#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "exitcodes.h" #include "tpool.h" #include "work.h" #define MAIN_C 1 #include "flags.h" static bool use_color_p(void); static op_t *pattern_comp(u8view_t pat); #if GIT_GRAB static FILE *getfstream(int globc, char **globv); #endif atomic_int rv = EXIT_NOMATCH; op_t *ops; /* For use in diagnostic messages */ const char *lquot = "`", *rquot = "'"; /* We need to use different matching functions depending on if we’re using JIT matching or not */ typeof(pcre2_match) *pcre2_match_fn; static char emsg[256]; /* Buffer for PCRE2 error messages */ /* TODO: Use the LUT in work.c */ static const bool opchars[] = { ['g'] = true, ['G'] = true, ['h'] = true, ['H'] = true, ['x'] = true, ['X'] = true, }; int main(int argc, char **argv) { mlib_setprogname(argv[0]); /* TODO: Can we test this in an OpenBSD VM? */ #if 0 && defined(__OpenBSD__) const char *promises = #if GIT_GRAB "stdio rpath prot exec"; #else "stdio rpath"; #endif if (pledge("stdio rpath", NULL) == -1) cerr(EXIT_FATAL, "pledge:"); #endif setlocale(LC_ALL, ""); if (streq(nl_langinfo(CODESET), "UTF-8")) { lquot = u8"‘"; rquot = u8"’"; } optparser_t parser = mkoptparser(argv); static const cli_opt_t opts[] = { {'c', U8C("color"), CLI_NONE}, {'h', U8C("help"), CLI_NONE}, {'i', U8C("ignore-case"), CLI_NONE}, {'l', U8C("line"), CLI_NONE}, {'p', U8C("predicate"), CLI_NONE}, {'s', U8C("strip-newline"), CLI_NONE}, {'U', U8C("no-unicode"), CLI_NONE}, {'z', U8C("zero"), CLI_NONE}, }; for (;;) { rune opt = optparse(&parser, opts, lengthof(opts)); if (opt == 0) break; switch (opt) { case 'c': flags.c = true; break; case 'h': execlp("man", "man", "1", mlib_progname(), nullptr); err("execlp: man 1 %s:", mlib_progname()); case 'i': flags.i = true; break; case 'l': flags.l = true; break; case 'p': flags.p = true; break; case 's': flags.s = true; break; case 'U': flags.U = true; break; case 'z': flags.z = true; break; case -1: warn(parser.errmsg); goto usage; } } if (flags.p && flags.s) { warn("-p and -s are mutually exclusive"); goto usage; } if (flags.p && flags.z) { warn("-p and -z are mutually exclusive"); goto usage; } if (flags.s && flags.z) { warn("-s and -z are mutually exclusive"); goto usage; } argc -= parser.optind; argv += parser.optind; if (argc == 0) { usage: usage("[-p | -s | -z] [-cilU] pattern [file ...]", "-h"); exit(EXIT_FATAL); } flags.c = flags.c || use_color_p(); ops = pattern_comp((u8view_t){*argv, strlen(*argv)}); allocator_t mem = init_heap_allocator(nullptr); #if GIT_GRAB argc--; argv++; FILE *fstream = getfstream(argc, argv); if (fstream == nullptr) cerr(EXIT_FATAL, "getfstream:"); const char **filenames = array_new(mem, typeof(*filenames), 1024); size_t len; ssize_t nr; char *file = nullptr; while ((nr = getdelim(&file, &len, 0, fstream)) != -1) { /* TODO: Would an arena improve performance? */ const char *s = strdup(file); if (s == nullptr) cerr(EXIT_FATAL, "strdup:"); array_push(&filenames, s); } if (ferror(fstream)) cerr(EXIT_FATAL, "getdelim:"); (void)fclose(fstream); #else if (argc == 1) argv = (static char *[]){"-"}; else { argc--; argv++; flags.do_header = true; } #endif tpool_t tp; int thrds = tpinit(&tp, #if GIT_GRAB filenames, array_len(filenames) #else (const char **)argv, argc #endif ); /* Failed to spawn threads */ if (thrds == 0) { unsigned char *buf = array_new(mem, typeof(*buf), 4096); for (int i = 0; i < argc; i++) { process_file(argv[i], &buf); fwrite(buf, 1, array_len(buf), stdout); array_hdr(buf)->len = 0; } #if DEBUG array_free(buf); #endif } if (thrds != 0) tpfree(&tp); #if DEBUG pcre2_jit_free_unused_memory(nullptr); array_foreach (ops, op) { if (op->free_me) pcre2_code_free(op->re); } array_free(ops); #if GIT_GRAB free(file); array_foreach (filenames, f) free((void *)*f); array_free(filenames); #endif #endif return rv; } op_t * pattern_comp(u8view_t pat) { allocator_t mem = init_heap_allocator(nullptr); op_t *ops = array_new(mem, op_t, 16); for (;;) { int w; rune ch; while ((w = ucsnext(&ch, &pat)) != 0) { if (!uprop_is_pat_ws(ch)) { VSHFT(&pat, -w); break; } } if (pat.len == 0) break; /* Grab the operator. We grab the entire next grapheme for better error messages in the case that someone tries to use a non-ASCII grapheme as an operator for whatever reason. */ op_t op; u8view_t g; (void)ucsgnext(&g, &pat); if (g.len != 1 || *g.p >= lengthof(opchars) || !opchars[*g.p]) { cerr(EXIT_FATAL, "Invalid operator %s%.*s%s", lquot, SV_PRI_ARGS(g), rquot); } op.c = (char)*g.p; /* Unlike with the operator, we parse the delimeter as a rune instead of a grapheme. This makes it easier for users to write patterns that match combining characters. This _may_ be subject to change in the future but for now this is the rationale. Alongside standard delimeters, if the opening delimeter is a bracket or some other form of paired-bracket (as determined by Unicode) then the closing delimeter is set to the right-hand form of the bracket. This means that the following are both valid delimeted patterns: /regex/ 「regex」 */ rune ldelim, rdelim; if ((w = ucsnext(&ldelim, &pat)) == 0) cerr(EXIT_FATAL, "Premature end of pattern"); rdelim = uprop_get_bpb(ldelim); /* Find the right delimeter, which is optional for the last operator */ u8view_t re = {pat.p, -1}; while ((w = ucsnext(&ch, &pat)) != 0) { if (ch == rdelim) { re.len = pat.p - re.p - w; break; } } if (re.len == -1) re.len = pat.p - re.p; if (re.len == 0) { if (op.c != 'h') { cerr(EXIT_FATAL, "%s%c%s operator given empty regex", lquot, op.c, rquot); } if (array_len(ops) == 0) { cerr(EXIT_FATAL, "%sh%s operator given empty regex as the first operator", lquot, rquot); } op.re = ops[array_len(ops) - 1].re; #if DEBUG op.free_me = false; #endif } else { int ec; size_t eoff; uint32_t reopts = PCRE2_DOTALL | PCRE2_MATCH_INVALID_UTF | PCRE2_UTF; if (flags.i) reopts |= PCRE2_CASELESS; if (!flags.U) reopts |= PCRE2_UCP; op.re = pcre2_compile(re.p, re.len, reopts, &ec, &eoff, nullptr); if (op.re == nullptr) { /* TODO: Ensure the buffer is large enough for the error message */ (void)pcre2_get_error_message(ec, emsg, sizeof(emsg)); cerr(EXIT_FATAL, "Failed to compile regex: %s", emsg); } if ((ec = pcre2_jit_compile(op.re, PCRE2_JIT_COMPLETE)) != 0) { /* TODO: Ensure the buffer is large enough for the error message */ (void)pcre2_get_error_message(ec, emsg, sizeof(emsg)); warn("Failed to JIT compile regex: %s", emsg); rv = EXIT_WARNING; pcre2_match_fn = pcre2_match; } else pcre2_match_fn = pcre2_jit_match; #if DEBUG op.free_me = true; #endif } array_push(&ops, op); } if (array_len(ops) == 0) err("Empty pattern"); return ops; } bool use_color_p(void) { const char *ev = getenv("TERM"); if (ev != nullptr && streq(ev, "dumb")) return false; if ((ev = getenv("NO_COLOR")) != nullptr && *ev != 0) return false; if ((ev = getenv("CLICOLOR_FORCE")) != nullptr && *ev != 0) return true; return isatty(STDOUT_FILENO); } #if GIT_GRAB FILE * getfstream(int globc, char **globv) { pid_t pid; int fds[2]; enum { R, W }; if (pipe(fds) == 1) cerr(EXIT_FATAL, "pipe:"); switch (pid = fork()) { case -1: cerr(EXIT_FATAL, "fork:"); case 0: static const char *git_grep_argv[] = { "git", "grep", "-Ilz", "", }; close(fds[R]); if (dup2(fds[W], STDOUT_FILENO) == -1) cerr(EXIT_FATAL, "dup2:"); close(fds[W]); size_t argc = globc + lengthof(git_grep_argv) + 1; char **argv = malloc(argc * sizeof(char *)); if (argv == nullptr) cerr(EXIT_FATAL, "malloc:"); memcpy(argv, git_grep_argv, sizeof(git_grep_argv)); memcpy(argv + lengthof(git_grep_argv), globv, globc * sizeof(char *)); argv[argc - 1] = nullptr; execvp("git", argv); cerr(EXIT_FATAL, "execvp: git grep -Ilz '':"); } /* TODO: Can we test this in an OpenBSD VM? */ #if 0 && defined(__OpenBSD__) if (pledge("stdio rpath") == -1) cerr(EXIT_FATAL, "pledge:"); #endif close(fds[W]); return fdopen(fds[R], "r"); } #endif