| // 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 ( |
| "runtime/internal/sys" |
| "unsafe" |
| ) |
| |
| // 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) |
| } |
| |
| // getg returns the pointer to the current g. |
| // The compiler rewrites calls to this function into instructions |
| // that fetch the g directly (from TLS or from the dedicated register). |
| 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). |
| // |
| // This must NOT be go:noescape: if fn is a stack-allocated closure, |
| // fn puts g on a run queue, and g executes before fn returns, the |
| // closure will be invalidated while it is still executing. |
| func mcall(fn func(*g)) |
| |
| // systemstack runs fn on a system stack. |
| // |
| // 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 ... |
| // |
| // For the gc toolchain this permits running a function that requires |
| // additional stack space in a context where the stack can not be |
| // split. We don't really need additional stack space in gccgo, since |
| // stack splitting is handled separately. But to keep things looking |
| // the same, we do switch to the g0 stack here if necessary. |
| func systemstack(fn func()) { |
| gp := getg() |
| mp := gp.m |
| if gp == mp.g0 || gp == mp.gsignal { |
| fn() |
| } else if gp == mp.curg { |
| fn1 := func(origg *g) { |
| fn() |
| gogo(origg) |
| } |
| mcall(*(*func(*g))(noescape(unsafe.Pointer(&fn1)))) |
| } else { |
| badsystemstack() |
| } |
| } |
| |
| var badsystemstackMsg = "fatal: systemstack called from unexpected goroutine" |
| |
| //go:nosplit |
| //go:nowritebarrierrec |
| func badsystemstack() { |
| sp := stringStructOf(&badsystemstackMsg) |
| write(2, sp.str, int32(sp.len)) |
| } |
| |
| // memclrNoHeapPointers clears n bytes starting at ptr. |
| // |
| // Usually you should use typedmemclr. memclrNoHeapPointers should be |
| // used only when the caller knows that *ptr contains no heap pointers |
| // because either: |
| // |
| // *ptr is initialized memory and its type is pointer-free, or |
| // |
| // *ptr is uninitialized memory (e.g., memory that's being reused |
| // for a new allocation) and hence contains only "junk". |
| // |
| // The (CPU-specific) implementations of this function are in memclr_*.s. |
| //go:noescape |
| func memclrNoHeapPointers(ptr unsafe.Pointer, n uintptr) |
| |
| //go:linkname reflect_memclrNoHeapPointers reflect.memclrNoHeapPointers |
| func reflect_memclrNoHeapPointers(ptr unsafe.Pointer, n uintptr) { |
| memclrNoHeapPointers(ptr, n) |
| } |
| |
| // memmove copies n bytes from "from" to "to". |
| //go:noescape |
| //extern __builtin_memmove |
| func memmove(to, from unsafe.Pointer, n uintptr) |
| |
| //go:linkname reflect_memmove reflect.memmove |
| func reflect_memmove(to, from unsafe.Pointer, n uintptr) { |
| memmove(to, from, n) |
| } |
| |
| //go:noescape |
| //extern __builtin_memcmp |
| func memcmp(a, b unsafe.Pointer, size uintptr) int32 |
| |
| // exported value for testing |
| var hashLoad = float32(loadFactorNum) / float32(loadFactorDen) |
| |
| //go:nosplit |
| func fastrand() uint32 { |
| mp := getg().m |
| // Implement xorshift64+: 2 32-bit xorshift sequences added together. |
| // Shift triplet [17,7,16] was calculated as indicated in Marsaglia's |
| // Xorshift paper: https://www.jstatsoft.org/article/view/v008i14/xorshift.pdf |
| // This generator passes the SmallCrush suite, part of TestU01 framework: |
| // http://simul.iro.umontreal.ca/testu01/tu01.html |
| s1, s0 := mp.fastrand[0], mp.fastrand[1] |
| s1 ^= s1 << 17 |
| s1 = s1 ^ s0 ^ s1>>7 ^ s0>>16 |
| mp.fastrand[0], mp.fastrand[1] = s0, s1 |
| return s0 + s1 |
| } |
| |
| //go:nosplit |
| func fastrandn(n uint32) uint32 { |
| // This is similar to fastrand() % n, but faster. |
| // See https://lemire.me/blog/2016/06/27/a-fast-alternative-to-the-modulo-reduction/ |
| return uint32(uint64(fastrand()) * uint64(n) >> 32) |
| } |
| |
| //go:linkname sync_fastrand sync.fastrand |
| func sync_fastrand() uint32 { return fastrand() } |
| |
| // in asm_*.s |
| //go:noescape |
| func memequal(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 zero instructions. |
| // USE CAREFULLY! |
| //go:nosplit |
| func noescape(p unsafe.Pointer) unsafe.Pointer { |
| x := uintptr(p) |
| return unsafe.Pointer(x ^ 0) |
| } |
| |
| //go:noescape |
| func jmpdefer(fv *funcval, argp uintptr) |
| func exit1(code int32) |
| func setg(gg *g) |
| |
| //extern __builtin_trap |
| func breakpoint() |
| |
| func asminit() {} |
| |
| //go:noescape |
| func reflectcall(fntype *functype, fn *funcval, isInterface, isMethod bool, params, results *unsafe.Pointer) |
| |
| func procyield(cycles uint32) |
| |
| type neverCallThisFunction struct{} |
| |
| // goexit is the return stub at the top of every goroutine call stack. |
| // Each goroutine stack is constructed as if goexit called the |
| // goroutine's entry point function, so that when the entry point |
| // function returns, it will return to goexit, which will call goexit1 |
| // to perform the actual exit. |
| // |
| // This function must never be called directly. Call goexit1 instead. |
| // gentraceback assumes that goexit terminates the stack. A direct |
| // call on the stack will cause gentraceback to stop walking the stack |
| // prematurely and if there is leftover state it may panic. |
| func goexit(neverCallThisFunction) |
| |
| // publicationBarrier performs a store/store barrier (a "publication" |
| // or "export" barrier). Some form of synchronization is required |
| // between initializing an object and making that object accessible to |
| // another processor. Without synchronization, the initialization |
| // writes and the "publication" write may be reordered, allowing the |
| // other processor to follow the pointer and observe an uninitialized |
| // object. In general, higher-level synchronization should be used, |
| // such as locking or an atomic pointer write. publicationBarrier is |
| // for when those aren't an option, such as in the implementation of |
| // the memory manager. |
| // |
| // There's no corresponding barrier for the read side because the read |
| // side naturally has a data dependency order. All architectures that |
| // Go supports or seems likely to ever support automatically enforce |
| // data dependency ordering. |
| func publicationBarrier() |
| |
| // getcallerpc returns the program counter (PC) of its caller's caller. |
| // getcallersp returns the stack pointer (SP) of its caller's caller. |
| // The implementation may be a compiler intrinsic; there is not |
| // necessarily code implementing this on every platform. |
| // |
| // For example: |
| // |
| // func f(arg1, arg2, arg3 int) { |
| // pc := getcallerpc() |
| // sp := getcallersp() |
| // } |
| // |
| // 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. |
| // |
| // 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() uintptr |
| |
| //go:noescape |
| func getcallersp() uintptr // implemented as an intrinsic on all platforms |
| |
| // getsp returns the stack pointer (SP) of the caller of getsp. |
| //go:noinline |
| func getsp() uintptr { return getcallersp() } |
| |
| func asmcgocall(fn, arg unsafe.Pointer) int32 { |
| throw("asmcgocall") |
| return 0 |
| } |
| |
| // round n up to a multiple of a. a must be a power of 2. |
| func round(n, a uintptr) uintptr { |
| return (n + a - 1) &^ (a - 1) |
| } |
| |
| // checkASM returns whether assembly runtime checks have passed. |
| func checkASM() bool { |
| return true |
| } |
| |
| // For gccgo this is in the C code. |
| func osyield() |
| |
| //extern __go_syscall6 |
| func syscall(trap uintptr, a1, a2, a3, a4, a5, a6 uintptr) uintptr |
| |
| // For gccgo, to communicate from the C code to the Go code. |
| //go:linkname setIsCgo |
| func setIsCgo() { |
| iscgo = true |
| } |
| |
| // For gccgo, to communicate from the C code to the Go code. |
| //go:linkname setSupportAES |
| func setSupportAES(v bool) { |
| support_aes = v |
| } |
| |
| // Here for gccgo. |
| func errno() int |
| |
| // For gccgo these are written in C. |
| func entersyscall() |
| func entersyscallblock() |
| |
| // Get signal trampoline, written in C. |
| func getSigtramp() uintptr |
| |
| // The sa_handler field is generally hidden in a union, so use C accessors. |
| //go:noescape |
| func getSigactionHandler(*_sigaction) uintptr |
| |
| //go:noescape |
| func setSigactionHandler(*_sigaction, uintptr) |
| |
| // Retrieve fields from the siginfo_t and ucontext_t pointers passed |
| // to a signal handler using C, as they are often hidden in a union. |
| // Returns and, if available, PC where signal occurred. |
| func getSiginfo(*_siginfo_t, unsafe.Pointer) (sigaddr uintptr, sigpc uintptr) |
| |
| // Implemented in C for gccgo. |
| func dumpregs(*_siginfo_t, unsafe.Pointer) |
| |
| // Implemented in C for gccgo. |
| func setRandomNumber(uint32) |
| |
| // Called by gccgo's proc.c. |
| //go:linkname allocg |
| func allocg() *g { |
| return new(g) |
| } |
| |
| // Throw and rethrow an exception. |
| func throwException() |
| func rethrowException() |
| |
| // Fetch the size and required alignment of the _Unwind_Exception type |
| // used by the stack unwinder. |
| func unwindExceptionSize() uintptr |
| |
| const uintptrMask = 1<<(8*sys.PtrSize) - 1 |
| |
| type bitvector struct { |
| n int32 // # of bits |
| bytedata *uint8 |
| } |
| |
| // ptrbit returns the i'th bit in bv. |
| // ptrbit is less efficient than iterating directly over bitvector bits, |
| // and should only be used in non-performance-critical code. |
| // See adjustpointers for an example of a high-efficiency walk of a bitvector. |
| func (bv *bitvector) ptrbit(i uintptr) uint8 { |
| b := *(addb(bv.bytedata, i/8)) |
| return (b >> (i % 8)) & 1 |
| } |
| |
| // bool2int returns 0 if x is false or 1 if x is true. |
| func bool2int(x bool) int { |
| if x { |
| return 1 |
| } |
| return 0 |
| } |
| |
| // abort crashes the runtime in situations where even throw might not |
| // work. In general it should do something a debugger will recognize |
| // (e.g., an INT3 on x86). A crash in abort is recognized by the |
| // signal handler, which will attempt to tear down the runtime |
| // immediately. |
| func abort() |
| |
| // usestackmaps is true if stack map (precise stack scan) is enabled. |
| var usestackmaps bool |
| |
| // probestackmaps detects whether there are stack maps. |
| func probestackmaps() bool |
| |
| // For the math/bits packages for gccgo. |
| //go:linkname getDivideError |
| func getDivideError() error { |
| return divideError |
| } |
| |
| // For the math/bits packages for gccgo. |
| //go:linkname getOverflowError |
| func getOverflowError() error { |
| return overflowError |
| } |