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Atmosphere/libraries/libvapours/source/prfile2/prfile2_volume.cpp

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/*
* 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/>.
*/
#if defined(ATMOSPHERE_IS_STRATOSPHERE)
#include <stratosphere.hpp>
#elif defined(ATMOSPHERE_IS_MESOSPHERE)
#include <mesosphere.hpp>
#elif defined(ATMOSPHERE_IS_EXOSPHERE)
#include <exosphere.hpp>
#else
#include <vapours.hpp>
#endif
#include "prfile2_volume_set.hpp"
namespace ams::prfile2::vol {
/* Global volume context object. */
constinit VolumeContext g_vol_set;
namespace {
constexpr inline u32 CharacterCheckDisable = 0x10000;
constexpr inline u32 CharacterCheckEnable = 0x20000;
constexpr inline u32 CharacterCheckMask = CharacterCheckDisable | CharacterCheckEnable;
constexpr inline u32 VolumeSetConfigMask = 0x5FFFFFFF;
VolumeContext *GetVolumeContextById(u64 context_id) {
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Acquire exclusive access to the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
/* Find a matching context. */
for (auto *ctx = vol_set.used_context_head; ctx != nullptr; ctx = ctx->next_used_context) {
if (ctx->context_id == context_id) {
return ctx;
}
}
return nullptr;
}
VolumeContext *GetCurrentVolumeContext(u64 *out_context_id) {
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Acquire exclusive access to the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
/* Get the current context id. */
u64 context_id = 0;
system::GetCurrentContextId(std::addressof(context_id));
if (out_context_id != nullptr) {
*out_context_id = context_id;
}
if (auto *ctx = GetVolumeContextById(context_id); ctx != nullptr) {
return ctx;
} else {
return std::addressof(vol_set.default_context);
}
}
bool IsValidDriveCharacter(pf::DriveCharacter drive_char) {
return static_cast<u8>((drive_char & 0xDF) - 'A') < 26;
}
Volume *GetVolumeByDriveCharacter(pf::DriveCharacter drive_char) {
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Calculate the volume index. */
const auto index = std::toupper(static_cast<unsigned char>(drive_char)) - 'A';
/* Acquire exclusive access to the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
if (index < MaxVolumes) {
return std::addressof(vol_set.volumes[index]);
} else {
return nullptr;
}
}
}
pf::Error Initialize(u32 config, void *param) {
/* Check the input config. */
if ((config & ~CharacterCheckMask) != 0) {
return pf::Error_InvalidParameter;
}
if ((config & CharacterCheckMask) == CharacterCheckMask) {
return pf::Error_InvalidParameter;
}
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Clear the default volume context. */
std::memset(std::addressof(vol_set.default_context), 0, sizeof(VolumeContext));
vol_set.default_context.volume_id = 0;
/* Setup the context lists. */
vol_set.used_context_head = nullptr;
vol_set.used_context_tail = nullptr;
vol_set.free_context_head = vol_set.contexts;
for (auto i = 0; i < MaxVolumes - 1; ++i) {
vol_set.contexts[i].next_free_context = std::addressof(vol_set.contexts[i + 1]);
}
vol_set.contexts[MaxVolumes - 1].next_free_context = nullptr;
/* Set the setting. */
vol_set.setting = 1;
/* Set the config. */
if ((config & CharacterCheckEnable) != 0) {
vol_set.config |= CharacterCheckDisable;
} else {
vol_set.config &= ~CharacterCheckDisable;
}
vol_set.config &= VolumeSetConfigMask;
/* Clear number of attached drives/volumes. */
vol_set.num_attached_drives = 0;
vol_set.num_mounted_volumes = 0;
/* Set the parameter. */
vol_set.param = param;
/* Set the codeset. */
/* TODO */
/* Clear the volumes. */
for (auto &volume : vol_set.volumes) {
std::memset(std::addressof(volume), 0, sizeof(volume));
}
/* Initialize the volume set critical section. */
InitializeCriticalSection(std::addressof(vol_set.critical_section));
/* NOTE: Here "InitLockFile()" is called, but this doesn't seem used so far. TODO: Add if used? */
/* Mark initialized. */
vol_set.initialized = true;
return pf::Error_Ok;
}
pf::Error Attach(pf::DriveTable *drive_table) {
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Get the volume context for error tracking. */
u64 context_id = 0;
auto *vol_ctx = GetCurrentVolumeContext(std::addressof(context_id));
auto SetLastErrorAndReturn = [&] ALWAYS_INLINE_LAMBDA (pf::Error err) -> pf::Error { vol_ctx->last_error = err; return err; };
/* Check the drive table. */
if (drive_table == nullptr) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
/* Clear the drive table's character/status. */
const auto drive_char = drive_table->drive_char;
drive_table->drive_char = 0;
drive_table->status = 0;
/* Check that we can attach. */
if (vol_set.num_attached_drives >= MaxVolumes) {
return SetLastErrorAndReturn(pf::Error_TooManyVolumesAttached);
}
/* Check the cache setting. */
auto *cache_setting = drive_table->cache;
if (cache_setting == nullptr) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (cache_setting->fat_buf_size > MaximumFatBufferSize) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (cache_setting->data_buf_size > MaximumDataBufferSize) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (cache_setting->num_fat_pages < MinimumFatPages) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (cache_setting->num_data_pages < MinimumDataPages) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (cache_setting->pages == nullptr) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (cache_setting->buffers == nullptr) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (!util::IsAligned(reinterpret_cast<uintptr_t>(cache_setting->pages), alignof(u32))) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (!util::IsAligned(reinterpret_cast<uintptr_t>(cache_setting->buffers), alignof(u32))) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
/* Adjust the cache setting. */
cache_setting->fat_buf_size = std::max<u32>(cache_setting->fat_buf_size, MinimumFatBufferSize);
cache_setting->data_buf_size = std::max<u32>(cache_setting->data_buf_size, MinimumDataBufferSize);
/* Check the adjusted setting. */
if (cache_setting->fat_buf_size > cache_setting->num_fat_pages) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if ((cache_setting->num_data_pages / cache_setting->data_buf_size) < MinimumDataPages) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
/* Validate the drive character. */
if (drive_char != 0) {
if (!IsValidDriveCharacter(drive_char)) {
return SetLastErrorAndReturn(pf::Error_InvalidParameter);
}
if (auto *vol = GetVolumeByDriveCharacter(drive_char); vol == nullptr || vol->IsAttached()) {
return SetLastErrorAndReturn(pf::Error_InvalidVolumeLabel);
}
}
/* Perform the bulk of the attach. */
Volume *vol = nullptr;
{
/* Lock the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
/* Find a free volume. */
for (auto &v : vol_set.volumes) {
if (!v.IsAttached()) {
vol = std::addressof(v);
break;
}
}
if (vol == nullptr) {
return SetLastErrorAndReturn(pf::Error_TooManyVolumesAttached);
}
const auto vol_id = vol - vol_set.volumes;
/* Clear the volume. */
std::memset(vol, 0, sizeof(*vol));
/* Initialize the volume. */
vol->num_free_clusters = InvalidCluster;
vol->num_free_clusters_ = InvalidCluster;
vol->last_free_cluster = InvalidCluster;
vol->partition_handle = drive_table->partition_handle;
InitializeCriticalSection(std::addressof(vol->critical_section));
vol->drive_char = 'A' + vol_id;
/* Setup directory tail. */
vol->tail_entry.tracker_size = util::size(vol->tail_entry.tracker_buf);
vol->tail_entry.tracker_bits = vol->tail_entry.tracker_buf;
/* Initialize driver for volume. */
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if (auto err = drv::Initialize(vol); err != pf::Error_Ok) {
return SetLastErrorAndReturn(err);
}
/* Setup the cache. */
/* TODO: cache::SetCache(vol, drive_table->cache->pages, drive_table->cache->buffers, drive_table->cache->num_fat_pages, drive_table->cache->num_data_pages); */
/* TODO: cache::SetFatBufferSize(vol, drive_table->cache->fat_buf_size); */
/* TODO: cache::SetDataBufferSize(vol, drive_table->cache->data_buf_size); */
/* Set flags. */
vol->SetAttached(true);
vol->SetFlag12(true);
/* Update the drive table. */
drive_table->SetAttached(true);
drive_table->drive_char = vol->drive_char;
/* Update the number of attached drives. */
if ((vol_set.num_attached_drives++) == 0) {
vol_set.default_context.volume_id = vol_id;
}
}
/* Acquire exclusive access to the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
/* Associate the volume to our context while we operate on it. */
vol->context = vol_ctx;
vol->context_id = context_id;
ON_SCOPE_EXIT { vol->context_id = 0; };
/* TODO: Copy volume root dir entry to all contexts. */
/* TODO: Clear tracking fields at the end of the volume. */
/* Perform mount as appropriate. */
const auto check_mount_err = /* TODO vol::CheckMediaInsertForAttachMount(vol) */ pf::Error_Ok;
const bool inserted = /* TODO: drv::IsInserted(vol) */ false;
if (check_mount_err != pf::Error_Ok) {
if (inserted) {
drive_table->SetDiskInserted(true);
}
vol_ctx->last_error = check_mount_err;
} else if (inserted) {
drive_table->SetDiskInserted(true);
if (auto mount_err = /* TODO vol::MountImpl(vol, 0x1B, false) */pf::Error_InternalError; mount_err != pf::Error_Ok) {
vol_ctx->last_error = mount_err;
} else {
drive_table->SetMounted(true);
}
}
return pf::Error_Ok;
}
VolumeContext *RegisterContext(u64 *out_context_id) {
/* Get the current context id. */
u64 context_id = 0;
system::GetCurrentContextId(std::addressof(context_id));
if (out_context_id != nullptr) {
*out_context_id = context_id;
}
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Acquire exclusive access to the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
/* Get the volume context by ID. If we already have a context, return it. */
if (VolumeContext *match = GetVolumeContextById(context_id); match != nullptr) {
return match;
}
/* Try to find a free context in the list. */
VolumeContext *ctx = vol_set.free_context_head;
if (ctx == nullptr) {
vol_set.default_context.last_error = pf::Error_InternalError;
return nullptr;
}
/* Update the free lists. */
vol_set.free_context_head = ctx->next_free_context;
if (VolumeContext *next = vol_set.used_context_head; next != nullptr) {
next->prev_used_context = ctx;
ctx->next_used_context = next;
ctx->prev_used_context = nullptr;
vol_set.used_context_head = ctx;
} else {
ctx->next_used_context = nullptr;
ctx->prev_used_context = nullptr;
vol_set.used_context_head = ctx;
vol_set.used_context_tail = ctx;
}
/* Set the context's fields. */
ctx->context_id = context_id;
ctx->last_error = pf::Error_Ok;
for (auto i = 0; i < MaxVolumes; ++i) {
ctx->last_driver_error[i] = pf::Error_Ok;
ctx->last_unk_error[i] = pf::Error_Ok;
}
/* Copy from the default context. */
const auto volume_id = vol_set.default_context.volume_id;
ctx->volume_id = volume_id;
ctx->dir_entries[volume_id] = vol_set.default_context.dir_entries[volume_id];
return ctx;
}
pf::Error UnregisterContext() {
/* Get the current context id. */
u64 context_id = 0;
system::GetCurrentContextId(std::addressof(context_id));
/* Get the volume set. */
auto &vol_set = GetVolumeSet();
/* Acquire exclusive access to the volume set. */
ScopedCriticalSection lk(vol_set.critical_section);
/* Get the volume context by ID. */
VolumeContext *ctx = GetVolumeContextById(context_id);
if (ctx == nullptr) {
vol_set.default_context.last_error = pf::Error_InternalError;
return pf::Error_InternalError;
}
/* Update the lists. */
auto *prev_used = ctx->prev_used_context;
auto *next_used = ctx->next_used_context;
if (prev_used != nullptr) {
if (next_used != nullptr) {
prev_used->next_used_context = next_used;
next_used->prev_used_context = prev_used;
} else {
prev_used->next_used_context = nullptr;
vol_set.used_context_tail = prev_used;
}
} else if (next_used != nullptr) {
next_used->prev_used_context = nullptr;
vol_set.used_context_head = next_used;
} else {
vol_set.used_context_head = nullptr;
vol_set.used_context_tail = nullptr;
}
ctx->next_used_context = nullptr;
ctx->next_free_context = vol_set.free_context_head;
vol_set.free_context_head = ctx;
return pf::Error_Ok;
}
}