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*
* Copyright (c) 2015-2016 Intel Corporation. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenFabrics.org BSD license below:
*
* 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.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*******************************************************************************/
#include "i40iw_osdep.h"
#include "i40iw_register.h"
#include "i40iw_status.h"
#include "i40iw_hmc.h"
#include "i40iw_d.h"
#include "i40iw_type.h"
#include "i40iw_p.h"
#include "i40iw_vf.h"
#include "i40iw_virtchnl.h"
/**
* i40iw_find_sd_index_limit - finds segment descriptor index limit
* @hmc_info: pointer to the HMC configuration information structure
* @type: type of HMC resources we're searching
* @index: starting index for the object
* @cnt: number of objects we're trying to create
* @sd_idx: pointer to return index of the segment descriptor in question
* @sd_limit: pointer to return the maximum number of segment descriptors
*
* This function calculates the segment descriptor index and index limit
* for the resource defined by i40iw_hmc_rsrc_type.
*/
static inline void i40iw_find_sd_index_limit(struct i40iw_hmc_info *hmc_info,
u32 type,
u32 idx,
u32 cnt,
u32 *sd_idx,
u32 *sd_limit)
{
u64 fpm_addr, fpm_limit;
fpm_addr = hmc_info->hmc_obj[(type)].base +
hmc_info->hmc_obj[type].size * idx;
fpm_limit = fpm_addr + hmc_info->hmc_obj[type].size * cnt;
*sd_idx = (u32)(fpm_addr / I40IW_HMC_DIRECT_BP_SIZE);
*sd_limit = (u32)((fpm_limit - 1) / I40IW_HMC_DIRECT_BP_SIZE);
*sd_limit += 1;
}
/**
* i40iw_find_pd_index_limit - finds page descriptor index limit
* @hmc_info: pointer to the HMC configuration information struct
* @type: HMC resource type we're examining
* @idx: starting index for the object
* @cnt: number of objects we're trying to create
* @pd_index: pointer to return page descriptor index
* @pd_limit: pointer to return page descriptor index limit
*
* Calculates the page descriptor index and index limit for the resource
* defined by i40iw_hmc_rsrc_type.
*/
static inline void i40iw_find_pd_index_limit(struct i40iw_hmc_info *hmc_info,
u32 type,
u32 idx,
u32 cnt,
u32 *pd_idx,
u32 *pd_limit)
{
u64 fpm_adr, fpm_limit;
fpm_adr = hmc_info->hmc_obj[type].base +
hmc_info->hmc_obj[type].size * idx;
fpm_limit = fpm_adr + (hmc_info)->hmc_obj[(type)].size * (cnt);
*(pd_idx) = (u32)(fpm_adr / I40IW_HMC_PAGED_BP_SIZE);
*(pd_limit) = (u32)((fpm_limit - 1) / I40IW_HMC_PAGED_BP_SIZE);
*(pd_limit) += 1;
}
/**
* i40iw_set_sd_entry - setup entry for sd programming
* @pa: physical addr
* @idx: sd index
* @type: paged or direct sd
* @entry: sd entry ptr
*/
static inline void i40iw_set_sd_entry(u64 pa,
u32 idx,
enum i40iw_sd_entry_type type,
struct update_sd_entry *entry)
{
entry->data = pa | (I40IW_HMC_MAX_BP_COUNT << I40E_PFHMC_SDDATALOW_PMSDBPCOUNT_SHIFT) |
(((type == I40IW_SD_TYPE_PAGED) ? 0 : 1) <<
I40E_PFHMC_SDDATALOW_PMSDTYPE_SHIFT) |
(1 << I40E_PFHMC_SDDATALOW_PMSDVALID_SHIFT);
entry->cmd = (idx | (1 << I40E_PFHMC_SDCMD_PMSDWR_SHIFT) | (1 << 15));
}
/**
* i40iw_clr_sd_entry - setup entry for sd clear
* @idx: sd index
* @type: paged or direct sd
* @entry: sd entry ptr
*/
static inline void i40iw_clr_sd_entry(u32 idx, enum i40iw_sd_entry_type type,
struct update_sd_entry *entry)
{
entry->data = (I40IW_HMC_MAX_BP_COUNT <<
I40E_PFHMC_SDDATALOW_PMSDBPCOUNT_SHIFT) |
(((type == I40IW_SD_TYPE_PAGED) ? 0 : 1) <<
I40E_PFHMC_SDDATALOW_PMSDTYPE_SHIFT);
entry->cmd = (idx | (1 << I40E_PFHMC_SDCMD_PMSDWR_SHIFT) | (1 << 15));
}
/**
* i40iw_hmc_sd_one - setup 1 sd entry for cqp
* @dev: pointer to the device structure
* @hmc_fn_id: hmc's function id
* @pa: physical addr
* @sd_idx: sd index
* @type: paged or direct sd
* @setsd: flag to set or clear sd
*/
enum i40iw_status_code i40iw_hmc_sd_one(struct i40iw_sc_dev *dev,
u8 hmc_fn_id,
u64 pa, u32 sd_idx,
enum i40iw_sd_entry_type type,
bool setsd)
{
struct i40iw_update_sds_info sdinfo;
sdinfo.cnt = 1;
sdinfo.hmc_fn_id = hmc_fn_id;
if (setsd)
i40iw_set_sd_entry(pa, sd_idx, type, sdinfo.entry);
else
i40iw_clr_sd_entry(sd_idx, type, sdinfo.entry);
return dev->cqp->process_cqp_sds(dev, &sdinfo);
}
/**
* i40iw_hmc_sd_grp - setup group od sd entries for cqp
* @dev: pointer to the device structure
* @hmc_info: pointer to the HMC configuration information struct
* @sd_index: sd index
* @sd_cnt: number of sd entries
* @setsd: flag to set or clear sd
*/
static enum i40iw_status_code i40iw_hmc_sd_grp(struct i40iw_sc_dev *dev,
struct i40iw_hmc_info *hmc_info,
u32 sd_index,
u32 sd_cnt,
bool setsd)
{
struct i40iw_hmc_sd_entry *sd_entry;
struct i40iw_update_sds_info sdinfo;
u64 pa;
u32 i;
enum i40iw_status_code ret_code = 0;
memset(&sdinfo, 0, sizeof(sdinfo));
sdinfo.hmc_fn_id = hmc_info->hmc_fn_id;
for (i = sd_index; i < sd_index + sd_cnt; i++) {
sd_entry = &hmc_info->sd_table.sd_entry[i];
if (!sd_entry ||
(!sd_entry->valid && setsd) ||
(sd_entry->valid && !setsd))
continue;
if (setsd) {
pa = (sd_entry->entry_type == I40IW_SD_TYPE_PAGED) ?
sd_entry->u.pd_table.pd_page_addr.pa :
sd_entry->u.bp.addr.pa;
i40iw_set_sd_entry(pa, i, sd_entry->entry_type,
&sdinfo.entry[sdinfo.cnt]);
} else {
i40iw_clr_sd_entry(i, sd_entry->entry_type,
&sdinfo.entry[sdinfo.cnt]);
}
sdinfo.cnt++;
if (sdinfo.cnt == I40IW_MAX_SD_ENTRIES) {
ret_code = dev->cqp->process_cqp_sds(dev, &sdinfo);
if (ret_code) {
i40iw_debug(dev, I40IW_DEBUG_HMC,
"i40iw_hmc_sd_grp: sd_programming failed err=%d\n",
ret_code);
return ret_code;
}
sdinfo.cnt = 0;
}
}
if (sdinfo.cnt)
ret_code = dev->cqp->process_cqp_sds(dev, &sdinfo);
return ret_code;
}
/**
* i40iw_vfdev_from_fpm - return vf dev ptr for hmc function id
* @dev: pointer to the device structure
* @hmc_fn_id: hmc's function id
*/
struct i40iw_vfdev *i40iw_vfdev_from_fpm(struct i40iw_sc_dev *dev, u8 hmc_fn_id)
{
struct i40iw_vfdev *vf_dev = NULL;
u16 idx;
for (idx = 0; idx < I40IW_MAX_PE_ENABLED_VF_COUNT; idx++) {
if (dev->vf_dev[idx] &&
((u8)dev->vf_dev[idx]->pmf_index == hmc_fn_id)) {
vf_dev = dev->vf_dev[idx];
break;
}
}
return vf_dev;
}
/**
* i40iw_vf_hmcinfo_from_fpm - get ptr to hmc for func_id
* @dev: pointer to the device structure
* @hmc_fn_id: hmc's function id
*/
struct i40iw_hmc_info *i40iw_vf_hmcinfo_from_fpm(struct i40iw_sc_dev *dev,
u8 hmc_fn_id)
{
struct i40iw_hmc_info *hmc_info = NULL;
u16 idx;
for (idx = 0; idx < I40IW_MAX_PE_ENABLED_VF_COUNT; idx++) {
if (dev->vf_dev[idx] &&
((u8)dev->vf_dev[idx]->pmf_index == hmc_fn_id)) {
hmc_info = &dev->vf_dev[idx]->hmc_info;
break;
}
}
return hmc_info;
}
/**
* i40iw_hmc_finish_add_sd_reg - program sd entries for objects
* @dev: pointer to the device structure
* @info: create obj info
*/
static enum i40iw_status_code i40iw_hmc_finish_add_sd_reg(struct i40iw_sc_dev *dev,
struct i40iw_hmc_create_obj_info *info)
{
if (info->start_idx >= info->hmc_info->hmc_obj[info->rsrc_type].cnt)
return I40IW_ERR_INVALID_HMC_OBJ_INDEX;
if ((info->start_idx + info->count) >
info->hmc_info->hmc_obj[info->rsrc_type].cnt)
return I40IW_ERR_INVALID_HMC_OBJ_COUNT;
if (!info->add_sd_cnt)
return 0;
return i40iw_hmc_sd_grp(dev, info->hmc_info,
info->hmc_info->sd_indexes[0],
info->add_sd_cnt, true);
}
/**
* i40iw_create_iw_hmc_obj - allocate backing store for hmc objects
* @dev: pointer to the device structure
* @info: pointer to i40iw_hmc_iw_create_obj_info struct
*
* This will allocate memory for PDs and backing pages and populate
* the sd and pd entries.
*/
enum i40iw_status_code i40iw_sc_create_hmc_obj(struct i40iw_sc_dev *dev,
struct i40iw_hmc_create_obj_info *info)
{
struct i40iw_hmc_sd_entry *sd_entry;
u32 sd_idx, sd_lmt;
u32 pd_idx = 0, pd_lmt = 0;
u32 pd_idx1 = 0, pd_lmt1 = 0;
u32 i, j;
bool pd_error = false;
enum i40iw_status_code ret_code = 0;
if (info->start_idx >= info->hmc_info->hmc_obj[info->rsrc_type].cnt)
return I40IW_ERR_INVALID_HMC_OBJ_INDEX;
if ((info->start_idx + info->count) >
info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
i40iw_debug(dev, I40IW_DEBUG_HMC,
"%s: error type %u, start = %u, req cnt %u, cnt = %u\n",
__func__, info->rsrc_type, info->start_idx, info->count,
info->hmc_info->hmc_obj[info->rsrc_type].cnt);
return I40IW_ERR_INVALID_HMC_OBJ_COUNT;
}
if (!dev->is_pf)
return i40iw_vchnl_vf_add_hmc_objs(dev, info->rsrc_type, 0, info->count);
i40iw_find_sd_index_limit(info->hmc_info, info->rsrc_type,
info->start_idx, info->count,
&sd_idx, &sd_lmt);
if (sd_idx >= info->hmc_info->sd_table.sd_cnt ||
sd_lmt > info->hmc_info->sd_table.sd_cnt) {
return I40IW_ERR_INVALID_SD_INDEX;
}
i40iw_find_pd_index_limit(info->hmc_info, info->rsrc_type,
info->start_idx, info->count, &pd_idx, &pd_lmt);
for (j = sd_idx; j < sd_lmt; j++) {
ret_code = i40iw_add_sd_table_entry(dev->hw, info->hmc_info,
j,
info->entry_type,
I40IW_HMC_DIRECT_BP_SIZE);
if (ret_code)
goto exit_sd_error;
sd_entry = &info->hmc_info->sd_table.sd_entry[j];
if ((sd_entry->entry_type == I40IW_SD_TYPE_PAGED) &&
((dev->hmc_info == info->hmc_info) &&
(info->rsrc_type != I40IW_HMC_IW_PBLE))) {
pd_idx1 = max(pd_idx, (j * I40IW_HMC_MAX_BP_COUNT));
pd_lmt1 = min(pd_lmt,
(j + 1) * I40IW_HMC_MAX_BP_COUNT);
for (i = pd_idx1; i < pd_lmt1; i++) {
/* update the pd table entry */
ret_code = i40iw_add_pd_table_entry(dev->hw, info->hmc_info,
i, NULL);
if (ret_code) {
pd_error = true;
break;
}
}
if (pd_error) {
while (i && (i > pd_idx1)) {
i40iw_remove_pd_bp(dev->hw, info->hmc_info, (i - 1),
info->is_pf);
i--;
}
}
}
if (sd_entry->valid)
continue;
info->hmc_info->sd_indexes[info->add_sd_cnt] = (u16)j;
info->add_sd_cnt++;
sd_entry->valid = true;
}
return i40iw_hmc_finish_add_sd_reg(dev, info);
exit_sd_error:
while (j && (j > sd_idx)) {
sd_entry = &info->hmc_info->sd_table.sd_entry[j - 1];
switch (sd_entry->entry_type) {
case I40IW_SD_TYPE_PAGED:
pd_idx1 = max(pd_idx,
(j - 1) * I40IW_HMC_MAX_BP_COUNT);
pd_lmt1 = min(pd_lmt, (j * I40IW_HMC_MAX_BP_COUNT));
for (i = pd_idx1; i < pd_lmt1; i++)
i40iw_prep_remove_pd_page(info->hmc_info, i);
break;
case I40IW_SD_TYPE_DIRECT:
i40iw_prep_remove_pd_page(info->hmc_info, (j - 1));
break;
default:
ret_code = I40IW_ERR_INVALID_SD_TYPE;
break;
}
j--;
}
return ret_code;
}
/**
* i40iw_finish_del_sd_reg - delete sd entries for objects
* @dev: pointer to the device structure
* @info: dele obj info
* @reset: true if called before reset
*/
static enum i40iw_status_code i40iw_finish_del_sd_reg(struct i40iw_sc_dev *dev,
struct i40iw_hmc_del_obj_info *info,
bool reset)
{
struct i40iw_hmc_sd_entry *sd_entry;
enum i40iw_status_code ret_code = 0;
u32 i, sd_idx;
struct i40iw_dma_mem *mem;
if (dev->is_pf && !reset)
ret_code = i40iw_hmc_sd_grp(dev, info->hmc_info,
info->hmc_info->sd_indexes[0],
info->del_sd_cnt, false);
if (ret_code)
i40iw_debug(dev, I40IW_DEBUG_HMC, "%s: error cqp sd sd_grp\n", __func__);
for (i = 0; i < info->del_sd_cnt; i++) {
sd_idx = info->hmc_info->sd_indexes[i];
sd_entry = &info->hmc_info->sd_table.sd_entry[sd_idx];
if (!sd_entry)
continue;
mem = (sd_entry->entry_type == I40IW_SD_TYPE_PAGED) ?
&sd_entry->u.pd_table.pd_page_addr :
&sd_entry->u.bp.addr;
if (!mem || !mem->va)
i40iw_debug(dev, I40IW_DEBUG_HMC, "%s: error cqp sd mem\n", __func__);
else
i40iw_free_dma_mem(dev->hw, mem);
}
return ret_code;
}
/**
* i40iw_del_iw_hmc_obj - remove pe hmc objects
* @dev: pointer to the device structure
* @info: pointer to i40iw_hmc_del_obj_info struct
* @reset: true if called before reset
*
* This will de-populate the SDs and PDs. It frees
* the memory for PDS and backing storage. After this function is returned,
* caller should deallocate memory allocated previously for
* book-keeping information about PDs and backing storage.
*/
enum i40iw_status_code i40iw_sc_del_hmc_obj(struct i40iw_sc_dev *dev,
struct i40iw_hmc_del_obj_info *info,
bool reset)
{
struct i40iw_hmc_pd_table *pd_table;
u32 sd_idx, sd_lmt;
u32 pd_idx, pd_lmt, rel_pd_idx;
u32 i, j;
enum i40iw_status_code ret_code = 0;
if (info->start_idx >= info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
i40iw_debug(dev, I40IW_DEBUG_HMC,
"%s: error start_idx[%04d] >= [type %04d].cnt[%04d]\n",
__func__, info->start_idx, info->rsrc_type,
info->hmc_info->hmc_obj[info->rsrc_type].cnt);
return I40IW_ERR_INVALID_HMC_OBJ_INDEX;
}
if ((info->start_idx + info->count) >
info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
i40iw_debug(dev, I40IW_DEBUG_HMC,
"%s: error start_idx[%04d] + count %04d >= [type %04d].cnt[%04d]\n",
__func__, info->start_idx, info->count,
info->rsrc_type,
info->hmc_info->hmc_obj[info->rsrc_type].cnt);
return I40IW_ERR_INVALID_HMC_OBJ_COUNT;
}
if (!dev->is_pf) {
ret_code = i40iw_vchnl_vf_del_hmc_obj(dev, info->rsrc_type, 0,
info->count);
if (info->rsrc_type != I40IW_HMC_IW_PBLE)
return ret_code;
}
i40iw_find_pd_index_limit(info->hmc_info, info->rsrc_type,
info->start_idx, info->count, &pd_idx, &pd_lmt);
for (j = pd_idx; j < pd_lmt; j++) {
sd_idx = j / I40IW_HMC_PD_CNT_IN_SD;
if (info->hmc_info->sd_table.sd_entry[sd_idx].entry_type !=
I40IW_SD_TYPE_PAGED)
continue;
rel_pd_idx = j % I40IW_HMC_PD_CNT_IN_SD;
pd_table = &info->hmc_info->sd_table.sd_entry[sd_idx].u.pd_table;
if (pd_table->pd_entry[rel_pd_idx].valid) {
ret_code = i40iw_remove_pd_bp(dev->hw, info->hmc_info, j,
info->is_pf);
if (ret_code) {
i40iw_debug(dev, I40IW_DEBUG_HMC, "%s: error\n", __func__);
return ret_code;
}
}
}
i40iw_find_sd_index_limit(info->hmc_info, info->rsrc_type,
info->start_idx, info->count, &sd_idx, &sd_lmt);
if (sd_idx >= info->hmc_info->sd_table.sd_cnt ||
sd_lmt > info->hmc_info->sd_table.sd_cnt) {
i40iw_debug(dev, I40IW_DEBUG_HMC, "%s: error invalid sd_idx\n", __func__);
return I40IW_ERR_INVALID_SD_INDEX;
}
for (i = sd_idx; i < sd_lmt; i++) {
if (!info->hmc_info->sd_table.sd_entry[i].valid)
continue;
switch (info->hmc_info->sd_table.sd_entry[i].entry_type) {
case I40IW_SD_TYPE_DIRECT:
ret_code = i40iw_prep_remove_sd_bp(info->hmc_info, i);
if (!ret_code) {
info->hmc_info->sd_indexes[info->del_sd_cnt] = (u16)i;
info->del_sd_cnt++;
}
break;
case I40IW_SD_TYPE_PAGED:
ret_code = i40iw_prep_remove_pd_page(info->hmc_info, i);
if (!ret_code) {
info->hmc_info->sd_indexes[info->del_sd_cnt] = (u16)i;
info->del_sd_cnt++;
}
break;
default:
break;
}
}
return i40iw_finish_del_sd_reg(dev, info, reset);
}
/**
* i40iw_add_sd_table_entry - Adds a segment descriptor to the table
* @hw: pointer to our hw struct
* @hmc_info: pointer to the HMC configuration information struct
* @sd_index: segment descriptor index to manipulate
* @type: what type of segment descriptor we're manipulating
* @direct_mode_sz: size to alloc in direct mode
*/
enum i40iw_status_code i40iw_add_sd_table_entry(struct i40iw_hw *hw,
struct i40iw_hmc_info *hmc_info,
u32 sd_index,
enum i40iw_sd_entry_type type,
u64 direct_mode_sz)
{
enum i40iw_status_code ret_code = 0;
struct i40iw_hmc_sd_entry *sd_entry;
bool dma_mem_alloc_done = false;
struct i40iw_dma_mem mem;
u64 alloc_len;
sd_entry = &hmc_info->sd_table.sd_entry[sd_index];
if (!sd_entry->valid) {
if (type == I40IW_SD_TYPE_PAGED)
alloc_len = I40IW_HMC_PAGED_BP_SIZE;
else
alloc_len = direct_mode_sz;
/* allocate a 4K pd page or 2M backing page */
ret_code = i40iw_allocate_dma_mem(hw, &mem, alloc_len,
I40IW_HMC_PD_BP_BUF_ALIGNMENT);
if (ret_code)
goto exit;
dma_mem_alloc_done = true;
if (type == I40IW_SD_TYPE_PAGED) {
ret_code = i40iw_allocate_virt_mem(hw,
&sd_entry->u.pd_table.pd_entry_virt_mem,
sizeof(struct i40iw_hmc_pd_entry) * 512);
if (ret_code)
goto exit;
sd_entry->u.pd_table.pd_entry = (struct i40iw_hmc_pd_entry *)
sd_entry->u.pd_table.pd_entry_virt_mem.va;
memcpy(&sd_entry->u.pd_table.pd_page_addr, &mem, sizeof(struct i40iw_dma_mem));
} else {
memcpy(&sd_entry->u.bp.addr, &mem, sizeof(struct i40iw_dma_mem));
sd_entry->u.bp.sd_pd_index = sd_index;
}
hmc_info->sd_table.sd_entry[sd_index].entry_type = type;
I40IW_INC_SD_REFCNT(&hmc_info->sd_table);
}
if (sd_entry->entry_type == I40IW_SD_TYPE_DIRECT)
I40IW_INC_BP_REFCNT(&sd_entry->u.bp);
exit:
if (ret_code)
if (dma_mem_alloc_done)
i40iw_free_dma_mem(hw, &mem);
return ret_code;
}
/**
* i40iw_add_pd_table_entry - Adds page descriptor to the specified table
* @hw: pointer to our HW structure
* @hmc_info: pointer to the HMC configuration information structure
* @pd_index: which page descriptor index to manipulate
* @rsrc_pg: if not NULL, use preallocated page instead of allocating new one.
*
* This function:
* 1. Initializes the pd entry
* 2. Adds pd_entry in the pd_table
* 3. Mark the entry valid in i40iw_hmc_pd_entry structure
* 4. Initializes the pd_entry's ref count to 1
* assumptions:
* 1. The memory for pd should be pinned down, physically contiguous and
* aligned on 4K boundary and zeroed memory.
* 2. It should be 4K in size.
*/
enum i40iw_status_code i40iw_add_pd_table_entry(struct i40iw_hw *hw,
struct i40iw_hmc_info *hmc_info,
u32 pd_index,
struct i40iw_dma_mem *rsrc_pg)
{
enum i40iw_status_code ret_code = 0;
struct i40iw_hmc_pd_table *pd_table;
struct i40iw_hmc_pd_entry *pd_entry;
struct i40iw_dma_mem mem;
struct i40iw_dma_mem *page = &mem;
u32 sd_idx, rel_pd_idx;
u64 *pd_addr;
u64 page_desc;
if (pd_index / I40IW_HMC_PD_CNT_IN_SD >= hmc_info->sd_table.sd_cnt)
return I40IW_ERR_INVALID_PAGE_DESC_INDEX;
sd_idx = (pd_index / I40IW_HMC_PD_CNT_IN_SD);
if (hmc_info->sd_table.sd_entry[sd_idx].entry_type != I40IW_SD_TYPE_PAGED)
return 0;
rel_pd_idx = (pd_index % I40IW_HMC_PD_CNT_IN_SD);
pd_table = &hmc_info->sd_table.sd_entry[sd_idx].u.pd_table;
pd_entry = &pd_table->pd_entry[rel_pd_idx];
if (!pd_entry->valid) {
if (rsrc_pg) {
pd_entry->rsrc_pg = true;
page = rsrc_pg;
} else {
ret_code = i40iw_allocate_dma_mem(hw, page,
I40IW_HMC_PAGED_BP_SIZE,
I40IW_HMC_PD_BP_BUF_ALIGNMENT);
if (ret_code)
return ret_code;
pd_entry->rsrc_pg = false;
}
memcpy(&pd_entry->bp.addr, page, sizeof(struct i40iw_dma_mem));
pd_entry->bp.sd_pd_index = pd_index;
pd_entry->bp.entry_type = I40IW_SD_TYPE_PAGED;
page_desc = page->pa | 0x1;
pd_addr = (u64 *)pd_table->pd_page_addr.va;
pd_addr += rel_pd_idx;
memcpy(pd_addr, &page_desc, sizeof(*pd_addr));
pd_entry->sd_index = sd_idx;
pd_entry->valid = true;
I40IW_INC_PD_REFCNT(pd_table);
if (hmc_info->hmc_fn_id < I40IW_FIRST_VF_FPM_ID)
I40IW_INVALIDATE_PF_HMC_PD(hw, sd_idx, rel_pd_idx);
else if (hw->hmc.hmc_fn_id != hmc_info->hmc_fn_id)
I40IW_INVALIDATE_VF_HMC_PD(hw, sd_idx, rel_pd_idx,
hmc_info->hmc_fn_id);
}
I40IW_INC_BP_REFCNT(&pd_entry->bp);
return 0;
}
/**
* i40iw_remove_pd_bp - remove a backing page from a page descriptor
* @hw: pointer to our HW structure
* @hmc_info: pointer to the HMC configuration information structure
* @idx: the page index
* @is_pf: distinguishes a VF from a PF
*
* This function:
* 1. Marks the entry in pd table (for paged address mode) or in sd table
* (for direct address mode) invalid.
* 2. Write to register PMPDINV to invalidate the backing page in FV cache
* 3. Decrement the ref count for the pd _entry
* assumptions:
* 1. Caller can deallocate the memory used by backing storage after this
* function returns.
*/
enum i40iw_status_code i40iw_remove_pd_bp(struct i40iw_hw *hw,
struct i40iw_hmc_info *hmc_info,
u32 idx,
bool is_pf)
{
struct i40iw_hmc_pd_entry *pd_entry;
struct i40iw_hmc_pd_table *pd_table;
struct i40iw_hmc_sd_entry *sd_entry;
u32 sd_idx, rel_pd_idx;
struct i40iw_dma_mem *mem;
u64 *pd_addr;
sd_idx = idx / I40IW_HMC_PD_CNT_IN_SD;
rel_pd_idx = idx % I40IW_HMC_PD_CNT_IN_SD;
if (sd_idx >= hmc_info->sd_table.sd_cnt)
return I40IW_ERR_INVALID_PAGE_DESC_INDEX;
sd_entry = &hmc_info->sd_table.sd_entry[sd_idx];
if (sd_entry->entry_type != I40IW_SD_TYPE_PAGED)
return I40IW_ERR_INVALID_SD_TYPE;
pd_table = &hmc_info->sd_table.sd_entry[sd_idx].u.pd_table;
pd_entry = &pd_table->pd_entry[rel_pd_idx];
I40IW_DEC_BP_REFCNT(&pd_entry->bp);
if (pd_entry->bp.ref_cnt)
return 0;
pd_entry->valid = false;
I40IW_DEC_PD_REFCNT(pd_table);
pd_addr = (u64 *)pd_table->pd_page_addr.va;
pd_addr += rel_pd_idx;
memset(pd_addr, 0, sizeof(u64));
if (is_pf)
I40IW_INVALIDATE_PF_HMC_PD(hw, sd_idx, idx);
else
I40IW_INVALIDATE_VF_HMC_PD(hw, sd_idx, idx,
hmc_info->hmc_fn_id);
if (!pd_entry->rsrc_pg) {
mem = &pd_entry->bp.addr;
if (!mem || !mem->va)
return I40IW_ERR_PARAM;
i40iw_free_dma_mem(hw, mem);
}
if (!pd_table->ref_cnt)
i40iw_free_virt_mem(hw, &pd_table->pd_entry_virt_mem);
return 0;
}
/**
* i40iw_prep_remove_sd_bp - Prepares to remove a backing page from a sd entry
* @hmc_info: pointer to the HMC configuration information structure
* @idx: the page index
*/
enum i40iw_status_code i40iw_prep_remove_sd_bp(struct i40iw_hmc_info *hmc_info, u32 idx)
{
struct i40iw_hmc_sd_entry *sd_entry;
sd_entry = &hmc_info->sd_table.sd_entry[idx];
I40IW_DEC_BP_REFCNT(&sd_entry->u.bp);
if (sd_entry->u.bp.ref_cnt)
return I40IW_ERR_NOT_READY;
I40IW_DEC_SD_REFCNT(&hmc_info->sd_table);
sd_entry->valid = false;
return 0;
}
/**
* i40iw_prep_remove_pd_page - Prepares to remove a PD page from sd entry.
* @hmc_info: pointer to the HMC configuration information structure
* @idx: segment descriptor index to find the relevant page descriptor
*/
enum i40iw_status_code i40iw_prep_remove_pd_page(struct i40iw_hmc_info *hmc_info,
u32 idx)
{
struct i40iw_hmc_sd_entry *sd_entry;
sd_entry = &hmc_info->sd_table.sd_entry[idx];
if (sd_entry->u.pd_table.ref_cnt)
return I40IW_ERR_NOT_READY;
sd_entry->valid = false;
I40IW_DEC_SD_REFCNT(&hmc_info->sd_table);
return 0;
}
/**
* i40iw_pf_init_vfhmc -
* @vf_cnt_array: array of cnt values of iwarp hmc objects
* @vf_hmc_fn_id: hmc function id ofr vf driver
* @dev: pointer to i40iw_dev struct
*
* Called by pf driver to initialize hmc_info for vf driver instance.
*/
enum i40iw_status_code i40iw_pf_init_vfhmc(struct i40iw_sc_dev *dev,
u8 vf_hmc_fn_id,
u32 *vf_cnt_array)
{
struct i40iw_hmc_info *hmc_info;
enum i40iw_status_code ret_code = 0;
u32 i;
if ((vf_hmc_fn_id < I40IW_FIRST_VF_FPM_ID) ||
(vf_hmc_fn_id >= I40IW_FIRST_VF_FPM_ID +
I40IW_MAX_PE_ENABLED_VF_COUNT)) {
i40iw_debug(dev, I40IW_DEBUG_HMC, "%s: invalid vf_hmc_fn_id 0x%x\n",
__func__, vf_hmc_fn_id);
return I40IW_ERR_INVALID_HMCFN_ID;
}
ret_code = i40iw_sc_init_iw_hmc(dev, vf_hmc_fn_id);
if (ret_code)
return ret_code;
hmc_info = i40iw_vf_hmcinfo_from_fpm(dev, vf_hmc_fn_id);
for (i = I40IW_HMC_IW_QP; i < I40IW_HMC_IW_MAX; i++)
if (vf_cnt_array)
hmc_info->hmc_obj[i].cnt =
vf_cnt_array[i - I40IW_HMC_IW_QP];
else
hmc_info->hmc_obj[i].cnt = hmc_info->hmc_obj[i].max_cnt;
return 0;
}
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