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linux-loongson/drivers/net/ethernet/intel/idpf/idpf_idc.c
Joshua Hay 6aa53e861c idpf: implement get LAN MMIO memory regions 
The RDMA driver needs to map its own MMIO regions for the sake of
performance, meaning the IDPF needs to avoid mapping portions of the BAR
space. However, to be HW agnostic, the IDPF cannot assume where
these are and must avoid mapping hard coded regions as much as possible.

The IDPF maps the bare minimum to load and communicate with the
control plane, i.e., the mailbox registers and the reset state
registers. Because of how and when mailbox register offsets are
initialized, it is easier to adjust the existing defines to be relative
to the mailbox region starting address. Use a specific mailbox register
write function that uses these relative offsets. The reset state
register addresses are calculated the same way as for other registers,
described below.

The IDPF then calls a new virtchnl op to fetch a list of MMIO regions
that it should map. The addresses for the registers in these regions are
calculated by determining what region the register resides in, adjusting
the offset to be relative to that region, and then adding the
register's offset to that region's mapped address.

If the new virtchnl op is not supported, the IDPF will fallback to
mapping the whole bar. However, it will still map them as separate
regions outside the mailbox and reset state registers. This way we can
use the same logic in both cases to access the MMIO space.

Reviewed-by: Madhu Chittim <madhu.chittim@intel.com>
Signed-off-by: Joshua Hay <joshua.a.hay@intel.com>
Signed-off-by: Tatyana Nikolova <tatyana.e.nikolova@intel.com>
Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
2025-07-14 10:57:51 -07:00

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// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (C) 2025 Intel Corporation */
#include <linux/export.h>
#include "idpf.h"
#include "idpf_virtchnl.h"
static DEFINE_IDA(idpf_idc_ida);
#define IDPF_IDC_MAX_ADEV_NAME_LEN 15
/**
* idpf_idc_init - Called to initialize IDC
* @adapter: driver private data structure
*
* Return: 0 on success or cap not enabled, error code on failure.
*/
int idpf_idc_init(struct idpf_adapter *adapter)
{
int err;
if (!idpf_is_rdma_cap_ena(adapter) ||
!adapter->dev_ops.idc_init)
return 0;
err = adapter->dev_ops.idc_init(adapter);
if (err)
dev_err(&adapter->pdev->dev, "failed to initialize idc: %d\n",
err);
return err;
}
/**
* idpf_vport_adev_release - function to be mapped to aux dev's release op
* @dev: pointer to device to free
*/
static void idpf_vport_adev_release(struct device *dev)
{
struct iidc_rdma_vport_auxiliary_dev *iadev;
iadev = container_of(dev, struct iidc_rdma_vport_auxiliary_dev, adev.dev);
kfree(iadev);
iadev = NULL;
}
/**
* idpf_plug_vport_aux_dev - allocate and register a vport Auxiliary device
* @cdev_info: IDC core device info pointer
* @vdev_info: IDC vport device info pointer
*
* Return: 0 on success or error code on failure.
*/
static int idpf_plug_vport_aux_dev(struct iidc_rdma_core_dev_info *cdev_info,
struct iidc_rdma_vport_dev_info *vdev_info)
{
struct iidc_rdma_vport_auxiliary_dev *iadev;
char name[IDPF_IDC_MAX_ADEV_NAME_LEN];
struct auxiliary_device *adev;
int ret;
iadev = kzalloc(sizeof(*iadev), GFP_KERNEL);
if (!iadev)
return -ENOMEM;
adev = &iadev->adev;
vdev_info->adev = &iadev->adev;
iadev->vdev_info = vdev_info;
ret = ida_alloc(&idpf_idc_ida, GFP_KERNEL);
if (ret < 0) {
pr_err("failed to allocate unique device ID for Auxiliary driver\n");
goto err_ida_alloc;
}
adev->id = ret;
adev->dev.release = idpf_vport_adev_release;
adev->dev.parent = &cdev_info->pdev->dev;
sprintf(name, "%04x.rdma.vdev", cdev_info->pdev->vendor);
adev->name = name;
ret = auxiliary_device_init(adev);
if (ret)
goto err_aux_dev_init;
ret = auxiliary_device_add(adev);
if (ret)
goto err_aux_dev_add;
return 0;
err_aux_dev_add:
auxiliary_device_uninit(adev);
err_aux_dev_init:
ida_free(&idpf_idc_ida, adev->id);
err_ida_alloc:
vdev_info->adev = NULL;
kfree(iadev);
return ret;
}
/**
* idpf_idc_init_aux_vport_dev - initialize vport Auxiliary Device(s)
* @vport: virtual port data struct
*
* Return: 0 on success or error code on failure.
*/
static int idpf_idc_init_aux_vport_dev(struct idpf_vport *vport)
{
struct idpf_adapter *adapter = vport->adapter;
struct iidc_rdma_vport_dev_info *vdev_info;
struct iidc_rdma_core_dev_info *cdev_info;
struct virtchnl2_create_vport *vport_msg;
int err;
vport_msg = (struct virtchnl2_create_vport *)
adapter->vport_params_recvd[vport->idx];
if (!(le16_to_cpu(vport_msg->vport_flags) & VIRTCHNL2_VPORT_ENABLE_RDMA))
return 0;
vport->vdev_info = kzalloc(sizeof(*vdev_info), GFP_KERNEL);
if (!vport->vdev_info)
return -ENOMEM;
cdev_info = vport->adapter->cdev_info;
vdev_info = vport->vdev_info;
vdev_info->vport_id = vport->vport_id;
vdev_info->netdev = vport->netdev;
vdev_info->core_adev = cdev_info->adev;
err = idpf_plug_vport_aux_dev(cdev_info, vdev_info);
if (err) {
vport->vdev_info = NULL;
kfree(vdev_info);
return err;
}
return 0;
}
/**
* idpf_idc_vdev_mtu_event - Function to handle IDC vport mtu change events
* @vdev_info: IDC vport device info pointer
* @event_type: type of event to pass to handler
*/
void idpf_idc_vdev_mtu_event(struct iidc_rdma_vport_dev_info *vdev_info,
enum iidc_rdma_event_type event_type)
{
struct iidc_rdma_vport_auxiliary_drv *iadrv;
struct iidc_rdma_event event = { };
struct auxiliary_device *adev;
if (!vdev_info)
/* RDMA is not enabled */
return;
set_bit(event_type, event.type);
device_lock(&vdev_info->adev->dev);
adev = vdev_info->adev;
if (!adev || !adev->dev.driver)
goto unlock;
iadrv = container_of(adev->dev.driver,
struct iidc_rdma_vport_auxiliary_drv,
adrv.driver);
if (iadrv->event_handler)
iadrv->event_handler(vdev_info, &event);
unlock:
device_unlock(&vdev_info->adev->dev);
}
/**
* idpf_core_adev_release - function to be mapped to aux dev's release op
* @dev: pointer to device to free
*/
static void idpf_core_adev_release(struct device *dev)
{
struct iidc_rdma_core_auxiliary_dev *iadev;
iadev = container_of(dev, struct iidc_rdma_core_auxiliary_dev, adev.dev);
kfree(iadev);
iadev = NULL;
}
/**
* idpf_plug_core_aux_dev - allocate and register an Auxiliary device
* @cdev_info: IDC core device info pointer
*
* Return: 0 on success or error code on failure.
*/
static int idpf_plug_core_aux_dev(struct iidc_rdma_core_dev_info *cdev_info)
{
struct iidc_rdma_core_auxiliary_dev *iadev;
char name[IDPF_IDC_MAX_ADEV_NAME_LEN];
struct auxiliary_device *adev;
int ret;
iadev = kzalloc(sizeof(*iadev), GFP_KERNEL);
if (!iadev)
return -ENOMEM;
adev = &iadev->adev;
cdev_info->adev = adev;
iadev->cdev_info = cdev_info;
ret = ida_alloc(&idpf_idc_ida, GFP_KERNEL);
if (ret < 0) {
pr_err("failed to allocate unique device ID for Auxiliary driver\n");
goto err_ida_alloc;
}
adev->id = ret;
adev->dev.release = idpf_core_adev_release;
adev->dev.parent = &cdev_info->pdev->dev;
sprintf(name, "%04x.rdma.core", cdev_info->pdev->vendor);
adev->name = name;
ret = auxiliary_device_init(adev);
if (ret)
goto err_aux_dev_init;
ret = auxiliary_device_add(adev);
if (ret)
goto err_aux_dev_add;
return 0;
err_aux_dev_add:
auxiliary_device_uninit(adev);
err_aux_dev_init:
ida_free(&idpf_idc_ida, adev->id);
err_ida_alloc:
cdev_info->adev = NULL;
kfree(iadev);
return ret;
}
/**
* idpf_unplug_aux_dev - unregister and free an Auxiliary device
* @adev: auxiliary device struct
*/
static void idpf_unplug_aux_dev(struct auxiliary_device *adev)
{
if (!adev)
return;
auxiliary_device_delete(adev);
auxiliary_device_uninit(adev);
ida_free(&idpf_idc_ida, adev->id);
}
/**
* idpf_idc_issue_reset_event - Function to handle reset IDC event
* @cdev_info: IDC core device info pointer
*/
void idpf_idc_issue_reset_event(struct iidc_rdma_core_dev_info *cdev_info)
{
enum iidc_rdma_event_type event_type = IIDC_RDMA_EVENT_WARN_RESET;
struct iidc_rdma_core_auxiliary_drv *iadrv;
struct iidc_rdma_event event = { };
struct auxiliary_device *adev;
if (!cdev_info)
/* RDMA is not enabled */
return;
set_bit(event_type, event.type);
device_lock(&cdev_info->adev->dev);
adev = cdev_info->adev;
if (!adev || !adev->dev.driver)
goto unlock;
iadrv = container_of(adev->dev.driver,
struct iidc_rdma_core_auxiliary_drv,
adrv.driver);
if (iadrv->event_handler)
iadrv->event_handler(cdev_info, &event);
unlock:
device_unlock(&cdev_info->adev->dev);
}
/**
* idpf_idc_vport_dev_up - called when CORE is ready for vport aux devs
* @adapter: private data struct
*
* Return: 0 on success or error code on failure.
*/
static int idpf_idc_vport_dev_up(struct idpf_adapter *adapter)
{
int i, err = 0;
for (i = 0; i < adapter->num_alloc_vports; i++) {
struct idpf_vport *vport = adapter->vports[i];
if (!vport)
continue;
if (!vport->vdev_info)
err = idpf_idc_init_aux_vport_dev(vport);
else
err = idpf_plug_vport_aux_dev(vport->adapter->cdev_info,
vport->vdev_info);
}
return err;
}
/**
* idpf_idc_vport_dev_down - called CORE is leaving vport aux dev support state
* @adapter: private data struct
*/
static void idpf_idc_vport_dev_down(struct idpf_adapter *adapter)
{
int i;
for (i = 0; i < adapter->num_alloc_vports; i++) {
struct idpf_vport *vport = adapter->vports[i];
if (!vport)
continue;
idpf_unplug_aux_dev(vport->vdev_info->adev);
vport->vdev_info->adev = NULL;
}
}
/**
* idpf_idc_vport_dev_ctrl - Called by an Auxiliary Driver
* @cdev_info: IDC core device info pointer
* @up: RDMA core driver status
*
* This callback function is accessed by an Auxiliary Driver to indicate
* whether core driver is ready to support vport driver load or if vport
* drivers need to be taken down.
*
* Return: 0 on success or error code on failure.
*/
int idpf_idc_vport_dev_ctrl(struct iidc_rdma_core_dev_info *cdev_info, bool up)
{
struct idpf_adapter *adapter = pci_get_drvdata(cdev_info->pdev);
if (up)
return idpf_idc_vport_dev_up(adapter);
idpf_idc_vport_dev_down(adapter);
return 0;
}
EXPORT_SYMBOL_GPL(idpf_idc_vport_dev_ctrl);
/**
* idpf_idc_request_reset - Called by an Auxiliary Driver
* @cdev_info: IDC core device info pointer
* @reset_type: function, core or other
*
* This callback function is accessed by an Auxiliary Driver to request a reset
* on the Auxiliary Device.
*
* Return: 0 on success or error code on failure.
*/
int idpf_idc_request_reset(struct iidc_rdma_core_dev_info *cdev_info,
enum iidc_rdma_reset_type __always_unused reset_type)
{
struct idpf_adapter *adapter = pci_get_drvdata(cdev_info->pdev);
if (!idpf_is_reset_in_prog(adapter)) {
set_bit(IDPF_HR_FUNC_RESET, adapter->flags);
queue_delayed_work(adapter->vc_event_wq,
&adapter->vc_event_task,
msecs_to_jiffies(10));
}
return 0;
}
EXPORT_SYMBOL_GPL(idpf_idc_request_reset);
/**
* idpf_idc_init_msix_data - initialize MSIX data for the cdev_info structure
* @adapter: driver private data structure
*/
static void
idpf_idc_init_msix_data(struct idpf_adapter *adapter)
{
struct iidc_rdma_core_dev_info *cdev_info;
struct iidc_rdma_priv_dev_info *privd;
if (!adapter->rdma_msix_entries)
return;
cdev_info = adapter->cdev_info;
privd = cdev_info->iidc_priv;
privd->msix_entries = adapter->rdma_msix_entries;
privd->msix_count = adapter->num_rdma_msix_entries;
}
/**
* idpf_idc_init_aux_core_dev - initialize Auxiliary Device(s)
* @adapter: driver private data structure
* @ftype: PF or VF
*
* Return: 0 on success or error code on failure.
*/
int idpf_idc_init_aux_core_dev(struct idpf_adapter *adapter,
enum iidc_function_type ftype)
{
struct iidc_rdma_core_dev_info *cdev_info;
struct iidc_rdma_priv_dev_info *privd;
int err, i;
adapter->cdev_info = kzalloc(sizeof(*cdev_info), GFP_KERNEL);
if (!adapter->cdev_info)
return -ENOMEM;
cdev_info = adapter->cdev_info;
privd = kzalloc(sizeof(*privd), GFP_KERNEL);
if (!privd) {
err = -ENOMEM;
goto err_privd_alloc;
}
cdev_info->iidc_priv = privd;
cdev_info->pdev = adapter->pdev;
cdev_info->rdma_protocol = IIDC_RDMA_PROTOCOL_ROCEV2;
privd->ftype = ftype;
privd->mapped_mem_regions =
kcalloc(adapter->hw.num_lan_regs,
sizeof(struct iidc_rdma_lan_mapped_mem_region),
GFP_KERNEL);
if (!privd->mapped_mem_regions) {
err = -ENOMEM;
goto err_plug_aux_dev;
}
privd->num_memory_regions = cpu_to_le16(adapter->hw.num_lan_regs);
for (i = 0; i < adapter->hw.num_lan_regs; i++) {
privd->mapped_mem_regions[i].region_addr =
adapter->hw.lan_regs[i].vaddr;
privd->mapped_mem_regions[i].size =
cpu_to_le64(adapter->hw.lan_regs[i].addr_len);
privd->mapped_mem_regions[i].start_offset =
cpu_to_le64(adapter->hw.lan_regs[i].addr_start);
}
idpf_idc_init_msix_data(adapter);
err = idpf_plug_core_aux_dev(cdev_info);
if (err)
goto err_free_mem_regions;
return 0;
err_free_mem_regions:
kfree(privd->mapped_mem_regions);
privd->mapped_mem_regions = NULL;
err_plug_aux_dev:
kfree(privd);
err_privd_alloc:
kfree(cdev_info);
adapter->cdev_info = NULL;
return err;
}
/**
* idpf_idc_deinit_core_aux_device - de-initialize Auxiliary Device(s)
* @cdev_info: IDC core device info pointer
*/
void idpf_idc_deinit_core_aux_device(struct iidc_rdma_core_dev_info *cdev_info)
{
struct iidc_rdma_priv_dev_info *privd;
if (!cdev_info)
return;
idpf_unplug_aux_dev(cdev_info->adev);
privd = cdev_info->iidc_priv;
kfree(privd->mapped_mem_regions);
kfree(privd);
kfree(cdev_info);
}
/**
* idpf_idc_deinit_vport_aux_device - de-initialize Auxiliary Device(s)
* @vdev_info: IDC vport device info pointer
*/
void idpf_idc_deinit_vport_aux_device(struct iidc_rdma_vport_dev_info *vdev_info)
{
if (!vdev_info)
return;
idpf_unplug_aux_dev(vdev_info->adev);
kfree(vdev_info);
}
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