/*** This file is part of PulseAudio. Copyright 2016 Arun Raghavan PulseAudio is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. PulseAudio is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with PulseAudio; if not, see . ***/ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #define MAX_NESTING_DEPTH 20 /* Arbitrary number to make sure we don't have a stack overflow */ struct pa_json_object { pa_json_type type; union { int int_value; double double_value; bool bool_value; char *string_value; pa_hashmap *object_values; /* name -> object */ pa_idxset *array_values; /* objects */ }; }; static const char* parse_value(const char *str, const char *end, pa_json_object **obj, unsigned int depth); static pa_json_object* json_object_new(void) { pa_json_object *obj; obj = pa_xnew0(pa_json_object, 1); return obj; } static bool is_whitespace(char c) { return c == '\t' || c == '\n' || c == '\r' || c == ' '; } static bool is_digit(char c) { return c >= '0' && c <= '9'; } static bool is_end(const char c, const char *end) { if (!end) return c == '\0'; else { while (*end) { if (c == *end) return true; end++; } } return false; } static const char* consume_string(const char *str, const char *expect) { while (*expect) { if (*str != *expect) return NULL; str++; expect++; } return str; } static const char* parse_null(const char *str, pa_json_object *obj) { str = consume_string(str, "null"); if (str) obj->type = PA_JSON_TYPE_NULL; return str; } static const char* parse_boolean(const char *str, pa_json_object *obj) { const char *tmp; tmp = consume_string(str, "true"); if (tmp) { obj->type = PA_JSON_TYPE_BOOL; obj->bool_value = true; } else { tmp = consume_string(str, "false"); if (str) { obj->type = PA_JSON_TYPE_BOOL; obj->bool_value = false; } } return tmp; } static const char* parse_string(const char *str, pa_json_object *obj) { pa_strbuf *buf = pa_strbuf_new(); str++; /* Consume leading '"' */ while (*str && *str != '"') { if (*str != '\\') { /* We only accept ASCII printable characters. */ if (*str < 0x20 || *str > 0x7E) { pa_log("Invalid non-ASCII character: 0x%x", (unsigned int) *str); goto error; } /* Normal character, juts consume */ pa_strbuf_putc(buf, *str); } else { /* Need to unescape */ str++; switch (*str) { case '"': case '\\': case '/': pa_strbuf_putc(buf, *str); break; case 'b': pa_strbuf_putc(buf, '\b' /* backspace */); break; case 'f': pa_strbuf_putc(buf, '\f' /* form feed */); break; case 'n': pa_strbuf_putc(buf, '\n' /* new line */); break; case 'r': pa_strbuf_putc(buf, '\r' /* carriage return */); break; case 't': pa_strbuf_putc(buf, '\t' /* horizontal tab */); break; case 'u': pa_log("Unicode code points are currently unsupported"); goto error; default: pa_log("Unexepcted escape value: %c", *str); goto error; } } str++; } if (*str != '"') { pa_log("Failed to parse remainder of string: %s", str); goto error; } str++; obj->type = PA_JSON_TYPE_STRING; obj->string_value = pa_strbuf_to_string_free(buf); return str; error: pa_strbuf_free(buf); return NULL; } static const char* parse_number(const char *str, pa_json_object *obj) { bool negative = false, has_fraction = false, has_exponent = false, valid = false; unsigned int integer = 0; unsigned int fraction = 0; unsigned int fraction_digits = 0; int exponent = 0; if (*str == '-') { negative = true; str++; } if (*str == '0') { valid = true; str++; goto fraction; } while (is_digit(*str)) { valid = true; if (integer > ((negative ? INT_MAX : UINT_MAX) / 10)) { pa_log("Integer overflow while parsing number"); goto error; } integer = (integer * 10) + (*str - '0'); str++; } fraction: if (!valid) { pa_log("Missing digits while parsing number"); goto error; } if (*str == '.') { has_fraction = true; str++; valid = false; while (is_digit(*str)) { valid = true; if (fraction > (UINT_MAX / 10)) { pa_log("Integer overflow while parsing fractional part of number"); goto error; } fraction = (fraction * 10) + (*str - '0'); fraction_digits++; str++; } if (!valid) { pa_log("No digit after '.' while parsing fraction"); goto error; } } if (*str == 'e' || *str == 'E') { bool exponent_negative = false; has_exponent = true; str++; valid = false; if (*str == '-') { exponent_negative = true; str++; } else if (*str == '+') str++; while (is_digit(*str)) { valid = true; if (exponent > (INT_MAX / 10)) { pa_log("Integer overflow while parsing exponent part of number"); goto error; } exponent = (exponent * 10) + (*str - '0'); str++; } if (!valid) { pa_log("No digit in exponent while parsing fraction"); goto error; } if (exponent_negative) exponent *= -1; } if (has_fraction || has_exponent) { obj->type = PA_JSON_TYPE_DOUBLE; obj->double_value = (negative ? -1.0 : 1.0) * (integer + (double) fraction / pow(10, fraction_digits)) * pow(10, exponent); } else { obj->type = PA_JSON_TYPE_INT; obj->int_value = (negative ? -1 : 1) * integer; } return str; error: return NULL; } static const char *parse_object(const char *str, pa_json_object *obj, unsigned int depth) { pa_json_object *name = NULL, *value = NULL; obj->object_values = pa_hashmap_new_full(pa_idxset_string_hash_func, pa_idxset_string_compare_func, pa_xfree, (pa_free_cb_t) pa_json_object_free); while (*str != '}') { str++; /* Consume leading '{' or ',' */ str = parse_value(str, ":", &name, depth + 1); if (!str || pa_json_object_get_type(name) != PA_JSON_TYPE_STRING) { pa_log("Could not parse key for object"); goto error; } /* Consume the ':' */ str++; str = parse_value(str, ",}", &value, depth + 1); if (!str) { pa_log("Could not parse value for object"); goto error; } pa_hashmap_put(obj->object_values, pa_xstrdup(pa_json_object_get_string(name)), value); pa_json_object_free(name); name = NULL; value = NULL; } /* Drop trailing '}' */ str++; /* We now know the value was correctly parsed */ obj->type = PA_JSON_TYPE_OBJECT; return str; error: pa_hashmap_free(obj->object_values); obj->object_values = NULL; if (name) pa_json_object_free(name); if (value) pa_json_object_free(value); return NULL; } static const char *parse_array(const char *str, pa_json_object *obj, unsigned int depth) { pa_json_object *value; obj->array_values = pa_idxset_new(NULL, NULL); while (*str != ']') { str++; /* Consume leading '[' or ',' */ /* Need to chew up whitespaces as a special case to deal with the * possibility of an empty array */ while (is_whitespace(*str)) str++; if (*str == ']') break; str = parse_value(str, ",]", &value, depth + 1); if (!str) { pa_log("Could not parse value for array"); goto error; } pa_idxset_put(obj->array_values, value, NULL); } /* Drop trailing ']' */ str++; /* We now know the value was correctly parsed */ obj->type = PA_JSON_TYPE_ARRAY; return str; error: pa_idxset_free(obj->array_values, (pa_free_cb_t) pa_json_object_free); obj->array_values = NULL; return NULL; } typedef enum { JSON_PARSER_STATE_INIT, JSON_PARSER_STATE_FINISH, } json_parser_state; static const char* parse_value(const char *str, const char *end, pa_json_object **obj, unsigned int depth) { json_parser_state state = JSON_PARSER_STATE_INIT; pa_json_object *o; pa_assert(str != NULL); o = json_object_new(); if (depth > MAX_NESTING_DEPTH) { pa_log("Exceeded maximum permitted nesting depth of objects (%u)", MAX_NESTING_DEPTH); goto error; } while (!is_end(*str, end)) { switch (state) { case JSON_PARSER_STATE_INIT: if (is_whitespace(*str)) { str++; } else if (*str == 'n') { str = parse_null(str, o); state = JSON_PARSER_STATE_FINISH; } else if (*str == 't' || *str == 'f') { str = parse_boolean(str, o); state = JSON_PARSER_STATE_FINISH; } else if (*str == '"') { str = parse_string(str, o); state = JSON_PARSER_STATE_FINISH; } else if (is_digit(*str) || *str == '-') { str = parse_number(str, o); state = JSON_PARSER_STATE_FINISH; } else if (*str == '{') { str = parse_object(str, o, depth); state = JSON_PARSER_STATE_FINISH; } else if (*str == '[') { str = parse_array(str, o, depth); state = JSON_PARSER_STATE_FINISH; } else { pa_log("Invalid JSON string: %s", str); goto error; } if (!str) goto error; break; case JSON_PARSER_STATE_FINISH: /* Consume trailing whitespaces */ if (is_whitespace(*str)) { str++; } else { goto error; } } } if (pa_json_object_get_type(o) == PA_JSON_TYPE_INIT) { /* We didn't actually get any data */ pa_log("No data while parsing json string: '%s' till '%s'", str, pa_strnull(end)); goto error; } *obj = o; return str; error: pa_json_object_free(o); return NULL; } pa_json_object* pa_json_parse(const char *str) { pa_json_object *obj; str = parse_value(str, NULL, &obj, 0); if (!str) { pa_log("JSON parsing failed"); return NULL; } if (*str != '\0') { pa_log("Unable to parse complete JSON string, remainder is: %s", str); pa_json_object_free(obj); return NULL; } return obj; } pa_json_type pa_json_object_get_type(const pa_json_object *obj) { return obj->type; } void pa_json_object_free(pa_json_object *obj) { switch (pa_json_object_get_type(obj)) { case PA_JSON_TYPE_INIT: case PA_JSON_TYPE_INT: case PA_JSON_TYPE_DOUBLE: case PA_JSON_TYPE_BOOL: case PA_JSON_TYPE_NULL: break; case PA_JSON_TYPE_STRING: pa_xfree(obj->string_value); break; case PA_JSON_TYPE_OBJECT: pa_hashmap_free(obj->object_values); break; case PA_JSON_TYPE_ARRAY: pa_idxset_free(obj->array_values, (pa_free_cb_t) pa_json_object_free); break; default: pa_assert_not_reached(); } pa_xfree(obj); } int pa_json_object_get_int(const pa_json_object *o) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_INT); return o->int_value; } double pa_json_object_get_double(const pa_json_object *o) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_DOUBLE); return o->double_value; } bool pa_json_object_get_bool(const pa_json_object *o) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_BOOL); return o->bool_value; } const char* pa_json_object_get_string(const pa_json_object *o) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_STRING); return o->string_value; } const pa_json_object* pa_json_object_get_object_member(const pa_json_object *o, const char *name) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_OBJECT); return pa_hashmap_get(o->object_values, name); } int pa_json_object_get_array_length(const pa_json_object *o) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_ARRAY); return pa_idxset_size(o->array_values); } const pa_json_object* pa_json_object_get_array_member(const pa_json_object *o, int index) { pa_assert(pa_json_object_get_type(o) == PA_JSON_TYPE_ARRAY); return pa_idxset_get_by_index(o->array_values, index); } bool pa_json_object_equal(const pa_json_object *o1, const pa_json_object *o2) { int i; if (pa_json_object_get_type(o1) != pa_json_object_get_type(o2)) return false; switch (pa_json_object_get_type(o1)) { case PA_JSON_TYPE_NULL: return true; case PA_JSON_TYPE_BOOL: return o1->bool_value == o2->bool_value; case PA_JSON_TYPE_INT: return o1->int_value == o2->int_value; case PA_JSON_TYPE_DOUBLE: return PA_DOUBLE_IS_EQUAL(o1->double_value, o2->double_value); case PA_JSON_TYPE_STRING: return pa_streq(o1->string_value, o2->string_value); case PA_JSON_TYPE_ARRAY: if (pa_json_object_get_array_length(o1) != pa_json_object_get_array_length(o2)) return false; for (i = 0; i < pa_json_object_get_array_length(o1); i++) { if (!pa_json_object_equal(pa_json_object_get_array_member(o1, i), pa_json_object_get_array_member(o2, i))) return false; } return true; case PA_JSON_TYPE_OBJECT: { void *state; const char *key; const pa_json_object *v1, *v2; if (pa_hashmap_size(o1->object_values) != pa_hashmap_size(o2->object_values)) return false; PA_HASHMAP_FOREACH_KV(key, v1, o1->object_values, state) { v2 = pa_json_object_get_object_member(o2, key); if (!v2 || !pa_json_object_equal(v1, v2)) return false; } return true; } default: pa_assert_not_reached(); } }