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Abstract: -------- Mellanox ConnetX devices supports packet matching, packet modification and redirection. These functionalities are also referred to as flow-steering. To configure a steering rule, the rule is written to the device owned memory, this memory is accessed and cached by the device when processing a packet. Steering rules are constructed from multiple steering entries (STE). Rules are configured using the Firmware command interface. The Firmware processes the given driver command and translates them to STEs, then writes them to the device memory in the current steering tables. This process is slow due to the architecture of the command interface and the processing complexity of each rule. The highlight of this patchset is to cut the middle man (The firmware) and do steering rules programming into device directly from the driver, with no firmware intervention whatsoever. Motivation: ----------- Software (driver managed) steering allows for high rule insertion rates compared to the FW steering described above, this is achieved by using internal RDMA writes to the device owned memory instead of the slow command interface to program steering rules. Software (driver managed) steering, doesn't depend on new FW for new steering functionality, new implementations can be done in the driver skipping the FW layer. Performance: ------------ The insertion rate on a single core using the new approach allows programming ~300K rules per sec. (Done via direct raw test to the new mlx5 sw steering layer, without any kernel layer involved). Test: TC L2 rules 33K/s with Software steering (this patchset). 5K/s with FW and current driver. This will improve OVS based solution performance. Architecture and implementation details: ---------------------------------------- Software steering will be dynamically selected via devlink device parameter. Example: $ devlink dev param show pci/0000:06:00.0 name flow_steering_mode pci/0000:06:00.0: name flow_steering_mode type driver-specific values: cmode runtime value smfs mlx5 software steering module a.k.a (DR - Direct Rule) is implemented and contained in mlx5/core/steering directory and controlled by MLX5_SW_STEERING kconfig flag. mlx5 core steering layer (fs_core) already provides a shim layer for implementing different steering mechanisms, software steering will leverage that as seen at the end of this series. When Software Steering for a specific steering domain (NIC/RDMA/Vport/ESwitch, etc ..) is supported, it will cause rules targeting this domain to be created using SW steering instead of FW. The implementation includes: Domain - The steering domain is the object that all other object resides in. It holds the memory allocator, send engine, locks and other shared data needed by lower objects such as table, matcher, rule, action. Each domain can contain multiple tables. Domain is equivalent to namespaces e.g (NIC/RDMA/Vport/ESwitch, etc ..) as implemented currently in mlx5_core fs_core (flow steering core). Table - Table objects are used for holding multiple matchers, each table has a level used to prevent processing loops. Packets are being directed to this table once it is set as the root table, this is done by fs_core using a FW command. A packet is being processed inside the table matcher by matcher until a successful hit, otherwise the packet will perform the default action. Matcher - Matchers objects are used to specify the fields mask for matching when processing a packet. A matcher belongs to a table, each matcher can hold multiple rules, each rule with different matching values corresponding to the matcher mask. Each matcher has a priority used for rule processing order inside the table. Action - Action objects are created to specify different steering actions such as count, reformat (encapsulate, decapsulate, ...), modify header, forward to table and many other actions. When creating a rule a sequence of actions can be provided to be executed on a successful match. Rule - Rule objects are used to specify a specific match on packets as well as the actions that should be executed. A rule belongs to a matcher. STE - This layer is used to hold the specific STE format for the device and to convert the requested rule to STEs. Each rule is constructed of an STE chain, Multiple rules construct a steering graph. Each node in the graph is a hash table containing multiple STEs. The index of each STE in the hash table is being calculated using a CRC32 hash function. Memory pool - Used for managing and caching device owned memory for rule insertion. The memory is being allocated using DM (device memory) API. Communication with device - layer for standard RDMA operation using RC QP to configure the device steering. Command utility - This module holds all of the FW commands that are required for SW steering to function. Patch planning and files: ------------------------- 1) First patch, adds the support to Add flow steering actions to fs_cmd shim layer. 2) Next 12 patch will add a file per each Software steering functionality/module as described above. (See patches with title: DR, *) 3) Add CONFIG_MLX5_SW_STEERING for software steering support and enable build with the new files 4) Next two patches will add the support for software steering in mlx5 steering shim layer net/mlx5: Add API to set the namespace steering mode net/mlx5: Add direct rule fs_cmd implementation 5) Last two patches will add the new devlink parameter to select mlx5 steering mode, will be valid only for switchdev mode for now. Two modes are supported: 1. DMFS - Device managed flow steering 2. SMFS - Software/Driver managed flow steering. In the DMFS mode, the HW steering entities are created through the FW. In the SMFS mode this entities are created though the driver directly. The driver will use the devlink steering mode only if the steering domain supports it, for now SMFS will manages only the switchdev eswitch steering domain. User command examples: - Set SMFS flow steering mode:: $ devlink dev param set pci/0000:06:00.0 name flow_steering_mode value "smfs" cmode runtime - Read device flow steering mode:: $ devlink dev param show pci/0000:06:00.0 name flow_steering_mode pci/0000:06:00.0: name flow_steering_mode type driver-specific values: cmode runtime value smfs -----BEGIN PGP SIGNATURE----- iQEzBAABCAAdFiEEGhZs6bAKwk/OTgTpSD+KveBX+j4FAl1uxPAACgkQSD+KveBX +j5AkggAymoYqG2G+s8cLa4vQFySaD1Td3VzzWglp7PlpDBE3UcSoMAMg/gIDU1D 8F04PeCsJ6snt1ICk56vPNyAEHWfWeBUd56+QK5lEJBuwozyFvBh6HP81Bnr6T/n n6uTx45ljAFQPTHJjEOLBPSzEXecLu07+mvpzSoW0F3ehfGbELhL1IkVobr/RELx z4xZW9uM2vm5ylheWvjf4V1S/SvokgJazW9+4fh//rl8tfXgun5IfPoS0hqKie1/ h5sjcMSYkYR4gLVqrhKmBYHmHVl/h0TYROckW8iC/+XX7ailSo9uPG7lPa6cm+GE 7Bajlbz4oD/K5RWoByo+q+dmyjeVhQ== =M9bS -----END PGP SIGNATURE----- Merge tag 'mlx5-updates-2019-09-01-v2' of git://git.kernel.org/pub/scm/linux/kernel/git/saeed/linux Saeed Mahameed says: ==================== mlx5-updates-2019-09-01 (Software steering support) Abstract: -------- Mellanox ConnetX devices supports packet matching, packet modification and redirection. These functionalities are also referred to as flow-steering. To configure a steering rule, the rule is written to the device owned memory, this memory is accessed and cached by the device when processing a packet. Steering rules are constructed from multiple steering entries (STE). Rules are configured using the Firmware command interface. The Firmware processes the given driver command and translates them to STEs, then writes them to the device memory in the current steering tables. This process is slow due to the architecture of the command interface and the processing complexity of each rule. The highlight of this patchset is to cut the middle man (The firmware) and do steering rules programming into device directly from the driver, with no firmware intervention whatsoever. Motivation: ----------- Software (driver managed) steering allows for high rule insertion rates compared to the FW steering described above, this is achieved by using internal RDMA writes to the device owned memory instead of the slow command interface to program steering rules. Software (driver managed) steering, doesn't depend on new FW for new steering functionality, new implementations can be done in the driver skipping the FW layer. Performance: ------------ The insertion rate on a single core using the new approach allows programming ~300K rules per sec. (Done via direct raw test to the new mlx5 sw steering layer, without any kernel layer involved). Test: TC L2 rules 33K/s with Software steering (this patchset). 5K/s with FW and current driver. This will improve OVS based solution performance. Architecture and implementation details: ---------------------------------------- Software steering will be dynamically selected via devlink device parameter. Example: $ devlink dev param show pci/0000:06:00.0 name flow_steering_mode pci/0000:06:00.0: name flow_steering_mode type driver-specific values: cmode runtime value smfs mlx5 software steering module a.k.a (DR - Direct Rule) is implemented and contained in mlx5/core/steering directory and controlled by MLX5_SW_STEERING kconfig flag. mlx5 core steering layer (fs_core) already provides a shim layer for implementing different steering mechanisms, software steering will leverage that as seen at the end of this series. When Software Steering for a specific steering domain (NIC/RDMA/Vport/ESwitch, etc ..) is supported, it will cause rules targeting this domain to be created using SW steering instead of FW. The implementation includes: Domain - The steering domain is the object that all other object resides in. It holds the memory allocator, send engine, locks and other shared data needed by lower objects such as table, matcher, rule, action. Each domain can contain multiple tables. Domain is equivalent to namespaces e.g (NIC/RDMA/Vport/ESwitch, etc ..) as implemented currently in mlx5_core fs_core (flow steering core). Table - Table objects are used for holding multiple matchers, each table has a level used to prevent processing loops. Packets are being directed to this table once it is set as the root table, this is done by fs_core using a FW command. A packet is being processed inside the table matcher by matcher until a successful hit, otherwise the packet will perform the default action. Matcher - Matchers objects are used to specify the fields mask for matching when processing a packet. A matcher belongs to a table, each matcher can hold multiple rules, each rule with different matching values corresponding to the matcher mask. Each matcher has a priority used for rule processing order inside the table. Action - Action objects are created to specify different steering actions such as count, reformat (encapsulate, decapsulate, ...), modify header, forward to table and many other actions. When creating a rule a sequence of actions can be provided to be executed on a successful match. Rule - Rule objects are used to specify a specific match on packets as well as the actions that should be executed. A rule belongs to a matcher. STE - This layer is used to hold the specific STE format for the device and to convert the requested rule to STEs. Each rule is constructed of an STE chain, Multiple rules construct a steering graph. Each node in the graph is a hash table containing multiple STEs. The index of each STE in the hash table is being calculated using a CRC32 hash function. Memory pool - Used for managing and caching device owned memory for rule insertion. The memory is being allocated using DM (device memory) API. Communication with device - layer for standard RDMA operation using RC QP to configure the device steering. Command utility - This module holds all of the FW commands that are required for SW steering to function. Patch planning and files: ------------------------- 1) First patch, adds the support to Add flow steering actions to fs_cmd shim layer. 2) Next 12 patch will add a file per each Software steering functionality/module as described above. (See patches with title: DR, *) 3) Add CONFIG_MLX5_SW_STEERING for software steering support and enable build with the new files 4) Next two patches will add the support for software steering in mlx5 steering shim layer net/mlx5: Add API to set the namespace steering mode net/mlx5: Add direct rule fs_cmd implementation 5) Last two patches will add the new devlink parameter to select mlx5 steering mode, will be valid only for switchdev mode for now. Two modes are supported: 1. DMFS - Device managed flow steering 2. SMFS - Software/Driver managed flow steering. In the DMFS mode, the HW steering entities are created through the FW. In the SMFS mode this entities are created though the driver directly. The driver will use the devlink steering mode only if the steering domain supports it, for now SMFS will manages only the switchdev eswitch steering domain. User command examples: - Set SMFS flow steering mode:: $ devlink dev param set pci/0000:06:00.0 name flow_steering_mode value "smfs" cmode runtime - Read device flow steering mode:: $ devlink dev param show pci/0000:06:00.0 name flow_steering_mode pci/0000:06:00.0: name flow_steering_mode type driver-specific values: cmode runtime value smfs ==================== Signed-off-by: David S. Miller <davem@davemloft.net> |
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README |
Linux kernel ============ There are several guides for kernel developers and users. These guides can be rendered in a number of formats, like HTML and PDF. Please read Documentation/admin-guide/README.rst first. In order to build the documentation, use ``make htmldocs`` or ``make pdfdocs``. The formatted documentation can also be read online at: https://www.kernel.org/doc/html/latest/ There are various text files in the Documentation/ subdirectory, several of them using the Restructured Text markup notation. Please read the Documentation/process/changes.rst file, as it contains the requirements for building and running the kernel, and information about the problems which may result by upgrading your kernel.