292 lines
8.2 KiB
C
292 lines
8.2 KiB
C
// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause
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/* Copyright (c) 2021, Microsoft Corporation. */
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#include <linux/delay.h>
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#include <linux/device.h>
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#include <linux/io.h>
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#include <linux/mm.h>
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#include <net/mana/shm_channel.h>
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#define PAGE_FRAME_L48_WIDTH_BYTES 6
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#define PAGE_FRAME_L48_WIDTH_BITS (PAGE_FRAME_L48_WIDTH_BYTES * 8)
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#define PAGE_FRAME_L48_MASK 0x0000FFFFFFFFFFFF
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#define PAGE_FRAME_H4_WIDTH_BITS 4
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#define VECTOR_MASK 0xFFFF
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#define SHMEM_VF_RESET_STATE ((u32)-1)
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#define SMC_MSG_TYPE_ESTABLISH_HWC 1
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#define SMC_MSG_TYPE_ESTABLISH_HWC_VERSION 0
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#define SMC_MSG_TYPE_DESTROY_HWC 2
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#define SMC_MSG_TYPE_DESTROY_HWC_VERSION 0
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#define SMC_MSG_DIRECTION_REQUEST 0
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#define SMC_MSG_DIRECTION_RESPONSE 1
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/* Structures labeled with "HW DATA" are exchanged with the hardware. All of
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* them are naturally aligned and hence don't need __packed.
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*/
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/* Shared memory channel protocol header
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*
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* msg_type: set on request and response; response matches request.
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* msg_version: newer PF writes back older response (matching request)
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* older PF acts on latest version known and sets that version in result
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* (less than request).
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* direction: 0 for request, VF->PF; 1 for response, PF->VF.
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* status: 0 on request,
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* operation result on response (success = 0, failure = 1 or greater).
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* reset_vf: If set on either establish or destroy request, indicates perform
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* FLR before/after the operation.
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* owner_is_pf: 1 indicates PF owned, 0 indicates VF owned.
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*/
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union smc_proto_hdr {
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u32 as_uint32;
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struct {
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u8 msg_type : 3;
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u8 msg_version : 3;
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u8 reserved_1 : 1;
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u8 direction : 1;
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u8 status;
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u8 reserved_2;
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u8 reset_vf : 1;
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u8 reserved_3 : 6;
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u8 owner_is_pf : 1;
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};
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}; /* HW DATA */
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#define SMC_APERTURE_BITS 256
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#define SMC_BASIC_UNIT (sizeof(u32))
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#define SMC_APERTURE_DWORDS (SMC_APERTURE_BITS / (SMC_BASIC_UNIT * 8))
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#define SMC_LAST_DWORD (SMC_APERTURE_DWORDS - 1)
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static int mana_smc_poll_register(void __iomem *base, bool reset)
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{
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void __iomem *ptr = base + SMC_LAST_DWORD * SMC_BASIC_UNIT;
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u32 last_dword;
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int i;
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/* Poll the hardware for the ownership bit. This should be pretty fast,
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* but let's do it in a loop just in case the hardware or the PF
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* driver are temporarily busy.
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*/
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for (i = 0; i < 20 * 1000; i++) {
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last_dword = readl(ptr);
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/* shmem reads as 0xFFFFFFFF in the reset case */
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if (reset && last_dword == SHMEM_VF_RESET_STATE)
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return 0;
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/* If bit_31 is set, the PF currently owns the SMC. */
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if (!(last_dword & BIT(31)))
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return 0;
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usleep_range(1000, 2000);
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}
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return -ETIMEDOUT;
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}
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static int mana_smc_read_response(struct shm_channel *sc, u32 msg_type,
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u32 msg_version, bool reset_vf)
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{
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void __iomem *base = sc->base;
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union smc_proto_hdr hdr;
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int err;
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/* Wait for PF to respond. */
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err = mana_smc_poll_register(base, reset_vf);
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if (err)
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return err;
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hdr.as_uint32 = readl(base + SMC_LAST_DWORD * SMC_BASIC_UNIT);
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if (reset_vf && hdr.as_uint32 == SHMEM_VF_RESET_STATE)
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return 0;
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/* Validate protocol fields from the PF driver */
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if (hdr.msg_type != msg_type || hdr.msg_version > msg_version ||
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hdr.direction != SMC_MSG_DIRECTION_RESPONSE) {
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dev_err(sc->dev, "Wrong SMC response 0x%x, type=%d, ver=%d\n",
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hdr.as_uint32, msg_type, msg_version);
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return -EPROTO;
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}
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/* Validate the operation result */
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if (hdr.status != 0) {
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dev_err(sc->dev, "SMC operation failed: 0x%x\n", hdr.status);
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return -EPROTO;
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}
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return 0;
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}
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void mana_smc_init(struct shm_channel *sc, struct device *dev,
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void __iomem *base)
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{
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sc->dev = dev;
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sc->base = base;
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}
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int mana_smc_setup_hwc(struct shm_channel *sc, bool reset_vf, u64 eq_addr,
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u64 cq_addr, u64 rq_addr, u64 sq_addr,
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u32 eq_msix_index)
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{
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union smc_proto_hdr *hdr;
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u16 all_addr_h4bits = 0;
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u16 frame_addr_seq = 0;
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u64 frame_addr = 0;
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u8 shm_buf[32];
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u64 *shmem;
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u32 *dword;
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u8 *ptr;
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int err;
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int i;
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/* Ensure VF already has possession of shared memory */
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err = mana_smc_poll_register(sc->base, false);
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if (err) {
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dev_err(sc->dev, "Timeout when setting up HWC: %d\n", err);
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return err;
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}
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if (!PAGE_ALIGNED(eq_addr) || !PAGE_ALIGNED(cq_addr) ||
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!PAGE_ALIGNED(rq_addr) || !PAGE_ALIGNED(sq_addr))
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return -EINVAL;
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if ((eq_msix_index & VECTOR_MASK) != eq_msix_index)
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return -EINVAL;
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/* Scheme for packing four addresses and extra info into 256 bits.
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*
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* Addresses must be page frame aligned, so only frame address bits
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* are transferred.
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*
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* 52-bit frame addresses are split into the lower 48 bits and upper
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* 4 bits. Lower 48 bits of 4 address are written sequentially from
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* the start of the 256-bit shared memory region followed by 16 bits
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* containing the upper 4 bits of the 4 addresses in sequence.
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*
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* A 16 bit EQ vector number fills out the next-to-last 32-bit dword.
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*
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* The final 32-bit dword is used for protocol control information as
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* defined in smc_proto_hdr.
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*/
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memset(shm_buf, 0, sizeof(shm_buf));
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ptr = shm_buf;
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/* EQ addr: low 48 bits of frame address */
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shmem = (u64 *)ptr;
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frame_addr = PHYS_PFN(eq_addr);
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*shmem = frame_addr & PAGE_FRAME_L48_MASK;
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all_addr_h4bits |= (frame_addr >> PAGE_FRAME_L48_WIDTH_BITS) <<
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(frame_addr_seq++ * PAGE_FRAME_H4_WIDTH_BITS);
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ptr += PAGE_FRAME_L48_WIDTH_BYTES;
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/* CQ addr: low 48 bits of frame address */
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shmem = (u64 *)ptr;
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frame_addr = PHYS_PFN(cq_addr);
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*shmem = frame_addr & PAGE_FRAME_L48_MASK;
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all_addr_h4bits |= (frame_addr >> PAGE_FRAME_L48_WIDTH_BITS) <<
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(frame_addr_seq++ * PAGE_FRAME_H4_WIDTH_BITS);
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ptr += PAGE_FRAME_L48_WIDTH_BYTES;
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/* RQ addr: low 48 bits of frame address */
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shmem = (u64 *)ptr;
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frame_addr = PHYS_PFN(rq_addr);
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*shmem = frame_addr & PAGE_FRAME_L48_MASK;
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all_addr_h4bits |= (frame_addr >> PAGE_FRAME_L48_WIDTH_BITS) <<
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(frame_addr_seq++ * PAGE_FRAME_H4_WIDTH_BITS);
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ptr += PAGE_FRAME_L48_WIDTH_BYTES;
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/* SQ addr: low 48 bits of frame address */
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shmem = (u64 *)ptr;
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frame_addr = PHYS_PFN(sq_addr);
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*shmem = frame_addr & PAGE_FRAME_L48_MASK;
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all_addr_h4bits |= (frame_addr >> PAGE_FRAME_L48_WIDTH_BITS) <<
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(frame_addr_seq++ * PAGE_FRAME_H4_WIDTH_BITS);
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ptr += PAGE_FRAME_L48_WIDTH_BYTES;
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/* High 4 bits of the four frame addresses */
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*((u16 *)ptr) = all_addr_h4bits;
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ptr += sizeof(u16);
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/* EQ MSIX vector number */
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*((u16 *)ptr) = (u16)eq_msix_index;
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ptr += sizeof(u16);
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/* 32-bit protocol header in final dword */
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*((u32 *)ptr) = 0;
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hdr = (union smc_proto_hdr *)ptr;
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hdr->msg_type = SMC_MSG_TYPE_ESTABLISH_HWC;
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hdr->msg_version = SMC_MSG_TYPE_ESTABLISH_HWC_VERSION;
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hdr->direction = SMC_MSG_DIRECTION_REQUEST;
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hdr->reset_vf = reset_vf;
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/* Write 256-message buffer to shared memory (final 32-bit write
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* triggers HW to set possession bit to PF).
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*/
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dword = (u32 *)shm_buf;
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for (i = 0; i < SMC_APERTURE_DWORDS; i++)
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writel(*dword++, sc->base + i * SMC_BASIC_UNIT);
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/* Read shmem response (polling for VF possession) and validate.
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* For setup, waiting for response on shared memory is not strictly
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* necessary, since wait occurs later for results to appear in EQE's.
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*/
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err = mana_smc_read_response(sc, SMC_MSG_TYPE_ESTABLISH_HWC,
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SMC_MSG_TYPE_ESTABLISH_HWC_VERSION,
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reset_vf);
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if (err) {
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dev_err(sc->dev, "Error when setting up HWC: %d\n", err);
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return err;
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}
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return 0;
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}
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int mana_smc_teardown_hwc(struct shm_channel *sc, bool reset_vf)
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{
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union smc_proto_hdr hdr = {};
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int err;
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/* Ensure already has possession of shared memory */
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err = mana_smc_poll_register(sc->base, false);
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if (err) {
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dev_err(sc->dev, "Timeout when tearing down HWC\n");
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return err;
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}
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/* Set up protocol header for HWC destroy message */
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hdr.msg_type = SMC_MSG_TYPE_DESTROY_HWC;
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hdr.msg_version = SMC_MSG_TYPE_DESTROY_HWC_VERSION;
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hdr.direction = SMC_MSG_DIRECTION_REQUEST;
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hdr.reset_vf = reset_vf;
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/* Write message in high 32 bits of 256-bit shared memory, causing HW
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* to set possession bit to PF.
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*/
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writel(hdr.as_uint32, sc->base + SMC_LAST_DWORD * SMC_BASIC_UNIT);
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/* Read shmem response (polling for VF possession) and validate.
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* For teardown, waiting for response is required to ensure hardware
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* invalidates MST entries before software frees memory.
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*/
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err = mana_smc_read_response(sc, SMC_MSG_TYPE_DESTROY_HWC,
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SMC_MSG_TYPE_DESTROY_HWC_VERSION,
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reset_vf);
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if (err) {
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dev_err(sc->dev, "Error when tearing down HWC: %d\n", err);
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return err;
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}
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return 0;
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}
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