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/*
*
* This file is provided under a dual BSD/GPLv2 license. When using or
* redistributing this file, you may do so under either license.
*
* GPL LICENSE SUMMARY
*
* Copyright(c) 2015 Intel Corporation.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* BSD LICENSE
*
* Copyright(c) 2015 Intel Corporation.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* - Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* - Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
/*
* This file contains defines, structures, etc. that are used
* to communicate between kernel and user code.
*/
#ifndef _LINUX__HFI1_USER_H
#define _LINUX__HFI1_USER_H
#include <linux/types.h>
/*
* This version number is given to the driver by the user code during
* initialization in the spu_userversion field of hfi1_user_info, so
* the driver can check for compatibility with user code.
*
* The major version changes when data structures change in an incompatible
* way. The driver must be the same for initialization to succeed.
*/
#define HFI1_USER_SWMAJOR 4
/*
* Minor version differences are always compatible
* a within a major version, however if user software is larger
* than driver software, some new features and/or structure fields
* may not be implemented; the user code must deal with this if it
* cares, or it must abort after initialization reports the difference.
*/
#define HFI1_USER_SWMINOR 0
/*
* Set of HW and driver capability/feature bits.
* These bit values are used to configure enabled/disabled HW and
* driver features. The same set of bits are communicated to user
* space.
*/
#define HFI1_CAP_DMA_RTAIL (1UL << 0) /* Use DMA'ed RTail value */
#define HFI1_CAP_SDMA (1UL << 1) /* Enable SDMA support */
#define HFI1_CAP_SDMA_AHG (1UL << 2) /* Enable SDMA AHG support */
#define HFI1_CAP_EXTENDED_PSN (1UL << 3) /* Enable Extended PSN support */
#define HFI1_CAP_HDRSUPP (1UL << 4) /* Enable Header Suppression */
/* 1UL << 5 unused */
#define HFI1_CAP_USE_SDMA_HEAD (1UL << 6) /* DMA Hdr Q tail vs. use CSR */
#define HFI1_CAP_MULTI_PKT_EGR (1UL << 7) /* Enable multi-packet Egr buffs*/
#define HFI1_CAP_NODROP_RHQ_FULL (1UL << 8) /* Don't drop on Hdr Q full */
#define HFI1_CAP_NODROP_EGR_FULL (1UL << 9) /* Don't drop on EGR buffs full */
#define HFI1_CAP_TID_UNMAP (1UL << 10) /* Enable Expected TID caching */
#define HFI1_CAP_PRINT_UNIMPL (1UL << 11) /* Show for unimplemented feats */
#define HFI1_CAP_ALLOW_PERM_JKEY (1UL << 12) /* Allow use of permissive JKEY */
#define HFI1_CAP_NO_INTEGRITY (1UL << 13) /* Enable ctxt integrity checks */
#define HFI1_CAP_PKEY_CHECK (1UL << 14) /* Enable ctxt PKey checking */
#define HFI1_CAP_STATIC_RATE_CTRL (1UL << 15) /* Allow PBC.StaticRateControl */
/* 1UL << 16 unused */
#define HFI1_CAP_SDMA_HEAD_CHECK (1UL << 17) /* SDMA head checking */
#define HFI1_CAP_EARLY_CREDIT_RETURN (1UL << 18) /* early credit return */
#define HFI1_RCVHDR_ENTSIZE_2 (1UL << 0)
#define HFI1_RCVHDR_ENTSIZE_16 (1UL << 1)
#define HFI1_RCVDHR_ENTSIZE_32 (1UL << 2)
/*
* If the unit is specified via open, HFI choice is fixed. If port is
* specified, it's also fixed. Otherwise we try to spread contexts
* across ports and HFIs, using different algorithms. WITHIN is
* the old default, prior to this mechanism.
*/
#define HFI1_ALG_ACROSS 0 /* round robin contexts across HFIs, then
* ports; this is the default */
#define HFI1_ALG_WITHIN 1 /* use all contexts on an HFI (round robin
* active ports within), then next HFI */
#define HFI1_ALG_COUNT 2 /* number of algorithm choices */
/* User commands. */
#define HFI1_CMD_ASSIGN_CTXT 1 /* allocate HFI and context */
#define HFI1_CMD_CTXT_INFO 2 /* find out what resources we got */
#define HFI1_CMD_USER_INFO 3 /* set up userspace */
#define HFI1_CMD_TID_UPDATE 4 /* update expected TID entries */
#define HFI1_CMD_TID_FREE 5 /* free expected TID entries */
#define HFI1_CMD_CREDIT_UPD 6 /* force an update of PIO credit */
#define HFI1_CMD_SDMA_STATUS_UPD 7 /* force update of SDMA status ring */
#define HFI1_CMD_RECV_CTRL 8 /* control receipt of packets */
#define HFI1_CMD_POLL_TYPE 9 /* set the kind of polling we want */
#define HFI1_CMD_ACK_EVENT 10 /* ack & clear user status bits */
#define HFI1_CMD_SET_PKEY 11 /* set context's pkey */
#define HFI1_CMD_CTXT_RESET 12 /* reset context's HW send context */
/* separate EPROM commands from normal PSM commands */
#define HFI1_CMD_EP_INFO 64 /* read EPROM device ID */
#define HFI1_CMD_EP_ERASE_CHIP 65 /* erase whole EPROM */
#define HFI1_CMD_EP_ERASE_P0 66 /* erase EPROM partition 0 */
#define HFI1_CMD_EP_ERASE_P1 67 /* erase EPROM partition 1 */
#define HFI1_CMD_EP_READ_P0 68 /* read EPROM partition 0 */
#define HFI1_CMD_EP_READ_P1 69 /* read EPROM partition 1 */
#define HFI1_CMD_EP_WRITE_P0 70 /* write EPROM partition 0 */
#define HFI1_CMD_EP_WRITE_P1 71 /* write EPROM partition 1 */
#define _HFI1_EVENT_FROZEN_BIT 0
#define _HFI1_EVENT_LINKDOWN_BIT 1
#define _HFI1_EVENT_LID_CHANGE_BIT 2
#define _HFI1_EVENT_LMC_CHANGE_BIT 3
#define _HFI1_EVENT_SL2VL_CHANGE_BIT 4
#define _HFI1_MAX_EVENT_BIT _HFI1_EVENT_SL2VL_CHANGE_BIT
#define HFI1_EVENT_FROZEN (1UL << _HFI1_EVENT_FROZEN_BIT)
#define HFI1_EVENT_LINKDOWN (1UL << _HFI1_EVENT_LINKDOWN_BIT)
#define HFI1_EVENT_LID_CHANGE (1UL << _HFI1_EVENT_LID_CHANGE_BIT)
#define HFI1_EVENT_LMC_CHANGE (1UL << _HFI1_EVENT_LMC_CHANGE_BIT)
#define HFI1_EVENT_SL2VL_CHANGE (1UL << _HFI1_EVENT_SL2VL_CHANGE_BIT)
/*
* These are the status bits readable (in ASCII form, 64bit value)
* from the "status" sysfs file. For binary compatibility, values
* must remain as is; removed states can be reused for different
* purposes.
*/
#define HFI1_STATUS_INITTED 0x1 /* basic initialization done */
/* Chip has been found and initialized */
#define HFI1_STATUS_CHIP_PRESENT 0x20
/* IB link is at ACTIVE, usable for data traffic */
#define HFI1_STATUS_IB_READY 0x40
/* link is configured, LID, MTU, etc. have been set */
#define HFI1_STATUS_IB_CONF 0x80
/* A Fatal hardware error has occurred. */
#define HFI1_STATUS_HWERROR 0x200
/*
* Number of supported shared contexts.
* This is the maximum number of software contexts that can share
* a hardware send/receive context.
*/
#define HFI1_MAX_SHARED_CTXTS 8
/*
* Poll types
*/
#define HFI1_POLL_TYPE_ANYRCV 0x0
#define HFI1_POLL_TYPE_URGENT 0x1
/*
* This structure is passed to the driver to tell it where
* user code buffers are, sizes, etc. The offsets and sizes of the
* fields must remain unchanged, for binary compatibility. It can
* be extended, if userversion is changed so user code can tell, if needed
*/
struct hfi1_user_info {
/*
* version of user software, to detect compatibility issues.
* Should be set to HFI1_USER_SWVERSION.
*/
__u32 userversion;
__u16 pad;
/* HFI selection algorithm, if unit has not selected */
__u16 hfi1_alg;
/*
* If two or more processes wish to share a context, each process
* must set the subcontext_cnt and subcontext_id to the same
* values. The only restriction on the subcontext_id is that
* it be unique for a given node.
*/
__u16 subctxt_cnt;
__u16 subctxt_id;
/* 128bit UUID passed in by PSM. */
__u8 uuid[16];
};
struct hfi1_ctxt_info {
__u64 runtime_flags; /* chip/drv runtime flags (HFI1_CAP_*) */
__u32 rcvegr_size; /* size of each eager buffer */
__u16 num_active; /* number of active units */
__u16 unit; /* unit (chip) assigned to caller */
__u16 ctxt; /* ctxt on unit assigned to caller */
__u16 subctxt; /* subctxt on unit assigned to caller */
__u16 rcvtids; /* number of Rcv TIDs for this context */
__u16 credits; /* number of PIO credits for this context */
__u16 numa_node; /* NUMA node of the assigned device */
__u16 rec_cpu; /* cpu # for affinity (0xffff if none) */
__u16 send_ctxt; /* send context in use by this user context */
__u16 egrtids; /* number of RcvArray entries for Eager Rcvs */
__u16 rcvhdrq_cnt; /* number of RcvHdrQ entries */
__u16 rcvhdrq_entsize; /* size (in bytes) for each RcvHdrQ entry */
__u16 sdma_ring_size; /* number of entries in SDMA request ring */
};
struct hfi1_tid_info {
/* virtual address of first page in transfer */
__u64 vaddr;
/* pointer to tid array. this array is big enough */
__u64 tidlist;
/* number of tids programmed by this request */
__u32 tidcnt;
/* length of transfer buffer programmed by this request */
__u32 length;
/*
* pointer to bitmap of TIDs used for this call;
* checked for being large enough at open
*/
__u64 tidmap;
};
struct hfi1_cmd {
__u32 type; /* command type */
__u32 len; /* length of struct pointed to by add */
__u64 addr; /* pointer to user structure */
};
enum hfi1_sdma_comp_state {
FREE = 0,
QUEUED,
COMPLETE,
ERROR
};
/*
* SDMA completion ring entry
*/
struct hfi1_sdma_comp_entry {
__u32 status;
__u32 errcode;
};
/*
* Device status and notifications from driver to user-space.
*/
struct hfi1_status {
__u64 dev; /* device/hw status bits */
__u64 port; /* port state and status bits */
char freezemsg[0];
};
/*
* This structure is returned by the driver immediately after
* open to get implementation-specific info, and info specific to this
* instance.
*
* This struct must have explicit pad fields where type sizes
* may result in different alignments between 32 and 64 bit
* programs, since the 64 bit * bit kernel requires the user code
* to have matching offsets
*/
struct hfi1_base_info {
/* version of hardware, for feature checking. */
__u32 hw_version;
/* version of software, for feature checking. */
__u32 sw_version;
/* Job key */
__u16 jkey;
__u16 padding1;
/*
* The special QP (queue pair) value that identifies PSM
* protocol packet from standard IB packets.
*/
__u32 bthqp;
/* PIO credit return address, */
__u64 sc_credits_addr;
/*
* Base address of write-only pio buffers for this process.
* Each buffer has sendpio_credits*64 bytes.
*/
__u64 pio_bufbase_sop;
/*
* Base address of write-only pio buffers for this process.
* Each buffer has sendpio_credits*64 bytes.
*/
__u64 pio_bufbase;
/* address where receive buffer queue is mapped into */
__u64 rcvhdr_bufbase;
/* base address of Eager receive buffers. */
__u64 rcvegr_bufbase;
/* base address of SDMA completion ring */
__u64 sdma_comp_bufbase;
/*
* User register base for init code, not to be used directly by
* protocol or applications. Always maps real chip register space.
* the register addresses are:
* ur_rcvhdrhead, ur_rcvhdrtail, ur_rcvegrhead, ur_rcvegrtail,
* ur_rcvtidflow
*/
__u64 user_regbase;
/* notification events */
__u64 events_bufbase;
/* status page */
__u64 status_bufbase;
/* rcvhdrtail update */
__u64 rcvhdrtail_base;
/*
* shared memory pages for subctxts if ctxt is shared; these cover
* all the processes in the group sharing a single context.
* all have enough space for the num_subcontexts value on this job.
*/
__u64 subctxt_uregbase;
__u64 subctxt_rcvegrbuf;
__u64 subctxt_rcvhdrbuf;
};
enum sdma_req_opcode {
EXPECTED = 0,
EAGER
};
#define HFI1_SDMA_REQ_VERSION_MASK 0xF
#define HFI1_SDMA_REQ_VERSION_SHIFT 0x0
#define HFI1_SDMA_REQ_OPCODE_MASK 0xF
#define HFI1_SDMA_REQ_OPCODE_SHIFT 0x4
#define HFI1_SDMA_REQ_IOVCNT_MASK 0xFF
#define HFI1_SDMA_REQ_IOVCNT_SHIFT 0x8
struct sdma_req_info {
/*
* bits 0-3 - version (currently unused)
* bits 4-7 - opcode (enum sdma_req_opcode)
* bits 8-15 - io vector count
*/
__u16 ctrl;
/*
* Number of fragments contained in this request.
* User-space has already computed how many
* fragment-sized packet the user buffer will be
* split into.
*/
__u16 npkts;
/*
* Size of each fragment the user buffer will be
* split into.
*/
__u16 fragsize;
/*
* Index of the slot in the SDMA completion ring
* this request should be using. User-space is
* in charge of managing its own ring.
*/
__u16 comp_idx;
} __packed;
/*
* SW KDETH header.
* swdata is SW defined portion.
*/
struct hfi1_kdeth_header {
__le32 ver_tid_offset;
__le16 jkey;
__le16 hcrc;
__le32 swdata[7];
} __packed;
/*
* Structure describing the headers that User space uses. The
* structure above is a subset of this one.
*/
struct hfi1_pkt_header {
__le16 pbc[4];
__be16 lrh[4];
__be32 bth[3];
struct hfi1_kdeth_header kdeth;
} __packed;
/*
* The list of usermode accessible registers.
*/
enum hfi1_ureg {
/* (RO) DMA RcvHdr to be used next. */
ur_rcvhdrtail = 0,
/* (RW) RcvHdr entry to be processed next by host. */
ur_rcvhdrhead = 1,
/* (RO) Index of next Eager index to use. */
ur_rcvegrindextail = 2,
/* (RW) Eager TID to be processed next */
ur_rcvegrindexhead = 3,
/* (RO) Receive Eager Offset Tail */
ur_rcvegroffsettail = 4,
/* For internal use only; max register number. */
ur_maxreg,
/* (RW) Receive TID flow table */
ur_rcvtidflowtable = 256
};
#endif /* _LINIUX__HFI1_USER_H */
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