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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.
#include "config.h"
#include "go-assert.h"
#include <complex.h>
#include <signal.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include <pthread.h>
#include <semaphore.h>
#include <ucontext.h>
#ifdef HAVE_SYS_MMAN_H
#include <sys/mman.h>
#endif
#define _STRINGIFY2_(x) #x
#define _STRINGIFY_(x) _STRINGIFY2_(x)
#define GOSYM_PREFIX _STRINGIFY_(__USER_LABEL_PREFIX__)
/* This file supports C files copied from the 6g runtime library.
This is a version of the 6g runtime.h rewritten for gccgo's version
of the code. */
typedef signed int int8 __attribute__ ((mode (QI)));
typedef unsigned int uint8 __attribute__ ((mode (QI)));
typedef signed int int16 __attribute__ ((mode (HI)));
typedef unsigned int uint16 __attribute__ ((mode (HI)));
typedef signed int int32 __attribute__ ((mode (SI)));
typedef unsigned int uint32 __attribute__ ((mode (SI)));
typedef signed int int64 __attribute__ ((mode (DI)));
typedef unsigned int uint64 __attribute__ ((mode (DI)));
typedef float float32 __attribute__ ((mode (SF)));
typedef double float64 __attribute__ ((mode (DF)));
typedef signed int intptr __attribute__ ((mode (pointer)));
typedef unsigned int uintptr __attribute__ ((mode (pointer)));
typedef intptr intgo; // Go's int
typedef uintptr uintgo; // Go's uint
typedef uintptr uintreg;
/* Defined types. */
typedef _Bool bool;
typedef uint8 byte;
typedef struct g G;
typedef struct mutex Lock;
typedef struct m M;
typedef struct p P;
typedef struct note Note;
typedef struct String String;
typedef struct FuncVal FuncVal;
typedef struct SigTab SigTab;
typedef struct mcache MCache;
typedef struct FixAlloc FixAlloc;
typedef struct hchan Hchan;
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 sudog SudoG;
typedef struct schedt Sched;
typedef struct __go_open_array Slice;
typedef struct iface Iface;
typedef struct eface Eface;
typedef struct __go_type_descriptor Type;
typedef struct _defer Defer;
typedef struct _panic Panic;
typedef struct __go_ptr_type PtrType;
typedef struct __go_func_type FuncType;
typedef struct __go_interface_type InterfaceType;
typedef struct __go_map_type MapType;
typedef struct __go_channel_type ChanType;
typedef struct tracebackg Traceback;
typedef struct location Location;
struct String
{
const byte* str;
intgo len;
};
struct FuncVal
{
void (*fn)(void);
// variable-size, fn-specific data here
};
#include "array.h"
// Rename Go types generated by mkrsysinfo.sh from C types, to avoid
// the name conflict.
#define timeval go_timeval
#define timespec go_timespec
#include "runtime.inc"
#undef timeval
#undef timespec
/*
* Per-CPU declaration.
*/
extern M* runtime_m(void);
extern G* runtime_g(void)
__asm__(GOSYM_PREFIX "runtime.getg");
extern M runtime_m0;
extern G runtime_g0;
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,
};
struct SigTab
{
int32 sig;
int32 flags;
void* fwdsig;
};
#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
// Parallel for descriptor.
struct ParFor
{
const FuncVal *body; // 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)
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
// stats
uint64 nsteal;
uint64 nstealcnt;
uint64 nprocyield;
uint64 nosyield;
uint64 nsleep;
};
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 USED(v) ((void) v)
#define ROUND(x, n) (((x)+(n)-1)&~(uintptr)((n)-1)) /* all-caps to mark as macro: it evaluates n twice */
enum {
// hashinit wants this many random bytes
HashRandomBytes = 32
};
void runtime_hashinit(void);
void runtime_traceback(int32)
__asm__ (GOSYM_PREFIX "runtime.traceback");
void runtime_tracebackothers(G*)
__asm__ (GOSYM_PREFIX "runtime.tracebackothers");
enum
{
// The maximum number of frames we print for a traceback
TracebackMaxFrames = 100,
};
/*
* external data
*/
extern uintptr* runtime_getZerobase(void)
__asm__(GOSYM_PREFIX "runtime.getZerobase");
extern G* runtime_getallg(intgo)
__asm__(GOSYM_PREFIX "runtime.getallg");
extern uintptr runtime_getallglen(void)
__asm__(GOSYM_PREFIX "runtime.getallglen");
extern G* runtime_lastg;
extern M* runtime_getallm(void)
__asm__(GOSYM_PREFIX "runtime.getallm");
extern P** runtime_allp;
extern Sched* runtime_sched;
extern uint32 runtime_panicking(void)
__asm__ (GOSYM_PREFIX "runtime.getPanicking");
extern int8* runtime_goos;
extern int32 runtime_ncpu;
extern void (*runtime_sysargs)(int32, uint8**);
extern struct debugVars runtime_debug;
extern bool runtime_isstarted;
extern bool runtime_isarchive;
/*
* common functions and data
*/
#define runtime_strcmp(s1, s2) __builtin_strcmp((s1), (s2))
#define runtime_strncmp(s1, s2, n) __builtin_strncmp((s1), (s2), (n))
#define runtime_strstr(s1, s2) __builtin_strstr((s1), (s2))
intgo runtime_findnull(const byte*)
__asm__ (GOSYM_PREFIX "runtime.findnull");
void runtime_gogo(G*)
__asm__ (GOSYM_PREFIX "runtime.gogo");
struct __go_func_type;
void runtime_args(int32, byte**)
__asm__ (GOSYM_PREFIX "runtime.args");
void runtime_osinit();
void runtime_alginit(void)
__asm__ (GOSYM_PREFIX "runtime.alginit");
void runtime_goargs(void)
__asm__ (GOSYM_PREFIX "runtime.goargs");
void runtime_goenvs(void);
void runtime_goenvs_unix(void)
__asm__ (GOSYM_PREFIX "runtime.goenvs_unix");
void runtime_throw(const char*) __attribute__ ((noreturn));
void runtime_panicstring(const char*) __attribute__ ((noreturn));
bool runtime_canpanic(G*);
void runtime_printf(const char*, ...);
int32 runtime_snprintf(byte*, int32, const char*, ...);
#define runtime_mcmp(a, b, s) __builtin_memcmp((a), (b), (s))
#define runtime_memmove(a, b, s) __builtin_memmove((a), (b), (s))
void* runtime_mal(uintptr);
String runtime_gostringnocopy(const byte*)
__asm__ (GOSYM_PREFIX "runtime.gostringnocopy");
void runtime_schedinit(void);
void runtime_initsig(bool)
__asm__ (GOSYM_PREFIX "runtime.initsig");
int32 runtime_gotraceback(bool *crash);
void runtime_goroutineheader(G*)
__asm__ (GOSYM_PREFIX "runtime.goroutineheader");
void runtime_printtrace(Slice, G*)
__asm__ (GOSYM_PREFIX "runtime.printtrace");
#define runtime_open(p, f, m) open((p), (f), (m))
#define runtime_read(d, v, n) read((d), (v), (n))
#define runtime_write(d, v, n) write((d), (v), (n))
#define runtime_close(d) close(d)
void runtime_ready(G*, intgo, bool)
__asm__ (GOSYM_PREFIX "runtime.ready");
String runtime_getenv(const char*);
int32 runtime_atoi(const byte*, intgo);
void* runtime_mstart(void*);
G* runtime_malg(bool, bool, byte**, uintptr*)
__asm__(GOSYM_PREFIX "runtime.malg");
void runtime_minit(void)
__asm__ (GOSYM_PREFIX "runtime.minit");
void runtime_signalstack(byte*, uintptr)
__asm__ (GOSYM_PREFIX "runtime.signalstack");
MCache* runtime_allocmcache(void)
__asm__ (GOSYM_PREFIX "runtime.allocmcache");
void runtime_freemcache(MCache*)
__asm__ (GOSYM_PREFIX "runtime.freemcache");
void runtime_mallocinit(void);
void runtime_mprofinit(void);
#define runtime_getcallersp(p) __builtin_frame_address(0)
void runtime_mcall(void(*)(G*));
uint32 runtime_fastrand1(void) __asm__ (GOSYM_PREFIX "runtime.fastrand1");
int32 runtime_timediv(int64, int32, int32*)
__asm__ (GOSYM_PREFIX "runtime.timediv");
int32 runtime_round2(int32 x); // round x up to a power of 2.
// atomic operations
#define runtime_cas(pval, old, new) __sync_bool_compare_and_swap (pval, old, new)
#define runtime_cas64(pval, old, new) __sync_bool_compare_and_swap (pval, old, new)
#define runtime_casp(pval, old, new) __sync_bool_compare_and_swap (pval, old, new)
// Don't confuse with XADD x86 instruction,
// this one is actually 'addx', that is, add-and-fetch.
#define runtime_xadd(p, v) __sync_add_and_fetch (p, v)
#define runtime_xadd64(p, v) __sync_add_and_fetch (p, v)
#define runtime_xchg(p, v) __atomic_exchange_n (p, v, __ATOMIC_SEQ_CST)
#define runtime_xchg64(p, v) __atomic_exchange_n (p, v, __ATOMIC_SEQ_CST)
#define runtime_xchgp(p, v) __atomic_exchange_n (p, v, __ATOMIC_SEQ_CST)
#define runtime_atomicload(p) __atomic_load_n (p, __ATOMIC_SEQ_CST)
#define runtime_atomicstore(p, v) __atomic_store_n (p, v, __ATOMIC_SEQ_CST)
#define runtime_atomicstore64(p, v) __atomic_store_n (p, v, __ATOMIC_SEQ_CST)
#define runtime_atomicload64(p) __atomic_load_n (p, __ATOMIC_SEQ_CST)
#define runtime_atomicloadp(p) __atomic_load_n (p, __ATOMIC_SEQ_CST)
#define runtime_atomicstorep(p, v) __atomic_store_n (p, v, __ATOMIC_SEQ_CST)
void runtime_setg(G*)
__asm__ (GOSYM_PREFIX "runtime.setg");
void runtime_newextram(void)
__asm__ (GOSYM_PREFIX "runtime.newextram");
#define runtime_exit(s) exit(s)
#define runtime_breakpoint() __builtin_trap()
void runtime_gosched(void);
void runtime_gosched0(G*);
void runtime_schedtrace(bool)
__asm__ (GOSYM_PREFIX "runtime.schedtrace");
void runtime_park(bool(*)(G*, void*), void*, const char*);
void runtime_parkunlock(Lock*, const char*);
void runtime_tsleep(int64, const char*);
M* runtime_newm(void);
void runtime_goexit1(void)
__asm__ (GOSYM_PREFIX "runtime.goexit1");
void runtime_entersyscall(int32)
__asm__ (GOSYM_PREFIX "runtime.entersyscall");
void runtime_entersyscallblock(int32)
__asm__ (GOSYM_PREFIX "runtime.entersyscallblock");
void runtime_exitsyscall(int32)
__asm__ (GOSYM_PREFIX "runtime.exitsyscall");
G* __go_go(void (*pfn)(void*), void*);
int32 runtime_callers(int32, Location*, int32, bool keep_callers);
int64 runtime_nanotime(void) // monotonic time
__asm__(GOSYM_PREFIX "runtime.nanotime");
int64 runtime_unixnanotime(void) // real time, can skip
__asm__ (GOSYM_PREFIX "runtime.unixnanotime");
void runtime_dopanic(int32) __attribute__ ((noreturn));
void runtime_startpanic(void)
__asm__ (GOSYM_PREFIX "runtime.startpanic");
void runtime_unwindstack(G*, byte*);
void runtime_sigprof()
__asm__ (GOSYM_PREFIX "runtime.sigprof");
void runtime_resetcpuprofiler(int32)
__asm__ (GOSYM_PREFIX "runtime.resetcpuprofiler");
void runtime_setcpuprofilerate_m(int32)
__asm__ (GOSYM_PREFIX "runtime.setcpuprofilerate_m");
void runtime_cpuprofAdd(Slice)
__asm__ (GOSYM_PREFIX "runtime.cpuprofAdd");
void runtime_usleep(uint32)
__asm__ (GOSYM_PREFIX "runtime.usleep");
int64 runtime_cputicks(void)
__asm__ (GOSYM_PREFIX "runtime.cputicks");
int64 runtime_tickspersecond(void)
__asm__ (GOSYM_PREFIX "runtime.tickspersecond");
void runtime_blockevent(int64, int32);
extern int64 runtime_blockprofilerate;
G* runtime_netpoll(bool)
__asm__ (GOSYM_PREFIX "runtime.netpoll");
void runtime_crash(void)
__asm__ (GOSYM_PREFIX "runtime.crash");
void runtime_parsedebugvars(void)
__asm__(GOSYM_PREFIX "runtime.parsedebugvars");
void _rt0_go(void);
G* runtime_timejump(void);
void runtime_iterate_finq(void (*callback)(FuncVal*, void*, const FuncType*, const PtrType*));
void runtime_stopTheWorldWithSema(void)
__asm__(GOSYM_PREFIX "runtime.stopTheWorldWithSema");
void runtime_startTheWorldWithSema(void)
__asm__(GOSYM_PREFIX "runtime.startTheWorldWithSema");
void runtime_acquireWorldsema(void)
__asm__(GOSYM_PREFIX "runtime.acquireWorldsema");
void runtime_releaseWorldsema(void)
__asm__(GOSYM_PREFIX "runtime.releaseWorldsema");
/*
* 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*)
__asm__(GOSYM_PREFIX "runtime.lock");
void runtime_unlock(Lock*)
__asm__(GOSYM_PREFIX "runtime.unlock");
/*
* 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*)
__asm__ (GOSYM_PREFIX "runtime.noteclear");
void runtime_notesleep(Note*)
__asm__ (GOSYM_PREFIX "runtime.notesleep");
void runtime_notewakeup(Note*)
__asm__ (GOSYM_PREFIX "runtime.notewakeup");
bool runtime_notetsleep(Note*, int64) // false - timeout
__asm__ (GOSYM_PREFIX "runtime.notetsleep");
bool runtime_notetsleepg(Note*, int64) // false - timeout
__asm__ (GOSYM_PREFIX "runtime.notetsleepg");
/*
* 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)
__asm__ (GOSYM_PREFIX "runtime.lfstackpush");
void* runtime_lfstackpop(uint64 *head)
__asm__ (GOSYM_PREFIX "runtime.lfstackpop");
/*
* Parallel for over [0, n).
* body() is executed for each iteration.
* nthr - total number of worker threads.
* 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, bool wait, const FuncVal *body);
void runtime_parfordo(ParFor *desc);
void runtime_parforiters(ParFor*, uintptr, uintptr*, uintptr*);
/*
* low level C-called
*/
#define runtime_mmap mmap
#define runtime_munmap munmap
#define runtime_madvise madvise
#define runtime_memclr(buf, size) __builtin_memset((buf), 0, (size))
#define runtime_getcallerpc(p) __builtin_return_address(0)
#ifdef __rtems__
void __wrap_rtems_task_variable_add(void **);
#endif
/*
* runtime go-called
*/
void reflect_call(const struct __go_func_type *, FuncVal *, _Bool, _Bool,
void **, void **)
__asm__ (GOSYM_PREFIX "reflect.call");
void runtime_panic(Eface)
__asm__ (GOSYM_PREFIX "runtime.gopanic");
void runtime_panic(Eface)
__attribute__ ((noreturn));
/*
* runtime c-called (but written in Go)
*/
void runtime_newTypeAssertionError(const String*, const String*, const String*, const String*, Eface*)
__asm__ (GOSYM_PREFIX "runtime.NewTypeAssertionError");
void runtime_newErrorCString(const char*, Eface*)
__asm__ (GOSYM_PREFIX "runtime.NewErrorCString");
/*
* wrapped for go users
*/
void runtime_semacquire(uint32 volatile *, bool)
__asm__ (GOSYM_PREFIX "runtime.semacquire");
void runtime_semrelease(uint32 volatile *)
__asm__ (GOSYM_PREFIX "runtime.semrelease");
void runtime_procyield(uint32)
__asm__(GOSYM_PREFIX "runtime.procyield");
void runtime_osyield(void)
__asm__(GOSYM_PREFIX "runtime.osyield");
void runtime_lockOSThread(void)
__asm__(GOSYM_PREFIX "runtime.lockOSThread");
void runtime_unlockOSThread(void)
__asm__(GOSYM_PREFIX "runtime.unlockOSThread");
void runtime_printcreatedby(G*)
__asm__(GOSYM_PREFIX "runtime.printcreatedby");
uintptr runtime_memlimit(void);
#define ISNAN(f) __builtin_isnan(f)
enum
{
UseSpanType = 1,
};
#define runtime_setitimer setitimer
void runtime_check(void)
__asm__ (GOSYM_PREFIX "runtime.check");
// A list of global variables that the garbage collector must scan.
struct root_list {
struct root_list *next;
struct root {
void *decl;
size_t size;
} roots[];
};
void __go_register_gc_roots(struct root_list*);
// Size of stack space allocated using Go's allocator.
// This will be 0 when using split stacks, as in that case
// the stacks are allocated by the splitstack library.
extern uintptr runtime_stacks_sys;
struct backtrace_state;
extern struct backtrace_state *__go_get_backtrace_state(void);
extern _Bool __go_file_line(uintptr, int, String*, String*, intgo *);
extern void runtime_main(void*);
extern uint32 runtime_in_callers;
int32 getproccount(void);
#define PREFETCH(p) __builtin_prefetch(p)
bool runtime_gcwaiting(void);
void runtime_badsignal(int);
Defer* runtime_newdefer(void);
void runtime_freedefer(Defer*);
struct time_now_ret
{
int64_t sec;
int32_t nsec;
};
struct time_now_ret now() __asm__ (GOSYM_PREFIX "time.now")
__attribute__ ((no_split_stack));
extern void _cgo_wait_runtime_init_done (void);
extern void _cgo_notify_runtime_init_done (void);
extern _Bool runtime_iscgo;
extern uintptr __go_end __attribute__ ((weak));
extern void *getitab(const struct __go_type_descriptor *,
const struct __go_type_descriptor *,
_Bool)
__asm__ (GOSYM_PREFIX "runtime.getitab");
extern void runtime_cpuinit(void);
extern void setIsCgo(void)
__asm__ (GOSYM_PREFIX "runtime.setIsCgo");
extern void setCpuidECX(uint32)
__asm__ (GOSYM_PREFIX "runtime.setCpuidECX");
extern void setSupportAES(bool)
__asm__ (GOSYM_PREFIX "runtime.setSupportAES");
extern void makeMainInitDone(void)
__asm__ (GOSYM_PREFIX "runtime.makeMainInitDone");
extern void closeMainInitDone(void)
__asm__ (GOSYM_PREFIX "runtime.closeMainInitDone");
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