/* * This file is part of the libpayload project. * * It has originally been taken from the HelenOS project * (http://www.helenos.eu), and slightly modified for our purposes. * * Copyright (C) 2001-2004 Jakub Jermar * Copyright (C) 2006 Josef Cejka * Copyright (C) 2008 Uwe Hermann * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include static struct _FILE { } _stdout, _stdin, _stderr; FILE *stdout = &_stdout; FILE *stdin = &_stdin; FILE *stderr = &_stderr; /** Structure for specifying output methods for different printf clones. */ struct printf_spec { /* Output function, returns count of printed characters or EOF. */ int (*write) (const char *, size_t, void *); /* Support data - output stream specification, its state, locks, ... */ void *data; }; /** Show prefixes 0x or 0. */ #define __PRINTF_FLAG_PREFIX 0x00000001 /** Signed / unsigned number. */ #define __PRINTF_FLAG_SIGNED 0x00000002 /** Print leading zeroes. */ #define __PRINTF_FLAG_ZEROPADDED 0x00000004 /** Align to left. */ #define __PRINTF_FLAG_LEFTALIGNED 0x00000010 /** Always show + sign. */ #define __PRINTF_FLAG_SHOWPLUS 0x00000020 /** Print space instead of plus. */ #define __PRINTF_FLAG_SPACESIGN 0x00000040 /** Show big characters. */ #define __PRINTF_FLAG_BIGCHARS 0x00000080 /** Number has - sign. */ #define __PRINTF_FLAG_NEGATIVE 0x00000100 /** * Buffer big enough for 64-bit number printed in base 2, sign, prefix and 0 * to terminate string (last one is only for better testing end of buffer by * zero-filling subroutine). */ #define PRINT_NUMBER_BUFFER_SIZE (64 + 5) /** Enumeration of possible arguments types. */ typedef enum { PrintfQualifierByte = 0, PrintfQualifierShort, PrintfQualifierInt, PrintfQualifierLong, PrintfQualifierLongLong, PrintfQualifierPointer, } qualifier_t; static const char digits_small[] = "0123456789abcdef"; static const char digits_big[] = "0123456789ABCDEF"; /** * Print one or more characters without adding newline. * * @param buf Buffer of >= count bytesi size. NULL pointer is not allowed! * @param count Number of characters to print. * @param ps Output method and its data. * @return Number of characters printed. */ static int printf_putnchars(const char *buf, size_t count, struct printf_spec *ps) { return ps->write(buf, count, ps->data); } /** * Print a string without adding a newline. * * @param str String to print. * @param ps Write function specification and support data. * @return Number of characters printed. */ static inline int printf_putstr(const char *str, struct printf_spec *ps) { return printf_putnchars(str, strlen(str), ps); } /** * Print one character. * * @param c Character to be printed. * @param ps Output method. * @return Number of characters printed. */ static int printf_putchar(int c, struct printf_spec *ps) { char ch = c; return ps->write(&ch, 1, ps->data); } /** * Print one formatted character. * * @param c Character to print. * @param width Width modifier. * @param flags Flags that change the way the character is printed. * @param ps Output methods spec for different printf clones. * @return Number of characters printed, negative value on failure. */ static int print_char(char c, int width, uint64_t flags, struct printf_spec *ps) { int counter = 0; if (!(flags & __PRINTF_FLAG_LEFTALIGNED)) { while (--width > 0) { if (printf_putchar(' ', ps) > 0) ++counter; } } if (printf_putchar(c, ps) > 0) counter++; while (--width > 0) { if (printf_putchar(' ', ps) > 0) ++counter; } return counter; } /** * Print string. * * @param s String to be printed. * @param width Width modifier. * @param precision Precision modifier. * @param flags Flags that modify the way the string is printed. * @param ps Output methods spec for different printf clones. * @return Number of characters printed, negative value on failure. */ /** Structure for specifying output methods for different printf clones. */ static int print_string(char *s, int width, unsigned int precision, uint64_t flags, struct printf_spec *ps) { int counter = 0, retval; size_t size; if (s == NULL) return printf_putstr("(NULL)", ps); size = strlen(s); /* Print leading spaces. */ if (precision == 0) precision = size; width -= precision; if (!(flags & __PRINTF_FLAG_LEFTALIGNED)) { while (width-- > 0) { if (printf_putchar(' ', ps) == 1) counter++; } } if ((retval = printf_putnchars(s, MIN(size, precision), ps)) < 0) return -counter; counter += retval; while (width-- > 0) { if (printf_putchar(' ', ps) == 1) ++counter; } return counter; } /** * Print a number in a given base. * * Print significant digits of a number in given base. * * @param num Number to print. * @param width Width modifier.h * @param precision Precision modifier. * @param base Base to print the number in (must be between 2 and 16). * @param flags Flags that modify the way the number is printed. * @param ps Output methods spec for different printf clones. * @return Number of characters printed. */ static int print_number(uint64_t num, int width, int precision, int base, uint64_t flags, struct printf_spec *ps) { const char *digits = digits_small; char d[PRINT_NUMBER_BUFFER_SIZE]; char *ptr = &d[PRINT_NUMBER_BUFFER_SIZE - 1]; int size = 0; /* Size of number with all prefixes and signs. */ int number_size; /* Size of plain number. */ char sgn; int retval; int counter = 0; if (flags & __PRINTF_FLAG_BIGCHARS) digits = digits_big; *ptr-- = 0; /* Put zero at end of string. */ if (num == 0) { *ptr-- = '0'; size++; } else { do { *ptr-- = digits[num % base]; size++; } while (num /= base); } number_size = size; /* * Collect the sum of all prefixes/signs/... to calculate padding and * leading zeroes. */ if (flags & __PRINTF_FLAG_PREFIX) { switch (base) { case 2: /* Binary formating is not standard, but useful. */ size += 2; break; case 8: size++; break; case 16: size += 2; break; } } sgn = 0; if (flags & __PRINTF_FLAG_SIGNED) { if (flags & __PRINTF_FLAG_NEGATIVE) { sgn = '-'; size++; } else if (flags & __PRINTF_FLAG_SHOWPLUS) { sgn = '+'; size++; } else if (flags & __PRINTF_FLAG_SPACESIGN) { sgn = ' '; size++; } } if (flags & __PRINTF_FLAG_LEFTALIGNED) flags &= ~__PRINTF_FLAG_ZEROPADDED; /* * If the number is left-aligned or precision is specified then * zero-padding is ignored. */ if (flags & __PRINTF_FLAG_ZEROPADDED) { if ((precision == 0) && (width > size)) precision = width - size + number_size; } /* Print leading spaces. */ if (number_size > precision) { /* Print the whole number not only a part. */ precision = number_size; } width -= precision + size - number_size; if (!(flags & __PRINTF_FLAG_LEFTALIGNED)) { while (width-- > 0) { if (printf_putchar(' ', ps) == 1) counter++; } } /* Print sign. */ if (sgn) { if (printf_putchar(sgn, ps) == 1) counter++; } /* Print prefix. */ if (flags & __PRINTF_FLAG_PREFIX) { switch (base) { case 2: /* Binary formating is not standard, but useful. */ if (printf_putchar('0', ps) == 1) counter++; if (flags & __PRINTF_FLAG_BIGCHARS) { if (printf_putchar('B', ps) == 1) counter++; } else { if (printf_putchar('b', ps) == 1) counter++; } break; case 8: if (printf_putchar('o', ps) == 1) counter++; break; case 16: if (printf_putchar('0', ps) == 1) counter++; if (flags & __PRINTF_FLAG_BIGCHARS) { if (printf_putchar('X', ps) == 1) counter++; } else { if (printf_putchar('x', ps) == 1) counter++; } break; } } /* Print leading zeroes. */ precision -= number_size; while (precision-- > 0) { if (printf_putchar('0', ps) == 1) counter++; } /* Print number itself. */ if ((retval = printf_putstr(++ptr, ps)) > 0) counter += retval; /* Print ending spaces. */ while (width-- > 0) { if (printf_putchar(' ', ps) == 1) counter++; } return counter; } /** * Print formatted string. * * Print string formatted according to the fmt parameter and variadic arguments. * Each formatting directive must have the following form: * * \% [ FLAGS ] [ WIDTH ] [ .PRECISION ] [ TYPE ] CONVERSION * * FLAGS:@n * - "#" Force to print prefix.For \%o conversion, the prefix is 0, for * \%x and \%X prefixes are 0x and 0X and for conversion \%b the * prefix is 0b. * * - "-" Align to left. * * - "+" Print positive sign just as negative. * * - " " If the printed number is positive and "+" flag is not set, * print space in place of sign. * * - "0" Print 0 as padding instead of spaces. Zeroes are placed between * sign and the rest of the number. This flag is ignored if "-" * flag is specified. * * WIDTH:@n * - Specify the minimal width of a printed argument. If it is bigger, * width is ignored. If width is specified with a "*" character instead of * number, width is taken from parameter list. And integer parameter is * expected before parameter for processed conversion specification. If * this value is negative its absolute value is taken and the "-" flag is * set. * * PRECISION:@n * - Value precision. For numbers it specifies minimum valid numbers. * Smaller numbers are printed with leading zeroes. Bigger numbers are not * affected. Strings with more than precision characters are cut off. Just * as with width, an "*" can be used used instead of a number. An integer * value is then expected in parameters. When both width and precision are * specified using "*", the first parameter is used for width and the * second one for precision. * * TYPE:@n * - "hh" Signed or unsigned char.@n * - "h" Signed or unsigned short.@n * - "" Signed or unsigned int (default value).@n * - "l" Signed or unsigned long int.@n * - "ll" Signed or unsigned long long int.@n * * * CONVERSION:@n * - % Print percentile character itself. * * - c Print single character. * * - s Print zero terminated string. If a NULL value is passed as * value, "(NULL)" is printed instead. * * - P, p Print value of a pointer. Void * value is expected and it is * printed in hexadecimal notation with prefix (as with \%#X / \%#x * for 32-bit or \%#X / \%#x for 64-bit long pointers). * * - b Print value as unsigned binary number. Prefix is not printed by * default. (Nonstandard extension.) * * - o Print value as unsigned octal number. Prefix is not printed by * default. * * - d, i Print signed decimal number. There is no difference between d * and i conversion. * * - u Print unsigned decimal number. * * - X, x Print hexadecimal number with upper- or lower-case. Prefix is * not printed by default. * * All other characters from fmt except the formatting directives are printed in * verbatim. * * @param fmt Formatting NULL terminated string. * @param ps TODO. * @param ap TODO. * @return Number of characters printed, negative value on failure. */ static int printf_core(const char *fmt, struct printf_spec *ps, va_list ap) { int i = 0; /* Index of the currently processed char from fmt */ int j = 0; /* Index to the first not printed nonformating character */ int end; int counter; /* Counter of printed characters */ int retval; /* Used to store return values from called functions */ char c; qualifier_t qualifier; /* Type of argument */ int base; /* Base in which a numeric parameter will be printed */ uint64_t number; /* Argument value */ size_t size; /* Byte size of integer parameter */ int width, precision; uint64_t flags; counter = 0; while ((c = fmt[i])) { /* Control character. */ if (c == '%') { /* Print common characters if any processed. */ if (i > j) { if ((retval = printf_putnchars(&fmt[j], (size_t) (i - j), ps)) < 0) { counter = -counter; goto out; /* Error */ } counter += retval; } j = i; /* Parse modifiers. */ flags = 0; end = 0; do { ++i; switch (c = fmt[i]) { case '#': flags |= __PRINTF_FLAG_PREFIX; break; case '-': flags |= __PRINTF_FLAG_LEFTALIGNED; break; case '+': flags |= __PRINTF_FLAG_SHOWPLUS; break; case ' ': flags |= __PRINTF_FLAG_SPACESIGN; break; case '0': flags |= __PRINTF_FLAG_ZEROPADDED; break; default: end = 1; }; } while (end == 0); /* Width & '*' operator. */ width = 0; if (isdigit(fmt[i])) { while (isdigit(fmt[i])) { width *= 10; width += fmt[i++] - '0'; } } else if (fmt[i] == '*') { /* Get width value from argument list. */ i++; width = (int)va_arg(ap, int); if (width < 0) { /* Negative width sets '-' flag. */ width *= -1; flags |= __PRINTF_FLAG_LEFTALIGNED; } } /* Precision and '*' operator. */ precision = 0; if (fmt[i] == '.') { ++i; if (isdigit(fmt[i])) { while (isdigit(fmt[i])) { precision *= 10; precision += fmt[i++] - '0'; } } else if (fmt[i] == '*') { /* Get precision from argument list. */ i++; precision = (int)va_arg(ap, int); /* Ignore negative precision. */ if (precision < 0) precision = 0; } } switch (fmt[i++]) { /** @todo unimplemented qualifiers: * t ptrdiff_t - ISO C 99 */ case 'h': /* char or short */ qualifier = PrintfQualifierShort; if (fmt[i] == 'h') { i++; qualifier = PrintfQualifierByte; } break; case 'l': /* long or long long */ qualifier = PrintfQualifierLong; if (fmt[i] == 'l') { i++; qualifier = PrintfQualifierLongLong; } break; default: /* default type */ qualifier = PrintfQualifierInt; --i; } base = 10; switch (c = fmt[i]) { /* String and character conversions */ case 's': if ((retval = print_string(va_arg(ap, char *), width, precision, flags, ps)) < 0) { counter = -counter; goto out; }; counter += retval; j = i + 1; goto next_char; case 'c': c = va_arg(ap, unsigned int); retval = print_char(c, width, flags, ps); if (retval < 0) { counter = -counter; goto out; }; counter += retval; j = i + 1; goto next_char; /* Integer values */ case 'P': /* pointer */ flags |= __PRINTF_FLAG_BIGCHARS; case 'p': flags |= __PRINTF_FLAG_PREFIX; base = 16; qualifier = PrintfQualifierPointer; break; case 'b': base = 2; break; case 'o': base = 8; break; case 'd': case 'i': flags |= __PRINTF_FLAG_SIGNED; case 'u': break; case 'X': flags |= __PRINTF_FLAG_BIGCHARS; case 'x': base = 16; break; case '%': /* percentile itself */ j = i; goto next_char; default: /* Bad formatting */ /* * Unknown format. Now, j is the index of '%' * so we will print whole bad format sequence. */ goto next_char; } /* Print integers. */ /* Print number. */ switch (qualifier) { case PrintfQualifierByte: size = sizeof(unsigned char); number = (uint64_t) va_arg(ap, unsigned int); break; case PrintfQualifierShort: size = sizeof(unsigned short); number = (uint64_t) va_arg(ap, unsigned int); break; case PrintfQualifierInt: size = sizeof(unsigned int); number = (uint64_t) va_arg(ap, unsigned int); break; case PrintfQualifierLong: size = sizeof(unsigned long); number = (uint64_t) va_arg(ap, unsigned long); break; case PrintfQualifierLongLong: size = sizeof(unsigned long long); number = (uint64_t) va_arg(ap, unsigned long long); break; case PrintfQualifierPointer: size = sizeof(void *); number = (uint64_t) (unsigned long)va_arg(ap, void *); break; default: /* Unknown qualifier */ counter = -counter; goto out; } if (flags & __PRINTF_FLAG_SIGNED) { if (number & (0x1 << (size * 8 - 1))) { flags |= __PRINTF_FLAG_NEGATIVE; if (size == sizeof(uint64_t)) { number = -((int64_t) number); } else { number = ~number; number &= ~(0xFFFFFFFFFFFFFFFFll << (size * 8)); number++; } } } if ((retval = print_number(number, width, precision, base, flags, ps)) < 0) { counter = -counter; goto out; } counter += retval; j = i + 1; } next_char: ++i; } if (i > j) { if ((retval = printf_putnchars(&fmt[j], (u64) (i - j), ps)) < 0) { counter = -counter; goto out; /* Error */ } counter += retval; } out: return counter; } int snprintf(char *str, size_t size, const char *fmt, ...) { int ret; va_list args; va_start(args, fmt); ret = vsnprintf(str, size, fmt, args); va_end(args); return ret; } int sprintf(char *str, const char *fmt, ...) { int ret; va_list args; va_start(args, fmt); ret = vsprintf(str, fmt, args); va_end(args); return ret; } int fprintf(FILE *file, const char *fmt, ...) { int ret; if ((file == stdout) || (file == stderr)) { va_list args; va_start(args, fmt); ret = vprintf(fmt, args); va_end(args); return ret; } return -1; } struct vsnprintf_data { size_t size; /* Total space for string */ size_t len; /* Count of currently used characters */ char *string; /* Destination string */ }; /** * Write string to given buffer. * * Write at most data->size characters including trailing zero. According to * C99, snprintf() has to return number of characters that would have been * written if enough space had been available. Hence the return value is not * number of really printed characters but size of the input string. * Number of really used characters is stored in data->len. * * @param str Source string to print. * @param count Size of source string. * @param _data Structure with destination string, counter of used space * and total string size. * @return Number of characters to print (not characters really printed!). */ static int vsnprintf_write(const char *str, size_t count, void *_data) { struct vsnprintf_data *data = _data; size_t i; i = data->size - data->len; if (i == 0) return count; /* We have only one free byte left in buffer => write trailing zero. */ if (i == 1) { data->string[data->size - 1] = 0; data->len = data->size; return count; } /* * We have not enough space for whole string with the trailing * zero => print only a part of string. */ if (i <= count) { memcpy((void *)(data->string + data->len), (void *)str, i - 1); data->string[data->size - 1] = 0; data->len = data->size; return count; } /* Buffer is big enough to print whole string. */ memcpy((void *)(data->string + data->len), (void *)str, count); data->len += count; /* * Put trailing zero at end, but not count it into data->len so * it could be rewritten next time. */ data->string[data->len] = 0; return count; } int vsnprintf(char *str, size_t size, const char *fmt, va_list ap) { struct vsnprintf_data data = { size, 0, str }; struct printf_spec ps = { vsnprintf_write, &data }; /* Print 0 at end of string - fix case that nothing will be printed. */ if (size > 0) str[0] = 0; /* vsnprintf_write() ensures that str will be terminated by zero. */ return printf_core(fmt, &ps, ap); } int vsprintf(char *str, const char *fmt, va_list ap) { return vsnprintf(str, (size_t) - 1, fmt, ap); } int printf(const char *fmt, ...) { int ret; va_list args; va_start(args, fmt); ret = vprintf(fmt, args); va_end(args); return ret; } static int vprintf_write(const char *str, size_t count, void *unused) { size_t i; for (i = 0; i < count; i++) putchar(str[i]); return i; } int vprintf(const char *fmt, va_list ap) { struct printf_spec ps = { vprintf_write, NULL }; return printf_core(fmt, &ps, ap); }