Hash :
60c9c198
Author :
Date :
2006-10-30T09:48:28
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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) 2001-2005 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
*
*/
/* **************************************************************************
*
* Functions for Managing FCode Assignment Pointer and for
* Detection of Overlapping-FCode Error in Tokenizer
*
* (C) Copyright 2006 IBM Corporation. All Rights Reserved.
* Module Author: David L. Paktor dlpaktor@us.ibm.com
*
**************************************************************************** */
/* **************************************************************************
*
* The fact that the user is able to specify, at any time, the
* next FCode number to be assigned introduces the risk that
* a symbol might inadvertently be assigned an FCode that is
* still in use by another symbol, which could lead to bizarre
* and hard-to-trace failures at run-time.
*
* This module will support a means whereby to detect and report,
* as an Error, overlapping FCode assignments.
*
* The task is further complicated by the fact that, under some
* circumstances, "recycling" a range of FCodes can be done
* safely, and the programmer may do so intentionally.
*
* We will define a way for the programmer to specify that FCode
* assignments are being intentionally "recycled", and that
* overlaps with previously-assigned FCodes are not to be
* treated as Errors. We will not attempt to analyze whether
* it is, indeed, safe to do so; the programmer who does this
* is presumed to be sufficiently responsible.
*
**************************************************************************** */
/* **************************************************************************
*
* Functions Exported:
* reset_fcode_ranges (Re-)Initialize the range of assignable
* FCode numbers and clear the records
* of prevously-assigned ranges of FCodes
* list_fcode_ranges Display a final report of assigned FCode
* ranges at end of tokenization or when
* the reset_fcodes() routine is called.
* set_next_fcode Set the start of a new Range of FCode
* numbers to be assigned.
* assigning_fcode The next FCode number is about to be assigned;
* test for out-of-bounds, overlap, etc.
* errors.
* bump_fcode Increment the next FCode number prior to the
* next assignment.
*
**************************************************************************** */
/* **************************************************************************
*
* Revision History:
* 06 Jun 06 -- Need became apparent after verification test
* against existing device-drivers.
*
*
**************************************************************************** */
/* **************************************************************************
*
* Still to be done:
* Detect and report when the Current Range stops overlapping
* one particular Range and starts overlapping another.
*
* Detect and report when the Current Range overlaps more than
* one Range at a time (e.g., if other Ranges themselves
* overlap, and the Current Range is stepping through them)
* but, again, only display one message per overlapped Range.
*
**************************************************************************** */
/* **************************************************************************
*
* Global Variables Imported
* iname Name of current input file
* lineno Line Number within current input file
*
**************************************************************************** */
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include "toke.h"
#include "nextfcode.h"
#include "errhandler.h"
#include "stream.h"
#include "scanner.h"
/* **************************************************************************
*
* Global Variables Exported
* nextfcode The next FCode-number to be assigned
*
**************************************************************************** */
u16 nextfcode; /* The next FCode-number to be assigned */
/* **************************************************************************
*
* Internal (Static) Structure:
* fcode_range_t The record of a Range of assigned FCodes
*
* Fields:
* fcr_start FCode number at the start of a this Range
* fcr_end Last FCode number in this Range that has
* actually been assigned. 0 if none made yet.
* fcr_infile File name of where this Range was started
* fcr_linenum Line number where this Range was started
* fcr_not_lapped TRUE if an overlap error has not been reported
* against this Range. Use this to prevent
* issuing an Error message every time an
* overlapping FCode is assigned; once per
* Range is sufficient.
* fcr_next Pointer to following entry in linked-list.
*
* We will keep the list of assigned FCode Ranges as a forward-linked,
* rather than the more usual backward-linked, list for convenience
* at listing-time. Otherwise, it doesn't make much difference.
*
**************************************************************************** */
typedef struct fcode_range
{
u16 fcr_start;
u16 fcr_end ;
char *fcr_infile;
int fcr_linenum;
bool fcr_not_lapped;
struct fcode_range *fcr_next;
} fcode_range_t ;
/* **************************************************************************
*
* Internal Static Variables
* ranges_exist TRUE if FCode Ranges have been created;
* Prevents unnecessary overlap checking.
* changes_listed TRUE if no changes to any of the Ranges
* have taken place since the last time
* a Listing was displayed. Prevents
* unnecessary repetions (e.g., if a
* reset_fcode_ranges() was called
* right after an operation that causes
* a Listing
*
* These four apply if no FCode Ranges have been created:
*
* range_start First FCode in the current first (only) range.
* range_end Last FCode in current first (only) range that
* has actually been assigned. 0 if none yet.
* first_fcr_infile File name of where first (only) range started.
* first_fcr_linenum Line number where first (only) range started.
*
* These two apply after FCode Ranges have been created:
*
* first_fc_range Pointer to the first entry in the linked
* list of FCode Ranges.
* current_fc_range Pointer to the entry in the linked list of
* Ranges that contains the Current Range.
*
**************************************************************************** */
static bool ranges_exist = FALSE;
static bool changes_listed = FALSE;
static u16 range_start = FCODE_START;
static u16 range_end = 0;
static char *first_fcr_infile = NULL;
static int first_fcr_linenum = 0;
static fcode_range_t *first_fc_range = NULL;
static fcode_range_t *current_fc_range = NULL;
/* **************************************************************************
*
* Function name: reset_fcode_ranges
* Synopsis: (Re-)Initialize the range of assignable FCode numbers
* and clear the records of prevously-assigned Ranges
*
* Inputs:
* Parameters: NONE
* Global Variables:
* iname Name of current input file
* lineno Line Number within current input file
* Local Static Variables:
* ranges_exist TRUE if FCode Ranges have been created
* first_fc_range Pointer to First FCode Range
* current_fc_range Pointer to the current Range
*
* Outputs:
* Returned Value: NONE
* Global Variables:
* nextfcode Initialized to Standard start value
* for user-assigned FCodes
* Local Static Variables:
* ranges_exist Cleared to FALSE
* changes_listed Reset to FALSE
* range_start Reset to Standard start value
* range_end Reset to 0
* first_fcr_infile Copy of iname
* first_fcr_linenum Copy of lineno
* first_fc_range Reset to NULL
* current_fc_range Reset to NULL
* Memory Allocated
* For first_fcr_infile , which will have a copy of iname
* When Freed?
* The next time this routine is called.
* Memory Freed
* Any FCode Ranges that were in effect will be freed, and the
* memory for their fcr_infile fields will be freed.
* If iname has changed, memory for first_fcr_infile will
* be freed before the new copy is made.
*
* Process Explanation:
* This will be called either as part of normal initialization
* or in response to a User-issued directive.
* In the former case, it may be called twice: once before any
* Source is examined, and once again in response to the first
* (and only to the first) invocation of an FCode-Starter, at
* which time the input file name and line number will be updated.
* In the latter case, the calling routine will be responsible for
* displaying any Advisory Messages and listings of previously
* assigned FCode Ranges.
*
**************************************************************************** */
void reset_fcode_ranges( void)
{
if ( ranges_exist )
{
while ( current_fc_range != NULL )
{
current_fc_range = first_fc_range->fcr_next;
free( first_fc_range->fcr_infile);
free( first_fc_range);
first_fc_range = current_fc_range;
}
ranges_exist = FALSE;
}else{
if ( first_fcr_infile != NULL )
{
if ( strcmp( first_fcr_infile, iname) != 0 )
{
free( first_fcr_infile);
first_fcr_infile = NULL;
}
}
}
changes_listed = FALSE;
range_start = FCODE_START;
range_end = 0;
if ( first_fcr_infile == NULL )
{
first_fcr_infile = strdup( iname);
}
first_fcr_linenum = lineno;
nextfcode = FCODE_START;
}
/* **************************************************************************
*
* Function name: list_fcode_ranges
* Synopsis: Display an Advisory of assigned FCode ranges at
* end of tokenization or upon reset_fcodes()
*
* Inputs:
* Parameters:
* final_tally TRUE if printing a final tally at
* end of tokenization.
* Global Variables:
* verbose Do not print anything if not set.
* nextfcode FCode next after last-assigned
* Local Static Variables:
* changes_listed If TRUE, only print new-line.
* ranges_exist TRUE if more than one Range exists.
* range_start FCode at start of only range
* range_end Last FCode in only range; 0 if none.
* first_fc_range Ptr to start of FCode Ranges list
*
* Outputs:
* Returned Value: NONE
* Local Static Variables:
* changes_listed Set to TRUE.
* Printout:
* Printed to Standard Out on final tally, or to STDERR otherwise.
* One of three formats:
* 1 No FCodes assigned.
* 2 Last assigned FCode = 0xXXX
* 3 FCodes assigned:
* [ No FCodes assigned in the range that started ... ]
* [ From 0xXXX to 0xYYY ** in the range that started ... ]
* (** = Indicator if the Range has an Overlap Error.)
*
* Process Explanation:
* This is called to complete an Advisory or Standard-Out Message
* that doesn't end in a new-line.
*
* Extraneous Remarks:
* If we ever decide not to keep entries for Ranges in which no
* assignments were made, let's not remove the code that lists
* them. It's harmless to keep it around, and we remain ready...
*
**************************************************************************** */
void list_fcode_ranges( bool final_tally)
{
if ( verbose )
{
FILE *message_dest = ( final_tally ? stdout : ERRMSG_DESTINATION );
if ( changes_listed )
{
fprintf(message_dest, "\n");
}else{
changes_listed = TRUE;
if ( INVERSE(ranges_exist) )
{ /* List the first and only range */
if ( range_end == 0 )
{
fprintf(message_dest, "No FCodes assigned.\n");
}else{
if ( range_start == FCODE_START )
{
fprintf(message_dest,
"Last assigned FCode = 0x%x\n", range_end);
}else{
fprintf(message_dest,
"FCodes assigned: 0x%x to 0x%x\n",
range_start, range_end);
}
}
/* We are done listing the first and only range */
}else{ /* List the collection of Ranges */
/* Pionter to function returning void */
typedef void (*vfunct)();
/* Function for the started_at() part of the message */
vfunct start_at_funct =
( final_tally ? print_started_at : started_at );
fcode_range_t *next_range = first_fc_range;
fprintf(message_dest, "FCodes assigned:\n");
while ( next_range != NULL )
{
if ( next_range->fcr_end == 0 )
{
fprintf(message_dest, " None assigned");
}else{
fprintf(message_dest, " From 0x%x to 0x%x",
next_range->fcr_start, next_range->fcr_end );
if ( INVERSE( next_range->fcr_not_lapped) )
{
fprintf(message_dest, " ***Overlap***" );
}
}
fprintf(message_dest, " in the range");
(*start_at_funct)(
next_range->fcr_infile, next_range->fcr_linenum );
next_range = next_range->fcr_next;
}
}
}
}
}
/* **************************************************************************
*
* Function name: set_next_fcode
* Synopsis: Set the start of a new Range of FCode numbers
*
* Inputs:
* Parameters:
* new_fcode Start of the new range of FCodes
* Global Variables:
* nextfcode The next FCode-number to be assigned
* iname Name of current input file
* lineno Line Number within current input file
* Local Static Variables:
* ranges_exist TRUE if FCode Ranges have been created
* range_start First FCode in the current (first
* and only) range
* range_end Last FCode in only range; 0 if none.
* current_fc_range Pointer to the current Range if there
* are more than one.
*
* Outputs:
* Returned Value: NONE
* Global Variables:
* nextfcode Set to the start of the new range
* Local Static Variables:
* ranges_exist May be set to TRUE
* first_fc_range May be initialized
* current_fc_range May be initialized or moved
* first_fcr_infile May be updated, may be made NULL
* first_fcr_linenum May be updated, may be made irrelevant
* range_start May be set to start of the new range
* or rendered irrelevant
* range_end Reset to 0 (by reset_fcode_ranges() )
* changes_listed Reset to FALSE
* Memory Allocated
* For new Range data structure; for copy of iname
* When Freed?
* By reset_fcode_ranges()
*
* Error Detection:
* Not here.
* The calling routine will detect and report attempts to set an
* illegal new range.
* Overlap with earlier Ranges will be detected and reported when
* the FCode is actually Assigned.
*
* Process Explanation:
* The calling routine will not call this routine with a new starting
* FCode that is not legal per the Standard.
* It may call with a new starting FCode that is equal to nextfcode
* If no Ranges exist yet, and the new starting FCode is equal to
* the current value of nextfcode , this is a continuation of
* the first and only range; do not change the file name or line
* number; just go away.
* If no Ranges exist yet, and no FCode assignments have been made
* in the current range, then this is a new start for the first
* and only range; detect the latter condition by range_end == 0
* Call the reset_fcode_ranges() routine to update the file name
* and line number, then update the remaining variables for the
* current (first and only) range, and you are done here.
* If no Ranges exist yet, and if FCode assignments _have_ been made
* in the current (first and only) range, create a data structure
* for the first (and now no longer only) Range and point both
* the first_fc_range and current_fc_range pointers at it.
* Set the ranges_exist flag to TRUE.
* If Ranges exist, whether from being newly-created, above, or from
* earlier, create a data structure for the new Current Range
* and move the current_fc_range pointer to point at it. If
* the new starting FCode is equal to nextfcode we still want
* to create a new Range that will be listed separately.
* If no assignments were made within the Current Range, we will not
* overwrite or delete it; it will be listed at the appropriate
* time, and will be harmless in the overlap test.
*
* Extraneous Remarks:
* We will trade off the strict rules of structured code here,
* in exchange for ease of coding.
*
**************************************************************************** */
void set_next_fcode( u16 new_fcode)
{
if ( INVERSE( ranges_exist) )
{ /* The current range is the first and only. */
if ( new_fcode == nextfcode )
{
/* Do nothing here */
return;
}
if ( range_end == 0 )
{ /* No FCode assignments have been made in the current range */
/* This is still the first and only range. */
reset_fcode_ranges(); /* Update file name and line number */
range_start = new_fcode;
nextfcode = new_fcode;
/* We are done here */
return;
}else{ /* Create the data structure for the first Range */
first_fc_range = safe_malloc( sizeof( fcode_range_t),
"creating first FCode Range" );
first_fc_range->fcr_start = range_start;
first_fc_range->fcr_end = range_end;
first_fc_range->fcr_infile = first_fcr_infile;
first_fc_range->fcr_linenum = first_fcr_linenum;
first_fc_range->fcr_not_lapped = TRUE;
first_fc_range->fcr_next = NULL;
first_fcr_infile = NULL;
first_fcr_linenum = 0;
range_start = FCODE_START;
range_end = 0;
current_fc_range = first_fc_range;
ranges_exist = TRUE;
}
}
/* Previous Ranges exist now for sure! */
current_fc_range->fcr_next = safe_malloc( sizeof( fcode_range_t),
"creating new FCode Range" );
current_fc_range = current_fc_range->fcr_next;
nextfcode = new_fcode;
current_fc_range->fcr_start = nextfcode;
current_fc_range->fcr_end = 0;
/* Will be filled in by first assignment */
current_fc_range->fcr_infile = strdup( iname);
current_fc_range->fcr_linenum = lineno;
current_fc_range->fcr_not_lapped = TRUE;
current_fc_range->fcr_next = NULL;
changes_listed = FALSE;
}
/* **************************************************************************
*
* Function name: find_overlap
* Synopsis: Compare the FCode under test against existing
* FCode Ranges and return a pointer to the
* Range against which it overlaps, if any.
*
* Inputs:
* Parameters:
* test_fcode FCode to be tested
* Local Static Variables:
* ranges_exist If not TRUE, no need to test
* first_fc_range Start of Ranges to test
* current_fc_range Do not test Current Range
*
* Outputs:
* Returned Value: Pointer to FCode Range in which an
* overlap exists, or NULL if none.
*
* Error Detection:
* The calling routine will treat any findings as it deems appropriate.
*
* Process Explanation:
* A Range within which no assignments were made will never "hit"
* the overlap test because its fcr_end field will be zero
* and its fcr_start field will be non-zero; there's no
* number that will be "between" them!
*
**************************************************************************** */
static fcode_range_t *find_overlap( u16 test_fcode)
{
fcode_range_t *retval = NULL;
if ( ranges_exist )
{
fcode_range_t *test_range = first_fc_range;
while ( test_range != current_fc_range )
{
if ( ( test_fcode <= test_range->fcr_end ) &&
( test_fcode >= test_range->fcr_start ) )
{
retval = test_range;
break;
}
test_range = test_range->fcr_next;
}
}
return( retval);
}
/* **************************************************************************
*
* Function name: assigning_fcode
* Synopsis: Commit the next FCode number to be assigned;
* test for out-of-bounds, overlap, etc. errors.
*
* Inputs:
* Parameters:
*
* Global Variables:
* nextfcode The FCode-number to be assigned
* Local Static Variables:
* ranges_exist TRUE if FCode Ranges have been created
* first_fc_range First entry in linked list of Ranges.
* current_fc_range List entry for Current Range.
*
* Outputs:
* Returned Value: NONE
* Local Static Variables:
* changes_listed Reset to FALSE
* One of these two will be set to nextfcode
* range_end ... if ranges_exist is FALSE
* current_fc_range->fcr_end ... if ranges_exist is TRUE
*
* Error Detection:
* FATAL if the value of nextfcode is larger than the legal
* maximum for an FCode
* ERROR if the value of nextfcode falls within one of the
* existing Ranges (other than the current one, of course)
*
**************************************************************************** */
void assigning_fcode( void)
{
if ( nextfcode > FCODE_LIMIT )
{
/* Let's give a last summarization before we crap out */
tokenization_error( INFO, "");
list_fcode_ranges( FALSE);
tokenization_error( FATAL,
"Too many definitions. "
"Assigned FCode exceeds limit "
"specified by IEEE-1275.");
/*
* No need to return() from here.
* FATAL error exits program.
*/
}
changes_listed = FALSE;
if ( INVERSE(ranges_exist) )
{ /* No Overlap Error checking needed here. */
range_end = nextfcode;
}else{
current_fc_range->fcr_end = nextfcode;
/* Detect and report Overlap Error only once per Range */
if ( current_fc_range->fcr_not_lapped )
{
fcode_range_t *found_lap = find_overlap( nextfcode);
if ( found_lap != NULL )
{
tokenization_error( TKERROR,
"Assigning FCode of 0x%x, "
"which overlaps the range", nextfcode);
started_at( found_lap->fcr_infile, found_lap->fcr_linenum);
current_fc_range->fcr_not_lapped = FALSE;
}
}
}
}
/* **************************************************************************
*
* Function name: bump_fcode
* Synopsis: Increment the next assignable FCode number
* prior to the next assignment.
*
* Inputs:
* Parameters: NONE
* Global Variables:
* nextfcode The next FCode-number to be assigned
*
* Outputs:
* Returned Value: NONE
* Global Variables:
* nextfcode Incremented
*
* Extraneous Remarks:
* This looks like a no-brainer now, but if we ever need this
* function to perform any more sophisticated background
* activity, we can limit the scope of our modifications
* to this routine.
*
**************************************************************************** */
void bump_fcode( void)
{
nextfcode++;
}