/* * semind - semantic indexer for C. * * Copyright (C) 2020 Alexey Gladkov */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include "dissect.h" #define U_DEF (0x100 << U_SHIFT) #define SINDEX_DATABASE_VERSION 1 #define message(fmt, ...) semind_error(0, 0, (fmt), ##__VA_ARGS__) static const char *progname; static const char *semind_command = NULL; // common options static const char *semind_dbfile = "semind.sqlite"; static int semind_verbose = 0; static char cwd[PATH_MAX]; static size_t n_cwd; // 'add' command options static struct string_list *semind_filelist = NULL; static int semind_include_local_syms = 0; struct semind_streams { sqlite3_int64 id; }; static struct semind_streams *semind_streams = NULL; static int semind_streams_nr = 0; // 'search' command options static int semind_search_modmask; static int semind_search_modmask_defined = 0; static int semind_search_kind = 0; static char *semind_search_path = NULL; static char *semind_search_symbol = NULL; static const char *semind_search_format = "(%m) %f\t%l\t%c\t%C\t%s"; #define EXPLAIN_LOCATION 1 #define USAGE_BY_LOCATION 2 static int semind_search_by_location; static char *semind_search_filename; static int semind_search_line; static int semind_search_column; static sqlite3 *semind_db = NULL; static sqlite3_stmt *lock_stmt = NULL; static sqlite3_stmt *unlock_stmt = NULL; static sqlite3_stmt *insert_rec_stmt = NULL; static sqlite3_stmt *select_file_stmt = NULL; static sqlite3_stmt *insert_file_stmt = NULL; static sqlite3_stmt *delete_file_stmt = NULL; struct command { const char *name; int dbflags; void (*parse_cmdline)(int argc, char **argv); void (*handler)(int argc, char **argv); }; static void show_usage(void) { if (semind_command) printf("Try '%s %s --help' for more information.\n", progname, semind_command); else printf("Try '%s --help' for more information.\n", progname); exit(1); } static void show_help(int ret) { printf( "Usage: %1$s [options]\n" " or: %1$s [options] add [command options] [--] [compiler options] [files...]\n" " or: %1$s [options] rm [command options] pattern\n" " or: %1$s [options] search [command options] pattern\n" "\n" "These are common %1$s commands used in various situations:\n" " add Generate or updates semantic index file for c-source code;\n" " rm Remove files from the index by pattern;\n" " search Make index queries.\n" "\n" "Options:\n" " -D, --database=FILE Specify database file (default: %2$s);\n" " -B, --basedir=DIR Define project top directory (default is the current directory);\n" " -v, --verbose Show information about what is being done;\n" " -h, --help Show this text and exit.\n" "\n" "Environment:\n" " SINDEX_DATABASE Database file location.\n" " SINDEX_BASEDIR Project top directory.\n" "\n" "Report bugs to authors.\n" "\n", progname, semind_dbfile); exit(ret); } static void show_help_add(int ret) { printf( "Usage: %1$s add [options] [--] [compiler options] files...\n" "\n" "Utility creates or updates a symbol index.\n" "\n" "Options:\n" " --include-local-syms Include into the index local symbols;\n" " -v, --verbose Show information about what is being done;\n" " -h, --help Show this text and exit.\n" "\n" "Report bugs to authors.\n" "\n", progname); exit(ret); } static void show_help_rm(int ret) { printf( "Usage: %1$s rm [options] pattern\n" "\n" "Utility removes source files from the index.\n" "The pattern is a glob(7) wildcard pattern.\n" "\n" "Options:\n" " -v, --verbose Show information about what is being done;\n" " -h, --help Show this text and exit.\n" "\n" "Report bugs to authors.\n" "\n", progname); exit(ret); } static void show_help_search(int ret) { printf( "Usage: %1$s search [options] [pattern]\n" " or: %1$s search [options] (-e|-l) filename[:linenr[:column]]\n" "\n" "Utility searches information about symbol by pattern.\n" "The pattern is a glob(7) wildcard pattern.\n" "\n" "Options:\n" " -f, --format=STRING Specify an output format;\n" " -p, --path=PATTERN Search symbols only in specified directories;\n" " -m, --mode=MODE Search only the specified type of access;\n" " -k, --kind=KIND Specify a kind of symbol;\n" " -e, --explain Show what happens in the specified file position;\n" " -l, --location Show usage of symbols from a specific file position;\n" " -v, --verbose Show information about what is being done;\n" " -h, --help Show this text and exit.\n" "\n" "The KIND can be one of the following: `s', `f', `v', `m'.\n" "\n" "Report bugs to authors.\n" "\n", progname); exit(ret); } static void semind_print_progname(void) { fprintf(stderr, "%s: ", progname); if (semind_command) fprintf(stderr, "%s: ", semind_command); } static void semind_error(int status, int errnum, const char *fmt, ...) { va_list ap; semind_print_progname(); va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); if (errnum > 0) fprintf(stderr, ": %s", strerror(errnum)); fprintf(stderr, "\n"); if (status) exit(status); } static void set_search_modmask(const char *v) { size_t n = strlen(v); if (n != 1 && n != 3) semind_error(1, 0, "the length of mode value must be 1 or 3: %s", v); semind_search_modmask_defined = 1; semind_search_modmask = 0; if (n == 1) { switch (v[0]) { case 'r': v = "rrr"; break; case 'w': v = "ww-"; break; case 'm': v = "mmm"; break; case '-': v = "---"; break; default: semind_error(1, 0, "unknown modificator: %s", v); } } else if (!strcmp(v, "def")) { semind_search_modmask = U_DEF; return; } static const int modes[] = { U_R_AOF, U_W_AOF, U_R_AOF | U_W_AOF, U_R_VAL, U_W_VAL, U_R_VAL | U_W_VAL, U_R_PTR, U_W_PTR, U_R_PTR | U_W_PTR, }; for (int i = 0; i < 3; i++) { switch (v[i]) { case 'r': semind_search_modmask |= modes[i * 3]; break; case 'w': semind_search_modmask |= modes[i * 3 + 1]; break; case 'm': semind_search_modmask |= modes[i * 3 + 2]; break; case '-': break; default: semind_error(1, 0, "unknown modificator in the mode value" " (`r', `w', `m' or `-' expected): %c", v[i]); } } } static void parse_cmdline(int argc, char **argv) { static const struct option long_options[] = { { "database", required_argument, NULL, 'D' }, { "basedir", required_argument, NULL, 'B' }, { "verbose", no_argument, NULL, 'v' }, { "help", no_argument, NULL, 'h' }, { NULL } }; int c; char *basedir = getenv("SINDEX_BASEDIR"); char *env; if ((env = getenv("SINDEX_DATABASE")) != NULL) semind_dbfile = env; while ((c = getopt_long(argc, argv, "+B:D:vh", long_options, NULL)) != -1) { switch (c) { case 'D': semind_dbfile = optarg; break; case 'B': basedir = optarg; break; case 'v': semind_verbose++; break; case 'h': show_help(0); } } if (optind == argc) { message("command required"); show_usage(); } if (basedir) { if (!realpath(basedir, cwd)) semind_error(1, errno, "unable to get project base directory"); n_cwd = strlen(cwd); } } static void parse_cmdline_add(int argc, char **argv) { static const struct option long_options[] = { { "include-local-syms", no_argument, NULL, 1 }, { "verbose", no_argument, NULL, 'v' }, { "help", no_argument, NULL, 'h' }, { NULL } }; int c; opterr = 0; while ((c = getopt_long(argc, argv, "+vh", long_options, NULL)) != -1) { switch (c) { case 1: semind_include_local_syms = 1; break; case 'v': semind_verbose++; break; case 'h': show_help_add(0); case '?': goto done; } } done: if (optind == argc) { message("more arguments required"); show_usage(); } // enforce tabstop tabstop = 1; // step back since sparse_initialize will ignore argv[0]. optind--; sparse_initialize(argc - optind, argv + optind, &semind_filelist); dissect_show_all_symbols = 1; } static void parse_cmdline_rm(int argc, char **argv) { static const struct option long_options[] = { { "verbose", no_argument, NULL, 'v' }, { "help", no_argument, NULL, 'h' }, { NULL } }; int c; while ((c = getopt_long(argc, argv, "+vh", long_options, NULL)) != -1) { switch (c) { case 'v': semind_verbose++; break; case 'h': show_help_rm(0); } } if (optind == argc) { message("more arguments required"); show_usage(); } } static void parse_cmdline_search(int argc, char **argv) { static const struct option long_options[] = { { "explain", no_argument, NULL, 'e' }, { "format", required_argument, NULL, 'f' }, { "path", required_argument, NULL, 'p' }, { "location", no_argument, NULL, 'l' }, { "mode", required_argument, NULL, 'm' }, { "kind", required_argument, NULL, 'k' }, { "verbose", no_argument, NULL, 'v' }, { "help", no_argument, NULL, 'h' }, { NULL } }; int c; while ((c = getopt_long(argc, argv, "+ef:m:k:p:lvh", long_options, NULL)) != -1) { switch (c) { case 'e': semind_search_by_location = EXPLAIN_LOCATION; break; case 'l': semind_search_by_location = USAGE_BY_LOCATION; break; case 'f': semind_search_format = optarg; break; case 'm': set_search_modmask(optarg); break; case 'k': semind_search_kind = tolower(optarg[0]); break; case 'p': semind_search_path = optarg; break; case 'v': semind_verbose++; break; case 'h': show_help_search(0); } } if (semind_search_by_location) { char *str; if (optind == argc) semind_error(1, 0, "one argument required"); str = argv[optind]; while (str) { char *ptr; if ((ptr = strchr(str, ':')) != NULL) *ptr++ = '\0'; if (*str != '\0') { if (!semind_search_filename) { semind_search_filename = str; } else if (!semind_search_line) { semind_search_line = atoi(str); } else if (!semind_search_column) { semind_search_column = atoi(str); } } str = ptr; } } else if (optind < argc) semind_search_symbol = argv[optind++]; } static int query_appendf(sqlite3_str *query, const char *fmt, ...) { int status; va_list args; va_start(args, fmt); sqlite3_str_vappendf(query, fmt, args); va_end(args); if ((status = sqlite3_str_errcode(query)) == SQLITE_OK) return 0; if (status == SQLITE_NOMEM) message("not enough memory"); if (status == SQLITE_TOOBIG) message("string too big"); return -1; } static inline void sqlite_bind_text(sqlite3_stmt *stmt, const char *field, const char *var, int len) { if (sqlite3_bind_text(stmt, sqlite3_bind_parameter_index(stmt, field), var, len, SQLITE_STATIC) != SQLITE_OK) semind_error(1, 0, "unable to bind value for %s: %s", field, sqlite3_errmsg(semind_db)); } static inline void sqlite_bind_int64(sqlite3_stmt *stmt, const char *field, long long var) { if (sqlite3_bind_int64(stmt, sqlite3_bind_parameter_index(stmt, field), var) != SQLITE_OK) semind_error(1, 0, "unable to bind value for %s: %s", field, sqlite3_errmsg(semind_db)); } static inline void sqlite_prepare(const char *sql, sqlite3_stmt **stmt) { int ret; do { ret = sqlite3_prepare_v2(semind_db, sql, -1, stmt, NULL); if (ret != SQLITE_OK && ret != SQLITE_BUSY) semind_error(1, 0, "unable to prepare query: %s: %s", sqlite3_errmsg(semind_db), sql); } while (ret == SQLITE_BUSY); } static inline void sqlite_prepare_persistent(const char *sql, sqlite3_stmt **stmt) { int ret; do { ret = sqlite3_prepare_v3(semind_db, sql, -1, SQLITE_PREPARE_PERSISTENT, stmt, NULL); if (ret != SQLITE_OK && ret != SQLITE_BUSY) semind_error(1, 0, "unable to prepare query: %s: %s", sqlite3_errmsg(semind_db), sql); } while (ret == SQLITE_BUSY); } static inline void sqlite_reset_stmt(sqlite3_stmt *stmt) { // Contrary to the intuition of many, sqlite3_reset() does not reset the // bindings on a prepared statement. Use this routine to reset all host // parameters to NULL. sqlite3_clear_bindings(stmt); sqlite3_reset(stmt); } static int sqlite_run(sqlite3_stmt *stmt) { int ret = sqlite3_step(stmt); if (ret != SQLITE_DONE && ret != SQLITE_ROW) semind_error(1, 0, "unable to process query: %s: %s", sqlite3_errmsg(semind_db), sqlite3_sql(stmt)); return ret; } static void sqlite_command(const char *sql) { sqlite3_stmt *stmt; sqlite_prepare(sql, &stmt); sqlite_run(stmt); sqlite3_finalize(stmt); } static sqlite3_int64 get_db_version(void) { sqlite3_stmt *stmt; sqlite3_int64 dbversion; sqlite_prepare("PRAGMA user_version", &stmt); sqlite_run(stmt); dbversion = sqlite3_column_int64(stmt, 0); sqlite3_finalize(stmt); return dbversion; } static void set_db_version(void) { char *sql; sqlite3_str *query = sqlite3_str_new(semind_db); if (query_appendf(query, "PRAGMA user_version = %d", SINDEX_DATABASE_VERSION) < 0) exit(1); sql = sqlite3_str_finish(query); sqlite_command(sql); sqlite3_free(sql); } static void open_temp_database(void) { static const char *database_schema[] = { "ATTACH ':memory:' AS tempdb", "CREATE TABLE tempdb.semind (" " file INTEGER NOT NULL," " line INTEGER NOT NULL," " column INTEGER NOT NULL," " symbol TEXT NOT NULL," " kind INTEGER NOT NULL," " context TEXT," " mode INTEGER NOT NULL" ")", NULL, }; for (int i = 0; database_schema[i]; i++) sqlite_command(database_schema[i]); } static void open_database(const char *filename, int flags) { static const char *database_schema[] = { "CREATE TABLE file (" " id INTEGER PRIMARY KEY AUTOINCREMENT," " name TEXT UNIQUE NOT NULL," " mtime INTEGER NOT NULL" ")", "CREATE TABLE semind (" " file INTEGER NOT NULL REFERENCES file(id) ON DELETE CASCADE," " line INTEGER NOT NULL," " column INTEGER NOT NULL," " symbol TEXT NOT NULL," " kind INTEGER NOT NULL," " context TEXT," " mode INTEGER NOT NULL" ")", "CREATE UNIQUE INDEX semind_0 ON semind (symbol, kind, mode, file, line, column)", "CREATE INDEX semind_1 ON semind (file)", NULL, }; int exists = !access(filename, R_OK); if (sqlite3_open_v2(filename, &semind_db, flags, NULL) != SQLITE_OK) semind_error(1, 0, "unable to open database: %s: %s", filename, sqlite3_errmsg(semind_db)); sqlite_command("PRAGMA journal_mode = WAL"); sqlite_command("PRAGMA synchronous = OFF"); sqlite_command("PRAGMA secure_delete = FAST"); sqlite_command("PRAGMA busy_timeout = 2147483647"); sqlite_command("PRAGMA foreign_keys = ON"); if (exists) { if (get_db_version() < SINDEX_DATABASE_VERSION) semind_error(1, 0, "%s: Database too old. Please rebuild it.", filename); return; } set_db_version(); for (int i = 0; database_schema[i]; i++) sqlite_command(database_schema[i]); } struct index_record { const char *context; int ctx_len; const char *symbol; int sym_len; int kind; unsigned int mode; long long mtime; sqlite3_int64 file; int line; int col; }; static void insert_record(struct index_record *rec) { sqlite_bind_text(insert_rec_stmt, "@context", rec->context, rec->ctx_len); sqlite_bind_text(insert_rec_stmt, "@symbol", rec->symbol, rec->sym_len); sqlite_bind_int64(insert_rec_stmt, "@kind", rec->kind); sqlite_bind_int64(insert_rec_stmt, "@mode", rec->mode); sqlite_bind_int64(insert_rec_stmt, "@file", rec->file); sqlite_bind_int64(insert_rec_stmt, "@line", rec->line); sqlite_bind_int64(insert_rec_stmt, "@column", rec->col); sqlite_run(insert_rec_stmt); sqlite_reset_stmt(insert_rec_stmt); } static void update_stream(void) { if (semind_streams_nr >= input_stream_nr) return; semind_streams = realloc(semind_streams, input_stream_nr * sizeof(struct semind_streams)); if (!semind_streams) semind_error(1, errno, "realloc"); sqlite_run(lock_stmt); for (int i = semind_streams_nr; i < input_stream_nr; i++) { struct stat st; const char *filename; char fullname[PATH_MAX]; sqlite3_int64 cur_mtime = 0; if (input_streams[i].fd != -1) { /* * FIXME: Files in the input_streams may be duplicated. */ if (stat(input_streams[i].name, &st) < 0) semind_error(1, errno, "stat: %s", input_streams[i].name); cur_mtime = st.st_mtime; if (!realpath(input_streams[i].name, fullname)) semind_error(1, errno, "realpath: %s", input_streams[i].name); if (!strncmp(fullname, cwd, n_cwd) && fullname[n_cwd] == '/') { filename = fullname + n_cwd + 1; semind_streams[i].id = 0; } else { semind_streams[i].id = -1; continue; } } else { semind_streams[i].id = -1; continue; } if (semind_verbose > 1) message("filename: %s", filename); sqlite_bind_text(select_file_stmt, "@name", filename, -1); if (sqlite_run(select_file_stmt) == SQLITE_ROW) { sqlite3_int64 old_mtime; semind_streams[i].id = sqlite3_column_int64(select_file_stmt, 0); old_mtime = sqlite3_column_int64(select_file_stmt, 1); sqlite_reset_stmt(select_file_stmt); if (cur_mtime == old_mtime) continue; sqlite_bind_text(delete_file_stmt, "@name", filename, -1); sqlite_run(delete_file_stmt); sqlite_reset_stmt(delete_file_stmt); } sqlite_reset_stmt(select_file_stmt); sqlite_bind_text(insert_file_stmt, "@name", filename, -1); sqlite_bind_int64(insert_file_stmt, "@mtime", cur_mtime); sqlite_run(insert_file_stmt); sqlite_reset_stmt(insert_file_stmt); semind_streams[i].id = sqlite3_last_insert_rowid(semind_db); } sqlite_run(unlock_stmt); semind_streams_nr = input_stream_nr; } static void r_symbol(unsigned mode, struct position *pos, struct symbol *sym) { static struct ident null; struct ident *ctx = &null; struct index_record rec; update_stream(); if (semind_streams[pos->stream].id == -1) return; if (!semind_include_local_syms && sym_is_local(sym)) return; if (!sym->ident) { warning(*pos, "empty ident"); return; } if (dissect_ctx) ctx = dissect_ctx->ident; rec.context = ctx->name; rec.ctx_len = ctx->len; rec.symbol = sym->ident->name; rec.sym_len = sym->ident->len; rec.kind = sym->kind; rec.mode = mode; rec.file = semind_streams[pos->stream].id; rec.line = pos->line; rec.col = pos->pos; insert_record(&rec); } static void r_member(unsigned mode, struct position *pos, struct symbol *sym, struct symbol *mem) { static struct ident null; static char memname[1024]; struct ident *ni, *si, *mi; struct ident *ctx = &null; struct index_record rec; update_stream(); if (semind_streams[pos->stream].id == -1) return; if (!semind_include_local_syms && sym_is_local(sym)) return; ni = built_in_ident("?"); si = sym->ident ?: ni; /* mem == NULL means entire struct accessed */ mi = mem ? (mem->ident ?: ni) : built_in_ident("*"); if (dissect_ctx) ctx = dissect_ctx->ident; snprintf(memname, sizeof(memname), "%.*s.%.*s", si->len, si->name, mi->len, mi->name); rec.context = ctx->name; rec.ctx_len = ctx->len; rec.symbol = memname; rec.sym_len = si->len + mi->len + 1; rec.kind = 'm'; rec.mode = mode; rec.file = semind_streams[pos->stream].id; rec.line = pos->line; rec.col = pos->pos; insert_record(&rec); } static void r_symdef(struct symbol *sym) { r_symbol(U_DEF, &sym->pos, sym); } static void r_memdef(struct symbol *sym, struct symbol *mem) { r_member(U_DEF, &mem->pos, sym, mem); } static void command_add(int argc, char **argv) { static struct reporter reporter = { .r_symdef = r_symdef, .r_symbol = r_symbol, .r_memdef = r_memdef, .r_member = r_member, }; open_temp_database(); sqlite_prepare_persistent( "BEGIN IMMEDIATE", &lock_stmt); sqlite_prepare_persistent( "COMMIT", &unlock_stmt); sqlite_prepare_persistent( "INSERT OR IGNORE INTO tempdb.semind " "(context, symbol, kind, mode, file, line, column) " "VALUES (@context, @symbol, @kind, @mode, @file, @line, @column)", &insert_rec_stmt); sqlite_prepare_persistent( "SELECT id, mtime FROM file WHERE name == @name", &select_file_stmt); sqlite_prepare_persistent( "INSERT INTO file (name, mtime) VALUES (@name, @mtime)", &insert_file_stmt); sqlite_prepare_persistent( "DELETE FROM file WHERE name == @name", &delete_file_stmt); dissect(&reporter, semind_filelist); sqlite_run(lock_stmt); sqlite_command("INSERT OR IGNORE INTO semind SELECT * FROM tempdb.semind"); sqlite_run(unlock_stmt); sqlite3_finalize(insert_rec_stmt); sqlite3_finalize(select_file_stmt); sqlite3_finalize(insert_file_stmt); sqlite3_finalize(delete_file_stmt); sqlite3_finalize(lock_stmt); sqlite3_finalize(unlock_stmt); free(semind_streams); } static void command_rm(int argc, char **argv) { sqlite3_stmt *stmt; sqlite_command("BEGIN IMMEDIATE"); sqlite_prepare("DELETE FROM file WHERE name GLOB @file", &stmt); if (semind_verbose > 1) message("SQL: %s", sqlite3_sql(stmt)); for (int i = 0; i < argc; i++) { sqlite_bind_text(stmt, "@file", argv[i], -1); sqlite_run(stmt); sqlite_reset_stmt(stmt); } sqlite3_finalize(stmt); sqlite_command("COMMIT"); } static inline void print_mode(char *value) { char str[3]; int v = atoi(value); if (v == U_DEF) { printf("def"); return; } #define U(m) "-rwm"[(v / m) & 3] str[0] = U(U_R_AOF); str[1] = U(U_R_VAL); str[2] = U(U_R_PTR); printf("%.3s", str); #undef U } static char *semind_file_name; static FILE *semind_file_fd; static int semind_file_lnum; static char *semind_line; static size_t semind_line_buflen; static int semind_line_len; static void print_file_line(const char *name, int lnum) { /* * All files are sorted by name and line number. So, we can reopen * the file and read it line by line. */ if (!semind_file_name || strcmp(semind_file_name, name)) { if (semind_file_fd) { fclose(semind_file_fd); free(semind_file_name); } semind_file_name = strdup(name); if (!semind_file_name) semind_error(1, errno, "strdup"); semind_file_fd = fopen(name, "r"); if (!semind_file_fd) semind_error(1, errno, "fopen: %s", name); semind_file_lnum = 0; } do { if (semind_file_lnum == lnum) { if (semind_line[semind_line_len-1] == '\n') semind_line_len--; printf("%.*s", semind_line_len, semind_line); break; } semind_file_lnum++; errno = 0; } while((semind_line_len = getline(&semind_line, &semind_line_buflen, semind_file_fd)) != -1); if (errno && errno != EOF) semind_error(1, errno, "getline"); } static int search_query_callback(void *data, int argc, char **argv, char **colname) { char *fmt = (char *) semind_search_format; char buf[32]; int quote = 0; int n = 0; while (*fmt != '\0') { char c = *fmt; if (quote) { quote = 0; switch (c) { case 't': c = '\t'; break; case 'r': c = '\r'; break; case 'n': c = '\n'; break; } } else if (c == '%') { int colnum = 0; char *pos = ++fmt; c = *fmt; if (c == '\0') semind_error(1, 0, "unexpected end of format string"); switch (c) { case 'f': colnum = 0; goto print_string; case 'l': colnum = 1; goto print_string; case 'c': colnum = 2; goto print_string; case 'C': colnum = 3; goto print_string; case 'n': colnum = 4; goto print_string; case 'm': if (n) { printf("%.*s", n, buf); n = 0; } print_mode(argv[5]); fmt++; break; case 'k': if (n) { printf("%.*s", n, buf); n = 0; } printf("%c", atoi(argv[6])); fmt++; break; case 's': if (n) { printf("%.*s", n, buf); n = 0; } print_file_line(argv[0], atoi(argv[1])); fmt++; break; print_string: if (n) { printf("%.*s", n, buf); n = 0; } printf("%s", argv[colnum]); fmt++; break; default: break; } if (pos == fmt) semind_error(1, 0, "invalid format specification: %%%c", c); continue; } else if (c == '\\') { quote = 1; fmt++; continue; } if (n == sizeof(buf)) { printf("%.*s", n, buf); n = 0; } buf[n++] = c; fmt++; } if (n) printf("%.*s", n, buf); printf("\n"); return 0; } static void command_search(int argc, char **argv) { char *sql; char *dberr = NULL; sqlite3_str *query = sqlite3_str_new(semind_db); if (chdir(cwd) < 0) semind_error(1, errno, "unable to change directory: %s", cwd); if (query_appendf(query, "SELECT" " file.name," " semind.line," " semind.column," " semind.context," " semind.symbol," " semind.mode," " semind.kind " "FROM semind, file " "WHERE semind.file == file.id") < 0) goto fail; if (semind_search_kind) { if (query_appendf(query, " AND semind.kind == %d", semind_search_kind) < 0) goto fail; } if (semind_search_symbol) { int ret; if (query_appendf(query, " AND ") < 0) goto fail; if (strpbrk(semind_search_symbol, "*?[]")) ret = query_appendf(query, "semind.symbol GLOB %Q", semind_search_symbol); else ret = query_appendf(query, "semind.symbol == %Q", semind_search_symbol); if (ret < 0) goto fail; } if (semind_search_modmask_defined) { if (!semind_search_modmask) { if (query_appendf(query, " AND semind.mode == %d", semind_search_modmask) < 0) goto fail; } else if (query_appendf(query, " AND (semind.mode & %d) != 0", semind_search_modmask) < 0) goto fail; } if (semind_search_path) { if (query_appendf(query, " AND file.name GLOB %Q", semind_search_path) < 0) goto fail; } if (semind_search_by_location == EXPLAIN_LOCATION) { if (query_appendf(query, " AND file.name == %Q", semind_search_filename) < 0) goto fail; if (semind_search_line && query_appendf(query, " AND semind.line == %d", semind_search_line) < 0) goto fail; if (semind_search_column && query_appendf(query, " AND semind.column == %d", semind_search_column) < 0) goto fail; } else if (semind_search_by_location == USAGE_BY_LOCATION) { if (query_appendf(query, " AND semind.symbol IN (") < 0) goto fail; if (query_appendf(query, "SELECT semind.symbol FROM semind, file WHERE" " semind.file == file.id AND" " file.name == %Q", semind_search_filename) < 0) goto fail; if (semind_search_line && query_appendf(query, " AND semind.line == %d", semind_search_line) < 0) goto fail; if (semind_search_column && query_appendf(query, " AND semind.column == %d", semind_search_column) < 0) goto fail; if (query_appendf(query, ")") < 0) goto fail; } if (query_appendf(query, " ORDER BY file.name, semind.line, semind.column ASC", semind_search_path) < 0) goto fail; sql = sqlite3_str_value(query); if (semind_verbose > 1) message("SQL: %s", sql); sqlite3_exec(semind_db, sql, search_query_callback, NULL, &dberr); if (dberr) semind_error(1, 0, "sql query failed: %s", dberr); fail: sql = sqlite3_str_finish(query); sqlite3_free(sql); if (semind_file_fd) { fclose(semind_file_fd); free(semind_file_name); } free(semind_line); } int main(int argc, char **argv) { static const struct command commands[] = { { .name = "add", .dbflags = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE, .parse_cmdline = parse_cmdline_add, .handler = command_add }, { .name = "rm", .dbflags = SQLITE_OPEN_READWRITE, .parse_cmdline = parse_cmdline_rm, .handler = command_rm }, { .name = "search", .dbflags = SQLITE_OPEN_READONLY, .parse_cmdline = parse_cmdline_search, .handler = command_search }, { .name = NULL }, }; const struct command *cmd; if (!(progname = rindex(argv[0], '/'))) progname = argv[0]; else progname++; if (!realpath(".", cwd)) semind_error(1, errno, "unable to get current directory"); n_cwd = strlen(cwd); parse_cmdline(argc, argv); for (cmd = commands; cmd->name && strcmp(argv[optind], cmd->name); cmd++); if (!cmd->name) semind_error(1, 0, "unknown command: %s", argv[optind]); optind++; semind_command = cmd->name; if (cmd->parse_cmdline) cmd->parse_cmdline(argc, argv); open_database(semind_dbfile, cmd->dbflags); cmd->handler(argc - optind, argv + optind); sqlite3_close(semind_db); return 0; }