drivers/ethernet/eth_nxp_s32_netc_priv.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright 2022 NXP
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_DRIVERS_ETHERNET_ETH_NXP_S32_NETC_PRIV_H_
 #define ZEPHYR_DRIVERS_ETHERNET_ETH_NXP_S32_NETC_PRIV_H_

 #define NETC_F3_PSICFGR0_SIVC_CVLAN_BIT	BIT(0)	/* 0x8100 */
 #define NETC_F3_PSICFGR0_SIVC_SVLAN_BIT	BIT(1)	/* 0x88A8 */

 #define NETC_MIN_RING_LEN	8U
 #define NETC_MIN_RING_BUF_SIZE	64U

 #define NETC_SWITCH_IDX		0U
 #define NETC_SWITCH_PORT_IDX	0U
 #define NETC_SWITCH_PORT_AGING	300U
 #define NETC_ETH_0_RX_CLK_IDX	49U
 #define NETC_ETH_1_RX_CLK_IDX	51U

 #define NETC_MSIX_EVENTS_COUNT	2U

 /* Timeout for various operations */
 #define NETC_TIMEOUT		K_MSEC(20)

 /* Helper macros to convert from Zephyr PHY speed to NETC baudrate/duplex types */
 #define PHY_TO_NETC_SPEED(x) \
 	(PHY_LINK_IS_SPEED_1000M(x) ? ETHTRCV_BAUD_RATE_1000MBIT : \
 		(PHY_LINK_IS_SPEED_100M(x) ? ETHTRCV_BAUD_RATE_100MBIT : ETHTRCV_BAUD_RATE_10MBIT))

 #define PHY_TO_NETC_DUPLEX_MODE(x) \
 	(PHY_LINK_IS_FULL_DUPLEX(x) ? NETC_ETHSWT_PORT_FULL_DUPLEX : NETC_ETHSWT_PORT_HALF_DUPLEX)

 /*
  * Get the first MRU mailbox address for an specific mbox handle
  * mbox[0] addr = MRU base addr + (channel × channel offset), with channel=1..N
  */
 #define MRU_CHANNEL_OFFSET	0x1000
 #define MRU_MBOX_ADDR(node, name)						\
 	(DT_REG_ADDR(DT_MBOX_CTLR_BY_NAME(node, name))				\
 	 + ((DT_MBOX_CHANNEL_BY_NAME(node, name) + 1) * MRU_CHANNEL_OFFSET))

 #define NETC_MSIX(node, name, cb)					\
 	{								\
 		.handler = cb,						\
 		.mbox_channel = MBOX_DT_CHANNEL_GET(node, name),	\
 	}

 /* Tx/Rx ENETC ring definitions */
 #define _NETC_RING(n, idx, len, buf_size, prefix1, prefix2)					\
 	static Netc_Eth_Ip_##prefix1##BDRType nxp_s32_eth##n##_##prefix2##ring##idx##_desc[len]	\
 		__nocache __aligned(FEATURE_NETC_BUFFDESCR_ALIGNMENT_BYTES);			\
 	static uint8_t nxp_s32_eth##n##_##prefix2##ring##idx##_buf[len * buf_size]		\
 		__nocache __aligned(FEATURE_NETC_BUFF_ALIGNMENT_BYTES)

 #define NETC_RX_RING(n, idx, len, buf_size)	_NETC_RING(n, idx, len, buf_size, Rx, rx)
 #define NETC_TX_RING(n, idx, len, buf_size)	_NETC_RING(n, idx, len, buf_size, Tx, tx)

 /* Helper function to generate an Ethernet MAC address for a given ENETC instance */
 #define FREESCALE_OUI_B0 0x00
 #define FREESCALE_OUI_B1 0x04
 #define FREESCALE_OUI_B2 0x9f

 #define _NETC_GENERATE_MAC_ADDRESS_RANDOM	\
 	gen_random_mac(mac_addr, FREESCALE_OUI_B0, FREESCALE_OUI_B1, FREESCALE_OUI_B2)

 #define _NETC_GENERATE_MAC_ADDRESS_UNIQUE(n)				\
 	do {								\
 		uint32_t id = 0x001100;					\
 									\
 		mac_addr[0] = FREESCALE_OUI_B0;				\
 		mac_addr[1] = FREESCALE_OUI_B1;				\
 		/* Set MAC address locally administered bit (LAA) */	\
 		mac_addr[2] = FREESCALE_OUI_B2 | 0x02;			\
 		mac_addr[3] = (id >> 16) & 0xff;			\
 		mac_addr[4] = (id >> 8) & 0xff;				\
 		mac_addr[5] = (id + n) & 0xff;				\
 	} while (0)

 #define NETC_GENERATE_MAC_ADDRESS(node, n)					\
 	static void nxp_s32_eth##n##_generate_mac(uint8_t mac_addr[6])		\
 	{									\
 		COND_CODE_1(DT_PROP(node, zephyr_random_mac_address),		\
 			(_NETC_GENERATE_MAC_ADDRESS_RANDOM),			\
 			(COND_CODE_0(DT_NODE_HAS_PROP(node, local_mac_address),	\
 				(_NETC_GENERATE_MAC_ADDRESS_UNIQUE(n)),		\
 				(ARG_UNUSED(mac_addr)))));			\
 	}

 /* Helper macros to concatenate tokens that require further expansions */
 #define _CONCAT3(a, b, c)	DT_CAT3(a, b, c)

 struct nxp_s32_eth_msix {
 	void (*handler)(uint8_t chan, const uint32_t *buf, uint8_t buf_size);
 	struct mbox_channel mbox_channel;
 };

 struct nxp_s32_eth_config {
 	const Netc_Eth_Ip_ConfigType netc_cfg;

 	const Netc_EthSwt_Ip_ConfigType switch_cfg;

 	Netc_Eth_Ip_MACFilterHashTableEntryType *mac_filter_hash_table;

 	uint8_t si_idx;
 	uint8_t port_idx;
 	const struct device *phy_dev;
 	uint8_t tx_ring_idx;
 	uint8_t rx_ring_idx;
 	void (*generate_mac)(uint8_t *mac_addr);
 	struct nxp_s32_eth_msix msix[NETC_MSIX_EVENTS_COUNT];
 	const struct pinctrl_dev_config *pincfg;
 };

 struct nxp_s32_eth_data {
 	struct net_if *iface;
 	uint8_t mac_addr[6];
 	struct k_mutex tx_mutex;
 	struct k_sem rx_sem;
 	struct k_thread rx_thread;

 	K_KERNEL_STACK_MEMBER(rx_thread_stack, CONFIG_ETH_NXP_S32_RX_THREAD_STACK_SIZE);
 };

 int nxp_s32_eth_initialize_common(const struct device *dev);
 int nxp_s32_eth_tx(const struct device *dev, struct net_pkt *pkt);
 enum ethernet_hw_caps nxp_s32_eth_get_capabilities(const struct device *dev);
 void nxp_s32_eth_mcast_cb(struct net_if *iface, const struct net_addr *addr, bool is_joined);
 int nxp_s32_eth_set_config(const struct device *dev, enum ethernet_config_type type,
 			   const struct ethernet_config *config);

 #endif /* ZEPHYR_DRIVERS_ETHERNET_ETH_NXP_S32_NETC_PRIV_H_ */
	/*
	* Copyright 2022 NXP
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_DRIVERS_ETHERNET_ETH_NXP_S32_NETC_PRIV_H_
	#define ZEPHYR_DRIVERS_ETHERNET_ETH_NXP_S32_NETC_PRIV_H_

	#define NETC_F3_PSICFGR0_SIVC_CVLAN_BIT BIT(0) /* 0x8100 */
	#define NETC_F3_PSICFGR0_SIVC_SVLAN_BIT BIT(1) /* 0x88A8 */

	#define NETC_MIN_RING_LEN 8U
	#define NETC_MIN_RING_BUF_SIZE 64U

	#define NETC_SWITCH_IDX 0U
	#define NETC_SWITCH_PORT_IDX 0U
	#define NETC_SWITCH_PORT_AGING 300U
	#define NETC_ETH_0_RX_CLK_IDX 49U
	#define NETC_ETH_1_RX_CLK_IDX 51U

	#define NETC_MSIX_EVENTS_COUNT 2U

	/* Timeout for various operations */
	#define NETC_TIMEOUT K_MSEC(20)

	/* Helper macros to convert from Zephyr PHY speed to NETC baudrate/duplex types */
	#define PHY_TO_NETC_SPEED(x) \
	(PHY_LINK_IS_SPEED_1000M(x) ? ETHTRCV_BAUD_RATE_1000MBIT : \
	(PHY_LINK_IS_SPEED_100M(x) ? ETHTRCV_BAUD_RATE_100MBIT : ETHTRCV_BAUD_RATE_10MBIT))

	#define PHY_TO_NETC_DUPLEX_MODE(x) \
	(PHY_LINK_IS_FULL_DUPLEX(x) ? NETC_ETHSWT_PORT_FULL_DUPLEX : NETC_ETHSWT_PORT_HALF_DUPLEX)

	/*
	* Get the first MRU mailbox address for an specific mbox handle
	* mbox[0] addr = MRU base addr + (channel × channel offset), with channel=1..N
	*/
	#define MRU_CHANNEL_OFFSET 0x1000
	#define MRU_MBOX_ADDR(node, name) \
	(DT_REG_ADDR(DT_MBOX_CTLR_BY_NAME(node, name)) \
	+ ((DT_MBOX_CHANNEL_BY_NAME(node, name) + 1) * MRU_CHANNEL_OFFSET))

	#define NETC_MSIX(node, name, cb) \
	{ \
	.handler = cb, \
	.mbox_channel = MBOX_DT_CHANNEL_GET(node, name), \
	}

	/* Tx/Rx ENETC ring definitions */
	#define _NETC_RING(n, idx, len, buf_size, prefix1, prefix2) \
	static Netc_Eth_Ip_##prefix1##BDRType nxp_s32_eth##n##_##prefix2##ring##idx##_desc[len] \
	__nocache __aligned(FEATURE_NETC_BUFFDESCR_ALIGNMENT_BYTES); \
	static uint8_t nxp_s32_eth##n##_##prefix2##ring##idx##_buf[len * buf_size] \
	__nocache __aligned(FEATURE_NETC_BUFF_ALIGNMENT_BYTES)

	#define NETC_RX_RING(n, idx, len, buf_size) _NETC_RING(n, idx, len, buf_size, Rx, rx)
	#define NETC_TX_RING(n, idx, len, buf_size) _NETC_RING(n, idx, len, buf_size, Tx, tx)

	/* Helper function to generate an Ethernet MAC address for a given ENETC instance */
	#define FREESCALE_OUI_B0 0x00
	#define FREESCALE_OUI_B1 0x04
	#define FREESCALE_OUI_B2 0x9f

	#define _NETC_GENERATE_MAC_ADDRESS_RANDOM \
	gen_random_mac(mac_addr, FREESCALE_OUI_B0, FREESCALE_OUI_B1, FREESCALE_OUI_B2)

	#define _NETC_GENERATE_MAC_ADDRESS_UNIQUE(n) \
	do { \
	uint32_t id = 0x001100; \
	\
	mac_addr[0] = FREESCALE_OUI_B0; \
	mac_addr[1] = FREESCALE_OUI_B1; \
	/* Set MAC address locally administered bit (LAA) */ \
	mac_addr[2] = FREESCALE_OUI_B2 \| 0x02; \
	mac_addr[3] = (id >> 16) & 0xff; \
	mac_addr[4] = (id >> 8) & 0xff; \
	mac_addr[5] = (id + n) & 0xff; \
	} while (0)

	#define NETC_GENERATE_MAC_ADDRESS(node, n) \
	static void nxp_s32_eth##n##_generate_mac(uint8_t mac_addr[6]) \
	{ \
	COND_CODE_1(DT_PROP(node, zephyr_random_mac_address), \
	(_NETC_GENERATE_MAC_ADDRESS_RANDOM), \
	(COND_CODE_0(DT_NODE_HAS_PROP(node, local_mac_address), \
	(_NETC_GENERATE_MAC_ADDRESS_UNIQUE(n)), \
	(ARG_UNUSED(mac_addr))))); \
	}

	/* Helper macros to concatenate tokens that require further expansions */
	#define _CONCAT3(a, b, c) DT_CAT3(a, b, c)

	struct nxp_s32_eth_msix {
	void (handler)(uint8_t chan, const uint32_t buf, uint8_t buf_size);
	struct mbox_channel mbox_channel;
	};

	struct nxp_s32_eth_config {
	const Netc_Eth_Ip_ConfigType netc_cfg;

	const Netc_EthSwt_Ip_ConfigType switch_cfg;

	Netc_Eth_Ip_MACFilterHashTableEntryType *mac_filter_hash_table;

	uint8_t si_idx;
	uint8_t port_idx;
	const struct device *phy_dev;
	uint8_t tx_ring_idx;
	uint8_t rx_ring_idx;
	void (generate_mac)(uint8_t mac_addr);
	struct nxp_s32_eth_msix msix[NETC_MSIX_EVENTS_COUNT];
	const struct pinctrl_dev_config *pincfg;
	};

	struct nxp_s32_eth_data {
	struct net_if *iface;
	uint8_t mac_addr[6];
	struct k_mutex tx_mutex;
	struct k_sem rx_sem;
	struct k_thread rx_thread;

	K_KERNEL_STACK_MEMBER(rx_thread_stack, CONFIG_ETH_NXP_S32_RX_THREAD_STACK_SIZE);
	};

	int nxp_s32_eth_initialize_common(const struct device *dev);
	int nxp_s32_eth_tx(const struct device dev, struct net_pkt pkt);
	enum ethernet_hw_caps nxp_s32_eth_get_capabilities(const struct device *dev);
	void nxp_s32_eth_mcast_cb(struct net_if iface, const struct net_addr addr, bool is_joined);
	int nxp_s32_eth_set_config(const struct device *dev, enum ethernet_config_type type,
	const struct ethernet_config *config);

	#endif /* ZEPHYR_DRIVERS_ETHERNET_ETH_NXP_S32_NETC_PRIV_H_ */