/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#pragma once
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
namespace ams::ncm {
class ContentMetaMemoryResource : public MemoryResource {
private:
mem::StandardAllocator m_allocator;
size_t m_peak_total_alloc_size;
size_t m_peak_alloc_size;
public:
explicit ContentMetaMemoryResource(void *heap, size_t heap_size) : m_allocator(heap, heap_size), m_peak_total_alloc_size(0), m_peak_alloc_size(0) { /* ... */ }
mem::StandardAllocator *GetAllocator() { return std::addressof(m_allocator); }
size_t GetPeakTotalAllocationSize() const { return m_peak_total_alloc_size; }
size_t GetPeakAllocationSize() const { return m_peak_alloc_size; }
private:
virtual void *AllocateImpl(size_t size, size_t alignment) override {
void *mem = m_allocator.Allocate(size, alignment);
m_peak_total_alloc_size = std::max(m_allocator.Hash().allocated_size, m_peak_total_alloc_size);
m_peak_alloc_size = std::max(size, m_peak_alloc_size);
return mem;
}
virtual void DeallocateImpl(void *buffer, size_t size, size_t alignment) override {
AMS_UNUSED(size, alignment);
return m_allocator.Free(buffer);
}
virtual bool IsEqualImpl(const MemoryResource &resource) const override {
return this == std::addressof(resource);
}
};
struct SystemSaveDataInfo {
u64 id;
u64 size;
u64 journal_size;
u32 flags;
fs::SaveDataSpaceId space_id;
};
static_assert(util::is_pod::value);
struct IntegratedContentStorageImpl;
class ContentManagerImpl {
private:
constexpr static size_t MaxContentStorageRoots = 8;
constexpr static size_t MaxIntegratedContentStorageRoots = 8;
constexpr static size_t MaxContentMetaDatabaseRoots = 8;
constexpr static size_t MaxIntegratedContentMetaDatabaseRoots = 8;
constexpr static size_t MaxConfigs = 8;
constexpr static size_t MaxIntegratedConfigs = 8;
private:
struct ContentStorageConfig {
fs::ContentStorageId content_storage_id;
bool skip_verify_and_create;
bool skip_activate;
};
struct IntegratedContentStorageConfig {
ncm::StorageId storage_id;
fs::ContentStorageId content_storage_ids[MaxContentStorageRoots];
int num_content_storage_ids;
bool is_integrated;
};
private:
struct ContentStorageRoot {
NON_COPYABLE(ContentStorageRoot);
NON_MOVEABLE(ContentStorageRoot);
char mount_name[fs::MountNameLengthMax + 1];
char path[128];
StorageId storage_id;
util::optional config;
sf::SharedPointer content_storage;
ContentStorageRoot() : mount_name(), path(), storage_id(), config(util::nullopt), content_storage() { /* ... */ }
};
struct IntegratedContentStorageRoot {
NON_COPYABLE(IntegratedContentStorageRoot);
NON_MOVEABLE(IntegratedContentStorageRoot);
const IntegratedContentStorageConfig *m_config;
ContentStorageRoot *m_roots;
int m_num_roots;
sf::EmplacedRef m_integrated_content_storage;
IntegratedContentStorageRoot() : m_config(), m_roots(), m_num_roots(), m_integrated_content_storage() { /* ... */ }
Result Create();
Result Verify();
Result Open(sf::Out> out, RightsIdCache &rights_id_cache, RegisteredHostContent ®istered_host_content);
Result Activate(RightsIdCache &rights_id_cache, RegisteredHostContent ®istered_host_content);
Result Inactivate(RegisteredHostContent ®istered_host_content);
Result Activate(ContentStorageRoot &root, RightsIdCache &rights_id_cache, RegisteredHostContent ®istered_host_content);
Result Activate(RightsIdCache &rights_id_cache, RegisteredHostContent ®istered_host_content, fs::ContentStorageId content_storage_id);
ContentStorageRoot *GetRoot(fs::ContentStorageId storage_id) {
for (auto i = 0; i < m_num_roots; ++i) {
if (auto &root = m_roots[i]; root.config.has_value() && root.config->content_storage_id == storage_id) {
return std::addressof(root);
}
}
return nullptr;
}
};
struct ContentMetaDatabaseRoot {
NON_COPYABLE(ContentMetaDatabaseRoot);
NON_MOVEABLE(ContentMetaDatabaseRoot);
char mount_name[fs::MountNameLengthMax + 1];
char path[128];
StorageId storage_id;
util::optional storage_config;
util::optional save_data_info;
util::optional> kvs;
sf::SharedPointer content_meta_database;
ContentMetaMemoryResource *memory_resource;
u32 max_content_metas;
ContentMetaDatabaseRoot() : mount_name(), path(), storage_id(), storage_config(util::nullopt), save_data_info(util::nullopt), kvs(util::nullopt), content_meta_database(), memory_resource(), max_content_metas() { /* ... */ }
};
struct IntegratedContentMetaDatabaseRoot {
NON_COPYABLE(IntegratedContentMetaDatabaseRoot);
NON_MOVEABLE(IntegratedContentMetaDatabaseRoot);
const IntegratedContentStorageConfig *m_config;
ContentMetaDatabaseRoot *m_roots;
int m_num_roots;
sf::EmplacedRef m_integrated_content_meta_database;
IntegratedContentMetaDatabaseRoot() : m_config(), m_roots(), m_num_roots(), m_integrated_content_meta_database() { /* ... */ }
Result Create();
Result Verify();
Result Open(sf::Out> out);
Result Cleanup();
Result Activate();
Result Inactivate();
Result Activate(ContentMetaDatabaseRoot &root);
Result Activate(fs::ContentStorageId content_storage_id);
ContentMetaDatabaseRoot *GetRoot(fs::ContentStorageId storage_id) {
for (auto i = 0; i < m_num_roots; ++i) {
if (auto &root = m_roots[i]; root.storage_config.has_value() && root.storage_config->content_storage_id == storage_id) {
return std::addressof(root);
}
}
return nullptr;
}
};
private:
os::SdkRecursiveMutex m_mutex{};
bool m_initialized{false};
IntegratedContentStorageRoot m_integrated_content_storage_roots[MaxIntegratedContentStorageRoots]{};
ContentStorageRoot m_content_storage_roots[MaxContentStorageRoots]{};
IntegratedContentMetaDatabaseRoot m_integrated_content_meta_database_roots[MaxIntegratedContentMetaDatabaseRoots]{};
ContentMetaDatabaseRoot m_content_meta_database_roots[MaxContentMetaDatabaseRoots]{};
IntegratedContentStorageConfig m_integrated_configs[MaxIntegratedConfigs]{};
ContentStorageConfig m_configs[MaxConfigs]{};
u32 m_num_integrated_content_storage_entries{0};
u32 m_num_content_storage_entries{0};
u32 m_num_integrated_content_meta_entries{0};
u32 m_num_content_meta_entries{0};
u32 m_num_integrated_configs{0};
u32 m_num_configs{0};
RightsIdCache m_rights_id_cache{};
RegisteredHostContent m_registered_host_content{};
public:
ContentManagerImpl() = default;
~ContentManagerImpl();
public:
Result Initialize(const ContentManagerConfig &config);
private:
Result Initialize(const ContentManagerConfig &manager_config, const IntegratedContentStorageConfig *integrated_configs, size_t num_integrated_configs, const ContentStorageConfig *configs, size_t num_configs, const ncm::StorageId *activated_storages, size_t num_activated_storages);
Result InitializeStorageBuiltInSystem(const ContentManagerConfig &manager_config);
Result InitializeStorage(ncm::StorageId storage_id);
const ContentStorageConfig &GetContentStorageConfig(fs::ContentStorageId content_storage_id) {
for (size_t i = 0; i < m_num_configs; ++i) {
if (m_configs[i].content_storage_id == content_storage_id) {
return m_configs[i];
}
}
/* NOTE: Nintendo accesses out of bounds memory here. Should we explicitly abort? This is guaranteed by data to never happen. */
AMS_ASSUME(false);
}
private:
/* Helpers. */
Result GetIntegratedContentStorageConfig(IntegratedContentStorageConfig **out, fs::ContentStorageId content_storage_id);
Result GetIntegratedContentStorageRoot(IntegratedContentStorageRoot **out, StorageId id);
Result GetIntegratedContentMetaDatabaseRoot(IntegratedContentMetaDatabaseRoot **out, StorageId id);
Result InitializeContentStorageRoot(ContentStorageRoot *out, StorageId storage_id, util::optional config);
Result InitializeContentMetaDatabaseRoot(ContentMetaDatabaseRoot *out, StorageId storage_id, util::optional storage_config);
Result InitializeIntegratedContentStorageRoot(IntegratedContentStorageRoot *out, const IntegratedContentStorageConfig *config, size_t root_idx, size_t root_count);
Result InitializeIntegratedContentMetaDatabaseRoot(IntegratedContentMetaDatabaseRoot *out, const IntegratedContentStorageConfig *config, size_t root_idx, size_t root_count);
Result BuildContentMetaDatabase(StorageId storage_id);
Result ImportContentMetaDatabase(StorageId storage_id, bool from_signed_partition);
Result ImportContentMetaDatabaseImpl(ContentMetaDatabaseRoot *root, const char *import_mount_name);
public:
/* Actual commands. */
Result CreateContentStorage(StorageId storage_id);
Result CreateContentMetaDatabase(StorageId storage_id);
Result VerifyContentStorage(StorageId storage_id);
Result VerifyContentMetaDatabase(StorageId storage_id);
Result OpenContentStorage(sf::Out> out, StorageId storage_id);
Result OpenContentMetaDatabase(sf::Out> out, StorageId storage_id);
Result CloseContentStorageForcibly(StorageId storage_id);
Result CloseContentMetaDatabaseForcibly(StorageId storage_id);
Result CleanupContentMetaDatabase(StorageId storage_id);
Result ActivateContentStorage(StorageId storage_id);
Result InactivateContentStorage(StorageId storage_id);
Result ActivateContentMetaDatabase(StorageId storage_id);
Result InactivateContentMetaDatabase(StorageId storage_id);
Result InvalidateRightsIdCache();
Result GetMemoryReport(sf::Out out);
Result ActivateFsContentStorage(fs::ContentStorageId fs_content_storage_id);
};
static_assert(IsIContentManager);
}