changed mem_ctx to ptm_ctx

master v1.2
_xeroxz 4 years ago
parent 250ad3a687
commit 15dd8d2e08

@ -1,5 +1,5 @@
#include "vdm_ctx/vdm_ctx.hpp" #include "vdm_ctx/vdm_ctx.hpp"
#include "mem_ctx/mem_ctx.hpp" #include "ptm_ctx/ptm_ctx.hpp"
#include "pclone_ctx/pclone_ctx.hpp" #include "pclone_ctx/pclone_ctx.hpp"
#include "set_mgr/set_mgr.hpp" #include "set_mgr/set_mgr.hpp"
#include "vad/vad.hpp" #include "vad/vad.hpp"
@ -34,20 +34,25 @@ int __cdecl main(int argc, char** argv)
}; };
vdm::vdm_ctx vdm(_read_phys, _write_phys); vdm::vdm_ctx vdm(_read_phys, _write_phys);
nasa::mem_ctx my_proc(vdm); ptm::ptm_ctx my_proc(&vdm);
// shoot the tires off the working set manager thread... // shoot the tires off the working set manager thread...
const auto set_mgr_pethread = set_mgr::get_setmgr_pethread(vdm); const auto set_mgr_pethread =
const auto result = set_mgr::stop_setmgr(vdm, set_mgr_pethread); set_mgr::get_setmgr_pethread(vdm);
const auto result =
set_mgr::stop_setmgr(vdm, set_mgr_pethread);
// read physical memory via paging tables and not with the driver... // read physical memory via paging tables and not with the driver...
_read_phys = [&my_proc](void* addr, void* buffer, std::size_t size) -> bool _read_phys =
[&my_proc](void* addr, void* buffer, std::size_t size) -> bool
{ {
return my_proc.read_phys(buffer, addr, size); return my_proc.read_phys(buffer, addr, size);
}; };
// write physical memory via paging tables and not with the driver... // write physical memory via paging tables and not with the driver...
_write_phys = [&my_proc](void* addr, void* buffer, std::size_t size) -> bool _write_phys =
[&my_proc](void* addr, void* buffer, std::size_t size) -> bool
{ {
return my_proc.write_phys(buffer, addr, size); return my_proc.write_phys(buffer, addr, size);
}; };
@ -61,7 +66,7 @@ int __cdecl main(int argc, char** argv)
vdm.set_read(_read_phys); vdm.set_read(_read_phys);
vdm.set_write(_write_phys); vdm.set_write(_write_phys);
nasa::mem_ctx target_proc(vdm, std::atoi(argv[2])); ptm::ptm_ctx target_proc(&vdm, std::atoi(argv[2]));
nasa::pclone_ctx clone_ctx(&target_proc); nasa::pclone_ctx clone_ctx(&target_proc);
const auto [clone_pid, clone_handle] = clone_ctx.clone(); const auto [clone_pid, clone_handle] = clone_ctx.clone();
@ -69,13 +74,16 @@ int __cdecl main(int argc, char** argv)
vdm.get_peprocess(clone_pid); vdm.get_peprocess(clone_pid);
const auto clone_vad = const auto clone_vad =
vad::get_vad_root(vdm, vdm.get_peprocess(std::atoi(argv[2]))); vad::get_vad_root(vdm,
vdm.get_peprocess(std::atoi(argv[2])));
vad::set_vad_root(vdm, clone_peproc, clone_vad); vad::set_vad_root(vdm, clone_peproc, clone_vad);
unsigned short mz = 0u; unsigned short mz = 0u;
std::size_t bytes_read; std::size_t bytes_read;
ReadProcessMemory(clone_handle, GetModuleHandleA("ntdll.dll"), &mz, sizeof mz, &bytes_read);
ReadProcessMemory(clone_handle,
GetModuleHandleA("ntdll.dll"), &mz, sizeof mz, &bytes_read);
std::printf("[+] handle -> 0x%x, clone pid -> 0x%x\n", clone_handle, clone_pid); std::printf("[+] handle -> 0x%x, clone pid -> 0x%x\n", clone_handle, clone_pid);
std::printf("[+] ntdll mz in clone -> 0x%x\n", mz); std::printf("[+] ntdll mz in clone -> 0x%x\n", mz);

@ -1,86 +0,0 @@
#pragma once
#include "../util/nt.hpp"
#include "../vdm_ctx/vdm_ctx.hpp"
namespace nasa
{
class mem_ctx
{
friend class pclone_ctx;
public:
mem_ctx(vdm::vdm_ctx& v_ctx, std::uint32_t pid = GetCurrentProcessId());
std::pair<ppte, pte> get_pte(void* addr, bool use_hyperspace = false);
void set_pte(void* addr, const ::pte& pte, bool use_hyperspace = false);
std::pair<ppde, pde> get_pde(void* addr, bool use_hyperspace = false);
void set_pde(void* addr, const ::pde& pde, bool use_hyperspace = false);
std::pair<ppdpte, pdpte> get_pdpte(void* addr, bool use_hyperspace = false);
void set_pdpte(void* addr, const ::pdpte& pdpte, bool use_hyperspace = false);
std::pair<ppml4e, pml4e> get_pml4e(void* addr, bool use_hyperspace = false);
void set_pml4e(void* addr, const ::pml4e& pml4e, bool use_hyperspace = false);
void* get_dirbase() const;
static void* get_dirbase(vdm::vdm_ctx& v_ctx, std::uint32_t pid);
bool read_phys(void* buffer, void* addr, std::size_t size);
bool write_phys(void* buffer, void* addr, std::size_t size);
template <class T>
T read_phys(void* addr)
{
T buffer;
read_phys((void*)&buffer, addr, sizeof(T));
return buffer;
}
template <class T>
void write_phys(void* addr, const T& data)
{
write_phys((void*)&data, addr, sizeof(T));
}
std::pair<void*, void*> read_virtual(void* buffer, void* addr, std::size_t size);
std::pair<void*, void*> write_virtual(void* buffer, void* addr, std::size_t size);
template <class T>
__forceinline T read_virtual(void* addr)
{
T buffer;
read_virtual((void*)&buffer, addr, sizeof(T));
return buffer;
}
template <class T>
__forceinline void write_virtual(void* addr, const T& data)
{
write_virtual((void*)&data, addr, sizeof(T));
}
void* virt_to_phys(pt_entries& entries, void* addr);
void* set_page(void* addr);
void* get_page() const;
unsigned get_pid() const;
pml4e operator[](std::uint16_t pml4_idx);
pdpte operator[](const std::pair<std::uint16_t, std::uint16_t>& entry_idx);
pde operator[](const std::tuple<std::uint16_t, std::uint16_t, std::uint16_t>& entry_idx);
pte operator[](const std::tuple<std::uint16_t, std::uint16_t, std::uint16_t, std::uint16_t>& entry_idx);
private:
bool hyperspace_entries(pt_entries& entries, void* addr);
void* dirbase;
vdm::vdm_ctx* v_ctx;
std::uint16_t pml4e_index,
pdpte_index,
pde_index,
pte_index,
page_offset;
std::pair<ppdpte, ppdpte> new_pdpt;
std::pair<ppde,ppde> new_pd;
std::pair<ppte, ppte> new_pt;
unsigned pid;
};
}

@ -84,15 +84,15 @@
</ItemDefinitionGroup> </ItemDefinitionGroup>
<ItemGroup> <ItemGroup>
<ClCompile Include="main.cpp" /> <ClCompile Include="main.cpp" />
<ClCompile Include="mem_ctx\mem_ctx.cpp" />
<ClCompile Include="pclone_ctx\pclone_ctx.cpp" /> <ClCompile Include="pclone_ctx\pclone_ctx.cpp" />
<ClCompile Include="ptm_ctx\ptm_ctx.cpp" />
<ClCompile Include="set_mgr\set_mgr.cpp" /> <ClCompile Include="set_mgr\set_mgr.cpp" />
<ClCompile Include="vad\vad.cpp" /> <ClCompile Include="vad\vad.cpp" />
<ClCompile Include="vdm_ctx\vdm_ctx.cpp" /> <ClCompile Include="vdm_ctx\vdm_ctx.cpp" />
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ClInclude Include="mem_ctx\mem_ctx.hpp" />
<ClInclude Include="pclone_ctx\pclone_ctx.hpp" /> <ClInclude Include="pclone_ctx\pclone_ctx.hpp" />
<ClInclude Include="ptm_ctx\ptm_ctx.hpp" />
<ClInclude Include="set_mgr\set_mgr.hpp" /> <ClInclude Include="set_mgr\set_mgr.hpp" />
<ClInclude Include="util\loadup.hpp" /> <ClInclude Include="util\loadup.hpp" />
<ClInclude Include="util\nt.hpp" /> <ClInclude Include="util\nt.hpp" />

@ -23,9 +23,6 @@
<ClCompile Include="vdm_ctx\vdm_ctx.cpp"> <ClCompile Include="vdm_ctx\vdm_ctx.cpp">
<Filter>Source Files</Filter> <Filter>Source Files</Filter>
</ClCompile> </ClCompile>
<ClCompile Include="mem_ctx\mem_ctx.cpp">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="pclone_ctx\pclone_ctx.cpp"> <ClCompile Include="pclone_ctx\pclone_ctx.cpp">
<Filter>Source Files</Filter> <Filter>Source Files</Filter>
</ClCompile> </ClCompile>
@ -35,6 +32,9 @@
<ClCompile Include="vad\vad.cpp"> <ClCompile Include="vad\vad.cpp">
<Filter>Source Files</Filter> <Filter>Source Files</Filter>
</ClCompile> </ClCompile>
<ClCompile Include="ptm_ctx\ptm_ctx.cpp">
<Filter>Source Files</Filter>
</ClCompile>
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ClInclude Include="vdm\raw_driver.hpp"> <ClInclude Include="vdm\raw_driver.hpp">
@ -55,9 +55,6 @@
<ClInclude Include="util\util.hpp"> <ClInclude Include="util\util.hpp">
<Filter>Header Files\util</Filter> <Filter>Header Files\util</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="mem_ctx\mem_ctx.hpp">
<Filter>Header Files</Filter>
</ClInclude>
<ClInclude Include="pclone_ctx\pclone_ctx.hpp"> <ClInclude Include="pclone_ctx\pclone_ctx.hpp">
<Filter>Header Files</Filter> <Filter>Header Files</Filter>
</ClInclude> </ClInclude>
@ -67,6 +64,9 @@
<ClInclude Include="vad\vad.hpp"> <ClInclude Include="vad\vad.hpp">
<Filter>Header Files</Filter> <Filter>Header Files</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="ptm_ctx\ptm_ctx.hpp">
<Filter>Header Files</Filter>
</ClInclude>
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ResourceCompile Include="icon.rc"> <ResourceCompile Include="icon.rc">

@ -2,7 +2,7 @@
namespace nasa namespace nasa
{ {
pclone_ctx::pclone_ctx(mem_ctx* clone_ctx) pclone_ctx::pclone_ctx(ptm::ptm_ctx* clone_ctx)
: :
clone_target_ctx(clone_ctx) clone_target_ctx(clone_ctx)
{} {}
@ -43,7 +43,7 @@ namespace nasa
// cloned... // cloned...
const auto clone_target_peproc = const auto clone_target_peproc =
reinterpret_cast<std::uintptr_t>( reinterpret_cast<std::uintptr_t>(
v_ctx->get_peprocess(clone_target_ctx->get_pid())); v_ctx->get_peprocess(clone_target_ctx->pid));
const auto clone_target_dirbase = const auto clone_target_dirbase =
v_ctx->rkm<pte>(clone_target_peproc + 0x28); v_ctx->rkm<pte>(clone_target_peproc + 0x28);

@ -1,4 +1,4 @@
#include "../mem_ctx/mem_ctx.hpp" #include "../ptm_ctx/ptm_ctx.hpp"
namespace nasa namespace nasa
{ {
@ -6,9 +6,9 @@ namespace nasa
{ {
friend class mem_ctx; friend class mem_ctx;
public: public:
explicit pclone_ctx(mem_ctx* clone_ctx); explicit pclone_ctx(ptm::ptm_ctx* clone_ctx);
auto clone() -> std::pair<std::uint32_t, HANDLE>; auto clone() -> std::pair<std::uint32_t, HANDLE>;
private: private:
mem_ctx* clone_target_ctx; ptm::ptm_ctx* clone_target_ctx;
}; };
} }

@ -1,21 +1,26 @@
#include "mem_ctx.hpp" #include "ptm_ctx.hpp"
namespace nasa namespace ptm
{ {
mem_ctx::mem_ctx(vdm::vdm_ctx& v_ctx, std::uint32_t pid) ptm_ctx::ptm_ctx(vdm::vdm_ctx* v_ctx, std::uint32_t pid)
: :
v_ctx(&v_ctx), v_ctx(v_ctx),
pid(pid), dirbase(get_dirbase(*v_ctx, pid)),
dirbase(get_dirbase(v_ctx, pid)) pid(pid)
{ {
// find an empty pml4e inside of current processes pml4... // find an empty pml4e inside of current processes pml4...
const auto current_pml4 = const auto current_pml4 =
v_ctx.get_virtual(reinterpret_cast<std::uintptr_t>( v_ctx->get_virtual(reinterpret_cast<std::uintptr_t>(
get_dirbase(v_ctx, GetCurrentProcessId()))); get_dirbase(*v_ctx, GetCurrentProcessId())));
for (auto idx = 100u; idx > 0u; --idx) for (auto idx = 100u; idx > 0u; --idx)
if (!v_ctx.rkm<pml4e>(current_pml4 + (idx * sizeof pml4e)).value) {
if (!v_ctx->rkm<pml4e>(current_pml4 + (idx * sizeof pml4e)).present)
{
this->pml4e_index = idx; this->pml4e_index = idx;
break;
}
}
// allocate a pdpt // allocate a pdpt
this->new_pdpt.second = this->new_pdpt.second =
@ -31,13 +36,17 @@ namespace nasa
// get page table entries for new pdpt // get page table entries for new pdpt
pt_entries new_pdpt_entries; pt_entries new_pdpt_entries;
hyperspace_entries(new_pdpt_entries, new_pdpt.second); hyperspace_entries(new_pdpt_entries, new_pdpt.second);
this->new_pdpt.first = reinterpret_cast<ppdpte>(new_pdpt_entries.pt.second.pfn << 12);
this->new_pdpt.first =
reinterpret_cast<ppdpte>(
new_pdpt_entries.pt.second.pfn << 12);
// make a new pml4e that points to our new pdpt. // make a new pml4e that points to our new pdpt.
new_pdpt_entries.pml4.second.pfn = new_pdpt_entries.pt.second.pfn; new_pdpt_entries.pml4.second.pfn = new_pdpt_entries.pt.second.pfn;
// set the pml4e to point to the new pdpt // set the pml4e to point to the new pdpt
set_pml4e(reinterpret_cast<::ppml4e>(get_dirbase()) + this->pml4e_index, new_pdpt_entries.pml4.second, true); set_pml4e(reinterpret_cast<::ppml4e>(this->dirbase) +
this->pml4e_index, new_pdpt_entries.pml4.second, true);
// make a new pd // make a new pd
this->new_pd.second = this->new_pd.second =
@ -54,7 +63,10 @@ namespace nasa
// get paging table entries for pd // get paging table entries for pd
pt_entries new_pd_entries; pt_entries new_pd_entries;
hyperspace_entries(new_pd_entries, this->new_pd.second); hyperspace_entries(new_pd_entries, this->new_pd.second);
this->new_pd.first = reinterpret_cast<ppde>(new_pd_entries.pt.second.pfn << 12);
this->new_pd.first =
reinterpret_cast<ppde>(
new_pd_entries.pt.second.pfn << 12);
// make a new pt // make a new pt
this->new_pt.second = this->new_pt.second =
@ -67,29 +79,39 @@ namespace nasa
)); ));
PAGE_IN(this->new_pt.second, PAGE_4KB); PAGE_IN(this->new_pt.second, PAGE_4KB);
// get paging table entries for pt // get paging table entries for pt
pt_entries new_pt_entries; pt_entries new_pt_entries;
hyperspace_entries(new_pt_entries, this->new_pt.second); hyperspace_entries(new_pt_entries, this->new_pt.second);
this->new_pt.first = reinterpret_cast<ppte>(new_pt_entries.pt.second.pfn << 12);
this->new_pt.first =
reinterpret_cast<ppte>(
new_pt_entries.pt.second.pfn << 12);
} }
void* mem_ctx::set_page(void* addr) ptm_ctx::~ptm_ctx()
{
const auto pml4 =
reinterpret_cast<ppml4e>(
set_page(dirbase))[pml4e_index] = pml4e{ NULL };
}
void* ptm_ctx::set_page(void* addr)
{ {
// table entry change.
++pte_index; ++pte_index;
if (pte_index >= 511) if (pte_index > 511)
{ {
++pde_index; ++pde_index;
pte_index = 0; pte_index = 0;
} }
if (pde_index >= 511) if (pde_index > 511)
{ {
++pdpte_index; ++pdpte_index;
pde_index = 0; pde_index = 0;
} }
if (pdpte_index >= 511) if (pdpte_index > 511)
pdpte_index = 0; pdpte_index = 0;
pdpte new_pdpte = { NULL }; pdpte new_pdpte = { NULL };
@ -97,7 +119,6 @@ namespace nasa
new_pdpte.rw = true; new_pdpte.rw = true;
new_pdpte.pfn = reinterpret_cast<std::uintptr_t>(new_pd.first) >> 12; new_pdpte.pfn = reinterpret_cast<std::uintptr_t>(new_pd.first) >> 12;
new_pdpte.user_supervisor = true; new_pdpte.user_supervisor = true;
new_pdpte.accessed = true;
// set pdpte entry // set pdpte entry
*reinterpret_cast<pdpte*>(new_pdpt.second + pdpte_index) = new_pdpte; *reinterpret_cast<pdpte*>(new_pdpt.second + pdpte_index) = new_pdpte;
@ -107,7 +128,6 @@ namespace nasa
new_pde.rw = true; new_pde.rw = true;
new_pde.pfn = reinterpret_cast<std::uintptr_t>(new_pt.first) >> 12; new_pde.pfn = reinterpret_cast<std::uintptr_t>(new_pt.first) >> 12;
new_pde.user_supervisor = true; new_pde.user_supervisor = true;
new_pde.accessed = true;
// set pde entry // set pde entry
*reinterpret_cast<pde*>(new_pd.second + pde_index) = new_pde; *reinterpret_cast<pde*>(new_pd.second + pde_index) = new_pde;
@ -117,7 +137,6 @@ namespace nasa
new_pte.rw = true; new_pte.rw = true;
new_pte.pfn = reinterpret_cast<std::uintptr_t>(addr) >> 12; new_pte.pfn = reinterpret_cast<std::uintptr_t>(addr) >> 12;
new_pte.user_supervisor = true; new_pte.user_supervisor = true;
new_pte.accessed = true;
// set pte entry // set pte entry
*reinterpret_cast<pte*>(new_pt.second + pte_index) = new_pte; *reinterpret_cast<pte*>(new_pt.second + pte_index) = new_pte;
@ -127,7 +146,7 @@ namespace nasa
return get_page(); return get_page();
} }
void* mem_ctx::get_page() const void* ptm_ctx::get_page() const
{ {
// builds a new address given the state of all table indexes // builds a new address given the state of all table indexes
virt_addr_t new_addr; virt_addr_t new_addr;
@ -136,21 +155,42 @@ namespace nasa
new_addr.pd_index = this->pde_index; new_addr.pd_index = this->pde_index;
new_addr.pt_index = this->pte_index; new_addr.pt_index = this->pte_index;
new_addr.offset = this->page_offset; new_addr.offset = this->page_offset;
// handle TLB issues, the TLB might need to be flushed for this entry...
__try
{
*(std::uint8_t*)new_addr.value = *(std::uint8_t*)new_addr.value;
return new_addr.value;
}
__except (EXCEPTION_EXECUTE_HANDLER)
{
// try again to access the page...
__try
{
*(std::uint8_t*)new_addr.value = *(std::uint8_t*)new_addr.value;
return new_addr.value;
}
// try one last time by yeilding execution...
__except (EXCEPTION_EXECUTE_HANDLER)
{
while (!SwitchToThread())
continue;
}
}
return new_addr.value; return new_addr.value;
} }
void* mem_ctx::get_dirbase(vdm::vdm_ctx& v_ctx, std::uint32_t pid) void* ptm_ctx::get_dirbase(vdm::vdm_ctx& v_ctx, DWORD pid)
{ {
const auto peproc = const auto peproc =
reinterpret_cast<std::uint64_t>(v_ctx.get_peprocess(pid)); reinterpret_cast<std::uint64_t>(
v_ctx.get_peprocess(pid));
const auto dirbase = return reinterpret_cast<void*>(
v_ctx.rkm<pte>(peproc + 0x28); v_ctx.rkm<pte>(peproc + 0x28).pfn << 12);
return reinterpret_cast<void*>(dirbase.pfn << 12);
} }
bool mem_ctx::hyperspace_entries(pt_entries& entries, void* addr) bool ptm_ctx::hyperspace_entries(pt_entries& entries, void* addr)
{ {
if (!addr || !dirbase) if (!addr || !dirbase)
return false; return false;
@ -192,95 +232,106 @@ namespace nasa
return true; return true;
} }
std::pair<ppte, pte> mem_ctx::get_pte(void* addr, bool use_hyperspace) auto ptm_ctx::get_pte(void* addr, bool use_hyperspace) -> std::pair<ppte, pte>
{ {
if (!dirbase || !addr) if (!dirbase || !addr)
return {}; return { {}, {} };
pt_entries entries; pt_entries entries;
if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr))) if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr)))
return { entries.pt.first, entries.pt.second }; return { entries.pt.first, entries.pt.second };
return {};
return { {}, {} };
} }
void mem_ctx::set_pte(void* addr, const ::pte& pte, bool use_hyperspace) bool ptm_ctx::set_pte(void* addr, const ::pte& pte, bool use_hyperspace)
{ {
if (!dirbase || !addr) if (!dirbase || !addr)
return; return false;
if (use_hyperspace) if (use_hyperspace)
v_ctx->wkm(v_ctx->get_virtual(reinterpret_cast<std::uintptr_t>(addr)), pte); return v_ctx->wkm(
else v_ctx->get_virtual(
write_phys(addr, pte); reinterpret_cast<std::uintptr_t>(addr)), pte);
return write_phys(addr, pte);
} }
std::pair<ppde, pde> mem_ctx::get_pde(void* addr, bool use_hyperspace) auto ptm_ctx::get_pde(void* addr, bool use_hyperspace) -> std::pair<ppde, pde>
{ {
if (!dirbase || !addr) if (!dirbase || !addr)
return {}; return { {}, {} };
pt_entries entries; pt_entries entries;
if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr))) if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr)))
return { entries.pd.first, entries.pd.second }; return { entries.pd.first, entries.pd.second };
return {}; return { {}, {} };
} }
void mem_ctx::set_pde(void* addr, const ::pde& pde, bool use_hyperspace) bool ptm_ctx::set_pde(void* addr, const ::pde& pde, bool use_hyperspace)
{ {
if (!this->dirbase || !addr) if (!dirbase || !addr)
return; return false;
if (use_hyperspace) if (use_hyperspace)
v_ctx->wkm(v_ctx->get_virtual(reinterpret_cast<std::uintptr_t>(addr)), pde); return v_ctx->wkm(
else v_ctx->get_virtual(
write_phys(addr, pde); reinterpret_cast<std::uintptr_t>(addr)), pde);
return write_phys(addr, pde);
} }
std::pair<ppdpte, pdpte> mem_ctx::get_pdpte(void* addr, bool use_hyperspace) auto ptm_ctx::get_pdpte(void* addr, bool use_hyperspace) -> std::pair<ppdpte, pdpte>
{ {
if (!dirbase || !addr) if (!dirbase || !addr)
return {}; return { {}, {} };
pt_entries entries; pt_entries entries;
if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr))) if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr)))
return { entries.pdpt.first, entries.pdpt.second }; return { entries.pdpt.first, entries.pdpt.second };
return {};
return { {}, {} };
} }
void mem_ctx::set_pdpte(void* addr, const ::pdpte& pdpte, bool use_hyperspace) bool ptm_ctx::set_pdpte(void* addr, const ::pdpte& pdpte, bool use_hyperspace)
{ {
if (!this->dirbase || !addr) if (!dirbase || !addr)
return; return false;
if (use_hyperspace) if (use_hyperspace)
v_ctx->wkm(v_ctx->get_virtual(reinterpret_cast<std::uintptr_t>(addr)), pdpte); return v_ctx->wkm(
else v_ctx->get_virtual(
write_phys(addr, pdpte); reinterpret_cast<std::uintptr_t>(addr)), pdpte);
return write_phys(addr, pdpte);
} }
std::pair<ppml4e, pml4e> mem_ctx::get_pml4e(void* addr, bool use_hyperspace) auto ptm_ctx::get_pml4e(void* addr, bool use_hyperspace) -> std::pair<ppml4e, pml4e>
{ {
if (!this->dirbase || !addr) if (!dirbase || !addr)
return {}; return { {}, {} };
pt_entries entries; pt_entries entries;
if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr))) if ((use_hyperspace ? hyperspace_entries(entries, addr) : (bool)virt_to_phys(entries, addr)))
return { entries.pml4.first, entries.pml4.second }; return { entries.pml4.first, entries.pml4.second };
return {};
return { {}, {} };
} }
void mem_ctx::set_pml4e(void* addr, const ::pml4e& pml4e, bool use_hyperspace) bool ptm_ctx::set_pml4e(void* addr, const ::pml4e& pml4e, bool use_hyperspace)
{ {
if (!this->dirbase || !addr) if (!dirbase || !addr)
return; return false;
if (use_hyperspace) if (use_hyperspace)
v_ctx->wkm(v_ctx->get_virtual(reinterpret_cast<std::uintptr_t>(addr)), pml4e); return v_ctx->wkm(
else v_ctx->get_virtual(
write_phys(addr, pml4e); reinterpret_cast<std::uintptr_t>(addr)), pml4e);
return write_phys(addr, pml4e);
} }
std::pair<void*, void*> mem_ctx::read_virtual(void* buffer, void* addr, std::size_t size) auto ptm_ctx::read_virtual(void* buffer, void* addr, std::size_t size) -> std::pair<void*, void*>
{ {
if (!buffer || !addr || !size || !dirbase) if (!buffer || !addr || !size || !dirbase)
return {}; return {};
@ -322,7 +373,7 @@ namespace nasa
} }
} }
std::pair<void*, void*> mem_ctx::write_virtual(void* buffer, void* addr, std::size_t size) auto ptm_ctx::write_virtual(void* buffer, void* addr, std::size_t size) -> std::pair<void*, void*>
{ {
if (!buffer || !addr || !size || !dirbase) if (!buffer || !addr || !size || !dirbase)
return {}; return {};
@ -364,7 +415,7 @@ namespace nasa
} }
} }
bool mem_ctx::read_phys(void* buffer, void* addr, std::size_t size) bool ptm_ctx::read_phys(void* buffer, void* addr, std::size_t size)
{ {
if (!buffer || !addr || !size) if (!buffer || !addr || !size)
return false; return false;
@ -381,7 +432,7 @@ namespace nasa
return true; return true;
} }
bool mem_ctx::write_phys(void* buffer, void* addr, std::size_t size) bool ptm_ctx::write_phys(void* buffer, void* addr, std::size_t size)
{ {
if (!buffer || !addr || !size) if (!buffer || !addr || !size)
return false; return false;
@ -398,9 +449,9 @@ namespace nasa
return true; return true;
} }
void* mem_ctx::virt_to_phys(pt_entries& entries, void* addr) void* ptm_ctx::virt_to_phys(pt_entries& entries, void* addr)
{ {
if (!addr || !this->dirbase) if (!addr || !dirbase)
return {}; return {};
const virt_addr_t virt_addr{ addr }; const virt_addr_t virt_addr{ addr };
@ -444,37 +495,4 @@ namespace nasa
return reinterpret_cast<void*>((pte.pfn << 12) + virt_addr.offset); return reinterpret_cast<void*>((pte.pfn << 12) + virt_addr.offset);
} }
unsigned mem_ctx::get_pid() const
{
return this->pid;
}
void* mem_ctx::get_dirbase() const
{
return this->dirbase;
}
pml4e mem_ctx::operator[](std::uint16_t pml4_idx)
{
return read_phys<::pml4e>(reinterpret_cast<ppml4e>(this->dirbase) + pml4_idx);
}
pdpte mem_ctx::operator[](const std::pair<std::uint16_t, std::uint16_t>& entry_idx)
{
const auto pml4_entry = this->operator[](entry_idx.first);
return read_phys<::pdpte>(reinterpret_cast<ppdpte>(pml4_entry.pfn << 12) + entry_idx.second);
}
pde mem_ctx::operator[](const std::tuple<std::uint16_t, std::uint16_t, std::uint16_t>& entry_idx)
{
const auto pdpt_entry = this->operator[]({ std::get<0>(entry_idx), std::get<1>(entry_idx) });
return read_phys<::pde>(reinterpret_cast<ppde>(pdpt_entry.pfn << 12) + std::get<2>(entry_idx));
}
pte mem_ctx::operator[](const std::tuple<std::uint16_t, std::uint16_t, std::uint16_t, std::uint16_t>& entry_idx)
{
const auto pd_entry = this->operator[]({ std::get<0>(entry_idx), std::get<1>(entry_idx), std::get<2>(entry_idx) });
return read_phys<::pte>(reinterpret_cast<ppte>(pd_entry.pfn << 12) + std::get<3>(entry_idx));
}
} }

@ -0,0 +1,80 @@
#pragma once
#include "../util/nt.hpp"
#include "../vdm_ctx/vdm_ctx.hpp"
namespace ptm
{
class ptm_ctx
{
public:
explicit ptm_ctx(vdm::vdm_ctx* v_ctx, std::uint32_t pid = GetCurrentProcessId());
~ptm_ctx();
auto get_pte(void* addr, bool use_hyperspace = false) -> std::pair<ppte, pte>;
bool set_pte(void* addr, const ::pte& pte, bool use_hyperspace = false);
auto get_pde(void* addr, bool use_hyperspace = false) -> std::pair<ppde, pde>;
bool set_pde(void* addr, const ::pde& pde, bool use_hyperspace = false);
auto get_pdpte(void* addr, bool use_hyperspace = false) -> std::pair<ppdpte, pdpte>;
bool set_pdpte(void* addr, const ::pdpte& pdpte, bool use_hyperspace = false);
auto get_pml4e(void* addr, bool use_hyperspace = false) -> std::pair<ppml4e, pml4e>;
bool set_pml4e(void* addr, const ::pml4e& pml4e, bool use_hyperspace = false);
static void* get_dirbase(vdm::vdm_ctx& v_ctx, DWORD pid);
bool read_phys(void* buffer, void* addr, std::size_t size);
bool write_phys(void* buffer, void* addr, std::size_t size);
template <class T>
__forceinline T read_phys(void* addr)
{
T buffer;
read_phys((void*)&buffer, addr, sizeof(T));
return buffer;
}
template <class T>
__forceinline bool write_phys(void* addr, const T& data)
{
return write_phys((void*)&data, addr, sizeof(T));
}
auto read_virtual(void* buffer, void* addr, std::size_t size) -> std::pair<void*, void*>;
auto write_virtual(void* buffer, void* addr, std::size_t size) -> std::pair<void*, void*>;
template <class T>
__forceinline T read_virtual(void* addr)
{
T buffer;
read_virtual((void*)&buffer, addr, sizeof(T));
return buffer;
}
template <class T>
__forceinline void write_virtual(void* addr, const T& data)
{
write_virtual((void*)&data, addr, sizeof(T));
}
void* virt_to_phys(pt_entries& entries, void* addr);
bool hyperspace_entries(pt_entries& entries, void* addr);
void* set_page(void* addr);
void* get_page() const;
unsigned pid;
void* dirbase;
vdm::vdm_ctx* v_ctx;
private:
std::uint16_t pml4e_index,
pdpte_index,
pde_index,
pte_index,
page_offset;
std::pair<ppdpte, ppdpte> new_pdpt;
std::pair<ppde,ppde> new_pd;
std::pair<ppte, ppte> new_pt;
};
}

@ -2,11 +2,7 @@
namespace vdm namespace vdm
{ {
vdm_ctx::vdm_ctx vdm_ctx::vdm_ctx(read_phys_t& read_func, write_phys_t& write_func)
(
std::function<decltype(vdm::read_phys)>& read_func,
std::function<decltype(vdm::write_phys)>& write_func
)
: :
read_phys(read_func), read_phys(read_func),
write_phys(write_func) write_phys(write_func)
@ -41,12 +37,12 @@ namespace vdm
search_thread.join(); search_thread.join();
} }
void vdm_ctx::set_read(std::function<decltype(vdm::read_phys)>& read_func) void vdm_ctx::set_read(read_phys_t& read_func)
{ {
this->read_phys = read_func; this->read_phys = read_func;
} }
void vdm_ctx::set_write(std::function<decltype(vdm::write_phys)>& write_func) void vdm_ctx::set_write(write_phys_t& write_func)
{ {
this->write_phys = write_func; this->write_phys = write_func;
} }

@ -26,14 +26,9 @@ namespace vdm
class vdm_ctx class vdm_ctx
{ {
public: public:
vdm_ctx explicit vdm_ctx(read_phys_t& read_func, write_phys_t& write_func);
( void set_read(read_phys_t& read_func);
std::function<decltype(vdm::read_phys)>& read_func, void set_write(write_phys_t& write_func);
std::function<decltype(vdm::write_phys)>& write_func
);
void set_read(std::function<decltype(vdm::read_phys)>& read_func);
void set_write(std::function<decltype(vdm::write_phys)>& write_func);
template <class T, class ... Ts> template <class T, class ... Ts>
__forceinline std::invoke_result_t<T, Ts...> syscall(void* addr, Ts ... args) const __forceinline std::invoke_result_t<T, Ts...> syscall(void* addr, Ts ... args) const
@ -83,12 +78,12 @@ namespace vdm
} }
template <class T> template <class T>
__forceinline void wkm(std::uintptr_t addr, const T& value) __forceinline auto wkm(std::uintptr_t addr, const T& value) -> bool
{ {
static const auto ntoskrnl_memcpy = static const auto ntoskrnl_memcpy =
util::get_kmodule_export("ntoskrnl.exe", "memcpy"); util::get_kmodule_export("ntoskrnl.exe", "memcpy");
this->syscall<decltype(&memcpy)>( return this->syscall<decltype(&memcpy)>(
ntoskrnl_memcpy, (void*)addr, &value, sizeof T); ntoskrnl_memcpy, (void*)addr, &value, sizeof T);
} }

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