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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [acpi/] [namespace/] [nsalloc.c] - Rev 1275
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/******************************************************************************* * * Module Name: nsalloc - Namespace allocation and deletion utilities * ******************************************************************************/ /* * Copyright (C) 2000 - 2004, R. Byron Moore * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * 3. Neither the names of the above-listed copyright holders nor the names * of any contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. */ #include <acpi/acpi.h> #include <acpi/acnamesp.h> #define _COMPONENT ACPI_NAMESPACE ACPI_MODULE_NAME ("nsalloc") /******************************************************************************* * * FUNCTION: acpi_ns_create_node * * PARAMETERS: acpi_name - Name of the new node * * RETURN: None * * DESCRIPTION: Create a namespace node * ******************************************************************************/ struct acpi_namespace_node * acpi_ns_create_node ( u32 name) { struct acpi_namespace_node *node; ACPI_FUNCTION_TRACE ("ns_create_node"); node = ACPI_MEM_CALLOCATE (sizeof (struct acpi_namespace_node)); if (!node) { return_PTR (NULL); } ACPI_MEM_TRACKING (acpi_gbl_memory_lists[ACPI_MEM_LIST_NSNODE].total_allocated++); node->name.integer = name; node->reference_count = 1; ACPI_SET_DESCRIPTOR_TYPE (node, ACPI_DESC_TYPE_NAMED); return_PTR (node); } /******************************************************************************* * * FUNCTION: acpi_ns_delete_node * * PARAMETERS: Node - Node to be deleted * * RETURN: None * * DESCRIPTION: Delete a namespace node * ******************************************************************************/ void acpi_ns_delete_node ( struct acpi_namespace_node *node) { struct acpi_namespace_node *parent_node; struct acpi_namespace_node *prev_node; struct acpi_namespace_node *next_node; ACPI_FUNCTION_TRACE_PTR ("ns_delete_node", node); parent_node = acpi_ns_get_parent_node (node); prev_node = NULL; next_node = parent_node->child; /* Find the node that is the previous peer in the parent's child list */ while (next_node != node) { prev_node = next_node; next_node = prev_node->peer; } if (prev_node) { /* Node is not first child, unlink it */ prev_node->peer = next_node->peer; if (next_node->flags & ANOBJ_END_OF_PEER_LIST) { prev_node->flags |= ANOBJ_END_OF_PEER_LIST; } } else { /* Node is first child (has no previous peer) */ if (next_node->flags & ANOBJ_END_OF_PEER_LIST) { /* No peers at all */ parent_node->child = NULL; } else { /* Link peer list to parent */ parent_node->child = next_node->peer; } } ACPI_MEM_TRACKING (acpi_gbl_memory_lists[ACPI_MEM_LIST_NSNODE].total_freed++); /* * Detach an object if there is one then delete the node */ acpi_ns_detach_object (node); ACPI_MEM_FREE (node); return_VOID; } #ifdef ACPI_ALPHABETIC_NAMESPACE /******************************************************************************* * * FUNCTION: acpi_ns_compare_names * * PARAMETERS: Name1 - First name to compare * Name2 - Second name to compare * * RETURN: value from strncmp * * DESCRIPTION: Compare two ACPI names. Names that are prefixed with an * underscore are forced to be alphabetically first. * ******************************************************************************/ int acpi_ns_compare_names ( char *name1, char *name2) { char reversed_name1[ACPI_NAME_SIZE]; char reversed_name2[ACPI_NAME_SIZE]; u32 i; u32 j; /* * Replace all instances of "underscore" with a value that is smaller so * that all names that are prefixed with underscore(s) are alphabetically * first. * * Reverse the name bytewise so we can just do a 32-bit compare instead * of a strncmp. */ for (i = 0, j= (ACPI_NAME_SIZE - 1); i < ACPI_NAME_SIZE; i++, j--) { reversed_name1[j] = name1[i]; if (name1[i] == '_') { reversed_name1[j] = '*'; } reversed_name2[j] = name2[i]; if (name2[i] == '_') { reversed_name2[j] = '*'; } } return (*(int *) reversed_name1 - *(int *) reversed_name2); } #endif /******************************************************************************* * * FUNCTION: acpi_ns_install_node * * PARAMETERS: walk_state - Current state of the walk * parent_node - The parent of the new Node * Node - The new Node to install * Type - ACPI object type of the new Node * * RETURN: None * * DESCRIPTION: Initialize a new namespace node and install it amongst * its peers. * * Note: Current namespace lookup is linear search. However, the * nodes are linked in alphabetical order to 1) put all reserved * names (start with underscore) first, and to 2) make a readable * namespace dump. * ******************************************************************************/ void acpi_ns_install_node ( struct acpi_walk_state *walk_state, struct acpi_namespace_node *parent_node, /* Parent */ struct acpi_namespace_node *node, /* New Child*/ acpi_object_type type) { u16 owner_id = 0; struct acpi_namespace_node *child_node; #ifdef ACPI_ALPHABETIC_NAMESPACE struct acpi_namespace_node *previous_child_node; #endif ACPI_FUNCTION_TRACE ("ns_install_node"); /* * Get the owner ID from the Walk state * The owner ID is used to track table deletion and * deletion of objects created by methods */ if (walk_state) { owner_id = walk_state->owner_id; } /* Link the new entry into the parent and existing children */ child_node = parent_node->child; if (!child_node) { parent_node->child = node; node->flags |= ANOBJ_END_OF_PEER_LIST; node->peer = parent_node; } else { #ifdef ACPI_ALPHABETIC_NAMESPACE /* * Walk the list whilst searching for the the correct * alphabetic placement. */ previous_child_node = NULL; while (acpi_ns_compare_names (acpi_ut_get_node_name (child_node), acpi_ut_get_node_name (node)) < 0) { if (child_node->flags & ANOBJ_END_OF_PEER_LIST) { /* Last peer; Clear end-of-list flag */ child_node->flags &= ~ANOBJ_END_OF_PEER_LIST; /* This node is the new peer to the child node */ child_node->peer = node; /* This node is the new end-of-list */ node->flags |= ANOBJ_END_OF_PEER_LIST; node->peer = parent_node; break; } /* Get next peer */ previous_child_node = child_node; child_node = child_node->peer; } /* Did the node get inserted at the end-of-list? */ if (!(node->flags & ANOBJ_END_OF_PEER_LIST)) { /* * Loop above terminated without reaching the end-of-list. * Insert the new node at the current location */ if (previous_child_node) { /* Insert node alphabetically */ node->peer = child_node; previous_child_node->peer = node; } else { /* Insert node alphabetically at start of list */ node->peer = child_node; parent_node->child = node; } } #else while (!(child_node->flags & ANOBJ_END_OF_PEER_LIST)) { child_node = child_node->peer; } child_node->peer = node; /* Clear end-of-list flag */ child_node->flags &= ~ANOBJ_END_OF_PEER_LIST; node->flags |= ANOBJ_END_OF_PEER_LIST; node->peer = parent_node; #endif } /* Init the new entry */ node->owner_id = owner_id; node->type = (u8) type; ACPI_DEBUG_PRINT ((ACPI_DB_NAMES, "%4.4s (%s) [Node %p Owner %X] added to %4.4s (%s) [Node %p]\n", acpi_ut_get_node_name (node), acpi_ut_get_type_name (node->type), node, owner_id, acpi_ut_get_node_name (parent_node), acpi_ut_get_type_name (parent_node->type), parent_node)); /* * Increment the reference count(s) of all parents up to * the root! */ while ((node = acpi_ns_get_parent_node (node)) != NULL) { node->reference_count++; } return_VOID; } /******************************************************************************* * * FUNCTION: acpi_ns_delete_children * * PARAMETERS: parent_node - Delete this objects children * * RETURN: None. * * DESCRIPTION: Delete all children of the parent object. In other words, * deletes a "scope". * ******************************************************************************/ void acpi_ns_delete_children ( struct acpi_namespace_node *parent_node) { struct acpi_namespace_node *child_node; struct acpi_namespace_node *next_node; struct acpi_namespace_node *node; u8 flags; ACPI_FUNCTION_TRACE_PTR ("ns_delete_children", parent_node); if (!parent_node) { return_VOID; } /* If no children, all done! */ child_node = parent_node->child; if (!child_node) { return_VOID; } /* * Deallocate all children at this level */ do { /* Get the things we need */ next_node = child_node->peer; flags = child_node->flags; /* Grandchildren should have all been deleted already */ if (child_node->child) { ACPI_DEBUG_PRINT ((ACPI_DB_ERROR, "Found a grandchild! P=%p C=%p\n", parent_node, child_node)); } /* Now we can free this child object */ ACPI_MEM_TRACKING (acpi_gbl_memory_lists[ACPI_MEM_LIST_NSNODE].total_freed++); ACPI_DEBUG_PRINT ((ACPI_DB_ALLOCATIONS, "Object %p, Remaining %X\n", child_node, acpi_gbl_current_node_count)); /* * Detach an object if there is one, then free the child node */ acpi_ns_detach_object (child_node); /* * Decrement the reference count(s) of all parents up to * the root! (counts were incremented when the node was created) */ node = child_node; while ((node = acpi_ns_get_parent_node (node)) != NULL) { node->reference_count--; } /* There should be only one reference remaining on this node */ if (child_node->reference_count != 1) { ACPI_REPORT_WARNING (("Existing references (%d) on node being deleted (%p)\n", child_node->reference_count, child_node)); } /* Now we can delete the node */ ACPI_MEM_FREE (child_node); /* And move on to the next child in the list */ child_node = next_node; } while (!(flags & ANOBJ_END_OF_PEER_LIST)); /* Clear the parent's child pointer */ parent_node->child = NULL; return_VOID; } /******************************************************************************* * * FUNCTION: acpi_ns_delete_namespace_subtree * * PARAMETERS: parent_node - Root of the subtree to be deleted * * RETURN: None. * * DESCRIPTION: Delete a subtree of the namespace. This includes all objects * stored within the subtree. * ******************************************************************************/ void acpi_ns_delete_namespace_subtree ( struct acpi_namespace_node *parent_node) { struct acpi_namespace_node *child_node = NULL; u32 level = 1; ACPI_FUNCTION_TRACE ("ns_delete_namespace_subtree"); if (!parent_node) { return_VOID; } /* * Traverse the tree of objects until we bubble back up * to where we started. */ while (level > 0) { /* Get the next node in this scope (NULL if none) */ child_node = acpi_ns_get_next_node (ACPI_TYPE_ANY, parent_node, child_node); if (child_node) { /* Found a child node - detach any attached object */ acpi_ns_detach_object (child_node); /* Check if this node has any children */ if (acpi_ns_get_next_node (ACPI_TYPE_ANY, child_node, 0)) { /* * There is at least one child of this node, * visit the node */ level++; parent_node = child_node; child_node = 0; } } else { /* * No more children of this parent node. * Move up to the grandparent. */ level--; /* * Now delete all of the children of this parent * all at the same time. */ acpi_ns_delete_children (parent_node); /* New "last child" is this parent node */ child_node = parent_node; /* Move up the tree to the grandparent */ parent_node = acpi_ns_get_parent_node (parent_node); } } return_VOID; } /******************************************************************************* * * FUNCTION: acpi_ns_remove_reference * * PARAMETERS: Node - Named node whose reference count is to be * decremented * * RETURN: None. * * DESCRIPTION: Remove a Node reference. Decrements the reference count * of all parent Nodes up to the root. Any node along * the way that reaches zero references is freed. * ******************************************************************************/ void acpi_ns_remove_reference ( struct acpi_namespace_node *node) { struct acpi_namespace_node *parent_node; struct acpi_namespace_node *this_node; ACPI_FUNCTION_ENTRY (); /* * Decrement the reference count(s) of this node and all * nodes up to the root, Delete anything with zero remaining references. */ this_node = node; while (this_node) { /* Prepare to move up to parent */ parent_node = acpi_ns_get_parent_node (this_node); /* Decrement the reference count on this node */ this_node->reference_count--; /* Delete the node if no more references */ if (!this_node->reference_count) { /* Delete all children and delete the node */ acpi_ns_delete_children (this_node); acpi_ns_delete_node (this_node); } this_node = parent_node; } } /******************************************************************************* * * FUNCTION: acpi_ns_delete_namespace_by_owner * * PARAMETERS: owner_id - All nodes with this owner will be deleted * * RETURN: Status * * DESCRIPTION: Delete entries within the namespace that are owned by a * specific ID. Used to delete entire ACPI tables. All * reference counts are updated. * ******************************************************************************/ void acpi_ns_delete_namespace_by_owner ( u16 owner_id) { struct acpi_namespace_node *child_node; struct acpi_namespace_node *deletion_node; u32 level; struct acpi_namespace_node *parent_node; ACPI_FUNCTION_TRACE_U32 ("ns_delete_namespace_by_owner", owner_id); parent_node = acpi_gbl_root_node; child_node = NULL; deletion_node = NULL; level = 1; /* * Traverse the tree of nodes until we bubble back up * to where we started. */ while (level > 0) { /* * Get the next child of this parent node. When child_node is NULL, * the first child of the parent is returned */ child_node = acpi_ns_get_next_node (ACPI_TYPE_ANY, parent_node, child_node); if (deletion_node) { acpi_ns_remove_reference (deletion_node); deletion_node = NULL; } if (child_node) { if (child_node->owner_id == owner_id) { /* Found a matching child node - detach any attached object */ acpi_ns_detach_object (child_node); } /* Check if this node has any children */ if (acpi_ns_get_next_node (ACPI_TYPE_ANY, child_node, NULL)) { /* * There is at least one child of this node, * visit the node */ level++; parent_node = child_node; child_node = NULL; } else if (child_node->owner_id == owner_id) { deletion_node = child_node; } } else { /* * No more children of this parent node. * Move up to the grandparent. */ level--; if (level != 0) { if (parent_node->owner_id == owner_id) { deletion_node = parent_node; } } /* New "last child" is this parent node */ child_node = parent_node; /* Move up the tree to the grandparent */ parent_node = acpi_ns_get_parent_node (parent_node); } } return_VOID; }
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