1 // SPDX-License-Identifier: GPL-2.0 2 // 3 // mcp251xfd - Microchip MCP251xFD Family CAN controller driver 4 // 5 // Copyright (c) 2019, 2020, 2021 Pengutronix, 6 // Marc Kleine-Budde <kernel@pengutronix.de> 7 // 8 // Based on: 9 // 10 // CAN bus driver for Microchip 25XXFD CAN Controller with SPI Interface 11 // 12 // Copyright (c) 2019 Martin Sperl <kernel@martin.sperl.org> 13 // 14 15 #include <linux/bitfield.h> 16 17 #include "mcp251xfd.h" 18 19 static inline int 20 mcp251xfd_tef_tail_get_from_chip(const struct mcp251xfd_priv *priv, 21 u8 *tef_tail) 22 { 23 u32 tef_ua; 24 int err; 25 26 err = regmap_read(priv->map_reg, MCP251XFD_REG_TEFUA, &tef_ua); 27 if (err) 28 return err; 29 30 *tef_tail = tef_ua / sizeof(struct mcp251xfd_hw_tef_obj); 31 32 return 0; 33 } 34 35 static int mcp251xfd_check_tef_tail(const struct mcp251xfd_priv *priv) 36 { 37 u8 tef_tail_chip, tef_tail; 38 int err; 39 40 if (!IS_ENABLED(CONFIG_CAN_MCP251XFD_SANITY)) 41 return 0; 42 43 err = mcp251xfd_tef_tail_get_from_chip(priv, &tef_tail_chip); 44 if (err) 45 return err; 46 47 tef_tail = mcp251xfd_get_tef_tail(priv); 48 if (tef_tail_chip != tef_tail) { 49 netdev_err(priv->ndev, 50 "TEF tail of chip (0x%02x) and ours (0x%08x) inconsistent.\n", 51 tef_tail_chip, tef_tail); 52 return -EILSEQ; 53 } 54 55 return 0; 56 } 57 58 static int 59 mcp251xfd_handle_tefif_recover(const struct mcp251xfd_priv *priv, const u32 seq) 60 { 61 const struct mcp251xfd_tx_ring *tx_ring = priv->tx; 62 u32 tef_sta; 63 int err; 64 65 err = regmap_read(priv->map_reg, MCP251XFD_REG_TEFSTA, &tef_sta); 66 if (err) 67 return err; 68 69 if (tef_sta & MCP251XFD_REG_TEFSTA_TEFOVIF) { 70 netdev_err(priv->ndev, 71 "Transmit Event FIFO buffer overflow.\n"); 72 return -ENOBUFS; 73 } 74 75 netdev_info(priv->ndev, 76 "Transmit Event FIFO buffer %s. (seq=0x%08x, tef_tail=0x%08x, tef_head=0x%08x, tx_head=0x%08x).\n", 77 tef_sta & MCP251XFD_REG_TEFSTA_TEFFIF ? 78 "full" : tef_sta & MCP251XFD_REG_TEFSTA_TEFNEIF ? 79 "not empty" : "empty", 80 seq, priv->tef->tail, priv->tef->head, tx_ring->head); 81 82 /* The Sequence Number in the TEF doesn't match our tef_tail. */ 83 return -EAGAIN; 84 } 85 86 static int 87 mcp251xfd_handle_tefif_one(struct mcp251xfd_priv *priv, 88 const struct mcp251xfd_hw_tef_obj *hw_tef_obj, 89 unsigned int *frame_len_ptr) 90 { 91 struct net_device_stats *stats = &priv->ndev->stats; 92 struct sk_buff *skb; 93 u32 seq, seq_masked, tef_tail_masked, tef_tail; 94 95 seq = FIELD_GET(MCP251XFD_OBJ_FLAGS_SEQ_MCP2518FD_MASK, 96 hw_tef_obj->flags); 97 98 /* Use the MCP2517FD mask on the MCP2518FD, too. We only 99 * compare 7 bits, this should be enough to detect 100 * net-yet-completed, i.e. old TEF objects. 101 */ 102 seq_masked = seq & 103 field_mask(MCP251XFD_OBJ_FLAGS_SEQ_MCP2517FD_MASK); 104 tef_tail_masked = priv->tef->tail & 105 field_mask(MCP251XFD_OBJ_FLAGS_SEQ_MCP2517FD_MASK); 106 if (seq_masked != tef_tail_masked) 107 return mcp251xfd_handle_tefif_recover(priv, seq); 108 109 tef_tail = mcp251xfd_get_tef_tail(priv); 110 skb = priv->can.echo_skb[tef_tail]; 111 if (skb) 112 mcp251xfd_skb_set_timestamp(priv, skb, hw_tef_obj->ts); 113 stats->tx_bytes += 114 can_rx_offload_get_echo_skb(&priv->offload, 115 tef_tail, hw_tef_obj->ts, 116 frame_len_ptr); 117 stats->tx_packets++; 118 priv->tef->tail++; 119 120 return 0; 121 } 122 123 static int mcp251xfd_tef_ring_update(struct mcp251xfd_priv *priv) 124 { 125 const struct mcp251xfd_tx_ring *tx_ring = priv->tx; 126 unsigned int new_head; 127 u8 chip_tx_tail; 128 int err; 129 130 err = mcp251xfd_tx_tail_get_from_chip(priv, &chip_tx_tail); 131 if (err) 132 return err; 133 134 /* chip_tx_tail, is the next TX-Object send by the HW. 135 * The new TEF head must be >= the old head, ... 136 */ 137 new_head = round_down(priv->tef->head, tx_ring->obj_num) + chip_tx_tail; 138 if (new_head <= priv->tef->head) 139 new_head += tx_ring->obj_num; 140 141 /* ... but it cannot exceed the TX head. */ 142 priv->tef->head = min(new_head, tx_ring->head); 143 144 return mcp251xfd_check_tef_tail(priv); 145 } 146 147 static inline int 148 mcp251xfd_tef_obj_read(const struct mcp251xfd_priv *priv, 149 struct mcp251xfd_hw_tef_obj *hw_tef_obj, 150 const u8 offset, const u8 len) 151 { 152 const struct mcp251xfd_tx_ring *tx_ring = priv->tx; 153 const int val_bytes = regmap_get_val_bytes(priv->map_rx); 154 155 if (IS_ENABLED(CONFIG_CAN_MCP251XFD_SANITY) && 156 (offset > tx_ring->obj_num || 157 len > tx_ring->obj_num || 158 offset + len > tx_ring->obj_num)) { 159 netdev_err(priv->ndev, 160 "Trying to read too many TEF objects (max=%d, offset=%d, len=%d).\n", 161 tx_ring->obj_num, offset, len); 162 return -ERANGE; 163 } 164 165 return regmap_bulk_read(priv->map_rx, 166 mcp251xfd_get_tef_obj_addr(offset), 167 hw_tef_obj, 168 sizeof(*hw_tef_obj) / val_bytes * len); 169 } 170 171 static inline void mcp251xfd_ecc_tefif_successful(struct mcp251xfd_priv *priv) 172 { 173 struct mcp251xfd_ecc *ecc = &priv->ecc; 174 175 ecc->ecc_stat = 0; 176 } 177 178 int mcp251xfd_handle_tefif(struct mcp251xfd_priv *priv) 179 { 180 struct mcp251xfd_hw_tef_obj hw_tef_obj[MCP251XFD_TX_OBJ_NUM_MAX]; 181 unsigned int total_frame_len = 0; 182 u8 tef_tail, len, l; 183 int err, i; 184 185 err = mcp251xfd_tef_ring_update(priv); 186 if (err) 187 return err; 188 189 tef_tail = mcp251xfd_get_tef_tail(priv); 190 len = mcp251xfd_get_tef_len(priv); 191 l = mcp251xfd_get_tef_linear_len(priv); 192 err = mcp251xfd_tef_obj_read(priv, hw_tef_obj, tef_tail, l); 193 if (err) 194 return err; 195 196 if (l < len) { 197 err = mcp251xfd_tef_obj_read(priv, &hw_tef_obj[l], 0, len - l); 198 if (err) 199 return err; 200 } 201 202 for (i = 0; i < len; i++) { 203 unsigned int frame_len = 0; 204 205 err = mcp251xfd_handle_tefif_one(priv, &hw_tef_obj[i], &frame_len); 206 /* -EAGAIN means the Sequence Number in the TEF 207 * doesn't match our tef_tail. This can happen if we 208 * read the TEF objects too early. Leave loop let the 209 * interrupt handler call us again. 210 */ 211 if (err == -EAGAIN) 212 goto out_netif_wake_queue; 213 if (err) 214 return err; 215 216 total_frame_len += frame_len; 217 } 218 219 out_netif_wake_queue: 220 len = i; /* number of handled goods TEFs */ 221 if (len) { 222 struct mcp251xfd_tef_ring *ring = priv->tef; 223 struct mcp251xfd_tx_ring *tx_ring = priv->tx; 224 int offset; 225 226 /* Increment the TEF FIFO tail pointer 'len' times in 227 * a single SPI message. 228 * 229 * Note: 230 * Calculate offset, so that the SPI transfer ends on 231 * the last message of the uinc_xfer array, which has 232 * "cs_change == 0", to properly deactivate the chip 233 * select. 234 */ 235 offset = ARRAY_SIZE(ring->uinc_xfer) - len; 236 err = spi_sync_transfer(priv->spi, 237 ring->uinc_xfer + offset, len); 238 if (err) 239 return err; 240 241 tx_ring->tail += len; 242 netdev_completed_queue(priv->ndev, len, total_frame_len); 243 244 err = mcp251xfd_check_tef_tail(priv); 245 if (err) 246 return err; 247 } 248 249 mcp251xfd_ecc_tefif_successful(priv); 250 251 if (mcp251xfd_get_tx_free(priv->tx)) { 252 /* Make sure that anybody stopping the queue after 253 * this sees the new tx_ring->tail. 254 */ 255 smp_mb(); 256 netif_wake_queue(priv->ndev); 257 } 258 259 return 0; 260 } 261