/* mpicalc.c - Simple RPN calculator using gcry_mpi functions * Copyright (C) 1997, 1998, 1999, 2004, 2006, 2013 Werner Koch * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see . */ /* This program is a simple RPN calculator which was originally used to develop the mpi functions of GnuPG. Values must be given in hex. Operation is like dc(1) except that the input/output radix is always 16 and you can use a '-' to prefix a negative number. Addition operators: ++ and --. All operators must be delimited by a blank. */ #ifdef HAVE_CONFIG_H # include #endif #include #include #include #ifdef _GCRYPT_IN_LIBGCRYPT # undef _GCRYPT_IN_LIBGCRYPT # include "gcrypt.h" #else # include #endif #define MPICALC_VERSION "2.0" #define NEED_LIBGCRYPT_VERSION "1.6.0" #define STACKSIZE 500 static gcry_mpi_t stack[STACKSIZE]; static int stackidx; static int scan_mpi (gcry_mpi_t retval, const char *string) { gpg_error_t err; gcry_mpi_t val; err = gcry_mpi_scan (&val, GCRYMPI_FMT_HEX, string, 0, NULL); if (err) { fprintf (stderr, "scanning input failed: %s\n", gpg_strerror (err)); return -1; } mpi_set (retval, val); mpi_release (val); return 0; } static void print_mpi (gcry_mpi_t a) { gpg_error_t err; char *buf; void *bufaddr = &buf; err = gcry_mpi_aprint (GCRYMPI_FMT_HEX, bufaddr, NULL, a); if (err) fprintf (stderr, "[error printing number: %s]\n", gpg_strerror (err)); else { fputs (buf, stdout); gcry_free (buf); } } static void do_add (void) { if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } mpi_add (stack[stackidx - 2], stack[stackidx - 2], stack[stackidx - 1]); stackidx--; } static void do_sub (void) { if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } mpi_sub (stack[stackidx - 2], stack[stackidx - 2], stack[stackidx - 1]); stackidx--; } static void do_inc (void) { if (stackidx < 1) { fputs ("stack underflow\n", stderr); return; } mpi_add_ui (stack[stackidx - 1], stack[stackidx - 1], 1); } static void do_dec (void) { if (stackidx < 1) { fputs ("stack underflow\n", stderr); return; } /* mpi_sub_ui( stack[stackidx-1], stack[stackidx-1], 1 ); */ } static void do_mul (void) { if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } mpi_mul (stack[stackidx - 2], stack[stackidx - 2], stack[stackidx - 1]); stackidx--; } static void do_mulm (void) { if (stackidx < 3) { fputs ("stack underflow\n", stderr); return; } mpi_mulm (stack[stackidx - 3], stack[stackidx - 3], stack[stackidx - 2], stack[stackidx - 1]); stackidx -= 2; } static void do_div (void) { if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } mpi_fdiv (stack[stackidx - 2], NULL, stack[stackidx - 2], stack[stackidx - 1]); stackidx--; } static void do_rem (void) { if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } mpi_mod (stack[stackidx - 2], stack[stackidx - 2], stack[stackidx - 1]); stackidx--; } static void do_powm (void) { gcry_mpi_t a; if (stackidx < 3) { fputs ("stack underflow\n", stderr); return; } a = mpi_new (0); mpi_powm (a, stack[stackidx - 3], stack[stackidx - 2], stack[stackidx - 1]); mpi_release (stack[stackidx - 3]); stack[stackidx - 3] = a; stackidx -= 2; } static void do_inv (void) { gcry_mpi_t a; if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } a = mpi_new (0); mpi_invm (a, stack[stackidx - 2], stack[stackidx - 1]); mpi_set (stack[stackidx - 2], a); mpi_release (a); stackidx--; } static void do_gcd (void) { gcry_mpi_t a; if (stackidx < 2) { fputs ("stack underflow\n", stderr); return; } a = mpi_new (0); mpi_gcd (a, stack[stackidx - 2], stack[stackidx - 1]); mpi_set (stack[stackidx - 2], a); mpi_release (a); stackidx--; } static void do_lshift (void) { if (stackidx < 1) { fputs ("stack underflow\n", stderr); return; } mpi_lshift (stack[stackidx - 1], stack[stackidx - 1], 1); } static void do_rshift (void) { if (stackidx < 1) { fputs ("stack underflow\n", stderr); return; } mpi_rshift (stack[stackidx - 1], stack[stackidx - 1], 1); } static void do_nbits (void) { unsigned int n; if (stackidx < 1) { fputs ("stack underflow\n", stderr); return; } n = mpi_get_nbits (stack[stackidx - 1]); mpi_set_ui (stack[stackidx - 1], n); } static void do_primecheck (void) { gpg_error_t err; if (stackidx < 1) { fputs ("stack underflow\n", stderr); return; } err = gcry_prime_check (stack[stackidx - 1], 0); mpi_set_ui (stack[stackidx - 1], !err); if (err && gpg_err_code (err) != GPG_ERR_NO_PRIME) fprintf (stderr, "checking prime failed: %s\n", gpg_strerror (err)); } static int my_getc (void) { static int shown; int c; for (;;) { if ((c = getc (stdin)) == EOF) return EOF; if (!(c & 0x80)) return c; if (!shown) { shown = 1; fputs ("note: Non ASCII characters are ignored\n", stderr); } } } static void print_help (void) { fputs ("+ add [0] := [1] + [0] {-1}\n" "- subtract [0] := [1] - [0] {-1}\n" "* multiply [0] := [1] * [0] {-1}\n" "/ divide [0] := [1] - [0] {-1}\n" "% modulo [0] := [1] % [0] {-1}\n" "< left shift [0] := [0] << 1 {0}\n" "> right shift [0] := [0] >> 1 {0}\n" "++ increment [0] := [0]++ {0}\n" "-- decrement [0] := [0]-- {0}\n" "m multiply mod [0] := [2] * [1] mod [0] {-2}\n" "^ power mod [0] := [2] ^ [1] mod [0] {-2}\n" "I inverse mod [0] := [1]^-1 mod [0] {-1}\n" "G gcd [0] := gcd([1],[0]) {-1}\n" "i remove item [0] := [1] {-1}\n" "d dup item [-1] := [0] {+1}\n" "r reverse [0] := [1], [1] := [0] {0}\n" "b # of bits [0] := nbits([0]) {0}\n" "P prime check [0] := is_prime([0])?1:0 {0}\n" "c clear stack\n" "p print top item\n" "f print the stack\n" "# ignore until end of line\n" "? print this help\n" , stdout); } int main (int argc, char **argv) { const char *pgm; int last_argc = -1; int print_config = 0; int i, c; int state = 0; char strbuf[4096]; int stridx = 0; if (argc) { pgm = strrchr (*argv, '/'); if (pgm) pgm++; else pgm = *argv; argc--; argv++; } else pgm = "?"; while (argc && last_argc != argc ) { last_argc = argc; if (!strcmp (*argv, "--")) { argc--; argv++; break; } else if (!strcmp (*argv, "--version") || !strcmp (*argv, "--help")) { printf ("%s " MPICALC_VERSION "\n" "libgcrypt %s\n" "Copyright (C) 1997, 2013 Werner Koch\n" "License LGPLv2.1+: GNU LGPL version 2.1 or later " "\n" "This is free software: you are free to change and " "redistribute it.\n" "There is NO WARRANTY, to the extent permitted by law.\n" "\n" "Syntax: mpicalc [options]\n" "Simple interactive big integer RPN calculator\n" "\n" "Options:\n" " --version print version information\n" " --print-config print the Libgcrypt config\n" " --disable-hwf NAME disable feature NAME\n", pgm, gcry_check_version (NULL)); exit (0); } else if (!strcmp (*argv, "--print-config")) { argc--; argv++; print_config = 1; } else if (!strcmp (*argv, "--disable-hwf")) { argc--; argv++; if (argc) { if (gcry_control (GCRYCTL_DISABLE_HWF, *argv, NULL)) fprintf (stderr, "%s: unknown hardware feature `%s'" " - option ignored\n", pgm, *argv); argc--; argv++; } } } if (argc) { fprintf (stderr, "usage: %s [options] (--help for help)\n", pgm); exit (1); } if (!gcry_check_version (NEED_LIBGCRYPT_VERSION)) { fprintf (stderr, "%s: Libgcrypt is too old (need %s, have %s)\n", pgm, NEED_LIBGCRYPT_VERSION, gcry_check_version (NULL) ); exit (1); } gcry_control (GCRYCTL_DISABLE_SECMEM, 0); gcry_control (GCRYCTL_INITIALIZATION_FINISHED, 0); if (print_config) { gcry_control (GCRYCTL_PRINT_CONFIG, stdout); exit (0); } for (i = 0; i < STACKSIZE; i++) stack[i] = NULL; stackidx = 0; while ((c = my_getc ()) != EOF) { if (!state) /* waiting */ { if (isdigit (c)) { state = 1; ungetc (c, stdin); strbuf[0] = '0'; strbuf[1] = 'x'; stridx = 2; } else if (isspace (c)) ; else { switch (c) { case '#': state = 2; break; case '+': if ((c = my_getc ()) == '+') do_inc (); else { ungetc (c, stdin); do_add (); } break; case '-': if ((c = my_getc ()) == '-') do_dec (); else if (isdigit (c) || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f')) { state = 1; ungetc (c, stdin); strbuf[0] = '-'; strbuf[1] = '0'; strbuf[2] = 'x'; stridx = 3; } else { ungetc (c, stdin); do_sub (); } break; case '*': do_mul (); break; case 'm': do_mulm (); break; case '/': do_div (); break; case '%': do_rem (); break; case '^': do_powm (); break; case '<': do_lshift (); break; case '>': do_rshift (); break; case 'I': do_inv (); break; case 'G': do_gcd (); break; case 'i': /* dummy */ if (!stackidx) fputs ("stack underflow\n", stderr); else { mpi_release (stack[stackidx - 1]); stackidx--; } break; case 'd': /* duplicate the tos */ if (!stackidx) fputs ("stack underflow\n", stderr); else if (stackidx < STACKSIZE) { mpi_release (stack[stackidx]); stack[stackidx] = mpi_copy (stack[stackidx - 1]); stackidx++; } else fputs ("stack overflow\n", stderr); break; case 'r': /* swap top elements */ if (stackidx < 2) fputs ("stack underflow\n", stderr); else if (stackidx < STACKSIZE) { gcry_mpi_t tmp = stack[stackidx-1]; stack[stackidx-1] = stack[stackidx - 2]; stack[stackidx-2] = tmp; } break; case 'b': do_nbits (); break; case 'P': do_primecheck (); break; case 'c': for (i = 0; i < stackidx; i++) { mpi_release (stack[i]); stack[i] = NULL; } stackidx = 0; break; case 'p': /* print the tos */ if (!stackidx) puts ("stack is empty"); else { print_mpi (stack[stackidx - 1]); putchar ('\n'); } break; case 'f': /* print the stack */ for (i = stackidx - 1; i >= 0; i--) { printf ("[%2d]: ", i); print_mpi (stack[i]); putchar ('\n'); } break; case '?': print_help (); break; default: fputs ("invalid operator\n", stderr); } } } else if (state == 1) /* In a number. */ { if (!isxdigit (c)) { /* Store the number */ state = 0; ungetc (c, stdin); if (stridx < sizeof strbuf) strbuf[stridx] = 0; if (stackidx < STACKSIZE) { if (!stack[stackidx]) stack[stackidx] = mpi_new (0); if (scan_mpi (stack[stackidx], strbuf)) fputs ("invalid number\n", stderr); else stackidx++; } else fputs ("stack overflow\n", stderr); } else { /* Store a digit. */ if (stridx < sizeof strbuf - 1) strbuf[stridx++] = c; else if (stridx == sizeof strbuf - 1) { strbuf[stridx] = 0; fputs ("input too large - truncated\n", stderr); stridx++; } } } else if (state == 2) /* In a comment. */ { if (c == '\n') state = 0; } } for (i = 0; i < stackidx; i++) mpi_release (stack[i]); return 0; }