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pigweed / third_party / github / zephyrproject-rtos / zephyr / d5775ea7baee424cdba1c31555065f980f7a7903 / . / drivers / ethernet / eth_nxp_s32_netc_psi.c
blob: bd00d13fdcf9d539f53a68a05d748e06c52fe377 [file] [log] [blame]
/*
* Copyright 2022 NXP
*
* SPDX-License-Identifier: Apache-2.0
*/
#define LOG_LEVEL CONFIG_ETHERNET_LOG_LEVEL
#include <zephyr/logging/log.h>
LOG_MODULE_REGISTER(nxp_s32_eth_psi);
#include <zephyr/kernel.h>
#include <zephyr/device.h>
#include <zephyr/drivers/mbox.h>
#include <zephyr/drivers/pinctrl.h>
#include <zephyr/net/ethernet.h>
#include <zephyr/net/net_if.h>
#include <zephyr/net/net_pkt.h>
#include <zephyr/net/phy.h>
#include <ethernet/eth_stats.h>
#include <S32Z2.h>
#include <Netc_Eth_Ip.h>
#include <Netc_Eth_Ip_Irq.h>
#include <Netc_EthSwt_Ip.h>
#include "eth.h"
#include "eth_nxp_s32_netc_priv.h"
#define PSI_NODE DT_COMPAT_GET_ANY_STATUS_OKAY(nxp_s32_netc_psi)
#define PHY_NODE DT_PHANDLE(PSI_NODE, phy_dev)
#define INIT_VSIS DT_NODE_HAS_PROP(PSI_NODE, vsis)
#define TX_RING_IDX 1
#define RX_RING_IDX 0
static void nxp_s32_eth_configure_port(uint8_t port_idx, enum phy_link_speed speed)
{
EthTrcv_BaudRateType baudrate;
Netc_EthSwt_Ip_PortDuplexType duplex;
Std_ReturnType status;
(void)Netc_EthSwt_Ip_SetPortMode(NETC_SWITCH_IDX, port_idx, false);
baudrate = PHY_TO_NETC_SPEED(speed);
status = Netc_EthSwt_Ip_SetPortSpeed(NETC_SWITCH_IDX, port_idx, baudrate);
if (status != E_OK) {
LOG_ERR("Failed to set port %d speed: %d", port_idx, status);
return;
}
duplex = PHY_TO_NETC_DUPLEX_MODE(speed);
status = Netc_EthSwt_Ip_SetPortMacLayerDuplexMode(NETC_SWITCH_IDX, port_idx, duplex);
if (status != E_OK) {
LOG_ERR("Failed to set port %d duplex mode: %d", port_idx, status);
return;
}
(void)Netc_EthSwt_Ip_SetPortMode(NETC_SWITCH_IDX, port_idx, true);
}
static void phy_link_state_changed(const struct device *pdev,
struct phy_link_state *state,
void *user_data)
{
const struct device *dev = (struct device *)user_data;
const struct nxp_s32_eth_config *cfg = dev->config;
const struct nxp_s32_eth_data *ctx = dev->data;
ARG_UNUSED(pdev);
if (state->is_up) {
LOG_DBG("Link up");
nxp_s32_eth_configure_port(cfg->port_idx, state->speed);
net_eth_carrier_on(ctx->iface);
} else {
LOG_DBG("Link down");
net_eth_carrier_off(ctx->iface);
}
}
/* Configure ETHx_EXT_RX_CLK @ 125 MHz as source of ETH_x_RGMII_RX_CLK */
static int nxp_s32_eth_configure_cgm(uint8_t port_idx)
{
uint32_t tout = 0xFFFFFFFF;
if (port_idx == 0) {
IP_MC_CGM_1->MUX_7_CSC = (IP_MC_CGM_1->MUX_7_CSC & ~MC_CGM_MUX_7_CSC_SELCTL_MASK)
| MC_CGM_MUX_7_CSC_SELCTL(NETC_ETH_0_RX_CLK_IDX);
IP_MC_CGM_1->MUX_7_CSC = (IP_MC_CGM_1->MUX_7_CSC & ~MC_CGM_MUX_7_CSC_CLK_SW_MASK)
| MC_CGM_MUX_7_CSC_CLK_SW(1);
while (((IP_MC_CGM_1->MUX_7_CSS & MC_CGM_MUX_7_CSS_CLK_SW_MASK) == 0)
&& (tout > 0)) {
tout--;
}
while (((IP_MC_CGM_1->MUX_7_CSS & MC_CGM_MUX_7_CSS_SWIP_MASK) != 0)
&& (tout > 0)) {
tout--;
}
while (((IP_MC_CGM_1->MUX_7_CSS & MC_CGM_MUX_7_CSS_SWTRG_MASK)
>> MC_CGM_MUX_7_CSS_SWTRG_SHIFT != 1) && (tout > 0)) {
tout--;
}
__ASSERT_NO_MSG(((IP_MC_CGM_1->MUX_7_CSS & MC_CGM_MUX_7_CSS_SELSTAT_MASK)
>> MC_CGM_MUX_7_CSS_SELSTAT_SHIFT) == NETC_ETH_0_RX_CLK_IDX);
} else if (port_idx == 1) {
IP_MC_CGM_1->MUX_9_CSC = (IP_MC_CGM_1->MUX_9_CSC & ~MC_CGM_MUX_9_CSC_SELCTL_MASK)
| MC_CGM_MUX_9_CSC_SELCTL(NETC_ETH_1_RX_CLK_IDX);
IP_MC_CGM_1->MUX_9_CSC = (IP_MC_CGM_1->MUX_9_CSC & ~MC_CGM_MUX_9_CSC_CLK_SW_MASK)
| MC_CGM_MUX_9_CSC_CLK_SW(1);
while (((IP_MC_CGM_1->MUX_9_CSS & MC_CGM_MUX_9_CSS_CLK_SW_MASK) == 0)
&& (tout > 0)) {
tout--;
}
while (((IP_MC_CGM_1->MUX_9_CSS & MC_CGM_MUX_9_CSS_SWIP_MASK) != 0)
&& (tout > 0)) {
tout--;
}
while (((IP_MC_CGM_1->MUX_9_CSS & MC_CGM_MUX_9_CSS_SWTRG_MASK)
>> MC_CGM_MUX_9_CSS_SWTRG_SHIFT != 1) && (tout > 0)) {
tout--;
}
__ASSERT_NO_MSG(((IP_MC_CGM_1->MUX_9_CSS & MC_CGM_MUX_9_CSS_SELSTAT_MASK)
>> MC_CGM_MUX_9_CSS_SELSTAT_SHIFT) == NETC_ETH_1_RX_CLK_IDX);
} else {
return -EINVAL;
}
return 0;
}
static int nxp_s32_eth_initialize(const struct device *dev)
{
const struct nxp_s32_eth_config *cfg = dev->config;
Std_ReturnType swt_status;
int err;
err = pinctrl_apply_state(cfg->pincfg, PINCTRL_STATE_DEFAULT);
if (err != 0) {
return err;
}
err = nxp_s32_eth_configure_cgm(cfg->port_idx);
if (err != 0) {
LOG_ERR("Failed to configure NETC Switch CGM");
return -EIO;
}
/* NETC Switch driver must be initialized before PSI */
swt_status = Netc_EthSwt_Ip_Init(NETC_SWITCH_IDX, &cfg->switch_cfg);
if (swt_status != E_OK) {
LOG_ERR("Failed to initialize NETC Switch %d (%d)",
NETC_SWITCH_IDX, swt_status);
return -EIO;
}
return nxp_s32_eth_initialize_common(dev);
}
static void nxp_s32_eth_iface_init(struct net_if *iface)
{
const struct device *dev = net_if_get_device(iface);
struct nxp_s32_eth_data *ctx = dev->data;
const struct nxp_s32_eth_config *cfg = dev->config;
const struct nxp_s32_eth_msix *msix;
#if defined(CONFIG_NET_IPV6)
static struct net_if_mcast_monitor mon;
net_if_mcast_mon_register(&mon, iface, nxp_s32_eth_mcast_cb);
#endif /* CONFIG_NET_IPV6 */
/*
* For VLAN, this value is only used to get the correct L2 driver.
* The iface pointer in context should contain the main interface
* if the VLANs are enabled.
*/
if (ctx->iface == NULL) {
ctx->iface = iface;
}
Netc_Eth_Ip_SetMacAddr(cfg->si_idx, (const uint8_t *)ctx->mac_addr);
net_if_set_link_addr(iface, ctx->mac_addr, sizeof(ctx->mac_addr), NET_LINK_ETHERNET);
LOG_INF("SI%d MAC: %02x:%02x:%02x:%02x:%02x:%02x", cfg->si_idx,
ctx->mac_addr[0], ctx->mac_addr[1], ctx->mac_addr[2],
ctx->mac_addr[3], ctx->mac_addr[4], ctx->mac_addr[5]);
ethernet_init(iface);
/*
* PSI controls the PHY. If PHY is configured either as fixed
* link or autoneg, the callback is executed at least once
* immediately after setting it.
*/
if (!device_is_ready(cfg->phy_dev)) {
LOG_ERR("PHY device (%p) is not ready, cannot init iface",
cfg->phy_dev);
return;
}
phy_link_callback_set(cfg->phy_dev, &phy_link_state_changed, (void *)dev);
/* Do not start the interface until PHY link is up */
net_if_carrier_off(iface);
for (int i = 0; i < NETC_MSIX_EVENTS_COUNT; i++) {
msix = &cfg->msix[i];
if (msix->mbox_channel.dev != NULL) {
if (mbox_set_enabled(&msix->mbox_channel, true)) {
LOG_ERR("Failed to enable MRU channel %u", msix->mbox_channel.id);
}
}
}
}
static void nxp_s32_eth0_rx_callback(const uint8_t unused, const uint8_t ring)
{
const struct device *dev = DEVICE_DT_GET(PSI_NODE);
const struct nxp_s32_eth_config *cfg = dev->config;
struct nxp_s32_eth_data *ctx = dev->data;
ARG_UNUSED(unused);
if (ring == cfg->rx_ring_idx) {
k_sem_give(&ctx->rx_sem);
}
}
static const struct ethernet_api nxp_s32_eth_api = {
.iface_api.init = nxp_s32_eth_iface_init,
.get_capabilities = nxp_s32_eth_get_capabilities,
.set_config = nxp_s32_eth_set_config,
.send = nxp_s32_eth_tx
};
BUILD_ASSERT(DT_NUM_INST_STATUS_OKAY(nxp_s32_netc_psi) == 1, "Only one PSI enabled supported");
#define NETC_VSI_GENERAL_CFG(node, prop, idx) \
[DT_PROP_BY_IDX(node, prop, idx)] = { \
.siId = DT_PROP_BY_IDX(node, prop, idx), \
.enableSi = true, \
.NumberOfRxBDR = 1, \
.NumberOfTxBDR = 1, \
.SIVlanControl = (NETC_F3_PSICFGR0_SIVC_CVLAN_BIT \
| NETC_F3_PSICFGR0_SIVC_SVLAN_BIT), \
}
#define NETC_VSI_RX_MSG_BUF(node, prop, idx) \
BUILD_ASSERT((DT_PROP_BY_IDX(node, prop, idx) > NETC_ETH_IP_PSI_INDEX) \
&& (DT_PROP_BY_IDX(node, prop, idx) <= FEATURE_NETC_ETH_NUM_OF_VIRTUAL_CTRLS), \
"Invalid VSI index"); \
static Netc_Eth_Ip_VsiToPsiMsgType \
_CONCAT3(nxp_s32_eth0_vsi, DT_PROP_BY_IDX(node, prop, idx), _rx_msg_buf) \
__aligned(FEATURE_NETC_ETH_VSI_MSG_ALIGNMENT)
#define NETC_VSI_RX_MSG_BUF_ARRAY(node, prop, idx) \
[DT_PROP_BY_IDX(node, prop, idx) - 1] = \
&_CONCAT3(nxp_s32_eth0_vsi, DT_PROP_BY_IDX(node, prop, idx), _rx_msg_buf)
#define NETC_SWITCH_PORT_CFG(_, __) \
{ \
.ePort = &nxp_s32_eth0_switch_port_egress_cfg, \
.iPort = &nxp_s32_eth0_switch_port_ingress_cfg, \
.EthSwtPortMacLayerPortEnable = true, \
.EthSwtPortMacLayerSpeed = ETHTRCV_BAUD_RATE_1000MBIT, \
.EthSwtPortMacLayerDuplexMode = NETC_ETHSWT_PORT_FULL_DUPLEX, \
.EthSwtPortPhysicalLayerType = NETC_ETHSWT_RGMII_MODE, \
.EthSwtPortPruningEnable = true, \
}
static Netc_Eth_Ip_StateType nxp_s32_eth0_state;
static Netc_Eth_Ip_MACFilterHashTableEntryType
nxp_s32_eth0_mac_filter_hash_table[CONFIG_ETH_NXP_S32_MAC_FILTER_TABLE_SIZE];
NETC_TX_RING(0, 0, NETC_MIN_RING_LEN, NETC_MIN_RING_BUF_SIZE);
NETC_TX_RING(0, TX_RING_IDX,
CONFIG_ETH_NXP_S32_TX_RING_LEN, CONFIG_ETH_NXP_S32_TX_RING_BUF_SIZE);
NETC_RX_RING(0, RX_RING_IDX,
CONFIG_ETH_NXP_S32_RX_RING_LEN, CONFIG_ETH_NXP_S32_RX_RING_BUF_SIZE);
static const Netc_Eth_Ip_RxRingConfigType nxp_s32_eth0_rxring_cfg[1] = {
{
.RingDesc = nxp_s32_eth0_rxring0_desc,
.Buffer = nxp_s32_eth0_rxring0_buf,
.ringSize = CONFIG_ETH_NXP_S32_RX_RING_LEN,
.maxRingSize = CONFIG_ETH_NXP_S32_RX_RING_LEN,
.bufferLen = CONFIG_ETH_NXP_S32_TX_RING_BUF_SIZE,
.maxBuffLen = CONFIG_ETH_NXP_S32_TX_RING_BUF_SIZE,
.TimerThreshold = CONFIG_ETH_NXP_S32_RX_IRQ_TIMER_THRESHOLD,
.PacketsThreshold = CONFIG_ETH_NXP_S32_RX_IRQ_PACKET_THRESHOLD,
.Callback = nxp_s32_eth0_rx_callback,
}
};
static const Netc_Eth_Ip_TxRingConfigType nxp_s32_eth0_txring_cfg[2] = {
{
.RingDesc = nxp_s32_eth0_txring0_desc,
.Buffer = nxp_s32_eth0_txring0_buf,
.ringSize = NETC_MIN_RING_LEN,
.maxRingSize = NETC_MIN_RING_LEN,
.bufferLen = NETC_MIN_RING_BUF_SIZE,
.maxBuffLen = NETC_MIN_RING_BUF_SIZE,
},
{
.RingDesc = nxp_s32_eth0_txring1_desc,
.Buffer = nxp_s32_eth0_txring1_buf,
.ringSize = CONFIG_ETH_NXP_S32_TX_RING_LEN,
.maxRingSize = CONFIG_ETH_NXP_S32_TX_RING_LEN,
.bufferLen = CONFIG_ETH_NXP_S32_TX_RING_BUF_SIZE,
.maxBuffLen = CONFIG_ETH_NXP_S32_TX_RING_BUF_SIZE,
}
};
static const Netc_Eth_Ip_GeneralSIConfigType
nxp_s32_eth0_psi_cfg[FEATURE_NETC_ETH_NUMBER_OF_CTRLS] = {
[NETC_ETH_IP_PSI_INDEX] = {
.siId = NETC_ETH_IP_PSI_INDEX,
.enableSi = true,
.NumberOfRxBDR = 1,
.NumberOfTxBDR = 2,
.SIVlanControl = (NETC_F3_PSICFGR0_SIVC_CVLAN_BIT
| NETC_F3_PSICFGR0_SIVC_SVLAN_BIT),
},
COND_CODE_1(INIT_VSIS,
(DT_FOREACH_PROP_ELEM_SEP(PSI_NODE, vsis, NETC_VSI_GENERAL_CFG, (,))),
(EMPTY))
};
COND_CODE_1(INIT_VSIS,
(DT_FOREACH_PROP_ELEM_SEP(PSI_NODE, vsis, NETC_VSI_RX_MSG_BUF, (;))),
(EMPTY));
static const Netc_Eth_Ip_EnetcGeneralConfigType nxp_s32_eth0_enetc_general_cfg = {
.numberOfConfiguredSis = FEATURE_NETC_ETH_NUMBER_OF_CTRLS,
.stationInterfaceGeneralConfig = &nxp_s32_eth0_psi_cfg,
#if defined(CONFIG_NET_PROMISCUOUS_MODE)
.maskMACPromiscuousMulticastEnable = (uint16_t)true,
.maskMACPromiscuousUnicastEnable = (uint16_t)true,
#endif
.RxVsiMsgCmdToPsi = {
COND_CODE_1(INIT_VSIS,
(DT_FOREACH_PROP_ELEM_SEP(PSI_NODE, vsis,
NETC_VSI_RX_MSG_BUF_ARRAY, (,))),
(EMPTY))
},
};
static const Netc_Eth_Ip_StationInterfaceConfigType nxp_s32_eth0_si_cfg = {
.NumberOfRxBDR = 1,
.NumberOfTxBDR = 2,
.txMruMailboxAddr = NULL,
.rxMruMailboxAddr = (uint32_t *)MRU_MBOX_ADDR(PSI_NODE, rx),
.siMsgMruMailboxAddr = COND_CODE_1(INIT_VSIS,
((uint32_t *)MRU_MBOX_ADDR(PSI_NODE, vsi_msg)), (NULL)),
.RxInterrupts = (uint32_t)true,
.TxInterrupts = (uint32_t)false,
.MACFilterTableMaxNumOfEntries = CONFIG_ETH_NXP_S32_MAC_FILTER_TABLE_SIZE,
};
static uint8_t nxp_s32_eth0_switch_vlandr2dei_cfg[NETC_ETHSWT_NUMBER_OF_DR];
static Netc_EthSwt_Ip_PortIngressType nxp_s32_eth0_switch_port_ingress_cfg;
static Netc_EthSwt_Ip_PortEgressType nxp_s32_eth0_switch_port_egress_cfg = {
.vlanDrToDei = &nxp_s32_eth0_switch_vlandr2dei_cfg,
};
static Netc_EthSwt_Ip_PortType nxp_s32_eth0_switch_ports_cfg[NETC_ETHSWT_NUMBER_OF_PORTS] = {
LISTIFY(NETC_ETHSWT_NUMBER_OF_PORTS, NETC_SWITCH_PORT_CFG, (,))
};
PINCTRL_DT_DEFINE(PSI_NODE);
NETC_GENERATE_MAC_ADDRESS(PSI_NODE, 0)
static const struct nxp_s32_eth_config nxp_s32_eth0_config = {
.netc_cfg = {
.SiType = NETC_ETH_IP_PHYSICAL_SI,
.siConfig = &nxp_s32_eth0_si_cfg,
.generalConfig = &nxp_s32_eth0_enetc_general_cfg,
.stateStructure = &nxp_s32_eth0_state,
.paCtrlRxRingConfig = &nxp_s32_eth0_rxring_cfg,
.paCtrlTxRingConfig = &nxp_s32_eth0_txring_cfg,
},
.switch_cfg = {
.port = &nxp_s32_eth0_switch_ports_cfg,
.EthSwtArlTableEntryTimeout = NETC_SWITCH_PORT_AGING,
.netcClockFrequency = DT_PROP(PSI_NODE, clock_frequency),
.MacLearningOption = ETHSWT_MACLEARNINGOPTION_HWDISABLED,
.MacForwardingOption = ETHSWT_NO_FDB_LOOKUP_FLOOD_FRAME,
.Timer1588ClkSrc = ETHSWT_REFERENCE_CLOCK_DISABLED,
},
.si_idx = NETC_ETH_IP_PSI_INDEX,
.port_idx = NETC_SWITCH_PORT_IDX,
.tx_ring_idx = TX_RING_IDX,
.rx_ring_idx = RX_RING_IDX,
.msix = {
NETC_MSIX(PSI_NODE, rx, Netc_Eth_Ip_0_MSIX_RxEvent),
COND_CODE_1(INIT_VSIS,
(NETC_MSIX(PSI_NODE, vsi_msg, Netc_Eth_Ip_MSIX_SIMsgEvent)),
(EMPTY))
},
.mac_filter_hash_table = &nxp_s32_eth0_mac_filter_hash_table[0],
.generate_mac = nxp_s32_eth0_generate_mac,
.phy_dev = DEVICE_DT_GET(PHY_NODE),
.pincfg = PINCTRL_DT_DEV_CONFIG_GET(PSI_NODE),
};
static struct nxp_s32_eth_data nxp_s32_eth0_data = {
.mac_addr = DT_PROP_OR(PSI_NODE, local_mac_address, {0}),
};
ETH_NET_DEVICE_DT_DEFINE(PSI_NODE,
nxp_s32_eth_initialize,
NULL,
&nxp_s32_eth0_data,
&nxp_s32_eth0_config,
CONFIG_ETH_NXP_S32_PSI_INIT_PRIORITY,
&nxp_s32_eth_api,
NET_ETH_MTU);