#include "utilnumber.h" #include "utilmem.h" #include "utilbasexx.h" /* filters state structs */ struct basexx_state { size_t line, maxline; size_t left; int tail[5]; int flush; }; struct runlength_state { int run; int flush; int c1, c2; uint8_t *pos; }; struct eexec_state { int key; int flush; int binary; int c1; size_t line, maxline; /* ascii encoder only */ const char *initbytes; }; /* config */ #if defined(BASEXX_PDF) # define ignored(c) (c == 0x20 || c == 0x0A || c == 0x0C || c == 0x0D || c == 0x09 || c == 0x00) # define base16_eof(c) (c == '>' || c < 0) # define base85_eof(c) (c == '~' || c < 0) #else # define ignored(c) (c == 0x20 || c == 0x0A || c == 0x0D || c == 0x09) # define base16_eof(c) (c < 0) # define base85_eof(c) (c < 0) #endif #define base64_eof(c) (c == '=' || c < 0) #define basexx_nl '\x0A' #define put_nl(O, line, maxline, n) ((void)((line += n) > maxline && ((line = n), iof_set(O, basexx_nl)))) /* tail macros */ #define set_tail1(state, c1) (state->left = 1, state->tail[0] = c1) #define set_tail2(state, c1, c2) (state->left = 2, state->tail[0] = c1, state->tail[1] = c2) #define set_tail3(state, c1, c2, c3) (state->left = 3, state->tail[0] = c1, state->tail[1] = c2, state->tail[2] = c3) #define set_tail4(state, c1, c2, c3, c4) (state->left = 4, state->tail[0] = c1, state->tail[1] = c2, state->tail[2] = c3, state->tail[3] = c4) #define set_tail5(state, c1, c2, c3, c4, c5) \ (state->left = 5, state->tail[0] = c1, state->tail[1] = c2, state->tail[2] = c3, state->tail[3] = c4, state->tail[4] = c5) #define get_tail1(state, c1) (state->left = 0, c1 = state->tail[0]) #define get_tail2(state, c1, c2) (state->left = 0, c1 = state->tail[0], c2 = state->tail[1]) #define get_tail3(state, c1, c2, c3) (state->left = 0, c1 = state->tail[0], c2 = state->tail[1], c3 = state->tail[2]) #define get_tail4(state, c1, c2, c3, c4) (state->left = 0, c1 = state->tail[0], c2 = state->tail[1], c3 = state->tail[2], c4 = state->tail[3]) /* basexx state initialization */ void basexx_state_init_ln (basexx_state *state, size_t line, size_t maxline) { state->line = line; state->maxline = maxline; state->left = 0; state->flush = 0; } /* base 16; xxxx|xxxx */ iof_status base16_encoded_uc (const void *data, size_t size, iof *O) { const uint8_t *s, *e; for (s = (const uint8_t *)data, e = s + size; s < e; ++s) { if (!iof_ensure(O, 2)) return IOFFULL; iof_set_uc_hex(O, *s); } return IOFEOF; } iof_status base16_encoded_lc (const void *data, size_t size, iof *O) { const uint8_t *s, *e; for (s = (const uint8_t *)data, e = s + size; s < e; ++s) { if (!iof_ensure(O, 2)) return IOFFULL; iof_set_lc_hex(O, *s); } return IOFEOF; } iof_status base16_encoded_uc_ln (const void *data, size_t size, iof *O, size_t line, size_t maxline) { const uint8_t *s, *e; for (s = (const uint8_t *)data, e = s + size; s < e; ++s) { if (!iof_ensure(O, 3)) return IOFFULL; put_nl(O, line, maxline, 2); iof_set_uc_hex(O, *s); } return IOFFULL; } iof_status base16_encoded_lc_ln (const void *data, size_t size, iof *O, size_t line, size_t maxline) { const uint8_t *s, *e; for (s = (const uint8_t *)data, e = s + size; s < e; ++s) { if (!iof_ensure(O, 3)) return IOFFULL; put_nl(O, line, maxline, 2); iof_set_lc_hex(O, *s); } return IOFFULL; } iof_status base16_encode_uc (iof *I, iof *O) { register int c; while (iof_ensure(O, 2)) { if ((c = iof_get(I)) < 0) return IOFEOF; iof_set_uc_hex(O, c); } return IOFFULL; } iof_status base16_encode_state_uc (iof *I, iof *O, basexx_state *state) { register int c; while (iof_ensure(O, 2)) { if ((c = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); iof_set_uc_hex(O, c); } return IOFFULL; } iof_status base16_encode_lc (iof *I, iof *O) { register int c; while (iof_ensure(O, 2)) { if ((c = iof_get(I)) < 0) return IOFEOF; iof_set_lc_hex(O, c); } return IOFFULL; } iof_status base16_encode_state_lc (iof *I, iof *O, basexx_state *state) { register int c; while (iof_ensure(O, 2)) { if ((c = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); iof_set_lc_hex(O, c); } return IOFFULL; } iof_status base16_encode_uc_ln (iof *I, iof *O, size_t line, size_t maxline) { register int c; while (iof_ensure(O, 3)) { if ((c = iof_get(I)) < 0) return IOFEOF; put_nl(O, line, maxline, 2); iof_set_uc_hex(O, c); } return IOFFULL; } iof_status base16_encode_state_uc_ln (iof *I, iof *O, basexx_state *state) { register int c; while (iof_ensure(O, 3)) { if ((c = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); put_nl(O, state->line, state->maxline, 2); iof_set_uc_hex(O, c); } return IOFFULL; } iof_status base16_encode_lc_ln (iof *I, iof *O, size_t line, size_t maxline) { register int c; while (iof_ensure(O, 3)) { if ((c = iof_get(I)) < 0) return IOFEOF; put_nl(O, line, maxline, 2); iof_set_lc_hex(O, c); } return IOFFULL; } iof_status base16_encode_state_lc_ln (iof *I, iof *O, basexx_state *state) { register int c; while (iof_ensure(O, 3)) { if ((c = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); put_nl(O, state->line, state->maxline, 2); iof_set_lc_hex(O, c); } return IOFFULL; } int base16_getc (iof *I) { register int c1, c2; do { c1 = iof_get(I); } while (ignored(c1)); if (base16_eof(c1)) return IOFEOF; do { c2 = iof_get(I); } while (ignored(c2)); if (base16_eof(c2)) { if ((c1 = base16_lookup[c1]) == -1) return IOFERR; return c1<<4; } if ((c1 = base16_lookup[c1]) == -1 || (c2 = base16_lookup[c2]) == -1) return IOFERR; return (c1<<4)|c2; } int base16_lc_putc (iof *O, int c) { if (iof_ensure(O, 2)) iof_set_lc_hex(O, c); return IOFFULL; } int base16_uc_putc (iof *O, int c) { if (iof_ensure(O, 2)) iof_set_uc_hex(O, c); return IOFFULL; } iof_status base16_decode (iof *I, iof *O) { register int c1, c2; while (iof_ensure(O, 1)) { do { c1 = iof_get(I); } while (ignored(c1)); if (base16_eof(c1)) return IOFEOF; do { c2 = iof_get(I); } while (ignored(c2)); if (base16_eof(c2)) { if ((c1 = base16_lookup[c1]) == -1) return IOFERR; iof_set(O, c1<<4); // c2 := '0' return IOFEOF; } if ((c1 = base16_lookup[c1]) == -1 || (c2 = base16_lookup[c2]) == -1) return IOFERR; iof_set(O, (c1<<4)|c2); } return IOFFULL; } iof_status base16_decode_state (iof *I, iof *O, basexx_state *state) { register int c1, c2, d1, d2; if (!(iof_ensure(O, 1))) return IOFFULL; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; } while (iof_ensure(O, 1)) { byte0: do { c1 = iof_get(I); } while (ignored(c1)); if (base16_eof(c1)) return (state->flush ? IOFEOF : IOFEMPTY); byte1: do { c2 = iof_get(I); } while (ignored(c2)); if (base16_eof(c2)) { set_tail1(state, c1); /* set tail to let the caller display invalid chars */ if (state->flush) { if ((c1 = base16_lookup[c1]) == -1) return IOFERR; iof_set(O, c1<<4); // c2 := '0' return IOFEOF; } return IOFEMPTY; } if ((d1 = base16_lookup[c1]) == -1 || (d2 = base16_lookup[c2]) == -1) { set_tail2(state, c1, c2); return IOFERR; } iof_set(O, (d1<<4)|d2); } return IOFFULL; } /* base 64; xxxxxx|xx xxxx|xxxx xx|xxxxxx */ const char base64_alphabet[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; const int base64_lookup[] = { -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,62,-1,-1,-1,63, 52,53,54,55,56,57,58,59,60,61,-1,-1,-1,-1,-1,-1, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8,9 ,10,11,12,13,14, 15,16,17,18,19,20,21,22,23,24,25,-1,-1,-1,-1,-1, -1,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40, 41,42,43,44,45,46,47,48,49,50,51,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; #define base64_digit1(c1) base64_alphabet[c1>>2] #define base64_digit2(c1, c2) base64_alphabet[((c1&3)<<4)|(c2>>4)] #define base64_digit3(c2, c3) base64_alphabet[((c2&15)<<2)|(c3>>6)] #define base64_digit4(c3) base64_alphabet[c3&63] #define base64_encode_word(O, c1, c2, c3) \ iof_set4(O, base64_digit1(c1), base64_digit2(c1, c2), base64_digit3(c2, c3), base64_digit4(c3)) #define base64_encode_tail2(O, c1, c2) \ iof_set3(O, base64_digit1(c1), base64_digit2(c1, c2), base64_digit3(c2, 0)) #define base64_encode_tail1(O, c1) \ iof_set2(O, base64_digit1(c1), base64_digit2(c1, 0)) iof_status base64_encoded (const void *data, size_t size, iof *O) { const uint8_t *s, *e; uint8_t c1, c2, c3; for (s = (const uint8_t *)data, e = s + size; s + 2 < e; ) { if (!iof_ensure(O, 4)) return IOFFULL; c1 = *s++; c2 = *s++; c3 = *s++; base64_encode_word(O, c1, c2, c3); } switch (e - s) { case 0: break; case 1: if (!iof_ensure(O, 2)) return IOFFULL; c1 = *s; base64_encode_tail1(O, c1); break; case 2: if (!iof_ensure(O, 3)) return IOFFULL; c1 = *s++; c2 = *s; base64_encode_tail2(O, c1, c2); break; } return IOFEOF; } iof_status base64_encoded_ln (const void *data, size_t size, iof *O, size_t line, size_t maxline) { const uint8_t *s, *e; uint8_t c1, c2, c3; for (s = (const uint8_t *)data, e = s + size; s + 2 < e; ) { if (!iof_ensure(O, 5)) return IOFFULL; c1 = *s++; c2 = *s++; c3 = *s++; put_nl(O, line, maxline, 4); base64_encode_word(O, c1, c2, c3); } switch (e - s) { case 0: break; case 1: if (!iof_ensure(O, 3)) return IOFFULL; c1 = *s; put_nl(O, line, maxline, 2); base64_encode_tail1(O, c1); break; case 2: if (!iof_ensure(O, 4)) return IOFFULL; c1 = *s++; c2 = *s; put_nl(O, line, maxline, 3); base64_encode_tail2(O, c1, c2); break; } return IOFEOF; } iof_status base64_encode (iof *I, iof *O) { register int c1, c2, c3; while(iof_ensure(O, 4)) { if ((c1 = iof_get(I)) < 0) return IOFEOF; if ((c2 = iof_get(I)) < 0) { base64_encode_tail1(O, c1); return IOFEOF; } if ((c3 = iof_get(I)) < 0) { base64_encode_tail2(O, c1, c2); return IOFEOF; } base64_encode_word(O, c1, c2, c3); } return IOFFULL; } iof_status base64_encode_state (iof *I, iof *O, basexx_state *state) { register int c1, c2, c3; if (!(iof_ensure(O, 4))) return IOFFULL; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; case 2: get_tail2(state, c1, c2); goto byte2; } while(iof_ensure(O, 4)) { byte0: if ((c1 = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); byte1: if ((c2 = iof_get(I)) < 0) return (state->flush ? (base64_encode_tail1(O, c1), IOFEOF) : (set_tail1(state, c1), IOFEMPTY)); byte2: if ((c3 = iof_get(I)) < 0) return (state->flush ? (base64_encode_tail2(O, c1, c2), IOFEOF) : (set_tail2(state, c1, c2), IOFEMPTY)); base64_encode_word(O, c1, c2, c3); } return IOFFULL; } iof_status base64_encode_ln (iof *I, iof *O, size_t line, size_t maxline) { register int c1, c2, c3; while(iof_ensure(O, 5)) { if ((c1 = iof_get(I)) < 0) return IOFEOF; if ((c2 = iof_get(I)) < 0) { put_nl(O, line, maxline, 2); base64_encode_tail1(O, c1); return IOFEOF; } if ((c3 = iof_get(I)) < 0) { put_nl(O, line, maxline, 3); base64_encode_tail2(O, c1, c2); return IOFEOF; } put_nl(O, line, maxline, 4); base64_encode_word(O, c1, c2, c3); } return IOFFULL; } iof_status base64_encode_state_ln (iof *I, iof *O, basexx_state *state) { register int c1, c2, c3; if (!(iof_ensure(O, 5))) return IOFFULL; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; case 2: get_tail2(state, c1, c2); goto byte2; } while(iof_ensure(O, 5)) { byte0: if ((c1 = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); byte1: if ((c2 = iof_get(I)) < 0) return (state->flush ? (put_nl(O, state->line, state->maxline, 2), base64_encode_tail1(O, c1), IOFEOF) : (set_tail1(state, c1), IOFEMPTY)); byte2: if ((c3 = iof_get(I)) < 0) return (state->flush ? (put_nl(O, state->line, state->maxline, 3), base64_encode_tail2(O, c1, c2), IOFEOF) : (set_tail2(state, c1, c2), IOFEMPTY)); put_nl(O, state->line, state->maxline, 4); base64_encode_word(O, c1, c2, c3); } return IOFFULL; } // #define base64_code(c1, c2, c3, c4) ((c1<<18)|(c2<<12)|(c3<<6)|c4) #define base64_decode_word(O, c1, c2, c3, c4) \ iof_set3(O, (c1<<2)|(c2>>4), ((c2&15)<<4)|(c3>>2), ((c3&3)<<6)|c4) #define base64_decode_tail3(O, c1, c2, c3) \ iof_set2(O, (c1<<2)|(c2>>4), ((c2&15)<<4)|(c3>>2)) #define base64_decode_tail2(O, c1, c2) \ iof_set(O, (c1<<2)|(c2>>4)) iof_status base64_decode (iof *I, iof *O) { register int c1, c2, c3, c4; while(iof_ensure(O, 3)) { do { c1 = iof_get(I); } while (ignored(c1)); if (base64_eof(c1)) return IOFEOF; do { c2 = iof_get(I); } while (ignored(c2)); if (base64_eof(c2)) return IOFERR; do { c3 = iof_get(I); } while (ignored(c3)); if (base64_eof(c3)) { if ((c1 = base64_lookup[c1]) == -1 || (c2 = base64_lookup[c2]) == -1) return IOFERR; base64_decode_tail2(O, c1, c2); return IOFEOF; } do { c4 = iof_get(I); } while (ignored(c4)); if (base64_eof(c4)) { if ((c1 = base64_lookup[c1]) == -1 || (c2 = base64_lookup[c2]) == -1 || (c3 = base64_lookup[c3]) == -1) return IOFERR; base64_decode_tail3(O, c1, c2, c3); return IOFEOF; } if ((c1 = base64_lookup[c1]) == -1 || (c2 = base64_lookup[c2]) == -1 || (c3 = base64_lookup[c3]) == -1 || (c4 = base64_lookup[c4]) == -1) return IOFERR; base64_decode_word(O, c1, c2, c3, c4); } return IOFFULL; } iof_status base64_decode_state (iof *I, iof *O, basexx_state *state) { register int c1, c2, c3, c4; register int d1, d2, d3, d4; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; case 2: get_tail2(state, c1, c2); goto byte2; case 3: get_tail3(state, c1, c2, c3); goto byte3; } while(iof_ensure(O, 3)) { byte0: do { c1 = iof_get(I); } while (ignored(c1)); if (base64_eof(c1)) return (state->flush ? IOFEOF : IOFEMPTY); byte1: do { c2 = iof_get(I); } while (ignored(c2)); if (base64_eof(c2)) { set_tail1(state, c1); /* set tail to let the caller make padding or display invalid char in case of error */ return (state->flush ? IOFERR : IOFEMPTY); /* if state->flush then error; tail must have at least two bytes */ } byte2: do { c3 = iof_get(I); } while (ignored(c3)); if (base64_eof(c3)) { set_tail2(state, c1, c2); if (state->flush) { if ((c1 = base64_lookup[c1]) == -1 || (c2 = base64_lookup[c2]) == -1) return IOFERR; base64_decode_tail2(O, c1, c2); return IOFEOF; } else return IOFEMPTY; } byte3: do { c4 = iof_get(I); } while (ignored(c4)); if (base64_eof(c4)) { set_tail3(state, c1, c2, c3); if (state->flush) { if ((c1 = base64_lookup[c1]) == -1 || (c2 = base64_lookup[c2]) == -1 || (c3 = base64_lookup[c3]) == -1) return IOFERR; base64_decode_tail3(O, c1, c2, c3); return IOFEOF; } else return IOFEMPTY; } if ((d1 = base64_lookup[c1]) == -1 || (d2 = base64_lookup[c2]) == -1 || (d3 = base64_lookup[c3]) == -1 || (d4 = base64_lookup[c4]) == -1) { set_tail4(state, c1, c2, c3, c4); return IOFERR; } base64_decode_word(O, d1, d2, d3, d4); } return IOFFULL; } /* base85 */ const char base85_alphabet[] = "!\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstu"; /* for completness, not used below */ const int base85_lookup[] = { -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14, 15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30, 31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46, 47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62, 63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78, 79,80,81,82,83,84,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1, -1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1 }; #define base85_encode_word(O, code) \ (*(O->pos+4) = '!' + code%85, code /= 85, *(O->pos+3) = '!' + code%85, code /= 85, \ *(O->pos+2) = '!' + code%85, code /= 85, *(O->pos+1) = '!' + code%85, code /= 85, \ *(O->pos) = '!' + code, \ O->pos += 5) #define base85_encode_tail3(O, code) \ (*(O->pos+3) = '!' + code%85, code /= 85, *(O->pos+2) = '!' + code%85, code /= 85, \ *(O->pos+1) = '!' + code%85, code /= 85, *(O->pos) = '!' + code, \ O->pos += 4) #define base85_encode_tail2(O, code) \ (*(O->pos+2) = '!' + code%85, code /= 85, *(O->pos+1) = '!' + code%85, code /= 85, \ *(O->pos) = '!' + code, \ O->pos += 3) #define base85_encode_tail1(O, code) \ (*(O->pos+1) = '!' + code%85, code /= 85, *(O->pos) = '!' + code, \ O->pos += 2) iof_status base85_encoded (const void *data, size_t size, iof *O) { unsigned int code; const uint8_t *s, *e; uint8_t c1, c2, c3, c4; for (s = (const uint8_t *)data, e = s + size; s + 3 < e; ) { if (!iof_ensure(O, 5)) return IOFFULL; c1 = *s++; c2 = *s++; c3 = *s++; c4 = *s++; code = (c1<<24)|(c2<<16)|(c3<<8)|c4; if (code == 0) { iof_set(O, 'z'); continue; } base85_encode_word(O, code); } switch (e - s) { case 0: break; case 1: if (!iof_ensure(O, 2)) return IOFFULL; c1 = *s; code = (c1<<24)/85/85/85; base85_encode_tail1(O, code); break; case 2: if (!iof_ensure(O, 3)) return IOFFULL; c1 = *s++; c2 = *s; code = ((c1<<24)|(c2<<16))/85/85; base85_encode_tail2(O, code); break; case 3: if (!iof_ensure(O, 4)) return IOFFULL; c1 = *s++; c2 = *s++; c3 = *s; code = ((c1<<24)|(c2<<16)|(c3<<8))/85; base85_encode_tail3(O, code); break; } return IOFEOF; } iof_status base85_encoded_ln (const void *data, size_t size, iof *O, size_t line, size_t maxline) { unsigned int code; const uint8_t *s, *e; uint8_t c1, c2, c3, c4; for (s = (const uint8_t *)data, e = s + size; s + 3 < e; ) { if (!iof_ensure(O, 6)) return IOFFULL; c1 = *s++; c2 = *s++; c3 = *s++; c4 = *s++; code = (c1<<24)|(c2<<16)|(c3<<8)|c4; if (code == 0) { put_nl(O, line, maxline, 1); iof_set(O, 'z'); continue; } put_nl(O, line, maxline, 5); base85_encode_word(O, code); } switch (e - s) { case 0: break; case 1: if (!iof_ensure(O, 3)) return IOFFULL; c1 = *s; code = (c1<<24)/85/85/85; put_nl(O, line, maxline, 2); base85_encode_tail1(O, code); break; case 2: if (!iof_ensure(O, 4)) return IOFFULL; c1 = *s++; c2 = *s; code = ((c1<<24)|(c2<<16))/85/85; put_nl(O, line, maxline, 3); base85_encode_tail2(O, code); break; case 3: if (!iof_ensure(O, 5)) return IOFFULL; c1 = *s++; c2 = *s++; c3 = *s; code = ((c1<<24)|(c2<<16)|(c3<<8))/85; put_nl(O, line, maxline, 4); base85_encode_tail3(O, code); break; } return IOFEOF; } iof_status base85_encode (iof *I, iof *O) { register int c1, c2, c3, c4; register unsigned int code; while(iof_ensure(O, 5)) { if ((c1 = iof_get(I)) < 0) return IOFEOF; if ((c2 = iof_get(I)) < 0) { code = (c1<<24)/85/85/85; base85_encode_tail1(O, code); return IOFEOF; } if ((c3 = iof_get(I)) < 0) { code = ((c1<<24)|(c2<<16))/85/85; base85_encode_tail2(O, code); return IOFEOF; } if ((c4 = iof_get(I)) < 0) { code = ((c1<<24)|(c2<<16)|(c3<<8))/85; base85_encode_tail3(O, code); return IOFEOF; } code = (c1<<24)|(c2<<16)|(c3<<8)|c4; if (code == 0) { iof_set(O, 'z'); continue; } /* in btoa 'y' character stays for 0x20202020, but pdf does not support this */ /* if (code == 0x20202020) { iof_set(O, 'y'); continue; } */ base85_encode_word(O, code); } return IOFFULL; } iof_status base85_encode_state (iof *I, iof *O, basexx_state *state) { register int c1, c2, c3, c4; register unsigned int code; if (!(iof_ensure(O, 5))) return IOFFULL; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; case 2: get_tail2(state, c1, c2); goto byte2; case 3: get_tail3(state, c1, c2, c3); goto byte3; } while(iof_ensure(O, 5)) { byte0: if ((c1 = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); byte1: if ((c2 = iof_get(I)) < 0) { set_tail1(state, c1); if (state->flush) { code = (c1<<24)/85/85/85; base85_encode_tail1(O, code); return IOFEOF; } return IOFEMPTY; } byte2: if ((c3 = iof_get(I)) < 0) { set_tail2(state, c1, c2); if (state->flush) { code = ((c1<<24)|(c2<<16))/85/85; base85_encode_tail2(O, code); return IOFEOF; } return IOFEMPTY; } byte3: if ((c4 = iof_get(I)) < 0) { set_tail3(state, c1, c2, c3); if (state->flush) { code = ((c1<<24)|(c2<<16)|(c3<<8))/85; base85_encode_tail3(O, code); return IOFEOF; } return IOFEMPTY; } code = (c1<<24)|(c2<<16)|(c3<<8)|c4; if (code == 0) { iof_set(O, 'z'); continue; } base85_encode_word(O, code); } return IOFFULL; } iof_status base85_encode_ln (iof *I, iof *O, size_t line, size_t maxline) { register int c1, c2, c3, c4; register unsigned int code; while(iof_ensure(O, 6)) { if ((c1 = iof_get(I)) < 0) return IOFEOF; if ((c2 = iof_get(I)) < 0) { code = (c1<<24)/85/85/85; put_nl(O, line, maxline, 2); base85_encode_tail1(O, code); return IOFEOF; } if ((c3 = iof_get(I)) < 0) { code = ((c1<<24)|(c2<<16))/85/85; put_nl(O, line, maxline, 3); base85_encode_tail2(O, code); return IOFEOF; } if ((c4 = iof_get(I)) < 0) { code = ((c1<<24)|(c2<<16)|(c3<<8))/85; put_nl(O, line, maxline, 4); base85_encode_tail3(O, code); return IOFEOF; } code = (c1<<24)|(c2<<16)|(c3<<8)|c4; if (code == 0) { put_nl(O, line, maxline, 1); iof_set(O, 'z'); continue; } put_nl(O, line, maxline, 5); base85_encode_word(O, code); } return IOFFULL; } iof_status base85_encode_state_ln (iof *I, iof *O, basexx_state *state) { register int c1, c2, c3, c4; register unsigned int code; if (!(iof_ensure(O, 6))) return IOFFULL; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; case 2: get_tail2(state, c1, c2); goto byte2; case 3: get_tail3(state, c1, c2, c3); goto byte3; } while(iof_ensure(O, 6)) { byte0: if ((c1 = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); byte1: if ((c2 = iof_get(I)) < 0) { set_tail1(state, c1); if (state->flush) { code = (c1<<24)/85/85/85; put_nl(O, state->line, state->maxline, 2); base85_encode_tail1(O, code); return IOFEOF; } return IOFEMPTY; } byte2: if ((c3 = iof_get(I)) < 0) { set_tail2(state, c1, c2); if (state->flush) { code = ((c1<<24)|(c2<<16))/85/85; put_nl(O, state->line, state->maxline, 3); base85_encode_tail2(O, code); return IOFEOF; } return IOFEMPTY; } byte3: if ((c4 = iof_get(I)) < 0) { set_tail3(state, c1, c2, c3); if (state->flush) { code = ((c1<<24)|(c2<<16)|(c3<<8))/85; put_nl(O, state->line, state->maxline, 4); base85_encode_tail3(O, code); return IOFEOF; } return IOFEMPTY; } code = (c1<<24)|(c2<<16)|(c3<<8)|c4; if (code == 0) { put_nl(O, state->line, state->maxline, 1); iof_set(O, 'z'); continue; } put_nl(O, state->line, state->maxline, 5); base85_encode_word(O, code); } return IOFFULL; } #define base85_code(c1, c2, c3, c4, c5) ((((c1*85+c2)*85+c3)*85+c4)*85+c5) iof_status base85_decode (iof *I, iof *O) { register int c1, c2, c3, c4, c5; register unsigned int code; while (iof_ensure(O, 4)) { do { c1 = iof_get(I); } while (ignored(c1)); if (base85_eof(c1)) return IOFEOF; switch (c1) { case 'z': iof_set4(O, '\0', '\0', '\0', '\0'); continue; case 'y': iof_set4(O, ' ', ' ', ' ', ' '); continue; } do { c2 = iof_get(I); } while (ignored(c2)); if (base85_eof(c2)) return IOFERR; do { c3 = iof_get(I); } while (ignored(c3)); if (base85_eof(c3)) { if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1) return IOFERR; code = base85_code(c1, c2, 84, 84, 84); /* padding with 'u' (117); 117-33 = 84 */ iof_set(O, code>>24); return IOFEOF; } do { c4 = iof_get(I); } while (ignored(c4)); if (base85_eof(c4)) { if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1 || (c3 = base85_lookup[c3]) == -1) return IOFERR; code = base85_code(c1, c2, c3, 84, 84); iof_set2(O, code>>24, (code>>16)&255); return IOFEOF; } do { c5 = iof_get(I); } while (ignored(c5)); if (base85_eof(c5)) { if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1 || (c3 = base85_lookup[c3]) == -1 || (c4 = base85_lookup[c4]) == -1) return IOFERR; code = base85_code(c1, c2, c3, c4, 84); iof_set3(O, code>>24, (code>>16)&255, (code>>8)&255); return IOFEOF; } if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1 || (c3 = base85_lookup[c3]) == -1 || (c4 = base85_lookup[c4]) == -1 || (c5 = base85_lookup[c5]) == -1) return IOFERR; code = base85_code(c1, c2, c3, c4, c5); iof_set4(O, code>>24, (code>>16)&255, (code>>8)&255, code&255); } return IOFFULL; } iof_status base85_decode_state (iof *I, iof *O, basexx_state *state) { register int c1, c2, c3, c4, c5; register int d1, d2, d3, d4, d5; register unsigned int code; if (!(iof_ensure(O, 4))) return IOFFULL; switch(state->left) { case 0: goto byte0; case 1: get_tail1(state, c1); goto byte1; case 2: get_tail2(state, c1, c2); goto byte2; case 3: get_tail3(state, c1, c2, c3); goto byte3; case 4: get_tail4(state, c1, c2, c3, c4); goto byte4; } while (iof_ensure(O, 4)) { byte0: do { c1 = iof_get(I); } while (ignored(c1)); if (base85_eof(c1)) return (state->flush ? IOFEOF : IOFEMPTY); switch (c1) { case 'z': iof_set4(O, '\0', '\0', '\0', '\0'); continue; case 'y': iof_set4(O, ' ', ' ', ' ', ' '); continue; } byte1: do { c2 = iof_get(I); } while (ignored(c2)); if (base85_eof(c2)) { set_tail1(state, c1); return (state->flush ? IOFERR : IOFEMPTY); /* if state->flush then error; tail must have at least two bytes */ } byte2: do { c3 = iof_get(I); } while (ignored(c3)); if (base85_eof(c3)) { set_tail2(state, c1, c2); if (state->flush) { if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1) return IOFERR; code = base85_code(c1, c2, 84, 84, 84); iof_set(O, code>>24); return IOFEOF; } return IOFEMPTY; } byte3: do { c4 = iof_get(I); } while (ignored(c4)); if (base85_eof(c4)) { set_tail3(state, c1, c2, c3); if (state->flush) { if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1 || (c3 = base85_lookup[c3]) == -1) return IOFERR; code = base85_code(c1, c2, c3, 84, 84); iof_set2(O, code>>24, (code>>16)&255); return IOFEOF; } return IOFEMPTY; } byte4: do { c5 = iof_get(I); } while (ignored(c5)); if (base85_eof(c5)) { set_tail4(state, c1, c2, c3, c4); if (state->flush) { if ((c1 = base85_lookup[c1]) == -1 || (c2 = base85_lookup[c2]) == -1 || (c3 = base85_lookup[c3]) == -1 || (c4 = base85_lookup[c4]) == -1) return IOFERR; code = base85_code(c1, c2, c3, c4, 84); iof_set3(O, code>>24, (code>>16)&255, (code>>8)&255); return IOFEOF; } return IOFEMPTY; } if ((d1 = base85_lookup[c1]) == -1 || (d2 = base85_lookup[c2]) == -1 || (d3 = base85_lookup[c3]) == -1 || (d4 = base85_lookup[c4]) == -1 || (d5 = base85_lookup[c5]) == -1) { set_tail5(state, c1, c2, c3, c4, c5); return IOFERR; } code = base85_code(d1, d2, d3, d4, d5); iof_set4(O, code>>24, (code>>16)&255, (code>>8)&255, code&255); } return IOFFULL; } /* postscript run length */ void runlength_state_init (runlength_state *state) { state->run = -1; state->flush = 0; state->c1 = 0; state->c2 = 0; state->pos = NULL; } iof_status runlength_encode (iof *I, iof *O) { register int c1, c2, run = -1; uint8_t *pos; c1 = 0; /* avoid warning */ while (iof_ensure(O, 1+128+1)) { /* ensured space for single length byte, up to 128 bytes to be copied, possible eod marker */ pos = O->pos++; switch (run) { case -1: /* initial state; get first byte */ if ((c1 = iof_get(I)) < 0) return (*pos = 128, IOFEOF); run = 0; // fall through case 0: /* `repeat' state; get another byte and compare */ if ((c2 = iof_get(I)) < 0) return (*pos = 0, iof_set2(O, c1, 128), IOFEOF); run = (c1 == c2 ? 257-2 : 0); break; } if (run < 128) { /* single length byte, up to 128 bytes to be copied, possible eod marker */ iof_set(O, c1); for (c1 = c2, c2 = iof_char(I); c1 != c2 && run < 127; c1 = c2, c2 = iof_next(I)) { if (c2 < 0) /* O->pos must not change until next call to calling encoder!!! */ return (*pos = (uint8_t)run+1, iof_set2(O, c1, 128), IOFEOF); iof_set(O, c1); ++run; } } else // if run > 128 { for (c2 = iof_get(I); c1 == c2 && run > 129; c2 = iof_get(I)) --run; if (c2 < 0) return (*pos = (uint8_t)run, iof_set2(O, c1, 128), IOFEOF); iof_set(O, c1); } *pos = (uint8_t)run; c1 = c2; run = 0; } return IOFFULL; } iof_status runlength_encode_state (iof *I, iof *O, runlength_state *state) { while (iof_ensure(O, 3)) /* single length byte, the byte to be repeated and eod */ { state->pos = O->pos++; switch (state->run) { case -1: /* initial state; get first byte */ if ((state->c1 = iof_get(I)) < 0) return (state->flush ? (*state->pos = 128, IOFEOF) : IOFEMPTY); state->run = 0; // fall through case 0: /* `repeat' state; get another byte and compare */ if ((state->c2 = iof_get(I)) < 0) return (state->flush ? (*state->pos = 0, iof_set2(O, state->c1, 128), IOFEOF) : IOFEMPTY); state->run = (state->c1 == state->c2 ? 257-2 : 0); break; } if (state->run < 128) { /* ensure space for single length byte, up to 128 bytes to be copied, plus possible eod marker, minus those already copied */ if (!iof_ensure(O, 1+128+1-state->run)) return IOFFULL; iof_set(O, state->c1); for (state->c1 = state->c2, state->c2 = iof_char(I); state->c1 != state->c2 && state->run < 127; state->c1 = state->c2, state->c2 = iof_next(I)) { if (state->c2 < 0) /* O->pos must not change until next call to calling encoder!!! */ return (state->flush ? (*state->pos = (uint8_t)state->run+1, iof_set2(O, state->c1, 128), IOFEOF) : IOFEMPTY); iof_set(O, state->c1); ++state->run; } } else // if run > 128 { for (state->c2 = iof_get(I); state->c1 == state->c2 && state->run > 129; state->c2 = iof_get(I)) --state->run; if (state->c2 < 0) return (state->flush ? (*state->pos = (uint8_t)state->run, iof_set2(O, state->c1, 128), IOFEOF) : IOFEMPTY); iof_set(O, state->c1); } *state->pos = (uint8_t)state->run; state->c1 = state->c2; state->run = 0; } return IOFFULL; } iof_status runlength_decode (iof *I, iof *O) { register int c, run = -1; while (1) { if (run == -1) /* initial state */ { if ((run = iof_get(I)) < 0) { run = -1; /* don't assume IOFEOF == -1 */ return IOFEOF; } } if (run < 128) { /* copy (run + 1) following bytes */ while (run > -1) { if (iof_ensure(O, 1)) { if ((c = iof_get(I)) < 0) return IOFERR; iof_set(O, c); --run; continue; } return IOFFULL; } } else if (run > 128) { /* replicate the following byte (257 - run) times */ if ((c = iof_get(I)) < 0) /* cf. state-wise version; don't change input position until we got this byte */ return IOFERR; while (run < 257) { if (iof_ensure(O, 1)) { iof_set(O, c); ++run; continue; } return IOFFULL; } run = -1; } else // c == 128 return IOFEOF; } // return IOFFULL; } iof_status runlength_decode_state (iof *I, iof *O, runlength_state *state) { register int c; while (1) { if (state->run == -1) /* initial state */ { if ((state->run = iof_char(I)) < 0) { state->run = -1; /* don't assume IOFEOF == -1 */ return (state->flush ? IOFEOF : IOFEMPTY); } ++I->pos; } if (state->run < 128) { /* copy (state->run + 1) following bytes */ while (state->run > -1) { if (iof_ensure(O, 1)) { if ((c = iof_char(I)) < 0) return (state->flush ? IOFERR : IOFEMPTY); ++I->pos; iof_set(O, c); --state->run; continue; } return IOFFULL; } } else if (state->run > 128) { /* replicate the following byte (257 - state->run) times */ if ((c = iof_char(I)) < 0) return (state->flush ? IOFERR : IOFEMPTY); ++I->pos; while (state->run < 257) { if (iof_ensure(O, 1)) { iof_set(O, c); ++state->run; continue; } return IOFFULL; } state->run = -1; } else // c == 128 return IOFEOF; } // return IOFFULL; } /* eexec stream filter, type1 fonts spec page 63 */ void eexec_state_init_ln (eexec_state *state, size_t line, size_t maxline, const char *initbytes) { state->key = -1; state->flush = 0; state->binary = maxline > 0; state->c1 = -1; state->line = line; state->maxline = maxline; state->initbytes = initbytes; } #define eexec_getc(I, c1) if ((c1 = iof_get(I)) < 0) return c1 #define eexec_key(key, c1) (key = ((((c1) + key)*52845 + 22719) & 65535)) #define eexec_decipher(key, c1, c) (c = ((c1)^(key>>8)), eexec_key(key, c1)) #define eexec_encipher(key, c1, c) (c = ((c1)^(key>>8)), eexec_key(key, c)) #ifndef lps_ignored_char # define lps_ignored_char(c) (c == 0x20 || c == 0x0A || c == 0x0C || c == 0x0D || c == 0x09 || c == 0x00) #endif #define eexec_getx_(I, c) \ do { c = iof_get(I); } while (lps_ignored_char(c)); \ if (c < 0) return IOFEOF; \ if ((c = base16_lookup[c]) < 0) return IOFERR #define eexec_getx(I, c1, c2) eexec_getx_(I, c1); \ do { c2 = iof_get(I); } while (lps_ignored_char(c2)); \ if (c2 < 0) c2 = 0; else \ if ((c2 = base16_lookup[c2]) < 0) return IOFERR static int eexec_decode_init (iof *I, int *key, int *binary) { int c1, c2, c3, c4; *key = 55665; eexec_getc(I, c1); eexec_getc(I, c2); eexec_getc(I, c3); eexec_getc(I, c4); /* four head bytes */ /* eexec data has no explicit data termination. The caller of eexec_decode() should ensure that either the input iof allows to read no more then necessary, or the output has no more space then 512 bytes, to land safely somewhere in 512 bytes that probably follows eexec */ *binary = (base16_lookup[c1] < 0 || base16_lookup[c2] < 0 || base16_lookup[c3] < 0 || base16_lookup[c4] < 0); if (*binary) { /* gobble 4 random bytes keeping decipher key up-to-date */ eexec_key(*key, c1); eexec_key(*key, c2); eexec_key(*key, c3); eexec_key(*key, c4); } else /* pfa/postscript only, pdf requires binary eexec form */ { /* gobble 4 random bytes (8 hex digits) keeping decipher key up-to-date */ c1 = base16_lookup[c1], c2 = base16_lookup[c2], c3 = base16_lookup[c3], c4 = base16_lookup[c4]; eexec_key(*key, (c1<<4)|c2); eexec_key(*key, (c3<<4)|c4); /* dummy bytes 1, 2 */ eexec_getx(I, c1, c2); eexec_getx(I, c3, c4); eexec_key(*key, (c1<<4)|c2); eexec_key(*key, (c3<<4)|c4); /* dummy bytes 3, 4 */ } return 0; } iof_status eexec_decode (iof *I, iof *O) { int c, c1, c2, key, binary, status; if ((status = eexec_decode_init(I, &key, &binary)) < 0) return status; if (binary) { while (iof_ensure(O, 1)) { eexec_getc(I, c1); eexec_decipher(key, c1, c); iof_set(O, c); } } else { while (iof_ensure(O, 1)) { eexec_getx(I, c1, c2); eexec_decipher(key, (c1<<4)|c2, c); iof_set(O, c); } } return IOFFULL; } iof_status eexec_decode_state (iof *I, iof *O, eexec_state *state) { register int c, c1, c2, status; if (state->key == -1) /* initial state */ if ((status = eexec_decode_init(I, &state->key, &state->binary)) < 0) return status; if (state->binary) { while (iof_ensure(O, 1)) { if ((c1 = iof_get(I)) < 0) return (state->flush ? IOFEOF : IOFEMPTY); else if (c1 < 0) return c1; eexec_decipher(state->key, c1, c); iof_set(O, c); } } else { if (state->c1 > -1) { c1 = state->c1; state->c1 = -1; goto byte2; } while (iof_ensure(O, 1)) { eexec_getx_(I, c1); byte2: do { c2 = iof_get(I); } while (lps_ignored_char(c2)); if (c2 < 0) // odd number of hex bytes? hmm... assume c2 is zero { if (state->flush) { eexec_decipher(state->key, (c1<<4), c); iof_set(O, c); return IOFEOF; } state->c1 = c1; return IOFEMPTY; } else if (c2 < 0) return c2; if ((c2 = base16_lookup[c2]) < 0) return IOFERR; eexec_decipher(state->key, (c1<<4)|c2, c); iof_set(O, c); } } return IOFFULL; } #define EEXEC_INIT_BYTES "" iof_status eexec_encode (iof *I, iof *O, size_t line, size_t maxline) { int c1, c, key; const char *p; key = 55665; p = EEXEC_INIT_BYTES; if (maxline == 0) { if (!iof_ensure(O, 4)) return IOFFULL; eexec_encipher(key, p[0], c); iof_set(O, c); eexec_encipher(key, p[1], c); iof_set(O, c); eexec_encipher(key, p[2], c); iof_set(O, c); eexec_encipher(key, p[3], c); iof_set(O, c); while (iof_ensure(O, 1)) { eexec_getc(I, c1); eexec_encipher(key, c1, c); iof_set(O, c); } } else { if (!iof_ensure(O, 8 + 1)) return IOFFULL; eexec_encipher(key, p[0], c); put_nl(O, line, maxline, 2); iof_set_uc_hex(O, c); eexec_encipher(key, p[1], c); put_nl(O, line, maxline, 2); iof_set_uc_hex(O, c); eexec_encipher(key, p[2], c); put_nl(O, line, maxline, 2); iof_set_uc_hex(O, c); eexec_encipher(key, p[3], c); put_nl(O, line, maxline, 2); iof_set_uc_hex(O, c); while (iof_ensure(O, 2 + 1)) { eexec_getc(I, c1); eexec_encipher(key, c1, c); put_nl(O, line, maxline, 2); iof_set_uc_hex(O, c); } } return IOFFULL; } iof_status eexec_encode_state (iof *I, iof *O, eexec_state *state) { int c, c1; const char *p; if (state->key == -1) { p = state->initbytes != NULL ? state->initbytes : EEXEC_INIT_BYTES; if (state->binary) { if (!iof_ensure(O, 4)) return IOFFULL; state->key = 55665; eexec_encipher(state->key, p[0], c); iof_set(O, c); eexec_encipher(state->key, p[1], c); iof_set(O, c); eexec_encipher(state->key, p[2], c); iof_set(O, c); eexec_encipher(state->key, p[3], c); iof_set(O, c); } else { if (!iof_ensure(O, 8 + 1)) return IOFFULL; state->key = 55665; eexec_encipher(state->key, p[0], c); put_nl(O, state->line, state->maxline, 2); iof_set_uc_hex(O, c); eexec_encipher(state->key, p[1], c); put_nl(O, state->line, state->maxline, 2); iof_set_uc_hex(O, c); eexec_encipher(state->key, p[2], c); put_nl(O, state->line, state->maxline, 2); iof_set_uc_hex(O, c); eexec_encipher(state->key, p[3], c); put_nl(O, state->line, state->maxline, 2); iof_set_uc_hex(O, c); } } if (state->binary) { while (iof_ensure(O, 1)) { if ((c1 = iof_get(I)) < 0) return c1 < 0 ? (state->flush ? IOFEOF : IOFEMPTY) : c1; eexec_encipher(state->key, c1, c); iof_set(O, c); } } else { while (iof_ensure(O, 2 + 1)) { if ((c1 = iof_get(I)) < 0) return c1 < 0 ? (state->flush ? IOFEOF : IOFEMPTY) : c1; eexec_encipher(state->key, c1, c); put_nl(O, state->line, state->maxline, 2); iof_set_uc_hex(O, c); } } return IOFFULL; } /* Type1 charstrings are encoded/decoded in the same way, except that: - initial key is 4330 - initbytes might be other then 4; /lenIV key in Private dict Type1 spec page 63. In practise we don't need iof interface here, we always apply the codec in place. */ #define type1chstr_key(key, c1) (key = ((((c1) + key)*52845 + 22719) & 65535)) #define type1chstr_decipher(key, c1, c) (c = ((c1)^(key>>8)), type1chstr_key(key, c1)) #define type1chstr_encipher(key, c1, c) (c = ((c1)^(key>>8)), type1chstr_key(key, c)) int type1_charstring_decode (void *data, size_t size, void *outdata, uint8_t leniv) { /* data and outdata may be the same, output size is always size - leniv */ uint8_t *input = (uint8_t *)data, *output = (uint8_t *)outdata; size_t i; int c, c1, key; if (size < 4) return 0; key = 4330; for (i = 0; i < leniv; ++i) { c1 = input[i]; type1chstr_key(key, c1); } for ( ; i < size; ++i) { c1 = input[i]; type1chstr_decipher(key, c1, c); output[i - leniv] = c; } return 1; } #define TYPE1_CHSTR_INIT_BYTES EEXEC_INIT_BYTES int type1_charstring_encode (void *data, size_t size, void *outdata, uint8_t leniv) { /* outdata may be data - leniv, output size is always size + leniv */ uint8_t *input = (uint8_t *)data, *output = (uint8_t *)outdata; size_t i, j; int c, c1, key; key = 4330; for (i = 0, j = 0; i < leniv; ++i) { c1 = TYPE1_CHSTR_INIT_BYTES[j]; //type1chstr_key(key, c1); type1chstr_encipher(key, c1, c); if (++j == 4) j = 0; output[i] = c; } for (i = 0; i < size; ++i) { c1 = input[i]; type1chstr_encipher(key, c1, c); output[i + leniv] = c; } return 1; } /* filters */ // base16 decoder function static size_t base16_decoder (iof *F, iof_mode mode) { basexx_state *state; iof_status status; size_t tail; switch(mode) { case IOFLOAD: case IOFREAD: if (F->flags & IOF_STOPPED) return 0; tail = iof_tail(F); F->pos = F->buf + tail; F->end = F->buf + F->space; state = iof_filter_state(basexx_state *, F); do { status = base16_decode_state(F->next, F, state); } while (mode == IOFLOAD && status == IOFFULL && iof_resize_buffer(F)); return iof_decoder_retval(F, "base16", status); case IOFCLOSE: iof_free(F); return 0; default: break; } return 0; } // base16 encoder function static size_t base16_encoder (iof *F, iof_mode mode) { basexx_state *state; iof_status status; state = iof_filter_state(basexx_state *, F); switch (mode) { case IOFFLUSH: state->flush = 1; // fall through case IOFWRITE: F->end = F->pos; F->pos = F->buf; status = base16_encode_state_ln(F, F->next, state); return iof_encoder_retval(F, "base16", status); case IOFCLOSE: if (!state->flush) base16_encoder(F, IOFFLUSH); iof_free(F); return 0; default: break; } return 0; } // base64 decoder function static size_t base64_decoder (iof *F, iof_mode mode) { basexx_state *state; iof_status status; size_t tail; switch(mode) { case IOFLOAD: case IOFREAD: if (F->flags & IOF_STOPPED) return 0; tail = iof_tail(F); F->pos = F->buf + tail; F->end = F->buf + F->space; state = iof_filter_state(basexx_state *, F); do { status = base64_decode_state(F->next, F, state); } while (mode == IOFLOAD && status == IOFFULL && iof_resize_buffer(F)); return iof_decoder_retval(F, "base64", status); case IOFCLOSE: iof_free(F); return 0; default: break; } return 0; } // base64 encoder function static size_t base64_encoder (iof *F, iof_mode mode) { basexx_state *state; iof_status status; state = iof_filter_state(basexx_state *, F); switch (mode) { case IOFFLUSH: state->flush = 1; // fall through case IOFWRITE: F->end = F->pos; F->pos = F->buf; status = base64_encode_state_ln(F, F->next, state); return iof_encoder_retval(F, "base64", status); case IOFCLOSE: if (!state->flush) base64_encoder(F, IOFFLUSH); iof_free(F); return 0; default: break; } return 0; } // base85 decoder function static size_t base85_decoder (iof *F, iof_mode mode) { basexx_state *state; iof_status status; size_t tail; switch(mode) { case IOFLOAD: case IOFREAD: if (F->flags & IOF_STOPPED) return 0; tail = iof_tail(F); F->pos = F->buf + tail; F->end = F->buf + F->space; state = iof_filter_state(basexx_state *, F); do { status = base85_decode_state(F->next, F, state); } while (mode == IOFLOAD && status == IOFFULL && iof_resize_buffer(F)); return iof_decoder_retval(F, "base85", status); case IOFCLOSE: iof_free(F); return 0; default: break; } return 0; } // base85 encoder function static size_t base85_encoder (iof *F, iof_mode mode) { basexx_state *state; iof_status status; state = iof_filter_state(basexx_state *, F); switch (mode) { case IOFFLUSH: state->flush = 1; // fall through case IOFWRITE: F->end = F->pos; F->pos = F->buf; status = base85_encode_state_ln(F, F->next, state); return iof_encoder_retval(F, "base85", status); case IOFCLOSE: if (!state->flush) base85_encoder(F, IOFFLUSH); iof_free(F); return 0; default: break; } return 0; } // runlength decoder function static size_t runlength_decoder (iof *F, iof_mode mode) { runlength_state *state; iof_status status; size_t tail; switch(mode) { case IOFLOAD: case IOFREAD: if (F->flags & IOF_STOPPED) return 0; tail = iof_tail(F); F->pos = F->buf + tail; F->end = F->buf + F->space; state = iof_filter_state(runlength_state *, F); do { status = runlength_decode_state(F->next, F, state); } while (mode == IOFLOAD && status == IOFFULL && iof_resize_buffer(F)); return iof_decoder_retval(F, "runlength", status); case IOFCLOSE: iof_free(F); return 0; default: break; } return 0; } // runlength encoder function static size_t runlength_encoder (iof *F, iof_mode mode) { runlength_state *state; iof_status status; state = iof_filter_state(runlength_state *, F); switch (mode) { case IOFFLUSH: state->flush = 1; // fall through case IOFWRITE: F->end = F->pos; F->pos = F->buf; status = runlength_encode_state(F, F->next, state); return iof_encoder_retval(F, "runlength", status); case IOFCLOSE: if (!state->flush) runlength_encoder(F, IOFFLUSH); iof_free(F); return 0; default: break; } return 0; } // eexec decoder function static size_t eexec_decoder (iof *F, iof_mode mode) { eexec_state *state; iof_status status; size_t tail; switch(mode) { case IOFLOAD: case IOFREAD: if (F->flags & IOF_STOPPED) return 0; tail = iof_tail(F); F->pos = F->buf + tail; F->end = F->buf + F->space; state = iof_filter_state(eexec_state *, F); do { status = eexec_decode_state(F->next, F, state); } while (mode == IOFLOAD && status == IOFFULL && iof_resize_buffer(F)); return iof_decoder_retval(F, "eexec", status); case IOFCLOSE: iof_free(F); return 0; default: break; } return 0; } // eexec encoder function static size_t eexec_encoder (iof *F, iof_mode mode) { eexec_state *state; iof_status status; state = iof_filter_state(eexec_state *, F); switch (mode) { case IOFFLUSH: state->flush = 1; // fall through case IOFWRITE: F->end = F->pos; F->pos = F->buf; status = eexec_encode_state(F, F->next, state); return iof_encoder_retval(F, "eexec", status); case IOFCLOSE: if (!state->flush) eexec_encoder(F, IOFFLUSH); iof_free(F); return 0; default: break; } return 0; } // int iof_filter_basexx_encoder_ln (iof *F, size_t line, size_t maxline) { basexx_state *state; if (maxline > 8 && line < maxline) { state = iof_filter_state(basexx_state *, F); state->line = line; state->maxline = maxline; return 1; } return 0; } /* base 16 */ iof * iof_filter_base16_decoder (iof *N) { iof *I; basexx_state *state; I = iof_filter_reader(base16_decoder, sizeof(basexx_state), &state); iof_setup_next(I, N); basexx_state_init(state); state->flush = 1; // means N is supposed to be continuous input return I; } iof * iof_filter_base16_encoder (iof *N) { iof *O; basexx_state *state; O = iof_filter_writer(base16_encoder, sizeof(basexx_state), &state); iof_setup_next(O, N); basexx_state_init(state); return O; } /* base 64 */ iof * iof_filter_base64_decoder (iof *N) { iof *I; basexx_state *state; I = iof_filter_reader(base64_decoder, sizeof(basexx_state), &state); iof_setup_next(I, N); basexx_state_init(state); state->flush = 1; return I; } iof * iof_filter_base64_encoder (iof *N) { iof *O; basexx_state *state; O = iof_filter_writer(base64_encoder, sizeof(basexx_state), &state); iof_setup_next(O, N); basexx_state_init(state); return O; } /* base 85 */ iof * iof_filter_base85_decoder (iof *N) { iof *I; basexx_state *state; I = iof_filter_reader(base85_decoder, sizeof(basexx_state), &state); iof_setup_next(I, N); basexx_state_init(state); state->flush = 1; return I; } iof * iof_filter_base85_encoder (iof *N) { iof *O; basexx_state *state; O = iof_filter_writer(base85_encoder, sizeof(basexx_state), &state); iof_setup_next(O, N); basexx_state_init(state); return O; } /* runlength stream filter */ iof * iof_filter_runlength_decoder (iof *N) { iof *I; runlength_state *state; I = iof_filter_reader(runlength_decoder, sizeof(runlength_state), &state); iof_setup_next(I, N); runlength_state_init(state); state->flush = 1; return I; } iof * iof_filter_runlength_encoder (iof *N) { iof *O; runlength_state *state; O = iof_filter_writer(runlength_encoder, sizeof(runlength_state), &state); iof_setup_next(O, N); runlength_state_init(state); return O; } /* eexec stream filter, type1 fonts spec p. 63 */ iof * iof_filter_eexec_decoder (iof *N) { iof *I; eexec_state *state; I = iof_filter_reader(eexec_decoder, sizeof(eexec_state), &state); iof_setup_next(I, N); eexec_state_init(state); state->flush = 1; return I; } iof * iof_filter_eexec_encoder (iof *N) { iof *O; eexec_state *state; O = iof_filter_writer(eexec_encoder, sizeof(eexec_state), &state); iof_setup_next(O, N); eexec_state_init(state); return O; }