Commit 3cfa11ba authored by Steen Hegelund's avatar Steen Hegelund Committed by David S. Miller

net: sparx5: add the basic sparx5 driver

This adds the Sparx5 basic SwitchDev driver framework with IO range
mapping, switch device detection and core clock configuration.

Support for ports, phylink, netdev, mactable etc. are in the following
patches.
Signed-off-by: default avatarSteen Hegelund <steen.hegelund@microchip.com>
Signed-off-by: default avatarBjarni Jonasson <bjarni.jonasson@microchip.com>
Signed-off-by: default avatarLars Povlsen <lars.povlsen@microchip.com>
Reviewed-by: default avatarPhilipp Zabel <p.zabel@pengutronix.de>
Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
parent f8c63088
......@@ -54,4 +54,6 @@ config LAN743X
To compile this driver as a module, choose M here. The module will be
called lan743x.
source "drivers/net/ethernet/microchip/sparx5/Kconfig"
endif # NET_VENDOR_MICROCHIP
......@@ -8,3 +8,5 @@ obj-$(CONFIG_ENCX24J600) += encx24j600.o encx24j600-regmap.o
obj-$(CONFIG_LAN743X) += lan743x.o
lan743x-objs := lan743x_main.o lan743x_ethtool.o lan743x_ptp.o
obj-$(CONFIG_SPARX5_SWITCH) += sparx5/
config SPARX5_SWITCH
tristate "Sparx5 switch driver"
depends on NET_SWITCHDEV
depends on HAS_IOMEM
select PHYLINK
select PHY_SPARX5_SERDES
select RESET_CONTROLLER
help
This driver supports the Sparx5 network switch device.
# SPDX-License-Identifier: GPL-2.0-only
#
# Makefile for the Microchip Sparx5 network device drivers.
#
obj-$(CONFIG_SPARX5_SWITCH) += sparx5-switch.o
sparx5-switch-objs := sparx5_main.o
// SPDX-License-Identifier: GPL-2.0+
/* Microchip Sparx5 Switch driver
*
* Copyright (c) 2021 Microchip Technology Inc. and its subsidiaries.
*
* The Sparx5 Chip Register Model can be browsed at this location:
* https://github.com/microchip-ung/sparx-5_reginfo
*/
#include <linux/module.h>
#include <linux/device.h>
#include <linux/netdevice.h>
#include <linux/platform_device.h>
#include <linux/interrupt.h>
#include <linux/of.h>
#include <linux/of_net.h>
#include <linux/of_mdio.h>
#include <net/switchdev.h>
#include <linux/etherdevice.h>
#include <linux/io.h>
#include <linux/printk.h>
#include <linux/iopoll.h>
#include <linux/mfd/syscon.h>
#include <linux/regmap.h>
#include <linux/types.h>
#include <linux/reset.h>
#include "sparx5_main_regs.h"
#include "sparx5_main.h"
#define QLIM_WM(fraction) \
((SPX5_BUFFER_MEMORY / SPX5_BUFFER_CELL_SZ - 100) * (fraction) / 100)
#define IO_RANGES 3
struct initial_port_config {
u32 portno;
struct device_node *node;
struct sparx5_port_config conf;
struct phy *serdes;
};
struct sparx5_ram_config {
void __iomem *init_reg;
u32 init_val;
};
struct sparx5_main_io_resource {
enum sparx5_target id;
phys_addr_t offset;
int range;
};
static const struct sparx5_main_io_resource sparx5_main_iomap[] = {
{ TARGET_CPU, 0, 0 }, /* 0x600000000 */
{ TARGET_FDMA, 0x80000, 0 }, /* 0x600080000 */
{ TARGET_PCEP, 0x400000, 0 }, /* 0x600400000 */
{ TARGET_DEV2G5, 0x10004000, 1 }, /* 0x610004000 */
{ TARGET_DEV5G, 0x10008000, 1 }, /* 0x610008000 */
{ TARGET_PCS5G_BR, 0x1000c000, 1 }, /* 0x61000c000 */
{ TARGET_DEV2G5 + 1, 0x10010000, 1 }, /* 0x610010000 */
{ TARGET_DEV5G + 1, 0x10014000, 1 }, /* 0x610014000 */
{ TARGET_PCS5G_BR + 1, 0x10018000, 1 }, /* 0x610018000 */
{ TARGET_DEV2G5 + 2, 0x1001c000, 1 }, /* 0x61001c000 */
{ TARGET_DEV5G + 2, 0x10020000, 1 }, /* 0x610020000 */
{ TARGET_PCS5G_BR + 2, 0x10024000, 1 }, /* 0x610024000 */
{ TARGET_DEV2G5 + 6, 0x10028000, 1 }, /* 0x610028000 */
{ TARGET_DEV5G + 6, 0x1002c000, 1 }, /* 0x61002c000 */
{ TARGET_PCS5G_BR + 6, 0x10030000, 1 }, /* 0x610030000 */
{ TARGET_DEV2G5 + 7, 0x10034000, 1 }, /* 0x610034000 */
{ TARGET_DEV5G + 7, 0x10038000, 1 }, /* 0x610038000 */
{ TARGET_PCS5G_BR + 7, 0x1003c000, 1 }, /* 0x61003c000 */
{ TARGET_DEV2G5 + 8, 0x10040000, 1 }, /* 0x610040000 */
{ TARGET_DEV5G + 8, 0x10044000, 1 }, /* 0x610044000 */
{ TARGET_PCS5G_BR + 8, 0x10048000, 1 }, /* 0x610048000 */
{ TARGET_DEV2G5 + 9, 0x1004c000, 1 }, /* 0x61004c000 */
{ TARGET_DEV5G + 9, 0x10050000, 1 }, /* 0x610050000 */
{ TARGET_PCS5G_BR + 9, 0x10054000, 1 }, /* 0x610054000 */
{ TARGET_DEV2G5 + 10, 0x10058000, 1 }, /* 0x610058000 */
{ TARGET_DEV5G + 10, 0x1005c000, 1 }, /* 0x61005c000 */
{ TARGET_PCS5G_BR + 10, 0x10060000, 1 }, /* 0x610060000 */
{ TARGET_DEV2G5 + 11, 0x10064000, 1 }, /* 0x610064000 */
{ TARGET_DEV5G + 11, 0x10068000, 1 }, /* 0x610068000 */
{ TARGET_PCS5G_BR + 11, 0x1006c000, 1 }, /* 0x61006c000 */
{ TARGET_DEV2G5 + 12, 0x10070000, 1 }, /* 0x610070000 */
{ TARGET_DEV10G, 0x10074000, 1 }, /* 0x610074000 */
{ TARGET_PCS10G_BR, 0x10078000, 1 }, /* 0x610078000 */
{ TARGET_DEV2G5 + 14, 0x1007c000, 1 }, /* 0x61007c000 */
{ TARGET_DEV10G + 2, 0x10080000, 1 }, /* 0x610080000 */
{ TARGET_PCS10G_BR + 2, 0x10084000, 1 }, /* 0x610084000 */
{ TARGET_DEV2G5 + 15, 0x10088000, 1 }, /* 0x610088000 */
{ TARGET_DEV10G + 3, 0x1008c000, 1 }, /* 0x61008c000 */
{ TARGET_PCS10G_BR + 3, 0x10090000, 1 }, /* 0x610090000 */
{ TARGET_DEV2G5 + 16, 0x10094000, 1 }, /* 0x610094000 */
{ TARGET_DEV2G5 + 17, 0x10098000, 1 }, /* 0x610098000 */
{ TARGET_DEV2G5 + 18, 0x1009c000, 1 }, /* 0x61009c000 */
{ TARGET_DEV2G5 + 19, 0x100a0000, 1 }, /* 0x6100a0000 */
{ TARGET_DEV2G5 + 20, 0x100a4000, 1 }, /* 0x6100a4000 */
{ TARGET_DEV2G5 + 21, 0x100a8000, 1 }, /* 0x6100a8000 */
{ TARGET_DEV2G5 + 22, 0x100ac000, 1 }, /* 0x6100ac000 */
{ TARGET_DEV2G5 + 23, 0x100b0000, 1 }, /* 0x6100b0000 */
{ TARGET_DEV2G5 + 32, 0x100b4000, 1 }, /* 0x6100b4000 */
{ TARGET_DEV2G5 + 33, 0x100b8000, 1 }, /* 0x6100b8000 */
{ TARGET_DEV2G5 + 34, 0x100bc000, 1 }, /* 0x6100bc000 */
{ TARGET_DEV2G5 + 35, 0x100c0000, 1 }, /* 0x6100c0000 */
{ TARGET_DEV2G5 + 36, 0x100c4000, 1 }, /* 0x6100c4000 */
{ TARGET_DEV2G5 + 37, 0x100c8000, 1 }, /* 0x6100c8000 */
{ TARGET_DEV2G5 + 38, 0x100cc000, 1 }, /* 0x6100cc000 */
{ TARGET_DEV2G5 + 39, 0x100d0000, 1 }, /* 0x6100d0000 */
{ TARGET_DEV2G5 + 40, 0x100d4000, 1 }, /* 0x6100d4000 */
{ TARGET_DEV2G5 + 41, 0x100d8000, 1 }, /* 0x6100d8000 */
{ TARGET_DEV2G5 + 42, 0x100dc000, 1 }, /* 0x6100dc000 */
{ TARGET_DEV2G5 + 43, 0x100e0000, 1 }, /* 0x6100e0000 */
{ TARGET_DEV2G5 + 44, 0x100e4000, 1 }, /* 0x6100e4000 */
{ TARGET_DEV2G5 + 45, 0x100e8000, 1 }, /* 0x6100e8000 */
{ TARGET_DEV2G5 + 46, 0x100ec000, 1 }, /* 0x6100ec000 */
{ TARGET_DEV2G5 + 47, 0x100f0000, 1 }, /* 0x6100f0000 */
{ TARGET_DEV2G5 + 57, 0x100f4000, 1 }, /* 0x6100f4000 */
{ TARGET_DEV25G + 1, 0x100f8000, 1 }, /* 0x6100f8000 */
{ TARGET_PCS25G_BR + 1, 0x100fc000, 1 }, /* 0x6100fc000 */
{ TARGET_DEV2G5 + 59, 0x10104000, 1 }, /* 0x610104000 */
{ TARGET_DEV25G + 3, 0x10108000, 1 }, /* 0x610108000 */
{ TARGET_PCS25G_BR + 3, 0x1010c000, 1 }, /* 0x61010c000 */
{ TARGET_DEV2G5 + 60, 0x10114000, 1 }, /* 0x610114000 */
{ TARGET_DEV25G + 4, 0x10118000, 1 }, /* 0x610118000 */
{ TARGET_PCS25G_BR + 4, 0x1011c000, 1 }, /* 0x61011c000 */
{ TARGET_DEV2G5 + 64, 0x10124000, 1 }, /* 0x610124000 */
{ TARGET_DEV5G + 12, 0x10128000, 1 }, /* 0x610128000 */
{ TARGET_PCS5G_BR + 12, 0x1012c000, 1 }, /* 0x61012c000 */
{ TARGET_PORT_CONF, 0x10130000, 1 }, /* 0x610130000 */
{ TARGET_DEV2G5 + 3, 0x10404000, 1 }, /* 0x610404000 */
{ TARGET_DEV5G + 3, 0x10408000, 1 }, /* 0x610408000 */
{ TARGET_PCS5G_BR + 3, 0x1040c000, 1 }, /* 0x61040c000 */
{ TARGET_DEV2G5 + 4, 0x10410000, 1 }, /* 0x610410000 */
{ TARGET_DEV5G + 4, 0x10414000, 1 }, /* 0x610414000 */
{ TARGET_PCS5G_BR + 4, 0x10418000, 1 }, /* 0x610418000 */
{ TARGET_DEV2G5 + 5, 0x1041c000, 1 }, /* 0x61041c000 */
{ TARGET_DEV5G + 5, 0x10420000, 1 }, /* 0x610420000 */
{ TARGET_PCS5G_BR + 5, 0x10424000, 1 }, /* 0x610424000 */
{ TARGET_DEV2G5 + 13, 0x10428000, 1 }, /* 0x610428000 */
{ TARGET_DEV10G + 1, 0x1042c000, 1 }, /* 0x61042c000 */
{ TARGET_PCS10G_BR + 1, 0x10430000, 1 }, /* 0x610430000 */
{ TARGET_DEV2G5 + 24, 0x10434000, 1 }, /* 0x610434000 */
{ TARGET_DEV2G5 + 25, 0x10438000, 1 }, /* 0x610438000 */
{ TARGET_DEV2G5 + 26, 0x1043c000, 1 }, /* 0x61043c000 */
{ TARGET_DEV2G5 + 27, 0x10440000, 1 }, /* 0x610440000 */
{ TARGET_DEV2G5 + 28, 0x10444000, 1 }, /* 0x610444000 */
{ TARGET_DEV2G5 + 29, 0x10448000, 1 }, /* 0x610448000 */
{ TARGET_DEV2G5 + 30, 0x1044c000, 1 }, /* 0x61044c000 */
{ TARGET_DEV2G5 + 31, 0x10450000, 1 }, /* 0x610450000 */
{ TARGET_DEV2G5 + 48, 0x10454000, 1 }, /* 0x610454000 */
{ TARGET_DEV10G + 4, 0x10458000, 1 }, /* 0x610458000 */
{ TARGET_PCS10G_BR + 4, 0x1045c000, 1 }, /* 0x61045c000 */
{ TARGET_DEV2G5 + 49, 0x10460000, 1 }, /* 0x610460000 */
{ TARGET_DEV10G + 5, 0x10464000, 1 }, /* 0x610464000 */
{ TARGET_PCS10G_BR + 5, 0x10468000, 1 }, /* 0x610468000 */
{ TARGET_DEV2G5 + 50, 0x1046c000, 1 }, /* 0x61046c000 */
{ TARGET_DEV10G + 6, 0x10470000, 1 }, /* 0x610470000 */
{ TARGET_PCS10G_BR + 6, 0x10474000, 1 }, /* 0x610474000 */
{ TARGET_DEV2G5 + 51, 0x10478000, 1 }, /* 0x610478000 */
{ TARGET_DEV10G + 7, 0x1047c000, 1 }, /* 0x61047c000 */
{ TARGET_PCS10G_BR + 7, 0x10480000, 1 }, /* 0x610480000 */
{ TARGET_DEV2G5 + 52, 0x10484000, 1 }, /* 0x610484000 */
{ TARGET_DEV10G + 8, 0x10488000, 1 }, /* 0x610488000 */
{ TARGET_PCS10G_BR + 8, 0x1048c000, 1 }, /* 0x61048c000 */
{ TARGET_DEV2G5 + 53, 0x10490000, 1 }, /* 0x610490000 */
{ TARGET_DEV10G + 9, 0x10494000, 1 }, /* 0x610494000 */
{ TARGET_PCS10G_BR + 9, 0x10498000, 1 }, /* 0x610498000 */
{ TARGET_DEV2G5 + 54, 0x1049c000, 1 }, /* 0x61049c000 */
{ TARGET_DEV10G + 10, 0x104a0000, 1 }, /* 0x6104a0000 */
{ TARGET_PCS10G_BR + 10, 0x104a4000, 1 }, /* 0x6104a4000 */
{ TARGET_DEV2G5 + 55, 0x104a8000, 1 }, /* 0x6104a8000 */
{ TARGET_DEV10G + 11, 0x104ac000, 1 }, /* 0x6104ac000 */
{ TARGET_PCS10G_BR + 11, 0x104b0000, 1 }, /* 0x6104b0000 */
{ TARGET_DEV2G5 + 56, 0x104b4000, 1 }, /* 0x6104b4000 */
{ TARGET_DEV25G, 0x104b8000, 1 }, /* 0x6104b8000 */
{ TARGET_PCS25G_BR, 0x104bc000, 1 }, /* 0x6104bc000 */
{ TARGET_DEV2G5 + 58, 0x104c4000, 1 }, /* 0x6104c4000 */
{ TARGET_DEV25G + 2, 0x104c8000, 1 }, /* 0x6104c8000 */
{ TARGET_PCS25G_BR + 2, 0x104cc000, 1 }, /* 0x6104cc000 */
{ TARGET_DEV2G5 + 61, 0x104d4000, 1 }, /* 0x6104d4000 */
{ TARGET_DEV25G + 5, 0x104d8000, 1 }, /* 0x6104d8000 */
{ TARGET_PCS25G_BR + 5, 0x104dc000, 1 }, /* 0x6104dc000 */
{ TARGET_DEV2G5 + 62, 0x104e4000, 1 }, /* 0x6104e4000 */
{ TARGET_DEV25G + 6, 0x104e8000, 1 }, /* 0x6104e8000 */
{ TARGET_PCS25G_BR + 6, 0x104ec000, 1 }, /* 0x6104ec000 */
{ TARGET_DEV2G5 + 63, 0x104f4000, 1 }, /* 0x6104f4000 */
{ TARGET_DEV25G + 7, 0x104f8000, 1 }, /* 0x6104f8000 */
{ TARGET_PCS25G_BR + 7, 0x104fc000, 1 }, /* 0x6104fc000 */
{ TARGET_DSM, 0x10504000, 1 }, /* 0x610504000 */
{ TARGET_ASM, 0x10600000, 1 }, /* 0x610600000 */
{ TARGET_GCB, 0x11010000, 2 }, /* 0x611010000 */
{ TARGET_QS, 0x11030000, 2 }, /* 0x611030000 */
{ TARGET_ANA_ACL, 0x11050000, 2 }, /* 0x611050000 */
{ TARGET_LRN, 0x11060000, 2 }, /* 0x611060000 */
{ TARGET_VCAP_SUPER, 0x11080000, 2 }, /* 0x611080000 */
{ TARGET_QSYS, 0x110a0000, 2 }, /* 0x6110a0000 */
{ TARGET_QFWD, 0x110b0000, 2 }, /* 0x6110b0000 */
{ TARGET_XQS, 0x110c0000, 2 }, /* 0x6110c0000 */
{ TARGET_CLKGEN, 0x11100000, 2 }, /* 0x611100000 */
{ TARGET_ANA_AC_POL, 0x11200000, 2 }, /* 0x611200000 */
{ TARGET_QRES, 0x11280000, 2 }, /* 0x611280000 */
{ TARGET_EACL, 0x112c0000, 2 }, /* 0x6112c0000 */
{ TARGET_ANA_CL, 0x11400000, 2 }, /* 0x611400000 */
{ TARGET_ANA_L3, 0x11480000, 2 }, /* 0x611480000 */
{ TARGET_HSCH, 0x11580000, 2 }, /* 0x611580000 */
{ TARGET_REW, 0x11600000, 2 }, /* 0x611600000 */
{ TARGET_ANA_L2, 0x11800000, 2 }, /* 0x611800000 */
{ TARGET_ANA_AC, 0x11900000, 2 }, /* 0x611900000 */
{ TARGET_VOP, 0x11a00000, 2 }, /* 0x611a00000 */
};
static int sparx5_create_targets(struct sparx5 *sparx5)
{
struct resource *iores[IO_RANGES];
void __iomem *iomem[IO_RANGES];
void __iomem *begin[IO_RANGES];
int range_id[IO_RANGES];
int idx, jdx;
for (idx = 0, jdx = 0; jdx < ARRAY_SIZE(sparx5_main_iomap); jdx++) {
const struct sparx5_main_io_resource *iomap = &sparx5_main_iomap[jdx];
if (idx == iomap->range) {
range_id[idx] = jdx;
idx++;
}
}
for (idx = 0; idx < IO_RANGES; idx++) {
iores[idx] = platform_get_resource(sparx5->pdev, IORESOURCE_MEM,
idx);
iomem[idx] = devm_ioremap(sparx5->dev,
iores[idx]->start,
iores[idx]->end - iores[idx]->start
+ 1);
if (IS_ERR(iomem[idx])) {
dev_err(sparx5->dev, "Unable to get switch registers: %s\n",
iores[idx]->name);
return PTR_ERR(iomem[idx]);
}
begin[idx] = iomem[idx] - sparx5_main_iomap[range_id[idx]].offset;
}
for (jdx = 0; jdx < ARRAY_SIZE(sparx5_main_iomap); jdx++) {
const struct sparx5_main_io_resource *iomap = &sparx5_main_iomap[jdx];
sparx5->regs[iomap->id] = begin[iomap->range] + iomap->offset;
}
return 0;
}
static int sparx5_create_port(struct sparx5 *sparx5,
struct initial_port_config *config)
{
struct sparx5_port *spx5_port;
/* netdev creation to be added in later patches */
spx5_port = devm_kzalloc(sparx5->dev, sizeof(*spx5_port), GFP_KERNEL);
spx5_port->of_node = config->node;
spx5_port->serdes = config->serdes;
spx5_port->pvid = NULL_VID;
spx5_port->signd_internal = true;
spx5_port->signd_active_high = true;
spx5_port->signd_enable = true;
spx5_port->max_vlan_tags = SPX5_PORT_MAX_TAGS_NONE;
spx5_port->vlan_type = SPX5_VLAN_PORT_TYPE_UNAWARE;
spx5_port->custom_etype = 0x8880; /* Vitesse */
/* PHYLINK support to be added in later patches */
return 0;
}
static int sparx5_init_ram(struct sparx5 *s5)
{
const struct sparx5_ram_config spx5_ram_cfg[] = {
{spx5_reg_get(s5, ANA_AC_STAT_RESET), ANA_AC_STAT_RESET_RESET},
{spx5_reg_get(s5, ASM_STAT_CFG), ASM_STAT_CFG_STAT_CNT_CLR_SHOT},
{spx5_reg_get(s5, QSYS_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, REW_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, VOP_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, ANA_AC_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, ASM_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, EACL_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, VCAP_SUPER_RAM_INIT), QSYS_RAM_INIT_RAM_INIT},
{spx5_reg_get(s5, DSM_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}
};
const struct sparx5_ram_config *cfg;
u32 value, pending, jdx, idx;
for (jdx = 0; jdx < 10; jdx++) {
pending = ARRAY_SIZE(spx5_ram_cfg);
for (idx = 0; idx < ARRAY_SIZE(spx5_ram_cfg); idx++) {
cfg = &spx5_ram_cfg[idx];
if (jdx == 0) {
writel(cfg->init_val, cfg->init_reg);
} else {
value = readl(cfg->init_reg);
if ((value & cfg->init_val) != cfg->init_val)
pending--;
}
}
if (!pending)
break;
usleep_range(USEC_PER_MSEC, 2 * USEC_PER_MSEC);
}
if (pending > 0) {
/* Still initializing, should be complete in
* less than 1ms
*/
dev_err(s5->dev, "Memory initialization error\n");
return -EINVAL;
}
return 0;
}
static int sparx5_init_switchcore(struct sparx5 *sparx5)
{
u32 value;
int err = 0;
spx5_rmw(EACL_POL_EACL_CFG_EACL_FORCE_INIT_SET(1),
EACL_POL_EACL_CFG_EACL_FORCE_INIT,
sparx5,
EACL_POL_EACL_CFG);
spx5_rmw(EACL_POL_EACL_CFG_EACL_FORCE_INIT_SET(0),
EACL_POL_EACL_CFG_EACL_FORCE_INIT,
sparx5,
EACL_POL_EACL_CFG);
/* Initialize memories, if not done already */
value = spx5_rd(sparx5, HSCH_RESET_CFG);
if (!(value & HSCH_RESET_CFG_CORE_ENA)) {
err = sparx5_init_ram(sparx5);
if (err)
return err;
}
/* Reset counters */
spx5_wr(ANA_AC_STAT_RESET_RESET_SET(1), sparx5, ANA_AC_STAT_RESET);
spx5_wr(ASM_STAT_CFG_STAT_CNT_CLR_SHOT_SET(1), sparx5, ASM_STAT_CFG);
/* Enable switch-core and queue system */
spx5_wr(HSCH_RESET_CFG_CORE_ENA_SET(1), sparx5, HSCH_RESET_CFG);
return 0;
}
static int sparx5_init_coreclock(struct sparx5 *sparx5)
{
enum sparx5_core_clockfreq freq = sparx5->coreclock;
u32 clk_div, clk_period, pol_upd_int, idx;
/* Verify if core clock frequency is supported on target.
* If 'VTSS_CORE_CLOCK_DEFAULT' then the highest supported
* freq. is used
*/
switch (sparx5->target_ct) {
case SPX5_TARGET_CT_7546:
if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT)
freq = SPX5_CORE_CLOCK_250MHZ;
else if (sparx5->coreclock != SPX5_CORE_CLOCK_250MHZ)
freq = 0; /* Not supported */
break;
case SPX5_TARGET_CT_7549:
case SPX5_TARGET_CT_7552:
case SPX5_TARGET_CT_7556:
if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT)
freq = SPX5_CORE_CLOCK_500MHZ;
else if (sparx5->coreclock != SPX5_CORE_CLOCK_500MHZ)
freq = 0; /* Not supported */
break;
case SPX5_TARGET_CT_7558:
case SPX5_TARGET_CT_7558TSN:
if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT)
freq = SPX5_CORE_CLOCK_625MHZ;
else if (sparx5->coreclock != SPX5_CORE_CLOCK_625MHZ)
freq = 0; /* Not supported */
break;
case SPX5_TARGET_CT_7546TSN:
if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT)
freq = SPX5_CORE_CLOCK_625MHZ;
break;
case SPX5_TARGET_CT_7549TSN:
case SPX5_TARGET_CT_7552TSN:
case SPX5_TARGET_CT_7556TSN:
if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT)
freq = SPX5_CORE_CLOCK_625MHZ;
else if (sparx5->coreclock == SPX5_CORE_CLOCK_250MHZ)
freq = 0; /* Not supported */
break;
default:
dev_err(sparx5->dev, "Target (%#04x) not supported\n",
sparx5->target_ct);
return -ENODEV;
}
switch (freq) {
case SPX5_CORE_CLOCK_250MHZ:
clk_div = 10;
pol_upd_int = 312;
break;
case SPX5_CORE_CLOCK_500MHZ:
clk_div = 5;
pol_upd_int = 624;
break;
case SPX5_CORE_CLOCK_625MHZ:
clk_div = 4;
pol_upd_int = 780;
break;
default:
dev_err(sparx5->dev, "%d coreclock not supported on (%#04x)\n",
sparx5->coreclock, sparx5->target_ct);
return -EINVAL;
}
/* Update state with chosen frequency */
sparx5->coreclock = freq;
/* Configure the LCPLL */
spx5_rmw(CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_DIV_SET(clk_div) |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_PRE_DIV_SET(0) |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_DIR_SET(0) |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_SEL_SET(0) |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_ENA_SET(0) |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_ENA_SET(1),
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_DIV |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_PRE_DIV |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_DIR |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_SEL |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_ENA |
CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_ENA,
sparx5,
CLKGEN_LCPLL1_CORE_CLK_CFG);
clk_period = sparx5_clk_period(freq);
spx5_rmw(HSCH_SYS_CLK_PER_SYS_CLK_PER_100PS_SET(clk_period / 100),
HSCH_SYS_CLK_PER_SYS_CLK_PER_100PS,
sparx5,
HSCH_SYS_CLK_PER);
spx5_rmw(ANA_AC_POL_BDLB_DLB_CTRL_CLK_PERIOD_01NS_SET(clk_period / 100),
ANA_AC_POL_BDLB_DLB_CTRL_CLK_PERIOD_01NS,
sparx5,
ANA_AC_POL_BDLB_DLB_CTRL);
spx5_rmw(ANA_AC_POL_SLB_DLB_CTRL_CLK_PERIOD_01NS_SET(clk_period / 100),
ANA_AC_POL_SLB_DLB_CTRL_CLK_PERIOD_01NS,
sparx5,
ANA_AC_POL_SLB_DLB_CTRL);
spx5_rmw(LRN_AUTOAGE_CFG_1_CLK_PERIOD_01NS_SET(clk_period / 100),
LRN_AUTOAGE_CFG_1_CLK_PERIOD_01NS,
sparx5,
LRN_AUTOAGE_CFG_1);
for (idx = 0; idx < 3; idx++)
spx5_rmw(GCB_SIO_CLOCK_SYS_CLK_PERIOD_SET(clk_period / 100),
GCB_SIO_CLOCK_SYS_CLK_PERIOD,
sparx5,
GCB_SIO_CLOCK(idx));
spx5_rmw(HSCH_TAS_STATEMACHINE_CFG_REVISIT_DLY_SET
((256 * 1000) / clk_period),
HSCH_TAS_STATEMACHINE_CFG_REVISIT_DLY,
sparx5,
HSCH_TAS_STATEMACHINE_CFG);
spx5_rmw(ANA_AC_POL_POL_UPD_INT_CFG_POL_UPD_INT_SET(pol_upd_int),
ANA_AC_POL_POL_UPD_INT_CFG_POL_UPD_INT,
sparx5,
ANA_AC_POL_POL_UPD_INT_CFG);
return 0;
}
static int sparx5_qlim_set(struct sparx5 *sparx5)
{
u32 res, dp, prio;
for (res = 0; res < 2; res++) {
for (prio = 0; prio < 8; prio++)
spx5_wr(0xFFF, sparx5,
QRES_RES_CFG(prio + 630 + res * 1024));
for (dp = 0; dp < 4; dp++)
spx5_wr(0xFFF, sparx5,
QRES_RES_CFG(dp + 638 + res * 1024));
}
/* Set 80,90,95,100% of memory size for top watermarks */
spx5_wr(QLIM_WM(80), sparx5, XQS_QLIMIT_SHR_QLIM_CFG(0));
spx5_wr(QLIM_WM(90), sparx5, XQS_QLIMIT_SHR_CTOP_CFG(0));
spx5_wr(QLIM_WM(95), sparx5, XQS_QLIMIT_SHR_ATOP_CFG(0));
spx5_wr(QLIM_WM(100), sparx5, XQS_QLIMIT_SHR_TOP_CFG(0));
return 0;
}
/* Some boards needs to map the SGPIO for signal detect explicitly to the
* port module
*/
static void sparx5_board_init(struct sparx5 *sparx5)
{
int idx;
if (!sparx5->sd_sgpio_remapping)
return;
/* Enable SGPIO Signal Detect remapping */
spx5_rmw(GCB_HW_SGPIO_SD_CFG_SD_MAP_SEL,
GCB_HW_SGPIO_SD_CFG_SD_MAP_SEL,
sparx5,
GCB_HW_SGPIO_SD_CFG);
/* Refer to LOS SGPIO */
for (idx = 0; idx < SPX5_PORTS; idx++)
if (sparx5->ports[idx])
if (sparx5->ports[idx]->conf.sd_sgpio != ~0)
spx5_wr(sparx5->ports[idx]->conf.sd_sgpio,
sparx5,
GCB_HW_SGPIO_TO_SD_MAP_CFG(idx));
}
static int sparx5_start(struct sparx5 *sparx5)
{
u32 idx;
/* Setup own UPSIDs */
for (idx = 0; idx < 3; idx++) {
spx5_wr(idx, sparx5, ANA_AC_OWN_UPSID(idx));
spx5_wr(idx, sparx5, ANA_CL_OWN_UPSID(idx));
spx5_wr(idx, sparx5, ANA_L2_OWN_UPSID(idx));
spx5_wr(idx, sparx5, REW_OWN_UPSID(idx));
}
/* Enable CPU ports */
for (idx = SPX5_PORTS; idx < SPX5_PORTS_ALL; idx++)
spx5_rmw(QFWD_SWITCH_PORT_MODE_PORT_ENA_SET(1),
QFWD_SWITCH_PORT_MODE_PORT_ENA,
sparx5,
QFWD_SWITCH_PORT_MODE(idx));
/* Forwarding masks to be added in later patches */
/* CPU copy CPU pgids */
spx5_wr(ANA_AC_PGID_MISC_CFG_PGID_CPU_COPY_ENA_SET(1),
sparx5, ANA_AC_PGID_MISC_CFG(PGID_CPU));
spx5_wr(ANA_AC_PGID_MISC_CFG_PGID_CPU_COPY_ENA_SET(1),
sparx5, ANA_AC_PGID_MISC_CFG(PGID_BCAST));
/* Recalc injected frame FCS */
for (idx = SPX5_PORT_CPU_0; idx <= SPX5_PORT_CPU_1; idx++)
spx5_rmw(ANA_CL_FILTER_CTRL_FORCE_FCS_UPDATE_ENA_SET(1),
ANA_CL_FILTER_CTRL_FORCE_FCS_UPDATE_ENA,
sparx5, ANA_CL_FILTER_CTRL(idx));
/* MAC/VLAN support to be added in later patches */
/* Enable queue limitation watermarks */
sparx5_qlim_set(sparx5);
/* netdev and resource calendar support to be added in later patches */
sparx5_board_init(sparx5);
/* Injection/Extraction config to be added in later patches */
return 0;
}
static int mchp_sparx5_probe(struct platform_device *pdev)
{
struct initial_port_config *configs, *config;
struct device_node *np = pdev->dev.of_node;
struct device_node *ports, *portnp;
struct reset_control *reset;
struct sparx5 *sparx5;
int idx = 0, err = 0;
u8 *mac_addr;
if (!np && !pdev->dev.platform_data)
return -ENODEV;
sparx5 = devm_kzalloc(&pdev->dev, sizeof(*sparx5), GFP_KERNEL);
if (!sparx5)
return -ENOMEM;
platform_set_drvdata(pdev, sparx5);
sparx5->pdev = pdev;
sparx5->dev = &pdev->dev;
/* Do switch core reset if available */
reset = devm_reset_control_get_optional_shared(&pdev->dev, "switch");
if (IS_ERR(reset))
return dev_err_probe(&pdev->dev, PTR_ERR(reset),
"Failed to get switch reset controller.\n");
reset_control_reset(reset);
/* Default values, some from DT */
sparx5->coreclock = SPX5_CORE_CLOCK_DEFAULT;
ports = of_get_child_by_name(np, "ethernet-ports");
if (!ports) {
dev_err(sparx5->dev, "no ethernet-ports child node found\n");
return -ENODEV;
}
sparx5->port_count = of_get_child_count(ports);
configs = kcalloc(sparx5->port_count,
sizeof(struct initial_port_config), GFP_KERNEL);
if (!configs) {
err = -ENOMEM;
goto cleanup_pnode;
}
for_each_available_child_of_node(ports, portnp) {
struct sparx5_port_config *conf;
struct phy *serdes;
u32 portno;
err = of_property_read_u32(portnp, "reg", &portno);
if (err) {
dev_err(sparx5->dev, "port reg property error\n");
continue;
}
config = &configs[idx];
conf = &config->conf;
conf->speed = SPEED_UNKNOWN;
conf->bandwidth = SPEED_UNKNOWN;
err = of_get_phy_mode(portnp, &conf->phy_mode);
if (err) {
dev_err(sparx5->dev, "port %u: missing phy-mode\n",
portno);
continue;
}
err = of_property_read_u32(portnp, "microchip,bandwidth",
&conf->bandwidth);
if (err) {
dev_err(sparx5->dev, "port %u: missing bandwidth\n",
portno);
continue;
}
err = of_property_read_u32(portnp, "microchip,sd-sgpio", &conf->sd_sgpio);
if (err)
conf->sd_sgpio = ~0;
else
sparx5->sd_sgpio_remapping = true;
serdes = devm_of_phy_get(sparx5->dev, portnp, NULL);
if (IS_ERR(serdes)) {
err = dev_err_probe(sparx5->dev, PTR_ERR(serdes),
"port %u: missing serdes\n",
portno);
goto cleanup_config;
}
config->portno = portno;
config->node = portnp;
config->serdes = serdes;
conf->media = PHY_MEDIA_DAC;
conf->serdes_reset = true;
conf->portmode = conf->phy_mode;
conf->power_down = true;
idx++;
}
err = sparx5_create_targets(sparx5);
if (err)
goto cleanup_config;
if (of_get_mac_address(np, mac_addr)) {
dev_info(sparx5->dev, "MAC addr was not set, use random MAC\n");
eth_random_addr(sparx5->base_mac);
sparx5->base_mac[5] = 0;
} else {
ether_addr_copy(sparx5->base_mac, mac_addr);
}
/* Inj/Xtr IRQ support to be added in later patches */
/* Read chip ID to check CPU interface */
sparx5->chip_id = spx5_rd(sparx5, GCB_CHIP_ID);
sparx5->target_ct = (enum spx5_target_chiptype)
GCB_CHIP_ID_PART_ID_GET(sparx5->chip_id);
/* Initialize Switchcore and internal RAMs */
err = sparx5_init_switchcore(sparx5);
if (err) {
dev_err(sparx5->dev, "Switchcore initialization error\n");
goto cleanup_config;
}
/* Initialize the LC-PLL (core clock) and set affected registers */
err = sparx5_init_coreclock(sparx5);
if (err) {
dev_err(sparx5->dev, "LC-PLL initialization error\n");
goto cleanup_config;
}
for (idx = 0; idx < sparx5->port_count; ++idx) {
config = &configs[idx];
if (!config->node)
continue;
err = sparx5_create_port(sparx5, config);
if (err) {
dev_err(sparx5->dev, "port create error\n");
goto cleanup_ports;
}
}
err = sparx5_start(sparx5);
if (err) {
dev_err(sparx5->dev, "Start failed\n");
goto cleanup_ports;
}
goto cleanup_config;
cleanup_ports:
/* Port cleanup to be added in later patches */
cleanup_config:
kfree(configs);
cleanup_pnode:
of_node_put(ports);
return err;
}
static const struct of_device_id mchp_sparx5_match[] = {
{ .compatible = "microchip,sparx5-switch" },
{ }
};
MODULE_DEVICE_TABLE(of, mchp_sparx5_match);
static struct platform_driver mchp_sparx5_driver = {
.probe = mchp_sparx5_probe,
.driver = {
.name = "sparx5-switch",
.of_match_table = mchp_sparx5_match,
},
};
module_platform_driver(mchp_sparx5_driver);
MODULE_DESCRIPTION("Microchip Sparx5 switch driver");
MODULE_AUTHOR("Steen Hegelund <steen.hegelund@microchip.com>");
MODULE_LICENSE("Dual MIT/GPL");
/* SPDX-License-Identifier: GPL-2.0+ */
/* Microchip Sparx5 Switch driver
*
* Copyright (c) 2021 Microchip Technology Inc. and its subsidiaries.
*/
#ifndef __SPARX5_MAIN_H__
#define __SPARX5_MAIN_H__
#include <linux/types.h>
#include <linux/phy/phy.h>
#include <linux/netdevice.h>
#include <linux/phy.h>
#include <linux/if_vlan.h>
#include <linux/bitmap.h>
#include <linux/phylink.h>
/* Target chip type */
enum spx5_target_chiptype {
SPX5_TARGET_CT_7546 = 0x7546, /* SparX-5-64 Enterprise */
SPX5_TARGET_CT_7549 = 0x7549, /* SparX-5-90 Enterprise */
SPX5_TARGET_CT_7552 = 0x7552, /* SparX-5-128 Enterprise */
SPX5_TARGET_CT_7556 = 0x7556, /* SparX-5-160 Enterprise */
SPX5_TARGET_CT_7558 = 0x7558, /* SparX-5-200 Enterprise */
SPX5_TARGET_CT_7546TSN = 0x47546, /* SparX-5-64i Industrial */
SPX5_TARGET_CT_7549TSN = 0x47549, /* SparX-5-90i Industrial */
SPX5_TARGET_CT_7552TSN = 0x47552, /* SparX-5-128i Industrial */
SPX5_TARGET_CT_7556TSN = 0x47556, /* SparX-5-160i Industrial */
SPX5_TARGET_CT_7558TSN = 0x47558, /* SparX-5-200i Industrial */
};
enum sparx5_port_max_tags {
SPX5_PORT_MAX_TAGS_NONE, /* No extra tags allowed */
SPX5_PORT_MAX_TAGS_ONE, /* Single tag allowed */
SPX5_PORT_MAX_TAGS_TWO /* Single and double tag allowed */
};
enum sparx5_vlan_port_type {
SPX5_VLAN_PORT_TYPE_UNAWARE, /* VLAN unaware port */
SPX5_VLAN_PORT_TYPE_C, /* C-port */
SPX5_VLAN_PORT_TYPE_S, /* S-port */
SPX5_VLAN_PORT_TYPE_S_CUSTOM /* S-port using custom type */
};
#define SPX5_PORTS 65
#define SPX5_PORT_CPU (SPX5_PORTS) /* Next port is CPU port */
#define SPX5_PORT_CPU_0 (SPX5_PORT_CPU + 0) /* CPU Port 65 */
#define SPX5_PORT_CPU_1 (SPX5_PORT_CPU + 1) /* CPU Port 66 */
#define SPX5_PORT_VD0 (SPX5_PORT_CPU + 2) /* VD0/Port 67 used for IPMC */
#define SPX5_PORT_VD1 (SPX5_PORT_CPU + 3) /* VD1/Port 68 used for AFI/OAM */
#define SPX5_PORT_VD2 (SPX5_PORT_CPU + 4) /* VD2/Port 69 used for IPinIP*/
#define SPX5_PORTS_ALL (SPX5_PORT_CPU + 5) /* Total number of ports */
#define PGID_BASE SPX5_PORTS /* Starts after port PGIDs */
#define PGID_UC_FLOOD (PGID_BASE + 0)
#define PGID_MC_FLOOD (PGID_BASE + 1)
#define PGID_IPV4_MC_DATA (PGID_BASE + 2)
#define PGID_IPV4_MC_CTRL (PGID_BASE + 3)
#define PGID_IPV6_MC_DATA (PGID_BASE + 4)
#define PGID_IPV6_MC_CTRL (PGID_BASE + 5)
#define PGID_BCAST (PGID_BASE + 6)
#define PGID_CPU (PGID_BASE + 7)
#define IFH_LEN 9 /* 36 bytes */
#define NULL_VID 0
#define SPX5_MACT_PULL_DELAY (2 * HZ)
#define SPX5_STATS_CHECK_DELAY (1 * HZ)
#define SPX5_PRIOS 8 /* Number of priority queues */
#define SPX5_BUFFER_CELL_SZ 184 /* Cell size */
#define SPX5_BUFFER_MEMORY 4194280 /* 22795 words * 184 bytes */
struct sparx5;
struct sparx5_port_config {
phy_interface_t portmode;
u32 bandwidth;
int speed;
int duplex;
enum phy_media media;
bool inband;
bool power_down;
bool autoneg;
bool serdes_reset;
u32 pause;
u32 pause_adv;
phy_interface_t phy_mode;
u32 sd_sgpio;
};
struct sparx5_port {
struct net_device *ndev;
struct sparx5 *sparx5;
struct device_node *of_node;
struct phy *serdes;
struct sparx5_port_config conf;
u16 portno;
/* Ingress default VLAN (pvid) */
u16 pvid;
/* Egress default VLAN (vid) */
u16 vid;
bool signd_internal;
bool signd_active_high;
bool signd_enable;
bool flow_control;
enum sparx5_port_max_tags max_vlan_tags;
enum sparx5_vlan_port_type vlan_type;
u32 custom_etype;
u32 ifh[IFH_LEN];
bool vlan_aware;
};
enum sparx5_core_clockfreq {
SPX5_CORE_CLOCK_DEFAULT, /* Defaults to the highest supported frequency */
SPX5_CORE_CLOCK_250MHZ, /* 250MHZ core clock frequency */
SPX5_CORE_CLOCK_500MHZ, /* 500MHZ core clock frequency */
SPX5_CORE_CLOCK_625MHZ, /* 625MHZ core clock frequency */
};
struct sparx5 {
struct platform_device *pdev;
struct device *dev;
u32 chip_id;
enum spx5_target_chiptype target_ct;
void __iomem *regs[NUM_TARGETS];
int port_count;
struct mutex lock; /* MAC reg lock */
/* port structures are in net device */
struct sparx5_port *ports[SPX5_PORTS];
enum sparx5_core_clockfreq coreclock;
u8 base_mac[ETH_ALEN];
/* Board specifics */
bool sd_sgpio_remapping;
};
/* Clock period in picoseconds */
static inline u32 sparx5_clk_period(enum sparx5_core_clockfreq cclock)
{
switch (cclock) {
case SPX5_CORE_CLOCK_250MHZ:
return 4000;
case SPX5_CORE_CLOCK_500MHZ:
return 2000;
case SPX5_CORE_CLOCK_625MHZ:
default:
return 1600;
}
}
/* Calculate raw offset */
static inline __pure int spx5_offset(int id, int tinst, int tcnt,
int gbase, int ginst,
int gcnt, int gwidth,
int raddr, int rinst,
int rcnt, int rwidth)
{
WARN_ON((tinst) >= tcnt);
WARN_ON((ginst) >= gcnt);
WARN_ON((rinst) >= rcnt);
return gbase + ((ginst) * gwidth) +
raddr + ((rinst) * rwidth);
}
/* Read, Write and modify registers content.
* The register definition macros start at the id
*/
static inline void __iomem *spx5_addr(void __iomem *base[],
int id, int tinst, int tcnt,
int gbase, int ginst,
int gcnt, int gwidth,
int raddr, int rinst,
int rcnt, int rwidth)
{
WARN_ON((tinst) >= tcnt);
WARN_ON((ginst) >= gcnt);
WARN_ON((rinst) >= rcnt);
return base[id + (tinst)] +
gbase + ((ginst) * gwidth) +
raddr + ((rinst) * rwidth);
}
static inline void __iomem *spx5_inst_addr(void __iomem *base,
int gbase, int ginst,
int gcnt, int gwidth,
int raddr, int rinst,
int rcnt, int rwidth)
{
WARN_ON((ginst) >= gcnt);
WARN_ON((rinst) >= rcnt);
return base +
gbase + ((ginst) * gwidth) +
raddr + ((rinst) * rwidth);
}
static inline u32 spx5_rd(struct sparx5 *sparx5, int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
return readl(spx5_addr(sparx5->regs, id, tinst, tcnt, gbase, ginst,
gcnt, gwidth, raddr, rinst, rcnt, rwidth));
}
static inline u32 spx5_inst_rd(void __iomem *iomem, int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
return readl(spx5_inst_addr(iomem, gbase, ginst,
gcnt, gwidth, raddr, rinst, rcnt, rwidth));
}
static inline void spx5_wr(u32 val, struct sparx5 *sparx5,
int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
writel(val, spx5_addr(sparx5->regs, id, tinst, tcnt,
gbase, ginst, gcnt, gwidth,
raddr, rinst, rcnt, rwidth));
}
static inline void spx5_inst_wr(u32 val, void __iomem *iomem,
int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
writel(val, spx5_inst_addr(iomem,
gbase, ginst, gcnt, gwidth,
raddr, rinst, rcnt, rwidth));
}
static inline void spx5_rmw(u32 val, u32 mask, struct sparx5 *sparx5,
int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
u32 nval;
nval = readl(spx5_addr(sparx5->regs, id, tinst, tcnt, gbase, ginst,
gcnt, gwidth, raddr, rinst, rcnt, rwidth));
nval = (nval & ~mask) | (val & mask);
writel(nval, spx5_addr(sparx5->regs, id, tinst, tcnt, gbase, ginst,
gcnt, gwidth, raddr, rinst, rcnt, rwidth));
}
static inline void spx5_inst_rmw(u32 val, u32 mask, void __iomem *iomem,
int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
u32 nval;
nval = readl(spx5_inst_addr(iomem, gbase, ginst, gcnt, gwidth, raddr,
rinst, rcnt, rwidth));
nval = (nval & ~mask) | (val & mask);
writel(nval, spx5_inst_addr(iomem, gbase, ginst, gcnt, gwidth, raddr,
rinst, rcnt, rwidth));
}
static inline void __iomem *spx5_inst_get(struct sparx5 *sparx5, int id, int tinst)
{
return sparx5->regs[id + tinst];
}
static inline void __iomem *spx5_reg_get(struct sparx5 *sparx5,
int id, int tinst, int tcnt,
int gbase, int ginst, int gcnt, int gwidth,
int raddr, int rinst, int rcnt, int rwidth)
{
return spx5_addr(sparx5->regs, id, tinst, tcnt,
gbase, ginst, gcnt, gwidth,
raddr, rinst, rcnt, rwidth);
}
#endif /* __SPARX5_MAIN_H__ */
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