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#include <iostream>
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#include <filesystem>
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#include "theo.h"
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#include "linker.hpp"
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#include "vdm_ctx/vdm_ctx.hpp"
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using extern_symbols_t = std::vector<std::pair<std::string, lnk::map_symbols_t>>;
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using objs_buffer_t = std::vector<lnk::obj_buffer_t>;
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auto get_mapping_info(int argc, char** argv) -> std::pair<objs_buffer_t, extern_symbols_t>
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{
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auto maps_offset = 0u;
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std::vector<lnk::obj_buffer_t> image_objs;
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std::vector<std::pair<std::string, lnk::map_symbols_t>> extern_symbols;
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for (auto idx = 2; idx < argc; ++idx)
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{
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if (!strcmp(argv[idx], "--maps"))
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{
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maps_offset = idx + 1;
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break;
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}
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// another flag so we break...
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if (argv[idx][0] == '-' && argv[idx][1] == '-')
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break;
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if (!lnk::get_objs(argv[idx], image_objs))
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{
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std::printf("> failed to parse lib...\n");
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return {};
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}
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}
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if (maps_offset)
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{
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for (auto idx = maps_offset; idx <= argc - 1; ++idx)
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{
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extern_symbols.push_back
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({
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std::filesystem::path(argv[idx]).stem().string(),
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lnk::get_map_symbols(argv[idx])
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});
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}
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}
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return { image_objs, extern_symbols };
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}
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int main(int argc, char** argv)
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{
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if (argc < 3 || strcmp(argv[1], "--libs"))
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{
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std::printf("[!] invalid usage... please use one of the following:\n");
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std::printf(" > theo.exe --libs one.lib two.lib three.lib\n");
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std::printf(" > theo.exe --libs one.lib --maps ntoskrnl.exe.map win32kbase.sys.map\n");
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return -1;
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}
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auto [image_objs, extern_symbols] = get_mapping_info(argc, argv);
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std::printf("[+] number of objs = %d\n", image_objs.size());
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if (!image_objs.size())
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{
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std::printf("[!] failed to parse .lib...\n");
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return -1;
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}
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const auto [drv_handle, drv_key, drv_status] = vdm::load_drv();
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if (drv_status != STATUS_SUCCESS || drv_handle == INVALID_HANDLE_VALUE)
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{
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std::printf("> failed to load driver... reason -> 0x%x\n", drv_status);
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return -1;
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}
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// read physical memory using the driver...
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vdm::read_phys_t _read_phys =
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[&](void* addr, void* buffer, std::size_t size) -> bool
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{
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return vdm::read_phys(addr, buffer, size);
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};
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// write physical memory using the driver...
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vdm::write_phys_t _write_phys =
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[&](void* addr, void* buffer, std::size_t size) -> bool
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{
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return vdm::write_phys(addr, buffer, size);
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};
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// use VDM to syscall into ExAllocatePool...
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vdm::vdm_ctx vdm(_read_phys, _write_phys);
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theo::malloc_t _kalloc = [&](std::size_t size) -> void*
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{
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using ex_alloc_pool_t =
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void* (*)(std::uint32_t, std::uint32_t);
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static const auto ex_alloc_pool =
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reinterpret_cast<void*>(
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utils::kmodule::get_export(
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"ntoskrnl.exe", "ExAllocatePool"));
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return vdm.syscall<ex_alloc_pool_t>(ex_alloc_pool, NULL, size);
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};
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// use VDM to syscall into memcpy exported by ntoskrnl.exe...
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theo::memcpy_t _kmemcpy =
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[&](void* dest, const void* src, std::size_t size) -> void*
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{
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static const auto kmemcpy =
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reinterpret_cast<void*>(
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utils::kmodule::get_export(
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"ntoskrnl.exe", "memcpy"));
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return vdm.syscall<decltype(&memcpy)>(kmemcpy, dest, src, size);
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};
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theo::resolve_symbol_t resolve_symbol =
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[&, &extern_symbols = extern_symbols](const char* symbol_name) -> std::uintptr_t
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{
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std::uintptr_t result = 0u;
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for (auto& [drv_name, drv_symbols] : extern_symbols)
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{
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// each kernel module... find a driver with a matching map file name...
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// I.E ntoskrnl.exe.map == ntoskrnl.exe...
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utils::kmodule::each_module
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(
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[&, &drv_name = drv_name, &drv_symbols = drv_symbols]
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(PRTL_PROCESS_MODULE_INFORMATION drv_info, const char* drv_path) -> bool
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{
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const auto _drv_name =
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reinterpret_cast<const char*>(
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drv_info->OffsetToFileName + drv_info->FullPathName);
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// if this is the driver, load it, loop over its sections
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// calc the absolute virtual address of the symbol...
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if (!strcmp(_drv_name, drv_name.c_str()))
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{
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const auto drv_load_addr =
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reinterpret_cast<std::uintptr_t>(
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LoadLibraryExA(drv_path, NULL, DONT_RESOLVE_DLL_REFERENCES));
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std::uint32_t section_count = 1u;
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utils::pe::each_section
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(
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[&, &drv_symbols = drv_symbols]
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(PIMAGE_SECTION_HEADER section_header, std::uintptr_t img_base) -> bool
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{
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if (section_count == drv_symbols[symbol_name].first)
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{
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result = reinterpret_cast<std::uintptr_t>(drv_info->ImageBase) +
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section_header->VirtualAddress + drv_symbols[symbol_name].second;
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// we found the symbol...
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return false;
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}
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++section_count;
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// keep going over sections...
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return true;
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}, drv_load_addr
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);
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}
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// keep looping over modules until we resolve the symbol...
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return !result;
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}
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);
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}
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// if the symbol was not resolved in any of the map files then try
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// to see if its an export from any other drivers...
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if (!result)
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{
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utils::kmodule::each_module
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(
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[&](PRTL_PROCESS_MODULE_INFORMATION drv_info, const char* drv_path) -> bool
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{
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const auto drv_name =
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reinterpret_cast<const char*>(
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drv_info->OffsetToFileName + drv_info->FullPathName);
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// false if we found the symbol...
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return (!(result = utils::kmodule::get_export(drv_name, symbol_name)));
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}
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);
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}
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return result;
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};
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theo::hmm_ctx drv_mapper({ _kalloc, _kmemcpy, resolve_symbol });
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if (!drv_mapper.map_objs(image_objs))
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{
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std::printf("[!] failed to map object files...\n");
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return -1;
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}
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const auto drv_entry = drv_mapper.get_symbol("DrvEntry");
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std::printf("\n\n> driver entry -> 0x%p\n", drv_entry);
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std::getchar();
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if (drv_entry)
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{
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// call driver entry... its up to you to do this using whatever method...
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// with VDM you can syscall into it... with msrexec you will use msrexec::exec...
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const auto entry_result =
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vdm.syscall<NTSTATUS(*)()>(
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reinterpret_cast<void*>(drv_entry));
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}
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const auto unload_status = vdm::unload_drv(drv_handle, drv_key);
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if (unload_status != STATUS_SUCCESS)
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{
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std::printf("> failed to unload driver... reason -> 0x%x\n", unload_status);
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return -1;
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}
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std::printf("> press enter to close...\n");
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std::getchar();
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}
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