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/*
* Huawei HiNIC PCI Express Linux driver
* Copyright(c) 2017 Huawei Technologies Co., Ltd
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
*/
#include <linux/pci.h>
#include <linux/device.h>
#include <linux/errno.h>
#include <linux/io.h>
#include <linux/types.h>
#include <linux/bitops.h>
#include "hinic_hw_csr.h"
#include "hinic_hw_if.h"
#define PCIE_ATTR_ENTRY 0
#define VALID_MSIX_IDX(attr, msix_index) ((msix_index) < (attr)->num_irqs)
/**
* hinic_msix_attr_set - set message attribute for msix entry
* @hwif: the HW interface of a pci function device
* @msix_index: msix_index
* @pending_limit: the maximum pending interrupt events (unit 8)
* @coalesc_timer: coalesc period for interrupt (unit 8 us)
* @lli_timer: replenishing period for low latency credit (unit 8 us)
* @lli_credit_limit: maximum credits for low latency msix messages (unit 8)
* @resend_timer: maximum wait for resending msix (unit coalesc period)
*
* Return 0 - Success, negative - Failure
**/
int hinic_msix_attr_set(struct hinic_hwif *hwif, u16 msix_index,
u8 pending_limit, u8 coalesc_timer,
u8 lli_timer, u8 lli_credit_limit,
u8 resend_timer)
{
u32 msix_ctrl, addr;
if (!VALID_MSIX_IDX(&hwif->attr, msix_index))
return -EINVAL;
msix_ctrl = HINIC_MSIX_ATTR_SET(pending_limit, PENDING_LIMIT) |
HINIC_MSIX_ATTR_SET(coalesc_timer, COALESC_TIMER) |
HINIC_MSIX_ATTR_SET(lli_timer, LLI_TIMER) |
HINIC_MSIX_ATTR_SET(lli_credit_limit, LLI_CREDIT) |
HINIC_MSIX_ATTR_SET(resend_timer, RESEND_TIMER);
addr = HINIC_CSR_MSIX_CTRL_ADDR(msix_index);
hinic_hwif_write_reg(hwif, addr, msix_ctrl);
return 0;
}
/**
* hinic_msix_attr_get - get message attribute of msix entry
* @hwif: the HW interface of a pci function device
* @msix_index: msix_index
* @pending_limit: the maximum pending interrupt events (unit 8)
* @coalesc_timer: coalesc period for interrupt (unit 8 us)
* @lli_timer: replenishing period for low latency credit (unit 8 us)
* @lli_credit_limit: maximum credits for low latency msix messages (unit 8)
* @resend_timer: maximum wait for resending msix (unit coalesc period)
*
* Return 0 - Success, negative - Failure
**/
int hinic_msix_attr_get(struct hinic_hwif *hwif, u16 msix_index,
u8 *pending_limit, u8 *coalesc_timer,
u8 *lli_timer, u8 *lli_credit_limit,
u8 *resend_timer)
{
u32 addr, val;
if (!VALID_MSIX_IDX(&hwif->attr, msix_index))
return -EINVAL;
addr = HINIC_CSR_MSIX_CTRL_ADDR(msix_index);
val = hinic_hwif_read_reg(hwif, addr);
*pending_limit = HINIC_MSIX_ATTR_GET(val, PENDING_LIMIT);
*coalesc_timer = HINIC_MSIX_ATTR_GET(val, COALESC_TIMER);
*lli_timer = HINIC_MSIX_ATTR_GET(val, LLI_TIMER);
*lli_credit_limit = HINIC_MSIX_ATTR_GET(val, LLI_CREDIT);
*resend_timer = HINIC_MSIX_ATTR_GET(val, RESEND_TIMER);
return 0;
}
/**
* hinic_msix_attr_cnt_clear - clear message attribute counters for msix entry
* @hwif: the HW interface of a pci function device
* @msix_index: msix_index
*
* Return 0 - Success, negative - Failure
**/
int hinic_msix_attr_cnt_clear(struct hinic_hwif *hwif, u16 msix_index)
{
u32 msix_ctrl, addr;
if (!VALID_MSIX_IDX(&hwif->attr, msix_index))
return -EINVAL;
msix_ctrl = HINIC_MSIX_CNT_SET(1, RESEND_TIMER);
addr = HINIC_CSR_MSIX_CNT_ADDR(msix_index);
hinic_hwif_write_reg(hwif, addr, msix_ctrl);
return 0;
}
/**
* hinic_set_pf_action - set action on pf channel
* @hwif: the HW interface of a pci function device
* @action: action on pf channel
*
* Return 0 - Success, negative - Failure
**/
void hinic_set_pf_action(struct hinic_hwif *hwif, enum hinic_pf_action action)
{
u32 attr5 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR5_ADDR);
attr5 = HINIC_FA5_CLEAR(attr5, PF_ACTION);
attr5 |= HINIC_FA5_SET(action, PF_ACTION);
hinic_hwif_write_reg(hwif, HINIC_CSR_FUNC_ATTR5_ADDR, attr5);
}
enum hinic_outbound_state hinic_outbound_state_get(struct hinic_hwif *hwif)
{
u32 attr4 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR);
return HINIC_FA4_GET(attr4, OUTBOUND_STATE);
}
void hinic_outbound_state_set(struct hinic_hwif *hwif,
enum hinic_outbound_state outbound_state)
{
u32 attr4 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR);
attr4 = HINIC_FA4_CLEAR(attr4, OUTBOUND_STATE);
attr4 |= HINIC_FA4_SET(outbound_state, OUTBOUND_STATE);
hinic_hwif_write_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR, attr4);
}
enum hinic_db_state hinic_db_state_get(struct hinic_hwif *hwif)
{
u32 attr4 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR);
return HINIC_FA4_GET(attr4, DB_STATE);
}
void hinic_db_state_set(struct hinic_hwif *hwif,
enum hinic_db_state db_state)
{
u32 attr4 = hinic_hwif_read_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR);
attr4 = HINIC_FA4_CLEAR(attr4, DB_STATE);
attr4 |= HINIC_FA4_SET(db_state, DB_STATE);
hinic_hwif_write_reg(hwif, HINIC_CSR_FUNC_ATTR4_ADDR, attr4);
}
/**
* hwif_ready - test if the HW is ready for use
* @hwif: the HW interface of a pci function device
*
* Return 0 - Success, negative - Failure
**/
static int hwif_ready(struct hinic_hwif *hwif)
{
struct pci_dev *pdev = hwif->pdev;
u32 addr, attr1;
addr = HINIC_CSR_FUNC_ATTR1_ADDR;
attr1 = hinic_hwif_read_reg(hwif, addr);
if (!HINIC_FA1_GET(attr1, INIT_STATUS)) {
dev_err(&pdev->dev, "hwif status is not ready\n");
return -EFAULT;
}
return 0;
}
/**
* set_hwif_attr - set the attributes in the relevant members in hwif
* @hwif: the HW interface of a pci function device
* @attr0: the first attribute that was read from the hw
* @attr1: the second attribute that was read from the hw
**/
static void set_hwif_attr(struct hinic_hwif *hwif, u32 attr0, u32 attr1)
{
hwif->attr.func_idx = HINIC_FA0_GET(attr0, FUNC_IDX);
hwif->attr.pf_idx = HINIC_FA0_GET(attr0, PF_IDX);
hwif->attr.pci_intf_idx = HINIC_FA0_GET(attr0, PCI_INTF_IDX);
hwif->attr.func_type = HINIC_FA0_GET(attr0, FUNC_TYPE);
hwif->attr.num_aeqs = BIT(HINIC_FA1_GET(attr1, AEQS_PER_FUNC));
hwif->attr.num_ceqs = BIT(HINIC_FA1_GET(attr1, CEQS_PER_FUNC));
hwif->attr.num_irqs = BIT(HINIC_FA1_GET(attr1, IRQS_PER_FUNC));
hwif->attr.num_dma_attr = BIT(HINIC_FA1_GET(attr1, DMA_ATTR_PER_FUNC));
}
/**
* read_hwif_attr - read the attributes and set members in hwif
* @hwif: the HW interface of a pci function device
**/
static void read_hwif_attr(struct hinic_hwif *hwif)
{
u32 addr, attr0, attr1;
addr = HINIC_CSR_FUNC_ATTR0_ADDR;
attr0 = hinic_hwif_read_reg(hwif, addr);
addr = HINIC_CSR_FUNC_ATTR1_ADDR;
attr1 = hinic_hwif_read_reg(hwif, addr);
set_hwif_attr(hwif, attr0, attr1);
}
/**
* set_ppf - try to set hwif as ppf and set the type of hwif in this case
* @hwif: the HW interface of a pci function device
**/
static void set_ppf(struct hinic_hwif *hwif)
{
struct hinic_func_attr *attr = &hwif->attr;
u32 addr, val, ppf_election;
/* Read Modify Write */
addr = HINIC_CSR_PPF_ELECTION_ADDR(HINIC_HWIF_PCI_INTF(hwif));
val = hinic_hwif_read_reg(hwif, addr);
val = HINIC_PPF_ELECTION_CLEAR(val, IDX);
ppf_election = HINIC_PPF_ELECTION_SET(HINIC_HWIF_FUNC_IDX(hwif), IDX);
val |= ppf_election;
hinic_hwif_write_reg(hwif, addr, val);
/* check PPF */
val = hinic_hwif_read_reg(hwif, addr);
attr->ppf_idx = HINIC_PPF_ELECTION_GET(val, IDX);
if (attr->ppf_idx == HINIC_HWIF_FUNC_IDX(hwif))
attr->func_type = HINIC_PPF;
}
/**
* set_dma_attr - set the dma attributes in the HW
* @hwif: the HW interface of a pci function device
* @entry_idx: the entry index in the dma table
* @st: PCIE TLP steering tag
* @at: PCIE TLP AT field
* @ph: PCIE TLP Processing Hint field
* @no_snooping: PCIE TLP No snooping
* @tph_en: PCIE TLP Processing Hint Enable
**/
static void set_dma_attr(struct hinic_hwif *hwif, u32 entry_idx,
u8 st, u8 at, u8 ph,
enum hinic_pcie_nosnoop no_snooping,
enum hinic_pcie_tph tph_en)
{
u32 addr, val, dma_attr_entry;
/* Read Modify Write */
addr = HINIC_CSR_DMA_ATTR_ADDR(entry_idx);
val = hinic_hwif_read_reg(hwif, addr);
val = HINIC_DMA_ATTR_CLEAR(val, ST) &
HINIC_DMA_ATTR_CLEAR(val, AT) &
HINIC_DMA_ATTR_CLEAR(val, PH) &
HINIC_DMA_ATTR_CLEAR(val, NO_SNOOPING) &
HINIC_DMA_ATTR_CLEAR(val, TPH_EN);
dma_attr_entry = HINIC_DMA_ATTR_SET(st, ST) |
HINIC_DMA_ATTR_SET(at, AT) |
HINIC_DMA_ATTR_SET(ph, PH) |
HINIC_DMA_ATTR_SET(no_snooping, NO_SNOOPING) |
HINIC_DMA_ATTR_SET(tph_en, TPH_EN);
val |= dma_attr_entry;
hinic_hwif_write_reg(hwif, addr, val);
}
/**
* dma_attr_table_init - initialize the the default dma attributes
* @hwif: the HW interface of a pci function device
**/
static void dma_attr_init(struct hinic_hwif *hwif)
{
set_dma_attr(hwif, PCIE_ATTR_ENTRY, HINIC_PCIE_ST_DISABLE,
HINIC_PCIE_AT_DISABLE, HINIC_PCIE_PH_DISABLE,
HINIC_PCIE_SNOOP, HINIC_PCIE_TPH_DISABLE);
}
/**
* hinic_init_hwif - initialize the hw interface
* @hwif: the HW interface of a pci function device
* @pdev: the pci device for acessing PCI resources
*
* Return 0 - Success, negative - Failure
**/
int hinic_init_hwif(struct hinic_hwif *hwif, struct pci_dev *pdev)
{
int err;
hwif->pdev = pdev;
hwif->cfg_regs_bar = pci_ioremap_bar(pdev, HINIC_PCI_CFG_REGS_BAR);
if (!hwif->cfg_regs_bar) {
dev_err(&pdev->dev, "Failed to map configuration regs\n");
return -ENOMEM;
}
err = hwif_ready(hwif);
if (err) {
dev_err(&pdev->dev, "HW interface is not ready\n");
goto err_hwif_ready;
}
read_hwif_attr(hwif);
if (HINIC_IS_PF(hwif))
set_ppf(hwif);
/* No transactionss before DMA is initialized */
dma_attr_init(hwif);
return 0;
err_hwif_ready:
iounmap(hwif->cfg_regs_bar);
return err;
}
/**
* hinic_free_hwif - free the HW interface
* @hwif: the HW interface of a pci function device
**/
void hinic_free_hwif(struct hinic_hwif *hwif)
{
iounmap(hwif->cfg_regs_bar);
}
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