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|
// SPDX-License-Identifier: GPL-2.0+
/* Microchip Sparx5 Switch driver
*
* Copyright (c) 2021 Microchip Technology Inc. and its subsidiaries.
*/
#include <linux/module.h>
#include <linux/device.h>
#include "sparx5_main_regs.h"
#include "sparx5_main.h"
/* QSYS calendar information */
#define SPX5_PORTS_PER_CALREG 10 /* Ports mapped in a calendar register */
#define SPX5_CALBITS_PER_PORT 3 /* Bit per port in calendar register */
/* DSM calendar information */
#define SPX5_DSM_CAL_TAXIS 8
#define SPX5_DSM_CAL_BW_LOSS 553
#define SPX5_TAXI_PORT_MAX 70
#define SPEED_12500 12500
/* Maps from taxis to port numbers */
static u32 sparx5_taxi_ports[SPX5_DSM_CAL_TAXIS][SPX5_DSM_CAL_MAX_DEVS_PER_TAXI] = {
{57, 12, 0, 1, 2, 16, 17, 18, 19, 20, 21, 22, 23},
{58, 13, 3, 4, 5, 24, 25, 26, 27, 28, 29, 30, 31},
{59, 14, 6, 7, 8, 32, 33, 34, 35, 36, 37, 38, 39},
{60, 15, 9, 10, 11, 40, 41, 42, 43, 44, 45, 46, 47},
{61, 48, 49, 50, 99, 99, 99, 99, 99, 99, 99, 99, 99},
{62, 51, 52, 53, 99, 99, 99, 99, 99, 99, 99, 99, 99},
{56, 63, 54, 55, 99, 99, 99, 99, 99, 99, 99, 99, 99},
{64, 99, 99, 99, 99, 99, 99, 99, 99, 99, 99, 99, 99},
};
static u32 sparx5_target_bandwidth(struct sparx5 *sparx5)
{
switch (sparx5->target_ct) {
case SPX5_TARGET_CT_7546:
case SPX5_TARGET_CT_7546TSN:
return 65000;
case SPX5_TARGET_CT_7549:
case SPX5_TARGET_CT_7549TSN:
return 91000;
case SPX5_TARGET_CT_7552:
case SPX5_TARGET_CT_7552TSN:
return 129000;
case SPX5_TARGET_CT_7556:
case SPX5_TARGET_CT_7556TSN:
return 161000;
case SPX5_TARGET_CT_7558:
case SPX5_TARGET_CT_7558TSN:
return 201000;
case SPX5_TARGET_CT_LAN9691VAO:
return 46000;
case SPX5_TARGET_CT_LAN9694RED:
case SPX5_TARGET_CT_LAN9694TSN:
case SPX5_TARGET_CT_LAN9694:
return 68000;
case SPX5_TARGET_CT_LAN9696RED:
case SPX5_TARGET_CT_LAN9696TSN:
case SPX5_TARGET_CT_LAN9692VAO:
case SPX5_TARGET_CT_LAN9696:
return 88000;
case SPX5_TARGET_CT_LAN9698RED:
case SPX5_TARGET_CT_LAN9698TSN:
case SPX5_TARGET_CT_LAN9693VAO:
case SPX5_TARGET_CT_LAN9698:
return 101000;
default:
return 0;
}
}
static u32 sparx5_clk_to_bandwidth(enum sparx5_core_clockfreq cclock)
{
switch (cclock) {
case SPX5_CORE_CLOCK_250MHZ: return 83000; /* 250000 / 3 */
case SPX5_CORE_CLOCK_328MHZ: return 109375; /* 328000 / 3 */
case SPX5_CORE_CLOCK_500MHZ: return 166000; /* 500000 / 3 */
case SPX5_CORE_CLOCK_625MHZ: return 208000; /* 625000 / 3 */
default: return 0;
}
return 0;
}
u32 sparx5_cal_speed_to_value(enum sparx5_cal_bw speed)
{
switch (speed) {
case SPX5_CAL_SPEED_1G: return 1000;
case SPX5_CAL_SPEED_2G5: return 2500;
case SPX5_CAL_SPEED_5G: return 5000;
case SPX5_CAL_SPEED_10G: return 10000;
case SPX5_CAL_SPEED_25G: return 25000;
case SPX5_CAL_SPEED_0G5: return 500;
case SPX5_CAL_SPEED_12G5: return 12500;
default: return 0;
}
}
EXPORT_SYMBOL_GPL(sparx5_cal_speed_to_value);
static u32 sparx5_bandwidth_to_calendar(u32 bw)
{
switch (bw) {
case SPEED_10: return SPX5_CAL_SPEED_0G5;
case SPEED_100: return SPX5_CAL_SPEED_0G5;
case SPEED_1000: return SPX5_CAL_SPEED_1G;
case SPEED_2500: return SPX5_CAL_SPEED_2G5;
case SPEED_5000: return SPX5_CAL_SPEED_5G;
case SPEED_10000: return SPX5_CAL_SPEED_10G;
case SPEED_12500: return SPX5_CAL_SPEED_12G5;
case SPEED_25000: return SPX5_CAL_SPEED_25G;
case SPEED_UNKNOWN: return SPX5_CAL_SPEED_1G;
default: return SPX5_CAL_SPEED_NONE;
}
}
enum sparx5_cal_bw sparx5_get_port_cal_speed(struct sparx5 *sparx5, u32 portno)
{
struct sparx5_port *port;
if (portno >= sparx5->data->consts->n_ports) {
/* Internal ports */
if (portno ==
sparx5_get_internal_port(sparx5, SPX5_PORT_CPU_0) ||
portno ==
sparx5_get_internal_port(sparx5, SPX5_PORT_CPU_1)) {
/* Equals 1.25G */
return SPX5_CAL_SPEED_2G5;
} else if (portno ==
sparx5_get_internal_port(sparx5, SPX5_PORT_VD0)) {
/* IPMC only idle BW */
return SPX5_CAL_SPEED_NONE;
} else if (portno ==
sparx5_get_internal_port(sparx5, SPX5_PORT_VD1)) {
/* OAM only idle BW */
return SPX5_CAL_SPEED_NONE;
} else if (portno ==
sparx5_get_internal_port(sparx5, SPX5_PORT_VD2)) {
/* IPinIP gets only idle BW */
return SPX5_CAL_SPEED_NONE;
}
/* not in port map */
return SPX5_CAL_SPEED_NONE;
}
/* Front ports - may be used */
port = sparx5->ports[portno];
if (!port)
return SPX5_CAL_SPEED_NONE;
return sparx5_bandwidth_to_calendar(port->conf.bandwidth);
}
EXPORT_SYMBOL_GPL(sparx5_get_port_cal_speed);
/* Auto configure the QSYS calendar based on port configuration */
int sparx5_config_auto_calendar(struct sparx5 *sparx5)
{
const struct sparx5_consts *consts = sparx5->data->consts;
u32 cal[7], value, idx, portno;
u32 max_core_bw;
u32 total_bw = 0, used_port_bw = 0;
int err = 0;
enum sparx5_cal_bw spd;
memset(cal, 0, sizeof(cal));
max_core_bw = sparx5_clk_to_bandwidth(sparx5->coreclock);
if (max_core_bw == 0) {
dev_err(sparx5->dev, "Core clock not supported");
return -EINVAL;
}
/* Setup the calendar with the bandwidth to each port */
for (portno = 0; portno < consts->n_ports_all; portno++) {
u64 reg, offset, this_bw;
spd = sparx5_get_port_cal_speed(sparx5, portno);
if (spd == SPX5_CAL_SPEED_NONE)
continue;
this_bw = sparx5_cal_speed_to_value(spd);
if (portno < consts->n_ports)
used_port_bw += this_bw;
else
/* Internal ports are granted half the value */
this_bw = this_bw / 2;
total_bw += this_bw;
reg = portno;
offset = do_div(reg, SPX5_PORTS_PER_CALREG);
cal[reg] |= spd << (offset * SPX5_CALBITS_PER_PORT);
}
if (used_port_bw > sparx5_target_bandwidth(sparx5)) {
dev_err(sparx5->dev,
"Port BW %u above target BW %u\n",
used_port_bw, sparx5_target_bandwidth(sparx5));
return -EINVAL;
}
if (total_bw > max_core_bw) {
dev_err(sparx5->dev,
"Total BW %u above switch core BW %u\n",
total_bw, max_core_bw);
return -EINVAL;
}
/* Halt the calendar while changing it */
if (is_sparx5(sparx5))
spx5_rmw(QSYS_CAL_CTRL_CAL_MODE_SET(10),
QSYS_CAL_CTRL_CAL_MODE,
sparx5, QSYS_CAL_CTRL);
/* Assign port bandwidth to auto calendar */
for (idx = 0; idx < consts->n_auto_cals; idx++)
spx5_wr(cal[idx], sparx5, QSYS_CAL_AUTO(idx));
/* Increase grant rate of all ports to account for
* core clock ppm deviations
*/
spx5_rmw(QSYS_CAL_CTRL_CAL_AUTO_GRANT_RATE_SET(671), /* 672->671 */
QSYS_CAL_CTRL_CAL_AUTO_GRANT_RATE,
sparx5,
QSYS_CAL_CTRL);
/* Grant idle usage to VD 0-2 */
for (idx = 2; idx < 5; idx++)
spx5_wr(HSCH_OUTB_SHARE_ENA_OUTB_SHARE_ENA_SET(12),
sparx5,
HSCH_OUTB_SHARE_ENA(idx));
/* Enable Auto mode */
spx5_rmw(QSYS_CAL_CTRL_CAL_MODE_SET(8),
QSYS_CAL_CTRL_CAL_MODE,
sparx5, QSYS_CAL_CTRL);
/* Verify successful calendar config */
value = spx5_rd(sparx5, QSYS_CAL_CTRL);
if (QSYS_CAL_CTRL_CAL_AUTO_ERROR_GET(value)) {
dev_err(sparx5->dev, "QSYS calendar error\n");
err = -EINVAL;
}
return err;
}
static u32 sparx5_dsm_exb_gcd(u32 a, u32 b)
{
if (b == 0)
return a;
return sparx5_dsm_exb_gcd(b, a % b);
}
static u32 sparx5_dsm_cal_len(u32 *cal)
{
u32 idx = 0, len = 0;
while (idx < SPX5_DSM_CAL_LEN) {
if (cal[idx] != SPX5_DSM_CAL_EMPTY)
len++;
idx++;
}
return len;
}
static u32 sparx5_dsm_cp_cal(u32 *sched)
{
u32 idx = 0, tmp;
while (idx < SPX5_DSM_CAL_LEN) {
if (sched[idx] != SPX5_DSM_CAL_EMPTY) {
tmp = sched[idx];
sched[idx] = SPX5_DSM_CAL_EMPTY;
return tmp;
}
idx++;
}
return SPX5_DSM_CAL_EMPTY;
}
int sparx5_dsm_calendar_calc(struct sparx5 *sparx5, u32 taxi,
struct sparx5_calendar_data *data)
{
bool slow_mode;
u32 gcd, idx, sum, min, factor;
u32 num_of_slots, slot_spd, empty_slots;
u32 taxi_bw, clk_period_ps;
clk_period_ps = sparx5_clk_period(sparx5->coreclock);
taxi_bw = 128 * 1000000 / clk_period_ps;
slow_mode = !!(clk_period_ps > 2000);
memcpy(data->taxi_ports, &sparx5_taxi_ports[taxi],
sizeof(data->taxi_ports));
for (idx = 0; idx < SPX5_DSM_CAL_LEN; idx++) {
data->new_slots[idx] = SPX5_DSM_CAL_EMPTY;
data->schedule[idx] = SPX5_DSM_CAL_EMPTY;
data->temp_sched[idx] = SPX5_DSM_CAL_EMPTY;
}
/* Default empty calendar */
data->schedule[0] = SPX5_DSM_CAL_MAX_DEVS_PER_TAXI;
/* Map ports to taxi positions */
for (idx = 0; idx < SPX5_DSM_CAL_MAX_DEVS_PER_TAXI; idx++) {
u32 portno = data->taxi_ports[idx];
if (portno < sparx5->data->consts->n_ports_all) {
data->taxi_speeds[idx] = sparx5_cal_speed_to_value
(sparx5_get_port_cal_speed(sparx5, portno));
} else {
data->taxi_speeds[idx] = 0;
}
}
sum = 0;
min = 25000;
for (idx = 0; idx < ARRAY_SIZE(data->taxi_speeds); idx++) {
u32 jdx;
sum += data->taxi_speeds[idx];
if (data->taxi_speeds[idx] && data->taxi_speeds[idx] < min)
min = data->taxi_speeds[idx];
gcd = min;
for (jdx = 0; jdx < ARRAY_SIZE(data->taxi_speeds); jdx++)
gcd = sparx5_dsm_exb_gcd(gcd, data->taxi_speeds[jdx]);
}
if (sum == 0) /* Empty calendar */
return 0;
/* Make room for overhead traffic */
factor = 100 * 100 * 1000 / (100 * 100 - SPX5_DSM_CAL_BW_LOSS);
if (sum * factor > (taxi_bw * 1000)) {
dev_err(sparx5->dev,
"Taxi %u, Requested BW %u above available BW %u\n",
taxi, sum, taxi_bw);
return -EINVAL;
}
for (idx = 0; idx < 4; idx++) {
u32 raw_spd;
if (idx == 0)
raw_spd = gcd / 5;
else if (idx == 1)
raw_spd = gcd / 2;
else if (idx == 2)
raw_spd = gcd;
else
raw_spd = min;
slot_spd = raw_spd * factor / 1000;
num_of_slots = taxi_bw / slot_spd;
if (num_of_slots <= 64)
break;
}
num_of_slots = num_of_slots > 64 ? 64 : num_of_slots;
slot_spd = taxi_bw / num_of_slots;
sum = 0;
for (idx = 0; idx < ARRAY_SIZE(data->taxi_speeds); idx++) {
u32 spd = data->taxi_speeds[idx];
u32 adjusted_speed = data->taxi_speeds[idx] * factor / 1000;
if (adjusted_speed > 0) {
data->avg_dist[idx] = (128 * 1000000 * 10) /
(adjusted_speed * clk_period_ps);
} else {
data->avg_dist[idx] = -1;
}
data->dev_slots[idx] = ((spd * factor / slot_spd) + 999) / 1000;
if (spd != 25000 && (spd != 10000 || !slow_mode)) {
if (num_of_slots < (5 * data->dev_slots[idx])) {
dev_err(sparx5->dev,
"Taxi %u, speed %u, Low slot sep.\n",
taxi, spd);
return -EINVAL;
}
}
sum += data->dev_slots[idx];
if (sum > num_of_slots) {
dev_err(sparx5->dev,
"Taxi %u with overhead factor %u\n",
taxi, factor);
return -EINVAL;
}
}
empty_slots = num_of_slots - sum;
for (idx = 0; idx < empty_slots; idx++)
data->schedule[idx] = SPX5_DSM_CAL_MAX_DEVS_PER_TAXI;
for (idx = 1; idx < num_of_slots; idx++) {
u32 indices_len = 0;
u32 slot, jdx, kdx, ts;
s32 cnt;
u32 num_of_old_slots, num_of_new_slots, tgt_score;
for (slot = 0; slot < ARRAY_SIZE(data->dev_slots); slot++) {
if (data->dev_slots[slot] == idx) {
data->indices[indices_len] = slot;
indices_len++;
}
}
if (indices_len == 0)
continue;
kdx = 0;
for (slot = 0; slot < idx; slot++) {
for (jdx = 0; jdx < indices_len; jdx++, kdx++)
data->new_slots[kdx] = data->indices[jdx];
}
for (slot = 0; slot < SPX5_DSM_CAL_LEN; slot++) {
if (data->schedule[slot] == SPX5_DSM_CAL_EMPTY)
break;
}
num_of_old_slots = slot;
num_of_new_slots = kdx;
cnt = 0;
ts = 0;
if (num_of_new_slots > num_of_old_slots) {
memcpy(data->short_list, data->schedule,
sizeof(data->short_list));
memcpy(data->long_list, data->new_slots,
sizeof(data->long_list));
tgt_score = 100000 * num_of_old_slots /
num_of_new_slots;
} else {
memcpy(data->short_list, data->new_slots,
sizeof(data->short_list));
memcpy(data->long_list, data->schedule,
sizeof(data->long_list));
tgt_score = 100000 * num_of_new_slots /
num_of_old_slots;
}
while (sparx5_dsm_cal_len(data->short_list) > 0 ||
sparx5_dsm_cal_len(data->long_list) > 0) {
u32 act = 0;
if (sparx5_dsm_cal_len(data->short_list) > 0) {
data->temp_sched[ts] =
sparx5_dsm_cp_cal(data->short_list);
ts++;
cnt += 100000;
act = 1;
}
while (sparx5_dsm_cal_len(data->long_list) > 0 &&
cnt > 0) {
data->temp_sched[ts] =
sparx5_dsm_cp_cal(data->long_list);
ts++;
cnt -= tgt_score;
act = 1;
}
if (act == 0) {
dev_err(sparx5->dev,
"Error in DSM calendar calculation\n");
return -EINVAL;
}
}
for (slot = 0; slot < SPX5_DSM_CAL_LEN; slot++) {
if (data->temp_sched[slot] == SPX5_DSM_CAL_EMPTY)
break;
}
for (slot = 0; slot < SPX5_DSM_CAL_LEN; slot++) {
data->schedule[slot] = data->temp_sched[slot];
data->temp_sched[slot] = SPX5_DSM_CAL_EMPTY;
data->new_slots[slot] = SPX5_DSM_CAL_EMPTY;
}
}
return 0;
}
static int sparx5_dsm_calendar_check(struct sparx5 *sparx5,
struct sparx5_calendar_data *data)
{
u32 num_of_slots, idx, port;
int cnt, max_dist;
u32 slot_indices[SPX5_DSM_CAL_LEN], distances[SPX5_DSM_CAL_LEN];
u32 cal_length = sparx5_dsm_cal_len(data->schedule);
for (port = 0; port < SPX5_DSM_CAL_MAX_DEVS_PER_TAXI; port++) {
num_of_slots = 0;
max_dist = data->avg_dist[port];
for (idx = 0; idx < SPX5_DSM_CAL_LEN; idx++) {
slot_indices[idx] = SPX5_DSM_CAL_EMPTY;
distances[idx] = SPX5_DSM_CAL_EMPTY;
}
for (idx = 0; idx < cal_length; idx++) {
if (data->schedule[idx] == port) {
slot_indices[num_of_slots] = idx;
num_of_slots++;
}
}
slot_indices[num_of_slots] = slot_indices[0] + cal_length;
for (idx = 0; idx < num_of_slots; idx++) {
distances[idx] = (slot_indices[idx + 1] -
slot_indices[idx]) * 10;
}
for (idx = 0; idx < num_of_slots; idx++) {
u32 jdx, kdx;
cnt = distances[idx] - max_dist;
if (cnt < 0)
cnt = -cnt;
kdx = 0;
for (jdx = (idx + 1) % num_of_slots;
jdx != idx;
jdx = (jdx + 1) % num_of_slots, kdx++) {
cnt = cnt + distances[jdx] - max_dist;
if (cnt < 0)
cnt = -cnt;
if (cnt > max_dist)
goto check_err;
}
}
}
return 0;
check_err:
dev_err(sparx5->dev,
"Port %u: distance %u above limit %d\n",
port, cnt, max_dist);
return -EINVAL;
}
static int sparx5_dsm_calendar_update(struct sparx5 *sparx5, u32 taxi,
struct sparx5_calendar_data *data)
{
u32 cal_len = sparx5_dsm_cal_len(data->schedule), len, idx;
if (!is_sparx5(sparx5)) {
u32 val, act;
val = spx5_rd(sparx5, DSM_TAXI_CAL_CFG(taxi));
act = DSM_TAXI_CAL_CFG_CAL_SEL_STAT_GET(val);
spx5_rmw(DSM_TAXI_CAL_CFG_CAL_PGM_SEL_SET(!act),
DSM_TAXI_CAL_CFG_CAL_PGM_SEL,
sparx5, DSM_TAXI_CAL_CFG(taxi));
}
spx5_rmw(DSM_TAXI_CAL_CFG_CAL_PGM_ENA_SET(1),
DSM_TAXI_CAL_CFG_CAL_PGM_ENA,
sparx5,
DSM_TAXI_CAL_CFG(taxi));
for (idx = 0; idx < cal_len; idx++) {
spx5_rmw(DSM_TAXI_CAL_CFG_CAL_IDX_SET(idx),
DSM_TAXI_CAL_CFG_CAL_IDX,
sparx5,
DSM_TAXI_CAL_CFG(taxi));
spx5_rmw(DSM_TAXI_CAL_CFG_CAL_PGM_VAL_SET(data->schedule[idx]),
DSM_TAXI_CAL_CFG_CAL_PGM_VAL,
sparx5,
DSM_TAXI_CAL_CFG(taxi));
}
spx5_rmw(DSM_TAXI_CAL_CFG_CAL_PGM_ENA_SET(0),
DSM_TAXI_CAL_CFG_CAL_PGM_ENA,
sparx5,
DSM_TAXI_CAL_CFG(taxi));
len = DSM_TAXI_CAL_CFG_CAL_CUR_LEN_GET(spx5_rd(sparx5,
DSM_TAXI_CAL_CFG(taxi)));
if (len != cal_len - 1)
goto update_err;
if (!is_sparx5(sparx5)) {
spx5_rmw(DSM_TAXI_CAL_CFG_CAL_SWITCH_SET(1),
DSM_TAXI_CAL_CFG_CAL_SWITCH,
sparx5, DSM_TAXI_CAL_CFG(taxi));
}
return 0;
update_err:
dev_err(sparx5->dev, "Incorrect calendar length: %u\n", len);
return -EINVAL;
}
/* Configure the DSM calendar based on port configuration */
int sparx5_config_dsm_calendar(struct sparx5 *sparx5)
{
const struct sparx5_ops *ops = sparx5->data->ops;
int taxi;
struct sparx5_calendar_data *data;
int err = 0;
data = kzalloc(sizeof(*data), GFP_KERNEL);
if (!data)
return -ENOMEM;
for (taxi = 0; taxi < sparx5->data->consts->n_dsm_cal_taxis; ++taxi) {
err = ops->dsm_calendar_calc(sparx5, taxi, data);
if (err) {
dev_err(sparx5->dev, "DSM calendar calculation failed\n");
goto cal_out;
}
err = sparx5_dsm_calendar_check(sparx5, data);
if (err) {
dev_err(sparx5->dev, "DSM calendar check failed\n");
goto cal_out;
}
err = sparx5_dsm_calendar_update(sparx5, taxi, data);
if (err) {
dev_err(sparx5->dev, "DSM calendar update failed\n");
goto cal_out;
}
}
cal_out:
kfree(data);
return err;
}
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