// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package runtime import "unsafe" // Declarations for runtime services implemented in C or assembly. const ptrSize = 4 << (^uintptr(0) >> 63) // unsafe.Sizeof(uintptr(0)) but an ideal const const regSize = 4 << (^uintreg(0) >> 63) // unsafe.Sizeof(uintreg(0)) but an ideal const // Should be a built-in for unsafe.Pointer? //go:nosplit func add(p unsafe.Pointer, x uintptr) unsafe.Pointer { return unsafe.Pointer(uintptr(p) + x) } // n must be a power of 2 func roundup(p unsafe.Pointer, n uintptr) unsafe.Pointer { delta := -uintptr(p) & (n - 1) return unsafe.Pointer(uintptr(p) + delta) } func getg() *g // mcall switches from the g to the g0 stack and invokes fn(g), // where g is the goroutine that made the call. // mcall saves g's current PC/SP in g->sched so that it can be restored later. // It is up to fn to arrange for that later execution, typically by recording // g in a data structure, causing something to call ready(g) later. // mcall returns to the original goroutine g later, when g has been rescheduled. // fn must not return at all; typically it ends by calling schedule, to let the m // run other goroutines. // // mcall can only be called from g stacks (not g0, not gsignal). //go:noescape func mcall(fn func(*g)) // systemstack runs fn on a system stack. // If systemstack is called from the per-OS-thread (g0) stack, or // if systemstack is called from the signal handling (gsignal) stack, // systemstack calls fn directly and returns. // Otherwise, systemstack is being called from the limited stack // of an ordinary goroutine. In this case, systemstack switches // to the per-OS-thread stack, calls fn, and switches back. // It is common to use a func literal as the argument, in order // to share inputs and outputs with the code around the call // to system stack: // // ... set up y ... // systemstack(func() { // x = bigcall(y) // }) // ... use x ... // //go:noescape func systemstack(fn func()) func badsystemstack() { gothrow("systemstack called from unexpected goroutine") } // memclr clears n bytes starting at ptr. // in memclr_*.s //go:noescape func memclr(ptr unsafe.Pointer, n uintptr) // memmove copies n bytes from "from" to "to". // in memmove_*.s //go:noescape func memmove(to unsafe.Pointer, from unsafe.Pointer, n uintptr) // exported value for testing var hashLoad = loadFactor // in asm_*.s func fastrand1() uint32 // in asm_*.s //go:noescape func memeq(a, b unsafe.Pointer, size uintptr) bool // noescape hides a pointer from escape analysis. noescape is // the identity function but escape analysis doesn't think the // output depends on the input. noescape is inlined and currently // compiles down to a single xor instruction. // USE CAREFULLY! //go:nosplit func noescape(p unsafe.Pointer) unsafe.Pointer { x := uintptr(p) return unsafe.Pointer(x ^ 0) } func cgocallback(fn, frame unsafe.Pointer, framesize uintptr) func gogo(buf *gobuf) func gosave(buf *gobuf) func mincore(addr unsafe.Pointer, n uintptr, dst *byte) int32 //go:noescape func jmpdefer(fv *funcval, argp uintptr) func exit1(code int32) func asminit() func setg(gg *g) func breakpoint() func reflectcall(fn, arg unsafe.Pointer, n uint32, retoffset uint32) func procyield(cycles uint32) func cgocallback_gofunc(fv *funcval, frame unsafe.Pointer, framesize uintptr) func goexit() //go:noescape func cas(ptr *uint32, old, new uint32) bool // casp cannot have a go:noescape annotation, because // while ptr and old do not escape, new does. If new is marked as // not escaping, the compiler will make incorrect escape analysis // decisions about the value being xchg'ed. // Instead, make casp a wrapper around the actual atomic. // When calling the wrapper we mark ptr as noescape explicitly. //go:nosplit func casp(ptr *unsafe.Pointer, old, new unsafe.Pointer) bool { return casp1((*unsafe.Pointer)(noescape(unsafe.Pointer(ptr))), noescape(old), new) } func casp1(ptr *unsafe.Pointer, old, new unsafe.Pointer) bool func nop() // call to prevent inlining of function body //go:noescape func casuintptr(ptr *uintptr, old, new uintptr) bool //go:noescape func atomicstoreuintptr(ptr *uintptr, new uintptr) //go:noescape func atomicloaduintptr(ptr *uintptr) uintptr //go:noescape func atomicloaduint(ptr *uint) uint //go:noescape func setcallerpc(argp unsafe.Pointer, pc uintptr) // getcallerpc returns the program counter (PC) of its caller's caller. // getcallersp returns the stack pointer (SP) of its caller's caller. // For both, the argp must be a pointer to the caller's first function argument. // The implementation may or may not use argp, depending on // the architecture. // // For example: // // func f(arg1, arg2, arg3 int) { // pc := getcallerpc(unsafe.Pointer(&arg1)) // sp := getcallersp(unsafe.Pointer(&arg1)) // } // // These two lines find the PC and SP immediately following // the call to f (where f will return). // // The call to getcallerpc and getcallersp must be done in the // frame being asked about. It would not be correct for f to pass &arg1 // to another function g and let g call getcallerpc/getcallersp. // The call inside g might return information about g's caller or // information about f's caller or complete garbage. // // The result of getcallersp is correct at the time of the return, // but it may be invalidated by any subsequent call to a function // that might relocate the stack in order to grow or shrink it. // A general rule is that the result of getcallersp should be used // immediately and can only be passed to nosplit functions. //go:noescape func getcallerpc(argp unsafe.Pointer) uintptr //go:noescape func getcallersp(argp unsafe.Pointer) uintptr //go:noescape func asmcgocall(fn, arg unsafe.Pointer) //go:noescape func asmcgocall_errno(fn, arg unsafe.Pointer) int32 // argp used in Defer structs when there is no argp. const _NoArgs = ^uintptr(0) func morestack() func rt0_go() // return0 is a stub used to return 0 from deferproc. // It is called at the very end of deferproc to signal // the calling Go function that it should not jump // to deferreturn. // in asm_*.s func return0() // thunk to call time.now. func timenow() (sec int64, nsec int32) // in asm_*.s // not called directly; definitions here supply type information for traceback. func call16(fn, arg unsafe.Pointer, n, retoffset uint32) func call32(fn, arg unsafe.Pointer, n, retoffset uint32) func call64(fn, arg unsafe.Pointer, n, retoffset uint32) func call128(fn, arg unsafe.Pointer, n, retoffset uint32) func call256(fn, arg unsafe.Pointer, n, retoffset uint32) func call512(fn, arg unsafe.Pointer, n, retoffset uint32) func call1024(fn, arg unsafe.Pointer, n, retoffset uint32) func call2048(fn, arg unsafe.Pointer, n, retoffset uint32) func call4096(fn, arg unsafe.Pointer, n, retoffset uint32) func call8192(fn, arg unsafe.Pointer, n, retoffset uint32) func call16384(fn, arg unsafe.Pointer, n, retoffset uint32) func call32768(fn, arg unsafe.Pointer, n, retoffset uint32) func call65536(fn, arg unsafe.Pointer, n, retoffset uint32) func call131072(fn, arg unsafe.Pointer, n, retoffset uint32) func call262144(fn, arg unsafe.Pointer, n, retoffset uint32) func call524288(fn, arg unsafe.Pointer, n, retoffset uint32) func call1048576(fn, arg unsafe.Pointer, n, retoffset uint32) func call2097152(fn, arg unsafe.Pointer, n, retoffset uint32) func call4194304(fn, arg unsafe.Pointer, n, retoffset uint32) func call8388608(fn, arg unsafe.Pointer, n, retoffset uint32) func call16777216(fn, arg unsafe.Pointer, n, retoffset uint32) func call33554432(fn, arg unsafe.Pointer, n, retoffset uint32) func call67108864(fn, arg unsafe.Pointer, n, retoffset uint32) func call134217728(fn, arg unsafe.Pointer, n, retoffset uint32) func call268435456(fn, arg unsafe.Pointer, n, retoffset uint32) func call536870912(fn, arg unsafe.Pointer, n, retoffset uint32) func call1073741824(fn, arg unsafe.Pointer, n, retoffset uint32) func systemstack_switch() func prefetcht0(addr uintptr) func prefetcht1(addr uintptr) func prefetcht2(addr uintptr) func prefetchnta(addr uintptr)