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Merge pull request #10985 from liamwhite/handle-translate

k_server_session: translate special header for non-HLE requests
This commit is contained in:
bunnei 2023-07-11 16:49:24 -07:00 committed by GitHub
commit 28598c9090
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GPG Key ID: 4AEE18F83AFDEB23
3 changed files with 771 additions and 7 deletions

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@ -285,6 +285,7 @@ add_library(core STATIC
hle/kernel/kernel.cpp
hle/kernel/kernel.h
hle/kernel/memory_types.h
hle/kernel/message_buffer.h
hle/kernel/physical_core.cpp
hle/kernel/physical_core.h
hle/kernel/physical_memory.h

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@ -20,12 +20,132 @@
#include "core/hle/kernel/k_thread.h"
#include "core/hle/kernel/k_thread_queue.h"
#include "core/hle/kernel/kernel.h"
#include "core/hle/kernel/message_buffer.h"
#include "core/hle/service/hle_ipc.h"
#include "core/hle/service/ipc_helpers.h"
#include "core/memory.h"
namespace Kernel {
namespace {
template <bool MoveHandleAllowed>
Result ProcessMessageSpecialData(KProcess& dst_process, KProcess& src_process, KThread& src_thread,
MessageBuffer& dst_msg, const MessageBuffer& src_msg,
MessageBuffer::SpecialHeader& src_special_header) {
// Copy the special header to the destination.
s32 offset = dst_msg.Set(src_special_header);
// Copy the process ID.
if (src_special_header.GetHasProcessId()) {
offset = dst_msg.SetProcessId(offset, src_process.GetProcessId());
}
// Prepare to process handles.
auto& dst_handle_table = dst_process.GetHandleTable();
auto& src_handle_table = src_process.GetHandleTable();
Result result = ResultSuccess;
// Process copy handles.
for (auto i = 0; i < src_special_header.GetCopyHandleCount(); ++i) {
// Get the handles.
const Handle src_handle = src_msg.GetHandle(offset);
Handle dst_handle = Svc::InvalidHandle;
// If we're in a success state, try to move the handle to the new table.
if (R_SUCCEEDED(result) && src_handle != Svc::InvalidHandle) {
KScopedAutoObject obj =
src_handle_table.GetObjectForIpc(src_handle, std::addressof(src_thread));
if (obj.IsNotNull()) {
Result add_result =
dst_handle_table.Add(std::addressof(dst_handle), obj.GetPointerUnsafe());
if (R_FAILED(add_result)) {
result = add_result;
dst_handle = Svc::InvalidHandle;
}
} else {
result = ResultInvalidHandle;
}
}
// Set the handle.
offset = dst_msg.SetHandle(offset, dst_handle);
}
// Process move handles.
if constexpr (MoveHandleAllowed) {
for (auto i = 0; i < src_special_header.GetMoveHandleCount(); ++i) {
// Get the handles.
const Handle src_handle = src_msg.GetHandle(offset);
Handle dst_handle = Svc::InvalidHandle;
// Whether or not we've succeeded, we need to remove the handles from the source table.
if (src_handle != Svc::InvalidHandle) {
if (R_SUCCEEDED(result)) {
KScopedAutoObject obj =
src_handle_table.GetObjectForIpcWithoutPseudoHandle(src_handle);
if (obj.IsNotNull()) {
Result add_result = dst_handle_table.Add(std::addressof(dst_handle),
obj.GetPointerUnsafe());
src_handle_table.Remove(src_handle);
if (R_FAILED(add_result)) {
result = add_result;
dst_handle = Svc::InvalidHandle;
}
} else {
result = ResultInvalidHandle;
}
} else {
src_handle_table.Remove(src_handle);
}
}
// Set the handle.
offset = dst_msg.SetHandle(offset, dst_handle);
}
}
R_RETURN(result);
}
void CleanupSpecialData(KProcess& dst_process, u32* dst_msg_ptr, size_t dst_buffer_size) {
// Parse the message.
const MessageBuffer dst_msg(dst_msg_ptr, dst_buffer_size);
const MessageBuffer::MessageHeader dst_header(dst_msg);
const MessageBuffer::SpecialHeader dst_special_header(dst_msg, dst_header);
// Check that the size is big enough.
if (MessageBuffer::GetMessageBufferSize(dst_header, dst_special_header) > dst_buffer_size) {
return;
}
// Set the special header.
int offset = dst_msg.Set(dst_special_header);
// Clear the process id, if needed.
if (dst_special_header.GetHasProcessId()) {
offset = dst_msg.SetProcessId(offset, 0);
}
// Clear handles, as relevant.
auto& dst_handle_table = dst_process.GetHandleTable();
for (auto i = 0;
i < (dst_special_header.GetCopyHandleCount() + dst_special_header.GetMoveHandleCount());
++i) {
const Handle handle = dst_msg.GetHandle(offset);
if (handle != Svc::InvalidHandle) {
dst_handle_table.Remove(handle);
}
offset = dst_msg.SetHandle(offset, Svc::InvalidHandle);
}
}
} // namespace
using ThreadQueueImplForKServerSessionRequest = KThreadQueue;
KServerSession::KServerSession(KernelCore& kernel)
@ -223,12 +343,27 @@ Result KServerSession::SendReply(bool is_hle) {
// the reply has already been written in this case.
} else {
Core::Memory::Memory& memory{client_thread->GetOwnerProcess()->GetMemory()};
KThread* server_thread{GetCurrentThreadPointer(m_kernel)};
KThread* server_thread = GetCurrentThreadPointer(m_kernel);
KProcess& src_process = *client_thread->GetOwnerProcess();
KProcess& dst_process = *server_thread->GetOwnerProcess();
UNIMPLEMENTED_IF(server_thread->GetOwnerProcess() != client_thread->GetOwnerProcess());
auto* src_msg_buffer = memory.GetPointer(server_thread->GetTlsAddress());
auto* dst_msg_buffer = memory.GetPointer(client_message);
auto* src_msg_buffer = memory.GetPointer<u32>(server_thread->GetTlsAddress());
auto* dst_msg_buffer = memory.GetPointer<u32>(client_message);
std::memcpy(dst_msg_buffer, src_msg_buffer, client_buffer_size);
// Translate special header ad-hoc.
MessageBuffer src_msg(src_msg_buffer, client_buffer_size);
MessageBuffer::MessageHeader src_header(src_msg);
MessageBuffer::SpecialHeader src_special_header(src_msg, src_header);
if (src_header.GetHasSpecialHeader()) {
MessageBuffer dst_msg(dst_msg_buffer, client_buffer_size);
result = ProcessMessageSpecialData<true>(dst_process, src_process, *server_thread,
dst_msg, src_msg, src_special_header);
if (R_FAILED(result)) {
CleanupSpecialData(dst_process, dst_msg_buffer, client_buffer_size);
}
}
}
} else {
result = ResultSessionClosed;
@ -330,12 +465,28 @@ Result KServerSession::ReceiveRequest(std::shared_ptr<Service::HLERequestContext
->PopulateFromIncomingCommandBuffer(client_thread->GetOwnerProcess()->GetHandleTable(),
cmd_buf);
} else {
KThread* server_thread{GetCurrentThreadPointer(m_kernel)};
UNIMPLEMENTED_IF(server_thread->GetOwnerProcess() != client_thread->GetOwnerProcess());
KThread* server_thread = GetCurrentThreadPointer(m_kernel);
KProcess& src_process = *client_thread->GetOwnerProcess();
KProcess& dst_process = *server_thread->GetOwnerProcess();
UNIMPLEMENTED_IF(client_thread->GetOwnerProcess() != server_thread->GetOwnerProcess());
auto* src_msg_buffer = memory.GetPointer(client_message);
auto* dst_msg_buffer = memory.GetPointer(server_thread->GetTlsAddress());
auto* src_msg_buffer = memory.GetPointer<u32>(client_message);
auto* dst_msg_buffer = memory.GetPointer<u32>(server_thread->GetTlsAddress());
std::memcpy(dst_msg_buffer, src_msg_buffer, client_buffer_size);
// Translate special header ad-hoc.
// TODO: fix this mess
MessageBuffer src_msg(src_msg_buffer, client_buffer_size);
MessageBuffer::MessageHeader src_header(src_msg);
MessageBuffer::SpecialHeader src_special_header(src_msg, src_header);
if (src_header.GetHasSpecialHeader()) {
MessageBuffer dst_msg(dst_msg_buffer, client_buffer_size);
Result res = ProcessMessageSpecialData<false>(dst_process, src_process, *client_thread,
dst_msg, src_msg, src_special_header);
if (R_FAILED(res)) {
CleanupSpecialData(dst_process, dst_msg_buffer, client_buffer_size);
}
}
}
// We succeeded.

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@ -0,0 +1,612 @@
// SPDX-FileCopyrightText: 2023 yuzu Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include "common/alignment.h"
#include "common/bit_field.h"
#include "core/hle/kernel/k_thread.h"
namespace Kernel {
constexpr inline size_t MessageBufferSize = 0x100;
class MessageBuffer {
public:
class MessageHeader {
private:
static constexpr inline u64 NullTag = 0;
public:
enum class ReceiveListCountType : u32 {
None = 0,
ToMessageBuffer = 1,
ToSingleBuffer = 2,
CountOffset = 2,
CountMax = 13,
};
private:
union {
std::array<u32, 2> raw;
struct {
// Define fields for the first header word.
union {
BitField<0, 16, u16> tag;
BitField<16, 4, u32> pointer_count;
BitField<20, 4, u32> send_count;
BitField<24, 4, u32> receive_count;
BitField<28, 4, u32> exchange_count;
};
// Define fields for the second header word.
union {
BitField<0, 10, u32> raw_count;
BitField<10, 4, ReceiveListCountType> receive_list_count;
BitField<14, 6, u32> reserved0;
BitField<20, 11, u32> receive_list_offset;
BitField<31, 1, u32> has_special_header;
};
};
} m_header;
public:
constexpr MessageHeader() : m_header{} {}
constexpr MessageHeader(u16 tag, bool special, s32 ptr, s32 send, s32 recv, s32 exch,
s32 raw, ReceiveListCountType recv_list)
: m_header{} {
m_header.raw[0] = 0;
m_header.raw[1] = 0;
m_header.tag.Assign(tag);
m_header.pointer_count.Assign(ptr);
m_header.send_count.Assign(send);
m_header.receive_count.Assign(recv);
m_header.exchange_count.Assign(exch);
m_header.raw_count.Assign(raw);
m_header.receive_list_count.Assign(recv_list);
m_header.has_special_header.Assign(special);
}
explicit MessageHeader(const MessageBuffer& buf) : m_header{} {
buf.Get(0, m_header.raw.data(), 2);
}
explicit MessageHeader(const u32* msg) : m_header{{msg[0], msg[1]}} {}
constexpr u16 GetTag() const {
return m_header.tag;
}
constexpr s32 GetPointerCount() const {
return m_header.pointer_count;
}
constexpr s32 GetSendCount() const {
return m_header.send_count;
}
constexpr s32 GetReceiveCount() const {
return m_header.receive_count;
}
constexpr s32 GetExchangeCount() const {
return m_header.exchange_count;
}
constexpr s32 GetMapAliasCount() const {
return this->GetSendCount() + this->GetReceiveCount() + this->GetExchangeCount();
}
constexpr s32 GetRawCount() const {
return m_header.raw_count;
}
constexpr ReceiveListCountType GetReceiveListCount() const {
return m_header.receive_list_count;
}
constexpr s32 GetReceiveListOffset() const {
return m_header.receive_list_offset;
}
constexpr bool GetHasSpecialHeader() const {
return m_header.has_special_header.Value() != 0;
}
constexpr void SetReceiveListCount(ReceiveListCountType recv_list) {
m_header.receive_list_count.Assign(recv_list);
}
constexpr const u32* GetData() const {
return m_header.raw.data();
}
static constexpr size_t GetDataSize() {
return sizeof(m_header);
}
};
class SpecialHeader {
private:
union {
std::array<u32, 1> raw;
// Define fields for the header word.
BitField<0, 1, u32> has_process_id;
BitField<1, 4, u32> copy_handle_count;
BitField<5, 4, u32> move_handle_count;
} m_header;
bool m_has_header;
public:
constexpr explicit SpecialHeader(bool pid, s32 copy, s32 move)
: m_header{}, m_has_header(true) {
m_header.has_process_id.Assign(pid);
m_header.copy_handle_count.Assign(copy);
m_header.move_handle_count.Assign(move);
}
constexpr explicit SpecialHeader(bool pid, s32 copy, s32 move, bool _has_header)
: m_header{}, m_has_header(_has_header) {
m_header.has_process_id.Assign(pid);
m_header.copy_handle_count.Assign(copy);
m_header.move_handle_count.Assign(move);
}
explicit SpecialHeader(const MessageBuffer& buf, const MessageHeader& hdr)
: m_header{}, m_has_header(hdr.GetHasSpecialHeader()) {
if (m_has_header) {
buf.Get(static_cast<s32>(MessageHeader::GetDataSize() / sizeof(u32)),
m_header.raw.data(), sizeof(m_header) / sizeof(u32));
}
}
constexpr bool GetHasProcessId() const {
return m_header.has_process_id.Value() != 0;
}
constexpr s32 GetCopyHandleCount() const {
return m_header.copy_handle_count;
}
constexpr s32 GetMoveHandleCount() const {
return m_header.move_handle_count;
}
constexpr const u32* GetHeader() const {
return m_header.raw.data();
}
constexpr size_t GetHeaderSize() const {
if (m_has_header) {
return sizeof(m_header);
} else {
return 0;
}
}
constexpr size_t GetDataSize() const {
if (m_has_header) {
return (this->GetHasProcessId() ? sizeof(u64) : 0) +
(this->GetCopyHandleCount() * sizeof(Handle)) +
(this->GetMoveHandleCount() * sizeof(Handle));
} else {
return 0;
}
}
};
class MapAliasDescriptor {
public:
enum class Attribute : u32 {
Ipc = 0,
NonSecureIpc = 1,
NonDeviceIpc = 3,
};
private:
static constexpr u32 SizeLowCount = 32;
static constexpr u32 SizeHighCount = 4;
static constexpr u32 AddressLowCount = 32;
static constexpr u32 AddressMidCount = 4;
constexpr u32 GetAddressMid(u64 address) {
return static_cast<u32>(address >> AddressLowCount) & ((1U << AddressMidCount) - 1);
}
constexpr u32 GetAddressHigh(u64 address) {
return static_cast<u32>(address >> (AddressLowCount + AddressMidCount));
}
private:
union {
std::array<u32, 3> raw;
struct {
// Define fields for the first two words.
u32 size_low;
u32 address_low;
// Define fields for the packed descriptor word.
union {
BitField<0, 2, Attribute> attributes;
BitField<2, 3, u32> address_high;
BitField<5, 19, u32> reserved;
BitField<24, 4, u32> size_high;
BitField<28, 4, u32> address_mid;
};
};
} m_data;
public:
constexpr MapAliasDescriptor() : m_data{} {}
MapAliasDescriptor(const void* buffer, size_t _size, Attribute attr = Attribute::Ipc)
: m_data{} {
const u64 address = reinterpret_cast<u64>(buffer);
const u64 size = static_cast<u64>(_size);
m_data.size_low = static_cast<u32>(size);
m_data.address_low = static_cast<u32>(address);
m_data.attributes.Assign(attr);
m_data.address_mid.Assign(GetAddressMid(address));
m_data.size_high.Assign(static_cast<u32>(size >> SizeLowCount));
m_data.address_high.Assign(GetAddressHigh(address));
}
MapAliasDescriptor(const MessageBuffer& buf, s32 index) : m_data{} {
buf.Get(index, m_data.raw.data(), 3);
}
constexpr uintptr_t GetAddress() const {
return (static_cast<u64>((m_data.address_high << AddressMidCount) | m_data.address_mid)
<< AddressLowCount) |
m_data.address_low;
}
constexpr uintptr_t GetSize() const {
return (static_cast<u64>(m_data.size_high) << SizeLowCount) | m_data.size_low;
}
constexpr Attribute GetAttribute() const {
return m_data.attributes;
}
constexpr const u32* GetData() const {
return m_data.raw.data();
}
static constexpr size_t GetDataSize() {
return sizeof(m_data);
}
};
class PointerDescriptor {
private:
static constexpr u32 AddressLowCount = 32;
static constexpr u32 AddressMidCount = 4;
constexpr u32 GetAddressMid(u64 address) {
return static_cast<u32>(address >> AddressLowCount) & ((1u << AddressMidCount) - 1);
}
constexpr u32 GetAddressHigh(u64 address) {
return static_cast<u32>(address >> (AddressLowCount + AddressMidCount));
}
private:
union {
std::array<u32, 2> raw;
struct {
// Define fields for the packed descriptor word.
union {
BitField<0, 4, u32> index;
BitField<4, 2, u32> reserved0;
BitField<6, 3, u32> address_high;
BitField<9, 3, u32> reserved1;
BitField<12, 4, u32> address_mid;
BitField<16, 16, u32> size;
};
// Define fields for the second word.
u32 address_low;
};
} m_data;
public:
constexpr PointerDescriptor() : m_data{} {}
PointerDescriptor(const void* buffer, size_t size, s32 index) : m_data{} {
const u64 address = reinterpret_cast<u64>(buffer);
m_data.index.Assign(index);
m_data.address_high.Assign(GetAddressHigh(address));
m_data.address_mid.Assign(GetAddressMid(address));
m_data.size.Assign(static_cast<u32>(size));
m_data.address_low = static_cast<u32>(address);
}
PointerDescriptor(const MessageBuffer& buf, s32 index) : m_data{} {
buf.Get(index, m_data.raw.data(), 2);
}
constexpr s32 GetIndex() const {
return m_data.index;
}
constexpr uintptr_t GetAddress() const {
return (static_cast<u64>((m_data.address_high << AddressMidCount) | m_data.address_mid)
<< AddressLowCount) |
m_data.address_low;
}
constexpr size_t GetSize() const {
return m_data.size;
}
constexpr const u32* GetData() const {
return m_data.raw.data();
}
static constexpr size_t GetDataSize() {
return sizeof(m_data);
}
};
class ReceiveListEntry {
private:
static constexpr u32 AddressLowCount = 32;
constexpr u32 GetAddressHigh(u64 address) {
return static_cast<u32>(address >> (AddressLowCount));
}
private:
union {
std::array<u32, 2> raw;
struct {
// Define fields for the first word.
u32 address_low;
// Define fields for the packed descriptor word.
union {
BitField<0, 7, u32> address_high;
BitField<7, 9, u32> reserved;
BitField<16, 16, u32> size;
};
};
} m_data;
public:
constexpr ReceiveListEntry() : m_data{} {}
ReceiveListEntry(const void* buffer, size_t size) : m_data{} {
const u64 address = reinterpret_cast<u64>(buffer);
m_data.address_low = static_cast<u32>(address);
m_data.address_high.Assign(GetAddressHigh(address));
m_data.size.Assign(static_cast<u32>(size));
}
ReceiveListEntry(u32 a, u32 b) : m_data{{a, b}} {}
constexpr uintptr_t GetAddress() const {
return (static_cast<u64>(m_data.address_high) << AddressLowCount) | m_data.address_low;
}
constexpr size_t GetSize() const {
return m_data.size;
}
constexpr const u32* GetData() const {
return m_data.raw.data();
}
static constexpr size_t GetDataSize() {
return sizeof(m_data);
}
};
private:
u32* m_buffer;
size_t m_size;
public:
constexpr MessageBuffer(u32* b, size_t sz) : m_buffer(b), m_size(sz) {}
constexpr explicit MessageBuffer(u32* b) : m_buffer(b), m_size(MessageBufferSize) {}
constexpr void* GetBufferForDebug() const {
return m_buffer;
}
constexpr size_t GetBufferSize() const {
return m_size;
}
void Get(s32 index, u32* dst, size_t count) const {
// Ensure that this doesn't get re-ordered.
std::atomic_thread_fence(std::memory_order_seq_cst);
// Get the words.
static_assert(sizeof(*dst) == sizeof(*m_buffer));
memcpy(dst, m_buffer + index, count * sizeof(*dst));
}
s32 Set(s32 index, u32* src, size_t count) const {
// Ensure that this doesn't get re-ordered.
std::atomic_thread_fence(std::memory_order_seq_cst);
// Set the words.
memcpy(m_buffer + index, src, count * sizeof(*src));
// Ensure that this doesn't get re-ordered.
std::atomic_thread_fence(std::memory_order_seq_cst);
return static_cast<s32>(index + count);
}
template <typename T>
const T& GetRaw(s32 index) const {
return *reinterpret_cast<const T*>(m_buffer + index);
}
template <typename T>
s32 SetRaw(s32 index, const T& val) const {
*reinterpret_cast<const T*>(m_buffer + index) = val;
return index + (Common::AlignUp(sizeof(val), sizeof(*m_buffer)) / sizeof(*m_buffer));
}
void GetRawArray(s32 index, void* dst, size_t len) const {
memcpy(dst, m_buffer + index, len);
}
void SetRawArray(s32 index, const void* src, size_t len) const {
memcpy(m_buffer + index, src, len);
}
void SetNull() const {
this->Set(MessageHeader());
}
s32 Set(const MessageHeader& hdr) const {
memcpy(m_buffer, hdr.GetData(), hdr.GetDataSize());
return static_cast<s32>(hdr.GetDataSize() / sizeof(*m_buffer));
}
s32 Set(const SpecialHeader& spc) const {
const s32 index = static_cast<s32>(MessageHeader::GetDataSize() / sizeof(*m_buffer));
memcpy(m_buffer + index, spc.GetHeader(), spc.GetHeaderSize());
return static_cast<s32>(index + (spc.GetHeaderSize() / sizeof(*m_buffer)));
}
s32 SetHandle(s32 index, const Handle& hnd) const {
memcpy(m_buffer + index, std::addressof(hnd), sizeof(hnd));
return static_cast<s32>(index + (sizeof(hnd) / sizeof(*m_buffer)));
}
s32 SetProcessId(s32 index, const u64 pid) const {
memcpy(m_buffer + index, std::addressof(pid), sizeof(pid));
return static_cast<s32>(index + (sizeof(pid) / sizeof(*m_buffer)));
}
s32 Set(s32 index, const MapAliasDescriptor& desc) const {
memcpy(m_buffer + index, desc.GetData(), desc.GetDataSize());
return static_cast<s32>(index + (desc.GetDataSize() / sizeof(*m_buffer)));
}
s32 Set(s32 index, const PointerDescriptor& desc) const {
memcpy(m_buffer + index, desc.GetData(), desc.GetDataSize());
return static_cast<s32>(index + (desc.GetDataSize() / sizeof(*m_buffer)));
}
s32 Set(s32 index, const ReceiveListEntry& desc) const {
memcpy(m_buffer + index, desc.GetData(), desc.GetDataSize());
return static_cast<s32>(index + (desc.GetDataSize() / sizeof(*m_buffer)));
}
s32 Set(s32 index, const u32 val) const {
memcpy(m_buffer + index, std::addressof(val), sizeof(val));
return static_cast<s32>(index + (sizeof(val) / sizeof(*m_buffer)));
}
Result GetAsyncResult() const {
MessageHeader hdr(m_buffer);
MessageHeader null{};
if (memcmp(hdr.GetData(), null.GetData(), MessageHeader::GetDataSize()) != 0) [[unlikely]] {
R_SUCCEED();
}
return Result(m_buffer[MessageHeader::GetDataSize() / sizeof(*m_buffer)]);
}
void SetAsyncResult(Result res) const {
const s32 index = this->Set(MessageHeader());
const auto value = res.raw;
memcpy(m_buffer + index, std::addressof(value), sizeof(value));
}
u32 Get32(s32 index) const {
return m_buffer[index];
}
u64 Get64(s32 index) const {
u64 value;
memcpy(std::addressof(value), m_buffer + index, sizeof(value));
return value;
}
u64 GetProcessId(s32 index) const {
return this->Get64(index);
}
Handle GetHandle(s32 index) const {
static_assert(sizeof(Handle) == sizeof(*m_buffer));
return Handle(m_buffer[index]);
}
static constexpr s32 GetSpecialDataIndex(const MessageHeader& hdr, const SpecialHeader& spc) {
return static_cast<s32>((MessageHeader::GetDataSize() / sizeof(u32)) +
(spc.GetHeaderSize() / sizeof(u32)));
}
static constexpr s32 GetPointerDescriptorIndex(const MessageHeader& hdr,
const SpecialHeader& spc) {
return static_cast<s32>(GetSpecialDataIndex(hdr, spc) + (spc.GetDataSize() / sizeof(u32)));
}
static constexpr s32 GetMapAliasDescriptorIndex(const MessageHeader& hdr,
const SpecialHeader& spc) {
return GetPointerDescriptorIndex(hdr, spc) +
static_cast<s32>(hdr.GetPointerCount() * PointerDescriptor::GetDataSize() /
sizeof(u32));
}
static constexpr s32 GetRawDataIndex(const MessageHeader& hdr, const SpecialHeader& spc) {
return GetMapAliasDescriptorIndex(hdr, spc) +
static_cast<s32>(hdr.GetMapAliasCount() * MapAliasDescriptor::GetDataSize() /
sizeof(u32));
}
static constexpr s32 GetReceiveListIndex(const MessageHeader& hdr, const SpecialHeader& spc) {
if (const s32 recv_list_index = hdr.GetReceiveListOffset()) {
return recv_list_index;
} else {
return GetRawDataIndex(hdr, spc) + hdr.GetRawCount();
}
}
static constexpr size_t GetMessageBufferSize(const MessageHeader& hdr,
const SpecialHeader& spc) {
// Get the size of the plain message.
size_t msg_size = GetReceiveListIndex(hdr, spc) * sizeof(u32);
// Add the size of the receive list.
const auto count = hdr.GetReceiveListCount();
switch (count) {
case MessageHeader::ReceiveListCountType::None:
break;
case MessageHeader::ReceiveListCountType::ToMessageBuffer:
break;
case MessageHeader::ReceiveListCountType::ToSingleBuffer:
msg_size += ReceiveListEntry::GetDataSize();
break;
default:
msg_size += (static_cast<s32>(count) -
static_cast<s32>(MessageHeader::ReceiveListCountType::CountOffset)) *
ReceiveListEntry::GetDataSize();
break;
}
return msg_size;
}
};
} // namespace Kernel