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/* * Today's hack: quantum tunneling in structs * * 'entries' and 'term' are never anywhere referenced by word in code. In fact, * they serve as the hanging-off data accessed through repl.data[]. */ /* tbl has the following structure equivalent, but is C99 compliant: * struct { * struct type##_replace repl; * struct type##_standard entries[nhooks]; * struct type##_error term; * } *tbl; */ #define xt_alloc_initial_table(type, typ2) ({ \ unsigned int hook_mask = info->valid_hooks; \ unsigned int nhooks = hweight32(hook_mask); \ unsigned int bytes = 0, hooknum = 0, i = 0; \ struct { \ struct type##_replace repl; \ struct type##_standard entries[]; \ } *tbl; \ struct type##_error *term; \ size_t term_offset = (offsetof(typeof(*tbl), entries[nhooks]) + \ __alignof__(*term) - 1) & ~(__alignof__(*term) - 1); \ tbl = kzalloc(term_offset + sizeof(*term), GFP_KERNEL); \ if (tbl == NULL) \ return NULL; \ term = (struct type##_error *)&(((char *)tbl)[term_offset]); \ strncpy(tbl->repl.name, info->name, sizeof(tbl->repl.name)); \ *term = (struct type##_error)typ2##_ERROR_INIT; \ tbl->repl.valid_hooks = hook_mask; \ tbl->repl.num_entries = nhooks + 1; \ tbl->repl.size = nhooks * sizeof(struct type##_standard) + \ sizeof(struct type##_error); \ for (; hook_mask != 0; hook_mask >>= 1, ++hooknum) { \ if (!(hook_mask & 1)) \ continue; \ tbl->repl.hook_entry[hooknum] = bytes; \ tbl->repl.underflow[hooknum] = bytes; \ tbl->entries[i++] = (struct type##_standard) \ typ2##_STANDARD_INIT(NF_ACCEPT); \ bytes += sizeof(struct type##_standard); \ } \ tbl; \ }) |