mirror of
https://github.com/golang/go
synced 2024-10-04 14:41:25 -06:00
6dbaa206fb
It's sad to introduce a new macro, but rnd shows up consistently in profiles, and the function call overwhelms the two arithmetic instructions it performs. R=r CC=golang-dev https://golang.org/cl/6260051
433 lines
8.2 KiB
C
433 lines
8.2 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 "runtime.h"
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#include "stack.h"
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#include "arch_GOARCH.h"
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enum {
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maxround = sizeof(uintptr),
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};
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uint32 runtime·panicking;
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void (*runtime·destroylock)(Lock*);
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/*
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* We assume that all architectures turn faults and the like
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* into apparent calls to runtime.sigpanic. If we see a "call"
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* to runtime.sigpanic, we do not back up the PC to find the
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* line number of the CALL instruction, because there is no CALL.
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*/
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void runtime·sigpanic(void);
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int32
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runtime·gotraceback(void)
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{
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byte *p;
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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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return runtime·atoi(p);
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}
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static Lock paniclk;
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void
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runtime·startpanic(void)
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{
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if(m->dying) {
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runtime·printf("panic during panic\n");
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runtime·exit(3);
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}
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m->dying = 1;
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runtime·xadd(&runtime·panicking, 1);
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runtime·lock(&paniclk);
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}
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void
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runtime·dopanic(int32 unused)
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{
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static bool didothers;
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if(g->sig != 0)
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runtime·printf("[signal %x code=%p addr=%p pc=%p]\n",
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g->sig, g->sigcode0, g->sigcode1, g->sigpc);
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if(runtime·gotraceback()){
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if(g != m->g0) {
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runtime·printf("\n");
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runtime·goroutineheader(g);
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runtime·traceback(runtime·getcallerpc(&unused), runtime·getcallersp(&unused), 0, g);
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}
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if(!didothers) {
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didothers = true;
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runtime·tracebackothers(g);
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}
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}
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runtime·unlock(&paniclk);
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if(runtime·xadd(&runtime·panicking, -1) != 0) {
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// Some other m is panicking too.
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// Let it print what it needs to print.
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// Wait forever without chewing up cpu.
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// It will exit when it's done.
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static Lock deadlock;
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runtime·lock(&deadlock);
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runtime·lock(&deadlock);
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}
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runtime·exit(2);
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}
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void
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runtime·panicindex(void)
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{
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runtime·panicstring("index out of range");
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}
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void
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runtime·panicslice(void)
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{
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runtime·panicstring("slice bounds out of range");
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}
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void
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runtime·throwreturn(void)
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{
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// can only happen if compiler is broken
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runtime·throw("no return at end of a typed function - compiler is broken");
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}
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void
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runtime·throwinit(void)
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{
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// can only happen with linker skew
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runtime·throw("recursive call during initialization - linker skew");
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}
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void
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runtime·throw(int8 *s)
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{
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runtime·startpanic();
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runtime·printf("throw: %s\n", s);
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runtime·dopanic(0);
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*(int32*)0 = 0; // not reached
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runtime·exit(1); // even more not reached
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}
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void
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runtime·panicstring(int8 *s)
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{
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Eface err;
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if(m->gcing) {
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runtime·printf("panic: %s\n", s);
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runtime·throw("panic during gc");
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}
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runtime·newErrorString(runtime·gostringnocopy((byte*)s), &err);
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runtime·panic(err);
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}
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int32
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runtime·mcmp(byte *s1, byte *s2, uint32 n)
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{
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uint32 i;
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byte c1, c2;
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for(i=0; i<n; i++) {
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c1 = s1[i];
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c2 = s2[i];
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if(c1 < c2)
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return -1;
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if(c1 > c2)
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return +1;
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}
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return 0;
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}
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byte*
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runtime·mchr(byte *p, byte c, byte *ep)
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{
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for(; p < ep; p++)
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if(*p == c)
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return p;
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return nil;
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}
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static int32 argc;
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static uint8** argv;
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Slice os·Args;
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Slice syscall·envs;
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void
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runtime·args(int32 c, uint8 **v)
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{
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argc = c;
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argv = v;
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}
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int32 runtime·isplan9;
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int32 runtime·iswindows;
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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(argv[i]);
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os·Args.array = (byte*)s;
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os·Args.len = argc;
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os·Args.cap = 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.array = (byte*)s;
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syscall·envs.len = n;
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syscall·envs.cap = n;
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}
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byte*
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runtime·getenv(int8 *s)
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{
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int32 i, j, len;
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byte *v, *bs;
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String* envv;
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int32 envc;
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bs = (byte*)s;
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len = runtime·findnull(bs);
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envv = (String*)syscall·envs.array;
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envc = syscall·envs.len;
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for(i=0; i<envc; i++){
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if(envv[i].len <= len)
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continue;
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v = envv[i].str;
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for(j=0; j<len; j++)
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if(bs[j] != v[j])
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goto nomatch;
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if(v[len] != '=')
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goto nomatch;
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return v+len+1;
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nomatch:;
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}
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return nil;
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}
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void
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runtime·getgoroot(String out)
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{
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byte *p;
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p = runtime·getenv("GOROOT");
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out = runtime·gostringnocopy(p);
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FLUSH(&out);
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}
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int32
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runtime·atoi(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 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 != 42)
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runtime·throw("cas64 failed");
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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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}
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void
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runtime·check(void)
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{
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int8 a;
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uint8 b;
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int16 c;
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uint16 d;
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int32 e;
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uint32 f;
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int64 g;
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uint64 h;
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float32 i, i1;
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float64 j, j1;
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void* k;
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uint16* l;
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struct x1 {
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byte x;
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};
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struct y1 {
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struct x1 x1;
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byte y;
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};
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if(sizeof(a) != 1) runtime·throw("bad a");
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if(sizeof(b) != 1) runtime·throw("bad b");
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if(sizeof(c) != 2) runtime·throw("bad c");
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if(sizeof(d) != 2) runtime·throw("bad d");
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if(sizeof(e) != 4) runtime·throw("bad e");
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if(sizeof(f) != 4) runtime·throw("bad f");
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if(sizeof(g) != 8) runtime·throw("bad g");
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if(sizeof(h) != 8) runtime·throw("bad h");
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if(sizeof(i) != 4) runtime·throw("bad i");
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if(sizeof(j) != 8) runtime·throw("bad j");
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if(sizeof(k) != sizeof(uintptr)) runtime·throw("bad k");
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if(sizeof(l) != sizeof(uintptr)) runtime·throw("bad l");
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if(sizeof(struct x1) != 1) runtime·throw("bad sizeof x1");
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if(offsetof(struct y1, y) != 1) runtime·throw("bad offsetof y1.y");
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if(sizeof(struct y1) != 2) runtime·throw("bad sizeof y1");
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uint32 z;
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z = 1;
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if(!runtime·cas(&z, 1, 2))
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runtime·throw("cas1");
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if(z != 2)
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runtime·throw("cas2");
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z = 4;
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if(runtime·cas(&z, 5, 6))
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runtime·throw("cas3");
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if(z != 4)
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runtime·throw("cas4");
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*(uint64*)&j = ~0ULL;
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if(j == j)
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runtime·throw("float64nan");
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if(!(j != j))
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runtime·throw("float64nan1");
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*(uint64*)&j1 = ~1ULL;
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if(j == j1)
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runtime·throw("float64nan2");
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if(!(j != j1))
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runtime·throw("float64nan3");
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*(uint32*)&i = ~0UL;
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if(i == i)
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runtime·throw("float32nan");
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if(!(i != i))
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runtime·throw("float32nan1");
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*(uint32*)&i1 = ~1UL;
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if(i == i1)
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runtime·throw("float32nan2");
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if(!(i != i1))
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runtime·throw("float32nan3");
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TestAtomic64();
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}
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void
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runtime·Caller(int32 skip, uintptr retpc, String retfile, int32 retline, bool retbool)
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{
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Func *f, *g;
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uintptr pc;
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uintptr rpc[2];
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/*
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* Ask for two PCs: the one we were asked for
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* and what it called, so that we can see if it
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* "called" sigpanic.
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*/
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retpc = 0;
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if(runtime·callers(1+skip-1, rpc, 2) < 2) {
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retfile = runtime·emptystring;
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retline = 0;
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retbool = false;
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} else if((f = runtime·findfunc(rpc[1])) == nil) {
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retfile = runtime·emptystring;
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retline = 0;
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retbool = true; // have retpc at least
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} else {
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retpc = rpc[1];
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retfile = f->src;
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pc = retpc;
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g = runtime·findfunc(rpc[0]);
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if(pc > f->entry && (g == nil || g->entry != (uintptr)runtime·sigpanic))
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pc--;
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retline = runtime·funcline(f, pc);
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retbool = true;
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}
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FLUSH(&retpc);
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FLUSH(&retfile);
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FLUSH(&retline);
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FLUSH(&retbool);
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}
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void
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runtime·Callers(int32 skip, Slice pc, int32 retn)
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{
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// runtime.callers uses pc.array==nil as a signal
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// to print a stack trace. Pick off 0-length pc here
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// so that we don't let a nil pc slice get to it.
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if(pc.len == 0)
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retn = 0;
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else
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retn = runtime·callers(skip, (uintptr*)pc.array, pc.len);
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FLUSH(&retn);
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}
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void
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runtime·FuncForPC(uintptr pc, void *retf)
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{
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retf = runtime·findfunc(pc);
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FLUSH(&retf);
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}
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uint32
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runtime·fastrand1(void)
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{
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uint32 x;
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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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