;
typedef struct ChanType ChanType;
typedef struct MapType MapType;
typedef struct Defer Defer;
typedef struct Panic Panic;
typedef struct Hmap Hmap;
typedef struct Hiter Hiter;
typedef struct Hchan Hchan;
typedef struct Complex64 Complex64;
typedef struct Complex128 Complex128;
typedef struct LibCall LibCall;
typedef struct WinCallbackContext WinCallbackContext;
typedef struct Timers Timers;
typedef struct Timer Timer;
typedef struct GCStats GCStats;
typedef struct LFNode LFNode;
typedef struct ParFor ParFor;
typedef struct ParForThread ParForThread;
typedef struct CgoMal CgoMal;
typedef struct PollDesc PollDesc;
typedef struct DebugVars DebugVars;
/*
* Per-CPU declaration.
*
* "extern register" is a special storage class implemented by 6c, 8c, etc.
* On the ARM, it is an actual register; elsewhere it is a slot in thread-
* local storage indexed by a pseudo-register TLS. See zasmhdr in
* src/cmd/dist/buildruntime.c for details, and be aware that the linker may
* make further OS-specific changes to the compiler's output. For example,
* 6l/linux rewrites 0(TLS) as -16(FS).
*
* Every C file linked into a Go program must include runtime.h so that the
* C compiler (6c, 8c, etc.) knows to avoid other uses of these dedicated
* registers. The Go compiler (6g, 8g, etc.) knows to avoid them.
*/
extern register G* g;
extern register M* m;
/*
* defined constants
*/
enum
{
// G status
//
// If you add to this list, add to the list
// of "okay during garbage collection" status
// in mgc0.c too.
Gidle,
Grunnable,
Grunning,
Gsyscall,
Gwaiting,
Gmoribund_unused, // currently unused, but hardcoded in gdb scripts
Gdead,
};
enum
{
// P status
Pidle,
Prunning,
Psyscall,
Pgcstop,
Pdead,
};
enum
{
true = 1,
false = 0,
};
enum
{
PtrSize = sizeof(void*),
};
enum
{
// Per-M stack segment cache size.
StackCacheSize = 32,
// Global <-> per-M stack segment cache transfer batch size.
StackCacheBatch = 16,
};
/*
* structures
*/
struct Lock
{
// Futex-based impl treats it as uint32 key,
// while sema-based impl as M* waitm.
// Used to be a union, but unions break precise GC.
uintptr key;
};
struct Note
{
// Futex-based impl treats it as uint32 key,
// while sema-based impl as M* waitm.
// Used to be a union, but unions break precise GC.
uintptr key;
};
struct String
{
byte* str;
intgo len;
};
struct FuncVal
{
void (*fn)(void);
// variable-size, fn-specific data here
};
struct Iface
{
Itab* tab;
void* data;
};
struct Eface
{
Type* type;
void* data;
};
struct Complex64
{
float32 real;
float32 imag;
};
struct Complex128
{
float64 real;
float64 imag;
};
struct Slice
{ // must not move anything
byte* array; // actual data
uintgo len; // number of elements
uintgo cap; // allocated number of elements
};
struct Gobuf
{
// The offsets of sp, pc, and g are known to (hard-coded in) libmach.
uintptr sp;
uintptr pc;
G* g;
void* ctxt;
uintreg ret;
uintptr lr;
};
struct GCStats
{
// the struct must consist of only uint64's,
// because it is casted to uint64[].
uint64 nhandoff;
uint64 nhandoffcnt;
uint64 nprocyield;
uint64 nosyield;
uint64 nsleep;
};
struct LibCall
{
void (*fn)(void*);
uintptr n; // number of parameters
void* args; // parameters
uintptr r1; // return values
uintptr r2;
uintptr err; // error number
};
// describes how to handle callback
struct WinCallbackContext
{
void* gobody; // Go function to call
uintptr argsize; // callback arguments size (in bytes)
uintptr restorestack; // adjust stack on return by (in bytes) (386 only)
bool cleanstack;
};
struct G
{
// stackguard0 can be set to StackPreempt as opposed to stackguard
uintptr stackguard0; // cannot move - also known to linker, libmach, runtime/cgo
uintptr stackbase; // cannot move - also known to libmach, runtime/cgo
uint32 panicwrap; // cannot move - also known to linker
Defer* defer;
Panic* panic;
Gobuf sched;
uintptr syscallstack; // if status==Gsyscall, syscallstack = stackbase to use during gc
uintptr syscallsp; // if status==Gsyscall, syscallsp = sched.sp to use during gc
uintptr syscallpc; // if status==Gsyscall, syscallpc = sched.pc to use during gc
uintptr syscallguard; // if status==Gsyscall, syscallguard = stackguard to use during gc
uintptr stackguard; // same as stackguard0, but not set to StackPreempt
uintptr stack0;
uintptr stacksize;
void* param; // passed parameter on wakeup
int16 status;
int64 goid;
int64 waitsince; // approx time when the G become blocked
int8* waitreason; // if status==Gwaiting
G* schedlink;
bool ispanic;
bool issystem; // do not output in stack dump
bool isbackground; // ignore in deadlock detector
bool preempt; // preemption signal, duplicates stackguard0 = StackPreempt
bool paniconfault; // panic (instead of crash) on unexpected fault address
int8 raceignore; // ignore race detection events
M* m; // for debuggers, but offset not hard-coded
M* lockedm;
int32 sig;
int32 writenbuf;
byte* writebuf;
uintptr sigcode0;
uintptr sigcode1;
uintptr sigpc;
uintptr gopc; // pc of go statement that created this goroutine
uintptr racectx;
uintptr end[];
};
struct M
{
G* g0; // goroutine with scheduling stack
void* moreargp; // argument pointer for more stack
Gobuf morebuf; // gobuf arg to morestack
// Fields not known to debuggers.
uint32 moreframesize; // size arguments to morestack
uint32 moreargsize; // known by amd64 asm to follow moreframesize
uintreg cret; // return value from C
uint64 procid; // for debuggers, but offset not hard-coded
G* gsignal; // signal-handling G
uintptr tls[4]; // thread-local storage (for x86 extern register)
void (*mstartfn)(void);
G* curg; // current running goroutine
G* caughtsig; // goroutine running during fatal signal
P* p; // attached P for executing Go code (nil if not executing Go code)
P* nextp;
int32 id;
int32 mallocing;
int32 throwing;
int32 gcing;
int32 locks;
int32 softfloat;
int32 dying;
int32 profilehz;
int32 helpgc;
bool spinning; // M is out of work and is actively looking for work
bool blocked; // M is blocked on a Note
uint32 fastrand;
uint64 ncgocall; // number of cgo calls in total
int32 ncgo; // number of cgo calls currently in progress
CgoMal* cgomal;
Note park;
M* alllink; // on allm
M* schedlink;
uint32 machport; // Return address for Mach IPC (OS X)
MCache* mcache;
int32 stackinuse;
uint32 stackcachepos;
uint32 stackcachecnt;
void* stackcache[StackCacheSize];
G* lockedg;
uintptr createstack[32];// Stack that created this thread.
uint32 freglo[16]; // D[i] lsb and F[i]
uint32 freghi[16]; // D[i] msb and F[i+16]
uint32 fflag; // floating point compare flags
uint32 locked; // tracking for LockOSThread
M* nextwaitm; // next M waiting for lock
uintptr waitsema; // semaphore for parking on locks
uint32 waitsemacount;
uint32 waitsemalock;
GCStats gcstats;
bool needextram;
uint8 traceback;
bool (*waitunlockf)(G*, void*);
void* waitlock;
uintptr forkstackguard;
#ifdef GOOS_windows
void* thread; // thread handle
// these are here because they are too large to be on the stack
// of low-level NOSPLIT functions.
LibCall libcall;
uintptr libcallpc; // for cpu profiler
uintptr libcallsp;
G* libcallg;
#endif
#ifdef GOOS_solaris
int32* perrno; // pointer to TLS errno
// these are here because they are too large to be on the stack
// of low-level NOSPLIT functions.
LibCall libcall;
struct {
int64 tv_sec;
int64 tv_nsec;
} ts;
struct {
uintptr v[6];
} scratch;
#endif
#ifdef GOOS_plan9
int8* notesig;
byte* errstr;
#endif
uintptr end[];
};
struct P
{
Lock;
int32 id;
uint32 status; // one of Pidle/Prunning/...
P* link;
uint32 schedtick; // incremented on every scheduler call
uint32 syscalltick; // incremented on every system call
M* m; // back-link to associated M (nil if idle)
MCache* mcache;
Defer* deferpool[5]; // pool of available Defer structs of different sizes (see panic.c)
// Cache of goroutine ids, amortizes accesses to runtime·sched.goidgen.
uint64 goidcache;
uint64 goidcacheend;
// Queue of runnable goroutines.
uint32 runqhead;
uint32 runqtail;
G* runq[256];
// Available G's (status == Gdead)
G* gfree;
int32 gfreecnt;
byte pad[64];
};
// The m->locked word holds two pieces of state counting active calls to LockOSThread/lockOSThread.
// The low bit (LockExternal) is a boolean reporting whether any LockOSThread call is active.
// External locks are not recursive; a second lock is silently ignored.
// The upper bits of m->lockedcount record the nesting depth of calls to lockOSThread
// (counting up by LockInternal), popped by unlockOSThread (counting down by LockInternal).
// Internal locks can be recursive. For instance, a lock for cgo can occur while the main
// goroutine is holding the lock during the initialization phase.
enum
{
LockExternal = 1,
LockInternal = 2,
};
struct Stktop
{
// The offsets of these fields are known to (hard-coded in) libmach.
uintptr stackguard;
uintptr stackbase;
Gobuf gobuf;
uint32 argsize;
uint32 panicwrap;
uint8* argp; // pointer to arguments in old frame
bool panic; // is this frame the top of a panic?
bool malloced;
};
struct SigTab
{
int32 flags;
int8 *name;
};
enum
{
SigNotify = 1<<0, // let signal.Notify have signal, even if from kernel
SigKill = 1<<1, // if signal.Notify doesn't take it, exit quietly
SigThrow = 1<<2, // if signal.Notify doesn't take it, exit loudly
SigPanic = 1<<3, // if the signal is from the kernel, panic
SigDefault = 1<<4, // if the signal isn't explicitly requested, don't monitor it
SigHandling = 1<<5, // our signal handler is registered
SigIgnored = 1<<6, // the signal was ignored before we registered for it
SigGoExit = 1<<7, // cause all runtime procs to exit (only used on Plan 9).
};
// Layout of in-memory per-function information prepared by linker
// See http://golang.org/s/go12symtab.
// Keep in sync with linker and with ../../libmach/sym.c
// and with package debug/gosym.
struct Func
{
uintptr entry; // start pc
int32 nameoff;// function name
int32 args; // in/out args size
int32 frame; // legacy frame size; use pcsp if possible
int32 pcsp;
int32 pcfile;
int32 pcln;
int32 npcdata;
int32 nfuncdata;
};
// layout of Itab known to compilers
// allocated in non-garbage-collected memory
struct Itab
{
InterfaceType* inter;
Type* type;
Itab* link;
int32 bad;
int32 unused;
void (*fun[])(void);
};
#ifdef GOOS_nacl
enum {
NaCl = 1,
};
#else
enum {
NaCl = 0,
};
#endif
#ifdef GOOS_windows
enum {
Windows = 1
};
#else
enum {
Windows = 0
};
#endif
#ifdef GOOS_solaris
enum {
Solaris = 1
};
#else
enum {
Solaris = 0
};
#endif
struct Timers
{
Lock;
G *timerproc;
bool sleeping;
bool rescheduling;
Note waitnote;
Timer **t;
int32 len;
int32 cap;
};
// Package time knows the layout of this structure.
// If this struct changes, adjust ../time/sleep.go:/runtimeTimer.
// For GOOS=nacl, package syscall knows the layout of this structure.
// If this struct changes, adjust ../syscall/net_nacl.go:/runtimeTimer.
struct Timer
{
int32 i; // heap index
// Timer wakes up at when, and then at when+period, ... (period > 0 only)
// each time calling f(now, arg) in the timer goroutine, so f must be
// a well-behaved function and not block.
int64 when;
int64 period;
FuncVal *fv;
Eface arg;
};
// Lock-free stack node.
struct LFNode
{
LFNode *next;
uintptr pushcnt;
};
// Parallel for descriptor.
struct ParFor
{
void (*body)(ParFor*, uint32); // executed for each element
uint32 done; // number of idle threads
uint32 nthr; // total number of threads
uint32 nthrmax; // maximum number of threads
uint32 thrseq; // thread id sequencer
uint32 cnt; // iteration space [0, cnt)
void *ctx; // arbitrary user context
bool wait; // if true, wait while all threads finish processing,
// otherwise parfor may return while other threads are still working
ParForThread *thr; // array of thread descriptors
uint32 pad; // to align ParForThread.pos for 64-bit atomic operations
// stats
uint64 nsteal;
uint64 nstealcnt;
uint64 nprocyield;
uint64 nosyield;
uint64 nsleep;
};
// Track memory allocated by code not written in Go during a cgo call,
// so that the garbage collector can see them.
struct CgoMal
{
CgoMal *next;
void *alloc;
};
// Holds variables parsed from GODEBUG env var.
struct DebugVars
{
int32 allocfreetrace;
int32 efence;
int32 gctrace;
int32 gcdead;
int32 scheddetail;
int32 schedtrace;
};
extern bool runtime·precisestack;
extern bool runtime·copystack;
/*
* defined macros
* you need super-gopher-guru privilege
* to add this list.
*/
#define nelem(x) (sizeof(x)/sizeof((x)[0]))
#define nil ((void*)0)
#define offsetof(s,m) (uint32)(&(((s*)0)->m))
#define ROUND(x, n) (((x)+(n)-1)&~(uintptr)((n)-1)) /* all-caps to mark as macro: it evaluates n twice */
/*
* known to compiler
*/
enum {
Structrnd = sizeof(uintreg),
};
/*
* type algorithms - known to compiler
*/
enum
{
AMEM,
AMEM0,
AMEM8,
AMEM16,
AMEM32,
AMEM64,
AMEM128,
ANOEQ,
ANOEQ0,
ANOEQ8,
ANOEQ16,
ANOEQ32,
ANOEQ64,
ANOEQ128,
ASTRING,
AINTER,
ANILINTER,
ASLICE,
AFLOAT32,
AFLOAT64,
ACPLX64,
ACPLX128,
Amax
};
typedef struct Alg Alg;
struct Alg
{
void (*hash)(uintptr*, uintptr, void*);
void (*equal)(bool*, uintptr, void*, void*);
void (*print)(uintptr, void*);
void (*copy)(uintptr, void*, void*);
};
extern Alg runtime·algarray[Amax];
byte* runtime·startup_random_data;
uint32 runtime·startup_random_data_len;
void runtime·get_random_data(byte**, int32*);
enum {
// hashinit wants this many random bytes
HashRandomBytes = 32
};
void runtime·hashinit(void);
void runtime·memhash(uintptr*, uintptr, void*);
void runtime·nohash(uintptr*, uintptr, void*);
void runtime·strhash(uintptr*, uintptr, void*);
void runtime·interhash(uintptr*, uintptr, void*);
void runtime·nilinterhash(uintptr*, uintptr, void*);
void runtime·aeshash(uintptr*, uintptr, void*);
void runtime·aeshash32(uintptr*, uintptr, void*);
void runtime·aeshash64(uintptr*, uintptr, void*);
void runtime·aeshashstr(uintptr*, uintptr, void*);
void runtime·memequal(bool*, uintptr, void*, void*);
void runtime·noequal(bool*, uintptr, void*, void*);
void runtime·strequal(bool*, uintptr, void*, void*);
void runtime·interequal(bool*, uintptr, void*, void*);
void runtime·nilinterequal(bool*, uintptr, void*, void*);
bool runtime·memeq(void*, void*, uintptr);
void runtime·memprint(uintptr, void*);
void runtime·strprint(uintptr, void*);
void runtime·interprint(uintptr, void*);
void runtime·nilinterprint(uintptr, void*);
void runtime·memcopy(uintptr, void*, void*);
void runtime·memcopy8(uintptr, void*, void*);
void runtime·memcopy16(uintptr, void*, void*);
void runtime·memcopy32(uintptr, void*, void*);
void runtime·memcopy64(uintptr, void*, void*);
void runtime·memcopy128(uintptr, void*, void*);
void runtime·strcopy(uintptr, void*, void*);
void runtime·algslicecopy(uintptr, void*, void*);
void runtime·intercopy(uintptr, void*, void*);
void runtime·nilintercopy(uintptr, void*, void*);
/*
* deferred subroutine calls
*/
struct Defer
{
int32 siz;
bool special; // not part of defer frame
byte* argp; // where args were copied from
byte* pc;
FuncVal* fn;
Defer* link;
void* args[1]; // padded to actual size
};
// argp used in Defer structs when there is no argp.
// TODO(rsc): Maybe we could use nil instead, but we've always used -1
// and I don't want to change this days before the Go 1.3 release.
#define NoArgs ((byte*)-1)
/*
* panics
*/
struct Panic
{
Eface arg; // argument to panic
uintptr stackbase; // g->stackbase in panic
Panic* link; // link to earlier panic
Defer* defer; // current executing defer
bool recovered; // whether this panic is over
bool aborted; // the panic was aborted
};
/*
* stack traces
*/
typedef struct Stkframe Stkframe;
struct Stkframe
{
Func* fn; // function being run
uintptr pc; // program counter within fn
uintptr continpc; // program counter where execution can continue, or 0 if not
uintptr lr; // program counter at caller aka link register
uintptr sp; // stack pointer at pc
uintptr fp; // stack pointer at caller aka frame pointer
byte* varp; // top of local variables
byte* argp; // pointer to function arguments
uintptr arglen; // number of bytes at argp
};
int32 runtime·gentraceback(uintptr, uintptr, uintptr, G*, int32, uintptr*, int32, bool(*)(Stkframe*, void*), void*, bool);
void runtime·traceback(uintptr pc, uintptr sp, uintptr lr, G* gp);
void runtime·tracebackothers(G*);
bool runtime·haszeroargs(uintptr pc);
bool runtime·topofstack(Func*);
enum
{
// The maximum number of frames we print for a traceback
TracebackMaxFrames = 100,
};
/*
* external data
*/
extern String runtime·emptystring;
extern uintptr runtime·zerobase;
extern G** runtime·allg;
extern uintptr runtime·allglen;
extern G* runtime·lastg;
extern M* runtime·allm;
extern P** runtime·allp;
extern int32 runtime·gomaxprocs;
extern uint32 runtime·needextram;
extern uint32 runtime·panicking;
extern int8* runtime·goos;
extern int32 runtime·ncpu;
extern bool runtime·iscgo;
extern void (*runtime·sysargs)(int32, uint8**);
extern uintptr runtime·maxstring;
extern uint32 runtime·Hchansize;
extern uint32 runtime·cpuid_ecx;
extern uint32 runtime·cpuid_edx;
extern DebugVars runtime·debug;
extern uintptr runtime·maxstacksize;
/*
* common functions and data
*/
int32 runtime·strcmp(byte*, byte*);
int32 runtime·strncmp(byte*, byte*, uintptr);
byte* runtime·strstr(byte*, byte*);
intgo runtime·findnull(byte*);
intgo runtime·findnullw(uint16*);
void runtime·dump(byte*, int32);
int32 runtime·runetochar(byte*, int32);
int32 runtime·charntorune(int32*, uint8*, int32);
/*
* This macro is used when writing C functions
* called as if they were Go functions.
* Passed the address of a result before a return statement,
* it makes sure the result has been flushed to memory
* before the return.
*
* It is difficult to write such functions portably, because
* of the varying requirements on the alignment of the
* first output value. Almost all code should write such
* functions in .goc files, where goc2c (part of cmd/dist)
* can arrange the correct alignment for the target system.
* Goc2c also takes care of conveying to the garbage collector
* which parts of the argument list are inputs vs outputs.
*
* Therefore, do NOT use this macro if at all possible.
*/
#define FLUSH(x) USED(x)
/*
* GoOutput is a type with the same alignment requirements as the
* initial output argument from a Go function. Only for use in cases
* where using goc2c is not possible. See comment on FLUSH above.
*/
typedef uint64 GoOutput;
void runtime·gogo(Gobuf*);
void runtime·gostartcall(Gobuf*, void(*)(void), void*);
void runtime·gostartcallfn(Gobuf*, FuncVal*);
void runtime·gosave(Gobuf*);
void runtime·lessstack(void);
void runtime·goargs(void);
void runtime·goenvs(void);
void runtime·goenvs_unix(void);
void* runtime·getu(void);
void runtime·throw(int8*);
void runtime·panicstring(int8*);
bool runtime·canpanic(G*);
void runtime·prints(int8*);
void runtime·printf(int8*, ...);
int32 runtime·snprintf(byte*, int32, int8*, ...);
byte* runtime·mchr(byte*, byte, byte*);
int32 runtime·mcmp(byte*, byte*, uintptr);
void runtime·memmove(void*, void*, uintptr);
void* runtime·mal(uintptr);
String runtime·catstring(String, String);
String runtime·gostring(byte*);
String runtime·gostringn(byte*, intgo);
Slice runtime·gobytes(byte*, intgo);
String runtime·gostringnocopy(byte*);
String runtime·gostringw(uint16*);
void runtime·initsig(void);
void runtime·sigenable(uint32 sig);
void runtime·sigdisable(uint32 sig);
int32 runtime·gotraceback(bool *crash);
void runtime·goroutineheader(G*);
int32 runtime·open(int8*, int32, int32);
int32 runtime·read(int32, void*, int32);
int32 runtime·write(uintptr, void*, int32); // use uintptr to accommodate windows.
int32 runtime·close(int32);
int32 runtime·mincore(void*, uintptr, byte*);
void runtime·jmpdefer(FuncVal*, void*);
void runtime·exit1(int32);
void runtime·ready(G*);
byte* runtime·getenv(int8*);
int32 runtime·atoi(byte*);
void runtime·newosproc(M *mp, void *stk);
void runtime·mstart(void);
G* runtime·malg(int32);
void runtime·asminit(void);
void runtime·mpreinit(M*);
void runtime·minit(void);
void runtime·unminit(void);
void runtime·signalstack(byte*, int32);
void runtime·symtabinit(void);
Func* runtime·findfunc(uintptr);
int32 runtime·funcline(Func*, uintptr, String*);
int32 runtime·funcarglen(Func*, uintptr);
int32 runtime·funcspdelta(Func*, uintptr);
int8* runtime·funcname(Func*);
int32 runtime·pcdatavalue(Func*, int32, uintptr);
void* runtime·stackalloc(G*, uint32);
void runtime·stackfree(G*, void*, Stktop*);
void runtime·shrinkstack(G*);
MCache* runtime·allocmcache(void);
void runtime·freemcache(MCache*);
void runtime·mallocinit(void);
bool runtime·ifaceeq_c(Iface, Iface);
bool runtime·efaceeq_c(Eface, Eface);
uintptr runtime·ifacehash(Iface, uintptr);
uintptr runtime·efacehash(Eface, uintptr);
void* runtime·malloc(uintptr size);
void runtime·free(void *v);
void runtime·runpanic(Panic*);
uintptr runtime·getcallersp(void*);
int32 runtime·mcount(void);
int32 runtime·gcount(void);
void runtime·mcall(void(*)(G*));
uint32 runtime·fastrand1(void);
void runtime·rewindmorestack(Gobuf*);
int32 runtime·timediv(int64, int32, int32*);
int32 runtime·round2(int32 x); // round x up to a power of 2.
// atomic operations
bool runtime·cas(uint32*, uint32, uint32);
bool runtime·cas64(uint64*, uint64, uint64);
bool runtime·casp(void**, void*, void*);
// Don't confuse with XADD x86 instruction,
// this one is actually 'addx', that is, add-and-fetch.
uint32 runtime·xadd(uint32 volatile*, int32);
uint64 runtime·xadd64(uint64 volatile*, int64);
uint32 runtime·xchg(uint32 volatile*, uint32);
uint64 runtime·xchg64(uint64 volatile*, uint64);
void* runtime·xchgp(void* volatile*, void*);
uint32 runtime·atomicload(uint32 volatile*);
void runtime·atomicstore(uint32 volatile*, uint32);
void runtime·atomicstore64(uint64 volatile*, uint64);
uint64 runtime·atomicload64(uint64 volatile*);
void* runtime·atomicloadp(void* volatile*);
void runtime·atomicstorep(void* volatile*, void*);
void runtime·setmg(M*, G*);
void runtime·newextram(void);
void runtime·exit(int32);
void runtime·breakpoint(void);
void runtime·gosched(void);
void runtime·gosched0(G*);
void runtime·schedtrace(bool);
void runtime·park(bool(*)(G*, void*), void*, int8*);
void runtime·parkunlock(Lock*, int8*);
void runtime·tsleep(int64, int8*);
M* runtime·newm(void);
void runtime·goexit(void);
void runtime·asmcgocall(void (*fn)(void*), void*);
void runtime·entersyscall(void);
void runtime·reentersyscall(void*, uintptr);
void runtime·entersyscallblock(void);
void runtime·exitsyscall(void);
G* runtime·newproc1(FuncVal*, byte*, int32, int32, void*);
bool runtime·sigsend(int32 sig);
int32 runtime·callers(int32, uintptr*, int32);
int64 runtime·nanotime(void); // monotonic time
int64 runtime·unixnanotime(void); // real time, can skip
void runtime·dopanic(int32);
void runtime·startpanic(void);
void runtime·freezetheworld(void);
void runtime·unwindstack(G*, byte*);
void runtime·sigprof(uint8 *pc, uint8 *sp, uint8 *lr, G *gp, M *mp);
void runtime·resetcpuprofiler(int32);
void runtime·setcpuprofilerate(void(*)(uintptr*, int32), int32);
void runtime·usleep(uint32);
int64 runtime·cputicks(void);
int64 runtime·tickspersecond(void);
void runtime·blockevent(int64, int32);
extern int64 runtime·blockprofilerate;
void runtime·addtimer(Timer*);
bool runtime·deltimer(Timer*);
G* runtime·netpoll(bool);
void runtime·netpollinit(void);
int32 runtime·netpollopen(uintptr, PollDesc*);
int32 runtime·netpollclose(uintptr);
void runtime·netpollready(G**, PollDesc*, int32);
uintptr runtime·netpollfd(PollDesc*);
void runtime·netpollarm(PollDesc*, int32);
void** runtime·netpolluser(PollDesc*);
bool runtime·netpollclosing(PollDesc*);
void runtime·netpolllock(PollDesc*);
void runtime·netpollunlock(PollDesc*);
void runtime·crash(void);
void runtime·parsedebugvars(void);
void _rt0_go(void);
void* runtime·funcdata(Func*, int32);
int32 runtime·setmaxthreads(int32);
G* runtime·timejump(void);
void runtime·iterate_itabs(void (*callback)(Itab*));
void runtime·iterate_finq(void (*callback)(FuncVal*, byte*, uintptr, Type*, PtrType*));
#pragma varargck argpos runtime·printf 1
#pragma varargck type "c" int32
#pragma varargck type "d" int32
#pragma varargck type "d" uint32
#pragma varargck type "D" int64
#pragma varargck type "D" uint64
#pragma varargck type "x" int32
#pragma varargck type "x" uint32
#pragma varargck type "X" int64
#pragma varargck type "X" uint64
#pragma varargck type "p" void*
#pragma varargck type "p" uintptr
#pragma varargck type "s" int8*
#pragma varargck type "s" uint8*
#pragma varargck type "S" String
void runtime·stoptheworld(void);
void runtime·starttheworld(void);
extern uint32 runtime·worldsema;
/*
* mutual exclusion locks. in the uncontended case,
* as fast as spin locks (just a few user-level instructions),
* but on the contention path they sleep in the kernel.
* a zeroed Lock is unlocked (no need to initialize each lock).
*/
void runtime·lock(Lock*);
void runtime·unlock(Lock*);
/*
* sleep and wakeup on one-time events.
* before any calls to notesleep or notewakeup,
* must call noteclear to initialize the Note.
* then, exactly one thread can call notesleep
* and exactly one thread can call notewakeup (once).
* once notewakeup has been called, the notesleep
* will return. future notesleep will return immediately.
* subsequent noteclear must be called only after
* previous notesleep has returned, e.g. it's disallowed
* to call noteclear straight after notewakeup.
*
* notetsleep is like notesleep but wakes up after
* a given number of nanoseconds even if the event
* has not yet happened. if a goroutine uses notetsleep to
* wake up early, it must wait to call noteclear until it
* can be sure that no other goroutine is calling
* notewakeup.
*
* notesleep/notetsleep are generally called on g0,
* notetsleepg is similar to notetsleep but is called on user g.
*/
void runtime·noteclear(Note*);
void runtime·notesleep(Note*);
void runtime·notewakeup(Note*);
bool runtime·notetsleep(Note*, int64); // false - timeout
bool runtime·notetsleepg(Note*, int64); // false - timeout
/*
* low-level synchronization for implementing the above
*/
uintptr runtime·semacreate(void);
int32 runtime·semasleep(int64);
void runtime·semawakeup(M*);
// or
void runtime·futexsleep(uint32*, uint32, int64);
void runtime·futexwakeup(uint32*, uint32);
/*
* Lock-free stack.
* Initialize uint64 head to 0, compare with 0 to test for emptiness.
* The stack does not keep pointers to nodes,
* so they can be garbage collected if there are no other pointers to nodes.
*/
void runtime·lfstackpush(uint64 *head, LFNode *node);
LFNode* runtime·lfstackpop(uint64 *head);
/*
* Parallel for over [0, n).
* body() is executed for each iteration.
* nthr - total number of worker threads.
* ctx - arbitrary user context.
* if wait=true, threads return from parfor() when all work is done;
* otherwise, threads can return while other threads are still finishing processing.
*/
ParFor* runtime·parforalloc(uint32 nthrmax);
void runtime·parforsetup(ParFor *desc, uint32 nthr, uint32 n, void *ctx, bool wait, void (*body)(ParFor*, uint32));
void runtime·parfordo(ParFor *desc);
void runtime·parforiters(ParFor*, uintptr, uintptr*, uintptr*);
/*
* low level C-called
*/
// for mmap, we only pass the lower 32 bits of file offset to the
// assembly routine; the higher bits (if required), should be provided
// by the assembly routine as 0.
uint8* runtime·mmap(byte*, uintptr, int32, int32, int32, uint32);
void runtime·munmap(byte*, uintptr);
void runtime·madvise(byte*, uintptr, int32);
void runtime·memclr(byte*, uintptr);
void runtime·setcallerpc(void*, void*);
void* runtime·getcallerpc(void*);
/*
* runtime go-called
*/
void runtime·printbool(bool);
void runtime·printbyte(int8);
void runtime·printfloat(float64);
void runtime·printint(int64);
void runtime·printiface(Iface);
void runtime·printeface(Eface);
void runtime·printstring(String);
void runtime·printpc(void*);
void runtime·printpointer(void*);
void runtime·printuint(uint64);
void runtime·printhex(uint64);
void runtime·printslice(Slice);
void runtime·printcomplex(Complex128);
void runtime·newstackcall(FuncVal*, byte*, uint32);
void reflect·call(FuncVal*, byte*, uint32, uint32);
void runtime·panic(Eface);
void runtime·panicindex(void);
void runtime·panicslice(void);
void runtime·panicdivide(void);
/*
* runtime c-called (but written in Go)
*/
void runtime·printany(Eface);
void runtime·newTypeAssertionError(String*, String*, String*, String*, Eface*);
void runtime·newErrorString(String, Eface*);
void runtime·newErrorCString(int8*, Eface*);
void runtime·fadd64c(uint64, uint64, uint64*);
void runtime·fsub64c(uint64, uint64, uint64*);
void runtime·fmul64c(uint64, uint64, uint64*);
void runtime·fdiv64c(uint64, uint64, uint64*);
void runtime·fneg64c(uint64, uint64*);
void runtime·f32to64c(uint32, uint64*);
void runtime·f64to32c(uint64, uint32*);
void runtime·fcmp64c(uint64, uint64, int32*, bool*);
void runtime·fintto64c(int64, uint64*);
void runtime·f64tointc(uint64, int64*, bool*);
/*
* wrapped for go users
*/
float64 runtime·Inf(int32 sign);
float64 runtime·NaN(void);
float32 runtime·float32frombits(uint32 i);
uint32 runtime·float32tobits(float32 f);
float64 runtime·float64frombits(uint64 i);
uint64 runtime·float64tobits(float64 f);
float64 runtime·frexp(float64 d, int32 *ep);
bool runtime·isInf(float64 f, int32 sign);
bool runtime·isNaN(float64 f);
float64 runtime·ldexp(float64 d, int32 e);
float64 runtime·modf(float64 d, float64 *ip);
void runtime·semacquire(uint32*, bool);
void runtime·semrelease(uint32*);
int32 runtime·gomaxprocsfunc(int32 n);
void runtime·procyield(uint32);
void runtime·osyield(void);
void runtime·lockOSThread(void);
void runtime·unlockOSThread(void);
bool runtime·lockedOSThread(void);
bool runtime·showframe(Func*, G*);
void runtime·printcreatedby(G*);
void runtime·ifaceE2I(InterfaceType*, Eface, Iface*);
bool runtime·ifaceE2I2(InterfaceType*, Eface, Iface*);
uintptr runtime·memlimit(void);
// float.c
extern float64 runtime·nan;
extern float64 runtime·posinf;
extern float64 runtime·neginf;
extern uint64 ·nan;
extern uint64 ·posinf;
extern uint64 ·neginf;
#define ISNAN(f) ((f) != (f))
enum
{
UseSpanType = 1,
};
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