- 03 Mar, 2022 40 commits
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Jacob Keller authored
When removing VFs, the driver takes a weird approach of assigning pf->num_alloc_vfs to 0 before iterating over the VFs using a temporary variable. This logic has been in the driver for a long time, and seems to have been carried forward from i40e. We want to refactor the way VFs are stored, and iterating over the data structure without the ice_for_each_vf interface impedes this work. The logic relies on implicitly using the num_alloc_vfs as a sort of "safe guard" for accessing VF data. While this sort of guard makes sense for Single Root IOV where all VFs are added at once, the data structures don't work for VFs which can be added and removed dynamically. We also have a separate state flag, ICE_VF_DEINIT_IN_PROGRESS which is a stronger protection against concurrent removal and access. Avoid the custom tmp iteration and replace it with the standard ice_for_each_vf iterator. Delay the assignment of num_alloc_vfs until after this loop finishes. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Konrad Jankowski <konrad0.jankowski@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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Jacob Keller authored
The ice_vc_send_msg_to_vf function is used by the PF to send a response to a VF. This function has overzealous checks to ensure its not passed a NULL VF pointer and to ensure that the passed in struct ice_vf has a valid vf_id sub-member. These checks have existed since commit 1071a835 ("ice: Implement virtchnl commands for AVF support") and function as simple sanity checks. We are planning to refactor the ice driver to use a hash table along with appropriate locks in a future refactor. This change will modify how the ice_validate_vf_id function works. Instead of a simple >= check to ensure the VF ID is between some range, it will check the hash table to see if the specified VF ID is actually in the table. This requires that the function properly lock the table to prevent race conditions. The checks may seem ok at first glance, but they don't really provide much benefit. In order for ice_vc_send_msg_to_vf to have these checks fail, the callers must either (1) pass NULL as the VF, (2) construct an invalid VF pointer manually, or (3) be using a VF pointer which becomes invalid after they obtain it properly using ice_get_vf_by_id. For (1), a cursory glance over callers of ice_vc_send_msg_to_vf can show that in most cases the functions already operate assuming their VF pointer is valid, such as by derferencing vf->pf or other members. They obtain the VF pointer by accessing the VF array using the VF ID, which can never produce a NULL value (since its a simple address operation on the array it will not be NULL. The sole exception for (1) is that ice_vc_process_vf_msg will forward a NULL VF pointer to this function as part of its goto error handler logic. This requires some minor cleanup to simply exit immediately when an invalid VF ID is detected (Rather than use the same error flow as the rest of the function). For (2), it is unexpected for a flow to construct a VF pointer manually instead of accessing the VF array. Defending against this is likely to just hide bad programming. For (3), it is definitely true that VF pointers could become invalid, for example if a thread is processing a VF message while the VF gets removed. However, the correct solution is not to add additional checks like this which do not guarantee to prevent the race. Instead we plan to solve the root of the problem by preventing the possibility entirely. This solution will require the change to a hash table with proper locking and reference counts of the VF structures. When this is done, ice_validate_vf_id will require locking of the hash table. This will be problematic because all of the callers of ice_vc_send_msg_to_vf will already have to take the lock to obtain the VF pointer anyways. With a mutex, this leads to a double lock that could hang the kernel thread. Avoid this by removing the checks which don't provide much value, so that we can safely add the necessary protections properly. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Konrad Jankowski <konrad0.jankowski@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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Jacob Keller authored
After removing all VFs, the driver clears the VFLR indication for VFs. This has been in ice since the beginning of SR-IOV support in the ice driver. The implementation was copied from i40e, and the motivation for the VFLR indication clearing is described in the commit f7414531 ("i40e: acknowledge VFLR when disabling SR-IOV") The commit explains that we need to clear the VFLR indication because the virtual function undergoes a VFLR event. If we don't indicate that it is complete it can cause an issue when VFs are re-enabled due to a "phantom" VFLR. The register block read was added under a pci_vfs_assigned check originally. This was done because we added the check after calling pci_disable_sriov. This was later moved to disable SRIOV earlier in the flow so that the VF drivers could be torn down before we removed functionality. Move the VFLR acknowledge into the main loop that tears down VF resources. This avoids using the tmp value for iterating over VFs multiple times. The result will make it easier to refactor the VF array in a future change. It's possible we might want to modify this flow to also stop checking pci_vfs_assigned. However, it seems reasonable to keep this change: we should only clear the VFLR if we actually disabled SR-IOV. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Konrad Jankowski <konrad0.jankowski@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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Jacob Keller authored
The ice_mbx_clear_malvf function is used to clear the indication and count of how many times a VF was detected as malicious. During ice_free_vfs, we use this function to ensure that all removed VFs are reset to a clean state. The call currently is done at the end of ice_free_vfs() using a tmp value to iterate over all of the entries in the bitmap. This separate iteration using tmp is problematic for a planned refactor of the VF array data structure. To avoid this, lets move the call slightly higher into the function inside the loop where we teardown all of the VFs. This avoids one use of the tmp value used for iteration. We'll fix the other user in a future change. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Konrad Jankowski <konrad0.jankowski@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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Jacob Keller authored
We are planning to replace the simple array structure tracking VFs with a hash table. This change will also remove the "num_alloc_vfs" variable. Instead, new access functions to use the hash table as the source of truth will be introduced. These will generally be equivalent to existing checks, except during VF initialization. Specifically, ice_set_per_vf_res() cannot use the hash table as it will be operating prior to VF structures being inserted into the hash table. Instead of using pf->num_alloc_vfs, simply pass the num_vfs value in from the caller. Note that a sub-function of ice_set_per_vf_res, ice_determine_res, also implicitly depends on pf->num_alloc_vfs. Replace ice_determine_res with a simpler inline implementation based on rounddown_pow_of_two. Note that we must explicitly check that the argument is non-zero since it does not play well with zero as a value. Instead of using the function and while loop, simply calculate the number of queues we have available by dividing by num_vfs. Check if the desired queues are available. If not, round down to the nearest power of 2 that fits within our available queues. This matches the behavior of ice_determine_res but is easier to follow as simple in-line logic. Remove ice_determine_res entirely. With this change, we no longer depend on the pf->num_alloc_vfs during the initialization phase of VFs. This will allow us to safely remove it in a future planned refactor of the VF data structures. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Konrad Jankowski <konrad0.jankowski@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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Jacob Keller authored
The VSI structure contains a vf_id field used to associate a VSI with a VF. This is used mainly for ICE_VSI_VF as well as partially for ICE_VSI_CTRL associated with the VFs. This API was designed with the idea that VFs are stored in a simple array that was expected to be static throughout most of the driver's life. We plan on refactoring VF storage in a few key ways: 1) converting from a simple static array to a hash table 2) using krefs to track VF references obtained from the hash table 3) use RCU to delay release of VF memory until after all references are dropped This is motivated by the goal to ensure that the lifetime of VF structures is accounted for, and prevent various use-after-free bugs. With the existing vsi->vf_id, the reference tracking for VFs would become somewhat convoluted, because each VSI maintains a vf_id field which will then require performing a look up. This means all these flows will require reference tracking and proper usage of rcu_read_lock, etc. We know that the VF VSI will always be backed by a valid VF structure, because the VSI is created during VF initialization and removed before the VF is destroyed. Rely on this and store a reference to the VF in the VSI structure instead of storing a VF ID. This will simplify the usage and avoid the need to perform lookups on the hash table in the future. For ICE_VSI_VF, it is expected that vsi->vf is always non-NULL after ice_vsi_alloc succeeds. Because of this, use WARN_ON when checking if a vsi->vf pointer is valid when dealing with VF VSIs. This will aid in debugging code which violates this assumption and avoid more disastrous panics. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Konrad Jankowski <konrad0.jankowski@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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Jacob Keller authored
The code for supporting eswitch mode and port representors on VFs uses an unwind based cleanup flow when handling errors. These flows are used to cleanup and get everything back to the state prior to attempting to switch from legacy to representor mode or back. The unwind iterations make sense, but complicate a plan to refactor the VF array structure. In the future we won't have a clean method of reversing an iteration of the VFs. Instead, we can change the cleanup flow to just iterate over all VF structures and clean up appropriately. First notice that ice_repr_add_for_all_vfs and ice_repr_rem_from_all_vfs have an additional step of re-assigning the VC ops. There is no good reason to do this outside of ice_repr_add and ice_repr_rem. It can simply be done as the last step of these functions. Second, make sure ice_repr_rem is safe to call on a VF which does not have a representor. Check if vf->repr is NULL first and exit early if so. Move ice_repr_rem_from_all_vfs above ice_repr_add_for_all_vfs so that we can call it from the cleanup function. In ice_eswitch.c, replace the unwind iteration with a call to ice_eswitch_release_reprs. This will go through all of the VFs and revert the VF back to the standard model without the eswitch mode. To make this safe, ensure this function checks whether or not the represent or has been moved. Rely on the metadata destination in vf->repr->dst. This must be NULL if the representor has not been moved to eswitch mode. Ensure that we always re-assign this value back to NULL after freeing it, and move the ice_eswitch_release_reprs so that it can be called from the setup function. With these changes, eswitch cleanup no longer uses an unwind flow that is problematic for the planned VF data structure change. Signed-off-by: Jacob Keller <jacob.e.keller@intel.com> Tested-by: Sandeep Penigalapati <sandeep.penigalapati@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
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David S. Miller authored
Jonathan Lemon says: ==================== ptp: ocp: TOD and monitoring updates Add a series of patches for monitoring the status of the driver and adjusting TOD handling, especially around leap seconds. Add documentation for the new sysfs nodes. ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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Jonathan Lemon authored
Add documentation for the tod_correction, clock_status_drift, and clock_status_offset nodes. Signed-off-by: Jonathan Lemon <jonathan.lemon@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vadim Fedorenko authored
utc_tai_offset is used to correct IRIG, DCF and NMEA outputs and is set during initialisation but is not corrected during leap second announce event. Add watchdog code to control this correction. Signed-off-by: Vadim Fedorenko <vadfed@fb.com> Signed-off-by: Jonathan Lemon <jonathan.lemon@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vadim Fedorenko authored
TOD correction register is used to compensate for leap seconds in different domains. Export it as an attribute with write access. Signed-off-by: Vadim Fedorenko <vadfed@fb.com> Signed-off-by: Jonathan Lemon <jonathan.lemon@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vadim Fedorenko authored
Monitoring of clock variance could be done through checking the offset and the drift updates that are applied to atomic clocks. Expose these values as attributes for the timecard. Signed-off-by: Vadim Fedorenko <vadfed@fb.com> Signed-off-by: Jonathan Lemon <jonathan.lemon@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vadim Fedorenko authored
TOD information is currently displayed only on module load, which doesn't provide updated information as the system runs. Create a debug file which provides the current TOD status information, and move the information display there. Signed-off-by: Vadim Fedorenko <vadfed@fb.com> Signed-off-by: Jonathan Lemon <jonathan.lemon@gmail.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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David S. Miller authored
Martin KaFai Lau says: ==================== Preserve mono delivery time (EDT) in skb->tstamp skb->tstamp was first used as the (rcv) timestamp. The major usage is to report it to the user (e.g. SO_TIMESTAMP). Later, skb->tstamp is also set as the (future) delivery_time (e.g. EDT in TCP) during egress and used by the qdisc (e.g. sch_fq) to make decision on when the skb can be passed to the dev. Currently, there is no way to tell skb->tstamp having the (rcv) timestamp or the delivery_time, so it is always reset to 0 whenever forwarded between egress and ingress. While it makes sense to always clear the (rcv) timestamp in skb->tstamp to avoid confusing sch_fq that expects the delivery_time, it is a performance issue [0] to clear the delivery_time if the skb finally egress to a fq@phy-dev. This set is to keep the mono delivery time and make it available to the final egress interface. Please see individual patch for the details. [0] (slide 22): https://linuxplumbersconf.org/event/11/contributions/953/attachments/867/1658/LPC_2021_BPF_Datapath_Extensions.pdf v6: - Add kdoc and use non-UAPI type in patch 6 (Jakub) v5: netdev: - Patch 3 in v4 is broken down into smaller patches 3, 4, and 5 in v5 - The mono_delivery_time bit clearing in __skb_tstamp_tx() is done in __net_timestamp() instead. This is patch 4 in v5. - Missed a skb_clear_delivery_time() for the 'skip_classify' case in dev.c in v4. That is fixed in patch 5 in v5 for correctness. The skb_clear_delivery_time() will be moved to a later stage in Patch 10, so it was an intermediate error in v4. - Added delivery time handling for nfnetlink_{log, queue}.c in patch 9 (Daniel) - Added delivery time handling in the IPv6 IOAM hop-by-hop option which has an experimental IANA assigned value 49 in patch 8 - Added delivery time handling in nf_conntrack for the ipv6 defrag case in patch 7 - Removed unlikely() from testing skb->mono_delivery_time (Daniel) bpf: - Remove the skb->tstamp dance in ingress. Depends on bpf insn rewrite to return 0 if skb->tstamp has delivery time in patch 11. It is to backward compatible with the existing tc-bpf@ingress in patch 11. - bpf_set_delivery_time() will also allow dtime == 0 and dtime_type == BPF_SKB_DELIVERY_TIME_NONE as argument in patch 12. v4: netdev: - Push the skb_clear_delivery_time() from ip_local_deliver() and ip6_input() to ip_local_deliver_finish() and ip6_input_finish() to accommodate the ipvs forward path. This is the notable change in v4 at the netdev side. - Patch 3/8 first does the skb_clear_delivery_time() after sch_handle_ingress() in dev.c and this will make the tc-bpf forward path work via the bpf_redirect_*() helper. - The next patch 4/8 (new in v4) will then postpone the skb_clear_delivery_time() from dev.c to the ip_local_deliver_finish() and ip6_input_finish() after taking care of the tstamp usage in the ip defrag case. This will make the kernel forward path also work, e.g. the ip[6]_forward(). - Fixed a case v3 which missed setting the skb->mono_delivery_time bit when sending TCP rst/ack in some cases (e.g. from a ctl_sk). That case happens at ip_send_unicast_reply() and tcp_v6_send_response(). It is fixed in patch 1/8 (and then patch 3/8) in v4. bpf: - Adding __sk_buff->delivery_time_type instead of adding __sk_buff->mono_delivery_time as in v3. The tc-bpf can stay with one __sk_buff->tstamp instead of having two 'time' fields while one is 0 and another is not. tc-bpf can use the new __sk_buff->delivery_time_type to tell what is stored in __sk_buff->tstamp. - bpf_skb_set_delivery_time() helper is added to set __sk_buff->tstamp from non mono delivery_time to mono delivery_time - Most of the convert_ctx_access() bpf insn rewrite in v3 is gone, so no new rewrite added for __sk_buff->tstamp. The only rewrite added is for reading the new __sk_buff->delivery_time_type. - Added selftests, test_tc_dtime.c v3: - Feedback from v2 is using shinfo(skb)->tx_flags could be racy. - Considered to reuse a few bits in skb->tstamp to represent different semantics, other than more code churns, it will break the bpf usecase which currently can write and then read back the skb->tstamp. - Went back to v1 idea on adding a bit to skb and address the feedbacks on v1: - Added one bit skb->mono_delivery_time to flag that the skb->tstamp has the mono delivery_time (EDT), instead of adding a bit to flag if the skb->tstamp has been forwarded or not. - Instead of resetting the delivery_time back to the (rcv) timestamp during recvmsg syscall which may be too late and not useful, the delivery_time reset in v3 happens earlier once the stack knows that the skb will be delivered locally. - Handled the tapping@ingress case by af_packet - No need to change the (rcv) timestamp to mono clock base as in v1. The added one bit to flag skb->mono_delivery_time is enough to keep the EDT delivery_time during forward. - Added logic to the bpf side to make the existing bpf running at ingress can still get the (rcv) timestamp when reading the __sk_buff->tstamp. New __sk_buff->mono_delivery_time is also added. Test is still needed to test this piece. ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
This patch adds tests on forwarding the delivery_time for the following cases - tcp/udp + ip4/ip6 + bpf_redirect_neigh - tcp/udp + ip4/ip6 + ip[6]_forward - bpf_skb_set_delivery_time - The old rcv timestamp expectation on tc-bpf@ingress Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
* __sk_buff->delivery_time_type: This patch adds __sk_buff->delivery_time_type. It tells if the delivery_time is stored in __sk_buff->tstamp or not. It will be most useful for ingress to tell if the __sk_buff->tstamp has the (rcv) timestamp or delivery_time. If delivery_time_type is 0 (BPF_SKB_DELIVERY_TIME_NONE), it has the (rcv) timestamp. Two non-zero types are defined for the delivery_time_type, BPF_SKB_DELIVERY_TIME_MONO and BPF_SKB_DELIVERY_TIME_UNSPEC. For UNSPEC, it can only happen in egress because only mono delivery_time can be forwarded to ingress now. The clock of UNSPEC delivery_time can be deduced from the skb->sk->sk_clockid which is how the sch_etf doing it also. * Provide forwarded delivery_time to tc-bpf@ingress: With the help of the new delivery_time_type, the tc-bpf has a way to tell if the __sk_buff->tstamp has the (rcv) timestamp or the delivery_time. During bpf load time, the verifier will learn if the bpf prog has accessed the new __sk_buff->delivery_time_type. If it does, it means the tc-bpf@ingress is expecting the skb->tstamp could have the delivery_time. The kernel will then read the skb->tstamp as-is during bpf insn rewrite without checking the skb->mono_delivery_time. This is done by adding a new prog->delivery_time_access bit. The same goes for writing skb->tstamp. * bpf_skb_set_delivery_time(): The bpf_skb_set_delivery_time() helper is added to allow setting both delivery_time and the delivery_time_type at the same time. If the tc-bpf does not need to change the delivery_time_type, it can directly write to the __sk_buff->tstamp as the existing tc-bpf has already been doing. It will be most useful at ingress to change the __sk_buff->tstamp from the (rcv) timestamp to a mono delivery_time and then bpf_redirect_*(). bpf only has mono clock helper (bpf_ktime_get_ns), and the current known use case is the mono EDT for fq, and only mono delivery time can be kept during forward now, so bpf_skb_set_delivery_time() only supports setting BPF_SKB_DELIVERY_TIME_MONO. It can be extended later when use cases come up and the forwarding path also supports other clock bases. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
The current tc-bpf@ingress reads and writes the __sk_buff->tstamp as a (rcv) timestamp which currently could either be 0 (not available) or ktime_get_real(). This patch is to backward compatible with the (rcv) timestamp expectation at ingress. If the skb->tstamp has the delivery_time, the bpf insn rewrite will read 0 for tc-bpf running at ingress as it is not available. When writing at ingress, it will also clear the skb->mono_delivery_time bit. /* BPF_READ: a = __sk_buff->tstamp */ if (!skb->tc_at_ingress || !skb->mono_delivery_time) a = skb->tstamp; else a = 0 /* BPF_WRITE: __sk_buff->tstamp = a */ if (skb->tc_at_ingress) skb->mono_delivery_time = 0; skb->tstamp = a; [ A note on the BPF_CGROUP_INET_INGRESS which can also access skb->tstamp. At that point, the skb is delivered locally and skb_clear_delivery_time() has already been done, so the skb->tstamp will only have the (rcv) timestamp. ] If the tc-bpf@egress writes 0 to skb->tstamp, the skb->mono_delivery_time has to be cleared also. It could be done together during convert_ctx_access(). However, the latter patch will also expose the skb->mono_delivery_time bit as __sk_buff->delivery_time_type. Changing the delivery_time_type in the background may surprise the user, e.g. the 2nd read on __sk_buff->delivery_time_type may need a READ_ONCE() to avoid compiler optimization. Thus, in expecting the needs in the latter patch, this patch does a check on !skb->tstamp after running the tc-bpf and clears the skb->mono_delivery_time bit if needed. The earlier discussion on v4 [0]. The bpf insn rewrite requires the skb's mono_delivery_time bit and tc_at_ingress bit. They are moved up in sk_buff so that bpf rewrite can be done at a fixed offset. tc_skip_classify is moved together with tc_at_ingress. To get one bit for mono_delivery_time, csum_not_inet is moved down and this bit is currently used by sctp. [0]: https://lore.kernel.org/bpf/20220217015043.khqwqklx45c4m4se@kafai-mbp.dhcp.thefacebook.com/Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
The previous patches handled the delivery_time in the ingress path before the routing decision is made. This patch can postpone clearing delivery_time in a skb until knowing it is delivered locally and also set the (rcv) timestamp if needed. This patch moves the skb_clear_delivery_time() from dev.c to ip_local_deliver_finish() and ip6_input_finish(). Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
If skb has the (rcv) timestamp available, nfnetlink_{log, queue}.c logs/outputs it to the userspace. When the locally generated skb is looping from egress to ingress over a virtual interface (e.g. veth, loopback...), skb->tstamp may have the delivery time before it is known that will be delivered locally and received by another sk. Like handling the delivery time in network tapping, use ktime_get_real() to get the (rcv) timestamp. The earlier added helper skb_tstamp_cond() is used to do this. false is passed to the second 'cond' arg such that doing ktime_get_real() or not only depends on the netstamp_needed_key static key. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
IOAM is a hop-by-hop option with a temporary iana allocation (49). Since it is hop-by-hop, it is done before the input routing decision. One of the traced data field is the (rcv) timestamp. When the locally generated skb is looping from egress to ingress over a virtual interface (e.g. veth, loopback...), skb->tstamp may have the delivery time before it is known that it will be delivered locally and received by another sk. Like handling the network tapping (tcpdump) in the earlier patch, this patch gets the timestamp if needed without over-writing the delivery_time in the skb->tstamp. skb_tstamp_cond() is added to do the ktime_get_real() with an extra cond arg to check on top of the netstamp_needed_key static key. skb_tstamp_cond() will also be used in a latter patch and it needs the netstamp_needed_key check. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
A latter patch will postpone the delivery_time clearing until the stack knows the skb is being delivered locally (i.e. calling skb_clear_delivery_time() at ip_local_deliver_finish() for IPv4 and at ip6_input_finish() for IPv6). That will allow other kernel forwarding path (e.g. ip[6]_forward) to keep the delivery_time also. A very similar IPv6 defrag codes have been duplicated in multiple places: regular IPv6, nf_conntrack, and 6lowpan. Unlike the IPv4 defrag which is done before ip_local_deliver_finish(), the regular IPv6 defrag is done after ip6_input_finish(). Thus, no change should be needed in the regular IPv6 defrag logic because skb_clear_delivery_time() should have been called. 6lowpan also does not need special handling on delivery_time because it is a non-inet packet_type. However, cf_conntrack has a case in NF_INET_PRE_ROUTING that needs to do the IPv6 defrag earlier. Thus, it needs to save the mono_delivery_time bit in the inet_frag_queue which is similar to how it is handled in the previous patch for the IPv4 defrag. This patch chooses to do it consistently and stores the mono_delivery_time in the inet_frag_queue for all cases such that it will be easier for the future refactoring effort on the IPv6 reasm code. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
A latter patch will postpone the delivery_time clearing until the stack knows the skb is being delivered locally. That will allow other kernel forwarding path (e.g. ip[6]_forward) to keep the delivery_time also. An earlier attempt was to do skb_clear_delivery_time() in ip_local_deliver() and ip6_input(). The discussion [0] requested to move it one step later into ip_local_deliver_finish() and ip6_input_finish() so that the delivery_time can be kept for the ip_vs forwarding path also. To do that, this patch also needs to take care of the (rcv) timestamp usecase in ip_is_fragment(). It needs to expect delivery_time in the skb->tstamp, so it needs to save the mono_delivery_time bit in inet_frag_queue such that the delivery_time (if any) can be restored in the final defragmented skb. [Note that it will only happen when the locally generated skb is looping from egress to ingress over a virtual interface (e.g. veth, loopback...), skb->tstamp may have the delivery time before it is known that it will be delivered locally and received by another sk.] [0]: https://lore.kernel.org/netdev/ca728d81-80e8-3767-d5e-d44f6ad96e43@ssi.bg/Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
The previous patches handled the delivery_time before sch_handle_ingress(). This patch can now set the skb->mono_delivery_time to flag the skb->tstamp is used as the mono delivery_time (EDT) instead of the (rcv) timestamp and also clear it with skb_clear_delivery_time() after sch_handle_ingress(). This will make the bpf_redirect_*() to keep the mono delivery_time and used by a qdisc (fq) of the egress-ing interface. A latter patch will postpone the skb_clear_delivery_time() until the stack learns that the skb is being delivered locally and that will make other kernel forwarding paths (ip[6]_forward) able to keep the delivery_time also. Thus, like the previous patches on using the skb->mono_delivery_time bit, calling skb_clear_delivery_time() is not limited within the CONFIG_NET_INGRESS to avoid too many code churns among this set. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
In __skb_tstamp_tx(), it may clone the egress skb and queues the clone to the sk_error_queue. The outgoing skb may have the mono delivery_time while the (rcv) timestamp is expected for the clone, so the skb->mono_delivery_time bit needs to be cleared from the clone. This patch adds the skb->mono_delivery_time clearing to the existing __net_timestamp() and use it in __skb_tstamp_tx(). The __net_timestamp() fast path usage in dev.c is changed to directly call ktime_get_real() since the mono_delivery_time bit is not set at that point. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
A latter patch will set the skb->mono_delivery_time to flag the skb->tstamp is used as the mono delivery_time (EDT) instead of the (rcv) timestamp. skb_clear_tstamp() will then keep this delivery_time during forwarding. This patch is to make the network tapping (with af_packet) to handle the delivery_time stored in skb->tstamp. Regardless of tapping at the ingress or egress, the tapped skb is received by the af_packet socket, so it is ingress to the af_packet socket and it expects the (rcv) timestamp. When tapping at egress, dev_queue_xmit_nit() is used. It has already expected skb->tstamp may have delivery_time, so it does skb_clone()+net_timestamp_set() to ensure the cloned skb has the (rcv) timestamp before passing to the af_packet sk. This patch only adds to clear the skb->mono_delivery_time bit in net_timestamp_set(). When tapping at ingress, it currently expects the skb->tstamp is either 0 or the (rcv) timestamp. Meaning, the tapping at ingress path has already expected the skb->tstamp could be 0 and it will get the (rcv) timestamp by ktime_get_real() when needed. There are two cases for tapping at ingress: One case is af_packet queues the skb to its sk_receive_queue. The skb is either not shared or new clone created. The newly added skb_clear_delivery_time() is called to clear the delivery_time (if any) and set the (rcv) timestamp if needed before the skb is queued to the sk_receive_queue. Another case, the ingress skb is directly copied to the rx_ring and tpacket_get_timestamp() is used to get the (rcv) timestamp. The newly added skb_tstamp() is used in tpacket_get_timestamp() to check the skb->mono_delivery_time bit before returning skb->tstamp. As mentioned earlier, the tapping@ingress has already expected the skb may not have the (rcv) timestamp (because no sk has asked for it) and has handled this case by directly calling ktime_get_real(). Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
Right now, skb->tstamp is reset to 0 whenever the skb is forwarded. If skb->tstamp has the mono delivery_time, clearing it can hurt the performance when it finally transmits out to fq@phy-dev. The earlier patch added a skb->mono_delivery_time bit to flag the skb->tstamp carrying the mono delivery_time. This patch adds skb_clear_tstamp() helper which keeps the mono delivery_time and clears everything else. The delivery_time clearing will be postponed until the stack knows the skb will be delivered locally. It will be done in a latter patch. Signed-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Martin KaFai Lau authored
skb->tstamp was first used as the (rcv) timestamp. The major usage is to report it to the user (e.g. SO_TIMESTAMP). Later, skb->tstamp is also set as the (future) delivery_time (e.g. EDT in TCP) during egress and used by the qdisc (e.g. sch_fq) to make decision on when the skb can be passed to the dev. Currently, there is no way to tell skb->tstamp having the (rcv) timestamp or the delivery_time, so it is always reset to 0 whenever forwarded between egress and ingress. While it makes sense to always clear the (rcv) timestamp in skb->tstamp to avoid confusing sch_fq that expects the delivery_time, it is a performance issue [0] to clear the delivery_time if the skb finally egress to a fq@phy-dev. For example, when forwarding from egress to ingress and then finally back to egress: tcp-sender => veth@netns => veth@hostns => fq@eth0@hostns ^ ^ reset rest This patch adds one bit skb->mono_delivery_time to flag the skb->tstamp is storing the mono delivery_time (EDT) instead of the (rcv) timestamp. The current use case is to keep the TCP mono delivery_time (EDT) and to be used with sch_fq. A latter patch will also allow tc-bpf@ingress to read and change the mono delivery_time. In the future, another bit (e.g. skb->user_delivery_time) can be added for the SCM_TXTIME where the clock base is tracked by sk->sk_clockid. [ This patch is a prep work. The following patches will get the other parts of the stack ready first. Then another patch after that will finally set the skb->mono_delivery_time. ] skb_set_delivery_time() function is added. It is used by the tcp_output.c and during ip[6] fragmentation to assign the delivery_time to the skb->tstamp and also set the skb->mono_delivery_time. A note on the change in ip_send_unicast_reply() in ip_output.c. It is only used by TCP to send reset/ack out of a ctl_sk. Like the new skb_set_delivery_time(), this patch sets the skb->mono_delivery_time to 0 for now as a place holder. It will be enabled in a latter patch. A similar case in tcp_ipv6 can be done with skb_set_delivery_time() in tcp_v6_send_response(). [0] (slide 22): https://linuxplumbersconf.org/event/11/contributions/953/attachments/867/1658/LPC_2021_BPF_Datapath_Extensions.pdfSigned-off-by: Martin KaFai Lau <kafai@fb.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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David S. Miller authored
Vladimir Oltean says: ==================== DSA unicast filtering This series doesn't attempt anything extremely brave, it just changes the way in which standalone ports which support FDB isolation work. Up until now, DSA has recommended that switch drivers configure standalone ports in a separate VID/FID with learning disabled, and with the CPU port as the only destination, reached trivially via flooding. That works, except that standalone ports will deliver all packets to the CPU. We can leverage the hardware FDB as a MAC DA filter, and disable flooding towards the CPU port, to force the dropping of packets with unknown MAC DA. We handle port promiscuity by re-enabling flooding towards the CPU port. This is relevant because the bridge puts its automatic (learning + flooding) ports in promiscuous mode, and this makes some things work automagically, like for example bridging with a foreign interface. We don't delve yet into the territory of managing CPU flooding more aggressively while under a bridge. The only switch driver that benefits from this work right now is the NXP LS1028A switch (felix). The others need to implement FDB isolation first, before DSA is going to install entries to the port's standalone database. Otherwise, these entries might collide with bridge FDB/MDB entries. This work was done mainly to have all the required features in place before somebody starts seriously architecting DSA support for multiple CPU ports. Otherwise it is much more difficult to bolt these features on top of multiple CPU ports. ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
In order for the Felix DSA driver to be able to turn on/off flooding towards its CPU port, we need to redirect calls on the NPI port to actually act upon the index in the analyzer block that corresponds to the CPU port module. This was never necessary until now because DSA (or the bridge) never called ocelot_port_bridge_flags() for the NPI port. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
felix_migrate_flood_to_tag_8021q_port() takes care of clearing the flooding bits on the old CPU port (which was the CPU port module), so manually clearing this bit from PGID_UC, PGID_MC, PGID_BC is redundant. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
The driver probes with all ports as standalone, and it supports unicast filtering. So DSA will call port_fdb_add() for all necessary addresses on the current CPU port. We also handle migrations when the CPU port hardware resource changes (on tagging protocol change), so there should not be any unknown address that we have to receive while not promiscuous. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
When the tagging protocol changes from "ocelot" to "ocelot-8021q" or in reverse, the DSA promiscuity setting that was applied for the old CPU port must be transferred to the new one. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
The "ocelot" and "ocelot-8021q" tagging protocols make use of different hardware resources, and host FDB entries have different destination ports in the switch analyzer module, practically speaking. So when the user requests a tagging protocol change, the driver must migrate all host FDB and MDB entries from the NPI port (in fact CPU port module) towards the same physical port, but this time used as a regular port. It is pointless for the felix driver to keep a copy of the host addresses, when we can create and export DSA helpers for walking through the addresses that it already needs to keep on the CPU port, for refcounting purposes. felix_classify_db() is moved up to avoid a forward declaration. We pass "bool change" because dp->fdbs and dp->mdbs are uninitialized lists when felix_setup() first calls felix_set_tag_protocol(), so we need to avoid calling dsa_port_walk_fdbs() during probe time. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
DSA can treat IFF_PROMISC and IFF_ALLMULTI on standalone user ports as signifying whether packets with an unknown MAC DA will be received or not. Since known MAC DAs are handled by FDB/MDB entries, this means that promiscuity is analogous to including/excluding the CPU port from the flood domain of those packets. There are two ways to signal CPU flooding to drivers. The first (chosen here) is to synthesize a call to ds->ops->port_bridge_flags() for the CPU port, with a mask of BR_FLOOD | BR_MCAST_FLOOD. This has the effect of turning on egress flooding on the CPU port regardless of source. The alternative would be to create a new ds->ops->port_host_flood() which is called per user port. Some switches (sja1105) have a flood domain that is managed per {ingress port, egress port} pair, so it would make more sense for this kind of switch to not flood the CPU from port A if just port B requires it. Nonetheless, the sja1105 has other quirks that prevent it from making use of unicast filtering, and without a concrete user making use of this feature, I chose not to implement it. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
To be able to safely turn off CPU flooding for standalone ports, we need to ensure that the dev_addr of each DSA slave interface is installed as a standalone host FDB entry for compatible switches. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
In preparation of disabling flooding towards the CPU in standalone ports mode, identify the addresses requested by upper interfaces and use the new API for DSA FDB isolation to request the hardware driver to offload these as FDB or MDB objects. The objects belong to the user port's database, and are installed pointing towards the CPU port. Because dev_uc_add()/dev_mc_add() is VLAN-unaware, we offload to the port standalone database addresses with VID 0 (also VLAN-unaware). So this excludes switches with global VLAN filtering from supporting unicast filtering, because there, it is possible for a port of a switch to join a VLAN-aware bridge, and this changes the VLAN awareness of standalone ports, requiring VLAN-aware standalone host FDB entries. For the same reason, hellcreek, which requires VLAN awareness in standalone mode, is also exempted from unicast filtering. We create "standalone" variants of dsa_port_host_fdb_add() and dsa_port_host_mdb_add() (and the _del coresponding functions). We also create a separate work item type for handling deferred standalone host FDB/MDB entries compared to the switchdev one. This is done for the purpose of clarity - the procedure for offloading a bridge FDB entry is different than offloading a standalone one, and the switchdev event work handles only FDBs anyway, not MDBs. Deferral is needed for standalone entries because ndo_set_rx_mode runs in atomic context. We could probably optimize things a little by first queuing up all entries that need to be offloaded, and scheduling the work item just once, but the data structures that we can pass through __dev_uc_sync() and __dev_mc_sync() are limiting (there is nothing like a void *priv), so we'd have to keep the list of queued events somewhere in struct dsa_switch, and possibly a lock for it. Too complicated for now. Adding the address to the master is handled by dev_uc_sync(), adding it to the hardware is handled by __dev_uc_sync(). So this is the reason why dsa_port_standalone_host_fdb_add() does not call dev_uc_add(). Not that it had the rtnl_mutex anyway - ndo_set_rx_mode has it, but is atomic. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
We are preparing to add API in port.c that adds FDB and MDB entries that correspond to the port's standalone database. Rename the existing methods to make it clear that the FDB and MDB entries offloaded come from the bridge database. Since the function names lengthen in dsa_slave_switchdev_event_work(), we place "addr" and "vid" in temporary variables, to shorten those. Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Vladimir Oltean authored
Lennert Buytenhek explains in commit df02c6ff ("dsa: fix master interface allmulti/promisc handling"), dated Nov 2008, that changing the promiscuity of interfaces that are down (here the master) is broken. This fact regarding promisc/allmulti has changed since commit b6c40d68 ("net: only invoke dev->change_rx_flags when device is UP") by Vlad Yasevich, dated Nov 2013. Therefore, DSA now has unnecessary complexity to handle master state transitions from down to up. In fact, syncing the unicast and multicast addresses can happen completely asynchronously to the administrative state changes. This change reduces that complexity by effectively fully reverting commit df02c6ff ("dsa: fix master interface allmulti/promisc handling"). Signed-off-by: Vladimir Oltean <vladimir.oltean@nxp.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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Karol Kolacinski authored
Add a new ice_gnss.c file for holding the basic GNSS module functions. If the device supports GNSS module, call the new ice_gnss_init and ice_gnss_release functions where appropriate. Implement basic functionality for reading the data from GNSS module using TTY device. Add I2C read AQ command. It is now required for controlling the external physical connectors via external I2C port expander on E810-T adapters. Future changes will introduce write functionality. Signed-off-by: Karol Kolacinski <karol.kolacinski@intel.com> Signed-off-by: Sudhansu Sekhar Mishra <sudhansu.mishra@intel.com> Tested-by: Sunitha Mekala <sunithax.d.mekala@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com> Signed-off-by: David S. Miller <davem@davemloft.net>
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David S. Miller authored
Krzysztof Kozlowski says: ==================== nfc: llcp: few cleanups/improvements These are improvements, not fixing any experienced issue, just looking correct to me from the code point of view. Changes since v1 ================ 1. Split from the fix. Testing ======= Under QEMU only. The NFC/LLCP code was not really tested on a device. ==================== Signed-off-by: David S. Miller <davem@davemloft.net>
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