/* * Copyright (C) Igor Sysoev * Copyright (C) Valentin V. Bartenev * Copyright (C) NGINX, Inc. */ #include #include #if 0 #include #include #endif #define NXT_CONF_MAX_SHORT_STRING 14 #define NXT_CONF_MAX_STRING NXT_INT32_T_MAX typedef enum { NXT_CONF_VALUE_NULL = 0, NXT_CONF_VALUE_BOOLEAN, NXT_CONF_VALUE_INTEGER, NXT_CONF_VALUE_NUMBER, NXT_CONF_VALUE_SHORT_STRING, NXT_CONF_VALUE_STRING, NXT_CONF_VALUE_ARRAY, NXT_CONF_VALUE_OBJECT, } nxt_conf_value_type_t; typedef enum { NXT_CONF_OP_PASS = 0, NXT_CONF_OP_CREATE, NXT_CONF_OP_REPLACE, NXT_CONF_OP_DELETE, } nxt_conf_op_action_t; typedef struct nxt_conf_array_s nxt_conf_array_t; typedef struct nxt_conf_object_s nxt_conf_object_t; struct nxt_conf_value_s { union { uint8_t boolean; /* 1 bit. */ int64_t integer; double number; struct { u_char start[NXT_CONF_MAX_SHORT_STRING]; uint8_t length; } str; struct { u_char *start; uint32_t length; } nxt_packed string; nxt_conf_array_t *array; nxt_conf_object_t *object; } nxt_packed u; uint8_t type; /* 3 bits. */ } nxt_aligned(8); struct nxt_conf_array_s { nxt_uint_t count; nxt_conf_value_t elements[]; }; typedef struct { nxt_conf_value_t name; nxt_conf_value_t value; } nxt_conf_object_member_t; struct nxt_conf_object_s { nxt_uint_t count; nxt_conf_object_member_t members[]; }; struct nxt_conf_op_s { uint32_t index; uint32_t action; /* nxt_conf_op_action_t */ void *ctx; nxt_conf_op_t *next; }; static u_char *nxt_conf_json_skip_space(u_char *start, u_char *end); static u_char *nxt_conf_json_parse_value(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error); static u_char *nxt_conf_json_parse_object(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error); static nxt_int_t nxt_conf_object_hash_add(nxt_mp_t *mp, nxt_lvlhsh_t *lvlhsh, nxt_conf_object_member_t *member); static nxt_int_t nxt_conf_object_hash_test(nxt_lvlhsh_query_t *lhq, void *data); static void *nxt_conf_object_hash_alloc(void *data, size_t size); static void nxt_conf_object_hash_free(void *data, void *p); static u_char *nxt_conf_json_parse_array(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error); static u_char *nxt_conf_json_parse_string(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error); static u_char *nxt_conf_json_parse_number(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error); static void nxt_conf_json_parse_error(nxt_conf_json_error_t *error, u_char *pos, const char *detail); static nxt_int_t nxt_conf_copy_value(nxt_mp_t *mp, nxt_conf_op_t *op, nxt_conf_value_t *dst, nxt_conf_value_t *src); static nxt_int_t nxt_conf_copy_object(nxt_mp_t *mp, nxt_conf_op_t *op, nxt_conf_value_t *dst, nxt_conf_value_t *src); static size_t nxt_conf_json_integer_length(nxt_conf_value_t *value); static u_char *nxt_conf_json_print_integer(u_char *p, nxt_conf_value_t *value); static size_t nxt_conf_json_string_length(nxt_conf_value_t *value); static u_char *nxt_conf_json_print_string(u_char *p, nxt_conf_value_t *value); static size_t nxt_conf_json_array_length(nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty); static u_char *nxt_conf_json_print_array(u_char *p, nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty); static size_t nxt_conf_json_object_length(nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty); static u_char *nxt_conf_json_print_object(u_char *p, nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty); static size_t nxt_conf_json_escape_length(u_char *p, size_t size); static u_char *nxt_conf_json_escape(u_char *dst, u_char *src, size_t size); #define nxt_conf_json_newline(p) \ ((p)[0] = '\r', (p)[1] = '\n', (p) + 2) nxt_inline u_char * nxt_conf_json_indentation(u_char *p, uint32_t level) { while (level) { *p++ = '\t'; level--; } return p; } void nxt_conf_get_string(nxt_conf_value_t *value, nxt_str_t *str) { if (value->type == NXT_CONF_VALUE_SHORT_STRING) { str->length = value->u.str.length; str->start = value->u.str.start; } else { str->length = value->u.string.length; str->start = value->u.string.start; } } nxt_uint_t nxt_conf_object_members_count(nxt_conf_value_t *value) { return value->u.object->count; } nxt_conf_value_t * nxt_conf_create_object(nxt_mp_t *mp, nxt_uint_t count) { size_t size; nxt_conf_value_t *value; size = sizeof(nxt_conf_value_t) + sizeof(nxt_conf_object_t) + count * sizeof(nxt_conf_object_member_t); value = nxt_mp_get(mp, size); if (nxt_slow_path(value == NULL)) { return NULL; } value->u.object = nxt_pointer_to(value, sizeof(nxt_conf_value_t)); value->u.object->count = count; value->type = NXT_CONF_VALUE_OBJECT; return value; } void nxt_conf_set_member(nxt_conf_value_t *object, nxt_str_t *name, nxt_conf_value_t *value, uint32_t index) { nxt_conf_value_t *name_value; nxt_conf_object_member_t *member; member = &object->u.object->members[index]; name_value = &member->name; if (name->length > NXT_CONF_MAX_SHORT_STRING) { name_value->type = NXT_CONF_VALUE_STRING; name_value->u.string.length = name->length; name_value->u.string.start = name->start; } else { name_value->type = NXT_CONF_VALUE_SHORT_STRING; name_value->u.str.length = name->length; nxt_memcpy(name_value->u.str.start, name->start, name->length); } member->value = *value; } void nxt_conf_set_member_string(nxt_conf_value_t *object, nxt_str_t *name, nxt_str_t *value, uint32_t index) { nxt_conf_value_t *set; nxt_conf_object_member_t *member; member = &object->u.object->members[index]; set = &member->name; if (name->length > NXT_CONF_MAX_SHORT_STRING) { set->type = NXT_CONF_VALUE_STRING; set->u.string.length = name->length; set->u.string.start = name->start; } else { set->type = NXT_CONF_VALUE_SHORT_STRING; set->u.str.length = name->length; nxt_memcpy(set->u.str.start, name->start, name->length); } set = &member->value; if (value->length > NXT_CONF_MAX_SHORT_STRING) { set->type = NXT_CONF_VALUE_STRING; set->u.string.length = value->length; set->u.string.start = value->start; } else { set->type = NXT_CONF_VALUE_SHORT_STRING; set->u.str.length = value->length; nxt_memcpy(set->u.str.start, value->start, value->length); } } void nxt_conf_set_member_integer(nxt_conf_value_t *object, nxt_str_t *name, int64_t value, uint32_t index) { nxt_conf_value_t *name_value; nxt_conf_object_member_t *member; member = &object->u.object->members[index]; name_value = &member->name; if (name->length > NXT_CONF_MAX_SHORT_STRING) { name_value->type = NXT_CONF_VALUE_STRING; name_value->u.string.length = name->length; name_value->u.string.start = name->start; } else { name_value->type = NXT_CONF_VALUE_SHORT_STRING; name_value->u.str.length = name->length; nxt_memcpy(name_value->u.str.start, name->start, name->length); } member->value.u.integer = value; member->value.type = NXT_CONF_VALUE_INTEGER; } nxt_uint_t nxt_conf_type(nxt_conf_value_t *value) { switch (value->type) { case NXT_CONF_VALUE_NULL: return NXT_CONF_NULL; case NXT_CONF_VALUE_BOOLEAN: return NXT_CONF_BOOLEAN; case NXT_CONF_VALUE_INTEGER: return NXT_CONF_INTEGER; case NXT_CONF_VALUE_NUMBER: return NXT_CONF_NUMBER; case NXT_CONF_VALUE_SHORT_STRING: case NXT_CONF_VALUE_STRING: return NXT_CONF_STRING; case NXT_CONF_VALUE_ARRAY: return NXT_CONF_ARRAY; case NXT_CONF_VALUE_OBJECT: return NXT_CONF_OBJECT; } nxt_unreachable(); return 0; } typedef struct { u_char *start; u_char *end; nxt_bool_t last; } nxt_conf_path_parse_t; static void nxt_conf_path_next_token(nxt_conf_path_parse_t *parse, nxt_str_t *token); nxt_conf_value_t * nxt_conf_get_path(nxt_conf_value_t *value, nxt_str_t *path) { nxt_str_t token; nxt_conf_path_parse_t parse; parse.start = path->start; parse.end = path->start + path->length; parse.last = 0; do { nxt_conf_path_next_token(&parse, &token); if (token.length == 0) { if (parse.last) { break; } return NULL; } value = nxt_conf_get_object_member(value, &token, NULL); if (value == NULL) { return NULL; } } while (parse.last == 0); return value; } static void nxt_conf_path_next_token(nxt_conf_path_parse_t *parse, nxt_str_t *token) { u_char *p, *end; end = parse->end; p = parse->start + 1; token->start = p; while (p < end && *p != '/') { p++; } parse->start = p; parse->last = (p >= end); token->length = p - token->start; } nxt_conf_value_t * nxt_conf_get_object_member(nxt_conf_value_t *value, nxt_str_t *name, uint32_t *index) { nxt_str_t str; nxt_uint_t n; nxt_conf_object_t *object; nxt_conf_object_member_t *member; if (value->type != NXT_CONF_VALUE_OBJECT) { return NULL; } object = value->u.object; for (n = 0; n < object->count; n++) { member = &object->members[n]; nxt_conf_get_string(&member->name, &str); if (nxt_strstr_eq(&str, name)) { if (index != NULL) { *index = n; } return &member->value; } } return NULL; } nxt_int_t nxt_conf_map_object(nxt_mp_t *mp, nxt_conf_value_t *value, nxt_conf_map_t *map, nxt_uint_t n, void *data) { nxt_str_t str, *s; nxt_uint_t i; nxt_conf_value_t *v; union { uint8_t ui8; int32_t i32; int64_t i64; nxt_int_t i; ssize_t size; off_t off; nxt_msec_t msec; double dbl; nxt_str_t str; char *cstrz; void *v; } *ptr; for (i = 0; i < n; i++) { v = nxt_conf_get_object_member(value, &map[i].name, NULL); if (v == NULL || v->type == NXT_CONF_VALUE_NULL) { continue; } ptr = nxt_pointer_to(data, map[i].offset); switch (map[i].type) { case NXT_CONF_MAP_INT8: if (v->type == NXT_CONF_VALUE_BOOLEAN) { ptr->ui8 = v->u.boolean; } break; case NXT_CONF_MAP_INT32: case NXT_CONF_MAP_INT64: case NXT_CONF_MAP_INT: case NXT_CONF_MAP_SIZE: case NXT_CONF_MAP_OFF: case NXT_CONF_MAP_MSEC: if (v->type != NXT_CONF_VALUE_INTEGER) { break; } switch (map[i].type) { case NXT_CONF_MAP_INT32: ptr->i32 = v->u.integer; break; case NXT_CONF_MAP_INT64: ptr->i64 = v->u.integer; break; case NXT_CONF_MAP_INT: ptr->i = v->u.integer; break; case NXT_CONF_MAP_SIZE: ptr->size = v->u.integer; break; case NXT_CONF_MAP_OFF: ptr->off = v->u.integer; break; case NXT_CONF_MAP_MSEC: ptr->msec = v->u.integer; break; default: nxt_unreachable(); } break; case NXT_CONF_MAP_DOUBLE: if (v->type == NXT_CONF_VALUE_NUMBER) { ptr->dbl = v->u.number; } else if (v->type == NXT_CONF_VALUE_INTEGER) { ptr->dbl = v->u.integer; } break; case NXT_CONF_MAP_STR: case NXT_CONF_MAP_STR_COPY: case NXT_CONF_MAP_CSTRZ: if (v->type != NXT_CONF_VALUE_SHORT_STRING && v->type != NXT_CONF_VALUE_STRING) { break; } nxt_conf_get_string(v, &str); switch (map[i].type) { case NXT_CONF_MAP_STR: ptr->str = str; break; case NXT_CONF_MAP_STR_COPY: s = nxt_str_dup(mp, &ptr->str, &str); if (nxt_slow_path(s == NULL)) { return NXT_ERROR; } break; case NXT_CONF_MAP_CSTRZ: ptr->cstrz = nxt_str_cstrz(mp, &str); if (nxt_slow_path(ptr->cstrz == NULL)) { return NXT_ERROR; } break; default: nxt_unreachable(); } break; case NXT_CONF_MAP_PTR: ptr->v = v; break; } } return NXT_OK; } nxt_conf_value_t * nxt_conf_next_object_member(nxt_conf_value_t *value, nxt_str_t *name, uint32_t *next) { uint32_t n; nxt_conf_object_t *object; nxt_conf_object_member_t *member; if (value->type != NXT_CONF_VALUE_OBJECT) { return NULL; } n = *next; object = value->u.object; if (n >= object->count) { return NULL; } member = &object->members[n]; *next = n + 1; nxt_conf_get_string(&member->name, name); return &member->value; } nxt_conf_value_t * nxt_conf_get_array_element(nxt_conf_value_t *value, uint32_t index) { nxt_conf_array_t *array; if (value->type != NXT_CONF_VALUE_ARRAY) { return NULL; } array = value->u.array; if (index >= array->count) { return NULL; } return &array->elements[index]; } nxt_int_t nxt_conf_op_compile(nxt_mp_t *mp, nxt_conf_op_t **ops, nxt_conf_value_t *root, nxt_str_t *path, nxt_conf_value_t *value) { nxt_str_t token; nxt_conf_op_t *op, **parent; nxt_conf_path_parse_t parse; nxt_conf_object_member_t *member; parse.start = path->start; parse.end = path->start + path->length; parse.last = 0; parent = ops; for ( ;; ) { op = nxt_mp_zget(mp, sizeof(nxt_conf_op_t)); if (nxt_slow_path(op == NULL)) { return NXT_ERROR; } *parent = op; parent = (nxt_conf_op_t **) &op->ctx; nxt_conf_path_next_token(&parse, &token); root = nxt_conf_get_object_member(root, &token, &op->index); if (parse.last) { break; } if (root == NULL) { return NXT_DECLINED; } op->action = NXT_CONF_OP_PASS; } if (value == NULL) { if (root == NULL) { return NXT_DECLINED; } op->action = NXT_CONF_OP_DELETE; return NXT_OK; } if (root == NULL) { member = nxt_mp_zget(mp, sizeof(nxt_conf_object_member_t)); if (nxt_slow_path(member == NULL)) { return NXT_ERROR; } if (token.length > NXT_CONF_MAX_SHORT_STRING) { member->name.u.string.length = token.length; member->name.u.string.start = token.start; member->name.type = NXT_CONF_VALUE_STRING; } else { member->name.u.str.length = token.length; nxt_memcpy(member->name.u.str.start, token.start, token.length); member->name.type = NXT_CONF_VALUE_SHORT_STRING; } member->value = *value; op->action = NXT_CONF_OP_CREATE; op->ctx = member; } else { op->action = NXT_CONF_OP_REPLACE; op->ctx = value; } return NXT_OK; } nxt_conf_value_t * nxt_conf_clone(nxt_mp_t *mp, nxt_conf_op_t *op, nxt_conf_value_t *value) { nxt_int_t rc; nxt_conf_value_t *copy; copy = nxt_mp_get(mp, sizeof(nxt_conf_value_t)); if (nxt_slow_path(copy == NULL)) { return NULL; } rc = nxt_conf_copy_value(mp, op, copy, value); if (nxt_slow_path(rc != NXT_OK)) { return NULL; } return copy; } static nxt_int_t nxt_conf_copy_value(nxt_mp_t *mp, nxt_conf_op_t *op, nxt_conf_value_t *dst, nxt_conf_value_t *src) { size_t size; nxt_int_t rc; nxt_uint_t n; if (op != NULL && src->type != NXT_CONF_VALUE_OBJECT) { return NXT_ERROR; } dst->type = src->type; switch (src->type) { case NXT_CONF_VALUE_STRING: dst->u.string.start = nxt_mp_nget(mp, src->u.string.length); if (nxt_slow_path(dst->u.string.start == NULL)) { return NXT_ERROR; } nxt_memcpy(dst->u.string.start, src->u.string.start, src->u.string.length); dst->u.string.length = src->u.string.length; break; case NXT_CONF_VALUE_ARRAY: size = sizeof(nxt_conf_array_t) + src->u.array->count * sizeof(nxt_conf_value_t); dst->u.array = nxt_mp_get(mp, size); if (nxt_slow_path(dst->u.array == NULL)) { return NXT_ERROR; } dst->u.array->count = src->u.array->count; for (n = 0; n < src->u.array->count; n++) { rc = nxt_conf_copy_value(mp, NULL, &dst->u.array->elements[n], &src->u.array->elements[n]); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } } break; case NXT_CONF_VALUE_OBJECT: return nxt_conf_copy_object(mp, op, dst, src); default: dst->u = src->u; } return NXT_OK; } static nxt_int_t nxt_conf_copy_object(nxt_mp_t *mp, nxt_conf_op_t *op, nxt_conf_value_t *dst, nxt_conf_value_t *src) { size_t size; nxt_int_t rc; nxt_uint_t s, d, count, index; nxt_conf_op_t *pass_op; nxt_conf_value_t *value; nxt_conf_object_member_t *member; count = src->u.object->count; if (op != NULL) { if (op->action == NXT_CONF_OP_CREATE) { count++; } else if (op->action == NXT_CONF_OP_DELETE) { count--; } } size = sizeof(nxt_conf_object_t) + count * sizeof(nxt_conf_object_member_t); dst->u.object = nxt_mp_get(mp, size); if (nxt_slow_path(dst->u.object == NULL)) { return NXT_ERROR; } dst->u.object->count = count; s = 0; d = 0; pass_op = NULL; /* * This initialization is needed only to * suppress a warning on GCC 4.8 and older. */ index = 0; do { if (pass_op == NULL) { index = (op == NULL || op->action == NXT_CONF_OP_CREATE) ? src->u.object->count : op->index; } while (s != index) { rc = nxt_conf_copy_value(mp, NULL, &dst->u.object->members[d].name, &src->u.object->members[s].name); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } rc = nxt_conf_copy_value(mp, pass_op, &dst->u.object->members[d].value, &src->u.object->members[s].value); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } s++; d++; } if (pass_op != NULL) { pass_op = NULL; continue; } if (op != NULL) { switch (op->action) { case NXT_CONF_OP_PASS: pass_op = op->ctx; index++; break; case NXT_CONF_OP_CREATE: member = op->ctx; rc = nxt_conf_copy_value(mp, NULL, &dst->u.object->members[d].name, &member->name); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } dst->u.object->members[d].value = member->value; d++; break; case NXT_CONF_OP_REPLACE: rc = nxt_conf_copy_value(mp, NULL, &dst->u.object->members[d].name, &src->u.object->members[s].name); if (nxt_slow_path(rc != NXT_OK)) { return NXT_ERROR; } value = op->ctx; dst->u.object->members[d].value = *value; s++; d++; break; case NXT_CONF_OP_DELETE: s++; break; } op = op->next; } } while (d != count); dst->type = src->type; return NXT_OK; } nxt_conf_value_t * nxt_conf_json_parse(nxt_mp_t *mp, u_char *start, u_char *end, nxt_conf_json_error_t *error) { u_char *p; nxt_conf_value_t *value; value = nxt_mp_get(mp, sizeof(nxt_conf_value_t)); if (nxt_slow_path(value == NULL)) { return NULL; } p = nxt_conf_json_skip_space(start, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, start, "An empty JSON isn't allowed. It must be either literal " "(null, true, or false), number, string (in double quotes \"\"), " "array (with brackets []), or object (with braces {})." ); return NULL; } p = nxt_conf_json_parse_value(mp, value, p, end, error); if (nxt_slow_path(p == NULL)) { return NULL; } p = nxt_conf_json_skip_space(p, end); if (nxt_slow_path(p != end)) { nxt_conf_json_parse_error(error, p, "Unexpected character after the end of valid JSON value." ); return NULL; } return value; } static u_char * nxt_conf_json_skip_space(u_char *start, u_char *end) { u_char *p; for (p = start; nxt_fast_path(p != end); p++) { switch (*p) { case ' ': case '\t': case '\r': case '\n': continue; } break; } return p; } static u_char * nxt_conf_json_parse_value(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error) { u_char ch, *p; ch = *start; switch (ch) { case '{': return nxt_conf_json_parse_object(mp, value, start, end, error); case '[': return nxt_conf_json_parse_array(mp, value, start, end, error); case '"': return nxt_conf_json_parse_string(mp, value, start, end, error); case 't': if (nxt_fast_path(end - start >= 4 && nxt_memcmp(start, "true", 4) == 0)) { value->u.boolean = 1; value->type = NXT_CONF_VALUE_BOOLEAN; return start + 4; } goto error; case 'f': if (nxt_fast_path(end - start >= 5 && nxt_memcmp(start, "false", 5) == 0)) { value->u.boolean = 0; value->type = NXT_CONF_VALUE_BOOLEAN; return start + 5; } goto error; case 'n': if (nxt_fast_path(end - start >= 4 && nxt_memcmp(start, "null", 4) == 0)) { value->type = NXT_CONF_VALUE_NULL; return start + 4; } goto error; case '-': if (nxt_fast_path(end - start > 1)) { ch = start[1]; break; } goto error; } if (nxt_fast_path((ch - '0') <= 9)) { p = nxt_conf_json_parse_number(mp, value, start, end, error); if (p == end) { return end; } switch (*p) { case ' ': case '\t': case '\r': case '\n': case ',': case '}': case ']': case '{': case '[': case '"': return p; } } error: nxt_conf_json_parse_error(error, start, "A valid JSON value is expected here. It must be either literal " "(null, true, or false), number, string (in double quotes \"\"), " "array (with brackets []), or object (with braces {})." ); return NULL; } static const nxt_lvlhsh_proto_t nxt_conf_object_hash_proto nxt_aligned(64) = { NXT_LVLHSH_DEFAULT, nxt_conf_object_hash_test, nxt_conf_object_hash_alloc, nxt_conf_object_hash_free, }; static u_char * nxt_conf_json_parse_object(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error) { u_char *p, *name; nxt_mp_t *mp_temp; nxt_int_t rc; nxt_uint_t count; nxt_lvlhsh_t hash; nxt_lvlhsh_each_t lhe; nxt_conf_object_t *object; nxt_conf_object_member_t *member, *element; mp_temp = nxt_mp_create(1024, 128, 256, 32); if (nxt_slow_path(mp_temp == NULL)) { return NULL; } nxt_lvlhsh_init(&hash); count = 0; p = start; for ( ;; ) { p = nxt_conf_json_skip_space(p + 1, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's an object without closing " "brace (})." ); goto error; } if (*p != '"') { if (nxt_fast_path(*p == '}')) { break; } nxt_conf_json_parse_error(error, p, "A double quote (\") is expected here. There must be a valid " "JSON object member starts with a name, which is a string " "enclosed in double quotes." ); goto error; } name = p; count++; member = nxt_mp_get(mp_temp, sizeof(nxt_conf_object_member_t)); if (nxt_slow_path(member == NULL)) { goto error; } p = nxt_conf_json_parse_string(mp, &member->name, p, end, error); if (nxt_slow_path(p == NULL)) { goto error; } rc = nxt_conf_object_hash_add(mp_temp, &hash, member); if (nxt_slow_path(rc != NXT_OK)) { if (rc == NXT_DECLINED) { nxt_conf_json_parse_error(error, name, "Duplicate object member. All JSON object members must " "have unique names." ); } goto error; } p = nxt_conf_json_skip_space(p, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's an object member without " "value." ); goto error; } if (nxt_slow_path(*p != ':')) { nxt_conf_json_parse_error(error, p, "A colon (:) is expected here. There must be a colon between " "JSON member name and value." ); goto error; } p = nxt_conf_json_skip_space(p + 1, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's an object member without " "value." ); goto error; } p = nxt_conf_json_parse_value(mp, &member->value, p, end, error); if (nxt_slow_path(p == NULL)) { goto error; } p = nxt_conf_json_skip_space(p, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's an object without closing " "brace (})." ); goto error; } if (*p != ',') { if (nxt_fast_path(*p == '}')) { break; } nxt_conf_json_parse_error(error, p, "Either a closing brace (}) or a comma (,) is expected here. " "In JSON, all object members must be enclosed in braces and " "separated by commas." ); goto error; } } object = nxt_mp_get(mp, sizeof(nxt_conf_object_t) + count * sizeof(nxt_conf_object_member_t)); if (nxt_slow_path(object == NULL)) { goto error; } value->u.object = object; value->type = NXT_CONF_VALUE_OBJECT; object->count = count; member = object->members; nxt_memzero(&lhe, sizeof(nxt_lvlhsh_each_t)); lhe.proto = &nxt_conf_object_hash_proto; for ( ;; ) { element = nxt_lvlhsh_each(&hash, &lhe); if (element == NULL) { break; } *member++ = *element; } nxt_mp_destroy(mp_temp); return p + 1; error: nxt_mp_destroy(mp_temp); return NULL; } static nxt_int_t nxt_conf_object_hash_add(nxt_mp_t *mp, nxt_lvlhsh_t *lvlhsh, nxt_conf_object_member_t *member) { nxt_lvlhsh_query_t lhq; nxt_conf_get_string(&member->name, &lhq.key); lhq.key_hash = nxt_djb_hash(lhq.key.start, lhq.key.length); lhq.replace = 0; lhq.value = member; lhq.proto = &nxt_conf_object_hash_proto; lhq.pool = mp; return nxt_lvlhsh_insert(lvlhsh, &lhq); } static nxt_int_t nxt_conf_object_hash_test(nxt_lvlhsh_query_t *lhq, void *data) { nxt_str_t str; nxt_conf_object_member_t *member; member = data; nxt_conf_get_string(&member->name, &str); return nxt_strstr_eq(&lhq->key, &str) ? NXT_OK : NXT_DECLINED; } static void * nxt_conf_object_hash_alloc(void *data, size_t size) { return nxt_mp_align(data, size, size); } static void nxt_conf_object_hash_free(void *data, void *p) { nxt_mp_free(data, p); } static u_char * nxt_conf_json_parse_array(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error) { u_char *p; nxt_mp_t *mp_temp; nxt_uint_t count; nxt_list_t *list; nxt_conf_array_t *array; nxt_conf_value_t *element; mp_temp = nxt_mp_create(1024, 128, 256, 32); if (nxt_slow_path(mp_temp == NULL)) { return NULL; } list = nxt_list_create(mp_temp, 8, sizeof(nxt_conf_value_t)); if (nxt_slow_path(list == NULL)) { goto error; } count = 0; p = start; for ( ;; ) { p = nxt_conf_json_skip_space(p + 1, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's an array without closing " "bracket (])." ); goto error; } if (*p == ']') { break; } count++; element = nxt_list_add(list); if (nxt_slow_path(element == NULL)) { goto error; } p = nxt_conf_json_parse_value(mp, element, p, end, error); if (nxt_slow_path(p == NULL)) { goto error; } p = nxt_conf_json_skip_space(p, end); if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's an array without closing " "bracket (])." ); goto error; } if (*p != ',') { if (nxt_fast_path(*p == ']')) { break; } nxt_conf_json_parse_error(error, p, "Either a closing bracket (]) or a comma (,) is expected here. " "In JSON, all array members must be enclosed in brackets and " "separated by commas." ); goto error; } } array = nxt_mp_get(mp, sizeof(nxt_conf_array_t) + count * sizeof(nxt_conf_value_t)); if (nxt_slow_path(array == NULL)) { goto error; } value->u.array = array; value->type = NXT_CONF_VALUE_ARRAY; array->count = count; element = array->elements; nxt_list_each(value, list) { *element++ = *value; } nxt_list_loop; nxt_mp_destroy(mp_temp); return p + 1; error: nxt_mp_destroy(mp_temp); return NULL; } static u_char * nxt_conf_json_parse_string(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error) { u_char *p, ch, *last, *s; size_t size, surplus; uint32_t utf, utf_high; nxt_uint_t i; enum { sw_usual = 0, sw_escape, sw_encoded1, sw_encoded2, sw_encoded3, sw_encoded4, } state; start++; state = 0; surplus = 0; for (p = start; nxt_fast_path(p != end); p++) { ch = *p; switch (state) { case sw_usual: if (ch == '"') { break; } if (ch == '\\') { state = sw_escape; continue; } if (nxt_fast_path(ch >= ' ')) { continue; } nxt_conf_json_parse_error(error, p, "Unexpected character in string. All control characters must " "be escaped in JSON strings." ); return NULL; case sw_escape: switch (ch) { case '"': case '\\': case '/': case 'n': case 'r': case 't': case 'b': case 'f': surplus++; state = sw_usual; continue; case 'u': /* * Basic unicode 6 bytes "\uXXXX" in JSON * and up to 3 bytes in UTF-8. * * Surrogate pair: 12 bytes "\uXXXX\uXXXX" in JSON * and 3 or 4 bytes in UTF-8. */ surplus += 3; state = sw_encoded1; continue; } nxt_conf_json_parse_error(error, p - 1, "Unexpected reverse solidus in string. Reverse solidus in " "JSON strings must be escaped with a second reverse solidus " "(\\\\)." ); return NULL; case sw_encoded1: case sw_encoded2: case sw_encoded3: case sw_encoded4: if (nxt_fast_path((ch >= '0' && ch <= '9') || (ch >= 'A' && ch <= 'F') || (ch >= 'a' && ch <= 'f'))) { state = (state == sw_encoded4) ? sw_usual : state + 1; continue; } nxt_conf_json_parse_error(error, p, "Invalid escape sequence. In JSON, escape sequences start " "with a reverse solidus, followed by the lowercase letter u, " "followed by four hexadecimal digits (\\uXXXX)." ); return NULL; } break; } if (nxt_slow_path(p == end)) { nxt_conf_json_parse_error(error, p, "Unexpected end of JSON. There's a string without ending double " "quote (\")." ); return NULL; } /* Points to the ending quote mark. */ last = p; size = last - start - surplus; if (size > NXT_CONF_MAX_SHORT_STRING) { if (nxt_slow_path(size > NXT_CONF_MAX_STRING)) { nxt_conf_json_parse_error(error, start, "Too long string. Such a big JSON string values are not " "supported." ); return NULL; } value->type = NXT_CONF_VALUE_STRING; value->u.string.start = nxt_mp_nget(mp, size); if (nxt_slow_path(value->u.string.start == NULL)) { return NULL; } value->u.string.length = size; s = value->u.string.start; } else { value->type = NXT_CONF_VALUE_SHORT_STRING; value->u.str.length = size; s = value->u.str.start; } if (surplus == 0) { nxt_memcpy(s, start, size); return last + 1; } p = start; do { ch = *p++; if (ch != '\\') { *s++ = ch; continue; } ch = *p++; switch (ch) { case '"': case '\\': case '/': *s++ = ch; continue; case 'n': *s++ = '\n'; continue; case 'r': *s++ = '\r'; continue; case 't': *s++ = '\t'; continue; case 'b': *s++ = '\b'; continue; case 'f': *s++ = '\f'; continue; } utf = 0; utf_high = 0; for ( ;; ) { for (i = 0; i < 4; i++) { utf = (utf << 4) | (p[i] >= 'A' ? 10 + ((p[i] & ~0x20) - 'A') : p[i] - '0'); } p += 4; if (utf_high != 0) { if (nxt_slow_path(utf < 0xdc00 || utf > 0xdfff)) { nxt_conf_json_parse_error(error, p - 12, "Invalid JSON encoding sequence. There's a 12 bytes " "sequence that composes an illegal UTF-16 surrogate " "pair." ); return NULL; } utf = ((utf_high - 0xd800) << 10) + (utf - 0xdc00) + 0x10000; break; } if (utf < 0xd800 || utf > 0xdfff) { break; } if (utf > 0xdbff || p[0] != '\\' || p[1] != 'u') { nxt_conf_json_parse_error(error, p - 6, "Invalid JSON encoding sequence. There's a 6 bytes " "sequence that doesn't represent a valid character." ); return NULL; } p += 2; utf_high = utf; utf = 0; } s = nxt_utf8_encode(s, utf); } while (p != last); if (size > NXT_CONF_MAX_SHORT_STRING) { value->u.string.length = s - value->u.string.start; } else { value->u.str.length = s - value->u.str.start; } return last + 1; } static u_char * nxt_conf_json_parse_number(nxt_mp_t *mp, nxt_conf_value_t *value, u_char *start, u_char *end, nxt_conf_json_error_t *error) { u_char *p, ch; uint64_t integer; nxt_int_t sign; #if 0 uint64_t frac, power nxt_int_t e, negative; #endif static const uint64_t cutoff = NXT_INT64_T_MAX / 10; static const uint64_t cutlim = NXT_INT64_T_MAX % 10; ch = *start; if (ch == '-') { sign = -1; start++; } else { sign = 1; } integer = 0; for (p = start; nxt_fast_path(p != end); p++) { ch = *p; /* Values below '0' become >= 208. */ ch = ch - '0'; if (ch > 9) { break; } if (nxt_slow_path(integer >= cutoff && (integer > cutoff || ch > cutlim))) { nxt_conf_json_parse_error(error, start, "Too big integer. Such a big JSON integer values are not " "supported." ); return NULL; } integer = integer * 10 + ch; } if (nxt_slow_path(p - start > 1 && *start == '0')) { nxt_conf_json_parse_error(error, start, "Leading zeros are not allowed in JSON numbers." ); return NULL; } if (ch != '.') { value->type = NXT_CONF_VALUE_INTEGER; value->u.integer = sign * integer; return p; } #if 0 start = p + 1; frac = 0; power = 1; for (p = start; nxt_fast_path(p != end); p++) { ch = *p; /* Values below '0' become >= 208. */ ch = ch - '0'; if (ch > 9) { break; } if (nxt_slow_path((frac >= cutoff && (frac > cutoff || ch > cutlim)) || power > cutoff)) { return NULL; } frac = frac * 10 + ch; power *= 10; } if (nxt_slow_path(p == start)) { return NULL; } value->type = NXT_CONF_VALUE_NUMBER; value->u.number = integer + (double) frac / power; value->u.number = copysign(value->u.number, sign); if (ch == 'e' || ch == 'E') { start = p + 1; ch = *start; if (ch == '-' || ch == '+') { start++; } negative = (ch == '-') ? 1 : 0; e = 0; for (p = start; nxt_fast_path(p != end); p++) { ch = *p; /* Values below '0' become >= 208. */ ch = ch - '0'; if (ch > 9) { break; } e = e * 10 + ch; if (nxt_slow_path(e > DBL_MAX_10_EXP)) { return NULL; } } if (nxt_slow_path(p == start)) { return NULL; } if (negative) { value->u.number /= exp10(e); } else { value->u.number *= exp10(e); } } if (nxt_fast_path(isfinite(value->u.number))) { return p; } #else nxt_conf_json_parse_error(error, start, "Invalid number. Only integer JSON numbers without fraction and " "exponent parts are supported." ); #endif return NULL; } static void nxt_conf_json_parse_error(nxt_conf_json_error_t *error, u_char *pos, const char *detail) { if (error == NULL) { return; } error->pos = pos; error->detail = (u_char *) detail; } size_t nxt_conf_json_length(nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty) { switch (value->type) { case NXT_CONF_VALUE_NULL: return sizeof("null") - 1; case NXT_CONF_VALUE_BOOLEAN: return value->u.boolean ? sizeof("true") - 1 : sizeof("false") - 1; case NXT_CONF_VALUE_INTEGER: return nxt_conf_json_integer_length(value); case NXT_CONF_VALUE_NUMBER: /* TODO */ return 0; case NXT_CONF_VALUE_SHORT_STRING: case NXT_CONF_VALUE_STRING: return nxt_conf_json_string_length(value); case NXT_CONF_VALUE_ARRAY: return nxt_conf_json_array_length(value, pretty); case NXT_CONF_VALUE_OBJECT: return nxt_conf_json_object_length(value, pretty); } nxt_unreachable(); return 0; } u_char * nxt_conf_json_print(u_char *p, nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty) { switch (value->type) { case NXT_CONF_VALUE_NULL: return nxt_cpymem(p, "null", 4); case NXT_CONF_VALUE_BOOLEAN: return value->u.boolean ? nxt_cpymem(p, "true", 4) : nxt_cpymem(p, "false", 5); case NXT_CONF_VALUE_INTEGER: return nxt_conf_json_print_integer(p, value); case NXT_CONF_VALUE_NUMBER: /* TODO */ return p; case NXT_CONF_VALUE_SHORT_STRING: case NXT_CONF_VALUE_STRING: return nxt_conf_json_print_string(p, value); case NXT_CONF_VALUE_ARRAY: return nxt_conf_json_print_array(p, value, pretty); case NXT_CONF_VALUE_OBJECT: return nxt_conf_json_print_object(p, value, pretty); } nxt_unreachable(); return p; } static size_t nxt_conf_json_integer_length(nxt_conf_value_t *value) { int64_t num; num = llabs(value->u.integer); if (num <= 9999) { return sizeof("-9999") - 1; } if (num <= 99999999999LL) { return sizeof("-99999999999") - 1; } return NXT_INT64_T_LEN; } static u_char * nxt_conf_json_print_integer(u_char *p, nxt_conf_value_t *value) { return nxt_sprintf(p, p + NXT_INT64_T_LEN, "%L", value->u.integer); } static size_t nxt_conf_json_string_length(nxt_conf_value_t *value) { nxt_str_t str; nxt_conf_get_string(value, &str); return 2 + nxt_conf_json_escape_length(str.start, str.length); } static u_char * nxt_conf_json_print_string(u_char *p, nxt_conf_value_t *value) { nxt_str_t str; nxt_conf_get_string(value, &str); *p++ = '"'; p = nxt_conf_json_escape(p, str.start, str.length); *p++ = '"'; return p; } static size_t nxt_conf_json_array_length(nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty) { size_t len; nxt_uint_t n; nxt_conf_array_t *array; array = value->u.array; /* [] */ len = 2; if (pretty != NULL) { pretty->level++; } value = array->elements; for (n = 0; n < array->count; n++) { len += nxt_conf_json_length(&value[n], pretty); if (pretty != NULL) { /* Indentation and new line. */ len += pretty->level + 2; } } if (pretty != NULL) { pretty->level--; if (n != 0) { /* Indentation and new line. */ len += pretty->level + 2; } } /* Reserve space for "n" commas. */ return len + n; } static u_char * nxt_conf_json_print_array(u_char *p, nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty) { nxt_uint_t n; nxt_conf_array_t *array; array = value->u.array; *p++ = '['; if (array->count != 0) { value = array->elements; if (pretty != NULL) { p = nxt_conf_json_newline(p); pretty->level++; p = nxt_conf_json_indentation(p, pretty->level); } p = nxt_conf_json_print(p, &value[0], pretty); for (n = 1; n < array->count; n++) { *p++ = ','; if (pretty != NULL) { p = nxt_conf_json_newline(p); p = nxt_conf_json_indentation(p, pretty->level); pretty->more_space = 0; } p = nxt_conf_json_print(p, &value[n], pretty); } if (pretty != NULL) { p = nxt_conf_json_newline(p); pretty->level--; p = nxt_conf_json_indentation(p, pretty->level); pretty->more_space = 1; } } *p++ = ']'; return p; } static size_t nxt_conf_json_object_length(nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty) { size_t len; nxt_uint_t n; nxt_conf_object_t *object; nxt_conf_object_member_t *member; object = value->u.object; /* {} */ len = 2; if (pretty != NULL) { pretty->level++; } member = object->members; for (n = 0; n < object->count; n++) { len += nxt_conf_json_string_length(&member[n].name) + 1 + nxt_conf_json_length(&member[n].value, pretty) + 1; if (pretty != NULL) { /* * Indentation, space after ":", new line, and possible * additional empty line between non-empty objects. */ len += pretty->level + 1 + 2 + 2; } } if (pretty != NULL) { pretty->level--; /* Indentation and new line. */ len += pretty->level + 2; } return len; } static u_char * nxt_conf_json_print_object(u_char *p, nxt_conf_value_t *value, nxt_conf_json_pretty_t *pretty) { nxt_uint_t n; nxt_conf_object_t *object; nxt_conf_object_member_t *member; object = value->u.object; *p++ = '{'; if (object->count != 0) { if (pretty != NULL) { p = nxt_conf_json_newline(p); pretty->level++; } member = object->members; n = 0; for ( ;; ) { if (pretty != NULL) { p = nxt_conf_json_indentation(p, pretty->level); } p = nxt_conf_json_print_string(p, &member[n].name); *p++ = ':'; if (pretty != NULL) { *p++ = ' '; } p = nxt_conf_json_print(p, &member[n].value, pretty); n++; if (n == object->count) { break; } *p++ = ','; if (pretty != NULL) { p = nxt_conf_json_newline(p); if (pretty->more_space) { pretty->more_space = 0; p = nxt_conf_json_newline(p); } } } if (pretty != NULL) { p = nxt_conf_json_newline(p); pretty->level--; p = nxt_conf_json_indentation(p, pretty->level); pretty->more_space = 1; } } *p++ = '}'; return p; } static size_t nxt_conf_json_escape_length(u_char *p, size_t size) { u_char ch; size_t len; len = size; while (size) { ch = *p++; if (ch == '\\' || ch == '"') { len++; } else if (ch <= 0x1f) { switch (ch) { case '\n': case '\r': case '\t': case '\b': case '\f': len++; break; default: len += sizeof("\\u001F") - 2; } } size--; } return len; } static u_char * nxt_conf_json_escape(u_char *dst, u_char *src, size_t size) { u_char ch; while (size) { ch = *src++; if (ch > 0x1f) { if (ch == '\\' || ch == '"') { *dst++ = '\\'; } *dst++ = ch; } else { *dst++ = '\\'; switch (ch) { case '\n': *dst++ = 'n'; break; case '\r': *dst++ = 'r'; break; case '\t': *dst++ = 't'; break; case '\b': *dst++ = 'b'; break; case '\f': *dst++ = 'f'; break; default: *dst++ = 'u'; *dst++ = '0'; *dst++ = '0'; *dst++ = '0' + (ch >> 4); ch &= 0xf; *dst++ = (ch < 10) ? ('0' + ch) : ('A' + ch - 10); } } size--; } return dst; } void nxt_conf_json_position(u_char *start, u_char *pos, nxt_uint_t *line, nxt_uint_t *column) { u_char *p; ssize_t symbols; nxt_uint_t lines; lines = 1; for (p = start; p != pos; p++) { if (*p != '\n') { continue; } lines++; start = p + 1; } symbols = nxt_utf8_length(start, p - start); if (symbols != -1) { *line = lines; *column = 1 + symbols; } }