forked from OSchip/llvm-project
355 lines
13 KiB
C++
355 lines
13 KiB
C++
//===-- BreakpointResolver.cpp ----------------------------------*- C++ -*-===//
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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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#include "lldb/Breakpoint/BreakpointResolver.h"
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#include "lldb/Breakpoint/Breakpoint.h"
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#include "lldb/Breakpoint/BreakpointLocation.h"
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// Have to include the other breakpoint resolver types here so the static
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// create from StructuredData can call them.
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#include "lldb/Breakpoint/BreakpointResolverAddress.h"
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#include "lldb/Breakpoint/BreakpointResolverFileLine.h"
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#include "lldb/Breakpoint/BreakpointResolverFileRegex.h"
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#include "lldb/Breakpoint/BreakpointResolverName.h"
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#include "lldb/Breakpoint/BreakpointResolverScripted.h"
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#include "lldb/Core/Address.h"
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#include "lldb/Core/ModuleList.h"
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#include "lldb/Core/SearchFilter.h"
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#include "lldb/Symbol/CompileUnit.h"
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#include "lldb/Symbol/Function.h"
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#include "lldb/Symbol/SymbolContext.h"
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#include "lldb/Target/Target.h"
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#include "lldb/Utility/Log.h"
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#include "lldb/Utility/Stream.h"
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#include "lldb/Utility/StreamString.h"
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using namespace lldb_private;
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using namespace lldb;
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//----------------------------------------------------------------------
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// BreakpointResolver:
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//----------------------------------------------------------------------
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const char *BreakpointResolver::g_ty_to_name[] = {"FileAndLine", "Address",
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"SymbolName", "SourceRegex",
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"Exception", "Unknown"};
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const char *BreakpointResolver::g_option_names[static_cast<uint32_t>(
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BreakpointResolver::OptionNames::LastOptionName)] = {
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"AddressOffset", "Exact", "FileName", "Inlines", "Language",
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"LineNumber", "Column", "ModuleName", "NameMask", "Offset",
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"PythonClass", "Regex", "ScriptArgs", "SectionName", "SearchDepth",
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"SkipPrologue", "SymbolNames"};
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const char *BreakpointResolver::ResolverTyToName(enum ResolverTy type) {
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if (type > LastKnownResolverType)
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return g_ty_to_name[UnknownResolver];
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return g_ty_to_name[type];
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}
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BreakpointResolver::ResolverTy
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BreakpointResolver::NameToResolverTy(llvm::StringRef name) {
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for (size_t i = 0; i < LastKnownResolverType; i++) {
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if (name == g_ty_to_name[i])
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return (ResolverTy)i;
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}
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return UnknownResolver;
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}
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BreakpointResolver::BreakpointResolver(Breakpoint *bkpt,
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const unsigned char resolverTy,
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lldb::addr_t offset)
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: m_breakpoint(bkpt), m_offset(offset), SubclassID(resolverTy) {}
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BreakpointResolver::~BreakpointResolver() {}
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BreakpointResolverSP BreakpointResolver::CreateFromStructuredData(
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const StructuredData::Dictionary &resolver_dict, Status &error) {
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BreakpointResolverSP result_sp;
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if (!resolver_dict.IsValid()) {
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error.SetErrorString("Can't deserialize from an invalid data object.");
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return result_sp;
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}
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llvm::StringRef subclass_name;
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bool success = resolver_dict.GetValueForKeyAsString(
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GetSerializationSubclassKey(), subclass_name);
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if (!success) {
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error.SetErrorStringWithFormat(
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"Resolver data missing subclass resolver key");
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return result_sp;
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}
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ResolverTy resolver_type = NameToResolverTy(subclass_name);
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if (resolver_type == UnknownResolver) {
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error.SetErrorStringWithFormatv("Unknown resolver type: {0}.",
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subclass_name);
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return result_sp;
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}
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StructuredData::Dictionary *subclass_options = nullptr;
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success = resolver_dict.GetValueForKeyAsDictionary(
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GetSerializationSubclassOptionsKey(), subclass_options);
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if (!success || !subclass_options || !subclass_options->IsValid()) {
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error.SetErrorString("Resolver data missing subclass options key.");
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return result_sp;
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}
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lldb::addr_t offset;
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success = subclass_options->GetValueForKeyAsInteger(
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GetKey(OptionNames::Offset), offset);
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if (!success) {
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error.SetErrorString("Resolver data missing offset options key.");
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return result_sp;
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}
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BreakpointResolver *resolver;
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switch (resolver_type) {
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case FileLineResolver:
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resolver = BreakpointResolverFileLine::CreateFromStructuredData(
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nullptr, *subclass_options, error);
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break;
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case AddressResolver:
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resolver = BreakpointResolverAddress::CreateFromStructuredData(
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nullptr, *subclass_options, error);
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break;
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case NameResolver:
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resolver = BreakpointResolverName::CreateFromStructuredData(
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nullptr, *subclass_options, error);
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break;
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case FileRegexResolver:
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resolver = BreakpointResolverFileRegex::CreateFromStructuredData(
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nullptr, *subclass_options, error);
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break;
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case PythonResolver:
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resolver = BreakpointResolverScripted::CreateFromStructuredData(
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nullptr, *subclass_options, error);
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break;
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case ExceptionResolver:
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error.SetErrorString("Exception resolvers are hard.");
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break;
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default:
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llvm_unreachable("Should never get an unresolvable resolver type.");
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}
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if (!error.Success()) {
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return result_sp;
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} else {
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// Add on the global offset option:
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resolver->SetOffset(offset);
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return BreakpointResolverSP(resolver);
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}
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}
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StructuredData::DictionarySP BreakpointResolver::WrapOptionsDict(
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StructuredData::DictionarySP options_dict_sp) {
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if (!options_dict_sp || !options_dict_sp->IsValid())
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return StructuredData::DictionarySP();
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StructuredData::DictionarySP type_dict_sp(new StructuredData::Dictionary());
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type_dict_sp->AddStringItem(GetSerializationSubclassKey(), GetResolverName());
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type_dict_sp->AddItem(GetSerializationSubclassOptionsKey(), options_dict_sp);
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// Add the m_offset to the dictionary:
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options_dict_sp->AddIntegerItem(GetKey(OptionNames::Offset), m_offset);
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return type_dict_sp;
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}
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void BreakpointResolver::SetBreakpoint(Breakpoint *bkpt) {
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m_breakpoint = bkpt;
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NotifyBreakpointSet();
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}
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void BreakpointResolver::ResolveBreakpointInModules(SearchFilter &filter,
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ModuleList &modules) {
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filter.SearchInModuleList(*this, modules);
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}
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void BreakpointResolver::ResolveBreakpoint(SearchFilter &filter) {
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filter.Search(*this);
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}
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namespace {
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struct SourceLoc {
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uint32_t line = UINT32_MAX;
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uint32_t column;
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SourceLoc(uint32_t l, uint32_t c) : line(l), column(c ? c : UINT32_MAX) {}
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SourceLoc(const SymbolContext &sc)
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: line(sc.line_entry.line),
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column(sc.line_entry.column ? sc.line_entry.column : UINT32_MAX) {}
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};
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bool operator<(const SourceLoc a, const SourceLoc b) {
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if (a.line < b.line)
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return true;
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if (a.line > b.line)
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return false;
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uint32_t a_col = a.column ? a.column : UINT32_MAX;
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uint32_t b_col = b.column ? b.column : UINT32_MAX;
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return a_col < b_col;
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}
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} // namespace
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void BreakpointResolver::SetSCMatchesByLine(SearchFilter &filter,
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SymbolContextList &sc_list,
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bool skip_prologue,
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llvm::StringRef log_ident,
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uint32_t line, uint32_t column) {
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llvm::SmallVector<SymbolContext, 16> all_scs;
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for (uint32_t i = 0; i < sc_list.GetSize(); ++i)
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all_scs.push_back(sc_list[i]);
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while (all_scs.size()) {
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uint32_t closest_line = UINT32_MAX;
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// Move all the elements with a matching file spec to the end.
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auto &match = all_scs[0];
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auto worklist_begin = std::partition(
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all_scs.begin(), all_scs.end(), [&](const SymbolContext &sc) {
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if (sc.line_entry.file == match.line_entry.file ||
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sc.line_entry.original_file == match.line_entry.original_file) {
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// When a match is found, keep track of the smallest line number.
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closest_line = std::min(closest_line, sc.line_entry.line);
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return false;
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}
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return true;
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});
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// (worklist_begin, worklist_end) now contains all entries for one filespec.
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auto worklist_end = all_scs.end();
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if (column) {
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// If a column was requested, do a more precise match and only
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// return the first location that comes after or at the
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// requested location.
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SourceLoc requested(line, column);
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// First, filter out all entries left of the requested column.
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worklist_end = std::remove_if(
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worklist_begin, worklist_end,
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[&](const SymbolContext &sc) { return SourceLoc(sc) < requested; });
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// Sort the remaining entries by (line, column).
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std::sort(worklist_begin, worklist_end,
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[](const SymbolContext &a, const SymbolContext &b) {
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return SourceLoc(a) < SourceLoc(b);
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});
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// Filter out all locations with a source location after the closest match.
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if (worklist_begin != worklist_end)
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worklist_end = std::remove_if(
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worklist_begin, worklist_end, [&](const SymbolContext &sc) {
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return SourceLoc(*worklist_begin) < SourceLoc(sc);
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});
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} else {
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// Remove all entries with a larger line number.
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// ResolveSymbolContext will always return a number that is >=
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// the line number you pass in. So the smaller line number is
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// always better.
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worklist_end = std::remove_if(worklist_begin, worklist_end,
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[&](const SymbolContext &sc) {
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return closest_line != sc.line_entry.line;
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});
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}
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// Sort by file address.
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std::sort(worklist_begin, worklist_end,
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[](const SymbolContext &a, const SymbolContext &b) {
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return a.line_entry.range.GetBaseAddress().GetFileAddress() <
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b.line_entry.range.GetBaseAddress().GetFileAddress();
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});
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// Go through and see if there are line table entries that are
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// contiguous, and if so keep only the first of the contiguous range.
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// We do this by picking the first location in each lexical block.
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llvm::SmallDenseSet<Block *, 8> blocks_with_breakpoints;
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for (auto first = worklist_begin; first != worklist_end; ++first) {
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assert(!blocks_with_breakpoints.count(first->block));
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blocks_with_breakpoints.insert(first->block);
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worklist_end =
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std::remove_if(std::next(first), worklist_end,
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[&](const SymbolContext &sc) {
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return blocks_with_breakpoints.count(sc.block);
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});
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}
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// Make breakpoints out of the closest line number match.
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for (auto &sc : llvm::make_range(worklist_begin, worklist_end))
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AddLocation(filter, sc, skip_prologue, log_ident);
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// Remove all contexts processed by this iteration.
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all_scs.erase(worklist_begin, all_scs.end());
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}
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}
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void BreakpointResolver::AddLocation(SearchFilter &filter,
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const SymbolContext &sc,
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bool skip_prologue,
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llvm::StringRef log_ident) {
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Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_BREAKPOINTS));
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Address line_start = sc.line_entry.range.GetBaseAddress();
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if (!line_start.IsValid()) {
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if (log)
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log->Printf("error: Unable to set breakpoint %s at file address "
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"0x%" PRIx64 "\n",
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log_ident.str().c_str(), line_start.GetFileAddress());
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return;
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}
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if (!filter.AddressPasses(line_start)) {
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if (log)
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log->Printf("Breakpoint %s at file address 0x%" PRIx64
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" didn't pass the filter.\n",
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log_ident.str().c_str(), line_start.GetFileAddress());
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}
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// If the line number is before the prologue end, move it there...
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bool skipped_prologue = false;
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if (skip_prologue && sc.function) {
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Address prologue_addr(sc.function->GetAddressRange().GetBaseAddress());
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if (prologue_addr.IsValid() && (line_start == prologue_addr)) {
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const uint32_t prologue_byte_size = sc.function->GetPrologueByteSize();
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if (prologue_byte_size) {
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prologue_addr.Slide(prologue_byte_size);
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if (filter.AddressPasses(prologue_addr)) {
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skipped_prologue = true;
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line_start = prologue_addr;
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}
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}
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}
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}
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BreakpointLocationSP bp_loc_sp(AddLocation(line_start));
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if (log && bp_loc_sp && !m_breakpoint->IsInternal()) {
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StreamString s;
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bp_loc_sp->GetDescription(&s, lldb::eDescriptionLevelVerbose);
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log->Printf("Added location (skipped prologue: %s): %s \n",
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skipped_prologue ? "yes" : "no", s.GetData());
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}
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}
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BreakpointLocationSP BreakpointResolver::AddLocation(Address loc_addr,
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bool *new_location) {
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loc_addr.Slide(m_offset);
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return m_breakpoint->AddLocation(loc_addr, new_location);
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}
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void BreakpointResolver::SetOffset(lldb::addr_t offset) {
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// There may already be an offset, so we are actually adjusting location
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// addresses by the difference.
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// lldb::addr_t slide = offset - m_offset;
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// FIXME: We should go fix up all the already set locations for the new
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// slide.
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m_offset = offset;
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}
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