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// SPDX-License-Identifier: GPL-2.0-only
/*******************************************************************************
This contains the functions to handle the enhanced descriptors.
Copyright (C) 2007-2014 STMicroelectronics Ltd
Author: Giuseppe Cavallaro <peppe.cavallaro@st.com>
*******************************************************************************/
#include <linux/stmmac.h>
#include "common.h"
#include "descs_com.h"
static int enh_desc_get_tx_status(void *data, struct stmmac_extra_stats *x,
struct dma_desc *p, void __iomem *ioaddr)
{
struct net_device_stats *stats = (struct net_device_stats *)data;
unsigned int tdes0 = le32_to_cpu(p->des0);
int ret = tx_done;
/* Get tx owner first */
if (unlikely(tdes0 & ETDES0_OWN))
return tx_dma_own;
/* Verify tx error by looking at the last segment. */
if (likely(!(tdes0 & ETDES0_LAST_SEGMENT)))
return tx_not_ls;
if (unlikely(tdes0 & ETDES0_ERROR_SUMMARY)) {
if (unlikely(tdes0 & ETDES0_JABBER_TIMEOUT))
x->tx_jabber++;
if (unlikely(tdes0 & ETDES0_FRAME_FLUSHED)) {
x->tx_frame_flushed++;
dwmac_dma_flush_tx_fifo(ioaddr);
}
if (unlikely(tdes0 & ETDES0_LOSS_CARRIER)) {
x->tx_losscarrier++;
stats->tx_carrier_errors++;
}
if (unlikely(tdes0 & ETDES0_NO_CARRIER)) {
x->tx_carrier++;
stats->tx_carrier_errors++;
}
if (unlikely((tdes0 & ETDES0_LATE_COLLISION) ||
(tdes0 & ETDES0_EXCESSIVE_COLLISIONS)))
stats->collisions +=
(tdes0 & ETDES0_COLLISION_COUNT_MASK) >> 3;
if (unlikely(tdes0 & ETDES0_EXCESSIVE_DEFERRAL))
x->tx_deferred++;
if (unlikely(tdes0 & ETDES0_UNDERFLOW_ERROR)) {
dwmac_dma_flush_tx_fifo(ioaddr);
x->tx_underflow++;
}
if (unlikely(tdes0 & ETDES0_IP_HEADER_ERROR))
x->tx_ip_header_error++;
if (unlikely(tdes0 & ETDES0_PAYLOAD_ERROR)) {
x->tx_payload_error++;
dwmac_dma_flush_tx_fifo(ioaddr);
}
ret = tx_err;
}
if (unlikely(tdes0 & ETDES0_DEFERRED))
x->tx_deferred++;
#ifdef STMMAC_VLAN_TAG_USED
if (tdes0 & ETDES0_VLAN_FRAME)
x->tx_vlan++;
#endif
return ret;
}
static int enh_desc_get_tx_len(struct dma_desc *p)
{
return (le32_to_cpu(p->des1) & ETDES1_BUFFER1_SIZE_MASK);
}
static int enh_desc_coe_rdes0(int ipc_err, int type, int payload_err)
{
int ret = good_frame;
u32 status = (type << 2 | ipc_err << 1 | payload_err) & 0x7;
/* bits 5 7 0 | Frame status
* ----------------------------------------------------------
* 0 0 0 | IEEE 802.3 Type frame (length < 1536 octects)
* 1 0 0 | IPv4/6 No CSUM errorS.
* 1 0 1 | IPv4/6 CSUM PAYLOAD error
* 1 1 0 | IPv4/6 CSUM IP HR error
* 1 1 1 | IPv4/6 IP PAYLOAD AND HEADER errorS
* 0 0 1 | IPv4/6 unsupported IP PAYLOAD
* 0 1 1 | COE bypassed.. no IPv4/6 frame
* 0 1 0 | Reserved.
*/
if (status == 0x0)
ret = llc_snap;
else if (status == 0x4)
ret = good_frame;
else if (status == 0x5)
ret = csum_none;
else if (status == 0x6)
ret = csum_none;
else if (status == 0x7)
ret = csum_none;
else if (status == 0x1)
ret = discard_frame;
else if (status == 0x3)
ret = discard_frame;
return ret;
}
static void enh_desc_get_ext_status(void *data, struct stmmac_extra_stats *x,
struct dma_extended_desc *p)
{
unsigned int rdes0 = le32_to_cpu(p->basic.des0);
unsigned int rdes4 = le32_to_cpu(p->des4);
if (unlikely(rdes0 & ERDES0_RX_MAC_ADDR)) {
int message_type = (rdes4 & ERDES4_MSG_TYPE_MASK) >> 8;
if (rdes4 & ERDES4_IP_HDR_ERR)
x->ip_hdr_err++;
if (rdes4 & ERDES4_IP_PAYLOAD_ERR)
x->ip_payload_err++;
if (rdes4 & ERDES4_IP_CSUM_BYPASSED)
x->ip_csum_bypassed++;
if (rdes4 & ERDES4_IPV4_PKT_RCVD)
x->ipv4_pkt_rcvd++;
if (rdes4 & ERDES4_IPV6_PKT_RCVD)
x->ipv6_pkt_rcvd++;
if (message_type == RDES_EXT_NO_PTP)
x->no_ptp_rx_msg_type_ext++;
else if (message_type == RDES_EXT_SYNC)
x->ptp_rx_msg_type_sync++;
else if (message_type == RDES_EXT_FOLLOW_UP)
x->ptp_rx_msg_type_follow_up++;
else if (message_type == RDES_EXT_DELAY_REQ)
x->ptp_rx_msg_type_delay_req++;
else if (message_type == RDES_EXT_DELAY_RESP)
x->ptp_rx_msg_type_delay_resp++;
else if (message_type == RDES_EXT_PDELAY_REQ)
x->ptp_rx_msg_type_pdelay_req++;
else if (message_type == RDES_EXT_PDELAY_RESP)
x->ptp_rx_msg_type_pdelay_resp++;
else if (message_type == RDES_EXT_PDELAY_FOLLOW_UP)
x->ptp_rx_msg_type_pdelay_follow_up++;
else if (message_type == RDES_PTP_ANNOUNCE)
x->ptp_rx_msg_type_announce++;
else if (message_type == RDES_PTP_MANAGEMENT)
x->ptp_rx_msg_type_management++;
else if (message_type == RDES_PTP_PKT_RESERVED_TYPE)
x->ptp_rx_msg_pkt_reserved_type++;
if (rdes4 & ERDES4_PTP_FRAME_TYPE)
x->ptp_frame_type++;
if (rdes4 & ERDES4_PTP_VER)
x->ptp_ver++;
if (rdes4 & ERDES4_TIMESTAMP_DROPPED)
x->timestamp_dropped++;
if (rdes4 & ERDES4_AV_PKT_RCVD)
x->av_pkt_rcvd++;
if (rdes4 & ERDES4_AV_TAGGED_PKT_RCVD)
x->av_tagged_pkt_rcvd++;
if ((rdes4 & ERDES4_VLAN_TAG_PRI_VAL_MASK) >> 18)
x->vlan_tag_priority_val++;
if (rdes4 & ERDES4_L3_FILTER_MATCH)
x->l3_filter_match++;
if (rdes4 & ERDES4_L4_FILTER_MATCH)
x->l4_filter_match++;
if ((rdes4 & ERDES4_L3_L4_FILT_NO_MATCH_MASK) >> 26)
x->l3_l4_filter_no_match++;
}
}
static int enh_desc_get_rx_status(void *data, struct stmmac_extra_stats *x,
struct dma_desc *p)
{
struct net_device_stats *stats = (struct net_device_stats *)data;
unsigned int rdes0 = le32_to_cpu(p->des0);
int ret = good_frame;
if (unlikely(rdes0 & RDES0_OWN))
return dma_own;
if (unlikely(!(rdes0 & RDES0_LAST_DESCRIPTOR))) {
stats->rx_length_errors++;
return discard_frame;
}
if (unlikely(rdes0 & RDES0_ERROR_SUMMARY)) {
if (unlikely(rdes0 & RDES0_DESCRIPTOR_ERROR)) {
x->rx_desc++;
stats->rx_length_errors++;
}
if (unlikely(rdes0 & RDES0_OVERFLOW_ERROR))
x->rx_gmac_overflow++;
if (unlikely(rdes0 & RDES0_IPC_CSUM_ERROR))
pr_err("\tIPC Csum Error/Giant frame\n");
if (unlikely(rdes0 & RDES0_COLLISION))
stats->collisions++;
if (unlikely(rdes0 & RDES0_RECEIVE_WATCHDOG))
x->rx_watchdog++;
if (unlikely(rdes0 & RDES0_MII_ERROR)) /* GMII */
x->rx_mii++;
if (unlikely(rdes0 & RDES0_CRC_ERROR)) {
x->rx_crc_errors++;
stats->rx_crc_errors++;
}
ret = discard_frame;
}
/* After a payload csum error, the ES bit is set.
* It doesn't match with the information reported into the databook.
* At any rate, we need to understand if the CSUM hw computation is ok
* and report this info to the upper layers. */
if (likely(ret == good_frame))
ret = enh_desc_coe_rdes0(!!(rdes0 & RDES0_IPC_CSUM_ERROR),
!!(rdes0 & RDES0_FRAME_TYPE),
!!(rdes0 & ERDES0_RX_MAC_ADDR));
if (unlikely(rdes0 & RDES0_DRIBBLING))
x->dribbling_bit++;
if (unlikely(rdes0 & RDES0_SA_FILTER_FAIL)) {
x->sa_rx_filter_fail++;
ret = discard_frame;
}
if (unlikely(rdes0 & RDES0_DA_FILTER_FAIL)) {
x->da_rx_filter_fail++;
ret = discard_frame;
}
if (unlikely(rdes0 & RDES0_LENGTH_ERROR)) {
x->rx_length++;
ret = discard_frame;
}
#ifdef STMMAC_VLAN_TAG_USED
if (rdes0 & RDES0_VLAN_TAG)
x->rx_vlan++;
#endif
return ret;
}
static void enh_desc_init_rx_desc(struct dma_desc *p, int disable_rx_ic,
int mode, int end, int bfsize)
{
int bfsize1;
p->des0 |= cpu_to_le32(RDES0_OWN);
bfsize1 = min(bfsize, BUF_SIZE_8KiB);
p->des1 |= cpu_to_le32(bfsize1 & ERDES1_BUFFER1_SIZE_MASK);
if (mode == STMMAC_CHAIN_MODE)
ehn_desc_rx_set_on_chain(p);
else
ehn_desc_rx_set_on_ring(p, end, bfsize);
if (disable_rx_ic)
p->des1 |= cpu_to_le32(ERDES1_DISABLE_IC);
}
static void enh_desc_init_tx_desc(struct dma_desc *p, int mode, int end)
{
p->des0 &= cpu_to_le32(~ETDES0_OWN);
if (mode == STMMAC_CHAIN_MODE)
enh_desc_end_tx_desc_on_chain(p);
else
enh_desc_end_tx_desc_on_ring(p, end);
}
static int enh_desc_get_tx_owner(struct dma_desc *p)
{
return (le32_to_cpu(p->des0) & ETDES0_OWN) >> 31;
}
static void enh_desc_set_tx_owner(struct dma_desc *p)
{
p->des0 |= cpu_to_le32(ETDES0_OWN);
}
static void enh_desc_set_rx_owner(struct dma_desc *p, int disable_rx_ic)
{
p->des0 |= cpu_to_le32(RDES0_OWN);
}
static int enh_desc_get_tx_ls(struct dma_desc *p)
{
return (le32_to_cpu(p->des0) & ETDES0_LAST_SEGMENT) >> 29;
}
static void enh_desc_release_tx_desc(struct dma_desc *p, int mode)
{
int ter = (le32_to_cpu(p->des0) & ETDES0_END_RING) >> 21;
memset(p, 0, offsetof(struct dma_desc, des2));
if (mode == STMMAC_CHAIN_MODE)
enh_desc_end_tx_desc_on_chain(p);
else
enh_desc_end_tx_desc_on_ring(p, ter);
}
static void enh_desc_prepare_tx_desc(struct dma_desc *p, int is_fs, int len,
bool csum_flag, int mode, bool tx_own,
bool ls, unsigned int tot_pkt_len)
{
unsigned int tdes0 = le32_to_cpu(p->des0);
if (mode == STMMAC_CHAIN_MODE)
enh_set_tx_desc_len_on_chain(p, len);
else
enh_set_tx_desc_len_on_ring(p, len);
if (is_fs)
tdes0 |= ETDES0_FIRST_SEGMENT;
else
tdes0 &= ~ETDES0_FIRST_SEGMENT;
if (likely(csum_flag))
tdes0 |= (TX_CIC_FULL << ETDES0_CHECKSUM_INSERTION_SHIFT);
else
tdes0 &= ~(TX_CIC_FULL << ETDES0_CHECKSUM_INSERTION_SHIFT);
if (ls)
tdes0 |= ETDES0_LAST_SEGMENT;
/* Finally set the OWN bit. Later the DMA will start! */
if (tx_own)
tdes0 |= ETDES0_OWN;
if (is_fs && tx_own)
/* When the own bit, for the first frame, has to be set, all
* descriptors for the same frame has to be set before, to
* avoid race condition.
*/
dma_wmb();
p->des0 = cpu_to_le32(tdes0);
}
static void enh_desc_set_tx_ic(struct dma_desc *p)
{
p->des0 |= cpu_to_le32(ETDES0_INTERRUPT);
}
static int enh_desc_get_rx_frame_len(struct dma_desc *p, int rx_coe_type)
{
unsigned int csum = 0;
/* The type-1 checksum offload engines append the checksum at
* the end of frame and the two bytes of checksum are added in
* the length.
* Adjust for that in the framelen for type-1 checksum offload
* engines.
*/
if (rx_coe_type == STMMAC_RX_COE_TYPE1)
csum = 2;
return (((le32_to_cpu(p->des0) & RDES0_FRAME_LEN_MASK)
>> RDES0_FRAME_LEN_SHIFT) - csum);
}
static void enh_desc_enable_tx_timestamp(struct dma_desc *p)
{
p->des0 |= cpu_to_le32(ETDES0_TIME_STAMP_ENABLE);
}
static int enh_desc_get_tx_timestamp_status(struct dma_desc *p)
{
return (le32_to_cpu(p->des0) & ETDES0_TIME_STAMP_STATUS) >> 17;
}
static void enh_desc_get_timestamp(void *desc, u32 ats, u64 *ts)
{
u64 ns;
if (ats) {
struct dma_extended_desc *p = (struct dma_extended_desc *)desc;
ns = le32_to_cpu(p->des6);
/* convert high/sec time stamp value to nanosecond */
ns += le32_to_cpu(p->des7) * 1000000000ULL;
} else {
struct dma_desc *p = (struct dma_desc *)desc;
ns = le32_to_cpu(p->des2);
ns += le32_to_cpu(p->des3) * 1000000000ULL;
}
*ts = ns;
}
static int enh_desc_get_rx_timestamp_status(void *desc, void *next_desc,
u32 ats)
{
if (ats) {
struct dma_extended_desc *p = (struct dma_extended_desc *)desc;
return (le32_to_cpu(p->basic.des0) & RDES0_IPC_CSUM_ERROR) >> 7;
} else {
struct dma_desc *p = (struct dma_desc *)desc;
if ((le32_to_cpu(p->des2) == 0xffffffff) &&
(le32_to_cpu(p->des3) == 0xffffffff))
/* timestamp is corrupted, hence don't store it */
return 0;
else
return 1;
}
}
static void enh_desc_display_ring(void *head, unsigned int size, bool rx,
dma_addr_t dma_rx_phy, unsigned int desc_size)
{
struct dma_extended_desc *ep = (struct dma_extended_desc *)head;
dma_addr_t dma_addr;
int i;
pr_info("Extended %s descriptor ring:\n", rx ? "RX" : "TX");
for (i = 0; i < size; i++) {
u64 x;
dma_addr = dma_rx_phy + i * sizeof(*ep);
x = *(u64 *)ep;
pr_info("%03d [%pad]: 0x%x 0x%x 0x%x 0x%x\n",
i, &dma_addr,
(unsigned int)x, (unsigned int)(x >> 32),
ep->basic.des2, ep->basic.des3);
ep++;
}
pr_info("\n");
}
static void enh_desc_get_addr(struct dma_desc *p, unsigned int *addr)
{
*addr = le32_to_cpu(p->des2);
}
static void enh_desc_set_addr(struct dma_desc *p, dma_addr_t addr)
{
p->des2 = cpu_to_le32(addr);
}
static void enh_desc_clear(struct dma_desc *p)
{
p->des2 = 0;
}
const struct stmmac_desc_ops enh_desc_ops = {
.tx_status = enh_desc_get_tx_status,
.rx_status = enh_desc_get_rx_status,
.get_tx_len = enh_desc_get_tx_len,
.init_rx_desc = enh_desc_init_rx_desc,
.init_tx_desc = enh_desc_init_tx_desc,
.get_tx_owner = enh_desc_get_tx_owner,
.release_tx_desc = enh_desc_release_tx_desc,
.prepare_tx_desc = enh_desc_prepare_tx_desc,
.set_tx_ic = enh_desc_set_tx_ic,
.get_tx_ls = enh_desc_get_tx_ls,
.set_tx_owner = enh_desc_set_tx_owner,
.set_rx_owner = enh_desc_set_rx_owner,
.get_rx_frame_len = enh_desc_get_rx_frame_len,
.rx_extended_status = enh_desc_get_ext_status,
.enable_tx_timestamp = enh_desc_enable_tx_timestamp,
.get_tx_timestamp_status = enh_desc_get_tx_timestamp_status,
.get_timestamp = enh_desc_get_timestamp,
.get_rx_timestamp_status = enh_desc_get_rx_timestamp_status,
.display_ring = enh_desc_display_ring,
.get_addr = enh_desc_get_addr,
.set_addr = enh_desc_set_addr,
.clear = enh_desc_clear,
};