/************************************************* * PCRE2 testing program * *************************************************/ /* PCRE2 is a library of functions to support regular expressions whose syntax and semantics are as close as possible to those of the Perl 5 language. In 2014 the API was completely revised and '2' was added to the name, because the old API, which had lasted for 16 years, could not accommodate new requirements. At the same time, this testing program was re-designed because its original hacked-up (non-) design had also run out of steam. Written by Philip Hazel Original code Copyright (c) 1997-2012 University of Cambridge Rewritten code Copyright (c) 2015 University of Cambridge ----------------------------------------------------------------------------- Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the University of Cambridge nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ----------------------------------------------------------------------------- */ /* This program supports testing of the 8-bit, 16-bit, and 32-bit PCRE2 libraries in a single program, though its input and output are always 8-bit. It is different from modules such as pcre2_compile.c in the library itself, which are compiled separately for each code unit width. If two widths are enabled, for example, pcre2_compile.c is compiled twice. In contrast, pcre2test.c is compiled only once, and linked with all the enabled libraries. Therefore, it must not make use of any of the macros from pcre2.h or pcre2_internal.h that depend on PCRE2_CODE_UNIT_WIDTH. It does, however, make use of SUPPORT_PCRE2_8, SUPPORT_PCRE2_16, and SUPPORT_PCRE2_32, to ensure that it references only the enabled library functions. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #ifdef HAVE_UNISTD_H #include #endif /* Both libreadline and libedit are optionally supported. The user-supplied original patch uses readline/readline.h for libedit, but in at least one system it is installed as editline/readline.h, so the configuration code now looks for that first, falling back to readline/readline.h. */ #if defined(SUPPORT_LIBREADLINE) || defined(SUPPORT_LIBEDIT) #if defined(SUPPORT_LIBREADLINE) #include #include #else #if defined(HAVE_EDITLINE_READLINE_H) #include #else #include #endif #endif #endif /* Put the test for interactive input into a macro so that it can be changed if required for different environments. */ #define INTERACTIVE(f) isatty(fileno(f)) /* ---------------------- System-specific definitions ---------------------- */ /* A number of things vary for Windows builds. Originally, pcretest opened its input and output without "b"; then I was told that "b" was needed in some environments, so it was added for release 5.0 to both the input and output. (It makes no difference on Unix-like systems.) Later I was told that it is wrong for the input on Windows. I've now abstracted the modes into two macros that are set here, to make it easier to fiddle with them, and removed "b" from the input mode under Windows. */ #if defined(_WIN32) || defined(WIN32) #include /* For _setmode() */ #include /* For _O_BINARY */ #define INPUT_MODE "r" #define OUTPUT_MODE "wb" #ifndef isatty #define isatty _isatty /* This is what Windows calls them, I'm told, */ #endif /* though in some environments they seem to */ /* be already defined, hence the #ifndefs. */ #ifndef fileno #define fileno _fileno #endif /* A user sent this fix for Borland Builder 5 under Windows. */ #ifdef __BORLANDC__ #define _setmode(handle, mode) setmode(handle, mode) #endif /* Not Windows */ #else #include /* These two includes are needed */ #include /* for setrlimit(). */ #if defined NATIVE_ZOS /* z/OS uses non-binary I/O */ #define INPUT_MODE "r" #define OUTPUT_MODE "w" #else #define INPUT_MODE "rb" #define OUTPUT_MODE "wb" #endif #endif #ifdef __VMS #include void vms_setsymbol( char *, char *, int ); #endif /* ------------------End of system-specific definitions -------------------- */ /* Glueing macros that are used in several places below. */ #define glue(a,b) a##b #define G(a,b) glue(a,b) /* Miscellaneous parameters and manifests */ #ifndef CLOCKS_PER_SEC #ifdef CLK_TCK #define CLOCKS_PER_SEC CLK_TCK #else #define CLOCKS_PER_SEC 100 #endif #endif #define CFAIL_UNSET UINT32_MAX /* Unset value for cfail fields */ #define DFA_WS_DIMENSION 1000 /* Size of DFA workspace */ #define DEFAULT_OVECCOUNT 15 /* Default ovector count */ #define JUNK_OFFSET 0xdeadbeef /* For initializing ovector */ #define LOCALESIZE 32 /* Size of locale name */ #define LOOPREPEAT 500000 /* Default loop count for timing */ #define REPLACE_MODSIZE 96 /* Field for reading 8-bit replacement */ #define VERSION_SIZE 64 /* Size of buffer for the version strings */ /* Make sure the buffer into which replacement strings are copied is big enough to hold them as 32-bit code units. */ #define REPLACE_BUFFSIZE (4*REPLACE_MODSIZE) /* Execution modes */ #define PCRE8_MODE 8 #define PCRE16_MODE 16 #define PCRE32_MODE 32 /* Processing returns */ enum { PR_OK, PR_SKIP, PR_ABEND }; /* The macro PRINTABLE determines whether to print an output character as-is or as a hex value when showing compiled patterns. is We use it in cases when the locale has not been explicitly changed, so as to get consistent output from systems that differ in their output from isprint() even in the "C" locale. */ #ifdef EBCDIC #define PRINTABLE(c) ((c) >= 64 && (c) < 255) #else #define PRINTABLE(c) ((c) >= 32 && (c) < 127) #endif #define PRINTOK(c) ((locale_tables != NULL)? isprint(c) : PRINTABLE(c)) /* We have to include some of the library source files because we need to use some of the macros, internal structure definitions, and other internal values - pcre2test has "inside information" compared to an application program that strictly follows the PCRE2 API. Before including pcre2_internal.h we define PRIV so that it does not get defined therein. This ensures that PRIV names in the included files do not clash with those in the libraries. Also, although pcre2_internal.h does itself include pcre2.h, we explicitly include it beforehand, along with pcre2posix.h, so that the PCRE2_EXP_xxx macros get set appropriately for an application, not for building the library. */ #define PRIV(name) name #define PCRE2_CODE_UNIT_WIDTH 0 #include "pcre2.h" #include "pcre2posix.h" #include "pcre2_internal.h" /* We need access to some of the data tables that PCRE2 uses. Defining PCRE2_PCRETEST makes some minor changes in the files. The previous definition of PRIV avoids name clashes. */ #define PCRE2_PCRE2TEST #include "pcre2_tables.c" #include "pcre2_ucd.c" /* When PCRE2_CODE_UNIT_WIDTH is zero, pcre2_internal.h does not include pcre2_intmodedep.h, which is where mode-dependent macros and structures are defined. We can now include it for each supported code unit width. Because PCRE2_CODE_UNIT_WIDTH was defined as zero before including pcre2.h, it will have left PCRE2_SUFFIX defined as a no-op. We must re-define it appropriately while including these files, and then restore it to a no-op. Because LINK_SIZE may be changed in 16-bit mode and forced to 1 in 32-bit mode, the order of these inclusions should not be changed. */ #undef PCRE2_SUFFIX #undef PCRE2_CODE_UNIT_WIDTH #ifdef SUPPORT_PCRE2_8 #define PCRE2_CODE_UNIT_WIDTH 8 #define PCRE2_SUFFIX(a) G(a,8) #include "pcre2_intmodedep.h" #include "pcre2_printint.c" #undef PCRE2_CODE_UNIT_WIDTH #undef PCRE2_SUFFIX #endif /* SUPPORT_PCRE2_8 */ #ifdef SUPPORT_PCRE2_16 #define PCRE2_CODE_UNIT_WIDTH 16 #define PCRE2_SUFFIX(a) G(a,16) #include "pcre2_intmodedep.h" #include "pcre2_printint.c" #undef PCRE2_CODE_UNIT_WIDTH #undef PCRE2_SUFFIX #endif /* SUPPORT_PCRE2_16 */ #ifdef SUPPORT_PCRE2_32 #define PCRE2_CODE_UNIT_WIDTH 32 #define PCRE2_SUFFIX(a) G(a,32) #include "pcre2_intmodedep.h" #include "pcre2_printint.c" #undef PCRE2_CODE_UNIT_WIDTH #undef PCRE2_SUFFIX #endif /* SUPPORT_PCRE2_32 */ #define PCRE2_SUFFIX(a) a /* We need to be able to check input text for UTF-8 validity, whatever code widths are actually available, because the input to pcre2test is always in 8-bit code units. So we include the UTF validity checking function for 8-bit code units. */ extern int valid_utf(PCRE2_SPTR8, PCRE2_SIZE, PCRE2_SIZE *); #define PCRE2_CODE_UNIT_WIDTH 8 #undef PCRE2_SPTR #define PCRE2_SPTR PCRE2_SPTR8 #include "pcre2_valid_utf.c" #undef PCRE2_CODE_UNIT_WIDTH #undef PCRE2_SPTR /* If we have 8-bit support, default to it; if there is also 16-or 32-bit support, it can be selected by a command-line option. If there is no 8-bit support, there must be 16- or 32-bit support, so default to one of them. The config function, JIT stack, contexts, and version string are the same in all modes, so use the form of the first that is available. */ #if defined SUPPORT_PCRE2_8 #define DEFAULT_TEST_MODE PCRE8_MODE #define VERSION_TYPE PCRE2_UCHAR8 #define PCRE2_CONFIG pcre2_config_8 #define PCRE2_JIT_STACK pcre2_jit_stack_8 #define PCRE2_REAL_GENERAL_CONTEXT pcre2_real_general_context_8 #define PCRE2_REAL_COMPILE_CONTEXT pcre2_real_compile_context_8 #define PCRE2_REAL_MATCH_CONTEXT pcre2_real_match_context_8 #define VERSION_TYPE PCRE2_UCHAR8 #elif defined SUPPORT_PCRE2_16 #define DEFAULT_TEST_MODE PCRE16_MODE #define VERSION_TYPE PCRE2_UCHAR16 #define PCRE2_CONFIG pcre2_config_16 #define PCRE2_JIT_STACK pcre2_jit_stack_16 #define PCRE2_REAL_GENERAL_CONTEXT pcre2_real_general_context_16 #define PCRE2_REAL_COMPILE_CONTEXT pcre2_real_compile_context_16 #define PCRE2_REAL_MATCH_CONTEXT pcre2_real_match_context_16 #elif defined SUPPORT_PCRE2_32 #define DEFAULT_TEST_MODE PCRE32_MODE #define VERSION_TYPE PCRE2_UCHAR32 #define PCRE2_CONFIG pcre2_config_32 #define PCRE2_JIT_STACK pcre2_jit_stack_32 #define PCRE2_REAL_GENERAL_CONTEXT pcre2_real_general_context_32 #define PCRE2_REAL_COMPILE_CONTEXT pcre2_real_compile_context_32 #define PCRE2_REAL_MATCH_CONTEXT pcre2_real_match_context_32 #endif /* ------------- Structures and tables for handling modifiers -------------- */ /* Table of names for newline types. Must be kept in step with the definitions of PCRE2_NEWLINE_xx in pcre2.h. */ static const char *newlines[] = { "DEFAULT", "CR", "LF", "CRLF", "ANY", "ANYCRLF" }; /* Modifier types and applicability */ enum { MOD_CTC, /* Applies to a compile context */ MOD_CTM, /* Applies to a match context */ MOD_PAT, /* Applies to a pattern */ MOD_PATP, /* Ditto, OK for Perl test */ MOD_DAT, /* Applies to a data line */ MOD_PD, /* Applies to a pattern or a data line */ MOD_PDP, /* As MOD_PD, OK for Perl test */ MOD_PND, /* As MOD_PD, but not for a default pattern */ MOD_PNDP, /* As MOD_PND, OK for Perl test */ MOD_CTL, /* Is a control bit */ MOD_BSR, /* Is a BSR value */ MOD_IN2, /* Is one or two unsigned integers */ MOD_INS, /* Is a signed integer */ MOD_INT, /* Is an unsigned integer */ MOD_IND, /* Is an unsigned integer, but no value => default */ MOD_NL, /* Is a newline value */ MOD_NN, /* Is a number or a name; more than one may occur */ MOD_OPT, /* Is an option bit */ MOD_STR }; /* Is a string */ /* Control bits. Some apply to compiling, some to matching, but some can be set either on a pattern or a data line, so they must all be distinct. */ #define CTL_AFTERTEXT 0x00000001u #define CTL_ALLAFTERTEXT 0x00000002u #define CTL_ALLCAPTURES 0x00000004u #define CTL_ALLUSEDTEXT 0x00000008u #define CTL_ALTGLOBAL 0x00000010u #define CTL_BINCODE 0x00000020u #define CTL_CALLOUT_CAPTURE 0x00000040u #define CTL_CALLOUT_NONE 0x00000080u #define CTL_DFA 0x00000100u #define CTL_FINDLIMITS 0x00000200u #define CTL_FULLBINCODE 0x00000400u #define CTL_GETALL 0x00000800u #define CTL_GLOBAL 0x00001000u #define CTL_HEXPAT 0x00002000u #define CTL_INFO 0x00004000u #define CTL_JITFAST 0x00008000u #define CTL_JITVERIFY 0x00010000u #define CTL_MARK 0x00020000u #define CTL_MEMORY 0x00040000u #define CTL_POSIX 0x00080000u #define CTL_STARTCHAR 0x00100000u #define CTL_ZERO_TERMINATE 0x00200000u #define CTL_BSR_SET 0x80000000u /* This is informational */ #define CTL_NL_SET 0x40000000u /* This is informational */ #define CTL_DEBUG (CTL_FULLBINCODE|CTL_INFO) /* For setting */ #define CTL_ANYINFO (CTL_DEBUG|CTL_BINCODE) /* For testing */ #define CTL_ANYGLOB (CTL_ALTGLOBAL|CTL_GLOBAL) /* These are all the controls that may be set either on a pattern or on a data line. */ #define CTL_ALLPD (CTL_AFTERTEXT|\ CTL_ALLAFTERTEXT|\ CTL_ALLCAPTURES|\ CTL_ALLUSEDTEXT|\ CTL_ALTGLOBAL|\ CTL_GLOBAL|\ CTL_MARK|\ CTL_MEMORY|\ CTL_STARTCHAR) /* Structures for holding modifier information for patterns and subject strings (data). Fields containing modifiers that can be set either for a pattern or a subject must be at the start and in the same order in both cases so that the same offset in the big table below works for both. */ typedef struct patctl { /* Structure for pattern modifiers. */ uint32_t options; /* Must be in same position as datctl */ uint32_t control; /* Must be in same position as datctl */ uint8_t replacement[REPLACE_MODSIZE]; /* So must this */ uint32_t jit; uint32_t stackguard_test; uint32_t tables_id; uint8_t locale[LOCALESIZE]; } patctl; #define MAXCPYGET 10 #define LENCPYGET 64 typedef struct datctl { /* Structure for data line modifiers. */ uint32_t options; /* Must be in same position as patctl */ uint32_t control; /* Must be in same position as patctl */ uint8_t replacement[REPLACE_MODSIZE]; /* So must this */ uint32_t cfail[2]; int32_t callout_data; int32_t copy_numbers[MAXCPYGET]; int32_t get_numbers[MAXCPYGET]; uint32_t jitstack; uint32_t oveccount; uint32_t offset; uint8_t copy_names[LENCPYGET]; uint8_t get_names[LENCPYGET]; } datctl; /* Ids for which context to modify. */ enum { CTX_PAT, /* Active pattern context */ CTX_DEFPAT, /* Default pattern context */ CTX_DAT, /* Active data (match) context */ CTX_DEFDAT }; /* Default data (match) context */ /* Macros to simplify the big table below. */ #define CO(name) offsetof(PCRE2_REAL_COMPILE_CONTEXT, name) #define MO(name) offsetof(PCRE2_REAL_MATCH_CONTEXT, name) #define PO(name) offsetof(patctl, name) #define PD(name) PO(name) #define DO(name) offsetof(datctl, name) /* Table of all long-form modifiers. Must be in collating sequence of modifier name because it is searched by binary chop. */ typedef struct modstruct { const char *name; uint16_t which; uint16_t type; uint32_t value; PCRE2_SIZE offset; } modstruct; static modstruct modlist[] = { { "aftertext", MOD_PNDP, MOD_CTL, CTL_AFTERTEXT, PO(control) }, { "allaftertext", MOD_PNDP, MOD_CTL, CTL_ALLAFTERTEXT, PO(control) }, { "allcaptures", MOD_PND, MOD_CTL, CTL_ALLCAPTURES, PO(control) }, { "allow_empty_class", MOD_PAT, MOD_OPT, PCRE2_ALLOW_EMPTY_CLASS, PO(options) }, { "allusedtext", MOD_PNDP, MOD_CTL, CTL_ALLUSEDTEXT, PO(control) }, { "alt_bsux", MOD_PAT, MOD_OPT, PCRE2_ALT_BSUX, PO(options) }, { "altglobal", MOD_PND, MOD_CTL, CTL_ALTGLOBAL, PO(control) }, { "anchored", MOD_PD, MOD_OPT, PCRE2_ANCHORED, PD(options) }, { "auto_callout", MOD_PAT, MOD_OPT, PCRE2_AUTO_CALLOUT, PO(options) }, { "bincode", MOD_PAT, MOD_CTL, CTL_BINCODE, PO(control) }, { "bsr", MOD_CTC, MOD_BSR, 0, CO(bsr_convention) }, { "callout_capture", MOD_DAT, MOD_CTL, CTL_CALLOUT_CAPTURE, DO(control) }, { "callout_data", MOD_DAT, MOD_INS, 0, DO(callout_data) }, { "callout_fail", MOD_DAT, MOD_IN2, 0, DO(cfail) }, { "callout_none", MOD_DAT, MOD_CTL, CTL_CALLOUT_NONE, DO(control) }, { "caseless", MOD_PATP, MOD_OPT, PCRE2_CASELESS, PO(options) }, { "copy", MOD_DAT, MOD_NN, DO(copy_numbers), DO(copy_names) }, { "debug", MOD_PAT, MOD_CTL, CTL_DEBUG, PO(control) }, { "dfa", MOD_DAT, MOD_CTL, CTL_DFA, DO(control) }, { "dfa_restart", MOD_DAT, MOD_OPT, PCRE2_DFA_RESTART, DO(options) }, { "dfa_shortest", MOD_DAT, MOD_OPT, PCRE2_DFA_SHORTEST, DO(options) }, { "dollar_endonly", MOD_PAT, MOD_OPT, PCRE2_DOLLAR_ENDONLY, PO(options) }, { "dotall", MOD_PATP, MOD_OPT, PCRE2_DOTALL, PO(options) }, { "dupnames", MOD_PATP, MOD_OPT, PCRE2_DUPNAMES, PO(options) }, { "extended", MOD_PATP, MOD_OPT, PCRE2_EXTENDED, PO(options) }, { "find_limits", MOD_DAT, MOD_CTL, CTL_FINDLIMITS, DO(control) }, { "firstline", MOD_PAT, MOD_OPT, PCRE2_FIRSTLINE, PO(options) }, { "fullbincode", MOD_PAT, MOD_CTL, CTL_FULLBINCODE, PO(control) }, { "get", MOD_DAT, MOD_NN, DO(get_numbers), DO(get_names) }, { "getall", MOD_DAT, MOD_CTL, CTL_GETALL, DO(control) }, { "global", MOD_PNDP, MOD_CTL, CTL_GLOBAL, PO(control) }, { "hex", MOD_PAT, MOD_CTL, CTL_HEXPAT, PO(control) }, { "info", MOD_PAT, MOD_CTL, CTL_INFO, PO(control) }, { "jit", MOD_PAT, MOD_IND, 7, PO(jit) }, { "jitfast", MOD_PAT, MOD_CTL, CTL_JITFAST, PO(control) }, { "jitstack", MOD_DAT, MOD_INT, 0, DO(jitstack) }, { "jitverify", MOD_PAT, MOD_CTL, CTL_JITVERIFY, PO(control) }, { "locale", MOD_PAT, MOD_STR, LOCALESIZE, PO(locale) }, { "mark", MOD_PNDP, MOD_CTL, CTL_MARK, PO(control) }, { "match_limit", MOD_CTM, MOD_INT, 0, MO(match_limit) }, { "match_unset_backref", MOD_PAT, MOD_OPT, PCRE2_MATCH_UNSET_BACKREF, PO(options) }, { "memory", MOD_PD, MOD_CTL, CTL_MEMORY, PD(control) }, { "multiline", MOD_PATP, MOD_OPT, PCRE2_MULTILINE, PO(options) }, { "never_ucp", MOD_PAT, MOD_OPT, PCRE2_NEVER_UCP, PO(options) }, { "never_utf", MOD_PAT, MOD_OPT, PCRE2_NEVER_UTF, PO(options) }, { "newline", MOD_CTC, MOD_NL, 0, CO(newline_convention) }, { "no_auto_capture", MOD_PAT, MOD_OPT, PCRE2_NO_AUTO_CAPTURE, PO(options) }, { "no_auto_possess", MOD_PATP, MOD_OPT, PCRE2_NO_AUTO_POSSESS, PO(options) }, { "no_dotstar_anchor", MOD_PAT, MOD_OPT, PCRE2_NO_DOTSTAR_ANCHOR, PO(options) }, { "no_start_optimize", MOD_PATP, MOD_OPT, PCRE2_NO_START_OPTIMIZE, PO(options) }, { "no_utf_check", MOD_PD, MOD_OPT, PCRE2_NO_UTF_CHECK, PD(options) }, { "notbol", MOD_DAT, MOD_OPT, PCRE2_NOTBOL, DO(options) }, { "notempty", MOD_DAT, MOD_OPT, PCRE2_NOTEMPTY, DO(options) }, { "notempty_atstart", MOD_DAT, MOD_OPT, PCRE2_NOTEMPTY_ATSTART, DO(options) }, { "noteol", MOD_DAT, MOD_OPT, PCRE2_NOTEOL, DO(options) }, { "offset", MOD_DAT, MOD_INT, 0, DO(offset) }, { "ovector", MOD_DAT, MOD_INT, 0, DO(oveccount) }, { "parens_nest_limit", MOD_CTC, MOD_INT, 0, CO(parens_nest_limit) }, { "partial_hard", MOD_DAT, MOD_OPT, PCRE2_PARTIAL_HARD, DO(options) }, { "partial_soft", MOD_DAT, MOD_OPT, PCRE2_PARTIAL_SOFT, DO(options) }, { "ph", MOD_DAT, MOD_OPT, PCRE2_PARTIAL_HARD, DO(options) }, { "posix", MOD_PAT, MOD_CTL, CTL_POSIX, PO(control) }, { "ps", MOD_DAT, MOD_OPT, PCRE2_PARTIAL_SOFT, DO(options) }, { "recursion_limit", MOD_CTM, MOD_INT, 0, MO(recursion_limit) }, { "replace", MOD_PND, MOD_STR, REPLACE_MODSIZE, PO(replacement) }, { "stackguard", MOD_PAT, MOD_INT, 0, PO(stackguard_test) }, { "startchar", MOD_PND, MOD_CTL, CTL_STARTCHAR, PO(control) }, { "tables", MOD_PAT, MOD_INT, 0, PO(tables_id) }, { "ucp", MOD_PATP, MOD_OPT, PCRE2_UCP, PO(options) }, { "ungreedy", MOD_PAT, MOD_OPT, PCRE2_UNGREEDY, PO(options) }, { "utf", MOD_PATP, MOD_OPT, PCRE2_UTF, PO(options) }, { "zero_terminate", MOD_DAT, MOD_CTL, CTL_ZERO_TERMINATE, DO(control) } }; #define MODLISTCOUNT sizeof(modlist)/sizeof(modstruct) /* Controls and options that are supported for use with the POSIX interface. */ #define POSIX_SUPPORTED_COMPILE_OPTIONS ( \ PCRE2_CASELESS|PCRE2_DOTALL|PCRE2_MULTILINE|PCRE2_NO_AUTO_CAPTURE| \ PCRE2_UCP|PCRE2_UTF|PCRE2_UNGREEDY) #define POSIX_SUPPORTED_COMPILE_CONTROLS ( \ CTL_AFTERTEXT|CTL_ALLAFTERTEXT|CTL_POSIX) #define POSIX_SUPPORTED_MATCH_OPTIONS ( \ PCRE2_NOTBOL|PCRE2_NOTEMPTY|PCRE2_NOTEOL) #define POSIX_SUPPORTED_MATCH_CONTROLS (CTL_AFTERTEXT|CTL_ALLAFTERTEXT) /* Controls that are mutually exclusive. */ #define EXCLUSIVE_DAT_CONTROLS (CTL_ALLUSEDTEXT|CTL_STARTCHAR) /* Table of single-character abbreviated modifiers. The index field is initialized to -1, but the first time the modifier is encountered, it is filled in with the index of the full entry in modlist, to save repeated searching when processing multiple test items. This short list is searched serially, so its order does not matter. */ typedef struct c1modstruct { const char *fullname; uint32_t onechar; int index; } c1modstruct; static c1modstruct c1modlist[] = { { "bincode", 'B', -1 }, { "info", 'I', -1 }, { "global", 'g', -1 }, { "caseless", 'i', -1 }, { "multiline", 'm', -1 }, { "dotall", 's', -1 }, { "extended", 'x', -1 } }; #define C1MODLISTCOUNT sizeof(c1modlist)/sizeof(c1modstruct) /* Table of arguments for the -C command line option. Use macros to make the table itself easier to read. */ #if defined SUPPORT_PCRE2_8 #define SUPPORT_8 1 #endif #if defined SUPPORT_PCRE2_16 #define SUPPORT_16 1 #endif #if defined SUPPORT_PCRE2_32 #define SUPPORT_32 1 #endif #ifndef SUPPORT_8 #define SUPPORT_8 0 #endif #ifndef SUPPORT_16 #define SUPPORT_16 0 #endif #ifndef SUPPORT_32 #define SUPPORT_32 0 #endif #ifdef EBCDIC #define SUPPORT_EBCDIC 1 #define EBCDIC_NL CHAR_LF #else #define SUPPORT_EBCDIC 0 #define EBCDIC_NL 0 #endif typedef struct coptstruct { const char *name; uint32_t type; uint32_t value; } coptstruct; enum { CONF_BSR, CONF_FIX, CONF_FIZ, CONF_INT, CONF_NL }; static coptstruct coptlist[] = { { "bsr", CONF_BSR, PCRE2_CONFIG_BSR }, { "ebcdic", CONF_FIX, SUPPORT_EBCDIC }, { "ebcdic-nl", CONF_FIZ, EBCDIC_NL }, { "jit", CONF_INT, PCRE2_CONFIG_JIT }, { "linksize", CONF_INT, PCRE2_CONFIG_LINKSIZE }, { "newline", CONF_NL, PCRE2_CONFIG_NEWLINE }, { "pcre2-16", CONF_FIX, SUPPORT_16 }, { "pcre2-32", CONF_FIX, SUPPORT_32 }, { "pcre2-8", CONF_FIX, SUPPORT_8 }, { "unicode", CONF_INT, PCRE2_CONFIG_UNICODE } }; #define COPTLISTCOUNT sizeof(coptlist)/sizeof(coptstruct) #undef SUPPORT_8 #undef SUPPORT_16 #undef SUPPORT_32 #undef SUPPORT_EBCDIC /* ----------------------- Static variables ------------------------ */ static FILE *infile; static FILE *outfile; static const void *last_callout_mark; static PCRE2_JIT_STACK *jit_stack = NULL; static size_t jit_stack_size = 0; static BOOL first_callout; static BOOL jit_was_used; static BOOL restrict_for_perl_test = FALSE; static BOOL show_memory = FALSE; static int code_unit_size; /* Bytes */ static int test_mode = DEFAULT_TEST_MODE; static int timeit = 0; static int timeitm = 0; clock_t total_compile_time = 0; clock_t total_jit_compile_time = 0; clock_t total_match_time = 0; static uint32_t dfa_matched; static uint32_t forbid_utf = 0; static uint32_t maxlookbehind; static uint32_t max_oveccount; static uint32_t callout_count; static VERSION_TYPE jittarget[VERSION_SIZE]; static VERSION_TYPE version[VERSION_SIZE]; static VERSION_TYPE uversion[VERSION_SIZE]; static patctl def_patctl; static patctl pat_patctl; static datctl def_datctl; static datctl dat_datctl; #ifdef SUPPORT_PCRE2_8 static regex_t preg = { NULL, NULL, 0, 0 }; #endif static int *dfa_workspace = NULL; static const uint8_t *locale_tables = NULL; static uint8_t locale_name[32]; /* We need buffers for building 16/32-bit strings; 8-bit strings don't need rebuilding, but set up the same naming scheme for use in macros. The "buffer" buffer is where all input lines are read. Its size is the same as pbuffer8. Pattern lines are always copied to pbuffer8 for use in callouts, even if they are actually compiled from pbuffer16 or pbuffer32. */ static int pbuffer8_size = 50000; /* Initial size, bytes */ static uint8_t *pbuffer8 = NULL; static uint8_t *buffer = NULL; /* The dbuffer is where all processed data lines are put. In non-8-bit modes it is cast as needed. For long data lines it grows as necessary. */ static size_t dbuffer_size = 1u << 14; /* Initial size, bytes */ static uint8_t *dbuffer = NULL; /* ---------------- Mode-dependent variables -------------------*/ #ifdef SUPPORT_PCRE2_8 static pcre2_code_8 *compiled_code8; static pcre2_general_context_8 *general_context8, *general_context_copy8; static pcre2_compile_context_8 *pat_context8, *default_pat_context8; static pcre2_match_context_8 *dat_context8, *default_dat_context8; static pcre2_match_data_8 *match_data8; #endif #ifdef SUPPORT_PCRE2_16 static pcre2_code_16 *compiled_code16; static pcre2_general_context_16 *general_context16, *general_context_copy16; static pcre2_compile_context_16 *pat_context16, *default_pat_context16; static pcre2_match_context_16 *dat_context16, *default_dat_context16; static pcre2_match_data_16 *match_data16; static PCRE2_SIZE pbuffer16_size = 0; /* Set only when needed */ static uint16_t *pbuffer16 = NULL; #endif #ifdef SUPPORT_PCRE2_32 static pcre2_code_32 *compiled_code32; static pcre2_general_context_32 *general_context32, *general_context_copy32; static pcre2_compile_context_32 *pat_context32, *default_pat_context32; static pcre2_match_context_32 *dat_context32, *default_dat_context32; static pcre2_match_data_32 *match_data32; static PCRE2_SIZE pbuffer32_size = 0; /* Set only when needed */ static uint32_t *pbuffer32 = NULL; #endif /* ---------------- Macros that work in all modes ----------------- */ #define CAST8VAR(x) CASTVAR(uint8_t *, x) #define SET(x,y) SETOP(x,y,=) #define SETPLUS(x,y) SETOP(x,y,+=) #define strlen8(x) strlen((char *)x) /* ---------------- Mode-dependent, runtime-testing macros ------------------*/ /* Define macros for variables and functions that must be selected dynamically depending on the mode setting (8, 16, 32). These are dependent on which modes are supported. */ #if (defined (SUPPORT_PCRE2_8) + defined (SUPPORT_PCRE2_16) + \ defined (SUPPORT_PCRE2_32)) >= 2 /* ----- All three modes supported ----- */ #if defined(SUPPORT_PCRE2_8) && defined(SUPPORT_PCRE2_16) && defined(SUPPORT_PCRE2_32) #define CASTFLD(t,a,b) ((test_mode == PCRE8_MODE)? (t)(G(a,8)->b) : \ (test_mode == PCRE16_MODE)? (t)(G(a,16)->b) : (t)(G(a,32)->b)) #define CASTVAR(t,x) ( \ (test_mode == PCRE8_MODE)? (t)G(x,8) : \ (test_mode == PCRE16_MODE)? (t)G(x,16) : (t)G(x,32)) #define CODE_UNIT(a,b) ( \ (test_mode == PCRE8_MODE)? (uint32_t)(((PCRE2_SPTR8)(a))[b]) : \ (test_mode == PCRE16_MODE)? (uint32_t)(((PCRE2_SPTR16)(a))[b]) : \ (uint32_t)(((PCRE2_SPTR32)(a))[b])) #define DATCTXCPY(a,b) \ if (test_mode == PCRE8_MODE) \ memcpy(G(a,8),G(b,8),sizeof(pcre2_match_context_8)); \ else if (test_mode == PCRE16_MODE) \ memcpy(G(a,16),G(b,16),sizeof(pcre2_match_context_16)); \ else memcpy(G(a,32),G(b,32),sizeof(pcre2_match_context_32)) #define FLD(a,b) ((test_mode == PCRE8_MODE)? G(a,8)->b : \ (test_mode == PCRE16_MODE)? G(a,16)->b : G(a,32)->b) #define PATCTXCPY(a,b) \ if (test_mode == PCRE8_MODE) \ memcpy(G(a,8),G(b,8),sizeof(pcre2_compile_context_8)); \ else if (test_mode == PCRE16_MODE) \ memcpy(G(a,16),G(b,16),sizeof(pcre2_compile_context_16)); \ else memcpy(G(a,32),G(b,32),sizeof(pcre2_compile_context_32)) #define PCHARS(lv, p, offset, len, utf, f) \ if (test_mode == PCRE32_MODE) \ lv = pchars32((PCRE2_SPTR32)(p)+offset, len, utf, f); \ else if (test_mode == PCRE16_MODE) \ lv = pchars16((PCRE2_SPTR16)(p)+offset, len, utf, f); \ else \ lv = pchars8((PCRE2_SPTR8)(p)+offset, len, utf, f) #define PCHARSV(p, offset, len, utf, f) \ if (test_mode == PCRE32_MODE) \ (void)pchars32((PCRE2_SPTR32)(p)+offset, len, utf, f); \ else if (test_mode == PCRE16_MODE) \ (void)pchars16((PCRE2_SPTR16)(p)+offset, len, utf, f); \ else \ (void)pchars8((PCRE2_SPTR8)(p)+offset, len, utf, f) #define PCRE2_COMPILE(a,b,c,d,e,f,g) \ if (test_mode == PCRE8_MODE) \ G(a,8) = pcre2_compile_8(G(b,8),c,d,e,f,G(g,8)); \ else if (test_mode == PCRE16_MODE) \ G(a,16) = pcre2_compile_16(G(b,16),c,d,e,f,G(g,16)); \ else \ G(a,32) = pcre2_compile_32(G(b,32),c,d,e,f,G(g,32)) #define PCRE2_DFA_MATCH(a,b,c,d,e,f,g,h,i,j) \ if (test_mode == PCRE8_MODE) \ a = pcre2_dfa_match_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8),i,j); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_dfa_match_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16),i,j); \ else \ a = pcre2_dfa_match_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32),i,j) #define PCRE2_GET_ERROR_MESSAGE(r,a,b) \ if (test_mode == PCRE8_MODE) \ r = pcre2_get_error_message_8(a,G(b,8),G(G(b,8),_size)); \ else if (test_mode == PCRE16_MODE) \ r = pcre2_get_error_message_16(a,G(b,16),G(G(b,16),_size)); \ else \ r = pcre2_get_error_message_32(a,G(b,32),G(G(b,32),_size)) #define PCRE2_GET_OVECTOR_COUNT(a,b) \ if (test_mode == PCRE8_MODE) \ a = pcre2_get_ovector_count_8(G(b,8)); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_get_ovector_count_16(G(b,16)); \ else \ a = pcre2_get_ovector_count_32(G(b,32)) #define PCRE2_GET_STARTCHAR(a,b) \ if (test_mode == PCRE8_MODE) \ a = pcre2_get_startchar_8(G(b,8)); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_get_startchar_16(G(b,16)); \ else \ a = pcre2_get_startchar_32(G(b,32)) #define PCRE2_JIT_COMPILE(a,b) \ if (test_mode == PCRE8_MODE) pcre2_jit_compile_8(G(a,8),b); \ else if (test_mode == PCRE16_MODE) pcre2_jit_compile_16(G(a,16),b); \ else pcre2_jit_compile_32(G(a,32),b) #define PCRE2_JIT_FREE_UNUSED_MEMORY(a) \ if (test_mode == PCRE8_MODE) pcre2_jit_free_unused_memory_8(G(a,8)); \ else if (test_mode == PCRE16_MODE) pcre2_jit_free_unused_memory_16(G(a,16)); \ else pcre2_jit_free_unused_memory_32(G(a,32)) #define PCRE2_JIT_MATCH(a,b,c,d,e,f,g,h) \ if (test_mode == PCRE8_MODE) \ a = pcre2_jit_match_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8)); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_jit_match_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16)); \ else \ a = pcre2_jit_match_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32)) #define PCRE2_JIT_STACK_CREATE(a,b,c,d) \ if (test_mode == PCRE8_MODE) \ a = (PCRE2_JIT_STACK *)pcre2_jit_stack_create_8(b,c,d); \ else if (test_mode == PCRE16_MODE) \ a = (PCRE2_JIT_STACK *)pcre2_jit_stack_create_16(b,c,d); \ else \ a = (PCRE2_JIT_STACK *)pcre2_jit_stack_create_32(b,c,d); #define PCRE2_JIT_STACK_ASSIGN(a,b,c) \ if (test_mode == PCRE8_MODE) \ pcre2_jit_stack_assign_8(G(a,8),(pcre2_jit_callback_8)b,c); \ else if (test_mode == PCRE16_MODE) \ pcre2_jit_stack_assign_16(G(a,16),(pcre2_jit_callback_16)b,c); \ else \ pcre2_jit_stack_assign_32(G(a,32),(pcre2_jit_callback_32)b,c); #define PCRE2_JIT_STACK_FREE(a) \ if (test_mode == PCRE8_MODE) \ pcre2_jit_stack_free_8((pcre2_jit_stack_8 *)a); \ else if (test_mode == PCRE16_MODE) \ pcre2_jit_stack_free_16((pcre2_jit_stack_16 *)a); \ else \ pcre2_jit_stack_free_32((pcre2_jit_stack_32 *)a); #define PCRE2_MAKETABLES(a) \ if (test_mode == PCRE8_MODE) a = pcre2_maketables_8(NULL); \ else if (test_mode == PCRE16_MODE) a = pcre2_maketables_16(NULL); \ else a = pcre2_maketables_32(NULL) #define PCRE2_MATCH(a,b,c,d,e,f,g,h) \ if (test_mode == PCRE8_MODE) \ a = pcre2_match_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8)); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_match_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16)); \ else \ a = pcre2_match_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32)) #define PCRE2_MATCH_DATA_CREATE(a,b,c) \ if (test_mode == PCRE8_MODE) \ G(a,8) = pcre2_match_data_create_8(b,c); \ else if (test_mode == PCRE16_MODE) \ G(a,16) = pcre2_match_data_create_16(b,c); \ else \ G(a,32) = pcre2_match_data_create_32(b,c) #define PCRE2_MATCH_DATA_CREATE_FROM_PATTERN(a,b,c) \ if (test_mode == PCRE8_MODE) \ G(a,8) = pcre2_match_data_create_from_pattern_8(G(b,8),c); \ else if (test_mode == PCRE16_MODE) \ G(a,16) = pcre2_match_data_create_from_pattern_16(G(b,16),c); \ else \ G(a,32) = pcre2_match_data_create_from_pattern_32(G(b,32),c) #define PCRE2_MATCH_DATA_FREE(a) \ if (test_mode == PCRE8_MODE) \ pcre2_match_data_free_8(G(a,8)); \ else if (test_mode == PCRE16_MODE) \ pcre2_match_data_free_16(G(a,16)); \ else \ pcre2_match_data_free_32(G(a,32)) #define PCRE2_PATTERN_INFO(a,b,c,d) \ if (test_mode == PCRE8_MODE) \ a = pcre2_pattern_info_8(G(b,8),c,d); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_pattern_info_16(G(b,16),c,d); \ else \ a = pcre2_pattern_info_32(G(b,32),c,d) #define PCRE2_PRINTINT(a) \ if (test_mode == PCRE8_MODE) \ pcre2_printint_8(compiled_code8,outfile,a); \ else if (test_mode == PCRE16_MODE) \ pcre2_printint_16(compiled_code16,outfile,a); \ else \ pcre2_printint_32(compiled_code32,outfile,a) #define PCRE2_SET_CALLOUT(a,b,c) \ if (test_mode == PCRE8_MODE) \ pcre2_set_callout_8(G(a,8),(int (*)(pcre2_callout_block_8 *, void *))b,c); \ else if (test_mode == PCRE16_MODE) \ pcre2_set_callout_16(G(a,16),(int (*)(pcre2_callout_block_16 *, void *))b,c); \ else \ pcre2_set_callout_32(G(a,32),(int (*)(pcre2_callout_block_32 *, void *))b,c); #define PCRE2_SET_CHARACTER_TABLES(a,b) \ if (test_mode == PCRE8_MODE) \ pcre2_set_character_tables_8(G(a,8),b); \ else if (test_mode == PCRE16_MODE) \ pcre2_set_character_tables_16(G(a,16),b); \ else \ pcre2_set_character_tables_32(G(a,32),b) #define PCRE2_SET_COMPILE_RECURSION_GUARD(a,b,c) \ if (test_mode == PCRE8_MODE) \ pcre2_set_compile_recursion_guard_8(G(a,8),b,c); \ else if (test_mode == PCRE16_MODE) \ pcre2_set_compile_recursion_guard_16(G(a,16),b,c); \ else \ pcre2_set_compile_recursion_guard_32(G(a,32),b,c) #define PCRE2_SET_MATCH_LIMIT(a,b) \ if (test_mode == PCRE8_MODE) \ pcre2_set_match_limit_8(G(a,8),b); \ else if (test_mode == PCRE16_MODE) \ pcre2_set_match_limit_16(G(a,16),b); \ else \ pcre2_set_match_limit_32(G(a,32),b) #define PCRE2_SET_PARENS_NEST_LIMIT(a,b) \ if (test_mode == PCRE8_MODE) \ pcre2_set_parens_nest_limit_8(G(a,8),b); \ else if (test_mode == PCRE16_MODE) \ pcre2_set_parens_nest_limit_16(G(a,16),b); \ else \ pcre2_set_parens_nest_limit_32(G(a,32),b) #define PCRE2_SET_RECURSION_LIMIT(a,b) \ if (test_mode == PCRE8_MODE) \ pcre2_set_recursion_limit_8(G(a,8),b); \ else if (test_mode == PCRE16_MODE) \ pcre2_set_recursion_limit_16(G(a,16),b); \ else \ pcre2_set_recursion_limit_32(G(a,32),b) #define PCRE2_SUBSTITUTE(a,b,c,d,e,f,g,h,i,j,k,l) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substitute_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8), \ (PCRE2_SPTR8)i,j,(PCRE2_UCHAR8 *)k,l); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substitute_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16), \ (PCRE2_SPTR16)i,j,(PCRE2_UCHAR16 *)k,l); \ else \ a = pcre2_substitute_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32), \ (PCRE2_SPTR32)i,j,(PCRE2_UCHAR32 *)k,l) #define PCRE2_SUBSTRING_COPY_BYNAME(a,b,c,d,e) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_copy_byname_8(G(b,8),G(c,8),(PCRE2_UCHAR8 *)d,e); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_copy_byname_16(G(b,16),G(c,16),(PCRE2_UCHAR16 *)d,e); \ else \ a = pcre2_substring_copy_byname_32(G(b,32),G(c,32),(PCRE2_UCHAR32 *)d,e) #define PCRE2_SUBSTRING_COPY_BYNUMBER(a,b,c,d,e) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_copy_bynumber_8(G(b,8),c,(PCRE2_UCHAR8 *)d,e); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_copy_bynumber_16(G(b,16),c,(PCRE2_UCHAR16 *)d,e); \ else \ a = pcre2_substring_copy_bynumber_32(G(b,32),c,(PCRE2_UCHAR32 *)d,e) #define PCRE2_SUBSTRING_FREE(a) \ if (test_mode == PCRE8_MODE) pcre2_substring_free_8((PCRE2_UCHAR8 *)a); \ else if (test_mode == PCRE16_MODE) \ pcre2_substring_free_16((PCRE2_UCHAR16 *)a); \ else pcre2_substring_free_32((PCRE2_UCHAR32 *)a) #define PCRE2_SUBSTRING_GET_BYNAME(a,b,c,d,e) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_get_byname_8(G(b,8),G(c,8),(PCRE2_UCHAR8 **)d,e); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_get_byname_16(G(b,16),G(c,16),(PCRE2_UCHAR16 **)d,e); \ else \ a = pcre2_substring_get_byname_32(G(b,32),G(c,32),(PCRE2_UCHAR32 **)d,e) #define PCRE2_SUBSTRING_GET_BYNUMBER(a,b,c,d,e) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_get_bynumber_8(G(b,8),c,(PCRE2_UCHAR8 **)d,e); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_get_bynumber_16(G(b,16),c,(PCRE2_UCHAR16 **)d,e); \ else \ a = pcre2_substring_get_bynumber_32(G(b,32),c,(PCRE2_UCHAR32 **)d,e) #define PCRE2_SUBSTRING_LENGTH_BYNAME(a,b,c,d) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_length_byname_8(G(b,8),G(c,8),d); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_length_byname_16(G(b,16),G(c,16),d); \ else \ a = pcre2_substring_length_byname_32(G(b,32),G(c,32),d) #define PCRE2_SUBSTRING_LENGTH_BYNUMBER(a,b,c,d) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_length_bynumber_8(G(b,8),c,d); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_length_bynumber_16(G(b,16),c,d); \ else \ a = pcre2_substring_length_bynumber_32(G(b,32),c,d) #define PCRE2_SUBSTRING_LIST_GET(a,b,c,d) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_list_get_8(G(b,8),(PCRE2_UCHAR8 ***)c,d); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_list_get_16(G(b,16),(PCRE2_UCHAR16 ***)c,d); \ else \ a = pcre2_substring_list_get_32(G(b,32),(PCRE2_UCHAR32 ***)c,d) #define PCRE2_SUBSTRING_LIST_FREE(a) \ if (test_mode == PCRE8_MODE) \ pcre2_substring_list_free_8((PCRE2_SPTR8 *)a); \ else if (test_mode == PCRE16_MODE) \ pcre2_substring_list_free_16((PCRE2_SPTR16 *)a); \ else \ pcre2_substring_list_free_32((PCRE2_SPTR32 *)a) #define PCRE2_SUBSTRING_NUMBER_FROM_NAME(a,b,c) \ if (test_mode == PCRE8_MODE) \ a = pcre2_substring_number_from_name_8(G(b,8),G(c,8)); \ else if (test_mode == PCRE16_MODE) \ a = pcre2_substring_number_from_name_16(G(b,16),G(c,16)); \ else \ a = pcre2_substring_number_from_name_32(G(b,32),G(c,32)) #define PTR(x) ( \ (test_mode == PCRE8_MODE)? (void *)G(x,8) : \ (test_mode == PCRE16_MODE)? (void *)G(x,16) : \ (void *)G(x,32)) #define SETFLD(x,y,z) \ if (test_mode == PCRE8_MODE) G(x,8)->y = z; \ else if (test_mode == PCRE16_MODE) G(x,16)->y = z; \ else G(x,32)->y = z #define SETFLDVEC(x,y,v,z) \ if (test_mode == PCRE8_MODE) G(x,8)->y[v] = z; \ else if (test_mode == PCRE16_MODE) G(x,16)->y[v] = z; \ else G(x,32)->y[v] = z #define SETOP(x,y,z) \ if (test_mode == PCRE8_MODE) G(x,8) z y; \ else if (test_mode == PCRE16_MODE) G(x,16) z y; \ else G(x,32) z y #define SETCASTPTR(x,y) \ if (test_mode == PCRE8_MODE) \ G(x,8) = (uint8_t *)y; \ else if (test_mode == PCRE16_MODE) \ G(x,16) = (uint16_t *)y; \ else \ G(x,32) = (uint32_t *)y #define STRLEN(p) ((test_mode == PCRE8_MODE)? ((int)strlen((char *)p)) : \ (test_mode == PCRE16_MODE)? ((int)strlen16((PCRE2_SPTR16)p)) : \ ((int)strlen32((PCRE2_SPTR32)p))) #define SUB1(a,b) \ if (test_mode == PCRE8_MODE) G(a,8)(G(b,8)); \ else if (test_mode == PCRE16_MODE) G(a,16)(G(b,16)); \ else G(a,32)(G(b,32)) #define SUB2(a,b,c) \ if (test_mode == PCRE8_MODE) G(a,8)(G(b,8),G(c,8)); \ else if (test_mode == PCRE16_MODE) G(a,16)(G(b,16),G(c,16)); \ else G(a,32)(G(b,32),G(c,32)) #define TEST(x,r,y) ( \ (test_mode == PCRE8_MODE && G(x,8) r (y)) || \ (test_mode == PCRE16_MODE && G(x,16) r (y)) || \ (test_mode == PCRE32_MODE && G(x,32) r (y))) #define TESTFLD(x,f,r,y) ( \ (test_mode == PCRE8_MODE && G(x,8)->f r (y)) || \ (test_mode == PCRE16_MODE && G(x,16)->f r (y)) || \ (test_mode == PCRE32_MODE && G(x,32)->f r (y))) /* ----- Two out of three modes are supported ----- */ #else /* We can use some macro trickery to make a single set of definitions work in the three different cases. */ /* ----- 32-bit and 16-bit but not 8-bit supported ----- */ #if defined(SUPPORT_PCRE2_32) && defined(SUPPORT_PCRE2_16) #define BITONE 32 #define BITTWO 16 /* ----- 32-bit and 8-bit but not 16-bit supported ----- */ #elif defined(SUPPORT_PCRE2_32) && defined(SUPPORT_PCRE2_8) #define BITONE 32 #define BITTWO 8 /* ----- 16-bit and 8-bit but not 32-bit supported ----- */ #else #define BITONE 16 #define BITTWO 8 #endif /* ----- Common macros for two-mode cases ----- */ #define CASTFLD(t,a,b) \ ((test_mode == G(G(PCRE,BITONE),_MODE))? (t)(G(a,BITONE)->b) : \ (t)(G(a,BITTWO)->b)) #define CASTVAR(t,x) ( \ (test_mode == G(G(PCRE,BITONE),_MODE))? \ (t)G(x,BITONE) : (t)G(x,BITTWO)) #define CODE_UNIT(a,b) ( \ (test_mode == G(G(PCRE,BITONE),_MODE))? \ (uint32_t)(((G(PCRE2_SPTR,BITONE))(a))[b]) : \ (uint32_t)(((G(PCRE2_SPTR,BITTWO))(a))[b])) #define DATCTXCPY(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ memcpy(G(a,BITONE),G(b,BITONE),sizeof(G(pcre2_match_context_,BITONE))); \ else \ memcpy(G(a,BITTWO),G(b,BITTWO),sizeof(G(pcre2_match_context_,BITTWO))) #define FLD(a,b) \ ((test_mode == G(G(PCRE,BITONE),_MODE))? G(a,BITONE)->b : G(a,BITTWO)->b) #define PATCTXCPY(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ memcpy(G(a,BITONE),G(b,BITONE),sizeof(G(pcre2_compile_context_,BITONE))); \ else \ memcpy(G(a,BITTWO),G(b,BITTWO),sizeof(G(pcre2_compile_context_,BITTWO))) #define PCHARS(lv, p, offset, len, utf, f) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ lv = G(pchars,BITONE)((G(PCRE2_SPTR,BITONE))(p)+offset, len, utf, f); \ else \ lv = G(pchars,BITTWO)((G(PCRE2_SPTR,BITTWO))(p)+offset, len, utf, f) #define PCHARSV(p, offset, len, utf, f) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ (void)G(pchars,BITONE)((G(PCRE2_SPTR,BITONE))(p)+offset, len, utf, f); \ else \ (void)G(pchars,BITTWO)((G(PCRE2_SPTR,BITTWO))(p)+offset, len, utf, f) #define PCRE2_COMPILE(a,b,c,d,e,f,g) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(a,BITONE) = G(pcre2_compile_,BITONE)(G(b,BITONE),c,d,e,f,G(g,BITONE)); \ else \ G(a,BITTWO) = G(pcre2_compile_,BITTWO)(G(b,BITTWO),c,d,e,f,G(g,BITTWO)) #define PCRE2_DFA_MATCH(a,b,c,d,e,f,g,h,i,j) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_dfa_match_,BITONE)(G(b,BITONE),(G(PCRE2_SPTR,BITONE))c,d,e,f, \ G(g,BITONE),G(h,BITONE),i,j); \ else \ a = G(pcre2_dfa_match_,BITTWO)(G(b,BITTWO),(G(PCRE2_SPTR,BITTWO))c,d,e,f, \ G(g,BITTWO),G(h,BITTWO),i,j) #define PCRE2_GET_ERROR_MESSAGE(r,a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ r = G(pcre2_get_error_message_,BITONE)(a,G(b,BITONE),G(G(b,BITONE),_size)); \ else \ r = G(pcre2_get_error_message_,BITTWO)(a,G(b,BITTWO),G(G(b,BITTWO),_size)) #define PCRE2_GET_OVECTOR_COUNT(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_get_ovector_count_,BITONE)(G(b,BITONE)); \ else \ a = G(pcre2_get_ovector_count_,BITTWO)(G(b,BITTWO)) #define PCRE2_GET_STARTCHAR(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_get_startchar_,BITONE)(G(b,BITONE)); \ else \ a = G(pcre2_get_startchar_,BITTWO)(G(b,BITTWO)) #define PCRE2_JIT_COMPILE(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_jit_compile_,BITONE)(G(a,BITONE),b); \ else \ G(pcre2_jit_compile_,BITTWO)(G(a,BITTWO),b) #define PCRE2_JIT_FREE_UNUSED_MEMORY(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_jit_free_unused_memory_,BITONE)(G(a,BITONE)); \ else \ G(pcre2_jit_free_unused_memory_,BITTWO)(G(a,BITTWO)) #define PCRE2_JIT_MATCH(a,b,c,d,e,f,g,h) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_jit_match_,BITONE)(G(b,BITONE),(G(PCRE2_SPTR,BITONE))c,d,e,f, \ G(g,BITONE),G(h,BITONE)); \ else \ a = G(pcre2_jit_match_,BITTWO)(G(b,BITTWO),(G(PCRE2_SPTR,BITTWO))c,d,e,f, \ G(g,BITTWO),G(h,BITTWO)) #define PCRE2_JIT_STACK_CREATE(a,b,c,d) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = (PCRE2_JIT_STACK *)G(pcre2_jit_stack_create_,BITONE)(b,c,d); \ else \ a = (PCRE2_JIT_STACK *)G(pcre2_jit_stack_create_,BITTWO)(b,c,d); \ #define PCRE2_JIT_STACK_ASSIGN(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_jit_stack_assign_,BITONE)(G(a,BITONE),(G(pcre2_jit_callback_,BITONE))b,c); \ else \ G(pcre2_jit_stack_assign_,BITTWO)(G(a,BITTWO),(G(pcre2_jit_callback_,BITTWO))b,c); #define PCRE2_JIT_STACK_FREE(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_jit_stack_free_,BITONE)((G(pcre2_jit_stack_,BITONE) *)a); \ else \ G(pcre2_jit_stack_free_,BITTWO)((G(pcre2_jit_stack_,BITTWO) *)a); #define PCRE2_MAKETABLES(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_maketables_,BITONE)(NULL); \ else \ a = G(pcre2_maketables_,BITTWO)(NULL) #define PCRE2_MATCH(a,b,c,d,e,f,g,h) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_match_,BITONE)(G(b,BITONE),(G(PCRE2_SPTR,BITONE))c,d,e,f, \ G(g,BITONE),G(h,BITONE)); \ else \ a = G(pcre2_match_,BITTWO)(G(b,BITTWO),(G(PCRE2_SPTR,BITTWO))c,d,e,f, \ G(g,BITTWO),G(h,BITTWO)) #define PCRE2_MATCH_DATA_CREATE(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(a,BITONE) = G(pcre2_match_data_create_,BITONE)(b,c); \ else \ G(a,BITTWO) = G(pcre2_match_data_create_,BITTWO)(b,c) #define PCRE2_MATCH_DATA_CREATE_FROM_PATTERN(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(a,BITONE) = G(pcre2_match_data_create_from_pattern_,BITONE)(G(b,BITONE),c); \ else \ G(a,BITTWO) = G(pcre2_match_data_create_from_pattern_,BITTWO)(G(b,BITTWO),c) #define PCRE2_MATCH_DATA_FREE(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_match_data_free_,BITONE)(G(a,BITONE)); \ else \ G(pcre2_match_data_free_,BITTWO)(G(a,BITTWO)) #define PCRE2_PATTERN_INFO(a,b,c,d) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_pattern_info_,BITONE)(G(b,BITONE),c,d); \ else \ a = G(pcre2_pattern_info_,BITTWO)(G(b,BITTWO),c,d) #define PCRE2_PRINTINT(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_printint_,BITONE)(G(compiled_code,BITONE),outfile,a); \ else \ G(pcre2_printint_,BITTWO)(G(compiled_code,BITTWO),outfile,a) #define PCRE2_SET_CALLOUT(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_set_callout_,BITONE)(G(a,BITONE), \ (int (*)(G(pcre2_callout_block_,BITONE) *, void *))b,c); \ else \ G(pcre2_set_callout_,BITTWO)(G(a,BITTWO), \ (int (*)(G(pcre2_callout_block_,BITTWO) *, void *))b,c); #define PCRE2_SET_CHARACTER_TABLES(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_set_character_tables_,BITONE)(G(a,BITONE),b); \ else \ G(pcre2_set_character_tables_,BITTWO)(G(a,BITTWO),b) #define PCRE2_SET_COMPILE_RECURSION_GUARD(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_set_compile_recursion_guard_,BITONE)(G(a,BITONE),b,c); \ else \ G(pcre2_set_compile_recursion_guard_,BITTWO)(G(a,BITTWO),b,c) #define PCRE2_SET_MATCH_LIMIT(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_set_match_limit_,BITONE)(G(a,BITONE),b); \ else \ G(pcre2_set_match_limit_,BITTWO)(G(a,BITTWO),b) #define PCRE2_SET_PARENS_NEST_LIMIT(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_set_parens_nest_limit_,BITONE)(G(a,BITONE),b); \ else \ G(pcre2_set_parens_nest_limit_,BITTWO)(G(a,BITTWO),b) #define PCRE2_SET_RECURSION_LIMIT(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_set_recursion_limit_,BITONE)(G(a,BITONE),b); \ else \ G(pcre2_set_recursion_limit_,BITTWO)(G(a,BITTWO),b) #define PCRE2_SUBSTITUTE(a,b,c,d,e,f,g,h,i,j,k,l) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substitute_,BITONE)(G(b,BITONE),(G(PCRE2_SPTR,BITONE))c,d,e,f, \ G(g,BITONE),G(h,BITONE),(G(PCRE2_SPTR,BITONE))i,j, \ (G(PCRE2_UCHAR,BITONE) *)k,l); \ else \ a = G(pcre2_substitute_,BITTWO)(G(b,BITTWO),(G(PCRE2_SPTR,BITTWO))c,d,e,f, \ G(g,BITTWO),G(h,BITTWO),(G(PCRE2_SPTR,BITTWO))i,j, \ (G(PCRE2_UCHAR,BITTWO) *)k,l) #define PCRE2_SUBSTRING_COPY_BYNAME(a,b,c,d,e) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_copy_byname_,BITONE)(G(b,BITONE),G(c,BITONE),\ (G(PCRE2_UCHAR,BITONE) *)d,e); \ else \ a = G(pcre2_substring_copy_byname_,BITTWO)(G(b,BITTWO),G(c,BITTWO),\ (G(PCRE2_UCHAR,BITTWO) *)d,e) #define PCRE2_SUBSTRING_COPY_BYNUMBER(a,b,c,d,e) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_copy_bynumber_,BITONE)(G(b,BITONE),c,\ (G(PCRE2_UCHAR,BITONE) *)d,e); \ else \ a = G(pcre2_substring_copy_bynumber_,BITTWO)(G(b,BITTWO),c,\ (G(PCRE2_UCHAR,BITTWO) *)d,e) #define PCRE2_SUBSTRING_FREE(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_substring_free_,BITONE)((G(PCRE2_UCHAR,BITONE) *)a); \ else G(pcre2_substring_free_,BITTWO)((G(PCRE2_UCHAR,BITTWO) *)a) #define PCRE2_SUBSTRING_GET_BYNAME(a,b,c,d,e) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_get_byname_,BITONE)(G(b,BITONE),G(c,BITONE),\ (G(PCRE2_UCHAR,BITONE) **)d,e); \ else \ a = G(pcre2_substring_get_byname_,BITTWO)(G(b,BITTWO),G(c,BITTWO),\ (G(PCRE2_UCHAR,BITTWO) **)d,e) #define PCRE2_SUBSTRING_GET_BYNUMBER(a,b,c,d,e) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_get_bynumber_,BITONE)(G(b,BITONE),c,\ (G(PCRE2_UCHAR,BITONE) **)d,e); \ else \ a = G(pcre2_substring_get_bynumber_,BITTWO)(G(b,BITTWO),c,\ (G(PCRE2_UCHAR,BITTWO) **)d,e) #define PCRE2_SUBSTRING_LENGTH_BYNAME(a,b,c,d) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_length_byname_,BITONE)(G(b,BITONE),G(c,BITONE),d); \ else \ a = G(pcre2_substring_length_byname_,BITTWO)(G(b,BITTWO),G(c,BITTWO),d) #define PCRE2_SUBSTRING_LENGTH_BYNUMBER(a,b,c,d) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_length_bynumber_,BITONE)(G(b,BITONE),c,d); \ else \ a = G(pcre2_substring_length_bynumber_,BITTWO)(G(b,BITTWO),c,d) #define PCRE2_SUBSTRING_LIST_GET(a,b,c,d) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_list_get_,BITONE)(G(b,BITONE), \ (G(PCRE2_UCHAR,BITONE) ***)c,d); \ else \ a = G(pcre2_substring_list_get_,BITTWO)(G(b,BITTWO), \ (G(PCRE2_UCHAR,BITTWO) ***)c,d) #define PCRE2_SUBSTRING_LIST_FREE(a) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(pcre2_substring_list_free_,BITONE)((G(PCRE2_SPTR,BITONE) *)a); \ else \ G(pcre2_substring_list_free_,BITTWO)((G(PCRE2_SPTR,BITTWO) *)a) #define PCRE2_SUBSTRING_NUMBER_FROM_NAME(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ a = G(pcre2_substring_number_from_name_,BITONE)(G(b,BITONE),G(c,BITONE)); \ else \ a = G(pcre2_substring_number_from_name_,BITTWO)(G(b,BITTWO),G(c,BITTWO)) #define PTR(x) ( \ (test_mode == G(G(PCRE,BITONE),_MODE))? (void *)G(x,BITONE) : \ (void *)G(x,BITTWO)) #define SETFLD(x,y,z) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) G(x,BITONE)->y = z; \ else G(x,BITTWO)->y = z #define SETFLDVEC(x,y,v,z) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) G(x,BITONE)->y[v] = z; \ else G(x,BITTWO)->y[v] = z #define SETOP(x,y,z) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) G(x,BITONE) z y; \ else G(x,BITTWO) z y #define SETCASTPTR(x,y) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(x,BITONE) = (G(G(uint,BITONE),_t) *)y; \ else \ G(x,BITTWO) = (G(G(uint,BITTWO),_t) *)y #define STRLEN(p) ((test_mode == G(G(PCRE,BITONE),_MODE))? \ G(strlen,BITONE)((G(PCRE2_SPTR,BITONE))p) : \ G(strlen,BITTWO)((G(PCRE2_SPTR,BITTWO))p)) #define SUB1(a,b) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(a,BITONE)(G(b,BITONE)); \ else \ G(a,BITTWO)(G(b,BITTWO)) #define SUB2(a,b,c) \ if (test_mode == G(G(PCRE,BITONE),_MODE)) \ G(a,BITONE))(G(b,BITONE),G(c,BITONE)); \ else \ G(a,BITTWO))(G(b,BITTWO),G(c,BITTWO)) #define TEST(x,r,y) ( \ (test_mode == G(G(PCRE,BITONE),_MODE) && G(x,BITONE) r (y)) || \ (test_mode == G(G(PCRE,BITTWO),_MODE) && G(x,BITTWO) r (y))) #define TESTFLD(x,f,r,y) ( \ (test_mode == G(G(PCRE,BITONE),_MODE) && G(x,BITONE)->f r (y)) || \ (test_mode == G(G(PCRE,BITTWO),_MODE) && G(x,BITTWO)->f r (y))) #endif /* Two out of three modes */ /* ----- End of cases where more than one mode is supported ----- */ /* ----- Only 8-bit mode is supported ----- */ #elif defined SUPPORT_PCRE2_8 #define CASTFLD(t,a,b) (t)(G(a,8)->b) #define CASTVAR(t,x) (t)G(x,8) #define CODE_UNIT(a,b) (uint32_t)(((PCRE2_SPTR8)(a))[b]) #define DATCTXCPY(a,b) memcpy(G(a,8),G(b,8),sizeof(pcre2_match_context_8)) #define FLD(a,b) G(a,8)->b #define PATCTXCPY(a,b) memcpy(G(a,8),G(b,8),sizeof(pcre2_compile_context_8)) #define PCHARS(lv, p, offset, len, utf, f) \ lv = pchars8((PCRE2_SPTR8)(p)+offset, len, utf, f) #define PCHARSV(p, offset, len, utf, f) \ (void)pchars8((PCRE2_SPTR8)(p)+offset, len, utf, f) #define PCRE2_COMPILE(a,b,c,d,e,f,g) \ G(a,8) = pcre2_compile_8(G(b,8),c,d,e,f,G(g,8)) #define PCRE2_DFA_MATCH(a,b,c,d,e,f,g,h,i,j) \ a = pcre2_dfa_match_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8),i,j) #define PCRE2_GET_ERROR_MESSAGE(r,a,b) \ r = pcre2_get_error_message_8(a,G(b,8),G(G(b,8),_size)) #define PCRE2_GET_OVECTOR_COUNT(a,b) a = pcre2_get_ovector_count_8(G(b,8)) #define PCRE2_GET_STARTCHAR(a,b) a = pcre2_get_startchar_8(G(b,8)) #define PCRE2_JIT_COMPILE(a,b) pcre2_jit_compile_8(G(a,8),b) #define PCRE2_JIT_FREE_UNUSED_MEMORY(a) pcre2_jit_free_unused_memory_8(G(a,8)) #define PCRE2_JIT_MATCH(a,b,c,d,e,f,g,h) \ a = pcre2_jit_match_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8)) #define PCRE2_JIT_STACK_CREATE(a,b,c,d) \ a = (PCRE2_JIT_STACK *)pcre2_jit_stack_create_8(b,c,d); #define PCRE2_JIT_STACK_ASSIGN(a,b,c) \ pcre2_jit_stack_assign_8(G(a,8),(pcre2_jit_callback_8)b,c); #define PCRE2_JIT_STACK_FREE(a) pcre2_jit_stack_free_8((pcre2_jit_stack_8 *)a); #define PCRE2_MAKETABLES(a) a = pcre2_maketables_8(NULL) #define PCRE2_MATCH(a,b,c,d,e,f,g,h) \ a = pcre2_match_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8)) #define PCRE2_MATCH_DATA_CREATE(a,b,c) G(a,8) = pcre2_match_data_create_8(b,c) #define PCRE2_MATCH_DATA_CREATE_FROM_PATTERN(a,b,c) \ G(a,8) = pcre2_match_data_create_from_pattern_8(G(b,8),c) #define PCRE2_MATCH_DATA_FREE(a) pcre2_match_data_free_8(G(a,8)) #define PCRE2_PATTERN_INFO(a,b,c,d) a = pcre2_pattern_info_8(G(b,8),c,d) #define PCRE2_PRINTINT(a) pcre2_printint_8(compiled_code8,outfile,a) #define PCRE2_SET_CALLOUT(a,b,c) \ pcre2_set_callout_8(G(a,8),(int (*)(pcre2_callout_block_8 *, void *))b,c) #define PCRE2_SET_CHARACTER_TABLES(a,b) pcre2_set_character_tables_8(G(a,8),b) #define PCRE2_SET_COMPILE_RECURSION_GUARD(a,b,c) \ pcre2_set_compile_recursion_guard_8(G(a,8),b,c) #define PCRE2_SET_MATCH_LIMIT(a,b) pcre2_set_match_limit_8(G(a,8),b) #define PCRE2_SET_PARENS_NEST_LIMIT(a,b) pcre2_set_parens_nest_limit_8(G(a,8),b) #define PCRE2_SET_RECURSION_LIMIT(a,b) pcre2_set_recursion_limit_8(G(a,8),b) #define PCRE2_SUBSTITUTE(a,b,c,d,e,f,g,h,i,j,k,l) \ a = pcre2_substitute_8(G(b,8),(PCRE2_SPTR8)c,d,e,f,G(g,8),G(h,8), \ (PCRE2_SPTR8)i,j,(PCRE2_UCHAR8 *)k,l) #define PCRE2_SUBSTRING_COPY_BYNAME(a,b,c,d,e) \ a = pcre2_substring_copy_byname_8(G(b,8),G(c,8),(PCRE2_UCHAR8 *)d,e) #define PCRE2_SUBSTRING_COPY_BYNUMBER(a,b,c,d,e) \ a = pcre2_substring_copy_bynumber_8(G(b,8),c,(PCRE2_UCHAR8 *)d,e) #define PCRE2_SUBSTRING_FREE(a) pcre2_substring_free_8((PCRE2_UCHAR8 *)a) #define PCRE2_SUBSTRING_GET_BYNAME(a,b,c,d,e) \ a = pcre2_substring_get_byname_8(G(b,8),G(c,8),(PCRE2_UCHAR8 **)d,e) #define PCRE2_SUBSTRING_GET_BYNUMBER(a,b,c,d,e) \ a = pcre2_substring_get_bynumber_8(G(b,8),c,(PCRE2_UCHAR8 **)d,e) #define PCRE2_SUBSTRING_LENGTH_BYNAME(a,b,c,d) \ a = pcre2_substring_length_byname_8(G(b,8),G(c,8),d) #define PCRE2_SUBSTRING_LENGTH_BYNUMBER(a,b,c,d) \ a = pcre2_substring_length_bynumber_8(G(b,8),c,d) #define PCRE2_SUBSTRING_LIST_GET(a,b,c,d) \ a = pcre2_substring_list_get_8(G(b,8),(PCRE2_UCHAR8 ***)c,d) #define PCRE2_SUBSTRING_LIST_FREE(a) \ pcre2_substring_list_free_8((PCRE2_SPTR8 *)a) #define PCRE2_SUBSTRING_NUMBER_FROM_NAME(a,b,c) \ a = pcre2_substring_number_from_name_8(G(b,8),G(c,8)); #define PTR(x) (void *)G(x,8) #define SETFLD(x,y,z) G(x,8)->y = z #define SETFLDVEC(x,y,v,z) G(x,8)->y[v] = z #define SETOP(x,y,z) G(x,8) z y #define SETCASTPTR(x,y) G(x,8) = (uint8_t *)y #define STRLEN(p) (int)strlen((char *)p) #define SUB1(a,b) G(a,8)(G(b,8)) #define SUB2(a,b,c) G(a,8)(G(b,8),G(c,8)) #define TEST(x,r,y) (G(x,8) r (y)) #define TESTFLD(x,f,r,y) (G(x,8)->f r (y)) /* ----- Only 16-bit mode is supported ----- */ #elif defined SUPPORT_PCRE2_16 #define CASTFLD(t,a,b) (t)(G(a,16)->b) #define CASTVAR(t,x) (t)G(x,16) #define CODE_UNIT(a,b) (uint32_t)(((PCRE2_SPTR16)(a))[b]) #define DATCTXCPY(a,b) memcpy(G(a,16),G(b,16),sizeof(pcre2_match_context_16)) #define FLD(a,b) G(a,16)->b #define PATCTXCPY(a,b) memcpy(G(a,16),G(b,16),sizeof(pcre2_compile_context_16)) #define PCHARS(lv, p, offset, len, utf, f) \ lv = pchars16((PCRE2_SPTR16)(p)+offset, len, utf, f) #define PCHARSV(p, offset, len, utf, f) \ (void)pchars16((PCRE2_SPTR16)(p)+offset, len, utf, f) #define PCRE2_COMPILE(a,b,c,d,e,f,g) \ G(a,16) = pcre2_compile_16(G(b,16),c,d,e,f,G(g,16)) #define PCRE2_DFA_MATCH(a,b,c,d,e,f,g,h,i,j) \ a = pcre2_dfa_match_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16),i,j) #define PCRE2_GET_ERROR_MESSAGE(r,a,b) \ r = pcre2_get_error_message_16(a,G(b,16),G(G(b,16),_size)) #define PCRE2_GET_OVECTOR_COUNT(a,b) a = pcre2_get_ovector_count_16(G(b,16)) #define PCRE2_GET_STARTCHAR(a,b) a = pcre2_get_startchar_16(G(b,16)) #define PCRE2_JIT_COMPILE(a,b) pcre2_jit_compile_16(G(a,16),b) #define PCRE2_JIT_FREE_UNUSED_MEMORY(a) pcre2_jit_free_unused_memory_16(G(a,16)) #define PCRE2_JIT_MATCH(a,b,c,d,e,f,g,h) \ a = pcre2_jit_match_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16)) #define PCRE2_JIT_STACK_CREATE(a,b,c,d) \ a = (PCRE2_JIT_STACK *)pcre2_jit_stack_create_16(b,c,d); #define PCRE2_JIT_STACK_ASSIGN(a,b,c) \ pcre2_jit_stack_assign_16(G(a,16),(pcre2_jit_callback_16)b,c); #define PCRE2_JIT_STACK_FREE(a) pcre2_jit_stack_free_16((pcre2_jit_stack_16 *)a); #define PCRE2_MAKETABLES(a) a = pcre2_maketables_16(NULL) #define PCRE2_MATCH(a,b,c,d,e,f,g,h) \ a = pcre2_match_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16)) #define PCRE2_MATCH_DATA_CREATE(a,b,c) G(a,16) = pcre2_match_data_create_16(b,c) #define PCRE2_MATCH_DATA_CREATE_FROM_PATTERN(a,b,c) \ G(a,16) = pcre2_match_data_create_from_pattern_16(G(b,16),c) #define PCRE2_MATCH_DATA_FREE(a) pcre2_match_data_free_16(G(a,16)) #define PCRE2_PATTERN_INFO(a,b,c,d) a = pcre2_pattern_info_16(G(b,16),c,d) #define PCRE2_PRINTINT(a) pcre2_printint_16(compiled_code16,outfile,a) #define PCRE2_SET_CALLOUT(a,b,c) \ pcre2_set_callout_16(G(a,16),(int (*)(pcre2_callout_block_16 *, void *))b,c); #define PCRE2_SET_CHARACTER_TABLES(a,b) pcre2_set_character_tables_16(G(a,16),b) #define PCRE2_SET_COMPILE_RECURSION_GUARD(a,b,c) \ pcre2_set_compile_recursion_guard_16(G(a,16),b,c) #define PCRE2_SET_MATCH_LIMIT(a,b) pcre2_set_match_limit_16(G(a,16),b) #define PCRE2_SET_PARENS_NEST_LIMIT(a,b) pcre2_set_parens_nest_limit_16(G(a,16),b) #define PCRE2_SET_RECURSION_LIMIT(a,b) pcre2_set_recursion_limit_16(G(a,16),b) #define PCRE2_SUBSTITUTE(a,b,c,d,e,f,g,h,i,j,k,l) \ a = pcre2_substitute_16(G(b,16),(PCRE2_SPTR16)c,d,e,f,G(g,16),G(h,16), \ (PCRE2_SPTR16)i,j,(PCRE2_UCHAR16 *)k,l) #define PCRE2_SUBSTRING_COPY_BYNAME(a,b,c,d,e) \ a = pcre2_substring_copy_byname_16(G(b,16),G(c,16),(PCRE2_UCHAR16 *)d,e) #define PCRE2_SUBSTRING_COPY_BYNUMBER(a,b,c,d,e) \ a = pcre2_substring_copy_bynumber_16(G(b,16),c,(PCRE2_UCHAR16 *)d,e) #define PCRE2_SUBSTRING_FREE(a) pcre2_substring_free_16((PCRE2_UCHAR16 *)a) #define PCRE2_SUBSTRING_GET_BYNAME(a,b,c,d,e) \ a = pcre2_substring_get_byname_16(G(b,16),G(c,16),(PCRE2_UCHAR16 **)d,e) #define PCRE2_SUBSTRING_GET_BYNUMBER(a,b,c,d,e) \ a = pcre2_substring_get_bynumber_16(G(b,16),c,(PCRE2_UCHAR16 **)d,e) #define PCRE2_SUBSTRING_LENGTH_BYNAME(a,b,c,d) \ a = pcre2_substring_length_byname_16(G(b,16),G(c,16),d) #define PCRE2_SUBSTRING_LENGTH_BYNUMBER(a,b,c,d) \ a = pcre2_substring_length_bynumber_16(G(b,16),c,d) #define PCRE2_SUBSTRING_LIST_GET(a,b,c,d) \ a = pcre2_substring_list_get_16(G(b,16),(PCRE2_UCHAR16 ***)c,d) #define PCRE2_SUBSTRING_LIST_FREE(a) \ pcre2_substring_list_free_16((PCRE2_SPTR16 *)a) #define PCRE2_SUBSTRING_NUMBER_FROM_NAME(a,b,c) \ a = pcre2_substring_number_from_name_16(G(b,16),G(c,16)); #define PTR(x) (void *)G(x,16) #define SETFLD(x,y,z) G(x,16)->y = z #define SETFLDVEC(x,y,v,z) G(x,16)->y[v] = z #define SETOP(x,y,z) G(x,16) z y #define SETCASTPTR(x,y) G(x,16) = (uint16_t *)y #define STRLEN(p) (int)strlen16((PCRE2_SPTR16)p) #define SUB1(a,b) G(a,16)(G(b,16)) #define SUB2(a,b,c) G(a,16)(G(b,16),G(c,16)) #define TEST(x,r,y) (G(x,16) r (y)) #define TESTFLD(x,f,r,y) (G(x,16)->f r (y)) /* ----- Only 32-bit mode is supported ----- */ #elif defined SUPPORT_PCRE2_32 #define CASTFLD(t,a,b) (t)(G(a,32)->b) #define CASTVAR(t,x) (t)G(x,32) #define CODE_UNIT(a,b) (uint32_t)(((PCRE2_SPTR32)(a))[b]) #define DATCTXCPY(a,b) memcpy(G(a,32),G(b,32),sizeof(pcre2_match_context_32)) #define FLD(a,b) G(a,32)->b #define PATCTXCPY(a,b) memcpy(G(a,32),G(b,32),sizeof(pcre2_compile_context_32)) #define PCHARS(lv, p, offset, len, utf, f) \ lv = pchars32((PCRE2_SPTR32)(p)+offset, len, utf, f) #define PCHARSV(p, offset, len, utf, f) \ (void)pchars32((PCRE2_SPTR32)(p)+offset, len, utf, f) #define PCRE2_COMPILE(a,b,c,d,e,f,g) \ G(a,32) = pcre2_compile_32(G(b,32),c,d,e,f,G(g,32)) #define PCRE2_DFA_MATCH(a,b,c,d,e,f,g,h,i,j) \ a = pcre2_dfa_match_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32),i,j) #define PCRE2_GET_ERROR_MESSAGE(r,a,b) \ r = pcre2_get_error_message_32(a,G(b,32),G(G(b,32),_size)) #define PCRE2_GET_OVECTOR_COUNT(a,b) a = pcre2_get_ovector_count_32(G(b,32)) #define PCRE2_GET_STARTCHAR(a,b) a = pcre2_get_startchar_32(G(b,32)) #define PCRE2_JIT_COMPILE(a,b) pcre2_jit_compile_32(G(a,32),b) #define PCRE2_JIT_FREE_UNUSED_MEMORY(a) pcre2_jit_free_unused_memory_32(G(a,32)) #define PCRE2_JIT_MATCH(a,b,c,d,e,f,g,h) \ a = pcre2_jit_match_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32)) #define PCRE2_JIT_STACK_CREATE(a,b,c,d) \ a = (PCRE2_JIT_STACK *)pcre2_jit_stack_create_32(b,c,d); #define PCRE2_JIT_STACK_ASSIGN(a,b,c) \ pcre2_jit_stack_assign_32(G(a,32),(pcre2_jit_callback_32)b,c); #define PCRE2_JIT_STACK_FREE(a) pcre2_jit_stack_free_32((pcre2_jit_stack_32 *)a); #define PCRE2_MAKETABLES(a) a = pcre2_maketables_32(NULL) #define PCRE2_MATCH(a,b,c,d,e,f,g,h) \ a = pcre2_match_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32)) #define PCRE2_MATCH_DATA_CREATE(a,b,c) G(a,32) = pcre2_match_data_create_32(b,c) #define PCRE2_MATCH_DATA_CREATE_FROM_PATTERN(a,b,c) \ G(a,32) = pcre2_match_data_create_from_pattern_32(G(b,32),c) #define PCRE2_MATCH_DATA_FREE(a) pcre2_match_data_free_32(G(a,32)) #define PCRE2_PATTERN_INFO(a,b,c,d) a = pcre2_pattern_info_32(G(b,32),c,d) #define PCRE2_PRINTINT(a) pcre2_printint_32(compiled_code32,outfile,a) #define PCRE2_SET_CALLOUT(a,b,c) \ pcre2_set_callout_32(G(a,32),(int (*)(pcre2_callout_block_32 *, void *))b,c); #define PCRE2_SET_CHARACTER_TABLES(a,b) pcre2_set_character_tables_32(G(a,32),b) #define PCRE2_SET_COMPILE_RECURSION_GUARD(a,b,c) \ pcre2_set_compile_recursion_guard_32(G(a,32),b,c) #define PCRE2_SET_MATCH_LIMIT(a,b) pcre2_set_match_limit_32(G(a,32),b) #define PCRE2_SET_PARENS_NEST_LIMIT(a,b) pcre2_set_parens_nest_limit_32(G(a,32),b) #define PCRE2_SET_RECURSION_LIMIT(a,b) pcre2_set_recursion_limit_32(G(a,32),b) #define PCRE2_SUBSTITUTE(a,b,c,d,e,f,g,h,i,j,k,l) \ a = pcre2_substitute_32(G(b,32),(PCRE2_SPTR32)c,d,e,f,G(g,32),G(h,32), \ (PCRE2_SPTR32)i,j,(PCRE2_UCHAR32 *)k,l) #define PCRE2_SUBSTRING_COPY_BYNAME(a,b,c,d,e) \ a = pcre2_substring_copy_byname_32(G(b,32),G(c,32),(PCRE2_UCHAR32 *)d,e) #define PCRE2_SUBSTRING_COPY_BYNUMBER(a,b,c,d,e) \ a = pcre2_substring_copy_bynumber_32(G(b,32),c,(PCRE2_UCHAR32 *)d,e); #define PCRE2_SUBSTRING_FREE(a) pcre2_substring_free_32((PCRE2_UCHAR32 *)a) #define PCRE2_SUBSTRING_GET_BYNAME(a,b,c,d,e) \ a = pcre2_substring_get_byname_32(G(b,32),G(c,32),(PCRE2_UCHAR32 **)d,e) #define PCRE2_SUBSTRING_GET_BYNUMBER(a,b,c,d,e) \ a = pcre2_substring_get_bynumber_32(G(b,32),c,(PCRE2_UCHAR32 **)d,e) #define PCRE2_SUBSTRING_LENGTH_BYNAME(a,b,c,d) \ a = pcre2_substring_length_byname_32(G(b,32),G(c,32),d) #define PCRE2_SUBSTRING_LENGTH_BYNUMBER(a,b,c,d) \ a = pcre2_substring_length_bynumber_32(G(b,32),c,d) #define PCRE2_SUBSTRING_LIST_GET(a,b,c,d) \ a = pcre2_substring_list_get_32(G(b,32),(PCRE2_UCHAR32 ***)c,d) #define PCRE2_SUBSTRING_LIST_FREE(a) \ pcre2_substring_list_free_32((PCRE2_SPTR32 *)a) #define PCRE2_SUBSTRING_NUMBER_FROM_NAME(a,b,c) \ a = pcre2_substring_number_from_name_32(G(b,32),G(c,32)); #define PTR(x) (void *)G(x,32) #define SETFLD(x,y,z) G(x,32)->y = z #define SETFLDVEC(x,y,v,z) G(x,32)->y[v] = z #define SETOP(x,y,z) G(x,32) z y #define SETCASTPTR(x,y) G(x,32) = (uint32_t *)y #define STRLEN(p) (int)strlen32((PCRE2_SPTR32)p) #define SUB1(a,b) G(a,32)(G(b,32)) #define SUB2(a,b,c) G(a,32)(G(b,32),G(c,32)) #define TEST(x,r,y) (G(x,32) r (y)) #define TESTFLD(x,f,r,y) (G(x,32)->f r (y)) #endif /* ----- End of mode-specific function call macros ----- */ /************************************************* * Alternate character tables * *************************************************/ /* By default, the "tables" pointer in the compile context when calling pcre2_compile() is not set (= NULL), thereby using the default tables of the library. However, the tables modifier can be used to select alternate sets of tables, for different kinds of testing. Note that the locale modifier also adjusts the tables. */ /* This is the set of tables distributed as default with PCRE2. It recognizes only ASCII characters. */ static const uint8_t tables1[] = { /* This table is a lower casing table. */ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 97, 98, 99,100,101,102,103, 104,105,106,107,108,109,110,111, 112,113,114,115,116,117,118,119, 120,121,122, 91, 92, 93, 94, 95, 96, 97, 98, 99,100,101,102,103, 104,105,106,107,108,109,110,111, 112,113,114,115,116,117,118,119, 120,121,122,123,124,125,126,127, 128,129,130,131,132,133,134,135, 136,137,138,139,140,141,142,143, 144,145,146,147,148,149,150,151, 152,153,154,155,156,157,158,159, 160,161,162,163,164,165,166,167, 168,169,170,171,172,173,174,175, 176,177,178,179,180,181,182,183, 184,185,186,187,188,189,190,191, 192,193,194,195,196,197,198,199, 200,201,202,203,204,205,206,207, 208,209,210,211,212,213,214,215, 216,217,218,219,220,221,222,223, 224,225,226,227,228,229,230,231, 232,233,234,235,236,237,238,239, 240,241,242,243,244,245,246,247, 248,249,250,251,252,253,254,255, /* This table is a case flipping table. */ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 97, 98, 99,100,101,102,103, 104,105,106,107,108,109,110,111, 112,113,114,115,116,117,118,119, 120,121,122, 91, 92, 93, 94, 95, 96, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90,123,124,125,126,127, 128,129,130,131,132,133,134,135, 136,137,138,139,140,141,142,143, 144,145,146,147,148,149,150,151, 152,153,154,155,156,157,158,159, 160,161,162,163,164,165,166,167, 168,169,170,171,172,173,174,175, 176,177,178,179,180,181,182,183, 184,185,186,187,188,189,190,191, 192,193,194,195,196,197,198,199, 200,201,202,203,204,205,206,207, 208,209,210,211,212,213,214,215, 216,217,218,219,220,221,222,223, 224,225,226,227,228,229,230,231, 232,233,234,235,236,237,238,239, 240,241,242,243,244,245,246,247, 248,249,250,251,252,253,254,255, /* This table contains bit maps for various character classes. Each map is 32 bytes long and the bits run from the least significant end of each byte. The classes that have their own maps are: space, xdigit, digit, upper, lower, word, graph, print, punct, and cntrl. Other classes are built from combinations. */ 0x00,0x3e,0x00,0x00,0x01,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0xff,0x03, 0x7e,0x00,0x00,0x00,0x7e,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0xff,0x03, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0xfe,0xff,0xff,0x07,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0xfe,0xff,0xff,0x07, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0xff,0x03, 0xfe,0xff,0xff,0x87,0xfe,0xff,0xff,0x07, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0xfe,0xff,0xff,0xff, 0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x7f, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x7f, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0xfe,0xff,0x00,0xfc, 0x01,0x00,0x00,0xf8,0x01,0x00,0x00,0x78, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0xff,0xff,0xff,0xff,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x80, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* This table identifies various classes of character by individual bits: 0x01 white space character 0x02 letter 0x04 decimal digit 0x08 hexadecimal digit 0x10 alphanumeric or '_' 0x80 regular expression metacharacter or binary zero */ 0x80,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 0- 7 */ 0x00,0x01,0x01,0x01,0x01,0x01,0x00,0x00, /* 8- 15 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 16- 23 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 24- 31 */ 0x01,0x00,0x00,0x00,0x80,0x00,0x00,0x00, /* - ' */ 0x80,0x80,0x80,0x80,0x00,0x00,0x80,0x00, /* ( - / */ 0x1c,0x1c,0x1c,0x1c,0x1c,0x1c,0x1c,0x1c, /* 0 - 7 */ 0x1c,0x1c,0x00,0x00,0x00,0x00,0x00,0x80, /* 8 - ? */ 0x00,0x1a,0x1a,0x1a,0x1a,0x1a,0x1a,0x12, /* @ - G */ 0x12,0x12,0x12,0x12,0x12,0x12,0x12,0x12, /* H - O */ 0x12,0x12,0x12,0x12,0x12,0x12,0x12,0x12, /* P - W */ 0x12,0x12,0x12,0x80,0x80,0x00,0x80,0x10, /* X - _ */ 0x00,0x1a,0x1a,0x1a,0x1a,0x1a,0x1a,0x12, /* ` - g */ 0x12,0x12,0x12,0x12,0x12,0x12,0x12,0x12, /* h - o */ 0x12,0x12,0x12,0x12,0x12,0x12,0x12,0x12, /* p - w */ 0x12,0x12,0x12,0x80,0x80,0x00,0x00,0x00, /* x -127 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 128-135 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 136-143 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 144-151 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 152-159 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 160-167 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 168-175 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 176-183 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 184-191 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 192-199 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 200-207 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 208-215 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 216-223 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 224-231 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 232-239 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, /* 240-247 */ 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};/* 248-255 */ /* This is a set of tables that came originally from a Windows user. It seems to be at least an approximation of ISO 8859. In particular, there are characters greater than 128 that are marked as spaces, letters, etc. */ static const uint8_t tables2[] = { 0,1,2,3,4,5,6,7, 8,9,10,11,12,13,14,15, 16,17,18,19,20,21,22,23, 24,25,26,27,28,29,30,31, 32,33,34,35,36,37,38,39, 40,41,42,43,44,45,46,47, 48,49,50,51,52,53,54,55, 56,57,58,59,60,61,62,63, 64,97,98,99,100,101,102,103, 104,105,106,107,108,109,110,111, 112,113,114,115,116,117,118,119, 120,121,122,91,92,93,94,95, 96,97,98,99,100,101,102,103, 104,105,106,107,108,109,110,111, 112,113,114,115,116,117,118,119, 120,121,122,123,124,125,126,127, 128,129,130,131,132,133,134,135, 136,137,138,139,140,141,142,143, 144,145,146,147,148,149,150,151, 152,153,154,155,156,157,158,159, 160,161,162,163,164,165,166,167, 168,169,170,171,172,173,174,175, 176,177,178,179,180,181,182,183, 184,185,186,187,188,189,190,191, 224,225,226,227,228,229,230,231, 232,233,234,235,236,237,238,239, 240,241,242,243,244,245,246,215, 248,249,250,251,252,253,254,223, 224,225,226,227,228,229,230,231, 232,233,234,235,236,237,238,239, 240,241,242,243,244,245,246,247, 248,249,250,251,252,253,254,255, 0,1,2,3,4,5,6,7, 8,9,10,11,12,13,14,15, 16,17,18,19,20,21,22,23, 24,25,26,27,28,29,30,31, 32,33,34,35,36,37,38,39, 40,41,42,43,44,45,46,47, 48,49,50,51,52,53,54,55, 56,57,58,59,60,61,62,63, 64,97,98,99,100,101,102,103, 104,105,106,107,108,109,110,111, 112,113,114,115,116,117,118,119, 120,121,122,91,92,93,94,95, 96,65,66,67,68,69,70,71, 72,73,74,75,76,77,78,79, 80,81,82,83,84,85,86,87, 88,89,90,123,124,125,126,127, 128,129,130,131,132,133,134,135, 136,137,138,139,140,141,142,143, 144,145,146,147,148,149,150,151, 152,153,154,155,156,157,158,159, 160,161,162,163,164,165,166,167, 168,169,170,171,172,173,174,175, 176,177,178,179,180,181,182,183, 184,185,186,187,188,189,190,191, 224,225,226,227,228,229,230,231, 232,233,234,235,236,237,238,239, 240,241,242,243,244,245,246,215, 248,249,250,251,252,253,254,223, 192,193,194,195,196,197,198,199, 200,201,202,203,204,205,206,207, 208,209,210,211,212,213,214,247, 216,217,218,219,220,221,222,255, 0,62,0,0,1,0,0,0, 0,0,0,0,0,0,0,0, 32,0,0,0,1,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,255,3, 126,0,0,0,126,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,255,3, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,12,2, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 254,255,255,7,0,0,0,0, 0,0,0,0,0,0,0,0, 255,255,127,127,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,254,255,255,7, 0,0,0,0,0,4,32,4, 0,0,0,128,255,255,127,255, 0,0,0,0,0,0,255,3, 254,255,255,135,254,255,255,7, 0,0,0,0,0,4,44,6, 255,255,127,255,255,255,127,255, 0,0,0,0,254,255,255,255, 255,255,255,255,255,255,255,127, 0,0,0,0,254,255,255,255, 255,255,255,255,255,255,255,255, 0,2,0,0,255,255,255,255, 255,255,255,255,255,255,255,127, 0,0,0,0,255,255,255,255, 255,255,255,255,255,255,255,255, 0,0,0,0,254,255,0,252, 1,0,0,248,1,0,0,120, 0,0,0,0,254,255,255,255, 0,0,128,0,0,0,128,0, 255,255,255,255,0,0,0,0, 0,0,0,0,0,0,0,128, 255,255,255,255,0,0,0,0, 0,0,0,0,0,0,0,0, 128,0,0,0,0,0,0,0, 0,1,1,0,1,1,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 1,0,0,0,128,0,0,0, 128,128,128,128,0,0,128,0, 28,28,28,28,28,28,28,28, 28,28,0,0,0,0,0,128, 0,26,26,26,26,26,26,18, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,18, 18,18,18,128,128,0,128,16, 0,26,26,26,26,26,26,18, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,18, 18,18,18,128,128,0,0,0, 0,0,0,0,0,1,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0, 1,0,0,0,0,0,0,0, 0,0,18,0,0,0,0,0, 0,0,20,20,0,18,0,0, 0,20,18,0,0,0,0,0, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,0, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,18, 18,18,18,18,18,18,18,0, 18,18,18,18,18,18,18,18 }; /************************************************* * Local memory functions * *************************************************/ /* Alternative memory functions, to test functionality. */ static void *my_malloc(size_t size, void *data) { void *block = malloc(size); (void)data; if (show_memory) fprintf(outfile, "malloc %3d %p\n", (int)size, block); return block; } static void my_free(void *block, void *data) { (void)data; if (show_memory) fprintf(outfile, "free %p\n", block); free(block); } /* For recursion malloc/free, to test stacking calls */ #ifdef HEAP_MATCH_RECURSE static void *my_stack_malloc(size_t size, void *data) { void *block = malloc(size); (void)data; if (show_memory) fprintf(outfile, "stack_malloc %3d %p\n", (int)size, block); return block; } static void my_stack_free(void *block, void *data) { (void)data; if (show_memory) fprintf(outfile, "stack_free %p\n", block); free(block); } #endif /* HEAP_MATCH_RECURSE */ /************************************************* * Callback function for stack guard * *************************************************/ /* This is set up to be called from pcre2_compile() when the stackguard=n modifier sets a value greater than zero. The test we do is whether the parenthesis nesting depth is greater than the value set by the modifier. Argument: the current parenthesis nesting depth Returns: non-zero to kill the compilation */ static int stack_guard(uint32_t depth, void *user_data) { (void)user_data; return depth > pat_patctl.stackguard_test; } /************************************************* * JIT memory callback * *************************************************/ static PCRE2_JIT_STACK* jit_callback(void *arg) { jit_was_used = TRUE; return (PCRE2_JIT_STACK *)arg; } /************************************************* * Convert UTF-8 character to code point * *************************************************/ /* This function reads one or more bytes that represent a UTF-8 character, and returns the codepoint of that character. Note that the function supports the original UTF-8 definition of RFC 2279, allowing for values in the range 0 to 0x7fffffff, up to 6 bytes long. This makes it possible to generate codepoints greater than 0x10ffff which are useful for testing PCRE2's error checking, and also for generating 32-bit non-UTF data values above the UTF limit. Argument: utf8bytes a pointer to the byte vector vptr a pointer to an int to receive the value Returns: > 0 => the number of bytes consumed -6 to 0 => malformed UTF-8 character at offset = (-return) */ static int utf82ord(PCRE2_SPTR8 utf8bytes, uint32_t *vptr) { uint32_t c = *utf8bytes++; uint32_t d = c; int i, j, s; for (i = -1; i < 6; i++) /* i is number of additional bytes */ { if ((d & 0x80) == 0) break; d <<= 1; } if (i == -1) { *vptr = c; return 1; } /* ascii character */ if (i == 0 || i == 6) return 0; /* invalid UTF-8 */ /* i now has a value in the range 1-5 */ s = 6*i; d = (c & utf8_table3[i]) << s; for (j = 0; j < i; j++) { c = *utf8bytes++; if ((c & 0xc0) != 0x80) return -(j+1); s -= 6; d |= (c & 0x3f) << s; } /* Check that encoding was the correct unique one */ for (j = 0; j < utf8_table1_size; j++) if (d <= (uint32_t)utf8_table1[j]) break; if (j != i) return -(i+1); /* Valid value */ *vptr = d; return i+1; } /************************************************* * Print one character * *************************************************/ /* Print a single character either literally, or as a hex escape, and count how many printed characters are used. Arguments: c the character utf TRUE in UTF mode f the FILE to print to, or NULL just to count characters Returns: number of characters written */ static int pchar(uint32_t c, BOOL utf, FILE *f) { int n = 0; if (PRINTOK(c)) { if (f != NULL) fprintf(f, "%c", c); return 1; } if (c < 0x100) { if (utf) { if (f != NULL) fprintf(f, "\\x{%02x}", c); return 6; } else { if (f != NULL) fprintf(f, "\\x%02x", c); return 4; } } if (f != NULL) n = fprintf(f, "\\x{%02x}", c); return n >= 0 ? n : 0; } #ifdef SUPPORT_PCRE2_16 /************************************************* * Find length of 0-terminated 16-bit string * *************************************************/ static size_t strlen16(PCRE2_SPTR16 p) { PCRE2_SPTR16 pp = p; while (*pp != 0) pp++; return (int)(pp - p); } #endif /* SUPPORT_PCRE2_16 */ #ifdef SUPPORT_PCRE2_32 /************************************************* * Find length of 0-terminated 32-bit string * *************************************************/ static size_t strlen32(PCRE2_SPTR32 p) { PCRE2_SPTR32 pp = p; while (*pp != 0) pp++; return (int)(pp - p); } #endif /* SUPPORT_PCRE2_32 */ #ifdef SUPPORT_PCRE2_8 /************************************************* * Print 8-bit character string * *************************************************/ /* Must handle UTF-8 strings in utf8 mode. Yields number of characters printed. If handed a NULL file, just counts chars without printing. */ static int pchars8(PCRE2_SPTR8 p, int length, BOOL utf, FILE *f) { uint32_t c = 0; int yield = 0; if (length < 0) length = strlen((char *)p); while (length-- > 0) { if (utf) { int rc = utf82ord(p, &c); if (rc > 0 && rc <= length + 1) /* Mustn't run over the end */ { length -= rc - 1; p += rc; yield += pchar(c, utf, f); continue; } } c = *p++; yield += pchar(c, utf, f); } return yield; } #endif #ifdef SUPPORT_PCRE2_16 /************************************************* * Print 16-bit character string * *************************************************/ /* Must handle UTF-16 strings in utf mode. Yields number of characters printed. If handed a NULL file, just counts chars without printing. */ static int pchars16(PCRE2_SPTR16 p, int length, BOOL utf, FILE *f) { int yield = 0; if (length < 0) length = strlen16(p); while (length-- > 0) { uint32_t c = *p++ & 0xffff; if (utf && c >= 0xD800 && c < 0xDC00 && length > 0) { int d = *p & 0xffff; if (d >= 0xDC00 && d <= 0xDFFF) { c = ((c & 0x3ff) << 10) + (d & 0x3ff) + 0x10000; length--; p++; } } yield += pchar(c, utf, f); } return yield; } #endif /* SUPPORT_PCRE2_16 */ #ifdef SUPPORT_PCRE2_32 /************************************************* * Print 32-bit character string * *************************************************/ /* Must handle UTF-32 strings in utf mode. Yields number of characters printed. If handed a NULL file, just counts chars without printing. */ static int pchars32(PCRE2_SPTR32 p, int length, BOOL utf, FILE *f) { int yield = 0; (void)(utf); /* Avoid compiler warning */ if (length < 0) length = strlen32(p); while (length-- > 0) { uint32_t c = *p++; yield += pchar(c, utf, f); } return yield; } #endif /* SUPPORT_PCRE2_32 */ #ifdef SUPPORT_PCRE2_8 /************************************************* * Convert character value to UTF-8 * *************************************************/ /* This function takes an integer value in the range 0 - 0x7fffffff and encodes it as a UTF-8 character in 0 to 6 bytes. Arguments: cvalue the character value utf8bytes pointer to buffer for result - at least 6 bytes long Returns: number of characters placed in the buffer */ static int ord2utf8(uint32_t cvalue, uint8_t *utf8bytes) { register int i, j; if (cvalue > 0x7fffffffu) return -1; for (i = 0; i < utf8_table1_size; i++) if (cvalue <= (uint32_t)utf8_table1[i]) break; utf8bytes += i; for (j = i; j > 0; j--) { *utf8bytes-- = 0x80 | (cvalue & 0x3f); cvalue >>= 6; } *utf8bytes = utf8_table2[i] | cvalue; return i + 1; } #endif /* SUPPORT_PCRE2_8 */ #ifdef SUPPORT_PCRE2_16 /************************************************* * Convert pattern to 16-bit * *************************************************/ /* In UTF mode the input is always interpreted as a string of UTF-8 bytes. If all the input bytes are ASCII, the space needed for a 16-bit string is exactly double the 8-bit size. Otherwise, the size needed for a 16-bit string is no more than double, because up to 0xffff uses no more than 3 bytes in UTF-8 but possibly 4 in UTF-16. Higher values use 4 bytes in UTF-8 and up to 4 bytes in UTF-16. The result is always left in pbuffer16. Impose a minimum size to save repeated re-sizing. Note that this function does not object to surrogate values. This is deliberate; it makes it possible to construct UTF-16 strings that are invalid, for the purpose of testing that they are correctly faulted. Arguments: p points to a byte string utf non-zero if converting to UTF-16 lenptr points to number of bytes in the string (excluding trailing zero) Returns: 0 on success, with the length updated to the number of 16-bit data items used (excluding the trailing zero) OR -1 if a UTF-8 string is malformed OR -2 if a value > 0x10ffff is encountered in UTF mode OR -3 if a value > 0xffff is encountered when not in UTF mode */ static PCRE2_SIZE to16(uint8_t *p, int utf, PCRE2_SIZE *lenptr) { uint16_t *pp; PCRE2_SIZE len = *lenptr; if (pbuffer16_size < 2*len + 2) { if (pbuffer16 != NULL) free(pbuffer16); pbuffer16_size = 2*len + 2; if (pbuffer16_size < 256) pbuffer16_size = 256; pbuffer16 = (uint16_t *)malloc(pbuffer16_size); if (pbuffer16 == NULL) { fprintf(stderr, "pcre2test: malloc(%ld) failed for pbuffer16\n", pbuffer16_size); exit(1); } } pp = pbuffer16; if (!utf) { while (len-- > 0) *pp++ = *p++; } else while (len > 0) { uint32_t c; int chlen = utf82ord(p, &c); if (chlen <= 0) return -1; if (c > 0x10ffff) return -2; p += chlen; len -= chlen; if (c < 0x10000) *pp++ = c; else { if (!utf) return -3; c -= 0x10000; *pp++ = 0xD800 | (c >> 10); *pp++ = 0xDC00 | (c & 0x3ff); } } *pp = 0; *lenptr = pp - pbuffer16; return 0; } #endif #ifdef SUPPORT_PCRE2_32 /************************************************* * Convert pattern to 32-bit * *************************************************/ /* In UTF mode the input is always interpreted as a string of UTF-8 bytes. If all the input bytes are ASCII, the space needed for a 32-bit string is exactly four times the 8-bit size. Otherwise, the size needed for a 32-bit string is no more than four times, because the number of characters must be less than the number of bytes. The result is always left in pbuffer32. Impose a minimum size to save repeated re-sizing. Note that this function does not object to surrogate values. This is deliberate; it makes it possible to construct UTF-32 strings that are invalid, for the purpose of testing that they are correctly faulted. Arguments: p points to a byte string utf true if UTF-8 (to be converted to UTF-32) lenptr points to number of bytes in the string (excluding trailing zero) Returns: 0 on success, with the length updated to the number of 32-bit data items used (excluding the trailing zero) OR -1 if a UTF-8 string is malformed OR -2 if a value > 0x10ffff is encountered in UTF mode */ static PCRE2_SIZE to32(uint8_t *p, int utf, PCRE2_SIZE *lenptr) { uint32_t *pp; PCRE2_SIZE len = *lenptr; if (pbuffer32_size < 4*len + 4) { if (pbuffer32 != NULL) free(pbuffer32); pbuffer32_size = 4*len + 4; if (pbuffer32_size < 256) pbuffer32_size = 256; pbuffer32 = (uint32_t *)malloc(pbuffer32_size); if (pbuffer32 == NULL) { fprintf(stderr, "pcre2test: malloc(%ld) failed for pbuffer32\n", pbuffer32_size); exit(1); } } pp = pbuffer32; if (!utf) { while (len-- > 0) *pp++ = *p++; } else while (len > 0) { uint32_t c; int chlen = utf82ord(p, &c); if (chlen <= 0) return -1; if (utf && c > 0x10ffff) return -2; p += chlen; len -= chlen; *pp++ = c; } *pp = 0; *lenptr = pp - pbuffer32; return 0; } #endif /* SUPPORT_PCRE2_32 */ /************************************************* * Move back by so many characters * *************************************************/ /* Given a code unit offset in a subject string, move backwards by a number of characters, and return the resulting offset. Arguments: subject pointer to the string offset start offset count count to move back by utf TRUE if in UTF mode Returns: a possibly changed offset */ static PCRE2_SIZE backchars(uint8_t *subject, PCRE2_SIZE offset, uint32_t count, BOOL utf) { long int yield; if (!utf || test_mode == PCRE32_MODE) yield = offset - count; else if (test_mode == PCRE8_MODE) { PCRE2_SPTR8 pp = (PCRE2_SPTR8)subject + offset; for (; count > 0 && pp > (PCRE2_SPTR8)subject; count--) { pp--; while ((*pp & 0xc0) == 0x80) pp--; } yield = pp - (PCRE2_SPTR8)subject; } else /* 16-bit mode */ { PCRE2_SPTR16 pp = (PCRE2_SPTR16)subject + offset; for (; count > 0 && pp > (PCRE2_SPTR16)subject; count--) { pp--; if ((*pp & 0xfc00) == 0xdc00) pp--; } yield = pp - (PCRE2_SPTR16)subject; } return (yield >= 0)? yield : 0; } /************************************************* * Read or extend an input line * *************************************************/ /* Input lines are read into buffer, but both patterns and data lines can be continued over multiple input lines. In addition, if the buffer fills up, we want to automatically expand it so as to be able to handle extremely large lines that are needed for certain stress tests. When the input buffer is expanded, the other two buffers must also be expanded likewise, and the contents of pbuffer, which are a copy of the input for callouts, must be preserved (for when expansion happens for a data line). This is not the most optimal way of handling this, but hey, this is just a test program! Arguments: f the file to read start where in buffer to start (this *must* be within buffer) prompt for stdin or readline() Returns: pointer to the start of new data could be a copy of start, or could be moved NULL if no data read and EOF reached */ static uint8_t * extend_inputline(FILE *f, uint8_t *start, const char *prompt) { uint8_t *here = start; for (;;) { size_t rlen = (size_t)(pbuffer8_size - (here - buffer)); if (rlen > 1000) { int dlen; /* If libreadline or libedit support is required, use readline() to read a line if the input is a terminal. Note that readline() removes the trailing newline, so we must put it back again, to be compatible with fgets(). */ #if defined(SUPPORT_LIBREADLINE) || defined(SUPPORT_LIBEDIT) if (INTERACTIVE(f)) { size_t len; char *s = readline(prompt); if (s == NULL) return (here == start)? NULL : start; len = strlen(s); if (len > 0) add_history(s); if (len > rlen - 1) len = rlen - 1; memcpy(here, s, len); here[len] = '\n'; here[len+1] = 0; free(s); } else #endif /* Read the next line by normal means, prompting if the file is a tty. */ { if (INTERACTIVE(f)) printf("%s", prompt); if (fgets((char *)here, rlen, f) == NULL) return (here == start)? NULL : start; } dlen = (int)strlen((char *)here); if (dlen > 0 && here[dlen - 1] == '\n') return start; here += dlen; } else { int new_pbuffer8_size = 2*pbuffer8_size; uint8_t *new_buffer = (uint8_t *)malloc(new_pbuffer8_size); uint8_t *new_pbuffer8 = (uint8_t *)malloc(new_pbuffer8_size); if (new_buffer == NULL || new_pbuffer8 == NULL) { fprintf(stderr, "pcre2test: malloc(%d) failed\n", new_pbuffer8_size); exit(1); } memcpy(new_buffer, buffer, pbuffer8_size); memcpy(new_pbuffer8, pbuffer8, pbuffer8_size); pbuffer8_size = new_pbuffer8_size; start = new_buffer + (start - buffer); here = new_buffer + (here - buffer); free(buffer); free(pbuffer8); buffer = new_buffer; pbuffer8 = new_pbuffer8; } } /* Control never gets here */ } /************************************************* * Case-independent strncmp() function * *************************************************/ /* Arguments: s first string t second string n number of characters to compare Returns: < 0, = 0, or > 0, according to the comparison */ static int strncmpic(const uint8_t *s, const uint8_t *t, int n) { while (n--) { int c = tolower(*s++) - tolower(*t++); if (c) return c; } return 0; } /************************************************* * Read number from string * *************************************************/ /* We don't use strtoul() because SunOS4 doesn't have it. Rather than mess around with conditional compilation, just do the job by hand. It is only used for unpicking arguments, so just keep it simple. Arguments: str string to be converted endptr where to put the end pointer Returns: the unsigned long */ static int get_value(const char *str, const char **endptr) { int result = 0; while(*str != 0 && isspace(*str)) str++; while (isdigit(*str)) result = result * 10 + (int)(*str++ - '0'); *endptr = str; return(result); } /************************************************* * Scan the main modifier list * *************************************************/ /* This function searches the modifier list for a long modifier name. Argument: p start of the name lenp length of the name Returns: an index in the modifier list, or -1 on failure */ static int scan_modifiers(const uint8_t *p, unsigned int len) { int bot = 0; int top = MODLISTCOUNT; while (top > bot) { int mid = (bot + top)/2; unsigned int mlen = strlen(modlist[mid].name); int c = strncmp((char *)p, modlist[mid].name, (len < mlen)? len : mlen); if (c == 0) { if (len == mlen) return mid; c = len - mlen; } if (c > 0) bot = mid + 1; else top = mid; } return -1; } /************************************************* * Check a modifer and find its field * *************************************************/ /* This function is called when a modifier has been identified. We check that it is allowed here and find the field that is to be changed. Arguments: m the modifier list entry ctx CTX_PAT => pattern context CTX_DEFPAT => default pattern context CTX_DAT => data context CTX_DEFDAT => default data context pctl point to pattern control block dctl point to data control block c a single character or 0 Returns: a field pointer or NULL */ static void * check_modifier(modstruct *m, int ctx, patctl *pctl, datctl *dctl, uint32_t c) { void *field = NULL; PCRE2_SIZE offset = m->offset; if (restrict_for_perl_test) switch(m->which) { case MOD_PNDP: case MOD_PATP: case MOD_PDP: break; default: fprintf(outfile, "** '%s' is not allowed in a Perl-compatible test\n", m->name); return NULL; } switch (m->which) { case MOD_CTC: /* Compile context modifier */ if (ctx == CTX_DEFPAT) field = PTR(default_pat_context); else if (ctx == CTX_PAT) field = PTR(pat_context); break; case MOD_CTM: /* Match context modifier */ if (ctx == CTX_DEFDAT) field = PTR(default_dat_context); else if (ctx == CTX_DAT) field = PTR(dat_context); break; case MOD_DAT: /* Data line modifier */ if (dctl != NULL) field = dctl; break; case MOD_PAT: /* Pattern modifier */ case MOD_PATP: /* Allowed for Perl test */ if (pctl != NULL) field = pctl; break; case MOD_PD: /* Pattern or data line modifier */ case MOD_PDP: /* Ditto, allowed for Perl test */ case MOD_PND: /* Ditto, but not default pattern */ case MOD_PNDP: /* Ditto, allowed for Perl test */ if (dctl != NULL) field = dctl; else if (pctl != NULL && (m->which == MOD_PD || ctx != CTX_DEFPAT)) field = pctl; break; } if (field == NULL) { if (c == 0) fprintf(outfile, "** '%s' is not valid here\n", m->name); else fprintf(outfile, "** /%c is not valid here\n", c); return NULL; } return (char *)field + offset; } /************************************************* * Decode a modifier list * *************************************************/ /* A pointer to a control block is NULL when called in cases when that block is not relevant. They are never all relevant in one call. At least one of patctl and datctl is NULL. The second argument specifies which context to use for modifiers that apply to contexts. Arguments: p point to modifier string ctx CTX_PAT => pattern context CTX_DEFPAT => default pattern context CTX_DAT => data context CTX_DEFDAT => default data context pctl point to pattern control block dctl point to data control block Returns: TRUE if successful decode, FALSE otherwise */ static BOOL decode_modifiers(uint8_t *p, int ctx, patctl *pctl, datctl *dctl) { uint8_t *ep, *pp; BOOL first = TRUE; for (;;) { void *field; modstruct *m; BOOL off = FALSE; unsigned int i, len; int index; char *endptr; /* Skip white space and commas; after a comma we have passed the first item. */ while (isspace(*p)) p++; if (*p == ',') first = FALSE; while (isspace(*p) || *p == ',') p++; if (*p == 0) break; /* Find the end of the item. */ for (ep = p; *ep != 0 && *ep != ',' && !isspace(*ep); ep++); /* Remember if the first character is '-'. */ if (*p == '-') { off = TRUE; p++; } /* Find the length of a full-length modifier name, and scan for it. */ pp = p; while (pp < ep && *pp != '=') pp++; index = scan_modifiers(p, pp - p); /* If the first modifier is unrecognized, try to interpret it as a sequence of single-character abbreviated modifiers. None of these modifiers have any associated data. They just set options or control bits. */ if (index < 0) { uint32_t cc; uint8_t *mp = p; if (!first) { fprintf(outfile, "** Unrecognized modifier '%.*s'\n", (int)(ep-p), p); if (ep - p == 1) fprintf(outfile, "** Single-character modifiers must come first\n"); return FALSE; } for (cc = *p; cc != ',' && cc != '\n' && cc != 0; cc = *(++p)) { for (i = 0; i < C1MODLISTCOUNT; i++) if (cc == c1modlist[i].onechar) break; if (i >= C1MODLISTCOUNT) { fprintf(outfile, "** Unrecognized modifier '%c' in '%.*s'\n", *p, (int)(ep-mp), mp); return FALSE; } if (c1modlist[i].index >= 0) { index = c1modlist[i].index; } else { index = scan_modifiers((uint8_t *)(c1modlist[i].fullname), strlen(c1modlist[i].fullname)); if (index < 0) { fprintf(outfile, "** Internal error: single-character equivalent " "modifier '%s' not found\n", c1modlist[i].fullname); return FALSE; } c1modlist[i].index = index; /* Cache for next time */ } field = check_modifier(modlist + index, ctx, pctl, dctl, *p); if (field == NULL) return FALSE; *((uint32_t *)field) |= modlist[index].value; } continue; /* With tne next (fullname) modifier */ } /* We have a match on a full-name modifier. Check for the existence of data when needed. */ m = modlist + index; /* Save typing */ if (m->type != MOD_CTL && m->type != MOD_OPT && (m->type != MOD_IND || *pp == '=')) { if (*pp++ != '=') { fprintf(outfile, "** '=' expected after '%s'\n", m->name); return FALSE; } if (off) { fprintf(outfile, "** '-' is not valid for '%s'\n", m->name); return FALSE; } } /* These on/off types have no data. */ else if (*pp != ',' && *pp != '\n' && *pp != ' ' && *pp != 0) { fprintf(outfile, "** Unrecognized modifier '%.*s'\n", (int)(ep-p), p); return FALSE; } /* Set the data length for those types that have data. Then find the field that is to be set. If check_modifier() returns NULL, it has already output an error message. */ len = ep - pp; field = check_modifier(m, ctx, pctl, dctl, 0); if (field == NULL) return FALSE; /* Process according to data type. */ switch (m->type) { case MOD_CTL: case MOD_OPT: if (off) *((uint32_t *)field) &= ~m->value; else *((uint32_t *)field) |= m->value; break; case MOD_BSR: if (len == 7 && strncmpic(pp, (const uint8_t *)"default", 7) == 0) { #ifdef BSR_ANYCRLF *((uint16_t *)field) = PCRE2_BSR_ANYCRLF; #else *((uint16_t *)field) = PCRE2_BSR_UNICODE; #endif if (ctx == CTX_PAT || ctx == CTX_DEFPAT) pctl->control &= ~CTL_BSR_SET; else dctl->control &= ~CTL_BSR_SET; } else { if (len == 7 && strncmpic(pp, (const uint8_t *)"anycrlf", 7) == 0) *((uint16_t *)field) = PCRE2_BSR_ANYCRLF; else if (len == 7 && strncmpic(pp, (const uint8_t *)"unicode", 7) == 0) *((uint16_t *)field) = PCRE2_BSR_UNICODE; else goto INVALID_VALUE; if (ctx == CTX_PAT || ctx == CTX_DEFPAT) pctl->control |= CTL_BSR_SET; else dctl->control |= CTL_BSR_SET; } pp = ep; break; case MOD_IN2: /* One or two unsigned integers */ if (!isdigit(*pp)) goto INVALID_VALUE; ((uint32_t *)field)[0] = (uint32_t)strtoul((const char *)pp, &endptr, 10); if (*endptr == ':') ((uint32_t *)field)[1] = (uint32_t)strtoul((const char *)endptr+1, &endptr, 10); else ((uint32_t *)field)[1] = 0; pp = (uint8_t *)endptr; break; case MOD_IND: /* Unsigned integer with default */ if (len == 0) { *((uint32_t *)field) = (uint32_t)(m->value); break; } /* Fall through */ case MOD_INT: /* Unsigned integer */ if (!isdigit(*pp)) goto INVALID_VALUE; *((uint32_t *)field) = (uint32_t)strtoul((const char *)pp, &endptr, 10); pp = (uint8_t *)endptr; break; case MOD_INS: /* Signed integer */ if (!isdigit(*pp) && *pp != '-') goto INVALID_VALUE; *((int32_t *)field) = (int32_t)strtol((const char *)pp, &endptr, 10); pp = (uint8_t *)endptr; break; case MOD_NL: for (i = 0; i < sizeof(newlines)/sizeof(char *); i++) if (len == strlen(newlines[i]) && strncmpic(pp, (const uint8_t *)newlines[i], len) == 0) break; if (i >= sizeof(newlines)/sizeof(char *)) goto INVALID_VALUE; if (i == 0) { *((uint16_t *)field) = NEWLINE_DEFAULT; if (ctx == CTX_PAT || ctx == CTX_DEFPAT) pctl->control &= ~CTL_NL_SET; else dctl->control &= ~CTL_NL_SET; } else { *((uint16_t *)field) = i; if (ctx == CTX_PAT || ctx == CTX_DEFPAT) pctl->control |= CTL_NL_SET; else dctl->control |= CTL_NL_SET; } pp = ep; break; case MOD_NN: /* Name or (signed) number; may be several */ if (isdigit(*pp) || *pp == '-') { int ct = MAXCPYGET - 1; int32_t value = (int32_t)strtol((const char *)pp, &endptr, 10); field = (char *)field - m->offset + m->value; /* Adjust field ptr */ if (value >= 0) /* Add new number */ { while (*((int32_t *)field) >= 0 && ct-- > 0) /* Skip previous */ field = (char *)field + sizeof(int32_t); if (ct <= 0) { fprintf(outfile, "** Too many numeric '%s' modifiers\n", m->name); return FALSE; } } *((int32_t *)field) = value; if (ct > 0) ((int32_t *)field)[1] = -1; pp = (uint8_t *)endptr; } /* Multiple strings are put end to end. */ else { char *nn = (char *)field; if (len > 0) /* Add new name */ { while (*nn != 0) nn += strlen(nn) + 1; if (nn + len + 1 - (char *)field > LENCPYGET) { fprintf(outfile, "** Too many named '%s' modifiers\n", m->name); return FALSE; } memcpy(nn, pp, len); } nn[len] = 0 ; nn[len+1] = 0; pp = ep; } break; case MOD_STR: if (len + 1 > m->value) { fprintf(outfile, "** Overlong value for '%s' (max %d code units)\n", m->name, m->value - 1); return FALSE; } memcpy(field, pp, len); ((uint8_t *)field)[len] = 0; pp = ep; break; } if (*pp != ',' && *pp != '\n' && *pp != ' ' && *pp != 0) { fprintf(outfile, "** Comma expected after modifier item '%s'\n", m->name); return FALSE; } p = pp; } return TRUE; INVALID_VALUE: fprintf(outfile, "** Invalid value in '%.*s'\n", (int)(ep-p), p); return FALSE; } /************************************************* * Get info from a pattern * *************************************************/ /* A wrapped call to pcre2_pattern_info(), applied to the current compiled pattern. Arguments: what code for the required information where where to put the answer unsetok PCRE2_ERROR_UNSET is an "expected" result Returns: the return from pcre2_pattern_info() */ static int pattern_info(int what, void *where, BOOL unsetok) { int rc; PCRE2_PATTERN_INFO(rc, compiled_code, what, where); if (rc >= 0) return 0; if (rc != PCRE2_ERROR_UNSET || !unsetok) { fprintf(outfile, "Error %d from pcre2_pattern_info_%d(%d)\n", rc, test_mode, what); if (rc == PCRE2_ERROR_BADMODE) fprintf(outfile, "Running in %d-bit mode but pattern was compiled in " "%d-bit mode\n", test_mode, 8 * (FLD(compiled_code, flags) & PCRE2_MODE_MASK)); } return rc; } #ifdef SUPPORT_PCRE2_8 /************************************************* * Show something in a list * *************************************************/ /* This function just helps to keep the code that uses it tidier. It's used for various lists of things where there needs to be introductory text before the first item. As these calls are all in the POSIX-support code, they happen only when 8-bit mode is supported. */ static void prmsg(const char **msg, const char *s) { fprintf(outfile, "%s %s", *msg, s); *msg = ""; } #endif /* SUPPORT_PCRE2_8 */ /************************************************* * Show control bits * *************************************************/ /* Called for mutually exclusive controls and for unsupported POSIX controls. Because the bits are unique, this can be used for both pattern and data control words. Arguments: controls control bits before text to print before Returns: nothing */ static void show_controls(uint32_t controls, const char *before) { fprintf(outfile, "%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s", before, ((controls & CTL_AFTERTEXT) != 0)? " aftertext" : "", ((controls & CTL_ALLAFTERTEXT) != 0)? " allaftertext" : "", ((controls & CTL_ALLCAPTURES) != 0)? " allcaptures" : "", ((controls & CTL_ALLUSEDTEXT) != 0)? " allusedtext" : "", ((controls & CTL_ALTGLOBAL) != 0)? " altglobal" : "", ((controls & CTL_BINCODE) != 0)? " bincode" : "", ((controls & CTL_CALLOUT_CAPTURE) != 0)? " callout_capture" : "", ((controls & CTL_CALLOUT_NONE) != 0)? " callout_none" : "", ((controls & CTL_DFA) != 0)? " dfa" : "", ((controls & CTL_FINDLIMITS) != 0)? " find_limits" : "", ((controls & CTL_FULLBINCODE) != 0)? " fullbincode" : "", ((controls & CTL_GETALL) != 0)? " getall" : "", ((controls & CTL_GLOBAL) != 0)? " global" : "", ((controls & CTL_HEXPAT) != 0)? " hex" : "", ((controls & CTL_INFO) != 0)? " info" : "", ((controls & CTL_JITFAST) != 0)? " jitfast" : "", ((controls & CTL_JITVERIFY) != 0)? " jitverify" : "", ((controls & CTL_MARK) != 0)? " mark" : "", ((controls & CTL_MEMORY) != 0)? " memory" : "", ((controls & CTL_POSIX) != 0)? " posix" : "", ((controls & CTL_STARTCHAR) != 0)? " startchar" : "", ((controls & CTL_ZERO_TERMINATE) != 0)? " zero_terminate" : ""); } /************************************************* * Show compile options * *************************************************/ /* Called from show_pattern_info() and for unsupported POSIX options. Arguments: options an options word before text to print before after text to print after Returns: nothing */ static void show_compile_options(uint32_t options, const char *before, const char *after) { if (options == 0) fprintf(outfile, "%s %s", before, after); else fprintf(outfile, "%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s", before, ((options & PCRE2_ALT_BSUX) != 0)? " alt_bsux" : "", ((options & PCRE2_ALLOW_EMPTY_CLASS) != 0)? " allow_empty_class" : "", ((options & PCRE2_ANCHORED) != 0)? " anchored" : "", ((options & PCRE2_AUTO_CALLOUT) != 0)? " auto_callout" : "", ((options & PCRE2_CASELESS) != 0)? " caseless" : "", ((options & PCRE2_DOLLAR_ENDONLY) != 0)? " dollar_endonly" : "", ((options & PCRE2_DOTALL) != 0)? " dotall" : "", ((options & PCRE2_DUPNAMES) != 0)? " dupnames" : "", ((options & PCRE2_EXTENDED) != 0)? " extended" : "", ((options & PCRE2_FIRSTLINE) != 0)? " firstline" : "", ((options & PCRE2_MATCH_UNSET_BACKREF) != 0)? " match_unset_backref" : "", ((options & PCRE2_MULTILINE) != 0)? " multiline" : "", ((options & PCRE2_NEVER_UCP) != 0)? " never_ucp" : "", ((options & PCRE2_NEVER_UTF) != 0)? " never_utf" : "", ((options & PCRE2_NO_AUTO_CAPTURE) != 0)? " no_auto_capture" : "", ((options & PCRE2_NO_AUTO_POSSESS) != 0)? " no_auto_possess" : "", ((options & PCRE2_NO_DOTSTAR_ANCHOR) != 0)? " no_dotstar_anchor" : "", ((options & PCRE2_NO_UTF_CHECK) != 0)? " no_utf_check" : "", ((options & PCRE2_NO_START_OPTIMIZE) != 0)? " no_start_optimize" : "", ((options & PCRE2_UCP) != 0)? " ucp" : "", ((options & PCRE2_UNGREEDY) != 0)? " ungreedy" : "", ((options & PCRE2_UTF) != 0)? " utf" : "", after); } #ifdef SUPPORT_PCRE2_8 /************************************************* * Show match options * *************************************************/ /* Called for unsupported POSIX options. */ static void show_match_options(uint32_t options) { fprintf(outfile, "%s%s%s%s%s%s%s%s%s%s", ((options & PCRE2_ANCHORED) != 0)? " anchored" : "", ((options & PCRE2_DFA_RESTART) != 0)? " dfa_restart" : "", ((options & PCRE2_DFA_SHORTEST) != 0)? " dfa_shortest" : "", ((options & PCRE2_NO_UTF_CHECK) != 0)? " no_utf_check" : "", ((options & PCRE2_NOTBOL) != 0)? " notbol" : "", ((options & PCRE2_NOTEMPTY) != 0)? " notempty" : "", ((options & PCRE2_NOTEMPTY_ATSTART) != 0)? " notempty_atstart" : "", ((options & PCRE2_NOTEOL) != 0)? " noteol" : "", ((options & PCRE2_PARTIAL_HARD) != 0)? " partial_hard" : "", ((options & PCRE2_PARTIAL_SOFT) != 0)? " partial_soft" : ""); } #endif /* SUPPORT_PCRE2_8 */ /************************************************* * Show information about a pattern * *************************************************/ /* This function is called after a pattern has been compiled if any of the information-requesting controls have been set. Arguments: none Returns: PR_OK continue processing next line PR_SKIP skip to a blank line PR_ABEND abort the pcre2test run */ static int show_pattern_info(void) { uint32_t compile_options, overall_options; if ((pat_patctl.control & (CTL_BINCODE|CTL_FULLBINCODE)) != 0) { fprintf(outfile, "------------------------------------------------------------------\n"); PCRE2_PRINTINT((pat_patctl.control & CTL_FULLBINCODE) != 0); } if ((pat_patctl.control & CTL_INFO) != 0) { const void *nametable; const uint8_t *start_bits; BOOL match_limit_set, recursion_limit_set; uint32_t backrefmax, bsr_convention, capture_count, first_ctype, first_cunit, hascrorlf, jchanged, last_ctype, last_cunit, match_empty, match_limit, minlength, nameentrysize, namecount, newline_convention, recursion_limit; /* These info requests may return PCRE2_ERROR_UNSET. */ switch(pattern_info(PCRE2_INFO_MATCHLIMIT, &match_limit, TRUE)) { case 0: match_limit_set = TRUE; break; case PCRE2_ERROR_UNSET: match_limit_set = FALSE; break; default: return PR_ABEND; } switch(pattern_info(PCRE2_INFO_RECURSIONLIMIT, &recursion_limit, TRUE)) { case 0: recursion_limit_set = TRUE; break; case PCRE2_ERROR_UNSET: recursion_limit_set = FALSE; break; default: return PR_ABEND; } /* These info requests should always succeed. */ if (pattern_info(PCRE2_INFO_BACKREFMAX, &backrefmax, FALSE) + pattern_info(PCRE2_INFO_BSR, &bsr_convention, FALSE) + pattern_info(PCRE2_INFO_CAPTURECOUNT, &capture_count, FALSE) + pattern_info(PCRE2_INFO_FIRSTBITMAP, &start_bits, FALSE) + pattern_info(PCRE2_INFO_FIRSTCODEUNIT, &first_cunit, FALSE) + pattern_info(PCRE2_INFO_FIRSTCODETYPE, &first_ctype, FALSE) + pattern_info(PCRE2_INFO_HASCRORLF, &hascrorlf, FALSE) + pattern_info(PCRE2_INFO_JCHANGED, &jchanged, FALSE) + pattern_info(PCRE2_INFO_LASTCODEUNIT, &last_cunit, FALSE) + pattern_info(PCRE2_INFO_LASTCODETYPE, &last_ctype, FALSE) + pattern_info(PCRE2_INFO_MATCHEMPTY, &match_empty, FALSE) + pattern_info(PCRE2_INFO_MINLENGTH, &minlength, FALSE) + pattern_info(PCRE2_INFO_NAMECOUNT, &namecount, FALSE) + pattern_info(PCRE2_INFO_NAMEENTRYSIZE, &nameentrysize, FALSE) + pattern_info(PCRE2_INFO_NAMETABLE, &nametable, FALSE) + pattern_info(PCRE2_INFO_NEWLINE, &newline_convention, FALSE) != 0) return PR_ABEND; fprintf(outfile, "Capturing subpattern count = %d\n", capture_count); if (backrefmax > 0) fprintf(outfile, "Max back reference = %d\n", backrefmax); if (maxlookbehind > 0) fprintf(outfile, "Max lookbehind = %d\n", maxlookbehind); if (match_limit_set) fprintf(outfile, "Match limit = %u\n", match_limit); if (recursion_limit_set) fprintf(outfile, "Recursion limit = %u\n", recursion_limit); if (namecount > 0) { fprintf(outfile, "Named capturing subpatterns:\n"); while (namecount-- > 0) { int imm2_size = test_mode == PCRE8_MODE ? 2 : 1; uint32_t length = (uint32_t)STRLEN(nametable + imm2_size); fprintf(outfile, " "); PCHARSV(nametable, imm2_size, length, FALSE, outfile); while (length++ < nameentrysize - imm2_size) putc(' ', outfile); #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE) fprintf(outfile, "%3d\n", (int)(((PCRE2_SPTR32)nametable)[0])); #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE) fprintf(outfile, "%3d\n", (int)(((PCRE2_SPTR16)nametable)[0])); #endif #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) fprintf(outfile, "%3d\n", (int)( ((((PCRE2_SPTR8)nametable)[0]) << 8) | ((PCRE2_SPTR8)nametable)[1])); #endif nametable = (void*)((PCRE2_SPTR8)nametable + nameentrysize * code_unit_size); } } if (hascrorlf) fprintf(outfile, "Contains explicit CR or LF match\n"); if (match_empty) fprintf(outfile, "May match empty string\n"); pattern_info(PCRE2_INFO_ARGOPTIONS, &compile_options, FALSE); pattern_info(PCRE2_INFO_ALLOPTIONS, &overall_options, FALSE); /* Remove UTF/UCP if they were there only because of forbid_utf. This saves cluttering up the verification output of non-UTF test files. */ if ((pat_patctl.options & PCRE2_NEVER_UTF) == 0) { compile_options &= ~PCRE2_NEVER_UTF; overall_options &= ~PCRE2_NEVER_UTF; } if ((pat_patctl.options & PCRE2_NEVER_UCP) == 0) { compile_options &= ~PCRE2_NEVER_UCP; overall_options &= ~PCRE2_NEVER_UCP; } if ((compile_options|overall_options) != 0) { if (compile_options == overall_options) show_compile_options(compile_options, "Options:", "\n"); else { show_compile_options(compile_options, "Compile options:", "\n"); show_compile_options(overall_options, "Overall options:", "\n"); } } if (jchanged) fprintf(outfile, "Duplicate name status changes\n"); if ((pat_patctl.control & CTL_BSR_SET) != 0 || (FLD(compiled_code, flags) & PCRE2_BSR_SET) != 0) fprintf(outfile, "\\R matches %s\n", (bsr_convention == PCRE2_BSR_UNICODE)? "any Unicode newline" : "CR, LF, or CRLF"); if ((pat_patctl.control & CTL_NL_SET) != 0 || (FLD(compiled_code, flags) & PCRE2_NL_SET) != 0) { switch (newline_convention) { case PCRE2_NEWLINE_CR: fprintf(outfile, "Forced newline is CR\n"); break; case PCRE2_NEWLINE_LF: fprintf(outfile, "Forced newline is LF\n"); break; case PCRE2_NEWLINE_CRLF: fprintf(outfile, "Forced newline is CRLF\n"); break; case PCRE2_NEWLINE_ANYCRLF: fprintf(outfile, "Forced newline is CR, LF, or CRLF\n"); break; case PCRE2_NEWLINE_ANY: fprintf(outfile, "Forced newline is any Unicode newline\n"); break; default: break; } } if (first_ctype == 2) { fprintf(outfile, "First code unit at start or follows newline\n"); } else if (first_ctype == 1) { const char *caseless = ((FLD(compiled_code, flags) & PCRE2_FIRSTCASELESS) == 0)? "" : " (caseless)"; if (PRINTOK(first_cunit)) fprintf(outfile, "First code unit = \'%c\'%s\n", first_cunit, caseless); else { fprintf(outfile, "First code unit = "); pchar(first_cunit, FALSE, outfile); fprintf(outfile, "%s\n", caseless); } } else if (start_bits != NULL) { int i; int c = 24; fprintf(outfile, "Starting code units: "); for (i = 0; i < 256; i++) { if ((start_bits[i/8] & (1<<(i&7))) != 0) { if (c > 75) { fprintf(outfile, "\n "); c = 2; } if (PRINTOK(i) && i != ' ') { fprintf(outfile, "%c ", i); c += 2; } else { fprintf(outfile, "\\x%02x ", i); c += 5; } } } fprintf(outfile, "\n"); } if (last_ctype != 0) { const char *caseless = ((FLD(compiled_code, flags) & PCRE2_LASTCASELESS) == 0)? "" : " (caseless)"; if (PRINTOK(last_cunit)) fprintf(outfile, "Last code unit = \'%c\'%s\n", last_cunit, caseless); else { fprintf(outfile, "Last code unit = "); pchar(last_cunit, FALSE, outfile); fprintf(outfile, "%s\n", caseless); } } fprintf(outfile, "Subject length lower bound = %d\n", minlength); if (pat_patctl.jit != 0 && (pat_patctl.control & CTL_JITVERIFY) != 0) { if (FLD(compiled_code, executable_jit) != NULL) fprintf(outfile, "JIT compilation was successful\n"); else #ifdef SUPPORT_JIT fprintf(outfile, "JIT compilation was not successful\n"); #else fprintf(outfile, "JIT support is not available in this version of PCRE2\n"); #endif } } return PR_OK; } /************************************************* * Process command line * *************************************************/ /* This function is called for lines beginning with # and a character that is not ! or whitespace, when encountered between tests. The line is in buffer. Arguments: none Returns: PR_OK continue processing next line PR_SKIP skip to a blank line PR_ABEND abort the pcre2test run */ static int process_command(void) { if (restrict_for_perl_test) { fprintf(outfile, "** #-commands are not allowed after #perltest\n"); return PR_ABEND; } if (strncmp((char *)buffer, "#forbid_utf", 11) == 0 && isspace(buffer[11])) { forbid_utf = PCRE2_NEVER_UTF|PCRE2_NEVER_UCP; } else if (strncmp((char *)buffer, "#pattern", 8) == 0 && isspace(buffer[8])) { (void)decode_modifiers(buffer + 8, CTX_DEFPAT, &def_patctl, NULL); if (def_patctl.jit == 0 && (def_patctl.control & CTL_JITVERIFY) != 0) def_patctl.jit = 7; } else if (strncmp((char *)buffer, "#perltest", 9) == 0 && isspace(buffer[9])) { restrict_for_perl_test = TRUE; } else if (strncmp((char *)buffer, "#subject", 8) == 0 && isspace(buffer[8])) { (void)decode_modifiers(buffer + 8, CTX_DEFDAT, NULL, &def_datctl); } else { fprintf(outfile, "** Unknown command: %s", buffer); } return PR_OK; } /************************************************* * Process pattern line * *************************************************/ /* This function is called when the input buffer contains the start of a pattern. The first character is known to be a valid delimiter. The pattern is read, modifiers are interpreted, and a suitable local context is set up for this test. The pattern is then compiled. Arguments: none Returns: PR_OK continue processing next line PR_SKIP skip to a blank line PR_ABEND abort the pcre2test run */ static int process_pattern(void) { BOOL utf; uint8_t *p = buffer; const uint8_t *use_tables; unsigned int delimiter = *p++; int errorcode; PCRE2_SIZE patlen; PCRE2_SIZE erroroffset; /* Initialize the context and pattern/data controls for this test from the defaults. */ PATCTXCPY(pat_context, default_pat_context); memcpy(&pat_patctl, &def_patctl, sizeof(patctl)); /* Find the end of the pattern, reading more lines if necessary. */ for(;;) { while (*p != 0) { if (*p == '\\' && p[1] != 0) p++; else if (*p == delimiter) break; p++; } if (*p != 0) break; if ((p = extend_inputline(infile, p, " > ")) == NULL) { fprintf(outfile, "** Unexpected EOF\n"); return PR_ABEND; } if (!INTERACTIVE(infile)) fprintf(outfile, "%s", (char *)p); } /* If the first character after the delimiter is backslash, make the pattern end with backslash. This is purely to provide a way of testing for the error message when a pattern ends with backslash. */ if (p[1] == '\\') *p++ = '\\'; /* Terminate the pattern at the delimiter, and compute the length. */ *p++ = 0; patlen = p - buffer - 2; /* Look for modifiers and options after the final delimiter. */ if (!decode_modifiers(p, CTX_PAT, &pat_patctl, NULL)) return PR_SKIP; utf = (pat_patctl.options & PCRE2_UTF) != 0; /* Assume full JIT compile for jitverify and/or jitfast if nothing else was specified. */ if (pat_patctl.jit == 0 && (pat_patctl.control & (CTL_JITVERIFY|CTL_JITFAST)) != 0) pat_patctl.jit = 7; /* Now copy the pattern to pbuffer8 for use in 8-bit testing and for reflecting in callouts. Convert to binary if required. */ if ((pat_patctl.control & CTL_HEXPAT) != 0) { uint8_t *pp, *pt; uint32_t c, d; if ((pat_patctl.control & CTL_POSIX) != 0) { fprintf(outfile, "** Hex patterns are not supported for the POSIX API\n"); return PR_SKIP; } pt = pbuffer8; for (pp = buffer + 1; *pp != 0; pp++) { if (isspace(*pp)) continue; c = toupper(*pp++); if (*pp == 0) { fprintf(outfile, "** Odd number of digits in hex pattern.\n"); return PR_SKIP; } d = toupper(*pp); if (!isxdigit(c) || !isxdigit(d)) { fprintf(outfile, "** Non-hex-digit in hex pattern.\n"); return PR_SKIP; } *pt++ = ((isdigit(c)? (c - '0') : (c - 'A' + 10)) << 4) + (isdigit(d)? (d - '0') : (d - 'A' + 10)); } *pt = 0; patlen = pt - pbuffer8; } else { strncpy((char *)pbuffer8, (char *)(buffer+1), patlen + 1); } /* Sort out character tables */ if (pat_patctl.locale[0] != 0) { if (pat_patctl.tables_id != 0) { fprintf(outfile, "** 'Locale' and 'tables' must not both be set.\n"); return PR_SKIP; } if (setlocale(LC_CTYPE, (const char *)pat_patctl.locale) == NULL) { fprintf(outfile, "** Failed to set locale '%s'\n", pat_patctl.locale); return PR_SKIP; } if (strcmp((const char *)pat_patctl.locale, (const char *)locale_name) != 0) { strcpy((char *)locale_name, (char *)pat_patctl.locale); if (locale_tables != NULL) free((void *)locale_tables); PCRE2_MAKETABLES(locale_tables); } use_tables = locale_tables; } else switch (pat_patctl.tables_id) { case 0: use_tables = NULL; break; case 1: use_tables = tables1; break; case 2: use_tables = tables2; break; default: fprintf(outfile, "** 'Tables' must specify 0, 1, or 2.\n"); return PR_SKIP; } PCRE2_SET_CHARACTER_TABLES(pat_context, use_tables); /* Set up for the stackguard test. */ if (pat_patctl.stackguard_test != 0) { PCRE2_SET_COMPILE_RECURSION_GUARD(pat_context, stack_guard, NULL); } /* Handle compiling via the POSIX interface, which doesn't support the timing, showing, or debugging options, nor the ability to pass over local character tables. Neither does it have 16-bit or 32-bit support. */ if ((pat_patctl.control & CTL_POSIX) != 0) { #ifdef SUPPORT_PCRE2_8 int rc; int cflags = 0; const char *msg = "** Ignored with POSIX interface:"; #endif if (test_mode != 8) { fprintf(outfile, "** The POSIX interface is available only in 8-bit mode\n"); return PR_SKIP; } #ifdef SUPPORT_PCRE2_8 /* Check for features that the POSIX interface does not support. */ if (pat_patctl.locale[0] != 0) prmsg(&msg, "locale"); if (pat_patctl.replacement[0] != 0) prmsg(&msg, "replace"); if (pat_patctl.tables_id != 0) prmsg(&msg, "tables"); if (pat_patctl.stackguard_test != 0) prmsg(&msg, "stackguard"); if (timeit > 0) prmsg(&msg, "timing"); if (pat_patctl.jit != 0) prmsg(&msg, "JIT"); if ((pat_patctl.options & ~POSIX_SUPPORTED_COMPILE_OPTIONS) != 0) { show_compile_options( pat_patctl.options & ~POSIX_SUPPORTED_COMPILE_OPTIONS, msg, ""); msg = ""; } if ((pat_patctl.control & ~POSIX_SUPPORTED_COMPILE_CONTROLS) != 0) { show_controls(pat_patctl.control & ~POSIX_SUPPORTED_COMPILE_CONTROLS, msg); msg = ""; } if (msg[0] == 0) fprintf(outfile, "\n"); /* Translate PCRE2 options to POSIX options and then compile. On success, set up a match_data block to be used for all matches. */ if (utf) cflags |= REG_UTF; if ((pat_patctl.options & PCRE2_UCP) != 0) cflags |= REG_UCP; if ((pat_patctl.options & PCRE2_CASELESS) != 0) cflags |= REG_ICASE; if ((pat_patctl.options & PCRE2_MULTILINE) != 0) cflags |= REG_NEWLINE; if ((pat_patctl.options & PCRE2_DOTALL) != 0) cflags |= REG_DOTALL; if ((pat_patctl.options & PCRE2_NO_AUTO_CAPTURE) != 0) cflags |= REG_NOSUB; if ((pat_patctl.options & PCRE2_UNGREEDY) != 0) cflags |= REG_UNGREEDY; rc = regcomp(&preg, (char *)pbuffer8, cflags); if (rc != 0) /* Failure */ { (void)regerror(rc, &preg, (char *)pbuffer8, pbuffer8_size); fprintf(outfile, "Failed: POSIX code %d: %s\n", rc, pbuffer8); return PR_SKIP; } return PR_OK; #endif /* SUPPORT_PCRE2_8 */ } /* Handle compiling via the native interface, converting the input in non-8-bit modes. */ #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) errorcode = 0; #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE) errorcode = to16(pbuffer8, utf, &patlen); #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE) errorcode = to32(pbuffer8, utf, &patlen); #endif switch(errorcode) { case -1: fprintf(outfile, "** Failed: invalid UTF-8 string cannot be " "converted to %d-bit string\n", (test_mode == PCRE16_MODE)? 16:32); return PR_SKIP; case -2: fprintf(outfile, "** Failed: character value greater than 0x10ffff " "cannot be converted to UTF\n"); return PR_SKIP; case -3: fprintf(outfile, "** Failed: character value greater than 0xffff " "cannot be converted to 16-bit in non-UTF mode\n"); return PR_SKIP; default: break; } /* The pattern is now in pbuffer[8|16|32], with the length in patlen. By default, however, we pass a zero-terminated pattern. The length is passed only if we had a hex pattern. */ if ((pat_patctl.control & CTL_HEXPAT) == 0) patlen = PCRE2_ZERO_TERMINATED; /* Compile many times when timing. */ if (timeit > 0) { register int i; clock_t time_taken = 0; for (i = 0; i < timeit; i++) { clock_t start_time = clock(); PCRE2_COMPILE(compiled_code, pbuffer, patlen, pat_patctl.options|forbid_utf, &errorcode, &erroroffset, pat_context); time_taken += clock() - start_time; if (TEST(compiled_code, !=, NULL)) { SUB1(pcre2_code_free, compiled_code); } } total_compile_time += time_taken; fprintf(outfile, "Compile time %.4f milliseconds\n", (((double)time_taken * 1000.0) / (double)timeit) / (double)CLOCKS_PER_SEC); } /* A final compile that is used "for real". */ PCRE2_COMPILE(compiled_code, pbuffer, patlen, pat_patctl.options|forbid_utf, &errorcode, &erroroffset, pat_context); /* Compilation failed; go back for another re, skipping to blank line if non-interactive. */ if (TEST(compiled_code, ==, NULL)) { int len; fprintf(outfile, "Failed: error %d at offset %d: ", errorcode, (int)erroroffset); PCRE2_GET_ERROR_MESSAGE(len, errorcode, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, len, FALSE, outfile); fprintf(outfile, "\n"); return PR_SKIP; } /* Remember the maximum lookbehind, for partial matching. */ if (pattern_info(PCRE2_INFO_MAXLOOKBEHIND, &maxlookbehind, FALSE) != 0) return PR_ABEND; /* Call the JIT compiler if requested. When timing, we must free and recompile the pattern each time because that is the only way to free the JIT compiled code. We know that compilation will always succeed. */ if (pat_patctl.jit != 0) { if (timeit > 0) { register int i; clock_t time_taken = 0; for (i = 0; i < timeit; i++) { clock_t start_time; SUB1(pcre2_code_free, compiled_code); PCRE2_COMPILE(compiled_code, pbuffer, patlen, pat_patctl.options|forbid_utf, &errorcode, &erroroffset, pat_context); start_time = clock(); PCRE2_JIT_COMPILE(compiled_code, pat_patctl.jit); time_taken += clock() - start_time; } total_jit_compile_time += time_taken; fprintf(outfile, "JIT compile %.4f milliseconds\n", (((double)time_taken * 1000.0) / (double)timeit) / (double)CLOCKS_PER_SEC); } else { PCRE2_JIT_COMPILE(compiled_code, pat_patctl.jit); } } /* Output code size and other information if requested. */ if ((pat_patctl.control & CTL_MEMORY) != 0) { uint32_t name_count, name_entry_size; size_t size, cblock_size; #ifdef SUPPORT_PCRE2_8 if (test_mode == 8) cblock_size = sizeof(pcre2_real_code_8); #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == 16) cblock_size = sizeof(pcre2_real_code_16); #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == 32) cblock_size = sizeof(pcre2_real_code_32); #endif (void)pattern_info(PCRE2_INFO_SIZE, &size, FALSE); (void)pattern_info(PCRE2_INFO_NAMECOUNT, &name_count, FALSE); (void)pattern_info(PCRE2_INFO_NAMEENTRYSIZE, &name_entry_size, FALSE); fprintf(outfile, "Memory allocation (code space): %d\n", (int)(size - name_count*name_entry_size*code_unit_size - cblock_size)); if (pat_patctl.jit != 0) { (void)pattern_info(PCRE2_INFO_JITSIZE, &size, FALSE); fprintf(outfile, "Memory allocation (JIT code): %d\n", (int)size); } } if ((pat_patctl.control & CTL_ANYINFO) != 0) { int rc = show_pattern_info(); if (rc != PR_OK) return rc; } return PR_OK; } /************************************************* * Check match or recursion limit * *************************************************/ static int check_match_limit(uint8_t *pp, size_t ulen, int errnumber, const char *msg) { int capcount; uint32_t min = 0; uint32_t mid = 64; uint32_t max = UINT32_MAX; PCRE2_SET_MATCH_LIMIT(dat_context, max); PCRE2_SET_RECURSION_LIMIT(dat_context, max); for (;;) { if (errnumber == PCRE2_ERROR_MATCHLIMIT) { PCRE2_SET_MATCH_LIMIT(dat_context, mid); } else { PCRE2_SET_RECURSION_LIMIT(dat_context, mid); } if ((pat_patctl.control & CTL_JITFAST) != 0) PCRE2_JIT_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options, match_data, dat_context); else PCRE2_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options, match_data, dat_context); if (capcount == errnumber) { min = mid; mid = (mid == max - 1)? max : (max != UINT32_MAX)? (min + max)/2 : mid*2; } else if (capcount >= 0 || capcount == PCRE2_ERROR_NOMATCH || capcount == PCRE2_ERROR_PARTIAL) { if (mid == min + 1) { fprintf(outfile, "Minimum %s limit = %d\n", msg, mid); break; } max = mid; mid = (min + mid)/2; } else break; /* Some other error */ } return capcount; } /************************************************* * Callout function * *************************************************/ /* Called from a PCRE2 library as a result of the (?C) item. We print out where we are in the match. Yield zero unless more callouts than the fail count, or the callout data is not zero. The only differences in the callout block for different code unit widths are that the pointers to the subject and the most recent MARK point to strings of the appropriate width. Casts can be used to deal with this. Argument: a pointer to a callout block Return: */ static int callout_function(pcre2_callout_block_8 *cb, void *callout_data_ptr) { uint32_t i, pre_start, post_start, subject_length; BOOL utf = (FLD(compiled_code, overall_options) & PCRE2_UTF) != 0; BOOL callout_capture = (dat_datctl.control & CTL_CALLOUT_CAPTURE) != 0; FILE *f = (first_callout || callout_capture)? outfile : NULL; if (callout_capture) { fprintf(f, "Callout %d: last capture = %d\n", cb->callout_number, cb->capture_last); for (i = 0; i < cb->capture_top * 2; i += 2) { fprintf(f, "%2d: ", i/2); if (cb->offset_vector[i] == PCRE2_UNSET) fprintf(f, ""); else { PCHARSV(cb->subject, cb->offset_vector[i], cb->offset_vector[i+1] - cb->offset_vector[i], utf, f); } fprintf(f, "\n"); } } /* Re-print the subject in canonical form, the first time or if giving full datails. On subsequent calls in the same match, we use pchars just to find the printed lengths of the substrings. */ if (f != NULL) fprintf(f, "--->"); PCHARS(pre_start, cb->subject, 0, cb->start_match, utf, f); PCHARS(post_start, cb->subject, cb->start_match, cb->current_position - cb->start_match, utf, f); PCHARS(subject_length, cb->subject, 0, cb->subject_length, utf, NULL); PCHARSV(cb->subject, cb->current_position, cb->subject_length - cb->current_position, utf, f); if (f != NULL) fprintf(f, "\n"); /* Always print appropriate indicators, with callout number if not already shown. For automatic callouts, show the pattern offset. */ if (cb->callout_number == 255) { fprintf(outfile, "%+3d ", (int)cb->pattern_position); if (cb->pattern_position > 99) fprintf(outfile, "\n "); } else { if (callout_capture) fprintf(outfile, " "); else fprintf(outfile, "%3d ", cb->callout_number); } for (i = 0; i < pre_start; i++) fprintf(outfile, " "); fprintf(outfile, "^"); if (post_start > 0) { for (i = 0; i < post_start - 1; i++) fprintf(outfile, " "); fprintf(outfile, "^"); } for (i = 0; i < subject_length - pre_start - post_start + 4; i++) fprintf(outfile, " "); fprintf(outfile, "%.*s", (int)((cb->next_item_length == 0)? 1 : cb->next_item_length), pbuffer8 + cb->pattern_position); fprintf(outfile, "\n"); first_callout = 0; if (cb->mark != last_callout_mark) { if (cb->mark == NULL) fprintf(outfile, "Latest Mark: \n"); else { fprintf(outfile, "Latest Mark: "); PCHARSV(cb->mark, 0, -1, utf, outfile); putc('\n', outfile); } last_callout_mark = cb->mark; } if (callout_data_ptr != NULL) { int callout_data = *((int32_t *)callout_data_ptr); if (callout_data != 0) { fprintf(outfile, "Callout data = %d\n", callout_data); return callout_data; } } return (cb->callout_number != dat_datctl.cfail[0])? 0 : (++callout_count >= dat_datctl.cfail[1])? 1 : 0; } /************************************************* * Handle *MARK and copy/get tests * *************************************************/ /* This function is called after complete and partial matches. It runs the tests for substring extraction. Arguments: utf TRUE for utf capcount return from pcre2_match() Returns: nothing */ static void copy_and_get(BOOL utf, int capcount) { int i; uint8_t *nptr; /* Test copy strings by number */ for (i = 0; i < MAXCPYGET && dat_datctl.copy_numbers[i] >= 0; i++) { int rc; PCRE2_SIZE length, length2; uint32_t copybuffer[256]; uint32_t n = (uint32_t)(dat_datctl.copy_numbers[i]); length = sizeof(copybuffer)/code_unit_size; PCRE2_SUBSTRING_COPY_BYNUMBER(rc, match_data, n, copybuffer, &length); if (rc < 0) { fprintf(outfile, "Copy substring %d failed (%d): ", n, rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else { PCRE2_SUBSTRING_LENGTH_BYNUMBER(rc, match_data, n, &length2); if (rc < 0) { fprintf(outfile, "Get substring %d length failed (%d): ", n, rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else if (length2 != length) { fprintf(outfile, "Mismatched substring lengths: %ld %ld\n", length, length2); } fprintf(outfile, "%2dC ", n); PCHARSV(copybuffer, 0, length, utf, outfile); fprintf(outfile, " (%lu)\n", (unsigned long)length); } } /* Test copy strings by name */ nptr = dat_datctl.copy_names; for (;;) { int rc; int groupnumber; PCRE2_SIZE length, length2; uint32_t copybuffer[256]; int namelen = strlen((const char *)nptr); #if defined SUPPORT_PCRE2_16 || defined SUPPORT_PCRE2_32 PCRE2_SIZE cnl = namelen; #endif if (namelen == 0) break; #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) strcpy((char *)pbuffer8, (char *)nptr); #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE)(void)to16(nptr, utf, &cnl); #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE)(void)to32(nptr, utf, &cnl); #endif PCRE2_SUBSTRING_NUMBER_FROM_NAME(groupnumber, compiled_code, pbuffer); if (groupnumber < 0 && groupnumber != PCRE2_ERROR_NOUNIQUESUBSTRING) fprintf(outfile, "Number not found for group '%s'\n", nptr); length = sizeof(copybuffer)/code_unit_size; PCRE2_SUBSTRING_COPY_BYNAME(rc, match_data, pbuffer, copybuffer, &length); if (rc < 0) { fprintf(outfile, "Copy substring '%s' failed (%d): ", nptr, rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else { PCRE2_SUBSTRING_LENGTH_BYNAME(rc, match_data, pbuffer, &length2); if (rc < 0) { fprintf(outfile, "Get substring '%s' length failed (%d): ", nptr, rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else if (length2 != length) { fprintf(outfile, "Mismatched substring lengths: %ld %ld\n", length, length2); } fprintf(outfile, " C "); PCHARSV(copybuffer, 0, length, utf, outfile); fprintf(outfile, " (%lu) %s", (unsigned long)length, nptr); if (groupnumber >= 0) fprintf(outfile, " (group %d)\n", groupnumber); else fprintf(outfile, " (non-unique)\n"); } nptr += namelen + 1; } /* Test get strings by number */ for (i = 0; i < MAXCPYGET && dat_datctl.get_numbers[i] >= 0; i++) { int rc; PCRE2_SIZE length; void *gotbuffer; uint32_t n = (uint32_t)(dat_datctl.get_numbers[i]); PCRE2_SUBSTRING_GET_BYNUMBER(rc, match_data, n, &gotbuffer, &length); if (rc < 0) { fprintf(outfile, "Get substring %d failed (%d): ", n, rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else { fprintf(outfile, "%2dG ", n); PCHARSV(gotbuffer, 0, length, utf, outfile); fprintf(outfile, " (%lu)\n", (unsigned long)length); PCRE2_SUBSTRING_FREE(gotbuffer); } } /* Test get strings by name */ nptr = dat_datctl.get_names; for (;;) { PCRE2_SIZE length; void *gotbuffer; int rc; int groupnumber; int namelen = strlen((const char *)nptr); #if defined SUPPORT_PCRE2_16 || defined SUPPORT_PCRE2_32 PCRE2_SIZE cnl = namelen; #endif if (namelen == 0) break; #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) strcpy((char *)pbuffer8, (char *)nptr); #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE)(void)to16(nptr, utf, &cnl); #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE)(void)to32(nptr, utf, &cnl); #endif PCRE2_SUBSTRING_NUMBER_FROM_NAME(groupnumber, compiled_code, pbuffer); if (groupnumber < 0 && groupnumber != PCRE2_ERROR_NOUNIQUESUBSTRING) fprintf(outfile, "Number not found for group '%s'\n", nptr); PCRE2_SUBSTRING_GET_BYNAME(rc, match_data, pbuffer, &gotbuffer, &length); if (rc < 0) { fprintf(outfile, "Get substring '%s' failed (%d): ", nptr, rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else { fprintf(outfile, " G "); PCHARSV(gotbuffer, 0, length, utf, outfile); fprintf(outfile, " (%lu) %s", (unsigned long)length, nptr); if (groupnumber >= 0) fprintf(outfile, " (group %d)\n", groupnumber); else fprintf(outfile, " (non-unique)\n"); PCRE2_SUBSTRING_FREE(gotbuffer); } nptr += namelen + 1; } /* Test getting the complete list of captured strings. */ if ((dat_datctl.control & CTL_GETALL) != 0) { int rc; void **stringlist; PCRE2_SIZE *lengths; PCRE2_SUBSTRING_LIST_GET(rc, match_data, &stringlist, &lengths); if (rc < 0) { fprintf(outfile, "get substring list failed (%d): ", rc); PCRE2_GET_ERROR_MESSAGE(rc, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, rc, FALSE, outfile); fprintf(outfile, "\n"); } else { for (i = 0; i < capcount; i++) { fprintf(outfile, "%2dL ", i); PCHARSV(stringlist[i], 0, lengths[i], utf, outfile); putc('\n', outfile); } if (stringlist[i] != NULL) fprintf(outfile, "string list not terminated by NULL\n"); PCRE2_SUBSTRING_LIST_FREE(stringlist); } } } /************************************************* * Process a data line * *************************************************/ /* The line is in buffer; it will not be empty. Arguments: none Returns: PR_OK continue processing next line PR_SKIP skip to a blank line PR_ABEND abort the pcre2test run */ static int process_data(void) { PCRE2_SIZE len, ulen; uint32_t gmatched; uint32_t c; uint32_t g_notempty = 0; uint8_t *p, *pp, *start_rep; size_t needlen; BOOL utf; #ifdef SUPPORT_PCRE2_8 uint8_t *q8 = NULL; #endif #ifdef SUPPORT_PCRE2_16 uint16_t *q16 = NULL; #endif #ifdef SUPPORT_PCRE2_32 uint32_t *q32 = NULL; #endif /* Copy the default context and data control blocks to the active ones. Then copy from the pattern the controls that can be set in either the pattern or the data. This allows them to be overridden in the data line. We do not do this for options because those that are common apply separately to compiling and matching. */ DATCTXCPY(dat_context, default_dat_context); memcpy(&dat_datctl, &def_datctl, sizeof(datctl)); dat_datctl.control |= (pat_patctl.control & CTL_ALLPD); strcpy((char *)dat_datctl.replacement, (char *)pat_patctl.replacement); /* Initialize for scanning the data line. */ #ifdef SUPPORT_PCRE2_8 utf = ((((pat_patctl.control & CTL_POSIX) != 0)? ((pcre2_real_code_8 *)preg.re_pcre2_code)->overall_options : FLD(compiled_code, overall_options)) & PCRE2_UTF) != 0; #else utf = (FLD(compiled_code, overall_options) & PCRE2_UTF) != 0; #endif start_rep = NULL; len = strlen((const char *)buffer); while (len > 0 && isspace(buffer[len-1])) len--; buffer[len] = 0; p = buffer; while (isspace(*p)) p++; /* Check that the data is well-formed UTF-8 if we're in UTF mode. To create invalid input to pcre2_match(), you must use \x?? or \x{} sequences. */ if (utf) { uint8_t *q; uint32_t cc; int n = 1; for (q = p; n > 0 && *q; q += n) n = utf82ord(q, &cc); if (n <= 0) { fprintf(outfile, "** Failed: invalid UTF-8 string cannot be used as input " "in UTF mode\n"); return PR_OK; } } #ifdef SUPPORT_VALGRIND /* Mark the dbuffer as addressable but undefined again. */ if (dbuffer != NULL) { VALGRIND_MAKE_MEM_UNDEFINED(dbuffer, dbuffer_size); } #endif /* Allocate a buffer to hold the data line; len+1 is an upper bound on the number of code units that will be needed. */ needlen = (size_t)(len * code_unit_size); while (dbuffer == NULL || needlen >= dbuffer_size) { dbuffer_size *= 2; dbuffer = (uint8_t *)realloc(dbuffer, dbuffer_size); if (dbuffer == NULL) { fprintf(stderr, "pcre2test: realloc(%d) failed\n", (int)dbuffer_size); exit(1); } } SETCASTPTR(q, dbuffer); /* Sets q8, q16, or q32, as appropriate. */ /* Scan the data line, interpreting data escapes, and put the result into a buffer the appropriate width buffer. In UTF mode, input can be UTF-8. */ while ((c = *p++) != 0) { int i = 0; size_t replen; /* ] may mark the end of a replicated sequence */ if (c == ']' && start_rep != NULL) { size_t qoffset = CAST8VAR(q) - (uint8_t *)dbuffer; if (*p++ != '{') { fprintf(outfile, "** Expected '{' after \\[....]\n"); return PR_OK; } while (isdigit(*p)) i = i * 10 + *p++ - '0'; if (*p++ != '}') { fprintf(outfile, "** Expected '}' after \\[...]{...\n"); return PR_OK; } if (i-- == 0) { fprintf(outfile, "** Zero repeat not allowed\n"); return PR_OK; } replen = CAST8VAR(q) - start_rep; needlen += replen * (i - 1); while (needlen >= dbuffer_size) { dbuffer_size *= 2; dbuffer = (uint8_t *)realloc(dbuffer, dbuffer_size); if (dbuffer == NULL) { fprintf(stderr, "pcre2test: realloc(%d) failed\n", (int)dbuffer_size); exit(1); } SETCASTPTR(q, dbuffer + qoffset); } while (i-- > 0) { memcpy(CAST8VAR(q), start_rep, replen); SETPLUS(q, replen/code_unit_size); } start_rep = NULL; continue; } /* Handle a non-escaped character */ if (c != '\\') { if (utf && HASUTF8EXTRALEN(c)) { GETUTF8INC(c, p); } } /* Handle backslash escapes */ else switch ((c = *p++)) { case '\\': break; case 'a': c = 7; break; case 'b': c = '\b'; break; case 'e': c = 27; break; case 'f': c = '\f'; break; case 'n': c = '\n'; break; case 'r': c = '\r'; break; case 't': c = '\t'; break; case 'v': c = '\v'; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': c -= '0'; while (i++ < 2 && isdigit(*p) && *p != '8' && *p != '9') c = c * 8 + *p++ - '0'; break; case 'o': if (*p == '{') { uint8_t *pt = p; c = 0; for (pt++; isdigit(*pt) && *pt != '8' && *pt != '9'; pt++) { if (++i == 12) fprintf(outfile, "** Too many octal digits in \\o{...} item; " "using only the first twelve.\n"); else c = c * 8 + *pt - '0'; } if (*pt == '}') p = pt + 1; else fprintf(outfile, "** Missing } after \\o{ (assumed)\n"); } break; case 'x': if (*p == '{') { uint8_t *pt = p; c = 0; /* We used to have "while (isxdigit(*(++pt)))" here, but it fails when isxdigit() is a macro that refers to its argument more than once. This is banned by the C Standard, but apparently happens in at least one MacOS environment. */ for (pt++; isxdigit(*pt); pt++) { if (++i == 9) fprintf(outfile, "** Too many hex digits in \\x{...} item; " "using only the first eight.\n"); else c = c * 16 + tolower(*pt) - ((isdigit(*pt))? '0' : 'a' - 10); } if (*pt == '}') { p = pt + 1; break; } /* Not correct form for \x{...}; fall through */ } /* \x without {} always defines just one byte in 8-bit mode. This allows UTF-8 characters to be constructed byte by byte, and also allows invalid UTF-8 sequences to be made. Just copy the byte in UTF-8 mode. Otherwise, pass it down as data. */ c = 0; while (i++ < 2 && isxdigit(*p)) { c = c * 16 + tolower(*p) - ((isdigit(*p))? '0' : 'a' - 10); p++; } #if defined SUPPORT_PCRE2_8 if (utf && (test_mode == PCRE8_MODE)) { *q8++ = c; continue; } #endif break; case 0: /* \ followed by EOF allows for an empty line */ p--; continue; case '=': /* \= terminates the data, starts modifiers */ goto ENDSTRING; case '[': /* \[ introduces a replicated character sequence */ if (start_rep != NULL) { fprintf(outfile, "** Nested replication is not supported\n"); return PR_OK; } start_rep = CAST8VAR(q); continue; default: if (isalnum(c)) { fprintf(outfile, "** Unrecognized escape sequence \"\\%c\"\n", c); return PR_OK; } } /* We now have a character value in c that may be greater than 255. In 8-bit mode we convert to UTF-8 if we are in UTF mode. Values greater than 127 in UTF mode must have come from \x{...} or octal constructs because values from \x.. get this far only in non-UTF mode. */ #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) { if (utf) { if (c > 0x7fffffff) { fprintf(outfile, "** Character \\x{%x} is greater than 0x7fffffff " "and so cannot be converted to UTF-8\n", c); return PR_OK; } q8 += ord2utf8(c, q8); } else { if (c > 0xffu) { fprintf(outfile, "** Character \\x{%x} is greater than 255 " "and UTF-8 mode is not enabled.\n", c); fprintf(outfile, "** Truncation will probably give the wrong " "result.\n"); } *q8++ = c; } } #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE) { if (utf) { if (c > 0x10ffffu) { fprintf(outfile, "** Failed: character \\x{%x} is greater than " "0x10ffff and so cannot be converted to UTF-16\n", c); return PR_OK; } else if (c >= 0x10000u) { c-= 0x10000u; *q16++ = 0xD800 | (c >> 10); *q16++ = 0xDC00 | (c & 0x3ff); } else *q16++ = c; } else { if (c > 0xffffu) { fprintf(outfile, "** Character \\x{%x} is greater than 0xffff " "and UTF-16 mode is not enabled.\n", c); fprintf(outfile, "** Truncation will probably give the wrong " "result.\n"); } *q16++ = c; } } #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE) { *q32++ = c; } #endif } ENDSTRING: SET(*q, 0); len = CASTVAR(uint8_t *, q) - dbuffer; /* Length in bytes */ ulen = len/code_unit_size; /* Length in code units */ /* If the string was terminated by \= we must now interpret modifiers. */ if (p[-1] != 0 && !decode_modifiers(p, CTX_DAT, NULL, &dat_datctl)) return PR_OK; /* Check for mutually exclusive modifiers. */ c = dat_datctl.control & EXCLUSIVE_DAT_CONTROLS; if (c - (c & -c) != 0) { show_controls(c, "** Not allowed together:"); fprintf(outfile, "\n"); return PR_OK; } /* If we have explicit valgrind support, mark the data from after its end to the end of the buffer as unaddressable, so that a read over the end of the buffer will be seen by valgrind, even if it doesn't cause a crash. If we're not building with valgrind support, at least move the data to the end of the buffer so that it might at least cause a crash. If we are using the POSIX interface, or testing zero-termination, we must include the terminating zero. */ pp = dbuffer; c = code_unit_size * (((pat_patctl.control & CTL_POSIX) + (dat_datctl.control & CTL_ZERO_TERMINATE) != 0)? 1:0); #ifdef SUPPORT_VALGRIND VALGRIND_MAKE_MEM_NOACCESS(dbuffer + len + c, dbuffer_size - (len + c)); #else pp = memmove(pp + dbuffer_size - len - c, pp, len + c); #endif /* We now have len containing the byte length, ulen containing the code unit length, and pp pointing to the subject string. POSIX matching is only possible in 8-bit mode, and it does not support timing or other fancy features. Some were checked at compile time, but we need to check the match-time settings here. */ #ifdef SUPPORT_PCRE2_8 if ((pat_patctl.control & CTL_POSIX) != 0) { int rc; int eflags = 0; regmatch_t *pmatch = NULL; const char *msg = "** Ignored with POSIX interface:"; if (dat_datctl.cfail[0] != CFAIL_UNSET || dat_datctl.cfail[1] != CFAIL_UNSET) prmsg(&msg, "callout_fail"); if (dat_datctl.copy_numbers[0] >= 0 || dat_datctl.copy_names[0] != 0) prmsg(&msg, "copy"); if (dat_datctl.get_numbers[0] >= 0 || dat_datctl.get_names[0] != 0) prmsg(&msg, "get"); if (dat_datctl.jitstack != 0) prmsg(&msg, "jitstack"); if ((dat_datctl.options & ~POSIX_SUPPORTED_MATCH_OPTIONS) != 0) { fprintf(outfile, "%s", msg); show_match_options(dat_datctl.options & ~POSIX_SUPPORTED_MATCH_OPTIONS); msg = ""; } if ((dat_datctl.control & ~POSIX_SUPPORTED_MATCH_CONTROLS) != 0) { show_controls(dat_datctl.control & ~POSIX_SUPPORTED_MATCH_CONTROLS, msg); msg = ""; } if (msg[0] == 0) fprintf(outfile, "\n"); if (dat_datctl.oveccount > 0) pmatch = (regmatch_t *)malloc(sizeof(regmatch_t) * dat_datctl.oveccount); if ((dat_datctl.options & PCRE2_NOTBOL) != 0) eflags |= REG_NOTBOL; if ((dat_datctl.options & PCRE2_NOTEOL) != 0) eflags |= REG_NOTEOL; if ((dat_datctl.options & PCRE2_NOTEMPTY) != 0) eflags |= REG_NOTEMPTY; rc = regexec(&preg, (const char *)pp + dat_datctl.offset, dat_datctl.oveccount, pmatch, eflags); if (rc != 0) { (void)regerror(rc, &preg, (char *)pbuffer8, pbuffer8_size); fprintf(outfile, "No match: POSIX code %d: %s\n", rc, pbuffer8); } else if ((pat_patctl.options & PCRE2_NO_AUTO_CAPTURE) != 0) fprintf(outfile, "Matched with REG_NOSUB\n"); else if (dat_datctl.oveccount == 0) fprintf(outfile, "Matched without capture\n"); else { size_t i; for (i = 0; i < (size_t)dat_datctl.oveccount; i++) { if (pmatch[i].rm_so >= 0) { fprintf(outfile, "%2d: ", (int)i); PCHARSV(dbuffer, pmatch[i].rm_so, pmatch[i].rm_eo - pmatch[i].rm_so, utf, outfile); fprintf(outfile, "\n"); if ((i == 0 && (dat_datctl.control & CTL_AFTERTEXT) != 0) || (dat_datctl.control & CTL_ALLAFTERTEXT) != 0) { fprintf(outfile, "%2d+ ", (int)i); PCHARSV(dbuffer, pmatch[i].rm_eo, len - pmatch[i].rm_eo, utf, outfile); fprintf(outfile, "\n"); } } } } free(pmatch); return PR_OK; } #endif /* SUPPORT_PCRE2_8 */ /* Handle matching via the native interface. Check for consistency of modifiers. */ if ((dat_datctl.control & (CTL_DFA|CTL_FINDLIMITS)) == (CTL_DFA|CTL_FINDLIMITS)) { fprintf(outfile, "** Finding match limits is not relevant for DFA matching: ignored\n"); dat_datctl.control &= ~CTL_FINDLIMITS; } /* ALLUSEDTEXT is not supported with JIT, but JIT is not used with DFA matching, even if the JIT compiler was used. */ if ((dat_datctl.control & (CTL_ALLUSEDTEXT|CTL_DFA)) == CTL_ALLUSEDTEXT && FLD(compiled_code, executable_jit) != NULL) { fprintf(outfile, "** Showing all consulted text is not supported by JIT: ignored\n"); dat_datctl.control &= ~CTL_ALLUSEDTEXT; } /* Handle passing the subject as zero-terminated. */ if ((dat_datctl.control & CTL_ZERO_TERMINATE) != 0) ulen = PCRE2_ZERO_TERMINATED; /* Enable display of malloc/free if wanted. */ show_memory = (dat_datctl.control & CTL_MEMORY) != 0; /* Create and assign a JIT stack if requested. */ if (dat_datctl.jitstack != 0) { if (dat_datctl.jitstack != jit_stack_size) { PCRE2_JIT_STACK_FREE(jit_stack); PCRE2_JIT_STACK_CREATE(jit_stack, 1, dat_datctl.jitstack * 1024, NULL); jit_stack_size = dat_datctl.jitstack; } PCRE2_JIT_STACK_ASSIGN(dat_context, jit_callback, jit_stack); } /* Or de-assign */ else if (jit_stack != NULL) { PCRE2_JIT_STACK_ASSIGN(dat_context, NULL, NULL); PCRE2_JIT_STACK_FREE(jit_stack); jit_stack = NULL; jit_stack_size = 0; } /* When no JIT stack is assigned, we must ensure that there is a JIT callback if we want to verify that JIT was actually used. */ if ((pat_patctl.control & CTL_JITVERIFY) != 0 && jit_stack == NULL) { PCRE2_JIT_STACK_ASSIGN(dat_context, jit_callback, NULL); } /* Adjust match_data according to size of offsets required. A size of zero causes a new match data block to be obtained that exactly fits the pattern. */ if (dat_datctl.oveccount == 0) { PCRE2_MATCH_DATA_FREE(match_data); PCRE2_MATCH_DATA_CREATE_FROM_PATTERN(match_data, compiled_code, NULL); PCRE2_GET_OVECTOR_COUNT(max_oveccount, match_data); } else if (dat_datctl.oveccount <= max_oveccount) { SETFLD(match_data, oveccount, dat_datctl.oveccount); } else { max_oveccount = dat_datctl.oveccount; PCRE2_MATCH_DATA_FREE(match_data); PCRE2_MATCH_DATA_CREATE(match_data, max_oveccount, NULL); } /* Replacement processing is ignored for DFA matching. */ if (dat_datctl.replacement[0] != 0 && (dat_datctl.control & CTL_DFA) != 0) { fprintf(outfile, "** Ignored for DFA matching: replace\n"); dat_datctl.replacement[0] = 0; } /* If a replacement string is provided, call pcre2_substitute() instead of one of the matching functions. First we have to convert the replacement string to the appropriate width. */ if (dat_datctl.replacement[0] != 0) { int rc; uint8_t *pr; uint8_t rbuffer[REPLACE_BUFFSIZE]; uint8_t nbuffer[REPLACE_BUFFSIZE]; uint32_t goption; PCRE2_SIZE rlen, nsize, erroroffset; BOOL badutf = FALSE; #ifdef SUPPORT_PCRE2_8 uint8_t *r8 = NULL; #endif #ifdef SUPPORT_PCRE2_16 uint16_t *r16 = NULL; #endif #ifdef SUPPORT_PCRE2_32 uint32_t *r32 = NULL; #endif if (timeitm) fprintf(outfile, "** Timing is not supported with replace: ignored\n"); goption = ((dat_datctl.control & CTL_GLOBAL) == 0)? 0 : PCRE2_SUBSTITUTE_GLOBAL; SETCASTPTR(r, rbuffer); /* Sets r8, r16, or r32, as appropriate. */ pr = dat_datctl.replacement; /* If the replacement starts with '[]' we interpret that as length value for the replacement buffer. */ nsize = REPLACE_BUFFSIZE/code_unit_size; if (*pr == '[') { PCRE2_SIZE n = 0; while ((c = *(++pr)) >= CHAR_0 && c <= CHAR_9) n = n * 10 + c - CHAR_0; if (*pr++ != ']') { fprintf(outfile, "Bad buffer size in replacement string\n"); return PR_OK; } if (n > nsize) { fprintf(outfile, "Replacement buffer setting (%ld) is too large " "(max %ld)\n", n, nsize); return PR_OK; } nsize = n; } /* Now copy the replacement string to a buffer of the appropriate width. No escape processing is done for replacements. In UTF mode, check for an invalid UTF-8 input string, and if it is invalid, just copy its code units without UTF interpretation. This provides a means of checking that an invalid string is detected. Otherwise, UTF-8 can be used to include wide characters in a replacement. */ if (utf) badutf = valid_utf(pr, strlen((const char *)pr), &erroroffset); /* Not UTF or invalid UTF-8: just copy the code units. */ if (!utf || badutf) { while ((c = *pr++) != 0) { #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) *r8++ = c; #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE) *r16++ = c; #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE) *r32++ = c; #endif } } /* Valid UTF-8 replacement string */ else while ((c = *pr++) != 0) { if (HASUTF8EXTRALEN(c)) { GETUTF8INC(c, pr); } #ifdef SUPPORT_PCRE2_8 if (test_mode == PCRE8_MODE) r8 += ord2utf8(c, r8); #endif #ifdef SUPPORT_PCRE2_16 if (test_mode == PCRE16_MODE) { if (c >= 0x10000u) { c-= 0x10000u; *r16++ = 0xD800 | (c >> 10); *r16++ = 0xDC00 | (c & 0x3ff); } else *r16++ = c; } #endif #ifdef SUPPORT_PCRE2_32 if (test_mode == PCRE32_MODE) *r32++ = c; #endif } SET(*r, 0); if ((dat_datctl.control & CTL_ZERO_TERMINATE) != 0) rlen = PCRE2_ZERO_TERMINATED; else rlen = (CASTVAR(uint8_t *, r) - rbuffer)/code_unit_size; PCRE2_SUBSTITUTE(rc, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options|goption, match_data, dat_context, rbuffer, rlen, nbuffer, &nsize); if (rc < 0) { fprintf(outfile, "Failed: error %d: ", rc); PCRE2_GET_ERROR_MESSAGE(nsize, rc, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, nsize, FALSE, outfile); } else { fprintf(outfile, "%2d: ", rc); PCHARSV(nbuffer, 0, nsize, utf, outfile); } fprintf(outfile, "\n"); } /* End of substitution handling */ /* When a replacement string is not provided, run a loop for global matching with one of the basic matching functions. */ else for (gmatched = 0;; gmatched++) { PCRE2_SIZE j; int capcount; PCRE2_SIZE *ovector; PCRE2_SIZE ovecsave[2]; ovector = FLD(match_data, ovector); /* After the first time round a global loop, save the current ovector[0,1] so that we can check that they do change each time. Otherwise a matching bug that returns the same string causes an infinite loop. It has happened! */ if (gmatched > 0) { ovecsave[0] = ovector[0]; ovecsave[1] = ovector[1]; } /* Set the variables on the first iteration, just to stop a compiler warning when ovecsave[] is referenced below. */ else ovecsave[0] = ovecsave[1] = 0; /* Fill the ovector with junk to detect elements that do not get set when they should be. */ for (j = 0; j < 2*dat_datctl.oveccount; j++) ovector[j] = JUNK_OFFSET; /* When matching is via pcre2_match(), we will detect the use of JIT via the stack callback function. */ jit_was_used = (pat_patctl.control & CTL_JITFAST) != 0; /* Do timing if required. */ if (timeitm > 0) { register int i; clock_t start_time, time_taken; if ((dat_datctl.control & CTL_DFA) != 0) { if ((dat_datctl.options & PCRE2_DFA_RESTART) != 0) { fprintf(outfile, "Timing DFA restarts is not supported\n"); return PR_OK; } if (dfa_workspace == NULL) dfa_workspace = (int *)malloc(DFA_WS_DIMENSION*sizeof(int)); start_time = clock(); for (i = 0; i < timeitm; i++) { PCRE2_DFA_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options | g_notempty, match_data, dat_context, dfa_workspace, DFA_WS_DIMENSION); } } else if ((pat_patctl.control & CTL_JITFAST) != 0) { start_time = clock(); for (i = 0; i < timeitm; i++) { PCRE2_JIT_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options | g_notempty, match_data, dat_context); } } else { start_time = clock(); for (i = 0; i < timeitm; i++) { PCRE2_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options | g_notempty, match_data, dat_context); } } total_match_time += (time_taken = clock() - start_time); fprintf(outfile, "Match time %.4f milliseconds\n", (((double)time_taken * 1000.0) / (double)timeitm) / (double)CLOCKS_PER_SEC); } /* Find the match and recursion limits if requested. The recursion limit is not relevant for JIT. */ if ((dat_datctl.control & CTL_FINDLIMITS) != 0) { capcount = check_match_limit(pp, ulen, PCRE2_ERROR_MATCHLIMIT, "match"); if (FLD(compiled_code, executable_jit) == NULL) (void)check_match_limit(pp, ulen, PCRE2_ERROR_RECURSIONLIMIT, "recursion"); } /* Otherwise just run a single match, setting up a callout if required (the default). */ else { if ((dat_datctl.control & CTL_CALLOUT_NONE) == 0) { PCRE2_SET_CALLOUT(dat_context, callout_function, (void *)(&dat_datctl.callout_data)); first_callout = TRUE; last_callout_mark = NULL; callout_count = 0; } else { PCRE2_SET_CALLOUT(dat_context, NULL, NULL); /* No callout */ } /* Run a single DFA or NFA match. */ if ((dat_datctl.control & CTL_DFA) != 0) { if (dfa_workspace == NULL) dfa_workspace = (int *)malloc(DFA_WS_DIMENSION*sizeof(int)); if (dfa_matched++ == 0) dfa_workspace[0] = -1; /* To catch bad restart */ PCRE2_DFA_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options | g_notempty, match_data, dat_context, dfa_workspace, DFA_WS_DIMENSION); if (capcount == 0) { fprintf(outfile, "Matched, but offsets vector is too small to show all matches\n"); capcount = dat_datctl.oveccount; } } else { if ((pat_patctl.control & CTL_JITFAST) != 0) PCRE2_JIT_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options | g_notempty, match_data, dat_context); else PCRE2_MATCH(capcount, compiled_code, pp, ulen, dat_datctl.offset, dat_datctl.options | g_notempty, match_data, dat_context); if (capcount == 0) { fprintf(outfile, "Matched, but too many substrings\n"); capcount = dat_datctl.oveccount; } } } /* The result of the match is now in capcount. First handle a successful match. */ if (capcount >= 0) { int i; uint32_t oveccount; /* This is a check against a lunatic return value. */ PCRE2_GET_OVECTOR_COUNT(oveccount, match_data); if (capcount > (int)oveccount) { fprintf(outfile, "** PCRE2 error: returned count %d is too big for ovector count %d\n", capcount, oveccount); capcount = oveccount; if ((dat_datctl.control & CTL_ANYGLOB) != 0) { fprintf(outfile, "** Global loop abandoned\n"); dat_datctl.control &= ~CTL_ANYGLOB; /* Break g/G loop */ } } /* If this is not the first time round a global loop, check that the returned string has changed. If not, there is a bug somewhere and we must break the loop because it will go on for ever. We know that there are always at least two elements in the ovector. */ if (gmatched > 0 && ovecsave[0] == ovector[0] && ovecsave[1] == ovector[1]) { fprintf(outfile, "** PCRE2 error: global repeat returned the same string as previous\n"); fprintf(outfile, "** Global loop abandoned\n"); dat_datctl.control &= ~CTL_ANYGLOB; /* Break g/G loop */ } /* "allcaptures" requests showing of all captures in the pattern, to check unset ones at the end. It may be set on the pattern or the data. Implement by setting capcount to the maximum. */ if ((dat_datctl.control & CTL_ALLCAPTURES) != 0) { uint32_t maxcapcount; if (pattern_info(PCRE2_INFO_CAPTURECOUNT, &maxcapcount, FALSE) < 0) return PR_SKIP; capcount = maxcapcount + 1; /* Allow for full match */ if (capcount > (int)oveccount) capcount = oveccount; } /* Output the captured substrings. Note that, for the matched string, the use of \K in an assertion can make the start later than the end. */ for (i = 0; i < 2*capcount; i += 2) { PCRE2_SIZE lleft, lmiddle, lright; PCRE2_SIZE start = ovector[i]; PCRE2_SIZE end = ovector[i+1]; if (start > end) { start = ovector[i+1]; end = ovector[i]; fprintf(outfile, "Start of matched string is beyond its end - " "displaying from end to start.\n"); } fprintf(outfile, "%2d: ", i/2); /* Check for an unset group */ if (start == PCRE2_UNSET) { fprintf(outfile, "\n"); continue; } /* Check for silly offsets, in particular, values that have not been set when they should have been. */ if (start > ulen || end > ulen) { fprintf(outfile, "ERROR: bad value(s) for offset(s): 0x%lx 0x%lx\n", start, end); continue; } /* When JIT is not being used, ALLUSEDTEXT may be set. (It if is set with JIT, it is disabled above, with a comment.) When the match is done by the interpreter, leftchar and rightchar are available, and if ALLUSEDTEXT is set, and if the leftmost consulted character is before the start of the match or the rightmost consulted character is past the end of the match, we want to show all consulted characters for the main matched string, and indicate which were lookarounds. */ if (i == 0) { BOOL showallused; PCRE2_SIZE leftchar, rightchar; if ((dat_datctl.control & CTL_ALLUSEDTEXT) != 0) { leftchar = FLD(match_data, leftchar); rightchar = FLD(match_data, rightchar); showallused = i == 0 && (leftchar < start || rightchar > end); } else showallused = FALSE; if (showallused) { PCHARS(lleft, pp, leftchar, start - leftchar, utf, outfile); PCHARS(lmiddle, pp, start, end - start, utf, outfile); PCHARS(lright, pp, end, rightchar - end, utf, outfile); if ((pat_patctl.control & CTL_JITVERIFY) != 0 && jit_was_used) fprintf(outfile, " (JIT)"); fprintf(outfile, "\n "); for (j = 0; j < lleft; j++) fprintf(outfile, "<"); for (j = 0; j < lmiddle; j++) fprintf(outfile, " "); for (j = 0; j < lright; j++) fprintf(outfile, ">"); } /* When a pattern contains \K, the start of match position may be different to the start of the matched string. When this is the case, show it when requested. */ else if ((dat_datctl.control & CTL_STARTCHAR) != 0) { PCRE2_SIZE startchar; PCRE2_GET_STARTCHAR(startchar, match_data); PCHARS(lleft, pp, startchar, start - startchar, utf, outfile); PCHARSV(pp, start, end - start, utf, outfile); if ((pat_patctl.control & CTL_JITVERIFY) != 0 && jit_was_used) fprintf(outfile, " (JIT)"); if (startchar != start) { fprintf(outfile, "\n "); for (j = 0; j < lleft; j++) fprintf(outfile, "^"); } } /* Otherwise, just show the matched string. */ else { PCHARSV(pp, start, end - start, utf, outfile); if ((pat_patctl.control & CTL_JITVERIFY) != 0 && jit_was_used) fprintf(outfile, " (JIT)"); } } /* Not the main matched string. Just show it unadorned. */ else { PCHARSV(pp, start, end - start, utf, outfile); } fprintf(outfile, "\n"); /* Note: don't use the start/end variables here because we want to show the text from what is reported as the end. */ if ((dat_datctl.control & CTL_ALLAFTERTEXT) != 0 || (i == 0 && (dat_datctl.control & CTL_AFTERTEXT) != 0)) { fprintf(outfile, "%2d+ ", i/2); PCHARSV(pp, ovector[i+1], ulen - ovector[i+1], utf, outfile); fprintf(outfile, "\n"); } } /* Output (*MARK) data if requested */ if ((dat_datctl.control & CTL_MARK) != 0 && TESTFLD(match_data, mark, !=, NULL)) { fprintf(outfile, "MK: "); PCHARSV(CASTFLD(void *, match_data, mark), 0, -1, utf, outfile); fprintf(outfile, "\n"); } /* Process copy/get strings */ copy_and_get(utf, capcount); } /* End of handling a successful match */ /* There was a partial match. The value of ovector[0] is the bumpalong point, that is, startchar, not any \K point that might have been passed. */ else if (capcount == PCRE2_ERROR_PARTIAL) { PCRE2_SIZE poffset; int backlength; int rubriclength = 0; fprintf(outfile, "Partial match"); if ((dat_datctl.control & CTL_MARK) != 0 && TESTFLD(match_data, mark, !=, NULL)) { fprintf(outfile, ", mark="); PCHARS(rubriclength, CASTFLD(void *, match_data, mark), 0, -1, utf, outfile); rubriclength += 7; } fprintf(outfile, ": "); rubriclength += 15; poffset = backchars(pp, ovector[0], maxlookbehind, utf); PCHARS(backlength, pp, poffset, ovector[0] - poffset, utf, outfile); PCHARSV(pp, ovector[0], ulen - ovector[0], utf, outfile); if ((pat_patctl.control & CTL_JITVERIFY) != 0 && jit_was_used) fprintf(outfile, " (JIT)"); fprintf(outfile, "\n"); if (backlength != 0) { int i; for (i = 0; i < rubriclength; i++) fprintf(outfile, " "); for (i = 0; i < backlength; i++) fprintf(outfile, "<"); fprintf(outfile, "\n"); } /* Process copy/get strings */ copy_and_get(utf, 1); break; /* Out of the /g loop */ } /* End of handling partial match */ /* Failed to match. If this is a /g or /G loop, we might previously have set g_notempty (to PCRE2_NOTEMPTY_ATSTART|PCRE2_ANCHORED) after a null match. If that is the case, this is not necessarily the end. We want to advance the start offset, and continue. We won't be at the end of the string - that was checked before setting g_notempty. We achieve the effect by pretending that a single character was matched. Complication arises in the case when the newline convention is "any", "crlf", or "anycrlf". If the previous match was at the end of a line terminated by CRLF, an advance of one character just passes the CR, whereas we should prefer the longer newline sequence, as does the code in pcre2_match(). Otherwise, in the case of UTF-8 or UTF-16 matching, the advance must be one character, not one byte. */ else if (g_notempty != 0) /* There was a previous null match */ { uint16_t nl = FLD(compiled_code, newline_convention); PCRE2_SIZE start_offset = dat_datctl.offset; /* Where the match was */ PCRE2_SIZE end_offset = start_offset + 1; if ((nl == PCRE2_NEWLINE_CRLF || nl == PCRE2_NEWLINE_ANY || nl == PCRE2_NEWLINE_ANYCRLF) && start_offset < ulen - 1 && CODE_UNIT(pp, start_offset) == '\r' && CODE_UNIT(pp, end_offset) == '\n') end_offset++; else if (utf && test_mode != PCRE32_MODE) { if (test_mode == PCRE8_MODE) { for (; end_offset < ulen; end_offset++) if ((((PCRE2_SPTR8)pp)[end_offset] & 0xc0) != 0x80) break; } else /* 16-bit mode */ { for (; end_offset < ulen; end_offset++) if ((((PCRE2_SPTR16)pp)[end_offset] & 0xfc00) != 0xdc00) break; } } SETFLDVEC(match_data, ovector, 0, start_offset); SETFLDVEC(match_data, ovector, 1, end_offset); } /* End of handling null match in a global loop */ /* A "normal" match failure. There will be a negative error number in capcount. */ else { int mlen; switch(capcount) { case PCRE2_ERROR_NOMATCH: if (gmatched == 0) { fprintf(outfile, "No match"); if ((dat_datctl.control & CTL_MARK) != 0 && TESTFLD(match_data, mark, !=, NULL)) { fprintf(outfile, ", mark = "); PCHARSV(CASTFLD(void *, match_data, mark), 0, -1, utf, outfile); } if ((pat_patctl.control & CTL_JITVERIFY) != 0 && jit_was_used) fprintf(outfile, " (JIT)"); fprintf(outfile, "\n"); } break; case PCRE2_ERROR_BADUTFOFFSET: fprintf(outfile, "Error %d (bad UTF-%d offset)\n", capcount, test_mode); break; default: fprintf(outfile, "Failed: error %d: ", capcount); PCRE2_GET_ERROR_MESSAGE(mlen, capcount, pbuffer); PCHARSV(CASTVAR(void *, pbuffer), 0, mlen, FALSE, outfile); if (capcount <= PCRE2_ERROR_UTF8_ERR1 && capcount >= PCRE2_ERROR_UTF32_ERR2) { PCRE2_SIZE startchar; PCRE2_GET_STARTCHAR(startchar, match_data); fprintf(outfile, " at offset %ld", startchar); } fprintf(outfile, "\n"); break; } break; /* Out of the /g loop */ } /* End of failed match handling */ /* Control reaches here in two circumstances: (a) after a match, and (b) after a non-match that immediately followed a match on an empty string when doing a global search. Such a match is done with PCRE2_NOTEMPTY_ATSTART and PCRE2_ANCHORED set in g_notempty. The code above turns it into a fake match of one character. So effectively we get here only after a match. If we are not doing a global search, we are done. */ if ((dat_datctl.control & CTL_ANYGLOB) == 0) break; else { PCRE2_SIZE end_offset = FLD(match_data, ovector)[1]; /* We must now set up for the next iteration of a global search. If we have matched an empty string, first check to see if we are at the end of the subject. If so, the loop is over. Otherwise, mimic what Perl's /g option does. Set PCRE2_NOTEMPTY_ATSTART and PCRE2_ANCHORED and try the match again at the same point. If this fails it will be picked up above, where a fake match is set up so that at this point we advance to the next character. */ if (FLD(match_data, ovector)[0] == end_offset) { if (end_offset == ulen) break; /* End of subject */ g_notempty = PCRE2_NOTEMPTY_ATSTART | PCRE2_ANCHORED; } else g_notempty = 0; /* For /g, update the start offset, leaving the rest alone */ if ((dat_datctl.control & CTL_GLOBAL) != 0) dat_datctl.offset = end_offset; /* For /G, update the pointer and length */ else { pp += end_offset * code_unit_size; len -= end_offset * code_unit_size; ulen -= end_offset; } } } /* End of global loop */ show_memory = FALSE; return PR_OK; } /************************************************* * Print PCRE2 version * *************************************************/ static void print_version(FILE *f) { VERSION_TYPE *vp; fprintf(f, "PCRE2 version "); for (vp = version; *vp != 0; vp++) fprintf(f, "%c", *vp); fprintf(f, "\n"); } /************************************************* * Print Unicode version * *************************************************/ static void print_unicode_version(FILE *f) { VERSION_TYPE *vp; fprintf(f, "Unicode version "); for (vp = uversion; *vp != 0; vp++) fprintf(f, "%c", *vp); } /************************************************* * Print JIT target * *************************************************/ static void print_jit_target(FILE *f) { VERSION_TYPE *vp; for (vp = jittarget; *vp != 0; vp++) fprintf(f, "%c", *vp); } /************************************************* * Print newline configuration * *************************************************/ /* Output is always to stdout. Arguments: rc the return code from PCRE2_CONFIG_NEWLINE isc TRUE if called from "-C newline" Returns: nothing */ static void print_newline_config(uint32_t optval, BOOL isc) { if (!isc) printf(" Newline sequence is "); if (optval < sizeof(newlines)/sizeof(char *)) printf("%s\n", newlines[optval]); else printf("a non-standard value: %d\n", optval); } /************************************************* * Usage function * *************************************************/ static void usage(void) { printf("Usage: pcre2test [options] [ []]\n\n"); printf("Input and output default to stdin and stdout.\n"); #if defined(SUPPORT_LIBREADLINE) || defined(SUPPORT_LIBEDIT) printf("If input is a terminal, readline() is used to read from it.\n"); #else printf("This version of pcre2test is not linked with readline().\n"); #endif printf("\nOptions:\n"); #ifdef SUPPORT_PCRE2_8 printf(" -8 use the 8-bit library\n"); #endif #ifdef SUPPORT_PCRE2_16 printf(" -16 use the 16-bit library\n"); #endif #ifdef SUPPORT_PCRE2_32 printf(" -32 use the 32-bit library\n"); #endif printf(" -b set default pattern control 'fullbincode'\n"); printf(" -C show PCRE2 compile-time options and exit\n"); printf(" -C arg show a specific compile-time option and exit with its\n"); printf(" value if numeric (else 0). The arg can be:\n"); printf(" bsr \\R type [ANYCRLF, ANY]\n"); printf(" ebcdic compiled for EBCDIC character code [0,1]\n"); printf(" ebcdic-nl NL code if compiled for EBCDIC\n"); printf(" jit just-in-time compiler supported [0, 1]\n"); printf(" linksize internal link size [2, 3, 4]\n"); printf(" newline newline type [CR, LF, CRLF, ANYCRLF, ANY]\n"); printf(" pcre2-8 8 bit library support enabled [0, 1]\n"); printf(" pcre2-16 16 bit library support enabled [0, 1]\n"); printf(" pcre2-32 32 bit library support enabled [0, 1]\n"); printf(" unicode Unicode and UTF support enabled [0, 1]\n"); printf(" -d set default pattern control 'debug'\n"); printf(" -dfa set default subject control 'dfa'\n"); printf(" -help show usage information\n"); printf(" -i set default pattern control 'info'\n"); printf(" -jit set default pattern control 'jit'\n"); printf(" -q quiet: do not output PCRE2 version number at start\n"); printf(" -pattern set default pattern control fields\n"); printf(" -subject set default subject control fields\n"); printf(" -S set stack size to megabytes\n"); printf(" -t [] time compilation and execution, repeating times\n"); printf(" -tm [] time execution (matching) only, repeating times\n"); printf(" -T same as -t, but show total times at the end\n"); printf(" -TM same as -tm, but show total time at the end\n"); printf(" -version show PCRE2 version and exit\n"); } /************************************************* * Handle -C option * *************************************************/ /* This option outputs configuration options and sets an appropriate return code when asked for a single option. The code is abstracted into a separate function because of its size. Use whichever pcre2_config() function is available. Argument: an option name or NULL Returns: the return code */ static int c_option(const char *arg) { uint32_t optval; int yield = 0; if (arg != NULL) { unsigned int i; for (i = 0; i < COPTLISTCOUNT; i++) if (strcmp(arg, coptlist[i].name) == 0) break; if (i >= COPTLISTCOUNT) { fprintf(stderr, "** Unknown -C option '%s'\n", arg); return -1; } switch (coptlist[i].type) { case CONF_BSR: (void)PCRE2_CONFIG(coptlist[i].value, &optval); printf("%s\n", optval? "ANYCRLF" : "ANY"); break; case CONF_FIX: yield = coptlist[i].value; printf("%d\n", yield); break; case CONF_FIZ: optval = coptlist[i].value; printf("%d\n", optval); break; case CONF_INT: (void)PCRE2_CONFIG(coptlist[i].value, &yield); printf("%d\n", yield); break; case CONF_NL: (void)PCRE2_CONFIG(coptlist[i].value, &optval); print_newline_config(optval, TRUE); break; } /* For VMS, return the value by setting a symbol, for certain values only. */ #ifdef __VMS if (copytlist[i].type == CONF_FIX || coptlist[i].type == CONF_INT) { char ucname[16]; strcpy(ucname, coptlist[i].name); for (i = 0; ucname[i] != 0; i++) ucname[i] = toupper[ucname[i]; vms_setsymbol(ucname, 0, optval); } #endif return yield; } /* No argument for -C: output all configuration information. */ print_version(stdout); printf("Compiled with\n"); #ifdef EBCDIC printf(" EBCDIC code support: LF is 0x%02x\n", CHAR_LF); #endif #ifdef SUPPORT_PCRE2_8 printf(" 8-bit support\n"); #endif #ifdef SUPPORT_PCRE2_16 printf(" 16-bit support\n"); #endif #ifdef SUPPORT_PCRE2_32 printf(" 32-bit support\n"); #endif (void)PCRE2_CONFIG(PCRE2_CONFIG_UNICODE, &optval); if (optval != 0) { printf(" UTF and UCP support ("); print_unicode_version(stdout); printf(")\n"); } else printf(" No Unicode support\n"); (void)PCRE2_CONFIG(PCRE2_CONFIG_JIT, &optval); if (optval != 0) { printf(" Just-in-time compiler support: "); print_jit_target(stdout); printf("\n"); } else { printf(" No just-in-time compiler support\n"); } (void)PCRE2_CONFIG(PCRE2_CONFIG_NEWLINE, &optval); print_newline_config(optval, FALSE); (void)PCRE2_CONFIG(PCRE2_CONFIG_BSR, &optval); printf(" \\R matches %s\n", optval? "CR, LF, or CRLF only" : "all Unicode newlines"); (void)PCRE2_CONFIG(PCRE2_CONFIG_LINKSIZE, &optval); printf(" Internal link size = %d\n", optval); (void)PCRE2_CONFIG(PCRE2_CONFIG_PARENSLIMIT, &optval); printf(" Parentheses nest limit = %d\n", optval); (void)PCRE2_CONFIG(PCRE2_CONFIG_MATCHLIMIT, &optval); printf(" Default match limit = %d\n", optval); (void)PCRE2_CONFIG(PCRE2_CONFIG_RECURSIONLIMIT, &optval); printf(" Default recursion depth limit = %d\n", optval); (void)PCRE2_CONFIG(PCRE2_CONFIG_STACKRECURSE, &optval); printf(" Match recursion uses %s", optval? "stack" : "heap"); printf("\n"); return 0; } /************************************************* * Main Program * *************************************************/ int main(int argc, char **argv) { uint32_t yield = 0; uint32_t op = 1; uint32_t stack_size; BOOL notdone = TRUE; BOOL quiet = FALSE; BOOL showtotaltimes = FALSE; BOOL skipping = FALSE; char *arg_subject = NULL; char *arg_pattern = NULL; /* The offsets to the options and control bits fields of the pattern and data control blocks must be the same so that common options and controls such as "anchored" or "memory" can work for either of them from a single table entry. We cannot test this till runtime because "offsetof" does not work in the preprocessor. */ if (PO(options) != DO(options) || PO(control) != DO(control)) { fprintf(stderr, "** Coding error: " "options and control offsets for pattern and data must be the same.\n"); return 1; } /* Get the PCRE2 and Unicode version number and JIT target information, at the same time checking that a request for the length gives the same answer. Also check lengths for non-string items. */ if (PCRE2_CONFIG(PCRE2_CONFIG_VERSION, NULL) != PCRE2_CONFIG(PCRE2_CONFIG_VERSION, version) || PCRE2_CONFIG(PCRE2_CONFIG_UNICODE_VERSION, NULL) != PCRE2_CONFIG(PCRE2_CONFIG_UNICODE_VERSION, uversion) || PCRE2_CONFIG(PCRE2_CONFIG_JITTARGET, NULL) != PCRE2_CONFIG(PCRE2_CONFIG_JITTARGET, jittarget) || PCRE2_CONFIG(PCRE2_CONFIG_UNICODE, NULL) != sizeof(uint32_t) || PCRE2_CONFIG(PCRE2_CONFIG_MATCHLIMIT, NULL) != sizeof(uint32_t)) { fprintf(stderr, "** Error in pcre2_config(): bad length\n"); return 1; } /* Get buffers from malloc() so that valgrind will check their misuse when debugging. They grow automatically when very long lines are read. The 16- and 32-bit buffers (pbuffer16, pbuffer32) are obtained only if needed. */ buffer = (uint8_t *)malloc(pbuffer8_size); pbuffer8 = (uint8_t *)malloc(pbuffer8_size); /* The following _setmode() stuff is some Windows magic that tells its runtime library to translate CRLF into a single LF character. At least, that's what I've been told: never having used Windows I take this all on trust. Originally it set 0x8000, but then I was advised that _O_BINARY was better. */ #if defined(_WIN32) || defined(WIN32) _setmode( _fileno( stdout ), _O_BINARY ); #endif /* Initialization that does not depend on the running mode. */ locale_name[0] = 0; memset(&def_patctl, 0, sizeof(patctl)); memset(&def_datctl, 0, sizeof(datctl)); def_datctl.oveccount = DEFAULT_OVECCOUNT; def_datctl.copy_numbers[0] = -1; def_datctl.get_numbers[0] = -1; def_datctl.cfail[0] = def_datctl.cfail[1] = CFAIL_UNSET; /* Scan command line options. */ while (argc > 1 && argv[op][0] == '-' && argv[op][1] != 0) { const char *endptr; char *arg = argv[op]; /* Display and/or set return code for configuration options. */ if (strcmp(arg, "-C") == 0) { yield = c_option(argv[op + 1]); goto EXIT; } /* Select operating mode */ if (strcmp(arg, "-8") == 0) { #ifdef SUPPORT_PCRE2_8 test_mode = PCRE8_MODE; #else fprintf(stderr, "** This version of PCRE2 was built without 8-bit support\n"); exit(1); #endif } else if (strcmp(arg, "-16") == 0) { #ifdef SUPPORT_PCRE2_16 test_mode = PCRE16_MODE; #else fprintf(stderr, "** This version of PCRE2 was built without 16-bit support\n"); exit(1); #endif } else if (strcmp(arg, "-32") == 0) { #ifdef SUPPORT_PCRE2_32 test_mode = PCRE32_MODE; #else fprintf(stderr, "** This version of PCRE2 was built without 32-bit support\n"); exit(1); #endif } /* Set quiet (no version verification) */ else if (strcmp(arg, "-q") == 0) quiet = TRUE; /* Set system stack size */ else if (strcmp(arg, "-S") == 0 && argc > 2 && ((stack_size = get_value(argv[op+1], &endptr)), *endptr == 0)) { #if defined(_WIN32) || defined(WIN32) || defined(__minix) || defined(NATIVE_ZOS) || defined(__VMS) fprintf(stderr, "pcre2test: -S is not supported on this OS\n"); exit(1); #else int rc; struct rlimit rlim; getrlimit(RLIMIT_STACK, &rlim); rlim.rlim_cur = stack_size * 1024 * 1024; rc = setrlimit(RLIMIT_STACK, &rlim); if (rc != 0) { fprintf(stderr, "pcre2test: setrlimit() failed with error %d\n", rc); exit(1); } op++; argc--; #endif } /* Set some common pattern and subject controls */ else if (strcmp(arg, "-dfa") == 0) def_datctl.control |= CTL_DFA; else if (strcmp(arg, "-b") == 0) def_patctl.control |= CTL_FULLBINCODE; else if (strcmp(arg, "-d") == 0) def_patctl.control |= CTL_DEBUG; else if (strcmp(arg, "-i") == 0) def_patctl.control |= CTL_INFO; else if (strcmp(arg, "-jit") == 0) { def_patctl.jit = 7; /* full & partial */ #ifndef SUPPORT_JIT fprintf(stderr, "** Warning: JIT support is not available: " "-jit calls functions that do nothing.\n"); #endif } /* Set timing parameters */ else if (strcmp(arg, "-t") == 0 || strcmp(arg, "-tm") == 0 || strcmp(arg, "-T") == 0 || strcmp(arg, "-TM") == 0) { int temp; int both = arg[2] == 0; showtotaltimes = arg[1] == 'T'; if (argc > 2 && (temp = get_value(argv[op+1], &endptr), *endptr == 0)) { timeitm = temp; op++; argc--; } else timeitm = LOOPREPEAT; if (both) timeit = timeitm; } /* Give help */ else if (strcmp(arg, "-help") == 0 || strcmp(arg, "--help") == 0) { usage(); goto EXIT; } /* Show version */ else if (strcmp(arg, "-version") == 0 || strcmp(arg, "--version") == 0) { print_version(stdout); goto EXIT; } /* The following options save their data for processing once we know what the running mode is. */ else if (strcmp(arg, "-subject") == 0) { arg_subject = argv[op+1]; goto CHECK_VALUE_EXISTS; } else if (strcmp(arg, "-pattern") == 0) { arg_pattern = argv[op+1]; CHECK_VALUE_EXISTS: if (argc <= 2) { fprintf(stderr, "** Missing value for %s\n", arg); yield = 1; goto EXIT; } op++; argc--; } /* Unrecognized option */ else { fprintf(stderr, "** Unknown or malformed option '%s'\n", arg); usage(); yield = 1; goto EXIT; } op++; argc--; } /* Initialize things that cannot be done until we know which test mode we are running in. When HEAP_MATCH_RECURSE is undefined, calling pcre2_set_recursion_ memory_management() is a no-op, but we call it in order to exercise it. Also exercise the general context copying function, which is not otherwise used. */ code_unit_size = test_mode/8; max_oveccount = DEFAULT_OVECCOUNT; /* Use macros to save a lot of duplication. */ #define CREATECONTEXTS \ G(general_context,BITS) = G(pcre2_general_context_create_,BITS)(&my_malloc, &my_free, NULL); \ G(general_context_copy,BITS) = G(pcre2_general_context_copy_,BITS)(G(general_context,BITS)); \ G(default_pat_context,BITS) = G(pcre2_compile_context_create_,BITS)(G(general_context,BITS)); \ G(pat_context,BITS) = G(pcre2_compile_context_copy_,BITS)(G(default_pat_context,BITS)); \ G(default_dat_context,BITS) = G(pcre2_match_context_create_,BITS)(G(general_context,BITS)); \ G(dat_context,BITS) = G(pcre2_match_context_copy_,BITS)(G(default_dat_context,BITS)); \ G(match_data,BITS) = G(pcre2_match_data_create_,BITS)(max_oveccount, G(general_context,BITS)) #ifdef HEAP_MATCH_RECURSE #define SETRECURSEMEMMAN \ (void)G(pcre2_set_recursion_memory_management_,BITS) \ (G(default_dat_context,BITS), \ &my_stack_malloc, &my_stack_free, NULL) #else #define SETRECURSEMEMMAN \ (void)G(pcre2_set_recursion_memory_management_,BITS)(NULL, NULL, NULL, NULL) #endif /* Call the appropriate functions for the current mode. */ #ifdef SUPPORT_PCRE2_8 #undef BITS #define BITS 8 if (test_mode == PCRE8_MODE) { CREATECONTEXTS; SETRECURSEMEMMAN; } #endif #ifdef SUPPORT_PCRE2_16 #undef BITS #define BITS 16 if (test_mode == PCRE16_MODE) { CREATECONTEXTS; SETRECURSEMEMMAN; } #endif #ifdef SUPPORT_PCRE2_32 #undef BITS #define BITS 32 if (test_mode == PCRE32_MODE) { CREATECONTEXTS; SETRECURSEMEMMAN; } #endif /* Set a default parentheses nest limit that is large enough to run the standard tests (this also exercises the function). */ PCRE2_SET_PARENS_NEST_LIMIT(default_pat_context, 220); /* Handle command line modifier settings, sending any error messages to stderr. We need to know the mode before modifying the context, and it is tidier to do them all in the same way. */ outfile = stderr; if ((arg_pattern != NULL && !decode_modifiers((uint8_t *)arg_pattern, CTX_DEFPAT, &def_patctl, NULL)) || (arg_subject != NULL && !decode_modifiers((uint8_t *)arg_subject, CTX_DEFDAT, NULL, &def_datctl))) { yield = 1; goto EXIT; } /* Sort out the input and output files, defaulting to stdin/stdout. */ infile = stdin; outfile = stdout; if (argc > 1 && strcmp(argv[op], "-") != 0) { infile = fopen(argv[op], INPUT_MODE); if (infile == NULL) { printf("** Failed to open %s\n", argv[op]); yield = 1; goto EXIT; } } if (argc > 2) { outfile = fopen(argv[op+1], OUTPUT_MODE); if (outfile == NULL) { printf("** Failed to open %s\n", argv[op+1]); yield = 1; goto EXIT; } } /* Output a heading line unless quiet, then process input lines. */ if (!quiet) print_version(outfile); SET(compiled_code, NULL); #ifdef SUPPORT_PCRE2_8 preg.re_pcre2_code = NULL; preg.re_match_data = NULL; #endif while (notdone) { uint8_t *p; int rc = PR_OK; BOOL expectdata = TEST(compiled_code, !=, NULL); #ifdef SUPPORT_PCRE2_8 expectdata |= preg.re_pcre2_code != NULL; #endif if (extend_inputline(infile, buffer, expectdata? "data> " : " re> ") == NULL) break; if (!INTERACTIVE(infile)) fprintf(outfile, "%s", (char *)buffer); fflush(outfile); p = buffer; /* If we have a pattern set up for testing, or we are skipping after a compile failure, a blank line terminates this test; otherwise process the line as a data line. */ if (expectdata || skipping) { while (isspace(*p)) p++; if (*p == 0) { #ifdef SUPPORT_PCRE2_8 if (preg.re_pcre2_code != NULL) { regfree(&preg); preg.re_pcre2_code = NULL; preg.re_match_data = NULL; } #endif /* SUPPORT_PCRE2_8 */ if (TEST(compiled_code, !=, NULL)) { SUB1(pcre2_code_free, compiled_code); SET(compiled_code, NULL); } skipping = FALSE; setlocale(LC_CTYPE, "C"); } else if (!skipping) rc = process_data(); } /* We do not have a pattern set up for testing. Lines starting with # are either comments or special commands. Blank lines are ignored. Otherwise, the line must start with a valid delimiter. It is then processed as a pattern line. */ else if (*p == '#') { if (isspace(p[1]) || p[1] == '!' || p[1] == 0) continue; rc = process_command(); } else if (strchr("/!\"'`%&-=_:;,@~", *p) != NULL) { rc = process_pattern(); dfa_matched = 0; } else { while (isspace(*p)) p++; if (*p != 0) { fprintf(outfile, "** Invalid pattern delimiter '%c' (x%x).\n", *buffer, *buffer); rc = PR_SKIP; } } if (rc == PR_SKIP && !INTERACTIVE(infile)) skipping = TRUE; else if (rc == PR_ABEND) { fprintf(outfile, "** pcre2test run abandoned\n"); yield = 1; goto EXIT; } } /* Finish off a normal run. */ if (INTERACTIVE(infile)) fprintf(outfile, "\n"); if (showtotaltimes) { const char *pad = ""; fprintf(outfile, "--------------------------------------\n"); if (timeit > 0) { fprintf(outfile, "Total compile time %.4f milliseconds\n", (((double)total_compile_time * 1000.0) / (double)timeit) / (double)CLOCKS_PER_SEC); if (total_jit_compile_time > 0) fprintf(outfile, "Total JIT compile %.4f milliseconds\n", (((double)total_jit_compile_time * 1000.0) / (double)timeit) / (double)CLOCKS_PER_SEC); pad = " "; } fprintf(outfile, "Total match time %s%.4f milliseconds\n", pad, (((double)total_match_time * 1000.0) / (double)timeitm) / (double)CLOCKS_PER_SEC); } EXIT: if (infile != NULL && infile != stdin) fclose(infile); if (outfile != NULL && outfile != stdout) fclose(outfile); free(buffer); free(dbuffer); free(pbuffer8); free(dfa_workspace); free((void *)locale_tables); PCRE2_MATCH_DATA_FREE(match_data); SUB1(pcre2_code_free, compiled_code); PCRE2_JIT_FREE_UNUSED_MEMORY(general_context); if (jit_stack != NULL) { PCRE2_JIT_STACK_FREE(jit_stack); } #define FREECONTEXTS \ G(pcre2_general_context_free_,BITS)(G(general_context,BITS)); \ G(pcre2_general_context_free_,BITS)(G(general_context_copy,BITS)); \ G(pcre2_compile_context_free_,BITS)(G(pat_context,BITS)); \ G(pcre2_compile_context_free_,BITS)(G(default_pat_context,BITS)); \ G(pcre2_match_context_free_,BITS)(G(dat_context,BITS)); \ G(pcre2_match_context_free_,BITS)(G(default_dat_context,BITS)) #ifdef SUPPORT_PCRE2_8 #undef BITS #define BITS 8 regfree(&preg); FREECONTEXTS; #endif #ifdef SUPPORT_PCRE2_16 #undef BITS #define BITS 16 free(pbuffer16); FREECONTEXTS; #endif #ifdef SUPPORT_PCRE2_32 #undef BITS #define BITS 32 free(pbuffer32); FREECONTEXTS; #endif #if defined(__VMS) yield = SS$_NORMAL; /* Return values via DCL symbols */ #endif return yield; } /* End of pcre2test.c */