mirror of
https://github.com/c64scene-ar/llvm-6502.git
synced 2025-01-06 20:32:19 +00:00
83ece7a499
MCJIT remote execution (ChildTarget+RemoteTargetExternal) protocol was in dire need of refactoring. It was fail-prone, had no error reporting and implemented the same message logic on every single function. This patch rectifies it, and makes it work on ARM, where it was randomly failing. Other architectures shall profit from this change as well, making their buildbots and releases more reliable. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@199261 91177308-0d34-0410-b5e6-96231b3b80d8
269 lines
6.5 KiB
C++
269 lines
6.5 KiB
C++
#include "llvm/Config/config.h"
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#include "../RemoteTargetMessage.h"
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#include <assert.h>
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#include <map>
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#include <stdint.h>
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#include <string>
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#include <vector>
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using namespace llvm;
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class LLIChildTarget {
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public:
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~LLIChildTarget(); // OS-specific destructor
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void initialize();
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LLIMessageType waitForIncomingMessage();
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void handleMessage(LLIMessageType messageType);
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private:
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// Incoming message handlers
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void handleAllocateSpace();
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void handleLoadSection(bool IsCode);
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void handleExecute();
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void handleTerminate();
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// Outgoing message handlers
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void sendChildActive();
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void sendAllocationResult(uint64_t Addr);
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void sendLoadStatus(uint32_t Status);
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void sendExecutionComplete(int Result);
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// OS-specific functions
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void initializeConnection();
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int WriteBytes(const void *Data, size_t Size);
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int ReadBytes(void *Data, size_t Size);
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uint64_t allocate(uint32_t Alignment, uint32_t Size);
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void makeSectionExecutable(uint64_t Addr, uint32_t Size);
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void InvalidateInstructionCache(const void *Addr, size_t Len);
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void releaseMemory(uint64_t Addr, uint32_t Size);
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bool isAllocatedMemory(uint64_t Address, uint32_t Size);
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// Store a map of allocated buffers to sizes.
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typedef std::map<uint64_t, uint32_t> AllocMapType;
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AllocMapType m_AllocatedBufferMap;
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// Communication handles (OS-specific)
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void *ConnectionData;
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};
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int main() {
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LLIChildTarget ThisChild;
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ThisChild.initialize();
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LLIMessageType MsgType;
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do {
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MsgType = ThisChild.waitForIncomingMessage();
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ThisChild.handleMessage(MsgType);
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} while (MsgType != LLI_Terminate &&
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MsgType != LLI_Error);
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return 0;
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}
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// Public methods
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void LLIChildTarget::initialize() {
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initializeConnection();
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sendChildActive();
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}
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LLIMessageType LLIChildTarget::waitForIncomingMessage() {
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int32_t MsgType = -1;
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if (ReadBytes(&MsgType, 4) > 0)
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return (LLIMessageType)MsgType;
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return LLI_Error;
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}
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void LLIChildTarget::handleMessage(LLIMessageType messageType) {
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switch (messageType) {
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case LLI_AllocateSpace:
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handleAllocateSpace();
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break;
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case LLI_LoadCodeSection:
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handleLoadSection(true);
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break;
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case LLI_LoadDataSection:
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handleLoadSection(false);
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break;
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case LLI_Execute:
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handleExecute();
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break;
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case LLI_Terminate:
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handleTerminate();
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break;
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default:
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// FIXME: Handle error!
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break;
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}
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}
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// Incoming message handlers
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void LLIChildTarget::handleAllocateSpace() {
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// Read and verify the message data size.
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uint32_t DataSize;
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int rc = ReadBytes(&DataSize, 4);
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(void)rc;
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assert(rc == 4);
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assert(DataSize == 8);
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// Read the message arguments.
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uint32_t Alignment;
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uint32_t AllocSize;
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rc = ReadBytes(&Alignment, 4);
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assert(rc == 4);
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rc = ReadBytes(&AllocSize, 4);
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assert(rc == 4);
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// Allocate the memory.
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uint64_t Addr = allocate(Alignment, AllocSize);
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// Send AllocationResult message.
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sendAllocationResult(Addr);
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}
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void LLIChildTarget::handleLoadSection(bool IsCode) {
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// Read the message data size.
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uint32_t DataSize;
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int rc = ReadBytes(&DataSize, 4);
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(void)rc;
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assert(rc == 4);
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// Read the target load address.
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uint64_t Addr;
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rc = ReadBytes(&Addr, 8);
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assert(rc == 8);
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size_t BufferSize = DataSize - 8;
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if (!isAllocatedMemory(Addr, BufferSize))
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return sendLoadStatus(LLI_Status_NotAllocated);
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// Read section data into previously allocated buffer
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rc = ReadBytes((void*)Addr, BufferSize);
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if (rc != (int)(BufferSize))
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return sendLoadStatus(LLI_Status_IncompleteMsg);
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// If IsCode, mark memory executable
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if (IsCode)
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makeSectionExecutable(Addr, BufferSize);
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// Send MarkLoadComplete message.
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sendLoadStatus(LLI_Status_Success);
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}
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void LLIChildTarget::handleExecute() {
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// Read the message data size.
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uint32_t DataSize;
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int rc = ReadBytes(&DataSize, 4);
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(void)rc;
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assert(rc == 4);
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assert(DataSize == 8);
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// Read the target address.
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uint64_t Addr;
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rc = ReadBytes(&Addr, 8);
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assert(rc == 8);
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// Call function
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int Result;
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int (*fn)(void) = (int(*)(void))Addr;
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Result = fn();
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// Send ExecutionResult message.
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sendExecutionComplete(Result);
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}
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void LLIChildTarget::handleTerminate() {
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// Release all allocated memory
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AllocMapType::iterator Begin = m_AllocatedBufferMap.begin();
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AllocMapType::iterator End = m_AllocatedBufferMap.end();
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for (AllocMapType::iterator It = Begin; It != End; ++It) {
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releaseMemory(It->first, It->second);
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}
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m_AllocatedBufferMap.clear();
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}
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bool LLIChildTarget::isAllocatedMemory(uint64_t Address, uint32_t Size) {
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uint64_t End = Address+Size;
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AllocMapType::iterator ItBegin = m_AllocatedBufferMap.begin();
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AllocMapType::iterator ItEnd = m_AllocatedBufferMap.end();
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for (AllocMapType::iterator It = ItBegin; It != ItEnd; ++It) {
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uint64_t A = It->first;
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uint64_t E = A + It->second;
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// Starts and finishes inside allocated region
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if (Address >= A && End <= E)
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return true;
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}
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return false;
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}
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// Outgoing message handlers
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void LLIChildTarget::sendChildActive() {
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// Write the message type.
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uint32_t MsgType = (uint32_t)LLI_ChildActive;
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int rc = WriteBytes(&MsgType, 4);
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(void)rc;
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assert(rc == 4);
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// Write the data size.
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uint32_t DataSize = 0;
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rc = WriteBytes(&DataSize, 4);
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assert(rc == 4);
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}
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void LLIChildTarget::sendAllocationResult(uint64_t Addr) {
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// Write the message type.
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uint32_t MsgType = (uint32_t)LLI_AllocationResult;
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int rc = WriteBytes(&MsgType, 4);
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(void)rc;
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assert(rc == 4);
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// Write the data size.
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uint32_t DataSize = 8;
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rc = WriteBytes(&DataSize, 4);
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assert(rc == 4);
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// Write the allocated address.
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rc = WriteBytes(&Addr, 8);
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assert(rc == 8);
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}
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void LLIChildTarget::sendLoadStatus(uint32_t Status) {
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// Write the message type.
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uint32_t MsgType = (uint32_t)LLI_LoadResult;
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int rc = WriteBytes(&MsgType, 4);
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(void)rc;
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assert(rc == 4);
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// Write the data size.
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uint32_t DataSize = 4;
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rc = WriteBytes(&DataSize, 4);
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assert(rc == 4);
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// Write the result.
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rc = WriteBytes(&Status, 4);
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assert(rc == 4);
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}
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void LLIChildTarget::sendExecutionComplete(int Result) {
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// Write the message type.
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uint32_t MsgType = (uint32_t)LLI_ExecutionResult;
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int rc = WriteBytes(&MsgType, 4);
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(void)rc;
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assert(rc == 4);
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// Write the data size.
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uint32_t DataSize = 4;
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rc = WriteBytes(&DataSize, 4);
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assert(rc == 4);
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// Write the result.
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rc = WriteBytes(&Result, 4);
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assert(rc == 4);
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}
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#ifdef LLVM_ON_UNIX
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#include "Unix/ChildTarget.inc"
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#endif
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#ifdef LLVM_ON_WIN32
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#include "Windows/ChildTarget.inc"
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#endif
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