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PSKDM/nasa-mapper/mapper_ctx/mapper_ctx.cpp

163 lines
4.3 KiB

#include "mapper_ctx.hpp"
namespace physmeme
{
mapper_ctx::mapper_ctx
(
physmeme::mem_ctx& map_into,
physmeme::mem_ctx& map_from
)
:
map_into(map_into),
map_from(map_from)
{}
std::pair<void*, void*> mapper_ctx::map(std::vector<std::uint8_t>& raw_image)
{
const auto [drv_alloc, drv_entry_addr] = allocate_driver(raw_image);
auto [drv_ppml4e, drv_pml4e] = map_from.get_pml4e(drv_alloc);
//
// make the pde & pte's containing the driver user supervisor = false...
//
make_kernel_access(drv_alloc);
//
// set new pml4e into specific process.
//
drv_pml4e.nx = false;
drv_pml4e.user_supervisor = false;
map_into.write_phys
(
reinterpret_cast<ppml4e*>(map_into.get_dirbase()) + PML4_MAP_INDEX,
drv_pml4e
);
virt_addr_t new_addr = { reinterpret_cast<void*>(drv_alloc) };
new_addr.pml4_index = PML4_MAP_INDEX;
return { new_addr.value, drv_entry_addr };
}
bool mapper_ctx::call_entry(void* drv_entry, void** hook_handler) const
{
const auto result = map_into.k_ctx->syscall<NTSTATUS(__fastcall*)(void**)>(drv_entry, hook_handler);
return !result;
}
std::pair<void*, void*> mapper_ctx::allocate_driver(std::vector<std::uint8_t>& raw_image)
{
const auto _get_module = [&](std::string_view name)
{
return util::get_module_base(name.data());
};
const auto _get_export_name = [&](const char* base, const char* name)
{
return reinterpret_cast<std::uintptr_t>(util::get_module_export(base, name));
};
physmeme::pe_image drv_image(raw_image);
const auto process_handle =
OpenProcess(
PROCESS_ALL_ACCESS,
FALSE,
map_from.get_pid()
);
if (!process_handle)
return {};
drv_image.fix_imports(_get_module, _get_export_name);
drv_image.map();
const auto drv_alloc_base =
reinterpret_cast<std::uintptr_t>(
direct::alloc_virtual_memory(
process_handle,
drv_image.size(),
PAGE_READWRITE
));
if (!drv_alloc_base)
return {};
virt_addr_t new_addr = { reinterpret_cast<void*>(drv_alloc_base) };
new_addr.pml4_index = PML4_MAP_INDEX;
drv_image.relocate(reinterpret_cast<std::uintptr_t>(new_addr.value));
//
// dont write nt headers...
//
const bool result = direct::write_virtual_memory
(
process_handle,
reinterpret_cast<void*>((std::uint64_t)drv_alloc_base + drv_image.header_size()),
reinterpret_cast<void*>((std::uint64_t)drv_image.data() + drv_image.header_size()),
drv_image.size() - drv_image.header_size()
);
if (!CloseHandle(process_handle))
return { {}, {} };
return
{
reinterpret_cast<void*>(drv_alloc_base),
reinterpret_cast<void*>(drv_image.entry_point() + reinterpret_cast<std::uintptr_t>(new_addr.value))
};
}
void mapper_ctx::make_kernel_access(void* drv_base)
{
const auto [ppdpte, pdpte] = map_from.get_pdpte(drv_base);
auto ppdpte_phys = reinterpret_cast<void*>((reinterpret_cast<std::uint64_t>(ppdpte) >> 12) << 12); // 0 the last 12 bits...
auto pdpt_mapping = reinterpret_cast<::ppdpte>(map_from.set_page(ppdpte_phys));
// set pdptes to CPL0 access only and executable...
for (auto pdpt_idx = 0u; pdpt_idx < 512; ++pdpt_idx)
{
if (pdpt_mapping[pdpt_idx].present)
{
pdpt_mapping[pdpt_idx].user_supervisor = false;
pdpt_mapping[pdpt_idx].nx = false;
auto pd_mapping = reinterpret_cast<ppde>(
map_from.set_page(reinterpret_cast<void*>(
pdpt_mapping[pdpt_idx].pfn << 12)));
// set pdes to CPL0 access only and executable...
for (auto pd_idx = 0u; pd_idx < 512; ++pd_idx)
{
if (pd_mapping[pd_idx].present)
{
pd_mapping[pd_idx].user_supervisor = false;
pd_mapping[pd_idx].nx = false;
auto pt_mapping = reinterpret_cast<ppte>(
map_from.set_page(reinterpret_cast<void*>(
pd_mapping[pd_idx].pfn << 12)));
// set ptes to CPL0 access only and executable...
for (auto pt_idx = 0u; pt_idx < 512; ++pt_idx)
{
if (pt_mapping[pt_idx].present)
{
pt_mapping[pt_idx].user_supervisor = false;
pt_mapping[pt_idx].nx = false;
}
}
// set page back to pd...
pd_mapping = reinterpret_cast<ppde>(
map_from.set_page(reinterpret_cast<void*>(
pdpt_mapping[pdpt_idx].pfn << 12)));
}
}
// set page back to pdpt...
pdpt_mapping = reinterpret_cast<::ppdpte>(
map_from.set_page(ppdpte_phys));
}
}
}
}