This repository has been archived on 2020-05-25. You can view files and clone it, but cannot push or open issues or pull requests.
tdlib-fork/td/telegram/MessageEntity.cpp
levlam 9cf8aed326 Add check debug logging.
GitOrigin-RevId: a58f888b7af480e3e6da2ce668ef2fd5367857da
2020-05-17 03:00:48 +03:00

3970 lines
149 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2020
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#include "td/telegram/MessageEntity.h"
#include "td/telegram/ContactsManager.h"
#include "td/telegram/misc.h"
#include "td/telegram/SecretChatActor.h"
#include "td/utils/format.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include "td/utils/unicode.h"
#include "td/utils/utf8.h"
#include <algorithm>
#include <cstring>
#include <limits>
#include <tuple>
#include <unordered_set>
namespace td {
int MessageEntity::get_type_priority(Type type) {
static const int types[] = {50, 50, 50, 50, 50, 90, 91, 20, 11, 10, 49, 49, 50, 50, 92, 93, 0};
return types[static_cast<int32>(type)];
}
StringBuilder &operator<<(StringBuilder &string_builder, const MessageEntity::Type &message_entity_type) {
switch (message_entity_type) {
case MessageEntity::Type::Mention:
return string_builder << "Mention";
case MessageEntity::Type::Hashtag:
return string_builder << "Hashtag";
case MessageEntity::Type::BotCommand:
return string_builder << "BotCommand";
case MessageEntity::Type::Url:
return string_builder << "Url";
case MessageEntity::Type::EmailAddress:
return string_builder << "EmailAddress";
case MessageEntity::Type::Bold:
return string_builder << "Bold";
case MessageEntity::Type::Italic:
return string_builder << "Italic";
case MessageEntity::Type::Underline:
return string_builder << "Underline";
case MessageEntity::Type::Strikethrough:
return string_builder << "Strikethrough";
case MessageEntity::Type::BlockQuote:
return string_builder << "BlockQuote";
case MessageEntity::Type::Code:
return string_builder << "Code";
case MessageEntity::Type::Pre:
return string_builder << "Pre";
case MessageEntity::Type::PreCode:
return string_builder << "PreCode";
case MessageEntity::Type::TextUrl:
return string_builder << "TextUrl";
case MessageEntity::Type::MentionName:
return string_builder << "MentionName";
case MessageEntity::Type::Cashtag:
return string_builder << "Cashtag";
case MessageEntity::Type::PhoneNumber:
return string_builder << "PhoneNumber";
case MessageEntity::Type::BankCardNumber:
return string_builder << "BankCardNumber";
default:
UNREACHABLE();
return string_builder << "Impossible";
}
}
StringBuilder &operator<<(StringBuilder &string_builder, const MessageEntity &message_entity) {
string_builder << '[' << message_entity.type << ", offset = " << message_entity.offset
<< ", length = " << message_entity.length;
if (!message_entity.argument.empty()) {
string_builder << ", argument = \"" << message_entity.argument << "\"";
}
if (message_entity.user_id.is_valid()) {
string_builder << ", " << message_entity.user_id;
}
string_builder << ']';
return string_builder;
}
tl_object_ptr<td_api::TextEntityType> MessageEntity::get_text_entity_type_object() const {
switch (type) {
case MessageEntity::Type::Mention:
return make_tl_object<td_api::textEntityTypeMention>();
case MessageEntity::Type::Hashtag:
return make_tl_object<td_api::textEntityTypeHashtag>();
case MessageEntity::Type::BotCommand:
return make_tl_object<td_api::textEntityTypeBotCommand>();
case MessageEntity::Type::Url:
return make_tl_object<td_api::textEntityTypeUrl>();
case MessageEntity::Type::EmailAddress:
return make_tl_object<td_api::textEntityTypeEmailAddress>();
case MessageEntity::Type::Bold:
return make_tl_object<td_api::textEntityTypeBold>();
case MessageEntity::Type::Italic:
return make_tl_object<td_api::textEntityTypeItalic>();
case MessageEntity::Type::Underline:
return make_tl_object<td_api::textEntityTypeUnderline>();
case MessageEntity::Type::Strikethrough:
return make_tl_object<td_api::textEntityTypeStrikethrough>();
case MessageEntity::Type::BlockQuote:
return nullptr;
case MessageEntity::Type::Code:
return make_tl_object<td_api::textEntityTypeCode>();
case MessageEntity::Type::Pre:
return make_tl_object<td_api::textEntityTypePre>();
case MessageEntity::Type::PreCode:
return make_tl_object<td_api::textEntityTypePreCode>(argument);
case MessageEntity::Type::TextUrl:
return make_tl_object<td_api::textEntityTypeTextUrl>(argument);
case MessageEntity::Type::MentionName:
// can't use contacts_manager, because can be called from a static request
return make_tl_object<td_api::textEntityTypeMentionName>(user_id.get());
case MessageEntity::Type::Cashtag:
return make_tl_object<td_api::textEntityTypeCashtag>();
case MessageEntity::Type::PhoneNumber:
return make_tl_object<td_api::textEntityTypePhoneNumber>();
case MessageEntity::Type::BankCardNumber:
return make_tl_object<td_api::textEntityTypeBankCardNumber>();
default:
UNREACHABLE();
return nullptr;
}
}
tl_object_ptr<td_api::textEntity> MessageEntity::get_text_entity_object() const {
return make_tl_object<td_api::textEntity>(offset, length, get_text_entity_type_object());
}
vector<tl_object_ptr<td_api::textEntity>> get_text_entities_object(const vector<MessageEntity> &entities) {
vector<tl_object_ptr<td_api::textEntity>> result;
result.reserve(entities.size());
for (auto &entity : entities) {
auto entity_object = entity.get_text_entity_object();
if (entity_object->type_ != nullptr) {
result.push_back(std::move(entity_object));
}
}
return result;
}
StringBuilder &operator<<(StringBuilder &string_builder, const FormattedText &text) {
return string_builder << '"' << text.text << "\" with entities " << text.entities;
}
td_api::object_ptr<td_api::formattedText> get_formatted_text_object(const FormattedText &text) {
return td_api::make_object<td_api::formattedText>(text.text, get_text_entities_object(text.entities));
}
static bool is_word_character(uint32 code) {
switch (get_unicode_simple_category(code)) {
case UnicodeSimpleCategory::Letter:
case UnicodeSimpleCategory::DecimalNumber:
case UnicodeSimpleCategory::Number:
return true;
default:
return code == '_';
}
}
/*
static bool is_word_boundary(uint32 a, uint32 b) {
return is_word_character(a) ^ is_word_character(b);
}
*/
static bool is_alpha_digit(uint32 code) {
return ('0' <= code && code <= '9') || ('a' <= code && code <= 'z') || ('A' <= code && code <= 'Z');
}
static bool is_alpha_digit_or_underscore(uint32 code) {
return is_alpha_digit(code) || code == '_';
}
static bool is_alpha_digit_or_underscore_or_minus(uint32 code) {
return is_alpha_digit_or_underscore(code) || code == '-';
}
// This functions just implements corresponding regexps
// All other fixes will be in other functions
static vector<Slice> match_mentions(Slice str) {
vector<Slice> result;
const unsigned char *begin = str.ubegin();
const unsigned char *end = str.uend();
const unsigned char *ptr = begin;
// '/(?<=\B)@([a-zA-Z0-9_]{2,32})(?=\b)/u'
while (true) {
ptr = static_cast<const unsigned char *>(std::memchr(ptr, '@', narrow_cast<int32>(end - ptr)));
if (ptr == nullptr) {
break;
}
if (ptr != begin) {
uint32 prev;
next_utf8_unsafe(prev_utf8_unsafe(ptr), &prev, "match_mentions");
if (is_word_character(prev)) {
ptr++;
continue;
}
}
auto mention_begin = ++ptr;
while (ptr != end && is_alpha_digit_or_underscore(*ptr)) {
ptr++;
}
auto mention_end = ptr;
auto mention_size = mention_end - mention_begin;
if (mention_size < 2 || mention_size > 32) {
continue;
}
uint32 next = 0;
if (ptr != end) {
next_utf8_unsafe(ptr, &next, "match_mentions 2");
}
if (is_word_character(next)) {
continue;
}
result.emplace_back(mention_begin - 1, mention_end);
}
return result;
}
static vector<Slice> match_bot_commands(Slice str) {
vector<Slice> result;
const unsigned char *begin = str.ubegin();
const unsigned char *end = str.uend();
const unsigned char *ptr = begin;
// '/(?<!\b|[\/<>])\/([a-zA-Z0-9_]{1,64})(?:@([a-zA-Z0-9_]{3,32}))?(?!\B|[\/<>])/u'
while (true) {
ptr = static_cast<const unsigned char *>(std::memchr(ptr, '/', narrow_cast<int32>(end - ptr)));
if (ptr == nullptr) {
break;
}
if (ptr != begin) {
uint32 prev;
next_utf8_unsafe(prev_utf8_unsafe(ptr), &prev, "match_bot_commands");
if (is_word_character(prev) || prev == '/' || prev == '<' || prev == '>') {
ptr++;
continue;
}
}
auto command_begin = ++ptr;
while (ptr != end && is_alpha_digit_or_underscore(*ptr)) {
ptr++;
}
auto command_end = ptr;
auto command_size = command_end - command_begin;
if (command_size < 1 || command_size > 64) {
continue;
}
if (ptr != end && *ptr == '@') {
auto mention_begin = ++ptr;
while (ptr != end && is_alpha_digit_or_underscore(*ptr)) {
ptr++;
}
auto mention_end = ptr;
auto mention_size = mention_end - mention_begin;
if (mention_size < 3 || mention_size > 32) {
continue;
}
command_end = ptr;
}
uint32 next = 0;
if (ptr != end) {
next_utf8_unsafe(ptr, &next, "match_bot_commands 2");
}
if (is_word_character(next) || next == '/' || next == '<' || next == '>') {
continue;
}
result.emplace_back(command_begin - 1, command_end);
}
return result;
}
static bool is_hashtag_letter(uint32 c, UnicodeSimpleCategory &category) {
category = get_unicode_simple_category(c);
if (c == '_' || c == 0x200c) {
return true;
}
switch (category) {
case UnicodeSimpleCategory::DecimalNumber:
case UnicodeSimpleCategory::Letter:
return true;
default:
return false;
}
}
static vector<Slice> match_hashtags(Slice str) {
vector<Slice> result;
const unsigned char *begin = str.ubegin();
const unsigned char *end = str.uend();
const unsigned char *ptr = begin;
// '/(?<=^|[^\d_\pL\x{200c}])#([\d_\pL\x{200c}]{1,256})(?![\d_\pL\x{200c}]*#)/u'
// and at least one letter
UnicodeSimpleCategory category;
while (true) {
ptr = static_cast<const unsigned char *>(std::memchr(ptr, '#', narrow_cast<int32>(end - ptr)));
if (ptr == nullptr) {
break;
}
if (ptr != begin) {
uint32 prev;
next_utf8_unsafe(prev_utf8_unsafe(ptr), &prev, "match_hashtags");
if (is_hashtag_letter(prev, category)) {
ptr++;
continue;
}
}
auto hashtag_begin = ++ptr;
size_t hashtag_size = 0;
const unsigned char *hashtag_end = nullptr;
bool was_letter = false;
while (ptr != end) {
uint32 code;
auto next_ptr = next_utf8_unsafe(ptr, &code, "match_hashtags 2");
if (!is_hashtag_letter(code, category)) {
break;
}
ptr = next_ptr;
if (hashtag_size == 255) {
hashtag_end = ptr;
}
if (hashtag_size != 256) {
was_letter |= category == UnicodeSimpleCategory::Letter;
hashtag_size++;
}
}
if (!hashtag_end) {
hashtag_end = ptr;
}
if (hashtag_size < 1) {
continue;
}
if (ptr != end && ptr[0] == '#') {
continue;
}
if (!was_letter) {
continue;
}
result.emplace_back(hashtag_begin - 1, hashtag_end);
}
return result;
}
static vector<Slice> match_cashtags(Slice str) {
vector<Slice> result;
const unsigned char *begin = str.ubegin();
const unsigned char *end = str.uend();
const unsigned char *ptr = begin;
// '/(?<=^|[^$\d_\pL\x{200c}])\$([A-Z]{3,8})(?![$\d_\pL\x{200c}])/u'
UnicodeSimpleCategory category;
while (true) {
ptr = static_cast<const unsigned char *>(std::memchr(ptr, '$', narrow_cast<int32>(end - ptr)));
if (ptr == nullptr) {
break;
}
if (ptr != begin) {
uint32 prev;
next_utf8_unsafe(prev_utf8_unsafe(ptr), &prev, "match_cashtags");
if (is_hashtag_letter(prev, category) || prev == '$') {
ptr++;
continue;
}
}
auto cashtag_begin = ++ptr;
while (ptr != end && 'Z' >= *ptr && *ptr >= 'A') {
ptr++;
}
auto cashtag_end = ptr;
auto cashtag_size = cashtag_end - cashtag_begin;
if (cashtag_size < 3 || cashtag_size > 8) {
continue;
}
if (cashtag_end != end) {
uint32 code;
next_utf8_unsafe(ptr, &code, "match_cashtags 2");
if (is_hashtag_letter(code, category) || code == '$') {
continue;
}
}
result.emplace_back(cashtag_begin - 1, cashtag_end);
}
return result;
}
static vector<Slice> match_bank_card_numbers(Slice str) {
vector<Slice> result;
const unsigned char *begin = str.ubegin();
const unsigned char *end = str.uend();
const unsigned char *ptr = begin;
// '/(?<=^|[^+_\pL\d-.,])[\d -]{13,}([^_\pL\d-]|$)/'
while (true) {
while (ptr != end && !is_digit(*ptr)) {
ptr++;
}
if (ptr == end) {
break;
}
if (ptr != begin) {
uint32 prev;
next_utf8_unsafe(prev_utf8_unsafe(ptr), &prev, "match_bank_card_numbers");
if (prev == '.' || prev == ',' || prev == '+' || prev == '-' || prev == '_' ||
get_unicode_simple_category(prev) == UnicodeSimpleCategory::Letter) {
while (ptr != end && (is_digit(*ptr) || *ptr == ' ' || *ptr == '-')) {
ptr++;
}
continue;
}
}
auto card_number_begin = ptr;
size_t digit_count = 0;
while (ptr != end && (is_digit(*ptr) || *ptr == ' ' || *ptr == '-')) {
if (*ptr == ' ' && digit_count >= 16 && digit_count <= 19 &&
digit_count == static_cast<size_t>(ptr - card_number_begin)) {
// continuous card number
break;
}
digit_count += static_cast<size_t>(is_digit(*ptr));
ptr++;
}
if (digit_count < 13 || digit_count > 19) {
continue;
}
auto card_number_end = ptr;
while (!is_digit(card_number_end[-1])) {
card_number_end--;
}
auto card_number_size = static_cast<size_t>(card_number_end - card_number_begin);
if (card_number_size > 2 * digit_count - 1) {
continue;
}
if (card_number_end != end) {
uint32 next;
next_utf8_unsafe(card_number_end, &next, "match_bank_card_numbers 2");
if (next == '-' || next == '_' || get_unicode_simple_category(next) == UnicodeSimpleCategory::Letter) {
continue;
}
}
result.emplace_back(card_number_begin, card_number_end);
}
return result;
}
static vector<Slice> match_urls(Slice str) {
vector<Slice> result;
const unsigned char *begin = str.ubegin();
const unsigned char *end = str.uend();
const auto &is_protocol_symbol = [](uint32 c) {
if (c < 0x80) {
// do not allow dots in the protocol
return is_alpha_digit(c) || c == '+' || c == '-';
}
// add unicode letters and digits to later discard protocol as invalid
return get_unicode_simple_category(c) != UnicodeSimpleCategory::Separator;
};
const auto &is_user_data_symbol = [](uint32 c) {
switch (c) {
case '\n':
case '/':
case '[':
case ']':
case '{':
case '}':
case '(':
case ')':
case '\'':
case '`':
case '<':
case '>':
case '"':
case 0xab: // «
case 0xbb: // »
return false;
default:
if (0x2000 <= c && c <= 0x206f) { // General Punctuation
return c == 0x200c || c == 0x200d; // Zero Width Non-Joiner/Joiner
}
return get_unicode_simple_category(c) != UnicodeSimpleCategory::Separator;
}
};
const auto &is_domain_symbol = [](uint32 c) {
if (c < 0xc0) {
return c == '.' || is_alpha_digit_or_underscore_or_minus(c) || c == '~';
}
if (0x2000 <= c && c <= 0x206f) { // General Punctuation
return c == 0x200c || c == 0x200d; // Zero Width Non-Joiner/Joiner
}
return get_unicode_simple_category(c) != UnicodeSimpleCategory::Separator;
};
const auto &is_path_symbol = [](uint32 c) {
switch (c) {
case '\n':
case '<':
case '>':
case '"':
case 0xab: // «
case 0xbb: // »
return false;
default:
if (0x2000 <= c && c <= 0x206f) { // General Punctuation
return c == 0x200c || c == 0x200d; // Zero Width Non-Joiner/Joiner
}
return get_unicode_simple_category(c) != UnicodeSimpleCategory::Separator;
}
};
Slice bad_path_end_chars(".:;,('?!`");
while (true) {
auto dot_pos = str.find('.');
if (dot_pos > str.size() || dot_pos + 1 == str.size()) {
break;
}
if (str[dot_pos + 1] == ' ') {
// fast path
str = str.substr(dot_pos + 2);
begin = str.ubegin();
continue;
}
const unsigned char *last_at_ptr = nullptr;
const unsigned char *domain_end_ptr = begin + dot_pos;
while (domain_end_ptr != end) {
uint32 code = 0;
auto next_ptr = next_utf8_unsafe(domain_end_ptr, &code, "match_urls");
if (code == '@') {
last_at_ptr = domain_end_ptr;
}
if (!is_user_data_symbol(code)) {
break;
}
domain_end_ptr = next_ptr;
}
domain_end_ptr = last_at_ptr == nullptr ? begin + dot_pos : last_at_ptr + 1;
while (domain_end_ptr != end) {
uint32 code = 0;
auto next_ptr = next_utf8_unsafe(domain_end_ptr, &code, "match_urls 2");
if (!is_domain_symbol(code)) {
break;
}
domain_end_ptr = next_ptr;
}
const unsigned char *domain_begin_ptr = begin + dot_pos;
while (domain_begin_ptr != begin) {
domain_begin_ptr = prev_utf8_unsafe(domain_begin_ptr);
uint32 code = 0;
auto next_ptr = next_utf8_unsafe(domain_begin_ptr, &code, "match_urls 3");
if (last_at_ptr == nullptr ? !is_domain_symbol(code) : !is_user_data_symbol(code)) {
domain_begin_ptr = next_ptr;
break;
}
}
// LOG(ERROR) << "Domain: " << Slice(domain_begin_ptr, domain_end_ptr);
const unsigned char *url_end_ptr = domain_end_ptr;
if (url_end_ptr != end && url_end_ptr[0] == ':') {
auto port_end_ptr = url_end_ptr + 1;
while (port_end_ptr != end && is_digit(port_end_ptr[0])) {
port_end_ptr++;
}
auto port_begin_ptr = url_end_ptr + 1;
while (port_begin_ptr != port_end_ptr && *port_begin_ptr == '0') {
port_begin_ptr++;
}
if (port_begin_ptr != port_end_ptr && narrow_cast<int>(port_end_ptr - port_begin_ptr) <= 5 &&
to_integer<uint32>(Slice(port_begin_ptr, port_end_ptr)) <= 65535) {
url_end_ptr = port_end_ptr;
}
}
// LOG(ERROR) << "Domain_port: " << Slice(domain_begin_ptr, url_end_ptr);
if (url_end_ptr != end && (url_end_ptr[0] == '/' || url_end_ptr[0] == '?' || url_end_ptr[0] == '#')) {
auto path_end_ptr = url_end_ptr + 1;
while (path_end_ptr != end) {
uint32 code = 0;
auto next_ptr = next_utf8_unsafe(path_end_ptr, &code, "match_urls 4");
if (!is_path_symbol(code)) {
break;
}
path_end_ptr = next_ptr;
}
while (bad_path_end_chars.find(path_end_ptr[-1]) < bad_path_end_chars.size()) {
path_end_ptr--;
}
if (url_end_ptr[0] == '/' || path_end_ptr > url_end_ptr + 1) {
url_end_ptr = path_end_ptr;
}
}
while (url_end_ptr > begin + dot_pos + 1 && url_end_ptr[-1] == '.') {
url_end_ptr--;
}
// LOG(ERROR) << "Domain_port_path: " << Slice(domain_begin_ptr, url_end_ptr);
bool is_bad = false;
const unsigned char *url_begin_ptr = domain_begin_ptr;
if (url_begin_ptr != begin && url_begin_ptr[-1] == '@') {
auto user_data_begin_ptr = url_begin_ptr - 1;
while (user_data_begin_ptr != begin) {
user_data_begin_ptr = prev_utf8_unsafe(user_data_begin_ptr);
uint32 code = 0;
auto next_ptr = next_utf8_unsafe(user_data_begin_ptr, &code, "match_urls 5");
if (!is_user_data_symbol(code)) {
user_data_begin_ptr = next_ptr;
break;
}
}
if (user_data_begin_ptr == url_begin_ptr - 1) {
is_bad = true;
}
url_begin_ptr = user_data_begin_ptr;
}
// LOG(ERROR) << "User_data_port_path: " << Slice(url_begin_ptr, url_end_ptr);
if (url_begin_ptr != begin) {
Slice prefix(begin, url_begin_ptr);
if (prefix.size() >= 6 && ends_with(prefix, "://")) {
auto protocol_begin_ptr = url_begin_ptr - 3;
while (protocol_begin_ptr != begin) {
protocol_begin_ptr = prev_utf8_unsafe(protocol_begin_ptr);
uint32 code = 0;
auto next_ptr = next_utf8_unsafe(protocol_begin_ptr, &code, "match_urls 6");
if (!is_protocol_symbol(code)) {
protocol_begin_ptr = next_ptr;
break;
}
}
auto protocol = to_lower(Slice(protocol_begin_ptr, url_begin_ptr - 3));
if (ends_with(protocol, "http") && protocol != "shttp") {
url_begin_ptr = url_begin_ptr - 7;
} else if (ends_with(protocol, "https")) {
url_begin_ptr = url_begin_ptr - 8;
} else if (ends_with(protocol, "sftp")) {
url_begin_ptr = url_begin_ptr - 7;
} else if (ends_with(protocol, "ftp") && protocol != "tftp") {
url_begin_ptr = url_begin_ptr - 6;
} else {
is_bad = true;
}
} else {
auto prefix_end = prefix.uend();
auto prefix_back = prev_utf8_unsafe(prefix_end);
uint32 code = 0;
next_utf8_unsafe(prefix_back, &code, "match_urls 7");
if (is_word_character(code) || code == '/' || code == '#' || code == '@') {
is_bad = true;
}
}
}
// LOG(ERROR) << "Full: " << Slice(url_begin_ptr, url_end_ptr) << " " << is_bad;
if (!is_bad) {
if (url_end_ptr > begin + dot_pos + 1) {
result.emplace_back(url_begin_ptr, url_end_ptr);
}
while (url_end_ptr != end && url_end_ptr[0] == '.') {
url_end_ptr++;
}
} else {
while (url_end_ptr[-1] != '.') {
url_end_ptr--;
}
}
if (url_end_ptr <= begin + dot_pos) {
url_end_ptr = begin + dot_pos + 1;
}
str = str.substr(url_end_ptr - begin);
begin = url_end_ptr;
}
return result;
}
static bool is_valid_bank_card(Slice str) {
const size_t MIN_CARD_LENGTH = 13;
const size_t MAX_CARD_LENGTH = 19;
char digits[MAX_CARD_LENGTH];
size_t digit_count = 0;
for (auto c : str) {
if (is_digit(c)) {
CHECK(digit_count < MAX_CARD_LENGTH);
digits[digit_count++] = c;
}
}
CHECK(digit_count >= MIN_CARD_LENGTH);
// Luhn algorithm
int32 sum = 0;
for (size_t i = digit_count; i > 0; i--) {
int32 digit = digits[i - 1] - '0';
if ((digit_count - i) % 2 == 0) {
sum += digit;
} else {
sum += (digit < 5 ? 2 * digit : 2 * digit - 9);
}
}
if (sum % 10 != 0) {
return false;
}
int32 prefix1 = (digits[0] - '0');
int32 prefix2 = prefix1 * 10 + (digits[1] - '0');
int32 prefix3 = prefix2 * 10 + (digits[2] - '0');
int32 prefix4 = prefix3 * 10 + (digits[3] - '0');
if (prefix1 == 4) {
// Visa
return digit_count == 13 || digit_count == 16 || digit_count == 18 || digit_count == 19;
}
if ((51 <= prefix2 && prefix2 <= 55) || (2221 <= prefix4 && prefix4 <= 2720)) {
// mastercard
return digit_count == 16;
}
if (prefix2 == 34 || prefix2 == 37) {
// American Express
return digit_count == 15;
}
if (prefix2 == 62 || prefix2 == 81) {
// UnionPay
return digit_count >= 16;
}
if (2200 <= prefix4 && prefix4 <= 2204) {
// MIR
return digit_count == 16;
}
return true; // skip length check
}
bool is_email_address(Slice str) {
// /^([a-z0-9_-]{0,26}[.+]){0,10}[a-z0-9_-]{1,35}@(([a-z0-9][a-z0-9_-]{0,28})?[a-z0-9][.]){1,6}[a-z]{2,6}$/i
Slice userdata;
Slice domain;
std::tie(userdata, domain) = split(str, '@');
vector<Slice> userdata_parts;
size_t prev = 0;
for (size_t i = 0; i < userdata.size(); i++) {
if (userdata[i] == '.' || userdata[i] == '+') {
userdata_parts.push_back(userdata.substr(prev, i - prev));
prev = i + 1;
}
}
userdata_parts.push_back(userdata.substr(prev));
if (userdata_parts.size() >= 12) {
return false;
}
for (auto &part : userdata_parts) {
for (auto c : part) {
if (!is_alpha_digit_or_underscore_or_minus(c)) {
return false;
}
}
}
if (userdata_parts.back().empty() || userdata_parts.back().size() >= 36) {
return false;
}
userdata_parts.pop_back();
for (auto &part : userdata_parts) {
if (part.size() >= 27) {
return false;
}
}
vector<Slice> domain_parts = full_split(domain, '.');
if (domain_parts.size() <= 1 || domain_parts.size() > 7) {
return false;
}
if (domain_parts.back().size() <= 1 || domain_parts.back().size() >= 7) {
return false;
}
for (auto c : domain_parts.back()) {
if (!is_alpha(c)) {
return false;
}
}
domain_parts.pop_back();
for (auto &part : domain_parts) {
if (part.empty() || part.size() >= 31) {
return false;
}
for (auto c : part) {
if (!is_alpha_digit_or_underscore_or_minus(c)) {
return false;
}
}
if (!is_alpha_digit(part[0])) {
return false;
}
if (!is_alpha_digit(part.back())) {
return false;
}
}
return true;
}
static bool is_common_tld(Slice str) {
static const std::unordered_set<Slice, SliceHash> tlds(
{"aaa", "aarp", "abarth", "abb", "abbott", "abbvie", "abc", "able", "abogado", "abudhabi", "ac", "academy",
"accenture", "accountant", "accountants", "aco", "active", "actor", "ad", "adac", "ads", "adult", "ae", "aeg",
"aero", "aetna", "af", "afamilycompany", "afl", "africa", "ag", "agakhan", "agency", "ai", "aig", "aigo",
"airbus", "airforce", "airtel", "akdn", "al", "alfaromeo", "alibaba", "alipay", "allfinanz", "allstate", "ally",
"alsace", "alstom", "am", "americanexpress", "americanfamily", "amex", "amfam", "amica", "amsterdam",
"analytics", "android", "anquan", "anz", "ao", "aol", "apartments", "app", "apple", "aq", "aquarelle", "ar",
"arab", "aramco", "archi", "army", "arpa", "art", "arte", "as", "asda", "asia", "associates", "at", "athleta",
"attorney", "au", "auction", "audi", "audible", "audio", "auspost", "author", "auto", "autos", "avianca", "aw",
"aws", "ax", "axa", "az", "azure", "ba", "baby", "baidu", "banamex", "bananarepublic", "band", "bank", "bar",
"barcelona", "barclaycard", "barclays", "barefoot", "bargains", "baseball", "basketball", "bauhaus", "bayern",
"bb", "bbc", "bbt", "bbva", "bcg", "bcn", "bd", "be", "beats", "beauty", "beer", "bentley", "berlin", "best",
"bestbuy", "bet", "bf", "bg", "bh", "bharti", "bi", "bible", "bid", "bike", "bing", "bingo", "bio", "biz", "bj",
"black", "blackfriday", "blanco", "blockbuster", "blog", "bloomberg", "blue", "bm", "bms", "bmw", "bn", "bnl",
"bnpparibas", "bo", "boats", "boehringer", "bofa", "bom", "bond", "boo", "book", "booking", "boots", "bosch",
"bostik", "boston", "bot", "boutique", "box", "br", "bradesco", "bridgestone", "broadway", "broker", "brother",
"brussels", "bs", "bt", "budapest", "bugatti", "build", "builders", "business", "buy", "buzz", "bv", "bw", "by",
"bz", "bzh", "ca", "cab", "cafe", "cal", "call", "calvinklein", "cam", "camera", "camp", "cancerresearch",
"canon", "capetown", "capital", "capitalone", "car", "caravan", "cards", "care", "career", "careers", "cars",
"cartier", "casa", "case", "caseih", "cash", "casino", "cat", "catering", "catholic", "cba", "cbn", "cbre",
"cbs", "cc", "cd", "ceb", "center", "ceo", "cern", "cf", "cfa", "cfd", "cg", "ch", "chanel", "channel", "chase",
"chat", "cheap", "chintai", "christmas", "chrome", "chrysler", "church", "ci", "cipriani", "circle", "cisco",
"citadel", "citi", "citic", "city", "cityeats", "ck", "cl", "claims", "cleaning", "click", "clinic", "clinique",
"clothing", "cloud", "club", "clubmed", "cm", "cn", "co", "coach", "codes", "coffee", "college", "cologne",
"com", "comcast", "commbank", "community", "company", "compare", "computer", "comsec", "condos", "construction",
"consulting", "contact", "contractors", "cooking", "cookingchannel", "cool", "coop", "corsica", "country",
"coupon", "coupons", "courses", "cr", "credit", "creditcard", "creditunion", "cricket", "crown", "crs", "cruise",
"cruises", "csc", "cu", "cuisinella", "cv", "cw", "cx", "cy", "cymru", "cyou", "cz", "dabur", "dad", "dance",
"data", "date", "dating", "datsun", "day", "dclk", "dds", "de", "deal", "dealer", "deals", "degree", "delivery",
"dell", "deloitte", "delta", "democrat", "dental", "dentist", "desi", "design", "dev", "dhl", "diamonds", "diet",
"digital", "direct", "directory", "discount", "discover", "dish", "diy", "dj", "dk", "dm", "dnp", "do", "docs",
"doctor", "dodge", "dog", "doha", "domains", "dot", "download", "drive", "dtv", "dubai", "duck", "dunlop",
"duns", "dupont", "durban", "dvag", "dvr", "dz", "earth", "eat", "ec", "eco", "edeka", "edu", "education", "ee",
"eg", "email", "emerck", "energy", "engineer", "engineering", "enterprises", "epost", "epson", "equipment", "er",
"ericsson", "erni", "es", "esq", "estate", "esurance", "et", "etisalat", "eu", "eurovision", "eus", "events",
"everbank", "exchange", "expert", "exposed", "express", "extraspace", "fage", "fail", "fairwinds", "faith",
"family", "fan", "fans", "farm", "farmers", "fashion", "fast", "fedex", "feedback", "ferrari", "ferrero", "fi",
"fiat", "fidelity", "fido", "film", "final", "finance", "financial", "fire", "firestone", "firmdale", "fish",
"fishing", "fit", "fitness", "fj", "fk", "flickr", "flights", "flir", "florist", "flowers", "fly", "fm", "fo",
"foo", "food", "foodnetwork", "football", "ford", "forex", "forsale", "forum", "foundation", "fox", "fr", "free",
"fresenius", "frl", "frogans", "frontdoor", "frontier", "ftr", "fujitsu", "fujixerox", "fun", "fund",
"furniture", "futbol", "fyi", "ga", "gal", "gallery", "gallo", "gallup", "game", "games", "gap", "garden", "gb",
"gbiz", "gd", "gdn", "ge", "gea", "gent", "genting", "george", "gf", "gg", "ggee", "gh", "gi", "gift", "gifts",
"gives", "giving", "gl", "glade", "glass", "gle", "global", "globo", "gm", "gmail", "gmbh", "gmo", "gmx", "gn",
"godaddy", "gold", "goldpoint", "golf", "goo", "goodhands", "goodyear", "goog", "google", "gop", "got", "gov",
"gp", "gq", "gr", "grainger", "graphics", "gratis", "green", "gripe", "grocery", "group", "gs", "gt", "gu",
"guardian", "gucci", "guge", "guide", "guitars", "guru", "gw", "gy", "hair", "hamburg", "hangout", "haus", "hbo",
"hdfc", "hdfcbank", "health", "healthcare", "help", "helsinki", "here", "hermes", "hgtv", "hiphop", "hisamitsu",
"hitachi", "hiv", "hk", "hkt", "hm", "hn", "hockey", "holdings", "holiday", "homedepot", "homegoods", "homes",
"homesense", "honda", "honeywell", "horse", "hospital", "host", "hosting", "hot", "hoteles", "hotels", "hotmail",
"house", "how", "hr", "hsbc", "ht", "hu", "hughes", "hyatt", "hyundai", "ibm", "icbc", "ice", "icu", "id", "ie",
"ieee", "ifm", "ikano", "il", "im", "imamat", "imdb", "immo", "immobilien", "in", "industries", "infiniti",
"info", "ing", "ink", "institute", "insurance", "insure", "int", "intel", "international", "intuit",
"investments", "io", "ipiranga", "iq", "ir", "irish", "is", "iselect", "ismaili", "ist", "istanbul", "it",
"itau", "itv", "iveco", "iwc", "jaguar", "java", "jcb", "jcp", "je", "jeep", "jetzt", "jewelry", "jio", "jlc",
"jll", "jm", "jmp", "jnj", "jo", "jobs", "joburg", "jot", "joy", "jp", "jpmorgan", "jprs", "juegos", "juniper",
"kaufen", "kddi", "ke", "kerryhotels", "kerrylogistics", "kerryproperties", "kfh", "kg", "kh", "ki", "kia",
"kim", "kinder", "kindle", "kitchen", "kiwi", "km", "kn", "koeln", "komatsu", "kosher", "kp", "kpmg", "kpn",
"kr", "krd", "kred", "kuokgroup", "kw", "ky", "kyoto", "kz", "la", "lacaixa", "ladbrokes", "lamborghini",
"lamer", "lancaster", "lancia", "lancome", "land", "landrover", "lanxess", "lasalle", "lat", "latino", "latrobe",
"law", "lawyer", "lb", "lc", "lds", "lease", "leclerc", "lefrak", "legal", "lego", "lexus", "lgbt", "li",
"liaison", "lidl", "life", "lifeinsurance", "lifestyle", "lighting", "like", "lilly", "limited", "limo",
"lincoln", "linde", "link", "lipsy", "live", "living", "lixil", "lk", "loan", "loans", "locker", "locus", "loft",
"lol", "london", "lotte", "lotto", "love", "lpl", "lplfinancial", "lr", "ls", "lt", "ltd", "ltda", "lu",
"lundbeck", "lupin", "luxe", "luxury", "lv", "ly", "ma", "macys", "madrid", "maif", "maison", "makeup", "man",
"management", "mango", "map", "market", "marketing", "markets", "marriott", "marshalls", "maserati", "mattel",
"mba", "mc", "mckinsey", "md", "me", "med", "media", "meet", "melbourne", "meme", "memorial", "men", "menu",
"meo", "merckmsd", "metlife", "mg", "mh", "miami", "microsoft", "mil", "mini", "mint", "mit", "mitsubishi", "mk",
"ml", "mlb", "mls", "mm", "mma", "mn", "mo", "mobi", "mobile", "mobily", "moda", "moe", "moi", "mom", "monash",
"money", "monster", "mopar", "mormon", "mortgage", "moscow", "moto", "motorcycles", "mov", "movie", "movistar",
"mp", "mq", "mr", "ms", "msd", "mt", "mtn", "mtr", "mu", "museum", "mutual", "mv", "mw", "mx", "my", "mz", "na",
"nab", "nadex", "nagoya", "name", "nationwide", "natura", "navy", "nba", "nc", "ne", "nec", "net", "netbank",
"netflix", "network", "neustar", "new", "newholland", "news", "next", "nextdirect", "nexus", "nf", "nfl", "ng",
"ngo", "nhk", "ni", "nico", "nike", "nikon", "ninja", "nissan", "nissay", "nl", "no", "nokia",
"northwesternmutual", "norton", "now", "nowruz", "nowtv", "np", "nr", "nra", "nrw", "ntt", "nu", "nyc", "nz",
"obi", "observer", "off", "office", "okinawa", "olayan", "olayangroup", "oldnavy", "ollo", "om", "omega", "one",
"ong", "onion", "onl", "online", "onyourside", "ooo", "open", "oracle", "orange", "org", "organic", "origins",
"osaka", "otsuka", "ott", "ovh", "pa", "page", "panasonic", "panerai", "paris", "pars", "partners", "parts",
"party", "passagens", "pay", "pccw", "pe", "pet", "pf", "pfizer", "pg", "ph", "pharmacy", "phd", "philips",
"phone", "photo", "photography", "photos", "physio", "piaget", "pics", "pictet", "pictures", "pid", "pin",
"ping", "pink", "pioneer", "pizza", "pk", "pl", "place", "play", "playstation", "plumbing", "plus", "pm", "pn",
"pnc", "pohl", "poker", "politie", "porn", "post", "pr", "pramerica", "praxi", "press", "prime", "pro", "prod",
"productions", "prof", "progressive", "promo", "properties", "property", "protection", "pru", "prudential", "ps",
"pt", "pub", "pw", "pwc", "py", "qa", "qpon", "quebec", "quest", "qvc", "racing", "radio", "raid", "re", "read",
"realestate", "realtor", "realty", "recipes", "red", "redstone", "redumbrella", "rehab", "reise", "reisen",
"reit", "reliance", "ren", "rent", "rentals", "repair", "report", "republican", "rest", "restaurant", "review",
"reviews", "rexroth", "rich", "richardli", "ricoh", "rightathome", "ril", "rio", "rip", "rmit", "ro", "rocher",
"rocks", "rodeo", "rogers", "room", "rs", "rsvp", "ru", "rugby", "ruhr", "run", "rw", "rwe", "ryukyu", "sa",
"saarland", "safe", "safety", "sakura", "sale", "salon", "samsclub", "samsung", "sandvik", "sandvikcoromant",
"sanofi", "sap", "sapo", "sarl", "sas", "save", "saxo", "sb", "sbi", "sbs", "sc", "sca", "scb", "schaeffler",
"schmidt", "scholarships", "school", "schule", "schwarz", "science", "scjohnson", "scor", "scot", "sd", "se",
"search", "seat", "secure", "security", "seek", "select", "sener", "services", "ses", "seven", "sew", "sex",
"sexy", "sfr", "sg", "sh", "shangrila", "sharp", "shaw", "shell", "shia", "shiksha", "shoes", "shop", "shopping",
"shouji", "show", "showtime", "shriram", "si", "silk", "sina", "singles", "site", "sj", "sk", "ski", "skin",
"sky", "skype", "sl", "sling", "sm", "smart", "smile", "sn", "sncf", "so", "soccer", "social", "softbank",
"software", "sohu", "solar", "solutions", "song", "sony", "soy", "space", "spiegel", "sport", "spot",
"spreadbetting", "sr", "srl", "srt", "st", "stada", "staples", "star", "starhub", "statebank", "statefarm",
"statoil", "stc", "stcgroup", "stockholm", "storage", "store", "stream", "studio", "study", "style", "su",
"sucks", "supplies", "supply", "support", "surf", "surgery", "suzuki", "sv", "swatch", "swiftcover", "swiss",
"sx", "sy", "sydney", "symantec", "systems", "sz", "tab", "taipei", "talk", "taobao", "target", "tatamotors",
"tatar", "tattoo", "tax", "taxi", "tc", "tci", "td", "tdk", "team", "tech", "technology", "tel", "telecity",
"telefonica", "temasek", "tennis", "teva", "tf", "tg", "th", "thd", "theater", "theatre", "tiaa", "tickets",
"tienda", "tiffany", "tips", "tires", "tirol", "tj", "tjmaxx", "tjx", "tk", "tkmaxx", "tl", "tm", "tmall", "tn",
"to", "today", "tokyo", "tools", "top", "toray", "toshiba", "total", "tours", "town", "toyota", "toys", "tr",
"trade", "trading", "training", "travel", "travelchannel", "travelers", "travelersinsurance", "trust", "trv",
"tt", "tube", "tui", "tunes", "tushu", "tv", "tvs", "tw", "tz", "ua", "ubank", "ubs", "uconnect", "ug", "uk",
"unicom", "university", "uno", "uol", "ups", "us", "uy", "uz", "va", "vacations", "vana", "vanguard", "vc", "ve",
"vegas", "ventures", "verisign", "versicherung", "vet", "vg", "vi", "viajes", "video", "vig", "viking", "villas",
"vin", "vip", "virgin", "visa", "vision", "vista", "vistaprint", "viva", "vivo", "vlaanderen", "vn", "vodka",
"volkswagen", "volvo", "vote", "voting", "voto", "voyage", "vu", "vuelos", "wales", "walmart", "walter", "wang",
"wanggou", "warman", "watch", "watches", "weather", "weatherchannel", "webcam", "weber", "website", "wed",
"wedding", "weibo", "weir", "wf", "whoswho", "wien", "wiki", "williamhill", "win", "windows", "wine", "winners",
"wme", "wolterskluwer", "woodside", "work", "works", "world", "wow", "ws", "wtc", "wtf", "xbox", "xerox",
"xfinity", "xihuan", "xin", "कॉम", "セール", "佛山", "ಭಾರತ", "慈善", "集团", "在线", "한국", "ଭାରତ", "大众汽车",
"点看", "คอม", "ভাৰত", "ভারত", "八卦", "موقع", "বাংলা", "公益", "公司", "香格里拉", "网站", "移动", "我爱你",
"москва", "қаз", "католик", "онлайн", "сайт", "联通", "срб", "бг", "бел", "קום", "时尚", "微博", "淡马锡",
"ファッション", "орг", "नेट", "ストア", "삼성", "சிங்கப்பூர்", "商标", "商店", "商城", "дети", "мкд", "ею",
"ポイント", "新闻", "工行", "家電", "كوم", "中文网", "中信", "中国", "中國", "娱乐", "谷歌", "భారత్", "ලංකා",
"電訊盈科", "购物", "クラウド", "ભારત", "通販", "भारतम्", "भारत", "भारोत", "网店", "संगठन", "餐厅", "网络", "ком",
"укр", "香港", "诺基亚", "食品", "飞利浦", "台湾", "台灣", "手表", "手机", "мон", "الجزائر", "عمان", "ارامكو",
"ایران", "العليان", "اتصالات", "امارات", "بازار", "پاکستان", "الاردن", "موبايلي", "بارت", "بھارت", "المغرب",
"ابوظبي", "السعودية", "ڀارت", "كاثوليك", "سودان", "همراه", "عراق", "مليسيا", "澳門", "닷컴", "政府", "شبكة",
"بيتك", "عرب", "გე", "机构", "组织机构", "健康", "ไทย", "سورية", "招聘", "рус", "рф", "珠宝", "تونس", "大拿",
"みんな", "グーグル", "ελ", "世界", "書籍", "ഭാരതം", "ਭਾਰਤ", "网址", "닷넷", "コム", "天主教", "游戏",
"vermögensberater", "vermögensberatung", "企业", "信息", "嘉里大酒店", "嘉里", "مصر", "قطر", "广东", "இலங்கை",
"இந்தியா", "հայ", "新加坡", "فلسطين", "政务", "xperia", "xxx", "xyz", "yachts", "yahoo", "yamaxun", "yandex",
"ye", "yodobashi", "yoga", "yokohama", "you", "youtube", "yt", "yun", "za", "zappos", "zara", "zero", "zip",
"zippo", "zm", "zone", "zuerich",
// comment for clang-format to prevent him from placing all strings on separate lines
"zw"});
string str_lower = utf8_to_lower(str);
if (str_lower != str && utf8_substr(Slice(str_lower), 1) == utf8_substr(str, 1)) {
return false;
}
return tlds.count(str_lower) > 0;
}
Slice fix_url(Slice str) {
auto full_url = str;
bool has_protocol = false;
auto str_begin = to_lower(str.substr(0, 8));
if (begins_with(str_begin, "http://") || begins_with(str_begin, "https://") || begins_with(str_begin, "sftp://") ||
begins_with(str_begin, "ftp://")) {
auto pos = str.find(':');
str = str.substr(pos + 3);
has_protocol = true;
}
auto domain_end = std::min({str.size(), str.find('/'), str.find('?'), str.find('#')}); // TODO server: str.find('#')
auto domain = str.substr(0, domain_end);
auto path = str.substr(domain_end);
auto at_pos = domain.find('@');
if (at_pos < domain.size()) {
domain.remove_prefix(at_pos + 1);
}
domain.truncate(domain.rfind(':'));
string domain_lower = domain.str();
to_lower_inplace(domain_lower);
if (domain_lower == "teiegram.org") {
return Slice();
}
int32 balance[3] = {0, 0, 0};
size_t path_pos;
for (path_pos = 0; path_pos < path.size(); path_pos++) {
switch (path[path_pos]) {
case '(':
balance[0]++;
break;
case '[':
balance[1]++;
break;
case '{':
balance[2]++;
break;
case ')':
balance[0]--;
break;
case ']':
balance[1]--;
break;
case '}':
balance[2]--;
break;
}
if (balance[0] < 0 || balance[1] < 0 || balance[2] < 0) {
break;
}
}
Slice bad_path_end_chars(".:;,('?!`");
while (path_pos > 0 && bad_path_end_chars.find(path[path_pos - 1]) < bad_path_end_chars.size()) {
path_pos--;
}
full_url.remove_suffix(path.size() - path_pos);
vector<Slice> domain_parts = full_split(domain, '.');
if (domain_parts.size() <= 1) {
return Slice();
}
bool is_ipv4 = domain_parts.size() == 4;
bool has_non_digit = false;
for (auto &part : domain_parts) {
if (part.empty() || part.size() >= 64) {
return Slice();
}
if (part.back() == '-') {
return Slice();
}
if (!has_non_digit) {
if (part.size() > 3) {
is_ipv4 = false;
}
for (auto c : part) {
if (!is_digit(c)) {
is_ipv4 = false;
has_non_digit = true;
}
}
if (part.size() == 3 &&
(part[0] >= '3' || (part[0] == '2' && (part[1] >= '6' || (part[1] == '5' && part[2] >= '6'))))) {
is_ipv4 = false;
}
if (part[0] == '0' && part.size() >= 2) {
is_ipv4 = false;
}
}
}
if (is_ipv4) {
return full_url;
}
if (!has_non_digit) {
return Slice();
}
auto tld = domain_parts.back();
if (utf8_length(tld) <= 1) {
return Slice();
}
if (begins_with(tld, "xn--")) {
if (tld.size() <= 5) {
return Slice();
}
for (auto c : tld.substr(4)) {
if (!is_alpha_digit(c)) {
return Slice();
}
}
} else {
if (tld.find('_') < tld.size()) {
return Slice();
}
if (tld.find('-') < tld.size()) {
return Slice();
}
if (!has_protocol && !is_common_tld(tld)) {
return Slice();
}
}
domain_parts.pop_back();
if (domain_parts.back().find('_') < domain_parts.back().size()) {
return Slice();
}
return full_url;
}
const std::unordered_set<Slice, SliceHash> &get_valid_short_usernames() {
static const std::unordered_set<Slice, SliceHash> valid_usernames{"gif", "wiki", "vid", "bing", "pic",
"bold", "imdb", "coub", "like", "vote"};
return valid_usernames;
}
vector<Slice> find_mentions(Slice str) {
auto mentions = match_mentions(str);
td::remove_if(mentions, [](Slice mention) {
mention.remove_prefix(1);
if (mention.size() >= 5) {
return false;
}
return get_valid_short_usernames().count(mention) == 0;
});
return mentions;
}
vector<Slice> find_bot_commands(Slice str) {
return match_bot_commands(str);
}
vector<Slice> find_hashtags(Slice str) {
return match_hashtags(str);
}
vector<Slice> find_cashtags(Slice str) {
return match_cashtags(str);
}
vector<Slice> find_bank_card_numbers(Slice str) {
vector<Slice> result;
for (auto bank_card : match_bank_card_numbers(str)) {
if (is_valid_bank_card(bank_card)) {
result.emplace_back(bank_card);
}
}
return result;
}
vector<std::pair<Slice, bool>> find_urls(Slice str) {
vector<std::pair<Slice, bool>> result;
for (auto url : match_urls(str)) {
if (is_email_address(url)) {
result.emplace_back(url, true);
} else if (begins_with(url, "mailto:") && is_email_address(url.substr(7))) {
result.emplace_back(url.substr(7), true);
} else {
url = fix_url(url);
if (!url.empty()) {
result.emplace_back(url, false);
}
}
}
return result;
}
static int32 text_length(Slice text) {
return narrow_cast<int32>(utf8_utf16_length(text));
}
static void sort_entities(vector<MessageEntity> &entities) {
if (std::is_sorted(entities.begin(), entities.end())) {
return;
}
std::sort(entities.begin(), entities.end());
}
#define check_is_sorted(entities) check_is_sorted_impl(entities, __LINE__)
static void check_is_sorted_impl(const vector<MessageEntity> &entities, int line) {
LOG_CHECK(std::is_sorted(entities.begin(), entities.end())) << line << " " << entities;
}
#define check_non_intersecting(entities) check_non_intersecting_impl(entities, __LINE__)
static void check_non_intersecting_impl(const vector<MessageEntity> &entities, int line) {
for (size_t i = 0; i + 1 < entities.size(); i++) {
LOG_CHECK(entities[i].offset + entities[i].length <= entities[i + 1].offset) << line << " " << entities;
}
}
static constexpr int32 get_entity_type_mask(MessageEntity::Type type) {
return 1 << static_cast<int32>(type);
}
static constexpr int32 get_splittable_entities_mask() {
return get_entity_type_mask(MessageEntity::Type::Bold) | get_entity_type_mask(MessageEntity::Type::Italic) |
get_entity_type_mask(MessageEntity::Type::Underline) |
get_entity_type_mask(MessageEntity::Type::Strikethrough);
}
static constexpr int32 get_blockquote_entities_mask() {
return get_entity_type_mask(MessageEntity::Type::BlockQuote);
}
static constexpr int32 get_continuous_entities_mask() {
return get_entity_type_mask(MessageEntity::Type::Mention) | get_entity_type_mask(MessageEntity::Type::Hashtag) |
get_entity_type_mask(MessageEntity::Type::BotCommand) | get_entity_type_mask(MessageEntity::Type::Url) |
get_entity_type_mask(MessageEntity::Type::EmailAddress) | get_entity_type_mask(MessageEntity::Type::TextUrl) |
get_entity_type_mask(MessageEntity::Type::MentionName) | get_entity_type_mask(MessageEntity::Type::Cashtag) |
get_entity_type_mask(MessageEntity::Type::PhoneNumber) |
get_entity_type_mask(MessageEntity::Type::BankCardNumber);
}
static constexpr int32 get_pre_entities_mask() {
return get_entity_type_mask(MessageEntity::Type::Pre) | get_entity_type_mask(MessageEntity::Type::Code) |
get_entity_type_mask(MessageEntity::Type::PreCode);
}
static constexpr int32 get_user_entities_mask() {
return get_splittable_entities_mask() | get_blockquote_entities_mask() |
get_entity_type_mask(MessageEntity::Type::TextUrl) | get_entity_type_mask(MessageEntity::Type::MentionName) |
get_pre_entities_mask();
}
static int32 is_splittable_entity(MessageEntity::Type type) {
return (get_entity_type_mask(type) & get_splittable_entities_mask()) != 0;
}
static int32 is_blockquote_entity(MessageEntity::Type type) {
return type == MessageEntity::Type::BlockQuote;
}
static int32 is_continuous_entity(MessageEntity::Type type) {
return (get_entity_type_mask(type) & get_continuous_entities_mask()) != 0;
}
static int32 is_pre_entity(MessageEntity::Type type) {
return (get_entity_type_mask(type) & get_pre_entities_mask()) != 0;
}
static int32 is_user_entity(MessageEntity::Type type) {
return (get_entity_type_mask(type) & get_user_entities_mask()) != 0;
}
static constexpr size_t SPLITTABLE_ENTITY_TYPE_COUNT = 4;
static size_t get_splittable_entity_type_index(MessageEntity::Type type) {
if (static_cast<int32>(type) <= static_cast<int32>(MessageEntity::Type::Bold) + 1) {
// Bold or Italic
return static_cast<int32>(type) - static_cast<int32>(MessageEntity::Type::Bold);
} else {
// Underline or Strikethrough
return static_cast<int32>(type) - static_cast<int32>(MessageEntity::Type::Underline) + 2;
}
}
static bool are_entities_valid(const vector<MessageEntity> &entities) {
if (entities.empty()) {
return true;
}
check_is_sorted(entities);
int32 end_pos[SPLITTABLE_ENTITY_TYPE_COUNT];
std::fill_n(end_pos, SPLITTABLE_ENTITY_TYPE_COUNT, -1);
vector<const MessageEntity *> nested_entities_stack;
int32 nested_entity_type_mask = 0;
for (auto &entity : entities) {
while (!nested_entities_stack.empty() &&
entity.offset >= nested_entities_stack.back()->offset + nested_entities_stack.back()->length) {
// remove non-intersecting entities from the stack
nested_entity_type_mask -= get_entity_type_mask(nested_entities_stack.back()->type);
nested_entities_stack.pop_back();
}
if (!nested_entities_stack.empty()) {
if (entity.offset + entity.length > nested_entities_stack.back()->offset + nested_entities_stack.back()->length) {
// entity intersects some previous entity
return false;
}
if ((nested_entity_type_mask & get_entity_type_mask(entity.type)) != 0) {
// entity has the same type as one of the previous nested
return false;
}
auto parent_type = nested_entities_stack.back()->type;
if (is_pre_entity(parent_type)) {
// Pre and Code can't contain nested entities
return false;
}
// parents are not pre after this point
if (is_pre_entity(entity.type) && (nested_entity_type_mask & ~get_blockquote_entities_mask()) != 0) {
// Pre and Code can't be contained in other entities, except blockquote
return false;
}
if ((is_continuous_entity(entity.type) || is_blockquote_entity(entity.type)) &&
(nested_entity_type_mask & get_continuous_entities_mask()) != 0) {
// continuous and blockquote can't be contained in continuous
return false;
}
if ((nested_entity_type_mask & get_splittable_entities_mask()) != 0) {
// the previous nested entity may be needed to splitted for consistency
// alternatively, better entity merging needs to be implemented
return false;
}
}
if (is_splittable_entity(entity.type)) {
auto index = get_splittable_entity_type_index(entity.type);
if (end_pos[index] >= entity.offset) {
// the entities can be merged
return false;
}
end_pos[index] = entity.offset + entity.length;
}
nested_entities_stack.push_back(&entity);
nested_entity_type_mask += get_entity_type_mask(entity.type);
}
return true;
}
// removes all intersecting entities, including nested
static void remove_intersecting_entities(vector<MessageEntity> &entities) {
check_is_sorted(entities);
int32 last_entity_end = 0;
size_t left_entities = 0;
for (size_t i = 0; i < entities.size(); i++) {
CHECK(entities[i].length > 0);
if (entities[i].offset >= last_entity_end) {
last_entity_end = entities[i].offset + entities[i].length;
if (i != left_entities) {
entities[left_entities] = std::move(entities[i]);
}
left_entities++;
}
}
entities.erase(entities.begin() + left_entities, entities.end());
}
// continuous_entities and blockquote_entities must be pre-sorted and non-overlapping
static void remove_entities_intersecting_blockquote(vector<MessageEntity> &entities,
const vector<MessageEntity> &blockquote_entities) {
check_non_intersecting(entities);
check_non_intersecting(blockquote_entities);
if (blockquote_entities.empty()) {
// fast path
return;
}
auto blockquote_it = blockquote_entities.begin();
size_t left_entities = 0;
for (size_t i = 0; i < entities.size(); i++) {
while (blockquote_it != blockquote_entities.end() &&
(blockquote_it->type != MessageEntity::Type::BlockQuote ||
blockquote_it->offset + blockquote_it->length <= entities[i].offset)) {
blockquote_it++;
}
if (blockquote_it != blockquote_entities.end() &&
(blockquote_it->offset + blockquote_it->length < entities[i].offset + entities[i].length ||
(entities[i].offset < blockquote_it->offset &&
blockquote_it->offset < entities[i].offset + entities[i].length))) {
continue;
}
if (i != left_entities) {
entities[left_entities] = std::move(entities[i]);
}
left_entities++;
}
entities.erase(entities.begin() + left_entities, entities.end());
}
vector<MessageEntity> find_entities(Slice text, bool skip_bot_commands, bool only_urls) {
vector<MessageEntity> entities;
if (!only_urls) {
auto add_entities = [&entities, &text](MessageEntity::Type type, vector<Slice> (*find_entities_f)(Slice)) mutable {
auto new_entities = find_entities_f(text);
for (auto &entity : new_entities) {
auto offset = narrow_cast<int32>(entity.begin() - text.begin());
auto length = narrow_cast<int32>(entity.size());
entities.emplace_back(type, offset, length);
}
};
add_entities(MessageEntity::Type::Mention, find_mentions);
if (!skip_bot_commands) {
add_entities(MessageEntity::Type::BotCommand, find_bot_commands);
}
add_entities(MessageEntity::Type::Hashtag, find_hashtags);
add_entities(MessageEntity::Type::Cashtag, find_cashtags);
// TODO find_phone_numbers
add_entities(MessageEntity::Type::BankCardNumber, find_bank_card_numbers);
}
auto urls = find_urls(text);
for (auto &url : urls) {
auto type = url.second ? MessageEntity::Type::EmailAddress : MessageEntity::Type::Url;
if (only_urls && type != MessageEntity::Type::Url) {
continue;
}
auto offset = narrow_cast<int32>(url.first.begin() - text.begin());
auto length = narrow_cast<int32>(url.first.size());
entities.emplace_back(type, offset, length);
}
if (entities.empty()) {
return entities;
}
sort_entities(entities);
remove_intersecting_entities(entities);
// fix offsets to UTF-16 offsets
const unsigned char *begin = text.ubegin();
const unsigned char *ptr = begin;
const unsigned char *end = text.uend();
int32 utf16_pos = 0;
for (auto &entity : entities) {
int cnt = 2;
auto entity_begin = entity.offset;
auto entity_end = entity.offset + entity.length;
int32 pos = static_cast<int32>(ptr - begin);
if (entity_begin == pos) {
cnt--;
entity.offset = utf16_pos;
}
while (ptr != end && cnt > 0) {
unsigned char c = ptr[0];
utf16_pos += 1 + (c >= 0xf0);
ptr = next_utf8_unsafe(ptr, nullptr, "find_entities");
pos = static_cast<int32>(ptr - begin);
if (entity_begin == pos) {
cnt--;
entity.offset = utf16_pos;
} else if (entity_end == pos) {
cnt--;
entity.length = utf16_pos - entity.offset;
}
}
CHECK(cnt == 0);
}
return entities;
}
static vector<MessageEntity> merge_entities(vector<MessageEntity> old_entities, vector<MessageEntity> new_entities) {
if (new_entities.empty()) {
return old_entities;
}
if (old_entities.empty()) {
return new_entities;
}
vector<MessageEntity> result;
result.reserve(old_entities.size() + new_entities.size());
auto new_it = new_entities.begin();
auto new_end = new_entities.end();
for (auto &old_entity : old_entities) {
while (new_it != new_end && new_it->offset + new_it->length <= old_entity.offset) {
result.push_back(std::move(*new_it));
new_it++;
}
auto old_entity_end = old_entity.offset + old_entity.length;
result.push_back(std::move(old_entity));
while (new_it != new_end && new_it->offset < old_entity_end) {
new_it++;
}
}
while (new_it != new_end) {
result.push_back(std::move(*new_it));
new_it++;
}
return result;
}
static bool is_plain_domain(Slice url) {
return url.find('/') >= url.size() && url.find('?') >= url.size() && url.find('#') >= url.size();
}
string get_first_url(Slice text, const vector<MessageEntity> &entities) {
for (auto &entity : entities) {
switch (entity.type) {
case MessageEntity::Type::Mention:
break;
case MessageEntity::Type::Hashtag:
break;
case MessageEntity::Type::BotCommand:
break;
case MessageEntity::Type::Url: {
Slice url = utf8_utf16_substr(text, entity.offset, entity.length);
if (begins_with(url, "ton:") || begins_with(url, "tg:") || is_plain_domain(url)) {
continue;
}
return url.str();
}
case MessageEntity::Type::EmailAddress:
break;
case MessageEntity::Type::Bold:
break;
case MessageEntity::Type::Italic:
break;
case MessageEntity::Type::Underline:
break;
case MessageEntity::Type::Strikethrough:
break;
case MessageEntity::Type::BlockQuote:
break;
case MessageEntity::Type::Code:
break;
case MessageEntity::Type::Pre:
break;
case MessageEntity::Type::PreCode:
break;
case MessageEntity::Type::TextUrl:
if (begins_with(entity.argument, "ton:") || begins_with(entity.argument, "tg:")) {
continue;
}
return entity.argument;
case MessageEntity::Type::MentionName:
break;
case MessageEntity::Type::Cashtag:
break;
case MessageEntity::Type::PhoneNumber:
break;
case MessageEntity::Type::BankCardNumber:
break;
default:
UNREACHABLE();
}
}
return string();
}
static UserId get_link_user_id(Slice url) {
string lower_cased_url = to_lower(url);
url = lower_cased_url;
Slice link_scheme("tg:");
if (!begins_with(url, link_scheme)) {
return UserId();
}
url.remove_prefix(link_scheme.size());
if (begins_with(url, "//")) {
url.remove_prefix(2);
}
Slice host("user");
if (!begins_with(url, host)) {
return UserId();
}
url.remove_prefix(host.size());
if (begins_with(url, "/")) {
url.remove_prefix(1);
}
if (!begins_with(url, "?")) {
return UserId();
}
url.remove_prefix(1);
url.truncate(url.find('#'));
for (auto parameter : full_split(url, '&')) {
Slice key;
Slice value;
std::tie(key, value) = split(parameter, '=');
if (key == Slice("id")) {
auto r_user_id = to_integer_safe<int32>(value);
if (r_user_id.is_error()) {
return UserId();
}
return UserId(r_user_id.ok());
}
}
return UserId();
}
Result<vector<MessageEntity>> parse_markdown(string &text) {
string result;
vector<MessageEntity> entities;
size_t size = text.size();
int32 utf16_offset = 0;
for (size_t i = 0; i < size; i++) {
auto c = static_cast<unsigned char>(text[i]);
if (c == '\\' && (text[i + 1] == '_' || text[i + 1] == '*' || text[i + 1] == '`' || text[i + 1] == '[')) {
i++;
result.push_back(text[i]);
utf16_offset++;
continue;
}
if (c != '_' && c != '*' && c != '`' && c != '[') {
if (is_utf8_character_first_code_unit(c)) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
result.push_back(text[i]);
continue;
}
// we are at begin of the entity
size_t begin_pos = i;
char end_character = text[i];
bool is_pre = false;
if (c == '[') {
end_character = ']';
}
i++;
string language;
if (c == '`' && text[i] == '`' && text[i + 1] == '`') {
i += 2;
is_pre = true;
size_t language_end = i;
while (!is_space(text[language_end]) && text[language_end] != '`') {
language_end++;
}
if (i != language_end && language_end < size && text[language_end] != '`') {
language.assign(text, i, language_end - i);
i = language_end;
}
// skip one new line in the beginning of the text
if (text[i] == '\n' || text[i] == '\r') {
if ((text[i + 1] == '\n' || text[i + 1] == '\r') && text[i] != text[i + 1]) {
i += 2;
} else {
i++;
}
}
}
int32 entity_offset = utf16_offset;
while (i < size && (text[i] != end_character || (is_pre && !(text[i + 1] == '`' && text[i + 2] == '`')))) {
auto cur_ch = static_cast<unsigned char>(text[i]);
if (is_utf8_character_first_code_unit(cur_ch)) {
utf16_offset += 1 + (cur_ch >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
result.push_back(text[i++]);
}
if (i == size) {
return Status::Error(400, PSLICE() << "Can't find end of the entity starting at byte offset " << begin_pos);
}
if (entity_offset != utf16_offset) {
auto entity_length = utf16_offset - entity_offset;
switch (c) {
case '_':
entities.emplace_back(MessageEntity::Type::Italic, entity_offset, entity_length);
break;
case '*':
entities.emplace_back(MessageEntity::Type::Bold, entity_offset, entity_length);
break;
case '[': {
string url;
if (text[i + 1] != '(') {
// use text as a url
url.assign(text, begin_pos + 1, i - begin_pos - 1);
} else {
i += 2;
while (i < size && text[i] != ')') {
url.push_back(text[i++]);
}
}
auto user_id = get_link_user_id(url);
if (user_id.is_valid()) {
entities.emplace_back(entity_offset, entity_length, user_id);
} else {
auto r_url = check_url(url);
if (r_url.is_ok()) {
entities.emplace_back(MessageEntity::Type::TextUrl, entity_offset, entity_length, r_url.move_as_ok());
}
}
break;
}
case '`':
if (is_pre) {
if (language.empty()) {
entities.emplace_back(MessageEntity::Type::Pre, entity_offset, entity_length);
} else {
entities.emplace_back(MessageEntity::Type::PreCode, entity_offset, entity_length, language);
}
} else {
entities.emplace_back(MessageEntity::Type::Code, entity_offset, entity_length);
}
break;
default:
UNREACHABLE();
}
}
if (is_pre) {
i += 2;
}
}
text = result;
return entities;
}
static Result<vector<MessageEntity>> do_parse_markdown_v2(CSlice text, string &result) {
vector<MessageEntity> entities;
int32 utf16_offset = 0;
struct EntityInfo {
MessageEntity::Type type;
string argument;
int32 entity_offset;
size_t entity_byte_offset;
size_t entity_begin_pos;
EntityInfo(MessageEntity::Type type, string argument, int32 entity_offset, size_t entity_byte_offset,
size_t entity_begin_pos)
: type(type)
, argument(std::move(argument))
, entity_offset(entity_offset)
, entity_byte_offset(entity_byte_offset)
, entity_begin_pos(entity_begin_pos) {
}
};
std::vector<EntityInfo> nested_entities;
for (size_t i = 0; i < text.size(); i++) {
auto c = static_cast<unsigned char>(text[i]);
if (c == '\\' && text[i + 1] > 0 && text[i + 1] <= 126) {
i++;
utf16_offset += 1;
result += text[i];
continue;
}
Slice reserved_characters("_*[]()~`>#+-=|{}.!");
if (!nested_entities.empty()) {
switch (nested_entities.back().type) {
case MessageEntity::Type::Code:
case MessageEntity::Type::Pre:
case MessageEntity::Type::PreCode:
reserved_characters = Slice("`");
break;
default:
break;
}
}
if (reserved_characters.find(text[i]) == Slice::npos) {
if (is_utf8_character_first_code_unit(c)) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
result.push_back(text[i]);
continue;
}
bool is_end_of_an_entity = false;
if (!nested_entities.empty()) {
is_end_of_an_entity = [&] {
switch (nested_entities.back().type) {
case MessageEntity::Type::Bold:
return c == '*';
case MessageEntity::Type::Italic:
return c == '_' && text[i + 1] != '_';
case MessageEntity::Type::Code:
return c == '`';
case MessageEntity::Type::Pre:
case MessageEntity::Type::PreCode:
return c == '`' && text[i + 1] == '`' && text[i + 2] == '`';
case MessageEntity::Type::TextUrl:
return c == ']';
case MessageEntity::Type::Underline:
return c == '_' && text[i + 1] == '_';
case MessageEntity::Type::Strikethrough:
return c == '~';
default:
UNREACHABLE();
return false;
}
}();
}
if (!is_end_of_an_entity) {
// begin of an entity
MessageEntity::Type type;
string argument;
auto entity_byte_offset = i;
switch (c) {
case '_':
if (text[i + 1] == '_') {
type = MessageEntity::Type::Underline;
i++;
} else {
type = MessageEntity::Type::Italic;
}
break;
case '*':
type = MessageEntity::Type::Bold;
break;
case '~':
type = MessageEntity::Type::Strikethrough;
break;
case '[':
type = MessageEntity::Type::TextUrl;
break;
case '`':
if (text[i + 1] == '`' && text[i + 2] == '`') {
i += 3;
type = MessageEntity::Type::Pre;
size_t language_end = i;
while (!is_space(text[language_end]) && text[language_end] != '`') {
language_end++;
}
if (i != language_end && language_end < text.size() && text[language_end] != '`') {
type = MessageEntity::Type::PreCode;
argument = text.substr(i, language_end - i).str();
i = language_end;
}
// skip one new line in the beginning of the text
if (text[i] == '\n' || text[i] == '\r') {
if ((text[i + 1] == '\n' || text[i + 1] == '\r') && text[i] != text[i + 1]) {
i += 2;
} else {
i++;
}
}
i--;
} else {
type = MessageEntity::Type::Code;
}
break;
default:
return Status::Error(
400, PSLICE() << "Character '" << text[i] << "' is reserved and must be escaped with the preceding '\\'");
}
nested_entities.emplace_back(type, std::move(argument), utf16_offset, entity_byte_offset, result.size());
} else {
// end of an entity
auto type = nested_entities.back().type;
auto argument = std::move(nested_entities.back().argument);
UserId user_id;
bool skip_entity = utf16_offset == nested_entities.back().entity_offset;
switch (type) {
case MessageEntity::Type::Bold:
case MessageEntity::Type::Italic:
case MessageEntity::Type::Code:
case MessageEntity::Type::Strikethrough:
break;
case MessageEntity::Type::Underline:
i++;
break;
case MessageEntity::Type::Pre:
case MessageEntity::Type::PreCode:
i += 2;
break;
case MessageEntity::Type::TextUrl: {
string url;
if (text[i + 1] != '(') {
// use text as a url
url = result.substr(nested_entities.back().entity_begin_pos);
} else {
i += 2;
auto url_begin_pos = i;
while (i < text.size() && text[i] != ')') {
if (text[i] == '\\' && text[i + 1] > 0 && text[i + 1] <= 126) {
url += text[i + 1];
i += 2;
continue;
}
url += text[i++];
}
if (text[i] != ')') {
return Status::Error(400, PSLICE() << "Can't find end of a URL at byte offset " << url_begin_pos);
}
}
user_id = get_link_user_id(url);
if (!user_id.is_valid()) {
auto r_url = check_url(url);
if (r_url.is_error()) {
skip_entity = true;
} else {
argument = r_url.move_as_ok();
}
}
break;
}
default:
UNREACHABLE();
return false;
}
if (!skip_entity) {
auto entity_offset = nested_entities.back().entity_offset;
auto entity_length = utf16_offset - entity_offset;
if (user_id.is_valid()) {
entities.emplace_back(entity_offset, entity_length, user_id);
} else {
entities.emplace_back(type, entity_offset, entity_length, std::move(argument));
}
}
nested_entities.pop_back();
}
}
if (!nested_entities.empty()) {
return Status::Error(400, PSLICE() << "Can't find end of " << nested_entities.back().type
<< " entity at byte offset " << nested_entities.back().entity_byte_offset);
}
sort_entities(entities);
return entities;
}
Result<vector<MessageEntity>> parse_markdown_v2(string &text) {
string result;
TRY_RESULT(entities, do_parse_markdown_v2(text, result));
text = result;
return entities;
}
static vector<Slice> find_text_url_entities_v3(Slice text) {
vector<Slice> result;
size_t size = text.size();
for (size_t i = 0; i < size; i++) {
if (text[i] != '[') {
continue;
}
auto text_begin = i;
auto text_end = text_begin + 1;
while (text_end < size && text[text_end] != ']') {
text_end++;
}
i = text_end; // prevent quadratic asymptotic
if (text_end == size || text_end == text_begin + 1) {
continue;
}
auto url_begin = text_end + 1;
if (url_begin == size || text[url_begin] != '(') {
continue;
}
size_t url_end = url_begin + 1;
while (url_end < size && text[url_end] != ')') {
url_end++;
}
i = url_end; // prevent quadratic asymptotic, disallows [a](b[c](t.me)
if (url_end < size) {
Slice url = text.substr(url_begin + 1, url_end - url_begin - 1);
if (check_url(url).is_ok()) {
result.push_back(text.substr(text_begin, text_end - text_begin + 1));
result.push_back(text.substr(url_begin, url_end - url_begin + 1));
}
}
}
return result;
}
// entities must be valid for the text
static FormattedText parse_text_url_entities_v3(Slice text, const vector<MessageEntity> &entities) {
// continuous entities can't intersect TextUrl entities,
// so try to find new TextUrl entities only between the predetermined continuous entities
Slice debug_initial_text = text;
FormattedText result;
int32 result_text_utf16_length = 0;
vector<MessageEntity> part_entities;
vector<MessageEntity> part_splittable_entities[SPLITTABLE_ENTITY_TYPE_COUNT];
int32 part_begin = 0;
int32 max_end = 0;
int32 skipped_length = 0;
auto add_part = [&](int32 part_end) {
// we have [part_begin, max_end) kept part and [max_end, part_end) part to parse text_url entities
if (max_end != part_begin) {
// add all entities from the kept part
auto kept_part_text = utf8_utf16_substr(text, 0, max_end - part_begin);
text = text.substr(kept_part_text.size());
result.text.append(kept_part_text.begin(), kept_part_text.size());
append(result.entities, std::move(part_entities));
part_entities.clear();
result_text_utf16_length += max_end - part_begin;
}
size_t splittable_entity_pos[SPLITTABLE_ENTITY_TYPE_COUNT] = {};
for (size_t index = 0; index < SPLITTABLE_ENTITY_TYPE_COUNT; index++) {
check_non_intersecting(part_splittable_entities[index]);
}
if (part_end != max_end) {
// try to find text_url entities in the left part
auto parsed_part_text = utf8_utf16_substr(text, 0, part_end - max_end);
text = text.substr(parsed_part_text.size());
vector<Slice> text_urls = find_text_url_entities_v3(parsed_part_text);
int32 text_utf16_offset = max_end;
size_t prev_pos = 0;
for (size_t i = 0; i < text_urls.size(); i += 2) {
auto text_begin_pos = static_cast<size_t>(text_urls[i].begin() - parsed_part_text.begin());
auto text_end_pos = text_begin_pos + text_urls[i].size() - 1;
auto url_begin_pos = static_cast<size_t>(text_urls[i + 1].begin() - parsed_part_text.begin());
auto url_end_pos = url_begin_pos + text_urls[i + 1].size() - 1;
CHECK(parsed_part_text[text_begin_pos] == '[');
CHECK(parsed_part_text[text_end_pos] == ']');
CHECK(url_begin_pos == text_end_pos + 1);
CHECK(parsed_part_text[url_begin_pos] == '(');
CHECK(parsed_part_text[url_end_pos] == ')');
Slice before_text_url = parsed_part_text.substr(prev_pos, text_begin_pos - prev_pos);
auto before_text_url_utf16_length = text_length(before_text_url);
result_text_utf16_length += before_text_url_utf16_length;
result.text.append(before_text_url.begin(), before_text_url.size());
text_utf16_offset += before_text_url_utf16_length;
Slice text_url = parsed_part_text.substr(text_begin_pos + 1, text_end_pos - text_begin_pos - 1);
auto text_url_utf16_length = text_length(text_url);
Slice url = parsed_part_text.substr(url_begin_pos + 1, url_end_pos - url_begin_pos - 1);
auto url_utf16_length = text_length(url);
result.entities.emplace_back(MessageEntity::Type::TextUrl, result_text_utf16_length, text_url_utf16_length,
check_url(url).move_as_ok());
result.text.append(text_url.begin(), text_url.size());
result_text_utf16_length += text_url_utf16_length;
auto initial_utf16_length = 1 + text_url_utf16_length + 1 + 1 + url_utf16_length + 1;
// adjust splittable entities, removing deleted parts from them
// in the segment [text_utf16_offset, text_utf16_offset + initial_utf16_length)
// the first character and the last (url_utf16_length + 3) characters are deleted
for (size_t index = 0; index < SPLITTABLE_ENTITY_TYPE_COUNT; index++) {
auto &pos = splittable_entity_pos[index];
auto &splittable_entities = part_splittable_entities[index];
while (pos < splittable_entities.size() &&
splittable_entities[pos].offset < text_utf16_offset + initial_utf16_length) {
auto offset = splittable_entities[pos].offset;
auto length = splittable_entities[pos].length;
if (offset + length > text_utf16_offset + 1 + text_url_utf16_length) {
// ends after last removed part; truncate length
length = text_utf16_offset + 1 + text_url_utf16_length - offset;
}
if (offset >= text_utf16_offset + 1) {
offset--;
} else if (offset + length >= text_utf16_offset + 1) {
length--;
}
if (length > 0) {
CHECK(offset >= skipped_length);
CHECK(offset - skipped_length + length <= result_text_utf16_length);
if (offset < text_utf16_offset && offset + length > text_utf16_offset) {
// entity intersects start on the new text_url entity; split it
result.entities.emplace_back(splittable_entities[pos].type, offset - skipped_length,
text_utf16_offset - offset);
length -= text_utf16_offset - offset;
offset = text_utf16_offset;
}
result.entities.emplace_back(splittable_entities[pos].type, offset - skipped_length, length);
}
if (splittable_entities[pos].offset + splittable_entities[pos].length >
text_utf16_offset + initial_utf16_length) {
// begins before end of the segment, but ends after it
// need to keep the entity for future segments, so split the entity
splittable_entities[pos].length = splittable_entities[pos].offset + splittable_entities[pos].length -
(text_utf16_offset + initial_utf16_length);
splittable_entities[pos].offset = text_utf16_offset + initial_utf16_length;
} else {
pos++;
}
}
}
text_utf16_offset += initial_utf16_length;
skipped_length += 2 + 2 + url_utf16_length;
prev_pos = url_end_pos + 1;
}
result.text.append(parsed_part_text.begin() + prev_pos, parsed_part_text.size() - prev_pos);
result_text_utf16_length += part_end - text_utf16_offset;
}
// now add all left splittable entities from [part_begin, part_end)
for (size_t index = 0; index < SPLITTABLE_ENTITY_TYPE_COUNT; index++) {
auto &pos = splittable_entity_pos[index];
auto &splittable_entities = part_splittable_entities[index];
while (pos < splittable_entities.size() && splittable_entities[pos].offset < part_end) {
if (splittable_entities[pos].offset + splittable_entities[pos].length > part_end) {
// begins before end of the segment, but ends after it
// need to keep the entity for future segments, so split the entity
// entities don't intersect each other, so there can be at most one such entity
result.entities.emplace_back(splittable_entities[pos].type, splittable_entities[pos].offset - skipped_length,
part_end - splittable_entities[pos].offset);
splittable_entities[pos].length =
splittable_entities[pos].offset + splittable_entities[pos].length - part_end;
splittable_entities[pos].offset = part_end;
} else {
result.entities.emplace_back(splittable_entities[pos].type, splittable_entities[pos].offset - skipped_length,
splittable_entities[pos].length);
pos++;
}
}
if (pos == splittable_entities.size()) {
splittable_entities.clear();
} else {
CHECK(pos == splittable_entities.size() - 1);
LOG_CHECK(!text.empty()) << '"' << debug_initial_text << "\" " << entities;
splittable_entities[0] = std::move(splittable_entities.back());
splittable_entities.resize(1);
}
}
part_begin = part_end;
};
for (const auto &entity : entities) {
if (is_splittable_entity(entity.type)) {
auto index = get_splittable_entity_type_index(entity.type);
part_splittable_entities[index].push_back(entity);
continue;
}
CHECK(is_continuous_entity(entity.type));
if (entity.offset > max_end) {
// found a gap from max_end to entity.offset between predetermined entities
add_part(entity.offset);
} else {
CHECK(entity.offset == max_end);
}
max_end = entity.offset + entity.length;
part_entities.push_back(entity);
part_entities.back().offset -= skipped_length;
}
add_part(part_begin + text_length(text));
return result;
}
static vector<MessageEntity> find_splittable_entities_v3(Slice text, const vector<MessageEntity> &entities) {
std::unordered_set<size_t> unallowed_boundaries;
for (auto &entity : entities) {
unallowed_boundaries.insert(entity.offset);
unallowed_boundaries.insert(entity.offset + entity.length);
if (entity.type == MessageEntity::Type::Mention || entity.type == MessageEntity::Type::Hashtag ||
entity.type == MessageEntity::Type::BotCommand || entity.type == MessageEntity::Type::Cashtag ||
entity.type == MessageEntity::Type::PhoneNumber || entity.type == MessageEntity::Type::BankCardNumber) {
for (int32 i = 1; i < entity.length; i++) {
unallowed_boundaries.insert(entity.offset + i);
}
}
}
auto found_entities = find_entities(text, false, false);
td::remove_if(found_entities, [](const auto &entity) {
return entity.type == MessageEntity::Type::EmailAddress || entity.type == MessageEntity::Type::Url;
});
for (auto &entity : found_entities) {
for (int32 i = 0; i <= entity.length; i++) {
unallowed_boundaries.insert(entity.offset + i);
}
}
vector<MessageEntity> result;
int32 splittable_entity_offset[SPLITTABLE_ENTITY_TYPE_COUNT] = {};
int32 utf16_offset = 0;
for (size_t i = 0; i + 1 < text.size(); i++) {
auto c = static_cast<unsigned char>(text[i]);
if (is_utf8_character_first_code_unit(c)) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
if ((c == '_' || c == '*' || c == '~') && text[i] == text[i + 1] && unallowed_boundaries.count(utf16_offset) == 0) {
auto j = i + 2;
while (j != text.size() && text[j] == text[i] && unallowed_boundaries.count(utf16_offset + j - i - 1) == 0) {
j++;
}
if (j == i + 2) {
auto type = c == '_' ? MessageEntity::Type::Italic
: (c == '*' ? MessageEntity::Type::Bold : MessageEntity::Type::Strikethrough);
auto index = get_splittable_entity_type_index(type);
if (splittable_entity_offset[index] != 0) {
auto length = utf16_offset - splittable_entity_offset[index] - 1;
if (length > 0) {
result.emplace_back(type, splittable_entity_offset[index], length);
}
splittable_entity_offset[index] = 0;
} else {
splittable_entity_offset[index] = utf16_offset + 1;
}
}
utf16_offset += narrow_cast<int32>(j - i - 1);
i = j - 1;
}
}
return result;
}
// entities must be valid and can contain only splittable and continuous entities
// __italic__ ~~strikethrough~~ **bold** and [text_url](telegram.org) entities are left to be parsed
static FormattedText parse_markdown_v3_without_pre(Slice text, vector<MessageEntity> entities) {
check_is_sorted(entities);
FormattedText parsed_text_url_text;
if (text.find('[') != string::npos) {
parsed_text_url_text = parse_text_url_entities_v3(text, entities);
text = parsed_text_url_text.text;
entities = std::move(parsed_text_url_text.entities);
}
// splittable entities are sorted only within a fixed type now
bool have_splittable_entities = false;
for (size_t i = 0; i + 1 < text.size(); i++) {
if ((text[i] == '_' || text[i] == '*' || text[i] == '~') && text[i] == text[i + 1]) {
have_splittable_entities = true;
break;
}
}
if (!have_splittable_entities) {
// fast path
sort_entities(entities);
return {text.str(), std::move(entities)};
}
auto found_splittable_entities = find_splittable_entities_v3(text, entities);
vector<int32> removed_pos;
for (auto &entity : found_splittable_entities) {
removed_pos.push_back(entity.offset - 1);
removed_pos.push_back(entity.offset + entity.length + 1);
}
std::sort(removed_pos.begin(), removed_pos.end());
string new_text;
CHECK(text.size() >= 2 * removed_pos.size());
new_text.reserve(text.size() - 2 * removed_pos.size());
size_t j = 0;
int32 utf16_offset = 0;
for (size_t i = 0; i < text.size(); i++) {
auto c = static_cast<unsigned char>(text[i]);
if (is_utf8_character_first_code_unit(c)) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
if (j < removed_pos.size() && utf16_offset == removed_pos[j]) {
i++;
utf16_offset++;
CHECK(j + 1 == removed_pos.size() || removed_pos[j + 1] >= removed_pos[j] + 2);
j++;
} else {
new_text += text[i];
}
}
CHECK(j == removed_pos.size());
combine(entities, std::move(found_splittable_entities));
for (auto &entity : entities) {
auto removed_before_begin = narrow_cast<int32>(
std::upper_bound(removed_pos.begin(), removed_pos.end(), entity.offset) - removed_pos.begin());
auto removed_before_end = narrow_cast<int32>(
std::upper_bound(removed_pos.begin(), removed_pos.end(), entity.offset + entity.length) - removed_pos.begin());
entity.length -= 2 * (removed_before_end - removed_before_begin);
entity.offset -= 2 * removed_before_begin;
CHECK(entity.offset >= 0);
CHECK(entity.length >= 0);
CHECK(entity.offset + entity.length <= utf16_offset);
}
td::remove_if(entities, [](const auto &entity) { return entity.length == 0; });
sort_entities(entities);
return {std::move(new_text), std::move(entities)};
}
static FormattedText parse_pre_entities_v3(Slice text) {
string result;
vector<MessageEntity> entities;
size_t size = text.size();
int32 utf16_offset = 0;
for (size_t i = 0; i < size; i++) {
auto c = static_cast<unsigned char>(text[i]);
if (c != '`') {
if (is_utf8_character_first_code_unit(c)) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
result.push_back(text[i]);
continue;
}
size_t j = i + 1;
while (j < size && text[j] == '`') {
j++;
}
if (j - i == 1 || j - i == 3) {
// trying to find end of the entity
int32 entity_length = 0;
bool is_found = false;
for (size_t end_tag_begin = j; end_tag_begin < size; end_tag_begin++) {
auto cur_c = static_cast<unsigned char>(text[end_tag_begin]);
if (cur_c == '`') {
// possible end tag
size_t end_tag_end = end_tag_begin + 1;
while (end_tag_end < size && text[end_tag_end] == '`') {
end_tag_end++;
}
if (end_tag_end - end_tag_begin == j - i) {
// end tag found
CHECK(entity_length > 0);
entities.emplace_back(j - i == 3 ? MessageEntity::Type::Pre : MessageEntity::Type::Code, utf16_offset,
entity_length);
result.append(text.begin() + j, end_tag_begin - j);
utf16_offset += entity_length;
i = end_tag_end - 1;
is_found = true;
break;
} else {
// not an end tag, skip
entity_length += narrow_cast<int32>(end_tag_end - end_tag_begin);
end_tag_begin = end_tag_end - 1;
}
} else if (is_utf8_character_first_code_unit(cur_c)) {
entity_length += 1 + (cur_c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
}
if (is_found) {
continue;
}
}
result.append(text.begin() + i, j - i);
utf16_offset += narrow_cast<int32>(j - i);
i = j - 1;
}
return {std::move(result), std::move(entities)};
}
// entities must be valid for the text
static FormattedText parse_pre_entities_v3(Slice text, vector<MessageEntity> entities) {
// nothing can intersect pre entities, so ignore all '`' inside the predetermined entities
// and try to find new pre entities only between the predetermined entities
FormattedText result;
int32 result_text_utf16_length = 0;
int32 part_begin = 0;
int32 max_end = 0;
int32 skipped_length = 0;
auto add_part = [&](int32 part_end) {
// we have [part_begin, max_end) kept part and [max_end, part_end) part to parse pre entities
CHECK(part_begin == result_text_utf16_length + skipped_length);
if (max_end != part_begin) {
// add the kept part
auto kept_part_text = utf8_utf16_substr(text, 0, max_end - part_begin);
text = text.substr(kept_part_text.size());
result.text.append(kept_part_text.begin(), kept_part_text.size());
result_text_utf16_length += max_end - part_begin;
}
if (part_end != max_end) {
// try to find pre entities in the left part
auto parsed_part_text = utf8_utf16_substr(text, 0, part_end - max_end);
text = text.substr(parsed_part_text.size());
if (parsed_part_text.find('`') == string::npos) {
// fast path, no pre entities; just append the text
result.text.append(parsed_part_text.begin(), parsed_part_text.size());
result_text_utf16_length += part_end - max_end;
} else {
FormattedText parsed_text = parse_pre_entities_v3(parsed_part_text);
int32 new_skipped_length = 0;
for (auto &entity : parsed_text.entities) {
new_skipped_length += (entity.type == MessageEntity::Type::Pre ? 6 : 2);
}
CHECK(new_skipped_length < part_end - max_end);
result.text += parsed_text.text;
for (auto &entity : parsed_text.entities) {
entity.offset += result_text_utf16_length;
}
append(result.entities, std::move(parsed_text.entities));
result_text_utf16_length += part_end - max_end - new_skipped_length;
skipped_length += new_skipped_length;
}
}
part_begin = part_end;
};
for (auto &entity : entities) {
if (entity.offset > max_end) {
// found a gap from max_end to entity.offset between predetermined entities
add_part(entity.offset);
}
max_end = td::max(max_end, entity.offset + entity.length);
result.entities.push_back(std::move(entity));
result.entities.back().offset -= skipped_length;
}
add_part(part_begin + text_length(text));
return result;
}
// text entities must be valid
// returned entities must be resplitted and fixed
FormattedText parse_markdown_v3(FormattedText text) {
if (text.text.find('`') != string::npos) {
text = parse_pre_entities_v3(text.text, std::move(text.entities));
check_is_sorted(text.entities);
}
bool have_pre = false;
for (auto &entity : text.entities) {
if (is_pre_entity(entity.type)) {
have_pre = true;
break;
}
}
if (!have_pre) {
// fast path
return parse_markdown_v3_without_pre(text.text, std::move(text.entities));
}
FormattedText result;
int32 result_text_utf16_length = 0;
vector<MessageEntity> part_entities;
int32 part_begin = 0;
int32 max_end = 0;
Slice left_text = text.text;
auto add_part = [&](int32 part_end) {
auto part_text = utf8_utf16_substr(left_text, 0, part_end - part_begin);
left_text = left_text.substr(part_text.size());
FormattedText part = parse_markdown_v3_without_pre(part_text, std::move(part_entities));
part_entities.clear();
result.text += part.text;
for (auto &entity : part.entities) {
entity.offset += result_text_utf16_length;
}
append(result.entities, std::move(part.entities));
result_text_utf16_length += text_length(part.text);
part_begin = part_end;
};
for (size_t i = 0; i < text.entities.size(); i++) {
auto &entity = text.entities[i];
CHECK(is_splittable_entity(entity.type) || is_pre_entity(entity.type) || is_continuous_entity(entity.type));
if (is_pre_entity(entity.type)) {
CHECK(entity.offset >= max_end);
CHECK(i + 1 == text.entities.size() || text.entities[i + 1].offset >= entity.offset + entity.length);
add_part(entity.offset);
auto part_text = utf8_utf16_substr(left_text, 0, entity.length);
left_text = left_text.substr(part_text.size());
result.text.append(part_text.begin(), part_text.size());
result.entities.push_back(entity);
result.entities.back().offset = result_text_utf16_length;
result_text_utf16_length += entity.length;
part_begin = entity.offset + entity.length;
} else {
part_entities.push_back(entity);
part_entities.back().offset -= part_begin;
}
max_end = td::max(max_end, entity.offset + entity.length);
}
add_part(part_begin + text_length(left_text));
return result;
}
// text entities must be valid
FormattedText get_markdown_v3(FormattedText text) {
if (text.entities.empty()) {
return text;
}
check_is_sorted(text.entities);
for (auto &entity : text.entities) {
if (!is_user_entity(entity.type)) {
return text;
}
}
FormattedText result;
struct EntityInfo {
const MessageEntity *entity;
int32 utf16_added_before;
EntityInfo(MessageEntity *entity, int32 utf16_added_before)
: entity(entity), utf16_added_before(utf16_added_before) {
}
};
vector<EntityInfo> nested_entities_stack;
size_t current_entity = 0;
int32 utf16_offset = 0;
int32 utf16_added = 0;
for (size_t pos = 0; pos <= text.text.size(); pos++) {
auto c = static_cast<unsigned char>(text.text[pos]);
if (is_utf8_character_first_code_unit(c)) {
while (!nested_entities_stack.empty()) {
const auto *entity = nested_entities_stack.back().entity;
auto entity_end = entity->offset + entity->length;
if (utf16_offset < entity_end) {
break;
}
CHECK(utf16_offset == entity_end);
switch (entity->type) {
case MessageEntity::Type::Italic:
result.text += "__";
utf16_added += 2;
break;
case MessageEntity::Type::Bold:
result.text += "**";
utf16_added += 2;
break;
case MessageEntity::Type::Strikethrough:
result.text += "~~";
utf16_added += 2;
break;
case MessageEntity::Type::TextUrl:
result.text += "](";
result.text += entity->argument;
result.text += ')';
utf16_added += narrow_cast<int32>(3 + entity->argument.size());
break;
case MessageEntity::Type::Code:
result.text += '`';
utf16_added++;
break;
case MessageEntity::Type::Pre:
result.text += "```";
utf16_added += 3;
break;
default:
result.entities.push_back(*entity);
result.entities.back().offset += nested_entities_stack.back().utf16_added_before;
result.entities.back().length += utf16_added - nested_entities_stack.back().utf16_added_before;
break;
}
nested_entities_stack.pop_back();
}
while (current_entity < text.entities.size() && utf16_offset >= text.entities[current_entity].offset) {
CHECK(utf16_offset == text.entities[current_entity].offset);
switch (text.entities[current_entity].type) {
case MessageEntity::Type::Italic:
result.text += "__";
utf16_added += 2;
break;
case MessageEntity::Type::Bold:
result.text += "**";
utf16_added += 2;
break;
case MessageEntity::Type::Strikethrough:
result.text += "~~";
utf16_added += 2;
break;
case MessageEntity::Type::TextUrl:
result.text += '[';
utf16_added++;
break;
case MessageEntity::Type::Code:
result.text += '`';
utf16_added++;
break;
case MessageEntity::Type::Pre:
result.text += "```";
utf16_added += 3;
break;
default:
// keep as is
break;
}
nested_entities_stack.emplace_back(&text.entities[current_entity++], utf16_added);
}
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
if (pos == text.text.size()) {
break;
}
result.text.push_back(text.text[pos]);
}
sort_entities(result.entities);
if (parse_markdown_v3(result) != text) {
return text;
}
return result;
}
static uint32 decode_html_entity(CSlice text, size_t &pos) {
auto c = static_cast<unsigned char>(text[pos]);
if (c != '&') {
return 0;
}
size_t end_pos = pos + 1;
uint32 res = 0;
if (text[pos + 1] == '#') {
// numeric character reference
end_pos++;
if (text[pos + 2] == 'x') {
// hexadecimal numeric character reference
end_pos++;
while (is_hex_digit(text[end_pos])) {
res = res * 16 + hex_to_int(text[end_pos++]);
}
} else {
// decimal numeric character reference
while (is_digit(text[end_pos])) {
res = res * 10 + text[end_pos++] - '0';
}
}
if (res == 0 || res >= 0x10ffff || end_pos - pos >= 10) {
return 0;
}
} else {
while (is_alpha(text[end_pos])) {
end_pos++;
}
Slice entity = text.substr(pos + 1, end_pos - pos - 1);
if (entity == Slice("lt")) {
res = static_cast<uint32>('<');
} else if (entity == Slice("gt")) {
res = static_cast<uint32>('>');
} else if (entity == Slice("amp")) {
res = static_cast<uint32>('&');
} else if (entity == Slice("quot")) {
res = static_cast<uint32>('"');
} else {
// unsupported literal entity
return 0;
}
}
if (text[end_pos] == ';') {
pos = end_pos + 1;
} else {
pos = end_pos;
}
return res;
}
static Result<vector<MessageEntity>> do_parse_html(CSlice text, string &result) {
vector<MessageEntity> entities;
int32 utf16_offset = 0;
struct EntityInfo {
string tag_name;
string argument;
int32 entity_offset;
size_t entity_begin_pos;
EntityInfo(string tag_name, string argument, int32 entity_offset, size_t entity_begin_pos)
: tag_name(std::move(tag_name))
, argument(std::move(argument))
, entity_offset(entity_offset)
, entity_begin_pos(entity_begin_pos) {
}
};
std::vector<EntityInfo> nested_entities;
for (size_t i = 0; i < text.size(); i++) {
auto c = static_cast<unsigned char>(text[i]);
if (c == '&') {
auto ch = decode_html_entity(text, i);
if (ch != 0) {
i--; // i will be incremented in for
utf16_offset += 1 + (ch > 0xffff);
append_utf8_character(result, ch);
continue;
}
}
if (c != '<') {
if (is_utf8_character_first_code_unit(c)) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
result.push_back(text[i]);
continue;
}
auto begin_pos = i++;
if (text[i] != '/') {
// begin of an entity
while (!is_space(text[i]) && text[i] != '>') {
i++;
}
if (text[i] == 0) {
return Status::Error(400, PSLICE() << "Unclosed start tag at byte offset " << begin_pos);
}
string tag_name = to_lower(text.substr(begin_pos + 1, i - begin_pos - 1));
if (tag_name != "a" && tag_name != "b" && tag_name != "strong" && tag_name != "i" && tag_name != "em" &&
tag_name != "s" && tag_name != "strike" && tag_name != "del" && tag_name != "u" && tag_name != "ins" &&
tag_name != "pre" && tag_name != "code") {
return Status::Error(400, PSLICE()
<< "Unsupported start tag \"" << tag_name << "\" at byte offset " << begin_pos);
}
string argument;
while (text[i] != '>') {
while (text[i] != 0 && is_space(text[i])) {
i++;
}
if (text[i] == '>') {
break;
}
auto attribute_begin_pos = i;
while (!is_space(text[i]) && text[i] != '=') {
i++;
}
Slice attribute_name = text.substr(attribute_begin_pos, i - attribute_begin_pos);
if (attribute_name.empty()) {
return Status::Error(
400, PSLICE() << "Empty attribute name in the tag \"" << tag_name << "\" at byte offset " << begin_pos);
}
while (text[i] != 0 && is_space(text[i])) {
i++;
}
if (text[i] != '=') {
return Status::Error(400, PSLICE() << "Expected equal sign in declaration of an attribute of the tag \""
<< tag_name << "\" at byte offset " << begin_pos);
}
i++;
while (text[i] != 0 && is_space(text[i])) {
i++;
}
if (text[i] == 0) {
return Status::Error(400, PSLICE()
<< "Unclosed start tag \"" << tag_name << "\" at byte offset " << begin_pos);
}
string attribute_value;
if (text[i] != '\'' && text[i] != '"') {
// A name token (a sequence of letters, digits, periods, or hyphens). Name tokens are not case sensitive.
auto token_begin_pos = i;
while (is_alnum(text[i]) || text[i] == '.' || text[i] == '-') {
i++;
}
attribute_value = to_lower(text.substr(token_begin_pos, i - token_begin_pos));
if (!is_space(text[i]) && text[i] != '>') {
return Status::Error(400, PSLICE() << "Unexpected end of name token at byte offset " << token_begin_pos);
}
} else {
// A string literal
char end_character = text[i++];
while (text[i] != end_character && text[i] != 0) {
if (text[i] == '&') {
auto ch = decode_html_entity(text, i);
if (ch != 0) {
append_utf8_character(attribute_value, ch);
continue;
}
}
attribute_value.push_back(text[i++]);
}
if (text[i] == end_character) {
i++;
}
}
if (text[i] == 0) {
return Status::Error(400, PSLICE() << "Unclosed start tag at byte offset " << begin_pos);
}
if (tag_name == "a" && attribute_name == Slice("href")) {
argument = std::move(attribute_value);
}
if (tag_name == "code" && attribute_name == Slice("class") && begins_with(attribute_value, "language-")) {
argument = attribute_value.substr(9);
}
}
nested_entities.emplace_back(std::move(tag_name), std::move(argument), utf16_offset, result.size());
} else {
// end of an entity
if (nested_entities.empty()) {
return Status::Error(400, PSLICE() << "Unexpected end tag at byte offset " << begin_pos);
}
while (!is_space(text[i]) && text[i] != '>') {
i++;
}
Slice end_tag_name = text.substr(begin_pos + 2, i - begin_pos - 2);
while (is_space(text[i]) && text[i] != 0) {
i++;
}
if (text[i] != '>') {
return Status::Error(400, PSLICE() << "Unclosed end tag at byte offset " << begin_pos);
}
string tag_name = std::move(nested_entities.back().tag_name);
if (!end_tag_name.empty() && end_tag_name != tag_name) {
return Status::Error(400, PSLICE() << "Unmatched end tag at byte offset " << begin_pos << ", expected \"</"
<< tag_name << ">\", found \"</" << end_tag_name << ">\"");
}
if (utf16_offset > nested_entities.back().entity_offset) {
auto entity_offset = nested_entities.back().entity_offset;
auto entity_length = utf16_offset - entity_offset;
if (tag_name == "i" || tag_name == "em") {
entities.emplace_back(MessageEntity::Type::Italic, entity_offset, entity_length);
} else if (tag_name == "b" || tag_name == "strong") {
entities.emplace_back(MessageEntity::Type::Bold, entity_offset, entity_length);
} else if (tag_name == "s" || tag_name == "strike" || tag_name == "del") {
entities.emplace_back(MessageEntity::Type::Strikethrough, entity_offset, entity_length);
} else if (tag_name == "u" || tag_name == "ins") {
entities.emplace_back(MessageEntity::Type::Underline, entity_offset, entity_length);
} else if (tag_name == "a") {
auto url = std::move(nested_entities.back().argument);
if (url.empty()) {
url = result.substr(nested_entities.back().entity_begin_pos);
}
auto user_id = get_link_user_id(url);
if (user_id.is_valid()) {
entities.emplace_back(entity_offset, entity_length, user_id);
} else {
auto r_url = check_url(url);
if (r_url.is_ok()) {
entities.emplace_back(MessageEntity::Type::TextUrl, entity_offset, entity_length, r_url.move_as_ok());
}
}
} else if (tag_name == "pre") {
if (!entities.empty() && entities.back().type == MessageEntity::Type::Code &&
entities.back().offset == entity_offset && entities.back().length == entity_length &&
!entities.back().argument.empty()) {
entities.back().type = MessageEntity::Type::PreCode;
} else {
entities.emplace_back(MessageEntity::Type::Pre, entity_offset, entity_length);
}
} else if (tag_name == "code") {
if (!entities.empty() && entities.back().type == MessageEntity::Type::Pre &&
entities.back().offset == entity_offset && entities.back().length == entity_length &&
!nested_entities.back().argument.empty()) {
entities.back().type = MessageEntity::Type::PreCode;
entities.back().argument = std::move(nested_entities.back().argument);
} else {
entities.emplace_back(MessageEntity::Type::Code, entity_offset, entity_length,
nested_entities.back().argument);
}
} else {
UNREACHABLE();
}
}
nested_entities.pop_back();
}
}
if (!nested_entities.empty()) {
return Status::Error(
400, PSLICE() << "Can't find end tag corresponding to start tag " << nested_entities.back().tag_name);
}
for (auto &entity : entities) {
if (entity.type == MessageEntity::Type::Code && !entity.argument.empty()) {
entity.argument.clear();
}
}
sort_entities(entities);
return entities;
}
Result<vector<MessageEntity>> parse_html(string &text) {
string result;
TRY_RESULT(entities, do_parse_html(text, result));
if (!check_utf8(result)) {
return Status::Error(400,
"Text contains invalid Unicode characters after decoding HTML entities, check for unmatched "
"surrogate code units");
}
text = result;
return entities;
}
vector<tl_object_ptr<telegram_api::MessageEntity>> get_input_message_entities(const ContactsManager *contacts_manager,
const vector<MessageEntity> &entities,
const char *source) {
vector<tl_object_ptr<telegram_api::MessageEntity>> result;
for (auto &entity : entities) {
if (!is_user_entity(entity.type)) {
continue;
}
switch (entity.type) {
case MessageEntity::Type::Bold:
result.push_back(make_tl_object<telegram_api::messageEntityBold>(entity.offset, entity.length));
break;
case MessageEntity::Type::Italic:
result.push_back(make_tl_object<telegram_api::messageEntityItalic>(entity.offset, entity.length));
break;
case MessageEntity::Type::Underline:
result.push_back(make_tl_object<telegram_api::messageEntityUnderline>(entity.offset, entity.length));
break;
case MessageEntity::Type::Strikethrough:
result.push_back(make_tl_object<telegram_api::messageEntityStrike>(entity.offset, entity.length));
break;
case MessageEntity::Type::BlockQuote:
result.push_back(make_tl_object<telegram_api::messageEntityBlockquote>(entity.offset, entity.length));
break;
case MessageEntity::Type::Code:
result.push_back(make_tl_object<telegram_api::messageEntityCode>(entity.offset, entity.length));
break;
case MessageEntity::Type::Pre:
result.push_back(make_tl_object<telegram_api::messageEntityPre>(entity.offset, entity.length, string()));
break;
case MessageEntity::Type::PreCode:
result.push_back(make_tl_object<telegram_api::messageEntityPre>(entity.offset, entity.length, entity.argument));
break;
case MessageEntity::Type::TextUrl:
result.push_back(
make_tl_object<telegram_api::messageEntityTextUrl>(entity.offset, entity.length, entity.argument));
break;
case MessageEntity::Type::MentionName: {
auto input_user = contacts_manager->get_input_user(entity.user_id);
LOG_CHECK(input_user != nullptr) << source;
result.push_back(make_tl_object<telegram_api::inputMessageEntityMentionName>(entity.offset, entity.length,
std::move(input_user)));
break;
}
case MessageEntity::Type::Mention:
case MessageEntity::Type::Hashtag:
case MessageEntity::Type::BotCommand:
case MessageEntity::Type::Url:
case MessageEntity::Type::EmailAddress:
case MessageEntity::Type::Cashtag:
case MessageEntity::Type::PhoneNumber:
case MessageEntity::Type::BankCardNumber:
default:
UNREACHABLE();
}
}
return result;
}
vector<tl_object_ptr<telegram_api::MessageEntity>> get_input_message_entities(const ContactsManager *contacts_manager,
const FormattedText *text,
const char *source) {
if (text != nullptr && !text->entities.empty()) {
return get_input_message_entities(contacts_manager, text->entities, source);
}
return {};
}
vector<tl_object_ptr<secret_api::MessageEntity>> get_input_secret_message_entities(
const vector<MessageEntity> &entities, int32 layer) {
vector<tl_object_ptr<secret_api::MessageEntity>> result;
for (auto &entity : entities) {
switch (entity.type) {
case MessageEntity::Type::Mention:
result.push_back(make_tl_object<secret_api::messageEntityMention>(entity.offset, entity.length));
break;
case MessageEntity::Type::Hashtag:
result.push_back(make_tl_object<secret_api::messageEntityHashtag>(entity.offset, entity.length));
break;
case MessageEntity::Type::Cashtag:
break;
case MessageEntity::Type::BotCommand:
break;
case MessageEntity::Type::PhoneNumber:
break;
case MessageEntity::Type::BankCardNumber:
break;
case MessageEntity::Type::Url:
result.push_back(make_tl_object<secret_api::messageEntityUrl>(entity.offset, entity.length));
break;
case MessageEntity::Type::EmailAddress:
result.push_back(make_tl_object<secret_api::messageEntityEmail>(entity.offset, entity.length));
break;
case MessageEntity::Type::Bold:
result.push_back(make_tl_object<secret_api::messageEntityBold>(entity.offset, entity.length));
break;
case MessageEntity::Type::Italic:
result.push_back(make_tl_object<secret_api::messageEntityItalic>(entity.offset, entity.length));
break;
case MessageEntity::Type::Underline:
if (layer >= SecretChatActor::NEW_ENTITIES_LAYER) {
result.push_back(make_tl_object<secret_api::messageEntityUnderline>(entity.offset, entity.length));
}
break;
case MessageEntity::Type::Strikethrough:
if (layer >= SecretChatActor::NEW_ENTITIES_LAYER) {
result.push_back(make_tl_object<secret_api::messageEntityStrike>(entity.offset, entity.length));
}
break;
case MessageEntity::Type::BlockQuote:
if (layer >= SecretChatActor::NEW_ENTITIES_LAYER) {
result.push_back(make_tl_object<secret_api::messageEntityBlockquote>(entity.offset, entity.length));
}
break;
case MessageEntity::Type::Code:
result.push_back(make_tl_object<secret_api::messageEntityCode>(entity.offset, entity.length));
break;
case MessageEntity::Type::Pre:
result.push_back(make_tl_object<secret_api::messageEntityPre>(entity.offset, entity.length, string()));
break;
case MessageEntity::Type::PreCode:
result.push_back(make_tl_object<secret_api::messageEntityPre>(entity.offset, entity.length, entity.argument));
break;
case MessageEntity::Type::TextUrl:
result.push_back(
make_tl_object<secret_api::messageEntityTextUrl>(entity.offset, entity.length, entity.argument));
break;
case MessageEntity::Type::MentionName:
break;
default:
UNREACHABLE();
}
}
return result;
}
Result<vector<MessageEntity>> get_message_entities(const ContactsManager *contacts_manager,
vector<tl_object_ptr<td_api::textEntity>> &&input_entities,
bool allow_all) {
vector<MessageEntity> entities;
for (auto &entity : input_entities) {
if (entity == nullptr || entity->type_ == nullptr) {
continue;
}
switch (entity->type_->get_id()) {
case td_api::textEntityTypeMention::ID:
entities.emplace_back(MessageEntity::Type::Mention, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeHashtag::ID:
entities.emplace_back(MessageEntity::Type::Hashtag, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeBotCommand::ID:
entities.emplace_back(MessageEntity::Type::BotCommand, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeUrl::ID:
entities.emplace_back(MessageEntity::Type::Url, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeEmailAddress::ID:
entities.emplace_back(MessageEntity::Type::EmailAddress, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeCashtag::ID:
entities.emplace_back(MessageEntity::Type::Cashtag, entity->offset_, entity->length_);
break;
case td_api::textEntityTypePhoneNumber::ID:
entities.emplace_back(MessageEntity::Type::PhoneNumber, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeBankCardNumber::ID:
entities.emplace_back(MessageEntity::Type::BankCardNumber, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeBold::ID:
entities.emplace_back(MessageEntity::Type::Bold, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeItalic::ID:
entities.emplace_back(MessageEntity::Type::Italic, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeUnderline::ID:
entities.emplace_back(MessageEntity::Type::Underline, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeStrikethrough::ID:
entities.emplace_back(MessageEntity::Type::Strikethrough, entity->offset_, entity->length_);
break;
case td_api::textEntityTypeCode::ID:
entities.emplace_back(MessageEntity::Type::Code, entity->offset_, entity->length_);
break;
case td_api::textEntityTypePre::ID:
entities.emplace_back(MessageEntity::Type::Pre, entity->offset_, entity->length_);
break;
case td_api::textEntityTypePreCode::ID: {
auto entity_pre_code = static_cast<td_api::textEntityTypePreCode *>(entity->type_.get());
if (!clean_input_string(entity_pre_code->language_)) {
return Status::Error(400, "MessageEntityPreCode.language must be encoded in UTF-8");
}
entities.emplace_back(MessageEntity::Type::PreCode, entity->offset_, entity->length_,
entity_pre_code->language_);
break;
}
case td_api::textEntityTypeTextUrl::ID: {
auto entity_text_url = static_cast<td_api::textEntityTypeTextUrl *>(entity->type_.get());
if (!clean_input_string(entity_text_url->url_)) {
return Status::Error(400, "MessageEntityTextUrl.url must be encoded in UTF-8");
}
auto r_url = check_url(entity_text_url->url_);
if (r_url.is_error()) {
return Status::Error(400, PSTRING() << "Wrong message entity: " << r_url.error().message());
}
entities.emplace_back(MessageEntity::Type::TextUrl, entity->offset_, entity->length_, r_url.move_as_ok());
break;
}
case td_api::textEntityTypeMentionName::ID: {
auto entity_mention_name = static_cast<td_api::textEntityTypeMentionName *>(entity->type_.get());
UserId user_id(entity_mention_name->user_id_);
if (contacts_manager != nullptr && !contacts_manager->have_input_user(user_id)) {
return Status::Error(7, "Have no access to the user");
}
entities.emplace_back(entity->offset_, entity->length_, user_id);
break;
}
default:
UNREACHABLE();
}
CHECK(!entities.empty());
if (!allow_all && !is_user_entity(entities.back().type)) {
entities.pop_back();
}
}
return entities;
}
vector<MessageEntity> get_message_entities(const ContactsManager *contacts_manager,
vector<tl_object_ptr<telegram_api::MessageEntity>> &&server_entities,
const char *source) {
vector<MessageEntity> entities;
entities.reserve(server_entities.size());
for (auto &entity : server_entities) {
switch (entity->get_id()) {
case telegram_api::messageEntityUnknown::ID:
break;
case telegram_api::messageEntityMention::ID: {
auto entity_mention = static_cast<const telegram_api::messageEntityMention *>(entity.get());
entities.emplace_back(MessageEntity::Type::Mention, entity_mention->offset_, entity_mention->length_);
break;
}
case telegram_api::messageEntityHashtag::ID: {
auto entity_hashtag = static_cast<const telegram_api::messageEntityHashtag *>(entity.get());
entities.emplace_back(MessageEntity::Type::Hashtag, entity_hashtag->offset_, entity_hashtag->length_);
break;
}
case telegram_api::messageEntityCashtag::ID: {
auto entity_cashtag = static_cast<const telegram_api::messageEntityCashtag *>(entity.get());
entities.emplace_back(MessageEntity::Type::Cashtag, entity_cashtag->offset_, entity_cashtag->length_);
break;
}
case telegram_api::messageEntityPhone::ID: {
auto entity_phone = static_cast<const telegram_api::messageEntityPhone *>(entity.get());
entities.emplace_back(MessageEntity::Type::PhoneNumber, entity_phone->offset_, entity_phone->length_);
break;
}
case telegram_api::messageEntityBotCommand::ID: {
auto entity_bot_command = static_cast<const telegram_api::messageEntityBotCommand *>(entity.get());
entities.emplace_back(MessageEntity::Type::BotCommand, entity_bot_command->offset_,
entity_bot_command->length_);
break;
}
case telegram_api::messageEntityBankCard::ID: {
auto entity_bank_card = static_cast<const telegram_api::messageEntityBankCard *>(entity.get());
entities.emplace_back(MessageEntity::Type::BankCardNumber, entity_bank_card->offset_,
entity_bank_card->length_);
break;
}
case telegram_api::messageEntityUrl::ID: {
auto entity_url = static_cast<const telegram_api::messageEntityUrl *>(entity.get());
entities.emplace_back(MessageEntity::Type::Url, entity_url->offset_, entity_url->length_);
break;
}
case telegram_api::messageEntityEmail::ID: {
auto entity_email = static_cast<const telegram_api::messageEntityEmail *>(entity.get());
entities.emplace_back(MessageEntity::Type::EmailAddress, entity_email->offset_, entity_email->length_);
break;
}
case telegram_api::messageEntityBold::ID: {
auto entity_bold = static_cast<const telegram_api::messageEntityBold *>(entity.get());
entities.emplace_back(MessageEntity::Type::Bold, entity_bold->offset_, entity_bold->length_);
break;
}
case telegram_api::messageEntityItalic::ID: {
auto entity_italic = static_cast<const telegram_api::messageEntityItalic *>(entity.get());
entities.emplace_back(MessageEntity::Type::Italic, entity_italic->offset_, entity_italic->length_);
break;
}
case telegram_api::messageEntityUnderline::ID: {
auto entity_bold = static_cast<const telegram_api::messageEntityUnderline *>(entity.get());
entities.emplace_back(MessageEntity::Type::Underline, entity_bold->offset_, entity_bold->length_);
break;
}
case telegram_api::messageEntityStrike::ID: {
auto entity_bold = static_cast<const telegram_api::messageEntityStrike *>(entity.get());
entities.emplace_back(MessageEntity::Type::Strikethrough, entity_bold->offset_, entity_bold->length_);
break;
}
case telegram_api::messageEntityBlockquote::ID: {
auto entity_bold = static_cast<const telegram_api::messageEntityBlockquote *>(entity.get());
entities.emplace_back(MessageEntity::Type::BlockQuote, entity_bold->offset_, entity_bold->length_);
break;
}
case telegram_api::messageEntityCode::ID: {
auto entity_code = static_cast<const telegram_api::messageEntityCode *>(entity.get());
entities.emplace_back(MessageEntity::Type::Code, entity_code->offset_, entity_code->length_);
break;
}
case telegram_api::messageEntityPre::ID: {
auto entity_pre = static_cast<telegram_api::messageEntityPre *>(entity.get());
if (entity_pre->language_.empty()) {
entities.emplace_back(MessageEntity::Type::Pre, entity_pre->offset_, entity_pre->length_);
} else {
entities.emplace_back(MessageEntity::Type::PreCode, entity_pre->offset_, entity_pre->length_,
std::move(entity_pre->language_));
}
break;
}
case telegram_api::messageEntityTextUrl::ID: {
auto entity_text_url = static_cast<const telegram_api::messageEntityTextUrl *>(entity.get());
auto r_url = check_url(entity_text_url->url_);
if (r_url.is_error()) {
LOG(ERROR) << "Wrong URL entity: \"" << entity_text_url->url_ << "\": " << r_url.error().message() << " from "
<< source;
continue;
}
entities.emplace_back(MessageEntity::Type::TextUrl, entity_text_url->offset_, entity_text_url->length_,
r_url.move_as_ok());
break;
}
case telegram_api::messageEntityMentionName::ID: {
auto entity_mention_name = static_cast<const telegram_api::messageEntityMentionName *>(entity.get());
UserId user_id(entity_mention_name->user_id_);
if (!user_id.is_valid()) {
LOG(ERROR) << "Receive invalid " << user_id << " in MentionName from " << source;
continue;
}
if (contacts_manager == nullptr || !contacts_manager->have_user(user_id)) {
LOG(ERROR) << "Receive unknown " << user_id << " in MentionName from " << source;
continue;
}
if (!contacts_manager->have_input_user(user_id)) {
LOG(ERROR) << "Receive inaccessible " << user_id << " in MentionName from " << source;
continue;
}
entities.emplace_back(entity_mention_name->offset_, entity_mention_name->length_, user_id);
break;
}
default:
UNREACHABLE();
}
}
return entities;
}
vector<MessageEntity> get_message_entities(vector<tl_object_ptr<secret_api::MessageEntity>> &&secret_entities) {
vector<MessageEntity> entities;
entities.reserve(secret_entities.size());
for (auto &entity : secret_entities) {
switch (entity->get_id()) {
case secret_api::messageEntityUnknown::ID:
break;
case secret_api::messageEntityMention::ID:
// skip, will find it ourselves
break;
case secret_api::messageEntityHashtag::ID:
// skip, will find it ourselves
break;
case secret_api::messageEntityCashtag::ID:
// skip, will find it ourselves
break;
case secret_api::messageEntityPhone::ID:
// skip, will find it ourselves
break;
case secret_api::messageEntityBotCommand::ID:
// skip all bot commands in secret chats
break;
case secret_api::messageEntityBankCard::ID:
// skip, will find it ourselves
break;
case secret_api::messageEntityUrl::ID: {
auto entity_url = static_cast<const secret_api::messageEntityUrl *>(entity.get());
// TODO skip URL when find_urls will be better
entities.emplace_back(MessageEntity::Type::Url, entity_url->offset_, entity_url->length_);
break;
}
case secret_api::messageEntityEmail::ID: {
auto entity_email = static_cast<const secret_api::messageEntityEmail *>(entity.get());
// TODO skip emails when find_urls will be better
entities.emplace_back(MessageEntity::Type::EmailAddress, entity_email->offset_, entity_email->length_);
break;
}
case secret_api::messageEntityBold::ID: {
auto entity_bold = static_cast<const secret_api::messageEntityBold *>(entity.get());
entities.emplace_back(MessageEntity::Type::Bold, entity_bold->offset_, entity_bold->length_);
break;
}
case secret_api::messageEntityItalic::ID: {
auto entity_italic = static_cast<const secret_api::messageEntityItalic *>(entity.get());
entities.emplace_back(MessageEntity::Type::Italic, entity_italic->offset_, entity_italic->length_);
break;
}
case secret_api::messageEntityUnderline::ID: {
auto entity_bold = static_cast<const secret_api::messageEntityUnderline *>(entity.get());
entities.emplace_back(MessageEntity::Type::Underline, entity_bold->offset_, entity_bold->length_);
break;
}
case secret_api::messageEntityStrike::ID: {
auto entity_bold = static_cast<const secret_api::messageEntityStrike *>(entity.get());
entities.emplace_back(MessageEntity::Type::Strikethrough, entity_bold->offset_, entity_bold->length_);
break;
}
case secret_api::messageEntityBlockquote::ID: {
auto entity_bold = static_cast<const secret_api::messageEntityBlockquote *>(entity.get());
entities.emplace_back(MessageEntity::Type::BlockQuote, entity_bold->offset_, entity_bold->length_);
break;
}
case secret_api::messageEntityCode::ID: {
auto entity_code = static_cast<const secret_api::messageEntityCode *>(entity.get());
entities.emplace_back(MessageEntity::Type::Code, entity_code->offset_, entity_code->length_);
break;
}
case secret_api::messageEntityPre::ID: {
auto entity_pre = static_cast<secret_api::messageEntityPre *>(entity.get());
if (!clean_input_string(entity_pre->language_)) {
LOG(WARNING) << "Wrong language in entity: \"" << entity_pre->language_ << '"';
entity_pre->language_.clear();
}
if (entity_pre->language_.empty()) {
entities.emplace_back(MessageEntity::Type::Pre, entity_pre->offset_, entity_pre->length_);
} else {
entities.emplace_back(MessageEntity::Type::PreCode, entity_pre->offset_, entity_pre->length_,
std::move(entity_pre->language_));
}
break;
}
case secret_api::messageEntityTextUrl::ID: {
auto entity_text_url = static_cast<secret_api::messageEntityTextUrl *>(entity.get());
if (!clean_input_string(entity_text_url->url_)) {
LOG(WARNING) << "Wrong URL entity: \"" << entity_text_url->url_ << '"';
continue;
}
auto r_url = check_url(entity_text_url->url_);
if (r_url.is_error()) {
LOG(WARNING) << "Wrong URL entity: \"" << entity_text_url->url_ << "\": " << r_url.error().message();
continue;
}
entities.emplace_back(MessageEntity::Type::TextUrl, entity_text_url->offset_, entity_text_url->length_,
r_url.move_as_ok());
break;
}
case secret_api::messageEntityMentionName::ID:
// skip all name mentions in secret chats
break;
default:
UNREACHABLE();
}
}
return entities;
}
// like clean_input_string but also fixes entities
// entities must be sorted, can be nested, but must not intersect each other
static Result<string> clean_input_string_with_entities(const string &text, vector<MessageEntity> &entities) {
check_is_sorted(entities);
struct EntityInfo {
MessageEntity *entity;
int32 utf16_skipped_before;
EntityInfo(MessageEntity *entity, int32 utf16_skipped_before)
: entity(entity), utf16_skipped_before(utf16_skipped_before) {
}
};
vector<EntityInfo> nested_entities_stack;
size_t current_entity = 0;
int32 utf16_offset = 0;
int32 utf16_skipped = 0;
size_t text_size = text.size();
string result;
result.reserve(text_size);
for (size_t pos = 0; pos <= text_size; pos++) {
auto c = static_cast<unsigned char>(text[pos]);
bool is_utf8_character_begin = is_utf8_character_first_code_unit(c);
if (is_utf8_character_begin) {
while (!nested_entities_stack.empty()) {
auto *entity = nested_entities_stack.back().entity;
auto entity_end = entity->offset + entity->length;
if (utf16_offset < entity_end) {
break;
}
if (utf16_offset != entity_end) {
CHECK(utf16_offset == entity_end + 1);
return Status::Error(400, PSLICE() << "Entity beginning at UTF-16 offset " << entity->offset
<< " ends in a middle of a UTF-16 symbol at byte offset " << pos);
}
auto skipped_before_current_entity = nested_entities_stack.back().utf16_skipped_before;
entity->offset -= skipped_before_current_entity;
entity->length -= utf16_skipped - skipped_before_current_entity;
nested_entities_stack.pop_back();
}
while (current_entity < entities.size() && utf16_offset >= entities[current_entity].offset) {
if (utf16_offset != entities[current_entity].offset) {
CHECK(utf16_offset == entities[current_entity].offset + 1);
return Status::Error(400, PSLICE() << "Entity begins in a middle of a UTF-16 symbol at byte offset " << pos);
}
nested_entities_stack.emplace_back(&entities[current_entity++], utf16_skipped);
}
}
if (pos == text_size) {
break;
}
switch (c) {
// remove control characters
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
case 8:
case 9:
// allow '\n'
case 11:
case 12:
// ignore '\r'
case 14:
case 15:
case 16:
case 17:
case 18:
case 19:
case 20:
case 21:
case 22:
case 23:
case 24:
case 25:
case 26:
case 27:
case 28:
case 29:
case 30:
case 31:
case 32:
result.push_back(' ');
utf16_offset++;
break;
case '\r':
// skip
utf16_offset++;
utf16_skipped++;
break;
default:
if (is_utf8_character_begin) {
utf16_offset += 1 + (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
}
if (c == 0xe2 && pos + 2 < text_size) {
unsigned char next = static_cast<unsigned char>(text[pos + 1]);
if (next == 0x80) {
next = static_cast<unsigned char>(text[pos + 2]);
if (0xa8 <= next && next <= 0xae) {
pos += 2;
utf16_skipped++;
break;
}
}
}
if (c == 0xcc && pos + 1 < text_size) {
unsigned char next = static_cast<unsigned char>(text[pos + 1]);
// remove vertical lines
if (next == 0xb3 || next == 0xbf || next == 0x8a) {
pos++;
utf16_skipped++;
break;
}
}
result.push_back(text[pos]);
break;
}
}
if (current_entity != entities.size()) {
return Status::Error(400, PSLICE() << "Entity begins after the end of the text at UTF-16 offset "
<< entities[current_entity].offset);
}
if (!nested_entities_stack.empty()) {
auto *entity = nested_entities_stack.back().entity;
return Status::Error(400, PSLICE() << "Entity beginning at UTF-16 offset " << entity->offset
<< " ends after the end of the text at UTF-16 offset "
<< entity->offset + entity->length);
}
replace_offending_characters(result);
return result;
}
// removes entities containing whitespaces only
// entities must be sorted by offset and length, but not necessary by type
// returns {last_non_whitespace_pos, last_non_whitespace_utf16_offset}
static std::pair<size_t, int32> remove_invalid_entities(const string &text, vector<MessageEntity> &entities) {
// check_is_sorted(entities);
vector<MessageEntity *> nested_entities_stack;
size_t current_entity = 0;
size_t last_non_whitespace_pos = text.size();
int32 utf16_offset = 0;
int32 last_space_utf16_offset = -1;
int32 last_non_whitespace_utf16_offset = -1;
for (size_t pos = 0; pos <= text.size(); pos++) {
while (current_entity < entities.size() && utf16_offset >= entities[current_entity].offset &&
entities[current_entity].length == 0) {
nested_entities_stack.push_back(&entities[current_entity++]);
}
while (!nested_entities_stack.empty()) {
auto *entity = nested_entities_stack.back();
auto entity_end = entity->offset + entity->length;
if (utf16_offset < entity_end) {
break;
}
auto have_hidden_data = entity->type == MessageEntity::Type::TextUrl ||
entity->type == MessageEntity::Type::MentionName || is_pre_entity(entity->type);
if (last_non_whitespace_utf16_offset >= entity->offset ||
(last_space_utf16_offset >= entity->offset && have_hidden_data)) {
// TODO check entity for validness, for example, that mentions, hashtags, cashtags and URLs are valid
// keep entity
} else {
entity->length = 0;
}
nested_entities_stack.pop_back();
}
while (current_entity < entities.size() && utf16_offset >= entities[current_entity].offset) {
nested_entities_stack.push_back(&entities[current_entity++]);
}
if (pos == text.size()) {
break;
}
if (!nested_entities_stack.empty() && nested_entities_stack.back()->offset == utf16_offset &&
(text[pos] == '\n' || text[pos] == ' ')) {
// entities was fixed, so there can't be more than one splittable entity of each type, one blockquote and
// one continuous entity for the given offset
for (size_t i = nested_entities_stack.size(); i > 0; i--) {
auto *entity = nested_entities_stack[i - 1];
if (entity->offset != utf16_offset || entity->type == MessageEntity::Type::TextUrl ||
entity->type == MessageEntity::Type::MentionName || is_pre_entity(entity->type)) {
break;
}
entity->offset++;
entity->length--;
if (entity->length == 0) {
CHECK(i == nested_entities_stack.size());
nested_entities_stack.pop_back();
}
}
}
auto c = static_cast<unsigned char>(text[pos]);
switch (c) {
case '\n':
break;
case 32:
last_space_utf16_offset = utf16_offset;
break;
default:
while (!is_utf8_character_first_code_unit(static_cast<unsigned char>(text[pos + 1]))) {
pos++;
}
utf16_offset += (c >= 0xf0); // >= 4 bytes in symbol => surrogaite pair
last_non_whitespace_pos = pos;
last_non_whitespace_utf16_offset = utf16_offset;
break;
}
utf16_offset++;
}
CHECK(nested_entities_stack.empty());
CHECK(current_entity == entities.size());
td::remove_if(entities, [](const auto &entity) { return entity.length == 0; });
return {last_non_whitespace_pos, last_non_whitespace_utf16_offset};
}
// enitities must contain only splittable entities
void split_entities(vector<MessageEntity> &entities, const vector<MessageEntity> &other_entities) {
check_is_sorted(entities);
check_is_sorted(other_entities);
int32 begin_pos[SPLITTABLE_ENTITY_TYPE_COUNT] = {};
int32 end_pos[SPLITTABLE_ENTITY_TYPE_COUNT] = {};
auto it = entities.begin();
vector<MessageEntity> result;
auto add_entities = [&](int32 end_offset) {
auto flush_entities = [&](int32 offset) {
for (auto type : {MessageEntity::Type::Bold, MessageEntity::Type::Italic, MessageEntity::Type::Underline,
MessageEntity::Type::Strikethrough}) {
auto index = get_splittable_entity_type_index(type);
if (end_pos[index] != 0 && begin_pos[index] < offset) {
if (end_pos[index] <= offset) {
result.emplace_back(type, begin_pos[index], end_pos[index] - begin_pos[index]);
begin_pos[index] = 0;
end_pos[index] = 0;
} else {
result.emplace_back(type, begin_pos[index], offset - begin_pos[index]);
begin_pos[index] = offset;
}
}
}
};
while (it != entities.end()) {
if (it->offset >= end_offset) {
break;
}
CHECK(is_splittable_entity(it->type));
auto index = get_splittable_entity_type_index(it->type);
if (it->offset <= end_pos[index] && end_pos[index] != 0) {
if (it->offset + it->length > end_pos[index]) {
end_pos[index] = it->offset + it->length;
}
} else {
flush_entities(it->offset);
begin_pos[index] = it->offset;
end_pos[index] = it->offset + it->length;
}
++it;
}
flush_entities(end_offset);
};
vector<const MessageEntity *> nested_entities_stack;
auto add_offset = [&](int32 offset) {
while (!nested_entities_stack.empty() &&
offset >= nested_entities_stack.back()->offset + nested_entities_stack.back()->length) {
// remove non-intersecting entities from the stack
auto old_size = result.size();
add_entities(nested_entities_stack.back()->offset + nested_entities_stack.back()->length);
if (is_pre_entity(nested_entities_stack.back()->type)) {
result.resize(old_size);
}
nested_entities_stack.pop_back();
}
add_entities(offset);
};
for (auto &other_entity : other_entities) {
add_offset(other_entity.offset);
nested_entities_stack.push_back(&other_entity);
}
add_offset(std::numeric_limits<int32>::max());
entities = std::move(result);
// entities are sorted only by offset now, re-sort if needed
sort_entities(entities);
}
static vector<MessageEntity> resplit_entities(vector<MessageEntity> &&splittable_entities,
vector<MessageEntity> &&entities) {
if (!splittable_entities.empty()) {
split_entities(splittable_entities, entities); // can merge some entities
if (entities.empty()) {
return std::move(splittable_entities);
}
combine(entities, std::move(splittable_entities));
sort_entities(entities);
}
return std::move(entities);
}
static void fix_entities(vector<MessageEntity> &entities) {
sort_entities(entities);
if (are_entities_valid(entities)) {
// fast path
return;
}
vector<MessageEntity> continuous_entities;
vector<MessageEntity> blockquote_entities;
vector<MessageEntity> splittable_entities;
for (auto &entity : entities) {
if (is_splittable_entity(entity.type)) {
splittable_entities.push_back(std::move(entity));
} else if (is_blockquote_entity(entity.type)) {
blockquote_entities.push_back(std::move(entity));
} else {
continuous_entities.push_back(std::move(entity));
}
}
remove_intersecting_entities(continuous_entities); // continuous entities can't intersect each other
if (!blockquote_entities.empty()) {
remove_intersecting_entities(blockquote_entities); // blockquote entities can't intersect each other
// blockquote entities can contain continuous entities, but can't intersect them in the other ways
remove_entities_intersecting_blockquote(continuous_entities, blockquote_entities);
combine(continuous_entities, std::move(blockquote_entities));
sort_entities(continuous_entities);
}
// must be called once to not merge some adjacent entities
entities = resplit_entities(std::move(splittable_entities), std::move(continuous_entities));
check_is_sorted(entities);
}
static void merge_new_entities(vector<MessageEntity> &entities, vector<MessageEntity> new_entities) {
check_is_sorted(entities);
if (new_entities.empty()) {
// fast path
return;
}
check_non_intersecting(new_entities);
vector<MessageEntity> continuous_entities;
vector<MessageEntity> blockquote_entities;
vector<MessageEntity> splittable_entities;
for (auto &entity : entities) {
if (is_splittable_entity(entity.type)) {
splittable_entities.push_back(std::move(entity));
} else if (is_blockquote_entity(entity.type)) {
blockquote_entities.push_back(std::move(entity));
} else {
continuous_entities.push_back(std::move(entity));
}
}
remove_entities_intersecting_blockquote(new_entities, blockquote_entities);
// merge before combining with blockquote entities
continuous_entities = merge_entities(std::move(continuous_entities), std::move(new_entities));
if (!blockquote_entities.empty()) {
combine(continuous_entities, std::move(blockquote_entities));
sort_entities(continuous_entities);
}
// must be called once to not merge some adjacent entities
entities = resplit_entities(std::move(splittable_entities), std::move(continuous_entities));
check_is_sorted(entities);
}
Status fix_formatted_text(string &text, vector<MessageEntity> &entities, bool allow_empty, bool skip_new_entities,
bool skip_bot_commands, bool for_draft) {
if (!check_utf8(text)) {
return Status::Error(400, "Strings must be encoded in UTF-8");
}
for (auto &entity : entities) {
if (entity.offset < 0 || entity.offset > 1000000) {
return Status::Error(400, PSLICE() << "Receive an entity with incorrect offset " << entity.offset);
}
if (entity.length < 0 || entity.length > 1000000) {
return Status::Error(400, PSLICE() << "Receive an entity with incorrect length " << entity.length);
}
}
td::remove_if(entities, [](const MessageEntity &entity) { return entity.length == 0; });
fix_entities(entities);
TRY_RESULT(result, clean_input_string_with_entities(text, entities));
// now entities are still sorted by offset and length, but not type,
// because some characters could be deleted and after that some entities begin to share a common end
size_t last_non_whitespace_pos;
int32 last_non_whitespace_utf16_offset;
std::tie(last_non_whitespace_pos, last_non_whitespace_utf16_offset) = remove_invalid_entities(result, entities);
if (last_non_whitespace_utf16_offset == -1) {
if (allow_empty) {
text.clear();
entities.clear();
return Status::OK();
}
return Status::Error(3, "Message must be non-empty");
}
// re-fix entities if needed after removal of some characters
// the sort order can be incorrect by type
// some splittable entities may be needed to be concatenated
fix_entities(entities);
if (for_draft) {
text = std::move(result);
} else {
// rtrim
CHECK(last_non_whitespace_pos < result.size());
result.resize(last_non_whitespace_pos + 1);
while (!entities.empty() && entities.back().offset > last_non_whitespace_utf16_offset) {
CHECK(entities.back().type == MessageEntity::Type::TextUrl ||
entities.back().type == MessageEntity::Type::MentionName || is_pre_entity(entities.back().type));
entities.pop_back();
}
bool need_sort = false;
for (auto &entity : entities) {
if (entity.offset + entity.length > last_non_whitespace_utf16_offset + 1) {
entity.length = last_non_whitespace_utf16_offset + 1 - entity.offset;
need_sort = true;
CHECK(entity.length > 0);
}
}
if (need_sort) {
sort_entities(entities);
}
// ltrim
size_t first_non_whitespaces_pos = 0;
size_t first_entity_begin_pos = entities.empty() ? result.size() : entities[0].offset;
while (first_non_whitespaces_pos < first_entity_begin_pos &&
(result[first_non_whitespaces_pos] == ' ' || result[first_non_whitespaces_pos] == '\n')) {
first_non_whitespaces_pos++;
}
if (first_non_whitespaces_pos > 0) {
int32 offset = narrow_cast<int32>(first_non_whitespaces_pos);
text = result.substr(first_non_whitespaces_pos);
for (auto &entity : entities) {
entity.offset -= offset;
CHECK(entity.offset >= 0);
}
} else {
text = std::move(result);
}
}
LOG_CHECK(check_utf8(text)) << text;
if (!allow_empty && is_empty_string(text)) {
return Status::Error(3, "Message must be non-empty");
}
constexpr size_t LENGTH_LIMIT = 35000; // server side limit
if (text.size() > LENGTH_LIMIT) {
size_t new_size = LENGTH_LIMIT;
while (!is_utf8_character_first_code_unit(text[new_size])) {
new_size--;
}
text.resize(new_size);
td::remove_if(entities, [text_utf16_length = text_length(text)](const auto &entity) {
return entity.offset + entity.length > text_utf16_length;
});
}
if (!skip_new_entities) {
merge_new_entities(entities, find_entities(text, skip_bot_commands));
}
// new whitespace-only entities could be added after splitting of entities
remove_invalid_entities(text, entities);
// TODO MAX_MESSAGE_LENGTH and MAX_CAPTION_LENGTH
return Status::OK();
}
FormattedText get_message_text(const ContactsManager *contacts_manager, string message_text,
vector<tl_object_ptr<telegram_api::MessageEntity>> &&server_entities,
bool skip_new_entities, int32 send_date, bool from_album, const char *source) {
auto entities = get_message_entities(contacts_manager, std::move(server_entities), source);
auto debug_message_text = message_text;
auto debug_entities = entities;
auto status = fix_formatted_text(message_text, entities, true, skip_new_entities, true, false);
if (status.is_error()) {
if (!from_album && (send_date == 0 || send_date > 1579219200)) { // approximate fix date
LOG(ERROR) << "Receive error " << status << " while parsing message text from " << source << " with content \""
<< debug_message_text << "\" -> \"" << message_text << "\" sent at " << send_date << " with entities "
<< format::as_array(debug_entities) << " -> " << format::as_array(entities);
}
if (!clean_input_string(message_text)) {
message_text.clear();
}
entities = find_entities(message_text, false);
}
return FormattedText{std::move(message_text), std::move(entities)};
}
td_api::object_ptr<td_api::formattedText> extract_input_caption(
tl_object_ptr<td_api::InputMessageContent> &input_message_content) {
switch (input_message_content->get_id()) {
case td_api::inputMessageAnimation::ID: {
auto input_animation = static_cast<td_api::inputMessageAnimation *>(input_message_content.get());
return std::move(input_animation->caption_);
}
case td_api::inputMessageAudio::ID: {
auto input_audio = static_cast<td_api::inputMessageAudio *>(input_message_content.get());
return std::move(input_audio->caption_);
}
case td_api::inputMessageDocument::ID: {
auto input_document = static_cast<td_api::inputMessageDocument *>(input_message_content.get());
return std::move(input_document->caption_);
}
case td_api::inputMessagePhoto::ID: {
auto input_photo = static_cast<td_api::inputMessagePhoto *>(input_message_content.get());
return std::move(input_photo->caption_);
}
case td_api::inputMessageVideo::ID: {
auto input_video = static_cast<td_api::inputMessageVideo *>(input_message_content.get());
return std::move(input_video->caption_);
}
case td_api::inputMessageVoiceNote::ID: {
auto input_voice_note = static_cast<td_api::inputMessageVoiceNote *>(input_message_content.get());
return std::move(input_voice_note->caption_);
}
default:
return nullptr;
}
}
Result<FormattedText> process_input_caption(const ContactsManager *contacts_manager, DialogId dialog_id,
tl_object_ptr<td_api::formattedText> &&caption, bool is_bot) {
if (caption == nullptr) {
return FormattedText();
}
TRY_RESULT(entities, get_message_entities(contacts_manager, std::move(caption->entities_)));
TRY_STATUS(fix_formatted_text(caption->text_, entities, true, false,
need_skip_bot_commands(contacts_manager, dialog_id, is_bot), false));
return FormattedText{std::move(caption->text_), std::move(entities)};
}
void add_formatted_text_dependencies(Dependencies &dependencies, const FormattedText *text) {
if (text == nullptr) {
return;
}
for (auto &entity : text->entities) {
if (entity.user_id.is_valid()) {
dependencies.user_ids.insert(entity.user_id);
}
}
}
bool need_skip_bot_commands(const ContactsManager *contacts_manager, DialogId dialog_id, bool is_bot) {
if (!dialog_id.is_valid()) {
return true;
}
if (is_bot) {
return false;
}
switch (dialog_id.get_type()) {
case DialogType::User:
return !contacts_manager->is_user_bot(dialog_id.get_user_id());
case DialogType::SecretChat: {
auto user_id = contacts_manager->get_secret_chat_user_id(dialog_id.get_secret_chat_id());
return !user_id.is_valid() || !contacts_manager->is_user_bot(user_id);
}
case DialogType::Chat:
case DialogType::Channel:
case DialogType::None:
return false;
default:
UNREACHABLE();
return false;
}
}
} // namespace td