@@ -3555,14 +3555,31 @@ xfs_btree_insrec(
xfs_btree_log_block(cur, bp, XFS_BB_NUMRECS);
/*
- * If we just inserted into a new tree block, we have to
- * recalculate nkey here because nkey is out of date.
+ * Update btree keys to reflect the newly added record or keyptr.
+ * There are three cases here to be aware of. Normally, all we have to
+ * do is walk towards the root, updating keys as necessary.
*
- * Otherwise we're just updating an existing block (having shoved
- * some records into the new tree block), so use the regular key
- * update mechanism.
+ * If the caller had us target a full block for the insertion, we dealt
+ * with that by calling the _make_block_unfull function. If the
+ * "make unfull" function splits the block, it'll hand us back the key
+ * and pointer of the new block. We haven't yet added the new block to
+ * the next level up, so if we decide to add the new record to the new
+ * block (bp->b_bn != old_bn), we have to update the caller's pointer
+ * so that the caller adds the new block with the correct key.
+ *
+ * However, there is a third possibility-- if the selected block is the
+ * root block of an inode-rooted btree and cannot be expanded further,
+ * the "make unfull" function moves the root block contents to a new
+ * block and updates the root block to point to the new block. In this
+ * case, no block pointer is passed back because the block has already
+ * been added to the btree. In this case, we need to use the regular
+ * key update function, just like the first case. This is critical for
+ * overlapping btrees, because the high key must be updated to reflect
+ * the entire tree, not just the subtree accessible through the first
+ * child of the root (which is now two levels down from the root).
*/
- if (bp && xfs_buf_daddr(bp) != old_bn) {
+ if (!xfs_btree_ptr_is_null(cur, &nptr) &&
+ bp && xfs_buf_daddr(bp) != old_bn) {
xfs_btree_get_keys(cur, block, lkey);
} else if (xfs_btree_needs_key_update(cur, optr)) {
error = xfs_btree_update_keys(cur, level);