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-rw-r--r--drivers/net/cxgb3/sge.c82
1 files changed, 40 insertions, 42 deletions
diff --git a/drivers/net/cxgb3/sge.c b/drivers/net/cxgb3/sge.c
index c15e43a8543b..7b13d8a31e38 100644
--- a/drivers/net/cxgb3/sge.c
+++ b/drivers/net/cxgb3/sge.c
@@ -91,6 +91,10 @@ struct rx_desc {
91 91
92struct tx_sw_desc { /* SW state per Tx descriptor */ 92struct tx_sw_desc { /* SW state per Tx descriptor */
93 struct sk_buff *skb; 93 struct sk_buff *skb;
94 u8 eop; /* set if last descriptor for packet */
95 u8 addr_idx; /* buffer index of first SGL entry in descriptor */
96 u8 fragidx; /* first page fragment associated with descriptor */
97 s8 sflit; /* start flit of first SGL entry in descriptor */
94}; 98};
95 99
96struct rx_sw_desc { /* SW state per Rx descriptor */ 100struct rx_sw_desc { /* SW state per Rx descriptor */
@@ -109,13 +113,6 @@ struct rsp_desc { /* response queue descriptor */
109 u8 intr_gen; 113 u8 intr_gen;
110}; 114};
111 115
112struct unmap_info { /* packet unmapping info, overlays skb->cb */
113 int sflit; /* start flit of first SGL entry in Tx descriptor */
114 u16 fragidx; /* first page fragment in current Tx descriptor */
115 u16 addr_idx; /* buffer index of first SGL entry in descriptor */
116 u32 len; /* mapped length of skb main body */
117};
118
119/* 116/*
120 * Holds unmapping information for Tx packets that need deferred unmapping. 117 * Holds unmapping information for Tx packets that need deferred unmapping.
121 * This structure lives at skb->head and must be allocated by callers. 118 * This structure lives at skb->head and must be allocated by callers.
@@ -209,32 +206,36 @@ static inline int need_skb_unmap(void)
209 * 206 *
210 * Unmap the main body of an sk_buff and its page fragments, if any. 207 * Unmap the main body of an sk_buff and its page fragments, if any.
211 * Because of the fairly complicated structure of our SGLs and the desire 208 * Because of the fairly complicated structure of our SGLs and the desire
212 * to conserve space for metadata, we keep the information necessary to 209 * to conserve space for metadata, the information necessary to unmap an
213 * unmap an sk_buff partly in the sk_buff itself (in its cb), and partly 210 * sk_buff is spread across the sk_buff itself (buffer lengths), the HW Tx
214 * in the Tx descriptors (the physical addresses of the various data 211 * descriptors (the physical addresses of the various data buffers), and
215 * buffers). The send functions initialize the state in skb->cb so we 212 * the SW descriptor state (assorted indices). The send functions
216 * can unmap the buffers held in the first Tx descriptor here, and we 213 * initialize the indices for the first packet descriptor so we can unmap
217 * have enough information at this point to update the state for the next 214 * the buffers held in the first Tx descriptor here, and we have enough
218 * Tx descriptor. 215 * information at this point to set the state for the next Tx descriptor.
216 *
217 * Note that it is possible to clean up the first descriptor of a packet
218 * before the send routines have written the next descriptors, but this
219 * race does not cause any problem. We just end up writing the unmapping
220 * info for the descriptor first.
219 */ 221 */
220static inline void unmap_skb(struct sk_buff *skb, struct sge_txq *q, 222static inline void unmap_skb(struct sk_buff *skb, struct sge_txq *q,
221 unsigned int cidx, struct pci_dev *pdev) 223 unsigned int cidx, struct pci_dev *pdev)
222{ 224{
223 const struct sg_ent *sgp; 225 const struct sg_ent *sgp;
224 struct unmap_info *ui = (struct unmap_info *)skb->cb; 226 struct tx_sw_desc *d = &q->sdesc[cidx];
225 int nfrags, frag_idx, curflit, j = ui->addr_idx; 227 int nfrags, frag_idx, curflit, j = d->addr_idx;
226 228
227 sgp = (struct sg_ent *)&q->desc[cidx].flit[ui->sflit]; 229 sgp = (struct sg_ent *)&q->desc[cidx].flit[d->sflit];
230 frag_idx = d->fragidx;
228 231
229 if (ui->len) { 232 if (frag_idx == 0 && skb_headlen(skb)) {
230 pci_unmap_single(pdev, be64_to_cpu(sgp->addr[0]), ui->len, 233 pci_unmap_single(pdev, be64_to_cpu(sgp->addr[0]),
231 PCI_DMA_TODEVICE); 234 skb_headlen(skb), PCI_DMA_TODEVICE);
232 ui->len = 0; /* so we know for next descriptor for this skb */
233 j = 1; 235 j = 1;
234 } 236 }
235 237
236 frag_idx = ui->fragidx; 238 curflit = d->sflit + 1 + j;
237 curflit = ui->sflit + 1 + j;
238 nfrags = skb_shinfo(skb)->nr_frags; 239 nfrags = skb_shinfo(skb)->nr_frags;
239 240
240 while (frag_idx < nfrags && curflit < WR_FLITS) { 241 while (frag_idx < nfrags && curflit < WR_FLITS) {
@@ -250,10 +251,11 @@ static inline void unmap_skb(struct sk_buff *skb, struct sge_txq *q,
250 frag_idx++; 251 frag_idx++;
251 } 252 }
252 253
253 if (frag_idx < nfrags) { /* SGL continues into next Tx descriptor */ 254 if (frag_idx < nfrags) { /* SGL continues into next Tx descriptor */
254 ui->fragidx = frag_idx; 255 d = cidx + 1 == q->size ? q->sdesc : d + 1;
255 ui->addr_idx = j; 256 d->fragidx = frag_idx;
256 ui->sflit = curflit - WR_FLITS - j; /* sflit can be -1 */ 257 d->addr_idx = j;
258 d->sflit = curflit - WR_FLITS - j; /* sflit can be -1 */
257 } 259 }
258} 260}
259 261
@@ -281,7 +283,7 @@ static void free_tx_desc(struct adapter *adapter, struct sge_txq *q,
281 if (d->skb) { /* an SGL is present */ 283 if (d->skb) { /* an SGL is present */
282 if (need_unmap) 284 if (need_unmap)
283 unmap_skb(d->skb, q, cidx, pdev); 285 unmap_skb(d->skb, q, cidx, pdev);
284 if (d->skb->priority == cidx) 286 if (d->eop)
285 kfree_skb(d->skb); 287 kfree_skb(d->skb);
286 } 288 }
287 ++d; 289 ++d;
@@ -912,15 +914,13 @@ static void write_wr_hdr_sgl(unsigned int ndesc, struct sk_buff *skb,
912 914
913 sd->skb = skb; 915 sd->skb = skb;
914 if (need_skb_unmap()) { 916 if (need_skb_unmap()) {
915 struct unmap_info *ui = (struct unmap_info *)skb->cb; 917 sd->fragidx = 0;
916 918 sd->addr_idx = 0;
917 ui->fragidx = 0; 919 sd->sflit = flits;
918 ui->addr_idx = 0;
919 ui->sflit = flits;
920 } 920 }
921 921
922 if (likely(ndesc == 1)) { 922 if (likely(ndesc == 1)) {
923 skb->priority = pidx; 923 sd->eop = 1;
924 wrp->wr_hi = htonl(F_WR_SOP | F_WR_EOP | V_WR_DATATYPE(1) | 924 wrp->wr_hi = htonl(F_WR_SOP | F_WR_EOP | V_WR_DATATYPE(1) |
925 V_WR_SGLSFLT(flits)) | wr_hi; 925 V_WR_SGLSFLT(flits)) | wr_hi;
926 wmb(); 926 wmb();
@@ -948,6 +948,7 @@ static void write_wr_hdr_sgl(unsigned int ndesc, struct sk_buff *skb,
948 948
949 fp += avail; 949 fp += avail;
950 d++; 950 d++;
951 sd->eop = 0;
951 sd++; 952 sd++;
952 if (++pidx == q->size) { 953 if (++pidx == q->size) {
953 pidx = 0; 954 pidx = 0;
@@ -966,7 +967,7 @@ static void write_wr_hdr_sgl(unsigned int ndesc, struct sk_buff *skb,
966 wr_gen2(d, gen); 967 wr_gen2(d, gen);
967 flits = 1; 968 flits = 1;
968 } 969 }
969 skb->priority = pidx; 970 sd->eop = 1;
970 wrp->wr_hi |= htonl(F_WR_EOP); 971 wrp->wr_hi |= htonl(F_WR_EOP);
971 wmb(); 972 wmb();
972 wp->wr_lo = htonl(V_WR_LEN(WR_FLITS) | V_WR_GEN(ogen)) | wr_lo; 973 wp->wr_lo = htonl(V_WR_LEN(WR_FLITS) | V_WR_GEN(ogen)) | wr_lo;
@@ -1051,8 +1052,6 @@ static void write_tx_pkt_wr(struct adapter *adap, struct sk_buff *skb,
1051 1052
1052 sgp = ndesc == 1 ? (struct sg_ent *)&d->flit[flits] : sgl; 1053 sgp = ndesc == 1 ? (struct sg_ent *)&d->flit[flits] : sgl;
1053 sgl_flits = make_sgl(skb, sgp, skb->data, skb_headlen(skb), adap->pdev); 1054 sgl_flits = make_sgl(skb, sgp, skb->data, skb_headlen(skb), adap->pdev);
1054 if (need_skb_unmap())
1055 ((struct unmap_info *)skb->cb)->len = skb_headlen(skb);
1056 1055
1057 write_wr_hdr_sgl(ndesc, skb, d, pidx, q, sgl, flits, sgl_flits, gen, 1056 write_wr_hdr_sgl(ndesc, skb, d, pidx, q, sgl, flits, sgl_flits, gen,
1058 htonl(V_WR_OP(FW_WROPCODE_TUNNEL_TX_PKT) | compl), 1057 htonl(V_WR_OP(FW_WROPCODE_TUNNEL_TX_PKT) | compl),
@@ -1380,13 +1379,14 @@ static void deferred_unmap_destructor(struct sk_buff *skb)
1380 const dma_addr_t *p; 1379 const dma_addr_t *p;
1381 const struct skb_shared_info *si; 1380 const struct skb_shared_info *si;
1382 const struct deferred_unmap_info *dui; 1381 const struct deferred_unmap_info *dui;
1383 const struct unmap_info *ui = (struct unmap_info *)skb->cb;
1384 1382
1385 dui = (struct deferred_unmap_info *)skb->head; 1383 dui = (struct deferred_unmap_info *)skb->head;
1386 p = dui->addr; 1384 p = dui->addr;
1387 1385
1388 if (ui->len) 1386 if (skb->tail - skb->transport_header)
1389 pci_unmap_single(dui->pdev, *p++, ui->len, PCI_DMA_TODEVICE); 1387 pci_unmap_single(dui->pdev, *p++,
1388 skb->tail - skb->transport_header,
1389 PCI_DMA_TODEVICE);
1390 1390
1391 si = skb_shinfo(skb); 1391 si = skb_shinfo(skb);
1392 for (i = 0; i < si->nr_frags; i++) 1392 for (i = 0; i < si->nr_frags; i++)
@@ -1451,8 +1451,6 @@ static void write_ofld_wr(struct adapter *adap, struct sk_buff *skb,
1451 if (need_skb_unmap()) { 1451 if (need_skb_unmap()) {
1452 setup_deferred_unmapping(skb, adap->pdev, sgp, sgl_flits); 1452 setup_deferred_unmapping(skb, adap->pdev, sgp, sgl_flits);
1453 skb->destructor = deferred_unmap_destructor; 1453 skb->destructor = deferred_unmap_destructor;
1454 ((struct unmap_info *)skb->cb)->len = (skb->tail -
1455 skb->transport_header);
1456 } 1454 }
1457 1455
1458 write_wr_hdr_sgl(ndesc, skb, d, pidx, q, sgl, flits, sgl_flits, 1456 write_wr_hdr_sgl(ndesc, skb, d, pidx, q, sgl, flits, sgl_flits,