linux-zen-server/drivers/net/ethernet/qualcomm/emac/emac-mac.h

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2023-08-30 17:53:23 +02:00
/* SPDX-License-Identifier: GPL-2.0-only */
/* Copyright (c) 2013-2016, The Linux Foundation. All rights reserved.
*/
/* EMAC DMA HW engine uses three rings:
* Tx:
* TPD: Transmit Packet Descriptor ring.
* Rx:
* RFD: Receive Free Descriptor ring.
* Ring of descriptors with empty buffers to be filled by Rx HW.
* RRD: Receive Return Descriptor ring.
* Ring of descriptors with buffers filled with received data.
*/
#ifndef _EMAC_HW_H_
#define _EMAC_HW_H_
/* EMAC_CSR register offsets */
#define EMAC_EMAC_WRAPPER_CSR1 0x000000
#define EMAC_EMAC_WRAPPER_CSR2 0x000004
#define EMAC_EMAC_WRAPPER_TX_TS_LO 0x000104
#define EMAC_EMAC_WRAPPER_TX_TS_HI 0x000108
#define EMAC_EMAC_WRAPPER_TX_TS_INX 0x00010c
/* DMA Order Settings */
enum emac_dma_order {
emac_dma_ord_in = 1,
emac_dma_ord_enh = 2,
emac_dma_ord_out = 4
};
enum emac_dma_req_block {
emac_dma_req_128 = 0,
emac_dma_req_256 = 1,
emac_dma_req_512 = 2,
emac_dma_req_1024 = 3,
emac_dma_req_2048 = 4,
emac_dma_req_4096 = 5
};
/* Returns the value of bits idx...idx+n_bits */
#define BITS_GET(val, lo, hi) ((le32_to_cpu(val) & GENMASK((hi), (lo))) >> lo)
#define BITS_SET(val, lo, hi, new_val) \
val = cpu_to_le32((le32_to_cpu(val) & (~GENMASK((hi), (lo)))) | \
(((new_val) << (lo)) & GENMASK((hi), (lo))))
/* RRD (Receive Return Descriptor) */
struct emac_rrd {
u32 word[6];
/* number of RFD */
#define RRD_NOR(rrd) BITS_GET((rrd)->word[0], 16, 19)
/* start consumer index of rfd-ring */
#define RRD_SI(rrd) BITS_GET((rrd)->word[0], 20, 31)
/* vlan-tag (CVID, CFI and PRI) */
#define RRD_CVALN_TAG(rrd) BITS_GET((rrd)->word[2], 0, 15)
/* length of the packet */
#define RRD_PKT_SIZE(rrd) BITS_GET((rrd)->word[3], 0, 13)
/* L4(TCP/UDP) checksum failed */
#define RRD_L4F(rrd) BITS_GET((rrd)->word[3], 14, 14)
/* vlan tagged */
#define RRD_CVTAG(rrd) BITS_GET((rrd)->word[3], 16, 16)
/* When set, indicates that the descriptor is updated by the IP core.
* When cleared, indicates that the descriptor is invalid.
*/
#define RRD_UPDT(rrd) BITS_GET((rrd)->word[3], 31, 31)
#define RRD_UPDT_SET(rrd, val) BITS_SET((rrd)->word[3], 31, 31, val)
/* timestamp low */
#define RRD_TS_LOW(rrd) BITS_GET((rrd)->word[4], 0, 29)
/* timestamp high */
#define RRD_TS_HI(rrd) le32_to_cpu((rrd)->word[5])
};
/* TPD (Transmit Packet Descriptor) */
struct emac_tpd {
u32 word[4];
/* Number of bytes of the transmit packet. (include 4-byte CRC) */
#define TPD_BUF_LEN_SET(tpd, val) BITS_SET((tpd)->word[0], 0, 15, val)
/* Custom Checksum Offload: When set, ask IP core to offload custom checksum */
#define TPD_CSX_SET(tpd, val) BITS_SET((tpd)->word[1], 8, 8, val)
/* TCP Large Send Offload: When set, ask IP core to do offload TCP Large Send */
#define TPD_LSO(tpd) BITS_GET((tpd)->word[1], 12, 12)
#define TPD_LSO_SET(tpd, val) BITS_SET((tpd)->word[1], 12, 12, val)
/* Large Send Offload Version: When set, indicates this is an LSOv2
* (for both IPv4 and IPv6). When cleared, indicates this is an LSOv1
* (only for IPv4).
*/
#define TPD_LSOV_SET(tpd, val) BITS_SET((tpd)->word[1], 13, 13, val)
/* IPv4 packet: When set, indicates this is an IPv4 packet, this bit is only
* for LSOV2 format.
*/
#define TPD_IPV4_SET(tpd, val) BITS_SET((tpd)->word[1], 16, 16, val)
/* 0: Ethernet frame (DA+SA+TYPE+DATA+CRC)
* 1: IEEE 802.3 frame (DA+SA+LEN+DSAP+SSAP+CTL+ORG+TYPE+DATA+CRC)
*/
#define TPD_TYP_SET(tpd, val) BITS_SET((tpd)->word[1], 17, 17, val)
/* Low-32bit Buffer Address */
#define TPD_BUFFER_ADDR_L_SET(tpd, val) ((tpd)->word[2] = cpu_to_le32(val))
/* CVLAN Tag to be inserted if INS_VLAN_TAG is set, CVLAN TPID based on global
* register configuration.
*/
#define TPD_CVLAN_TAG_SET(tpd, val) BITS_SET((tpd)->word[3], 0, 15, val)
/* Insert CVlan Tag: When set, ask MAC to insert CVLAN TAG to outgoing packet
*/
#define TPD_INSTC_SET(tpd, val) BITS_SET((tpd)->word[3], 17, 17, val)
/* High-14bit Buffer Address, So, the 64b-bit address is
* {DESC_CTRL_11_TX_DATA_HIADDR[17:0],(register) BUFFER_ADDR_H, BUFFER_ADDR_L}
* Extend TPD_BUFFER_ADDR_H to [31, 18], because we never enable timestamping.
*/
#define TPD_BUFFER_ADDR_H_SET(tpd, val) BITS_SET((tpd)->word[3], 18, 31, val)
/* Format D. Word offset from the 1st byte of this packet to start to calculate
* the custom checksum.
*/
#define TPD_PAYLOAD_OFFSET_SET(tpd, val) BITS_SET((tpd)->word[1], 0, 7, val)
/* Format D. Word offset from the 1st byte of this packet to fill the custom
* checksum to
*/
#define TPD_CXSUM_OFFSET_SET(tpd, val) BITS_SET((tpd)->word[1], 18, 25, val)
/* Format C. TCP Header offset from the 1st byte of this packet. (byte unit) */
#define TPD_TCPHDR_OFFSET_SET(tpd, val) BITS_SET((tpd)->word[1], 0, 7, val)
/* Format C. MSS (Maximum Segment Size) got from the protocol layer. (byte unit)
*/
#define TPD_MSS_SET(tpd, val) BITS_SET((tpd)->word[1], 18, 30, val)
/* packet length in ext tpd */
#define TPD_PKT_LEN_SET(tpd, val) ((tpd)->word[2] = cpu_to_le32(val))
};
/* emac_ring_header represents a single, contiguous block of DMA space
* mapped for the three descriptor rings (tpd, rfd, rrd)
*/
struct emac_ring_header {
void *v_addr; /* virtual address */
dma_addr_t dma_addr; /* dma address */
size_t size; /* length in bytes */
size_t used;
};
/* emac_buffer is wrapper around a pointer to a socket buffer
* so a DMA handle can be stored along with the skb
*/
struct emac_buffer {
struct sk_buff *skb; /* socket buffer */
u16 length; /* rx buffer length */
dma_addr_t dma_addr; /* dma address */
};
/* receive free descriptor (rfd) ring */
struct emac_rfd_ring {
struct emac_buffer *rfbuff;
u32 *v_addr; /* virtual address */
dma_addr_t dma_addr; /* dma address */
size_t size; /* length in bytes */
unsigned int count; /* number of desc in the ring */
unsigned int produce_idx;
unsigned int process_idx;
unsigned int consume_idx; /* unused */
};
/* Receive Return Desciptor (RRD) ring */
struct emac_rrd_ring {
u32 *v_addr; /* virtual address */
dma_addr_t dma_addr; /* physical address */
size_t size; /* length in bytes */
unsigned int count; /* number of desc in the ring */
unsigned int produce_idx; /* unused */
unsigned int consume_idx;
};
/* Rx queue */
struct emac_rx_queue {
struct net_device *netdev; /* netdev ring belongs to */
struct emac_rrd_ring rrd;
struct emac_rfd_ring rfd;
struct napi_struct napi;
struct emac_irq *irq;
u32 intr;
u32 produce_mask;
u32 process_mask;
u32 consume_mask;
u16 produce_reg;
u16 process_reg;
u16 consume_reg;
u8 produce_shift;
u8 process_shft;
u8 consume_shift;
};
/* Transimit Packet Descriptor (tpd) ring */
struct emac_tpd_ring {
struct emac_buffer *tpbuff;
u32 *v_addr; /* virtual address */
dma_addr_t dma_addr; /* dma address */
size_t size; /* length in bytes */
unsigned int count; /* number of desc in the ring */
unsigned int produce_idx;
unsigned int consume_idx;
unsigned int last_produce_idx;
};
/* Tx queue */
struct emac_tx_queue {
struct emac_tpd_ring tpd;
u32 produce_mask;
u32 consume_mask;
u16 max_packets; /* max packets per interrupt */
u16 produce_reg;
u16 consume_reg;
u8 produce_shift;
u8 consume_shift;
};
struct emac_adapter;
int emac_mac_up(struct emac_adapter *adpt);
void emac_mac_down(struct emac_adapter *adpt);
void emac_mac_reset(struct emac_adapter *adpt);
void emac_mac_stop(struct emac_adapter *adpt);
void emac_mac_mode_config(struct emac_adapter *adpt);
void emac_mac_rx_process(struct emac_adapter *adpt, struct emac_rx_queue *rx_q,
int *num_pkts, int max_pkts);
netdev_tx_t emac_mac_tx_buf_send(struct emac_adapter *adpt,
struct emac_tx_queue *tx_q,
struct sk_buff *skb);
void emac_mac_tx_process(struct emac_adapter *adpt, struct emac_tx_queue *tx_q);
void emac_mac_rx_tx_ring_init_all(struct platform_device *pdev,
struct emac_adapter *adpt);
int emac_mac_rx_tx_rings_alloc_all(struct emac_adapter *adpt);
void emac_mac_rx_tx_rings_free_all(struct emac_adapter *adpt);
void emac_mac_multicast_addr_clear(struct emac_adapter *adpt);
void emac_mac_multicast_addr_set(struct emac_adapter *adpt, u8 *addr);
#endif /*_EMAC_HW_H_*/