Little changes in the Tutorial, related with the iso tree operations.

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Vreixo Formoso 2008-01-29 20:53:08 +01:00
parent ff0dd38e9f
commit 345d9c4a05
1 changed files with 134 additions and 6 deletions

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@ -17,8 +17,8 @@ Contents:
1.2 Image context
1.3 Error reporting
2. Creating an image
2.1 Image context
2.2 Image tree manipulation
2.1 Image tree manipulation
2.2 Set the write options
2.3 Obtaining a burn_source
3. Image growing and multisession
4. Bootable images
@ -29,6 +29,7 @@ Contents:
1. Introduction
-------------------------------------------------------------------------------
[TODO some lines about refcounts]
-------------------------------------------------------------------------------
1.1. Library initialization
@ -64,17 +65,19 @@ contexts at a time.
In libisofs error reporting is done in two ways: with the return value of
the functions and with the message queue.
Error codes are negative numbers, defined in private header "error.h". An
Error codes are negative numbers, defined in "libisofs/error.h" header. An
error code is associated with a given severity, either "DEBUG", "UPDATE",
"NOTE", "HINT", "WARNING", "SORRY", "FAILURE" and "FATAL". For the meaning
of each severity take a look at private header "libiso_msgs.h". Errors
reported by function return value are always "FAILURE" or "FATAL". Other kind
of errors are only reported with the message queue.
of errors are only reported with the message queue. You can get the severity
of any error message with ISO_ERR_SEV() macro [TODO: we need a function to
translate error severity to string]
First of all, most libisofs functions return an integer. If such integer is
a negative number, it means the function has returned an error. The error code
and its severity is encoded in the return value (take a look at error.h private
header).
and its severity is encoded in the return value (take a look at
libisofs/error.h header).
Additionally, libisofs reports most of its errors in a message queue. Error
messages on that queue can be printed directly to stderr or programmatically
@ -96,3 +99,128 @@ given image context. You can get the identifier of each IsoImage with the
and that way distinguish what image has issued the message.
-------------------------------------------------------------------------------
2. Creating an Image
-------------------------------------------------------------------------------
An image is built from a set of files that you want to store together in an
ISO-9660 volume.
[TODO]
[explain volume properties]
phases [TODO]:
* Obtain the image context.
* Prepare the iso tree with the files you want to add to image.
* Select the options for image generation.
* Get the burn_source used to actually write the image.
-------------------------------------------------------------------------------
2.1 Image tree manipulation
libisofs maintains in memory a file tree (usually called the iso tree), that
represents the files and directories that will be written later to image. You
are allowed to make whatever changes you want to that tree, just like you do
to any "real" filesystem, before actually write it to image.
Unlike other ISO-9660 mastering tools, you have full control over the file
hierarchy that will be written to image, via the libisofs API. You can add
new files, create any file in image, change its name, attributes, etc The iso
tree behaves just like any other POSIX filesystem.
The root of the iso tree is created automatically when the IsoImage is
allocated, and you can't replace it. To get a reference to it you can use the
function:
iso_image_get_root()
* Iso tree objects
Each file in the image or iso tree is represented by an IsoNode instance. In
the same way a POSIX filesystem has several file types (regular files,
directories, symlinks...), the IsoNode has several subtypes:
IsoNode
|
---------------------------------
| | | |
IsoDir IsoFile IsoSymlink IsoSpecial
where
- IsoDir represents a directory
- IsoFile represents a regular file
- IsoSymlink represents a symbolic linke
- IsoSpecial represents any other POSIX file, i.e. block and character
devices, FIFOs, sockets.
You can obtain the concrete type of an IsoNode with the iso_node_get_type()
function.
Many libisofs functions take or return an IsoNode. Many others, however,
require an specific type. You can safety cast any subtype to an IsoNode
object. In the same way, after ensuring you are dealing with the correct
subtype, you can downcast a given IsoNode to the specific subtype.
IsoDir *dir;
IsoNode *node;
node = (IsoNode*) dir;
if (iso_node_get_type(node) == LIBISO_DIR) {
dir = (IsoDir*) node;
...
}
* Adding files to the image
Files can be added to the image or iso tree either as new files or as files
"imported" from the filesystem.
In the first case, files are created directly on the image. They do not
correspond to any file in the filesystem.
[...explain this kind of functions...]
On the other side, you can add local files to the image, either with the
iso_tree_add_node()
or with
iso_tree_add_dir_rec().
The first is intended to add a single file, while the last can be used to add,
recursively, a full directory (see below for details).
It is important to note that libisofs doesn't store any kind of link between
the IsoNode and the filesystem file it was created from. The above functions
just initialize a newly created IsoNode with the attributes of a given file in
the filesystem. After that, you can move the original file, change its
attributes or even delete it. The IsoNode in the image tree remains with the
original attributes. One exception to this rule are the contents of a regular
file. Libisofs does not make any copy of those contents until they're actually
written to image. Thus, you shouldn't modify, move or delete regular files
after adding them to the IsoImage.
* Recursive directory addition.
[TODO]
* Operations on iso tree
[TODO briefly explain how to add node, change attributes, ...]
-------------------------------------------------------------------------------
2.2 Set the write options