drivers/net/ethernet/netronome/nfp/nfpcore/nfp_nsp_eth.c - hafnium/third_party/linux - Git at Google

 // SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
 /* Copyright (C) 2015-2017 Netronome Systems, Inc. */

 /* Authors: David Brunecz <david.brunecz@netronome.com>
  *          Jakub Kicinski <jakub.kicinski@netronome.com>
  *          Jason Mcmullan <jason.mcmullan@netronome.com>
  */

 #include <linux/bitfield.h>
 #include <linux/ethtool.h>
 #include <linux/if_ether.h>
 #include <linux/kernel.h>
 #include <linux/module.h>

 #include "nfp.h"
 #include "nfp_nsp.h"
 #include "nfp6000/nfp6000.h"

 #define NSP_ETH_NBI_PORT_COUNT		24
 #define NSP_ETH_MAX_COUNT		(2 * NSP_ETH_NBI_PORT_COUNT)
 #define NSP_ETH_TABLE_SIZE		(NSP_ETH_MAX_COUNT *		\
 					 sizeof(union eth_table_entry))

 #define NSP_ETH_PORT_LANES		GENMASK_ULL(3, 0)
 #define NSP_ETH_PORT_INDEX		GENMASK_ULL(15, 8)
 #define NSP_ETH_PORT_LABEL		GENMASK_ULL(53, 48)
 #define NSP_ETH_PORT_PHYLABEL		GENMASK_ULL(59, 54)
 #define NSP_ETH_PORT_FEC_SUPP_BASER	BIT_ULL(60)
 #define NSP_ETH_PORT_FEC_SUPP_RS	BIT_ULL(61)

 #define NSP_ETH_PORT_LANES_MASK		cpu_to_le64(NSP_ETH_PORT_LANES)

 #define NSP_ETH_STATE_CONFIGURED	BIT_ULL(0)
 #define NSP_ETH_STATE_ENABLED		BIT_ULL(1)
 #define NSP_ETH_STATE_TX_ENABLED	BIT_ULL(2)
 #define NSP_ETH_STATE_RX_ENABLED	BIT_ULL(3)
 #define NSP_ETH_STATE_RATE		GENMASK_ULL(11, 8)
 #define NSP_ETH_STATE_INTERFACE		GENMASK_ULL(19, 12)
 #define NSP_ETH_STATE_MEDIA		GENMASK_ULL(21, 20)
 #define NSP_ETH_STATE_OVRD_CHNG		BIT_ULL(22)
 #define NSP_ETH_STATE_ANEG		GENMASK_ULL(25, 23)
 #define NSP_ETH_STATE_FEC		GENMASK_ULL(27, 26)

 #define NSP_ETH_CTRL_CONFIGURED		BIT_ULL(0)
 #define NSP_ETH_CTRL_ENABLED		BIT_ULL(1)
 #define NSP_ETH_CTRL_TX_ENABLED		BIT_ULL(2)
 #define NSP_ETH_CTRL_RX_ENABLED		BIT_ULL(3)
 #define NSP_ETH_CTRL_SET_RATE		BIT_ULL(4)
 #define NSP_ETH_CTRL_SET_LANES		BIT_ULL(5)
 #define NSP_ETH_CTRL_SET_ANEG		BIT_ULL(6)
 #define NSP_ETH_CTRL_SET_FEC		BIT_ULL(7)

 enum nfp_eth_raw {
 	NSP_ETH_RAW_PORT = 0,
 	NSP_ETH_RAW_STATE,
 	NSP_ETH_RAW_MAC,
 	NSP_ETH_RAW_CONTROL,

 	NSP_ETH_NUM_RAW
 };

 enum nfp_eth_rate {
 	RATE_INVALID = 0,
 	RATE_10M,
 	RATE_100M,
 	RATE_1G,
 	RATE_10G,
 	RATE_25G,
 };

 union eth_table_entry {
 	struct {
 		__le64 port;
 		__le64 state;
 		u8 mac_addr[6];
 		u8 resv[2];
 		__le64 control;
 	};
 	__le64 raw[NSP_ETH_NUM_RAW];
 };

 static const struct {
 	enum nfp_eth_rate rate;
 	unsigned int speed;
 } nsp_eth_rate_tbl[] = {
 	{ RATE_INVALID,	0, },
 	{ RATE_10M,	SPEED_10, },
 	{ RATE_100M,	SPEED_100, },
 	{ RATE_1G,	SPEED_1000, },
 	{ RATE_10G,	SPEED_10000, },
 	{ RATE_25G,	SPEED_25000, },
 };

 static unsigned int nfp_eth_rate2speed(enum nfp_eth_rate rate)
 {
 	int i;

 	for (i = 0; i < ARRAY_SIZE(nsp_eth_rate_tbl); i++)
 		if (nsp_eth_rate_tbl[i].rate == rate)
 			return nsp_eth_rate_tbl[i].speed;

 	return 0;
 }

 static unsigned int nfp_eth_speed2rate(unsigned int speed)
 {
 	int i;

 	for (i = 0; i < ARRAY_SIZE(nsp_eth_rate_tbl); i++)
 		if (nsp_eth_rate_tbl[i].speed == speed)
 			return nsp_eth_rate_tbl[i].rate;

 	return RATE_INVALID;
 }

 static void nfp_eth_copy_mac_reverse(u8 *dst, const u8 *src)
 {
 	int i;

 	for (i = 0; i < ETH_ALEN; i++)
 		dst[ETH_ALEN - i - 1] = src[i];
 }

 static void
 nfp_eth_port_translate(struct nfp_nsp *nsp, const union eth_table_entry *src,
 		       unsigned int index, struct nfp_eth_table_port *dst)
 {
 	unsigned int rate;
 	unsigned int fec;
 	u64 port, state;

 	port = le64_to_cpu(src->port);
 	state = le64_to_cpu(src->state);

 	dst->eth_index = FIELD_GET(NSP_ETH_PORT_INDEX, port);
 	dst->index = index;
 	dst->nbi = index / NSP_ETH_NBI_PORT_COUNT;
 	dst->base = index % NSP_ETH_NBI_PORT_COUNT;
 	dst->lanes = FIELD_GET(NSP_ETH_PORT_LANES, port);

 	dst->enabled = FIELD_GET(NSP_ETH_STATE_ENABLED, state);
 	dst->tx_enabled = FIELD_GET(NSP_ETH_STATE_TX_ENABLED, state);
 	dst->rx_enabled = FIELD_GET(NSP_ETH_STATE_RX_ENABLED, state);

 	rate = nfp_eth_rate2speed(FIELD_GET(NSP_ETH_STATE_RATE, state));
 	dst->speed = dst->lanes * rate;

 	dst->interface = FIELD_GET(NSP_ETH_STATE_INTERFACE, state);
 	dst->media = FIELD_GET(NSP_ETH_STATE_MEDIA, state);

 	nfp_eth_copy_mac_reverse(dst->mac_addr, src->mac_addr);

 	dst->label_port = FIELD_GET(NSP_ETH_PORT_PHYLABEL, port);
 	dst->label_subport = FIELD_GET(NSP_ETH_PORT_LABEL, port);

 	if (nfp_nsp_get_abi_ver_minor(nsp) < 17)
 		return;

 	dst->override_changed = FIELD_GET(NSP_ETH_STATE_OVRD_CHNG, state);
 	dst->aneg = FIELD_GET(NSP_ETH_STATE_ANEG, state);

 	if (nfp_nsp_get_abi_ver_minor(nsp) < 22)
 		return;

 	fec = FIELD_GET(NSP_ETH_PORT_FEC_SUPP_BASER, port);
 	dst->fec_modes_supported |= fec << NFP_FEC_BASER_BIT;
 	fec = FIELD_GET(NSP_ETH_PORT_FEC_SUPP_RS, port);
 	dst->fec_modes_supported |= fec << NFP_FEC_REED_SOLOMON_BIT;
 	if (dst->fec_modes_supported)
 		dst->fec_modes_supported |= NFP_FEC_AUTO | NFP_FEC_DISABLED;

 	dst->fec = 1 << FIELD_GET(NSP_ETH_STATE_FEC, state);
 }

 static void
 nfp_eth_calc_port_geometry(struct nfp_cpp *cpp, struct nfp_eth_table *table)
 {
 	unsigned int i, j;

 	for (i = 0; i < table->count; i++) {
 		table->max_index = max(table->max_index, table->ports[i].index);

 		for (j = 0; j < table->count; j++) {
 			if (table->ports[i].label_port !=
 			    table->ports[j].label_port)
 				continue;
 			table->ports[i].port_lanes += table->ports[j].lanes;

 			if (i == j)
 				continue;
 			if (table->ports[i].label_subport ==
 			    table->ports[j].label_subport)
 				nfp_warn(cpp,
 					 "Port %d subport %d is a duplicate\n",
 					 table->ports[i].label_port,
 					 table->ports[i].label_subport);

 			table->ports[i].is_split = true;
 		}
 	}
 }

 static void
 nfp_eth_calc_port_type(struct nfp_cpp *cpp, struct nfp_eth_table_port *entry)
 {
 	if (entry->interface == NFP_INTERFACE_NONE) {
 		entry->port_type = PORT_NONE;
 		return;
 	} else if (entry->interface == NFP_INTERFACE_RJ45) {
 		entry->port_type = PORT_TP;
 		return;
 	}

 	if (entry->media == NFP_MEDIA_FIBRE)
 		entry->port_type = PORT_FIBRE;
 	else
 		entry->port_type = PORT_DA;
 }

 /**
  * nfp_eth_read_ports() - retrieve port information
  * @cpp:	NFP CPP handle
  *
  * Read the port information from the device.  Returned structure should
  * be freed with kfree() once no longer needed.
  *
  * Return: populated ETH table or NULL on error.
  */
 struct nfp_eth_table *nfp_eth_read_ports(struct nfp_cpp *cpp)
 {
 	struct nfp_eth_table *ret;
 	struct nfp_nsp *nsp;

 	nsp = nfp_nsp_open(cpp);
 	if (IS_ERR(nsp))
 		return NULL;

 	ret = __nfp_eth_read_ports(cpp, nsp);
 	nfp_nsp_close(nsp);

 	return ret;
 }

 struct nfp_eth_table *
 __nfp_eth_read_ports(struct nfp_cpp *cpp, struct nfp_nsp *nsp)
 {
 	union eth_table_entry *entries;
 	struct nfp_eth_table *table;
 	int i, j, ret, cnt = 0;

 	entries = kzalloc(NSP_ETH_TABLE_SIZE, GFP_KERNEL);
 	if (!entries)
 		return NULL;

 	ret = nfp_nsp_read_eth_table(nsp, entries, NSP_ETH_TABLE_SIZE);
 	if (ret < 0) {
 		nfp_err(cpp, "reading port table failed %d\n", ret);
 		goto err;
 	}

 	for (i = 0; i < NSP_ETH_MAX_COUNT; i++)
 		if (entries[i].port & NSP_ETH_PORT_LANES_MASK)
 			cnt++;

 	/* Some versions of flash will give us 0 instead of port count.
 	 * For those that give a port count, verify it against the value
 	 * calculated above.
 	 */
 	if (ret && ret != cnt) {
 		nfp_err(cpp, "table entry count reported (%d) does not match entries present (%d)\n",
 			ret, cnt);
 		goto err;
 	}

 	table = kzalloc(struct_size(table, ports, cnt), GFP_KERNEL);
 	if (!table)
 		goto err;

 	table->count = cnt;
 	for (i = 0, j = 0; i < NSP_ETH_MAX_COUNT; i++)
 		if (entries[i].port & NSP_ETH_PORT_LANES_MASK)
 			nfp_eth_port_translate(nsp, &entries[i], i,
 					       &table->ports[j++]);

 	nfp_eth_calc_port_geometry(cpp, table);
 	for (i = 0; i < table->count; i++)
 		nfp_eth_calc_port_type(cpp, &table->ports[i]);

 	kfree(entries);

 	return table;

 err:
 	kfree(entries);
 	return NULL;
 }

 struct nfp_nsp *nfp_eth_config_start(struct nfp_cpp *cpp, unsigned int idx)
 {
 	union eth_table_entry *entries;
 	struct nfp_nsp *nsp;
 	int ret;

 	entries = kzalloc(NSP_ETH_TABLE_SIZE, GFP_KERNEL);
 	if (!entries)
 		return ERR_PTR(-ENOMEM);

 	nsp = nfp_nsp_open(cpp);
 	if (IS_ERR(nsp)) {
 		kfree(entries);
 		return nsp;
 	}

 	ret = nfp_nsp_read_eth_table(nsp, entries, NSP_ETH_TABLE_SIZE);
 	if (ret < 0) {
 		nfp_err(cpp, "reading port table failed %d\n", ret);
 		goto err;
 	}

 	if (!(entries[idx].port & NSP_ETH_PORT_LANES_MASK)) {
 		nfp_warn(cpp, "trying to set port state on disabled port %d\n",
 			 idx);
 		goto err;
 	}

 	nfp_nsp_config_set_state(nsp, entries, idx);
 	return nsp;

 err:
 	nfp_nsp_close(nsp);
 	kfree(entries);
 	return ERR_PTR(-EIO);
 }

 void nfp_eth_config_cleanup_end(struct nfp_nsp *nsp)
 {
 	union eth_table_entry *entries = nfp_nsp_config_entries(nsp);

 	nfp_nsp_config_set_modified(nsp, false);
 	nfp_nsp_config_clear_state(nsp);
 	nfp_nsp_close(nsp);
 	kfree(entries);
 }

 /**
  * nfp_eth_config_commit_end() - perform recorded configuration changes
  * @nsp:	NFP NSP handle returned from nfp_eth_config_start()
  *
  * Perform the configuration which was requested with __nfp_eth_set_*()
  * helpers and recorded in @nsp state.  If device was already configured
  * as requested or no __nfp_eth_set_*() operations were made no NSP command
  * will be performed.
  *
  * Return:
  * 0 - configuration successful;
  * 1 - no changes were needed;
  * -ERRNO - configuration failed.
  */
 int nfp_eth_config_commit_end(struct nfp_nsp *nsp)
 {
 	union eth_table_entry *entries = nfp_nsp_config_entries(nsp);
 	int ret = 1;

 	if (nfp_nsp_config_modified(nsp)) {
 		ret = nfp_nsp_write_eth_table(nsp, entries, NSP_ETH_TABLE_SIZE);
 		ret = ret < 0 ? ret : 0;
 	}

 	nfp_eth_config_cleanup_end(nsp);

 	return ret;
 }

 /**
  * nfp_eth_set_mod_enable() - set PHY module enable control bit
  * @cpp:	NFP CPP handle
  * @idx:	NFP chip-wide port index
  * @enable:	Desired state
  *
  * Enable or disable PHY module (this usually means setting the TX lanes
  * disable bits).
  *
  * Return:
  * 0 - configuration successful;
  * 1 - no changes were needed;
  * -ERRNO - configuration failed.
  */
 int nfp_eth_set_mod_enable(struct nfp_cpp *cpp, unsigned int idx, bool enable)
 {
 	union eth_table_entry *entries;
 	struct nfp_nsp *nsp;
 	u64 reg;

 	nsp = nfp_eth_config_start(cpp, idx);
 	if (IS_ERR(nsp))
 		return PTR_ERR(nsp);

 	entries = nfp_nsp_config_entries(nsp);

 	/* Check if we are already in requested state */
 	reg = le64_to_cpu(entries[idx].state);
 	if (enable != FIELD_GET(NSP_ETH_CTRL_ENABLED, reg)) {
 		reg = le64_to_cpu(entries[idx].control);
 		reg &= ~NSP_ETH_CTRL_ENABLED;
 		reg |= FIELD_PREP(NSP_ETH_CTRL_ENABLED, enable);
 		entries[idx].control = cpu_to_le64(reg);

 		nfp_nsp_config_set_modified(nsp, true);
 	}

 	return nfp_eth_config_commit_end(nsp);
 }

 /**
  * nfp_eth_set_configured() - set PHY module configured control bit
  * @cpp:	NFP CPP handle
  * @idx:	NFP chip-wide port index
  * @configed:	Desired state
  *
  * Set the ifup/ifdown state on the PHY.
  *
  * Return:
  * 0 - configuration successful;
  * 1 - no changes were needed;
  * -ERRNO - configuration failed.
  */
 int nfp_eth_set_configured(struct nfp_cpp *cpp, unsigned int idx, bool configed)
 {
 	union eth_table_entry *entries;
 	struct nfp_nsp *nsp;
 	u64 reg;

 	nsp = nfp_eth_config_start(cpp, idx);
 	if (IS_ERR(nsp))
 		return PTR_ERR(nsp);

 	/* Older ABI versions did support this feature, however this has only
 	 * been reliable since ABI 20.
 	 */
 	if (nfp_nsp_get_abi_ver_minor(nsp) < 20) {
 		nfp_eth_config_cleanup_end(nsp);
 		return -EOPNOTSUPP;
 	}

 	entries = nfp_nsp_config_entries(nsp);

 	/* Check if we are already in requested state */
 	reg = le64_to_cpu(entries[idx].state);
 	if (configed != FIELD_GET(NSP_ETH_STATE_CONFIGURED, reg)) {
 		reg = le64_to_cpu(entries[idx].control);
 		reg &= ~NSP_ETH_CTRL_CONFIGURED;
 		reg |= FIELD_PREP(NSP_ETH_CTRL_CONFIGURED, configed);
 		entries[idx].control = cpu_to_le64(reg);

 		nfp_nsp_config_set_modified(nsp, true);
 	}

 	return nfp_eth_config_commit_end(nsp);
 }

 static int
 nfp_eth_set_bit_config(struct nfp_nsp *nsp, unsigned int raw_idx,
 		       const u64 mask, const unsigned int shift,
 		       unsigned int val, const u64 ctrl_bit)
 {
 	union eth_table_entry *entries = nfp_nsp_config_entries(nsp);
 	unsigned int idx = nfp_nsp_config_idx(nsp);
 	u64 reg;

 	/* Note: set features were added in ABI 0.14 but the error
 	 *	 codes were initially not populated correctly.
 	 */
 	if (nfp_nsp_get_abi_ver_minor(nsp) < 17) {
 		nfp_err(nfp_nsp_cpp(nsp),
 			"set operations not supported, please update flash\n");
 		return -EOPNOTSUPP;
 	}

 	/* Check if we are already in requested state */
 	reg = le64_to_cpu(entries[idx].raw[raw_idx]);
 	if (val == (reg & mask) >> shift)
 		return 0;

 	reg &= ~mask;
 	reg |= (val << shift) & mask;
 	entries[idx].raw[raw_idx] = cpu_to_le64(reg);

 	entries[idx].control |= cpu_to_le64(ctrl_bit);

 	nfp_nsp_config_set_modified(nsp, true);

 	return 0;
 }

 #define NFP_ETH_SET_BIT_CONFIG(nsp, raw_idx, mask, val, ctrl_bit)	\
 	({								\
 		__BF_FIELD_CHECK(mask, 0ULL, val, "NFP_ETH_SET_BIT_CONFIG: "); \
 		nfp_eth_set_bit_config(nsp, raw_idx, mask, __bf_shf(mask), \
 				       val, ctrl_bit);			\
 	})

 /**
  * __nfp_eth_set_aneg() - set PHY autonegotiation control bit
  * @nsp:	NFP NSP handle returned from nfp_eth_config_start()
  * @mode:	Desired autonegotiation mode
  *
  * Allow/disallow PHY module to advertise/perform autonegotiation.
  * Will write to hwinfo overrides in the flash (persistent config).
  *
  * Return: 0 or -ERRNO.
  */
 int __nfp_eth_set_aneg(struct nfp_nsp *nsp, enum nfp_eth_aneg mode)
 {
 	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_STATE,
 				      NSP_ETH_STATE_ANEG, mode,
 				      NSP_ETH_CTRL_SET_ANEG);
 }

 /**
  * __nfp_eth_set_fec() - set PHY forward error correction control bit
  * @nsp:	NFP NSP handle returned from nfp_eth_config_start()
  * @mode:	Desired fec mode
  *
  * Set the PHY module forward error correction mode.
  * Will write to hwinfo overrides in the flash (persistent config).
  *
  * Return: 0 or -ERRNO.
  */
 static int __nfp_eth_set_fec(struct nfp_nsp *nsp, enum nfp_eth_fec mode)
 {
 	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_STATE,
 				      NSP_ETH_STATE_FEC, mode,
 				      NSP_ETH_CTRL_SET_FEC);
 }

 /**
  * nfp_eth_set_fec() - set PHY forward error correction control mode
  * @cpp:	NFP CPP handle
  * @idx:	NFP chip-wide port index
  * @mode:	Desired fec mode
  *
  * Return:
  * 0 - configuration successful;
  * 1 - no changes were needed;
  * -ERRNO - configuration failed.
  */
 int
 nfp_eth_set_fec(struct nfp_cpp *cpp, unsigned int idx, enum nfp_eth_fec mode)
 {
 	struct nfp_nsp *nsp;
 	int err;

 	nsp = nfp_eth_config_start(cpp, idx);
 	if (IS_ERR(nsp))
 		return PTR_ERR(nsp);

 	err = __nfp_eth_set_fec(nsp, mode);
 	if (err) {
 		nfp_eth_config_cleanup_end(nsp);
 		return err;
 	}

 	return nfp_eth_config_commit_end(nsp);
 }

 /**
  * __nfp_eth_set_speed() - set interface speed/rate
  * @nsp:	NFP NSP handle returned from nfp_eth_config_start()
  * @speed:	Desired speed (per lane)
  *
  * Set lane speed.  Provided @speed value should be subport speed divided
  * by number of lanes this subport is spanning (i.e. 10000 for 40G, 25000 for
  * 50G, etc.)
  * Will write to hwinfo overrides in the flash (persistent config).
  *
  * Return: 0 or -ERRNO.
  */
 int __nfp_eth_set_speed(struct nfp_nsp *nsp, unsigned int speed)
 {
 	enum nfp_eth_rate rate;

 	rate = nfp_eth_speed2rate(speed);
 	if (rate == RATE_INVALID) {
 		nfp_warn(nfp_nsp_cpp(nsp),
 			 "could not find matching lane rate for speed %u\n",
 			 speed);
 		return -EINVAL;
 	}

 	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_STATE,
 				      NSP_ETH_STATE_RATE, rate,
 				      NSP_ETH_CTRL_SET_RATE);
 }

 /**
  * __nfp_eth_set_split() - set interface lane split
  * @nsp:	NFP NSP handle returned from nfp_eth_config_start()
  * @lanes:	Desired lanes per port
  *
  * Set number of lanes in the port.
  * Will write to hwinfo overrides in the flash (persistent config).
  *
  * Return: 0 or -ERRNO.
  */
 int __nfp_eth_set_split(struct nfp_nsp *nsp, unsigned int lanes)
 {
 	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_PORT, NSP_ETH_PORT_LANES,
 				      lanes, NSP_ETH_CTRL_SET_LANES);
 }
	// SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
	/* Copyright (C) 2015-2017 Netronome Systems, Inc. */

	/* Authors: David Brunecz <david.brunecz@netronome.com>
	* Jakub Kicinski <jakub.kicinski@netronome.com>
	* Jason Mcmullan <jason.mcmullan@netronome.com>
	*/

	#include <linux/bitfield.h>
	#include <linux/ethtool.h>
	#include <linux/if_ether.h>
	#include <linux/kernel.h>
	#include <linux/module.h>

	#include "nfp.h"
	#include "nfp_nsp.h"
	#include "nfp6000/nfp6000.h"

	#define NSP_ETH_NBI_PORT_COUNT 24
	#define NSP_ETH_MAX_COUNT (2 * NSP_ETH_NBI_PORT_COUNT)
	#define NSP_ETH_TABLE_SIZE (NSP_ETH_MAX_COUNT * \
	sizeof(union eth_table_entry))

	#define NSP_ETH_PORT_LANES GENMASK_ULL(3, 0)
	#define NSP_ETH_PORT_INDEX GENMASK_ULL(15, 8)
	#define NSP_ETH_PORT_LABEL GENMASK_ULL(53, 48)
	#define NSP_ETH_PORT_PHYLABEL GENMASK_ULL(59, 54)
	#define NSP_ETH_PORT_FEC_SUPP_BASER BIT_ULL(60)
	#define NSP_ETH_PORT_FEC_SUPP_RS BIT_ULL(61)

	#define NSP_ETH_PORT_LANES_MASK cpu_to_le64(NSP_ETH_PORT_LANES)

	#define NSP_ETH_STATE_CONFIGURED BIT_ULL(0)
	#define NSP_ETH_STATE_ENABLED BIT_ULL(1)
	#define NSP_ETH_STATE_TX_ENABLED BIT_ULL(2)
	#define NSP_ETH_STATE_RX_ENABLED BIT_ULL(3)
	#define NSP_ETH_STATE_RATE GENMASK_ULL(11, 8)
	#define NSP_ETH_STATE_INTERFACE GENMASK_ULL(19, 12)
	#define NSP_ETH_STATE_MEDIA GENMASK_ULL(21, 20)
	#define NSP_ETH_STATE_OVRD_CHNG BIT_ULL(22)
	#define NSP_ETH_STATE_ANEG GENMASK_ULL(25, 23)
	#define NSP_ETH_STATE_FEC GENMASK_ULL(27, 26)

	#define NSP_ETH_CTRL_CONFIGURED BIT_ULL(0)
	#define NSP_ETH_CTRL_ENABLED BIT_ULL(1)
	#define NSP_ETH_CTRL_TX_ENABLED BIT_ULL(2)
	#define NSP_ETH_CTRL_RX_ENABLED BIT_ULL(3)
	#define NSP_ETH_CTRL_SET_RATE BIT_ULL(4)
	#define NSP_ETH_CTRL_SET_LANES BIT_ULL(5)
	#define NSP_ETH_CTRL_SET_ANEG BIT_ULL(6)
	#define NSP_ETH_CTRL_SET_FEC BIT_ULL(7)

	enum nfp_eth_raw {
	NSP_ETH_RAW_PORT = 0,
	NSP_ETH_RAW_STATE,
	NSP_ETH_RAW_MAC,
	NSP_ETH_RAW_CONTROL,

	NSP_ETH_NUM_RAW
	};

	enum nfp_eth_rate {
	RATE_INVALID = 0,
	RATE_10M,
	RATE_100M,
	RATE_1G,
	RATE_10G,
	RATE_25G,
	};

	union eth_table_entry {
	struct {
	__le64 port;
	__le64 state;
	u8 mac_addr[6];
	u8 resv[2];
	__le64 control;
	};
	__le64 raw[NSP_ETH_NUM_RAW];
	};

	static const struct {
	enum nfp_eth_rate rate;
	unsigned int speed;
	} nsp_eth_rate_tbl[] = {
	{ RATE_INVALID, 0, },
	{ RATE_10M, SPEED_10, },
	{ RATE_100M, SPEED_100, },
	{ RATE_1G, SPEED_1000, },
	{ RATE_10G, SPEED_10000, },
	{ RATE_25G, SPEED_25000, },
	};

	static unsigned int nfp_eth_rate2speed(enum nfp_eth_rate rate)
	{
	int i;

	for (i = 0; i < ARRAY_SIZE(nsp_eth_rate_tbl); i++)
	if (nsp_eth_rate_tbl[i].rate == rate)
	return nsp_eth_rate_tbl[i].speed;

	return 0;
	}

	static unsigned int nfp_eth_speed2rate(unsigned int speed)
	{
	int i;

	for (i = 0; i < ARRAY_SIZE(nsp_eth_rate_tbl); i++)
	if (nsp_eth_rate_tbl[i].speed == speed)
	return nsp_eth_rate_tbl[i].rate;

	return RATE_INVALID;
	}

	static void nfp_eth_copy_mac_reverse(u8 dst, const u8 src)
	{
	int i;

	for (i = 0; i < ETH_ALEN; i++)
	dst[ETH_ALEN - i - 1] = src[i];
	}

	static void
	nfp_eth_port_translate(struct nfp_nsp nsp, const union eth_table_entry src,
	unsigned int index, struct nfp_eth_table_port *dst)
	{
	unsigned int rate;
	unsigned int fec;
	u64 port, state;

	port = le64_to_cpu(src->port);
	state = le64_to_cpu(src->state);

	dst->eth_index = FIELD_GET(NSP_ETH_PORT_INDEX, port);
	dst->index = index;
	dst->nbi = index / NSP_ETH_NBI_PORT_COUNT;
	dst->base = index % NSP_ETH_NBI_PORT_COUNT;
	dst->lanes = FIELD_GET(NSP_ETH_PORT_LANES, port);

	dst->enabled = FIELD_GET(NSP_ETH_STATE_ENABLED, state);
	dst->tx_enabled = FIELD_GET(NSP_ETH_STATE_TX_ENABLED, state);
	dst->rx_enabled = FIELD_GET(NSP_ETH_STATE_RX_ENABLED, state);

	rate = nfp_eth_rate2speed(FIELD_GET(NSP_ETH_STATE_RATE, state));
	dst->speed = dst->lanes * rate;

	dst->interface = FIELD_GET(NSP_ETH_STATE_INTERFACE, state);
	dst->media = FIELD_GET(NSP_ETH_STATE_MEDIA, state);

	nfp_eth_copy_mac_reverse(dst->mac_addr, src->mac_addr);

	dst->label_port = FIELD_GET(NSP_ETH_PORT_PHYLABEL, port);
	dst->label_subport = FIELD_GET(NSP_ETH_PORT_LABEL, port);

	if (nfp_nsp_get_abi_ver_minor(nsp) < 17)
	return;

	dst->override_changed = FIELD_GET(NSP_ETH_STATE_OVRD_CHNG, state);
	dst->aneg = FIELD_GET(NSP_ETH_STATE_ANEG, state);

	if (nfp_nsp_get_abi_ver_minor(nsp) < 22)
	return;

	fec = FIELD_GET(NSP_ETH_PORT_FEC_SUPP_BASER, port);
	dst->fec_modes_supported \|= fec << NFP_FEC_BASER_BIT;
	fec = FIELD_GET(NSP_ETH_PORT_FEC_SUPP_RS, port);
	dst->fec_modes_supported \|= fec << NFP_FEC_REED_SOLOMON_BIT;
	if (dst->fec_modes_supported)
	dst->fec_modes_supported \|= NFP_FEC_AUTO \| NFP_FEC_DISABLED;

	dst->fec = 1 << FIELD_GET(NSP_ETH_STATE_FEC, state);
	}

	static void
	nfp_eth_calc_port_geometry(struct nfp_cpp cpp, struct nfp_eth_table table)
	{
	unsigned int i, j;

	for (i = 0; i < table->count; i++) {
	table->max_index = max(table->max_index, table->ports[i].index);

	for (j = 0; j < table->count; j++) {
	if (table->ports[i].label_port !=
	table->ports[j].label_port)
	continue;
	table->ports[i].port_lanes += table->ports[j].lanes;

	if (i == j)
	continue;
	if (table->ports[i].label_subport ==
	table->ports[j].label_subport)
	nfp_warn(cpp,
	"Port %d subport %d is a duplicate\n",
	table->ports[i].label_port,
	table->ports[i].label_subport);

	table->ports[i].is_split = true;
	}
	}
	}

	static void
	nfp_eth_calc_port_type(struct nfp_cpp cpp, struct nfp_eth_table_port entry)
	{
	if (entry->interface == NFP_INTERFACE_NONE) {
	entry->port_type = PORT_NONE;
	return;
	} else if (entry->interface == NFP_INTERFACE_RJ45) {
	entry->port_type = PORT_TP;
	return;
	}

	if (entry->media == NFP_MEDIA_FIBRE)
	entry->port_type = PORT_FIBRE;
	else
	entry->port_type = PORT_DA;
	}

	/**
	* nfp_eth_read_ports() - retrieve port information
	* @cpp: NFP CPP handle
	*
	* Read the port information from the device. Returned structure should
	* be freed with kfree() once no longer needed.
	*
	* Return: populated ETH table or NULL on error.
	*/
	struct nfp_eth_table nfp_eth_read_ports(struct nfp_cpp cpp)
	{
	struct nfp_eth_table *ret;
	struct nfp_nsp *nsp;

	nsp = nfp_nsp_open(cpp);
	if (IS_ERR(nsp))
	return NULL;

	ret = __nfp_eth_read_ports(cpp, nsp);
	nfp_nsp_close(nsp);

	return ret;
	}

	struct nfp_eth_table *
	__nfp_eth_read_ports(struct nfp_cpp cpp, struct nfp_nsp nsp)
	{
	union eth_table_entry *entries;
	struct nfp_eth_table *table;
	int i, j, ret, cnt = 0;

	entries = kzalloc(NSP_ETH_TABLE_SIZE, GFP_KERNEL);
	if (!entries)
	return NULL;

	ret = nfp_nsp_read_eth_table(nsp, entries, NSP_ETH_TABLE_SIZE);
	if (ret < 0) {
	nfp_err(cpp, "reading port table failed %d\n", ret);
	goto err;
	}

	for (i = 0; i < NSP_ETH_MAX_COUNT; i++)
	if (entries[i].port & NSP_ETH_PORT_LANES_MASK)
	cnt++;

	/* Some versions of flash will give us 0 instead of port count.
	* For those that give a port count, verify it against the value
	* calculated above.
	*/
	if (ret && ret != cnt) {
	nfp_err(cpp, "table entry count reported (%d) does not match entries present (%d)\n",
	ret, cnt);
	goto err;
	}

	table = kzalloc(struct_size(table, ports, cnt), GFP_KERNEL);
	if (!table)
	goto err;

	table->count = cnt;
	for (i = 0, j = 0; i < NSP_ETH_MAX_COUNT; i++)
	if (entries[i].port & NSP_ETH_PORT_LANES_MASK)
	nfp_eth_port_translate(nsp, &entries[i], i,
	&table->ports[j++]);

	nfp_eth_calc_port_geometry(cpp, table);
	for (i = 0; i < table->count; i++)
	nfp_eth_calc_port_type(cpp, &table->ports[i]);

	kfree(entries);

	return table;

	err:
	kfree(entries);
	return NULL;
	}

	struct nfp_nsp nfp_eth_config_start(struct nfp_cpp cpp, unsigned int idx)
	{
	union eth_table_entry *entries;
	struct nfp_nsp *nsp;
	int ret;

	entries = kzalloc(NSP_ETH_TABLE_SIZE, GFP_KERNEL);
	if (!entries)
	return ERR_PTR(-ENOMEM);

	nsp = nfp_nsp_open(cpp);
	if (IS_ERR(nsp)) {
	kfree(entries);
	return nsp;
	}

	ret = nfp_nsp_read_eth_table(nsp, entries, NSP_ETH_TABLE_SIZE);
	if (ret < 0) {
	nfp_err(cpp, "reading port table failed %d\n", ret);
	goto err;
	}

	if (!(entries[idx].port & NSP_ETH_PORT_LANES_MASK)) {
	nfp_warn(cpp, "trying to set port state on disabled port %d\n",
	idx);
	goto err;
	}

	nfp_nsp_config_set_state(nsp, entries, idx);
	return nsp;

	err:
	nfp_nsp_close(nsp);
	kfree(entries);
	return ERR_PTR(-EIO);
	}

	void nfp_eth_config_cleanup_end(struct nfp_nsp *nsp)
	{
	union eth_table_entry *entries = nfp_nsp_config_entries(nsp);

	nfp_nsp_config_set_modified(nsp, false);
	nfp_nsp_config_clear_state(nsp);
	nfp_nsp_close(nsp);
	kfree(entries);
	}

	/**
	* nfp_eth_config_commit_end() - perform recorded configuration changes
	* @nsp: NFP NSP handle returned from nfp_eth_config_start()
	*
	* Perform the configuration which was requested with __nfp_eth_set_*()
	* helpers and recorded in @nsp state. If device was already configured
	* as requested or no __nfp_eth_set_*() operations were made no NSP command
	* will be performed.
	*
	* Return:
	* 0 - configuration successful;
	* 1 - no changes were needed;
	* -ERRNO - configuration failed.
	*/
	int nfp_eth_config_commit_end(struct nfp_nsp *nsp)
	{
	union eth_table_entry *entries = nfp_nsp_config_entries(nsp);
	int ret = 1;

	if (nfp_nsp_config_modified(nsp)) {
	ret = nfp_nsp_write_eth_table(nsp, entries, NSP_ETH_TABLE_SIZE);
	ret = ret < 0 ? ret : 0;
	}

	nfp_eth_config_cleanup_end(nsp);

	return ret;
	}

	/**
	* nfp_eth_set_mod_enable() - set PHY module enable control bit
	* @cpp: NFP CPP handle
	* @idx: NFP chip-wide port index
	* @enable: Desired state
	*
	* Enable or disable PHY module (this usually means setting the TX lanes
	* disable bits).
	*
	* Return:
	* 0 - configuration successful;
	* 1 - no changes were needed;
	* -ERRNO - configuration failed.
	*/
	int nfp_eth_set_mod_enable(struct nfp_cpp *cpp, unsigned int idx, bool enable)
	{
	union eth_table_entry *entries;
	struct nfp_nsp *nsp;
	u64 reg;

	nsp = nfp_eth_config_start(cpp, idx);
	if (IS_ERR(nsp))
	return PTR_ERR(nsp);

	entries = nfp_nsp_config_entries(nsp);

	/* Check if we are already in requested state */
	reg = le64_to_cpu(entries[idx].state);
	if (enable != FIELD_GET(NSP_ETH_CTRL_ENABLED, reg)) {
	reg = le64_to_cpu(entries[idx].control);
	reg &= ~NSP_ETH_CTRL_ENABLED;
	reg \|= FIELD_PREP(NSP_ETH_CTRL_ENABLED, enable);
	entries[idx].control = cpu_to_le64(reg);

	nfp_nsp_config_set_modified(nsp, true);
	}

	return nfp_eth_config_commit_end(nsp);
	}

	/**
	* nfp_eth_set_configured() - set PHY module configured control bit
	* @cpp: NFP CPP handle
	* @idx: NFP chip-wide port index
	* @configed: Desired state
	*
	* Set the ifup/ifdown state on the PHY.
	*
	* Return:
	* 0 - configuration successful;
	* 1 - no changes were needed;
	* -ERRNO - configuration failed.
	*/
	int nfp_eth_set_configured(struct nfp_cpp *cpp, unsigned int idx, bool configed)
	{
	union eth_table_entry *entries;
	struct nfp_nsp *nsp;
	u64 reg;

	nsp = nfp_eth_config_start(cpp, idx);
	if (IS_ERR(nsp))
	return PTR_ERR(nsp);

	/* Older ABI versions did support this feature, however this has only
	* been reliable since ABI 20.
	*/
	if (nfp_nsp_get_abi_ver_minor(nsp) < 20) {
	nfp_eth_config_cleanup_end(nsp);
	return -EOPNOTSUPP;
	}

	entries = nfp_nsp_config_entries(nsp);

	/* Check if we are already in requested state */
	reg = le64_to_cpu(entries[idx].state);
	if (configed != FIELD_GET(NSP_ETH_STATE_CONFIGURED, reg)) {
	reg = le64_to_cpu(entries[idx].control);
	reg &= ~NSP_ETH_CTRL_CONFIGURED;
	reg \|= FIELD_PREP(NSP_ETH_CTRL_CONFIGURED, configed);
	entries[idx].control = cpu_to_le64(reg);

	nfp_nsp_config_set_modified(nsp, true);
	}

	return nfp_eth_config_commit_end(nsp);
	}

	static int
	nfp_eth_set_bit_config(struct nfp_nsp *nsp, unsigned int raw_idx,
	const u64 mask, const unsigned int shift,
	unsigned int val, const u64 ctrl_bit)
	{
	union eth_table_entry *entries = nfp_nsp_config_entries(nsp);
	unsigned int idx = nfp_nsp_config_idx(nsp);
	u64 reg;

	/* Note: set features were added in ABI 0.14 but the error
	* codes were initially not populated correctly.
	*/
	if (nfp_nsp_get_abi_ver_minor(nsp) < 17) {
	nfp_err(nfp_nsp_cpp(nsp),
	"set operations not supported, please update flash\n");
	return -EOPNOTSUPP;
	}

	/* Check if we are already in requested state */
	reg = le64_to_cpu(entries[idx].raw[raw_idx]);
	if (val == (reg & mask) >> shift)
	return 0;

	reg &= ~mask;
	reg \|= (val << shift) & mask;
	entries[idx].raw[raw_idx] = cpu_to_le64(reg);

	entries[idx].control \|= cpu_to_le64(ctrl_bit);

	nfp_nsp_config_set_modified(nsp, true);

	return 0;
	}

	#define NFP_ETH_SET_BIT_CONFIG(nsp, raw_idx, mask, val, ctrl_bit) \
	({ \
	__BF_FIELD_CHECK(mask, 0ULL, val, "NFP_ETH_SET_BIT_CONFIG: "); \
	nfp_eth_set_bit_config(nsp, raw_idx, mask, __bf_shf(mask), \
	val, ctrl_bit); \
	})

	/**
	* __nfp_eth_set_aneg() - set PHY autonegotiation control bit
	* @nsp: NFP NSP handle returned from nfp_eth_config_start()
	* @mode: Desired autonegotiation mode
	*
	* Allow/disallow PHY module to advertise/perform autonegotiation.
	* Will write to hwinfo overrides in the flash (persistent config).
	*
	* Return: 0 or -ERRNO.
	*/
	int __nfp_eth_set_aneg(struct nfp_nsp *nsp, enum nfp_eth_aneg mode)
	{
	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_STATE,
	NSP_ETH_STATE_ANEG, mode,
	NSP_ETH_CTRL_SET_ANEG);
	}

	/**
	* __nfp_eth_set_fec() - set PHY forward error correction control bit
	* @nsp: NFP NSP handle returned from nfp_eth_config_start()
	* @mode: Desired fec mode
	*
	* Set the PHY module forward error correction mode.
	* Will write to hwinfo overrides in the flash (persistent config).
	*
	* Return: 0 or -ERRNO.
	*/
	static int __nfp_eth_set_fec(struct nfp_nsp *nsp, enum nfp_eth_fec mode)
	{
	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_STATE,
	NSP_ETH_STATE_FEC, mode,
	NSP_ETH_CTRL_SET_FEC);
	}

	/**
	* nfp_eth_set_fec() - set PHY forward error correction control mode
	* @cpp: NFP CPP handle
	* @idx: NFP chip-wide port index
	* @mode: Desired fec mode
	*
	* Return:
	* 0 - configuration successful;
	* 1 - no changes were needed;
	* -ERRNO - configuration failed.
	*/
	int
	nfp_eth_set_fec(struct nfp_cpp *cpp, unsigned int idx, enum nfp_eth_fec mode)
	{
	struct nfp_nsp *nsp;
	int err;

	nsp = nfp_eth_config_start(cpp, idx);
	if (IS_ERR(nsp))
	return PTR_ERR(nsp);

	err = __nfp_eth_set_fec(nsp, mode);
	if (err) {
	nfp_eth_config_cleanup_end(nsp);
	return err;
	}

	return nfp_eth_config_commit_end(nsp);
	}

	/**
	* __nfp_eth_set_speed() - set interface speed/rate
	* @nsp: NFP NSP handle returned from nfp_eth_config_start()
	* @speed: Desired speed (per lane)
	*
	* Set lane speed. Provided @speed value should be subport speed divided
	* by number of lanes this subport is spanning (i.e. 10000 for 40G, 25000 for
	* 50G, etc.)
	* Will write to hwinfo overrides in the flash (persistent config).
	*
	* Return: 0 or -ERRNO.
	*/
	int __nfp_eth_set_speed(struct nfp_nsp *nsp, unsigned int speed)
	{
	enum nfp_eth_rate rate;

	rate = nfp_eth_speed2rate(speed);
	if (rate == RATE_INVALID) {
	nfp_warn(nfp_nsp_cpp(nsp),
	"could not find matching lane rate for speed %u\n",
	speed);
	return -EINVAL;
	}

	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_STATE,
	NSP_ETH_STATE_RATE, rate,
	NSP_ETH_CTRL_SET_RATE);
	}

	/**
	* __nfp_eth_set_split() - set interface lane split
	* @nsp: NFP NSP handle returned from nfp_eth_config_start()
	* @lanes: Desired lanes per port
	*
	* Set number of lanes in the port.
	* Will write to hwinfo overrides in the flash (persistent config).
	*
	* Return: 0 or -ERRNO.
	*/
	int __nfp_eth_set_split(struct nfp_nsp *nsp, unsigned int lanes)
	{
	return NFP_ETH_SET_BIT_CONFIG(nsp, NSP_ETH_RAW_PORT, NSP_ETH_PORT_LANES,
	lanes, NSP_ETH_CTRL_SET_LANES);
	}