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|
/******************************************************************************
*
* This file is provided under a dual BSD/GPLv2 license. When using or
* redistributing this file, you may do so under either license.
*
* GPL LICENSE SUMMARY
*
* Copyright(c) 2017 Intel Deutschland GmbH
* Copyright(c) 2018 - 2019 Intel Corporation
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* BSD LICENSE
*
* Copyright(c) 2017 Intel Deutschland GmbH
* Copyright(c) 2018 - 2019 Intel Corporation
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*****************************************************************************/
#include <net/tso.h>
#include <linux/tcp.h>
#include "iwl-debug.h"
#include "iwl-csr.h"
#include "iwl-io.h"
#include "internal.h"
#include "fw/api/tx.h"
/*
* iwl_pcie_gen2_tx_stop - Stop all Tx DMA channels
*/
void iwl_pcie_gen2_tx_stop(struct iwl_trans *trans)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
int txq_id;
/*
* This function can be called before the op_mode disabled the
* queues. This happens when we have an rfkill interrupt.
* Since we stop Tx altogether - mark the queues as stopped.
*/
memset(trans_pcie->queue_stopped, 0, sizeof(trans_pcie->queue_stopped));
memset(trans_pcie->queue_used, 0, sizeof(trans_pcie->queue_used));
/* Unmap DMA from host system and free skb's */
for (txq_id = 0; txq_id < ARRAY_SIZE(trans_pcie->txq); txq_id++) {
if (!trans_pcie->txq[txq_id])
continue;
iwl_pcie_gen2_txq_unmap(trans, txq_id);
}
}
/*
* iwl_pcie_txq_update_byte_tbl - Set up entry in Tx byte-count array
*/
static void iwl_pcie_gen2_update_byte_tbl(struct iwl_trans_pcie *trans_pcie,
struct iwl_txq *txq, u16 byte_cnt,
int num_tbs)
{
struct iwlagn_scd_bc_tbl *scd_bc_tbl = txq->bc_tbl.addr;
struct iwl_trans *trans = iwl_trans_pcie_get_trans(trans_pcie);
struct iwl_gen3_bc_tbl *scd_bc_tbl_gen3 = txq->bc_tbl.addr;
int idx = iwl_pcie_get_cmd_index(txq, txq->write_ptr);
u8 filled_tfd_size, num_fetch_chunks;
u16 len = byte_cnt;
__le16 bc_ent;
if (WARN(idx >= txq->n_window, "%d >= %d\n", idx, txq->n_window))
return;
filled_tfd_size = offsetof(struct iwl_tfh_tfd, tbs) +
num_tbs * sizeof(struct iwl_tfh_tb);
/*
* filled_tfd_size contains the number of filled bytes in the TFD.
* Dividing it by 64 will give the number of chunks to fetch
* to SRAM- 0 for one chunk, 1 for 2 and so on.
* If, for example, TFD contains only 3 TBs then 32 bytes
* of the TFD are used, and only one chunk of 64 bytes should
* be fetched
*/
num_fetch_chunks = DIV_ROUND_UP(filled_tfd_size, 64) - 1;
if (trans->trans_cfg->device_family >= IWL_DEVICE_FAMILY_AX210) {
/* Starting from AX210, the HW expects bytes */
WARN_ON(trans_pcie->bc_table_dword);
WARN_ON(len > 0x3FFF);
bc_ent = cpu_to_le16(len | (num_fetch_chunks << 14));
scd_bc_tbl_gen3->tfd_offset[idx] = bc_ent;
} else {
/* Before AX210, the HW expects DW */
WARN_ON(!trans_pcie->bc_table_dword);
len = DIV_ROUND_UP(len, 4);
WARN_ON(len > 0xFFF);
bc_ent = cpu_to_le16(len | (num_fetch_chunks << 12));
scd_bc_tbl->tfd_offset[idx] = bc_ent;
}
}
/*
* iwl_pcie_gen2_txq_inc_wr_ptr - Send new write index to hardware
*/
void iwl_pcie_gen2_txq_inc_wr_ptr(struct iwl_trans *trans,
struct iwl_txq *txq)
{
lockdep_assert_held(&txq->lock);
IWL_DEBUG_TX(trans, "Q:%d WR: 0x%x\n", txq->id, txq->write_ptr);
/*
* if not in power-save mode, uCode will never sleep when we're
* trying to tx (during RFKILL, we're not trying to tx).
*/
iwl_write32(trans, HBUS_TARG_WRPTR, txq->write_ptr | (txq->id << 16));
}
static u8 iwl_pcie_gen2_get_num_tbs(struct iwl_trans *trans,
struct iwl_tfh_tfd *tfd)
{
return le16_to_cpu(tfd->num_tbs) & 0x1f;
}
static void iwl_pcie_gen2_tfd_unmap(struct iwl_trans *trans,
struct iwl_cmd_meta *meta,
struct iwl_tfh_tfd *tfd)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
int i, num_tbs;
/* Sanity check on number of chunks */
num_tbs = iwl_pcie_gen2_get_num_tbs(trans, tfd);
if (num_tbs > trans_pcie->max_tbs) {
IWL_ERR(trans, "Too many chunks: %i\n", num_tbs);
return;
}
/* first TB is never freed - it's the bidirectional DMA data */
for (i = 1; i < num_tbs; i++) {
if (meta->tbs & BIT(i))
dma_unmap_page(trans->dev,
le64_to_cpu(tfd->tbs[i].addr),
le16_to_cpu(tfd->tbs[i].tb_len),
DMA_TO_DEVICE);
else
dma_unmap_single(trans->dev,
le64_to_cpu(tfd->tbs[i].addr),
le16_to_cpu(tfd->tbs[i].tb_len),
DMA_TO_DEVICE);
}
tfd->num_tbs = 0;
}
static void iwl_pcie_gen2_free_tfd(struct iwl_trans *trans, struct iwl_txq *txq)
{
/* rd_ptr is bounded by TFD_QUEUE_SIZE_MAX and
* idx is bounded by n_window
*/
int idx = iwl_pcie_get_cmd_index(txq, txq->read_ptr);
lockdep_assert_held(&txq->lock);
iwl_pcie_gen2_tfd_unmap(trans, &txq->entries[idx].meta,
iwl_pcie_get_tfd(trans, txq, idx));
/* free SKB */
if (txq->entries) {
struct sk_buff *skb;
skb = txq->entries[idx].skb;
/* Can be called from irqs-disabled context
* If skb is not NULL, it means that the whole queue is being
* freed and that the queue is not empty - free the skb
*/
if (skb) {
iwl_op_mode_free_skb(trans->op_mode, skb);
txq->entries[idx].skb = NULL;
}
}
}
static int iwl_pcie_gen2_set_tb(struct iwl_trans *trans,
struct iwl_tfh_tfd *tfd, dma_addr_t addr,
u16 len)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
int idx = iwl_pcie_gen2_get_num_tbs(trans, tfd);
struct iwl_tfh_tb *tb;
/*
* Only WARN here so we know about the issue, but we mess up our
* unmap path because not every place currently checks for errors
* returned from this function - it can only return an error if
* there's no more space, and so when we know there is enough we
* don't always check ...
*/
WARN(iwl_pcie_crosses_4g_boundary(addr, len),
"possible DMA problem with iova:0x%llx, len:%d\n",
(unsigned long long)addr, len);
if (WARN_ON(idx >= IWL_TFH_NUM_TBS))
return -EINVAL;
tb = &tfd->tbs[idx];
/* Each TFD can point to a maximum max_tbs Tx buffers */
if (le16_to_cpu(tfd->num_tbs) >= trans_pcie->max_tbs) {
IWL_ERR(trans, "Error can not send more than %d chunks\n",
trans_pcie->max_tbs);
return -EINVAL;
}
put_unaligned_le64(addr, &tb->addr);
tb->tb_len = cpu_to_le16(len);
tfd->num_tbs = cpu_to_le16(idx + 1);
return idx;
}
static struct page *get_workaround_page(struct iwl_trans *trans,
struct sk_buff *skb)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct page **page_ptr;
struct page *ret;
page_ptr = (void *)((u8 *)skb->cb + trans_pcie->page_offs);
ret = alloc_page(GFP_ATOMIC);
if (!ret)
return NULL;
/* set the chaining pointer to the previous page if there */
*(void **)(page_address(ret) + PAGE_SIZE - sizeof(void *)) = *page_ptr;
*page_ptr = ret;
return ret;
}
/*
* Add a TB and if needed apply the FH HW bug workaround;
* meta != NULL indicates that it's a page mapping and we
* need to dma_unmap_page() and set the meta->tbs bit in
* this case.
*/
static int iwl_pcie_gen2_set_tb_with_wa(struct iwl_trans *trans,
struct sk_buff *skb,
struct iwl_tfh_tfd *tfd,
dma_addr_t phys, void *virt,
u16 len, struct iwl_cmd_meta *meta)
{
dma_addr_t oldphys = phys;
struct page *page;
int ret;
if (unlikely(dma_mapping_error(trans->dev, phys)))
return -ENOMEM;
if (likely(!iwl_pcie_crosses_4g_boundary(phys, len))) {
ret = iwl_pcie_gen2_set_tb(trans, tfd, phys, len);
if (ret < 0)
goto unmap;
if (meta)
meta->tbs |= BIT(ret);
ret = 0;
goto trace;
}
/*
* Work around a hardware bug. If (as expressed in the
* condition above) the TB ends on a 32-bit boundary,
* then the next TB may be accessed with the wrong
* address.
* To work around it, copy the data elsewhere and make
* a new mapping for it so the device will not fail.
*/
if (WARN_ON(len > PAGE_SIZE - sizeof(void *))) {
ret = -ENOBUFS;
goto unmap;
}
page = get_workaround_page(trans, skb);
if (!page) {
ret = -ENOMEM;
goto unmap;
}
memcpy(page_address(page), virt, len);
phys = dma_map_single(trans->dev, page_address(page), len,
DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(trans->dev, phys)))
return -ENOMEM;
ret = iwl_pcie_gen2_set_tb(trans, tfd, phys, len);
if (ret < 0) {
/* unmap the new allocation as single */
oldphys = phys;
meta = NULL;
goto unmap;
}
IWL_WARN(trans,
"TB bug workaround: copied %d bytes from 0x%llx to 0x%llx\n",
len, (unsigned long long)oldphys, (unsigned long long)phys);
ret = 0;
unmap:
if (meta)
dma_unmap_page(trans->dev, oldphys, len, DMA_TO_DEVICE);
else
dma_unmap_single(trans->dev, oldphys, len, DMA_TO_DEVICE);
trace:
trace_iwlwifi_dev_tx_tb(trans->dev, skb, virt, phys, len);
return ret;
}
static int iwl_pcie_gen2_build_amsdu(struct iwl_trans *trans,
struct sk_buff *skb,
struct iwl_tfh_tfd *tfd, int start_len,
u8 hdr_len,
struct iwl_device_tx_cmd *dev_cmd)
{
#ifdef CONFIG_INET
struct iwl_tx_cmd_gen2 *tx_cmd = (void *)dev_cmd->payload;
struct ieee80211_hdr *hdr = (void *)skb->data;
unsigned int snap_ip_tcp_hdrlen, ip_hdrlen, total_len, hdr_room;
unsigned int mss = skb_shinfo(skb)->gso_size;
u16 length, amsdu_pad;
u8 *start_hdr;
struct iwl_tso_hdr_page *hdr_page;
struct tso_t tso;
trace_iwlwifi_dev_tx(trans->dev, skb, tfd, sizeof(*tfd),
&dev_cmd->hdr, start_len, 0);
ip_hdrlen = skb_transport_header(skb) - skb_network_header(skb);
snap_ip_tcp_hdrlen = 8 + ip_hdrlen + tcp_hdrlen(skb);
total_len = skb->len - snap_ip_tcp_hdrlen - hdr_len;
amsdu_pad = 0;
/* total amount of header we may need for this A-MSDU */
hdr_room = DIV_ROUND_UP(total_len, mss) *
(3 + snap_ip_tcp_hdrlen + sizeof(struct ethhdr));
/* Our device supports 9 segments at most, it will fit in 1 page */
hdr_page = get_page_hdr(trans, hdr_room, skb);
if (!hdr_page)
return -ENOMEM;
start_hdr = hdr_page->pos;
/*
* Pull the ieee80211 header to be able to use TSO core,
* we will restore it for the tx_status flow.
*/
skb_pull(skb, hdr_len);
/*
* Remove the length of all the headers that we don't actually
* have in the MPDU by themselves, but that we duplicate into
* all the different MSDUs inside the A-MSDU.
*/
le16_add_cpu(&tx_cmd->len, -snap_ip_tcp_hdrlen);
tso_start(skb, &tso);
while (total_len) {
/* this is the data left for this subframe */
unsigned int data_left = min_t(unsigned int, mss, total_len);
struct sk_buff *csum_skb = NULL;
unsigned int tb_len;
dma_addr_t tb_phys;
u8 *subf_hdrs_start = hdr_page->pos;
total_len -= data_left;
memset(hdr_page->pos, 0, amsdu_pad);
hdr_page->pos += amsdu_pad;
amsdu_pad = (4 - (sizeof(struct ethhdr) + snap_ip_tcp_hdrlen +
data_left)) & 0x3;
ether_addr_copy(hdr_page->pos, ieee80211_get_DA(hdr));
hdr_page->pos += ETH_ALEN;
ether_addr_copy(hdr_page->pos, ieee80211_get_SA(hdr));
hdr_page->pos += ETH_ALEN;
length = snap_ip_tcp_hdrlen + data_left;
*((__be16 *)hdr_page->pos) = cpu_to_be16(length);
hdr_page->pos += sizeof(length);
/*
* This will copy the SNAP as well which will be considered
* as MAC header.
*/
tso_build_hdr(skb, hdr_page->pos, &tso, data_left, !total_len);
hdr_page->pos += snap_ip_tcp_hdrlen;
tb_len = hdr_page->pos - start_hdr;
tb_phys = dma_map_single(trans->dev, start_hdr,
tb_len, DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(trans->dev, tb_phys))) {
dev_kfree_skb(csum_skb);
goto out_err;
}
/*
* No need for _with_wa, this is from the TSO page and
* we leave some space at the end of it so can't hit
* the buggy scenario.
*/
iwl_pcie_gen2_set_tb(trans, tfd, tb_phys, tb_len);
trace_iwlwifi_dev_tx_tb(trans->dev, skb, start_hdr,
tb_phys, tb_len);
/* add this subframe's headers' length to the tx_cmd */
le16_add_cpu(&tx_cmd->len, hdr_page->pos - subf_hdrs_start);
/* prepare the start_hdr for the next subframe */
start_hdr = hdr_page->pos;
/* put the payload */
while (data_left) {
int ret;
tb_len = min_t(unsigned int, tso.size, data_left);
tb_phys = dma_map_single(trans->dev, tso.data,
tb_len, DMA_TO_DEVICE);
ret = iwl_pcie_gen2_set_tb_with_wa(trans, skb, tfd,
tb_phys, tso.data,
tb_len, NULL);
if (ret) {
dev_kfree_skb(csum_skb);
goto out_err;
}
data_left -= tb_len;
tso_build_data(skb, &tso, tb_len);
}
}
/* re -add the WiFi header */
skb_push(skb, hdr_len);
return 0;
out_err:
#endif
return -EINVAL;
}
static struct
iwl_tfh_tfd *iwl_pcie_gen2_build_tx_amsdu(struct iwl_trans *trans,
struct iwl_txq *txq,
struct iwl_device_tx_cmd *dev_cmd,
struct sk_buff *skb,
struct iwl_cmd_meta *out_meta,
int hdr_len,
int tx_cmd_len)
{
int idx = iwl_pcie_get_cmd_index(txq, txq->write_ptr);
struct iwl_tfh_tfd *tfd = iwl_pcie_get_tfd(trans, txq, idx);
dma_addr_t tb_phys;
int len;
void *tb1_addr;
tb_phys = iwl_pcie_get_first_tb_dma(txq, idx);
/*
* No need for _with_wa, the first TB allocation is aligned up
* to a 64-byte boundary and thus can't be at the end or cross
* a page boundary (much less a 2^32 boundary).
*/
iwl_pcie_gen2_set_tb(trans, tfd, tb_phys, IWL_FIRST_TB_SIZE);
/*
* The second TB (tb1) points to the remainder of the TX command
* and the 802.11 header - dword aligned size
* (This calculation modifies the TX command, so do it before the
* setup of the first TB)
*/
len = tx_cmd_len + sizeof(struct iwl_cmd_header) + hdr_len -
IWL_FIRST_TB_SIZE;
/* do not align A-MSDU to dword as the subframe header aligns it */
/* map the data for TB1 */
tb1_addr = ((u8 *)&dev_cmd->hdr) + IWL_FIRST_TB_SIZE;
tb_phys = dma_map_single(trans->dev, tb1_addr, len, DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(trans->dev, tb_phys)))
goto out_err;
/*
* No need for _with_wa(), we ensure (via alignment) that the data
* here can never cross or end at a page boundary.
*/
iwl_pcie_gen2_set_tb(trans, tfd, tb_phys, len);
if (iwl_pcie_gen2_build_amsdu(trans, skb, tfd,
len + IWL_FIRST_TB_SIZE,
hdr_len, dev_cmd))
goto out_err;
/* building the A-MSDU might have changed this data, memcpy it now */
memcpy(&txq->first_tb_bufs[idx], dev_cmd, IWL_FIRST_TB_SIZE);
return tfd;
out_err:
iwl_pcie_gen2_tfd_unmap(trans, out_meta, tfd);
return NULL;
}
static int iwl_pcie_gen2_tx_add_frags(struct iwl_trans *trans,
struct sk_buff *skb,
struct iwl_tfh_tfd *tfd,
struct iwl_cmd_meta *out_meta)
{
int i;
for (i = 0; i < skb_shinfo(skb)->nr_frags; i++) {
const skb_frag_t *frag = &skb_shinfo(skb)->frags[i];
dma_addr_t tb_phys;
unsigned int fragsz = skb_frag_size(frag);
int ret;
if (!fragsz)
continue;
tb_phys = skb_frag_dma_map(trans->dev, frag, 0,
fragsz, DMA_TO_DEVICE);
ret = iwl_pcie_gen2_set_tb_with_wa(trans, skb, tfd, tb_phys,
skb_frag_address(frag),
fragsz, out_meta);
if (ret)
return ret;
}
return 0;
}
static struct
iwl_tfh_tfd *iwl_pcie_gen2_build_tx(struct iwl_trans *trans,
struct iwl_txq *txq,
struct iwl_device_tx_cmd *dev_cmd,
struct sk_buff *skb,
struct iwl_cmd_meta *out_meta,
int hdr_len,
int tx_cmd_len,
bool pad)
{
int idx = iwl_pcie_get_cmd_index(txq, txq->write_ptr);
struct iwl_tfh_tfd *tfd = iwl_pcie_get_tfd(trans, txq, idx);
dma_addr_t tb_phys;
int len, tb1_len, tb2_len;
void *tb1_addr;
struct sk_buff *frag;
tb_phys = iwl_pcie_get_first_tb_dma(txq, idx);
/* The first TB points to bi-directional DMA data */
memcpy(&txq->first_tb_bufs[idx], dev_cmd, IWL_FIRST_TB_SIZE);
/*
* No need for _with_wa, the first TB allocation is aligned up
* to a 64-byte boundary and thus can't be at the end or cross
* a page boundary (much less a 2^32 boundary).
*/
iwl_pcie_gen2_set_tb(trans, tfd, tb_phys, IWL_FIRST_TB_SIZE);
/*
* The second TB (tb1) points to the remainder of the TX command
* and the 802.11 header - dword aligned size
* (This calculation modifies the TX command, so do it before the
* setup of the first TB)
*/
len = tx_cmd_len + sizeof(struct iwl_cmd_header) + hdr_len -
IWL_FIRST_TB_SIZE;
if (pad)
tb1_len = ALIGN(len, 4);
else
tb1_len = len;
/* map the data for TB1 */
tb1_addr = ((u8 *)&dev_cmd->hdr) + IWL_FIRST_TB_SIZE;
tb_phys = dma_map_single(trans->dev, tb1_addr, tb1_len, DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(trans->dev, tb_phys)))
goto out_err;
/*
* No need for _with_wa(), we ensure (via alignment) that the data
* here can never cross or end at a page boundary.
*/
iwl_pcie_gen2_set_tb(trans, tfd, tb_phys, tb1_len);
trace_iwlwifi_dev_tx(trans->dev, skb, tfd, sizeof(*tfd), &dev_cmd->hdr,
IWL_FIRST_TB_SIZE + tb1_len, hdr_len);
/* set up TFD's third entry to point to remainder of skb's head */
tb2_len = skb_headlen(skb) - hdr_len;
if (tb2_len > 0) {
int ret;
tb_phys = dma_map_single(trans->dev, skb->data + hdr_len,
tb2_len, DMA_TO_DEVICE);
ret = iwl_pcie_gen2_set_tb_with_wa(trans, skb, tfd, tb_phys,
skb->data + hdr_len, tb2_len,
NULL);
if (ret)
goto out_err;
}
if (iwl_pcie_gen2_tx_add_frags(trans, skb, tfd, out_meta))
goto out_err;
skb_walk_frags(skb, frag) {
int ret;
tb_phys = dma_map_single(trans->dev, frag->data,
skb_headlen(frag), DMA_TO_DEVICE);
ret = iwl_pcie_gen2_set_tb_with_wa(trans, skb, tfd, tb_phys,
frag->data,
skb_headlen(frag), NULL);
if (ret)
goto out_err;
if (iwl_pcie_gen2_tx_add_frags(trans, frag, tfd, out_meta))
goto out_err;
}
return tfd;
out_err:
iwl_pcie_gen2_tfd_unmap(trans, out_meta, tfd);
return NULL;
}
static
struct iwl_tfh_tfd *iwl_pcie_gen2_build_tfd(struct iwl_trans *trans,
struct iwl_txq *txq,
struct iwl_device_tx_cmd *dev_cmd,
struct sk_buff *skb,
struct iwl_cmd_meta *out_meta)
{
struct ieee80211_hdr *hdr = (struct ieee80211_hdr *)skb->data;
int idx = iwl_pcie_get_cmd_index(txq, txq->write_ptr);
struct iwl_tfh_tfd *tfd = iwl_pcie_get_tfd(trans, txq, idx);
int len, hdr_len;
bool amsdu;
/* There must be data left over for TB1 or this code must be changed */
BUILD_BUG_ON(sizeof(struct iwl_tx_cmd_gen2) < IWL_FIRST_TB_SIZE);
memset(tfd, 0, sizeof(*tfd));
if (trans->trans_cfg->device_family < IWL_DEVICE_FAMILY_AX210)
len = sizeof(struct iwl_tx_cmd_gen2);
else
len = sizeof(struct iwl_tx_cmd_gen3);
amsdu = ieee80211_is_data_qos(hdr->frame_control) &&
(*ieee80211_get_qos_ctl(hdr) &
IEEE80211_QOS_CTL_A_MSDU_PRESENT);
hdr_len = ieee80211_hdrlen(hdr->frame_control);
/*
* Only build A-MSDUs here if doing so by GSO, otherwise it may be
* an A-MSDU for other reasons, e.g. NAN or an A-MSDU having been
* built in the higher layers already.
*/
if (amsdu && skb_shinfo(skb)->gso_size)
return iwl_pcie_gen2_build_tx_amsdu(trans, txq, dev_cmd, skb,
out_meta, hdr_len, len);
return iwl_pcie_gen2_build_tx(trans, txq, dev_cmd, skb, out_meta,
hdr_len, len, !amsdu);
}
int iwl_trans_pcie_gen2_tx(struct iwl_trans *trans, struct sk_buff *skb,
struct iwl_device_tx_cmd *dev_cmd, int txq_id)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct iwl_cmd_meta *out_meta;
struct iwl_txq *txq = trans_pcie->txq[txq_id];
u16 cmd_len;
int idx;
void *tfd;
if (WARN_ONCE(txq_id >= IWL_MAX_TVQM_QUEUES,
"queue %d out of range", txq_id))
return -EINVAL;
if (WARN_ONCE(!test_bit(txq_id, trans_pcie->queue_used),
"TX on unused queue %d\n", txq_id))
return -EINVAL;
if (skb_is_nonlinear(skb) &&
skb_shinfo(skb)->nr_frags > IWL_PCIE_MAX_FRAGS(trans_pcie) &&
__skb_linearize(skb))
return -ENOMEM;
spin_lock(&txq->lock);
if (iwl_queue_space(trans, txq) < txq->high_mark) {
iwl_stop_queue(trans, txq);
/* don't put the packet on the ring, if there is no room */
if (unlikely(iwl_queue_space(trans, txq) < 3)) {
struct iwl_device_tx_cmd **dev_cmd_ptr;
dev_cmd_ptr = (void *)((u8 *)skb->cb +
trans_pcie->dev_cmd_offs);
*dev_cmd_ptr = dev_cmd;
__skb_queue_tail(&txq->overflow_q, skb);
spin_unlock(&txq->lock);
return 0;
}
}
idx = iwl_pcie_get_cmd_index(txq, txq->write_ptr);
/* Set up driver data for this TFD */
txq->entries[idx].skb = skb;
txq->entries[idx].cmd = dev_cmd;
dev_cmd->hdr.sequence =
cpu_to_le16((u16)(QUEUE_TO_SEQ(txq_id) |
INDEX_TO_SEQ(idx)));
/* Set up first empty entry in queue's array of Tx/cmd buffers */
out_meta = &txq->entries[idx].meta;
out_meta->flags = 0;
tfd = iwl_pcie_gen2_build_tfd(trans, txq, dev_cmd, skb, out_meta);
if (!tfd) {
spin_unlock(&txq->lock);
return -1;
}
if (trans->trans_cfg->device_family >= IWL_DEVICE_FAMILY_AX210) {
struct iwl_tx_cmd_gen3 *tx_cmd_gen3 =
(void *)dev_cmd->payload;
cmd_len = le16_to_cpu(tx_cmd_gen3->len);
} else {
struct iwl_tx_cmd_gen2 *tx_cmd_gen2 =
(void *)dev_cmd->payload;
cmd_len = le16_to_cpu(tx_cmd_gen2->len);
}
/* Set up entry for this TFD in Tx byte-count array */
iwl_pcie_gen2_update_byte_tbl(trans_pcie, txq, cmd_len,
iwl_pcie_gen2_get_num_tbs(trans, tfd));
/* start timer if queue currently empty */
if (txq->read_ptr == txq->write_ptr && txq->wd_timeout)
mod_timer(&txq->stuck_timer, jiffies + txq->wd_timeout);
/* Tell device the write index *just past* this latest filled TFD */
txq->write_ptr = iwl_queue_inc_wrap(trans, txq->write_ptr);
iwl_pcie_gen2_txq_inc_wr_ptr(trans, txq);
/*
* At this point the frame is "transmitted" successfully
* and we will get a TX status notification eventually.
*/
spin_unlock(&txq->lock);
return 0;
}
/*************** HOST COMMAND QUEUE FUNCTIONS *****/
/*
* iwl_pcie_gen2_enqueue_hcmd - enqueue a uCode command
* @priv: device private data point
* @cmd: a pointer to the ucode command structure
*
* The function returns < 0 values to indicate the operation
* failed. On success, it returns the index (>= 0) of command in the
* command queue.
*/
static int iwl_pcie_gen2_enqueue_hcmd(struct iwl_trans *trans,
struct iwl_host_cmd *cmd)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct iwl_txq *txq = trans_pcie->txq[trans_pcie->cmd_queue];
struct iwl_device_cmd *out_cmd;
struct iwl_cmd_meta *out_meta;
unsigned long flags;
void *dup_buf = NULL;
dma_addr_t phys_addr;
int i, cmd_pos, idx;
u16 copy_size, cmd_size, tb0_size;
bool had_nocopy = false;
u8 group_id = iwl_cmd_groupid(cmd->id);
const u8 *cmddata[IWL_MAX_CMD_TBS_PER_TFD];
u16 cmdlen[IWL_MAX_CMD_TBS_PER_TFD];
struct iwl_tfh_tfd *tfd;
copy_size = sizeof(struct iwl_cmd_header_wide);
cmd_size = sizeof(struct iwl_cmd_header_wide);
for (i = 0; i < IWL_MAX_CMD_TBS_PER_TFD; i++) {
cmddata[i] = cmd->data[i];
cmdlen[i] = cmd->len[i];
if (!cmd->len[i])
continue;
/* need at least IWL_FIRST_TB_SIZE copied */
if (copy_size < IWL_FIRST_TB_SIZE) {
int copy = IWL_FIRST_TB_SIZE - copy_size;
if (copy > cmdlen[i])
copy = cmdlen[i];
cmdlen[i] -= copy;
cmddata[i] += copy;
copy_size += copy;
}
if (cmd->dataflags[i] & IWL_HCMD_DFL_NOCOPY) {
had_nocopy = true;
if (WARN_ON(cmd->dataflags[i] & IWL_HCMD_DFL_DUP)) {
idx = -EINVAL;
goto free_dup_buf;
}
} else if (cmd->dataflags[i] & IWL_HCMD_DFL_DUP) {
/*
* This is also a chunk that isn't copied
* to the static buffer so set had_nocopy.
*/
had_nocopy = true;
/* only allowed once */
if (WARN_ON(dup_buf)) {
idx = -EINVAL;
goto free_dup_buf;
}
dup_buf = kmemdup(cmddata[i], cmdlen[i],
GFP_ATOMIC);
if (!dup_buf)
return -ENOMEM;
} else {
/* NOCOPY must not be followed by normal! */
if (WARN_ON(had_nocopy)) {
idx = -EINVAL;
goto free_dup_buf;
}
copy_size += cmdlen[i];
}
cmd_size += cmd->len[i];
}
/*
* If any of the command structures end up being larger than the
* TFD_MAX_PAYLOAD_SIZE and they aren't dynamically allocated into
* separate TFDs, then we will need to increase the size of the buffers
*/
if (WARN(copy_size > TFD_MAX_PAYLOAD_SIZE,
"Command %s (%#x) is too large (%d bytes)\n",
iwl_get_cmd_string(trans, cmd->id), cmd->id, copy_size)) {
idx = -EINVAL;
goto free_dup_buf;
}
spin_lock_bh(&txq->lock);
idx = iwl_pcie_get_cmd_index(txq, txq->write_ptr);
tfd = iwl_pcie_get_tfd(trans, txq, txq->write_ptr);
memset(tfd, 0, sizeof(*tfd));
if (iwl_queue_space(trans, txq) < ((cmd->flags & CMD_ASYNC) ? 2 : 1)) {
spin_unlock_bh(&txq->lock);
IWL_ERR(trans, "No space in command queue\n");
iwl_op_mode_cmd_queue_full(trans->op_mode);
idx = -ENOSPC;
goto free_dup_buf;
}
out_cmd = txq->entries[idx].cmd;
out_meta = &txq->entries[idx].meta;
/* re-initialize to NULL */
memset(out_meta, 0, sizeof(*out_meta));
if (cmd->flags & CMD_WANT_SKB)
out_meta->source = cmd;
/* set up the header */
out_cmd->hdr_wide.cmd = iwl_cmd_opcode(cmd->id);
out_cmd->hdr_wide.group_id = group_id;
out_cmd->hdr_wide.version = iwl_cmd_version(cmd->id);
out_cmd->hdr_wide.length =
cpu_to_le16(cmd_size - sizeof(struct iwl_cmd_header_wide));
out_cmd->hdr_wide.reserved = 0;
out_cmd->hdr_wide.sequence =
cpu_to_le16(QUEUE_TO_SEQ(trans_pcie->cmd_queue) |
INDEX_TO_SEQ(txq->write_ptr));
cmd_pos = sizeof(struct iwl_cmd_header_wide);
copy_size = sizeof(struct iwl_cmd_header_wide);
/* and copy the data that needs to be copied */
for (i = 0; i < IWL_MAX_CMD_TBS_PER_TFD; i++) {
int copy;
if (!cmd->len[i])
continue;
/* copy everything if not nocopy/dup */
if (!(cmd->dataflags[i] & (IWL_HCMD_DFL_NOCOPY |
IWL_HCMD_DFL_DUP))) {
copy = cmd->len[i];
memcpy((u8 *)out_cmd + cmd_pos, cmd->data[i], copy);
cmd_pos += copy;
copy_size += copy;
continue;
}
/*
* Otherwise we need at least IWL_FIRST_TB_SIZE copied
* in total (for bi-directional DMA), but copy up to what
* we can fit into the payload for debug dump purposes.
*/
copy = min_t(int, TFD_MAX_PAYLOAD_SIZE - cmd_pos, cmd->len[i]);
memcpy((u8 *)out_cmd + cmd_pos, cmd->data[i], copy);
cmd_pos += copy;
/* However, treat copy_size the proper way, we need it below */
if (copy_size < IWL_FIRST_TB_SIZE) {
copy = IWL_FIRST_TB_SIZE - copy_size;
if (copy > cmd->len[i])
copy = cmd->len[i];
copy_size += copy;
}
}
IWL_DEBUG_HC(trans,
"Sending command %s (%.2x.%.2x), seq: 0x%04X, %d bytes at %d[%d]:%d\n",
iwl_get_cmd_string(trans, cmd->id), group_id,
out_cmd->hdr.cmd, le16_to_cpu(out_cmd->hdr.sequence),
cmd_size, txq->write_ptr, idx, trans_pcie->cmd_queue);
/* start the TFD with the minimum copy bytes */
tb0_size = min_t(int, copy_size, IWL_FIRST_TB_SIZE);
memcpy(&txq->first_tb_bufs[idx], out_cmd, tb0_size);
iwl_pcie_gen2_set_tb(trans, tfd, iwl_pcie_get_first_tb_dma(txq, idx),
tb0_size);
/* map first command fragment, if any remains */
if (copy_size > tb0_size) {
phys_addr = dma_map_single(trans->dev,
(u8 *)out_cmd + tb0_size,
copy_size - tb0_size,
DMA_TO_DEVICE);
if (dma_mapping_error(trans->dev, phys_addr)) {
idx = -ENOMEM;
iwl_pcie_gen2_tfd_unmap(trans, out_meta, tfd);
goto out;
}
iwl_pcie_gen2_set_tb(trans, tfd, phys_addr,
copy_size - tb0_size);
}
/* map the remaining (adjusted) nocopy/dup fragments */
for (i = 0; i < IWL_MAX_CMD_TBS_PER_TFD; i++) {
const void *data = cmddata[i];
if (!cmdlen[i])
continue;
if (!(cmd->dataflags[i] & (IWL_HCMD_DFL_NOCOPY |
IWL_HCMD_DFL_DUP)))
continue;
if (cmd->dataflags[i] & IWL_HCMD_DFL_DUP)
data = dup_buf;
phys_addr = dma_map_single(trans->dev, (void *)data,
cmdlen[i], DMA_TO_DEVICE);
if (dma_mapping_error(trans->dev, phys_addr)) {
idx = -ENOMEM;
iwl_pcie_gen2_tfd_unmap(trans, out_meta, tfd);
goto out;
}
iwl_pcie_gen2_set_tb(trans, tfd, phys_addr, cmdlen[i]);
}
BUILD_BUG_ON(IWL_TFH_NUM_TBS > sizeof(out_meta->tbs) * BITS_PER_BYTE);
out_meta->flags = cmd->flags;
if (WARN_ON_ONCE(txq->entries[idx].free_buf))
kzfree(txq->entries[idx].free_buf);
txq->entries[idx].free_buf = dup_buf;
trace_iwlwifi_dev_hcmd(trans->dev, cmd, cmd_size, &out_cmd->hdr_wide);
/* start timer if queue currently empty */
if (txq->read_ptr == txq->write_ptr && txq->wd_timeout)
mod_timer(&txq->stuck_timer, jiffies + txq->wd_timeout);
spin_lock_irqsave(&trans_pcie->reg_lock, flags);
/* Increment and update queue's write index */
txq->write_ptr = iwl_queue_inc_wrap(trans, txq->write_ptr);
iwl_pcie_gen2_txq_inc_wr_ptr(trans, txq);
spin_unlock_irqrestore(&trans_pcie->reg_lock, flags);
out:
spin_unlock_bh(&txq->lock);
free_dup_buf:
if (idx < 0)
kfree(dup_buf);
return idx;
}
#define HOST_COMPLETE_TIMEOUT (2 * HZ)
static int iwl_pcie_gen2_send_hcmd_sync(struct iwl_trans *trans,
struct iwl_host_cmd *cmd)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
const char *cmd_str = iwl_get_cmd_string(trans, cmd->id);
struct iwl_txq *txq = trans_pcie->txq[trans_pcie->cmd_queue];
int cmd_idx;
int ret;
IWL_DEBUG_INFO(trans, "Attempting to send sync command %s\n", cmd_str);
if (WARN(test_and_set_bit(STATUS_SYNC_HCMD_ACTIVE,
&trans->status),
"Command %s: a command is already active!\n", cmd_str))
return -EIO;
IWL_DEBUG_INFO(trans, "Setting HCMD_ACTIVE for command %s\n", cmd_str);
cmd_idx = iwl_pcie_gen2_enqueue_hcmd(trans, cmd);
if (cmd_idx < 0) {
ret = cmd_idx;
clear_bit(STATUS_SYNC_HCMD_ACTIVE, &trans->status);
IWL_ERR(trans, "Error sending %s: enqueue_hcmd failed: %d\n",
cmd_str, ret);
return ret;
}
ret = wait_event_timeout(trans_pcie->wait_command_queue,
!test_bit(STATUS_SYNC_HCMD_ACTIVE,
&trans->status),
HOST_COMPLETE_TIMEOUT);
if (!ret) {
IWL_ERR(trans, "Error sending %s: time out after %dms.\n",
cmd_str, jiffies_to_msecs(HOST_COMPLETE_TIMEOUT));
IWL_ERR(trans, "Current CMD queue read_ptr %d write_ptr %d\n",
txq->read_ptr, txq->write_ptr);
clear_bit(STATUS_SYNC_HCMD_ACTIVE, &trans->status);
IWL_DEBUG_INFO(trans, "Clearing HCMD_ACTIVE for command %s\n",
cmd_str);
ret = -ETIMEDOUT;
iwl_trans_pcie_sync_nmi(trans);
goto cancel;
}
if (test_bit(STATUS_FW_ERROR, &trans->status)) {
IWL_ERR(trans, "FW error in SYNC CMD %s\n", cmd_str);
dump_stack();
ret = -EIO;
goto cancel;
}
if (!(cmd->flags & CMD_SEND_IN_RFKILL) &&
test_bit(STATUS_RFKILL_OPMODE, &trans->status)) {
IWL_DEBUG_RF_KILL(trans, "RFKILL in SYNC CMD... no rsp\n");
ret = -ERFKILL;
goto cancel;
}
if ((cmd->flags & CMD_WANT_SKB) && !cmd->resp_pkt) {
IWL_ERR(trans, "Error: Response NULL in '%s'\n", cmd_str);
ret = -EIO;
goto cancel;
}
return 0;
cancel:
if (cmd->flags & CMD_WANT_SKB) {
/*
* Cancel the CMD_WANT_SKB flag for the cmd in the
* TX cmd queue. Otherwise in case the cmd comes
* in later, it will possibly set an invalid
* address (cmd->meta.source).
*/
txq->entries[cmd_idx].meta.flags &= ~CMD_WANT_SKB;
}
if (cmd->resp_pkt) {
iwl_free_resp(cmd);
cmd->resp_pkt = NULL;
}
return ret;
}
int iwl_trans_pcie_gen2_send_hcmd(struct iwl_trans *trans,
struct iwl_host_cmd *cmd)
{
if (!(cmd->flags & CMD_SEND_IN_RFKILL) &&
test_bit(STATUS_RFKILL_OPMODE, &trans->status)) {
IWL_DEBUG_RF_KILL(trans, "Dropping CMD 0x%x: RF KILL\n",
cmd->id);
return -ERFKILL;
}
if (cmd->flags & CMD_ASYNC) {
int ret;
/* An asynchronous command can not expect an SKB to be set. */
if (WARN_ON(cmd->flags & CMD_WANT_SKB))
return -EINVAL;
ret = iwl_pcie_gen2_enqueue_hcmd(trans, cmd);
if (ret < 0) {
IWL_ERR(trans,
"Error sending %s: enqueue_hcmd failed: %d\n",
iwl_get_cmd_string(trans, cmd->id), ret);
return ret;
}
return 0;
}
return iwl_pcie_gen2_send_hcmd_sync(trans, cmd);
}
/*
* iwl_pcie_gen2_txq_unmap - Unmap any remaining DMA mappings and free skb's
*/
void iwl_pcie_gen2_txq_unmap(struct iwl_trans *trans, int txq_id)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct iwl_txq *txq = trans_pcie->txq[txq_id];
spin_lock_bh(&txq->lock);
while (txq->write_ptr != txq->read_ptr) {
IWL_DEBUG_TX_REPLY(trans, "Q %d Free %d\n",
txq_id, txq->read_ptr);
if (txq_id != trans_pcie->cmd_queue) {
int idx = iwl_pcie_get_cmd_index(txq, txq->read_ptr);
struct sk_buff *skb = txq->entries[idx].skb;
if (WARN_ON_ONCE(!skb))
continue;
iwl_pcie_free_tso_page(trans_pcie, skb);
}
iwl_pcie_gen2_free_tfd(trans, txq);
txq->read_ptr = iwl_queue_inc_wrap(trans, txq->read_ptr);
}
while (!skb_queue_empty(&txq->overflow_q)) {
struct sk_buff *skb = __skb_dequeue(&txq->overflow_q);
iwl_op_mode_free_skb(trans->op_mode, skb);
}
spin_unlock_bh(&txq->lock);
/* just in case - this queue may have been stopped */
iwl_wake_queue(trans, txq);
}
void iwl_pcie_gen2_txq_free_memory(struct iwl_trans *trans,
struct iwl_txq *txq)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct device *dev = trans->dev;
/* De-alloc circular buffer of TFDs */
if (txq->tfds) {
dma_free_coherent(dev,
trans_pcie->tfd_size * txq->n_window,
txq->tfds, txq->dma_addr);
dma_free_coherent(dev,
sizeof(*txq->first_tb_bufs) * txq->n_window,
txq->first_tb_bufs, txq->first_tb_dma);
}
kfree(txq->entries);
iwl_pcie_free_dma_ptr(trans, &txq->bc_tbl);
kfree(txq);
}
/*
* iwl_pcie_txq_free - Deallocate DMA queue.
* @txq: Transmit queue to deallocate.
*
* Empty queue by removing and destroying all BD's.
* Free all buffers.
* 0-fill, but do not free "txq" descriptor structure.
*/
static void iwl_pcie_gen2_txq_free(struct iwl_trans *trans, int txq_id)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct iwl_txq *txq;
int i;
if (WARN_ONCE(txq_id >= IWL_MAX_TVQM_QUEUES,
"queue %d out of range", txq_id))
return;
txq = trans_pcie->txq[txq_id];
if (WARN_ON(!txq))
return;
iwl_pcie_gen2_txq_unmap(trans, txq_id);
/* De-alloc array of command/tx buffers */
if (txq_id == trans_pcie->cmd_queue)
for (i = 0; i < txq->n_window; i++) {
kzfree(txq->entries[i].cmd);
kzfree(txq->entries[i].free_buf);
}
del_timer_sync(&txq->stuck_timer);
iwl_pcie_gen2_txq_free_memory(trans, txq);
trans_pcie->txq[txq_id] = NULL;
clear_bit(txq_id, trans_pcie->queue_used);
}
int iwl_trans_pcie_dyn_txq_alloc_dma(struct iwl_trans *trans,
struct iwl_txq **intxq, int size,
unsigned int timeout)
{
int ret;
struct iwl_txq *txq;
txq = kzalloc(sizeof(*txq), GFP_KERNEL);
if (!txq)
return -ENOMEM;
ret = iwl_pcie_alloc_dma_ptr(trans, &txq->bc_tbl,
(trans->trans_cfg->device_family >=
IWL_DEVICE_FAMILY_AX210) ?
sizeof(struct iwl_gen3_bc_tbl) :
sizeof(struct iwlagn_scd_bc_tbl));
if (ret) {
IWL_ERR(trans, "Scheduler BC Table allocation failed\n");
kfree(txq);
return -ENOMEM;
}
ret = iwl_pcie_txq_alloc(trans, txq, size, false);
if (ret) {
IWL_ERR(trans, "Tx queue alloc failed\n");
goto error;
}
ret = iwl_pcie_txq_init(trans, txq, size, false);
if (ret) {
IWL_ERR(trans, "Tx queue init failed\n");
goto error;
}
txq->wd_timeout = msecs_to_jiffies(timeout);
*intxq = txq;
return 0;
error:
iwl_pcie_gen2_txq_free_memory(trans, txq);
return ret;
}
int iwl_trans_pcie_txq_alloc_response(struct iwl_trans *trans,
struct iwl_txq *txq,
struct iwl_host_cmd *hcmd)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct iwl_tx_queue_cfg_rsp *rsp;
int ret, qid;
u32 wr_ptr;
if (WARN_ON(iwl_rx_packet_payload_len(hcmd->resp_pkt) !=
sizeof(*rsp))) {
ret = -EINVAL;
goto error_free_resp;
}
rsp = (void *)hcmd->resp_pkt->data;
qid = le16_to_cpu(rsp->queue_number);
wr_ptr = le16_to_cpu(rsp->write_pointer);
if (qid >= ARRAY_SIZE(trans_pcie->txq)) {
WARN_ONCE(1, "queue index %d unsupported", qid);
ret = -EIO;
goto error_free_resp;
}
if (test_and_set_bit(qid, trans_pcie->queue_used)) {
WARN_ONCE(1, "queue %d already used", qid);
ret = -EIO;
goto error_free_resp;
}
txq->id = qid;
trans_pcie->txq[qid] = txq;
wr_ptr &= (trans->trans_cfg->base_params->max_tfd_queue_size - 1);
/* Place first TFD at index corresponding to start sequence number */
txq->read_ptr = wr_ptr;
txq->write_ptr = wr_ptr;
IWL_DEBUG_TX_QUEUES(trans, "Activate queue %d\n", qid);
iwl_free_resp(hcmd);
return qid;
error_free_resp:
iwl_free_resp(hcmd);
iwl_pcie_gen2_txq_free_memory(trans, txq);
return ret;
}
int iwl_trans_pcie_dyn_txq_alloc(struct iwl_trans *trans,
__le16 flags, u8 sta_id, u8 tid,
int cmd_id, int size,
unsigned int timeout)
{
struct iwl_txq *txq = NULL;
struct iwl_tx_queue_cfg_cmd cmd = {
.flags = flags,
.sta_id = sta_id,
.tid = tid,
};
struct iwl_host_cmd hcmd = {
.id = cmd_id,
.len = { sizeof(cmd) },
.data = { &cmd, },
.flags = CMD_WANT_SKB,
};
int ret;
ret = iwl_trans_pcie_dyn_txq_alloc_dma(trans, &txq, size, timeout);
if (ret)
return ret;
cmd.tfdq_addr = cpu_to_le64(txq->dma_addr);
cmd.byte_cnt_addr = cpu_to_le64(txq->bc_tbl.dma);
cmd.cb_size = cpu_to_le32(TFD_QUEUE_CB_SIZE(size));
ret = iwl_trans_send_cmd(trans, &hcmd);
if (ret)
goto error;
return iwl_trans_pcie_txq_alloc_response(trans, txq, &hcmd);
error:
iwl_pcie_gen2_txq_free_memory(trans, txq);
return ret;
}
void iwl_trans_pcie_dyn_txq_free(struct iwl_trans *trans, int queue)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
if (WARN(queue >= IWL_MAX_TVQM_QUEUES,
"queue %d out of range", queue))
return;
/*
* Upon HW Rfkill - we stop the device, and then stop the queues
* in the op_mode. Just for the sake of the simplicity of the op_mode,
* allow the op_mode to call txq_disable after it already called
* stop_device.
*/
if (!test_and_clear_bit(queue, trans_pcie->queue_used)) {
WARN_ONCE(test_bit(STATUS_DEVICE_ENABLED, &trans->status),
"queue %d not used", queue);
return;
}
iwl_pcie_gen2_txq_unmap(trans, queue);
IWL_DEBUG_TX_QUEUES(trans, "Deactivate queue %d\n", queue);
}
void iwl_pcie_gen2_tx_free(struct iwl_trans *trans)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
int i;
memset(trans_pcie->queue_used, 0, sizeof(trans_pcie->queue_used));
/* Free all TX queues */
for (i = 0; i < ARRAY_SIZE(trans_pcie->txq); i++) {
if (!trans_pcie->txq[i])
continue;
iwl_pcie_gen2_txq_free(trans, i);
}
}
int iwl_pcie_gen2_tx_init(struct iwl_trans *trans, int txq_id, int queue_size)
{
struct iwl_trans_pcie *trans_pcie = IWL_TRANS_GET_PCIE_TRANS(trans);
struct iwl_txq *queue;
int ret;
/* alloc and init the tx queue */
if (!trans_pcie->txq[txq_id]) {
queue = kzalloc(sizeof(*queue), GFP_KERNEL);
if (!queue) {
IWL_ERR(trans, "Not enough memory for tx queue\n");
return -ENOMEM;
}
trans_pcie->txq[txq_id] = queue;
ret = iwl_pcie_txq_alloc(trans, queue, queue_size, true);
if (ret) {
IWL_ERR(trans, "Tx %d queue init failed\n", txq_id);
goto error;
}
} else {
queue = trans_pcie->txq[txq_id];
}
ret = iwl_pcie_txq_init(trans, queue, queue_size,
(txq_id == trans_pcie->cmd_queue));
if (ret) {
IWL_ERR(trans, "Tx %d queue alloc failed\n", txq_id);
goto error;
}
trans_pcie->txq[txq_id]->id = txq_id;
set_bit(txq_id, trans_pcie->queue_used);
return 0;
error:
iwl_pcie_gen2_tx_free(trans);
return ret;
}
|