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mirror of https://github.com/qpdf/qpdf.git synced 2024-11-09 23:00:57 +00:00
qpdf/libqpdf/QPDFTokenizer.cc
m-holger 1536a76071 Refactor Pl_QPDFTokenizer::finish
Remove unnecessary use of shared pointers and avoid unnecessary string
creation.
2024-07-27 18:55:43 +01:00

968 lines
24 KiB
C++

#include <qpdf/QPDFTokenizer.hh>
// DO NOT USE ctype -- it is locale dependent for some things, and it's not worth the risk of
// including it in case it may accidentally be used.
#include <qpdf/QIntC.hh>
#include <qpdf/QPDFExc.hh>
#include <qpdf/QPDFObjectHandle.hh>
#include <qpdf/QTC.hh>
#include <qpdf/QUtil.hh>
#include <cstdlib>
#include <cstring>
#include <stdexcept>
static inline bool
is_delimiter(char ch)
{
return (
ch == ' ' || ch == '\n' || ch == '/' || ch == '(' || ch == ')' || ch == '{' || ch == '}' ||
ch == '<' || ch == '>' || ch == '[' || ch == ']' || ch == '%' || ch == '\t' || ch == '\r' ||
ch == '\v' || ch == '\f' || ch == 0);
}
namespace
{
class QPDFWordTokenFinder: public InputSource::Finder
{
public:
QPDFWordTokenFinder(InputSource& is, std::string const& str) :
is(is),
str(str)
{
}
~QPDFWordTokenFinder() override = default;
bool check() override;
private:
InputSource& is;
std::string str;
};
} // namespace
bool
QPDFWordTokenFinder::check()
{
// Find a word token matching the given string, preceded by a delimiter, and followed by a
// delimiter or EOF.
QPDFTokenizer tokenizer;
QPDFTokenizer::Token t = tokenizer.readToken(is, "finder", true);
qpdf_offset_t pos = is.tell();
if (!(t == QPDFTokenizer::Token(QPDFTokenizer::tt_word, str))) {
QTC::TC("qpdf", "QPDFTokenizer finder found wrong word");
return false;
}
qpdf_offset_t token_start = is.getLastOffset();
char next;
bool next_okay = false;
if (is.read(&next, 1) == 0) {
QTC::TC("qpdf", "QPDFTokenizer inline image at EOF");
next_okay = true;
} else {
next_okay = is_delimiter(next);
}
is.seek(pos, SEEK_SET);
if (!next_okay) {
return false;
}
if (token_start == 0) {
// Can't actually happen...we never start the search at the beginning of the input.
return false;
}
return true;
}
void
QPDFTokenizer::reset()
{
state = st_before_token;
type = tt_bad;
val.clear();
raw_val.clear();
error_message = "";
before_token = true;
in_token = false;
char_to_unread = '\0';
inline_image_bytes = 0;
string_depth = 0;
bad = false;
}
QPDFTokenizer::Token::Token(token_type_e type, std::string const& value) :
type(type),
value(value),
raw_value(value)
{
if (type == tt_string) {
raw_value = QPDFObjectHandle::newString(value).unparse();
} else if (type == tt_name) {
raw_value = QPDFObjectHandle::newName(value).unparse();
}
}
QPDFTokenizer::QPDFTokenizer() :
allow_eof(false),
include_ignorable(false)
{
reset();
}
void
QPDFTokenizer::allowEOF()
{
this->allow_eof = true;
}
void
QPDFTokenizer::includeIgnorable()
{
this->include_ignorable = true;
}
bool
QPDFTokenizer::isSpace(char ch)
{
return ((ch == '\0') || QUtil::is_space(ch));
}
bool
QPDFTokenizer::isDelimiter(char ch)
{
return is_delimiter(ch);
}
void
QPDFTokenizer::presentCharacter(char ch)
{
handleCharacter(ch);
if (this->in_token) {
this->raw_val += ch;
}
}
void
QPDFTokenizer::handleCharacter(char ch)
{
// In some cases, functions called below may call a second handler. This happens whenever you
// have to use a character from the next token to detect the end of the current token.
switch (this->state) {
case st_top:
inTop(ch);
return;
case st_in_space:
inSpace(ch);
return;
case st_in_comment:
inComment(ch);
return;
case st_lt:
inLt(ch);
return;
case st_gt:
inGt(ch);
return;
case st_in_string:
inString(ch);
return;
case st_name:
inName(ch);
return;
case st_number:
inNumber(ch);
return;
case st_real:
inReal(ch);
return;
case st_string_after_cr:
inStringAfterCR(ch);
return;
case st_string_escape:
inStringEscape(ch);
return;
case st_char_code:
inCharCode(ch);
return;
case st_literal:
inLiteral(ch);
return;
case st_inline_image:
inInlineImage(ch);
return;
case st_in_hexstring:
inHexstring(ch);
return;
case st_in_hexstring_2nd:
inHexstring2nd(ch);
return;
case st_name_hex1:
inNameHex1(ch);
return;
case st_name_hex2:
inNameHex2(ch);
return;
case st_sign:
inSign(ch);
return;
case st_decimal:
inDecimal(ch);
return;
case (st_before_token):
inBeforeToken(ch);
return;
case (st_token_ready):
inTokenReady(ch);
return;
default:
throw std::logic_error("INTERNAL ERROR: invalid state while reading token");
}
}
void
QPDFTokenizer::inTokenReady(char ch)
{
throw std::logic_error(
"INTERNAL ERROR: QPDF tokenizer presented character while token is waiting");
}
void
QPDFTokenizer::inBeforeToken(char ch)
{
// Note: we specifically do not use ctype here. It is locale-dependent.
if (isSpace(ch)) {
this->before_token = !this->include_ignorable;
this->in_token = this->include_ignorable;
if (this->include_ignorable) {
this->state = st_in_space;
}
} else if (ch == '%') {
this->before_token = !this->include_ignorable;
this->in_token = this->include_ignorable;
this->state = st_in_comment;
} else {
this->before_token = false;
this->in_token = true;
inTop(ch);
}
}
void
QPDFTokenizer::inTop(char ch)
{
switch (ch) {
case '(':
this->string_depth = 1;
this->state = st_in_string;
return;
case '<':
this->state = st_lt;
return;
case '>':
this->state = st_gt;
return;
case (')'):
this->type = tt_bad;
QTC::TC("qpdf", "QPDFTokenizer bad )");
this->error_message = "unexpected )";
this->state = st_token_ready;
return;
case '[':
this->type = tt_array_open;
this->state = st_token_ready;
return;
case ']':
this->type = tt_array_close;
this->state = st_token_ready;
return;
case '{':
this->type = tt_brace_open;
this->state = st_token_ready;
return;
case '}':
this->type = tt_brace_close;
this->state = st_token_ready;
return;
case '/':
this->state = st_name;
this->val += ch;
return;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
this->state = st_number;
return;
case '+':
case '-':
this->state = st_sign;
return;
case '.':
this->state = st_decimal;
return;
default:
this->state = st_literal;
return;
}
}
void
QPDFTokenizer::inSpace(char ch)
{
// We only enter this state if include_ignorable is true.
if (!isSpace(ch)) {
this->type = tt_space;
this->in_token = false;
this->char_to_unread = ch;
this->state = st_token_ready;
}
}
void
QPDFTokenizer::inComment(char ch)
{
if ((ch == '\r') || (ch == '\n')) {
if (this->include_ignorable) {
this->type = tt_comment;
this->in_token = false;
this->char_to_unread = ch;
this->state = st_token_ready;
} else {
this->state = st_before_token;
}
}
}
void
QPDFTokenizer::inString(char ch)
{
switch (ch) {
case '\\':
this->state = st_string_escape;
return;
case '(':
this->val += ch;
++this->string_depth;
return;
case ')':
if (--this->string_depth == 0) {
this->type = tt_string;
this->state = st_token_ready;
return;
}
this->val += ch;
return;
case '\r':
// CR by itself is converted to LF
this->val += '\n';
this->state = st_string_after_cr;
return;
case '\n':
this->val += ch;
return;
default:
this->val += ch;
return;
}
}
void
QPDFTokenizer::inName(char ch)
{
if (isDelimiter(ch)) {
// A C-locale whitespace character or delimiter terminates token. It is important to unread
// the whitespace character even though it is ignored since it may be the newline after a
// stream keyword. Removing it here could make the stream-reading code break on some files,
// though not on any files in the test suite as of this
// writing.
this->type = this->bad ? tt_bad : tt_name;
this->in_token = false;
this->char_to_unread = ch;
this->state = st_token_ready;
} else if (ch == '#') {
this->char_code = 0;
this->state = st_name_hex1;
} else {
this->val += ch;
}
}
void
QPDFTokenizer::inNameHex1(char ch)
{
this->hex_char = ch;
if (char hval = QUtil::hex_decode_char(ch); hval < '\20') {
this->char_code = int(hval) << 4;
this->state = st_name_hex2;
} else {
QTC::TC("qpdf", "QPDFTokenizer bad name 1");
this->error_message = "name with stray # will not work with PDF >= 1.2";
// Use null to encode a bad # -- this is reversed in QPDF_Name::normalizeName.
this->val += '\0';
this->state = st_name;
inName(ch);
}
}
void
QPDFTokenizer::inNameHex2(char ch)
{
if (char hval = QUtil::hex_decode_char(ch); hval < '\20') {
this->char_code |= int(hval);
} else {
QTC::TC("qpdf", "QPDFTokenizer bad name 2");
this->error_message = "name with stray # will not work with PDF >= 1.2";
// Use null to encode a bad # -- this is reversed in QPDF_Name::normalizeName.
this->val += '\0';
this->val += this->hex_char;
this->state = st_name;
inName(ch);
return;
}
if (this->char_code == 0) {
QTC::TC("qpdf", "QPDFTokenizer null in name");
this->error_message = "null character not allowed in name token";
this->val += "#00";
this->state = st_name;
this->bad = true;
} else {
this->val += char(this->char_code);
this->state = st_name;
}
}
void
QPDFTokenizer::inSign(char ch)
{
if (QUtil::is_digit(ch)) {
this->state = st_number;
} else if (ch == '.') {
this->state = st_decimal;
} else {
this->state = st_literal;
inLiteral(ch);
}
}
void
QPDFTokenizer::inDecimal(char ch)
{
if (QUtil::is_digit(ch)) {
this->state = st_real;
} else {
this->state = st_literal;
inLiteral(ch);
}
}
void
QPDFTokenizer::inNumber(char ch)
{
if (QUtil::is_digit(ch)) {
} else if (ch == '.') {
this->state = st_real;
} else if (isDelimiter(ch)) {
this->type = tt_integer;
this->state = st_token_ready;
this->in_token = false;
this->char_to_unread = ch;
} else {
this->state = st_literal;
}
}
void
QPDFTokenizer::inReal(char ch)
{
if (QUtil::is_digit(ch)) {
} else if (isDelimiter(ch)) {
this->type = tt_real;
this->state = st_token_ready;
this->in_token = false;
this->char_to_unread = ch;
} else {
this->state = st_literal;
}
}
void
QPDFTokenizer::inStringEscape(char ch)
{
this->state = st_in_string;
switch (ch) {
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
this->state = st_char_code;
this->char_code = 0;
this->digit_count = 0;
inCharCode(ch);
return;
case 'n':
this->val += '\n';
return;
case 'r':
this->val += '\r';
return;
case 't':
this->val += '\t';
return;
case 'b':
this->val += '\b';
return;
case 'f':
this->val += '\f';
return;
case '\n':
return;
case '\r':
this->state = st_string_after_cr;
return;
default:
// PDF spec says backslash is ignored before anything else
this->val += ch;
return;
}
}
void
QPDFTokenizer::inStringAfterCR(char ch)
{
this->state = st_in_string;
if (ch != '\n') {
inString(ch);
}
}
void
QPDFTokenizer::inLt(char ch)
{
if (ch == '<') {
this->type = tt_dict_open;
this->state = st_token_ready;
return;
}
this->state = st_in_hexstring;
inHexstring(ch);
}
void
QPDFTokenizer::inGt(char ch)
{
if (ch == '>') {
this->type = tt_dict_close;
this->state = st_token_ready;
} else {
this->type = tt_bad;
QTC::TC("qpdf", "QPDFTokenizer bad >");
this->error_message = "unexpected >";
this->in_token = false;
this->char_to_unread = ch;
this->state = st_token_ready;
}
}
void
QPDFTokenizer::inLiteral(char ch)
{
if (isDelimiter(ch)) {
// A C-locale whitespace character or delimiter terminates token. It is important to unread
// the whitespace character even though it is ignored since it may be the newline after a
// stream keyword. Removing it here could make the stream-reading code break on some files,
// though not on any files in the test suite as of this writing.
this->in_token = false;
this->char_to_unread = ch;
this->state = st_token_ready;
this->type = (this->raw_val == "true") || (this->raw_val == "false")
? tt_bool
: (this->raw_val == "null" ? tt_null : tt_word);
}
}
void
QPDFTokenizer::inHexstring(char ch)
{
if (char hval = QUtil::hex_decode_char(ch); hval < '\20') {
this->char_code = int(hval) << 4;
this->state = st_in_hexstring_2nd;
} else if (ch == '>') {
this->type = tt_string;
this->state = st_token_ready;
} else if (isSpace(ch)) {
// ignore
} else {
this->type = tt_bad;
QTC::TC("qpdf", "QPDFTokenizer bad hexstring character");
this->error_message = std::string("invalid character (") + ch + ") in hexstring";
this->state = st_token_ready;
}
}
void
QPDFTokenizer::inHexstring2nd(char ch)
{
if (char hval = QUtil::hex_decode_char(ch); hval < '\20') {
this->val += char(this->char_code) | hval;
this->state = st_in_hexstring;
} else if (ch == '>') {
// PDF spec says odd hexstrings have implicit trailing 0.
this->val += char(this->char_code);
this->type = tt_string;
this->state = st_token_ready;
} else if (isSpace(ch)) {
// ignore
} else {
this->type = tt_bad;
QTC::TC("qpdf", "QPDFTokenizer bad hexstring 2nd character");
this->error_message = std::string("invalid character (") + ch + ") in hexstring";
this->state = st_token_ready;
}
}
void
QPDFTokenizer::inCharCode(char ch)
{
bool handled = false;
if (('0' <= ch) && (ch <= '7')) {
this->char_code = 8 * this->char_code + (int(ch) - int('0'));
if (++(this->digit_count) < 3) {
return;
}
handled = true;
}
// We've accumulated \ddd or we have \d or \dd followed by other than an octal digit. The PDF
// Spec says to ignore high-order overflow.
this->val += char(this->char_code % 256);
this->state = st_in_string;
if (!handled) {
inString(ch);
}
}
void
QPDFTokenizer::inInlineImage(char ch)
{
if ((this->raw_val.length() + 1) == this->inline_image_bytes) {
QTC::TC("qpdf", "QPDFTokenizer found EI by byte count");
this->type = tt_inline_image;
this->inline_image_bytes = 0;
this->state = st_token_ready;
}
}
void
QPDFTokenizer::presentEOF()
{
switch (this->state) {
case st_name:
case st_name_hex1:
case st_name_hex2:
case st_number:
case st_real:
case st_sign:
case st_decimal:
case st_literal:
QTC::TC("qpdf", "QPDFTokenizer EOF reading appendable token");
// Push any delimiter to the state machine to finish off the final token.
presentCharacter('\f');
this->in_token = true;
break;
case st_top:
case st_before_token:
this->type = tt_eof;
break;
case st_in_space:
this->type = this->include_ignorable ? tt_space : tt_eof;
break;
case st_in_comment:
this->type = this->include_ignorable ? tt_comment : tt_bad;
break;
case st_token_ready:
break;
default:
QTC::TC("qpdf", "QPDFTokenizer EOF reading token");
this->type = tt_bad;
this->error_message = "EOF while reading token";
}
this->state = st_token_ready;
}
void
QPDFTokenizer::expectInlineImage(std::shared_ptr<InputSource> input)
{
expectInlineImage(*input);
}
void
QPDFTokenizer::expectInlineImage(InputSource& input)
{
if (this->state == st_token_ready) {
reset();
} else if (this->state != st_before_token) {
throw std::logic_error(
"QPDFTokenizer::expectInlineImage called when tokenizer is in improper state");
}
findEI(input);
this->before_token = false;
this->in_token = true;
this->state = st_inline_image;
}
void
QPDFTokenizer::findEI(InputSource& input)
{
qpdf_offset_t last_offset = input.getLastOffset();
qpdf_offset_t pos = input.tell();
// Use QPDFWordTokenFinder to find EI surrounded by delimiters. Then read the next several
// tokens or up to EOF. If we find any suspicious-looking or tokens, this is probably still part
// of the image data, so keep looking for EI. Stop at the first EI that passes. If we get to the
// end without finding one, return the last EI we found. Store the number of bytes expected in
// the inline image including the EI and use that to break out of inline image, falling back to
// the old method if needed.
bool okay = false;
bool first_try = true;
while (!okay) {
QPDFWordTokenFinder f(input, "EI");
if (!input.findFirst("EI", input.tell(), 0, f)) {
break;
}
inline_image_bytes = QIntC::to_size(input.tell() - pos - 2);
QPDFTokenizer check;
bool found_bad = false;
// Look at the next 10 tokens or up to EOF. The next inline image's image data would look
// like bad tokens, but there will always be at least 10 tokens between one inline image's
// EI and the next valid one's ID since width, height, bits per pixel, and color space are
// all required as well as a BI and ID. If we get 10 good tokens in a row or hit EOF, we can
// be pretty sure we've found the actual EI.
for (int i = 0; i < 10; ++i) {
QPDFTokenizer::Token t = check.readToken(input, "checker", true);
token_type_e type = t.getType();
if (type == tt_eof) {
okay = true;
} else if (type == tt_bad) {
found_bad = true;
} else if (t.isWord()) {
// The qpdf tokenizer lumps alphabetic and otherwise uncategorized characters into
// "words". We recognize strings of alphabetic characters as potential valid
// operators for purposes of telling whether we're in valid content or not. It's not
// perfect, but it should work more reliably than what we used to do, which was
// already good enough for the vast majority of files.
bool found_alpha = false;
bool found_non_printable = false;
bool found_other = false;
for (char ch: t.getValue()) {
if (((ch >= 'a') && (ch <= 'z')) || ((ch >= 'A') && (ch <= 'Z')) ||
(ch == '*')) {
// Treat '*' as alpha since there are valid PDF operators that contain *
// along with alphabetic characters.
found_alpha = true;
} else if ((static_cast<signed char>(ch) < 32) && (!isSpace(ch))) {
// Compare ch as a signed char so characters outside of 7-bit will be < 0.
found_non_printable = true;
break;
} else {
found_other = true;
}
}
if (found_non_printable || (found_alpha && found_other)) {
found_bad = true;
}
}
if (okay || found_bad) {
break;
}
}
if (!found_bad) {
okay = true;
}
if (!okay) {
first_try = false;
}
}
if (okay && (!first_try)) {
QTC::TC("qpdf", "QPDFTokenizer found EI after more than one try");
}
input.seek(pos, SEEK_SET);
input.setLastOffset(last_offset);
}
bool
QPDFTokenizer::getToken(Token& token, bool& unread_char, char& ch)
{
bool ready = (this->state == st_token_ready);
unread_char = !this->in_token && !this->before_token;
ch = this->char_to_unread;
if (ready) {
token = (!(this->type == tt_name || this->type == tt_string))
? Token(this->type, this->raw_val, this->raw_val, this->error_message)
: Token(this->type, this->val, this->raw_val, this->error_message);
this->reset();
}
return ready;
}
bool
QPDFTokenizer::betweenTokens()
{
return this->before_token;
}
QPDFTokenizer::Token
QPDFTokenizer::readToken(
InputSource& input, std::string const& context, bool allow_bad, size_t max_len)
{
nextToken(input, context, max_len);
Token token;
bool unread_char;
char char_to_unread;
getToken(token, unread_char, char_to_unread);
if (token.getType() == tt_bad) {
if (allow_bad) {
QTC::TC("qpdf", "QPDFTokenizer allowing bad token");
} else {
throw QPDFExc(
qpdf_e_damaged_pdf,
input.getName(),
context.empty() ? "offset " + std::to_string(input.getLastOffset()) : context,
input.getLastOffset(),
token.getErrorMessage());
}
}
return token;
}
QPDFTokenizer::Token
QPDFTokenizer::readToken(
std::shared_ptr<InputSource> input, std::string const& context, bool allow_bad, size_t max_len)
{
return readToken(*input, context, allow_bad, max_len);
}
bool
QPDFTokenizer::nextToken(InputSource& input, std::string const& context, size_t max_len)
{
if (this->state != st_inline_image) {
reset();
}
qpdf_offset_t offset = input.fastTell();
while (this->state != st_token_ready) {
char ch;
if (!input.fastRead(ch)) {
presentEOF();
if ((this->type == tt_eof) && (!this->allow_eof)) {
// Nothing in the qpdf library calls readToken without allowEOF anymore, so this
// case is not exercised.
this->type = tt_bad;
this->error_message = "unexpected EOF";
offset = input.getLastOffset();
}
} else {
handleCharacter(ch);
if (this->before_token) {
++offset;
}
if (this->in_token) {
this->raw_val += ch;
}
if (max_len && (this->raw_val.length() >= max_len) && (this->state != st_token_ready)) {
// terminate this token now
QTC::TC("qpdf", "QPDFTokenizer block long token");
this->type = tt_bad;
this->state = st_token_ready;
this->error_message = "exceeded allowable length while reading token";
}
}
}
input.fastUnread(!this->in_token && !this->before_token);
if (this->type != tt_eof) {
input.setLastOffset(offset);
}
return this->error_message.empty();
}