// // PDF token parsing functions for PDFio. // // Copyright © 2021-2023 by Michael R Sweet. // // Licensed under Apache License v2.0. See the file "LICENSE" for more // information. // #include "pdfio-private.h" // // This file parses PDF language syntax: // // << dict >> "<<" and ">>" delimit a dictionary // (string) "(" and ")" delimit a string // [array] "[" and "]" delimit an array // "<" and ">" delimit a hex string // {...} "{" and "}" are reserved as future delimiters // /name "/" starts a name with any special characters // quoted as "#HH" where HH is the byte value in hex. // %comment "%" starts a comment to the end of a line // keyword A keyword consists of other unreserved characters // [-+]?[0-9]*(.[0-9]*)? A number optionally starts with "+" or "-". // // Newlines are CR, LF, or CR LF. // // Strings and names are returned with the leading delimiter ("(string", // "(){}[]/%" // // Local functions... // static int get_char(_pdfio_token_t *tb); // // '_pdfioTokenClear()' - Clear the token stack. // void _pdfioTokenClear(_pdfio_token_t *tb) // I - Token buffer/stack { PDFIO_DEBUG("_pdfioTokenClear(tb=%p)\n", tb); while (tb->num_tokens > 0) { tb->num_tokens --; free(tb->tokens[tb->num_tokens]); tb->tokens[tb->num_tokens] = NULL; } } // // '_pdfioTokenFlush()' - Flush (consume) any bytes that have been used. // void _pdfioTokenFlush(_pdfio_token_t *tb) // I - Token buffer/stack { if (tb->bufptr > tb->buffer) { size_t remaining = (size_t)(tb->bufend - tb->bufptr); // Remaining bytes in buffer // Consume what we've used... PDFIO_DEBUG("_pdfioTokenFlush: Consuming %d bytes.\n", (int)(tb->bufptr - tb->buffer)); (tb->consume_cb)(tb->cb_data, (size_t)(tb->bufptr - tb->buffer)); if (remaining > 0) { // Shuffle remaining bytes for next call... memmove(tb->buffer, tb->bufptr, remaining); tb->bufptr = tb->buffer; tb->bufend = tb->buffer + remaining; #ifdef DEBUG unsigned char *ptr; // Pointer into buffer PDFIO_DEBUG("_pdfioTokenFlush: Remainder '"); for (ptr = tb->buffer; ptr < tb->bufend; ptr ++) { if (*ptr < ' ' || *ptr == 0x7f) PDFIO_DEBUG("\\%03o", *ptr); else PDFIO_DEBUG("%c", *ptr); } PDFIO_DEBUG("'\n"); #endif // DEBUG } else { // Nothing left, reset pointers... PDFIO_DEBUG("_pdfioTokenFlush: Resetting pointers.\n"); tb->bufptr = tb->bufend = tb->buffer; } } } // // '_pdfioTokenGet()' - Get a token. // bool // O - `true` on success, `false` on failure _pdfioTokenGet(_pdfio_token_t *tb, // I - Token buffer/stack char *buffer, // I - String buffer size_t bufsize) // I - Size of string buffer { // See if we have a token waiting on the stack... if (tb->num_tokens > 0) { // Yes, return it... size_t len; // Length of token tb->num_tokens --; if ((len = strlen(tb->tokens[tb->num_tokens])) > (bufsize - 1)) { // Value too large... PDFIO_DEBUG("_pdfioTokenGet(tb=%p, buffer=%p, bufsize=%u): Token '%s' from stack too large.\n", tb, buffer, (unsigned)bufsize, tb->tokens[tb->num_tokens]); *buffer = '\0'; return (false); } memcpy(buffer, tb->tokens[tb->num_tokens], len); buffer[len] = '\0'; PDFIO_DEBUG("_pdfioTokenGet(tb=%p, buffer=%p, bufsize=%u): Popping '%s' from stack.\n", tb, buffer, (unsigned)bufsize, buffer); free(tb->tokens[tb->num_tokens]); tb->tokens[tb->num_tokens] = NULL; return (true); } // No, read a new one... return (_pdfioTokenRead(tb, buffer, bufsize)); } // // '_pdfioTokenInit()' - Initialize a token buffer/stack. // void _pdfioTokenInit( _pdfio_token_t *ts, // I - Token buffer/stack pdfio_file_t *pdf, // I - PDF file _pdfio_tconsume_cb_t consume_cb, // I - Consume callback _pdfio_tpeek_cb_t peek_cb, // I - Peek callback void *cb_data) // I - Callback data { // Zero everything out and then initialize key pointers... memset(ts, 0, sizeof(_pdfio_token_t)); ts->pdf = pdf; ts->consume_cb = consume_cb; ts->peek_cb = peek_cb; ts->cb_data = cb_data; ts->bufptr = ts->buffer; ts->bufend = ts->buffer; } // // '_pdfioTokenPush()' - Push a token on the token stack. // void _pdfioTokenPush(_pdfio_token_t *tb, // I - Token buffer/stack const char *token) // I - Token to push { if (tb->num_tokens < (sizeof(tb->tokens) / sizeof(tb->tokens[0]))) { if ((tb->tokens[tb->num_tokens ++] = strdup(token)) == NULL) tb->num_tokens --; } } // // '_pdfioTokenRead()' - Read a token from a file/stream. // bool // O - `true` on success, `false` on failure _pdfioTokenRead(_pdfio_token_t *tb, // I - Token buffer/stack char *buffer, // I - String buffer size_t bufsize) // I - Size of string buffer { int ch, // Character parens = 0; // Parenthesis level char *bufptr, // Pointer into buffer *bufend, // End of buffer state = '\0'; // Current state bool saw_nul = false; // Did we see a nul character? // // "state" is: // // - '\0' for idle // - '(' for literal string // - '/' for name // - '<' for possible hex string or dict // - '>' for possible dict // - '%' for comment // - 'K' for keyword // - 'N' for number // Read the next token, skipping any leading whitespace... bufptr = buffer; bufend = buffer + bufsize - 1; // Skip leading whitespace... while ((ch = get_char(tb)) != EOF) { if (ch == '%') { // Skip comment while ((ch = get_char(tb)) != EOF) { if (ch == '\n' || ch == '\r') break; } } else if (!isspace(ch)) break; } if (ch == EOF) { *bufptr = '\0'; return (false); } // Check for delimiters... if (strchr(PDFIO_DELIM_CHARS, ch) != NULL) { *bufptr++ = state = (char)ch; } else if (strchr(PDFIO_NUMBER_CHARS, ch) != NULL) { // Number state = 'N'; *bufptr++ = (char)ch; } else { // Keyword state = 'K'; *bufptr++ = (char)ch; } switch (state) { case '(' : // Literal string while ((ch = get_char(tb)) != EOF) { if (ch == 0) saw_nul = true; if (ch == '\\') { // Quoted character... int i; // Looping var switch (ch = get_char(tb)) { case '0' : // Octal character escape case '1' : case '2' : case '3' : case '4' : case '5' : case '6' : case '7' : for (ch -= '0', i = 0; i < 2; i ++) { int tch = get_char(tb); // Next char if (tch >= '0' && tch <= '7') { ch = (char)((ch << 3) | (tch - '0')); } else { tb->bufptr --; break; } } break; case '\\' : case '(' : case ')' : break; case 'n' : ch = '\n'; break; case 'r' : ch = '\r'; break; case 't' : ch = '\t'; break; case 'b' : ch = '\b'; break; case 'f' : ch = '\f'; break; default : // Ignore blackslash per PDF spec... break; } } else if (ch == '(') { // Keep track of parenthesis parens ++; } else if (ch == ')') { if (parens == 0) break; parens --; } if (bufptr < bufend) { // Normal character... *bufptr++ = (char)ch; } else { // Out of space _pdfioFileError(tb->pdf, "Token too large."); *bufptr = '\0'; return (false); } } if (ch != ')') { _pdfioFileError(tb->pdf, "Unterminated string literal."); *bufptr = '\0'; return (false); } if (saw_nul) { // Convert to a hex (binary) string... char *litptr, // Pointer to literal character *hexptr; // Pointer to hex character size_t bytes = (size_t)(bufptr - buffer - 1); // Bytes of data... static const char *hexchars = "0123456789ABCDEF"; // Hex digits PDFIO_DEBUG("_pdfioTokenRead: Converting nul-containing string to binary.\n"); if ((2 * (bytes + 1)) > bufsize) { // Out of space... _pdfioFileError(tb->pdf, "Token too large."); *bufptr = '\0'; return (false); } *buffer = '<'; for (litptr = bufptr - 1, hexptr = buffer + 2 * bytes - 1; litptr > buffer; litptr --, hexptr -= 2) { int litch = *litptr; // Grab the character hexptr[0] = hexchars[(litch >> 4) & 15]; hexptr[1] = hexchars[litch & 15]; } bufptr = buffer + 2 * bytes + 1; } break; case 'K' : // keyword while ((ch = get_char(tb)) != EOF && !isspace(ch)) { if (strchr(PDFIO_DELIM_CHARS, ch) != NULL) { // End of keyword... tb->bufptr --; break; } else if (bufptr < bufend) { // Normal character... *bufptr++ = (char)ch; } else { // Out of space... _pdfioFileError(tb->pdf, "Token too large."); *bufptr = '\0'; return (false); } } break; case 'N' : // number while ((ch = get_char(tb)) != EOF && !isspace(ch)) { if (!isdigit(ch) && ch != '.') { // End of number... tb->bufptr --; break; } else if (bufptr < bufend) { // Normal character... *bufptr++ = (char)ch; } else { // Out of space... _pdfioFileError(tb->pdf, "Token too large."); *bufptr = '\0'; return (false); } } break; case '/' : // "/name" while ((ch = get_char(tb)) != EOF && !isspace(ch)) { if (strchr(PDFIO_DELIM_CHARS, ch) != NULL) { // End of keyword... tb->bufptr --; break; } else if (ch == '#') { // Quoted character (#xx) in name... int i; // Looping var for (i = 0, ch = 0; i < 2; i ++) { int tch = get_char(tb); if (!isxdigit(tch & 255)) { _pdfioFileError(tb->pdf, "Bad # escape in name."); *bufptr = '\0'; return (false); } else if (isdigit(tch)) { ch = ((ch & 255) << 4) | (tch - '0'); } else { ch = ((ch & 255) << 4) | (tolower(tch) - 'a' + 10); } } } if (bufptr < bufend) { *bufptr++ = (char)ch; } else { // Out of space _pdfioFileError(tb->pdf, "Token too large."); *bufptr = '\0'; return (false); } } break; case '<' : // Potential hex string if ((ch = get_char(tb)) == '<') { // Dictionary delimiter *bufptr++ = (char)ch; break; } else if (ch == '>') { // Issue #46: Empty hex string from Microsoft PDF generator; treat as // empty literal string... *buffer = '('; break; } else if (!isspace(ch & 255) && !isxdigit(ch & 255)) { _pdfioFileError(tb->pdf, "Syntax error: '<%c'", ch); *bufptr = '\0'; return (false); } do { if (isxdigit(ch)) { if (bufptr < bufend) { // Hex digit *bufptr++ = (char)ch; } else { // Too large _pdfioFileError(tb->pdf, "Token too large."); *bufptr = '\0'; return (false); } } else if (!isspace(ch)) { _pdfioFileError(tb->pdf, "Invalid hex string character '%c'.", ch); *bufptr = '\0'; return (false); } } while ((ch = get_char(tb)) != EOF && ch != '>'); if (ch == EOF) { _pdfioFileError(tb->pdf, "Unterminated hex string."); *bufptr = '\0'; return (false); } break; case '>' : // Dictionary if ((ch = get_char(tb)) == '>') { *bufptr++ = '>'; } else { _pdfioFileError(tb->pdf, "Syntax error: '>%c'.", ch); *bufptr = '\0'; return (false); } break; } *bufptr = '\0'; // PDFIO_DEBUG("_pdfioTokenRead: Read '%s'.\n", buffer); return (bufptr > buffer); } // // 'get_char()' - Get a character from the token buffer. // static int // O - Character or `EOF` on end-of-file get_char(_pdfio_token_t *tb) // I - Token buffer { ssize_t bytes; // Bytes peeked // Refill the buffer as needed... if (tb->bufptr >= tb->bufend) { // Consume previous bytes... if (tb->bufend > tb->buffer) { PDFIO_DEBUG("get_char: Consuming %d bytes.\n", (int)(tb->bufend - tb->buffer)); (tb->consume_cb)(tb->cb_data, (size_t)(tb->bufend - tb->buffer)); } // Peek new bytes... if ((bytes = (tb->peek_cb)(tb->cb_data, tb->buffer, sizeof(tb->buffer))) <= 0) { tb->bufptr = tb->bufend = tb->buffer; return (EOF); } // Update pointers... tb->bufptr = tb->buffer; tb->bufend = tb->buffer + bytes; #if 0 #ifdef DEBUG unsigned char *ptr; // Pointer into buffer PDFIO_DEBUG("get_char: Read '"); for (ptr = tb->buffer; ptr < tb->bufend; ptr ++) { if (*ptr < ' ' || *ptr == 0x7f) PDFIO_DEBUG("\\%03o", *ptr); else PDFIO_DEBUG("%c", *ptr); } PDFIO_DEBUG("'\n"); #endif // DEBUG #endif // 0 } // Return the next character... return (*(tb->bufptr)++); }