strat: always use explicit result namespacing

This commit is contained in:
Michael Scire 2021-10-09 10:36:21 -07:00
parent 303c6eb5f9
commit b0e520112b
29 changed files with 237 additions and 237 deletions

View file

@ -69,7 +69,7 @@ namespace ams::kvdb {
/* Allocate a buffer. */
this->buffer = new (std::nothrow) u8[size];
R_UNLESS(this->buffer != nullptr, ResultAllocationFailed());
R_UNLESS(this->buffer != nullptr, kvdb::ResultAllocationFailed());
this->size = size;
return ResultSuccess();

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@ -219,7 +219,7 @@ namespace ams::kvdb {
} R_END_TRY_CATCH;
/* Check that the entry type is correct. */
R_UNLESS(entry_type == type, ResultInvalidFilesystemState());
R_UNLESS(entry_type == type, kvdb::ResultInvalidFilesystemState());
/* The entry exists and is the correct type. */
*out = true;
@ -249,10 +249,10 @@ namespace ams::kvdb {
R_TRY(DirectoryExists(&has_kvs, GetFileKeyValueStorePath(dir)));
/* If neither exists, CreateNewCache was never called. */
R_UNLESS(has_lru || has_kvs, ResultNotCreated());
R_UNLESS(has_lru || has_kvs, kvdb::ResultNotCreated());
/* If one exists but not the other, we have an invalid state. */
R_UNLESS(has_lru && has_kvs, ResultInvalidFilesystemState());
R_UNLESS(has_lru && has_kvs, kvdb::ResultInvalidFilesystemState());
return ResultSuccess();
}

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@ -122,7 +122,7 @@ namespace ams::kvdb {
Result Initialize(size_t capacity, MemoryResource *mr) {
this->entries = reinterpret_cast<Entry *>(mr->Allocate(sizeof(Entry) * capacity));
R_UNLESS(this->entries != nullptr, ResultAllocationFailed());
R_UNLESS(this->entries != nullptr, kvdb::ResultAllocationFailed());
this->capacity = capacity;
this->memory_resource = mr;
return ResultSuccess();
@ -136,14 +136,14 @@ namespace ams::kvdb {
this->memory_resource->Deallocate(it->GetValuePointer(), it->GetValueSize());
} else {
/* We need to add a new entry. Check we have room, move future keys forward. */
R_UNLESS(this->count < this->capacity, ResultOutOfKeyResource());
R_UNLESS(this->count < this->capacity, kvdb::ResultOutOfKeyResource());
std::memmove(it + 1, it, sizeof(*it) * (this->end() - it));
this->count++;
}
/* Allocate new value. */
void *new_value = this->memory_resource->Allocate(value_size);
R_UNLESS(new_value != nullptr, ResultAllocationFailed());
R_UNLESS(new_value != nullptr, kvdb::ResultAllocationFailed());
std::memcpy(new_value, value, value_size);
/* Save the new Entry in the map. */
@ -152,7 +152,7 @@ namespace ams::kvdb {
}
Result AddUnsafe(const Key &key, void *value, size_t value_size) {
R_UNLESS(this->count < this->capacity, ResultOutOfKeyResource());
R_UNLESS(this->count < this->capacity, kvdb::ResultOutOfKeyResource());
this->entries[this->count++] = Entry(key, value, value_size);
return ResultSuccess();
@ -161,7 +161,7 @@ namespace ams::kvdb {
Result Remove(const Key &key) {
/* Find entry for key. */
Entry *it = this->find(key);
R_UNLESS(it != this->end(), ResultKeyNotFound());
R_UNLESS(it != this->end(), kvdb::ResultKeyNotFound());
/* Free the value, move entries back. */
this->memory_resource->Deallocate(it->GetValuePointer(), it->GetValueSize());
@ -324,7 +324,7 @@ namespace ams::kvdb {
/* Allocate memory for value. */
void *new_value = this->memory_resource->Allocate(value_size);
R_UNLESS(new_value != nullptr, ResultAllocationFailed());
R_UNLESS(new_value != nullptr, kvdb::ResultAllocationFailed());
auto value_guard = SCOPE_GUARD { this->memory_resource->Deallocate(new_value, value_size); };
/* Read key and value. */
@ -380,7 +380,7 @@ namespace ams::kvdb {
Result Get(size_t *out_size, void *out_value, size_t max_out_size, const Key &key) {
/* Find entry. */
auto it = this->find(key);
R_UNLESS(it != this->end(), ResultKeyNotFound());
R_UNLESS(it != this->end(), kvdb::ResultKeyNotFound());
size_t size = std::min(max_out_size, it->GetValueSize());
std::memcpy(out_value, it->GetValuePointer(), size);
@ -392,7 +392,7 @@ namespace ams::kvdb {
Result GetValuePointer(Value **out_value, const Key &key) {
/* Find entry. */
auto it = this->find(key);
R_UNLESS(it != this->end(), ResultKeyNotFound());
R_UNLESS(it != this->end(), kvdb::ResultKeyNotFound());
*out_value = it->template GetValuePointer<Value>();
return ResultSuccess();
@ -402,7 +402,7 @@ namespace ams::kvdb {
Result GetValuePointer(const Value **out_value, const Key &key) const {
/* Find entry. */
auto it = this->find(key);
R_UNLESS(it != this->end(), ResultKeyNotFound());
R_UNLESS(it != this->end(), kvdb::ResultKeyNotFound());
*out_value = it->template GetValuePointer<Value>();
return ResultSuccess();
@ -412,7 +412,7 @@ namespace ams::kvdb {
Result GetValue(Value *out_value, const Key &key) const {
/* Find entry. */
auto it = this->find(key);
R_UNLESS(it != this->end(), ResultKeyNotFound());
R_UNLESS(it != this->end(), kvdb::ResultKeyNotFound());
*out_value = it->template GetValue<Value>();
return ResultSuccess();
@ -421,7 +421,7 @@ namespace ams::kvdb {
Result GetValueSize(size_t *out_size, const Key &key) const {
/* Find entry. */
auto it = this->find(key);
R_UNLESS(it != this->end(), ResultKeyNotFound());
R_UNLESS(it != this->end(), kvdb::ResultKeyNotFound());
*out_size = it->GetValueSize();
return ResultSuccess();

View file

@ -69,7 +69,7 @@ namespace ams::ncm {
/* Allocate a buffer. */
this->buffer = new (std::nothrow) u8[size];
R_UNLESS(this->buffer != nullptr, ResultAllocationFailed());
R_UNLESS(this->buffer != nullptr, ncm::ResultAllocationFailed());
this->size = size;
return ResultSuccess();

View file

@ -36,7 +36,7 @@ namespace ams::fssrv::impl {
}
Result FileInterfaceAdapter::Read(ams::sf::Out<s64> out, s64 offset, const ams::sf::OutNonSecureBuffer &buffer, s64 size, fs::ReadOption option) {
/* TODO: N retries on ResultDataCorrupted, we may want to eventually. */
/* TODO: N retries on fs::ResultDataCorrupted, we may want to eventually. */
/* TODO: Deep retry */
R_UNLESS(offset >= 0, fs::ResultInvalidOffset());
R_UNLESS(size >= 0, fs::ResultInvalidSize());
@ -126,7 +126,7 @@ namespace ams::fssrv::impl {
const s64 max_num_entries = out_entries.GetSize() / sizeof(fs::DirectoryEntry);
R_UNLESS(max_num_entries >= 0, fs::ResultInvalidSize());
/* TODO: N retries on ResultDataCorrupted, we may want to eventually. */
/* TODO: N retries on fs::ResultDataCorrupted, we may want to eventually. */
return this->base_dir->Read(out.GetPointer(), reinterpret_cast<fs::DirectoryEntry *>(out_entries.GetPointer()), max_num_entries);
}
@ -266,7 +266,7 @@ namespace ams::fssrv::impl {
PathNormalizer normalizer(path.str);
R_UNLESS(normalizer.GetPath() != nullptr, normalizer.GetResult());
/* TODO: N retries on ResultDataCorrupted, we may want to eventually. */
/* TODO: N retries on fs::ResultDataCorrupted, we may want to eventually. */
std::unique_ptr<fs::fsa::IFile> file;
R_TRY(this->base_fs->OpenFile(&file, normalizer.GetPath(), static_cast<fs::OpenMode>(mode)));
@ -294,7 +294,7 @@ namespace ams::fssrv::impl {
PathNormalizer normalizer(path.str);
R_UNLESS(normalizer.GetPath() != nullptr, normalizer.GetResult());
/* TODO: N retries on ResultDataCorrupted, we may want to eventually. */
/* TODO: N retries on fs::ResultDataCorrupted, we may want to eventually. */
std::unique_ptr<fs::fsa::IDirectory> dir;
R_TRY(this->base_fs->OpenDirectory(&dir, normalizer.GetPath(), static_cast<fs::OpenDirectoryMode>(mode)));

View file

@ -43,7 +43,7 @@ namespace ams::fssrv::impl {
}
Result StorageInterfaceAdapter::Read(s64 offset, const ams::sf::OutNonSecureBuffer &buffer, s64 size) {
/* TODO: N retries on ResultDataCorrupted, we may want to eventually. */
/* TODO: N retries on fs::ResultDataCorrupted, we may want to eventually. */
/* TODO: Deep retry */
R_UNLESS(offset >= 0, fs::ResultInvalidOffset());
R_UNLESS(size >= 0, fs::ResultInvalidSize());

View file

@ -68,7 +68,7 @@ namespace ams::fssystem {
const size_t size = normalized_path_len + 1;
char *new_dir = static_cast<char *>(fs::impl::Allocate(size));
AMS_ABORT_UNLESS(new_dir != nullptr);
/* TODO: custom ResultAllocationFailure? */
/* TODO: custom fs::ResultAllocationFailure? */
/* Copy path in. */
std::memcpy(new_dir, normalized_path, normalized_path_len);

View file

@ -133,7 +133,7 @@ namespace ams::fssystem {
}
/* TODO: Return a result here? Nintendo does not, but they have other allocation failed results. */
/* Consider returning ResultFsAllocationFailureInDirectorySaveDataFileSystem? */
/* Consider returning fs::ResultFsAllocationFailureInDirectorySaveDataFileSystem? */
AMS_ABORT_UNLESS(false);
}

View file

@ -19,7 +19,7 @@
namespace ams::i2c {
Result CommandListFormatter::IsEnqueueAble(size_t sz) const {
R_UNLESS(this->command_list_length - this->current_index >= sz, ResultCommandListFull());
R_UNLESS(this->command_list_length - this->current_index >= sz, i2c::ResultCommandListFull());
return ResultSuccess();
}

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@ -30,7 +30,7 @@ namespace ams::kvdb {
u32 entry_count;
Result Validate() const {
R_UNLESS(std::memcmp(this->magic, ArchiveHeaderMagic, sizeof(ArchiveHeaderMagic)) == 0, ResultInvalidKeyValue());
R_UNLESS(std::memcmp(this->magic, ArchiveHeaderMagic, sizeof(ArchiveHeaderMagic)) == 0, kvdb::ResultInvalidKeyValue());
return ResultSuccess();
}
@ -49,7 +49,7 @@ namespace ams::kvdb {
u32 value_size;
Result Validate() const {
R_UNLESS(std::memcmp(this->magic, ArchiveEntryMagic, sizeof(ArchiveEntryMagic)) == 0, ResultInvalidKeyValue());
R_UNLESS(std::memcmp(this->magic, ArchiveEntryMagic, sizeof(ArchiveEntryMagic)) == 0, kvdb::ResultInvalidKeyValue());
return ResultSuccess();
}
@ -68,8 +68,8 @@ namespace ams::kvdb {
/* Reader functionality. */
Result ArchiveReader::Peek(void *dst, size_t size) {
/* Bounds check. */
R_UNLESS(this->offset + size <= this->buffer.GetSize(), ResultInvalidKeyValue());
R_UNLESS(this->offset < this->offset + size, ResultInvalidKeyValue());
R_UNLESS(this->offset + size <= this->buffer.GetSize(), kvdb::ResultInvalidKeyValue());
R_UNLESS(this->offset < this->offset + size, kvdb::ResultInvalidKeyValue());
std::memcpy(dst, this->buffer.Get() + this->offset, size);
return ResultSuccess();
@ -129,8 +129,8 @@ namespace ams::kvdb {
/* Writer functionality. */
Result ArchiveWriter::Write(const void *src, size_t size) {
/* Bounds check. */
R_UNLESS(this->offset + size <= this->buffer.GetSize(), ResultInvalidKeyValue());
R_UNLESS(this->offset < this->offset + size, ResultInvalidKeyValue());
R_UNLESS(this->offset + size <= this->buffer.GetSize(), kvdb::ResultInvalidKeyValue());
R_UNLESS(this->offset < this->offset + size, kvdb::ResultInvalidKeyValue());
std::memcpy(this->buffer.Get() + this->offset, src, size);
this->offset += size;

View file

@ -37,7 +37,7 @@ namespace ams::kvdb {
/* If we have memory to work with, ensure it's at least enough for the cache entries. */
if (this->backing_buffer != nullptr) {
this->entries = static_cast<decltype(this->entries)>(this->Allocate(sizeof(*this->entries) * this->capacity));
R_UNLESS(this->entries != nullptr, ResultBufferInsufficient());
R_UNLESS(this->entries != nullptr, kvdb::ResultBufferInsufficient());
}
return ResultSuccess();
@ -153,13 +153,13 @@ namespace ams::kvdb {
/* TODO: Nintendo does not validate that the key is valid hex. Should we do this? */
const size_t file_name_len = file_name.GetLength();
const size_t key_name_len = file_name_len - FileExtensionLength;
R_UNLESS(file_name_len >= FileExtensionLength + 2, ResultInvalidKeyValue());
R_UNLESS(file_name.EndsWith(FileExtension), ResultInvalidKeyValue());
R_UNLESS(util::IsAligned(key_name_len, 2), ResultInvalidKeyValue());
R_UNLESS(file_name_len >= FileExtensionLength + 2, kvdb::ResultInvalidKeyValue());
R_UNLESS(file_name.EndsWith(FileExtension), kvdb::ResultInvalidKeyValue());
R_UNLESS(util::IsAligned(key_name_len, 2), kvdb::ResultInvalidKeyValue());
/* Validate that we have space for the converted key. */
const size_t key_size = key_name_len / 2;
R_UNLESS(key_size <= max_out_size, ResultBufferInsufficient());
R_UNLESS(key_size <= max_out_size, kvdb::ResultBufferInsufficient());
/* Convert the hex key back. */
u8 *out_key = static_cast<u8 *>(_out_key);
@ -195,7 +195,7 @@ namespace ams::kvdb {
std::scoped_lock lk(this->lock);
/* Ensure key size is small enough. */
R_UNLESS(key_size <= MaxKeySize, ResultOutOfKeyResource());
R_UNLESS(key_size <= MaxKeySize, kvdb::ResultOutOfKeyResource());
/* Try to get from cache. */
{
@ -209,7 +209,7 @@ namespace ams::kvdb {
/* Open the value file. */
fs::FileHandle file;
R_TRY_CATCH(fs::OpenFile(std::addressof(file), this->GetPath(key, key_size), fs::OpenMode_Read)) {
R_CONVERT(fs::ResultPathNotFound, ResultKeyNotFound());
R_CONVERT(fs::ResultPathNotFound, kvdb::ResultKeyNotFound());
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::CloseFile(file); };
@ -218,7 +218,7 @@ namespace ams::kvdb {
R_TRY(fs::GetFileSize(std::addressof(file_size), file));
/* Ensure there's enough space for the value. */
R_UNLESS(file_size <= static_cast<s64>(max_out_size), ResultBufferInsufficient());
R_UNLESS(file_size <= static_cast<s64>(max_out_size), kvdb::ResultBufferInsufficient());
/* Read the value. */
const size_t value_size = static_cast<size_t>(file_size);
@ -234,7 +234,7 @@ namespace ams::kvdb {
std::scoped_lock lk(this->lock);
/* Ensure key size is small enough. */
R_UNLESS(key_size <= MaxKeySize, ResultOutOfKeyResource());
R_UNLESS(key_size <= MaxKeySize, kvdb::ResultOutOfKeyResource());
/* Try to get from cache. */
{
@ -248,7 +248,7 @@ namespace ams::kvdb {
/* Open the value file. */
fs::FileHandle file;
R_TRY_CATCH(fs::OpenFile(std::addressof(file), this->GetPath(key, key_size), fs::OpenMode_Read)) {
R_CONVERT(fs::ResultPathNotFound, ResultKeyNotFound());
R_CONVERT(fs::ResultPathNotFound, kvdb::ResultKeyNotFound());
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::CloseFile(file); };
@ -264,7 +264,7 @@ namespace ams::kvdb {
std::scoped_lock lk(this->lock);
/* Ensure key size is small enough. */
R_UNLESS(key_size <= MaxKeySize, ResultOutOfKeyResource());
R_UNLESS(key_size <= MaxKeySize, kvdb::ResultOutOfKeyResource());
/* When the cache contains the key being set, Nintendo invalidates the cache. */
if (this->cache.Contains(key, key_size)) {
@ -293,7 +293,7 @@ namespace ams::kvdb {
std::scoped_lock lk(this->lock);
/* Ensure key size is small enough. */
R_UNLESS(key_size <= MaxKeySize, ResultOutOfKeyResource());
R_UNLESS(key_size <= MaxKeySize, kvdb::ResultOutOfKeyResource());
/* When the cache contains the key being set, Nintendo invalidates the cache. */
if (this->cache.Contains(key, key_size)) {
@ -302,7 +302,7 @@ namespace ams::kvdb {
/* Remove the file. */
R_TRY_CATCH(fs::DeleteFile(this->GetPath(key, key_size))) {
R_CONVERT(fs::ResultPathNotFound, ResultKeyNotFound())
R_CONVERT(fs::ResultPathNotFound, kvdb::ResultKeyNotFound())
} R_END_TRY_CATCH;
return ResultSuccess();

View file

@ -94,21 +94,21 @@ namespace ams::ncm {
ALWAYS_INLINE Result GetContentStorageNotActiveResult(StorageId storage_id) {
switch (storage_id) {
case StorageId::GameCard: return ResultGameCardContentStorageNotActive();
case StorageId::BuiltInSystem: return ResultBuiltInSystemContentStorageNotActive();
case StorageId::BuiltInUser: return ResultBuiltInUserContentStorageNotActive();
case StorageId::SdCard: return ResultSdCardContentStorageNotActive();
default: return ResultUnknownContentStorageNotActive();
case StorageId::GameCard: return ncm::ResultGameCardContentStorageNotActive();
case StorageId::BuiltInSystem: return ncm::ResultBuiltInSystemContentStorageNotActive();
case StorageId::BuiltInUser: return ncm::ResultBuiltInUserContentStorageNotActive();
case StorageId::SdCard: return ncm::ResultSdCardContentStorageNotActive();
default: return ncm::ResultUnknownContentStorageNotActive();
}
}
ALWAYS_INLINE Result GetContentMetaDatabaseNotActiveResult(StorageId storage_id) {
switch (storage_id) {
case StorageId::GameCard: return ResultGameCardContentMetaDatabaseNotActive();
case StorageId::BuiltInSystem: return ResultBuiltInSystemContentMetaDatabaseNotActive();
case StorageId::BuiltInUser: return ResultBuiltInUserContentMetaDatabaseNotActive();
case StorageId::SdCard: return ResultSdCardContentMetaDatabaseNotActive();
default: return ResultUnknownContentMetaDatabaseNotActive();
case StorageId::GameCard: return ncm::ResultGameCardContentMetaDatabaseNotActive();
case StorageId::BuiltInSystem: return ncm::ResultBuiltInSystemContentMetaDatabaseNotActive();
case StorageId::BuiltInUser: return ncm::ResultBuiltInUserContentMetaDatabaseNotActive();
case StorageId::SdCard: return ncm::ResultSdCardContentMetaDatabaseNotActive();
default: return ncm::ResultUnknownContentMetaDatabaseNotActive();
}
}

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@ -89,7 +89,7 @@ namespace ams::ncm {
Result OnMemoryContentMetaDatabaseImpl::LookupOrphanContent(const sf::OutArray<bool> &out_orphaned, const sf::InArray<ContentId> &content_ids) {
AMS_UNUSED(out_orphaned, content_ids);
return ResultInvalidContentMetaDatabase();
return ncm::ResultInvalidContentMetaDatabase();
}
Result OnMemoryContentMetaDatabaseImpl::Commit() {

View file

@ -375,7 +375,7 @@ namespace ams::settings::impl {
/* If the default value size is > 0, copy it to the map value. */
if (map_value.default_value_size > 0) {
/* Allocate the default value if there is sufficient memory available. */
R_UNLESS(GetHeapAllocatableSize() >= map_value.default_value_size, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= map_value.default_value_size, settings::ResultSettingsItemValueAllocationFailed());
map_value.default_value = AllocateFromHeap(map_value.default_value_size);
AMS_ASSERT(map_value.default_value != nullptr);
@ -389,7 +389,7 @@ namespace ams::settings::impl {
map_value.current_value = map_value.default_value;
} else if (map_value.current_value_size > 0) {
/* Allocate the current value if there is sufficient memory available. */
R_UNLESS(GetHeapAllocatableSize() >= map_value.current_value_size, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= map_value.current_value_size, settings::ResultSettingsItemValueAllocationFailed());
map_value.current_value = AllocateFromHeap(map_value.current_value_size);
AMS_ASSERT(map_value.current_value != nullptr);
@ -604,7 +604,7 @@ namespace ams::settings::impl {
if (current_value_size > 0) {
/* Ensure there is sufficient memory for the value. */
R_UNLESS(GetHeapAllocatableSize() >= current_value_size, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= current_value_size, settings::ResultSettingsItemValueAllocationFailed());
/* Allocate the value buffer. */
current_value_buffer = AllocateFromHeap(current_value_size);
@ -642,7 +642,7 @@ namespace ams::settings::impl {
/* Load the map entries. */
R_TRY(LoadKeyValueStoreMapEntries(out, data, [](Map &map, const MapKey &key, u8 type, const void *value_buffer, u32 value_size) -> Result {
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Copy the map key. */
MapKey default_key = key;
@ -657,7 +657,7 @@ namespace ams::settings::impl {
if (value_size > 0) {
/* Ensure there is sufficient memory for the value. */
R_UNLESS(GetHeapAllocatableSize() >= value_size, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= value_size, settings::ResultSettingsItemValueAllocationFailed());
/* Allocate the value buffer. */
default_value_buffer = AllocateFromHeap(value_size);
@ -677,7 +677,7 @@ namespace ams::settings::impl {
};
/* Ensure there is sufficient memory for the value. */
R_UNLESS(GetHeapAllocatableSize() >= MapEntryBufferSize, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapEntryBufferSize, settings::ResultSettingsItemValueAllocationFailed());
/* Insert the value into the map. */
map[std::move(default_key)] = default_value;
@ -718,7 +718,7 @@ namespace ams::settings::impl {
AMS_ASSERT(key_size > 1);
/* Ensure there is sufficient memory for this key. */
R_UNLESS(GetHeapAllocatableSize() >= key_size, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= key_size, settings::ResultSettingsItemKeyAllocationFailed());
/* Read the key. */
void *key_buffer = nullptr;
@ -727,7 +727,7 @@ namespace ams::settings::impl {
ON_SCOPE_EXIT { FreeToHeap(key_buffer, key_size); };
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
const MapKey key(static_cast<const char *>(key_buffer), key_size - 1);
@ -748,7 +748,7 @@ namespace ams::settings::impl {
if (value_size > 0) {
/* Ensure there is sufficient memory for the value. */
R_UNLESS(GetHeapAllocatableSize() >= value_size, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= value_size, settings::ResultSettingsItemValueAllocationFailed());
/* Read the value to the buffer. */
R_TRY(ReadDataToHeap(data, offset, std::addressof(value_buffer), value_size));
@ -1075,7 +1075,7 @@ namespace ams::settings::impl {
AMS_ASSERT(map != nullptr);
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Create a map key from the key value store's name. */
MapKey map_key_header(m_name.value);
@ -1098,11 +1098,11 @@ namespace ams::settings::impl {
}
/* Ensure we have located an item map key. */
R_UNLESS(item_map_key != nullptr, ResultSettingsItemNotFound());
R_UNLESS(item_map_key != nullptr, settings::ResultSettingsItemNotFound());
/* Ensure there is sufficient memory for the item map key. */
const size_t item_map_key_size = item_map_key->GetCount() + 1;
R_UNLESS(GetHeapAllocatableSize() >= item_map_key_size, ResultSettingsItemKeyIteratorAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= item_map_key_size, settings::ResultSettingsItemKeyIteratorAllocationFailed());
/* Allocate the key buffer. */
char *buffer = static_cast<char *>(AllocateFromHeap(item_map_key_size));
@ -1134,11 +1134,11 @@ namespace ams::settings::impl {
AMS_ASSERT(map != nullptr);
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Find the key in the map. */
const Map::const_iterator it = map->find(MakeMapKey(m_name, item_key));
R_UNLESS(it != map->end(), ResultSettingsItemNotFound());
R_UNLESS(it != map->end(), settings::ResultSettingsItemNotFound());
/* Get the map value from the iterator. */
const MapValue &map_value = it->second;
@ -1170,11 +1170,11 @@ namespace ams::settings::impl {
AMS_ASSERT(map != nullptr);
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Find the key in the map. */
const Map::const_iterator it = map->find(MakeMapKey(m_name, item_key));
R_UNLESS(it != map->end(), ResultSettingsItemNotFound());
R_UNLESS(it != map->end(), settings::ResultSettingsItemNotFound());
/* Output the value size. */
*out_value_size = it->second.current_value_size;
@ -1191,11 +1191,11 @@ namespace ams::settings::impl {
AMS_ASSERT(map != nullptr);
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Find the key in the map. */
const Map::iterator it = map->find(MakeMapKey(m_name, item_key));
R_UNLESS(it != map->end(), ResultSettingsItemNotFound());
R_UNLESS(it != map->end(), settings::ResultSettingsItemNotFound());
/* Get the map value from the iterator. */
MapValue &map_value = it->second;
@ -1243,11 +1243,11 @@ namespace ams::settings::impl {
AMS_ASSERT(map != nullptr);
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Find the key in the map. */
const Map::iterator it = map->find(MakeMapKey(m_name, item_key));
R_UNLESS(it != map->end(), ResultSettingsItemNotFound());
R_UNLESS(it != map->end(), settings::ResultSettingsItemNotFound());
/* Get the map value from the iterator. */
MapValue &map_value = it->second;
@ -1264,7 +1264,7 @@ namespace ams::settings::impl {
value_buffer = map_value.default_value;
} else if (buffer_size > 0) {
/* Allocate the new value if there is sufficient memory available. */
R_UNLESS(GetHeapAllocatableSize() >= value_size, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= value_size, settings::ResultSettingsItemValueAllocationFailed());
value_buffer = AllocateFromHeap(value_size);
AMS_ASSERT(value_buffer != nullptr);
@ -1323,7 +1323,7 @@ namespace ams::settings::impl {
R_TRY(GetMapValueOfKeyValueStoreItemForDebug(std::addressof(map_value), item));
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Create the map key. */
MapKey map_key(item.key);
@ -1337,7 +1337,7 @@ namespace ams::settings::impl {
it->second = map_value;
} else {
/* Ensure there is sufficient memory for the value. */
R_UNLESS(GetHeapAllocatableSize() >= MapEntryBufferSize, ResultSettingsItemValueAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapEntryBufferSize, settings::ResultSettingsItemValueAllocationFailed());
/* Assign the map value to the map key in the map. */
(*map)[std::move(map_key)] = map_value;
@ -1367,24 +1367,24 @@ namespace ams::settings::impl {
AMS_ASSERT(map != nullptr);
/* Ensure there is sufficient memory for two keys. */
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, ResultSettingsItemKeyAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= MapKeyBufferSize, settings::ResultSettingsItemKeyAllocationFailed());
/* Locate the iterator's current key. */
Map::const_iterator it = map->find(MapKey(out->map_key, static_cast<s32>(out->entire_size) - 1));
R_UNLESS(it != map->end(), ResultNotFoundSettingsItemKeyIterator());
R_UNLESS(it != map->end(), settings::ResultNotFoundSettingsItemKeyIterator());
/* Increment the iterator, ensuring we aren't at the end of the map. */
R_UNLESS((++it) != map->end(), ResultStopIteration());
R_UNLESS((++it) != map->end(), settings::ResultStopIteration());
/* Get the map key. */
const MapKey &map_key = it->first;
/* Ensure the advanced iterator retains the required name. */
R_UNLESS(std::strncmp(map_key.GetString(), out->map_key, out->header_size) == 0, ResultStopIteration());
R_UNLESS(std::strncmp(map_key.GetString(), out->map_key, out->header_size) == 0, settings::ResultStopIteration());
/* Ensure there is sufficient memory for the map key. */
const size_t map_key_size = map_key.GetCount() + 1;
R_UNLESS(GetHeapAllocatableSize() >= map_key_size, ResultSettingsItemKeyIteratorAllocationFailed());
R_UNLESS(GetHeapAllocatableSize() >= map_key_size, settings::ResultSettingsItemKeyIteratorAllocationFailed());
/* Free the iterator's old map key. */
FreeToHeap(out->map_key, out->entire_size);

View file

@ -200,7 +200,7 @@ namespace ams::settings::impl {
s64 file_size = 0;
R_TRY(fs::GetFileSize(std::addressof(file_size), file));
AMS_ASSERT(0 <= file_size && file_size <= static_cast<s64>(sizeof(m_buffer)));
R_UNLESS(file_size <= static_cast<s64>(sizeof(m_buffer)), ResultTooLargeSystemSaveData());
R_UNLESS(file_size <= static_cast<s64>(sizeof(m_buffer)), settings::ResultTooLargeSystemSaveData());
/* Read the save file. */
R_TRY(fs::ReadFile(file, 0, m_buffer, static_cast<size_t>(file_size)));

View file

@ -51,9 +51,9 @@ namespace ams::updater {
/* Implementations. */
Result ValidateWorkBuffer(const void *work_buffer, size_t work_buffer_size) {
R_UNLESS(work_buffer_size >= BctSize + EksSize, ResultTooSmallWorkBuffer());
R_UNLESS(util::IsAligned(work_buffer, os::MemoryPageSize), ResultNotAlignedWorkBuffer());
R_UNLESS(util::IsAligned(work_buffer_size, 0x200), ResultNotAlignedWorkBuffer());
R_UNLESS(work_buffer_size >= BctSize + EksSize, updater::ResultTooSmallWorkBuffer());
R_UNLESS(util::IsAligned(work_buffer, os::MemoryPageSize), updater::ResultNotAlignedWorkBuffer());
R_UNLESS(util::IsAligned(work_buffer_size, 0x200), updater::ResultNotAlignedWorkBuffer());
return ResultSuccess();
}
@ -144,7 +144,7 @@ namespace ams::updater {
/* Mount the boot image package. */
const char *mount_name = GetMountName();
R_TRY_CATCH(fs::MountSystemData(mount_name, data_id)) {
R_CONVERT(fs::ResultTargetNotFound, ResultBootImagePackageNotFound())
R_CONVERT(fs::ResultTargetNotFound, updater::ResultBootImagePackageNotFound())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::Unmount(mount_name); };
@ -202,7 +202,7 @@ namespace ams::updater {
/* Mount the boot image package. */
const char *mount_name = GetMountName();
R_TRY_CATCH(fs::MountSystemData(mount_name, data_id)) {
R_CONVERT(fs::ResultTargetNotFound, ResultBootImagePackageNotFound())
R_CONVERT(fs::ResultTargetNotFound, updater::ResultBootImagePackageNotFound())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::Unmount(mount_name); };
@ -264,7 +264,7 @@ namespace ams::updater {
/* Mount the boot image package. */
const char *mount_name = GetMountName();
R_TRY_CATCH(fs::MountSystemData(mount_name, data_id)) {
R_CONVERT(fs::ResultTargetNotFound, ResultBootImagePackageNotFound())
R_CONVERT(fs::ResultTargetNotFound, updater::ResultBootImagePackageNotFound())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::Unmount(mount_name); };
@ -330,7 +330,7 @@ namespace ams::updater {
/* Mount the boot image package. */
const char *mount_name = GetMountName();
R_TRY_CATCH(fs::MountSystemData(mount_name, data_id)) {
R_CONVERT(fs::ResultTargetNotFound, ResultBootImagePackageNotFound())
R_CONVERT(fs::ResultTargetNotFound, updater::ResultBootImagePackageNotFound())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::Unmount(mount_name); };
@ -450,7 +450,7 @@ namespace ams::updater {
}
Result CompareHash(const void *lhs, const void *rhs, size_t size) {
R_UNLESS(crypto::IsSameBytes(lhs, rhs, size), ResultNeedsRepairBootImages());
R_UNLESS(crypto::IsSameBytes(lhs, rhs, size), updater::ResultNeedsRepairBootImages());
return ResultSuccess();
}
@ -493,7 +493,7 @@ namespace ams::updater {
const auto content_meta_type = GetContentMetaType(mode);
auto count = db.ListContentMeta(keys, MaxContentMetas, content_meta_type);
R_UNLESS(count.total > 0, ResultBootImagePackageNotFound());
R_UNLESS(count.total > 0, updater::ResultBootImagePackageNotFound());
/* Output is sorted, return the lowest valid exfat entry. */
if (count.total > 1) {

View file

@ -72,7 +72,7 @@ namespace ams::updater {
fs::FileHandle file;
R_TRY_CATCH(fs::OpenFile(std::addressof(file), bip_path, fs::OpenMode_Read)) {
R_CONVERT(fs::ResultPathNotFound, ResultInvalidBootImagePackage())
R_CONVERT(fs::ResultPathNotFound, updater::ResultInvalidBootImagePackage())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::CloseFile(file); };

View file

@ -22,7 +22,7 @@ namespace ams::updater {
/* Open the file. */
fs::FileHandle file;
R_TRY_CATCH(fs::OpenFile(std::addressof(file), path, fs::OpenMode_Read)) {
R_CONVERT(fs::ResultPathNotFound, ResultInvalidBootImagePackage())
R_CONVERT(fs::ResultPathNotFound, updater::ResultInvalidBootImagePackage())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::CloseFile(file); };
@ -34,7 +34,7 @@ namespace ams::updater {
/* Open the file. */
fs::FileHandle file;
R_TRY_CATCH(fs::OpenFile(std::addressof(file), path, fs::OpenMode_Read)) {
R_CONVERT(fs::ResultPathNotFound, ResultInvalidBootImagePackage())
R_CONVERT(fs::ResultPathNotFound, updater::ResultInvalidBootImagePackage())
} R_END_TRY_CATCH;
ON_SCOPE_EXIT { fs::CloseFile(file); };

View file

@ -122,25 +122,25 @@ namespace ams::settings::fwdbg {
}
Result ValidateSettingsName(const char *name) {
R_UNLESS(name != nullptr, ResultNullSettingsName());
R_UNLESS(name != nullptr, settings::ResultNullSettingsName());
const size_t len = strnlen(name, SettingsNameLengthMax + 1);
R_UNLESS(len > 0, ResultEmptySettingsName());
R_UNLESS(len <= SettingsNameLengthMax, ResultTooLongSettingsName());
R_UNLESS(IsValidSettingsFormat(name, len), ResultInvalidFormatSettingsName());
R_UNLESS(len > 0, settings::ResultEmptySettingsName());
R_UNLESS(len <= SettingsNameLengthMax, settings::ResultTooLongSettingsName());
R_UNLESS(IsValidSettingsFormat(name, len), settings::ResultInvalidFormatSettingsName());
return ResultSuccess();
}
Result ValidateSettingsItemKey(const char *key) {
R_UNLESS(key != nullptr, ResultNullSettingsName());
R_UNLESS(key != nullptr, settings::ResultNullSettingsName());
const size_t len = strnlen(key, SettingsItemKeyLengthMax + 1);
R_UNLESS(len > 0, ResultEmptySettingsItemKey());
R_UNLESS(len <= SettingsNameLengthMax, ResultTooLongSettingsItemKey());
R_UNLESS(IsValidSettingsFormat(key, len), ResultInvalidFormatSettingsItemKey());
R_UNLESS(len > 0, settings::ResultEmptySettingsItemKey());
R_UNLESS(len <= SettingsNameLengthMax, settings::ResultTooLongSettingsItemKey());
R_UNLESS(IsValidSettingsFormat(key, len), settings::ResultInvalidFormatSettingsItemKey());
return ResultSuccess();
}
Result AllocateValue(void **out, size_t size) {
R_UNLESS(g_allocated_value_storage_size + size <= sizeof(g_value_storage), ResultSettingsItemValueAllocationFailed());
R_UNLESS(g_allocated_value_storage_size + size <= sizeof(g_value_storage), settings::ResultSettingsItemValueAllocationFailed());
*out = g_value_storage + g_allocated_value_storage_size;
g_allocated_value_storage_size += size;
@ -158,7 +158,7 @@ namespace ams::settings::fwdbg {
return ResultSuccess();
}
}
return ResultSettingsItemKeyAllocationFailed();
return settings::ResultSettingsItemKeyAllocationFailed();
}
Result FindSettingsItemKey(const char **out, const char *key) {
@ -172,7 +172,7 @@ namespace ams::settings::fwdbg {
return ResultSuccess();
}
}
return ResultSettingsItemKeyAllocationFailed();
return settings::ResultSettingsItemKeyAllocationFailed();
}
template<typename T>
@ -196,8 +196,8 @@ namespace ams::settings::fwdbg {
auto *begin = g_entries;
auto *end = begin + g_num_entries;
auto it = std::lower_bound(begin, end, test_entry);
R_UNLESS(it != end, ResultSettingsItemNotFound());
R_UNLESS(*it == test_entry, ResultSettingsItemNotFound());
R_UNLESS(it != end, settings::ResultSettingsItemNotFound());
R_UNLESS(*it == test_entry, settings::ResultSettingsItemNotFound());
*out = &*it;
return ResultSuccess();
@ -208,7 +208,7 @@ namespace ams::settings::fwdbg {
const char *value_str = delimiter + 1;
const char *type = val_tup;
R_UNLESS(delimiter != nullptr, ResultInvalidFormatSettingsItemValue());
R_UNLESS(delimiter != nullptr, settings::ResultInvalidFormatSettingsItemValue());
while (std::isspace(static_cast<unsigned char>(*type)) && type != delimiter) {
type++;
@ -216,8 +216,8 @@ namespace ams::settings::fwdbg {
const size_t type_len = delimiter - type;
const size_t value_len = strlen(value_str);
R_UNLESS(type_len > 0, ResultInvalidFormatSettingsItemValue());
R_UNLESS(value_len > 0, ResultInvalidFormatSettingsItemValue());
R_UNLESS(type_len > 0, settings::ResultInvalidFormatSettingsItemValue());
R_UNLESS(value_len > 0, settings::ResultInvalidFormatSettingsItemValue());
/* Create new value. */
SdKeyValueStoreEntry new_value = {};
@ -232,9 +232,9 @@ namespace ams::settings::fwdbg {
std::memcpy(new_value.value, value_str, size);
new_value.value_size = size;
} else if (strncasecmp(type, "hex", type_len) == 0 || strncasecmp(type, "bytes", type_len) == 0) {
R_UNLESS(value_len > 0, ResultInvalidFormatSettingsItemValue());
R_UNLESS(value_len % 2 == 0, ResultInvalidFormatSettingsItemValue());
R_UNLESS(IsHexadecimal(value_str), ResultInvalidFormatSettingsItemValue());
R_UNLESS(value_len > 0, settings::ResultInvalidFormatSettingsItemValue());
R_UNLESS(value_len % 2 == 0, settings::ResultInvalidFormatSettingsItemValue());
R_UNLESS(IsHexadecimal(value_str), settings::ResultInvalidFormatSettingsItemValue());
const size_t size = value_len / 2;
R_TRY(AllocateValue(&new_value.value, size));
@ -253,7 +253,7 @@ namespace ams::settings::fwdbg {
} else if (strncasecmp(type, "u64", type_len) == 0) {
R_TRY((ParseSettingsItemIntegralValue<u64>(new_value, value_str)));
} else {
return ResultInvalidFormatSettingsItemValue();
return settings::ResultInvalidFormatSettingsItemValue();
}
/* Insert the entry. */
@ -266,7 +266,7 @@ namespace ams::settings::fwdbg {
}
}
R_UNLESS(inserted, ResultSettingsItemValueAllocationFailed());
R_UNLESS(inserted, settings::ResultSettingsItemValueAllocationFailed());
return ResultSuccess();
}
@ -429,7 +429,7 @@ namespace ams::settings::fwdbg {
}
Result GetSdCardKeyValueStoreSettingsItemValue(size_t *out_size, void *dst, size_t dst_size, const char *name, const char *key) {
R_UNLESS(dst != nullptr, ResultNullSettingsItemValueBuffer());
R_UNLESS(dst != nullptr, settings::ResultNullSettingsItemValueBuffer());
SdKeyValueStoreEntry *entry = nullptr;
R_TRY(GetEntry(&entry, name, key));

View file

@ -229,29 +229,29 @@ namespace ams::creport {
void CrashReport::HandleDebugEventInfoException(const svc::DebugEventInfo &d) {
switch (d.info.exception.type) {
case svc::DebugException_UndefinedInstruction:
this->result = ResultUndefinedInstruction();
this->result = creport::ResultUndefinedInstruction();
break;
case svc::DebugException_InstructionAbort:
this->result = ResultInstructionAbort();
this->result = creport::ResultInstructionAbort();
break;
case svc::DebugException_DataAbort:
this->result = ResultDataAbort();
this->result = creport::ResultDataAbort();
break;
case svc::DebugException_AlignmentFault:
this->result = ResultAlignmentFault();
this->result = creport::ResultAlignmentFault();
break;
case svc::DebugException_UserBreak:
this->result = ResultUserBreak();
this->result = creport::ResultUserBreak();
/* Try to parse out the user break result. */
if (hos::GetVersion() >= hos::Version_5_0_0) {
svc::ReadDebugProcessMemory(reinterpret_cast<uintptr_t>(std::addressof(this->result)), this->debug_handle, d.info.exception.specific.user_break.address, sizeof(this->result));
}
break;
case svc::DebugException_UndefinedSystemCall:
this->result = ResultUndefinedSystemCall();
this->result = creport::ResultUndefinedSystemCall();
break;
case svc::DebugException_MemorySystemError:
this->result = ResultMemorySystemError();
this->result = creport::ResultMemorySystemError();
break;
case svc::DebugException_DebuggerAttached:
case svc::DebugException_BreakPoint:

View file

@ -27,7 +27,7 @@ namespace ams::creport {
private:
os::NativeHandle debug_handle = os::InvalidNativeHandle;
bool has_extra_info = true;
Result result = ResultIncompleteReport();
Result result = creport::ResultIncompleteReport();
/* Meta, used for building module/thread list. */
ThreadTlsMap thread_tls_map = {};

View file

@ -36,7 +36,7 @@ namespace ams::dmnt::cheat {
}
Result CheatService::ForceOpenCheatProcess() {
R_UNLESS(R_SUCCEEDED(dmnt::cheat::impl::ForceOpenCheatProcess()), ResultCheatNotAttached());
R_UNLESS(R_SUCCEEDED(dmnt::cheat::impl::ForceOpenCheatProcess()), dmnt::cheat::ResultCheatNotAttached());
return ResultSuccess();
}
@ -61,17 +61,17 @@ namespace ams::dmnt::cheat {
}
Result CheatService::GetCheatProcessMappings(const sf::OutArray<svc::MemoryInfo> &mappings, sf::Out<u64> out_count, u64 offset) {
R_UNLESS(mappings.GetPointer() != nullptr, ResultCheatNullBuffer());
R_UNLESS(mappings.GetPointer() != nullptr, dmnt::cheat::ResultCheatNullBuffer());
return dmnt::cheat::impl::GetCheatProcessMappings(mappings.GetPointer(), mappings.GetSize(), out_count.GetPointer(), offset);
}
Result CheatService::ReadCheatProcessMemory(const sf::OutBuffer &buffer, u64 address, u64 out_size) {
R_UNLESS(buffer.GetPointer() != nullptr, ResultCheatNullBuffer());
R_UNLESS(buffer.GetPointer() != nullptr, dmnt::cheat::ResultCheatNullBuffer());
return dmnt::cheat::impl::ReadCheatProcessMemory(address, buffer.GetPointer(), std::min(out_size, buffer.GetSize()));
}
Result CheatService::WriteCheatProcessMemory(const sf::InBuffer &buffer, u64 address, u64 in_size) {
R_UNLESS(buffer.GetPointer() != nullptr, ResultCheatNullBuffer());
R_UNLESS(buffer.GetPointer() != nullptr, dmnt::cheat::ResultCheatNullBuffer());
return dmnt::cheat::impl::WriteCheatProcessMemory(address, buffer.GetPointer(), std::min(in_size, buffer.GetSize()));
}
@ -88,7 +88,7 @@ namespace ams::dmnt::cheat {
}
Result CheatService::GetCheats(const sf::OutArray<CheatEntry> &cheats, sf::Out<u64> out_count, u64 offset) {
R_UNLESS(cheats.GetPointer() != nullptr, ResultCheatNullBuffer());
R_UNLESS(cheats.GetPointer() != nullptr, dmnt::cheat::ResultCheatNullBuffer());
return dmnt::cheat::impl::GetCheats(cheats.GetPointer(), cheats.GetSize(), out_count.GetPointer(), offset);
}
@ -133,7 +133,7 @@ namespace ams::dmnt::cheat {
}
Result CheatService::GetFrozenAddresses(const sf::OutArray<FrozenAddressEntry> &addresses, sf::Out<u64> out_count, u64 offset) {
R_UNLESS(addresses.GetPointer() != nullptr, ResultCheatNullBuffer());
R_UNLESS(addresses.GetPointer() != nullptr, dmnt::cheat::ResultCheatNullBuffer());
return dmnt::cheat::impl::GetFrozenAddresses(addresses.GetPointer(), addresses.GetSize(), out_count.GetPointer(), offset);
}
@ -143,9 +143,9 @@ namespace ams::dmnt::cheat {
Result CheatService::EnableFrozenAddress(sf::Out<u64> out_value, u64 address, u64 width) {
/* Width needs to be a power of two <= 8. */
R_UNLESS(width > 0, ResultFrozenAddressInvalidWidth());
R_UNLESS(width <= sizeof(u64), ResultFrozenAddressInvalidWidth());
R_UNLESS((width & (width - 1)) == 0, ResultFrozenAddressInvalidWidth());
R_UNLESS(width > 0, dmnt::cheat::ResultFrozenAddressInvalidWidth());
R_UNLESS(width <= sizeof(u64), dmnt::cheat::ResultFrozenAddressInvalidWidth());
R_UNLESS((width & (width - 1)) == 0, dmnt::cheat::ResultFrozenAddressInvalidWidth());
return dmnt::cheat::impl::EnableFrozenAddress(out_value.GetPointer(), address, width);
}

View file

@ -231,7 +231,7 @@ namespace ams::dmnt::cheat::impl {
}
Result EnsureCheatProcess() {
R_UNLESS(this->HasActiveCheatProcess(), ResultCheatNotAttached());
R_UNLESS(this->HasActiveCheatProcess(), dmnt::cheat::ResultCheatNotAttached());
return ResultSuccess();
}
@ -480,8 +480,8 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
const CheatEntry *entry = this->GetCheatEntryById(cheat_id);
R_UNLESS(entry != nullptr, ResultCheatUnknownId());
R_UNLESS(entry->definition.num_opcodes != 0, ResultCheatUnknownId());
R_UNLESS(entry != nullptr, dmnt::cheat::ResultCheatUnknownId());
R_UNLESS(entry->definition.num_opcodes != 0, dmnt::cheat::ResultCheatUnknownId());
*out_cheat = *entry;
return ResultSuccess();
@ -493,10 +493,10 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
CheatEntry *entry = this->GetCheatEntryById(cheat_id);
R_UNLESS(entry != nullptr, ResultCheatUnknownId());
R_UNLESS(entry->definition.num_opcodes != 0, ResultCheatUnknownId());
R_UNLESS(entry != nullptr, dmnt::cheat::ResultCheatUnknownId());
R_UNLESS(entry->definition.num_opcodes != 0, dmnt::cheat::ResultCheatUnknownId());
R_UNLESS(cheat_id != 0, ResultCheatCannotDisable());
R_UNLESS(cheat_id != 0, dmnt::cheat::ResultCheatCannotDisable());
entry->enabled = !entry->enabled;
@ -511,11 +511,11 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
R_UNLESS(def.num_opcodes != 0, ResultCheatInvalid());
R_UNLESS(def.num_opcodes <= util::size(def.opcodes), ResultCheatInvalid());
R_UNLESS(def.num_opcodes != 0, dmnt::cheat::ResultCheatInvalid());
R_UNLESS(def.num_opcodes <= util::size(def.opcodes), dmnt::cheat::ResultCheatInvalid());
CheatEntry *new_entry = this->GetFreeCheatEntry();
R_UNLESS(new_entry != nullptr, ResultCheatOutOfResource());
R_UNLESS(new_entry != nullptr, dmnt::cheat::ResultCheatOutOfResource());
new_entry->enabled = enabled;
new_entry->definition = def;
@ -533,7 +533,7 @@ namespace ams::dmnt::cheat::impl {
std::scoped_lock lk(this->cheat_lock);
R_TRY(this->EnsureCheatProcess());
R_UNLESS(cheat_id < MaxCheatCount, ResultCheatUnknownId());
R_UNLESS(cheat_id < MaxCheatCount, dmnt::cheat::ResultCheatUnknownId());
this->ResetCheatEntry(cheat_id);
@ -548,8 +548,8 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
R_UNLESS(def.num_opcodes != 0, ResultCheatInvalid());
R_UNLESS(def.num_opcodes <= util::size(def.opcodes), ResultCheatInvalid());
R_UNLESS(def.num_opcodes != 0, dmnt::cheat::ResultCheatInvalid());
R_UNLESS(def.num_opcodes <= util::size(def.opcodes), dmnt::cheat::ResultCheatInvalid());
CheatEntry *master_entry = this->cheat_entries + 0;
@ -566,7 +566,7 @@ namespace ams::dmnt::cheat::impl {
std::scoped_lock lk(this->cheat_lock);
R_TRY(this->EnsureCheatProcess());
R_UNLESS(which < CheatVirtualMachine::NumStaticRegisters, ResultCheatInvalid());
R_UNLESS(which < CheatVirtualMachine::NumStaticRegisters, dmnt::cheat::ResultCheatInvalid());
*out = this->cheat_vm.GetStaticRegister(which);
return ResultSuccess();
@ -576,7 +576,7 @@ namespace ams::dmnt::cheat::impl {
std::scoped_lock lk(this->cheat_lock);
R_TRY(this->EnsureCheatProcess());
R_UNLESS(which < CheatVirtualMachine::NumStaticRegisters, ResultCheatInvalid());
R_UNLESS(which < CheatVirtualMachine::NumStaticRegisters, dmnt::cheat::ResultCheatInvalid());
this->cheat_vm.SetStaticRegister(which, value);
return ResultSuccess();
@ -629,7 +629,7 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
const auto it = this->frozen_addresses_map.find_key(address);
R_UNLESS(it != this->frozen_addresses_map.end(), ResultFrozenAddressNotFound());
R_UNLESS(it != this->frozen_addresses_map.end(), dmnt::cheat::ResultFrozenAddressNotFound());
frz_addr->address = it->GetAddress();
frz_addr->value = it->GetValue();
@ -642,14 +642,14 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
const auto it = this->frozen_addresses_map.find_key(address);
R_UNLESS(it == this->frozen_addresses_map.end(), ResultFrozenAddressAlreadyExists());
R_UNLESS(it == this->frozen_addresses_map.end(), dmnt::cheat::ResultFrozenAddressAlreadyExists());
FrozenAddressValue value = {};
value.width = width;
R_TRY(this->ReadCheatProcessMemoryUnsafe(address, &value.value, width));
FrozenAddressMapEntry *entry = AllocateFrozenAddress(address, value);
R_UNLESS(entry != nullptr, ResultFrozenAddressOutOfResource());
R_UNLESS(entry != nullptr, dmnt::cheat::ResultFrozenAddressOutOfResource());
this->frozen_addresses_map.insert(*entry);
*out_value = value.value;
@ -662,7 +662,7 @@ namespace ams::dmnt::cheat::impl {
R_TRY(this->EnsureCheatProcess());
const auto it = this->frozen_addresses_map.find_key(address);
R_UNLESS(it != this->frozen_addresses_map.end(), ResultFrozenAddressNotFound());
R_UNLESS(it != this->frozen_addresses_map.end(), dmnt::cheat::ResultFrozenAddressNotFound());
FrozenAddressMapEntry *entry = std::addressof(*it);
this->frozen_addresses_map.erase(it);
@ -820,7 +820,7 @@ namespace ams::dmnt::cheat::impl {
/* If new process launch, we may not want to actually attach. */
if (on_process_launch) {
R_UNLESS(status.IsCheatEnabled(), ResultCheatNotAttached());
R_UNLESS(status.IsCheatEnabled(), dmnt::cheat::ResultCheatNotAttached());
}
}
@ -841,7 +841,7 @@ namespace ams::dmnt::cheat::impl {
} else if (num_modules == 1 && !on_process_launch) {
proc_module = &proc_modules[0];
} else {
return ResultCheatNotAttached();
return dmnt::cheat::ResultCheatNotAttached();
}
this->cheat_process_metadata.main_nso_extents.base = proc_module->base_address;
@ -853,7 +853,7 @@ namespace ams::dmnt::cheat::impl {
if (!this->LoadCheats(this->cheat_process_metadata.program_id, this->cheat_process_metadata.main_nso_build_id) ||
!this->LoadCheatToggles(this->cheat_process_metadata.program_id)) {
/* If new process launch, require success. */
R_UNLESS(!on_process_launch, ResultCheatNotAttached());
R_UNLESS(!on_process_launch, dmnt::cheat::ResultCheatNotAttached());
}
/* Open a debug handle. */

View file

@ -29,7 +29,7 @@ namespace ams::fatal::srv {
std::scoped_lock lk{this->lock};
/* Only allow GetEvent to succeed NumFatalEvents times. */
R_UNLESS(this->num_events_gotten < FatalEventManager::NumFatalEvents, ResultTooManyEvents());
R_UNLESS(this->num_events_gotten < FatalEventManager::NumFatalEvents, fatal::ResultTooManyEvents());
*out = std::addressof(this->events[this->num_events_gotten++]);
return ResultSuccess();

View file

@ -35,7 +35,7 @@ namespace ams::fatal::srv {
bool has_thrown;
private:
Result TrySetHasThrown() {
R_UNLESS(!this->has_thrown, ResultAlreadyThrown());
R_UNLESS(!this->has_thrown, fatal::ResultAlreadyThrown());
this->has_thrown = true;
return ResultSuccess();
}

View file

@ -107,7 +107,7 @@ namespace ams::ldr {
}
Result LoaderService::GetProcessModuleInfo(sf::Out<u32> count, const sf::OutPointerArray<ModuleInfo> &out, os::ProcessId process_id) {
R_UNLESS(out.GetSize() <= std::numeric_limits<s32>::max(), ResultInvalidSize());
R_UNLESS(out.GetSize() <= std::numeric_limits<s32>::max(), ldr::ResultInvalidSize());
return ldr::ro::GetProcessModuleInfo(count.GetPointer(), out.GetPointer(), out.GetSize(), process_id);
}

View file

@ -43,16 +43,16 @@ namespace ams::ldr {
/* Helpers. */
Result ValidateSubregion(size_t allowed_start, size_t allowed_end, size_t start, size_t size, size_t min_size = 0) {
R_UNLESS(size >= min_size, ResultInvalidMeta());
R_UNLESS(allowed_start <= start, ResultInvalidMeta());
R_UNLESS(start <= allowed_end, ResultInvalidMeta());
R_UNLESS(start + size <= allowed_end, ResultInvalidMeta());
R_UNLESS(size >= min_size, ldr::ResultInvalidMeta());
R_UNLESS(allowed_start <= start, ldr::ResultInvalidMeta());
R_UNLESS(start <= allowed_end, ldr::ResultInvalidMeta());
R_UNLESS(start + size <= allowed_end, ldr::ResultInvalidMeta());
return ResultSuccess();
}
Result ValidateNpdm(const Npdm *npdm, size_t size) {
/* Validate magic. */
R_UNLESS(npdm->magic == Npdm::Magic, ResultInvalidMeta());
R_UNLESS(npdm->magic == Npdm::Magic, ldr::ResultInvalidMeta());
/* Validate flags. */
u32 mask;
@ -69,7 +69,7 @@ namespace ams::ldr {
/* We set the "DisableDeviceAddressSpaceMerge" bit on all versions, so be permissive with it. */
mask &= ~0x20;
R_UNLESS(!(npdm->flags & mask), ResultInvalidMeta());
R_UNLESS(!(npdm->flags & mask), ldr::ResultInvalidMeta());
/* Validate Acid extents. */
R_TRY(ValidateSubregion(sizeof(Npdm), size, npdm->acid_offset, npdm->acid_size, sizeof(Acid)));
@ -82,11 +82,11 @@ namespace ams::ldr {
Result ValidateAcid(const Acid *acid, size_t size) {
/* Validate magic. */
R_UNLESS(acid->magic == Acid::Magic, ResultInvalidMeta());
R_UNLESS(acid->magic == Acid::Magic, ldr::ResultInvalidMeta());
/* Validate that the acid is for production if not development. */
if (!IsDevelopmentForAcidProductionCheck()) {
R_UNLESS((acid->flags & Acid::AcidFlag_Production) != 0, ResultInvalidMeta());
R_UNLESS((acid->flags & Acid::AcidFlag_Production) != 0, ldr::ResultInvalidMeta());
}
/* Validate Fac, Sac, Kac. */
@ -99,7 +99,7 @@ namespace ams::ldr {
Result ValidateAci(const Aci *aci, size_t size) {
/* Validate magic. */
R_UNLESS(aci->magic == Aci::Magic, ResultInvalidMeta());
R_UNLESS(aci->magic == Aci::Magic, ldr::ResultInvalidMeta());
/* Validate Fah, Sac, Kac. */
R_TRY(ValidateSubregion(sizeof(Aci), size, aci->fah_offset, aci->fah_size));
@ -130,7 +130,7 @@ namespace ams::ldr {
const u8 *msg = meta->acid->modulus;
const size_t msg_size = meta->acid->size;
const bool is_signature_valid = crypto::VerifyRsa2048PssSha256(sig, sig_size, mod, mod_size, exp, exp_size, msg, msg_size);
R_UNLESS(is_signature_valid || !IsEnabledProgramVerification(), ResultInvalidAcidSignature());
R_UNLESS(is_signature_valid || !IsEnabledProgramVerification(), ldr::ResultInvalidAcidSignature());
meta->check_verification_data = is_signature_valid;
return ResultSuccess();
@ -147,12 +147,12 @@ namespace ams::ldr {
R_TRY(fs::GetFileSize(std::addressof(npdm_size), file));
/* Read data into cache buffer. */
R_UNLESS(npdm_size <= static_cast<s64>(MetaCacheBufferSize), ResultTooLargeMeta());
R_UNLESS(npdm_size <= static_cast<s64>(MetaCacheBufferSize), ldr::ResultTooLargeMeta());
R_TRY(fs::ReadFile(file, 0, cache->buffer, npdm_size));
}
/* Ensure size is big enough. */
R_UNLESS(npdm_size >= static_cast<s64>(sizeof(Npdm)), ResultInvalidMeta());
R_UNLESS(npdm_size >= static_cast<s64>(sizeof(Npdm)), ldr::ResultInvalidMeta());
/* Validate the meta. */
{

View file

@ -120,7 +120,7 @@ namespace ams::ldr {
for (size_t i = 0; i < num_entries; i++) {
if (entries[i].program_id == program_id) {
R_UNLESS(entries[i].version <= version, ResultInvalidVersion());
R_UNLESS(entries[i].version <= version, ldr::ResultInvalidVersion());
}
}
#else
@ -142,7 +142,7 @@ namespace ams::ldr {
#define COPY_ACCESS_CONTROL(source, which) \
({ \
const size_t size = meta->source->which##_size; \
R_UNLESS(offset + size <= sizeof(out->ac_buffer), ResultInternalError()); \
R_UNLESS(offset + size <= sizeof(out->ac_buffer), ldr::ResultInternalError()); \
out->source##_##which##_size = size; \
std::memcpy(out->ac_buffer + offset, meta->source##_##which, size); \
offset += size; \
@ -189,7 +189,7 @@ namespace ams::ldr {
/* Read NSO header. */
size_t read_size;
R_TRY(fs::ReadFile(std::addressof(read_size), file, 0, nso_headers + i, sizeof(*nso_headers)));
R_UNLESS(read_size == sizeof(*nso_headers), ResultInvalidNso());
R_UNLESS(read_size == sizeof(*nso_headers), ldr::ResultInvalidNso());
has_nso[i] = true;
}
@ -200,18 +200,18 @@ namespace ams::ldr {
Result ValidateNsoHeaders(const NsoHeader *nso_headers, const bool *has_nso) {
/* We must always have a main. */
R_UNLESS(has_nso[Nso_Main], ResultInvalidNso());
R_UNLESS(has_nso[Nso_Main], ldr::ResultInvalidNso());
/* If we don't have an RTLD, we must only have a main. */
if (!has_nso[Nso_Rtld]) {
for (size_t i = Nso_Main + 1; i < Nso_Count; i++) {
R_UNLESS(!has_nso[i], ResultInvalidNso());
R_UNLESS(!has_nso[i], ldr::ResultInvalidNso());
}
}
/* All NSOs must have zero text offset. */
for (size_t i = 0; i < Nso_Count; i++) {
R_UNLESS(nso_headers[i].text_dst_offset == 0, ResultInvalidNso());
R_UNLESS(nso_headers[i].text_dst_offset == 0, ldr::ResultInvalidNso());
}
return ResultSuccess();
@ -222,8 +222,8 @@ namespace ams::ldr {
R_TRY(ValidateProgramVersion(loc.program_id, meta->npdm->version));
/* Validate program id. */
R_UNLESS(meta->aci->program_id >= meta->acid->program_id_min, ResultInvalidProgramId());
R_UNLESS(meta->aci->program_id <= meta->acid->program_id_max, ResultInvalidProgramId());
R_UNLESS(meta->aci->program_id >= meta->acid->program_id_min, ldr::ResultInvalidProgramId());
R_UNLESS(meta->aci->program_id <= meta->acid->program_id_max, ldr::ResultInvalidProgramId());
/* Validate the kernel capabilities. */
R_TRY(caps::ValidateCapabilities(meta->acid_kac, meta->acid->kac_size, meta->aci_kac, meta->aci->kac_size));
@ -240,7 +240,7 @@ namespace ams::ldr {
const size_t hsh_size = sizeof(code_verification_data.target_hash);
const bool is_signature_valid = crypto::VerifyRsa2048PssSha256WithHash(sig, sig_size, mod, mod_size, exp, exp_size, hsh, hsh_size);
R_UNLESS(is_signature_valid, ResultInvalidNcaSignature());
R_UNLESS(is_signature_valid, ldr::ResultInvalidNcaSignature());
}
/* All good. */
@ -272,7 +272,7 @@ namespace ams::ldr {
flags |= svc::CreateProcessFlag_AddressSpace64Bit;
break;
default:
return ResultInvalidMeta();
return ldr::ResultInvalidMeta();
}
/* Set Enable Debug. */
@ -317,7 +317,7 @@ namespace ams::ldr {
flags |= svc::CreateProcessFlag_PoolPartitionSystemNonSecure;
break;
default:
return ResultInvalidMeta();
return ldr::ResultInvalidMeta();
}
} else if (hos::GetVersion() >= hos::Version_4_0_0) {
/* On 4.0.0+, the corresponding bit was simply "UseSecureMemory". */
@ -351,18 +351,18 @@ namespace ams::ldr {
/* 3.0.0+ System Resource Size. */
if (hos::GetVersion() >= hos::Version_3_0_0) {
/* Validate size is aligned. */
R_UNLESS(util::IsAligned(meta->npdm->system_resource_size, os::MemoryBlockUnitSize), ResultInvalidSize());
R_UNLESS(util::IsAligned(meta->npdm->system_resource_size, os::MemoryBlockUnitSize), ldr::ResultInvalidSize());
/* Validate system resource usage. */
if (meta->npdm->system_resource_size) {
/* Process must be 64-bit. */
R_UNLESS((out->flags & svc::CreateProcessFlag_AddressSpace64Bit), ResultInvalidMeta());
R_UNLESS((out->flags & svc::CreateProcessFlag_AddressSpace64Bit), ldr::ResultInvalidMeta());
/* Process must be application or applet. */
R_UNLESS(IsApplication(meta) || IsApplet(meta), ResultInvalidMeta());
R_UNLESS(IsApplication(meta) || IsApplet(meta), ldr::ResultInvalidMeta());
/* Size must be less than or equal to max. */
R_UNLESS(meta->npdm->system_resource_size <= SystemResourceSizeMax, ResultInvalidMeta());
R_UNLESS(meta->npdm->system_resource_size <= SystemResourceSizeMax, ldr::ResultInvalidMeta());
}
out->system_resource_num_pages = meta->npdm->system_resource_size >> 12;
}
@ -541,19 +541,19 @@ namespace ams::ldr {
}
/* Validate size. */
R_UNLESS(file_size <= segment->size, ResultInvalidNso());
R_UNLESS(segment->size <= std::numeric_limits<s32>::max(), ResultInvalidNso());
R_UNLESS(file_size <= segment->size, ldr::ResultInvalidNso());
R_UNLESS(segment->size <= std::numeric_limits<s32>::max(), ldr::ResultInvalidNso());
/* Load data from file. */
uintptr_t load_address = is_compressed ? map_end - file_size : map_base;
size_t read_size;
R_TRY(fs::ReadFile(std::addressof(read_size), file, segment->file_offset, reinterpret_cast<void *>(load_address), file_size));
R_UNLESS(read_size == file_size, ResultInvalidNso());
R_UNLESS(read_size == file_size, ldr::ResultInvalidNso());
/* Uncompress if necessary. */
if (is_compressed) {
bool decompressed = (util::DecompressLZ4(reinterpret_cast<void *>(map_base), segment->size, reinterpret_cast<const void *>(load_address), file_size) == static_cast<int>(segment->size));
R_UNLESS(decompressed, ResultInvalidNso());
R_UNLESS(decompressed, ldr::ResultInvalidNso());
}
/* Check hash if necessary. */
@ -561,7 +561,7 @@ namespace ams::ldr {
u8 hash[crypto::Sha256Generator::HashSize];
crypto::GenerateSha256Hash(hash, sizeof(hash), reinterpret_cast<void *>(map_base), segment->size);
R_UNLESS(std::memcmp(hash, file_hash, sizeof(hash)) == 0, ResultInvalidNso());
R_UNLESS(std::memcmp(hash, file_hash, sizeof(hash)) == 0, ldr::ResultInvalidNso());
}
return ResultSuccess();