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fs: use access_log for other user fs/dir/file bindings

This commit is contained in:
Michael Scire 2020-07-01 01:27:23 -07:00 committed by SciresM
parent e2b17086d4
commit 70e67da1e1
14 changed files with 356 additions and 141 deletions

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@ -53,8 +53,6 @@ namespace ams::fs {
CreateOption_BigFile = ::FsCreateOption_BigFile,
};
using FileTimeStampRaw = ::FsTimeStampRaw;
struct FileHandle;
struct DirectoryHandle;
@ -74,7 +72,6 @@ namespace ams::fs {
Result GetTotalSpaceSize(s64 *out, const char *path);
Result SetConcatenationFileAttribute(const char *path);
Result GetFileTimeStampRaw(FileTimeStampRaw *out, const char *path);
Result OpenFile(FileHandle *out, std::unique_ptr<fsa::IFile> &&file, int mode);

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@ -0,0 +1,32 @@
/*
* Copyright (c) 2018-2020 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 <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <stratosphere/fs/fs_common.hpp>
#include <stratosphere/fs/fs_filesystem.hpp>
namespace ams::fs {
using FileTimeStampRaw = ::FsTimeStampRaw;
namespace impl {
Result GetFileTimeStampRawForDebug(FileTimeStampRaw *out, const char *path);
}
Result GetFileTimeStampRawForDebug(FileTimeStampRaw *out, const char *path);
}

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@ -14,8 +14,9 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "fs_common.hpp"
#include "fs_filesystem.hpp"
#include <stratosphere/fs/fs_common.hpp>
#include <stratosphere/fs/fs_filesystem.hpp>
#include <stratosphere/fs/fs_filesystem_for_debug.hpp>
namespace ams::fs {

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@ -17,6 +17,7 @@
#pragma once
#include "../fs_common.hpp"
#include "../fs_filesystem.hpp"
#include "../fs_filesystem_for_debug.hpp"
namespace ams::fs::fsa {

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@ -74,68 +74,111 @@ namespace ams::fs::impl {
const char *ToString(T id);
};
template<typename T> requires (requires { T{}; })
inline T DereferenceOutValue(T *out_value, Result result) {
if (R_SUCCEEDED(result) && out_value != nullptr) {
return *out_value;
} else {
return T{};
}
}
}
/* Access log result name. */
#define AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME __tmp_ams_fs_access_log_result
/* Access log utils. */
#define AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__VALUE__) ::ams::fs::impl::DereferenceOutValue(__VALUE__, AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME)
/* Access log components. */
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_SIZE ", size: %" PRId64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_OFFSET_AND_SIZE ", offset: %" PRId64 ", size: %zu"
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_THREAD_ID ", thread_id: %" PRIu64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_SIZE ", size: %" PRId64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_SIZE ", read_size: %zu"
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_OFFSET_AND_SIZE ", offset: %" PRId64 ", size: %zu"
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_THREAD_ID ", thread_id: %" PRIu64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_MOUNT ", name: \"%s\""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_ENTRY_COUNT ", entry_count: %" PRId64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_ENTRY_BUFFER_COUNT ", entry_buffer_count: %" PRId64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_OPEN_MODE ", open_mode: 0x%" PRIX32 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH ", path: \"%s\""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_SIZE ", path: \"%s\", size: %" PRId64 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_OPEN_MODE ", path: \"%s\", open_mode: 0x%" PRIX32 ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME ", path: \"%s\", new_path: \"%s\""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_DIRECTORY_ENTRY_TYPE ", entry_type: %s"
/* Access log formats. */
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_NONE ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_NONE ""
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_FILE(__OUT_READ_SIZE__, __OFFSET__, __SIZE__) \
AMS_FS_IMPL_ACCESS_LOG_FORMAT_OFFSET_AND_SIZE AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_SIZE, __OFFSET__, __SIZE__, AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__OUT_READ_SIZE__)
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_WRITE_FILE_WITH_NO_OPTION AMS_FS_IMPL_ACCESS_LOG_FORMAT_OFFSET_AND_SIZE
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_WRITE_FILE_WITH_FLUSH_OPTION AMS_FS_IMPL_ACCESS_LOG_FORMAT_WRITE_FILE_WITH_NO_OPTION ", write_option: Flush"
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_WRITE_FILE(__OPTION__) ((__OPTION__).HasFlushFlag() ? AMS_FS_IMPL_ACCESS_LOG_FORMAT_WRITE_FILE_WITH_FLUSH_OPTION : AMS_FS_IMPL_ACCESS_LOG_FORMAT_WRITE_FILE_WITH_NO_OPTION)
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_FILE_SIZE(__OUT_SIZE__) \
AMS_FS_IMPL_ACCESS_LOG_FORMAT_SIZE, AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__OUT_SIZE__)
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_DIRECTORY(__OUT_ENTRY_COUNT__, __ENTRY_BUFFER_COUNT__) \
AMS_FS_IMPL_ACCESS_LOG_FORMAT_ENTRY_BUFFER_COUNT AMS_FS_IMPL_ACCESS_LOG_FORMAT_ENTRY_COUNT, __ENTRY_BUFFER_COUNT__, AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__OUT_ENTRY_COUNT__)
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_DIRECTORY_ENTRY_COUNT(__OUT_ENTRY_COUNT__) \
AMS_FS_IMPL_ACCESS_LOG_FORMAT_ENTRY_COUNT, AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__OUT_ENTRY_COUNT__)
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_ENTRY_TYPE(__OUT_ENTRY_TYPE__, __PATH__) \
AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH AMS_FS_IMPL_ACCESS_LOG_FORMAT_DIRECTORY_ENTRY_TYPE, __PATH__, ::ams::fs::impl::IdString().ToString(AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__OUT_ENTRY_TYPE__))
#define AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_SPACE_SIZE(__OUT_SIZE__, __NAME__) \
AMS_FS_IMPL_ACCESS_LOG_FORMAT_MOUNT AMS_FS_IMPL_ACCESS_LOG_FORMAT_SIZE, __NAME__, AMS_FS_IMPL_ACCESS_LOG_DEREFERENCE_OUT_VALUE(__OUT_SIZE__)
/* Access log invocation lambdas. */
#define AMS_FS_IMPL_ACCESS_LOG_IMPL(__EXPR__, __HANDLE__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return (__EXPR__); \
} else { \
const ::ams::os::Tick start = ::ams::os::GetSystemTick(); \
const auto result = (__EXPR__); \
const ::ams::os::Tick end = ::ams::os::GetSystemTick(); \
::ams::fs::impl::OutputAccessLog(result, start, end, name, __HANDLE__, __VA_ARGS__); \
return result; \
} \
#define AMS_FS_IMPL_ACCESS_LOG_IMPL(__EXPR__, __HANDLE__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return (__EXPR__); \
} else { \
const ::ams::os::Tick start = ::ams::os::GetSystemTick(); \
const auto AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME = (__EXPR__); \
const ::ams::os::Tick end = ::ams::os::GetSystemTick(); \
::ams::fs::impl::OutputAccessLog(AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME, start, end, name, __HANDLE__, __VA_ARGS__); \
return AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME; \
} \
}(__NAME__)
#define AMS_FS_IMPL_ACCESS_LOG_WITH_PRIORITY_IMPL(__EXPR__, __PRIORITY__, __HANDLE__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return (__EXPR__); \
} else { \
const ::ams::os::Tick start = ::ams::os::GetSystemTick(); \
const auto result = (__EXPR__); \
const ::ams::os::Tick end = ::ams::os::GetSystemTick(); \
::ams::fs::impl::OutputAccessLog(result, __PRIORITY__, start, end, name, __HANDLE__, __VA_ARGS__); \
return result; \
} \
#define AMS_FS_IMPL_ACCESS_LOG_WITH_PRIORITY_IMPL(__EXPR__, __PRIORITY__, __HANDLE__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return (__EXPR__); \
} else { \
const ::ams::os::Tick start = ::ams::os::GetSystemTick(); \
const auto AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME = (__EXPR__); \
const ::ams::os::Tick end = ::ams::os::GetSystemTick(); \
::ams::fs::impl::OutputAccessLog(AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME, __PRIORITY__, start, end, name, __HANDLE__, __VA_ARGS__); \
return AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME; \
} \
}(__NAME__)
#define AMS_FS_IMPL_ACCESS_LOG_EXPLICIT_IMPL(__RESULT__, __START__, __END__, __HANDLE__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return __RESULT__; \
} else { \
::ams::fs::impl::OutputAccessLog(__RESULT__, __START__, __END__, name, __HANDLE__, __VA_ARGS__); \
return __RESULT__; \
} \
#define AMS_FS_IMPL_ACCESS_LOG_EXPLICIT_IMPL(__RESULT__, __START__, __END__, __HANDLE__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return __RESULT__; \
} else { \
const auto AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME = (__RESULT__); \
::ams::fs::impl::OutputAccessLog(AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME, __START__, __END__, name, __HANDLE__, __VA_ARGS__); \
return AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME; \
} \
}(__NAME__)
#define AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED_IMPL(__EXPR__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return (__EXPR__); \
} else { \
const ::ams::os::Tick start = ::ams::os::GetSystemTick(); \
const auto result = (__EXPR__); \
const ::ams::os::Tick end = ::ams::os::GetSystemTick(); \
::ams::fs::impl::OutputAccessLogUnlessResultSuccess(result, start, end, name, nullptr, __VA_ARGS__); \
return result; \
} \
#define AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED_IMPL(__EXPR__, __ENABLED__, __NAME__, ...) \
[&](const char *name) { \
if (!(__ENABLED__)) { \
return (__EXPR__); \
} else { \
const ::ams::os::Tick start = ::ams::os::GetSystemTick(); \
const auto AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME = (__EXPR__); \
const ::ams::os::Tick end = ::ams::os::GetSystemTick(); \
::ams::fs::impl::OutputAccessLogUnlessResultSuccess(AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME, start, end, name, nullptr, __VA_ARGS__); \
return AMS_FS_IMPL_ACCESS_LOG_RESULT_NAME; \
} \
}(__NAME__)
@ -151,3 +194,13 @@ namespace ams::fs::impl {
#define AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(__EXPR__, ...) \
AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED_IMPL((__EXPR__), ::ams::fs::impl::IsEnabledAccessLog(), AMS_CURRENT_FUNCTION_NAME, __VA_ARGS__)
/* Specific utilities. */
#define AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(__EXPR__, __HANDLE__, __FILESYSTEM__, ...) \
AMS_FS_IMPL_ACCESS_LOG_IMPL((__EXPR__), __HANDLE__, ::ams::fs::impl::IsEnabledAccessLog() && (__FILESYSTEM__)->IsEnabledAccessLog(), AMS_CURRENT_FUNCTION_NAME, __VA_ARGS__)
#define AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM_WITH_NAME(__EXPR__, __HANDLE__, __FILESYSTEM__, __NAME__, ...) \
AMS_FS_IMPL_ACCESS_LOG_IMPL((__EXPR__), __HANDLE__, ::ams::fs::impl::IsEnabledAccessLog() && (__FILESYSTEM__)->IsEnabledAccessLog(), __NAME__, __VA_ARGS__)
#define AMS_FS_IMPL_ACCESS_LOG_UNMOUNT(__EXPR__, __MOUNT_NAME__, ...) \
AMS_FS_IMPL_ACCESS_LOG_IMPL((__EXPR__), nullptr, ::ams::fs::impl::IsEnabledAccessLog() && ::ams::fs::impl::IsEnabledFileSystemAccessorAccessLog(__MOUNT_NAME__), AMS_CURRENT_FUNCTION_NAME, __VA_ARGS__)

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@ -44,6 +44,13 @@ namespace ams::fs::impl {
AMS_FS_R_CHECK_ABORT_IMPL(__tmp_fs_result, true); \
})
#define AMS_FS_ABORT_UNLESS_WITH_RESULT(__EXPR__, __RESULT__) \
({ \
if (!(__EXPR__)) { \
AMS_FS_R_ABORT_UNLESS((__RESULT__)); \
} \
})
#define AMS_FS_R_THROW(__RESULT__) \
({ \
const ::ams::Result __tmp_fs_result = (__RESULT__); \

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@ -29,8 +29,8 @@ namespace ams::fs::impl {
FileAccessor::~FileAccessor() {
/* Ensure that all files are flushed. */
if (R_FAILED(this->write_result)) {
AMS_ABORT_UNLESS(this->write_state != WriteState::NeedsFlush);
if (R_SUCCEEDED(this->write_result)) {
AMS_FS_ABORT_UNLESS_WITH_RESULT(this->write_state != WriteState::NeedsFlush, fs::ResultNeedFlush());
}
this->impl.reset();
@ -40,6 +40,7 @@ namespace ams::fs::impl {
}
Result FileAccessor::ReadWithCacheAccessLog(size_t *out, s64 offset, void *buf, size_t size, const ReadOption &option, bool use_path_cache, bool use_data_cache) {
/* TODO */
AMS_ABORT();
}
@ -48,10 +49,12 @@ namespace ams::fs::impl {
}
Result FileAccessor::Read(size_t *out, s64 offset, void *buf, size_t size, const ReadOption &option) {
/* Fail after a write fails. */
R_TRY(this->write_result);
/* Get a handle to this file for use in logging. */
FileHandle handle = { this };
/* Fail after a write fails. */
R_UNLESS(R_SUCCEEDED(this->write_result), AMS_FS_IMPL_ACCESS_LOG_WITH_NAME(this->write_result, handle, "ReadFile", AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_FILE(out, offset, size)));
/* TODO: Logging. */
/* TODO: Support cache. */
const bool use_path_cache = this->parent != nullptr && this->file_path_hash != nullptr;
const bool use_data_cache = /* TODO */false && this->parent != nullptr && this->parent->IsFileDataCacheAttachable();
@ -60,7 +63,7 @@ namespace ams::fs::impl {
/* TODO */
return this->ReadWithCacheAccessLog(out, offset, buf, size, option, use_path_cache, use_data_cache);
} else {
return this->ReadWithoutCacheAccessLog(out, offset, buf, size, option);
return AMS_FS_IMPL_ACCESS_LOG_WITH_NAME(this->ReadWithoutCacheAccessLog(out, offset, buf, size, option), handle, "ReadFile", AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_FILE(out, offset, size));
}
}

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@ -120,49 +120,49 @@ namespace ams::fs::impl {
return impl::Find(out_accessor, mount_name.str);
}
Result Unmount(const char *name) {
impl::FileSystemAccessor *accessor;
R_TRY(impl::Find(std::addressof(accessor), name));
if (accessor->IsFileDataCacheAttachable()) {
/* TODO: Data cache purge */
}
impl::Unregister(name);
return ResultSuccess();
}
}
namespace ams::fs {
namespace {
Result UnmountImpl(const char *name) {
impl::FileSystemAccessor *accessor;
R_TRY(impl::Find(std::addressof(accessor), name));
if (accessor->IsFileDataCacheAttachable()) {
/* TODO: Data cache purge */
}
impl::Unregister(name);
return ResultSuccess();
}
}
Result ConvertToFsCommonPath(char *dst, size_t dst_size, const char *src) {
/* Ensure neither argument is nullptr. */
R_UNLESS(dst != nullptr, fs::ResultNullptrArgument());
R_UNLESS(src != nullptr, fs::ResultNullptrArgument());
AMS_FS_R_UNLESS(dst != nullptr, fs::ResultNullptrArgument());
AMS_FS_R_UNLESS(src != nullptr, fs::ResultNullptrArgument());
/* Get the mount name and sub path for the path. */
MountName mount_name;
const char *sub_path;
R_TRY(impl::GetMountNameAndSubPath(std::addressof(mount_name), std::addressof(sub_path), src));
AMS_FS_R_TRY(impl::GetMountNameAndSubPath(std::addressof(mount_name), std::addressof(sub_path), src));
impl::FileSystemAccessor *accessor;
R_TRY(impl::Find(std::addressof(accessor), mount_name.str));
R_TRY(accessor->GetCommonMountName(dst, dst_size));
AMS_FS_R_TRY(impl::Find(std::addressof(accessor), mount_name.str));
AMS_FS_R_TRY(accessor->GetCommonMountName(dst, dst_size));
const auto mount_name_len = strnlen(dst, dst_size);
const auto common_path_len = std::snprintf(dst + mount_name_len, dst_size - mount_name_len, "%s", sub_path);
R_UNLESS(static_cast<size_t>(common_path_len) < dst_size - mount_name_len, fs::ResultTooLongPath());
AMS_FS_R_UNLESS(static_cast<size_t>(common_path_len) < dst_size - mount_name_len, fs::ResultTooLongPath());
return ResultSuccess();
}
void Unmount(const char *mount_name) {
R_ABORT_UNLESS(UnmountImpl(mount_name));
AMS_FS_R_ABORT_UNLESS(AMS_FS_IMPL_ACCESS_LOG_UNMOUNT(impl::Unmount(mount_name), mount_name, AMS_FS_IMPL_ACCESS_LOG_FORMAT_MOUNT, mount_name));
}
}

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@ -24,6 +24,7 @@ namespace ams::fs::impl {
bool IsWindowsDrive(const char *name);
bool IsReservedMountName(const char *name);
bool IsValidMountName(const char *name);
Result CheckMountName(const char *name);
Result CheckMountNameAllowingReserved(const char *name);

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@ -28,15 +28,17 @@ namespace ams::fs {
}
Result ReadDirectory(s64 *out_count, DirectoryEntry *out_entries, DirectoryHandle handle, s64 max_entries) {
return Get(handle)->Read(out_count, out_entries, max_entries);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG(Get(handle)->Read(out_count, out_entries, max_entries), handle, AMS_FS_IMPL_ACCESS_LOG_FORMAT_READ_DIRECTORY(out_count, max_entries)));
return ResultSuccess();
}
Result GetDirectoryEntryCount(s64 *out, DirectoryHandle handle) {
return Get(handle)->GetEntryCount(out);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG(Get(handle)->GetEntryCount(out), handle, AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_DIRECTORY_ENTRY_COUNT(out)));
return ResultSuccess();
}
void CloseDirectory(DirectoryHandle handle) {
delete Get(handle);
AMS_FS_IMPL_ACCESS_LOG((delete Get(handle), ResultSuccess()), handle, AMS_FS_IMPL_ACCESS_LOG_FORMAT_NONE);
}
}

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@ -25,30 +25,39 @@ namespace ams::fs {
return reinterpret_cast<impl::FileAccessor *>(handle.handle);
}
Result ReadFileImpl(size_t *out, FileHandle handle, s64 offset, void *buffer, size_t size, const fs::ReadOption &option) {
R_TRY(Get(handle)->Read(out, offset, buffer, size, option));
return ResultSuccess();
}
}
Result ReadFile(FileHandle handle, s64 offset, void *buffer, size_t size, const fs::ReadOption &option) {
size_t read_size;
AMS_FS_R_TRY(ReadFile(std::addressof(read_size), handle, offset, buffer, size, option));
AMS_FS_R_TRY(ReadFileImpl(std::addressof(read_size), handle, offset, buffer, size, option));
AMS_FS_R_UNLESS(read_size == size, fs::ResultOutOfRange());
return ResultSuccess();
}
Result ReadFile(FileHandle handle, s64 offset, void *buffer, size_t size) {
return ReadFile(handle, offset, buffer, size, ReadOption());
size_t read_size;
AMS_FS_R_TRY(ReadFileImpl(std::addressof(read_size), handle, offset, buffer, size, ReadOption()));
AMS_FS_R_UNLESS(read_size == size, fs::ResultOutOfRange());
return ResultSuccess();
}
Result ReadFile(size_t *out, FileHandle handle, s64 offset, void *buffer, size_t size, const fs::ReadOption &option) {
AMS_FS_R_TRY(Get(handle)->Read(out, offset, buffer, size, option));
AMS_FS_R_TRY(ReadFileImpl(out, handle, offset, buffer, size, option));
return ResultSuccess();
}
Result ReadFile(size_t *out, FileHandle handle, s64 offset, void *buffer, size_t size) {
return ReadFile(out, handle, offset, buffer, size, ReadOption());
AMS_FS_R_TRY(ReadFileImpl(out, handle, offset, buffer, size, ReadOption()));
return ResultSuccess();
}
Result GetFileSize(s64 *out, FileHandle handle) {
AMS_FS_R_TRY(Get(handle)->GetSize(out));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG(Get(handle)->GetSize(out), handle, AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_FILE_SIZE(out)));
return ResultSuccess();
}
@ -68,7 +77,9 @@ namespace ams::fs {
}
int GetFileOpenMode(FileHandle handle) {
return Get(handle)->GetOpenMode();
const int mode = Get(handle)->GetOpenMode();
AMS_FS_IMPL_ACCESS_LOG(ResultSuccess(), handle, AMS_FS_IMPL_ACCESS_LOG_FORMAT_OPEN_MODE, static_cast<u32>(mode));
return mode;
}
void CloseFile(FileHandle handle) {

View file

@ -29,41 +29,46 @@ namespace ams::fs {
Result CreateFile(const char* path, s64 size, int option) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->CreateFile(sub_path, size, option);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->CreateFile(sub_path, size, option), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_SIZE, path, size));
return ResultSuccess();
}
Result DeleteFile(const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->DeleteFile(sub_path);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->DeleteFile(sub_path), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return ResultSuccess();
}
Result CreateDirectory(const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->CreateDirectory(sub_path);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->CreateDirectory(sub_path), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return ResultSuccess();
}
Result DeleteDirectory(const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->DeleteDirectory(sub_path);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->DeleteDirectory(sub_path), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return ResultSuccess();
}
Result DeleteDirectoryRecursively(const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->DeleteDirectoryRecursively(sub_path);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->DeleteDirectoryRecursively(sub_path), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return ResultSuccess();
}
Result RenameFile(const char *old_path, const char *new_path) {
@ -71,11 +76,17 @@ namespace ams::fs {
impl::FileSystemAccessor *new_accessor;
const char *old_sub_path;
const char *new_sub_path;
R_TRY(impl::FindFileSystem(std::addressof(old_accessor), std::addressof(old_sub_path), old_path));
R_TRY(impl::FindFileSystem(std::addressof(new_accessor), std::addressof(new_sub_path), new_path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(old_accessor), std::addressof(old_sub_path), old_path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME, old_path, new_path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(new_accessor), std::addressof(new_sub_path), new_path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME, old_path, new_path));
R_UNLESS(old_accessor == new_accessor, fs::ResultRenameToOtherFileSystem());
return old_accessor->RenameFile(old_sub_path, new_sub_path);
auto rename_impl = [=]() -> Result {
R_UNLESS(old_accessor == new_accessor, fs::ResultRenameToOtherFileSystem());
R_TRY(old_accessor->RenameFile(old_sub_path, new_sub_path));
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(rename_impl(), nullptr, old_accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME, old_path, new_path));
return ResultSuccess();
}
Result RenameDirectory(const char *old_path, const char *new_path) {
@ -83,30 +94,42 @@ namespace ams::fs {
impl::FileSystemAccessor *new_accessor;
const char *old_sub_path;
const char *new_sub_path;
R_TRY(impl::FindFileSystem(std::addressof(old_accessor), std::addressof(old_sub_path), old_path));
R_TRY(impl::FindFileSystem(std::addressof(new_accessor), std::addressof(new_sub_path), new_path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(old_accessor), std::addressof(old_sub_path), old_path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME, old_path, new_path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(new_accessor), std::addressof(new_sub_path), new_path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME, old_path, new_path));
R_UNLESS(old_accessor == new_accessor, fs::ResultRenameToOtherFileSystem());
return old_accessor->RenameDirectory(old_sub_path, new_sub_path);
auto rename_impl = [=]() -> Result {
R_UNLESS(old_accessor == new_accessor, fs::ResultRenameToOtherFileSystem());
R_TRY(old_accessor->RenameDirectory(old_sub_path, new_sub_path));
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(rename_impl(), nullptr, old_accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_RENAME, old_path, new_path));
return ResultSuccess();
}
Result GetEntryType(DirectoryEntryType *out, const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->GetEntryType(out, sub_path);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->GetEntryType(out, sub_path), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_ENTRY_TYPE(out, path)));
return ResultSuccess();
}
Result OpenFile(FileHandle *out_file, const char *path, int mode) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
R_UNLESS(out_file != nullptr, fs::ResultNullptrArgument());
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_OPEN_MODE, path, static_cast<u32>(mode)));
std::unique_ptr<impl::FileAccessor> file_accessor;
R_TRY(accessor->OpenFile(std::addressof(file_accessor), sub_path, static_cast<OpenMode>(mode)));
auto open_impl = [&]() -> Result {
R_UNLESS(out_file != nullptr, fs::ResultNullptrArgument());
R_TRY(accessor->OpenFile(std::addressof(file_accessor), sub_path, static_cast<OpenMode>(mode)));
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(open_impl(), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_OPEN_MODE, path, static_cast<u32>(mode)));
out_file->handle = file_accessor.release();
return ResultSuccess();
@ -115,12 +138,17 @@ namespace ams::fs {
Result OpenDirectory(DirectoryHandle *out_dir, const char *path, int mode) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
R_UNLESS(out_dir != nullptr, fs::ResultNullptrArgument());
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_OPEN_MODE, path, static_cast<u32>(mode)));
std::unique_ptr<impl::DirectoryAccessor> dir_accessor;
R_TRY(accessor->OpenDirectory(std::addressof(dir_accessor), sub_path, static_cast<OpenDirectoryMode>(mode)));
auto open_impl = [&]() -> Result {
R_UNLESS(out_dir != nullptr, fs::ResultNullptrArgument());
R_TRY(accessor->OpenDirectory(std::addressof(dir_accessor), sub_path, static_cast<OpenDirectoryMode>(mode)));
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(open_impl(), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH_AND_OPEN_MODE, path, static_cast<u32>(mode)));
out_dir->handle = dir_accessor.release();
return ResultSuccess();
@ -129,48 +157,86 @@ namespace ams::fs {
Result CleanDirectoryRecursively(const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->CleanDirectoryRecursively(sub_path);
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(accessor->CleanDirectoryRecursively(sub_path), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return ResultSuccess();
}
Result GetFreeSpaceSize(s64 *out, const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
const char *sub_path = nullptr;
return accessor->GetFreeSpaceSize(out, sub_path);
/* Get the accessor. */
auto find_impl = [&]() -> Result {
R_UNLESS(out != nullptr, fs::ResultNullptrArgument());
R_UNLESS(path != nullptr, fs::ResultNullptrArgument());
if (impl::IsValidMountName(path)) {
R_TRY(impl::Find(std::addressof(accessor), path));
} else {
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
}
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(find_impl(), AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_SPACE_SIZE(out, path)));
/* Get the space size. */
auto get_size_impl = [&]() -> Result {
R_UNLESS(sub_path == nullptr || std::strcmp(sub_path, "/") == 0, fs::ResultInvalidMountName());
R_TRY(accessor->GetFreeSpaceSize(out, path));
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(get_size_impl(), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_SPACE_SIZE(out, path)));
return ResultSuccess();
}
Result GetTotalSpaceSize(s64 *out, const char *path) {
/* NOTE: Nintendo does not do access logging here, and does not support mount-name instead of path. */
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
const char *sub_path = nullptr;
return accessor->GetTotalSpaceSize(out, sub_path);
/* Get the accessor. */
auto find_impl = [&]() -> Result {
R_UNLESS(out != nullptr, fs::ResultNullptrArgument());
R_UNLESS(path != nullptr, fs::ResultNullptrArgument());
if (impl::IsValidMountName(path)) {
R_TRY(impl::Find(std::addressof(accessor), path));
} else {
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
}
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(find_impl(), AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_SPACE_SIZE(out, path)));
/* Get the space size. */
auto get_size_impl = [&]() -> Result {
R_UNLESS(sub_path == nullptr || std::strcmp(sub_path, "/") == 0, fs::ResultInvalidMountName());
R_TRY(accessor->GetTotalSpaceSize(out, path));
return ResultSuccess();
};
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM(get_size_impl(), nullptr, accessor, AMS_FS_IMPL_ACCESS_LOG_FORMAT_GET_SPACE_SIZE(out, path)));
return ResultSuccess();
}
Result SetConcatenationFileAttribute(const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
AMS_FS_R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
return accessor->QueryEntry(nullptr, 0, nullptr, 0, fsa::QueryId::SetConcatenationFileAttribute, sub_path);
}
AMS_FS_R_TRY(accessor->QueryEntry(nullptr, 0, nullptr, 0, fsa::QueryId::SetConcatenationFileAttribute, sub_path));
Result GetFileTimeStampRaw(FileTimeStampRaw *out, const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
return accessor->GetFileTimeStampRaw(out, sub_path);
return ResultSuccess();
}
Result OpenFile(FileHandle *out, std::unique_ptr<fsa::IFile> &&file, int mode) {
R_UNLESS(out != nullptr, fs::ResultNullptrArgument());
AMS_FS_R_UNLESS(out != nullptr, fs::ResultNullptrArgument());
auto file_accessor = std::make_unique<impl::FileAccessor>(std::move(file), nullptr, static_cast<OpenMode>(mode));
R_UNLESS(file_accessor != nullptr, fs::ResultAllocationFailureInNew());
AMS_FS_R_UNLESS(file_accessor != nullptr, fs::ResultAllocationFailureInNew());
out->handle = file_accessor.release();
return ResultSuccess();
@ -178,22 +244,22 @@ namespace ams::fs {
namespace {
Result CommitImpl(const char *path) {
Result CommitImpl(const char *path, const char *func_name) {
impl::FileSystemAccessor *accessor;
R_TRY(impl::Find(std::addressof(accessor), path));
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_UNLESS_R_SUCCEEDED(impl::Find(std::addressof(accessor), path), AMS_FS_IMPL_ACCESS_LOG_FORMAT_PATH, path));
return accessor->Commit();
AMS_FS_R_TRY(AMS_FS_IMPL_ACCESS_LOG_FILESYSTEM_WITH_NAME(accessor->Commit(), nullptr, accessor, func_name, AMS_FS_IMPL_ACCESS_LOG_FORMAT_MOUNT, path));
return ResultSuccess();
}
}
Result Commit(const char *path) {
return CommitImpl(path);
return CommitImpl(path, AMS_CURRENT_FUNCTION_NAME);
}
Result CommitSaveData(const char *path) {
return CommitImpl(path);
return CommitImpl(path, AMS_CURRENT_FUNCTION_NAME);
}
}

View file

@ -0,0 +1,44 @@
/*
* Copyright (c) 2018-2020 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 <http://www.gnu.org/licenses/>.
*/
#include <stratosphere.hpp>
#include "fs_filesystem_accessor.hpp"
#include "fs_file_accessor.hpp"
#include "fs_directory_accessor.hpp"
#include "fs_mount_utils.hpp"
#include "fs_user_mount_table.hpp"
namespace ams::fs {
namespace impl {
Result GetFileTimeStampRawForDebug(FileTimeStampRaw *out, const char *path) {
impl::FileSystemAccessor *accessor;
const char *sub_path;
R_TRY(impl::FindFileSystem(std::addressof(accessor), std::addressof(sub_path), path));
R_TRY(accessor->GetFileTimeStampRaw(out, sub_path));
return ResultSuccess();
}
}
Result GetFileTimeStampRawForDebug(FileTimeStampRaw *out, const char *path) {
AMS_FS_R_TRY(GetFileTimeStampRawForDebug(out, path));
return ResultSuccess();
}
}

View file

@ -38,9 +38,6 @@ namespace ams::sf {
}
InlineContext GetInlineContext() {
/* Get current thread. */
os::ThreadType * const cur_thread = os::GetCurrentThread();
/* Get the context. */
uintptr_t thread_context = GetAtomicSfInlineContext()->load();
@ -62,7 +59,7 @@ namespace ams::sf {
std::memcpy(std::addressof(new_context_value), std::addressof(ctx), sizeof(ctx));
/* Get the old context. */
uintptr_t old_context_value = GetAtomicSfInlineContext()->exchange(new_context_value);
uintptr_t old_context_value = GetAtomicSfInlineContext(cur_thread)->exchange(new_context_value);
/* Convert and copy it out. */
InlineContext old_ctx;