/* * Copyright (c) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 * NOVELL (All rights reserved) * * This program is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License published by the Free Software Foundation. * * 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, contact Novell, Inc. */ #include #include #include #include #include #include #include #include #include /* #define DEBUG */ #include "lib.h" #include "parser.h" #include "profile.h" #include "libapparmor_re/apparmor_re.h" #include "libapparmor_re/aare_rules.h" #include "policydb.h" #include "rule.h" enum error_type { e_no_error, e_parse_error, }; /* Filters out multiple slashes (except if the first two are slashes, * that's a distinct namespace in linux) and trailing slashes. * NOTE: modifies in place the contents of the path argument */ static void filter_slashes(char *path) { char *sptr, *dptr; BOOL seen_slash = 0; if (!path || (strlen(path) < 2)) return; sptr = dptr = path; /* special case for linux // namespace */ if (sptr[0] == '/' && sptr[1] == '/' && sptr[2] != '/') { sptr += 2; dptr += 2; } while (*sptr) { if (*sptr == '/') { if (seen_slash) { ++sptr; } else { *dptr++ = *sptr++; seen_slash = TRUE; } } else { seen_slash = 0; if (dptr < sptr) { *dptr++ = *sptr++; } else { dptr++; sptr++; } } } *dptr = 0; } static error_type append_glob(std::string &pcre, int glob, const char *default_glob, const char *null_glob) { switch (glob) { case glob_default: pcre.append(default_glob); break; case glob_null: pcre.append(null_glob); break; default: PERROR(_("%s: Invalid glob type %d\n"), progname, glob); return e_parse_error; break; } return e_no_error; } /* converts the apparmor regex in aare and appends pcre regex output * to pcre string */ pattern_t convert_aaregex_to_pcre(const char *aare, int anchor, int glob, std::string& pcre, int *first_re_pos) { #define update_re_pos(X) if (!(*first_re_pos)) { *first_re_pos = (X); } #define MAX_ALT_DEPTH 50 *first_re_pos = 0; int ret = TRUE; /* flag to indicate input error */ enum error_type error; const char *sptr; pattern_t ptype; BOOL bEscape = 0; /* flag to indicate escape */ int ingrouping = 0; /* flag to indicate {} context */ int incharclass = 0; /* flag to indicate [ ] context */ int grouping_count[MAX_ALT_DEPTH] = {0}; error = e_no_error; ptype = ePatternBasic; /* assume no regex */ sptr = aare; if (dfaflags & DFA_DUMP_RULE_EXPR) fprintf(stderr, "aare: %s -> ", aare); if (anchor) /* anchor beginning of regular expression */ pcre.append("^"); while (error == e_no_error && *sptr) { switch (*sptr) { case '\\': /* concurrent escapes are allowed now and * output as two consecutive escapes so that * pcre won't interpret them * \\\{...\\\} will be emitted as \\\{...\\\} * for pcre matching. For string matching * and globbing only one escape is output * this is done by stripping later */ if (bEscape) { pcre.append("\\\\"); } else { bEscape = TRUE; ++sptr; continue; /*skip turning bEscape off */ } /* bEscape */ break; case '*': if (bEscape) { /* '*' is a PCRE special character */ /* We store an escaped *, in case we * end up using this regex buffer (i.e another * non-escaped regex follows) */ pcre.append("\\*"); } else { if ((pcre.length() > 0) && pcre[pcre.length() - 1] == '/') { #if 0 // handle comment containing use // of C comment characters // /* /*/ and /** to describe paths // // modify what is emitted for * and ** // when used as the only path // component // ex. // /* /*/ /**/ /** // this prevents these expressions // from matching directories or // invalid paths // in these case * and ** must // match at least 1 character to // get a valid path element. // ex. // /foo/* -> should not match /foo/ // /foo/*bar -> should match /foo/bar // /*/foo -> should not match //foo #endif const char *s = sptr; while (*s == '*') s++; if (*s == '/' || !*s) error = append_glob(pcre, glob, "[^/\\x00]", "[^/]"); } if (*(sptr + 1) == '*') { /* is this the first regex form we * have seen and also the end of * pattern? If so, we can use * optimised tail globbing rather * than full regex. */ update_re_pos(sptr - aare); if (*(sptr + 2) == '\0' && ptype == ePatternBasic) { ptype = ePatternTailGlob; } else { ptype = ePatternRegex; } error = append_glob(pcre, glob, "[^\\x00]*", ".*"); sptr++; } else { update_re_pos(sptr - aare); ptype = ePatternRegex; error = append_glob(pcre, glob, "[^/\\x00]*", "[^/]*"); } /* *(sptr+1) == '*' */ } /* bEscape */ break; case '?': if (bEscape) { /* ? is not a PCRE regex character * so no need to escape, just skip * transform */ pcre.append(1, *sptr); } else { update_re_pos(sptr - aare); ptype = ePatternRegex; pcre.append("[^/\\x00]"); } break; case '[': if (bEscape) { /* [ is a PCRE special character */ pcre.append("\\["); } else { update_re_pos(sptr - aare); incharclass = 1; ptype = ePatternRegex; pcre.append(1, *sptr); } break; case ']': if (bEscape) { /* ] is a PCRE special character */ pcre.append("\\]"); } else { if (incharclass == 0) { error = e_parse_error; PERROR(_("%s: Regex grouping error: Invalid close ], no matching open [ detected\n"), progname); } incharclass = 0; pcre.append(1, *sptr); } break; case '{': if (bEscape) { /* { is a PCRE special character */ pcre.append("\\{"); } else { if (incharclass) { /* don't expand inside [] */ pcre.append("{"); } else { update_re_pos(sptr - aare); ingrouping++; if (ingrouping >= MAX_ALT_DEPTH) { error = e_parse_error; PERROR(_("%s: Regex grouping error: Exceeded maximum nesting of {}\n"), progname); } else { grouping_count[ingrouping] = 0; ptype = ePatternRegex; pcre.append("("); } } /* incharclass */ } break; case '}': if (bEscape) { /* { is a PCRE special character */ pcre.append("\\}"); } else { if (incharclass) { /* don't expand inside [] */ pcre.append("}"); } else { if (grouping_count[ingrouping] == 0) { error = e_parse_error; PERROR(_("%s: Regex grouping error: Invalid number of items between {}\n"), progname); } ingrouping--; if (ingrouping < 0) { error = e_parse_error; PERROR(_("%s: Regex grouping error: Invalid close }, no matching open { detected\n"), progname); ingrouping = 0; } pcre.append(")"); } /* incharclass */ } /* bEscape */ break; case ',': if (bEscape) { if (incharclass) { /* escape inside char class is a * valid matching char for '\' */ pcre.append("\\,"); } else { /* ',' is not a PCRE regex character * so no need to escape, just skip * transform */ pcre.append(1, *sptr); } } else { if (ingrouping && !incharclass) { grouping_count[ingrouping]++; pcre.append("|"); } else { pcre.append(1, *sptr); } } break; /* these are special outside of character * classes but not in them */ case '^': case '$': if (incharclass) { pcre.append(1, *sptr); } else { pcre.append("\\"); pcre.append(1, *sptr); } break; /* * Not a subdomain regex, but needs to be * escaped as it is a pcre metacharacter which * we don't want to support. We always escape * these, so no need to check bEscape */ case '.': case '+': case '|': case '(': case ')': pcre.append("\\"); // fall through to default default: if (bEscape) { const char *pos = sptr; int c; if ((c = str_escseq(&pos, "")) != -1) { /* valid escape we don't want to * interpret here */ pcre.append("\\"); pcre.append(sptr, pos - sptr); sptr += (pos - sptr) - 1; } else { /* quoting mark used for something that * does not need to be quoted; give a * warning */ pwarn("Character %c was quoted " "unnecessarily, dropped preceding" " quote ('\\') character\n", *sptr); pcre.append(1, *sptr); } } else pcre.append(1, *sptr); break; } /* switch (*sptr) */ bEscape = FALSE; ++sptr; } /* while error == e_no_error && *sptr) */ if (ingrouping > 0 || incharclass) { error = e_parse_error; PERROR(_("%s: Regex grouping error: Unclosed grouping or character class, expecting close }\n"), progname); } if ((error == e_no_error) && bEscape) { /* trailing backslash quote */ error = e_parse_error; PERROR(_("%s: Regex error: trailing '\\' escape character\n"), progname); } /* anchor end and terminate pattern string */ if ((error == e_no_error) && anchor) { pcre.append("$"); } /* check error again, as above STORE may have set it */ if (error != e_no_error) { PERROR(_("%s: Unable to parse input line '%s'\n"), progname, aare); ret = FALSE; goto out; } out: if (ret == FALSE) ptype = ePatternInvalid; if (dfaflags & DFA_DUMP_RULE_EXPR) fprintf(stderr, "%s\n", pcre.c_str()); return ptype; } static const char *local_name(const char *name) { const char *t; for (t = strstr(name, "//") ; t ; t = strstr(name, "//")) name = t + 2; return name; } static int process_profile_name_xmatch(Profile *prof) { std::string tbuf; pattern_t ptype; const char *name; /* don't filter_slashes for profile names */ if (prof->attachment) name = prof->attachment; else name = local_name(prof->name); ptype = convert_aaregex_to_pcre(name, 0, glob_default, tbuf, &prof->xmatch_len); if (ptype == ePatternBasic) prof->xmatch_len = strlen(name); if (ptype == ePatternInvalid) { PERROR(_("%s: Invalid profile name '%s' - bad regular expression\n"), progname, name); return FALSE; } else if (ptype == ePatternBasic && !(prof->altnames || prof->attachment)) { /* no regex so do not set xmatch */ prof->xmatch = NULL; prof->xmatch_len = 0; prof->xmatch_size = 0; } else { /* build a dfa */ aare_rules *rules = new aare_rules(); if (!rules) return FALSE; if (!rules->add_rule(tbuf.c_str(), 0, AA_MAY_EXEC, 0, dfaflags)) { delete rules; return FALSE; } if (prof->altnames) { struct alt_name *alt; list_for_each(prof->altnames, alt) { int len; tbuf.clear(); ptype = convert_aaregex_to_pcre(alt->name, 0, glob_default, tbuf, &len); if (!rules->add_rule(tbuf.c_str(), 0, AA_MAY_EXEC, 0, dfaflags)) { delete rules; return FALSE; } } } prof->xmatch = rules->create_dfa(&prof->xmatch_size, &prof->xmatch_len, dfaflags); delete rules; if (!prof->xmatch) return FALSE; } return TRUE; } static int warn_change_profile = 1; static bool is_change_profile_mode(int mode) { /** * A change_profile entry will have the AA_CHANGE_PROFILE bit set. * It could also have the (AA_EXEC_BITS | ALL_AA_EXEC_UNSAFE) bits * set by the frontend parser. That means that it is incorrect to * identify change_profile modes using a test like this: * * (mode & ~AA_CHANGE_PROFILE) * * The above test would incorrectly return true on a * change_profile mode that has the * (AA_EXEC_BITS | ALL_AA_EXEC_UNSAFE) bits set. */ return mode & AA_CHANGE_PROFILE; } static int process_dfa_entry(aare_rules *dfarules, struct cod_entry *entry) { std::string tbuf; pattern_t ptype; int pos; if (!entry) /* shouldn't happen */ return TRUE; if (!is_change_profile_mode(entry->mode)) filter_slashes(entry->name); ptype = convert_aaregex_to_pcre(entry->name, 0, glob_default, tbuf, &pos); if (ptype == ePatternInvalid) return FALSE; entry->pattern_type = ptype; /* ix implies m but the apparmor module does not add m bit to * dfa states like it does for pcre */ if ((entry->mode >> AA_OTHER_SHIFT) & AA_EXEC_INHERIT) entry->mode |= AA_OLD_EXEC_MMAP << AA_OTHER_SHIFT; if ((entry->mode >> AA_USER_SHIFT) & AA_EXEC_INHERIT) entry->mode |= AA_OLD_EXEC_MMAP << AA_USER_SHIFT; /* the link bit on the first pair entry should not get masked * out by a deny rule, as both pieces of the link pair must * match. audit info for the link is carried on the second * entry of the pair * * So if a deny rule only record it if there are permissions other * than link in the entry. * TODO: split link and change_profile entries earlier */ if (entry->deny) { if ((entry->mode & ~AA_LINK_BITS) && !is_change_profile_mode(entry->mode) && !dfarules->add_rule(tbuf.c_str(), entry->deny, entry->mode & ~(AA_LINK_BITS | AA_CHANGE_PROFILE), entry->audit & ~(AA_LINK_BITS | AA_CHANGE_PROFILE), dfaflags)) return FALSE; } else if (!is_change_profile_mode(entry->mode)) { if (!dfarules->add_rule(tbuf.c_str(), entry->deny, entry->mode, entry->audit, dfaflags)) return FALSE; } if (entry->mode & (AA_LINK_BITS)) { /* add the pair rule */ std::string lbuf; int perms = AA_LINK_BITS & entry->mode; const char *vec[2]; int pos; vec[0] = tbuf.c_str(); if (entry->link_name) { ptype = convert_aaregex_to_pcre(entry->link_name, 0, glob_default, lbuf, &pos); if (ptype == ePatternInvalid) return FALSE; if (entry->subset) perms |= LINK_TO_LINK_SUBSET(perms); vec[1] = lbuf.c_str(); } else { perms |= LINK_TO_LINK_SUBSET(perms); vec[1] = "/[^/].*"; } if (!dfarules->add_rule_vec(entry->deny, perms, entry->audit & AA_LINK_BITS, 2, vec, dfaflags)) return FALSE; } if (is_change_profile_mode(entry->mode)) { const char *vec[3]; std::string lbuf, xbuf; autofree char *ns = NULL; autofree char *name = NULL; int index = 1; uint32_t onexec_perms = AA_ONEXEC; if ((warnflags & WARN_RULE_DOWNGRADED) && entry->audit && warn_change_profile) { /* don't have profile name here, so until this code * gets refactored just throw out a generic warning */ fprintf(stderr, "Warning kernel does not support audit modifier for change_profile rule.\n"); warn_change_profile = 0; } if (entry->onexec) { ptype = convert_aaregex_to_pcre(entry->onexec, 0, glob_default, xbuf, &pos); if (ptype == ePatternInvalid) return FALSE; vec[0] = xbuf.c_str(); } else /* allow change_profile for all execs */ vec[0] = "/[^/\\x00][^\\x00]*"; if (!kernel_supports_stacking) { bool stack; if (!parse_label(&stack, &ns, &name, tbuf.c_str(), false)) { return FALSE; } if (stack) { fprintf(stderr, _("The current kernel does not support stacking of named transitions: %s\n"), tbuf.c_str()); return FALSE; } if (ns) vec[index++] = ns; vec[index++] = name; } else { vec[index++] = tbuf.c_str(); } /* regular change_profile rule */ if (!dfarules->add_rule_vec(entry->deny, AA_CHANGE_PROFILE | onexec_perms, 0, index - 1, &vec[1], dfaflags)) return FALSE; /* onexec rules - both rules are needed for onexec */ if (!dfarules->add_rule_vec(entry->deny, onexec_perms, 0, 1, vec, dfaflags)) return FALSE; /** * pick up any exec bits, from the frontend parser, related to * unsafe exec transitions */ onexec_perms |= (entry->mode & (AA_EXEC_BITS | ALL_AA_EXEC_UNSAFE)); if (!dfarules->add_rule_vec(entry->deny, onexec_perms, 0, index, vec, dfaflags)) return FALSE; } return TRUE; } int post_process_entries(Profile *prof) { int ret = TRUE; struct cod_entry *entry; list_for_each(prof->entries, entry) { if (!process_dfa_entry(prof->dfa.rules, entry)) ret = FALSE; } return ret; } int process_profile_regex(Profile *prof) { int error = -1; if (!process_profile_name_xmatch(prof)) goto out; prof->dfa.rules = new aare_rules(); if (!prof->dfa.rules) goto out; if (!post_process_entries(prof)) goto out; if (prof->dfa.rules->rule_count > 0) { int xmatch_len = 0; prof->dfa.dfa = prof->dfa.rules->create_dfa(&prof->dfa.size, &xmatch_len, dfaflags); delete prof->dfa.rules; prof->dfa.rules = NULL; if (!prof->dfa.dfa) goto out; /* if (prof->dfa_size == 0) { PERROR(_("profile %s: has merged rules (%s) with " "multiple x modifiers\n"), prof->name, (char *) prof->dfa); free(prof->dfa); prof->dfa = NULL; goto out; } */ } error = 0; out: return error; } int build_list_val_expr(std::string& buffer, struct value_list *list) { struct value_list *ent; pattern_t ptype; int pos; if (!list) { buffer.append(default_match_pattern); return TRUE; } buffer.append("("); ptype = convert_aaregex_to_pcre(list->value, 0, glob_default, buffer, &pos); if (ptype == ePatternInvalid) goto fail; list_for_each(list->next, ent) { buffer.append("|"); ptype = convert_aaregex_to_pcre(ent->value, 0, glob_default, buffer, &pos); if (ptype == ePatternInvalid) goto fail; } buffer.append(")"); return TRUE; fail: return FALSE; } int convert_entry(std::string& buffer, char *entry) { pattern_t ptype; int pos; if (entry) { ptype = convert_aaregex_to_pcre(entry, 0, glob_default, buffer, &pos); if (ptype == ePatternInvalid) return FALSE; } else { buffer.append(default_match_pattern); } return TRUE; } int clear_and_convert_entry(std::string& buffer, char *entry) { buffer.clear(); return convert_entry(buffer, entry); } int post_process_policydb_ents(Profile *prof) { for (RuleList::iterator i = prof->rule_ents.begin(); i != prof->rule_ents.end(); i++) { if ((*i)->gen_policy_re(*prof) == RULE_ERROR) return FALSE; } return TRUE; } #define MAKE_STR(X) #X #define CLASS_STR(X) "\\d" MAKE_STR(X) #define MAKE_SUB_STR(X) "\\000" MAKE_STR(X) #define CLASS_SUB_STR(X, Y) MAKE_STR(X) MAKE_SUB_STR(Y) static const char *mediates_file = CLASS_STR(AA_CLASS_FILE); static const char *mediates_mount = CLASS_STR(AA_CLASS_MOUNT); static const char *mediates_dbus = CLASS_STR(AA_CLASS_DBUS); static const char *mediates_signal = CLASS_STR(AA_CLASS_SIGNAL); static const char *mediates_ptrace = CLASS_STR(AA_CLASS_PTRACE); static const char *mediates_extended_net = CLASS_STR(AA_CLASS_NET); static const char *mediates_net_unix = CLASS_SUB_STR(AA_CLASS_NET, AF_UNIX); int process_profile_policydb(Profile *prof) { int error = -1; prof->policy.rules = new aare_rules(); if (!prof->policy.rules) goto out; if (!post_process_policydb_ents(prof)) goto out; /* insert entries to show indicate what compiler/policy expects * to be supported */ /* note: this activates fs based unix domain sockets mediation on connect */ if (kernel_abi_version > 5 && !prof->policy.rules->add_rule(mediates_file, 0, AA_MAY_READ, 0, dfaflags)) goto out; if (kernel_supports_mount && !prof->policy.rules->add_rule(mediates_mount, 0, AA_MAY_READ, 0, dfaflags)) goto out; if (kernel_supports_dbus && !prof->policy.rules->add_rule(mediates_dbus, 0, AA_MAY_READ, 0, dfaflags)) goto out; if (kernel_supports_signal && !prof->policy.rules->add_rule(mediates_signal, 0, AA_MAY_READ, 0, dfaflags)) goto out; if (kernel_supports_ptrace && !prof->policy.rules->add_rule(mediates_ptrace, 0, AA_MAY_READ, 0, dfaflags)) goto out; if (kernel_supports_unix && (!prof->policy.rules->add_rule(mediates_extended_net, 0, AA_MAY_READ, 0, dfaflags) || !prof->policy.rules->add_rule(mediates_net_unix, 0, AA_MAY_READ, 0, dfaflags))) goto out; if (prof->policy.rules->rule_count > 0) { int xmatch_len = 0; prof->policy.dfa = prof->policy.rules->create_dfa(&prof->policy.size, &xmatch_len, dfaflags); delete prof->policy.rules; prof->policy.rules = NULL; if (!prof->policy.dfa) goto out; } else { delete prof->policy.rules; prof->policy.rules = NULL; } error = 0; out: delete prof->policy.rules; prof->policy.rules = NULL; return error; } #ifdef UNIT_TEST #include "unit_test.h" #define MY_FILTER_TEST(input, expected_str) \ do { \ char *test_string = NULL; \ char *output_string = NULL; \ \ test_string = strdup((input)); \ filter_slashes(test_string); \ asprintf(&output_string, "simple filter / conversion for '%s'\texpected = '%s'\tresult = '%s'", \ (input), (expected_str), test_string); \ MY_TEST(strcmp(test_string, (expected_str)) == 0, output_string); \ \ free(test_string); \ free(output_string); \ } \ while (0) static int test_filter_slashes(void) { int rc = 0; MY_FILTER_TEST("///foo//////f//oo////////////////", "/foo/f/oo/"); MY_FILTER_TEST("/foo/f/oo", "/foo/f/oo"); MY_FILTER_TEST("/", "/"); MY_FILTER_TEST("", ""); /* tests for "//" namespace */ MY_FILTER_TEST("//usr", "//usr"); MY_FILTER_TEST("//", "//"); /* tests for not "//" namespace */ MY_FILTER_TEST("///usr", "/usr"); MY_FILTER_TEST("///", "/"); MY_FILTER_TEST("/a/", "/a/"); return rc; } #define MY_REGEX_EXT_TEST(glob, input, expected_str, expected_type) \ do { \ std::string tbuf; \ std::string tbuf2 = "testprefix"; \ char *output_string = NULL; \ std::string expected_str2; \ pattern_t ptype; \ int pos; \ \ ptype = convert_aaregex_to_pcre((input), 0, glob, tbuf, &pos); \ asprintf(&output_string, "simple regex conversion for '%s'\texpected = '%s'\tresult = '%s'", \ (input), (expected_str), tbuf.c_str()); \ MY_TEST(strcmp(tbuf.c_str(), (expected_str)) == 0, output_string); \ MY_TEST(ptype == (expected_type), "simple regex conversion type check for '" input "'"); \ free(output_string); \ /* ensure convert_aaregex_to_pcre appends only to passed ref string */ \ expected_str2 = tbuf2; \ expected_str2.append((expected_str)); \ ptype = convert_aaregex_to_pcre((input), 0, glob, tbuf2, &pos); \ asprintf(&output_string, "simple regex conversion %sfor '%s'\texpected = '%s'\tresult = '%s'", \ glob == glob_null ? "with null allowed in glob " : "",\ (input), expected_str2.c_str(), tbuf2.c_str()); \ MY_TEST((tbuf2 == expected_str2), output_string); \ free(output_string); \ } \ while (0) #define MY_REGEX_TEST(input, expected_str, expected_type) MY_REGEX_EXT_TEST(glob_default, input, expected_str, expected_type) #define MY_REGEX_FAIL_TEST(input) \ do { \ std::string tbuf; \ pattern_t ptype; \ int pos; \ \ ptype = convert_aaregex_to_pcre((input), 0, glob_default, tbuf, &pos); \ MY_TEST(ptype == ePatternInvalid, "simple regex conversion invalid type check for '" input "'"); \ } \ while (0) static int test_aaregex_to_pcre(void) { int rc = 0; MY_REGEX_TEST("/most/basic/test", "/most/basic/test", ePatternBasic); MY_REGEX_FAIL_TEST("\\"); MY_REGEX_TEST("\\\\", "\\\\", ePatternBasic); MY_REGEX_TEST("\\blort", "blort", ePatternBasic); MY_REGEX_TEST("\\\\blort", "\\\\blort", ePatternBasic); MY_REGEX_FAIL_TEST("blort\\"); MY_REGEX_TEST("blort\\\\", "blort\\\\", ePatternBasic); MY_REGEX_TEST("*", "[^/\\x00]*", ePatternRegex); MY_REGEX_TEST("blort*", "blort[^/\\x00]*", ePatternRegex); MY_REGEX_TEST("*blort", "[^/\\x00]*blort", ePatternRegex); MY_REGEX_TEST("\\*", "\\*", ePatternBasic); MY_REGEX_TEST("blort\\*", "blort\\*", ePatternBasic); MY_REGEX_TEST("\\*blort", "\\*blort", ePatternBasic); /* simple quoting */ MY_REGEX_TEST("\\[", "\\[", ePatternBasic); MY_REGEX_TEST("\\]", "\\]", ePatternBasic); MY_REGEX_TEST("\\?", "?", ePatternBasic); MY_REGEX_TEST("\\{", "\\{", ePatternBasic); MY_REGEX_TEST("\\}", "\\}", ePatternBasic); MY_REGEX_TEST("\\,", ",", ePatternBasic); MY_REGEX_TEST("^", "\\^", ePatternBasic); MY_REGEX_TEST("$", "\\$", ePatternBasic); MY_REGEX_TEST(".", "\\.", ePatternBasic); MY_REGEX_TEST("+", "\\+", ePatternBasic); MY_REGEX_TEST("|", "\\|", ePatternBasic); MY_REGEX_TEST("(", "\$", ePatternBasic); MY_REGEX_TEST(")", "\$", ePatternBasic); MY_REGEX_TEST("\\^", "\\^", ePatternBasic); MY_REGEX_TEST("\\$", "\\$", ePatternBasic); MY_REGEX_TEST("\\.", "\\.", ePatternBasic); MY_REGEX_TEST("\\+", "\\+", ePatternBasic); MY_REGEX_TEST("\\|", "\\|", ePatternBasic); MY_REGEX_TEST("\$", "\\(", ePatternBasic); MY_REGEX_TEST("\$", "\\)", ePatternBasic); /* simple character class tests */ MY_REGEX_TEST("[blort]", "[blort]", ePatternRegex); MY_REGEX_FAIL_TEST("[blort"); MY_REGEX_FAIL_TEST("b[lort"); MY_REGEX_FAIL_TEST("blort["); MY_REGEX_FAIL_TEST("blort]"); MY_REGEX_FAIL_TEST("blo]rt"); MY_REGEX_FAIL_TEST("]blort"); MY_REGEX_TEST("b[lor]t", "b[lor]t", ePatternRegex); /* simple alternation tests */ MY_REGEX_TEST("{alpha,beta}", "(alpha|beta)", ePatternRegex); MY_REGEX_TEST("baz{alpha,beta}blort", "baz(alpha|beta)blort", ePatternRegex); MY_REGEX_FAIL_TEST("{beta}"); MY_REGEX_FAIL_TEST("biz{beta"); MY_REGEX_FAIL_TEST("biz}beta"); MY_REGEX_FAIL_TEST("biz{be,ta"); MY_REGEX_FAIL_TEST("biz,be}ta"); MY_REGEX_FAIL_TEST("biz{}beta"); /* nested alternations */ MY_REGEX_TEST("{{alpha,blort,nested},beta}", "((alpha|blort|nested)|beta)", ePatternRegex); MY_REGEX_FAIL_TEST("{{alpha,blort,nested}beta}"); MY_REGEX_TEST("{{alpha,{blort,nested}},beta}", "((alpha|(blort|nested))|beta)", ePatternRegex); MY_REGEX_TEST("{{alpha,alpha{blort,nested}}beta,beta}", "((alpha|alpha(blort|nested))beta|beta)", ePatternRegex); MY_REGEX_TEST("{{alpha,alpha{blort,nested}}beta,beta}", "((alpha|alpha(blort|nested))beta|beta)", ePatternRegex); MY_REGEX_TEST("{{a,b{c,d}}e,{f,{g,{h{i,j,k},l}m},n}o}", "((a|b(c|d))e|(f|(g|(h(i|j|k)|l)m)|n)o)", ePatternRegex); /* max nesting depth = 50 */ MY_REGEX_TEST("{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a,b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b}b,blort}", "(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a(a|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)|b)b|blort)", ePatternRegex); MY_REGEX_FAIL_TEST("{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a{a,b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b},b}b,blort}"); /* simple single char */ MY_REGEX_TEST("blor?t", "blor[^/\\x00]t", ePatternRegex); /* simple globbing */ MY_REGEX_TEST("/*", "/[^/\\x00][^/\\x00]*", ePatternRegex); MY_REGEX_TEST("/blort/*", "/blort/[^/\\x00][^/\\x00]*", ePatternRegex); MY_REGEX_TEST("/*/blort", "/[^/\\x00][^/\\x00]*/blort", ePatternRegex); MY_REGEX_TEST("/*/", "/[^/\\x00][^/\\x00]*/", ePatternRegex); MY_REGEX_TEST("/**", "/[^/\\x00][^\\x00]*", ePatternTailGlob); MY_REGEX_TEST("/blort/**", "/blort/[^/\\x00][^\\x00]*", ePatternTailGlob); MY_REGEX_TEST("/**/blort", "/[^/\\x00][^\\x00]*/blort", ePatternRegex); MY_REGEX_TEST("/**/", "/[^/\\x00][^\\x00]*/", ePatternRegex); /* more complicated quoting */ MY_REGEX_FAIL_TEST("\\\\["); MY_REGEX_FAIL_TEST("\\\\]"); MY_REGEX_TEST("\\\\?", "\\\\[^/\\x00]", ePatternRegex); MY_REGEX_FAIL_TEST("\\\\{"); MY_REGEX_FAIL_TEST("\\\\}"); MY_REGEX_TEST("\\\\,", "\\\\,", ePatternBasic); MY_REGEX_TEST("\\\\^", "\\\\\\^", ePatternBasic); MY_REGEX_TEST("\\\\$", "\\\\\\$", ePatternBasic); MY_REGEX_TEST("\\\\.", "\\\\\\.", ePatternBasic); MY_REGEX_TEST("\\\\+", "\\\\\\+", ePatternBasic); MY_REGEX_TEST("\\\\|", "\\\\\\|", ePatternBasic); MY_REGEX_TEST("\\\$", "\\\\\\(", ePatternBasic); MY_REGEX_TEST("\\\$", "\\\\\\)", ePatternBasic); MY_REGEX_TEST("\\000", "\\000", ePatternBasic); MY_REGEX_TEST("\\x00", "\\x00", ePatternBasic); MY_REGEX_TEST("\\d000", "\\d000", ePatternBasic); /* more complicated character class tests */ /* -- embedded alternations */ MY_REGEX_TEST("b[\\lor]t", "b[lor]t", ePatternRegex); MY_REGEX_TEST("b[{a,b}]t", "b[{a,b}]t", ePatternRegex); MY_REGEX_TEST("{alpha,b[{a,b}]t,gamma}", "(alpha|b[{a,b}]t|gamma)", ePatternRegex); /* pcre will ignore the '\' before '\{', but it should be okay * for us to pass this on to pcre as '\{' */ MY_REGEX_TEST("b[\\{a,b\\}]t", "b[\\{a,b\\}]t", ePatternRegex); MY_REGEX_TEST("{alpha,b[\\{a,b\\}]t,gamma}", "(alpha|b[\\{a,b\\}]t|gamma)", ePatternRegex); MY_REGEX_TEST("{alpha,b[\\{a\\,b\\}]t,gamma}", "(alpha|b[\\{a\\,b\\}]t|gamma)", ePatternRegex); /* test different globbing behavior conversion */ MY_REGEX_EXT_TEST(glob_default, "/foo/**", "/foo/[^/\\x00][^\\x00]*", ePatternTailGlob); MY_REGEX_EXT_TEST(glob_null, "/foo/**", "/foo/[^/].*", ePatternTailGlob); MY_REGEX_EXT_TEST(glob_default, "/foo/f**", "/foo/f[^\\x00]*", ePatternTailGlob); MY_REGEX_EXT_TEST(glob_null, "/foo/f**", "/foo/f.*", ePatternTailGlob); MY_REGEX_EXT_TEST(glob_default, "/foo/*", "/foo/[^/\\x00][^/\\x00]*", ePatternRegex); MY_REGEX_EXT_TEST(glob_null, "/foo/*", "/foo/[^/][^/]*", ePatternRegex); MY_REGEX_EXT_TEST(glob_default, "/foo/f*", "/foo/f[^/\\x00]*", ePatternRegex); MY_REGEX_EXT_TEST(glob_null, "/foo/f*", "/foo/f[^/]*", ePatternRegex); MY_REGEX_EXT_TEST(glob_default, "/foo/**.ext", "/foo/[^\\x00]*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_null, "/foo/**.ext", "/foo/.*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_default, "/foo/f**.ext", "/foo/f[^\\x00]*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_null, "/foo/f**.ext", "/foo/f.*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_default, "/foo/*.ext", "/foo/[^/\\x00]*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_null, "/foo/*.ext", "/foo/[^/]*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_default, "/foo/f*.ext", "/foo/f[^/\\x00]*\\.ext", ePatternRegex); MY_REGEX_EXT_TEST(glob_null, "/foo/f*.ext", "/foo/f[^/]*\\.ext", ePatternRegex); return rc; } int main(void) { int rc = 0; int retval; retval = test_filter_slashes(); if (retval != 0) rc = retval; retval = test_aaregex_to_pcre(); if (retval != 0) rc = retval; return rc; } #endif /* UNIT_TEST */