percent.c

Bug Summary

File:	dmake/percent.c
Location:	line 74, column 12
Description:	Access to field 'dl_meta' results in a dereference of a null pointer (loaded from variable 'dl')

Annotated Source Code

/* RCS $Id: percent.c,v 1.1.1.1 2000-09-22 15:33:25 hr Exp $

-- SYNOPSIS

-- Handle building or %-rule meta-target nfa.

-- DESCRIPTION

-- Builds the NFA used by dmake to match targets against %-meta

-- rule constructs. The NFA is built as a set of DFA's.

-- AUTHOR

-- Dennis Vadura, dvadura@dmake.wticorp.com

-- WWW

-- http://dmake.wticorp.com/

-- COPYRIGHT

-- This program is NOT free software; you can redistribute it and/or

-- modify it under the terms of the Software License Agreement Provided

-- in the file <distribution-root>/readme/license.txt.

-- LOG

-- Use cvs log to obtain detailed change logs.

#include "extern.h"

static DFAPTR _build_dfa ANSI((char *))(char *);

static char _shift_dfa ANSI((DFAPTR, char *))(DFAPTR, char *);

#define NO_ACTION0 0

#define START_PERCENT1 1

#define END_PERCENT2 2

#define ACCEPT4 4

#define FAIL-1 -1

static NFAPTR _nfa = NIL( NFA )((NFA*)((void*)0));

PUBLIC DFALINKPTR

Match_dfa( buf )/*

==================

This routines runs all DFA's in parrallel and selects the one that best

matches the string. If no match then it returns NIL( DFA ) */

char *buf;

{

int adv;

DFALINKPTR dfa_list = NIL(DFALINK)((DFALINK*)((void*)0));

DB_ENTER( "Match_dfa" );

DB_PRINT( "dfa", ("Matching %s", buf) );

/* Run each of the DFA's on the input string in parallel, we terminate

* when all DFA's have either failed or ACCEPTED, if more than one DFA

* accepts we build a list of all accepting DFA's sorted on states with

* those matching in a higher numbered state heading the list. */

do {

adv = FALSE0;

for( nfa = _nfa; nfa != NIL( NFA )((NFA*)((void*)0)); nfa = nfa->next )

Loop condition is true. Entering loop body

→

←

Loop condition is true. Entering loop body

→

←

Loop condition is true. Entering loop body

→

if( nfa->status != (char) FAIL-1 && nfa->status != (char) ACCEPT4 ) {

←

Taking true branch

→

adv++;

nfa->status = _shift_dfa( nfa->dfa, buf );

/* Construct the list of matching DFA's */

if( nfa->status == (char) ACCEPT4 ) {

←

Taking true branch

→

DFALINKPTR dl;

TALLOC( dl, 1, DFALINK )if ((dl = (DFALINK*) calloc((unsigned int)(1), (size_t)sizeof
(DFALINK))) == (DFALINK*)0) {No_ram();};

←

Within the expansion of the macro 'TALLOC':

→

a	Value assigned to 'dl'

b	Assuming pointer value is null

dl->dl_meta = nfa->dfa->node;

←

Access to field 'dl_meta' results in a dereference of a null pointer (loaded from variable 'dl')

dl->dl_per = DmSubStr( nfa->dfa->pstart, nfa->dfa->pend );

dl->dl_state = nfa->dfa->states - nfa->dfa->c_state;

if( dfa_list == NIL(DFALINK)((DFALINK*)((void*)0)) )

dfa_list = dl;

else {

DFALINKPTR tdli = dfa_list;

DFALINKPTR tdlp = NIL(DFALINK)((DFALINK*)((void*)0));

for( ; tdli != NIL(DFALINK)((DFALINK*)((void*)0)); tdli = tdli->dl_next ) {

if( dl->dl_state >= tdli->dl_state )

break;

tdlp = tdli;

}

if( tdli != NIL(DFALINK)((DFALINK*)((void*)0)) ) {

tdli->dl_prev = dl;

dl->dl_next = tdli;

}

if( tdlp != NIL(DFALINK)((DFALINK*)((void*)0)) ) {

tdlp->dl_next = dl;

dl->dl_prev = tdlp;

}

else

100

dfa_list = dl;

101

}

102

103

DB_PRINT( "dfa", ("Matched [%s]", dl->dl_meta->CE_NAME) );

104

}

105

}

106

107

buf++;

108

}

109

while ( adv );

110

111

for( nfa = _nfa; nfa != NIL( NFA )((NFA*)((void*)0)); nfa = nfa->next ) {

112

nfa->status = 0;

113

nfa->dfa->c_state = nfa->dfa->states;

114

}

115

116

DB_RETURN( dfa_list )return (dfa_list);

117

}

118

119

120

PUBLIC void

121

Check_circle_dfa()/*

122

====================

123

This function is called to test for circularities in the DFA lists

124

constructed from %-meta targets. */

125

{

126

127

128

for( nfa = _nfa; nfa != NIL(NFA)((NFA*)((void*)0)); nfa = nfa->next )

129

if( Test_circle( nfa->dfa->node, FALSE0 ) )

130

Fatal( "Detected circular dependency in inference graph at [%s]",

131

nfa->dfa->node->CE_NAMEce_name->ht_name );

132

}

133

134

135

PUBLIC void

136

Add_nfa( name )/*

137

=================

138

Given name, build a DFA and add it to the NFA. The NFA is maintained as

139

a singly linked list of DFA's. */

140

char *name;

141

{

142

NFAPTR nfa;

143

144

TALLOC(nfa, 1, NFA)if ((nfa = (NFA*) calloc((unsigned int)(1), (size_t)sizeof(NFA
))) == (NFA*)0) {No_ram();};

145

nfa->dfa = _build_dfa(name);

146

147

if( _nfa != NIL(NFA)((NFA*)((void*)0)) ) nfa->next = _nfa;

148

149

_nfa = nfa;

150

}

151

152

153

static DFAPTR

154

_build_dfa( name )/*

155

====================

156

Construct a dfa for the passed in cell name. The routine returns a struct

157

that represents a finite state machine that can recognize a regular

158

expression with exactly one '%' sign in it. The '%' symbol is used as a

159

wildcard character that will match anything except the character that

160

immediately follows it or NUL.

161

162

The Construction of DFA's is well known and can be found in Hopcroft and

163

Ullman or any other book discussing formal language theory.

164

A more practical treatise can be found in Compilers, Aho, Sethi and Ullman.

165

166

char *name;

167

{

168

DFAPTR dfa;

169

int nstates;

170

171

STATEPTR per_state = NIL(STATE)((STATE*)((void*)0));

172

int pcount=0;

173

int end_percent=FALSE0;

174

175

nstates = strlen(name)+2;

176

177

/* Allocate a DFA node and the right number of states. */

178

TALLOC(dfa, 1, DFA)if ((dfa = (DFA*) calloc((unsigned int)(1), (size_t)sizeof(DFA
))) == (DFA*)0) {No_ram();};

179

TALLOC(sp=dfa->c_state=dfa->states, nstates, STATE)if ((sp=dfa->c_state=dfa->states = (STATE*) calloc((unsigned
int)(nstates), (size_t)sizeof(STATE))) == (STATE*)0) {No_ram
();};

180

dfa->node = Def_cell( name );

181

182

/* Now construct the state table for the DFA */

183

do {

184

if( *name == '%' ) {

185

if( pcount++ > 0 )

186

Error( "Only one %% allowed within a %%-meta target" );

187

188

sp->symbol = 0;

189

sp->action = START_PERCENT1;

190

sp->no_match = sp->match = per_state = sp+1;

191

end_percent = TRUE1;

192

}

193

else {

194

sp->symbol = *name;

195

sp->no_match = per_state;

196

197

if( *name == '\0' ) {

198

sp->action = ACCEPT4;

199

sp->match = dfa->states;

200

}

201

else {

202

sp->action = NO_ACTION0;

203

sp->match = sp+1;

204

}

205

206

if( end_percent ) {

207

sp->action |= END_PERCENT2;

208

end_percent = FALSE0;

209

}

210

}

211

212

sp++;

213

}

214

while( *name++ );

215

216

return(dfa);

217

}

218

219

220

static char

221

_shift_dfa( dfa, data )/*

222

=========================

223

Take a given dfa and advance it based on the current state, the shift

224

action in that state, and the current data value. */

225

DFAPTR dfa;

226

char *data;

227

{

228

229

char c = *data;

230

231

/* Check if it is a START_PERCENT action if so then we need to save

232

* a pointer to the start of the string and advance to the next state. */

233

if( sp->action & START_PERCENT1 ) {

234

dfa->pstart = data;

235

sp++;

236

}

237

238

/* Now check if the current char matches the character expected in the

239

* current state. If it does then perform the specified action, otherwise

240

* either shift it or fail. We fail if the next state on no-match is

241

* NIL. */

242

if( sp->symbol == c ) {

243

if( sp->action & END_PERCENT2 ) dfa->pend = data;

244

if( sp->action & ACCEPT4 ) return(ACCEPT4);

245

dfa->c_state = sp->match;

246

}

247

else if( (dfa->c_state = sp->no_match) == NIL(STATE)((STATE*)((void*)0)) || !c )

248

return((unsigned char) FAIL-1);

249

250

return(NO_ACTION0);

251

}