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/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include "Region.h"
#include "Report.h"
#include "ValueWithShadow.h"
#include <AK/HashMap.h>
#include <AK/NonnullOwnPtrVector.h>
#include <AK/OwnPtr.h>
#include <AK/Types.h>
#include <LibX86/Instruction.h>
namespace UserspaceEmulator {
class Emulator;
class SoftMMU {
public:
explicit SoftMMU(Emulator&);
ValueWithShadow<u8> read8(X86::LogicalAddress);
ValueWithShadow<u16> read16(X86::LogicalAddress);
ValueWithShadow<u32> read32(X86::LogicalAddress);
ValueWithShadow<u64> read64(X86::LogicalAddress);
ValueWithShadow<u128> read128(X86::LogicalAddress);
ValueWithShadow<u256> read256(X86::LogicalAddress);
void dump_backtrace();
template<typename T>
ValueWithShadow<T> read(X86::LogicalAddress address) requires(IsTriviallyConstructible<T>)
{
auto* region = find_region(address);
if (!region) {
reportln("SoftMMU::read256: No region for @ {:p}", address.offset());
dump_backtrace();
TODO();
}
if (!region->is_readable()) {
reportln("SoftMMU::read256: Non-readable region @ {:p}", address.offset());
dump_backtrace();
TODO();
}
alignas(alignof(T)) u8 data[sizeof(T)];
Array<u8, sizeof(T)> shadow;
for (auto i = 0u; i < sizeof(T); ++i) {
auto result = region->read8(address.offset() - region->base() + i);
data[i] = result.value();
shadow[i] = result.shadow()[0];
}
return {
*bit_cast<T*>(&data[0]),
shadow,
};
}
void write8(X86::LogicalAddress, ValueWithShadow<u8>);
void write16(X86::LogicalAddress, ValueWithShadow<u16>);
void write32(X86::LogicalAddress, ValueWithShadow<u32>);
void write64(X86::LogicalAddress, ValueWithShadow<u64>);
void write128(X86::LogicalAddress, ValueWithShadow<u128>);
void write256(X86::LogicalAddress, ValueWithShadow<u256>);
ALWAYS_INLINE Region* find_region(X86::LogicalAddress address)
{
if (address.selector() == 0x2b)
return m_tls_region.ptr();
size_t page_index = address.offset() / PAGE_SIZE;
return m_page_to_region_map[page_index];
}
void add_region(NonnullOwnPtr<Region>);
void remove_region(Region&);
void ensure_split_at(X86::LogicalAddress);
void set_tls_region(NonnullOwnPtr<Region>);
bool fast_fill_memory8(X86::LogicalAddress, size_t size, ValueWithShadow<u8>);
bool fast_fill_memory32(X86::LogicalAddress, size_t size, ValueWithShadow<u32>);
void copy_to_vm(FlatPtr destination, void const* source, size_t);
void copy_from_vm(void* destination, const FlatPtr source, size_t);
ByteBuffer copy_buffer_from_vm(const FlatPtr source, size_t);
template<typename Callback>
void for_each_region(Callback callback)
{
if (m_tls_region) {
if (callback(*m_tls_region) == IterationDecision::Break)
return;
}
for (auto& region : m_regions) {
if (callback(region) == IterationDecision::Break)
return;
}
}
template<typename Type, typename Callback>
void for_each_region_of_type(Callback callback)
{
return for_each_region([callback](auto& region) {
if (!is<Type>(region))
return IterationDecision::Continue;
return callback(static_cast<Type&>(region));
});
}
template<typename Callback>
void for_regions_in(X86::LogicalAddress address, size_t size, Callback callback)
{
VERIFY(size > 0);
X86::LogicalAddress address_end = address;
address_end.set_offset(address_end.offset() + size);
ensure_split_at(address);
ensure_split_at(address_end);
size_t first_page = address.offset() / PAGE_SIZE;
size_t last_page = (address_end.offset() - 1) / PAGE_SIZE;
Region* last_reported = nullptr;
for (size_t page = first_page; page <= last_page; ++page) {
Region* current_region = m_page_to_region_map[page];
if (page != first_page && current_region == last_reported)
continue;
if (callback(current_region) == IterationDecision::Break)
return;
last_reported = current_region;
}
}
private:
Emulator& m_emulator;
Region* m_page_to_region_map[786432] = { nullptr };
OwnPtr<Region> m_tls_region;
NonnullOwnPtrVector<Region> m_regions;
};
}
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