i3/src/config_parser.c
Michael Stapelberg b3d7531947 refactor both i3-nagbar starts into src/util.c
With this change, libev >= 4 is a hard dependency. It should be present
in all major linux distributions (even the latest ubuntu LTS).
2012-12-24 16:53:20 +01:00

1097 lines
38 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

#undef I3__FILE__
#define I3__FILE__ "config_parser.c"
/*
* vim:ts=4:sw=4:expandtab
*
* i3 - an improved dynamic tiling window manager
* © 2009-2012 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 <error> token.
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <stdbool.h>
#include <stdint.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <sys/stat.h>
#include <fcntl.h>
#include "all.h"
// 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))
#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, lets 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 theres either a bug in this parser or the specification
* contains a command with more than 10 identified tokens. */
fprintf(stderr, "BUG: commands_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, lets 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 theres either a bug in this parser or the specification
* contains a command with more than 10 identified tokens. */
fprintf(stderr, "BUG: commands_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 const 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 && stack[c].val.str != NULL)
free(stack[c].val.str);
stack[c].identifier = NULL;
stack[c].val.str = NULL;
stack[c].val.num = 0;
}
}
// TODO: remove this if it turns out we dont need it for testing.
#if 0
/*******************************************************************************
* A dynamically growing linked list which holds the criteria for the current
* command.
******************************************************************************/
typedef struct criterion {
char *type;
char *value;
TAILQ_ENTRY(criterion) criteria;
} criterion;
static TAILQ_HEAD(criteria_head, criterion) criteria =
TAILQ_HEAD_INITIALIZER(criteria);
/*
* Stores the given type/value in the list of criteria.
* Accepts a pointer as first argument, since it is 'call'ed by the parser.
*
*/
static void push_criterion(void *unused_criteria, const char *type,
const char *value) {
struct criterion *criterion = malloc(sizeof(struct criterion));
criterion->type = strdup(type);
criterion->value = strdup(value);
TAILQ_INSERT_TAIL(&criteria, criterion, criteria);
}
/*
* Clears the criteria linked list.
* Accepts a pointer as first argument, since it is 'call'ed by the parser.
*
*/
static void clear_criteria(void *unused_criteria) {
struct criterion *criterion;
while (!TAILQ_EMPTY(&criteria)) {
criterion = TAILQ_FIRST(&criteria);
free(criterion->type);
free(criterion->value);
TAILQ_REMOVE(&criteria, criterion, criteria);
free(criterion);
}
}
#endif
/*******************************************************************************
* The parser itself.
******************************************************************************/
static cmdp_state state;
static Match current_match;
static struct ConfigResult subcommand_output;
static struct ConfigResult 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 != '\n' && *walk != '\r' && walk >= beginning) {
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 ConfigResult *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. */
#if YAJL_MAJOR >= 2
command_output.json_gen = yajl_gen_alloc(NULL);
#else
command_output.json_gen = yajl_gen_alloc(NULL, NULL);
#endif
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(&current_match, &subcommand_output, INITIAL);
#endif
/* The "<=" operator is intentional: We also handle the terminating 0-byte
* explicitly by looking for an 'end' token. */
while ((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);
/* 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, "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(&current_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);
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 ((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 <error> 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 <command>\n", argv[0]);
return 1;
}
struct context context;
context.filename = "<stdin>";
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) {
printf("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) {
printf("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 executables
* 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 scripts stdin) */
close(writepipe[0]);
/* write the whole config file to the pipe, the script will read everything
* immediately */
int written = 0;
int ret;
while (written < size) {
if ((ret = write(writepipe[1], input + written, size - written)) < 0) {
warn("Could not write to pipe");
return NULL;
}
written += ret;
}
close(writepipe[1]);
/* close writing end of the readpipe (connected to the scripts stdout) */
close(readpipe[1]);
/* read the scripts output */
int conv_size = 65535;
char *converted = malloc(conv_size);
int read_bytes = 0;
do {
if (read_bytes == conv_size) {
conv_size += 65535;
converted = realloc(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");
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 his 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 his config file */
}
return NULL;
}
return converted;
}
/*
* Checks for duplicate key bindings (the same keycode or keysym is configured
* more than once). If a duplicate binding is found, a message is printed to
* stderr and the has_errors variable is set to true, which will start
* i3-nagbar.
*
*/
static void check_for_duplicate_bindings(struct context *context) {
Binding *bind, *current;
TAILQ_FOREACH(current, bindings, bindings) {
TAILQ_FOREACH(bind, bindings, bindings) {
/* Abort when we reach the current keybinding, only check the
* bindings before */
if (bind == current)
break;
/* Check if one is using keysym while the other is using bindsym.
* If so, skip. */
/* XXX: It should be checked at a later place (when translating the
* keysym to keycodes) if there are any duplicates */
if ((bind->symbol == NULL && current->symbol != NULL) ||
(bind->symbol != NULL && current->symbol == NULL))
continue;
/* If bind is NULL, current has to be NULL, too (see above).
* If the keycodes differ, it can't be a duplicate. */
if (bind->symbol != NULL &&
strcasecmp(bind->symbol, current->symbol) != 0)
continue;
/* Check if the keycodes or modifiers are different. If so, they
* can't be duplicate */
if (bind->keycode != current->keycode ||
bind->mods != current->mods ||
bind->release != current->release)
continue;
context->has_errors = true;
if (current->keycode != 0) {
ELOG("Duplicate keybinding in config file:\n modmask %d with keycode %d, command \"%s\"\n",
current->mods, current->keycode, current->command);
} else {
ELOG("Duplicate keybinding in config file:\n modmask %d with keysym %s, command \"%s\"\n",
current->mods, current->symbol, current->command);
}
}
}
}
/*
* Parses the given file by first replacing the variables, then calling
* parse_config and possibly launching i3-nagbar.
*
*/
void parse_file(const char *f) {
SLIST_HEAD(variables_head, Variable) variables = SLIST_HEAD_INITIALIZER(&variables);
int fd, ret, read_bytes = 0;
struct stat stbuf;
char *buf;
FILE *fstr;
char buffer[1026], key[512], value[512];
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) * sizeof(char));
while (read_bytes < stbuf.st_size) {
if ((ret = read(fd, buf + read_bytes, (stbuf.st_size - read_bytes))) < 0)
die("Could not read(): %s\n", strerror(errno));
read_bytes += ret;
}
if (lseek(fd, 0, SEEK_SET) == (off_t)-1)
die("Could not lseek: %s\n", strerror(errno));
if ((fstr = fdopen(fd, "r")) == NULL)
die("Could not fdopen: %s\n", strerror(errno));
while (!feof(fstr)) {
if (fgets(buffer, 1024, fstr) == NULL) {
if (feof(fstr))
break;
die("Could not read configuration file\n");
}
/* sscanf implicitly strips whitespace. Also, we skip comments and empty lines. */
if (sscanf(buffer, "%s %[^\n]", key, value) < 1 ||
key[0] == '#' || strlen(key) < 3)
continue;
if (strcasecmp(key, "set") == 0) {
if (value[0] != '$') {
ELOG("Malformed variable assignment, name has to start with $\n");
continue;
}
/* get key/value for this variable */
char *v_key = value, *v_value;
if (strstr(value, " ") == NULL && strstr(value, "\t") == NULL) {
ELOG("Malformed variable assignment, need a value\n");
continue;
}
if (!(v_value = strstr(value, " ")))
v_value = strstr(value, "\t");
*(v_value++) = '\0';
while (*v_value == '\t' || *v_value == ' ')
v_value++;
struct Variable *new = scalloc(sizeof(struct Variable));
new->key = sstrdup(v_key);
new->value = sstrdup(v_value);
SLIST_INSERT_HEAD(&variables, new, variables);
DLOG("Got new variable %s = %s\n", v_key, v_value);
continue;
}
}
fclose(fstr);
/* 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 occurences of our variables */
char *walk = buf, *destwalk;
char *new = smalloc((stbuf.st_size + extra_bytes + 1) * sizeof(char));
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 its 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, stbuf.st_size);
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 {
printf("\n");
printf("**********************************************************************\n");
printf("ERROR: Could not convert config file. Maybe i3-migrate-config-to-v4\n");
printf("was not correctly installed on your system?\n");
printf("**********************************************************************\n");
printf("\n");
}
}
context = scalloc(sizeof(struct context));
context->filename = f;
struct ConfigResult *config_output = parse_config(new, context);
yajl_gen_free(config_output->json_gen);
check_for_duplicate_bindings(context);
if (context->has_errors || context->has_warnings) {
ELOG("FYI: You are using i3 version " I3_VERSION "\n");
if (version == 3)
ELOG("Please convert your configfile first, then fix any remaining errors (see above).\n");
char *editaction,
*pageraction;
sasprintf(&editaction, "i3-sensible-editor \"%s\" && i3-msg reload\n", f);
sasprintf(&pageraction, "i3-sensible-pager \"%s\"\n", errorfilename);
char *argv[] = {
NULL, /* will be replaced by the executable path */
"-t",
(context->has_errors ? "error" : "warning"),
"-m",
(context->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),
(context->has_errors ? "show errors" : "show warnings"),
pageraction,
NULL
};
start_nagbar(&config_error_nagbar_pid, argv);
free(editaction);
free(pageraction);
}
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);
}
}
#endif