1What: /sys/bus/cxl/flush 2Date: Januarry, 2022 3KernelVersion: v5.18 4Contact: linux-cxl@vger.kernel.org 5Description: 6 (WO) If userspace manually unbinds a port the kernel schedules 7 all descendant memdevs for unbind. Writing '1' to this attribute 8 flushes that work. 9 10 11What: /sys/bus/cxl/devices/memX/firmware_version 12Date: December, 2020 13KernelVersion: v5.12 14Contact: linux-cxl@vger.kernel.org 15Description: 16 (RO) "FW Revision" string as reported by the Identify 17 Memory Device Output Payload in the CXL-2.0 18 specification. 19 20 21What: /sys/bus/cxl/devices/memX/ram/size 22Date: December, 2020 23KernelVersion: v5.12 24Contact: linux-cxl@vger.kernel.org 25Description: 26 (RO) "Volatile Only Capacity" as bytes. Represents the 27 identically named field in the Identify Memory Device Output 28 Payload in the CXL-2.0 specification. 29 30 31What: /sys/bus/cxl/devices/memX/pmem/size 32Date: December, 2020 33KernelVersion: v5.12 34Contact: linux-cxl@vger.kernel.org 35Description: 36 (RO) "Persistent Only Capacity" as bytes. Represents the 37 identically named field in the Identify Memory Device Output 38 Payload in the CXL-2.0 specification. 39 40 41What: /sys/bus/cxl/devices/memX/serial 42Date: January, 2022 43KernelVersion: v5.18 44Contact: linux-cxl@vger.kernel.org 45Description: 46 (RO) 64-bit serial number per the PCIe Device Serial Number 47 capability. Mandatory for CXL devices, see CXL 2.0 8.1.12.2 48 Memory Device PCIe Capabilities and Extended Capabilities. 49 50 51What: /sys/bus/cxl/devices/memX/numa_node 52Date: January, 2022 53KernelVersion: v5.18 54Contact: linux-cxl@vger.kernel.org 55Description: 56 (RO) If NUMA is enabled and the platform has affinitized the 57 host PCI device for this memory device, emit the CPU node 58 affinity for this device. 59 60 61What: /sys/bus/cxl/devices/*/devtype 62Date: June, 2021 63KernelVersion: v5.14 64Contact: linux-cxl@vger.kernel.org 65Description: 66 (RO) CXL device objects export the devtype attribute which 67 mirrors the same value communicated in the DEVTYPE environment 68 variable for uevents for devices on the "cxl" bus. 69 70 71What: /sys/bus/cxl/devices/*/modalias 72Date: December, 2021 73KernelVersion: v5.18 74Contact: linux-cxl@vger.kernel.org 75Description: 76 (RO) CXL device objects export the modalias attribute which 77 mirrors the same value communicated in the MODALIAS environment 78 variable for uevents for devices on the "cxl" bus. 79 80 81What: /sys/bus/cxl/devices/portX/uport 82Date: June, 2021 83KernelVersion: v5.14 84Contact: linux-cxl@vger.kernel.org 85Description: 86 (RO) CXL port objects are enumerated from either a platform 87 firmware device (ACPI0017 and ACPI0016) or PCIe switch upstream 88 port with CXL component registers. The 'uport' symlink connects 89 the CXL portX object to the device that published the CXL port 90 capability. 91 92 93What: /sys/bus/cxl/devices/portX/dportY 94Date: June, 2021 95KernelVersion: v5.14 96Contact: linux-cxl@vger.kernel.org 97Description: 98 (RO) CXL port objects are enumerated from either a platform 99 firmware device (ACPI0017 and ACPI0016) or PCIe switch upstream 100 port with CXL component registers. The 'dportY' symlink 101 identifies one or more downstream ports that the upstream port 102 may target in its decode of CXL memory resources. The 'Y' 103 integer reflects the hardware port unique-id used in the 104 hardware decoder target list. 105 106 107What: /sys/bus/cxl/devices/decoderX.Y 108Date: June, 2021 109KernelVersion: v5.14 110Contact: linux-cxl@vger.kernel.org 111Description: 112 (RO) CXL decoder objects are enumerated from either a platform 113 firmware description, or a CXL HDM decoder register set in a 114 PCIe device (see CXL 2.0 section 8.2.5.12 CXL HDM Decoder 115 Capability Structure). The 'X' in decoderX.Y represents the 116 cxl_port container of this decoder, and 'Y' represents the 117 instance id of a given decoder resource. 118 119 120What: /sys/bus/cxl/devices/decoderX.Y/{start,size} 121Date: June, 2021 122KernelVersion: v5.14 123Contact: linux-cxl@vger.kernel.org 124Description: 125 (RO) The 'start' and 'size' attributes together convey the 126 physical address base and number of bytes mapped in the 127 decoder's decode window. For decoders of devtype 128 "cxl_decoder_root" the address range is fixed. For decoders of 129 devtype "cxl_decoder_switch" the address is bounded by the 130 decode range of the cxl_port ancestor of the decoder's cxl_port, 131 and dynamically updates based on the active memory regions in 132 that address space. 133 134 135What: /sys/bus/cxl/devices/decoderX.Y/locked 136Date: June, 2021 137KernelVersion: v5.14 138Contact: linux-cxl@vger.kernel.org 139Description: 140 (RO) CXL HDM decoders have the capability to lock the 141 configuration until the next device reset. For decoders of 142 devtype "cxl_decoder_root" there is no standard facility to 143 unlock them. For decoders of devtype "cxl_decoder_switch" a 144 secondary bus reset, of the PCIe bridge that provides the bus 145 for this decoders uport, unlocks / resets the decoder. 146 147 148What: /sys/bus/cxl/devices/decoderX.Y/target_list 149Date: June, 2021 150KernelVersion: v5.14 151Contact: linux-cxl@vger.kernel.org 152Description: 153 (RO) Display a comma separated list of the current decoder 154 target configuration. The list is ordered by the current 155 configured interleave order of the decoder's dport instances. 156 Each entry in the list is a dport id. 157 158 159What: /sys/bus/cxl/devices/decoderX.Y/cap_{pmem,ram,type2,type3} 160Date: June, 2021 161KernelVersion: v5.14 162Contact: linux-cxl@vger.kernel.org 163Description: 164 (RO) When a CXL decoder is of devtype "cxl_decoder_root", it 165 represents a fixed memory window identified by platform 166 firmware. A fixed window may only support a subset of memory 167 types. The 'cap_*' attributes indicate whether persistent 168 memory, volatile memory, accelerator memory, and / or expander 169 memory may be mapped behind this decoder's memory window. 170 171 172What: /sys/bus/cxl/devices/decoderX.Y/target_type 173Date: June, 2021 174KernelVersion: v5.14 175Contact: linux-cxl@vger.kernel.org 176Description: 177 (RO) When a CXL decoder is of devtype "cxl_decoder_switch", it 178 can optionally decode either accelerator memory (type-2) or 179 expander memory (type-3). The 'target_type' attribute indicates 180 the current setting which may dynamically change based on what 181 memory regions are activated in this decode hierarchy. 182 183 184What: /sys/bus/cxl/devices/endpointX/CDAT 185Date: July, 2022 186KernelVersion: v5.20 187Contact: linux-cxl@vger.kernel.org 188Description: 189 (RO) If this sysfs entry is not present no DOE mailbox was 190 found to support CDAT data. If it is present and the length of 191 the data is 0 reading the CDAT data failed. Otherwise the CDAT 192 data is reported. 193 194 195What: /sys/bus/cxl/devices/decoderX.Y/mode 196Date: May, 2022 197KernelVersion: v5.20 198Contact: linux-cxl@vger.kernel.org 199Description: 200 (RW) When a CXL decoder is of devtype "cxl_decoder_endpoint" it 201 translates from a host physical address range, to a device local 202 address range. Device-local address ranges are further split 203 into a 'ram' (volatile memory) range and 'pmem' (persistent 204 memory) range. The 'mode' attribute emits one of 'ram', 'pmem', 205 'mixed', or 'none'. The 'mixed' indication is for error cases 206 when a decoder straddles the volatile/persistent partition 207 boundary, and 'none' indicates the decoder is not actively 208 decoding, or no DPA allocation policy has been set. 209 210 'mode' can be written, when the decoder is in the 'disabled' 211 state, with either 'ram' or 'pmem' to set the boundaries for the 212 next allocation. 213 214 215What: /sys/bus/cxl/devices/decoderX.Y/dpa_resource 216Date: May, 2022 217KernelVersion: v5.20 218Contact: linux-cxl@vger.kernel.org 219Description: 220 (RO) When a CXL decoder is of devtype "cxl_decoder_endpoint", 221 and its 'dpa_size' attribute is non-zero, this attribute 222 indicates the device physical address (DPA) base address of the 223 allocation. 224 225 226What: /sys/bus/cxl/devices/decoderX.Y/dpa_size 227Date: May, 2022 228KernelVersion: v5.20 229Contact: linux-cxl@vger.kernel.org 230Description: 231 (RW) When a CXL decoder is of devtype "cxl_decoder_endpoint" it 232 translates from a host physical address range, to a device local 233 address range. The range, base address plus length in bytes, of 234 DPA allocated to this decoder is conveyed in these 2 attributes. 235 Allocations can be mutated as long as the decoder is in the 236 disabled state. A write to 'dpa_size' releases the previous DPA 237 allocation and then attempts to allocate from the free capacity 238 in the device partition referred to by 'decoderX.Y/mode'. 239 Allocate and free requests can only be performed on the highest 240 instance number disabled decoder with non-zero size. I.e. 241 allocations are enforced to occur in increasing 'decoderX.Y/id' 242 order and frees are enforced to occur in decreasing 243 'decoderX.Y/id' order. 244 245 246What: /sys/bus/cxl/devices/decoderX.Y/interleave_ways 247Date: May, 2022 248KernelVersion: v5.20 249Contact: linux-cxl@vger.kernel.org 250Description: 251 (RO) The number of targets across which this decoder's host 252 physical address (HPA) memory range is interleaved. The device 253 maps every Nth block of HPA (of size == 254 'interleave_granularity') to consecutive DPA addresses. The 255 decoder's position in the interleave is determined by the 256 device's (endpoint or switch) switch ancestry. For root 257 decoders their interleave is specified by platform firmware and 258 they only specify a downstream target order for host bridges. 259 260 261What: /sys/bus/cxl/devices/decoderX.Y/interleave_granularity 262Date: May, 2022 263KernelVersion: v5.20 264Contact: linux-cxl@vger.kernel.org 265Description: 266 (RO) The number of consecutive bytes of host physical address 267 space this decoder claims at address N before the decode rotates 268 to the next target in the interleave at address N + 269 interleave_granularity (assuming N is aligned to 270 interleave_granularity). 271 272 273What: /sys/bus/cxl/devices/decoderX.Y/create_pmem_region 274Date: May, 2022 275KernelVersion: v5.20 276Contact: linux-cxl@vger.kernel.org 277Description: 278 (RW) Write a string in the form 'regionZ' to start the process 279 of defining a new persistent memory region (interleave-set) 280 within the decode range bounded by root decoder 'decoderX.Y'. 281 The value written must match the current value returned from 282 reading this attribute. An atomic compare exchange operation is 283 done on write to assign the requested id to a region and 284 allocate the region-id for the next creation attempt. EBUSY is 285 returned if the region name written does not match the current 286 cached value. 287 288 289What: /sys/bus/cxl/devices/decoderX.Y/delete_region 290Date: May, 2022 291KernelVersion: v5.20 292Contact: linux-cxl@vger.kernel.org 293Description: 294 (WO) Write a string in the form 'regionZ' to delete that region, 295 provided it is currently idle / not bound to a driver. 296 297 298What: /sys/bus/cxl/devices/regionZ/uuid 299Date: May, 2022 300KernelVersion: v5.20 301Contact: linux-cxl@vger.kernel.org 302Description: 303 (RW) Write a unique identifier for the region. This field must 304 be set for persistent regions and it must not conflict with the 305 UUID of another region. 306 307 308What: /sys/bus/cxl/devices/regionZ/interleave_granularity 309Date: May, 2022 310KernelVersion: v5.20 311Contact: linux-cxl@vger.kernel.org 312Description: 313 (RW) Set the number of consecutive bytes each device in the 314 interleave set will claim. The possible interleave granularity 315 values are determined by the CXL spec and the participating 316 devices. 317 318 319What: /sys/bus/cxl/devices/regionZ/interleave_ways 320Date: May, 2022 321KernelVersion: v5.20 322Contact: linux-cxl@vger.kernel.org 323Description: 324 (RW) Configures the number of devices participating in the 325 region is set by writing this value. Each device will provide 326 1/interleave_ways of storage for the region. 327 328 329What: /sys/bus/cxl/devices/regionZ/size 330Date: May, 2022 331KernelVersion: v5.20 332Contact: linux-cxl@vger.kernel.org 333Description: 334 (RW) System physical address space to be consumed by the region. 335 When written trigger the driver to allocate space out of the 336 parent root decoder's address space. When read the size of the 337 address space is reported and should match the span of the 338 region's resource attribute. Size shall be set after the 339 interleave configuration parameters. Once set it cannot be 340 changed, only freed by writing 0. The kernel makes no guarantees 341 that data is maintained over an address space freeing event, and 342 there is no guarantee that a free followed by an allocate 343 results in the same address being allocated. 344 345 346What: /sys/bus/cxl/devices/regionZ/resource 347Date: May, 2022 348KernelVersion: v5.20 349Contact: linux-cxl@vger.kernel.org 350Description: 351 (RO) A region is a contiguous partition of a CXL root decoder 352 address space. Region capacity is allocated by writing to the 353 size attribute, the resulting physical address space determined 354 by the driver is reflected here. It is therefore not useful to 355 read this before writing a value to the size attribute. 356 357 358What: /sys/bus/cxl/devices/regionZ/target[0..N] 359Date: May, 2022 360KernelVersion: v5.20 361Contact: linux-cxl@vger.kernel.org 362Description: 363 (RW) Write an endpoint decoder object name to 'targetX' where X 364 is the intended position of the endpoint device in the region 365 interleave and N is the 'interleave_ways' setting for the 366 region. ENXIO is returned if the write results in an impossible 367 to map decode scenario, like the endpoint is unreachable at that 368 position relative to the root decoder interleave. EBUSY is 369 returned if the position in the region is already occupied, or 370 if the region is not in a state to accept interleave 371 configuration changes. EINVAL is returned if the object name is 372 not an endpoint decoder. Once all positions have been 373 successfully written a final validation for decode conflicts is 374 performed before activating the region. 375