File: //snap/cups/1100/usr/include/qpdf/QUtil.hh
// Copyright (c) 2005-2021 Jay Berkenbilt
// Copyright (c) 2022-2025 Jay Berkenbilt and Manfred Holger
//
// This file is part of qpdf.
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
// in compliance with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software distributed under the License
// is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
// or implied. See the License for the specific language governing permissions and limitations under
// the License.
//
// Versions of qpdf prior to version 7 were released under the terms of version 2.0 of the Artistic
// License. At your option, you may continue to consider qpdf to be licensed under those terms.
// Please see the manual for additional information.
#ifndef QUTIL_HH
#define QUTIL_HH
#include <qpdf/DLL.h>
#include <qpdf/PointerHolder.hh> // unused -- remove in qpdf 12 (see #785)
#include <qpdf/Types.h>
#include <cstdio>
#include <cstring>
#include <ctime>
#include <functional>
#include <list>
#include <memory>
#include <stdexcept>
#include <string>
#include <vector>
class RandomDataProvider;
class Pipeline;
namespace QUtil
{
// This is a collection of useful utility functions that don't really go anywhere else.
QPDF_DLL
std::string int_to_string(long long, int length = 0);
QPDF_DLL
std::string uint_to_string(unsigned long long, int length = 0);
QPDF_DLL
std::string int_to_string_base(long long, int base, int length = 0);
QPDF_DLL
std::string uint_to_string_base(unsigned long long, int base, int length = 0);
QPDF_DLL
std::string double_to_string(double, int decimal_places = 0, bool trim_trailing_zeroes = true);
// These string to number methods throw std::runtime_error on underflow/overflow.
QPDF_DLL
long long string_to_ll(char const* str);
QPDF_DLL
int string_to_int(char const* str);
QPDF_DLL
unsigned long long string_to_ull(char const* str);
QPDF_DLL
unsigned int string_to_uint(char const* str);
// Returns true if this exactly represents a long long. The determination is made by converting
// the string to a long long, then converting the result back to a string, and then comparing
// that result with the original string.
QPDF_DLL
bool is_long_long(char const* str);
// Pipeline's write method wants unsigned char*, but we often have some other type of string.
// These methods do combinations of const_cast and reinterpret_cast to give us an unsigned
// char*. They should only be used when it is known that it is safe. None of the pipelines in
// qpdf modify the data passed to them, so within qpdf, it should always be safe.
QPDF_DLL
unsigned char* unsigned_char_pointer(std::string const& str);
QPDF_DLL
unsigned char* unsigned_char_pointer(char const* str);
// Throw QPDFSystemError, which is derived from std::runtime_error, with a string formed by
// appending to "description: " the standard string corresponding to the current value of errno.
// You can retrieve the value of errno by calling getErrno() on the QPDFSystemError. Prior to
// qpdf 8.2.0, this method threw system::runtime_error directly, but since QPDFSystemError is
// derived from system::runtime_error, old code that specifically catches std::runtime_error
// will still work.
QPDF_DLL
void throw_system_error(std::string const& description);
// The status argument is assumed to be the return value of a standard library call that sets
// errno when it fails. If status is -1, convert the current value of errno to a
// std::runtime_error that includes the standard error string. Otherwise, return status.
QPDF_DLL
int os_wrapper(std::string const& description, int status);
// If the open fails, throws std::runtime_error. Otherwise, the FILE* is returned. The filename
// should be UTF-8 encoded, even on Windows. It will be converted as needed on Windows.
QPDF_DLL
FILE* safe_fopen(char const* filename, char const* mode);
// The FILE* argument is assumed to be the return of fopen. If null, throw std::runtime_error.
// Otherwise, return the FILE* argument.
QPDF_DLL
FILE* fopen_wrapper(std::string const&, FILE*);
// This is a little class to help with automatic closing files. You can do something like
//
// QUtil::FileCloser fc(QUtil::safe_fopen(filename, "rb"));
//
// and then use fc.f to the file. Be sure to actually declare a variable of type FileCloser.
// Using it as a temporary won't work because it will close the file as soon as it goes out of
// scope.
class FileCloser
{
public:
FileCloser(FILE* f) :
f(f)
{
}
~FileCloser()
{
if (f) {
fclose(f);
f = nullptr;
}
}
FILE* f;
};
// Attempt to open the file read only and then close again
QPDF_DLL
bool file_can_be_opened(char const* filename);
// Wrap around off_t versions of fseek and ftell if available
QPDF_DLL
int seek(FILE* stream, qpdf_offset_t offset, int whence);
QPDF_DLL
qpdf_offset_t tell(FILE* stream);
QPDF_DLL
bool same_file(char const* name1, char const* name2);
QPDF_DLL
void remove_file(char const* path);
// rename_file will overwrite newname if it exists
QPDF_DLL
void rename_file(char const* oldname, char const* newname);
// Write the contents of filename as a binary file to the pipeline.
QPDF_DLL
void pipe_file(char const* filename, Pipeline* p);
// Return a function that will send the contents of the given file through the given pipeline as
// binary data.
QPDF_DLL
std::function<void(Pipeline*)> file_provider(std::string const& filename);
// Return the last path element. On Windows, either / or \ are path separators. Otherwise, only
// / is a path separator. Strip any trailing path separators. Then, if any path separators
// remain, return everything after the last path separator. Otherwise, return the whole string.
// As a special case, if a string consists entirely of path separators, the first character is
// returned.
QPDF_DLL
std::string path_basename(std::string const& filename);
// Returns a dynamically allocated copy of a string that the caller has to delete with delete[].
QPDF_DLL
char* copy_string(std::string const&);
// Returns a shared_ptr<char> with the correct deleter.
QPDF_DLL
std::shared_ptr<char> make_shared_cstr(std::string const&);
// Copy string as a unique_ptr to an array.
QPDF_DLL
std::unique_ptr<char[]> make_unique_cstr(std::string const&);
// Create a shared pointer to an array. From c++20, std::make_shared<T[]>(n) does this.
template <typename T>
std::shared_ptr<T>
make_shared_array(size_t n)
{
return std::shared_ptr<T>(new T[n], std::default_delete<T[]>());
}
// Returns lower-case hex-encoded version of the string, treating each character in the input
// string as unsigned. The output string will be twice as long as the input string.
QPDF_DLL
std::string hex_encode(std::string const&);
// Returns lower-case hex-encoded version of the char including a leading "#".
QPDF_DLL
inline std::string hex_encode_char(char);
// Returns a string that is the result of decoding the input string. The input string may
// consist of mixed case hexadecimal digits. Any characters that are not hexadecimal digits will
// be silently ignored. If there are an odd number of hexadecimal digits, a trailing 0 will be
// assumed.
QPDF_DLL
std::string hex_decode(std::string const&);
// Decode a single hex digit into a char in the range 0 <= char < 16. Return a char >= 16 if
// digit is not a valid hex digit.
QPDF_DLL
inline constexpr char hex_decode_char(char digit) noexcept;
// Set stdin, stdout to binary mode
QPDF_DLL
void binary_stdout();
QPDF_DLL
void binary_stdin();
// Set stdout to line buffered
QPDF_DLL
void setLineBuf(FILE*);
// May modify argv0
QPDF_DLL
char* getWhoami(char* argv0);
// Get the value of an environment variable in a portable fashion. Returns true iff the variable
// is defined. If `value' is non-null, initializes it with the value of the variable.
QPDF_DLL
bool get_env(std::string const& var, std::string* value = nullptr);
QPDF_DLL
time_t get_current_time();
// Portable structure representing a point in time with second granularity and time zone offset.
struct QPDFTime
{
QPDFTime() = default;
QPDFTime(QPDFTime const&) = default;
QPDFTime& operator=(QPDFTime const&) = default;
QPDFTime(int year, int month, int day, int hour, int minute, int second, int tz_delta) :
year(year),
month(month),
day(day),
hour(hour),
minute(minute),
second(second),
tz_delta(tz_delta)
{
}
int year; // actual year, no 1900 stuff
int month; // 1--12
int day; // 1--31
int hour;
int minute;
int second;
int tz_delta; // minutes before UTC
};
QPDF_DLL
QPDFTime get_current_qpdf_time();
// Convert a QPDFTime structure to a PDF timestamp string, which is "D:yyyymmddhhmmss<z>" where
// <z> is either "Z" for UTC or "-hh'mm'" or "+hh'mm'" for timezone offset. <z> may also be
// omitted.
// Examples: "D:20210207161528-05'00'", "D:20210207211528Z", "D:20210207211528".
// See get_current_qpdf_time and the QPDFTime structure above.
QPDF_DLL
std::string qpdf_time_to_pdf_time(QPDFTime const&);
// Convert QPDFTime to a second-granularity ISO-8601 timestamp.
QPDF_DLL
std::string qpdf_time_to_iso8601(QPDFTime const&);
// Convert a PDF timestamp string to a QPDFTime. If syntactically valid, return true and fill in
// qtm. If not valid, return false, and do not modify qtm. If qtm is null, just check the
// validity of the string.
QPDF_DLL
bool pdf_time_to_qpdf_time(std::string const&, QPDFTime* qtm = nullptr);
// Convert PDF timestamp to a second-granularity ISO-8601 timestamp. If syntactically valid,
// return true and initialize iso8601. Otherwise, return false.
bool pdf_time_to_iso8601(std::string const& pdf_time, std::string& iso8601);
// Return a string containing the byte representation of the UTF-8 encoding for the unicode
// value passed in.
QPDF_DLL
std::string toUTF8(unsigned long uval);
// Return a string containing the byte representation of the UTF-16 big-endian encoding for the
// unicode value passed in. Unrepresentable code points are converted to U+FFFD.
QPDF_DLL
std::string toUTF16(unsigned long uval);
// If utf8_val.at(pos) points to the beginning of a valid UTF-8-encoded character, return the
// codepoint of the character and set error to false. Otherwise, return 0xfffd and set error to
// true. In all cases, pos is advanced to the next position that may begin a valid character.
// When the string has been consumed, pos will be set to the string length. It is an error to
// pass a value of pos that is greater than or equal to the length of the string.
QPDF_DLL
unsigned long get_next_utf8_codepoint(std::string const& utf8_val, size_t& pos, bool& error);
// Test whether this is a UTF-16 string. This is indicated by first two bytes being 0xFE 0xFF
// (big-endian) or 0xFF 0xFE (little-endian), each of which is the encoding of U+FEFF, the
// Unicode marker. Starting in qpdf 10.6.2, this detects little-endian as well as big-endian.
// Even though the PDF spec doesn't allow little-endian, most readers seem to accept it.
QPDF_DLL
bool is_utf16(std::string const&);
// Test whether this is an explicit UTF-8 string as allowed by the PDF 2.0 spec. This is
// indicated by first three bytes being 0xEF 0xBB 0xBF, which is the UTF-8 encoding of U+FEFF.
QPDF_DLL
bool is_explicit_utf8(std::string const&);
// Convert a UTF-8 encoded string to UTF-16 big-endian. Unrepresentable code points are
// converted to U+FFFD.
QPDF_DLL
std::string utf8_to_utf16(std::string const& utf8);
// Convert a UTF-8 encoded string to the specified single-byte encoding system by replacing all
// unsupported characters with the given unknown_char.
QPDF_DLL
std::string utf8_to_ascii(std::string const& utf8, char unknown_char = '?');
QPDF_DLL
std::string utf8_to_win_ansi(std::string const& utf8, char unknown_char = '?');
QPDF_DLL
std::string utf8_to_mac_roman(std::string const& utf8, char unknown_char = '?');
QPDF_DLL
std::string utf8_to_pdf_doc(std::string const& utf8, char unknown_char = '?');
// These versions return true if the conversion was successful and false if any unrepresentable
// characters were found and had to be substituted with the unknown character.
QPDF_DLL
bool utf8_to_ascii(std::string const& utf8, std::string& ascii, char unknown_char = '?');
QPDF_DLL
bool utf8_to_win_ansi(std::string const& utf8, std::string& win, char unknown_char = '?');
QPDF_DLL
bool utf8_to_mac_roman(std::string const& utf8, std::string& mac, char unknown_char = '?');
QPDF_DLL
bool utf8_to_pdf_doc(std::string const& utf8, std::string& pdfdoc, char unknown_char = '?');
// Convert a UTF-16 encoded string to UTF-8. Unrepresentable code
// points are converted to U+FFFD.
QPDF_DLL
std::string utf16_to_utf8(std::string const& utf16);
// Convert from the specified single-byte encoding system to UTF-8. There is no ascii_to_utf8
// because all ASCII strings are already valid UTF-8.
QPDF_DLL
std::string win_ansi_to_utf8(std::string const& win);
QPDF_DLL
std::string mac_roman_to_utf8(std::string const& mac);
QPDF_DLL
std::string pdf_doc_to_utf8(std::string const& pdfdoc);
// Analyze a string for encoding. We can't tell the difference between any single-byte
// encodings, and we can't tell for sure whether a string that happens to be valid UTF-8 isn't a
// different encoding, but we can at least tell a few things to help us guess. If there are no
// characters with the high bit set, has_8bit_chars is false, and the other values are also
// false, even though ASCII strings are valid UTF-8. is_valid_utf8 means that the string is
// non-trivially valid UTF-8. Although the PDF spec requires UTF-16 to be UTF-16BE, qpdf (and
// just about everything else) accepts UTF-16LE (as of 10.6.2).
QPDF_DLL
void analyze_encoding(
std::string const& str, bool& has_8bit_chars, bool& is_valid_utf8, bool& is_utf16);
// Try to compensate for previously incorrectly encoded strings. We want to compensate for the
// following errors:
//
// * The string was supposed to be UTF-8 but was one of the single-byte encodings
// * The string was supposed to be PDF Doc but was either UTF-8 or one of the other single-byte
// encodings
//
// The returned vector always contains the original string first, and then it contains what the
// correct string would be in the event that the original string was the result of any of the
// above errors.
//
// This method is useful for attempting to recover a password that may have been previously
// incorrectly encoded. For example, the password was supposed to be UTF-8 but the previous
// application used a password encoded in WinAnsi, or if the previous password was supposed to
// be PDFDoc but was actually given as UTF-8 or WinAnsi, this method would find the correct
// password.
QPDF_DLL
std::vector<std::string> possible_repaired_encodings(std::string);
// Return a cryptographically secure random number.
QPDF_DLL
long random();
// Initialize a buffer with cryptographically secure random bytes.
QPDF_DLL
void initializeWithRandomBytes(unsigned char* data, size_t len);
// Supply a random data provider. Starting in qpdf 10.0.0, qpdf uses the crypto provider as its
// source of random numbers. If you are using the native crypto provider, then qpdf will either
// use the operating system's secure random number source or, only if enabled at build time, an
// insecure random source from stdlib. The caller is responsible for managing the memory for the
// RandomDataProvider. This method modifies a static variable. If you are providing your own
// random data provider, you should call this at the beginning of your program before creating
// any QPDF objects. Passing a null to this method will reset the library back to its default
// random data provider.
QPDF_DLL
void setRandomDataProvider(RandomDataProvider*);
// This returns the random data provider that would be used the next time qpdf needs random
// data. It will never return null. If no random data provider has been provided and the
// library was not compiled with any random data provider available, an exception will be
// thrown.
QPDF_DLL
RandomDataProvider* getRandomDataProvider();
// Filename is UTF-8 encoded, even on Windows, as described in the comments for safe_fopen.
QPDF_DLL
std::list<std::string> read_lines_from_file(char const* filename, bool preserve_eol = false);
QPDF_DLL
std::list<std::string> read_lines_from_file(std::istream&, bool preserve_eol = false);
QPDF_DLL
std::list<std::string> read_lines_from_file(FILE*, bool preserve_eol = false);
QPDF_DLL
void read_lines_from_file(
std::function<bool(char&)> next_char,
std::list<std::string>& lines,
bool preserve_eol = false);
QPDF_DLL
void read_file_into_memory(char const* filename, std::shared_ptr<char>& file_buf, size_t& size);
QPDF_DLL
std::string read_file_into_string(char const* filename);
QPDF_DLL
std::string read_file_into_string(FILE* f, std::string_view filename = "");
// This used to be called strcasecmp, but that is a macro on some platforms, so we have to give
// it a name that is not likely to be a macro anywhere.
QPDF_DLL
int str_compare_nocase(char const*, char const*);
// These routines help the tokenizer recognize certain character classes without using ctype,
// which we avoid because of locale considerations.
QPDF_DLL
inline bool is_hex_digit(char);
QPDF_DLL
inline bool is_space(char);
QPDF_DLL
inline bool is_digit(char);
QPDF_DLL
inline bool is_number(char const*);
// This method parses the numeric range syntax used by the qpdf command-line tool. May throw
// std::runtime_error. A numeric range is as comma-separated list of groups. A group may be a
// number specification or a range of number specifications separated by a dash. A number
// specification may be one of the following (where <n> is a number):
// * <n> -- the numeric value of n
// * z -- the value of the `max` parameter
// * r<n> -- represents max + 1 - <n> (<n> from the end)
//
// If the group is two number specifications separated by a dash, it represents the range of
// numbers from the first to the second, inclusive. If the first is greater than the second, the
// numbers are descending.
//
// From qpdf 11.7.1: if a group starts with `x`, its members are excluded from the previous
// group that didn't start with `x1.
//
// Example: with max of 15, the range "4-10,x7-9,12-8,xr5" is 4, 5, 6, 10, 12, 10, 9, 8. This is
// 4 through 10 inclusive without 7 through 9 inclusive followed by 12 to 8 inclusive
// (descending) without 11 (the fifth value counting backwards from 15). For more information
// and additional examples, see the "Page Ranges" section in the manual.
QPDF_DLL
std::vector<int> parse_numrange(char const* range, int max);
#ifndef QPDF_NO_WCHAR_T
// If you are building qpdf on a stripped down system that doesn't have wchar_t, such as may be
// the case in some embedded environments, you may define QPDF_NO_WCHAR_T in your build. This
// symbol is never defined automatically. Search for wchar_t in qpdf's top-level README.md file
// for details.
// Take an argv array consisting of wchar_t, as when wmain is invoked, convert all UTF-16
// encoded strings to UTF-8, and call another main.
QPDF_DLL
int call_main_from_wmain(int argc, wchar_t* argv[], std::function<int(int, char*[])> realmain);
QPDF_DLL
int call_main_from_wmain(
int argc,
wchar_t const* const argv[],
std::function<int(int, char const* const[])> realmain);
#endif // QPDF_NO_WCHAR_T
// Try to return the maximum amount of memory allocated by the current process and its threads.
// Return 0 if unable to determine. This is Linux-specific and not implemented to be completely
// reliable. It is used during development for performance testing to detect changes that may
// significantly change memory usage. It is not recommended for use for other purposes.
QPDF_DLL
size_t get_max_memory_usage();
}; // namespace QUtil
inline bool
QUtil::is_hex_digit(char ch)
{
return hex_decode_char(ch) < '\20';
}
inline bool
QUtil::is_space(char ch)
{
return ch == ' ' || ch == '\n' || ch == '\r' || ch == '\t' || ch == '\f' || ch == '\v';
}
inline bool
QUtil::is_digit(char ch)
{
return ((ch >= '0') && (ch <= '9'));
}
inline bool
QUtil::is_number(char const* p)
{
// ^[\+\-]?(\.\d*|\d+(\.\d*)?)$
if (!*p) {
return false;
}
if ((*p == '-') || (*p == '+')) {
++p;
}
bool found_dot = false;
bool found_digit = false;
for (; *p; ++p) {
if (*p == '.') {
if (found_dot) {
// only one dot
return false;
}
found_dot = true;
} else if (QUtil::is_digit(*p)) {
found_digit = true;
} else {
return false;
}
}
return found_digit;
}
inline std::string
QUtil::hex_encode_char(char c)
{
static auto constexpr hexchars = "0123456789abcdef";
return {'#', hexchars[static_cast<unsigned char>(c) >> 4], hexchars[c & 0x0f]};
}
inline constexpr char
QUtil::hex_decode_char(char digit) noexcept
{
return digit <= '9' && digit >= '0'
? char(digit - '0')
: (digit >= 'a' ? char(digit - 'a' + 10) : (digit >= 'A' ? char(digit - 'A' + 10) : '\20'));
}
#endif // QUTIL_HH