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view lwcc/lex.c @ 508:10f62dc61a75
Fix bad usage of sprintf()
Usage of sprintf() to append to a string in the form of
sprintf(buf, "%s...", buf...) is undefined, regardless whether it
worked on a lot of older systems. It was always a bad idea and it
now breaks on current glibc and gcc development environments.
The moral: if any of your code uses sprintf() in a way similar to
the above, fix it. It may not fail in a benign way.
author | William Astle <lost@l-w.ca> |
---|---|
date | Sun, 10 May 2020 22:38:24 -0600 |
parents | 670ea8f90212 |
children | ee3e52ab2288 |
line wrap: on
line source
/* lwcc/lex.c Copyright © 2013 William Astle This file is part of LWTOOLS. LWTOOLS 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 3 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, see <http://www.gnu.org/licenses/>. */ #include <ctype.h> #include <stdio.h> #include <lw_alloc.h> #include <lw_strbuf.h> #include "cpp.h" #include "token.h" /* fetch a raw input byte from the current file. Will return CPP_EOF if EOF is encountered and CPP_EOL if an end of line sequence is encountered. End of line is defined as either CR, CRLF, LF, or LFCR. CPP_EOL is returned on the first CR or LF encountered. The complementary CR or LF is munched, if present, when the *next* character is read. This always operates on file_stack. This function also accounts for line numbers in input files and also character columns. */ static int fetch_byte_ll(struct preproc_info *pp) { int c; if (pp -> eolstate != 0) { pp -> lineno++; pp -> column = 0; } c = getc(pp -> fp); pp -> column++; if (pp -> eolstate == 1) { // just saw CR, munch LF if (c == 10) c = getc(pp -> fp); pp -> eolstate = 0; } else if (pp -> eolstate == 2) { // just saw LF, much CR if (c == 13) c = getc(pp -> fp); pp -> eolstate = 0; } if (c == 10) { // we have LF - end of line, flag to munch CR pp -> eolstate = 2; c = CPP_EOL; } else if (c == 13) { // we have CR - end of line, flag to munch LF pp -> eolstate = 1; c = CPP_EOL; } else if (c == EOF) { c = CPP_EOF; } return c; } /* This function takes a sequence of bytes from the _ll function above and does trigraph interpretation on it, but only if the global trigraphs is nonzero. */ static int fetch_byte_tg(struct preproc_info *pp) { int c; if (!pp -> trigraphs) { c = fetch_byte_ll(pp); } else { /* we have to do the trigraph shit here */ if (pp -> ra != CPP_NOUNG) { if (pp -> qseen > 0) { c = '?'; pp -> qseen -= 1; return c; } else { c = pp -> ra; pp -> ra = CPP_NOUNG; return c; } } c = fetch_byte_ll(pp); while (c == '?') { pp -> qseen++; c = fetch_byte_ll(pp); } if (pp -> qseen >= 2) { // we have a trigraph switch (c) { case '=': c = '#'; pp -> qseen -= 2; break; case '/': c = '\\'; pp -> qseen -= 2; break; case '\'': c = '^'; pp -> qseen -= 2; break; case '(': c = '['; pp -> qseen -= 2; break; case ')': c = ']'; pp -> qseen -= 2; break; case '!': c = '|'; pp -> qseen -= 2; break; case '<': c = '{'; pp -> qseen -= 2; break; case '>': c = '}'; pp -> qseen -= 2; break; case '-': c = '~'; pp -> qseen -= 2; break; } if (pp -> qseen > 0) { pp -> ra = c; c = '?'; pp -> qseen--; } } else if (pp -> qseen > 0) { pp -> ra = c; c = '?'; pp -> qseen--; } } return c; } /* This function puts a byte back onto the front of the input stream used by fetch_byte(). Theoretically, an unlimited number of characters can be unfetched. Line and column counting may be incorrect if unfetched characters cross a token boundary. */ void preproc_lex_unfetch_byte(struct preproc_info *pp, int c) { if (pp -> lexstr) { if (c == CPP_EOL) return; if (pp -> lexstrloc > 0) { pp -> lexstrloc--; return; } } if (pp -> ungetbufl >= pp -> ungetbufs) { pp -> ungetbufs += 100; pp -> ungetbuf = lw_realloc(pp -> ungetbuf, pp -> ungetbufs); } pp -> ungetbuf[pp -> ungetbufl++] = c; } /* This function retrieves a byte from the input stream. It performs backslash-newline splicing on the returned bytes. Any character retrieved from the unfetch buffer is presumed to have already passed the backslash-newline filter. */ static int fetch_byte(struct preproc_info *pp) { int c; if (pp -> lexstr) { if (pp -> lexstr[pp -> lexstrloc]) return pp -> lexstr[pp -> lexstrloc++]; else return CPP_EOL; } if (pp -> ungetbufl > 0) { pp -> ungetbufl--; c = pp -> ungetbuf[pp -> ungetbufl]; if (pp -> ungetbufl == 0) { lw_free(pp -> ungetbuf); pp -> ungetbuf = NULL; pp -> ungetbufs = 0; } return c; } again: if (pp -> unget != CPP_NOUNG) { c = pp -> unget; pp -> unget = CPP_NOUNG; } else { c = fetch_byte_tg(pp); } if (c == '\\') { int c2; c2 = fetch_byte_tg(pp); if (c2 == CPP_EOL) goto again; else pp -> unget = c2; } return c; } /* Lex a token off the current input file. Returned tokens are as follows: * all words starting with [a-zA-Z_] are returned as TOK_IDENT * numbers are returned as their appropriate type * all whitespace in a sequence, including comments, is returned as a single instance of TOK_WSPACE * TOK_EOL is returned in the case of the end of a line * TOK_EOF is returned when the end of the file is reached * If no TOK_EOL appears before TOK_EOF, a TOK_EOL will be synthesised * Any symbolic operator, etc., recognized by C will be returned as such a token * TOK_HASH will be returned for a # * trigraphs will be interpreted * backslash-newline will be interpreted * any instance of CR, LF, CRLF, or LFCR will be interpreted as TOK_EOL */ int preproc_lex_fetch_byte(struct preproc_info *pp) { int c; c = fetch_byte(pp); if (c == CPP_EOF && pp -> eolseen == 0) { preproc_throw_warning(pp, "No newline at end of file"); pp -> eolseen = 1; return CPP_EOL; } if (c == CPP_EOL) { pp -> eolseen = 1; return c; } pp -> eolseen = 0; /* convert comments to a single space here */ if (c == '/') { int c2; c2 = fetch_byte(pp); if (c2 == '/') { /* single line comment */ c = ' '; for (;;) { c2 = fetch_byte(pp); if (c2 == CPP_EOF || c2 == CPP_EOL) break; } preproc_lex_unfetch_byte(pp, c2); } else if (c2 == '*') { /* block comment */ c = ' '; for (;;) { c2 = fetch_byte(pp); if (c2 == CPP_EOF) { preproc_lex_unfetch_byte(pp, c); break; } if (c2 == '*') { /* maybe end of comment */ c2 = preproc_lex_fetch_byte(pp); if (c2 == '/') break; } } } else { /* not a comment - restore lookahead character */ preproc_lex_unfetch_byte(pp, c2); } } return c; } struct token *preproc_lex_next_token(struct preproc_info *pp) { int sline = pp -> lineno; int scol = pp -> column; char *strval = NULL; int ttype = TOK_NONE; int c, c2; int cl; struct lw_strbuf *strbuf; struct token *t = NULL; struct preproc_info *fs; fileagain: c = preproc_lex_fetch_byte(pp); if (c == CPP_EOF) { if (pp -> nlseen == 0) { c = CPP_EOL; } } if (pp -> lineno != sline) { sline = pp -> lineno; scol = pp -> column; } if (c == CPP_EOF) { /* check if we fell off the end of an include file */ if (pp -> filestack) { if (pp -> skip_level || pp -> found_level) { preproc_throw_error(pp, "Unbalanced conditionals in include file"); } fclose(pp -> fp); fs = pp -> filestack; *pp = *fs; pp -> filestack = fs -> n; goto fileagain; } else { ttype = TOK_EOF; goto out; } } if (c == CPP_EOL) { pp -> nlseen = 1; ttype = TOK_EOL; goto out; } pp -> nlseen = 0; if (isspace(c)) { while (isspace(c)) c = preproc_lex_fetch_byte(pp); preproc_lex_unfetch_byte(pp, c); ttype = TOK_WSPACE; goto out; } switch (c) { case '?': ttype = TOK_QMARK; goto out; case ':': ttype = TOK_COLON; goto out; case ',': ttype = TOK_COMMA; goto out; case '(': ttype = TOK_OPAREN; goto out; case ')': ttype = TOK_CPAREN; goto out; case '{': ttype = TOK_OBRACE; goto out; case '}': ttype = TOK_CBRACE; goto out; case '[': ttype = TOK_OSQUARE; goto out; case ']': ttype = TOK_CSQUARE; goto out; case '~': ttype = TOK_COM; goto out; case ';': ttype = TOK_EOS; goto out; /* and now for the possible multi character tokens */ case '#': ttype = TOK_HASH; c = preproc_lex_fetch_byte(pp); if (c == '#') ttype = TOK_DBLHASH; else preproc_lex_unfetch_byte(pp, c); goto out; case '^': ttype = TOK_XOR; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_XORASS; else preproc_lex_unfetch_byte(pp, c); goto out; case '!': ttype = TOK_BNOT; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_NE; else preproc_lex_unfetch_byte(pp, c); goto out; case '*': ttype = TOK_STAR; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_MULASS; else preproc_lex_unfetch_byte(pp, c); goto out; case '/': ttype = TOK_DIV; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_DIVASS; else preproc_lex_unfetch_byte(pp, c); goto out; case '=': ttype = TOK_ASS; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_EQ; else preproc_lex_unfetch_byte(pp, c); goto out; case '%': ttype = TOK_MOD; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_MODASS; else preproc_lex_unfetch_byte(pp, c); goto out; case '-': ttype = TOK_SUB; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_SUBASS; else if (c == '-') ttype = TOK_DBLSUB; else if (c == '>') ttype = TOK_ARROW; else preproc_lex_unfetch_byte(pp, c); goto out; case '+': ttype = TOK_ADD; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_ADDASS; else if (c == '+') ttype = TOK_DBLADD; else preproc_lex_unfetch_byte(pp, c); goto out; case '&': ttype = TOK_BWAND; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_BWANDASS; else if (c == '&') ttype = TOK_BAND; else preproc_lex_unfetch_byte(pp, c); goto out; case '|': ttype = TOK_BWOR; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_BWORASS; else if (c == '|') ttype = TOK_BOR; else preproc_lex_unfetch_byte(pp, c); goto out; case '<': ttype = TOK_LT; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_LE; else if (c == '<') { ttype = TOK_LSH; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_LSHASS; else preproc_lex_unfetch_byte(pp, c); } else preproc_lex_unfetch_byte(pp, c); goto out; case '>': ttype = TOK_GT; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_GE; else if (c == '>') { ttype = TOK_RSH; c = preproc_lex_fetch_byte(pp); if (c == '=') ttype = TOK_RSHASS; else preproc_lex_unfetch_byte(pp, c); } else preproc_lex_unfetch_byte(pp, c); goto out; case '\'': /* character constant - turns into a uint */ chrlit: cl = 0; strbuf = lw_strbuf_new(); for (;;) { c = preproc_lex_fetch_byte(pp); if (c == CPP_EOF || c == CPP_EOL || c == '\'') break; cl++; if (c == '\\') { lw_strbuf_add(strbuf, '\\'); c = preproc_lex_fetch_byte(pp); if (c == CPP_EOF || c == CPP_EOL) { if (!pp -> lexstr) preproc_throw_error(pp, "Invalid character constant"); ttype = TOK_ERROR; strval = lw_strbuf_end(strbuf); goto out; } cl++; lw_strbuf_add(strbuf, c); continue; } lw_strbuf_add(strbuf, c); } strval = lw_strbuf_end(strbuf); if (cl == 0) { ttype = TOK_ERROR; if (!pp -> lexstr) preproc_throw_error(pp, "Invalid character constant"); } else ttype = TOK_CHR_LIT; goto out; case '"': strlit: /* string literal */ strbuf = lw_strbuf_new(); lw_strbuf_add(strbuf, '"'); for (;;) { c = preproc_lex_fetch_byte(pp); if (c == CPP_EOF || c == CPP_EOL) { ttype = TOK_ERROR; strval = lw_strbuf_end(strbuf); if (!pp -> lexstr) preproc_throw_error(pp, "Invalid string constant"); goto out; } if (c == '"') break; if (c == '\\') { lw_strbuf_add(strbuf, '\\'); c = preproc_lex_fetch_byte(pp); if (c == CPP_EOF || c == CPP_EOL) { ttype = TOK_ERROR; if (!pp -> lexstr) preproc_throw_error(pp, "Invalid string constant"); strval = lw_strbuf_end(strbuf); goto out; } cl++; lw_strbuf_add(strbuf, c); continue; } lw_strbuf_add(strbuf, c); } lw_strbuf_add(strbuf, '"'); strval = lw_strbuf_end(strbuf); ttype = TOK_STR_LIT; goto out; case 'L': /* check for wide string or wide char const */ c2 = preproc_lex_fetch_byte(pp); if (c2 == '\'') { goto chrlit; } else if (c2 == '"') { goto strlit; } preproc_lex_unfetch_byte(pp, c2); /* fall through for identifier */ case '_': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g': case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n': case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u': case 'v': case 'w': case 'x': case 'y': case 'z': case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I': case 'J': case 'K': case 'M': case 'N': case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U': case 'V': case 'W': case 'X': case 'Y': case 'Z': /* we have an identifier here */ strbuf = lw_strbuf_new(); lw_strbuf_add(strbuf, c); for (;;) { c = preproc_lex_fetch_byte(pp); if ((c == '_') || (c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z')) { lw_strbuf_add(strbuf, c); continue; } else { lw_strbuf_add(strbuf, 0); strval = lw_strbuf_end(strbuf); break; } } preproc_lex_unfetch_byte(pp, c); ttype = TOK_IDENT; goto out; case '.': c = preproc_lex_fetch_byte(pp); if (c >= '0' && c <= '9') { strbuf = lw_strbuf_new(); lw_strbuf_add(strbuf, '.'); goto numlit; } else if (c == '.') { c = preproc_lex_fetch_byte(pp); if (c == '.') { ttype = TOK_ELLIPSIS; goto out; } preproc_lex_unfetch_byte(pp, c); } preproc_lex_unfetch_byte(pp, c); ttype = TOK_DOT; goto out; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': strbuf = lw_strbuf_new(); numlit: ttype = TOK_NUMBER; lw_strbuf_add(strbuf, c); for (;;) { c = preproc_lex_fetch_byte(pp); if (!((c == '_') || (c >= '0' && c <= '9') || (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z'))) break; lw_strbuf_add(strbuf, c); if (c == 'e' || c == 'E' || c == 'p' || c == 'P') { c = preproc_lex_fetch_byte(pp); if (c == '+' || c == '-') { lw_strbuf_add(strbuf, c); continue; } preproc_lex_unfetch_byte(pp, c); } } strval = lw_strbuf_end(strbuf); preproc_lex_unfetch_byte(pp, c); goto out; default: ttype = TOK_CHAR; strval = lw_alloc(2); strval[0] = c; strval[1] = 0; break; } out: t = token_create(ttype, strval, sline, scol, pp -> fn); lw_free(strval); return t; }