xref: /linux/drivers/net/ethernet/google/gve/gve_desc.h (revision 34dc1baba215b826e454b8d19e4f24adbeb7d00d)
1 /* SPDX-License-Identifier: (GPL-2.0 OR MIT)
2  * Google virtual Ethernet (gve) driver
3  *
4  * Copyright (C) 2015-2019 Google, Inc.
5  */
6 
7 /* GVE Transmit Descriptor formats */
8 
9 #ifndef _GVE_DESC_H_
10 #define _GVE_DESC_H_
11 
12 #include <linux/build_bug.h>
13 
14 /* A note on seg_addrs
15  *
16  * Base addresses encoded in seg_addr are not assumed to be physical
17  * addresses. The ring format assumes these come from some linear address
18  * space. This could be physical memory, kernel virtual memory, user virtual
19  * memory.
20  * If raw dma addressing is not supported then gVNIC uses lists of registered
21  * pages. Each queue is assumed to be associated with a single such linear
22  * address space to ensure a consistent meaning for seg_addrs posted to its
23  * rings.
24  */
25 
26 struct gve_tx_pkt_desc {
27 	u8	type_flags;  /* desc type is lower 4 bits, flags upper */
28 	u8	l4_csum_offset;  /* relative offset of L4 csum word */
29 	u8	l4_hdr_offset;  /* Offset of start of L4 headers in packet */
30 	u8	desc_cnt;  /* Total descriptors for this packet */
31 	__be16	len;  /* Total length of this packet (in bytes) */
32 	__be16	seg_len;  /* Length of this descriptor's segment */
33 	__be64	seg_addr;  /* Base address (see note) of this segment */
34 } __packed;
35 
36 struct gve_tx_mtd_desc {
37 	u8      type_flags;     /* type is lower 4 bits, subtype upper  */
38 	u8      path_state;     /* state is lower 4 bits, hash type upper */
39 	__be16  reserved0;
40 	__be32  path_hash;
41 	__be64  reserved1;
42 } __packed;
43 
44 struct gve_tx_seg_desc {
45 	u8	type_flags;	/* type is lower 4 bits, flags upper	*/
46 	u8	l3_offset;	/* TSO: 2 byte units to start of IPH	*/
47 	__be16	reserved;
48 	__be16	mss;		/* TSO MSS				*/
49 	__be16	seg_len;
50 	__be64	seg_addr;
51 } __packed;
52 
53 /* GVE Transmit Descriptor Types */
54 #define	GVE_TXD_STD		(0x0 << 4) /* Std with Host Address	*/
55 #define	GVE_TXD_TSO		(0x1 << 4) /* TSO with Host Address	*/
56 #define	GVE_TXD_SEG		(0x2 << 4) /* Seg with Host Address	*/
57 #define	GVE_TXD_MTD		(0x3 << 4) /* Metadata			*/
58 
59 /* GVE Transmit Descriptor Flags for Std Pkts */
60 #define	GVE_TXF_L4CSUM	BIT(0)	/* Need csum offload */
61 #define	GVE_TXF_TSTAMP	BIT(2)	/* Timestamp required */
62 
63 /* GVE Transmit Descriptor Flags for TSO Segs */
64 #define	GVE_TXSF_IPV6	BIT(1)	/* IPv6 TSO */
65 
66 /* GVE Transmit Descriptor Options for MTD Segs */
67 #define GVE_MTD_SUBTYPE_PATH		0
68 
69 #define GVE_MTD_PATH_STATE_DEFAULT	0
70 #define GVE_MTD_PATH_STATE_TIMEOUT	1
71 #define GVE_MTD_PATH_STATE_CONGESTION	2
72 #define GVE_MTD_PATH_STATE_RETRANSMIT	3
73 
74 #define GVE_MTD_PATH_HASH_NONE         (0x0 << 4)
75 #define GVE_MTD_PATH_HASH_L4           (0x1 << 4)
76 
77 /* GVE Receive Packet Descriptor */
78 /* The start of an ethernet packet comes 2 bytes into the rx buffer.
79  * gVNIC adds this padding so that both the DMA and the L3/4 protocol header
80  * access is aligned.
81  */
82 #define GVE_RX_PAD 2
83 
84 struct gve_rx_desc {
85 	u8	padding[48];
86 	__be32	rss_hash;  /* Receive-side scaling hash (Toeplitz for gVNIC) */
87 	__be16	mss;
88 	__be16	reserved;  /* Reserved to zero */
89 	u8	hdr_len;  /* Header length (L2-L4) including padding */
90 	u8	hdr_off;  /* 64-byte-scaled offset into RX_DATA entry */
91 	__sum16	csum;  /* 1's-complement partial checksum of L3+ bytes */
92 	__be16	len;  /* Length of the received packet */
93 	__be16	flags_seq;  /* Flags [15:3] and sequence number [2:0] (1-7) */
94 } __packed;
95 static_assert(sizeof(struct gve_rx_desc) == 64);
96 
97 /* If the device supports raw dma addressing then the addr in data slot is
98  * the dma address of the buffer.
99  * If the device only supports registered segments then the addr is a byte
100  * offset into the registered segment (an ordered list of pages) where the
101  * buffer is.
102  */
103 union gve_rx_data_slot {
104 	__be64 qpl_offset;
105 	__be64 addr;
106 };
107 
108 /* GVE Receive Packet Descriptor Seq No */
109 #define GVE_SEQNO(x) (be16_to_cpu(x) & 0x7)
110 
111 /* GVE Receive Packet Descriptor Flags */
112 #define GVE_RXFLG(x)	cpu_to_be16(1 << (3 + (x)))
113 #define	GVE_RXF_FRAG		GVE_RXFLG(3)	/* IP Fragment			*/
114 #define	GVE_RXF_IPV4		GVE_RXFLG(4)	/* IPv4				*/
115 #define	GVE_RXF_IPV6		GVE_RXFLG(5)	/* IPv6				*/
116 #define	GVE_RXF_TCP		GVE_RXFLG(6)	/* TCP Packet			*/
117 #define	GVE_RXF_UDP		GVE_RXFLG(7)	/* UDP Packet			*/
118 #define	GVE_RXF_ERR		GVE_RXFLG(8)	/* Packet Error Detected	*/
119 #define	GVE_RXF_PKT_CONT	GVE_RXFLG(10)	/* Multi Fragment RX packet	*/
120 
121 /* GVE IRQ */
122 #define GVE_IRQ_ACK	BIT(31)
123 #define GVE_IRQ_MASK	BIT(30)
124 #define GVE_IRQ_EVENT	BIT(29)
125 
126 static inline bool gve_needs_rss(__be16 flag)
127 {
128 	if (flag & GVE_RXF_FRAG)
129 		return false;
130 	if (flag & (GVE_RXF_IPV4 | GVE_RXF_IPV6))
131 		return true;
132 	return false;
133 }
134 
135 static inline u8 gve_next_seqno(u8 seq)
136 {
137 	return (seq + 1) == 8 ? 1 : seq + 1;
138 }
139 #endif /* _GVE_DESC_H_ */
140