https://svn.apache.org/viewvc?view=revision&revision=1877195 https://svn.apache.org/viewvc?view=revision&revision=1883879 https://svn.apache.org/viewvc?view=revision&revision=1883880 https://svn.apache.org/viewvc?view=revision&revision=1904675 --- apr-1.7.0/encoding/apr_encode.c.encoding +++ apr-1.7.0/encoding/apr_encode.c @@ -211,19 +211,20 @@ APR_DECLARE(apr_status_t) apr_encode_base64(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; const char *base; - if (!src) { - return APR_NOTFOUND; + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); } - - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } if (dest) { - register char *bufout = dest; - int i; + char *bufout = dest; + apr_size_t i = 0; if (0 == ((flags & APR_ENCODE_BASE64URL))) { base = base64; @@ -232,60 +233,64 @@ base = base64url; } - for (i = 0; i < slen - 2; i += 3) { - *bufout++ = base[ENCODE_TO_ASCII(((src[i]) >> 2) & 0x3F)]; - *bufout++ = base[ENCODE_TO_ASCII((((src[i]) & 0x3) << 4) - | ((int)((src[i + 1]) & 0xF0) >> 4))]; - *bufout++ = base[ENCODE_TO_ASCII((((src[i + 1]) & 0xF) << 2) - | ((int)(ENCODE_TO_ASCII(src[i + 2]) & 0xC0) >> 6))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 2]) & 0x3F)]; - } - if (i < slen) { - *bufout++ = base[ENCODE_TO_ASCII(((src[i]) >> 2) & 0x3F)]; - if (i == (slen - 1)) { - *bufout++ = base[ENCODE_TO_ASCII((((src[i]) & 0x3) << 4))]; + if (count > 2) { + for (; i < count - 2; i += 3) { + *bufout++ = base[(TO_ASCII(src[i]) >> 2) & 0x3F]; + *bufout++ = base[((TO_ASCII(src[i]) & 0x3) << 4 | + (TO_ASCII(src[i + 1]) & 0xF0) >> 4)]; + *bufout++ = base[((TO_ASCII(src[i + 1]) & 0xF) << 2 | + (TO_ASCII(src[i + 2]) & 0xC0) >> 6)]; + *bufout++ = base[TO_ASCII(src[i + 2]) & 0x3F]; + } + } + if (i < count) { + *bufout++ = base[(TO_ASCII(src[i]) >> 2) & 0x3F]; + if (i == (count - 1)) { + *bufout++ = base[(TO_ASCII(src[i]) & 0x3) << 4]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; } } else { - *bufout++ = base[ENCODE_TO_ASCII((((src[i]) & 0x3) << 4) - | ((int)((src[i + 1]) & 0xF0) >> 4))]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 1]) & 0xF) << 2)]; + *bufout++ = base[((TO_ASCII(src[i]) & 0x3) << 4 | + (TO_ASCII(src[i + 1]) & 0xF0) >> 4)]; + *bufout++ = base[(TO_ASCII(src[i + 1]) & 0xF) << 2]; } if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; } } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; + dest[dlen] = '\0'; + } + else { + dlen = ((count + 2u) / 3u) * 4u + 1u; + if (dlen <= count) { + status = APR_ENOSPC; } - - *bufout++ = '\0'; - - return APR_SUCCESS; } if (len) { - *len = ((slen + 2) / 3 * 4) + 1; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(apr_status_t) apr_encode_base64_binary(char *dest, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len) { + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; const char *base; - if (!src) { - return APR_NOTFOUND; + if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } if (dest) { - register char *bufout = dest; - int i; + char *bufout = dest; + apr_size_t i = 0; if (0 == ((flags & APR_ENCODE_BASE64URL))) { base = base64; @@ -294,46 +299,48 @@ base = base64url; } - for (i = 0; i < slen - 2; i += 3) { - *bufout++ = base[(src[i] >> 2) & 0x3F]; - *bufout++ = base[((src[i] & 0x3) << 4) - | ((int)(src[i + 1] & 0xF0) >> 4)]; - *bufout++ = base[((src[i + 1] & 0xF) << 2) - | ((int)(src[i + 2] & 0xC0) >> 6)]; - *bufout++ = base[src[i + 2] & 0x3F]; + if (count > 2) { + for (; i < count - 2; i += 3) { + *bufout++ = base[(src[i] >> 2) & 0x3F]; + *bufout++ = base[((src[i] & 0x3) << 4 | + (src[i + 1] & 0xF0) >> 4)]; + *bufout++ = base[((src[i + 1] & 0xF) << 2 | + (src[i + 2] & 0xC0) >> 6)]; + *bufout++ = base[src[i + 2] & 0x3F]; + } } - if (i < slen) { + if (i < count) { *bufout++ = base[(src[i] >> 2) & 0x3F]; - if (i == (slen - 1)) { + if (i == (count - 1)) { *bufout++ = base[((src[i] & 0x3) << 4)]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; } } else { - *bufout++ = base[((src[i] & 0x3) << 4) - | ((int)(src[i + 1] & 0xF0) >> 4)]; - *bufout++ = base[((src[i + 1] & 0xF) << 2)]; + *bufout++ = base[((src[i] & 0x3) << 4 | + (src[i + 1] & 0xF0) >> 4)]; + *bufout++ = base[(src[i + 1] & 0xF) << 2]; } if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; } } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; + dest[dlen] = '\0'; + } + else { + dlen = ((count + 2u) / 3u) * 4u + 1u; + if (dlen <= count) { + status = APR_ENOSPC; } - - *bufout++ = '\0'; - - return APR_SUCCESS; } if (len) { - *len = ((slen + 2) / 3 * 4) + 1; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(const char *)apr_pencode_base64(apr_pool_t * p, const char *src, @@ -341,13 +348,19 @@ { apr_size_t size; + if (!src) { + return NULL; + } + switch (apr_encode_base64(NULL, src, slen, flags, &size)) { case APR_SUCCESS:{ char *cmd = apr_palloc(p, size); - apr_encode_base64(cmd, src, slen, flags, len); + if (cmd) { + apr_encode_base64(cmd, src, slen, flags, len); + } return cmd; } - case APR_NOTFOUND:{ + default:{ break; } } @@ -360,13 +373,19 @@ { apr_size_t size; + if (!src) { + return NULL; + } + switch (apr_encode_base64_binary(NULL, src, slen, flags, &size)) { case APR_SUCCESS:{ char *cmd = apr_palloc(p, size); - apr_encode_base64_binary(cmd, src, slen, flags, len); + if (cmd) { + apr_encode_base64_binary(cmd, src, slen, flags, len); + } return cmd; } - case APR_NOTFOUND:{ + default:{ break; } } @@ -377,149 +396,184 @@ APR_DECLARE(apr_status_t) apr_decode_base64(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - if (!src) { - return APR_NOTFOUND; - } + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); + } + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } - if (dest) { - register const unsigned char *bufin; - register unsigned char *bufout; - register apr_size_t nprbytes; - register apr_size_t count = slen; - - apr_status_t status; + if (src) { + const unsigned char *bufin; bufin = (const unsigned char *)src; - while (pr2six[*(bufin++)] < 64 && count) - count--; - nprbytes = (bufin - (const unsigned char *)src) - 1; - while (pr2six[*(bufin++)] > 64 && count) + while (count) { + if (pr2six[*bufin] >= 64) { + if (!(flags & APR_ENCODE_RELAXED)) { + if (count <= 2) { + do { + if (pr2six[bufin[count - 1]] <= 64) + break; + } while (--count); + } + if (count) { + status = APR_BADCH; + } + } + break; + } count--; + bufin++; + } + count = bufin - (const unsigned char *)src; - status = flags & APR_ENCODE_RELAXED ? APR_SUCCESS : - count ? APR_BADCH : APR_SUCCESS; + if (dest) { + unsigned char *bufout; - bufout = (unsigned char *)dest; - bufin = (const unsigned char *)src; + bufout = (unsigned char *)dest; + bufin = (const unsigned char *)src; - while (nprbytes > 4) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2six[bufin[0]] << 2 - | pr2six[bufin[1]] >> 4); - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2six[bufin[1]] << 4 | pr2six[bufin[2]] >> 2); - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2six[bufin[2]] << 6 | pr2six[bufin[3]]); - bufin += 4; - nprbytes -= 4; - } + while (count >= 4) { + *(bufout++) = TO_NATIVE(pr2six[bufin[0]] << 2 | + pr2six[bufin[1]] >> 4); + *(bufout++) = TO_NATIVE(pr2six[bufin[1]] << 4 | + pr2six[bufin[2]] >> 2); + *(bufout++) = TO_NATIVE(pr2six[bufin[2]] << 6 | + pr2six[bufin[3]]); + bufin += 4; + count -= 4; + } - if (nprbytes == 1) { - status = APR_BADCH; - } - if (nprbytes > 1) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2six[*bufin] << 2 | pr2six[bufin[1]] >> 4); - } - if (nprbytes > 2) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2six[bufin[1]] << 4 | pr2six[bufin[2]] >> 2); - } - if (nprbytes > 3) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2six[bufin[2]] << 6 | pr2six[bufin[3]]); - } + if (count == 1) { + status = APR_EINCOMPLETE; + } + if (count > 1) { + *(bufout++) = TO_NATIVE(pr2six[bufin[0]] << 2 | + pr2six[bufin[1]] >> 4); + } + if (count > 2) { + *(bufout++) = TO_NATIVE(pr2six[bufin[1]] << 4 | + pr2six[bufin[2]] >> 2); + } - if (len) { - *len = bufout - (unsigned char *)dest; + dlen = bufout - (unsigned char *)dest; + dest[dlen] = '\0'; } + } - *(bufout++) = 0; - - return status; + if (!src || !dest) { + dlen = (count / 4u) * 3u + 1u; + switch (count % 4) { + case 3: + dlen += 2; + break; + case 2: + dlen++; + break; + case 1: + status = APR_EINCOMPLETE; + break; + } } if (len) { - *len = (((int)slen + 3) / 4) * 3 + 1; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(apr_status_t) apr_decode_base64_binary(unsigned char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - if (!src) { - return APR_NOTFOUND; - } + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); + } + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } - if (dest) { - register const unsigned char *bufin; - register unsigned char *bufout; - register apr_size_t nprbytes; - register apr_size_t count = slen; - - apr_status_t status; + if (src) { + const unsigned char *bufin; bufin = (const unsigned char *)src; - while (pr2six[*(bufin++)] < 64 && count) - count--; - nprbytes = (bufin - (const unsigned char *)src) - 1; - while (pr2six[*(bufin++)] > 64 && count) + while (count) { + if (pr2six[*bufin] >= 64) { + if (!(flags & APR_ENCODE_RELAXED)) { + if (count <= 2) { + do { + if (pr2six[bufin[count - 1]] <= 64) + break; + } while (--count); + } + if (count) { + status = APR_BADCH; + } + } + break; + } count--; + bufin++; + } + count = bufin - (const unsigned char *)src; - status = flags & APR_ENCODE_RELAXED ? APR_SUCCESS : - count ? APR_BADCH : APR_SUCCESS; + if (dest) { + unsigned char *bufout; - bufout = (unsigned char *)dest; - bufin = (const unsigned char *)src; + bufout = (unsigned char *)dest; + bufin = (const unsigned char *)src; - while (nprbytes > 4) { - *(bufout++) = (unsigned char)(pr2six[bufin[0]] << 2 - | pr2six[bufin[1]] >> 4); - *(bufout++) = (unsigned char)(pr2six[bufin[1]] << 4 - | pr2six[bufin[2]] >> 2); - *(bufout++) = (unsigned char)(pr2six[bufin[2]] << 6 - | pr2six[bufin[3]]); - bufin += 4; - nprbytes -= 4; - } + while (count >= 4) { + *(bufout++) = (pr2six[bufin[0]] << 2 | + pr2six[bufin[1]] >> 4); + *(bufout++) = (pr2six[bufin[1]] << 4 | + pr2six[bufin[2]] >> 2); + *(bufout++) = (pr2six[bufin[2]] << 6 | + pr2six[bufin[3]]); + bufin += 4; + count -= 4; + } - if (nprbytes == 1) { - status = APR_BADCH; - } - if (nprbytes > 1) { - *(bufout++) = (unsigned char)(pr2six[bufin[0]] << 2 - | pr2six[bufin[1]] >> 4); - } - if (nprbytes > 2) { - *(bufout++) = (unsigned char)(pr2six[bufin[1]] << 4 - | pr2six[bufin[2]] >> 2); - } - if (nprbytes > 3) { - *(bufout++) = (unsigned char)(pr2six[bufin[2]] << 6 - | pr2six[bufin[3]]); - } + if (count == 1) { + status = APR_EINCOMPLETE; + } + if (count > 1) { + *(bufout++) = (pr2six[bufin[0]] << 2 | + pr2six[bufin[1]] >> 4); + } + if (count > 2) { + *(bufout++) = (pr2six[bufin[1]] << 4 | + pr2six[bufin[2]] >> 2); + } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; } + } - return status; + if (!src || !dest) { + dlen = (count / 4u) * 3u; + switch (count % 4) { + case 3: + dlen += 2; + break; + case 2: + dlen++; + break; + case 1: + status = APR_EINCOMPLETE; + break; + } } if (len) { - *len = (((int)slen + 3) / 4) * 3; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(const char *)apr_pdecode_base64(apr_pool_t * p, const char *str, @@ -527,14 +581,19 @@ { apr_size_t size; + if (!str) { + return NULL; + } + switch (apr_decode_base64(NULL, str, slen, flags, &size)) { case APR_SUCCESS:{ void *cmd = apr_palloc(p, size); - apr_decode_base64(cmd, str, slen, flags, len); + if (cmd) { + apr_decode_base64(cmd, str, slen, flags, len); + } return cmd; } - case APR_BADCH: - case APR_NOTFOUND:{ + default:{ break; } } @@ -547,15 +606,20 @@ { apr_size_t size; + if (!str) { + return NULL; + } + switch (apr_decode_base64_binary(NULL, str, slen, flags, &size)) { case APR_SUCCESS:{ unsigned char *cmd = apr_palloc(p, size + 1); - cmd[size] = 0; - apr_decode_base64_binary(cmd, str, slen, flags, len); + if (cmd) { + apr_decode_base64_binary(cmd, str, slen, flags, len); + cmd[size] = 0; + } return cmd; } - case APR_BADCH: - case APR_NOTFOUND:{ + default:{ break; } } @@ -566,19 +630,20 @@ APR_DECLARE(apr_status_t) apr_encode_base32(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; const char *base; - if (!src) { - return APR_NOTFOUND; + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); } - - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } if (dest) { - register char *bufout = dest; - int i; + char *bufout = dest; + apr_size_t i = 0; if (!((flags & APR_ENCODE_BASE32HEX))) { base = base32; @@ -587,24 +652,26 @@ base = base32hex; } - for (i = 0; i < slen - 4; i += 5) { - *bufout++ = base[ENCODE_TO_ASCII((src[i] >> 3) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 1] << 4) & 0x10) - | ((src[i + 2] >> 4) & 0xF))]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 2] << 1) & 0x1E) - | ((src[i + 3] >> 7) & 0x1))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 3] >> 2) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 3] << 3) & 0x18) - | ((src[i + 4] >> 5) & 0x7))]; - *bufout++ = base[ENCODE_TO_ASCII(src[i + 4] & 0x1F)]; - } - if (i < slen) { - *bufout++ = base[ENCODE_TO_ASCII(src[i] >> 3) & 0x1F]; - if (i == (slen - 1)) { - *bufout++ = base[ENCODE_TO_ASCII((src[i] << 2) & 0x1C)]; + if (count > 4) { + for (; i < count - 4; i += 5) { + *bufout++ = base[(TO_ASCII(src[i]) >> 3) & 0x1F]; + *bufout++ = base[(((TO_ASCII(src[i]) << 2) & 0x1C) | + ((TO_ASCII(src[i + 1]) >> 6) & 0x3))]; + *bufout++ = base[(TO_ASCII(src[i + 1]) >> 1) & 0x1F]; + *bufout++ = base[(((TO_ASCII(src[i + 1]) << 4) & 0x10) | + ((TO_ASCII(src[i + 2]) >> 4) & 0xF))]; + *bufout++ = base[(((TO_ASCII(src[i + 2]) << 1) & 0x1E) | + ((TO_ASCII(src[i + 3]) >> 7) & 0x1))]; + *bufout++ = base[(TO_ASCII(src[i + 3]) >> 2) & 0x1F]; + *bufout++ = base[(((TO_ASCII(src[i + 3]) << 3) & 0x18) | + ((TO_ASCII(src[i + 4]) >> 5) & 0x7))]; + *bufout++ = base[TO_ASCII(src[i + 4]) & 0x1F]; + } + } + if (i < count) { + *bufout++ = base[(TO_ASCII(src[i]) >> 3) & 0x1F]; + if (i == (count - 1)) { + *bufout++ = base[(TO_ASCII(src[i]) << 2) & 0x1C]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; *bufout++ = '='; @@ -614,11 +681,11 @@ *bufout++ = '='; } } - else if (i == (slen - 2)) { - *bufout++ = base[ENCODE_TO_ASCII(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 1] << 4) & 0x10)]; + else if (i == (count - 2)) { + *bufout++ = base[(((TO_ASCII(src[i]) << 2) & 0x1C) | + ((TO_ASCII(src[i + 1]) >> 6) & 0x3))]; + *bufout++ = base[(TO_ASCII(src[i + 1]) >> 1) & 0x1F]; + *bufout++ = base[(TO_ASCII(src[i + 1]) << 4) & 0x10]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; *bufout++ = '='; @@ -626,13 +693,13 @@ *bufout++ = '='; } } - else if (i == (slen - 3)) { - *bufout++ = base[ENCODE_TO_ASCII(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 1] << 4) & 0x10) - | ((src[i + 2] >> 4) & 0xF))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 2] << 1) & 0x1E)]; + else if (i == (count - 3)) { + *bufout++ = base[(((TO_ASCII(src[i]) << 2) & 0x1C) | + ((TO_ASCII(src[i + 1]) >> 6) & 0x3))]; + *bufout++ = base[(TO_ASCII(src[i + 1]) >> 1) & 0x1F]; + *bufout++ = base[(((TO_ASCII(src[i + 1]) << 4) & 0x10) | + ((TO_ASCII(src[i + 2]) >> 4) & 0xF))]; + *bufout++ = base[(TO_ASCII(src[i + 2]) << 1) & 0x1E]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; *bufout++ = '='; @@ -640,49 +707,51 @@ } } else { - *bufout++ = base[ENCODE_TO_ASCII(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 1] << 4) & 0x10) - | ((src[i + 2] >> 4) & 0xF))]; - *bufout++ = base[ENCODE_TO_ASCII(((src[i + 2] << 1) & 0x1E) - | ((src[i + 3] >> 7) & 0x1))]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 3] >> 2) & 0x1F)]; - *bufout++ = base[ENCODE_TO_ASCII((src[i + 3] << 3) & 0x18)]; + *bufout++ = base[(((TO_ASCII(src[i]) << 2) & 0x1C) | + ((TO_ASCII(src[i + 1]) >> 6) & 0x3))]; + *bufout++ = base[(TO_ASCII(src[i + 1]) >> 1) & 0x1F]; + *bufout++ = base[(((TO_ASCII(src[i + 1]) << 4) & 0x10) | + ((TO_ASCII(src[i + 2]) >> 4) & 0xF))]; + *bufout++ = base[(((TO_ASCII(src[i + 2]) << 1) & 0x1E) | + ((TO_ASCII(src[i + 3]) >> 7) & 0x1))]; + *bufout++ = base[(TO_ASCII(src[i + 3]) >> 2) & 0x1F]; + *bufout++ = base[(TO_ASCII(src[i + 3]) << 3) & 0x18]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; } } } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; + dest[dlen] = '\0'; + } + else { + dlen = ((count + 4u) / 5u) * 8u + 1u; + if (dlen <= count) { + status = APR_ENOSPC; } - - *bufout++ = '\0'; - - return APR_SUCCESS; } if (len) { - *len = ((slen + 2) / 3 * 4) + 1; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(apr_status_t) apr_encode_base32_binary(char *dest, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len) { + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; const char *base; - if (!src) { - return APR_NOTFOUND; + if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } if (dest) { - register char *bufout = dest; - int i; + char *bufout = dest; + apr_size_t i = 0; if (!((flags & APR_ENCODE_BASE32HEX))) { base = base32; @@ -691,23 +760,25 @@ base = base32hex; } - for (i = 0; i < slen - 4; i += 5) { - *bufout++ = base[((src[i] >> 3) & 0x1F)]; - *bufout++ = base[(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; - *bufout++ = base[((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[(((src[i + 1] << 4) & 0x10) - | ((src[i + 2] >> 4) & 0xF))]; - *bufout++ = base[(((src[i + 2] << 1) & 0x1E) - | ((src[i + 3] >> 7) & 0x1))]; - *bufout++ = base[((src[i + 3] >> 2) & 0x1F)]; - *bufout++ = base[(((src[i + 3] << 3) & 0x18) - | ((src[i + 4] >> 5) & 0x7))]; - *bufout++ = base[(src[i + 4] & 0x1F)]; + if (count > 4) { + for (; i < count - 4; i += 5) { + *bufout++ = base[((src[i] >> 3) & 0x1F)]; + *bufout++ = base[(((src[i] << 2) & 0x1C) | + ((src[i + 1] >> 6) & 0x3))]; + *bufout++ = base[((src[i + 1] >> 1) & 0x1F)]; + *bufout++ = base[(((src[i + 1] << 4) & 0x10) | + ((src[i + 2] >> 4) & 0xF))]; + *bufout++ = base[(((src[i + 2] << 1) & 0x1E) | + ((src[i + 3] >> 7) & 0x1))]; + *bufout++ = base[((src[i + 3] >> 2) & 0x1F)]; + *bufout++ = base[(((src[i + 3] << 3) & 0x18) | + ((src[i + 4] >> 5) & 0x7))]; + *bufout++ = base[(src[i + 4] & 0x1F)]; + } } - if (i < slen) { + if (i < count) { *bufout++ = base[(src[i] >> 3) & 0x1F]; - if (i == (slen - 1)) { + if (i == (count - 1)) { *bufout++ = base[((src[i] << 2) & 0x1C)]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; @@ -718,9 +789,9 @@ *bufout++ = '='; } } - else if (i == (slen - 2)) { - *bufout++ = base[(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; + else if (i == (count - 2)) { + *bufout++ = base[(((src[i] << 2) & 0x1C) | + ((src[i + 1] >> 6) & 0x3))]; *bufout++ = base[((src[i + 1] >> 1) & 0x1F)]; *bufout++ = base[((src[i + 1] << 4) & 0x10)]; if (!(flags & APR_ENCODE_NOPADDING)) { @@ -730,12 +801,12 @@ *bufout++ = '='; } } - else if (i == (slen - 3)) { - *bufout++ = base[(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; + else if (i == (count - 3)) { + *bufout++ = base[(((src[i] << 2) & 0x1C) | + ((src[i + 1] >> 6) & 0x3))]; *bufout++ = base[((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[(((src[i + 1] << 4) & 0x10) - | ((int)(src[i + 2] >> 4) & 0xF))]; + *bufout++ = base[(((src[i + 1] << 4) & 0x10) | + ((src[i + 2] >> 4) & 0xF))]; *bufout++ = base[((src[i + 2] << 1) & 0x1E)]; if (!(flags & APR_ENCODE_NOPADDING)) { *bufout++ = '='; @@ -744,13 +815,13 @@ } } else { - *bufout++ = base[(((src[i] << 2) & 0x1C) - | ((src[i + 1] >> 6) & 0x3))]; + *bufout++ = base[(((src[i] << 2) & 0x1C) | + ((src[i + 1] >> 6) & 0x3))]; *bufout++ = base[((src[i + 1] >> 1) & 0x1F)]; - *bufout++ = base[(((src[i + 1] << 4) & 0x10) - | ((src[i + 2] >> 4) & 0xF))]; - *bufout++ = base[(((src[i + 2] << 1) & 0x1E) - | ((src[i + 3] >> 7) & 0x1))]; + *bufout++ = base[(((src[i + 1] << 4) & 0x10) | + ((src[i + 2] >> 4) & 0xF))]; + *bufout++ = base[(((src[i + 2] << 1) & 0x1E) | + ((src[i + 3] >> 7) & 0x1))]; *bufout++ = base[((src[i + 3] >> 2) & 0x1F)]; *bufout++ = base[((src[i + 3] << 3) & 0x18)]; if (!(flags & APR_ENCODE_NOPADDING)) { @@ -759,20 +830,20 @@ } } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; + dest[dlen] = '\0'; + } + else { + dlen = ((count + 4u) / 5u) * 8u + 1u; + if (dlen <= count) { + status = APR_ENOSPC; } - - *bufout++ = '\0'; - - return APR_SUCCESS; } if (len) { - *len = ((slen + 4) / 5 * 8) + 1; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(const char *)apr_pencode_base32(apr_pool_t * p, const char *src, @@ -780,13 +851,19 @@ { apr_size_t size; + if (!src) { + return NULL; + } + switch (apr_encode_base32(NULL, src, slen, flags, &size)) { case APR_SUCCESS:{ char *cmd = apr_palloc(p, size); - apr_encode_base32(cmd, src, slen, flags, len); + if (cmd) { + apr_encode_base32(cmd, src, slen, flags, len); + } return cmd; } - case APR_NOTFOUND:{ + default:{ break; } } @@ -799,13 +876,19 @@ { apr_size_t size; + if (!src) { + return NULL; + } + switch (apr_encode_base32_binary(NULL, src, slen, flags, &size)) { case APR_SUCCESS:{ char *cmd = apr_palloc(p, size); - apr_encode_base32_binary(cmd, src, slen, flags, len); + if (cmd) { + apr_encode_base32_binary(cmd, src, slen, flags, len); + } return cmd; } - case APR_NOTFOUND:{ + default:{ break; } } @@ -816,24 +899,20 @@ APR_DECLARE(apr_status_t) apr_decode_base32(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - if (!src) { - return APR_NOTFOUND; - } + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); + } + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } - if (dest) { - register const unsigned char *bufin; - register unsigned char *bufout; - register apr_size_t nprbytes; - register apr_size_t count = slen; - + if (src) { + const unsigned char *bufin; const unsigned char *pr2; - apr_status_t status; - if ((flags & APR_ENCODE_BASE32HEX)) { pr2 = pr2fivehex; } @@ -842,101 +921,130 @@ } bufin = (const unsigned char *)src; - while (pr2[*(bufin++)] < 32 && count) - count--; - nprbytes = (bufin - (const unsigned char *)src) - 1; - while (pr2[*(bufin++)] > 32 && count) + while (count) { + if (pr2[*bufin] >= 32) { + if (!(flags & APR_ENCODE_RELAXED)) { + if (count <= 6) { + do { + if (pr2[bufin[count - 1]] <= 32) + break; + } while (--count); + } + if (count) { + status = APR_BADCH; + } + } + break; + } count--; + bufin++; + } + count = bufin - (const unsigned char *)src; - status = flags & APR_ENCODE_RELAXED ? APR_SUCCESS : - count ? APR_BADCH : APR_SUCCESS; + if (dest) { + unsigned char *bufout; - bufout = (unsigned char *)dest; - bufin = (const unsigned char *)src; + bufout = (unsigned char *)dest; + bufin = (const unsigned char *)src; - while (nprbytes > 8) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[0]] << 3 - | pr2[bufin[1]] >> 2); - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[1]] << 6 - | pr2[bufin[2]] << 1 | pr2[bufin[3]] >> 4); - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[3]] << 4 - | pr2[bufin[4]] >> 1); - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[4]] << 7 - | pr2[bufin[5]] << 2 | pr2[bufin[6]] >> 3); - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[6]] << 5 - | pr2[bufin[7]]); - bufin += 8; - nprbytes -= 8; - } + while (count >= 8) { + *(bufout++) = TO_NATIVE(pr2[bufin[0]] << 3 | + pr2[bufin[1]] >> 2); + *(bufout++) = TO_NATIVE(pr2[bufin[1]] << 6 | + pr2[bufin[2]] << 1 | + pr2[bufin[3]] >> 4); + *(bufout++) = TO_NATIVE(pr2[bufin[3]] << 4 | + pr2[bufin[4]] >> 1); + *(bufout++) = TO_NATIVE(pr2[bufin[4]] << 7 | + pr2[bufin[5]] << 2 | + pr2[bufin[6]] >> 3); + *(bufout++) = TO_NATIVE(pr2[bufin[6]] << 5 | + pr2[bufin[7]]); + bufin += 8; + count -= 8; + } - if (nprbytes == 1) { - status = APR_BADCH; - } - if (nprbytes >= 2) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2[bufin[0]] << 3 | pr2[bufin[1]] >> 2); - } - if (nprbytes == 3) { - status = APR_BADCH; - } - if (nprbytes >= 4) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2[bufin[1]] << 6 | pr2[bufin[2]] << 1 - | pr2[bufin[3]] >> 4); - } - if (nprbytes >= 5) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[3]] << 4 - | pr2[bufin[4]] >> 1); - } - if (nprbytes == 6) { - status = APR_BADCH; - } - if (nprbytes >= 7) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[4]] << 7 - | pr2[bufin[5]] << 2 | pr2[bufin[6]] >> 3); - } - if (nprbytes == 8) { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE(pr2[bufin[6]] << 5 - | pr2[bufin[7]]); - } + if (count == 1) { + status = APR_EINCOMPLETE; + } + if (count >= 2) { + *(bufout++) = TO_NATIVE(pr2[bufin[0]] << 3 | + pr2[bufin[1]] >> 2); + } + if (count == 3) { + status = APR_EINCOMPLETE; + } + if (count >= 4) { + *(bufout++) = TO_NATIVE(pr2[bufin[1]] << 6 | + pr2[bufin[2]] << 1 | + pr2[bufin[3]] >> 4); + } + if (count >= 5) { + *(bufout++) = TO_NATIVE(pr2[bufin[3]] << 4 | + pr2[bufin[4]] >> 1); + } + if (count == 6) { + status = APR_EINCOMPLETE; + } + if (count >= 7) { + *(bufout++) = TO_NATIVE(pr2[bufin[4]] << 7 | + pr2[bufin[5]] << 2 | + pr2[bufin[6]] >> 3); + } - if (len) { - *len = bufout - (unsigned char *)dest; + dlen = bufout - (unsigned char *)dest; + dest[dlen] = '\0'; } + } - *(bufout++) = 0; - - return status; + if (!src || !dest) { + dlen = (count / 8u) * 5u + 1u; + switch (count % 8) { + case 7: + dlen += 4; + break; + case 6: + status = APR_EINCOMPLETE; + case 5: + dlen += 3; + break; + case 4: + dlen += 2; + break; + case 3: + status = APR_EINCOMPLETE; + case 2: + dlen++; + break; + case 1: + status = APR_EINCOMPLETE; + break; + } } if (len) { - *len = (((int)slen + 7) / 8) * 5 + 1; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(apr_status_t) apr_decode_base32_binary(unsigned char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - if (!src) { - return APR_NOTFOUND; - } + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); + } + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } - if (dest) { - register const unsigned char *bufin; - register unsigned char *bufout; - register apr_size_t nprbytes; - register apr_size_t count = slen; - + if (src) { + const unsigned char *bufin; const unsigned char *pr2; - apr_status_t status; - if ((flags & APR_ENCODE_BASE32HEX)) { pr2 = pr2fivehex; } @@ -945,76 +1053,110 @@ } bufin = (const unsigned char *)src; - while (pr2[*(bufin++)] < 32 && count) - count--; - nprbytes = (bufin - (const unsigned char *)src) - 1; - while (pr2[*(bufin++)] > 32 && count) + while (count) { + if (pr2[*bufin] >= 32) { + if (!(flags & APR_ENCODE_RELAXED)) { + if (count <= 6) { + do { + if (pr2[bufin[count - 1]] <= 32) + break; + } while (--count); + } + if (count) { + status = APR_BADCH; + } + } + break; + } count--; + bufin++; + } + count = bufin - (const unsigned char *)src; - status = flags & APR_ENCODE_RELAXED ? APR_SUCCESS : - count ? APR_BADCH : APR_SUCCESS; + if (dest) { + unsigned char *bufout; - bufout = (unsigned char *)dest; - bufin = (const unsigned char *)src; + bufout = (unsigned char *)dest; + bufin = (const unsigned char *)src; - while (nprbytes > 8) { - *(bufout++) = (unsigned char)(pr2[bufin[0]] << 3 - | pr2[bufin[1]] >> 2); - *(bufout++) = (unsigned char)(pr2[bufin[1]] << 6 - | pr2[bufin[2]] << 1 | pr2[bufin[3]] >> 4); - *(bufout++) = (unsigned char)(pr2[bufin[3]] << 4 - | pr2[bufin[4]] >> 1); - *(bufout++) = (unsigned char)(pr2[bufin[4]] << 7 - | pr2[bufin[5]] << 2 | pr2[bufin[6]] >> 3); - *(bufout++) = (unsigned char)(pr2[bufin[6]] << 5 - | pr2[bufin[7]]); - bufin += 8; - nprbytes -= 8; - } + while (count >= 8) { + *(bufout++) = (pr2[bufin[0]] << 3 | + pr2[bufin[1]] >> 2); + *(bufout++) = (pr2[bufin[1]] << 6 | + pr2[bufin[2]] << 1 | + pr2[bufin[3]] >> 4); + *(bufout++) = (pr2[bufin[3]] << 4 | + pr2[bufin[4]] >> 1); + *(bufout++) = (pr2[bufin[4]] << 7 | + pr2[bufin[5]] << 2 | + pr2[bufin[6]] >> 3); + *(bufout++) = (pr2[bufin[6]] << 5 | + pr2[bufin[7]]); + bufin += 8; + count -= 8; + } - if (nprbytes == 1) { - status = APR_BADCH; - } - if (nprbytes >= 2) { - *(bufout++) = (unsigned char)( - pr2[bufin[0]] << 3 | pr2[bufin[1]] >> 2); - } - if (nprbytes == 3) { - status = APR_BADCH; - } - if (nprbytes >= 4) { - *(bufout++) = (unsigned char)( - pr2[bufin[1]] << 6 | pr2[bufin[2]] << 1 - | pr2[bufin[3]] >> 4); - } - if (nprbytes >= 5) { - *(bufout++) = (unsigned char)(pr2[bufin[3]] << 4 - | pr2[bufin[4]] >> 1); - } - if (nprbytes == 6) { - status = APR_BADCH; - } - if (nprbytes >= 7) { - *(bufout++) = (unsigned char)(pr2[bufin[4]] << 7 - | pr2[bufin[5]] << 2 | pr2[bufin[6]] >> 3); - } - if (nprbytes == 8) { - *(bufout++) = (unsigned char)(pr2[bufin[6]] << 5 - | pr2[bufin[7]]); - } + if (count == 1) { + status = APR_EINCOMPLETE; + } + if (count >= 2) { + *(bufout++) = (pr2[bufin[0]] << 3 | + pr2[bufin[1]] >> 2); + } + if (count == 3) { + status = APR_EINCOMPLETE; + } + if (count >= 4) { + *(bufout++) = (pr2[bufin[1]] << 6 | + pr2[bufin[2]] << 1 | + pr2[bufin[3]] >> 4); + } + if (count >= 5) { + *(bufout++) = (pr2[bufin[3]] << 4 | + pr2[bufin[4]] >> 1); + } + if (count == 6) { + status = APR_EINCOMPLETE; + } + if (count >= 7) { + *(bufout++) = (pr2[bufin[4]] << 7 | + pr2[bufin[5]] << 2 | + pr2[bufin[6]] >> 3); + } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; } + } - return status; + if (!src || !dest) { + dlen = (count / 8u) * 5u; + switch (count % 8) { + case 7: + dlen += 4; + break; + case 6: + status = APR_EINCOMPLETE; + case 5: + dlen += 3; + break; + case 4: + dlen += 2; + break; + case 3: + status = APR_EINCOMPLETE; + case 2: + dlen++; + break; + case 1: + status = APR_EINCOMPLETE; + break; + } } if (len) { - *len = (((int)slen + 7) / 8) * 5; + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(const char *)apr_pdecode_base32(apr_pool_t * p, const char *str, @@ -1022,14 +1164,19 @@ { apr_size_t size; + if (!str) { + return NULL; + } + switch (apr_decode_base32(NULL, str, slen, flags, &size)) { case APR_SUCCESS:{ void *cmd = apr_palloc(p, size); - apr_decode_base32(cmd, str, slen, flags, len); + if (cmd) { + apr_decode_base32(cmd, str, slen, flags, len); + } return cmd; } - case APR_BADCH: - case APR_NOTFOUND:{ + default:{ break; } } @@ -1042,15 +1189,20 @@ { apr_size_t size; + if (!str) { + return NULL; + } + switch (apr_decode_base32_binary(NULL, str, slen, flags, &size)) { case APR_SUCCESS:{ unsigned char *cmd = apr_palloc(p, size + 1); - cmd[size] = 0; - apr_decode_base32_binary(cmd, str, slen, flags, len); + if (cmd) { + apr_decode_base32_binary(cmd, str, slen, flags, len); + cmd[size] = 0; + } return cmd; } - case APR_BADCH: - case APR_NOTFOUND:{ + default:{ break; } } @@ -1061,16 +1213,20 @@ APR_DECLARE(apr_status_t) apr_encode_base16(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - const char *in = src; - apr_size_t size; + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (!src) { - return APR_NOTFOUND; + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); + } + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } if (dest) { - register char *bufout = dest; + char *bufout = dest; const char *base; + apr_size_t i; if ((flags & APR_ENCODE_LOWER)) { base = base16lower; @@ -1079,51 +1235,51 @@ base = base16; } - for (size = 0; (APR_ENCODE_STRING == slen) ? in[size] : size < slen; size++) { - if ((flags & APR_ENCODE_COLON) && size) { + for (i = 0; i < count; i++) { + if ((flags & APR_ENCODE_COLON) && i) { *(bufout++) = ':'; } - *(bufout++) = base[(const unsigned char)(ENCODE_TO_ASCII(in[size])) >> 4]; - *(bufout++) = base[(const unsigned char)(ENCODE_TO_ASCII(in[size])) & 0xf]; + *(bufout++) = base[TO_ASCII(src[i]) >> 4]; + *(bufout++) = base[TO_ASCII(src[i]) & 0xf]; } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; + dest[dlen] = '\0'; + } + else { + dlen = count * 2u + 1u; + if (dlen <= count) { + status = APR_ENOSPC; + } + if ((flags & APR_ENCODE_COLON) && count > 1) { + apr_size_t more = dlen + count - 1; + if (more <= dlen) { + status = APR_ENOSPC; + } + dlen = more; } - - *bufout = '\0'; - - return APR_SUCCESS; } if (len) { - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); - } - if ((flags & APR_ENCODE_COLON) && slen) { - *len = slen * 3; - } - else { - *len = slen * 2 + 1; - } + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(apr_status_t) apr_encode_base16_binary(char *dest, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - const unsigned char *in = src; - apr_size_t size; + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (!src) { - return APR_NOTFOUND; + if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } if (dest) { - register char *bufout = dest; + char *bufout = dest; const char *base; + apr_size_t i; if ((flags & APR_ENCODE_LOWER)) { base = base16lower; @@ -1132,33 +1288,35 @@ base = base16; } - for (size = 0; size < slen; size++) { - if ((flags & APR_ENCODE_COLON) && size) { + for (i = 0; i < count; i++) { + if ((flags & APR_ENCODE_COLON) && i) { *(bufout++) = ':'; } - *(bufout++) = base[in[size] >> 4]; - *(bufout++) = base[in[size] & 0xf]; + *(bufout++) = base[src[i] >> 4]; + *(bufout++) = base[src[i] & 0xf]; } - if (len) { - *len = bufout - dest; + dlen = bufout - dest; + dest[dlen] = '\0'; + } + else { + dlen = count * 2u + 1u; + if (dlen <= count) { + status = APR_ENOSPC; + } + if ((flags & APR_ENCODE_COLON) && count > 1) { + apr_size_t more = dlen + count - 1; + if (more <= dlen) { + status = APR_ENOSPC; + } + dlen = more; } - - *bufout = 0; - - return APR_SUCCESS; } if (len) { - if ((flags & APR_ENCODE_COLON) && slen) { - *len = slen * 3; - } - else { - *len = slen * 2 + 1; - } + *len = dlen; } - - return APR_SUCCESS; + return status; } APR_DECLARE(const char *)apr_pencode_base16(apr_pool_t * p, @@ -1166,13 +1324,19 @@ { apr_size_t size; + if (!src) { + return NULL; + } + switch (apr_encode_base16(NULL, src, slen, flags, &size)) { case APR_SUCCESS:{ char *cmd = apr_palloc(p, size); - apr_encode_base16(cmd, src, slen, flags, len); + if (cmd) { + apr_encode_base16(cmd, src, slen, flags, len); + } return cmd; } - case APR_NOTFOUND:{ + default:{ break; } } @@ -1186,13 +1350,19 @@ { apr_size_t size; + if (!src) { + return NULL; + } + switch (apr_encode_base16_binary(NULL, src, slen, flags, &size)) { case APR_SUCCESS:{ char *cmd = apr_palloc(p, size); - apr_encode_base16_binary(cmd, src, slen, flags, len); + if (cmd) { + apr_encode_base16_binary(cmd, src, slen, flags, len); + } return cmd; } - case APR_NOTFOUND:{ + default:{ break; } } @@ -1203,178 +1373,156 @@ APR_DECLARE(apr_status_t) apr_decode_base16(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - register const unsigned char *bufin; - register unsigned char *bufout; - register apr_size_t nprbytes; - register apr_size_t count; - - apr_status_t status; + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - if (!src) { - return APR_NOTFOUND; + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); } - - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } - count = slen; - bufin = (const unsigned char *)src; - while (pr2two[*(bufin++)] != 16 && count) - count--; - nprbytes = (bufin - (const unsigned char *)src) - 1; - while (pr2two[*(bufin++)] > 16 && count) - count--; - - status = flags & APR_ENCODE_RELAXED ? APR_SUCCESS : - count ? APR_BADCH : APR_SUCCESS; - - if (dest) { + if (src) { + const unsigned char *bufin; - bufout = (unsigned char *)dest; bufin = (const unsigned char *)src; - - while (nprbytes >= 2) { - if (pr2two[bufin[0]] > 16) { - bufin += 1; - nprbytes -= 1; - } - else { - *(bufout++) = (unsigned char)ENCODE_TO_NATIVE( - pr2two[bufin[0]] << 4 | pr2two[bufin[1]]); - bufin += 2; - nprbytes -= 2; + while (count) { + if (pr2two[*bufin] >= 16 + && (!(flags & APR_ENCODE_COLON) + || pr2two[*bufin] != 32 /* ':' */)) { + if (!(flags & APR_ENCODE_RELAXED)) { + status = APR_BADCH; + } + break; } + count--; + bufin++; } + count = bufin - (const unsigned char *)src; - if (nprbytes == 1) { - status = APR_BADCH; - } - - if (len) { - *len = bufout - (unsigned char *)dest; - } - - *(bufout++) = 0; + if (dest) { + unsigned char *bufout; - return status; - } + bufout = (unsigned char *)dest; + bufin = (const unsigned char *)src; - else { - - count = 0; - bufin = (const unsigned char *)src; - - while (nprbytes >= 2) { - if (pr2two[bufin[0]] > 16) { - bufin += 1; - nprbytes -= 1; + while (count >= 2) { + if (pr2two[bufin[0]] == 32 /* ':' */) { + bufin += 1; + count -= 1; + } + else { + *(bufout++) = TO_NATIVE(pr2two[bufin[0]] << 4 | + pr2two[bufin[1]]); + bufin += 2; + count -= 2; + } } - else { - count++; - bufin += 2; - nprbytes -= 2; + + if (count == 1) { + status = APR_EINCOMPLETE; } - } - if (nprbytes == 1) { - status = APR_BADCH; + dlen = bufout - (unsigned char *)dest; + dest[dlen] = '\0'; } + } - if (len) { - *len = count + 1; + if (!src || !dest) { + if (flags & APR_ENCODE_COLON) { + if (count && (count + 1u) % 3u) { + status = APR_EINCOMPLETE; + } + count -= count / 3u; } - - return status; + if (count % 2u) { + status = APR_EINCOMPLETE; + } + dlen = count / 2u + 1u; } + if (len) { + *len = dlen; + } + return status; } APR_DECLARE(apr_status_t) apr_decode_base16_binary(unsigned char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) { - register const unsigned char *bufin; - register unsigned char *bufout; - register apr_size_t nprbytes; - register apr_size_t count; + apr_status_t status = APR_SUCCESS; + apr_size_t count = slen, dlen = 0; - apr_status_t status; - - if (!src) { - return APR_NOTFOUND; + if (src && slen == APR_ENCODE_STRING) { + count = strlen(src); } - - if (APR_ENCODE_STRING == slen) { - slen = strlen(src); + else if (slen < 0 || (dest && !src)) { + return (src) ? APR_EINVAL : APR_NOTFOUND; } - count = slen; - bufin = (const unsigned char *)src; - while (pr2two[*(bufin++)] != 16 && count) - count--; - nprbytes = (bufin - (const unsigned char *)src) - 1; - while (pr2two[*(bufin++)] > 16 && count) - count--; + if (src) { + const unsigned char *bufin; - status = flags & APR_ENCODE_RELAXED ? APR_SUCCESS : - count ? APR_BADCH : APR_SUCCESS; - - if (dest) { - - bufout = (unsigned char *)dest; bufin = (const unsigned char *)src; - - while (nprbytes >= 2) { - if (pr2two[bufin[0]] > 16) { - bufin += 1; - nprbytes -= 1; - } - else { - *(bufout++) = (unsigned char)( - pr2two[bufin[0]] << 4 | pr2two[bufin[1]]); - bufin += 2; - nprbytes -= 2; + while (count) { + if (pr2two[*bufin] >= 16 + && (!(flags & APR_ENCODE_COLON) + || pr2two[*bufin] != 32 /* ':' */)) { + if (!(flags & APR_ENCODE_RELAXED)) { + status = APR_BADCH; + } + break; } + count--; + bufin++; } + count = bufin - (const unsigned char *)src; - if (nprbytes == 1) { - status = APR_BADCH; - } - - if (len) { - *len = bufout - (unsigned char *)dest; - } - - return status; - } + if (dest) { + unsigned char *bufout; - else { + bufout = (unsigned char *)dest; + bufin = (const unsigned char *)src; - count = 0; - bufin = (const unsigned char *)src; - - while (nprbytes >= 2) { - if (pr2two[bufin[0]] > 16) { - bufin += 1; - nprbytes -= 1; + while (count >= 2) { + if (pr2two[bufin[0]] == 32 /* ':' */) { + bufin += 1; + count -= 1; + } + else { + *(bufout++) = (pr2two[bufin[0]] << 4 | + pr2two[bufin[1]]); + bufin += 2; + count -= 2; + } } - else { - count++; - bufin += 2; - nprbytes -= 2; + + if (count == 1) { + status = APR_EINCOMPLETE; } - } - if (nprbytes == 1) { - status = APR_BADCH; + dlen = bufout - (unsigned char *)dest; } + } - if (len) { - *len = count; + if (!src || !dest) { + if (flags & APR_ENCODE_COLON) { + if (count && (count + 1u) % 3u) { + status = APR_EINCOMPLETE; + } + count -= count / 3u; + } + if (count % 2u) { + status = APR_EINCOMPLETE; } + dlen = count / 2u; + } - return status; + if (len) { + *len = dlen; } + return status; } APR_DECLARE(const char *)apr_pdecode_base16(apr_pool_t * p, @@ -1382,14 +1530,19 @@ { apr_size_t size; + if (!str) { + return NULL; + } + switch (apr_decode_base16(NULL, str, slen, flags, &size)) { case APR_SUCCESS:{ void *cmd = apr_palloc(p, size); - apr_decode_base16(cmd, str, slen, flags, len); + if (cmd) { + apr_decode_base16(cmd, str, slen, flags, len); + } return cmd; } - case APR_BADCH: - case APR_NOTFOUND:{ + default:{ break; } } @@ -1402,15 +1555,20 @@ { apr_size_t size; + if (!str) { + return NULL; + } + switch (apr_decode_base16_binary(NULL, str, slen, flags, &size)) { case APR_SUCCESS:{ unsigned char *cmd = apr_palloc(p, size + 1); - cmd[size] = 0; - apr_decode_base16_binary(cmd, str, slen, flags, len); + if (cmd) { + apr_decode_base16_binary(cmd, str, slen, flags, len); + cmd[size] = 0; + } return cmd; } - case APR_BADCH: - case APR_NOTFOUND:{ + default:{ break; } } --- apr-1.7.0/encoding/apr_escape.c.encoding +++ apr-1.7.0/encoding/apr_escape.c @@ -131,7 +131,7 @@ xstr[2]=what[0]; xstr[3]=what[1]; xstr[4]='\0'; - digit = ENCODE_TO_NATIVE[0xFF & strtol(xstr, NULL, 16)]; + digit = TO_NATIVE(strtol(xstr, NULL, 16)); #endif /*APR_CHARSET_EBCDIC*/ return (digit); } @@ -716,7 +716,7 @@ size--; } else { - *d = ENCODE_TO_ASCII(val); + *d = TO_ASCII(val); found = 1; } } @@ -737,7 +737,7 @@ *d = '&'; /* unknown */ } else { - *d = ENCODE_TO_ASCII(((const unsigned char *) ents)[j]); + *d = TO_ASCII(ents[j]); s += i; slen -= i; found = 1; --- apr-1.7.0/include/apr_encode.h.encoding +++ apr-1.7.0/include/apr_encode.h @@ -146,35 +146,44 @@ /** * Convert text data to base64. - * @param dest The destination string, can be NULL. - * @param src The original string. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for encoding. + * @param src The original string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 64 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_URL, * use RFC4648 Base 64 Encoding with URL and Filename Safe Alphabet. - * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination string, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL. + * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. + * @param len If not NULL, outputs the length of the buffer needed for encoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the encoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to encode. */ APR_DECLARE(apr_status_t) apr_encode_base64(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); /** * Convert binary data to base64. - * @param dest The destination string, can be NULL. - * @param src The original buffer. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for encoding. + * @param src The original buffer, can be NULL if \c dest is NULL. * @param slen The length of the original buffer. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 64 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_URL, * use RFC4648 Base 64 Encoding with URL and Filename Safe Alphabet. - * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination string, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL. + * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. + * @param len If not NULL, outputs the length of the buffer needed for encoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the encoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is negative, or APR_NOTFOUND + * if \c dest is not NULL and \c src is NULL, or APR_ENOSPC if \c dest is NULL + * and the source length (based on \c slen or APR_ENCODE_STRING) is too big to + * encode. */ APR_DECLARE(apr_status_t) apr_encode_base64_binary(char *dest, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len); @@ -184,15 +193,16 @@ * @param p Pool to allocate from. * @param src The original string. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 64 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_URL, * use RFC4648 Base 64 Encoding with URL and Filename Safe Alphabet. - * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. - * @param len If present, returns the number of characters written excluding - * the zero pad. - * @return A zero padded string allocated from the pool on success, or - * NULL if src was NULL. + * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the encoding is not + * possible (see apr_encode_base64 errors). */ APR_DECLARE(const char *)apr_pencode_base64(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len)__attribute__((nonnull(1))); @@ -205,47 +215,62 @@ * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 64 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_URL, * use RFC4648 Base 64 Encoding with URL and Filename Safe Alphabet. - * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. - * @param len If present, returns the number of characters written excluding - * the zero pad. - * @return A zero padded string allocated from the pool on success, or - * NULL if src was NULL. + * If APR_ENCODE_BASE64URL, use RFC7515 base64url Encoding. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the encoding is not + * possible (see apr_encode_base64_binary errors). */ APR_DECLARE(const char *)apr_pencode_base64_binary(apr_pool_t * p, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len)__attribute__((nonnull(1))); /** * Convert base64 or base64url with or without padding to text data. - * @param dest The destination string, can be NULL. - * @param src The original string. - * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. - * @param flags If APR_ENCODE_NONE, attempt to decode the full original buffer, + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for decoding. + * @param src The base64 string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. + * @param slen The length of the base64 string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. + * @param flags If APR_ENCODE_NONE, attempt to decode the full base64 string, * and return NULL if any bad character is detected. If APR_ENCODE_RELAXED, * decode until the first non base64/base64url character. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination string, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL, or APR_BADCH - * if a non hex character is present. + * @param len If not NULL, outputs the length of the buffer needed for decoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the decoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to decode, or APR_EINCOMPLETE if the source + * length (based on \c slen or APR_ENCODE_STRING) is invalid for a base64 + * encoding, or APR_BADCH if a non base64 character is present and + * APR_ENCODE_RELAXED is not specified. */ APR_DECLARE(apr_status_t) apr_decode_base64(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); /** * Convert base64 or base64url with or without padding to binary data. - * @param dest The destination buffer, can be NULL. - * @param src The original string. - * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. - * @param flags If APR_ENCODE_NONE, attempt to decode the full original buffer, + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for decoding. + * @param src The base64 string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. + * @param slen The length of the base64 string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. + * @param flags If APR_ENCODE_NONE, attempt to decode the full base64 string, * and return NULL if any bad character is detected. If APR_ENCODE_RELAXED, * decode until the first non base64/base64url character. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the src was NULL, or APR_BADCH - * if a non base64 character is present. + * @param len If not NULL, outputs the length of the buffer needed for decoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the decoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to decode, or APR_EINCOMPLETE if the source + * length (based on \c slen or APR_ENCODE_STRING) is invalid for a base64 + * encoding, or APR_BADCH if a non base64 character is present and + * APR_ENCODE_RELAXED is not specified. */ APR_DECLARE(apr_status_t) apr_decode_base64_binary(unsigned char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); @@ -255,15 +280,16 @@ * return the results from a pool. * @param p Pool to allocate from. * @param src The base64 string to decode. - * @param slen The length of the base64 string, or APR_ENCODE_STRING if - * NUL terminated. + * @param slen The length of the original string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, attempt to decode the full original buffer, * and return NULL if any bad character is detected. If APR_ENCODE_RELAXED, * decode until the first non base64/base64url character. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A string allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the decoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the decoding is not + * possible (see apr_decode_base64_binary errors). */ APR_DECLARE(const char *)apr_pdecode_base64(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -273,16 +299,17 @@ * Convert base64 or base64url with or without padding to binary data, and * return the results from a pool. * @param p Pool to allocate from. - * @param src The original string. + * @param src The base64 string to decode. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, attempt to decode the full original buffer, * and return NULL if any bad character is detected. If APR_ENCODE_RELAXED, * decode until the first non base64/base64url character. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A buffer allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the decoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the decoding is not + * possible (see apr_decode_base64_binary errors). */ APR_DECLARE(const unsigned char *)apr_pdecode_base64_binary(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -290,33 +317,42 @@ /** * Convert text data to base32. - * @param dest The destination string, can be NULL. - * @param src The original string. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for encoding. + * @param src The original string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 32 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_BASE32HEX, * use RFC4648 base32hex Encoding. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination string, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL. + * @param len If not NULL, outputs the length of the buffer needed for encoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the encoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to encode. */ APR_DECLARE(apr_status_t) apr_encode_base32(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); /** * Convert binary data to base32. - * @param dest The destination string, can be NULL. - * @param src The original buffer. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for encoding. + * @param src The original buffer, can be NULL if \c dest is NULL. * @param slen The length of the original buffer. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 32 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_BASE32HEX, * use RFC4648 base32hex Encoding. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination string, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL. + * @param len If not NULL, outputs the length of the buffer needed for encoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the encoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is negative, or APR_NOTFOUND + * if \c dest is not NULL and \c src is NULL, or APR_ENOSPC if \c dest is NULL + * and the source length (based on \c slen or APR_ENCODE_STRING) is too big to + * encode. */ APR_DECLARE(apr_status_t) apr_encode_base32_binary(char *dest, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len); @@ -326,14 +362,15 @@ * @param p Pool to allocate from. * @param src The original string. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 32 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_BASE32HEX, * use RFC4648 base32hex Encoding. - * @param len If present, returns the number of characters written excluding - * the zero pad. - * @return A zero padded string allocated from the pool on success, or - * NULL if src was NULL. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the encoding is not + * possible (see apr_encode_base32 errors). */ APR_DECLARE(const char *)apr_pencode_base32(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -346,11 +383,12 @@ * @param slen The length of the original buffer. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 32 Encoding. If * APR_ENCODE_NOPADDING, omit the = padding character. If APR_ENCODE_BASE32HEX, - * use RFC7515 base32hex Encoding. - * @param len If present, returns the number of characters written excluding - * the zero pad. - * @return A zero padded string allocated from the pool on success, or - * NULL if src was NULL. + * use RFC4648 base32hex Encoding. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the encoding is not + * possible (see apr_encode_base32_binary errors). */ APR_DECLARE(const char *)apr_pencode_base32_binary(apr_pool_t * p, const unsigned char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -358,34 +396,48 @@ /** * Convert base32 or base32hex with or without padding to text data. - * @param dest The destination string, can be NULL. - * @param src The original string. - * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for decoding. + * @param src The base32 string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. + * @param slen The length of the base32 string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 32 Encoding. If * APR_ENCODE_BASE32HEX, use RFC4648 base32hex Encoding. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL, or APR_BADCH - * if a non base32 character is present. + * @param len If not NULL, outputs the length of the buffer needed for decoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the decoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to decode, or APR_EINCOMPLETE if the source + * length (based on \c slen or APR_ENCODE_STRING) is invalid for a base32 + * encoding, or APR_BADCH if a non base32 character is present and + * APR_ENCODE_RELAXED is not specified. */ APR_DECLARE(apr_status_t) apr_decode_base32(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); /** * Convert base32 or base32hex with or without padding to binary data. - * @param dest The destination buffer, can be NULL. - * @param src The original string. - * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for decoding. + * @param src The base32 string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. + * @param slen The length of the base32 string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 32 Encoding. If * APR_ENCODE_BASE32HEX, use RFC4648 base32hex Encoding. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the src was NULL, or APR_BADCH - * if a non base32 character is present. + * @param len If not NULL, outputs the length of the buffer needed for decoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the decoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to decode, or APR_EINCOMPLETE if the source + * length (based on \c slen or APR_ENCODE_STRING) is invalid for a base32 + * encoding, or APR_BADCH if a non base32 character is present and + * APR_ENCODE_RELAXED is not specified. */ APR_DECLARE(apr_status_t) apr_decode_base32_binary(unsigned char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); @@ -395,14 +447,15 @@ * return the results from a pool. * @param p Pool to allocate from. * @param src The base32 string to decode. - * @param slen The length of the base32 string, or APR_ENCODE_STRING if - * NUL terminated. + * @param slen The length of the original string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 32 Encoding. If * APR_ENCODE_BASE32HEX, use RFC4648 base32hex Encoding. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A string allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the decoding is not + * possible (see apr_decode_base32 errors). */ APR_DECLARE(const char *)apr_pdecode_base32(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -412,15 +465,16 @@ * Convert base32 or base32hex with or without padding to binary data, and * return the results from a pool. * @param p Pool to allocate from. - * @param src The original string. + * @param src The base32 string to decode. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 32 Encoding. If * APR_ENCODE_BASE32HEX, use RFC4648 base32hex Encoding. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A buffer allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the decoding is not + * possible (see apr_decode_base32_binary errors). */ APR_DECLARE(const unsigned char *)apr_pdecode_base32_binary(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -428,31 +482,40 @@ /** * Convert text data to base16 (hex). - * @param dest The destination string, can be NULL. - * @param src The original string. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for encoding. + * @param src The original string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, separate each token with a colon. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL. + * @param len If not NULL, outputs the length of the buffer needed for encoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the encoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to encode. */ APR_DECLARE(apr_status_t) apr_encode_base16(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); /** * Convert binary data to base16 (hex). - * @param dest The destination string, can be NULL. - * @param src The original buffer. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for encoding. + * @param src The original buffer, can be NULL if \c dest is NULL. * @param slen The length of the original buffer. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, separate each token with a colon. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL. + * @param len If not NULL, outputs the length of the buffer needed for encoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the encoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is negative, or APR_NOTFOUND + * if \c dest is not NULL and \c src is NULL, or APR_ENOSPC if \c dest is NULL + * and the source length (based on \c slen or APR_ENCODE_STRING) is too big to + * encode. */ APR_DECLARE(apr_status_t) apr_encode_base16_binary(char *dest, const unsigned char *src, apr_ssize_t slen, int flags, @@ -464,13 +527,14 @@ * @param p Pool to allocate from. * @param src The original string. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, separate each token with a colon. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A string allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the encoding is not + * possible (see apr_encode_base16 errors). */ APR_DECLARE(const char *)apr_pencode_base16(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -484,10 +548,11 @@ * @param slen The length of the original buffer. * @param flags If APR_ENCODE_NONE, emit RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, separate each token with a colon. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A string allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the encoding is not + * possible (see apr_encode_base16_binary errors). */ APR_DECLARE(const char *)apr_pencode_base16_binary(apr_pool_t * p, const unsigned char *src, apr_ssize_t slen, @@ -495,34 +560,48 @@ /** * Convert base16 (hex) to text data. - * @param dest The destination string, can be NULL. - * @param src The original string. - * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for decoding. + * @param src The base16 string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. + * @param slen The length of the base16 string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, allow tokens to be separated with a colon. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL, or APR_BADCH - * if a non hex character is present. A zero pad is appended to the buffer. + * @param len If not NULL, outputs the length of the buffer needed for decoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the decoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to decode, or APR_EINCOMPLETE if the source + * length (based on \c slen or APR_ENCODE_STRING) is invalid for a base16 + * encoding, or APR_BADCH if a non base16 character is present and + * APR_ENCODE_RELAXED is not specified. */ APR_DECLARE(apr_status_t) apr_decode_base16(char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); /** * Convert base16 (hex) to binary data. - * @param dest The destination buffer, can be NULL. - * @param src The original string. - * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * @param dest The destination string, can be NULL to output in \c len the + * needed buffer length for decoding. + * @param src The base16 string, can be NULL if \c dest is NULL and \c slen + * is positive or nul. + * @param slen The length of the base16 string, or APR_ENCODE_STRING if + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, allow tokens to be separated with a colon. - * @param len If present and src is NULL, returns the maximum possible length - * of the destination buffer, including a zero pad. If present and src is - * not NULL, returns the number of characters actually written. - * @return APR_SUCCESS, or APR_NOTFOUND if the string was NULL, or APR_BADCH - * if a non hex character is present. No zero pad is written to the buffer. + * @param len If not NULL, outputs the length of the buffer needed for decoding + * (including the trailing NUL) if \c dest is NULL, or the actual length of + * the decoding (excluding the trailing NUL) if \c dest is not NULL. + * @return APR_SUCCESS, or APR_EINVAL if \c slen is not APR_ENCODE_STRING and + * negative, or APR_NOTFOUND if \c dest is not NULL and \c src is NULL, or + * APR_ENOSPC if \c dest is NULL and the source length (based on \c slen or + * APR_ENCODE_STRING) is too big to decode, or APR_EINCOMPLETE if the source + * length (based on \c slen or APR_ENCODE_STRING) is invalid for a base16 + * encoding, or APR_BADCH if a non base16 character is present and + * APR_ENCODE_RELAXED is not specified. */ APR_DECLARE(apr_status_t) apr_decode_base16_binary(unsigned char *dest, const char *src, apr_ssize_t slen, int flags, apr_size_t * len); @@ -530,15 +609,16 @@ /** * Convert base16 (hex) and return the results from a pool. * @param p Pool to allocate from. - * @param src The original string. + * @param src The base16 string to decode. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, allow tokens to be separated with a colon. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A buffer allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the decoding is not + * possible (see apr_decode_base16 errors). */ APR_DECLARE(const char *)apr_pdecode_base16(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) @@ -547,15 +627,16 @@ /** * Convert base16 (hex) to binary data, and return the results from a pool. * @param p Pool to allocate from. - * @param src The original string. + * @param src The base16 string to decode. * @param slen The length of the original string, or APR_ENCODE_STRING if - * NUL terminated. + * the actual length should be computed based on NUL termination. * @param flags If APR_ENCODE_NONE, parse RFC4648 Base 16 Encoding. If * APR_ENCODE_COLON, allow tokens to be separated with a colon. - * @param len If present, returns the number of characters written, excluding - * the zero padding. - * @return A buffer allocated from the pool containing the result with a zero - * pad. If src was NULL, or an error occurred, NULL is returned. + * @param len If not NULL, outputs the length of the encoding (excluding the + * trailing NUL). + * @return A NUL terminated string allocated from the pool on success, + * or NULL if src is NULL or allocation failed or the decoding is not + * possible (see apr_decode_base16_binary errors). */ APR_DECLARE(const unsigned char *)apr_pdecode_base16_binary(apr_pool_t * p, const char *src, apr_ssize_t slen, int flags, apr_size_t * len) --- apr-1.7.0/include/private/apr_encode_private.h.encoding +++ apr-1.7.0/include/private/apr_encode_private.h @@ -34,7 +34,8 @@ */ #if APR_CHARSET_EBCDIC - static int convert_a2e[256] = { + +static unsigned char convert_a2e[256] = { 0x00, 0x01, 0x02, 0x03, 0x37, 0x2D, 0x2E, 0x2F, 0x16, 0x05, 0x15, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F, 0x10, 0x11, 0x12, 0x13, 0x3C, 0x3D, 0x32, 0x26, 0x18, 0x19, 0x3F, 0x27, 0x1C, 0x1D, 0x1E, 0x1F, 0x40, 0x5A, 0x7F, 0x7B, 0x5B, 0x6C, 0x50, 0x7D, 0x4D, 0x5D, 0x5C, 0x4E, 0x6B, 0x60, 0x4B, 0x61, @@ -52,7 +53,7 @@ 0x44, 0x45, 0x42, 0x46, 0x43, 0x47, 0x9C, 0x48, 0x54, 0x51, 0x52, 0x53, 0x58, 0x55, 0x56, 0x57, 0x8C, 0x49, 0xCD, 0xCE, 0xCB, 0xCF, 0xCC, 0xE1, 0x70, 0xDD, 0xDE, 0xDB, 0xDC, 0x8D, 0x8E, 0xDF}; - static int convert_e2a[256] = { +static unsigned char convert_e2a[256] = { 0x00, 0x01, 0x02, 0x03, 0x9C, 0x09, 0x86, 0x7F, 0x97, 0x8D, 0x8E, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F, 0x10, 0x11, 0x12, 0x13, 0x9D, 0x0A, 0x08, 0x87, 0x18, 0x19, 0x92, 0x8F, 0x1C, 0x1D, 0x1E, 0x1F, 0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x17, 0x1B, 0x88, 0x89, 0x8A, 0x8B, 0x8C, 0x05, 0x06, 0x07, @@ -69,12 +70,16 @@ 0x7D, 0x4A, 0x4B, 0x4C, 0x4D, 0x4E, 0x4F, 0x50, 0x51, 0x52, 0xB9, 0xFB, 0xFC, 0xF9, 0xFA, 0xFF, 0x5C, 0xF7, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59, 0x5A, 0xB2, 0xD4, 0xD6, 0xD2, 0xD3, 0xD5, 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0xB3, 0xDB, 0xDC, 0xD9, 0xDA, 0x9F}; -#define decode ENCODE_TO_ASCII(ch) convert_e2a[(unsigned char)ch] -#define decode ENCODE_TO_NATIVE(ch) convert_a2e[(unsigned char)ch] -#else /* APR_CHARSET_EBCDIC */ -#define ENCODE_TO_ASCII(ch) (ch) -#define ENCODE_TO_NATIVE(ch) (ch) -#endif /* !APR_CHARSET_EBCDIC */ + +#define TO_ASCII(ch) (convert_e2a[(unsigned char)(ch)]) +#define TO_NATIVE(ch) (convert_a2e[(unsigned char)(ch)]) + +#else /* APR_CHARSET_EBCDIC */ + +#define TO_ASCII(ch) ((unsigned char)(ch)) +#define TO_NATIVE(ch) ((unsigned char)(ch)) + +#endif /* !APR_CHARSET_EBCDIC */ /** @} */ #ifdef __cplusplus --- apr-1.7.0/test/testencode.c.encoding +++ apr-1.7.0/test/testencode.c @@ -905,6 +905,202 @@ apr_pool_destroy(pool); } +static void test_encode_errors(abts_case * tc, void *data) +{ + char dest[64]; + apr_size_t len; + apr_status_t rv; + + /* Can't test APR_ENOSPC without a NUL terminated buffer of + * length APR_SIZE_MAX / 4 * 3 and passing APR_ENCODE_STRING, + * which we won't even think about :) + */ + + /* base64 */ + rv = apr_encode_base64(dest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_encode_base64(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + + /* base64_binary */ + rv = apr_encode_base64_binary(dest, (const unsigned char *)"", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_encode_base64_binary(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + + /* base32 */ + rv = apr_encode_base32(dest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_encode_base32(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + + /* base32_binary */ + rv = apr_encode_base32_binary(dest, (const unsigned char *)"", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_encode_base32_binary(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + + /* base16 */ + rv = apr_encode_base16(dest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_encode_base16(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + + /* base16_binary */ + rv = apr_encode_base16_binary(dest, (const unsigned char *)"", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_encode_base16_binary(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); +} + +static void test_decode_errors(abts_case * tc, void *data) +{ + char dest[64]; + apr_size_t len; + apr_status_t rv; + unsigned char *udest = (unsigned char *)dest; + + /* base64 */ + rv = apr_decode_base64(dest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_decode_base64(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + rv = apr_decode_base64(NULL, NULL, 5, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base64(dest, "ABCDE", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base64(dest, "ABCD*EF", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base64(dest, "ABCD*EF", APR_ENCODE_STRING, + APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 3, len); + + /* base64_binary */ + rv = apr_decode_base64_binary(udest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_decode_base64_binary(udest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + rv = apr_decode_base64_binary(NULL, NULL, 5, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base64_binary(udest, "ABCDE", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base64_binary(udest, "ABCD*EF", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base64_binary(udest, "ABCD*EF", APR_ENCODE_STRING, + APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 3, len); + + /* base32 */ + rv = apr_decode_base32(dest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_decode_base32(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + rv = apr_decode_base32(NULL, NULL, 9, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32(NULL, NULL, 11, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32(NULL, NULL, 14, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32(dest, "ABCDEFGHI", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32(dest, "ABCDEFGHIJK", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32(dest, "ABCDEFGHIJKLMN", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32(dest, "ABCDEFGH*IJ", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base32(dest, "ABCEEFGH*IJ", APR_ENCODE_STRING, + APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 5, len); + + /* base32_binary */ + rv = apr_decode_base32_binary(udest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_decode_base32_binary(udest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + rv = apr_decode_base32_binary(NULL, NULL, 9, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32_binary(NULL, NULL, 11, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32_binary(NULL, NULL, 14, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32_binary(udest, "ABCDEFGHI", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32_binary(udest, "ABCDEFGHIJK", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32_binary(udest, "ABCDEFGHIJKLMN", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base32_binary(udest, "ABCDEFGH*IJ", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base32_binary(udest, "ABCEEFGH*IJ", APR_ENCODE_STRING, + APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 5, len); + + /* base16 */ + rv = apr_decode_base16(dest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_decode_base16(dest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + rv = apr_decode_base16(NULL, NULL, 3, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16(dest, "ABC", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16(dest, "ABCD*EF", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base16(dest, "ABCD*EF", APR_ENCODE_STRING, + APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 2, len); + /* base16 with colon */ + rv = apr_decode_base16(dest, "AB:", APR_ENCODE_STRING, + APR_ENCODE_COLON, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16(dest, "AB:C", APR_ENCODE_STRING, + APR_ENCODE_COLON, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16(dest, "AB:CD*EF", APR_ENCODE_STRING, + APR_ENCODE_COLON, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base16(dest, "AB:CD*EF", APR_ENCODE_STRING, + APR_ENCODE_COLON|APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 2, len); + + /* base16_binary */ + rv = apr_decode_base16_binary(udest, "", -2, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINVAL, rv); + rv = apr_decode_base16_binary(udest, NULL, APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_NOTFOUND, rv); + rv = apr_decode_base16_binary(NULL, NULL, 3, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16_binary(udest, "ABC", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16_binary(udest, "ABCD*EF", APR_ENCODE_STRING, 0, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base16_binary(udest, "ABCD*EF", APR_ENCODE_STRING, + APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 2, len); + /* base16_binary with colon */ + rv = apr_decode_base16_binary(udest, "AB:", APR_ENCODE_STRING, + APR_ENCODE_COLON, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16_binary(udest, "AB:C", APR_ENCODE_STRING, + APR_ENCODE_COLON, &len); + ABTS_INT_EQUAL(tc, APR_EINCOMPLETE, rv); + rv = apr_decode_base16_binary(udest, "AB:CD*EF", APR_ENCODE_STRING, + APR_ENCODE_COLON, &len); + ABTS_INT_EQUAL(tc, APR_BADCH, rv); + rv = apr_decode_base16_binary(udest, "AB:CD*EF", APR_ENCODE_STRING, + APR_ENCODE_COLON|APR_ENCODE_RELAXED, &len); + ABTS_INT_EQUAL(tc, APR_SUCCESS, rv); + ABTS_SIZE_EQUAL(tc, 2, len); +} + abts_suite *testencode(abts_suite * suite) { suite = ADD_SUITE(suite); @@ -921,6 +1117,8 @@ abts_run_test(suite, test_encode_base16_binary, NULL); abts_run_test(suite, test_decode_base16, NULL); abts_run_test(suite, test_decode_base16_binary, NULL); + abts_run_test(suite, test_encode_errors, NULL); + abts_run_test(suite, test_decode_errors, NULL); return suite; }