/* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009 Michael Stapelberg and contributors (see also: LICENSE) * * config_parser.c: hand-written parser to parse configuration directives. * * See also src/commands_parser.c for rationale on why we use a custom parser. * * This parser works VERY MUCH like src/commands_parser.c, so read that first. * The differences are: * * 1. config_parser supports the 'number' token type (in addition to 'word' and * 'string'). Numbers are referred to using &num (like $str). * * 2. Criteria are not executed immediately, they are just stored. * * 3. config_parser recognizes \n and \r as 'end' token, while commands_parser * ignores them. * * 4. config_parser skips the current line on invalid inputs and follows the * nearest token. * */ #include "all.h" #include #include #include #include #include #include #include #include #include #include #include // Macros to make the YAJL API a bit easier to use. #define y(x, ...) yajl_gen_##x(command_output.json_gen, ##__VA_ARGS__) #define ystr(str) yajl_gen_string(command_output.json_gen, (unsigned char *)str, strlen(str)) xcb_xrm_database_t *database = NULL; #ifndef TEST_PARSER pid_t config_error_nagbar_pid = -1; static struct context *context; #endif /******************************************************************************* * The data structures used for parsing. Essentially the current state and a * list of tokens for that state. * * The GENERATED_* files are generated by generate-commands-parser.pl with the * input parser-specs/configs.spec. ******************************************************************************/ #include "GENERATED_config_enums.h" typedef struct token { char *name; char *identifier; /* This might be __CALL */ cmdp_state next_state; union { uint16_t call_identifier; } extra; } cmdp_token; typedef struct tokenptr { cmdp_token *array; int n; } cmdp_token_ptr; #include "GENERATED_config_tokens.h" /******************************************************************************* * The (small) stack where identified literals are stored during the parsing * of a single command (like $workspace). ******************************************************************************/ struct stack_entry { /* Just a pointer, not dynamically allocated. */ const char *identifier; enum { STACK_STR = 0, STACK_LONG = 1, } type; union { char *str; long num; } val; }; /* 10 entries should be enough for everybody. */ static struct stack_entry stack[10]; /* * Pushes a string (identified by 'identifier') on the stack. We simply use a * single array, since the number of entries we have to store is very small. * */ static void push_string(const char *identifier, const char *str) { for (int c = 0; c < 10; c++) { if (stack[c].identifier != NULL && strcmp(stack[c].identifier, identifier) != 0) continue; if (stack[c].identifier == NULL) { /* Found a free slot, let’s store it here. */ stack[c].identifier = identifier; stack[c].val.str = sstrdup(str); stack[c].type = STACK_STR; } else { /* Append the value. */ char *prev = stack[c].val.str; sasprintf(&(stack[c].val.str), "%s,%s", prev, str); free(prev); } return; } /* When we arrive here, the stack is full. This should not happen and * means there’s either a bug in this parser or the specification * contains a command with more than 10 identified tokens. */ fprintf(stderr, "BUG: config_parser stack full. This means either a bug " "in the code, or a new command which contains more than " "10 identified tokens.\n"); exit(1); } static void push_long(const char *identifier, long num) { for (int c = 0; c < 10; c++) { if (stack[c].identifier != NULL) continue; /* Found a free slot, let’s store it here. */ stack[c].identifier = identifier; stack[c].val.num = num; stack[c].type = STACK_LONG; return; } /* When we arrive here, the stack is full. This should not happen and * means there’s either a bug in this parser or the specification * contains a command with more than 10 identified tokens. */ fprintf(stderr, "BUG: config_parser stack full. This means either a bug " "in the code, or a new command which contains more than " "10 identified tokens.\n"); exit(1); } static const char *get_string(const char *identifier) { for (int c = 0; c < 10; c++) { if (stack[c].identifier == NULL) break; if (strcmp(identifier, stack[c].identifier) == 0) return stack[c].val.str; } return NULL; } static long get_long(const char *identifier) { for (int c = 0; c < 10; c++) { if (stack[c].identifier == NULL) break; if (strcmp(identifier, stack[c].identifier) == 0) return stack[c].val.num; } return 0; } static void clear_stack(void) { for (int c = 0; c < 10; c++) { if (stack[c].type == STACK_STR) free(stack[c].val.str); stack[c].identifier = NULL; stack[c].val.str = NULL; stack[c].val.num = 0; } } /******************************************************************************* * The parser itself. ******************************************************************************/ static cmdp_state state; static Match current_match; static struct ConfigResultIR subcommand_output; static struct ConfigResultIR command_output; /* A list which contains the states that lead to the current state, e.g. * INITIAL, WORKSPACE_LAYOUT. * When jumping back to INITIAL, statelist_idx will simply be set to 1 * (likewise for other states, e.g. MODE or BAR). * This list is used to process the nearest error token. */ static cmdp_state statelist[10] = {INITIAL}; /* NB: statelist_idx points to where the next entry will be inserted */ static int statelist_idx = 1; #include "GENERATED_config_call.h" static void next_state(const cmdp_token *token) { cmdp_state _next_state = token->next_state; //printf("token = name %s identifier %s\n", token->name, token->identifier); //printf("next_state = %d\n", token->next_state); if (token->next_state == __CALL) { subcommand_output.json_gen = command_output.json_gen; GENERATED_call(token->extra.call_identifier, &subcommand_output); _next_state = subcommand_output.next_state; clear_stack(); } state = _next_state; if (state == INITIAL) { clear_stack(); } /* See if we are jumping back to a state in which we were in previously * (statelist contains INITIAL) and just move statelist_idx accordingly. */ for (int i = 0; i < statelist_idx; i++) { if (statelist[i] != _next_state) continue; statelist_idx = i + 1; return; } /* Otherwise, the state is new and we add it to the list */ statelist[statelist_idx++] = _next_state; } /* * Returns a pointer to the start of the line (one byte after the previous \r, * \n) or the start of the input, if this is the first line. * */ static const char *start_of_line(const char *walk, const char *beginning) { while (walk >= beginning && *walk != '\n' && *walk != '\r') { walk--; } return walk + 1; } /* * Copies the line and terminates it at the next \n, if any. * * The caller has to free() the result. * */ static char *single_line(const char *start) { char *result = sstrdup(start); char *end = strchr(result, '\n'); if (end != NULL) *end = '\0'; return result; } struct ConfigResultIR *parse_config(const char *input, struct context *context) { /* Dump the entire config file into the debug log. We cannot just use * DLOG("%s", input); because one log message must not exceed 4 KiB. */ const char *dumpwalk = input; int linecnt = 1; while (*dumpwalk != '\0') { char *next_nl = strchr(dumpwalk, '\n'); if (next_nl != NULL) { DLOG("CONFIG(line %3d): %.*s\n", linecnt, (int)(next_nl - dumpwalk), dumpwalk); dumpwalk = next_nl + 1; } else { DLOG("CONFIG(line %3d): %s\n", linecnt, dumpwalk); break; } linecnt++; } state = INITIAL; statelist_idx = 1; /* A YAJL JSON generator used for formatting replies. */ command_output.json_gen = yajl_gen_alloc(NULL); y(array_open); const char *walk = input; const size_t len = strlen(input); int c; const cmdp_token *token; bool token_handled; linecnt = 1; // TODO: make this testable #ifndef TEST_PARSER cfg_criteria_init(¤t_match, &subcommand_output, INITIAL); #endif /* The "<=" operator is intentional: We also handle the terminating 0-byte * explicitly by looking for an 'end' token. */ while ((size_t)(walk - input) <= len) { /* Skip whitespace before every token, newlines are relevant since they * separate configuration directives. */ while ((*walk == ' ' || *walk == '\t') && *walk != '\0') walk++; //printf("remaining input: %s\n", walk); cmdp_token_ptr *ptr = &(tokens[state]); token_handled = false; for (c = 0; c < ptr->n; c++) { token = &(ptr->array[c]); /* A literal. */ if (token->name[0] == '\'') { if (strncasecmp(walk, token->name + 1, strlen(token->name) - 1) == 0) { if (token->identifier != NULL) push_string(token->identifier, token->name + 1); walk += strlen(token->name) - 1; next_state(token); token_handled = true; break; } continue; } if (strcmp(token->name, "number") == 0) { /* Handle numbers. We only accept decimal numbers for now. */ char *end = NULL; errno = 0; long int num = strtol(walk, &end, 10); if ((errno == ERANGE && (num == LONG_MIN || num == LONG_MAX)) || (errno != 0 && num == 0)) continue; /* No valid numbers found */ if (end == walk) continue; if (token->identifier != NULL) push_long(token->identifier, num); /* Set walk to the first non-number character */ walk = end; next_state(token); token_handled = true; break; } if (strcmp(token->name, "string") == 0 || strcmp(token->name, "word") == 0) { const char *beginning = walk; /* Handle quoted strings (or words). */ if (*walk == '"') { beginning++; walk++; while (*walk != '\0' && (*walk != '"' || *(walk - 1) == '\\')) walk++; } else { if (token->name[0] == 's') { while (*walk != '\0' && *walk != '\r' && *walk != '\n') walk++; } else { /* For a word, the delimiters are white space (' ' or * '\t'), closing square bracket (]), comma (,) and * semicolon (;). */ while (*walk != ' ' && *walk != '\t' && *walk != ']' && *walk != ',' && *walk != ';' && *walk != '\r' && *walk != '\n' && *walk != '\0') walk++; } } if (walk != beginning) { char *str = scalloc(walk - beginning + 1, 1); /* We copy manually to handle escaping of characters. */ int inpos, outpos; for (inpos = 0, outpos = 0; inpos < (walk - beginning); inpos++, outpos++) { /* We only handle escaped double quotes to not break * backwards compatibility with people using \w in * regular expressions etc. */ if (beginning[inpos] == '\\' && beginning[inpos + 1] == '"') inpos++; str[outpos] = beginning[inpos]; } if (token->identifier) push_string(token->identifier, str); free(str); /* If we are at the end of a quoted string, skip the ending * double quote. */ if (*walk == '"') walk++; next_state(token); token_handled = true; break; } } if (strcmp(token->name, "line") == 0) { while (*walk != '\0' && *walk != '\n' && *walk != '\r') walk++; next_state(token); token_handled = true; linecnt++; walk++; break; } if (strcmp(token->name, "end") == 0) { //printf("checking for end: *%s*\n", walk); if (*walk == '\0' || *walk == '\n' || *walk == '\r') { next_state(token); token_handled = true; /* To make sure we start with an appropriate matching * datastructure for commands which do *not* specify any * criteria, we re-initialize the criteria system after * every command. */ // TODO: make this testable #ifndef TEST_PARSER cfg_criteria_init(¤t_match, &subcommand_output, INITIAL); #endif linecnt++; walk++; break; } } } if (!token_handled) { /* Figure out how much memory we will need to fill in the names of * all tokens afterwards. */ int tokenlen = 0; for (c = 0; c < ptr->n; c++) tokenlen += strlen(ptr->array[c].name) + strlen("'', "); /* Build up a decent error message. We include the problem, the * full input, and underline the position where the parser * currently is. */ char *errormessage; char *possible_tokens = smalloc(tokenlen + 1); char *tokenwalk = possible_tokens; for (c = 0; c < ptr->n; c++) { token = &(ptr->array[c]); if (token->name[0] == '\'') { /* A literal is copied to the error message enclosed with * single quotes. */ *tokenwalk++ = '\''; strcpy(tokenwalk, token->name + 1); tokenwalk += strlen(token->name + 1); *tokenwalk++ = '\''; } else { /* Skip error tokens in error messages, they are used * internally only and might confuse users. */ if (strcmp(token->name, "error") == 0) continue; /* Any other token is copied to the error message enclosed * with angle brackets. */ *tokenwalk++ = '<'; strcpy(tokenwalk, token->name); tokenwalk += strlen(token->name); *tokenwalk++ = '>'; } if (c < (ptr->n - 1)) { *tokenwalk++ = ','; *tokenwalk++ = ' '; } } *tokenwalk = '\0'; sasprintf(&errormessage, "Expected one of these tokens: %s", possible_tokens); free(possible_tokens); /* Go back to the beginning of the line */ const char *error_line = start_of_line(walk, input); /* Contains the same amount of characters as 'input' has, but with * the unparseable part highlighted using ^ characters. */ char *position = scalloc(strlen(error_line) + 1, 1); const char *copywalk; for (copywalk = error_line; *copywalk != '\n' && *copywalk != '\r' && *copywalk != '\0'; copywalk++) position[(copywalk - error_line)] = (copywalk >= walk ? '^' : (*copywalk == '\t' ? '\t' : ' ')); position[(copywalk - error_line)] = '\0'; ELOG("CONFIG: %s\n", errormessage); ELOG("CONFIG: (in file %s)\n", context->filename); char *error_copy = single_line(error_line); /* Print context lines *before* the error, if any. */ if (linecnt > 1) { const char *context_p1_start = start_of_line(error_line - 2, input); char *context_p1_line = single_line(context_p1_start); if (linecnt > 2) { const char *context_p2_start = start_of_line(context_p1_start - 2, input); char *context_p2_line = single_line(context_p2_start); ELOG("CONFIG: Line %3d: %s\n", linecnt - 2, context_p2_line); free(context_p2_line); } ELOG("CONFIG: Line %3d: %s\n", linecnt - 1, context_p1_line); free(context_p1_line); } ELOG("CONFIG: Line %3d: %s\n", linecnt, error_copy); ELOG("CONFIG: %s\n", position); free(error_copy); /* Print context lines *after* the error, if any. */ for (int i = 0; i < 2; i++) { char *error_line_end = strchr(error_line, '\n'); if (error_line_end != NULL && *(error_line_end + 1) != '\0') { error_line = error_line_end + 1; error_copy = single_line(error_line); ELOG("CONFIG: Line %3d: %s\n", linecnt + i + 1, error_copy); free(error_copy); } } context->has_errors = true; /* Format this error message as a JSON reply. */ y(map_open); ystr("success"); y(bool, false); /* We set parse_error to true to distinguish this from other * errors. i3-nagbar is spawned upon keypresses only for parser * errors. */ ystr("parse_error"); y(bool, true); ystr("error"); ystr(errormessage); ystr("input"); ystr(input); ystr("errorposition"); ystr(position); y(map_close); /* Skip the rest of this line, but continue parsing. */ while ((size_t)(walk - input) <= len && *walk != '\n') walk++; free(position); free(errormessage); clear_stack(); /* To figure out in which state to go (e.g. MODE or INITIAL), * we find the nearest state which contains an token * and follow that one. */ bool error_token_found = false; for (int i = statelist_idx - 1; (i >= 0) && !error_token_found; i--) { cmdp_token_ptr *errptr = &(tokens[statelist[i]]); for (int j = 0; j < errptr->n; j++) { if (strcmp(errptr->array[j].name, "error") != 0) continue; next_state(&(errptr->array[j])); error_token_found = true; break; } } assert(error_token_found); } } y(array_close); return &command_output; } /******************************************************************************* * Code for building the stand-alone binary test.commands_parser which is used * by t/187-commands-parser.t. ******************************************************************************/ #ifdef TEST_PARSER /* * Logs the given message to stdout while prefixing the current time to it, * but only if debug logging was activated. * This is to be called by DLOG() which includes filename/linenumber * */ void debuglog(char *fmt, ...) { va_list args; va_start(args, fmt); fprintf(stdout, "# "); vfprintf(stdout, fmt, args); va_end(args); } void errorlog(char *fmt, ...) { va_list args; va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); } static int criteria_next_state; void cfg_criteria_init(I3_CFG, int _state) { criteria_next_state = _state; } void cfg_criteria_add(I3_CFG, const char *ctype, const char *cvalue) { } void cfg_criteria_pop_state(I3_CFG) { result->next_state = criteria_next_state; } int main(int argc, char *argv[]) { if (argc < 2) { fprintf(stderr, "Syntax: %s \n", argv[0]); return 1; } struct context context; context.filename = ""; parse_config(argv[1], &context); } #else /* * Goes through each line of buf (separated by \n) and checks for statements / * commands which only occur in i3 v4 configuration files. If it finds any, it * returns version 4, otherwise it returns version 3. * */ static int detect_version(char *buf) { char *walk = buf; char *line = buf; while (*walk != '\0') { if (*walk != '\n') { walk++; continue; } /* check for some v4-only statements */ if (strncasecmp(line, "bindcode", strlen("bindcode")) == 0 || strncasecmp(line, "force_focus_wrapping", strlen("force_focus_wrapping")) == 0 || strncasecmp(line, "# i3 config file (v4)", strlen("# i3 config file (v4)")) == 0 || strncasecmp(line, "workspace_layout", strlen("workspace_layout")) == 0) { LOG("deciding for version 4 due to this line: %.*s\n", (int)(walk - line), line); return 4; } /* if this is a bind statement, we can check the command */ if (strncasecmp(line, "bind", strlen("bind")) == 0) { char *bind = strchr(line, ' '); if (bind == NULL) goto next; while ((*bind == ' ' || *bind == '\t') && *bind != '\0') bind++; if (*bind == '\0') goto next; if ((bind = strchr(bind, ' ')) == NULL) goto next; while ((*bind == ' ' || *bind == '\t') && *bind != '\0') bind++; if (*bind == '\0') goto next; if (strncasecmp(bind, "layout", strlen("layout")) == 0 || strncasecmp(bind, "floating", strlen("floating")) == 0 || strncasecmp(bind, "workspace", strlen("workspace")) == 0 || strncasecmp(bind, "focus left", strlen("focus left")) == 0 || strncasecmp(bind, "focus right", strlen("focus right")) == 0 || strncasecmp(bind, "focus up", strlen("focus up")) == 0 || strncasecmp(bind, "focus down", strlen("focus down")) == 0 || strncasecmp(bind, "border normal", strlen("border normal")) == 0 || strncasecmp(bind, "border 1pixel", strlen("border 1pixel")) == 0 || strncasecmp(bind, "border pixel", strlen("border pixel")) == 0 || strncasecmp(bind, "border borderless", strlen("border borderless")) == 0 || strncasecmp(bind, "--no-startup-id", strlen("--no-startup-id")) == 0 || strncasecmp(bind, "bar", strlen("bar")) == 0) { LOG("deciding for version 4 due to this line: %.*s\n", (int)(walk - line), line); return 4; } } next: /* advance to the next line */ walk++; line = walk; } return 3; } /* * Calls i3-migrate-config-to-v4 to migrate a configuration file (input * buffer). * * Returns the converted config file or NULL if there was an error (for * example the script could not be found in $PATH or the i3 executable’s * directory). * */ static char *migrate_config(char *input, off_t size) { int writepipe[2]; int readpipe[2]; if (pipe(writepipe) != 0 || pipe(readpipe) != 0) { warn("migrate_config: Could not create pipes"); return NULL; } pid_t pid = fork(); if (pid == -1) { warn("Could not fork()"); return NULL; } /* child */ if (pid == 0) { /* close writing end of writepipe, connect reading side to stdin */ close(writepipe[1]); dup2(writepipe[0], 0); /* close reading end of readpipe, connect writing side to stdout */ close(readpipe[0]); dup2(readpipe[1], 1); static char *argv[] = { NULL, /* will be replaced by the executable path */ NULL}; exec_i3_utility("i3-migrate-config-to-v4", argv); } /* parent */ /* close reading end of the writepipe (connected to the script’s stdin) */ close(writepipe[0]); /* write the whole config file to the pipe, the script will read everything * immediately */ if (writeall(writepipe[1], input, size) == -1) { warn("Could not write to pipe"); return NULL; } close(writepipe[1]); /* close writing end of the readpipe (connected to the script’s stdout) */ close(readpipe[1]); /* read the script’s output */ int conv_size = 65535; char *converted = scalloc(conv_size, 1); int read_bytes = 0, ret; do { if (read_bytes == conv_size) { conv_size += 65535; converted = srealloc(converted, conv_size); } ret = read(readpipe[0], converted + read_bytes, conv_size - read_bytes); if (ret == -1) { warn("Cannot read from pipe"); FREE(converted); return NULL; } read_bytes += ret; } while (ret > 0); /* get the returncode */ int status; wait(&status); if (!WIFEXITED(status)) { fprintf(stderr, "Child did not terminate normally, using old config file (will lead to broken behaviour)\n"); FREE(converted); return NULL; } int returncode = WEXITSTATUS(status); if (returncode != 0) { fprintf(stderr, "Migration process exit code was != 0\n"); if (returncode == 2) { fprintf(stderr, "could not start the migration script\n"); /* TODO: script was not found. tell the user to fix their system or create a v4 config */ } else if (returncode == 1) { fprintf(stderr, "This already was a v4 config. Please add the following line to your config file:\n"); fprintf(stderr, "# i3 config file (v4)\n"); /* TODO: nag the user with a message to include a hint for i3 in their config file */ } FREE(converted); return NULL; } return converted; } /** * Launch nagbar to indicate errors in the configuration file. */ void start_config_error_nagbar(const char *configpath, bool has_errors) { char *editaction, *pageraction; sasprintf(&editaction, "i3-sensible-editor \"%s\" && i3-msg reload\n", configpath); sasprintf(&pageraction, "i3-sensible-pager \"%s\"\n", errorfilename); char *argv[] = { NULL, /* will be replaced by the executable path */ "-f", (config.font.pattern ? config.font.pattern : "fixed"), "-t", (has_errors ? "error" : "warning"), "-m", (has_errors ? "You have an error in your i3 config file!" : "Your config is outdated. Please fix the warnings to make sure everything works."), "-b", "edit config", editaction, (errorfilename ? "-b" : NULL), (has_errors ? "show errors" : "show warnings"), pageraction, NULL}; start_nagbar(&config_error_nagbar_pid, argv); free(editaction); free(pageraction); } /* * Inserts or updates a variable assignment depending on whether it already exists. * */ static void upsert_variable(struct variables_head *variables, char *key, char *value) { struct Variable *current; SLIST_FOREACH(current, variables, variables) { if (strcmp(current->key, key) != 0) { continue; } DLOG("Updated variable: %s = %s -> %s\n", key, current->value, value); FREE(current->value); current->value = sstrdup(value); return; } DLOG("Defined new variable: %s = %s\n", key, value); struct Variable *new = scalloc(1, sizeof(struct Variable)); struct Variable *test = NULL, *loc = NULL; new->key = sstrdup(key); new->value = sstrdup(value); /* ensure that the correct variable is matched in case of one being * the prefix of another */ SLIST_FOREACH(test, variables, variables) { if (strlen(new->key) >= strlen(test->key)) break; loc = test; } if (loc == NULL) { SLIST_INSERT_HEAD(variables, new, variables); } else { SLIST_INSERT_AFTER(loc, new, variables); } } static char *get_resource(char *name) { if (conn == NULL) { return NULL; } /* Load the resource database lazily. */ if (database == NULL) { database = xcb_xrm_database_from_default(conn); if (database == NULL) { ELOG("Failed to open the resource database.\n"); /* Load an empty database so we don't keep trying to load the * default database over and over again. */ database = xcb_xrm_database_from_string(""); return NULL; } } char *resource; xcb_xrm_resource_get_string(database, name, NULL, &resource); return resource; } /* * Parses the given file by first replacing the variables, then calling * parse_config and possibly launching i3-nagbar. * */ bool parse_file(const char *f, bool use_nagbar) { struct variables_head variables = SLIST_HEAD_INITIALIZER(&variables); int fd; struct stat stbuf; char *buf; FILE *fstr; char buffer[4096], key[512], value[4096], *continuation = NULL; if ((fd = open(f, O_RDONLY)) == -1) die("Could not open configuration file: %s\n", strerror(errno)); if (fstat(fd, &stbuf) == -1) die("Could not fstat file: %s\n", strerror(errno)); buf = scalloc(stbuf.st_size + 1, 1); if ((fstr = fdopen(fd, "r")) == NULL) die("Could not fdopen: %s\n", strerror(errno)); FREE(current_config); current_config = scalloc(stbuf.st_size + 1, 1); if ((ssize_t)fread(current_config, 1, stbuf.st_size, fstr) != stbuf.st_size) { die("Could not fread: %s\n", strerror(errno)); } rewind(fstr); bool invalid_sets = false; while (!feof(fstr)) { if (!continuation) continuation = buffer; if (fgets(continuation, sizeof(buffer) - (continuation - buffer), fstr) == NULL) { if (feof(fstr)) break; die("Could not read configuration file\n"); } if (buffer[strlen(buffer) - 1] != '\n' && !feof(fstr)) { ELOG("Your line continuation is too long, it exceeds %zd bytes\n", sizeof(buffer)); } /* sscanf implicitly strips whitespace. */ value[0] = '\0'; const bool skip_line = (sscanf(buffer, "%511s %4095[^\n]", key, value) < 1 || strlen(key) < 3); const bool comment = (key[0] == '#'); value[4095] = '\n'; continuation = strstr(buffer, "\\\n"); if (continuation) { if (!comment) { continue; } DLOG("line continuation in comment is ignored: \"%.*s\"\n", (int)strlen(buffer) - 1, buffer); continuation = NULL; } strncpy(buf + strlen(buf), buffer, strlen(buffer) + 1); /* Skip comments and empty lines. */ if (skip_line || comment) { continue; } if (strcasecmp(key, "set") == 0 && *value != '\0') { char v_key[512]; char v_value[4096] = {'\0'}; if (sscanf(value, "%511s %4095[^\n]", v_key, v_value) < 1) { ELOG("Failed to parse variable specification '%s', skipping it.\n", value); invalid_sets = true; continue; } if (v_key[0] != '$') { ELOG("Malformed variable assignment, name has to start with $\n"); invalid_sets = true; continue; } upsert_variable(&variables, v_key, v_value); continue; } else if (strcasecmp(key, "set_from_resource") == 0) { char res_name[512] = {'\0'}; char v_key[512]; char fallback[4096] = {'\0'}; /* Ensure that this string is terminated. For example, a user might * want a variable to be empty if the resource can't be found and * uses * set_from_resource $foo i3wm.foo * Without explicitly terminating the string first, sscanf() will * leave it uninitialized, causing garbage in the config.*/ fallback[0] = '\0'; if (sscanf(value, "%511s %511s %4095[^\n]", v_key, res_name, fallback) < 1) { ELOG("Failed to parse resource specification '%s', skipping it.\n", value); invalid_sets = true; continue; } if (v_key[0] != '$') { ELOG("Malformed variable assignment, name has to start with $\n"); invalid_sets = true; continue; } char *res_value = get_resource(res_name); if (res_value == NULL) { DLOG("Could not get resource '%s', using fallback '%s'.\n", res_name, fallback); res_value = sstrdup(fallback); } upsert_variable(&variables, v_key, res_value); FREE(res_value); continue; } } fclose(fstr); if (database != NULL) { xcb_xrm_database_free(database); /* Explicitly set the database to NULL again in case the config gets reloaded. */ database = NULL; } /* For every custom variable, see how often it occurs in the file and * how much extra bytes it requires when replaced. */ struct Variable *current, *nearest; int extra_bytes = 0; /* We need to copy the buffer because we need to invalidate the * variables (otherwise we will count them twice, which is bad when * 'extra' is negative) */ char *bufcopy = sstrdup(buf); SLIST_FOREACH(current, &variables, variables) { int extra = (strlen(current->value) - strlen(current->key)); char *next; for (next = bufcopy; next < (bufcopy + stbuf.st_size) && (next = strcasestr(next, current->key)) != NULL; next += strlen(current->key)) { *next = '_'; extra_bytes += extra; } } FREE(bufcopy); /* Then, allocate a new buffer and copy the file over to the new one, * but replace occurrences of our variables */ char *walk = buf, *destwalk; char *new = scalloc(stbuf.st_size + extra_bytes + 1, 1); destwalk = new; while (walk < (buf + stbuf.st_size)) { /* Find the next variable */ SLIST_FOREACH(current, &variables, variables) current->next_match = strcasestr(walk, current->key); nearest = NULL; int distance = stbuf.st_size; SLIST_FOREACH(current, &variables, variables) { if (current->next_match == NULL) continue; if ((current->next_match - walk) < distance) { distance = (current->next_match - walk); nearest = current; } } if (nearest == NULL) { /* If there are no more variables, we just copy the rest */ strncpy(destwalk, walk, (buf + stbuf.st_size) - walk); destwalk += (buf + stbuf.st_size) - walk; *destwalk = '\0'; break; } else { /* Copy until the next variable, then copy its value */ strncpy(destwalk, walk, distance); strncpy(destwalk + distance, nearest->value, strlen(nearest->value)); walk += distance + strlen(nearest->key); destwalk += distance + strlen(nearest->value); } } /* analyze the string to find out whether this is an old config file (3.x) * or a new config file (4.x). If it’s old, we run the converter script. */ int version = detect_version(buf); if (version == 3) { /* We need to convert this v3 configuration */ char *converted = migrate_config(new, strlen(new)); if (converted != NULL) { ELOG("\n"); ELOG("****************************************************************\n"); ELOG("NOTE: Automatically converted configuration file from v3 to v4.\n"); ELOG("\n"); ELOG("Please convert your config file to v4. You can use this command:\n"); ELOG(" mv %s %s.O\n", f, f); ELOG(" i3-migrate-config-to-v4 %s.O > %s\n", f, f); ELOG("****************************************************************\n"); ELOG("\n"); free(new); new = converted; } else { LOG("\n"); LOG("**********************************************************************\n"); LOG("ERROR: Could not convert config file. Maybe i3-migrate-config-to-v4\n"); LOG("was not correctly installed on your system?\n"); LOG("**********************************************************************\n"); LOG("\n"); } } context = scalloc(1, sizeof(struct context)); context->filename = f; struct ConfigResultIR *config_output = parse_config(new, context); yajl_gen_free(config_output->json_gen); extract_workspace_names_from_bindings(); check_for_duplicate_bindings(context); reorder_bindings(); if (use_nagbar && (context->has_errors || context->has_warnings || invalid_sets)) { ELOG("FYI: You are using i3 version %s\n", i3_version); if (version == 3) ELOG("Please convert your configfile first, then fix any remaining errors (see above).\n"); start_config_error_nagbar(f, context->has_errors || invalid_sets); } bool has_errors = context->has_errors; FREE(context->line_copy); free(context); free(new); free(buf); while (!SLIST_EMPTY(&variables)) { current = SLIST_FIRST(&variables); FREE(current->key); FREE(current->value); SLIST_REMOVE_HEAD(&variables, variables); FREE(current); } return !has_errors; } #endif