Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
SrujanaChalla | 2170 | 100.00% | 7 | 100.00% |
Total | 2170 | 7 |
// SPDX-License-Identifier: GPL-2.0-only /* Copyright (C) 2020 Marvell. */ #include "otx2_cpt_common.h" #include "otx2_cptlf.h" #include "rvu_reg.h" #define CPT_TIMER_HOLD 0x03F #define CPT_COUNT_HOLD 32 static void cptlf_do_set_done_time_wait(struct otx2_cptlf_info *lf, int time_wait) { union otx2_cptx_lf_done_wait done_wait; done_wait.u = otx2_cpt_read64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_WAIT); done_wait.s.time_wait = time_wait; otx2_cpt_write64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_WAIT, done_wait.u); } static void cptlf_do_set_done_num_wait(struct otx2_cptlf_info *lf, int num_wait) { union otx2_cptx_lf_done_wait done_wait; done_wait.u = otx2_cpt_read64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_WAIT); done_wait.s.num_wait = num_wait; otx2_cpt_write64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_WAIT, done_wait.u); } static void cptlf_set_done_time_wait(struct otx2_cptlfs_info *lfs, int time_wait) { int slot; for (slot = 0; slot < lfs->lfs_num; slot++) cptlf_do_set_done_time_wait(&lfs->lf[slot], time_wait); } static void cptlf_set_done_num_wait(struct otx2_cptlfs_info *lfs, int num_wait) { int slot; for (slot = 0; slot < lfs->lfs_num; slot++) cptlf_do_set_done_num_wait(&lfs->lf[slot], num_wait); } static int cptlf_set_pri(struct otx2_cptlf_info *lf, int pri) { struct otx2_cptlfs_info *lfs = lf->lfs; union otx2_cptx_af_lf_ctrl lf_ctrl; int ret; ret = otx2_cpt_read_af_reg(lfs->mbox, lfs->pdev, CPT_AF_LFX_CTL(lf->slot), &lf_ctrl.u, lfs->blkaddr); if (ret) return ret; lf_ctrl.s.pri = pri ? 1 : 0; ret = otx2_cpt_write_af_reg(lfs->mbox, lfs->pdev, CPT_AF_LFX_CTL(lf->slot), lf_ctrl.u, lfs->blkaddr); return ret; } static int cptlf_set_eng_grps_mask(struct otx2_cptlf_info *lf, int eng_grps_mask) { struct otx2_cptlfs_info *lfs = lf->lfs; union otx2_cptx_af_lf_ctrl lf_ctrl; int ret; ret = otx2_cpt_read_af_reg(lfs->mbox, lfs->pdev, CPT_AF_LFX_CTL(lf->slot), &lf_ctrl.u, lfs->blkaddr); if (ret) return ret; lf_ctrl.s.grp = eng_grps_mask; ret = otx2_cpt_write_af_reg(lfs->mbox, lfs->pdev, CPT_AF_LFX_CTL(lf->slot), lf_ctrl.u, lfs->blkaddr); return ret; } static int cptlf_set_grp_and_pri(struct otx2_cptlfs_info *lfs, int eng_grp_mask, int pri) { int slot, ret = 0; for (slot = 0; slot < lfs->lfs_num; slot++) { ret = cptlf_set_pri(&lfs->lf[slot], pri); if (ret) return ret; ret = cptlf_set_eng_grps_mask(&lfs->lf[slot], eng_grp_mask); if (ret) return ret; } return ret; } static void cptlf_hw_init(struct otx2_cptlfs_info *lfs) { /* Disable instruction queues */ otx2_cptlf_disable_iqueues(lfs); /* Set instruction queues base addresses */ otx2_cptlf_set_iqueues_base_addr(lfs); /* Set instruction queues sizes */ otx2_cptlf_set_iqueues_size(lfs); /* Set done interrupts time wait */ cptlf_set_done_time_wait(lfs, CPT_TIMER_HOLD); /* Set done interrupts num wait */ cptlf_set_done_num_wait(lfs, CPT_COUNT_HOLD); /* Enable instruction queues */ otx2_cptlf_enable_iqueues(lfs); } static void cptlf_hw_cleanup(struct otx2_cptlfs_info *lfs) { /* Disable instruction queues */ otx2_cptlf_disable_iqueues(lfs); } static void cptlf_set_misc_intrs(struct otx2_cptlfs_info *lfs, u8 enable) { union otx2_cptx_lf_misc_int_ena_w1s irq_misc = { .u = 0x0 }; u64 reg = enable ? OTX2_CPT_LF_MISC_INT_ENA_W1S : OTX2_CPT_LF_MISC_INT_ENA_W1C; int slot; irq_misc.s.fault = 0x1; irq_misc.s.hwerr = 0x1; irq_misc.s.irde = 0x1; irq_misc.s.nqerr = 0x1; irq_misc.s.nwrp = 0x1; for (slot = 0; slot < lfs->lfs_num; slot++) otx2_cpt_write64(lfs->reg_base, BLKADDR_CPT0, slot, reg, irq_misc.u); } static void cptlf_enable_intrs(struct otx2_cptlfs_info *lfs) { int slot; /* Enable done interrupts */ for (slot = 0; slot < lfs->lfs_num; slot++) otx2_cpt_write64(lfs->reg_base, BLKADDR_CPT0, slot, OTX2_CPT_LF_DONE_INT_ENA_W1S, 0x1); /* Enable Misc interrupts */ cptlf_set_misc_intrs(lfs, true); } static void cptlf_disable_intrs(struct otx2_cptlfs_info *lfs) { int slot; for (slot = 0; slot < lfs->lfs_num; slot++) otx2_cpt_write64(lfs->reg_base, BLKADDR_CPT0, slot, OTX2_CPT_LF_DONE_INT_ENA_W1C, 0x1); cptlf_set_misc_intrs(lfs, false); } static inline int cptlf_read_done_cnt(struct otx2_cptlf_info *lf) { union otx2_cptx_lf_done irq_cnt; irq_cnt.u = otx2_cpt_read64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE); return irq_cnt.s.done; } static irqreturn_t cptlf_misc_intr_handler(int __always_unused irq, void *arg) { union otx2_cptx_lf_misc_int irq_misc, irq_misc_ack; struct otx2_cptlf_info *lf = arg; struct device *dev; dev = &lf->lfs->pdev->dev; irq_misc.u = otx2_cpt_read64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_MISC_INT); irq_misc_ack.u = 0x0; if (irq_misc.s.fault) { dev_err(dev, "Memory error detected while executing CPT_INST_S, LF %d.\n", lf->slot); irq_misc_ack.s.fault = 0x1; } else if (irq_misc.s.hwerr) { dev_err(dev, "HW error from an engine executing CPT_INST_S, LF %d.", lf->slot); irq_misc_ack.s.hwerr = 0x1; } else if (irq_misc.s.nwrp) { dev_err(dev, "SMMU fault while writing CPT_RES_S to CPT_INST_S[RES_ADDR], LF %d.\n", lf->slot); irq_misc_ack.s.nwrp = 0x1; } else if (irq_misc.s.irde) { dev_err(dev, "Memory error when accessing instruction memory queue CPT_LF_Q_BASE[ADDR].\n"); irq_misc_ack.s.irde = 0x1; } else if (irq_misc.s.nqerr) { dev_err(dev, "Error enqueuing an instruction received at CPT_LF_NQ.\n"); irq_misc_ack.s.nqerr = 0x1; } else { dev_err(dev, "Unhandled interrupt in CPT LF %d\n", lf->slot); return IRQ_NONE; } /* Acknowledge interrupts */ otx2_cpt_write64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_MISC_INT, irq_misc_ack.u); return IRQ_HANDLED; } static irqreturn_t cptlf_done_intr_handler(int irq, void *arg) { union otx2_cptx_lf_done_wait done_wait; struct otx2_cptlf_info *lf = arg; int irq_cnt; /* Read the number of completed requests */ irq_cnt = cptlf_read_done_cnt(lf); if (irq_cnt) { done_wait.u = otx2_cpt_read64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_WAIT); /* Acknowledge the number of completed requests */ otx2_cpt_write64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_ACK, irq_cnt); otx2_cpt_write64(lf->lfs->reg_base, BLKADDR_CPT0, lf->slot, OTX2_CPT_LF_DONE_WAIT, done_wait.u); if (unlikely(!lf->wqe)) { dev_err(&lf->lfs->pdev->dev, "No work for LF %d\n", lf->slot); return IRQ_NONE; } /* Schedule processing of completed requests */ tasklet_hi_schedule(&lf->wqe->work); } return IRQ_HANDLED; } void otx2_cptlf_unregister_interrupts(struct otx2_cptlfs_info *lfs) { int i, offs, vector; for (i = 0; i < lfs->lfs_num; i++) { for (offs = 0; offs < OTX2_CPT_LF_MSIX_VECTORS; offs++) { if (!lfs->lf[i].is_irq_reg[offs]) continue; vector = pci_irq_vector(lfs->pdev, lfs->lf[i].msix_offset + offs); free_irq(vector, &lfs->lf[i]); lfs->lf[i].is_irq_reg[offs] = false; } } cptlf_disable_intrs(lfs); } static int cptlf_do_register_interrrupts(struct otx2_cptlfs_info *lfs, int lf_num, int irq_offset, irq_handler_t handler) { int ret, vector; vector = pci_irq_vector(lfs->pdev, lfs->lf[lf_num].msix_offset + irq_offset); ret = request_irq(vector, handler, 0, lfs->lf[lf_num].irq_name[irq_offset], &lfs->lf[lf_num]); if (ret) return ret; lfs->lf[lf_num].is_irq_reg[irq_offset] = true; return ret; } int otx2_cptlf_register_interrupts(struct otx2_cptlfs_info *lfs) { int irq_offs, ret, i; for (i = 0; i < lfs->lfs_num; i++) { irq_offs = OTX2_CPT_LF_INT_VEC_E_MISC; snprintf(lfs->lf[i].irq_name[irq_offs], 32, "CPTLF Misc%d", i); ret = cptlf_do_register_interrrupts(lfs, i, irq_offs, cptlf_misc_intr_handler); if (ret) goto free_irq; irq_offs = OTX2_CPT_LF_INT_VEC_E_DONE; snprintf(lfs->lf[i].irq_name[irq_offs], 32, "OTX2_CPTLF Done%d", i); ret = cptlf_do_register_interrrupts(lfs, i, irq_offs, cptlf_done_intr_handler); if (ret) goto free_irq; } cptlf_enable_intrs(lfs); return 0; free_irq: otx2_cptlf_unregister_interrupts(lfs); return ret; } void otx2_cptlf_free_irqs_affinity(struct otx2_cptlfs_info *lfs) { int slot, offs; for (slot = 0; slot < lfs->lfs_num; slot++) { for (offs = 0; offs < OTX2_CPT_LF_MSIX_VECTORS; offs++) irq_set_affinity_hint(pci_irq_vector(lfs->pdev, lfs->lf[slot].msix_offset + offs), NULL); free_cpumask_var(lfs->lf[slot].affinity_mask); } } int otx2_cptlf_set_irqs_affinity(struct otx2_cptlfs_info *lfs) { struct otx2_cptlf_info *lf = lfs->lf; int slot, offs, ret; for (slot = 0; slot < lfs->lfs_num; slot++) { if (!zalloc_cpumask_var(&lf[slot].affinity_mask, GFP_KERNEL)) { dev_err(&lfs->pdev->dev, "cpumask allocation failed for LF %d", slot); ret = -ENOMEM; goto free_affinity_mask; } cpumask_set_cpu(cpumask_local_spread(slot, dev_to_node(&lfs->pdev->dev)), lf[slot].affinity_mask); for (offs = 0; offs < OTX2_CPT_LF_MSIX_VECTORS; offs++) { ret = irq_set_affinity_hint(pci_irq_vector(lfs->pdev, lf[slot].msix_offset + offs), lf[slot].affinity_mask); if (ret) goto free_affinity_mask; } } return 0; free_affinity_mask: otx2_cptlf_free_irqs_affinity(lfs); return ret; } int otx2_cptlf_init(struct otx2_cptlfs_info *lfs, u8 eng_grp_mask, int pri, int lfs_num) { int slot, ret; if (!lfs->pdev || !lfs->reg_base) return -EINVAL; lfs->lfs_num = lfs_num; for (slot = 0; slot < lfs->lfs_num; slot++) { lfs->lf[slot].lfs = lfs; lfs->lf[slot].slot = slot; if (lfs->lmt_base) lfs->lf[slot].lmtline = lfs->lmt_base + (slot * LMTLINE_SIZE); else lfs->lf[slot].lmtline = lfs->reg_base + OTX2_CPT_RVU_FUNC_ADDR_S(BLKADDR_LMT, slot, OTX2_CPT_LMT_LF_LMTLINEX(0)); lfs->lf[slot].ioreg = lfs->reg_base + OTX2_CPT_RVU_FUNC_ADDR_S(BLKADDR_CPT0, slot, OTX2_CPT_LF_NQX(0)); } /* Send request to attach LFs */ ret = otx2_cpt_attach_rscrs_msg(lfs); if (ret) goto clear_lfs_num; ret = otx2_cpt_alloc_instruction_queues(lfs); if (ret) { dev_err(&lfs->pdev->dev, "Allocating instruction queues failed\n"); goto detach_rsrcs; } cptlf_hw_init(lfs); /* * Allow each LF to execute requests destined to any of 8 engine * groups and set queue priority of each LF to high */ ret = cptlf_set_grp_and_pri(lfs, eng_grp_mask, pri); if (ret) goto free_iq; return 0; free_iq: otx2_cpt_free_instruction_queues(lfs); cptlf_hw_cleanup(lfs); detach_rsrcs: otx2_cpt_detach_rsrcs_msg(lfs); clear_lfs_num: lfs->lfs_num = 0; return ret; } void otx2_cptlf_shutdown(struct otx2_cptlfs_info *lfs) { lfs->lfs_num = 0; /* Cleanup LFs hardware side */ cptlf_hw_cleanup(lfs); /* Send request to detach LFs */ otx2_cpt_detach_rsrcs_msg(lfs); }
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