i40e_lan_hmc.c
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/*******************************************************************************
*
* Intel Ethernet Controller XL710 Family Linux Driver
* Copyright(c) 2013 - 2014 Intel Corporation.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*
* The full GNU General Public License is included in this distribution in
* the file called "COPYING".
*
* Contact Information:
* e1000-devel Mailing List <e1000-devel@lists.sourceforge.net>
* Intel Corporation, 5200 N.E. Elam Young Parkway, Hillsboro, OR 97124-6497
*
******************************************************************************/
#include "i40e_osdep.h"
#include "i40e_register.h"
#include "i40e_type.h"
#include "i40e_hmc.h"
#include "i40e_lan_hmc.h"
#include "i40e_prototype.h"
/* lan specific interface functions */
/**
* i40e_align_l2obj_base - aligns base object pointer to 512 bytes
* @offset: base address offset needing alignment
*
* Aligns the layer 2 function private memory so it's 512-byte aligned.
**/
static u64 i40e_align_l2obj_base(u64 offset)
{
u64 aligned_offset = offset;
if ((offset % I40E_HMC_L2OBJ_BASE_ALIGNMENT) > 0)
aligned_offset += (I40E_HMC_L2OBJ_BASE_ALIGNMENT -
(offset % I40E_HMC_L2OBJ_BASE_ALIGNMENT));
return aligned_offset;
}
/**
* i40e_calculate_l2fpm_size - calculates layer 2 FPM memory size
* @txq_num: number of Tx queues needing backing context
* @rxq_num: number of Rx queues needing backing context
* @fcoe_cntx_num: amount of FCoE statefull contexts needing backing context
* @fcoe_filt_num: number of FCoE filters needing backing context
*
* Calculates the maximum amount of memory for the function required, based
* on the number of resources it must provide context for.
**/
static u64 i40e_calculate_l2fpm_size(u32 txq_num, u32 rxq_num,
u32 fcoe_cntx_num, u32 fcoe_filt_num)
{
u64 fpm_size = 0;
fpm_size = txq_num * I40E_HMC_OBJ_SIZE_TXQ;
fpm_size = i40e_align_l2obj_base(fpm_size);
fpm_size += (rxq_num * I40E_HMC_OBJ_SIZE_RXQ);
fpm_size = i40e_align_l2obj_base(fpm_size);
fpm_size += (fcoe_cntx_num * I40E_HMC_OBJ_SIZE_FCOE_CNTX);
fpm_size = i40e_align_l2obj_base(fpm_size);
fpm_size += (fcoe_filt_num * I40E_HMC_OBJ_SIZE_FCOE_FILT);
fpm_size = i40e_align_l2obj_base(fpm_size);
return fpm_size;
}
/**
* i40e_init_lan_hmc - initialize i40e_hmc_info struct
* @hw: pointer to the HW structure
* @txq_num: number of Tx queues needing backing context
* @rxq_num: number of Rx queues needing backing context
* @fcoe_cntx_num: amount of FCoE statefull contexts needing backing context
* @fcoe_filt_num: number of FCoE filters needing backing context
*
* This function will be called once per physical function initialization.
* It will fill out the i40e_hmc_obj_info structure for LAN objects based on
* the driver's provided input, as well as information from the HMC itself
* loaded from NVRAM.
*
* Assumptions:
* - HMC Resource Profile has been selected before calling this function.
**/
i40e_status i40e_init_lan_hmc(struct i40e_hw *hw, u32 txq_num,
u32 rxq_num, u32 fcoe_cntx_num,
u32 fcoe_filt_num)
{
struct i40e_hmc_obj_info *obj, *full_obj;
i40e_status ret_code = 0;
u64 l2fpm_size;
u32 size_exp;
hw->hmc.signature = I40E_HMC_INFO_SIGNATURE;
hw->hmc.hmc_fn_id = hw->pf_id;
/* allocate memory for hmc_obj */
ret_code = i40e_allocate_virt_mem(hw, &hw->hmc.hmc_obj_virt_mem,
sizeof(struct i40e_hmc_obj_info) * I40E_HMC_LAN_MAX);
if (ret_code)
goto init_lan_hmc_out;
hw->hmc.hmc_obj = (struct i40e_hmc_obj_info *)
hw->hmc.hmc_obj_virt_mem.va;
/* The full object will be used to create the LAN HMC SD */
full_obj = &hw->hmc.hmc_obj[I40E_HMC_LAN_FULL];
full_obj->max_cnt = 0;
full_obj->cnt = 0;
full_obj->base = 0;
full_obj->size = 0;
/* Tx queue context information */
obj = &hw->hmc.hmc_obj[I40E_HMC_LAN_TX];
obj->max_cnt = rd32(hw, I40E_GLHMC_LANQMAX);
obj->cnt = txq_num;
obj->base = 0;
size_exp = rd32(hw, I40E_GLHMC_LANTXOBJSZ);
obj->size = BIT_ULL(size_exp);
/* validate values requested by driver don't exceed HMC capacity */
if (txq_num > obj->max_cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_COUNT;
hw_dbg(hw, "i40e_init_lan_hmc: Tx context: asks for 0x%x but max allowed is 0x%x, returns error %d\n",
txq_num, obj->max_cnt, ret_code);
goto init_lan_hmc_out;
}
/* aggregate values into the full LAN object for later */
full_obj->max_cnt += obj->max_cnt;
full_obj->cnt += obj->cnt;
/* Rx queue context information */
obj = &hw->hmc.hmc_obj[I40E_HMC_LAN_RX];
obj->max_cnt = rd32(hw, I40E_GLHMC_LANQMAX);
obj->cnt = rxq_num;
obj->base = hw->hmc.hmc_obj[I40E_HMC_LAN_TX].base +
(hw->hmc.hmc_obj[I40E_HMC_LAN_TX].cnt *
hw->hmc.hmc_obj[I40E_HMC_LAN_TX].size);
obj->base = i40e_align_l2obj_base(obj->base);
size_exp = rd32(hw, I40E_GLHMC_LANRXOBJSZ);
obj->size = BIT_ULL(size_exp);
/* validate values requested by driver don't exceed HMC capacity */
if (rxq_num > obj->max_cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_COUNT;
hw_dbg(hw, "i40e_init_lan_hmc: Rx context: asks for 0x%x but max allowed is 0x%x, returns error %d\n",
rxq_num, obj->max_cnt, ret_code);
goto init_lan_hmc_out;
}
/* aggregate values into the full LAN object for later */
full_obj->max_cnt += obj->max_cnt;
full_obj->cnt += obj->cnt;
/* FCoE context information */
obj = &hw->hmc.hmc_obj[I40E_HMC_FCOE_CTX];
obj->max_cnt = rd32(hw, I40E_GLHMC_FCOEMAX);
obj->cnt = fcoe_cntx_num;
obj->base = hw->hmc.hmc_obj[I40E_HMC_LAN_RX].base +
(hw->hmc.hmc_obj[I40E_HMC_LAN_RX].cnt *
hw->hmc.hmc_obj[I40E_HMC_LAN_RX].size);
obj->base = i40e_align_l2obj_base(obj->base);
size_exp = rd32(hw, I40E_GLHMC_FCOEDDPOBJSZ);
obj->size = BIT_ULL(size_exp);
/* validate values requested by driver don't exceed HMC capacity */
if (fcoe_cntx_num > obj->max_cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_COUNT;
hw_dbg(hw, "i40e_init_lan_hmc: FCoE context: asks for 0x%x but max allowed is 0x%x, returns error %d\n",
fcoe_cntx_num, obj->max_cnt, ret_code);
goto init_lan_hmc_out;
}
/* aggregate values into the full LAN object for later */
full_obj->max_cnt += obj->max_cnt;
full_obj->cnt += obj->cnt;
/* FCoE filter information */
obj = &hw->hmc.hmc_obj[I40E_HMC_FCOE_FILT];
obj->max_cnt = rd32(hw, I40E_GLHMC_FCOEFMAX);
obj->cnt = fcoe_filt_num;
obj->base = hw->hmc.hmc_obj[I40E_HMC_FCOE_CTX].base +
(hw->hmc.hmc_obj[I40E_HMC_FCOE_CTX].cnt *
hw->hmc.hmc_obj[I40E_HMC_FCOE_CTX].size);
obj->base = i40e_align_l2obj_base(obj->base);
size_exp = rd32(hw, I40E_GLHMC_FCOEFOBJSZ);
obj->size = BIT_ULL(size_exp);
/* validate values requested by driver don't exceed HMC capacity */
if (fcoe_filt_num > obj->max_cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_COUNT;
hw_dbg(hw, "i40e_init_lan_hmc: FCoE filter: asks for 0x%x but max allowed is 0x%x, returns error %d\n",
fcoe_filt_num, obj->max_cnt, ret_code);
goto init_lan_hmc_out;
}
/* aggregate values into the full LAN object for later */
full_obj->max_cnt += obj->max_cnt;
full_obj->cnt += obj->cnt;
hw->hmc.first_sd_index = 0;
hw->hmc.sd_table.ref_cnt = 0;
l2fpm_size = i40e_calculate_l2fpm_size(txq_num, rxq_num, fcoe_cntx_num,
fcoe_filt_num);
if (NULL == hw->hmc.sd_table.sd_entry) {
hw->hmc.sd_table.sd_cnt = (u32)
(l2fpm_size + I40E_HMC_DIRECT_BP_SIZE - 1) /
I40E_HMC_DIRECT_BP_SIZE;
/* allocate the sd_entry members in the sd_table */
ret_code = i40e_allocate_virt_mem(hw, &hw->hmc.sd_table.addr,
(sizeof(struct i40e_hmc_sd_entry) *
hw->hmc.sd_table.sd_cnt));
if (ret_code)
goto init_lan_hmc_out;
hw->hmc.sd_table.sd_entry =
(struct i40e_hmc_sd_entry *)hw->hmc.sd_table.addr.va;
}
/* store in the LAN full object for later */
full_obj->size = l2fpm_size;
init_lan_hmc_out:
return ret_code;
}
/**
* i40e_remove_pd_page - Remove a page from the page descriptor table
* @hw: pointer to the HW structure
* @hmc_info: pointer to the HMC configuration information structure
* @idx: segment descriptor index to find the relevant page descriptor
*
* This function:
* 1. Marks the entry in pd table (for paged address mode) invalid
* 2. write to register PMPDINV to invalidate the backing page in FV cache
* 3. Decrement the ref count for pd_entry
* assumptions:
* 1. caller can deallocate the memory used by pd after this function
* returns.
**/
static i40e_status i40e_remove_pd_page(struct i40e_hw *hw,
struct i40e_hmc_info *hmc_info,
u32 idx)
{
i40e_status ret_code = 0;
if (!i40e_prep_remove_pd_page(hmc_info, idx))
ret_code = i40e_remove_pd_page_new(hw, hmc_info, idx, true);
return ret_code;
}
/**
* i40e_remove_sd_bp - remove a backing page from a segment descriptor
* @hw: pointer to our HW structure
* @hmc_info: pointer to the HMC configuration information structure
* @idx: the page index
*
* This function:
* 1. Marks the entry in sd table (for direct address mode) invalid
* 2. write to register PMSDCMD, PMSDDATALOW(PMSDDATALOW.PMSDVALID set
* to 0) and PMSDDATAHIGH to invalidate the sd page
* 3. Decrement the ref count for the sd_entry
* assumptions:
* 1. caller can deallocate the memory used by backing storage after this
* function returns.
**/
static i40e_status i40e_remove_sd_bp(struct i40e_hw *hw,
struct i40e_hmc_info *hmc_info,
u32 idx)
{
i40e_status ret_code = 0;
if (!i40e_prep_remove_sd_bp(hmc_info, idx))
ret_code = i40e_remove_sd_bp_new(hw, hmc_info, idx, true);
return ret_code;
}
/**
* i40e_create_lan_hmc_object - allocate backing store for hmc objects
* @hw: pointer to the HW structure
* @info: pointer to i40e_hmc_create_obj_info struct
*
* This will allocate memory for PDs and backing pages and populate
* the sd and pd entries.
**/
static i40e_status i40e_create_lan_hmc_object(struct i40e_hw *hw,
struct i40e_hmc_lan_create_obj_info *info)
{
i40e_status ret_code = 0;
struct i40e_hmc_sd_entry *sd_entry;
u32 pd_idx1 = 0, pd_lmt1 = 0;
u32 pd_idx = 0, pd_lmt = 0;
bool pd_error = false;
u32 sd_idx, sd_lmt;
u64 sd_size;
u32 i, j;
if (NULL == info) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_create_lan_hmc_object: bad info ptr\n");
goto exit;
}
if (NULL == info->hmc_info) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_create_lan_hmc_object: bad hmc_info ptr\n");
goto exit;
}
if (I40E_HMC_INFO_SIGNATURE != info->hmc_info->signature) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_create_lan_hmc_object: bad signature\n");
goto exit;
}
if (info->start_idx >= info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_INDEX;
hw_dbg(hw, "i40e_create_lan_hmc_object: returns error %d\n",
ret_code);
goto exit;
}
if ((info->start_idx + info->count) >
info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_COUNT;
hw_dbg(hw, "i40e_create_lan_hmc_object: returns error %d\n",
ret_code);
goto exit;
}
/* find sd index and limit */
I40E_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) {
ret_code = I40E_ERR_INVALID_SD_INDEX;
goto exit;
}
/* find pd index */
I40E_FIND_PD_INDEX_LIMIT(info->hmc_info, info->rsrc_type,
info->start_idx, info->count, &pd_idx,
&pd_lmt);
/* This is to cover for cases where you may not want to have an SD with
* the full 2M memory but something smaller. By not filling out any
* size, the function will default the SD size to be 2M.
*/
if (info->direct_mode_sz == 0)
sd_size = I40E_HMC_DIRECT_BP_SIZE;
else
sd_size = info->direct_mode_sz;
/* check if all the sds are valid. If not, allocate a page and
* initialize it.
*/
for (j = sd_idx; j < sd_lmt; j++) {
/* update the sd table entry */
ret_code = i40e_add_sd_table_entry(hw, info->hmc_info, j,
info->entry_type,
sd_size);
if (ret_code)
goto exit_sd_error;
sd_entry = &info->hmc_info->sd_table.sd_entry[j];
if (I40E_SD_TYPE_PAGED == sd_entry->entry_type) {
/* check if all the pds in this sd are valid. If not,
* allocate a page and initialize it.
*/
/* find pd_idx and pd_lmt in this sd */
pd_idx1 = max(pd_idx, (j * I40E_HMC_MAX_BP_COUNT));
pd_lmt1 = min(pd_lmt,
((j + 1) * I40E_HMC_MAX_BP_COUNT));
for (i = pd_idx1; i < pd_lmt1; i++) {
/* update the pd table entry */
ret_code = i40e_add_pd_table_entry(hw,
info->hmc_info,
i, NULL);
if (ret_code) {
pd_error = true;
break;
}
}
if (pd_error) {
/* remove the backing pages from pd_idx1 to i */
while (i && (i > pd_idx1)) {
i40e_remove_pd_bp(hw, info->hmc_info,
(i - 1));
i--;
}
}
}
if (!sd_entry->valid) {
sd_entry->valid = true;
switch (sd_entry->entry_type) {
case I40E_SD_TYPE_PAGED:
I40E_SET_PF_SD_ENTRY(hw,
sd_entry->u.pd_table.pd_page_addr.pa,
j, sd_entry->entry_type);
break;
case I40E_SD_TYPE_DIRECT:
I40E_SET_PF_SD_ENTRY(hw, sd_entry->u.bp.addr.pa,
j, sd_entry->entry_type);
break;
default:
ret_code = I40E_ERR_INVALID_SD_TYPE;
goto exit;
}
}
}
goto exit;
exit_sd_error:
/* cleanup for sd entries from j to sd_idx */
while (j && (j > sd_idx)) {
sd_entry = &info->hmc_info->sd_table.sd_entry[j - 1];
switch (sd_entry->entry_type) {
case I40E_SD_TYPE_PAGED:
pd_idx1 = max(pd_idx,
((j - 1) * I40E_HMC_MAX_BP_COUNT));
pd_lmt1 = min(pd_lmt, (j * I40E_HMC_MAX_BP_COUNT));
for (i = pd_idx1; i < pd_lmt1; i++)
i40e_remove_pd_bp(hw, info->hmc_info, i);
i40e_remove_pd_page(hw, info->hmc_info, (j - 1));
break;
case I40E_SD_TYPE_DIRECT:
i40e_remove_sd_bp(hw, info->hmc_info, (j - 1));
break;
default:
ret_code = I40E_ERR_INVALID_SD_TYPE;
break;
}
j--;
}
exit:
return ret_code;
}
/**
* i40e_configure_lan_hmc - prepare the HMC backing store
* @hw: pointer to the hw structure
* @model: the model for the layout of the SD/PD tables
*
* - This function will be called once per physical function initialization.
* - This function will be called after i40e_init_lan_hmc() and before
* any LAN/FCoE HMC objects can be created.
**/
i40e_status i40e_configure_lan_hmc(struct i40e_hw *hw,
enum i40e_hmc_model model)
{
struct i40e_hmc_lan_create_obj_info info;
i40e_status ret_code = 0;
u8 hmc_fn_id = hw->hmc.hmc_fn_id;
struct i40e_hmc_obj_info *obj;
/* Initialize part of the create object info struct */
info.hmc_info = &hw->hmc;
info.rsrc_type = I40E_HMC_LAN_FULL;
info.start_idx = 0;
info.direct_mode_sz = hw->hmc.hmc_obj[I40E_HMC_LAN_FULL].size;
/* Build the SD entry for the LAN objects */
switch (model) {
case I40E_HMC_MODEL_DIRECT_PREFERRED:
case I40E_HMC_MODEL_DIRECT_ONLY:
info.entry_type = I40E_SD_TYPE_DIRECT;
/* Make one big object, a single SD */
info.count = 1;
ret_code = i40e_create_lan_hmc_object(hw, &info);
if (ret_code && (model == I40E_HMC_MODEL_DIRECT_PREFERRED))
goto try_type_paged;
else if (ret_code)
goto configure_lan_hmc_out;
/* else clause falls through the break */
break;
case I40E_HMC_MODEL_PAGED_ONLY:
try_type_paged:
info.entry_type = I40E_SD_TYPE_PAGED;
/* Make one big object in the PD table */
info.count = 1;
ret_code = i40e_create_lan_hmc_object(hw, &info);
if (ret_code)
goto configure_lan_hmc_out;
break;
default:
/* unsupported type */
ret_code = I40E_ERR_INVALID_SD_TYPE;
hw_dbg(hw, "i40e_configure_lan_hmc: Unknown SD type: %d\n",
ret_code);
goto configure_lan_hmc_out;
}
/* Configure and program the FPM registers so objects can be created */
/* Tx contexts */
obj = &hw->hmc.hmc_obj[I40E_HMC_LAN_TX];
wr32(hw, I40E_GLHMC_LANTXBASE(hmc_fn_id),
(u32)((obj->base & I40E_GLHMC_LANTXBASE_FPMLANTXBASE_MASK) / 512));
wr32(hw, I40E_GLHMC_LANTXCNT(hmc_fn_id), obj->cnt);
/* Rx contexts */
obj = &hw->hmc.hmc_obj[I40E_HMC_LAN_RX];
wr32(hw, I40E_GLHMC_LANRXBASE(hmc_fn_id),
(u32)((obj->base & I40E_GLHMC_LANRXBASE_FPMLANRXBASE_MASK) / 512));
wr32(hw, I40E_GLHMC_LANRXCNT(hmc_fn_id), obj->cnt);
/* FCoE contexts */
obj = &hw->hmc.hmc_obj[I40E_HMC_FCOE_CTX];
wr32(hw, I40E_GLHMC_FCOEDDPBASE(hmc_fn_id),
(u32)((obj->base & I40E_GLHMC_FCOEDDPBASE_FPMFCOEDDPBASE_MASK) / 512));
wr32(hw, I40E_GLHMC_FCOEDDPCNT(hmc_fn_id), obj->cnt);
/* FCoE filters */
obj = &hw->hmc.hmc_obj[I40E_HMC_FCOE_FILT];
wr32(hw, I40E_GLHMC_FCOEFBASE(hmc_fn_id),
(u32)((obj->base & I40E_GLHMC_FCOEFBASE_FPMFCOEFBASE_MASK) / 512));
wr32(hw, I40E_GLHMC_FCOEFCNT(hmc_fn_id), obj->cnt);
configure_lan_hmc_out:
return ret_code;
}
/**
* i40e_delete_hmc_object - remove hmc objects
* @hw: pointer to the HW structure
* @info: pointer to i40e_hmc_delete_obj_info struct
*
* 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.
**/
static i40e_status i40e_delete_lan_hmc_object(struct i40e_hw *hw,
struct i40e_hmc_lan_delete_obj_info *info)
{
i40e_status ret_code = 0;
struct i40e_hmc_pd_table *pd_table;
u32 pd_idx, pd_lmt, rel_pd_idx;
u32 sd_idx, sd_lmt;
u32 i, j;
if (NULL == info) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_delete_hmc_object: bad info ptr\n");
goto exit;
}
if (NULL == info->hmc_info) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_delete_hmc_object: bad info->hmc_info ptr\n");
goto exit;
}
if (I40E_HMC_INFO_SIGNATURE != info->hmc_info->signature) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_delete_hmc_object: bad hmc_info->signature\n");
goto exit;
}
if (NULL == info->hmc_info->sd_table.sd_entry) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_delete_hmc_object: bad sd_entry\n");
goto exit;
}
if (NULL == info->hmc_info->hmc_obj) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_delete_hmc_object: bad hmc_info->hmc_obj\n");
goto exit;
}
if (info->start_idx >= info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_INDEX;
hw_dbg(hw, "i40e_delete_hmc_object: returns error %d\n",
ret_code);
goto exit;
}
if ((info->start_idx + info->count) >
info->hmc_info->hmc_obj[info->rsrc_type].cnt) {
ret_code = I40E_ERR_INVALID_HMC_OBJ_COUNT;
hw_dbg(hw, "i40e_delete_hmc_object: returns error %d\n",
ret_code);
goto exit;
}
I40E_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 / I40E_HMC_PD_CNT_IN_SD;
if (I40E_SD_TYPE_PAGED !=
info->hmc_info->sd_table.sd_entry[sd_idx].entry_type)
continue;
rel_pd_idx = j % I40E_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 = i40e_remove_pd_bp(hw, info->hmc_info, j);
if (ret_code)
goto exit;
}
}
/* find sd index and limit */
I40E_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) {
ret_code = I40E_ERR_INVALID_SD_INDEX;
goto exit;
}
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 I40E_SD_TYPE_DIRECT:
ret_code = i40e_remove_sd_bp(hw, info->hmc_info, i);
if (ret_code)
goto exit;
break;
case I40E_SD_TYPE_PAGED:
ret_code = i40e_remove_pd_page(hw, info->hmc_info, i);
if (ret_code)
goto exit;
break;
default:
break;
}
}
exit:
return ret_code;
}
/**
* i40e_shutdown_lan_hmc - Remove HMC backing store, free allocated memory
* @hw: pointer to the hw structure
*
* This must be called by drivers as they are shutting down and being
* removed from the OS.
**/
i40e_status i40e_shutdown_lan_hmc(struct i40e_hw *hw)
{
struct i40e_hmc_lan_delete_obj_info info;
i40e_status ret_code;
info.hmc_info = &hw->hmc;
info.rsrc_type = I40E_HMC_LAN_FULL;
info.start_idx = 0;
info.count = 1;
/* delete the object */
ret_code = i40e_delete_lan_hmc_object(hw, &info);
/* free the SD table entry for LAN */
i40e_free_virt_mem(hw, &hw->hmc.sd_table.addr);
hw->hmc.sd_table.sd_cnt = 0;
hw->hmc.sd_table.sd_entry = NULL;
/* free memory used for hmc_obj */
i40e_free_virt_mem(hw, &hw->hmc.hmc_obj_virt_mem);
hw->hmc.hmc_obj = NULL;
return ret_code;
}
#define I40E_HMC_STORE(_struct, _ele) \
offsetof(struct _struct, _ele), \
FIELD_SIZEOF(struct _struct, _ele)
struct i40e_context_ele {
u16 offset;
u16 size_of;
u16 width;
u16 lsb;
};
/* LAN Tx Queue Context */
static struct i40e_context_ele i40e_hmc_txq_ce_info[] = {
/* Field Width LSB */
{I40E_HMC_STORE(i40e_hmc_obj_txq, head), 13, 0 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, new_context), 1, 30 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, base), 57, 32 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, fc_ena), 1, 89 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, timesync_ena), 1, 90 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, fd_ena), 1, 91 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, alt_vlan_ena), 1, 92 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, cpuid), 8, 96 },
/* line 1 */
{I40E_HMC_STORE(i40e_hmc_obj_txq, thead_wb), 13, 0 + 128 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, head_wb_ena), 1, 32 + 128 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, qlen), 13, 33 + 128 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, tphrdesc_ena), 1, 46 + 128 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, tphrpacket_ena), 1, 47 + 128 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, tphwdesc_ena), 1, 48 + 128 },
{I40E_HMC_STORE(i40e_hmc_obj_txq, head_wb_addr), 64, 64 + 128 },
/* line 7 */
{I40E_HMC_STORE(i40e_hmc_obj_txq, crc), 32, 0 + (7 * 128) },
{I40E_HMC_STORE(i40e_hmc_obj_txq, rdylist), 10, 84 + (7 * 128) },
{I40E_HMC_STORE(i40e_hmc_obj_txq, rdylist_act), 1, 94 + (7 * 128) },
{ 0 }
};
/* LAN Rx Queue Context */
static struct i40e_context_ele i40e_hmc_rxq_ce_info[] = {
/* Field Width LSB */
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, head), 13, 0 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, cpuid), 8, 13 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, base), 57, 32 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, qlen), 13, 89 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, dbuff), 7, 102 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, hbuff), 5, 109 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, dtype), 2, 114 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, dsize), 1, 116 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, crcstrip), 1, 117 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, fc_ena), 1, 118 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, l2tsel), 1, 119 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, hsplit_0), 4, 120 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, hsplit_1), 2, 124 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, showiv), 1, 127 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, rxmax), 14, 174 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, tphrdesc_ena), 1, 193 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, tphwdesc_ena), 1, 194 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, tphdata_ena), 1, 195 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, tphhead_ena), 1, 196 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, lrxqthresh), 3, 198 },
{ I40E_HMC_STORE(i40e_hmc_obj_rxq, prefena), 1, 201 },
{ 0 }
};
/**
* i40e_write_byte - replace HMC context byte
* @hmc_bits: pointer to the HMC memory
* @ce_info: a description of the struct to be read from
* @src: the struct to be read from
**/
static void i40e_write_byte(u8 *hmc_bits,
struct i40e_context_ele *ce_info,
u8 *src)
{
u8 src_byte, dest_byte, mask;
u8 *from, *dest;
u16 shift_width;
/* copy from the next struct field */
from = src + ce_info->offset;
/* prepare the bits and mask */
shift_width = ce_info->lsb % 8;
mask = BIT(ce_info->width) - 1;
src_byte = *from;
src_byte &= mask;
/* shift to correct alignment */
mask <<= shift_width;
src_byte <<= shift_width;
/* get the current bits from the target bit string */
dest = hmc_bits + (ce_info->lsb / 8);
memcpy(&dest_byte, dest, sizeof(dest_byte));
dest_byte &= ~mask; /* get the bits not changing */
dest_byte |= src_byte; /* add in the new bits */
/* put it all back */
memcpy(dest, &dest_byte, sizeof(dest_byte));
}
/**
* i40e_write_word - replace HMC context word
* @hmc_bits: pointer to the HMC memory
* @ce_info: a description of the struct to be read from
* @src: the struct to be read from
**/
static void i40e_write_word(u8 *hmc_bits,
struct i40e_context_ele *ce_info,
u8 *src)
{
u16 src_word, mask;
u8 *from, *dest;
u16 shift_width;
__le16 dest_word;
/* copy from the next struct field */
from = src + ce_info->offset;
/* prepare the bits and mask */
shift_width = ce_info->lsb % 8;
mask = BIT(ce_info->width) - 1;
/* don't swizzle the bits until after the mask because the mask bits
* will be in a different bit position on big endian machines
*/
src_word = *(u16 *)from;
src_word &= mask;
/* shift to correct alignment */
mask <<= shift_width;
src_word <<= shift_width;
/* get the current bits from the target bit string */
dest = hmc_bits + (ce_info->lsb / 8);
memcpy(&dest_word, dest, sizeof(dest_word));
dest_word &= ~(cpu_to_le16(mask)); /* get the bits not changing */
dest_word |= cpu_to_le16(src_word); /* add in the new bits */
/* put it all back */
memcpy(dest, &dest_word, sizeof(dest_word));
}
/**
* i40e_write_dword - replace HMC context dword
* @hmc_bits: pointer to the HMC memory
* @ce_info: a description of the struct to be read from
* @src: the struct to be read from
**/
static void i40e_write_dword(u8 *hmc_bits,
struct i40e_context_ele *ce_info,
u8 *src)
{
u32 src_dword, mask;
u8 *from, *dest;
u16 shift_width;
__le32 dest_dword;
/* copy from the next struct field */
from = src + ce_info->offset;
/* prepare the bits and mask */
shift_width = ce_info->lsb % 8;
/* if the field width is exactly 32 on an x86 machine, then the shift
* operation will not work because the SHL instructions count is masked
* to 5 bits so the shift will do nothing
*/
if (ce_info->width < 32)
mask = BIT(ce_info->width) - 1;
else
mask = ~(u32)0;
/* don't swizzle the bits until after the mask because the mask bits
* will be in a different bit position on big endian machines
*/
src_dword = *(u32 *)from;
src_dword &= mask;
/* shift to correct alignment */
mask <<= shift_width;
src_dword <<= shift_width;
/* get the current bits from the target bit string */
dest = hmc_bits + (ce_info->lsb / 8);
memcpy(&dest_dword, dest, sizeof(dest_dword));
dest_dword &= ~(cpu_to_le32(mask)); /* get the bits not changing */
dest_dword |= cpu_to_le32(src_dword); /* add in the new bits */
/* put it all back */
memcpy(dest, &dest_dword, sizeof(dest_dword));
}
/**
* i40e_write_qword - replace HMC context qword
* @hmc_bits: pointer to the HMC memory
* @ce_info: a description of the struct to be read from
* @src: the struct to be read from
**/
static void i40e_write_qword(u8 *hmc_bits,
struct i40e_context_ele *ce_info,
u8 *src)
{
u64 src_qword, mask;
u8 *from, *dest;
u16 shift_width;
__le64 dest_qword;
/* copy from the next struct field */
from = src + ce_info->offset;
/* prepare the bits and mask */
shift_width = ce_info->lsb % 8;
/* if the field width is exactly 64 on an x86 machine, then the shift
* operation will not work because the SHL instructions count is masked
* to 6 bits so the shift will do nothing
*/
if (ce_info->width < 64)
mask = BIT_ULL(ce_info->width) - 1;
else
mask = ~(u64)0;
/* don't swizzle the bits until after the mask because the mask bits
* will be in a different bit position on big endian machines
*/
src_qword = *(u64 *)from;
src_qword &= mask;
/* shift to correct alignment */
mask <<= shift_width;
src_qword <<= shift_width;
/* get the current bits from the target bit string */
dest = hmc_bits + (ce_info->lsb / 8);
memcpy(&dest_qword, dest, sizeof(dest_qword));
dest_qword &= ~(cpu_to_le64(mask)); /* get the bits not changing */
dest_qword |= cpu_to_le64(src_qword); /* add in the new bits */
/* put it all back */
memcpy(dest, &dest_qword, sizeof(dest_qword));
}
/**
* i40e_clear_hmc_context - zero out the HMC context bits
* @hw: the hardware struct
* @context_bytes: pointer to the context bit array (DMA memory)
* @hmc_type: the type of HMC resource
**/
static i40e_status i40e_clear_hmc_context(struct i40e_hw *hw,
u8 *context_bytes,
enum i40e_hmc_lan_rsrc_type hmc_type)
{
/* clean the bit array */
memset(context_bytes, 0, (u32)hw->hmc.hmc_obj[hmc_type].size);
return 0;
}
/**
* i40e_set_hmc_context - replace HMC context bits
* @context_bytes: pointer to the context bit array
* @ce_info: a description of the struct to be filled
* @dest: the struct to be filled
**/
static i40e_status i40e_set_hmc_context(u8 *context_bytes,
struct i40e_context_ele *ce_info,
u8 *dest)
{
int f;
for (f = 0; ce_info[f].width != 0; f++) {
/* we have to deal with each element of the HMC using the
* correct size so that we are correct regardless of the
* endianness of the machine
*/
switch (ce_info[f].size_of) {
case 1:
i40e_write_byte(context_bytes, &ce_info[f], dest);
break;
case 2:
i40e_write_word(context_bytes, &ce_info[f], dest);
break;
case 4:
i40e_write_dword(context_bytes, &ce_info[f], dest);
break;
case 8:
i40e_write_qword(context_bytes, &ce_info[f], dest);
break;
}
}
return 0;
}
/**
* i40e_hmc_get_object_va - retrieves an object's virtual address
* @hmc_info: pointer to i40e_hmc_info struct
* @object_base: pointer to u64 to get the va
* @rsrc_type: the hmc resource type
* @obj_idx: hmc object index
*
* This function retrieves the object's virtual address from the object
* base pointer. This function is used for LAN Queue contexts.
**/
static
i40e_status i40e_hmc_get_object_va(struct i40e_hmc_info *hmc_info,
u8 **object_base,
enum i40e_hmc_lan_rsrc_type rsrc_type,
u32 obj_idx)
{
u32 obj_offset_in_sd, obj_offset_in_pd;
i40e_status ret_code = 0;
struct i40e_hmc_sd_entry *sd_entry;
struct i40e_hmc_pd_entry *pd_entry;
u32 pd_idx, pd_lmt, rel_pd_idx;
u64 obj_offset_in_fpm;
u32 sd_idx, sd_lmt;
if (NULL == hmc_info) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_hmc_get_object_va: bad hmc_info ptr\n");
goto exit;
}
if (NULL == hmc_info->hmc_obj) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_hmc_get_object_va: bad hmc_info->hmc_obj ptr\n");
goto exit;
}
if (NULL == object_base) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_hmc_get_object_va: bad object_base ptr\n");
goto exit;
}
if (I40E_HMC_INFO_SIGNATURE != hmc_info->signature) {
ret_code = I40E_ERR_BAD_PTR;
hw_dbg(hw, "i40e_hmc_get_object_va: bad hmc_info->signature\n");
goto exit;
}
if (obj_idx >= hmc_info->hmc_obj[rsrc_type].cnt) {
hw_dbg(hw, "i40e_hmc_get_object_va: returns error %d\n",
ret_code);
ret_code = I40E_ERR_INVALID_HMC_OBJ_INDEX;
goto exit;
}
/* find sd index and limit */
I40E_FIND_SD_INDEX_LIMIT(hmc_info, rsrc_type, obj_idx, 1,
&sd_idx, &sd_lmt);
sd_entry = &hmc_info->sd_table.sd_entry[sd_idx];
obj_offset_in_fpm = hmc_info->hmc_obj[rsrc_type].base +
hmc_info->hmc_obj[rsrc_type].size * obj_idx;
if (I40E_SD_TYPE_PAGED == sd_entry->entry_type) {
I40E_FIND_PD_INDEX_LIMIT(hmc_info, rsrc_type, obj_idx, 1,
&pd_idx, &pd_lmt);
rel_pd_idx = pd_idx % I40E_HMC_PD_CNT_IN_SD;
pd_entry = &sd_entry->u.pd_table.pd_entry[rel_pd_idx];
obj_offset_in_pd = (u32)(obj_offset_in_fpm %
I40E_HMC_PAGED_BP_SIZE);
*object_base = (u8 *)pd_entry->bp.addr.va + obj_offset_in_pd;
} else {
obj_offset_in_sd = (u32)(obj_offset_in_fpm %
I40E_HMC_DIRECT_BP_SIZE);
*object_base = (u8 *)sd_entry->u.bp.addr.va + obj_offset_in_sd;
}
exit:
return ret_code;
}
/**
* i40e_clear_lan_tx_queue_context - clear the HMC context for the queue
* @hw: the hardware struct
* @queue: the queue we care about
**/
i40e_status i40e_clear_lan_tx_queue_context(struct i40e_hw *hw,
u16 queue)
{
i40e_status err;
u8 *context_bytes;
err = i40e_hmc_get_object_va(&hw->hmc, &context_bytes,
I40E_HMC_LAN_TX, queue);
if (err < 0)
return err;
return i40e_clear_hmc_context(hw, context_bytes, I40E_HMC_LAN_TX);
}
/**
* i40e_set_lan_tx_queue_context - set the HMC context for the queue
* @hw: the hardware struct
* @queue: the queue we care about
* @s: the struct to be filled
**/
i40e_status i40e_set_lan_tx_queue_context(struct i40e_hw *hw,
u16 queue,
struct i40e_hmc_obj_txq *s)
{
i40e_status err;
u8 *context_bytes;
err = i40e_hmc_get_object_va(&hw->hmc, &context_bytes,
I40E_HMC_LAN_TX, queue);
if (err < 0)
return err;
return i40e_set_hmc_context(context_bytes,
i40e_hmc_txq_ce_info, (u8 *)s);
}
/**
* i40e_clear_lan_rx_queue_context - clear the HMC context for the queue
* @hw: the hardware struct
* @queue: the queue we care about
**/
i40e_status i40e_clear_lan_rx_queue_context(struct i40e_hw *hw,
u16 queue)
{
i40e_status err;
u8 *context_bytes;
err = i40e_hmc_get_object_va(&hw->hmc, &context_bytes,
I40E_HMC_LAN_RX, queue);
if (err < 0)
return err;
return i40e_clear_hmc_context(hw, context_bytes, I40E_HMC_LAN_RX);
}
/**
* i40e_set_lan_rx_queue_context - set the HMC context for the queue
* @hw: the hardware struct
* @queue: the queue we care about
* @s: the struct to be filled
**/
i40e_status i40e_set_lan_rx_queue_context(struct i40e_hw *hw,
u16 queue,
struct i40e_hmc_obj_rxq *s)
{
i40e_status err;
u8 *context_bytes;
err = i40e_hmc_get_object_va(&hw->hmc, &context_bytes,
I40E_HMC_LAN_RX, queue);
if (err < 0)
return err;
return i40e_set_hmc_context(context_bytes,
i40e_hmc_rxq_ce_info, (u8 *)s);
}