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Modify: use pure tree structure in file system scheme

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HFO4
2019-12-07 19:47:22 +08:00
parent 10a2ef4267
commit 56b1ae9f31
13 changed files with 1728 additions and 1620 deletions
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336
pkg/filesystem/manage.go Normal file
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package filesystem
import (
"context"
"fmt"
model "github.com/HFO4/cloudreve/models"
"github.com/HFO4/cloudreve/pkg/serializer"
"github.com/HFO4/cloudreve/pkg/util"
"path"
)
/* =================
文件/目录管理
=================
*/
// Object 文件或者目录
type Object struct {
ID uint `json:"id"`
Name string `json:"name"`
Path string `json:"path"`
Pic string `json:"pic"`
Size uint64 `json:"size"`
Type string `json:"type"`
Date string `json:"date"`
}
// Rename 重命名对象
func (fs *FileSystem) Rename(ctx context.Context, src, new string) (err error) {
// 验证新名字
if !fs.ValidateLegalName(ctx, new) || !fs.ValidateExtension(ctx, new) {
return ErrIllegalObjectName
}
// 如果源对象是文件
fileExist, file := fs.IsFileExist(src)
if fileExist {
err = file.Rename(new)
return err
}
// 源对象是目录
folderExist, folder := fs.IsPathExist(src)
if folderExist {
err = folder.Rename(new)
return err
}
return ErrPathNotExist
}
// Copy 复制src目录下的文件或目录到dst
// 暂时只支持单文件
func (fs *FileSystem) Copy(ctx context.Context, dirs, files []uint, src, dst string) error {
// 获取目的目录
isDstExist, dstFolder := fs.IsPathExist(dst)
isSrcExist, srcFolder := fs.IsPathExist(src)
// 不存在时返回空的结果
if !isDstExist || !isSrcExist {
return ErrPathNotExist
}
// 记录复制的文件的总容量
var newUsedStorage uint64
// 复制目录
if len(dirs) > 0 {
subFileSizes, err := srcFolder.CopyFolderTo(dirs[0], dstFolder)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
newUsedStorage += subFileSizes
}
// 复制文件
if len(files) > 0 {
subFileSizes, err := srcFolder.MoveOrCopyFileTo(files, dstFolder, true)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
newUsedStorage += subFileSizes
}
// 扣除容量
fs.User.IncreaseStorageWithoutCheck(newUsedStorage)
return nil
}
// Move 移动文件和目录
func (fs *FileSystem) Move(ctx context.Context, dirs, files []uint, src, dst string) error {
// 获取目的目录
isDstExist, dstFolder := fs.IsPathExist(dst)
isSrcExist, srcFolder := fs.IsPathExist(src)
// 不存在时返回空的结果
if !isDstExist || !isSrcExist {
return ErrPathNotExist
}
// 处理目录及子文件移动
err := srcFolder.MoveFolderTo(dirs, dstFolder)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
// 处理文件移动
_, err = srcFolder.MoveOrCopyFileTo(files, dstFolder, false)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
// 移动文件
return err
}
// Delete 递归删除对象
func (fs *FileSystem) Delete(ctx context.Context, dirs, files []uint) error {
// 已删除的总容量,map用于去重
var deletedStorage = make(map[uint]uint64)
// 已删除的文件ID
var deletedFileIDs = make([]uint, 0, len(fs.FileTarget))
// 删除失败的文件的父目录ID
// 所有文件的ID
var allFileIDs = make([]uint, 0, len(fs.FileTarget))
// 列出要删除的目录
if len(dirs) > 0 {
err := fs.ListDeleteDirs(ctx, dirs)
if err != nil {
return err
}
}
// 列出要删除的文件
if len(files) > 0 {
err := fs.ListDeleteFiles(ctx, files)
if err != nil {
return err
}
}
// 去除待删除文件中包含软连接的部分
filesToBeDelete, err := model.RemoveFilesWithSoftLinks(fs.FileTarget)
if err != nil {
return ErrDBListObjects.WithError(err)
}
// 根据存储策略将文件分组
policyGroup := fs.GroupFileByPolicy(ctx, filesToBeDelete)
// 按照存储策略分组删除对象
failed := fs.deleteGroupedFile(ctx, policyGroup)
for i := 0; i < len(fs.FileTarget); i++ {
if util.ContainsString(failed[fs.FileTarget[i].PolicyID], fs.FileTarget[i].SourceName) {
// TODO 删除失败时不删除文件记录及父目录
} else {
deletedFileIDs = append(deletedFileIDs, fs.FileTarget[i].ID)
}
deletedStorage[fs.FileTarget[i].ID] = fs.FileTarget[i].Size
allFileIDs = append(allFileIDs, fs.FileTarget[i].ID)
}
// 删除文件记录
err = model.DeleteFileByIDs(allFileIDs)
if err != nil {
return ErrDBDeleteObjects.WithError(err)
}
// 归还容量
var total uint64
for _, value := range deletedStorage {
total += value
}
fs.User.DeductionStorage(total)
// 删除目录
var allFolderIDs = make([]uint, 0, len(fs.DirTarget))
for _, value := range fs.DirTarget {
allFolderIDs = append(allFolderIDs, value.ID)
}
err = model.DeleteFolderByIDs(allFolderIDs)
if err != nil {
return ErrDBDeleteObjects.WithError(err)
}
if notDeleted := len(fs.FileTarget) - len(deletedFileIDs); notDeleted > 0 {
return serializer.NewError(
serializer.CodeNotFullySuccess,
fmt.Sprintf("有 %d 个文件未能成功删除,已删除它们的文件记录", notDeleted),
nil,
)
}
return nil
}
// ListDeleteDirs 递归列出要删除目录,及目录下所有文件
func (fs *FileSystem) ListDeleteDirs(ctx context.Context, ids []uint) error {
// 列出所有递归子目录
folders, err := model.GetRecursiveChildFolder(ids, fs.User.ID, true)
if err != nil {
return ErrDBListObjects.WithError(err)
}
fs.SetTargetDir(&folders)
// 检索目录下的子文件
files, err := model.GetChildFilesOfFolders(&folders)
if err != nil {
return ErrDBListObjects.WithError(err)
}
fs.SetTargetFile(&files)
return nil
}
// ListDeleteFiles 根据给定的路径列出要删除的文件
func (fs *FileSystem) ListDeleteFiles(ctx context.Context, ids []uint) error {
files, err := model.GetFilesByIDs(ids, fs.User.ID)
if err != nil {
return ErrDBListObjects.WithError(err)
}
fs.SetTargetFile(&files)
return nil
}
// List 列出路径下的内容,
// pathProcessor为最终对象路径的处理钩子。
// 有些情况下(如在分享页面列对象)时,
// 路径需要截取掉被分享目录路径之前的部分。
func (fs *FileSystem) List(ctx context.Context, dirPath string, pathProcessor func(string) string) ([]Object, error) {
// 获取父目录
isExist, folder := fs.IsPathExist(dirPath)
// 不存在时返回空的结果
if !isExist {
return []Object{}, nil
}
var parentPath = path.Join(folder.PositionTemp, folder.Name)
var childFolders []model.Folder
var childFiles []model.File
// 获取子目录
childFolders, _ = folder.GetChildFolder()
// 获取子文件
childFiles, _ = folder.GetChildFiles()
// 汇总处理结果
objects := make([]Object, 0, len(childFiles)+len(childFolders))
// 所有对象的父目录
var processedPath string
for _, subFolder := range childFolders {
// 路径处理钩子,
// 所有对象父目录都是一样的,所以只处理一次
if processedPath == "" {
if pathProcessor != nil {
processedPath = pathProcessor(parentPath)
} else {
processedPath = parentPath
}
}
objects = append(objects, Object{
ID: subFolder.ID,
Name: subFolder.Name,
Path: processedPath,
Pic: "",
Size: 0,
Type: "dir",
Date: subFolder.CreatedAt.Format("2006-01-02 15:04:05"),
})
}
for _, file := range childFiles {
if processedPath == "" {
if pathProcessor != nil {
processedPath = pathProcessor(parentPath)
} else {
processedPath = parentPath
}
}
objects = append(objects, Object{
ID: file.ID,
Name: file.Name,
Path: processedPath,
Pic: file.PicInfo,
Size: file.Size,
Type: "file",
Date: file.CreatedAt.Format("2006-01-02 15:04:05"),
})
}
return objects, nil
}
// CreateDirectory 根据给定的完整创建目录,不会递归创建
func (fs *FileSystem) CreateDirectory(ctx context.Context, fullPath string) error {
// 获取要创建目录的父路径和目录名
fullPath = path.Clean(fullPath)
base := path.Dir(fullPath)
dir := path.Base(fullPath)
// 检查目录名是否合法
if !fs.ValidateLegalName(ctx, dir) {
return ErrIllegalObjectName
}
// 父目录是否存在
isExist, parent := fs.IsPathExist(base)
if !isExist {
return ErrPathNotExist
}
// 是否有同名文件
if ok, _ := fs.IsChildFileExist(parent, dir); ok {
return ErrFileExisted
}
// 创建目录
newFolder := model.Folder{
Name: dir,
ParentID: parent.ID,
OwnerID: fs.User.ID,
}
_, err := newFolder.Create()
if err != nil {
return ErrFolderExisted
}
return nil
}

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pkg/filesystem/manage_test.go Normal file
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package filesystem
import (
"context"
"errors"
"github.com/DATA-DOG/go-sqlmock"
model "github.com/HFO4/cloudreve/models"
"github.com/HFO4/cloudreve/pkg/conf"
"github.com/HFO4/cloudreve/pkg/serializer"
"github.com/jinzhu/gorm"
"github.com/stretchr/testify/assert"
"os"
"testing"
)
func TestFileSystem_List(t *testing.T) {
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
ctx := context.Background()
// 成功,子目录包含文件和路径,不使用路径处理钩子
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(1, "/", 1))
// folder
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "folder").
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(5, "folder", 1))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(6, "sub_folder1").AddRow(7, "sub_folder2"))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(6, "sub_file1.txt").AddRow(7, "sub_file2.txt"))
objects, err := fs.List(ctx, "/folder", nil)
asserts.Len(objects, 4)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
// 成功,子目录包含文件和路径,使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(1, "/", 1))
// folder
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "folder").
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(2, "folder", 1))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "position"}).AddRow(6, "sub_folder1", "/folder").AddRow(7, "sub_folder2", "/folder"))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "dir"}).AddRow(6, "sub_file1.txt", "/folder").AddRow(7, "sub_file2.txt", "/folder"))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 4)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
for _, value := range objects {
asserts.Contains(value.Path, "prefix/")
}
// 成功,子目录包含路径,使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(1, "/", 1))
// folder
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "folder").
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(2, "folder", 1))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "position"}))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "dir"}).AddRow(6, "sub_file1.txt", "/folder").AddRow(7, "sub_file2.txt", "/folder"))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 2)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
for _, value := range objects {
asserts.Contains(value.Path, "prefix/")
}
// 成功,子目录下为空,使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(1, "/", 1))
// folder
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "folder").
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(2, "folder", 1))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "position"}))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "dir"}))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 0)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
// 成功,子目录路径不存在
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}).AddRow(1, "/", 1))
// folder
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "folder").
WillReturnRows(sqlmock.NewRows([]string{"id", "name", "owner_id"}))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 0)
asserts.NoError(mock.ExpectationsWereMet())
}
func TestFileSystem_CreateDirectory(t *testing.T) {
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
ctx := context.Background()
// 目录名非法
err := fs.CreateDirectory(ctx, "/ad/a+?")
asserts.Equal(ErrIllegalObjectName, err)
// 父目录不存在
mock.ExpectQuery("SELECT(.+)folders").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.Equal(ErrPathNotExist, err)
asserts.NoError(mock.ExpectationsWereMet())
// 存在同名文件
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(1, 1))
// ad
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "ad").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(2, 1))
mock.ExpectQuery("SELECT(.+)files").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "ab"))
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.Equal(ErrFileExisted, err)
asserts.NoError(mock.ExpectationsWereMet())
// 存在同名目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(1, 1))
// ad
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "ad").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(2, 1))
mock.ExpectQuery("SELECT(.+)files").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
mock.ExpectBegin()
mock.ExpectExec("INSERT(.+)").WillReturnError(errors.New("s"))
mock.ExpectRollback()
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.Error(err)
asserts.NoError(mock.ExpectationsWereMet())
// 成功创建
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(1, 1))
// ad
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "ad").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(2, 1))
mock.ExpectQuery("SELECT(.+)files").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
mock.ExpectBegin()
mock.ExpectExec("INSERT(.+)").WillReturnResult(sqlmock.NewResult(1, 1))
mock.ExpectCommit()
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
}
func TestFileSystem_ListDeleteFiles(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
// 成功
{
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "1.txt").AddRow(2, "2.txt"))
err := fs.ListDeleteFiles(context.Background(), []uint{1})
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
}
// 失败
{
mock.ExpectQuery("SELECT(.+)").WillReturnError(errors.New("error"))
err := fs.ListDeleteFiles(context.Background(), []uint{1})
asserts.Error(err)
asserts.Equal(serializer.CodeDBError, err.(serializer.AppError).Code)
asserts.NoError(mock.ExpectationsWereMet())
}
}
func TestFileSystem_ListDeleteDirs(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
// 成功
{
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnRows(
sqlmock.NewRows([]string{"id", "name"}).
AddRow(4, "1.txt").
AddRow(5, "2.txt").
AddRow(6, "3.txt"),
)
err := fs.ListDeleteDirs(context.Background(), []uint{1})
asserts.NoError(err)
asserts.Len(fs.FileTarget, 3)
asserts.Len(fs.DirTarget, 3)
asserts.NoError(mock.ExpectationsWereMet())
}
// 检索文件发生错误
{
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnError(errors.New("error"))
err := fs.ListDeleteDirs(context.Background(), []uint{1})
asserts.Error(err)
asserts.Len(fs.DirTarget, 6)
asserts.NoError(mock.ExpectationsWereMet())
}
// 检索目录发生错误
{
mock.ExpectQuery("SELECT(.+)").
WillReturnError(errors.New("error"))
err := fs.ListDeleteDirs(context.Background(), []uint{1})
asserts.Error(err)
asserts.NoError(mock.ExpectationsWereMet())
}
}
func TestFileSystem_Delete(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
Storage: 3,
Group: model.Group{MaxStorage: 3},
}}
ctx := context.Background()
// 全部未成功
{
// 列出要删除的目录
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnRows(
sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).
AddRow(4, "1.txt", "1.txt", 2, 1),
)
// 查询顶级的文件
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).AddRow(1, "1.txt", "1.txt", 1, 2))
mock.ExpectQuery("SELECT(.+)files(.+)").
WillReturnRows(sqlmock.NewRows([]string{"id", "policy_id", "source_name"}))
// 查询上传策略
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
// 删除文件记录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)files").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 归还容量
mock.ExpectBegin()
mock.ExpectExec("UPDATE(.+)users").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 删除目录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)folders").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
err := fs.Delete(ctx, []uint{1}, []uint{1})
asserts.Error(err)
asserts.Equal(203, err.(serializer.AppError).Code)
asserts.Equal(uint64(0), fs.User.Storage)
}
// 全部成功
{
file, err := os.Create("1.txt")
file2, err := os.Create("2.txt")
file.Close()
file2.Close()
asserts.NoError(err)
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnRows(
sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).
AddRow(4, "1.txt", "1.txt", 2, 1),
)
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).AddRow(1, "2.txt", "2.txt", 1, 2))
mock.ExpectQuery("SELECT(.+)files(.+)").
WillReturnRows(sqlmock.NewRows([]string{"id", "policy_id", "source_name"}))
// 查询上传策略
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
// 删除文件记录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 归还容量
mock.ExpectBegin()
mock.ExpectExec("UPDATE(.+)").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 删除目录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
fs.FileTarget = []model.File{}
fs.DirTarget = []model.Folder{}
err = fs.Delete(ctx, []uint{1}, []uint{1})
asserts.NoError(err)
asserts.Equal(uint64(0), fs.User.Storage)
}
}
func TestFileSystem_Copy(t *testing.T) {
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
Storage: 3,
Group: model.Group{MaxStorage: 3},
}}
ctx := context.Background()
// 目录不存在
{
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/dst").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/src").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
err := fs.Copy(ctx, []string{}, []string{}, "/src", "/dst")
asserts.Equal(ErrPathNotExist, err)
asserts.NoError(mock.ExpectationsWereMet())
}
// 复制目录出错
{
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/src").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/dst").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
err := fs.Copy(ctx, []string{"test"}, []string{}, "/src", "/dst")
asserts.Error(err)
}
}
func TestFileSystem_Move(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
Storage: 3,
Group: model.Group{MaxStorage: 3},
}}
ctx := context.Background()
// 目录不存在
{
mock.ExpectQuery("SELECT(.+)").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
err := fs.Move(ctx, []string{}, []string{}, "/src", "/dst")
asserts.Equal(ErrPathNotExist, err)
asserts.NoError(mock.ExpectationsWereMet())
}
// 移动目录出错
{
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/src").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/dst").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
err := fs.Move(ctx, []string{"test"}, []string{}, "/src", "/dst")
asserts.Error(err)
}
}

371
pkg/filesystem/path.go
View File

@@ -1,13 +1,9 @@
package filesystem
import (
"context"
"fmt"
model "github.com/HFO4/cloudreve/models"
"github.com/HFO4/cloudreve/pkg/serializer"
"github.com/HFO4/cloudreve/pkg/util"
"path"
"sync"
)
/* =================
@@ -15,335 +11,34 @@ import (
=================
*/
// Object 文件或者目录
type Object struct {
ID uint `json:"id"`
Name string `json:"name"`
Path string `json:"path"`
Pic string `json:"pic"`
Size uint64 `json:"size"`
Type string `json:"type"`
Date string `json:"date"`
}
// Rename 重命名对象
func (fs *FileSystem) Rename(ctx context.Context, src, new string) (err error) {
// 验证新名字
if !fs.ValidateLegalName(ctx, new) || !fs.ValidateExtension(ctx, new) {
return ErrIllegalObjectName
}
// 如果源对象是文件
fileExist, file := fs.IsFileExist(src)
if fileExist {
err = file.Rename(new)
return err
}
// 源对象是目录
folderExist, folder := fs.IsPathExist(src)
if folderExist {
err = folder.Rename(new)
return err
}
return ErrPathNotExist
}
// Copy 复制src目录下的文件或目录到dst
func (fs *FileSystem) Copy(ctx context.Context, dirs, files []string, src, dst string) error {
// 获取目的目录
isDstExist, dstFolder := fs.IsPathExist(dst)
isSrcExist, srcFolder := fs.IsPathExist(src)
// 不存在时返回空的结果
if !isDstExist || !isSrcExist {
return ErrPathNotExist
}
// 记录复制的文件的总容量
var newUsedStorage uint64
// 复制目录
if len(dirs) > 0 {
subFileSizes, err := srcFolder.MoveOrCopyFolderTo(dirs, dstFolder, true)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
newUsedStorage += subFileSizes
}
// 复制文件
if len(files) > 0 {
subFileSizes, err := srcFolder.MoveOrCopyFileTo(files, dstFolder, true)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
newUsedStorage += subFileSizes
}
// 扣除容量
fs.User.IncreaseStorageWithoutCheck(newUsedStorage)
return nil
}
// Move 移动文件和目录
func (fs *FileSystem) Move(ctx context.Context, dirs, files []string, src, dst string) error {
// 获取目的目录
isDstExist, dstFolder := fs.IsPathExist(dst)
isSrcExist, srcFolder := fs.IsPathExist(src)
// 不存在时返回空的结果
if !isDstExist || !isSrcExist {
return ErrPathNotExist
}
// 处理目录及子文件移动
_, err := srcFolder.MoveOrCopyFolderTo(dirs, dstFolder, false)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
// 处理文件移动
_, err = srcFolder.MoveOrCopyFileTo(files, dstFolder, false)
if err != nil {
return serializer.NewError(serializer.CodeDBError, "操作失败,可能有重名冲突", err)
}
// 移动文件
return err
}
// Delete 递归删除对象
func (fs *FileSystem) Delete(ctx context.Context, dirs, files []string) error {
// 已删除的总容量,map用于去重
var deletedStorage = make(map[uint]uint64)
// 已删除的文件ID
var deletedFileIDs = make([]uint, 0, len(fs.FileTarget))
// 删除失败的文件的父目录ID
// 所有文件的ID
var allFileIDs = make([]uint, 0, len(fs.FileTarget))
// 列出要删除的目录
if len(dirs) > 0 {
err := fs.ListDeleteDirs(ctx, dirs)
if err != nil {
return err
}
}
// 列出要删除的文件
if len(files) > 0 {
err := fs.ListDeleteFiles(ctx, files)
if err != nil {
return err
}
}
// 去除待删除文件中包含软连接的部分
filesToBeDelete, err := model.RemoveFilesWithSoftLinks(fs.FileTarget)
if err != nil {
return ErrDBListObjects.WithError(err)
}
// 根据存储策略将文件分组
policyGroup := fs.GroupFileByPolicy(ctx, filesToBeDelete)
// 按照存储策略分组删除对象
failed := fs.deleteGroupedFile(ctx, policyGroup)
for i := 0; i < len(fs.FileTarget); i++ {
if util.ContainsString(failed[fs.FileTarget[i].PolicyID], fs.FileTarget[i].SourceName) {
// TODO 删除失败时不删除文件记录及父目录
} else {
deletedFileIDs = append(deletedFileIDs, fs.FileTarget[i].ID)
}
deletedStorage[fs.FileTarget[i].ID] = fs.FileTarget[i].Size
allFileIDs = append(allFileIDs, fs.FileTarget[i].ID)
}
// 删除文件记录
err = model.DeleteFileByIDs(allFileIDs)
if err != nil {
return ErrDBDeleteObjects.WithError(err)
}
// 归还容量
var total uint64
for _, value := range deletedStorage {
total += value
}
fs.User.DeductionStorage(total)
// 删除目录
var allFolderIDs = make([]uint, 0, len(fs.DirTarget))
for _, value := range fs.DirTarget {
allFolderIDs = append(allFolderIDs, value.ID)
}
err = model.DeleteFolderByIDs(allFolderIDs)
if err != nil {
return ErrDBDeleteObjects.WithError(err)
}
if notDeleted := len(fs.FileTarget) - len(deletedFileIDs); notDeleted > 0 {
return serializer.NewError(serializer.CodeNotFullySuccess, fmt.Sprintf("有 %d 个文件未能成功删除,已删除它们的文件记录", notDeleted), nil)
}
return nil
}
// ListDeleteDirs 递归列出要删除目录,及目录下所有文件
func (fs *FileSystem) ListDeleteDirs(ctx context.Context, dirs []string) error {
// 列出所有递归子目录
folders, err := model.GetRecursiveChildFolder(dirs, fs.User.ID, true)
if err != nil {
return ErrDBListObjects.WithError(err)
}
fs.SetTargetDir(&folders)
// 检索目录下的子文件
files, err := model.GetChildFilesOfFolders(&folders)
if err != nil {
return ErrDBListObjects.WithError(err)
}
fs.SetTargetFile(&files)
return nil
}
// ListDeleteFiles 根据给定的路径列出要删除的文件
func (fs *FileSystem) ListDeleteFiles(ctx context.Context, paths []string) error {
files, err := model.GetFileByPaths(paths, fs.User.ID)
if err != nil {
return ErrDBListObjects.WithError(err)
}
fs.SetTargetFile(&files)
return nil
}
// List 列出路径下的内容,
// pathProcessor为最终对象路径的处理钩子。
// 有些情况下(如在分享页面列对象)时,
// 路径需要截取掉被分享目录路径之前的部分。
func (fs *FileSystem) List(ctx context.Context, dirPath string, pathProcessor func(string) string) ([]Object, error) {
// 获取父目录
isExist, folder := fs.IsPathExist(dirPath)
// 不存在时返回空的结果
if !isExist {
return []Object{}, nil
}
var wg sync.WaitGroup
var childFolders []model.Folder
var childFiles []model.File
wg.Add(2)
// 获取子目录
go func() {
childFolders, _ = folder.GetChildFolder()
wg.Done()
}()
// 获取子文件
go func() {
childFiles, _ = folder.GetChildFile()
wg.Done()
}()
// 汇总处理结果
wg.Wait()
objects := make([]Object, 0, len(childFiles)+len(childFolders))
// 所有对象的父目录
var processedPath string
for _, folder := range childFolders {
// 路径处理钩子,
// 所有对象父目录都是一样的,所以只处理一次
if processedPath == "" {
if pathProcessor != nil {
processedPath = pathProcessor(folder.Position)
} else {
processedPath = folder.Position
}
}
objects = append(objects, Object{
ID: folder.ID,
Name: folder.Name,
Path: processedPath,
Pic: "",
Size: 0,
Type: "dir",
Date: folder.CreatedAt.Format("2006-01-02 15:04:05"),
})
}
for _, file := range childFiles {
if processedPath == "" {
if pathProcessor != nil {
processedPath = pathProcessor(file.Dir)
} else {
processedPath = file.Dir
}
}
objects = append(objects, Object{
ID: file.ID,
Name: file.Name,
Path: processedPath,
Pic: file.PicInfo,
Size: file.Size,
Type: "file",
Date: file.CreatedAt.Format("2006-01-02 15:04:05"),
})
}
return objects, nil
}
// CreateDirectory 根据给定的完整创建目录,不会递归创建
func (fs *FileSystem) CreateDirectory(ctx context.Context, fullPath string) error {
// 获取要创建目录的父路径和目录名
fullPath = path.Clean(fullPath)
base := path.Dir(fullPath)
dir := path.Base(fullPath)
// 检查目录名是否合法
if !fs.ValidateLegalName(ctx, dir) {
return ErrIllegalObjectName
}
// 父目录是否存在
isExist, parent := fs.IsPathExist(base)
if !isExist {
return ErrPathNotExist
}
// 是否有同名目录
// TODO: 有了unique约束后可以不用在此检查
b, _ := fs.IsPathExist(fullPath)
if b {
return ErrFolderExisted
}
// 是否有同名文件
if ok, _ := fs.IsFileExist(path.Join(base, dir)); ok {
return ErrFileExisted
}
// 创建目录
newFolder := model.Folder{
Name: dir,
ParentID: parent.ID,
Position: base,
PositionAbsolute: fullPath,
OwnerID: fs.User.ID,
}
_, err := newFolder.Create()
return err
}
// IsPathExist 返回给定目录是否存在
// 如果存在就返回目录
func (fs *FileSystem) IsPathExist(path string) (bool, *model.Folder) {
folder, err := model.GetFolderByPath(path, fs.User.ID)
return err == nil, &folder
pathList := util.SplitPath(path)
if len(pathList) == 0 {
return false, nil
}
// 递归步入目录
var currentFolder *model.Folder
for _, folderName := range pathList {
var err error
// 根目录
if folderName == "/" {
currentFolder, err = fs.User.Root()
if err != nil {
return false, nil
}
} else {
currentFolder, err = currentFolder.GetChild(folderName)
if err != nil {
return false, nil
}
}
}
return true, currentFolder
}
// IsFileExist 返回给定路径的文件是否存在
@@ -351,7 +46,19 @@ func (fs *FileSystem) IsFileExist(fullPath string) (bool, *model.File) {
basePath := path.Dir(fullPath)
fileName := path.Base(fullPath)
file, err := model.GetFileByPathAndName(basePath, fileName, fs.User.ID)
// 获得父目录
exist, parent := fs.IsPathExist(basePath)
if !exist {
return false, nil
}
return err == nil, &file
file, err := parent.GetChildFile(fileName)
return err == nil, file
}
// IsChildFileExist 确定folder目录下是否有名为name的文件
func (fs *FileSystem) IsChildFileExist(folder *model.Folder, name string) (bool, *model.File) {
file, err := folder.GetChildFile(name)
return err == nil, file
}

483
pkg/filesystem/path_test.go
View File

@@ -1,15 +1,10 @@
package filesystem
import (
"context"
"errors"
"github.com/DATA-DOG/go-sqlmock"
model "github.com/HFO4/cloudreve/models"
"github.com/HFO4/cloudreve/pkg/conf"
"github.com/HFO4/cloudreve/pkg/serializer"
"github.com/jinzhu/gorm"
"github.com/stretchr/testify/assert"
"os"
"testing"
)
@@ -22,20 +17,43 @@ func TestFileSystem_IsFileExist(t *testing.T) {
}}
// 存在
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/s", "1.txt").WillReturnRows(
sqlmock.NewRows([]string{"Name"}).AddRow("s"),
)
testResult, _ := fs.IsFileExist("/s/1.txt")
asserts.True(testResult)
asserts.NoError(mock.ExpectationsWereMet())
{
path := "/1.txt"
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id"}).AddRow(1))
mock.ExpectQuery("SELECT(.+)").WithArgs(1, "1.txt").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "1.txt"))
exist, file := fs.IsFileExist(path)
asserts.NoError(mock.ExpectationsWereMet())
asserts.True(exist)
asserts.Equal(uint(1), file.ID)
}
// 不存在
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/ss/dfsd", "1.txt").WillReturnRows(
sqlmock.NewRows([]string{"Name"}),
)
testResult, _ = fs.IsFileExist("/ss/dfsd/1.txt")
asserts.False(testResult)
asserts.NoError(mock.ExpectationsWereMet())
// 文件不存在
{
path := "/1.txt"
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id"}).AddRow(1))
mock.ExpectQuery("SELECT(.+)").WithArgs(1, "1.txt").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
exist, _ := fs.IsFileExist(path)
asserts.NoError(mock.ExpectationsWereMet())
asserts.False(exist)
}
// 父目录不存在
{
path := "/1.txt"
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id"}))
exist, _ := fs.IsFileExist(path)
asserts.NoError(mock.ExpectationsWereMet())
asserts.False(exist)
}
}
func TestFileSystem_IsPathExist(t *testing.T) {
@@ -46,398 +64,67 @@ func TestFileSystem_IsPathExist(t *testing.T) {
},
}}
// 存在
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/s/sda").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("sda"),
)
testResult, folder := fs.IsPathExist("/s/sda")
asserts.True(testResult)
asserts.Equal("sda", folder.Name)
asserts.NoError(mock.ExpectationsWereMet())
// 不存在
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/s/sda").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
testResult, _ = fs.IsPathExist("/s/sda")
asserts.False(testResult)
asserts.NoError(mock.ExpectationsWereMet())
}
func TestFileSystem_List(t *testing.T) {
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
ctx := context.Background()
// 成功,子目录包含文件和路径,不使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(5, "folder"))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(6, "sub_folder1").AddRow(7, "sub_folder2"))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(6, "sub_file1.txt").AddRow(7, "sub_file2.txt"))
objects, err := fs.List(ctx, "/folder", nil)
asserts.Len(objects, 4)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
// 成功,子目录包含文件和路径,使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(5, "folder"))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "position"}).AddRow(6, "sub_folder1", "/folder").AddRow(7, "sub_folder2", "/folder"))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "dir"}).AddRow(6, "sub_file1.txt", "/folder").AddRow(7, "sub_file2.txt", "/folder"))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 4)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
for _, value := range objects {
asserts.Contains(value.Path, "prefix/")
}
// 成功,子目录包含路径,使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(5, "folder"))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "position"}))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "dir"}).AddRow(6, "sub_file1.txt", "/folder").AddRow(7, "sub_file2.txt", "/folder"))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 2)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
for _, value := range objects {
asserts.Contains(value.Path, "prefix/")
}
// 成功,子目录下为空,使用路径处理钩子
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(5, "folder"))
mock.ExpectQuery("SELECT(.+)folder(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "position"}))
mock.ExpectQuery("SELECT(.+)file(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "dir"}))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 0)
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
// 成功,子目录路径不存在
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
objects, err = fs.List(ctx, "/folder", func(s string) string {
return "prefix" + s
})
asserts.Len(objects, 0)
asserts.NoError(mock.ExpectationsWereMet())
}
func TestFileSystem_CreateDirectory(t *testing.T) {
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
ctx := context.Background()
// 目录名非法
err := fs.CreateDirectory(ctx, "/ad/a+?")
asserts.Equal(ErrIllegalObjectName, err)
// 父目录不存在
mock.ExpectQuery("SELECT(.+)folders").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.Equal(ErrPathNotExist, err)
asserts.NoError(mock.ExpectationsWereMet())
// 存在同名文件
mock.ExpectQuery("SELECT(.+)folders").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "ab"))
mock.ExpectQuery("SELECT(.+)files").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "ab"))
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.Equal(ErrFileExisted, err)
asserts.NoError(mock.ExpectationsWereMet())
// 存在同名目录
mock.ExpectQuery("SELECT(.+)folders").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "ab"))
mock.ExpectQuery("SELECT(.+)folders").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "ab"))
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.Equal(ErrFolderExisted, err)
asserts.NoError(mock.ExpectationsWereMet())
// 成功创建
mock.ExpectQuery("SELECT(.+)folders").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "ab"))
mock.ExpectQuery("SELECT(.+)files").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}))
mock.ExpectBegin()
mock.ExpectExec("INSERT(.+)").WillReturnResult(sqlmock.NewResult(1, 1))
mock.ExpectCommit()
err = fs.CreateDirectory(ctx, "/ad/ab")
asserts.NoError(err)
asserts.NoError(mock.ExpectationsWereMet())
}
func TestFileSystem_ListDeleteFiles(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
// 成功
// 查询根目录
{
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name"}).AddRow(1, "1.txt").AddRow(2, "2.txt"))
err := fs.ListDeleteFiles(context.Background(), []string{"/"})
asserts.NoError(err)
path := "/"
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id"}).AddRow(1))
exist, folder := fs.IsPathExist(path)
asserts.NoError(mock.ExpectationsWereMet())
asserts.True(exist)
asserts.Equal(uint(1), folder.ID)
}
// 失败
// 深层路径
{
mock.ExpectQuery("SELECT(.+)").WillReturnError(errors.New("error"))
err := fs.ListDeleteFiles(context.Background(), []string{"/"})
asserts.Error(err)
asserts.Equal(serializer.CodeDBError, err.(serializer.AppError).Code)
path := "/1/2/3"
// 根目录
mock.ExpectQuery("SELECT(.+)").
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(1, 1))
// 1
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 1, "1").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(2, 1))
// 2
mock.ExpectQuery("SELECT(.+)").
WithArgs(2, 1, "2").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(3, 1))
// 3
mock.ExpectQuery("SELECT(.+)").
WithArgs(3, 1, "3").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(4, 1))
exist, folder := fs.IsPathExist(path)
asserts.NoError(mock.ExpectationsWereMet())
asserts.True(exist)
asserts.Equal(uint(4), folder.ID)
}
}
func TestFileSystem_ListDeleteDirs(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
}}
// 成功
// 深层 不存在
{
path := "/1/2/3"
// 根目录
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
WithArgs(1).
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(1, 1))
// 1
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnRows(
sqlmock.NewRows([]string{"id", "name"}).
AddRow(4, "1.txt").
AddRow(5, "2.txt").
AddRow(6, "3.txt"),
)
err := fs.ListDeleteDirs(context.Background(), []string{"/"})
asserts.NoError(err)
asserts.Len(fs.FileTarget, 3)
asserts.Len(fs.DirTarget, 3)
WithArgs(1, 1, "1").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(2, 1))
// 2
mock.ExpectQuery("SELECT(.+)").
WithArgs(2, 1, "2").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}).AddRow(3, 1))
// 3
mock.ExpectQuery("SELECT(.+)").
WithArgs(3, 1, "3").
WillReturnRows(sqlmock.NewRows([]string{"id", "owner_id"}))
exist, folder := fs.IsPathExist(path)
asserts.NoError(mock.ExpectationsWereMet())
}
// 检索文件发生错误
{
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnError(errors.New("error"))
err := fs.ListDeleteDirs(context.Background(), []string{"/"})
asserts.Error(err)
asserts.Len(fs.DirTarget, 6)
asserts.NoError(mock.ExpectationsWereMet())
}
// 检索目录发生错误
{
mock.ExpectQuery("SELECT(.+)").
WillReturnError(errors.New("error"))
err := fs.ListDeleteDirs(context.Background(), []string{"/"})
asserts.Error(err)
asserts.NoError(mock.ExpectationsWereMet())
}
}
func TestFileSystem_Delete(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
Storage: 3,
Group: model.Group{MaxStorage: 3},
}}
ctx := context.Background()
// 全部未成功
{
// 列出要删除的目录
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnRows(
sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).
AddRow(4, "1.txt", "1.txt", 2, 1),
)
// 查询顶级的文件
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).AddRow(1, "1.txt", "1.txt", 1, 2))
mock.ExpectQuery("SELECT(.+)files(.+)").
WillReturnRows(sqlmock.NewRows([]string{"id", "policy_id", "source_name"}))
// 查询上传策略
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
// 删除文件记录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)files").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 归还容量
mock.ExpectBegin()
mock.ExpectExec("UPDATE(.+)users").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 删除目录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)folders").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
err := fs.Delete(ctx, []string{"/"}, []string{"2.txt"})
asserts.Error(err)
asserts.Equal(203, err.(serializer.AppError).Code)
asserts.Equal(uint64(0), fs.User.Storage)
}
// 全部成功
{
file, err := os.Create("1.txt")
file2, err := os.Create("2.txt")
file.Close()
file2.Close()
asserts.NoError(err)
mock.ExpectQuery("SELECT(.+)").
WillReturnRows(
sqlmock.NewRows([]string{"id"}).
AddRow(1).
AddRow(2).
AddRow(3),
)
mock.ExpectQuery("SELECT(.+)").
WithArgs(1, 2, 3).
WillReturnRows(
sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).
AddRow(4, "1.txt", "1.txt", 2, 1),
)
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "name", "source_name", "policy_id", "size"}).AddRow(1, "2.txt", "2.txt", 1, 2))
mock.ExpectQuery("SELECT(.+)files(.+)").
WillReturnRows(sqlmock.NewRows([]string{"id", "policy_id", "source_name"}))
// 查询上传策略
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
mock.ExpectQuery("SELECT(.+)").WillReturnRows(sqlmock.NewRows([]string{"id", "type"}).AddRow(1, "local"))
// 删除文件记录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 归还容量
mock.ExpectBegin()
mock.ExpectExec("UPDATE(.+)").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
// 删除目录
mock.ExpectBegin()
mock.ExpectExec("DELETE(.+)").
WillReturnResult(sqlmock.NewResult(0, 3))
mock.ExpectCommit()
fs.FileTarget = []model.File{}
fs.DirTarget = []model.Folder{}
err = fs.Delete(ctx, []string{"/"}, []string{"2.txt"})
asserts.NoError(err)
asserts.Equal(uint64(0), fs.User.Storage)
asserts.False(exist)
asserts.Nil(folder)
}
}
func TestFileSystem_Copy(t *testing.T) {
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
Storage: 3,
Group: model.Group{MaxStorage: 3},
}}
ctx := context.Background()
// 目录不存在
{
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/dst").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/src").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
err := fs.Copy(ctx, []string{}, []string{}, "/src", "/dst")
asserts.Equal(ErrPathNotExist, err)
asserts.NoError(mock.ExpectationsWereMet())
}
// 复制目录出错
{
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/src").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/dst").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
err := fs.Copy(ctx, []string{"test"}, []string{}, "/src", "/dst")
asserts.Error(err)
}
}
func TestFileSystem_Move(t *testing.T) {
conf.DatabaseConfig.Type = "mysql"
asserts := assert.New(t)
fs := &FileSystem{User: &model.User{
Model: gorm.Model{
ID: 1,
},
Storage: 3,
Group: model.Group{MaxStorage: 3},
}}
ctx := context.Background()
// 目录不存在
{
mock.ExpectQuery("SELECT(.+)").WillReturnRows(
sqlmock.NewRows([]string{"name"}),
)
err := fs.Move(ctx, []string{}, []string{}, "/src", "/dst")
asserts.Equal(ErrPathNotExist, err)
asserts.NoError(mock.ExpectationsWereMet())
}
// 移动目录出错
{
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/src").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
mock.ExpectQuery("SELECT(.+)").WithArgs(uint(1), "/dst").WillReturnRows(
sqlmock.NewRows([]string{"name"}).AddRow("123"),
)
err := fs.Move(ctx, []string{"test"}, []string{}, "/src", "/dst")
asserts.Error(err)
}
}