#include #include #include #include #include #include #include #include #include static bool config_get_entry_name(char *ret, size_t index, size_t limit); static char *config_get_entry(size_t *size, size_t index); #define SEPARATOR '\n' bool config_ready = false; no_unwind bool bad_config = false; static char *config_addr; int init_config_disk(struct volume *part) { struct file_handle *f; bool old_cif = case_insensitive_fopen; case_insensitive_fopen = true; if ((f = fopen(part, "/limine.cfg")) == NULL && (f = fopen(part, "/boot/limine.cfg")) == NULL && (f = fopen(part, "/EFI/BOOT/limine.cfg")) == NULL) { case_insensitive_fopen = old_cif; return -1; } case_insensitive_fopen = old_cif; size_t config_size = f->size + 2; config_addr = ext_mem_alloc(config_size); fread(f, config_addr, 0, f->size); fclose(f); return init_config(config_size); } #if defined (BIOS) int init_config_pxe(void) { struct file_handle *f; if ((f = tftp_open(0, 69, "limine.cfg")) == NULL) { return -1; } size_t config_size = f->size + 2; config_addr = ext_mem_alloc(config_size); fread(f, config_addr, 0, f->size); return init_config(config_size); } #endif #define NOT_CHILD (-1) #define DIRECT_CHILD 0 #define INDIRECT_CHILD 1 static int is_child(char *buf, size_t limit, size_t current_depth, size_t index) { if (!config_get_entry_name(buf, index, limit)) return NOT_CHILD; if (strlen(buf) < current_depth + 1) return NOT_CHILD; for (size_t j = 0; j < current_depth; j++) if (buf[j] != ':') return NOT_CHILD; if (buf[current_depth] == ':') return INDIRECT_CHILD; return DIRECT_CHILD; } static bool is_directory(char *buf, size_t limit, size_t current_depth, size_t index) { switch (is_child(buf, limit, current_depth + 1, index + 1)) { default: case NOT_CHILD: return false; case INDIRECT_CHILD: bad_config = true; panic(true, "config: Malformed config file. Parentless child."); case DIRECT_CHILD: return true; } } static struct menu_entry *create_menu_tree(struct menu_entry *parent, size_t current_depth, size_t index) { struct menu_entry *root = NULL, *prev = NULL; for (size_t i = index; ; i++) { static char name[64]; switch (is_child(name, 64, current_depth, i)) { case NOT_CHILD: return root; case INDIRECT_CHILD: continue; case DIRECT_CHILD: break; } struct menu_entry *entry = ext_mem_alloc(sizeof(struct menu_entry)); if (root == NULL) root = entry; config_get_entry_name(name, i, 64); bool default_expanded = name[current_depth] == '+'; strcpy(entry->name, name + current_depth + default_expanded); entry->parent = parent; size_t entry_size; char *config_entry = config_get_entry(&entry_size, i); entry->body = ext_mem_alloc(entry_size + 1); memcpy(entry->body, config_entry, entry_size); entry->body[entry_size] = 0; if (is_directory(name, 64, current_depth, i)) { entry->sub = create_menu_tree(entry, current_depth + 1, i + 1); entry->expanded = default_expanded; } char *comment = config_get_value(entry->body, 0, "COMMENT"); if (comment != NULL) { entry->comment = comment; } if (prev != NULL) prev->next = entry; prev = entry; } } struct menu_entry *menu_tree = NULL; struct macro { char name[1024]; char value[2048]; struct macro *next; }; static struct macro *macros = NULL; int init_config(size_t config_size) { // add trailing newline if not present config_addr[config_size - 2] = '\n'; // remove windows carriage returns and spaces at the start of lines, if any for (size_t i = 0; i < config_size; i++) { size_t skip = 0; while ((config_addr[i + skip] == '\r') || ((!i || config_addr[i - 1] == '\n') && (config_addr[i + skip] == ' ' || config_addr[i + skip] == '\t'))) { skip++; } if (skip) { for (size_t j = i; j < config_size - skip; j++) config_addr[j] = config_addr[j + skip]; config_size -= skip; } } // Load macros for (size_t i = 0; i < config_size;) { if ((config_size - i >= 3 && memcmp(config_addr + i, "\n${", 3) == 0) || (config_size - i >= 2 && i == 0 && memcmp(config_addr, "${", 2) == 0)) { struct macro *macro = ext_mem_alloc(sizeof(struct macro)); i += i ? 3 : 2; size_t j; for (j = 0; config_addr[i] != '}' && config_addr[i] != '\n' && config_addr[i] != 0; j++, i++) { macro->name[j] = config_addr[i]; } if (config_addr[i] == '\n' || config_addr[i] == 0 || config_addr[i+1] != '=') { continue; } i += 2; macro->name[j] = 0; for (j = 0; config_addr[i] != '\n' && config_addr[i] != 0; j++, i++) { macro->value[j] = config_addr[i]; } macro->value[j] = 0; macro->next = macros; macros = macro; continue; } i++; } // Expand macros if (macros != NULL) { size_t new_config_size = config_size * 4; char *new_config = ext_mem_alloc(new_config_size); size_t i, in; for (i = 0, in = 0; i < config_size;) { if ((config_size - i >= 3 && memcmp(config_addr + i, "\n${", 3) == 0) || (config_size - i >= 2 && i == 0 && memcmp(config_addr, "${", 2) == 0)) { size_t orig_i = i; i += i ? 3 : 2; while (config_addr[i++] != '}') { if (i >= config_size) { bad_config = true; panic(true, "config: Malformed macro usage"); } } if (config_addr[i] != '=') { i = orig_i; goto next; } continue; } next: if (config_size - i >= 2 && memcmp(config_addr + i, "${", 2) == 0) { char *macro_name = ext_mem_alloc(1024); i += 2; size_t j; for (j = 0; config_addr[i] != '}' && config_addr[i] != '\n' && config_addr[i] != 0; j++, i++) { macro_name[j] = config_addr[i]; } if (config_addr[i] != '}') { bad_config = true; panic(true, "config: Malformed macro usage"); } i++; macro_name[j] = 0; char *macro_value = ""; struct macro *macro = macros; for (;;) { if (macro == NULL) { break; } if (strcmp(macro->name, macro_name) == 0) { macro_value = macro->value; break; } macro = macro->next; } pmm_free(macro_name, 1024); for (j = 0; macro_value[j] != 0; j++, in++) { if (in >= new_config_size) { goto overflow; } new_config[in] = macro_value[j]; } continue; } if (in >= new_config_size) { overflow: bad_config = true; panic(true, "config: Macro-induced buffer overflow"); } new_config[in++] = config_addr[i++]; } pmm_free(config_addr, config_size); config_addr = new_config; config_size = in; // Free macros struct macro *macro = macros; for (;;) { if (macro == NULL) { break; } struct macro *next = macro->next; pmm_free(macro, sizeof(struct macro)); macro = next; } } config_ready = true; menu_tree = create_menu_tree(NULL, 1, 0); size_t s; char *c = config_get_entry(&s, 0); while (*c != ':') { c--; } if (c > config_addr) { c[-1] = 0; } return 0; } static bool config_get_entry_name(char *ret, size_t index, size_t limit) { if (!config_ready) return false; char *p = config_addr; for (size_t i = 0; i <= index; i++) { while (*p != ':') { if (!*p) return false; p++; } p++; if ((p - 1) != config_addr && *(p - 2) != '\n') i--; } p--; size_t i; for (i = 0; i < (limit - 1); i++) { if (p[i] == SEPARATOR) break; ret[i] = p[i]; } ret[i] = 0; return true; } static char *config_get_entry(size_t *size, size_t index) { if (!config_ready) return NULL; char *ret; char *p = config_addr; for (size_t i = 0; i <= index; i++) { while (*p != ':') { if (!*p) return NULL; p++; } p++; if ((p - 1) != config_addr && *(p - 2) != '\n') i--; } do { p++; } while (*p != '\n'); ret = p; cont: while (*p != ':' && *p) p++; if (*p && *(p - 1) != '\n') { p++; goto cont; } *size = p - ret; return ret; } static const char *lastkey; struct conf_tuple config_get_tuple(const char *config, size_t index, const char *key1, const char *key2) { struct conf_tuple conf_tuple; conf_tuple.value1 = config_get_value(config, index, key1); if (conf_tuple.value1 == NULL) { return (struct conf_tuple){0}; } conf_tuple.value2 = config_get_value(lastkey, 0, key2); const char *lk1 = lastkey; const char *next_value1 = config_get_value(config, index + 1, key1); const char *lk2 = lastkey; if (conf_tuple.value2 != NULL && next_value1 != NULL) { if ((uintptr_t)lk1 > (uintptr_t)lk2) { conf_tuple.value2 = NULL; } } return conf_tuple; } char *config_get_value(const char *config, size_t index, const char *key) { if (!key || !config_ready) return NULL; if (config == NULL) config = config_addr; size_t key_len = strlen(key); for (size_t i = 0; config[i]; i++) { if (!strncmp(&config[i], key, key_len) && config[i + key_len] == '=') { if (i && config[i - 1] != SEPARATOR) continue; if (index--) continue; i += key_len + 1; size_t value_len; for (value_len = 0; config[i + value_len] != SEPARATOR && config[i + value_len]; value_len++); char *buf = ext_mem_alloc(value_len + 1); memcpy(buf, config + i, value_len); lastkey = config + i; return buf; } } return NULL; }