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ApiMatchHandler.cpp
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ApiMatchHandler.cpp
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//
// Created by Vladimir on 20.06.20.
//
#include "ApiMatchHandler.h"
#include <string>
#include <sstream>
#include <climits>
#include <fstream>
#include "clang/Lex/Preprocessor.h"
#include "clang/Tooling/Inclusions/IncludeStyle.h"
#include "Globals.h"
#include "Utils.h"
#include <filesystem>
using namespace clang;
std::string ApiMatchHandler::getFunctionIdentifier(const CallExpr *CallExpression) {
const FunctionDecl *FnDeclaration = CallExpression->getDirectCallee();
//abort if invalid call
if (FnDeclaration == nullptr)
return nullptr;
IdentifierInfo *II = FnDeclaration->getIdentifier();
if (II == nullptr) {
return nullptr;
}
return II->getName().data();
}
bool ApiMatchHandler::replaceIdentifier(const CallExpr *CallExpression, const std::string &ApiName,
const std::string &NewIdentifier) {
return this->ASTRewriter->ReplaceText(CallExpression->getBeginLoc(), ApiName.length(), NewIdentifier);
}
bool ApiMatchHandler::handleCallExpr(const CallExpr *CallExpression, clang::ASTContext *const pContext) {
std::string Identifier = getFunctionIdentifier(CallExpression);
if (shouldReplaceWithSyscall(Identifier)) {
rewriteApiToSyscall(CallExpression, pContext, Identifier);
return true;
}
std::string Replacement = Utils::translateStringToIdentifier(Identifier);
if (!addGetProcAddress(CallExpression, pContext, Replacement, Identifier))
return false;
return replaceIdentifier(CallExpression, Identifier, Replacement);
}
void ApiMatchHandler::run(const MatchResult &Result) {
llvm::outs() << "Found " << _ApiName << "\n";
llvm::outs() << "Found " << _TypeDef << "\n";
const auto *CallExpression = Result.Nodes.getNodeAs<clang::CallExpr>("callExpr");
handleCallExpr(CallExpression, Result.Context);
}
bool ApiMatchHandler::addGetProcAddress(const clang::CallExpr *pCallExpression, clang::ASTContext *const pContext,
const std::string &NewIdentifier, std::string &ApiName) {
SourceRange EnclosingFunctionRange = findInjectionSpot(pContext, clang::DynTypedNode(),
*pCallExpression, 0);
std::stringstream Result;
// add function prototype if not already added
//if(std::find(TypedefAdded.begin(), TypedefAdded.end(), pCallExpression->getDirectCallee()) == TypedefAdded.end()) {
Result << "\t" << _TypeDef << "\n";
//}
// add LoadLibrary with obfuscated strings
std::string LoadLibraryVariable = Utils::translateStringToIdentifier(_Library);
std::string LoadLibraryString = Utils::generateVariableDeclaration(LoadLibraryVariable, _Library);
std::string LoadLibraryHandleIdentifier = Utils::translateStringToIdentifier("hHandle_" + _Library);
Result << "\t" << LoadLibraryString << std::endl;
Result << "\tHANDLE " << LoadLibraryHandleIdentifier << " = LoadLibrary(" << LoadLibraryVariable << ");\n";
// add GetProcAddress with obfuscated string: TypeDef NewIdentifier = (TypeDef) GetProcAddress(handleIdentifier, ApiName)
std::string ApiNameIdentifier = Utils::translateStringToIdentifier(ApiName);
std::string ApiNameDecl = Utils::generateVariableDeclaration(ApiNameIdentifier, ApiName);
Result << "\t" << ApiNameDecl << "\n";
Result << "\t_" << ApiName << " " << NewIdentifier << " = (_" << ApiName << ") GetProcAddress("
<< LoadLibraryHandleIdentifier << ", " << ApiNameIdentifier << ");\n";
TypedefAdded.push_back(pCallExpression->getDirectCallee());
// add everything at the beginning of the function.
return !(ASTRewriter->InsertText(EnclosingFunctionRange.getBegin(), Result.str()));
}
SourceRange
ApiMatchHandler::findInjectionSpot(clang::ASTContext *const Context, clang::DynTypedNode Parent,
const clang::CallExpr &Literal, uint64_t Iterations) {
if (Iterations > Globs::CLIMB_PARENTS_MAX_ITER)
throw std::runtime_error("Reached max iterations when trying to find a function declaration");
clang::DynTypedNodeList parents = Context->getParents(Literal);;
if (Iterations > 0) {
parents = Context->getParents(Parent);
}
for (const auto &parent : parents) {
StringRef ParentNodeKind = parent.getNodeKind().asStringRef();
if (ParentNodeKind.find("FunctionDecl") != std::string::npos) {
auto FunDecl = parent.get<clang::FunctionDecl>();
auto *Statement = FunDecl->getBody();
auto *FirstChild = *Statement->child_begin();
return {FirstChild->getBeginLoc(), FunDecl->getEndLoc()};
}
return findInjectionSpot(Context, parent, Literal, ++Iterations);
}
}
static std::vector<std::string> GetArgs(const CallExpr *CallExpression) {
std::vector<std::string> Args;
clang::LangOptions LangOpts;
LangOpts.CPlusPlus = true;
clang::PrintingPolicy Policy(LangOpts);
for (unsigned int i = 0; i < CallExpression->getNumArgs(); i++) {
std::string TypeS;
llvm::raw_string_ostream s(TypeS);
CallExpression->getArg(i)->printPretty(s, 0, Policy);
Args.push_back(s.str());
}
return Args;
}
bool ApiMatchHandler::shouldReplaceWithSyscall(std::string ApiName) {
return std::find(Syscalls.begin(), Syscalls.end(), ApiName) != Syscalls.end();
}
clang::SourceLocation
ApiMatchHandler::findFirstFunctionDecl(const Expr &pExpr, clang::DynTypedNode Node,
clang::ASTContext *const Context, SourceLocation Loc,
uint64_t Iterations) {
if (Iterations > Globs::CLIMB_PARENTS_MAX_ITER) {
return Loc;
}
clang::DynTypedNodeList parents = Context->getParents(pExpr);
if (Iterations > 0) {
parents = Context->getParents(Node);
}
for (const auto &parent : parents) {
StringRef ParentNodeKind = parent.getNodeKind().asStringRef();
if (ParentNodeKind.find("TranslationUnitDecl") != std::string::npos) {
llvm::outs() << "Found TranslationUnitDecl\n";
bool invalid;
auto TmpLineNumber = INT_MAX;
llvm::outs() << "TmpLineNumber : " << TmpLineNumber << "\n";
for (auto it = parent.get<clang::TranslationUnitDecl>()->decls_begin();
it != parent.get<clang::TranslationUnitDecl>()->decls_end(); it++) {
int toto = ASTRewriter->getSourceMgr().getLineNumber(ASTRewriter->getSourceMgr().getMainFileID(),
it->getBeginLoc().getRawEncoding(), &invalid);
//llvm::outs() << "Decl of " << it->getDeclKindName() << " @ " << toto << "\n";
if (std::string(it->getDeclKindName()) == "Function" && toto < TmpLineNumber) {
Loc = it->getBeginLoc();
TmpLineNumber = toto;
}
}
llvm::outs() << "First function @ " << TmpLineNumber << "\n";
Globs::FirstFunctionDeclLoc = Loc;
}
return findFirstFunctionDecl(pExpr, parent, Context, Loc, ++Iterations);
}
return Loc;
}
/*
* 1. Rename API to random identifier
* 2. Adapt parameters
* 3. Handle If conditions since the return value is different
* 4.
*/
void ApiMatchHandler::rewriteApiToSyscall(const clang::CallExpr *pExpr, clang::ASTContext *const pContext,
std::string ApiName) {
std::string Replacement, Prefix, Suffix = "";
std::ostringstream params(std::ostringstream::out);
SourceRange Range;
llvm::outs() << _TypeDef << "\n";
if (ApiName == "WriteProcessMemory") {
llvm::outs() << "[*] Found WriteProcessMemory\n";
std::vector<std::string> FunctionArgs = GetArgs(pExpr);
// reussite = ((fZwWriteVirtualMemory(handleProcess, (VOID*)adresseBase, adresseSource, longueur, &dwBytesWrite) != 0) && (dwBytesWrite == longueur));
params << "("
<< FunctionArgs.at(0) << ", "
<< FunctionArgs.at(1) << ", (PVOID)("
<< FunctionArgs.at(2) << "), (ULONG)("
<< FunctionArgs.at(3) << "), (PULONG)("
<< FunctionArgs.at(4) << "))";
Replacement = params.str();
Range = clang::SourceRange(pExpr->getBeginLoc(), pExpr->getEndLoc());
} else if (ApiName == "CreateRemoteThread") {
/*
* Variable cible d'assignation hThread devient premier paramètre
* 1er paramètre devient 4ème.
* 4ème et 5ème paramètres deviennent 5 et 6ème.
*/
std::vector<std::string> FunctionArgs = GetArgs(pExpr);
std::ostringstream params(std::ostringstream::out);
std::string VarName = getCallExprAssignmentVarName(pExpr, pContext);
params << "(&" << VarName << ", THREAD_ALL_ACCESS, NULL, "
<< FunctionArgs.at(0) << ", "
<< FunctionArgs.at(3) << ", "
<< FunctionArgs.at(4) << ", 0x00000001 | 0x00000004, 0, 0, 0, NULL)";
Replacement = params.str();
auto ParentNode = pContext->getParents(*pExpr).begin();
Range = clang::SourceRange(ParentNode->getSourceRange().getBegin(), pExpr->getEndLoc());
if(ParentNode->getNodeKind().asStringRef() == "VarDecl") {
Prefix = ParentNode->get<clang::VarDecl>()->getType().getAsString() + " " + VarName + ";\n\t";
}
//SourceLocation NewStart = !CallInfos._VarName.empty() ? CallInfos._StartOfLHS : CallExpression->getBeginLoc();
}
if (isInsideIfCondition(pExpr, pContext)) {
llvm::outs() << "CompountStmt > IfStmt\n";
Suffix = "==ERROR_SUCCESS";
}
llvm::outs() << "Replacing with " << Prefix + Replacement + Suffix << "\n";
SourceRange EnclosingFunctionRange = findInjectionSpot(pContext, clang::DynTypedNode(),
*pExpr, 0);
// remember line number + function name
bool invalid;
auto toto = ASTRewriter->getSourceMgr().getLineNumber(ASTRewriter->getSourceMgr().getMainFileID(),
EnclosingFunctionRange.getBegin().getRawEncoding(), &invalid);
auto index = std::pair<int, std::string>(toto, _ApiName);
bool AlreadyInitialized = Globs::TypeDefsInserted.count(index) != 0;
auto FunctionPointerIdentifier = std::string();
if (AlreadyInitialized) {
FunctionPointerIdentifier = Globs::TypeDefsInserted.at(index);
} else {
FunctionPointerIdentifier = Utils::translateStringToIdentifier(_ApiName);
}
ASTRewriter->ReplaceText(Range, Prefix + FunctionPointerIdentifier + Replacement + Suffix);
if (AlreadyInitialized) {
return;
}
// remember that the fn pointer was already initialised
Globs::TypeDefsInserted.insert({index, FunctionPointerIdentifier});
/*
*
void *memWriteVirtualMemory = get_shellcode_buffer("ZwWriteVirtualMemory");
_ZwWriteVirtualMemory fZwWriteVirtualMemory =(_ZwWriteVirtualMemory)(memWriteVirtualMemory);
*/
std::ostringstream InitStream(std::ostringstream::out);
auto MemoryBufferIdentifier = Utils::translateStringToIdentifier(_ApiName);
InitStream << _TypeDef << "\n";
InitStream << "\tvoid *" << MemoryBufferIdentifier << " = get_shellcode_buffer(\"" << _NtName
<< "\");\n";
InitStream << "\t_" << _NtName << " " << FunctionPointerIdentifier << " =(_"
<< _NtName << ")("
<< MemoryBufferIdentifier << ");\n\n";
ASTRewriter->InsertText(EnclosingFunctionRange.getBegin(), InitStream.str(), false, true);
if (Globs::SyscallInserted) {
return;
}
Globs::SyscallInserted = true;
auto FirstFunctionDeclLoc = findFirstFunctionDecl(*pExpr, clang::DynTypedNode(), pContext,
clang::SourceLocation(), 0);
// insert some code to dynamically get syscalls IDs from ntdll
std::ifstream fd("/tmp/patch_enum_syscalls.txt");
std::stringstream buffer;
// Verify that the file was open successfully
if (fd) {
buffer << fd.rdbuf();
//insert some declaration at the beginning of the translation unit
ASTRewriter->InsertText(FirstFunctionDeclLoc, buffer.str(), false, true);
} else {
llvm::errs() << "File could not be opened in " << std::filesystem::current_path(); // Report error
llvm::errs() << "Error code: " << strerror(errno); // Get some info as to why
}
}
std::vector<std::string>
ApiMatchHandler::getParents(const Expr &pExpr, clang::DynTypedNode Node,
clang::ASTContext *const Context, std::vector<std::string> &CurrentParents,
uint64_t Iterations) {
if (Iterations > Globs::CLIMB_PARENTS_MAX_ITER) {
return CurrentParents;
}
clang::DynTypedNodeList parents = Context->getParents(pExpr);
if (Iterations > 0) {
parents = Context->getParents(Node);
}
for (const auto &parent : parents) {
StringRef ParentNodeKind = parent.getNodeKind().asStringRef();
if (ParentNodeKind.find("Cast") != std::string::npos) {
return getParents(pExpr, parent, Context, CurrentParents, ++Iterations);
}
CurrentParents.push_back(ParentNodeKind.data());
return getParents(pExpr, parent, Context, CurrentParents, ++Iterations);
}
return CurrentParents;
}
bool ApiMatchHandler::isInsideIfCondition(const clang::CallExpr *pExpr, clang::ASTContext *const pContext) {
std::vector<std::string> Parents;
getParents(*pExpr, clang::DynTypedNode(), pContext, Parents, 0);
for (auto &parent : Parents) {
llvm::outs() << "Parent is : " << parent << "\n";
}
auto it = std::find(Parents.begin(), Parents.end(), "IfStmt");
if (it != Parents.end()) {
// WriteProcessMemory call is located within an If statement. Now we should check if it's the
// in the If condition or the If Body.
auto CompoundStmtIt = std::find(Parents.begin(), Parents.end(), "CompoundStmt");
return (CompoundStmtIt == Parents.end() || CompoundStmtIt > it);
}
}
std::string
ApiMatchHandler::getCallExprAssignmentVarName(const clang::CallExpr *pExpr, clang::ASTContext *const pContext) {
auto VarName = std::string();
auto ParentNodes = pContext->getParents(*pExpr);
for (auto &Parent : ParentNodes) {
if (Parent.getNodeKind().asStringRef() == "VarDecl") {
auto Node = Parent.get<clang::VarDecl>();
VarName = Node->getNameAsString();
} else if (Parent.getNodeKind().asStringRef() == "BinaryOperator") {
llvm::outs() << "Parent (BinOp) : " << Parent.getNodeKind().asStringRef() << "\n";
auto Node = Parent.get<clang::BinaryOperator>();
auto Child = Node->getLHS();
if (auto *DRE = dyn_cast<DeclRefExpr>(Child)) {
// It's a reference to a declaration...
if (auto *VD = dyn_cast<VarDecl>(DRE->getDecl())) {
// It's a reference to a variable (a local, function parameter, global, or static data member).
VarName = VD->getQualifiedNameAsString();
}
}
llvm::outs() << "Var name is " << VarName << "\n";
}
}
return VarName;
}