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(** Class type [stream_fs] for filesystems with stream access to files *)
(** The class type {!Netfs.stream_fs}
is an abstraction for both kernel-level and user-level
filesystems. It is used as parameter for algorithms (like globbing)
that operate on filesystems but do not want to assume any particular
filesystem. Only stream access is provided (no seek).
{b File paths:}
The filesystem supports hierarchical file names. File paths use
Unix conventions, i.e.
- [/] is the root
- Path components are separated by slashes. Several consecutive slashes
are allowed but mean the same as a single slash.
- [.] is the same directory
- [..] is the parent directory
All paths need to be absolute (i.e. start with [/]).
There can be additional constraints on paths:
- Character encoding restriction: A certain ASCII-compatible character
encoding is assumed (including UTF-8)
- Character exclusion: Certain characters may be excluded
Implementations may impose more constraints that cannot be expressed
here (case insensitivity, path length, exclusion of special names etc.).
{b Virtuality:}
There is no assumption that [/] is the real root of the local filesystem.
It can actually be anywhere - a local subdirectory, or a remote directory,
or a fictive root. There needs not to be any protection against "running
beyond root", e.g. with the path [/..].
This class type also supports remote filesystems, and thus there is no
concept of file handle (because this would exclude a number of
implementations).
{b Errors: }
Errors should generally be indicated by raising [Unix_error]. For
many error codes the interpretation is already given by POSIX. Here
are some more special cases:
- [EINVAL]: should also be used for invalid paths, or when a flag
cannot be supported (and it is non-ignorable)
- [ENOSYS]: should also be used if an operation is generally unavailable
In case of hard errors (like socket errors when communicating with the
remote server) there is no need to stick to [Unix_error], though.
{b Subtyping:}
The class type {!Netfs.stream_fs} is subtypable, and subtypes can add
more features by:
- adding more methods
- adding more flags to existing methods
{b Omitted:}
Real filesystems usually provide a lot more features than what is
represented here, such as:
- Access control and file permissions
- Metadata like timestamps
- Random access to files
This definition here is intentionally minimalistic. In the future
this class type will be extended, and more more common filesystem features
will be covered. See {!Netfs.empty_fs} for a way how to ensure that
your definition of a [stream_fs] can still be built after [stream_fs]
has been extended.
*)
(** {2 The class type [stream_fs]} *)
type read_flag =
[ `Skip of int64 | `Binary | `Streaming | `Dummy ]
type read_file_flag =
[ `Binary | `Dummy ]
type write_flag =
[ `Create | `Exclusive | `Truncate | `Binary | `Streaming | `Dummy ]
type write_file_flag =
[ `Create | `Exclusive | `Truncate | `Binary | `Link | `Dummy ]
type write_common =
[ `Create | `Exclusive | `Truncate | `Binary | `Dummy ]
(** The intersection of [write_flag] and [write_file_flag] *)
type size_flag =
[ `Dummy ]
type test_flag =
[ `Link | `Dummy ]
type remove_flag =
[ `Recursive | `Dummy ]
type rename_flag =
[ `Dummy ]
type symlink_flag =
[ `Dummy ]
type readdir_flag =
[ `Dummy ]
type readlink_flag =
[ `Dummy ]
type mkdir_flag =
[ `Path | `Nonexcl | `Dummy ]
type rmdir_flag =
[ `Dummy ]
type copy_flag =
[ `Dummy ]
(** Note [`Dummy]: this flag is always ignored. There are two reasons
for having it:
- Ocaml does not allow empty variants
- it is sometimes convenient to have it
(e.g. in: [if <condition> then `Create else `Dummy])
*)
type test_type =
[ `N | `E | `D | `F | `H | `R | `W | `X | `S ]
(** Tests:
- [`N]: the file name exists
- [`E]: the file exists
- [`D]: the file exists and is a directory
- [`F]: the file exists and is regular
- [`H]: the file exists and is a symlink (possibly to a non-existing
target)
- [`R]: the file exists and is readable
- [`W]: the file exists and is writable
- [`X]: the file exists and is executable
- [`S]: the file exists and is non-empty
*)
class type local_file =
object
method filename : string
(** The filename *)
method close : unit -> unit
(** Indicate that we are done with the file *)
end
class type stream_fs =
object
method path_encoding : Netconversion.encoding option
(** The encoding must be ASCII-compatible
({!Netconversion.is_ascii_compatible}). If [None] the
ASCII encoding is assumed for codes 0-127, and no meaning is
defined for byte codes 128-255.
*)
method path_exclusions : (int * int) list
(** Code points that must not occur in path components between slashes.
This is given as ranges [(from,to)]. The code points are interpreted
as Unicode code points if an encoding is available, and as byte codes
otherwise. For example, for Unix the code points 0 and 47 (slash)
are normally the only excluded code points.
*)
method nominal_dot_dot : bool
(** Whether the effect of [..] can be obtained by stripping off the
last path component, i.e. whether
[Filename.dirname path <=> path ^ "/.."]
*)
method read : read_flag list -> string -> Netchannels.in_obj_channel
(** [read flags filename]: Opens the file [filename] for reading,
and returns the input stream. Flags:
- [`Skip n]: Skips the first [n] bytes of the file. On many
filesystems this is more efficient than reading [n] bytes and
dropping them; however, there is no guarantee that this
optimization exists.
- [`Binary]: Opens the file in binary mode (if there is such
a distinction)
- [`Streaming] for network filesystems: If possible, open the
file in streaming mode, and avoid to copy the whole file to the local
disk before returning the {!Netchannels.in_obj_channel}.
Streaming mode is faster, but has also downsides. Especially,
the implementation of [read] can do less to recover from
transient network problems (like retrying the whole download).
Support for this flag is optional, and it is ignored if
there is no extra streaming mode.
*)
method read_file : read_file_flag list -> string -> local_file
(** [read_file flags filename]: Opens the file [filename] for reading,
and returns the contents as a [local_file]. Use the method
[filename] to get the file name of the local file. The file
may be temporary, but this is not required. The method [close]
of the returned object should be called when the file is no
longer needed. In case of a temporary file, the file can then
be deleted. Flags:
- [`Binary]: Opens the file in binary mode (if there is such
a distinction)
*)
method write : write_flag list -> string -> Netchannels.out_obj_channel
(** [write flags filename]: Opens (and optionally creates) the [filename]
for writing, and returns the output stream. Flags:
- [`Create]: If the file does not exist, create it
- [`Truncate]: If the file exists, truncate it to zero before
writing
- [`Exclusive]: The [`Create] is done exclusively
- [`Binary]: Opens the file in binary mode (if there is such
a distinction)
- [`Streaming]: see [read] (above) for explanations
Some filesystems refuse this operation if neither [`Create] nor
[`Truncate] is specified because overwriting an existing file
is not supported. There are also filesystems that cannot even
modify files by truncating them first, but only allow to write
to new files.
It is unspecified whether the file appears in the directory directly
after calling [write] or first when the stream is closed.
*)
method write_file : write_file_flag list -> string -> local_file -> unit
(** [write_file flags filename localfile]: Opens the file [filename]
for writing, and copies the contents of the [localfile] to it.
It is ensured that the method [close] of [localfile] is called
once the operation is finished (whether successful or not).
Flags:
- [`Create]: If the (remote) file does not exist, create it
- [`Truncate]: If the file exists, truncate it to zero before
writing
- [`Exclusive]: The [`Create] is done exclusively
- [`Binary]: Opens the file in binary mode (if there is such
a distinction)
- [`Link]: Allows that the destination file is created as a hard
link of the original file. This is tried whatever other mode
is specified. If not successful, a copy is done instead.
*)
method size : size_flag list -> string -> int64
(** Returns the size of a file. Note that there is intentionally no
distinction between text and binary mode - implementations must
always assume binary mode.
*)
method test : test_flag list -> string -> test_type -> bool
(** Returns whether the test is true. For filesystems that know
symbolic links, the test operation normally follows symlinks
(except for the [`N] and [`H] tests). By specifying the [`Link] flag
symlinks are not followed.
*)
method test_list : test_flag list -> string -> test_type list -> bool list
(** Similar to [test] but this function performs all tests in the list
at once, and returns a bool for each test.
*)
method remove : remove_flag list -> string -> unit
(** Removes the file or symlink. Implementation are free to also
support the removal of empty directories.
Flags:
- [`Recursive]: Remove the contents of the non-empty directory
recursively. This is an optional feature. There needs not to
be any protection against operations done by other processes
that affect the directory tree being deleted.
*)
method rename : rename_flag list -> string -> string -> unit
(** Renames the file. There is no guarantee that a rename is atomic
*)
method symlink : symlink_flag list -> string -> string -> unit
(** [symlink flags oldpath newpath]: Creates a symlink. This
is an exclusive create, i.e. the operation fails if [newpath]
already exists.
*)
method readdir : readdir_flag list -> string -> string list
(** Reads the contents of a directory. Whether "." and ".." are returned
is platform-dependent. The entries can be returned in any order.
*)
method readlink : readlink_flag list -> string -> string
(** Reads the target of a symlink *)
method mkdir : mkdir_flag list -> string -> unit
(** Creates a new directory. Flags:
- [`Path]: Creates missing parent directories. This is an
optional feature. (If not supported, ENOENT is reported.)
- [`Nonexcl]: Non-exclusive create.
*)
method rmdir : rmdir_flag list -> string -> unit
(** Removes an empty directory *)
method copy : copy_flag list -> string -> string -> unit
(** Copies a file to a new name. This does not descent into directories.
Also, symlinks are resolved, and the linked file is copied.
*)
method cancel : unit -> unit
(** Cancels any ongoing [write]. The user must also call
the [close_out] method after cancelling. The effect
is that after the close no more network activity will occur.
*)
end
class empty_fs : string -> stream_fs
(** This is a class where all methods fail with [ENOSYS]. The string
argument is the detail in the [Unix_error], normally the module
name of the user of this class.
[empty_fs] is intended as base class for implementations of [stream_fs]
outside Ocamlnet. When [stream_fs] is extended by new methods, these
methods are at least defined, and no build error occurs. So the
definition should look like
{[
class my_fs ... =
object
inherit Netfs.empty_fs "my_fs"
method read flags name = ...
(* Add here all methods you can define, and omit the rest *)
end
]}
*)
val local_fs : ?encoding:Netconversion.encoding -> ?root:string ->
?enable_relative_paths:bool ->
unit -> stream_fs
(** [local_fs()]: Returns a filesystem object for the local filesystem.
- [encoding]: Specifies the character encoding of paths. The default
is system-dependent.
- [root]: the root of the returned object is the directory [root]
of the local filesystem. If omitted, the root is the root of
the local filesystem (i.e. / for Unix, and see comments for
Windows below). Use [root="."] to make the current working
directory the root. Note that "." like other relative paths
are interpreted at the time when the access method is executed.
- [enable_relative_paths]: Normally, only absolute paths can be
passed to the access methods like [read]. By setting this option
to [true] one can also enable relative paths. These are taken
relative to the working directory, and not relative to [root].
Relative names are off by default because there is usually no
counterpart in network filesystems.
*)
(** {2 OS Notes} *)
(** {b Unix} in general: There is no notion of character encoding of
paths. Paths are just bytes. Because of this, the default encoding
is [None]. If a different encoding is passed to [local_fs], these
bytes are just interpreted in this encoding. There is no conversion.
For desktop programs, though, usually the character encoding of the
locale is taken for filenames. You can get this by passing
{[
let encoding =
Netconversion.user_encoding()
]}
as [encoding] argument.
*)
(** {b Windows}: If the [root] argument is {b not} passed to [local_fs]
it is possible to access the whole filesystem:
- Paths starting with drive letters like [c:/] are also considered
as absolute
- Additionally, paths starting with slashes like [/c:/] mean the same
- UNC paths starting with two slashes like [//hostname] are supported
However, when a [root] directory is passed, these additional
notations are not possible anymore - paths must start with [/],
and there is neither support for drive letters nor for UNC paths.
The [encoding] arg defaults to current ANSI codepage,
and it is
not supported to request a different encoding. (The difficulty is
that the Win32 bindings of the relevant OS functions always assume
the ANSI encoding.)
There is no support for backslashes as path separators (such paths
will be rejected), for better compatibility with other platforms.
*)
(** {2:links Other impementations of [stream_fs]} *)
(** List:
- {!Http_fs} allows one to access HTTP-based filesystems
- {!Ftp_fs} allows on to access filesystems via FTP
- {!Shell_fs} allows one to access filesystems by executing shell
commands. This works locally and via ssh.
There are even some implementations outside Ocamlnet:
- {{:http://oss.wink.com/webdav/} Webdav} provides an extension of
{!Http_fs} for the full WebDAV set of filesystem operations
*)
(** {2 Algorithms} *)
val copy : ?replace:bool -> ?streaming:bool ->
#stream_fs -> string -> #stream_fs -> string -> unit
(** [copy orig_fs orig_name dest_fs dest_name]: Copies the file [orig_name]
from [orig_fs] to the file [dest_name] in [dest_fs]. By default,
the destination file is truncated and overwritten if it already
exists.
If [orig_fs] and [dest_fs] are the same object, the [copy] method
is called to perform the operation. Otherwise, the data is read
chunk by chunk from the file in [orig_fs] and then written to
the destination file in [dest_fs].
Symlinks are resolved, and the linked file is copied, not the
link as such.
The copy does not preserve ownerships, file permissions, or
timestamps. (The [stream_fs] object does not represent these.)
There is no protection against copying an object to itself.
- [replace]: If set, the destination file is removed and created again
if it already exists
- [streaming]: use streaming mode for reading and writing files
*)
val copy_into : ?replace:bool -> ?subst:(int->string) -> ?streaming:bool ->
#stream_fs -> string -> #stream_fs -> string ->
unit
(** [copy_into orig_fs orig_name dest_fs dest_name]:
Like [copy], but this version also supports recursive copies. The
[dest_name] must be an existing directory, and the file or tree at
[orig_name] is copied into it.
Symlinks are copied as symlinks.
If [replace] and the destination file/directory already exists,
it is deleted before doing the copy.
- [subst]: See {!Netfs.convert_path}
- [streaming]: use streaming mode for reading and writing files
*)
type file_kind = [ `Regular | `Directory | `Symlink | `Other | `None ]
val iter : pre:(string -> file_kind -> file_kind -> unit) ->
?post:(string -> unit) ->
#stream_fs -> string -> unit
(** [iter pre fs start]: Iterates over the file hierarchy at [start].
The function [pre] is called for every filename. The filenames
passed to [pre] are relative to [start]. The [start] must
be a directory.
For directories, the [pre] function is called for the directory
before it is called for the members of the directories.
The function [post] can additionally be passed. It is only called
for directories, but after the members.
[pre] is called as [pre rk lk] where [rk] is the file kind after
following symlinks and [lk] the file kind without following symlinks
(the link itself).
Example: [iter pre fs "/foo"] would call
- [pre "dir" `Directory `Directory] (meaning the directory "/foo/dir")
- [pre "dir/file1" `File `File]
- [pre "dir/file2" `File `Symlink]
- [post "dir"]
Note: symlinks to non-existing files are reported as
[pre name `None `Symlink].
*)
val convert_path : ?subst:(int -> string) ->
#stream_fs -> #stream_fs -> string -> string
(** [convert_path oldfs newfs oldpath]: The encoding of [oldpath]
(which is assumed to reside in [oldfs]) is converted to the encoding
of [newfs] and returned.
It is possible that the conversion is not possible, and
the function [subst] is then called with the problematic code point as
argument (in the encoding of [oldfs]). The default [subst] function
just raises {!Netconversion.Cannot_represent}.
If one of the filesystem objects does not specify an encoding,
the file name is not converted, but simply returned as-is. This
may result in errors when [newfs] has an encoding while [oldfs]
does not have one because the file name might use byte representations
that are illegal in [newfs].
*)
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