+CC Olivier Matz <olivier.m...@6wind.com>, Network Headers maintainer
> -----Original Message----- > From: Morten Brørup <m...@smartsharesystems.com> > Sent: den 15 juni 2022 16:41 > To: Emil Berg <emil.b...@ericsson.com>; bugzi...@dpdk.org > Cc: dev@dpdk.org > Subject: RE: [Bug 1035] __rte_raw_cksum() crash with misaligned pointer > > > From: bugzi...@dpdk.org [mailto:bugzi...@dpdk.org] > > Sent: Wednesday, 15 June 2022 09.16 > > > > https://protect2.fireeye.com/v1/url?k=31323334-501d5122-313273af- > 45444 > > 5555731-2e92ae6bf759c0c5&q=1&e=b3fc70af-5d37-4ffb-b34d- > 9a51927f5f6d&u= > > https%3A%2F%2Fbugs.dpdk.org%2Fshow_bug.cgi%3Fid%3D1035 > > > > Bug ID: 1035 > > Summary: __rte_raw_cksum() crash with misaligned pointer > > Product: DPDK > > Version: 21.11 > > Hardware: All > > OS: All > > Status: UNCONFIRMED > > Severity: normal > > Priority: Normal > > Component: ethdev > > Assignee: dev@dpdk.org > > Reporter: emil.b...@ericsson.com > > Target Milestone: --- > > > > See rte_raw_cksum() in rte_ip.h, which is part of the public API. See > > also the subfunction __rte_raw_cksum(). > > > > _rte_raw_cksum assumes that the buffer over which the checksum is > > calculated is an even address (divisible by two). See for example > this > > stack overflow > > post: > > https://stackoverflow.com/questions/46790550/c-undefined-behavior- > > strict-aliasing-rule-or-incorrect-alignment > > > > The post explains that there is undefined behavior in C11 when > > "conversion between two pointer types produces a result that is > > incorrectly aligned". When the buf argument starts on an odd address > > we thus have undefined behavior, since a pointer is cast from void* > to > > uint16_t*. > > > > In most cases (at least on x86) that isn't a problem, but with higher > > optimization levels it may break due to vector instructions. This new > > function seems to be easier to optimize by the compiler, resulting in > > a crash when the buf argument is odd. Please note that the undefined > > behavior is present in earlier versions of dpdk as well. > > > > Now you're probably thinking: "Just align your buffers". The problem > > is that we have a packet buffer which is aligned. The checksum is > > calculated on a subset of that aligned packet buffer, and that > > sometimes lies on odd addresses. > > > > The question remains if this is an issue with dpdk or not. > > I can imagine other systems doing what you describe too. So it needs to > be addressed. > > Off the top of my head, an easy fix would be updating __rte_raw_cksum() > like this: > > static inline uint32_t > __rte_raw_cksum(const void *buf, size_t len, uint32_t sum) { > if (likely((buf & 1) == 0)) { > /* The buffer is 16 bit aligned. */ > Keep the existing, optimized implementation here. > } else { > /* The buffer is not 16 bit aligned. */ > Add a new odd-buf tolerant implementation here. > } > } > > However, I'm not sure that it covers your scenario! > > The checksum is 16 bit wide, so if you calculate the checksum of e.g. 4 > bytes of memory starting at offset 1 in a 6 byte packet buffer, the > memory block can be treated as either 4 or 6 bytes relative to the data > covered by the checksum, i.e.: > > A: XX [01 02] [03 04] XX --> cksum = [04 06] > > B: [XX 01] [02 03] [04 XX] --> cksum = [06 04] > > Which one do you need? > > Perhaps an additional function is required to support your use case, > and the documentation for rte_raw_cksum() and __rte_raw_cksum() needs > to reflect that the buffer must be 16 bit aligned. > > Or the rte_raw_cksum() function can be modified to support an odd > buffer pointer as outlined above, with documentation added about > alignment of the running checksum. > -----Original Message----- > From: Emil Berg > Sent: den 16 juni 2022 07:45 > To: Morten Brørup <m...@smartsharesystems.com>; bugzi...@dpdk.org > Cc: dev@dpdk.org > Subject: RE: [Bug 1035] __rte_raw_cksum() crash with misaligned pointer > > Hi! > > We want the B option, i.e. the 6 bytes option. Perhaps adding alignment > detection to __rte_raw_cksum() is a good idea. > > A minor comment but I think buf & 1 won't work since buf isn't an > integral type, but something along that way. > > I'm starting to think about an efficient way to do this. > > Thank you! > -----Original Message----- > From: Emil Berg [mailto:emil.b...@ericsson.com] > Sent: Thursday, 16 June 2022 08.32 > To: Morten Brørup; bugzi...@dpdk.org > Cc: dev@dpdk.org > Subject: RE: [Bug 1035] __rte_raw_cksum() crash with misaligned pointer > > I've been sketching on an efficient solution to this. What about > something along the way below? I've run it with the combinations of: > even buf, even len > even buf, odd len > odd buf, even len > odd buf, odd len > > and it seems to give the same results as the older version of > __rte_raw_cksum, before 21.03. I ran it without optimizations and such > to ensure the compiler didn't insert vector instructions and such so > the results were comparable. The performance, when using an aligned buffer, needs to be comparable with full compiler optimization, or the patch will not be accepted. > > static inline uint32_t > __rte_raw_cksum_newest(const void *buf, size_t len, uint32_t sum) > { > const uint8_t *end = buf + len; > > uint32_t sum_even = 0; > for (const uint8_t *p = buf + 1; p < end; p += 2) { > sum_even += *p; > } > sum += sum_even << 8; > > uint32_t sum_odd = 0; > for (const uint8_t *p = buf; p < end; p += 2) { > sum_odd += *p; > } > sum += sum_odd; > > return sum; > } This function does not work on both little and big endian, when mixed with other checksum functions. The checksum functions read the buffer in CPU native endian and stores the checksum in CPU native endian; and magically it becomes correct in network endian. Please refer to RFC 1071 for the details. Perhaps you can also find some inspiration in RFC 1141. PS: Please don't top post.
