(* As for 'If' but the test runs _unless_ the code returns true. *)
| Unless of string
+ (* Run the test only if 'string' is available in the daemon. *)
+ | IfAvailable of string
+
(* Some initial scenarios for testing. *)
and test_init =
(* Do nothing, block devices could contain random stuff including
C<value> can be NULL.");
- ("set_qemu", (RErr, [String "qemu"]), -1, [FishAlias "qemu"],
+ ("set_qemu", (RErr, [OptString "qemu"]), -1, [FishAlias "qemu"],
[],
"set the qemu binary",
"\
This is always non-NULL. If it wasn't set already, then this will
return the default qemu binary name.");
- ("set_path", (RErr, [String "searchpath"]), -1, [FishAlias "path"],
+ ("set_path", (RErr, [OptString "searchpath"]), -1, [FishAlias "path"],
[],
"set the search path",
"\
This call was added in version C<1.0.58>. In previous
versions of libguestfs there was no way to get the version
-number. From C code you can use ELF weak linking tricks to find out if
-this symbol exists (if it doesn't, then it's an earlier version).
+number. From C code you can use dynamic linker functions
+to find out if this symbol exists (if it doesn't, then
+it's an earlier version).
The call returns a structure with four elements. The first
three (C<major>, C<minor> and C<release>) are numbers and
To construct the original version string:
C<$major.$minor.$release$extra>
+See also: L<guestfs(3)/LIBGUESTFS VERSION NUMBERS>.
+
I<Note:> Don't use this call to test for availability
-of features. Distro backports makes this unreliable. Use
-C<guestfs_available> instead.");
+of features. In enterprise distributions we backport
+features from later versions into earlier versions,
+making this an unreliable way to test for features.
+Use C<guestfs_available> instead.");
("set_selinux", (RErr, [Bool "selinux"]), -1, [FishAlias "selinux"],
[InitNone, Always, TestOutputTrue (
["cat"; "/new"]], "\n\n\n");
InitBasicFS, Always, TestOutput (
[["write_file"; "/new"; "\n"; "0"];
- ["cat"; "/new"]], "\n")],
+ ["cat"; "/new"]], "\n");
+ (* Regression test for RHBZ#597135. *)
+ InitBasicFS, Always, TestLastFail
+ [["write_file"; "/new"; "abc"; "10000"]]],
"create a file",
"\
This call creates a file called C<path>. The contents of the
"install GRUB",
"\
This command installs GRUB (the Grand Unified Bootloader) on
-C<device>, with the root directory being C<root>.");
+C<device>, with the root directory being C<root>.
+
+Note: If grub-install reports the error
+\"No suitable drive was found in the generated device map.\"
+it may be that you need to create a C</boot/grub/device.map>
+file first that contains the mapping between grub device names
+and Linux device names. It is usually sufficient to create
+a file containing:
+
+ (hd0) /dev/vda
+
+replacing C</dev/vda> with the name of the installation device.");
("cp", (RErr, [Pathname "src"; Pathname "dest"]), 87, [],
[InitBasicFS, Always, TestOutput (
"print the printable strings in a file",
"\
This is like the C<guestfs_strings> command, but allows you to
-specify the encoding.
+specify the encoding of strings that are looked for in
+the source file C<path>.
+
+Allowed encodings are:
+
+=over 4
+
+=item s
+
+Single 7-bit-byte characters like ASCII and the ASCII-compatible
+parts of ISO-8859-X (this is what C<guestfs_strings> uses).
+
+=item S
-See the L<strings(1)> manpage for the full list of encodings.
+Single 8-bit-byte characters.
-Commonly useful encodings are C<l> (lower case L) which will
-show strings inside Windows/x86 files.
+=item b
+
+16-bit big endian strings such as those encoded in
+UTF-16BE or UCS-2BE.
+
+=item l (lower case letter L)
+
+16-bit little endian such as UTF-16LE and UCS-2LE.
+This is useful for examining binaries in Windows guests.
+
+=item B
+
+32-bit big endian such as UCS-4BE.
+
+=item L
+
+32-bit little endian such as UCS-4LE.
+
+=back
The returned strings are transcoded to UTF-8.");
("resize2fs", (RErr, [Device "device"]), 106, [],
[], (* lvresize tests this *)
- "resize an ext2/ext3 filesystem",
+ "resize an ext2, ext3 or ext4 filesystem",
"\
-This resizes an ext2 or ext3 filesystem to match the size of
+This resizes an ext2, ext3 or ext4 filesystem to match the size of
the underlying device.
I<Note:> It is sometimes required that you run C<guestfs_e2fsck_f>
=item '?'
-The L<readdir(3)> returned a C<d_type> field with an
+The L<readdir(3)> call returned a C<d_type> field with an
unexpected value
=back
("read_file", (RBufferOut "content", [Pathname "path"]), 150, [ProtocolLimitWarning],
[InitISOFS, Always, TestOutputBuffer (
- [["read_file"; "/known-4"]], "abc\ndef\nghi")],
+ [["read_file"; "/known-4"]], "abc\ndef\nghi");
+ (* Test various near large, large and too large files (RHBZ#589039). *)
+ InitBasicFS, Always, TestLastFail (
+ [["touch"; "/a"];
+ ["truncate_size"; "/a"; "4194303"]; (* GUESTFS_MESSAGE_MAX - 1 *)
+ ["read_file"; "/a"]]);
+ InitBasicFS, Always, TestLastFail (
+ [["touch"; "/a"];
+ ["truncate_size"; "/a"; "4194304"]; (* GUESTFS_MESSAGE_MAX *)
+ ["read_file"; "/a"]]);
+ InitBasicFS, Always, TestLastFail (
+ [["touch"; "/a"];
+ ["truncate_size"; "/a"; "41943040"]; (* GUESTFS_MESSAGE_MAX * 10 *)
+ ["read_file"; "/a"]])],
"read a file",
"\
This calls returns the contents of the file C<path> as a
)],
"echo arguments back to the client",
"\
-This command concatenate the list of C<words> passed with single spaces between
-them and returns the resulting string.
+This command concatenates the list of C<words> passed with single spaces
+between them and returns the resulting string.
You can use this command to test the connection through to the daemon.
[["vfs_type"; "/dev/sda1"]], "ext2")],
"get the Linux VFS type corresponding to a mounted device",
"\
-This command gets the block device type corresponding to
-a mounted device called C<device>.
+This command gets the filesystem type corresponding to
+the filesystem on C<device>.
-Usually the result is the name of the Linux VFS module that
-is used to mount this device (probably determined automatically
-if you used the C<guestfs_mount> call).");
+For most filesystems, the result is the name of the Linux
+VFS module which would be used to mount this filesystem
+if you mounted it without specifying the filesystem type.
+For example a string such as C<ext3> or C<ntfs>.");
("truncate", (RErr, [Pathname "path"]), 199, [],
[InitBasicFS, Always, TestOutputStruct (
"truncate a file to a particular size",
"\
This command truncates C<path> to size C<size> bytes. The file
-must exist already. If the file is smaller than C<size> then
-the file is extended to the required size with null bytes.");
+must exist already.
+
+If the current file size is less than C<size> then
+the file is extended to the required size with zero bytes.
+This creates a sparse file (ie. disk blocks are not allocated
+for the file until you write to it). To create a non-sparse
+file of zeroes, use C<guestfs_fallocate64> instead.");
("utimens", (RErr, [Pathname "path"; Int64 "atsecs"; Int64 "atnsecs"; Int64 "mtsecs"; Int64 "mtnsecs"]), 201, [],
[InitBasicFS, Always, TestOutputStruct (
On return you get a list of strings, with a one-to-one
correspondence to the C<names> list. Each string is the
-value of the symbol link.
+value of the symbolic link.
If the C<readlink(2)> operation fails on any name, then
the corresponding result string is the empty string C<\"\">.
*)
"guestfs_safe_calloc";
"guestfs_safe_malloc";
+ "guestfs_safe_strdup";
+ "guestfs_safe_memdup";
] in
let functions =
List.map (fun (name, _, _, _, _, _, _) -> "guestfs_" ^ name)
| DeviceList n ->
pr_list_handling_code n;
pr " /* Ensure that each is a device,\n";
- pr " * and perform device name translation. */\n";
- pr " { int pvi; for (pvi = 0; physvols[pvi] != NULL; ++pvi)\n";
- pr " RESOLVE_DEVICE (physvols[pvi], goto done);\n";
+ pr " * and perform device name translation.\n";
+ pr " */\n";
+ pr " {\n";
+ pr " int i;\n";
+ pr " for (i = 0; %s[i] != NULL; ++i)\n" n;
+ pr " RESOLVE_DEVICE (%s[i], goto done);\n" n;
pr " }\n";
| Bool n -> pr " %s = args.%s;\n" n n
| Int n -> pr " %s = args.%s;\n" n n
}
*/
+static int
+is_available (const char *group)
+{
+ const char *groups[] = { group, NULL };
+ int r;
+
+ suppress_error = 1;
+ r = guestfs_available (g, (char **) groups);
+ suppress_error = 0;
+
+ return r == 0;
+}
+
";
(* Generate a list of commands which are not tested anywhere. *)
fun (_, _, _, _, tests, _, _) ->
let tests = filter_map (
function
- | (_, (Always|If _|Unless _), test) -> Some test
+ | (_, (Always|If _|Unless _|IfAvailable _), test) -> Some test
| (_, Disabled, _) -> None
) tests in
let seq = List.concat (List.map seq_of_test tests) in
iteri (
fun i test_name ->
pr " test_num++;\n";
+ pr " if (guestfs_get_verbose (g))\n";
+ pr " printf (\"-------------------------------------------------------------------------------\\n\");\n";
pr " printf (\"%%3d/%%3d %s\\n\", test_num, nr_tests);\n" test_name;
pr " if (%s () == -1) {\n" test_name;
pr " printf (\"%s FAILED\\n\");\n" test_name;
" test_name name (String.uppercase test_name) (String.uppercase name);
(match prereq with
- | Disabled | Always -> ()
+ | Disabled | Always | IfAvailable _ -> ()
| If code | Unless code ->
pr "static int %s_prereq (void)\n" test_name;
pr "{\n";
List.iter (
function
| Optional group ->
- pr " {\n";
- pr " const char *groups[] = { \"%s\", NULL };\n" group;
- pr " int r;\n";
- pr " suppress_error = 1;\n";
- pr " r = guestfs_available (g, (char **) groups);\n";
- pr " suppress_error = 0;\n";
- pr " if (r == -1) {\n";
- pr " printf (\" %%s skipped (reason: group %%s not available in daemon)\\n\", \"%s\", groups[0]);\n" test_name;
- pr " return 0;\n";
- pr " }\n";
+ pr " if (!is_available (\"%s\")) {\n" group;
+ pr " printf (\" %%s skipped (reason: group %%s not available in daemon)\\n\", \"%s\", \"%s\");\n" test_name group;
+ pr " return 0;\n";
pr " }\n";
| _ -> ()
) flags;
pr " }\n";
pr "\n";
generate_one_test_body name i test_name init test;
+ | IfAvailable group ->
+ pr " if (!is_available (\"%s\")) {\n" group;
+ pr " printf (\" %%s skipped (reason: %%s not available)\\n\", \"%s\", \"%s\");\n" test_name group;
+ pr " return 0;\n";
+ pr " }\n";
+ pr "\n";
+ generate_one_test_body name i test_name init test;
| Always ->
generate_one_test_body name i test_name init test
);
pr "\n";
(* display_command function, which implements guestfish -h cmd *)
- pr "void display_command (const char *cmd)\n";
+ pr "int display_command (const char *cmd)\n";
pr "{\n";
List.iter (
fun (name, style, _, flags, _, shortdesc, longdesc) ->
pr " || STRCASEEQ (cmd, \"%s\")" name2;
if name <> alias then
pr " || STRCASEEQ (cmd, \"%s\")" alias;
- pr ")\n";
+ pr ") {\n";
pr " pod2text (\"%s\", _(\"%s\"), %S);\n"
name2 shortdesc
("=head1 SYNOPSIS\n\n " ^ synopsis ^ "\n\n" ^
"=head1 DESCRIPTION\n\n" ^
longdesc ^ warnings ^ describe_alias);
+ pr " return 0;\n";
+ pr " }\n";
pr " else\n"
) all_functions;
- pr " display_builtin_command (cmd);\n";
+ pr " return display_builtin_command (cmd);\n";
pr "}\n";
pr "\n";
#include <caml/mlvalues.h>
#include <caml/signals.h>
-#include <guestfs.h>
+#include \"guestfs.h\"
#include \"guestfs_c.h\"
| String n
| FileIn n
| FileOut n ->
- pr " const char *%s = String_val (%sv);\n" n n
+ (* Copy strings in case the GC moves them: RHBZ#604691 *)
+ pr " char *%s = guestfs_safe_strdup (g, String_val (%sv));\n" n n
| OptString n ->
- pr " const char *%s =\n" n;
- pr " %sv != Val_int (0) ? String_val (Field (%sv, 0)) : NULL;\n"
- n n
+ pr " char *%s =\n" n;
+ pr " %sv != Val_int (0) ?" n;
+ pr " guestfs_safe_strdup (g, String_val (Field (%sv, 0))) : NULL;\n" n
| StringList n | DeviceList n ->
pr " char **%s = ocaml_guestfs_strings_val (g, %sv);\n" n n
| Bool n ->
pr ";\n";
pr " caml_leave_blocking_section ();\n";
+ (* Free strings if we copied them above. *)
List.iter (
function
+ | Pathname n | Device n | Dev_or_Path n | String n | OptString n
+ | FileIn n | FileOut n ->
+ pr " free (%s);\n" n
| StringList n | DeviceList n ->
pr " ocaml_guestfs_free_strings (%s);\n" n;
- | Pathname _ | Device _ | Dev_or_Path _ | String _ | OptString _
- | Bool _ | Int _ | Int64 _
- | FileIn _ | FileOut _ -> ()
+ | Bool _ | Int _ | Int64 _ -> ()
) (snd style);
pr " if (r == %s)\n" error_code;