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PSKDM/nasa-mapper/mem_ctx/mem_ctx.hpp

123 lines
3.2 KiB

#pragma once
#include "../util/nt.hpp"
#include "../kernel_ctx/kernel_ctx.h"
#define PAGE_IN(addr, size) memset(addr, NULL, size)
struct pt_entries
{
std::pair<ppml4e, pml4e> pml4;
std::pair<ppdpte, pdpte> pdpt;
std::pair<ppde, pde> pd;
std::pair<ppte, pte> pt;
};
namespace physmeme
{
class mem_ctx
{
friend class mapper_ctx;
public:
explicit mem_ctx(kernel_ctx& k_ctx, DWORD pid = GetCurrentProcessId());
~mem_ctx();
//
// PTE manipulation
//
std::pair<ppte, pte> get_pte(void* addr, bool use_hyperspace = false);
void set_pte(void* addr, const ::pte& pte, bool use_hyperspace = false);
//
// PDE manipulation
//
std::pair<ppde, pde> get_pde(void* addr, bool use_hyperspace = false);
void set_pde(void* addr, const ::pde& pde, bool use_hyperspace = false);
//
// PDPTE manipulation
//
std::pair<ppdpte, pdpte> get_pdpte(void* addr, bool use_hyperspace = false);
void set_pdpte(void* addr, const ::pdpte& pdpte, bool use_hyperspace = false);
//
// PML4E manipulation
//
std::pair<ppml4e, pml4e> get_pml4e(void* addr, bool use_hyperspace = false);
void set_pml4e(void* addr, const ::pml4e& pml4e, bool use_hyperspace = false);
//
// gets dirbase (not the PTE or PFN but actual physical address)
//
void* get_dirbase() const;
static void* get_dirbase(kernel_ctx& k_ctx, DWORD pid);
void read_phys(void* buffer, void* addr, std::size_t size);
void write_phys(void* buffer, void* addr, std::size_t size);
template <class T>
T read_phys(void* addr)
{
if (!addr) return {};
T buffer;
read_phys((void*)&buffer, addr, sizeof(T));
return buffer;
}
template <class T>
void write_phys(void* addr, const T& data)
{
if (!addr) return;
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>
T read_virtual(void* addr)
{
if (!addr) return {};
T buffer;
read_virtual((void*)&buffer, addr, sizeof(T));
return buffer;
}
template <class T>
void write_virtual(void* addr, const T& data)
{
write_virtual((void*)&data, addr, sizeof(T));
}
//
// linear address translation (not done by hyperspace mappings)
//
void* virt_to_phys(pt_entries& entries, void* addr);
//
// these are used for the pfn backdoor, this will be removed soon
//
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:
//
// given an address fill pt entries with physical addresses and entry values.
//
bool hyperspace_entries(pt_entries& entries, void* addr);
void* dirbase;
kernel_ctx* k_ctx;
std::uint16_t pml4e_index, pdpte_index, pde_index, pte_index, page_offset;
/// first == physical
/// second == virtual
std::pair<ppdpte, ppdpte> new_pdpt;
std::pair<ppde,ppde> new_pd;
std::pair<ppte, ppte> new_pt;
unsigned pid;
};
}