From: Mitko Haralanov Date: Tue, 12 Apr 2016 17:46:53 +0000 (-0700) Subject: IB/hfi1: Fix buffer cache races which may cause corruption X-Git-Url: https://git.karo-electronics.de/?a=commitdiff_plain;h=e88c9271d9f8db79d8104f7f7bd14cb8d88cc187;p=linux-beck.git IB/hfi1: Fix buffer cache races which may cause corruption There are two possible causes for node/memory corruption both of which are related to the cache eviction algorithm. One way to cause corruption is due to the asynchronous nature of the MMU invalidation and the locking used when invalidating node. The MMU invalidation routine would temporarily release the RB tree lock to avoid a deadlock. However, this would allow the eviction function to take the lock resulting in the removal of cache nodes. If the node being removed by the eviction code is the same as the node being invalidated, the result is use after free. The same is true in the other direction due to the temporary release of the eviction list lock in the eviction loop. Another corner case exists when dealing with the SDMA buffer cache that could cause memory corruption of kernel memory. The most common way, in which this corruption exhibits itself is a linked list node corruption. In that case, the kernel will complain that a node with poisoned pointers is being removed. The fact that the pointers are already poisoned means that the node has already been removed from the list. To root cause of this corruption was a mishandling of the eviction list maintained by the driver. In order for this to happen four conditions need to be satisfied: 1. A node describing a user buffer already exists in the interval RB tree, 2. The beginning of the current user buffer matches that node but is bigger. This will cause the node to be extended. 3. The amount of cached buffers is close or at the limit of the buffer cache size. 4. The node has dropped close to the end of the eviction list. This will cause the node to be considered for eviction. If all of the above conditions have been satisfied, it is possible for the eviction algorithm to evict the current node, which will free the node without the driver knowing. To solve both issues described above: - the locking around the MMU invalidation loop and cache eviction loop has been improved so locks are not released in the loop body, - a new RB function is introduced which will "atomically" find and remove the matching node from the RB tree, preventing the MMU invalidation loop from touching it, and - the node being extended by the pin_vector_pages() function is removed from the eviction list prior to calling the eviction function. Reviewed-by: Dean Luick Signed-off-by: Mitko Haralanov Signed-off-by: Doug Ledford --- diff --git a/drivers/staging/rdma/hfi1/mmu_rb.c b/drivers/staging/rdma/hfi1/mmu_rb.c index 03f360accacd..2b0e91d3093d 100644 --- a/drivers/staging/rdma/hfi1/mmu_rb.c +++ b/drivers/staging/rdma/hfi1/mmu_rb.c @@ -316,9 +316,9 @@ static void mmu_notifier_mem_invalidate(struct mmu_notifier *mn, hfi1_cdbg(MMU, "Invalidating node addr 0x%llx, len %u", node->addr, node->len); if (handler->ops->invalidate(root, node)) { - spin_unlock_irqrestore(&handler->lock, flags); - __mmu_rb_remove(handler, node, mm); - spin_lock_irqsave(&handler->lock, flags); + __mmu_int_rb_remove(node, root); + if (handler->ops->remove) + handler->ops->remove(root, node, mm); } } spin_unlock_irqrestore(&handler->lock, flags); diff --git a/drivers/staging/rdma/hfi1/user_sdma.c b/drivers/staging/rdma/hfi1/user_sdma.c index f7e2fe7ed9db..635ddf8b406d 100644 --- a/drivers/staging/rdma/hfi1/user_sdma.c +++ b/drivers/staging/rdma/hfi1/user_sdma.c @@ -180,6 +180,8 @@ struct user_sdma_iovec { u64 offset; }; +#define SDMA_CACHE_NODE_EVICT BIT(0) + struct sdma_mmu_node { struct mmu_rb_node rb; struct list_head list; @@ -187,6 +189,7 @@ struct sdma_mmu_node { atomic_t refcount; struct page **pages; unsigned npages; + unsigned long flags; }; struct user_sdma_request { @@ -1030,27 +1033,29 @@ static inline int num_user_pages(const struct iovec *iov) return 1 + ((epage - spage) >> PAGE_SHIFT); } -/* Caller must hold pq->evict_lock */ static u32 sdma_cache_evict(struct hfi1_user_sdma_pkt_q *pq, u32 npages) { u32 cleared = 0; struct sdma_mmu_node *node, *ptr; + struct list_head to_evict = LIST_HEAD_INIT(to_evict); + spin_lock(&pq->evict_lock); list_for_each_entry_safe_reverse(node, ptr, &pq->evict, list) { /* Make sure that no one is still using the node. */ if (!atomic_read(&node->refcount)) { - /* - * Need to use the page count now as the remove callback - * will free the node. - */ + set_bit(SDMA_CACHE_NODE_EVICT, &node->flags); + list_del_init(&node->list); + list_add(&node->list, &to_evict); cleared += node->npages; - spin_unlock(&pq->evict_lock); - hfi1_mmu_rb_remove(&pq->sdma_rb_root, &node->rb); - spin_lock(&pq->evict_lock); if (cleared >= npages) break; } } + spin_unlock(&pq->evict_lock); + + list_for_each_entry_safe(node, ptr, &to_evict, list) + hfi1_mmu_rb_remove(&pq->sdma_rb_root, &node->rb); + return cleared; } @@ -1092,11 +1097,25 @@ static int pin_vector_pages(struct user_sdma_request *req, memcpy(pages, node->pages, node->npages * sizeof(*pages)); npages -= node->npages; + + /* + * If rb_node is NULL, it means that this is brand new node + * and, therefore not on the eviction list. + * If, however, the rb_node is non-NULL, it means that the + * node is already in RB tree and, therefore on the eviction + * list (nodes are unconditionally inserted in the eviction + * list). In that case, we have to remove the node prior to + * calling the eviction function in order to prevent it from + * freeing this node. + */ + if (rb_node) { + spin_lock(&pq->evict_lock); + list_del_init(&node->list); + spin_unlock(&pq->evict_lock); + } retry: if (!hfi1_can_pin_pages(pq->dd, pq->n_locked, npages)) { - spin_lock(&pq->evict_lock); cleared = sdma_cache_evict(pq, npages); - spin_unlock(&pq->evict_lock); if (cleared >= npages) goto retry; } @@ -1121,10 +1140,7 @@ retry: node->npages += pinned; npages = node->npages; spin_lock(&pq->evict_lock); - if (!rb_node) - list_add(&node->list, &pq->evict); - else - list_move(&node->list, &pq->evict); + list_add(&node->list, &pq->evict); pq->n_locked += pinned; spin_unlock(&pq->evict_lock); } @@ -1555,6 +1571,18 @@ static void sdma_rb_remove(struct rb_root *root, struct mmu_rb_node *mnode, container_of(mnode, struct sdma_mmu_node, rb); spin_lock(&node->pq->evict_lock); + /* + * We've been called by the MMU notifier but this node has been + * scheduled for eviction. The eviction function will take care + * of freeing this node. + * We have to take the above lock first because we are racing + * against the setting of the bit in the eviction function. + */ + if (mm && test_bit(SDMA_CACHE_NODE_EVICT, &node->flags)) { + spin_unlock(&node->pq->evict_lock); + return; + } + if (!list_empty(&node->list)) list_del(&node->list); node->pq->n_locked -= node->npages;