/* Unix SMB/CIFS implementation. simple kerberos5/SPNEGO routines Copyright (C) Andrew Tridgell 2001 Copyright (C) Jim McDonough 2002 Copyright (C) Andrew Bartlett 2002-2003 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "includes.h" #ifdef AVM_VERY_SMALL bool msrpc_gen(DATA_BLOB *blob, const char *format, ...) { AVM_VERY_SMALL_LOG return True; } #else /* this is a tiny msrpc packet generator. I am only using this to avoid tying this code to a particular varient of our rpc code. This generator is not general enough for all our rpc needs, its just enough for the spnego/ntlmssp code format specifiers are: U = unicode string (input is unix string) a = address (input is char *unix_string) (1 byte type, 1 byte length, unicode/ASCII string, all inline) A = ASCII string (input is unix string) B = data blob (pointer + length) b = data blob in header (pointer + length) D d = word (4 bytes) C = constant ascii string */ bool msrpc_gen(DATA_BLOB *blob, const char *format, ...) { int i, n; va_list ap; char *s; uint8 *b; int head_size=0, data_size=0; int head_ofs, data_ofs; /* first scan the format to work out the header and body size */ va_start(ap, format); for (i=0; format[i]; i++) { switch (format[i]) { case 'U': s = va_arg(ap, char *); head_size += 8; data_size += str_charnum(s) * 2; break; case 'A': s = va_arg(ap, char *); head_size += 8; data_size += str_ascii_charnum(s); break; case 'a': n = va_arg(ap, int); s = va_arg(ap, char *); data_size += (str_charnum(s) * 2) + 4; break; case 'B': b = va_arg(ap, uint8 *); head_size += 8; data_size += va_arg(ap, int); break; case 'b': b = va_arg(ap, uint8 *); head_size += va_arg(ap, int); break; case 'd': n = va_arg(ap, int); head_size += 4; break; case 'C': s = va_arg(ap, char *); head_size += str_charnum(s) + 1; break; } } va_end(ap); /* allocate the space, then scan the format * again to fill in the values */ *blob = data_blob(NULL, head_size + data_size); head_ofs = 0; data_ofs = head_size; va_start(ap, format); for (i=0; format[i]; i++) { switch (format[i]) { case 'U': s = va_arg(ap, char *); n = str_charnum(s); SSVAL(blob->data, head_ofs, n*2); head_ofs += 2; SSVAL(blob->data, head_ofs, n*2); head_ofs += 2; SIVAL(blob->data, head_ofs, data_ofs); head_ofs += 4; push_string(NULL, blob->data+data_ofs, s, n*2, STR_UNICODE|STR_NOALIGN); data_ofs += n*2; break; case 'A': s = va_arg(ap, char *); n = str_ascii_charnum(s); SSVAL(blob->data, head_ofs, n); head_ofs += 2; SSVAL(blob->data, head_ofs, n); head_ofs += 2; SIVAL(blob->data, head_ofs, data_ofs); head_ofs += 4; push_string(NULL, blob->data+data_ofs, s, n, STR_ASCII|STR_NOALIGN); data_ofs += n; break; case 'a': n = va_arg(ap, int); SSVAL(blob->data, data_ofs, n); data_ofs += 2; s = va_arg(ap, char *); n = str_charnum(s); SSVAL(blob->data, data_ofs, n*2); data_ofs += 2; if (0 < n) { push_string(NULL, blob->data+data_ofs, s, n*2, STR_UNICODE|STR_NOALIGN); } data_ofs += n*2; break; case 'B': b = va_arg(ap, uint8 *); n = va_arg(ap, int); SSVAL(blob->data, head_ofs, n); head_ofs += 2; SSVAL(blob->data, head_ofs, n); head_ofs += 2; SIVAL(blob->data, head_ofs, data_ofs); head_ofs += 4; if (n && b) /* don't follow null pointers... */ memcpy(blob->data+data_ofs, b, n); data_ofs += n; break; case 'd': n = va_arg(ap, int); SIVAL(blob->data, head_ofs, n); head_ofs += 4; break; case 'b': b = va_arg(ap, uint8 *); n = va_arg(ap, int); memcpy(blob->data + head_ofs, b, n); head_ofs += n; break; case 'C': s = va_arg(ap, char *); n = str_charnum(s) + 1; head_ofs += push_string(NULL, blob->data+head_ofs, s, n, STR_ASCII|STR_TERMINATE); break; } } va_end(ap); return true; } /* a helpful macro to avoid running over the end of our blob */ #define NEED_DATA(amount) \ if ((head_ofs + amount) > blob->length) { \ va_end(ap); \ return False; \ } /* this is a tiny msrpc packet parser. This the the partner of msrpc_gen format specifiers are: U = unicode string (output is unix string) A = ascii string B = data blob b = data blob in header d = word (4 bytes) C = constant ascii string */ bool msrpc_parse(const DATA_BLOB *blob, const char *format, ...) { int i; va_list ap; char **ps, *s; DATA_BLOB *b; size_t head_ofs = 0; uint16 len1, len2; uint32 ptr; uint32 *v; va_start(ap, format); for (i=0; format[i]; i++) { switch (format[i]) { case 'U': NEED_DATA(8); len1 = SVAL(blob->data, head_ofs); head_ofs += 2; len2 = SVAL(blob->data, head_ofs); head_ofs += 2; ptr = IVAL(blob->data, head_ofs); head_ofs += 4; ps = va_arg(ap, char **); if (len1 == 0 && len2 == 0) { *ps = smb_xstrdup(""); } else { /* make sure its in the right format * be strict */ if ((len1 != len2) || (ptr + len1 < ptr) || (ptr + len1 < len1) || (ptr + len1 > blob->length)) { va_end(ap); return false; } if (len1 & 1) { /* if odd length and unicode */ va_end(ap); return false; } if (blob->data + ptr < (uint8 *)(unsigned long)ptr || blob->data + ptr < blob->data) { va_end(ap); return false; } if (0 < len1) { char *p = NULL; pull_string_talloc(talloc_tos(), NULL, 0, &p, blob->data + ptr, len1, STR_UNICODE|STR_NOALIGN); if (p) { (*ps) = smb_xstrdup(p); TALLOC_FREE(p); } else { (*ps) = smb_xstrdup(""); } } else { (*ps) = smb_xstrdup(""); } } break; case 'A': NEED_DATA(8); len1 = SVAL(blob->data, head_ofs); head_ofs += 2; len2 = SVAL(blob->data, head_ofs); head_ofs += 2; ptr = IVAL(blob->data, head_ofs); head_ofs += 4; ps = va_arg(ap, char **); /* make sure its in the right format - be strict */ if (len1 == 0 && len2 == 0) { *ps = smb_xstrdup(""); } else { if ((len1 != len2) || (ptr + len1 < ptr) || (ptr + len1 < len1) || (ptr + len1 > blob->length)) { va_end(ap); return false; } if (blob->data + ptr < (uint8 *)(unsigned long)ptr || blob->data + ptr < blob->data) { va_end(ap); return false; } if (0 < len1) { char *p = NULL; pull_string_talloc(talloc_tos(), NULL, 0, &p, blob->data + ptr, len1, STR_ASCII|STR_NOALIGN); if (p) { (*ps) = smb_xstrdup(p); TALLOC_FREE(p); } else { (*ps) = smb_xstrdup(""); } } else { (*ps) = smb_xstrdup(""); } } break; case 'B': NEED_DATA(8); len1 = SVAL(blob->data, head_ofs); head_ofs += 2; len2 = SVAL(blob->data, head_ofs); head_ofs += 2; ptr = IVAL(blob->data, head_ofs); head_ofs += 4; b = (DATA_BLOB *)va_arg(ap, void *); if (len1 == 0 && len2 == 0) { *b = data_blob_null; } else { /* make sure its in the right format * be strict */ if ((len1 != len2) || (ptr + len1 < ptr) || (ptr + len1 < len1) || (ptr + len1 > blob->length)) { va_end(ap); return false; } if (blob->data + ptr < (uint8 *)(unsigned long)ptr || blob->data + ptr < blob->data) { va_end(ap); return false; } *b = data_blob(blob->data + ptr, len1); } break; case 'b': b = (DATA_BLOB *)va_arg(ap, void *); len1 = va_arg(ap, unsigned); /* make sure its in the right format - be strict */ NEED_DATA(len1); if (blob->data + head_ofs < (uint8 *)head_ofs || blob->data + head_ofs < blob->data) { va_end(ap); return false; } *b = data_blob(blob->data + head_ofs, len1); head_ofs += len1; break; case 'd': v = va_arg(ap, uint32 *); NEED_DATA(4); *v = IVAL(blob->data, head_ofs); head_ofs += 4; break; case 'C': s = va_arg(ap, char *); if (blob->data + head_ofs < (uint8 *)head_ofs || blob->data + head_ofs < blob->data) { va_end(ap); return false; } { char *p = NULL; size_t ret = pull_string_talloc(talloc_tos(), NULL, 0, &p, blob->data+head_ofs, blob->length - head_ofs, STR_ASCII|STR_TERMINATE); if (ret == (size_t)-1 || p == NULL) { va_end(ap); return false; } head_ofs += ret; if (strcmp(s, p) != 0) { TALLOC_FREE(p); va_end(ap); return false; } TALLOC_FREE(p); } break; } } va_end(ap); return True; } #endif /* AVM_VERY_SMALL */