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linux/drivers/net/ethernet/hisilicon/hns/hns_dsaf_misc.c
Thomas Gleixner 2874c5fd28 treewide: Replace GPLv2 boilerplate/reference with SPDX - rule 152 
Based on 1 normalized pattern(s):

  this program is free software you can redistribute it and or modify
  it under the terms of the gnu general public license as published by
  the free software foundation either version 2 of the license or at
  your option any later version

extracted by the scancode license scanner the SPDX license identifier

  GPL-2.0-or-later

has been chosen to replace the boilerplate/reference in 3029 file(s).

Signed-off-by: Thomas Gleixner <tglx@linutronix.de>
Reviewed-by: Allison Randal <allison@lohutok.net>
Cc: linux-spdx@vger.kernel.org
Link: https://lkml.kernel.org/r/20190527070032.746973796@linutronix.de
Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
2019-05-30 11:26:32 -07:00

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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (c) 2014-2015 Hisilicon Limited.
*/
#include "hns_dsaf_mac.h"
#include "hns_dsaf_misc.h"
#include "hns_dsaf_ppe.h"
#include "hns_dsaf_reg.h"
enum _dsm_op_index {
HNS_OP_RESET_FUNC = 0x1,
HNS_OP_SERDES_LP_FUNC = 0x2,
HNS_OP_LED_SET_FUNC = 0x3,
HNS_OP_GET_PORT_TYPE_FUNC = 0x4,
HNS_OP_GET_SFP_STAT_FUNC = 0x5,
HNS_OP_LOCATE_LED_SET_FUNC = 0x6,
};
enum _dsm_rst_type {
HNS_DSAF_RESET_FUNC = 0x1,
HNS_PPE_RESET_FUNC = 0x2,
HNS_XGE_RESET_FUNC = 0x4,
HNS_GE_RESET_FUNC = 0x5,
HNS_DSAF_CHN_RESET_FUNC = 0x6,
HNS_ROCE_RESET_FUNC = 0x7,
};
static const guid_t hns_dsaf_acpi_dsm_guid =
GUID_INIT(0x1A85AA1A, 0xE293, 0x415E,
0x8E, 0x28, 0x8D, 0x69, 0x0A, 0x0F, 0x82, 0x0A);
static void dsaf_write_sub(struct dsaf_device *dsaf_dev, u32 reg, u32 val)
{
if (dsaf_dev->sub_ctrl)
dsaf_write_syscon(dsaf_dev->sub_ctrl, reg, val);
else
dsaf_write_reg(dsaf_dev->sc_base, reg, val);
}
static u32 dsaf_read_sub(struct dsaf_device *dsaf_dev, u32 reg)
{
u32 ret = 0;
int err;
if (dsaf_dev->sub_ctrl) {
err = dsaf_read_syscon(dsaf_dev->sub_ctrl, reg, &ret);
if (err)
dev_err(dsaf_dev->dev, "dsaf_read_syscon error %d!\n",
err);
} else {
ret = dsaf_read_reg(dsaf_dev->sc_base, reg);
}
return ret;
}
static void hns_dsaf_acpi_ledctrl_by_port(struct hns_mac_cb *mac_cb, u8 op_type,
u32 link, u32 port, u32 act)
{
union acpi_object *obj;
union acpi_object obj_args[3], argv4;
obj_args[0].integer.type = ACPI_TYPE_INTEGER;
obj_args[0].integer.value = link;
obj_args[1].integer.type = ACPI_TYPE_INTEGER;
obj_args[1].integer.value = port;
obj_args[2].integer.type = ACPI_TYPE_INTEGER;
obj_args[2].integer.value = act;
argv4.type = ACPI_TYPE_PACKAGE;
argv4.package.count = 3;
argv4.package.elements = obj_args;
obj = acpi_evaluate_dsm(ACPI_HANDLE(mac_cb->dev),
&hns_dsaf_acpi_dsm_guid, 0, op_type, &argv4);
if (!obj) {
dev_warn(mac_cb->dev, "ledctrl fail, link:%d port:%d act:%d!\n",
link, port, act);
return;
}
ACPI_FREE(obj);
}
static void hns_dsaf_acpi_locate_ledctrl_by_port(struct hns_mac_cb *mac_cb,
u8 op_type, u32 locate,
u32 port)
{
union acpi_object obj_args[2], argv4;
union acpi_object *obj;
obj_args[0].integer.type = ACPI_TYPE_INTEGER;
obj_args[0].integer.value = locate;
obj_args[1].integer.type = ACPI_TYPE_INTEGER;
obj_args[1].integer.value = port;
argv4.type = ACPI_TYPE_PACKAGE;
argv4.package.count = 2;
argv4.package.elements = obj_args;
obj = acpi_evaluate_dsm(ACPI_HANDLE(mac_cb->dev),
&hns_dsaf_acpi_dsm_guid, 0, op_type, &argv4);
if (!obj) {
dev_err(mac_cb->dev, "ledctrl fail, locate:%d port:%d!\n",
locate, port);
return;
}
ACPI_FREE(obj);
}
static void hns_cpld_set_led(struct hns_mac_cb *mac_cb, int link_status,
u16 speed, int data)
{
int speed_reg = 0;
u8 value;
if (!mac_cb) {
pr_err("sfp_led_opt mac_dev is null!\n");
return;
}
if (!mac_cb->cpld_ctrl) {
dev_err(mac_cb->dev, "mac_id=%d, cpld syscon is null !\n",
mac_cb->mac_id);
return;
}
if (speed == MAC_SPEED_10000)
speed_reg = 1;
value = mac_cb->cpld_led_value;
if (link_status) {
dsaf_set_bit(value, DSAF_LED_LINK_B, link_status);
dsaf_set_field(value, DSAF_LED_SPEED_M,
DSAF_LED_SPEED_S, speed_reg);
dsaf_set_bit(value, DSAF_LED_DATA_B, data);
if (value != mac_cb->cpld_led_value) {
dsaf_write_syscon(mac_cb->cpld_ctrl,
mac_cb->cpld_ctrl_reg, value);
mac_cb->cpld_led_value = value;
}
} else {
value = (mac_cb->cpld_led_value) & (0x1 << DSAF_LED_ANCHOR_B);
dsaf_write_syscon(mac_cb->cpld_ctrl,
mac_cb->cpld_ctrl_reg, value);
mac_cb->cpld_led_value = value;
}
}
static void hns_cpld_set_led_acpi(struct hns_mac_cb *mac_cb, int link_status,
u16 speed, int data)
{
if (!mac_cb) {
pr_err("cpld_led_set mac_cb is null!\n");
return;
}
hns_dsaf_acpi_ledctrl_by_port(mac_cb, HNS_OP_LED_SET_FUNC,
link_status, mac_cb->mac_id, data);
}
static void cpld_led_reset(struct hns_mac_cb *mac_cb)
{
if (!mac_cb || !mac_cb->cpld_ctrl)
return;
dsaf_write_syscon(mac_cb->cpld_ctrl, mac_cb->cpld_ctrl_reg,
CPLD_LED_DEFAULT_VALUE);
mac_cb->cpld_led_value = CPLD_LED_DEFAULT_VALUE;
}
static void cpld_led_reset_acpi(struct hns_mac_cb *mac_cb)
{
if (!mac_cb) {
pr_err("cpld_led_reset mac_cb is null!\n");
return;
}
if (mac_cb->media_type != HNAE_MEDIA_TYPE_FIBER)
return;
hns_dsaf_acpi_ledctrl_by_port(mac_cb, HNS_OP_LED_SET_FUNC,
0, mac_cb->mac_id, 0);
}
static int cpld_set_led_id(struct hns_mac_cb *mac_cb,
enum hnae_led_state status)
{
u32 val = 0;
int ret;
if (!mac_cb->cpld_ctrl)
return 0;
switch (status) {
case HNAE_LED_ACTIVE:
ret = dsaf_read_syscon(mac_cb->cpld_ctrl, mac_cb->cpld_ctrl_reg,
&val);
if (ret)
return ret;
dsaf_set_bit(val, DSAF_LED_ANCHOR_B, CPLD_LED_ON_VALUE);
dsaf_write_syscon(mac_cb->cpld_ctrl, mac_cb->cpld_ctrl_reg,
val);
mac_cb->cpld_led_value = val;
break;
case HNAE_LED_INACTIVE:
dsaf_set_bit(mac_cb->cpld_led_value, DSAF_LED_ANCHOR_B,
CPLD_LED_DEFAULT_VALUE);
dsaf_write_syscon(mac_cb->cpld_ctrl, mac_cb->cpld_ctrl_reg,
mac_cb->cpld_led_value);
break;
default:
dev_err(mac_cb->dev, "invalid led state: %d!", status);
return -EINVAL;
}
return 0;
}
static int cpld_set_led_id_acpi(struct hns_mac_cb *mac_cb,
enum hnae_led_state status)
{
switch (status) {
case HNAE_LED_ACTIVE:
hns_dsaf_acpi_locate_ledctrl_by_port(mac_cb,
HNS_OP_LOCATE_LED_SET_FUNC,
CPLD_LED_ON_VALUE,
mac_cb->mac_id);
break;
case HNAE_LED_INACTIVE:
hns_dsaf_acpi_locate_ledctrl_by_port(mac_cb,
HNS_OP_LOCATE_LED_SET_FUNC,
CPLD_LED_DEFAULT_VALUE,
mac_cb->mac_id);
break;
default:
dev_err(mac_cb->dev, "invalid led state: %d!", status);
return -EINVAL;
}
return 0;
}
#define RESET_REQ_OR_DREQ 1
static void hns_dsaf_acpi_srst_by_port(struct dsaf_device *dsaf_dev, u8 op_type,
u32 port_type, u32 port, u32 val)
{
union acpi_object *obj;
union acpi_object obj_args[3], argv4;
obj_args[0].integer.type = ACPI_TYPE_INTEGER;
obj_args[0].integer.value = port_type;
obj_args[1].integer.type = ACPI_TYPE_INTEGER;
obj_args[1].integer.value = port;
obj_args[2].integer.type = ACPI_TYPE_INTEGER;
obj_args[2].integer.value = val;
argv4.type = ACPI_TYPE_PACKAGE;
argv4.package.count = 3;
argv4.package.elements = obj_args;
obj = acpi_evaluate_dsm(ACPI_HANDLE(dsaf_dev->dev),
&hns_dsaf_acpi_dsm_guid, 0, op_type, &argv4);
if (!obj) {
dev_warn(dsaf_dev->dev, "reset port_type%d port%d fail!",
port_type, port);
return;
}
ACPI_FREE(obj);
}
static void hns_dsaf_rst(struct dsaf_device *dsaf_dev, bool dereset)
{
u32 xbar_reg_addr;
u32 nt_reg_addr;
if (!dereset) {
xbar_reg_addr = DSAF_SUB_SC_XBAR_RESET_REQ_REG;
nt_reg_addr = DSAF_SUB_SC_NT_RESET_REQ_REG;
} else {
xbar_reg_addr = DSAF_SUB_SC_XBAR_RESET_DREQ_REG;
nt_reg_addr = DSAF_SUB_SC_NT_RESET_DREQ_REG;
}
dsaf_write_sub(dsaf_dev, xbar_reg_addr, RESET_REQ_OR_DREQ);
dsaf_write_sub(dsaf_dev, nt_reg_addr, RESET_REQ_OR_DREQ);
}
static void hns_dsaf_rst_acpi(struct dsaf_device *dsaf_dev, bool dereset)
{
hns_dsaf_acpi_srst_by_port(dsaf_dev, HNS_OP_RESET_FUNC,
HNS_DSAF_RESET_FUNC,
0, dereset);
}
static void hns_dsaf_xge_srst_by_port(struct dsaf_device *dsaf_dev, u32 port,
bool dereset)
{
u32 reg_val = 0;
u32 reg_addr;
if (port >= DSAF_XGE_NUM)
return;
reg_val |= RESET_REQ_OR_DREQ;
reg_val |= 0x2082082 << dsaf_dev->mac_cb[port]->port_rst_off;
if (!dereset)
reg_addr = DSAF_SUB_SC_XGE_RESET_REQ_REG;
else
reg_addr = DSAF_SUB_SC_XGE_RESET_DREQ_REG;
dsaf_write_sub(dsaf_dev, reg_addr, reg_val);
}
static void hns_dsaf_xge_srst_by_port_acpi(struct dsaf_device *dsaf_dev,
u32 port, bool dereset)
{
hns_dsaf_acpi_srst_by_port(dsaf_dev, HNS_OP_RESET_FUNC,
HNS_XGE_RESET_FUNC, port, dereset);
}
/**
* hns_dsaf_srst_chns - reset dsaf channels
* @dsaf_dev: dsaf device struct pointer
* @msk: xbar channels mask value:
* bit0-5 for xge0-5
* bit6-11 for ppe0-5
* bit12-17 for roce0-5
* bit18-19 for com/dfx
* @enable: false - request reset , true - drop reset
*/
static void
hns_dsaf_srst_chns(struct dsaf_device *dsaf_dev, u32 msk, bool dereset)
{
u32 reg_addr;
if (!dereset)
reg_addr = DSAF_SUB_SC_DSAF_RESET_REQ_REG;
else
reg_addr = DSAF_SUB_SC_DSAF_RESET_DREQ_REG;
dsaf_write_sub(dsaf_dev, reg_addr, msk);
}
/**
* hns_dsaf_srst_chns - reset dsaf channels
* @dsaf_dev: dsaf device struct pointer
* @msk: xbar channels mask value:
* bit0-5 for xge0-5
* bit6-11 for ppe0-5
* bit12-17 for roce0-5
* bit18-19 for com/dfx
* @enable: false - request reset , true - drop reset
*/
static void
hns_dsaf_srst_chns_acpi(struct dsaf_device *dsaf_dev, u32 msk, bool dereset)
{
hns_dsaf_acpi_srst_by_port(dsaf_dev, HNS_OP_RESET_FUNC,
HNS_DSAF_CHN_RESET_FUNC,
msk, dereset);
}
static void hns_dsaf_roce_srst(struct dsaf_device *dsaf_dev, bool dereset)
{
if (!dereset) {
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_ROCEE_RESET_REQ_REG, 1);
} else {
dsaf_write_sub(dsaf_dev,
DSAF_SUB_SC_ROCEE_CLK_DIS_REG, 1);
dsaf_write_sub(dsaf_dev,
DSAF_SUB_SC_ROCEE_RESET_DREQ_REG, 1);
msleep(20);
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_ROCEE_CLK_EN_REG, 1);
}
}
static void hns_dsaf_roce_srst_acpi(struct dsaf_device *dsaf_dev, bool dereset)
{
hns_dsaf_acpi_srst_by_port(dsaf_dev, HNS_OP_RESET_FUNC,
HNS_ROCE_RESET_FUNC, 0, dereset);
}
static void hns_dsaf_ge_srst_by_port(struct dsaf_device *dsaf_dev, u32 port,
bool dereset)
{
u32 reg_val_1;
u32 reg_val_2;
u32 port_rst_off;
if (port >= DSAF_GE_NUM)
return;
if (!HNS_DSAF_IS_DEBUG(dsaf_dev)) {
reg_val_1 = 0x1 << port;
port_rst_off = dsaf_dev->mac_cb[port]->port_rst_off;
/* there is difference between V1 and V2 in register.*/
reg_val_2 = AE_IS_VER1(dsaf_dev->dsaf_ver) ?
0x1041041 : 0x2082082;
reg_val_2 <<= port_rst_off;
if (!dereset) {
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_GE_RESET_REQ1_REG,
reg_val_1);
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_GE_RESET_REQ0_REG,
reg_val_2);
} else {
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_GE_RESET_DREQ0_REG,
reg_val_2);
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_GE_RESET_DREQ1_REG,
reg_val_1);
}
} else {
reg_val_1 = 0x15540;
reg_val_2 = AE_IS_VER1(dsaf_dev->dsaf_ver) ? 0x100 : 0x40;
reg_val_1 <<= dsaf_dev->reset_offset;
reg_val_2 <<= dsaf_dev->reset_offset;
if (!dereset) {
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_GE_RESET_REQ1_REG,
reg_val_1);
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_PPE_RESET_REQ_REG,
reg_val_2);
} else {
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_GE_RESET_DREQ1_REG,
reg_val_1);
dsaf_write_sub(dsaf_dev, DSAF_SUB_SC_PPE_RESET_DREQ_REG,
reg_val_2);
}
}
}
static void hns_dsaf_ge_srst_by_port_acpi(struct dsaf_device *dsaf_dev,
u32 port, bool dereset)
{
hns_dsaf_acpi_srst_by_port(dsaf_dev, HNS_OP_RESET_FUNC,
HNS_GE_RESET_FUNC, port, dereset);
}
static void hns_ppe_srst_by_port(struct dsaf_device *dsaf_dev, u32 port,
bool dereset)
{
u32 reg_val = 0;
u32 reg_addr;
reg_val |= RESET_REQ_OR_DREQ << dsaf_dev->mac_cb[port]->port_rst_off;
if (!dereset)
reg_addr = DSAF_SUB_SC_PPE_RESET_REQ_REG;
else
reg_addr = DSAF_SUB_SC_PPE_RESET_DREQ_REG;
dsaf_write_sub(dsaf_dev, reg_addr, reg_val);
}
static void
hns_ppe_srst_by_port_acpi(struct dsaf_device *dsaf_dev, u32 port, bool dereset)
{
hns_dsaf_acpi_srst_by_port(dsaf_dev, HNS_OP_RESET_FUNC,
HNS_PPE_RESET_FUNC, port, dereset);
}
static void hns_ppe_com_srst(struct dsaf_device *dsaf_dev, bool dereset)
{
u32 reg_val;
u32 reg_addr;
if (!(dev_of_node(dsaf_dev->dev)))
return;
if (!HNS_DSAF_IS_DEBUG(dsaf_dev)) {
reg_val = RESET_REQ_OR_DREQ;
if (!dereset)
reg_addr = DSAF_SUB_SC_RCB_PPE_COM_RESET_REQ_REG;
else
reg_addr = DSAF_SUB_SC_RCB_PPE_COM_RESET_DREQ_REG;
} else {
reg_val = 0x100 << dsaf_dev->reset_offset;
if (!dereset)
reg_addr = DSAF_SUB_SC_PPE_RESET_REQ_REG;
else
reg_addr = DSAF_SUB_SC_PPE_RESET_DREQ_REG;
}
dsaf_write_sub(dsaf_dev, reg_addr, reg_val);
}
/**
* hns_mac_get_sds_mode - get phy ifterface form serdes mode
* @mac_cb: mac control block
* retuen phy interface
*/
static phy_interface_t hns_mac_get_phy_if(struct hns_mac_cb *mac_cb)
{
u32 mode;
u32 reg;
bool is_ver1 = AE_IS_VER1(mac_cb->dsaf_dev->dsaf_ver);
int mac_id = mac_cb->mac_id;
phy_interface_t phy_if;
if (is_ver1) {
if (HNS_DSAF_IS_DEBUG(mac_cb->dsaf_dev))
return PHY_INTERFACE_MODE_SGMII;
if (mac_id >= 0 && mac_id <= 3)
reg = HNS_MAC_HILINK4_REG;
else
reg = HNS_MAC_HILINK3_REG;
} else{
if (!HNS_DSAF_IS_DEBUG(mac_cb->dsaf_dev) && mac_id <= 3)
reg = HNS_MAC_HILINK4V2_REG;
else
reg = HNS_MAC_HILINK3V2_REG;
}
mode = dsaf_read_sub(mac_cb->dsaf_dev, reg);
if (dsaf_get_bit(mode, mac_cb->port_mode_off))
phy_if = PHY_INTERFACE_MODE_XGMII;
else
phy_if = PHY_INTERFACE_MODE_SGMII;
return phy_if;
}
static phy_interface_t hns_mac_get_phy_if_acpi(struct hns_mac_cb *mac_cb)
{
phy_interface_t phy_if = PHY_INTERFACE_MODE_NA;
union acpi_object *obj;
union acpi_object obj_args, argv4;
obj_args.integer.type = ACPI_TYPE_INTEGER;
obj_args.integer.value = mac_cb->mac_id;
argv4.type = ACPI_TYPE_PACKAGE,
argv4.package.count = 1,
argv4.package.elements = &obj_args,
obj = acpi_evaluate_dsm(ACPI_HANDLE(mac_cb->dev),
&hns_dsaf_acpi_dsm_guid, 0,
HNS_OP_GET_PORT_TYPE_FUNC, &argv4);
if (!obj || obj->type != ACPI_TYPE_INTEGER)
return phy_if;
phy_if = obj->integer.value ?
PHY_INTERFACE_MODE_XGMII : PHY_INTERFACE_MODE_SGMII;
dev_dbg(mac_cb->dev, "mac_id=%d, phy_if=%d\n", mac_cb->mac_id, phy_if);
ACPI_FREE(obj);
return phy_if;
}
static int hns_mac_get_sfp_prsnt(struct hns_mac_cb *mac_cb, int *sfp_prsnt)
{
u32 val = 0;
int ret;
if (!mac_cb->cpld_ctrl)
return -ENODEV;
ret = dsaf_read_syscon(mac_cb->cpld_ctrl,
mac_cb->cpld_ctrl_reg + MAC_SFP_PORT_OFFSET,
&val);
if (ret)
return ret;
*sfp_prsnt = !val;
return 0;
}
static int hns_mac_get_sfp_prsnt_acpi(struct hns_mac_cb *mac_cb, int *sfp_prsnt)
{
union acpi_object *obj;
union acpi_object obj_args, argv4;
obj_args.integer.type = ACPI_TYPE_INTEGER;
obj_args.integer.value = mac_cb->mac_id;
argv4.type = ACPI_TYPE_PACKAGE,
argv4.package.count = 1,
argv4.package.elements = &obj_args,
obj = acpi_evaluate_dsm(ACPI_HANDLE(mac_cb->dev),
&hns_dsaf_acpi_dsm_guid, 0,
HNS_OP_GET_SFP_STAT_FUNC, &argv4);
if (!obj || obj->type != ACPI_TYPE_INTEGER)
return -ENODEV;
*sfp_prsnt = obj->integer.value;
ACPI_FREE(obj);
return 0;
}
/**
* hns_mac_config_sds_loopback - set loop back for serdes
* @mac_cb: mac control block
* retuen 0 == success
*/
static int hns_mac_config_sds_loopback(struct hns_mac_cb *mac_cb, bool en)
{
const u8 lane_id[] = {
0, /* mac 0 -> lane 0 */
1, /* mac 1 -> lane 1 */
2, /* mac 2 -> lane 2 */
3, /* mac 3 -> lane 3 */
2, /* mac 4 -> lane 2 */
3, /* mac 5 -> lane 3 */
0, /* mac 6 -> lane 0 */
1 /* mac 7 -> lane 1 */
};
#define RX_CSR(lane, reg) ((0x4080 + (reg) * 0x0002 + (lane) * 0x0200) * 2)
u64 reg_offset = RX_CSR(lane_id[mac_cb->mac_id], 0);
int sfp_prsnt = 0;
int ret = hns_mac_get_sfp_prsnt(mac_cb, &sfp_prsnt);
if (!mac_cb->phy_dev) {
if (ret)
pr_info("please confirm sfp is present or not\n");
else
if (!sfp_prsnt)
pr_info("no sfp in this eth\n");
}
if (mac_cb->serdes_ctrl) {
u32 origin = 0;
if (!AE_IS_VER1(mac_cb->dsaf_dev->dsaf_ver)) {
#define HILINK_ACCESS_SEL_CFG 0x40008
/* hilink4 & hilink3 use the same xge training and
* xge u adaptor. There is a hilink access sel cfg
* register to select which one to be configed
*/
if ((!HNS_DSAF_IS_DEBUG(mac_cb->dsaf_dev)) &&
(mac_cb->mac_id <= 3))
dsaf_write_syscon(mac_cb->serdes_ctrl,
HILINK_ACCESS_SEL_CFG, 0);
else
dsaf_write_syscon(mac_cb->serdes_ctrl,
HILINK_ACCESS_SEL_CFG, 3);
}
ret = dsaf_read_syscon(mac_cb->serdes_ctrl, reg_offset,
&origin);
if (ret)
return ret;
dsaf_set_field(origin, 1ull << 10, 10, en);
dsaf_write_syscon(mac_cb->serdes_ctrl, reg_offset, origin);
} else {
u8 __iomem *base_addr = mac_cb->serdes_vaddr +
(mac_cb->mac_id <= 3 ? 0x00280000 : 0x00200000);
dsaf_set_reg_field(base_addr, reg_offset, 1ull << 10, 10, en);
}
return 0;
}
static int
hns_mac_config_sds_loopback_acpi(struct hns_mac_cb *mac_cb, bool en)
{
union acpi_object *obj;
union acpi_object obj_args[3], argv4;
obj_args[0].integer.type = ACPI_TYPE_INTEGER;
obj_args[0].integer.value = mac_cb->mac_id;
obj_args[1].integer.type = ACPI_TYPE_INTEGER;
obj_args[1].integer.value = !!en;
argv4.type = ACPI_TYPE_PACKAGE;
argv4.package.count = 2;
argv4.package.elements = obj_args;
obj = acpi_evaluate_dsm(ACPI_HANDLE(mac_cb->dsaf_dev->dev),
&hns_dsaf_acpi_dsm_guid, 0,
HNS_OP_SERDES_LP_FUNC, &argv4);
if (!obj) {
dev_warn(mac_cb->dsaf_dev->dev, "set port%d serdes lp fail!",
mac_cb->mac_id);
return -ENOTSUPP;
}
ACPI_FREE(obj);
return 0;
}
struct dsaf_misc_op *hns_misc_op_get(struct dsaf_device *dsaf_dev)
{
struct dsaf_misc_op *misc_op;
misc_op = devm_kzalloc(dsaf_dev->dev, sizeof(*misc_op), GFP_KERNEL);
if (!misc_op)
return NULL;
if (dev_of_node(dsaf_dev->dev)) {
misc_op->cpld_set_led = hns_cpld_set_led;
misc_op->cpld_reset_led = cpld_led_reset;
misc_op->cpld_set_led_id = cpld_set_led_id;
misc_op->dsaf_reset = hns_dsaf_rst;
misc_op->xge_srst = hns_dsaf_xge_srst_by_port;
misc_op->ge_srst = hns_dsaf_ge_srst_by_port;
misc_op->ppe_srst = hns_ppe_srst_by_port;
misc_op->ppe_comm_srst = hns_ppe_com_srst;
misc_op->hns_dsaf_srst_chns = hns_dsaf_srst_chns;
misc_op->hns_dsaf_roce_srst = hns_dsaf_roce_srst;
misc_op->get_phy_if = hns_mac_get_phy_if;
misc_op->get_sfp_prsnt = hns_mac_get_sfp_prsnt;
misc_op->cfg_serdes_loopback = hns_mac_config_sds_loopback;
} else if (is_acpi_node(dsaf_dev->dev->fwnode)) {
misc_op->cpld_set_led = hns_cpld_set_led_acpi;
misc_op->cpld_reset_led = cpld_led_reset_acpi;
misc_op->cpld_set_led_id = cpld_set_led_id_acpi;
misc_op->dsaf_reset = hns_dsaf_rst_acpi;
misc_op->xge_srst = hns_dsaf_xge_srst_by_port_acpi;
misc_op->ge_srst = hns_dsaf_ge_srst_by_port_acpi;
misc_op->ppe_srst = hns_ppe_srst_by_port_acpi;
misc_op->ppe_comm_srst = hns_ppe_com_srst;
misc_op->hns_dsaf_srst_chns = hns_dsaf_srst_chns_acpi;
misc_op->hns_dsaf_roce_srst = hns_dsaf_roce_srst_acpi;
misc_op->get_phy_if = hns_mac_get_phy_if_acpi;
misc_op->get_sfp_prsnt = hns_mac_get_sfp_prsnt_acpi;
misc_op->cfg_serdes_loopback = hns_mac_config_sds_loopback_acpi;
} else {
devm_kfree(dsaf_dev->dev, (void *)misc_op);
misc_op = NULL;
}
return (void *)misc_op;
}
static int hns_dsaf_dev_match(struct device *dev, void *fwnode)
{
return dev->fwnode == fwnode;
}
struct
platform_device *hns_dsaf_find_platform_device(struct fwnode_handle *fwnode)
{
struct device *dev;
dev = bus_find_device(&platform_bus_type, NULL,
fwnode, hns_dsaf_dev_match);
return dev ? to_platform_device(dev) : NULL;
}
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