1d2912cb1SThomas Gleixner // SPDX-License-Identifier: GPL-2.0-only
25a6681e2SEdward Cree /****************************************************************************
35a6681e2SEdward Cree * Driver for Solarflare network controllers and boards
45a6681e2SEdward Cree * Copyright 2005-2006 Fen Systems Ltd.
55a6681e2SEdward Cree * Copyright 2005-2013 Solarflare Communications Inc.
65a6681e2SEdward Cree */
75a6681e2SEdward Cree
85a6681e2SEdward Cree #include <linux/module.h>
95a6681e2SEdward Cree #include <linux/pci.h>
105a6681e2SEdward Cree #include <linux/netdevice.h>
115a6681e2SEdward Cree #include <linux/etherdevice.h>
125a6681e2SEdward Cree #include <linux/delay.h>
135a6681e2SEdward Cree #include <linux/notifier.h>
145a6681e2SEdward Cree #include <linux/ip.h>
155a6681e2SEdward Cree #include <linux/tcp.h>
165a6681e2SEdward Cree #include <linux/in.h>
175a6681e2SEdward Cree #include <linux/ethtool.h>
185a6681e2SEdward Cree #include <linux/topology.h>
195a6681e2SEdward Cree #include <linux/gfp.h>
205a6681e2SEdward Cree #include <linux/interrupt.h>
215a6681e2SEdward Cree #include "net_driver.h"
225a6681e2SEdward Cree #include "efx.h"
235a6681e2SEdward Cree #include "nic.h"
245a6681e2SEdward Cree #include "selftest.h"
255a6681e2SEdward Cree
265a6681e2SEdward Cree #include "workarounds.h"
275a6681e2SEdward Cree
285a6681e2SEdward Cree /**************************************************************************
295a6681e2SEdward Cree *
305a6681e2SEdward Cree * Type name strings
315a6681e2SEdward Cree *
325a6681e2SEdward Cree **************************************************************************
335a6681e2SEdward Cree */
345a6681e2SEdward Cree
355a6681e2SEdward Cree /* Loopback mode names (see LOOPBACK_MODE()) */
365a6681e2SEdward Cree const unsigned int ef4_loopback_mode_max = LOOPBACK_MAX;
375a6681e2SEdward Cree const char *const ef4_loopback_mode_names[] = {
385a6681e2SEdward Cree [LOOPBACK_NONE] = "NONE",
395a6681e2SEdward Cree [LOOPBACK_DATA] = "DATAPATH",
405a6681e2SEdward Cree [LOOPBACK_GMAC] = "GMAC",
415a6681e2SEdward Cree [LOOPBACK_XGMII] = "XGMII",
425a6681e2SEdward Cree [LOOPBACK_XGXS] = "XGXS",
435a6681e2SEdward Cree [LOOPBACK_XAUI] = "XAUI",
445a6681e2SEdward Cree [LOOPBACK_GMII] = "GMII",
455a6681e2SEdward Cree [LOOPBACK_SGMII] = "SGMII",
465a6681e2SEdward Cree [LOOPBACK_XGBR] = "XGBR",
475a6681e2SEdward Cree [LOOPBACK_XFI] = "XFI",
485a6681e2SEdward Cree [LOOPBACK_XAUI_FAR] = "XAUI_FAR",
495a6681e2SEdward Cree [LOOPBACK_GMII_FAR] = "GMII_FAR",
505a6681e2SEdward Cree [LOOPBACK_SGMII_FAR] = "SGMII_FAR",
515a6681e2SEdward Cree [LOOPBACK_XFI_FAR] = "XFI_FAR",
525a6681e2SEdward Cree [LOOPBACK_GPHY] = "GPHY",
535a6681e2SEdward Cree [LOOPBACK_PHYXS] = "PHYXS",
545a6681e2SEdward Cree [LOOPBACK_PCS] = "PCS",
555a6681e2SEdward Cree [LOOPBACK_PMAPMD] = "PMA/PMD",
565a6681e2SEdward Cree [LOOPBACK_XPORT] = "XPORT",
575a6681e2SEdward Cree [LOOPBACK_XGMII_WS] = "XGMII_WS",
585a6681e2SEdward Cree [LOOPBACK_XAUI_WS] = "XAUI_WS",
595a6681e2SEdward Cree [LOOPBACK_XAUI_WS_FAR] = "XAUI_WS_FAR",
605a6681e2SEdward Cree [LOOPBACK_XAUI_WS_NEAR] = "XAUI_WS_NEAR",
615a6681e2SEdward Cree [LOOPBACK_GMII_WS] = "GMII_WS",
625a6681e2SEdward Cree [LOOPBACK_XFI_WS] = "XFI_WS",
635a6681e2SEdward Cree [LOOPBACK_XFI_WS_FAR] = "XFI_WS_FAR",
645a6681e2SEdward Cree [LOOPBACK_PHYXS_WS] = "PHYXS_WS",
655a6681e2SEdward Cree };
665a6681e2SEdward Cree
675a6681e2SEdward Cree const unsigned int ef4_reset_type_max = RESET_TYPE_MAX;
685a6681e2SEdward Cree const char *const ef4_reset_type_names[] = {
695a6681e2SEdward Cree [RESET_TYPE_INVISIBLE] = "INVISIBLE",
705a6681e2SEdward Cree [RESET_TYPE_ALL] = "ALL",
715a6681e2SEdward Cree [RESET_TYPE_RECOVER_OR_ALL] = "RECOVER_OR_ALL",
725a6681e2SEdward Cree [RESET_TYPE_WORLD] = "WORLD",
735a6681e2SEdward Cree [RESET_TYPE_RECOVER_OR_DISABLE] = "RECOVER_OR_DISABLE",
745a6681e2SEdward Cree [RESET_TYPE_DATAPATH] = "DATAPATH",
755a6681e2SEdward Cree [RESET_TYPE_DISABLE] = "DISABLE",
765a6681e2SEdward Cree [RESET_TYPE_TX_WATCHDOG] = "TX_WATCHDOG",
775a6681e2SEdward Cree [RESET_TYPE_INT_ERROR] = "INT_ERROR",
785a6681e2SEdward Cree [RESET_TYPE_RX_RECOVERY] = "RX_RECOVERY",
795a6681e2SEdward Cree [RESET_TYPE_DMA_ERROR] = "DMA_ERROR",
805a6681e2SEdward Cree [RESET_TYPE_TX_SKIP] = "TX_SKIP",
815a6681e2SEdward Cree };
825a6681e2SEdward Cree
835a6681e2SEdward Cree /* Reset workqueue. If any NIC has a hardware failure then a reset will be
845a6681e2SEdward Cree * queued onto this work queue. This is not a per-nic work queue, because
855a6681e2SEdward Cree * ef4_reset_work() acquires the rtnl lock, so resets are naturally serialised.
865a6681e2SEdward Cree */
875a6681e2SEdward Cree static struct workqueue_struct *reset_workqueue;
885a6681e2SEdward Cree
895a6681e2SEdward Cree /* How often and how many times to poll for a reset while waiting for a
905a6681e2SEdward Cree * BIST that another function started to complete.
915a6681e2SEdward Cree */
925a6681e2SEdward Cree #define BIST_WAIT_DELAY_MS 100
935a6681e2SEdward Cree #define BIST_WAIT_DELAY_COUNT 100
945a6681e2SEdward Cree
955a6681e2SEdward Cree /**************************************************************************
965a6681e2SEdward Cree *
975a6681e2SEdward Cree * Configurable values
985a6681e2SEdward Cree *
995a6681e2SEdward Cree *************************************************************************/
1005a6681e2SEdward Cree
1015a6681e2SEdward Cree /*
1025a6681e2SEdward Cree * Use separate channels for TX and RX events
1035a6681e2SEdward Cree *
1045a6681e2SEdward Cree * Set this to 1 to use separate channels for TX and RX. It allows us
1055a6681e2SEdward Cree * to control interrupt affinity separately for TX and RX.
1065a6681e2SEdward Cree *
1075a6681e2SEdward Cree * This is only used in MSI-X interrupt mode
1085a6681e2SEdward Cree */
1095a6681e2SEdward Cree bool ef4_separate_tx_channels;
1105a6681e2SEdward Cree module_param(ef4_separate_tx_channels, bool, 0444);
1115a6681e2SEdward Cree MODULE_PARM_DESC(ef4_separate_tx_channels,
1125a6681e2SEdward Cree "Use separate channels for TX and RX");
1135a6681e2SEdward Cree
1145a6681e2SEdward Cree /* This is the time (in jiffies) between invocations of the hardware
1155a6681e2SEdward Cree * monitor.
1165a6681e2SEdward Cree * On Falcon-based NICs, this will:
1175a6681e2SEdward Cree * - Check the on-board hardware monitor;
1185a6681e2SEdward Cree * - Poll the link state and reconfigure the hardware as necessary.
1195a6681e2SEdward Cree * On Siena-based NICs for power systems with EEH support, this will give EEH a
1205a6681e2SEdward Cree * chance to start.
1215a6681e2SEdward Cree */
1225a6681e2SEdward Cree static unsigned int ef4_monitor_interval = 1 * HZ;
1235a6681e2SEdward Cree
1245a6681e2SEdward Cree /* Initial interrupt moderation settings. They can be modified after
1255a6681e2SEdward Cree * module load with ethtool.
1265a6681e2SEdward Cree *
1275a6681e2SEdward Cree * The default for RX should strike a balance between increasing the
1285a6681e2SEdward Cree * round-trip latency and reducing overhead.
1295a6681e2SEdward Cree */
1305a6681e2SEdward Cree static unsigned int rx_irq_mod_usec = 60;
1315a6681e2SEdward Cree
1325a6681e2SEdward Cree /* Initial interrupt moderation settings. They can be modified after
1335a6681e2SEdward Cree * module load with ethtool.
1345a6681e2SEdward Cree *
1355a6681e2SEdward Cree * This default is chosen to ensure that a 10G link does not go idle
1365a6681e2SEdward Cree * while a TX queue is stopped after it has become full. A queue is
1375a6681e2SEdward Cree * restarted when it drops below half full. The time this takes (assuming
1385a6681e2SEdward Cree * worst case 3 descriptors per packet and 1024 descriptors) is
1395a6681e2SEdward Cree * 512 / 3 * 1.2 = 205 usec.
1405a6681e2SEdward Cree */
1415a6681e2SEdward Cree static unsigned int tx_irq_mod_usec = 150;
1425a6681e2SEdward Cree
1435a6681e2SEdward Cree /* This is the first interrupt mode to try out of:
1445a6681e2SEdward Cree * 0 => MSI-X
1455a6681e2SEdward Cree * 1 => MSI
1465a6681e2SEdward Cree * 2 => legacy
1475a6681e2SEdward Cree */
1485a6681e2SEdward Cree static unsigned int interrupt_mode;
1495a6681e2SEdward Cree
1505a6681e2SEdward Cree /* This is the requested number of CPUs to use for Receive-Side Scaling (RSS),
1515a6681e2SEdward Cree * i.e. the number of CPUs among which we may distribute simultaneous
1525a6681e2SEdward Cree * interrupt handling.
1535a6681e2SEdward Cree *
1545a6681e2SEdward Cree * Cards without MSI-X will only target one CPU via legacy or MSI interrupt.
1555a6681e2SEdward Cree * The default (0) means to assign an interrupt to each core.
1565a6681e2SEdward Cree */
1575a6681e2SEdward Cree static unsigned int rss_cpus;
1585a6681e2SEdward Cree module_param(rss_cpus, uint, 0444);
1595a6681e2SEdward Cree MODULE_PARM_DESC(rss_cpus, "Number of CPUs to use for Receive-Side Scaling");
1605a6681e2SEdward Cree
1615a6681e2SEdward Cree static bool phy_flash_cfg;
1625a6681e2SEdward Cree module_param(phy_flash_cfg, bool, 0644);
1635a6681e2SEdward Cree MODULE_PARM_DESC(phy_flash_cfg, "Set PHYs into reflash mode initially");
1645a6681e2SEdward Cree
1655a6681e2SEdward Cree static unsigned irq_adapt_low_thresh = 8000;
1665a6681e2SEdward Cree module_param(irq_adapt_low_thresh, uint, 0644);
1675a6681e2SEdward Cree MODULE_PARM_DESC(irq_adapt_low_thresh,
1685a6681e2SEdward Cree "Threshold score for reducing IRQ moderation");
1695a6681e2SEdward Cree
1705a6681e2SEdward Cree static unsigned irq_adapt_high_thresh = 16000;
1715a6681e2SEdward Cree module_param(irq_adapt_high_thresh, uint, 0644);
1725a6681e2SEdward Cree MODULE_PARM_DESC(irq_adapt_high_thresh,
1735a6681e2SEdward Cree "Threshold score for increasing IRQ moderation");
1745a6681e2SEdward Cree
1755a6681e2SEdward Cree static unsigned debug = (NETIF_MSG_DRV | NETIF_MSG_PROBE |
1765a6681e2SEdward Cree NETIF_MSG_LINK | NETIF_MSG_IFDOWN |
1775a6681e2SEdward Cree NETIF_MSG_IFUP | NETIF_MSG_RX_ERR |
1785a6681e2SEdward Cree NETIF_MSG_TX_ERR | NETIF_MSG_HW);
1795a6681e2SEdward Cree module_param(debug, uint, 0);
1805a6681e2SEdward Cree MODULE_PARM_DESC(debug, "Bitmapped debugging message enable value");
1815a6681e2SEdward Cree
1825a6681e2SEdward Cree /**************************************************************************
1835a6681e2SEdward Cree *
1845a6681e2SEdward Cree * Utility functions and prototypes
1855a6681e2SEdward Cree *
1865a6681e2SEdward Cree *************************************************************************/
1875a6681e2SEdward Cree
1885a6681e2SEdward Cree static int ef4_soft_enable_interrupts(struct ef4_nic *efx);
1895a6681e2SEdward Cree static void ef4_soft_disable_interrupts(struct ef4_nic *efx);
1905a6681e2SEdward Cree static void ef4_remove_channel(struct ef4_channel *channel);
1915a6681e2SEdward Cree static void ef4_remove_channels(struct ef4_nic *efx);
1925a6681e2SEdward Cree static const struct ef4_channel_type ef4_default_channel_type;
1935a6681e2SEdward Cree static void ef4_remove_port(struct ef4_nic *efx);
1945a6681e2SEdward Cree static void ef4_init_napi_channel(struct ef4_channel *channel);
1955a6681e2SEdward Cree static void ef4_fini_napi(struct ef4_nic *efx);
1965a6681e2SEdward Cree static void ef4_fini_napi_channel(struct ef4_channel *channel);
1975a6681e2SEdward Cree static void ef4_fini_struct(struct ef4_nic *efx);
1985a6681e2SEdward Cree static void ef4_start_all(struct ef4_nic *efx);
1995a6681e2SEdward Cree static void ef4_stop_all(struct ef4_nic *efx);
2005a6681e2SEdward Cree
2015a6681e2SEdward Cree #define EF4_ASSERT_RESET_SERIALISED(efx) \
2025a6681e2SEdward Cree do { \
2035a6681e2SEdward Cree if ((efx->state == STATE_READY) || \
2045a6681e2SEdward Cree (efx->state == STATE_RECOVERY) || \
2055a6681e2SEdward Cree (efx->state == STATE_DISABLED)) \
2065a6681e2SEdward Cree ASSERT_RTNL(); \
2075a6681e2SEdward Cree } while (0)
2085a6681e2SEdward Cree
ef4_check_disabled(struct ef4_nic * efx)2095a6681e2SEdward Cree static int ef4_check_disabled(struct ef4_nic *efx)
2105a6681e2SEdward Cree {
2115a6681e2SEdward Cree if (efx->state == STATE_DISABLED || efx->state == STATE_RECOVERY) {
2125a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
2135a6681e2SEdward Cree "device is disabled due to earlier errors\n");
2145a6681e2SEdward Cree return -EIO;
2155a6681e2SEdward Cree }
2165a6681e2SEdward Cree return 0;
2175a6681e2SEdward Cree }
2185a6681e2SEdward Cree
2195a6681e2SEdward Cree /**************************************************************************
2205a6681e2SEdward Cree *
2215a6681e2SEdward Cree * Event queue processing
2225a6681e2SEdward Cree *
2235a6681e2SEdward Cree *************************************************************************/
2245a6681e2SEdward Cree
2255a6681e2SEdward Cree /* Process channel's event queue
2265a6681e2SEdward Cree *
2275a6681e2SEdward Cree * This function is responsible for processing the event queue of a
2285a6681e2SEdward Cree * single channel. The caller must guarantee that this function will
2295a6681e2SEdward Cree * never be concurrently called more than once on the same channel,
2305a6681e2SEdward Cree * though different channels may be being processed concurrently.
2315a6681e2SEdward Cree */
ef4_process_channel(struct ef4_channel * channel,int budget)2325a6681e2SEdward Cree static int ef4_process_channel(struct ef4_channel *channel, int budget)
2335a6681e2SEdward Cree {
2345a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
2355a6681e2SEdward Cree int spent;
2365a6681e2SEdward Cree
2375a6681e2SEdward Cree if (unlikely(!channel->enabled))
2385a6681e2SEdward Cree return 0;
2395a6681e2SEdward Cree
2405a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel) {
2415a6681e2SEdward Cree tx_queue->pkts_compl = 0;
2425a6681e2SEdward Cree tx_queue->bytes_compl = 0;
2435a6681e2SEdward Cree }
2445a6681e2SEdward Cree
2455a6681e2SEdward Cree spent = ef4_nic_process_eventq(channel, budget);
2465a6681e2SEdward Cree if (spent && ef4_channel_has_rx_queue(channel)) {
2475a6681e2SEdward Cree struct ef4_rx_queue *rx_queue =
2485a6681e2SEdward Cree ef4_channel_get_rx_queue(channel);
2495a6681e2SEdward Cree
2505a6681e2SEdward Cree ef4_rx_flush_packet(channel);
2515a6681e2SEdward Cree ef4_fast_push_rx_descriptors(rx_queue, true);
2525a6681e2SEdward Cree }
2535a6681e2SEdward Cree
2545a6681e2SEdward Cree /* Update BQL */
2555a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel) {
2565a6681e2SEdward Cree if (tx_queue->bytes_compl) {
2575a6681e2SEdward Cree netdev_tx_completed_queue(tx_queue->core_txq,
2585a6681e2SEdward Cree tx_queue->pkts_compl, tx_queue->bytes_compl);
2595a6681e2SEdward Cree }
2605a6681e2SEdward Cree }
2615a6681e2SEdward Cree
2625a6681e2SEdward Cree return spent;
2635a6681e2SEdward Cree }
2645a6681e2SEdward Cree
2655a6681e2SEdward Cree /* NAPI poll handler
2665a6681e2SEdward Cree *
2675a6681e2SEdward Cree * NAPI guarantees serialisation of polls of the same device, which
2685a6681e2SEdward Cree * provides the guarantee required by ef4_process_channel().
2695a6681e2SEdward Cree */
ef4_update_irq_mod(struct ef4_nic * efx,struct ef4_channel * channel)2705a6681e2SEdward Cree static void ef4_update_irq_mod(struct ef4_nic *efx, struct ef4_channel *channel)
2715a6681e2SEdward Cree {
2725a6681e2SEdward Cree int step = efx->irq_mod_step_us;
2735a6681e2SEdward Cree
2745a6681e2SEdward Cree if (channel->irq_mod_score < irq_adapt_low_thresh) {
2755a6681e2SEdward Cree if (channel->irq_moderation_us > step) {
2765a6681e2SEdward Cree channel->irq_moderation_us -= step;
2775a6681e2SEdward Cree efx->type->push_irq_moderation(channel);
2785a6681e2SEdward Cree }
2795a6681e2SEdward Cree } else if (channel->irq_mod_score > irq_adapt_high_thresh) {
2805a6681e2SEdward Cree if (channel->irq_moderation_us <
2815a6681e2SEdward Cree efx->irq_rx_moderation_us) {
2825a6681e2SEdward Cree channel->irq_moderation_us += step;
2835a6681e2SEdward Cree efx->type->push_irq_moderation(channel);
2845a6681e2SEdward Cree }
2855a6681e2SEdward Cree }
2865a6681e2SEdward Cree
2875a6681e2SEdward Cree channel->irq_count = 0;
2885a6681e2SEdward Cree channel->irq_mod_score = 0;
2895a6681e2SEdward Cree }
2905a6681e2SEdward Cree
ef4_poll(struct napi_struct * napi,int budget)2915a6681e2SEdward Cree static int ef4_poll(struct napi_struct *napi, int budget)
2925a6681e2SEdward Cree {
2935a6681e2SEdward Cree struct ef4_channel *channel =
2945a6681e2SEdward Cree container_of(napi, struct ef4_channel, napi_str);
2955a6681e2SEdward Cree struct ef4_nic *efx = channel->efx;
2965a6681e2SEdward Cree int spent;
2975a6681e2SEdward Cree
2985a6681e2SEdward Cree netif_vdbg(efx, intr, efx->net_dev,
2995a6681e2SEdward Cree "channel %d NAPI poll executing on CPU %d\n",
3005a6681e2SEdward Cree channel->channel, raw_smp_processor_id());
3015a6681e2SEdward Cree
3025a6681e2SEdward Cree spent = ef4_process_channel(channel, budget);
3035a6681e2SEdward Cree
3045a6681e2SEdward Cree if (spent < budget) {
3055a6681e2SEdward Cree if (ef4_channel_has_rx_queue(channel) &&
3065a6681e2SEdward Cree efx->irq_rx_adaptive &&
3075a6681e2SEdward Cree unlikely(++channel->irq_count == 1000)) {
3085a6681e2SEdward Cree ef4_update_irq_mod(efx, channel);
3095a6681e2SEdward Cree }
3105a6681e2SEdward Cree
3115a6681e2SEdward Cree ef4_filter_rfs_expire(channel);
3125a6681e2SEdward Cree
3135a6681e2SEdward Cree /* There is no race here; although napi_disable() will
3145a6681e2SEdward Cree * only wait for napi_complete(), this isn't a problem
3155a6681e2SEdward Cree * since ef4_nic_eventq_read_ack() will have no effect if
3165a6681e2SEdward Cree * interrupts have already been disabled.
3175a6681e2SEdward Cree */
3186ad20165SEric Dumazet napi_complete_done(napi, spent);
3195a6681e2SEdward Cree ef4_nic_eventq_read_ack(channel);
3205a6681e2SEdward Cree }
3215a6681e2SEdward Cree
3225a6681e2SEdward Cree return spent;
3235a6681e2SEdward Cree }
3245a6681e2SEdward Cree
3255a6681e2SEdward Cree /* Create event queue
3265a6681e2SEdward Cree * Event queue memory allocations are done only once. If the channel
3275a6681e2SEdward Cree * is reset, the memory buffer will be reused; this guards against
3285a6681e2SEdward Cree * errors during channel reset and also simplifies interrupt handling.
3295a6681e2SEdward Cree */
ef4_probe_eventq(struct ef4_channel * channel)3305a6681e2SEdward Cree static int ef4_probe_eventq(struct ef4_channel *channel)
3315a6681e2SEdward Cree {
3325a6681e2SEdward Cree struct ef4_nic *efx = channel->efx;
3335a6681e2SEdward Cree unsigned long entries;
3345a6681e2SEdward Cree
3355a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev,
3365a6681e2SEdward Cree "chan %d create event queue\n", channel->channel);
3375a6681e2SEdward Cree
3385a6681e2SEdward Cree /* Build an event queue with room for one event per tx and rx buffer,
3395a6681e2SEdward Cree * plus some extra for link state events and MCDI completions. */
3405a6681e2SEdward Cree entries = roundup_pow_of_two(efx->rxq_entries + efx->txq_entries + 128);
3415a6681e2SEdward Cree EF4_BUG_ON_PARANOID(entries > EF4_MAX_EVQ_SIZE);
3425a6681e2SEdward Cree channel->eventq_mask = max(entries, EF4_MIN_EVQ_SIZE) - 1;
3435a6681e2SEdward Cree
3445a6681e2SEdward Cree return ef4_nic_probe_eventq(channel);
3455a6681e2SEdward Cree }
3465a6681e2SEdward Cree
3475a6681e2SEdward Cree /* Prepare channel's event queue */
ef4_init_eventq(struct ef4_channel * channel)3485a6681e2SEdward Cree static int ef4_init_eventq(struct ef4_channel *channel)
3495a6681e2SEdward Cree {
3505a6681e2SEdward Cree struct ef4_nic *efx = channel->efx;
3515a6681e2SEdward Cree int rc;
3525a6681e2SEdward Cree
3535a6681e2SEdward Cree EF4_WARN_ON_PARANOID(channel->eventq_init);
3545a6681e2SEdward Cree
3555a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev,
3565a6681e2SEdward Cree "chan %d init event queue\n", channel->channel);
3575a6681e2SEdward Cree
3585a6681e2SEdward Cree rc = ef4_nic_init_eventq(channel);
3595a6681e2SEdward Cree if (rc == 0) {
3605a6681e2SEdward Cree efx->type->push_irq_moderation(channel);
3615a6681e2SEdward Cree channel->eventq_read_ptr = 0;
3625a6681e2SEdward Cree channel->eventq_init = true;
3635a6681e2SEdward Cree }
3645a6681e2SEdward Cree return rc;
3655a6681e2SEdward Cree }
3665a6681e2SEdward Cree
3675a6681e2SEdward Cree /* Enable event queue processing and NAPI */
ef4_start_eventq(struct ef4_channel * channel)3685a6681e2SEdward Cree void ef4_start_eventq(struct ef4_channel *channel)
3695a6681e2SEdward Cree {
3705a6681e2SEdward Cree netif_dbg(channel->efx, ifup, channel->efx->net_dev,
3715a6681e2SEdward Cree "chan %d start event queue\n", channel->channel);
3725a6681e2SEdward Cree
3735a6681e2SEdward Cree /* Make sure the NAPI handler sees the enabled flag set */
3745a6681e2SEdward Cree channel->enabled = true;
3755a6681e2SEdward Cree smp_wmb();
3765a6681e2SEdward Cree
3775a6681e2SEdward Cree napi_enable(&channel->napi_str);
3785a6681e2SEdward Cree ef4_nic_eventq_read_ack(channel);
3795a6681e2SEdward Cree }
3805a6681e2SEdward Cree
3815a6681e2SEdward Cree /* Disable event queue processing and NAPI */
ef4_stop_eventq(struct ef4_channel * channel)3825a6681e2SEdward Cree void ef4_stop_eventq(struct ef4_channel *channel)
3835a6681e2SEdward Cree {
3845a6681e2SEdward Cree if (!channel->enabled)
3855a6681e2SEdward Cree return;
3865a6681e2SEdward Cree
3875a6681e2SEdward Cree napi_disable(&channel->napi_str);
3885a6681e2SEdward Cree channel->enabled = false;
3895a6681e2SEdward Cree }
3905a6681e2SEdward Cree
ef4_fini_eventq(struct ef4_channel * channel)3915a6681e2SEdward Cree static void ef4_fini_eventq(struct ef4_channel *channel)
3925a6681e2SEdward Cree {
3935a6681e2SEdward Cree if (!channel->eventq_init)
3945a6681e2SEdward Cree return;
3955a6681e2SEdward Cree
3965a6681e2SEdward Cree netif_dbg(channel->efx, drv, channel->efx->net_dev,
3975a6681e2SEdward Cree "chan %d fini event queue\n", channel->channel);
3985a6681e2SEdward Cree
3995a6681e2SEdward Cree ef4_nic_fini_eventq(channel);
4005a6681e2SEdward Cree channel->eventq_init = false;
4015a6681e2SEdward Cree }
4025a6681e2SEdward Cree
ef4_remove_eventq(struct ef4_channel * channel)4035a6681e2SEdward Cree static void ef4_remove_eventq(struct ef4_channel *channel)
4045a6681e2SEdward Cree {
4055a6681e2SEdward Cree netif_dbg(channel->efx, drv, channel->efx->net_dev,
4065a6681e2SEdward Cree "chan %d remove event queue\n", channel->channel);
4075a6681e2SEdward Cree
4085a6681e2SEdward Cree ef4_nic_remove_eventq(channel);
4095a6681e2SEdward Cree }
4105a6681e2SEdward Cree
4115a6681e2SEdward Cree /**************************************************************************
4125a6681e2SEdward Cree *
4135a6681e2SEdward Cree * Channel handling
4145a6681e2SEdward Cree *
4155a6681e2SEdward Cree *************************************************************************/
4165a6681e2SEdward Cree
4175a6681e2SEdward Cree /* Allocate and initialise a channel structure. */
4185a6681e2SEdward Cree static struct ef4_channel *
ef4_alloc_channel(struct ef4_nic * efx,int i,struct ef4_channel * old_channel)4195a6681e2SEdward Cree ef4_alloc_channel(struct ef4_nic *efx, int i, struct ef4_channel *old_channel)
4205a6681e2SEdward Cree {
4215a6681e2SEdward Cree struct ef4_channel *channel;
4225a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
4235a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
4245a6681e2SEdward Cree int j;
4255a6681e2SEdward Cree
4265a6681e2SEdward Cree channel = kzalloc(sizeof(*channel), GFP_KERNEL);
4275a6681e2SEdward Cree if (!channel)
4285a6681e2SEdward Cree return NULL;
4295a6681e2SEdward Cree
4305a6681e2SEdward Cree channel->efx = efx;
4315a6681e2SEdward Cree channel->channel = i;
4325a6681e2SEdward Cree channel->type = &ef4_default_channel_type;
4335a6681e2SEdward Cree
4345a6681e2SEdward Cree for (j = 0; j < EF4_TXQ_TYPES; j++) {
4355a6681e2SEdward Cree tx_queue = &channel->tx_queue[j];
4365a6681e2SEdward Cree tx_queue->efx = efx;
4375a6681e2SEdward Cree tx_queue->queue = i * EF4_TXQ_TYPES + j;
4385a6681e2SEdward Cree tx_queue->channel = channel;
4395a6681e2SEdward Cree }
4405a6681e2SEdward Cree
4415a6681e2SEdward Cree rx_queue = &channel->rx_queue;
4425a6681e2SEdward Cree rx_queue->efx = efx;
4437aa1402eSKees Cook timer_setup(&rx_queue->slow_fill, ef4_rx_slow_fill, 0);
4445a6681e2SEdward Cree
4455a6681e2SEdward Cree return channel;
4465a6681e2SEdward Cree }
4475a6681e2SEdward Cree
4485a6681e2SEdward Cree /* Allocate and initialise a channel structure, copying parameters
4495a6681e2SEdward Cree * (but not resources) from an old channel structure.
4505a6681e2SEdward Cree */
4515a6681e2SEdward Cree static struct ef4_channel *
ef4_copy_channel(const struct ef4_channel * old_channel)4525a6681e2SEdward Cree ef4_copy_channel(const struct ef4_channel *old_channel)
4535a6681e2SEdward Cree {
4545a6681e2SEdward Cree struct ef4_channel *channel;
4555a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
4565a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
4575a6681e2SEdward Cree int j;
4585a6681e2SEdward Cree
4595a6681e2SEdward Cree channel = kmalloc(sizeof(*channel), GFP_KERNEL);
4605a6681e2SEdward Cree if (!channel)
4615a6681e2SEdward Cree return NULL;
4625a6681e2SEdward Cree
4635a6681e2SEdward Cree *channel = *old_channel;
4645a6681e2SEdward Cree
4655a6681e2SEdward Cree channel->napi_dev = NULL;
4665a6681e2SEdward Cree INIT_HLIST_NODE(&channel->napi_str.napi_hash_node);
4675a6681e2SEdward Cree channel->napi_str.napi_id = 0;
4685a6681e2SEdward Cree channel->napi_str.state = 0;
4695a6681e2SEdward Cree memset(&channel->eventq, 0, sizeof(channel->eventq));
4705a6681e2SEdward Cree
4715a6681e2SEdward Cree for (j = 0; j < EF4_TXQ_TYPES; j++) {
4725a6681e2SEdward Cree tx_queue = &channel->tx_queue[j];
4735a6681e2SEdward Cree if (tx_queue->channel)
4745a6681e2SEdward Cree tx_queue->channel = channel;
4755a6681e2SEdward Cree tx_queue->buffer = NULL;
4765a6681e2SEdward Cree memset(&tx_queue->txd, 0, sizeof(tx_queue->txd));
4775a6681e2SEdward Cree }
4785a6681e2SEdward Cree
4795a6681e2SEdward Cree rx_queue = &channel->rx_queue;
4805a6681e2SEdward Cree rx_queue->buffer = NULL;
4815a6681e2SEdward Cree memset(&rx_queue->rxd, 0, sizeof(rx_queue->rxd));
4827aa1402eSKees Cook timer_setup(&rx_queue->slow_fill, ef4_rx_slow_fill, 0);
4835a6681e2SEdward Cree
4845a6681e2SEdward Cree return channel;
4855a6681e2SEdward Cree }
4865a6681e2SEdward Cree
ef4_probe_channel(struct ef4_channel * channel)4875a6681e2SEdward Cree static int ef4_probe_channel(struct ef4_channel *channel)
4885a6681e2SEdward Cree {
4895a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
4905a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
4915a6681e2SEdward Cree int rc;
4925a6681e2SEdward Cree
4935a6681e2SEdward Cree netif_dbg(channel->efx, probe, channel->efx->net_dev,
4945a6681e2SEdward Cree "creating channel %d\n", channel->channel);
4955a6681e2SEdward Cree
4965a6681e2SEdward Cree rc = channel->type->pre_probe(channel);
4975a6681e2SEdward Cree if (rc)
4985a6681e2SEdward Cree goto fail;
4995a6681e2SEdward Cree
5005a6681e2SEdward Cree rc = ef4_probe_eventq(channel);
5015a6681e2SEdward Cree if (rc)
5025a6681e2SEdward Cree goto fail;
5035a6681e2SEdward Cree
5045a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel) {
5055a6681e2SEdward Cree rc = ef4_probe_tx_queue(tx_queue);
5065a6681e2SEdward Cree if (rc)
5075a6681e2SEdward Cree goto fail;
5085a6681e2SEdward Cree }
5095a6681e2SEdward Cree
5105a6681e2SEdward Cree ef4_for_each_channel_rx_queue(rx_queue, channel) {
5115a6681e2SEdward Cree rc = ef4_probe_rx_queue(rx_queue);
5125a6681e2SEdward Cree if (rc)
5135a6681e2SEdward Cree goto fail;
5145a6681e2SEdward Cree }
5155a6681e2SEdward Cree
5165a6681e2SEdward Cree return 0;
5175a6681e2SEdward Cree
5185a6681e2SEdward Cree fail:
5195a6681e2SEdward Cree ef4_remove_channel(channel);
5205a6681e2SEdward Cree return rc;
5215a6681e2SEdward Cree }
5225a6681e2SEdward Cree
5235a6681e2SEdward Cree static void
ef4_get_channel_name(struct ef4_channel * channel,char * buf,size_t len)5245a6681e2SEdward Cree ef4_get_channel_name(struct ef4_channel *channel, char *buf, size_t len)
5255a6681e2SEdward Cree {
5265a6681e2SEdward Cree struct ef4_nic *efx = channel->efx;
5275a6681e2SEdward Cree const char *type;
5285a6681e2SEdward Cree int number;
5295a6681e2SEdward Cree
5305a6681e2SEdward Cree number = channel->channel;
5315a6681e2SEdward Cree if (efx->tx_channel_offset == 0) {
5325a6681e2SEdward Cree type = "";
5335a6681e2SEdward Cree } else if (channel->channel < efx->tx_channel_offset) {
5345a6681e2SEdward Cree type = "-rx";
5355a6681e2SEdward Cree } else {
5365a6681e2SEdward Cree type = "-tx";
5375a6681e2SEdward Cree number -= efx->tx_channel_offset;
5385a6681e2SEdward Cree }
5395a6681e2SEdward Cree snprintf(buf, len, "%s%s-%d", efx->name, type, number);
5405a6681e2SEdward Cree }
5415a6681e2SEdward Cree
ef4_set_channel_names(struct ef4_nic * efx)5425a6681e2SEdward Cree static void ef4_set_channel_names(struct ef4_nic *efx)
5435a6681e2SEdward Cree {
5445a6681e2SEdward Cree struct ef4_channel *channel;
5455a6681e2SEdward Cree
5465a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
5475a6681e2SEdward Cree channel->type->get_name(channel,
5485a6681e2SEdward Cree efx->msi_context[channel->channel].name,
5495a6681e2SEdward Cree sizeof(efx->msi_context[0].name));
5505a6681e2SEdward Cree }
5515a6681e2SEdward Cree
ef4_probe_channels(struct ef4_nic * efx)5525a6681e2SEdward Cree static int ef4_probe_channels(struct ef4_nic *efx)
5535a6681e2SEdward Cree {
5545a6681e2SEdward Cree struct ef4_channel *channel;
5555a6681e2SEdward Cree int rc;
5565a6681e2SEdward Cree
5575a6681e2SEdward Cree /* Restart special buffer allocation */
5585a6681e2SEdward Cree efx->next_buffer_table = 0;
5595a6681e2SEdward Cree
5605a6681e2SEdward Cree /* Probe channels in reverse, so that any 'extra' channels
5615a6681e2SEdward Cree * use the start of the buffer table. This allows the traffic
5625a6681e2SEdward Cree * channels to be resized without moving them or wasting the
5635a6681e2SEdward Cree * entries before them.
5645a6681e2SEdward Cree */
5655a6681e2SEdward Cree ef4_for_each_channel_rev(channel, efx) {
5665a6681e2SEdward Cree rc = ef4_probe_channel(channel);
5675a6681e2SEdward Cree if (rc) {
5685a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
5695a6681e2SEdward Cree "failed to create channel %d\n",
5705a6681e2SEdward Cree channel->channel);
5715a6681e2SEdward Cree goto fail;
5725a6681e2SEdward Cree }
5735a6681e2SEdward Cree }
5745a6681e2SEdward Cree ef4_set_channel_names(efx);
5755a6681e2SEdward Cree
5765a6681e2SEdward Cree return 0;
5775a6681e2SEdward Cree
5785a6681e2SEdward Cree fail:
5795a6681e2SEdward Cree ef4_remove_channels(efx);
5805a6681e2SEdward Cree return rc;
5815a6681e2SEdward Cree }
5825a6681e2SEdward Cree
5835a6681e2SEdward Cree /* Channels are shutdown and reinitialised whilst the NIC is running
5845a6681e2SEdward Cree * to propagate configuration changes (mtu, checksum offload), or
5855a6681e2SEdward Cree * to clear hardware error conditions
5865a6681e2SEdward Cree */
ef4_start_datapath(struct ef4_nic * efx)5875a6681e2SEdward Cree static void ef4_start_datapath(struct ef4_nic *efx)
5885a6681e2SEdward Cree {
5895a6681e2SEdward Cree netdev_features_t old_features = efx->net_dev->features;
5905a6681e2SEdward Cree bool old_rx_scatter = efx->rx_scatter;
5915a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
5925a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
5935a6681e2SEdward Cree struct ef4_channel *channel;
5945a6681e2SEdward Cree size_t rx_buf_len;
5955a6681e2SEdward Cree
5965a6681e2SEdward Cree /* Calculate the rx buffer allocation parameters required to
5975a6681e2SEdward Cree * support the current MTU, including padding for header
5985a6681e2SEdward Cree * alignment and overruns.
5995a6681e2SEdward Cree */
6005a6681e2SEdward Cree efx->rx_dma_len = (efx->rx_prefix_size +
6015a6681e2SEdward Cree EF4_MAX_FRAME_LEN(efx->net_dev->mtu) +
6025a6681e2SEdward Cree efx->type->rx_buffer_padding);
6035a6681e2SEdward Cree rx_buf_len = (sizeof(struct ef4_rx_page_state) +
6045a6681e2SEdward Cree efx->rx_ip_align + efx->rx_dma_len);
6055a6681e2SEdward Cree if (rx_buf_len <= PAGE_SIZE) {
6065a6681e2SEdward Cree efx->rx_scatter = efx->type->always_rx_scatter;
6075a6681e2SEdward Cree efx->rx_buffer_order = 0;
6085a6681e2SEdward Cree } else if (efx->type->can_rx_scatter) {
6095a6681e2SEdward Cree BUILD_BUG_ON(EF4_RX_USR_BUF_SIZE % L1_CACHE_BYTES);
6105a6681e2SEdward Cree BUILD_BUG_ON(sizeof(struct ef4_rx_page_state) +
6115a6681e2SEdward Cree 2 * ALIGN(NET_IP_ALIGN + EF4_RX_USR_BUF_SIZE,
6125a6681e2SEdward Cree EF4_RX_BUF_ALIGNMENT) >
6135a6681e2SEdward Cree PAGE_SIZE);
6145a6681e2SEdward Cree efx->rx_scatter = true;
6155a6681e2SEdward Cree efx->rx_dma_len = EF4_RX_USR_BUF_SIZE;
6165a6681e2SEdward Cree efx->rx_buffer_order = 0;
6175a6681e2SEdward Cree } else {
6185a6681e2SEdward Cree efx->rx_scatter = false;
6195a6681e2SEdward Cree efx->rx_buffer_order = get_order(rx_buf_len);
6205a6681e2SEdward Cree }
6215a6681e2SEdward Cree
6225a6681e2SEdward Cree ef4_rx_config_page_split(efx);
6235a6681e2SEdward Cree if (efx->rx_buffer_order)
6245a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev,
6255a6681e2SEdward Cree "RX buf len=%u; page order=%u batch=%u\n",
6265a6681e2SEdward Cree efx->rx_dma_len, efx->rx_buffer_order,
6275a6681e2SEdward Cree efx->rx_pages_per_batch);
6285a6681e2SEdward Cree else
6295a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev,
6305a6681e2SEdward Cree "RX buf len=%u step=%u bpp=%u; page batch=%u\n",
6315a6681e2SEdward Cree efx->rx_dma_len, efx->rx_page_buf_step,
6325a6681e2SEdward Cree efx->rx_bufs_per_page, efx->rx_pages_per_batch);
6335a6681e2SEdward Cree
6345a6681e2SEdward Cree /* Restore previously fixed features in hw_features and remove
6355a6681e2SEdward Cree * features which are fixed now
6365a6681e2SEdward Cree */
6375a6681e2SEdward Cree efx->net_dev->hw_features |= efx->net_dev->features;
6385a6681e2SEdward Cree efx->net_dev->hw_features &= ~efx->fixed_features;
6395a6681e2SEdward Cree efx->net_dev->features |= efx->fixed_features;
6405a6681e2SEdward Cree if (efx->net_dev->features != old_features)
6415a6681e2SEdward Cree netdev_features_change(efx->net_dev);
6425a6681e2SEdward Cree
6435a6681e2SEdward Cree /* RX filters may also have scatter-enabled flags */
6445a6681e2SEdward Cree if (efx->rx_scatter != old_rx_scatter)
6455a6681e2SEdward Cree efx->type->filter_update_rx_scatter(efx);
6465a6681e2SEdward Cree
6475a6681e2SEdward Cree /* We must keep at least one descriptor in a TX ring empty.
6485a6681e2SEdward Cree * We could avoid this when the queue size does not exactly
6495a6681e2SEdward Cree * match the hardware ring size, but it's not that important.
6505a6681e2SEdward Cree * Therefore we stop the queue when one more skb might fill
6515a6681e2SEdward Cree * the ring completely. We wake it when half way back to
6525a6681e2SEdward Cree * empty.
6535a6681e2SEdward Cree */
6545a6681e2SEdward Cree efx->txq_stop_thresh = efx->txq_entries - ef4_tx_max_skb_descs(efx);
6555a6681e2SEdward Cree efx->txq_wake_thresh = efx->txq_stop_thresh / 2;
6565a6681e2SEdward Cree
6575a6681e2SEdward Cree /* Initialise the channels */
6585a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
6595a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel) {
6605a6681e2SEdward Cree ef4_init_tx_queue(tx_queue);
6615a6681e2SEdward Cree atomic_inc(&efx->active_queues);
6625a6681e2SEdward Cree }
6635a6681e2SEdward Cree
6645a6681e2SEdward Cree ef4_for_each_channel_rx_queue(rx_queue, channel) {
6655a6681e2SEdward Cree ef4_init_rx_queue(rx_queue);
6665a6681e2SEdward Cree atomic_inc(&efx->active_queues);
6675a6681e2SEdward Cree ef4_stop_eventq(channel);
6685a6681e2SEdward Cree ef4_fast_push_rx_descriptors(rx_queue, false);
6695a6681e2SEdward Cree ef4_start_eventq(channel);
6705a6681e2SEdward Cree }
6715a6681e2SEdward Cree
6725a6681e2SEdward Cree WARN_ON(channel->rx_pkt_n_frags);
6735a6681e2SEdward Cree }
6745a6681e2SEdward Cree
6755a6681e2SEdward Cree if (netif_device_present(efx->net_dev))
6765a6681e2SEdward Cree netif_tx_wake_all_queues(efx->net_dev);
6775a6681e2SEdward Cree }
6785a6681e2SEdward Cree
ef4_stop_datapath(struct ef4_nic * efx)6795a6681e2SEdward Cree static void ef4_stop_datapath(struct ef4_nic *efx)
6805a6681e2SEdward Cree {
6815a6681e2SEdward Cree struct ef4_channel *channel;
6825a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
6835a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
6845a6681e2SEdward Cree int rc;
6855a6681e2SEdward Cree
6865a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
6875a6681e2SEdward Cree BUG_ON(efx->port_enabled);
6885a6681e2SEdward Cree
6895a6681e2SEdward Cree /* Stop RX refill */
6905a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
6915a6681e2SEdward Cree ef4_for_each_channel_rx_queue(rx_queue, channel)
6925a6681e2SEdward Cree rx_queue->refill_enabled = false;
6935a6681e2SEdward Cree }
6945a6681e2SEdward Cree
6955a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
6965a6681e2SEdward Cree /* RX packet processing is pipelined, so wait for the
6975a6681e2SEdward Cree * NAPI handler to complete. At least event queue 0
6985a6681e2SEdward Cree * might be kept active by non-data events, so don't
6995a6681e2SEdward Cree * use napi_synchronize() but actually disable NAPI
7005a6681e2SEdward Cree * temporarily.
7015a6681e2SEdward Cree */
7025a6681e2SEdward Cree if (ef4_channel_has_rx_queue(channel)) {
7035a6681e2SEdward Cree ef4_stop_eventq(channel);
7045a6681e2SEdward Cree ef4_start_eventq(channel);
7055a6681e2SEdward Cree }
7065a6681e2SEdward Cree }
7075a6681e2SEdward Cree
7085a6681e2SEdward Cree rc = efx->type->fini_dmaq(efx);
7095a6681e2SEdward Cree if (rc && EF4_WORKAROUND_7803(efx)) {
7105a6681e2SEdward Cree /* Schedule a reset to recover from the flush failure. The
7115a6681e2SEdward Cree * descriptor caches reference memory we're about to free,
7125a6681e2SEdward Cree * but falcon_reconfigure_mac_wrapper() won't reconnect
7135a6681e2SEdward Cree * the MACs because of the pending reset.
7145a6681e2SEdward Cree */
7155a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
7165a6681e2SEdward Cree "Resetting to recover from flush failure\n");
7175a6681e2SEdward Cree ef4_schedule_reset(efx, RESET_TYPE_ALL);
7185a6681e2SEdward Cree } else if (rc) {
7195a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev, "failed to flush queues\n");
7205a6681e2SEdward Cree } else {
7215a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev,
7225a6681e2SEdward Cree "successfully flushed all queues\n");
7235a6681e2SEdward Cree }
7245a6681e2SEdward Cree
7255a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
7265a6681e2SEdward Cree ef4_for_each_channel_rx_queue(rx_queue, channel)
7275a6681e2SEdward Cree ef4_fini_rx_queue(rx_queue);
7285a6681e2SEdward Cree ef4_for_each_possible_channel_tx_queue(tx_queue, channel)
7295a6681e2SEdward Cree ef4_fini_tx_queue(tx_queue);
7305a6681e2SEdward Cree }
7315a6681e2SEdward Cree }
7325a6681e2SEdward Cree
ef4_remove_channel(struct ef4_channel * channel)7335a6681e2SEdward Cree static void ef4_remove_channel(struct ef4_channel *channel)
7345a6681e2SEdward Cree {
7355a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
7365a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
7375a6681e2SEdward Cree
7385a6681e2SEdward Cree netif_dbg(channel->efx, drv, channel->efx->net_dev,
7395a6681e2SEdward Cree "destroy chan %d\n", channel->channel);
7405a6681e2SEdward Cree
7415a6681e2SEdward Cree ef4_for_each_channel_rx_queue(rx_queue, channel)
7425a6681e2SEdward Cree ef4_remove_rx_queue(rx_queue);
7435a6681e2SEdward Cree ef4_for_each_possible_channel_tx_queue(tx_queue, channel)
7445a6681e2SEdward Cree ef4_remove_tx_queue(tx_queue);
7455a6681e2SEdward Cree ef4_remove_eventq(channel);
7465a6681e2SEdward Cree channel->type->post_remove(channel);
7475a6681e2SEdward Cree }
7485a6681e2SEdward Cree
ef4_remove_channels(struct ef4_nic * efx)7495a6681e2SEdward Cree static void ef4_remove_channels(struct ef4_nic *efx)
7505a6681e2SEdward Cree {
7515a6681e2SEdward Cree struct ef4_channel *channel;
7525a6681e2SEdward Cree
7535a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
7545a6681e2SEdward Cree ef4_remove_channel(channel);
7555a6681e2SEdward Cree }
7565a6681e2SEdward Cree
7575a6681e2SEdward Cree int
ef4_realloc_channels(struct ef4_nic * efx,u32 rxq_entries,u32 txq_entries)7585a6681e2SEdward Cree ef4_realloc_channels(struct ef4_nic *efx, u32 rxq_entries, u32 txq_entries)
7595a6681e2SEdward Cree {
7605a6681e2SEdward Cree struct ef4_channel *other_channel[EF4_MAX_CHANNELS], *channel;
7615a6681e2SEdward Cree u32 old_rxq_entries, old_txq_entries;
7625a6681e2SEdward Cree unsigned i, next_buffer_table = 0;
7635a6681e2SEdward Cree int rc, rc2;
7645a6681e2SEdward Cree
7655a6681e2SEdward Cree rc = ef4_check_disabled(efx);
7665a6681e2SEdward Cree if (rc)
7675a6681e2SEdward Cree return rc;
7685a6681e2SEdward Cree
7695a6681e2SEdward Cree /* Not all channels should be reallocated. We must avoid
7705a6681e2SEdward Cree * reallocating their buffer table entries.
7715a6681e2SEdward Cree */
7725a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
7735a6681e2SEdward Cree struct ef4_rx_queue *rx_queue;
7745a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
7755a6681e2SEdward Cree
7765a6681e2SEdward Cree if (channel->type->copy)
7775a6681e2SEdward Cree continue;
7785a6681e2SEdward Cree next_buffer_table = max(next_buffer_table,
7795a6681e2SEdward Cree channel->eventq.index +
7805a6681e2SEdward Cree channel->eventq.entries);
7815a6681e2SEdward Cree ef4_for_each_channel_rx_queue(rx_queue, channel)
7825a6681e2SEdward Cree next_buffer_table = max(next_buffer_table,
7835a6681e2SEdward Cree rx_queue->rxd.index +
7845a6681e2SEdward Cree rx_queue->rxd.entries);
7855a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel)
7865a6681e2SEdward Cree next_buffer_table = max(next_buffer_table,
7875a6681e2SEdward Cree tx_queue->txd.index +
7885a6681e2SEdward Cree tx_queue->txd.entries);
7895a6681e2SEdward Cree }
7905a6681e2SEdward Cree
7915a6681e2SEdward Cree ef4_device_detach_sync(efx);
7925a6681e2SEdward Cree ef4_stop_all(efx);
7935a6681e2SEdward Cree ef4_soft_disable_interrupts(efx);
7945a6681e2SEdward Cree
7955a6681e2SEdward Cree /* Clone channels (where possible) */
7965a6681e2SEdward Cree memset(other_channel, 0, sizeof(other_channel));
7975a6681e2SEdward Cree for (i = 0; i < efx->n_channels; i++) {
7985a6681e2SEdward Cree channel = efx->channel[i];
7995a6681e2SEdward Cree if (channel->type->copy)
8005a6681e2SEdward Cree channel = channel->type->copy(channel);
8015a6681e2SEdward Cree if (!channel) {
8025a6681e2SEdward Cree rc = -ENOMEM;
8035a6681e2SEdward Cree goto out;
8045a6681e2SEdward Cree }
8055a6681e2SEdward Cree other_channel[i] = channel;
8065a6681e2SEdward Cree }
8075a6681e2SEdward Cree
8085a6681e2SEdward Cree /* Swap entry counts and channel pointers */
8095a6681e2SEdward Cree old_rxq_entries = efx->rxq_entries;
8105a6681e2SEdward Cree old_txq_entries = efx->txq_entries;
8115a6681e2SEdward Cree efx->rxq_entries = rxq_entries;
8125a6681e2SEdward Cree efx->txq_entries = txq_entries;
8135a6681e2SEdward Cree for (i = 0; i < efx->n_channels; i++) {
814f6a51010SYang Guang swap(efx->channel[i], other_channel[i]);
8155a6681e2SEdward Cree }
8165a6681e2SEdward Cree
8175a6681e2SEdward Cree /* Restart buffer table allocation */
8185a6681e2SEdward Cree efx->next_buffer_table = next_buffer_table;
8195a6681e2SEdward Cree
8205a6681e2SEdward Cree for (i = 0; i < efx->n_channels; i++) {
8215a6681e2SEdward Cree channel = efx->channel[i];
8225a6681e2SEdward Cree if (!channel->type->copy)
8235a6681e2SEdward Cree continue;
8245a6681e2SEdward Cree rc = ef4_probe_channel(channel);
8255a6681e2SEdward Cree if (rc)
8265a6681e2SEdward Cree goto rollback;
8275a6681e2SEdward Cree ef4_init_napi_channel(efx->channel[i]);
8285a6681e2SEdward Cree }
8295a6681e2SEdward Cree
8305a6681e2SEdward Cree out:
8315a6681e2SEdward Cree /* Destroy unused channel structures */
8325a6681e2SEdward Cree for (i = 0; i < efx->n_channels; i++) {
8335a6681e2SEdward Cree channel = other_channel[i];
8345a6681e2SEdward Cree if (channel && channel->type->copy) {
8355a6681e2SEdward Cree ef4_fini_napi_channel(channel);
8365a6681e2SEdward Cree ef4_remove_channel(channel);
8375a6681e2SEdward Cree kfree(channel);
8385a6681e2SEdward Cree }
8395a6681e2SEdward Cree }
8405a6681e2SEdward Cree
8415a6681e2SEdward Cree rc2 = ef4_soft_enable_interrupts(efx);
8425a6681e2SEdward Cree if (rc2) {
8435a6681e2SEdward Cree rc = rc ? rc : rc2;
8445a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
8455a6681e2SEdward Cree "unable to restart interrupts on channel reallocation\n");
8465a6681e2SEdward Cree ef4_schedule_reset(efx, RESET_TYPE_DISABLE);
8475a6681e2SEdward Cree } else {
8485a6681e2SEdward Cree ef4_start_all(efx);
8495a6681e2SEdward Cree netif_device_attach(efx->net_dev);
8505a6681e2SEdward Cree }
8515a6681e2SEdward Cree return rc;
8525a6681e2SEdward Cree
8535a6681e2SEdward Cree rollback:
8545a6681e2SEdward Cree /* Swap back */
8555a6681e2SEdward Cree efx->rxq_entries = old_rxq_entries;
8565a6681e2SEdward Cree efx->txq_entries = old_txq_entries;
8575a6681e2SEdward Cree for (i = 0; i < efx->n_channels; i++) {
858f6a51010SYang Guang swap(efx->channel[i], other_channel[i]);
8595a6681e2SEdward Cree }
8605a6681e2SEdward Cree goto out;
8615a6681e2SEdward Cree }
8625a6681e2SEdward Cree
ef4_schedule_slow_fill(struct ef4_rx_queue * rx_queue)8635a6681e2SEdward Cree void ef4_schedule_slow_fill(struct ef4_rx_queue *rx_queue)
8645a6681e2SEdward Cree {
8655a6681e2SEdward Cree mod_timer(&rx_queue->slow_fill, jiffies + msecs_to_jiffies(100));
8665a6681e2SEdward Cree }
8675a6681e2SEdward Cree
8685a6681e2SEdward Cree static const struct ef4_channel_type ef4_default_channel_type = {
8695a6681e2SEdward Cree .pre_probe = ef4_channel_dummy_op_int,
8705a6681e2SEdward Cree .post_remove = ef4_channel_dummy_op_void,
8715a6681e2SEdward Cree .get_name = ef4_get_channel_name,
8725a6681e2SEdward Cree .copy = ef4_copy_channel,
8735a6681e2SEdward Cree .keep_eventq = false,
8745a6681e2SEdward Cree };
8755a6681e2SEdward Cree
ef4_channel_dummy_op_int(struct ef4_channel * channel)8765a6681e2SEdward Cree int ef4_channel_dummy_op_int(struct ef4_channel *channel)
8775a6681e2SEdward Cree {
8785a6681e2SEdward Cree return 0;
8795a6681e2SEdward Cree }
8805a6681e2SEdward Cree
ef4_channel_dummy_op_void(struct ef4_channel * channel)8815a6681e2SEdward Cree void ef4_channel_dummy_op_void(struct ef4_channel *channel)
8825a6681e2SEdward Cree {
8835a6681e2SEdward Cree }
8845a6681e2SEdward Cree
8855a6681e2SEdward Cree /**************************************************************************
8865a6681e2SEdward Cree *
8875a6681e2SEdward Cree * Port handling
8885a6681e2SEdward Cree *
8895a6681e2SEdward Cree **************************************************************************/
8905a6681e2SEdward Cree
8915a6681e2SEdward Cree /* This ensures that the kernel is kept informed (via
8925a6681e2SEdward Cree * netif_carrier_on/off) of the link status, and also maintains the
8935a6681e2SEdward Cree * link status's stop on the port's TX queue.
8945a6681e2SEdward Cree */
ef4_link_status_changed(struct ef4_nic * efx)8955a6681e2SEdward Cree void ef4_link_status_changed(struct ef4_nic *efx)
8965a6681e2SEdward Cree {
8975a6681e2SEdward Cree struct ef4_link_state *link_state = &efx->link_state;
8985a6681e2SEdward Cree
8995a6681e2SEdward Cree /* SFC Bug 5356: A net_dev notifier is registered, so we must ensure
9005a6681e2SEdward Cree * that no events are triggered between unregister_netdev() and the
9015a6681e2SEdward Cree * driver unloading. A more general condition is that NETDEV_CHANGE
9025a6681e2SEdward Cree * can only be generated between NETDEV_UP and NETDEV_DOWN */
9035a6681e2SEdward Cree if (!netif_running(efx->net_dev))
9045a6681e2SEdward Cree return;
9055a6681e2SEdward Cree
9065a6681e2SEdward Cree if (link_state->up != netif_carrier_ok(efx->net_dev)) {
9075a6681e2SEdward Cree efx->n_link_state_changes++;
9085a6681e2SEdward Cree
9095a6681e2SEdward Cree if (link_state->up)
9105a6681e2SEdward Cree netif_carrier_on(efx->net_dev);
9115a6681e2SEdward Cree else
9125a6681e2SEdward Cree netif_carrier_off(efx->net_dev);
9135a6681e2SEdward Cree }
9145a6681e2SEdward Cree
9155a6681e2SEdward Cree /* Status message for kernel log */
9165a6681e2SEdward Cree if (link_state->up)
9175a6681e2SEdward Cree netif_info(efx, link, efx->net_dev,
9185a6681e2SEdward Cree "link up at %uMbps %s-duplex (MTU %d)\n",
9195a6681e2SEdward Cree link_state->speed, link_state->fd ? "full" : "half",
9205a6681e2SEdward Cree efx->net_dev->mtu);
9215a6681e2SEdward Cree else
9225a6681e2SEdward Cree netif_info(efx, link, efx->net_dev, "link down\n");
9235a6681e2SEdward Cree }
9245a6681e2SEdward Cree
ef4_link_set_advertising(struct ef4_nic * efx,u32 advertising)9255a6681e2SEdward Cree void ef4_link_set_advertising(struct ef4_nic *efx, u32 advertising)
9265a6681e2SEdward Cree {
9275a6681e2SEdward Cree efx->link_advertising = advertising;
9285a6681e2SEdward Cree if (advertising) {
9295a6681e2SEdward Cree if (advertising & ADVERTISED_Pause)
9305a6681e2SEdward Cree efx->wanted_fc |= (EF4_FC_TX | EF4_FC_RX);
9315a6681e2SEdward Cree else
9325a6681e2SEdward Cree efx->wanted_fc &= ~(EF4_FC_TX | EF4_FC_RX);
9335a6681e2SEdward Cree if (advertising & ADVERTISED_Asym_Pause)
9345a6681e2SEdward Cree efx->wanted_fc ^= EF4_FC_TX;
9355a6681e2SEdward Cree }
9365a6681e2SEdward Cree }
9375a6681e2SEdward Cree
ef4_link_set_wanted_fc(struct ef4_nic * efx,u8 wanted_fc)9385a6681e2SEdward Cree void ef4_link_set_wanted_fc(struct ef4_nic *efx, u8 wanted_fc)
9395a6681e2SEdward Cree {
9405a6681e2SEdward Cree efx->wanted_fc = wanted_fc;
9415a6681e2SEdward Cree if (efx->link_advertising) {
9425a6681e2SEdward Cree if (wanted_fc & EF4_FC_RX)
9435a6681e2SEdward Cree efx->link_advertising |= (ADVERTISED_Pause |
9445a6681e2SEdward Cree ADVERTISED_Asym_Pause);
9455a6681e2SEdward Cree else
9465a6681e2SEdward Cree efx->link_advertising &= ~(ADVERTISED_Pause |
9475a6681e2SEdward Cree ADVERTISED_Asym_Pause);
9485a6681e2SEdward Cree if (wanted_fc & EF4_FC_TX)
9495a6681e2SEdward Cree efx->link_advertising ^= ADVERTISED_Asym_Pause;
9505a6681e2SEdward Cree }
9515a6681e2SEdward Cree }
9525a6681e2SEdward Cree
9535a6681e2SEdward Cree static void ef4_fini_port(struct ef4_nic *efx);
9545a6681e2SEdward Cree
9555a6681e2SEdward Cree /* We assume that efx->type->reconfigure_mac will always try to sync RX
9565a6681e2SEdward Cree * filters and therefore needs to read-lock the filter table against freeing
9575a6681e2SEdward Cree */
ef4_mac_reconfigure(struct ef4_nic * efx)9585a6681e2SEdward Cree void ef4_mac_reconfigure(struct ef4_nic *efx)
9595a6681e2SEdward Cree {
9605a6681e2SEdward Cree down_read(&efx->filter_sem);
9615a6681e2SEdward Cree efx->type->reconfigure_mac(efx);
9625a6681e2SEdward Cree up_read(&efx->filter_sem);
9635a6681e2SEdward Cree }
9645a6681e2SEdward Cree
9655a6681e2SEdward Cree /* Push loopback/power/transmit disable settings to the PHY, and reconfigure
9665a6681e2SEdward Cree * the MAC appropriately. All other PHY configuration changes are pushed
967e938ed15SPhilippe Reynes * through phy_op->set_link_ksettings(), and pushed asynchronously to the MAC
9685a6681e2SEdward Cree * through ef4_monitor().
9695a6681e2SEdward Cree *
9705a6681e2SEdward Cree * Callers must hold the mac_lock
9715a6681e2SEdward Cree */
__ef4_reconfigure_port(struct ef4_nic * efx)9725a6681e2SEdward Cree int __ef4_reconfigure_port(struct ef4_nic *efx)
9735a6681e2SEdward Cree {
9745a6681e2SEdward Cree enum ef4_phy_mode phy_mode;
9755a6681e2SEdward Cree int rc;
9765a6681e2SEdward Cree
9775a6681e2SEdward Cree WARN_ON(!mutex_is_locked(&efx->mac_lock));
9785a6681e2SEdward Cree
9795a6681e2SEdward Cree /* Disable PHY transmit in mac level loopbacks */
9805a6681e2SEdward Cree phy_mode = efx->phy_mode;
9815a6681e2SEdward Cree if (LOOPBACK_INTERNAL(efx))
9825a6681e2SEdward Cree efx->phy_mode |= PHY_MODE_TX_DISABLED;
9835a6681e2SEdward Cree else
9845a6681e2SEdward Cree efx->phy_mode &= ~PHY_MODE_TX_DISABLED;
9855a6681e2SEdward Cree
9865a6681e2SEdward Cree rc = efx->type->reconfigure_port(efx);
9875a6681e2SEdward Cree
9885a6681e2SEdward Cree if (rc)
9895a6681e2SEdward Cree efx->phy_mode = phy_mode;
9905a6681e2SEdward Cree
9915a6681e2SEdward Cree return rc;
9925a6681e2SEdward Cree }
9935a6681e2SEdward Cree
9945a6681e2SEdward Cree /* Reinitialise the MAC to pick up new PHY settings, even if the port is
9955a6681e2SEdward Cree * disabled. */
ef4_reconfigure_port(struct ef4_nic * efx)9965a6681e2SEdward Cree int ef4_reconfigure_port(struct ef4_nic *efx)
9975a6681e2SEdward Cree {
9985a6681e2SEdward Cree int rc;
9995a6681e2SEdward Cree
10005a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
10015a6681e2SEdward Cree
10025a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
10035a6681e2SEdward Cree rc = __ef4_reconfigure_port(efx);
10045a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
10055a6681e2SEdward Cree
10065a6681e2SEdward Cree return rc;
10075a6681e2SEdward Cree }
10085a6681e2SEdward Cree
10095a6681e2SEdward Cree /* Asynchronous work item for changing MAC promiscuity and multicast
10105a6681e2SEdward Cree * hash. Avoid a drain/rx_ingress enable by reconfiguring the current
10115a6681e2SEdward Cree * MAC directly. */
ef4_mac_work(struct work_struct * data)10125a6681e2SEdward Cree static void ef4_mac_work(struct work_struct *data)
10135a6681e2SEdward Cree {
10145a6681e2SEdward Cree struct ef4_nic *efx = container_of(data, struct ef4_nic, mac_work);
10155a6681e2SEdward Cree
10165a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
10175a6681e2SEdward Cree if (efx->port_enabled)
10185a6681e2SEdward Cree ef4_mac_reconfigure(efx);
10195a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
10205a6681e2SEdward Cree }
10215a6681e2SEdward Cree
ef4_probe_port(struct ef4_nic * efx)10225a6681e2SEdward Cree static int ef4_probe_port(struct ef4_nic *efx)
10235a6681e2SEdward Cree {
10245a6681e2SEdward Cree int rc;
10255a6681e2SEdward Cree
10265a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev, "create port\n");
10275a6681e2SEdward Cree
10285a6681e2SEdward Cree if (phy_flash_cfg)
10295a6681e2SEdward Cree efx->phy_mode = PHY_MODE_SPECIAL;
10305a6681e2SEdward Cree
10315a6681e2SEdward Cree /* Connect up MAC/PHY operations table */
10325a6681e2SEdward Cree rc = efx->type->probe_port(efx);
10335a6681e2SEdward Cree if (rc)
10345a6681e2SEdward Cree return rc;
10355a6681e2SEdward Cree
10365a6681e2SEdward Cree /* Initialise MAC address to permanent address */
1037f3956ebbSJakub Kicinski eth_hw_addr_set(efx->net_dev, efx->net_dev->perm_addr);
10385a6681e2SEdward Cree
10395a6681e2SEdward Cree return 0;
10405a6681e2SEdward Cree }
10415a6681e2SEdward Cree
ef4_init_port(struct ef4_nic * efx)10425a6681e2SEdward Cree static int ef4_init_port(struct ef4_nic *efx)
10435a6681e2SEdward Cree {
10445a6681e2SEdward Cree int rc;
10455a6681e2SEdward Cree
10465a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "init port\n");
10475a6681e2SEdward Cree
10485a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
10495a6681e2SEdward Cree
10505a6681e2SEdward Cree rc = efx->phy_op->init(efx);
10515a6681e2SEdward Cree if (rc)
10525a6681e2SEdward Cree goto fail1;
10535a6681e2SEdward Cree
10545a6681e2SEdward Cree efx->port_initialized = true;
10555a6681e2SEdward Cree
10565a6681e2SEdward Cree /* Reconfigure the MAC before creating dma queues (required for
10575a6681e2SEdward Cree * Falcon/A1 where RX_INGR_EN/TX_DRAIN_EN isn't supported) */
10585a6681e2SEdward Cree ef4_mac_reconfigure(efx);
10595a6681e2SEdward Cree
10605a6681e2SEdward Cree /* Ensure the PHY advertises the correct flow control settings */
10615a6681e2SEdward Cree rc = efx->phy_op->reconfigure(efx);
10625a6681e2SEdward Cree if (rc && rc != -EPERM)
10635a6681e2SEdward Cree goto fail2;
10645a6681e2SEdward Cree
10655a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
10665a6681e2SEdward Cree return 0;
10675a6681e2SEdward Cree
10685a6681e2SEdward Cree fail2:
10695a6681e2SEdward Cree efx->phy_op->fini(efx);
10705a6681e2SEdward Cree fail1:
10715a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
10725a6681e2SEdward Cree return rc;
10735a6681e2SEdward Cree }
10745a6681e2SEdward Cree
ef4_start_port(struct ef4_nic * efx)10755a6681e2SEdward Cree static void ef4_start_port(struct ef4_nic *efx)
10765a6681e2SEdward Cree {
10775a6681e2SEdward Cree netif_dbg(efx, ifup, efx->net_dev, "start port\n");
10785a6681e2SEdward Cree BUG_ON(efx->port_enabled);
10795a6681e2SEdward Cree
10805a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
10815a6681e2SEdward Cree efx->port_enabled = true;
10825a6681e2SEdward Cree
10835a6681e2SEdward Cree /* Ensure MAC ingress/egress is enabled */
10845a6681e2SEdward Cree ef4_mac_reconfigure(efx);
10855a6681e2SEdward Cree
10865a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
10875a6681e2SEdward Cree }
10885a6681e2SEdward Cree
10895a6681e2SEdward Cree /* Cancel work for MAC reconfiguration, periodic hardware monitoring
10905a6681e2SEdward Cree * and the async self-test, wait for them to finish and prevent them
10915a6681e2SEdward Cree * being scheduled again. This doesn't cover online resets, which
10925a6681e2SEdward Cree * should only be cancelled when removing the device.
10935a6681e2SEdward Cree */
ef4_stop_port(struct ef4_nic * efx)10945a6681e2SEdward Cree static void ef4_stop_port(struct ef4_nic *efx)
10955a6681e2SEdward Cree {
10965a6681e2SEdward Cree netif_dbg(efx, ifdown, efx->net_dev, "stop port\n");
10975a6681e2SEdward Cree
10985a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
10995a6681e2SEdward Cree
11005a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
11015a6681e2SEdward Cree efx->port_enabled = false;
11025a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
11035a6681e2SEdward Cree
11045a6681e2SEdward Cree /* Serialise against ef4_set_multicast_list() */
11055a6681e2SEdward Cree netif_addr_lock_bh(efx->net_dev);
11065a6681e2SEdward Cree netif_addr_unlock_bh(efx->net_dev);
11075a6681e2SEdward Cree
11085a6681e2SEdward Cree cancel_delayed_work_sync(&efx->monitor_work);
11095a6681e2SEdward Cree ef4_selftest_async_cancel(efx);
11105a6681e2SEdward Cree cancel_work_sync(&efx->mac_work);
11115a6681e2SEdward Cree }
11125a6681e2SEdward Cree
ef4_fini_port(struct ef4_nic * efx)11135a6681e2SEdward Cree static void ef4_fini_port(struct ef4_nic *efx)
11145a6681e2SEdward Cree {
11155a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "shut down port\n");
11165a6681e2SEdward Cree
11175a6681e2SEdward Cree if (!efx->port_initialized)
11185a6681e2SEdward Cree return;
11195a6681e2SEdward Cree
11205a6681e2SEdward Cree efx->phy_op->fini(efx);
11215a6681e2SEdward Cree efx->port_initialized = false;
11225a6681e2SEdward Cree
11235a6681e2SEdward Cree efx->link_state.up = false;
11245a6681e2SEdward Cree ef4_link_status_changed(efx);
11255a6681e2SEdward Cree }
11265a6681e2SEdward Cree
ef4_remove_port(struct ef4_nic * efx)11275a6681e2SEdward Cree static void ef4_remove_port(struct ef4_nic *efx)
11285a6681e2SEdward Cree {
11295a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "destroying port\n");
11305a6681e2SEdward Cree
11315a6681e2SEdward Cree efx->type->remove_port(efx);
11325a6681e2SEdward Cree }
11335a6681e2SEdward Cree
11345a6681e2SEdward Cree /**************************************************************************
11355a6681e2SEdward Cree *
11365a6681e2SEdward Cree * NIC handling
11375a6681e2SEdward Cree *
11385a6681e2SEdward Cree **************************************************************************/
11395a6681e2SEdward Cree
11405a6681e2SEdward Cree static LIST_HEAD(ef4_primary_list);
11415a6681e2SEdward Cree static LIST_HEAD(ef4_unassociated_list);
11425a6681e2SEdward Cree
ef4_same_controller(struct ef4_nic * left,struct ef4_nic * right)11435a6681e2SEdward Cree static bool ef4_same_controller(struct ef4_nic *left, struct ef4_nic *right)
11445a6681e2SEdward Cree {
11455a6681e2SEdward Cree return left->type == right->type &&
11465a6681e2SEdward Cree left->vpd_sn && right->vpd_sn &&
11475a6681e2SEdward Cree !strcmp(left->vpd_sn, right->vpd_sn);
11485a6681e2SEdward Cree }
11495a6681e2SEdward Cree
ef4_associate(struct ef4_nic * efx)11505a6681e2SEdward Cree static void ef4_associate(struct ef4_nic *efx)
11515a6681e2SEdward Cree {
11525a6681e2SEdward Cree struct ef4_nic *other, *next;
11535a6681e2SEdward Cree
11545a6681e2SEdward Cree if (efx->primary == efx) {
11555a6681e2SEdward Cree /* Adding primary function; look for secondaries */
11565a6681e2SEdward Cree
11575a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev, "adding to primary list\n");
11585a6681e2SEdward Cree list_add_tail(&efx->node, &ef4_primary_list);
11595a6681e2SEdward Cree
11605a6681e2SEdward Cree list_for_each_entry_safe(other, next, &ef4_unassociated_list,
11615a6681e2SEdward Cree node) {
11625a6681e2SEdward Cree if (ef4_same_controller(efx, other)) {
11635a6681e2SEdward Cree list_del(&other->node);
11645a6681e2SEdward Cree netif_dbg(other, probe, other->net_dev,
11655a6681e2SEdward Cree "moving to secondary list of %s %s\n",
11665a6681e2SEdward Cree pci_name(efx->pci_dev),
11675a6681e2SEdward Cree efx->net_dev->name);
11685a6681e2SEdward Cree list_add_tail(&other->node,
11695a6681e2SEdward Cree &efx->secondary_list);
11705a6681e2SEdward Cree other->primary = efx;
11715a6681e2SEdward Cree }
11725a6681e2SEdward Cree }
11735a6681e2SEdward Cree } else {
11745a6681e2SEdward Cree /* Adding secondary function; look for primary */
11755a6681e2SEdward Cree
11765a6681e2SEdward Cree list_for_each_entry(other, &ef4_primary_list, node) {
11775a6681e2SEdward Cree if (ef4_same_controller(efx, other)) {
11785a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev,
11795a6681e2SEdward Cree "adding to secondary list of %s %s\n",
11805a6681e2SEdward Cree pci_name(other->pci_dev),
11815a6681e2SEdward Cree other->net_dev->name);
11825a6681e2SEdward Cree list_add_tail(&efx->node,
11835a6681e2SEdward Cree &other->secondary_list);
11845a6681e2SEdward Cree efx->primary = other;
11855a6681e2SEdward Cree return;
11865a6681e2SEdward Cree }
11875a6681e2SEdward Cree }
11885a6681e2SEdward Cree
11895a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev,
11905a6681e2SEdward Cree "adding to unassociated list\n");
11915a6681e2SEdward Cree list_add_tail(&efx->node, &ef4_unassociated_list);
11925a6681e2SEdward Cree }
11935a6681e2SEdward Cree }
11945a6681e2SEdward Cree
ef4_dissociate(struct ef4_nic * efx)11955a6681e2SEdward Cree static void ef4_dissociate(struct ef4_nic *efx)
11965a6681e2SEdward Cree {
11975a6681e2SEdward Cree struct ef4_nic *other, *next;
11985a6681e2SEdward Cree
11995a6681e2SEdward Cree list_del(&efx->node);
12005a6681e2SEdward Cree efx->primary = NULL;
12015a6681e2SEdward Cree
12025a6681e2SEdward Cree list_for_each_entry_safe(other, next, &efx->secondary_list, node) {
12035a6681e2SEdward Cree list_del(&other->node);
12045a6681e2SEdward Cree netif_dbg(other, probe, other->net_dev,
12055a6681e2SEdward Cree "moving to unassociated list\n");
12065a6681e2SEdward Cree list_add_tail(&other->node, &ef4_unassociated_list);
12075a6681e2SEdward Cree other->primary = NULL;
12085a6681e2SEdward Cree }
12095a6681e2SEdward Cree }
12105a6681e2SEdward Cree
12115a6681e2SEdward Cree /* This configures the PCI device to enable I/O and DMA. */
ef4_init_io(struct ef4_nic * efx)12125a6681e2SEdward Cree static int ef4_init_io(struct ef4_nic *efx)
12135a6681e2SEdward Cree {
12145a6681e2SEdward Cree struct pci_dev *pci_dev = efx->pci_dev;
12155a6681e2SEdward Cree dma_addr_t dma_mask = efx->type->max_dma_mask;
12165a6681e2SEdward Cree unsigned int mem_map_size = efx->type->mem_map_size(efx);
12175a6681e2SEdward Cree int rc, bar;
12185a6681e2SEdward Cree
12195a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev, "initialising I/O\n");
12205a6681e2SEdward Cree
12215a6681e2SEdward Cree bar = efx->type->mem_bar;
12225a6681e2SEdward Cree
12235a6681e2SEdward Cree rc = pci_enable_device(pci_dev);
12245a6681e2SEdward Cree if (rc) {
12255a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
12265a6681e2SEdward Cree "failed to enable PCI device\n");
12275a6681e2SEdward Cree goto fail1;
12285a6681e2SEdward Cree }
12295a6681e2SEdward Cree
12305a6681e2SEdward Cree pci_set_master(pci_dev);
12315a6681e2SEdward Cree
123206e9552fSChristoph Hellwig /* Set the PCI DMA mask. Try all possibilities from our genuine mask
123306e9552fSChristoph Hellwig * down to 32 bits, because some architectures will allow 40 bit
12345a6681e2SEdward Cree * masks event though they reject 46 bit masks.
12355a6681e2SEdward Cree */
12365a6681e2SEdward Cree while (dma_mask > 0x7fffffffUL) {
12375a6681e2SEdward Cree rc = dma_set_mask_and_coherent(&pci_dev->dev, dma_mask);
12385a6681e2SEdward Cree if (rc == 0)
12395a6681e2SEdward Cree break;
12405a6681e2SEdward Cree dma_mask >>= 1;
12415a6681e2SEdward Cree }
12425a6681e2SEdward Cree if (rc) {
12435a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
12445a6681e2SEdward Cree "could not find a suitable DMA mask\n");
12455a6681e2SEdward Cree goto fail2;
12465a6681e2SEdward Cree }
12475a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev,
12485a6681e2SEdward Cree "using DMA mask %llx\n", (unsigned long long) dma_mask);
12495a6681e2SEdward Cree
12505a6681e2SEdward Cree efx->membase_phys = pci_resource_start(efx->pci_dev, bar);
12515a6681e2SEdward Cree rc = pci_request_region(pci_dev, bar, "sfc");
12525a6681e2SEdward Cree if (rc) {
12535a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
12545a6681e2SEdward Cree "request for memory BAR failed\n");
12555a6681e2SEdward Cree rc = -EIO;
12565a6681e2SEdward Cree goto fail3;
12575a6681e2SEdward Cree }
12584bdc0d67SChristoph Hellwig efx->membase = ioremap(efx->membase_phys, mem_map_size);
12595a6681e2SEdward Cree if (!efx->membase) {
12605a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
12615a6681e2SEdward Cree "could not map memory BAR at %llx+%x\n",
12625a6681e2SEdward Cree (unsigned long long)efx->membase_phys, mem_map_size);
12635a6681e2SEdward Cree rc = -ENOMEM;
12645a6681e2SEdward Cree goto fail4;
12655a6681e2SEdward Cree }
12665a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev,
12675a6681e2SEdward Cree "memory BAR at %llx+%x (virtual %p)\n",
12685a6681e2SEdward Cree (unsigned long long)efx->membase_phys, mem_map_size,
12695a6681e2SEdward Cree efx->membase);
12705a6681e2SEdward Cree
12715a6681e2SEdward Cree return 0;
12725a6681e2SEdward Cree
12735a6681e2SEdward Cree fail4:
12745a6681e2SEdward Cree pci_release_region(efx->pci_dev, bar);
12755a6681e2SEdward Cree fail3:
12765a6681e2SEdward Cree efx->membase_phys = 0;
12775a6681e2SEdward Cree fail2:
12785a6681e2SEdward Cree pci_disable_device(efx->pci_dev);
12795a6681e2SEdward Cree fail1:
12805a6681e2SEdward Cree return rc;
12815a6681e2SEdward Cree }
12825a6681e2SEdward Cree
ef4_fini_io(struct ef4_nic * efx)12835a6681e2SEdward Cree static void ef4_fini_io(struct ef4_nic *efx)
12845a6681e2SEdward Cree {
12855a6681e2SEdward Cree int bar;
12865a6681e2SEdward Cree
12875a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "shutting down I/O\n");
12885a6681e2SEdward Cree
12895a6681e2SEdward Cree if (efx->membase) {
12905a6681e2SEdward Cree iounmap(efx->membase);
12915a6681e2SEdward Cree efx->membase = NULL;
12925a6681e2SEdward Cree }
12935a6681e2SEdward Cree
12945a6681e2SEdward Cree if (efx->membase_phys) {
12955a6681e2SEdward Cree bar = efx->type->mem_bar;
12965a6681e2SEdward Cree pci_release_region(efx->pci_dev, bar);
12975a6681e2SEdward Cree efx->membase_phys = 0;
12985a6681e2SEdward Cree }
12995a6681e2SEdward Cree
13005a6681e2SEdward Cree /* Don't disable bus-mastering if VFs are assigned */
13015a6681e2SEdward Cree if (!pci_vfs_assigned(efx->pci_dev))
13025a6681e2SEdward Cree pci_disable_device(efx->pci_dev);
13035a6681e2SEdward Cree }
13045a6681e2SEdward Cree
ef4_set_default_rx_indir_table(struct ef4_nic * efx)13055a6681e2SEdward Cree void ef4_set_default_rx_indir_table(struct ef4_nic *efx)
13065a6681e2SEdward Cree {
13075a6681e2SEdward Cree size_t i;
13085a6681e2SEdward Cree
13095a6681e2SEdward Cree for (i = 0; i < ARRAY_SIZE(efx->rx_indir_table); i++)
13105a6681e2SEdward Cree efx->rx_indir_table[i] =
13115a6681e2SEdward Cree ethtool_rxfh_indir_default(i, efx->rss_spread);
13125a6681e2SEdward Cree }
13135a6681e2SEdward Cree
ef4_wanted_parallelism(struct ef4_nic * efx)13145a6681e2SEdward Cree static unsigned int ef4_wanted_parallelism(struct ef4_nic *efx)
13155a6681e2SEdward Cree {
13165a6681e2SEdward Cree cpumask_var_t thread_mask;
13175a6681e2SEdward Cree unsigned int count;
13185a6681e2SEdward Cree int cpu;
13195a6681e2SEdward Cree
13205a6681e2SEdward Cree if (rss_cpus) {
13215a6681e2SEdward Cree count = rss_cpus;
13225a6681e2SEdward Cree } else {
13235a6681e2SEdward Cree if (unlikely(!zalloc_cpumask_var(&thread_mask, GFP_KERNEL))) {
13245a6681e2SEdward Cree netif_warn(efx, probe, efx->net_dev,
13255a6681e2SEdward Cree "RSS disabled due to allocation failure\n");
13265a6681e2SEdward Cree return 1;
13275a6681e2SEdward Cree }
13285a6681e2SEdward Cree
13295a6681e2SEdward Cree count = 0;
13305a6681e2SEdward Cree for_each_online_cpu(cpu) {
13315a6681e2SEdward Cree if (!cpumask_test_cpu(cpu, thread_mask)) {
13325a6681e2SEdward Cree ++count;
13335a6681e2SEdward Cree cpumask_or(thread_mask, thread_mask,
13345a6681e2SEdward Cree topology_sibling_cpumask(cpu));
13355a6681e2SEdward Cree }
13365a6681e2SEdward Cree }
13375a6681e2SEdward Cree
13385a6681e2SEdward Cree free_cpumask_var(thread_mask);
13395a6681e2SEdward Cree }
13405a6681e2SEdward Cree
1341271a8b42SBert Kenward if (count > EF4_MAX_RX_QUEUES) {
1342271a8b42SBert Kenward netif_cond_dbg(efx, probe, efx->net_dev, !rss_cpus, warn,
1343271a8b42SBert Kenward "Reducing number of rx queues from %u to %u.\n",
1344271a8b42SBert Kenward count, EF4_MAX_RX_QUEUES);
1345271a8b42SBert Kenward count = EF4_MAX_RX_QUEUES;
1346271a8b42SBert Kenward }
1347271a8b42SBert Kenward
13485a6681e2SEdward Cree return count;
13495a6681e2SEdward Cree }
13505a6681e2SEdward Cree
13515a6681e2SEdward Cree /* Probe the number and type of interrupts we are able to obtain, and
13525a6681e2SEdward Cree * the resulting numbers of channels and RX queues.
13535a6681e2SEdward Cree */
ef4_probe_interrupts(struct ef4_nic * efx)13545a6681e2SEdward Cree static int ef4_probe_interrupts(struct ef4_nic *efx)
13555a6681e2SEdward Cree {
13565a6681e2SEdward Cree unsigned int extra_channels = 0;
13575a6681e2SEdward Cree unsigned int i, j;
13585a6681e2SEdward Cree int rc;
13595a6681e2SEdward Cree
13605a6681e2SEdward Cree for (i = 0; i < EF4_MAX_EXTRA_CHANNELS; i++)
13615a6681e2SEdward Cree if (efx->extra_channel_type[i])
13625a6681e2SEdward Cree ++extra_channels;
13635a6681e2SEdward Cree
13645a6681e2SEdward Cree if (efx->interrupt_mode == EF4_INT_MODE_MSIX) {
13655a6681e2SEdward Cree struct msix_entry xentries[EF4_MAX_CHANNELS];
13665a6681e2SEdward Cree unsigned int n_channels;
13675a6681e2SEdward Cree
13685a6681e2SEdward Cree n_channels = ef4_wanted_parallelism(efx);
13695a6681e2SEdward Cree if (ef4_separate_tx_channels)
13705a6681e2SEdward Cree n_channels *= 2;
13715a6681e2SEdward Cree n_channels += extra_channels;
13725a6681e2SEdward Cree n_channels = min(n_channels, efx->max_channels);
13735a6681e2SEdward Cree
13745a6681e2SEdward Cree for (i = 0; i < n_channels; i++)
13755a6681e2SEdward Cree xentries[i].entry = i;
13765a6681e2SEdward Cree rc = pci_enable_msix_range(efx->pci_dev,
13775a6681e2SEdward Cree xentries, 1, n_channels);
13785a6681e2SEdward Cree if (rc < 0) {
13795a6681e2SEdward Cree /* Fall back to single channel MSI */
13805a6681e2SEdward Cree efx->interrupt_mode = EF4_INT_MODE_MSI;
13815a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
13825a6681e2SEdward Cree "could not enable MSI-X\n");
13835a6681e2SEdward Cree } else if (rc < n_channels) {
13845a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
13855a6681e2SEdward Cree "WARNING: Insufficient MSI-X vectors"
13865a6681e2SEdward Cree " available (%d < %u).\n", rc, n_channels);
13875a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
13885a6681e2SEdward Cree "WARNING: Performance may be reduced.\n");
13895a6681e2SEdward Cree n_channels = rc;
13905a6681e2SEdward Cree }
13915a6681e2SEdward Cree
13925a6681e2SEdward Cree if (rc > 0) {
13935a6681e2SEdward Cree efx->n_channels = n_channels;
13945a6681e2SEdward Cree if (n_channels > extra_channels)
13955a6681e2SEdward Cree n_channels -= extra_channels;
13965a6681e2SEdward Cree if (ef4_separate_tx_channels) {
13975a6681e2SEdward Cree efx->n_tx_channels = min(max(n_channels / 2,
13985a6681e2SEdward Cree 1U),
13995a6681e2SEdward Cree efx->max_tx_channels);
14005a6681e2SEdward Cree efx->n_rx_channels = max(n_channels -
14015a6681e2SEdward Cree efx->n_tx_channels,
14025a6681e2SEdward Cree 1U);
14035a6681e2SEdward Cree } else {
14045a6681e2SEdward Cree efx->n_tx_channels = min(n_channels,
14055a6681e2SEdward Cree efx->max_tx_channels);
14065a6681e2SEdward Cree efx->n_rx_channels = n_channels;
14075a6681e2SEdward Cree }
14085a6681e2SEdward Cree for (i = 0; i < efx->n_channels; i++)
14095a6681e2SEdward Cree ef4_get_channel(efx, i)->irq =
14105a6681e2SEdward Cree xentries[i].vector;
14115a6681e2SEdward Cree }
14125a6681e2SEdward Cree }
14135a6681e2SEdward Cree
14145a6681e2SEdward Cree /* Try single interrupt MSI */
14155a6681e2SEdward Cree if (efx->interrupt_mode == EF4_INT_MODE_MSI) {
14165a6681e2SEdward Cree efx->n_channels = 1;
14175a6681e2SEdward Cree efx->n_rx_channels = 1;
14185a6681e2SEdward Cree efx->n_tx_channels = 1;
14195a6681e2SEdward Cree rc = pci_enable_msi(efx->pci_dev);
14205a6681e2SEdward Cree if (rc == 0) {
14215a6681e2SEdward Cree ef4_get_channel(efx, 0)->irq = efx->pci_dev->irq;
14225a6681e2SEdward Cree } else {
14235a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
14245a6681e2SEdward Cree "could not enable MSI\n");
14255a6681e2SEdward Cree efx->interrupt_mode = EF4_INT_MODE_LEGACY;
14265a6681e2SEdward Cree }
14275a6681e2SEdward Cree }
14285a6681e2SEdward Cree
14295a6681e2SEdward Cree /* Assume legacy interrupts */
14305a6681e2SEdward Cree if (efx->interrupt_mode == EF4_INT_MODE_LEGACY) {
14315a6681e2SEdward Cree efx->n_channels = 1 + (ef4_separate_tx_channels ? 1 : 0);
14325a6681e2SEdward Cree efx->n_rx_channels = 1;
14335a6681e2SEdward Cree efx->n_tx_channels = 1;
14345a6681e2SEdward Cree efx->legacy_irq = efx->pci_dev->irq;
14355a6681e2SEdward Cree }
14365a6681e2SEdward Cree
14375a6681e2SEdward Cree /* Assign extra channels if possible */
14385a6681e2SEdward Cree j = efx->n_channels;
14395a6681e2SEdward Cree for (i = 0; i < EF4_MAX_EXTRA_CHANNELS; i++) {
14405a6681e2SEdward Cree if (!efx->extra_channel_type[i])
14415a6681e2SEdward Cree continue;
14425a6681e2SEdward Cree if (efx->interrupt_mode != EF4_INT_MODE_MSIX ||
14435a6681e2SEdward Cree efx->n_channels <= extra_channels) {
14445a6681e2SEdward Cree efx->extra_channel_type[i]->handle_no_channel(efx);
14455a6681e2SEdward Cree } else {
14465a6681e2SEdward Cree --j;
14475a6681e2SEdward Cree ef4_get_channel(efx, j)->type =
14485a6681e2SEdward Cree efx->extra_channel_type[i];
14495a6681e2SEdward Cree }
14505a6681e2SEdward Cree }
14515a6681e2SEdward Cree
14525a6681e2SEdward Cree efx->rss_spread = efx->n_rx_channels;
14535a6681e2SEdward Cree
14545a6681e2SEdward Cree return 0;
14555a6681e2SEdward Cree }
14565a6681e2SEdward Cree
ef4_soft_enable_interrupts(struct ef4_nic * efx)14575a6681e2SEdward Cree static int ef4_soft_enable_interrupts(struct ef4_nic *efx)
14585a6681e2SEdward Cree {
14595a6681e2SEdward Cree struct ef4_channel *channel, *end_channel;
14605a6681e2SEdward Cree int rc;
14615a6681e2SEdward Cree
14625a6681e2SEdward Cree BUG_ON(efx->state == STATE_DISABLED);
14635a6681e2SEdward Cree
14645a6681e2SEdward Cree efx->irq_soft_enabled = true;
14655a6681e2SEdward Cree smp_wmb();
14665a6681e2SEdward Cree
14675a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
14685a6681e2SEdward Cree if (!channel->type->keep_eventq) {
14695a6681e2SEdward Cree rc = ef4_init_eventq(channel);
14705a6681e2SEdward Cree if (rc)
14715a6681e2SEdward Cree goto fail;
14725a6681e2SEdward Cree }
14735a6681e2SEdward Cree ef4_start_eventq(channel);
14745a6681e2SEdward Cree }
14755a6681e2SEdward Cree
14765a6681e2SEdward Cree return 0;
14775a6681e2SEdward Cree fail:
14785a6681e2SEdward Cree end_channel = channel;
14795a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
14805a6681e2SEdward Cree if (channel == end_channel)
14815a6681e2SEdward Cree break;
14825a6681e2SEdward Cree ef4_stop_eventq(channel);
14835a6681e2SEdward Cree if (!channel->type->keep_eventq)
14845a6681e2SEdward Cree ef4_fini_eventq(channel);
14855a6681e2SEdward Cree }
14865a6681e2SEdward Cree
14875a6681e2SEdward Cree return rc;
14885a6681e2SEdward Cree }
14895a6681e2SEdward Cree
ef4_soft_disable_interrupts(struct ef4_nic * efx)14905a6681e2SEdward Cree static void ef4_soft_disable_interrupts(struct ef4_nic *efx)
14915a6681e2SEdward Cree {
14925a6681e2SEdward Cree struct ef4_channel *channel;
14935a6681e2SEdward Cree
14945a6681e2SEdward Cree if (efx->state == STATE_DISABLED)
14955a6681e2SEdward Cree return;
14965a6681e2SEdward Cree
14975a6681e2SEdward Cree efx->irq_soft_enabled = false;
14985a6681e2SEdward Cree smp_wmb();
14995a6681e2SEdward Cree
15005a6681e2SEdward Cree if (efx->legacy_irq)
15015a6681e2SEdward Cree synchronize_irq(efx->legacy_irq);
15025a6681e2SEdward Cree
15035a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
15045a6681e2SEdward Cree if (channel->irq)
15055a6681e2SEdward Cree synchronize_irq(channel->irq);
15065a6681e2SEdward Cree
15075a6681e2SEdward Cree ef4_stop_eventq(channel);
15085a6681e2SEdward Cree if (!channel->type->keep_eventq)
15095a6681e2SEdward Cree ef4_fini_eventq(channel);
15105a6681e2SEdward Cree }
15115a6681e2SEdward Cree }
15125a6681e2SEdward Cree
ef4_enable_interrupts(struct ef4_nic * efx)15135a6681e2SEdward Cree static int ef4_enable_interrupts(struct ef4_nic *efx)
15145a6681e2SEdward Cree {
15155a6681e2SEdward Cree struct ef4_channel *channel, *end_channel;
15165a6681e2SEdward Cree int rc;
15175a6681e2SEdward Cree
15185a6681e2SEdward Cree BUG_ON(efx->state == STATE_DISABLED);
15195a6681e2SEdward Cree
15205a6681e2SEdward Cree if (efx->eeh_disabled_legacy_irq) {
15215a6681e2SEdward Cree enable_irq(efx->legacy_irq);
15225a6681e2SEdward Cree efx->eeh_disabled_legacy_irq = false;
15235a6681e2SEdward Cree }
15245a6681e2SEdward Cree
15255a6681e2SEdward Cree efx->type->irq_enable_master(efx);
15265a6681e2SEdward Cree
15275a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
15285a6681e2SEdward Cree if (channel->type->keep_eventq) {
15295a6681e2SEdward Cree rc = ef4_init_eventq(channel);
15305a6681e2SEdward Cree if (rc)
15315a6681e2SEdward Cree goto fail;
15325a6681e2SEdward Cree }
15335a6681e2SEdward Cree }
15345a6681e2SEdward Cree
15355a6681e2SEdward Cree rc = ef4_soft_enable_interrupts(efx);
15365a6681e2SEdward Cree if (rc)
15375a6681e2SEdward Cree goto fail;
15385a6681e2SEdward Cree
15395a6681e2SEdward Cree return 0;
15405a6681e2SEdward Cree
15415a6681e2SEdward Cree fail:
15425a6681e2SEdward Cree end_channel = channel;
15435a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
15445a6681e2SEdward Cree if (channel == end_channel)
15455a6681e2SEdward Cree break;
15465a6681e2SEdward Cree if (channel->type->keep_eventq)
15475a6681e2SEdward Cree ef4_fini_eventq(channel);
15485a6681e2SEdward Cree }
15495a6681e2SEdward Cree
15505a6681e2SEdward Cree efx->type->irq_disable_non_ev(efx);
15515a6681e2SEdward Cree
15525a6681e2SEdward Cree return rc;
15535a6681e2SEdward Cree }
15545a6681e2SEdward Cree
ef4_disable_interrupts(struct ef4_nic * efx)15555a6681e2SEdward Cree static void ef4_disable_interrupts(struct ef4_nic *efx)
15565a6681e2SEdward Cree {
15575a6681e2SEdward Cree struct ef4_channel *channel;
15585a6681e2SEdward Cree
15595a6681e2SEdward Cree ef4_soft_disable_interrupts(efx);
15605a6681e2SEdward Cree
15615a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
15625a6681e2SEdward Cree if (channel->type->keep_eventq)
15635a6681e2SEdward Cree ef4_fini_eventq(channel);
15645a6681e2SEdward Cree }
15655a6681e2SEdward Cree
15665a6681e2SEdward Cree efx->type->irq_disable_non_ev(efx);
15675a6681e2SEdward Cree }
15685a6681e2SEdward Cree
ef4_remove_interrupts(struct ef4_nic * efx)15695a6681e2SEdward Cree static void ef4_remove_interrupts(struct ef4_nic *efx)
15705a6681e2SEdward Cree {
15715a6681e2SEdward Cree struct ef4_channel *channel;
15725a6681e2SEdward Cree
15735a6681e2SEdward Cree /* Remove MSI/MSI-X interrupts */
15745a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
15755a6681e2SEdward Cree channel->irq = 0;
15765a6681e2SEdward Cree pci_disable_msi(efx->pci_dev);
15775a6681e2SEdward Cree pci_disable_msix(efx->pci_dev);
15785a6681e2SEdward Cree
15795a6681e2SEdward Cree /* Remove legacy interrupt */
15805a6681e2SEdward Cree efx->legacy_irq = 0;
15815a6681e2SEdward Cree }
15825a6681e2SEdward Cree
ef4_set_channels(struct ef4_nic * efx)15835a6681e2SEdward Cree static void ef4_set_channels(struct ef4_nic *efx)
15845a6681e2SEdward Cree {
15855a6681e2SEdward Cree struct ef4_channel *channel;
15865a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
15875a6681e2SEdward Cree
15885a6681e2SEdward Cree efx->tx_channel_offset =
15895a6681e2SEdward Cree ef4_separate_tx_channels ?
15905a6681e2SEdward Cree efx->n_channels - efx->n_tx_channels : 0;
15915a6681e2SEdward Cree
15925a6681e2SEdward Cree /* We need to mark which channels really have RX and TX
15935a6681e2SEdward Cree * queues, and adjust the TX queue numbers if we have separate
15945a6681e2SEdward Cree * RX-only and TX-only channels.
15955a6681e2SEdward Cree */
15965a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
15975a6681e2SEdward Cree if (channel->channel < efx->n_rx_channels)
15985a6681e2SEdward Cree channel->rx_queue.core_index = channel->channel;
15995a6681e2SEdward Cree else
16005a6681e2SEdward Cree channel->rx_queue.core_index = -1;
16015a6681e2SEdward Cree
16025a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel)
16035a6681e2SEdward Cree tx_queue->queue -= (efx->tx_channel_offset *
16045a6681e2SEdward Cree EF4_TXQ_TYPES);
16055a6681e2SEdward Cree }
16065a6681e2SEdward Cree }
16075a6681e2SEdward Cree
ef4_probe_nic(struct ef4_nic * efx)16085a6681e2SEdward Cree static int ef4_probe_nic(struct ef4_nic *efx)
16095a6681e2SEdward Cree {
16105a6681e2SEdward Cree int rc;
16115a6681e2SEdward Cree
16125a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev, "creating NIC\n");
16135a6681e2SEdward Cree
16145a6681e2SEdward Cree /* Carry out hardware-type specific initialisation */
16155a6681e2SEdward Cree rc = efx->type->probe(efx);
16165a6681e2SEdward Cree if (rc)
16175a6681e2SEdward Cree return rc;
16185a6681e2SEdward Cree
16195a6681e2SEdward Cree do {
16205a6681e2SEdward Cree if (!efx->max_channels || !efx->max_tx_channels) {
16215a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
16225a6681e2SEdward Cree "Insufficient resources to allocate"
16235a6681e2SEdward Cree " any channels\n");
16245a6681e2SEdward Cree rc = -ENOSPC;
16255a6681e2SEdward Cree goto fail1;
16265a6681e2SEdward Cree }
16275a6681e2SEdward Cree
16285a6681e2SEdward Cree /* Determine the number of channels and queues by trying
16295a6681e2SEdward Cree * to hook in MSI-X interrupts.
16305a6681e2SEdward Cree */
16315a6681e2SEdward Cree rc = ef4_probe_interrupts(efx);
16325a6681e2SEdward Cree if (rc)
16335a6681e2SEdward Cree goto fail1;
16345a6681e2SEdward Cree
16355a6681e2SEdward Cree ef4_set_channels(efx);
16365a6681e2SEdward Cree
16375a6681e2SEdward Cree /* dimension_resources can fail with EAGAIN */
16385a6681e2SEdward Cree rc = efx->type->dimension_resources(efx);
16395a6681e2SEdward Cree if (rc != 0 && rc != -EAGAIN)
16405a6681e2SEdward Cree goto fail2;
16415a6681e2SEdward Cree
16425a6681e2SEdward Cree if (rc == -EAGAIN)
16435a6681e2SEdward Cree /* try again with new max_channels */
16445a6681e2SEdward Cree ef4_remove_interrupts(efx);
16455a6681e2SEdward Cree
16465a6681e2SEdward Cree } while (rc == -EAGAIN);
16475a6681e2SEdward Cree
16485a6681e2SEdward Cree if (efx->n_channels > 1)
16495a6681e2SEdward Cree netdev_rss_key_fill(&efx->rx_hash_key,
16505a6681e2SEdward Cree sizeof(efx->rx_hash_key));
16515a6681e2SEdward Cree ef4_set_default_rx_indir_table(efx);
16525a6681e2SEdward Cree
16535a6681e2SEdward Cree netif_set_real_num_tx_queues(efx->net_dev, efx->n_tx_channels);
16545a6681e2SEdward Cree netif_set_real_num_rx_queues(efx->net_dev, efx->n_rx_channels);
16555a6681e2SEdward Cree
16565a6681e2SEdward Cree /* Initialise the interrupt moderation settings */
16575a6681e2SEdward Cree efx->irq_mod_step_us = DIV_ROUND_UP(efx->timer_quantum_ns, 1000);
16585a6681e2SEdward Cree ef4_init_irq_moderation(efx, tx_irq_mod_usec, rx_irq_mod_usec, true,
16595a6681e2SEdward Cree true);
16605a6681e2SEdward Cree
16615a6681e2SEdward Cree return 0;
16625a6681e2SEdward Cree
16635a6681e2SEdward Cree fail2:
16645a6681e2SEdward Cree ef4_remove_interrupts(efx);
16655a6681e2SEdward Cree fail1:
16665a6681e2SEdward Cree efx->type->remove(efx);
16675a6681e2SEdward Cree return rc;
16685a6681e2SEdward Cree }
16695a6681e2SEdward Cree
ef4_remove_nic(struct ef4_nic * efx)16705a6681e2SEdward Cree static void ef4_remove_nic(struct ef4_nic *efx)
16715a6681e2SEdward Cree {
16725a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "destroying NIC\n");
16735a6681e2SEdward Cree
16745a6681e2SEdward Cree ef4_remove_interrupts(efx);
16755a6681e2SEdward Cree efx->type->remove(efx);
16765a6681e2SEdward Cree }
16775a6681e2SEdward Cree
ef4_probe_filters(struct ef4_nic * efx)16785a6681e2SEdward Cree static int ef4_probe_filters(struct ef4_nic *efx)
16795a6681e2SEdward Cree {
16805a6681e2SEdward Cree int rc;
16815a6681e2SEdward Cree
16825a6681e2SEdward Cree spin_lock_init(&efx->filter_lock);
16835a6681e2SEdward Cree init_rwsem(&efx->filter_sem);
16845a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
16855a6681e2SEdward Cree down_write(&efx->filter_sem);
16865a6681e2SEdward Cree rc = efx->type->filter_table_probe(efx);
16875a6681e2SEdward Cree if (rc)
16885a6681e2SEdward Cree goto out_unlock;
16895a6681e2SEdward Cree
16905a6681e2SEdward Cree #ifdef CONFIG_RFS_ACCEL
16915a6681e2SEdward Cree if (efx->type->offload_features & NETIF_F_NTUPLE) {
16925a6681e2SEdward Cree struct ef4_channel *channel;
16935a6681e2SEdward Cree int i, success = 1;
16945a6681e2SEdward Cree
16955a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
16965a6681e2SEdward Cree channel->rps_flow_id =
16975a6681e2SEdward Cree kcalloc(efx->type->max_rx_ip_filters,
16985a6681e2SEdward Cree sizeof(*channel->rps_flow_id),
16995a6681e2SEdward Cree GFP_KERNEL);
17005a6681e2SEdward Cree if (!channel->rps_flow_id)
17015a6681e2SEdward Cree success = 0;
17025a6681e2SEdward Cree else
17035a6681e2SEdward Cree for (i = 0;
17045a6681e2SEdward Cree i < efx->type->max_rx_ip_filters;
17055a6681e2SEdward Cree ++i)
17065a6681e2SEdward Cree channel->rps_flow_id[i] =
17075a6681e2SEdward Cree RPS_FLOW_ID_INVALID;
17085a6681e2SEdward Cree }
17095a6681e2SEdward Cree
17105a6681e2SEdward Cree if (!success) {
17115a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
17125a6681e2SEdward Cree kfree(channel->rps_flow_id);
17135a6681e2SEdward Cree efx->type->filter_table_remove(efx);
17145a6681e2SEdward Cree rc = -ENOMEM;
17155a6681e2SEdward Cree goto out_unlock;
17165a6681e2SEdward Cree }
17175a6681e2SEdward Cree
17185a6681e2SEdward Cree efx->rps_expire_index = efx->rps_expire_channel = 0;
17195a6681e2SEdward Cree }
17205a6681e2SEdward Cree #endif
17215a6681e2SEdward Cree out_unlock:
17225a6681e2SEdward Cree up_write(&efx->filter_sem);
17235a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
17245a6681e2SEdward Cree return rc;
17255a6681e2SEdward Cree }
17265a6681e2SEdward Cree
ef4_remove_filters(struct ef4_nic * efx)17275a6681e2SEdward Cree static void ef4_remove_filters(struct ef4_nic *efx)
17285a6681e2SEdward Cree {
17295a6681e2SEdward Cree #ifdef CONFIG_RFS_ACCEL
17305a6681e2SEdward Cree struct ef4_channel *channel;
17315a6681e2SEdward Cree
17325a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
17335a6681e2SEdward Cree kfree(channel->rps_flow_id);
17345a6681e2SEdward Cree #endif
17355a6681e2SEdward Cree down_write(&efx->filter_sem);
17365a6681e2SEdward Cree efx->type->filter_table_remove(efx);
17375a6681e2SEdward Cree up_write(&efx->filter_sem);
17385a6681e2SEdward Cree }
17395a6681e2SEdward Cree
ef4_restore_filters(struct ef4_nic * efx)17405a6681e2SEdward Cree static void ef4_restore_filters(struct ef4_nic *efx)
17415a6681e2SEdward Cree {
17425a6681e2SEdward Cree down_read(&efx->filter_sem);
17435a6681e2SEdward Cree efx->type->filter_table_restore(efx);
17445a6681e2SEdward Cree up_read(&efx->filter_sem);
17455a6681e2SEdward Cree }
17465a6681e2SEdward Cree
17475a6681e2SEdward Cree /**************************************************************************
17485a6681e2SEdward Cree *
17495a6681e2SEdward Cree * NIC startup/shutdown
17505a6681e2SEdward Cree *
17515a6681e2SEdward Cree *************************************************************************/
17525a6681e2SEdward Cree
ef4_probe_all(struct ef4_nic * efx)17535a6681e2SEdward Cree static int ef4_probe_all(struct ef4_nic *efx)
17545a6681e2SEdward Cree {
17555a6681e2SEdward Cree int rc;
17565a6681e2SEdward Cree
17575a6681e2SEdward Cree rc = ef4_probe_nic(efx);
17585a6681e2SEdward Cree if (rc) {
17595a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev, "failed to create NIC\n");
17605a6681e2SEdward Cree goto fail1;
17615a6681e2SEdward Cree }
17625a6681e2SEdward Cree
17635a6681e2SEdward Cree rc = ef4_probe_port(efx);
17645a6681e2SEdward Cree if (rc) {
17655a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev, "failed to create port\n");
17665a6681e2SEdward Cree goto fail2;
17675a6681e2SEdward Cree }
17685a6681e2SEdward Cree
17695a6681e2SEdward Cree BUILD_BUG_ON(EF4_DEFAULT_DMAQ_SIZE < EF4_RXQ_MIN_ENT);
17705a6681e2SEdward Cree if (WARN_ON(EF4_DEFAULT_DMAQ_SIZE < EF4_TXQ_MIN_ENT(efx))) {
17715a6681e2SEdward Cree rc = -EINVAL;
17725a6681e2SEdward Cree goto fail3;
17735a6681e2SEdward Cree }
17745a6681e2SEdward Cree efx->rxq_entries = efx->txq_entries = EF4_DEFAULT_DMAQ_SIZE;
17755a6681e2SEdward Cree
17765a6681e2SEdward Cree rc = ef4_probe_filters(efx);
17775a6681e2SEdward Cree if (rc) {
17785a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
17795a6681e2SEdward Cree "failed to create filter tables\n");
17805a6681e2SEdward Cree goto fail4;
17815a6681e2SEdward Cree }
17825a6681e2SEdward Cree
17835a6681e2SEdward Cree rc = ef4_probe_channels(efx);
17845a6681e2SEdward Cree if (rc)
17855a6681e2SEdward Cree goto fail5;
17865a6681e2SEdward Cree
17875a6681e2SEdward Cree return 0;
17885a6681e2SEdward Cree
17895a6681e2SEdward Cree fail5:
17905a6681e2SEdward Cree ef4_remove_filters(efx);
17915a6681e2SEdward Cree fail4:
17925a6681e2SEdward Cree fail3:
17935a6681e2SEdward Cree ef4_remove_port(efx);
17945a6681e2SEdward Cree fail2:
17955a6681e2SEdward Cree ef4_remove_nic(efx);
17965a6681e2SEdward Cree fail1:
17975a6681e2SEdward Cree return rc;
17985a6681e2SEdward Cree }
17995a6681e2SEdward Cree
18005a6681e2SEdward Cree /* If the interface is supposed to be running but is not, start
18015a6681e2SEdward Cree * the hardware and software data path, regular activity for the port
18025a6681e2SEdward Cree * (MAC statistics, link polling, etc.) and schedule the port to be
18035a6681e2SEdward Cree * reconfigured. Interrupts must already be enabled. This function
18045a6681e2SEdward Cree * is safe to call multiple times, so long as the NIC is not disabled.
18055a6681e2SEdward Cree * Requires the RTNL lock.
18065a6681e2SEdward Cree */
ef4_start_all(struct ef4_nic * efx)18075a6681e2SEdward Cree static void ef4_start_all(struct ef4_nic *efx)
18085a6681e2SEdward Cree {
18095a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
18105a6681e2SEdward Cree BUG_ON(efx->state == STATE_DISABLED);
18115a6681e2SEdward Cree
18125a6681e2SEdward Cree /* Check that it is appropriate to restart the interface. All
18135a6681e2SEdward Cree * of these flags are safe to read under just the rtnl lock */
18145a6681e2SEdward Cree if (efx->port_enabled || !netif_running(efx->net_dev) ||
18155a6681e2SEdward Cree efx->reset_pending)
18165a6681e2SEdward Cree return;
18175a6681e2SEdward Cree
18185a6681e2SEdward Cree ef4_start_port(efx);
18195a6681e2SEdward Cree ef4_start_datapath(efx);
18205a6681e2SEdward Cree
18215a6681e2SEdward Cree /* Start the hardware monitor if there is one */
18225a6681e2SEdward Cree if (efx->type->monitor != NULL)
18235a6681e2SEdward Cree queue_delayed_work(efx->workqueue, &efx->monitor_work,
18245a6681e2SEdward Cree ef4_monitor_interval);
18255a6681e2SEdward Cree
18265a6681e2SEdward Cree efx->type->start_stats(efx);
18275a6681e2SEdward Cree efx->type->pull_stats(efx);
18285a6681e2SEdward Cree spin_lock_bh(&efx->stats_lock);
18295a6681e2SEdward Cree efx->type->update_stats(efx, NULL, NULL);
18305a6681e2SEdward Cree spin_unlock_bh(&efx->stats_lock);
18315a6681e2SEdward Cree }
18325a6681e2SEdward Cree
18335a6681e2SEdward Cree /* Quiesce the hardware and software data path, and regular activity
18345a6681e2SEdward Cree * for the port without bringing the link down. Safe to call multiple
18355a6681e2SEdward Cree * times with the NIC in almost any state, but interrupts should be
18365a6681e2SEdward Cree * enabled. Requires the RTNL lock.
18375a6681e2SEdward Cree */
ef4_stop_all(struct ef4_nic * efx)18385a6681e2SEdward Cree static void ef4_stop_all(struct ef4_nic *efx)
18395a6681e2SEdward Cree {
18405a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
18415a6681e2SEdward Cree
18425a6681e2SEdward Cree /* port_enabled can be read safely under the rtnl lock */
18435a6681e2SEdward Cree if (!efx->port_enabled)
18445a6681e2SEdward Cree return;
18455a6681e2SEdward Cree
18465a6681e2SEdward Cree /* update stats before we go down so we can accurately count
18475a6681e2SEdward Cree * rx_nodesc_drops
18485a6681e2SEdward Cree */
18495a6681e2SEdward Cree efx->type->pull_stats(efx);
18505a6681e2SEdward Cree spin_lock_bh(&efx->stats_lock);
18515a6681e2SEdward Cree efx->type->update_stats(efx, NULL, NULL);
18525a6681e2SEdward Cree spin_unlock_bh(&efx->stats_lock);
18535a6681e2SEdward Cree efx->type->stop_stats(efx);
18545a6681e2SEdward Cree ef4_stop_port(efx);
18555a6681e2SEdward Cree
18565a6681e2SEdward Cree /* Stop the kernel transmit interface. This is only valid if
18575a6681e2SEdward Cree * the device is stopped or detached; otherwise the watchdog
18585a6681e2SEdward Cree * may fire immediately.
18595a6681e2SEdward Cree */
18605a6681e2SEdward Cree WARN_ON(netif_running(efx->net_dev) &&
18615a6681e2SEdward Cree netif_device_present(efx->net_dev));
18625a6681e2SEdward Cree netif_tx_disable(efx->net_dev);
18635a6681e2SEdward Cree
18645a6681e2SEdward Cree ef4_stop_datapath(efx);
18655a6681e2SEdward Cree }
18665a6681e2SEdward Cree
ef4_remove_all(struct ef4_nic * efx)18675a6681e2SEdward Cree static void ef4_remove_all(struct ef4_nic *efx)
18685a6681e2SEdward Cree {
18695a6681e2SEdward Cree ef4_remove_channels(efx);
18705a6681e2SEdward Cree ef4_remove_filters(efx);
18715a6681e2SEdward Cree ef4_remove_port(efx);
18725a6681e2SEdward Cree ef4_remove_nic(efx);
18735a6681e2SEdward Cree }
18745a6681e2SEdward Cree
18755a6681e2SEdward Cree /**************************************************************************
18765a6681e2SEdward Cree *
18775a6681e2SEdward Cree * Interrupt moderation
18785a6681e2SEdward Cree *
18795a6681e2SEdward Cree **************************************************************************/
ef4_usecs_to_ticks(struct ef4_nic * efx,unsigned int usecs)18805a6681e2SEdward Cree unsigned int ef4_usecs_to_ticks(struct ef4_nic *efx, unsigned int usecs)
18815a6681e2SEdward Cree {
18825a6681e2SEdward Cree if (usecs == 0)
18835a6681e2SEdward Cree return 0;
18845a6681e2SEdward Cree if (usecs * 1000 < efx->timer_quantum_ns)
18855a6681e2SEdward Cree return 1; /* never round down to 0 */
18865a6681e2SEdward Cree return usecs * 1000 / efx->timer_quantum_ns;
18875a6681e2SEdward Cree }
18885a6681e2SEdward Cree
ef4_ticks_to_usecs(struct ef4_nic * efx,unsigned int ticks)18895a6681e2SEdward Cree unsigned int ef4_ticks_to_usecs(struct ef4_nic *efx, unsigned int ticks)
18905a6681e2SEdward Cree {
18915a6681e2SEdward Cree /* We must round up when converting ticks to microseconds
18925a6681e2SEdward Cree * because we round down when converting the other way.
18935a6681e2SEdward Cree */
18945a6681e2SEdward Cree return DIV_ROUND_UP(ticks * efx->timer_quantum_ns, 1000);
18955a6681e2SEdward Cree }
18965a6681e2SEdward Cree
18975a6681e2SEdward Cree /* Set interrupt moderation parameters */
ef4_init_irq_moderation(struct ef4_nic * efx,unsigned int tx_usecs,unsigned int rx_usecs,bool rx_adaptive,bool rx_may_override_tx)18985a6681e2SEdward Cree int ef4_init_irq_moderation(struct ef4_nic *efx, unsigned int tx_usecs,
18995a6681e2SEdward Cree unsigned int rx_usecs, bool rx_adaptive,
19005a6681e2SEdward Cree bool rx_may_override_tx)
19015a6681e2SEdward Cree {
19025a6681e2SEdward Cree struct ef4_channel *channel;
19035a6681e2SEdward Cree unsigned int timer_max_us;
19045a6681e2SEdward Cree
19055a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
19065a6681e2SEdward Cree
19075a6681e2SEdward Cree timer_max_us = efx->timer_max_ns / 1000;
19085a6681e2SEdward Cree
19095a6681e2SEdward Cree if (tx_usecs > timer_max_us || rx_usecs > timer_max_us)
19105a6681e2SEdward Cree return -EINVAL;
19115a6681e2SEdward Cree
19125a6681e2SEdward Cree if (tx_usecs != rx_usecs && efx->tx_channel_offset == 0 &&
19135a6681e2SEdward Cree !rx_may_override_tx) {
19145a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev, "Channels are shared. "
19155a6681e2SEdward Cree "RX and TX IRQ moderation must be equal\n");
19165a6681e2SEdward Cree return -EINVAL;
19175a6681e2SEdward Cree }
19185a6681e2SEdward Cree
19195a6681e2SEdward Cree efx->irq_rx_adaptive = rx_adaptive;
19205a6681e2SEdward Cree efx->irq_rx_moderation_us = rx_usecs;
19215a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
19225a6681e2SEdward Cree if (ef4_channel_has_rx_queue(channel))
19235a6681e2SEdward Cree channel->irq_moderation_us = rx_usecs;
19245a6681e2SEdward Cree else if (ef4_channel_has_tx_queues(channel))
19255a6681e2SEdward Cree channel->irq_moderation_us = tx_usecs;
19265a6681e2SEdward Cree }
19275a6681e2SEdward Cree
19285a6681e2SEdward Cree return 0;
19295a6681e2SEdward Cree }
19305a6681e2SEdward Cree
ef4_get_irq_moderation(struct ef4_nic * efx,unsigned int * tx_usecs,unsigned int * rx_usecs,bool * rx_adaptive)19315a6681e2SEdward Cree void ef4_get_irq_moderation(struct ef4_nic *efx, unsigned int *tx_usecs,
19325a6681e2SEdward Cree unsigned int *rx_usecs, bool *rx_adaptive)
19335a6681e2SEdward Cree {
19345a6681e2SEdward Cree *rx_adaptive = efx->irq_rx_adaptive;
19355a6681e2SEdward Cree *rx_usecs = efx->irq_rx_moderation_us;
19365a6681e2SEdward Cree
19375a6681e2SEdward Cree /* If channels are shared between RX and TX, so is IRQ
19385a6681e2SEdward Cree * moderation. Otherwise, IRQ moderation is the same for all
19395a6681e2SEdward Cree * TX channels and is not adaptive.
19405a6681e2SEdward Cree */
19415a6681e2SEdward Cree if (efx->tx_channel_offset == 0) {
19425a6681e2SEdward Cree *tx_usecs = *rx_usecs;
19435a6681e2SEdward Cree } else {
19445a6681e2SEdward Cree struct ef4_channel *tx_channel;
19455a6681e2SEdward Cree
19465a6681e2SEdward Cree tx_channel = efx->channel[efx->tx_channel_offset];
19475a6681e2SEdward Cree *tx_usecs = tx_channel->irq_moderation_us;
19485a6681e2SEdward Cree }
19495a6681e2SEdward Cree }
19505a6681e2SEdward Cree
19515a6681e2SEdward Cree /**************************************************************************
19525a6681e2SEdward Cree *
19535a6681e2SEdward Cree * Hardware monitor
19545a6681e2SEdward Cree *
19555a6681e2SEdward Cree **************************************************************************/
19565a6681e2SEdward Cree
19575a6681e2SEdward Cree /* Run periodically off the general workqueue */
ef4_monitor(struct work_struct * data)19585a6681e2SEdward Cree static void ef4_monitor(struct work_struct *data)
19595a6681e2SEdward Cree {
19605a6681e2SEdward Cree struct ef4_nic *efx = container_of(data, struct ef4_nic,
19615a6681e2SEdward Cree monitor_work.work);
19625a6681e2SEdward Cree
19635a6681e2SEdward Cree netif_vdbg(efx, timer, efx->net_dev,
19645a6681e2SEdward Cree "hardware monitor executing on CPU %d\n",
19655a6681e2SEdward Cree raw_smp_processor_id());
19665a6681e2SEdward Cree BUG_ON(efx->type->monitor == NULL);
19675a6681e2SEdward Cree
19685a6681e2SEdward Cree /* If the mac_lock is already held then it is likely a port
19695a6681e2SEdward Cree * reconfiguration is already in place, which will likely do
19705a6681e2SEdward Cree * most of the work of monitor() anyway. */
19715a6681e2SEdward Cree if (mutex_trylock(&efx->mac_lock)) {
19725a6681e2SEdward Cree if (efx->port_enabled)
19735a6681e2SEdward Cree efx->type->monitor(efx);
19745a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
19755a6681e2SEdward Cree }
19765a6681e2SEdward Cree
19775a6681e2SEdward Cree queue_delayed_work(efx->workqueue, &efx->monitor_work,
19785a6681e2SEdward Cree ef4_monitor_interval);
19795a6681e2SEdward Cree }
19805a6681e2SEdward Cree
19815a6681e2SEdward Cree /**************************************************************************
19825a6681e2SEdward Cree *
19835a6681e2SEdward Cree * ioctls
19845a6681e2SEdward Cree *
19855a6681e2SEdward Cree *************************************************************************/
19865a6681e2SEdward Cree
19875a6681e2SEdward Cree /* Net device ioctl
19885a6681e2SEdward Cree * Context: process, rtnl_lock() held.
19895a6681e2SEdward Cree */
ef4_ioctl(struct net_device * net_dev,struct ifreq * ifr,int cmd)19905a6681e2SEdward Cree static int ef4_ioctl(struct net_device *net_dev, struct ifreq *ifr, int cmd)
19915a6681e2SEdward Cree {
19925a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
19935a6681e2SEdward Cree struct mii_ioctl_data *data = if_mii(ifr);
19945a6681e2SEdward Cree
19955a6681e2SEdward Cree /* Convert phy_id from older PRTAD/DEVAD format */
19965a6681e2SEdward Cree if ((cmd == SIOCGMIIREG || cmd == SIOCSMIIREG) &&
19975a6681e2SEdward Cree (data->phy_id & 0xfc00) == 0x0400)
19985a6681e2SEdward Cree data->phy_id ^= MDIO_PHY_ID_C45 | 0x0400;
19995a6681e2SEdward Cree
20005a6681e2SEdward Cree return mdio_mii_ioctl(&efx->mdio, data, cmd);
20015a6681e2SEdward Cree }
20025a6681e2SEdward Cree
20035a6681e2SEdward Cree /**************************************************************************
20045a6681e2SEdward Cree *
20055a6681e2SEdward Cree * NAPI interface
20065a6681e2SEdward Cree *
20075a6681e2SEdward Cree **************************************************************************/
20085a6681e2SEdward Cree
ef4_init_napi_channel(struct ef4_channel * channel)20095a6681e2SEdward Cree static void ef4_init_napi_channel(struct ef4_channel *channel)
20105a6681e2SEdward Cree {
20115a6681e2SEdward Cree struct ef4_nic *efx = channel->efx;
20125a6681e2SEdward Cree
20135a6681e2SEdward Cree channel->napi_dev = efx->net_dev;
2014*b48b89f9SJakub Kicinski netif_napi_add(channel->napi_dev, &channel->napi_str, ef4_poll);
20155a6681e2SEdward Cree }
20165a6681e2SEdward Cree
ef4_init_napi(struct ef4_nic * efx)20175a6681e2SEdward Cree static void ef4_init_napi(struct ef4_nic *efx)
20185a6681e2SEdward Cree {
20195a6681e2SEdward Cree struct ef4_channel *channel;
20205a6681e2SEdward Cree
20215a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
20225a6681e2SEdward Cree ef4_init_napi_channel(channel);
20235a6681e2SEdward Cree }
20245a6681e2SEdward Cree
ef4_fini_napi_channel(struct ef4_channel * channel)20255a6681e2SEdward Cree static void ef4_fini_napi_channel(struct ef4_channel *channel)
20265a6681e2SEdward Cree {
20275a6681e2SEdward Cree if (channel->napi_dev)
20285a6681e2SEdward Cree netif_napi_del(&channel->napi_str);
20295a6681e2SEdward Cree
20305a6681e2SEdward Cree channel->napi_dev = NULL;
20315a6681e2SEdward Cree }
20325a6681e2SEdward Cree
ef4_fini_napi(struct ef4_nic * efx)20335a6681e2SEdward Cree static void ef4_fini_napi(struct ef4_nic *efx)
20345a6681e2SEdward Cree {
20355a6681e2SEdward Cree struct ef4_channel *channel;
20365a6681e2SEdward Cree
20375a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
20385a6681e2SEdward Cree ef4_fini_napi_channel(channel);
20395a6681e2SEdward Cree }
20405a6681e2SEdward Cree
20415a6681e2SEdward Cree /**************************************************************************
20425a6681e2SEdward Cree *
20435a6681e2SEdward Cree * Kernel net device interface
20445a6681e2SEdward Cree *
20455a6681e2SEdward Cree *************************************************************************/
20465a6681e2SEdward Cree
20475a6681e2SEdward Cree /* Context: process, rtnl_lock() held. */
ef4_net_open(struct net_device * net_dev)20485a6681e2SEdward Cree int ef4_net_open(struct net_device *net_dev)
20495a6681e2SEdward Cree {
20505a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
20515a6681e2SEdward Cree int rc;
20525a6681e2SEdward Cree
20535a6681e2SEdward Cree netif_dbg(efx, ifup, efx->net_dev, "opening device on CPU %d\n",
20545a6681e2SEdward Cree raw_smp_processor_id());
20555a6681e2SEdward Cree
20565a6681e2SEdward Cree rc = ef4_check_disabled(efx);
20575a6681e2SEdward Cree if (rc)
20585a6681e2SEdward Cree return rc;
20595a6681e2SEdward Cree if (efx->phy_mode & PHY_MODE_SPECIAL)
20605a6681e2SEdward Cree return -EBUSY;
20615a6681e2SEdward Cree
20625a6681e2SEdward Cree /* Notify the kernel of the link state polled during driver load,
20635a6681e2SEdward Cree * before the monitor starts running */
20645a6681e2SEdward Cree ef4_link_status_changed(efx);
20655a6681e2SEdward Cree
20665a6681e2SEdward Cree ef4_start_all(efx);
20675a6681e2SEdward Cree ef4_selftest_async_start(efx);
20685a6681e2SEdward Cree return 0;
20695a6681e2SEdward Cree }
20705a6681e2SEdward Cree
20715a6681e2SEdward Cree /* Context: process, rtnl_lock() held.
20725a6681e2SEdward Cree * Note that the kernel will ignore our return code; this method
20735a6681e2SEdward Cree * should really be a void.
20745a6681e2SEdward Cree */
ef4_net_stop(struct net_device * net_dev)20755a6681e2SEdward Cree int ef4_net_stop(struct net_device *net_dev)
20765a6681e2SEdward Cree {
20775a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
20785a6681e2SEdward Cree
20795a6681e2SEdward Cree netif_dbg(efx, ifdown, efx->net_dev, "closing on CPU %d\n",
20805a6681e2SEdward Cree raw_smp_processor_id());
20815a6681e2SEdward Cree
20825a6681e2SEdward Cree /* Stop the device and flush all the channels */
20835a6681e2SEdward Cree ef4_stop_all(efx);
20845a6681e2SEdward Cree
20855a6681e2SEdward Cree return 0;
20865a6681e2SEdward Cree }
20875a6681e2SEdward Cree
20885a6681e2SEdward Cree /* Context: process, dev_base_lock or RTNL held, non-blocking. */
ef4_net_stats(struct net_device * net_dev,struct rtnl_link_stats64 * stats)2089bc1f4470Sstephen hemminger static void ef4_net_stats(struct net_device *net_dev,
20905a6681e2SEdward Cree struct rtnl_link_stats64 *stats)
20915a6681e2SEdward Cree {
20925a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
20935a6681e2SEdward Cree
20945a6681e2SEdward Cree spin_lock_bh(&efx->stats_lock);
20955a6681e2SEdward Cree efx->type->update_stats(efx, NULL, stats);
20965a6681e2SEdward Cree spin_unlock_bh(&efx->stats_lock);
20975a6681e2SEdward Cree }
20985a6681e2SEdward Cree
20995a6681e2SEdward Cree /* Context: netif_tx_lock held, BHs disabled. */
ef4_watchdog(struct net_device * net_dev,unsigned int txqueue)21000290bd29SMichael S. Tsirkin static void ef4_watchdog(struct net_device *net_dev, unsigned int txqueue)
21015a6681e2SEdward Cree {
21025a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
21035a6681e2SEdward Cree
21045a6681e2SEdward Cree netif_err(efx, tx_err, efx->net_dev,
21055a6681e2SEdward Cree "TX stuck with port_enabled=%d: resetting channels\n",
21065a6681e2SEdward Cree efx->port_enabled);
21075a6681e2SEdward Cree
21085a6681e2SEdward Cree ef4_schedule_reset(efx, RESET_TYPE_TX_WATCHDOG);
21095a6681e2SEdward Cree }
21105a6681e2SEdward Cree
21115a6681e2SEdward Cree
21125a6681e2SEdward Cree /* Context: process, rtnl_lock() held. */
ef4_change_mtu(struct net_device * net_dev,int new_mtu)21135a6681e2SEdward Cree static int ef4_change_mtu(struct net_device *net_dev, int new_mtu)
21145a6681e2SEdward Cree {
21155a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
21165a6681e2SEdward Cree int rc;
21175a6681e2SEdward Cree
21185a6681e2SEdward Cree rc = ef4_check_disabled(efx);
21195a6681e2SEdward Cree if (rc)
21205a6681e2SEdward Cree return rc;
21215a6681e2SEdward Cree
21225a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "changing MTU to %d\n", new_mtu);
21235a6681e2SEdward Cree
21245a6681e2SEdward Cree ef4_device_detach_sync(efx);
21255a6681e2SEdward Cree ef4_stop_all(efx);
21265a6681e2SEdward Cree
21275a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
21285a6681e2SEdward Cree net_dev->mtu = new_mtu;
21295a6681e2SEdward Cree ef4_mac_reconfigure(efx);
21305a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
21315a6681e2SEdward Cree
21325a6681e2SEdward Cree ef4_start_all(efx);
21335a6681e2SEdward Cree netif_device_attach(efx->net_dev);
21345a6681e2SEdward Cree return 0;
21355a6681e2SEdward Cree }
21365a6681e2SEdward Cree
ef4_set_mac_address(struct net_device * net_dev,void * data)21375a6681e2SEdward Cree static int ef4_set_mac_address(struct net_device *net_dev, void *data)
21385a6681e2SEdward Cree {
21395a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
21405a6681e2SEdward Cree struct sockaddr *addr = data;
21415a6681e2SEdward Cree u8 *new_addr = addr->sa_data;
21425a6681e2SEdward Cree u8 old_addr[6];
21435a6681e2SEdward Cree int rc;
21445a6681e2SEdward Cree
21455a6681e2SEdward Cree if (!is_valid_ether_addr(new_addr)) {
21465a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
21475a6681e2SEdward Cree "invalid ethernet MAC address requested: %pM\n",
21485a6681e2SEdward Cree new_addr);
21495a6681e2SEdward Cree return -EADDRNOTAVAIL;
21505a6681e2SEdward Cree }
21515a6681e2SEdward Cree
21525a6681e2SEdward Cree /* save old address */
21535a6681e2SEdward Cree ether_addr_copy(old_addr, net_dev->dev_addr);
2154f3956ebbSJakub Kicinski eth_hw_addr_set(net_dev, new_addr);
21555a6681e2SEdward Cree if (efx->type->set_mac_address) {
21565a6681e2SEdward Cree rc = efx->type->set_mac_address(efx);
21575a6681e2SEdward Cree if (rc) {
2158f3956ebbSJakub Kicinski eth_hw_addr_set(net_dev, old_addr);
21595a6681e2SEdward Cree return rc;
21605a6681e2SEdward Cree }
21615a6681e2SEdward Cree }
21625a6681e2SEdward Cree
21635a6681e2SEdward Cree /* Reconfigure the MAC */
21645a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
21655a6681e2SEdward Cree ef4_mac_reconfigure(efx);
21665a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
21675a6681e2SEdward Cree
21685a6681e2SEdward Cree return 0;
21695a6681e2SEdward Cree }
21705a6681e2SEdward Cree
21715a6681e2SEdward Cree /* Context: netif_addr_lock held, BHs disabled. */
ef4_set_rx_mode(struct net_device * net_dev)21725a6681e2SEdward Cree static void ef4_set_rx_mode(struct net_device *net_dev)
21735a6681e2SEdward Cree {
21745a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
21755a6681e2SEdward Cree
21765a6681e2SEdward Cree if (efx->port_enabled)
21775a6681e2SEdward Cree queue_work(efx->workqueue, &efx->mac_work);
21785a6681e2SEdward Cree /* Otherwise ef4_start_port() will do this */
21795a6681e2SEdward Cree }
21805a6681e2SEdward Cree
ef4_set_features(struct net_device * net_dev,netdev_features_t data)21815a6681e2SEdward Cree static int ef4_set_features(struct net_device *net_dev, netdev_features_t data)
21825a6681e2SEdward Cree {
21835a6681e2SEdward Cree struct ef4_nic *efx = netdev_priv(net_dev);
21845a6681e2SEdward Cree int rc;
21855a6681e2SEdward Cree
21865a6681e2SEdward Cree /* If disabling RX n-tuple filtering, clear existing filters */
21875a6681e2SEdward Cree if (net_dev->features & ~data & NETIF_F_NTUPLE) {
21885a6681e2SEdward Cree rc = efx->type->filter_clear_rx(efx, EF4_FILTER_PRI_MANUAL);
21895a6681e2SEdward Cree if (rc)
21905a6681e2SEdward Cree return rc;
21915a6681e2SEdward Cree }
21925a6681e2SEdward Cree
21935a6681e2SEdward Cree /* If Rx VLAN filter is changed, update filters via mac_reconfigure */
21945a6681e2SEdward Cree if ((net_dev->features ^ data) & NETIF_F_HW_VLAN_CTAG_FILTER) {
21955a6681e2SEdward Cree /* ef4_set_rx_mode() will schedule MAC work to update filters
21965a6681e2SEdward Cree * when a new features are finally set in net_dev.
21975a6681e2SEdward Cree */
21985a6681e2SEdward Cree ef4_set_rx_mode(net_dev);
21995a6681e2SEdward Cree }
22005a6681e2SEdward Cree
22015a6681e2SEdward Cree return 0;
22025a6681e2SEdward Cree }
22035a6681e2SEdward Cree
22045a6681e2SEdward Cree static const struct net_device_ops ef4_netdev_ops = {
22055a6681e2SEdward Cree .ndo_open = ef4_net_open,
22065a6681e2SEdward Cree .ndo_stop = ef4_net_stop,
22075a6681e2SEdward Cree .ndo_get_stats64 = ef4_net_stats,
22085a6681e2SEdward Cree .ndo_tx_timeout = ef4_watchdog,
22095a6681e2SEdward Cree .ndo_start_xmit = ef4_hard_start_xmit,
22105a6681e2SEdward Cree .ndo_validate_addr = eth_validate_addr,
2211a7605370SArnd Bergmann .ndo_eth_ioctl = ef4_ioctl,
22125a6681e2SEdward Cree .ndo_change_mtu = ef4_change_mtu,
22135a6681e2SEdward Cree .ndo_set_mac_address = ef4_set_mac_address,
22145a6681e2SEdward Cree .ndo_set_rx_mode = ef4_set_rx_mode,
22155a6681e2SEdward Cree .ndo_set_features = ef4_set_features,
22165a6681e2SEdward Cree .ndo_setup_tc = ef4_setup_tc,
22175a6681e2SEdward Cree #ifdef CONFIG_RFS_ACCEL
22185a6681e2SEdward Cree .ndo_rx_flow_steer = ef4_filter_rfs,
22195a6681e2SEdward Cree #endif
22205a6681e2SEdward Cree };
22215a6681e2SEdward Cree
ef4_update_name(struct ef4_nic * efx)22225a6681e2SEdward Cree static void ef4_update_name(struct ef4_nic *efx)
22235a6681e2SEdward Cree {
22245a6681e2SEdward Cree strcpy(efx->name, efx->net_dev->name);
22255a6681e2SEdward Cree ef4_mtd_rename(efx);
22265a6681e2SEdward Cree ef4_set_channel_names(efx);
22275a6681e2SEdward Cree }
22285a6681e2SEdward Cree
ef4_netdev_event(struct notifier_block * this,unsigned long event,void * ptr)22295a6681e2SEdward Cree static int ef4_netdev_event(struct notifier_block *this,
22305a6681e2SEdward Cree unsigned long event, void *ptr)
22315a6681e2SEdward Cree {
22325a6681e2SEdward Cree struct net_device *net_dev = netdev_notifier_info_to_dev(ptr);
22335a6681e2SEdward Cree
22345a6681e2SEdward Cree if ((net_dev->netdev_ops == &ef4_netdev_ops) &&
22355a6681e2SEdward Cree event == NETDEV_CHANGENAME)
22365a6681e2SEdward Cree ef4_update_name(netdev_priv(net_dev));
22375a6681e2SEdward Cree
22385a6681e2SEdward Cree return NOTIFY_DONE;
22395a6681e2SEdward Cree }
22405a6681e2SEdward Cree
22415a6681e2SEdward Cree static struct notifier_block ef4_netdev_notifier = {
22425a6681e2SEdward Cree .notifier_call = ef4_netdev_event,
22435a6681e2SEdward Cree };
22445a6681e2SEdward Cree
22455a6681e2SEdward Cree static ssize_t
phy_type_show(struct device * dev,struct device_attribute * attr,char * buf)22464934fb7dSYueHaibing phy_type_show(struct device *dev, struct device_attribute *attr, char *buf)
22475a6681e2SEdward Cree {
22488f75ec1aSChuhong Yuan struct ef4_nic *efx = dev_get_drvdata(dev);
22495a6681e2SEdward Cree return sprintf(buf, "%d\n", efx->phy_type);
22505a6681e2SEdward Cree }
22514934fb7dSYueHaibing static DEVICE_ATTR_RO(phy_type);
22525a6681e2SEdward Cree
ef4_register_netdev(struct ef4_nic * efx)22535a6681e2SEdward Cree static int ef4_register_netdev(struct ef4_nic *efx)
22545a6681e2SEdward Cree {
22555a6681e2SEdward Cree struct net_device *net_dev = efx->net_dev;
22565a6681e2SEdward Cree struct ef4_channel *channel;
22575a6681e2SEdward Cree int rc;
22585a6681e2SEdward Cree
22595a6681e2SEdward Cree net_dev->watchdog_timeo = 5 * HZ;
22605a6681e2SEdward Cree net_dev->irq = efx->pci_dev->irq;
22615a6681e2SEdward Cree net_dev->netdev_ops = &ef4_netdev_ops;
22625a6681e2SEdward Cree net_dev->ethtool_ops = &ef4_ethtool_ops;
2263ee8b7a11SJakub Kicinski netif_set_tso_max_segs(net_dev, EF4_TSO_MAX_SEGS);
22645a6681e2SEdward Cree net_dev->min_mtu = EF4_MIN_MTU;
22655a6681e2SEdward Cree net_dev->max_mtu = EF4_MAX_MTU;
22665a6681e2SEdward Cree
22675a6681e2SEdward Cree rtnl_lock();
22685a6681e2SEdward Cree
22695a6681e2SEdward Cree /* Enable resets to be scheduled and check whether any were
22705a6681e2SEdward Cree * already requested. If so, the NIC is probably hosed so we
22715a6681e2SEdward Cree * abort.
22725a6681e2SEdward Cree */
22735a6681e2SEdward Cree efx->state = STATE_READY;
22745a6681e2SEdward Cree smp_mb(); /* ensure we change state before checking reset_pending */
22755a6681e2SEdward Cree if (efx->reset_pending) {
22765a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
22775a6681e2SEdward Cree "aborting probe due to scheduled reset\n");
22785a6681e2SEdward Cree rc = -EIO;
22795a6681e2SEdward Cree goto fail_locked;
22805a6681e2SEdward Cree }
22815a6681e2SEdward Cree
22825a6681e2SEdward Cree rc = dev_alloc_name(net_dev, net_dev->name);
22835a6681e2SEdward Cree if (rc < 0)
22845a6681e2SEdward Cree goto fail_locked;
22855a6681e2SEdward Cree ef4_update_name(efx);
22865a6681e2SEdward Cree
22875a6681e2SEdward Cree /* Always start with carrier off; PHY events will detect the link */
22885a6681e2SEdward Cree netif_carrier_off(net_dev);
22895a6681e2SEdward Cree
22905a6681e2SEdward Cree rc = register_netdevice(net_dev);
22915a6681e2SEdward Cree if (rc)
22925a6681e2SEdward Cree goto fail_locked;
22935a6681e2SEdward Cree
22945a6681e2SEdward Cree ef4_for_each_channel(channel, efx) {
22955a6681e2SEdward Cree struct ef4_tx_queue *tx_queue;
22965a6681e2SEdward Cree ef4_for_each_channel_tx_queue(tx_queue, channel)
22975a6681e2SEdward Cree ef4_init_tx_queue_core_txq(tx_queue);
22985a6681e2SEdward Cree }
22995a6681e2SEdward Cree
23005a6681e2SEdward Cree ef4_associate(efx);
23015a6681e2SEdward Cree
23025a6681e2SEdward Cree rtnl_unlock();
23035a6681e2SEdward Cree
23045a6681e2SEdward Cree rc = device_create_file(&efx->pci_dev->dev, &dev_attr_phy_type);
23055a6681e2SEdward Cree if (rc) {
23065a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
23075a6681e2SEdward Cree "failed to init net dev attributes\n");
23085a6681e2SEdward Cree goto fail_registered;
23095a6681e2SEdward Cree }
23105a6681e2SEdward Cree return 0;
23115a6681e2SEdward Cree
23125a6681e2SEdward Cree fail_registered:
23135a6681e2SEdward Cree rtnl_lock();
23145a6681e2SEdward Cree ef4_dissociate(efx);
23155a6681e2SEdward Cree unregister_netdevice(net_dev);
23165a6681e2SEdward Cree fail_locked:
23175a6681e2SEdward Cree efx->state = STATE_UNINIT;
23185a6681e2SEdward Cree rtnl_unlock();
23195a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev, "could not register net dev\n");
23205a6681e2SEdward Cree return rc;
23215a6681e2SEdward Cree }
23225a6681e2SEdward Cree
ef4_unregister_netdev(struct ef4_nic * efx)23235a6681e2SEdward Cree static void ef4_unregister_netdev(struct ef4_nic *efx)
23245a6681e2SEdward Cree {
23255a6681e2SEdward Cree if (!efx->net_dev)
23265a6681e2SEdward Cree return;
23275a6681e2SEdward Cree
23285a6681e2SEdward Cree BUG_ON(netdev_priv(efx->net_dev) != efx);
23295a6681e2SEdward Cree
23305a6681e2SEdward Cree if (ef4_dev_registered(efx)) {
2331f029c781SWolfram Sang strscpy(efx->name, pci_name(efx->pci_dev), sizeof(efx->name));
23325a6681e2SEdward Cree device_remove_file(&efx->pci_dev->dev, &dev_attr_phy_type);
23335a6681e2SEdward Cree unregister_netdev(efx->net_dev);
23345a6681e2SEdward Cree }
23355a6681e2SEdward Cree }
23365a6681e2SEdward Cree
23375a6681e2SEdward Cree /**************************************************************************
23385a6681e2SEdward Cree *
23395a6681e2SEdward Cree * Device reset and suspend
23405a6681e2SEdward Cree *
23415a6681e2SEdward Cree **************************************************************************/
23425a6681e2SEdward Cree
23435a6681e2SEdward Cree /* Tears down the entire software state and most of the hardware state
23445a6681e2SEdward Cree * before reset. */
ef4_reset_down(struct ef4_nic * efx,enum reset_type method)23455a6681e2SEdward Cree void ef4_reset_down(struct ef4_nic *efx, enum reset_type method)
23465a6681e2SEdward Cree {
23475a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
23485a6681e2SEdward Cree
23495a6681e2SEdward Cree ef4_stop_all(efx);
23505a6681e2SEdward Cree ef4_disable_interrupts(efx);
23515a6681e2SEdward Cree
23525a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
23535a6681e2SEdward Cree if (efx->port_initialized && method != RESET_TYPE_INVISIBLE &&
23545a6681e2SEdward Cree method != RESET_TYPE_DATAPATH)
23555a6681e2SEdward Cree efx->phy_op->fini(efx);
23565a6681e2SEdward Cree efx->type->fini(efx);
23575a6681e2SEdward Cree }
23585a6681e2SEdward Cree
23595a6681e2SEdward Cree /* This function will always ensure that the locks acquired in
23605a6681e2SEdward Cree * ef4_reset_down() are released. A failure return code indicates
23615a6681e2SEdward Cree * that we were unable to reinitialise the hardware, and the
23625a6681e2SEdward Cree * driver should be disabled. If ok is false, then the rx and tx
23635a6681e2SEdward Cree * engines are not restarted, pending a RESET_DISABLE. */
ef4_reset_up(struct ef4_nic * efx,enum reset_type method,bool ok)23645a6681e2SEdward Cree int ef4_reset_up(struct ef4_nic *efx, enum reset_type method, bool ok)
23655a6681e2SEdward Cree {
23665a6681e2SEdward Cree int rc;
23675a6681e2SEdward Cree
23685a6681e2SEdward Cree EF4_ASSERT_RESET_SERIALISED(efx);
23695a6681e2SEdward Cree
23705a6681e2SEdward Cree /* Ensure that SRAM is initialised even if we're disabling the device */
23715a6681e2SEdward Cree rc = efx->type->init(efx);
23725a6681e2SEdward Cree if (rc) {
23735a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev, "failed to initialise NIC\n");
23745a6681e2SEdward Cree goto fail;
23755a6681e2SEdward Cree }
23765a6681e2SEdward Cree
23775a6681e2SEdward Cree if (!ok)
23785a6681e2SEdward Cree goto fail;
23795a6681e2SEdward Cree
23805a6681e2SEdward Cree if (efx->port_initialized && method != RESET_TYPE_INVISIBLE &&
23815a6681e2SEdward Cree method != RESET_TYPE_DATAPATH) {
23825a6681e2SEdward Cree rc = efx->phy_op->init(efx);
23835a6681e2SEdward Cree if (rc)
23845a6681e2SEdward Cree goto fail;
23855a6681e2SEdward Cree rc = efx->phy_op->reconfigure(efx);
23865a6681e2SEdward Cree if (rc && rc != -EPERM)
23875a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev,
23885a6681e2SEdward Cree "could not restore PHY settings\n");
23895a6681e2SEdward Cree }
23905a6681e2SEdward Cree
23915a6681e2SEdward Cree rc = ef4_enable_interrupts(efx);
23925a6681e2SEdward Cree if (rc)
23935a6681e2SEdward Cree goto fail;
23945a6681e2SEdward Cree
23955a6681e2SEdward Cree down_read(&efx->filter_sem);
23965a6681e2SEdward Cree ef4_restore_filters(efx);
23975a6681e2SEdward Cree up_read(&efx->filter_sem);
23985a6681e2SEdward Cree
23995a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
24005a6681e2SEdward Cree
24015a6681e2SEdward Cree ef4_start_all(efx);
24025a6681e2SEdward Cree
24035a6681e2SEdward Cree return 0;
24045a6681e2SEdward Cree
24055a6681e2SEdward Cree fail:
24065a6681e2SEdward Cree efx->port_initialized = false;
24075a6681e2SEdward Cree
24085a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
24095a6681e2SEdward Cree
24105a6681e2SEdward Cree return rc;
24115a6681e2SEdward Cree }
24125a6681e2SEdward Cree
24135a6681e2SEdward Cree /* Reset the NIC using the specified method. Note that the reset may
24145a6681e2SEdward Cree * fail, in which case the card will be left in an unusable state.
24155a6681e2SEdward Cree *
24165a6681e2SEdward Cree * Caller must hold the rtnl_lock.
24175a6681e2SEdward Cree */
ef4_reset(struct ef4_nic * efx,enum reset_type method)24185a6681e2SEdward Cree int ef4_reset(struct ef4_nic *efx, enum reset_type method)
24195a6681e2SEdward Cree {
24205a6681e2SEdward Cree int rc, rc2;
24215a6681e2SEdward Cree bool disabled;
24225a6681e2SEdward Cree
24235a6681e2SEdward Cree netif_info(efx, drv, efx->net_dev, "resetting (%s)\n",
24245a6681e2SEdward Cree RESET_TYPE(method));
24255a6681e2SEdward Cree
24265a6681e2SEdward Cree ef4_device_detach_sync(efx);
24275a6681e2SEdward Cree ef4_reset_down(efx, method);
24285a6681e2SEdward Cree
24295a6681e2SEdward Cree rc = efx->type->reset(efx, method);
24305a6681e2SEdward Cree if (rc) {
24315a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev, "failed to reset hardware\n");
24325a6681e2SEdward Cree goto out;
24335a6681e2SEdward Cree }
24345a6681e2SEdward Cree
24355a6681e2SEdward Cree /* Clear flags for the scopes we covered. We assume the NIC and
24365a6681e2SEdward Cree * driver are now quiescent so that there is no race here.
24375a6681e2SEdward Cree */
24385a6681e2SEdward Cree if (method < RESET_TYPE_MAX_METHOD)
24395a6681e2SEdward Cree efx->reset_pending &= -(1 << (method + 1));
24405a6681e2SEdward Cree else /* it doesn't fit into the well-ordered scope hierarchy */
24415a6681e2SEdward Cree __clear_bit(method, &efx->reset_pending);
24425a6681e2SEdward Cree
24435a6681e2SEdward Cree /* Reinitialise bus-mastering, which may have been turned off before
24445a6681e2SEdward Cree * the reset was scheduled. This is still appropriate, even in the
24455a6681e2SEdward Cree * RESET_TYPE_DISABLE since this driver generally assumes the hardware
24465a6681e2SEdward Cree * can respond to requests. */
24475a6681e2SEdward Cree pci_set_master(efx->pci_dev);
24485a6681e2SEdward Cree
24495a6681e2SEdward Cree out:
24505a6681e2SEdward Cree /* Leave device stopped if necessary */
24515a6681e2SEdward Cree disabled = rc ||
24525a6681e2SEdward Cree method == RESET_TYPE_DISABLE ||
24535a6681e2SEdward Cree method == RESET_TYPE_RECOVER_OR_DISABLE;
24545a6681e2SEdward Cree rc2 = ef4_reset_up(efx, method, !disabled);
24555a6681e2SEdward Cree if (rc2) {
24565a6681e2SEdward Cree disabled = true;
24575a6681e2SEdward Cree if (!rc)
24585a6681e2SEdward Cree rc = rc2;
24595a6681e2SEdward Cree }
24605a6681e2SEdward Cree
24615a6681e2SEdward Cree if (disabled) {
24625a6681e2SEdward Cree dev_close(efx->net_dev);
24635a6681e2SEdward Cree netif_err(efx, drv, efx->net_dev, "has been disabled\n");
24645a6681e2SEdward Cree efx->state = STATE_DISABLED;
24655a6681e2SEdward Cree } else {
24665a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "reset complete\n");
24675a6681e2SEdward Cree netif_device_attach(efx->net_dev);
24685a6681e2SEdward Cree }
24695a6681e2SEdward Cree return rc;
24705a6681e2SEdward Cree }
24715a6681e2SEdward Cree
24725a6681e2SEdward Cree /* Try recovery mechanisms.
24735a6681e2SEdward Cree * For now only EEH is supported.
24745a6681e2SEdward Cree * Returns 0 if the recovery mechanisms are unsuccessful.
24755a6681e2SEdward Cree * Returns a non-zero value otherwise.
24765a6681e2SEdward Cree */
ef4_try_recovery(struct ef4_nic * efx)24775a6681e2SEdward Cree int ef4_try_recovery(struct ef4_nic *efx)
24785a6681e2SEdward Cree {
24795a6681e2SEdward Cree #ifdef CONFIG_EEH
24805a6681e2SEdward Cree /* A PCI error can occur and not be seen by EEH because nothing
24815a6681e2SEdward Cree * happens on the PCI bus. In this case the driver may fail and
24825a6681e2SEdward Cree * schedule a 'recover or reset', leading to this recovery handler.
24835a6681e2SEdward Cree * Manually call the eeh failure check function.
24845a6681e2SEdward Cree */
24855a6681e2SEdward Cree struct eeh_dev *eehdev = pci_dev_to_eeh_dev(efx->pci_dev);
24865a6681e2SEdward Cree if (eeh_dev_check_failure(eehdev)) {
24875a6681e2SEdward Cree /* The EEH mechanisms will handle the error and reset the
24885a6681e2SEdward Cree * device if necessary.
24895a6681e2SEdward Cree */
24905a6681e2SEdward Cree return 1;
24915a6681e2SEdward Cree }
24925a6681e2SEdward Cree #endif
24935a6681e2SEdward Cree return 0;
24945a6681e2SEdward Cree }
24955a6681e2SEdward Cree
24965a6681e2SEdward Cree /* The worker thread exists so that code that cannot sleep can
24975a6681e2SEdward Cree * schedule a reset for later.
24985a6681e2SEdward Cree */
ef4_reset_work(struct work_struct * data)24995a6681e2SEdward Cree static void ef4_reset_work(struct work_struct *data)
25005a6681e2SEdward Cree {
25015a6681e2SEdward Cree struct ef4_nic *efx = container_of(data, struct ef4_nic, reset_work);
25025a6681e2SEdward Cree unsigned long pending;
25035a6681e2SEdward Cree enum reset_type method;
25045a6681e2SEdward Cree
25056aa7de05SMark Rutland pending = READ_ONCE(efx->reset_pending);
25065a6681e2SEdward Cree method = fls(pending) - 1;
25075a6681e2SEdward Cree
25085a6681e2SEdward Cree if ((method == RESET_TYPE_RECOVER_OR_DISABLE ||
25095a6681e2SEdward Cree method == RESET_TYPE_RECOVER_OR_ALL) &&
25105a6681e2SEdward Cree ef4_try_recovery(efx))
25115a6681e2SEdward Cree return;
25125a6681e2SEdward Cree
25135a6681e2SEdward Cree if (!pending)
25145a6681e2SEdward Cree return;
25155a6681e2SEdward Cree
25165a6681e2SEdward Cree rtnl_lock();
25175a6681e2SEdward Cree
25185a6681e2SEdward Cree /* We checked the state in ef4_schedule_reset() but it may
25195a6681e2SEdward Cree * have changed by now. Now that we have the RTNL lock,
25205a6681e2SEdward Cree * it cannot change again.
25215a6681e2SEdward Cree */
25225a6681e2SEdward Cree if (efx->state == STATE_READY)
25235a6681e2SEdward Cree (void)ef4_reset(efx, method);
25245a6681e2SEdward Cree
25255a6681e2SEdward Cree rtnl_unlock();
25265a6681e2SEdward Cree }
25275a6681e2SEdward Cree
ef4_schedule_reset(struct ef4_nic * efx,enum reset_type type)25285a6681e2SEdward Cree void ef4_schedule_reset(struct ef4_nic *efx, enum reset_type type)
25295a6681e2SEdward Cree {
25305a6681e2SEdward Cree enum reset_type method;
25315a6681e2SEdward Cree
25325a6681e2SEdward Cree if (efx->state == STATE_RECOVERY) {
25335a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev,
25345a6681e2SEdward Cree "recovering: skip scheduling %s reset\n",
25355a6681e2SEdward Cree RESET_TYPE(type));
25365a6681e2SEdward Cree return;
25375a6681e2SEdward Cree }
25385a6681e2SEdward Cree
25395a6681e2SEdward Cree switch (type) {
25405a6681e2SEdward Cree case RESET_TYPE_INVISIBLE:
25415a6681e2SEdward Cree case RESET_TYPE_ALL:
25425a6681e2SEdward Cree case RESET_TYPE_RECOVER_OR_ALL:
25435a6681e2SEdward Cree case RESET_TYPE_WORLD:
25445a6681e2SEdward Cree case RESET_TYPE_DISABLE:
25455a6681e2SEdward Cree case RESET_TYPE_RECOVER_OR_DISABLE:
25465a6681e2SEdward Cree case RESET_TYPE_DATAPATH:
25475a6681e2SEdward Cree method = type;
25485a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "scheduling %s reset\n",
25495a6681e2SEdward Cree RESET_TYPE(method));
25505a6681e2SEdward Cree break;
25515a6681e2SEdward Cree default:
25525a6681e2SEdward Cree method = efx->type->map_reset_reason(type);
25535a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev,
25545a6681e2SEdward Cree "scheduling %s reset for %s\n",
25555a6681e2SEdward Cree RESET_TYPE(method), RESET_TYPE(type));
25565a6681e2SEdward Cree break;
25575a6681e2SEdward Cree }
25585a6681e2SEdward Cree
25595a6681e2SEdward Cree set_bit(method, &efx->reset_pending);
25605a6681e2SEdward Cree smp_mb(); /* ensure we change reset_pending before checking state */
25615a6681e2SEdward Cree
25625a6681e2SEdward Cree /* If we're not READY then just leave the flags set as the cue
25635a6681e2SEdward Cree * to abort probing or reschedule the reset later.
25645a6681e2SEdward Cree */
25656aa7de05SMark Rutland if (READ_ONCE(efx->state) != STATE_READY)
25665a6681e2SEdward Cree return;
25675a6681e2SEdward Cree
25685a6681e2SEdward Cree queue_work(reset_workqueue, &efx->reset_work);
25695a6681e2SEdward Cree }
25705a6681e2SEdward Cree
25715a6681e2SEdward Cree /**************************************************************************
25725a6681e2SEdward Cree *
25735a6681e2SEdward Cree * List of NICs we support
25745a6681e2SEdward Cree *
25755a6681e2SEdward Cree **************************************************************************/
25765a6681e2SEdward Cree
25775a6681e2SEdward Cree /* PCI device ID table */
25785a6681e2SEdward Cree static const struct pci_device_id ef4_pci_table[] = {
25795a6681e2SEdward Cree {PCI_DEVICE(PCI_VENDOR_ID_SOLARFLARE,
25805a6681e2SEdward Cree PCI_DEVICE_ID_SOLARFLARE_SFC4000A_0),
25815a6681e2SEdward Cree .driver_data = (unsigned long) &falcon_a1_nic_type},
25825a6681e2SEdward Cree {PCI_DEVICE(PCI_VENDOR_ID_SOLARFLARE,
25835a6681e2SEdward Cree PCI_DEVICE_ID_SOLARFLARE_SFC4000B),
25845a6681e2SEdward Cree .driver_data = (unsigned long) &falcon_b0_nic_type},
25855a6681e2SEdward Cree {0} /* end of list */
25865a6681e2SEdward Cree };
25875a6681e2SEdward Cree
25885a6681e2SEdward Cree /**************************************************************************
25895a6681e2SEdward Cree *
25905a6681e2SEdward Cree * Dummy PHY/MAC operations
25915a6681e2SEdward Cree *
25925a6681e2SEdward Cree * Can be used for some unimplemented operations
25935a6681e2SEdward Cree * Needed so all function pointers are valid and do not have to be tested
25945a6681e2SEdward Cree * before use
25955a6681e2SEdward Cree *
25965a6681e2SEdward Cree **************************************************************************/
ef4_port_dummy_op_int(struct ef4_nic * efx)25975a6681e2SEdward Cree int ef4_port_dummy_op_int(struct ef4_nic *efx)
25985a6681e2SEdward Cree {
25995a6681e2SEdward Cree return 0;
26005a6681e2SEdward Cree }
ef4_port_dummy_op_void(struct ef4_nic * efx)26015a6681e2SEdward Cree void ef4_port_dummy_op_void(struct ef4_nic *efx) {}
26025a6681e2SEdward Cree
ef4_port_dummy_op_poll(struct ef4_nic * efx)26035a6681e2SEdward Cree static bool ef4_port_dummy_op_poll(struct ef4_nic *efx)
26045a6681e2SEdward Cree {
26055a6681e2SEdward Cree return false;
26065a6681e2SEdward Cree }
26075a6681e2SEdward Cree
26085a6681e2SEdward Cree static const struct ef4_phy_operations ef4_dummy_phy_operations = {
26095a6681e2SEdward Cree .init = ef4_port_dummy_op_int,
26105a6681e2SEdward Cree .reconfigure = ef4_port_dummy_op_int,
26115a6681e2SEdward Cree .poll = ef4_port_dummy_op_poll,
26125a6681e2SEdward Cree .fini = ef4_port_dummy_op_void,
26135a6681e2SEdward Cree };
26145a6681e2SEdward Cree
26155a6681e2SEdward Cree /**************************************************************************
26165a6681e2SEdward Cree *
26175a6681e2SEdward Cree * Data housekeeping
26185a6681e2SEdward Cree *
26195a6681e2SEdward Cree **************************************************************************/
26205a6681e2SEdward Cree
26215a6681e2SEdward Cree /* This zeroes out and then fills in the invariants in a struct
26225a6681e2SEdward Cree * ef4_nic (including all sub-structures).
26235a6681e2SEdward Cree */
ef4_init_struct(struct ef4_nic * efx,struct pci_dev * pci_dev,struct net_device * net_dev)26245a6681e2SEdward Cree static int ef4_init_struct(struct ef4_nic *efx,
26255a6681e2SEdward Cree struct pci_dev *pci_dev, struct net_device *net_dev)
26265a6681e2SEdward Cree {
26275a6681e2SEdward Cree int i;
26285a6681e2SEdward Cree
26295a6681e2SEdward Cree /* Initialise common structures */
26305a6681e2SEdward Cree INIT_LIST_HEAD(&efx->node);
26315a6681e2SEdward Cree INIT_LIST_HEAD(&efx->secondary_list);
26325a6681e2SEdward Cree spin_lock_init(&efx->biu_lock);
26335a6681e2SEdward Cree #ifdef CONFIG_SFC_FALCON_MTD
26345a6681e2SEdward Cree INIT_LIST_HEAD(&efx->mtd_list);
26355a6681e2SEdward Cree #endif
26365a6681e2SEdward Cree INIT_WORK(&efx->reset_work, ef4_reset_work);
26375a6681e2SEdward Cree INIT_DELAYED_WORK(&efx->monitor_work, ef4_monitor);
26385a6681e2SEdward Cree INIT_DELAYED_WORK(&efx->selftest_work, ef4_selftest_async_work);
26395a6681e2SEdward Cree efx->pci_dev = pci_dev;
26405a6681e2SEdward Cree efx->msg_enable = debug;
26415a6681e2SEdward Cree efx->state = STATE_UNINIT;
2642f029c781SWolfram Sang strscpy(efx->name, pci_name(pci_dev), sizeof(efx->name));
26435a6681e2SEdward Cree
26445a6681e2SEdward Cree efx->net_dev = net_dev;
26455a6681e2SEdward Cree efx->rx_prefix_size = efx->type->rx_prefix_size;
26465a6681e2SEdward Cree efx->rx_ip_align =
26475a6681e2SEdward Cree NET_IP_ALIGN ? (efx->rx_prefix_size + NET_IP_ALIGN) % 4 : 0;
26485a6681e2SEdward Cree efx->rx_packet_hash_offset =
26495a6681e2SEdward Cree efx->type->rx_hash_offset - efx->type->rx_prefix_size;
26505a6681e2SEdward Cree efx->rx_packet_ts_offset =
26515a6681e2SEdward Cree efx->type->rx_ts_offset - efx->type->rx_prefix_size;
26525a6681e2SEdward Cree spin_lock_init(&efx->stats_lock);
26535a6681e2SEdward Cree mutex_init(&efx->mac_lock);
26545a6681e2SEdward Cree efx->phy_op = &ef4_dummy_phy_operations;
26555a6681e2SEdward Cree efx->mdio.dev = net_dev;
26565a6681e2SEdward Cree INIT_WORK(&efx->mac_work, ef4_mac_work);
26575a6681e2SEdward Cree init_waitqueue_head(&efx->flush_wq);
26585a6681e2SEdward Cree
26595a6681e2SEdward Cree for (i = 0; i < EF4_MAX_CHANNELS; i++) {
26605a6681e2SEdward Cree efx->channel[i] = ef4_alloc_channel(efx, i, NULL);
26615a6681e2SEdward Cree if (!efx->channel[i])
26625a6681e2SEdward Cree goto fail;
26635a6681e2SEdward Cree efx->msi_context[i].efx = efx;
26645a6681e2SEdward Cree efx->msi_context[i].index = i;
26655a6681e2SEdward Cree }
26665a6681e2SEdward Cree
26675a6681e2SEdward Cree /* Higher numbered interrupt modes are less capable! */
26685a6681e2SEdward Cree efx->interrupt_mode = max(efx->type->max_interrupt_mode,
26695a6681e2SEdward Cree interrupt_mode);
26705a6681e2SEdward Cree
26715a6681e2SEdward Cree /* Would be good to use the net_dev name, but we're too early */
26725a6681e2SEdward Cree snprintf(efx->workqueue_name, sizeof(efx->workqueue_name), "sfc%s",
26735a6681e2SEdward Cree pci_name(pci_dev));
26745a6681e2SEdward Cree efx->workqueue = create_singlethread_workqueue(efx->workqueue_name);
26755a6681e2SEdward Cree if (!efx->workqueue)
26765a6681e2SEdward Cree goto fail;
26775a6681e2SEdward Cree
26785a6681e2SEdward Cree return 0;
26795a6681e2SEdward Cree
26805a6681e2SEdward Cree fail:
26815a6681e2SEdward Cree ef4_fini_struct(efx);
26825a6681e2SEdward Cree return -ENOMEM;
26835a6681e2SEdward Cree }
26845a6681e2SEdward Cree
ef4_fini_struct(struct ef4_nic * efx)26855a6681e2SEdward Cree static void ef4_fini_struct(struct ef4_nic *efx)
26865a6681e2SEdward Cree {
26875a6681e2SEdward Cree int i;
26885a6681e2SEdward Cree
26895a6681e2SEdward Cree for (i = 0; i < EF4_MAX_CHANNELS; i++)
26905a6681e2SEdward Cree kfree(efx->channel[i]);
26915a6681e2SEdward Cree
26925a6681e2SEdward Cree kfree(efx->vpd_sn);
26935a6681e2SEdward Cree
26945a6681e2SEdward Cree if (efx->workqueue) {
26955a6681e2SEdward Cree destroy_workqueue(efx->workqueue);
26965a6681e2SEdward Cree efx->workqueue = NULL;
26975a6681e2SEdward Cree }
26985a6681e2SEdward Cree }
26995a6681e2SEdward Cree
ef4_update_sw_stats(struct ef4_nic * efx,u64 * stats)27005a6681e2SEdward Cree void ef4_update_sw_stats(struct ef4_nic *efx, u64 *stats)
27015a6681e2SEdward Cree {
27025a6681e2SEdward Cree u64 n_rx_nodesc_trunc = 0;
27035a6681e2SEdward Cree struct ef4_channel *channel;
27045a6681e2SEdward Cree
27055a6681e2SEdward Cree ef4_for_each_channel(channel, efx)
27065a6681e2SEdward Cree n_rx_nodesc_trunc += channel->n_rx_nodesc_trunc;
27075a6681e2SEdward Cree stats[GENERIC_STAT_rx_nodesc_trunc] = n_rx_nodesc_trunc;
27085a6681e2SEdward Cree stats[GENERIC_STAT_rx_noskb_drops] = atomic_read(&efx->n_rx_noskb_drops);
27095a6681e2SEdward Cree }
27105a6681e2SEdward Cree
27115a6681e2SEdward Cree /**************************************************************************
27125a6681e2SEdward Cree *
27135a6681e2SEdward Cree * PCI interface
27145a6681e2SEdward Cree *
27155a6681e2SEdward Cree **************************************************************************/
27165a6681e2SEdward Cree
27175a6681e2SEdward Cree /* Main body of final NIC shutdown code
27185a6681e2SEdward Cree * This is called only at module unload (or hotplug removal).
27195a6681e2SEdward Cree */
ef4_pci_remove_main(struct ef4_nic * efx)27205a6681e2SEdward Cree static void ef4_pci_remove_main(struct ef4_nic *efx)
27215a6681e2SEdward Cree {
27225a6681e2SEdward Cree /* Flush reset_work. It can no longer be scheduled since we
27235a6681e2SEdward Cree * are not READY.
27245a6681e2SEdward Cree */
27255a6681e2SEdward Cree BUG_ON(efx->state == STATE_READY);
27265a6681e2SEdward Cree cancel_work_sync(&efx->reset_work);
27275a6681e2SEdward Cree
27285a6681e2SEdward Cree ef4_disable_interrupts(efx);
27295a6681e2SEdward Cree ef4_nic_fini_interrupt(efx);
27305a6681e2SEdward Cree ef4_fini_port(efx);
27315a6681e2SEdward Cree efx->type->fini(efx);
27325a6681e2SEdward Cree ef4_fini_napi(efx);
27335a6681e2SEdward Cree ef4_remove_all(efx);
27345a6681e2SEdward Cree }
27355a6681e2SEdward Cree
27365a6681e2SEdward Cree /* Final NIC shutdown
27375a6681e2SEdward Cree * This is called only at module unload (or hotplug removal). A PF can call
27385a6681e2SEdward Cree * this on its VFs to ensure they are unbound first.
27395a6681e2SEdward Cree */
ef4_pci_remove(struct pci_dev * pci_dev)27405a6681e2SEdward Cree static void ef4_pci_remove(struct pci_dev *pci_dev)
27415a6681e2SEdward Cree {
27425a6681e2SEdward Cree struct ef4_nic *efx;
27435a6681e2SEdward Cree
27445a6681e2SEdward Cree efx = pci_get_drvdata(pci_dev);
27455a6681e2SEdward Cree if (!efx)
27465a6681e2SEdward Cree return;
27475a6681e2SEdward Cree
27485a6681e2SEdward Cree /* Mark the NIC as fini, then stop the interface */
27495a6681e2SEdward Cree rtnl_lock();
27505a6681e2SEdward Cree ef4_dissociate(efx);
27515a6681e2SEdward Cree dev_close(efx->net_dev);
27525a6681e2SEdward Cree ef4_disable_interrupts(efx);
27535a6681e2SEdward Cree efx->state = STATE_UNINIT;
27545a6681e2SEdward Cree rtnl_unlock();
27555a6681e2SEdward Cree
27565a6681e2SEdward Cree ef4_unregister_netdev(efx);
27575a6681e2SEdward Cree
27585a6681e2SEdward Cree ef4_mtd_remove(efx);
27595a6681e2SEdward Cree
27605a6681e2SEdward Cree ef4_pci_remove_main(efx);
27615a6681e2SEdward Cree
27625a6681e2SEdward Cree ef4_fini_io(efx);
27635a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "shutdown successful\n");
27645a6681e2SEdward Cree
27655a6681e2SEdward Cree ef4_fini_struct(efx);
27665a6681e2SEdward Cree free_netdev(efx->net_dev);
27675a6681e2SEdward Cree };
27685a6681e2SEdward Cree
27695a6681e2SEdward Cree /* NIC VPD information
2770667bb0e8SHeiner Kallweit * Called during probe to display the part number of the installed NIC.
27715a6681e2SEdward Cree */
ef4_probe_vpd_strings(struct ef4_nic * efx)27725a6681e2SEdward Cree static void ef4_probe_vpd_strings(struct ef4_nic *efx)
27735a6681e2SEdward Cree {
27745a6681e2SEdward Cree struct pci_dev *dev = efx->pci_dev;
27752d57dd66SHeiner Kallweit unsigned int vpd_size, kw_len;
2776667bb0e8SHeiner Kallweit u8 *vpd_data;
27772d57dd66SHeiner Kallweit int start;
27785a6681e2SEdward Cree
2779667bb0e8SHeiner Kallweit vpd_data = pci_vpd_alloc(dev, &vpd_size);
2780667bb0e8SHeiner Kallweit if (IS_ERR(vpd_data)) {
2781667bb0e8SHeiner Kallweit pci_warn(dev, "Unable to read VPD\n");
27825a6681e2SEdward Cree return;
27835a6681e2SEdward Cree }
27845a6681e2SEdward Cree
27852d57dd66SHeiner Kallweit start = pci_vpd_find_ro_info_keyword(vpd_data, vpd_size,
27862d57dd66SHeiner Kallweit PCI_VPD_RO_KEYWORD_PARTNO, &kw_len);
27872d57dd66SHeiner Kallweit if (start < 0)
27882d57dd66SHeiner Kallweit pci_warn(dev, "Part number not found or incomplete\n");
27892d57dd66SHeiner Kallweit else
27902d57dd66SHeiner Kallweit pci_info(dev, "Part Number : %.*s\n", kw_len, vpd_data + start);
27915a6681e2SEdward Cree
27922d57dd66SHeiner Kallweit start = pci_vpd_find_ro_info_keyword(vpd_data, vpd_size,
27932d57dd66SHeiner Kallweit PCI_VPD_RO_KEYWORD_SERIALNO, &kw_len);
27942d57dd66SHeiner Kallweit if (start < 0)
27952d57dd66SHeiner Kallweit pci_warn(dev, "Serial number not found or incomplete\n");
27962d57dd66SHeiner Kallweit else
27972d57dd66SHeiner Kallweit efx->vpd_sn = kmemdup_nul(vpd_data + start, kw_len, GFP_KERNEL);
27985a6681e2SEdward Cree
2799667bb0e8SHeiner Kallweit kfree(vpd_data);
28005a6681e2SEdward Cree }
28015a6681e2SEdward Cree
28025a6681e2SEdward Cree
28035a6681e2SEdward Cree /* Main body of NIC initialisation
28045a6681e2SEdward Cree * This is called at module load (or hotplug insertion, theoretically).
28055a6681e2SEdward Cree */
ef4_pci_probe_main(struct ef4_nic * efx)28065a6681e2SEdward Cree static int ef4_pci_probe_main(struct ef4_nic *efx)
28075a6681e2SEdward Cree {
28085a6681e2SEdward Cree int rc;
28095a6681e2SEdward Cree
28105a6681e2SEdward Cree /* Do start-of-day initialisation */
28115a6681e2SEdward Cree rc = ef4_probe_all(efx);
28125a6681e2SEdward Cree if (rc)
28135a6681e2SEdward Cree goto fail1;
28145a6681e2SEdward Cree
28155a6681e2SEdward Cree ef4_init_napi(efx);
28165a6681e2SEdward Cree
28175a6681e2SEdward Cree rc = efx->type->init(efx);
28185a6681e2SEdward Cree if (rc) {
28195a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
28205a6681e2SEdward Cree "failed to initialise NIC\n");
28215a6681e2SEdward Cree goto fail3;
28225a6681e2SEdward Cree }
28235a6681e2SEdward Cree
28245a6681e2SEdward Cree rc = ef4_init_port(efx);
28255a6681e2SEdward Cree if (rc) {
28265a6681e2SEdward Cree netif_err(efx, probe, efx->net_dev,
28275a6681e2SEdward Cree "failed to initialise port\n");
28285a6681e2SEdward Cree goto fail4;
28295a6681e2SEdward Cree }
28305a6681e2SEdward Cree
28315a6681e2SEdward Cree rc = ef4_nic_init_interrupt(efx);
28325a6681e2SEdward Cree if (rc)
28335a6681e2SEdward Cree goto fail5;
28345a6681e2SEdward Cree rc = ef4_enable_interrupts(efx);
28355a6681e2SEdward Cree if (rc)
28365a6681e2SEdward Cree goto fail6;
28375a6681e2SEdward Cree
28385a6681e2SEdward Cree return 0;
28395a6681e2SEdward Cree
28405a6681e2SEdward Cree fail6:
28415a6681e2SEdward Cree ef4_nic_fini_interrupt(efx);
28425a6681e2SEdward Cree fail5:
28435a6681e2SEdward Cree ef4_fini_port(efx);
28445a6681e2SEdward Cree fail4:
28455a6681e2SEdward Cree efx->type->fini(efx);
28465a6681e2SEdward Cree fail3:
28475a6681e2SEdward Cree ef4_fini_napi(efx);
28485a6681e2SEdward Cree ef4_remove_all(efx);
28495a6681e2SEdward Cree fail1:
28505a6681e2SEdward Cree return rc;
28515a6681e2SEdward Cree }
28525a6681e2SEdward Cree
28535a6681e2SEdward Cree /* NIC initialisation
28545a6681e2SEdward Cree *
28555a6681e2SEdward Cree * This is called at module load (or hotplug insertion,
28565a6681e2SEdward Cree * theoretically). It sets up PCI mappings, resets the NIC,
28575a6681e2SEdward Cree * sets up and registers the network devices with the kernel and hooks
28585a6681e2SEdward Cree * the interrupt service routine. It does not prepare the device for
28595a6681e2SEdward Cree * transmission; this is left to the first time one of the network
28605a6681e2SEdward Cree * interfaces is brought up (i.e. ef4_net_open).
28615a6681e2SEdward Cree */
ef4_pci_probe(struct pci_dev * pci_dev,const struct pci_device_id * entry)28625a6681e2SEdward Cree static int ef4_pci_probe(struct pci_dev *pci_dev,
28635a6681e2SEdward Cree const struct pci_device_id *entry)
28645a6681e2SEdward Cree {
28655a6681e2SEdward Cree struct net_device *net_dev;
28665a6681e2SEdward Cree struct ef4_nic *efx;
28675a6681e2SEdward Cree int rc;
28685a6681e2SEdward Cree
28695a6681e2SEdward Cree /* Allocate and initialise a struct net_device and struct ef4_nic */
28705a6681e2SEdward Cree net_dev = alloc_etherdev_mqs(sizeof(*efx), EF4_MAX_CORE_TX_QUEUES,
28715a6681e2SEdward Cree EF4_MAX_RX_QUEUES);
28725a6681e2SEdward Cree if (!net_dev)
28735a6681e2SEdward Cree return -ENOMEM;
28745a6681e2SEdward Cree efx = netdev_priv(net_dev);
28755a6681e2SEdward Cree efx->type = (const struct ef4_nic_type *) entry->driver_data;
28765a6681e2SEdward Cree efx->fixed_features |= NETIF_F_HIGHDMA;
28775a6681e2SEdward Cree
28785a6681e2SEdward Cree pci_set_drvdata(pci_dev, efx);
28795a6681e2SEdward Cree SET_NETDEV_DEV(net_dev, &pci_dev->dev);
28805a6681e2SEdward Cree rc = ef4_init_struct(efx, pci_dev, net_dev);
28815a6681e2SEdward Cree if (rc)
28825a6681e2SEdward Cree goto fail1;
28835a6681e2SEdward Cree
28845a6681e2SEdward Cree netif_info(efx, probe, efx->net_dev,
28855a6681e2SEdward Cree "Solarflare NIC detected\n");
28865a6681e2SEdward Cree
28875a6681e2SEdward Cree ef4_probe_vpd_strings(efx);
28885a6681e2SEdward Cree
28895a6681e2SEdward Cree /* Set up basic I/O (BAR mappings etc) */
28905a6681e2SEdward Cree rc = ef4_init_io(efx);
28915a6681e2SEdward Cree if (rc)
28925a6681e2SEdward Cree goto fail2;
28935a6681e2SEdward Cree
28945a6681e2SEdward Cree rc = ef4_pci_probe_main(efx);
28955a6681e2SEdward Cree if (rc)
28965a6681e2SEdward Cree goto fail3;
28975a6681e2SEdward Cree
28985a6681e2SEdward Cree net_dev->features |= (efx->type->offload_features | NETIF_F_SG |
28995a6681e2SEdward Cree NETIF_F_RXCSUM);
29005a6681e2SEdward Cree /* Mask for features that also apply to VLAN devices */
29015a6681e2SEdward Cree net_dev->vlan_features |= (NETIF_F_HW_CSUM | NETIF_F_SG |
29025a6681e2SEdward Cree NETIF_F_HIGHDMA | NETIF_F_RXCSUM);
29035a6681e2SEdward Cree
29045a6681e2SEdward Cree net_dev->hw_features = net_dev->features & ~efx->fixed_features;
29055a6681e2SEdward Cree
29065a6681e2SEdward Cree /* Disable VLAN filtering by default. It may be enforced if
29075a6681e2SEdward Cree * the feature is fixed (i.e. VLAN filters are required to
29085a6681e2SEdward Cree * receive VLAN tagged packets due to vPort restrictions).
29095a6681e2SEdward Cree */
29105a6681e2SEdward Cree net_dev->features &= ~NETIF_F_HW_VLAN_CTAG_FILTER;
29115a6681e2SEdward Cree net_dev->features |= efx->fixed_features;
29125a6681e2SEdward Cree
29135a6681e2SEdward Cree rc = ef4_register_netdev(efx);
29145a6681e2SEdward Cree if (rc)
29155a6681e2SEdward Cree goto fail4;
29165a6681e2SEdward Cree
29175a6681e2SEdward Cree netif_dbg(efx, probe, efx->net_dev, "initialisation successful\n");
29185a6681e2SEdward Cree
29195a6681e2SEdward Cree /* Try to create MTDs, but allow this to fail */
29205a6681e2SEdward Cree rtnl_lock();
29215a6681e2SEdward Cree rc = ef4_mtd_probe(efx);
29225a6681e2SEdward Cree rtnl_unlock();
29235a6681e2SEdward Cree if (rc && rc != -EPERM)
29245a6681e2SEdward Cree netif_warn(efx, probe, efx->net_dev,
29255a6681e2SEdward Cree "failed to create MTDs (%d)\n", rc);
29265a6681e2SEdward Cree
29275a6681e2SEdward Cree return 0;
29285a6681e2SEdward Cree
29295a6681e2SEdward Cree fail4:
29305a6681e2SEdward Cree ef4_pci_remove_main(efx);
29315a6681e2SEdward Cree fail3:
29325a6681e2SEdward Cree ef4_fini_io(efx);
29335a6681e2SEdward Cree fail2:
29345a6681e2SEdward Cree ef4_fini_struct(efx);
29355a6681e2SEdward Cree fail1:
29365a6681e2SEdward Cree WARN_ON(rc > 0);
29375a6681e2SEdward Cree netif_dbg(efx, drv, efx->net_dev, "initialisation failed. rc=%d\n", rc);
29385a6681e2SEdward Cree free_netdev(net_dev);
29395a6681e2SEdward Cree return rc;
29405a6681e2SEdward Cree }
29415a6681e2SEdward Cree
ef4_pm_freeze(struct device * dev)29425a6681e2SEdward Cree static int ef4_pm_freeze(struct device *dev)
29435a6681e2SEdward Cree {
29448f75ec1aSChuhong Yuan struct ef4_nic *efx = dev_get_drvdata(dev);
29455a6681e2SEdward Cree
29465a6681e2SEdward Cree rtnl_lock();
29475a6681e2SEdward Cree
29485a6681e2SEdward Cree if (efx->state != STATE_DISABLED) {
29495a6681e2SEdward Cree efx->state = STATE_UNINIT;
29505a6681e2SEdward Cree
29515a6681e2SEdward Cree ef4_device_detach_sync(efx);
29525a6681e2SEdward Cree
29535a6681e2SEdward Cree ef4_stop_all(efx);
29545a6681e2SEdward Cree ef4_disable_interrupts(efx);
29555a6681e2SEdward Cree }
29565a6681e2SEdward Cree
29575a6681e2SEdward Cree rtnl_unlock();
29585a6681e2SEdward Cree
29595a6681e2SEdward Cree return 0;
29605a6681e2SEdward Cree }
29615a6681e2SEdward Cree
ef4_pm_thaw(struct device * dev)29625a6681e2SEdward Cree static int ef4_pm_thaw(struct device *dev)
29635a6681e2SEdward Cree {
29645a6681e2SEdward Cree int rc;
29658f75ec1aSChuhong Yuan struct ef4_nic *efx = dev_get_drvdata(dev);
29665a6681e2SEdward Cree
29675a6681e2SEdward Cree rtnl_lock();
29685a6681e2SEdward Cree
29695a6681e2SEdward Cree if (efx->state != STATE_DISABLED) {
29705a6681e2SEdward Cree rc = ef4_enable_interrupts(efx);
29715a6681e2SEdward Cree if (rc)
29725a6681e2SEdward Cree goto fail;
29735a6681e2SEdward Cree
29745a6681e2SEdward Cree mutex_lock(&efx->mac_lock);
29755a6681e2SEdward Cree efx->phy_op->reconfigure(efx);
29765a6681e2SEdward Cree mutex_unlock(&efx->mac_lock);
29775a6681e2SEdward Cree
29785a6681e2SEdward Cree ef4_start_all(efx);
29795a6681e2SEdward Cree
29805a6681e2SEdward Cree netif_device_attach(efx->net_dev);
29815a6681e2SEdward Cree
29825a6681e2SEdward Cree efx->state = STATE_READY;
29835a6681e2SEdward Cree
29845a6681e2SEdward Cree efx->type->resume_wol(efx);
29855a6681e2SEdward Cree }
29865a6681e2SEdward Cree
29875a6681e2SEdward Cree rtnl_unlock();
29885a6681e2SEdward Cree
29895a6681e2SEdward Cree /* Reschedule any quenched resets scheduled during ef4_pm_freeze() */
29905a6681e2SEdward Cree queue_work(reset_workqueue, &efx->reset_work);
29915a6681e2SEdward Cree
29925a6681e2SEdward Cree return 0;
29935a6681e2SEdward Cree
29945a6681e2SEdward Cree fail:
29955a6681e2SEdward Cree rtnl_unlock();
29965a6681e2SEdward Cree
29975a6681e2SEdward Cree return rc;
29985a6681e2SEdward Cree }
29995a6681e2SEdward Cree
ef4_pm_poweroff(struct device * dev)30005a6681e2SEdward Cree static int ef4_pm_poweroff(struct device *dev)
30015a6681e2SEdward Cree {
30025a6681e2SEdward Cree struct pci_dev *pci_dev = to_pci_dev(dev);
30035a6681e2SEdward Cree struct ef4_nic *efx = pci_get_drvdata(pci_dev);
30045a6681e2SEdward Cree
30055a6681e2SEdward Cree efx->type->fini(efx);
30065a6681e2SEdward Cree
30075a6681e2SEdward Cree efx->reset_pending = 0;
30085a6681e2SEdward Cree
30095a6681e2SEdward Cree pci_save_state(pci_dev);
30105a6681e2SEdward Cree return pci_set_power_state(pci_dev, PCI_D3hot);
30115a6681e2SEdward Cree }
30125a6681e2SEdward Cree
30135a6681e2SEdward Cree /* Used for both resume and restore */
ef4_pm_resume(struct device * dev)30145a6681e2SEdward Cree static int ef4_pm_resume(struct device *dev)
30155a6681e2SEdward Cree {
30165a6681e2SEdward Cree struct pci_dev *pci_dev = to_pci_dev(dev);
30175a6681e2SEdward Cree struct ef4_nic *efx = pci_get_drvdata(pci_dev);
30185a6681e2SEdward Cree int rc;
30195a6681e2SEdward Cree
30205a6681e2SEdward Cree rc = pci_set_power_state(pci_dev, PCI_D0);
30215a6681e2SEdward Cree if (rc)
30225a6681e2SEdward Cree return rc;
30235a6681e2SEdward Cree pci_restore_state(pci_dev);
30245a6681e2SEdward Cree rc = pci_enable_device(pci_dev);
30255a6681e2SEdward Cree if (rc)
30265a6681e2SEdward Cree return rc;
30275a6681e2SEdward Cree pci_set_master(efx->pci_dev);
30285a6681e2SEdward Cree rc = efx->type->reset(efx, RESET_TYPE_ALL);
30295a6681e2SEdward Cree if (rc)
30305a6681e2SEdward Cree return rc;
30315a6681e2SEdward Cree rc = efx->type->init(efx);
30325a6681e2SEdward Cree if (rc)
30335a6681e2SEdward Cree return rc;
30345a6681e2SEdward Cree rc = ef4_pm_thaw(dev);
30355a6681e2SEdward Cree return rc;
30365a6681e2SEdward Cree }
30375a6681e2SEdward Cree
ef4_pm_suspend(struct device * dev)30385a6681e2SEdward Cree static int ef4_pm_suspend(struct device *dev)
30395a6681e2SEdward Cree {
30405a6681e2SEdward Cree int rc;
30415a6681e2SEdward Cree
30425a6681e2SEdward Cree ef4_pm_freeze(dev);
30435a6681e2SEdward Cree rc = ef4_pm_poweroff(dev);
30445a6681e2SEdward Cree if (rc)
30455a6681e2SEdward Cree ef4_pm_resume(dev);
30465a6681e2SEdward Cree return rc;
30475a6681e2SEdward Cree }
30485a6681e2SEdward Cree
30495a6681e2SEdward Cree static const struct dev_pm_ops ef4_pm_ops = {
30505a6681e2SEdward Cree .suspend = ef4_pm_suspend,
30515a6681e2SEdward Cree .resume = ef4_pm_resume,
30525a6681e2SEdward Cree .freeze = ef4_pm_freeze,
30535a6681e2SEdward Cree .thaw = ef4_pm_thaw,
30545a6681e2SEdward Cree .poweroff = ef4_pm_poweroff,
30555a6681e2SEdward Cree .restore = ef4_pm_resume,
30565a6681e2SEdward Cree };
30575a6681e2SEdward Cree
30585a6681e2SEdward Cree /* A PCI error affecting this device was detected.
30595a6681e2SEdward Cree * At this point MMIO and DMA may be disabled.
30605a6681e2SEdward Cree * Stop the software path and request a slot reset.
30615a6681e2SEdward Cree */
ef4_io_error_detected(struct pci_dev * pdev,pci_channel_state_t state)30625a6681e2SEdward Cree static pci_ers_result_t ef4_io_error_detected(struct pci_dev *pdev,
306316d79cd4SLuc Van Oostenryck pci_channel_state_t state)
30645a6681e2SEdward Cree {
30655a6681e2SEdward Cree pci_ers_result_t status = PCI_ERS_RESULT_RECOVERED;
30665a6681e2SEdward Cree struct ef4_nic *efx = pci_get_drvdata(pdev);
30675a6681e2SEdward Cree
30685a6681e2SEdward Cree if (state == pci_channel_io_perm_failure)
30695a6681e2SEdward Cree return PCI_ERS_RESULT_DISCONNECT;
30705a6681e2SEdward Cree
30715a6681e2SEdward Cree rtnl_lock();
30725a6681e2SEdward Cree
30735a6681e2SEdward Cree if (efx->state != STATE_DISABLED) {
30745a6681e2SEdward Cree efx->state = STATE_RECOVERY;
30755a6681e2SEdward Cree efx->reset_pending = 0;
30765a6681e2SEdward Cree
30775a6681e2SEdward Cree ef4_device_detach_sync(efx);
30785a6681e2SEdward Cree
30795a6681e2SEdward Cree ef4_stop_all(efx);
30805a6681e2SEdward Cree ef4_disable_interrupts(efx);
30815a6681e2SEdward Cree
30825a6681e2SEdward Cree status = PCI_ERS_RESULT_NEED_RESET;
30835a6681e2SEdward Cree } else {
30845a6681e2SEdward Cree /* If the interface is disabled we don't want to do anything
30855a6681e2SEdward Cree * with it.
30865a6681e2SEdward Cree */
30875a6681e2SEdward Cree status = PCI_ERS_RESULT_RECOVERED;
30885a6681e2SEdward Cree }
30895a6681e2SEdward Cree
30905a6681e2SEdward Cree rtnl_unlock();
30915a6681e2SEdward Cree
30925a6681e2SEdward Cree pci_disable_device(pdev);
30935a6681e2SEdward Cree
30945a6681e2SEdward Cree return status;
30955a6681e2SEdward Cree }
30965a6681e2SEdward Cree
30975a6681e2SEdward Cree /* Fake a successful reset, which will be performed later in ef4_io_resume. */
ef4_io_slot_reset(struct pci_dev * pdev)30985a6681e2SEdward Cree static pci_ers_result_t ef4_io_slot_reset(struct pci_dev *pdev)
30995a6681e2SEdward Cree {
31005a6681e2SEdward Cree struct ef4_nic *efx = pci_get_drvdata(pdev);
31015a6681e2SEdward Cree pci_ers_result_t status = PCI_ERS_RESULT_RECOVERED;
31025a6681e2SEdward Cree
31035a6681e2SEdward Cree if (pci_enable_device(pdev)) {
31045a6681e2SEdward Cree netif_err(efx, hw, efx->net_dev,
31055a6681e2SEdward Cree "Cannot re-enable PCI device after reset.\n");
31065a6681e2SEdward Cree status = PCI_ERS_RESULT_DISCONNECT;
31075a6681e2SEdward Cree }
31085a6681e2SEdward Cree
31095a6681e2SEdward Cree return status;
31105a6681e2SEdward Cree }
31115a6681e2SEdward Cree
31125a6681e2SEdward Cree /* Perform the actual reset and resume I/O operations. */
ef4_io_resume(struct pci_dev * pdev)31135a6681e2SEdward Cree static void ef4_io_resume(struct pci_dev *pdev)
31145a6681e2SEdward Cree {
31155a6681e2SEdward Cree struct ef4_nic *efx = pci_get_drvdata(pdev);
31165a6681e2SEdward Cree int rc;
31175a6681e2SEdward Cree
31185a6681e2SEdward Cree rtnl_lock();
31195a6681e2SEdward Cree
31205a6681e2SEdward Cree if (efx->state == STATE_DISABLED)
31215a6681e2SEdward Cree goto out;
31225a6681e2SEdward Cree
31235a6681e2SEdward Cree rc = ef4_reset(efx, RESET_TYPE_ALL);
31245a6681e2SEdward Cree if (rc) {
31255a6681e2SEdward Cree netif_err(efx, hw, efx->net_dev,
31265a6681e2SEdward Cree "ef4_reset failed after PCI error (%d)\n", rc);
31275a6681e2SEdward Cree } else {
31285a6681e2SEdward Cree efx->state = STATE_READY;
31295a6681e2SEdward Cree netif_dbg(efx, hw, efx->net_dev,
31305a6681e2SEdward Cree "Done resetting and resuming IO after PCI error.\n");
31315a6681e2SEdward Cree }
31325a6681e2SEdward Cree
31335a6681e2SEdward Cree out:
31345a6681e2SEdward Cree rtnl_unlock();
31355a6681e2SEdward Cree }
31365a6681e2SEdward Cree
31375a6681e2SEdward Cree /* For simplicity and reliability, we always require a slot reset and try to
31385a6681e2SEdward Cree * reset the hardware when a pci error affecting the device is detected.
31395a6681e2SEdward Cree * We leave both the link_reset and mmio_enabled callback unimplemented:
31405a6681e2SEdward Cree * with our request for slot reset the mmio_enabled callback will never be
31415a6681e2SEdward Cree * called, and the link_reset callback is not used by AER or EEH mechanisms.
31425a6681e2SEdward Cree */
31435a6681e2SEdward Cree static const struct pci_error_handlers ef4_err_handlers = {
31445a6681e2SEdward Cree .error_detected = ef4_io_error_detected,
31455a6681e2SEdward Cree .slot_reset = ef4_io_slot_reset,
31465a6681e2SEdward Cree .resume = ef4_io_resume,
31475a6681e2SEdward Cree };
31485a6681e2SEdward Cree
31495a6681e2SEdward Cree static struct pci_driver ef4_pci_driver = {
31505a6681e2SEdward Cree .name = KBUILD_MODNAME,
31515a6681e2SEdward Cree .id_table = ef4_pci_table,
31525a6681e2SEdward Cree .probe = ef4_pci_probe,
31535a6681e2SEdward Cree .remove = ef4_pci_remove,
31545a6681e2SEdward Cree .driver.pm = &ef4_pm_ops,
31555a6681e2SEdward Cree .err_handler = &ef4_err_handlers,
31565a6681e2SEdward Cree };
31575a6681e2SEdward Cree
31585a6681e2SEdward Cree /**************************************************************************
31595a6681e2SEdward Cree *
31605a6681e2SEdward Cree * Kernel module interface
31615a6681e2SEdward Cree *
31625a6681e2SEdward Cree *************************************************************************/
31635a6681e2SEdward Cree
31645a6681e2SEdward Cree module_param(interrupt_mode, uint, 0444);
31655a6681e2SEdward Cree MODULE_PARM_DESC(interrupt_mode,
31665a6681e2SEdward Cree "Interrupt mode (0=>MSIX 1=>MSI 2=>legacy)");
31675a6681e2SEdward Cree
ef4_init_module(void)31685a6681e2SEdward Cree static int __init ef4_init_module(void)
31695a6681e2SEdward Cree {
31705a6681e2SEdward Cree int rc;
31715a6681e2SEdward Cree
31725a6681e2SEdward Cree printk(KERN_INFO "Solarflare Falcon driver v" EF4_DRIVER_VERSION "\n");
31735a6681e2SEdward Cree
31745a6681e2SEdward Cree rc = register_netdevice_notifier(&ef4_netdev_notifier);
31755a6681e2SEdward Cree if (rc)
31765a6681e2SEdward Cree goto err_notifier;
31775a6681e2SEdward Cree
31785a6681e2SEdward Cree reset_workqueue = create_singlethread_workqueue("sfc_reset");
31795a6681e2SEdward Cree if (!reset_workqueue) {
31805a6681e2SEdward Cree rc = -ENOMEM;
31815a6681e2SEdward Cree goto err_reset;
31825a6681e2SEdward Cree }
31835a6681e2SEdward Cree
31845a6681e2SEdward Cree rc = pci_register_driver(&ef4_pci_driver);
31855a6681e2SEdward Cree if (rc < 0)
31865a6681e2SEdward Cree goto err_pci;
31875a6681e2SEdward Cree
31885a6681e2SEdward Cree return 0;
31895a6681e2SEdward Cree
31905a6681e2SEdward Cree err_pci:
31915a6681e2SEdward Cree destroy_workqueue(reset_workqueue);
31925a6681e2SEdward Cree err_reset:
31935a6681e2SEdward Cree unregister_netdevice_notifier(&ef4_netdev_notifier);
31945a6681e2SEdward Cree err_notifier:
31955a6681e2SEdward Cree return rc;
31965a6681e2SEdward Cree }
31975a6681e2SEdward Cree
ef4_exit_module(void)31985a6681e2SEdward Cree static void __exit ef4_exit_module(void)
31995a6681e2SEdward Cree {
32005a6681e2SEdward Cree printk(KERN_INFO "Solarflare Falcon driver unloading\n");
32015a6681e2SEdward Cree
32025a6681e2SEdward Cree pci_unregister_driver(&ef4_pci_driver);
32035a6681e2SEdward Cree destroy_workqueue(reset_workqueue);
32045a6681e2SEdward Cree unregister_netdevice_notifier(&ef4_netdev_notifier);
32055a6681e2SEdward Cree
32065a6681e2SEdward Cree }
32075a6681e2SEdward Cree
32085a6681e2SEdward Cree module_init(ef4_init_module);
32095a6681e2SEdward Cree module_exit(ef4_exit_module);
32105a6681e2SEdward Cree
32115a6681e2SEdward Cree MODULE_AUTHOR("Solarflare Communications and "
32125a6681e2SEdward Cree "Michael Brown <mbrown@fensystems.co.uk>");
32135a6681e2SEdward Cree MODULE_DESCRIPTION("Solarflare Falcon network driver");
32145a6681e2SEdward Cree MODULE_LICENSE("GPL");
32155a6681e2SEdward Cree MODULE_DEVICE_TABLE(pci, ef4_pci_table);
3216e7072f66SEdward Cree MODULE_VERSION(EF4_DRIVER_VERSION);
3217