NAME
Solaris::DeviceTree::Libdevinfo - Perl interface to the Solaris devinfo library
SYNOPSIS
Construction and destruction:
use Solaris::DeviceTree::Libdevinfo;
$tree = Solaris::DeviceTree::Libdevinfo->new;Data access methods:
$path = $node->devfs_path;
$nodename = $node->node_name;
$bindingname = $node->binding_name;
$busaddr = $node->bus_addr;
@cnames = $devtree->compatible_names;
$drivername = $devtree->driver_name;
%ops = $devtree->driver_ops;
$inst = $node->instance;
%state = $node->state;
$id = $node->nodeid;
if( $node->is_pseudo_node ) { ... }
if( $node->is_sid_node ) { ... }
if( $node->is_prom_node ) { ... }
$props = $node->props;
$promprops = $node->prom_props;
@minor = $node->minor_nodes;DESCRIPTION
This module implements the Solaris::DeviceTree::Node interface and allows access to the Solaris devinfo library libdevinfo(3lib). The devicetree is represented as a hierarchical collection of nodes in the kernel.
The implementation closely resembles the API of the C library. However, due to the object interface and the beauty of Perl there a few differences to keep in mind when using this library after reading the manual pages of the original libdevinfo(3lib):
The 'di_'-prefix of the function names from the C API has been stripped.
The functions
di_initanddi_finifor generation and destruction of devicetrees are now called implicitly during contruction and destruction repectively.Accessing the nodes by driver via
di_drv_first_nodeanddi_drv_next_nodeis not implemented in favor of the much more expressivefind_nodesadded in Perl.The function
di_walk_nodeis not implemented because treewalking in Perl usingchild_nodesis much easier than in C and is therefore not needed.Getting child nodes via subsequent calls to
di_child_nodehas been simplified to a single call tochild_nodesreturning an array of all child nodes.Access to
di_devidis currently not implemented as the returned value is meaningless without access to libdevid(3lib), which I have not done (yet). Requests welcome.
di_binding_name di_bus_addr
di_child_node di_compatible_names
di_devfs_path di_devfs_path_free
di_devid di_driver_name
di_driver_ops di_drv_first_node
di_drv_next_node di_fini
di_init di_instance
di_minor_class di_minor_devt
di_minor_name di_minor_next
di_minor_nodetype di_minor_spectype
di_minor_type di_node_name
di_nodeid di_parent_node
di_prom_fini di_prom_init
di_prom_prop_data di_prom_prop_lookup_bytes
di_prom_prop_lookup_ints di_prom_prop_lookup_strings
di_prom_prop_name di_prom_prop_next
di_prop_bytes di_prop_devt
di_prop_ints di_prop_lookup_bytes
di_prop_lookup_ints di_prop_lookup_strings
di_prop_name di_prop_next
di_prop_strings di_prop_type
di_sibling_node di_state
di_walk_minor di_walk_nodeMETHODS
For tree traversal methods see the base class Solaris::DeviceTree::Node.
The following methods are available:
new
The constructor returns a reference to the root node object, which is a Solaris::DeviceTree::Libdevinfo object. The methods are all read-only.
devfs_path
Returns the physical path assocatiated with this node.
node_name
Returns the name of the node.
binding_name
Returns the binding name for this node. The binding name is the name used by the system to select a driver for the device.
bus_addr
Returns the address on the bus for this node. undef is returned if a bus address has not been assigned to the device. A zero-length string may be returned and is considered a valid bus address.
compatible_names
Returns the list of names from compatible device for the current node. See the discussion of generic names in Writing Device Drivers for a description of how compatible names are used by Solaris to achieve driver binding for the node.
driver_name
Returns the name of the driver for the node or undef if the node is not bound to any driver.
driver_ops
Returns a hash whos keys indicate, which entry points of the device driver entry points are supported by the driver bound to this node. Possible keys are:
BUS
CB
STREAMinstance
Returns the instance number for this node of the bound driver. undef is returned if no instance number has been assigned.
state
Returns the driver state attached to this node as hash. The presence of the keys in the hash represent the states of the driver. The following keys in the hash can be present:
DRIVER_DETACHED
DEVICE_OFFLINE
DEVICE_DOWN
BUS_QUIESCED
BUS_DOWNnodeid
Returns the type of the node. Three different strings identifying the types can be returned or undef if the type is unknown:
PSEUDO
SID
PROMNodes of the type PROM may have additional PROM properties that are defined by the PROM. The properties can be accessed with "prom_props".
is_pseudo_node =head2 is_sid_node =head2 is_prom_node
Returns true if the node is of type pseudo / SID / PROM or undef if not.
props
Returns a reference to a hash which maps property names to property values. The property values are of class Solaris::DeviceTree::Libdevinfo::Property.
prom_props
Returns a reference to a hash which maps PROM property names to property values. The property values are of class Solaris::DeviceTree::Libdevinfo::PromProperty. If the PROM device can not be opened (most likely because the process does not have the permission to access /dev/openprom) then undef is returned.
minor_nodes
Returns a reference to a list of all minor nodes which are associated with this node. The minor nodes are of class Solaris::DeviceTree::Libdevinfo::MinorNode.
AUTHOR
Copyright 1999-2003 Dagobert Michelsen.
SEE ALSO
libdevinfo(3devinfo), libdevinfo(3lib), Solaris::DeviceTree::Libdevinfo::MinorNode, Solaris::DeviceTree::Libdevinfo::Property, Solaris::DeviceTree::Libdevinfo::PromProperty.