/* This is dvipdfmx, an eXtended version of dvipdfm by Mark A. Wicks. Copyright (C) 2002-2015 by Jin-Hwan Cho and Shunsaku Hirata, the dvipdfmx project team. Copyright (C) 1998, 1999 by Mark A. Wicks This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #include /* pow() */ #include #include "system.h" #include "mem.h" #include "error.h" #include "numbers.h" #include "mfileio.h" #include "pdfobj.h" #include "pdfdoc.h" #include "pdfdev.h" #include "pdfparse.h" /* PDF */ #ifdef is_space #undef is_space #endif #ifdef is_delim #undef is_delim #endif #define is_space(c) ((c) == ' ' || (c) == '\t' || (c) == '\f' || \ (c) == '\r' || (c) == '\n' || (c) == '\0') #define is_delim(c) ((c) == '(' || (c) == ')' || \ (c) == '/' || \ (c) == '<' || (c) == '>' || \ (c) == '[' || (c) == ']' || \ (c) == '%') #define PDF_TOKEN_END(p,e) ((p) >= (e) || is_space(*(p)) || is_delim(*(p))) #define istokensep(c) (is_space((c)) || is_delim((c))) static struct { int tainted; } parser_state = { 0 }; static int xtoi (char ch); static const char *save = NULL; void dump (const char *start, const char *end) { const char *p = start; #define DUMP_LIMIT 50 MESG("\nCurrent input buffer is -->"); while (p < end && p < start + DUMP_LIMIT) MESG("%c", *(p++)); if (p == start+DUMP_LIMIT) MESG("..."); MESG("<--\n"); } #define SAVE(s,e) do {\ save = (s);\ } while (0) #define DUMP_RESTORE(s,e) do {\ dump(save, end);\ (s) = save;\ } while (0) void skip_line (const char **start, const char *end) { while (*start < end && **start != '\n' && **start != '\r') (*start)++; /* The carriage return (CR; \r; 0x0D) and line feed (LF; \n; 0x0A) * characters, also called newline characters, are treated as * end-of-line (EOL) markers. The combination of a carriage return * followed immediately by a line feed is treated as one EOL marker. */ if (*start < end && **start == '\r') (*start)++; if (*start < end && **start == '\n') (*start)++; } void skip_white (const char **start, const char *end) { /* * The null (NUL; 0x00) character is a white-space character in PDF spec * but isspace(0x00) returns FALSE; on the other hand, the vertical tab * (VT; 0x0B) character is not a white-space character in PDF spec but * isspace(0x0B) returns TRUE. */ while (*start < end && (is_space(**start) || **start == '%')) { if (**start == '%') skip_line(start, end); else (*start)++; } } static char * parsed_string (const char *start, const char *end) { char *result = NULL; int len; len = end - start; if (len > 0) { result = NEW(len + 1, char); memcpy(result, start, len); result[len] = '\0'; } return result; } char * parse_number (const char **start, const char *end) { char *number; const char *p; skip_white(start, end); p = *start; if (p < end && (*p == '+' || *p == '-')) p++; while (p < end && isdigit((unsigned char)*p)) p++; if (p < end && *p == '.') { p++; while (p < end && isdigit((unsigned char)*p)) p++; } number = parsed_string(*start, p); *start = p; return number; } char * parse_unsigned (const char **start, const char *end) { char *number; const char *p; skip_white(start, end); for (p = *start; p < end; p++) { if (!isdigit((unsigned char)*p)) break; } number = parsed_string(*start, p); *start = p; return number; } static char * parse_gen_ident (const char **start, const char *end, const char *valid_chars) { char *ident; const char *p; /* No skip_white(start, end)? */ for (p = *start; p < end; p++) { if (!strchr(valid_chars, *p)) break; } ident = parsed_string(*start, p); *start = p; return ident; } char * parse_ident (const char **start, const char *end) { static const char *valid_chars = "!\"#$&'*+,-.0123456789:;=?@ABCDEFGHIJKLMNOPQRSTUVWXYZ\\^_`abcdefghijklmnopqrstuvwxyz|~"; return parse_gen_ident(start, end, valid_chars); } char * parse_val_ident (const char **start, const char *end) { static const char *valid_chars = "!\"#$&'*+,-./0123456789:;?@ABCDEFGHIJKLMNOPQRSTUVWXYZ\\^_`abcdefghijklmnopqrstuvwxyz|~"; return parse_gen_ident(start, end, valid_chars); } char * parse_opt_ident (const char **start, const char *end) { if (*start < end && **start == '@') { (*start)++; return parse_ident(start, end); } return NULL; } pdf_obj * parse_pdf_number (const char **pp, const char *endptr) { const char *p; double v = 0.0; int nddigits = 0, sign = 1; int has_dot = 0; p = *pp; skip_white(&p, endptr); if (p >= endptr || (!isdigit((unsigned char)p[0]) && p[0] != '.' && p[0] != '+' && p[0] != '-')) { WARN("Could not find a numeric object."); return NULL; } if (p[0] == '-') { if (p + 1 >= endptr) { WARN("Could not find a numeric object."); return NULL; } sign = -1; p++; } else if (p[0] == '+') { if (p + 1 >= endptr) { WARN("Could not find a numeric object."); return NULL; } sign = 1; p++; } while (p < endptr && !istokensep(p[0])) { if (p[0] == '.') { if (has_dot) { /* Two dots */ WARN("Could not find a numeric object."); return NULL; } else { has_dot = 1; } } else if (isdigit((unsigned char)p[0])) { if (has_dot) { v += (p[0] - '0') / pow(10, nddigits + 1); nddigits++; } else { v = v * 10.0 + p[0] - '0'; } } else { WARN("Could not find a numeric object."); return NULL; } p++; } *pp = p; return pdf_new_number(sign * v); } /* * PDF Name: * * PDF-1.2+: Two hexadecimal digits preceded by a number sign. */ static int pn_getc (const char **pp, const char *endptr) { int ch = 0; const char *p; p = *pp; if (p[0] == '#') { if (p + 2 >= endptr) { *pp = endptr; return -1; } if (!isxdigit((unsigned char)p[1]) || !isxdigit((unsigned char)p[2])) { *pp += 3; return -1; } ch = (xtoi(p[1]) << 4); ch += xtoi(p[2]); *pp += 3; } else { ch = p[0]; *pp += 1; } return ch; } #ifndef PDF_NAME_LEN_MAX #define PDF_NAME_LEN_MAX 128 #endif #ifndef PDF_STRING_LEN_MAX #define PDF_STRING_LEN_MAX 65535 #endif #define STRING_BUFFER_SIZE PDF_STRING_LEN_MAX+1 static char sbuf[PDF_STRING_LEN_MAX+1]; pdf_obj * parse_pdf_name (const char **pp, const char *endptr) { char name[PDF_NAME_LEN_MAX+1]; int ch, len = 0; skip_white(pp, endptr); if (*pp >= endptr || **pp != '/') { WARN("Could not find a name object."); return NULL; } (*pp)++; while (*pp < endptr && !istokensep(**pp)) { ch = pn_getc(pp, endptr); if (ch < 0 || ch > 0xff) { WARN("Invalid char in PDF name object. (ignored)"); } else if (ch == 0) { WARN("Null char not allowed in PDF name object. (ignored)"); } else if (len < STRING_BUFFER_SIZE) { if (len == PDF_NAME_LEN_MAX) { WARN("PDF name length too long. (>= %d bytes)", PDF_NAME_LEN_MAX); } name[len++] = ch; } else { WARN("PDF name length too long. (>= %d bytes, truncated)", STRING_BUFFER_SIZE); } } if (len < 1) { WARN("No valid name object found."); return NULL; } name[len] = '\0'; return pdf_new_name(name); } pdf_obj * parse_pdf_boolean (const char **pp, const char *endptr) { skip_white(pp, endptr); if (*pp + 4 <= endptr && !strncmp(*pp, "true", 4)) { if (*pp + 4 == endptr || istokensep(*(*pp + 4))) { *pp += 4; return pdf_new_boolean(1); } } else if (*pp + 5 <= endptr && !strncmp(*pp, "false", 5)) { if (*pp + 5 == endptr || istokensep(*(*pp + 5))) { *pp += 5; return pdf_new_boolean(0); } } WARN("Not a boolean object."); return NULL; } pdf_obj * parse_pdf_null (const char **pp, const char *endptr) { skip_white(pp, endptr); if (*pp + 4 > endptr) { WARN("Not a null object."); return NULL; } else if (*pp + 4 < endptr && !istokensep(*(*pp+4))) { WARN("Not a null object."); return NULL; } else if (!strncmp(*pp, "null", 4)) { *pp += 4; return pdf_new_null(); } WARN("Not a null object."); return NULL; } /* * PDF Literal String */ #ifndef isodigit #define isodigit(c) ((c) >= '0' && (c) <= '7') #endif static int ps_getescc (const char **pp, const char *endptr) { int ch, i; const char *p; p = *pp + 1; /* backslash assumed. */ switch (p[0]) { case 'n': ch = '\n'; p++; break; case 'r': ch = '\r'; p++; break; case 't': ch = '\t'; p++; break; case 'b': ch = '\b'; p++; break; case 'f': ch = '\f'; p++; break; /* * An end-of-line marker preceded by a backslash must be ignored. */ case '\n': ch = -1; p++; break; case '\r': ch = -1; p++; if (p < endptr && p[0] == '\n') p++; break; default: if (p[0] == '\\' || p[0] == '(' || p[0] == ')') { ch = p[0]; p++; } else if (isodigit(p[0])) { ch = 0; /* Don't forget isodigit() is a macro. */ for (i = 0; i < 3 && p < endptr && isodigit(p[0]); i++) { ch = (ch << 3) + (p[0] - '0'); p++; } ch = (ch & 0xff); /* Ignore overflow. */ } else { ch = ((unsigned char) p[0]); /* Ignore only backslash. */ p++; } } *pp = p; return ch; } static pdf_obj * parse_pdf_literal_string (const char **pp, const char *endptr) { int ch, op_count = 0, len = 0; const char *p; p = *pp; skip_white(&p, endptr); if (p >= endptr || p[0] != '(') return NULL; p++; /* The carriage return (CR, 0x0d) and line feed (LF, 0x0a) characters, * also called newline characters, are treated as end-of-line (EOL) * markers. The combination of a carriage return followed immediately * by a line feed is treated as one EOL marker. * [PDF Reference, 6th ed., version 1.7, p. 50] */ /* If an end-of-line marker appears within a literal string * without a preceding backslash, the result is equivalent to * \n (regardless of whether the end-of-line marker was * a carriage return, a line feed, or both). * [PDF Reference, 6th ed., version 1.7, p. 55] */ while (p < endptr) { ch = p[0]; if (ch == ')' && op_count < 1) break; #ifndef PDF_PARSE_STRICT if (parser_state.tainted) { if (p + 1 < endptr && (ch & 0x80)) { if (len + 2 >= PDF_STRING_LEN_MAX) { WARN("PDF string length too long. (limit: %ld)", PDF_STRING_LEN_MAX); return NULL; } sbuf[len++] = p[0]; sbuf[len++] = p[1]; p += 2; continue; } } #endif /* !PDF_PARSE_STRICT */ if (len + 1 >= PDF_STRING_LEN_MAX) { WARN("PDF string length too long. (limit: %ld)", PDF_STRING_LEN_MAX); return NULL; } switch (ch) { case '\\': ch = ps_getescc(&p, endptr); if (ch >= 0) sbuf[len++] = (ch & 0xff); break; case '\r': p++; if (p < endptr && p[0] == '\n') p++; sbuf[len++] = '\n'; break; default: if (ch == '(') op_count++; else if (ch == ')') op_count--; sbuf[len++] = ch; p++; break; } } if (op_count > 0 || p >= endptr || p[0] != ')') { WARN("Unbalanced parens/truncated PDF literal string."); return NULL; } *pp = p + 1; return pdf_new_string(sbuf, len); } /* * PDF Hex String */ static int xtoi (char ch) { if (ch >= '0' && ch <= '9') return ch - '0'; if (ch >= 'A' && ch <= 'F') return (ch - 'A') + 10; if (ch >= 'a' && ch <= 'f') return (ch - 'a') + 10; return -1; } static pdf_obj * parse_pdf_hex_string (const char **pp, const char *endptr) { const char *p; int len; p = *pp; skip_white(&p, endptr); if (p >= endptr || p[0] != '<') return NULL; p++; len = 0; /* * PDF Reference does not describe how to treat invalid char. * Zero is appended if final hex digit is missing. */ while (p < endptr && p[0] != '>' && len < PDF_STRING_LEN_MAX) { int ch; skip_white(&p, endptr); if (p >= endptr || p[0] == '>') break; ch = (xtoi(p[0]) << 4); p++; skip_white(&p, endptr); if (p < endptr && p[0] != '>') { ch += xtoi(p[0]); p++; } sbuf[len++] = (ch & 0xff); } if (p >= endptr) { WARN("Premature end of input hex string."); return NULL; } else if (p[0] != '>') { WARN("PDF string length too long. (limit: %ld)", PDF_STRING_LEN_MAX); return NULL; } *pp = p + 1; return pdf_new_string(sbuf, len); } pdf_obj * parse_pdf_string (const char **pp, const char *endptr) { skip_white(pp, endptr); if (*pp + 2 <= endptr) { if (**pp == '(') return parse_pdf_literal_string(pp, endptr); else if (**pp == '<' && (*(*pp + 1) == '>' || isxdigit((unsigned char)*(*pp + 1)))) { return parse_pdf_hex_string(pp, endptr); } } WARN("Could not find a string object."); return NULL; } #ifndef PDF_PARSE_STRICT pdf_obj * parse_pdf_tainted_dict (const char **pp, const char *endptr) { pdf_obj *result; parser_state.tainted = 1; result = parse_pdf_dict(pp, endptr, NULL); parser_state.tainted = 0; return result; } #else /* PDF_PARSE_STRICT */ pdf_obj * parse_pdf_tainted_dict (const char **pp, const char *endptr) { return parse_pdf_dict(pp, endptr, NULL); } #endif /* !PDF_PARSE_STRICT */ pdf_obj * parse_pdf_dict (const char **pp, const char *endptr, pdf_file *pf) { pdf_obj *result = NULL; const char *p; p = *pp; skip_white(&p, endptr); /* At least four letter <<>>. */ if (p + 4 > endptr || p[0] != '<' || p[1] != '<') { return NULL; } p += 2; result = pdf_new_dict(); skip_white(&p, endptr); while (p < endptr && p[0] != '>') { pdf_obj *key, *value; skip_white(&p, endptr); key = parse_pdf_name(&p, endptr); if (!key) { WARN("Could not find a key in dictionary object."); pdf_release_obj(result); return NULL; } skip_white(&p, endptr); value = parse_pdf_object(&p, endptr, pf); if (!value) { pdf_release_obj(key); pdf_release_obj(value); pdf_release_obj(result); WARN("Could not find a value in dictionary object."); return NULL; } pdf_add_dict(result, key, value); skip_white(&p, endptr); } if (p + 2 > endptr || p[0] != '>' || p[1] != '>') { WARN("Syntax error: Dictionary object ended prematurely."); pdf_release_obj(result); return NULL; } *pp = p + 2; /* skip >> */ return result; } pdf_obj * parse_pdf_array (const char **pp, const char *endptr, pdf_file *pf) { pdf_obj *result; const char *p; p = *pp; skip_white(&p, endptr); if (p + 2 > endptr || p[0] != '[') { WARN("Could not find an array object."); return NULL; } result = pdf_new_array(); p++; skip_white(&p, endptr); while (p < endptr && p[0] != ']') { pdf_obj *elem; elem = parse_pdf_object(&p, endptr, pf); if (!elem) { pdf_release_obj(result); WARN("Could not find a valid object in array object."); return NULL; } pdf_add_array(result, elem); skip_white(&p, endptr); } if (p >= endptr || p[0] != ']') { WARN("Array object ended prematurely."); pdf_release_obj(result); return NULL; } *pp = p + 1; /* skip ] */ return result; } static pdf_obj * parse_pdf_stream (const char **pp, const char *endptr, pdf_obj *dict) { pdf_obj *result = NULL; const char *p; pdf_obj *stream_dict; int stream_length; p = *pp; skip_white(&p, endptr); if (p + 6 > endptr || strncmp(p, "stream", 6)) { return NULL; } p += 6; /* The keyword stream that follows the stream dictionary * should be followed by an end-of-line marker consisting of * either a carriage return (0x0D;\r) and a line feed (0x0A;\n) * or just a line feed, and not by a carriage return alone. * [PDF Reference, 6th ed., version 1.7, pp. 60-61] */ /* Notice that TeX translates an end-of-line marker to a single space. */ if (p < endptr && p[0] == '\n') { p++; } else if (p + 1 < endptr && (p[0] == '\r' && p[1] == '\n')) { p += 2; } /* Stream length */ { pdf_obj *tmp, *tmp2; tmp = pdf_lookup_dict(dict, "Length"); if (tmp != NULL) { tmp2 = pdf_deref_obj(tmp); if (pdf_obj_typeof(tmp2) != PDF_NUMBER) stream_length = -1; else { stream_length = (int) pdf_number_value(tmp2); } pdf_release_obj(tmp2); } else { return NULL; } } if (stream_length < 0 || p + stream_length > endptr) return NULL; /* * If Filter is not applied, set STREAM_COMPRESS flag. * Should we use filter for ASCIIHexEncode/ASCII85Encode-ed streams? */ { pdf_obj *filters; filters = pdf_lookup_dict(dict, "Filter"); if (!filters && stream_length > 10) { result = pdf_new_stream(STREAM_COMPRESS); } else { result = pdf_new_stream(0); } } stream_dict = pdf_stream_dict(result); pdf_merge_dict(stream_dict, dict); pdf_add_stream(result, p, stream_length); p += stream_length; /* Check "endsteam" */ { /* It is recommended that there be an end-of-line marker * after the data and before endstream; this marker is not included * in the stream length. * [PDF Reference, 6th ed., version 1.7, pp. 61] */ if (p < endptr && p[0] == '\r') p++; if (p < endptr && p[0] == '\n') p++; if (p + 9 > endptr || memcmp(p, "endstream", 9)) { pdf_release_obj(result); return NULL; } p += 9; } *pp = p; return result; } #ifndef PDF_PARSE_STRICT /* PLEASE REMOVE THIS */ #include "specials.h" /* This is not PDF indirect reference. */ static pdf_obj * parse_pdf_reference (const char **start, const char *end) { pdf_obj *result = NULL; char *name; SAVE(*start, end); skip_white(start, end); name = parse_opt_ident(start, end); if (name) { result = spc_lookup_reference(name); if (!result) { WARN("Could not find the named reference (@%s).", name); DUMP_RESTORE(*start, end); } RELEASE(name); } else { WARN("Could not find a reference name."); DUMP_RESTORE(*start, end); result = NULL; } return result; } #endif /* !PDF_PARSE_STRICT */ static pdf_obj * try_pdf_reference (const char *start, const char *end, const char **endptr, pdf_file *pf) { unsigned id = 0; unsigned short gen = 0; ASSERT(pf); if (endptr) *endptr = start; skip_white(&start, end); if (start > end - 5 || !isdigit((unsigned char)*start)) { return NULL; } while (!is_space(*start)) { if (start >= end || !isdigit((unsigned char)*start)) { return NULL; } id = id * 10 + (*start - '0'); start++; } skip_white(&start, end); if (start >= end || !isdigit((unsigned char)*start)) return NULL; while (!is_space(*start)) { if (start >= end || !isdigit((unsigned char)*start)) return NULL; gen = gen * 10 + (*start - '0'); start++; } skip_white(&start, end); if (start >= end || *start != 'R') return NULL; start++; if (!PDF_TOKEN_END(start, end)) return NULL; if (endptr) *endptr = start; return pdf_new_indirect(pf, id, gen); } pdf_obj * parse_pdf_object (const char **pp, const char *endptr, pdf_file *pf) /* If pf is NULL, then indirect references are not allowed */ { pdf_obj *result = NULL; const char *nextptr; skip_white(pp, endptr); if (*pp >= endptr) { WARN("Could not find any valid object."); return NULL; } switch (**pp) { case '<': if (*(*pp + 1) != '<') { result = parse_pdf_hex_string(pp, endptr); } else { pdf_obj *dict; result = parse_pdf_dict(pp, endptr, pf); skip_white(pp, endptr); if ( result && *pp <= endptr - 15 && !memcmp(*pp, "stream", 6)) { dict = result; result = parse_pdf_stream(pp, endptr, dict); pdf_release_obj(dict); } } break; case '(': result = parse_pdf_string(pp, endptr); break; case '[': result = parse_pdf_array(pp, endptr, pf); break; case '/': result = parse_pdf_name(pp, endptr); break; case 'n': result = parse_pdf_null(pp, endptr); break; case 't': case 'f': result = parse_pdf_boolean(pp, endptr); break; case '+': case '-': case '.': result = parse_pdf_number(pp, endptr); break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* * If pf != NULL, then we are parsing a PDF file, * and indirect references are allowed. */ if (pf && (result = try_pdf_reference(*pp, endptr, &nextptr, pf))) { *pp = nextptr; } else { result = parse_pdf_number(pp, endptr); } break; case '@': #ifndef PDF_PARSE_STRICT result = parse_pdf_reference(pp, endptr); #endif /* !PDF_PARSE_STRICT */ break; default: WARN("Unknown PDF object type."); result = NULL; } return result; }