提交 32cc1bb3 编写于 作者: D David S. Miller

Merge branch 'mvpp2-next'

Thomas Petazzoni says:

====================
net: mvpp2: misc improvements and preparation patches

This series contains a number of fixes, misc improvements and
preparation patches for an upcoming series that adds support for the
new PPv2.2 network controller to the mvpp2 driver.

The most significant improvements are:

 - Switching to using build_skb(), which is necessary for the upcoming
   PPv2.2 support, but anyway a good improvement to the current mvpp2
   driver (supporting PPv2.1).

 - Making the driver build on 64-bit platforms.

Changes since v3:

 - Addition of a patch "net: mvpp2: fix DMA address calculation in
   mvpp2_txq_inc_put()", which fixes a bug in the driver in the
   calculation of DMA addresses. This bug was found using
   DMA_API_DEBUG.

 - Modify the "net: mvpp2: switch to build_skb() in the RX path" patch
   to recalculate the fragment size when the MTU is changed in
   mvpp2_bm_update_mtu().

 - Added Acked-by from Russell King on all patches, except:

    * "net: mvpp2: fix DMA address calculation in
      mvpp2_txq_inc_put()", because it's a new patch

    * "net: mvpp2: switch to build_skb() in the RX path" because I
      modified it since the v3.

 - Rebased on top of 4.10.

Changes since v2:

 - Fix remaining 64-bit build warning, reported by David Miller.

 - Adjust how bit mask related definitions are done in "net: mvpp2:
   simplify MVPP2_PRS_RI_* definitions" according to Russell King
   suggestions.

 - Add a patch "net: mvpp2: remove useless arguments in
   mvpp2_rx_{pkts,time}_coal_set", suggested by Russell King.

 - Rework mvpp2_rx_time_coal_set() implementation to avoid overflows
   and rounding errors. I've used the implementation suggested by
   Russell King.

Changes since v1:

 - This series is split as a separate series from the larger patch set
   adding support for PPv2.2 in the mvpp2 driver, as requested by
   David Miller.

 - Rebased on top of v4.10-rc1.
====================
Signed-off-by: NDavid S. Miller <davem@davemloft.net>
......@@ -83,9 +83,8 @@ config MVNETA_BM
config MVPP2
tristate "Marvell Armada 375 network interface support"
depends on MACH_ARMADA_375 || COMPILE_TEST
depends on ARCH_MVEBU || COMPILE_TEST
depends on HAS_DMA
depends on !64BIT
select MVMDIO
---help---
This driver supports the network interface units in the
......
......@@ -154,6 +154,7 @@
/* Interrupt Cause and Mask registers */
#define MVPP2_ISR_RX_THRESHOLD_REG(rxq) (0x5200 + 4 * (rxq))
#define MVPP2_MAX_ISR_RX_THRESHOLD 0xfffff0
#define MVPP2_ISR_RXQ_GROUP_REG(rxq) (0x5400 + 4 * (rxq))
#define MVPP2_ISR_ENABLE_REG(port) (0x5420 + 4 * (port))
#define MVPP2_ISR_ENABLE_INTERRUPT(mask) ((mask) & 0xffff)
......@@ -252,10 +253,6 @@
#define MVPP2_SRC_ADDR_HIGH 0x28
#define MVPP2_PHY_AN_CFG0_REG 0x34
#define MVPP2_PHY_AN_STOP_SMI0_MASK BIT(7)
#define MVPP2_MIB_COUNTERS_BASE(port) (0x1000 + ((port) >> 1) * \
0x400 + (port) * 0x400)
#define MVPP2_MIB_LATE_COLLISION 0x7c
#define MVPP2_ISR_SUM_MASK_REG 0x220c
#define MVPP2_MNG_EXTENDED_GLOBAL_CTRL_REG 0x305c
#define MVPP2_EXT_GLOBAL_CTRL_DEFAULT 0x27
......@@ -513,28 +510,28 @@ enum mvpp2_tag_type {
/* Sram result info bits assignment */
#define MVPP2_PRS_RI_MAC_ME_MASK 0x1
#define MVPP2_PRS_RI_DSA_MASK 0x2
#define MVPP2_PRS_RI_VLAN_MASK 0xc
#define MVPP2_PRS_RI_VLAN_NONE ~(BIT(2) | BIT(3))
#define MVPP2_PRS_RI_VLAN_MASK (BIT(2) | BIT(3))
#define MVPP2_PRS_RI_VLAN_NONE 0x0
#define MVPP2_PRS_RI_VLAN_SINGLE BIT(2)
#define MVPP2_PRS_RI_VLAN_DOUBLE BIT(3)
#define MVPP2_PRS_RI_VLAN_TRIPLE (BIT(2) | BIT(3))
#define MVPP2_PRS_RI_CPU_CODE_MASK 0x70
#define MVPP2_PRS_RI_CPU_CODE_RX_SPEC BIT(4)
#define MVPP2_PRS_RI_L2_CAST_MASK 0x600
#define MVPP2_PRS_RI_L2_UCAST ~(BIT(9) | BIT(10))
#define MVPP2_PRS_RI_L2_CAST_MASK (BIT(9) | BIT(10))
#define MVPP2_PRS_RI_L2_UCAST 0x0
#define MVPP2_PRS_RI_L2_MCAST BIT(9)
#define MVPP2_PRS_RI_L2_BCAST BIT(10)
#define MVPP2_PRS_RI_PPPOE_MASK 0x800
#define MVPP2_PRS_RI_L3_PROTO_MASK 0x7000
#define MVPP2_PRS_RI_L3_UN ~(BIT(12) | BIT(13) | BIT(14))
#define MVPP2_PRS_RI_L3_PROTO_MASK (BIT(12) | BIT(13) | BIT(14))
#define MVPP2_PRS_RI_L3_UN 0x0
#define MVPP2_PRS_RI_L3_IP4 BIT(12)
#define MVPP2_PRS_RI_L3_IP4_OPT BIT(13)
#define MVPP2_PRS_RI_L3_IP4_OTHER (BIT(12) | BIT(13))
#define MVPP2_PRS_RI_L3_IP6 BIT(14)
#define MVPP2_PRS_RI_L3_IP6_EXT (BIT(12) | BIT(14))
#define MVPP2_PRS_RI_L3_ARP (BIT(13) | BIT(14))
#define MVPP2_PRS_RI_L3_ADDR_MASK 0x18000
#define MVPP2_PRS_RI_L3_UCAST ~(BIT(15) | BIT(16))
#define MVPP2_PRS_RI_L3_ADDR_MASK (BIT(15) | BIT(16))
#define MVPP2_PRS_RI_L3_UCAST 0x0
#define MVPP2_PRS_RI_L3_MCAST BIT(15)
#define MVPP2_PRS_RI_L3_BCAST (BIT(15) | BIT(16))
#define MVPP2_PRS_RI_IP_FRAG_MASK 0x20000
......@@ -822,9 +819,6 @@ struct mvpp2_tx_queue {
/* Per-CPU control of physical Tx queues */
struct mvpp2_txq_pcpu __percpu *pcpu;
/* Array of transmitted skb */
struct sk_buff **tx_skb;
u32 done_pkts_coal;
/* Virtual address of thex Tx DMA descriptors array */
......@@ -924,6 +918,7 @@ struct mvpp2_bm_pool {
int buf_size;
/* Packet size */
int pkt_size;
int frag_size;
/* BPPE virtual base address */
u32 *virt_addr;
......@@ -932,10 +927,6 @@ struct mvpp2_bm_pool {
/* Ports using BM pool */
u32 port_map;
/* Occupied buffers indicator */
atomic_t in_use;
int in_use_thresh;
};
struct mvpp2_buff_hdr {
......@@ -991,7 +982,7 @@ static void mvpp2_txq_inc_put(struct mvpp2_txq_pcpu *txq_pcpu,
txq_pcpu->buffs + txq_pcpu->txq_put_index;
tx_buf->skb = skb;
tx_buf->size = tx_desc->data_size;
tx_buf->phys = tx_desc->buf_phys_addr;
tx_buf->phys = tx_desc->buf_phys_addr + tx_desc->packet_offset;
txq_pcpu->txq_put_index++;
if (txq_pcpu->txq_put_index == txq_pcpu->size)
txq_pcpu->txq_put_index = 0;
......@@ -3364,6 +3355,22 @@ static void mvpp2_cls_oversize_rxq_set(struct mvpp2_port *port)
mvpp2_write(port->priv, MVPP2_CLS_SWFWD_PCTRL_REG, val);
}
static void *mvpp2_frag_alloc(const struct mvpp2_bm_pool *pool)
{
if (likely(pool->frag_size <= PAGE_SIZE))
return netdev_alloc_frag(pool->frag_size);
else
return kmalloc(pool->frag_size, GFP_ATOMIC);
}
static void mvpp2_frag_free(const struct mvpp2_bm_pool *pool, void *data)
{
if (likely(pool->frag_size <= PAGE_SIZE))
skb_free_frag(data);
else
kfree(data);
}
/* Buffer Manager configuration routines */
/* Create pool */
......@@ -3381,7 +3388,8 @@ static int mvpp2_bm_pool_create(struct platform_device *pdev,
if (!bm_pool->virt_addr)
return -ENOMEM;
if (!IS_ALIGNED((u32)bm_pool->virt_addr, MVPP2_BM_POOL_PTR_ALIGN)) {
if (!IS_ALIGNED((unsigned long)bm_pool->virt_addr,
MVPP2_BM_POOL_PTR_ALIGN)) {
dma_free_coherent(&pdev->dev, size_bytes, bm_pool->virt_addr,
bm_pool->phys_addr);
dev_err(&pdev->dev, "BM pool %d is not %d bytes aligned\n",
......@@ -3401,7 +3409,6 @@ static int mvpp2_bm_pool_create(struct platform_device *pdev,
bm_pool->size = size;
bm_pool->pkt_size = 0;
bm_pool->buf_num = 0;
atomic_set(&bm_pool->in_use, 0);
return 0;
}
......@@ -3427,7 +3434,7 @@ static void mvpp2_bm_bufs_free(struct device *dev, struct mvpp2 *priv,
for (i = 0; i < bm_pool->buf_num; i++) {
dma_addr_t buf_phys_addr;
u32 vaddr;
unsigned long vaddr;
/* Get buffer virtual address (indirect access) */
buf_phys_addr = mvpp2_read(priv,
......@@ -3439,7 +3446,8 @@ static void mvpp2_bm_bufs_free(struct device *dev, struct mvpp2 *priv,
if (!vaddr)
break;
dev_kfree_skb_any((struct sk_buff *)vaddr);
mvpp2_frag_free(bm_pool, (void *)vaddr);
}
/* Update BM driver with number of buffers removed from pool */
......@@ -3553,29 +3561,28 @@ static void mvpp2_rxq_short_pool_set(struct mvpp2_port *port,
mvpp2_write(port->priv, MVPP2_RXQ_CONFIG_REG(prxq), val);
}
/* Allocate skb for BM pool */
static struct sk_buff *mvpp2_skb_alloc(struct mvpp2_port *port,
static void *mvpp2_buf_alloc(struct mvpp2_port *port,
struct mvpp2_bm_pool *bm_pool,
dma_addr_t *buf_phys_addr,
gfp_t gfp_mask)
{
struct sk_buff *skb;
dma_addr_t phys_addr;
void *data;
skb = __dev_alloc_skb(bm_pool->pkt_size, gfp_mask);
if (!skb)
data = mvpp2_frag_alloc(bm_pool);
if (!data)
return NULL;
phys_addr = dma_map_single(port->dev->dev.parent, skb->head,
phys_addr = dma_map_single(port->dev->dev.parent, data,
MVPP2_RX_BUF_SIZE(bm_pool->pkt_size),
DMA_FROM_DEVICE);
if (unlikely(dma_mapping_error(port->dev->dev.parent, phys_addr))) {
dev_kfree_skb_any(skb);
mvpp2_frag_free(bm_pool, data);
return NULL;
}
*buf_phys_addr = phys_addr;
return skb;
return data;
}
/* Set pool number in a BM cookie */
......@@ -3590,14 +3597,15 @@ static inline u32 mvpp2_bm_cookie_pool_set(u32 cookie, int pool)
}
/* Get pool number from a BM cookie */
static inline int mvpp2_bm_cookie_pool_get(u32 cookie)
static inline int mvpp2_bm_cookie_pool_get(unsigned long cookie)
{
return (cookie >> MVPP2_BM_COOKIE_POOL_OFFS) & 0xFF;
}
/* Release buffer to BM */
static inline void mvpp2_bm_pool_put(struct mvpp2_port *port, int pool,
u32 buf_phys_addr, u32 buf_virt_addr)
dma_addr_t buf_phys_addr,
unsigned long buf_virt_addr)
{
mvpp2_write(port->priv, MVPP2_BM_VIRT_RLS_REG, buf_virt_addr);
mvpp2_write(port->priv, MVPP2_BM_PHY_RLS_REG(pool), buf_phys_addr);
......@@ -3605,7 +3613,8 @@ static inline void mvpp2_bm_pool_put(struct mvpp2_port *port, int pool,
/* Release multicast buffer */
static void mvpp2_bm_pool_mc_put(struct mvpp2_port *port, int pool,
u32 buf_phys_addr, u32 buf_virt_addr,
dma_addr_t buf_phys_addr,
unsigned long buf_virt_addr,
int mc_id)
{
u32 val = 0;
......@@ -3620,7 +3629,8 @@ static void mvpp2_bm_pool_mc_put(struct mvpp2_port *port, int pool,
/* Refill BM pool */
static void mvpp2_pool_refill(struct mvpp2_port *port, u32 bm,
u32 phys_addr, u32 cookie)
dma_addr_t phys_addr,
unsigned long cookie)
{
int pool = mvpp2_bm_cookie_pool_get(bm);
......@@ -3631,10 +3641,9 @@ static void mvpp2_pool_refill(struct mvpp2_port *port, u32 bm,
static int mvpp2_bm_bufs_add(struct mvpp2_port *port,
struct mvpp2_bm_pool *bm_pool, int buf_num)
{
struct sk_buff *skb;
int i, buf_size, total_size;
u32 bm;
dma_addr_t phys_addr;
void *buf;
buf_size = MVPP2_RX_BUF_SIZE(bm_pool->pkt_size);
total_size = MVPP2_RX_TOTAL_SIZE(buf_size);
......@@ -3647,18 +3656,17 @@ static int mvpp2_bm_bufs_add(struct mvpp2_port *port,
return 0;
}
bm = mvpp2_bm_cookie_pool_set(0, bm_pool->id);
for (i = 0; i < buf_num; i++) {
skb = mvpp2_skb_alloc(port, bm_pool, &phys_addr, GFP_KERNEL);
if (!skb)
buf = mvpp2_buf_alloc(port, bm_pool, &phys_addr, GFP_KERNEL);
if (!buf)
break;
mvpp2_pool_refill(port, bm, (u32)phys_addr, (u32)skb);
mvpp2_bm_pool_put(port, bm_pool->id, phys_addr,
(unsigned long)buf);
}
/* Update BM driver with number of buffers added to pool */
bm_pool->buf_num += i;
bm_pool->in_use_thresh = bm_pool->buf_num / 4;
netdev_dbg(port->dev,
"%s pool %d: pkt_size=%4d, buf_size=%4d, total_size=%4d\n",
......@@ -3710,6 +3718,9 @@ mvpp2_bm_pool_use(struct mvpp2_port *port, int pool, enum mvpp2_bm_type type,
port->priv, new_pool);
new_pool->pkt_size = pkt_size;
new_pool->frag_size =
SKB_DATA_ALIGN(MVPP2_RX_BUF_SIZE(pkt_size)) +
MVPP2_SKB_SHINFO_SIZE;
/* Allocate buffers for this pool */
num = mvpp2_bm_bufs_add(port, new_pool, pkts_num);
......@@ -3778,6 +3789,8 @@ static int mvpp2_bm_update_mtu(struct net_device *dev, int mtu)
}
port_pool->pkt_size = pkt_size;
port_pool->frag_size = SKB_DATA_ALIGN(MVPP2_RX_BUF_SIZE(pkt_size)) +
MVPP2_SKB_SHINFO_SIZE;
num = mvpp2_bm_bufs_add(port, port_pool, pkts_num);
if (num != pkts_num) {
WARN(1, "pool %d: %d of %d allocated\n",
......@@ -4379,27 +4392,50 @@ static void mvpp2_txp_max_tx_size_set(struct mvpp2_port *port)
* will be generated by HW.
*/
static void mvpp2_rx_pkts_coal_set(struct mvpp2_port *port,
struct mvpp2_rx_queue *rxq, u32 pkts)
struct mvpp2_rx_queue *rxq)
{
u32 val;
if (rxq->pkts_coal > MVPP2_OCCUPIED_THRESH_MASK)
rxq->pkts_coal = MVPP2_OCCUPIED_THRESH_MASK;
val = (pkts & MVPP2_OCCUPIED_THRESH_MASK);
mvpp2_write(port->priv, MVPP2_RXQ_NUM_REG, rxq->id);
mvpp2_write(port->priv, MVPP2_RXQ_THRESH_REG, val);
mvpp2_write(port->priv, MVPP2_RXQ_THRESH_REG,
rxq->pkts_coal);
}
rxq->pkts_coal = pkts;
static u32 mvpp2_usec_to_cycles(u32 usec, unsigned long clk_hz)
{
u64 tmp = (u64)clk_hz * usec;
do_div(tmp, USEC_PER_SEC);
return tmp > U32_MAX ? U32_MAX : tmp;
}
static u32 mvpp2_cycles_to_usec(u32 cycles, unsigned long clk_hz)
{
u64 tmp = (u64)cycles * USEC_PER_SEC;
do_div(tmp, clk_hz);
return tmp > U32_MAX ? U32_MAX : tmp;
}
/* Set the time delay in usec before Rx interrupt */
static void mvpp2_rx_time_coal_set(struct mvpp2_port *port,
struct mvpp2_rx_queue *rxq, u32 usec)
struct mvpp2_rx_queue *rxq)
{
u32 val;
unsigned long freq = port->priv->tclk;
u32 val = mvpp2_usec_to_cycles(rxq->time_coal, freq);
val = (port->priv->tclk / USEC_PER_SEC) * usec;
mvpp2_write(port->priv, MVPP2_ISR_RX_THRESHOLD_REG(rxq->id), val);
if (val > MVPP2_MAX_ISR_RX_THRESHOLD) {
rxq->time_coal =
mvpp2_cycles_to_usec(MVPP2_MAX_ISR_RX_THRESHOLD, freq);
/* re-evaluate to get actual register value */
val = mvpp2_usec_to_cycles(rxq->time_coal, freq);
}
rxq->time_coal = usec;
mvpp2_write(port->priv, MVPP2_ISR_RX_THRESHOLD_REG(rxq->id), val);
}
/* Free Tx queue skbuffs */
......@@ -4413,13 +4449,12 @@ static void mvpp2_txq_bufs_free(struct mvpp2_port *port,
struct mvpp2_txq_pcpu_buf *tx_buf =
txq_pcpu->buffs + txq_pcpu->txq_get_index;
mvpp2_txq_inc_get(txq_pcpu);
dma_unmap_single(port->dev->dev.parent, tx_buf->phys,
tx_buf->size, DMA_TO_DEVICE);
if (!tx_buf->skb)
continue;
if (tx_buf->skb)
dev_kfree_skb_any(tx_buf->skb);
mvpp2_txq_inc_get(txq_pcpu);
}
}
......@@ -4543,8 +4578,8 @@ static int mvpp2_rxq_init(struct mvpp2_port *port,
mvpp2_rxq_offset_set(port, rxq->id, NET_SKB_PAD);
/* Set coalescing pkts and time */
mvpp2_rx_pkts_coal_set(port, rxq, rxq->pkts_coal);
mvpp2_rx_time_coal_set(port, rxq, rxq->time_coal);
mvpp2_rx_pkts_coal_set(port, rxq);
mvpp2_rx_time_coal_set(port, rxq);
/* Add number of descriptors ready for receiving packets */
mvpp2_rxq_status_update(port, rxq->id, 0, rxq->size);
......@@ -4994,23 +5029,18 @@ static void mvpp2_rx_csum(struct mvpp2_port *port, u32 status,
/* Reuse skb if possible, or allocate a new skb and add it to BM pool */
static int mvpp2_rx_refill(struct mvpp2_port *port,
struct mvpp2_bm_pool *bm_pool,
u32 bm, int is_recycle)
struct mvpp2_bm_pool *bm_pool, u32 bm)
{
struct sk_buff *skb;
dma_addr_t phys_addr;
if (is_recycle &&
(atomic_read(&bm_pool->in_use) < bm_pool->in_use_thresh))
return 0;
void *buf;
/* No recycle or too many buffers are in use, so allocate a new skb */
skb = mvpp2_skb_alloc(port, bm_pool, &phys_addr, GFP_ATOMIC);
if (!skb)
buf = mvpp2_buf_alloc(port, bm_pool, &phys_addr, GFP_ATOMIC);
if (!buf)
return -ENOMEM;
mvpp2_pool_refill(port, bm, (u32)phys_addr, (u32)skb);
atomic_dec(&bm_pool->in_use);
mvpp2_pool_refill(port, bm, phys_addr, (unsigned long)buf);
return 0;
}
......@@ -5051,10 +5081,10 @@ static void mvpp2_buff_hdr_rx(struct mvpp2_port *port,
struct mvpp2_buff_hdr *buff_hdr;
struct sk_buff *skb;
u32 rx_status = rx_desc->status;
u32 buff_phys_addr;
u32 buff_virt_addr;
u32 buff_phys_addr_next;
u32 buff_virt_addr_next;
dma_addr_t buff_phys_addr;
unsigned long buff_virt_addr;
dma_addr_t buff_phys_addr_next;
unsigned long buff_virt_addr_next;
int mc_id;
int pool_id;
......@@ -5101,14 +5131,17 @@ static int mvpp2_rx(struct mvpp2_port *port, int rx_todo,
struct mvpp2_rx_desc *rx_desc = mvpp2_rxq_next_desc_get(rxq);
struct mvpp2_bm_pool *bm_pool;
struct sk_buff *skb;
unsigned int frag_size;
dma_addr_t phys_addr;
u32 bm, rx_status;
int pool, rx_bytes, err;
void *data;
rx_done++;
rx_status = rx_desc->status;
rx_bytes = rx_desc->data_size - MVPP2_MH_SIZE;
phys_addr = rx_desc->buf_phys_addr;
data = (void *)(uintptr_t)rx_desc->buf_cookie;
bm = mvpp2_bm_cookie_build(rx_desc);
pool = mvpp2_bm_cookie_pool_get(bm);
......@@ -5129,14 +5162,24 @@ static int mvpp2_rx(struct mvpp2_port *port, int rx_todo,
dev->stats.rx_errors++;
mvpp2_rx_error(port, rx_desc);
/* Return the buffer to the pool */
mvpp2_pool_refill(port, bm, rx_desc->buf_phys_addr,
rx_desc->buf_cookie);
continue;
}
skb = (struct sk_buff *)rx_desc->buf_cookie;
if (bm_pool->frag_size > PAGE_SIZE)
frag_size = 0;
else
frag_size = bm_pool->frag_size;
skb = build_skb(data, frag_size);
if (!skb) {
netdev_warn(port->dev, "skb build failed\n");
goto err_drop_frame;
}
err = mvpp2_rx_refill(port, bm_pool, bm, 0);
err = mvpp2_rx_refill(port, bm_pool, bm);
if (err) {
netdev_err(port->dev, "failed to refill BM pools\n");
goto err_drop_frame;
......@@ -5147,9 +5190,8 @@ static int mvpp2_rx(struct mvpp2_port *port, int rx_todo,
rcvd_pkts++;
rcvd_bytes += rx_bytes;
atomic_inc(&bm_pool->in_use);
skb_reserve(skb, MVPP2_MH_SIZE);
skb_reserve(skb, MVPP2_MH_SIZE + NET_SKB_PAD);
skb_put(skb, rx_bytes);
skb->protocol = eth_type_trans(skb, dev);
mvpp2_rx_csum(port, rx_status, skb);
......@@ -5801,8 +5843,8 @@ static int mvpp2_ethtool_set_coalesce(struct net_device *dev,
rxq->time_coal = c->rx_coalesce_usecs;
rxq->pkts_coal = c->rx_max_coalesced_frames;
mvpp2_rx_pkts_coal_set(port, rxq, rxq->pkts_coal);
mvpp2_rx_time_coal_set(port, rxq, rxq->time_coal);
mvpp2_rx_pkts_coal_set(port, rxq);
mvpp2_rx_time_coal_set(port, rxq);
}
for (queue = 0; queue < txq_number; queue++) {
......
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