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Fix C4267/C4244 warnings

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Address warnings involving lossy conversions from larger integer-types into smaller integer-types
This commit is contained in:
Wunkolo 2023-06-19 20:10:43 -07:00
parent 86de7d8aa3
commit 37b75f0928
11 changed files with 77 additions and 83 deletions
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2
include/PICA/gpu.hpp
View file

@ -26,7 +26,7 @@ class GPU {
MAKE_LOG_FUNCTION(log, gpuLogger)
static constexpr u32 maxAttribCount = 12; // Up to 12 vertex attributes
static constexpr u32 vramSize = 6_MB;
static constexpr u32 vramSize = u32(6_MB);
Registers regs; // GPU internal registers
std::array<vec4f, 16> currentAttributes; // Vertex attributes before being passed to the shader

16
include/memory.hpp
View file

@ -110,7 +110,7 @@ class Memory {
std::vector<KernelMemoryTypes::MemoryInfo> memoryInfo;
std::array<SharedMemoryBlock, 3> sharedMemBlocks = {
SharedMemoryBlock(0, _shared_font_len, KernelHandles::FontSharedMemHandle), // Shared memory for the system font
SharedMemoryBlock(0, u32(_shared_font_len), KernelHandles::FontSharedMemHandle), // Shared memory for the system font
SharedMemoryBlock(0, 0x1000, KernelHandles::GSPSharedMemHandle), // GSP shared memory
SharedMemoryBlock(0, 0x1000, KernelHandles::HIDSharedMemHandle) // HID shared memory
};
@ -121,14 +121,14 @@ public:
static constexpr u32 pageMask = pageSize - 1;
static constexpr u32 totalPageCount = 1 << (32 - pageShift);
static constexpr u32 FCRAM_SIZE = 128_MB;
static constexpr u32 FCRAM_APPLICATION_SIZE = 64_MB;
static constexpr u32 FCRAM_SIZE = u32(128_MB);
static constexpr u32 FCRAM_APPLICATION_SIZE = u32(64_MB);
static constexpr u32 FCRAM_PAGE_COUNT = FCRAM_SIZE / pageSize;
static constexpr u32 FCRAM_APPLICATION_PAGE_COUNT = FCRAM_APPLICATION_SIZE / pageSize;
static constexpr u32 DSP_RAM_SIZE = 512_KB;
static constexpr u32 DSP_CODE_MEMORY_OFFSET = 0_KB;
static constexpr u32 DSP_DATA_MEMORY_OFFSET = 256_KB;
static constexpr u32 DSP_RAM_SIZE = u32(512_KB);
static constexpr u32 DSP_CODE_MEMORY_OFFSET = u32(0_KB);
static constexpr u32 DSP_DATA_MEMORY_OFFSET = u32(256_KB);
private:
std::bitset<FCRAM_PAGE_COUNT> usedFCRAMPages;
@ -141,8 +141,8 @@ private:
public:
u16 kernelVersion = 0;
u32 usedUserMemory = 0_MB; // How much of the APPLICATION FCRAM range is used (allocated to the appcore)
u32 usedSystemMemory = 0_MB; // Similar for the SYSTEM range (reserved for the syscore)
u32 usedUserMemory = u32(0_MB); // How much of the APPLICATION FCRAM range is used (allocated to the appcore)
u32 usedSystemMemory = u32(0_MB); // Similar for the SYSTEM range (reserved for the syscore)
Memory(u64& cpuTicks);
void reset();

8
src/core/fs/archive_ncch.cpp
View file

@ -138,8 +138,8 @@ std::optional<u32> NCCHArchive::readFile(FileSession* file, u64 offset, u32 size
// Seek to file offset depending on if we're reading from RomFS, ExeFS, etc
switch (type) {
case PathType::RomFS: {
const u32 romFSSize = cxi->romFS.size;
const u32 romFSOffset = cxi->romFS.offset;
const u64 romFSSize = cxi->romFS.size;
const u64 romFSOffset = cxi->romFS.offset;
if ((offset >> 32) || (offset >= romFSSize) || (offset + size >= romFSSize)) {
Helpers::panic("Tried to read from NCCH with too big of an offset");
}
@ -161,8 +161,8 @@ std::optional<u32> NCCHArchive::readFile(FileSession* file, u64 offset, u32 size
}
for (u64 i = 0; i < bytesRead; i++) {
mem.write8(dataPointer + i, data[i]);
mem.write8(u32(dataPointer + i), data[i]);
}
return bytesRead;
return u32(bytesRead);
}

12
src/core/fs/archive_self_ncch.cpp
View file

@ -76,8 +76,8 @@ std::optional<u32> SelfNCCHArchive::readFile(FileSession* file, u64 offset, u32
// Seek to file offset depending on if we're reading from RomFS, ExeFS, etc
switch (type) {
case PathType::RomFS: {
const u32 romFSSize = cxi->romFS.size;
const u32 romFSOffset = cxi->romFS.offset;
const u64 romFSSize = cxi->romFS.size;
const u64 romFSOffset = cxi->romFS.offset;
if ((offset >> 32) || (offset >= romFSSize) || (offset + size >= romFSSize)) {
Helpers::panic("Tried to read from SelfNCCH with too big of an offset");
}
@ -88,8 +88,8 @@ std::optional<u32> SelfNCCHArchive::readFile(FileSession* file, u64 offset, u32
}
case PathType::ExeFS: {
const u32 exeFSSize = cxi->exeFS.size;
const u32 exeFSOffset = cxi->exeFS.offset;
const u64 exeFSSize = cxi->exeFS.size;
const u64 exeFSOffset = cxi->exeFS.offset;
if ((offset >> 32) || (offset >= exeFSSize) || (offset + size >= exeFSSize)) {
Helpers::panic("Tried to read from SelfNCCH with too big of an offset");
}
@ -110,8 +110,8 @@ std::optional<u32> SelfNCCHArchive::readFile(FileSession* file, u64 offset, u32
}
for (u64 i = 0; i < bytesRead; i++) {
mem.write8(dataPointer + i, data[i]);
mem.write8(u32(dataPointer + i), data[i]);
}
return bytesRead;
return u32(bytesRead);
}

8
src/core/kernel/file_operations.cpp
View file

@ -97,11 +97,11 @@ void Kernel::readFile(u32 messagePointer, Handle fileHandle) {
}
else {
for (size_t i = 0; i < bytesRead; i++) {
mem.write8(dataPointer + i, data[i]);
mem.write8(u32(dataPointer + i), data[i]);
}
mem.write32(messagePointer + 4, Result::Success);
mem.write32(messagePointer + 8, bytesRead);
mem.write32(messagePointer + 8, u32(bytesRead));
}
return;
@ -142,7 +142,7 @@ void Kernel::writeFile(u32 messagePointer, Handle fileHandle) {
std::unique_ptr<u8[]> data(new u8[size]);
for (size_t i = 0; i < size; i++) {
data[i] = mem.read8(dataPointer + i);
data[i] = mem.read8(u32(dataPointer + i));
}
IOFile f(file->fd);
@ -153,7 +153,7 @@ void Kernel::writeFile(u32 messagePointer, Handle fileHandle) {
Helpers::panic("Kernel::WriteFile failed");
} else {
mem.write32(messagePointer + 4, Result::Success);
mem.write32(messagePointer + 8, bytesWritten);
mem.write32(messagePointer + 8, u32(bytesWritten));
}
}

4
src/core/kernel/threads.cpp
View file

@ -286,7 +286,7 @@ int Kernel::wakeupOneThread(u64 waitlist, Handle handle) {
// Get the index of the event in the object's waitlist, write it to r1
for (size_t i = 0; i < t.waitList.size(); i++) {
if (t.waitList[i] == handle) {
t.gprs[1] = i;
t.gprs[1] = u32(i);
break;
}
}
@ -321,7 +321,7 @@ void Kernel::wakeupAllThreads(u64 waitlist, Handle handle) {
// Get the index of the event in the object's waitlist, write it to r1
for (size_t i = 0; i < t.waitList.size(); i++) {
if (t.waitList[i] == handle) {
t.gprs[1] = i;
t.gprs[1] = u32(i);
break;
}
}

2
src/core/loader/lz77.cpp
View file

@ -12,7 +12,7 @@ u32 CartLZ77::decompressedSize(const u8* buffer, u32 compressedSize) {
}
bool CartLZ77::decompress(std::vector<u8>& output, const std::vector<u8>& input) {
u32 sizeCompressed = input.size() * sizeof(u8);
u32 sizeCompressed = u32(input.size() * sizeof(u8));
u32 sizeDecompressed = decompressedSize(input);
output.resize(sizeDecompressed);

94
src/core/memory.cpp
View file

@ -1,9 +1,11 @@
#include "memory.hpp"
#include <cassert>
#include <chrono> // For time since epoch
#include <ctime>
#include "config_mem.hpp"
#include "resource_limits.hpp"
#include <cassert>
#include <chrono> // For time since epoch
#include <ctime>
using namespace KernelMemoryTypes;
@ -13,15 +15,15 @@ Memory::Memory(u64& cpuTicks) : cpuTicks(cpuTicks) {
readTable.resize(totalPageCount, 0);
writeTable.resize(totalPageCount, 0);
memoryInfo.reserve(32); // Pre-allocate some room for memory allocation info to avoid dynamic allocs
memoryInfo.reserve(32); // Pre-allocate some room for memory allocation info to avoid dynamic allocs
}
void Memory::reset() {
// Unallocate all memory
memoryInfo.clear();
usedFCRAMPages.reset();
usedUserMemory = 0_MB;
usedSystemMemory = 0_MB;
usedUserMemory = u32(0_MB);
usedSystemMemory = u32(0_MB);
for (u32 i = 0; i < totalPageCount; i++) {
readTable[i] = 0;
@ -35,7 +37,7 @@ void Memory::reset() {
}
u32 basePaddrForTLS = tlsBaseOpt.value();
for (int i = 0; i < appResourceLimits.maxThreads; i++) {
for (u32 i = 0; i < appResourceLimits.maxThreads; i++) {
u32 vaddr = VirtualAddrs::TLSBase + i * VirtualAddrs::TLSSize;
allocateMemory(vaddr, basePaddrForTLS, VirtualAddrs::TLSSize, true);
basePaddrForTLS += VirtualAddrs::TLSSize;
@ -48,8 +50,8 @@ void Memory::reset() {
}
// Map DSP RAM as R/W at [0x1FF00000, 0x1FF7FFFF]
constexpr u32 dspRamPages = DSP_RAM_SIZE / pageSize; // Number of DSP RAM pages
constexpr u32 initialPage = VirtualAddrs::DSPMemStart / pageSize; // First page of DSP RAM in the virtual address space
constexpr u32 dspRamPages = DSP_RAM_SIZE / pageSize; // Number of DSP RAM pages
constexpr u32 initialPage = VirtualAddrs::DSPMemStart / pageSize; // First page of DSP RAM in the virtual address space
for (u32 i = 0; i < dspRamPages; i++) {
auto pointer = uintptr_t(&dspRam[i * pageSize]);
@ -67,7 +69,7 @@ bool Memory::allocateMainThreadStack(u32 size) {
}
const u32 stackBottom = VirtualAddrs::StackTop - size;
std::optional<u32> result = allocateMemory(stackBottom, basePaddr.value(), size, true); // Should never be nullopt
std::optional<u32> result = allocateMemory(stackBottom, basePaddr.value(), size, true); // Should never be nullopt
return result.has_value();
}
@ -78,18 +80,17 @@ u8 Memory::read8(u32 vaddr) {
uintptr_t pointer = readTable[page];
if (pointer != 0) [[likely]] {
return *(u8*)(pointer + offset);
}
else {
} else {
switch (vaddr) {
case ConfigMem::BatteryState: return getBatteryState(true, true, BatteryLevel::FourBars);
case ConfigMem::EnvInfo: return envInfo;
case ConfigMem::HardwareType: return ConfigMem::HardwareCodes::Product;
case ConfigMem::KernelVersionMinor: return u8(kernelVersion & 0xff);
case ConfigMem::KernelVersionMajor: return u8(kernelVersion >> 8);
case ConfigMem::LedState3D: return 1; // Report the 3D LED as always off (non-zero) for now
case ConfigMem::NetworkState: return 2; // Report that we've got an internet connection
case ConfigMem::LedState3D: return 1; // Report the 3D LED as always off (non-zero) for now
case ConfigMem::NetworkState: return 2; // Report that we've got an internet connection
case ConfigMem::HeadphonesConnectedMaybe: return 0;
case ConfigMem::Unknown1086: return 1; // It's unknown what this is but some games want it to be 1
case ConfigMem::Unknown1086: return 1; // It's unknown what this is but some games want it to be 1
default: Helpers::panic("Unimplemented 8-bit read, addr: %08X", vaddr);
}
}
@ -102,8 +103,7 @@ u16 Memory::read16(u32 vaddr) {
uintptr_t pointer = readTable[page];
if (pointer != 0) [[likely]] {
return *(u16*)(pointer + offset);
}
else {
} else {
Helpers::panic("Unimplemented 16-bit read, addr: %08X", vaddr);
}
}
@ -117,18 +117,20 @@ u32 Memory::read32(u32 vaddr) {
return *(u32*)(pointer + offset);
} else {
switch (vaddr) {
case ConfigMem::Datetime0: return u32(timeSince3DSEpoch()); // ms elapsed since Jan 1 1900, bottom 32 bits
case ConfigMem::Datetime0 + 4: return u32(timeSince3DSEpoch() >> 32); // top 32 bits
case ConfigMem::Datetime0: return u32(timeSince3DSEpoch()); // ms elapsed since Jan 1 1900, bottom 32 bits
case ConfigMem::Datetime0 + 4:
return u32(timeSince3DSEpoch() >> 32); // top 32 bits
// Ticks since time was last updated. For now we return the current tick count
case ConfigMem::Datetime0 + 8: return u32(cpuTicks);
case ConfigMem::Datetime0 + 12: return u32(cpuTicks >> 32);
case ConfigMem::Datetime0 + 16: return 0xFFB0FF0; // Unknown, set by PTM
case ConfigMem::Datetime0 + 20: case ConfigMem::Datetime0 + 24: case ConfigMem::Datetime0 + 28:
return 0; // Set to 0 by PTM
case ConfigMem::Datetime0 + 16: return 0xFFB0FF0; // Unknown, set by PTM
case ConfigMem::Datetime0 + 20:
case ConfigMem::Datetime0 + 24:
case ConfigMem::Datetime0 + 28: return 0; // Set to 0 by PTM
case ConfigMem::AppMemAlloc: return appResourceLimits.maxCommit;
case ConfigMem::SyscoreVer: return 2;
case 0x1FF81000: return 0; // TODO: Figure out what this config mem address does
case 0x1FF81000: return 0; // TODO: Figure out what this config mem address does
default:
if (vaddr >= VirtualAddrs::VramStart && vaddr < VirtualAddrs::VramStart + VirtualAddrs::VramSize) {
Helpers::warn("VRAM read!\n");
@ -154,13 +156,12 @@ void Memory::write8(u32 vaddr, u8 value) {
uintptr_t pointer = writeTable[page];
if (pointer != 0) [[likely]] {
*(u8*)(pointer + offset) = value;
}
else {
} else {
// VRAM write
if (vaddr >= VirtualAddrs::VramStart && vaddr < VirtualAddrs::VramStart + VirtualAddrs::VramSize) {
// TODO: Invalidate renderer caches here
vram[vaddr - VirtualAddrs::VramStart] = value;
}
}
else {
Helpers::panic("Unimplemented 8-bit write, addr: %08X, val: %02X", vaddr, value);
@ -219,11 +220,10 @@ void* Memory::getWritePointer(u32 address) {
std::string Memory::readString(u32 address, u32 maxSize) {
std::string string;
string.reserve(maxSize);
for (std::size_t i = 0; i < maxSize; ++i) {
char c = read8(address++);
if (c == '\0')
break;
if (c == '\0') break;
string.push_back(c);
}
string.shrink_to_fit();
@ -233,12 +233,9 @@ std::string Memory::readString(u32 address, u32 maxSize) {
// Return a pointer to the linear heap vaddr based on the kernel ver, because it needed to be moved
// thanks to the New 3DS having more FCRAM
u32 Memory::getLinearHeapVaddr() {
return (kernelVersion < 0x22C) ? VirtualAddrs::LinearHeapStartOld : VirtualAddrs::LinearHeapStartNew;
}
u32 Memory::getLinearHeapVaddr() { return (kernelVersion < 0x22C) ? VirtualAddrs::LinearHeapStartOld : VirtualAddrs::LinearHeapStartNew; }
std::optional<u32> Memory::allocateMemory(u32 vaddr, u32 paddr, u32 size, bool linear, bool r, bool w, bool x,
bool adjustAddrs, bool isMap) {
std::optional<u32> Memory::allocateMemory(u32 vaddr, u32 paddr, u32 size, bool linear, bool r, bool w, bool x, bool adjustAddrs, bool isMap) {
// Kernel-allocated memory & size must always be aligned to a page boundary
// Additionally assert we don't OoM and that we don't try to allocate physical FCRAM past what's available to userland
// If we're mapping there's no fear of OoM, because we're not really allocating memory, just binding vaddrs to specific paddrs
@ -259,8 +256,7 @@ std::optional<u32> Memory::allocateMemory(u32 vaddr, u32 paddr, u32 size, bool l
// Non-linear allocation needs special handling
if (paddr == 0 && adjustAddrs) {
std::optional<u32> newPaddr = findPaddr(size);
if (!newPaddr.has_value())
Helpers::panic("Failed to find paddr");
if (!newPaddr.has_value()) Helpers::panic("Failed to find paddr");
paddr = newPaddr.value();
assert(paddr + size <= FCRAM_APPLICATION_SIZE || isMap);
@ -281,12 +277,11 @@ std::optional<u32> Memory::allocateMemory(u32 vaddr, u32 paddr, u32 size, bool l
}
}
if (!isMap)
usedUserMemory += size;
if (!isMap) usedUserMemory += size;
// Do linear mapping
u32 virtualPage = vaddr >> pageShift;
u32 physPage = paddr >> pageShift; // TODO: Special handle when non-linear mapping is necessary
u32 physPage = paddr >> pageShift; // TODO: Special handle when non-linear mapping is necessary
for (u32 i = 0; i < neededPageCount; i++) {
if (r) {
readTable[virtualPage] = uintptr_t(&fcram[physPage * pageSize]);
@ -320,11 +315,10 @@ std::optional<u32> Memory::findPaddr(u32 size) {
u32 counter = 0;
for (u32 i = 0; i < FCRAM_APPLICATION_PAGE_COUNT; i++) {
if (usedFCRAMPages[i]) { // Page is occupied already, go to new candidate
if (usedFCRAMPages[i]) { // Page is occupied already, go to new candidate
candidatePage = i + 1;
counter = 0;
}
else { // The paddr we're testing has 1 more free page
} else { // The paddr we're testing has 1 more free page
counter++;
// Check if there's enough free memory to use this page
// We use == instead of >= because some software does 0-byte allocations
@ -351,12 +345,12 @@ u32 Memory::allocateSysMemory(u32 size) {
Helpers::panic("Memory::allocateSysMemory: Overflowed OS FCRAM");
}
const u32 pageCount = size / pageSize; // Number of pages that will be used up
const u32 startIndex = sysFCRAMIndex() + usedSystemMemory; // Starting FCRAM index
const u32 pageCount = size / pageSize; // Number of pages that will be used up
const u32 startIndex = sysFCRAMIndex() + usedSystemMemory; // Starting FCRAM index
const u32 startingPage = startIndex / pageSize;
for (u32 i = 0; i < pageCount; i++) {
if (usedFCRAMPages[startingPage + i]) // Also a theoretically unreachable panic for safety
if (usedFCRAMPages[startingPage + i]) // Also a theoretically unreachable panic for safety
Helpers::panic("Memory::reserveMemory: Trying to reserve already reserved memory");
usedFCRAMPages[startingPage + i] = true;
}
@ -419,7 +413,7 @@ void Memory::mirrorMapping(u32 destAddress, u32 sourceAddress, u32 size) {
// Should theoretically be unreachable, only here for safety purposes
assert(isAligned(destAddress) && isAligned(sourceAddress) && isAligned(size));
const u32 pageCount = size / pageSize; // How many pages we need to mirror
const u32 pageCount = size / pageSize; // How many pages we need to mirror
for (u32 i = 0; i < pageCount; i++) {
// Redo the shift here to "properly" handle wrapping around the address space instead of reading OoB
const u32 sourcePage = sourceAddress / pageSize;
@ -437,16 +431,16 @@ void Memory::mirrorMapping(u32 destAddress, u32 sourceAddress, u32 size) {
u64 Memory::timeSince3DSEpoch() {
using namespace std::chrono;
std::time_t rawTime = std::time(nullptr); // Get current UTC time
auto localTime = std::localtime(&rawTime); // Convert to local time
std::time_t rawTime = std::time(nullptr); // Get current UTC time
auto localTime = std::localtime(&rawTime); // Convert to local time
bool daylightSavings = localTime->tm_isdst > 0; // Get if time includes DST
bool daylightSavings = localTime->tm_isdst > 0; // Get if time includes DST
localTime = std::gmtime(&rawTime);
// Use gmtime + mktime to calculate difference between local time and UTC
auto timezoneDifference = rawTime - std::mktime(localTime);
if (daylightSavings) {
timezoneDifference += 60ull * 60ull; // Add 1 hour (60 seconds * 60 minutes)
timezoneDifference += 60ull * 60ull; // Add 1 hour (60 seconds * 60 minutes)
}
// seconds between Jan 1 1900 and Jan 1 1970

2
src/core/renderer_gl/renderer_gl.cpp
View file

@ -911,7 +911,7 @@ void Renderer::drawVertices(PICA::PrimType primType, std::span<const Vertex> ver
}
vbo.bufferVertsSub(vertices);
OpenGL::draw(primitiveTopology, vertices.size());
OpenGL::draw(primitiveTopology, GLsizei(vertices.size()));
}
constexpr u32 topScreenBuffer = 0x1f000000;

4
src/core/services/dsp.cpp
View file

@ -143,7 +143,7 @@ std::vector<u8> DSPService::readPipe(u32 pipe, u32 size) {
}
std::vector<u8>& data = pipeData[pipe];
size = std::min<u32>(size, data.size()); // Clamp size to the maximum available data size
size = std::min<u32>(size, u32(data.size())); // Clamp size to the maximum available data size
if (size == 0)
return {};
@ -168,7 +168,7 @@ void DSPService::readPipeIfPossible(u32 messagePointer) {
}
mem.write32(messagePointer + 4, Result::Success);
mem.write16(messagePointer + 8, data.size()); // Number of bytes read
mem.write16(messagePointer + 8, u16(data.size())); // Number of bytes read
}
void DSPService::recvData(u32 messagePointer) {

8
src/core/services/fs.cpp
View file

@ -219,7 +219,7 @@ void FSService::openArchive(u32 messagePointer) {
}
void FSService::openFile(u32 messagePointer) {
const Handle archiveHandle = mem.read64(messagePointer + 8);
const Handle archiveHandle = Handle(mem.read64(messagePointer + 8));
const u32 filePathType = mem.read32(messagePointer + 16);
const u32 filePathSize = mem.read32(messagePointer + 20);
const u32 openFlags = mem.read32(messagePointer + 24);
@ -342,7 +342,7 @@ void FSService::openFileDirectly(u32 messagePointer) {
}
void FSService::createFile(u32 messagePointer) {
const Handle archiveHandle = mem.read64(messagePointer + 8);
const Handle archiveHandle = Handle(mem.read64(messagePointer + 8));
const u32 filePathType = mem.read32(messagePointer + 16);
const u32 filePathSize = mem.read32(messagePointer + 20);
const u32 attributes = mem.read32(messagePointer + 24);
@ -367,7 +367,7 @@ void FSService::createFile(u32 messagePointer) {
}
void FSService::deleteFile(u32 messagePointer) {
const Handle archiveHandle = mem.read64(messagePointer + 8);
const Handle archiveHandle = Handle(mem.read64(messagePointer + 8));
const u32 filePathType = mem.read32(messagePointer + 16);
const u32 filePathSize = mem.read32(messagePointer + 20);
const u32 filePathPointer = mem.read32(messagePointer + 28);
@ -478,7 +478,7 @@ void FSService::formatThisUserSaveData(u32 messagePointer) {
}
void FSService::controlArchive(u32 messagePointer) {
const Handle archiveHandle = mem.read64(messagePointer + 4);
const Handle archiveHandle = Handle(mem.read64(messagePointer + 4));
const u32 action = mem.read32(messagePointer + 12);
const u32 inputSize = mem.read32(messagePointer + 16);
const u32 outputSize = mem.read32(messagePointer + 20);