- 29 Jun, 2024 9 commits
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Edward Cree authored
net_dev->ethtool is a pointer to new struct ethtool_netdev_state, which currently contains only the wol_enabled field. Suggested-by:
Jakub Kicinski <kuba@kernel.org> Signed-off-by:
Edward Cree <ecree.xilinx@gmail.com> Reviewed-by:
Przemek Kitszel <przemyslaw.kitszel@intel.com> Link: https://patch.msgid.link/293a562278371de7534ed1eb17531838ca090633.1719502239.git.ecree.xilinx@gmail.comSigned-off-by:
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Jakub Kicinski authored
Jakub Kicinski says: ==================== selftests: drv-net: add ability to schedule cleanup with defer() Introduce a defer / cleanup mechanism for driver selftests. More detailed info in the second patch. ==================== Link: https://patch.msgid.link/20240627185502.3069139-1-kuba@kernel.orgSigned-off-by:
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Jakub Kicinski authored
Use just added defer(). Reviewed-by:
Petr Machata <petrm@nvidia.com> Link: https://patch.msgid.link/20240627185502.3069139-4-kuba@kernel.orgSigned-off-by:
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Jakub Kicinski authored
This implements what I was describing in [1]. When writing a test author can schedule cleanup / undo actions right after the creation completes, eg: cmd("touch /tmp/file") defer(cmd, "rm /tmp/file") defer() takes the function name as first argument, and the rest are arguments for that function. defer()red functions are called in inverse order after test exits. It's also possible to capture them and execute earlier (in which case they get automatically de-queued). undo = defer(cmd, "rm /tmp/file") # ... some unsafe code ... undo.exec() As a nice safety all exceptions from defer()ed calls are captured, printed, and ignored (they do make the test fail, however). This addresses the common problem of exceptions in cleanup paths often being unhandled, leading to potential leaks. There is a global action queue, flushed by ksft_run(). We could support function level defers too, I guess, but there's no immediate need.. Link: https://lore.kernel.org/all/877cedb2ki.fsf@nvidia.com/ # [1] Reviewed-by: -
Jakub Kicinski authored
Exception handlers print the result and use continue to skip the non-exception result printing. This makes inserting common post-test code hard. Refactor to avoid the continues and have only one ktap_result() call. Reviewed-by:
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Jon Kohler authored
Add .get_channel to enic_ethtool_ops to enable basic ethtool -l support to get the current channel configuration. Note that the driver does not support dynamically changing queue configuration, so .set_channel is intentionally unused. Instead, users should use Cisco's hardware management tools (UCSM/IMC) to modify virtual interface card configuration out of band. Signed-off-by:
Jon Kohler <jon@nutanix.com> Link: https://patch.msgid.link/20240627202013.2398217-1-jon@nutanix.comSigned-off-by:
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Jakub Kicinski authored
Jakub Sitnicki says: ==================== Lift UDP_SEGMENT restriction for egress via device w/o csum offload This is a follow-up to an earlier question [1] if we can make UDP GSO work with any egress device, even those with no checksum offload capability. That's the default setup for TUN/TAP. Because there is a change in behavior - sendmsg() does no longer return EIO error - I'm submitting through net-next tree, rather than net, as per Willem's advice. [1] https://lore.kernel.org/netdev/87jzqsld6q.fsf@cloudflare.com/ v1: https://lore.kernel.org/r/20240622-linux-udpgso-v1-0-d2344157ab2a@cloudflare.com ==================== Link: https://patch.msgid.link/20240626-linux-udpgso-v2-0-422dfcbd6b48@cloudflare.comSigned-off-by:
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Jakub Sitnicki authored
Extend the existing test to exercise UDP GSO egress through devices with various offload capabilities, including lack of checksum offload, which is the default case for TUN/TAP devices. Test against a dummy device because it is simpler to set up then TUN/TAP. Signed-off-by:
Jakub Sitnicki <jakub@cloudflare.com> Reviewed-by:
Willem de Bruijn <willemb@google.com> Link: https://patch.msgid.link/20240626-linux-udpgso-v2-2-422dfcbd6b48@cloudflare.comSigned-off-by:
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Jakub Sitnicki authored
Today sending a UDP GSO packet from a TUN device results in an EIO error: import fcntl, os, struct from socket import * TUNSETIFF = 0x400454CA IFF_TUN = 0x0001 IFF_NO_PI = 0x1000 UDP_SEGMENT = 103 tun_fd = os.open("/dev/net/tun", os.O_RDWR) ifr = struct.pack("16sH", b"tun0", IFF_TUN | IFF_NO_PI) fcntl.ioctl(tun_fd, TUNSETIFF, ifr) os.system("ip addr add 192.0.2.1/24 dev tun0") os.system("ip link set dev tun0 up") s = socket(AF_INET, SOCK_DGRAM) s.setsockopt(SOL_UDP, UDP_SEGMENT, 1200) s.sendto(b"x" * 3000, ("192.0.2.2", 9)) # EIO This is due to a check in the udp stack if the egress device offers checksum offload. While TUN/TAP devices, by default, don't advertise this capability because it requires support from the TUN/TAP reader. However, the GSO stack has a software fallback for checksum calculation, which we can use. This way we don't force UDP_SEGMENT users to handle the EIO error and implement a segmentation fallback. Lift the restriction so that UDP_SEGMENT can be used with any egress device. We also need to adjust the UDP GSO code to match the GSO stack expectation about ip_summed field, as set in commit 8d63bee6 ("net: avoid skb_warn_bad_offload false positives on UFO"). Otherwise we will hit the bad offload check. Users should, however, expect a potential performance impact when batch-sending packets with UDP_SEGMENT without checksum offload on the egress device. In such case the packet payload is read twice: first during the sendmsg syscall when copying data from user memory, and then in the GSO stack for checksum computation. This double memory read can be less efficient than a regular sendmsg where the checksum is calculated during the initial data copy from user memory. Signed-off-by:
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- 28 Jun, 2024 24 commits
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David S. Miller authored
Petr Machata says: ==================== selftest: Clean-up and stabilize mirroring tests The mirroring selftests work by sending ICMP traffic between two hosts. Along the way, this traffic is mirrored to a gretap netdevice, and counter taps are then installed strategically along the path of the mirrored traffic to verify the mirroring took place. The problem with this is that besides mirroring the primary traffic, any other service traffic is mirrored as well. At the same time, because the tests need to work in HW-offloaded scenarios, the ability of the device to do arbitrary packet inspection should not be taken for granted. Most tests therefore simply use matchall, one uses flower to match on IP address. As a result, the selftests are noisy. mirror_test() accommodated this noisiness by giving the counters an allowance of several packets. But that only works up to a point, and on busy systems won't be always enough. In this patch set, clean up and stabilize the mirroring selftests. The original intention was to port the tests over to UDP, but the logic of ICMP ends up being so entangled in the mirroring selftests that the changes feel overly invasive. Instead, ICMP is kept, but where possible, we match on ICMP message type, thus filtering out hits by other ICMP messages. Where this is not practical (where the counter tap is put on a device that carries encapsulated packets), switch the counter condition to _at least_ X observed packets. This is less robust, but barely so -- probably the only scenario that this would not catch is something like erroneous packet duplication, which would hopefully get caught by the numerous other tests in this extensive suite. - Patches #1 to #3 clean up parameters at various helpers. - Patches #4 to #6 stabilize the mirroring selftests as described above. - Mirroring tests currently allow testing SW datapath even on HW netdevices by trapping traffic to the SW datapath. This complicates the tests a bit without a good reason: to test SW datapath, just run the selftests on the veth topology. Thus in patch #7, drop support for this dual SW/HW testing. - At this point, some cleanups were either made possible by the previous patches, or were always possible. In patches #8 to #11, realize these cleanups. - In patch #12, fix mlxsw mirror_gre selftest to respect setting TESTS. ==================== Signed-off-by:David S. Miller <davem@davemloft.net>
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Petr Machata authored
This test is unusual in that overriding TESTS does not change the tests to be run. Split the individual tests into several functions and invoke them through tests_run() as appropriate. Signed-off-by:
Danielle Ratson <danieller@nvidia.com> Signed-off-by:
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Petr Machata authored
Nothing calls these. Signed-off-by:
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Petr Machata authored
These functions are not used anymore. Signed-off-by:
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Petr Machata authored
The selftest does not use functions from mirror_gre_lib, ditch the import. It does not use arping either, so drop the require_command as well. Signed-off-by:
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Petr Machata authored
After the previous patch, the function test_span_failable() is always called with should_fail=1. Drop the argument and streamline the code. Signed-off-by:
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Petr Machata authored
The mirroring tests are currently run in a skip_hw and optionally a skip_sw mode. The former tests the SW datapath, the latter the HW datapath, if available. In order to be able to test SW datapath on HW loopbacks, traps are installed on ingress to get traffic from the HW datapath to the SW one. This adds an unnecessary complexity when it would be much simpler to just use a veth-based topology to test the SW datapath. Thus drop all the code that supports this dual testing. Signed-off-by:
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Petr Machata authored
The mirroring selftests work by sending ICMP traffic between two hosts. Along the way, this traffic is mirrored to a gretap netdevice, and counter taps are then installed strategically along the path of the mirrored traffic to verify the mirroring took place. The problem with this is that besides mirroring the primary traffic, any other service traffic is mirrored as well. At the same time, because the tests need to work in HW-offloaded scenarios, the ability of the device to do arbitrary packet inspection should not be taken for granted. Most tests therefore simply use matchall, one uses flower to match on IP address. As a result, the selftests are noisy, because besides the primary ICMP traffic, any amount of other service traffic is mirrored as well. mirror_test() accommodated this noisiness by giving the counters an allowance of several packets. But in the previous patch, where possible, counter taps were changed to match only on an exact ICMP message. At least in those cases, we can demand an exact number of packets to match. Where the tap is installed on a connective netdevice, the exact matching is not practical (though with u32, anything is possible). In those places, there should still be some leeway -- and probably bigger than before, because experience shows that these tests are very noisy. To that end, change mirror_test() so that it can be either called with an exact number to expect, or with an expression. Where leeway is needed, adjust callers to pass a ">= 10" instead of mere 10. Signed-off-by:
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Petr Machata authored
The mirroring selftests work by sending ICMP traffic between two hosts. Along the way, this traffic is mirrored to a gretap netdevice, and counter taps are then installed strategically along the path of the mirrored traffic to verify the mirroring took place. The problem with this is that besides mirroring the primary traffic, any other service traffic is mirrored as well. At the same time, because the tests need to work in HW-offloaded scenarios, the ability of the device to do arbitrary packet inspection should not be taken for granted. Most tests therefore simply use matchall, one uses flower to match on IP address. As a result, the selftests are noisy, because besides the primary ICMP traffic, any amount of other service traffic is mirrored as well. However, often the counter tap is installed at the remote end of the gretap tunnel. Since this is a SW-datapath scenario anyway, we can make the filter arbitrarily accurate. Thus in this patch, add parameters forward_type and backward_type to several mirroring test helpers, as some other helpers already have. Then change do_test_span_dir_ips() to instead of installing one generic tap and using it for test in both directions, install the tap for each direction separately, matching on the ICMP type given by these parameters. Signed-off-by:
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Petr Machata authored
The test works by sending packets through a tunnel, whence they are forwarded to a LAG. One of the LAG children is removed from the LAG prior to the exercise, and the test then counts how many packets pass through the other one. The issue with this is that it counts all packets, not just the encapsulated ones. So instead add a second gretap endpoint to receive the sent packets, and check reception counters there. Signed-off-by:
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Petr Machata authored
The argument $dir has a fallback value of "ingress". Move the fallback from the usage site to the argument definition block to make the fact clearer. Signed-off-by:
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Petr Machata authored
The argument is not used by these functions except to propagate it for ultimately no purpose. Signed-off-by:
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Petr Machata authored
In some functions, argument-forwarding through "$@" without listing the individual arguments explicitly is fundamental to the operation of a function. E.g. xfail_on_veth() should be able to run various tests in the fail-to-xfail regime, and usage of "$@" is appropriate as an abstraction mechanism. For functions such as simple_if_init(), $@ is a handy way to pass an array. In other functions, it's merely a mechanism to save some typing, which however ends up obscuring the real arguments and makes life hard for those that end up reading the code. This patch adds some of the implicit function arguments and correspondingly expands $@'s. In several cases this will come in handy as following patches adjust the parameter lists. Signed-off-by:
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David S. Miller authored
Danielle Ratson says: ==================== Add ability to flash modules' firmware CMIS compliant modules such as QSFP-DD might be running a firmware that can be updated in a vendor-neutral way by exchanging messages between the host and the module as described in section 7.2.2 of revision 4.0 of the CMIS standard. According to the CMIS standard, the firmware update process is done using a CDB commands sequence. CDB (Command Data Block Message Communication) reads and writes are performed on memory map pages 9Fh-AFh according to the CMIS standard, section 8.12 of revision 4.0. Add a pair of new ethtool messages that allow: * User space to trigger firmware update of transceiver modules * The kernel to notify user space about the progress of the process The user interface is designed to be asynchronous in order to avoid RTNL being held for too long and to allow several modules to be updated simultaneously. The interface is designed with CMIS compliant modules in mind, but kept generic enough to accommodate future use cases, if these arise. The kernel interface that will implement the firmware update using CDB command will include 2 layers that will be added under ethtool: * The upper layer that will be triggered from the module layer, is cmis_ fw_update. * The lower one is cmis_cdb. In the future there might be more operations to implement using CDB commands. Therefore, the idea is to keep the cmis_cdb interface clean and the cmis_fw_update specific to the cdb commands handling it. The communication between the kernel and the driver will be done using two ethtool operations that enable reading and writing the transceiver module EEPROM. The operation ethtool_ops::get_module_eeprom_by_page, that is already implemented, will be used for reading from the EEPROM the CDB reply, e.g. reading module setting, state, etc. The operation ethtool_ops::set_module_eeprom_by_page, that is added in the current patchset, will be used for writing to the EEPROM the CDB command such as start firmware image, run firmware image, etc. Therefore in order for a driver to implement module flashing, that driver needs to implement the two functions mentioned above. Patchset overview: Patch #1-#2: Implement the EEPROM writing in mlxsw. Patch #3: Define the interface between the kernel and user space. Patch #4: Add ability to notify the flashing firmware progress. Patch #5: Veto operations during flashing. Patch #6: Add extended compliance codes. Patch #7: Add the cdb layer. Patch #8: Add the fw_update layer. Patch #9: Add ability to flash transceiver modules' firmware. v8: Patch #7: * In the ethtool_cmis_wait_for_cond() evaluate the condition once more to decide if the error code should be -ETIMEDOUT or something else. * s/netdev_err/netdev_err_once. v7: Patch #4: * Return -ENOMEM instead of PTR_ERR(attr) on ethnl_module_fw_flash_ntf_put_err(). Patch #9: * Fix Warning for not unlocking the spin_lock in the error flow on module_flash_fw_work_list_add(). * Avoid the fall-through on ethnl_sock_priv_destroy(). v6: * Squash some of the last patch to patch #5 and patch #9. Patch #3: * Add paragraph in .rst file. Patch #4: * Reserve '1' more place on SKB for NUL terminator in the error message string. * Add more prints on error flow, re-write the printing function and add ethnl_module_fw_flash_ntf_put_err(). * Change the communication method so notification will be sent in unicast instead of multicast. * Add new 'struct ethnl_module_fw_flash_ntf_params' that holds the relevant info for unicast communication and use it to send notification to the specific socket. * s/nla_put_u64_64bit/nla_put_uint/ Patch #7: * In ethtool_cmis_cdb_init(), Use 'const' for the 'params' parameter. Patch #8: * Add a list field to struct ethtool_module_fw_flash for module_fw_flash_work_list that will be presented in the next patch. * Move ethtool_cmis_fw_update() cleaning to a new function that will be represented in the next patch. * Move some of the fields in struct ethtool_module_fw_flash to a separate struct, so ethtool_cmis_fw_update() will get only the relevant parameters for it. * Edit the relevant functions to get the relevant params for them. * s/CMIS_MODULE_READY_MAX_DURATION_USEC/CMIS_MODULE_READY_MAX_DURATION_MSEC Patch #9: * Add a paragraph in the commit message. * Rename labels in module_flash_fw_schedule(). * Add info to genl_sk_priv_*() and implement the relevant callbacks, in order to handle properly a scenario of closing the socket from user space before the work item was ended. * Add a list the holds all the ethtool_module_fw_flash struct that corresponds to the in progress work items. * Add a new enum for the socket types. * Use both above to identify a flashing socket, add it to the list and when closing socket affect only the flashing type. * Create a new function that will get the work item instead of ethtool_cmis_fw_update(). * Edit the relevant functions to get the relevant params for them. * The new function will call the old ethtool_cmis_fw_update(), and do the cleaning, so the existence of the list should be completely isolated in module.c. =================== Signed-off-by: -
Danielle Ratson authored
Add the ability to flash the modules' firmware by implementing the interface between the user space and the kernel. Example from a succeeding implementation: # ethtool --flash-module-firmware swp40 file test.bin Transceiver module firmware flashing started for device swp40 Transceiver module firmware flashing in progress for device swp40 Progress: 99% Transceiver module firmware flashing completed for device swp40 In addition, add infrastructure that allows modules to set socket-specific private data. This ensures that when a socket is closed from user space during the flashing process, the right socket halts sending notifications to user space until the work item is completed. Signed-off-by:
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Danielle Ratson authored
According to the CMIS standard, the firmware update process is done using a CDB commands sequence. Implement a work that will be triggered from the module layer in the next patch the will initiate and execute all the CDB commands in order, to eventually complete the firmware update process. This flashing process includes, writing the firmware image, running the new firmware image and committing it after testing, so that it will run upon reset. This work will also notify user space about the progress of the firmware update process. Signed-off-by:
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Danielle Ratson authored
CDB (Command Data Block Message Communication) reads and writes are performed on memory map pages 9Fh-AFh according to the CMIS standard, section 8.20 of revision 5.2. Page 9Fh is used to specify the CDB command to be executed and also provides an area for a local payload (LPL). According to the CMIS standard, the firmware update process is done using a CDB commands sequence that will be implemented in the next patch. The kernel interface that will implement the firmware update using CDB command will include 2 layers that will be added under ethtool: * The upper layer that will be triggered from the module layer, is cmis_fw_update. * The lower one is cmis_cdb. In the future there might be more operations to implement using CDB commands. Therefore, the idea is to keep the CDB interface clean and the cmis_fw_update specific to the CDB commands handling it. These two layers will communicate using the API the consists of three functions: - struct ethtool_cmis_cdb * ethtool_cmis_cdb_init(struct net_device *dev, struct ethtool_module_fw_flash_params *params); - void ethtool_cmis_cdb_fini(struct ethtool_cmis_cdb *cdb); - int ethtool_cmis_cdb_execute_cmd(struct net_device *dev, struct ethtool_cmis_cdb_cmd_args *args); Add the CDB layer to support initializing, finishing and executing CDB commands: * The initialization process will include creating of an ethtool_cmis_cdb instance, querying the module CDB support, entering and validating the password from user space (CMD 0x0000) and querying the module features (CMD 0x0040). * The finishing API will simply free the ethtool_cmis_cdb instance. * The executing process will write the CDB command to EEPROM using set_module_eeprom_by_page() that was presented earlier, and will process the reply from EEPROM. Signed-off-by:
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Danielle Ratson authored
SFF-8024 is used to define various constants re-used in several SFF SFP-related specifications. Add SFF-8024 extended compliance code definitions for CMIS compliant modules and use them in the next patch to determine the firmware flashing work. Signed-off-by:
Russell King (Oracle) <rmk+kernel@armlinux.org.uk> Reviewed-by:
Andrew Lunn <andrew@lunn.ch> Signed-off-by:
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Danielle Ratson authored
Some operations cannot be performed during the firmware flashing process. For example: - Port must be down during the whole flashing process to avoid packet loss while committing reset for example. - Writing to EEPROM interrupts the flashing process, so operations like ethtool dump, module reset, get and set power mode should be vetoed. - Split port firmware flashing should be vetoed. In order to veto those scenarios, add a flag in 'struct net_device' that indicates when a firmware flash is taking place on the module and use it to prevent interruptions during the process. Signed-off-by:
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Danielle Ratson authored
Add progress notifications ability to user space while flashing modules' firmware by implementing the interface between the user space and the kernel. Signed-off-by:
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Danielle Ratson authored
CMIS compliant modules such as QSFP-DD might be running a firmware that can be updated in a vendor-neutral way by exchanging messages between the host and the module as described in section 7.3.1 of revision 5.2 of the CMIS standard. Add a pair of new ethtool messages that allow: * User space to trigger firmware update of transceiver modules * The kernel to notify user space about the progress of the process The user interface is designed to be asynchronous in order to avoid RTNL being held for too long and to allow several modules to be updated simultaneously. The interface is designed with CMIS compliant modules in mind, but kept generic enough to accommodate future use cases, if these arise. Signed-off-by:
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Ido Schimmel authored
Implement the ethtool_ops::set_module_eeprom_by_page operation to allow ethtool to write to a transceiver module EEPROM, in a similar fashion to the ethtool_ops::get_module_eeprom_by_page operation. Signed-off-by:
Ido Schimmel <idosch@nvidia.com> Reviewed-by:
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Ido Schimmel authored
Ethtool can already retrieve information from a transceiver module EEPROM by invoking the ethtool_ops::get_module_eeprom_by_page operation. Add a corresponding operation that allows ethtool to write to a transceiver module EEPROM. The new write operation is purely an in-kernel API and is not exposed to user space. The purpose of this operation is not to enable arbitrary read / write access, but to allow the kernel to write to specific addresses as part of transceiver module firmware flashing. In the future, more functionality can be implemented on top of these read / write operations. Adjust the comments of the 'ethtool_module_eeprom' structure as it is no longer used only for read access. Signed-off-by:
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Marek Vasut authored
Extract known PHY IDs from Linux kernel realtek PHY driver and convert them into supported compatible string list for this DT binding document. Signed-off-by:
Marek Vasut <marex@denx.de> Reviewed-by:
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- 27 Jun, 2024 7 commits
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Breno Leitao authored
Embedding net_device into structures prohibits the usage of flexible arrays in the net_device structure. For more details, see the discussion at [1]. Un-embed the net_devices from struct lmac by converting them into pointers, and allocating them dynamically. Use the leverage alloc_netdev() to allocate the net_device object at bgx_lmac_enable(). The free of the device occurs at bgx_lmac_disable(). Do not free_netdevice() if bgx_lmac_enable() fails after lmac->netdev is allocated, since bgx_lmac_disable() is called if bgx_lmac_enable() fails, and lmac->netdev will be freed there (similarly to lmac->dmacs). Link: https://lore.kernel.org/all/20240229225910.79e224cf@kernel.org/ [1] Signed-off-by:
Breno Leitao <leitao@debian.org> Link: https://patch.msgid.link/20240626173503.87636-1-leitao@debian.orgSigned-off-by:
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Sagi Grimberg authored
This reverts commit 934c2999. This triggered a usercopy BUG() in systems with HIGHMEM, reported by the test robot in: https://lore.kernel.org/oe-lkp/202406161539.b5ff7b20-oliver.sang@intel.comSigned-off-by:
Sagi Grimberg <sagi@grimberg.me> Link: https://patch.msgid.link/20240626070153.759257-1-sagi@grimberg.meSigned-off-by:
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Jakub Kicinski authored
Aaron Conole says: ==================== selftests: net: Switch pmtu.sh to use the internal ovs script. Currently, if a user wants to run pmtu.sh and cover all the provided test cases, they need to install the Open vSwitch userspace utilities. This dependency is difficult for users as well as CI environments, because the userspace build and setup may require lots of support and devel packages to be installed, system setup to be correct, and things like permissions and selinux policies to be properly configured. The kernel selftest suite includes an ovs-dpctl.py utility which can interact with the openvswitch module directly. This lets developers and CI environments run without needing too many extra dependencies - just the pyroute2 python package. This series enhances the ovs-dpctl utility to provide support for set() and tunnel() flow specifiers, better ipv6 handling support, and the ability to add tunnel vports, and LWT interfaces. Finally, it modifies the pmtu.sh script to call the ovs-dpctl.py utility rather than the typical OVS userspace utilities. The pmtu.sh can still fall back on the Open vSwitch userspace utilities if the ovs-dpctl.py script can't be used. ==================== Link: https://patch.msgid.link/20240625172245.233874-1-aconole@redhat.comSigned-off-by:
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Aaron Conole authored
The pmtu testing will require that the OVS module is installed, so do that. Reviewed-by:
Simon Horman <horms@kernel.org> Tested-by:
Aaron Conole <aconole@redhat.com> Link: https://patch.msgid.link/20240625172245.233874-8-aconole@redhat.comSigned-off-by:
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Aaron Conole authored
The current pmtu test infrastucture requires an installed copy of the ovs-vswitchd userspace. This means that any automated or constrained environments may not have the requisite tools to run the tests. However, the pmtu tests don't require any special classifier processing. Indeed they are only using the vswitchd in the most basic mode - as a NORMAL switch. However, the ovs-dpctl kernel utility can now program all the needed basic flows to allow traffic to traverse the tunnels and provide support for at least testing some basic pmtu scenarios. More complicated flow pipelines can be added to the internal ovs test infrastructure, but that is work for the future. For now, enable the most common cases - wide mega flows with no other prerequisites. Enhance the pmtu testing to try testing using the internal utility, first. As a fallback, if the internal utility isn't running, then try with the ovs-vswitchd userspace tools. Additionally, make sure that when the pyroute2 package is not available the ovs-dpctl utility will error out to properly signal an error has occurred and skip using the internal utility. Reviewed-by:
Stefano Brivio <sbrivio@redhat.com> Signed-off-by:
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Aaron Conole authored
The current iteration of IPv6 support requires explicit fields to be set in addition to not properly support the actual IPv6 addresses properly. With this change, make it so that the ipv6() bare option is usable to create wildcarded flows to match broad swaths of ipv6 traffic. Reviewed-by:
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Aaron Conole authored
This will be used when setting details about the tunnel to use as transport. There is a difference between the ODP format between tunnel(): the 'key' flag is not actually a flag field, so we don't support it in the same way that the vswitchd userspace supports displaying it. Signed-off-by:
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