UEFITool/bstrlib/bstraux.c

1162 lines
30 KiB
C
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2016-06-26 16:14:44 +08:00
/*
* This source file is part of the bstring string library. This code was
* written by Paul Hsieh in 2002-2015, and is covered by the BSD open source
* license and the GPL. Refer to the accompanying documentation for details
* on usage and license.
*/
/*
* bstraux.c
*
* This file is not necessarily part of the core bstring library itself, but
* is just an auxilliary module which includes miscellaneous or trivial
* functions.
*/
#if defined (_MSC_VER)
# define _CRT_SECURE_NO_WARNINGS
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <ctype.h>
#include "bstrlib.h"
#include "bstraux.h"
#ifndef UNUSED
#define UNUSED(x) (void)(x)
#endif
/* bstring bTail (bstring b, int n)
*
* Return with a string of the last n characters of b.
*/
bstring bTail (bstring b, int n) {
if (b == NULL || n < 0 || (b->mlen < b->slen && b->mlen > 0)) return NULL;
if (n >= b->slen) return bstrcpy (b);
return bmidstr (b, b->slen - n, n);
}
/* bstring bHead (bstring b, int n)
*
* Return with a string of the first n characters of b.
*/
bstring bHead (bstring b, int n) {
if (b == NULL || n < 0 || (b->mlen < b->slen && b->mlen > 0)) return NULL;
if (n >= b->slen) return bstrcpy (b);
return bmidstr (b, 0, n);
}
/* int bFill (bstring a, char c, int len)
*
* Fill a given bstring with the character in parameter c, for a length n.
*/
int bFill (bstring b, char c, int len) {
if (b == NULL || len < 0 || (b->mlen < b->slen && b->mlen > 0)) return -__LINE__;
b->slen = 0;
return bsetstr (b, len, NULL, c);
}
/* int bReplicate (bstring b, int n)
*
* Replicate the contents of b end to end n times and replace it in b.
*/
int bReplicate (bstring b, int n) {
return bpattern (b, n * b->slen);
}
/* int bReverse (bstring b)
*
* Reverse the contents of b in place.
*/
int bReverse (bstring b) {
int i, n, m;
unsigned char t;
if (b == NULL || b->slen < 0 || b->mlen < b->slen) return -__LINE__;
n = b->slen;
if (2 <= n) {
m = ((unsigned)n) >> 1;
n--;
for (i=0; i < m; i++) {
t = b->data[n - i];
b->data[n - i] = b->data[i];
b->data[i] = t;
}
}
return 0;
}
/* int bInsertChrs (bstring b, int pos, int len, unsigned char c, unsigned char fill)
*
* Insert a repeated sequence of a given character into the string at
* position pos for a length len.
*/
int bInsertChrs (bstring b, int pos, int len, unsigned char c, unsigned char fill) {
if (b == NULL || b->slen < 0 || b->mlen < b->slen || pos < 0 || len <= 0) return -__LINE__;
if (pos > b->slen
&& 0 > bsetstr (b, pos, NULL, fill)) return -__LINE__;
if (0 > balloc (b, b->slen + len)) return -__LINE__;
if (pos < b->slen) memmove (b->data + pos + len, b->data + pos, b->slen - pos);
memset (b->data + pos, c, len);
b->slen += len;
b->data[b->slen] = (unsigned char) '\0';
return BSTR_OK;
}
/* int bJustifyLeft (bstring b, int space)
*
* Left justify a string.
*/
int bJustifyLeft (bstring b, int space) {
int j, i, s, t;
unsigned char c = (unsigned char) space;
if (b == NULL || b->slen < 0 || b->mlen < b->slen) return -__LINE__;
if (space != (int) c) return BSTR_OK;
for (s=j=i=0; i < b->slen; i++) {
t = s;
s = c != (b->data[j] = b->data[i]);
j += (t|s);
}
if (j > 0 && b->data[j-1] == c) j--;
b->data[j] = (unsigned char) '\0';
b->slen = j;
return BSTR_OK;
}
/* int bJustifyRight (bstring b, int width, int space)
*
* Right justify a string to within a given width.
*/
int bJustifyRight (bstring b, int width, int space) {
int ret;
if (width <= 0) return -__LINE__;
if (0 > (ret = bJustifyLeft (b, space))) return ret;
if (b->slen <= width)
return bInsertChrs (b, 0, width - b->slen, (unsigned char) space, (unsigned char) space);
return BSTR_OK;
}
/* int bJustifyCenter (bstring b, int width, int space)
*
* Center a string's non-white space characters to within a given width by
* inserting whitespaces at the beginning.
*/
int bJustifyCenter (bstring b, int width, int space) {
int ret;
if (width <= 0) return -__LINE__;
if (0 > (ret = bJustifyLeft (b, space))) return ret;
if (b->slen <= width)
return bInsertChrs (b, 0, (width - b->slen + 1) >> 1, (unsigned char) space, (unsigned char) space);
return BSTR_OK;
}
/* int bJustifyMargin (bstring b, int width, int space)
*
* Stretch a string to flush against left and right margins by evenly
* distributing additional white space between words. If the line is too
* long to be margin justified, it is left justified.
*/
int bJustifyMargin (bstring b, int width, int space) {
struct bstrList * sl;
int i, l, c;
if (b == NULL || b->slen < 0 || b->mlen == 0 || b->mlen < b->slen) return -__LINE__;
if (NULL == (sl = bsplit (b, (unsigned char) space))) return -__LINE__;
for (l=c=i=0; i < sl->qty; i++) {
if (sl->entry[i]->slen > 0) {
c ++;
l += sl->entry[i]->slen;
}
}
if (l + c >= width || c < 2) {
bstrListDestroy (sl);
return bJustifyLeft (b, space);
}
b->slen = 0;
for (i=0; i < sl->qty; i++) {
if (sl->entry[i]->slen > 0) {
if (b->slen > 0) {
int s = (width - l + (c / 2)) / c;
bInsertChrs (b, b->slen, s, (unsigned char) space, (unsigned char) space);
l += s;
}
bconcat (b, sl->entry[i]);
c--;
if (c <= 0) break;
}
}
bstrListDestroy (sl);
return BSTR_OK;
}
static size_t readNothing (void *buff, size_t elsize, size_t nelem, void *parm) {
UNUSED(buff);
UNUSED(elsize);
UNUSED(nelem);
UNUSED(parm);
return 0; /* Immediately indicate EOF. */
}
/* struct bStream * bsFromBstr (const_bstring b);
*
* Create a bStream whose contents are a copy of the bstring passed in.
* This allows the use of all the bStream APIs with bstrings.
*/
struct bStream * bsFromBstr (const_bstring b) {
struct bStream * s = bsopen ((bNread) readNothing, NULL);
bsunread (s, b); /* Push the bstring data into the empty bStream. */
return s;
}
static size_t readRef (void *buff, size_t elsize, size_t nelem, void *parm) {
struct tagbstring * t = (struct tagbstring *) parm;
size_t tsz = elsize * nelem;
if (tsz > (size_t) t->slen) tsz = (size_t) t->slen;
if (tsz > 0) {
memcpy (buff, t->data, tsz);
t->slen -= (int) tsz;
t->data += tsz;
return tsz / elsize;
}
return 0;
}
/* The "by reference" version of the above function. This function puts
* a number of restrictions on the call site (the passed in struct
* tagbstring *will* be modified by this function, and the source data
* must remain alive and constant for the lifetime of the bStream).
* Hence it is not presented as an extern.
*/
static struct bStream * bsFromBstrRef (struct tagbstring * t) {
if (!t) return NULL;
return bsopen ((bNread) readRef, t);
}
/* char * bStr2NetStr (const_bstring b)
*
* Convert a bstring to a netstring. See
* http://cr.yp.to/proto/netstrings.txt for a description of netstrings.
* Note: 1) The value returned should be freed with a call to bcstrfree() at
* the point when it will no longer be referenced to avoid a memory
* leak.
* 2) If the returned value is non-NULL, then it also '\0' terminated
* in the character position one past the "," terminator.
*/
char * bStr2NetStr (const_bstring b) {
char strnum[sizeof (b->slen) * 3 + 1];
bstring s;
unsigned char * buff;
if (b == NULL || b->data == NULL || b->slen < 0) return NULL;
sprintf (strnum, "%d:", b->slen);
if (NULL == (s = bfromcstr (strnum))
|| bconcat (s, b) == BSTR_ERR || bconchar (s, (char) ',') == BSTR_ERR) {
bdestroy (s);
return NULL;
}
buff = s->data;
bcstrfree ((char *) s);
return (char *) buff;
}
/* bstring bNetStr2Bstr (const char * buf)
*
* Convert a netstring to a bstring. See
* http://cr.yp.to/proto/netstrings.txt for a description of netstrings.
* Note that the terminating "," *must* be present, however a following '\0'
* is *not* required.
*/
bstring bNetStr2Bstr (const char * buff) {
int i, x;
bstring b;
if (buff == NULL) return NULL;
x = 0;
for (i=0; buff[i] != ':'; i++) {
unsigned int v = buff[i] - '0';
if (v > 9 || x > ((INT_MAX - (signed int)v) / 10)) return NULL;
x = (x * 10) + v;
}
/* This thing has to be properly terminated */
if (buff[i + 1 + x] != ',') return NULL;
if (NULL == (b = bfromcstr (""))) return NULL;
if (balloc (b, x + 1) != BSTR_OK) {
bdestroy (b);
return NULL;
}
memcpy (b->data, buff + i + 1, x);
b->data[x] = (unsigned char) '\0';
b->slen = x;
return b;
}
static char b64ETable[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
/* bstring bBase64Encode (const_bstring b)
*
* Generate a base64 encoding. See: RFC1341
*/
bstring bBase64Encode (const_bstring b) {
int i, c0, c1, c2, c3;
bstring out;
if (b == NULL || b->slen < 0 || b->data == NULL) return NULL;
out = bfromcstr ("");
for (i=0; i + 2 < b->slen; i += 3) {
if (i && ((i % 57) == 0)) {
if (bconchar (out, (char) '\015') < 0 || bconchar (out, (char) '\012') < 0) {
bdestroy (out);
return NULL;
}
}
c0 = b->data[i] >> 2;
c1 = ((b->data[i] << 4) |
(b->data[i+1] >> 4)) & 0x3F;
c2 = ((b->data[i+1] << 2) |
(b->data[i+2] >> 6)) & 0x3F;
c3 = b->data[i+2] & 0x3F;
if (bconchar (out, b64ETable[c0]) < 0 ||
bconchar (out, b64ETable[c1]) < 0 ||
bconchar (out, b64ETable[c2]) < 0 ||
bconchar (out, b64ETable[c3]) < 0) {
bdestroy (out);
return NULL;
}
}
if (i && ((i % 57) == 0)) {
if (bconchar (out, (char) '\015') < 0 || bconchar (out, (char) '\012') < 0) {
bdestroy (out);
return NULL;
}
}
switch (i + 2 - b->slen) {
case 0: c0 = b->data[i] >> 2;
c1 = ((b->data[i] << 4) |
(b->data[i+1] >> 4)) & 0x3F;
c2 = (b->data[i+1] << 2) & 0x3F;
if (bconchar (out, b64ETable[c0]) < 0 ||
bconchar (out, b64ETable[c1]) < 0 ||
bconchar (out, b64ETable[c2]) < 0 ||
bconchar (out, (char) '=') < 0) {
bdestroy (out);
return NULL;
}
break;
case 1: c0 = b->data[i] >> 2;
c1 = (b->data[i] << 4) & 0x3F;
if (bconchar (out, b64ETable[c0]) < 0 ||
bconchar (out, b64ETable[c1]) < 0 ||
bconchar (out, (char) '=') < 0 ||
bconchar (out, (char) '=') < 0) {
bdestroy (out);
return NULL;
}
break;
case 2: break;
}
return out;
}
#define B64_PAD (-2)
#define B64_ERR (-1)
static int base64DecodeSymbol (unsigned char alpha) {
if ((alpha >= 'A') && (alpha <= 'Z')) return (int)(alpha - 'A');
else if ((alpha >= 'a') && (alpha <= 'z'))
return 26 + (int)(alpha - 'a');
else if ((alpha >= '0') && (alpha <= '9'))
return 52 + (int)(alpha - '0');
else if (alpha == '+') return 62;
else if (alpha == '/') return 63;
else if (alpha == '=') return B64_PAD;
else return B64_ERR;
}
/* bstring bBase64DecodeEx (const_bstring b, int * boolTruncError)
*
* Decode a base64 block of data. All MIME headers are assumed to have been
* removed. See: RFC1341
*/
bstring bBase64DecodeEx (const_bstring b, int * boolTruncError) {
int i, v;
unsigned char c0, c1, c2;
bstring out;
if (b == NULL || b->slen < 0 || b->data == NULL) return NULL;
if (boolTruncError) *boolTruncError = 0;
out = bfromcstr ("");
i = 0;
for (;;) {
do {
if (i >= b->slen) return out;
if (b->data[i] == '=') { /* Bad "too early" truncation */
if (boolTruncError) {
*boolTruncError = 1;
return out;
}
bdestroy (out);
return NULL;
}
v = base64DecodeSymbol (b->data[i]);
i++;
} while (v < 0);
c0 = (unsigned char) (v << 2);
do {
if (i >= b->slen || b->data[i] == '=') { /* Bad "too early" truncation */
if (boolTruncError) {
*boolTruncError = 1;
return out;
}
bdestroy (out);
return NULL;
}
v = base64DecodeSymbol (b->data[i]);
i++;
} while (v < 0);
c0 |= (unsigned char) (v >> 4);
c1 = (unsigned char) (v << 4);
do {
if (i >= b->slen) {
if (boolTruncError) {
*boolTruncError = 1;
return out;
}
bdestroy (out);
return NULL;
}
if (b->data[i] == '=') {
i++;
if (i >= b->slen || b->data[i] != '=' || bconchar (out, c0) < 0) {
if (boolTruncError) {
*boolTruncError = 1;
return out;
}
bdestroy (out); /* Missing "=" at the end. */
return NULL;
}
return out;
}
v = base64DecodeSymbol (b->data[i]);
i++;
} while (v < 0);
c1 |= (unsigned char) (v >> 2);
c2 = (unsigned char) (v << 6);
do {
if (i >= b->slen) {
if (boolTruncError) {
*boolTruncError = 1;
return out;
}
bdestroy (out);
return NULL;
}
if (b->data[i] == '=') {
if (bconchar (out, c0) < 0 || bconchar (out, c1) < 0) {
if (boolTruncError) {
*boolTruncError = 1;
return out;
}
bdestroy (out);
return NULL;
}
if (boolTruncError) *boolTruncError = 0;
return out;
}
v = base64DecodeSymbol (b->data[i]);
i++;
} while (v < 0);
c2 |= (unsigned char) (v);
if (bconchar (out, c0) < 0 ||
bconchar (out, c1) < 0 ||
bconchar (out, c2) < 0) {
if (boolTruncError) {
*boolTruncError = -1;
return out;
}
bdestroy (out);
return NULL;
}
}
}
#define UU_DECODE_BYTE(b) (((b) == (signed int)'`') ? 0 : (b) - (signed int)' ')
struct bUuInOut {
bstring src, dst;
int * badlines;
};
#define UU_MAX_LINELEN 45
static int bUuDecLine (void * parm, int ofs, int len) {
struct bUuInOut * io = (struct bUuInOut *) parm;
bstring s = io->src;
bstring t = io->dst;
int i, llen, otlen, ret, c0, c1, c2, c3, d0, d1, d2, d3;
if (len == 0) return 0;
llen = UU_DECODE_BYTE (s->data[ofs]);
ret = 0;
otlen = t->slen;
if (((unsigned) llen) > UU_MAX_LINELEN) { ret = -__LINE__;
goto bl;
}
llen += t->slen;
for (i=1; i < s->slen && t->slen < llen;i += 4) {
unsigned char outoctet[3];
c0 = UU_DECODE_BYTE (d0 = (int) bchare (s, i+ofs+0, ' ' - 1));
c1 = UU_DECODE_BYTE (d1 = (int) bchare (s, i+ofs+1, ' ' - 1));
c2 = UU_DECODE_BYTE (d2 = (int) bchare (s, i+ofs+2, ' ' - 1));
c3 = UU_DECODE_BYTE (d3 = (int) bchare (s, i+ofs+3, ' ' - 1));
if (((unsigned) (c0|c1) >= 0x40)) { if (!ret) ret = -__LINE__;
if (d0 > 0x60 || (d0 < (' ' - 1) && !isspace (d0)) ||
d1 > 0x60 || (d1 < (' ' - 1) && !isspace (d1))) {
t->slen = otlen;
goto bl;
}
c0 = c1 = 0;
}
outoctet[0] = (unsigned char) ((c0 << 2) | ((unsigned) c1 >> 4));
if (t->slen+1 >= llen) {
if (0 > bconchar (t, (char) outoctet[0])) return -__LINE__;
break;
}
if ((unsigned) c2 >= 0x40) { if (!ret) ret = -__LINE__;
if (d2 > 0x60 || (d2 < (' ' - 1) && !isspace (d2))) {
t->slen = otlen;
goto bl;
}
c2 = 0;
}
outoctet[1] = (unsigned char) ((c1 << 4) | ((unsigned) c2 >> 2));
if (t->slen+2 >= llen) {
if (0 > bcatblk (t, outoctet, 2)) return -__LINE__;
break;
}
if ((unsigned) c3 >= 0x40) { if (!ret) ret = -__LINE__;
if (d3 > 0x60 || (d3 < (' ' - 1) && !isspace (d3))) {
t->slen = otlen;
goto bl;
}
c3 = 0;
}
outoctet[2] = (unsigned char) ((c2 << 6) | ((unsigned) c3));
if (0 > bcatblk (t, outoctet, 3)) return -__LINE__;
}
if (t->slen < llen) { if (0 == ret) ret = -__LINE__;
t->slen = otlen;
}
bl:;
if (ret && io->badlines) {
(*io->badlines)++;
return 0;
}
return ret;
}
/* bstring bUuDecodeEx (const_bstring src, int * badlines)
*
* Performs a UUDecode of a block of data. If there are errors in the
* decoding, they are counted up and returned in "badlines", if badlines is
* not NULL. It is assumed that the "begin" and "end" lines have already
* been stripped off. The potential security problem of writing the
* filename in the begin line is something that is beyond the scope of a
* portable library.
*/
#ifdef _MSC_VER
#pragma warning(disable:4204)
#endif
bstring bUuDecodeEx (const_bstring src, int * badlines) {
struct tagbstring t;
struct bStream * s;
struct bStream * d;
bstring b;
if (!src) return NULL;
t = *src; /* Short lifetime alias to header of src */
s = bsFromBstrRef (&t); /* t is undefined after this */
if (!s) return NULL;
d = bsUuDecode (s, badlines);
b = bfromcstralloc (256, "");
if (NULL == b || 0 > bsread (b, d, INT_MAX)) {
bdestroy (b);
b = NULL;
}
bsclose (d);
bsclose (s);
return b;
}
struct bsUuCtx {
struct bUuInOut io;
struct bStream * sInp;
};
static size_t bsUuDecodePart (void *buff, size_t elsize, size_t nelem, void *parm) {
static struct tagbstring eol = bsStatic ("\r\n");
struct bsUuCtx * luuCtx = (struct bsUuCtx *) parm;
size_t tsz;
int l, lret;
if (NULL == buff || NULL == parm) return 0;
tsz = elsize * nelem;
CheckInternalBuffer:;
/* If internal buffer has sufficient data, just output it */
if (((size_t) luuCtx->io.dst->slen) > tsz) {
memcpy (buff, luuCtx->io.dst->data, tsz);
bdelete (luuCtx->io.dst, 0, (int) tsz);
return nelem;
}
DecodeMore:;
if (0 <= (l = binchr (luuCtx->io.src, 0, &eol))) {
int ol = 0;
struct tagbstring t;
bstring s = luuCtx->io.src;
luuCtx->io.src = &t;
do {
if (l > ol) {
bmid2tbstr (t, s, ol, l - ol);
lret = bUuDecLine (&luuCtx->io, 0, t.slen);
if (0 > lret) {
luuCtx->io.src = s;
goto Done;
}
}
ol = l + 1;
if (((size_t) luuCtx->io.dst->slen) > tsz) break;
l = binchr (s, ol, &eol);
} while (BSTR_ERR != l);
bdelete (s, 0, ol);
luuCtx->io.src = s;
goto CheckInternalBuffer;
}
if (BSTR_ERR != bsreada (luuCtx->io.src, luuCtx->sInp, bsbufflength (luuCtx->sInp, BSTR_BS_BUFF_LENGTH_GET))) {
goto DecodeMore;
}
bUuDecLine (&luuCtx->io, 0, luuCtx->io.src->slen);
Done:;
/* Output any lingering data that has been translated */
if (((size_t) luuCtx->io.dst->slen) > 0) {
if (((size_t) luuCtx->io.dst->slen) > tsz) goto CheckInternalBuffer;
memcpy (buff, luuCtx->io.dst->data, luuCtx->io.dst->slen);
tsz = luuCtx->io.dst->slen / elsize;
luuCtx->io.dst->slen = 0;
if (tsz > 0) return tsz;
}
/* Deallocate once EOF becomes triggered */
bdestroy (luuCtx->io.dst);
bdestroy (luuCtx->io.src);
free (luuCtx);
return 0;
}
/* bStream * bsUuDecode (struct bStream * sInp, int * badlines)
*
* Creates a bStream which performs the UUDecode of an an input stream. If
* there are errors in the decoding, they are counted up and returned in
* "badlines", if badlines is not NULL. It is assumed that the "begin" and
* "end" lines have already been stripped off. The potential security
* problem of writing the filename in the begin line is something that is
* beyond the scope of a portable library.
*/
struct bStream * bsUuDecode (struct bStream * sInp, int * badlines) {
struct bsUuCtx * luuCtx = (struct bsUuCtx *) malloc (sizeof (struct bsUuCtx));
struct bStream * sOut;
if (NULL == luuCtx) return NULL;
luuCtx->io.src = bfromcstr ("");
luuCtx->io.dst = bfromcstr ("");
if (NULL == luuCtx->io.dst || NULL == luuCtx->io.src) {
CleanUpFailureToAllocate:;
bdestroy (luuCtx->io.dst);
bdestroy (luuCtx->io.src);
free (luuCtx);
return NULL;
}
luuCtx->io.badlines = badlines;
if (badlines) *badlines = 0;
luuCtx->sInp = sInp;
sOut = bsopen ((bNread) bsUuDecodePart, luuCtx);
if (NULL == sOut) goto CleanUpFailureToAllocate;
return sOut;
}
#define UU_ENCODE_BYTE(b) (char) (((b) == 0) ? '`' : ((b) + ' '))
/* bstring bUuEncode (const_bstring src)
*
* Performs a UUEncode of a block of data. The "begin" and "end" lines are
* not appended.
*/
bstring bUuEncode (const_bstring src) {
bstring out;
int i, j, jm;
unsigned int c0, c1, c2;
if (src == NULL || src->slen < 0 || src->data == NULL) return NULL;
if ((out = bfromcstr ("")) == NULL) return NULL;
for (i=0; i < src->slen; i += UU_MAX_LINELEN) {
if ((jm = i + UU_MAX_LINELEN) > src->slen) jm = src->slen;
if (bconchar (out, UU_ENCODE_BYTE (jm - i)) < 0) {
bstrFree (out);
break;
}
for (j = i; j < jm; j += 3) {
c0 = (unsigned int) bchar (src, j );
c1 = (unsigned int) bchar (src, j + 1);
c2 = (unsigned int) bchar (src, j + 2);
if (bconchar (out, UU_ENCODE_BYTE ( (c0 & 0xFC) >> 2)) < 0 ||
bconchar (out, UU_ENCODE_BYTE (((c0 & 0x03) << 4) | ((c1 & 0xF0) >> 4))) < 0 ||
bconchar (out, UU_ENCODE_BYTE (((c1 & 0x0F) << 2) | ((c2 & 0xC0) >> 6))) < 0 ||
bconchar (out, UU_ENCODE_BYTE ( (c2 & 0x3F))) < 0) {
bstrFree (out);
goto End;
}
}
if (bconchar (out, (char) '\r') < 0 || bconchar (out, (char) '\n') < 0) {
bstrFree (out);
break;
}
}
End:;
return out;
}
/* bstring bYEncode (const_bstring src)
*
* Performs a YEncode of a block of data. No header or tail info is
* appended. See: http://www.yenc.org/whatis.htm and
* http://www.yenc.org/yenc-draft.1.3.txt
*/
bstring bYEncode (const_bstring src) {
int i;
bstring out;
unsigned char c;
if (src == NULL || src->slen < 0 || src->data == NULL) return NULL;
if ((out = bfromcstr ("")) == NULL) return NULL;
for (i=0; i < src->slen; i++) {
c = (unsigned char)(src->data[i] + 42);
if (c == '=' || c == '\0' || c == '\r' || c == '\n') {
if (0 > bconchar (out, (char) '=')) {
bdestroy (out);
return NULL;
}
c += (unsigned char) 64;
}
if (0 > bconchar (out, c)) {
bdestroy (out);
return NULL;
}
}
return out;
}
/* bstring bYDecode (const_bstring src)
*
* Performs a YDecode of a block of data. See:
* http://www.yenc.org/whatis.htm and http://www.yenc.org/yenc-draft.1.3.txt
*/
#define MAX_OB_LEN (64)
bstring bYDecode (const_bstring src) {
int i;
bstring out;
unsigned char c;
unsigned char octetbuff[MAX_OB_LEN];
int obl;
if (src == NULL || src->slen < 0 || src->data == NULL) return NULL;
if ((out = bfromcstr ("")) == NULL) return NULL;
obl = 0;
for (i=0; i < src->slen; i++) {
if ('=' == (c = src->data[i])) { /* The = escape mode */
i++;
if (i >= src->slen) {
bdestroy (out);
return NULL;
}
c = (unsigned char) (src->data[i] - 64);
} else {
if ('\0' == c) {
bdestroy (out);
return NULL;
}
/* Extraneous CR/LFs are to be ignored. */
if (c == '\r' || c == '\n') continue;
}
octetbuff[obl] = (unsigned char) ((int) c - 42);
obl++;
if (obl >= MAX_OB_LEN) {
if (0 > bcatblk (out, octetbuff, obl)) {
bdestroy (out);
return NULL;
}
obl = 0;
}
}
if (0 > bcatblk (out, octetbuff, obl)) {
bdestroy (out);
out = NULL;
}
return out;
}
/* int bSGMLEncode (bstring b)
*
* Change the string into a version that is quotable in SGML (HTML, XML).
*/
int bSGMLEncode (bstring b) {
static struct tagbstring fr[4][2] = {
{ bsStatic("&"), bsStatic("&amp;") },
{ bsStatic("\""), bsStatic("&quot;") },
{ bsStatic("<"), bsStatic("&lt;") },
{ bsStatic(">"), bsStatic("&gt;") } };
int i;
for (i = 0; i < 4; i++) {
int ret = bfindreplace (b, &fr[i][0], &fr[i][1], 0);
if (0 > ret) return ret;
}
return 0;
}
/* bstring bStrfTime (const char * fmt, const struct tm * timeptr)
*
* Takes a format string that is compatible with strftime and a struct tm
* pointer, formats the time according to the format string and outputs
* the bstring as a result. Note that if there is an early generation of a
* '\0' character, the bstring will be truncated to this end point.
*/
bstring bStrfTime (const char * fmt, const struct tm * timeptr) {
#if defined (__TURBOC__) && !defined (__BORLANDC__)
static struct tagbstring ns = bsStatic ("bStrfTime Not supported");
fmt = fmt;
timeptr = timeptr;
return &ns;
#else
bstring buff;
int n;
size_t r;
if (fmt == NULL) return NULL;
/* Since the length is not determinable beforehand, a search is
performed using the truncating "strftime" call on increasing
potential sizes for the output result. */
if ((n = (int) (2*strlen (fmt))) < 16) n = 16;
buff = bfromcstralloc (n+2, "");
for (;;) {
if (BSTR_OK != balloc (buff, n + 2)) {
bdestroy (buff);
return NULL;
}
r = strftime ((char *) buff->data, n + 1, fmt, timeptr);
if (r > 0) {
buff->slen = (int) r;
break;
}
n += n;
}
return buff;
#endif
}
/* int bSetCstrChar (bstring a, int pos, char c)
*
* Sets the character at position pos to the character c in the bstring a.
* If the character c is NUL ('\0') then the string is truncated at this
* point. Note: this does not enable any other '\0' character in the bstring
* as terminator indicator for the string. pos must be in the position
* between 0 and b->slen inclusive, otherwise BSTR_ERR will be returned.
*/
int bSetCstrChar (bstring b, int pos, char c) {
if (NULL == b || b->mlen <= 0 || b->slen < 0 || b->mlen < b->slen)
return BSTR_ERR;
if (pos < 0 || pos > b->slen) return BSTR_ERR;
if (pos == b->slen) {
if ('\0' != c) return bconchar (b, c);
return 0;
}
b->data[pos] = (unsigned char) c;
if ('\0' == c) b->slen = pos;
return 0;
}
/* int bSetChar (bstring b, int pos, char c)
*
* Sets the character at position pos to the character c in the bstring a.
* The string is not truncated if the character c is NUL ('\0'). pos must
* be in the position between 0 and b->slen inclusive, otherwise BSTR_ERR
* will be returned.
*/
int bSetChar (bstring b, int pos, char c) {
if (NULL == b || b->mlen <= 0 || b->slen < 0 || b->mlen < b->slen)
return BSTR_ERR;
if (pos < 0 || pos > b->slen) return BSTR_ERR;
if (pos == b->slen) {
return bconchar (b, c);
}
b->data[pos] = (unsigned char) c;
return 0;
}
#define INIT_SECURE_INPUT_LENGTH (256)
/* bstring bSecureInput (int maxlen, int termchar,
* bNgetc vgetchar, void * vgcCtx)
*
* Read input from an abstracted input interface, for a length of at most
* maxlen characters. If maxlen <= 0, then there is no length limit put
* on the input. The result is terminated early if vgetchar() return EOF
* or the user specified value termchar.
*
*/
bstring bSecureInput (int maxlen, int termchar, bNgetc vgetchar, void * vgcCtx) {
int i, m, c;
bstring b, t;
if (!vgetchar) return NULL;
b = bfromcstralloc (INIT_SECURE_INPUT_LENGTH, "");
if ((c = UCHAR_MAX + 1) == termchar) c++;
for (i=0; ; i++) {
if (termchar == c || (maxlen > 0 && i >= maxlen)) break;
c = vgetchar (vgcCtx);
if (EOF == c) break;
if (i+1 >= b->mlen) {
/* Double size, and deal with numeric overflows */
if (b->mlen <= INT_MAX / 2) m = b->mlen << 1;
else if (b->mlen <= INT_MAX - 1024) m = b->mlen + 1024;
else if (b->mlen <= INT_MAX - 16) m = b->mlen + 16;
else if (b->mlen <= INT_MAX - 1) m = b->mlen + 1;
else {
bSecureDestroy (b); /* Cleanse partial buffer */
return NULL;
}
t = bfromcstrrangealloc (b->mlen + 1, m, "");
if (t) memcpy (t->data, b->data, i);
bSecureDestroy (b); /* Cleanse previous buffer */
b = t;
if (!b) return b;
}
b->data[i] = (unsigned char) c;
}
b->slen = i;
b->data[i] = (unsigned char) '\0';
return b;
}
#define BWS_BUFF_SZ (1024)
struct bwriteStream {
bstring buff; /* Buffer for underwrites */
void * parm; /* The stream handle for core stream */
bNwrite writeFn; /* fwrite work-a-like fnptr for core stream */
int isEOF; /* track stream's EOF state */
int minBuffSz;
};
/* struct bwriteStream * bwsOpen (bNwrite writeFn, void * parm)
*
* Wrap a given open stream (described by a fwrite work-a-like function
* pointer and stream handle) into an open bwriteStream suitable for write
* streaming functions.
*/
struct bwriteStream * bwsOpen (bNwrite writeFn, void * parm) {
struct bwriteStream * ws;
if (NULL == writeFn) return NULL;
ws = (struct bwriteStream *) malloc (sizeof (struct bwriteStream));
if (ws) {
if (NULL == (ws->buff = bfromcstr (""))) {
free (ws);
ws = NULL;
} else {
ws->parm = parm;
ws->writeFn = writeFn;
ws->isEOF = 0;
ws->minBuffSz = BWS_BUFF_SZ;
}
}
return ws;
}
#define internal_bwswriteout(ws,b) { \
if ((b)->slen > 0) { \
if (1 != (ws->writeFn ((b)->data, (b)->slen, 1, ws->parm))) { \
ws->isEOF = 1; \
return BSTR_ERR; \
} \
} \
}
/* int bwsWriteFlush (struct bwriteStream * ws)
*
* Force any pending data to be written to the core stream.
*/
int bwsWriteFlush (struct bwriteStream * ws) {
if (NULL == ws || ws->isEOF || 0 >= ws->minBuffSz ||
NULL == ws->writeFn || NULL == ws->buff) return BSTR_ERR;
internal_bwswriteout (ws, ws->buff);
ws->buff->slen = 0;
return 0;
}
/* int bwsWriteBstr (struct bwriteStream * ws, const_bstring b)
*
* Send a bstring to a bwriteStream. If the stream is at EOF BSTR_ERR is
* returned. Note that there is no deterministic way to determine the exact
* cut off point where the core stream stopped accepting data.
*/
int bwsWriteBstr (struct bwriteStream * ws, const_bstring b) {
struct tagbstring t;
int l;
if (NULL == ws || NULL == b || NULL == ws->buff ||
ws->isEOF || 0 >= ws->minBuffSz || NULL == ws->writeFn)
return BSTR_ERR;
/* Buffer prepacking optimization */
if (b->slen > 0 && ws->buff->mlen - ws->buff->slen > b->slen) {
static struct tagbstring empty = bsStatic ("");
if (0 > bconcat (ws->buff, b)) return BSTR_ERR;
return bwsWriteBstr (ws, &empty);
}
if (0 > (l = ws->minBuffSz - ws->buff->slen)) {
internal_bwswriteout (ws, ws->buff);
ws->buff->slen = 0;
l = ws->minBuffSz;
}
if (b->slen < l) return bconcat (ws->buff, b);
if (0 > bcatblk (ws->buff, b->data, l)) return BSTR_ERR;
internal_bwswriteout (ws, ws->buff);
ws->buff->slen = 0;
bmid2tbstr (t, (bstring) b, l, b->slen);
if (t.slen >= ws->minBuffSz) {
internal_bwswriteout (ws, &t);
return 0;
}
return bassign (ws->buff, &t);
}
/* int bwsWriteBlk (struct bwriteStream * ws, void * blk, int len)
*
* Send a block of data a bwriteStream. If the stream is at EOF BSTR_ERR is
* returned.
*/
int bwsWriteBlk (struct bwriteStream * ws, void * blk, int len) {
struct tagbstring t;
if (NULL == blk || len < 0) return BSTR_ERR;
blk2tbstr (t, blk, len);
return bwsWriteBstr (ws, &t);
}
/* int bwsIsEOF (const struct bwriteStream * ws)
*
* Returns 0 if the stream is currently writable, 1 if the core stream has
* responded by not accepting the previous attempted write.
*/
int bwsIsEOF (const struct bwriteStream * ws) {
if (NULL == ws || NULL == ws->buff || 0 > ws->minBuffSz ||
NULL == ws->writeFn) return BSTR_ERR;
return ws->isEOF;
}
/* int bwsBuffLength (struct bwriteStream * ws, int sz)
*
* Set the length of the buffer used by the bwsStream. If sz is zero, the
* length is not set. This function returns with the previous length.
*/
int bwsBuffLength (struct bwriteStream * ws, int sz) {
int oldSz;
if (ws == NULL || sz < 0) return BSTR_ERR;
oldSz = ws->minBuffSz;
if (sz > 0) ws->minBuffSz = sz;
return oldSz;
}
/* void * bwsClose (struct bwriteStream * s)
*
* Close the bwriteStream, and return the handle to the stream that was
* originally used to open the given stream. Note that even if the stream
* is at EOF it still needs to be closed with a call to bwsClose.
*/
void * bwsClose (struct bwriteStream * ws) {
void * parm;
if (NULL == ws || NULL == ws->buff || 0 >= ws->minBuffSz ||
NULL == ws->writeFn) return NULL;
bwsWriteFlush (ws);
parm = ws->parm;
ws->parm = NULL;
ws->minBuffSz = -1;
ws->writeFn = NULL;
bstrFree (ws->buff);
free (ws);
return parm;
}