Mercurial > libpst
view src/vbuf.c @ 48:f66078abed38
more fixes for 64 bit format
author | carl |
---|---|
date | Fri, 18 Jan 2008 15:07:12 -0800 |
parents | f6db1f060a95 |
children | b12f4e50e2e8 |
line wrap: on
line source
// {{{ includes #include <ctype.h> //#include "defines.h" #include <errno.h> #include <iconv.h> #include <malloc.h> #include <signal.h> #include <stdarg.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "vbuf.h" #include "generic.h" #ifdef WITH_DMALLOC #include <dmalloc.h> #endif // }}} int skip_nl( char *s ) // {{{ returns the width of the newline at s[0] { if( s[0] == '\n' ) return 1; if( s[0] == '\r' && s[1] == '\n' ) return 2; if( s[0] == '\0' ) return 0; return -1; } // }}} int find_nl( vstr *vs ) // {{{ find newline of type type in b { char *nextr, *nextn; nextr = memchr( vs->b, '\r', vs->dlen ); nextn = memchr( vs->b, '\n', vs->dlen ); //case 1: UNIX, we find \n first if( nextn && (nextr == NULL || nextr > nextn ) ) { return nextn - vs->b; } //case 2: DOS, we find \r\n if( NULL != nextr && NULL != nextn && 1 == (char*)nextn - (char*)nextr ) { return nextr - vs->b; } //case 3: we find nothing return -1; } // }}} // {{{ UTF8 <-> UTF16 <-> ISO8859 Character set conversion functions and (ack) their globals //TODO: the following should not be char *wwbuf=NULL; size_t nwwbuf=0; static int unicode_up=0; iconv_t i16to8, i8to16, i8859_1to8, i8toi8859_1; void unicode_init() // {{{ { char *wipe = ""; char dump[4]; if( unicode_up ) unicode_close(); if( (iconv_t)-1 == (i16to8 = iconv_open( "UTF-8", "UTF-16" ) ) ) { fprintf(stderr, "doexport(): Couldn't open iconv descriptor for UTF-16 to UTF-8.\n"); exit( 1 ); } if( (iconv_t)-1 == (i8to16 = iconv_open( "UTF-16", "UTF-8" ) ) ) { fprintf(stderr, "doexport(): Couldn't open iconv descriptor for UTF-8 to UTF-16.\n"); exit( 2 ); } //iconv will prefix output with an FF FE (utf-16 start seq), the following dumps that. memset( dump, 'x', 4 ); ASSERT( 0 == utf8to16( wipe, 1, dump, 4 ), "unicode_init(): attempt to dump FF FE failed." ); if( (iconv_t)-1 == (i8859_1to8 = iconv_open( "UTF-8", "ISO_8859-1" ) ) ) { fprintf(stderr, "doexport(): Couldn't open iconv descriptor for ASCII to UTF-8.\n"); exit( 1 ); } if( (iconv_t)-1 == (i8toi8859_1 = iconv_open( "ISO_8859-1", "UTF-8" ) ) ) { fprintf(stderr, "doexport(): Couldn't open iconv descriptor for UTF-8 to ASCII.\n"); exit( 1 ); } unicode_up = 1; } // }}} void unicode_close() // {{{ { unicode_up = 0; iconv_close( i8to16 ); iconv_close( i16to8 ); iconv_close( i8859_1to8 ); iconv_close( i8toi8859_1 ); } // }}} //int utf16_write( FILE* stream, const void *buf, size_t count ) // {{{ write utf-8 or iso_8869-1 to stream after converting it to utf-16 //{ // // //TODO: if anything big comes through here we are sunk, should do it // //bit-by-bit, not one-big-gulp // // size_t inbytesleft, outbytesleft; // char *inbuf, *outbuf; // size_t icresult; // size_t rl; // // //do we have enough buffer space? // if( !wwbuf || nwwbuf < (count * 2 + 2) ) { // wwbuf = F_REALLOC( wwbuf, count * 2 +2 ); // // nwwbuf = count * 2 + 2; // } // // inbytesleft = count; outbytesleft = nwwbuf; // inbuf = (char*)buf; outbuf = wwbuf; // //// fprintf(stderr, "X%s, %dX", (char*)buf, strlen( buf )); //// fflush(stderr); // // if( (rl = strlen( buf ) + 1) != count ) { // fprintf(stderr, "utf16_write(): reported buffer size (%d) does not match string length (%d)\n", // count, // rl); // // //hexdump( (char*)buf, 0, count, 1 ); // // raise( SIGSEGV ); // inbytesleft = rl; // } // //// fprintf(stderr, " attempting to convert:\n"); //// hexdump( (char*)inbuf, 0, count, 1 ); // // icresult = iconv( i8to16, &inbuf, &inbytesleft, &outbuf, &outbytesleft ); // //// fprintf(stderr, " converted:\n"); //// hexdump( (char*)buf, 0, count, 1 ); // //// fprintf(stderr, " to:\n"); //// hexdump( (char*)wwbuf, 0, nwwbuf, 1 ); // // if( (size_t)-1 == icresult ) { // fprintf(stderr, "utf16_write(): iconv failure(%d): %s\n", errno, strerror( errno ) ); // fprintf(stderr, " attempted to convert:\n"); // hexdump( (char*)inbuf, 0, count, 1 ); // // fprintf(stderr, " result:\n"); // hexdump( (char*)outbuf, 0, count, 1 ); // // fprintf(stderr, "I'm going to segfault now.\n"); // raise( SIGSEGV ); // exit(1); // } // // if( inbytesleft > 0 ) { // fprintf(stderr, "utf16_write(): iconv returned a short count.\n"); // exit(1); // } // // return fwrite( wwbuf, nwwbuf - outbytesleft - 2, 1, stream ); //} // }}} //char *utf16buf = NULL; //int utf16buf_len = 0; // //int utf16_fprintf( FILE* stream, const char *fmt, ... ) // {{{ //{ // int result=0; // va_list ap; // // if( utf16buf == NULL ) { // utf16buf = (char*)F_MALLOC( SZ_MAX + 1 ); // // utf16buf_len = SZ_MAX + 1; // } // // va_start( ap, fmt ); // // result = vsnprintf( utf16buf, utf16buf_len, fmt, ap ); // // if( result + 1 > utf16buf_len ) { //didn't have space, realloc() and try again // fprintf(stderr, "utf16_fprintf(): buffer too small (%d), F_MALLOC(%d)\n", utf16buf_len, result); // free( utf16buf ); // utf16buf_len = result + 1; // utf16buf = (char*)F_MALLOC( utf16buf_len ); // // result = vsnprintf( utf16buf, utf16buf_len, fmt, ap ); // } // // // //didn't have space...again...something weird is going on... // ASSERT( result + 1 <= utf16buf_len, "utf16_fprintf(): Unpossible error!\n"); // // if( 1 != utf16_write( stream, utf16buf, result + 1 ) ) // DIE( "Write error? -> %s or %s\n", strerror( errno ), uerr_str( uerr_get() ) ); // // return result; //} //// }}} //int utf16to8( char *inbuf_o, char *outbuf_o, int length ) // {{{ //{ // int inbytesleft = length; // int outbytesleft = length; // char *inbuf = inbuf_o; // char *outbuf = outbuf_o; // int rlen = -1, tlen; // int icresult = -1; // // int i, strlen=-1; // // DEBUG( // fprintf(stderr, " utf16to8(): attempting to convert:\n"); // //hexdump( (char*)inbuf_o, 0, length, 1 ); // fflush(stderr); // ); // // for( i=0; i<length ; i+=2 ) { // if( inbuf_o[i] == 0 && inbuf_o[i + 1] == 0 ) { // //fprintf(stderr, "End of string found at: %d\n", i ); // strlen = i; // } // } // // //hexdump( (char*)inbuf_o, 0, strlen, 1 ); // // if( -1 == strlen ) WARN("String is not zero-terminated."); // // //iconv does not like it when the inbytesleft > actual string length // //enum: zero terminated, length valid // // zero terminated, length short //we won't go beyond length ever, so this is same as NZT case // // zero terminated, length long // // not zero terminated // // TODO: MEMORY BUG HERE! // for( tlen = 0; tlen <= inbytesleft - 2; tlen+=2 ) { // if( inbuf_o[tlen] == 0 && inbuf_o[tlen+1] == 0 ){ // rlen = tlen + 2; // tlen = rlen; // break; // } // if( tlen == inbytesleft )fprintf(stderr, "Space allocated for string > actual string length. Go windows!\n"); // } // // if( rlen >= 0 ) // icresult = iconv( i16to8, &inbuf, &rlen, &outbuf, &outbytesleft ); // // if( icresult == (size_t)-1 ) { // fprintf(stderr, "utf16to8(): iconv failure(%d): %s\n", errno, strerror( errno ) ); // fprintf(stderr, " attempted to convert:\n"); // hexdump( (char*)inbuf_o, 0, length, 1 ); // fprintf(stderr, " result:\n"); // hexdump( (char*)outbuf_o, 0, length, 1 ); // fprintf(stderr, " MyDirtyOut:\n"); // for( i=0; i<length; i++) { // if( inbuf_o[i] != '\0' ) fprintf(stderr, "%c", inbuf_o[i] ); // } // // fprintf( stderr, "\n" ); // raise( SIGSEGV ); // exit(1); // } // // DEBUG( // fprintf(stderr, " result:\n"); // hexdump( (char*)outbuf_o, 0, length, 1 ); // ) // // //fprintf(stderr, "utf16to8() returning %s\n", outbuf ); // // return icresult; //} //// }}} int utf16_is_terminated( char *str, int length ) // {{{ { VSTR_STATIC( errbuf, 100 ); int len = -1; int i; for( i=0; i<length ; i+=2 ) { if( str[i] == 0 && str[i + 1] == 0 ) { //fprintf(stderr, "End of string found at: %d\n", i ); len = i; } } //hexdump( (char*)inbuf_o, 0, len, 1 ); if( -1 == len ) { vshexdump( errbuf, str, 0, length, 1 ); WARN("String is not zero terminated (probably broken data from registry) %s.", errbuf->b); } return (-1 == len )?0:1; } // }}} int vb_utf16to8( vbuf *dest, char *buf, int len ) // {{{ { int inbytesleft = len; char *inbuf = buf; //int rlen = -1, tlen; int icresult = -1; VBUF_STATIC( dumpster, 100 ); //int i; //, strlen=-1; int outbytesleft; char *outbuf; ASSERT( unicode_up, "vb_utf16to8() called before unicode started." ); if( 2 > dest->blen ) vbresize( dest, 2 ); dest->dlen = 0; //Bad Things can happen if a non-zero-terminated utf16 string comes through here if( !utf16_is_terminated( buf, len ) ) return -1; do { outbytesleft = dest->blen - dest->dlen; outbuf = dest->b + dest->dlen; icresult = iconv( i16to8, &inbuf, &inbytesleft, &outbuf, &outbytesleft ); dest->dlen = outbuf - dest->b; vbgrow( dest, inbytesleft); } while( (size_t)-1 == icresult && E2BIG == errno ); if( 0 != vb_utf8to16T( dumpster, dest->b, dest->dlen ) ) DIE("Reverse conversion failed."); if( icresult == (size_t)-1 ) { //TODO: error //ERR_UNIX( errno, "vb_utf16to8():iconv failure: %s", strerror( errno ) ); unicode_init(); return -1; /* fprintf(stderr, " attempted to convert:\n"); hexdump( (char*)cin, 0, inlen, 1 ); fprintf(stderr, " result:\n"); hexdump( (char*)bout->b, 0, bout->dlen, 1 ); fprintf(stderr, " MyDirtyOut:\n"); for( i=0; i<inlen; i++) { if( inbuf[i] != '\0' ) fprintf(stderr, "%c", inbuf[i] ); } fprintf( stderr, "\n" ); raise( SIGSEGV ); exit(1); */ } if( icresult ) { //ERR_UNIX( EILSEQ, "Uhhhh...vb_utf16to8() returning icresult == %d", icresult ); return -1; } return icresult; } // }}} int utf8to16( char *inbuf_o, int iblen, char *outbuf_o, int oblen) // {{{ iblen, oblen: bytes including \0 { //TODO: this is *only* used to dump the utf16 preamble now... //TODO: This (and 8to16) are the most horrible things I have ever seen... int inbytesleft; int outbytesleft = oblen; char *inbuf = inbuf_o; char *outbuf = outbuf_o; //int rlen = -1, tlen; int icresult = -1; char *stend; //int i; //, strlen=-1; DEBUG( fprintf(stderr, " utf8to16(): attempting to convert:\n"); //hexdump( (char*)inbuf_o, 0, length, 1 ); fflush(stderr); ); stend = memchr( inbuf_o, '\0', iblen ); ASSERT( NULL != stend, "utf8to16(): in string not zero terminated." ); inbytesleft = ( stend - inbuf_o + 1 < iblen )? stend - inbuf_o + 1: iblen; //iconv does not like it when the inbytesleft > actual string length //enum: zero terminated, length valid // zero terminated, length short //we won't go beyond length ever, so this is same as NZT case // zero terminated, length long // not zero terminated // TODO: MEMORY BUG HERE! // /* for( tlen = 0; tlen <= inbytesleft - 2; tlen+=2 ) { if( inbuf_o[tlen] == 0 && inbuf_o[tlen+1] == 0 ){ rlen = tlen + 2; tlen = rlen; break; } if( tlen == inbytesleft )fprintf(stderr, "Space allocated for string > actual string length. Go windows!\n"); } */ //if( rlen >= 0 ) icresult = iconv( i8to16, &inbuf, &inbytesleft, &outbuf, &outbytesleft ); if( icresult == (size_t)-1 ) { DIE("iconv failure(%d): %s\n", errno, strerror( errno ) ); //fprintf(stderr, " attempted to convert:\n"); //hexdump( (char*)inbuf_o, 0, iblen, 1 ); //fprintf(stderr, " result:\n"); //hexdump( (char*)outbuf_o, 0, oblen, 1 ); //fprintf(stderr, " MyDirtyOut:\n"); // for( i=0; i<iblen; i++) { // if( inbuf_o[i] != '\0' ) fprintf(stderr, "%c", inbuf_o[i] ); // } // // fprintf( stderr, "\n" ); // raise( SIGSEGV ); // exit(1); } // DEBUG( // fprintf(stderr, " result:\n"); // hexdump( (char*)outbuf_o, 0, oblen, 1 ); // ) //fprintf(stderr, "utf8to16() returning %s\n", outbuf ); //TODO: error if( icresult ) printf("Uhhhh...utf8to16() returning icresult == %d\n", icresult ); return icresult; } // }}} int vb_utf8to16T( vbuf *bout, char *cin, int inlen ) // {{{ { //TODO: This (and 8to16) are the most horrible things I have ever seen... int inbytesleft = inlen; char *inbuf = cin; //int rlen = -1, tlen; int icresult = -1; //int i; //, strlen=-1; //if( rlen >= 0 ) int outbytesleft; char *outbuf; if( 2 > bout->blen ) vbresize( bout, 2 ); bout->dlen = 0; do { outbytesleft = bout->blen - bout->dlen; outbuf = bout->b + bout->dlen; icresult = iconv( i8to16, &inbuf, &inbytesleft, &outbuf, &outbytesleft ); bout->dlen = outbuf - bout->b; vbgrow( bout, 20 ); } while( (size_t)-1 == icresult && E2BIG == errno ); if( icresult == (size_t)-1 ) { WARN("iconv failure: %s", strerror( errno ) ); //ERR_UNIX( errno, "vb_utf8to16():iconv failure: %s", strerror( errno ) ); unicode_init(); return -1; /* fprintf(stderr, "vb_utf8to16(): iconv failure(%d == %d?): %s\n", errno, E2BIG, strerror( errno ) ); fprintf(stderr, " attempted to convert:\n"); hexdump( (char*)cin, 0, inlen, 1 ); fprintf(stderr, " result:\n"); hexdump( (char*)bout->b, 0, bout->dlen, 1 ); fprintf(stderr, " MyDirtyOut:\n"); for( i=0; i<inlen; i++) { if( inbuf[i] != '\0' ) fprintf(stderr, "%c", inbuf[i] ); } fprintf( stderr, "\n" ); raise( SIGSEGV ); exit(1); */ } //TODO: error if( icresult ) printf("Uhhhh...vb_utf8to16() returning icresult == %d\n", icresult ); return icresult; } // }}} #if 1 void cheap_uni2ascii(char *src, char *dest, int l) /* {{{ Quick and dirty UNICODE to std. ascii */ { for (; l > 0; l -=2) { *dest = *src; dest++; src +=2; } *dest = 0; } // }}} #endif void cheap_ascii2uni(char *src, char *dest, int l) /* {{{ Quick and dirty ascii to unicode */ { for (; l > 0; l--) { *dest++ = *src++; *dest++ = 0; } } // }}} // }}} // {{{ VARBUF Functions vbuf *vballoc( size_t len ) // {{{ { struct varbuf *result; result = F_MALLOC( sizeof( struct varbuf ) ); result->dlen = 0; result->blen = 0; result->buf = NULL; vbresize( result, len ); return result; } // }}} void vbcheck( vbuf *vb ) // {{{ { ASSERT( vb->b - vb->buf <= vb->blen, "vbcheck(): vb->b outside of buffer range."); ASSERT( vb->dlen <= vb->blen, "vbcheck(): data length > buffer length."); ASSERT( vb->blen < 1024*1024, "vbcheck(): blen is a bit large...hmmm."); } // }}} void vbfree( vbuf *vb ) // {{{ { free( vb->buf ); free( vb ); } // }}} void vbclear( struct varbuf *vb ) // {{{ditch the data, keep the buffer { vbresize( vb, 0 ); } // }}} void vbresize( struct varbuf *vb, size_t len ) // {{{ DESTRUCTIVELY grow or shrink buffer { vb->dlen = 0; if( vb->blen >= len ) { vb->b = vb->buf; return; } vb->buf = F_REALLOC( vb->buf, len ); vb->b = vb->buf; vb->blen = len; } // }}} int vbavail( vbuf *vb ) // {{{ { return vb->blen - ((char*)vb->b - (char*)vb->buf + vb->dlen); } // }}} //void vbdump( vbuf *vb ) // {{{ TODO: to stdout? Yuck //{ // printf("vb dump-------------\n"); // printf("dlen: %d\n", vb->dlen ); // printf("blen: %d\n", vb->blen ); // printf("b - buf: %d\n", vb->b - vb->buf ); // printf("buf:\n"); // hexdump( vb->buf, 0, vb->blen, 1 ); // printf("b:\n"); // hexdump( vb->b, 0, vb->dlen, 1 ); // printf("^^^^^^^^^^^^^^^^^^^^\n"); //} // }}} void vbgrow( struct varbuf *vb, size_t len ) // {{{ out: vbavail(vb) >= len, data are preserved { if( 0 == len ) return; if( 0 == vb->blen ) { vbresize( vb, len ); return; } if( vb->dlen + len > vb->blen ) { if( vb->dlen + len < vb->blen * 1.5 ) len = vb->blen * 1.5; char *nb = F_MALLOC( vb->blen + len ); //printf("vbgrow() got %p back from malloc(%d)\n", nb, vb->blen + len); vb->blen = vb->blen + len; memcpy( nb, vb->b, vb->dlen ); //printf("vbgrow() I am going to free %p\n", vb->buf ); free( vb->buf ); vb->buf = nb; vb->b = vb->buf; } else { if( vb->b != vb->buf ) memcpy( vb->buf, vb->b, vb->dlen ); } vb->b = vb->buf; ASSERT( vbavail( vb ) >= len, "vbgrow(): I have failed in my mission." ); } // }}} void vbset( vbuf *vb, void *b, size_t len ) // {{{ set vbuf b size=len, resize if necessary, relen = how much to over-allocate { vbresize( vb, len ); memcpy( vb->b, b, len ); vb->dlen = len; } // }}} void vsskipws( vstr *vs ) // {{{ { char *p = vs->b; while( p - vs->b < vs->dlen && isspace( p[0] ) ) p++; vbskip( (vbuf*)vs, p - vs->b ); } // }}} void vbappend( struct varbuf *vb, void *b, size_t len ) // {{{ append len bytes of b to vbuf, resize if necessary { if( 0 == vb->dlen ) { vbset( vb, b, len ); return; } vbgrow( vb, len ); memcpy( vb->b + vb->dlen, b, len ); vb->dlen += len; //printf("vbappend() end: >%s/%d<\n", vbuf->b, vbuf->dlen ); } // }}} void vbskip( struct varbuf *vb, size_t skip ) // {{{ dumps the first skip bytes from vbuf { ASSERT( skip <= vb->dlen, "vbskip(): Attempt to seek past end of buffer." ); //memmove( vbuf->b, vbuf->b + skip, vbuf->dlen - skip ); vb->b += skip; vb->dlen -= skip; } // }}} void vboverwrite( struct varbuf *vbdest, struct varbuf *vbsrc ) // {{{ overwrite vbdest with vbsrc { vbresize( vbdest, vbsrc->blen ); memcpy( vbdest->b, vbsrc->b, vbsrc->dlen ); vbdest->blen = vbsrc->blen; vbdest->dlen = vbsrc->dlen; } // }}} // }}} // {{{ VARSTR Functions vstr *vsalloc( size_t len ) // {{{ { vstr *result = (vstr*)vballoc( len + 1 ); vsset( result, "" ); return result; } // }}} char *vsstr( vstr *vs ) // {{{ { return vs->b; } // }}} size_t vslen( vstr *vs ) // {{{ { return strlen( vsstr( vs )); } // }}} void vsfree( vstr *vs ) // {{{ { vbfree( (vbuf*)vs ); } // }}} void vscharcat( vstr *vb, int ch ) // {{{ { vbgrow( (vbuf*)vb, 1); vb->b[vb->dlen-1] = ch; vb->b[vb->dlen] = '\0'; vb->dlen++; } // }}} void vsnprepend( vstr *vb, char *str, size_t len ) // {{{ prependappend string str to vbuf, vbuf must already contain a valid string { ASSERT( vb->b[vb->dlen-1] == '\0', "vsncat(): attempt to append string to non-string."); int sl = strlen( str ); int n = (sl<len)?sl:len; //string append vbgrow( (vbuf*)vb, n + 1 ); memmove( vb->b + n, vb->b, vb->dlen - 1 ); memcpy( vb->b, str, n ); //strncat( vb->b, str, n ); vb->dlen += n; vb->b[ vb->dlen - 1 ] = '\0'; } // }}} void vsskip( vstr *vs, size_t len ) // {{{ len < dlen-1 -> skip len chars, else DIE { ASSERT( len < vs->dlen - 1, "Attempt to skip past end of string" ); vbskip( (vbuf*)vs, len ); } // }}} int vsskipline( vstr *vs ) // {{{ in: vb->b == "stuff\nmore_stuff"; out: vb->b == "more_stuff" { int nloff = find_nl( vs ); int nll = skip_nl( vs->b + nloff ); if( nloff < 0 ) { //TODO: error printf("vb_skipline(): there seems to be no newline here.\n"); return -1; } if( skip_nl < 0 ) { //TODO: error printf("vb_skipline(): there seems to be no newline here...except there should be. :P\n"); return -1; } memmove( vs->b, vs->b + nloff + nll, vs->dlen - nloff - nll ); vs->dlen -= nloff + nll; return 0; } // }}} int vscatprintf( vstr *vs, char *fmt, ... ) // {{{ { int size; va_list ap; /* Guess we need no more than 100 bytes. */ //vsresize( vb, 100 ); if(!vs->b || vs->dlen == 0) { vsset( vs, "" ); } while (1) { /* Try to print in the allocated space. */ va_start(ap, fmt); size = vsnprintf (vs->b + vs->dlen - 1, vs->blen - vs->dlen, fmt, ap); va_end(ap); /* If that worked, return the string. */ if (size > -1 && size < vs->blen - vs->dlen ) { vs->dlen += size; return size; } /* Else try again with more space. */ if ( size >= 0 ) /* glibc 2.1 */ vbgrow( (vbuf*)vs, size+1 ); /* precisely what is needed */ else /* glibc 2.0 */ vbgrow( (vbuf*)vs, vs->blen); } } // }}} int vslast( vstr *vs ) // {{{ returns the last character stored in a vstr { if( vs->dlen < 1 ) return -1; if( vs->b[vs->dlen-1] != '\0' ) return -1; if( vs->dlen == 1 ) return '\0'; return vs->b[vs->dlen-2]; } // }}} void vs_printf( vstr *vs, char *fmt, ... ) // {{{ print over vb { int size; va_list ap; /* Guess we need no more than 100 bytes. */ vbresize( (vbuf*)vs, 100 ); while (1) { /* Try to print in the allocated space. */ va_start(ap, fmt); size = vsnprintf (vs->b, vs->blen, fmt, ap); va_end(ap); /* If that worked, return the string. */ if (size > -1 && size < vs->blen) { vs->dlen = size + 1; return; } /* Else try again with more space. */ if ( size >= 0 ) /* glibc 2.1 */ vbresize( (vbuf*)vs, size+1 ); /* precisely what is needed */ else /* glibc 2.0 */ vbresize( (vbuf*)vs, vs->blen*2); } } // }}} void vs_printfa( vstr *vs, char *fmt, ... ) // {{{ printf append to vs { int size; va_list ap; if( vs->blen - vs->dlen < 50 ) vbgrow( (vbuf*)vs, 100 ); while (1) { /* Try to print in the allocated space. */ va_start(ap, fmt); size = vsnprintf (vs->b + vs->dlen - 1, vs->blen - vs->dlen + 1, fmt, ap); va_end(ap); /* If that worked, return the string. */ if (size > -1 && size < vs->blen) { vs->dlen += size; return; } /* Else try again with more space. */ if ( size >= 0 ) /* glibc 2.1 */ vbgrow( (vbuf*)vs, size+1 - vs->dlen ); /* precisely what is needed */ else /* glibc 2.0 */ vbgrow( (vbuf*)vs, size ); } } // }}} void vshexdump( vstr *vs, char *b, size_t start, size_t stop, int ascii ) // {{{ { char c; int diff,i; while (start < stop ) { diff = stop - start; if (diff > 16) diff = 16; vs_printfa(vs, ":%08X ",start); for (i = 0; i < diff; i++) { if( 8 == i ) vs_printfa( vs, " " ); vs_printfa(vs, "%02X ",(unsigned char)*(b+start+i)); } if (ascii) { for (i = diff; i < 16; i++) vs_printfa(vs, " "); for (i = 0; i < diff; i++) { c = *(b+start+i); vs_printfa(vs, "%c", isprint(c) ? c : '.'); } } vs_printfa(vs, "\n"); start += 16; } } // }}} void vsset( vstr *vs, char *s ) // {{{ Store string s in vs { vsnset( vs, s, strlen( s ) ); } // }}} void vsnset( vstr *vs, char *s, size_t n ) // {{{ Store string s in vs { vbresize( (vbuf*)vs, n + 1 ); memcpy( vs->b, s, n); vs->b[n] = '\0'; vs->dlen = n+1; } // }}} void vsgrow( vstr *vs, size_t len ) // {{{ grow buffer by len bytes, data are preserved { vbgrow( (vbuf*)vs, len ); } // }}} size_t vsavail( vstr *vs ) // {{{ { return vbavail( (vbuf*)vs ); } // }}} void vsnset16( vstr *vs, char *s, size_t len ) // {{{ Like vbstrnset, but for UTF16 { vbresize( (vbuf*)vs, len+1 ); memcpy( vs->b, s, len ); vs->b[len] = '\0'; vs->dlen = len+1; vs->b[len] = '\0'; } // }}} void vscat( vstr *vs, char *str ) // {{{ { vsncat( vs, str, strlen(str ) ); } // }}} int vscmp( vstr *vs, char *str ) // {{{ { return strcmp( vs->b, str ); } // }}} void vsncat( vstr *vs, char *str, size_t len ) // {{{ append string str to vstr, vstr must already contain a valid string { ASSERT( vs->b[vs->dlen-1] == '\0', "vsncat(): attempt to append string to non-string."); int sl = strlen( str ); int n = (sl<len)?sl:len; //string append vbgrow( (vbuf*)vs, n + 1 ); memcpy( vs->b + vs->dlen - 1, str, n ); //strncat( vs->b, str, n ); vs->dlen += n; vs->b[ vs->dlen - 1 ] = '\0'; } // }}} void vstrunc( vstr *v, int off ) // {{{ Drop chars [off..dlen] { if( off >= v->dlen - 1 ) return; //nothing to do v->b[off] = '\0'; v->dlen = off + 1; } // }}} // }}} // {{{ User input // TODO: not sure how useful this stuff is here int fmyinput(char *prmpt, char *ibuf, int maxlen) /* {{{ get user input */ { printf("%s",prmpt); fgets(ibuf,maxlen+1,stdin); ibuf[strlen(ibuf)-1] = 0; return(strlen(ibuf)); } // }}} //}}} // // //{{{ String formatting and output to FILE *stream or just stdout, etc // TODO: a lot of old, unused stuff in here void vswinhex8(vstr *vs, unsigned char *hbuf, int start, int stop, int loff ) // {{{ Produce regedit-style hex output */ { int i; int lineflag=0; for( i=start; i<stop; i++) { loff += vscatprintf( vs, "%02x", hbuf[i] ); if( i < stop - 1 ) { loff+=vscatprintf( vs, "," ); switch( lineflag ) { case 0: if( loff >= 77) { lineflag=1; loff=0; vscatprintf( vs, "\\%s ", STUPID_CR ); } break; case 1: if( loff >= 75 ) { loff=0; vscatprintf( vs, "\\%s ", STUPID_CR ); } break; } // if( 24 < i || 0 == (i - 17) % 25 ) fprintf( stream, "\\\n " ); } } // fprintf( stream, "\n" ); } // }}}