6736ef96ea
The next revision, 19185, renames several runtime files, and will be handled in a separate change. From-SVN: r211328
365 lines
7.5 KiB
C
365 lines
7.5 KiB
C
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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#include <signal.h>
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#include <unistd.h>
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#include "config.h"
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#include "runtime.h"
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#include "array.h"
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#include "go-panic.h"
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// The GOTRACEBACK environment variable controls the
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// behavior of a Go program that is crashing and exiting.
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// GOTRACEBACK=0 suppress all tracebacks
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// GOTRACEBACK=1 default behavior - show tracebacks but exclude runtime frames
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// GOTRACEBACK=2 show tracebacks including runtime frames
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// GOTRACEBACK=crash show tracebacks including runtime frames, then crash (core dump etc)
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int32
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runtime_gotraceback(bool *crash)
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{
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const byte *p;
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if(crash != nil)
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*crash = false;
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p = runtime_getenv("GOTRACEBACK");
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if(p == nil || p[0] == '\0')
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return 1; // default is on
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if(runtime_strcmp((const char *)p, "crash") == 0) {
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if(crash != nil)
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*crash = true;
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return 2; // extra information
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}
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return runtime_atoi(p);
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}
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static int32 argc;
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static byte** argv;
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extern Slice os_Args __asm__ (GOSYM_PREFIX "os.Args");
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extern Slice syscall_Envs __asm__ (GOSYM_PREFIX "syscall.Envs");
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void (*runtime_sysargs)(int32, uint8**);
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void
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runtime_args(int32 c, byte **v)
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{
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argc = c;
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argv = v;
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if(runtime_sysargs != nil)
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runtime_sysargs(c, v);
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}
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byte*
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runtime_progname()
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{
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return argc == 0 ? nil : argv[0];
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}
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void
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runtime_goargs(void)
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{
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String *s;
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int32 i;
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// for windows implementation see "os" package
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if(Windows)
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return;
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s = runtime_malloc(argc*sizeof s[0]);
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for(i=0; i<argc; i++)
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s[i] = runtime_gostringnocopy((const byte*)argv[i]);
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os_Args.__values = (void*)s;
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os_Args.__count = argc;
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os_Args.__capacity = argc;
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}
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void
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runtime_goenvs_unix(void)
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{
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String *s;
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int32 i, n;
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for(n=0; argv[argc+1+n] != 0; n++)
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;
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s = runtime_malloc(n*sizeof s[0]);
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for(i=0; i<n; i++)
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s[i] = runtime_gostringnocopy(argv[argc+1+i]);
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syscall_Envs.__values = (void*)s;
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syscall_Envs.__count = n;
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syscall_Envs.__capacity = n;
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}
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int32
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runtime_atoi(const byte *p)
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{
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int32 n;
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n = 0;
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while('0' <= *p && *p <= '9')
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n = n*10 + *p++ - '0';
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return n;
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}
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static struct root_list runtime_roots =
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{ nil,
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{ { &syscall_Envs, sizeof syscall_Envs },
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{ &os_Args, sizeof os_Args },
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{ nil, 0 } },
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};
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static void
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TestAtomic64(void)
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{
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uint64 z64, x64;
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z64 = 42;
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x64 = 0;
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PREFETCH(&z64);
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if(runtime_cas64(&z64, x64, 1))
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runtime_throw("cas64 failed");
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if(x64 != 0)
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runtime_throw("cas64 failed");
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x64 = 42;
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if(!runtime_cas64(&z64, x64, 1))
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runtime_throw("cas64 failed");
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if(x64 != 42 || z64 != 1)
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runtime_throw("cas64 failed");
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if(runtime_atomicload64(&z64) != 1)
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runtime_throw("load64 failed");
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runtime_atomicstore64(&z64, (1ull<<40)+1);
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if(runtime_atomicload64(&z64) != (1ull<<40)+1)
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runtime_throw("store64 failed");
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if(runtime_xadd64(&z64, (1ull<<40)+1) != (2ull<<40)+2)
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runtime_throw("xadd64 failed");
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if(runtime_atomicload64(&z64) != (2ull<<40)+2)
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runtime_throw("xadd64 failed");
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if(runtime_xchg64(&z64, (3ull<<40)+3) != (2ull<<40)+2)
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runtime_throw("xchg64 failed");
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if(runtime_atomicload64(&z64) != (3ull<<40)+3)
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runtime_throw("xchg64 failed");
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}
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void
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runtime_check(void)
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{
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__go_register_gc_roots(&runtime_roots);
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TestAtomic64();
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}
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uint32
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runtime_fastrand1(void)
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{
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M *m;
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uint32 x;
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m = runtime_m();
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x = m->fastrand;
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x += x;
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if(x & 0x80000000L)
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x ^= 0x88888eefUL;
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m->fastrand = x;
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return x;
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}
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int64
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runtime_cputicks(void)
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{
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#if defined(__386__) || defined(__x86_64__)
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uint32 low, high;
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asm("rdtsc" : "=a" (low), "=d" (high));
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return (int64)(((uint64)high << 32) | (uint64)low);
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#else
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// FIXME: implement for other processors.
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return 0;
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#endif
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}
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bool
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runtime_showframe(String s, bool current)
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{
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static int32 traceback = -1;
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if(current && runtime_m()->throwing > 0)
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return 1;
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if(traceback < 0)
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traceback = runtime_gotraceback(nil);
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return traceback > 1 || (__builtin_memchr(s.str, '.', s.len) != nil && __builtin_memcmp(s.str, "runtime.", 7) != 0);
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}
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static Lock ticksLock;
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static int64 ticks;
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int64
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runtime_tickspersecond(void)
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{
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int64 res, t0, t1, c0, c1;
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res = (int64)runtime_atomicload64((uint64*)&ticks);
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if(res != 0)
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return ticks;
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runtime_lock(&ticksLock);
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res = ticks;
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if(res == 0) {
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t0 = runtime_nanotime();
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c0 = runtime_cputicks();
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runtime_usleep(100*1000);
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t1 = runtime_nanotime();
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c1 = runtime_cputicks();
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if(t1 == t0)
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t1++;
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res = (c1-c0)*1000*1000*1000/(t1-t0);
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if(res == 0)
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res++;
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runtime_atomicstore64((uint64*)&ticks, res);
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}
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runtime_unlock(&ticksLock);
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return res;
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}
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int64 runtime_pprof_runtime_cyclesPerSecond(void)
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__asm__ (GOSYM_PREFIX "runtime_pprof.runtime_cyclesPerSecond");
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int64
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runtime_pprof_runtime_cyclesPerSecond(void)
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{
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return runtime_tickspersecond();
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}
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// Called to initialize a new m (including the bootstrap m).
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// Called on the parent thread (main thread in case of bootstrap), can allocate memory.
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void
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runtime_mpreinit(M *mp)
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{
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mp->gsignal = runtime_malg(32*1024, &mp->gsignalstack, &mp->gsignalstacksize); // OS X wants >=8K, Linux >=2K
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}
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// Called to initialize a new m (including the bootstrap m).
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// Called on the new thread, can not allocate memory.
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void
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runtime_minit(void)
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{
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M* m;
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sigset_t sigs;
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// Initialize signal handling.
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m = runtime_m();
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runtime_signalstack(m->gsignalstack, m->gsignalstacksize);
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if (sigemptyset(&sigs) != 0)
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runtime_throw("sigemptyset");
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pthread_sigmask(SIG_SETMASK, &sigs, nil);
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}
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// Called from dropm to undo the effect of an minit.
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void
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runtime_unminit(void)
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{
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runtime_signalstack(nil, 0);
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}
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void
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runtime_signalstack(byte *p, int32 n)
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{
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stack_t st;
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st.ss_sp = p;
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st.ss_size = n;
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st.ss_flags = 0;
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if(p == nil)
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st.ss_flags = SS_DISABLE;
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if(sigaltstack(&st, nil) < 0)
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*(int *)0xf1 = 0xf1;
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}
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DebugVars runtime_debug;
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static struct {
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const char* name;
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int32* value;
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} dbgvar[] = {
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{"allocfreetrace", &runtime_debug.allocfreetrace},
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{"efence", &runtime_debug.efence},
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{"gctrace", &runtime_debug.gctrace},
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{"scheddetail", &runtime_debug.scheddetail},
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{"schedtrace", &runtime_debug.schedtrace},
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};
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void
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runtime_parsedebugvars(void)
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{
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const byte *p;
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intgo i, n;
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p = runtime_getenv("GODEBUG");
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if(p == nil)
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return;
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for(;;) {
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for(i=0; i<(intgo)nelem(dbgvar); i++) {
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n = runtime_findnull((const byte*)dbgvar[i].name);
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if(runtime_mcmp(p, dbgvar[i].name, n) == 0 && p[n] == '=')
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*dbgvar[i].value = runtime_atoi(p+n+1);
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}
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p = (const byte *)runtime_strstr((const char *)p, ",");
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if(p == nil)
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break;
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p++;
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}
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}
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// Poor mans 64-bit division.
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// This is a very special function, do not use it if you are not sure what you are doing.
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// int64 division is lowered into _divv() call on 386, which does not fit into nosplit functions.
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// Handles overflow in a time-specific manner.
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int32
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runtime_timediv(int64 v, int32 div, int32 *rem)
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{
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int32 res, bit;
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if(v >= (int64)div*0x7fffffffLL) {
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if(rem != nil)
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*rem = 0;
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return 0x7fffffff;
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}
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res = 0;
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for(bit = 30; bit >= 0; bit--) {
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if(v >= ((int64)div<<bit)) {
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v = v - ((int64)div<<bit);
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res += 1<<bit;
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}
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}
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if(rem != nil)
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*rem = v;
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return res;
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}
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// Setting the max stack size doesn't really do anything for gccgo.
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uintptr runtime_maxstacksize = 1<<20; // enough until runtime.main sets it for real
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intgo runtime_debug_setMaxStack(intgo)
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__asm__ (GOSYM_PREFIX "runtime_debug.setMaxStack");
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intgo
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runtime_debug_setMaxStack(intgo in)
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{
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intgo out;
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out = runtime_maxstacksize;
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runtime_maxstacksize = in;
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return out;
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}
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void memclrBytes(Slice)
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__asm__ (GOSYM_PREFIX "runtime.memclrBytes");
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void
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memclrBytes(Slice s)
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{
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runtime_memclr(s.__values, s.__count);
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}
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