1		--------------------------------------------------
2				FakeFtpServer Filesystems
3		--------------------------------------------------
4
5FakeFtpServer Filesystems
6~~~~~~~~~~~~~~~~~~~~~~~~~
7
8  <<FakeFtpServer>> provides a simulated server file system, including support for file and directory permissions
9  and owner and group authorization based on Unix. This file system can be populated at startup (or thereafter) with
10  directories and files (including arbitrary content) to be retrieved by an FTP client. Any files sent to the server
11  by an FTP client exist within that file system as well, and can be accessed through the file system API, or
12  can even be subsequently retrieved by an FTP client.
13
14  The filesystem abstraction is accessed through the <<<FileSystem>>> interface in the
15  <<<org.mockftpserver.fake.filesystem>>> package. Two implementations of this interface are provided:
16  <<<WindowsFakeFileSystem>>> and <<<UnixFakeFileSystem>>>. They both manage the files and directories in memory,
17  simulating a real file system. You are also free to implement your own <<<FileSystem>>> implementation.
18
19  Note that both <<<WindowsFakeFileSystem>>> and <<<UnixFakeFileSystem>>> are <virtual> file systems, and do
20  not depend on the <real> operating systems or file systems on which <<FakeFtpServer>> is running. In other
21  words, you can configure and run a <<FakeFtpServer>> with a <<<WindowsFakeFileSystem>>> on top of a <real>
22  Unix system, or run a <<FakeFtpServer>> with a <<<UnixFakeFileSystem>>> on top of a <real> Windows system.
23
24  See the javadoc for these classes for more information.
25
26
27* WindowsFakeFileSystem
28~~~~~~~~~~~~~~~~~~~~~~~
29
30  <<WindowsFakeFileSystem>> is an implementation of the <<<FileSystem>>> interface that simulates a Microsoft
31  Windows file system. The rules for file and directory names include:
32
33    * Filenames are case-insensitive
34
35    * Either forward slashes (/) or backward slashes (\) are valid path separators (but are normalized to '\')
36
37    * An absolute path starts with a drive specifier (e.g. 'a:' or 'c:') followed by '\' or '/',
38      or else it starts with "\\"</li>
39
40
41* UnixFakeFileSystem
42~~~~~~~~~~~~~~~~~~~~
43
44  <<UnixFakeFileSystem>> is an implementation of the <<<FileSystem>>> interface that simulates a Unix
45  file system. The rules for file and directory names include:
46
47    * Filenames are case-sensitive
48
49    * Forward slashes (/) are the only valid path separators
50
51
52* WindowsFakeFileSystem and UnixFakeFileSystem: Common Behavior and Configuration
53~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
54
55  Both <<<WindowsFakeFileSystem>>> and <<<UnixFakeFileSystem>>> are subclasses of <<<AbstractFakeFileSystem>>>. They
56  manage the files and directories in memory, simulating a real file system.
57
58  If the <createParentDirectoriesAutomatically> property is set to <true>,
59  then creating a directory or file will automatically create any parent directories (recursively)
60  that do not already exist. If <false>, then creating a directory or file throws an
61  exception if its parent directory does not exist. This value defaults to <true>.
62
63  The <directoryListingFormatter> property holds an instance of <<DirectoryListingFormatter>>,
64  used by the <formatDirectoryListing> method to format directory listings in a
65  filesystem-specific manner. This property is initialized by concrete subclasses.
66
67
68* File Permissions, Owners and Groups
69~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
70
71  Each <file> or <directory> entry within a <<<FileSystem>>> has associated <owner>, <group> and <permissions>
72  attributes. All of these attributes are optional. If none are specified for a file or directory, then full
73  access by all users is the default.
74
75  If, however, these values are specified for a filesystem entry, then they affect whether a file can be created,
76  read, written or deleted, and whether a directory can be created, listed or deleted.
77
78  This approach for access control is conceptually (and somewhat loosely) based on the Unix file system, but
79  don't expect a comprehensive implementation fully matching Unix's capabilities.
80
81
82** Permissions
83~~~~~~~~~~~~~~
84
85  The permissions for a file or directory entry in the filesystem are represented by a 9-character string of
86  the form "rwxrwxrwx", consisting of three "rwx" triples. Each triple indicates the READ ("r"), WRITE ("w") and
87  EXECUTE ("x") permissions for a specific set of users. Each position can alternatively contain a "-" to
88  indicate no READ/WRITE/EXECUTE access, depending on its position.
89
90  The first "rwx" triple indicates the READ, WRITE and EXECUTE permissions for the owner of the file. The
91  second triple indicates the permissions for the group associated with the file. The third triple
92  indicates the permissions for the rest of the world.
93
94  For example, the permissions string "rwx--xrw-" is interpreted to mean that users have READ/WRITE/EXECUTE access,
95  the group has only EXECUTE, and the world has only READ and WRITE.
96
97  There are plenty of good tutorials and references for understanding Unix file permissions, including
98  {{{http://www.dartmouth.edu/~rc/help/faq/permissions.html}this one}}.
99
100  The <<<Permissions>>> class represents and encapsulates the read/write/execute permissions for a file or
101  directory. Its constructor takes a 9-character "rwx" String as described above.
102
103  The <<<AbstractFileSystemEntry>>> contains a <permissions> attribute, so that every file and directory in the
104  file system can be assigned a unique set of permissions from a <<<Permissions>>> object. There is also a
105  <<<setPermissionsFromString()>>> convenience setter that allows setting the permissions directly from a String.
106
107
108**  FileSystem Access Rules
109~~~~~~~~~~~~~~~~~~~~~~~~~~~
110
111***  When Are READ, WRITE or EXECUTE Access Required?
112~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
113
114  If the <permissions> are configured for a file or directory within the <<<FileSystem>>>, then
115  those permissions affect whether and how that file/directory can be accessed.
116  Here are the rules for applying permissions for file access:
117
118*------------------------*-------------------------------------------------------------------*
119| <<Operation>>          | <<Required Permissions>>                                          |
120*------------------------*-------------------------------------------------------------------*
121| Create a new file      | EXECUTE access to the directory and WRITE access to the directory |
122*------------------------*-------------------------------------------------------------------*
123| Read a file            | EXECUTE access to the directory and READ access to the file       |
124*------------------------*-------------------------------------------------------------------*
125| Write a file           | EXECUTE access to the directory and WRITE access to the file      |
126*------------------------*-------------------------------------------------------------------*
127| Delete a file          | WRITE access to the directory                                     |
128*------------------------*-------------------------------------------------------------------*
129| Rename a file          | READ access to the FROM file and WRITE access to the directory    |
130*------------------------*-------------------------------------------------------------------*
131| Create a directory     | WRITE and EXECUTE acccess to the parent directory                 |
132*------------------------*-------------------------------------------------------------------*
133| List a directory       | READ acccess to the directory/file                                |
134*------------------------*-------------------------------------------------------------------*
135| CD to a directory      | EXECUTE acccess to the directory                                  |
136*------------------------*-------------------------------------------------------------------*
137| Delete a directory     | WRITE acccess to the parent directory                             |
138*------------------------*-------------------------------------------------------------------*
139
140*** How Do Owner and Group Affect Access?
141~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
142
143  Each file and directory in the filesystem (subclass of <<<AbstractFileSystemEntry>>>) contains <owner>
144  and <group> attributes. These attributes are optional.
145
146  If the <owner> is configured for a file/directory, AND the <permissions> are configured as well,
147  then the <<owner>> triple from the <permissions> are applied if and only if the <<<UserAccount>>> for the
148  currently logged in FTP user (client) matches the <owner> configured for the file/directory.
149
150  Similarly, if the <group> is configured for a file/directory, AND the <permissions> are configured as well,
151  then the <<group>> triple from the <permissions> are applied if and only if <groups> configured for the
152  <<<UserAccount>>> for the currently logged in FTP user (client) contain the <group> configured for the file/directory.
153
154  Otherwise, the <<world>> triple from the <permissions> are applied.
155
156* Example Code
157~~~~~~~~~~~~~~
158
159  This example illustrates setting the permissions, owner and group for directories and files within the
160  <<<FakeFtpServer>>> filesystem. In this case, the filesystem is an instance of <<<WindowsFakeFileSystem>>>,
161  but the code would be almost exactly the same for <<<UnixFakeFileSystem>>> as well.
162
163+------------------------------------------------------------------------------
164  final String USER1 = "joe";
165  final String USER2 = "mary";
166  final String GROUP = "dev";
167  final String CONTENTS = "abcdef 1234567890";
168
169  FileSystem fileSystem = new WindowsFakeFileSystem();
170  DirectoryEntry directoryEntry1 = new DirectoryEntry("c:\\");
171  directoryEntry1.setPermissions(new Permissions("rwxrwx---"));
172  directoryEntry1.setOwner(USER1);
173  directoryEntry1.setGroup(GROUP);
174
175  DirectoryEntry directoryEntry2 = new DirectoryEntry("c:\\data");
176  directoryEntry2.setPermissions(Permissions.ALL);
177  directoryEntry2.setOwner(USER1);
178  directoryEntry2.setGroup(GROUP);
179
180  FileEntry fileEntry1 = new FileEntry("c:\\data\\file1.txt", CONTENTS);
181  fileEntry1.setPermissionsFromString("rw-rw-rw-");
182  fileEntry1.setOwner(USER1);
183  fileEntry1.setGroup(GROUP);
184
185  FileEntry fileEntry2 = new FileEntry("c:\\data\\run.exe");
186  fileEntry2.setPermissionsFromString("rwxrwx---");
187  fileEntry2.setOwner(USER2);
188  fileEntry2.setGroup(GROUP);
189
190  fileSystem.add(directoryEntry1);
191  fileSystem.add(directoryEntry2);
192  fileSystem.add(fileEntry1);
193  fileSystem.add(fileEntry2);
194
195  FakeFtpServer fakeFtpServer = new FakeFtpServer();
196  fakeFtpServer.setFileSystem(fileSystem);
197+------------------------------------------------------------------------------
198
199  Things to note about the above example:
200
201  * The <<<FakeFtpServer>>> instance is configured with a <<<WindowsFakeFileSystem>>> and a "c:\" root
202    directory with a "data" sub-directory containing two files. Permissions and owner/group are specified for
203    both directories and both files.
204
205  * The permissions for the directories are specified using the "permissions" setter, which takes an
206    instance of the <<<Permissions>>> class. The permissions for both files are specified using the
207    "permissionsFromString" shortcut method. Either way is fine -- use whichever method you prefer on
208    both files and directories.
209
210  []
211
212  When you want to retrieve and/or verify the contents of the <<<FakeFtpServer>>> filesystem, you can use
213  the <<<FileSystem#getEntry(String path)>>> method, as shown in the following code.
214
215+------------------------------------------------------------------------------
216  DirectoryEntry dirEntry = (DirectoryEntry)fileSystem.getEntry("c:/data");
217
218  FileEntry fileEntry = (FileEntry)fileSystem.getEntry("c:/data/file1.txt");
219
220  FileEntry newFileEntry = (FileEntry)fileSystem.getEntry("c:/data/new.txt");
221  InputStream inputStream = newFileEntry.createInputStream();
222  // read the file contents using inputStream
223+------------------------------------------------------------------------------
224
225  See the javadoc for <<<FileSystem>>>, <<<FileEntry>>> and <<<DirectoryEntry>>> for more information
226  on the methods available.
227
228
229** Example Using Spring Configuration
230~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
231
232  See the {{{./fakeftpserver-getting-started.html#Spring}FakeFtpServer Getting Started - Spring Configuration}}
233  for an example of how to configure a <<<FakeFtpServer>>> instance and associated filesystem in the
234  {{{http://www.springframework.org/}Spring Framework}}.
235