#include #include #include #include #include #include #include "grub2.h" #define to_stmt_simple(stmt) \ container_of(stmt, struct grub2_statement_simple, st) #define to_stmt_block(stmt) \ container_of(stmt, struct grub2_statement_block, st) #define to_stmt_if(stmt) \ container_of(stmt, struct grub2_statement_if, st) #define to_stmt_menuentry(stmt) \ container_of(stmt, struct grub2_statement_menuentry, st) #define to_stmt_function(stmt) \ container_of(stmt, struct grub2_statement_function, st) #define to_stmt_conditional(stmt) \ container_of(stmt, struct grub2_statement_conditional, st) struct env_entry { char *name; char *value; struct list_item list; }; struct grub2_symtab_entry { const char *name; grub2_function fn; void *data; struct list_item list; }; static const char *default_prefix = "/boot/grub"; static struct grub2_symtab_entry *script_lookup_function( struct grub2_script *script, const char *name) { struct grub2_symtab_entry *entry; list_for_each_entry(&script->symtab, entry, list) { if (!strcmp(entry->name, name)) return entry; } return NULL; } const char *script_env_get(struct grub2_script *script, const char *name) { struct env_entry *entry; list_for_each_entry(&script->environment, entry, list) if (!strcmp(entry->name, name)) return entry->value; return NULL; } void script_env_set(struct grub2_script *script, const char *name, const char *value) { struct env_entry *e, *entry = NULL; list_for_each_entry(&script->environment, e, list) { if (!strcmp(e->name, name)) { entry = e; break; } } if (!entry) { entry = talloc(script, struct env_entry); entry->name = talloc_strdup(entry, name); list_add(&script->environment, &entry->list); } else { talloc_free(entry->value); } entry->value = talloc_strdup(entry, value); } static bool expand_var(struct grub2_script *script, struct grub2_word *word) { const char *val; val = script_env_get(script, word->name); if (!val) val = ""; word->text = talloc_strdup(script, val); return true; } static bool is_delim(char c) { return c == ' ' || c == '\t'; } static bool option_is_default(struct grub2_script *script, struct discover_boot_option *opt) { unsigned int default_idx; const char *var; char *end; var = script_env_get(script, "default"); if (!var) return false; default_idx = strtoul(var, &end, 10); if (end != var && *end == '\0') return default_idx == script->n_options; return !strcmp(opt->option->name, var); } /* For non-double-quoted variable expansions, we may need to split the * variable's value into multiple argv items. * * This function sets the word->text to the initial set of non-delimiter chars * in the expanded var value. We then skip any delimiter chars, and (if * required), create the new argv item with the remaining text, and * add it to the argv list, after top_word. */ static void process_split(struct grub2_script *script, struct grub2_word *top_word, struct grub2_word *word) { int i, len, delim_start = -1, delim_end = -1; struct grub2_word *new_word; char *remainder; len = strlen(word->text); /* Scan our string for the start of a delim (delim_start), and the * start of any new text (delim_end). */ for (i = 0; i < len; i++) { if (is_delim(word->text[i])) { if (delim_start == -1) delim_start = i; } else if (delim_start != -1) { delim_end = i; break; } } /* No delim? nothing to do. The process_expansions loop will * append this word's text to the top word, if necessary */ if (delim_start == -1) return; /* Set this word's text value to the text before the delimiter. * this will get appended to the top word */ word->text[delim_start] = '\0'; /* No trailing text? If there are no following word tokens, we're done. * Otherwise, we need to start a new argv item with those tokens */ if (delim_end == -1) { if (!word->next) return; remainder = ""; } else { remainder = word->text + delim_end; } new_word = talloc(script, struct grub2_word); new_word->type = GRUB2_WORD_TEXT; /* if there's no trailing text, we know we don't need to re-split */ new_word->split = delim_end != -1; new_word->next = word->next; new_word->last = NULL; new_word->text = talloc_strdup(new_word, remainder); /* stitch it into the argv list before this word */ list_insert_after(&top_word->argv_list, &new_word->argv_list); /* terminate this word */ word->next = NULL; } /* iterate through the words in an argv_list, looking for GRUB2_WORD_VAR * expansions. * * Once that's done, we may (if split == true) have to split the word to create * new argv items */ static void process_expansions(struct grub2_script *script, struct grub2_argv *argv) { struct grub2_word *top_word, *word; int i; argv->argc = 0; list_for_each_entry(&argv->words, top_word, argv_list) { argv->argc++; /* expand vars and squash the list of words into the head * of the argv word list */ for (word = top_word; word; word = word->next) { /* if it's a variable, perform the substitution */ if (word->type == GRUB2_WORD_VAR) { expand_var(script, word); word->type = GRUB2_WORD_TEXT; } /* split; this will potentially insert argv * entries after top_word. */ if (word->split) process_split(script, top_word, word); /* accumulate word text into the top word, so * we end up with a shallow tree of argv data */ /* todo: don't do this in process_split */ if (word != top_word) { top_word->text = talloc_asprintf_append( top_word->text, "%s", word->text); } } top_word->next = NULL; } /* convert the list to an argv array, to pass to the function */ argv->argv = talloc_array(script, char *, argv->argc); i = 0; list_for_each_entry(&argv->words, word, argv_list) argv->argv[i++] = word->text; } static int statements_execute(struct grub2_script *script, struct grub2_statements *stmts) { struct grub2_statement *stmt; int rc = 0; list_for_each_entry(&stmts->list, stmt, list) { if (stmt->exec) rc = stmt->exec(script, stmt); } return rc; } int statement_simple_execute(struct grub2_script *script, struct grub2_statement *statement) { struct grub2_statement_simple *st = to_stmt_simple(statement); struct grub2_symtab_entry *entry; char *pos; int rc; if (!st->argv) return 0; process_expansions(script, st->argv); if (!st->argv->argc) return 0; /* is this a var=value assignment? */ pos = strchr(st->argv->argv[0], '='); if (pos) { char *name, *value; name = st->argv->argv[0]; name = talloc_strndup(st, name, pos - name); value = pos + 1; script_env_set(script, name, value); return 0; } entry = script_lookup_function(script, st->argv->argv[0]); if (!entry) { pb_log("grub2: undefined function '%s'\n", st->argv->argv[0]); return 1; } rc = entry->fn(script, entry->data, st->argv->argc, st->argv->argv); return rc; } int statement_block_execute(struct grub2_script *script, struct grub2_statement *statement) { struct grub2_statement_block *st = to_stmt_block(statement); return statements_execute(script, st->statements); } /* returns 0 if the statement was executed, 1 otherwise */ static int statement_conditional_execute(struct grub2_script *script, struct grub2_statement *statement, bool *executed) { struct grub2_statement_conditional *st = to_stmt_conditional(statement); int rc; rc = st->condition->exec(script, st->condition); *executed = (!rc); if (*executed) rc = statements_execute(script, st->statements); return rc; } int statement_if_execute(struct grub2_script *script, struct grub2_statement *statement) { struct grub2_statement_if *st = to_stmt_if(statement); struct grub2_statement *conditional; bool executed; int rc = 0; list_for_each_entry(&st->conditionals->list, conditional, list) { rc = statement_conditional_execute(script, conditional, &executed); if (executed) break; } if (!executed && st->else_case) rc = statements_execute(script, st->else_case); return rc; } int statement_menuentry_execute(struct grub2_script *script, struct grub2_statement *statement) { struct grub2_statement_menuentry *st = to_stmt_menuentry(statement); struct discover_boot_option *opt; process_expansions(script, st->argv); opt = discover_boot_option_create(script->ctx, script->ctx->device); if (st->argv->argc > 0) { opt->option->name = talloc_strdup(opt, st->argv->argv[0]); } else { opt->option->name = talloc_strdup(opt, "(unknown)"); } opt->option->id = talloc_asprintf(opt->option, "%s#%s", script->ctx->device->device->id, opt->option->name); script->opt = opt; statements_execute(script, st->statements); opt->option->is_default = option_is_default(script, opt); discover_context_add_boot_option(script->ctx, opt); script->n_options++; script->opt = NULL; return 0; } static int function_invoke(struct grub2_script *script, void *data, int argc, char **argv) { struct grub2_statement_function *fn = data; char *name; int i; /* set positional parameters */ for (i = 0; i < argc; i++) { name = talloc_asprintf(script, "$%d", i); script_env_set(script, name, argv[i]); } return statements_execute(script, fn->body); } int statement_function_execute(struct grub2_script *script, struct grub2_statement *statement) { struct grub2_statement_function *st = to_stmt_function(statement); const char *name; if (st->name->type == GRUB2_WORD_VAR) expand_var(script, st->name); name = st->name->text; script_register_function(script, name, function_invoke, st); return 0; } static void init_env(struct grub2_script *script) { struct env_entry *env; list_init(&script->environment); env = talloc(script, struct env_entry); env->name = talloc_strdup(env, "prefix"); env->value = talloc_strdup(env, default_prefix); list_add(&script->environment, &env->list); } void script_register_function(struct grub2_script *script, const char *name, grub2_function fn, void *data) { struct grub2_symtab_entry *entry; entry = talloc(script, struct grub2_symtab_entry); entry->fn = fn; entry->name = name; entry->data = data; list_add(&script->symtab, &entry->list); } void script_execute(struct grub2_script *script) { statements_execute(script, script->statements); } struct grub2_script *create_script(struct grub2_parser *parser, struct discover_context *ctx) { struct grub2_script *script; script = talloc_zero(parser, struct grub2_script); init_env(script); script->ctx = ctx; list_init(&script->symtab); register_builtins(script); return script; }