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authorSteven <sluong@cisco.com>2017-06-09 18:49:17 -0700
committerDamjan Marion <dmarion.lists@gmail.com>2017-10-14 09:11:19 +0000
commitd77275307b6ad6459ecba01912a302fb7dbf0f02 (patch)
tree97404007d5458d887d57ef8403bb1ea2d3172186 /test/test_geneve.py
parent781b99ddc9565a6c8bbe078ecb3258d91a2bbc06 (diff)
vhost: crash under heavy traffic condition due to memory corruption (VPP-1016)
With heavy traffic, tx code path may crash due to memory corruption Thread 5 "vpp_wk_2" received signal SIGSEGV, Segmentation fault. [Switching to Thread 0x7fff3995c700 (LWP 2505)] 0x00007ffff73675e8 in vhost_user_if_input (vm=0x7fffb5f5bf9c, vum=0x7ffff7882a40 <vhost_user_main>, vui=0x7fffb65570c4, qid=0, node=0x7fffb6577dac, mode=VNET_HW_INTERFACE_RX_MODE_POLLING) at /home/sluong/vpp-master/vpp/build-data/../src/vnet/devices/virtio/vhost-user.c:1610 1610 bi_current = (vum->cpus[thread_index].rx_buffers) [vum->cpus[thread_index].rx_buffers_len]; (gdb) p vum->cpus[thread_index].rx_buffers_len $2 = 793212607 (gdb) Apparently, some code accidentally wrote the bad value in rx_buffers_len. rx_buffers_len should never be greater than 1024 since that is how many buffers we request each time. After debugging many hours, I discovered that the memory corruption happens in the tx code path right here on line 2176. { vhost_copy_t *cpy = &vum->cpus[thread_index].copy[copy_len]; copy_len++; cpy->len = bytes_left; cpy->len = (cpy->len > buffer_len) ? buffer_len : cpy->len; cpy->dst = buffer_map_addr; cpy->src = (uword) vlib_buffer_get_current (current_b0) + current_b0->current_length - bytes_left; (gdb) p cpy $3 = (vhost_copy_t *) 0x7fffb554077c (gdb) p copy_len $4 = 1025 (gdb) p &vum->cpus[3].rx_buffers_len $8 = (u32 *) 0x7fffb5540784 copy_len is picking up the index entry 1024 before it was incremented. copy array has only 1024 members (0 - 1023 are valid). The assignment here in cpy surely causes memory corruption. It is only discovered later when the memory location that it corrupted is used. The condition for the crash is to transmit jumbo frames under heavy volume. Since ring size is 1024, with one packet taking up one index for frame size (less 2048), it does not cause overflow. With jumbo frames, it requires multiple indices for one packet, it can cause the overflow under heavy traffic. The fix is to do copy out when we have 1000 entries in the array to avoid overflow. Change-Id: Iefbc739b8e80470f1cf13123113f8331ffcd0eb2 Signed-off-by: Steven <sluong@cisco.com>
Diffstat (limited to 'test/test_geneve.py')
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