It was <2021-01-15 pią 17:27>, when Jakub Kicinski wrote: > On Wed, 13 Jan 2021 19:40:28 +0100 Łukasz Stelmach wrote: >> ASIX AX88796[1] is a versatile ethernet adapter chip, that can be >> connected to a CPU with a 8/16-bit bus or with an SPI. This driver >> supports SPI connection. >> >> The driver has been ported from the vendor kernel for ARTIK5[2] >> boards. Several changes were made to adapt it to the current kernel >> which include: >> >> + updated DT configuration, >> + clock configuration moved to DT, >> + new timer, ethtool and gpio APIs, >> + dev_* instead of pr_* and custom printk() wrappers, >> + removed awkward vendor power managemtn. >> + introduced ethtool tunable to control SPI compression >> [...] >> >> The other ax88796 driver is for NE2000 compatible AX88796L chip. These >> chips are not compatible. Hence, two separate drivers are required. >> >> Signed-off-by: Łukasz Stelmach <l.stelmach@xxxxxxxxxxx> >> Reviewed-by: Andrew Lunn <andrew@xxxxxxx> > >> +static u32 ax88796c_get_priv_flags(struct net_device *ndev) >> +{ >> + struct ax88796c_device *ax_local = to_ax88796c_device(ndev); >> + >> + return ax_local->priv_flags; > > stray indent > >> +} Done. >> +#define MAX(x,y) ((x) > (y) ? (x) : (y)) > > Please use the standard linux max / max_t macros. Done. >> +static struct sk_buff * >> +ax88796c_tx_fixup(struct net_device *ndev, struct sk_buff_head *q) >> +{ >> + struct ax88796c_device *ax_local = to_ax88796c_device(ndev); >> + u8 spi_len = ax_local->ax_spi.comp ? 1 : 4; >> + struct sk_buff *skb; >> + struct tx_pkt_info *info; >> + struct skb_data *entry; >> + u16 pkt_len; >> + u8 padlen, seq_num; >> + u8 need_pages; >> + int headroom; >> + int tailroom; >> + >> + if (skb_queue_empty(q)) >> + return NULL; >> + >> + skb = skb_peek(q); >> + pkt_len = skb->len; >> + need_pages = (pkt_len + TX_OVERHEAD + 127) >> 7; >> + if (ax88796c_check_free_pages(ax_local, need_pages) != 0) >> + return NULL; >> + >> + headroom = skb_headroom(skb); >> + tailroom = skb_tailroom(skb); >> + padlen = round_up(pkt_len, 4) - pkt_len; >> + seq_num = ++ax_local->seq_num & 0x1F; >> + >> + info = (struct tx_pkt_info *)skb->cb; >> + info->pkt_len = pkt_len; >> + >> + if (skb_cloned(skb) || >> + (headroom < (TX_OVERHEAD + spi_len)) || >> + (tailroom < (padlen + TX_EOP_SIZE))) { >> + size_t h = MAX((TX_OVERHEAD + spi_len) - headroom,0); >> + size_t t = MAX((padlen + TX_EOP_SIZE) - tailroom,0); >> + >> + if (pskb_expand_head(skb, h, t, GFP_KERNEL)) >> + return NULL; >> + } >> + >> + info->seq_num = seq_num; >> + ax88796c_proc_tx_hdr(info, skb->ip_summed); >> + >> + /* SOP and SEG header */ >> + memcpy(skb_push(skb, TX_OVERHEAD), &info->sop, TX_OVERHEAD); > > why use skb->cb to store info? why not declare it on the stack? > Done. >> + /* Write SPI TXQ header */ >> + memcpy(skb_push(skb, spi_len), ax88796c_tx_cmd_buf, spi_len); >> + >> + /* Make 32-bit alignment */ >> + skb_put(skb, padlen); >> + >> + /* EOP header */ >> + memcpy(skb_put(skb, TX_EOP_SIZE), &info->eop, TX_EOP_SIZE); >> + >> + skb_unlink(skb, q); >> + >> + entry = (struct skb_data *)skb->cb; >> + memset(entry, 0, sizeof(*entry)); >> + entry->len = pkt_len; >> + >> + if (netif_msg_pktdata(ax_local)) { >> + char pfx[IFNAMSIZ + 7]; >> + >> + snprintf(pfx, sizeof(pfx), "%s: ", ndev->name); >> + >> + netdev_info(ndev, "TX packet len %d, total len %d, seq %d\n", >> + pkt_len, skb->len, seq_num); >> + >> + netdev_info(ndev, " SPI Header:\n"); >> + print_hex_dump(KERN_INFO, pfx, DUMP_PREFIX_OFFSET, 16, 1, >> + skb->data, 4, 0); >> + >> + netdev_info(ndev, " TX SOP:\n"); >> + print_hex_dump(KERN_INFO, pfx, DUMP_PREFIX_OFFSET, 16, 1, >> + skb->data + 4, TX_OVERHEAD, 0); >> + >> + netdev_info(ndev, " TX packet:\n"); >> + print_hex_dump(KERN_INFO, pfx, DUMP_PREFIX_OFFSET, 16, 1, >> + skb->data + 4 + TX_OVERHEAD, >> + skb->len - TX_EOP_SIZE - 4 - TX_OVERHEAD, 0); >> + >> + netdev_info(ndev, " TX EOP:\n"); >> + print_hex_dump(KERN_INFO, pfx, DUMP_PREFIX_OFFSET, 16, 1, >> + skb->data + skb->len - 4, 4, 0); >> + } >> + >> + return skb; >> +} >> + >> +static int ax88796c_hard_xmit(struct ax88796c_device *ax_local) >> +{ >> + struct sk_buff *tx_skb; >> + struct skb_data *entry; >> + >> + WARN_ON(!mutex_is_locked(&ax_local->spi_lock)); >> + >> + tx_skb = ax88796c_tx_fixup(ax_local->ndev, &ax_local->tx_wait_q); >> + >> + if (!tx_skb) >> + return 0; > > tx_dropped++ ? > Done. >> + entry = (struct skb_data *)tx_skb->cb; >> + >> + AX_WRITE(&ax_local->ax_spi, >> + (TSNR_TXB_START | TSNR_PKT_CNT(1)), P0_TSNR); >> + >> + axspi_write_txq(&ax_local->ax_spi, tx_skb->data, tx_skb->len); >> + >> + if (((AX_READ(&ax_local->ax_spi, P0_TSNR) & TXNR_TXB_IDLE) == 0) || >> + ((ISR_TXERR & AX_READ(&ax_local->ax_spi, P0_ISR)) != 0)) { >> + /* Ack tx error int */ >> + AX_WRITE(&ax_local->ax_spi, ISR_TXERR, P0_ISR); >> + >> + ax_local->stats.tx_dropped++; >> + >> + netif_err(ax_local, tx_err, ax_local->ndev, >> + "TX FIFO error, re-initialize the TX bridge\n"); > > rate limit > Done. >> + /* Reinitial tx bridge */ >> + AX_WRITE(&ax_local->ax_spi, TXNR_TXB_REINIT | >> + AX_READ(&ax_local->ax_spi, P0_TSNR), P0_TSNR); >> + ax_local->seq_num = 0; >> + } else { >> + ax_local->stats.tx_packets++; >> + ax_local->stats.tx_bytes += entry->len; >> + } >> + >> + entry->state = tx_done; >> + dev_kfree_skb(tx_skb); > > dev_consume_skb() is better in cases the xmission was correct. > kfree_skb() shows up in packet drop monitor. > This one is OK as it is because 1. dev_kfree_skb() is consume_skb() include/linux/skbuff.h:#define dev_kfree_skb(a) consume_skb(a) 2. dev_consume_skb() does not exist. There are dev_consume_skb_irq() and dev_consume_skb_any(). The former can be used in IRQs, the latter anywher and de facto calls the former if in IRQ. If not, it calls dev_kfree_skb() (see above) 3. Last but not least. kfree_skb() and consume_skb() become the same without CONFIG_TRACEPOINTS (commit be769db2f958). >> + >> + return 1; >> +} > >> +static void >> +ax88796c_skb_return(struct ax88796c_device *ax_local, struct sk_buff *skb, >> + struct rx_header *rxhdr) >> +{ >> + struct net_device *ndev = ax_local->ndev; >> + int status; >> + >> + do { >> + if (!(ndev->features & NETIF_F_RXCSUM)) >> + break; >> + >> + /* checksum error bit is set */ >> + if ((rxhdr->flags & RX_HDR3_L3_ERR) || >> + (rxhdr->flags & RX_HDR3_L4_ERR)) >> + break; >> + >> + /* Other types may be indicated by more than one bit. */ >> + if ((rxhdr->flags & RX_HDR3_L4_TYPE_TCP) || >> + (rxhdr->flags & RX_HDR3_L4_TYPE_UDP)) >> + skb->ip_summed = CHECKSUM_UNNECESSARY; >> + } while (0); >> + >> + ax_local->stats.rx_packets++; >> + ax_local->stats.rx_bytes += skb->len; >> + skb->dev = ndev; >> + >> + skb->protocol = eth_type_trans(skb, ax_local->ndev); >> + >> + netif_info(ax_local, rx_status, ndev, "< rx, len %zu, type 0x%x\n", >> + skb->len + sizeof(struct ethhdr), skb->protocol); >> + >> + status = netif_rx_ni(skb); >> + if (status != NET_RX_SUCCESS) >> + netif_info(ax_local, rx_err, ndev, >> + "netif_rx status %d\n", status); > > rate limit > Done. >> +} >> + >> +static void >> +ax88796c_rx_fixup(struct ax88796c_device *ax_local, struct sk_buff *rx_skb) >> +{ >> + struct rx_header *rxhdr = (struct rx_header *)rx_skb->data; >> + struct net_device *ndev = ax_local->ndev; >> + u16 len; >> + >> + be16_to_cpus(&rxhdr->flags_len); >> + be16_to_cpus(&rxhdr->seq_lenbar); >> + be16_to_cpus(&rxhdr->flags); >> + >> + if (((rxhdr->flags_len) & RX_HDR1_PKT_LEN) != >> + (~(rxhdr->seq_lenbar) & 0x7FF)) { > > Lots of unnecessary parenthesis. > Done. >> + netif_err(ax_local, rx_err, ndev, "Header error\n"); >> + >> + ax_local->stats.rx_frame_errors++; >> + kfree_skb(rx_skb); >> + return; >> + } >> + >> + if ((rxhdr->flags_len & RX_HDR1_MII_ERR) || >> + (rxhdr->flags_len & RX_HDR1_CRC_ERR)) { >> + netif_err(ax_local, rx_err, ndev, "CRC or MII error\n"); >> + >> + ax_local->stats.rx_crc_errors++; >> + kfree_skb(rx_skb); >> + return; >> + } >> + >> + len = rxhdr->flags_len & RX_HDR1_PKT_LEN; >> + if (netif_msg_pktdata(ax_local)) { >> + char pfx[IFNAMSIZ + 7]; >> + >> + snprintf(pfx, sizeof(pfx), "%s: ", ndev->name); >> + netdev_info(ndev, "RX data, total len %d, packet len %d\n", >> + rx_skb->len, len); >> + >> + netdev_info(ndev, " Dump RX packet header:"); >> + print_hex_dump(KERN_INFO, pfx, DUMP_PREFIX_OFFSET, 16, 1, >> + rx_skb->data, sizeof(*rxhdr), 0); >> + >> + netdev_info(ndev, " Dump RX packet:"); >> + print_hex_dump(KERN_INFO, pfx, DUMP_PREFIX_OFFSET, 16, 1, >> + rx_skb->data + sizeof(*rxhdr), len, 0); >> + } >> + >> + skb_pull(rx_skb, sizeof(*rxhdr)); >> + pskb_trim(rx_skb, len); >> + >> + ax88796c_skb_return(ax_local, rx_skb, rxhdr); >> +} >> + >> +static int ax88796c_receive(struct net_device *ndev) >> +{ >> + struct ax88796c_device *ax_local = to_ax88796c_device(ndev); >> + struct skb_data *entry; >> + u16 w_count, pkt_len; >> + struct sk_buff *skb; >> + u8 pkt_cnt; >> + >> + WARN_ON(!mutex_is_locked(&ax_local->spi_lock)); >> + >> + /* check rx packet and total word count */ >> + AX_WRITE(&ax_local->ax_spi, AX_READ(&ax_local->ax_spi, P0_RTWCR) >> + | RTWCR_RX_LATCH, P0_RTWCR); >> + >> + pkt_cnt = AX_READ(&ax_local->ax_spi, P0_RXBCR2) & RXBCR2_PKT_MASK; >> + if (!pkt_cnt) >> + return 0; >> + >> + pkt_len = AX_READ(&ax_local->ax_spi, P0_RCPHR) & 0x7FF; >> + >> + w_count = ((pkt_len + 6 + 3) & 0xFFFC) >> 1; > > w_count = round_up(pkt_len + 6, 4) >> 1; > Done. >> + skb = netdev_alloc_skb(ndev, (w_count * 2)); > > parenthesis unnecessary > Done. >> + if (!skb) { >> + AX_WRITE(&ax_local->ax_spi, RXBCR1_RXB_DISCARD, P0_RXBCR1); > > Increment rx_dropped counter here? > Done. >> + return 0; >> + } >> + entry = (struct skb_data *)skb->cb; >> + >> + AX_WRITE(&ax_local->ax_spi, RXBCR1_RXB_START | w_count, P0_RXBCR1); >> + >> + axspi_read_rxq(&ax_local->ax_spi, >> + skb_put(skb, w_count * 2), skb->len); >> + >> + /* Check if rx bridge is idle */ >> + if ((AX_READ(&ax_local->ax_spi, P0_RXBCR2) & RXBCR2_RXB_IDLE) == 0) { >> + netif_err(ax_local, rx_err, ndev, >> + "Rx Bridge is not idle\n"); > > rate limit? > Ok. >> + AX_WRITE(&ax_local->ax_spi, RXBCR2_RXB_REINIT, P0_RXBCR2); >> + >> + entry->state = rx_err; >> + } else { >> + entry->state = rx_done; >> + } >> + >> + AX_WRITE(&ax_local->ax_spi, ISR_RXPKT, P0_ISR); >> + >> + ax88796c_rx_fixup(ax_local, skb); >> + >> + return 1; >> +} >> + >> +static int ax88796c_process_isr(struct ax88796c_device *ax_local) >> +{ >> + struct net_device *ndev = ax_local->ndev; >> + u8 done = 0; > > The logic associated with this variable is "is there more to do" rather > than "done", no? > ax88796c_receive() returns 1, if there may be something more to do. So yes, let's rename it to todo. >> + u16 isr; >> + >> + WARN_ON(!mutex_is_locked(&ax_local->spi_lock)); >> + >> + isr = AX_READ(&ax_local->ax_spi, P0_ISR); >> + AX_WRITE(&ax_local->ax_spi, isr, P0_ISR); >> + >> + netif_dbg(ax_local, intr, ndev, " ISR 0x%04x\n", isr); >> + >> + if (isr & ISR_TXERR) { >> + netif_dbg(ax_local, intr, ndev, " TXERR interrupt\n"); >> + AX_WRITE(&ax_local->ax_spi, TXNR_TXB_REINIT, P0_TSNR); >> + ax_local->seq_num = 0x1f; >> + } >> + >> + if (isr & ISR_TXPAGES) { >> + netif_dbg(ax_local, intr, ndev, " TXPAGES interrupt\n"); >> + set_bit(EVENT_TX, &ax_local->flags); >> + } >> + >> + if (isr & ISR_LINK) { >> + netif_dbg(ax_local, intr, ndev, " Link change interrupt\n"); >> + phy_mac_interrupt(ax_local->ndev->phydev); >> + } >> + >> + if (isr & ISR_RXPKT) { >> + netif_dbg(ax_local, intr, ndev, " RX interrupt\n"); >> + done = ax88796c_receive(ax_local->ndev); >> + } >> + >> + return done; >> +} > >> +static void ax88796c_work(struct work_struct *work) >> +{ >> + struct ax88796c_device *ax_local = >> + container_of(work, struct ax88796c_device, ax_work); >> + >> + mutex_lock(&ax_local->spi_lock); >> + >> + if (test_bit(EVENT_SET_MULTI, &ax_local->flags)) { >> + ax88796c_set_hw_multicast(ax_local->ndev); >> + clear_bit(EVENT_SET_MULTI, &ax_local->flags); >> + } >> + >> + if (test_bit(EVENT_INTR, &ax_local->flags)) { >> + AX_WRITE(&ax_local->ax_spi, IMR_MASKALL, P0_IMR); >> + >> + while (1) { >> + if (!ax88796c_process_isr(ax_local)) >> + break; > > while (ax88796c_process_isr(ax_local)) > /* nothing */; > ? > Ok. >> + } >> + >> + clear_bit(EVENT_INTR, &ax_local->flags); >> + >> + AX_WRITE(&ax_local->ax_spi, IMR_DEFAULT, P0_IMR); >> + >> + enable_irq(ax_local->ndev->irq); >> + } >> + >> + if (test_bit(EVENT_TX, &ax_local->flags)) { >> + while (skb_queue_len(&ax_local->tx_wait_q)) { >> + if (!ax88796c_hard_xmit(ax_local)) >> + break; >> + } >> + >> + clear_bit(EVENT_TX, &ax_local->flags); >> + >> + if (netif_queue_stopped(ax_local->ndev) && >> + (skb_queue_len(&ax_local->tx_wait_q) < TX_QUEUE_LOW_WATER)) >> + netif_wake_queue(ax_local->ndev); >> + } >> + >> + mutex_unlock(&ax_local->spi_lock); >> +} > >> +static void ax88796c_set_csums(struct ax88796c_device *ax_local) >> +{ >> + struct net_device *ndev = ax_local->ndev; >> + >> + WARN_ON(!mutex_is_locked(&ax_local->spi_lock)); > > lockdep_assert_held() in all those cases > Done. >> +static void ax88796c_free_skb_queue(struct sk_buff_head *q) >> +{ >> + struct sk_buff *skb; >> + >> + while (q->qlen) { >> + skb = skb_dequeue(q); >> + kfree_skb(skb); >> + } > > __skb_queue_purge() > Done. >> +} >> + >> +static int >> +ax88796c_close(struct net_device *ndev) >> +{ >> + struct ax88796c_device *ax_local = to_ax88796c_device(ndev); >> + >> + netif_stop_queue(ndev); >> + phy_stop(ndev->phydev); >> + >> + mutex_lock(&ax_local->spi_lock); >> + >> + /* Disable MAC interrupts */ >> + AX_WRITE(&ax_local->ax_spi, IMR_MASKALL, P0_IMR); >> + ax88796c_free_skb_queue(&ax_local->tx_wait_q); >> + ax88796c_soft_reset(ax_local); >> + >> + mutex_unlock(&ax_local->spi_lock); >> + >> + free_irq(ndev->irq, ndev); >> + >> + return 0; >> +} > >> +struct ax88796c_device { >> + struct spi_device *spi; >> + struct net_device *ndev; >> + struct net_device_stats stats; > > You need to use 64 bit stats, like struct rtnl_link_stats64. > On a 32bit system at 100Mbps ulong can wrap in minutes. > Let me see. At first glance git grep -l ndo_get_stats\\\> drivers/net/ethernet/ | xargs grep -li SPEED_100\\\> quite a number of Fast Ethernet drivers use net_device_stats. Let me calculate. - bytes 100Mbps is ~10MiB/s sending 4GiB at 10MiB/s takes 27 minutes - packets minimum frame size is 84 bytes (840 bits on the wire) on 100Mbps means 119048 pps at this speed it takse 10 hours to transmit 2^32 packets Anyway, I switched to rtnl_link_stats64. Tell me, is it OK to just memcpy() in .ndo_get_stats64? >> + struct work_struct ax_work; > > I don't see you ever canceling / flushing this work. > You should do that at least on driver remove if not close. Done. Does it mean most drivers do it wrong? git grep INIT_WORK drivers/net/ethernet/ | \ sed -e 's/\(^[^:]*\):[^>]*->\([^,]*\),.*/\1 \2/' | \ while read file var; do \ grep -H $var $file; done | grep INIT_WORK\\\|cancel_work >> + struct mutex spi_lock; /* device access */ >> + >> + struct sk_buff_head tx_wait_q; >> + >> + struct axspi_data ax_spi; >> + >> + struct mii_bus *mdiobus; >> + struct phy_device *phydev; >> + >> + int msg_enable; >> + >> + u16 seq_num; >> + >> + u8 multi_filter[AX_MCAST_FILTER_SIZE]; >> + >> + int link; >> + int speed; >> + int duplex; >> + int pause; >> + int asym_pause; >> + int flowctrl; >> + #define AX_FC_NONE 0 >> + #define AX_FC_RX BIT(0) >> + #define AX_FC_TX BIT(1) >> + #define AX_FC_ANEG BIT(2) >> + >> + u32 priv_flags; >> + #define AX_CAP_COMP BIT(0) >> + #define AX_PRIV_FLAGS_MASK (AX_CAP_COMP) >> + >> + unsigned long flags; >> + #define EVENT_INTR BIT(0) >> + #define EVENT_TX BIT(1) >> + #define EVENT_SET_MULTI BIT(2) >> + >> +}; > >> +struct skb_data { >> + enum skb_state state; >> + struct net_device *ndev; >> + struct sk_buff *skb; > > Don't think you ever use the skb or ndev from this structure. > Done. >> + size_t len; >> +}; > > -- Łukasz Stelmach Samsung R&D Institute Poland Samsung Electronics
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