// 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. //go:build amd64 || arm64 || mips64 || mips64le || ppc64 || ppc64le || riscv64 || s390x || wasm // +build amd64 arm64 mips64 mips64le ppc64 ppc64le riscv64 s390x wasm package runtime import "unsafe" const ( // addrBits is the number of bits needed to represent a virtual address. // // See heapAddrBits for a table of address space sizes on // various architectures. 48 bits is enough for all // architectures except s390x. // // On AMD64, virtual addresses are 48-bit (or 57-bit) numbers sign extended to 64. // We shift the address left 16 to eliminate the sign extended part and make // room in the bottom for the count. // // On s390x, virtual addresses are 64-bit. There's not much we // can do about this, so we just hope that the kernel doesn't // get to really high addresses and panic if it does. addrBits = 48 // In addition to the 16 bits taken from the top, we can take 3 from the // bottom, because node must be pointer-aligned, giving a total of 19 bits // of count. cntBits = 64 - addrBits + 3 // On AIX, 64-bit addresses are split into 36-bit segment number and 28-bit // offset in segment. Segment numbers in the range 0x0A0000000-0x0AFFFFFFF(LSA) // are available for mmap. // We assume all lfnode addresses are from memory allocated with mmap. // We use one bit to distinguish between the two ranges. aixAddrBits = 57 aixCntBits = 64 - aixAddrBits + 3 ) func lfstackPack(node *lfnode, cnt uintptr) uint64 { if GOARCH == "ppc64" && GOOS == "aix" { return uint64(uintptr(unsafe.Pointer(node)))<<(64-aixAddrBits) | uint64(cnt&(1<> cntBits << 3))) } if GOARCH == "ppc64" && GOOS == "aix" { return (*lfnode)(unsafe.Pointer(uintptr((val >> aixCntBits << 3) | 0xa<<56))) } return (*lfnode)(unsafe.Pointer(uintptr(val >> cntBits << 3))) }