Summary: When a process is loaded, update its sections with the load address to resolve any created breakpoints. For the remote debugging case, the debugged process is launched remotely so GetLoadAddress is intended to pass the load address from remote to LLDB (client). Reviewers: zturner, llvm-commits, clayborg, labath Reviewed By: labath Subscribers: mgorny, sas, Hui, clayborg, labath, lldb-commits Differential Revision: https://reviews.llvm.org/D56237 llvm-svn: 354099
218 lines
7.1 KiB
C++
218 lines
7.1 KiB
C++
//===-- DynamicLoaderWindowsDYLD.cpp --------------------------------*- C++
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//-*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "DynamicLoaderWindowsDYLD.h"
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#include "lldb/Core/Module.h"
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#include "lldb/Core/PluginManager.h"
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#include "lldb/Target/ExecutionContext.h"
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#include "lldb/Target/Platform.h"
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#include "lldb/Target/Process.h"
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#include "lldb/Target/RegisterContext.h"
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#include "lldb/Target/Target.h"
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#include "lldb/Target/ThreadPlanStepInstruction.h"
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#include "lldb/Utility/Log.h"
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#include "llvm/ADT/Triple.h"
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using namespace lldb;
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using namespace lldb_private;
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DynamicLoaderWindowsDYLD::DynamicLoaderWindowsDYLD(Process *process)
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: DynamicLoader(process) {}
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DynamicLoaderWindowsDYLD::~DynamicLoaderWindowsDYLD() {}
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void DynamicLoaderWindowsDYLD::Initialize() {
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PluginManager::RegisterPlugin(GetPluginNameStatic(),
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GetPluginDescriptionStatic(), CreateInstance);
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}
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void DynamicLoaderWindowsDYLD::Terminate() {}
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ConstString DynamicLoaderWindowsDYLD::GetPluginNameStatic() {
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static ConstString g_plugin_name("windows-dyld");
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return g_plugin_name;
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}
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const char *DynamicLoaderWindowsDYLD::GetPluginDescriptionStatic() {
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return "Dynamic loader plug-in that watches for shared library "
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"loads/unloads in Windows processes.";
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}
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DynamicLoader *DynamicLoaderWindowsDYLD::CreateInstance(Process *process,
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bool force) {
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bool should_create = force;
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if (!should_create) {
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const llvm::Triple &triple_ref =
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process->GetTarget().GetArchitecture().GetTriple();
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if (triple_ref.getOS() == llvm::Triple::Win32)
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should_create = true;
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}
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if (should_create)
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return new DynamicLoaderWindowsDYLD(process);
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return nullptr;
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}
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void DynamicLoaderWindowsDYLD::OnLoadModule(const ModuleSpec &module_spec,
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lldb::addr_t module_addr) {
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// Confusingly, there is no Target::AddSharedModule. Instead, calling
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// GetSharedModule() with a new module will add it to the module list and
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// return a corresponding ModuleSP.
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Status error;
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ModuleSP module_sp =
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m_process->GetTarget().GetSharedModule(module_spec, &error);
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if (error.Fail())
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return;
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m_loaded_modules[module_sp] = module_addr;
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UpdateLoadedSectionsCommon(module_sp, module_addr, false);
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}
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void DynamicLoaderWindowsDYLD::OnUnloadModule(lldb::addr_t module_addr) {
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Address resolved_addr;
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if (!m_process->GetTarget().ResolveLoadAddress(module_addr, resolved_addr))
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return;
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ModuleSP module_sp = resolved_addr.GetModule();
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if (module_sp) {
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m_loaded_modules.erase(module_sp);
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UnloadSectionsCommon(module_sp);
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}
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}
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lldb::addr_t DynamicLoaderWindowsDYLD::GetLoadAddress(ModuleSP executable) {
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// First, see if the load address is already cached.
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auto it = m_loaded_modules.find(executable);
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if (it != m_loaded_modules.end() && it->second != LLDB_INVALID_ADDRESS)
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return it->second;
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lldb::addr_t load_addr = LLDB_INVALID_ADDRESS;
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// Second, try to get it through the process plugins. For a remote process,
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// the remote platform will be responsible for providing it.
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FileSpec file_spec(executable->GetPlatformFileSpec());
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bool is_loaded = false;
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Status status =
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m_process->GetFileLoadAddress(file_spec, is_loaded, load_addr);
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// Servers other than lldb server could respond with a bogus address.
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if (status.Success() && is_loaded && load_addr != LLDB_INVALID_ADDRESS) {
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m_loaded_modules[executable] = load_addr;
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return load_addr;
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}
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return LLDB_INVALID_ADDRESS;
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}
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void DynamicLoaderWindowsDYLD::DidAttach() {
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Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER));
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if (log)
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log->Printf("DynamicLoaderWindowsDYLD::%s()", __FUNCTION__);
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ModuleSP executable = GetTargetExecutable();
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if (!executable.get())
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return;
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// Try to fetch the load address of the file from the process, since there
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// could be randomization of the load address.
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lldb::addr_t load_addr = GetLoadAddress(executable);
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if (load_addr == LLDB_INVALID_ADDRESS)
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return;
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// Request the process base address.
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lldb::addr_t image_base = m_process->GetImageInfoAddress();
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if (image_base == load_addr)
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return;
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// Rebase the process's modules if there is a mismatch.
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UpdateLoadedSections(executable, LLDB_INVALID_ADDRESS, load_addr, false);
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ModuleList module_list;
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module_list.Append(executable);
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m_process->GetTarget().ModulesDidLoad(module_list);
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m_process->LoadModules();
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}
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void DynamicLoaderWindowsDYLD::DidLaunch() {
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Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER));
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if (log)
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log->Printf("DynamicLoaderWindowsDYLD::%s()", __FUNCTION__);
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ModuleSP executable = GetTargetExecutable();
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if (!executable.get())
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return;
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lldb::addr_t load_addr = GetLoadAddress(executable);
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if (load_addr != LLDB_INVALID_ADDRESS) {
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// Update the loaded sections so that the breakpoints can be resolved.
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UpdateLoadedSections(executable, LLDB_INVALID_ADDRESS, load_addr, false);
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ModuleList module_list;
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module_list.Append(executable);
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m_process->GetTarget().ModulesDidLoad(module_list);
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m_process->LoadModules();
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}
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}
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Status DynamicLoaderWindowsDYLD::CanLoadImage() { return Status(); }
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ConstString DynamicLoaderWindowsDYLD::GetPluginName() {
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return GetPluginNameStatic();
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}
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uint32_t DynamicLoaderWindowsDYLD::GetPluginVersion() { return 1; }
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ThreadPlanSP
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DynamicLoaderWindowsDYLD::GetStepThroughTrampolinePlan(Thread &thread,
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bool stop) {
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auto arch = m_process->GetTarget().GetArchitecture();
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if (arch.GetMachine() != llvm::Triple::x86) {
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return ThreadPlanSP();
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}
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uint64_t pc = thread.GetRegisterContext()->GetPC();
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// Max size of an instruction in x86 is 15 bytes.
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AddressRange range(pc, 2 * 15);
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ExecutionContext exe_ctx(m_process->GetTarget());
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DisassemblerSP disassembler_sp = Disassembler::DisassembleRange(
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arch, nullptr, nullptr, exe_ctx, range, true);
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if (!disassembler_sp) {
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return ThreadPlanSP();
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}
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InstructionList *insn_list = &disassembler_sp->GetInstructionList();
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if (insn_list == nullptr) {
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return ThreadPlanSP();
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}
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// First instruction in a x86 Windows trampoline is going to be an indirect
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// jump through the IAT and the next one will be a nop (usually there for
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// alignment purposes). e.g.:
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// 0x70ff4cfc <+956>: jmpl *0x7100c2a8
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// 0x70ff4d02 <+962>: nop
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auto first_insn = insn_list->GetInstructionAtIndex(0);
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auto second_insn = insn_list->GetInstructionAtIndex(1);
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if (first_insn == nullptr || second_insn == nullptr ||
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strcmp(first_insn->GetMnemonic(&exe_ctx), "jmpl") != 0 ||
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strcmp(second_insn->GetMnemonic(&exe_ctx), "nop") != 0) {
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return ThreadPlanSP();
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}
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assert(first_insn->DoesBranch() && !second_insn->DoesBranch());
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return ThreadPlanSP(new ThreadPlanStepInstruction(
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thread, false, false, eVoteNoOpinion, eVoteNoOpinion));
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}
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