1 
2 /*--------------------------------------------------------------------*/
3 /*--- A simple sequence matching facility.                         ---*/
4 /*---                                                 m_seqmatch.c ---*/
5 /*--------------------------------------------------------------------*/
6 
7 /*
8    This file is part of Valgrind, a dynamic binary instrumentation
9    framework.
10 
11    Copyright (C) 2008-2013 OpenWorks Ltd
12       info@open-works.co.uk
13 
14    This program is free software; you can redistribute it and/or
15    modify it under the terms of the GNU General Public License as
16    published by the Free Software Foundation; either version 2 of the
17    License, or (at your option) any later version.
18 
19    This program is distributed in the hope that it will be useful, but
20    WITHOUT ANY WARRANTY; without even the implied warranty of
21    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
22    General Public License for more details.
23 
24    You should have received a copy of the GNU General Public License
25    along with this program; if not, write to the Free Software
26    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
27    02111-1307, USA.
28 
29    The GNU General Public License is contained in the file COPYING.
30 */
31 
32 #include "pub_core_basics.h"
33 #include "pub_core_libcassert.h"
34 #include "pub_core_libcbase.h"    // VG_(strlen)
35 #include "pub_core_seqmatch.h"    // self
36 
37 /* ---------------------------------------------------------------------
38    A simple sequence matching facility
39    ------------------------------------------------------------------ */
40 
41 /* See detailed comment in include/pub_tool_seqmatch.h about this. */
VG_(generic_match)42 Bool VG_(generic_match) (
43         Bool matchAll,
44         const void* patt,  SizeT szbPatt,  UWord nPatt,  UWord ixPatt,
45         const void* input, SizeT szbInput, UWord nInput, UWord ixInput,
46         Bool (*pIsStar)(const void*),
47         Bool (*pIsQuery)(const void*),
48         Bool (*pattEQinp)(const void*,const void*,void*,UWord),
49         void* inputCompleter, Bool (*haveInputInpC)(void*,UWord)
50      )
51 {
52    /* This is the spec, written in my favourite formal specification
53       language.  It specifies non-greedy matching of '*'s.
54 
55       ma ('*':ps) (i:is) = ma ps (i:is) || ma ('*':ps) is
56       ma ('*':ps) []     = ma ps []
57 
58       ma ('?':ps) (i:is) = ma ps is
59       ma ('?':ps) []     = False
60 
61       ma (p:ps)   (i:is) = p == i && ma ps is
62 
63       ma (p:ps)   []     = False
64       ma []       (i:is) = False -- m-all, True for m-prefix
65       ma []       []     = True
66    */
67    Bool  havePatt, haveInput;
68    const HChar *currPatt, *currInput;
69   tailcall:
70    vg_assert(nPatt >= 0 && nPatt  < 1000000); /* arbitrary */
71    vg_assert(inputCompleter
72              || (nInput >= 0  && nInput < 1000000)); /* arbitrary */
73    vg_assert(ixPatt >= 0  && ixPatt <= nPatt);
74    vg_assert(ixInput >= 0 && (inputCompleter || ixInput <= nInput));
75 
76    havePatt  = ixPatt < nPatt;
77    haveInput = inputCompleter ?
78       (*haveInputInpC)(inputCompleter, ixInput)
79       : ixInput < nInput;
80 
81    /* No specific need to set NULL when !have{Patt,Input}, but guards
82       against inadvertantly dereferencing an out of range pointer to
83       the pattern or input arrays. */
84    currPatt  = havePatt  ? ((const HChar*)patt) + szbPatt * ixPatt    : NULL;
85    currInput = haveInput && !inputCompleter ?
86       ((const HChar*)input) + szbInput * ixInput : NULL;
87 
88    // Deal with the complex case first: wildcards.  Do frugal
89    // matching.  When encountering a '*', first skip no characters
90    // at all, and see if the rest of the match still works.  Only if
91    // that fails do we then skip a character, and retry at the next
92    // position.
93    //
94    // ma ('*':ps) (i:is) = ma ps (i:is) || ma ('*':ps) is
95    //
96    // If we're out of input, check the rest of the pattern matches
97    // the empty input.  This really means can only be be empty or
98    // composed entirely of '*'s.
99    //
100    // ma ('*':ps) []     = ma ps []
101    //
102    if (havePatt && pIsStar(currPatt)) {
103       if (haveInput) {
104          // ma ('*':ps) (i:is) = ma ps (i:is) || ma ('*':ps) is
105          // we unavoidably have to make a real recursive call for the
106          // first half of the OR, since this isn't straight tail-recursion.
107          if (VG_(generic_match)( matchAll,
108                                  patt, szbPatt, nPatt,  ixPatt+1,
109                                  input,szbInput,nInput, ixInput+0,
110                                  pIsStar,pIsQuery,pattEQinp,
111                                  inputCompleter,haveInputInpC) ) {
112             return True;
113          }
114          // but we can tail-recurse for the second call
115          ixInput++; goto tailcall;
116       } else {
117          // ma ('*':ps) []     = ma ps []
118          ixPatt++; goto tailcall;
119       }
120    }
121 
122    // simpler cases now.  Deal with '?' wildcards.
123    //
124    // ma ('?':ps) (i:is) = ma ps is
125    // ma ('?':ps) []     = False
126    if (havePatt && pIsQuery(currPatt)) {
127       if (haveInput) {
128          ixPatt++; ixInput++; goto tailcall;
129       } else {
130          return False;
131       }
132    }
133 
134    // obvious case with literal chars in the pattern
135    //
136    // ma (p:ps)   (i:is) = p == i && ma ps is
137    if (havePatt && haveInput) {
138       if (!pattEQinp(currPatt,currInput,inputCompleter,ixInput)) return False;
139       ixPatt++; ixInput++; goto tailcall;
140    }
141 
142    // if we run out of input before we run out of pattern, we must fail
143    // ma (p:ps)   []     = False
144    if (havePatt && !haveInput) return False;
145 
146    // if we run out of pattern before we run out of input, the
147    // verdict depends on the matching mode.  If we are trying to
148    // match exactly (the pattern must consume the entire input)
149    // then the outcome is failure.  However, if we're merely attempting
150    // to match some prefix of the input, then we have been successful.
151    //
152    // ma []       (i:is) = False -- m-all, True for m-prefix
153    if (!havePatt && haveInput) {
154       return matchAll ? False // match-all
155                       : True; // match-prefix
156    }
157 
158    // finally, if both sequence and input are both completely
159    // consumed, then we were successful, regardless of matching mode.
160    if (!havePatt && !haveInput) return True;
161 
162    // end of cases
163    vg_assert(0);
164 }
165 
166 
167 /* And a parameterization of the above, to make it do
168    string matching.
169 */
charIsStar(const void * pV)170 static Bool charIsStar  ( const void* pV ) { return *(const HChar*)pV == '*'; }
charIsQuery(const void * pV)171 static Bool charIsQuery ( const void* pV ) { return *(const HChar*)pV == '?'; }
char_p_EQ_i(const void * pV,const void * cV,void * null_completer,UWord ixcV)172 static Bool char_p_EQ_i ( const void* pV, const void* cV,
173                           void* null_completer, UWord ixcV ) {
174    HChar p = *(const HChar*)pV;
175    HChar c = *(const HChar*)cV;
176    vg_assert(p != '*' && p != '?');
177    return p == c;
178 }
VG_(string_match)179 Bool VG_(string_match) ( const HChar* patt, const HChar* input )
180 {
181    return VG_(generic_match)(
182              True/* match-all */,
183              patt,  sizeof(HChar), VG_(strlen)(patt), 0,
184              input, sizeof(HChar), VG_(strlen)(input), 0,
185              charIsStar, charIsQuery, char_p_EQ_i,
186              NULL, NULL
187           );
188 }
189 
190 
191 // test cases for the matcher (in match-all mode)
192 // typedef struct { char* patt; char* input; Bool xres; } Test;
193 //
194 //static Test tests[] =
195 //  {
196 //    { ""          ,""   , True },
197 //    { "a"         ,""   , False },
198 //    { "a"         ,"b"  , False },
199 //    { "a"         ,"a"  , True },
200 //    { "a"         ,"aa" , False },
201 //    { "*"         ,""   , True },
202 //    { "**"        ,""   , True },
203 //    { "*"         ,"abc", True },
204 //    { "*a"        ,"abc", False },
205 //    { "*b"        ,"abc", False },
206 //    { "*bc"       ,"abc", True },
207 //    { "a*b"       ,"abc", False },
208 //    { "a*c"       ,"abc", True },
209 //    { "*c"        ,"abc", True },
210 //    { "c*c"       ,"abc", False },
211 //    { "abc*"      ,"abc", True },
212 //    { "abc**"     ,"abc", True },
213 //    { "**abc"     ,"abc", True },
214 //    { "**a*b*c**" ,"abc", True },
215 //    { "**a*b*d**" ,"abc", False },
216 //    { "a?b"       ,"abc", False },
217 //    { "a?c"       ,"abc", True },
218 //    { "?"         ,""   , False },
219 //    { "?"         ,"a"  , True },
220 //    { "?"         ,"ab" , False },
221 //    { "abcd"      ,"abc", False },
222 //    { "ab"        ,"abc", False },
223 //    { NULL        ,NULL , False }
224 //  };
225 //
226 //int main ( void )
227 //{
228 //   Test* t;
229 //   for (t = tests; t->patt; t++) {
230 //     printf("%-10s %-6s  %s\n",
231 //            t->patt, t->input,
232 //            match_string_all((UChar*)t->patt,(UChar*)t->input,True)
233 //            == t->xres
234 //               ? "pass" : "FAIL" );
235 //   }
236 //   return 0;
237 //}
238 
239 /*--------------------------------------------------------------------*/
240 /*--- end                                             m_seqmatch.c ---*/
241 /*--------------------------------------------------------------------*/
242