Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Tadeusz Struk | 833 | 49.17% | 5 | 21.74% |
Wojciech Ziemba | 440 | 25.97% | 4 | 17.39% |
Giovanni Cabiddu | 225 | 13.28% | 6 | 26.09% |
Marco Chiappero | 97 | 5.73% | 5 | 21.74% |
Maksim Lukoshkov | 69 | 4.07% | 1 | 4.35% |
Bruce W Allan | 29 | 1.71% | 1 | 4.35% |
Svyatoslav Pankratov | 1 | 0.06% | 1 | 4.35% |
Total | 1694 | 23 |
// SPDX-License-Identifier: (BSD-3-Clause OR GPL-2.0-only) /* Copyright(c) 2014 - 2020 Intel Corporation */ #include <linux/kernel.h> #include <linux/init.h> #include <linux/types.h> #include <linux/pci.h> #include <linux/slab.h> #include <linux/errno.h> #include <linux/interrupt.h> #include "adf_accel_devices.h" #include "adf_common_drv.h" #include "adf_cfg.h" #include "adf_cfg_strings.h" #include "adf_cfg_common.h" #include "adf_transport_access_macros.h" #include "adf_transport_internal.h" #define ADF_MAX_NUM_VFS 32 static struct workqueue_struct *adf_misc_wq; static int adf_enable_msix(struct adf_accel_dev *accel_dev) { struct adf_accel_pci *pci_dev_info = &accel_dev->accel_pci_dev; struct adf_hw_device_data *hw_data = accel_dev->hw_device; u32 msix_num_entries = hw_data->num_banks + 1; int ret; if (hw_data->set_msix_rttable) hw_data->set_msix_rttable(accel_dev); ret = pci_alloc_irq_vectors(pci_dev_info->pci_dev, msix_num_entries, msix_num_entries, PCI_IRQ_MSIX); if (unlikely(ret < 0)) { dev_err(&GET_DEV(accel_dev), "Failed to allocate %d MSI-X vectors\n", msix_num_entries); return ret; } return 0; } static void adf_disable_msix(struct adf_accel_pci *pci_dev_info) { pci_free_irq_vectors(pci_dev_info->pci_dev); } static irqreturn_t adf_msix_isr_bundle(int irq, void *bank_ptr) { struct adf_etr_bank_data *bank = bank_ptr; struct adf_hw_csr_ops *csr_ops = GET_CSR_OPS(bank->accel_dev); csr_ops->write_csr_int_flag_and_col(bank->csr_addr, bank->bank_number, 0); tasklet_hi_schedule(&bank->resp_handler); return IRQ_HANDLED; } #ifdef CONFIG_PCI_IOV void adf_enable_vf2pf_interrupts(struct adf_accel_dev *accel_dev, u32 vf_mask) { void __iomem *pmisc_addr = adf_get_pmisc_base(accel_dev); unsigned long flags; spin_lock_irqsave(&accel_dev->pf.vf2pf_ints_lock, flags); GET_PFVF_OPS(accel_dev)->enable_vf2pf_interrupts(pmisc_addr, vf_mask); spin_unlock_irqrestore(&accel_dev->pf.vf2pf_ints_lock, flags); } void adf_disable_all_vf2pf_interrupts(struct adf_accel_dev *accel_dev) { void __iomem *pmisc_addr = adf_get_pmisc_base(accel_dev); unsigned long flags; spin_lock_irqsave(&accel_dev->pf.vf2pf_ints_lock, flags); GET_PFVF_OPS(accel_dev)->disable_all_vf2pf_interrupts(pmisc_addr); spin_unlock_irqrestore(&accel_dev->pf.vf2pf_ints_lock, flags); } static u32 adf_disable_pending_vf2pf_interrupts(struct adf_accel_dev *accel_dev) { void __iomem *pmisc_addr = adf_get_pmisc_base(accel_dev); u32 pending; spin_lock(&accel_dev->pf.vf2pf_ints_lock); pending = GET_PFVF_OPS(accel_dev)->disable_pending_vf2pf_interrupts(pmisc_addr); spin_unlock(&accel_dev->pf.vf2pf_ints_lock); return pending; } static bool adf_handle_vf2pf_int(struct adf_accel_dev *accel_dev) { bool irq_handled = false; unsigned long vf_mask; /* Get the interrupt sources triggered by VFs, except for those already disabled */ vf_mask = adf_disable_pending_vf2pf_interrupts(accel_dev); if (vf_mask) { struct adf_accel_vf_info *vf_info; int i; /* * Handle VF2PF interrupt unless the VF is malicious and * is attempting to flood the host OS with VF2PF interrupts. */ for_each_set_bit(i, &vf_mask, ADF_MAX_NUM_VFS) { vf_info = accel_dev->pf.vf_info + i; if (!__ratelimit(&vf_info->vf2pf_ratelimit)) { dev_info(&GET_DEV(accel_dev), "Too many ints from VF%d\n", vf_info->vf_nr); continue; } adf_schedule_vf2pf_handler(vf_info); irq_handled = true; } } return irq_handled; } #endif /* CONFIG_PCI_IOV */ static bool adf_handle_pm_int(struct adf_accel_dev *accel_dev) { struct adf_hw_device_data *hw_data = accel_dev->hw_device; if (hw_data->handle_pm_interrupt && hw_data->handle_pm_interrupt(accel_dev)) return true; return false; } static irqreturn_t adf_msix_isr_ae(int irq, void *dev_ptr) { struct adf_accel_dev *accel_dev = dev_ptr; #ifdef CONFIG_PCI_IOV /* If SR-IOV is enabled (vf_info is non-NULL), check for VF->PF ints */ if (accel_dev->pf.vf_info && adf_handle_vf2pf_int(accel_dev)) return IRQ_HANDLED; #endif /* CONFIG_PCI_IOV */ if (adf_handle_pm_int(accel_dev)) return IRQ_HANDLED; dev_dbg(&GET_DEV(accel_dev), "qat_dev%d spurious AE interrupt\n", accel_dev->accel_id); return IRQ_NONE; } static void adf_free_irqs(struct adf_accel_dev *accel_dev) { struct adf_accel_pci *pci_dev_info = &accel_dev->accel_pci_dev; struct adf_hw_device_data *hw_data = accel_dev->hw_device; struct adf_irq *irqs = pci_dev_info->msix_entries.irqs; struct adf_etr_data *etr_data = accel_dev->transport; int clust_irq = hw_data->num_banks; int irq, i = 0; if (pci_dev_info->msix_entries.num_entries > 1) { for (i = 0; i < hw_data->num_banks; i++) { if (irqs[i].enabled) { irq = pci_irq_vector(pci_dev_info->pci_dev, i); irq_set_affinity_hint(irq, NULL); free_irq(irq, &etr_data->banks[i]); } } } if (irqs[i].enabled) { irq = pci_irq_vector(pci_dev_info->pci_dev, clust_irq); free_irq(irq, accel_dev); } } static int adf_request_irqs(struct adf_accel_dev *accel_dev) { struct adf_accel_pci *pci_dev_info = &accel_dev->accel_pci_dev; struct adf_hw_device_data *hw_data = accel_dev->hw_device; struct adf_irq *irqs = pci_dev_info->msix_entries.irqs; struct adf_etr_data *etr_data = accel_dev->transport; int clust_irq = hw_data->num_banks; int ret, irq, i = 0; char *name; /* Request msix irq for all banks unless SR-IOV enabled */ if (!accel_dev->pf.vf_info) { for (i = 0; i < hw_data->num_banks; i++) { struct adf_etr_bank_data *bank = &etr_data->banks[i]; unsigned int cpu, cpus = num_online_cpus(); name = irqs[i].name; snprintf(name, ADF_MAX_MSIX_VECTOR_NAME, "qat%d-bundle%d", accel_dev->accel_id, i); irq = pci_irq_vector(pci_dev_info->pci_dev, i); if (unlikely(irq < 0)) { dev_err(&GET_DEV(accel_dev), "Failed to get IRQ number of device vector %d - %s\n", i, name); ret = irq; goto err; } ret = request_irq(irq, adf_msix_isr_bundle, 0, &name[0], bank); if (ret) { dev_err(&GET_DEV(accel_dev), "Failed to allocate IRQ %d for %s\n", irq, name); goto err; } cpu = ((accel_dev->accel_id * hw_data->num_banks) + i) % cpus; irq_set_affinity_hint(irq, get_cpu_mask(cpu)); irqs[i].enabled = true; } } /* Request msix irq for AE */ name = irqs[i].name; snprintf(name, ADF_MAX_MSIX_VECTOR_NAME, "qat%d-ae-cluster", accel_dev->accel_id); irq = pci_irq_vector(pci_dev_info->pci_dev, clust_irq); if (unlikely(irq < 0)) { dev_err(&GET_DEV(accel_dev), "Failed to get IRQ number of device vector %d - %s\n", i, name); ret = irq; goto err; } ret = request_irq(irq, adf_msix_isr_ae, 0, &name[0], accel_dev); if (ret) { dev_err(&GET_DEV(accel_dev), "Failed to allocate IRQ %d for %s\n", irq, name); goto err; } irqs[i].enabled = true; return ret; err: adf_free_irqs(accel_dev); return ret; } static int adf_isr_alloc_msix_vectors_data(struct adf_accel_dev *accel_dev) { struct adf_hw_device_data *hw_data = accel_dev->hw_device; u32 msix_num_entries = 1; struct adf_irq *irqs; /* If SR-IOV is disabled (vf_info is NULL), add entries for each bank */ if (!accel_dev->pf.vf_info) msix_num_entries += hw_data->num_banks; irqs = kzalloc_node(msix_num_entries * sizeof(*irqs), GFP_KERNEL, dev_to_node(&GET_DEV(accel_dev))); if (!irqs) return -ENOMEM; accel_dev->accel_pci_dev.msix_entries.num_entries = msix_num_entries; accel_dev->accel_pci_dev.msix_entries.irqs = irqs; return 0; } static void adf_isr_free_msix_vectors_data(struct adf_accel_dev *accel_dev) { kfree(accel_dev->accel_pci_dev.msix_entries.irqs); accel_dev->accel_pci_dev.msix_entries.irqs = NULL; } static int adf_setup_bh(struct adf_accel_dev *accel_dev) { struct adf_etr_data *priv_data = accel_dev->transport; struct adf_hw_device_data *hw_data = accel_dev->hw_device; int i; for (i = 0; i < hw_data->num_banks; i++) tasklet_init(&priv_data->banks[i].resp_handler, adf_response_handler, (unsigned long)&priv_data->banks[i]); return 0; } static void adf_cleanup_bh(struct adf_accel_dev *accel_dev) { struct adf_etr_data *priv_data = accel_dev->transport; struct adf_hw_device_data *hw_data = accel_dev->hw_device; int i; for (i = 0; i < hw_data->num_banks; i++) { tasklet_disable(&priv_data->banks[i].resp_handler); tasklet_kill(&priv_data->banks[i].resp_handler); } } /** * adf_isr_resource_free() - Free IRQ for acceleration device * @accel_dev: Pointer to acceleration device. * * Function frees interrupts for acceleration device. */ void adf_isr_resource_free(struct adf_accel_dev *accel_dev) { adf_free_irqs(accel_dev); adf_cleanup_bh(accel_dev); adf_disable_msix(&accel_dev->accel_pci_dev); adf_isr_free_msix_vectors_data(accel_dev); } EXPORT_SYMBOL_GPL(adf_isr_resource_free); /** * adf_isr_resource_alloc() - Allocate IRQ for acceleration device * @accel_dev: Pointer to acceleration device. * * Function allocates interrupts for acceleration device. * * Return: 0 on success, error code otherwise. */ int adf_isr_resource_alloc(struct adf_accel_dev *accel_dev) { int ret; ret = adf_isr_alloc_msix_vectors_data(accel_dev); if (ret) goto err_out; ret = adf_enable_msix(accel_dev); if (ret) goto err_free_msix_table; ret = adf_setup_bh(accel_dev); if (ret) goto err_disable_msix; ret = adf_request_irqs(accel_dev); if (ret) goto err_cleanup_bh; return 0; err_cleanup_bh: adf_cleanup_bh(accel_dev); err_disable_msix: adf_disable_msix(&accel_dev->accel_pci_dev); err_free_msix_table: adf_isr_free_msix_vectors_data(accel_dev); err_out: return ret; } EXPORT_SYMBOL_GPL(adf_isr_resource_alloc); /** * adf_init_misc_wq() - Init misc workqueue * * Function init workqueue 'qat_misc_wq' for general purpose. * * Return: 0 on success, error code otherwise. */ int __init adf_init_misc_wq(void) { adf_misc_wq = alloc_workqueue("qat_misc_wq", WQ_MEM_RECLAIM, 0); return !adf_misc_wq ? -ENOMEM : 0; } void adf_exit_misc_wq(void) { if (adf_misc_wq) destroy_workqueue(adf_misc_wq); adf_misc_wq = NULL; } bool adf_misc_wq_queue_work(struct work_struct *work) { return queue_work(adf_misc_wq, work); }
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