godot/core/io/plist.cpp

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/**************************************************************************/
/* plist.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
#include "plist.h"
PList::PLNodeType PListNode::get_type() const {
return data_type;
}
Variant PListNode::get_value() const {
switch (data_type) {
case PList::PL_NODE_TYPE_NIL: {
return Variant();
} break;
case PList::PL_NODE_TYPE_STRING: {
return String::utf8(data_string.get_data());
} break;
case PList::PL_NODE_TYPE_ARRAY: {
Array arr;
for (const Ref<PListNode> &E : data_array) {
arr.push_back(E);
}
return arr;
} break;
case PList::PL_NODE_TYPE_DICT: {
Dictionary dict;
for (const KeyValue<String, Ref<PListNode>> &E : data_dict) {
dict[E.key] = E.value;
}
return dict;
} break;
case PList::PL_NODE_TYPE_BOOLEAN: {
return data_bool;
} break;
case PList::PL_NODE_TYPE_INTEGER: {
return data_int;
} break;
case PList::PL_NODE_TYPE_REAL: {
return data_real;
} break;
case PList::PL_NODE_TYPE_DATA: {
int strlen = data_string.length();
size_t arr_len = 0;
Vector<uint8_t> buf;
{
buf.resize(strlen / 4 * 3 + 1);
uint8_t *w = buf.ptrw();
ERR_FAIL_COND_V(CryptoCore::b64_decode(&w[0], buf.size(), &arr_len, (unsigned char *)data_string.get_data(), strlen) != OK, Vector<uint8_t>());
}
buf.resize(arr_len);
return buf;
} break;
case PList::PL_NODE_TYPE_DATE: {
return String(data_string.get_data());
} break;
}
return Variant();
}
Ref<PListNode> PListNode::new_node(const Variant &p_value) {
Ref<PListNode> node;
node.instantiate();
switch (p_value.get_type()) {
case Variant::NIL: {
node->data_type = PList::PL_NODE_TYPE_NIL;
} break;
case Variant::BOOL: {
node->data_type = PList::PL_NODE_TYPE_BOOLEAN;
node->data_bool = p_value;
} break;
case Variant::INT: {
node->data_type = PList::PL_NODE_TYPE_INTEGER;
node->data_int = p_value;
} break;
case Variant::FLOAT: {
node->data_type = PList::PL_NODE_TYPE_REAL;
node->data_real = p_value;
} break;
case Variant::STRING_NAME:
case Variant::STRING: {
node->data_type = PList::PL_NODE_TYPE_STRING;
node->data_string = p_value.operator String().utf8();
} break;
case Variant::DICTIONARY: {
node->data_type = PList::PL_NODE_TYPE_DICT;
Dictionary dict = p_value;
const Variant *next = dict.next(nullptr);
while (next) {
Ref<PListNode> sub_node = dict[*next];
ERR_FAIL_COND_V_MSG(sub_node.is_null(), Ref<PListNode>(), "Invalid dictionary element, should be PListNode.");
node->data_dict[*next] = sub_node;
next = dict.next(next);
}
} break;
case Variant::ARRAY: {
node->data_type = PList::PL_NODE_TYPE_ARRAY;
Array ar = p_value;
for (int i = 0; i < ar.size(); i++) {
Ref<PListNode> sub_node = ar[i];
ERR_FAIL_COND_V_MSG(sub_node.is_null(), Ref<PListNode>(), "Invalid array element, should be PListNode.");
node->data_array.push_back(sub_node);
}
} break;
case Variant::PACKED_BYTE_ARRAY: {
node->data_type = PList::PL_NODE_TYPE_DATA;
PackedByteArray buf = p_value;
node->data_string = CryptoCore::b64_encode_str(buf.ptr(), buf.size()).utf8();
} break;
default: {
ERR_FAIL_V_MSG(Ref<PListNode>(), "Unsupported data type.");
} break;
}
return node;
}
Ref<PListNode> PListNode::new_array() {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_ARRAY;
return node;
}
Ref<PListNode> PListNode::new_dict() {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_DICT;
return node;
}
Ref<PListNode> PListNode::new_string(const String &p_string) {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_STRING;
node->data_string = p_string.utf8();
return node;
}
Ref<PListNode> PListNode::new_data(const String &p_string) {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_DATA;
node->data_string = p_string.utf8();
return node;
}
Ref<PListNode> PListNode::new_date(const String &p_string) {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_DATE;
node->data_string = p_string.utf8();
node->data_real = (double)Time::get_singleton()->get_unix_time_from_datetime_string(p_string) - 978307200.0;
return node;
}
Ref<PListNode> PListNode::new_bool(bool p_bool) {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_BOOLEAN;
node->data_bool = p_bool;
return node;
}
Ref<PListNode> PListNode::new_int(int64_t p_int) {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_INTEGER;
node->data_int = p_int;
return node;
}
Ref<PListNode> PListNode::new_real(double p_real) {
Ref<PListNode> node = memnew(PListNode());
ERR_FAIL_COND_V(node.is_null(), Ref<PListNode>());
node->data_type = PList::PLNodeType::PL_NODE_TYPE_REAL;
node->data_real = p_real;
return node;
}
bool PListNode::push_subnode(const Ref<PListNode> &p_node, const String &p_key) {
ERR_FAIL_COND_V(p_node.is_null(), false);
if (data_type == PList::PLNodeType::PL_NODE_TYPE_DICT) {
ERR_FAIL_COND_V(p_key.is_empty(), false);
ERR_FAIL_COND_V(data_dict.has(p_key), false);
data_dict[p_key] = p_node;
return true;
} else if (data_type == PList::PLNodeType::PL_NODE_TYPE_ARRAY) {
data_array.push_back(p_node);
return true;
} else {
ERR_FAIL_V_MSG(false, "PList: Invalid parent node type, should be DICT or ARRAY.");
}
}
size_t PListNode::get_asn1_size(uint8_t p_len_octets) const {
// Get size of all data, excluding type and size information.
switch (data_type) {
case PList::PLNodeType::PL_NODE_TYPE_NIL: {
return 0;
} break;
case PList::PLNodeType::PL_NODE_TYPE_DATA:
case PList::PLNodeType::PL_NODE_TYPE_DATE: {
ERR_FAIL_V_MSG(0, "PList: DATE and DATA nodes are not supported by ASN.1 serialization.");
} break;
case PList::PLNodeType::PL_NODE_TYPE_STRING: {
return data_string.length();
} break;
case PList::PLNodeType::PL_NODE_TYPE_BOOLEAN: {
return 1;
} break;
case PList::PLNodeType::PL_NODE_TYPE_INTEGER:
case PList::PLNodeType::PL_NODE_TYPE_REAL: {
return 4;
} break;
case PList::PLNodeType::PL_NODE_TYPE_ARRAY: {
size_t size = 0;
for (int i = 0; i < data_array.size(); i++) {
size += 1 + _asn1_size_len(p_len_octets) + data_array[i]->get_asn1_size(p_len_octets);
}
return size;
} break;
case PList::PLNodeType::PL_NODE_TYPE_DICT: {
size_t size = 0;
for (const KeyValue<String, Ref<PListNode>> &E : data_dict) {
size += 1 + _asn1_size_len(p_len_octets); // Sequence.
size += 1 + _asn1_size_len(p_len_octets) + E.key.utf8().length(); //Key.
size += 1 + _asn1_size_len(p_len_octets) + E.value->get_asn1_size(p_len_octets); // Value.
}
return size;
} break;
default: {
return 0;
} break;
}
}
int PListNode::_asn1_size_len(uint8_t p_len_octets) {
if (p_len_octets > 1) {
return p_len_octets + 1;
} else {
return 1;
}
}
void PListNode::store_asn1_size(PackedByteArray &p_stream, uint8_t p_len_octets) const {
uint32_t size = get_asn1_size(p_len_octets);
if (p_len_octets > 1) {
p_stream.push_back(0x80 + p_len_octets);
}
for (int i = p_len_octets - 1; i >= 0; i--) {
uint8_t x = (size >> i * 8) & 0xFF;
p_stream.push_back(x);
}
}
bool PListNode::store_asn1(PackedByteArray &p_stream, uint8_t p_len_octets) const {
// Convert to binary ASN1 stream.
bool valid = true;
switch (data_type) {
case PList::PLNodeType::PL_NODE_TYPE_NIL: {
// Nothing to store.
} break;
case PList::PLNodeType::PL_NODE_TYPE_DATE:
case PList::PLNodeType::PL_NODE_TYPE_DATA: {
ERR_FAIL_V_MSG(false, "PList: DATE and DATA nodes are not supported by ASN.1 serialization.");
} break;
case PList::PLNodeType::PL_NODE_TYPE_STRING: {
p_stream.push_back(0x0C);
store_asn1_size(p_stream, p_len_octets);
for (int i = 0; i < data_string.size(); i++) {
p_stream.push_back(data_string[i]);
}
} break;
case PList::PLNodeType::PL_NODE_TYPE_BOOLEAN: {
p_stream.push_back(0x01);
store_asn1_size(p_stream, p_len_octets);
if (data_bool) {
p_stream.push_back(0x01);
} else {
p_stream.push_back(0x00);
}
} break;
case PList::PLNodeType::PL_NODE_TYPE_INTEGER: {
p_stream.push_back(0x02);
store_asn1_size(p_stream, p_len_octets);
for (int i = 4; i >= 0; i--) {
uint8_t x = (data_int >> i * 8) & 0xFF;
p_stream.push_back(x);
}
} break;
case PList::PLNodeType::PL_NODE_TYPE_REAL: {
p_stream.push_back(0x03);
store_asn1_size(p_stream, p_len_octets);
for (int i = 4; i >= 0; i--) {
uint8_t x = (data_int >> i * 8) & 0xFF;
p_stream.push_back(x);
}
} break;
case PList::PLNodeType::PL_NODE_TYPE_ARRAY: {
p_stream.push_back(0x30); // Sequence.
store_asn1_size(p_stream, p_len_octets);
for (int i = 0; i < data_array.size(); i++) {
valid = valid && data_array[i]->store_asn1(p_stream, p_len_octets);
}
} break;
case PList::PLNodeType::PL_NODE_TYPE_DICT: {
p_stream.push_back(0x31); // Set.
store_asn1_size(p_stream, p_len_octets);
for (const KeyValue<String, Ref<PListNode>> &E : data_dict) {
CharString cs = E.key.utf8();
uint32_t size = cs.length();
// Sequence.
p_stream.push_back(0x30);
uint32_t seq_size = 2 * (1 + _asn1_size_len(p_len_octets)) + size + E.value->get_asn1_size(p_len_octets);
if (p_len_octets > 1) {
p_stream.push_back(0x80 + p_len_octets);
}
for (int i = p_len_octets - 1; i >= 0; i--) {
uint8_t x = (seq_size >> i * 8) & 0xFF;
p_stream.push_back(x);
}
// Key.
p_stream.push_back(0x0C);
if (p_len_octets > 1) {
p_stream.push_back(0x80 + p_len_octets);
}
for (int i = p_len_octets - 1; i >= 0; i--) {
uint8_t x = (size >> i * 8) & 0xFF;
p_stream.push_back(x);
}
for (uint32_t i = 0; i < size; i++) {
p_stream.push_back(cs[i]);
}
// Value.
valid = valid && E.value->store_asn1(p_stream, p_len_octets);
}
} break;
}
return valid;
}
void PListNode::store_text(String &p_stream, uint8_t p_indent) const {
// Convert to text XML stream.
switch (data_type) {
case PList::PLNodeType::PL_NODE_TYPE_NIL: {
// Nothing to store.
} break;
case PList::PLNodeType::PL_NODE_TYPE_DATA: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<data>\n";
p_stream += String("\t").repeat(p_indent);
p_stream += data_string + "\n";
p_stream += String("\t").repeat(p_indent);
p_stream += "</data>\n";
} break;
case PList::PLNodeType::PL_NODE_TYPE_DATE: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<date>";
p_stream += data_string;
p_stream += "</date>\n";
} break;
case PList::PLNodeType::PL_NODE_TYPE_STRING: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<string>";
p_stream += String::utf8(data_string);
p_stream += "</string>\n";
} break;
case PList::PLNodeType::PL_NODE_TYPE_BOOLEAN: {
p_stream += String("\t").repeat(p_indent);
if (data_bool) {
p_stream += "<true/>\n";
} else {
p_stream += "<false/>\n";
}
} break;
case PList::PLNodeType::PL_NODE_TYPE_INTEGER: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<integer>";
p_stream += itos(data_int);
p_stream += "</integer>\n";
} break;
case PList::PLNodeType::PL_NODE_TYPE_REAL: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<real>";
p_stream += rtos(data_real);
p_stream += "</real>\n";
} break;
case PList::PLNodeType::PL_NODE_TYPE_ARRAY: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<array>\n";
for (int i = 0; i < data_array.size(); i++) {
data_array[i]->store_text(p_stream, p_indent + 1);
}
p_stream += String("\t").repeat(p_indent);
p_stream += "</array>\n";
} break;
case PList::PLNodeType::PL_NODE_TYPE_DICT: {
p_stream += String("\t").repeat(p_indent);
p_stream += "<dict>\n";
for (const KeyValue<String, Ref<PListNode>> &E : data_dict) {
p_stream += String("\t").repeat(p_indent + 1);
p_stream += "<key>";
p_stream += E.key;
p_stream += "</key>\n";
E.value->store_text(p_stream, p_indent + 1);
}
p_stream += String("\t").repeat(p_indent);
p_stream += "</dict>\n";
} break;
}
}
/*************************************************************************/
PList::PList() {
root = PListNode::new_dict();
}
PList::PList(const String &p_string) {
String err_str;
bool ok = load_string(p_string, err_str);
ERR_FAIL_COND_MSG(!ok, "PList: " + err_str);
}
uint64_t PList::read_bplist_var_size_int(Ref<FileAccess> p_file, uint8_t p_size) {
uint64_t pos = p_file->get_position();
uint64_t ret = 0;
switch (p_size) {
case 1: {
ret = p_file->get_8();
} break;
case 2: {
ret = BSWAP16(p_file->get_16());
} break;
case 3: {
ret = BSWAP32(p_file->get_32() & 0x00FFFFFF);
} break;
case 4: {
ret = BSWAP32(p_file->get_32());
} break;
case 5: {
ret = BSWAP64(p_file->get_64() & 0x000000FFFFFFFFFF);
} break;
case 6: {
ret = BSWAP64(p_file->get_64() & 0x0000FFFFFFFFFFFF);
} break;
case 7: {
ret = BSWAP64(p_file->get_64() & 0x00FFFFFFFFFFFFFF);
} break;
case 8: {
ret = BSWAP64(p_file->get_64());
} break;
default: {
ret = 0;
}
}
p_file->seek(pos + p_size);
return ret;
}
Ref<PListNode> PList::read_bplist_obj(Ref<FileAccess> p_file, uint64_t p_offset_idx) {
Ref<PListNode> node;
node.instantiate();
uint64_t ot_off = trailer.offset_table_start + p_offset_idx * trailer.offset_size;
p_file->seek(ot_off);
uint64_t marker_off = read_bplist_var_size_int(p_file, trailer.offset_size);
ERR_FAIL_COND_V_MSG(marker_off == 0, Ref<PListNode>(), "Invalid marker size.");
p_file->seek(marker_off);
uint8_t marker = p_file->get_8();
uint8_t marker_type = marker & 0xF0;
uint64_t marker_size = marker & 0x0F;
switch (marker_type) {
case 0x00: {
if (marker_size == 0x00) {
node->data_type = PL_NODE_TYPE_NIL;
} else if (marker_size == 0x08) {
node->data_type = PL_NODE_TYPE_BOOLEAN;
node->data_bool = false;
} else if (marker_size == 0x09) {
node->data_type = PL_NODE_TYPE_BOOLEAN;
node->data_bool = true;
} else {
ERR_FAIL_V_MSG(Ref<PListNode>(), "Invalid nil/bool marker value.");
}
} break;
case 0x10: {
node->data_type = PL_NODE_TYPE_INTEGER;
node->data_int = static_cast<int64_t>(read_bplist_var_size_int(p_file, pow(2, marker_size)));
} break;
case 0x20: {
node->data_type = PL_NODE_TYPE_REAL;
node->data_int = static_cast<int64_t>(read_bplist_var_size_int(p_file, pow(2, marker_size)));
} break;
case 0x30: {
node->data_type = PL_NODE_TYPE_DATE;
node->data_int = BSWAP64(p_file->get_64());
node->data_string = Time::get_singleton()->get_datetime_string_from_unix_time(node->data_real + 978307200.0).utf8();
} break;
case 0x40: {
if (marker_size == 0x0F) {
uint8_t ext = p_file->get_8() & 0xF;
marker_size = read_bplist_var_size_int(p_file, pow(2, ext));
}
node->data_type = PL_NODE_TYPE_DATA;
PackedByteArray buf;
buf.resize(marker_size + 1);
p_file->get_buffer(reinterpret_cast<uint8_t *>(buf.ptrw()), marker_size);
node->data_string = CryptoCore::b64_encode_str(buf.ptr(), buf.size()).utf8();
} break;
case 0x50: {
if (marker_size == 0x0F) {
uint8_t ext = p_file->get_8() & 0xF;
marker_size = read_bplist_var_size_int(p_file, pow(2, ext));
}
node->data_type = PL_NODE_TYPE_STRING;
node->data_string.resize(marker_size + 1);
p_file->get_buffer(reinterpret_cast<uint8_t *>(node->data_string.ptrw()), marker_size);
} break;
case 0x60: {
if (marker_size == 0x0F) {
uint8_t ext = p_file->get_8() & 0xF;
marker_size = read_bplist_var_size_int(p_file, pow(2, ext));
}
Char16String cs16;
cs16.resize(marker_size + 1);
for (uint64_t i = 0; i < marker_size; i++) {
cs16[i] = BSWAP16(p_file->get_16());
}
node->data_type = PL_NODE_TYPE_STRING;
node->data_string = String::utf16(cs16.ptr(), cs16.length()).utf8();
} break;
case 0x80: {
node->data_type = PL_NODE_TYPE_INTEGER;
node->data_int = static_cast<int64_t>(read_bplist_var_size_int(p_file, marker_size + 1));
} break;
case 0xA0:
case 0xC0: {
if (marker_size == 0x0F) {
uint8_t ext = p_file->get_8() & 0xF;
marker_size = read_bplist_var_size_int(p_file, pow(2, ext));
}
uint64_t pos = p_file->get_position();
node->data_type = PL_NODE_TYPE_ARRAY;
for (uint64_t i = 0; i < marker_size; i++) {
p_file->seek(pos + trailer.ref_size * i);
uint64_t ref = read_bplist_var_size_int(p_file, trailer.ref_size);
Ref<PListNode> element = read_bplist_obj(p_file, ref);
ERR_FAIL_COND_V(element.is_null(), Ref<PListNode>());
node->data_array.push_back(element);
}
} break;
case 0xD0: {
if (marker_size == 0x0F) {
uint8_t ext = p_file->get_8() & 0xF;
marker_size = read_bplist_var_size_int(p_file, pow(2, ext));
}
uint64_t pos = p_file->get_position();
node->data_type = PL_NODE_TYPE_DICT;
for (uint64_t i = 0; i < marker_size; i++) {
p_file->seek(pos + trailer.ref_size * i);
uint64_t key_ref = read_bplist_var_size_int(p_file, trailer.ref_size);
p_file->seek(pos + trailer.ref_size * (i + marker_size));
uint64_t obj_ref = read_bplist_var_size_int(p_file, trailer.ref_size);
Ref<PListNode> element_key = read_bplist_obj(p_file, key_ref);
ERR_FAIL_COND_V(element_key.is_null() || element_key->data_type != PL_NODE_TYPE_STRING, Ref<PListNode>());
Ref<PListNode> element = read_bplist_obj(p_file, obj_ref);
ERR_FAIL_COND_V(element.is_null(), Ref<PListNode>());
node->data_dict[String::utf8(element_key->data_string.ptr(), element_key->data_string.length())] = element;
}
} break;
default: {
ERR_FAIL_V_MSG(Ref<PListNode>(), "Invalid marker type.");
}
}
return node;
}
bool PList::load_file(const String &p_filename) {
root = Ref<PListNode>();
Ref<FileAccess> fb = FileAccess::open(p_filename, FileAccess::READ);
if (fb.is_null()) {
return false;
}
unsigned char magic[8];
fb->get_buffer(magic, 8);
if (String((const char *)magic, 8) == "bplist00") {
fb->seek_end(-26);
trailer.offset_size = fb->get_8();
trailer.ref_size = fb->get_8();
trailer.object_num = BSWAP64(fb->get_64());
trailer.root_offset_idx = BSWAP64(fb->get_64());
trailer.offset_table_start = BSWAP64(fb->get_64());
root = read_bplist_obj(fb, trailer.root_offset_idx);
return root.is_valid();
} else {
// Load text plist.
Error err;
Vector<uint8_t> array = FileAccess::get_file_as_bytes(p_filename, &err);
ERR_FAIL_COND_V(err != OK, false);
String ret;
ret.parse_utf8((const char *)array.ptr(), array.size());
String err_str;
bool ok = load_string(ret, err_str);
ERR_FAIL_COND_V_MSG(!ok, false, "PList: " + err_str);
return true;
}
}
bool PList::load_string(const String &p_string, String &r_err_out) {
root = Ref<PListNode>();
int pos = 0;
bool in_plist = false;
bool done_plist = false;
List<Ref<PListNode>> stack;
String key;
while (pos >= 0) {
int open_token_s = p_string.find("<", pos);
if (open_token_s == -1) {
r_err_out = "Unexpected end of data. No tags found.";
return false;
}
int open_token_e = p_string.find(">", open_token_s);
pos = open_token_e;
String token = p_string.substr(open_token_s + 1, open_token_e - open_token_s - 1);
if (token.is_empty()) {
r_err_out = "Invalid token name.";
return false;
}
String value;
if (token[0] == '?' || token[0] == '!') { // Skip <?xml ... ?> and <!DOCTYPE ... >
int end_token_e = p_string.find(">", open_token_s);
pos = end_token_e;
continue;
}
if (token.find("plist", 0) == 0) {
in_plist = true;
continue;
}
if (token == "/plist") {
done_plist = true;
break;
}
if (!in_plist) {
r_err_out = "Node outside of <plist> tag.";
return false;
}
if (token == "dict") {
if (!stack.is_empty()) {
// Add subnode end enter it.
Ref<PListNode> dict = PListNode::new_dict();
dict->data_type = PList::PLNodeType::PL_NODE_TYPE_DICT;
if (!stack.back()->get()->push_subnode(dict, key)) {
r_err_out = "Can't push subnode, invalid parent type.";
return false;
}
stack.push_back(dict);
} else {
// Add root node.
if (!root.is_null()) {
r_err_out = "Root node already set.";
return false;
}
Ref<PListNode> dict = PListNode::new_dict();
stack.push_back(dict);
root = dict;
}
continue;
}
if (token == "/dict") {
// Exit current dict.
if (stack.is_empty() || stack.back()->get()->data_type != PList::PLNodeType::PL_NODE_TYPE_DICT) {
r_err_out = "Mismatched </dict> tag.";
return false;
}
stack.pop_back();
continue;
}
if (token == "array") {
if (!stack.is_empty()) {
// Add subnode end enter it.
Ref<PListNode> arr = PListNode::new_array();
if (!stack.back()->get()->push_subnode(arr, key)) {
r_err_out = "Can't push subnode, invalid parent type.";
return false;
}
stack.push_back(arr);
} else {
// Add root node.
if (!root.is_null()) {
r_err_out = "Root node already set.";
return false;
}
Ref<PListNode> arr = PListNode::new_array();
stack.push_back(arr);
root = arr;
}
continue;
}
if (token == "/array") {
// Exit current array.
if (stack.is_empty() || stack.back()->get()->data_type != PList::PLNodeType::PL_NODE_TYPE_ARRAY) {
r_err_out = "Mismatched </array> tag.";
return false;
}
stack.pop_back();
continue;
}
if (token[token.length() - 1] == '/') {
token = token.substr(0, token.length() - 1);
} else {
int end_token_s = p_string.find("</", pos);
if (end_token_s == -1) {
r_err_out = vformat("Mismatched <%s> tag.", token);
return false;
}
int end_token_e = p_string.find(">", end_token_s);
pos = end_token_e;
String end_token = p_string.substr(end_token_s + 2, end_token_e - end_token_s - 2);
if (end_token != token) {
r_err_out = vformat("Mismatched <%s> and <%s> token pair.", token, end_token);
return false;
}
value = p_string.substr(open_token_e + 1, end_token_s - open_token_e - 1);
}
if (token == "key") {
key = value;
} else {
Ref<PListNode> var = nullptr;
if (token == "true") {
var = PListNode::new_bool(true);
} else if (token == "false") {
var = PListNode::new_bool(false);
} else if (token == "integer") {
var = PListNode::new_int(value.to_int());
} else if (token == "real") {
var = PListNode::new_real(value.to_float());
} else if (token == "string") {
var = PListNode::new_string(value);
} else if (token == "data") {
var = PListNode::new_data(value);
} else if (token == "date") {
var = PListNode::new_date(value);
} else {
r_err_out = vformat("Invalid value type: %s.", token);
return false;
}
if (stack.is_empty() || !stack.back()->get()->push_subnode(var, key)) {
r_err_out = "Can't push subnode, invalid parent type.";
return false;
}
}
}
if (!stack.is_empty() || !done_plist) {
r_err_out = "Unexpected end of data. Root node is not closed.";
return false;
}
return true;
}
PackedByteArray PList::save_asn1() const {
if (root.is_null()) {
ERR_FAIL_V_MSG(PackedByteArray(), "PList: Invalid PList, no root node.");
}
size_t size = root->get_asn1_size(1);
uint8_t len_octets = 0;
if (size < 0x80) {
len_octets = 1;
} else {
size = root->get_asn1_size(2);
if (size < 0xFFFF) {
len_octets = 2;
} else {
size = root->get_asn1_size(3);
if (size < 0xFFFFFF) {
len_octets = 3;
} else {
size = root->get_asn1_size(4);
if (size < 0xFFFFFFFF) {
len_octets = 4;
} else {
ERR_FAIL_V_MSG(PackedByteArray(), "PList: Data is too big for ASN.1 serializer, should be < 4 GiB.");
}
}
}
}
PackedByteArray ret;
if (!root->store_asn1(ret, len_octets)) {
ERR_FAIL_V_MSG(PackedByteArray(), "PList: ASN.1 serializer error.");
}
return ret;
}
String PList::save_text() const {
if (root.is_null()) {
ERR_FAIL_V_MSG(String(), "PList: Invalid PList, no root node.");
}
String ret;
ret += "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n";
ret += "<!DOCTYPE plist PUBLIC \"-//Apple//DTD PLIST 1.0//EN\" \"http://www.apple.com/DTDs/PropertyList-1.0.dtd\">\n";
ret += "<plist version=\"1.0\">\n";
root->store_text(ret, 0);
ret += "</plist>\n\n";
return ret;
}
Ref<PListNode> PList::get_root() {
return root;
}