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ce63ffb52f
- Some clients which used DOUT have moved to DEBUG. We are deprecating the "magic" DOUT behavior which avoided calling printing functions when the statement was disabled. In addition to being unnecessary magic, it had the downside of leaving code in -Asserts builds, and of hiding potentially unnecessary computations. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@77019 91177308-0d34-0410-b5e6-96231b3b80d8
298 lines
12 KiB
C++
298 lines
12 KiB
C++
//===-- ARMJITInfo.cpp - Implement the JIT interfaces for the ARM target --===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the JIT interfaces for the ARM target.
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "jit"
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#include "ARMJITInfo.h"
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#include "ARMInstrInfo.h"
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#include "ARMConstantPoolValue.h"
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#include "ARMRelocations.h"
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#include "ARMSubtarget.h"
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#include "llvm/Function.h"
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#include "llvm/CodeGen/JITCodeEmitter.h"
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#include "llvm/Config/alloca.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/Streams.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/System/Memory.h"
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#include <cstdlib>
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using namespace llvm;
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void ARMJITInfo::replaceMachineCodeForFunction(void *Old, void *New) {
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llvm_report_error("ARMJITInfo::replaceMachineCodeForFunction");
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}
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/// JITCompilerFunction - This contains the address of the JIT function used to
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/// compile a function lazily.
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static TargetJITInfo::JITCompilerFn JITCompilerFunction;
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// Get the ASMPREFIX for the current host. This is often '_'.
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#ifndef __USER_LABEL_PREFIX__
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#define __USER_LABEL_PREFIX__
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#endif
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#define GETASMPREFIX2(X) #X
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#define GETASMPREFIX(X) GETASMPREFIX2(X)
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#define ASMPREFIX GETASMPREFIX(__USER_LABEL_PREFIX__)
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// CompilationCallback stub - We can't use a C function with inline assembly in
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// it, because we the prolog/epilog inserted by GCC won't work for us (we need
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// to preserve more context and manipulate the stack directly). Instead,
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// write our own wrapper, which does things our way, so we have complete
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// control over register saving and restoring.
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extern "C" {
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#if defined(__arm__)
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void ARMCompilationCallback(void);
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asm(
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".text\n"
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".align 2\n"
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".globl " ASMPREFIX "ARMCompilationCallback\n"
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ASMPREFIX "ARMCompilationCallback:\n"
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// Save caller saved registers since they may contain stuff
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// for the real target function right now. We have to act as if this
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// whole compilation callback doesn't exist as far as the caller is
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// concerned, so we can't just preserve the callee saved regs.
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"stmdb sp!, {r0, r1, r2, r3, lr}\n"
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#ifndef __SOFTFP__
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"fstmfdd sp!, {d0, d1, d2, d3, d4, d5, d6, d7}\n"
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#endif
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// The LR contains the address of the stub function on entry.
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// pass it as the argument to the C part of the callback
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"mov r0, lr\n"
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"sub sp, sp, #4\n"
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// Call the C portion of the callback
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"bl " ASMPREFIX "ARMCompilationCallbackC\n"
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"add sp, sp, #4\n"
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// Restoring the LR to the return address of the function that invoked
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// the stub and de-allocating the stack space for it requires us to
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// swap the two saved LR values on the stack, as they're backwards
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// for what we need since the pop instruction has a pre-determined
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// order for the registers.
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// +--------+
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// 0 | LR | Original return address
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// +--------+
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// 1 | LR | Stub address (start of stub)
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// 2-5 | R3..R0 | Saved registers (we need to preserve all regs)
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// 6-20 | D0..D7 | Saved VFP registers
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// +--------+
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//
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#ifndef __SOFTFP__
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// Restore VFP caller-saved registers.
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"fldmfdd sp!, {d0, d1, d2, d3, d4, d5, d6, d7}\n"
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#endif
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//
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// We need to exchange the values in slots 0 and 1 so we can
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// return to the address in slot 1 with the address in slot 0
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// restored to the LR.
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"ldr r0, [sp,#20]\n"
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"ldr r1, [sp,#16]\n"
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"str r1, [sp,#20]\n"
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"str r0, [sp,#16]\n"
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// Return to the (newly modified) stub to invoke the real function.
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// The above twiddling of the saved return addresses allows us to
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// deallocate everything, including the LR the stub saved, all in one
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// pop instruction.
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"ldmia sp!, {r0, r1, r2, r3, lr, pc}\n"
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);
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#else // Not an ARM host
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void ARMCompilationCallback() {
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llvm_unreachable("Cannot call ARMCompilationCallback() on a non-ARM arch!");
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}
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#endif
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}
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/// ARMCompilationCallbackC - This is the target-specific function invoked
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/// by the function stub when we did not know the real target of a call.
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/// This function must locate the start of the stub or call site and pass
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/// it into the JIT compiler function.
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extern "C" void ARMCompilationCallbackC(intptr_t StubAddr) {
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// Get the address of the compiled code for this function.
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intptr_t NewVal = (intptr_t)JITCompilerFunction((void*)StubAddr);
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// Rewrite the call target... so that we don't end up here every time we
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// execute the call. We're replacing the first two instructions of the
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// stub with:
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// ldr pc, [pc,#-4]
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// <addr>
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if (!sys::Memory::setRangeWritable((void*)StubAddr, 8)) {
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llvm_unreachable("ERROR: Unable to mark stub writable");
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}
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*(intptr_t *)StubAddr = 0xe51ff004; // ldr pc, [pc, #-4]
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*(intptr_t *)(StubAddr+4) = NewVal;
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if (!sys::Memory::setRangeExecutable((void*)StubAddr, 8)) {
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llvm_unreachable("ERROR: Unable to mark stub executable");
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}
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}
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TargetJITInfo::LazyResolverFn
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ARMJITInfo::getLazyResolverFunction(JITCompilerFn F) {
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JITCompilerFunction = F;
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return ARMCompilationCallback;
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}
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void *ARMJITInfo::emitGlobalValueIndirectSym(const GlobalValue *GV, void *Ptr,
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JITCodeEmitter &JCE) {
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JCE.startGVStub(GV, 4, 4);
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JCE.emitWordLE((intptr_t)Ptr);
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void *PtrAddr = JCE.finishGVStub(GV);
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addIndirectSymAddr(Ptr, (intptr_t)PtrAddr);
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return PtrAddr;
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}
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void *ARMJITInfo::emitFunctionStub(const Function* F, void *Fn,
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JITCodeEmitter &JCE) {
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// If this is just a call to an external function, emit a branch instead of a
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// call. The code is the same except for one bit of the last instruction.
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if (Fn != (void*)(intptr_t)ARMCompilationCallback) {
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// Branch to the corresponding function addr.
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if (IsPIC) {
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// The stub is 8-byte size and 4-aligned.
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intptr_t LazyPtr = getIndirectSymAddr(Fn);
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if (!LazyPtr) {
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// In PIC mode, the function stub is loading a lazy-ptr.
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LazyPtr= (intptr_t)emitGlobalValueIndirectSym((GlobalValue*)F, Fn, JCE);
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DEBUG(if (F)
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errs() << "JIT: Indirect symbol emitted at [" << LazyPtr
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<< "] for GV '" << F->getName() << "'\n";
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else
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errs() << "JIT: Stub emitted at [" << LazyPtr
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<< "] for external function at '" << Fn << "'\n");
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}
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JCE.startGVStub(F, 16, 4);
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intptr_t Addr = (intptr_t)JCE.getCurrentPCValue();
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JCE.emitWordLE(0xe59fc004); // ldr pc, [pc, #+4]
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JCE.emitWordLE(0xe08fc00c); // L_func$scv: add ip, pc, ip
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JCE.emitWordLE(0xe59cf000); // ldr pc, [ip]
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JCE.emitWordLE(LazyPtr - (Addr+4+8)); // func - (L_func$scv+8)
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sys::Memory::InvalidateInstructionCache((void*)Addr, 16);
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} else {
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// The stub is 8-byte size and 4-aligned.
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JCE.startGVStub(F, 8, 4);
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intptr_t Addr = (intptr_t)JCE.getCurrentPCValue();
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JCE.emitWordLE(0xe51ff004); // ldr pc, [pc, #-4]
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JCE.emitWordLE((intptr_t)Fn); // addr of function
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sys::Memory::InvalidateInstructionCache((void*)Addr, 8);
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}
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} else {
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// The compilation callback will overwrite the first two words of this
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// stub with indirect branch instructions targeting the compiled code.
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// This stub sets the return address to restart the stub, so that
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// the new branch will be invoked when we come back.
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//
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// Branch and link to the compilation callback.
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// The stub is 16-byte size and 4-byte aligned.
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JCE.startGVStub(F, 16, 4);
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intptr_t Addr = (intptr_t)JCE.getCurrentPCValue();
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// Save LR so the callback can determine which stub called it.
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// The compilation callback is responsible for popping this prior
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// to returning.
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JCE.emitWordLE(0xe92d4000); // push {lr}
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// Set the return address to go back to the start of this stub.
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JCE.emitWordLE(0xe24fe00c); // sub lr, pc, #12
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// Invoke the compilation callback.
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JCE.emitWordLE(0xe51ff004); // ldr pc, [pc, #-4]
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// The address of the compilation callback.
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JCE.emitWordLE((intptr_t)ARMCompilationCallback);
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sys::Memory::InvalidateInstructionCache((void*)Addr, 16);
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}
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return JCE.finishGVStub(F);
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}
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intptr_t ARMJITInfo::resolveRelocDestAddr(MachineRelocation *MR) const {
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ARM::RelocationType RT = (ARM::RelocationType)MR->getRelocationType();
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switch (RT) {
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default:
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return (intptr_t)(MR->getResultPointer());
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case ARM::reloc_arm_pic_jt:
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// Destination address - jump table base.
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return (intptr_t)(MR->getResultPointer()) - MR->getConstantVal();
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case ARM::reloc_arm_jt_base:
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// Jump table base address.
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return getJumpTableBaseAddr(MR->getJumpTableIndex());
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case ARM::reloc_arm_cp_entry:
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case ARM::reloc_arm_vfp_cp_entry:
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// Constant pool entry address.
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return getConstantPoolEntryAddr(MR->getConstantPoolIndex());
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case ARM::reloc_arm_machine_cp_entry: {
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ARMConstantPoolValue *ACPV = (ARMConstantPoolValue*)MR->getConstantVal();
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assert((!ACPV->hasModifier() && !ACPV->mustAddCurrentAddress()) &&
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"Can't handle this machine constant pool entry yet!");
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intptr_t Addr = (intptr_t)(MR->getResultPointer());
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Addr -= getPCLabelAddr(ACPV->getLabelId()) + ACPV->getPCAdjustment();
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return Addr;
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}
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}
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}
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/// relocate - Before the JIT can run a block of code that has been emitted,
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/// it must rewrite the code to contain the actual addresses of any
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/// referenced global symbols.
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void ARMJITInfo::relocate(void *Function, MachineRelocation *MR,
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unsigned NumRelocs, unsigned char* GOTBase) {
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for (unsigned i = 0; i != NumRelocs; ++i, ++MR) {
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void *RelocPos = (char*)Function + MR->getMachineCodeOffset();
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intptr_t ResultPtr = resolveRelocDestAddr(MR);
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switch ((ARM::RelocationType)MR->getRelocationType()) {
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case ARM::reloc_arm_cp_entry:
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case ARM::reloc_arm_vfp_cp_entry:
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case ARM::reloc_arm_relative: {
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// It is necessary to calculate the correct PC relative value. We
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// subtract the base addr from the target addr to form a byte offset.
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ResultPtr = ResultPtr - (intptr_t)RelocPos - 8;
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// If the result is positive, set bit U(23) to 1.
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if (ResultPtr >= 0)
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*((intptr_t*)RelocPos) |= 1 << ARMII::U_BitShift;
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else {
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// Otherwise, obtain the absolute value and set bit U(23) to 0.
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*((intptr_t*)RelocPos) &= ~(1 << ARMII::U_BitShift);
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ResultPtr = - ResultPtr;
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}
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// Set the immed value calculated.
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// VFP immediate offset is multiplied by 4.
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if (MR->getRelocationType() == ARM::reloc_arm_vfp_cp_entry)
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ResultPtr = ResultPtr >> 2;
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*((intptr_t*)RelocPos) |= ResultPtr;
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// Set register Rn to PC.
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*((intptr_t*)RelocPos) |=
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ARMRegisterInfo::getRegisterNumbering(ARM::PC) << ARMII::RegRnShift;
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break;
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}
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case ARM::reloc_arm_pic_jt:
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case ARM::reloc_arm_machine_cp_entry:
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case ARM::reloc_arm_absolute: {
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// These addresses have already been resolved.
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*((intptr_t*)RelocPos) |= (intptr_t)ResultPtr;
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break;
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}
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case ARM::reloc_arm_branch: {
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// It is necessary to calculate the correct value of signed_immed_24
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// field. We subtract the base addr from the target addr to form a
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// byte offset, which must be inside the range -33554432 and +33554428.
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// Then, we set the signed_immed_24 field of the instruction to bits
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// [25:2] of the byte offset. More details ARM-ARM p. A4-11.
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ResultPtr = ResultPtr - (intptr_t)RelocPos - 8;
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ResultPtr = (ResultPtr & 0x03FFFFFC) >> 2;
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assert(ResultPtr >= -33554432 && ResultPtr <= 33554428);
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*((intptr_t*)RelocPos) |= ResultPtr;
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break;
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}
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case ARM::reloc_arm_jt_base: {
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// JT base - (instruction addr + 8)
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ResultPtr = ResultPtr - (intptr_t)RelocPos - 8;
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*((intptr_t*)RelocPos) |= ResultPtr;
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break;
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}
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}
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}
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}
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