yuzu/src/core/hle/ipc_helpers.h

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// Copyright 2016 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.
#pragma once
#include <array>
#include <tuple>
#include <type_traits>
#include <utility>
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#include "core/hle/ipc.h"
#include "core/hle/kernel/handle_table.h"
#include "core/hle/kernel/hle_ipc.h"
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#include "core/hle/kernel/kernel.h"
namespace IPC {
class RequestHelperBase {
protected:
Kernel::HLERequestContext* context = nullptr;
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u32* cmdbuf;
ptrdiff_t index = 1;
Header header;
public:
RequestHelperBase(Kernel::HLERequestContext& context, Header desired_header)
: context(&context), cmdbuf(context.CommandBuffer()), header(desired_header) {}
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RequestHelperBase(u32* command_buffer, Header command_header)
: cmdbuf(command_buffer), header(command_header) {}
/// Returns the total size of the request in words
size_t TotalSize() const {
return 1 /* command header */ + header.normal_params_size + header.translate_params_size;
}
void ValidateHeader() {
DEBUG_ASSERT_MSG(index == TotalSize(), "Operations do not match the header (cmd 0x%x)",
header.raw);
}
void Skip(unsigned size_in_words, bool set_to_null) {
if (set_to_null)
memset(cmdbuf + index, 0, size_in_words * sizeof(u32));
index += size_in_words;
}
/**
* @brief Retrieves the address of a static buffer, used when a buffer is needed for output
* @param buffer_id The index of the static buffer
* @param data_size If non-null, will store the size of the buffer
*/
VAddr PeekStaticBuffer(u8 buffer_id, size_t* data_size = nullptr) const {
u32* static_buffer = cmdbuf + Kernel::kStaticBuffersOffset / sizeof(u32) + buffer_id * 2;
if (data_size)
*data_size = StaticBufferDescInfo{static_buffer[0]}.size;
return static_buffer[1];
}
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};
class RequestBuilder : public RequestHelperBase {
public:
RequestBuilder(Kernel::HLERequestContext& context, Header command_header)
: RequestHelperBase(context, command_header) {
// From this point we will start overwriting the existing command buffer, so it's safe to
// release all previous incoming Object pointers since they won't be usable anymore.
context.ClearIncomingObjects();
cmdbuf[0] = header.raw;
}
RequestBuilder(Kernel::HLERequestContext& context, u16 command_id, unsigned normal_params_size,
unsigned translate_params_size)
: RequestBuilder(
context, Header{MakeHeader(command_id, normal_params_size, translate_params_size)}) {}
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RequestBuilder(u32* command_buffer, Header command_header)
: RequestHelperBase(command_buffer, command_header) {
cmdbuf[0] = header.raw;
}
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explicit RequestBuilder(u32* command_buffer, u32 command_header)
: RequestBuilder(command_buffer, Header{command_header}) {}
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RequestBuilder(u32* command_buffer, u16 command_id, unsigned normal_params_size,
unsigned translate_params_size)
: RequestBuilder(command_buffer,
MakeHeader(command_id, normal_params_size, translate_params_size)) {}
// Validate on destruction, as there shouldn't be any case where we don't want it
~RequestBuilder() {
ValidateHeader();
}
template <typename T>
void Push(T value);
template <typename First, typename... Other>
void Push(const First& first_value, const Other&... other_values);
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/**
* @brief Copies the content of the given trivially copyable class to the buffer as a normal
* param
* @note: The input class must be correctly packed/padded to fit hardware layout.
*/
template <typename T>
void PushRaw(const T& value);
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// TODO : ensure that translate params are added after all regular params
template <typename... H>
void PushCopyHandles(H... handles);
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template <typename... H>
void PushMoveHandles(H... handles);
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template <typename... O>
void PushObjects(Kernel::SharedPtr<O>... pointers);
void PushCurrentPIDHandle();
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void PushStaticBuffer(VAddr buffer_vaddr, size_t size, u8 buffer_id);
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void PushMappedBuffer(VAddr buffer_vaddr, size_t size, MappedBufferPermissions perms);
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};
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/// Push ///
template <>
inline void RequestBuilder::Push(u32 value) {
cmdbuf[index++] = value;
}
template <typename T>
void RequestBuilder::PushRaw(const T& value) {
static_assert(std::is_trivially_copyable<T>(), "Raw types should be trivially copyable");
std::memcpy(cmdbuf + index, &value, sizeof(T));
index += (sizeof(T) + 3) / 4; // round up to word length
}
template <>
inline void RequestBuilder::Push(u8 value) {
PushRaw(value);
}
template <>
inline void RequestBuilder::Push(u16 value) {
PushRaw(value);
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}
template <>
inline void RequestBuilder::Push(u64 value) {
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Push(static_cast<u32>(value));
Push(static_cast<u32>(value >> 32));
}
template <>
inline void RequestBuilder::Push(bool value) {
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Push(static_cast<u8>(value));
}
template <>
inline void RequestBuilder::Push(ResultCode value) {
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Push(value.raw);
}
template <typename First, typename... Other>
void RequestBuilder::Push(const First& first_value, const Other&... other_values) {
Push(first_value);
Push(other_values...);
}
template <typename... H>
inline void RequestBuilder::PushCopyHandles(H... handles) {
Push(CopyHandleDesc(sizeof...(H)));
Push(static_cast<Kernel::Handle>(handles)...);
}
template <typename... H>
inline void RequestBuilder::PushMoveHandles(H... handles) {
Push(MoveHandleDesc(sizeof...(H)));
Push(static_cast<Kernel::Handle>(handles)...);
}
template <typename... O>
inline void RequestBuilder::PushObjects(Kernel::SharedPtr<O>... pointers) {
PushMoveHandles(context->AddOutgoingHandle(std::move(pointers))...);
}
inline void RequestBuilder::PushCurrentPIDHandle() {
Push(CallingPidDesc());
Push(u32(0));
}
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inline void RequestBuilder::PushStaticBuffer(VAddr buffer_vaddr, size_t size, u8 buffer_id) {
Push(StaticBufferDesc(size, buffer_id));
Push(buffer_vaddr);
}
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inline void RequestBuilder::PushMappedBuffer(VAddr buffer_vaddr, size_t size,
MappedBufferPermissions perms) {
Push(MappedBufferDesc(size, perms));
Push(buffer_vaddr);
}
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class RequestParser : public RequestHelperBase {
public:
RequestParser(Kernel::HLERequestContext& context, Header desired_header)
: RequestHelperBase(context, desired_header) {}
RequestParser(Kernel::HLERequestContext& context, u16 command_id, unsigned normal_params_size,
unsigned translate_params_size)
: RequestParser(context,
Header{MakeHeader(command_id, normal_params_size, translate_params_size)}) {
}
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RequestParser(u32* command_buffer, Header command_header)
: RequestHelperBase(command_buffer, command_header) {}
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explicit RequestParser(u32* command_buffer, u32 command_header)
: RequestParser(command_buffer, Header{command_header}) {}
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RequestParser(u32* command_buffer, u16 command_id, unsigned normal_params_size,
unsigned translate_params_size)
: RequestParser(command_buffer,
MakeHeader(command_id, normal_params_size, translate_params_size)) {}
RequestBuilder MakeBuilder(u32 normal_params_size, u32 translate_params_size,
bool validateHeader = true) {
if (validateHeader)
ValidateHeader();
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Header builderHeader{MakeHeader(static_cast<u16>(header.command_id), normal_params_size,
translate_params_size)};
if (context != nullptr)
return {*context, builderHeader};
else
return {cmdbuf, builderHeader};
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}
template <typename T>
T Pop();
template <typename T>
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void Pop(T& value);
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template <typename First, typename... Other>
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void Pop(First& first_value, Other&... other_values);
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/// Equivalent to calling `PopHandles<1>()[0]`.
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Kernel::Handle PopHandle();
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/**
* Pops a descriptor containing `N` handles. The handles are returned as an array. The
* descriptor must contain exactly `N` handles, it is not permitted to, for example, call
* PopHandles<1>() twice to read a multi-handle descriptor with 2 handles, or to make a single
* PopHandles<2>() call to read 2 single-handle descriptors.
*/
template <unsigned int N>
std::array<Kernel::Handle, N> PopHandles();
/// Convenience wrapper around PopHandles() which assigns the handles to the passed references.
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template <typename... H>
void PopHandles(H&... handles) {
std::tie(handles...) = PopHandles<sizeof...(H)>();
}
/// Equivalent to calling `PopGenericObjects<1>()[0]`.
Kernel::SharedPtr<Kernel::Object> PopGenericObject();
/// Equivalent to calling `std::get<0>(PopObjects<T>())`.
template <typename T>
Kernel::SharedPtr<T> PopObject();
/**
* Pop a descriptor containing `N` handles and resolves them to Kernel::Object pointers. If a
* handle is invalid, null is returned for that object instead. The same caveats from
* PopHandles() apply regarding `N` matching the number of handles in the descriptor.
*/
template <unsigned int N>
std::array<Kernel::SharedPtr<Kernel::Object>, N> PopGenericObjects();
/**
* Resolves handles to Kernel::Objects as in PopGenericsObjects(), but then also casts them to
* the passed `T` types, while verifying that the cast is valid. If the type of an object does
* not match, null is returned instead.
*/
template <typename... T>
std::tuple<Kernel::SharedPtr<T>...> PopObjects();
/// Convenience wrapper around PopObjects() which assigns the handles to the passed references.
template <typename... T>
void PopObjects(Kernel::SharedPtr<T>&... pointers) {
std::tie(pointers...) = PopObjects<T...>();
}
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/**
* @brief Pops the static buffer vaddr
* @return The virtual address of the buffer
* @param[out] data_size If non-null, the pointed value will be set to the size of the data
* @param[out] useStaticBuffersToGetVaddr Indicates if we should read the vaddr from the static
* buffers (which is the correct thing to do, but no service presently implement it) instead of
* using the same value as the process who sent the request
* given by the source process
*
* Static buffers must be set up before any IPC request using those is sent.
* It is the duty of the process (usually services) to allocate and set up the receiving static
* buffer information
* Please note that the setup uses virtual addresses.
*/
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VAddr PopStaticBuffer(size_t* data_size = nullptr, bool useStaticBuffersToGetVaddr = false);
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/**
* @brief Pops the mapped buffer vaddr
* @return The virtual address of the buffer
* @param[out] data_size If non-null, the pointed value will be set to the size of the data
* given by the source process
* @param[out] buffer_perms If non-null, the pointed value will be set to the permissions of the
* buffer
*/
VAddr PopMappedBuffer(size_t* data_size = nullptr,
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MappedBufferPermissions* buffer_perms = nullptr);
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/**
* @brief Reads the next normal parameters as a struct, by copying it
* @note: The output class must be correctly packed/padded to fit hardware layout.
*/
template <typename T>
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void PopRaw(T& value);
/**
* @brief Reads the next normal parameters as a struct, by copying it into a new value
* @note: The output class must be correctly packed/padded to fit hardware layout.
*/
template <typename T>
T PopRaw();
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};
/// Pop ///
template <>
inline u32 RequestParser::Pop() {
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return cmdbuf[index++];
}
template <typename T>
void RequestParser::PopRaw(T& value) {
static_assert(std::is_trivially_copyable<T>(), "Raw types should be trivially copyable");
std::memcpy(&value, cmdbuf + index, sizeof(T));
index += (sizeof(T) + 3) / 4; // round up to word length
}
template <typename T>
T RequestParser::PopRaw() {
T value;
PopRaw(value);
return value;
}
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template <>
inline u8 RequestParser::Pop() {
return PopRaw<u8>();
}
template <>
inline u16 RequestParser::Pop() {
return PopRaw<u16>();
}
template <>
inline u64 RequestParser::Pop() {
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const u64 lsw = Pop<u32>();
const u64 msw = Pop<u32>();
return msw << 32 | lsw;
}
template <>
inline bool RequestParser::Pop() {
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return Pop<u8>() != 0;
}
template <>
inline ResultCode RequestParser::Pop() {
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return ResultCode{Pop<u32>()};
}
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template <typename T>
void RequestParser::Pop(T& value) {
value = Pop<T>();
}
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template <typename First, typename... Other>
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void RequestParser::Pop(First& first_value, Other&... other_values) {
first_value = Pop<First>();
Pop(other_values...);
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}
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inline Kernel::Handle RequestParser::PopHandle() {
const u32 handle_descriptor = Pop<u32>();
DEBUG_ASSERT_MSG(IsHandleDescriptor(handle_descriptor),
"Tried to pop handle(s) but the descriptor is not a handle descriptor");
DEBUG_ASSERT_MSG(HandleNumberFromDesc(handle_descriptor) == 1,
"Descriptor indicates that there isn't exactly one handle");
return Pop<Kernel::Handle>();
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}
template <unsigned int N>
std::array<Kernel::Handle, N> RequestParser::PopHandles() {
u32 handle_descriptor = Pop<u32>();
ASSERT_MSG(IsHandleDescriptor(handle_descriptor),
"Tried to pop handle(s) but the descriptor is not a handle descriptor");
ASSERT_MSG(N == HandleNumberFromDesc(handle_descriptor),
"Number of handles doesn't match the descriptor");
std::array<Kernel::Handle, N> handles{};
for (Kernel::Handle& handle : handles) {
handle = Pop<Kernel::Handle>();
}
return handles;
}
inline Kernel::SharedPtr<Kernel::Object> RequestParser::PopGenericObject() {
Kernel::Handle handle = PopHandle();
return context->GetIncomingHandle(handle);
}
template <typename T>
Kernel::SharedPtr<T> RequestParser::PopObject() {
return Kernel::DynamicObjectCast<T>(PopGenericObject());
}
template <unsigned int N>
inline std::array<Kernel::SharedPtr<Kernel::Object>, N> RequestParser::PopGenericObjects() {
std::array<Kernel::Handle, N> handles = PopHandles<N>();
std::array<Kernel::SharedPtr<Kernel::Object>, N> pointers;
for (int i = 0; i < N; ++i) {
pointers[i] = context->GetIncomingHandle(handles[i]);
}
return pointers;
}
namespace detail {
template <typename... T, size_t... I>
std::tuple<Kernel::SharedPtr<T>...> PopObjectsHelper(
std::array<Kernel::SharedPtr<Kernel::Object>, sizeof...(T)>&& pointers,
std::index_sequence<I...>) {
return std::make_tuple(Kernel::DynamicObjectCast<T>(std::move(pointers[I]))...);
}
} // namespace detail
template <typename... T>
inline std::tuple<Kernel::SharedPtr<T>...> RequestParser::PopObjects() {
return detail::PopObjectsHelper<T...>(PopGenericObjects<sizeof...(T)>(),
std::index_sequence_for<T...>{});
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}
inline VAddr RequestParser::PopStaticBuffer(size_t* data_size, bool useStaticBuffersToGetVaddr) {
const u32 sbuffer_descriptor = Pop<u32>();
StaticBufferDescInfo bufferInfo{sbuffer_descriptor};
if (data_size != nullptr)
*data_size = bufferInfo.size;
if (!useStaticBuffersToGetVaddr)
return Pop<VAddr>();
else {
ASSERT_MSG(0, "remove the assert if multiprocess/IPC translation are implemented.");
// The buffer has already been copied to the static buffer by the kernel during
// translation
Pop<VAddr>(); // Pop the calling process buffer address
// and get the vaddr from the static buffers
return cmdbuf[(0x100 >> 2) + bufferInfo.buffer_id * 2 + 1];
}
}
inline VAddr RequestParser::PopMappedBuffer(size_t* data_size,
MappedBufferPermissions* buffer_perms) {
const u32 sbuffer_descriptor = Pop<u32>();
MappedBufferDescInfo bufferInfo{sbuffer_descriptor};
if (data_size != nullptr)
*data_size = bufferInfo.size;
if (buffer_perms != nullptr)
*buffer_perms = bufferInfo.perms;
return Pop<VAddr>();
}
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} // namespace IPC