Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Srikanth Jampala | 894 | 91.04% | 1 | 20.00% |
Nagadheeraj Rottela | 52 | 5.30% | 1 | 20.00% |
Andy Shevchenko | 31 | 3.16% | 1 | 20.00% |
Herbert Xu | 3 | 0.31% | 1 | 20.00% |
Lee Jones | 2 | 0.20% | 1 | 20.00% |
Total | 982 | 5 |
// SPDX-License-Identifier: GPL-2.0 #include <linux/bitmap.h> #include <linux/workqueue.h> #include "nitrox_csr.h" #include "nitrox_hal.h" #include "nitrox_dev.h" #include "nitrox_mbx.h" #define RING_TO_VFNO(_x, _y) ((_x) / (_y)) /* * mbx_msg_type - Mailbox message types */ enum mbx_msg_type { MBX_MSG_TYPE_NOP, MBX_MSG_TYPE_REQ, MBX_MSG_TYPE_ACK, MBX_MSG_TYPE_NACK, }; /* * mbx_msg_opcode - Mailbox message opcodes */ enum mbx_msg_opcode { MSG_OP_VF_MODE = 1, MSG_OP_VF_UP, MSG_OP_VF_DOWN, MSG_OP_CHIPID_VFID, MSG_OP_MCODE_INFO = 11, }; struct pf2vf_work { struct nitrox_vfdev *vfdev; struct nitrox_device *ndev; struct work_struct pf2vf_resp; }; static inline u64 pf2vf_read_mbox(struct nitrox_device *ndev, int ring) { u64 reg_addr; reg_addr = NPS_PKT_MBOX_VF_PF_PFDATAX(ring); return nitrox_read_csr(ndev, reg_addr); } static inline void pf2vf_write_mbox(struct nitrox_device *ndev, u64 value, int ring) { u64 reg_addr; reg_addr = NPS_PKT_MBOX_PF_VF_PFDATAX(ring); nitrox_write_csr(ndev, reg_addr, value); } static void pf2vf_send_response(struct nitrox_device *ndev, struct nitrox_vfdev *vfdev) { union mbox_msg msg; msg.value = vfdev->msg.value; switch (vfdev->msg.opcode) { case MSG_OP_VF_MODE: msg.data = ndev->mode; break; case MSG_OP_VF_UP: vfdev->nr_queues = vfdev->msg.data; atomic_set(&vfdev->state, __NDEV_READY); break; case MSG_OP_CHIPID_VFID: msg.id.chipid = ndev->idx; msg.id.vfid = vfdev->vfno; break; case MSG_OP_VF_DOWN: vfdev->nr_queues = 0; atomic_set(&vfdev->state, __NDEV_NOT_READY); break; case MSG_OP_MCODE_INFO: msg.data = 0; msg.mcode_info.count = 2; msg.mcode_info.info = MCODE_TYPE_SE_SSL | (MCODE_TYPE_AE << 5); msg.mcode_info.next_se_grp = 1; msg.mcode_info.next_ae_grp = 1; break; default: msg.type = MBX_MSG_TYPE_NOP; break; } if (msg.type == MBX_MSG_TYPE_NOP) return; /* send ACK to VF */ msg.type = MBX_MSG_TYPE_ACK; pf2vf_write_mbox(ndev, msg.value, vfdev->ring); vfdev->msg.value = 0; atomic64_inc(&vfdev->mbx_resp); } static void pf2vf_resp_handler(struct work_struct *work) { struct pf2vf_work *pf2vf_resp = container_of(work, struct pf2vf_work, pf2vf_resp); struct nitrox_vfdev *vfdev = pf2vf_resp->vfdev; struct nitrox_device *ndev = pf2vf_resp->ndev; switch (vfdev->msg.type) { case MBX_MSG_TYPE_REQ: /* process the request from VF */ pf2vf_send_response(ndev, vfdev); break; case MBX_MSG_TYPE_ACK: case MBX_MSG_TYPE_NACK: break; } kfree(pf2vf_resp); } void nitrox_pf2vf_mbox_handler(struct nitrox_device *ndev) { DECLARE_BITMAP(csr, BITS_PER_TYPE(u64)); struct nitrox_vfdev *vfdev; struct pf2vf_work *pfwork; u64 value, reg_addr; u32 i; int vfno; /* loop for VF(0..63) */ reg_addr = NPS_PKT_MBOX_INT_LO; value = nitrox_read_csr(ndev, reg_addr); bitmap_from_u64(csr, value); for_each_set_bit(i, csr, BITS_PER_TYPE(csr)) { /* get the vfno from ring */ vfno = RING_TO_VFNO(i, ndev->iov.max_vf_queues); vfdev = ndev->iov.vfdev + vfno; vfdev->ring = i; /* fill the vf mailbox data */ vfdev->msg.value = pf2vf_read_mbox(ndev, vfdev->ring); pfwork = kzalloc(sizeof(*pfwork), GFP_ATOMIC); if (!pfwork) continue; pfwork->vfdev = vfdev; pfwork->ndev = ndev; INIT_WORK(&pfwork->pf2vf_resp, pf2vf_resp_handler); queue_work(ndev->iov.pf2vf_wq, &pfwork->pf2vf_resp); /* clear the corresponding vf bit */ nitrox_write_csr(ndev, reg_addr, BIT_ULL(i)); } /* loop for VF(64..127) */ reg_addr = NPS_PKT_MBOX_INT_HI; value = nitrox_read_csr(ndev, reg_addr); bitmap_from_u64(csr, value); for_each_set_bit(i, csr, BITS_PER_TYPE(csr)) { /* get the vfno from ring */ vfno = RING_TO_VFNO(i + 64, ndev->iov.max_vf_queues); vfdev = ndev->iov.vfdev + vfno; vfdev->ring = (i + 64); /* fill the vf mailbox data */ vfdev->msg.value = pf2vf_read_mbox(ndev, vfdev->ring); pfwork = kzalloc(sizeof(*pfwork), GFP_ATOMIC); if (!pfwork) continue; pfwork->vfdev = vfdev; pfwork->ndev = ndev; INIT_WORK(&pfwork->pf2vf_resp, pf2vf_resp_handler); queue_work(ndev->iov.pf2vf_wq, &pfwork->pf2vf_resp); /* clear the corresponding vf bit */ nitrox_write_csr(ndev, reg_addr, BIT_ULL(i)); } } int nitrox_mbox_init(struct nitrox_device *ndev) { struct nitrox_vfdev *vfdev; int i; ndev->iov.vfdev = kcalloc(ndev->iov.num_vfs, sizeof(struct nitrox_vfdev), GFP_KERNEL); if (!ndev->iov.vfdev) return -ENOMEM; for (i = 0; i < ndev->iov.num_vfs; i++) { vfdev = ndev->iov.vfdev + i; vfdev->vfno = i; } /* allocate pf2vf response workqueue */ ndev->iov.pf2vf_wq = alloc_workqueue("nitrox_pf2vf", 0, 0); if (!ndev->iov.pf2vf_wq) { kfree(ndev->iov.vfdev); return -ENOMEM; } /* enable pf2vf mailbox interrupts */ enable_pf2vf_mbox_interrupts(ndev); return 0; } void nitrox_mbox_cleanup(struct nitrox_device *ndev) { /* disable pf2vf mailbox interrupts */ disable_pf2vf_mbox_interrupts(ndev); /* destroy workqueue */ if (ndev->iov.pf2vf_wq) destroy_workqueue(ndev->iov.pf2vf_wq); kfree(ndev->iov.vfdev); ndev->iov.pf2vf_wq = NULL; ndev->iov.vfdev = NULL; }
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