Hash :
76f2e7bb
Author :
Date :
2010-04-26T15:57:21
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/*
* OpenBIOS - free your system!
* ( FCode tokenizer )
*
* This program is part of a free implementation of the IEEE 1275-1994
* Standard for Boot (Initialization Configuration) Firmware.
*
* Copyright (C) 2001-2010 Stefan Reinauer <stepan@openbios.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA, 02110-1301 USA
*
*/
/* **************************************************************************
*
* Support routines for managing device-node vocabularies
*
* (C) Copyright 2005 IBM Corporation. All Rights Reserved.
* Module Author: David L. Paktor dlpaktor@us.ibm.com
*
**************************************************************************** */
/* **************************************************************************
*
* The vocabulary that is created for a device-node must not remain
* available outside of that node. Also, nodes may be nested,
* child within parent.
* An attempt within a child-node to access directly a method defined
* in the parent must be flagged as an error. (Consider what would
* happen if the method in the parent-node used instance data, and
* the child-node has an instance of its own.)
* The correct way is to invoke the method via "$call-parent" or the like.
*
* We will, however, allow the user to specify a group of exceptions,
* words whose scope will be "global" within the tokenization.
* When "global" scope is initiated, definitions will be made to
* the "core" vocabulary until "device" scope is resumed.
* That will (mostly) all be handled in dictionary.c
*
**************************************************************************** */
/* **************************************************************************
*
* Functions Exported:
* new_device_vocab Create the new device-node's data-structure
* delete_device_vocab Remove device-node's data-structure
* finish_device_vocab Remove struct and give messages when
* device is "finish"ed.
* exists_in_ancestor Issue a Message if the given word exists
* in an ancestor of the current dev-node.
*
**************************************************************************** */
/* **************************************************************************
*
* Still to be done:
* Add a pair of fields to the data-structure for the Input File and
* Line Number where "finish-device" occurred. When a device-node
* is "finish"ed, do not delete it, but instead fill in those
* fields and the move the node to a separate linked-list.
* When looking whether a word exists in an ancestor-node, also
* check whether it was in a device-node that was finished and
* print both where it was started and where it was finished.
*
**************************************************************************** */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "devnode.h"
#include "errhandler.h"
#include "scanner.h"
#include "vocabfuncts.h"
#include "flowcontrol.h"
#include "stream.h"
#include "ticvocab.h"
/* **************************************************************************
*
* Tokenization starts with an implicit "new-device" in effect.
* The top-level device-node is never removed.
*
* Initialize it here
*
**************************************************************************** */
char default_top_dev_ifile_name[] = "Start of tokenization";
static device_node_t top_level_dev_node = {
NULL , /* parent_node */
default_top_dev_ifile_name , /* ifile_name.
* Something to show, Just In Case
*/
0 , /* line_no */
NULL , /* tokens_vocab */
};
/* **************************************************************************
*
* Global Variables Exported.
* Pointers to:
* current_device_node data-structure of current device-node
* current_definitions vocab into which to add def'ns.
*
**************************************************************************** */
device_node_t *current_device_node = &top_level_dev_node;
tic_hdr_t **current_definitions = &(top_level_dev_node.tokens_vocab);
/* **************************************************************************
*
* Internal Static Variables
* These are used to support the routines in_what_node()
* and show_node_start() , which are used to facilitate
* certain kinds of Messaging, as described later.
*
* in_what_buffr Buffer for the in_what_node() string
* show_where TRUE if the string needs to be followed-up
* show_which TRUE if follow-up should be just_where_started()
* rather than just_started_at()
* in_what_line Line Number to use in the follow-up
* in_what_file File Name to use in the follow-up
*
**************************************************************************** */
static char in_what_buffr[50]; /* Ought to be more than enough. */
static bool show_where = FALSE;
static bool show_which;
static int in_what_line;
static char *in_what_file;
/* **************************************************************************
*
* Function name: dev_vocab_control_struct_check
* Synopsis: Issue Warnings for unresolved flow-control constructs
* at start or end of a device-node.
*
* Inputs:
* Parameters: NONE
* Global Variables:
* statbuf The command being processed.
*
* Outputs:
* Returned Value: NONE
* Printout:
* Handled by announce_control_structs() routine
*
* Error Detection:
* Handled by announce_control_structs() routine
*
* Process Explanation:
* Set up a buffer with the error message, based on statbuf
* and pass it to announce_control_structs()
* Release it when done.
*
**************************************************************************** */
static void dev_vocab_control_struct_check( void)
{
char *ccs_messg;
ccs_messg = safe_malloc(strlen(statbuf) + 32,
"Device-Node control-structure check");
strcpy( ccs_messg, statbuf );
strupr( ccs_messg);
strcat( ccs_messg, " encountered");
announce_control_structs( WARNING, ccs_messg, 0 );
free( ccs_messg);
}
/* **************************************************************************
*
* Function name: new_device_vocab
* Synopsis: Create and initialize the data-structure for a
* new device-node when a "new-device" is created,
* with messages as appropriate.
*
* Inputs:
* Parameters: NONE
* Global Variables:
* statbuf The word that was just read.
* iname Current Input-File Name
* lineno Current line-number
*
* Outputs:
* Returned Value: NONE
* Global Variables:
* current_device_node Will point to the new data-structure
* Memory Allocated
* Space for the new device_node_t data-structure
* Space for a copy of the current input file name
* When Freed?
* By delete_device_vocab(), when the device-node is "finish"ed.
* Printout:
* Advisory message.
*
* Error Detection:
* In immediate-execution mode, Control Structures that have not
* been completed are questionable; Issue WARNINGS via the
* dev_vocab_control_struct_check() routine.
*
* Process Explanation:
* This routine is called when "new-device" is invoked, but only
* if we are in immediate-execution mode.
* Later on, in ERROR- or INFOrmative messages, we will want to
* be able to refer to the file and line-number in which this
* was encountered, so we include them in the structure.
*
**************************************************************************** */
void new_device_vocab( void )
{
device_node_t *new_node_data;
dev_vocab_control_struct_check();
/* Advisory message will mention previous device-node
* if there was one. Either way starts out the same:
*/
#define NEW_DEV_MSG_START "Encountered %s. Starting new device-node."
if ( current_device_node == &top_level_dev_node )
{
tokenization_error(INFO, NEW_DEV_MSG_START "\n", statbuf );
}else{
tokenization_error(INFO, NEW_DEV_MSG_START
" Suspending definitions of parent-device node", statbuf );
started_at( current_device_node->ifile_name,
current_device_node->line_no );
}
/* Now to business... */
new_node_data = safe_malloc( sizeof(device_node_t),
"creating new-device vocab data" );
new_node_data->parent_node = current_device_node;
new_node_data->ifile_name = strdup(iname);
new_node_data->line_no = lineno;
new_node_data->tokens_vocab = NULL;
current_device_node = new_node_data;
current_definitions = &(current_device_node->tokens_vocab);
}
/* **************************************************************************
*
* Function name: delete_device_vocab
* Synopsis: Remove the vocabularies of the current device-node,
* along with its data-structure, when the device
* is "finish"ed; do not print messages.
* Do not remove the top-level device-node data-struct.
*
* Associated FORTH words: FINISH_DEVICE (interpretive state)
* END0 END1
* Associated Tokenizer directives: RESET-SYMBOLS (in "Normal" mode)
* FCODE-END
*
* Inputs:
* Parameters: NONE
* Global Variables:
* current_device_node Points to current device's struct
* Leads to chain of dev-node structs
*
* Outputs:
* Returned Value:
* Global Variables:
* current_device_node Parent-device's struct becomes current
* Memory Freed
* All that was allocated for the tokens and the definers
* vocabs in the current device-node
* The copy of the input file name, except the top-level
* The current_device_node data-structure, except the top-level
*
**************************************************************************** */
void delete_device_vocab( void )
{
reset_tic_vocab( current_definitions, NULL );
if ( current_device_node != &top_level_dev_node )
{
device_node_t *temp_node = current_device_node;
current_device_node = current_device_node->parent_node;
free( temp_node->ifile_name );
free(temp_node);
}
current_definitions = &(current_device_node->tokens_vocab);
}
/* **************************************************************************
*
* Function name: finish_device_vocab
* Synopsis: Remove the device-node data-structure and all its
* vocabularies when the device is "finish"ed,
* with appropriate messages.
* Do not remove the top-level device node data-struct.
*
* Associated FORTH word: FINISH_DEVICE
*
* Inputs:
* Parameters: NONE
* Global Variables:
* current_device_node Current device's struct pointer
*
* Outputs:
* Returned Value: NONE
* Global Variables:
* current_device_node Parent-device's struct becomes current
* Printout:
* Advisory message.
*
* Error Detection:
* If current_device_node is already pointing at the top-level
* device node, it means there was no corresponding NEW-DEVICE
* Issue an ERROR.
* In immediate-execution mode, Control Structures that have not
* been completed are questionable; Issue WARNINGS via the
* dev_vocab_control_struct_check() routine.
*
* Process Explanation:
* This routine is called when "finish-device" is invoked, but only
* if we are in immediate-execution mode.
*
**************************************************************************** */
void finish_device_vocab( void )
{
bool at_top_level;
dev_vocab_control_struct_check();
/* We never remove the top-level device-node vocabulary,
* so we need to test whether we're about to.
*/
at_top_level = BOOLVAL( current_device_node == &top_level_dev_node );
if ( at_top_level )
{
tokenization_error( TKERROR,
"Encountered %s without corresponding NEW-DEVICE. "
"Resetting definitions since start of tokenization.\n",
statbuf );
}else{
tokenization_error(INFO,
"Encountered %s. Resetting definitions of device node",
statbuf );
started_at( current_device_node->ifile_name,
current_device_node->line_no );
}
/* Now to business... */
delete_device_vocab();
/* Did we just get to the top-level device-node vocabulary
* when we weren't before?
*/
if ( INVERSE(at_top_level) )
{
if ( current_device_node == &top_level_dev_node )
{
tokenization_error(INFO,
"Resuming definitions since start of tokenization.\n" );
}else{
tokenization_error(INFO,
"Resuming definitions of parent device-node" );
started_at( current_device_node->ifile_name,
current_device_node->line_no );
}
}
}
/* **************************************************************************
*
* Function name: in_what_node
* Synopsis: Format a string for use in a Message that might
* identify the start of the given device-node.
*
* Inputs:
* Parameters:
* the_node The device-node vocabulary about which
* to construct the identifying phrase.
* Local Static Variables:
* in_what_buffr Buffer in which to format the string.
* Global Variables:
* current_definitions Device-node vocabulary currently
* in effect.
*
* Outputs:
* Returned Value: Pointer to buffer w/ formatted string
* Local Static Variables:
* in_what_buffr Will contain the formatted string.
* show_where TRUE if the string needs to be followed-up
* (i.e., did not contain a terminating
* new-line) by just_where_started()
* or by just_started_at()
* show_which TRUE if the follow-up call should be
* to just_where_started() rather
* than to just_started_at()
* in_what_line Copy of line_no field from the_node
* in_what_file Copy of ifile_name field from the_node
*
* Process Explanation:
* Calling routine must ascertain that Global-scope is not in effect.
* The returned phrase can be used as a string argument in a Message.
* Set show_where TRUE if the_node->line_no is non-zero.
* Set show_which TRUE if the_node is either the Current or the
* Top-Level device-node
* If the originating line-number in the given Node structure is zero,
* the returned phrase will contain a terminating new-line.
* (This only happens if the given Node is the top-level Node,
* and it's the Current Node, and the "official" starting-point
* hasn't yet been established by an "FCode-Starter" such as
* FCODE-VERSION2 . Once that command has been given, even
* definitions that were made prior to it belong to the Node
* that started there.)
* Otherwise, show_where is returned TRUE, and show_which becomes
* relevant. If the given node is the Current or the Top-Level
* node, text about the originating file-name and line-number
* merely describes a node that is already uniquely identified,
* so the message appended to the buffer will have the phrase
* "which began" (which introduces what is known in grammar as
* an Appositive Subordinate Clause) and show_which will be
* returned TRUE. If the given node is not uniquely identifiable
* without the file- and line- phrase, then the Subordinate Clause
* is Indicative, and should be introduced with "that" (and no
* comma); in that case, we will return show_which as FALSE.
* After the calling routine displays the message in which the
* returned phrase is used, it must call show_node_start()
* to display the followe-up message, if any.
*
**************************************************************************** */
char *in_what_node(device_node_t *the_node)
{
bool top_node = BOOLVAL( the_node == &top_level_dev_node);
bool curr_node = BOOLVAL( the_node == current_device_node);
bool known_node = BOOLVAL( top_node || curr_node );
bool no_line = BOOLVAL( the_node->line_no == 0);
show_where = INVERSE( no_line );
show_which = known_node;
in_what_line = the_node->line_no;
in_what_file = the_node->ifile_name;
sprintf( in_what_buffr, "in the%s device-node%s",
INVERSE( known_node ) ? ""
: top_node ? " top-level" : " current" ,
no_line ? ".\n"
: known_node ? ", which began" : "" );
return( in_what_buffr);
}
/* **************************************************************************
*
* Function name: show_node_start
* Synopsis: Follow-up to the in_what_node() call. Print out,
* if applicable, the text about the originating
* file-name and line-number
*
* Inputs:
* Parameters: NONE
* Local Static Variables:
* show_where Nothing to do if not TRUE
* show_which TRUE if should call just_where_started()
* rather than just_started_at()
* in_what_line Line Number to use in the follow-up
* in_what_file File Name to use in the follow-up
*
* Outputs:
* Returned Value: NONE
* Local Static Variables:
* show_where Force to FALSE
* Printout:
* Follow-up to the in_what_node() call. Applicable text
* about the originating file-name and line-number.
*
* Process Explanation:
* By forcing show_where to FALSE after this is called, we
* can safely allow routines that might or might not have
* called in_what_node() to call this routine, without
* needing any additional "bookkeeping".
*
**************************************************************************** */
void show_node_start( void)
{
if ( show_where)
{
if ( show_which )
{
just_where_started( in_what_file, in_what_line);
}else{
just_started_at( in_what_file, in_what_line);
}
show_where = FALSE;
}
}
/* **************************************************************************
*
* Function name: exists_in_ancestor
* Synopsis: Issue a Message and return an indication if
* the given word exists in an ancestor of
* the current device-node.
* Used for additional error-message information.
*
*
* Inputs:
* Parameters:
* m_name "Method" name
* Global Variables:
* current_device_node Leads to chain of dev-node data-structs
* scope_is_global TRUE if "global" scope is in effect
*
* Outputs:
* Returned Value: TRUE if word found
* Printout:
* If m_name exists in an ancestor-node, print an ADVISORY
* giving the location where the ancestor originated.
*
* Error Detection:
* None here. Calling routine detected error; see below.
*
* Process Explanation:
* This routine was called as the result of detecting an error:
* viz., m_name was not found in either the current node
* or the base vocabulary. (Except: If "global" scope is
* in effect, we didn't search the current device-node).
*
**************************************************************************** */
bool exists_in_ancestor( char *m_name)
{
tic_hdr_t *found;
bool retval = FALSE;
if ( current_device_node != NULL )
{
device_node_t *grandpa = current_device_node->parent_node;
if ( scope_is_global ) grandpa = current_device_node;
for ( ; grandpa != NULL; grandpa = grandpa->parent_node )
{
found = lookup_tic_entry( m_name, grandpa->tokens_vocab);
if ( found != NULL )
{
retval = TRUE;
break;
}
}
if ( grandpa != NULL )
{
char as_what_buf[AS_WHAT_BUF_SIZE] = "";
if ( as_a_what( found->fword_defr, as_what_buf) )
{
strcat( as_what_buf, " ");
}
tokenization_error(INFO, "%s is defined %s%s", m_name,
as_what_buf, in_what_node( grandpa) );
show_node_start();
}
}
return(retval );
}